remove luajit-2.0 (as it does not follow git subtree anymore)

199 files changed, 0 insertions, 114914 deletions

diff --git a/luajit-2.0/.gitignore b/luajit-2.0/.gitignore
deleted file mode 100644
index 1a07bf7..0000000
--- a/luajit-2.0/.gitignore
+++ /dev/null
@@ -1,11 +0,0 @@
-*.[oa]
-*.so
-*.obj
-*.lib
-*.exp
-*.dll
-*.exe
-*.manifest
-*.dmp
-*.swp
-.tags
diff --git a/luajit-2.0/CMakeLists.txt b/luajit-2.0/CMakeLists.txt
deleted file mode 100644
index a9a19a0..0000000
--- a/luajit-2.0/CMakeLists.txt
+++ /dev/null
@@ -1,373 +0,0 @@
-# This CMakeLists.txt has been first taken from LuaDist
-# Copyright (C) 2007-2011 LuaDist.
-# Created by Peter Drahoš
-# Redistribution and use of this file is allowed according to the terms of the MIT license.
-# Debugged and (now seriously) modified by Ronan Collobert, for Torch7
-
-project(LuaJIT C ASM)
-
-IF(APPLE)
-  CMAKE_MINIMUM_REQUIRED(VERSION 2.8.12 FATAL_ERROR)
-  CMAKE_POLICY(VERSION 2.8.12)
-  SET(CMAKE_MACOSX_RPATH TRUE) # @rpath in libs
-ELSE()
-  CMAKE_MINIMUM_REQUIRED(VERSION 2.8 FATAL_ERROR)
-  CMAKE_POLICY(VERSION 2.8)
-ENDIF()
-
-SET(CMAKE_MODULE_PATH "${CMAKE_CURRENT_SOURCE_DIR}/cmake"
-                      "${CMAKE_MODULE_PATH}")
-
-OPTION(WITH_AMALG "Build eveything in one shot (needs memory)" ON)
-
-SET(INSTALL_INCLUDE_SUBDIR "include" CACHE STRING "installation include subdirectory name")
-IF(WIN32)
-  SET(INSTALL_BIN_SUBDIR "." CACHE STRING "installation executable subdirectory name")
-  SET(INSTALL_LIB_SUBDIR "." CACHE STRING "installation library subdirectory name")
-  SET(INSTALL_LUA_PATH_SUBDIR "lua") # not editable
-  SET(INSTALL_LUA_CPATH_SUBDIR ".") # not editable
-ELSE()
-  SET(INSTALL_BIN_SUBDIR "bin" CACHE STRING "installation executable subdirectory name")
-  SET(INSTALL_LIB_SUBDIR "lib" CACHE STRING "installation library subdirectory name")
-  SET(INSTALL_LUA_PATH_SUBDIR "share/lua/5.1") # not editable
-  SET(INSTALL_LUA_LIB_SUBDIR "lib" CACHE STRING "installation lua lib subdirectory name")
-  SET(INSTALL_LUA_CPATH_SUBDIR "${INSTALL_LUA_LIB_SUBDIR}/lua/5.1") # not editable
-ENDIF()
-
-ADD_DEFINITIONS(-DLUA_MULTILIB="${INSTALL_LUA_LIB_SUBDIR}")
-
-IF(UNIX)
-  IF(NOT CMAKE_INSTALL_PREFIX STREQUAL "/usr/local")
-    ADD_DEFINITIONS(-DLUA_ROOT="${CMAKE_INSTALL_PREFIX}")
-  ENDIF()
-ENDIF()
-
-# Ugly warnings
-IF(MSVC)
-  ADD_DEFINITIONS(-D_CRT_SECURE_NO_WARNINGS)
-ENDIF()
-
-# Readline support
-FIND_PACKAGE(Readline)
-IF(READLINE_FOUND)
-  ADD_DEFINITIONS("-DLUA_USE_READLINE")
-  LIST(APPEND LIBS ${READLINE_LIBRARIES})
-  INCLUDE_DIRECTORIES(${READLINE_INCLUDE_DIR})
-ENDIF()
-
-# Various includes
-INCLUDE(CheckLibraryExists)
-INCLUDE(CheckFunctionExists)
-INCLUDE(CheckCSourceCompiles)
-INCLUDE(CheckTypeSize)
-
-# LuaJIT specific
-option ( LUAJIT_DISABLE_FFI "Disable FFI." OFF )
-option ( LUAJIT_ENABLE_LUA52COMPAT "Enable Lua 5.2 compatibility." ON )
-option ( LUAJIT_DISABLE_JIT "Disable JIT." OFF )
-option ( LUAJIT_CPU_SSE2 "Use SSE2 instead of x87 instructions." ON )
-option ( LUAJIT_CPU_NOCMOV "Disable NOCMOV." OFF )
-
-option ( LUAJIT_USE_SYSMALLOC "LuaJIT uses sysmalloc?" OFF )
-option ( LUAJIT_USE_VALGRIND "Luajit compatible with Valgrind?" OFF )
-option ( LUAJIT_USE_GDBJIT "Luajit uses GDBJIT?" OFF )
-option ( LUA_USE_APICHECK "LuaJIT does API checks?" OFF )
-option ( LUA_USE_ASSERT "LuaJIT does asserts?" OFF )
-
-MARK_AS_ADVANCED(
-  LUAJIT_DISABLE_FFI
-  LUAJIT_ENABLE_LUA52COMPAT
-  LUAJIT_DISABLE_JIT
-  LUAJIT_CPU_SSE2
-  LUAJIT_CPU_NOCMOV
-  LUAJIT_USE_SYSMALLOC
-  LUAJIT_USE_VALGRIND
-  LUAJIT_USE_GDBJIT
-  LUA_USE_APICHECK
-  LUA_USE_ASSERT
-  )
-
-IF(LUAJIT_DISABLE_FFI)
-  ADD_DEFINITIONS(-DLUAJIT_DISABLE_FFI)
-ENDIF()
-
-IF(LUAJIT_ENABLE_LUA52COMPAT)
-  ADD_DEFINITIONS(-DLUAJIT_ENABLE_LUA52COMPAT)
-ENDIF()
-
-IF(LUAJIT_DISABLE_JIT)
-  ADD_DEFINITIONS(-DLUAJIT_DISABLE_JIT)
-ENDIF()
-
-IF(LUAJIT_CPU_SSE2)
-  ADD_DEFINITIONS(-DLUAJIT_CPU_SSE2)
-ENDIF()
-
-IF(LUAJIT_CPU_NOCMOV)
-  ADD_DEFINITIONS(-DLUAJIT_CPU_NOCMOV)
-ENDIF()
-
-IF(LUAJIT_USE_SYSMALLOC)
-  ADD_DEFINITIONS(-DLUAJIT_USE_SYSMALLOC)
-ENDIF()
-
-IF(LUAJIT_USE_VALGRIND)
-  ADD_DEFINITIONS(-DLUAJIT_USE_VALGRIND)
-ENDIF()
-
-IF(LUAJIT_USE_GDBJIT)
-  ADD_DEFINITIONS(-DLUAJIT_USE_GDBJIT)
-ENDIF()
-
-IF(LUA_USE_APICHECK)
-  ADD_DEFINITIONS(-DLUA_USE_APICHECK)
-ENDIF()
-
-IF(LUA_USE_ASSERT)
-  ADD_DEFINITIONS(-DLUA_USE_ASSERT)
-ENDIF()
-
-######
-
-CHECK_TYPE_SIZE("void*" SIZEOF_VOID_P)
-IF(SIZEOF_VOID_P EQUAL 8)
-  ADD_DEFINITIONS(-D_FILE_OFFSET_BITS=64 -D_LARGEFILE_SOURCE)
-ENDIF()
-
-if ( WIN32 AND NOT CYGWIN )
-  set(LUA_BUILD_AS_DLL 1)
-  add_definitions ( -DLUA_BUILD_AS_DLL -DLUAJIT_OS=LUAJIT_OS_WINDOWS)
-  set ( LJVM_MODE coffasm )
-elseif ( APPLE )
-  set ( CMAKE_EXE_LINKER_FLAGS "-pagezero_size 10000 -image_base 100000000 ${CMAKE_EXE_LINKER_FLAGS}" )
-  set ( LJVM_MODE machasm )
-else ()
-  set ( LJVM_MODE elfasm )
-endif ()
-
-IF(NOT WIN32)
-  FIND_LIBRARY(DL_LIBRARY "dl")
-  IF(DL_LIBRARY)
-    SET(CMAKE_REQUIRED_LIBRARIES ${DL_LIBRARY})
-    LIST(APPEND LIBS ${DL_LIBRARY})
-  ENDIF(DL_LIBRARY)
-  CHECK_FUNCTION_EXISTS(dlopen LUA_USE_DLOPEN)
-  IF(NOT LUA_USE_DLOPEN)
-    MESSAGE(FATAL_ERROR "Cannot compile a useful lua.
-Function dlopen() seems not to be supported on your platform.
-Apparently you are not on a Windows platform as well.
-So lua has no way to deal with shared libraries!")
-  ENDIF(NOT LUA_USE_DLOPEN)
-ENDIF(NOT WIN32)
-
-CHECK_LIBRARY_EXISTS(m sin "" LUA_USE_LIBM)
-if ( LUA_USE_LIBM )
-  list ( APPEND LIBS m )
-endif ()
-
-## SOURCES
-INSTALL(FILES src/luaconf.h src/lua.h src/lauxlib.h src/lualib.h
-              src/lua.hpp src/luajit.h
-  DESTINATION "${INSTALL_INCLUDE_SUBDIR}")
-
-MACRO(LJ_TEST_ARCH stuff)
-  CHECK_C_SOURCE_COMPILES("
-#undef ${stuff}
-#include \"lj_arch.h\"
-#if ${stuff}
-int main() { return 0; }
-#else
-#error \"not defined\"
-#endif
-" ${stuff})
-ENDMACRO()
-
-MACRO(LJ_TEST_ARCH_VALUE stuff value)
-  CHECK_C_SOURCE_COMPILES("
-#undef ${stuff}
-#include \"lj_arch.h\"
-#if ${stuff} == ${value}
-int main() { return 0; }
-#else
-#error \"not defined\"
-#endif
-" ${stuff}_${value})
-ENDMACRO()
-
-SET(CMAKE_REQUIRED_INCLUDES ${CMAKE_CURRENT_BINARY_DIR} ${CMAKE_CURRENT_SOURCE_DIR}/src)
-FOREACH(arch X64 X86 ARM PPC PPCSPE MIPS)
-  LJ_TEST_ARCH(LJ_TARGET_${arch})
-  if(LJ_TARGET_${arch})
-    STRING(TOLOWER ${arch} TARGET_LJARCH)
-    MESSAGE(STATUS "LuaJIT Target: ${TARGET_LJARCH}")
-    BREAK()
-  ENDIF()
-ENDFOREACH()
-
-IF(NOT TARGET_LJARCH)
-  MESSAGE(FATAL_ERROR "architecture not supported")
-ELSE()
-  MESSAGE(STATUS "LuaJIT target ${TARGET_LJARCH}")
-ENDIF()
-
-SET(DASM_ARCH ${TARGET_LJARCH})
-SET(DASM_FLAGS)
-SET(TARGET_ARCH)
-LIST(APPEND TARGET_ARCH "LUAJIT_TARGET=LUAJIT_ARCH_${TARGET_LJARCH}")
-LJ_TEST_ARCH_VALUE(LJ_ARCH_BITS 64)
-IF(LJ_ARCH_BITS_64)
-  SET(DASM_FLAGS ${DASM_FLAGS} -D P64)
-ENDIF()
-LJ_TEST_ARCH_VALUE(LJ_HASJIT 1)
-IF(LJ_HASJIT_1)
-  SET(DASM_FLAGS ${DASM_FLAGS} -D JIT)
-ENDIF()
-LJ_TEST_ARCH_VALUE(LJ_HASFFI 1)
-IF(LJ_HASFFI_1)
-  SET(DASM_FLAGS ${DASM_FLAGS} -D FFI)
-ENDIF()
-LJ_TEST_ARCH_VALUE(LJ_DUALNUM 1)
-IF(LJ_DUALNUM_1)
-  SET(DASM_FLAGS ${DASM_FLAGS} -D DUALNUM)
-ENDIF()
-LJ_TEST_ARCH_VALUE(LJ_ARCH_HASFPU 1)
-IF(LJ_ARCH_HASFPU_1)
-  SET(DASM_FLAGS ${DASM_FLAGS} -D FPU)
-  LIST(APPEND TARGET_ARCH "LJ_ARCH_HASFPU=1")
-ELSE()
-  LIST(APPEND TARGET_ARCH "LJ_ARCH_HASFPU=0")
-ENDIF()
-LJ_TEST_ARCH_VALUE(LJ_ABI_SOFTFP 1)
-IF(NOT LJ_ABI_SOFTFP_1)
-  SET(DASM_FLAGS ${DASM_FLAGS} -D HFABI)
-  LIST(APPEND TARGET_ARCH "LJ_ABI_SOFTFP=0")
-ELSE()
-  LIST(APPEND TARGET_ARCH "LJ_ABI_SOFTFP=1")
-ENDIF()
-IF(WIN32)
-  SET(DASM_FLAGS ${DASM_FLAGS} -LN -D WIN)
-ENDIF()
-IF(TARGET_LJARCH STREQUAL "x86")
-  LJ_TEST_ARCH_VALUE(__SSE2__ 1)
-  IF(__SSE2__1)
-    SET(DASM_FLAGS ${DASM_FLAGS} -D SSE)
-  ENDIF()
-ENDIF()
-IF(TARGET_LJARCH STREQUAL "x64")
-  SET(DASM_ARCH "x86")
-ENDIF()
-IF(TARGET_LJARCH STREQUAL "ppc")
-  LJ_TEST_ARCH_VALUE(LJ_ARCH_SQRT 1)
-  IF(NOT LJ_ARCH_SQRT_1)
-    SET(DASM_FLAGS ${DASM_FLAGS} -D SQRT)
-  ENDIF()
-  LJ_TEST_ARCH_VALUE(LJ_ARCH_PPC64 1)
-  IF(NOT LJ_ARCH_PPC64_1)
-    SET(DASM_FLAGS ${DASM_FLAGS} -D GPR64)
-  ENDIF()
-ENDIF()
-
-add_executable(minilua src/host/minilua.c)
-SET_TARGET_PROPERTIES(minilua PROPERTIES COMPILE_DEFINITIONS "${TARGET_ARCH}")
-CHECK_LIBRARY_EXISTS(m sin "" MINILUA_USE_LIBM)
-if(MINILUA_USE_LIBM)
-  TARGET_LINK_LIBRARIES(minilua m)
-endif()
-
-add_custom_command(OUTPUT ${CMAKE_CURRENT_BINARY_DIR}/buildvm_arch.h
-  COMMAND minilua ${CMAKE_CURRENT_SOURCE_DIR}/dynasm/dynasm.lua ${DASM_FLAGS} -o ${CMAKE_CURRENT_BINARY_DIR}/buildvm_arch.h ${CMAKE_CURRENT_SOURCE_DIR}/src/vm_${DASM_ARCH}.dasc
-  DEPENDS ${CMAKE_CURRENT_SOURCE_DIR}/dynasm/dynasm.lua minilua
-)
-
-SET(SRC_LJLIB src/lib_base.c src/lib_math.c src/lib_bit.c src/lib_string.c src/lib_table.c
-  src/lib_io.c src/lib_os.c src/lib_package.c src/lib_debug.c src/lib_jit.c src/lib_ffi.c)
-
-SET(SRC_LJCORE src/lj_gc.c src/lj_err.c src/lj_char.c src/lj_bc.c src/lj_obj.c
-  src/lj_str.c src/lj_tab.c src/lj_func.c src/lj_udata.c src/lj_meta.c src/lj_debug.c
-  src/lj_state.c src/lj_dispatch.c src/lj_vmevent.c src/lj_vmmath.c src/lj_strscan.c
-  src/lj_api.c src/lj_lex.c src/lj_parse.c src/lj_bcread.c src/lj_bcwrite.c src/lj_load.c
-  src/lj_ir.c src/lj_opt_mem.c src/lj_opt_fold.c src/lj_opt_narrow.c
-  src/lj_opt_dce.c src/lj_opt_loop.c src/lj_opt_split.c src/lj_opt_sink.c
-  src/lj_mcode.c src/lj_snap.c src/lj_record.c src/lj_crecord.c src/lj_ffrecord.c
-  src/lj_asm.c src/lj_trace.c src/lj_gdbjit.c
-  src/lj_ctype.c src/lj_cdata.c src/lj_cconv.c src/lj_ccall.c src/lj_ccallback.c
-  src/lj_carith.c src/lj_clib.c src/lj_cparse.c
-  src/lj_lib.c src/lj_alloc.c src/lib_aux.c
-  ${SRC_LJLIB} src/lib_init.c)
-
-SET(SRC_BUILDVM src/host/buildvm.c src/host/buildvm_asm.c
-src/host/buildvm_peobj.c src/host/buildvm_lib.c src/host/buildvm_fold.c
-${CMAKE_CURRENT_BINARY_DIR}/buildvm_arch.h)
-
-## GENERATE
-ADD_EXECUTABLE(buildvm ${SRC_BUILDVM})
-SET_TARGET_PROPERTIES(buildvm PROPERTIES COMPILE_DEFINITIONS "${TARGET_ARCH}")
-
-macro(add_buildvm_target _target _mode)
-  add_custom_command(OUTPUT ${CMAKE_CURRENT_BINARY_DIR}/${_target}
-    COMMAND buildvm ARGS -m ${_mode} -o ${CMAKE_CURRENT_BINARY_DIR}/${_target} ${ARGN}
-    WORKING_DIRECTORY ${CMAKE_CURRENT_SOURCE_DIR}
-    DEPENDS buildvm ${ARGN}
-  )
-endmacro(add_buildvm_target)
-
-if (MSVC)
-  add_buildvm_target ( lj_vm.obj peobj )
-  set (LJ_VM_SRC ${CMAKE_CURRENT_BINARY_DIR}/lj_vm.obj)
-else ()
-  add_buildvm_target ( lj_vm.s ${LJVM_MODE} )
-  set (LJ_VM_SRC ${CMAKE_CURRENT_BINARY_DIR}/lj_vm.s)
-endif ()
-add_buildvm_target ( lj_ffdef.h   ffdef   ${SRC_LJLIB} )
-add_buildvm_target ( lj_bcdef.h  bcdef  ${SRC_LJLIB} )
-add_buildvm_target ( lj_folddef.h folddef src/lj_opt_fold.c )
-add_buildvm_target ( lj_recdef.h  recdef  ${SRC_LJLIB} )
-add_buildvm_target ( lj_libdef.h  libdef  ${SRC_LJLIB} )
-add_buildvm_target ( vmdef.lua  vmdef  ${SRC_LJLIB} )
-
-SET(DEPS
-  ${LJ_VM_SRC}
-  ${CMAKE_CURRENT_BINARY_DIR}/lj_ffdef.h
-  ${CMAKE_CURRENT_BINARY_DIR}/lj_bcdef.h
-  ${CMAKE_CURRENT_BINARY_DIR}/lj_libdef.h
-  ${CMAKE_CURRENT_BINARY_DIR}/lj_recdef.h
-  ${CMAKE_CURRENT_BINARY_DIR}/lj_folddef.h
-  ${CMAKE_CURRENT_BINARY_DIR}/vmdef.lua
-  )
-
-## COMPILE
-include_directories(BEFORE ${CMAKE_CURRENT_BINARY_DIR} dynasm src)
-
-IF(WITH_AMALG)
-  add_library(libluajit SHARED src/ljamalg.c ${DEPS} )
-ELSE()
-  add_library(libluajit SHARED ${SRC_LJCORE} ${DEPS} )
-ENDIF()
-
-target_link_libraries (libluajit ${LIBS} )
-SET_TARGET_PROPERTIES(libluajit PROPERTIES
-  PREFIX "lib" IMPORT_PREFIX "lib" OUTPUT_NAME "luajit")
-
-IF(WIN32)
-  add_executable(luajit src/luajit.c)
-  target_link_libraries(luajit libluajit)
-ELSE()
-  IF(WITH_AMALG)
-    add_executable(luajit src/luajit.c src/ljamalg.c ${DEPS})
-  ELSE()
-    add_executable(luajit src/luajit.c ${SRC_LJCORE} ${DEPS})
-  ENDIF()
-  target_link_libraries(luajit ${LIBS})
-  SET_TARGET_PROPERTIES(luajit PROPERTIES ENABLE_EXPORTS ON)
-ENDIF()
-
-INSTALL(TARGETS libluajit luajit
-  EXPORT torch-exports
-  RUNTIME DESTINATION "${INSTALL_BIN_SUBDIR}"
-  LIBRARY DESTINATION "${INSTALL_LIB_SUBDIR}"
-  ARCHIVE DESTINATION "${INSTALL_LIB_SUBDIR}")
-
-INSTALL(FILES
-  src/jit/bc.lua src/jit/v.lua src/jit/dump.lua src/jit/dis_x86.lua src/jit/dis_x64.lua src/jit/dis_arm.lua
-  src/jit/dis_ppc.lua src/jit/dis_mips.lua src/jit/dis_mipsel.lua src/jit/bcsave.lua ${CMAKE_CURRENT_BINARY_DIR}/vmdef.lua
-  DESTINATION "${INSTALL_LUA_PATH_SUBDIR}/jit")
diff --git a/luajit-2.0/COPYRIGHT b/luajit-2.0/COPYRIGHT
deleted file mode 100644
index 08936df..0000000
--- a/luajit-2.0/COPYRIGHT
+++ /dev/null
@@ -1,56 +0,0 @@
-===============================================================================
-LuaJIT -- a Just-In-Time Compiler for Lua. http://luajit.org/
-
-Copyright (C) 2005-2014 Mike Pall. All rights reserved.
-
-Permission is hereby granted, free of charge, to any person obtaining a copy
-of this software and associated documentation files (the "Software"), to deal
-in the Software without restriction, including without limitation the rights
-to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
-copies of the Software, and to permit persons to whom the Software is
-furnished to do so, subject to the following conditions:
-
-The above copyright notice and this permission notice shall be included in
-all copies or substantial portions of the Software.
-
-THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
-IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
-FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.  IN NO EVENT SHALL THE
-AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
-LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
-OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
-THE SOFTWARE.
-
-[ MIT license: http://www.opensource.org/licenses/mit-license.php ]
-
-===============================================================================
-[ LuaJIT includes code from Lua 5.1/5.2, which has this license statement: ]
-
-Copyright (C) 1994-2012 Lua.org, PUC-Rio.
-
-Permission is hereby granted, free of charge, to any person obtaining a copy
-of this software and associated documentation files (the "Software"), to deal
-in the Software without restriction, including without limitation the rights
-to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
-copies of the Software, and to permit persons to whom the Software is
-furnished to do so, subject to the following conditions:
-
-The above copyright notice and this permission notice shall be included in
-all copies or substantial portions of the Software.
-
-THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
-IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
-FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.  IN NO EVENT SHALL THE
-AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
-LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
-OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
-THE SOFTWARE.
-
-===============================================================================
-[ LuaJIT includes code from dlmalloc, which has this license statement: ]
-
-This is a version (aka dlmalloc) of malloc/free/realloc written by
-Doug Lea and released to the public domain, as explained at
-http://creativecommons.org/licenses/publicdomain
-
-===============================================================================
diff --git a/luajit-2.0/Makefile b/luajit-2.0/Makefile
deleted file mode 100644
index b23b648..0000000
--- a/luajit-2.0/Makefile
+++ /dev/null
@@ -1,151 +0,0 @@
-##############################################################################
-# LuaJIT top level Makefile for installation. Requires GNU Make.
-#
-# Please read doc/install.html before changing any variables!
-#
-# Suitable for POSIX platforms (Linux, *BSD, OSX etc.).
-# Note: src/Makefile has many more configurable options.
-#
-# ##### This Makefile is NOT useful for Windows! #####
-# For MSVC, please follow the instructions given in src/msvcbuild.bat.
-# For MinGW and Cygwin, cd to src and run make with the Makefile there.
-#
-# Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-##############################################################################
-
-MAJVER=  2
-MINVER=  0
-RELVER=  3
-VERSION= $(MAJVER).$(MINVER).$(RELVER)
-ABIVER=  5.1
-
-##############################################################################
-#
-# Change the installation path as needed. This automatically adjusts
-# the paths in src/luaconf.h, too. Note: PREFIX must be an absolute path!
-#
-export PREFIX= /usr/local
-export MULTILIB= lib
-##############################################################################
-
-DPREFIX= $(DESTDIR)$(PREFIX)
-INSTALL_BIN=   $(DPREFIX)/bin
-INSTALL_LIB=   $(DPREFIX)/$(MULTILIB)
-INSTALL_SHARE= $(DPREFIX)/share
-INSTALL_INC=   $(DPREFIX)/include/luajit-$(MAJVER).$(MINVER)
-
-INSTALL_LJLIBD= $(INSTALL_SHARE)/luajit-$(VERSION)
-INSTALL_JITLIB= $(INSTALL_LJLIBD)/jit
-INSTALL_LMODD= $(INSTALL_SHARE)/lua
-INSTALL_LMOD= $(INSTALL_LMODD)/$(ABIVER)
-INSTALL_CMODD= $(INSTALL_LIB)/lua
-INSTALL_CMOD= $(INSTALL_CMODD)/$(ABIVER)
-INSTALL_MAN= $(INSTALL_SHARE)/man/man1
-INSTALL_PKGCONFIG= $(INSTALL_LIB)/pkgconfig
-
-INSTALL_TNAME= luajit-$(VERSION)
-INSTALL_TSYMNAME= luajit
-INSTALL_ANAME= libluajit-$(ABIVER).a
-INSTALL_SONAME= libluajit-$(ABIVER).so.$(MAJVER).$(MINVER).$(RELVER)
-INSTALL_SOSHORT= libluajit-$(ABIVER).so
-INSTALL_DYLIBNAME= libluajit-$(ABIVER).$(MAJVER).$(MINVER).$(RELVER).dylib
-INSTALL_DYLIBSHORT1= libluajit-$(ABIVER).dylib
-INSTALL_DYLIBSHORT2= libluajit-$(ABIVER).$(MAJVER).dylib
-INSTALL_PCNAME= luajit.pc
-
-INSTALL_STATIC= $(INSTALL_LIB)/$(INSTALL_ANAME)
-INSTALL_DYN= $(INSTALL_LIB)/$(INSTALL_SONAME)
-INSTALL_SHORT1= $(INSTALL_LIB)/$(INSTALL_SOSHORT)
-INSTALL_SHORT2= $(INSTALL_LIB)/$(INSTALL_SOSHORT)
-INSTALL_T= $(INSTALL_BIN)/$(INSTALL_TNAME)
-INSTALL_TSYM= $(INSTALL_BIN)/$(INSTALL_TSYMNAME)
-INSTALL_PC= $(INSTALL_PKGCONFIG)/$(INSTALL_PCNAME)
-
-INSTALL_DIRS= $(INSTALL_BIN) $(INSTALL_LIB) $(INSTALL_INC) $(INSTALL_MAN) \
-  $(INSTALL_PKGCONFIG) $(INSTALL_JITLIB) $(INSTALL_LMOD) $(INSTALL_CMOD)
-UNINSTALL_DIRS= $(INSTALL_JITLIB) $(INSTALL_LJLIBD) $(INSTALL_INC) \
-  $(INSTALL_LMOD) $(INSTALL_LMODD) $(INSTALL_CMOD) $(INSTALL_CMODD)
-
-RM= rm -f
-MKDIR= mkdir -p
-RMDIR= rmdir 2>/dev/null
-SYMLINK= ln -sf
-INSTALL_X= install -m 0755
-INSTALL_F= install -m 0644
-UNINSTALL= $(RM)
-LDCONFIG= ldconfig -n
-SED_PC= sed -e "s|^prefix=.*|prefix=$(PREFIX)|" \
-            -e "s|^multilib=.*|multilib=$(MULTILIB)|"
-
-FILE_T= luajit
-FILE_A= libluajit.a
-FILE_SO= libluajit.so
-FILE_MAN= luajit.1
-FILE_PC= luajit.pc
-FILES_INC= lua.h lualib.h lauxlib.h luaconf.h lua.hpp luajit.h
-FILES_JITLIB= bc.lua v.lua dump.lua dis_x86.lua dis_x64.lua dis_arm.lua \
-	      dis_ppc.lua dis_mips.lua dis_mipsel.lua bcsave.lua vmdef.lua
-
-ifeq (,$(findstring Windows,$(OS)))
-  ifeq (Darwin,$(shell uname -s))
-    INSTALL_SONAME= $(INSTALL_DYLIBNAME)
-    INSTALL_SHORT1= $(INSTALL_LIB)/$(INSTALL_DYLIBSHORT1)
-    INSTALL_SHORT2= $(INSTALL_LIB)/$(INSTALL_DYLIBSHORT2)
-    LDCONFIG= :
-  endif
-endif
-
-##############################################################################
-
-INSTALL_DEP= src/luajit
-
-default all $(INSTALL_DEP):
-	@echo "==== Building LuaJIT $(VERSION) ===="
-	$(MAKE) -C src
-	@echo "==== Successfully built LuaJIT $(VERSION) ===="
-
-install: $(INSTALL_DEP)
-	@echo "==== Installing LuaJIT $(VERSION) to $(PREFIX) ===="
-	$(MKDIR) $(INSTALL_DIRS)
-	cd src && $(INSTALL_X) $(FILE_T) $(INSTALL_T)
-	cd src && test -f $(FILE_A) && $(INSTALL_F) $(FILE_A) $(INSTALL_STATIC) || :
-	$(RM) $(INSTALL_TSYM) $(INSTALL_DYN) $(INSTALL_SHORT1) $(INSTALL_SHORT2)
-	cd src && test -f $(FILE_SO) && \
-	  $(INSTALL_X) $(FILE_SO) $(INSTALL_DYN) && \
-	  $(LDCONFIG) $(INSTALL_LIB) && \
-	  $(SYMLINK) $(INSTALL_SONAME) $(INSTALL_SHORT1) && \
-	  $(SYMLINK) $(INSTALL_SONAME) $(INSTALL_SHORT2) || :
-	cd etc && $(INSTALL_F) $(FILE_MAN) $(INSTALL_MAN)
-	cd etc && $(SED_PC) $(FILE_PC) > $(FILE_PC).tmp && \
-	  $(INSTALL_F) $(FILE_PC).tmp $(INSTALL_PC) && \
-	  $(RM) $(FILE_PC).tmp
-	cd src && $(INSTALL_F) $(FILES_INC) $(INSTALL_INC)
-	cd src/jit && $(INSTALL_F) $(FILES_JITLIB) $(INSTALL_JITLIB)
-	$(SYMLINK) $(INSTALL_TNAME) $(INSTALL_TSYM)
-	@echo "==== Successfully installed LuaJIT $(VERSION) to $(PREFIX) ===="
-
-uninstall:
-	@echo "==== Uninstalling LuaJIT $(VERSION) from $(PREFIX) ===="
-	$(UNINSTALL) $(INSTALL_TSYM) $(INSTALL_T) $(INSTALL_STATIC) $(INSTALL_DYN) $(INSTALL_SHORT1) $(INSTALL_SHORT2) $(INSTALL_MAN)/$(FILE_MAN) $(INSTALL_PC)
-	for file in $(FILES_JITLIB); do \
-	  $(UNINSTALL) $(INSTALL_JITLIB)/$$file; \
-	  done
-	for file in $(FILES_INC); do \
-	  $(UNINSTALL) $(INSTALL_INC)/$$file; \
-	  done
-	$(LDCONFIG) $(INSTALL_LIB)
-	$(RMDIR) $(UNINSTALL_DIRS) || :
-	@echo "==== Successfully uninstalled LuaJIT $(VERSION) from $(PREFIX) ===="
-
-##############################################################################
-
-amalg:
-	@echo "Building LuaJIT $(VERSION)"
-	$(MAKE) -C src amalg
-
-clean:
-	$(MAKE) -C src clean
-
-.PHONY: all install amalg clean
-
-##############################################################################
diff --git a/luajit-2.0/README b/luajit-2.0/README
deleted file mode 100644
index 902a6d2..0000000
--- a/luajit-2.0/README
+++ /dev/null
@@ -1,16 +0,0 @@
-README for LuaJIT 2.0.3
------------------------
-
-LuaJIT is a Just-In-Time (JIT) compiler for the Lua programming language.
-
-Project Homepage: http://luajit.org/
-
-LuaJIT is Copyright (C) 2005-2014 Mike Pall.
-LuaJIT is free software, released under the MIT license.
-See full Copyright Notice in the COPYRIGHT file or in luajit.h.
-
-Documentation for LuaJIT is available in HTML format.
-Please point your favorite browser to:
-
- doc/luajit.html
-
diff --git a/luajit-2.0/cmake/FindReadline.cmake b/luajit-2.0/cmake/FindReadline.cmake
deleted file mode 100644
index 4a2fc0c..0000000
--- a/luajit-2.0/cmake/FindReadline.cmake
+++ /dev/null
@@ -1,60 +0,0 @@
-# - Find the readline library
-# This module defines
-#  READLINE_INCLUDE_DIR, path to readline/readline.h, etc.
-#  READLINE_LIBRARIES, the libraries required to use READLINE.
-#  READLINE_FOUND, If false, do not try to use READLINE.
-# also defined, but not for general use are
-# READLINE_readline_LIBRARY, where to find the READLINE library.
-
-# Apple readline does not support readline hooks
-# So we look for another one by default
-IF(APPLE)
-  FIND_PATH(READLINE_INCLUDE_DIR NAMES readline/readline.h PATHS
-    /sw/include
-    /opt/local/include
-    /opt/include
-    /usr/local/include
-    /usr/include/
-    NO_DEFAULT_PATH
-    )
-ENDIF(APPLE)
-FIND_PATH(READLINE_INCLUDE_DIR NAMES readline/readline.h)
-
-
-# Apple readline does not support readline hooks
-# So we look for another one by default
-IF(APPLE)
-  FIND_LIBRARY(READLINE_readline_LIBRARY NAMES readline PATHS
-    /sw/lib
-    /opt/local/lib
-    /opt/lib
-    /usr/local/lib
-    /usr/lib
-    NO_DEFAULT_PATH
-    )
-ENDIF(APPLE)
-FIND_LIBRARY(READLINE_readline_LIBRARY NAMES readline)
-
-MARK_AS_ADVANCED(
-  READLINE_INCLUDE_DIR
-  READLINE_readline_LIBRARY
-  )
-
-SET( READLINE_FOUND "NO" )
-IF(READLINE_INCLUDE_DIR)
-  IF(READLINE_readline_LIBRARY)
-    SET( READLINE_FOUND "YES" )
-    SET( READLINE_LIBRARIES
-      ${READLINE_readline_LIBRARY} 
-      )
-
-  ENDIF(READLINE_readline_LIBRARY)
-ENDIF(READLINE_INCLUDE_DIR)
-
-IF(READLINE_FOUND)
-  MESSAGE(STATUS "Found readline library")
-ELSE(READLINE_FOUND)
-  IF(READLINE_FIND_REQUIRED)
-    MESSAGE(FATAL_ERROR "Could not find readline -- please give some paths to CMake")
-  ENDIF(READLINE_FIND_REQUIRED)
-ENDIF(READLINE_FOUND)
diff --git a/luajit-2.0/doc/bluequad-print.css b/luajit-2.0/doc/bluequad-print.css
deleted file mode 100644
index 21da868..0000000
--- a/luajit-2.0/doc/bluequad-print.css
+++ /dev/null
@@ -1,166 +0,0 @@
-/* Copyright (C) 2004-2014 Mike Pall.
- *
- * You are welcome to use the general ideas of this design for your own sites.
- * But please do not steal the stylesheet, the layout or the color scheme.
- */
-body {
-  font-family: serif;
-  font-size: 11pt;
-  margin: 0 3em;
-  padding: 0;
-  border: none;
-}
-a:link, a:visited, a:hover, a:active {
-  text-decoration: none;
-  background: transparent;
-  color: #0000ff;
-}
-h1, h2, h3 {
-  font-family: sans-serif;
-  font-weight: bold;
-  text-align: left;
-  margin: 0.5em 0;
-  padding: 0;
-}
-h1 {
-  font-size: 200%;
-}
-h2 {
-  font-size: 150%;
-}
-h3 {
-  font-size: 125%;
-}
-p {
-  margin: 0 0 0.5em 0;
-  padding: 0;
-}
-ul, ol {
-  margin: 0.5em 0;
-  padding: 0 0 0 2em;
-}
-ul {
-  list-style: outside square;
-}
-ol {
-  list-style: outside decimal;
-}
-li {
-  margin: 0;
-  padding: 0;
-}
-dl {
-  margin: 1em 0;
-  padding: 1em;
-  border: 1px solid black;
-}
-dt {
-  font-weight: bold;
-  margin: 0;
-  padding: 0;
-}
-dt sup {
-  float: right;
-  margin-left: 1em;
-}
-dd {
-  margin: 0.5em 0 0 2em;
-  padding: 0;
-}
-table {
-  table-layout: fixed;
-  width: 100%;
-  margin: 1em 0;
-  padding: 0;
-  border: 1px solid black;
-  border-spacing: 0;
-  border-collapse: collapse;
-}
-tr {
-  margin: 0;
-  padding: 0;
-  border: none;
-}
-td {
-  text-align: left;
-  margin: 0;
-  padding: 0.2em 0.5em;
-  border-top: 1px solid black;
-  border-bottom: 1px solid black;
-}
-tr.separate td {
-  border-top: double;
-}
-tt, pre, code, kbd, samp {
-  font-family: monospace;
-  font-size: 75%;
-}
-kbd {
-  font-weight: bolder;
-}
-blockquote, pre {
-  margin: 1em 2em;
-  padding: 0;
-}
-img {
-  border: none;
-  vertical-align: baseline;
-  margin: 0;
-  padding: 0;
-}
-img.left {
-  float: left;
-  margin: 0.5em 1em 0.5em 0;
-}
-img.right {
-  float: right;
-  margin: 0.5em 0 0.5em 1em;
-}
-.flush {
-  clear: both;
-  visibility: hidden;
-}
-.hide, .noprint, #nav {
-  display: none !important;
-}
-.pagebreak {
-  page-break-before: always;
-}
-#site {
-  text-align: right;
-  font-family: sans-serif;
-  font-weight: bold;
-  margin: 0 1em;
-  border-bottom: 1pt solid black;
-}
-#site a {
-  font-size: 1.2em;
-}
-#site a:link, #site a:visited {
-  text-decoration: none;
-  font-weight: bold;
-  background: transparent;
-  color: #ffffff;
-}
-#logo {
-  color: #ff8000;
-}
-#head {
-  clear: both;
-  margin: 0 1em;
-}
-#main {
-  line-height: 1.3;
-  text-align: justify;
-  margin: 1em;
-}
-#foot {
-  clear: both;
-  font-size: 80%;
-  text-align: center;
-  margin: 0 1.25em;
-  padding: 0.5em 0 0 0;
-  border-top: 1pt solid black;
-  page-break-before: avoid;
-  page-break-after: avoid;
-}
diff --git a/luajit-2.0/doc/bluequad.css b/luajit-2.0/doc/bluequad.css
deleted file mode 100644
index 05b092e..0000000
--- a/luajit-2.0/doc/bluequad.css
+++ /dev/null
@@ -1,325 +0,0 @@
-/* Copyright (C) 2004-2014 Mike Pall.
- *
- * You are welcome to use the general ideas of this design for your own sites.
- * But please do not steal the stylesheet, the layout or the color scheme.
- */
-/* colorscheme:
- *
- * site  |  head   #4162bf/white   | #6078bf/#e6ecff
- * ------+------   ----------------+-------------------
- * nav   |  main   #bfcfff         | #e6ecff/black
- *
- * nav:  hiback   loback     #c5d5ff #b9c9f9
- *       hiborder loborder   #e6ecff #97a7d7
- *       link     hover      #2142bf #ff0000
- *
- * link: link visited hover  #2142bf #8122bf #ff0000
- *
- * main: boxback  boxborder  #f0f4ff #bfcfff
- */
-body {
-  font-family: Verdana, Arial, Helvetica, sans-serif;
-  font-size: 10pt;
-  margin: 0;
-  padding: 0;
-  border: none;
-  background: #e0e0e0;
-  color: #000000;
-}
-a:link {
-  text-decoration: none;
-  background: transparent;
-  color: #2142bf;
-}
-a:visited {
-  text-decoration: none;
-  background: transparent;
-  color: #8122bf;
-}
-a:hover, a:active {
-  text-decoration: underline;
-  background: transparent;
-  color: #ff0000;
-}
-h1, h2, h3 {
-  font-weight: bold;
-  text-align: left;
-  margin: 0.5em 0;
-  padding: 0;
-  background: transparent;
-}
-h1 {
-  font-size: 200%;
-  line-height: 3em; /* really 6em relative to body, match #site span */
-  margin: 0;
-}
-h2 {
-  font-size: 150%;
-  color: #606060;
-}
-h3 {
-  font-size: 125%;
-  color: #404040;
-}
-p {
-  max-width: 600px;
-  margin: 0 0 0.5em 0;
-  padding: 0;
-}
-b {
-  color: #404040;
-}
-ul, ol {
-  max-width: 600px;
-  margin: 0.5em 0;
-  padding: 0 0 0 2em;
-}
-ul {
-  list-style: outside square;
-}
-ol {
-  list-style: outside decimal;
-}
-li {
-  margin: 0;
-  padding: 0;
-}
-dl {
-  max-width: 600px;
-  margin: 1em 0;
-  padding: 1em;
-  border: 1px solid #bfcfff;
-  background: #f0f4ff;
-}
-dt {
-  font-weight: bold;
-  margin: 0;
-  padding: 0;
-}
-dt sup {
-  float: right;
-  margin-left: 1em;
-  color: #808080;
-}
-dt a:visited {
-  text-decoration: none;
-  color: #2142bf;
-}
-dt a:hover, dt a:active {
-  text-decoration: none;
-  color: #ff0000;
-}
-dd {
-  margin: 0.5em 0 0 2em;
-  padding: 0;
-}
-div.tablewrap { /* for IE *sigh* */
-  max-width: 600px;
-}
-table {
-  table-layout: fixed;
-  border-spacing: 0;
-  border-collapse: collapse;
-  max-width: 600px;
-  width: 100%;
-  margin: 1em 0;
-  padding: 0;
-  border: 1px solid #bfcfff;
-}
-tr {
-  margin: 0;
-  padding: 0;
-  border: none;
-}
-tr.odd {
-  background: #f0f4ff;
-}
-tr.separate td {
-  border-top: 1px solid #bfcfff;
-}
-td {
-  text-align: left;
-  margin: 0;
-  padding: 0.2em 0.5em;
-  border: none;
-}
-tt, code, kbd, samp {
-  font-family: Courier New, Courier, monospace;
-  line-height: 1.2;
-  font-size: 110%;
-}
-kbd {
-  font-weight: bolder;
-}
-blockquote, pre {
-  max-width: 600px;
-  margin: 1em 2em;
-  padding: 0;
-}
-pre {
-  line-height: 1.1;
-}
-pre.code {
-  line-height: 1.4;
-  margin: 0.5em 0 1em 0.5em;
-  padding: 0.5em 1em;
-  border: 1px solid #bfcfff;
-  background: #f0f4ff;
-}
-pre.mark {
-  padding-left: 2em;
-}
-span.codemark {
-  position:absolute;
-  left: 16em;
-  color: #4040c0;
-}
-span.mark {
-  color: #4040c0;
-  font-family: Courier New, Courier, monospace;
-  line-height: 1.1;
-}
-img {
-  border: none;
-  vertical-align: baseline;
-  margin: 0;
-  padding: 0;
-}
-img.left {
-  float: left;
-  margin: 0.5em 1em 0.5em 0;
-}
-img.right {
-  float: right;
-  margin: 0.5em 0 0.5em 1em;
-}
-.indent {
-  padding-left: 1em;
-}
-.flush {
-  clear: both;
-  visibility: hidden;
-}
-.hide, .noscreen {
-  display: none !important;
-}
-.ext {
-  color: #ff8000;
-}
-.new {
-  font-size: 6pt;
-  vertical-align: middle;
-  background: #ff8000;
-  color: #ffffff;
-}
-#site {
-  clear: both;
-  float: left;
-  width: 13em;
-  text-align: center;
-  font-weight: bold;
-  margin: 0;
-  padding: 0;
-  background: transparent;
-  color: #ffffff;
-}
-#site a {
-  font-size: 200%;
-}
-#site a:link, #site a:visited {
-  text-decoration: none;
-  font-weight: bold;
-  background: transparent;
-  color: #ffffff;
-}
-#site span {
-  line-height: 3em; /* really 6em relative to body, match h1 */
-}
-#logo {
-  color: #ffb380;
-}
-#head {
-  margin: 0;
-  padding: 0 0 0 2em;
-  border-left: solid 13em #4162bf;
-  border-right: solid 3em #6078bf;
-  background: #6078bf;
-  color: #e6ecff;
-}
-#nav {
-  clear: both;
-  float: left;
-  overflow: hidden;
-  text-align: left;
-  line-height: 1.5;
-  width: 13em;
-  padding-top: 1em;
-  background: transparent;
-}
-#nav ul {
-  list-style: none outside;
-  margin: 0;
-  padding: 0;
-}
-#nav li {
-  margin: 0;
-  padding: 0;
-}
-#nav a {
-  display: block;
-  text-decoration: none;
-  font-weight: bold;
-  margin: 0;
-  padding: 2px 1em;
-  border-top: 1px solid transparent;
-  border-bottom: 1px solid transparent;
-  background: transparent;
-  color: #2142bf;
-}
-#nav a:hover, #nav a:active {
-  text-decoration: none;
-  border-top: 1px solid #97a7d7;
-  border-bottom: 1px solid #e6ecff;
-  background: #b9c9f9;
-  color: #ff0000;
-}
-#nav a.current, #nav a.current:hover, #nav a.current:active {
-  border-top: 1px solid #e6ecff;
-  border-bottom: 1px solid #97a7d7;
-  background: #c5d5ff;
-  color: #2142bf;
-}
-#nav ul ul a {
-  padding: 0 1em 0 1.7em;
-}
-#nav ul ul ul a {
-  padding: 0 0.5em 0 2.4em;
-}
-#main {
-  line-height: 1.5;
-  text-align: left;
-  margin: 0;
-  padding: 1em 2em;
-  border-left: solid 13em #bfcfff;
-  border-right: solid 3em #e6ecff;
-  background: #e6ecff;
-}
-#foot {
-  clear: both;
-  font-size: 80%;
-  text-align: center;
-  margin: 0;
-  padding: 0.5em;
-  background: #6078bf;
-  color: #ffffff;
-}
-#foot a:link, #foot a:visited {
-  text-decoration: underline;
-  background: transparent;
-  color: #ffffff;
-}
-#foot a:hover, #foot a:active {
-  text-decoration: underline;
-  background: transparent;
-  color: #bfcfff;
-}
diff --git a/luajit-2.0/doc/changes.html b/luajit-2.0/doc/changes.html
deleted file mode 100644
index 9841229..0000000
--- a/luajit-2.0/doc/changes.html
+++ /dev/null
@@ -1,928 +0,0 @@
-<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.01//EN" "http://www.w3.org/TR/html4/strict.dtd">
-<html>
-<head>
-<title>LuaJIT Change History</title>
-<meta http-equiv="Content-Type" content="text/html; charset=iso-8859-1">
-<meta name="Author" content="Mike Pall">
-<meta name="Copyright" content="Copyright (C) 2005-2014, Mike Pall">
-<meta name="Language" content="en">
-<link rel="stylesheet" type="text/css" href="bluequad.css" media="screen">
-<link rel="stylesheet" type="text/css" href="bluequad-print.css" media="print">
-<style type="text/css">
-div.major { max-width: 600px; padding: 1em; margin: 1em 0 1em 0; }
-</style>
-</head>
-<body>
-<div id="site">
-<a href="http://luajit.org"><span>Lua<span id="logo">JIT</span></span></a>
-</div>
-<div id="head">
-<h1>LuaJIT Change History</h1>
-</div>
-<div id="nav">
-<ul><li>
-<a href="luajit.html">LuaJIT</a>
-<ul><li>
-<a href="http://luajit.org/download.html">Download <span class="ext">&raquo;</span></a>
-</li><li>
-<a href="install.html">Installation</a>
-</li><li>
-<a href="running.html">Running</a>
-</li></ul>
-</li><li>
-<a href="extensions.html">Extensions</a>
-<ul><li>
-<a href="ext_ffi.html">FFI Library</a>
-<ul><li>
-<a href="ext_ffi_tutorial.html">FFI Tutorial</a>
-</li><li>
-<a href="ext_ffi_api.html">ffi.* API</a>
-</li><li>
-<a href="ext_ffi_semantics.html">FFI Semantics</a>
-</li></ul>
-</li><li>
-<a href="ext_jit.html">jit.* Library</a>
-</li><li>
-<a href="ext_c_api.html">Lua/C API</a>
-</li></ul>
-</li><li>
-<a href="status.html">Status</a>
-<ul><li>
-<a class="current" href="changes.html">Changes</a>
-</li></ul>
-</li><li>
-<a href="faq.html">FAQ</a>
-</li><li>
-<a href="http://luajit.org/performance.html">Performance <span class="ext">&raquo;</span></a>
-</li><li>
-<a href="http://wiki.luajit.org/">Wiki <span class="ext">&raquo;</span></a>
-</li><li>
-<a href="http://luajit.org/list.html">Mailing List <span class="ext">&raquo;</span></a>
-</li></ul>
-</div>
-<div id="main">
-<p>
-This is a list of changes between the released versions of LuaJIT.<br>
-The current <span style="color: #0000c0;">stable version</span> is <strong>LuaJIT&nbsp;2.0.3</strong>.<br>
-</p>
-<p>
-Please check the
-<a href="http://luajit.org/changes.html"><span class="ext">&raquo;</span>&nbsp;Online Change History</a>
-to see whether newer versions are available.
-</p>
-
-<div class="major" style="background: #d0d0ff;">
-<h2 id="LuaJIT-2.0.3">LuaJIT 2.0.3 &mdash; 2014-03-12</h2>
-<ul>
-<li>Add PS4 port.</li>
-<li>Add support for multilib distro builds.</li>
-<li>Fix OSX build.</li>
-<li>Fix MinGW build.</li>
-<li>Fix Xbox 360 build.</li>
-<li>Improve ULOAD forwarding for open upvalues.</li>
-<li>Fix GC steps threshold handling when called by JIT-compiled code.</li>
-<li>Fix argument checks for <tt>math.deg()</tt> and <tt>math.rad()</tt>.</li>
-<li>Fix <tt>jit.flush(func|true)</tt>.</li>
-<li>Respect <tt>jit.off(func)</tt> when returning to a function, too.</li>
-<li>Fix compilation of <tt>string.byte(s, nil, n)</tt>.</li>
-<li>Fix line number for relocated bytecode after closure fixup</li>
-<li>Fix frame traversal for backtraces.</li>
-<li>Fix ABC elimination.</li>
-<li>Fix handling of redundant PHIs.</li>
-<li>Fix snapshot restore for exit to function header.</li>
-<li>Fix type punning alias analysis for constified pointers</li>
-<li>Fix call unroll checks in the presence of metamethod frames.</li>
-<li>Fix initial maxslot for down-recursive traces.</li>
-<li>Prevent BASE register coalescing if parent uses <tt>IR_RETF</tt>.</li>
-<li>Don't purge modified function from stack slots in <tt>BC_RET</tt>.</li>
-<li>Fix recording of <tt>BC_VARG</tt>.</li>
-<li>Don't access dangling reference to reallocated IR.</li>
-<li>Fix frame depth display for bytecode dump in <tt>-jdump</tt>.</li>
-<li>ARM: Fix register allocation when rematerializing FPRs.</li>
-<li>x64: Fix store to upvalue for lightuserdata values.</li>
-<li>FFI: Add missing GC steps for callback argument conversions.</li>
-<li>FFI: Properly unload loaded DLLs.</li>
-<li>FFI: Fix argument checks for <tt>ffi.string()</tt>.</li>
-<li>FFI/x64: Fix passing of vector arguments to calls.</li>
-<li>FFI: Rehash finalizer table after GC cycle, if needed.</li>
-<li>FFI: Fix <tt>cts-&gt;L</tt> for cdata unsinking in snapshot restore.</li>
-</ul>
-
-<h2 id="LuaJIT-2.0.2">LuaJIT 2.0.2 &mdash; 2013-06-03</h2>
-<ul>
-<li>Fix memory access check for fast string interning.</li>
-<li>Fix MSVC intrinsics for older versions.</li>
-<li>Add missing GC steps for <tt>io.*</tt> functions.</li>
-<li>Fix spurious red zone overflows in machine code generation.</li>
-<li>Fix jump-range constrained mcode allocation.</li>
-<li>Inhibit DSE for implicit loads via calls.</li>
-<li>Fix builtin string to number conversion for overflow digits.</li>
-<li>Fix optional argument handling while recording builtins.</li>
-<li>Fix optional argument handling in <tt>table.concat()</tt>.</li>
-<li>Add partial support for building with MingW64 GCC 4.8-SEH.</li>
-<li>Add missing PHI barrier to <tt>string.sub(str, a, b) == kstr</tt> FOLD rule.</li>
-<li>Fix compatibility issues with Illumos.</li>
-<li>ARM: Fix cache flush/sync for exit stubs of JIT-compiled code.</li>
-<li>MIPS: Fix cache flush/sync for JIT-compiled code jump area.</li>
-<li>PPC: Add <tt>plt</tt> suffix for external calls from assembler code.</li>
-<li>FFI: Fix snapshot substitution in SPLIT pass.</li>
-<li>FFI/x86: Fix register allocation for 64 bit comparisons.</li>
-<li>FFI: Fix tailcall in lowest frame to C&nbsp;function with bool result.</li>
-<li>FFI: Ignore <tt>long</tt> type specifier in <tt>ffi.istype()</tt>.</li>
-<li>FFI: Fix calling conventions for 32 bit OSX and iOS simulator (struct returns).</li>
-<li>FFI: Fix calling conventions for ARM hard-float EABI (nested structs).</li>
-<li>FFI: Improve error messages for arithmetic and comparison operators.</li>
-<li>FFI: Insert no-op type conversion for pointer to integer cast.</li>
-<li>FFI: Fix unroll limit for <tt>ffi.fill()</tt>.</li>
-<li>FFI: Must sink <tt>XBAR</tt> together with <tt>XSTORE</tt>s.</li>
-<li>FFI: Preserve intermediate string for <tt>const&nbsp;char&nbsp;*</tt> conversion.</li>
-</ul>
-
-<h2 id="LuaJIT-2.0.1">LuaJIT 2.0.1 &mdash; 2013-02-19</h2>
-<ul>
-<li>Don't clear frame for out-of-memory error.</li>
-<li>Leave hook when resume catches error thrown from hook.</li>
-<li>Add missing GC steps for template table creation.</li>
-<li>Fix discharge order of comparisons in Lua parser.</li>
-<li>Improve buffer handling for <tt>io.read()</tt>.</li>
-<li>OSX: Add support for Mach-O object files to <tt>-b</tt> option.</li>
-<li>Fix PS3 port.</li>
-<li>Fix/enable Xbox 360 port.</li>
-<li>x86/x64: Always mark ref for shift count as non-weak.</li>
-<li>x64: Don't fuse implicitly 32-to-64 extended operands.</li>
-<li>ARM: Fix armhf call argument handling.</li>
-<li>ARM: Fix code generation for integer math.min/math.max.</li>
-<li>PPC/e500: Fix <tt>lj_vm_floor()</tt> for Inf/NaN.</li>
-<li>FFI: Change priority of table initializer variants for structs.</li>
-<li>FFI: Fix code generation for bool call result check on x86/x64.</li>
-<li>FFI: Load FFI library on-demand for bytecode with cdata literals.</li>
-<li>FFI: Fix handling of qualified transparent structs/unions.</li>
-</ul>
-
-<h2 id="LuaJIT-2.0.0">LuaJIT 2.0.0 &mdash; 2012-11-08</h2>
-<ul>
-<li>Correctness and completeness:
-<ul>
-  <li>Fix Android/x86 build.</li>
-  <li>Fix recording of equality comparisons with <tt>__eq</tt> metamethods.</li>
-  <li>Fix detection of immutable upvalues.</li>
-  <li>Replace error with PANIC for callbacks from JIT-compiled code.</li>
-  <li>Fix builtin string to number conversion for <tt>INT_MIN</tt>.</li>
-  <li>Don't create unneeded array part for template tables.</li>
-  <li>Fix <tt>CONV.num.int</tt> sinking.</li>
-  <li>Don't propagate implicitly widened number to index metamethods.</li>
-  <li>ARM: Fix ordered comparisons of number vs. non-number.</li>
-  <li>FFI: Fix code generation for replay of sunk float fields.</li>
-  <li>FFI: Fix signedness of bool.</li>
-  <li>FFI: Fix recording of bool call result check on x86/x64.</li>
-  <li>FFI: Fix stack-adjustment for <tt>__thiscall</tt> callbacks.</li>
-</ul></li>
-</ul>
-
-<h2 id="LuaJIT-2.0.0-beta11">LuaJIT 2.0.0-beta11 &mdash; 2012-10-16</h2>
-<ul>
-<li>New features:
-<ul>
-  <li>Use ARM VFP instructions, if available (build-time detection).</li>
-  <li>Add support for ARM hard-float EABI (<tt>armhf</tt>).</li>
-  <li>Add PS3 port.</li>
-  <li>Add many features from Lua&nbsp;5.2, e.g. <tt>goto</tt>/labels.
-  Refer to <a href="extensions.html#lua52">this list</a>.</li>
-  <li>FFI: Add parameterized C types.</li>
-  <li>FFI: Add support for copy constructors.</li>
-  <li>FFI: Equality comparisons never raise an error (treat as unequal instead).</li>
-  <li>FFI: Box all accessed or returned enums.</li>
-  <li>FFI: Check for <tt>__new</tt> metamethod when calling a constructor.</li>
-  <li>FFI: Handle <tt>__pairs</tt>/<tt>__ipairs</tt> metamethods for cdata objects.</li>
-  <li>FFI: Convert <tt>io.*</tt> file handle to <tt>FILE *</tt> pointer (but as a <tt>void *</tt>).</li>
-  <li>FFI: Detect and support type punning through unions.</li>
-  <li>FFI: Improve various error messages.</li>
-</ul></li>
-<li>Build-system reorganization:
-<ul>
-  <li>Reorganize directory layout:<br>
-  <tt>lib/*</tt> &rarr; <tt>src/jit/*</tt><br>
-  <tt>src/buildvm_*.dasc</tt> &rarr; <tt>src/vm_*.dasc</tt><br>
-  <tt>src/buildvm_*.h</tt> &rarr; removed<br>
-  <tt>src/buildvm*</tt> &rarr; <tt>src/host/*</tt></li>
-  <li>Add minified Lua interpreter plus Lua BitOp (<tt>minilua</tt>) to run DynASM.</li>
-  <li>Change DynASM bit operations to use Lua BitOp</li>
-  <li>Translate only <tt>vm_*.dasc</tt> for detected target architecture.</li>
-  <li>Improve target detection for <tt>msvcbuild.bat</tt>.</li>
-  <li>Fix build issues on Cygwin and MinGW with optional MSys.</li>
-  <li>Handle cross-compiles with FPU/no-FPU or hard-fp/soft-fp ABI mismatch.</li>
-  <li>Remove some library functions for no-JIT/no-FFI builds.</li>
-  <li>Add uninstall target to top-level Makefile.</li>
-</ul></li>
-<li>Correctness and completeness:
-<ul>
-  <li>Preserve snapshot #0 PC for all traces.</li>
-  <li>Fix argument checks for <tt>coroutine.create()</tt>.</li>
-  <li>Command line prints version and JIT status to <tt>stdout</tt>, not <tt>stderr</tt>.</li>
-  <li>Fix userdata <tt>__gc</tt> separations at Lua state close.</li>
-  <li>Fix <tt>TDUP</tt> to <tt>HLOAD</tt> forwarding for <tt>LJ_DUALNUM</tt> builds.</li>
-  <li>Fix buffer check in bytecode writer.</li>
-  <li>Make <tt>os.date()</tt> thread-safe.</li>
-  <li>Add missing declarations for MSVC intrinsics.</li>
-  <li>Fix dispatch table modifications for return hooks.</li>
-  <li>Workaround for MSVC conversion bug (<tt>double</tt> &rarr; <tt>uint32_t</tt> &rarr; <tt>int32_t</tt>).</li>
-  <li>Fix FOLD rule <tt>(i-j)-i => 0-j</tt>.</li>
-  <li>Never use DWARF unwinder on Windows.</li>
-  <li>Fix shrinking of direct mapped blocks in builtin allocator.</li>
-  <li>Limit recursion depth in <tt>string.match()</tt> et al.</li>
-  <li>Fix late despecialization of <tt>ITERN</tt> after loop has been entered.</li>
-  <li>Fix <tt>'f'</tt> and <tt>'L'</tt> options for <tt>debug.getinfo()</tt> and <tt>lua_getinfo()</tt>.</li>
-  <li>Fix <tt>package.searchpath()</tt>.</li>
-  <li>OSX: Change dylib names to be consistent with other platforms.</li>
-  <li>Android: Workaround for broken <tt>sprintf("%g",&nbsp;-0.0)</tt>.</li>
-  <li>x86: Remove support for ancient CPUs without <tt>CMOV</tt> (before Pentium Pro).</li>
-  <li>x86: Fix register allocation for calls returning register pair.</li>
-  <li>x86/x64: Fix fusion of unsigned byte comparisons with swapped operands.</li>
-  <li>ARM: Fix <tt>tonumber()</tt> argument check.</li>
-  <li>ARM: Fix modulo operator and <tt>math.floor()</tt>/<tt>math.ceil()</tt> for <tt>inf</tt>/<tt>nan</tt>.</li>
-  <li>ARM: Invoke SPLIT pass for leftover <tt>IR_TOBIT</tt>.</li>
-  <li>ARM: Fix BASE register coalescing.</li>
-  <li>PPC: Fix interpreter state setup in callbacks.</li>
-  <li>PPC: Fix <tt>string.sub()</tt> range check.</li>
-  <li>MIPS: Support generation of MIPS/MIPSEL bytecode object files.</li>
-  <li>MIPS: Fix calls to <tt>floor()</tt>/<tt>ceil()</tt><tt>/trunc()</tt>.</li>
-  <li>ARM/PPC: Detect more target architecture variants.</li>
-  <li>ARM/PPC/e500/MIPS: Fix tailcalls from fast functions, esp. <tt>tostring()</tt>.</li>
-  <li>ARM/PPC/MIPS: Fix rematerialization of FP constants.</li>
-  <li>FFI: Don't call <tt>FreeLibrary()</tt> on our own EXE/DLL.</li>
-  <li>FFI: Resolve metamethods for constructors, too.</li>
-  <li>FFI: Properly disable callbacks on iOS (would require executable memory).</li>
-  <li>FFI: Fix cdecl string parsing during recording.</li>
-  <li>FFI: Show address pointed to for <tt>tostring(ref)</tt>, too.</li>
-  <li>FFI: Fix alignment of C call argument/return structure.</li>
-  <li>FFI: Initialize all fields of standard types.</li>
-  <li>FFI: Fix callback handling when new C&nbsp;types are declared in callback.</li>
-  <li>FFI: Fix recording of constructors for pointers.</li>
-  <li>FFI: Always resolve metamethods for pointers to structs.</li>
-  <li>FFI: Correctly propagate alignment when interning nested types.</li>
-</ul></li>
-<li>Structural and performance enhancements:
-<ul>
-  <li>Add allocation sinking and store sinking optimization.</li>
-  <li>Constify immutable upvalues.</li>
-  <li>Add builtin string to integer or FP number conversion. Improves cross-platform consistency and correctness.</li>
-  <li>Create string hash slots in template tables for non-const values, too. Avoids later table resizes.</li>
-  <li>Eliminate <tt>HREFK</tt> guard for template table references.</li>
-  <li>Add various new FOLD rules.</li>
-  <li>Don't use stack unwinding for <tt>lua_yield()</tt> (slow on x64).</li>
-  <li>ARM, PPC, MIPS: Improve <tt>XLOAD</tt> operand fusion and register hinting.</li>
-  <li>PPC, MIPS: Compile <tt>math.sqrt()</tt> to sqrt instruction, if available.</li>
-  <li>FFI: Fold <tt>KPTR</tt> + constant offset in SPLIT pass.</li>
-  <li>FFI: Optimize/inline <tt>ffi.copy()</tt> and <tt>ffi.fill()</tt>.</li>
-  <li>FFI: Compile and optimize array/struct copies.</li>
-  <li>FFI: Compile <tt>ffi.typeof(cdata|ctype)</tt>, <tt>ffi.sizeof()</tt>, <tt>ffi.alignof()</tt>, <tt>ffi.offsetof()</tt> and <tt>ffi.gc()</tt>.</li>
-</ul></li>
-</ul>
-
-<h2 id="LuaJIT-2.0.0-beta10">LuaJIT 2.0.0-beta10 &mdash; 2012-05-09</h2>
-<ul>
-<li>New features:
-<ul>
-<li>The MIPS of LuaJIT is complete. It requires a CPU conforming to the
-MIPS32&nbsp;R1 architecture with hardware FPU. O32 hard-fp ABI,
-little-endian or big-endian.</li>
-<li>Auto-detect target arch via cross-compiler. No need for
-<tt>TARGET=arch</tt> anymore.</li>
-<li>Make DynASM compatible with Lua 5.2.</li>
-<li>From Lua 5.2: Try <tt>__tostring</tt> metamethod on non-string error
-messages..</li>
-</ul></li>
-<li>Correctness and completeness:
-<ul>
-<li>Fix parsing of hex literals with exponents.</li>
-<li>Fix bytecode dump for certain number constants.</li>
-<li>Fix argument type in error message for relative arguments.</li>
-<li>Fix argument error handling on Lua stacks without a frame.</li>
-<li>Add missing mcode limit check in assembler backend.</li>
-<li>Fix compilation on OpenBSD.</li>
-<li>Avoid recursive GC steps after GC-triggered trace exit.</li>
-<li>Replace <tt>&lt;unwind.h&gt;</tt> definitions with our own.</li>
-<li>Fix OSX build issues. Bump minimum required OSX version to 10.4.</li>
-<li>Fix discharge order of comparisons in Lua parser.</li>
-<li>Ensure running <tt>__gc</tt> of userdata created in <tt>__gc</tt>
-at state close.</li>
-<li>Limit number of userdata <tt>__gc</tt> separations at state close.</li>
-<li>Fix bytecode <tt>JMP</tt> slot range when optimizing
-<tt>and</tt>/<tt>or</tt> with constant LHS.</li>
-<li>Fix DSE of <tt>USTORE</tt>.</li>
-<li>Make <tt>lua_concat()</tt> work from C&nbsp;hook with partial frame.</li>
-<li>Add required PHIs for implicit conversions, e.g. via <tt>XREF</tt>
-forwarding.</li>
-<li>Add more comparison variants to Valgrind suppressions file.</li>
-<li>Disable loading bytecode with an extra header (BOM or <tt>#!</tt>).</li>
-<li>Fix PHI stack slot syncing.</li>
-<li>ARM: Reorder type/value tests to silence Valgrind.</li>
-<li>ARM: Fix register allocation for <tt>ldrd</tt>-optimized
-<tt>HREFK</tt>.</li>
-<li>ARM: Fix conditional branch fixup for <tt>OBAR</tt>.</li>
-<li>ARM: Invoke SPLIT pass for <tt>double</tt> args in FFI call.</li>
-<li>ARM: Handle all <tt>CALL*</tt> ops with <tt>double</tt> results in
-SPLIT pass.</li>
-<li>ARM: Fix rejoin of <tt>POW</tt> in SPLIT pass.</li>
-<li>ARM: Fix compilation of <tt>math.sinh</tt>, <tt>math.cosh</tt>,
-<tt>math.tanh</tt>.</li>
-<li>ARM, PPC: Avoid pointless arg clearing in <tt>BC_IFUNCF</tt>.</li>
-<li>PPC: Fix resume after yield from hook.</li>
-<li>PPC: Fix argument checking for <tt>rawget()</tt>.</li>
-<li>PPC: Fix fusion of floating-point <tt>XLOAD</tt>/<tt>XSTORE</tt>.</li>
-<li>PPC: Fix <tt>HREFK</tt> code generation for huge tables.</li>
-<li>PPC: Use builtin D-Cache/I-Cache sync code.</li>
-</ul></li>
-<li>FFI library:
-<ul>
-<li>Ignore empty statements in <tt>ffi.cdef()</tt>.</li>
-<li>Ignore number parsing errors while skipping definitions.</li>
-<li>Don't touch frame in callbacks with tailcalls to fast functions.</li>
-<li>Fix library unloading on POSIX systems.</li>
-<li>Finalize cdata before userdata when closing the state.</li>
-<li>Change <tt>ffi.load()</tt> library name resolution for Cygwin.</li>
-<li>Fix resolving of function name redirects on Windows/x86.</li>
-<li>Fix symbol resolving error messages on Windows.</li>
-<li>Fix blacklisting of C functions calling callbacks.</li>
-<li>Fix result type of pointer difference.</li>
-<li>Use correct PC in FFI metamethod error message.</li>
-<li>Allow <tt>'typedef _Bool int BOOL;'</tt> for the Windows API.</li>
-<li>Don't record test for bool result of call, if ignored.</li>
-</ul></li>
-</ul>
-
-<h2 id="LuaJIT-2.0.0-beta9">LuaJIT 2.0.0-beta9 &mdash; 2011-12-14</h2>
-<ul>
-<li>New features:
-<ul>
-<li>PPC port of LuaJIT is complete. Default is the dual-number port
-(usually faster). Single-number port selectable via <tt>src/Makefile</tt>
-at build time.</li>
-<li>Add FFI callback support.</li>
-<li>Extend <tt>-b</tt> to generate <tt>.c</tt>, <tt>.h</tt> or <tt>.obj/.o</tt>
-files with embedded bytecode.</li>
-<li>Allow loading embedded bytecode with <tt>require()</tt>.</li>
-<li>From Lua 5.2: Change to <tt>'\z'</tt> escape. Reject undefined escape
-sequences.</li>
-</ul></li>
-<li>Correctness and completeness:
-<ul>
-<li>Fix OSX 10.7 build. Fix <tt>install_name</tt> and versioning on OSX.</li>
-<li>Fix iOS build.</li>
-<li>Install <tt>dis_arm.lua</tt>, too.</li>
-<li>Mark installed shared library as executable.</li>
-<li>Add debug option to <tt>msvcbuild.bat</tt> and improve error handling.</li>
-<li>Fix data-flow analysis for iterators.</li>
-<li>Fix forced unwinding triggered by external unwinder.</li>
-<li>Record missing <tt>for</tt> loop slot loads (return to lower frame).</li>
-<li>Always use ANSI variants of Windows system functions.</li>
-<li>Fix GC barrier for multi-result table constructor (<tt>TSETM</tt>).</li>
-<li>Fix/add various FOLD rules.</li>
-<li>Add potential PHI for number conversions due to type instability.</li>
-<li>Do not eliminate PHIs only referenced from other PHIs.</li>
-<li>Correctly anchor implicit number to string conversions in Lua/C API.</li>
-<li>Fix various stack limit checks.</li>
-<li>x64: Use thread-safe exceptions for external unwinding (GCC platforms).</li>
-<li>x64: Fix result type of cdata index conversions.</li>
-<li>x64: Fix <tt>math.random()</tt> and <tt>bit.bswap()</tt> code generation.</li>
-<li>x64: Fix <tt>lightuserdata</tt> comparisons.</li>
-<li>x64: Always extend stack-passed arguments to pointer size.</li>
-<li>ARM: Many fixes to code generation backend.</li>
-<li>PPC/e500: Fix dispatch for binop metamethods.</li>
-<li>PPC/e500: Save/restore condition registers when entering/leaving the VM.</li>
-<li>PPC/e500: Fix write barrier in stores of strings to upvalues.</li>
-</ul></li>
-<li>FFI library:
-<ul>
-<li>Fix C comment parsing.</li>
-<li>Fix snapshot optimization for cdata comparisons.</li>
-<li>Fix recording of const/enum lookups in namespaces.</li>
-<li>Fix call argument and return handling for <tt>I8/U8/I16/U16</tt> types.</li>
-<li>Fix unfused loads of float fields.</li>
-<li>Fix <tt>ffi.string()</tt> recording.</li>
-<li>Save <tt>GetLastError()</tt> around <tt>ffi.load()</tt> and symbol
-resolving, too.</li>
-<li>Improve ld script detection in <tt>ffi.load()</tt>.</li>
-<li>Record loads/stores to external variables in namespaces.</li>
-<li>Compile calls to stdcall, fastcall and vararg functions.</li>
-<li>Treat function ctypes like pointers in comparisons.</li>
-<li>Resolve <tt>__call</tt> metamethod for pointers, too.</li>
-<li>Record C function calls with bool return values.</li>
-<li>Record <tt>ffi.errno()</tt>.</li>
-<li>x86: Fix number to <tt>uint32_t</tt> conversion rounding.</li>
-<li>x86: Fix 64 bit arithmetic in assembler backend.</li>
-<li>x64: Fix struct-by-value calling conventions.</li>
-<li>ARM: Ensure invocation of SPLIT pass for float conversions.</li>
-</ul></li>
-<li>Structural and performance enhancements:
-<ul>
-<li>Display trace types with <tt>-jv</tt> and <tt>-jdump</tt>.</li>
-<li>Record isolated calls. But prefer recording loops over calls.</li>
-<li>Specialize to prototype for non-monomorphic functions. Solves the
-trace-explosion problem for closure-heavy programming styles.</li>
-<li>Always generate a portable <tt>vmdef.lua</tt>. Easier for distros.</li>
-</ul></li>
-</ul>
-
-<h2 id="LuaJIT-2.0.0-beta8">LuaJIT 2.0.0-beta8 &mdash; 2011-06-23</h2>
-<ul>
-<li>New features:
-<ul>
-<li>Soft-float ARM port of LuaJIT is complete.</li>
-<li>Add support for bytecode loading/saving and <tt>-b</tt> command line
-option.</li>
-<li>From Lua 5.2: <tt>__len</tt> metamethod for tables
-(disabled by default).</li>
-</ul></li>
-<li>Correctness and completeness:
-<ul>
-<li>ARM: Misc. fixes for interpreter.</li>
-<li>x86/x64: Fix <tt>bit.*</tt> argument checking in interpreter.</li>
-<li>Catch early out-of-memory in memory allocator initialization.</li>
-<li>Fix data-flow analysis for paths leading to an upvalue close.</li>
-<li>Fix check for missing arguments in <tt>string.format()</tt>.</li>
-<li>Fix Solaris/x86 build (note: not a supported target).</li>
-<li>Fix recording of loops with instable directions in side traces.</li>
-<li>x86/x64: Fix fusion of comparisons with <tt>u8</tt>/<tt>u16</tt>
-<tt>XLOAD</tt>.</li>
-<li>x86/x64: Fix register allocation for variable shifts.</li>
-</ul></li>
-<li>FFI library:
-<ul>
-<li>Add <tt>ffi.errno()</tt>. Save <tt>errno</tt>/<tt>GetLastError()</tt>
-around allocations etc.</li>
-<li>Fix <tt>__gc</tt> for VLA/VLS cdata objects.</li>
-<li>Fix recording of casts from 32 bit cdata pointers to integers.</li>
-<li><tt>tonumber(cdata)</tt> returns <tt>nil</tt> for non-numbers.</li>
-<li>Show address pointed to for <tt>tostring(pointer)</tt>.</li>
-<li>Print <tt>NULL</tt> pointers as <tt>"cdata&lt;... *&gt;: NULL"</tt>.</li>
-<li>Support <tt>__tostring</tt> metamethod for pointers to structs, too.</li>
-</ul></li>
-<li>Structural and performance enhancements:
-<ul>
-<li>More tuning for loop unrolling heuristics.</li>
-<li>Flatten and compress in-memory debug info (saves ~70%).</li>
-</ul></li>
-</ul>
-
-<h2 id="LuaJIT-2.0.0-beta7">LuaJIT 2.0.0-beta7 &mdash; 2011-05-05</h2>
-<ul>
-<li>New features:
-<ul>
-<li>ARM port of the LuaJIT interpreter is complete.</li>
-<li>FFI library: Add <tt>ffi.gc()</tt>, <tt>ffi.metatype()</tt>,
-<tt>ffi.istype()</tt>.</li>
-<li>FFI library: Resolve ld script redirection in <tt>ffi.load()</tt>.</li>
-<li>From Lua 5.2: <tt>package.searchpath()</tt>, <tt>fp:read("*L")</tt>,
-<tt>load(string)</tt>.</li>
-<li>From Lua 5.2, disabled by default: empty statement,
-<tt>table.unpack()</tt>, modified <tt>coroutine.running()</tt>.</li>
-</ul></li>
-<li>Correctness and completeness:
-<ul>
-<li>FFI library: numerous fixes.</li>
-<li>Fix type mismatches in store-to-load forwarding.</li>
-<li>Fix error handling within metamethods.</li>
-<li>Fix <tt>table.maxn()</tt>.</li>
-<li>Improve accuracy of <tt>x^-k</tt> on x64.</li>
-<li>Fix code generation for Intel Atom in x64 mode.</li>
-<li>Fix narrowing of POW.</li>
-<li>Fix recording of retried fast functions.</li>
-<li>Fix code generation for <tt>bit.bnot()</tt> and multiplies.</li>
-<li>Fix error location within cpcall frames.</li>
-<li>Add workaround for old libgcc unwind bug.</li>
-<li>Fix <tt>lua_yield()</tt> and <tt>getmetatable(lightuserdata)</tt> on x64.</li>
-<li>Misc. fixes for PPC/e500 interpreter.</li>
-<li>Fix stack slot updates for down-recursion.</li>
-</ul></li>
-<li>Structural and performance enhancements:
-<ul>
-<li>Add dual-number mode (int/double) for the VM. Enabled for ARM.</li>
-<li>Improve narrowing of arithmetic operators and <tt>for</tt> loops.</li>
-<li>Tune loop unrolling heuristics and increase trace recorder limits.</li>
-<li>Eliminate dead slots in snapshots using bytecode data-flow analysis.</li>
-<li>Avoid phantom stores to proxy tables.</li>
-<li>Optimize lookups in empty proxy tables.</li>
-<li>Improve bytecode optimization of <tt>and</tt>/<tt>or</tt> operators.</li>
-</ul></li>
-</ul>
-
-<h2 id="LuaJIT-2.0.0-beta6">LuaJIT 2.0.0-beta6 &mdash; 2011-02-11</h2>
-<ul>
-<li>New features:
-<ul>
-<li>PowerPC/e500v2 port of the LuaJIT interpreter is complete.</li>
-<li>Various minor features from Lua 5.2: Hex escapes in literals,
-<tt>'\*'</tt> escape, reversible <tt>string.format("%q",s)</tt>,
-<tt>"%g"</tt> pattern, <tt>table.sort</tt> checks callbacks,
-<tt>os.exit(status|true|false[,close])</tt>.</li>
-<li>Lua 5.2 <tt>__pairs</tt> and <tt>__ipairs</tt> metamethods
-(disabled by default).</li>
-<li>Initial release of the FFI library.</li>
-</ul></li>
-<li>Correctness and completeness:
-<ul>
-<li>Fix <tt>string.format()</tt> for non-finite numbers.</li>
-<li>Fix memory leak when compiled to use the built-in allocator.</li>
-<li>x86/x64: Fix unnecessary resize in <tt>TSETM</tt> bytecode.</li>
-<li>Fix various GC issues with traces and <tt>jit.flush()</tt>.</li>
-<li>x64: Fix fusion of indexes for array references.</li>
-<li>x86/x64: Fix stack overflow handling for coroutine results.</li>
-<li>Enable low-2GB memory allocation on FreeBSD/x64.</li>
-<li>Fix <tt>collectgarbage("count")</tt> result if more than 2GB is in use.</li>
-<li>Fix parsing of hex floats.</li>
-<li>x86/x64: Fix loop branch inversion with trailing
-<tt>HREF+NE/EQ</tt>.</li>
-<li>Add <tt>jit.os</tt> string.</li>
-<li><tt>coroutine.create()</tt> permits running C functions, too.</li>
-<li>Fix OSX build to work with newer ld64 versions.</li>
-<li>Fix bytecode optimization of <tt>and</tt>/<tt>or</tt> operators.</li>
-</ul></li>
-<li>Structural and performance enhancements:
-<ul>
-<li>Emit specialized bytecode for <tt>pairs()</tt>/<tt>next()</tt>.</li>
-<li>Improve bytecode coalescing of <tt>nil</tt> constants.</li>
-<li>Compile calls to vararg functions.</li>
-<li>Compile <tt>select()</tt>.</li>
-<li>Improve alias analysis, esp. for loads from allocations.</li>
-<li>Tuning of various compiler heuristics.</li>
-<li>Refactor and extend IR conversion instructions.</li>
-<li>x86/x64: Various backend enhancements related to the FFI.</li>
-<li>Add SPLIT pass to split 64 bit IR instructions for 32 bit CPUs.</li>
-</ul></li>
-</ul>
-
-<h2 id="LuaJIT-2.0.0-beta5">LuaJIT 2.0.0-beta5 &mdash; 2010-08-24</h2>
-<ul>
-<li>Correctness and completeness:
-<ul>
-<li>Fix trace exit dispatch to function headers.</li>
-<li>Fix Windows and OSX builds with LUAJIT_DISABLE_JIT.</li>
-<li>Reorganize and fix placement of generated machine code on x64.</li>
-<li>Fix TNEW in x64 interpreter.</li>
-<li>Do not eliminate PHIs for values only referenced from side exits.</li>
-<li>OS-independent canonicalization of strings for non-finite numbers.</li>
-<li>Fix <tt>string.char()</tt> range check on x64.</li>
-<li>Fix <tt>tostring()</tt> resolving within <tt>print()</tt>.</li>
-<li>Fix error handling for <tt>next()</tt>.</li>
-<li>Fix passing of constant arguments to external calls on x64.</li>
-<li>Fix interpreter argument check for two-argument SSE math functions.</li>
-<li>Fix C frame chain corruption caused by <tt>lua_cpcall()</tt>.</li>
-<li>Fix return from <tt>pcall()</tt> within active hook.</li>
-</ul></li>
-<li>Structural and performance enhancements:
-<ul>
-<li>Replace on-trace GC frame syncing with interpreter exit.</li>
-<li>Improve hash lookup specialization by not removing dead keys during GC.</li>
-<li>Turn traces into true GC objects.</li>
-<li>Avoid starting a GC cycle immediately after library init.</li>
-<li>Add weak guards to improve dead-code elimination.</li>
-<li>Speed up string interning.</li>
-</ul></li>
-</ul>
-
-<h2 id="LuaJIT-2.0.0-beta4">LuaJIT 2.0.0-beta4 &mdash; 2010-03-28</h2>
-<ul>
-<li>Correctness and completeness:
-<ul>
-<li>Fix precondition for on-trace creation of table keys.</li>
-<li>Fix <tt>{f()}</tt> on x64 when table is resized.</li>
-<li>Fix folding of ordered comparisons with same references.</li>
-<li>Fix snapshot restores for multi-result bytecodes.</li>
-<li>Fix potential hang when recording bytecode with nested closures.</li>
-<li>Fix recording of <tt>getmetatable()</tt>, <tt>tonumber()</tt> and bad argument types.</li>
-<li>Fix SLOAD fusion across returns to lower frames.</li>
-</ul></li>
-<li>Structural and performance enhancements:
-<ul>
-<li>Add array bounds check elimination. <tt>-Oabc</tt> is enabled by default.</li>
-<li>More tuning for x64, e.g. smaller table objects.</li>
-</ul></li>
-</ul>
-
-<h2 id="LuaJIT-2.0.0-beta3">LuaJIT 2.0.0-beta3 &mdash; 2010-03-07</h2>
-<ul>
-<li>LuaJIT x64 port:
-<ul>
-<li>Port integrated memory allocator to Linux/x64, Windows/x64 and OSX/x64.</li>
-<li>Port interpreter and JIT compiler to x64.</li>
-<li>Port DynASM to x64.</li>
-<li>Many 32/64 bit cleanups in the VM.</li>
-<li>Allow building the interpreter with either x87 or SSE2 arithmetics.</li>
-<li>Add external unwinding and C++ exception interop (default on x64).</li>
-</ul></li>
-<li>Correctness and completeness:
-<ul>
-<li>Fix constructor bytecode generation for certain conditional values.</li>
-<li>Fix some cases of ordered string comparisons.</li>
-<li>Fix <tt>lua_tocfunction()</tt>.</li>
-<li>Fix cutoff register in JMP bytecode for some conditional expressions.</li>
-<li>Fix PHI marking algorithm for references from variant slots.</li>
-<li>Fix <tt>package.cpath</tt> for non-default PREFIX.</li>
-<li>Fix DWARF2 frame unwind information for interpreter on OSX.</li>
-<li>Drive the GC forward on string allocations in the parser.</li>
-<li>Implement call/return hooks (zero-cost if disabled).</li>
-<li>Implement yield from C hooks.</li>
-<li>Disable JIT compiler on older non-SSE2 CPUs instead of aborting.</li>
-</ul></li>
-<li>Structural and performance enhancements:
-<ul>
-<li>Compile recursive code (tail-, up- and down-recursion).</li>
-<li>Improve heuristics for bytecode penalties and blacklisting.</li>
-<li>Split CALL/FUNC recording and clean up fast function call semantics.</li>
-<li>Major redesign of internal function call handling.</li>
-<li>Improve FOR loop const specialization and integerness checks.</li>
-<li>Switch to pre-initialized stacks. Avoid frame-clearing.</li>
-<li>Colocation of prototypes and related data: bytecode, constants, debug info.</li>
-<li>Cleanup parser and streamline bytecode generation.</li>
-<li>Add support for weak IR references to register allocator.</li>
-<li>Switch to compressed, extensible snapshots.</li>
-<li>Compile returns to frames below the start frame.</li>
-<li>Improve alias analysis of upvalues using a disambiguation hash value.</li>
-<li>Compile floor/ceil/trunc to SSE2 helper calls or SSE4.1 instructions.</li>
-<li>Add generic C call handling to IR and backend.</li>
-<li>Improve KNUM fuse vs. load heuristics.</li>
-<li>Compile various <tt>io.*()</tt> functions.</li>
-<li>Compile <tt>math.sinh()</tt>, <tt>math.cosh()</tt>, <tt>math.tanh()</tt>
-and <tt>math.random()</tt>.</li>
-</ul></li>
-</ul>
-
-<h2 id="LuaJIT-2.0.0-beta2">LuaJIT 2.0.0-beta2 &mdash; 2009-11-09</h2>
-<ul>
-<li>Reorganize build system. Build static+shared library on POSIX.</li>
-<li>Allow C++ exception conversion on all platforms
-using a wrapper function.</li>
-<li>Automatically catch C++ exceptions and rethrow Lua error
-(DWARF2 only).</li>
-<li>Check for the correct x87 FPU precision at strategic points.</li>
-<li>Always use wrappers for libm functions.</li>
-<li>Resurrect metamethod name strings before copying them.</li>
-<li>Mark current trace, even if compiler is idle.</li>
-<li>Ensure FILE metatable is created only once.</li>
-<li>Fix type comparisons when different integer types are involved.</li>
-<li>Fix <tt>getmetatable()</tt> recording.</li>
-<li>Fix TDUP with dead keys in template table.</li>
-<li><tt>jit.flush(tr)</tt> returns status.
-Prevent manual flush of a trace that's still linked.</li>
-<li>Improve register allocation heuristics for invariant references.</li>
-<li>Compile the push/pop variants of <tt>table.insert()</tt> and
-<tt>table.remove()</tt>.</li>
-<li>Compatibility with MSVC <tt>link&nbsp/debug</tt>.</li>
-<li>Fix <tt>lua_iscfunction()</tt>.</li>
-<li>Fix <tt>math.random()</tt> when compiled with <tt>-fpic</tt> (OSX).</li>
-<li>Fix <tt>table.maxn()</tt>.</li>
-<li>Bump <tt>MACOSX_DEPLOYMENT_TARGET</tt> to <tt>10.4</tt></li>
-<li><tt>luaL_check*()</tt> and <tt>luaL_opt*()</tt> now support
-negative arguments, too.<br>
-This matches the behavior of Lua 5.1, but not the specification.</li>
-</ul>
-
-<h2 id="LuaJIT-2.0.0-beta1">LuaJIT 2.0.0-beta1 &mdash; 2009-10-31</h2>
-<ul>
-<li>This is the first public release of LuaJIT 2.0.</li>
-<li>The whole VM has been rewritten from the ground up, so there's
-no point in listing differences over earlier versions.</li>
-</ul>
-</div>
-
-<div class="major" style="background: #ffff80;">
-<h2 id="LuaJIT-1.1.8">LuaJIT 1.1.8 &mdash; 2012-04-16</h2>
-<ul>
-<li>Merged with Lua 5.1.5. Also integrated fixes for all
-<a href="http://www.lua.org/bugs.html#5.1.5"><span class="ext">&raquo;</span>&nbsp;<span class="ext">&raquo;</span>&nbsp;currently known bugs in Lua 5.1.5</a>.</li>
-</ul>
-
-<h2 id="LuaJIT-1.1.7">LuaJIT 1.1.7 &mdash; 2011-05-05</h2>
-<ul>
-<li>Added fixes for the
-<a href="http://www.lua.org/bugs.html#5.1.4"><span class="ext">&raquo;</span>&nbsp;currently known bugs in Lua 5.1.4</a>.</li>
-</ul>
-
-<h2 id="LuaJIT-1.1.6">LuaJIT 1.1.6 &mdash; 2010-03-28</h2>
-<ul>
-<li>Added fixes for the
-<a href="http://www.lua.org/bugs.html#5.1.4"><span class="ext">&raquo;</span>&nbsp;currently known bugs in Lua 5.1.4</a>.</li>
-<li>Removed wrong GC check in <tt>jit_createstate()</tt>.
-Thanks to Tim Mensch.</li>
-<li>Fixed bad assertions while compiling <tt>table.insert()</tt> and
-<tt>table.remove()</tt>.</li>
-</ul>
-
-<h2 id="LuaJIT-1.1.5">LuaJIT 1.1.5 &mdash; 2008-10-25</h2>
-<ul>
-<li>Merged with Lua 5.1.4. Fixes all
-<a href="http://www.lua.org/bugs.html#5.1.3"><span class="ext">&raquo;</span>&nbsp;known bugs in Lua 5.1.3</a>.</li>
-</ul>
-
-<h2 id="LuaJIT-1.1.4">LuaJIT 1.1.4 &mdash; 2008-02-05</h2>
-<ul>
-<li>Merged with Lua 5.1.3. Fixes all
-<a href="http://www.lua.org/bugs.html#5.1.2"><span class="ext">&raquo;</span>&nbsp;known bugs in Lua 5.1.2</a>.</li>
-<li>Fixed possible (but unlikely) stack corruption while compiling
-<tt>k^x</tt> expressions.</li>
-<li>Fixed DynASM template for cmpss instruction.</li>
-</ul>
-
-<h2 id="LuaJIT-1.1.3">LuaJIT 1.1.3 &mdash; 2007-05-24</h2>
-<ul>
-<li>Merged with Lua 5.1.2. Fixes all
-<a href="http://www.lua.org/bugs.html#5.1.1"><span class="ext">&raquo;</span>&nbsp;known bugs in Lua 5.1.1</a>.</li>
-<li>Merged pending Lua 5.1.x fixes: "return -nil" bug, spurious count hook call.</li>
-<li>Remove a (sometimes) wrong assertion in <tt>luaJIT_findpc()</tt>.</li>
-<li>DynASM now allows labels for displacements and <tt>.aword</tt>.</li>
-<li>Fix some compiler warnings for DynASM glue (internal API change).</li>
-<li>Correct naming for SSSE3 (temporarily known as SSE4) in DynASM and x86 disassembler.</li>
-<li>The loadable debug modules now handle redirection to stdout
-(e.g. <tt>-j&nbsp;trace=-</tt>).</li>
-</ul>
-
-<h2 id="LuaJIT-1.1.2">LuaJIT 1.1.2 &mdash; 2006-06-24</h2>
-<ul>
-<li>Fix MSVC inline assembly: use only local variables with
-<tt>lua_number2int()</tt>.</li>
-<li>Fix "attempt to call a thread value" bug on Mac OS X:
-make values of consts used as lightuserdata keys unique
-to avoid joining by the compiler/linker.</li>
-</ul>
-
-<h2 id="LuaJIT-1.1.1">LuaJIT 1.1.1 &mdash; 2006-06-20</h2>
-<ul>
-<li>Merged with Lua 5.1.1. Fixes all
-<a href="http://www.lua.org/bugs.html#5.1"><span class="ext">&raquo;</span>&nbsp;known bugs in Lua 5.1</a>.</li>
-<li>Enforce (dynamic) linker error for EXE/DLL version mismatches.</li>
-<li>Minor changes to DynASM: faster pre-processing, smaller encoding
-for some immediates.</li>
-</ul>
-<p>
-This release is in sync with Coco 1.1.1 (see the
-<a href="http://coco.luajit.org/changes.html"><span class="ext">&raquo;</span>&nbsp;Coco Change History</a>).
-</p>
-
-<h2 id="LuaJIT-1.1.0">LuaJIT 1.1.0 &mdash; 2006-03-13</h2>
-<ul>
-<li>Merged with Lua 5.1 (final).</li>
-
-<li>New JIT call frame setup:
-<ul>
-<li>The C stack is kept 16 byte aligned (faster).
-Mandatory for Mac OS X on Intel, too.</li>
-<li>Faster calling conventions for internal C helper functions.</li>
-<li>Better instruction scheduling for function prologue, OP_CALL and
-OP_RETURN.</li>
-</ul></li>
-
-<li>Miscellaneous optimizations:
-<ul>
-<li>Faster loads of FP constants. Remove narrow-to-wide store-to-load
-forwarding stalls.</li>
-<li>Use (scalar) SSE2 ops (if the CPU supports it) to speed up slot moves
-and FP to integer conversions.</li>
-<li>Optimized the two-argument form of <tt>OP_CONCAT</tt> (<tt>a..b</tt>).</li>
-<li>Inlined <tt>OP_MOD</tt> (<tt>a%b</tt>).
-With better accuracy than the C variant, too.</li>
-<li>Inlined <tt>OP_POW</tt> (<tt>a^b</tt>). Unroll <tt>x^k</tt> or
-use <tt>k^x = 2^(log2(k)*x)</tt> or call <tt>pow()</tt>.</li>
-</ul></li>
-
-<li>Changes in the optimizer:
-<ul>
-<li>Improved hinting for table keys derived from table values
-(<tt>t1[t2[x]]</tt>).</li>
-<li>Lookup hinting now works with arbitrary object types and
-supports index chains, too.</li>
-<li>Generate type hints for arithmetic and comparison operators,
-OP_LEN, OP_CONCAT and OP_FORPREP.</li>
-<li>Remove several hint definitions in favour of a generic COMBINE hint.</li>
-<li>Complete rewrite of <tt>jit.opt_inline</tt> module
-(ex <tt>jit.opt_lib</tt>).</li>
-</ul></li>
-
-<li>Use adaptive deoptimization:
-<ul>
-<li>If runtime verification of a contract fails, the affected
-instruction is recompiled and patched on-the-fly.
-Regular programs will trigger deoptimization only occasionally.</li>
-<li>This avoids generating code for uncommon fallback cases
-most of the time. Generated code is up to 30% smaller compared to
-LuaJIT&nbsp;1.0.3.</li>
-<li>Deoptimization is used for many opcodes and contracts:
-<ul>
-<li>OP_CALL, OP_TAILCALL: type mismatch for callable.</li>
-<li>Inlined calls: closure mismatch, parameter number and type mismatches.</li>
-<li>OP_GETTABLE, OP_SETTABLE: table or key type and range mismatches.</li>
-<li>All arithmetic and comparison operators, OP_LEN, OP_CONCAT,
-OP_FORPREP: operand type and range mismatches.</li>
-</ul></li>
-<li>Complete redesign of the debug and traceback info
-(bytecode &harr; mcode) to support deoptimization.
-Much more flexible and needs only 50% of the space.</li>
-<li>The modules <tt>jit.trace</tt>, <tt>jit.dumphints</tt> and
-<tt>jit.dump</tt> handle deoptimization.</li>
-</ul></li>
-
-<li>Inlined many popular library functions
-(for commonly used arguments only):
-<ul>
-<li>Most <tt>math.*</tt> functions (the 18 most used ones)
-[2x-10x faster].</li>
-<li><tt>string.len</tt>, <tt>string.sub</tt> and <tt>string.char</tt>
-[2x-10x faster].</li>
-<li><tt>table.insert</tt>, <tt>table.remove</tt> and <tt>table.getn</tt>
-[3x-5x faster].</li>
-<li><tt>coroutine.yield</tt> and <tt>coroutine.resume</tt>
-[3x-5x faster].</li>
-<li><tt>pairs</tt>, <tt>ipairs</tt> and the corresponding iterators
-[8x-15x faster].</li>
-</ul></li>
-
-<li>Changes in the core and loadable modules and the stand-alone executable:
-<ul>
-<li>Added <tt>jit.version</tt>, <tt>jit.version_num</tt>
-and <tt>jit.arch</tt>.</li>
-<li>Reorganized some internal API functions (<tt>jit.util.*mcode*</tt>).</li>
-<li>The <tt>-j dump</tt> output now shows JSUB names, too.</li>
-<li>New x86 disassembler module written in pure Lua. No dependency
-on ndisasm anymore. Flexible API, very compact (500 lines)
-and complete (x87, MMX, SSE, SSE2, SSE3, SSSE3, privileged instructions).</li>
-<li><tt>luajit -v</tt> prints the LuaJIT version and copyright
-on a separate line.</li>
-</ul></li>
-
-<li>Added SSE, SSE2, SSE3 and SSSE3 support to DynASM.</li>
-<li>Miscellaneous doc changes. Added a section about
-<a href="install.html#embedding">embedding LuaJIT</a>.</li>
-</ul>
-<p>
-This release is in sync with Coco 1.1.0 (see the
-<a href="http://coco.luajit.org/changes.html"><span class="ext">&raquo;</span>&nbsp;Coco Change History</a>).
-</p>
-</div>
-
-<div class="major" style="background: #ffffd0;">
-<h2 id="LuaJIT-1.0.3">LuaJIT 1.0.3 &mdash; 2005-09-08</h2>
-<ul>
-<li>Even more docs.</li>
-<li>Unified closure checks in <tt>jit.*</tt>.</li>
-<li>Fixed some range checks in <tt>jit.util.*</tt>.</li>
-<li>Fixed __newindex call originating from <tt>jit_settable_str()</tt>.</li>
-<li>Merged with Lua 5.1 alpha (including early bug fixes).</li>
-</ul>
-<p>
-This is the first public release of LuaJIT.
-</p>
-
-<h2 id="LuaJIT-1.0.2">LuaJIT 1.0.2 &mdash; 2005-09-02</h2>
-<ul>
-<li>Add support for flushing the Valgrind translation cache <br>
-(<tt>MYCFLAGS= -DUSE_VALGRIND</tt>).</li>
-<li>Add support for freeing executable mcode memory to the <tt>mmap()</tt>-based
-variant for POSIX systems.</li>
-<li>Reorganized the C&nbsp;function signature handling in
-<tt>jit.opt_lib</tt>.</li>
-<li>Changed to index-based hints for inlining C&nbsp;functions.
-Still no support in the backend for inlining.</li>
-<li>Hardcode <tt>HEAP_CREATE_ENABLE_EXECUTE</tt> value if undefined.</li>
-<li>Misc. changes to the <tt>jit.*</tt> modules.</li>
-<li>Misc. changes to the Makefiles.</li>
-<li>Lots of new docs.</li>
-<li>Complete doc reorg.</li>
-</ul>
-<p>
-Not released because Lua 5.1 alpha came out today.
-</p>
-
-<h2 id="LuaJIT-1.0.1">LuaJIT 1.0.1 &mdash; 2005-08-31</h2>
-<ul>
-<li>Missing GC step in <tt>OP_CONCAT</tt>.</li>
-<li>Fix result handling for C &ndash;> JIT calls.</li>
-<li>Detect CPU feature bits.</li>
-<li>Encode conditional moves (<tt>fucomip</tt>) only when supported.</li>
-<li>Add fallback instructions for FP compares.</li>
-<li>Add support for <tt>LUA_COMPAT_VARARG</tt>. Still disabled by default.</li>
-<li>MSVC needs a specific place for the <tt>CALLBACK</tt> attribute
-(David Burgess).</li>
-<li>Misc. doc updates.</li>
-</ul>
-<p>
-Interim non-public release.
-Special thanks to Adam D. Moss for reporting most of the bugs.
-</p>
-
-<h2 id="LuaJIT-1.0.0">LuaJIT 1.0.0 &mdash; 2005-08-29</h2>
-<p>
-This is the initial non-public release of LuaJIT.
-</p>
-</div>
-<br class="flush">
-</div>
-<div id="foot">
-<hr class="hide">
-Copyright &copy; 2005-2014 Mike Pall
-<span class="noprint">
-&middot;
-<a href="contact.html">Contact</a>
-</span>
-</div>
-</body>
-</html>
diff --git a/luajit-2.0/doc/contact.html b/luajit-2.0/doc/contact.html
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@@ -1,102 +0,0 @@
-<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.01//EN" "http://www.w3.org/TR/html4/strict.dtd">
-<html>
-<head>
-<title>Contact</title>
-<meta http-equiv="Content-Type" content="text/html; charset=iso-8859-1">
-<meta name="Author" content="Mike Pall">
-<meta name="Copyright" content="Copyright (C) 2005-2014, Mike Pall">
-<meta name="Language" content="en">
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-</head>
-<body>
-<div id="site">
-<a href="http://luajit.org"><span>Lua<span id="logo">JIT</span></span></a>
-</div>
-<div id="head">
-<h1>Contact</h1>
-</div>
-<div id="nav">
-<ul><li>
-<a href="luajit.html">LuaJIT</a>
-<ul><li>
-<a href="http://luajit.org/download.html">Download <span class="ext">&raquo;</span></a>
-</li><li>
-<a href="install.html">Installation</a>
-</li><li>
-<a href="running.html">Running</a>
-</li></ul>
-</li><li>
-<a href="extensions.html">Extensions</a>
-<ul><li>
-<a href="ext_ffi.html">FFI Library</a>
-<ul><li>
-<a href="ext_ffi_tutorial.html">FFI Tutorial</a>
-</li><li>
-<a href="ext_ffi_api.html">ffi.* API</a>
-</li><li>
-<a href="ext_ffi_semantics.html">FFI Semantics</a>
-</li></ul>
-</li><li>
-<a href="ext_jit.html">jit.* Library</a>
-</li><li>
-<a href="ext_c_api.html">Lua/C API</a>
-</li></ul>
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-<a href="status.html">Status</a>
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-<a href="changes.html">Changes</a>
-</li></ul>
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-<a href="faq.html">FAQ</a>
-</li><li>
-<a href="http://luajit.org/performance.html">Performance <span class="ext">&raquo;</span></a>
-</li><li>
-<a href="http://wiki.luajit.org/">Wiki <span class="ext">&raquo;</span></a>
-</li><li>
-<a href="http://luajit.org/list.html">Mailing List <span class="ext">&raquo;</span></a>
-</li></ul>
-</div>
-<div id="main">
-<p>
-Please send general questions to the
-<a href="http://luajit.org/list.html"><span class="ext">&raquo;</span>&nbsp;LuaJIT mailing list</a>.
-You can also send any questions you have directly to me:
-</p>
-
-<script type="text/javascript">
-<!--
-var xS="@-:\" .0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZ<abc>defghijklmnopqrstuvwxyz";function xD(s)
-{var len=s.length;var r="";for(var i=0;i<len;i++)
-{var c=s.charAt(i);var n=xS.indexOf(c);if(n!=-1)c=xS.charAt(69-n);r+=c;}
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-</p>
-</noscript>
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-<h2>Copyright</h2>
-<p>
-All documentation is
-Copyright &copy; 2005-2014 Mike Pall.
-</p>
-
-
-<br class="flush">
-</div>
-<div id="foot">
-<hr class="hide">
-Copyright &copy; 2005-2014 Mike Pall
-<span class="noprint">
-&middot;
-<a href="contact.html">Contact</a>
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-</html>
diff --git a/luajit-2.0/doc/ext_c_api.html b/luajit-2.0/doc/ext_c_api.html
deleted file mode 100644
index 4850336..0000000
--- a/luajit-2.0/doc/ext_c_api.html
+++ /dev/null
@@ -1,187 +0,0 @@
-<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.01//EN" "http://www.w3.org/TR/html4/strict.dtd">
-<html>
-<head>
-<title>Lua/C API Extensions</title>
-<meta http-equiv="Content-Type" content="text/html; charset=iso-8859-1">
-<meta name="Author" content="Mike Pall">
-<meta name="Copyright" content="Copyright (C) 2005-2014, Mike Pall">
-<meta name="Language" content="en">
-<link rel="stylesheet" type="text/css" href="bluequad.css" media="screen">
-<link rel="stylesheet" type="text/css" href="bluequad-print.css" media="print">
-</head>
-<body>
-<div id="site">
-<a href="http://luajit.org"><span>Lua<span id="logo">JIT</span></span></a>
-</div>
-<div id="head">
-<h1>Lua/C API Extensions</h1>
-</div>
-<div id="nav">
-<ul><li>
-<a href="luajit.html">LuaJIT</a>
-<ul><li>
-<a href="http://luajit.org/download.html">Download <span class="ext">&raquo;</span></a>
-</li><li>
-<a href="install.html">Installation</a>
-</li><li>
-<a href="running.html">Running</a>
-</li></ul>
-</li><li>
-<a href="extensions.html">Extensions</a>
-<ul><li>
-<a href="ext_ffi.html">FFI Library</a>
-<ul><li>
-<a href="ext_ffi_tutorial.html">FFI Tutorial</a>
-</li><li>
-<a href="ext_ffi_api.html">ffi.* API</a>
-</li><li>
-<a href="ext_ffi_semantics.html">FFI Semantics</a>
-</li></ul>
-</li><li>
-<a href="ext_jit.html">jit.* Library</a>
-</li><li>
-<a class="current" href="ext_c_api.html">Lua/C API</a>
-</li></ul>
-</li><li>
-<a href="status.html">Status</a>
-<ul><li>
-<a href="changes.html">Changes</a>
-</li></ul>
-</li><li>
-<a href="faq.html">FAQ</a>
-</li><li>
-<a href="http://luajit.org/performance.html">Performance <span class="ext">&raquo;</span></a>
-</li><li>
-<a href="http://wiki.luajit.org/">Wiki <span class="ext">&raquo;</span></a>
-</li><li>
-<a href="http://luajit.org/list.html">Mailing List <span class="ext">&raquo;</span></a>
-</li></ul>
-</div>
-<div id="main">
-<p>
-LuaJIT adds some extensions to the standard Lua/C API. The LuaJIT include
-directory must be in the compiler search path (<tt>-I<i>path</i></tt>)
-to be able to include the required header for C code:
-</p>
-<pre class="code">
-#include "luajit.h"
-</pre>
-<p>
-Or for C++ code:
-</p>
-<pre class="code">
-#include "lua.hpp"
-</pre>
-
-<h2 id="luaJIT_setmode"><tt>luaJIT_setmode(L, idx, mode)</tt>
-&mdash; Control VM</h2>
-<p>
-This is a C API extension to allow control of the VM from C code. The
-full prototype of <tt>LuaJIT_setmode</tt> is:
-</p>
-<pre class="code">
-LUA_API int luaJIT_setmode(lua_State *L, int idx, int mode);
-</pre>
-<p>
-The returned status is either success (<tt>1</tt>) or failure (<tt>0</tt>).
-The second argument is either <tt>0</tt> or a stack index (similar to the
-other Lua/C API functions).
-</p>
-<p>
-The third argument specifies the mode, which is 'or'ed with a flag.
-The flag can be <tt>LUAJIT_MODE_OFF</tt> to turn a feature on,
-<tt>LUAJIT_MODE_ON</tt> to turn a feature off, or
-<tt>LUAJIT_MODE_FLUSH</tt> to flush cached code.
-</p>
-<p>
-The following modes are defined:
-</p>
-
-<h3 id="mode_engine"><tt>luaJIT_setmode(L, 0, LUAJIT_MODE_ENGINE|flag)</tt></h3>
-<p>
-Turn the whole JIT compiler on or off or flush the whole cache of compiled code.
-</p>
-
-<h3 id="mode_func"><tt>luaJIT_setmode(L, idx, LUAJIT_MODE_FUNC|flag)</tt><br>
-<tt>luaJIT_setmode(L, idx, LUAJIT_MODE_ALLFUNC|flag)</tt><br>
-<tt>luaJIT_setmode(L, idx, LUAJIT_MODE_ALLSUBFUNC|flag)</tt></h3>
-<p>
-This sets the mode for the function at the stack index <tt>idx</tt> or
-the parent of the calling function (<tt>idx = 0</tt>). It either
-enables JIT compilation for a function, disables it and flushes any
-already compiled code or only flushes already compiled code. This
-applies recursively to all sub-functions of the function with
-<tt>LUAJIT_MODE_ALLFUNC</tt> or only to the sub-functions with
-<tt>LUAJIT_MODE_ALLSUBFUNC</tt>.
-</p>
-
-<h3 id="mode_trace"><tt>luaJIT_setmode(L, trace,<br>
-&nbsp;&nbsp;LUAJIT_MODE_TRACE|LUAJIT_MODE_FLUSH)</tt></h3>
-<p>
-Flushes the specified root trace and all of its side traces from the cache.
-The code for the trace will be retained as long as there are any other
-traces which link to it.
-</p>
-
-<h3 id="mode_wrapcfunc"><tt>luaJIT_setmode(L, idx, LUAJIT_MODE_WRAPCFUNC|flag)</tt></h3>
-<p>
-This mode defines a wrapper function for calls to C functions. If
-called with <tt>LUAJIT_MODE_ON</tt>, the stack index at <tt>idx</tt>
-must be a <tt>lightuserdata</tt> object holding a pointer to the wrapper
-function. From now on all C functions are called through the wrapper
-function. If called with <tt>LUAJIT_MODE_OFF</tt> this mode is turned
-off and all C functions are directly called.
-</p>
-<p>
-The wrapper function can be used for debugging purposes or to catch
-and convert foreign exceptions. But please read the section on
-<a href="extensions.html#exceptions">C++&nbsp;exception interoperability</a>
-first. Recommended usage can be seen in this C++ code excerpt:
-</p>
-<pre class="code">
-#include &lt;exception&gt;
-#include "lua.hpp"
-
-// Catch C++ exceptions and convert them to Lua error messages.
-// Customize as needed for your own exception classes.
-static int wrap_exceptions(lua_State *L, lua_CFunction f)
-{
-  try {
-    return f(L);  // Call wrapped function and return result.
-  } catch (const char *s) {  // Catch and convert exceptions.
-    lua_pushstring(L, s);
-  } catch (std::exception& e) {
-    lua_pushstring(L, e.what());
-  } catch (...) {
-    lua_pushliteral(L, "caught (...)");
-  }
-  return lua_error(L);  // Rethrow as a Lua error.
-}
-
-static int myinit(lua_State *L)
-{
-  ...
-  // Define wrapper function and enable it.
-  lua_pushlightuserdata(L, (void *)wrap_exceptions);
-  luaJIT_setmode(L, -1, LUAJIT_MODE_WRAPCFUNC|LUAJIT_MODE_ON);
-  lua_pop(L, 1);
-  ...
-}
-</pre>
-<p>
-Note that you can only define <b>a single global wrapper function</b>,
-so be careful when using this mechanism from multiple C++ modules.
-Also note that this mechanism is not without overhead.
-</p>
-<br class="flush">
-</div>
-<div id="foot">
-<hr class="hide">
-Copyright &copy; 2005-2014 Mike Pall
-<span class="noprint">
-&middot;
-<a href="contact.html">Contact</a>
-</span>
-</div>
-</body>
-</html>
diff --git a/luajit-2.0/doc/ext_ffi.html b/luajit-2.0/doc/ext_ffi.html
deleted file mode 100644
index fa9ca97..0000000
--- a/luajit-2.0/doc/ext_ffi.html
+++ /dev/null
@@ -1,330 +0,0 @@
-<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.01//EN" "http://www.w3.org/TR/html4/strict.dtd">
-<html>
-<head>
-<title>FFI Library</title>
-<meta http-equiv="Content-Type" content="text/html; charset=iso-8859-1">
-<meta name="Author" content="Mike Pall">
-<meta name="Copyright" content="Copyright (C) 2005-2014, Mike Pall">
-<meta name="Language" content="en">
-<link rel="stylesheet" type="text/css" href="bluequad.css" media="screen">
-<link rel="stylesheet" type="text/css" href="bluequad-print.css" media="print">
-</head>
-<body>
-<div id="site">
-<a href="http://luajit.org"><span>Lua<span id="logo">JIT</span></span></a>
-</div>
-<div id="head">
-<h1>FFI Library</h1>
-</div>
-<div id="nav">
-<ul><li>
-<a href="luajit.html">LuaJIT</a>
-<ul><li>
-<a href="http://luajit.org/download.html">Download <span class="ext">&raquo;</span></a>
-</li><li>
-<a href="install.html">Installation</a>
-</li><li>
-<a href="running.html">Running</a>
-</li></ul>
-</li><li>
-<a href="extensions.html">Extensions</a>
-<ul><li>
-<a class="current" href="ext_ffi.html">FFI Library</a>
-<ul><li>
-<a href="ext_ffi_tutorial.html">FFI Tutorial</a>
-</li><li>
-<a href="ext_ffi_api.html">ffi.* API</a>
-</li><li>
-<a href="ext_ffi_semantics.html">FFI Semantics</a>
-</li></ul>
-</li><li>
-<a href="ext_jit.html">jit.* Library</a>
-</li><li>
-<a href="ext_c_api.html">Lua/C API</a>
-</li></ul>
-</li><li>
-<a href="status.html">Status</a>
-<ul><li>
-<a href="changes.html">Changes</a>
-</li></ul>
-</li><li>
-<a href="faq.html">FAQ</a>
-</li><li>
-<a href="http://luajit.org/performance.html">Performance <span class="ext">&raquo;</span></a>
-</li><li>
-<a href="http://wiki.luajit.org/">Wiki <span class="ext">&raquo;</span></a>
-</li><li>
-<a href="http://luajit.org/list.html">Mailing List <span class="ext">&raquo;</span></a>
-</li></ul>
-</div>
-<div id="main">
-<p>
-
-The FFI library allows <b>calling external C&nbsp;functions</b> and
-<b>using C&nbsp;data structures</b> from pure Lua code.
-
-</p>
-<p>
-
-The FFI library largely obviates the need to write tedious manual
-Lua/C bindings in C. No need to learn a separate binding language
-&mdash; <b>it parses plain C&nbsp;declarations!</b> These can be
-cut-n-pasted from C&nbsp;header files or reference manuals. It's up to
-the task of binding large libraries without the need for dealing with
-fragile binding generators.
-
-</p>
-<p>
-The FFI library is tightly integrated into LuaJIT (it's not available
-as a separate module). The code generated by the JIT-compiler for
-accesses to C&nbsp;data structures from Lua code is on par with the
-code a C&nbsp;compiler would generate. Calls to C&nbsp;functions can
-be inlined in JIT-compiled code, unlike calls to functions bound via
-the classic Lua/C API.
-</p>
-<p>
-This page gives a short introduction to the usage of the FFI library.
-<em>Please use the FFI sub-topics in the navigation bar to learn more.</em>
-</p>
-
-<h2 id="call">Motivating Example: Calling External C Functions</h2>
-<p>
-It's really easy to call an external C&nbsp;library function:
-</p>
-<pre class="code mark">
-<span class="codemark">&#9312;
-&#9313;
-
-
-&#9314;</span>local ffi = require("ffi")
-ffi.cdef[[
-<span style="color:#00a000;">int printf(const char *fmt, ...);</span>
-]]
-ffi.C.printf("Hello %s!", "world")
-</pre>
-<p>
-So, let's pick that apart:
-</p>
-<p>
-<span class="mark">&#9312;</span> Load the FFI library.
-</p>
-<p>
-<span class="mark">&#9313;</span> Add a C&nbsp;declaration
-for the function. The part inside the double-brackets (in green) is
-just standard C&nbsp;syntax.
-</p>
-<p>
-<span class="mark">&#9314;</span> Call the named
-C&nbsp;function &mdash; Yes, it's that simple!
-</p>
-<p style="font-size: 8pt;">
-Actually, what goes on behind the scenes is far from simple: <span
-style="color:#4040c0;">&#9314;</span> makes use of the standard
-C&nbsp;library namespace <tt>ffi.C</tt>. Indexing this namespace with
-a symbol name (<tt>"printf"</tt>) automatically binds it to the
-standard C&nbsp;library. The result is a special kind of object which,
-when called, runs the <tt>printf</tt> function. The arguments passed
-to this function are automatically converted from Lua objects to the
-corresponding C&nbsp;types.
-</p>
-<p>
-Ok, so maybe the use of <tt>printf()</tt> wasn't such a spectacular
-example. You could have done that with <tt>io.write()</tt> and
-<tt>string.format()</tt>, too. But you get the idea ...
-</p>
-<p>
-So here's something to pop up a message box on Windows:
-</p>
-<pre class="code">
-local ffi = require("ffi")
-ffi.cdef[[
-<span style="color:#00a000;">int MessageBoxA(void *w, const char *txt, const char *cap, int type);</span>
-]]
-ffi.C.MessageBoxA(nil, "Hello world!", "Test", 0)
-</pre>
-<p>
-Bing! Again, that was far too easy, no?
-</p>
-<p style="font-size: 8pt;">
-Compare this with the effort required to bind that function using the
-classic Lua/C API: create an extra C&nbsp;file, add a C&nbsp;function
-that retrieves and checks the argument types passed from Lua and calls
-the actual C&nbsp;function, add a list of module functions and their
-names, add a <tt>luaopen_*</tt> function and register all module
-functions, compile and link it into a shared library (DLL), move it to
-the proper path, add Lua code that loads the module aaaand ... finally
-call the binding function. Phew!
-</p>
-
-<h2 id="cdata">Motivating Example: Using C Data Structures</h2>
-<p>
-The FFI library allows you to create and access C&nbsp;data
-structures. Of course the main use for this is for interfacing with
-C&nbsp;functions. But they can be used stand-alone, too.
-</p>
-<p>
-Lua is built upon high-level data types. They are flexible, extensible
-and dynamic. That's why we all love Lua so much. Alas, this can be
-inefficient for certain tasks, where you'd really want a low-level
-data type. E.g. a large array of a fixed structure needs to be
-implemented with a big table holding lots of tiny tables. This imposes
-both a substantial memory overhead as well as a performance overhead.
-</p>
-<p>
-Here's a sketch of a library that operates on color images plus a
-simple benchmark. First, the plain Lua version:
-</p>
-<pre class="code">
-local floor = math.floor
-
-local function image_ramp_green(n)
-  local img = {}
-  local f = 255/(n-1)
-  for i=1,n do
-    img[i] = { red = 0, green = floor((i-1)*f), blue = 0, alpha = 255 }
-  end
-  return img
-end
-
-local function image_to_grey(img, n)
-  for i=1,n do
-    local y = floor(0.3*img[i].red + 0.59*img[i].green + 0.11*img[i].blue)
-    img[i].red = y; img[i].green = y; img[i].blue = y
-  end
-end
-
-local N = 400*400
-local img = image_ramp_green(N)
-for i=1,1000 do
-  image_to_grey(img, N)
-end
-</pre>
-<p>
-This creates a table with 160.000 pixels, each of which is a table
-holding four number values in the range of 0-255. First an image with
-a green ramp is created (1D for simplicity), then the image is
-converted to greyscale 1000 times. Yes, that's silly, but I was in
-need of a simple example ...
-</p>
-<p>
-And here's the FFI version. The modified parts have been marked in
-bold:
-</p>
-<pre class="code mark">
-<span class="codemark">&#9312;
-
-
-
-
-
-&#9313;
-
-&#9314;
-&#9315;
-
-
-
-
-
-
-&#9314;
-&#9316;</span><b>local ffi = require("ffi")
-ffi.cdef[[
-</b><span style="color:#00a000;">typedef struct { uint8_t red, green, blue, alpha; } rgba_pixel;</span><b>
-]]</b>
-
-local function image_ramp_green(n)
-  <b>local img = ffi.new("rgba_pixel[?]", n)</b>
-  local f = 255/(n-1)
-  for i=<b>0,n-1</b> do
-    <b>img[i].green = i*f</b>
-    <b>img[i].alpha = 255</b>
-  end
-  return img
-end
-
-local function image_to_grey(img, n)
-  for i=<b>0,n-1</b> do
-    local y = <b>0.3*img[i].red + 0.59*img[i].green + 0.11*img[i].blue</b>
-    img[i].red = y; img[i].green = y; img[i].blue = y
-  end
-end
-
-local N = 400*400
-local img = image_ramp_green(N)
-for i=1,1000 do
-  image_to_grey(img, N)
-end
-</pre>
-<p>
-Ok, so that wasn't too difficult:
-</p>
-<p>
-<span class="mark">&#9312;</span> First, load the FFI
-library and declare the low-level data type. Here we choose a
-<tt>struct</tt> which holds four byte fields, one for each component
-of a 4x8&nbsp;bit RGBA pixel.
-</p>
-<p>
-<span class="mark">&#9313;</span> Creating the data
-structure with <tt>ffi.new()</tt> is straightforward &mdash; the
-<tt>'?'</tt> is a placeholder for the number of elements of a
-variable-length array.
-</p>
-<p>
-<span class="mark">&#9314;</span> C&nbsp;arrays are
-zero-based, so the indexes have to run from <tt>0</tt> to
-<tt>n-1</tt>. One might want to allocate one more element instead to
-simplify converting legacy code.
-</p>
-<p>
-<span class="mark">&#9315;</span> Since <tt>ffi.new()</tt>
-zero-fills the array by default, we only need to set the green and the
-alpha fields.
-</p>
-<p>
-<span class="mark">&#9316;</span> The calls to
-<tt>math.floor()</tt> can be omitted here, because floating-point
-numbers are already truncated towards zero when converting them to an
-integer. This happens implicitly when the number is stored in the
-fields of each pixel.
-</p>
-<p>
-Now let's have a look at the impact of the changes: first, memory
-consumption for the image is down from 22&nbsp;Megabytes to
-640&nbsp;Kilobytes (400*400*4 bytes). That's a factor of 35x less! So,
-yes, tables do have a noticeable overhead. BTW: The original program
-would consume 40&nbsp;Megabytes in plain Lua (on x64).
-</p>
-<p>
-Next, performance: the pure Lua version runs in 9.57 seconds (52.9
-seconds with the Lua interpreter) and the FFI version runs in 0.48
-seconds on my machine (YMMV). That's a factor of 20x faster (110x
-faster than the Lua interpreter).
-</p>
-<p style="font-size: 8pt;">
-The avid reader may notice that converting the pure Lua version over
-to use array indexes for the colors (<tt>[1]</tt> instead of
-<tt>.red</tt>, <tt>[2]</tt> instead of <tt>.green</tt> etc.) ought to
-be more compact and faster. This is certainly true (by a factor of
-~1.7x). Switching to a struct-of-arrays would help, too.
-</p>
-<p style="font-size: 8pt;">
-However the resulting code would be less idiomatic and rather
-error-prone. And it still doesn't get even close to the performance of
-the FFI version of the code. Also, high-level data structures cannot
-be easily passed to other C&nbsp;functions, especially I/O functions,
-without undue conversion penalties.
-</p>
-<br class="flush">
-</div>
-<div id="foot">
-<hr class="hide">
-Copyright &copy; 2005-2014 Mike Pall
-<span class="noprint">
-&middot;
-<a href="contact.html">Contact</a>
-</span>
-</div>
-</body>
-</html>
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-<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.01//EN" "http://www.w3.org/TR/html4/strict.dtd">
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-<head>
-<title>ffi.* API Functions</title>
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-<meta name="Author" content="Mike Pall">
-<meta name="Copyright" content="Copyright (C) 2005-2014, Mike Pall">
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-<a href="http://luajit.org"><span>Lua<span id="logo">JIT</span></span></a>
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-<h1><tt>ffi.*</tt> API Functions</h1>
-</div>
-<div id="nav">
-<ul><li>
-<a href="luajit.html">LuaJIT</a>
-<ul><li>
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-</li></ul>
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-</li></ul>
-</div>
-<div id="main">
-<p>
-This page describes the API functions provided by the FFI library in
-detail. It's recommended to read through the
-<a href="ext_ffi.html">introduction</a> and the
-<a href="ext_ffi_tutorial.html">FFI tutorial</a> first.
-</p>
-
-<h2 id="glossary">Glossary</h2>
-<ul>
-<li><b>cdecl</b> &mdash; An abstract C&nbsp;type declaration (a Lua
-string).</li>
-<li><b>ctype</b> &mdash; A C&nbsp;type object. This is a special kind of
-<b>cdata</b> returned by <tt>ffi.typeof()</tt>. It serves as a
-<b>cdata</b> <a href="#ffi_new">constructor</a> when called.</li>
-<li><b>cdata</b> &mdash; A C&nbsp;data object. It holds a value of the
-corresponding <b>ctype</b>.</li>
-<li><b>ct</b> &mdash; A C&nbsp;type specification which can be used for
-most of the API functions. Either a <b>cdecl</b>, a <b>ctype</b> or a
-<b>cdata</b> serving as a template type.</li>
-<li><b>cb</b> &mdash; A callback object. This is a C&nbsp;data object
-holding a special function pointer. Calling this function from
-C&nbsp;code runs an associated Lua function.</li>
-<li><b>VLA</b> &mdash; A variable-length array is declared with a
-<tt>?</tt> instead of the number of elements, e.g. <tt>"int[?]"</tt>.
-The number of elements (<tt>nelem</tt>) must be given when it's
-<a href="#ffi_new">created</a>.</li>
-<li><b>VLS</b> &mdash; A variable-length struct is a <tt>struct</tt> C
-type where the last element is a <b>VLA</b>. The same rules for
-declaration and creation apply.</li>
-</ul>
-
-<h2 id="decl">Declaring and Accessing External Symbols</h2>
-<p>
-External symbols must be declared first and can then be accessed by
-indexing a <a href="ext_ffi_semantics.html#clib">C&nbsp;library
-namespace</a>, which automatically binds the symbol to a specific
-library.
-</p>
-
-<h3 id="ffi_cdef"><tt>ffi.cdef(def)</tt></h3>
-<p>
-Adds multiple C&nbsp;declarations for types or external symbols (named
-variables or functions). <tt>def</tt> must be a Lua string. It's
-recommended to use the syntactic sugar for string arguments as
-follows:
-</p>
-<pre class="code">
-ffi.cdef[[
-<span style="color:#00a000;">typedef struct foo { int a, b; } foo_t;  // Declare a struct and typedef.
-int dofoo(foo_t *f, int n);  /* Declare an external C function. */</span>
-]]
-</pre>
-<p>
-The contents of the string (the part in green above) must be a
-sequence of
-<a href="ext_ffi_semantics.html#clang">C&nbsp;declarations</a>,
-separated by semicolons. The trailing semicolon for a single
-declaration may be omitted.
-</p>
-<p>
-Please note that external symbols are only <em>declared</em>, but they
-are <em>not bound</em> to any specific address, yet. Binding is
-achieved with C&nbsp;library namespaces (see below).
-</p>
-<p style="color: #c00000;">
-C&nbsp;declarations are not passed through a C&nbsp;pre-processor,
-yet. No pre-processor tokens are allowed, except for
-<tt>#pragma&nbsp;pack</tt>. Replace <tt>#define</tt> in existing
-C&nbsp;header files with <tt>enum</tt>, <tt>static&nbsp;const</tt>
-or <tt>typedef</tt> and/or pass the files through an external
-C&nbsp;pre-processor (once). Be careful not to include unneeded or
-redundant declarations from unrelated header files.
-</p>
-
-<h3 id="ffi_C"><tt>ffi.C</tt></h3>
-<p>
-This is the default C&nbsp;library namespace &mdash; note the
-uppercase <tt>'C'</tt>. It binds to the default set of symbols or
-libraries on the target system. These are more or less the same as a
-C&nbsp;compiler would offer by default, without specifying extra link
-libraries.
-</p>
-<p>
-On POSIX systems, this binds to symbols in the default or global
-namespace. This includes all exported symbols from the executable and
-any libraries loaded into the global namespace. This includes at least
-<tt>libc</tt>, <tt>libm</tt>, <tt>libdl</tt> (on Linux),
-<tt>libgcc</tt> (if compiled with GCC), as well as any exported
-symbols from the Lua/C&nbsp;API provided by LuaJIT itself.
-</p>
-<p>
-On Windows systems, this binds to symbols exported from the
-<tt>*.exe</tt>, the <tt>lua51.dll</tt> (i.e. the Lua/C&nbsp;API
-provided by LuaJIT itself), the C&nbsp;runtime library LuaJIT was linked
-with (<tt>msvcrt*.dll</tt>), <tt>kernel32.dll</tt>,
-<tt>user32.dll</tt> and <tt>gdi32.dll</tt>.
-</p>
-
-<h3 id="ffi_load"><tt>clib = ffi.load(name [,global])</tt></h3>
-<p>
-This loads the dynamic library given by <tt>name</tt> and returns
-a new C&nbsp;library namespace which binds to its symbols. On POSIX
-systems, if <tt>global</tt> is <tt>true</tt>, the library symbols are
-loaded into the global namespace, too.
-</p>
-<p>
-If <tt>name</tt> is a path, the library is loaded from this path.
-Otherwise <tt>name</tt> is canonicalized in a system-dependent way and
-searched in the default search path for dynamic libraries:
-</p>
-<p>
-On POSIX systems, if the name contains no dot, the extension
-<tt>.so</tt> is appended. Also, the <tt>lib</tt> prefix is prepended
-if necessary. So <tt>ffi.load("z")</tt> looks for <tt>"libz.so"</tt>
-in the default shared library search path.
-</p>
-<p>
-On Windows systems, if the name contains no dot, the extension
-<tt>.dll</tt> is appended. So <tt>ffi.load("ws2_32")</tt> looks for
-<tt>"ws2_32.dll"</tt> in the default DLL search path.
-</p>
-
-<h2 id="create">Creating cdata Objects</h2>
-<p>
-The following API functions create cdata objects (<tt>type()</tt>
-returns <tt>"cdata"</tt>). All created cdata objects are
-<a href="ext_ffi_semantics.html#gc">garbage collected</a>.
-</p>
-
-<h3 id="ffi_new"><tt>cdata = ffi.new(ct [,nelem] [,init...])<br>
-cdata = <em>ctype</em>([nelem,] [init...])</tt></h3>
-<p>
-Creates a cdata object for the given <tt>ct</tt>. VLA/VLS types
-require the <tt>nelem</tt> argument. The second syntax uses a ctype as
-a constructor and is otherwise fully equivalent.
-</p>
-<p>
-The cdata object is initialized according to the
-<a href="ext_ffi_semantics.html#init">rules for initializers</a>,
-using the optional <tt>init</tt> arguments. Excess initializers cause
-an error.
-</p>
-<p>
-Performance notice: if you want to create many objects of one kind,
-parse the cdecl only once and get its ctype with
-<tt>ffi.typeof()</tt>. Then use the ctype as a constructor repeatedly.
-</p>
-<p style="font-size: 8pt;">
-Please note that an anonymous <tt>struct</tt> declaration implicitly
-creates a new and distinguished ctype every time you use it for
-<tt>ffi.new()</tt>. This is probably <b>not</b> what you want,
-especially if you create more than one cdata object. Different anonymous
-<tt>structs</tt> are not considered assignment-compatible by the
-C&nbsp;standard, even though they may have the same fields! Also, they
-are considered different types by the JIT-compiler, which may cause an
-excessive number of traces. It's strongly suggested to either declare
-a named <tt>struct</tt> or <tt>typedef</tt> with <tt>ffi.cdef()</tt>
-or to create a single ctype object for an anonymous <tt>struct</tt>
-with <tt>ffi.typeof()</tt>.
-</p>
-
-<h3 id="ffi_typeof"><tt>ctype = ffi.typeof(ct)</tt></h3>
-<p>
-Creates a ctype object for the given <tt>ct</tt>.
-</p>
-<p>
-This function is especially useful to parse a cdecl only once and then
-use the resulting ctype object as a <a href="#ffi_new">constructor</a>.
-</p>
-
-<h3 id="ffi_cast"><tt>cdata = ffi.cast(ct, init)</tt></h3>
-<p>
-Creates a scalar cdata object for the given <tt>ct</tt>. The cdata
-object is initialized with <tt>init</tt> using the "cast" variant of
-the <a href="ext_ffi_semantics.html#convert">C&nbsp;type conversion
-rules</a>.
-</p>
-<p>
-This functions is mainly useful to override the pointer compatibility
-checks or to convert pointers to addresses or vice versa.
-</p>
-
-<h3 id="ffi_metatype"><tt>ctype = ffi.metatype(ct, metatable)</tt></h3>
-<p>
-Creates a ctype object for the given <tt>ct</tt> and associates it with
-a metatable. Only <tt>struct</tt>/<tt>union</tt> types, complex numbers
-and vectors are allowed. Other types may be wrapped in a
-<tt>struct</tt>, if needed.
-</p>
-<p>
-The association with a metatable is permanent and cannot be changed
-afterwards. Neither the contents of the <tt>metatable</tt> nor the
-contents of an <tt>__index</tt> table (if any) may be modified
-afterwards. The associated metatable automatically applies to all uses
-of this type, no matter how the objects are created or where they
-originate from. Note that pre-defined operations on types have
-precedence (e.g. declared field names cannot be overriden).
-</p>
-<p>
-All standard Lua metamethods are implemented. These are called directly,
-without shortcuts and on any mix of types. For binary operations, the
-left operand is checked first for a valid ctype metamethod. The
-<tt>__gc</tt> metamethod only applies to <tt>struct</tt>/<tt>union</tt>
-types and performs an implicit <a href="#ffi_gc"><tt>ffi.gc()</tt></a>
-call during creation of an instance.
-</p>
-
-<h3 id="ffi_gc"><tt>cdata = ffi.gc(cdata, finalizer)</tt></h3>
-<p>
-Associates a finalizer with a pointer or aggregate cdata object. The
-cdata object is returned unchanged.
-</p>
-<p>
-This function allows safe integration of unmanaged resources into the
-automatic memory management of the LuaJIT garbage collector. Typical
-usage:
-</p>
-<pre class="code">
-local p = ffi.gc(ffi.C.malloc(n), ffi.C.free)
-...
-p = nil -- Last reference to p is gone.
--- GC will eventually run finalizer: ffi.C.free(p)
-</pre>
-<p>
-A cdata finalizer works like the <tt>__gc</tt> metamethod for userdata
-objects: when the last reference to a cdata object is gone, the
-associated finalizer is called with the cdata object as an argument. The
-finalizer can be a Lua function or a cdata function or cdata function
-pointer. An existing finalizer can be removed by setting a <tt>nil</tt>
-finalizer, e.g. right before explicitly deleting a resource:
-</p>
-<pre class="code">
-ffi.C.free(ffi.gc(p, nil)) -- Manually free the memory.
-</pre>
-
-<h2 id="info">C&nbsp;Type Information</h2>
-<p>
-The following API functions return information about C&nbsp;types.
-They are most useful for inspecting cdata objects.
-</p>
-
-<h3 id="ffi_sizeof"><tt>size = ffi.sizeof(ct [,nelem])</tt></h3>
-<p>
-Returns the size of <tt>ct</tt> in bytes. Returns <tt>nil</tt> if
-the size is not known (e.g. for <tt>"void"</tt> or function types).
-Requires <tt>nelem</tt> for VLA/VLS types, except for cdata objects.
-</p>
-
-<h3 id="ffi_alignof"><tt>align = ffi.alignof(ct)</tt></h3>
-<p>
-Returns the minimum required alignment for <tt>ct</tt> in bytes.
-</p>
-
-<h3 id="ffi_offsetof"><tt>ofs [,bpos,bsize] = ffi.offsetof(ct, field)</tt></h3>
-<p>
-Returns the offset (in bytes) of <tt>field</tt> relative to the start
-of <tt>ct</tt>, which must be a <tt>struct</tt>. Additionally returns
-the position and the field size (in bits) for bit fields.
-</p>
-
-<h3 id="ffi_istype"><tt>status = ffi.istype(ct, obj)</tt></h3>
-<p>
-Returns <tt>true</tt> if <tt>obj</tt> has the C&nbsp;type given by
-<tt>ct</tt>. Returns <tt>false</tt> otherwise.
-</p>
-<p>
-C&nbsp;type qualifiers (<tt>const</tt> etc.) are ignored. Pointers are
-checked with the standard pointer compatibility rules, but without any
-special treatment for <tt>void&nbsp;*</tt>. If <tt>ct</tt> specifies a
-<tt>struct</tt>/<tt>union</tt>, then a pointer to this type is accepted,
-too. Otherwise the types must match exactly.
-</p>
-<p>
-Note: this function accepts all kinds of Lua objects for the
-<tt>obj</tt> argument, but always returns <tt>false</tt> for non-cdata
-objects.
-</p>
-
-<h2 id="util">Utility Functions</h2>
-
-<h3 id="ffi_errno"><tt>err = ffi.errno([newerr])</tt></h3>
-<p>
-Returns the error number set by the last C&nbsp;function call which
-indicated an error condition. If the optional <tt>newerr</tt> argument
-is present, the error number is set to the new value and the previous
-value is returned.
-</p>
-<p>
-This function offers a portable and OS-independent way to get and set the
-error number. Note that only <em>some</em> C&nbsp;functions set the error
-number. And it's only significant if the function actually indicated an
-error condition (e.g. with a return value of <tt>-1</tt> or
-<tt>NULL</tt>). Otherwise, it may or may not contain any previously set
-value.
-</p>
-<p>
-You're advised to call this function only when needed and as close as
-possible after the return of the related C&nbsp;function. The
-<tt>errno</tt> value is preserved across hooks, memory allocations,
-invocations of the JIT compiler and other internal VM activity. The same
-applies to the value returned by <tt>GetLastError()</tt> on Windows, but
-you need to declare and call it yourself.
-</p>
-
-<h3 id="ffi_string"><tt>str = ffi.string(ptr [,len])</tt></h3>
-<p>
-Creates an interned Lua string from the data pointed to by
-<tt>ptr</tt>.
-</p>
-<p>
-If the optional argument <tt>len</tt> is missing, <tt>ptr</tt> is
-converted to a <tt>"char&nbsp;*"</tt> and the data is assumed to be
-zero-terminated. The length of the string is computed with
-<tt>strlen()</tt>.
-</p>
-<p>
-Otherwise <tt>ptr</tt> is converted to a <tt>"void&nbsp;*"</tt> and
-<tt>len</tt> gives the length of the data. The data may contain
-embedded zeros and need not be byte-oriented (though this may cause
-endianess issues).
-</p>
-<p>
-This function is mainly useful to convert (temporary)
-<tt>"const&nbsp;char&nbsp;*"</tt> pointers returned by
-C&nbsp;functions to Lua strings and store them or pass them to other
-functions expecting a Lua string. The Lua string is an (interned) copy
-of the data and bears no relation to the original data area anymore.
-Lua strings are 8&nbsp;bit clean and may be used to hold arbitrary,
-non-character data.
-</p>
-<p>
-Performance notice: it's faster to pass the length of the string, if
-it's known. E.g. when the length is returned by a C&nbsp;call like
-<tt>sprintf()</tt>.
-</p>
-
-<h3 id="ffi_copy"><tt>ffi.copy(dst, src, len)<br>
-ffi.copy(dst, str)</tt></h3>
-<p>
-Copies the data pointed to by <tt>src</tt> to <tt>dst</tt>.
-<tt>dst</tt> is converted to a <tt>"void&nbsp;*"</tt> and <tt>src</tt>
-is converted to a <tt>"const void&nbsp;*"</tt>.
-</p>
-<p>
-In the first syntax, <tt>len</tt> gives the number of bytes to copy.
-Caveat: if <tt>src</tt> is a Lua string, then <tt>len</tt> must not
-exceed <tt>#src+1</tt>.
-</p>
-<p>
-In the second syntax, the source of the copy must be a Lua string. All
-bytes of the string <em>plus a zero-terminator</em> are copied to
-<tt>dst</tt> (i.e. <tt>#src+1</tt> bytes).
-</p>
-<p>
-Performance notice: <tt>ffi.copy()</tt> may be used as a faster
-(inlinable) replacement for the C&nbsp;library functions
-<tt>memcpy()</tt>, <tt>strcpy()</tt> and <tt>strncpy()</tt>.
-</p>
-
-<h3 id="ffi_fill"><tt>ffi.fill(dst, len [,c])</tt></h3>
-<p>
-Fills the data pointed to by <tt>dst</tt> with <tt>len</tt> constant
-bytes, given by <tt>c</tt>. If <tt>c</tt> is omitted, the data is
-zero-filled.
-</p>
-<p>
-Performance notice: <tt>ffi.fill()</tt> may be used as a faster
-(inlinable) replacement for the C&nbsp;library function
-<tt>memset(dst,&nbsp;c,&nbsp;len)</tt>. Please note the different
-order of arguments!
-</p>
-
-<h2 id="target">Target-specific Information</h2>
-
-<h3 id="ffi_abi"><tt>status = ffi.abi(param)</tt></h3>
-<p>
-Returns <tt>true</tt> if <tt>param</tt> (a Lua string) applies for the
-target ABI (Application Binary Interface). Returns <tt>false</tt>
-otherwise. The following parameters are currently defined:
-</p>
-<table class="abitable">
-<tr class="abihead">
-<td class="abiparam">Parameter</td>
-<td class="abidesc">Description</td>
-</tr>
-<tr class="odd separate">
-<td class="abiparam">32bit</td><td class="abidesc">32 bit architecture</td></tr>
-<tr class="even">
-<td class="abiparam">64bit</td><td class="abidesc">64 bit architecture</td></tr>
-<tr class="odd separate">
-<td class="abiparam">le</td><td class="abidesc">Little-endian architecture</td></tr>
-<tr class="even">
-<td class="abiparam">be</td><td class="abidesc">Big-endian architecture</td></tr>
-<tr class="odd separate">
-<td class="abiparam">fpu</td><td class="abidesc">Target has a hardware FPU</td></tr>
-<tr class="even">
-<td class="abiparam">softfp</td><td class="abidesc">softfp calling conventions</td></tr>
-<tr class="odd">
-<td class="abiparam">hardfp</td><td class="abidesc">hardfp calling conventions</td></tr>
-<tr class="even separate">
-<td class="abiparam">eabi</td><td class="abidesc">EABI variant of the standard ABI</td></tr>
-<tr class="odd">
-<td class="abiparam">win</td><td class="abidesc">Windows variant of the standard ABI</td></tr>
-</table>
-
-<h3 id="ffi_os"><tt>ffi.os</tt></h3>
-<p>
-Contains the target OS name. Same contents as
-<a href="ext_jit.html#jit_os"><tt>jit.os</tt></a>.
-</p>
-
-<h3 id="ffi_arch"><tt>ffi.arch</tt></h3>
-<p>
-Contains the target architecture name. Same contents as
-<a href="ext_jit.html#jit_arch"><tt>jit.arch</tt></a>.
-</p>
-
-<h2 id="callback">Methods for Callbacks</h2>
-<p>
-The C&nbsp;types for <a href="ext_ffi_semantics.html#callback">callbacks</a>
-have some extra methods:
-</p>
-
-<h3 id="callback_free"><tt>cb:free()</tt></h3>
-<p>
-Free the resources associated with a callback. The associated Lua
-function is unanchored and may be garbage collected. The callback
-function pointer is no longer valid and must not be called anymore
-(it may be reused by a subsequently created callback).
-</p>
-
-<h3 id="callback_set"><tt>cb:set(func)</tt></h3>
-<p>
-Associate a new Lua function with a callback. The C&nbsp;type of the
-callback and the callback function pointer are unchanged.
-</p>
-<p>
-This method is useful to dynamically switch the receiver of callbacks
-without creating a new callback each time and registering it again (e.g.
-with a GUI library).
-</p>
-
-<h2 id="extended">Extended Standard Library Functions</h2>
-<p>
-The following standard library functions have been extended to work
-with cdata objects:
-</p>
-
-<h3 id="tonumber"><tt>n = tonumber(cdata)</tt></h3>
-<p>
-Converts a number cdata object to a <tt>double</tt> and returns it as
-a Lua number. This is particularly useful for boxed 64&nbsp;bit
-integer values. Caveat: this conversion may incur a precision loss.
-</p>
-
-<h3 id="tostring"><tt>s = tostring(cdata)</tt></h3>
-<p>
-Returns a string representation of the value of 64&nbsp;bit integers
-(<tt><b>"</b>nnn<b>LL"</b></tt> or <tt><b>"</b>nnn<b>ULL"</b></tt>) or
-complex numbers (<tt><b>"</b>re&plusmn;im<b>i"</b></tt>). Otherwise
-returns a string representation of the C&nbsp;type of a ctype object
-(<tt><b>"ctype&lt;</b>type<b>&gt;"</b></tt>) or a cdata object
-(<tt><b>"cdata&lt;</b>type<b>&gt;:&nbsp;</b>address"</tt>), unless you
-override it with a <tt>__tostring</tt> metamethod (see
-<a href="#ffi_metatype"><tt>ffi.metatype()</tt></a>).
-</p>
-
-<h3 id="pairs"><tt>iter, obj, start = pairs(cdata)<br>
-iter, obj, start = ipairs(cdata)<br></tt></h3>
-<p>
-Calls the <tt>__pairs</tt> or <tt>__ipairs</tt> metamethod of the
-corresponding ctype.
-</p>
-
-<h2 id="literals">Extensions to the Lua Parser</h2>
-<p>
-The parser for Lua source code treats numeric literals with the
-suffixes <tt>LL</tt> or <tt>ULL</tt> as signed or unsigned 64&nbsp;bit
-integers. Case doesn't matter, but uppercase is recommended for
-readability. It handles both decimal (<tt>42LL</tt>) and hexadecimal
-(<tt>0x2aLL</tt>) literals.
-</p>
-<p>
-The imaginary part of complex numbers can be specified by suffixing
-number literals with <tt>i</tt> or <tt>I</tt>, e.g. <tt>12.5i</tt>.
-Caveat: you'll need to use <tt>1i</tt> to get an imaginary part with
-the value one, since <tt>i</tt> itself still refers to a variable
-named <tt>i</tt>.
-</p>
-<br class="flush">
-</div>
-<div id="foot">
-<hr class="hide">
-Copyright &copy; 2005-2014 Mike Pall
-<span class="noprint">
-&middot;
-<a href="contact.html">Contact</a>
-</span>
-</div>
-</body>
-</html>
diff --git a/luajit-2.0/doc/ext_ffi_semantics.html b/luajit-2.0/doc/ext_ffi_semantics.html
deleted file mode 100644
index 7e5f703..0000000
--- a/luajit-2.0/doc/ext_ffi_semantics.html
+++ /dev/null
@@ -1,1245 +0,0 @@
-<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.01//EN" "http://www.w3.org/TR/html4/strict.dtd">
-<html>
-<head>
-<title>FFI Semantics</title>
-<meta http-equiv="Content-Type" content="text/html; charset=iso-8859-1">
-<meta name="Author" content="Mike Pall">
-<meta name="Copyright" content="Copyright (C) 2005-2014, Mike Pall">
-<meta name="Language" content="en">
-<link rel="stylesheet" type="text/css" href="bluequad.css" media="screen">
-<link rel="stylesheet" type="text/css" href="bluequad-print.css" media="print">
-<style type="text/css">
-table.convtable { line-height: 1.2; }
-tr.convhead td { font-weight: bold; }
-td.convop { font-style: italic; width: 40%; }
-</style>
-</head>
-<body>
-<div id="site">
-<a href="http://luajit.org"><span>Lua<span id="logo">JIT</span></span></a>
-</div>
-<div id="head">
-<h1>FFI Semantics</h1>
-</div>
-<div id="nav">
-<ul><li>
-<a href="luajit.html">LuaJIT</a>
-<ul><li>
-<a href="http://luajit.org/download.html">Download <span class="ext">&raquo;</span></a>
-</li><li>
-<a href="install.html">Installation</a>
-</li><li>
-<a href="running.html">Running</a>
-</li></ul>
-</li><li>
-<a href="extensions.html">Extensions</a>
-<ul><li>
-<a href="ext_ffi.html">FFI Library</a>
-<ul><li>
-<a href="ext_ffi_tutorial.html">FFI Tutorial</a>
-</li><li>
-<a href="ext_ffi_api.html">ffi.* API</a>
-</li><li>
-<a class="current" href="ext_ffi_semantics.html">FFI Semantics</a>
-</li></ul>
-</li><li>
-<a href="ext_jit.html">jit.* Library</a>
-</li><li>
-<a href="ext_c_api.html">Lua/C API</a>
-</li></ul>
-</li><li>
-<a href="status.html">Status</a>
-<ul><li>
-<a href="changes.html">Changes</a>
-</li></ul>
-</li><li>
-<a href="faq.html">FAQ</a>
-</li><li>
-<a href="http://luajit.org/performance.html">Performance <span class="ext">&raquo;</span></a>
-</li><li>
-<a href="http://wiki.luajit.org/">Wiki <span class="ext">&raquo;</span></a>
-</li><li>
-<a href="http://luajit.org/list.html">Mailing List <span class="ext">&raquo;</span></a>
-</li></ul>
-</div>
-<div id="main">
-<p>
-This page describes the detailed semantics underlying the FFI library
-and its interaction with both Lua and C&nbsp;code.
-</p>
-<p>
-Given that the FFI library is designed to interface with C&nbsp;code
-and that declarations can be written in plain C&nbsp;syntax, <b>it
-closely follows the C&nbsp;language semantics</b>, wherever possible.
-Some minor concessions are needed for smoother interoperation with Lua
-language semantics.
-</p>
-<p>
-Please don't be overwhelmed by the contents of this page &mdash; this
-is a reference and you may need to consult it, if in doubt. It doesn't
-hurt to skim this page, but most of the semantics "just work" as you'd
-expect them to work. It should be straightforward to write
-applications using the LuaJIT FFI for developers with a C or C++
-background.
-</p>
-
-<h2 id="clang">C Language Support</h2>
-<p>
-The FFI library has a built-in C&nbsp;parser with a minimal memory
-footprint. It's used by the <a href="ext_ffi_api.html">ffi.* library
-functions</a> to declare C&nbsp;types or external symbols.
-</p>
-<p>
-It's only purpose is to parse C&nbsp;declarations, as found e.g. in
-C&nbsp;header files. Although it does evaluate constant expressions,
-it's <em>not</em> a C&nbsp;compiler. The body of <tt>inline</tt>
-C&nbsp;function definitions is simply ignored.
-</p>
-<p>
-Also, this is <em>not</em> a validating C&nbsp;parser. It expects and
-accepts correctly formed C&nbsp;declarations, but it may choose to
-ignore bad declarations or show rather generic error messages. If in
-doubt, please check the input against your favorite C&nbsp;compiler.
-</p>
-<p>
-The C&nbsp;parser complies to the <b>C99 language standard</b> plus
-the following extensions:
-</p>
-<ul>
-
-<li>The <tt>'\e'</tt> escape in character and string literals.</li>
-
-<li>The C99/C++ boolean type, declared with the keywords <tt>bool</tt>
-or <tt>_Bool</tt>.</li>
-
-<li>Complex numbers, declared with the keywords <tt>complex</tt> or
-<tt>_Complex</tt>.</li>
-
-<li>Two complex number types: <tt>complex</tt> (aka
-<tt>complex&nbsp;double</tt>) and <tt>complex&nbsp;float</tt>.</li>
-
-<li>Vector types, declared with the GCC <tt>mode</tt> or
-<tt>vector_size</tt> attribute.</li>
-
-<li>Unnamed ('transparent') <tt>struct</tt>/<tt>union</tt> fields
-inside a <tt>struct</tt>/<tt>union</tt>.</li>
-
-<li>Incomplete <tt>enum</tt> declarations, handled like incomplete
-<tt>struct</tt> declarations.</li>
-
-<li>Unnamed <tt>enum</tt> fields inside a
-<tt>struct</tt>/<tt>union</tt>. This is similar to a scoped C++
-<tt>enum</tt>, except that declared constants are visible in the
-global namespace, too.</li>
-
-<li>Scoped <tt>static&nbsp;const</tt> declarations inside a
-<tt>struct</tt>/<tt>union</tt> (from C++).</li>
-
-<li>Zero-length arrays (<tt>[0]</tt>), empty
-<tt>struct</tt>/<tt>union</tt>, variable-length arrays (VLA,
-<tt>[?]</tt>) and variable-length structs (VLS, with a trailing
-VLA).</li>
-
-<li>C++ reference types (<tt>int&nbsp;&amp;x</tt>).</li>
-
-<li>Alternate GCC keywords with '<tt>__</tt>', e.g.
-<tt>__const__</tt>.</li>
-
-<li>GCC <tt>__attribute__</tt> with the following attributes:
-<tt>aligned</tt>, <tt>packed</tt>, <tt>mode</tt>,
-<tt>vector_size</tt>, <tt>cdecl</tt>, <tt>fastcall</tt>,
-<tt>stdcall</tt>, <tt>thiscall</tt>.</li>
-
-<li>The GCC <tt>__extension__</tt> keyword and the GCC
-<tt>__alignof__</tt> operator.</li>
-
-<li>GCC <tt>__asm__("symname")</tt> symbol name redirection for
-function declarations.</li>
-
-<li>MSVC keywords for fixed-length types: <tt>__int8</tt>,
-<tt>__int16</tt>, <tt>__int32</tt> and <tt>__int64</tt>.</li>
-
-<li>MSVC <tt>__cdecl</tt>, <tt>__fastcall</tt>, <tt>__stdcall</tt>,
-<tt>__thiscall</tt>, <tt>__ptr32</tt>, <tt>__ptr64</tt>,
-<tt>__declspec(align(n))</tt> and <tt>#pragma&nbsp;pack</tt>.</li>
-
-<li>All other GCC/MSVC-specific attributes are ignored.</li>
-
-</ul>
-<p>
-The following C&nbsp;types are pre-defined by the C&nbsp;parser (like
-a <tt>typedef</tt>, except re-declarations will be ignored):
-</p>
-<ul>
-
-<li>Vararg handling: <tt>va_list</tt>, <tt>__builtin_va_list</tt>,
-<tt>__gnuc_va_list</tt>.</li>
-
-<li>From <tt>&lt;stddef.h&gt;</tt>: <tt>ptrdiff_t</tt>,
-<tt>size_t</tt>, <tt>wchar_t</tt>.</li>
-
-<li>From <tt>&lt;stdint.h&gt;</tt>: <tt>int8_t</tt>, <tt>int16_t</tt>,
-<tt>int32_t</tt>, <tt>int64_t</tt>, <tt>uint8_t</tt>,
-<tt>uint16_t</tt>, <tt>uint32_t</tt>, <tt>uint64_t</tt>,
-<tt>intptr_t</tt>, <tt>uintptr_t</tt>.</li>
-
-</ul>
-<p>
-You're encouraged to use these types in preference to
-compiler-specific extensions or target-dependent standard types.
-E.g. <tt>char</tt> differs in signedness and <tt>long</tt> differs in
-size, depending on the target architecture and platform ABI.
-</p>
-<p>
-The following C&nbsp;features are <b>not</b> supported:
-</p>
-<ul>
-
-<li>A declaration must always have a type specifier; it doesn't
-default to an <tt>int</tt> type.</li>
-
-<li>Old-style empty function declarations (K&amp;R) are not allowed.
-All C&nbsp;functions must have a proper prototype declaration. A
-function declared without parameters (<tt>int&nbsp;foo();</tt>) is
-treated as a function taking zero arguments, like in C++.</li>
-
-<li>The <tt>long double</tt> C&nbsp;type is parsed correctly, but
-there's no support for the related conversions, accesses or arithmetic
-operations.</li>
-
-<li>Wide character strings and character literals are not
-supported.</li>
-
-<li><a href="#status">See below</a> for features that are currently
-not implemented.</li>
-
-</ul>
-
-<h2 id="convert">C Type Conversion Rules</h2>
-
-<h3 id="convert_tolua">Conversions from C&nbsp;types to Lua objects</h3>
-<p>
-These conversion rules apply for <em>read accesses</em> to
-C&nbsp;types: indexing pointers, arrays or
-<tt>struct</tt>/<tt>union</tt> types; reading external variables or
-constant values; retrieving return values from C&nbsp;calls:
-</p>
-<table class="convtable">
-<tr class="convhead">
-<td class="convin">Input</td>
-<td class="convop">Conversion</td>
-<td class="convout">Output</td>
-</tr>
-<tr class="odd separate">
-<td class="convin"><tt>int8_t</tt>, <tt>int16_t</tt></td><td class="convop">&rarr;<sup>sign-ext</sup> <tt>int32_t</tt> &rarr; <tt>double</tt></td><td class="convout">number</td></tr>
-<tr class="even">
-<td class="convin"><tt>uint8_t</tt>, <tt>uint16_t</tt></td><td class="convop">&rarr;<sup>zero-ext</sup> <tt>int32_t</tt> &rarr; <tt>double</tt></td><td class="convout">number</td></tr>
-<tr class="odd">
-<td class="convin"><tt>int32_t</tt>, <tt>uint32_t</tt></td><td class="convop">&rarr; <tt>double</tt></td><td class="convout">number</td></tr>
-<tr class="even">
-<td class="convin"><tt>int64_t</tt>, <tt>uint64_t</tt></td><td class="convop">boxed value</td><td class="convout">64 bit int cdata</td></tr>
-<tr class="odd separate">
-<td class="convin"><tt>double</tt>, <tt>float</tt></td><td class="convop">&rarr; <tt>double</tt></td><td class="convout">number</td></tr>
-<tr class="even separate">
-<td class="convin"><tt>bool</tt></td><td class="convop">0 &rarr; <tt>false</tt>, otherwise <tt>true</tt></td><td class="convout">boolean</td></tr>
-<tr class="odd separate">
-<td class="convin"><tt>enum</tt></td><td class="convop">boxed value</td><td class="convout">enum cdata</td></tr>
-<tr class="even">
-<td class="convin">Complex number</td><td class="convop">boxed value</td><td class="convout">complex cdata</td></tr>
-<tr class="odd">
-<td class="convin">Vector</td><td class="convop">boxed value</td><td class="convout">vector cdata</td></tr>
-<tr class="even">
-<td class="convin">Pointer</td><td class="convop">boxed value</td><td class="convout">pointer cdata</td></tr>
-<tr class="odd separate">
-<td class="convin">Array</td><td class="convop">boxed reference</td><td class="convout">reference cdata</td></tr>
-<tr class="even">
-<td class="convin"><tt>struct</tt>/<tt>union</tt></td><td class="convop">boxed reference</td><td class="convout">reference cdata</td></tr>
-</table>
-<p>
-Bitfields are treated like their underlying type.
-</p>
-<p>
-Reference types are dereferenced <em>before</em> a conversion can take
-place &mdash; the conversion is applied to the C&nbsp;type pointed to
-by the reference.
-</p>
-
-<h3 id="convert_fromlua">Conversions from Lua objects to C&nbsp;types</h3>
-<p>
-These conversion rules apply for <em>write accesses</em> to
-C&nbsp;types: indexing pointers, arrays or
-<tt>struct</tt>/<tt>union</tt> types; initializing cdata objects;
-casts to C&nbsp;types; writing to external variables; passing
-arguments to C&nbsp;calls:
-</p>
-<table class="convtable">
-<tr class="convhead">
-<td class="convin">Input</td>
-<td class="convop">Conversion</td>
-<td class="convout">Output</td>
-</tr>
-<tr class="odd separate">
-<td class="convin">number</td><td class="convop">&rarr;</td><td class="convout"><tt>double</tt></td></tr>
-<tr class="even">
-<td class="convin">boolean</td><td class="convop"><tt>false</tt> &rarr; 0, <tt>true</tt> &rarr; 1</td><td class="convout"><tt>bool</tt></td></tr>
-<tr class="odd separate">
-<td class="convin">nil</td><td class="convop"><tt>NULL</tt> &rarr;</td><td class="convout"><tt>(void *)</tt></td></tr>
-<tr class="even">
-<td class="convin">lightuserdata</td><td class="convop">lightuserdata address &rarr;</td><td class="convout"><tt>(void *)</tt></td></tr>
-<tr class="odd">
-<td class="convin">userdata</td><td class="convop">userdata payload &rarr;</td><td class="convout"><tt>(void *)</tt></td></tr>
-<tr class="even">
-<td class="convin">io.* file</td><td class="convop">get FILE * handle &rarr;</td><td class="convout"><tt>(void *)</tt></td></tr>
-<tr class="odd separate">
-<td class="convin">string</td><td class="convop">match against <tt>enum</tt> constant</td><td class="convout"><tt>enum</tt></td></tr>
-<tr class="even">
-<td class="convin">string</td><td class="convop">copy string data + zero-byte</td><td class="convout"><tt>int8_t[]</tt>, <tt>uint8_t[]</tt></td></tr>
-<tr class="odd">
-<td class="convin">string</td><td class="convop">string data &rarr;</td><td class="convout"><tt>const char[]</tt></td></tr>
-<tr class="even separate">
-<td class="convin">function</td><td class="convop"><a href="#callback">create callback</a> &rarr;</td><td class="convout">C function type</td></tr>
-<tr class="odd separate">
-<td class="convin">table</td><td class="convop"><a href="#init_table">table initializer</a></td><td class="convout">Array</td></tr>
-<tr class="even">
-<td class="convin">table</td><td class="convop"><a href="#init_table">table initializer</a></td><td class="convout"><tt>struct</tt>/<tt>union</tt></td></tr>
-<tr class="odd separate">
-<td class="convin">cdata</td><td class="convop">cdata payload &rarr;</td><td class="convout">C type</td></tr>
-</table>
-<p>
-If the result type of this conversion doesn't match the
-C&nbsp;type of the destination, the
-<a href="#convert_between">conversion rules between C&nbsp;types</a>
-are applied.
-</p>
-<p>
-Reference types are immutable after initialization ("no re-seating of
-references"). For initialization purposes or when passing values to
-reference parameters, they are treated like pointers. Note that unlike
-in C++, there's no way to implement automatic reference generation of
-variables under the Lua language semantics. If you want to call a
-function with a reference parameter, you need to explicitly pass a
-one-element array.
-</p>
-
-<h3 id="convert_between">Conversions between C&nbsp;types</h3>
-<p>
-These conversion rules are more or less the same as the standard
-C&nbsp;conversion rules. Some rules only apply to casts, or require
-pointer or type compatibility:
-</p>
-<table class="convtable">
-<tr class="convhead">
-<td class="convin">Input</td>
-<td class="convop">Conversion</td>
-<td class="convout">Output</td>
-</tr>
-<tr class="odd separate">
-<td class="convin">Signed integer</td><td class="convop">&rarr;<sup>narrow or sign-extend</sup></td><td class="convout">Integer</td></tr>
-<tr class="even">
-<td class="convin">Unsigned integer</td><td class="convop">&rarr;<sup>narrow or zero-extend</sup></td><td class="convout">Integer</td></tr>
-<tr class="odd">
-<td class="convin">Integer</td><td class="convop">&rarr;<sup>round</sup></td><td class="convout"><tt>double</tt>, <tt>float</tt></td></tr>
-<tr class="even">
-<td class="convin"><tt>double</tt>, <tt>float</tt></td><td class="convop">&rarr;<sup>trunc</sup> <tt>int32_t</tt> &rarr;<sup>narrow</sup></td><td class="convout"><tt>(u)int8_t</tt>, <tt>(u)int16_t</tt></td></tr>
-<tr class="odd">
-<td class="convin"><tt>double</tt>, <tt>float</tt></td><td class="convop">&rarr;<sup>trunc</sup></td><td class="convout"><tt>(u)int32_t</tt>, <tt>(u)int64_t</tt></td></tr>
-<tr class="even">
-<td class="convin"><tt>double</tt>, <tt>float</tt></td><td class="convop">&rarr;<sup>round</sup></td><td class="convout"><tt>float</tt>, <tt>double</tt></td></tr>
-<tr class="odd separate">
-<td class="convin">Number</td><td class="convop">n == 0 &rarr; 0, otherwise 1</td><td class="convout"><tt>bool</tt></td></tr>
-<tr class="even">
-<td class="convin"><tt>bool</tt></td><td class="convop"><tt>false</tt> &rarr; 0, <tt>true</tt> &rarr; 1</td><td class="convout">Number</td></tr>
-<tr class="odd separate">
-<td class="convin">Complex number</td><td class="convop">convert real part</td><td class="convout">Number</td></tr>
-<tr class="even">
-<td class="convin">Number</td><td class="convop">convert real part, imag = 0</td><td class="convout">Complex number</td></tr>
-<tr class="odd">
-<td class="convin">Complex number</td><td class="convop">convert real and imag part</td><td class="convout">Complex number</td></tr>
-<tr class="even separate">
-<td class="convin">Number</td><td class="convop">convert scalar and replicate</td><td class="convout">Vector</td></tr>
-<tr class="odd">
-<td class="convin">Vector</td><td class="convop">copy (same size)</td><td class="convout">Vector</td></tr>
-<tr class="even separate">
-<td class="convin"><tt>struct</tt>/<tt>union</tt></td><td class="convop">take base address (compat)</td><td class="convout">Pointer</td></tr>
-<tr class="odd">
-<td class="convin">Array</td><td class="convop">take base address (compat)</td><td class="convout">Pointer</td></tr>
-<tr class="even">
-<td class="convin">Function</td><td class="convop">take function address</td><td class="convout">Function pointer</td></tr>
-<tr class="odd separate">
-<td class="convin">Number</td><td class="convop">convert via <tt>uintptr_t</tt> (cast)</td><td class="convout">Pointer</td></tr>
-<tr class="even">
-<td class="convin">Pointer</td><td class="convop">convert address (compat/cast)</td><td class="convout">Pointer</td></tr>
-<tr class="odd">
-<td class="convin">Pointer</td><td class="convop">convert address (cast)</td><td class="convout">Integer</td></tr>
-<tr class="even">
-<td class="convin">Array</td><td class="convop">convert base address (cast)</td><td class="convout">Integer</td></tr>
-<tr class="odd separate">
-<td class="convin">Array</td><td class="convop">copy (compat)</td><td class="convout">Array</td></tr>
-<tr class="even">
-<td class="convin"><tt>struct</tt>/<tt>union</tt></td><td class="convop">copy (identical type)</td><td class="convout"><tt>struct</tt>/<tt>union</tt></td></tr>
-</table>
-<p>
-Bitfields or <tt>enum</tt> types are treated like their underlying
-type.
-</p>
-<p>
-Conversions not listed above will raise an error. E.g. it's not
-possible to convert a pointer to a complex number or vice versa.
-</p>
-
-<h3 id="convert_vararg">Conversions for vararg C&nbsp;function arguments</h3>
-<p>
-The following default conversion rules apply when passing Lua objects
-to the variable argument part of vararg C&nbsp;functions:
-</p>
-<table class="convtable">
-<tr class="convhead">
-<td class="convin">Input</td>
-<td class="convop">Conversion</td>
-<td class="convout">Output</td>
-</tr>
-<tr class="odd separate">
-<td class="convin">number</td><td class="convop">&rarr;</td><td class="convout"><tt>double</tt></td></tr>
-<tr class="even">
-<td class="convin">boolean</td><td class="convop"><tt>false</tt> &rarr; 0, <tt>true</tt> &rarr; 1</td><td class="convout"><tt>bool</tt></td></tr>
-<tr class="odd separate">
-<td class="convin">nil</td><td class="convop"><tt>NULL</tt> &rarr;</td><td class="convout"><tt>(void *)</tt></td></tr>
-<tr class="even">
-<td class="convin">userdata</td><td class="convop">userdata payload &rarr;</td><td class="convout"><tt>(void *)</tt></td></tr>
-<tr class="odd">
-<td class="convin">lightuserdata</td><td class="convop">lightuserdata address &rarr;</td><td class="convout"><tt>(void *)</tt></td></tr>
-<tr class="even separate">
-<td class="convin">string</td><td class="convop">string data &rarr;</td><td class="convout"><tt>const char *</tt></td></tr>
-<tr class="odd separate">
-<td class="convin"><tt>float</tt> cdata</td><td class="convop">&rarr;</td><td class="convout"><tt>double</tt></td></tr>
-<tr class="even">
-<td class="convin">Array cdata</td><td class="convop">take base address</td><td class="convout">Element pointer</td></tr>
-<tr class="odd">
-<td class="convin"><tt>struct</tt>/<tt>union</tt> cdata</td><td class="convop">take base address</td><td class="convout"><tt>struct</tt>/<tt>union</tt> pointer</td></tr>
-<tr class="even">
-<td class="convin">Function cdata</td><td class="convop">take function address</td><td class="convout">Function pointer</td></tr>
-<tr class="odd">
-<td class="convin">Any other cdata</td><td class="convop">no conversion</td><td class="convout">C type</td></tr>
-</table>
-<p>
-To pass a Lua object, other than a cdata object, as a specific type,
-you need to override the conversion rules: create a temporary cdata
-object with a constructor or a cast and initialize it with the value
-to pass:
-</p>
-<p>
-Assuming <tt>x</tt> is a Lua number, here's how to pass it as an
-integer to a vararg function:
-</p>
-<pre class="code">
-ffi.cdef[[
-int printf(const char *fmt, ...);
-]]
-ffi.C.printf("integer value: %d\n", ffi.new("int", x))
-</pre>
-<p>
-If you don't do this, the default Lua number &rarr; <tt>double</tt>
-conversion rule applies. A vararg C&nbsp;function expecting an integer
-will see a garbled or uninitialized value.
-</p>
-
-<h2 id="init">Initializers</h2>
-<p>
-Creating a cdata object with
-<a href="ext_ffi_api.html#ffi_new"><tt>ffi.new()</tt></a> or the
-equivalent constructor syntax always initializes its contents, too.
-Different rules apply, depending on the number of optional
-initializers and the C&nbsp;types involved:
-</p>
-<ul>
-<li>If no initializers are given, the object is filled with zero bytes.</li>
-
-<li>Scalar types (numbers and pointers) accept a single initializer.
-The Lua object is <a href="#convert_fromlua">converted to the scalar
-C&nbsp;type</a>.</li>
-
-<li>Valarrays (complex numbers and vectors) are treated like scalars
-when a single initializer is given. Otherwise they are treated like
-regular arrays.</li>
-
-<li>Aggregate types (arrays and structs) accept either a single cdata
-initializer of the same type (copy constructor), a single
-<a href="#init_table">table initializer</a>, or a flat list of
-initializers.</li>
-
-<li>The elements of an array are initialized, starting at index zero.
-If a single initializer is given for an array, it's repeated for all
-remaining elements. This doesn't happen if two or more initializers
-are given: all remaining uninitialized elements are filled with zero
-bytes.</li>
-
-<li>Byte arrays may also be initialized with a Lua string. This copies
-the whole string plus a terminating zero-byte. The copy stops early only
-if the array has a known, fixed size.</li>
-
-<li>The fields of a <tt>struct</tt> are initialized in the order of
-their declaration. Uninitialized fields are filled with zero
-bytes.</li>
-
-<li>Only the first field of a <tt>union</tt> can be initialized with a
-flat initializer.</li>
-
-<li>Elements or fields which are aggregates themselves are initialized
-with a <em>single</em> initializer, but this may be a table
-initializer or a compatible aggregate.</li>
-
-<li>Excess initializers cause an error.</li>
-
-</ul>
-
-<h2 id="init_table">Table Initializers</h2>
-<p>
-The following rules apply if a Lua table is used to initialize an
-Array or a <tt>struct</tt>/<tt>union</tt>:
-</p>
-<ul>
-
-<li>If the table index <tt>[0]</tt> is non-<tt>nil</tt>, then the
-table is assumed to be zero-based. Otherwise it's assumed to be
-one-based.</li>
-
-<li>Array elements, starting at index zero, are initialized one-by-one
-with the consecutive table elements, starting at either index
-<tt>[0]</tt> or <tt>[1]</tt>. This process stops at the first
-<tt>nil</tt> table element.</li>
-
-<li>If exactly one array element was initialized, it's repeated for
-all the remaining elements. Otherwise all remaining uninitialized
-elements are filled with zero bytes.</li>
-
-<li>The above logic only applies to arrays with a known fixed size.
-A VLA is only initialized with the element(s) given in the table.
-Depending on the use case, you may need to explicitly add a
-<tt>NULL</tt> or <tt>0</tt> terminator to a VLA.</li>
-
-<li>A <tt>struct</tt>/<tt>union</tt> can be initialized in the
-order of the declaration of its fields. Each field is initialized with
-consecutive table elements, starting at either index <tt>[0]</tt>
-or <tt>[1]</tt>. This process stops at the first <tt>nil</tt> table
-element.</li>
-
-<li>Otherwise, if neither index <tt>[0]</tt> nor <tt>[1]</tt> is present,
-a <tt>struct</tt>/<tt>union</tt> is initialized by looking up each field
-name (as a string key) in the table. Each non-<tt>nil</tt> value is
-used to initialize the corresponding field.</li>
-
-<li>Uninitialized fields of a <tt>struct</tt> are filled with zero
-bytes, except for the trailing VLA of a VLS.</li>
-
-<li>Initialization of a <tt>union</tt> stops after one field has been
-initialized. If no field has been initialized, the <tt>union</tt> is
-filled with zero bytes.</li>
-
-<li>Elements or fields which are aggregates themselves are initialized
-with a <em>single</em> initializer, but this may be a nested table
-initializer (or a compatible aggregate).</li>
-
-<li>Excess initializers for an array cause an error. Excess
-initializers for a <tt>struct</tt>/<tt>union</tt> are ignored.
-Unrelated table entries are ignored, too.</li>
-
-</ul>
-<p>
-Example:
-</p>
-<pre class="code">
-local ffi = require("ffi")
-
-ffi.cdef[[
-struct foo { int a, b; };
-union bar { int i; double d; };
-struct nested { int x; struct foo y; };
-]]
-
-ffi.new("int[3]", {})            --> 0, 0, 0
-ffi.new("int[3]", {1})           --> 1, 1, 1
-ffi.new("int[3]", {1,2})         --> 1, 2, 0
-ffi.new("int[3]", {1,2,3})       --> 1, 2, 3
-ffi.new("int[3]", {[0]=1})       --> 1, 1, 1
-ffi.new("int[3]", {[0]=1,2})     --> 1, 2, 0
-ffi.new("int[3]", {[0]=1,2,3})   --> 1, 2, 3
-ffi.new("int[3]", {[0]=1,2,3,4}) --> error: too many initializers
-
-ffi.new("struct foo", {})            --> a = 0, b = 0
-ffi.new("struct foo", {1})           --> a = 1, b = 0
-ffi.new("struct foo", {1,2})         --> a = 1, b = 2
-ffi.new("struct foo", {[0]=1,2})     --> a = 1, b = 2
-ffi.new("struct foo", {b=2})         --> a = 0, b = 2
-ffi.new("struct foo", {a=1,b=2,c=3}) --> a = 1, b = 2  'c' is ignored
-
-ffi.new("union bar", {})        --> i = 0, d = 0.0
-ffi.new("union bar", {1})       --> i = 1, d = ?
-ffi.new("union bar", {[0]=1,2}) --> i = 1, d = ?    '2' is ignored
-ffi.new("union bar", {d=2})     --> i = ?, d = 2.0
-
-ffi.new("struct nested", {1,{2,3}})     --> x = 1, y.a = 2, y.b = 3
-ffi.new("struct nested", {x=1,y={2,3}}) --> x = 1, y.a = 2, y.b = 3
-</pre>
-
-<h2 id="cdata_ops">Operations on cdata Objects</h2>
-<p>
-All of the standard Lua operators can be applied to cdata objects or a
-mix of a cdata object and another Lua object. The following list shows
-the pre-defined operations.
-</p>
-<p>
-Reference types are dereferenced <em>before</em> performing each of
-the operations below &mdash; the operation is applied to the
-C&nbsp;type pointed to by the reference.
-</p>
-<p>
-The pre-defined operations are always tried first before deferring to a
-metamethod or index table (if any) for the corresponding ctype (except
-for <tt>__new</tt>). An error is raised if the metamethod lookup or
-index table lookup fails.
-</p>
-
-<h3 id="cdata_array">Indexing a cdata object</h3>
-<ul>
-
-<li><b>Indexing a pointer/array</b>: a cdata pointer/array can be
-indexed by a cdata number or a Lua number. The element address is
-computed as the base address plus the number value multiplied by the
-element size in bytes. A read access loads the element value and
-<a href="#convert_tolua">converts it to a Lua object</a>. A write
-access <a href="#convert_fromlua">converts a Lua object to the element
-type</a> and stores the converted value to the element. An error is
-raised if the element size is undefined or a write access to a
-constant element is attempted.</li>
-
-<li><b>Dereferencing a <tt>struct</tt>/<tt>union</tt> field</b>: a
-cdata <tt>struct</tt>/<tt>union</tt> or a pointer to a
-<tt>struct</tt>/<tt>union</tt> can be dereferenced by a string key,
-giving the field name. The field address is computed as the base
-address plus the relative offset of the field. A read access loads the
-field value and <a href="#convert_tolua">converts it to a Lua
-object</a>. A write access <a href="#convert_fromlua">converts a Lua
-object to the field type</a> and stores the converted value to the
-field. An error is raised if a write access to a constant
-<tt>struct</tt>/<tt>union</tt> or a constant field is attempted.
-Scoped enum constants or static constants are treated like a constant
-field.</li>
-
-<li><b>Indexing a complex number</b>: a complex number can be indexed
-either by a cdata number or a Lua number with the values 0 or 1, or by
-the strings <tt>"re"</tt> or <tt>"im"</tt>. A read access loads the
-real part (<tt>[0]</tt>, <tt>.re</tt>) or the imaginary part
-(<tt>[1]</tt>, <tt>.im</tt>) part of a complex number and
-<a href="#convert_tolua">converts it to a Lua number</a>. The
-sub-parts of a complex number are immutable &mdash; assigning to an
-index of a complex number raises an error. Accessing out-of-bound
-indexes returns unspecified results, but is guaranteed not to trigger
-memory access violations.</li>
-
-<li><b>Indexing a vector</b>: a vector is treated like an array for
-indexing purposes, except the vector elements are immutable &mdash;
-assigning to an index of a vector raises an error.</li>
-
-</ul>
-<p>
-A ctype object can be indexed with a string key, too. The only
-pre-defined operation is reading scoped constants of
-<tt>struct</tt>/<tt>union</tt> types. All other accesses defer
-to the corresponding metamethods or index tables (if any).
-</p>
-<p>
-Note: since there's (deliberately) no address-of operator, a cdata
-object holding a value type is effectively immutable after
-initialization. The JIT compiler benefits from this fact when applying
-certain optimizations.
-</p>
-<p>
-As a consequence, the <em>elements</em> of complex numbers and
-vectors are immutable. But the elements of an aggregate holding these
-types <em>may</em> be modified of course. I.e. you cannot assign to
-<tt>foo.c.im</tt>, but you can assign a (newly created) complex number
-to <tt>foo.c</tt>.
-</p>
-<p>
-The JIT compiler implements strict aliasing rules: accesses to different
-types do <b>not</b> alias, except for differences in signedness (this
-applies even to <tt>char</tt> pointers, unlike C99). Type punning
-through unions is explicitly detected and allowed.
-</p>
-
-<h3 id="cdata_call">Calling a cdata object</h3>
-<ul>
-
-<li><b>Constructor</b>: a ctype object can be called and used as a
-<a href="ext_ffi_api.html#ffi_new">constructor</a>. This is equivalent
-to <tt>ffi.new(ct, ...)</tt>, unless a <tt>__new</tt> metamethod is
-defined. The <tt>__new</tt> metamethod is called with the ctype object
-plus any other arguments passed to the contructor. Note that you have to
-use <tt>ffi.new</tt> inside of it, since calling <tt>ct(...)</tt> would
-cause infinite recursion.</li>
-
-<li><b>C&nbsp;function call</b>: a cdata function or cdata function
-pointer can be called. The passed arguments are
-<a href="#convert_fromlua">converted to the C&nbsp;types</a> of the
-parameters given by the function declaration. Arguments passed to the
-variable argument part of vararg C&nbsp;function use
-<a href="#convert_vararg">special conversion rules</a>. This
-C&nbsp;function is called and the return value (if any) is
-<a href="#convert_tolua">converted to a Lua object</a>.<br>
-On Windows/x86 systems, <tt>__stdcall</tt> functions are automatically
-detected and a function declared as <tt>__cdecl</tt> (the default) is
-silently fixed up after the first call.</li>
-
-</ul>
-
-<h3 id="cdata_arith">Arithmetic on cdata objects</h3>
-<ul>
-
-<li><b>Pointer arithmetic</b>: a cdata pointer/array and a cdata
-number or a Lua number can be added or subtracted. The number must be
-on the right hand side for a subtraction. The result is a pointer of
-the same type with an address plus or minus the number value
-multiplied by the element size in bytes. An error is raised if the
-element size is undefined.</li>
-
-<li><b>Pointer difference</b>: two compatible cdata pointers/arrays
-can be subtracted. The result is the difference between their
-addresses, divided by the element size in bytes. An error is raised if
-the element size is undefined or zero.</li>
-
-<li><b>64&nbsp;bit integer arithmetic</b>: the standard arithmetic
-operators (<tt>+&nbsp;-&nbsp;*&nbsp;/&nbsp;%&nbsp;^</tt> and unary
-minus) can be applied to two cdata numbers, or a cdata number and a
-Lua number. If one of them is an <tt>uint64_t</tt>, the other side is
-converted to an <tt>uint64_t</tt> and an unsigned arithmetic operation
-is performed. Otherwise both sides are converted to an
-<tt>int64_t</tt> and a signed arithmetic operation is performed. The
-result is a boxed 64&nbsp;bit cdata object.<br>
-
-If one of the operands is an <tt>enum</tt> and the other operand is a
-string, the string is converted to the value of a matching <tt>enum</tt>
-constant before the above conversion.<br>
-
-These rules ensure that 64&nbsp;bit integers are "sticky". Any
-expression involving at least one 64&nbsp;bit integer operand results
-in another one. The undefined cases for the division, modulo and power
-operators return <tt>2LL&nbsp;^&nbsp;63</tt> or
-<tt>2ULL&nbsp;^&nbsp;63</tt>.<br>
-
-You'll have to explicitly convert a 64&nbsp;bit integer to a Lua
-number (e.g. for regular floating-point calculations) with
-<tt>tonumber()</tt>. But note this may incur a precision loss.</li>
-
-</ul>
-
-<h3 id="cdata_comp">Comparisons of cdata objects</h3>
-<ul>
-
-<li><b>Pointer comparison</b>: two compatible cdata pointers/arrays
-can be compared. The result is the same as an unsigned comparison of
-their addresses. <tt>nil</tt> is treated like a <tt>NULL</tt> pointer,
-which is compatible with any other pointer type.</li>
-
-<li><b>64&nbsp;bit integer comparison</b>: two cdata numbers, or a
-cdata number and a Lua number can be compared with each other. If one
-of them is an <tt>uint64_t</tt>, the other side is converted to an
-<tt>uint64_t</tt> and an unsigned comparison is performed. Otherwise
-both sides are converted to an <tt>int64_t</tt> and a signed
-comparison is performed.<br>
-
-If one of the operands is an <tt>enum</tt> and the other operand is a
-string, the string is converted to the value of a matching <tt>enum</tt>
-constant before the above conversion.<br>
-
-<li><b>Comparisons for equality/inequality</b> never raise an error.
-Even incompatible pointers can be compared for equality by address. Any
-other incompatible comparison (also with non-cdata objects) treats the
-two sides as unequal.</li>
-
-</ul>
-
-<h3 id="cdata_key">cdata objects as table keys</h3>
-<p>
-Lua tables may be indexed by cdata objects, but this doesn't provide
-any useful semantics &mdash; <b>cdata objects are unsuitable as table
-keys!</b>
-</p>
-<p>
-A cdata object is treated like any other garbage-collected object and
-is hashed and compared by its address for table indexing. Since
-there's no interning for cdata value types, the same value may be
-boxed in different cdata objects with different addresses. Thus
-<tt>t[1LL+1LL]</tt> and <tt>t[2LL]</tt> usually <b>do not</b> point to
-the same hash slot and they certainly <b>do not</b> point to the same
-hash slot as <tt>t[2]</tt>.
-</p>
-<p>
-It would seriously drive up implementation complexity and slow down
-the common case, if one were to add extra handling for by-value
-hashing and comparisons to Lua tables. Given the ubiquity of their use
-inside the VM, this is not acceptable.
-</p>
-<p>
-There are three viable alternatives, if you really need to use cdata
-objects as keys:
-</p>
-<ul>
-
-<li>If you can get by with the precision of Lua numbers
-(52&nbsp;bits), then use <tt>tonumber()</tt> on a cdata number or
-combine multiple fields of a cdata aggregate to a Lua number. Then use
-the resulting Lua number as a key when indexing tables.<br>
-One obvious benefit: <tt>t[tonumber(2LL)]</tt> <b>does</b> point to
-the same slot as <tt>t[2]</tt>.</li>
-
-<li>Otherwise use either <tt>tostring()</tt> on 64&nbsp;bit integers
-or complex numbers or combine multiple fields of a cdata aggregate to
-a Lua string (e.g. with
-<a href="ext_ffi_api.html#ffi_string"><tt>ffi.string()</tt></a>). Then
-use the resulting Lua string as a key when indexing tables.</li>
-
-<li>Create your own specialized hash table implementation using the
-C&nbsp;types provided by the FFI library, just like you would in
-C&nbsp;code. Ultimately this may give much better performance than the
-other alternatives or what a generic by-value hash table could
-possibly provide.</li>
-
-</ul>
-
-<h2 id="param">Parameterized Types</h2>
-<p>
-To facilitate some abstractions, the two functions
-<a href="ext_ffi_api.html#ffi_typeof"><tt>ffi.typeof</tt></a> and
-<a href="ext_ffi_api.html#ffi_cdef"><tt>ffi.cdef</tt></a> support
-parameterized types in C&nbsp;declarations. Note: none of the other API
-functions taking a cdecl allow this.
-</p>
-<p>
-Any place you can write a <b><tt>typedef</tt> name</b>, an
-<b>identifier</b> or a <b>number</b> in a declaration, you can write
-<tt>$</tt> (the dollar sign) instead. These placeholders are replaced in
-order of appearance with the arguments following the cdecl string:
-</p>
-<pre class="code">
--- Declare a struct with a parameterized field type and name:
-ffi.cdef([[
-typedef struct { $ $; } foo_t;
-]], type1, name1)
-
--- Anonymous struct with dynamic names:
-local bar_t = ffi.typeof("struct { int $, $; }", name1, name2)
--- Derived pointer type:
-local bar_ptr_t = ffi.typeof("$ *", bar_t)
-
--- Parameterized dimensions work even where a VLA won't work:
-local matrix_t = ffi.typeof("uint8_t[$][$]", width, height)
-</pre>
-<p>
-Caveat: this is <em>not</em> simple text substitution! A passed ctype or
-cdata object is treated like the underlying type, a passed string is
-considered an identifier and a number is considered a number. You must
-not mix this up: e.g. passing <tt>"int"</tt> as a string doesn't work in
-place of a type, you'd need to use <tt>ffi.typeof("int")</tt> instead.
-</p>
-<p>
-The main use for parameterized types are libraries implementing abstract
-data types
-(<a href="http://www.freelists.org/post/luajit/ffi-type-of-pointer-to,8"><span class="ext">&raquo;</span>&nbsp;example</a>),
-similar to what can be achieved with C++ template metaprogramming.
-Another use case are derived types of anonymous structs, which avoids
-pollution of the global struct namespace.
-</p>
-<p>
-Please note that parameterized types are a nice tool and indispensable
-for certain use cases. But you'll want to use them sparingly in regular
-code, e.g. when all types are actually fixed.
-</p>
-
-<h2 id="gc">Garbage Collection of cdata Objects</h2>
-<p>
-All explicitly (<tt>ffi.new()</tt>, <tt>ffi.cast()</tt> etc.) or
-implicitly (accessors) created cdata objects are garbage collected.
-You need to ensure to retain valid references to cdata objects
-somewhere on a Lua stack, an upvalue or in a Lua table while they are
-still in use. Once the last reference to a cdata object is gone, the
-garbage collector will automatically free the memory used by it (at
-the end of the next GC cycle).
-</p>
-<p>
-Please note that pointers themselves are cdata objects, however they
-are <b>not</b> followed by the garbage collector. So e.g. if you
-assign a cdata array to a pointer, you must keep the cdata object
-holding the array alive as long as the pointer is still in use:
-</p>
-<pre class="code">
-ffi.cdef[[
-typedef struct { int *a; } foo_t;
-]]
-
-local s = ffi.new("foo_t", ffi.new("int[10]")) -- <span style="color:#c00000;">WRONG!</span>
-
-local a = ffi.new("int[10]") -- <span style="color:#00a000;">OK</span>
-local s = ffi.new("foo_t", a)
--- Now do something with 's', but keep 'a' alive until you're done.
-</pre>
-<p>
-Similar rules apply for Lua strings which are implicitly converted to
-<tt>"const&nbsp;char&nbsp;*"</tt>: the string object itself must be
-referenced somewhere or it'll be garbage collected eventually. The
-pointer will then point to stale data, which may have already been
-overwritten. Note that <em>string literals</em> are automatically kept
-alive as long as the function containing it (actually its prototype)
-is not garbage collected.
-</p>
-<p>
-Objects which are passed as an argument to an external C&nbsp;function
-are kept alive until the call returns. So it's generally safe to
-create temporary cdata objects in argument lists. This is a common
-idiom for <a href="#convert_vararg">passing specific C&nbsp;types to
-vararg functions</a>.
-</p>
-<p>
-Memory areas returned by C functions (e.g. from <tt>malloc()</tt>)
-must be manually managed, of course (or use
-<a href="ext_ffi_api.html#ffi_gc"><tt>ffi.gc()</tt></a>). Pointers to
-cdata objects are indistinguishable from pointers returned by C
-functions (which is one of the reasons why the GC cannot follow them).
-</p>
-
-<h2 id="callback">Callbacks</h2>
-<p>
-The LuaJIT FFI automatically generates special callback functions
-whenever a Lua function is converted to a C&nbsp;function pointer. This
-associates the generated callback function pointer with the C&nbsp;type
-of the function pointer and the Lua function object (closure).
-</p>
-<p>
-This can happen implicitly due to the usual conversions, e.g. when
-passing a Lua function to a function pointer argument. Or you can use
-<tt>ffi.cast()</tt> to explicitly cast a Lua function to a
-C&nbsp;function pointer.
-</p>
-<p>
-Currently only certain C&nbsp;function types can be used as callback
-functions. Neither C&nbsp;vararg functions nor functions with
-pass-by-value aggregate argument or result types are supported. There
-are no restrictions for the kind of Lua functions that can be called
-from the callback &mdash; no checks for the proper number of arguments
-are made. The return value of the Lua function will be converted to the
-result type and an error will be thrown for invalid conversions.
-</p>
-<p>
-It's allowed to throw errors across a callback invocation, but it's not
-advisable in general. Do this only if you know the C&nbsp;function, that
-called the callback, copes with the forced stack unwinding and doesn't
-leak resources.
-</p>
-<p>
-One thing that's not allowed, is to let an FFI call into a C&nbsp;function
-get JIT-compiled, which in turn calls a callback, calling into Lua again.
-Usually this attempt is caught by the interpreter first and the
-C&nbsp;function is blacklisted for compilation.
-</p>
-<p>
-However, this heuristic may fail under specific circumstances: e.g. a
-message polling function might not run Lua callbacks right away and the call
-gets JIT-compiled. If it later happens to call back into Lua (e.g. a rarely
-invoked error callback), you'll get a VM PANIC with the message
-<tt>"bad callback"</tt>. Then you'll need to manually turn off
-JIT-compilation with
-<a href="ext_jit.html#jit_onoff_func"><tt>jit.off()</tt></a> for the
-surrounding Lua function that invokes such a message polling function (or
-similar).
-</p>
-
-<h3 id="callback_resources">Callback resource handling</h3>
-<p>
-Callbacks take up resources &mdash; you can only have a limited number
-of them at the same time (500&nbsp;-&nbsp;1000, depending on the
-architecture). The associated Lua functions are anchored to prevent
-garbage collection, too.
-</p>
-<p>
-<b>Callbacks due to implicit conversions are permanent!</b> There is no
-way to guess their lifetime, since the C&nbsp;side might store the
-function pointer for later use (typical for GUI toolkits). The associated
-resources cannot be reclaimed until termination:
-</p>
-<pre class="code">
-ffi.cdef[[
-typedef int (__stdcall *WNDENUMPROC)(void *hwnd, intptr_t l);
-int EnumWindows(WNDENUMPROC func, intptr_t l);
-]]
-
--- Implicit conversion to a callback via function pointer argument.
-local count = 0
-ffi.C.EnumWindows(function(hwnd, l)
-  count = count + 1
-  return true
-end, 0)
--- The callback is permanent and its resources cannot be reclaimed!
--- Ok, so this may not be a problem, if you do this only once.
-</pre>
-<p>
-Note: this example shows that you <em>must</em> properly declare
-<tt>__stdcall</tt> callbacks on Windows/x86 systems. The calling
-convention cannot be automatically detected, unlike for
-<tt>__stdcall</tt> calls <em>to</em> Windows functions.
-</p>
-<p>
-For some use cases it's necessary to free up the resources or to
-dynamically redirect callbacks. Use an explicit cast to a
-C&nbsp;function pointer and keep the resulting cdata object. Then use
-the <a href="ext_ffi_api.html#callback_free"><tt>cb:free()</tt></a>
-or <a href="ext_ffi_api.html#callback_set"><tt>cb:set()</tt></a> methods
-on the cdata object:
-</p>
-<pre class="code">
--- Explicitly convert to a callback via cast.
-local count = 0
-local cb = ffi.cast("WNDENUMPROC", function(hwnd, l)
-  count = count + 1
-  return true
-end)
-
--- Pass it to a C function.
-ffi.C.EnumWindows(cb, 0)
--- EnumWindows doesn't need the callback after it returns, so free it.
-
-cb:free()
--- The callback function pointer is no longer valid and its resources
--- will be reclaimed. The created Lua closure will be garbage collected.
-</pre>
-
-<h3 id="callback_performance">Callback performance</h3>
-<p>
-<b>Callbacks are slow!</b> First, the C&nbsp;to Lua transition itself
-has an unavoidable cost, similar to a <tt>lua_call()</tt> or
-<tt>lua_pcall()</tt>. Argument and result marshalling add to that cost.
-And finally, neither the C&nbsp;compiler nor LuaJIT can inline or
-optimize across the language barrier and hoist repeated computations out
-of a callback function.
-</p>
-<p>
-Do not use callbacks for performance-sensitive work: e.g. consider a
-numerical integration routine which takes a user-defined function to
-integrate over. It's a bad idea to call a user-defined Lua function from
-C&nbsp;code millions of times. The callback overhead will be absolutely
-detrimental for performance.
-</p>
-<p>
-It's considerably faster to write the numerical integration routine
-itself in Lua &mdash; the JIT compiler will be able to inline the
-user-defined function and optimize it together with its calling context,
-with very competitive performance.
-</p>
-<p>
-As a general guideline: <b>use callbacks only when you must</b>, because
-of existing C&nbsp;APIs. E.g. callback performance is irrelevant for a
-GUI application, which waits for user input most of the time, anyway.
-</p>
-<p>
-For new designs <b>avoid push-style APIs</b>: a C&nbsp;function repeatedly
-calling a callback for each result. Instead <b>use pull-style APIs</b>:
-call a C&nbsp;function repeatedly to get a new result. Calls from Lua
-to C via the FFI are much faster than the other way round. Most well-designed
-libraries already use pull-style APIs (read/write, get/put).
-</p>
-
-<h2 id="clib">C Library Namespaces</h2>
-<p>
-A C&nbsp;library namespace is a special kind of object which allows
-access to the symbols contained in shared libraries or the default
-symbol namespace. The default
-<a href="ext_ffi_api.html#ffi_C"><tt>ffi.C</tt></a> namespace is
-automatically created when the FFI library is loaded. C&nbsp;library
-namespaces for specific shared libraries may be created with the
-<a href="ext_ffi_api.html#ffi_load"><tt>ffi.load()</tt></a> API
-function.
-</p>
-<p>
-Indexing a C&nbsp;library namespace object with a symbol name (a Lua
-string) automatically binds it to the library. First the symbol type
-is resolved &mdash; it must have been declared with
-<a href="ext_ffi_api.html#ffi_cdef"><tt>ffi.cdef</tt></a>. Then the
-symbol address is resolved by searching for the symbol name in the
-associated shared libraries or the default symbol namespace. Finally,
-the resulting binding between the symbol name, the symbol type and its
-address is cached. Missing symbol declarations or nonexistent symbol
-names cause an error.
-</p>
-<p>
-This is what happens on a <b>read access</b> for the different kinds of
-symbols:
-</p>
-<ul>
-
-<li>External functions: a cdata object with the type of the function
-and its address is returned.</li>
-
-<li>External variables: the symbol address is dereferenced and the
-loaded value is <a href="#convert_tolua">converted to a Lua object</a>
-and returned.</li>
-
-<li>Constant values (<tt>static&nbsp;const</tt> or <tt>enum</tt>
-constants): the constant is <a href="#convert_tolua">converted to a
-Lua object</a> and returned.</li>
-
-</ul>
-<p>
-This is what happens on a <b>write access</b>:
-</p>
-<ul>
-
-<li>External variables: the value to be written is
-<a href="#convert_fromlua">converted to the C&nbsp;type</a> of the
-variable and then stored at the symbol address.</li>
-
-<li>Writing to constant variables or to any other symbol type causes
-an error, like any other attempted write to a constant location.</li>
-
-</ul>
-<p>
-C&nbsp;library namespaces themselves are garbage collected objects. If
-the last reference to the namespace object is gone, the garbage
-collector will eventually release the shared library reference and
-remove all memory associated with the namespace. Since this may
-trigger the removal of the shared library from the memory of the
-running process, it's generally <em>not safe</em> to use function
-cdata objects obtained from a library if the namespace object may be
-unreferenced.
-</p>
-<p>
-Performance notice: the JIT compiler specializes to the identity of
-namespace objects and to the strings used to index it. This
-effectively turns function cdata objects into constants. It's not
-useful and actually counter-productive to explicitly cache these
-function objects, e.g. <tt>local strlen = ffi.C.strlen</tt>. OTOH it
-<em>is</em> useful to cache the namespace itself, e.g. <tt>local C =
-ffi.C</tt>.
-</p>
-
-<h2 id="policy">No Hand-holding!</h2>
-<p>
-The FFI library has been designed as <b>a low-level library</b>. The
-goal is to interface with C&nbsp;code and C&nbsp;data types with a
-minimum of overhead. This means <b>you can do anything you can do
-from&nbsp;C</b>: access all memory, overwrite anything in memory, call
-machine code at any memory address and so on.
-</p>
-<p>
-The FFI library provides <b>no memory safety</b>, unlike regular Lua
-code. It will happily allow you to dereference a <tt>NULL</tt>
-pointer, to access arrays out of bounds or to misdeclare
-C&nbsp;functions. If you make a mistake, your application might crash,
-just like equivalent C&nbsp;code would.
-</p>
-<p>
-This behavior is inevitable, since the goal is to provide full
-interoperability with C&nbsp;code. Adding extra safety measures, like
-bounds checks, would be futile. There's no way to detect
-misdeclarations of C&nbsp;functions, since shared libraries only
-provide symbol names, but no type information. Likewise there's no way
-to infer the valid range of indexes for a returned pointer.
-</p>
-<p>
-Again: the FFI library is a low-level library. This implies it needs
-to be used with care, but it's flexibility and performance often
-outweigh this concern. If you're a C or C++ developer, it'll be easy
-to apply your existing knowledge. OTOH writing code for the FFI
-library is not for the faint of heart and probably shouldn't be the
-first exercise for someone with little experience in Lua, C or C++.
-</p>
-<p>
-As a corollary of the above, the FFI library is <b>not safe for use by
-untrusted Lua code</b>. If you're sandboxing untrusted Lua code, you
-definitely don't want to give this code access to the FFI library or
-to <em>any</em> cdata object (except 64&nbsp;bit integers or complex
-numbers). Any properly engineered Lua sandbox needs to provide safety
-wrappers for many of the standard Lua library functions &mdash;
-similar wrappers need to be written for high-level operations on FFI
-data types, too.
-</p>
-
-<h2 id="status">Current Status</h2>
-<p>
-The initial release of the FFI library has some limitations and is
-missing some features. Most of these will be fixed in future releases.
-</p>
-<p>
-<a href="#clang">C language support</a> is
-currently incomplete:
-</p>
-<ul>
-<li>C&nbsp;declarations are not passed through a C&nbsp;pre-processor,
-yet.</li>
-<li>The C&nbsp;parser is able to evaluate most constant expressions
-commonly found in C&nbsp;header files. However it doesn't handle the
-full range of C&nbsp;expression semantics and may fail for some
-obscure constructs.</li>
-<li><tt>static const</tt> declarations only work for integer types
-up to 32&nbsp;bits. Neither declaring string constants nor
-floating-point constants is supported.</li>
-<li>Packed <tt>struct</tt> bitfields that cross container boundaries
-are not implemented.</li>
-<li>Native vector types may be defined with the GCC <tt>mode</tt> or
-<tt>vector_size</tt> attribute. But no operations other than loading,
-storing and initializing them are supported, yet.</li>
-<li>The <tt>volatile</tt> type qualifier is currently ignored by
-compiled code.</li>
-<li><a href="ext_ffi_api.html#ffi_cdef"><tt>ffi.cdef</tt></a> silently
-ignores most re-declarations. Note: avoid re-declarations which do not
-conform to C99. The implementation will eventually be changed to
-perform strict checks.</li>
-</ul>
-<p>
-The JIT compiler already handles a large subset of all FFI operations.
-It automatically falls back to the interpreter for unimplemented
-operations (you can check for this with the
-<a href="running.html#opt_j"><tt>-jv</tt></a> command line option).
-The following operations are currently not compiled and may exhibit
-suboptimal performance, especially when used in inner loops:
-</p>
-<ul>
-<li>Bitfield accesses and initializations.</li>
-<li>Vector operations.</li>
-<li>Table initializers.</li>
-<li>Initialization of nested <tt>struct</tt>/<tt>union</tt> types.</li>
-<li>Allocations of variable-length arrays or structs.</li>
-<li>Allocations of C&nbsp;types with a size &gt; 128&nbsp;bytes or an
-alignment &gt; 8&nbsp;bytes.</li>
-<li>Conversions from lightuserdata to <tt>void&nbsp;*</tt>.</li>
-<li>Pointer differences for element sizes that are not a power of
-two.</li>
-<li>Calls to C&nbsp;functions with aggregates passed or returned by
-value.</li>
-<li>Calls to ctype metamethods which are not plain functions.</li>
-<li>ctype <tt>__newindex</tt> tables and non-string lookups in ctype
-<tt>__index</tt> tables.</li>
-<li><tt>tostring()</tt> for cdata types.</li>
-<li>Calls to <tt>ffi.cdef()</tt>, <tt>ffi.load()</tt> and
-<tt>ffi.metatype()</tt>.</li>
-</ul>
-<p>
-Other missing features:
-</p>
-<ul>
-<li>Bit operations for 64&nbsp;bit types.</li>
-<li>Arithmetic for <tt>complex</tt> numbers.</li>
-<li>Passing structs by value to vararg C&nbsp;functions.</li>
-<li><a href="extensions.html#exceptions">C++ exception interoperability</a>
-does not extend to C&nbsp;functions called via the FFI, if the call is
-compiled.</li>
-</ul>
-<br class="flush">
-</div>
-<div id="foot">
-<hr class="hide">
-Copyright &copy; 2005-2014 Mike Pall
-<span class="noprint">
-&middot;
-<a href="contact.html">Contact</a>
-</span>
-</div>
-</body>
-</html>
diff --git a/luajit-2.0/doc/ext_ffi_tutorial.html b/luajit-2.0/doc/ext_ffi_tutorial.html
deleted file mode 100644
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--- a/luajit-2.0/doc/ext_ffi_tutorial.html
+++ /dev/null
@@ -1,601 +0,0 @@
-<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.01//EN" "http://www.w3.org/TR/html4/strict.dtd">
-<html>
-<head>
-<title>FFI Tutorial</title>
-<meta http-equiv="Content-Type" content="text/html; charset=iso-8859-1">
-<meta name="Author" content="Mike Pall">
-<meta name="Copyright" content="Copyright (C) 2005-2014, Mike Pall">
-<meta name="Language" content="en">
-<link rel="stylesheet" type="text/css" href="bluequad.css" media="screen">
-<link rel="stylesheet" type="text/css" href="bluequad-print.css" media="print">
-<style type="text/css">
-table.idiomtable { font-size: 90%; line-height: 1.2; }
-table.idiomtable tt { font-size: 100%; }
-table.idiomtable td { vertical-align: top; }
-tr.idiomhead td { font-weight: bold; }
-td.idiomlua b { font-weight: normal; color: #2142bf; }
-</style>
-</head>
-<body>
-<div id="site">
-<a href="http://luajit.org"><span>Lua<span id="logo">JIT</span></span></a>
-</div>
-<div id="head">
-<h1>FFI Tutorial</h1>
-</div>
-<div id="nav">
-<ul><li>
-<a href="luajit.html">LuaJIT</a>
-<ul><li>
-<a href="http://luajit.org/download.html">Download <span class="ext">&raquo;</span></a>
-</li><li>
-<a href="install.html">Installation</a>
-</li><li>
-<a href="running.html">Running</a>
-</li></ul>
-</li><li>
-<a href="extensions.html">Extensions</a>
-<ul><li>
-<a href="ext_ffi.html">FFI Library</a>
-<ul><li>
-<a class="current" href="ext_ffi_tutorial.html">FFI Tutorial</a>
-</li><li>
-<a href="ext_ffi_api.html">ffi.* API</a>
-</li><li>
-<a href="ext_ffi_semantics.html">FFI Semantics</a>
-</li></ul>
-</li><li>
-<a href="ext_jit.html">jit.* Library</a>
-</li><li>
-<a href="ext_c_api.html">Lua/C API</a>
-</li></ul>
-</li><li>
-<a href="status.html">Status</a>
-<ul><li>
-<a href="changes.html">Changes</a>
-</li></ul>
-</li><li>
-<a href="faq.html">FAQ</a>
-</li><li>
-<a href="http://luajit.org/performance.html">Performance <span class="ext">&raquo;</span></a>
-</li><li>
-<a href="http://wiki.luajit.org/">Wiki <span class="ext">&raquo;</span></a>
-</li><li>
-<a href="http://luajit.org/list.html">Mailing List <span class="ext">&raquo;</span></a>
-</li></ul>
-</div>
-<div id="main">
-<p>
-This page is intended to give you an overview of the features of the FFI
-library by presenting a few use cases and guidelines.
-</p>
-<p>
-This page makes no attempt to explain all of the FFI library, though.
-You'll want to have a look at the <a href="ext_ffi_api.html">ffi.* API
-function reference</a> and the <a href="ext_ffi_semantics.html">FFI
-semantics</a> to learn more.
-</p>
-
-<h2 id="load">Loading the FFI Library</h2>
-<p>
-The FFI library is built into LuaJIT by default, but it's not loaded
-and initialized by default. The suggested way to use the FFI library
-is to add the following to the start of every Lua file that needs one
-of its functions:
-</p>
-<pre class="code">
-local ffi = require("ffi")
-</pre>
-<p>
-Please note this doesn't define an <tt>ffi</tt> variable in the table
-of globals &mdash; you really need to use the local variable. The
-<tt>require</tt> function ensures the library is only loaded once.
-</p>
-<p style="font-size: 8pt;">
-Note: If you want to experiment with the FFI from the interactive prompt
-of the command line executable, omit the <tt>local</tt>, as it doesn't
-preserve local variables across lines.
-</p>
-
-<h2 id="sleep">Accessing Standard System Functions</h2>
-<p>
-The following code explains how to access standard system functions.
-We slowly print two lines of dots by sleeping for 10&nbsp;milliseconds
-after each dot:
-</p>
-<pre class="code mark">
-<span class="codemark">&nbsp;
-&#9312;
-
-
-
-
-
-&#9313;
-&#9314;
-&#9315;
-
-
-
-&#9316;
-
-
-
-
-
-&#9317;</span>local ffi = require("ffi")
-ffi.cdef[[
-<span style="color:#00a000;">void Sleep(int ms);
-int poll(struct pollfd *fds, unsigned long nfds, int timeout);</span>
-]]
-
-local sleep
-if ffi.os == "Windows" then
-  function sleep(s)
-    ffi.C.Sleep(s*1000)
-  end
-else
-  function sleep(s)
-    ffi.C.poll(nil, 0, s*1000)
-  end
-end
-
-for i=1,160 do
-  io.write("."); io.flush()
-  sleep(0.01)
-end
-io.write("\n")
-</pre>
-<p>
-Here's the step-by-step explanation:
-</p>
-<p>
-<span class="mark">&#9312;</span> This defines the
-C&nbsp;library functions we're going to use. The part inside the
-double-brackets (in green) is just standard C&nbsp;syntax. You can
-usually get this info from the C&nbsp;header files or the
-documentation provided by each C&nbsp;library or C&nbsp;compiler.
-</p>
-<p>
-<span class="mark">&#9313;</span> The difficulty we're
-facing here, is that there are different standards to choose from.
-Windows has a simple <tt>Sleep()</tt> function. On other systems there
-are a variety of functions available to achieve sub-second sleeps, but
-with no clear consensus. Thankfully <tt>poll()</tt> can be used for
-this task, too, and it's present on most non-Windows systems. The
-check for <tt>ffi.os</tt> makes sure we use the Windows-specific
-function only on Windows systems.
-</p>
-<p>
-<span class="mark">&#9314;</span> Here we're wrapping the
-call to the C&nbsp;function in a Lua function. This isn't strictly
-necessary, but it's helpful to deal with system-specific issues only
-in one part of the code. The way we're wrapping it ensures the check
-for the OS is only done during initialization and not for every call.
-</p>
-<p>
-<span class="mark">&#9315;</span> A more subtle point is
-that we defined our <tt>sleep()</tt> function (for the sake of this
-example) as taking the number of seconds, but accepting fractional
-seconds. Multiplying this by 1000 gets us milliseconds, but that still
-leaves it a Lua number, which is a floating-point value. Alas, the
-<tt>Sleep()</tt> function only accepts an integer value. Luckily for
-us, the FFI library automatically performs the conversion when calling
-the function (truncating the FP value towards zero, like in C).
-</p>
-<p style="font-size: 8pt;">
-Some readers will notice that <tt>Sleep()</tt> is part of
-<tt>KERNEL32.DLL</tt> and is also a <tt>stdcall</tt> function. So how
-can this possibly work? The FFI library provides the <tt>ffi.C</tt>
-default C&nbsp;library namespace, which allows calling functions from
-the default set of libraries, like a C&nbsp;compiler would. Also, the
-FFI library automatically detects <tt>stdcall</tt> functions, so you
-don't need to declare them as such.
-</p>
-<p>
-<span class="mark">&#9316;</span> The <tt>poll()</tt>
-function takes a couple more arguments we're not going to use. You can
-simply use <tt>nil</tt> to pass a <tt>NULL</tt> pointer and <tt>0</tt>
-for the <tt>nfds</tt> parameter. Please note that the
-number&nbsp;<tt>0</tt> <em>does not convert to a pointer value</em>,
-unlike in C++. You really have to pass pointers to pointer arguments
-and numbers to number arguments.
-</p>
-<p style="font-size: 8pt;">
-The page on <a href="ext_ffi_semantics.html">FFI semantics</a> has all
-of the gory details about
-<a href="ext_ffi_semantics.html#convert">conversions between Lua
-objects and C&nbsp;types</a>. For the most part you don't have to deal
-with this, as it's performed automatically and it's carefully designed
-to bridge the semantic differences between Lua and C.
-</p>
-<p>
-<span class="mark">&#9317;</span> Now that we have defined
-our own <tt>sleep()</tt> function, we can just call it from plain Lua
-code. That wasn't so bad, huh? Turning these boring animated dots into
-a fascinating best-selling game is left as an exercise for the reader.
-:-)
-</p>
-
-<h2 id="zlib">Accessing the zlib Compression Library</h2>
-<p>
-The following code shows how to access the <a
-href="http://zlib.net/">zlib</a> compression library from Lua code.
-We'll define two convenience wrapper functions that take a string and
-compress or uncompress it to another string:
-</p>
-<pre class="code mark">
-<span class="codemark">&nbsp;
-&#9312;
-
-
-
-
-
-
-&#9313;
-
-
-&#9314;
-
-&#9315;
-
-
-&#9316;
-
-
-&#9317;
-
-
-
-
-
-
-
-&#9318;</span>local ffi = require("ffi")
-ffi.cdef[[
-<span style="color:#00a000;">unsigned long compressBound(unsigned long sourceLen);
-int compress2(uint8_t *dest, unsigned long *destLen,
-	      const uint8_t *source, unsigned long sourceLen, int level);
-int uncompress(uint8_t *dest, unsigned long *destLen,
-	       const uint8_t *source, unsigned long sourceLen);</span>
-]]
-local zlib = ffi.load(ffi.os == "Windows" and "zlib1" or "z")
-
-local function compress(txt)
-  local n = zlib.compressBound(#txt)
-  local buf = ffi.new("uint8_t[?]", n)
-  local buflen = ffi.new("unsigned long[1]", n)
-  local res = zlib.compress2(buf, buflen, txt, #txt, 9)
-  assert(res == 0)
-  return ffi.string(buf, buflen[0])
-end
-
-local function uncompress(comp, n)
-  local buf = ffi.new("uint8_t[?]", n)
-  local buflen = ffi.new("unsigned long[1]", n)
-  local res = zlib.uncompress(buf, buflen, comp, #comp)
-  assert(res == 0)
-  return ffi.string(buf, buflen[0])
-end
-
--- Simple test code.
-local txt = string.rep("abcd", 1000)
-print("Uncompressed size: ", #txt)
-local c = compress(txt)
-print("Compressed size: ", #c)
-local txt2 = uncompress(c, #txt)
-assert(txt2 == txt)
-</pre>
-<p>
-Here's the step-by-step explanation:
-</p>
-<p>
-<span class="mark">&#9312;</span> This defines some of the
-C&nbsp;functions provided by zlib. For the sake of this example, some
-type indirections have been reduced and it uses the pre-defined
-fixed-size integer types, while still adhering to the zlib API/ABI.
-</p>
-<p>
-<span class="mark">&#9313;</span> This loads the zlib shared
-library. On POSIX systems it's named <tt>libz.so</tt> and usually
-comes pre-installed. Since <tt>ffi.load()</tt> automatically adds any
-missing standard prefixes/suffixes, we can simply load the
-<tt>"z"</tt> library. On Windows it's named <tt>zlib1.dll</tt> and
-you'll have to download it first from the
-<a href="http://zlib.net/"><span class="ext">&raquo;</span>&nbsp;zlib site</a>. The check for
-<tt>ffi.os</tt> makes sure we pass the right name to
-<tt>ffi.load()</tt>.
-</p>
-<p>
-<span class="mark">&#9314;</span> First, the maximum size of
-the compression buffer is obtained by calling the
-<tt>zlib.compressBound</tt> function with the length of the
-uncompressed string. The next line allocates a byte buffer of this
-size. The <tt>[?]</tt> in the type specification indicates a
-variable-length array (VLA). The actual number of elements of this
-array is given as the 2nd argument to <tt>ffi.new()</tt>.
-</p>
-<p>
-<span class="mark">&#9315;</span> This may look strange at
-first, but have a look at the declaration of the <tt>compress2</tt>
-function from zlib: the destination length is defined as a pointer!
-This is because you pass in the maximum buffer size and get back the
-actual length that was used.
-</p>
-<p>
-In C you'd pass in the address of a local variable
-(<tt>&amp;buflen</tt>). But since there's no address-of operator in
-Lua, we'll just pass in a one-element array. Conveniently it can be
-initialized with the maximum buffer size in one step. Calling the
-actual <tt>zlib.compress2</tt> function is then straightforward.
-</p>
-<p>
-<span class="mark">&#9316;</span> We want to return the
-compressed data as a Lua string, so we'll use <tt>ffi.string()</tt>.
-It needs a pointer to the start of the data and the actual length. The
-length has been returned in the <tt>buflen</tt> array, so we'll just
-get it from there.
-</p>
-<p style="font-size: 8pt;">
-Note that since the function returns now, the <tt>buf</tt> and
-<tt>buflen</tt> variables will eventually be garbage collected. This
-is fine, because <tt>ffi.string()</tt> has copied the contents to a
-newly created (interned) Lua string. If you plan to call this function
-lots of times, consider reusing the buffers and/or handing back the
-results in buffers instead of strings. This will reduce the overhead
-for garbage collection and string interning.
-</p>
-<p>
-<span class="mark">&#9317;</span> The <tt>uncompress</tt>
-functions does the exact opposite of the <tt>compress</tt> function.
-The compressed data doesn't include the size of the original string,
-so this needs to be passed in. Otherwise no surprises here.
-</p>
-<p>
-<span class="mark">&#9318;</span> The code, that makes use
-of the functions we just defined, is just plain Lua code. It doesn't
-need to know anything about the LuaJIT FFI &mdash; the convenience
-wrapper functions completely hide it.
-</p>
-<p>
-One major advantage of the LuaJIT FFI is that you are now able to
-write those wrappers <em>in Lua</em>. And at a fraction of the time it
-would cost you to create an extra C&nbsp;module using the Lua/C API.
-Many of the simpler C&nbsp;functions can probably be used directly
-from your Lua code, without any wrappers.
-</p>
-<p style="font-size: 8pt;">
-Side note: the zlib API uses the <tt>long</tt> type for passing
-lengths and sizes around. But all those zlib functions actually only
-deal with 32&nbsp;bit values. This is an unfortunate choice for a
-public API, but may be explained by zlib's history &mdash; we'll just
-have to deal with it.
-</p>
-<p style="font-size: 8pt;">
-First, you should know that a <tt>long</tt> is a 64&nbsp;bit type e.g.
-on POSIX/x64 systems, but a 32&nbsp;bit type on Windows/x64 and on
-32&nbsp;bit systems. Thus a <tt>long</tt> result can be either a plain
-Lua number or a boxed 64&nbsp;bit integer cdata object, depending on
-the target system.
-</p>
-<p style="font-size: 8pt;">
-Ok, so the <tt>ffi.*</tt> functions generally accept cdata objects
-wherever you'd want to use a number. That's why we get a away with
-passing <tt>n</tt> to <tt>ffi.string()</tt> above. But other Lua
-library functions or modules don't know how to deal with this. So for
-maximum portability one needs to use <tt>tonumber()</tt> on returned
-<tt>long</tt> results before passing them on. Otherwise the
-application might work on some systems, but would fail in a POSIX/x64
-environment.
-</p>
-
-<h2 id="metatype">Defining Metamethods for a C&nbsp;Type</h2>
-<p>
-The following code explains how to define metamethods for a C type.
-We define a simple point type and add some operations to it:
-</p>
-<pre class="code mark">
-<span class="codemark">&nbsp;
-&#9312;
-
-
-
-&#9313;
-
-&#9314;
-
-&#9315;
-
-
-
-&#9316;
-
-&#9317;</span>local ffi = require("ffi")
-ffi.cdef[[
-<span style="color:#00a000;">typedef struct { double x, y; } point_t;</span>
-]]
-
-local point
-local mt = {
-  __add = function(a, b) return point(a.x+b.x, a.y+b.y) end,
-  __len = function(a) return math.sqrt(a.x*a.x + a.y*a.y) end,
-  __index = {
-    area = function(a) return a.x*a.x + a.y*a.y end,
-  },
-}
-point = ffi.metatype("point_t", mt)
-
-local a = point(3, 4)
-print(a.x, a.y)  --> 3  4
-print(#a)        --> 5
-print(a:area())  --> 25
-local b = a + point(0.5, 8)
-print(#b)        --> 12.5
-</pre>
-<p>
-Here's the step-by-step explanation:
-</p>
-<p>
-<span class="mark">&#9312;</span> This defines the C&nbsp;type for a
-two-dimensional point object.
-</p>
-<p>
-<span class="mark">&#9313;</span> We have to declare the variable
-holding the point constructor first, because it's used inside of a
-metamethod.
-</p>
-<p>
-<span class="mark">&#9314;</span> Let's define an <tt>__add</tt>
-metamethod which adds the coordinates of two points and creates a new
-point object. For simplicity, this function assumes that both arguments
-are points. But it could be any mix of objects, if at least one operand
-is of the required type (e.g. adding a point plus a number or vice
-versa). Our <tt>__len</tt> metamethod returns the distance of a point to
-the origin.
-</p>
-<p>
-<span class="mark">&#9315;</span> If we run out of operators, we can
-define named methods, too. Here the <tt>__index</tt> table defines an
-<tt>area</tt> function. For custom indexing needs, one might want to
-define <tt>__index</tt> and <tt>__newindex</tt> <em>functions</em> instead.
-</p>
-<p>
-<span class="mark">&#9316;</span> This associates the metamethods with
-our C&nbsp;type. This only needs to be done once. For convenience, a
-constructor is returned by
-<a href="ext_ffi_api.html#ffi_metatype"><tt>ffi.metatype()</tt></a>.
-We're not required to use it, though. The original C&nbsp;type can still
-be used e.g. to create an array of points. The metamethods automatically
-apply to any and all uses of this type.
-</p>
-<p>
-Please note that the association with a metatable is permanent and
-<b>the metatable must not be modified afterwards!</b> Ditto for the
-<tt>__index</tt> table.
-</p>
-<p>
-<span class="mark">&#9317;</span> Here are some simple usage examples
-for the point type and their expected results. The pre-defined
-operations (such as <tt>a.x</tt>) can be freely mixed with the newly
-defined metamethods. Note that <tt>area</tt> is a method and must be
-called with the Lua syntax for methods: <tt>a:area()</tt>, not
-<tt>a.area()</tt>.
-</p>
-<p>
-The C&nbsp;type metamethod mechanism is most useful when used in
-conjunction with C&nbsp;libraries that are written in an object-oriented
-style. Creators return a pointer to a new instance and methods take an
-instance pointer as the first argument. Sometimes you can just point
-<tt>__index</tt> to the library namespace and <tt>__gc</tt> to the
-destructor and you're done. But often enough you'll want to add
-convenience wrappers, e.g. to return actual Lua strings or when
-returning multiple values.
-</p>
-<p>
-Some C libraries only declare instance pointers as an opaque
-<tt>void&nbsp;*</tt> type. In this case you can use a fake type for all
-declarations, e.g. a pointer to a named (incomplete) struct will do:
-<tt>typedef struct foo_type *foo_handle</tt>. The C&nbsp;side doesn't
-know what you declare with the LuaJIT FFI, but as long as the underlying
-types are compatible, everything still works.
-</p>
-
-<h2 id="idioms">Translating C&nbsp;Idioms</h2>
-<p>
-Here's a list of common C&nbsp;idioms and their translation to the
-LuaJIT FFI:
-</p>
-<table class="idiomtable">
-<tr class="idiomhead">
-<td class="idiomdesc">Idiom</td>
-<td class="idiomc">C&nbsp;code</td>
-<td class="idiomlua">Lua code</td>
-</tr>
-<tr class="odd separate">
-<td class="idiomdesc">Pointer dereference<br><tt>int *p;</tt></td><td class="idiomc"><tt>x = *p;<br>*p = y;</tt></td><td class="idiomlua"><tt>x = <b>p[0]</b><br><b>p[0]</b> = y</tt></td></tr>
-<tr class="even">
-<td class="idiomdesc">Pointer indexing<br><tt>int i, *p;</tt></td><td class="idiomc"><tt>x = p[i];<br>p[i+1] = y;</tt></td><td class="idiomlua"><tt>x = p[i]<br>p[i+1] = y</tt></td></tr>
-<tr class="odd">
-<td class="idiomdesc">Array indexing<br><tt>int i, a[];</tt></td><td class="idiomc"><tt>x = a[i];<br>a[i+1] = y;</tt></td><td class="idiomlua"><tt>x = a[i]<br>a[i+1] = y</tt></td></tr>
-<tr class="even separate">
-<td class="idiomdesc"><tt>struct</tt>/<tt>union</tt> dereference<br><tt>struct foo s;</tt></td><td class="idiomc"><tt>x = s.field;<br>s.field = y;</tt></td><td class="idiomlua"><tt>x = s.field<br>s.field = y</tt></td></tr>
-<tr class="odd">
-<td class="idiomdesc"><tt>struct</tt>/<tt>union</tt> pointer deref.<br><tt>struct foo *sp;</tt></td><td class="idiomc"><tt>x = sp->field;<br>sp->field = y;</tt></td><td class="idiomlua"><tt>x = <b>s.field</b><br><b>s.field</b> = y</tt></td></tr>
-<tr class="even separate">
-<td class="idiomdesc">Pointer arithmetic<br><tt>int i, *p;</tt></td><td class="idiomc"><tt>x = p + i;<br>y = p - i;</tt></td><td class="idiomlua"><tt>x = p + i<br>y = p - i</tt></td></tr>
-<tr class="odd">
-<td class="idiomdesc">Pointer difference<br><tt>int *p1, *p2;</tt></td><td class="idiomc"><tt>x = p1 - p2;</tt></td><td class="idiomlua"><tt>x = p1 - p2</tt></td></tr>
-<tr class="even">
-<td class="idiomdesc">Array element pointer<br><tt>int i, a[];</tt></td><td class="idiomc"><tt>x = &amp;a[i];</tt></td><td class="idiomlua"><tt>x = <b>a+i</b></tt></td></tr>
-<tr class="odd">
-<td class="idiomdesc">Cast pointer to address<br><tt>int *p;</tt></td><td class="idiomc"><tt>x = (intptr_t)p;</tt></td><td class="idiomlua"><tt>x = <b>tonumber(<br>&nbsp;ffi.cast("intptr_t",<br>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;p))</b></tt></td></tr>
-<tr class="even separate">
-<td class="idiomdesc">Functions with outargs<br><tt>void foo(int *inoutlen);</tt></td><td class="idiomc"><tt>int len = x;<br>foo(&amp;len);<br>y = len;</tt></td><td class="idiomlua"><tt><b>local len =<br>&nbsp;&nbsp;ffi.new("int[1]", x)<br>foo(len)<br>y = len[0]</b></tt></td></tr>
-<tr class="odd">
-<td class="idiomdesc"><a href="ext_ffi_semantics.html#convert_vararg">Vararg conversions</a><br><tt>int printf(char *fmt, ...);</tt></td><td class="idiomc"><tt>printf("%g", 1.0);<br>printf("%d", 1);<br>&nbsp;</tt></td><td class="idiomlua"><tt>printf("%g", 1);<br>printf("%d",<br>&nbsp;&nbsp;<b>ffi.new("int", 1)</b>)</tt></td></tr>
-</table>
-
-<h2 id="cache">To Cache or Not to Cache</h2>
-<p>
-It's a common Lua idiom to cache library functions in local variables
-or upvalues, e.g.:
-</p>
-<pre class="code">
-local byte, char = string.byte, string.char
-local function foo(x)
-  return char(byte(x)+1)
-end
-</pre>
-<p>
-This replaces several hash-table lookups with a (faster) direct use of
-a local or an upvalue. This is less important with LuaJIT, since the
-JIT compiler optimizes hash-table lookups a lot and is even able to
-hoist most of them out of the inner loops. It can't eliminate
-<em>all</em> of them, though, and it saves some typing for often-used
-functions. So there's still a place for this, even with LuaJIT.
-</p>
-<p>
-The situation is a bit different with C&nbsp;function calls via the
-FFI library. The JIT compiler has special logic to eliminate <em>all
-of the lookup overhead</em> for functions resolved from a
-<a href="ext_ffi_semantics.html#clib">C&nbsp;library namespace</a>!
-Thus it's not helpful and actually counter-productive to cache
-individual C&nbsp;functions like this:
-</p>
-<pre class="code">
-local <b>funca</b>, <b>funcb</b> = ffi.C.funca, ffi.C.funcb -- <span style="color:#c00000;">Not helpful!</span>
-local function foo(x, n)
-  for i=1,n do <b>funcb</b>(<b>funca</b>(x, i), 1) end
-end
-</pre>
-<p>
-This turns them into indirect calls and generates bigger and slower
-machine code. Instead you'll want to cache the namespace itself and
-rely on the JIT compiler to eliminate the lookups:
-</p>
-<pre class="code">
-local <b>C</b> = ffi.C          -- <span style="color:#00a000;">Instead use this!</span>
-local function foo(x, n)
-  for i=1,n do <b>C.funcb</b>(<b>C.funca</b>(x, i), 1) end
-end
-</pre>
-<p>
-This generates both shorter and faster code. So <b>don't cache
-C&nbsp;functions</b>, but <b>do</b> cache namespaces! Most often the
-namespace is already in a local variable at an outer scope, e.g. from
-<tt>local&nbsp;lib&nbsp;=&nbsp;ffi.load(...)</tt>. Note that copying
-it to a local variable in the function scope is unnecessary.
-</p>
-<br class="flush">
-</div>
-<div id="foot">
-<hr class="hide">
-Copyright &copy; 2005-2014 Mike Pall
-<span class="noprint">
-&middot;
-<a href="contact.html">Contact</a>
-</span>
-</div>
-</body>
-</html>
diff --git a/luajit-2.0/doc/ext_jit.html b/luajit-2.0/doc/ext_jit.html
deleted file mode 100644
index 098be5e..0000000
--- a/luajit-2.0/doc/ext_jit.html
+++ /dev/null
@@ -1,199 +0,0 @@
-<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.01//EN" "http://www.w3.org/TR/html4/strict.dtd">
-<html>
-<head>
-<title>jit.* Library</title>
-<meta http-equiv="Content-Type" content="text/html; charset=iso-8859-1">
-<meta name="Author" content="Mike Pall">
-<meta name="Copyright" content="Copyright (C) 2005-2014, Mike Pall">
-<meta name="Language" content="en">
-<link rel="stylesheet" type="text/css" href="bluequad.css" media="screen">
-<link rel="stylesheet" type="text/css" href="bluequad-print.css" media="print">
-</head>
-<body>
-<div id="site">
-<a href="http://luajit.org"><span>Lua<span id="logo">JIT</span></span></a>
-</div>
-<div id="head">
-<h1><tt>jit.*</tt> Library</h1>
-</div>
-<div id="nav">
-<ul><li>
-<a href="luajit.html">LuaJIT</a>
-<ul><li>
-<a href="http://luajit.org/download.html">Download <span class="ext">&raquo;</span></a>
-</li><li>
-<a href="install.html">Installation</a>
-</li><li>
-<a href="running.html">Running</a>
-</li></ul>
-</li><li>
-<a href="extensions.html">Extensions</a>
-<ul><li>
-<a href="ext_ffi.html">FFI Library</a>
-<ul><li>
-<a href="ext_ffi_tutorial.html">FFI Tutorial</a>
-</li><li>
-<a href="ext_ffi_api.html">ffi.* API</a>
-</li><li>
-<a href="ext_ffi_semantics.html">FFI Semantics</a>
-</li></ul>
-</li><li>
-<a class="current" href="ext_jit.html">jit.* Library</a>
-</li><li>
-<a href="ext_c_api.html">Lua/C API</a>
-</li></ul>
-</li><li>
-<a href="status.html">Status</a>
-<ul><li>
-<a href="changes.html">Changes</a>
-</li></ul>
-</li><li>
-<a href="faq.html">FAQ</a>
-</li><li>
-<a href="http://luajit.org/performance.html">Performance <span class="ext">&raquo;</span></a>
-</li><li>
-<a href="http://wiki.luajit.org/">Wiki <span class="ext">&raquo;</span></a>
-</li><li>
-<a href="http://luajit.org/list.html">Mailing List <span class="ext">&raquo;</span></a>
-</li></ul>
-</div>
-<div id="main">
-<p>
-The functions in this built-in module control the behavior of the JIT
-compiler engine. Note that JIT-compilation is fully automatic &mdash;
-you probably won't need to use any of the following functions unless
-you have special needs.
-</p>
-
-<h3 id="jit_onoff"><tt>jit.on()<br>
-jit.off()</tt></h3>
-<p>
-Turns the whole JIT compiler on (default) or off.
-</p>
-<p>
-These functions are typically used with the command line options
-<tt>-j on</tt> or <tt>-j off</tt>.
-</p>
-
-<h3 id="jit_flush"><tt>jit.flush()</tt></h3>
-<p>
-Flushes the whole cache of compiled code.
-</p>
-
-<h3 id="jit_onoff_func"><tt>jit.on(func|true [,true|false])<br>
-jit.off(func|true [,true|false])<br>
-jit.flush(func|true [,true|false])</tt></h3>
-<p>
-<tt>jit.on</tt> enables JIT compilation for a Lua function (this is
-the default).
-</p>
-<p>
-<tt>jit.off</tt> disables JIT compilation for a Lua function and
-flushes any already compiled code from the code cache.
-</p>
-<p>
-<tt>jit.flush</tt> flushes the code, but doesn't affect the
-enable/disable status.
-</p>
-<p>
-The current function, i.e. the Lua function calling this library
-function, can also be specified by passing <tt>true</tt> as the first
-argument.
-</p>
-<p>
-If the second argument is <tt>true</tt>, JIT compilation is also
-enabled, disabled or flushed recursively for all sub-functions of a
-function. With <tt>false</tt> only the sub-functions are affected.
-</p>
-<p>
-The <tt>jit.on</tt> and <tt>jit.off</tt> functions only set a flag
-which is checked when the function is about to be compiled. They do
-not trigger immediate compilation.
-</p>
-<p>
-Typical usage is <tt>jit.off(true, true)</tt> in the main chunk
-of a module to turn off JIT compilation for the whole module for
-debugging purposes.
-</p>
-
-<h3 id="jit_flush_tr"><tt>jit.flush(tr)</tt></h3>
-<p>
-Flushes the root trace, specified by its number, and all of its side
-traces from the cache. The code for the trace will be retained as long
-as there are any other traces which link to it.
-</p>
-
-<h3 id="jit_status"><tt>status, ... = jit.status()</tt></h3>
-<p>
-Returns the current status of the JIT compiler. The first result is
-either <tt>true</tt> or <tt>false</tt> if the JIT compiler is turned
-on or off. The remaining results are strings for CPU-specific features
-and enabled optimizations.
-</p>
-
-<h3 id="jit_version"><tt>jit.version</tt></h3>
-<p>
-Contains the LuaJIT version string.
-</p>
-
-<h3 id="jit_version_num"><tt>jit.version_num</tt></h3>
-<p>
-Contains the version number of the LuaJIT core. Version xx.yy.zz
-is represented by the decimal number xxyyzz.
-</p>
-
-<h3 id="jit_os"><tt>jit.os</tt></h3>
-<p>
-Contains the target OS name:
-"Windows", "Linux", "OSX", "BSD", "POSIX" or "Other".
-</p>
-
-<h3 id="jit_arch"><tt>jit.arch</tt></h3>
-<p>
-Contains the target architecture name:
-"x86", "x64" or "ppcspe".
-</p>
-
-<h2 id="jit_opt"><tt>jit.opt.*</tt> &mdash; JIT compiler optimization control</h2>
-<p>
-This sub-module provides the backend for the <tt>-O</tt> command line
-option.
-</p>
-<p>
-You can also use it programmatically, e.g.:
-</p>
-<pre class="code">
-jit.opt.start(2) -- same as -O2
-jit.opt.start("-dce")
-jit.opt.start("hotloop=10", "hotexit=2")
-</pre>
-<p>
-Unlike in LuaJIT 1.x, the module is built-in and
-<b>optimization is turned on by default!</b>
-It's no longer necessary to run <tt>require("jit.opt").start()</tt>,
-which was one of the ways to enable optimization.
-</p>
-
-<h2 id="jit_util"><tt>jit.util.*</tt> &mdash; JIT compiler introspection</h2>
-<p>
-This sub-module holds functions to introspect the bytecode, generated
-traces, the IR and the generated machine code. The functionality
-provided by this module is still in flux and therefore undocumented.
-</p>
-<p>
-The debug modules <tt>-jbc</tt>, <tt>-jv</tt> and <tt>-jdump</tt> make
-extensive use of these functions. Please check out their source code,
-if you want to know more.
-</p>
-<br class="flush">
-</div>
-<div id="foot">
-<hr class="hide">
-Copyright &copy; 2005-2014 Mike Pall
-<span class="noprint">
-&middot;
-<a href="contact.html">Contact</a>
-</span>
-</div>
-</body>
-</html>
diff --git a/luajit-2.0/doc/extensions.html b/luajit-2.0/doc/extensions.html
deleted file mode 100644
index 20b597f..0000000
--- a/luajit-2.0/doc/extensions.html
+++ /dev/null
@@ -1,408 +0,0 @@
-<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.01//EN" "http://www.w3.org/TR/html4/strict.dtd">
-<html>
-<head>
-<title>Extensions</title>
-<meta http-equiv="Content-Type" content="text/html; charset=iso-8859-1">
-<meta name="Author" content="Mike Pall">
-<meta name="Copyright" content="Copyright (C) 2005-2014, Mike Pall">
-<meta name="Language" content="en">
-<link rel="stylesheet" type="text/css" href="bluequad.css" media="screen">
-<link rel="stylesheet" type="text/css" href="bluequad-print.css" media="print">
-<style type="text/css">
-table.exc {
-  line-height: 1.2;
-}
-tr.exchead td {
-  font-weight: bold;
-}
-td.excplatform {
-  width: 48%;
-}
-td.exccompiler {
-  width: 29%;
-}
-td.excinterop {
-  width: 23%;
-}
-</style>
-</head>
-<body>
-<div id="site">
-<a href="http://luajit.org"><span>Lua<span id="logo">JIT</span></span></a>
-</div>
-<div id="head">
-<h1>Extensions</h1>
-</div>
-<div id="nav">
-<ul><li>
-<a href="luajit.html">LuaJIT</a>
-<ul><li>
-<a href="http://luajit.org/download.html">Download <span class="ext">&raquo;</span></a>
-</li><li>
-<a href="install.html">Installation</a>
-</li><li>
-<a href="running.html">Running</a>
-</li></ul>
-</li><li>
-<a class="current" href="extensions.html">Extensions</a>
-<ul><li>
-<a href="ext_ffi.html">FFI Library</a>
-<ul><li>
-<a href="ext_ffi_tutorial.html">FFI Tutorial</a>
-</li><li>
-<a href="ext_ffi_api.html">ffi.* API</a>
-</li><li>
-<a href="ext_ffi_semantics.html">FFI Semantics</a>
-</li></ul>
-</li><li>
-<a href="ext_jit.html">jit.* Library</a>
-</li><li>
-<a href="ext_c_api.html">Lua/C API</a>
-</li></ul>
-</li><li>
-<a href="status.html">Status</a>
-<ul><li>
-<a href="changes.html">Changes</a>
-</li></ul>
-</li><li>
-<a href="faq.html">FAQ</a>
-</li><li>
-<a href="http://luajit.org/performance.html">Performance <span class="ext">&raquo;</span></a>
-</li><li>
-<a href="http://wiki.luajit.org/">Wiki <span class="ext">&raquo;</span></a>
-</li><li>
-<a href="http://luajit.org/list.html">Mailing List <span class="ext">&raquo;</span></a>
-</li></ul>
-</div>
-<div id="main">
-<p>
-LuaJIT is fully upwards-compatible with Lua 5.1. It supports all
-<a href="http://www.lua.org/manual/5.1/manual.html#5"><span class="ext">&raquo;</span>&nbsp;standard Lua
-library functions</a> and the full set of
-<a href="http://www.lua.org/manual/5.1/manual.html#3"><span class="ext">&raquo;</span>&nbsp;Lua/C API
-functions</a>.
-</p>
-<p>
-LuaJIT is also fully ABI-compatible to Lua 5.1 at the linker/dynamic
-loader level. This means you can compile a C&nbsp;module against the
-standard Lua headers and load the same shared library from either Lua
-or LuaJIT.
-</p>
-<p>
-LuaJIT extends the standard Lua VM with new functionality and adds
-several extension modules. Please note this page is only about
-<em>functional</em> enhancements and not about performance enhancements,
-such as the optimized VM, the faster interpreter or the JIT compiler.
-</p>
-
-<h2 id="modules">Extensions Modules</h2>
-<p>
-LuaJIT comes with several built-in extension modules:
-</p>
-
-<h3 id="bit"><tt>bit.*</tt> &mdash; Bitwise operations</h3>
-<p>
-LuaJIT supports all bitwise operations as defined by
-<a href="http://bitop.luajit.org"><span class="ext">&raquo;</span>&nbsp;Lua BitOp</a>:
-</p>
-<pre class="code">
-bit.tobit  bit.tohex  bit.bnot    bit.band bit.bor  bit.bxor
-bit.lshift bit.rshift bit.arshift bit.rol  bit.ror  bit.bswap
-</pre>
-<p>
-This module is a LuaJIT built-in &mdash; you don't need to download or
-install Lua BitOp. The Lua BitOp site has full documentation for all
-<a href="http://bitop.luajit.org/api.html"><span class="ext">&raquo;</span>&nbsp;Lua BitOp API functions</a>.
-</p>
-<p>
-Please make sure to <tt>require</tt> the module before using any of
-its functions:
-</p>
-<pre class="code">
-local bit = require("bit")
-</pre>
-<p>
-An already installed Lua BitOp module is ignored by LuaJIT.
-This way you can use bit operations from both Lua and LuaJIT on a
-shared installation.
-</p>
-
-<h3 id="ffi"><tt>ffi.*</tt> &mdash; FFI library</h3>
-<p>
-The <a href="ext_ffi.html">FFI library</a> allows calling external
-C&nbsp;functions and the use of C&nbsp;data structures from pure Lua
-code.
-</p>
-
-<h3 id="jit"><tt>jit.*</tt> &mdash; JIT compiler control</h3>
-<p>
-The functions in this module
-<a href="ext_jit.html">control the behavior of the JIT compiler engine</a>.
-</p>
-
-<h3 id="c_api">C API extensions</h3>
-<p>
-LuaJIT adds some
-<a href="ext_c_api.html">extra functions to the Lua/C API</a>.
-</p>
-
-<h2 id="library">Enhanced Standard Library Functions</h2>
-
-<h3 id="xpcall"><tt>xpcall(f, err [,args...])</tt> passes arguments</h3>
-<p>
-Unlike the standard implementation in Lua 5.1, <tt>xpcall()</tt>
-passes any arguments after the error function to the function
-which is called in a protected context.
-</p>
-
-<h3 id="load"><tt>loadfile()</tt> etc. handle UTF-8 source code</h3>
-<p>
-Non-ASCII characters are handled transparently by the Lua source code parser.
-This allows the use of UTF-8 characters in identifiers and strings.
-A UTF-8 BOM is skipped at the start of the source code.
-</p>
-
-<h3 id="tostring"><tt>tostring()</tt> etc. canonicalize NaN and &plusmn;Inf</h3>
-<p>
-All number-to-string conversions consistently convert non-finite numbers
-to the same strings on all platforms. NaN results in <tt>"nan"</tt>,
-positive infinity results in <tt>"inf"</tt> and negative infinity results
-in <tt>"-inf"</tt>.
-</p>
-
-<h3 id="tonumber"><tt>tonumber()</tt> etc. use builtin string to number conversion</h3>
-<p>
-All string-to-number conversions consistently convert integer and
-floating-point inputs in decimal and hexadecimal on all platforms.
-<tt>strtod()</tt> is <em>not</em> used anymore, which avoids numerous
-problems with poor C library implementations. The builtin conversion
-function provides full precision according to the IEEE-754 standard, it
-works independently of the current locale and it supports hex floating-point
-numbers (e.g. <tt>0x1.5p-3</tt>).
-</p>
-
-<h3 id="string_dump"><tt>string.dump(f [,strip])</tt> generates portable bytecode</h3>
-<p>
-An extra argument has been added to <tt>string.dump()</tt>. If set to
-<tt>true</tt>, 'stripped' bytecode without debug information is
-generated. This speeds up later bytecode loading and reduces memory
-usage. See also the
-<a href="running.html#opt_b"><tt>-b</tt> command line option</a>.
-</p>
-<p>
-The generated bytecode is portable and can be loaded on any architecture
-that LuaJIT supports, independent of word size or endianess. However the
-bytecode compatibility versions must match. Bytecode stays compatible
-for dot releases (x.y.0 &rarr; x.y.1), but may change with major or
-minor releases (2.0 &rarr; 2.1) or between any beta release. Foreign
-bytecode (e.g. from Lua 5.1) is incompatible and cannot be loaded.
-</p>
-
-<h3 id="math_random">Enhanced PRNG for <tt>math.random()</tt></h3>
-<p>
-LuaJIT uses a Tausworthe PRNG with period 2^223 to implement
-<tt>math.random()</tt> and <tt>math.randomseed()</tt>. The quality of
-the PRNG results is much superior compared to the standard Lua
-implementation which uses the platform-specific ANSI rand().
-</p>
-<p>
-The PRNG generates the same sequences from the same seeds on all
-platforms and makes use of all bits in the seed argument.
-<tt>math.random()</tt> without arguments generates 52 pseudo-random bits
-for every call. The result is uniformly distributed between 0.0 and 1.0.
-It's correctly scaled up and rounded for <tt>math.random(n&nbsp;[,m])</tt> to
-preserve uniformity.
-</p>
-
-<h3 id="io"><tt>io.*</tt> functions handle 64&nbsp;bit file offsets</h3>
-<p>
-The file I/O functions in the standard <tt>io.*</tt> library handle
-64&nbsp;bit file offsets. In particular this means it's possible
-to open files larger than 2&nbsp;Gigabytes and to reposition or obtain
-the current file position for offsets beyond 2&nbsp;GB
-(<tt>fp:seek()</tt> method).
-</p>
-
-<h3 id="debug_meta"><tt>debug.*</tt> functions identify metamethods</h3>
-<p>
-<tt>debug.getinfo()</tt> and <tt>lua_getinfo()</tt> also return information
-about invoked metamethods. The <tt>namewhat</tt> field is set to
-<tt>"metamethod"</tt> and the <tt>name</tt> field has the name of
-the corresponding metamethod (e.g. <tt>"__index"</tt>).
-</p>
-
-<h2 id="resumable">Fully Resumable VM</h2>
-<p>
-The LuaJIT VM is fully resumable. This means you can yield from a
-coroutine even across contexts, where this would not possible with
-the standard Lua&nbsp;5.1 VM: e.g. you can yield across <tt>pcall()</tt>
-and <tt>xpcall()</tt>, across iterators and across metamethods.
-</p>
-
-<h2 id="lua52">Extensions from Lua 5.2</h2>
-<p>
-LuaJIT supports some language and library extensions from Lua&nbsp;5.2.
-Features that are unlikely to break existing code are unconditionally
-enabled:
-</p>
-<ul>
-<li><tt>goto</tt> and <tt>::labels::</tt>.</li>
-<li>Hex escapes <tt>'\x3F'</tt> and <tt>'\*'</tt> escape in strings.</li>
-<li><tt>load(string|reader [, chunkname [,mode [,env]]])</tt>.</li>
-<li><tt>loadstring()</tt> is an alias for <tt>load()</tt>.</li>
-<li><tt>loadfile(filename [,mode [,env]])</tt>.</li>
-<li><tt>math.log(x [,base])</tt>.
-<li><tt>string.rep(s, n [,sep])</tt>.
-<li><tt>string.format()</tt>: <tt>%q</tt> reversible.
-<tt>%s</tt> checks <tt>__tostring</tt>.
-<tt>%a</tt> and <tt>"%A</tt> added.</li>
-<li>String matching pattern <tt>%g</tt> added.</li>
-<li><tt>io.read("*L")</tt>.</li>
-<li><tt>io.lines()</tt> and <tt>file:lines()</tt> process
-<tt>io.read()</tt> options.</li>
-<li><tt>os.exit(status|true|false [,close])</tt>.</li>
-<li><tt>package.searchpath(name, path [, sep [, rep]])</tt>.</li>
-<li><tt>package.loadlib(name, "*")</tt>.</li>
-<li><tt>debug.getinfo()</tt> returns <tt>nparams</tt> and <tt>isvararg</tt>
-for option <tt>"u"</tt>.</li>
-<li><tt>debug.getlocal()</tt> accepts function instead of level.</li>
-<li><tt>debug.getlocal()</tt> and <tt>debug.setlocal()</tt> accept negative
-indexes for varargs.</li>
-<li><tt>debug.getupvalue()</tt> and <tt>debug.setupvalue()</tt> handle
-C&nbsp;functions.</li>
-<li><tt>debug.upvalueid()</tt> and <tt>debug.upvaluejoin()</tt>.</li>
-<li>Command line option <tt>-E</tt>.</li>
-<li>Command line checks <tt>__tostring</tt> for errors.</li>
-</ul>
-<p>
-Other features are only enabled, if LuaJIT is built with
-<tt>-DLUAJIT_ENABLE_LUA52COMPAT</tt>:
-</p>
-<ul>
-<li><tt>goto</tt> is a keyword and not a valid variable name anymore.</li>
-<li><tt>break</tt> can be placed anywhere. Empty statements (<tt>;;</tt>)
-are allowed.</li>
-<li><tt>__lt</tt>, <tt>__le</tt> are invoked for mixed types.</li>
-<li><tt>__len</tt> for tables. <tt>rawlen()</tt> library function.</li>
-<li><tt>pairs()</tt> and <tt>ipairs()</tt> check for <tt>__pairs</tt> and
-<tt>__ipairs</tt>.</li>
-<li><tt>coroutine.running()</tt> returns two results.</li>
-<li><tt>table.pack()</tt> and <tt>table.unpack()</tt>
-(same as <tt>unpack()</tt>).</li>
-<li><tt>io.write()</tt> and <tt>file:write()</tt> return file handle
-instead of <tt>true</tt>.</li>
-<li><tt>os.execute()</tt> and <tt>pipe:close()</tt> return detailed
-exit status.</li>
-<li><tt>debug.setmetatable()</tt> returns object.</li>
-<li><tt>debug.getuservalue()</tt> and <tt>debug.setuservalue()</tt>.</li>
-<li>Remove <tt>math.mod()</tt>, <tt>string.gfind()</tt>.
-</ul>
-<p>
-Note: this provides only partial compatibility with Lua 5.2 at the
-language and Lua library level. LuaJIT is API+ABI-compatible with
-Lua&nbsp;5.1, which prevents implementing features that would otherwise
-break the Lua/C API and ABI (e.g. <tt>_ENV</tt>).
-</p>
-
-<h2 id="exceptions">C++ Exception Interoperability</h2>
-<p>
-LuaJIT has built-in support for interoperating with C++&nbsp;exceptions.
-The available range of features depends on the target platform and
-the toolchain used to compile LuaJIT:
-</p>
-<table class="exc">
-<tr class="exchead">
-<td class="excplatform">Platform</td>
-<td class="exccompiler">Compiler</td>
-<td class="excinterop">Interoperability</td>
-</tr>
-<tr class="odd separate">
-<td class="excplatform">POSIX/x64, DWARF2 unwinding</td>
-<td class="exccompiler">GCC 4.3+</td>
-<td class="excinterop"><b style="color: #00a000;">Full</b></td>
-</tr>
-<tr class="even">
-<td class="excplatform">Other platforms, DWARF2 unwinding</td>
-<td class="exccompiler">GCC</td>
-<td class="excinterop"><b style="color: #c06000;">Limited</b></td>
-</tr>
-<tr class="odd">
-<td class="excplatform">Windows/x64</td>
-<td class="exccompiler">MSVC or WinSDK</td>
-<td class="excinterop"><b style="color: #00a000;">Full</b></td>
-</tr>
-<tr class="even">
-<td class="excplatform">Windows/x86</td>
-<td class="exccompiler">Any</td>
-<td class="excinterop"><b style="color: #a00000;">No</b></td>
-</tr>
-<tr class="odd">
-<td class="excplatform">Other platforms</td>
-<td class="exccompiler">Other compilers</td>
-<td class="excinterop"><b style="color: #a00000;">No</b></td>
-</tr>
-</table>
-<p>
-<b style="color: #00a000;">Full interoperability</b> means:
-</p>
-<ul>
-<li>C++&nbsp;exceptions can be caught on the Lua side with <tt>pcall()</tt>,
-<tt>lua_pcall()</tt> etc.</li>
-<li>C++&nbsp;exceptions will be converted to the generic Lua error
-<tt>"C++&nbsp;exception"</tt>, unless you use the
-<a href="ext_c_api.html#mode_wrapcfunc">C&nbsp;call wrapper</a> feature.</li>
-<li>It's safe to throw C++&nbsp;exceptions across non-protected Lua frames
-on the C&nbsp;stack. The contents of the C++&nbsp;exception object
-pass through unmodified.</li>
-<li>Lua errors can be caught on the C++ side with <tt>catch(...)</tt>.
-The corresponding Lua error message can be retrieved from the Lua stack.</li>
-<li>Throwing Lua errors across C++ frames is safe. C++ destructors
-will be called.</li>
-</ul>
-<p>
-<b style="color: #c06000;">Limited interoperability</b> means:
-</p>
-<ul>
-<li>C++&nbsp;exceptions can be caught on the Lua side with <tt>pcall()</tt>,
-<tt>lua_pcall()</tt> etc.</li>
-<li>C++&nbsp;exceptions will be converted to the generic Lua error
-<tt>"C++&nbsp;exception"</tt>, unless you use the
-<a href="ext_c_api.html#mode_wrapcfunc">C&nbsp;call wrapper</a> feature.</li>
-<li>C++&nbsp;exceptions will be caught by non-protected Lua frames and
-are rethrown as a generic Lua error. The C++&nbsp;exception object will
-be destroyed.</li>
-<li>Lua errors <b>cannot</b> be caught on the C++ side.</li>
-<li>Throwing Lua errors across C++ frames will <b>not</b> call
-C++ destructors.</li>
-</ul>
-
-<p>
-<b style="color: #a00000;">No interoperability</b> means:
-</p>
-<ul>
-<li>It's <b>not</b> safe to throw C++&nbsp;exceptions across Lua frames.</li>
-<li>C++&nbsp;exceptions <b>cannot</b> be caught on the Lua side.</li>
-<li>Lua errors <b>cannot</b> be caught on the C++ side.</li>
-<li>Throwing Lua errors across C++ frames will <b>not</b> call
-C++ destructors.</li>
-<li>Additionally, on Windows/x86 with SEH-based C++&nbsp;exceptions:
-it's <b>not</b> safe to throw a Lua error across any frames containing
-a C++ function with any try/catch construct or using variables with
-(implicit) destructors. This also applies to any functions which may be
-inlined in such a function. It doesn't matter whether <tt>lua_error()</tt>
-is called inside or outside of a try/catch or whether any object actually
-needs to be destroyed: the SEH chain is corrupted and this will eventually
-lead to the termination of the process.</li>
-</ul>
-<br class="flush">
-</div>
-<div id="foot">
-<hr class="hide">
-Copyright &copy; 2005-2014 Mike Pall
-<span class="noprint">
-&middot;
-<a href="contact.html">Contact</a>
-</span>
-</div>
-</body>
-</html>
diff --git a/luajit-2.0/doc/faq.html b/luajit-2.0/doc/faq.html
deleted file mode 100644
index ffc2ae8..0000000
--- a/luajit-2.0/doc/faq.html
+++ /dev/null
@@ -1,184 +0,0 @@
-<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.01//EN" "http://www.w3.org/TR/html4/strict.dtd">
-<html>
-<head>
-<title>Frequently Asked Questions (FAQ)</title>
-<meta http-equiv="Content-Type" content="text/html; charset=iso-8859-1">
-<meta name="Author" content="Mike Pall">
-<meta name="Copyright" content="Copyright (C) 2005-2014, Mike Pall">
-<meta name="Language" content="en">
-<link rel="stylesheet" type="text/css" href="bluequad.css" media="screen">
-<link rel="stylesheet" type="text/css" href="bluequad-print.css" media="print">
-<style type="text/css">
-dd { margin-left: 1.5em; }
-</style>
-</head>
-<body>
-<div id="site">
-<a href="http://luajit.org"><span>Lua<span id="logo">JIT</span></span></a>
-</div>
-<div id="head">
-<h1>Frequently Asked Questions (FAQ)</h1>
-</div>
-<div id="nav">
-<ul><li>
-<a href="luajit.html">LuaJIT</a>
-<ul><li>
-<a href="http://luajit.org/download.html">Download <span class="ext">&raquo;</span></a>
-</li><li>
-<a href="install.html">Installation</a>
-</li><li>
-<a href="running.html">Running</a>
-</li></ul>
-</li><li>
-<a href="extensions.html">Extensions</a>
-<ul><li>
-<a href="ext_ffi.html">FFI Library</a>
-<ul><li>
-<a href="ext_ffi_tutorial.html">FFI Tutorial</a>
-</li><li>
-<a href="ext_ffi_api.html">ffi.* API</a>
-</li><li>
-<a href="ext_ffi_semantics.html">FFI Semantics</a>
-</li></ul>
-</li><li>
-<a href="ext_jit.html">jit.* Library</a>
-</li><li>
-<a href="ext_c_api.html">Lua/C API</a>
-</li></ul>
-</li><li>
-<a href="status.html">Status</a>
-<ul><li>
-<a href="changes.html">Changes</a>
-</li></ul>
-</li><li>
-<a class="current" href="faq.html">FAQ</a>
-</li><li>
-<a href="http://luajit.org/performance.html">Performance <span class="ext">&raquo;</span></a>
-</li><li>
-<a href="http://wiki.luajit.org/">Wiki <span class="ext">&raquo;</span></a>
-</li><li>
-<a href="http://luajit.org/list.html">Mailing List <span class="ext">&raquo;</span></a>
-</li></ul>
-</div>
-<div id="main">
-<dl>
-<dt>Q: Where can I learn more about LuaJIT and Lua?</dt>
-<dd>
-<ul style="padding: 0;">
-<li>The <a href="http://luajit.org/list.html"><span class="ext">&raquo;</span>&nbsp;LuaJIT mailing list</a> focuses on topics
-related to LuaJIT.</li>
-<li>The <a href="http://wiki.luajit.org/"><span class="ext">&raquo;</span>&nbsp;LuaJIT wiki</a> gathers community
-resources about LuaJIT.</li>
-<li>News about Lua itself can be found at the
-<a href="http://www.lua.org/lua-l.html"><span class="ext">&raquo;</span>&nbsp;Lua mailing list</a>.
-The mailing list archives are worth checking out for older postings
-about LuaJIT.</li>
-<li>The <a href="http://lua.org"><span class="ext">&raquo;</span>&nbsp;main Lua.org site</a> has complete
-<a href="http://www.lua.org/docs.html"><span class="ext">&raquo;</span>&nbsp;documentation</a> of the language
-and links to books and papers about Lua.</li>
-<li>The community-managed <a href="http://lua-users.org/wiki/"><span class="ext">&raquo;</span>&nbsp;Lua Wiki</a>
-has information about diverse topics.</li>
-</ul>
-</dl>
-
-<dl>
-<dt>Q: Where can I learn more about the compiler technology used by LuaJIT?</dt>
-<dd>
-I'm planning to write more documentation about the internals of LuaJIT.
-In the meantime, please use the following Google Scholar searches
-to find relevant papers:<br>
-Search for: <a href="http://scholar.google.com/scholar?q=Trace+Compiler"><span class="ext">&raquo;</span>&nbsp;Trace Compiler</a><br>
-Search for: <a href="http://scholar.google.com/scholar?q=JIT+Compiler"><span class="ext">&raquo;</span>&nbsp;JIT Compiler</a><br>
-Search for: <a href="http://scholar.google.com/scholar?q=Dynamic+Language+Optimizations"><span class="ext">&raquo;</span>&nbsp;Dynamic Language Optimizations</a><br>
-Search for: <a href="http://scholar.google.com/scholar?q=SSA+Form"><span class="ext">&raquo;</span>&nbsp;SSA Form</a><br>
-Search for: <a href="http://scholar.google.com/scholar?q=Linear+Scan+Register+Allocation"><span class="ext">&raquo;</span>&nbsp;Linear Scan Register Allocation</a><br>
-Here is a list of the <a href="http://article.gmane.org/gmane.comp.lang.lua.general/58908"><span class="ext">&raquo;</span>&nbsp;innovative features in LuaJIT</a>.<br>
-And, you know, reading the source is of course the only way to enlightenment. :-)
-</dd>
-</dl>
-
-<dl>
-<dt>Q: Why do I get this error: "attempt to index global 'arg' (a nil value)"?<br>
-Q: My vararg functions fail after switching to LuaJIT!</dt>
-<dd>LuaJIT is compatible to the Lua 5.1 language standard. It doesn't
-support the implicit <tt>arg</tt> parameter for old-style vararg
-functions from Lua 5.0.<br>Please convert your code to the
-<a href="http://www.lua.org/manual/5.1/manual.html#2.5.9"><span class="ext">&raquo;</span>&nbsp;Lua 5.1
-vararg syntax</a>.</dd>
-</dl>
-
-<dl>
-<dt>Q: Why do I get this error: "bad FPU precision"?<br>
-<dt>Q: I get weird behavior after initializing Direct3D.<br>
-<dt>Q: Some FPU operations crash after I load a Delphi DLL.<br>
-</dt>
-<dd>
-
-DirectX/Direct3D (up to version 9) sets the x87 FPU to single-precision
-mode by default. This violates the Windows ABI and interferes with the
-operation of many programs &mdash; LuaJIT is affected, too. Please make
-sure you always use the <tt>D3DCREATE_FPU_PRESERVE</tt> flag when
-initializing Direct3D.<br>
-
-Direct3D version 10 or higher do not show this behavior anymore.
-Consider testing your application with older versions, too.<br>
-
-Similarly, the Borland/Delphi runtime modifies the FPU control word and
-enables FP exceptions. Of course this violates the Windows ABI, too.
-Please check the Delphi docs for the Set8087CW method.
-
-</dl>
-
-<dl>
-<dt>Q: Sometimes Ctrl-C fails to stop my Lua program. Why?</dt>
-<dd>The interrupt signal handler sets a Lua debug hook. But this is
-currently ignored by compiled code (this will eventually be fixed). If
-your program is running in a tight loop and never falls back to the
-interpreter, the debug hook never runs and can't throw the
-"interrupted!" error.<br> In the meantime you have to press Ctrl-C
-twice to get stop your program. That's similar to when it's stuck
-running inside a C function under the Lua interpreter.</dd>
-</dl>
-
-<dl>
-<dt>Q: Why doesn't my favorite power-patch for Lua apply against LuaJIT?</dt>
-<dd>Because it's a completely redesigned VM and has very little code
-in common with Lua anymore. Also, if the patch introduces changes to
-the Lua semantics, these would need to be reflected everywhere in the
-VM, from the interpreter up to all stages of the compiler.<br> Please
-use only standard Lua language constructs. For many common needs you
-can use source transformations or use wrapper or proxy functions.
-The compiler will happily optimize away such indirections.</dd>
-</dl>
-
-<dl>
-<dt>Q: Lua runs everywhere. Why doesn't LuaJIT support my CPU?</dt>
-<dd>Because it's a compiler &mdash; it needs to generate native
-machine code. This means the code generator must be ported to each
-architecture. And the fast interpreter is written in assembler and
-must be ported, too. This is quite an undertaking.<br>
-The <a href="install.html">install documentation</a> shows the supported
-architectures. Other architectures will follow based on sufficient user
-demand and/or sponsoring.</dd>
-</dl>
-
-<dl>
-<dt>Q: When will feature X be added? When will the next version be released?</dt>
-<dd>When it's ready.<br>
-C'mon, it's open source &mdash; I'm doing it on my own time and you're
-getting it for free. You can either contribute a patch or sponsor
-the development of certain features, if they are important to you.
-</dd>
-</dl>
-<br class="flush">
-</div>
-<div id="foot">
-<hr class="hide">
-Copyright &copy; 2005-2014 Mike Pall
-<span class="noprint">
-&middot;
-<a href="contact.html">Contact</a>
-</span>
-</div>
-</body>
-</html>
diff --git a/luajit-2.0/doc/img/contact.png b/luajit-2.0/doc/img/contact.png
deleted file mode 100644
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@@ -1,646 +0,0 @@
-<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.01//EN" "http://www.w3.org/TR/html4/strict.dtd">
-<html>
-<head>
-<title>Installation</title>
-<meta http-equiv="Content-Type" content="text/html; charset=iso-8859-1">
-<meta name="Author" content="Mike Pall">
-<meta name="Copyright" content="Copyright (C) 2005-2014, Mike Pall">
-<meta name="Language" content="en">
-<link rel="stylesheet" type="text/css" href="bluequad.css" media="screen">
-<link rel="stylesheet" type="text/css" href="bluequad-print.css" media="print">
-<style type="text/css">
-table.compat {
-  line-height: 1.2;
-  font-size: 80%;
-}
-table.compat td {
-  border: 1px solid #bfcfff;
-  height: 2.5em;
-}
-table.compat tr.compathead td {
-  font-weight: bold;
-  border-bottom: 2px solid #bfcfff;
-}
-tr.compathead td.compatos {
-  vertical-align: top;
-}
-table.compat td.compatcpu {
-  width: 18%;
-  border-right: 2px solid #bfcfff;
-}
-td.compatos {
-  width: 21%;
-  vertical-align: middle;
-}
-td.compatno {
-  background-color: #d0d0d0;
-}
-</style>
-</head>
-<body>
-<div id="site">
-<a href="http://luajit.org"><span>Lua<span id="logo">JIT</span></span></a>
-</div>
-<div id="head">
-<h1>Installation</h1>
-</div>
-<div id="nav">
-<ul><li>
-<a href="luajit.html">LuaJIT</a>
-<ul><li>
-<a href="http://luajit.org/download.html">Download <span class="ext">&raquo;</span></a>
-</li><li>
-<a class="current" href="install.html">Installation</a>
-</li><li>
-<a href="running.html">Running</a>
-</li></ul>
-</li><li>
-<a href="extensions.html">Extensions</a>
-<ul><li>
-<a href="ext_ffi.html">FFI Library</a>
-<ul><li>
-<a href="ext_ffi_tutorial.html">FFI Tutorial</a>
-</li><li>
-<a href="ext_ffi_api.html">ffi.* API</a>
-</li><li>
-<a href="ext_ffi_semantics.html">FFI Semantics</a>
-</li></ul>
-</li><li>
-<a href="ext_jit.html">jit.* Library</a>
-</li><li>
-<a href="ext_c_api.html">Lua/C API</a>
-</li></ul>
-</li><li>
-<a href="status.html">Status</a>
-<ul><li>
-<a href="changes.html">Changes</a>
-</li></ul>
-</li><li>
-<a href="faq.html">FAQ</a>
-</li><li>
-<a href="http://luajit.org/performance.html">Performance <span class="ext">&raquo;</span></a>
-</li><li>
-<a href="http://wiki.luajit.org/">Wiki <span class="ext">&raquo;</span></a>
-</li><li>
-<a href="http://luajit.org/list.html">Mailing List <span class="ext">&raquo;</span></a>
-</li></ul>
-</div>
-<div id="main">
-<p>
-LuaJIT is only distributed as a source package. This page explains
-how to build and install LuaJIT with different operating systems
-and C&nbsp;compilers.
-</p>
-<p>
-For the impatient (on POSIX systems):
-</p>
-<pre class="code">
-make &amp;&amp; sudo make install
-</pre>
-<p>
-LuaJIT currently builds out-of-the box on most systems.
-Here's the compatibility matrix for the supported combinations of
-operating systems, CPUs and compilers:
-</p>
-<table class="compat">
-<tr class="compathead">
-<td class="compatcpu">CPU / OS</td>
-<td class="compatos"><a href="#posix">Linux</a> or<br><a href="#android">Android</a></td>
-<td class="compatos"><a href="#posix">*BSD, Other</a></td>
-<td class="compatos"><a href="#posix">OSX 10.4+</a> or<br><a href="#ios">iOS 3.0+</a></td>
-<td class="compatos"><a href="#windows">Windows<br>XP/Vista/7</a></td>
-</tr>
-<tr class="odd separate">
-<td class="compatcpu">x86 (32 bit)</td>
-<td class="compatos">GCC 4.x<br>GCC 3.4</td>
-<td class="compatos">GCC 4.x<br>GCC 3.4</td>
-<td class="compatos">GCC 4.x<br>GCC 3.4</td>
-<td class="compatos">MSVC, MSVC/EE<br>WinSDK<br>MinGW, Cygwin</td>
-</tr>
-<tr class="even">
-<td class="compatcpu">x64 (64 bit)</td>
-<td class="compatos">GCC 4.x</td>
-<td class="compatos">ORBIS (<a href="#ps4">PS4</a>)</td>
-<td class="compatos">GCC 4.x</td>
-<td class="compatos">MSVC + SDK v7.0<br>WinSDK v7.0</td>
-</tr>
-<tr class="odd">
-<td class="compatcpu"><a href="#cross2">ARMv5+<br>ARM9E+</a></td>
-<td class="compatos">GCC 4.2+</td>
-<td class="compatos">GCC 4.2+<br>PSP2 (<a href="#psvita">PS VITA</a>)</td>
-<td class="compatos">GCC 4.2+</td>
-<td class="compatos compatno">&nbsp;</td>
-</tr>
-<tr class="even">
-<td class="compatcpu"><a href="#cross2">PPC</a></td>
-<td class="compatos">GCC 4.3+</td>
-<td class="compatos">GCC 4.3+<br>GCC 4.1 (<a href="#ps3">PS3</a>)</td>
-<td class="compatos compatno">&nbsp;</td>
-<td class="compatos">XEDK (<a href="#xbox360">Xbox 360</a>)</td>
-</tr>
-<tr class="odd">
-<td class="compatcpu"><a href="#cross2">PPC/e500v2</a></td>
-<td class="compatos">GCC 4.3+</td>
-<td class="compatos">GCC 4.3+</td>
-<td class="compatos compatno">&nbsp;</td>
-<td class="compatos compatno">&nbsp;</td>
-</tr>
-<tr class="even">
-<td class="compatcpu"><a href="#cross2">MIPS</a></td>
-<td class="compatos">GCC 4.3+</td>
-<td class="compatos">GCC 4.3+</td>
-<td class="compatos compatno">&nbsp;</td>
-<td class="compatos compatno">&nbsp;</td>
-</tr>
-</table>
-
-<h2>Configuring LuaJIT</h2>
-<p>
-The standard configuration should work fine for most installations.
-Usually there is no need to tweak the settings. The following files
-hold all user-configurable settings:
-</p>
-<ul>
-<li><tt>src/luaconf.h</tt> sets some configuration variables.</li>
-<li><tt>Makefile</tt> has settings for <b>installing</b> LuaJIT (POSIX
-only).</li>
-<li><tt>src/Makefile</tt> has settings for <b>compiling</b> LuaJIT
-under POSIX, MinGW or Cygwin.</li>
-<li><tt>src/msvcbuild.bat</tt> has settings for compiling LuaJIT with
-MSVC or WinSDK.</li>
-</ul>
-<p>
-Please read the instructions given in these files, before changing
-any settings.
-</p>
-
-<h2 id="posix">POSIX Systems (Linux, OSX, *BSD etc.)</h2>
-<h3>Prerequisites</h3>
-<p>
-Depending on your distribution, you may need to install a package for
-GCC, the development headers and/or a complete SDK. E.g. on a current
-Debian/Ubuntu, install <tt>libc6-dev</tt> with the package manager.
-</p>
-<p>
-Download the current source package of LuaJIT (pick the .tar.gz),
-if you haven't already done so. Move it to a directory of your choice,
-open a terminal window and change to this directory. Now unpack the archive
-and change to the newly created directory:
-</p>
-<pre class="code">
-tar zxf LuaJIT-2.0.3.tar.gz
-cd LuaJIT-2.0.3</pre>
-<h3>Building LuaJIT</h3>
-<p>
-The supplied Makefiles try to auto-detect the settings needed for your
-operating system and your compiler. They need to be run with GNU Make,
-which is probably the default on your system, anyway. Simply run:
-</p>
-<pre class="code">
-make
-</pre>
-<p>
-This always builds a native x86, x64 or PPC binary, depending on the host OS
-you're running this command on. Check the section on
-<a href="#cross">cross-compilation</a> for more options.
-</p>
-<p>
-By default, modules are only searched under the prefix <tt>/usr/local</tt>.
-You can add an extra prefix to the search paths by appending the
-<tt>PREFIX</tt> option, e.g.:
-</p>
-<pre class="code">
-make PREFIX=/home/myself/lj2
-</pre>
-<p>
-Note for OSX: if the <tt>MACOSX_DEPLOYMENT_TARGET</tt> environment
-variable is not set, then it's forced to <tt>10.4</tt>.
-</p>
-<h3>Installing LuaJIT</h3>
-<p>
-The top-level Makefile installs LuaJIT by default under
-<tt>/usr/local</tt>, i.e. the executable ends up in
-<tt>/usr/local/bin</tt> and so on. You need root privileges
-to write to this path. So, assuming sudo is installed on your system,
-run the following command and enter your sudo password:
-</p>
-<pre class="code">
-sudo make install
-</pre>
-<p>
-Otherwise specify the directory prefix as an absolute path, e.g.:
-</p>
-<pre class="code">
-make install PREFIX=/home/myself/lj2
-</pre>
-<p>
-Obviously the prefixes given during build and installation need to be the same.
-</p>
-
-<h2 id="windows">Windows Systems</h2>
-<h3>Prerequisites</h3>
-<p>
-Either install one of the open source SDKs
-(<a href="http://mingw.org/"><span class="ext">&raquo;</span>&nbsp;MinGW</a> or
-<a href="http://www.cygwin.com/"><span class="ext">&raquo;</span>&nbsp;Cygwin</a>), which come with a modified
-GCC plus the required development headers.
-</p>
-<p>
-Or install Microsoft's Visual C++ (MSVC). The freely downloadable
-<a href="http://www.microsoft.com/Express/VC/"><span class="ext">&raquo;</span>&nbsp;Express Edition</a>
-works just fine, but only contains an x86 compiler.
-</p>
-<p>
-The freely downloadable
-<a href="http://msdn.microsoft.com/en-us/windowsserver/bb980924.aspx"><span class="ext">&raquo;</span>&nbsp;Windows SDK</a>
-only comes with command line tools, but this is all you need to build LuaJIT.
-It contains x86 and x64 compilers.
-</p>
-<p>
-Next, download the source package and unpack it using an archive manager
-(e.g. the Windows Explorer) to a directory of your choice.
-</p>
-<h3>Building with MSVC</h3>
-<p>
-Open a "Visual Studio .NET Command Prompt", <tt>cd</tt> to the
-directory where you've unpacked the sources and run these commands:
-</p>
-<pre class="code">
-cd src
-msvcbuild
-</pre>
-<p>
-Then follow the installation instructions below.
-</p>
-<h3>Building with the Windows SDK</h3>
-<p>
-Open a "Windows SDK Command Shell" and select the x86 compiler:
-</p>
-<pre class="code">
-setenv /release /x86
-</pre>
-<p>
-Or select the x64 compiler:
-</p>
-<pre class="code">
-setenv /release /x64
-</pre>
-<p>
-Then <tt>cd</tt> to the directory where you've unpacked the sources
-and run these commands:
-</p>
-<pre class="code">
-cd src
-msvcbuild
-</pre>
-<p>
-Then follow the installation instructions below.
-</p>
-<h3>Building with MinGW or Cygwin</h3>
-<p>
-Open a command prompt window and make sure the MinGW or Cygwin programs
-are in your path. Then <tt>cd</tt> to the directory where
-you've unpacked the sources and run this command for MinGW:
-</p>
-<pre class="code">
-mingw32-make
-</pre>
-<p>
-Or this command for Cygwin:
-</p>
-<pre class="code">
-make
-</pre>
-<p>
-Then follow the installation instructions below.
-</p>
-<h3>Installing LuaJIT</h3>
-<p>
-Copy <tt>luajit.exe</tt> and <tt>lua51.dll</tt> (built in the <tt>src</tt>
-directory) to a newly created directory (any location is ok).
-Add <tt>lua</tt> and <tt>lua\jit</tt> directories below it and copy
-all Lua files from the <tt>src\jit</tt> directory of the distribution
-to the latter directory.
-</p>
-<p>
-There are no hardcoded
-absolute path names &mdash; all modules are loaded relative to the
-directory where <tt>luajit.exe</tt> is installed
-(see <tt>src/luaconf.h</tt>).
-</p>
-
-<h2 id="cross">Cross-compiling LuaJIT</h2>
-<p>
-The GNU Makefile-based build system allows cross-compiling on any host
-for any supported target, as long as both architectures have the same
-pointer size. If you want to cross-compile to any 32 bit target on an
-x64 OS, you need to install the multilib development package (e.g.
-<tt>libc6-dev-i386</tt> on Debian/Ubuntu) and build a 32 bit host part
-(<tt>HOST_CC="gcc -m32"</tt>).
-</p>
-<p>
-You need to specify <tt>TARGET_SYS</tt> whenever the host OS and the
-target OS differ, or you'll get assembler or linker errors. E.g. if
-you're compiling on a Windows or OSX host for embedded Linux or Android,
-you need to add <tt>TARGET_SYS=Linux</tt> to the examples below. For a
-minimal target OS, you may need to disable the built-in allocator in
-<tt>src/Makefile</tt> and use <tt>TARGET_SYS=Other</tt>. The examples
-below only show some popular targets &mdash; please check the comments
-in <tt>src/Makefile</tt> for more details.
-</p>
-<pre class="code">
-# Cross-compile to a 32 bit binary on a multilib x64 OS
-make CC="gcc -m32"
-
-# Cross-compile on Debian/Ubuntu for Windows (mingw32 package)
-make HOST_CC="gcc -m32" CROSS=i586-mingw32msvc- TARGET_SYS=Windows
-</pre>
-<p id="cross2">
-The <tt>CROSS</tt> prefix allows specifying a standard GNU cross-compile
-toolchain (Binutils, GCC and a matching libc). The prefix may vary
-depending on the <tt>--target</tt> the toolchain was built for (note the
-<tt>CROSS</tt> prefix has a trailing <tt>"-"</tt>). The examples below
-use the canonical toolchain triplets for Linux.
-</p>
-<p>
-Since there's often no easy way to detect CPU features at runtime, it's
-important to compile with the proper CPU or architecture settings. You
-can specify these when building the toolchain yourself. Or add
-<tt>-mcpu=...</tt> or <tt>-march=...</tt> to <tt>TARGET_CFLAGS</tt>. For
-ARM it's important to have the correct <tt>-mfloat-abi=...</tt> setting,
-too. Otherwise LuaJIT may not run at the full performance of your target
-CPU.
-</p>
-<pre class="code">
-# ARM soft-float
-make HOST_CC="gcc -m32" CROSS=arm-linux-gnueabi- \
-     TARGET_CFLAGS="-mfloat-abi=soft"
-
-# ARM soft-float ABI with VFP (example for Cortex-A8)
-make HOST_CC="gcc -m32" CROSS=arm-linux-gnueabi- \
-     TARGET_CFLAGS="-mcpu=cortex-a8 -mfloat-abi=softfp"
-
-# ARM hard-float ABI with VFP (armhf, requires recent toolchain)
-make HOST_CC="gcc -m32" CROSS=arm-linux-gnueabihf-
-
-# PPC
-make HOST_CC="gcc -m32" CROSS=powerpc-linux-gnu-
-# PPC/e500v2 (fast interpreter only)
-make HOST_CC="gcc -m32" CROSS=powerpc-e500v2-linux-gnuspe-
-
-# MIPS big-endian
-make HOST_CC="gcc -m32" CROSS=mips-linux-
-# MIPS little-endian
-make HOST_CC="gcc -m32" CROSS=mipsel-linux-
-</pre>
-<p>
-You can cross-compile for <b id="android">Android</b> using the <a href="http://developer.android.com/sdk/ndk/index.html"><span class="ext">&raquo;</span>&nbsp;Android NDK</a>.
-The environment variables need to match the install locations and the
-desired target platform. E.g. Android&nbsp;4.0 corresponds to ABI level&nbsp;14.
-For details check the folder <tt>docs</tt> in the NDK directory.
-</p>
-<p>
-Only a few common variations for the different CPUs, ABIs and platforms
-are listed. Please use your own judgement for which combination you want
-to build/deploy or which lowest common denominator you want to pick:
-</p>
-<pre class="code">
-# Android/ARM, armeabi (ARMv5TE soft-float), Android 2.2+ (Froyo)
-NDK=/opt/android/ndk
-NDKABI=8
-NDKVER=$NDK/toolchains/arm-linux-androideabi-4.6
-NDKP=$NDKVER/prebuilt/linux-x86/bin/arm-linux-androideabi-
-NDKF="--sysroot $NDK/platforms/android-$NDKABI/arch-arm"
-make HOST_CC="gcc -m32" CROSS=$NDKP TARGET_FLAGS="$NDKF"
-
-# Android/ARM, armeabi-v7a (ARMv7 VFP), Android 4.0+ (ICS)
-NDK=/opt/android/ndk
-NDKABI=14
-NDKVER=$NDK/toolchains/arm-linux-androideabi-4.6
-NDKP=$NDKVER/prebuilt/linux-x86/bin/arm-linux-androideabi-
-NDKF="--sysroot $NDK/platforms/android-$NDKABI/arch-arm"
-NDKARCH="-march=armv7-a -mfloat-abi=softfp -Wl,--fix-cortex-a8"
-make HOST_CC="gcc -m32" CROSS=$NDKP TARGET_FLAGS="$NDKF $NDKARCH"
-
-# Android/MIPS, mips (MIPS32R1 hard-float), Android 4.0+ (ICS)
-NDK=/opt/android/ndk
-NDKABI=14
-NDKVER=$NDK/toolchains/mipsel-linux-android-4.6
-NDKP=$NDKVER/prebuilt/linux-x86/bin/mipsel-linux-android-
-NDKF="--sysroot $NDK/platforms/android-$NDKABI/arch-mips"
-make HOST_CC="gcc -m32" CROSS=$NDKP TARGET_FLAGS="$NDKF"
-
-# Android/x86, x86 (i686 SSE3), Android 4.0+ (ICS)
-NDK=/opt/android/ndk
-NDKABI=14
-NDKVER=$NDK/toolchains/x86-4.6
-NDKP=$NDKVER/prebuilt/linux-x86/bin/i686-linux-android-
-NDKF="--sysroot $NDK/platforms/android-$NDKABI/arch-x86"
-make HOST_CC="gcc -m32" CROSS=$NDKP TARGET_FLAGS="$NDKF"
-</pre>
-<p>
-You can cross-compile for <b id="ios">iOS 3.0+</b> (iPhone/iPad) using the <a href="http://developer.apple.com/devcenter/ios/index.action"><span class="ext">&raquo;</span>&nbsp;iOS SDK</a>.
-The environment variables need to match the iOS SDK version:
-</p>
-<p style="font-size: 8pt;">
-Note: <b>the JIT compiler is disabled for iOS</b>, because regular iOS Apps
-are not allowed to generate code at runtime. You'll only get the performance
-of the LuaJIT interpreter on iOS. This is still faster than plain Lua, but
-much slower than the JIT compiler. Please complain to Apple, not me.
-Or use Android. :-p
-</p>
-<pre class="code">
-IXCODE=`xcode-select -print-path`
-ISDK=$IXCODE/Platforms/iPhoneOS.platform/Developer
-ISDKVER=iPhoneOS6.0.sdk
-ISDKP=$ISDK/usr/bin/
-ISDKF="-arch armv7 -isysroot $ISDK/SDKs/$ISDKVER"
-make HOST_CC="gcc -m32 -arch i386" CROSS=$ISDKP TARGET_FLAGS="$ISDKF" \
-     TARGET_SYS=iOS
-</pre>
-
-<h3 id="consoles">Cross-compiling for consoles</h3>
-<p>
-Building LuaJIT for consoles requires both a supported host compiler
-(x86 or x64) and a cross-compiler (to PPC or ARM) from the official
-console SDK.
-</p>
-<p>
-Due to restrictions on consoles, the JIT compiler is disabled and only
-the fast interpreter is built. This is still faster than plain Lua,
-but much slower than the JIT compiler. The FFI is disabled, too, since
-it's not very useful in such an environment.
-</p>
-<p>
-The following commands build a static library <tt>libluajit.a</tt>,
-which can be linked against your game, just like the Lua library.
-</p>
-<p>
-To cross-compile for <b id="ps3">PS3</b> from a Linux host (requires
-32&nbsp;bit GCC, i.e. multilib Linux/x64) or a Windows host (requires
-32&nbsp;bit MinGW), run this command:
-</p>
-<pre class="code">
-make HOST_CC="gcc -m32" CROSS=ppu-lv2-
-</pre>
-<p>
-To cross-compile for <b id="ps4">PS4</b> from a Windows host,
-open a "Visual Studio .NET Command Prompt" (64&nbsp;bit host compiler),
-<tt>cd</tt> to the directory where you've unpacked the sources and
-run the following commands:
-</p>
-<pre class="code">
-cd src
-ps4build
-</pre>
-<p>
-To cross-compile for <b id="psvita">PS Vita</b> from a Windows host,
-open a "Visual Studio .NET Command Prompt" (32&nbsp;bit host compiler),
-<tt>cd</tt> to the directory where you've unpacked the sources and
-run the following commands:
-</p>
-<pre class="code">
-cd src
-psvitabuild
-</pre>
-<p>
-To cross-compile for <b id="xbox360">Xbox 360</b> from a Windows host,
-open a "Visual Studio .NET Command Prompt" (32&nbsp;bit host compiler),
-<tt>cd</tt> to the directory where you've unpacked the sources and run
-the following commands:
-</p>
-<pre class="code">
-cd src
-xedkbuild
-</pre>
-
-<h2 id="embed">Embedding LuaJIT</h2>
-<p>
-LuaJIT is API-compatible with Lua 5.1. If you've already embedded Lua
-into your application, you probably don't need to do anything to switch
-to LuaJIT, except link with a different library:
-</p>
-<ul>
-<li>It's strongly suggested to build LuaJIT separately using the supplied
-build system. Please do <em>not</em> attempt to integrate the individual
-source files into your build tree. You'll most likely get the internal build
-dependencies wrong or mess up the compiler flags. Treat LuaJIT like any
-other external library and link your application with either the dynamic
-or static library, depending on your needs.</li>
-<li>If you want to load C modules compiled for plain Lua
-with <tt>require()</tt>, you need to make sure the public symbols
-(e.g. <tt>lua_pushnumber</tt>) are exported, too:
-<ul><li>On POSIX systems you can either link to the shared library
-or link the static library into your application. In the latter case
-you'll need to export all public symbols from your main executable
-(e.g. <tt>-Wl,-E</tt> on Linux) and add the external dependencies
-(e.g. <tt>-lm -ldl</tt> on Linux).</li>
-<li>Since Windows symbols are bound to a specific DLL name, you need to
-link to the <tt>lua51.dll</tt> created by the LuaJIT build (do not rename
-the DLL). You may link LuaJIT statically on Windows only if you don't
-intend to load Lua/C modules at runtime.
-</li></ul>
-</li>
-<li>
-If you're building a 64 bit application on OSX which links directly or
-indirectly against LuaJIT, you need to link your main executable
-with these flags:
-<pre class="code">
--pagezero_size 10000 -image_base 100000000
-</pre>
-Also, it's recommended to <tt>rebase</tt> all (self-compiled) shared libraries
-which are loaded at runtime on OSX/x64 (e.g. C extension modules for Lua).
-See: <tt>man rebase</tt>
-</li>
-</ul>
-<p>Additional hints for initializing LuaJIT using the C API functions:</p>
-<ul>
-<li>Here's a
-<a href="http://lua-users.org/wiki/SimpleLuaApiExample"><span class="ext">&raquo;</span>&nbsp;simple example</a>
-for embedding Lua or LuaJIT into your application.</li>
-<li>Make sure you use <tt>luaL_newstate</tt>. Avoid using
-<tt>lua_newstate</tt>, since this uses the (slower) default memory
-allocator from your system (no support for this on x64).</li>
-<li>Make sure you use <tt>luaL_openlibs</tt> and not the old Lua 5.0 style
-of calling <tt>luaopen_base</tt> etc. directly.</li>
-<li>To change or extend the list of standard libraries to load, copy
-<tt>src/lib_init.c</tt> to your project and modify it accordingly.
-Make sure the <tt>jit</tt> library is loaded or the JIT compiler
-will not be activated.</li>
-<li>The <tt>bit.*</tt> module for bitwise operations
-is already built-in. There's no need to statically link
-<a href="http://bitop.luajit.org/"><span class="ext">&raquo;</span>&nbsp;Lua BitOp</a> to your application.</li>
-</ul>
-
-<h2 id="distro">Hints for Distribution Maintainers</h2>
-<p>
-The LuaJIT build system has extra provisions for the needs of most
-POSIX-based distributions. If you're a package maintainer for
-a distribution, <em>please</em> make use of these features and
-avoid patching, subverting, autotoolizing or messing up the build system
-in unspeakable ways.
-</p>
-<p>
-There should be absolutely no need to patch <tt>luaconf.h</tt> or any
-of the Makefiles. And please do not hand-pick files for your packages &mdash;
-simply use whatever <tt>make install</tt> creates. There's a reason
-for all of the files <em>and</em> directories it creates.
-</p>
-<p>
-The build system uses GNU make and auto-detects most settings based on
-the host you're building it on. This should work fine for native builds,
-even when sandboxed. You may need to pass some of the following flags to
-<em>both</em> the <tt>make</tt> and the <tt>make install</tt> command lines
-for a regular distribution build:
-</p>
-<ul>
-<li><tt>PREFIX</tt> overrides the installation path and should usually
-be set to <tt>/usr</tt>. Setting this also changes the module paths and
-the paths needed to locate the shared library.</li>
-<li><tt>DESTDIR</tt> is an absolute path which allows you to install
-to a shadow tree instead of the root tree of the build system.</li>
-<li><tt>MULTILIB</tt> sets the architecture-specific library path component
-for multilib systems. The default is <tt>lib</tt>.</li>
-<li>Have a look at the top-level <tt>Makefile</tt> and <tt>src/Makefile</tt>
-for additional variables to tweak. The following variables <em>may</em> be
-overridden, but it's <em>not</em> recommended, except for special needs
-like cross-builds:
-<tt>BUILDMODE, CC, HOST_CC, STATIC_CC, DYNAMIC_CC, CFLAGS, HOST_CFLAGS,
-TARGET_CFLAGS, LDFLAGS, HOST_LDFLAGS, TARGET_LDFLAGS, TARGET_SHLDFLAGS,
-TARGET_FLAGS, LIBS, HOST_LIBS, TARGET_LIBS, CROSS, HOST_SYS, TARGET_SYS
-</tt></li>
-</ul>
-<p>
-The build system has a special target for an amalgamated build, i.e.
-<tt>make amalg</tt>. This compiles the LuaJIT core as one huge C file
-and allows GCC to generate faster and shorter code. Alas, this requires
-lots of memory during the build. This may be a problem for some users,
-that's why it's not enabled by default. But it shouldn't be a problem for
-most build farms. It's recommended that binary distributions use this
-target for their LuaJIT builds.
-</p>
-<p>
-The tl;dr version of the above:
-</p>
-<pre class="code">
-make amalg PREFIX=/usr && \
-make install PREFIX=/usr DESTDIR=/tmp/buildroot
-</pre>
-<p>
-Finally, if you encounter any difficulties, please
-<a href="contact.html">contact me</a> first, instead of releasing a broken
-package onto unsuspecting users. Because they'll usually gonna complain
-to me (the upstream) and not you (the package maintainer), anyway.
-</p>
-<br class="flush">
-</div>
-<div id="foot">
-<hr class="hide">
-Copyright &copy; 2005-2014 Mike Pall
-<span class="noprint">
-&middot;
-<a href="contact.html">Contact</a>
-</span>
-</div>
-</body>
-</html>
diff --git a/luajit-2.0/doc/luajit.html b/luajit-2.0/doc/luajit.html
deleted file mode 100644
index ddbc016..0000000
--- a/luajit-2.0/doc/luajit.html
+++ /dev/null
@@ -1,234 +0,0 @@
-<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.01//EN" "http://www.w3.org/TR/html4/strict.dtd">
-<html>
-<head>
-<title>LuaJIT</title>
-<meta http-equiv="Content-Type" content="text/html; charset=iso-8859-1">
-<meta name="Author" content="Mike Pall">
-<meta name="Copyright" content="Copyright (C) 2005-2014, Mike Pall">
-<meta name="Language" content="en">
-<link rel="stylesheet" type="text/css" href="bluequad.css" media="screen">
-<link rel="stylesheet" type="text/css" href="bluequad-print.css" media="print">
-<meta name="description" content="LuaJIT is a Just-In-Time (JIT) compiler for the Lua language.">
-<style type="text/css">
-table.feature {
-  width: inherit;
-  line-height: 1.2;
-  margin: 0;
-}
-table.feature td {
-  width: 80px;
-  height: 40px;
-  vertical-align: middle;
-  text-align: center;
-  font-weight: bold;
-  border: 4px solid #e6ecff;
-  border-radius: 12px;
-}
-table.os td {
-  background: #7080d0;
-  background-image: linear-gradient(#4060c0 10%, #b0b0ff 95%);
-  background-image: -moz-linear-gradient(#4060c0 10%, #b0b0ff 95%);
-  background-image: -webkit-linear-gradient(#4060c0 10%, #b0b0ff 95%);
-  background-image: -o-linear-gradient(#4060c0 10%, #b0b0ff 95%);
-  background-image: -ms-linear-gradient(#4060c0 10%, #b0b0ff 95%);
-}
-table.os1 td {
-  color: #ffff80;
-}
-table.os2 td {
-  color: #ffa040;
-}
-table.os3 td {
-  color: #40ffff;
-}
-table.compiler td {
-  color: #2080ff;
-  background: #62bf41;
-  background-image: linear-gradient(#62bf41 10%, #b0ffb0 95%);
-  background-image: -moz-linear-gradient(#62bf41 10%, #b0ffb0 95%);
-  background-image: -webkit-linear-gradient(#62bf41 10%, #b0ffb0 95%);
-  background-image: -o-linear-gradient(#62bf41 10%, #b0ffb0 95%);
-  background-image: -ms-linear-gradient(#62bf41 10%, #b0ffb0 95%);
-}
-table.cpu td {
-  color: #ffff00;
-  background: #cf7251;
-  background-image: linear-gradient(#bf6241 10%, #ffb0b0 95%);
-  background-image: -moz-linear-gradient(#bf6241 10%, #ffb0b0 95%);
-  background-image: -webkit-linear-gradient(#bf6241 10%, #ffb0b0 95%);
-  background-image: -o-linear-gradient(#bf6241 10%, #ffb0b0 95%);
-  background-image: -ms-linear-gradient(#bf6241 10%, #ffb0b0 95%);
-}
-table.fcompat td {
-  color: #2060e0;
-  background: #61cfcf;
-  background-image: linear-gradient(#41bfbf 10%, #b0ffff 95%);
-  background-image: -moz-linear-gradient(#41bfbf 10%, #b0ffff 95%);
-  background-image: -webkit-linear-gradient(#41bfbf 10%, #b0ffff 95%);
-  background-image: -o-linear-gradient(#41bfbf 10%, #b0ffff 95%);
-  background-image: -ms-linear-gradient(#41bfbf 10%, #b0ffff 95%);
-}
-table.stats td {
-  color: #ffffff;
-  background: #a0a0a0;
-  background-image: linear-gradient(#808080 10%, #d0d0d0 95%);
-  background-image: -moz-linear-gradient(#808080 10%, #d0d0d0 95%);
-  background-image: -webkit-linear-gradient(#808080 10%, #d0d0d0 95%);
-  background-image: -o-linear-gradient(#808080 10%, #d0d0d0 95%);
-  background-image: -ms-linear-gradient(#808080 10%, #d0d0d0 95%);
-}
-table.stats td.speed {
-  color: #ff4020;
-}
-table.stats td.kb {
-  color: #ffff80;
-  background: #808080;
-  background-image: linear-gradient(#606060 10%, #c0c0c0 95%);
-  background-image: -moz-linear-gradient(#606060 10%, #c0c0c0 95%);
-  background-image: -webkit-linear-gradient(#606060 10%, #c0c0c0 95%);
-  background-image: -o-linear-gradient(#606060 10%, #c0c0c0 95%);
-  background-image: -ms-linear-gradient(#606060 10%, #c0c0c0 95%);
-}
-table.feature small {
-  font-size: 50%;
-}
-</style>
-</head>
-<body>
-<div id="site">
-<a href="http://luajit.org"><span>Lua<span id="logo">JIT</span></span></a>
-</div>
-<div id="head">
-<h1>LuaJIT</h1>
-</div>
-<div id="nav">
-<ul><li>
-<a class="current" href="luajit.html">LuaJIT</a>
-<ul><li>
-<a href="http://luajit.org/download.html">Download <span class="ext">&raquo;</span></a>
-</li><li>
-<a href="install.html">Installation</a>
-</li><li>
-<a href="running.html">Running</a>
-</li></ul>
-</li><li>
-<a href="extensions.html">Extensions</a>
-<ul><li>
-<a href="ext_ffi.html">FFI Library</a>
-<ul><li>
-<a href="ext_ffi_tutorial.html">FFI Tutorial</a>
-</li><li>
-<a href="ext_ffi_api.html">ffi.* API</a>
-</li><li>
-<a href="ext_ffi_semantics.html">FFI Semantics</a>
-</li></ul>
-</li><li>
-<a href="ext_jit.html">jit.* Library</a>
-</li><li>
-<a href="ext_c_api.html">Lua/C API</a>
-</li></ul>
-</li><li>
-<a href="status.html">Status</a>
-<ul><li>
-<a href="changes.html">Changes</a>
-</li></ul>
-</li><li>
-<a href="faq.html">FAQ</a>
-</li><li>
-<a href="http://luajit.org/performance.html">Performance <span class="ext">&raquo;</span></a>
-</li><li>
-<a href="http://wiki.luajit.org/">Wiki <span class="ext">&raquo;</span></a>
-</li><li>
-<a href="http://luajit.org/list.html">Mailing List <span class="ext">&raquo;</span></a>
-</li></ul>
-</div>
-<div id="main">
-<p>
-LuaJIT is a <b>Just-In-Time Compiler</b> (JIT) for the
-<a href="http://www.lua.org/"><span class="ext">&raquo;</span>&nbsp;Lua</a> programming language.
-Lua is a powerful, dynamic and light-weight programming language.
-It may be embedded or used as a general-purpose, stand-alone language.
-</p>
-<p>
-LuaJIT is Copyright &copy; 2005-2014 Mike Pall, released under the
-<a href="http://www.opensource.org/licenses/mit-license.php"><span class="ext">&raquo;</span>&nbsp;MIT open source license</a>.
-</p>
-<p>
-</p>
-
-<h2>Compatibility</h2>
-<table class="feature os os1">
-<tr><td>Windows</td><td>Linux</td><td>BSD</td><td>OSX</td><td>POSIX</td></tr>
-</table>
-<table class="feature os os2">
-<tr><td><span style="font-size:90%;">Embedded</span></td><td>Android</td><td>iOS</td></tr>
-</table>
-<table class="feature os os3">
-<tr><td>PS3</td><td>PS4</td><td>PS Vita</td><td>Xbox 360</td></tr>
-</table>
-<table class="feature compiler">
-<tr><td>GCC</td><td>CLANG<br>LLVM</td><td>MSVC</td></tr>
-</table>
-<table class="feature cpu">
-<tr><td>x86</td><td>x64</td><td>ARM</td><td>PPC</td><td>e500</td><td>MIPS</td></tr>
-</table>
-<table class="feature fcompat">
-<tr><td>Lua&nbsp;5.1<br>API+ABI</td><td>+&nbsp;JIT</td><td>+&nbsp;BitOp</td><td>+&nbsp;FFI</td><td>Drop-in<br>DLL/.so</td></tr>
-</table>
-
-<h2>Overview</h2>
-<table class="feature stats">
-<tr>
-<td class="speed">3x<br>-&nbsp;&nbsp;100x</td>
-<td class="kb">115&nbsp;<small>KB</small><br>VM</td>
-<td class="kb">90&nbsp;<small>KB</small><br>JIT</td>
-<td class="kloc">63&nbsp;<small>KLOC</small><br>C</td>
-<td class="kloc">24&nbsp;<small>KLOC</small><br>ASM</td>
-<td class="kloc">11&nbsp;<small>KLOC</small><br>Lua</td>
-</tr>
-</table>
-<p style="margin-top: 1em;">
-LuaJIT has been successfully used as a <b>scripting middleware</b> in
-games, appliances, network and graphics apps, numerical simulations,
-trading platforms and many other specialty applications. It scales from
-embedded devices, smartphones, desktops up to server farms. It combines
-high flexibility with <a href="http://luajit.org/performance.html"><span class="ext">&raquo;</span>&nbsp;high performance</a>
-and an unmatched <b>low memory footprint</b>.
-</p>
-<p>
-LuaJIT has been in continuous development since 2005. It's widely
-considered to be <b>one of the fastest dynamic language
-implementations</b>. It has outperformed other dynamic languages on many
-cross-language benchmarks since its first release &mdash; often by a
-substantial margin.
-</p>
-<p>
-For <b>LuaJIT 2.0</b>, the whole VM has been rewritten from the ground up
-and relentlessly optimized for performance. It combines a <b>high-speed
-interpreter</b>, written in assembler, with a <b>state-of-the-art JIT
-compiler</b>.
-</p>
-<p>
-An innovative <b>trace compiler</b> is integrated with advanced,
-SSA-based optimizations and highly tuned code generation backends.
-A substantial reduction of the overhead associated with dynamic languages
-allows it to break into the performance range traditionally reserved for
-offline, static language compilers.
-</p>
-
-<h2>More ...</h2>
-<p>
-Please select a sub-topic in the navigation bar to learn more about LuaJIT.
-</p>
-<br class="flush">
-</div>
-<div id="foot">
-<hr class="hide">
-Copyright &copy; 2005-2014 Mike Pall
-<span class="noprint">
-&middot;
-<a href="contact.html">Contact</a>
-</span>
-</div>
-</body>
-</html>
diff --git a/luajit-2.0/doc/running.html b/luajit-2.0/doc/running.html
deleted file mode 100644
index c01c52d..0000000
--- a/luajit-2.0/doc/running.html
+++ /dev/null
@@ -1,306 +0,0 @@
-<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.01//EN" "http://www.w3.org/TR/html4/strict.dtd">
-<html>
-<head>
-<title>Running LuaJIT</title>
-<meta http-equiv="Content-Type" content="text/html; charset=iso-8859-1">
-<meta name="Author" content="Mike Pall">
-<meta name="Copyright" content="Copyright (C) 2005-2014, Mike Pall">
-<meta name="Language" content="en">
-<link rel="stylesheet" type="text/css" href="bluequad.css" media="screen">
-<link rel="stylesheet" type="text/css" href="bluequad-print.css" media="print">
-<style type="text/css">
-table.opt {
-  line-height: 1.2;
-}
-tr.opthead td {
-  font-weight: bold;
-}
-td.flag_name {
-  width: 4em;
-}
-td.flag_level {
-  width: 2em;
-  text-align: center;
-}
-td.param_name {
-  width: 6em;
-}
-td.param_default {
-  width: 4em;
-  text-align: right;
-}
-</style>
-</head>
-<body>
-<div id="site">
-<a href="http://luajit.org"><span>Lua<span id="logo">JIT</span></span></a>
-</div>
-<div id="head">
-<h1>Running LuaJIT</h1>
-</div>
-<div id="nav">
-<ul><li>
-<a href="luajit.html">LuaJIT</a>
-<ul><li>
-<a href="http://luajit.org/download.html">Download <span class="ext">&raquo;</span></a>
-</li><li>
-<a href="install.html">Installation</a>
-</li><li>
-<a class="current" href="running.html">Running</a>
-</li></ul>
-</li><li>
-<a href="extensions.html">Extensions</a>
-<ul><li>
-<a href="ext_ffi.html">FFI Library</a>
-<ul><li>
-<a href="ext_ffi_tutorial.html">FFI Tutorial</a>
-</li><li>
-<a href="ext_ffi_api.html">ffi.* API</a>
-</li><li>
-<a href="ext_ffi_semantics.html">FFI Semantics</a>
-</li></ul>
-</li><li>
-<a href="ext_jit.html">jit.* Library</a>
-</li><li>
-<a href="ext_c_api.html">Lua/C API</a>
-</li></ul>
-</li><li>
-<a href="status.html">Status</a>
-<ul><li>
-<a href="changes.html">Changes</a>
-</li></ul>
-</li><li>
-<a href="faq.html">FAQ</a>
-</li><li>
-<a href="http://luajit.org/performance.html">Performance <span class="ext">&raquo;</span></a>
-</li><li>
-<a href="http://wiki.luajit.org/">Wiki <span class="ext">&raquo;</span></a>
-</li><li>
-<a href="http://luajit.org/list.html">Mailing List <span class="ext">&raquo;</span></a>
-</li></ul>
-</div>
-<div id="main">
-<p>
-LuaJIT has only a single stand-alone executable, called <tt>luajit</tt> on
-POSIX systems or <tt>luajit.exe</tt> on Windows. It can be used to run simple
-Lua statements or whole Lua applications from the command line. It has an
-interactive mode, too.
-</p>
-
-<h2 id="options">Command Line Options</h2>
-<p>
-The <tt>luajit</tt> stand-alone executable is just a slightly modified
-version of the regular <tt>lua</tt> stand-alone executable.
-It supports the same basic options, too. <tt>luajit&nbsp;-h</tt>
-prints a short list of the available options. Please have a look at the
-<a href="http://www.lua.org/manual/5.1/manual.html#6"><span class="ext">&raquo;</span>&nbsp;Lua manual</a>
-for details.
-</p>
-<p>
-LuaJIT has some additional options:
-</p>
-
-<h3 id="opt_b"><tt>-b[options] input output</tt></h3>
-<p>
-This option saves or lists bytecode. The following additional options
-are accepted:
-</p>
-<ul>
-<li><tt>-l</tt> &mdash; Only list bytecode.</li>
-<li><tt>-s</tt> &mdash; Strip debug info (this is the default).</li>
-<li><tt>-g</tt> &mdash; Keep debug info.</li>
-<li><tt>-n name</tt> &mdash; Set module name (default: auto-detect from input name)</li>
-<li><tt>-t type</tt> &mdash; Set output file type (default: auto-detect from output name).</li>
-<li><tt>-a arch</tt> &mdash; Override architecture for object files (default: native).</li>
-<li><tt>-o os</tt> &mdash; Override OS for object files (default: native).</li>
-<li><tt>-e chunk</tt> &mdash; Use chunk string as input.</li>
-<li><tt>-</tt> (a single minus sign) &mdash; Use stdin as input and/or stdout as output.</li>
-</ul>
-<p>
-The output file type is auto-detected from the extension of the output
-file name:
-</p>
-<ul>
-<li><tt>c</tt> &mdash; C source file, exported bytecode data.</li>
-<li><tt>h</tt> &mdash; C header file, static bytecode data.</li>
-<li><tt>obj</tt> or <tt>o</tt> &mdash; Object file, exported bytecode data
-(OS- and architecture-specific).</li>
-<li><tt>raw</tt> or any other extension &mdash; Raw bytecode file (portable).
-</ul>
-<p>
-Notes:
-</p>
-<ul>
-<li>See also <a href="extensions.html#string_dump">string.dump()</a>
-for information on bytecode portability and compatibility.</li>
-<li>A file in raw bytecode format is auto-detected and can be loaded like
-any Lua source file. E.g. directly from the command line or with
-<tt>loadfile()</tt>, <tt>dofile()</tt> etc.</li>
-<li>To statically embed the bytecode of a module in your application,
-generate an object file and just link it with your application.</li>
-<li>On most ELF-based systems (e.g. Linux) you need to explicitly export the
-global symbols when linking your application, e.g. with: <tt>-Wl,-E</tt></li>
-<li><tt>require()</tt> tries to load embedded bytecode data from exported
-symbols (in <tt>*.exe</tt> or <tt>lua51.dll</tt> on Windows) and from
-shared libraries in <tt>package.cpath</tt>.</li>
-</ul>
-<p>
-Typical usage examples:
-</p>
-<pre class="code">
-luajit -b test.lua test.out                 # Save bytecode to test.out
-luajit -bg test.lua test.out                # Keep debug info
-luajit -be "print('hello world')" test.out  # Save cmdline script
-
-luajit -bl test.lua                         # List to stdout
-luajit -bl test.lua test.txt                # List to test.txt
-luajit -ble "print('hello world')"          # List cmdline script
-
-luajit -b test.lua test.obj                 # Generate object file
-# Link test.obj with your application and load it with require("test")
-</pre>
-
-<h3 id="opt_j"><tt>-j cmd[=arg[,arg...]]</tt></h3>
-<p>
-This option performs a LuaJIT control command or activates one of the
-loadable extension modules. The command is first looked up in the
-<tt>jit.*</tt> library. If no matching function is found, a module
-named <tt>jit.&lt;cmd&gt;</tt> is loaded and the <tt>start()</tt>
-function of the module is called with the specified arguments (if
-any). The space between <tt>-j</tt> and <tt>cmd</tt> is optional.
-</p>
-<p>
-Here are the available LuaJIT control commands:
-</p>
-<ul>
-<li id="j_on"><tt>-jon</tt> &mdash; Turns the JIT compiler on (default).</li>
-<li id="j_off"><tt>-joff</tt> &mdash; Turns the JIT compiler off (only use the interpreter).</li>
-<li id="j_flush"><tt>-jflush</tt> &mdash; Flushes the whole cache of compiled code.</li>
-<li id="j_v"><tt>-jv</tt> &mdash; Shows verbose information about the progress of the JIT compiler.</li>
-<li id="j_dump"><tt>-jdump</tt> &mdash; Dumps the code and structures used in various compiler stages.</li>
-</ul>
-<p>
-The <tt>-jv</tt> and <tt>-jdump</tt> commands are extension modules
-written in Lua. They are mainly used for debugging the JIT compiler
-itself. For a description of their options and output format, please
-read the comment block at the start of their source.
-They can be found in the <tt>lib</tt> directory of the source
-distribution or installed under the <tt>jit</tt> directory. By default
-this is <tt>/usr/local/share/luajit-2.0.3/jit</tt> on POSIX
-systems.
-</p>
-
-<h3 id="opt_O"><tt>-O[level]</tt><br>
-<tt>-O[+]flag</tt>&nbsp;&nbsp;&nbsp;<tt>-O-flag</tt><br>
-<tt>-Oparam=value</tt></h3>
-<p>
-This options allows fine-tuned control of the optimizations used by
-the JIT compiler. This is mainly intended for debugging LuaJIT itself.
-Please note that the JIT compiler is extremely fast (we are talking
-about the microsecond to millisecond range). Disabling optimizations
-doesn't have any visible impact on its overhead, but usually generates
-code that runs slower.
-</p>
-<p>
-The first form sets an optimization level &mdash; this enables a
-specific mix of optimization flags. <tt>-O0</tt> turns off all
-optimizations and higher numbers enable more optimizations. Omitting
-the level (i.e. just <tt>-O</tt>) sets the default optimization level,
-which is <tt>-O3</tt> in the current version.
-</p>
-<p>
-The second form adds or removes individual optimization flags.
-The third form sets a parameter for the VM or the JIT compiler
-to a specific value.
-</p>
-<p>
-You can either use this option multiple times (like <tt>-Ocse
--O-dce -Ohotloop=10</tt>) or separate several settings with a comma
-(like <tt>-O+cse,-dce,hotloop=10</tt>). The settings are applied from
-left to right and later settings override earlier ones. You can freely
-mix the three forms, but note that setting an optimization level
-overrides all earlier flags.
-</p>
-<p>
-Here are the available flags and at what optimization levels they
-are enabled:
-</p>
-<table class="opt">
-<tr class="opthead">
-<td class="flag_name">Flag</td>
-<td class="flag_level">-O1</td>
-<td class="flag_level">-O2</td>
-<td class="flag_level">-O3</td>
-<td class="flag_desc">&nbsp;</td>
-</tr>
-<tr class="odd separate">
-<td class="flag_name">fold</td><td class="flag_level">&bull;</td><td class="flag_level">&bull;</td><td class="flag_level">&bull;</td><td class="flag_desc">Constant Folding, Simplifications and Reassociation</td></tr>
-<tr class="even">
-<td class="flag_name">cse</td><td class="flag_level">&bull;</td><td class="flag_level">&bull;</td><td class="flag_level">&bull;</td><td class="flag_desc">Common-Subexpression Elimination</td></tr>
-<tr class="odd">
-<td class="flag_name">dce</td><td class="flag_level">&bull;</td><td class="flag_level">&bull;</td><td class="flag_level">&bull;</td><td class="flag_desc">Dead-Code Elimination</td></tr>
-<tr class="even">
-<td class="flag_name">narrow</td><td class="flag_level">&nbsp;</td><td class="flag_level">&bull;</td><td class="flag_level">&bull;</td><td class="flag_desc">Narrowing of numbers to integers</td></tr>
-<tr class="odd">
-<td class="flag_name">loop</td><td class="flag_level">&nbsp;</td><td class="flag_level">&bull;</td><td class="flag_level">&bull;</td><td class="flag_desc">Loop Optimizations (code hoisting)</td></tr>
-<tr class="even">
-<td class="flag_name">fwd</td><td class="flag_level">&nbsp;</td><td class="flag_level">&nbsp;</td><td class="flag_level">&bull;</td><td class="flag_desc">Load Forwarding (L2L) and Store Forwarding (S2L)</td></tr>
-<tr class="odd">
-<td class="flag_name">dse</td><td class="flag_level">&nbsp;</td><td class="flag_level">&nbsp;</td><td class="flag_level">&bull;</td><td class="flag_desc">Dead-Store Elimination</td></tr>
-<tr class="even">
-<td class="flag_name">abc</td><td class="flag_level">&nbsp;</td><td class="flag_level">&nbsp;</td><td class="flag_level">&bull;</td><td class="flag_desc">Array Bounds Check Elimination</td></tr>
-<tr class="odd">
-<td class="flag_name">sink</td><td class="flag_level">&nbsp;</td><td class="flag_level">&nbsp;</td><td class="flag_level">&bull;</td><td class="flag_desc">Allocation/Store Sinking</td></tr>
-<tr class="even">
-<td class="flag_name">fuse</td><td class="flag_level">&nbsp;</td><td class="flag_level">&nbsp;</td><td class="flag_level">&bull;</td><td class="flag_desc">Fusion of operands into instructions</td></tr>
-</table>
-<p>
-Here are the parameters and their default settings:
-</p>
-<table class="opt">
-<tr class="opthead">
-<td class="param_name">Parameter</td>
-<td class="param_default">Default</td>
-<td class="param_desc">&nbsp;</td>
-</tr>
-<tr class="odd separate">
-<td class="param_name">maxtrace</td><td class="param_default">1000</td><td class="param_desc">Max. number of traces in the cache</td></tr>
-<tr class="even">
-<td class="param_name">maxrecord</td><td class="param_default">4000</td><td class="param_desc">Max. number of recorded IR instructions</td></tr>
-<tr class="odd">
-<td class="param_name">maxirconst</td><td class="param_default">500</td><td class="param_desc">Max. number of IR constants of a trace</td></tr>
-<tr class="even">
-<td class="param_name">maxside</td><td class="param_default">100</td><td class="param_desc">Max. number of side traces of a root trace</td></tr>
-<tr class="odd">
-<td class="param_name">maxsnap</td><td class="param_default">500</td><td class="param_desc">Max. number of snapshots for a trace</td></tr>
-<tr class="even separate">
-<td class="param_name">hotloop</td><td class="param_default">56</td><td class="param_desc">Number of iterations to detect a hot loop or hot call</td></tr>
-<tr class="odd">
-<td class="param_name">hotexit</td><td class="param_default">10</td><td class="param_desc">Number of taken exits to start a side trace</td></tr>
-<tr class="even">
-<td class="param_name">tryside</td><td class="param_default">4</td><td class="param_desc">Number of attempts to compile a side trace</td></tr>
-<tr class="odd separate">
-<td class="param_name">instunroll</td><td class="param_default">4</td><td class="param_desc">Max. unroll factor for instable loops</td></tr>
-<tr class="even">
-<td class="param_name">loopunroll</td><td class="param_default">15</td><td class="param_desc">Max. unroll factor for loop ops in side traces</td></tr>
-<tr class="odd">
-<td class="param_name">callunroll</td><td class="param_default">3</td><td class="param_desc">Max. unroll factor for pseudo-recursive calls</td></tr>
-<tr class="even">
-<td class="param_name">recunroll</td><td class="param_default">2</td><td class="param_desc">Min. unroll factor for true recursion</td></tr>
-<tr class="odd separate">
-<td class="param_name">sizemcode</td><td class="param_default">32</td><td class="param_desc">Size of each machine code area in KBytes (Windows: 64K)</td></tr>
-<tr class="even">
-<td class="param_name">maxmcode</td><td class="param_default">512</td><td class="param_desc">Max. total size of all machine code areas in KBytes</td></tr>
-</table>
-<br class="flush">
-</div>
-<div id="foot">
-<hr class="hide">
-Copyright &copy; 2005-2014 Mike Pall
-<span class="noprint">
-&middot;
-<a href="contact.html">Contact</a>
-</span>
-</div>
-</body>
-</html>
diff --git a/luajit-2.0/doc/status.html b/luajit-2.0/doc/status.html
deleted file mode 100644
index ddcaed3..0000000
--- a/luajit-2.0/doc/status.html
+++ /dev/null
@@ -1,125 +0,0 @@
-<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.01//EN" "http://www.w3.org/TR/html4/strict.dtd">
-<html>
-<head>
-<title>Status &amp; Roadmap</title>
-<meta http-equiv="Content-Type" content="text/html; charset=iso-8859-1">
-<meta name="Author" content="Mike Pall">
-<meta name="Copyright" content="Copyright (C) 2005-2014, Mike Pall">
-<meta name="Language" content="en">
-<link rel="stylesheet" type="text/css" href="bluequad.css" media="screen">
-<link rel="stylesheet" type="text/css" href="bluequad-print.css" media="print">
-<style type="text/css">
-ul li { padding-bottom: 0.3em; }
-</style>
-</head>
-<body>
-<div id="site">
-<a href="http://luajit.org"><span>Lua<span id="logo">JIT</span></span></a>
-</div>
-<div id="head">
-<h1>Status &amp; Roadmap</h1>
-</div>
-<div id="nav">
-<ul><li>
-<a href="luajit.html">LuaJIT</a>
-<ul><li>
-<a href="http://luajit.org/download.html">Download <span class="ext">&raquo;</span></a>
-</li><li>
-<a href="install.html">Installation</a>
-</li><li>
-<a href="running.html">Running</a>
-</li></ul>
-</li><li>
-<a href="extensions.html">Extensions</a>
-<ul><li>
-<a href="ext_ffi.html">FFI Library</a>
-<ul><li>
-<a href="ext_ffi_tutorial.html">FFI Tutorial</a>
-</li><li>
-<a href="ext_ffi_api.html">ffi.* API</a>
-</li><li>
-<a href="ext_ffi_semantics.html">FFI Semantics</a>
-</li></ul>
-</li><li>
-<a href="ext_jit.html">jit.* Library</a>
-</li><li>
-<a href="ext_c_api.html">Lua/C API</a>
-</li></ul>
-</li><li>
-<a class="current" href="status.html">Status</a>
-<ul><li>
-<a href="changes.html">Changes</a>
-</li></ul>
-</li><li>
-<a href="faq.html">FAQ</a>
-</li><li>
-<a href="http://luajit.org/performance.html">Performance <span class="ext">&raquo;</span></a>
-</li><li>
-<a href="http://wiki.luajit.org/">Wiki <span class="ext">&raquo;</span></a>
-</li><li>
-<a href="http://luajit.org/list.html">Mailing List <span class="ext">&raquo;</span></a>
-</li></ul>
-</div>
-<div id="main">
-<p>
-<span style="color: #0000c0;">LuaJIT&nbsp;2.0</span> is the current
-<span style="color: #0000c0;">stable branch</span>. This branch is in
-feature-freeze &mdash; new features will only be added to LuaJIT&nbsp;2.1.
-</p>
-
-<h2>Current Status</h2>
-<p>
-LuaJIT ought to run all Lua&nbsp;5.1-compatible source code just fine.
-It's considered a serious bug if the VM crashes or produces unexpected
-results &mdash; please report this.
-</p>
-<p>
-Known incompatibilities and issues in LuaJIT&nbsp;2.0:
-</p>
-<ul>
-<li>
-There are some differences in <b>implementation-defined</b> behavior.
-These either have a good reason, are arbitrary design choices
-or are due to quirks in the VM. The latter cases may get fixed if a
-demonstrable need is shown.
-</li>
-<li>
-The Lua <b>debug API</b> is missing a couple of features (return
-hooks for non-Lua functions) and shows slightly different behavior
-in LuaJIT (no per-coroutine hooks, no tail call counting).
-</li>
-<li>
-Some checks are missing in the JIT-compiled code for obscure situations
-with <b>open upvalues aliasing</b> one of the SSA slots later on (or
-vice versa). Bonus points, if you can find a real world test case for
-this.
-</li>
-<li>
-Currently some <b>out-of-memory</b> errors from <b>on-trace code</b> are not
-handled correctly. The error may fall through an on-trace
-<tt>pcall</tt> or it may be passed on to the function set with
-<tt>lua_atpanic</tt> on x64. This issue will be fixed with the new
-garbage collector.
-</li>
-</ul>
-
-<h2>Roadmap</h2>
-<p>
-Please refer to the
-<a href="http://www.freelists.org/post/luajit/LuaJIT-Roadmap-20122013"><span class="ext">&raquo;</span>&nbsp;LuaJIT Roadmap 2012/2013</a> and an
-<a href="http://www.freelists.org/post/luajit/LuaJIT-Roadmap-20122013-UPDATE"><span class="ext">&raquo;</span>&nbsp;update on release planning</a> for details.
-</p>
-<p>
-</p>
-<br class="flush">
-</div>
-<div id="foot">
-<hr class="hide">
-Copyright &copy; 2005-2014 Mike Pall
-<span class="noprint">
-&middot;
-<a href="contact.html">Contact</a>
-</span>
-</div>
-</body>
-</html>
diff --git a/luajit-2.0/dynasm/dasm_arm.h b/luajit-2.0/dynasm/dasm_arm.h
deleted file mode 100644
index 435bbf5..0000000
--- a/luajit-2.0/dynasm/dasm_arm.h
+++ /dev/null
@@ -1,456 +0,0 @@
-/*
-** DynASM ARM encoding engine.
-** Copyright (C) 2005-2014 Mike Pall. All rights reserved.
-** Released under the MIT license. See dynasm.lua for full copyright notice.
-*/
-
-#include <stddef.h>
-#include <stdarg.h>
-#include <string.h>
-#include <stdlib.h>
-
-#define DASM_ARCH		"arm"
-
-#ifndef DASM_EXTERN
-#define DASM_EXTERN(a,b,c,d)	0
-#endif
-
-/* Action definitions. */
-enum {
-  DASM_STOP, DASM_SECTION, DASM_ESC, DASM_REL_EXT,
-  /* The following actions need a buffer position. */
-  DASM_ALIGN, DASM_REL_LG, DASM_LABEL_LG,
-  /* The following actions also have an argument. */
-  DASM_REL_PC, DASM_LABEL_PC,
-  DASM_IMM, DASM_IMM12, DASM_IMM16, DASM_IMML8, DASM_IMML12, DASM_IMMV8,
-  DASM__MAX
-};
-
-/* Maximum number of section buffer positions for a single dasm_put() call. */
-#define DASM_MAXSECPOS		25
-
-/* DynASM encoder status codes. Action list offset or number are or'ed in. */
-#define DASM_S_OK		0x00000000
-#define DASM_S_NOMEM		0x01000000
-#define DASM_S_PHASE		0x02000000
-#define DASM_S_MATCH_SEC	0x03000000
-#define DASM_S_RANGE_I		0x11000000
-#define DASM_S_RANGE_SEC	0x12000000
-#define DASM_S_RANGE_LG		0x13000000
-#define DASM_S_RANGE_PC		0x14000000
-#define DASM_S_RANGE_REL	0x15000000
-#define DASM_S_UNDEF_LG		0x21000000
-#define DASM_S_UNDEF_PC		0x22000000
-
-/* Macros to convert positions (8 bit section + 24 bit index). */
-#define DASM_POS2IDX(pos)	((pos)&0x00ffffff)
-#define DASM_POS2BIAS(pos)	((pos)&0xff000000)
-#define DASM_SEC2POS(sec)	((sec)<<24)
-#define DASM_POS2SEC(pos)	((pos)>>24)
-#define DASM_POS2PTR(D, pos)	(D->sections[DASM_POS2SEC(pos)].rbuf + (pos))
-
-/* Action list type. */
-typedef const unsigned int *dasm_ActList;
-
-/* Per-section structure. */
-typedef struct dasm_Section {
-  int *rbuf;		/* Biased buffer pointer (negative section bias). */
-  int *buf;		/* True buffer pointer. */
-  size_t bsize;		/* Buffer size in bytes. */
-  int pos;		/* Biased buffer position. */
-  int epos;		/* End of biased buffer position - max single put. */
-  int ofs;		/* Byte offset into section. */
-} dasm_Section;
-
-/* Core structure holding the DynASM encoding state. */
-struct dasm_State {
-  size_t psize;			/* Allocated size of this structure. */
-  dasm_ActList actionlist;	/* Current actionlist pointer. */
-  int *lglabels;		/* Local/global chain/pos ptrs. */
-  size_t lgsize;
-  int *pclabels;		/* PC label chains/pos ptrs. */
-  size_t pcsize;
-  void **globals;		/* Array of globals (bias -10). */
-  dasm_Section *section;	/* Pointer to active section. */
-  size_t codesize;		/* Total size of all code sections. */
-  int maxsection;		/* 0 <= sectionidx < maxsection. */
-  int status;			/* Status code. */
-  dasm_Section sections[1];	/* All sections. Alloc-extended. */
-};
-
-/* The size of the core structure depends on the max. number of sections. */
-#define DASM_PSZ(ms)	(sizeof(dasm_State)+(ms-1)*sizeof(dasm_Section))
-
-
-/* Initialize DynASM state. */
-void dasm_init(Dst_DECL, int maxsection)
-{
-  dasm_State *D;
-  size_t psz = 0;
-  int i;
-  Dst_REF = NULL;
-  DASM_M_GROW(Dst, struct dasm_State, Dst_REF, psz, DASM_PSZ(maxsection));
-  D = Dst_REF;
-  D->psize = psz;
-  D->lglabels = NULL;
-  D->lgsize = 0;
-  D->pclabels = NULL;
-  D->pcsize = 0;
-  D->globals = NULL;
-  D->maxsection = maxsection;
-  for (i = 0; i < maxsection; i++) {
-    D->sections[i].buf = NULL;  /* Need this for pass3. */
-    D->sections[i].rbuf = D->sections[i].buf - DASM_SEC2POS(i);
-    D->sections[i].bsize = 0;
-    D->sections[i].epos = 0;  /* Wrong, but is recalculated after resize. */
-  }
-}
-
-/* Free DynASM state. */
-void dasm_free(Dst_DECL)
-{
-  dasm_State *D = Dst_REF;
-  int i;
-  for (i = 0; i < D->maxsection; i++)
-    if (D->sections[i].buf)
-      DASM_M_FREE(Dst, D->sections[i].buf, D->sections[i].bsize);
-  if (D->pclabels) DASM_M_FREE(Dst, D->pclabels, D->pcsize);
-  if (D->lglabels) DASM_M_FREE(Dst, D->lglabels, D->lgsize);
-  DASM_M_FREE(Dst, D, D->psize);
-}
-
-/* Setup global label array. Must be called before dasm_setup(). */
-void dasm_setupglobal(Dst_DECL, void **gl, unsigned int maxgl)
-{
-  dasm_State *D = Dst_REF;
-  D->globals = gl - 10;  /* Negative bias to compensate for locals. */
-  DASM_M_GROW(Dst, int, D->lglabels, D->lgsize, (10+maxgl)*sizeof(int));
-}
-
-/* Grow PC label array. Can be called after dasm_setup(), too. */
-void dasm_growpc(Dst_DECL, unsigned int maxpc)
-{
-  dasm_State *D = Dst_REF;
-  size_t osz = D->pcsize;
-  DASM_M_GROW(Dst, int, D->pclabels, D->pcsize, maxpc*sizeof(int));
-  memset((void *)(((unsigned char *)D->pclabels)+osz), 0, D->pcsize-osz);
-}
-
-/* Setup encoder. */
-void dasm_setup(Dst_DECL, const void *actionlist)
-{
-  dasm_State *D = Dst_REF;
-  int i;
-  D->actionlist = (dasm_ActList)actionlist;
-  D->status = DASM_S_OK;
-  D->section = &D->sections[0];
-  memset((void *)D->lglabels, 0, D->lgsize);
-  if (D->pclabels) memset((void *)D->pclabels, 0, D->pcsize);
-  for (i = 0; i < D->maxsection; i++) {
-    D->sections[i].pos = DASM_SEC2POS(i);
-    D->sections[i].ofs = 0;
-  }
-}
-
-
-#ifdef DASM_CHECKS
-#define CK(x, st) \
-  do { if (!(x)) { \
-    D->status = DASM_S_##st|(p-D->actionlist-1); return; } } while (0)
-#define CKPL(kind, st) \
-  do { if ((size_t)((char *)pl-(char *)D->kind##labels) >= D->kind##size) { \
-    D->status = DASM_S_RANGE_##st|(p-D->actionlist-1); return; } } while (0)
-#else
-#define CK(x, st)	((void)0)
-#define CKPL(kind, st)	((void)0)
-#endif
-
-static int dasm_imm12(unsigned int n)
-{
-  int i;
-  for (i = 0; i < 16; i++, n = (n << 2) | (n >> 30))
-    if (n <= 255) return (int)(n + (i << 8));
-  return -1;
-}
-
-/* Pass 1: Store actions and args, link branches/labels, estimate offsets. */
-void dasm_put(Dst_DECL, int start, ...)
-{
-  va_list ap;
-  dasm_State *D = Dst_REF;
-  dasm_ActList p = D->actionlist + start;
-  dasm_Section *sec = D->section;
-  int pos = sec->pos, ofs = sec->ofs;
-  int *b;
-
-  if (pos >= sec->epos) {
-    DASM_M_GROW(Dst, int, sec->buf, sec->bsize,
-      sec->bsize + 2*DASM_MAXSECPOS*sizeof(int));
-    sec->rbuf = sec->buf - DASM_POS2BIAS(pos);
-    sec->epos = (int)sec->bsize/sizeof(int) - DASM_MAXSECPOS+DASM_POS2BIAS(pos);
-  }
-
-  b = sec->rbuf;
-  b[pos++] = start;
-
-  va_start(ap, start);
-  while (1) {
-    unsigned int ins = *p++;
-    unsigned int action = (ins >> 16);
-    if (action >= DASM__MAX) {
-      ofs += 4;
-    } else {
-      int *pl, n = action >= DASM_REL_PC ? va_arg(ap, int) : 0;
-      switch (action) {
-      case DASM_STOP: goto stop;
-      case DASM_SECTION:
-	n = (ins & 255); CK(n < D->maxsection, RANGE_SEC);
-	D->section = &D->sections[n]; goto stop;
-      case DASM_ESC: p++; ofs += 4; break;
-      case DASM_REL_EXT: break;
-      case DASM_ALIGN: ofs += (ins & 255); b[pos++] = ofs; break;
-      case DASM_REL_LG:
-	n = (ins & 2047) - 10; pl = D->lglabels + n;
-	/* Bkwd rel or global. */
-	if (n >= 0) { CK(n>=10||*pl<0, RANGE_LG); CKPL(lg, LG); goto putrel; }
-	pl += 10; n = *pl;
-	if (n < 0) n = 0;  /* Start new chain for fwd rel if label exists. */
-	goto linkrel;
-      case DASM_REL_PC:
-	pl = D->pclabels + n; CKPL(pc, PC);
-      putrel:
-	n = *pl;
-	if (n < 0) {  /* Label exists. Get label pos and store it. */
-	  b[pos] = -n;
-	} else {
-      linkrel:
-	  b[pos] = n;  /* Else link to rel chain, anchored at label. */
-	  *pl = pos;
-	}
-	pos++;
-	break;
-      case DASM_LABEL_LG:
-	pl = D->lglabels + (ins & 2047) - 10; CKPL(lg, LG); goto putlabel;
-      case DASM_LABEL_PC:
-	pl = D->pclabels + n; CKPL(pc, PC);
-      putlabel:
-	n = *pl;  /* n > 0: Collapse rel chain and replace with label pos. */
-	while (n > 0) { int *pb = DASM_POS2PTR(D, n); n = *pb; *pb = pos;
-	}
-	*pl = -pos;  /* Label exists now. */
-	b[pos++] = ofs;  /* Store pass1 offset estimate. */
-	break;
-      case DASM_IMM:
-      case DASM_IMM16:
-#ifdef DASM_CHECKS
-	CK((n & ((1<<((ins>>10)&31))-1)) == 0, RANGE_I);
-	if ((ins & 0x8000))
-	  CK(((n + (1<<(((ins>>5)&31)-1)))>>((ins>>5)&31)) == 0, RANGE_I);
-	else
-	  CK((n>>((ins>>5)&31)) == 0, RANGE_I);
-#endif
-	b[pos++] = n;
-	break;
-      case DASM_IMMV8:
-	CK((n & 3) == 0, RANGE_I);
-	n >>= 2;
-      case DASM_IMML8:
-      case DASM_IMML12:
-	CK(n >= 0 ? ((n>>((ins>>5)&31)) == 0) :
-		    (((-n)>>((ins>>5)&31)) == 0), RANGE_I);
-	b[pos++] = n;
-	break;
-      case DASM_IMM12:
-	CK(dasm_imm12((unsigned int)n) != -1, RANGE_I);
-	b[pos++] = n;
-	break;
-      }
-    }
-  }
-stop:
-  va_end(ap);
-  sec->pos = pos;
-  sec->ofs = ofs;
-}
-#undef CK
-
-/* Pass 2: Link sections, shrink aligns, fix label offsets. */
-int dasm_link(Dst_DECL, size_t *szp)
-{
-  dasm_State *D = Dst_REF;
-  int secnum;
-  int ofs = 0;
-
-#ifdef DASM_CHECKS
-  *szp = 0;
-  if (D->status != DASM_S_OK) return D->status;
-  {
-    int pc;
-    for (pc = 0; pc*sizeof(int) < D->pcsize; pc++)
-      if (D->pclabels[pc] > 0) return DASM_S_UNDEF_PC|pc;
-  }
-#endif
-
-  { /* Handle globals not defined in this translation unit. */
-    int idx;
-    for (idx = 20; idx*sizeof(int) < D->lgsize; idx++) {
-      int n = D->lglabels[idx];
-      /* Undefined label: Collapse rel chain and replace with marker (< 0). */
-      while (n > 0) { int *pb = DASM_POS2PTR(D, n); n = *pb; *pb = -idx; }
-    }
-  }
-
-  /* Combine all code sections. No support for data sections (yet). */
-  for (secnum = 0; secnum < D->maxsection; secnum++) {
-    dasm_Section *sec = D->sections + secnum;
-    int *b = sec->rbuf;
-    int pos = DASM_SEC2POS(secnum);
-    int lastpos = sec->pos;
-
-    while (pos != lastpos) {
-      dasm_ActList p = D->actionlist + b[pos++];
-      while (1) {
-	unsigned int ins = *p++;
-	unsigned int action = (ins >> 16);
-	switch (action) {
-	case DASM_STOP: case DASM_SECTION: goto stop;
-	case DASM_ESC: p++; break;
-	case DASM_REL_EXT: break;
-	case DASM_ALIGN: ofs -= (b[pos++] + ofs) & (ins & 255); break;
-	case DASM_REL_LG: case DASM_REL_PC: pos++; break;
-	case DASM_LABEL_LG: case DASM_LABEL_PC: b[pos++] += ofs; break;
-	case DASM_IMM: case DASM_IMM12: case DASM_IMM16:
-	case DASM_IMML8: case DASM_IMML12: case DASM_IMMV8: pos++; break;
-	}
-      }
-      stop: (void)0;
-    }
-    ofs += sec->ofs;  /* Next section starts right after current section. */
-  }
-
-  D->codesize = ofs;  /* Total size of all code sections */
-  *szp = ofs;
-  return DASM_S_OK;
-}
-
-#ifdef DASM_CHECKS
-#define CK(x, st) \
-  do { if (!(x)) return DASM_S_##st|(p-D->actionlist-1); } while (0)
-#else
-#define CK(x, st)	((void)0)
-#endif
-
-/* Pass 3: Encode sections. */
-int dasm_encode(Dst_DECL, void *buffer)
-{
-  dasm_State *D = Dst_REF;
-  char *base = (char *)buffer;
-  unsigned int *cp = (unsigned int *)buffer;
-  int secnum;
-
-  /* Encode all code sections. No support for data sections (yet). */
-  for (secnum = 0; secnum < D->maxsection; secnum++) {
-    dasm_Section *sec = D->sections + secnum;
-    int *b = sec->buf;
-    int *endb = sec->rbuf + sec->pos;
-
-    while (b != endb) {
-      dasm_ActList p = D->actionlist + *b++;
-      while (1) {
-	unsigned int ins = *p++;
-	unsigned int action = (ins >> 16);
-	int n = (action >= DASM_ALIGN && action < DASM__MAX) ? *b++ : 0;
-	switch (action) {
-	case DASM_STOP: case DASM_SECTION: goto stop;
-	case DASM_ESC: *cp++ = *p++; break;
-	case DASM_REL_EXT:
-	  n = DASM_EXTERN(Dst, (unsigned char *)cp, (ins&2047), !(ins&2048));
-	  goto patchrel;
-	case DASM_ALIGN:
-	  ins &= 255; while ((((char *)cp - base) & ins)) *cp++ = 0xe1a00000;
-	  break;
-	case DASM_REL_LG:
-	  CK(n >= 0, UNDEF_LG);
-	case DASM_REL_PC:
-	  CK(n >= 0, UNDEF_PC);
-	  n = *DASM_POS2PTR(D, n) - (int)((char *)cp - base) - 4;
-	patchrel:
-	  if ((ins & 0x800) == 0) {
-	    CK((n & 3) == 0 && ((n+0x02000000) >> 26) == 0, RANGE_REL);
-	    cp[-1] |= ((n >> 2) & 0x00ffffff);
-	  } else if ((ins & 0x1000)) {
-	    CK((n & 3) == 0 && -256 <= n && n <= 256, RANGE_REL);
-	    goto patchimml8;
-	  } else if ((ins & 0x2000) == 0) {
-	    CK((n & 3) == 0 && -4096 <= n && n <= 4096, RANGE_REL);
-	    goto patchimml;
-	  } else {
-	    CK((n & 3) == 0 && -1020 <= n && n <= 1020, RANGE_REL);
-	    n >>= 2;
-	    goto patchimml;
-	  }
-	  break;
-	case DASM_LABEL_LG:
-	  ins &= 2047; if (ins >= 20) D->globals[ins-10] = (void *)(base + n);
-	  break;
-	case DASM_LABEL_PC: break;
-	case DASM_IMM:
-	  cp[-1] |= ((n>>((ins>>10)&31)) & ((1<<((ins>>5)&31))-1)) << (ins&31);
-	  break;
-	case DASM_IMM12:
-	  cp[-1] |= dasm_imm12((unsigned int)n);
-	  break;
-	case DASM_IMM16:
-	  cp[-1] |= ((n & 0xf000) << 4) | (n & 0x0fff);
-	  break;
-	case DASM_IMML8: patchimml8:
-	  cp[-1] |= n >= 0 ? (0x00800000 | (n & 0x0f) | ((n & 0xf0) << 4)) :
-			     ((-n & 0x0f) | ((-n & 0xf0) << 4));
-	  break;
-	case DASM_IMML12: case DASM_IMMV8: patchimml:
-	  cp[-1] |= n >= 0 ? (0x00800000 | n) : (-n);
-	  break;
-	default: *cp++ = ins; break;
-	}
-      }
-      stop: (void)0;
-    }
-  }
-
-  if (base + D->codesize != (char *)cp)  /* Check for phase errors. */
-    return DASM_S_PHASE;
-  return DASM_S_OK;
-}
-#undef CK
-
-/* Get PC label offset. */
-int dasm_getpclabel(Dst_DECL, unsigned int pc)
-{
-  dasm_State *D = Dst_REF;
-  if (pc*sizeof(int) < D->pcsize) {
-    int pos = D->pclabels[pc];
-    if (pos < 0) return *DASM_POS2PTR(D, -pos);
-    if (pos > 0) return -1;  /* Undefined. */
-  }
-  return -2;  /* Unused or out of range. */
-}
-
-#ifdef DASM_CHECKS
-/* Optional sanity checker to call between isolated encoding steps. */
-int dasm_checkstep(Dst_DECL, int secmatch)
-{
-  dasm_State *D = Dst_REF;
-  if (D->status == DASM_S_OK) {
-    int i;
-    for (i = 1; i <= 9; i++) {
-      if (D->lglabels[i] > 0) { D->status = DASM_S_UNDEF_LG|i; break; }
-      D->lglabels[i] = 0;
-    }
-  }
-  if (D->status == DASM_S_OK && secmatch >= 0 &&
-      D->section != &D->sections[secmatch])
-    D->status = DASM_S_MATCH_SEC|(D->section-D->sections);
-  return D->status;
-}
-#endif
-
diff --git a/luajit-2.0/dynasm/dasm_arm.lua b/luajit-2.0/dynasm/dasm_arm.lua
deleted file mode 100644
index b3a8827..0000000
--- a/luajit-2.0/dynasm/dasm_arm.lua
+++ /dev/null
@@ -1,1122 +0,0 @@
-------------------------------------------------------------------------------
--- DynASM ARM module.
---
--- Copyright (C) 2005-2014 Mike Pall. All rights reserved.
--- See dynasm.lua for full copyright notice.
-------------------------------------------------------------------------------
-
--- Module information:
-local _info = {
-  arch =	"arm",
-  description =	"DynASM ARM module",
-  version =	"1.3.0",
-  vernum =	 10300,
-  release =	"2011-05-05",
-  author =	"Mike Pall",
-  license =	"MIT",
-}
-
--- Exported glue functions for the arch-specific module.
-local _M = { _info = _info }
-
--- Cache library functions.
-local type, tonumber, pairs, ipairs = type, tonumber, pairs, ipairs
-local assert, setmetatable, rawget = assert, setmetatable, rawget
-local _s = string
-local sub, format, byte, char = _s.sub, _s.format, _s.byte, _s.char
-local match, gmatch, gsub = _s.match, _s.gmatch, _s.gsub
-local concat, sort, insert = table.concat, table.sort, table.insert
-local bit = bit or require("bit")
-local band, shl, shr, sar = bit.band, bit.lshift, bit.rshift, bit.arshift
-local ror, tohex = bit.ror, bit.tohex
-
--- Inherited tables and callbacks.
-local g_opt, g_arch
-local wline, werror, wfatal, wwarn
-
--- Action name list.
--- CHECK: Keep this in sync with the C code!
-local action_names = {
-  "STOP", "SECTION", "ESC", "REL_EXT",
-  "ALIGN", "REL_LG", "LABEL_LG",
-  "REL_PC", "LABEL_PC", "IMM", "IMM12", "IMM16", "IMML8", "IMML12", "IMMV8",
-}
-
--- Maximum number of section buffer positions for dasm_put().
--- CHECK: Keep this in sync with the C code!
-local maxsecpos = 25 -- Keep this low, to avoid excessively long C lines.
-
--- Action name -> action number.
-local map_action = {}
-for n,name in ipairs(action_names) do
-  map_action[name] = n-1
-end
-
--- Action list buffer.
-local actlist = {}
-
--- Argument list for next dasm_put(). Start with offset 0 into action list.
-local actargs = { 0 }
-
--- Current number of section buffer positions for dasm_put().
-local secpos = 1
-
-------------------------------------------------------------------------------
-
--- Dump action names and numbers.
-local function dumpactions(out)
-  out:write("DynASM encoding engine action codes:\n")
-  for n,name in ipairs(action_names) do
-    local num = map_action[name]
-    out:write(format("  %-10s %02X  %d\n", name, num, num))
-  end
-  out:write("\n")
-end
-
--- Write action list buffer as a huge static C array.
-local function writeactions(out, name)
-  local nn = #actlist
-  if nn == 0 then nn = 1; actlist[0] = map_action.STOP end
-  out:write("static const unsigned int ", name, "[", nn, "] = {\n")
-  for i = 1,nn-1 do
-    assert(out:write("0x", tohex(actlist[i]), ",\n"))
-  end
-  assert(out:write("0x", tohex(actlist[nn]), "\n};\n\n"))
-end
-
-------------------------------------------------------------------------------
-
--- Add word to action list.
-local function wputxw(n)
-  assert(n >= 0 and n <= 0xffffffff and n % 1 == 0, "word out of range")
-  actlist[#actlist+1] = n
-end
-
--- Add action to list with optional arg. Advance buffer pos, too.
-local function waction(action, val, a, num)
-  local w = assert(map_action[action], "bad action name `"..action.."'")
-  wputxw(w * 0x10000 + (val or 0))
-  if a then actargs[#actargs+1] = a end
-  if a or num then secpos = secpos + (num or 1) end
-end
-
--- Flush action list (intervening C code or buffer pos overflow).
-local function wflush(term)
-  if #actlist == actargs[1] then return end -- Nothing to flush.
-  if not term then waction("STOP") end -- Terminate action list.
-  wline(format("dasm_put(Dst, %s);", concat(actargs, ", ")), true)
-  actargs = { #actlist } -- Actionlist offset is 1st arg to next dasm_put().
-  secpos = 1 -- The actionlist offset occupies a buffer position, too.
-end
-
--- Put escaped word.
-local function wputw(n)
-  if n <= 0x000fffff then waction("ESC") end
-  wputxw(n)
-end
-
--- Reserve position for word.
-local function wpos()
-  local pos = #actlist+1
-  actlist[pos] = ""
-  return pos
-end
-
--- Store word to reserved position.
-local function wputpos(pos, n)
-  assert(n >= 0 and n <= 0xffffffff and n % 1 == 0, "word out of range")
-  if n <= 0x000fffff then
-    insert(actlist, pos+1, n)
-    n = map_action.ESC * 0x10000
-  end
-  actlist[pos] = n
-end
-
-------------------------------------------------------------------------------
-
--- Global label name -> global label number. With auto assignment on 1st use.
-local next_global = 20
-local map_global = setmetatable({}, { __index = function(t, name)
-  if not match(name, "^[%a_][%w_]*$") then werror("bad global label") end
-  local n = next_global
-  if n > 2047 then werror("too many global labels") end
-  next_global = n + 1
-  t[name] = n
-  return n
-end})
-
--- Dump global labels.
-local function dumpglobals(out, lvl)
-  local t = {}
-  for name, n in pairs(map_global) do t[n] = name end
-  out:write("Global labels:\n")
-  for i=20,next_global-1 do
-    out:write(format("  %s\n", t[i]))
-  end
-  out:write("\n")
-end
-
--- Write global label enum.
-local function writeglobals(out, prefix)
-  local t = {}
-  for name, n in pairs(map_global) do t[n] = name end
-  out:write("enum {\n")
-  for i=20,next_global-1 do
-    out:write("  ", prefix, t[i], ",\n")
-  end
-  out:write("  ", prefix, "_MAX\n};\n")
-end
-
--- Write global label names.
-local function writeglobalnames(out, name)
-  local t = {}
-  for name, n in pairs(map_global) do t[n] = name end
-  out:write("static const char *const ", name, "[] = {\n")
-  for i=20,next_global-1 do
-    out:write("  \"", t[i], "\",\n")
-  end
-  out:write("  (const char *)0\n};\n")
-end
-
-------------------------------------------------------------------------------
-
--- Extern label name -> extern label number. With auto assignment on 1st use.
-local next_extern = 0
-local map_extern_ = {}
-local map_extern = setmetatable({}, { __index = function(t, name)
-  -- No restrictions on the name for now.
-  local n = next_extern
-  if n > 2047 then werror("too many extern labels") end
-  next_extern = n + 1
-  t[name] = n
-  map_extern_[n] = name
-  return n
-end})
-
--- Dump extern labels.
-local function dumpexterns(out, lvl)
-  out:write("Extern labels:\n")
-  for i=0,next_extern-1 do
-    out:write(format("  %s\n", map_extern_[i]))
-  end
-  out:write("\n")
-end
-
--- Write extern label names.
-local function writeexternnames(out, name)
-  out:write("static const char *const ", name, "[] = {\n")
-  for i=0,next_extern-1 do
-    out:write("  \"", map_extern_[i], "\",\n")
-  end
-  out:write("  (const char *)0\n};\n")
-end
-
-------------------------------------------------------------------------------
-
--- Arch-specific maps.
-
--- Ext. register name -> int. name.
-local map_archdef = { sp = "r13", lr = "r14", pc = "r15", }
-
--- Int. register name -> ext. name.
-local map_reg_rev = { r13 = "sp", r14 = "lr", r15 = "pc", }
-
-local map_type = {}		-- Type name -> { ctype, reg }
-local ctypenum = 0		-- Type number (for Dt... macros).
-
--- Reverse defines for registers.
-function _M.revdef(s)
-  return map_reg_rev[s] or s
-end
-
-local map_shift = { lsl = 0, lsr = 1, asr = 2, ror = 3, }
-
-local map_cond = {
-  eq = 0, ne = 1, cs = 2, cc = 3, mi = 4, pl = 5, vs = 6, vc = 7,
-  hi = 8, ls = 9, ge = 10, lt = 11, gt = 12, le = 13, al = 14,
-  hs = 2, lo = 3,
-}
-
-------------------------------------------------------------------------------
-
--- Template strings for ARM instructions.
-local map_op = {
-  -- Basic data processing instructions.
-  and_3 = "e0000000DNPs",
-  eor_3 = "e0200000DNPs",
-  sub_3 = "e0400000DNPs",
-  rsb_3 = "e0600000DNPs",
-  add_3 = "e0800000DNPs",
-  adc_3 = "e0a00000DNPs",
-  sbc_3 = "e0c00000DNPs",
-  rsc_3 = "e0e00000DNPs",
-  tst_2 = "e1100000NP",
-  teq_2 = "e1300000NP",
-  cmp_2 = "e1500000NP",
-  cmn_2 = "e1700000NP",
-  orr_3 = "e1800000DNPs",
-  mov_2 = "e1a00000DPs",
-  bic_3 = "e1c00000DNPs",
-  mvn_2 = "e1e00000DPs",
-
-  and_4 = "e0000000DNMps",
-  eor_4 = "e0200000DNMps",
-  sub_4 = "e0400000DNMps",
-  rsb_4 = "e0600000DNMps",
-  add_4 = "e0800000DNMps",
-  adc_4 = "e0a00000DNMps",
-  sbc_4 = "e0c00000DNMps",
-  rsc_4 = "e0e00000DNMps",
-  tst_3 = "e1100000NMp",
-  teq_3 = "e1300000NMp",
-  cmp_3 = "e1500000NMp",
-  cmn_3 = "e1700000NMp",
-  orr_4 = "e1800000DNMps",
-  mov_3 = "e1a00000DMps",
-  bic_4 = "e1c00000DNMps",
-  mvn_3 = "e1e00000DMps",
-
-  lsl_3 = "e1a00000DMws",
-  lsr_3 = "e1a00020DMws",
-  asr_3 = "e1a00040DMws",
-  ror_3 = "e1a00060DMws",
-  rrx_2 = "e1a00060DMs",
-
-  -- Multiply and multiply-accumulate.
-  mul_3 = "e0000090NMSs",
-  mla_4 = "e0200090NMSDs",
-  umaal_4 = "e0400090DNMSs",	-- v6
-  mls_4 = "e0600090DNMSs",	-- v6T2
-  umull_4 = "e0800090DNMSs",
-  umlal_4 = "e0a00090DNMSs",
-  smull_4 = "e0c00090DNMSs",
-  smlal_4 = "e0e00090DNMSs",
-
-  -- Halfword multiply and multiply-accumulate.
-  smlabb_4 = "e1000080NMSD",	-- v5TE
-  smlatb_4 = "e10000a0NMSD",	-- v5TE
-  smlabt_4 = "e10000c0NMSD",	-- v5TE
-  smlatt_4 = "e10000e0NMSD",	-- v5TE
-  smlawb_4 = "e1200080NMSD",	-- v5TE
-  smulwb_3 = "e12000a0NMS",	-- v5TE
-  smlawt_4 = "e12000c0NMSD",	-- v5TE
-  smulwt_3 = "e12000e0NMS",	-- v5TE
-  smlalbb_4 = "e1400080NMSD",	-- v5TE
-  smlaltb_4 = "e14000a0NMSD",	-- v5TE
-  smlalbt_4 = "e14000c0NMSD",	-- v5TE
-  smlaltt_4 = "e14000e0NMSD",	-- v5TE
-  smulbb_3 = "e1600080NMS",	-- v5TE
-  smultb_3 = "e16000a0NMS",	-- v5TE
-  smulbt_3 = "e16000c0NMS",	-- v5TE
-  smultt_3 = "e16000e0NMS",	-- v5TE
-
-  -- Miscellaneous data processing instructions.
-  clz_2 = "e16f0f10DM", -- v5T
-  rev_2 = "e6bf0f30DM", -- v6
-  rev16_2 = "e6bf0fb0DM", -- v6
-  revsh_2 = "e6ff0fb0DM", -- v6
-  sel_3 = "e6800fb0DNM", -- v6
-  usad8_3 = "e780f010NMS", -- v6
-  usada8_4 = "e7800010NMSD", -- v6
-  rbit_2 = "e6ff0f30DM", -- v6T2
-  movw_2 = "e3000000DW", -- v6T2
-  movt_2 = "e3400000DW", -- v6T2
-  -- Note: the X encodes width-1, not width.
-  sbfx_4 = "e7a00050DMvX", -- v6T2
-  ubfx_4 = "e7e00050DMvX", -- v6T2
-  -- Note: the X encodes the msb field, not the width.
-  bfc_3 = "e7c0001fDvX", -- v6T2
-  bfi_4 = "e7c00010DMvX", -- v6T2
-
-  -- Packing and unpacking instructions.
-  pkhbt_3 = "e6800010DNM", pkhbt_4 = "e6800010DNMv", -- v6
-  pkhtb_3 = "e6800050DNM", pkhtb_4 = "e6800050DNMv", -- v6
-  sxtab_3 = "e6a00070DNM", sxtab_4 = "e6a00070DNMv", -- v6
-  sxtab16_3 = "e6800070DNM", sxtab16_4 = "e6800070DNMv", -- v6
-  sxtah_3 = "e6b00070DNM", sxtah_4 = "e6b00070DNMv", -- v6
-  sxtb_2 = "e6af0070DM", sxtb_3 = "e6af0070DMv", -- v6
-  sxtb16_2 = "e68f0070DM", sxtb16_3 = "e68f0070DMv", -- v6
-  sxth_2 = "e6bf0070DM", sxth_3 = "e6bf0070DMv", -- v6
-  uxtab_3 = "e6e00070DNM", uxtab_4 = "e6e00070DNMv", -- v6
-  uxtab16_3 = "e6c00070DNM", uxtab16_4 = "e6c00070DNMv", -- v6
-  uxtah_3 = "e6f00070DNM", uxtah_4 = "e6f00070DNMv", -- v6
-  uxtb_2 = "e6ef0070DM", uxtb_3 = "e6ef0070DMv", -- v6
-  uxtb16_2 = "e6cf0070DM", uxtb16_3 = "e6cf0070DMv", -- v6
-  uxth_2 = "e6ff0070DM", uxth_3 = "e6ff0070DMv", -- v6
-
-  -- Saturating instructions.
-  qadd_3 = "e1000050DMN",	-- v5TE
-  qsub_3 = "e1200050DMN",	-- v5TE
-  qdadd_3 = "e1400050DMN",	-- v5TE
-  qdsub_3 = "e1600050DMN",	-- v5TE
-  -- Note: the X for ssat* encodes sat_imm-1, not sat_imm.
-  ssat_3 = "e6a00010DXM", ssat_4 = "e6a00010DXMp", -- v6
-  usat_3 = "e6e00010DXM", usat_4 = "e6e00010DXMp", -- v6
-  ssat16_3 = "e6a00f30DXM", -- v6
-  usat16_3 = "e6e00f30DXM", -- v6
-
-  -- Parallel addition and subtraction.
-  sadd16_3 = "e6100f10DNM", -- v6
-  sasx_3 = "e6100f30DNM", -- v6
-  ssax_3 = "e6100f50DNM", -- v6
-  ssub16_3 = "e6100f70DNM", -- v6
-  sadd8_3 = "e6100f90DNM", -- v6
-  ssub8_3 = "e6100ff0DNM", -- v6
-  qadd16_3 = "e6200f10DNM", -- v6
-  qasx_3 = "e6200f30DNM", -- v6
-  qsax_3 = "e6200f50DNM", -- v6
-  qsub16_3 = "e6200f70DNM", -- v6
-  qadd8_3 = "e6200f90DNM", -- v6
-  qsub8_3 = "e6200ff0DNM", -- v6
-  shadd16_3 = "e6300f10DNM", -- v6
-  shasx_3 = "e6300f30DNM", -- v6
-  shsax_3 = "e6300f50DNM", -- v6
-  shsub16_3 = "e6300f70DNM", -- v6
-  shadd8_3 = "e6300f90DNM", -- v6
-  shsub8_3 = "e6300ff0DNM", -- v6
-  uadd16_3 = "e6500f10DNM", -- v6
-  uasx_3 = "e6500f30DNM", -- v6
-  usax_3 = "e6500f50DNM", -- v6
-  usub16_3 = "e6500f70DNM", -- v6
-  uadd8_3 = "e6500f90DNM", -- v6
-  usub8_3 = "e6500ff0DNM", -- v6
-  uqadd16_3 = "e6600f10DNM", -- v6
-  uqasx_3 = "e6600f30DNM", -- v6
-  uqsax_3 = "e6600f50DNM", -- v6
-  uqsub16_3 = "e6600f70DNM", -- v6
-  uqadd8_3 = "e6600f90DNM", -- v6
-  uqsub8_3 = "e6600ff0DNM", -- v6
-  uhadd16_3 = "e6700f10DNM", -- v6
-  uhasx_3 = "e6700f30DNM", -- v6
-  uhsax_3 = "e6700f50DNM", -- v6
-  uhsub16_3 = "e6700f70DNM", -- v6
-  uhadd8_3 = "e6700f90DNM", -- v6
-  uhsub8_3 = "e6700ff0DNM", -- v6
-
-  -- Load/store instructions.
-  str_2 = "e4000000DL", str_3 = "e4000000DL", str_4 = "e4000000DL",
-  strb_2 = "e4400000DL", strb_3 = "e4400000DL", strb_4 = "e4400000DL",
-  ldr_2 = "e4100000DL", ldr_3 = "e4100000DL", ldr_4 = "e4100000DL",
-  ldrb_2 = "e4500000DL", ldrb_3 = "e4500000DL", ldrb_4 = "e4500000DL",
-  strh_2 = "e00000b0DL", strh_3 = "e00000b0DL",
-  ldrh_2 = "e01000b0DL", ldrh_3 = "e01000b0DL",
-  ldrd_2 = "e00000d0DL", ldrd_3 = "e00000d0DL", -- v5TE
-  ldrsb_2 = "e01000d0DL", ldrsb_3 = "e01000d0DL",
-  strd_2 = "e00000f0DL", strd_3 = "e00000f0DL", -- v5TE
-  ldrsh_2 = "e01000f0DL", ldrsh_3 = "e01000f0DL",
-
-  ldm_2 = "e8900000oR", ldmia_2 = "e8900000oR", ldmfd_2 = "e8900000oR",
-  ldmda_2 = "e8100000oR", ldmfa_2 = "e8100000oR",
-  ldmdb_2 = "e9100000oR", ldmea_2 = "e9100000oR",
-  ldmib_2 = "e9900000oR", ldmed_2 = "e9900000oR",
-  stm_2 = "e8800000oR", stmia_2 = "e8800000oR", stmfd_2 = "e8800000oR",
-  stmda_2 = "e8000000oR", stmfa_2 = "e8000000oR",
-  stmdb_2 = "e9000000oR", stmea_2 = "e9000000oR",
-  stmib_2 = "e9800000oR", stmed_2 = "e9800000oR",
-  pop_1 = "e8bd0000R", push_1 = "e92d0000R",
-
-  -- Branch instructions.
-  b_1 = "ea000000B",
-  bl_1 = "eb000000B",
-  blx_1 = "e12fff30C",
-  bx_1 = "e12fff10M",
-
-  -- Miscellaneous instructions.
-  nop_0 = "e1a00000",
-  mrs_1 = "e10f0000D",
-  bkpt_1 = "e1200070K", -- v5T
-  svc_1 = "ef000000T", swi_1 = "ef000000T",
-  ud_0 = "e7f001f0",
-
-  -- VFP instructions.
-  ["vadd.f32_3"] = "ee300a00dnm",
-  ["vadd.f64_3"] = "ee300b00Gdnm",
-  ["vsub.f32_3"] = "ee300a40dnm",
-  ["vsub.f64_3"] = "ee300b40Gdnm",
-  ["vmul.f32_3"] = "ee200a00dnm",
-  ["vmul.f64_3"] = "ee200b00Gdnm",
-  ["vnmul.f32_3"] = "ee200a40dnm",
-  ["vnmul.f64_3"] = "ee200b40Gdnm",
-  ["vmla.f32_3"] = "ee000a00dnm",
-  ["vmla.f64_3"] = "ee000b00Gdnm",
-  ["vmls.f32_3"] = "ee000a40dnm",
-  ["vmls.f64_3"] = "ee000b40Gdnm",
-  ["vnmla.f32_3"] = "ee100a40dnm",
-  ["vnmla.f64_3"] = "ee100b40Gdnm",
-  ["vnmls.f32_3"] = "ee100a00dnm",
-  ["vnmls.f64_3"] = "ee100b00Gdnm",
-  ["vdiv.f32_3"] = "ee800a00dnm",
-  ["vdiv.f64_3"] = "ee800b00Gdnm",
-
-  ["vabs.f32_2"] = "eeb00ac0dm",
-  ["vabs.f64_2"] = "eeb00bc0Gdm",
-  ["vneg.f32_2"] = "eeb10a40dm",
-  ["vneg.f64_2"] = "eeb10b40Gdm",
-  ["vsqrt.f32_2"] = "eeb10ac0dm",
-  ["vsqrt.f64_2"] = "eeb10bc0Gdm",
-  ["vcmp.f32_2"] = "eeb40a40dm",
-  ["vcmp.f64_2"] = "eeb40b40Gdm",
-  ["vcmpe.f32_2"] = "eeb40ac0dm",
-  ["vcmpe.f64_2"] = "eeb40bc0Gdm",
-  ["vcmpz.f32_1"] = "eeb50a40d",
-  ["vcmpz.f64_1"] = "eeb50b40Gd",
-  ["vcmpze.f32_1"] = "eeb50ac0d",
-  ["vcmpze.f64_1"] = "eeb50bc0Gd",
-
-  vldr_2 = "ed100a00dl|ed100b00Gdl",
-  vstr_2 = "ed000a00dl|ed000b00Gdl",
-  vldm_2 = "ec900a00or",
-  vldmia_2 = "ec900a00or",
-  vldmdb_2 = "ed100a00or",
-  vpop_1 = "ecbd0a00r",
-  vstm_2 = "ec800a00or",
-  vstmia_2 = "ec800a00or",
-  vstmdb_2 = "ed000a00or",
-  vpush_1 = "ed2d0a00r",
-
-  ["vmov.f32_2"] = "eeb00a40dm|eeb00a00dY",	-- #imm is VFPv3 only
-  ["vmov.f64_2"] = "eeb00b40Gdm|eeb00b00GdY",	-- #imm is VFPv3 only
-  vmov_2 = "ee100a10Dn|ee000a10nD",
-  vmov_3 = "ec500a10DNm|ec400a10mDN|ec500b10GDNm|ec400b10GmDN",
-
-  vmrs_0 = "eef1fa10",
-  vmrs_1 = "eef10a10D",
-  vmsr_1 = "eee10a10D",
-
-  ["vcvt.s32.f32_2"] = "eebd0ac0dm",
-  ["vcvt.s32.f64_2"] = "eebd0bc0dGm",
-  ["vcvt.u32.f32_2"] = "eebc0ac0dm",
-  ["vcvt.u32.f64_2"] = "eebc0bc0dGm",
-  ["vcvtr.s32.f32_2"] = "eebd0a40dm",
-  ["vcvtr.s32.f64_2"] = "eebd0b40dGm",
-  ["vcvtr.u32.f32_2"] = "eebc0a40dm",
-  ["vcvtr.u32.f64_2"] = "eebc0b40dGm",
-  ["vcvt.f32.s32_2"] = "eeb80ac0dm",
-  ["vcvt.f64.s32_2"] = "eeb80bc0GdFm",
-  ["vcvt.f32.u32_2"] = "eeb80a40dm",
-  ["vcvt.f64.u32_2"] = "eeb80b40GdFm",
-  ["vcvt.f32.f64_2"] = "eeb70bc0dGm",
-  ["vcvt.f64.f32_2"] = "eeb70ac0GdFm",
-
-  -- VFPv4 only:
-  ["vfma.f32_3"] = "eea00a00dnm",
-  ["vfma.f64_3"] = "eea00b00Gdnm",
-  ["vfms.f32_3"] = "eea00a40dnm",
-  ["vfms.f64_3"] = "eea00b40Gdnm",
-  ["vfnma.f32_3"] = "ee900a40dnm",
-  ["vfnma.f64_3"] = "ee900b40Gdnm",
-  ["vfnms.f32_3"] = "ee900a00dnm",
-  ["vfnms.f64_3"] = "ee900b00Gdnm",
-
-  -- NYI: Advanced SIMD instructions.
-
-  -- NYI: I have no need for these instructions right now:
-  -- swp, swpb, strex, ldrex, strexd, ldrexd, strexb, ldrexb, strexh, ldrexh
-  -- msr, nopv6, yield, wfe, wfi, sev, dbg, bxj, smc, srs, rfe
-  -- cps, setend, pli, pld, pldw, clrex, dsb, dmb, isb
-  -- stc, ldc, mcr, mcr2, mrc, mrc2, mcrr, mcrr2, mrrc, mrrc2, cdp, cdp2
-}
-
--- Add mnemonics for "s" variants.
-do
-  local t = {}
-  for k,v in pairs(map_op) do
-    if sub(v, -1) == "s" then
-      local v2 = sub(v, 1, 2)..char(byte(v, 3)+1)..sub(v, 4, -2)
-      t[sub(k, 1, -3).."s"..sub(k, -2)] = v2
-    end
-  end
-  for k,v in pairs(t) do
-    map_op[k] = v
-  end
-end
-
-------------------------------------------------------------------------------
-
-local function parse_gpr(expr)
-  local tname, ovreg = match(expr, "^([%w_]+):(r1?[0-9])$")
-  local tp = map_type[tname or expr]
-  if tp then
-    local reg = ovreg or tp.reg
-    if not reg then
-      werror("type `"..(tname or expr).."' needs a register override")
-    end
-    expr = reg
-  end
-  local r = match(expr, "^r(1?[0-9])$")
-  if r then
-    r = tonumber(r)
-    if r <= 15 then return r, tp end
-  end
-  werror("bad register name `"..expr.."'")
-end
-
-local function parse_gpr_pm(expr)
-  local pm, expr2 = match(expr, "^([+-]?)(.*)$")
-  return parse_gpr(expr2), (pm == "-")
-end
-
-local function parse_vr(expr, tp)
-  local t, r = match(expr, "^([sd])([0-9]+)$")
-  if t == tp then
-    r = tonumber(r)
-    if r <= 31 then
-      if t == "s" then return shr(r, 1), band(r, 1) end
-      return band(r, 15), shr(r, 4)
-    end
-  end
-  werror("bad register name `"..expr.."'")
-end
-
-local function parse_reglist(reglist)
-  reglist = match(reglist, "^{%s*([^}]*)}$")
-  if not reglist then werror("register list expected") end
-  local rr = 0
-  for p in gmatch(reglist..",", "%s*([^,]*),") do
-    local rbit = shl(1, parse_gpr(gsub(p, "%s+$", "")))
-    if band(rr, rbit) ~= 0 then
-      werror("duplicate register `"..p.."'")
-    end
-    rr = rr + rbit
-  end
-  return rr
-end
-
-local function parse_vrlist(reglist)
-  local ta, ra, tb, rb = match(reglist,
-			   "^{%s*([sd])([0-9]+)%s*%-%s*([sd])([0-9]+)%s*}$")
-  ra, rb = tonumber(ra), tonumber(rb)
-  if ta and ta == tb and ra and rb and ra <= 31 and rb <= 31 and ra <= rb then
-    local nr = rb+1 - ra
-    if ta == "s" then
-      return shl(shr(ra,1),12)+shl(band(ra,1),22) + nr
-    else
-      return shl(band(ra,15),12)+shl(shr(ra,4),22) + nr*2 + 0x100
-    end
-  end
-  werror("register list expected")
-end
-
-local function parse_imm(imm, bits, shift, scale, signed)
-  imm = match(imm, "^#(.*)$")
-  if not imm then werror("expected immediate operand") end
-  local n = tonumber(imm)
-  if n then
-    local m = sar(n, scale)
-    if shl(m, scale) == n then
-      if signed then
-	local s = sar(m, bits-1)
-	if s == 0 then return shl(m, shift)
-	elseif s == -1 then return shl(m + shl(1, bits), shift) end
-      else
-	if sar(m, bits) == 0 then return shl(m, shift) end
-      end
-    end
-    werror("out of range immediate `"..imm.."'")
-  else
-    waction("IMM", (signed and 32768 or 0)+scale*1024+bits*32+shift, imm)
-    return 0
-  end
-end
-
-local function parse_imm12(imm)
-  local n = tonumber(imm)
-  if n then
-    local m = band(n)
-    for i=0,-15,-1 do
-      if shr(m, 8) == 0 then return m + shl(band(i, 15), 8) end
-      m = ror(m, 2)
-    end
-    werror("out of range immediate `"..imm.."'")
-  else
-    waction("IMM12", 0, imm)
-    return 0
-  end
-end
-
-local function parse_imm16(imm)
-  imm = match(imm, "^#(.*)$")
-  if not imm then werror("expected immediate operand") end
-  local n = tonumber(imm)
-  if n then
-    if shr(n, 16) == 0 then return band(n, 0x0fff) + shl(band(n, 0xf000), 4) end
-    werror("out of range immediate `"..imm.."'")
-  else
-    waction("IMM16", 32*16, imm)
-    return 0
-  end
-end
-
-local function parse_imm_load(imm, ext)
-  local n = tonumber(imm)
-  if n then
-    if ext then
-      if n >= -255 and n <= 255 then
-	local up = 0x00800000
-	if n < 0 then n = -n; up = 0 end
-	return shl(band(n, 0xf0), 4) + band(n, 0x0f) + up
-      end
-    else
-      if n >= -4095 and n <= 4095 then
-	if n >= 0 then return n+0x00800000 end
-	return -n
-      end
-    end
-    werror("out of range immediate `"..imm.."'")
-  else
-    waction(ext and "IMML8" or "IMML12", 32768 + shl(ext and 8 or 12, 5), imm)
-    return 0
-  end
-end
-
-local function parse_shift(shift, gprok)
-  if shift == "rrx" then
-    return 3 * 32
-  else
-    local s, s2 = match(shift, "^(%S+)%s*(.*)$")
-    s = map_shift[s]
-    if not s then werror("expected shift operand") end
-    if sub(s2, 1, 1) == "#" then
-      return parse_imm(s2, 5, 7, 0, false) + shl(s, 5)
-    else
-      if not gprok then werror("expected immediate shift operand") end
-      return shl(parse_gpr(s2), 8) + shl(s, 5) + 16
-    end
-  end
-end
-
-local function parse_label(label, def)
-  local prefix = sub(label, 1, 2)
-  -- =>label (pc label reference)
-  if prefix == "=>" then
-    return "PC", 0, sub(label, 3)
-  end
-  -- ->name (global label reference)
-  if prefix == "->" then
-    return "LG", map_global[sub(label, 3)]
-  end
-  if def then
-    -- [1-9] (local label definition)
-    if match(label, "^[1-9]$") then
-      return "LG", 10+tonumber(label)
-    end
-  else
-    -- [<>][1-9] (local label reference)
-    local dir, lnum = match(label, "^([<>])([1-9])$")
-    if dir then -- Fwd: 1-9, Bkwd: 11-19.
-      return "LG", lnum + (dir == ">" and 0 or 10)
-    end
-    -- extern label (extern label reference)
-    local extname = match(label, "^extern%s+(%S+)$")
-    if extname then
-      return "EXT", map_extern[extname]
-    end
-  end
-  werror("bad label `"..label.."'")
-end
-
-local function parse_load(params, nparams, n, op)
-  local oplo = band(op, 255)
-  local ext, ldrd = (oplo ~= 0), (oplo == 208)
-  local d
-  if (ldrd or oplo == 240) then
-    d = band(shr(op, 12), 15)
-    if band(d, 1) ~= 0 then werror("odd destination register") end
-  end
-  local pn = params[n]
-  local p1, wb = match(pn, "^%[%s*(.-)%s*%](!?)$")
-  local p2 = params[n+1]
-  if not p1 then
-    if not p2 then
-      if match(pn, "^[<>=%-]") or match(pn, "^extern%s+") then
-	local mode, n, s = parse_label(pn, false)
-	waction("REL_"..mode, n + (ext and 0x1800 or 0x0800), s, 1)
-	return op + 15 * 65536 + 0x01000000 + (ext and 0x00400000 or 0)
-      end
-      local reg, tailr = match(pn, "^([%w_:]+)%s*(.*)$")
-      if reg and tailr ~= "" then
-	local d, tp = parse_gpr(reg)
-	if tp then
-	  waction(ext and "IMML8" or "IMML12", 32768 + 32*(ext and 8 or 12),
-		  format(tp.ctypefmt, tailr))
-	  return op + shl(d, 16) + 0x01000000 + (ext and 0x00400000 or 0)
-	end
-      end
-    end
-    werror("expected address operand")
-  end
-  if wb == "!" then op = op + 0x00200000 end
-  if p2 then
-    if wb == "!" then werror("bad use of '!'") end
-    local p3 = params[n+2]
-    op = op + shl(parse_gpr(p1), 16)
-    local imm = match(p2, "^#(.*)$")
-    if imm then
-      local m = parse_imm_load(imm, ext)
-      if p3 then werror("too many parameters") end
-      op = op + m + (ext and 0x00400000 or 0)
-    else
-      local m, neg = parse_gpr_pm(p2)
-      if ldrd and (m == d or m-1 == d) then werror("register conflict") end
-      op = op + m + (neg and 0 or 0x00800000) + (ext and 0 or 0x02000000)
-      if p3 then op = op + parse_shift(p3) end
-    end
-  else
-    local p1a, p2 = match(p1, "^([^,%s]*)%s*(.*)$")
-    op = op + shl(parse_gpr(p1a), 16) + 0x01000000
-    if p2 ~= "" then
-      local imm = match(p2, "^,%s*#(.*)$")
-      if imm then
-	local m = parse_imm_load(imm, ext)
-	op = op + m + (ext and 0x00400000 or 0)
-      else
-	local p2a, p3 = match(p2, "^,%s*([^,%s]*)%s*,?%s*(.*)$")
-	local m, neg = parse_gpr_pm(p2a)
-	if ldrd and (m == d or m-1 == d) then werror("register conflict") end
-	op = op + m + (neg and 0 or 0x00800000) + (ext and 0 or 0x02000000)
-	if p3 ~= "" then
-	  if ext then werror("too many parameters") end
-	  op = op + parse_shift(p3)
-	end
-      end
-    else
-      if wb == "!" then werror("bad use of '!'") end
-      op = op + (ext and 0x00c00000 or 0x00800000)
-    end
-  end
-  return op
-end
-
-local function parse_vload(q)
-  local reg, imm = match(q, "^%[%s*([^,%s]*)%s*(.*)%]$")
-  if reg then
-    local d = shl(parse_gpr(reg), 16)
-    if imm == "" then return d end
-    imm = match(imm, "^,%s*#(.*)$")
-    if imm then
-      local n = tonumber(imm)
-      if n then
-	if n >= -1020 and n <= 1020 and n%4 == 0 then
-	  return d + (n >= 0 and n/4+0x00800000 or -n/4)
-	end
-	werror("out of range immediate `"..imm.."'")
-      else
-	waction("IMMV8", 32768 + 32*8, imm)
-	return d
-      end
-    end
-  else
-    if match(q, "^[<>=%-]") or match(q, "^extern%s+") then
-      local mode, n, s = parse_label(q, false)
-      waction("REL_"..mode, n + 0x2800, s, 1)
-      return 15 * 65536
-    end
-    local reg, tailr = match(q, "^([%w_:]+)%s*(.*)$")
-    if reg and tailr ~= "" then
-      local d, tp = parse_gpr(reg)
-      if tp then
-	waction("IMMV8", 32768 + 32*8, format(tp.ctypefmt, tailr))
-	return shl(d, 16)
-      end
-    end
-  end
-  werror("expected address operand")
-end
-
-------------------------------------------------------------------------------
-
--- Handle opcodes defined with template strings.
-local function parse_template(params, template, nparams, pos)
-  local op = tonumber(sub(template, 1, 8), 16)
-  local n = 1
-  local vr = "s"
-
-  -- Process each character.
-  for p in gmatch(sub(template, 9), ".") do
-    local q = params[n]
-    if p == "D" then
-      op = op + shl(parse_gpr(q), 12); n = n + 1
-    elseif p == "N" then
-      op = op + shl(parse_gpr(q), 16); n = n + 1
-    elseif p == "S" then
-      op = op + shl(parse_gpr(q), 8); n = n + 1
-    elseif p == "M" then
-      op = op + parse_gpr(q); n = n + 1
-    elseif p == "d" then
-      local r,h = parse_vr(q, vr); op = op+shl(r,12)+shl(h,22); n = n + 1
-    elseif p == "n" then
-      local r,h = parse_vr(q, vr); op = op+shl(r,16)+shl(h,7); n = n + 1
-    elseif p == "m" then
-      local r,h = parse_vr(q, vr); op = op+r+shl(h,5); n = n + 1
-    elseif p == "P" then
-      local imm = match(q, "^#(.*)$")
-      if imm then
-	op = op + parse_imm12(imm) + 0x02000000
-      else
-	op = op + parse_gpr(q)
-      end
-      n = n + 1
-    elseif p == "p" then
-      op = op + parse_shift(q, true); n = n + 1
-    elseif p == "L" then
-      op = parse_load(params, nparams, n, op)
-    elseif p == "l" then
-      op = op + parse_vload(q)
-    elseif p == "B" then
-      local mode, n, s = parse_label(q, false)
-      waction("REL_"..mode, n, s, 1)
-    elseif p == "C" then -- blx gpr vs. blx label.
-      if match(q, "^([%w_]+):(r1?[0-9])$") or match(q, "^r(1?[0-9])$") then
-	op = op + parse_gpr(q)
-      else
-	if op < 0xe0000000 then werror("unconditional instruction") end
-	local mode, n, s = parse_label(q, false)
-	waction("REL_"..mode, n, s, 1)
-	op = 0xfa000000
-      end
-    elseif p == "F" then
-      vr = "s"
-    elseif p == "G" then
-      vr = "d"
-    elseif p == "o" then
-      local r, wb = match(q, "^([^!]*)(!?)$")
-      op = op + shl(parse_gpr(r), 16) + (wb == "!" and 0x00200000 or 0)
-      n = n + 1
-    elseif p == "R" then
-      op = op + parse_reglist(q); n = n + 1
-    elseif p == "r" then
-      op = op + parse_vrlist(q); n = n + 1
-    elseif p == "W" then
-      op = op + parse_imm16(q); n = n + 1
-    elseif p == "v" then
-      op = op + parse_imm(q, 5, 7, 0, false); n = n + 1
-    elseif p == "w" then
-      local imm = match(q, "^#(.*)$")
-      if imm then
-	op = op + parse_imm(q, 5, 7, 0, false); n = n + 1
-      else
-	op = op + shl(parse_gpr(q), 8) + 16
-      end
-    elseif p == "X" then
-      op = op + parse_imm(q, 5, 16, 0, false); n = n + 1
-    elseif p == "Y" then
-      local imm = tonumber(match(q, "^#(.*)$")); n = n + 1
-      if not imm or shr(imm, 8) ~= 0 then
-	werror("bad immediate operand")
-      end
-      op = op + shl(band(imm, 0xf0), 12) + band(imm, 0x0f)
-    elseif p == "K" then
-      local imm = tonumber(match(q, "^#(.*)$")); n = n + 1
-      if not imm or shr(imm, 16) ~= 0 then
-	werror("bad immediate operand")
-      end
-      op = op + shl(band(imm, 0xfff0), 4) + band(imm, 0x000f)
-    elseif p == "T" then
-      op = op + parse_imm(q, 24, 0, 0, false); n = n + 1
-    elseif p == "s" then
-      -- Ignored.
-    else
-      assert(false)
-    end
-  end
-  wputpos(pos, op)
-end
-
-map_op[".template__"] = function(params, template, nparams)
-  if not params then return sub(template, 9) end
-
-  -- Limit number of section buffer positions used by a single dasm_put().
-  -- A single opcode needs a maximum of 3 positions.
-  if secpos+3 > maxsecpos then wflush() end
-  local pos = wpos()
-  local apos, spos = #actargs, secpos
-
-  local ok, err
-  for t in gmatch(template, "[^|]+") do
-    ok, err = pcall(parse_template, params, t, nparams, pos)
-    if ok then return end
-    secpos = spos
-    actargs[apos+1] = nil
-    actargs[apos+2] = nil
-    actargs[apos+3] = nil
-  end
-  error(err, 0)
-end
-
-------------------------------------------------------------------------------
-
--- Pseudo-opcode to mark the position where the action list is to be emitted.
-map_op[".actionlist_1"] = function(params)
-  if not params then return "cvar" end
-  local name = params[1] -- No syntax check. You get to keep the pieces.
-  wline(function(out) writeactions(out, name) end)
-end
-
--- Pseudo-opcode to mark the position where the global enum is to be emitted.
-map_op[".globals_1"] = function(params)
-  if not params then return "prefix" end
-  local prefix = params[1] -- No syntax check. You get to keep the pieces.
-  wline(function(out) writeglobals(out, prefix) end)
-end
-
--- Pseudo-opcode to mark the position where the global names are to be emitted.
-map_op[".globalnames_1"] = function(params)
-  if not params then return "cvar" end
-  local name = params[1] -- No syntax check. You get to keep the pieces.
-  wline(function(out) writeglobalnames(out, name) end)
-end
-
--- Pseudo-opcode to mark the position where the extern names are to be emitted.
-map_op[".externnames_1"] = function(params)
-  if not params then return "cvar" end
-  local name = params[1] -- No syntax check. You get to keep the pieces.
-  wline(function(out) writeexternnames(out, name) end)
-end
-
-------------------------------------------------------------------------------
-
--- Label pseudo-opcode (converted from trailing colon form).
-map_op[".label_1"] = function(params)
-  if not params then return "[1-9] | ->global | =>pcexpr" end
-  if secpos+1 > maxsecpos then wflush() end
-  local mode, n, s = parse_label(params[1], true)
-  if mode == "EXT" then werror("bad label definition") end
-  waction("LABEL_"..mode, n, s, 1)
-end
-
-------------------------------------------------------------------------------
-
--- Pseudo-opcodes for data storage.
-map_op[".long_*"] = function(params)
-  if not params then return "imm..." end
-  for _,p in ipairs(params) do
-    local n = tonumber(p)
-    if not n then werror("bad immediate `"..p.."'") end
-    if n < 0 then n = n + 2^32 end
-    wputw(n)
-    if secpos+2 > maxsecpos then wflush() end
-  end
-end
-
--- Alignment pseudo-opcode.
-map_op[".align_1"] = function(params)
-  if not params then return "numpow2" end
-  if secpos+1 > maxsecpos then wflush() end
-  local align = tonumber(params[1])
-  if align then
-    local x = align
-    -- Must be a power of 2 in the range (2 ... 256).
-    for i=1,8 do
-      x = x / 2
-      if x == 1 then
-	waction("ALIGN", align-1, nil, 1) -- Action byte is 2**n-1.
-	return
-      end
-    end
-  end
-  werror("bad alignment")
-end
-
-------------------------------------------------------------------------------
-
--- Pseudo-opcode for (primitive) type definitions (map to C types).
-map_op[".type_3"] = function(params, nparams)
-  if not params then
-    return nparams == 2 and "name, ctype" or "name, ctype, reg"
-  end
-  local name, ctype, reg = params[1], params[2], params[3]
-  if not match(name, "^[%a_][%w_]*$") then
-    werror("bad type name `"..name.."'")
-  end
-  local tp = map_type[name]
-  if tp then
-    werror("duplicate type `"..name.."'")
-  end
-  -- Add #type to defines. A bit unclean to put it in map_archdef.
-  map_archdef["#"..name] = "sizeof("..ctype..")"
-  -- Add new type and emit shortcut define.
-  local num = ctypenum + 1
-  map_type[name] = {
-    ctype = ctype,
-    ctypefmt = format("Dt%X(%%s)", num),
-    reg = reg,
-  }
-  wline(format("#define Dt%X(_V) (int)(ptrdiff_t)&(((%s *)0)_V)", num, ctype))
-  ctypenum = num
-end
-map_op[".type_2"] = map_op[".type_3"]
-
--- Dump type definitions.
-local function dumptypes(out, lvl)
-  local t = {}
-  for name in pairs(map_type) do t[#t+1] = name end
-  sort(t)
-  out:write("Type definitions:\n")
-  for _,name in ipairs(t) do
-    local tp = map_type[name]
-    local reg = tp.reg or ""
-    out:write(format("  %-20s %-20s %s\n", name, tp.ctype, reg))
-  end
-  out:write("\n")
-end
-
-------------------------------------------------------------------------------
-
--- Set the current section.
-function _M.section(num)
-  waction("SECTION", num)
-  wflush(true) -- SECTION is a terminal action.
-end
-
-------------------------------------------------------------------------------
-
--- Dump architecture description.
-function _M.dumparch(out)
-  out:write(format("DynASM %s version %s, released %s\n\n",
-    _info.arch, _info.version, _info.release))
-  dumpactions(out)
-end
-
--- Dump all user defined elements.
-function _M.dumpdef(out, lvl)
-  dumptypes(out, lvl)
-  dumpglobals(out, lvl)
-  dumpexterns(out, lvl)
-end
-
-------------------------------------------------------------------------------
-
--- Pass callbacks from/to the DynASM core.
-function _M.passcb(wl, we, wf, ww)
-  wline, werror, wfatal, wwarn = wl, we, wf, ww
-  return wflush
-end
-
--- Setup the arch-specific module.
-function _M.setup(arch, opt)
-  g_arch, g_opt = arch, opt
-end
-
--- Merge the core maps and the arch-specific maps.
-function _M.mergemaps(map_coreop, map_def)
-  setmetatable(map_op, { __index = function(t, k)
-    local v = map_coreop[k]
-    if v then return v end
-    local k1, cc, k2 = match(k, "^(.-)(..)([._].*)$")
-    local cv = map_cond[cc]
-    if cv then
-      local v = rawget(t, k1..k2)
-      if type(v) == "string" then
-	local scv = format("%x", cv)
-	return gsub(scv..sub(v, 2), "|e", "|"..scv)
-      end
-    end
-  end })
-  setmetatable(map_def, { __index = map_archdef })
-  return map_op, map_def
-end
-
-return _M
-
-------------------------------------------------------------------------------
-
diff --git a/luajit-2.0/dynasm/dasm_mips.h b/luajit-2.0/dynasm/dasm_mips.h
deleted file mode 100644
index 4359588..0000000
--- a/luajit-2.0/dynasm/dasm_mips.h
+++ /dev/null
@@ -1,416 +0,0 @@
-/*
-** DynASM MIPS encoding engine.
-** Copyright (C) 2005-2014 Mike Pall. All rights reserved.
-** Released under the MIT license. See dynasm.lua for full copyright notice.
-*/
-
-#include <stddef.h>
-#include <stdarg.h>
-#include <string.h>
-#include <stdlib.h>
-
-#define DASM_ARCH		"mips"
-
-#ifndef DASM_EXTERN
-#define DASM_EXTERN(a,b,c,d)	0
-#endif
-
-/* Action definitions. */
-enum {
-  DASM_STOP, DASM_SECTION, DASM_ESC, DASM_REL_EXT,
-  /* The following actions need a buffer position. */
-  DASM_ALIGN, DASM_REL_LG, DASM_LABEL_LG,
-  /* The following actions also have an argument. */
-  DASM_REL_PC, DASM_LABEL_PC, DASM_IMM,
-  DASM__MAX
-};
-
-/* Maximum number of section buffer positions for a single dasm_put() call. */
-#define DASM_MAXSECPOS		25
-
-/* DynASM encoder status codes. Action list offset or number are or'ed in. */
-#define DASM_S_OK		0x00000000
-#define DASM_S_NOMEM		0x01000000
-#define DASM_S_PHASE		0x02000000
-#define DASM_S_MATCH_SEC	0x03000000
-#define DASM_S_RANGE_I		0x11000000
-#define DASM_S_RANGE_SEC	0x12000000
-#define DASM_S_RANGE_LG		0x13000000
-#define DASM_S_RANGE_PC		0x14000000
-#define DASM_S_RANGE_REL	0x15000000
-#define DASM_S_UNDEF_LG		0x21000000
-#define DASM_S_UNDEF_PC		0x22000000
-
-/* Macros to convert positions (8 bit section + 24 bit index). */
-#define DASM_POS2IDX(pos)	((pos)&0x00ffffff)
-#define DASM_POS2BIAS(pos)	((pos)&0xff000000)
-#define DASM_SEC2POS(sec)	((sec)<<24)
-#define DASM_POS2SEC(pos)	((pos)>>24)
-#define DASM_POS2PTR(D, pos)	(D->sections[DASM_POS2SEC(pos)].rbuf + (pos))
-
-/* Action list type. */
-typedef const unsigned int *dasm_ActList;
-
-/* Per-section structure. */
-typedef struct dasm_Section {
-  int *rbuf;		/* Biased buffer pointer (negative section bias). */
-  int *buf;		/* True buffer pointer. */
-  size_t bsize;		/* Buffer size in bytes. */
-  int pos;		/* Biased buffer position. */
-  int epos;		/* End of biased buffer position - max single put. */
-  int ofs;		/* Byte offset into section. */
-} dasm_Section;
-
-/* Core structure holding the DynASM encoding state. */
-struct dasm_State {
-  size_t psize;			/* Allocated size of this structure. */
-  dasm_ActList actionlist;	/* Current actionlist pointer. */
-  int *lglabels;		/* Local/global chain/pos ptrs. */
-  size_t lgsize;
-  int *pclabels;		/* PC label chains/pos ptrs. */
-  size_t pcsize;
-  void **globals;		/* Array of globals (bias -10). */
-  dasm_Section *section;	/* Pointer to active section. */
-  size_t codesize;		/* Total size of all code sections. */
-  int maxsection;		/* 0 <= sectionidx < maxsection. */
-  int status;			/* Status code. */
-  dasm_Section sections[1];	/* All sections. Alloc-extended. */
-};
-
-/* The size of the core structure depends on the max. number of sections. */
-#define DASM_PSZ(ms)	(sizeof(dasm_State)+(ms-1)*sizeof(dasm_Section))
-
-
-/* Initialize DynASM state. */
-void dasm_init(Dst_DECL, int maxsection)
-{
-  dasm_State *D;
-  size_t psz = 0;
-  int i;
-  Dst_REF = NULL;
-  DASM_M_GROW(Dst, struct dasm_State, Dst_REF, psz, DASM_PSZ(maxsection));
-  D = Dst_REF;
-  D->psize = psz;
-  D->lglabels = NULL;
-  D->lgsize = 0;
-  D->pclabels = NULL;
-  D->pcsize = 0;
-  D->globals = NULL;
-  D->maxsection = maxsection;
-  for (i = 0; i < maxsection; i++) {
-    D->sections[i].buf = NULL;  /* Need this for pass3. */
-    D->sections[i].rbuf = D->sections[i].buf - DASM_SEC2POS(i);
-    D->sections[i].bsize = 0;
-    D->sections[i].epos = 0;  /* Wrong, but is recalculated after resize. */
-  }
-}
-
-/* Free DynASM state. */
-void dasm_free(Dst_DECL)
-{
-  dasm_State *D = Dst_REF;
-  int i;
-  for (i = 0; i < D->maxsection; i++)
-    if (D->sections[i].buf)
-      DASM_M_FREE(Dst, D->sections[i].buf, D->sections[i].bsize);
-  if (D->pclabels) DASM_M_FREE(Dst, D->pclabels, D->pcsize);
-  if (D->lglabels) DASM_M_FREE(Dst, D->lglabels, D->lgsize);
-  DASM_M_FREE(Dst, D, D->psize);
-}
-
-/* Setup global label array. Must be called before dasm_setup(). */
-void dasm_setupglobal(Dst_DECL, void **gl, unsigned int maxgl)
-{
-  dasm_State *D = Dst_REF;
-  D->globals = gl - 10;  /* Negative bias to compensate for locals. */
-  DASM_M_GROW(Dst, int, D->lglabels, D->lgsize, (10+maxgl)*sizeof(int));
-}
-
-/* Grow PC label array. Can be called after dasm_setup(), too. */
-void dasm_growpc(Dst_DECL, unsigned int maxpc)
-{
-  dasm_State *D = Dst_REF;
-  size_t osz = D->pcsize;
-  DASM_M_GROW(Dst, int, D->pclabels, D->pcsize, maxpc*sizeof(int));
-  memset((void *)(((unsigned char *)D->pclabels)+osz), 0, D->pcsize-osz);
-}
-
-/* Setup encoder. */
-void dasm_setup(Dst_DECL, const void *actionlist)
-{
-  dasm_State *D = Dst_REF;
-  int i;
-  D->actionlist = (dasm_ActList)actionlist;
-  D->status = DASM_S_OK;
-  D->section = &D->sections[0];
-  memset((void *)D->lglabels, 0, D->lgsize);
-  if (D->pclabels) memset((void *)D->pclabels, 0, D->pcsize);
-  for (i = 0; i < D->maxsection; i++) {
-    D->sections[i].pos = DASM_SEC2POS(i);
-    D->sections[i].ofs = 0;
-  }
-}
-
-
-#ifdef DASM_CHECKS
-#define CK(x, st) \
-  do { if (!(x)) { \
-    D->status = DASM_S_##st|(p-D->actionlist-1); return; } } while (0)
-#define CKPL(kind, st) \
-  do { if ((size_t)((char *)pl-(char *)D->kind##labels) >= D->kind##size) { \
-    D->status = DASM_S_RANGE_##st|(p-D->actionlist-1); return; } } while (0)
-#else
-#define CK(x, st)	((void)0)
-#define CKPL(kind, st)	((void)0)
-#endif
-
-/* Pass 1: Store actions and args, link branches/labels, estimate offsets. */
-void dasm_put(Dst_DECL, int start, ...)
-{
-  va_list ap;
-  dasm_State *D = Dst_REF;
-  dasm_ActList p = D->actionlist + start;
-  dasm_Section *sec = D->section;
-  int pos = sec->pos, ofs = sec->ofs;
-  int *b;
-
-  if (pos >= sec->epos) {
-    DASM_M_GROW(Dst, int, sec->buf, sec->bsize,
-      sec->bsize + 2*DASM_MAXSECPOS*sizeof(int));
-    sec->rbuf = sec->buf - DASM_POS2BIAS(pos);
-    sec->epos = (int)sec->bsize/sizeof(int) - DASM_MAXSECPOS+DASM_POS2BIAS(pos);
-  }
-
-  b = sec->rbuf;
-  b[pos++] = start;
-
-  va_start(ap, start);
-  while (1) {
-    unsigned int ins = *p++;
-    unsigned int action = (ins >> 16) - 0xff00;
-    if (action >= DASM__MAX) {
-      ofs += 4;
-    } else {
-      int *pl, n = action >= DASM_REL_PC ? va_arg(ap, int) : 0;
-      switch (action) {
-      case DASM_STOP: goto stop;
-      case DASM_SECTION:
-	n = (ins & 255); CK(n < D->maxsection, RANGE_SEC);
-	D->section = &D->sections[n]; goto stop;
-      case DASM_ESC: p++; ofs += 4; break;
-      case DASM_REL_EXT: break;
-      case DASM_ALIGN: ofs += (ins & 255); b[pos++] = ofs; break;
-      case DASM_REL_LG:
-	n = (ins & 2047) - 10; pl = D->lglabels + n;
-	/* Bkwd rel or global. */
-	if (n >= 0) { CK(n>=10||*pl<0, RANGE_LG); CKPL(lg, LG); goto putrel; }
-	pl += 10; n = *pl;
-	if (n < 0) n = 0;  /* Start new chain for fwd rel if label exists. */
-	goto linkrel;
-      case DASM_REL_PC:
-	pl = D->pclabels + n; CKPL(pc, PC);
-      putrel:
-	n = *pl;
-	if (n < 0) {  /* Label exists. Get label pos and store it. */
-	  b[pos] = -n;
-	} else {
-      linkrel:
-	  b[pos] = n;  /* Else link to rel chain, anchored at label. */
-	  *pl = pos;
-	}
-	pos++;
-	break;
-      case DASM_LABEL_LG:
-	pl = D->lglabels + (ins & 2047) - 10; CKPL(lg, LG); goto putlabel;
-      case DASM_LABEL_PC:
-	pl = D->pclabels + n; CKPL(pc, PC);
-      putlabel:
-	n = *pl;  /* n > 0: Collapse rel chain and replace with label pos. */
-	while (n > 0) { int *pb = DASM_POS2PTR(D, n); n = *pb; *pb = pos;
-	}
-	*pl = -pos;  /* Label exists now. */
-	b[pos++] = ofs;  /* Store pass1 offset estimate. */
-	break;
-      case DASM_IMM:
-#ifdef DASM_CHECKS
-	CK((n & ((1<<((ins>>10)&31))-1)) == 0, RANGE_I);
-#endif
-	n >>= ((ins>>10)&31);
-#ifdef DASM_CHECKS
-	if (ins & 0x8000)
-	  CK(((n + (1<<(((ins>>5)&31)-1)))>>((ins>>5)&31)) == 0, RANGE_I);
-	else
-	  CK((n>>((ins>>5)&31)) == 0, RANGE_I);
-#endif
-	b[pos++] = n;
-	break;
-      }
-    }
-  }
-stop:
-  va_end(ap);
-  sec->pos = pos;
-  sec->ofs = ofs;
-}
-#undef CK
-
-/* Pass 2: Link sections, shrink aligns, fix label offsets. */
-int dasm_link(Dst_DECL, size_t *szp)
-{
-  dasm_State *D = Dst_REF;
-  int secnum;
-  int ofs = 0;
-
-#ifdef DASM_CHECKS
-  *szp = 0;
-  if (D->status != DASM_S_OK) return D->status;
-  {
-    int pc;
-    for (pc = 0; pc*sizeof(int) < D->pcsize; pc++)
-      if (D->pclabels[pc] > 0) return DASM_S_UNDEF_PC|pc;
-  }
-#endif
-
-  { /* Handle globals not defined in this translation unit. */
-    int idx;
-    for (idx = 20; idx*sizeof(int) < D->lgsize; idx++) {
-      int n = D->lglabels[idx];
-      /* Undefined label: Collapse rel chain and replace with marker (< 0). */
-      while (n > 0) { int *pb = DASM_POS2PTR(D, n); n = *pb; *pb = -idx; }
-    }
-  }
-
-  /* Combine all code sections. No support for data sections (yet). */
-  for (secnum = 0; secnum < D->maxsection; secnum++) {
-    dasm_Section *sec = D->sections + secnum;
-    int *b = sec->rbuf;
-    int pos = DASM_SEC2POS(secnum);
-    int lastpos = sec->pos;
-
-    while (pos != lastpos) {
-      dasm_ActList p = D->actionlist + b[pos++];
-      while (1) {
-	unsigned int ins = *p++;
-	unsigned int action = (ins >> 16) - 0xff00;
-	switch (action) {
-	case DASM_STOP: case DASM_SECTION: goto stop;
-	case DASM_ESC: p++; break;
-	case DASM_REL_EXT: break;
-	case DASM_ALIGN: ofs -= (b[pos++] + ofs) & (ins & 255); break;
-	case DASM_REL_LG: case DASM_REL_PC: pos++; break;
-	case DASM_LABEL_LG: case DASM_LABEL_PC: b[pos++] += ofs; break;
-	case DASM_IMM: pos++; break;
-	}
-      }
-      stop: (void)0;
-    }
-    ofs += sec->ofs;  /* Next section starts right after current section. */
-  }
-
-  D->codesize = ofs;  /* Total size of all code sections */
-  *szp = ofs;
-  return DASM_S_OK;
-}
-
-#ifdef DASM_CHECKS
-#define CK(x, st) \
-  do { if (!(x)) return DASM_S_##st|(p-D->actionlist-1); } while (0)
-#else
-#define CK(x, st)	((void)0)
-#endif
-
-/* Pass 3: Encode sections. */
-int dasm_encode(Dst_DECL, void *buffer)
-{
-  dasm_State *D = Dst_REF;
-  char *base = (char *)buffer;
-  unsigned int *cp = (unsigned int *)buffer;
-  int secnum;
-
-  /* Encode all code sections. No support for data sections (yet). */
-  for (secnum = 0; secnum < D->maxsection; secnum++) {
-    dasm_Section *sec = D->sections + secnum;
-    int *b = sec->buf;
-    int *endb = sec->rbuf + sec->pos;
-
-    while (b != endb) {
-      dasm_ActList p = D->actionlist + *b++;
-      while (1) {
-	unsigned int ins = *p++;
-	unsigned int action = (ins >> 16) - 0xff00;
-	int n = (action >= DASM_ALIGN && action < DASM__MAX) ? *b++ : 0;
-	switch (action) {
-	case DASM_STOP: case DASM_SECTION: goto stop;
-	case DASM_ESC: *cp++ = *p++; break;
-	case DASM_REL_EXT:
-	  n = DASM_EXTERN(Dst, (unsigned char *)cp, (ins & 2047), 1);
-	  goto patchrel;
-	case DASM_ALIGN:
-	  ins &= 255; while ((((char *)cp - base) & ins)) *cp++ = 0x60000000;
-	  break;
-	case DASM_REL_LG:
-	  CK(n >= 0, UNDEF_LG);
-	case DASM_REL_PC:
-	  CK(n >= 0, UNDEF_PC);
-	  n = *DASM_POS2PTR(D, n);
-	  if (ins & 2048)
-	    n = n - (int)((char *)cp - base);
-	  else
-	    n = (n + (int)base) & 0x0fffffff;
-	patchrel:
-	  CK((n & 3) == 0 &&
-	     ((n + ((ins & 2048) ? 0x00020000 : 0)) >>
-	       ((ins & 2048) ? 18 : 28)) == 0, RANGE_REL);
-	  cp[-1] |= ((n>>2) & ((ins & 2048) ? 0x0000ffff: 0x03ffffff));
-	  break;
-	case DASM_LABEL_LG:
-	  ins &= 2047; if (ins >= 20) D->globals[ins-10] = (void *)(base + n);
-	  break;
-	case DASM_LABEL_PC: break;
-	case DASM_IMM:
-	  cp[-1] |= (n & ((1<<((ins>>5)&31))-1)) << (ins&31);
-	  break;
-	default: *cp++ = ins; break;
-	}
-      }
-      stop: (void)0;
-    }
-  }
-
-  if (base + D->codesize != (char *)cp)  /* Check for phase errors. */
-    return DASM_S_PHASE;
-  return DASM_S_OK;
-}
-#undef CK
-
-/* Get PC label offset. */
-int dasm_getpclabel(Dst_DECL, unsigned int pc)
-{
-  dasm_State *D = Dst_REF;
-  if (pc*sizeof(int) < D->pcsize) {
-    int pos = D->pclabels[pc];
-    if (pos < 0) return *DASM_POS2PTR(D, -pos);
-    if (pos > 0) return -1;  /* Undefined. */
-  }
-  return -2;  /* Unused or out of range. */
-}
-
-#ifdef DASM_CHECKS
-/* Optional sanity checker to call between isolated encoding steps. */
-int dasm_checkstep(Dst_DECL, int secmatch)
-{
-  dasm_State *D = Dst_REF;
-  if (D->status == DASM_S_OK) {
-    int i;
-    for (i = 1; i <= 9; i++) {
-      if (D->lglabels[i] > 0) { D->status = DASM_S_UNDEF_LG|i; break; }
-      D->lglabels[i] = 0;
-    }
-  }
-  if (D->status == DASM_S_OK && secmatch >= 0 &&
-      D->section != &D->sections[secmatch])
-    D->status = DASM_S_MATCH_SEC|(D->section-D->sections);
-  return D->status;
-}
-#endif
-
diff --git a/luajit-2.0/dynasm/dasm_mips.lua b/luajit-2.0/dynasm/dasm_mips.lua
deleted file mode 100644
index 82942cb..0000000
--- a/luajit-2.0/dynasm/dasm_mips.lua
+++ /dev/null
@@ -1,953 +0,0 @@
-------------------------------------------------------------------------------
--- DynASM MIPS module.
---
--- Copyright (C) 2005-2014 Mike Pall. All rights reserved.
--- See dynasm.lua for full copyright notice.
-------------------------------------------------------------------------------
-
--- Module information:
-local _info = {
-  arch =	"mips",
-  description =	"DynASM MIPS module",
-  version =	"1.3.0",
-  vernum =	 10300,
-  release =	"2012-01-23",
-  author =	"Mike Pall",
-  license =	"MIT",
-}
-
--- Exported glue functions for the arch-specific module.
-local _M = { _info = _info }
-
--- Cache library functions.
-local type, tonumber, pairs, ipairs = type, tonumber, pairs, ipairs
-local assert, setmetatable = assert, setmetatable
-local _s = string
-local sub, format, byte, char = _s.sub, _s.format, _s.byte, _s.char
-local match, gmatch = _s.match, _s.gmatch
-local concat, sort = table.concat, table.sort
-local bit = bit or require("bit")
-local band, shl, sar, tohex = bit.band, bit.lshift, bit.arshift, bit.tohex
-
--- Inherited tables and callbacks.
-local g_opt, g_arch
-local wline, werror, wfatal, wwarn
-
--- Action name list.
--- CHECK: Keep this in sync with the C code!
-local action_names = {
-  "STOP", "SECTION", "ESC", "REL_EXT",
-  "ALIGN", "REL_LG", "LABEL_LG",
-  "REL_PC", "LABEL_PC", "IMM",
-}
-
--- Maximum number of section buffer positions for dasm_put().
--- CHECK: Keep this in sync with the C code!
-local maxsecpos = 25 -- Keep this low, to avoid excessively long C lines.
-
--- Action name -> action number.
-local map_action = {}
-for n,name in ipairs(action_names) do
-  map_action[name] = n-1
-end
-
--- Action list buffer.
-local actlist = {}
-
--- Argument list for next dasm_put(). Start with offset 0 into action list.
-local actargs = { 0 }
-
--- Current number of section buffer positions for dasm_put().
-local secpos = 1
-
-------------------------------------------------------------------------------
-
--- Dump action names and numbers.
-local function dumpactions(out)
-  out:write("DynASM encoding engine action codes:\n")
-  for n,name in ipairs(action_names) do
-    local num = map_action[name]
-    out:write(format("  %-10s %02X  %d\n", name, num, num))
-  end
-  out:write("\n")
-end
-
--- Write action list buffer as a huge static C array.
-local function writeactions(out, name)
-  local nn = #actlist
-  if nn == 0 then nn = 1; actlist[0] = map_action.STOP end
-  out:write("static const unsigned int ", name, "[", nn, "] = {\n")
-  for i = 1,nn-1 do
-    assert(out:write("0x", tohex(actlist[i]), ",\n"))
-  end
-  assert(out:write("0x", tohex(actlist[nn]), "\n};\n\n"))
-end
-
-------------------------------------------------------------------------------
-
--- Add word to action list.
-local function wputxw(n)
-  assert(n >= 0 and n <= 0xffffffff and n % 1 == 0, "word out of range")
-  actlist[#actlist+1] = n
-end
-
--- Add action to list with optional arg. Advance buffer pos, too.
-local function waction(action, val, a, num)
-  local w = assert(map_action[action], "bad action name `"..action.."'")
-  wputxw(0xff000000 + w * 0x10000 + (val or 0))
-  if a then actargs[#actargs+1] = a end
-  if a or num then secpos = secpos + (num or 1) end
-end
-
--- Flush action list (intervening C code or buffer pos overflow).
-local function wflush(term)
-  if #actlist == actargs[1] then return end -- Nothing to flush.
-  if not term then waction("STOP") end -- Terminate action list.
-  wline(format("dasm_put(Dst, %s);", concat(actargs, ", ")), true)
-  actargs = { #actlist } -- Actionlist offset is 1st arg to next dasm_put().
-  secpos = 1 -- The actionlist offset occupies a buffer position, too.
-end
-
--- Put escaped word.
-local function wputw(n)
-  if n >= 0xff000000 then waction("ESC") end
-  wputxw(n)
-end
-
--- Reserve position for word.
-local function wpos()
-  local pos = #actlist+1
-  actlist[pos] = ""
-  return pos
-end
-
--- Store word to reserved position.
-local function wputpos(pos, n)
-  assert(n >= 0 and n <= 0xffffffff and n % 1 == 0, "word out of range")
-  actlist[pos] = n
-end
-
-------------------------------------------------------------------------------
-
--- Global label name -> global label number. With auto assignment on 1st use.
-local next_global = 20
-local map_global = setmetatable({}, { __index = function(t, name)
-  if not match(name, "^[%a_][%w_]*$") then werror("bad global label") end
-  local n = next_global
-  if n > 2047 then werror("too many global labels") end
-  next_global = n + 1
-  t[name] = n
-  return n
-end})
-
--- Dump global labels.
-local function dumpglobals(out, lvl)
-  local t = {}
-  for name, n in pairs(map_global) do t[n] = name end
-  out:write("Global labels:\n")
-  for i=20,next_global-1 do
-    out:write(format("  %s\n", t[i]))
-  end
-  out:write("\n")
-end
-
--- Write global label enum.
-local function writeglobals(out, prefix)
-  local t = {}
-  for name, n in pairs(map_global) do t[n] = name end
-  out:write("enum {\n")
-  for i=20,next_global-1 do
-    out:write("  ", prefix, t[i], ",\n")
-  end
-  out:write("  ", prefix, "_MAX\n};\n")
-end
-
--- Write global label names.
-local function writeglobalnames(out, name)
-  local t = {}
-  for name, n in pairs(map_global) do t[n] = name end
-  out:write("static const char *const ", name, "[] = {\n")
-  for i=20,next_global-1 do
-    out:write("  \"", t[i], "\",\n")
-  end
-  out:write("  (const char *)0\n};\n")
-end
-
-------------------------------------------------------------------------------
-
--- Extern label name -> extern label number. With auto assignment on 1st use.
-local next_extern = 0
-local map_extern_ = {}
-local map_extern = setmetatable({}, { __index = function(t, name)
-  -- No restrictions on the name for now.
-  local n = next_extern
-  if n > 2047 then werror("too many extern labels") end
-  next_extern = n + 1
-  t[name] = n
-  map_extern_[n] = name
-  return n
-end})
-
--- Dump extern labels.
-local function dumpexterns(out, lvl)
-  out:write("Extern labels:\n")
-  for i=0,next_extern-1 do
-    out:write(format("  %s\n", map_extern_[i]))
-  end
-  out:write("\n")
-end
-
--- Write extern label names.
-local function writeexternnames(out, name)
-  out:write("static const char *const ", name, "[] = {\n")
-  for i=0,next_extern-1 do
-    out:write("  \"", map_extern_[i], "\",\n")
-  end
-  out:write("  (const char *)0\n};\n")
-end
-
-------------------------------------------------------------------------------
-
--- Arch-specific maps.
-local map_archdef = { sp="r29", ra="r31" } -- Ext. register name -> int. name.
-
-local map_type = {}		-- Type name -> { ctype, reg }
-local ctypenum = 0		-- Type number (for Dt... macros).
-
--- Reverse defines for registers.
-function _M.revdef(s)
-  if s == "r29" then return "sp"
-  elseif s == "r31" then return "ra" end
-  return s
-end
-
-------------------------------------------------------------------------------
-
--- Template strings for MIPS instructions.
-local map_op = {
-  -- First-level opcodes.
-  j_1 =		"08000000J",
-  jal_1 =	"0c000000J",
-  b_1 =		"10000000B",
-  beqz_2 =	"10000000SB",
-  beq_3 =	"10000000STB",
-  bnez_2 =	"14000000SB",
-  bne_3 =	"14000000STB",
-  blez_2 =	"18000000SB",
-  bgtz_2 =	"1c000000SB",
-  addi_3 =	"20000000TSI",
-  li_2 =	"24000000TI",
-  addiu_3 =	"24000000TSI",
-  slti_3 =	"28000000TSI",
-  sltiu_3 =	"2c000000TSI",
-  andi_3 =	"30000000TSU",
-  lu_2 =	"34000000TU",
-  ori_3 =	"34000000TSU",
-  xori_3 =	"38000000TSU",
-  lui_2 =	"3c000000TU",
-  beqzl_2 =	"50000000SB",
-  beql_3 =	"50000000STB",
-  bnezl_2 =	"54000000SB",
-  bnel_3 =	"54000000STB",
-  blezl_2 =	"58000000SB",
-  bgtzl_2 =	"5c000000SB",
-  lb_2 =	"80000000TO",
-  lh_2 =	"84000000TO",
-  lwl_2 =	"88000000TO",
-  lw_2 =	"8c000000TO",
-  lbu_2 =	"90000000TO",
-  lhu_2 =	"94000000TO",
-  lwr_2 =	"98000000TO",
-  sb_2 =	"a0000000TO",
-  sh_2 =	"a4000000TO",
-  swl_2 =	"a8000000TO",
-  sw_2 =	"ac000000TO",
-  swr_2 =	"b8000000TO",
-  cache_2 =	"bc000000NO",
-  ll_2 =	"c0000000TO",
-  lwc1_2 =	"c4000000HO",
-  pref_2 =	"cc000000NO",
-  ldc1_2 =	"d4000000HO",
-  sc_2 =	"e0000000TO",
-  swc1_2 =	"e4000000HO",
-  sdc1_2 =	"f4000000HO",
-
-  -- Opcode SPECIAL.
-  nop_0 =	"00000000",
-  sll_3 =	"00000000DTA",
-  movf_2 =	"00000001DS",
-  movf_3 =	"00000001DSC",
-  movt_2 =	"00010001DS",
-  movt_3 =	"00010001DSC",
-  srl_3 =	"00000002DTA",
-  rotr_3 =	"00200002DTA",
-  sra_3 =	"00000003DTA",
-  sllv_3 =	"00000004DTS",
-  srlv_3 =	"00000006DTS",
-  rotrv_3 =	"00000046DTS",
-  srav_3 =	"00000007DTS",
-  jr_1 =	"00000008S",
-  jalr_1 =	"0000f809S",
-  jalr_2 =	"00000009DS",
-  movz_3 =	"0000000aDST",
-  movn_3 =	"0000000bDST",
-  syscall_0 =	"0000000c",
-  syscall_1 =	"0000000cY",
-  break_0 =	"0000000d",
-  break_1 =	"0000000dY",
-  sync_0 =	"0000000f",
-  mfhi_1 =	"00000010D",
-  mthi_1 =	"00000011S",
-  mflo_1 =	"00000012D",
-  mtlo_1 =	"00000013S",
-  mult_2 =	"00000018ST",
-  multu_2 =	"00000019ST",
-  div_2 =	"0000001aST",
-  divu_2 =	"0000001bST",
-  add_3 =	"00000020DST",
-  move_2 =	"00000021DS",
-  addu_3 =	"00000021DST",
-  sub_3 =	"00000022DST",
-  negu_2 =	"00000023DT",
-  subu_3 =	"00000023DST",
-  and_3 =	"00000024DST",
-  or_3 =	"00000025DST",
-  xor_3 =	"00000026DST",
-  not_2 =	"00000027DS",
-  nor_3 =	"00000027DST",
-  slt_3 =	"0000002aDST",
-  sltu_3 =	"0000002bDST",
-  tge_2 =	"00000030ST",
-  tge_3 =	"00000030STZ",
-  tgeu_2 =	"00000031ST",
-  tgeu_3 =	"00000031STZ",
-  tlt_2 =	"00000032ST",
-  tlt_3 =	"00000032STZ",
-  tltu_2 =	"00000033ST",
-  tltu_3 =	"00000033STZ",
-  teq_2 =	"00000034ST",
-  teq_3 =	"00000034STZ",
-  tne_2 =	"00000036ST",
-  tne_3 =	"00000036STZ",
-
-  -- Opcode REGIMM.
-  bltz_2 =	"04000000SB",
-  bgez_2 =	"04010000SB",
-  bltzl_2 =	"04020000SB",
-  bgezl_2 =	"04030000SB",
-  tgei_2 =	"04080000SI",
-  tgeiu_2 =	"04090000SI",
-  tlti_2 =	"040a0000SI",
-  tltiu_2 =	"040b0000SI",
-  teqi_2 =	"040c0000SI",
-  tnei_2 =	"040e0000SI",
-  bltzal_2 =	"04100000SB",
-  bal_1 =	"04110000B",
-  bgezal_2 =	"04110000SB",
-  bltzall_2 =	"04120000SB",
-  bgezall_2 =	"04130000SB",
-  synci_1 =	"041f0000O",
-
-  -- Opcode SPECIAL2.
-  madd_2 =	"70000000ST",
-  maddu_2 =	"70000001ST",
-  mul_3 =	"70000002DST",
-  msub_2 =	"70000004ST",
-  msubu_2 =	"70000005ST",
-  clz_2 =	"70000020DS=",
-  clo_2 =	"70000021DS=",
-  sdbbp_0 =	"7000003f",
-  sdbbp_1 =	"7000003fY",
-
-  -- Opcode SPECIAL3.
-  ext_4 =	"7c000000TSAM", -- Note: last arg is msbd = size-1
-  ins_4 =	"7c000004TSAM", -- Note: last arg is msb = pos+size-1
-  wsbh_2 =	"7c0000a0DT",
-  seb_2 =	"7c000420DT",
-  seh_2 =	"7c000620DT",
-  rdhwr_2 =	"7c00003bTD",
-
-  -- Opcode COP0.
-  mfc0_2 =	"40000000TD",
-  mfc0_3 =	"40000000TDW",
-  mtc0_2 =	"40800000TD",
-  mtc0_3 =	"40800000TDW",
-  rdpgpr_2 =	"41400000DT",
-  di_0 =	"41606000",
-  di_1 =	"41606000T",
-  ei_0 =	"41606020",
-  ei_1 =	"41606020T",
-  wrpgpr_2 =	"41c00000DT",
-  tlbr_0 =	"42000001",
-  tlbwi_0 =	"42000002",
-  tlbwr_0 =	"42000006",
-  tlbp_0 =	"42000008",
-  eret_0 =	"42000018",
-  deret_0 =	"4200001f",
-  wait_0 =	"42000020",
-
-  -- Opcode COP1.
-  mfc1_2 =	"44000000TG",
-  cfc1_2 =	"44400000TG",
-  mfhc1_2 =	"44600000TG",
-  mtc1_2 =	"44800000TG",
-  ctc1_2 =	"44c00000TG",
-  mthc1_2 =	"44e00000TG",
-
-  bc1f_1 =	"45000000B",
-  bc1f_2 =	"45000000CB",
-  bc1t_1 =	"45010000B",
-  bc1t_2 =	"45010000CB",
-  bc1fl_1 =	"45020000B",
-  bc1fl_2 =	"45020000CB",
-  bc1tl_1 =	"45030000B",
-  bc1tl_2 =	"45030000CB",
-
-  ["add.s_3"] =		"46000000FGH",
-  ["sub.s_3"] =		"46000001FGH",
-  ["mul.s_3"] =		"46000002FGH",
-  ["div.s_3"] =		"46000003FGH",
-  ["sqrt.s_2"] =	"46000004FG",
-  ["abs.s_2"] =		"46000005FG",
-  ["mov.s_2"] =		"46000006FG",
-  ["neg.s_2"] =		"46000007FG",
-  ["round.l.s_2"] =	"46000008FG",
-  ["trunc.l.s_2"] =	"46000009FG",
-  ["ceil.l.s_2"] =	"4600000aFG",
-  ["floor.l.s_2"] =	"4600000bFG",
-  ["round.w.s_2"] =	"4600000cFG",
-  ["trunc.w.s_2"] =	"4600000dFG",
-  ["ceil.w.s_2"] =	"4600000eFG",
-  ["floor.w.s_2"] =	"4600000fFG",
-  ["movf.s_2"] =	"46000011FG",
-  ["movf.s_3"] =	"46000011FGC",
-  ["movt.s_2"] =	"46010011FG",
-  ["movt.s_3"] =	"46010011FGC",
-  ["movz.s_3"] =	"46000012FGT",
-  ["movn.s_3"] =	"46000013FGT",
-  ["recip.s_2"] =	"46000015FG",
-  ["rsqrt.s_2"] =	"46000016FG",
-  ["cvt.d.s_2"] =	"46000021FG",
-  ["cvt.w.s_2"] =	"46000024FG",
-  ["cvt.l.s_2"] =	"46000025FG",
-  ["cvt.ps.s_3"] =	"46000026FGH",
-  ["c.f.s_2"] =		"46000030GH",
-  ["c.f.s_3"] =		"46000030VGH",
-  ["c.un.s_2"] =	"46000031GH",
-  ["c.un.s_3"] =	"46000031VGH",
-  ["c.eq.s_2"] =	"46000032GH",
-  ["c.eq.s_3"] =	"46000032VGH",
-  ["c.ueq.s_2"] =	"46000033GH",
-  ["c.ueq.s_3"] =	"46000033VGH",
-  ["c.olt.s_2"] =	"46000034GH",
-  ["c.olt.s_3"] =	"46000034VGH",
-  ["c.ult.s_2"] =	"46000035GH",
-  ["c.ult.s_3"] =	"46000035VGH",
-  ["c.ole.s_2"] =	"46000036GH",
-  ["c.ole.s_3"] =	"46000036VGH",
-  ["c.ule.s_2"] =	"46000037GH",
-  ["c.ule.s_3"] =	"46000037VGH",
-  ["c.sf.s_2"] =	"46000038GH",
-  ["c.sf.s_3"] =	"46000038VGH",
-  ["c.ngle.s_2"] =	"46000039GH",
-  ["c.ngle.s_3"] =	"46000039VGH",
-  ["c.seq.s_2"] =	"4600003aGH",
-  ["c.seq.s_3"] =	"4600003aVGH",
-  ["c.ngl.s_2"] =	"4600003bGH",
-  ["c.ngl.s_3"] =	"4600003bVGH",
-  ["c.lt.s_2"] =	"4600003cGH",
-  ["c.lt.s_3"] =	"4600003cVGH",
-  ["c.nge.s_2"] =	"4600003dGH",
-  ["c.nge.s_3"] =	"4600003dVGH",
-  ["c.le.s_2"] =	"4600003eGH",
-  ["c.le.s_3"] =	"4600003eVGH",
-  ["c.ngt.s_2"] =	"4600003fGH",
-  ["c.ngt.s_3"] =	"4600003fVGH",
-
-  ["add.d_3"] =		"46200000FGH",
-  ["sub.d_3"] =		"46200001FGH",
-  ["mul.d_3"] =		"46200002FGH",
-  ["div.d_3"] =		"46200003FGH",
-  ["sqrt.d_2"] =	"46200004FG",
-  ["abs.d_2"] =		"46200005FG",
-  ["mov.d_2"] =		"46200006FG",
-  ["neg.d_2"] =		"46200007FG",
-  ["round.l.d_2"] =	"46200008FG",
-  ["trunc.l.d_2"] =	"46200009FG",
-  ["ceil.l.d_2"] =	"4620000aFG",
-  ["floor.l.d_2"] =	"4620000bFG",
-  ["round.w.d_2"] =	"4620000cFG",
-  ["trunc.w.d_2"] =	"4620000dFG",
-  ["ceil.w.d_2"] =	"4620000eFG",
-  ["floor.w.d_2"] =	"4620000fFG",
-  ["movf.d_2"] =	"46200011FG",
-  ["movf.d_3"] =	"46200011FGC",
-  ["movt.d_2"] =	"46210011FG",
-  ["movt.d_3"] =	"46210011FGC",
-  ["movz.d_3"] =	"46200012FGT",
-  ["movn.d_3"] =	"46200013FGT",
-  ["recip.d_2"] =	"46200015FG",
-  ["rsqrt.d_2"] =	"46200016FG",
-  ["cvt.s.d_2"] =	"46200020FG",
-  ["cvt.w.d_2"] =	"46200024FG",
-  ["cvt.l.d_2"] =	"46200025FG",
-  ["c.f.d_2"] =		"46200030GH",
-  ["c.f.d_3"] =		"46200030VGH",
-  ["c.un.d_2"] =	"46200031GH",
-  ["c.un.d_3"] =	"46200031VGH",
-  ["c.eq.d_2"] =	"46200032GH",
-  ["c.eq.d_3"] =	"46200032VGH",
-  ["c.ueq.d_2"] =	"46200033GH",
-  ["c.ueq.d_3"] =	"46200033VGH",
-  ["c.olt.d_2"] =	"46200034GH",
-  ["c.olt.d_3"] =	"46200034VGH",
-  ["c.ult.d_2"] =	"46200035GH",
-  ["c.ult.d_3"] =	"46200035VGH",
-  ["c.ole.d_2"] =	"46200036GH",
-  ["c.ole.d_3"] =	"46200036VGH",
-  ["c.ule.d_2"] =	"46200037GH",
-  ["c.ule.d_3"] =	"46200037VGH",
-  ["c.sf.d_2"] =	"46200038GH",
-  ["c.sf.d_3"] =	"46200038VGH",
-  ["c.ngle.d_2"] =	"46200039GH",
-  ["c.ngle.d_3"] =	"46200039VGH",
-  ["c.seq.d_2"] =	"4620003aGH",
-  ["c.seq.d_3"] =	"4620003aVGH",
-  ["c.ngl.d_2"] =	"4620003bGH",
-  ["c.ngl.d_3"] =	"4620003bVGH",
-  ["c.lt.d_2"] =	"4620003cGH",
-  ["c.lt.d_3"] =	"4620003cVGH",
-  ["c.nge.d_2"] =	"4620003dGH",
-  ["c.nge.d_3"] =	"4620003dVGH",
-  ["c.le.d_2"] =	"4620003eGH",
-  ["c.le.d_3"] =	"4620003eVGH",
-  ["c.ngt.d_2"] =	"4620003fGH",
-  ["c.ngt.d_3"] =	"4620003fVGH",
-
-  ["add.ps_3"] =	"46c00000FGH",
-  ["sub.ps_3"] =	"46c00001FGH",
-  ["mul.ps_3"] =	"46c00002FGH",
-  ["abs.ps_2"] =	"46c00005FG",
-  ["mov.ps_2"] =	"46c00006FG",
-  ["neg.ps_2"] =	"46c00007FG",
-  ["movf.ps_2"] =	"46c00011FG",
-  ["movf.ps_3"] =	"46c00011FGC",
-  ["movt.ps_2"] =	"46c10011FG",
-  ["movt.ps_3"] =	"46c10011FGC",
-  ["movz.ps_3"] =	"46c00012FGT",
-  ["movn.ps_3"] =	"46c00013FGT",
-  ["cvt.s.pu_2"] =	"46c00020FG",
-  ["cvt.s.pl_2"] =	"46c00028FG",
-  ["pll.ps_3"] =	"46c0002cFGH",
-  ["plu.ps_3"] =	"46c0002dFGH",
-  ["pul.ps_3"] =	"46c0002eFGH",
-  ["puu.ps_3"] =	"46c0002fFGH",
-  ["c.f.ps_2"] =	"46c00030GH",
-  ["c.f.ps_3"] =	"46c00030VGH",
-  ["c.un.ps_2"] =	"46c00031GH",
-  ["c.un.ps_3"] =	"46c00031VGH",
-  ["c.eq.ps_2"] =	"46c00032GH",
-  ["c.eq.ps_3"] =	"46c00032VGH",
-  ["c.ueq.ps_2"] =	"46c00033GH",
-  ["c.ueq.ps_3"] =	"46c00033VGH",
-  ["c.olt.ps_2"] =	"46c00034GH",
-  ["c.olt.ps_3"] =	"46c00034VGH",
-  ["c.ult.ps_2"] =	"46c00035GH",
-  ["c.ult.ps_3"] =	"46c00035VGH",
-  ["c.ole.ps_2"] =	"46c00036GH",
-  ["c.ole.ps_3"] =	"46c00036VGH",
-  ["c.ule.ps_2"] =	"46c00037GH",
-  ["c.ule.ps_3"] =	"46c00037VGH",
-  ["c.sf.ps_2"] =	"46c00038GH",
-  ["c.sf.ps_3"] =	"46c00038VGH",
-  ["c.ngle.ps_2"] =	"46c00039GH",
-  ["c.ngle.ps_3"] =	"46c00039VGH",
-  ["c.seq.ps_2"] =	"46c0003aGH",
-  ["c.seq.ps_3"] =	"46c0003aVGH",
-  ["c.ngl.ps_2"] =	"46c0003bGH",
-  ["c.ngl.ps_3"] =	"46c0003bVGH",
-  ["c.lt.ps_2"] =	"46c0003cGH",
-  ["c.lt.ps_3"] =	"46c0003cVGH",
-  ["c.nge.ps_2"] =	"46c0003dGH",
-  ["c.nge.ps_3"] =	"46c0003dVGH",
-  ["c.le.ps_2"] =	"46c0003eGH",
-  ["c.le.ps_3"] =	"46c0003eVGH",
-  ["c.ngt.ps_2"] =	"46c0003fGH",
-  ["c.ngt.ps_3"] =	"46c0003fVGH",
-
-  ["cvt.s.w_2"] =	"46800020FG",
-  ["cvt.d.w_2"] =	"46800021FG",
-
-  ["cvt.s.l_2"] =	"46a00020FG",
-  ["cvt.d.l_2"] =	"46a00021FG",
-
-  -- Opcode COP1X.
-  lwxc1_2 =		"4c000000FX",
-  ldxc1_2 =		"4c000001FX",
-  luxc1_2 =		"4c000005FX",
-  swxc1_2 =		"4c000008FX",
-  sdxc1_2 =		"4c000009FX",
-  suxc1_2 =		"4c00000dFX",
-  prefx_2 =		"4c00000fMX",
-  ["alnv.ps_4"] =	"4c00001eFGHS",
-  ["madd.s_4"] =	"4c000020FRGH",
-  ["madd.d_4"] =	"4c000021FRGH",
-  ["madd.ps_4"] =	"4c000026FRGH",
-  ["msub.s_4"] =	"4c000028FRGH",
-  ["msub.d_4"] =	"4c000029FRGH",
-  ["msub.ps_4"] =	"4c00002eFRGH",
-  ["nmadd.s_4"] =	"4c000030FRGH",
-  ["nmadd.d_4"] =	"4c000031FRGH",
-  ["nmadd.ps_4"] =	"4c000036FRGH",
-  ["nmsub.s_4"] =	"4c000038FRGH",
-  ["nmsub.d_4"] =	"4c000039FRGH",
-  ["nmsub.ps_4"] =	"4c00003eFRGH",
-}
-
-------------------------------------------------------------------------------
-
-local function parse_gpr(expr)
-  local tname, ovreg = match(expr, "^([%w_]+):(r[1-3]?[0-9])$")
-  local tp = map_type[tname or expr]
-  if tp then
-    local reg = ovreg or tp.reg
-    if not reg then
-      werror("type `"..(tname or expr).."' needs a register override")
-    end
-    expr = reg
-  end
-  local r = match(expr, "^r([1-3]?[0-9])$")
-  if r then
-    r = tonumber(r)
-    if r <= 31 then return r, tp end
-  end
-  werror("bad register name `"..expr.."'")
-end
-
-local function parse_fpr(expr)
-  local r = match(expr, "^f([1-3]?[0-9])$")
-  if r then
-    r = tonumber(r)
-    if r <= 31 then return r end
-  end
-  werror("bad register name `"..expr.."'")
-end
-
-local function parse_imm(imm, bits, shift, scale, signed)
-  local n = tonumber(imm)
-  if n then
-    local m = sar(n, scale)
-    if shl(m, scale) == n then
-      if signed then
-	local s = sar(m, bits-1)
-	if s == 0 then return shl(m, shift)
-	elseif s == -1 then return shl(m + shl(1, bits), shift) end
-      else
-	if sar(m, bits) == 0 then return shl(m, shift) end
-      end
-    end
-    werror("out of range immediate `"..imm.."'")
-  elseif match(imm, "^[rf]([1-3]?[0-9])$") or
-	 match(imm, "^([%w_]+):([rf][1-3]?[0-9])$") then
-    werror("expected immediate operand, got register")
-  else
-    waction("IMM", (signed and 32768 or 0)+scale*1024+bits*32+shift, imm)
-    return 0
-  end
-end
-
-local function parse_disp(disp)
-  local imm, reg = match(disp, "^(.*)%(([%w_:]+)%)$")
-  if imm then
-    local r = shl(parse_gpr(reg), 21)
-    local extname = match(imm, "^extern%s+(%S+)$")
-    if extname then
-      waction("REL_EXT", map_extern[extname], nil, 1)
-      return r
-    else
-      return r + parse_imm(imm, 16, 0, 0, true)
-    end
-  end
-  local reg, tailr = match(disp, "^([%w_:]+)%s*(.*)$")
-  if reg and tailr ~= "" then
-    local r, tp = parse_gpr(reg)
-    if tp then
-      waction("IMM", 32768+16*32, format(tp.ctypefmt, tailr))
-      return shl(r, 21)
-    end
-  end
-  werror("bad displacement `"..disp.."'")
-end
-
-local function parse_index(idx)
-  local rt, rs = match(idx, "^(.*)%(([%w_:]+)%)$")
-  if rt then
-    rt = parse_gpr(rt)
-    rs = parse_gpr(rs)
-    return shl(rt, 16) + shl(rs, 21)
-  end
-  werror("bad index `"..idx.."'")
-end
-
-local function parse_label(label, def)
-  local prefix = sub(label, 1, 2)
-  -- =>label (pc label reference)
-  if prefix == "=>" then
-    return "PC", 0, sub(label, 3)
-  end
-  -- ->name (global label reference)
-  if prefix == "->" then
-    return "LG", map_global[sub(label, 3)]
-  end
-  if def then
-    -- [1-9] (local label definition)
-    if match(label, "^[1-9]$") then
-      return "LG", 10+tonumber(label)
-    end
-  else
-    -- [<>][1-9] (local label reference)
-    local dir, lnum = match(label, "^([<>])([1-9])$")
-    if dir then -- Fwd: 1-9, Bkwd: 11-19.
-      return "LG", lnum + (dir == ">" and 0 or 10)
-    end
-    -- extern label (extern label reference)
-    local extname = match(label, "^extern%s+(%S+)$")
-    if extname then
-      return "EXT", map_extern[extname]
-    end
-  end
-  werror("bad label `"..label.."'")
-end
-
-------------------------------------------------------------------------------
-
--- Handle opcodes defined with template strings.
-map_op[".template__"] = function(params, template, nparams)
-  if not params then return sub(template, 9) end
-  local op = tonumber(sub(template, 1, 8), 16)
-  local n = 1
-
-  -- Limit number of section buffer positions used by a single dasm_put().
-  -- A single opcode needs a maximum of 2 positions (ins/ext).
-  if secpos+2 > maxsecpos then wflush() end
-  local pos = wpos()
-
-  -- Process each character.
-  for p in gmatch(sub(template, 9), ".") do
-    if p == "D" then
-      op = op + shl(parse_gpr(params[n]), 11); n = n + 1
-    elseif p == "T" then
-      op = op + shl(parse_gpr(params[n]), 16); n = n + 1
-    elseif p == "S" then
-      op = op + shl(parse_gpr(params[n]), 21); n = n + 1
-    elseif p == "F" then
-      op = op + shl(parse_fpr(params[n]), 6); n = n + 1
-    elseif p == "G" then
-      op = op + shl(parse_fpr(params[n]), 11); n = n + 1
-    elseif p == "H" then
-      op = op + shl(parse_fpr(params[n]), 16); n = n + 1
-    elseif p == "R" then
-      op = op + shl(parse_fpr(params[n]), 21); n = n + 1
-    elseif p == "I" then
-      op = op + parse_imm(params[n], 16, 0, 0, true); n = n + 1
-    elseif p == "U" then
-      op = op + parse_imm(params[n], 16, 0, 0, false); n = n + 1
-    elseif p == "O" then
-      op = op + parse_disp(params[n]); n = n + 1
-    elseif p == "X" then
-      op = op + parse_index(params[n]); n = n + 1
-    elseif p == "B" or p == "J" then
-      local mode, n, s = parse_label(params[n], false)
-      if p == "B" then n = n + 2048 end
-      waction("REL_"..mode, n, s, 1)
-      n = n + 1
-    elseif p == "A" then
-      op = op + parse_imm(params[n], 5, 6, 0, false); n = n + 1
-    elseif p == "M" then
-      op = op + parse_imm(params[n], 5, 11, 0, false); n = n + 1
-    elseif p == "N" then
-      op = op + parse_imm(params[n], 5, 16, 0, false); n = n + 1
-    elseif p == "C" then
-      op = op + parse_imm(params[n], 3, 18, 0, false); n = n + 1
-    elseif p == "V" then
-      op = op + parse_imm(params[n], 3, 8, 0, false); n = n + 1
-    elseif p == "W" then
-      op = op + parse_imm(params[n], 3, 0, 0, false); n = n + 1
-    elseif p == "Y" then
-      op = op + parse_imm(params[n], 20, 6, 0, false); n = n + 1
-    elseif p == "Z" then
-      op = op + parse_imm(params[n], 10, 6, 0, false); n = n + 1
-    elseif p == "=" then
-      op = op + shl(band(op, 0xf800), 5) -- Copy D to T for clz, clo.
-    else
-      assert(false)
-    end
-  end
-  wputpos(pos, op)
-end
-
-------------------------------------------------------------------------------
-
--- Pseudo-opcode to mark the position where the action list is to be emitted.
-map_op[".actionlist_1"] = function(params)
-  if not params then return "cvar" end
-  local name = params[1] -- No syntax check. You get to keep the pieces.
-  wline(function(out) writeactions(out, name) end)
-end
-
--- Pseudo-opcode to mark the position where the global enum is to be emitted.
-map_op[".globals_1"] = function(params)
-  if not params then return "prefix" end
-  local prefix = params[1] -- No syntax check. You get to keep the pieces.
-  wline(function(out) writeglobals(out, prefix) end)
-end
-
--- Pseudo-opcode to mark the position where the global names are to be emitted.
-map_op[".globalnames_1"] = function(params)
-  if not params then return "cvar" end
-  local name = params[1] -- No syntax check. You get to keep the pieces.
-  wline(function(out) writeglobalnames(out, name) end)
-end
-
--- Pseudo-opcode to mark the position where the extern names are to be emitted.
-map_op[".externnames_1"] = function(params)
-  if not params then return "cvar" end
-  local name = params[1] -- No syntax check. You get to keep the pieces.
-  wline(function(out) writeexternnames(out, name) end)
-end
-
-------------------------------------------------------------------------------
-
--- Label pseudo-opcode (converted from trailing colon form).
-map_op[".label_1"] = function(params)
-  if not params then return "[1-9] | ->global | =>pcexpr" end
-  if secpos+1 > maxsecpos then wflush() end
-  local mode, n, s = parse_label(params[1], true)
-  if mode == "EXT" then werror("bad label definition") end
-  waction("LABEL_"..mode, n, s, 1)
-end
-
-------------------------------------------------------------------------------
-
--- Pseudo-opcodes for data storage.
-map_op[".long_*"] = function(params)
-  if not params then return "imm..." end
-  for _,p in ipairs(params) do
-    local n = tonumber(p)
-    if not n then werror("bad immediate `"..p.."'") end
-    if n < 0 then n = n + 2^32 end
-    wputw(n)
-    if secpos+2 > maxsecpos then wflush() end
-  end
-end
-
--- Alignment pseudo-opcode.
-map_op[".align_1"] = function(params)
-  if not params then return "numpow2" end
-  if secpos+1 > maxsecpos then wflush() end
-  local align = tonumber(params[1])
-  if align then
-    local x = align
-    -- Must be a power of 2 in the range (2 ... 256).
-    for i=1,8 do
-      x = x / 2
-      if x == 1 then
-	waction("ALIGN", align-1, nil, 1) -- Action byte is 2**n-1.
-	return
-      end
-    end
-  end
-  werror("bad alignment")
-end
-
-------------------------------------------------------------------------------
-
--- Pseudo-opcode for (primitive) type definitions (map to C types).
-map_op[".type_3"] = function(params, nparams)
-  if not params then
-    return nparams == 2 and "name, ctype" or "name, ctype, reg"
-  end
-  local name, ctype, reg = params[1], params[2], params[3]
-  if not match(name, "^[%a_][%w_]*$") then
-    werror("bad type name `"..name.."'")
-  end
-  local tp = map_type[name]
-  if tp then
-    werror("duplicate type `"..name.."'")
-  end
-  -- Add #type to defines. A bit unclean to put it in map_archdef.
-  map_archdef["#"..name] = "sizeof("..ctype..")"
-  -- Add new type and emit shortcut define.
-  local num = ctypenum + 1
-  map_type[name] = {
-    ctype = ctype,
-    ctypefmt = format("Dt%X(%%s)", num),
-    reg = reg,
-  }
-  wline(format("#define Dt%X(_V) (int)(ptrdiff_t)&(((%s *)0)_V)", num, ctype))
-  ctypenum = num
-end
-map_op[".type_2"] = map_op[".type_3"]
-
--- Dump type definitions.
-local function dumptypes(out, lvl)
-  local t = {}
-  for name in pairs(map_type) do t[#t+1] = name end
-  sort(t)
-  out:write("Type definitions:\n")
-  for _,name in ipairs(t) do
-    local tp = map_type[name]
-    local reg = tp.reg or ""
-    out:write(format("  %-20s %-20s %s\n", name, tp.ctype, reg))
-  end
-  out:write("\n")
-end
-
-------------------------------------------------------------------------------
-
--- Set the current section.
-function _M.section(num)
-  waction("SECTION", num)
-  wflush(true) -- SECTION is a terminal action.
-end
-
-------------------------------------------------------------------------------
-
--- Dump architecture description.
-function _M.dumparch(out)
-  out:write(format("DynASM %s version %s, released %s\n\n",
-    _info.arch, _info.version, _info.release))
-  dumpactions(out)
-end
-
--- Dump all user defined elements.
-function _M.dumpdef(out, lvl)
-  dumptypes(out, lvl)
-  dumpglobals(out, lvl)
-  dumpexterns(out, lvl)
-end
-
-------------------------------------------------------------------------------
-
--- Pass callbacks from/to the DynASM core.
-function _M.passcb(wl, we, wf, ww)
-  wline, werror, wfatal, wwarn = wl, we, wf, ww
-  return wflush
-end
-
--- Setup the arch-specific module.
-function _M.setup(arch, opt)
-  g_arch, g_opt = arch, opt
-end
-
--- Merge the core maps and the arch-specific maps.
-function _M.mergemaps(map_coreop, map_def)
-  setmetatable(map_op, { __index = map_coreop })
-  setmetatable(map_def, { __index = map_archdef })
-  return map_op, map_def
-end
-
-return _M
-
-------------------------------------------------------------------------------
-
diff --git a/luajit-2.0/dynasm/dasm_ppc.h b/luajit-2.0/dynasm/dasm_ppc.h
deleted file mode 100644
index 5ccff25..0000000
--- a/luajit-2.0/dynasm/dasm_ppc.h
+++ /dev/null
@@ -1,412 +0,0 @@
-/*
-** DynASM PPC encoding engine.
-** Copyright (C) 2005-2014 Mike Pall. All rights reserved.
-** Released under the MIT license. See dynasm.lua for full copyright notice.
-*/
-
-#include <stddef.h>
-#include <stdarg.h>
-#include <string.h>
-#include <stdlib.h>
-
-#define DASM_ARCH		"ppc"
-
-#ifndef DASM_EXTERN
-#define DASM_EXTERN(a,b,c,d)	0
-#endif
-
-/* Action definitions. */
-enum {
-  DASM_STOP, DASM_SECTION, DASM_ESC, DASM_REL_EXT,
-  /* The following actions need a buffer position. */
-  DASM_ALIGN, DASM_REL_LG, DASM_LABEL_LG,
-  /* The following actions also have an argument. */
-  DASM_REL_PC, DASM_LABEL_PC, DASM_IMM,
-  DASM__MAX
-};
-
-/* Maximum number of section buffer positions for a single dasm_put() call. */
-#define DASM_MAXSECPOS		25
-
-/* DynASM encoder status codes. Action list offset or number are or'ed in. */
-#define DASM_S_OK		0x00000000
-#define DASM_S_NOMEM		0x01000000
-#define DASM_S_PHASE		0x02000000
-#define DASM_S_MATCH_SEC	0x03000000
-#define DASM_S_RANGE_I		0x11000000
-#define DASM_S_RANGE_SEC	0x12000000
-#define DASM_S_RANGE_LG		0x13000000
-#define DASM_S_RANGE_PC		0x14000000
-#define DASM_S_RANGE_REL	0x15000000
-#define DASM_S_UNDEF_LG		0x21000000
-#define DASM_S_UNDEF_PC		0x22000000
-
-/* Macros to convert positions (8 bit section + 24 bit index). */
-#define DASM_POS2IDX(pos)	((pos)&0x00ffffff)
-#define DASM_POS2BIAS(pos)	((pos)&0xff000000)
-#define DASM_SEC2POS(sec)	((sec)<<24)
-#define DASM_POS2SEC(pos)	((pos)>>24)
-#define DASM_POS2PTR(D, pos)	(D->sections[DASM_POS2SEC(pos)].rbuf + (pos))
-
-/* Action list type. */
-typedef const unsigned int *dasm_ActList;
-
-/* Per-section structure. */
-typedef struct dasm_Section {
-  int *rbuf;		/* Biased buffer pointer (negative section bias). */
-  int *buf;		/* True buffer pointer. */
-  size_t bsize;		/* Buffer size in bytes. */
-  int pos;		/* Biased buffer position. */
-  int epos;		/* End of biased buffer position - max single put. */
-  int ofs;		/* Byte offset into section. */
-} dasm_Section;
-
-/* Core structure holding the DynASM encoding state. */
-struct dasm_State {
-  size_t psize;			/* Allocated size of this structure. */
-  dasm_ActList actionlist;	/* Current actionlist pointer. */
-  int *lglabels;		/* Local/global chain/pos ptrs. */
-  size_t lgsize;
-  int *pclabels;		/* PC label chains/pos ptrs. */
-  size_t pcsize;
-  void **globals;		/* Array of globals (bias -10). */
-  dasm_Section *section;	/* Pointer to active section. */
-  size_t codesize;		/* Total size of all code sections. */
-  int maxsection;		/* 0 <= sectionidx < maxsection. */
-  int status;			/* Status code. */
-  dasm_Section sections[1];	/* All sections. Alloc-extended. */
-};
-
-/* The size of the core structure depends on the max. number of sections. */
-#define DASM_PSZ(ms)	(sizeof(dasm_State)+(ms-1)*sizeof(dasm_Section))
-
-
-/* Initialize DynASM state. */
-void dasm_init(Dst_DECL, int maxsection)
-{
-  dasm_State *D;
-  size_t psz = 0;
-  int i;
-  Dst_REF = NULL;
-  DASM_M_GROW(Dst, struct dasm_State, Dst_REF, psz, DASM_PSZ(maxsection));
-  D = Dst_REF;
-  D->psize = psz;
-  D->lglabels = NULL;
-  D->lgsize = 0;
-  D->pclabels = NULL;
-  D->pcsize = 0;
-  D->globals = NULL;
-  D->maxsection = maxsection;
-  for (i = 0; i < maxsection; i++) {
-    D->sections[i].buf = NULL;  /* Need this for pass3. */
-    D->sections[i].rbuf = D->sections[i].buf - DASM_SEC2POS(i);
-    D->sections[i].bsize = 0;
-    D->sections[i].epos = 0;  /* Wrong, but is recalculated after resize. */
-  }
-}
-
-/* Free DynASM state. */
-void dasm_free(Dst_DECL)
-{
-  dasm_State *D = Dst_REF;
-  int i;
-  for (i = 0; i < D->maxsection; i++)
-    if (D->sections[i].buf)
-      DASM_M_FREE(Dst, D->sections[i].buf, D->sections[i].bsize);
-  if (D->pclabels) DASM_M_FREE(Dst, D->pclabels, D->pcsize);
-  if (D->lglabels) DASM_M_FREE(Dst, D->lglabels, D->lgsize);
-  DASM_M_FREE(Dst, D, D->psize);
-}
-
-/* Setup global label array. Must be called before dasm_setup(). */
-void dasm_setupglobal(Dst_DECL, void **gl, unsigned int maxgl)
-{
-  dasm_State *D = Dst_REF;
-  D->globals = gl - 10;  /* Negative bias to compensate for locals. */
-  DASM_M_GROW(Dst, int, D->lglabels, D->lgsize, (10+maxgl)*sizeof(int));
-}
-
-/* Grow PC label array. Can be called after dasm_setup(), too. */
-void dasm_growpc(Dst_DECL, unsigned int maxpc)
-{
-  dasm_State *D = Dst_REF;
-  size_t osz = D->pcsize;
-  DASM_M_GROW(Dst, int, D->pclabels, D->pcsize, maxpc*sizeof(int));
-  memset((void *)(((unsigned char *)D->pclabels)+osz), 0, D->pcsize-osz);
-}
-
-/* Setup encoder. */
-void dasm_setup(Dst_DECL, const void *actionlist)
-{
-  dasm_State *D = Dst_REF;
-  int i;
-  D->actionlist = (dasm_ActList)actionlist;
-  D->status = DASM_S_OK;
-  D->section = &D->sections[0];
-  memset((void *)D->lglabels, 0, D->lgsize);
-  if (D->pclabels) memset((void *)D->pclabels, 0, D->pcsize);
-  for (i = 0; i < D->maxsection; i++) {
-    D->sections[i].pos = DASM_SEC2POS(i);
-    D->sections[i].ofs = 0;
-  }
-}
-
-
-#ifdef DASM_CHECKS
-#define CK(x, st) \
-  do { if (!(x)) { \
-    D->status = DASM_S_##st|(p-D->actionlist-1); return; } } while (0)
-#define CKPL(kind, st) \
-  do { if ((size_t)((char *)pl-(char *)D->kind##labels) >= D->kind##size) { \
-    D->status = DASM_S_RANGE_##st|(p-D->actionlist-1); return; } } while (0)
-#else
-#define CK(x, st)	((void)0)
-#define CKPL(kind, st)	((void)0)
-#endif
-
-/* Pass 1: Store actions and args, link branches/labels, estimate offsets. */
-void dasm_put(Dst_DECL, int start, ...)
-{
-  va_list ap;
-  dasm_State *D = Dst_REF;
-  dasm_ActList p = D->actionlist + start;
-  dasm_Section *sec = D->section;
-  int pos = sec->pos, ofs = sec->ofs;
-  int *b;
-
-  if (pos >= sec->epos) {
-    DASM_M_GROW(Dst, int, sec->buf, sec->bsize,
-      sec->bsize + 2*DASM_MAXSECPOS*sizeof(int));
-    sec->rbuf = sec->buf - DASM_POS2BIAS(pos);
-    sec->epos = (int)sec->bsize/sizeof(int) - DASM_MAXSECPOS+DASM_POS2BIAS(pos);
-  }
-
-  b = sec->rbuf;
-  b[pos++] = start;
-
-  va_start(ap, start);
-  while (1) {
-    unsigned int ins = *p++;
-    unsigned int action = (ins >> 16);
-    if (action >= DASM__MAX) {
-      ofs += 4;
-    } else {
-      int *pl, n = action >= DASM_REL_PC ? va_arg(ap, int) : 0;
-      switch (action) {
-      case DASM_STOP: goto stop;
-      case DASM_SECTION:
-	n = (ins & 255); CK(n < D->maxsection, RANGE_SEC);
-	D->section = &D->sections[n]; goto stop;
-      case DASM_ESC: p++; ofs += 4; break;
-      case DASM_REL_EXT: break;
-      case DASM_ALIGN: ofs += (ins & 255); b[pos++] = ofs; break;
-      case DASM_REL_LG:
-	n = (ins & 2047) - 10; pl = D->lglabels + n;
-	/* Bkwd rel or global. */
-	if (n >= 0) { CK(n>=10||*pl<0, RANGE_LG); CKPL(lg, LG); goto putrel; }
-	pl += 10; n = *pl;
-	if (n < 0) n = 0;  /* Start new chain for fwd rel if label exists. */
-	goto linkrel;
-      case DASM_REL_PC:
-	pl = D->pclabels + n; CKPL(pc, PC);
-      putrel:
-	n = *pl;
-	if (n < 0) {  /* Label exists. Get label pos and store it. */
-	  b[pos] = -n;
-	} else {
-      linkrel:
-	  b[pos] = n;  /* Else link to rel chain, anchored at label. */
-	  *pl = pos;
-	}
-	pos++;
-	break;
-      case DASM_LABEL_LG:
-	pl = D->lglabels + (ins & 2047) - 10; CKPL(lg, LG); goto putlabel;
-      case DASM_LABEL_PC:
-	pl = D->pclabels + n; CKPL(pc, PC);
-      putlabel:
-	n = *pl;  /* n > 0: Collapse rel chain and replace with label pos. */
-	while (n > 0) { int *pb = DASM_POS2PTR(D, n); n = *pb; *pb = pos;
-	}
-	*pl = -pos;  /* Label exists now. */
-	b[pos++] = ofs;  /* Store pass1 offset estimate. */
-	break;
-      case DASM_IMM:
-#ifdef DASM_CHECKS
-	CK((n & ((1<<((ins>>10)&31))-1)) == 0, RANGE_I);
-#endif
-	n >>= ((ins>>10)&31);
-#ifdef DASM_CHECKS
-	if (ins & 0x8000)
-	  CK(((n + (1<<(((ins>>5)&31)-1)))>>((ins>>5)&31)) == 0, RANGE_I);
-	else
-	  CK((n>>((ins>>5)&31)) == 0, RANGE_I);
-#endif
-	b[pos++] = n;
-	break;
-      }
-    }
-  }
-stop:
-  va_end(ap);
-  sec->pos = pos;
-  sec->ofs = ofs;
-}
-#undef CK
-
-/* Pass 2: Link sections, shrink aligns, fix label offsets. */
-int dasm_link(Dst_DECL, size_t *szp)
-{
-  dasm_State *D = Dst_REF;
-  int secnum;
-  int ofs = 0;
-
-#ifdef DASM_CHECKS
-  *szp = 0;
-  if (D->status != DASM_S_OK) return D->status;
-  {
-    int pc;
-    for (pc = 0; pc*sizeof(int) < D->pcsize; pc++)
-      if (D->pclabels[pc] > 0) return DASM_S_UNDEF_PC|pc;
-  }
-#endif
-
-  { /* Handle globals not defined in this translation unit. */
-    int idx;
-    for (idx = 20; idx*sizeof(int) < D->lgsize; idx++) {
-      int n = D->lglabels[idx];
-      /* Undefined label: Collapse rel chain and replace with marker (< 0). */
-      while (n > 0) { int *pb = DASM_POS2PTR(D, n); n = *pb; *pb = -idx; }
-    }
-  }
-
-  /* Combine all code sections. No support for data sections (yet). */
-  for (secnum = 0; secnum < D->maxsection; secnum++) {
-    dasm_Section *sec = D->sections + secnum;
-    int *b = sec->rbuf;
-    int pos = DASM_SEC2POS(secnum);
-    int lastpos = sec->pos;
-
-    while (pos != lastpos) {
-      dasm_ActList p = D->actionlist + b[pos++];
-      while (1) {
-	unsigned int ins = *p++;
-	unsigned int action = (ins >> 16);
-	switch (action) {
-	case DASM_STOP: case DASM_SECTION: goto stop;
-	case DASM_ESC: p++; break;
-	case DASM_REL_EXT: break;
-	case DASM_ALIGN: ofs -= (b[pos++] + ofs) & (ins & 255); break;
-	case DASM_REL_LG: case DASM_REL_PC: pos++; break;
-	case DASM_LABEL_LG: case DASM_LABEL_PC: b[pos++] += ofs; break;
-	case DASM_IMM: pos++; break;
-	}
-      }
-      stop: (void)0;
-    }
-    ofs += sec->ofs;  /* Next section starts right after current section. */
-  }
-
-  D->codesize = ofs;  /* Total size of all code sections */
-  *szp = ofs;
-  return DASM_S_OK;
-}
-
-#ifdef DASM_CHECKS
-#define CK(x, st) \
-  do { if (!(x)) return DASM_S_##st|(p-D->actionlist-1); } while (0)
-#else
-#define CK(x, st)	((void)0)
-#endif
-
-/* Pass 3: Encode sections. */
-int dasm_encode(Dst_DECL, void *buffer)
-{
-  dasm_State *D = Dst_REF;
-  char *base = (char *)buffer;
-  unsigned int *cp = (unsigned int *)buffer;
-  int secnum;
-
-  /* Encode all code sections. No support for data sections (yet). */
-  for (secnum = 0; secnum < D->maxsection; secnum++) {
-    dasm_Section *sec = D->sections + secnum;
-    int *b = sec->buf;
-    int *endb = sec->rbuf + sec->pos;
-
-    while (b != endb) {
-      dasm_ActList p = D->actionlist + *b++;
-      while (1) {
-	unsigned int ins = *p++;
-	unsigned int action = (ins >> 16);
-	int n = (action >= DASM_ALIGN && action < DASM__MAX) ? *b++ : 0;
-	switch (action) {
-	case DASM_STOP: case DASM_SECTION: goto stop;
-	case DASM_ESC: *cp++ = *p++; break;
-	case DASM_REL_EXT:
-	  n = DASM_EXTERN(Dst, (unsigned char *)cp, (ins & 2047), 1) - 4;
-	  goto patchrel;
-	case DASM_ALIGN:
-	  ins &= 255; while ((((char *)cp - base) & ins)) *cp++ = 0x60000000;
-	  break;
-	case DASM_REL_LG:
-	  CK(n >= 0, UNDEF_LG);
-	case DASM_REL_PC:
-	  CK(n >= 0, UNDEF_PC);
-	  n = *DASM_POS2PTR(D, n) - (int)((char *)cp - base);
-	patchrel:
-	  CK((n & 3) == 0 &&
-	      (((n+4) + ((ins & 2048) ? 0x00008000 : 0x02000000)) >>
-	       ((ins & 2048) ? 16 : 26)) == 0, RANGE_REL);
-	  cp[-1] |= ((n+4) & ((ins & 2048) ? 0x0000fffc: 0x03fffffc));
-	  break;
-	case DASM_LABEL_LG:
-	  ins &= 2047; if (ins >= 20) D->globals[ins-10] = (void *)(base + n);
-	  break;
-	case DASM_LABEL_PC: break;
-	case DASM_IMM:
-	  cp[-1] |= (n & ((1<<((ins>>5)&31))-1)) << (ins&31);
-	  break;
-	default: *cp++ = ins; break;
-	}
-      }
-      stop: (void)0;
-    }
-  }
-
-  if (base + D->codesize != (char *)cp)  /* Check for phase errors. */
-    return DASM_S_PHASE;
-  return DASM_S_OK;
-}
-#undef CK
-
-/* Get PC label offset. */
-int dasm_getpclabel(Dst_DECL, unsigned int pc)
-{
-  dasm_State *D = Dst_REF;
-  if (pc*sizeof(int) < D->pcsize) {
-    int pos = D->pclabels[pc];
-    if (pos < 0) return *DASM_POS2PTR(D, -pos);
-    if (pos > 0) return -1;  /* Undefined. */
-  }
-  return -2;  /* Unused or out of range. */
-}
-
-#ifdef DASM_CHECKS
-/* Optional sanity checker to call between isolated encoding steps. */
-int dasm_checkstep(Dst_DECL, int secmatch)
-{
-  dasm_State *D = Dst_REF;
-  if (D->status == DASM_S_OK) {
-    int i;
-    for (i = 1; i <= 9; i++) {
-      if (D->lglabels[i] > 0) { D->status = DASM_S_UNDEF_LG|i; break; }
-      D->lglabels[i] = 0;
-    }
-  }
-  if (D->status == DASM_S_OK && secmatch >= 0 &&
-      D->section != &D->sections[secmatch])
-    D->status = DASM_S_MATCH_SEC|(D->section-D->sections);
-  return D->status;
-}
-#endif
-
diff --git a/luajit-2.0/dynasm/dasm_ppc.lua b/luajit-2.0/dynasm/dasm_ppc.lua
deleted file mode 100644
index 61da50e..0000000
--- a/luajit-2.0/dynasm/dasm_ppc.lua
+++ /dev/null
@@ -1,1249 +0,0 @@
-------------------------------------------------------------------------------
--- DynASM PPC module.
---
--- Copyright (C) 2005-2014 Mike Pall. All rights reserved.
--- See dynasm.lua for full copyright notice.
-------------------------------------------------------------------------------
-
--- Module information:
-local _info = {
-  arch =	"ppc",
-  description =	"DynASM PPC module",
-  version =	"1.3.0",
-  vernum =	 10300,
-  release =	"2011-05-05",
-  author =	"Mike Pall",
-  license =	"MIT",
-}
-
--- Exported glue functions for the arch-specific module.
-local _M = { _info = _info }
-
--- Cache library functions.
-local type, tonumber, pairs, ipairs = type, tonumber, pairs, ipairs
-local assert, setmetatable = assert, setmetatable
-local _s = string
-local sub, format, byte, char = _s.sub, _s.format, _s.byte, _s.char
-local match, gmatch = _s.match, _s.gmatch
-local concat, sort = table.concat, table.sort
-local bit = bit or require("bit")
-local band, shl, shr, sar = bit.band, bit.lshift, bit.rshift, bit.arshift
-local tohex = bit.tohex
-
--- Inherited tables and callbacks.
-local g_opt, g_arch
-local wline, werror, wfatal, wwarn
-
--- Action name list.
--- CHECK: Keep this in sync with the C code!
-local action_names = {
-  "STOP", "SECTION", "ESC", "REL_EXT",
-  "ALIGN", "REL_LG", "LABEL_LG",
-  "REL_PC", "LABEL_PC", "IMM",
-}
-
--- Maximum number of section buffer positions for dasm_put().
--- CHECK: Keep this in sync with the C code!
-local maxsecpos = 25 -- Keep this low, to avoid excessively long C lines.
-
--- Action name -> action number.
-local map_action = {}
-for n,name in ipairs(action_names) do
-  map_action[name] = n-1
-end
-
--- Action list buffer.
-local actlist = {}
-
--- Argument list for next dasm_put(). Start with offset 0 into action list.
-local actargs = { 0 }
-
--- Current number of section buffer positions for dasm_put().
-local secpos = 1
-
-------------------------------------------------------------------------------
-
--- Dump action names and numbers.
-local function dumpactions(out)
-  out:write("DynASM encoding engine action codes:\n")
-  for n,name in ipairs(action_names) do
-    local num = map_action[name]
-    out:write(format("  %-10s %02X  %d\n", name, num, num))
-  end
-  out:write("\n")
-end
-
--- Write action list buffer as a huge static C array.
-local function writeactions(out, name)
-  local nn = #actlist
-  if nn == 0 then nn = 1; actlist[0] = map_action.STOP end
-  out:write("static const unsigned int ", name, "[", nn, "] = {\n")
-  for i = 1,nn-1 do
-    assert(out:write("0x", tohex(actlist[i]), ",\n"))
-  end
-  assert(out:write("0x", tohex(actlist[nn]), "\n};\n\n"))
-end
-
-------------------------------------------------------------------------------
-
--- Add word to action list.
-local function wputxw(n)
-  assert(n >= 0 and n <= 0xffffffff and n % 1 == 0, "word out of range")
-  actlist[#actlist+1] = n
-end
-
--- Add action to list with optional arg. Advance buffer pos, too.
-local function waction(action, val, a, num)
-  local w = assert(map_action[action], "bad action name `"..action.."'")
-  wputxw(w * 0x10000 + (val or 0))
-  if a then actargs[#actargs+1] = a end
-  if a or num then secpos = secpos + (num or 1) end
-end
-
--- Flush action list (intervening C code or buffer pos overflow).
-local function wflush(term)
-  if #actlist == actargs[1] then return end -- Nothing to flush.
-  if not term then waction("STOP") end -- Terminate action list.
-  wline(format("dasm_put(Dst, %s);", concat(actargs, ", ")), true)
-  actargs = { #actlist } -- Actionlist offset is 1st arg to next dasm_put().
-  secpos = 1 -- The actionlist offset occupies a buffer position, too.
-end
-
--- Put escaped word.
-local function wputw(n)
-  if n <= 0xffffff then waction("ESC") end
-  wputxw(n)
-end
-
--- Reserve position for word.
-local function wpos()
-  local pos = #actlist+1
-  actlist[pos] = ""
-  return pos
-end
-
--- Store word to reserved position.
-local function wputpos(pos, n)
-  assert(n >= 0 and n <= 0xffffffff and n % 1 == 0, "word out of range")
-  actlist[pos] = n
-end
-
-------------------------------------------------------------------------------
-
--- Global label name -> global label number. With auto assignment on 1st use.
-local next_global = 20
-local map_global = setmetatable({}, { __index = function(t, name)
-  if not match(name, "^[%a_][%w_]*$") then werror("bad global label") end
-  local n = next_global
-  if n > 2047 then werror("too many global labels") end
-  next_global = n + 1
-  t[name] = n
-  return n
-end})
-
--- Dump global labels.
-local function dumpglobals(out, lvl)
-  local t = {}
-  for name, n in pairs(map_global) do t[n] = name end
-  out:write("Global labels:\n")
-  for i=20,next_global-1 do
-    out:write(format("  %s\n", t[i]))
-  end
-  out:write("\n")
-end
-
--- Write global label enum.
-local function writeglobals(out, prefix)
-  local t = {}
-  for name, n in pairs(map_global) do t[n] = name end
-  out:write("enum {\n")
-  for i=20,next_global-1 do
-    out:write("  ", prefix, t[i], ",\n")
-  end
-  out:write("  ", prefix, "_MAX\n};\n")
-end
-
--- Write global label names.
-local function writeglobalnames(out, name)
-  local t = {}
-  for name, n in pairs(map_global) do t[n] = name end
-  out:write("static const char *const ", name, "[] = {\n")
-  for i=20,next_global-1 do
-    out:write("  \"", t[i], "\",\n")
-  end
-  out:write("  (const char *)0\n};\n")
-end
-
-------------------------------------------------------------------------------
-
--- Extern label name -> extern label number. With auto assignment on 1st use.
-local next_extern = 0
-local map_extern_ = {}
-local map_extern = setmetatable({}, { __index = function(t, name)
-  -- No restrictions on the name for now.
-  local n = next_extern
-  if n > 2047 then werror("too many extern labels") end
-  next_extern = n + 1
-  t[name] = n
-  map_extern_[n] = name
-  return n
-end})
-
--- Dump extern labels.
-local function dumpexterns(out, lvl)
-  out:write("Extern labels:\n")
-  for i=0,next_extern-1 do
-    out:write(format("  %s\n", map_extern_[i]))
-  end
-  out:write("\n")
-end
-
--- Write extern label names.
-local function writeexternnames(out, name)
-  out:write("static const char *const ", name, "[] = {\n")
-  for i=0,next_extern-1 do
-    out:write("  \"", map_extern_[i], "\",\n")
-  end
-  out:write("  (const char *)0\n};\n")
-end
-
-------------------------------------------------------------------------------
-
--- Arch-specific maps.
-local map_archdef = { sp = "r1" } -- Ext. register name -> int. name.
-
-local map_type = {}		-- Type name -> { ctype, reg }
-local ctypenum = 0		-- Type number (for Dt... macros).
-
--- Reverse defines for registers.
-function _M.revdef(s)
-  if s == "r1" then return "sp" end
-  return s
-end
-
-local map_cond = {
-  lt = 0, gt = 1, eq = 2, so = 3,
-  ge = 4, le = 5, ne = 6, ns = 7,
-}
-
-------------------------------------------------------------------------------
-
--- Template strings for PPC instructions.
-local map_op = {
-  tdi_3 =	"08000000ARI",
-  twi_3 =	"0c000000ARI",
-  mulli_3 =	"1c000000RRI",
-  subfic_3 =	"20000000RRI",
-  cmplwi_3 =	"28000000XRU",
-  cmplwi_2 =	"28000000-RU",
-  cmpldi_3 =	"28200000XRU",
-  cmpldi_2 =	"28200000-RU",
-  cmpwi_3 =	"2c000000XRI",
-  cmpwi_2 =	"2c000000-RI",
-  cmpdi_3 =	"2c200000XRI",
-  cmpdi_2 =	"2c200000-RI",
-  addic_3 =	"30000000RRI",
-  ["addic._3"] = "34000000RRI",
-  addi_3 =	"38000000RR0I",
-  li_2 =	"38000000RI",
-  la_2 =	"38000000RD",
-  addis_3 =	"3c000000RR0I",
-  lis_2 =	"3c000000RI",
-  lus_2 =	"3c000000RU",
-  bc_3 =	"40000000AAK",
-  bcl_3 =	"40000001AAK",
-  bdnz_1 =	"42000000K",
-  bdz_1 =	"42400000K",
-  sc_0 =	"44000000",
-  b_1 =		"48000000J",
-  bl_1 =	"48000001J",
-  rlwimi_5 =	"50000000RR~AAA.",
-  rlwinm_5 =	"54000000RR~AAA.",
-  rlwnm_5 =	"5c000000RR~RAA.",
-  ori_3 =	"60000000RR~U",
-  nop_0 =	"60000000",
-  oris_3 =	"64000000RR~U",
-  xori_3 =	"68000000RR~U",
-  xoris_3 =	"6c000000RR~U",
-  ["andi._3"] =	"70000000RR~U",
-  ["andis._3"] = "74000000RR~U",
-  lwz_2 =	"80000000RD",
-  lwzu_2 =	"84000000RD",
-  lbz_2 =	"88000000RD",
-  lbzu_2 =	"8c000000RD",
-  stw_2 =	"90000000RD",
-  stwu_2 =	"94000000RD",
-  stb_2 =	"98000000RD",
-  stbu_2 =	"9c000000RD",
-  lhz_2 =	"a0000000RD",
-  lhzu_2 =	"a4000000RD",
-  lha_2 =	"a8000000RD",
-  lhau_2 =	"ac000000RD",
-  sth_2 =	"b0000000RD",
-  sthu_2 =	"b4000000RD",
-  lmw_2 =	"b8000000RD",
-  stmw_2 =	"bc000000RD",
-  lfs_2 =	"c0000000FD",
-  lfsu_2 =	"c4000000FD",
-  lfd_2 =	"c8000000FD",
-  lfdu_2 =	"cc000000FD",
-  stfs_2 =	"d0000000FD",
-  stfsu_2 =	"d4000000FD",
-  stfd_2 =	"d8000000FD",
-  stfdu_2 =	"dc000000FD",
-  ld_2 =	"e8000000RD", -- NYI: displacement must be divisible by 4.
-  ldu_2 =	"e8000001RD",
-  lwa_2 =	"e8000002RD",
-  std_2 =	"f8000000RD",
-  stdu_2 =	"f8000001RD",
-
-  -- Primary opcode 19:
-  mcrf_2 =	"4c000000XX",
-  isync_0 =	"4c00012c",
-  crnor_3 =	"4c000042CCC",
-  crnot_2 =	"4c000042CC=",
-  crandc_3 =	"4c000102CCC",
-  crxor_3 =	"4c000182CCC",
-  crclr_1 =	"4c000182C==",
-  crnand_3 =	"4c0001c2CCC",
-  crand_3 =	"4c000202CCC",
-  creqv_3 =	"4c000242CCC",
-  crset_1 =	"4c000242C==",
-  crorc_3 =	"4c000342CCC",
-  cror_3 =	"4c000382CCC",
-  crmove_2 =	"4c000382CC=",
-  bclr_2 =	"4c000020AA",
-  bclrl_2 =	"4c000021AA",
-  bcctr_2 =	"4c000420AA",
-  bcctrl_2 =	"4c000421AA",
-  blr_0 =	"4e800020",
-  blrl_0 =	"4e800021",
-  bctr_0 =	"4e800420",
-  bctrl_0 =	"4e800421",
-
-  -- Primary opcode 31:
-  cmpw_3 =	"7c000000XRR",
-  cmpw_2 =	"7c000000-RR",
-  cmpd_3 =	"7c200000XRR",
-  cmpd_2 =	"7c200000-RR",
-  tw_3 =	"7c000008ARR",
-  subfc_3 =	"7c000010RRR.",
-  subc_3 =	"7c000010RRR~.",
-  mulhdu_3 =	"7c000012RRR.",
-  addc_3 =	"7c000014RRR.",
-  mulhwu_3 =	"7c000016RRR.",
-  isel_4 =	"7c00001eRRRC",
-  isellt_3 =	"7c00001eRRR",
-  iselgt_3 =	"7c00005eRRR",
-  iseleq_3 =	"7c00009eRRR",
-  mfcr_1 =	"7c000026R",
-  mfocrf_2 =	"7c100026RG",
-  mtcrf_2 =	"7c000120GR",
-  mtocrf_2 =	"7c100120GR",
-  lwarx_3 =	"7c000028RR0R",
-  ldx_3 =	"7c00002aRR0R",
-  lwzx_3 =	"7c00002eRR0R",
-  slw_3 =	"7c000030RR~R.",
-  cntlzw_2 =	"7c000034RR~",
-  sld_3 =	"7c000036RR~R.",
-  and_3 =	"7c000038RR~R.",
-  cmplw_3 =	"7c000040XRR",
-  cmplw_2 =	"7c000040-RR",
-  cmpld_3 =	"7c200040XRR",
-  cmpld_2 =	"7c200040-RR",
-  subf_3 =	"7c000050RRR.",
-  sub_3 =	"7c000050RRR~.",
-  ldux_3 =	"7c00006aRR0R",
-  dcbst_2 =	"7c00006c-RR",
-  lwzux_3 =	"7c00006eRR0R",
-  cntlzd_2 =	"7c000074RR~",
-  andc_3 =	"7c000078RR~R.",
-  td_3 =	"7c000088ARR",
-  mulhd_3 =	"7c000092RRR.",
-  mulhw_3 =	"7c000096RRR.",
-  ldarx_3 =	"7c0000a8RR0R",
-  dcbf_2 =	"7c0000ac-RR",
-  lbzx_3 =	"7c0000aeRR0R",
-  neg_2 =	"7c0000d0RR.",
-  lbzux_3 =	"7c0000eeRR0R",
-  popcntb_2 =	"7c0000f4RR~",
-  not_2 =	"7c0000f8RR~%.",
-  nor_3 =	"7c0000f8RR~R.",
-  subfe_3 =	"7c000110RRR.",
-  sube_3 =	"7c000110RRR~.",
-  adde_3 =	"7c000114RRR.",
-  stdx_3 =	"7c00012aRR0R",
-  stwcx_3 =	"7c00012cRR0R.",
-  stwx_3 =	"7c00012eRR0R",
-  prtyw_2 =	"7c000134RR~",
-  stdux_3 =	"7c00016aRR0R",
-  stwux_3 =	"7c00016eRR0R",
-  prtyd_2 =	"7c000174RR~",
-  subfze_2 =	"7c000190RR.",
-  addze_2 =	"7c000194RR.",
-  stdcx_3 =	"7c0001acRR0R.",
-  stbx_3 =	"7c0001aeRR0R",
-  subfme_2 =	"7c0001d0RR.",
-  mulld_3 =	"7c0001d2RRR.",
-  addme_2 =	"7c0001d4RR.",
-  mullw_3 =	"7c0001d6RRR.",
-  dcbtst_2 =	"7c0001ec-RR",
-  stbux_3 =	"7c0001eeRR0R",
-  add_3 =	"7c000214RRR.",
-  dcbt_2 =	"7c00022c-RR",
-  lhzx_3 =	"7c00022eRR0R",
-  eqv_3 =	"7c000238RR~R.",
-  eciwx_3 =	"7c00026cRR0R",
-  lhzux_3 =	"7c00026eRR0R",
-  xor_3 =	"7c000278RR~R.",
-  mfspefscr_1 =	"7c0082a6R",
-  mfxer_1 =	"7c0102a6R",
-  mflr_1 =	"7c0802a6R",
-  mfctr_1 =	"7c0902a6R",
-  lwax_3 =	"7c0002aaRR0R",
-  lhax_3 =	"7c0002aeRR0R",
-  mftb_1 =	"7c0c42e6R",
-  mftbu_1 =	"7c0d42e6R",
-  lwaux_3 =	"7c0002eaRR0R",
-  lhaux_3 =	"7c0002eeRR0R",
-  sthx_3 =	"7c00032eRR0R",
-  orc_3 =	"7c000338RR~R.",
-  ecowx_3 =	"7c00036cRR0R",
-  sthux_3 =	"7c00036eRR0R",
-  or_3 =	"7c000378RR~R.",
-  mr_2 =	"7c000378RR~%.",
-  divdu_3 =	"7c000392RRR.",
-  divwu_3 =	"7c000396RRR.",
-  mtspefscr_1 =	"7c0083a6R",
-  mtxer_1 =	"7c0103a6R",
-  mtlr_1 =	"7c0803a6R",
-  mtctr_1 =	"7c0903a6R",
-  dcbi_2 =	"7c0003ac-RR",
-  nand_3 =	"7c0003b8RR~R.",
-  divd_3 =	"7c0003d2RRR.",
-  divw_3 =	"7c0003d6RRR.",
-  cmpb_3 =	"7c0003f8RR~R.",
-  mcrxr_1 =	"7c000400X",
-  subfco_3 =	"7c000410RRR.",
-  subco_3 =	"7c000410RRR~.",
-  addco_3 =	"7c000414RRR.",
-  ldbrx_3 =	"7c000428RR0R",
-  lswx_3 =	"7c00042aRR0R",
-  lwbrx_3 =	"7c00042cRR0R",
-  lfsx_3 =	"7c00042eFR0R",
-  srw_3 =	"7c000430RR~R.",
-  srd_3 =	"7c000436RR~R.",
-  subfo_3 =	"7c000450RRR.",
-  subo_3 =	"7c000450RRR~.",
-  lfsux_3 =	"7c00046eFR0R",
-  lswi_3 =	"7c0004aaRR0A",
-  sync_0 =	"7c0004ac",
-  lwsync_0 =	"7c2004ac",
-  ptesync_0 =	"7c4004ac",
-  lfdx_3 =	"7c0004aeFR0R",
-  nego_2 =	"7c0004d0RR.",
-  lfdux_3 =	"7c0004eeFR0R",
-  subfeo_3 =	"7c000510RRR.",
-  subeo_3 =	"7c000510RRR~.",
-  addeo_3 =	"7c000514RRR.",
-  stdbrx_3 =	"7c000528RR0R",
-  stswx_3 =	"7c00052aRR0R",
-  stwbrx_3 =	"7c00052cRR0R",
-  stfsx_3 =	"7c00052eFR0R",
-  stfsux_3 =	"7c00056eFR0R",
-  subfzeo_2 =	"7c000590RR.",
-  addzeo_2 =	"7c000594RR.",
-  stswi_3 =	"7c0005aaRR0A",
-  stfdx_3 =	"7c0005aeFR0R",
-  subfmeo_2 =	"7c0005d0RR.",
-  mulldo_3 =	"7c0005d2RRR.",
-  addmeo_2 =	"7c0005d4RR.",
-  mullwo_3 =	"7c0005d6RRR.",
-  dcba_2 =	"7c0005ec-RR",
-  stfdux_3 =	"7c0005eeFR0R",
-  addo_3 =	"7c000614RRR.",
-  lhbrx_3 =	"7c00062cRR0R",
-  sraw_3 =	"7c000630RR~R.",
-  srad_3 =	"7c000634RR~R.",
-  srawi_3 =	"7c000670RR~A.",
-  sradi_3 =	"7c000674RR~H.",
-  eieio_0 =	"7c0006ac",
-  lfiwax_3 =	"7c0006aeFR0R",
-  sthbrx_3 =	"7c00072cRR0R",
-  extsh_2 =	"7c000734RR~.",
-  extsb_2 =	"7c000774RR~.",
-  divduo_3 =	"7c000792RRR.",
-  divwou_3 =	"7c000796RRR.",
-  icbi_2 =	"7c0007ac-RR",
-  stfiwx_3 =	"7c0007aeFR0R",
-  extsw_2 =	"7c0007b4RR~.",
-  divdo_3 =	"7c0007d2RRR.",
-  divwo_3 =	"7c0007d6RRR.",
-  dcbz_2 =	"7c0007ec-RR",
-
-  -- Primary opcode 30:
-  rldicl_4 =	"78000000RR~HM.",
-  rldicr_4 =	"78000004RR~HM.",
-  rldic_4 =	"78000008RR~HM.",
-  rldimi_4 =	"7800000cRR~HM.",
-  rldcl_4 =	"78000010RR~RM.",
-  rldcr_4 =	"78000012RR~RM.",
-
-  -- Primary opcode 59:
-  fdivs_3 =	"ec000024FFF.",
-  fsubs_3 =	"ec000028FFF.",
-  fadds_3 =	"ec00002aFFF.",
-  fsqrts_2 =	"ec00002cF-F.",
-  fres_2 =	"ec000030F-F.",
-  fmuls_3 =	"ec000032FF-F.",
-  frsqrtes_2 =	"ec000034F-F.",
-  fmsubs_4 =	"ec000038FFFF~.",
-  fmadds_4 =	"ec00003aFFFF~.",
-  fnmsubs_4 =	"ec00003cFFFF~.",
-  fnmadds_4 =	"ec00003eFFFF~.",
-
-  -- Primary opcode 63:
-  fdiv_3 =	"fc000024FFF.",
-  fsub_3 =	"fc000028FFF.",
-  fadd_3 =	"fc00002aFFF.",
-  fsqrt_2 =	"fc00002cF-F.",
-  fsel_4 =	"fc00002eFFFF~.",
-  fre_2 =	"fc000030F-F.",
-  fmul_3 =	"fc000032FF-F.",
-  frsqrte_2 =	"fc000034F-F.",
-  fmsub_4 =	"fc000038FFFF~.",
-  fmadd_4 =	"fc00003aFFFF~.",
-  fnmsub_4 =	"fc00003cFFFF~.",
-  fnmadd_4 =	"fc00003eFFFF~.",
-  fcmpu_3 =	"fc000000XFF",
-  fcpsgn_3 =	"fc000010FFF.",
-  fcmpo_3 =	"fc000040XFF",
-  mtfsb1_1 =	"fc00004cA",
-  fneg_2 =	"fc000050F-F.",
-  mcrfs_2 =	"fc000080XX",
-  mtfsb0_1 =	"fc00008cA",
-  fmr_2 =	"fc000090F-F.",
-  frsp_2 =	"fc000018F-F.",
-  fctiw_2 =	"fc00001cF-F.",
-  fctiwz_2 =	"fc00001eF-F.",
-  mtfsfi_2 =	"fc00010cAA", -- NYI: upshift.
-  fnabs_2 =	"fc000110F-F.",
-  fabs_2 =	"fc000210F-F.",
-  frin_2 =	"fc000310F-F.",
-  friz_2 =	"fc000350F-F.",
-  frip_2 =	"fc000390F-F.",
-  frim_2 =	"fc0003d0F-F.",
-  mffs_1 =	"fc00048eF.",
-  -- NYI: mtfsf, mtfsb0, mtfsb1.
-  fctid_2 =	"fc00065cF-F.",
-  fctidz_2 =	"fc00065eF-F.",
-  fcfid_2 =	"fc00069cF-F.",
-
-  -- Primary opcode 4, SPE APU extension:
-  evaddw_3 =		"10000200RRR",
-  evaddiw_3 =		"10000202RAR~",
-  evsubw_3 =		"10000204RRR~",
-  evsubiw_3 =		"10000206RAR~",
-  evabs_2 =		"10000208RR",
-  evneg_2 =		"10000209RR",
-  evextsb_2 =		"1000020aRR",
-  evextsh_2 =		"1000020bRR",
-  evrndw_2 =		"1000020cRR",
-  evcntlzw_2 =		"1000020dRR",
-  evcntlsw_2 =		"1000020eRR",
-  brinc_3 =		"1000020fRRR",
-  evand_3 =		"10000211RRR",
-  evandc_3 =		"10000212RRR",
-  evxor_3 =		"10000216RRR",
-  evor_3 =		"10000217RRR",
-  evmr_2 =		"10000217RR=",
-  evnor_3 =		"10000218RRR",
-  evnot_2 =		"10000218RR=",
-  eveqv_3 =		"10000219RRR",
-  evorc_3 =		"1000021bRRR",
-  evnand_3 =		"1000021eRRR",
-  evsrwu_3 =		"10000220RRR",
-  evsrws_3 =		"10000221RRR",
-  evsrwiu_3 =		"10000222RRA",
-  evsrwis_3 =		"10000223RRA",
-  evslw_3 =		"10000224RRR",
-  evslwi_3 =		"10000226RRA",
-  evrlw_3 =		"10000228RRR",
-  evsplati_2 =		"10000229RS",
-  evrlwi_3 =		"1000022aRRA",
-  evsplatfi_2 =		"1000022bRS",
-  evmergehi_3 =		"1000022cRRR",
-  evmergelo_3 =		"1000022dRRR",
-  evcmpgtu_3 =		"10000230XRR",
-  evcmpgtu_2 =		"10000230-RR",
-  evcmpgts_3 =		"10000231XRR",
-  evcmpgts_2 =		"10000231-RR",
-  evcmpltu_3 =		"10000232XRR",
-  evcmpltu_2 =		"10000232-RR",
-  evcmplts_3 =		"10000233XRR",
-  evcmplts_2 =		"10000233-RR",
-  evcmpeq_3 =		"10000234XRR",
-  evcmpeq_2 =		"10000234-RR",
-  evsel_4 =		"10000278RRRW",
-  evsel_3 =		"10000278RRR",
-  evfsadd_3 =		"10000280RRR",
-  evfssub_3 =		"10000281RRR",
-  evfsabs_2 =		"10000284RR",
-  evfsnabs_2 =		"10000285RR",
-  evfsneg_2 =		"10000286RR",
-  evfsmul_3 =		"10000288RRR",
-  evfsdiv_3 =		"10000289RRR",
-  evfscmpgt_3 =		"1000028cXRR",
-  evfscmpgt_2 =		"1000028c-RR",
-  evfscmplt_3 =		"1000028dXRR",
-  evfscmplt_2 =		"1000028d-RR",
-  evfscmpeq_3 =		"1000028eXRR",
-  evfscmpeq_2 =		"1000028e-RR",
-  evfscfui_2 =		"10000290R-R",
-  evfscfsi_2 =		"10000291R-R",
-  evfscfuf_2 =		"10000292R-R",
-  evfscfsf_2 =		"10000293R-R",
-  evfsctui_2 =		"10000294R-R",
-  evfsctsi_2 =		"10000295R-R",
-  evfsctuf_2 =		"10000296R-R",
-  evfsctsf_2 =		"10000297R-R",
-  evfsctuiz_2 =		"10000298R-R",
-  evfsctsiz_2 =		"1000029aR-R",
-  evfststgt_3 =		"1000029cXRR",
-  evfststgt_2 =		"1000029c-RR",
-  evfststlt_3 =		"1000029dXRR",
-  evfststlt_2 =		"1000029d-RR",
-  evfststeq_3 =		"1000029eXRR",
-  evfststeq_2 =		"1000029e-RR",
-  efsadd_3 =		"100002c0RRR",
-  efssub_3 =		"100002c1RRR",
-  efsabs_2 =		"100002c4RR",
-  efsnabs_2 =		"100002c5RR",
-  efsneg_2 =		"100002c6RR",
-  efsmul_3 =		"100002c8RRR",
-  efsdiv_3 =		"100002c9RRR",
-  efscmpgt_3 =		"100002ccXRR",
-  efscmpgt_2 =		"100002cc-RR",
-  efscmplt_3 =		"100002cdXRR",
-  efscmplt_2 =		"100002cd-RR",
-  efscmpeq_3 =		"100002ceXRR",
-  efscmpeq_2 =		"100002ce-RR",
-  efscfd_2 =		"100002cfR-R",
-  efscfui_2 =		"100002d0R-R",
-  efscfsi_2 =		"100002d1R-R",
-  efscfuf_2 =		"100002d2R-R",
-  efscfsf_2 =		"100002d3R-R",
-  efsctui_2 =		"100002d4R-R",
-  efsctsi_2 =		"100002d5R-R",
-  efsctuf_2 =		"100002d6R-R",
-  efsctsf_2 =		"100002d7R-R",
-  efsctuiz_2 =		"100002d8R-R",
-  efsctsiz_2 =		"100002daR-R",
-  efststgt_3 =		"100002dcXRR",
-  efststgt_2 =		"100002dc-RR",
-  efststlt_3 =		"100002ddXRR",
-  efststlt_2 =		"100002dd-RR",
-  efststeq_3 =		"100002deXRR",
-  efststeq_2 =		"100002de-RR",
-  efdadd_3 =		"100002e0RRR",
-  efdsub_3 =		"100002e1RRR",
-  efdcfuid_2 =		"100002e2R-R",
-  efdcfsid_2 =		"100002e3R-R",
-  efdabs_2 =		"100002e4RR",
-  efdnabs_2 =		"100002e5RR",
-  efdneg_2 =		"100002e6RR",
-  efdmul_3 =		"100002e8RRR",
-  efddiv_3 =		"100002e9RRR",
-  efdctuidz_2 =		"100002eaR-R",
-  efdctsidz_2 =		"100002ebR-R",
-  efdcmpgt_3 =		"100002ecXRR",
-  efdcmpgt_2 =		"100002ec-RR",
-  efdcmplt_3 =		"100002edXRR",
-  efdcmplt_2 =		"100002ed-RR",
-  efdcmpeq_3 =		"100002eeXRR",
-  efdcmpeq_2 =		"100002ee-RR",
-  efdcfs_2 =		"100002efR-R",
-  efdcfui_2 =		"100002f0R-R",
-  efdcfsi_2 =		"100002f1R-R",
-  efdcfuf_2 =		"100002f2R-R",
-  efdcfsf_2 =		"100002f3R-R",
-  efdctui_2 =		"100002f4R-R",
-  efdctsi_2 =		"100002f5R-R",
-  efdctuf_2 =		"100002f6R-R",
-  efdctsf_2 =		"100002f7R-R",
-  efdctuiz_2 =		"100002f8R-R",
-  efdctsiz_2 =		"100002faR-R",
-  efdtstgt_3 =		"100002fcXRR",
-  efdtstgt_2 =		"100002fc-RR",
-  efdtstlt_3 =		"100002fdXRR",
-  efdtstlt_2 =		"100002fd-RR",
-  efdtsteq_3 =		"100002feXRR",
-  efdtsteq_2 =		"100002fe-RR",
-  evlddx_3 =		"10000300RR0R",
-  evldd_2 =		"10000301R8",
-  evldwx_3 =		"10000302RR0R",
-  evldw_2 =		"10000303R8",
-  evldhx_3 =		"10000304RR0R",
-  evldh_2 =		"10000305R8",
-  evlwhex_3 =		"10000310RR0R",
-  evlwhe_2 =		"10000311R4",
-  evlwhoux_3 =		"10000314RR0R",
-  evlwhou_2 =		"10000315R4",
-  evlwhosx_3 =		"10000316RR0R",
-  evlwhos_2 =		"10000317R4",
-  evstddx_3 =		"10000320RR0R",
-  evstdd_2 =		"10000321R8",
-  evstdwx_3 =		"10000322RR0R",
-  evstdw_2 =		"10000323R8",
-  evstdhx_3 =		"10000324RR0R",
-  evstdh_2 =		"10000325R8",
-  evstwhex_3 =		"10000330RR0R",
-  evstwhe_2 =		"10000331R4",
-  evstwhox_3 =		"10000334RR0R",
-  evstwho_2 =		"10000335R4",
-  evstwwex_3 =		"10000338RR0R",
-  evstwwe_2 =		"10000339R4",
-  evstwwox_3 =		"1000033cRR0R",
-  evstwwo_2 =		"1000033dR4",
-  evmhessf_3 =		"10000403RRR",
-  evmhossf_3 =		"10000407RRR",
-  evmheumi_3 =		"10000408RRR",
-  evmhesmi_3 =		"10000409RRR",
-  evmhesmf_3 =		"1000040bRRR",
-  evmhoumi_3 =		"1000040cRRR",
-  evmhosmi_3 =		"1000040dRRR",
-  evmhosmf_3 =		"1000040fRRR",
-  evmhessfa_3 =		"10000423RRR",
-  evmhossfa_3 =		"10000427RRR",
-  evmheumia_3 =		"10000428RRR",
-  evmhesmia_3 =		"10000429RRR",
-  evmhesmfa_3 =		"1000042bRRR",
-  evmhoumia_3 =		"1000042cRRR",
-  evmhosmia_3 =		"1000042dRRR",
-  evmhosmfa_3 =		"1000042fRRR",
-  evmwhssf_3 =		"10000447RRR",
-  evmwlumi_3 =		"10000448RRR",
-  evmwhumi_3 =		"1000044cRRR",
-  evmwhsmi_3 =		"1000044dRRR",
-  evmwhsmf_3 =		"1000044fRRR",
-  evmwssf_3 =		"10000453RRR",
-  evmwumi_3 =		"10000458RRR",
-  evmwsmi_3 =		"10000459RRR",
-  evmwsmf_3 =		"1000045bRRR",
-  evmwhssfa_3 =		"10000467RRR",
-  evmwlumia_3 =		"10000468RRR",
-  evmwhumia_3 =		"1000046cRRR",
-  evmwhsmia_3 =		"1000046dRRR",
-  evmwhsmfa_3 =		"1000046fRRR",
-  evmwssfa_3 =		"10000473RRR",
-  evmwumia_3 =		"10000478RRR",
-  evmwsmia_3 =		"10000479RRR",
-  evmwsmfa_3 =		"1000047bRRR",
-  evmra_2 =		"100004c4RR",
-  evdivws_3 =		"100004c6RRR",
-  evdivwu_3 =		"100004c7RRR",
-  evmwssfaa_3 =		"10000553RRR",
-  evmwumiaa_3 =		"10000558RRR",
-  evmwsmiaa_3 =		"10000559RRR",
-  evmwsmfaa_3 =		"1000055bRRR",
-  evmwssfan_3 =		"100005d3RRR",
-  evmwumian_3 =		"100005d8RRR",
-  evmwsmian_3 =		"100005d9RRR",
-  evmwsmfan_3 =		"100005dbRRR",
-  evmergehilo_3 =	"1000022eRRR",
-  evmergelohi_3 =	"1000022fRRR",
-  evlhhesplatx_3 =	"10000308RR0R",
-  evlhhesplat_2 =	"10000309R2",
-  evlhhousplatx_3 =	"1000030cRR0R",
-  evlhhousplat_2 =	"1000030dR2",
-  evlhhossplatx_3 =	"1000030eRR0R",
-  evlhhossplat_2 =	"1000030fR2",
-  evlwwsplatx_3 =	"10000318RR0R",
-  evlwwsplat_2 =	"10000319R4",
-  evlwhsplatx_3 =	"1000031cRR0R",
-  evlwhsplat_2 =	"1000031dR4",
-  evaddusiaaw_2 =	"100004c0RR",
-  evaddssiaaw_2 =	"100004c1RR",
-  evsubfusiaaw_2 =	"100004c2RR",
-  evsubfssiaaw_2 =	"100004c3RR",
-  evaddumiaaw_2 =	"100004c8RR",
-  evaddsmiaaw_2 =	"100004c9RR",
-  evsubfumiaaw_2 =	"100004caRR",
-  evsubfsmiaaw_2 =	"100004cbRR",
-  evmheusiaaw_3 =	"10000500RRR",
-  evmhessiaaw_3 =	"10000501RRR",
-  evmhessfaaw_3 =	"10000503RRR",
-  evmhousiaaw_3 =	"10000504RRR",
-  evmhossiaaw_3 =	"10000505RRR",
-  evmhossfaaw_3 =	"10000507RRR",
-  evmheumiaaw_3 =	"10000508RRR",
-  evmhesmiaaw_3 =	"10000509RRR",
-  evmhesmfaaw_3 =	"1000050bRRR",
-  evmhoumiaaw_3 =	"1000050cRRR",
-  evmhosmiaaw_3 =	"1000050dRRR",
-  evmhosmfaaw_3 =	"1000050fRRR",
-  evmhegumiaa_3 =	"10000528RRR",
-  evmhegsmiaa_3 =	"10000529RRR",
-  evmhegsmfaa_3 =	"1000052bRRR",
-  evmhogumiaa_3 =	"1000052cRRR",
-  evmhogsmiaa_3 =	"1000052dRRR",
-  evmhogsmfaa_3 =	"1000052fRRR",
-  evmwlusiaaw_3 =	"10000540RRR",
-  evmwlssiaaw_3 =	"10000541RRR",
-  evmwlumiaaw_3 =	"10000548RRR",
-  evmwlsmiaaw_3 =	"10000549RRR",
-  evmheusianw_3 =	"10000580RRR",
-  evmhessianw_3 =	"10000581RRR",
-  evmhessfanw_3 =	"10000583RRR",
-  evmhousianw_3 =	"10000584RRR",
-  evmhossianw_3 =	"10000585RRR",
-  evmhossfanw_3 =	"10000587RRR",
-  evmheumianw_3 =	"10000588RRR",
-  evmhesmianw_3 =	"10000589RRR",
-  evmhesmfanw_3 =	"1000058bRRR",
-  evmhoumianw_3 =	"1000058cRRR",
-  evmhosmianw_3 =	"1000058dRRR",
-  evmhosmfanw_3 =	"1000058fRRR",
-  evmhegumian_3 =	"100005a8RRR",
-  evmhegsmian_3 =	"100005a9RRR",
-  evmhegsmfan_3 =	"100005abRRR",
-  evmhogumian_3 =	"100005acRRR",
-  evmhogsmian_3 =	"100005adRRR",
-  evmhogsmfan_3 =	"100005afRRR",
-  evmwlusianw_3 =	"100005c0RRR",
-  evmwlssianw_3 =	"100005c1RRR",
-  evmwlumianw_3 =	"100005c8RRR",
-  evmwlsmianw_3 =	"100005c9RRR",
-
-  -- NYI: Book E instructions.
-}
-
--- Add mnemonics for "." variants.
-do
-  local t = {}
-  for k,v in pairs(map_op) do
-    if sub(v, -1) == "." then
-      local v2 = sub(v, 1, 7)..char(byte(v, 8)+1)..sub(v, 9, -2)
-      t[sub(k, 1, -3).."."..sub(k, -2)] = v2
-    end
-  end
-  for k,v in pairs(t) do
-    map_op[k] = v
-  end
-end
-
--- Add more branch mnemonics.
-for cond,c in pairs(map_cond) do
-  local b1 = "b"..cond
-  local c1 = shl(band(c, 3), 16) + (c < 4 and 0x01000000 or 0)
-  -- bX[l]
-  map_op[b1.."_1"] = tohex(0x40800000 + c1).."K"
-  map_op[b1.."y_1"] = tohex(0x40a00000 + c1).."K"
-  map_op[b1.."l_1"] = tohex(0x40800001 + c1).."K"
-  map_op[b1.."_2"] = tohex(0x40800000 + c1).."-XK"
-  map_op[b1.."y_2"] = tohex(0x40a00000 + c1).."-XK"
-  map_op[b1.."l_2"] = tohex(0x40800001 + c1).."-XK"
-  -- bXlr[l]
-  map_op[b1.."lr_0"] = tohex(0x4c800020 + c1)
-  map_op[b1.."lrl_0"] = tohex(0x4c800021 + c1)
-  map_op[b1.."ctr_0"] = tohex(0x4c800420 + c1)
-  map_op[b1.."ctrl_0"] = tohex(0x4c800421 + c1)
-  -- bXctr[l]
-  map_op[b1.."lr_1"] = tohex(0x4c800020 + c1).."-X"
-  map_op[b1.."lrl_1"] = tohex(0x4c800021 + c1).."-X"
-  map_op[b1.."ctr_1"] = tohex(0x4c800420 + c1).."-X"
-  map_op[b1.."ctrl_1"] = tohex(0x4c800421 + c1).."-X"
-end
-
-------------------------------------------------------------------------------
-
-local function parse_gpr(expr)
-  local tname, ovreg = match(expr, "^([%w_]+):(r[1-3]?[0-9])$")
-  local tp = map_type[tname or expr]
-  if tp then
-    local reg = ovreg or tp.reg
-    if not reg then
-      werror("type `"..(tname or expr).."' needs a register override")
-    end
-    expr = reg
-  end
-  local r = match(expr, "^r([1-3]?[0-9])$")
-  if r then
-    r = tonumber(r)
-    if r <= 31 then return r, tp end
-  end
-  werror("bad register name `"..expr.."'")
-end
-
-local function parse_fpr(expr)
-  local r = match(expr, "^f([1-3]?[0-9])$")
-  if r then
-    r = tonumber(r)
-    if r <= 31 then return r end
-  end
-  werror("bad register name `"..expr.."'")
-end
-
-local function parse_cr(expr)
-  local r = match(expr, "^cr([0-7])$")
-  if r then return tonumber(r) end
-  werror("bad condition register name `"..expr.."'")
-end
-
-local function parse_cond(expr)
-  local r, cond = match(expr, "^4%*cr([0-7])%+(%w%w)$")
-  if r then
-    r = tonumber(r)
-    local c = map_cond[cond]
-    if c and c < 4 then return r*4+c end
-  end
-  werror("bad condition bit name `"..expr.."'")
-end
-
-local function parse_imm(imm, bits, shift, scale, signed)
-  local n = tonumber(imm)
-  if n then
-    local m = sar(n, scale)
-    if shl(m, scale) == n then
-      if signed then
-	local s = sar(m, bits-1)
-	if s == 0 then return shl(m, shift)
-	elseif s == -1 then return shl(m + shl(1, bits), shift) end
-      else
-	if sar(m, bits) == 0 then return shl(m, shift) end
-      end
-    end
-    werror("out of range immediate `"..imm.."'")
-  elseif match(imm, "^r([1-3]?[0-9])$") or
-	 match(imm, "^([%w_]+):(r[1-3]?[0-9])$") then
-    werror("expected immediate operand, got register")
-  else
-    waction("IMM", (signed and 32768 or 0)+scale*1024+bits*32+shift, imm)
-    return 0
-  end
-end
-
-local function parse_shiftmask(imm, isshift)
-  local n = tonumber(imm)
-  if n then
-    if shr(n, 6) == 0 then
-      local lsb = band(imm, 31)
-      local msb = imm - lsb
-      return isshift and (shl(lsb, 11)+shr(msb, 4)) or (shl(lsb, 6)+msb)
-    end
-    werror("out of range immediate `"..imm.."'")
-  elseif match(imm, "^r([1-3]?[0-9])$") or
-	 match(imm, "^([%w_]+):(r[1-3]?[0-9])$") then
-    werror("expected immediate operand, got register")
-  else
-    werror("NYI: parameterized 64 bit shift/mask")
-  end
-end
-
-local function parse_disp(disp)
-  local imm, reg = match(disp, "^(.*)%(([%w_:]+)%)$")
-  if imm then
-    local r = parse_gpr(reg)
-    if r == 0 then werror("cannot use r0 in displacement") end
-    return shl(r, 16) + parse_imm(imm, 16, 0, 0, true)
-  end
-  local reg, tailr = match(disp, "^([%w_:]+)%s*(.*)$")
-  if reg and tailr ~= "" then
-    local r, tp = parse_gpr(reg)
-    if r == 0 then werror("cannot use r0 in displacement") end
-    if tp then
-      waction("IMM", 32768+16*32, format(tp.ctypefmt, tailr))
-      return shl(r, 16)
-    end
-  end
-  werror("bad displacement `"..disp.."'")
-end
-
-local function parse_u5disp(disp, scale)
-  local imm, reg = match(disp, "^(.*)%(([%w_:]+)%)$")
-  if imm then
-    local r = parse_gpr(reg)
-    if r == 0 then werror("cannot use r0 in displacement") end
-    return shl(r, 16) + parse_imm(imm, 5, 11, scale, false)
-  end
-  local reg, tailr = match(disp, "^([%w_:]+)%s*(.*)$")
-  if reg and tailr ~= "" then
-    local r, tp = parse_gpr(reg)
-    if r == 0 then werror("cannot use r0 in displacement") end
-    if tp then
-      waction("IMM", scale*1024+5*32+11, format(tp.ctypefmt, tailr))
-      return shl(r, 16)
-    end
-  end
-  werror("bad displacement `"..disp.."'")
-end
-
-local function parse_label(label, def)
-  local prefix = sub(label, 1, 2)
-  -- =>label (pc label reference)
-  if prefix == "=>" then
-    return "PC", 0, sub(label, 3)
-  end
-  -- ->name (global label reference)
-  if prefix == "->" then
-    return "LG", map_global[sub(label, 3)]
-  end
-  if def then
-    -- [1-9] (local label definition)
-    if match(label, "^[1-9]$") then
-      return "LG", 10+tonumber(label)
-    end
-  else
-    -- [<>][1-9] (local label reference)
-    local dir, lnum = match(label, "^([<>])([1-9])$")
-    if dir then -- Fwd: 1-9, Bkwd: 11-19.
-      return "LG", lnum + (dir == ">" and 0 or 10)
-    end
-    -- extern label (extern label reference)
-    local extname = match(label, "^extern%s+(%S+)$")
-    if extname then
-      return "EXT", map_extern[extname]
-    end
-  end
-  werror("bad label `"..label.."'")
-end
-
-------------------------------------------------------------------------------
-
--- Handle opcodes defined with template strings.
-map_op[".template__"] = function(params, template, nparams)
-  if not params then return sub(template, 9) end
-  local op = tonumber(sub(template, 1, 8), 16)
-  local n, rs = 1, 26
-
-  -- Limit number of section buffer positions used by a single dasm_put().
-  -- A single opcode needs a maximum of 3 positions (rlwinm).
-  if secpos+3 > maxsecpos then wflush() end
-  local pos = wpos()
-
-  -- Process each character.
-  for p in gmatch(sub(template, 9), ".") do
-    if p == "R" then
-      rs = rs - 5; op = op + shl(parse_gpr(params[n]), rs); n = n + 1
-    elseif p == "F" then
-      rs = rs - 5; op = op + shl(parse_fpr(params[n]), rs); n = n + 1
-    elseif p == "A" then
-      rs = rs - 5; op = op + parse_imm(params[n], 5, rs, 0, false); n = n + 1
-    elseif p == "S" then
-      rs = rs - 5; op = op + parse_imm(params[n], 5, rs, 0, true); n = n + 1
-    elseif p == "I" then
-      op = op + parse_imm(params[n], 16, 0, 0, true); n = n + 1
-    elseif p == "U" then
-      op = op + parse_imm(params[n], 16, 0, 0, false); n = n + 1
-    elseif p == "D" then
-      op = op + parse_disp(params[n]); n = n + 1
-    elseif p == "2" then
-      op = op + parse_u5disp(params[n], 1); n = n + 1
-    elseif p == "4" then
-      op = op + parse_u5disp(params[n], 2); n = n + 1
-    elseif p == "8" then
-      op = op + parse_u5disp(params[n], 3); n = n + 1
-    elseif p == "C" then
-      rs = rs - 5; op = op + shl(parse_cond(params[n]), rs); n = n + 1
-    elseif p == "X" then
-      rs = rs - 5; op = op + shl(parse_cr(params[n]), rs+2); n = n + 1
-    elseif p == "W" then
-      op = op + parse_cr(params[n]); n = n + 1
-    elseif p == "G" then
-      op = op + parse_imm(params[n], 8, 12, 0, false); n = n + 1
-    elseif p == "H" then
-      op = op + parse_shiftmask(params[n], true); n = n + 1
-    elseif p == "M" then
-      op = op + parse_shiftmask(params[n], false); n = n + 1
-    elseif p == "J" or p == "K" then
-      local mode, n, s = parse_label(params[n], false)
-      if p == "K" then n = n + 2048 end
-      waction("REL_"..mode, n, s, 1)
-      n = n + 1
-    elseif p == "0" then
-      if band(shr(op, rs), 31) == 0 then werror("cannot use r0") end
-    elseif p == "=" or p == "%" then
-      local t = band(shr(op, p == "%" and rs+5 or rs), 31)
-      rs = rs - 5
-      op = op + shl(t, rs)
-    elseif p == "~" then
-      local mm = shl(31, rs)
-      local lo = band(op, mm)
-      local hi = band(op, shl(mm, 5))
-      op = op - lo - hi + shl(lo, 5) + shr(hi, 5)
-    elseif p == "-" then
-      rs = rs - 5
-    elseif p == "." then
-      -- Ignored.
-    else
-      assert(false)
-    end
-  end
-  wputpos(pos, op)
-end
-
-------------------------------------------------------------------------------
-
--- Pseudo-opcode to mark the position where the action list is to be emitted.
-map_op[".actionlist_1"] = function(params)
-  if not params then return "cvar" end
-  local name = params[1] -- No syntax check. You get to keep the pieces.
-  wline(function(out) writeactions(out, name) end)
-end
-
--- Pseudo-opcode to mark the position where the global enum is to be emitted.
-map_op[".globals_1"] = function(params)
-  if not params then return "prefix" end
-  local prefix = params[1] -- No syntax check. You get to keep the pieces.
-  wline(function(out) writeglobals(out, prefix) end)
-end
-
--- Pseudo-opcode to mark the position where the global names are to be emitted.
-map_op[".globalnames_1"] = function(params)
-  if not params then return "cvar" end
-  local name = params[1] -- No syntax check. You get to keep the pieces.
-  wline(function(out) writeglobalnames(out, name) end)
-end
-
--- Pseudo-opcode to mark the position where the extern names are to be emitted.
-map_op[".externnames_1"] = function(params)
-  if not params then return "cvar" end
-  local name = params[1] -- No syntax check. You get to keep the pieces.
-  wline(function(out) writeexternnames(out, name) end)
-end
-
-------------------------------------------------------------------------------
-
--- Label pseudo-opcode (converted from trailing colon form).
-map_op[".label_1"] = function(params)
-  if not params then return "[1-9] | ->global | =>pcexpr" end
-  if secpos+1 > maxsecpos then wflush() end
-  local mode, n, s = parse_label(params[1], true)
-  if mode == "EXT" then werror("bad label definition") end
-  waction("LABEL_"..mode, n, s, 1)
-end
-
-------------------------------------------------------------------------------
-
--- Pseudo-opcodes for data storage.
-map_op[".long_*"] = function(params)
-  if not params then return "imm..." end
-  for _,p in ipairs(params) do
-    local n = tonumber(p)
-    if not n then werror("bad immediate `"..p.."'") end
-    if n < 0 then n = n + 2^32 end
-    wputw(n)
-    if secpos+2 > maxsecpos then wflush() end
-  end
-end
-
--- Alignment pseudo-opcode.
-map_op[".align_1"] = function(params)
-  if not params then return "numpow2" end
-  if secpos+1 > maxsecpos then wflush() end
-  local align = tonumber(params[1])
-  if align then
-    local x = align
-    -- Must be a power of 2 in the range (2 ... 256).
-    for i=1,8 do
-      x = x / 2
-      if x == 1 then
-	waction("ALIGN", align-1, nil, 1) -- Action byte is 2**n-1.
-	return
-      end
-    end
-  end
-  werror("bad alignment")
-end
-
-------------------------------------------------------------------------------
-
--- Pseudo-opcode for (primitive) type definitions (map to C types).
-map_op[".type_3"] = function(params, nparams)
-  if not params then
-    return nparams == 2 and "name, ctype" or "name, ctype, reg"
-  end
-  local name, ctype, reg = params[1], params[2], params[3]
-  if not match(name, "^[%a_][%w_]*$") then
-    werror("bad type name `"..name.."'")
-  end
-  local tp = map_type[name]
-  if tp then
-    werror("duplicate type `"..name.."'")
-  end
-  -- Add #type to defines. A bit unclean to put it in map_archdef.
-  map_archdef["#"..name] = "sizeof("..ctype..")"
-  -- Add new type and emit shortcut define.
-  local num = ctypenum + 1
-  map_type[name] = {
-    ctype = ctype,
-    ctypefmt = format("Dt%X(%%s)", num),
-    reg = reg,
-  }
-  wline(format("#define Dt%X(_V) (int)(ptrdiff_t)&(((%s *)0)_V)", num, ctype))
-  ctypenum = num
-end
-map_op[".type_2"] = map_op[".type_3"]
-
--- Dump type definitions.
-local function dumptypes(out, lvl)
-  local t = {}
-  for name in pairs(map_type) do t[#t+1] = name end
-  sort(t)
-  out:write("Type definitions:\n")
-  for _,name in ipairs(t) do
-    local tp = map_type[name]
-    local reg = tp.reg or ""
-    out:write(format("  %-20s %-20s %s\n", name, tp.ctype, reg))
-  end
-  out:write("\n")
-end
-
-------------------------------------------------------------------------------
-
--- Set the current section.
-function _M.section(num)
-  waction("SECTION", num)
-  wflush(true) -- SECTION is a terminal action.
-end
-
-------------------------------------------------------------------------------
-
--- Dump architecture description.
-function _M.dumparch(out)
-  out:write(format("DynASM %s version %s, released %s\n\n",
-    _info.arch, _info.version, _info.release))
-  dumpactions(out)
-end
-
--- Dump all user defined elements.
-function _M.dumpdef(out, lvl)
-  dumptypes(out, lvl)
-  dumpglobals(out, lvl)
-  dumpexterns(out, lvl)
-end
-
-------------------------------------------------------------------------------
-
--- Pass callbacks from/to the DynASM core.
-function _M.passcb(wl, we, wf, ww)
-  wline, werror, wfatal, wwarn = wl, we, wf, ww
-  return wflush
-end
-
--- Setup the arch-specific module.
-function _M.setup(arch, opt)
-  g_arch, g_opt = arch, opt
-end
-
--- Merge the core maps and the arch-specific maps.
-function _M.mergemaps(map_coreop, map_def)
-  setmetatable(map_op, { __index = map_coreop })
-  setmetatable(map_def, { __index = map_archdef })
-  return map_op, map_def
-end
-
-return _M
-
-------------------------------------------------------------------------------
-
diff --git a/luajit-2.0/dynasm/dasm_proto.h b/luajit-2.0/dynasm/dasm_proto.h
deleted file mode 100644
index e77bb84..0000000
--- a/luajit-2.0/dynasm/dasm_proto.h
+++ /dev/null
@@ -1,83 +0,0 @@
-/*
-** DynASM encoding engine prototypes.
-** Copyright (C) 2005-2014 Mike Pall. All rights reserved.
-** Released under the MIT license. See dynasm.lua for full copyright notice.
-*/
-
-#ifndef _DASM_PROTO_H
-#define _DASM_PROTO_H
-
-#include <stddef.h>
-#include <stdarg.h>
-
-#define DASM_IDENT	"DynASM 1.3.0"
-#define DASM_VERSION	10300	/* 1.3.0 */
-
-#ifndef Dst_DECL
-#define Dst_DECL	dasm_State **Dst
-#endif
-
-#ifndef Dst_REF
-#define Dst_REF		(*Dst)
-#endif
-
-#ifndef DASM_FDEF
-#define DASM_FDEF	extern
-#endif
-
-#ifndef DASM_M_GROW
-#define DASM_M_GROW(ctx, t, p, sz, need) \
-  do { \
-    size_t _sz = (sz), _need = (need); \
-    if (_sz < _need) { \
-      if (_sz < 16) _sz = 16; \
-      while (_sz < _need) _sz += _sz; \
-      (p) = (t *)realloc((p), _sz); \
-      if ((p) == NULL) exit(1); \
-      (sz) = _sz; \
-    } \
-  } while(0)
-#endif
-
-#ifndef DASM_M_FREE
-#define DASM_M_FREE(ctx, p, sz)	free(p)
-#endif
-
-/* Internal DynASM encoder state. */
-typedef struct dasm_State dasm_State;
-
-
-/* Initialize and free DynASM state. */
-DASM_FDEF void dasm_init(Dst_DECL, int maxsection);
-DASM_FDEF void dasm_free(Dst_DECL);
-
-/* Setup global array. Must be called before dasm_setup(). */
-DASM_FDEF void dasm_setupglobal(Dst_DECL, void **gl, unsigned int maxgl);
-
-/* Grow PC label array. Can be called after dasm_setup(), too. */
-DASM_FDEF void dasm_growpc(Dst_DECL, unsigned int maxpc);
-
-/* Setup encoder. */
-DASM_FDEF void dasm_setup(Dst_DECL, const void *actionlist);
-
-/* Feed encoder with actions. Calls are generated by pre-processor. */
-DASM_FDEF void dasm_put(Dst_DECL, int start, ...);
-
-/* Link sections and return the resulting size. */
-DASM_FDEF int dasm_link(Dst_DECL, size_t *szp);
-
-/* Encode sections into buffer. */
-DASM_FDEF int dasm_encode(Dst_DECL, void *buffer);
-
-/* Get PC label offset. */
-DASM_FDEF int dasm_getpclabel(Dst_DECL, unsigned int pc);
-
-#ifdef DASM_CHECKS
-/* Optional sanity checker to call between isolated encoding steps. */
-DASM_FDEF int dasm_checkstep(Dst_DECL, int secmatch);
-#else
-#define dasm_checkstep(a, b)	0
-#endif
-
-
-#endif /* _DASM_PROTO_H */
diff --git a/luajit-2.0/dynasm/dasm_x64.lua b/luajit-2.0/dynasm/dasm_x64.lua
deleted file mode 100644
index 91d676d..0000000
--- a/luajit-2.0/dynasm/dasm_x64.lua
+++ /dev/null
@@ -1,12 +0,0 @@
-------------------------------------------------------------------------------
--- DynASM x64 module.
---
--- Copyright (C) 2005-2014 Mike Pall. All rights reserved.
--- See dynasm.lua for full copyright notice.
-------------------------------------------------------------------------------
--- This module just sets 64 bit mode for the combined x86/x64 module.
--- All the interesting stuff is there.
-------------------------------------------------------------------------------
-
-x64 = true -- Using a global is an ugly, but effective solution.
-return require("dasm_x86")
diff --git a/luajit-2.0/dynasm/dasm_x86.h b/luajit-2.0/dynasm/dasm_x86.h
deleted file mode 100644
index 97cbbea..0000000
--- a/luajit-2.0/dynasm/dasm_x86.h
+++ /dev/null
@@ -1,471 +0,0 @@
-/*
-** DynASM x86 encoding engine.
-** Copyright (C) 2005-2014 Mike Pall. All rights reserved.
-** Released under the MIT license. See dynasm.lua for full copyright notice.
-*/
-
-#include <stddef.h>
-#include <stdarg.h>
-#include <string.h>
-#include <stdlib.h>
-
-#define DASM_ARCH		"x86"
-
-#ifndef DASM_EXTERN
-#define DASM_EXTERN(a,b,c,d)	0
-#endif
-
-/* Action definitions. DASM_STOP must be 255. */
-enum {
-  DASM_DISP = 233,
-  DASM_IMM_S, DASM_IMM_B, DASM_IMM_W, DASM_IMM_D, DASM_IMM_WB, DASM_IMM_DB,
-  DASM_VREG, DASM_SPACE, DASM_SETLABEL, DASM_REL_A, DASM_REL_LG, DASM_REL_PC,
-  DASM_IMM_LG, DASM_IMM_PC, DASM_LABEL_LG, DASM_LABEL_PC, DASM_ALIGN,
-  DASM_EXTERN, DASM_ESC, DASM_MARK, DASM_SECTION, DASM_STOP
-};
-
-/* Maximum number of section buffer positions for a single dasm_put() call. */
-#define DASM_MAXSECPOS		25
-
-/* DynASM encoder status codes. Action list offset or number are or'ed in. */
-#define DASM_S_OK		0x00000000
-#define DASM_S_NOMEM		0x01000000
-#define DASM_S_PHASE		0x02000000
-#define DASM_S_MATCH_SEC	0x03000000
-#define DASM_S_RANGE_I		0x11000000
-#define DASM_S_RANGE_SEC	0x12000000
-#define DASM_S_RANGE_LG		0x13000000
-#define DASM_S_RANGE_PC		0x14000000
-#define DASM_S_RANGE_VREG	0x15000000
-#define DASM_S_UNDEF_L		0x21000000
-#define DASM_S_UNDEF_PC		0x22000000
-
-/* Macros to convert positions (8 bit section + 24 bit index). */
-#define DASM_POS2IDX(pos)	((pos)&0x00ffffff)
-#define DASM_POS2BIAS(pos)	((pos)&0xff000000)
-#define DASM_SEC2POS(sec)	((sec)<<24)
-#define DASM_POS2SEC(pos)	((pos)>>24)
-#define DASM_POS2PTR(D, pos)	(D->sections[DASM_POS2SEC(pos)].rbuf + (pos))
-
-/* Action list type. */
-typedef const unsigned char *dasm_ActList;
-
-/* Per-section structure. */
-typedef struct dasm_Section {
-  int *rbuf;		/* Biased buffer pointer (negative section bias). */
-  int *buf;		/* True buffer pointer. */
-  size_t bsize;		/* Buffer size in bytes. */
-  int pos;		/* Biased buffer position. */
-  int epos;		/* End of biased buffer position - max single put. */
-  int ofs;		/* Byte offset into section. */
-} dasm_Section;
-
-/* Core structure holding the DynASM encoding state. */
-struct dasm_State {
-  size_t psize;			/* Allocated size of this structure. */
-  dasm_ActList actionlist;	/* Current actionlist pointer. */
-  int *lglabels;		/* Local/global chain/pos ptrs. */
-  size_t lgsize;
-  int *pclabels;		/* PC label chains/pos ptrs. */
-  size_t pcsize;
-  void **globals;		/* Array of globals (bias -10). */
-  dasm_Section *section;	/* Pointer to active section. */
-  size_t codesize;		/* Total size of all code sections. */
-  int maxsection;		/* 0 <= sectionidx < maxsection. */
-  int status;			/* Status code. */
-  dasm_Section sections[1];	/* All sections. Alloc-extended. */
-};
-
-/* The size of the core structure depends on the max. number of sections. */
-#define DASM_PSZ(ms)	(sizeof(dasm_State)+(ms-1)*sizeof(dasm_Section))
-
-
-/* Initialize DynASM state. */
-void dasm_init(Dst_DECL, int maxsection)
-{
-  dasm_State *D;
-  size_t psz = 0;
-  int i;
-  Dst_REF = NULL;
-  DASM_M_GROW(Dst, struct dasm_State, Dst_REF, psz, DASM_PSZ(maxsection));
-  D = Dst_REF;
-  D->psize = psz;
-  D->lglabels = NULL;
-  D->lgsize = 0;
-  D->pclabels = NULL;
-  D->pcsize = 0;
-  D->globals = NULL;
-  D->maxsection = maxsection;
-  for (i = 0; i < maxsection; i++) {
-    D->sections[i].buf = NULL;  /* Need this for pass3. */
-    D->sections[i].rbuf = D->sections[i].buf - DASM_SEC2POS(i);
-    D->sections[i].bsize = 0;
-    D->sections[i].epos = 0;  /* Wrong, but is recalculated after resize. */
-  }
-}
-
-/* Free DynASM state. */
-void dasm_free(Dst_DECL)
-{
-  dasm_State *D = Dst_REF;
-  int i;
-  for (i = 0; i < D->maxsection; i++)
-    if (D->sections[i].buf)
-      DASM_M_FREE(Dst, D->sections[i].buf, D->sections[i].bsize);
-  if (D->pclabels) DASM_M_FREE(Dst, D->pclabels, D->pcsize);
-  if (D->lglabels) DASM_M_FREE(Dst, D->lglabels, D->lgsize);
-  DASM_M_FREE(Dst, D, D->psize);
-}
-
-/* Setup global label array. Must be called before dasm_setup(). */
-void dasm_setupglobal(Dst_DECL, void **gl, unsigned int maxgl)
-{
-  dasm_State *D = Dst_REF;
-  D->globals = gl - 10;  /* Negative bias to compensate for locals. */
-  DASM_M_GROW(Dst, int, D->lglabels, D->lgsize, (10+maxgl)*sizeof(int));
-}
-
-/* Grow PC label array. Can be called after dasm_setup(), too. */
-void dasm_growpc(Dst_DECL, unsigned int maxpc)
-{
-  dasm_State *D = Dst_REF;
-  size_t osz = D->pcsize;
-  DASM_M_GROW(Dst, int, D->pclabels, D->pcsize, maxpc*sizeof(int));
-  memset((void *)(((unsigned char *)D->pclabels)+osz), 0, D->pcsize-osz);
-}
-
-/* Setup encoder. */
-void dasm_setup(Dst_DECL, const void *actionlist)
-{
-  dasm_State *D = Dst_REF;
-  int i;
-  D->actionlist = (dasm_ActList)actionlist;
-  D->status = DASM_S_OK;
-  D->section = &D->sections[0];
-  memset((void *)D->lglabels, 0, D->lgsize);
-  if (D->pclabels) memset((void *)D->pclabels, 0, D->pcsize);
-  for (i = 0; i < D->maxsection; i++) {
-    D->sections[i].pos = DASM_SEC2POS(i);
-    D->sections[i].ofs = 0;
-  }
-}
-
-
-#ifdef DASM_CHECKS
-#define CK(x, st) \
-  do { if (!(x)) { \
-    D->status = DASM_S_##st|(int)(p-D->actionlist-1); return; } } while (0)
-#define CKPL(kind, st) \
-  do { if ((size_t)((char *)pl-(char *)D->kind##labels) >= D->kind##size) { \
-    D->status=DASM_S_RANGE_##st|(int)(p-D->actionlist-1); return; } } while (0)
-#else
-#define CK(x, st)	((void)0)
-#define CKPL(kind, st)	((void)0)
-#endif
-
-/* Pass 1: Store actions and args, link branches/labels, estimate offsets. */
-void dasm_put(Dst_DECL, int start, ...)
-{
-  va_list ap;
-  dasm_State *D = Dst_REF;
-  dasm_ActList p = D->actionlist + start;
-  dasm_Section *sec = D->section;
-  int pos = sec->pos, ofs = sec->ofs, mrm = 4;
-  int *b;
-
-  if (pos >= sec->epos) {
-    DASM_M_GROW(Dst, int, sec->buf, sec->bsize,
-      sec->bsize + 2*DASM_MAXSECPOS*sizeof(int));
-    sec->rbuf = sec->buf - DASM_POS2BIAS(pos);
-    sec->epos = (int)sec->bsize/sizeof(int) - DASM_MAXSECPOS+DASM_POS2BIAS(pos);
-  }
-
-  b = sec->rbuf;
-  b[pos++] = start;
-
-  va_start(ap, start);
-  while (1) {
-    int action = *p++;
-    if (action < DASM_DISP) {
-      ofs++;
-    } else if (action <= DASM_REL_A) {
-      int n = va_arg(ap, int);
-      b[pos++] = n;
-      switch (action) {
-      case DASM_DISP:
-	if (n == 0) { if ((mrm&7) == 4) mrm = p[-2]; if ((mrm&7) != 5) break; }
-      case DASM_IMM_DB: if (((n+128)&-256) == 0) goto ob;
-      case DASM_REL_A: /* Assumes ptrdiff_t is int. !x64 */
-      case DASM_IMM_D: ofs += 4; break;
-      case DASM_IMM_S: CK(((n+128)&-256) == 0, RANGE_I); goto ob;
-      case DASM_IMM_B: CK((n&-256) == 0, RANGE_I); ob: ofs++; break;
-      case DASM_IMM_WB: if (((n+128)&-256) == 0) goto ob;
-      case DASM_IMM_W: CK((n&-65536) == 0, RANGE_I); ofs += 2; break;
-      case DASM_SPACE: p++; ofs += n; break;
-      case DASM_SETLABEL: b[pos-2] = -0x40000000; break;  /* Neg. label ofs. */
-      case DASM_VREG: CK((n&-8) == 0 && (n != 4 || (*p&1) == 0), RANGE_VREG);
-	if (*p++ == 1 && *p == DASM_DISP) mrm = n; continue;
-      }
-      mrm = 4;
-    } else {
-      int *pl, n;
-      switch (action) {
-      case DASM_REL_LG:
-      case DASM_IMM_LG:
-	n = *p++; pl = D->lglabels + n;
-	/* Bkwd rel or global. */
-	if (n <= 246) { CK(n>=10||*pl<0, RANGE_LG); CKPL(lg, LG); goto putrel; }
-	pl -= 246; n = *pl;
-	if (n < 0) n = 0;  /* Start new chain for fwd rel if label exists. */
-	goto linkrel;
-      case DASM_REL_PC:
-      case DASM_IMM_PC: pl = D->pclabels + va_arg(ap, int); CKPL(pc, PC);
-      putrel:
-	n = *pl;
-	if (n < 0) {  /* Label exists. Get label pos and store it. */
-	  b[pos] = -n;
-	} else {
-      linkrel:
-	  b[pos] = n;  /* Else link to rel chain, anchored at label. */
-	  *pl = pos;
-	}
-	pos++;
-	ofs += 4;  /* Maximum offset needed. */
-	if (action == DASM_REL_LG || action == DASM_REL_PC)
-	  b[pos++] = ofs;  /* Store pass1 offset estimate. */
-	break;
-      case DASM_LABEL_LG: pl = D->lglabels + *p++; CKPL(lg, LG); goto putlabel;
-      case DASM_LABEL_PC: pl = D->pclabels + va_arg(ap, int); CKPL(pc, PC);
-      putlabel:
-	n = *pl;  /* n > 0: Collapse rel chain and replace with label pos. */
-	while (n > 0) { int *pb = DASM_POS2PTR(D, n); n = *pb; *pb = pos; }
-	*pl = -pos;  /* Label exists now. */
-	b[pos++] = ofs;  /* Store pass1 offset estimate. */
-	break;
-      case DASM_ALIGN:
-	ofs += *p++;  /* Maximum alignment needed (arg is 2**n-1). */
-	b[pos++] = ofs;  /* Store pass1 offset estimate. */
-	break;
-      case DASM_EXTERN: p += 2; ofs += 4; break;
-      case DASM_ESC: p++; ofs++; break;
-      case DASM_MARK: mrm = p[-2]; break;
-      case DASM_SECTION:
-	n = *p; CK(n < D->maxsection, RANGE_SEC); D->section = &D->sections[n];
-      case DASM_STOP: goto stop;
-      }
-    }
-  }
-stop:
-  va_end(ap);
-  sec->pos = pos;
-  sec->ofs = ofs;
-}
-#undef CK
-
-/* Pass 2: Link sections, shrink branches/aligns, fix label offsets. */
-int dasm_link(Dst_DECL, size_t *szp)
-{
-  dasm_State *D = Dst_REF;
-  int secnum;
-  int ofs = 0;
-
-#ifdef DASM_CHECKS
-  *szp = 0;
-  if (D->status != DASM_S_OK) return D->status;
-  {
-    int pc;
-    for (pc = 0; pc*sizeof(int) < D->pcsize; pc++)
-      if (D->pclabels[pc] > 0) return DASM_S_UNDEF_PC|pc;
-  }
-#endif
-
-  { /* Handle globals not defined in this translation unit. */
-    int idx;
-    for (idx = 10; idx*sizeof(int) < D->lgsize; idx++) {
-      int n = D->lglabels[idx];
-      /* Undefined label: Collapse rel chain and replace with marker (< 0). */
-      while (n > 0) { int *pb = DASM_POS2PTR(D, n); n = *pb; *pb = -idx; }
-    }
-  }
-
-  /* Combine all code sections. No support for data sections (yet). */
-  for (secnum = 0; secnum < D->maxsection; secnum++) {
-    dasm_Section *sec = D->sections + secnum;
-    int *b = sec->rbuf;
-    int pos = DASM_SEC2POS(secnum);
-    int lastpos = sec->pos;
-
-    while (pos != lastpos) {
-      dasm_ActList p = D->actionlist + b[pos++];
-      while (1) {
-	int op, action = *p++;
-	switch (action) {
-	case DASM_REL_LG: p++; op = p[-3]; goto rel_pc;
-	case DASM_REL_PC: op = p[-2]; rel_pc: {
-	  int shrink = op == 0xe9 ? 3 : ((op&0xf0) == 0x80 ? 4 : 0);
-	  if (shrink) {  /* Shrinkable branch opcode? */
-	    int lofs, lpos = b[pos];
-	    if (lpos < 0) goto noshrink;  /* Ext global? */
-	    lofs = *DASM_POS2PTR(D, lpos);
-	    if (lpos > pos) {  /* Fwd label: add cumulative section offsets. */
-	      int i;
-	      for (i = secnum; i < DASM_POS2SEC(lpos); i++)
-		lofs += D->sections[i].ofs;
-	    } else {
-	      lofs -= ofs;  /* Bkwd label: unfix offset. */
-	    }
-	    lofs -= b[pos+1];  /* Short branch ok? */
-	    if (lofs >= -128-shrink && lofs <= 127) ofs -= shrink;  /* Yes. */
-	    else { noshrink: shrink = 0; }  /* No, cannot shrink op. */
-	  }
-	  b[pos+1] = shrink;
-	  pos += 2;
-	  break;
-	}
-	case DASM_SPACE: case DASM_IMM_LG: case DASM_VREG: p++;
-	case DASM_DISP: case DASM_IMM_S: case DASM_IMM_B: case DASM_IMM_W:
-	case DASM_IMM_D: case DASM_IMM_WB: case DASM_IMM_DB:
-	case DASM_SETLABEL: case DASM_REL_A: case DASM_IMM_PC: pos++; break;
-	case DASM_LABEL_LG: p++;
-	case DASM_LABEL_PC: b[pos++] += ofs; break; /* Fix label offset. */
-	case DASM_ALIGN: ofs -= (b[pos++]+ofs)&*p++; break; /* Adjust ofs. */
-	case DASM_EXTERN: p += 2; break;
-	case DASM_ESC: p++; break;
-	case DASM_MARK: break;
-	case DASM_SECTION: case DASM_STOP: goto stop;
-	}
-      }
-      stop: (void)0;
-    }
-    ofs += sec->ofs;  /* Next section starts right after current section. */
-  }
-
-  D->codesize = ofs;  /* Total size of all code sections */
-  *szp = ofs;
-  return DASM_S_OK;
-}
-
-#define dasmb(x)	*cp++ = (unsigned char)(x)
-#ifndef DASM_ALIGNED_WRITES
-#define dasmw(x) \
-  do { *((unsigned short *)cp) = (unsigned short)(x); cp+=2; } while (0)
-#define dasmd(x) \
-  do { *((unsigned int *)cp) = (unsigned int)(x); cp+=4; } while (0)
-#else
-#define dasmw(x)	do { dasmb(x); dasmb((x)>>8); } while (0)
-#define dasmd(x)	do { dasmw(x); dasmw((x)>>16); } while (0)
-#endif
-
-/* Pass 3: Encode sections. */
-int dasm_encode(Dst_DECL, void *buffer)
-{
-  dasm_State *D = Dst_REF;
-  unsigned char *base = (unsigned char *)buffer;
-  unsigned char *cp = base;
-  int secnum;
-
-  /* Encode all code sections. No support for data sections (yet). */
-  for (secnum = 0; secnum < D->maxsection; secnum++) {
-    dasm_Section *sec = D->sections + secnum;
-    int *b = sec->buf;
-    int *endb = sec->rbuf + sec->pos;
-
-    while (b != endb) {
-      dasm_ActList p = D->actionlist + *b++;
-      unsigned char *mark = NULL;
-      while (1) {
-	int action = *p++;
-	int n = (action >= DASM_DISP && action <= DASM_ALIGN) ? *b++ : 0;
-	switch (action) {
-	case DASM_DISP: if (!mark) mark = cp; {
-	  unsigned char *mm = mark;
-	  if (*p != DASM_IMM_DB && *p != DASM_IMM_WB) mark = NULL;
-	  if (n == 0) { int mrm = mm[-1]&7; if (mrm == 4) mrm = mm[0]&7;
-	    if (mrm != 5) { mm[-1] -= 0x80; break; } }
-	  if (((n+128) & -256) != 0) goto wd; else mm[-1] -= 0x40;
-	}
-	case DASM_IMM_S: case DASM_IMM_B: wb: dasmb(n); break;
-	case DASM_IMM_DB: if (((n+128)&-256) == 0) {
-	    db: if (!mark) mark = cp; mark[-2] += 2; mark = NULL; goto wb;
-	  } else mark = NULL;
-	case DASM_IMM_D: wd: dasmd(n); break;
-	case DASM_IMM_WB: if (((n+128)&-256) == 0) goto db; else mark = NULL;
-	case DASM_IMM_W: dasmw(n); break;
-	case DASM_VREG: { int t = *p++; if (t >= 2) n<<=3; cp[-1] |= n; break; }
-	case DASM_REL_LG: p++; if (n >= 0) goto rel_pc;
-	  b++; n = (int)(ptrdiff_t)D->globals[-n];
-	case DASM_REL_A: rel_a: n -= (int)(ptrdiff_t)(cp+4); goto wd; /* !x64 */
-	case DASM_REL_PC: rel_pc: {
-	  int shrink = *b++;
-	  int *pb = DASM_POS2PTR(D, n); if (*pb < 0) { n = pb[1]; goto rel_a; }
-	  n = *pb - ((int)(cp-base) + 4-shrink);
-	  if (shrink == 0) goto wd;
-	  if (shrink == 4) { cp--; cp[-1] = *cp-0x10; } else cp[-1] = 0xeb;
-	  goto wb;
-	}
-	case DASM_IMM_LG:
-	  p++; if (n < 0) { n = (int)(ptrdiff_t)D->globals[-n]; goto wd; }
-	case DASM_IMM_PC: {
-	  int *pb = DASM_POS2PTR(D, n);
-	  n = *pb < 0 ? pb[1] : (*pb + (int)(ptrdiff_t)base);
-	  goto wd;
-	}
-	case DASM_LABEL_LG: {
-	  int idx = *p++;
-	  if (idx >= 10)
-	    D->globals[idx] = (void *)(base + (*p == DASM_SETLABEL ? *b : n));
-	  break;
-	}
-	case DASM_LABEL_PC: case DASM_SETLABEL: break;
-	case DASM_SPACE: { int fill = *p++; while (n--) *cp++ = fill; break; }
-	case DASM_ALIGN:
-	  n = *p++;
-	  while (((cp-base) & n)) *cp++ = 0x90; /* nop */
-	  break;
-	case DASM_EXTERN: n = DASM_EXTERN(Dst, cp, p[1], *p); p += 2; goto wd;
-	case DASM_MARK: mark = cp; break;
-	case DASM_ESC: action = *p++;
-	default: *cp++ = action; break;
-	case DASM_SECTION: case DASM_STOP: goto stop;
-	}
-      }
-      stop: (void)0;
-    }
-  }
-
-  if (base + D->codesize != cp)  /* Check for phase errors. */
-    return DASM_S_PHASE;
-  return DASM_S_OK;
-}
-
-/* Get PC label offset. */
-int dasm_getpclabel(Dst_DECL, unsigned int pc)
-{
-  dasm_State *D = Dst_REF;
-  if (pc*sizeof(int) < D->pcsize) {
-    int pos = D->pclabels[pc];
-    if (pos < 0) return *DASM_POS2PTR(D, -pos);
-    if (pos > 0) return -1;  /* Undefined. */
-  }
-  return -2;  /* Unused or out of range. */
-}
-
-#ifdef DASM_CHECKS
-/* Optional sanity checker to call between isolated encoding steps. */
-int dasm_checkstep(Dst_DECL, int secmatch)
-{
-  dasm_State *D = Dst_REF;
-  if (D->status == DASM_S_OK) {
-    int i;
-    for (i = 1; i <= 9; i++) {
-      if (D->lglabels[i] > 0) { D->status = DASM_S_UNDEF_L|i; break; }
-      D->lglabels[i] = 0;
-    }
-  }
-  if (D->status == DASM_S_OK && secmatch >= 0 &&
-      D->section != &D->sections[secmatch])
-    D->status = DASM_S_MATCH_SEC|(int)(D->section-D->sections);
-  return D->status;
-}
-#endif
-
diff --git a/luajit-2.0/dynasm/dasm_x86.lua b/luajit-2.0/dynasm/dasm_x86.lua
deleted file mode 100644
index 5f82f4f..0000000
--- a/luajit-2.0/dynasm/dasm_x86.lua
+++ /dev/null
@@ -1,1945 +0,0 @@
-------------------------------------------------------------------------------
--- DynASM x86/x64 module.
---
--- Copyright (C) 2005-2014 Mike Pall. All rights reserved.
--- See dynasm.lua for full copyright notice.
-------------------------------------------------------------------------------
-
-local x64 = x64
-
--- Module information:
-local _info = {
-  arch =	x64 and "x64" or "x86",
-  description =	"DynASM x86/x64 module",
-  version =	"1.3.0",
-  vernum =	 10300,
-  release =	"2011-05-05",
-  author =	"Mike Pall",
-  license =	"MIT",
-}
-
--- Exported glue functions for the arch-specific module.
-local _M = { _info = _info }
-
--- Cache library functions.
-local type, tonumber, pairs, ipairs = type, tonumber, pairs, ipairs
-local assert, unpack, setmetatable = assert, unpack or table.unpack, setmetatable
-local _s = string
-local sub, format, byte, char = _s.sub, _s.format, _s.byte, _s.char
-local find, match, gmatch, gsub = _s.find, _s.match, _s.gmatch, _s.gsub
-local concat, sort = table.concat, table.sort
-local bit = bit or require("bit")
-local band, shl, shr = bit.band, bit.lshift, bit.rshift
-
--- Inherited tables and callbacks.
-local g_opt, g_arch
-local wline, werror, wfatal, wwarn
-
--- Action name list.
--- CHECK: Keep this in sync with the C code!
-local action_names = {
-  -- int arg, 1 buffer pos:
-  "DISP",  "IMM_S", "IMM_B", "IMM_W", "IMM_D",  "IMM_WB", "IMM_DB",
-  -- action arg (1 byte), int arg, 1 buffer pos (reg/num):
-  "VREG", "SPACE", -- !x64: VREG support NYI.
-  -- ptrdiff_t arg, 1 buffer pos (address): !x64
-  "SETLABEL", "REL_A",
-  -- action arg (1 byte) or int arg, 2 buffer pos (link, offset):
-  "REL_LG", "REL_PC",
-  -- action arg (1 byte) or int arg, 1 buffer pos (link):
-  "IMM_LG", "IMM_PC",
-  -- action arg (1 byte) or int arg, 1 buffer pos (offset):
-  "LABEL_LG", "LABEL_PC",
-  -- action arg (1 byte), 1 buffer pos (offset):
-  "ALIGN",
-  -- action args (2 bytes), no buffer pos.
-  "EXTERN",
-  -- action arg (1 byte), no buffer pos.
-  "ESC",
-  -- no action arg, no buffer pos.
-  "MARK",
-  -- action arg (1 byte), no buffer pos, terminal action:
-  "SECTION",
-  -- no args, no buffer pos, terminal action:
-  "STOP"
-}
-
--- Maximum number of section buffer positions for dasm_put().
--- CHECK: Keep this in sync with the C code!
-local maxsecpos = 25 -- Keep this low, to avoid excessively long C lines.
-
--- Action name -> action number (dynamically generated below).
-local map_action = {}
--- First action number. Everything below does not need to be escaped.
-local actfirst = 256-#action_names
-
--- Action list buffer and string (only used to remove dupes).
-local actlist = {}
-local actstr = ""
-
--- Argument list for next dasm_put(). Start with offset 0 into action list.
-local actargs = { 0 }
-
--- Current number of section buffer positions for dasm_put().
-local secpos = 1
-
-------------------------------------------------------------------------------
-
--- Compute action numbers for action names.
-for n,name in ipairs(action_names) do
-  local num = actfirst + n - 1
-  map_action[name] = num
-end
-
--- Dump action names and numbers.
-local function dumpactions(out)
-  out:write("DynASM encoding engine action codes:\n")
-  for n,name in ipairs(action_names) do
-    local num = map_action[name]
-    out:write(format("  %-10s %02X  %d\n", name, num, num))
-  end
-  out:write("\n")
-end
-
--- Write action list buffer as a huge static C array.
-local function writeactions(out, name)
-  local nn = #actlist
-  local last = actlist[nn] or 255
-  actlist[nn] = nil -- Remove last byte.
-  if nn == 0 then nn = 1 end
-  out:write("static const unsigned char ", name, "[", nn, "] = {\n")
-  local s = "  "
-  for n,b in ipairs(actlist) do
-    s = s..b..","
-    if #s >= 75 then
-      assert(out:write(s, "\n"))
-      s = "  "
-    end
-  end
-  out:write(s, last, "\n};\n\n") -- Add last byte back.
-end
-
-------------------------------------------------------------------------------
-
--- Add byte to action list.
-local function wputxb(n)
-  assert(n >= 0 and n <= 255 and n % 1 == 0, "byte out of range")
-  actlist[#actlist+1] = n
-end
-
--- Add action to list with optional arg. Advance buffer pos, too.
-local function waction(action, a, num)
-  wputxb(assert(map_action[action], "bad action name `"..action.."'"))
-  if a then actargs[#actargs+1] = a end
-  if a or num then secpos = secpos + (num or 1) end
-end
-
--- Add call to embedded DynASM C code.
-local function wcall(func, args)
-  wline(format("dasm_%s(Dst, %s);", func, concat(args, ", ")), true)
-end
-
--- Delete duplicate action list chunks. A tad slow, but so what.
-local function dedupechunk(offset)
-  local al, as = actlist, actstr
-  local chunk = char(unpack(al, offset+1, #al))
-  local orig = find(as, chunk, 1, true)
-  if orig then
-    actargs[1] = orig-1 -- Replace with original offset.
-    for i=offset+1,#al do al[i] = nil end -- Kill dupe.
-  else
-    actstr = as..chunk
-  end
-end
-
--- Flush action list (intervening C code or buffer pos overflow).
-local function wflush(term)
-  local offset = actargs[1]
-  if #actlist == offset then return end -- Nothing to flush.
-  if not term then waction("STOP") end -- Terminate action list.
-  dedupechunk(offset)
-  wcall("put", actargs) -- Add call to dasm_put().
-  actargs = { #actlist } -- Actionlist offset is 1st arg to next dasm_put().
-  secpos = 1 -- The actionlist offset occupies a buffer position, too.
-end
-
--- Put escaped byte.
-local function wputb(n)
-  if n >= actfirst then waction("ESC") end -- Need to escape byte.
-  wputxb(n)
-end
-
-------------------------------------------------------------------------------
-
--- Global label name -> global label number. With auto assignment on 1st use.
-local next_global = 10
-local map_global = setmetatable({}, { __index = function(t, name)
-  if not match(name, "^[%a_][%w_@]*$") then werror("bad global label") end
-  local n = next_global
-  if n > 246 then werror("too many global labels") end
-  next_global = n + 1
-  t[name] = n
-  return n
-end})
-
--- Dump global labels.
-local function dumpglobals(out, lvl)
-  local t = {}
-  for name, n in pairs(map_global) do t[n] = name end
-  out:write("Global labels:\n")
-  for i=10,next_global-1 do
-    out:write(format("  %s\n", t[i]))
-  end
-  out:write("\n")
-end
-
--- Write global label enum.
-local function writeglobals(out, prefix)
-  local t = {}
-  for name, n in pairs(map_global) do t[n] = name end
-  out:write("enum {\n")
-  for i=10,next_global-1 do
-    out:write("  ", prefix, gsub(t[i], "@.*", ""), ",\n")
-  end
-  out:write("  ", prefix, "_MAX\n};\n")
-end
-
--- Write global label names.
-local function writeglobalnames(out, name)
-  local t = {}
-  for name, n in pairs(map_global) do t[n] = name end
-  out:write("static const char *const ", name, "[] = {\n")
-  for i=10,next_global-1 do
-    out:write("  \"", t[i], "\",\n")
-  end
-  out:write("  (const char *)0\n};\n")
-end
-
-------------------------------------------------------------------------------
-
--- Extern label name -> extern label number. With auto assignment on 1st use.
-local next_extern = -1
-local map_extern = setmetatable({}, { __index = function(t, name)
-  -- No restrictions on the name for now.
-  local n = next_extern
-  if n < -256 then werror("too many extern labels") end
-  next_extern = n - 1
-  t[name] = n
-  return n
-end})
-
--- Dump extern labels.
-local function dumpexterns(out, lvl)
-  local t = {}
-  for name, n in pairs(map_extern) do t[-n] = name end
-  out:write("Extern labels:\n")
-  for i=1,-next_extern-1 do
-    out:write(format("  %s\n", t[i]))
-  end
-  out:write("\n")
-end
-
--- Write extern label names.
-local function writeexternnames(out, name)
-  local t = {}
-  for name, n in pairs(map_extern) do t[-n] = name end
-  out:write("static const char *const ", name, "[] = {\n")
-  for i=1,-next_extern-1 do
-    out:write("  \"", t[i], "\",\n")
-  end
-  out:write("  (const char *)0\n};\n")
-end
-
-------------------------------------------------------------------------------
-
--- Arch-specific maps.
-local map_archdef = {}		-- Ext. register name -> int. name.
-local map_reg_rev = {}		-- Int. register name -> ext. name.
-local map_reg_num = {}		-- Int. register name -> register number.
-local map_reg_opsize = {}	-- Int. register name -> operand size.
-local map_reg_valid_base = {}	-- Int. register name -> valid base register?
-local map_reg_valid_index = {}	-- Int. register name -> valid index register?
-local map_reg_needrex = {}	-- Int. register name -> need rex vs. no rex.
-local reg_list = {}		-- Canonical list of int. register names.
-
-local map_type = {}		-- Type name -> { ctype, reg }
-local ctypenum = 0		-- Type number (for _PTx macros).
-
-local addrsize = x64 and "q" or "d"	-- Size for address operands.
-
--- Helper functions to fill register maps.
-local function mkrmap(sz, cl, names)
-  local cname = format("@%s", sz)
-  reg_list[#reg_list+1] = cname
-  map_archdef[cl] = cname
-  map_reg_rev[cname] = cl
-  map_reg_num[cname] = -1
-  map_reg_opsize[cname] = sz
-  if sz == addrsize or sz == "d" then
-    map_reg_valid_base[cname] = true
-    map_reg_valid_index[cname] = true
-  end
-  if names then
-    for n,name in ipairs(names) do
-      local iname = format("@%s%x", sz, n-1)
-      reg_list[#reg_list+1] = iname
-      map_archdef[name] = iname
-      map_reg_rev[iname] = name
-      map_reg_num[iname] = n-1
-      map_reg_opsize[iname] = sz
-      if sz == "b" and n > 4 then map_reg_needrex[iname] = false end
-      if sz == addrsize or sz == "d" then
-	map_reg_valid_base[iname] = true
-	map_reg_valid_index[iname] = true
-      end
-    end
-  end
-  for i=0,(x64 and sz ~= "f") and 15 or 7 do
-    local needrex = sz == "b" and i > 3
-    local iname = format("@%s%x%s", sz, i, needrex and "R" or "")
-    if needrex then map_reg_needrex[iname] = true end
-    local name
-    if sz == "o" then name = format("xmm%d", i)
-    elseif sz == "f" then name = format("st%d", i)
-    else name = format("r%d%s", i, sz == addrsize and "" or sz) end
-    map_archdef[name] = iname
-    if not map_reg_rev[iname] then
-      reg_list[#reg_list+1] = iname
-      map_reg_rev[iname] = name
-      map_reg_num[iname] = i
-      map_reg_opsize[iname] = sz
-      if sz == addrsize or sz == "d" then
-	map_reg_valid_base[iname] = true
-	map_reg_valid_index[iname] = true
-      end
-    end
-  end
-  reg_list[#reg_list+1] = ""
-end
-
--- Integer registers (qword, dword, word and byte sized).
-if x64 then
-  mkrmap("q", "Rq", {"rax", "rcx", "rdx", "rbx", "rsp", "rbp", "rsi", "rdi"})
-end
-mkrmap("d", "Rd", {"eax", "ecx", "edx", "ebx", "esp", "ebp", "esi", "edi"})
-mkrmap("w", "Rw", {"ax", "cx", "dx", "bx", "sp", "bp", "si", "di"})
-mkrmap("b", "Rb", {"al", "cl", "dl", "bl", "ah", "ch", "dh", "bh"})
-map_reg_valid_index[map_archdef.esp] = false
-if x64 then map_reg_valid_index[map_archdef.rsp] = false end
-map_archdef["Ra"] = "@"..addrsize
-
--- FP registers (internally tword sized, but use "f" as operand size).
-mkrmap("f", "Rf")
-
--- SSE registers (oword sized, but qword and dword accessible).
-mkrmap("o", "xmm")
-
--- Operand size prefixes to codes.
-local map_opsize = {
-  byte = "b", word = "w", dword = "d", qword = "q", oword = "o", tword = "t",
-  aword = addrsize,
-}
-
--- Operand size code to number.
-local map_opsizenum = {
-  b = 1, w = 2, d = 4, q = 8, o = 16, t = 10,
-}
-
--- Operand size code to name.
-local map_opsizename = {
-  b = "byte", w = "word", d = "dword", q = "qword", o = "oword", t = "tword",
-  f = "fpword",
-}
-
--- Valid index register scale factors.
-local map_xsc = {
-  ["1"] = 0, ["2"] = 1, ["4"] = 2, ["8"] = 3,
-}
-
--- Condition codes.
-local map_cc = {
-  o = 0, no = 1, b = 2, nb = 3, e = 4, ne = 5, be = 6, nbe = 7,
-  s = 8, ns = 9, p = 10, np = 11, l = 12, nl = 13, le = 14, nle = 15,
-  c = 2, nae = 2, nc = 3, ae = 3, z = 4, nz = 5, na = 6, a = 7,
-  pe = 10, po = 11, nge = 12, ge = 13, ng = 14, g = 15,
-}
-
-
--- Reverse defines for registers.
-function _M.revdef(s)
-  return gsub(s, "@%w+", map_reg_rev)
-end
-
--- Dump register names and numbers
-local function dumpregs(out)
-  out:write("Register names, sizes and internal numbers:\n")
-  for _,reg in ipairs(reg_list) do
-    if reg == "" then
-      out:write("\n")
-    else
-      local name = map_reg_rev[reg]
-      local num = map_reg_num[reg]
-      local opsize = map_opsizename[map_reg_opsize[reg]]
-      out:write(format("  %-5s %-8s %s\n", name, opsize,
-		       num < 0 and "(variable)" or num))
-    end
-  end
-end
-
-------------------------------------------------------------------------------
-
--- Put action for label arg (IMM_LG, IMM_PC, REL_LG, REL_PC).
-local function wputlabel(aprefix, imm, num)
-  if type(imm) == "number" then
-    if imm < 0 then
-      waction("EXTERN")
-      wputxb(aprefix == "IMM_" and 0 or 1)
-      imm = -imm-1
-    else
-      waction(aprefix.."LG", nil, num);
-    end
-    wputxb(imm)
-  else
-    waction(aprefix.."PC", imm, num)
-  end
-end
-
--- Put signed byte or arg.
-local function wputsbarg(n)
-  if type(n) == "number" then
-    if n < -128 or n > 127 then
-      werror("signed immediate byte out of range")
-    end
-    if n < 0 then n = n + 256 end
-    wputb(n)
-  else waction("IMM_S", n) end
-end
-
--- Put unsigned byte or arg.
-local function wputbarg(n)
-  if type(n) == "number" then
-    if n < 0 or n > 255 then
-      werror("unsigned immediate byte out of range")
-    end
-    wputb(n)
-  else waction("IMM_B", n) end
-end
-
--- Put unsigned word or arg.
-local function wputwarg(n)
-  if type(n) == "number" then
-    if shr(n, 16) ~= 0 then
-      werror("unsigned immediate word out of range")
-    end
-    wputb(band(n, 255)); wputb(shr(n, 8));
-  else waction("IMM_W", n) end
-end
-
--- Put signed or unsigned dword or arg.
-local function wputdarg(n)
-  local tn = type(n)
-  if tn == "number" then
-    wputb(band(n, 255))
-    wputb(band(shr(n, 8), 255))
-    wputb(band(shr(n, 16), 255))
-    wputb(shr(n, 24))
-  elseif tn == "table" then
-    wputlabel("IMM_", n[1], 1)
-  else
-    waction("IMM_D", n)
-  end
-end
-
--- Put operand-size dependent number or arg (defaults to dword).
-local function wputszarg(sz, n)
-  if not sz or sz == "d" or sz == "q" then wputdarg(n)
-  elseif sz == "w" then wputwarg(n)
-  elseif sz == "b" then wputbarg(n)
-  elseif sz == "s" then wputsbarg(n)
-  else werror("bad operand size") end
-end
-
--- Put multi-byte opcode with operand-size dependent modifications.
-local function wputop(sz, op, rex)
-  local r
-  if rex ~= 0 and not x64 then werror("bad operand size") end
-  if sz == "w" then wputb(102) end
-  -- Needs >32 bit numbers, but only for crc32 eax, word [ebx]
-  if op >= 4294967296 then r = op%4294967296 wputb((op-r)/4294967296) op = r end
-  if op >= 16777216 then wputb(shr(op, 24)); op = band(op, 0xffffff) end
-  if op >= 65536 then
-    if rex ~= 0 then
-      local opc3 = band(op, 0xffff00)
-      if opc3 == 0x0f3a00 or opc3 == 0x0f3800 then
-	wputb(64 + band(rex, 15)); rex = 0
-      end
-    end
-    wputb(shr(op, 16)); op = band(op, 0xffff)
-  end
-  if op >= 256 then
-    local b = shr(op, 8)
-    if b == 15 and rex ~= 0 then wputb(64 + band(rex, 15)); rex = 0 end
-    wputb(b)
-    op = band(op, 255)
-  end
-  if rex ~= 0 then wputb(64 + band(rex, 15)) end
-  if sz == "b" then op = op - 1 end
-  wputb(op)
-end
-
--- Put ModRM or SIB formatted byte.
-local function wputmodrm(m, s, rm, vs, vrm)
-  assert(m < 4 and s < 16 and rm < 16, "bad modrm operands")
-  wputb(shl(m, 6) + shl(band(s, 7), 3) + band(rm, 7))
-end
-
--- Put ModRM/SIB plus optional displacement.
-local function wputmrmsib(t, imark, s, vsreg)
-  local vreg, vxreg
-  local reg, xreg = t.reg, t.xreg
-  if reg and reg < 0 then reg = 0; vreg = t.vreg end
-  if xreg and xreg < 0 then xreg = 0; vxreg = t.vxreg end
-  if s < 0 then s = 0 end
-
-  -- Register mode.
-  if sub(t.mode, 1, 1) == "r" then
-    wputmodrm(3, s, reg)
-    if vsreg then waction("VREG", vsreg); wputxb(2) end
-    if vreg then waction("VREG", vreg); wputxb(0) end
-    return
-  end
-
-  local disp = t.disp
-  local tdisp = type(disp)
-  -- No base register?
-  if not reg then
-    local riprel = false
-    if xreg then
-      -- Indexed mode with index register only.
-      -- [xreg*xsc+disp] -> (0, s, esp) (xsc, xreg, ebp)
-      wputmodrm(0, s, 4)
-      if imark == "I" then waction("MARK") end
-      if vsreg then waction("VREG", vsreg); wputxb(2) end
-      wputmodrm(t.xsc, xreg, 5)
-      if vxreg then waction("VREG", vxreg); wputxb(3) end
-    else
-      -- Pure 32 bit displacement.
-      if x64 and tdisp ~= "table" then
-	wputmodrm(0, s, 4) -- [disp] -> (0, s, esp) (0, esp, ebp)
-	if imark == "I" then waction("MARK") end
-	wputmodrm(0, 4, 5)
-      else
-	riprel = x64
-	wputmodrm(0, s, 5) -- [disp|rip-label] -> (0, s, ebp)
-	if imark == "I" then waction("MARK") end
-      end
-      if vsreg then waction("VREG", vsreg); wputxb(2) end
-    end
-    if riprel then -- Emit rip-relative displacement.
-      if match("UWSiI", imark) then
-	werror("NYI: rip-relative displacement followed by immediate")
-      end
-      -- The previous byte in the action buffer cannot be 0xe9 or 0x80-0x8f.
-      wputlabel("REL_", disp[1], 2)
-    else
-      wputdarg(disp)
-    end
-    return
-  end
-
-  local m
-  if tdisp == "number" then -- Check displacement size at assembly time.
-    if disp == 0 and band(reg, 7) ~= 5 then -- [ebp] -> [ebp+0] (in SIB, too)
-      if not vreg then m = 0 end -- Force DISP to allow [Rd(5)] -> [ebp+0]
-    elseif disp >= -128 and disp <= 127 then m = 1
-    else m = 2 end
-  elseif tdisp == "table" then
-    m = 2
-  end
-
-  -- Index register present or esp as base register: need SIB encoding.
-  if xreg or band(reg, 7) == 4 then
-    wputmodrm(m or 2, s, 4) -- ModRM.
-    if m == nil or imark == "I" then waction("MARK") end
-    if vsreg then waction("VREG", vsreg); wputxb(2) end
-    wputmodrm(t.xsc or 0, xreg or 4, reg) -- SIB.
-    if vxreg then waction("VREG", vxreg); wputxb(3) end
-    if vreg then waction("VREG", vreg); wputxb(1) end
-  else
-    wputmodrm(m or 2, s, reg) -- ModRM.
-    if (imark == "I" and (m == 1 or m == 2)) or
-       (m == nil and (vsreg or vreg)) then waction("MARK") end
-    if vsreg then waction("VREG", vsreg); wputxb(2) end
-    if vreg then waction("VREG", vreg); wputxb(1) end
-  end
-
-  -- Put displacement.
-  if m == 1 then wputsbarg(disp)
-  elseif m == 2 then wputdarg(disp)
-  elseif m == nil then waction("DISP", disp) end
-end
-
-------------------------------------------------------------------------------
-
--- Return human-readable operand mode string.
-local function opmodestr(op, args)
-  local m = {}
-  for i=1,#args do
-    local a = args[i]
-    m[#m+1] = sub(a.mode, 1, 1)..(a.opsize or "?")
-  end
-  return op.." "..concat(m, ",")
-end
-
--- Convert number to valid integer or nil.
-local function toint(expr)
-  local n = tonumber(expr)
-  if n then
-    if n % 1 ~= 0 or n < -2147483648 or n > 4294967295 then
-      werror("bad integer number `"..expr.."'")
-    end
-    return n
-  end
-end
-
--- Parse immediate expression.
-local function immexpr(expr)
-  -- &expr (pointer)
-  if sub(expr, 1, 1) == "&" then
-    return "iPJ", format("(ptrdiff_t)(%s)", sub(expr,2))
-  end
-
-  local prefix = sub(expr, 1, 2)
-  -- =>expr (pc label reference)
-  if prefix == "=>" then
-    return "iJ", sub(expr, 3)
-  end
-  -- ->name (global label reference)
-  if prefix == "->" then
-    return "iJ", map_global[sub(expr, 3)]
-  end
-
-  -- [<>][1-9] (local label reference)
-  local dir, lnum = match(expr, "^([<>])([1-9])$")
-  if dir then -- Fwd: 247-255, Bkwd: 1-9.
-    return "iJ", lnum + (dir == ">" and 246 or 0)
-  end
-
-  local extname = match(expr, "^extern%s+(%S+)$")
-  if extname then
-    return "iJ", map_extern[extname]
-  end
-
-  -- expr (interpreted as immediate)
-  return "iI", expr
-end
-
--- Parse displacement expression: +-num, +-expr, +-opsize*num
-local function dispexpr(expr)
-  local disp = expr == "" and 0 or toint(expr)
-  if disp then return disp end
-  local c, dispt = match(expr, "^([+-])%s*(.+)$")
-  if c == "+" then
-    expr = dispt
-  elseif not c then
-    werror("bad displacement expression `"..expr.."'")
-  end
-  local opsize, tailops = match(dispt, "^(%w+)%s*%*%s*(.+)$")
-  local ops, imm = map_opsize[opsize], toint(tailops)
-  if ops and imm then
-    if c == "-" then imm = -imm end
-    return imm*map_opsizenum[ops]
-  end
-  local mode, iexpr = immexpr(dispt)
-  if mode == "iJ" then
-    if c == "-" then werror("cannot invert label reference") end
-    return { iexpr }
-  end
-  return expr -- Need to return original signed expression.
-end
-
--- Parse register or type expression.
-local function rtexpr(expr)
-  if not expr then return end
-  local tname, ovreg = match(expr, "^([%w_]+):(@[%w_]+)$")
-  local tp = map_type[tname or expr]
-  if tp then
-    local reg = ovreg or tp.reg
-    local rnum = map_reg_num[reg]
-    if not rnum then
-      werror("type `"..(tname or expr).."' needs a register override")
-    end
-    if not map_reg_valid_base[reg] then
-      werror("bad base register override `"..(map_reg_rev[reg] or reg).."'")
-    end
-    return reg, rnum, tp
-  end
-  return expr, map_reg_num[expr]
-end
-
--- Parse operand and return { mode, opsize, reg, xreg, xsc, disp, imm }.
-local function parseoperand(param)
-  local t = {}
-
-  local expr = param
-  local opsize, tailops = match(param, "^(%w+)%s*(.+)$")
-  if opsize then
-    t.opsize = map_opsize[opsize]
-    if t.opsize then expr = tailops end
-  end
-
-  local br = match(expr, "^%[%s*(.-)%s*%]$")
-  repeat
-    if br then
-      t.mode = "xm"
-
-      -- [disp]
-      t.disp = toint(br)
-      if t.disp then
-	t.mode = x64 and "xm" or "xmO"
-	break
-      end
-
-      -- [reg...]
-      local tp
-      local reg, tailr = match(br, "^([@%w_:]+)%s*(.*)$")
-      reg, t.reg, tp = rtexpr(reg)
-      if not t.reg then
-	-- [expr]
-	t.mode = x64 and "xm" or "xmO"
-	t.disp = dispexpr("+"..br)
-	break
-      end
-
-      if t.reg == -1 then
-	t.vreg, tailr = match(tailr, "^(%b())(.*)$")
-	if not t.vreg then werror("bad variable register expression") end
-      end
-
-      -- [xreg*xsc] or [xreg*xsc+-disp] or [xreg*xsc+-expr]
-      local xsc, tailsc = match(tailr, "^%*%s*([1248])%s*(.*)$")
-      if xsc then
-	if not map_reg_valid_index[reg] then
-	  werror("bad index register `"..map_reg_rev[reg].."'")
-	end
-	t.xsc = map_xsc[xsc]
-	t.xreg = t.reg
-	t.vxreg = t.vreg
-	t.reg = nil
-	t.vreg = nil
-	t.disp = dispexpr(tailsc)
-	break
-      end
-      if not map_reg_valid_base[reg] then
-	werror("bad base register `"..map_reg_rev[reg].."'")
-      end
-
-      -- [reg] or [reg+-disp]
-      t.disp = toint(tailr) or (tailr == "" and 0)
-      if t.disp then break end
-
-      -- [reg+xreg...]
-      local xreg, tailx = match(tailr, "^+%s*([@%w_:]+)%s*(.*)$")
-      xreg, t.xreg, tp = rtexpr(xreg)
-      if not t.xreg then
-	-- [reg+-expr]
-	t.disp = dispexpr(tailr)
-	break
-      end
-      if not map_reg_valid_index[xreg] then
-	werror("bad index register `"..map_reg_rev[xreg].."'")
-      end
-
-      if t.xreg == -1 then
-	t.vxreg, tailx = match(tailx, "^(%b())(.*)$")
-	if not t.vxreg then werror("bad variable register expression") end
-      end
-
-      -- [reg+xreg*xsc...]
-      local xsc, tailsc = match(tailx, "^%*%s*([1248])%s*(.*)$")
-      if xsc then
-	t.xsc = map_xsc[xsc]
-	tailx = tailsc
-      end
-
-      -- [...] or [...+-disp] or [...+-expr]
-      t.disp = dispexpr(tailx)
-    else
-      -- imm or opsize*imm
-      local imm = toint(expr)
-      if not imm and sub(expr, 1, 1) == "*" and t.opsize then
-	imm = toint(sub(expr, 2))
-	if imm then
-	  imm = imm * map_opsizenum[t.opsize]
-	  t.opsize = nil
-	end
-      end
-      if imm then
-	if t.opsize then werror("bad operand size override") end
-	local m = "i"
-	if imm == 1 then m = m.."1" end
-	if imm >= 4294967168 and imm <= 4294967295 then imm = imm-4294967296 end
-	if imm >= -128 and imm <= 127 then m = m.."S" end
-	t.imm = imm
-	t.mode = m
-	break
-      end
-
-      local tp
-      local reg, tailr = match(expr, "^([@%w_:]+)%s*(.*)$")
-      reg, t.reg, tp = rtexpr(reg)
-      if t.reg then
-	if t.reg == -1 then
-	  t.vreg, tailr = match(tailr, "^(%b())(.*)$")
-	  if not t.vreg then werror("bad variable register expression") end
-	end
-	-- reg
-	if tailr == "" then
-	  if t.opsize then werror("bad operand size override") end
-	  t.opsize = map_reg_opsize[reg]
-	  if t.opsize == "f" then
-	    t.mode = t.reg == 0 and "fF" or "f"
-	  else
-	    if reg == "@w4" or (x64 and reg == "@d4") then
-	      wwarn("bad idea, try again with `"..(x64 and "rsp'" or "esp'"))
-	    end
-	    t.mode = t.reg == 0 and "rmR" or (reg == "@b1" and "rmC" or "rm")
-	  end
-	  t.needrex = map_reg_needrex[reg]
-	  break
-	end
-
-	-- type[idx], type[idx].field, type->field -> [reg+offset_expr]
-	if not tp then werror("bad operand `"..param.."'") end
-	t.mode = "xm"
-	t.disp = format(tp.ctypefmt, tailr)
-      else
-	t.mode, t.imm = immexpr(expr)
-	if sub(t.mode, -1) == "J" then
-	  if t.opsize and t.opsize ~= addrsize then
-	    werror("bad operand size override")
-	  end
-	  t.opsize = addrsize
-	end
-      end
-    end
-  until true
-  return t
-end
-
-------------------------------------------------------------------------------
--- x86 Template String Description
--- ===============================
---
--- Each template string is a list of [match:]pattern pairs,
--- separated by "|". The first match wins. No match means a
--- bad or unsupported combination of operand modes or sizes.
---
--- The match part and the ":" is omitted if the operation has
--- no operands. Otherwise the first N characters are matched
--- against the mode strings of each of the N operands.
---
--- The mode string for each operand type is (see parseoperand()):
---   Integer register: "rm", +"R" for eax, ax, al, +"C" for cl
---   FP register:      "f",  +"F" for st0
---   Index operand:    "xm", +"O" for [disp] (pure offset)
---   Immediate:        "i",  +"S" for signed 8 bit, +"1" for 1,
---                     +"I" for arg, +"P" for pointer
---   Any:              +"J" for valid jump targets
---
--- So a match character "m" (mixed) matches both an integer register
--- and an index operand (to be encoded with the ModRM/SIB scheme).
--- But "r" matches only a register and "x" only an index operand
--- (e.g. for FP memory access operations).
---
--- The operand size match string starts right after the mode match
--- characters and ends before the ":". "dwb" or "qdwb" is assumed, if empty.
--- The effective data size of the operation is matched against this list.
---
--- If only the regular "b", "w", "d", "q", "t" operand sizes are
--- present, then all operands must be the same size. Unspecified sizes
--- are ignored, but at least one operand must have a size or the pattern
--- won't match (use the "byte", "word", "dword", "qword", "tword"
--- operand size overrides. E.g.: mov dword [eax], 1).
---
--- If the list has a "1" or "2" prefix, the operand size is taken
--- from the respective operand and any other operand sizes are ignored.
--- If the list contains only ".", all operand sizes are ignored.
--- If the list has a "/" prefix, the concatenated (mixed) operand sizes
--- are compared to the match.
---
--- E.g. "rrdw" matches for either two dword registers or two word
--- registers. "Fx2dq" matches an st0 operand plus an index operand
--- pointing to a dword (float) or qword (double).
---
--- Every character after the ":" is part of the pattern string:
---   Hex chars are accumulated to form the opcode (left to right).
---   "n"       disables the standard opcode mods
---             (otherwise: -1 for "b", o16 prefix for "w", rex.w for "q")
---   "X"       Force REX.W.
---   "r"/"R"   adds the reg. number from the 1st/2nd operand to the opcode.
---   "m"/"M"   generates ModRM/SIB from the 1st/2nd operand.
---             The spare 3 bits are either filled with the last hex digit or
---             the result from a previous "r"/"R". The opcode is restored.
---
--- All of the following characters force a flush of the opcode:
---   "o"/"O"   stores a pure 32 bit disp (offset) from the 1st/2nd operand.
---   "S"       stores a signed 8 bit immediate from the last operand.
---   "U"       stores an unsigned 8 bit immediate from the last operand.
---   "W"       stores an unsigned 16 bit immediate from the last operand.
---   "i"       stores an operand sized immediate from the last operand.
---   "I"       dito, but generates an action code to optionally modify
---             the opcode (+2) for a signed 8 bit immediate.
---   "J"       generates one of the REL action codes from the last operand.
---
-------------------------------------------------------------------------------
-
--- Template strings for x86 instructions. Ordered by first opcode byte.
--- Unimplemented opcodes (deliberate omissions) are marked with *.
-local map_op = {
-  -- 00-05: add...
-  -- 06: *push es
-  -- 07: *pop es
-  -- 08-0D: or...
-  -- 0E: *push cs
-  -- 0F: two byte opcode prefix
-  -- 10-15: adc...
-  -- 16: *push ss
-  -- 17: *pop ss
-  -- 18-1D: sbb...
-  -- 1E: *push ds
-  -- 1F: *pop ds
-  -- 20-25: and...
-  es_0 =	"26",
-  -- 27: *daa
-  -- 28-2D: sub...
-  cs_0 =	"2E",
-  -- 2F: *das
-  -- 30-35: xor...
-  ss_0 =	"36",
-  -- 37: *aaa
-  -- 38-3D: cmp...
-  ds_0 =	"3E",
-  -- 3F: *aas
-  inc_1 =	x64 and "m:FF0m" or "rdw:40r|m:FF0m",
-  dec_1 =	x64 and "m:FF1m" or "rdw:48r|m:FF1m",
-  push_1 =	(x64 and "rq:n50r|rw:50r|mq:nFF6m|mw:FF6m" or
-			 "rdw:50r|mdw:FF6m").."|S.:6AS|ib:n6Ai|i.:68i",
-  pop_1 =	x64 and "rq:n58r|rw:58r|mq:n8F0m|mw:8F0m" or "rdw:58r|mdw:8F0m",
-  -- 60: *pusha, *pushad, *pushaw
-  -- 61: *popa, *popad, *popaw
-  -- 62: *bound rdw,x
-  -- 63: x86: *arpl mw,rw
-  movsxd_2 =	x64 and "rm/qd:63rM",
-  fs_0 =	"64",
-  gs_0 =	"65",
-  o16_0 =	"66",
-  a16_0 =	not x64 and "67" or nil,
-  a32_0 =	x64 and "67",
-  -- 68: push idw
-  -- 69: imul rdw,mdw,idw
-  -- 6A: push ib
-  -- 6B: imul rdw,mdw,S
-  -- 6C: *insb
-  -- 6D: *insd, *insw
-  -- 6E: *outsb
-  -- 6F: *outsd, *outsw
-  -- 70-7F: jcc lb
-  -- 80: add... mb,i
-  -- 81: add... mdw,i
-  -- 82: *undefined
-  -- 83: add... mdw,S
-  test_2 =	"mr:85Rm|rm:85rM|Ri:A9ri|mi:F70mi",
-  -- 86: xchg rb,mb
-  -- 87: xchg rdw,mdw
-  -- 88: mov mb,r
-  -- 89: mov mdw,r
-  -- 8A: mov r,mb
-  -- 8B: mov r,mdw
-  -- 8C: *mov mdw,seg
-  lea_2 =	"rx1dq:8DrM",
-  -- 8E: *mov seg,mdw
-  -- 8F: pop mdw
-  nop_0 =	"90",
-  xchg_2 =	"Rrqdw:90R|rRqdw:90r|rm:87rM|mr:87Rm",
-  cbw_0 =	"6698",
-  cwde_0 =	"98",
-  cdqe_0 =	"4898",
-  cwd_0 =	"6699",
-  cdq_0 =	"99",
-  cqo_0 =	"4899",
-  -- 9A: *call iw:idw
-  wait_0 =	"9B",
-  fwait_0 =	"9B",
-  pushf_0 =	"9C",
-  pushfd_0 =	not x64 and "9C",
-  pushfq_0 =	x64 and "9C",
-  popf_0 =	"9D",
-  popfd_0 =	not x64 and "9D",
-  popfq_0 =	x64 and "9D",
-  sahf_0 =	"9E",
-  lahf_0 =	"9F",
-  mov_2 =	"OR:A3o|RO:A1O|mr:89Rm|rm:8BrM|rib:nB0ri|ridw:B8ri|mi:C70mi",
-  movsb_0 =	"A4",
-  movsw_0 =	"66A5",
-  movsd_0 =	"A5",
-  cmpsb_0 =	"A6",
-  cmpsw_0 =	"66A7",
-  cmpsd_0 =	"A7",
-  -- A8: test Rb,i
-  -- A9: test Rdw,i
-  stosb_0 =	"AA",
-  stosw_0 =	"66AB",
-  stosd_0 =	"AB",
-  lodsb_0 =	"AC",
-  lodsw_0 =	"66AD",
-  lodsd_0 =	"AD",
-  scasb_0 =	"AE",
-  scasw_0 =	"66AF",
-  scasd_0 =	"AF",
-  -- B0-B7: mov rb,i
-  -- B8-BF: mov rdw,i
-  -- C0: rol... mb,i
-  -- C1: rol... mdw,i
-  ret_1 =	"i.:nC2W",
-  ret_0 =	"C3",
-  -- C4: *les rdw,mq
-  -- C5: *lds rdw,mq
-  -- C6: mov mb,i
-  -- C7: mov mdw,i
-  -- C8: *enter iw,ib
-  leave_0 =	"C9",
-  -- CA: *retf iw
-  -- CB: *retf
-  int3_0 =	"CC",
-  int_1 =	"i.:nCDU",
-  into_0 =	"CE",
-  -- CF: *iret
-  -- D0: rol... mb,1
-  -- D1: rol... mdw,1
-  -- D2: rol... mb,cl
-  -- D3: rol... mb,cl
-  -- D4: *aam ib
-  -- D5: *aad ib
-  -- D6: *salc
-  -- D7: *xlat
-  -- D8-DF: floating point ops
-  -- E0: *loopne
-  -- E1: *loope
-  -- E2: *loop
-  -- E3: *jcxz, *jecxz
-  -- E4: *in Rb,ib
-  -- E5: *in Rdw,ib
-  -- E6: *out ib,Rb
-  -- E7: *out ib,Rdw
-  call_1 =	x64 and "mq:nFF2m|J.:E8nJ" or "md:FF2m|J.:E8J",
-  jmp_1 =	x64 and "mq:nFF4m|J.:E9nJ" or "md:FF4m|J.:E9J", -- short: EB
-  -- EA: *jmp iw:idw
-  -- EB: jmp ib
-  -- EC: *in Rb,dx
-  -- ED: *in Rdw,dx
-  -- EE: *out dx,Rb
-  -- EF: *out dx,Rdw
-  lock_0 =	"F0",
-  int1_0 =	"F1",
-  repne_0 =	"F2",
-  repnz_0 =	"F2",
-  rep_0 =	"F3",
-  repe_0 =	"F3",
-  repz_0 =	"F3",
-  -- F4: *hlt
-  cmc_0 =	"F5",
-  -- F6: test... mb,i; div... mb
-  -- F7: test... mdw,i; div... mdw
-  clc_0 =	"F8",
-  stc_0 =	"F9",
-  -- FA: *cli
-  cld_0 =	"FC",
-  std_0 =	"FD",
-  -- FE: inc... mb
-  -- FF: inc... mdw
-
-  -- misc ops
-  not_1 =	"m:F72m",
-  neg_1 =	"m:F73m",
-  mul_1 =	"m:F74m",
-  imul_1 =	"m:F75m",
-  div_1 =	"m:F76m",
-  idiv_1 =	"m:F77m",
-
-  imul_2 =	"rmqdw:0FAFrM|rIqdw:69rmI|rSqdw:6BrmS|riqdw:69rmi",
-  imul_3 =	"rmIqdw:69rMI|rmSqdw:6BrMS|rmiqdw:69rMi",
-
-  movzx_2 =	"rm/db:0FB6rM|rm/qb:|rm/wb:0FB6rM|rm/dw:0FB7rM|rm/qw:",
-  movsx_2 =	"rm/db:0FBErM|rm/qb:|rm/wb:0FBErM|rm/dw:0FBFrM|rm/qw:",
-
-  bswap_1 =	"rqd:0FC8r",
-  bsf_2 =	"rmqdw:0FBCrM",
-  bsr_2 =	"rmqdw:0FBDrM",
-  bt_2 =	"mrqdw:0FA3Rm|miqdw:0FBA4mU",
-  btc_2 =	"mrqdw:0FBBRm|miqdw:0FBA7mU",
-  btr_2 =	"mrqdw:0FB3Rm|miqdw:0FBA6mU",
-  bts_2 =	"mrqdw:0FABRm|miqdw:0FBA5mU",
-
-  shld_3 =	"mriqdw:0FA4RmU|mrCqdw:0FA5Rm",
-  shrd_3 =	"mriqdw:0FACRmU|mrCqdw:0FADRm",
-
-  rdtsc_0 =	"0F31", -- P1+
-  cpuid_0 =	"0FA2", -- P1+
-
-  -- floating point ops
-  fst_1 =	"ff:DDD0r|xd:D92m|xq:nDD2m",
-  fstp_1 =	"ff:DDD8r|xd:D93m|xq:nDD3m|xt:DB7m",
-  fld_1 =	"ff:D9C0r|xd:D90m|xq:nDD0m|xt:DB5m",
-
-  fpop_0 =	"DDD8", -- Alias for fstp st0.
-
-  fist_1 =	"xw:nDF2m|xd:DB2m",
-  fistp_1 =	"xw:nDF3m|xd:DB3m|xq:nDF7m",
-  fild_1 =	"xw:nDF0m|xd:DB0m|xq:nDF5m",
-
-  fxch_0 =	"D9C9",
-  fxch_1 =	"ff:D9C8r",
-  fxch_2 =	"fFf:D9C8r|Fff:D9C8R",
-
-  fucom_1 =	"ff:DDE0r",
-  fucom_2 =	"Fff:DDE0R",
-  fucomp_1 =	"ff:DDE8r",
-  fucomp_2 =	"Fff:DDE8R",
-  fucomi_1 =	"ff:DBE8r", -- P6+
-  fucomi_2 =	"Fff:DBE8R", -- P6+
-  fucomip_1 =	"ff:DFE8r", -- P6+
-  fucomip_2 =	"Fff:DFE8R", -- P6+
-  fcomi_1 =	"ff:DBF0r", -- P6+
-  fcomi_2 =	"Fff:DBF0R", -- P6+
-  fcomip_1 =	"ff:DFF0r", -- P6+
-  fcomip_2 =	"Fff:DFF0R", -- P6+
-  fucompp_0 =	"DAE9",
-  fcompp_0 =	"DED9",
-
-  fldenv_1 =	"x.:D94m",
-  fnstenv_1 =	"x.:D96m",
-  fstenv_1 =	"x.:9BD96m",
-  fldcw_1 =	"xw:nD95m",
-  fstcw_1 =	"xw:n9BD97m",
-  fnstcw_1 =	"xw:nD97m",
-  fstsw_1 =	"Rw:n9BDFE0|xw:n9BDD7m",
-  fnstsw_1 =	"Rw:nDFE0|xw:nDD7m",
-  fclex_0 =	"9BDBE2",
-  fnclex_0 =	"DBE2",
-
-  fnop_0 =	"D9D0",
-  -- D9D1-D9DF: unassigned
-
-  fchs_0 =	"D9E0",
-  fabs_0 =	"D9E1",
-  -- D9E2: unassigned
-  -- D9E3: unassigned
-  ftst_0 =	"D9E4",
-  fxam_0 =	"D9E5",
-  -- D9E6: unassigned
-  -- D9E7: unassigned
-  fld1_0 =	"D9E8",
-  fldl2t_0 =	"D9E9",
-  fldl2e_0 =	"D9EA",
-  fldpi_0 =	"D9EB",
-  fldlg2_0 =	"D9EC",
-  fldln2_0 =	"D9ED",
-  fldz_0 =	"D9EE",
-  -- D9EF: unassigned
-
-  f2xm1_0 =	"D9F0",
-  fyl2x_0 =	"D9F1",
-  fptan_0 =	"D9F2",
-  fpatan_0 =	"D9F3",
-  fxtract_0 =	"D9F4",
-  fprem1_0 =	"D9F5",
-  fdecstp_0 =	"D9F6",
-  fincstp_0 =	"D9F7",
-  fprem_0 =	"D9F8",
-  fyl2xp1_0 =	"D9F9",
-  fsqrt_0 =	"D9FA",
-  fsincos_0 =	"D9FB",
-  frndint_0 =	"D9FC",
-  fscale_0 =	"D9FD",
-  fsin_0 =	"D9FE",
-  fcos_0 =	"D9FF",
-
-  -- SSE, SSE2
-  andnpd_2 =	"rmo:660F55rM",
-  andnps_2 =	"rmo:0F55rM",
-  andpd_2 =	"rmo:660F54rM",
-  andps_2 =	"rmo:0F54rM",
-  clflush_1 =	"x.:0FAE7m",
-  cmppd_3 =	"rmio:660FC2rMU",
-  cmpps_3 =	"rmio:0FC2rMU",
-  cmpsd_3 =	"rrio:F20FC2rMU|rxi/oq:",
-  cmpss_3 =	"rrio:F30FC2rMU|rxi/od:",
-  comisd_2 =	"rro:660F2FrM|rx/oq:",
-  comiss_2 =	"rro:0F2FrM|rx/od:",
-  cvtdq2pd_2 =	"rro:F30FE6rM|rx/oq:",
-  cvtdq2ps_2 =	"rmo:0F5BrM",
-  cvtpd2dq_2 =	"rmo:F20FE6rM",
-  cvtpd2ps_2 =	"rmo:660F5ArM",
-  cvtpi2pd_2 =	"rx/oq:660F2ArM",
-  cvtpi2ps_2 =	"rx/oq:0F2ArM",
-  cvtps2dq_2 =	"rmo:660F5BrM",
-  cvtps2pd_2 =	"rro:0F5ArM|rx/oq:",
-  cvtsd2si_2 =	"rr/do:F20F2DrM|rr/qo:|rx/dq:|rxq:",
-  cvtsd2ss_2 =	"rro:F20F5ArM|rx/oq:",
-  cvtsi2sd_2 =	"rm/od:F20F2ArM|rm/oq:F20F2ArXM",
-  cvtsi2ss_2 =	"rm/od:F30F2ArM|rm/oq:F30F2ArXM",
-  cvtss2sd_2 =	"rro:F30F5ArM|rx/od:",
-  cvtss2si_2 =	"rr/do:F20F2CrM|rr/qo:|rxd:|rx/qd:",
-  cvttpd2dq_2 =	"rmo:660FE6rM",
-  cvttps2dq_2 =	"rmo:F30F5BrM",
-  cvttsd2si_2 =	"rr/do:F20F2CrM|rr/qo:|rx/dq:|rxq:",
-  cvttss2si_2 =	"rr/do:F30F2CrM|rr/qo:|rxd:|rx/qd:",
-  fxsave_1 =	"x.:0FAE0m",
-  fxrstor_1 =	"x.:0FAE1m",
-  ldmxcsr_1 =	"xd:0FAE2m",
-  lfence_0 =	"0FAEE8",
-  maskmovdqu_2 = "rro:660FF7rM",
-  mfence_0 =	"0FAEF0",
-  movapd_2 =	"rmo:660F28rM|mro:660F29Rm",
-  movaps_2 =	"rmo:0F28rM|mro:0F29Rm",
-  movd_2 =	"rm/od:660F6ErM|rm/oq:660F6ErXM|mr/do:660F7ERm|mr/qo:",
-  movdqa_2 =	"rmo:660F6FrM|mro:660F7FRm",
-  movdqu_2 =	"rmo:F30F6FrM|mro:F30F7FRm",
-  movhlps_2 =	"rro:0F12rM",
-  movhpd_2 =	"rx/oq:660F16rM|xr/qo:n660F17Rm",
-  movhps_2 =	"rx/oq:0F16rM|xr/qo:n0F17Rm",
-  movlhps_2 =	"rro:0F16rM",
-  movlpd_2 =	"rx/oq:660F12rM|xr/qo:n660F13Rm",
-  movlps_2 =	"rx/oq:0F12rM|xr/qo:n0F13Rm",
-  movmskpd_2 =	"rr/do:660F50rM",
-  movmskps_2 =	"rr/do:0F50rM",
-  movntdq_2 =	"xro:660FE7Rm",
-  movnti_2 =	"xrqd:0FC3Rm",
-  movntpd_2 =	"xro:660F2BRm",
-  movntps_2 =	"xro:0F2BRm",
-  movq_2 =	"rro:F30F7ErM|rx/oq:|xr/qo:n660FD6Rm",
-  movsd_2 =	"rro:F20F10rM|rx/oq:|xr/qo:nF20F11Rm",
-  movss_2 =	"rro:F30F10rM|rx/od:|xr/do:F30F11Rm",
-  movupd_2 =	"rmo:660F10rM|mro:660F11Rm",
-  movups_2 =	"rmo:0F10rM|mro:0F11Rm",
-  orpd_2 =	"rmo:660F56rM",
-  orps_2 =	"rmo:0F56rM",
-  packssdw_2 =	"rmo:660F6BrM",
-  packsswb_2 =	"rmo:660F63rM",
-  packuswb_2 =	"rmo:660F67rM",
-  paddb_2 =	"rmo:660FFCrM",
-  paddd_2 =	"rmo:660FFErM",
-  paddq_2 =	"rmo:660FD4rM",
-  paddsb_2 =	"rmo:660FECrM",
-  paddsw_2 =	"rmo:660FEDrM",
-  paddusb_2 =	"rmo:660FDCrM",
-  paddusw_2 =	"rmo:660FDDrM",
-  paddw_2 =	"rmo:660FFDrM",
-  pand_2 =	"rmo:660FDBrM",
-  pandn_2 =	"rmo:660FDFrM",
-  pause_0 =	"F390",
-  pavgb_2 =	"rmo:660FE0rM",
-  pavgw_2 =	"rmo:660FE3rM",
-  pcmpeqb_2 =	"rmo:660F74rM",
-  pcmpeqd_2 =	"rmo:660F76rM",
-  pcmpeqw_2 =	"rmo:660F75rM",
-  pcmpgtb_2 =	"rmo:660F64rM",
-  pcmpgtd_2 =	"rmo:660F66rM",
-  pcmpgtw_2 =	"rmo:660F65rM",
-  pextrw_3 =	"rri/do:660FC5rMU|xri/wo:660F3A15nrMU", -- Mem op: SSE4.1 only.
-  pinsrw_3 =	"rri/od:660FC4rMU|rxi/ow:",
-  pmaddwd_2 =	"rmo:660FF5rM",
-  pmaxsw_2 =	"rmo:660FEErM",
-  pmaxub_2 =	"rmo:660FDErM",
-  pminsw_2 =	"rmo:660FEArM",
-  pminub_2 =	"rmo:660FDArM",
-  pmovmskb_2 =	"rr/do:660FD7rM",
-  pmulhuw_2 =	"rmo:660FE4rM",
-  pmulhw_2 =	"rmo:660FE5rM",
-  pmullw_2 =	"rmo:660FD5rM",
-  pmuludq_2 =	"rmo:660FF4rM",
-  por_2 =	"rmo:660FEBrM",
-  prefetchnta_1 = "xb:n0F180m",
-  prefetcht0_1 = "xb:n0F181m",
-  prefetcht1_1 = "xb:n0F182m",
-  prefetcht2_1 = "xb:n0F183m",
-  psadbw_2 =	"rmo:660FF6rM",
-  pshufd_3 =	"rmio:660F70rMU",
-  pshufhw_3 =	"rmio:F30F70rMU",
-  pshuflw_3 =	"rmio:F20F70rMU",
-  pslld_2 =	"rmo:660FF2rM|rio:660F726mU",
-  pslldq_2 =	"rio:660F737mU",
-  psllq_2 =	"rmo:660FF3rM|rio:660F736mU",
-  psllw_2 =	"rmo:660FF1rM|rio:660F716mU",
-  psrad_2 =	"rmo:660FE2rM|rio:660F724mU",
-  psraw_2 =	"rmo:660FE1rM|rio:660F714mU",
-  psrld_2 =	"rmo:660FD2rM|rio:660F722mU",
-  psrldq_2 =	"rio:660F733mU",
-  psrlq_2 =	"rmo:660FD3rM|rio:660F732mU",
-  psrlw_2 =	"rmo:660FD1rM|rio:660F712mU",
-  psubb_2 =	"rmo:660FF8rM",
-  psubd_2 =	"rmo:660FFArM",
-  psubq_2 =	"rmo:660FFBrM",
-  psubsb_2 =	"rmo:660FE8rM",
-  psubsw_2 =	"rmo:660FE9rM",
-  psubusb_2 =	"rmo:660FD8rM",
-  psubusw_2 =	"rmo:660FD9rM",
-  psubw_2 =	"rmo:660FF9rM",
-  punpckhbw_2 =	"rmo:660F68rM",
-  punpckhdq_2 =	"rmo:660F6ArM",
-  punpckhqdq_2 = "rmo:660F6DrM",
-  punpckhwd_2 =	"rmo:660F69rM",
-  punpcklbw_2 =	"rmo:660F60rM",
-  punpckldq_2 =	"rmo:660F62rM",
-  punpcklqdq_2 = "rmo:660F6CrM",
-  punpcklwd_2 =	"rmo:660F61rM",
-  pxor_2 =	"rmo:660FEFrM",
-  rcpps_2 =	"rmo:0F53rM",
-  rcpss_2 =	"rro:F30F53rM|rx/od:",
-  rsqrtps_2 =	"rmo:0F52rM",
-  rsqrtss_2 =	"rmo:F30F52rM",
-  sfence_0 =	"0FAEF8",
-  shufpd_3 =	"rmio:660FC6rMU",
-  shufps_3 =	"rmio:0FC6rMU",
-  stmxcsr_1 =   "xd:0FAE3m",
-  ucomisd_2 =	"rro:660F2ErM|rx/oq:",
-  ucomiss_2 =	"rro:0F2ErM|rx/od:",
-  unpckhpd_2 =	"rmo:660F15rM",
-  unpckhps_2 =	"rmo:0F15rM",
-  unpcklpd_2 =	"rmo:660F14rM",
-  unpcklps_2 =	"rmo:0F14rM",
-  xorpd_2 =	"rmo:660F57rM",
-  xorps_2 =	"rmo:0F57rM",
-
-  -- SSE3 ops
-  fisttp_1 =	"xw:nDF1m|xd:DB1m|xq:nDD1m",
-  addsubpd_2 =	"rmo:660FD0rM",
-  addsubps_2 =	"rmo:F20FD0rM",
-  haddpd_2 =	"rmo:660F7CrM",
-  haddps_2 =	"rmo:F20F7CrM",
-  hsubpd_2 =	"rmo:660F7DrM",
-  hsubps_2 =	"rmo:F20F7DrM",
-  lddqu_2 =	"rxo:F20FF0rM",
-  movddup_2 =	"rmo:F20F12rM",
-  movshdup_2 =	"rmo:F30F16rM",
-  movsldup_2 =	"rmo:F30F12rM",
-
-  -- SSSE3 ops
-  pabsb_2 =	"rmo:660F381CrM",
-  pabsd_2 =	"rmo:660F381ErM",
-  pabsw_2 =	"rmo:660F381DrM",
-  palignr_3 =	"rmio:660F3A0FrMU",
-  phaddd_2 =	"rmo:660F3802rM",
-  phaddsw_2 =	"rmo:660F3803rM",
-  phaddw_2 =	"rmo:660F3801rM",
-  phsubd_2 =	"rmo:660F3806rM",
-  phsubsw_2 =	"rmo:660F3807rM",
-  phsubw_2 =	"rmo:660F3805rM",
-  pmaddubsw_2 =	"rmo:660F3804rM",
-  pmulhrsw_2 =	"rmo:660F380BrM",
-  pshufb_2 =	"rmo:660F3800rM",
-  psignb_2 =	"rmo:660F3808rM",
-  psignd_2 =	"rmo:660F380ArM",
-  psignw_2 =	"rmo:660F3809rM",
-
-  -- SSE4.1 ops
-  blendpd_3 =	"rmio:660F3A0DrMU",
-  blendps_3 =	"rmio:660F3A0CrMU",
-  blendvpd_3 =	"rmRo:660F3815rM",
-  blendvps_3 =	"rmRo:660F3814rM",
-  dppd_3 =	"rmio:660F3A41rMU",
-  dpps_3 =	"rmio:660F3A40rMU",
-  extractps_3 =	"mri/do:660F3A17RmU|rri/qo:660F3A17RXmU",
-  insertps_3 =	"rrio:660F3A41rMU|rxi/od:",
-  movntdqa_2 =	"rmo:660F382ArM",
-  mpsadbw_3 =	"rmio:660F3A42rMU",
-  packusdw_2 =	"rmo:660F382BrM",
-  pblendvb_3 =	"rmRo:660F3810rM",
-  pblendw_3 =	"rmio:660F3A0ErMU",
-  pcmpeqq_2 =	"rmo:660F3829rM",
-  pextrb_3 =	"rri/do:660F3A14nRmU|rri/qo:|xri/bo:",
-  pextrd_3 =	"mri/do:660F3A16RmU",
-  pextrq_3 =	"mri/qo:660F3A16RmU",
-  -- pextrw is SSE2, mem operand is SSE4.1 only
-  phminposuw_2 = "rmo:660F3841rM",
-  pinsrb_3 =	"rri/od:660F3A20nrMU|rxi/ob:",
-  pinsrd_3 =	"rmi/od:660F3A22rMU",
-  pinsrq_3 =	"rmi/oq:660F3A22rXMU",
-  pmaxsb_2 =	"rmo:660F383CrM",
-  pmaxsd_2 =	"rmo:660F383DrM",
-  pmaxud_2 =	"rmo:660F383FrM",
-  pmaxuw_2 =	"rmo:660F383ErM",
-  pminsb_2 =	"rmo:660F3838rM",
-  pminsd_2 =	"rmo:660F3839rM",
-  pminud_2 =	"rmo:660F383BrM",
-  pminuw_2 =	"rmo:660F383ArM",
-  pmovsxbd_2 =	"rro:660F3821rM|rx/od:",
-  pmovsxbq_2 =	"rro:660F3822rM|rx/ow:",
-  pmovsxbw_2 =	"rro:660F3820rM|rx/oq:",
-  pmovsxdq_2 =	"rro:660F3825rM|rx/oq:",
-  pmovsxwd_2 =	"rro:660F3823rM|rx/oq:",
-  pmovsxwq_2 =	"rro:660F3824rM|rx/od:",
-  pmovzxbd_2 =	"rro:660F3831rM|rx/od:",
-  pmovzxbq_2 =	"rro:660F3832rM|rx/ow:",
-  pmovzxbw_2 =	"rro:660F3830rM|rx/oq:",
-  pmovzxdq_2 =	"rro:660F3835rM|rx/oq:",
-  pmovzxwd_2 =	"rro:660F3833rM|rx/oq:",
-  pmovzxwq_2 =	"rro:660F3834rM|rx/od:",
-  pmuldq_2 =	"rmo:660F3828rM",
-  pmulld_2 =	"rmo:660F3840rM",
-  ptest_2 =	"rmo:660F3817rM",
-  roundpd_3 =	"rmio:660F3A09rMU",
-  roundps_3 =	"rmio:660F3A08rMU",
-  roundsd_3 =	"rrio:660F3A0BrMU|rxi/oq:",
-  roundss_3 =	"rrio:660F3A0ArMU|rxi/od:",
-
-  -- SSE4.2 ops
-  crc32_2 =	"rmqd:F20F38F1rM|rm/dw:66F20F38F1rM|rm/db:F20F38F0rM|rm/qb:",
-  pcmpestri_3 =	"rmio:660F3A61rMU",
-  pcmpestrm_3 =	"rmio:660F3A60rMU",
-  pcmpgtq_2 =	"rmo:660F3837rM",
-  pcmpistri_3 =	"rmio:660F3A63rMU",
-  pcmpistrm_3 =	"rmio:660F3A62rMU",
-  popcnt_2 =	"rmqdw:F30FB8rM",
-
-  -- SSE4a
-  extrq_2 =	"rro:660F79rM",
-  extrq_3 =	"riio:660F780mUU",
-  insertq_2 =	"rro:F20F79rM",
-  insertq_4 =	"rriio:F20F78rMUU",
-  lzcnt_2 =	"rmqdw:F30FBDrM",
-  movntsd_2 =	"xr/qo:nF20F2BRm",
-  movntss_2 =	"xr/do:F30F2BRm",
-  -- popcnt is also in SSE4.2
-}
-
-------------------------------------------------------------------------------
-
--- Arithmetic ops.
-for name,n in pairs{ add = 0, ["or"] = 1, adc = 2, sbb = 3,
-		     ["and"] = 4, sub = 5, xor = 6, cmp = 7 } do
-  local n8 = shl(n, 3)
-  map_op[name.."_2"] = format(
-    "mr:%02XRm|rm:%02XrM|mI1qdw:81%XmI|mS1qdw:83%XmS|Ri1qdwb:%02Xri|mi1qdwb:81%Xmi",
-    1+n8, 3+n8, n, n, 5+n8, n)
-end
-
--- Shift ops.
-for name,n in pairs{ rol = 0, ror = 1, rcl = 2, rcr = 3,
-		     shl = 4, shr = 5,          sar = 7, sal = 4 } do
-  map_op[name.."_2"] = format("m1:D1%Xm|mC1qdwb:D3%Xm|mi:C1%XmU", n, n, n)
-end
-
--- Conditional ops.
-for cc,n in pairs(map_cc) do
-  map_op["j"..cc.."_1"] = format("J.:n0F8%XJ", n) -- short: 7%X
-  map_op["set"..cc.."_1"] = format("mb:n0F9%X2m", n)
-  map_op["cmov"..cc.."_2"] = format("rmqdw:0F4%XrM", n) -- P6+
-end
-
--- FP arithmetic ops.
-for name,n in pairs{ add = 0, mul = 1, com = 2, comp = 3,
-		     sub = 4, subr = 5, div = 6, divr = 7 } do
-  local nc = 0xc0 + shl(n, 3)
-  local nr = nc + (n < 4 and 0 or (n % 2 == 0 and 8 or -8))
-  local fn = "f"..name
-  map_op[fn.."_1"] = format("ff:D8%02Xr|xd:D8%Xm|xq:nDC%Xm", nc, n, n)
-  if n == 2 or n == 3 then
-    map_op[fn.."_2"] = format("Fff:D8%02XR|Fx2d:D8%XM|Fx2q:nDC%XM", nc, n, n)
-  else
-    map_op[fn.."_2"] = format("Fff:D8%02XR|fFf:DC%02Xr|Fx2d:D8%XM|Fx2q:nDC%XM", nc, nr, n, n)
-    map_op[fn.."p_1"] = format("ff:DE%02Xr", nr)
-    map_op[fn.."p_2"] = format("fFf:DE%02Xr", nr)
-  end
-  map_op["fi"..name.."_1"] = format("xd:DA%Xm|xw:nDE%Xm", n, n)
-end
-
--- FP conditional moves.
-for cc,n in pairs{ b=0, e=1, be=2, u=3, nb=4, ne=5, nbe=6, nu=7 } do
-  local nc = 0xdac0 + shl(band(n, 3), 3) + shl(band(n, 4), 6)
-  map_op["fcmov"..cc.."_1"] = format("ff:%04Xr", nc) -- P6+
-  map_op["fcmov"..cc.."_2"] = format("Fff:%04XR", nc) -- P6+
-end
-
--- SSE FP arithmetic ops.
-for name,n in pairs{ sqrt = 1, add = 8, mul = 9,
-		     sub = 12, min = 13, div = 14, max = 15 } do
-  map_op[name.."ps_2"] = format("rmo:0F5%XrM", n)
-  map_op[name.."ss_2"] = format("rro:F30F5%XrM|rx/od:", n)
-  map_op[name.."pd_2"] = format("rmo:660F5%XrM", n)
-  map_op[name.."sd_2"] = format("rro:F20F5%XrM|rx/oq:", n)
-end
-
-------------------------------------------------------------------------------
-
--- Process pattern string.
-local function dopattern(pat, args, sz, op, needrex)
-  local digit, addin
-  local opcode = 0
-  local szov = sz
-  local narg = 1
-  local rex = 0
-
-  -- Limit number of section buffer positions used by a single dasm_put().
-  -- A single opcode needs a maximum of 5 positions.
-  if secpos+5 > maxsecpos then wflush() end
-
-  -- Process each character.
-  for c in gmatch(pat.."|", ".") do
-    if match(c, "%x") then	-- Hex digit.
-      digit = byte(c) - 48
-      if digit > 48 then digit = digit - 39
-      elseif digit > 16 then digit = digit - 7 end
-      opcode = opcode*16 + digit
-      addin = nil
-    elseif c == "n" then	-- Disable operand size mods for opcode.
-      szov = nil
-    elseif c == "X" then	-- Force REX.W.
-      rex = 8
-    elseif c == "r" then	-- Merge 1st operand regno. into opcode.
-      addin = args[1]; opcode = opcode + (addin.reg % 8)
-      if narg < 2 then narg = 2 end
-    elseif c == "R" then	-- Merge 2nd operand regno. into opcode.
-      addin = args[2]; opcode = opcode + (addin.reg % 8)
-      narg = 3
-    elseif c == "m" or c == "M" then	-- Encode ModRM/SIB.
-      local s
-      if addin then
-	s = addin.reg
-	opcode = opcode - band(s, 7)	-- Undo regno opcode merge.
-      else
-	s = band(opcode, 15)	-- Undo last digit.
-	opcode = shr(opcode, 4)
-      end
-      local nn = c == "m" and 1 or 2
-      local t = args[nn]
-      if narg <= nn then narg = nn + 1 end
-      if szov == "q" and rex == 0 then rex = rex + 8 end
-      if t.reg and t.reg > 7 then rex = rex + 1 end
-      if t.xreg and t.xreg > 7 then rex = rex + 2 end
-      if s > 7 then rex = rex + 4 end
-      if needrex then rex = rex + 16 end
-      wputop(szov, opcode, rex); opcode = nil
-      local imark = sub(pat, -1) -- Force a mark (ugly).
-      -- Put ModRM/SIB with regno/last digit as spare.
-      wputmrmsib(t, imark, s, addin and addin.vreg)
-      addin = nil
-    else
-      if opcode then -- Flush opcode.
-	if szov == "q" and rex == 0 then rex = rex + 8 end
-	if needrex then rex = rex + 16 end
-	if addin and addin.reg == -1 then
-	  wputop(szov, opcode - 7, rex)
-	  waction("VREG", addin.vreg); wputxb(0)
-	else
-	  if addin and addin.reg > 7 then rex = rex + 1 end
-	  wputop(szov, opcode, rex)
-	end
-	opcode = nil
-      end
-      if c == "|" then break end
-      if c == "o" then -- Offset (pure 32 bit displacement).
-	wputdarg(args[1].disp); if narg < 2 then narg = 2 end
-      elseif c == "O" then
-	wputdarg(args[2].disp); narg = 3
-      else
-	-- Anything else is an immediate operand.
-	local a = args[narg]
-	narg = narg + 1
-	local mode, imm = a.mode, a.imm
-	if mode == "iJ" and not match("iIJ", c) then
-	  werror("bad operand size for label")
-	end
-	if c == "S" then
-	  wputsbarg(imm)
-	elseif c == "U" then
-	  wputbarg(imm)
-	elseif c == "W" then
-	  wputwarg(imm)
-	elseif c == "i" or c == "I" then
-	  if mode == "iJ" then
-	    wputlabel("IMM_", imm, 1)
-	  elseif mode == "iI" and c == "I" then
-	    waction(sz == "w" and "IMM_WB" or "IMM_DB", imm)
-	  else
-	    wputszarg(sz, imm)
-	  end
-	elseif c == "J" then
-	  if mode == "iPJ" then
-	    waction("REL_A", imm) -- !x64 (secpos)
-	  else
-	    wputlabel("REL_", imm, 2)
-	  end
-	else
-	  werror("bad char `"..c.."' in pattern `"..pat.."' for `"..op.."'")
-	end
-      end
-    end
-  end
-end
-
-------------------------------------------------------------------------------
-
--- Mapping of operand modes to short names. Suppress output with '#'.
-local map_modename = {
-  r = "reg", R = "eax", C = "cl", x = "mem", m = "mrm", i = "imm",
-  f = "stx", F = "st0", J = "lbl", ["1"] = "1",
-  I = "#", S = "#", O = "#",
-}
-
--- Return a table/string showing all possible operand modes.
-local function templatehelp(template, nparams)
-  if nparams == 0 then return "" end
-  local t = {}
-  for tm in gmatch(template, "[^%|]+") do
-    local s = map_modename[sub(tm, 1, 1)]
-    s = s..gsub(sub(tm, 2, nparams), ".", function(c)
-      return ", "..map_modename[c]
-    end)
-    if not match(s, "#") then t[#t+1] = s end
-  end
-  return t
-end
-
--- Match operand modes against mode match part of template.
-local function matchtm(tm, args)
-  for i=1,#args do
-    if not match(args[i].mode, sub(tm, i, i)) then return end
-  end
-  return true
-end
-
--- Handle opcodes defined with template strings.
-map_op[".template__"] = function(params, template, nparams)
-  if not params then return templatehelp(template, nparams) end
-  local args = {}
-
-  -- Zero-operand opcodes have no match part.
-  if #params == 0 then
-    dopattern(template, args, "d", params.op, nil)
-    return
-  end
-
-  -- Determine common operand size (coerce undefined size) or flag as mixed.
-  local sz, szmix, needrex
-  for i,p in ipairs(params) do
-    args[i] = parseoperand(p)
-    local nsz = args[i].opsize
-    if nsz then
-      if sz and sz ~= nsz then szmix = true else sz = nsz end
-    end
-    local nrex = args[i].needrex
-    if nrex ~= nil then
-      if needrex == nil then
-	needrex = nrex
-      elseif needrex ~= nrex then
-	werror("bad mix of byte-addressable registers")
-      end
-    end
-  end
-
-  -- Try all match:pattern pairs (separated by '|').
-  local gotmatch, lastpat
-  for tm in gmatch(template, "[^%|]+") do
-    -- Split off size match (starts after mode match) and pattern string.
-    local szm, pat = match(tm, "^(.-):(.*)$", #args+1)
-    if pat == "" then pat = lastpat else lastpat = pat end
-    if matchtm(tm, args) then
-      local prefix = sub(szm, 1, 1)
-      if prefix == "/" then -- Match both operand sizes.
-	if args[1].opsize == sub(szm, 2, 2) and
-	   args[2].opsize == sub(szm, 3, 3) then
-	  dopattern(pat, args, sz, params.op, needrex) -- Process pattern.
-	  return
-	end
-      else -- Match common operand size.
-	local szp = sz
-	if szm == "" then szm = x64 and "qdwb" or "dwb" end -- Default sizes.
-	if prefix == "1" then szp = args[1].opsize; szmix = nil
-	elseif prefix == "2" then szp = args[2].opsize; szmix = nil end
-	if not szmix and (prefix == "." or match(szm, szp or "#")) then
-	  dopattern(pat, args, szp, params.op, needrex) -- Process pattern.
-	  return
-	end
-      end
-      gotmatch = true
-    end
-  end
-
-  local msg = "bad operand mode"
-  if gotmatch then
-    if szmix then
-      msg = "mixed operand size"
-    else
-      msg = sz and "bad operand size" or "missing operand size"
-    end
-  end
-
-  werror(msg.." in `"..opmodestr(params.op, args).."'")
-end
-
-------------------------------------------------------------------------------
-
--- x64-specific opcode for 64 bit immediates and displacements.
-if x64 then
-  function map_op.mov64_2(params)
-    if not params then return { "reg, imm", "reg, [disp]", "[disp], reg" } end
-    if secpos+2 > maxsecpos then wflush() end
-    local opcode, op64, sz, rex, vreg
-    local op64 = match(params[1], "^%[%s*(.-)%s*%]$")
-    if op64 then
-      local a = parseoperand(params[2])
-      if a.mode ~= "rmR" then werror("bad operand mode") end
-      sz = a.opsize
-      rex = sz == "q" and 8 or 0
-      opcode = 0xa3
-    else
-      op64 = match(params[2], "^%[%s*(.-)%s*%]$")
-      local a = parseoperand(params[1])
-      if op64 then
-	if a.mode ~= "rmR" then werror("bad operand mode") end
-	sz = a.opsize
-	rex = sz == "q" and 8 or 0
-	opcode = 0xa1
-      else
-	if sub(a.mode, 1, 1) ~= "r" or a.opsize ~= "q" then
-	  werror("bad operand mode")
-	end
-	op64 = params[2]
-	if a.reg == -1 then
-	  vreg = a.vreg
-	  opcode = 0xb8
-	else
-	  opcode = 0xb8 + band(a.reg, 7)
-	end
-	rex = a.reg > 7 and 9 or 8
-      end
-    end
-    wputop(sz, opcode, rex)
-    if vreg then waction("VREG", vreg); wputxb(0) end
-    waction("IMM_D", format("(unsigned int)(%s)", op64))
-    waction("IMM_D", format("(unsigned int)((%s)>>32)", op64))
-  end
-end
-
-------------------------------------------------------------------------------
-
--- Pseudo-opcodes for data storage.
-local function op_data(params)
-  if not params then return "imm..." end
-  local sz = sub(params.op, 2, 2)
-  if sz == "a" then sz = addrsize end
-  for _,p in ipairs(params) do
-    local a = parseoperand(p)
-    if sub(a.mode, 1, 1) ~= "i" or (a.opsize and a.opsize ~= sz) then
-      werror("bad mode or size in `"..p.."'")
-    end
-    if a.mode == "iJ" then
-      wputlabel("IMM_", a.imm, 1)
-    else
-      wputszarg(sz, a.imm)
-    end
-    if secpos+2 > maxsecpos then wflush() end
-  end
-end
-
-map_op[".byte_*"] = op_data
-map_op[".sbyte_*"] = op_data
-map_op[".word_*"] = op_data
-map_op[".dword_*"] = op_data
-map_op[".aword_*"] = op_data
-
-------------------------------------------------------------------------------
-
--- Pseudo-opcode to mark the position where the action list is to be emitted.
-map_op[".actionlist_1"] = function(params)
-  if not params then return "cvar" end
-  local name = params[1] -- No syntax check. You get to keep the pieces.
-  wline(function(out) writeactions(out, name) end)
-end
-
--- Pseudo-opcode to mark the position where the global enum is to be emitted.
-map_op[".globals_1"] = function(params)
-  if not params then return "prefix" end
-  local prefix = params[1] -- No syntax check. You get to keep the pieces.
-  wline(function(out) writeglobals(out, prefix) end)
-end
-
--- Pseudo-opcode to mark the position where the global names are to be emitted.
-map_op[".globalnames_1"] = function(params)
-  if not params then return "cvar" end
-  local name = params[1] -- No syntax check. You get to keep the pieces.
-  wline(function(out) writeglobalnames(out, name) end)
-end
-
--- Pseudo-opcode to mark the position where the extern names are to be emitted.
-map_op[".externnames_1"] = function(params)
-  if not params then return "cvar" end
-  local name = params[1] -- No syntax check. You get to keep the pieces.
-  wline(function(out) writeexternnames(out, name) end)
-end
-
-------------------------------------------------------------------------------
-
--- Label pseudo-opcode (converted from trailing colon form).
-map_op[".label_2"] = function(params)
-  if not params then return "[1-9] | ->global | =>pcexpr  [, addr]" end
-  if secpos+2 > maxsecpos then wflush() end
-  local a = parseoperand(params[1])
-  local mode, imm = a.mode, a.imm
-  if type(imm) == "number" and (mode == "iJ" or (imm >= 1 and imm <= 9)) then
-    -- Local label (1: ... 9:) or global label (->global:).
-    waction("LABEL_LG", nil, 1)
-    wputxb(imm)
-  elseif mode == "iJ" then
-    -- PC label (=>pcexpr:).
-    waction("LABEL_PC", imm)
-  else
-    werror("bad label definition")
-  end
-  -- SETLABEL must immediately follow LABEL_LG/LABEL_PC.
-  local addr = params[2]
-  if addr then
-    local a = parseoperand(addr)
-    if a.mode == "iPJ" then
-      waction("SETLABEL", a.imm)
-    else
-      werror("bad label assignment")
-    end
-  end
-end
-map_op[".label_1"] = map_op[".label_2"]
-
-------------------------------------------------------------------------------
-
--- Alignment pseudo-opcode.
-map_op[".align_1"] = function(params)
-  if not params then return "numpow2" end
-  if secpos+1 > maxsecpos then wflush() end
-  local align = tonumber(params[1]) or map_opsizenum[map_opsize[params[1]]]
-  if align then
-    local x = align
-    -- Must be a power of 2 in the range (2 ... 256).
-    for i=1,8 do
-      x = x / 2
-      if x == 1 then
-	waction("ALIGN", nil, 1)
-	wputxb(align-1) -- Action byte is 2**n-1.
-	return
-      end
-    end
-  end
-  werror("bad alignment")
-end
-
--- Spacing pseudo-opcode.
-map_op[".space_2"] = function(params)
-  if not params then return "num [, filler]" end
-  if secpos+1 > maxsecpos then wflush() end
-  waction("SPACE", params[1])
-  local fill = params[2]
-  if fill then
-    fill = tonumber(fill)
-    if not fill or fill < 0 or fill > 255 then werror("bad filler") end
-  end
-  wputxb(fill or 0)
-end
-map_op[".space_1"] = map_op[".space_2"]
-
-------------------------------------------------------------------------------
-
--- Pseudo-opcode for (primitive) type definitions (map to C types).
-map_op[".type_3"] = function(params, nparams)
-  if not params then
-    return nparams == 2 and "name, ctype" or "name, ctype, reg"
-  end
-  local name, ctype, reg = params[1], params[2], params[3]
-  if not match(name, "^[%a_][%w_]*$") then
-    werror("bad type name `"..name.."'")
-  end
-  local tp = map_type[name]
-  if tp then
-    werror("duplicate type `"..name.."'")
-  end
-  if reg and not map_reg_valid_base[reg] then
-    werror("bad base register `"..(map_reg_rev[reg] or reg).."'")
-  end
-  -- Add #type to defines. A bit unclean to put it in map_archdef.
-  map_archdef["#"..name] = "sizeof("..ctype..")"
-  -- Add new type and emit shortcut define.
-  local num = ctypenum + 1
-  map_type[name] = {
-    ctype = ctype,
-    ctypefmt = format("Dt%X(%%s)", num),
-    reg = reg,
-  }
-  wline(format("#define Dt%X(_V) (int)(ptrdiff_t)&(((%s *)0)_V)", num, ctype))
-  ctypenum = num
-end
-map_op[".type_2"] = map_op[".type_3"]
-
--- Dump type definitions.
-local function dumptypes(out, lvl)
-  local t = {}
-  for name in pairs(map_type) do t[#t+1] = name end
-  sort(t)
-  out:write("Type definitions:\n")
-  for _,name in ipairs(t) do
-    local tp = map_type[name]
-    local reg = tp.reg and map_reg_rev[tp.reg] or ""
-    out:write(format("  %-20s %-20s %s\n", name, tp.ctype, reg))
-  end
-  out:write("\n")
-end
-
-------------------------------------------------------------------------------
-
--- Set the current section.
-function _M.section(num)
-  waction("SECTION")
-  wputxb(num)
-  wflush(true) -- SECTION is a terminal action.
-end
-
-------------------------------------------------------------------------------
-
--- Dump architecture description.
-function _M.dumparch(out)
-  out:write(format("DynASM %s version %s, released %s\n\n",
-    _info.arch, _info.version, _info.release))
-  dumpregs(out)
-  dumpactions(out)
-end
-
--- Dump all user defined elements.
-function _M.dumpdef(out, lvl)
-  dumptypes(out, lvl)
-  dumpglobals(out, lvl)
-  dumpexterns(out, lvl)
-end
-
-------------------------------------------------------------------------------
-
--- Pass callbacks from/to the DynASM core.
-function _M.passcb(wl, we, wf, ww)
-  wline, werror, wfatal, wwarn = wl, we, wf, ww
-  return wflush
-end
-
--- Setup the arch-specific module.
-function _M.setup(arch, opt)
-  g_arch, g_opt = arch, opt
-end
-
--- Merge the core maps and the arch-specific maps.
-function _M.mergemaps(map_coreop, map_def)
-  setmetatable(map_op, { __index = map_coreop })
-  setmetatable(map_def, { __index = map_archdef })
-  return map_op, map_def
-end
-
-return _M
-
-------------------------------------------------------------------------------
-
diff --git a/luajit-2.0/dynasm/dynasm.lua b/luajit-2.0/dynasm/dynasm.lua
deleted file mode 100644
index 0ea8697..0000000
--- a/luajit-2.0/dynasm/dynasm.lua
+++ /dev/null
@@ -1,1094 +0,0 @@
-------------------------------------------------------------------------------
--- DynASM. A dynamic assembler for code generation engines.
--- Originally designed and implemented for LuaJIT.
---
--- Copyright (C) 2005-2014 Mike Pall. All rights reserved.
--- See below for full copyright notice.
-------------------------------------------------------------------------------
-
--- Application information.
-local _info = {
-  name =	"DynASM",
-  description =	"A dynamic assembler for code generation engines",
-  version =	"1.3.0",
-  vernum =	 10300,
-  release =	"2011-05-05",
-  author =	"Mike Pall",
-  url =		"http://luajit.org/dynasm.html",
-  license =	"MIT",
-  copyright =	[[
-Copyright (C) 2005-2014 Mike Pall. All rights reserved.
-
-Permission is hereby granted, free of charge, to any person obtaining
-a copy of this software and associated documentation files (the
-"Software"), to deal in the Software without restriction, including
-without limitation the rights to use, copy, modify, merge, publish,
-distribute, sublicense, and/or sell copies of the Software, and to
-permit persons to whom the Software is furnished to do so, subject to
-the following conditions:
-
-The above copyright notice and this permission notice shall be
-included in all copies or substantial portions of the Software.
-
-THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
-EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
-MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
-IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY
-CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT,
-TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE
-SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
-
-[ MIT license: http://www.opensource.org/licenses/mit-license.php ]
-]],
-}
-
--- Cache library functions.
-local type, pairs, ipairs = type, pairs, ipairs
-local pcall, error, assert = pcall, error, assert
-local _s = string
-local sub, match, gmatch, gsub = _s.sub, _s.match, _s.gmatch, _s.gsub
-local format, rep, upper = _s.format, _s.rep, _s.upper
-local _t = table
-local insert, remove, concat, sort = _t.insert, _t.remove, _t.concat, _t.sort
-local exit = os.exit
-local io = io
-local stdin, stdout, stderr = io.stdin, io.stdout, io.stderr
-
-------------------------------------------------------------------------------
-
--- Program options.
-local g_opt = {}
-
--- Global state for current file.
-local g_fname, g_curline, g_indent, g_lineno, g_synclineno, g_arch
-local g_errcount = 0
-
--- Write buffer for output file.
-local g_wbuffer, g_capbuffer
-
-------------------------------------------------------------------------------
-
--- Write an output line (or callback function) to the buffer.
-local function wline(line, needindent)
-  local buf = g_capbuffer or g_wbuffer
-  buf[#buf+1] = needindent and g_indent..line or line
-  g_synclineno = g_synclineno + 1
-end
-
--- Write assembler line as a comment, if requestd.
-local function wcomment(aline)
-  if g_opt.comment then
-    wline(g_opt.comment..aline..g_opt.endcomment, true)
-  end
-end
-
--- Resync CPP line numbers.
-local function wsync()
-  if g_synclineno ~= g_lineno and g_opt.cpp then
-    wline("#line "..g_lineno..' "'..g_fname..'"')
-    g_synclineno = g_lineno
-  end
-end
-
--- Dummy action flush function. Replaced with arch-specific function later.
-local function wflush(term)
-end
-
--- Dump all buffered output lines.
-local function wdumplines(out, buf)
-  for _,line in ipairs(buf) do
-    if type(line) == "string" then
-      assert(out:write(line, "\n"))
-    else
-      -- Special callback to dynamically insert lines after end of processing.
-      line(out)
-    end
-  end
-end
-
-------------------------------------------------------------------------------
-
--- Emit an error. Processing continues with next statement.
-local function werror(msg)
-  error(format("%s:%s: error: %s:\n%s", g_fname, g_lineno, msg, g_curline), 0)
-end
-
--- Emit a fatal error. Processing stops.
-local function wfatal(msg)
-  g_errcount = "fatal"
-  werror(msg)
-end
-
--- Print a warning. Processing continues.
-local function wwarn(msg)
-  stderr:write(format("%s:%s: warning: %s:\n%s\n",
-    g_fname, g_lineno, msg, g_curline))
-end
-
--- Print caught error message. But suppress excessive errors.
-local function wprinterr(...)
-  if type(g_errcount) == "number" then
-    -- Regular error.
-    g_errcount = g_errcount + 1
-    if g_errcount < 21 then -- Seems to be a reasonable limit.
-      stderr:write(...)
-    elseif g_errcount == 21 then
-      stderr:write(g_fname,
-	":*: warning: too many errors (suppressed further messages).\n")
-    end
-  else
-    -- Fatal error.
-    stderr:write(...)
-    return true -- Stop processing.
-  end
-end
-
-------------------------------------------------------------------------------
-
--- Map holding all option handlers.
-local opt_map = {}
-local opt_current
-
--- Print error and exit with error status.
-local function opterror(...)
-  stderr:write("dynasm.lua: ERROR: ", ...)
-  stderr:write("\n")
-  exit(1)
-end
-
--- Get option parameter.
-local function optparam(args)
-  local argn = args.argn
-  local p = args[argn]
-  if not p then
-    opterror("missing parameter for option `", opt_current, "'.")
-  end
-  args.argn = argn + 1
-  return p
-end
-
-------------------------------------------------------------------------------
-
--- Core pseudo-opcodes.
-local map_coreop = {}
--- Dummy opcode map. Replaced by arch-specific map.
-local map_op = {}
-
--- Forward declarations.
-local dostmt
-local readfile
-
-------------------------------------------------------------------------------
-
--- Map for defines (initially empty, chains to arch-specific map).
-local map_def = {}
-
--- Pseudo-opcode to define a substitution.
-map_coreop[".define_2"] = function(params, nparams)
-  if not params then return nparams == 1 and "name" or "name, subst" end
-  local name, def = params[1], params[2] or "1"
-  if not match(name, "^[%a_][%w_]*$") then werror("bad or duplicate define") end
-  map_def[name] = def
-end
-map_coreop[".define_1"] = map_coreop[".define_2"]
-
--- Define a substitution on the command line.
-function opt_map.D(args)
-  local namesubst = optparam(args)
-  local name, subst = match(namesubst, "^([%a_][%w_]*)=(.*)$")
-  if name then
-    map_def[name] = subst
-  elseif match(namesubst, "^[%a_][%w_]*$") then
-    map_def[namesubst] = "1"
-  else
-    opterror("bad define")
-  end
-end
-
--- Undefine a substitution on the command line.
-function opt_map.U(args)
-  local name = optparam(args)
-  if match(name, "^[%a_][%w_]*$") then
-    map_def[name] = nil
-  else
-    opterror("bad define")
-  end
-end
-
--- Helper for definesubst.
-local gotsubst
-
-local function definesubst_one(word)
-  local subst = map_def[word]
-  if subst then gotsubst = word; return subst else return word end
-end
-
--- Iteratively substitute defines.
-local function definesubst(stmt)
-  -- Limit number of iterations.
-  for i=1,100 do
-    gotsubst = false
-    stmt = gsub(stmt, "#?[%w_]+", definesubst_one)
-    if not gotsubst then break end
-  end
-  if gotsubst then wfatal("recursive define involving `"..gotsubst.."'") end
-  return stmt
-end
-
--- Dump all defines.
-local function dumpdefines(out, lvl)
-  local t = {}
-  for name in pairs(map_def) do
-    t[#t+1] = name
-  end
-  sort(t)
-  out:write("Defines:\n")
-  for _,name in ipairs(t) do
-    local subst = map_def[name]
-    if g_arch then subst = g_arch.revdef(subst) end
-    out:write(format("  %-20s %s\n", name, subst))
-  end
-  out:write("\n")
-end
-
-------------------------------------------------------------------------------
-
--- Support variables for conditional assembly.
-local condlevel = 0
-local condstack = {}
-
--- Evaluate condition with a Lua expression. Substitutions already performed.
-local function cond_eval(cond)
-  local func, err
-  if setfenv then
-    func, err = loadstring("return "..cond, "=expr")
-  else
-    -- No globals. All unknown identifiers evaluate to nil.
-    func, err = load("return "..cond, "=expr", "t", {})
-  end
-  if func then
-    if setfenv then
-      setfenv(func, {}) -- No globals. All unknown identifiers evaluate to nil.
-    end
-    local ok, res = pcall(func)
-    if ok then
-      if res == 0 then return false end -- Oh well.
-      return not not res
-    end
-    err = res
-  end
-  wfatal("bad condition: "..err)
-end
-
--- Skip statements until next conditional pseudo-opcode at the same level.
-local function stmtskip()
-  local dostmt_save = dostmt
-  local lvl = 0
-  dostmt = function(stmt)
-    local op = match(stmt, "^%s*(%S+)")
-    if op == ".if" then
-      lvl = lvl + 1
-    elseif lvl ~= 0 then
-      if op == ".endif" then lvl = lvl - 1 end
-    elseif op == ".elif" or op == ".else" or op == ".endif" then
-      dostmt = dostmt_save
-      dostmt(stmt)
-    end
-  end
-end
-
--- Pseudo-opcodes for conditional assembly.
-map_coreop[".if_1"] = function(params)
-  if not params then return "condition" end
-  local lvl = condlevel + 1
-  local res = cond_eval(params[1])
-  condlevel = lvl
-  condstack[lvl] = res
-  if not res then stmtskip() end
-end
-
-map_coreop[".elif_1"] = function(params)
-  if not params then return "condition" end
-  if condlevel == 0 then wfatal(".elif without .if") end
-  local lvl = condlevel
-  local res = condstack[lvl]
-  if res then
-    if res == "else" then wfatal(".elif after .else") end
-  else
-    res = cond_eval(params[1])
-    if res then
-      condstack[lvl] = res
-      return
-    end
-  end
-  stmtskip()
-end
-
-map_coreop[".else_0"] = function(params)
-  if condlevel == 0 then wfatal(".else without .if") end
-  local lvl = condlevel
-  local res = condstack[lvl]
-  condstack[lvl] = "else"
-  if res then
-    if res == "else" then wfatal(".else after .else") end
-    stmtskip()
-  end
-end
-
-map_coreop[".endif_0"] = function(params)
-  local lvl = condlevel
-  if lvl == 0 then wfatal(".endif without .if") end
-  condlevel = lvl - 1
-end
-
--- Check for unfinished conditionals.
-local function checkconds()
-  if g_errcount ~= "fatal" and condlevel ~= 0 then
-    wprinterr(g_fname, ":*: error: unbalanced conditional\n")
-  end
-end
-
-------------------------------------------------------------------------------
-
--- Search for a file in the given path and open it for reading.
-local function pathopen(path, name)
-  local dirsep = package and match(package.path, "\\") and "\\" or "/"
-  for _,p in ipairs(path) do
-    local fullname = p == "" and name or p..dirsep..name
-    local fin = io.open(fullname, "r")
-    if fin then
-      g_fname = fullname
-      return fin
-    end
-  end
-end
-
--- Include a file.
-map_coreop[".include_1"] = function(params)
-  if not params then return "filename" end
-  local name = params[1]
-  -- Save state. Ugly, I know. but upvalues are fast.
-  local gf, gl, gcl, gi = g_fname, g_lineno, g_curline, g_indent
-  -- Read the included file.
-  local fatal = readfile(pathopen(g_opt.include, name) or
-			 wfatal("include file `"..name.."' not found"))
-  -- Restore state.
-  g_synclineno = -1
-  g_fname, g_lineno, g_curline, g_indent = gf, gl, gcl, gi
-  if fatal then wfatal("in include file") end
-end
-
--- Make .include and conditionals initially available, too.
-map_op[".include_1"] = map_coreop[".include_1"]
-map_op[".if_1"] = map_coreop[".if_1"]
-map_op[".elif_1"] = map_coreop[".elif_1"]
-map_op[".else_0"] = map_coreop[".else_0"]
-map_op[".endif_0"] = map_coreop[".endif_0"]
-
-------------------------------------------------------------------------------
-
--- Support variables for macros.
-local mac_capture, mac_lineno, mac_name
-local mac_active = {}
-local mac_list = {}
-
--- Pseudo-opcode to define a macro.
-map_coreop[".macro_*"] = function(mparams)
-  if not mparams then return "name [, params...]" end
-  -- Split off and validate macro name.
-  local name = remove(mparams, 1)
-  if not name then werror("missing macro name") end
-  if not (match(name, "^[%a_][%w_%.]*$") or match(name, "^%.[%w_%.]*$")) then
-    wfatal("bad macro name `"..name.."'")
-  end
-  -- Validate macro parameter names.
-  local mdup = {}
-  for _,mp in ipairs(mparams) do
-    if not match(mp, "^[%a_][%w_]*$") then
-      wfatal("bad macro parameter name `"..mp.."'")
-    end
-    if mdup[mp] then wfatal("duplicate macro parameter name `"..mp.."'") end
-    mdup[mp] = true
-  end
-  -- Check for duplicate or recursive macro definitions.
-  local opname = name.."_"..#mparams
-  if map_op[opname] or map_op[name.."_*"] then
-    wfatal("duplicate macro `"..name.."' ("..#mparams.." parameters)")
-  end
-  if mac_capture then wfatal("recursive macro definition") end
-
-  -- Enable statement capture.
-  local lines = {}
-  mac_lineno = g_lineno
-  mac_name = name
-  mac_capture = function(stmt) -- Statement capture function.
-    -- Stop macro definition with .endmacro pseudo-opcode.
-    if not match(stmt, "^%s*.endmacro%s*$") then
-      lines[#lines+1] = stmt
-      return
-    end
-    mac_capture = nil
-    mac_lineno = nil
-    mac_name = nil
-    mac_list[#mac_list+1] = opname
-    -- Add macro-op definition.
-    map_op[opname] = function(params)
-      if not params then return mparams, lines end
-      -- Protect against recursive macro invocation.
-      if mac_active[opname] then wfatal("recursive macro invocation") end
-      mac_active[opname] = true
-      -- Setup substitution map.
-      local subst = {}
-      for i,mp in ipairs(mparams) do subst[mp] = params[i] end
-      local mcom
-      if g_opt.maccomment and g_opt.comment then
-	mcom = " MACRO "..name.." ("..#mparams..")"
-	wcomment("{"..mcom)
-      end
-      -- Loop through all captured statements
-      for _,stmt in ipairs(lines) do
-	-- Substitute macro parameters.
-	local st = gsub(stmt, "[%w_]+", subst)
-	st = definesubst(st)
-	st = gsub(st, "%s*%.%.%s*", "") -- Token paste a..b.
-	if mcom and sub(st, 1, 1) ~= "|" then wcomment(st) end
-	-- Emit statement. Use a protected call for better diagnostics.
-	local ok, err = pcall(dostmt, st)
-	if not ok then
-	  -- Add the captured statement to the error.
-	  wprinterr(err, "\n", g_indent, "|  ", stmt,
-		    "\t[MACRO ", name, " (", #mparams, ")]\n")
-	end
-      end
-      if mcom then wcomment("}"..mcom) end
-      mac_active[opname] = nil
-    end
-  end
-end
-
--- An .endmacro pseudo-opcode outside of a macro definition is an error.
-map_coreop[".endmacro_0"] = function(params)
-  wfatal(".endmacro without .macro")
-end
-
--- Dump all macros and their contents (with -PP only).
-local function dumpmacros(out, lvl)
-  sort(mac_list)
-  out:write("Macros:\n")
-  for _,opname in ipairs(mac_list) do
-    local name = sub(opname, 1, -3)
-    local params, lines = map_op[opname]()
-    out:write(format("  %-20s %s\n", name, concat(params, ", ")))
-    if lvl > 1 then
-      for _,line in ipairs(lines) do
-	out:write("  |", line, "\n")
-      end
-      out:write("\n")
-    end
-  end
-  out:write("\n")
-end
-
--- Check for unfinished macro definitions.
-local function checkmacros()
-  if mac_capture then
-    wprinterr(g_fname, ":", mac_lineno,
-	      ": error: unfinished .macro `", mac_name ,"'\n")
-  end
-end
-
-------------------------------------------------------------------------------
-
--- Support variables for captures.
-local cap_lineno, cap_name
-local cap_buffers = {}
-local cap_used = {}
-
--- Start a capture.
-map_coreop[".capture_1"] = function(params)
-  if not params then return "name" end
-  wflush()
-  local name = params[1]
-  if not match(name, "^[%a_][%w_]*$") then
-    wfatal("bad capture name `"..name.."'")
-  end
-  if cap_name then
-    wfatal("already capturing to `"..cap_name.."' since line "..cap_lineno)
-  end
-  cap_name = name
-  cap_lineno = g_lineno
-  -- Create or continue a capture buffer and start the output line capture.
-  local buf = cap_buffers[name]
-  if not buf then buf = {}; cap_buffers[name] = buf end
-  g_capbuffer = buf
-  g_synclineno = 0
-end
-
--- Stop a capture.
-map_coreop[".endcapture_0"] = function(params)
-  wflush()
-  if not cap_name then wfatal(".endcapture without a valid .capture") end
-  cap_name = nil
-  cap_lineno = nil
-  g_capbuffer = nil
-  g_synclineno = 0
-end
-
--- Dump a capture buffer.
-map_coreop[".dumpcapture_1"] = function(params)
-  if not params then return "name" end
-  wflush()
-  local name = params[1]
-  if not match(name, "^[%a_][%w_]*$") then
-    wfatal("bad capture name `"..name.."'")
-  end
-  cap_used[name] = true
-  wline(function(out)
-    local buf = cap_buffers[name]
-    if buf then wdumplines(out, buf) end
-  end)
-  g_synclineno = 0
-end
-
--- Dump all captures and their buffers (with -PP only).
-local function dumpcaptures(out, lvl)
-  out:write("Captures:\n")
-  for name,buf in pairs(cap_buffers) do
-    out:write(format("  %-20s %4s)\n", name, "("..#buf))
-    if lvl > 1 then
-      local bar = rep("=", 76)
-      out:write("  ", bar, "\n")
-      for _,line in ipairs(buf) do
-	out:write("  ", line, "\n")
-      end
-      out:write("  ", bar, "\n\n")
-    end
-  end
-  out:write("\n")
-end
-
--- Check for unfinished or unused captures.
-local function checkcaptures()
-  if cap_name then
-    wprinterr(g_fname, ":", cap_lineno,
-	      ": error: unfinished .capture `", cap_name,"'\n")
-    return
-  end
-  for name in pairs(cap_buffers) do
-    if not cap_used[name] then
-      wprinterr(g_fname, ":*: error: missing .dumpcapture ", name ,"\n")
-    end
-  end
-end
-
-------------------------------------------------------------------------------
-
--- Sections names.
-local map_sections = {}
-
--- Pseudo-opcode to define code sections.
--- TODO: Data sections, BSS sections. Needs extra C code and API.
-map_coreop[".section_*"] = function(params)
-  if not params then return "name..." end
-  if #map_sections > 0 then werror("duplicate section definition") end
-  wflush()
-  for sn,name in ipairs(params) do
-    local opname = "."..name.."_0"
-    if not match(name, "^[%a][%w_]*$") or
-       map_op[opname] or map_op["."..name.."_*"] then
-      werror("bad section name `"..name.."'")
-    end
-    map_sections[#map_sections+1] = name
-    wline(format("#define DASM_SECTION_%s\t%d", upper(name), sn-1))
-    map_op[opname] = function(params) g_arch.section(sn-1) end
-  end
-  wline(format("#define DASM_MAXSECTION\t\t%d", #map_sections))
-end
-
--- Dump all sections.
-local function dumpsections(out, lvl)
-  out:write("Sections:\n")
-  for _,name in ipairs(map_sections) do
-    out:write(format("  %s\n", name))
-  end
-  out:write("\n")
-end
-
-------------------------------------------------------------------------------
-
--- Replacement for customized Lua, which lacks the package library.
-local prefix = ""
-if not require then
-  function require(name)
-    local fp = assert(io.open(prefix..name..".lua"))
-    local s = fp:read("*a")
-    assert(fp:close())
-    return assert(loadstring(s, "@"..name..".lua"))()
-  end
-end
-
--- Load architecture-specific module.
-local function loadarch(arch)
-  if not match(arch, "^[%w_]+$") then return "bad arch name" end
-  local ok, m_arch = pcall(require, "dasm_"..arch)
-  if not ok then return "cannot load module: "..m_arch end
-  g_arch = m_arch
-  wflush = m_arch.passcb(wline, werror, wfatal, wwarn)
-  m_arch.setup(arch, g_opt)
-  map_op, map_def = m_arch.mergemaps(map_coreop, map_def)
-end
-
--- Dump architecture description.
-function opt_map.dumparch(args)
-  local name = optparam(args)
-  if not g_arch then
-    local err = loadarch(name)
-    if err then opterror(err) end
-  end
-
-  local t = {}
-  for name in pairs(map_coreop) do t[#t+1] = name end
-  for name in pairs(map_op) do t[#t+1] = name end
-  sort(t)
-
-  local out = stdout
-  local _arch = g_arch._info
-  out:write(format("%s version %s, released %s, %s\n",
-    _info.name, _info.version, _info.release, _info.url))
-  g_arch.dumparch(out)
-
-  local pseudo = true
-  out:write("Pseudo-Opcodes:\n")
-  for _,sname in ipairs(t) do
-    local name, nparam = match(sname, "^(.+)_([0-9%*])$")
-    if name then
-      if pseudo and sub(name, 1, 1) ~= "." then
-	out:write("\nOpcodes:\n")
-	pseudo = false
-      end
-      local f = map_op[sname]
-      local s
-      if nparam ~= "*" then nparam = nparam + 0 end
-      if nparam == 0 then
-	s = ""
-      elseif type(f) == "string" then
-	s = map_op[".template__"](nil, f, nparam)
-      else
-	s = f(nil, nparam)
-      end
-      if type(s) == "table" then
-	for _,s2 in ipairs(s) do
-	  out:write(format("  %-12s %s\n", name, s2))
-	end
-      else
-	out:write(format("  %-12s %s\n", name, s))
-      end
-    end
-  end
-  out:write("\n")
-  exit(0)
-end
-
--- Pseudo-opcode to set the architecture.
--- Only initially available (map_op is replaced when called).
-map_op[".arch_1"] = function(params)
-  if not params then return "name" end
-  local err = loadarch(params[1])
-  if err then wfatal(err) end
-  wline(format("#if DASM_VERSION != %d", _info.vernum))
-  wline('#error "Version mismatch between DynASM and included encoding engine"')
-  wline("#endif")
-end
-
--- Dummy .arch pseudo-opcode to improve the error report.
-map_coreop[".arch_1"] = function(params)
-  if not params then return "name" end
-  wfatal("duplicate .arch statement")
-end
-
-------------------------------------------------------------------------------
-
--- Dummy pseudo-opcode. Don't confuse '.nop' with 'nop'.
-map_coreop[".nop_*"] = function(params)
-  if not params then return "[ignored...]" end
-end
-
--- Pseudo-opcodes to raise errors.
-map_coreop[".error_1"] = function(params)
-  if not params then return "message" end
-  werror(params[1])
-end
-
-map_coreop[".fatal_1"] = function(params)
-  if not params then return "message" end
-  wfatal(params[1])
-end
-
--- Dump all user defined elements.
-local function dumpdef(out)
-  local lvl = g_opt.dumpdef
-  if lvl == 0 then return end
-  dumpsections(out, lvl)
-  dumpdefines(out, lvl)
-  if g_arch then g_arch.dumpdef(out, lvl) end
-  dumpmacros(out, lvl)
-  dumpcaptures(out, lvl)
-end
-
-------------------------------------------------------------------------------
-
--- Helper for splitstmt.
-local splitlvl
-
-local function splitstmt_one(c)
-  if c == "(" then
-    splitlvl = ")"..splitlvl
-  elseif c == "[" then
-    splitlvl = "]"..splitlvl
-  elseif c == "{" then
-    splitlvl = "}"..splitlvl
-  elseif c == ")" or c == "]" or c == "}" then
-    if sub(splitlvl, 1, 1) ~= c then werror("unbalanced (), [] or {}") end
-    splitlvl = sub(splitlvl, 2)
-  elseif splitlvl == "" then
-    return " \0 "
-  end
-  return c
-end
-
--- Split statement into (pseudo-)opcode and params.
-local function splitstmt(stmt)
-  -- Convert label with trailing-colon into .label statement.
-  local label = match(stmt, "^%s*(.+):%s*$")
-  if label then return ".label", {label} end
-
-  -- Split at commas and equal signs, but obey parentheses and brackets.
-  splitlvl = ""
-  stmt = gsub(stmt, "[,%(%)%[%]{}]", splitstmt_one)
-  if splitlvl ~= "" then werror("unbalanced () or []") end
-
-  -- Split off opcode.
-  local op, other = match(stmt, "^%s*([^%s%z]+)%s*(.*)$")
-  if not op then werror("bad statement syntax") end
-
-  -- Split parameters.
-  local params = {}
-  for p in gmatch(other, "%s*(%Z+)%z?") do
-    params[#params+1] = gsub(p, "%s+$", "")
-  end
-  if #params > 16 then werror("too many parameters") end
-
-  params.op = op
-  return op, params
-end
-
--- Process a single statement.
-dostmt = function(stmt)
-  -- Ignore empty statements.
-  if match(stmt, "^%s*$") then return end
-
-  -- Capture macro defs before substitution.
-  if mac_capture then return mac_capture(stmt) end
-  stmt = definesubst(stmt)
-
-  -- Emit C code without parsing the line.
-  if sub(stmt, 1, 1) == "|" then
-    local tail = sub(stmt, 2)
-    wflush()
-    if sub(tail, 1, 2) == "//" then wcomment(tail) else wline(tail, true) end
-    return
-  end
-
-  -- Split into (pseudo-)opcode and params.
-  local op, params = splitstmt(stmt)
-
-  -- Get opcode handler (matching # of parameters or generic handler).
-  local f = map_op[op.."_"..#params] or map_op[op.."_*"]
-  if not f then
-    if not g_arch then wfatal("first statement must be .arch") end
-    -- Improve error report.
-    for i=0,9 do
-      if map_op[op.."_"..i] then
-	werror("wrong number of parameters for `"..op.."'")
-      end
-    end
-    werror("unknown statement `"..op.."'")
-  end
-
-  -- Call opcode handler or special handler for template strings.
-  if type(f) == "string" then
-    map_op[".template__"](params, f)
-  else
-    f(params)
-  end
-end
-
--- Process a single line.
-local function doline(line)
-  if g_opt.flushline then wflush() end
-
-  -- Assembler line?
-  local indent, aline = match(line, "^(%s*)%|(.*)$")
-  if not aline then
-    -- No, plain C code line, need to flush first.
-    wflush()
-    wsync()
-    wline(line, false)
-    return
-  end
-
-  g_indent = indent -- Remember current line indentation.
-
-  -- Emit C code (even from macros). Avoids echo and line parsing.
-  if sub(aline, 1, 1) == "|" then
-    if not mac_capture then
-      wsync()
-    elseif g_opt.comment then
-      wsync()
-      wcomment(aline)
-    end
-    dostmt(aline)
-    return
-  end
-
-  -- Echo assembler line as a comment.
-  if g_opt.comment then
-    wsync()
-    wcomment(aline)
-  end
-
-  -- Strip assembler comments.
-  aline = gsub(aline, "//.*$", "")
-
-  -- Split line into statements at semicolons.
-  if match(aline, ";") then
-    for stmt in gmatch(aline, "[^;]+") do dostmt(stmt) end
-  else
-    dostmt(aline)
-  end
-end
-
-------------------------------------------------------------------------------
-
--- Write DynASM header.
-local function dasmhead(out)
-  out:write(format([[
-/*
-** This file has been pre-processed with DynASM.
-** %s
-** DynASM version %s, DynASM %s version %s
-** DO NOT EDIT! The original file is in "%s".
-*/
-
-]], _info.url,
-    _info.version, g_arch._info.arch, g_arch._info.version,
-    g_fname))
-end
-
--- Read input file.
-readfile = function(fin)
-  g_indent = ""
-  g_lineno = 0
-  g_synclineno = -1
-
-  -- Process all lines.
-  for line in fin:lines() do
-    g_lineno = g_lineno + 1
-    g_curline = line
-    local ok, err = pcall(doline, line)
-    if not ok and wprinterr(err, "\n") then return true end
-  end
-  wflush()
-
-  -- Close input file.
-  assert(fin == stdin or fin:close())
-end
-
--- Write output file.
-local function writefile(outfile)
-  local fout
-
-  -- Open output file.
-  if outfile == nil or outfile == "-" then
-    fout = stdout
-  else
-    fout = assert(io.open(outfile, "w"))
-  end
-
-  -- Write all buffered lines
-  wdumplines(fout, g_wbuffer)
-
-  -- Close output file.
-  assert(fout == stdout or fout:close())
-
-  -- Optionally dump definitions.
-  dumpdef(fout == stdout and stderr or stdout)
-end
-
--- Translate an input file to an output file.
-local function translate(infile, outfile)
-  g_wbuffer = {}
-  g_indent = ""
-  g_lineno = 0
-  g_synclineno = -1
-
-  -- Put header.
-  wline(dasmhead)
-
-  -- Read input file.
-  local fin
-  if infile == "-" then
-    g_fname = "(stdin)"
-    fin = stdin
-  else
-    g_fname = infile
-    fin = assert(io.open(infile, "r"))
-  end
-  readfile(fin)
-
-  -- Check for errors.
-  if not g_arch then
-    wprinterr(g_fname, ":*: error: missing .arch directive\n")
-  end
-  checkconds()
-  checkmacros()
-  checkcaptures()
-
-  if g_errcount ~= 0 then
-    stderr:write(g_fname, ":*: info: ", g_errcount, " error",
-      (type(g_errcount) == "number" and g_errcount > 1) and "s" or "",
-      " in input file -- no output file generated.\n")
-    dumpdef(stderr)
-    exit(1)
-  end
-
-  -- Write output file.
-  writefile(outfile)
-end
-
-------------------------------------------------------------------------------
-
--- Print help text.
-function opt_map.help()
-  stdout:write("DynASM -- ", _info.description, ".\n")
-  stdout:write("DynASM ", _info.version, " ", _info.release, "  ", _info.url, "\n")
-  stdout:write[[
-
-Usage: dynasm [OPTION]... INFILE.dasc|-
-
-  -h, --help           Display this help text.
-  -V, --version        Display version and copyright information.
-
-  -o, --outfile FILE   Output file name (default is stdout).
-  -I, --include DIR    Add directory to the include search path.
-
-  -c, --ccomment       Use /* */ comments for assembler lines.
-  -C, --cppcomment     Use // comments for assembler lines (default).
-  -N, --nocomment      Suppress assembler lines in output.
-  -M, --maccomment     Show macro expansions as comments (default off).
-
-  -L, --nolineno       Suppress CPP line number information in output.
-  -F, --flushline      Flush action list for every line.
-
-  -D NAME[=SUBST]      Define a substitution.
-  -U NAME              Undefine a substitution.
-
-  -P, --dumpdef        Dump defines, macros, etc. Repeat for more output.
-  -A, --dumparch ARCH  Load architecture ARCH and dump description.
-]]
-  exit(0)
-end
-
--- Print version information.
-function opt_map.version()
-  stdout:write(format("%s version %s, released %s\n%s\n\n%s",
-    _info.name, _info.version, _info.release, _info.url, _info.copyright))
-  exit(0)
-end
-
--- Misc. options.
-function opt_map.outfile(args) g_opt.outfile = optparam(args) end
-function opt_map.include(args) insert(g_opt.include, 1, optparam(args)) end
-function opt_map.ccomment() g_opt.comment = "/*|"; g_opt.endcomment = " */" end
-function opt_map.cppcomment() g_opt.comment = "//|"; g_opt.endcomment = "" end
-function opt_map.nocomment() g_opt.comment = false end
-function opt_map.maccomment() g_opt.maccomment = true end
-function opt_map.nolineno() g_opt.cpp = false end
-function opt_map.flushline() g_opt.flushline = true end
-function opt_map.dumpdef() g_opt.dumpdef = g_opt.dumpdef + 1 end
-
-------------------------------------------------------------------------------
-
--- Short aliases for long options.
-local opt_alias = {
-  h = "help", ["?"] = "help", V = "version",
-  o = "outfile", I = "include",
-  c = "ccomment", C = "cppcomment", N = "nocomment", M = "maccomment",
-  L = "nolineno", F = "flushline",
-  P = "dumpdef", A = "dumparch",
-}
-
--- Parse single option.
-local function parseopt(opt, args)
-  opt_current = #opt == 1 and "-"..opt or "--"..opt
-  local f = opt_map[opt] or opt_map[opt_alias[opt]]
-  if not f then
-    opterror("unrecognized option `", opt_current, "'. Try `--help'.\n")
-  end
-  f(args)
-end
-
--- Parse arguments.
-local function parseargs(args)
-  -- Default options.
-  g_opt.comment = "//|"
-  g_opt.endcomment = ""
-  g_opt.cpp = true
-  g_opt.dumpdef = 0
-  g_opt.include = { "" }
-
-  -- Process all option arguments.
-  args.argn = 1
-  repeat
-    local a = args[args.argn]
-    if not a then break end
-    local lopt, opt = match(a, "^%-(%-?)(.+)")
-    if not opt then break end
-    args.argn = args.argn + 1
-    if lopt == "" then
-      -- Loop through short options.
-      for o in gmatch(opt, ".") do parseopt(o, args) end
-    else
-      -- Long option.
-      parseopt(opt, args)
-    end
-  until false
-
-  -- Check for proper number of arguments.
-  local nargs = #args - args.argn + 1
-  if nargs ~= 1 then
-    if nargs == 0 then
-      if g_opt.dumpdef > 0 then return dumpdef(stdout) end
-    end
-    opt_map.help()
-  end
-
-  -- Translate a single input file to a single output file
-  -- TODO: Handle multiple files?
-  translate(args[args.argn], g_opt.outfile)
-end
-
-------------------------------------------------------------------------------
-
--- Add the directory dynasm.lua resides in to the Lua module search path.
-local arg = arg
-if arg and arg[0] then
-  prefix = match(arg[0], "^(.*[/\\])")
-  if package and prefix then package.path = prefix.."?.lua;"..package.path end
-end
-
--- Start DynASM.
-parseargs{...}
-
-------------------------------------------------------------------------------
-
diff --git a/luajit-2.0/etc/luajit.1 b/luajit-2.0/etc/luajit.1
deleted file mode 100644
index 723a708..0000000
--- a/luajit-2.0/etc/luajit.1
+++ /dev/null
@@ -1,88 +0,0 @@
-.TH luajit 1 "" "" "LuaJIT documentation"
-.SH NAME
-luajit \- Just-In-Time Compiler for the Lua Language
-\fB
-.SH SYNOPSIS
-.B luajit
-[\fIoptions\fR]... [\fIscript\fR [\fIargs\fR]...]
-.SH "WEB SITE"
-.IR http://luajit.org
-.SH DESCRIPTION
-.PP
-This is the command-line program to run Lua programs with \fBLuaJIT\fR.
-.PP
-\fBLuaJIT\fR is a just-in-time (JIT) compiler for the Lua language.
-The virtual machine (VM) is based on a fast interpreter combined with
-a trace compiler. It can significantly improve the performance of Lua programs.
-.PP
-\fBLuaJIT\fR is API\- and ABI-compatible with the VM of the standard
-Lua\ 5.1 interpreter. When embedding the VM into an application,
-the built library can be used as a drop-in replacement.
-.SH OPTIONS
-.TP
-.BI "\-e " chunk
-Run the given chunk of Lua code.
-.TP
-.BI "\-l " library
-Load the named library, just like \fBrequire("\fR\fIlibrary\fR\fB")\fR.
-.TP
-.BI "\-b " ...
-Save or list bytecode. Run without arguments to get help on options.
-.TP
-.BI "\-j " command
-Perform LuaJIT control command (optional space after \fB\-j\fR).
-.TP
-.BI "\-O" [opt]
-Control LuaJIT optimizations.
-.TP
-.B "\-i"
-Run in interactive mode.
-.TP
-.B "\-v"
-Show \fBLuaJIT\fR version.
-.TP
-.B "\-E"
-Ignore environment variables.
-.TP
-.B "\-\-"
-Stop processing options.
-.TP
-.B "\-"
-Read script from stdin instead.
-.PP
-After all options are processed, the given \fIscript\fR is run.
-The arguments are passed in the global \fIarg\fR table.
-.PP
-Interactive mode is only entered, if no \fIscript\fR and no \fB\-e\fR
-option is given. Interactive mode can be left with EOF (\fICtrl\-Z\fB).
-.SH EXAMPLES
-.TP
-luajit hello.lua world
-
-Prints "Hello world", assuming \fIhello.lua\fR contains:
-.br
-  print("Hello", arg[1])
-.TP
-luajit \-e "local x=0; for i=1,1e9 do x=x+i end; print(x)"
-
-Calculates the sum of the numbers from 1 to 1000000000.
-.br
-And finishes in a reasonable amount of time, too.
-.TP
-luajit \-jv \-e "for i=1,10 do for j=1,10 do for k=1,100 do end end end"
-
-Runs some nested loops and shows the resulting traces.
-.SH COPYRIGHT
-.PP
-\fBLuaJIT\fR is Copyright \(co 2005-2014 Mike Pall.
-.br
-\fBLuaJIT\fR is open source software, released under the MIT license.
-.SH SEE ALSO
-.PP
-More details in the provided HTML docs or at:
-.IR http://luajit.org
-.br
-More about the Lua language can be found at:
-.IR http://lua.org/docs.html
-.PP
-lua(1)
diff --git a/luajit-2.0/etc/luajit.pc b/luajit-2.0/etc/luajit.pc
deleted file mode 100644
index d3f0cf3..0000000
--- a/luajit-2.0/etc/luajit.pc
+++ /dev/null
@@ -1,25 +0,0 @@
-# Package information for LuaJIT to be used by pkg-config.
-majver=2
-minver=0
-relver=3
-version=${majver}.${minver}.${relver}
-abiver=5.1
-
-prefix=/usr/local
-multilib=lib
-exec_prefix=${prefix}
-libdir=${exec_prefix}/${multilib}
-libname=luajit-${abiver}
-includedir=${prefix}/include/luajit-${majver}.${minver}
-
-INSTALL_LMOD=${prefix}/share/lua/${abiver}
-INSTALL_CMOD=${prefix}/${multilib}/lua/${abiver}
-
-Name: LuaJIT
-Description: Just-in-time compiler for Lua
-URL: http://luajit.org
-Version: ${version}
-Requires:
-Libs: -L${libdir} -l${libname}
-Libs.private: -Wl,-E -lm -ldl
-Cflags: -I${includedir}
diff --git a/luajit-2.0/src/.gitignore b/luajit-2.0/src/.gitignore
deleted file mode 100644
index fc94e82..0000000
--- a/luajit-2.0/src/.gitignore
+++ /dev/null
@@ -1,7 +0,0 @@
-luajit
-lj_bcdef.h
-lj_ffdef.h
-lj_libdef.h
-lj_recdef.h
-lj_folddef.h
-lj_vm.s
diff --git a/luajit-2.0/src/Makefile b/luajit-2.0/src/Makefile
deleted file mode 100644
index c558003..0000000
--- a/luajit-2.0/src/Makefile
+++ /dev/null
@@ -1,688 +0,0 @@
-##############################################################################
-# LuaJIT Makefile. Requires GNU Make.
-#
-# Please read doc/install.html before changing any variables!
-#
-# Suitable for POSIX platforms (Linux, *BSD, OSX etc.).
-# Also works with MinGW and Cygwin on Windows.
-# Please check msvcbuild.bat for building with MSVC on Windows.
-#
-# Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-##############################################################################
-
-MAJVER=  2
-MINVER=  0
-RELVER=  3
-ABIVER=  5.1
-NODOTABIVER= 51
-
-##############################################################################
-#############################  COMPILER OPTIONS  #############################
-##############################################################################
-# These options mainly affect the speed of the JIT compiler itself, not the
-# speed of the JIT-compiled code. Turn any of the optional settings on by
-# removing the '#' in front of them. Make sure you force a full recompile
-# with "make clean", followed by "make" if you change any options.
-#
-# LuaJIT builds as a native 32 or 64 bit binary by default.
-CC= gcc
-#
-# Use this if you want to force a 32 bit build on a 64 bit multilib OS.
-#CC= gcc -m32
-#
-# Since the assembler part does NOT maintain a frame pointer, it's pointless
-# to slow down the C part by not omitting it. Debugging, tracebacks and
-# unwinding are not affected -- the assembler part has frame unwind
-# information and GCC emits it where needed (x64) or with -g (see CCDEBUG).
-CCOPT= -O2 -fomit-frame-pointer
-# Use this if you want to generate a smaller binary (but it's slower):
-#CCOPT= -Os -fomit-frame-pointer
-# Note: it's no longer recommended to use -O3 with GCC 4.x.
-# The I-Cache bloat usually outweighs the benefits from aggressive inlining.
-#
-# Target-specific compiler options:
-#
-# x86 only: it's recommended to compile at least for i686. Better yet,
-# compile for an architecture that has SSE2, too (-msse -msse2).
-#
-# x86/x64 only: For GCC 4.2 or higher and if you don't intend to distribute
-# the binaries to a different machine you could also use: -march=native
-#
-CCOPT_x86= -march=i686
-CCOPT_x64=
-CCOPT_arm=
-CCOPT_ppc=
-CCOPT_ppcspe=
-CCOPT_mips=
-#
-CCDEBUG=
-# Uncomment the next line to generate debug information:
-#CCDEBUG= -g
-#
-CCWARN= -Wall
-# Uncomment the next line to enable more warnings:
-#CCWARN+= -Wextra -Wdeclaration-after-statement -Wredundant-decls -Wshadow -Wpointer-arith
-#
-##############################################################################
-
-##############################################################################
-################################  BUILD MODE  ################################
-##############################################################################
-# The default build mode is mixed mode on POSIX. On Windows this is the same
-# as dynamic mode.
-#
-# Mixed mode creates a static + dynamic library and a statically linked luajit.
-BUILDMODE= mixed
-#
-# Static mode creates a static library and a statically linked luajit.
-#BUILDMODE= static
-#
-# Dynamic mode creates a dynamic library and a dynamically linked luajit.
-# Note: this executable will only run when the library is installed!
-#BUILDMODE= dynamic
-#
-##############################################################################
-
-##############################################################################
-#################################  FEATURES  #################################
-##############################################################################
-# Enable/disable these features as needed, but make sure you force a full
-# recompile with "make clean", followed by "make".
-XCFLAGS=
-#
-# Permanently disable the FFI extension to reduce the size of the LuaJIT
-# executable. But please consider that the FFI library is compiled-in,
-# but NOT loaded by default. It only allocates any memory, if you actually
-# make use of it.
-#XCFLAGS+= -DLUAJIT_DISABLE_FFI
-#
-# Features from Lua 5.2 that are unlikely to break existing code are
-# enabled by default. Some other features that *might* break some existing
-# code (e.g. __pairs or os.execute() return values) can be enabled here.
-# Note: this does not provide full compatibility with Lua 5.2 at this time.
-#XCFLAGS+= -DLUAJIT_ENABLE_LUA52COMPAT
-#
-# Disable the JIT compiler, i.e. turn LuaJIT into a pure interpreter.
-#XCFLAGS+= -DLUAJIT_DISABLE_JIT
-#
-# Some architectures (e.g. PPC) can use either single-number (1) or
-# dual-number (2) mode. Uncomment one of these lines to override the
-# default mode. Please see LJ_ARCH_NUMMODE in lj_arch.h for details.
-#XCFLAGS+= -DLUAJIT_NUMMODE=1
-#XCFLAGS+= -DLUAJIT_NUMMODE=2
-#
-##############################################################################
-
-##############################################################################
-############################  DEBUGGING SUPPORT  #############################
-##############################################################################
-# Enable these options as needed, but make sure you force a full recompile
-# with "make clean", followed by "make".
-# Note that most of these are NOT suitable for benchmarking or release mode!
-#
-# Use the system provided memory allocator (realloc) instead of the
-# bundled memory allocator. This is slower, but sometimes helpful for
-# debugging. This option cannot be enabled on x64, since realloc usually
-# doesn't return addresses in the right address range.
-# OTOH this option is mandatory for Valgrind's memcheck tool on x64 and
-# the only way to get useful results from it for all other architectures.
-#XCFLAGS+= -DLUAJIT_USE_SYSMALLOC
-#
-# This define is required to run LuaJIT under Valgrind. The Valgrind
-# header files must be installed. You should enable debug information, too.
-# Use --suppressions=lj.supp to avoid some false positives.
-#XCFLAGS+= -DLUAJIT_USE_VALGRIND
-#
-# This is the client for the GDB JIT API. GDB 7.0 or higher is required
-# to make use of it. See lj_gdbjit.c for details. Enabling this causes
-# a non-negligible overhead, even when not running under GDB.
-#XCFLAGS+= -DLUAJIT_USE_GDBJIT
-#
-# Turn on assertions for the Lua/C API to debug problems with lua_* calls.
-# This is rather slow -- use only while developing C libraries/embeddings.
-#XCFLAGS+= -DLUA_USE_APICHECK
-#
-# Turn on assertions for the whole LuaJIT VM. This significantly slows down
-# everything. Use only if you suspect a problem with LuaJIT itself.
-#XCFLAGS+= -DLUA_USE_ASSERT
-#
-##############################################################################
-# You probably don't need to change anything below this line!
-##############################################################################
-
-##############################################################################
-# Flags and options for host and target.
-##############################################################################
-
-# You can override the following variables at the make command line:
-#   CC       HOST_CC       STATIC_CC       DYNAMIC_CC
-#   CFLAGS   HOST_CFLAGS   TARGET_CFLAGS
-#   LDFLAGS  HOST_LDFLAGS  TARGET_LDFLAGS  TARGET_SHLDFLAGS
-#   LIBS     HOST_LIBS     TARGET_LIBS
-#   CROSS    HOST_SYS      TARGET_SYS      TARGET_FLAGS
-#
-# Cross-compilation examples:
-#   make HOST_CC="gcc -m32" CROSS=i586-mingw32msvc- TARGET_SYS=Windows
-#   make HOST_CC="gcc -m32" CROSS=powerpc-linux-gnu-
-
-CCOPTIONS= $(CCDEBUG) $(CCOPT) $(CCWARN) $(XCFLAGS) $(CFLAGS)
-LDOPTIONS= $(CCDEBUG) $(LDFLAGS)
-
-HOST_CC= $(CC)
-HOST_RM= rm -f
-# If left blank, minilua is built and used. You can supply an installed
-# copy of (plain) Lua 5.1 or 5.2, plus Lua BitOp. E.g. with: HOST_LUA=lua
-HOST_LUA=
-
-HOST_XCFLAGS= -I.
-HOST_XLDFLAGS=
-HOST_XLIBS=
-HOST_ACFLAGS= $(CCOPTIONS) $(HOST_XCFLAGS) $(TARGET_ARCH) $(HOST_CFLAGS)
-HOST_ALDFLAGS= $(LDOPTIONS) $(HOST_XLDFLAGS) $(HOST_LDFLAGS)
-HOST_ALIBS= $(HOST_XLIBS) $(LIBS) $(HOST_LIBS)
-
-STATIC_CC = $(CROSS)$(CC)
-DYNAMIC_CC = $(CROSS)$(CC) -fPIC
-TARGET_CC= $(STATIC_CC)
-TARGET_STCC= $(STATIC_CC)
-TARGET_DYNCC= $(DYNAMIC_CC)
-TARGET_LD= $(CROSS)$(CC)
-TARGET_AR= $(CROSS)ar rcus
-TARGET_STRIP= $(CROSS)strip
-
-TARGET_LIBPATH= $(or $(PREFIX),/usr/local)/$(or $(MULTILIB),lib)
-TARGET_SONAME= libluajit-$(ABIVER).so.$(MAJVER)
-TARGET_DYLIBNAME= libluajit-$(ABIVER).$(MAJVER).dylib
-TARGET_DYLIBPATH= $(TARGET_LIBPATH)/$(TARGET_DYLIBNAME)
-TARGET_DLLNAME= lua$(NODOTABIVER).dll
-TARGET_XSHLDFLAGS= -shared -fPIC -Wl,-soname,$(TARGET_SONAME)
-TARGET_DYNXLDOPTS=
-
-TARGET_LFSFLAGS= -D_FILE_OFFSET_BITS=64 -D_LARGEFILE_SOURCE
-TARGET_XCFLAGS= $(TARGET_LFSFLAGS) -U_FORTIFY_SOURCE
-TARGET_XLDFLAGS=
-TARGET_XLIBS= -lm
-TARGET_TCFLAGS= $(CCOPTIONS) $(TARGET_XCFLAGS) $(TARGET_FLAGS) $(TARGET_CFLAGS)
-TARGET_ACFLAGS= $(CCOPTIONS) $(TARGET_XCFLAGS) $(TARGET_FLAGS) $(TARGET_CFLAGS)
-TARGET_ALDFLAGS= $(LDOPTIONS) $(TARGET_XLDFLAGS) $(TARGET_FLAGS) $(TARGET_LDFLAGS)
-TARGET_ASHLDFLAGS= $(LDOPTIONS) $(TARGET_XSHLDFLAGS) $(TARGET_FLAGS) $(TARGET_SHLDFLAGS)
-TARGET_ALIBS= $(TARGET_XLIBS) $(LIBS) $(TARGET_LIBS)
-
-TARGET_TESTARCH=$(shell $(TARGET_CC) $(TARGET_TCFLAGS) -E lj_arch.h -dM)
-ifneq (,$(findstring LJ_TARGET_X64 ,$(TARGET_TESTARCH)))
-  TARGET_LJARCH= x64
-else
-ifneq (,$(findstring LJ_TARGET_X86 ,$(TARGET_TESTARCH)))
-  TARGET_LJARCH= x86
-else
-ifneq (,$(findstring LJ_TARGET_ARM ,$(TARGET_TESTARCH)))
-  TARGET_LJARCH= arm
-else
-ifneq (,$(findstring LJ_TARGET_PPC ,$(TARGET_TESTARCH)))
-  TARGET_LJARCH= ppc
-else
-ifneq (,$(findstring LJ_TARGET_PPCSPE ,$(TARGET_TESTARCH)))
-  TARGET_LJARCH= ppcspe
-else
-ifneq (,$(findstring LJ_TARGET_MIPS ,$(TARGET_TESTARCH)))
-  ifneq (,$(findstring MIPSEL ,$(TARGET_TESTARCH)))
-    TARGET_ARCH= -D__MIPSEL__=1
-  endif
-  TARGET_LJARCH= mips
-else
-  $(error Unsupported target architecture)
-endif
-endif
-endif
-endif
-endif
-endif
-
-ifneq (,$(findstring LJ_TARGET_PS3 1,$(TARGET_TESTARCH)))
-  TARGET_SYS= PS3
-  TARGET_ARCH+= -D__CELLOS_LV2__
-  TARGET_XCFLAGS+= -DLUAJIT_USE_SYSMALLOC
-endif
-ifneq (,$(findstring LJ_NO_UNWIND 1,$(TARGET_TESTARCH)))
-  TARGET_ARCH+= -DLUAJIT_NO_UNWIND
-endif
-
-TARGET_XCFLAGS+= $(CCOPT_$(TARGET_LJARCH))
-TARGET_ARCH+= $(patsubst %,-DLUAJIT_TARGET=LUAJIT_ARCH_%,$(TARGET_LJARCH))
-
-ifneq (,$(PREFIX))
-ifneq (/usr/local,$(PREFIX))
-  TARGET_XCFLAGS+= -DLUA_ROOT=\"$(PREFIX)\"
-  ifneq (/usr,$(PREFIX))
-    TARGET_DYNXLDOPTS= -Wl,-rpath,$(TARGET_LIBPATH)
-  endif
-endif
-endif
-ifneq (,$(MULTILIB))
-  TARGET_XCFLAGS+= -DLUA_MULTILIB=\"$(MULTILIB)\"
-endif
-ifneq (,$(LMULTILIB))
-  TARGET_XCFLAGS+= -DLUA_LMULTILIB=\"$(LMULTILIB)\"
-endif
-
-##############################################################################
-# System detection.
-##############################################################################
-
-ifeq (Windows,$(findstring Windows,$(OS))$(MSYSTEM)$(TERM))
-  HOST_SYS= Windows
-  HOST_RM= del
-else
-  HOST_SYS:= $(shell uname -s)
-  ifneq (,$(findstring MINGW,$(HOST_SYS)))
-    HOST_SYS= Windows
-    HOST_MSYS= mingw
-  endif
-  ifneq (,$(findstring CYGWIN,$(HOST_SYS)))
-    HOST_SYS= Windows
-    HOST_MSYS= cygwin
-  endif
-endif
-
-TARGET_SYS?= $(HOST_SYS)
-ifeq (Windows,$(TARGET_SYS))
-  TARGET_STRIP+= --strip-unneeded
-  TARGET_XSHLDFLAGS= -shared
-  TARGET_DYNXLDOPTS=
-else
-ifeq (Darwin,$(TARGET_SYS))
-  ifeq (,$(MACOSX_DEPLOYMENT_TARGET))
-    export MACOSX_DEPLOYMENT_TARGET=10.4
-  endif
-  TARGET_STRIP+= -x
-  TARGET_AR+= 2>/dev/null
-  ifeq (,$(shell $(TARGET_CC) -o /dev/null -c -x c /dev/null -fno-stack-protector 2>/dev/null || echo 1))
-    TARGET_XCFLAGS+= -fno-stack-protector
-  endif
-  TARGET_XSHLDFLAGS= -dynamiclib -single_module -undefined dynamic_lookup -fPIC
-  TARGET_DYNXLDOPTS=
-  TARGET_XSHLDFLAGS+= -install_name $(TARGET_DYLIBPATH) -compatibility_version $(MAJVER).$(MINVER) -current_version $(MAJVER).$(MINVER).$(RELVER)
-  ifeq (x64,$(TARGET_LJARCH))
-    TARGET_XLDFLAGS+= -pagezero_size 10000 -image_base 100000000
-    TARGET_XSHLDFLAGS+= -image_base 7fff04c4a000
-  endif
-else
-ifeq (iOS,$(TARGET_SYS))
-  TARGET_STRIP+= -x
-  TARGET_AR+= 2>/dev/null
-  TARGET_XCFLAGS+= -fno-stack-protector
-  TARGET_XSHLDFLAGS= -dynamiclib -single_module -undefined dynamic_lookup -fPIC
-  TARGET_DYNXLDOPTS=
-  TARGET_XSHLDFLAGS+= -install_name $(TARGET_DYLIBPATH) -compatibility_version $(MAJVER).$(MINVER) -current_version $(MAJVER).$(MINVER).$(RELVER)
-else
-  ifneq (,$(findstring stack-protector,$(shell $(TARGET_CC) -dumpspecs)))
-    TARGET_XCFLAGS+= -fno-stack-protector
-  endif
-  ifneq (SunOS,$(TARGET_SYS))
-    ifneq (PS3,$(TARGET_SYS))
-      TARGET_XLDFLAGS+= -Wl,-E
-    endif
-  endif
-  ifeq (Linux,$(TARGET_SYS))
-    TARGET_XLIBS+= -ldl
-  endif
-  ifeq (GNU/kFreeBSD,$(TARGET_SYS))
-    TARGET_XLIBS+= -ldl
-  endif
-endif
-endif
-endif
-
-ifneq ($(HOST_SYS),$(TARGET_SYS))
-  ifeq (Windows,$(TARGET_SYS))
-    HOST_XCFLAGS+= -malign-double -DLUAJIT_OS=LUAJIT_OS_WINDOWS
-  else
-  ifeq (Linux,$(TARGET_SYS))
-    HOST_XCFLAGS+= -DLUAJIT_OS=LUAJIT_OS_LINUX
-  else
-  ifeq (Darwin,$(TARGET_SYS))
-    HOST_XCFLAGS+= -DLUAJIT_OS=LUAJIT_OS_OSX
-  else
-  ifeq (iOS,$(TARGET_SYS))
-    HOST_XCFLAGS+= -DLUAJIT_OS=LUAJIT_OS_OSX
-  else
-    HOST_XCFLAGS+= -DLUAJIT_OS=LUAJIT_OS_OTHER
-  endif
-  endif
-  endif
-  endif
-endif
-
-ifneq (,$(CCDEBUG))
-  TARGET_STRIP= @:
-endif
-
-##############################################################################
-# Files and pathnames.
-##############################################################################
-
-MINILUA_O= host/minilua.o
-MINILUA_LIBS= -lm
-MINILUA_T= host/minilua
-MINILUA_X= $(MINILUA_T)
-
-ifeq (,$(HOST_LUA))
-  HOST_LUA= $(MINILUA_X)
-  DASM_DEP= $(MINILUA_T)
-endif
-
-DASM_DIR= ../dynasm
-DASM= $(HOST_LUA) $(DASM_DIR)/dynasm.lua
-DASM_XFLAGS=
-DASM_AFLAGS=
-DASM_ARCH= $(TARGET_LJARCH)
-
-ifneq (,$(findstring LJ_ARCH_BITS 64,$(TARGET_TESTARCH)))
-  DASM_AFLAGS+= -D P64
-endif
-ifneq (,$(findstring LJ_HASJIT 1,$(TARGET_TESTARCH)))
-  DASM_AFLAGS+= -D JIT
-endif
-ifneq (,$(findstring LJ_HASFFI 1,$(TARGET_TESTARCH)))
-  DASM_AFLAGS+= -D FFI
-endif
-ifneq (,$(findstring LJ_DUALNUM 1,$(TARGET_TESTARCH)))
-  DASM_AFLAGS+= -D DUALNUM
-endif
-ifneq (,$(findstring LJ_ARCH_HASFPU 1,$(TARGET_TESTARCH)))
-  DASM_AFLAGS+= -D FPU
-  TARGET_ARCH+= -DLJ_ARCH_HASFPU=1
-else
-  TARGET_ARCH+= -DLJ_ARCH_HASFPU=0
-endif
-ifeq (,$(findstring LJ_ABI_SOFTFP 1,$(TARGET_TESTARCH)))
-  DASM_AFLAGS+= -D HFABI
-  TARGET_ARCH+= -DLJ_ABI_SOFTFP=0
-else
-  TARGET_ARCH+= -DLJ_ABI_SOFTFP=1
-endif
-DASM_AFLAGS+= -D VER=$(subst LJ_ARCH_VERSION_,,$(filter LJ_ARCH_VERSION_%,$(subst LJ_ARCH_VERSION ,LJ_ARCH_VERSION_,$(TARGET_TESTARCH))))
-ifeq (Windows,$(TARGET_SYS))
-  DASM_AFLAGS+= -D WIN
-endif
-ifeq (x86,$(TARGET_LJARCH))
-  ifneq (,$(findstring __SSE2__ 1,$(TARGET_TESTARCH)))
-    DASM_AFLAGS+= -D SSE
-  endif
-else
-ifeq (x64,$(TARGET_LJARCH))
-  DASM_ARCH= x86
-else
-ifeq (arm,$(TARGET_LJARCH))
-  ifeq (iOS,$(TARGET_SYS))
-    DASM_AFLAGS+= -D IOS
-  endif
-else
-ifeq (ppc,$(TARGET_LJARCH))
-  ifneq (,$(findstring LJ_ARCH_SQRT 1,$(TARGET_TESTARCH)))
-    DASM_AFLAGS+= -D SQRT
-  endif
-  ifneq (,$(findstring LJ_ARCH_ROUND 1,$(TARGET_TESTARCH)))
-    DASM_AFLAGS+= -D ROUND
-  endif
-  ifneq (,$(findstring LJ_ARCH_PPC64 1,$(TARGET_TESTARCH)))
-    DASM_AFLAGS+= -D GPR64
-  endif
-  ifeq (PS3,$(TARGET_SYS))
-    DASM_AFLAGS+= -D PPE -D TOC
-  endif
-endif
-endif
-endif
-endif
-
-DASM_FLAGS= $(DASM_XFLAGS) $(DASM_AFLAGS)
-DASM_DASC= vm_$(DASM_ARCH).dasc
-
-BUILDVM_O= host/buildvm.o host/buildvm_asm.o host/buildvm_peobj.o \
-	   host/buildvm_lib.o host/buildvm_fold.o
-BUILDVM_T= host/buildvm
-BUILDVM_X= $(BUILDVM_T)
-
-HOST_O= $(MINILUA_O) $(BUILDVM_O)
-HOST_T= $(MINILUA_T) $(BUILDVM_T)
-
-LJVM_S= lj_vm.s
-LJVM_O= lj_vm.o
-LJVM_BOUT= $(LJVM_S)
-LJVM_MODE= elfasm
-
-LJLIB_O= lib_base.o lib_math.o lib_bit.o lib_string.o lib_table.o \
-	 lib_io.o lib_os.o lib_package.o lib_debug.o lib_jit.o lib_ffi.o
-LJLIB_C= $(LJLIB_O:.o=.c)
-
-LJCORE_O= lj_gc.o lj_err.o lj_char.o lj_bc.o lj_obj.o \
-	  lj_str.o lj_tab.o lj_func.o lj_udata.o lj_meta.o lj_debug.o \
-	  lj_state.o lj_dispatch.o lj_vmevent.o lj_vmmath.o lj_strscan.o \
-	  lj_api.o lj_lex.o lj_parse.o lj_bcread.o lj_bcwrite.o lj_load.o \
-	  lj_ir.o lj_opt_mem.o lj_opt_fold.o lj_opt_narrow.o \
-	  lj_opt_dce.o lj_opt_loop.o lj_opt_split.o lj_opt_sink.o \
-	  lj_mcode.o lj_snap.o lj_record.o lj_crecord.o lj_ffrecord.o \
-	  lj_asm.o lj_trace.o lj_gdbjit.o \
-	  lj_ctype.o lj_cdata.o lj_cconv.o lj_ccall.o lj_ccallback.o \
-	  lj_carith.o lj_clib.o lj_cparse.o \
-	  lj_lib.o lj_alloc.o lib_aux.o \
-	  $(LJLIB_O) lib_init.o
-
-LJVMCORE_O= $(LJVM_O) $(LJCORE_O)
-LJVMCORE_DYNO= $(LJVMCORE_O:.o=_dyn.o)
-
-LIB_VMDEF= jit/vmdef.lua
-LIB_VMDEFP= $(LIB_VMDEF)
-
-LUAJIT_O= luajit.o
-LUAJIT_A= libluajit.a
-LUAJIT_SO= libluajit.so
-LUAJIT_T= luajit
-
-ALL_T= $(LUAJIT_T) $(LUAJIT_A) $(LUAJIT_SO) $(HOST_T)
-ALL_HDRGEN= lj_bcdef.h lj_ffdef.h lj_libdef.h lj_recdef.h lj_folddef.h \
-	    host/buildvm_arch.h
-ALL_GEN= $(LJVM_S) $(ALL_HDRGEN) $(LIB_VMDEFP)
-WIN_RM= *.obj *.lib *.exp *.dll *.exe *.manifest *.pdb *.ilk
-ALL_RM= $(ALL_T) $(ALL_GEN) *.o host/*.o $(WIN_RM)
-
-##############################################################################
-# Build mode handling.
-##############################################################################
-
-# Mixed mode defaults.
-TARGET_O= $(LUAJIT_A)
-TARGET_T= $(LUAJIT_T) $(LUAJIT_SO)
-TARGET_DEP= $(LIB_VMDEF) $(LUAJIT_SO)
-
-ifeq (Windows,$(TARGET_SYS))
-  TARGET_DYNCC= $(STATIC_CC)
-  LJVM_MODE= peobj
-  LJVM_BOUT= $(LJVM_O)
-  LUAJIT_T= luajit.exe
-  ifeq (cygwin,$(HOST_MSYS))
-    LUAJIT_SO= cyg$(TARGET_DLLNAME)
-  else
-    LUAJIT_SO= $(TARGET_DLLNAME)
-  endif
-  # Mixed mode is not supported on Windows. And static mode doesn't work well.
-  # C modules cannot be loaded, because they bind to lua51.dll.
-  ifneq (static,$(BUILDMODE))
-    BUILDMODE= dynamic
-    TARGET_XCFLAGS+= -DLUA_BUILD_AS_DLL
-  endif
-endif
-ifeq (Darwin,$(TARGET_SYS))
-  LJVM_MODE= machasm
-endif
-ifeq (iOS,$(TARGET_SYS))
-  LJVM_MODE= machasm
-endif
-ifeq (SunOS,$(TARGET_SYS))
-  BUILDMODE= static
-endif
-ifeq (PS3,$(TARGET_SYS))
-  BUILDMODE= static
-endif
-
-ifeq (Windows,$(HOST_SYS))
-  MINILUA_T= host/minilua.exe
-  BUILDVM_T= host/buildvm.exe
-  ifeq (,$(HOST_MSYS))
-    MINILUA_X= host\minilua
-    BUILDVM_X= host\buildvm
-    ALL_RM:= $(subst /,\,$(ALL_RM))
-  endif
-endif
-
-ifeq (static,$(BUILDMODE))
-  TARGET_DYNCC= @:
-  TARGET_T= $(LUAJIT_T)
-  TARGET_DEP= $(LIB_VMDEF)
-else
-ifeq (dynamic,$(BUILDMODE))
-  ifneq (Windows,$(TARGET_SYS))
-    TARGET_CC= $(DYNAMIC_CC)
-  endif
-  TARGET_DYNCC= @:
-  LJVMCORE_DYNO= $(LJVMCORE_O)
-  TARGET_O= $(LUAJIT_SO)
-  TARGET_XLDFLAGS+= $(TARGET_DYNXLDOPTS)
-else
-ifeq (Darwin,$(TARGET_SYS))
-  TARGET_DYNCC= @:
-  LJVMCORE_DYNO= $(LJVMCORE_O)
-endif
-ifeq (iOS,$(TARGET_SYS))
-  TARGET_DYNCC= @:
-  LJVMCORE_DYNO= $(LJVMCORE_O)
-endif
-endif
-endif
-
-Q= @
-E= @echo
-#Q=
-#E= @:
-
-##############################################################################
-# Make targets.
-##############################################################################
-
-default all:	$(TARGET_T)
-
-amalg:
-	@grep "^[+|]" ljamalg.c
-	$(MAKE) all "LJCORE_O=ljamalg.o"
-
-clean:
-	$(HOST_RM) $(ALL_RM)
-
-depend:
-	@for file in $(ALL_HDRGEN); do \
-	  test -f $$file || touch $$file; \
-	  done
-	@$(HOST_CC) $(HOST_ACFLAGS) -MM *.c host/*.c | \
-	  sed -e "s| [^ ]*/dasm_\S*\.h||g" \
-	      -e "s|^\([^l ]\)|host/\1|" \
-	      -e "s| lj_target_\S*\.h| lj_target_*.h|g" \
-	      -e "s| lj_emit_\S*\.h| lj_emit_*.h|g" \
-	      -e "s| lj_asm_\S*\.h| lj_asm_*.h|g" >Makefile.dep
-	@for file in $(ALL_HDRGEN); do \
-	  test -s $$file || $(HOST_RM) $$file; \
-	  done
-
-.PHONY: default all amalg clean depend
-
-##############################################################################
-# Rules for generated files.
-##############################################################################
-
-$(MINILUA_T): $(MINILUA_O)
-	$(E) "HOSTLINK  $@"
-	$(Q)$(HOST_CC) $(HOST_ALDFLAGS) -o $@ $(MINILUA_O) $(MINILUA_LIBS) $(HOST_ALIBS)
-
-host/buildvm_arch.h: $(DASM_DASC) $(DASM_DEP)
-	$(E) "DYNASM    $@"
-	$(Q)$(DASM) $(DASM_FLAGS) -o $@ $(DASM_DASC)
-
-host/buildvm.o: $(DASM_DIR)/dasm_*.h
-
-$(BUILDVM_T): $(BUILDVM_O)
-	$(E) "HOSTLINK  $@"
-	$(Q)$(HOST_CC) $(HOST_ALDFLAGS) -o $@ $(BUILDVM_O) $(HOST_ALIBS)
-
-$(LJVM_BOUT): $(BUILDVM_T)
-	$(E) "BUILDVM   $@"
-	$(Q)$(BUILDVM_X) -m $(LJVM_MODE) -o $@
-
-lj_bcdef.h: $(BUILDVM_T) $(LJLIB_C)
-	$(E) "BUILDVM   $@"
-	$(Q)$(BUILDVM_X) -m bcdef -o $@ $(LJLIB_C)
-
-lj_ffdef.h: $(BUILDVM_T) $(LJLIB_C)
-	$(E) "BUILDVM   $@"
-	$(Q)$(BUILDVM_X) -m ffdef -o $@ $(LJLIB_C)
-
-lj_libdef.h: $(BUILDVM_T) $(LJLIB_C)
-	$(E) "BUILDVM   $@"
-	$(Q)$(BUILDVM_X) -m libdef -o $@ $(LJLIB_C)
-
-lj_recdef.h: $(BUILDVM_T) $(LJLIB_C)
-	$(E) "BUILDVM   $@"
-	$(Q)$(BUILDVM_X) -m recdef -o $@ $(LJLIB_C)
-
-$(LIB_VMDEF): $(BUILDVM_T) $(LJLIB_C)
-	$(E) "BUILDVM   $@"
-	$(Q)$(BUILDVM_X) -m vmdef -o $(LIB_VMDEFP) $(LJLIB_C)
-
-lj_folddef.h: $(BUILDVM_T) lj_opt_fold.c
-	$(E) "BUILDVM   $@"
-	$(Q)$(BUILDVM_X) -m folddef -o $@ lj_opt_fold.c
-
-##############################################################################
-# Object file rules.
-##############################################################################
-
-%.o: %.c
-	$(E) "CC        $@"
-	$(Q)$(TARGET_DYNCC) $(TARGET_ACFLAGS) -c -o $(@:.o=_dyn.o) $<
-	$(Q)$(TARGET_CC) $(TARGET_ACFLAGS) -c -o $@ $<
-
-%.o: %.s
-	$(E) "ASM       $@"
-	$(Q)$(TARGET_DYNCC) $(TARGET_ACFLAGS) -c -o $(@:.o=_dyn.o) $<
-	$(Q)$(TARGET_CC) $(TARGET_ACFLAGS) -c -o $@ $<
-
-$(LUAJIT_O):
-	$(E) "CC        $@"
-	$(Q)$(TARGET_STCC) $(TARGET_ACFLAGS) -c -o $@ $<
-
-$(HOST_O): %.o: %.c
-	$(E) "HOSTCC    $@"
-	$(Q)$(HOST_CC) $(HOST_ACFLAGS) -c -o $@ $<
-
-include Makefile.dep
-
-##############################################################################
-# Target file rules.
-##############################################################################
-
-$(LUAJIT_A): $(LJVMCORE_O)
-	$(E) "AR        $@"
-	$(Q)$(TARGET_AR) $@ $(LJVMCORE_O)
-
-# The dependency on _O, but linking with _DYNO is intentional.
-$(LUAJIT_SO): $(LJVMCORE_O)
-	$(E) "DYNLINK   $@"
-	$(Q)$(TARGET_LD) $(TARGET_ASHLDFLAGS) -o $@ $(LJVMCORE_DYNO) $(TARGET_ALIBS)
-	$(Q)$(TARGET_STRIP) $@
-
-$(LUAJIT_T): $(TARGET_O) $(LUAJIT_O) $(TARGET_DEP)
-	$(E) "LINK      $@"
-	$(Q)$(TARGET_LD) $(TARGET_ALDFLAGS) -o $@ $(LUAJIT_O) $(TARGET_O) $(TARGET_ALIBS)
-	$(Q)$(TARGET_STRIP) $@
-	$(E) "OK        Successfully built LuaJIT"
-
-##############################################################################
diff --git a/luajit-2.0/src/Makefile.dep b/luajit-2.0/src/Makefile.dep
deleted file mode 100644
index 9e14d61..0000000
--- a/luajit-2.0/src/Makefile.dep
+++ /dev/null
@@ -1,226 +0,0 @@
-lib_aux.o: lib_aux.c lua.h luaconf.h lauxlib.h lj_obj.h lj_def.h \
- lj_arch.h lj_err.h lj_errmsg.h lj_state.h lj_trace.h lj_jit.h lj_ir.h \
- lj_dispatch.h lj_bc.h lj_traceerr.h lj_lib.h lj_alloc.h
-lib_base.o: lib_base.c lua.h luaconf.h lauxlib.h lualib.h lj_obj.h \
- lj_def.h lj_arch.h lj_gc.h lj_err.h lj_errmsg.h lj_debug.h lj_str.h \
- lj_tab.h lj_meta.h lj_state.h lj_ctype.h lj_cconv.h lj_bc.h lj_ff.h \
- lj_ffdef.h lj_dispatch.h lj_jit.h lj_ir.h lj_char.h lj_strscan.h \
- lj_lib.h lj_libdef.h
-lib_bit.o: lib_bit.c lua.h luaconf.h lauxlib.h lualib.h lj_obj.h lj_def.h \
- lj_arch.h lj_err.h lj_errmsg.h lj_str.h lj_lib.h lj_libdef.h
-lib_debug.o: lib_debug.c lua.h luaconf.h lauxlib.h lualib.h lj_obj.h \
- lj_def.h lj_arch.h lj_gc.h lj_err.h lj_errmsg.h lj_debug.h lj_lib.h \
- lj_libdef.h
-lib_ffi.o: lib_ffi.c lua.h luaconf.h lauxlib.h lualib.h lj_obj.h lj_def.h \
- lj_arch.h lj_gc.h lj_err.h lj_errmsg.h lj_str.h lj_tab.h lj_meta.h \
- lj_ctype.h lj_cparse.h lj_cdata.h lj_cconv.h lj_carith.h lj_ccall.h \
- lj_ccallback.h lj_clib.h lj_ff.h lj_ffdef.h lj_lib.h lj_libdef.h
-lib_init.o: lib_init.c lua.h luaconf.h lauxlib.h lualib.h lj_arch.h
-lib_io.o: lib_io.c lua.h luaconf.h lauxlib.h lualib.h lj_obj.h lj_def.h \
- lj_arch.h lj_gc.h lj_err.h lj_errmsg.h lj_str.h lj_state.h lj_ff.h \
- lj_ffdef.h lj_lib.h lj_libdef.h
-lib_jit.o: lib_jit.c lua.h luaconf.h lauxlib.h lualib.h lj_arch.h \
- lj_obj.h lj_def.h lj_err.h lj_errmsg.h lj_debug.h lj_str.h lj_tab.h \
- lj_bc.h lj_ir.h lj_jit.h lj_ircall.h lj_iropt.h lj_target.h \
- lj_target_*.h lj_dispatch.h lj_vm.h lj_vmevent.h lj_lib.h luajit.h \
- lj_libdef.h
-lib_math.o: lib_math.c lua.h luaconf.h lauxlib.h lualib.h lj_obj.h \
- lj_def.h lj_arch.h lj_lib.h lj_vm.h lj_libdef.h
-lib_os.o: lib_os.c lua.h luaconf.h lauxlib.h lualib.h lj_obj.h lj_def.h \
- lj_arch.h lj_err.h lj_errmsg.h lj_lib.h lj_libdef.h
-lib_package.o: lib_package.c lua.h luaconf.h lauxlib.h lualib.h lj_obj.h \
- lj_def.h lj_arch.h lj_err.h lj_errmsg.h lj_lib.h
-lib_string.o: lib_string.c lua.h luaconf.h lauxlib.h lualib.h lj_obj.h \
- lj_def.h lj_arch.h lj_gc.h lj_err.h lj_errmsg.h lj_str.h lj_tab.h \
- lj_meta.h lj_state.h lj_ff.h lj_ffdef.h lj_bcdump.h lj_lex.h lj_char.h \
- lj_lib.h lj_libdef.h
-lib_table.o: lib_table.c lua.h luaconf.h lauxlib.h lualib.h lj_obj.h \
- lj_def.h lj_arch.h lj_gc.h lj_err.h lj_errmsg.h lj_tab.h lj_lib.h \
- lj_libdef.h
-lj_alloc.o: lj_alloc.c lj_def.h lua.h luaconf.h lj_arch.h lj_alloc.h
-lj_api.o: lj_api.c lj_obj.h lua.h luaconf.h lj_def.h lj_arch.h lj_gc.h \
- lj_err.h lj_errmsg.h lj_debug.h lj_str.h lj_tab.h lj_func.h lj_udata.h \
- lj_meta.h lj_state.h lj_bc.h lj_frame.h lj_trace.h lj_jit.h lj_ir.h \
- lj_dispatch.h lj_traceerr.h lj_vm.h lj_strscan.h
-lj_asm.o: lj_asm.c lj_obj.h lua.h luaconf.h lj_def.h lj_arch.h lj_gc.h \
- lj_str.h lj_tab.h lj_frame.h lj_bc.h lj_ctype.h lj_ir.h lj_jit.h \
- lj_ircall.h lj_iropt.h lj_mcode.h lj_trace.h lj_dispatch.h lj_traceerr.h \
- lj_snap.h lj_asm.h lj_vm.h lj_target.h lj_target_*.h lj_emit_*.h \
- lj_asm_*.h
-lj_bc.o: lj_bc.c lj_obj.h lua.h luaconf.h lj_def.h lj_arch.h lj_bc.h \
- lj_bcdef.h
-lj_bcread.o: lj_bcread.c lj_obj.h lua.h luaconf.h lj_def.h lj_arch.h \
- lj_gc.h lj_err.h lj_errmsg.h lj_str.h lj_tab.h lj_bc.h lj_ctype.h \
- lj_cdata.h lualib.h lj_lex.h lj_bcdump.h lj_state.h
-lj_bcwrite.o: lj_bcwrite.c lj_obj.h lua.h luaconf.h lj_def.h lj_arch.h \
- lj_gc.h lj_str.h lj_bc.h lj_ctype.h lj_dispatch.h lj_jit.h lj_ir.h \
- lj_bcdump.h lj_lex.h lj_err.h lj_errmsg.h lj_vm.h
-lj_carith.o: lj_carith.c lj_obj.h lua.h luaconf.h lj_def.h lj_arch.h \
- lj_gc.h lj_err.h lj_errmsg.h lj_tab.h lj_meta.h lj_ctype.h lj_cconv.h \
- lj_cdata.h lj_carith.h
-lj_ccall.o: lj_ccall.c lj_obj.h lua.h luaconf.h lj_def.h lj_arch.h \
- lj_gc.h lj_err.h lj_errmsg.h lj_str.h lj_tab.h lj_ctype.h lj_cconv.h \
- lj_cdata.h lj_ccall.h lj_trace.h lj_jit.h lj_ir.h lj_dispatch.h lj_bc.h \
- lj_traceerr.h
-lj_ccallback.o: lj_ccallback.c lj_obj.h lua.h luaconf.h lj_def.h \
- lj_arch.h lj_gc.h lj_err.h lj_errmsg.h lj_tab.h lj_state.h lj_frame.h \
- lj_bc.h lj_ctype.h lj_cconv.h lj_ccall.h lj_ccallback.h lj_target.h \
- lj_target_*.h lj_mcode.h lj_jit.h lj_ir.h lj_trace.h lj_dispatch.h \
- lj_traceerr.h lj_vm.h
-lj_cconv.o: lj_cconv.c lj_obj.h lua.h luaconf.h lj_def.h lj_arch.h \
- lj_err.h lj_errmsg.h lj_tab.h lj_ctype.h lj_gc.h lj_cdata.h lj_cconv.h \
- lj_ccallback.h
-lj_cdata.o: lj_cdata.c lj_obj.h lua.h luaconf.h lj_def.h lj_arch.h \
- lj_gc.h lj_err.h lj_errmsg.h lj_str.h lj_tab.h lj_ctype.h lj_cconv.h \
- lj_cdata.h
-lj_char.o: lj_char.c lj_char.h lj_def.h lua.h luaconf.h
-lj_clib.o: lj_clib.c lj_obj.h lua.h luaconf.h lj_def.h lj_arch.h lj_gc.h \
- lj_err.h lj_errmsg.h lj_tab.h lj_str.h lj_udata.h lj_ctype.h lj_cconv.h \
- lj_cdata.h lj_clib.h
-lj_cparse.o: lj_cparse.c lj_obj.h lua.h luaconf.h lj_def.h lj_arch.h \
- lj_gc.h lj_err.h lj_errmsg.h lj_str.h lj_ctype.h lj_cparse.h lj_frame.h \
- lj_bc.h lj_vm.h lj_char.h lj_strscan.h
-lj_crecord.o: lj_crecord.c lj_obj.h lua.h luaconf.h lj_def.h lj_arch.h \
- lj_err.h lj_errmsg.h lj_str.h lj_tab.h lj_frame.h lj_bc.h lj_ctype.h \
- lj_gc.h lj_cdata.h lj_cparse.h lj_cconv.h lj_clib.h lj_ccall.h lj_ff.h \
- lj_ffdef.h lj_ir.h lj_jit.h lj_ircall.h lj_iropt.h lj_trace.h \
- lj_dispatch.h lj_traceerr.h lj_record.h lj_ffrecord.h lj_snap.h \
- lj_crecord.h
-lj_ctype.o: lj_ctype.c lj_obj.h lua.h luaconf.h lj_def.h lj_arch.h \
- lj_gc.h lj_err.h lj_errmsg.h lj_str.h lj_tab.h lj_ctype.h lj_ccallback.h
-lj_debug.o: lj_debug.c lj_obj.h lua.h luaconf.h lj_def.h lj_arch.h \
- lj_err.h lj_errmsg.h lj_debug.h lj_str.h lj_tab.h lj_state.h lj_frame.h \
- lj_bc.h lj_vm.h lj_jit.h lj_ir.h
-lj_dispatch.o: lj_dispatch.c lj_obj.h lua.h luaconf.h lj_def.h lj_arch.h \
- lj_err.h lj_errmsg.h lj_func.h lj_str.h lj_tab.h lj_meta.h lj_debug.h \
- lj_state.h lj_frame.h lj_bc.h lj_ff.h lj_ffdef.h lj_jit.h lj_ir.h \
- lj_ccallback.h lj_ctype.h lj_gc.h lj_trace.h lj_dispatch.h lj_traceerr.h \
- lj_vm.h luajit.h
-lj_err.o: lj_err.c lj_obj.h lua.h luaconf.h lj_def.h lj_arch.h lj_err.h \
- lj_errmsg.h lj_debug.h lj_str.h lj_func.h lj_state.h lj_frame.h lj_bc.h \
- lj_ff.h lj_ffdef.h lj_trace.h lj_jit.h lj_ir.h lj_dispatch.h \
- lj_traceerr.h lj_vm.h
-lj_ffrecord.o: lj_ffrecord.c lj_obj.h lua.h luaconf.h lj_def.h lj_arch.h \
- lj_err.h lj_errmsg.h lj_str.h lj_tab.h lj_frame.h lj_bc.h lj_ff.h \
- lj_ffdef.h lj_ir.h lj_jit.h lj_ircall.h lj_iropt.h lj_trace.h \
- lj_dispatch.h lj_traceerr.h lj_record.h lj_ffrecord.h lj_crecord.h \
- lj_vm.h lj_strscan.h lj_recdef.h
-lj_func.o: lj_func.c lj_obj.h lua.h luaconf.h lj_def.h lj_arch.h lj_gc.h \
- lj_func.h lj_trace.h lj_jit.h lj_ir.h lj_dispatch.h lj_bc.h \
- lj_traceerr.h lj_vm.h
-lj_gc.o: lj_gc.c lj_obj.h lua.h luaconf.h lj_def.h lj_arch.h lj_gc.h \
- lj_err.h lj_errmsg.h lj_str.h lj_tab.h lj_func.h lj_udata.h lj_meta.h \
- lj_state.h lj_frame.h lj_bc.h lj_ctype.h lj_cdata.h lj_trace.h lj_jit.h \
- lj_ir.h lj_dispatch.h lj_traceerr.h lj_vm.h
-lj_gdbjit.o: lj_gdbjit.c lj_obj.h lua.h luaconf.h lj_def.h lj_arch.h \
- lj_gc.h lj_err.h lj_errmsg.h lj_debug.h lj_frame.h lj_bc.h lj_jit.h \
- lj_ir.h lj_dispatch.h
-lj_ir.o: lj_ir.c lj_obj.h lua.h luaconf.h lj_def.h lj_arch.h lj_gc.h \
- lj_str.h lj_tab.h lj_ir.h lj_jit.h lj_ircall.h lj_iropt.h lj_trace.h \
- lj_dispatch.h lj_bc.h lj_traceerr.h lj_ctype.h lj_cdata.h lj_carith.h \
- lj_vm.h lj_strscan.h lj_lib.h
-lj_lex.o: lj_lex.c lj_obj.h lua.h luaconf.h lj_def.h lj_arch.h lj_gc.h \
- lj_err.h lj_errmsg.h lj_str.h lj_tab.h lj_ctype.h lj_cdata.h lualib.h \
- lj_state.h lj_lex.h lj_parse.h lj_char.h lj_strscan.h
-lj_lib.o: lj_lib.c lauxlib.h lua.h luaconf.h lj_obj.h lj_def.h lj_arch.h \
- lj_gc.h lj_err.h lj_errmsg.h lj_str.h lj_tab.h lj_func.h lj_bc.h \
- lj_dispatch.h lj_jit.h lj_ir.h lj_vm.h lj_strscan.h lj_lib.h
-lj_load.o: lj_load.c lua.h luaconf.h lauxlib.h lj_obj.h lj_def.h \
- lj_arch.h lj_gc.h lj_err.h lj_errmsg.h lj_str.h lj_func.h lj_frame.h \
- lj_bc.h lj_vm.h lj_lex.h lj_bcdump.h lj_parse.h
-lj_mcode.o: lj_mcode.c lj_obj.h lua.h luaconf.h lj_def.h lj_arch.h \
- lj_gc.h lj_err.h lj_errmsg.h lj_jit.h lj_ir.h lj_mcode.h lj_trace.h \
- lj_dispatch.h lj_bc.h lj_traceerr.h lj_vm.h
-lj_meta.o: lj_meta.c lj_obj.h lua.h luaconf.h lj_def.h lj_arch.h lj_gc.h \
- lj_err.h lj_errmsg.h lj_str.h lj_tab.h lj_meta.h lj_frame.h lj_bc.h \
- lj_vm.h lj_strscan.h
-lj_obj.o: lj_obj.c lj_obj.h lua.h luaconf.h lj_def.h lj_arch.h
-lj_opt_dce.o: lj_opt_dce.c lj_obj.h lua.h luaconf.h lj_def.h lj_arch.h \
- lj_ir.h lj_jit.h lj_iropt.h
-lj_opt_fold.o: lj_opt_fold.c lj_obj.h lua.h luaconf.h lj_def.h lj_arch.h \
- lj_str.h lj_tab.h lj_ir.h lj_jit.h lj_iropt.h lj_trace.h lj_dispatch.h \
- lj_bc.h lj_traceerr.h lj_ctype.h lj_gc.h lj_carith.h lj_vm.h \
- lj_strscan.h lj_folddef.h
-lj_opt_loop.o: lj_opt_loop.c lj_obj.h lua.h luaconf.h lj_def.h lj_arch.h \
- lj_err.h lj_errmsg.h lj_str.h lj_ir.h lj_jit.h lj_iropt.h lj_trace.h \
- lj_dispatch.h lj_bc.h lj_traceerr.h lj_snap.h lj_vm.h
-lj_opt_mem.o: lj_opt_mem.c lj_obj.h lua.h luaconf.h lj_def.h lj_arch.h \
- lj_tab.h lj_ir.h lj_jit.h lj_iropt.h
-lj_opt_narrow.o: lj_opt_narrow.c lj_obj.h lua.h luaconf.h lj_def.h \
- lj_arch.h lj_bc.h lj_ir.h lj_jit.h lj_iropt.h lj_trace.h lj_dispatch.h \
- lj_traceerr.h lj_vm.h lj_strscan.h
-lj_opt_sink.o: lj_opt_sink.c lj_obj.h lua.h luaconf.h lj_def.h lj_arch.h \
- lj_ir.h lj_jit.h lj_iropt.h lj_target.h lj_target_*.h
-lj_opt_split.o: lj_opt_split.c lj_obj.h lua.h luaconf.h lj_def.h \
- lj_arch.h lj_err.h lj_errmsg.h lj_str.h lj_ir.h lj_jit.h lj_ircall.h \
- lj_iropt.h lj_vm.h
-lj_parse.o: lj_parse.c lj_obj.h lua.h luaconf.h lj_def.h lj_arch.h \
- lj_gc.h lj_err.h lj_errmsg.h lj_debug.h lj_str.h lj_tab.h lj_func.h \
- lj_state.h lj_bc.h lj_ctype.h lj_lex.h lj_parse.h lj_vm.h lj_vmevent.h
-lj_record.o: lj_record.c lj_obj.h lua.h luaconf.h lj_def.h lj_arch.h \
- lj_err.h lj_errmsg.h lj_str.h lj_tab.h lj_meta.h lj_frame.h lj_bc.h \
- lj_ctype.h lj_gc.h lj_ff.h lj_ffdef.h lj_ir.h lj_jit.h lj_ircall.h \
- lj_iropt.h lj_trace.h lj_dispatch.h lj_traceerr.h lj_record.h \
- lj_ffrecord.h lj_snap.h lj_vm.h
-lj_snap.o: lj_snap.c lj_obj.h lua.h luaconf.h lj_def.h lj_arch.h lj_gc.h \
- lj_tab.h lj_state.h lj_frame.h lj_bc.h lj_ir.h lj_jit.h lj_iropt.h \
- lj_trace.h lj_dispatch.h lj_traceerr.h lj_snap.h lj_target.h \
- lj_target_*.h lj_ctype.h lj_cdata.h
-lj_state.o: lj_state.c lj_obj.h lua.h luaconf.h lj_def.h lj_arch.h \
- lj_gc.h lj_err.h lj_errmsg.h lj_str.h lj_tab.h lj_func.h lj_meta.h \
- lj_state.h lj_frame.h lj_bc.h lj_ctype.h lj_trace.h lj_jit.h lj_ir.h \
- lj_dispatch.h lj_traceerr.h lj_vm.h lj_lex.h lj_alloc.h
-lj_str.o: lj_str.c lj_obj.h lua.h luaconf.h lj_def.h lj_arch.h lj_gc.h \
- lj_err.h lj_errmsg.h lj_str.h lj_state.h lj_char.h
-lj_strscan.o: lj_strscan.c lj_obj.h lua.h luaconf.h lj_def.h lj_arch.h \
- lj_char.h lj_strscan.h
-lj_tab.o: lj_tab.c lj_obj.h lua.h luaconf.h lj_def.h lj_arch.h lj_gc.h \
- lj_err.h lj_errmsg.h lj_tab.h
-lj_trace.o: lj_trace.c lj_obj.h lua.h luaconf.h lj_def.h lj_arch.h \
- lj_gc.h lj_err.h lj_errmsg.h lj_debug.h lj_str.h lj_frame.h lj_bc.h \
- lj_state.h lj_ir.h lj_jit.h lj_iropt.h lj_mcode.h lj_trace.h \
- lj_dispatch.h lj_traceerr.h lj_snap.h lj_gdbjit.h lj_record.h lj_asm.h \
- lj_vm.h lj_vmevent.h lj_target.h lj_target_*.h
-lj_udata.o: lj_udata.c lj_obj.h lua.h luaconf.h lj_def.h lj_arch.h \
- lj_gc.h lj_udata.h
-lj_vmevent.o: lj_vmevent.c lj_obj.h lua.h luaconf.h lj_def.h lj_arch.h \
- lj_str.h lj_tab.h lj_state.h lj_dispatch.h lj_bc.h lj_jit.h lj_ir.h \
- lj_vm.h lj_vmevent.h
-lj_vmmath.o: lj_vmmath.c lj_obj.h lua.h luaconf.h lj_def.h lj_arch.h \
- lj_ir.h lj_vm.h
-ljamalg.o: ljamalg.c lua.h luaconf.h lauxlib.h lj_gc.c lj_obj.h lj_def.h \
- lj_arch.h lj_gc.h lj_err.h lj_errmsg.h lj_str.h lj_tab.h lj_func.h \
- lj_udata.h lj_meta.h lj_state.h lj_frame.h lj_bc.h lj_ctype.h lj_cdata.h \
- lj_trace.h lj_jit.h lj_ir.h lj_dispatch.h lj_traceerr.h lj_vm.h lj_err.c \
- lj_debug.h lj_ff.h lj_ffdef.h lj_char.c lj_char.h lj_bc.c lj_bcdef.h \
- lj_obj.c lj_str.c lj_tab.c lj_func.c lj_udata.c lj_meta.c lj_strscan.h \
- lj_debug.c lj_state.c lj_lex.h lj_alloc.h lj_dispatch.c lj_ccallback.h \
- luajit.h lj_vmevent.c lj_vmevent.h lj_vmmath.c lj_strscan.c lj_api.c \
- lj_lex.c lualib.h lj_parse.h lj_parse.c lj_bcread.c lj_bcdump.h \
- lj_bcwrite.c lj_load.c lj_ctype.c lj_cdata.c lj_cconv.h lj_cconv.c \
- lj_ccall.c lj_ccall.h lj_ccallback.c lj_target.h lj_target_*.h \
- lj_mcode.h lj_carith.c lj_carith.h lj_clib.c lj_clib.h lj_cparse.c \
- lj_cparse.h lj_lib.c lj_lib.h lj_ir.c lj_ircall.h lj_iropt.h \
- lj_opt_mem.c lj_opt_fold.c lj_folddef.h lj_opt_narrow.c lj_opt_dce.c \
- lj_opt_loop.c lj_snap.h lj_opt_split.c lj_opt_sink.c lj_mcode.c \
- lj_snap.c lj_record.c lj_record.h lj_ffrecord.h lj_crecord.c \
- lj_crecord.h lj_ffrecord.c lj_recdef.h lj_asm.c lj_asm.h lj_emit_*.h \
- lj_asm_*.h lj_trace.c lj_gdbjit.h lj_gdbjit.c lj_alloc.c lib_aux.c \
- lib_base.c lj_libdef.h lib_math.c lib_string.c lib_table.c lib_io.c \
- lib_os.c lib_package.c lib_debug.c lib_bit.c lib_jit.c lib_ffi.c \
- lib_init.c
-luajit.o: luajit.c lua.h luaconf.h lauxlib.h lualib.h luajit.h lj_arch.h
-host/buildvm.o: host/buildvm.c host/buildvm.h lj_def.h lua.h luaconf.h \
- lj_arch.h lj_obj.h lj_def.h lj_arch.h lj_gc.h lj_obj.h lj_bc.h lj_ir.h \
- lj_ircall.h lj_ir.h lj_jit.h lj_frame.h lj_bc.h lj_dispatch.h lj_ctype.h \
- lj_gc.h lj_ccall.h lj_ctype.h luajit.h \
- host/buildvm_arch.h lj_traceerr.h
-host/buildvm_asm.o: host/buildvm_asm.c host/buildvm.h lj_def.h lua.h luaconf.h \
- lj_arch.h lj_bc.h lj_def.h lj_arch.h
-host/buildvm_fold.o: host/buildvm_fold.c host/buildvm.h lj_def.h lua.h \
- luaconf.h lj_arch.h lj_obj.h lj_def.h lj_arch.h lj_ir.h lj_obj.h
-host/buildvm_lib.o: host/buildvm_lib.c host/buildvm.h lj_def.h lua.h luaconf.h \
- lj_arch.h lj_obj.h lj_def.h lj_arch.h lj_lib.h lj_obj.h
-host/buildvm_peobj.o: host/buildvm_peobj.c host/buildvm.h lj_def.h lua.h \
- luaconf.h lj_arch.h lj_bc.h lj_def.h lj_arch.h
-host/minilua.o: host/minilua.c
diff --git a/luajit-2.0/src/host/.gitignore b/luajit-2.0/src/host/.gitignore
deleted file mode 100644
index 762ac2a..0000000
--- a/luajit-2.0/src/host/.gitignore
+++ /dev/null
@@ -1,3 +0,0 @@
-minilua
-buildvm
-buildvm_arch.h
diff --git a/luajit-2.0/src/host/README b/luajit-2.0/src/host/README
deleted file mode 100644
index abfcdaa..0000000
--- a/luajit-2.0/src/host/README
+++ /dev/null
@@ -1,4 +0,0 @@
-The files in this directory are only used during the build process of LuaJIT.
-For cross-compilation, they must be executed on the host, not on the target.
-
-These files should NOT be installed!
diff --git a/luajit-2.0/src/host/buildvm.c b/luajit-2.0/src/host/buildvm.c
deleted file mode 100644
index 7687ad7..0000000
--- a/luajit-2.0/src/host/buildvm.c
+++ /dev/null
@@ -1,516 +0,0 @@
-/*
-** LuaJIT VM builder.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-**
-** This is a tool to build the hand-tuned assembler code required for
-** LuaJIT's bytecode interpreter. It supports a variety of output formats
-** to feed different toolchains (see usage() below).
-**
-** This tool is not particularly optimized because it's only used while
-** _building_ LuaJIT. There's no point in distributing or installing it.
-** Only the object code generated by this tool is linked into LuaJIT.
-**
-** Caveat: some memory is not free'd, error handling is lazy.
-** It's a one-shot tool -- any effort fixing this would be wasted.
-*/
-
-#include "buildvm.h"
-#include "lj_obj.h"
-#include "lj_gc.h"
-#include "lj_bc.h"
-#include "lj_ir.h"
-#include "lj_ircall.h"
-#include "lj_frame.h"
-#include "lj_dispatch.h"
-#if LJ_HASFFI
-#include "lj_ctype.h"
-#include "lj_ccall.h"
-#endif
-#include "luajit.h"
-
-#if defined(_WIN32)
-#include <fcntl.h>
-#include <io.h>
-#endif
-
-/* ------------------------------------------------------------------------ */
-
-/* DynASM glue definitions. */
-#define Dst		ctx
-#define Dst_DECL	BuildCtx *ctx
-#define Dst_REF		(ctx->D)
-#define DASM_CHECKS	1
-
-#include "../dynasm/dasm_proto.h"
-
-/* Glue macros for DynASM. */
-static int collect_reloc(BuildCtx *ctx, uint8_t *addr, int idx, int type);
-
-#define DASM_EXTERN(ctx, addr, idx, type) \
-  collect_reloc(ctx, addr, idx, type)
-
-/* ------------------------------------------------------------------------ */
-
-/* Avoid trouble if cross-compiling for an x86 target. Speed doesn't matter. */
-#define DASM_ALIGNED_WRITES	1
-
-/* Embed architecture-specific DynASM encoder. */
-#if LJ_TARGET_X86ORX64
-#include "../dynasm/dasm_x86.h"
-#elif LJ_TARGET_ARM
-#include "../dynasm/dasm_arm.h"
-#elif LJ_TARGET_PPC
-#include "../dynasm/dasm_ppc.h"
-#elif LJ_TARGET_PPCSPE
-#include "../dynasm/dasm_ppc.h"
-#elif LJ_TARGET_MIPS
-#include "../dynasm/dasm_mips.h"
-#else
-#error "No support for this architecture (yet)"
-#endif
-
-/* Embed generated architecture-specific backend. */
-#include "buildvm_arch.h"
-
-/* ------------------------------------------------------------------------ */
-
-void owrite(BuildCtx *ctx, const void *ptr, size_t sz)
-{
-  if (fwrite(ptr, 1, sz, ctx->fp) != sz) {
-    fprintf(stderr, "Error: cannot write to output file: %s\n",
-	    strerror(errno));
-    exit(1);
-  }
-}
-
-/* ------------------------------------------------------------------------ */
-
-/* Emit code as raw bytes. Only used for DynASM debugging. */
-static void emit_raw(BuildCtx *ctx)
-{
-  owrite(ctx, ctx->code, ctx->codesz);
-}
-
-/* -- Build machine code -------------------------------------------------- */
-
-static const char *sym_decorate(BuildCtx *ctx,
-				const char *prefix, const char *suffix)
-{
-  char name[256];
-  char *p;
-#if LJ_64
-  const char *symprefix = ctx->mode == BUILD_machasm ? "_" : "";
-#elif LJ_TARGET_XBOX360
-  const char *symprefix = "";
-#else
-  const char *symprefix = ctx->mode != BUILD_elfasm ? "_" : "";
-#endif
-  sprintf(name, "%s%s%s", symprefix, prefix, suffix);
-  p = strchr(name, '@');
-  if (p) {
-#if LJ_TARGET_X86ORX64
-    if (!LJ_64 && (ctx->mode == BUILD_coffasm || ctx->mode == BUILD_peobj))
-      name[0] = '@';
-    else
-      *p = '\0';
-#elif (LJ_TARGET_PPC  || LJ_TARGET_PPCSPE) && !LJ_TARGET_CONSOLE
-    /* Keep @plt. */
-#else
-    *p = '\0';
-#endif
-  }
-  p = (char *)malloc(strlen(name)+1);  /* MSVC doesn't like strdup. */
-  strcpy(p, name);
-  return p;
-}
-
-#define NRELOCSYM	(sizeof(extnames)/sizeof(extnames[0])-1)
-
-static int relocmap[NRELOCSYM];
-
-/* Collect external relocations. */
-static int collect_reloc(BuildCtx *ctx, uint8_t *addr, int idx, int type)
-{
-  if (ctx->nreloc >= BUILD_MAX_RELOC) {
-    fprintf(stderr, "Error: too many relocations, increase BUILD_MAX_RELOC.\n");
-    exit(1);
-  }
-  if (relocmap[idx] < 0) {
-    relocmap[idx] = ctx->nrelocsym;
-    ctx->relocsym[ctx->nrelocsym] = sym_decorate(ctx, "", extnames[idx]);
-    ctx->nrelocsym++;
-  }
-  ctx->reloc[ctx->nreloc].ofs = (int32_t)(addr - ctx->code);
-  ctx->reloc[ctx->nreloc].sym = relocmap[idx];
-  ctx->reloc[ctx->nreloc].type = type;
-  ctx->nreloc++;
-#if LJ_TARGET_XBOX360
-  return (int)(ctx->code - addr) + 4;  /* Encode symbol offset of .text. */
-#else
-  return 0;  /* Encode symbol offset of 0. */
-#endif
-}
-
-/* Naive insertion sort. Performance doesn't matter here. */
-static void sym_insert(BuildCtx *ctx, int32_t ofs,
-		       const char *prefix, const char *suffix)
-{
-  ptrdiff_t i = ctx->nsym++;
-  while (i > 0) {
-    if (ctx->sym[i-1].ofs <= ofs)
-      break;
-    ctx->sym[i] = ctx->sym[i-1];
-    i--;
-  }
-  ctx->sym[i].ofs = ofs;
-  ctx->sym[i].name = sym_decorate(ctx, prefix, suffix);
-}
-
-/* Build the machine code. */
-static int build_code(BuildCtx *ctx)
-{
-  int status;
-  int i;
-
-  /* Initialize DynASM structures. */
-  ctx->nglob = GLOB__MAX;
-  ctx->glob = (void **)malloc(ctx->nglob*sizeof(void *));
-  memset(ctx->glob, 0, ctx->nglob*sizeof(void *));
-  ctx->nreloc = 0;
-
-  ctx->globnames = globnames;
-  ctx->relocsym = (const char **)malloc(NRELOCSYM*sizeof(const char *));
-  ctx->nrelocsym = 0;
-  for (i = 0; i < (int)NRELOCSYM; i++) relocmap[i] = -1;
-
-  ctx->dasm_ident = DASM_IDENT;
-  ctx->dasm_arch = DASM_ARCH;
-
-  dasm_init(Dst, DASM_MAXSECTION);
-  dasm_setupglobal(Dst, ctx->glob, ctx->nglob);
-  dasm_setup(Dst, build_actionlist);
-
-  /* Call arch-specific backend to emit the code. */
-  ctx->npc = build_backend(ctx);
-
-  /* Finalize the code. */
-  (void)dasm_checkstep(Dst, -1);
-  if ((status = dasm_link(Dst, &ctx->codesz))) return status;
-  ctx->code = (uint8_t *)malloc(ctx->codesz);
-  if ((status = dasm_encode(Dst, (void *)ctx->code))) return status;
-
-  /* Allocate symbol table and bytecode offsets. */
-  ctx->beginsym = sym_decorate(ctx, "", LABEL_PREFIX "vm_asm_begin");
-  ctx->sym = (BuildSym *)malloc((ctx->npc+ctx->nglob+1)*sizeof(BuildSym));
-  ctx->nsym = 0;
-  ctx->bc_ofs = (int32_t *)malloc(ctx->npc*sizeof(int32_t));
-
-  /* Collect the opcodes (PC labels). */
-  for (i = 0; i < ctx->npc; i++) {
-    int32_t ofs = dasm_getpclabel(Dst, i);
-    if (ofs < 0) return 0x22000000|i;
-    ctx->bc_ofs[i] = ofs;
-    if ((LJ_HASJIT ||
-	 !(i == BC_JFORI || i == BC_JFORL || i == BC_JITERL || i == BC_JLOOP ||
-	   i == BC_IFORL || i == BC_IITERL || i == BC_ILOOP)) &&
-	(LJ_HASFFI || i != BC_KCDATA))
-      sym_insert(ctx, ofs, LABEL_PREFIX_BC, bc_names[i]);
-  }
-
-  /* Collect the globals (named labels). */
-  for (i = 0; i < ctx->nglob; i++) {
-    const char *gl = globnames[i];
-    int len = (int)strlen(gl);
-    if (!ctx->glob[i]) {
-      fprintf(stderr, "Error: undefined global %s\n", gl);
-      exit(2);
-    }
-    /* Skip the _Z symbols. */
-    if (!(len >= 2 && gl[len-2] == '_' && gl[len-1] == 'Z'))
-      sym_insert(ctx, (int32_t)((uint8_t *)(ctx->glob[i]) - ctx->code),
-		 LABEL_PREFIX, globnames[i]);
-  }
-
-  /* Close the address range. */
-  sym_insert(ctx, (int32_t)ctx->codesz, "", "");
-  ctx->nsym--;
-
-  dasm_free(Dst);
-
-  return 0;
-}
-
-/* -- Generate VM enums --------------------------------------------------- */
-
-const char *const bc_names[] = {
-#define BCNAME(name, ma, mb, mc, mt)       #name,
-BCDEF(BCNAME)
-#undef BCNAME
-  NULL
-};
-
-const char *const ir_names[] = {
-#define IRNAME(name, m, m1, m2)	#name,
-IRDEF(IRNAME)
-#undef IRNAME
-  NULL
-};
-
-const char *const irt_names[] = {
-#define IRTNAME(name, size)	#name,
-IRTDEF(IRTNAME)
-#undef IRTNAME
-  NULL
-};
-
-const char *const irfpm_names[] = {
-#define FPMNAME(name)		#name,
-IRFPMDEF(FPMNAME)
-#undef FPMNAME
-  NULL
-};
-
-const char *const irfield_names[] = {
-#define FLNAME(name, ofs)	#name,
-IRFLDEF(FLNAME)
-#undef FLNAME
-  NULL
-};
-
-const char *const ircall_names[] = {
-#define IRCALLNAME(cond, name, nargs, kind, type, flags)	#name,
-IRCALLDEF(IRCALLNAME)
-#undef IRCALLNAME
-  NULL
-};
-
-static const char *const trace_errors[] = {
-#define TREDEF(name, msg)	msg,
-#include "lj_traceerr.h"
-  NULL
-};
-
-static const char *lower(char *buf, const char *s)
-{
-  char *p = buf;
-  while (*s) {
-    *p++ = (*s >= 'A' && *s <= 'Z') ? *s+0x20 : *s;
-    s++;
-  }
-  *p = '\0';
-  return buf;
-}
-
-/* Emit C source code for bytecode-related definitions. */
-static void emit_bcdef(BuildCtx *ctx)
-{
-  int i;
-  fprintf(ctx->fp, "/* This is a generated file. DO NOT EDIT! */\n\n");
-  fprintf(ctx->fp, "LJ_DATADEF const uint16_t lj_bc_ofs[] = {\n");
-  for (i = 0; i < ctx->npc; i++) {
-    if (i != 0)
-      fprintf(ctx->fp, ",\n");
-    fprintf(ctx->fp, "%d", ctx->bc_ofs[i]);
-  }
-}
-
-/* Emit VM definitions as Lua code for debug modules. */
-static void emit_vmdef(BuildCtx *ctx)
-{
-  char buf[80];
-  int i;
-  fprintf(ctx->fp, "-- This is a generated file. DO NOT EDIT!\n\n");
-  fprintf(ctx->fp, "module(...)\n\n");
-
-  fprintf(ctx->fp, "bcnames = \"");
-  for (i = 0; bc_names[i]; i++) fprintf(ctx->fp, "%-6s", bc_names[i]);
-  fprintf(ctx->fp, "\"\n\n");
-
-  fprintf(ctx->fp, "irnames = \"");
-  for (i = 0; ir_names[i]; i++) fprintf(ctx->fp, "%-6s", ir_names[i]);
-  fprintf(ctx->fp, "\"\n\n");
-
-  fprintf(ctx->fp, "irfpm = { [0]=");
-  for (i = 0; irfpm_names[i]; i++)
-    fprintf(ctx->fp, "\"%s\", ", lower(buf, irfpm_names[i]));
-  fprintf(ctx->fp, "}\n\n");
-
-  fprintf(ctx->fp, "irfield = { [0]=");
-  for (i = 0; irfield_names[i]; i++) {
-    char *p;
-    lower(buf, irfield_names[i]);
-    p = strchr(buf, '_');
-    if (p) *p = '.';
-    fprintf(ctx->fp, "\"%s\", ", buf);
-  }
-  fprintf(ctx->fp, "}\n\n");
-
-  fprintf(ctx->fp, "ircall = {\n[0]=");
-  for (i = 0; ircall_names[i]; i++)
-    fprintf(ctx->fp, "\"%s\",\n", ircall_names[i]);
-  fprintf(ctx->fp, "}\n\n");
-
-  fprintf(ctx->fp, "traceerr = {\n[0]=");
-  for (i = 0; trace_errors[i]; i++)
-    fprintf(ctx->fp, "\"%s\",\n", trace_errors[i]);
-  fprintf(ctx->fp, "}\n\n");
-}
-
-/* -- Argument parsing ---------------------------------------------------- */
-
-/* Build mode names. */
-static const char *const modenames[] = {
-#define BUILDNAME(name)		#name,
-BUILDDEF(BUILDNAME)
-#undef BUILDNAME
-  NULL
-};
-
-/* Print usage information and exit. */
-static void usage(void)
-{
-  int i;
-  fprintf(stderr, LUAJIT_VERSION " VM builder.\n");
-  fprintf(stderr, LUAJIT_COPYRIGHT ", " LUAJIT_URL "\n");
-  fprintf(stderr, "Target architecture: " LJ_ARCH_NAME "\n\n");
-  fprintf(stderr, "Usage: buildvm -m mode [-o outfile] [infiles...]\n\n");
-  fprintf(stderr, "Available modes:\n");
-  for (i = 0; i < BUILD__MAX; i++)
-    fprintf(stderr, "  %s\n", modenames[i]);
-  exit(1);
-}
-
-/* Parse the output mode name. */
-static BuildMode parsemode(const char *mode)
-{
-  int i;
-  for (i = 0; modenames[i]; i++)
-    if (!strcmp(mode, modenames[i]))
-      return (BuildMode)i;
-  usage();
-  return (BuildMode)-1;
-}
-
-/* Parse arguments. */
-static void parseargs(BuildCtx *ctx, char **argv)
-{
-  const char *a;
-  int i;
-  ctx->mode = (BuildMode)-1;
-  ctx->outname = "-";
-  for (i = 1; (a = argv[i]) != NULL; i++) {
-    if (a[0] != '-')
-      break;
-    switch (a[1]) {
-    case '-':
-      if (a[2]) goto err;
-      i++;
-      goto ok;
-    case '\0':
-      goto ok;
-    case 'm':
-      i++;
-      if (a[2] || argv[i] == NULL) goto err;
-      ctx->mode = parsemode(argv[i]);
-      break;
-    case 'o':
-      i++;
-      if (a[2] || argv[i] == NULL) goto err;
-      ctx->outname = argv[i];
-      break;
-    default: err:
-      usage();
-      break;
-    }
-  }
-ok:
-  ctx->args = argv+i;
-  if (ctx->mode == (BuildMode)-1) goto err;
-}
-
-int main(int argc, char **argv)
-{
-  BuildCtx ctx_;
-  BuildCtx *ctx = &ctx_;
-  int status, binmode;
-
-  if (sizeof(void *) != 4*LJ_32+8*LJ_64) {
-    fprintf(stderr,"Error: pointer size mismatch in cross-build.\n");
-    fprintf(stderr,"Try: make HOST_CC=\"gcc -m32\" CROSS=...\n\n");
-    return 1;
-  }
-
-  UNUSED(argc);
-  parseargs(ctx, argv);
-
-  if ((status = build_code(ctx))) {
-    fprintf(stderr,"Error: DASM error %08x\n", status);
-    return 1;
-  }
-
-  switch (ctx->mode) {
-  case BUILD_peobj:
-  case BUILD_raw:
-    binmode = 1;
-    break;
-  default:
-    binmode = 0;
-    break;
-  }
-
-  if (ctx->outname[0] == '-' && ctx->outname[1] == '\0') {
-    ctx->fp = stdout;
-#if defined(_WIN32)
-    if (binmode)
-      _setmode(_fileno(stdout), _O_BINARY);  /* Yuck. */
-#endif
-  } else if (!(ctx->fp = fopen(ctx->outname, binmode ? "wb" : "w"))) {
-    fprintf(stderr, "Error: cannot open output file '%s': %s\n",
-	    ctx->outname, strerror(errno));
-    exit(1);
-  }
-
-  switch (ctx->mode) {
-  case BUILD_elfasm:
-  case BUILD_coffasm:
-  case BUILD_machasm:
-    emit_asm(ctx);
-    emit_asm_debug(ctx);
-    break;
-  case BUILD_peobj:
-    emit_peobj(ctx);
-    break;
-  case BUILD_raw:
-    emit_raw(ctx);
-    break;
-  case BUILD_bcdef:
-    emit_bcdef(ctx);
-    emit_lib(ctx);
-    break;
-  case BUILD_vmdef:
-    emit_vmdef(ctx);
-    emit_lib(ctx);
-    break;
-  case BUILD_ffdef:
-  case BUILD_libdef:
-  case BUILD_recdef:
-    emit_lib(ctx);
-    break;
-  case BUILD_folddef:
-    emit_fold(ctx);
-    break;
-  default:
-    break;
-  }
-
-  fflush(ctx->fp);
-  if (ferror(ctx->fp)) {
-    fprintf(stderr, "Error: cannot write to output file: %s\n",
-	    strerror(errno));
-    exit(1);
-  }
-  fclose(ctx->fp);
-
-  return 0;
-}
-
diff --git a/luajit-2.0/src/host/buildvm.h b/luajit-2.0/src/host/buildvm.h
deleted file mode 100644
index f9dc8c4..0000000
--- a/luajit-2.0/src/host/buildvm.h
+++ /dev/null
@@ -1,104 +0,0 @@
-/*
-** LuaJIT VM builder.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#ifndef _BUILDVM_H
-#define _BUILDVM_H
-
-#include <sys/types.h>
-#include <stdio.h>
-#include <stdlib.h>
-#include <string.h>
-#include <errno.h>
-
-#include "lj_def.h"
-#include "lj_arch.h"
-
-/* Hardcoded limits. Increase as needed. */
-#define BUILD_MAX_RELOC		200	/* Max. number of relocations. */
-#define BUILD_MAX_FOLD		4096	/* Max. number of fold rules. */
-
-/* Prefix for scanned library definitions. */
-#define LIBDEF_PREFIX		"LJLIB_"
-
-/* Prefix for scanned fold definitions. */
-#define FOLDDEF_PREFIX		"LJFOLD"
-
-/* Prefixes for generated labels. */
-#define LABEL_PREFIX		"lj_"
-#define LABEL_PREFIX_BC		LABEL_PREFIX "BC_"
-#define LABEL_PREFIX_FF		LABEL_PREFIX "ff_"
-#define LABEL_PREFIX_CF		LABEL_PREFIX "cf_"
-#define LABEL_PREFIX_FFH	LABEL_PREFIX "ffh_"
-#define LABEL_PREFIX_LIBCF	LABEL_PREFIX "lib_cf_"
-#define LABEL_PREFIX_LIBINIT	LABEL_PREFIX "lib_init_"
-
-/* Forward declaration. */
-struct dasm_State;
-
-/* Build modes. */
-#define BUILDDEF(_) \
-  _(elfasm) _(coffasm) _(machasm) _(peobj) _(raw) \
-  _(bcdef) _(ffdef) _(libdef) _(recdef) _(vmdef) \
-  _(folddef)
-
-typedef enum {
-#define BUILDENUM(name)		BUILD_##name,
-BUILDDEF(BUILDENUM)
-#undef BUILDENUM
-  BUILD__MAX
-} BuildMode;
-
-/* Code relocation. */
-typedef struct BuildReloc {
-  int32_t ofs;
-  int sym;
-  int type;
-} BuildReloc;
-
-typedef struct BuildSym {
-  const char *name;
-  int32_t ofs;
-} BuildSym;
-
-/* Build context structure. */
-typedef struct BuildCtx {
-  /* DynASM state pointer. Should be first member. */
-  struct dasm_State *D;
-  /* Parsed command line. */
-  BuildMode mode;
-  FILE *fp;
-  const char *outname;
-  char **args;
-  /* Code and symbols generated by DynASM. */
-  uint8_t *code;
-  size_t codesz;
-  int npc, nglob, nsym, nreloc, nrelocsym;
-  void **glob;
-  BuildSym *sym;
-  const char **relocsym;
-  int32_t *bc_ofs;
-  const char *beginsym;
-  /* Strings generated by DynASM. */
-  const char *const *globnames;
-  const char *dasm_ident;
-  const char *dasm_arch;
-  /* Relocations. */
-  BuildReloc reloc[BUILD_MAX_RELOC];
-} BuildCtx;
-
-extern void owrite(BuildCtx *ctx, const void *ptr, size_t sz);
-extern void emit_asm(BuildCtx *ctx);
-extern void emit_peobj(BuildCtx *ctx);
-extern void emit_lib(BuildCtx *ctx);
-extern void emit_fold(BuildCtx *ctx);
-
-extern const char *const bc_names[];
-extern const char *const ir_names[];
-extern const char *const irt_names[];
-extern const char *const irfpm_names[];
-extern const char *const irfield_names[];
-extern const char *const ircall_names[];
-
-#endif
diff --git a/luajit-2.0/src/host/buildvm_asm.c b/luajit-2.0/src/host/buildvm_asm.c
deleted file mode 100644
index 079e9a8..0000000
--- a/luajit-2.0/src/host/buildvm_asm.c
+++ /dev/null
@@ -1,313 +0,0 @@
-/*
-** LuaJIT VM builder: Assembler source code emitter.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#include "buildvm.h"
-#include "lj_bc.h"
-
-/* ------------------------------------------------------------------------ */
-
-#if LJ_TARGET_X86ORX64
-/* Emit bytes piecewise as assembler text. */
-static void emit_asm_bytes(BuildCtx *ctx, uint8_t *p, int n)
-{
-  int i;
-  for (i = 0; i < n; i++) {
-    if ((i & 15) == 0)
-      fprintf(ctx->fp, "\t.byte %d", p[i]);
-    else
-      fprintf(ctx->fp, ",%d", p[i]);
-    if ((i & 15) == 15) putc('\n', ctx->fp);
-  }
-  if ((n & 15) != 0) putc('\n', ctx->fp);
-}
-
-/* Emit relocation */
-static void emit_asm_reloc(BuildCtx *ctx, int type, const char *sym)
-{
-  switch (ctx->mode) {
-  case BUILD_elfasm:
-    if (type)
-      fprintf(ctx->fp, "\t.long %s-.-4\n", sym);
-    else
-      fprintf(ctx->fp, "\t.long %s\n", sym);
-    break;
-  case BUILD_coffasm:
-    fprintf(ctx->fp, "\t.def %s; .scl 3; .type 32; .endef\n", sym);
-    if (type)
-      fprintf(ctx->fp, "\t.long %s-.-4\n", sym);
-    else
-      fprintf(ctx->fp, "\t.long %s\n", sym);
-    break;
-  default:  /* BUILD_machasm for relative relocations handled below. */
-    fprintf(ctx->fp, "\t.long %s\n", sym);
-    break;
-  }
-}
-
-static const char *const jccnames[] = {
-  "jo", "jno", "jb", "jnb", "jz", "jnz", "jbe", "ja",
-  "js", "jns", "jpe", "jpo", "jl", "jge", "jle", "jg"
-};
-
-/* Emit relocation for the incredibly stupid OSX assembler. */
-static void emit_asm_reloc_mach(BuildCtx *ctx, uint8_t *cp, int n,
-				const char *sym)
-{
-  const char *opname = NULL;
-  if (--n < 0) goto err;
-  if (cp[n] == 0xe8) {
-    opname = "call";
-  } else if (cp[n] == 0xe9) {
-    opname = "jmp";
-  } else if (cp[n] >= 0x80 && cp[n] <= 0x8f && n > 0 && cp[n-1] == 0x0f) {
-    opname = jccnames[cp[n]-0x80];
-    n--;
-  } else {
-err:
-    fprintf(stderr, "Error: unsupported opcode for %s symbol relocation.\n",
-	    sym);
-    exit(1);
-  }
-  emit_asm_bytes(ctx, cp, n);
-  fprintf(ctx->fp, "\t%s %s\n", opname, sym);
-}
-#else
-/* Emit words piecewise as assembler text. */
-static void emit_asm_words(BuildCtx *ctx, uint8_t *p, int n)
-{
-  int i;
-  for (i = 0; i < n; i += 4) {
-    if ((i & 15) == 0)
-      fprintf(ctx->fp, "\t.long 0x%08x", *(uint32_t *)(p+i));
-    else
-      fprintf(ctx->fp, ",0x%08x", *(uint32_t *)(p+i));
-    if ((i & 15) == 12) putc('\n', ctx->fp);
-  }
-  if ((n & 15) != 0) putc('\n', ctx->fp);
-}
-
-/* Emit relocation as part of an instruction. */
-static void emit_asm_wordreloc(BuildCtx *ctx, uint8_t *p, int n,
-			       const char *sym)
-{
-  uint32_t ins;
-  emit_asm_words(ctx, p, n-4);
-  ins = *(uint32_t *)(p+n-4);
-#if LJ_TARGET_ARM
-  if ((ins & 0xff000000u) == 0xfa000000u) {
-    fprintf(ctx->fp, "\tblx %s\n", sym);
-  } else if ((ins & 0x0e000000u) == 0x0a000000u) {
-    fprintf(ctx->fp, "\t%s%.2s %s\n", (ins & 0x01000000u) ? "bl" : "b",
-	    &"eqnecsccmiplvsvchilsgeltgtle"[2*(ins >> 28)], sym);
-  } else {
-    fprintf(stderr,
-	    "Error: unsupported opcode %08x for %s symbol relocation.\n",
-	    ins, sym);
-    exit(1);
-  }
-#elif LJ_TARGET_PPC || LJ_TARGET_PPCSPE
-#if LJ_TARGET_PS3
-#define TOCPREFIX "."
-#else
-#define TOCPREFIX ""
-#endif
-  if ((ins >> 26) == 16) {
-    fprintf(ctx->fp, "\t%s %d, %d, " TOCPREFIX "%s\n",
-	    (ins & 1) ? "bcl" : "bc", (ins >> 21) & 31, (ins >> 16) & 31, sym);
-  } else if ((ins >> 26) == 18) {
-    fprintf(ctx->fp, "\t%s " TOCPREFIX "%s\n", (ins & 1) ? "bl" : "b", sym);
-  } else {
-    fprintf(stderr,
-	    "Error: unsupported opcode %08x for %s symbol relocation.\n",
-	    ins, sym);
-    exit(1);
-  }
-#elif LJ_TARGET_MIPS
-  fprintf(stderr,
-	  "Error: unsupported opcode %08x for %s symbol relocation.\n",
-	  ins, sym);
-  exit(1);
-#else
-#error "missing relocation support for this architecture"
-#endif
-}
-#endif
-
-#if LJ_TARGET_ARM
-#define ELFASM_PX	"%%"
-#else
-#define ELFASM_PX	"@"
-#endif
-
-/* Emit an assembler label. */
-static void emit_asm_label(BuildCtx *ctx, const char *name, int size, int isfunc)
-{
-  switch (ctx->mode) {
-  case BUILD_elfasm:
-#if LJ_TARGET_PS3
-    if (!strncmp(name, "lj_vm_", 6) &&
-	strcmp(name, ctx->beginsym) &&
-	!strstr(name, "hook")) {
-      fprintf(ctx->fp,
-	"\n\t.globl %s\n"
-	"\t.section \".opd\",\"aw\"\n"
-	"%s:\n"
-	"\t.long .%s,.TOC.@tocbase32\n"
-	"\t.size %s,8\n"
-	"\t.previous\n"
-	"\t.globl .%s\n"
-	"\t.hidden .%s\n"
-	"\t.type .%s, " ELFASM_PX "function\n"
-	"\t.size .%s, %d\n"
-	".%s:\n",
-	name, name, name, name, name, name, name, name, size, name);
-      break;
-    }
-#endif
-    fprintf(ctx->fp,
-      "\n\t.globl %s\n"
-      "\t.hidden %s\n"
-      "\t.type %s, " ELFASM_PX "%s\n"
-      "\t.size %s, %d\n"
-      "%s:\n",
-      name, name, name, isfunc ? "function" : "object", name, size, name);
-    break;
-  case BUILD_coffasm:
-    fprintf(ctx->fp, "\n\t.globl %s\n", name);
-    if (isfunc)
-      fprintf(ctx->fp, "\t.def %s; .scl 3; .type 32; .endef\n", name);
-    fprintf(ctx->fp, "%s:\n", name);
-    break;
-  case BUILD_machasm:
-    fprintf(ctx->fp,
-      "\n\t.private_extern %s\n"
-      "%s:\n", name, name);
-    break;
-  default:
-    break;
-  }
-}
-
-/* Emit alignment. */
-static void emit_asm_align(BuildCtx *ctx, int bits)
-{
-  switch (ctx->mode) {
-  case BUILD_elfasm:
-  case BUILD_coffasm:
-    fprintf(ctx->fp, "\t.p2align %d\n", bits);
-    break;
-  case BUILD_machasm:
-    fprintf(ctx->fp, "\t.align %d\n", bits);
-    break;
-  default:
-    break;
-  }
-}
-
-/* ------------------------------------------------------------------------ */
-
-/* Emit assembler source code. */
-void emit_asm(BuildCtx *ctx)
-{
-  int i, rel;
-
-  fprintf(ctx->fp, "\t.file \"buildvm_%s.dasc\"\n", ctx->dasm_arch);
-  fprintf(ctx->fp, "\t.text\n");
-  emit_asm_align(ctx, 4);
-
-#if LJ_TARGET_PS3
-  emit_asm_label(ctx, ctx->beginsym, ctx->codesz, 0);
-#else
-  emit_asm_label(ctx, ctx->beginsym, 0, 0);
-#endif
-  if (ctx->mode != BUILD_machasm)
-    fprintf(ctx->fp, ".Lbegin:\n");
-
-#if LJ_TARGET_ARM && defined(__GNUC__) && !LJ_NO_UNWIND
-  /* This should really be moved into buildvm_arm.dasc. */
-  fprintf(ctx->fp,
-	  ".fnstart\n"
-	  ".save {r4, r5, r6, r7, r8, r9, r10, r11, lr}\n"
-	  ".pad #28\n");
-#endif
-#if LJ_TARGET_MIPS
-  fprintf(ctx->fp, ".set nomips16\n.abicalls\n.set noreorder\n.set nomacro\n");
-#endif
-
-  for (i = rel = 0; i < ctx->nsym; i++) {
-    int32_t ofs = ctx->sym[i].ofs;
-    int32_t next = ctx->sym[i+1].ofs;
-#if LJ_TARGET_ARM && defined(__GNUC__) && !LJ_NO_UNWIND && LJ_HASFFI
-    if (!strcmp(ctx->sym[i].name, "lj_vm_ffi_call"))
-      fprintf(ctx->fp,
-	      ".globl lj_err_unwind_arm\n"
-	      ".personality lj_err_unwind_arm\n"
-	      ".fnend\n"
-	      ".fnstart\n"
-	      ".save {r4, r5, r11, lr}\n"
-	      ".setfp r11, sp\n");
-#endif
-    emit_asm_label(ctx, ctx->sym[i].name, next - ofs, 1);
-    while (rel < ctx->nreloc && ctx->reloc[rel].ofs <= next) {
-      BuildReloc *r = &ctx->reloc[rel];
-      int n = r->ofs - ofs;
-#if LJ_TARGET_X86ORX64
-      if (ctx->mode == BUILD_machasm && r->type != 0) {
-	emit_asm_reloc_mach(ctx, ctx->code+ofs, n, ctx->relocsym[r->sym]);
-      } else {
-	emit_asm_bytes(ctx, ctx->code+ofs, n);
-	emit_asm_reloc(ctx, r->type, ctx->relocsym[r->sym]);
-      }
-      ofs += n+4;
-#else
-      emit_asm_wordreloc(ctx, ctx->code+ofs, n, ctx->relocsym[r->sym]);
-      ofs += n;
-#endif
-      rel++;
-    }
-#if LJ_TARGET_X86ORX64
-    emit_asm_bytes(ctx, ctx->code+ofs, next-ofs);
-#else
-    emit_asm_words(ctx, ctx->code+ofs, next-ofs);
-#endif
-  }
-
-#if LJ_TARGET_ARM && defined(__GNUC__) && !LJ_NO_UNWIND
-  fprintf(ctx->fp,
-#if !LJ_HASFFI
-	  ".globl lj_err_unwind_arm\n"
-	  ".personality lj_err_unwind_arm\n"
-#endif
-	  ".fnend\n");
-#endif
-
-  fprintf(ctx->fp, "\n");
-  switch (ctx->mode) {
-  case BUILD_elfasm:
-#if !(LJ_TARGET_PS3 || LJ_TARGET_PSVITA)
-    fprintf(ctx->fp, "\t.section .note.GNU-stack,\"\"," ELFASM_PX "progbits\n");
-#endif
-#if LJ_TARGET_PPCSPE
-    /* Soft-float ABI + SPE. */
-    fprintf(ctx->fp, "\t.gnu_attribute 4, 2\n\t.gnu_attribute 8, 3\n");
-#elif LJ_TARGET_PPC && !LJ_TARGET_PS3
-    /* Hard-float ABI. */
-    fprintf(ctx->fp, "\t.gnu_attribute 4, 1\n");
-#endif
-    /* fallthrough */
-  case BUILD_coffasm:
-    fprintf(ctx->fp, "\t.ident \"%s\"\n", ctx->dasm_ident);
-    break;
-  case BUILD_machasm:
-    fprintf(ctx->fp,
-      "\t.cstring\n"
-      "\t.ascii \"%s\\0\"\n", ctx->dasm_ident);
-    break;
-  default:
-    break;
-  }
-  fprintf(ctx->fp, "\n");
-}
-
diff --git a/luajit-2.0/src/host/buildvm_fold.c b/luajit-2.0/src/host/buildvm_fold.c
deleted file mode 100644
index 7f5d9f2..0000000
--- a/luajit-2.0/src/host/buildvm_fold.c
+++ /dev/null
@@ -1,229 +0,0 @@
-/*
-** LuaJIT VM builder: IR folding hash table generator.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#include "buildvm.h"
-#include "lj_obj.h"
-#include "lj_ir.h"
-
-/* Context for the folding hash table generator. */
-static int lineno;
-static int funcidx;
-static uint32_t foldkeys[BUILD_MAX_FOLD];
-static uint32_t nkeys;
-
-/* Try to fill the hash table with keys using the hash parameters. */
-static int tryhash(uint32_t *htab, uint32_t sz, uint32_t r, int dorol)
-{
-  uint32_t i;
-  if (dorol && ((r & 31) == 0 || (r>>5) == 0))
-    return 0;  /* Avoid zero rotates. */
-  memset(htab, 0xff, (sz+1)*sizeof(uint32_t));
-  for (i = 0; i < nkeys; i++) {
-    uint32_t key = foldkeys[i];
-    uint32_t k = key & 0xffffff;
-    uint32_t h = (dorol ? lj_rol(lj_rol(k, r>>5) - k, r&31) :
-			  (((k << (r>>5)) - k) << (r&31))) % sz;
-    if (htab[h] != 0xffffffff) {  /* Collision on primary slot. */
-      if (htab[h+1] != 0xffffffff) {  /* Collision on secondary slot. */
-	/* Try to move the colliding key, if possible. */
-	if (h < sz-1 && htab[h+2] == 0xffffffff) {
-	  uint32_t k2 = htab[h+1] & 0xffffff;
-	  uint32_t h2 = (dorol ? lj_rol(lj_rol(k2, r>>5) - k2, r&31) :
-				 (((k2 << (r>>5)) - k2) << (r&31))) % sz;
-	  if (h2 != h+1) return 0;  /* Cannot resolve collision. */
-	  htab[h+2] = htab[h+1];  /* Move colliding key to secondary slot. */
-	} else {
-	  return 0;  /* Collision. */
-	}
-      }
-      htab[h+1] = key;
-    } else {
-      htab[h] = key;
-    }
-  }
-  return 1;  /* Success, all keys could be stored. */
-}
-
-/* Print the generated hash table. */
-static void printhash(BuildCtx *ctx, uint32_t *htab, uint32_t sz)
-{
-  uint32_t i;
-  fprintf(ctx->fp, "static const uint32_t fold_hash[%d] = {\n0x%08x",
-	  sz+1, htab[0]);
-  for (i = 1; i < sz+1; i++)
-    fprintf(ctx->fp, ",\n0x%08x", htab[i]);
-  fprintf(ctx->fp, "\n};\n\n");
-}
-
-/* Exhaustive search for the shortest semi-perfect hash table. */
-static void makehash(BuildCtx *ctx)
-{
-  uint32_t htab[BUILD_MAX_FOLD*2+1];
-  uint32_t sz, r;
-  /* Search for the smallest hash table with an odd size. */
-  for (sz = (nkeys|1); sz < BUILD_MAX_FOLD*2; sz += 2) {
-    /* First try all shift hash combinations. */
-    for (r = 0; r < 32*32; r++) {
-      if (tryhash(htab, sz, r, 0)) {
-	printhash(ctx, htab, sz);
-	fprintf(ctx->fp,
-		"#define fold_hashkey(k)\t(((((k)<<%u)-(k))<<%u)%%%u)\n\n",
-		r>>5, r&31, sz);
-	return;
-      }
-    }
-    /* Then try all rotate hash combinations. */
-    for (r = 0; r < 32*32; r++) {
-      if (tryhash(htab, sz, r, 1)) {
-	printhash(ctx, htab, sz);
-	fprintf(ctx->fp,
-	  "#define fold_hashkey(k)\t(lj_rol(lj_rol((k),%u)-(k),%u)%%%u)\n\n",
-		r>>5, r&31, sz);
-	return;
-      }
-    }
-  }
-  fprintf(stderr, "Error: search for perfect hash failed\n");
-  exit(1);
-}
-
-/* Parse one token of a fold rule. */
-static uint32_t nexttoken(char **pp, int allowlit, int allowany)
-{
-  char *p = *pp;
-  if (p) {
-    uint32_t i;
-    char *q = strchr(p, ' ');
-    if (q) *q++ = '\0';
-    *pp = q;
-    if (allowlit && !strncmp(p, "IRFPM_", 6)) {
-      for (i = 0; irfpm_names[i]; i++)
-	if (!strcmp(irfpm_names[i], p+6))
-	  return i;
-    } else if (allowlit && !strncmp(p, "IRFL_", 5)) {
-      for (i = 0; irfield_names[i]; i++)
-	if (!strcmp(irfield_names[i], p+5))
-	  return i;
-    } else if (allowlit && !strncmp(p, "IRCALL_", 7)) {
-      for (i = 0; ircall_names[i]; i++)
-	if (!strcmp(ircall_names[i], p+7))
-	  return i;
-    } else if (allowlit && !strncmp(p, "IRCONV_", 7)) {
-      for (i = 0; irt_names[i]; i++) {
-	const char *r = strchr(p+7, '_');
-	if (r && !strncmp(irt_names[i], p+7, r-(p+7))) {
-	  uint32_t j;
-	  for (j = 0; irt_names[j]; j++)
-	    if (!strcmp(irt_names[j], r+1))
-	      return (i << 5) + j;
-	}
-      }
-    } else if (allowlit && *p >= '0' && *p <= '9') {
-      for (i = 0; *p >= '0' && *p <= '9'; p++)
-	i = i*10 + (*p - '0');
-      if (*p == '\0')
-	return i;
-    } else if (allowany && !strcmp("any", p)) {
-      return allowany;
-    } else {
-      for (i = 0; ir_names[i]; i++)
-	if (!strcmp(ir_names[i], p))
-	  return i;
-    }
-    fprintf(stderr, "Error: bad fold definition token \"%s\" at line %d\n", p, lineno);
-    exit(1);
-  }
-  return 0;
-}
-
-/* Parse a fold rule. */
-static void foldrule(char *p)
-{
-  uint32_t op = nexttoken(&p, 0, 0);
-  uint32_t left = nexttoken(&p, 0, 0x7f);
-  uint32_t right = nexttoken(&p, 1, 0x3ff);
-  uint32_t key = (funcidx << 24) | (op << 17) | (left << 10) | right;
-  uint32_t i;
-  if (nkeys >= BUILD_MAX_FOLD) {
-    fprintf(stderr, "Error: too many fold rules, increase BUILD_MAX_FOLD.\n");
-    exit(1);
-  }
-  /* Simple insertion sort to detect duplicates. */
-  for (i = nkeys; i > 0; i--) {
-    if ((foldkeys[i-1]&0xffffff) < (key & 0xffffff))
-      break;
-    if ((foldkeys[i-1]&0xffffff) == (key & 0xffffff)) {
-      fprintf(stderr, "Error: duplicate fold definition at line %d\n", lineno);
-      exit(1);
-    }
-    foldkeys[i] = foldkeys[i-1];
-  }
-  foldkeys[i] = key;
-  nkeys++;
-}
-
-/* Emit C source code for IR folding hash table. */
-void emit_fold(BuildCtx *ctx)
-{
-  char buf[256];  /* We don't care about analyzing lines longer than that. */
-  const char *fname = ctx->args[0];
-  FILE *fp;
-
-  if (fname == NULL) {
-    fprintf(stderr, "Error: missing input filename\n");
-    exit(1);
-  }
-
-  if (fname[0] == '-' && fname[1] == '\0') {
-    fp = stdin;
-  } else {
-    fp = fopen(fname, "r");
-    if (!fp) {
-      fprintf(stderr, "Error: cannot open input file '%s': %s\n",
-	      fname, strerror(errno));
-      exit(1);
-    }
-  }
-
-  fprintf(ctx->fp, "/* This is a generated file. DO NOT EDIT! */\n\n");
-  fprintf(ctx->fp, "static const FoldFunc fold_func[] = {\n");
-
-  lineno = 0;
-  funcidx = 0;
-  nkeys = 0;
-  while (fgets(buf, sizeof(buf), fp) != NULL) {
-    lineno++;
-    /* The prefix must be at the start of a line, otherwise it's ignored. */
-    if (!strncmp(buf, FOLDDEF_PREFIX, sizeof(FOLDDEF_PREFIX)-1)) {
-      char *p = buf+sizeof(FOLDDEF_PREFIX)-1;
-      char *q = strchr(p, ')');
-      if (p[0] == '(' && q) {
-	p++;
-	*q = '\0';
-	foldrule(p);
-      } else if ((p[0] == 'F' || p[0] == 'X') && p[1] == '(' && q) {
-	p += 2;
-	*q = '\0';
-	if (funcidx)
-	  fprintf(ctx->fp, ",\n");
-	if (p[-2] == 'X')
-	  fprintf(ctx->fp, "  %s", p);
-	else
-	  fprintf(ctx->fp, "  fold_%s", p);
-	funcidx++;
-      } else {
-	buf[strlen(buf)-1] = '\0';
-	fprintf(stderr, "Error: unknown fold definition tag %s%s at line %d\n",
-		FOLDDEF_PREFIX, p, lineno);
-	exit(1);
-      }
-    }
-  }
-  fclose(fp);
-  fprintf(ctx->fp, "\n};\n\n");
-
-  makehash(ctx);
-}
-
diff --git a/luajit-2.0/src/host/buildvm_lib.c b/luajit-2.0/src/host/buildvm_lib.c
deleted file mode 100644
index eafdab9..0000000
--- a/luajit-2.0/src/host/buildvm_lib.c
+++ /dev/null
@@ -1,398 +0,0 @@
-/*
-** LuaJIT VM builder: library definition compiler.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#include "buildvm.h"
-#include "lj_obj.h"
-#include "lj_lib.h"
-
-/* Context for library definitions. */
-static uint8_t obuf[8192];
-static uint8_t *optr;
-static char modname[80];
-static size_t modnamelen;
-static char funcname[80];
-static int modstate, regfunc;
-static int ffid, recffid, ffasmfunc;
-
-enum {
-  REGFUNC_OK,
-  REGFUNC_NOREG,
-  REGFUNC_NOREGUV
-};
-
-static void libdef_name(const char *p, int kind)
-{
-  size_t n = strlen(p);
-  if (kind != LIBINIT_STRING) {
-    if (n > modnamelen && p[modnamelen] == '_' &&
-	!strncmp(p, modname, modnamelen)) {
-      p += modnamelen+1;
-      n -= modnamelen+1;
-    }
-  }
-  if (n > LIBINIT_MAXSTR) {
-    fprintf(stderr, "Error: string too long: '%s'\n",  p);
-    exit(1);
-  }
-  if (optr+1+n+2 > obuf+sizeof(obuf)) {  /* +2 for caller. */
-    fprintf(stderr, "Error: output buffer overflow\n");
-    exit(1);
-  }
-  *optr++ = (uint8_t)(n | kind);
-  memcpy(optr, p, n);
-  optr += n;
-}
-
-static void libdef_endmodule(BuildCtx *ctx)
-{
-  if (modstate != 0) {
-    char line[80];
-    const uint8_t *p;
-    int n;
-    if (modstate == 1)
-      fprintf(ctx->fp, "  (lua_CFunction)0");
-    fprintf(ctx->fp, "\n};\n");
-    fprintf(ctx->fp, "static const uint8_t %s%s[] = {\n",
-	    LABEL_PREFIX_LIBINIT, modname);
-    line[0] = '\0';
-    for (n = 0, p = obuf; p < optr; p++) {
-      n += sprintf(line+n, "%d,", *p);
-      if (n >= 75) {
-	fprintf(ctx->fp, "%s\n", line);
-	n = 0;
-	line[0] = '\0';
-      }
-    }
-    fprintf(ctx->fp, "%s%d\n};\n#endif\n\n", line, LIBINIT_END);
-  }
-}
-
-static void libdef_module(BuildCtx *ctx, char *p, int arg)
-{
-  UNUSED(arg);
-  if (ctx->mode == BUILD_libdef) {
-    libdef_endmodule(ctx);
-    optr = obuf;
-    *optr++ = (uint8_t)ffid;
-    *optr++ = (uint8_t)ffasmfunc;
-    *optr++ = 0;  /* Hash table size. */
-    modstate = 1;
-    fprintf(ctx->fp, "#ifdef %sMODULE_%s\n", LIBDEF_PREFIX, p);
-    fprintf(ctx->fp, "#undef %sMODULE_%s\n", LIBDEF_PREFIX, p);
-    fprintf(ctx->fp, "static const lua_CFunction %s%s[] = {\n",
-	    LABEL_PREFIX_LIBCF, p);
-  }
-  modnamelen = strlen(p);
-  if (modnamelen > sizeof(modname)-1) {
-    fprintf(stderr, "Error: module name too long: '%s'\n", p);
-    exit(1);
-  }
-  strcpy(modname, p);
-}
-
-static int find_ffofs(BuildCtx *ctx, const char *name)
-{
-  int i;
-  for (i = 0; i < ctx->nglob; i++) {
-    const char *gl = ctx->globnames[i];
-    if (gl[0] == 'f' && gl[1] == 'f' && gl[2] == '_' && !strcmp(gl+3, name)) {
-      return (int)((uint8_t *)ctx->glob[i] - ctx->code);
-    }
-  }
-  fprintf(stderr, "Error: undefined fast function %s%s\n",
-	  LABEL_PREFIX_FF, name);
-  exit(1);
-}
-
-static void libdef_func(BuildCtx *ctx, char *p, int arg)
-{
-  if (arg != LIBINIT_CF)
-    ffasmfunc++;
-  if (ctx->mode == BUILD_libdef) {
-    if (modstate == 0) {
-      fprintf(stderr, "Error: no module for function definition %s\n", p);
-      exit(1);
-    }
-    if (regfunc == REGFUNC_NOREG) {
-      if (optr+1 > obuf+sizeof(obuf)) {
-	fprintf(stderr, "Error: output buffer overflow\n");
-	exit(1);
-      }
-      *optr++ = LIBINIT_FFID;
-    } else {
-      if (arg != LIBINIT_ASM_) {
-	if (modstate != 1) fprintf(ctx->fp, ",\n");
-	modstate = 2;
-	fprintf(ctx->fp, "  %s%s", arg ? LABEL_PREFIX_FFH : LABEL_PREFIX_CF, p);
-      }
-      if (regfunc != REGFUNC_NOREGUV) obuf[2]++;  /* Bump hash table size. */
-      libdef_name(regfunc == REGFUNC_NOREGUV ? "" : p, arg);
-    }
-  } else if (ctx->mode == BUILD_ffdef) {
-    fprintf(ctx->fp, "FFDEF(%s)\n", p);
-  } else if (ctx->mode == BUILD_recdef) {
-    if (strlen(p) > sizeof(funcname)-1) {
-      fprintf(stderr, "Error: function name too long: '%s'\n", p);
-      exit(1);
-    }
-    strcpy(funcname, p);
-  } else if (ctx->mode == BUILD_vmdef) {
-    int i;
-    for (i = 1; p[i] && modname[i-1]; i++)
-      if (p[i] == '_') p[i] = '.';
-    fprintf(ctx->fp, "\"%s\",\n", p);
-  } else if (ctx->mode == BUILD_bcdef) {
-    if (arg != LIBINIT_CF)
-      fprintf(ctx->fp, ",\n%d", find_ffofs(ctx, p));
-  }
-  ffid++;
-  regfunc = REGFUNC_OK;
-}
-
-static uint32_t find_rec(char *name)
-{
-  char *p = (char *)obuf;
-  uint32_t n;
-  for (n = 2; *p; n++) {
-    if (strcmp(p, name) == 0)
-      return n;
-    p += strlen(p)+1;
-  }
-  if (p+strlen(name)+1 >= (char *)obuf+sizeof(obuf)) {
-    fprintf(stderr, "Error: output buffer overflow\n");
-    exit(1);
-  }
-  strcpy(p, name);
-  return n;
-}
-
-static void libdef_rec(BuildCtx *ctx, char *p, int arg)
-{
-  UNUSED(arg);
-  if (ctx->mode == BUILD_recdef) {
-    char *q;
-    uint32_t n;
-    for (; recffid+1 < ffid; recffid++)
-      fprintf(ctx->fp, ",\n0");
-    recffid = ffid;
-    if (*p == '.') p = funcname;
-    q = strchr(p, ' ');
-    if (q) *q++ = '\0';
-    n = find_rec(p);
-    if (q)
-      fprintf(ctx->fp, ",\n0x%02x00+(%s)", n, q);
-    else
-      fprintf(ctx->fp, ",\n0x%02x00", n);
-  }
-}
-
-static void memcpy_endian(void *dst, void *src, size_t n)
-{
-  union { uint8_t b; uint32_t u; } host_endian;
-  host_endian.u = 1;
-  if (host_endian.b == LJ_ENDIAN_SELECT(1, 0)) {
-    memcpy(dst, src, n);
-  } else {
-    size_t i;
-    for (i = 0; i < n; i++)
-      ((uint8_t *)dst)[i] = ((uint8_t *)src)[n-i-1];
-  }
-}
-
-static void libdef_push(BuildCtx *ctx, char *p, int arg)
-{
-  UNUSED(arg);
-  if (ctx->mode == BUILD_libdef) {
-    int len = (int)strlen(p);
-    if (*p == '"') {
-      if (len > 1 && p[len-1] == '"') {
-	p[len-1] = '\0';
-	libdef_name(p+1, LIBINIT_STRING);
-	return;
-      }
-    } else if (*p >= '0' && *p <= '9') {
-      char *ep;
-      double d = strtod(p, &ep);
-      if (*ep == '\0') {
-	if (optr+1+sizeof(double) > obuf+sizeof(obuf)) {
-	  fprintf(stderr, "Error: output buffer overflow\n");
-	  exit(1);
-	}
-	*optr++ = LIBINIT_NUMBER;
-	memcpy_endian(optr, &d, sizeof(double));
-	optr += sizeof(double);
-	return;
-      }
-    } else if (!strcmp(p, "lastcl")) {
-      if (optr+1 > obuf+sizeof(obuf)) {
-	fprintf(stderr, "Error: output buffer overflow\n");
-	exit(1);
-      }
-      *optr++ = LIBINIT_LASTCL;
-      return;
-    } else if (len > 4 && !strncmp(p, "top-", 4)) {
-      if (optr+2 > obuf+sizeof(obuf)) {
-	fprintf(stderr, "Error: output buffer overflow\n");
-	exit(1);
-      }
-      *optr++ = LIBINIT_COPY;
-      *optr++ = (uint8_t)atoi(p+4);
-      return;
-    }
-    fprintf(stderr, "Error: bad value for %sPUSH(%s)\n", LIBDEF_PREFIX, p);
-    exit(1);
-  }
-}
-
-static void libdef_set(BuildCtx *ctx, char *p, int arg)
-{
-  UNUSED(arg);
-  if (ctx->mode == BUILD_libdef) {
-    if (p[0] == '!' && p[1] == '\0') p[0] = '\0';  /* Set env. */
-    libdef_name(p, LIBINIT_STRING);
-    *optr++ = LIBINIT_SET;
-    obuf[2]++;  /* Bump hash table size. */
-  }
-}
-
-static void libdef_regfunc(BuildCtx *ctx, char *p, int arg)
-{
-  UNUSED(ctx); UNUSED(p);
-  regfunc = arg;
-}
-
-typedef void (*LibDefFunc)(BuildCtx *ctx, char *p, int arg);
-
-typedef struct LibDefHandler {
-  const char *suffix;
-  const char *stop;
-  const LibDefFunc func;
-  const int arg;
-} LibDefHandler;
-
-static const LibDefHandler libdef_handlers[] = {
-  { "MODULE_",	" \t\r\n",	libdef_module,		0 },
-  { "CF(",	")",		libdef_func,		LIBINIT_CF },
-  { "ASM(",	")",		libdef_func,		LIBINIT_ASM },
-  { "ASM_(",	")",		libdef_func,		LIBINIT_ASM_ },
-  { "REC(",	")",		libdef_rec,		0 },
-  { "PUSH(",	")",		libdef_push,		0 },
-  { "SET(",	")",		libdef_set,		0 },
-  { "NOREGUV",	NULL,		libdef_regfunc,		REGFUNC_NOREGUV },
-  { "NOREG",	NULL,		libdef_regfunc,		REGFUNC_NOREG },
-  { NULL,	NULL,		(LibDefFunc)0,		0 }
-};
-
-/* Emit C source code for library function definitions. */
-void emit_lib(BuildCtx *ctx)
-{
-  const char *fname;
-
-  if (ctx->mode == BUILD_ffdef || ctx->mode == BUILD_libdef ||
-      ctx->mode == BUILD_recdef)
-    fprintf(ctx->fp, "/* This is a generated file. DO NOT EDIT! */\n\n");
-  else if (ctx->mode == BUILD_vmdef)
-    fprintf(ctx->fp, "ffnames = {\n[0]=\"Lua\",\n\"C\",\n");
-  if (ctx->mode == BUILD_recdef)
-    fprintf(ctx->fp, "static const uint16_t recff_idmap[] = {\n0,\n0x0100");
-  recffid = ffid = FF_C+1;
-  ffasmfunc = 0;
-
-  while ((fname = *ctx->args++)) {
-    char buf[256];  /* We don't care about analyzing lines longer than that. */
-    FILE *fp;
-    if (fname[0] == '-' && fname[1] == '\0') {
-      fp = stdin;
-    } else {
-      fp = fopen(fname, "r");
-      if (!fp) {
-	fprintf(stderr, "Error: cannot open input file '%s': %s\n",
-		fname, strerror(errno));
-	exit(1);
-      }
-    }
-    modstate = 0;
-    regfunc = REGFUNC_OK;
-    while (fgets(buf, sizeof(buf), fp) != NULL) {
-      char *p;
-      /* Simplistic pre-processor. Only handles top-level #if/#endif. */
-      if (buf[0] == '#' && buf[1] == 'i' && buf[2] == 'f') {
-	int ok = 1;
-	if (!strcmp(buf, "#if LJ_52\n"))
-	  ok = LJ_52;
-	else if (!strcmp(buf, "#if LJ_HASJIT\n"))
-	  ok = LJ_HASJIT;
-	else if (!strcmp(buf, "#if LJ_HASFFI\n"))
-	  ok = LJ_HASFFI;
-	if (!ok) {
-	  int lvl = 1;
-	  while (fgets(buf, sizeof(buf), fp) != NULL) {
-	    if (buf[0] == '#' && buf[1] == 'e' && buf[2] == 'n') {
-	      if (--lvl == 0) break;
-	    } else if (buf[0] == '#' && buf[1] == 'i' && buf[2] == 'f') {
-	      lvl++;
-	    }
-	  }
-	  continue;
-	}
-      }
-      for (p = buf; (p = strstr(p, LIBDEF_PREFIX)) != NULL; ) {
-	const LibDefHandler *ldh;
-	p += sizeof(LIBDEF_PREFIX)-1;
-	for (ldh = libdef_handlers; ldh->suffix != NULL; ldh++) {
-	  size_t n, len = strlen(ldh->suffix);
-	  if (!strncmp(p, ldh->suffix, len)) {
-	    p += len;
-	    n = ldh->stop ? strcspn(p, ldh->stop) : 0;
-	    if (!p[n]) break;
-	    p[n] = '\0';
-	    ldh->func(ctx, p, ldh->arg);
-	    p += n+1;
-	    break;
-	  }
-	}
-	if (ldh->suffix == NULL) {
-	  buf[strlen(buf)-1] = '\0';
-	  fprintf(stderr, "Error: unknown library definition tag %s%s\n",
-		  LIBDEF_PREFIX, p);
-	  exit(1);
-	}
-      }
-    }
-    fclose(fp);
-    if (ctx->mode == BUILD_libdef) {
-      libdef_endmodule(ctx);
-    }
-  }
-
-  if (ctx->mode == BUILD_ffdef) {
-    fprintf(ctx->fp, "\n#undef FFDEF\n\n");
-    fprintf(ctx->fp,
-      "#ifndef FF_NUM_ASMFUNC\n#define FF_NUM_ASMFUNC %d\n#endif\n\n",
-      ffasmfunc);
-  } else if (ctx->mode == BUILD_vmdef) {
-    fprintf(ctx->fp, "}\n\n");
-  } else if (ctx->mode == BUILD_bcdef) {
-    int i;
-    fprintf(ctx->fp, "\n};\n\n");
-    fprintf(ctx->fp, "LJ_DATADEF const uint16_t lj_bc_mode[] = {\n");
-    fprintf(ctx->fp, "BCDEF(BCMODE)\n");
-    for (i = ffasmfunc-1; i > 0; i--)
-      fprintf(ctx->fp, "BCMODE_FF,\n");
-    fprintf(ctx->fp, "BCMODE_FF\n};\n\n");
-  } else if (ctx->mode == BUILD_recdef) {
-    char *p = (char *)obuf;
-    fprintf(ctx->fp, "\n};\n\n");
-    fprintf(ctx->fp, "static const RecordFunc recff_func[] = {\n"
-	    "recff_nyi,\n"
-	    "recff_c");
-    while (*p) {
-      fprintf(ctx->fp, ",\nrecff_%s", p);
-      p += strlen(p)+1;
-    }
-    fprintf(ctx->fp, "\n};\n\n");
-  }
-}
-
diff --git a/luajit-2.0/src/host/buildvm_peobj.c b/luajit-2.0/src/host/buildvm_peobj.c
deleted file mode 100644
index 138b042..0000000
--- a/luajit-2.0/src/host/buildvm_peobj.c
+++ /dev/null
@@ -1,368 +0,0 @@
-/*
-** LuaJIT VM builder: PE object emitter.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-**
-** Only used for building on Windows, since we cannot assume the presence
-** of a suitable assembler. The host and target byte order must match.
-*/
-
-#include "buildvm.h"
-#include "lj_bc.h"
-
-#if LJ_TARGET_X86ORX64 || LJ_TARGET_PPC
-
-/* Context for PE object emitter. */
-static char *strtab;
-static size_t strtabofs;
-
-/* -- PE object definitions ----------------------------------------------- */
-
-/* PE header. */
-typedef struct PEheader {
-  uint16_t arch;
-  uint16_t nsects;
-  uint32_t time;
-  uint32_t symtabofs;
-  uint32_t nsyms;
-  uint16_t opthdrsz;
-  uint16_t flags;
-} PEheader;
-
-/* PE section. */
-typedef struct PEsection {
-  char name[8];
-  uint32_t vsize;
-  uint32_t vaddr;
-  uint32_t size;
-  uint32_t ofs;
-  uint32_t relocofs;
-  uint32_t lineofs;
-  uint16_t nreloc;
-  uint16_t nline;
-  uint32_t flags;
-} PEsection;
-
-/* PE relocation. */
-typedef struct PEreloc {
-  uint32_t vaddr;
-  uint32_t symidx;
-  uint16_t type;
-} PEreloc;
-
-/* Cannot use sizeof, because it pads up to the max. alignment. */
-#define PEOBJ_RELOC_SIZE	(4+4+2)
-
-/* PE symbol table entry. */
-typedef struct PEsym {
-  union {
-    char name[8];
-    uint32_t nameref[2];
-  } n;
-  uint32_t value;
-  int16_t sect;
-  uint16_t type;
-  uint8_t scl;
-  uint8_t naux;
-} PEsym;
-
-/* PE symbol table auxiliary entry for a section. */
-typedef struct PEsymaux {
-  uint32_t size;
-  uint16_t nreloc;
-  uint16_t nline;
-  uint32_t cksum;
-  uint16_t assoc;
-  uint8_t comdatsel;
-  uint8_t unused[3];
-} PEsymaux;
-
-/* Cannot use sizeof, because it pads up to the max. alignment. */
-#define PEOBJ_SYM_SIZE	(8+4+2+2+1+1)
-
-/* PE object CPU specific defines. */
-#if LJ_TARGET_X86
-#define PEOBJ_ARCH_TARGET	0x014c
-#define PEOBJ_RELOC_REL32	0x14  /* MS: REL32, GNU: DISP32. */
-#define PEOBJ_RELOC_DIR32	0x06
-#define PEOBJ_RELOC_OFS		0
-#define PEOBJ_TEXT_FLAGS	0x60500020  /* 60=r+x, 50=align16, 20=code. */
-#elif LJ_TARGET_X64
-#define PEOBJ_ARCH_TARGET	0x8664
-#define PEOBJ_RELOC_REL32	0x04  /* MS: REL32, GNU: DISP32. */
-#define PEOBJ_RELOC_DIR32	0x02
-#define PEOBJ_RELOC_ADDR32NB	0x03
-#define PEOBJ_RELOC_OFS		0
-#define PEOBJ_TEXT_FLAGS	0x60500020  /* 60=r+x, 50=align16, 20=code. */
-#elif LJ_TARGET_PPC
-#define PEOBJ_ARCH_TARGET	0x01f2
-#define PEOBJ_RELOC_REL32	0x06
-#define PEOBJ_RELOC_DIR32	0x02
-#define PEOBJ_RELOC_OFS		(-4)
-#define PEOBJ_TEXT_FLAGS	0x60400020  /* 60=r+x, 40=align8, 20=code. */
-#endif
-
-/* Section numbers (0-based). */
-enum {
-  PEOBJ_SECT_ABS = -2,
-  PEOBJ_SECT_UNDEF = -1,
-  PEOBJ_SECT_TEXT,
-#if LJ_TARGET_X64
-  PEOBJ_SECT_PDATA,
-  PEOBJ_SECT_XDATA,
-#endif
-  PEOBJ_SECT_RDATA_Z,
-  PEOBJ_NSECTIONS
-};
-
-/* Symbol types. */
-#define PEOBJ_TYPE_NULL		0
-#define PEOBJ_TYPE_FUNC		0x20
-
-/* Symbol storage class. */
-#define PEOBJ_SCL_EXTERN	2
-#define PEOBJ_SCL_STATIC	3
-
-/* -- PE object emitter --------------------------------------------------- */
-
-/* Emit PE object symbol. */
-static void emit_peobj_sym(BuildCtx *ctx, const char *name, uint32_t value,
-			   int sect, int type, int scl)
-{
-  PEsym sym;
-  size_t len = strlen(name);
-  if (!strtab) {  /* Pass 1: only calculate string table length. */
-    if (len > 8) strtabofs += len+1;
-    return;
-  }
-  if (len <= 8) {
-    memcpy(sym.n.name, name, len);
-    memset(sym.n.name+len, 0, 8-len);
-  } else {
-    sym.n.nameref[0] = 0;
-    sym.n.nameref[1] = (uint32_t)strtabofs;
-    memcpy(strtab + strtabofs, name, len);
-    strtab[strtabofs+len] = 0;
-    strtabofs += len+1;
-  }
-  sym.value = value;
-  sym.sect = (int16_t)(sect+1);  /* 1-based section number. */
-  sym.type = (uint16_t)type;
-  sym.scl = (uint8_t)scl;
-  sym.naux = 0;
-  owrite(ctx, &sym, PEOBJ_SYM_SIZE);
-}
-
-/* Emit PE object section symbol. */
-static void emit_peobj_sym_sect(BuildCtx *ctx, PEsection *pesect, int sect)
-{
-  PEsym sym;
-  PEsymaux aux;
-  if (!strtab) return;  /* Pass 1: no output. */
-  memcpy(sym.n.name, pesect[sect].name, 8);
-  sym.value = 0;
-  sym.sect = (int16_t)(sect+1);  /* 1-based section number. */
-  sym.type = PEOBJ_TYPE_NULL;
-  sym.scl = PEOBJ_SCL_STATIC;
-  sym.naux = 1;
-  owrite(ctx, &sym, PEOBJ_SYM_SIZE);
-  memset(&aux, 0, sizeof(PEsymaux));
-  aux.size = pesect[sect].size;
-  aux.nreloc = pesect[sect].nreloc;
-  owrite(ctx, &aux, PEOBJ_SYM_SIZE);
-}
-
-/* Emit Windows PE object file. */
-void emit_peobj(BuildCtx *ctx)
-{
-  PEheader pehdr;
-  PEsection pesect[PEOBJ_NSECTIONS];
-  uint32_t sofs;
-  int i, nrsym;
-  union { uint8_t b; uint32_t u; } host_endian;
-
-  sofs = sizeof(PEheader) + PEOBJ_NSECTIONS*sizeof(PEsection);
-
-  /* Fill in PE sections. */
-  memset(&pesect, 0, PEOBJ_NSECTIONS*sizeof(PEsection));
-  memcpy(pesect[PEOBJ_SECT_TEXT].name, ".text", sizeof(".text")-1);
-  pesect[PEOBJ_SECT_TEXT].ofs = sofs;
-  sofs += (pesect[PEOBJ_SECT_TEXT].size = (uint32_t)ctx->codesz);
-  pesect[PEOBJ_SECT_TEXT].relocofs = sofs;
-  sofs += (pesect[PEOBJ_SECT_TEXT].nreloc = (uint16_t)ctx->nreloc) * PEOBJ_RELOC_SIZE;
-  /* Flags: 60 = read+execute, 50 = align16, 20 = code. */
-  pesect[PEOBJ_SECT_TEXT].flags = PEOBJ_TEXT_FLAGS;
-
-#if LJ_TARGET_X64
-  memcpy(pesect[PEOBJ_SECT_PDATA].name, ".pdata", sizeof(".pdata")-1);
-  pesect[PEOBJ_SECT_PDATA].ofs = sofs;
-  sofs += (pesect[PEOBJ_SECT_PDATA].size = 6*4);
-  pesect[PEOBJ_SECT_PDATA].relocofs = sofs;
-  sofs += (pesect[PEOBJ_SECT_PDATA].nreloc = 6) * PEOBJ_RELOC_SIZE;
-  /* Flags: 40 = read, 30 = align4, 40 = initialized data. */
-  pesect[PEOBJ_SECT_PDATA].flags = 0x40300040;
-
-  memcpy(pesect[PEOBJ_SECT_XDATA].name, ".xdata", sizeof(".xdata")-1);
-  pesect[PEOBJ_SECT_XDATA].ofs = sofs;
-  sofs += (pesect[PEOBJ_SECT_XDATA].size = 8*2+4+6*2);  /* See below. */
-  pesect[PEOBJ_SECT_XDATA].relocofs = sofs;
-  sofs += (pesect[PEOBJ_SECT_XDATA].nreloc = 1) * PEOBJ_RELOC_SIZE;
-  /* Flags: 40 = read, 30 = align4, 40 = initialized data. */
-  pesect[PEOBJ_SECT_XDATA].flags = 0x40300040;
-#endif
-
-  memcpy(pesect[PEOBJ_SECT_RDATA_Z].name, ".rdata$Z", sizeof(".rdata$Z")-1);
-  pesect[PEOBJ_SECT_RDATA_Z].ofs = sofs;
-  sofs += (pesect[PEOBJ_SECT_RDATA_Z].size = (uint32_t)strlen(ctx->dasm_ident)+1);
-  /* Flags: 40 = read, 30 = align4, 40 = initialized data. */
-  pesect[PEOBJ_SECT_RDATA_Z].flags = 0x40300040;
-
-  /* Fill in PE header. */
-  pehdr.arch = PEOBJ_ARCH_TARGET;
-  pehdr.nsects = PEOBJ_NSECTIONS;
-  pehdr.time = 0;  /* Timestamp is optional. */
-  pehdr.symtabofs = sofs;
-  pehdr.opthdrsz = 0;
-  pehdr.flags = 0;
-
-  /* Compute the size of the symbol table:
-  ** @feat.00 + nsections*2
-  ** + asm_start + nsym
-  ** + nrsym
-  */
-  nrsym = ctx->nrelocsym;
-  pehdr.nsyms = 1+PEOBJ_NSECTIONS*2 + 1+ctx->nsym + nrsym;
-#if LJ_TARGET_X64
-  pehdr.nsyms += 1;  /* Symbol for lj_err_unwind_win64. */
-#endif
-
-  /* Write PE object header and all sections. */
-  owrite(ctx, &pehdr, sizeof(PEheader));
-  owrite(ctx, &pesect, sizeof(PEsection)*PEOBJ_NSECTIONS);
-
-  /* Write .text section. */
-  host_endian.u = 1;
-  if (host_endian.b != LJ_ENDIAN_SELECT(1, 0)) {
-#if LJ_TARGET_PPC
-    uint32_t *p = (uint32_t *)ctx->code;
-    int n = (int)(ctx->codesz >> 2);
-    for (i = 0; i < n; i++, p++)
-      *p = lj_bswap(*p);  /* Byteswap .text section. */
-#else
-    fprintf(stderr, "Error: different byte order for host and target\n");
-    exit(1);
-#endif
-  }
-  owrite(ctx, ctx->code, ctx->codesz);
-  for (i = 0; i < ctx->nreloc; i++) {
-    PEreloc reloc;
-    reloc.vaddr = (uint32_t)ctx->reloc[i].ofs + PEOBJ_RELOC_OFS;
-    reloc.symidx = 1+2+ctx->reloc[i].sym;  /* Reloc syms are after .text sym. */
-    reloc.type = ctx->reloc[i].type ? PEOBJ_RELOC_REL32 : PEOBJ_RELOC_DIR32;
-    owrite(ctx, &reloc, PEOBJ_RELOC_SIZE);
-  }
-
-#if LJ_TARGET_X64
-  { /* Write .pdata section. */
-    uint32_t fcofs = (uint32_t)ctx->sym[ctx->nsym-1].ofs;
-    uint32_t pdata[3];  /* Start of .text, end of .text and .xdata. */
-    PEreloc reloc;
-    pdata[0] = 0; pdata[1] = fcofs; pdata[2] = 0;
-    owrite(ctx, &pdata, sizeof(pdata));
-    pdata[0] = fcofs; pdata[1] = (uint32_t)ctx->codesz; pdata[2] = 20;
-    owrite(ctx, &pdata, sizeof(pdata));
-    reloc.vaddr = 0; reloc.symidx = 1+2+nrsym+2+2+1;
-    reloc.type = PEOBJ_RELOC_ADDR32NB;
-    owrite(ctx, &reloc, PEOBJ_RELOC_SIZE);
-    reloc.vaddr = 4; reloc.symidx = 1+2+nrsym+2+2+1;
-    reloc.type = PEOBJ_RELOC_ADDR32NB;
-    owrite(ctx, &reloc, PEOBJ_RELOC_SIZE);
-    reloc.vaddr = 8; reloc.symidx = 1+2+nrsym+2;
-    reloc.type = PEOBJ_RELOC_ADDR32NB;
-    owrite(ctx, &reloc, PEOBJ_RELOC_SIZE);
-    reloc.vaddr = 12; reloc.symidx = 1+2+nrsym+2+2+1;
-    reloc.type = PEOBJ_RELOC_ADDR32NB;
-    owrite(ctx, &reloc, PEOBJ_RELOC_SIZE);
-    reloc.vaddr = 16; reloc.symidx = 1+2+nrsym+2+2+1;
-    reloc.type = PEOBJ_RELOC_ADDR32NB;
-    owrite(ctx, &reloc, PEOBJ_RELOC_SIZE);
-    reloc.vaddr = 20; reloc.symidx = 1+2+nrsym+2;
-    reloc.type = PEOBJ_RELOC_ADDR32NB;
-    owrite(ctx, &reloc, PEOBJ_RELOC_SIZE);
-  }
-  { /* Write .xdata section. */
-    uint16_t xdata[8+2+6];
-    PEreloc reloc;
-    xdata[0] = 0x01|0x08|0x10;  /* Ver. 1, uhandler/ehandler, prolog size 0. */
-    xdata[1] = 0x0005;  /* Number of unwind codes, no frame pointer. */
-    xdata[2] = 0x4200;  /* Stack offset 4*8+8 = aword*5. */
-    xdata[3] = 0x3000;  /* Push rbx. */
-    xdata[4] = 0x6000;  /* Push rsi. */
-    xdata[5] = 0x7000;  /* Push rdi. */
-    xdata[6] = 0x5000;  /* Push rbp. */
-    xdata[7] = 0;  /* Alignment. */
-    xdata[8] = xdata[9] = 0;  /* Relocated address of exception handler. */
-    xdata[10] = 0x01;  /* Ver. 1, no handler, prolog size 0. */
-    xdata[11] = 0x1504;  /* Number of unwind codes, fp = rbp, fpofs = 16. */
-    xdata[12] = 0x0300;  /* set_fpreg. */
-    xdata[13] = 0x0200;  /* stack offset 0*8+8 = aword*1. */
-    xdata[14] = 0x3000;  /* Push rbx. */
-    xdata[15] = 0x5000;  /* Push rbp. */
-    owrite(ctx, &xdata, sizeof(xdata));
-    reloc.vaddr = 2*8; reloc.symidx = 1+2+nrsym+2+2;
-    reloc.type = PEOBJ_RELOC_ADDR32NB;
-    owrite(ctx, &reloc, PEOBJ_RELOC_SIZE);
-  }
-#endif
-
-  /* Write .rdata$Z section. */
-  owrite(ctx, ctx->dasm_ident, strlen(ctx->dasm_ident)+1);
-
-  /* Write symbol table. */
-  strtab = NULL;  /* 1st pass: collect string sizes. */
-  for (;;) {
-    strtabofs = 4;
-    /* Mark as SafeSEH compliant. */
-    emit_peobj_sym(ctx, "@feat.00", 1,
-		   PEOBJ_SECT_ABS, PEOBJ_TYPE_NULL, PEOBJ_SCL_STATIC);
-
-    emit_peobj_sym_sect(ctx, pesect, PEOBJ_SECT_TEXT);
-    for (i = 0; i < nrsym; i++)
-      emit_peobj_sym(ctx, ctx->relocsym[i], 0,
-		     PEOBJ_SECT_UNDEF, PEOBJ_TYPE_FUNC, PEOBJ_SCL_EXTERN);
-
-#if LJ_TARGET_X64
-    emit_peobj_sym_sect(ctx, pesect, PEOBJ_SECT_PDATA);
-    emit_peobj_sym_sect(ctx, pesect, PEOBJ_SECT_XDATA);
-    emit_peobj_sym(ctx, "lj_err_unwind_win64", 0,
-		   PEOBJ_SECT_UNDEF, PEOBJ_TYPE_FUNC, PEOBJ_SCL_EXTERN);
-#endif
-
-    emit_peobj_sym(ctx, ctx->beginsym, 0,
-		   PEOBJ_SECT_TEXT, PEOBJ_TYPE_NULL, PEOBJ_SCL_EXTERN);
-    for (i = 0; i < ctx->nsym; i++)
-      emit_peobj_sym(ctx, ctx->sym[i].name, (uint32_t)ctx->sym[i].ofs,
-		     PEOBJ_SECT_TEXT, PEOBJ_TYPE_FUNC, PEOBJ_SCL_EXTERN);
-
-    emit_peobj_sym_sect(ctx, pesect, PEOBJ_SECT_RDATA_Z);
-
-    if (strtab)
-      break;
-    /* 2nd pass: alloc strtab, write syms and copy strings. */
-    strtab = (char *)malloc(strtabofs);
-    *(uint32_t *)strtab = (uint32_t)strtabofs;
-  }
-
-  /* Write string table. */
-  owrite(ctx, strtab, strtabofs);
-}
-
-#else
-
-void emit_peobj(BuildCtx *ctx)
-{
-  UNUSED(ctx);
-  fprintf(stderr, "Error: no PE object support for this target\n");
-  exit(1);
-}
-
-#endif
diff --git a/luajit-2.0/src/host/genminilua.lua b/luajit-2.0/src/host/genminilua.lua
deleted file mode 100644
index 04c5518..0000000
--- a/luajit-2.0/src/host/genminilua.lua
+++ /dev/null
@@ -1,428 +0,0 @@
-----------------------------------------------------------------------------
--- Lua script to generate a customized, minified version of Lua.
--- The resulting 'minilua' is used for the build process of LuaJIT.
-----------------------------------------------------------------------------
--- Copyright (C) 2005-2014 Mike Pall. All rights reserved.
--- Released under the MIT license. See Copyright Notice in luajit.h
-----------------------------------------------------------------------------
-
-local sub, match, gsub = string.sub, string.match, string.gsub
-
-local LUA_VERSION = "5.1.5"
-local LUA_SOURCE
-
-local function usage()
-  io.stderr:write("Usage: ", arg and arg[0] or "genminilua",
-		  " lua-", LUA_VERSION, "-source-dir\n")
-  os.exit(1)
-end
-
-local function find_sources()
-  LUA_SOURCE = arg and arg[1]
-  if not LUA_SOURCE then usage() end
-  if sub(LUA_SOURCE, -1) ~= "/" then LUA_SOURCE = LUA_SOURCE.."/" end
-  local fp = io.open(LUA_SOURCE .. "lua.h")
-  if not fp then
-    LUA_SOURCE = LUA_SOURCE.."src/"
-    fp = io.open(LUA_SOURCE .. "lua.h")
-    if not fp then usage() end
-  end
-  local all = fp:read("*a")
-  fp:close()
-  if not match(all, 'LUA_RELEASE%s*"Lua '..LUA_VERSION..'"') then
-    io.stderr:write("Error: version mismatch\n")
-    usage()
-  end
-end
-
-local LUA_FILES = {
-"lmem.c", "lobject.c", "ltm.c", "lfunc.c", "ldo.c", "lstring.c", "ltable.c",
-"lgc.c", "lstate.c", "ldebug.c", "lzio.c", "lopcodes.c",
-"llex.c", "lcode.c", "lparser.c", "lvm.c", "lapi.c", "lauxlib.c",
-"lbaselib.c", "ltablib.c", "liolib.c", "loslib.c", "lstrlib.c", "linit.c",
-}
-
-local REMOVE_LIB = {}
-gsub([[
-collectgarbage dofile gcinfo getfenv getmetatable load print rawequal rawset
-select tostring xpcall
-foreach foreachi getn maxn setn
-popen tmpfile seek setvbuf __tostring
-clock date difftime execute getenv rename setlocale time tmpname
-dump gfind len reverse
-LUA_LOADLIBNAME LUA_MATHLIBNAME LUA_DBLIBNAME
-]], "%S+", function(name)
-  REMOVE_LIB[name] = true
-end)
-
-local REMOVE_EXTINC = { ["<assert.h>"] = true, ["<locale.h>"] = true, }
-
-local CUSTOM_MAIN = [[
-typedef unsigned int UB;
-static UB barg(lua_State *L,int idx){
-union{lua_Number n;U64 b;}bn;
-bn.n=lua_tonumber(L,idx)+6755399441055744.0;
-if (bn.n==0.0&&!lua_isnumber(L,idx))luaL_typerror(L,idx,"number");
-return(UB)bn.b;
-}
-#define BRET(b) lua_pushnumber(L,(lua_Number)(int)(b));return 1;
-static int tobit(lua_State *L){
-BRET(barg(L,1))}
-static int bnot(lua_State *L){
-BRET(~barg(L,1))}
-static int band(lua_State *L){
-int i;UB b=barg(L,1);for(i=lua_gettop(L);i>1;i--)b&=barg(L,i);BRET(b)}
-static int bor(lua_State *L){
-int i;UB b=barg(L,1);for(i=lua_gettop(L);i>1;i--)b|=barg(L,i);BRET(b)}
-static int bxor(lua_State *L){
-int i;UB b=barg(L,1);for(i=lua_gettop(L);i>1;i--)b^=barg(L,i);BRET(b)}
-static int lshift(lua_State *L){
-UB b=barg(L,1),n=barg(L,2)&31;BRET(b<<n)}
-static int rshift(lua_State *L){
-UB b=barg(L,1),n=barg(L,2)&31;BRET(b>>n)}
-static int arshift(lua_State *L){
-UB b=barg(L,1),n=barg(L,2)&31;BRET((int)b>>n)}
-static int rol(lua_State *L){
-UB b=barg(L,1),n=barg(L,2)&31;BRET((b<<n)|(b>>(32-n)))}
-static int ror(lua_State *L){
-UB b=barg(L,1),n=barg(L,2)&31;BRET((b>>n)|(b<<(32-n)))}
-static int bswap(lua_State *L){
-UB b=barg(L,1);b=(b>>24)|((b>>8)&0xff00)|((b&0xff00)<<8)|(b<<24);BRET(b)}
-static int tohex(lua_State *L){
-UB b=barg(L,1);
-int n=lua_isnone(L,2)?8:(int)barg(L,2);
-const char *hexdigits="0123456789abcdef";
-char buf[8];
-int i;
-if(n<0){n=-n;hexdigits="0123456789ABCDEF";}
-if(n>8)n=8;
-for(i=(int)n;--i>=0;){buf[i]=hexdigits[b&15];b>>=4;}
-lua_pushlstring(L,buf,(size_t)n);
-return 1;
-}
-static const struct luaL_Reg bitlib[] = {
-{"tobit",tobit},
-{"bnot",bnot},
-{"band",band},
-{"bor",bor},
-{"bxor",bxor},
-{"lshift",lshift},
-{"rshift",rshift},
-{"arshift",arshift},
-{"rol",rol},
-{"ror",ror},
-{"bswap",bswap},
-{"tohex",tohex},
-{NULL,NULL}
-};
-int main(int argc, char **argv){
-  lua_State *L = luaL_newstate();
-  int i;
-  luaL_openlibs(L);
-  luaL_register(L, "bit", bitlib);
-  if (argc < 2) return sizeof(void *);
-  lua_createtable(L, 0, 1);
-  lua_pushstring(L, argv[1]);
-  lua_rawseti(L, -2, 0);
-  lua_setglobal(L, "arg");
-  if (luaL_loadfile(L, argv[1]))
-    goto err;
-  for (i = 2; i < argc; i++)
-    lua_pushstring(L, argv[i]);
-  if (lua_pcall(L, argc - 2, 0, 0)) {
-  err:
-    fprintf(stderr, "Error: %s\n", lua_tostring(L, -1));
-    return 1;
-  }
-  lua_close(L);
-  return 0;
-}
-]]
-
-local function read_sources()
-  local t = {}
-  for i, name in ipairs(LUA_FILES) do
-    local fp = assert(io.open(LUA_SOURCE..name, "r"))
-    t[i] = fp:read("*a")
-    assert(fp:close())
-  end
-  t[#t+1] = CUSTOM_MAIN
-  return table.concat(t)
-end
-
-local includes = {}
-
-local function merge_includes(src)
-  return gsub(src, '#include%s*"([^"]*)"%s*\n', function(name)
-    if includes[name] then return "" end
-    includes[name] = true
-    local fp = assert(io.open(LUA_SOURCE..name, "r"))
-    local src = fp:read("*a")
-    assert(fp:close())
-    src = gsub(src, "#ifndef%s+%w+_h\n#define%s+%w+_h\n", "")
-    src = gsub(src, "#endif%s*$", "")
-    return merge_includes(src)
-  end)
-end
-
-local function get_license(src)
-  return match(src, "/%*+\n%* Copyright %(.-%*/\n")
-end
-
-local function fold_lines(src)
-  return gsub(src, "\\\n", " ")
-end
-
-local strings = {}
-
-local function save_str(str)
-  local n = #strings+1
-  strings[n] = str
-  return "\1"..n.."\2"
-end
-
-local function save_strings(src)
-  src = gsub(src, '"[^"\n]*"', save_str)
-  return gsub(src, "'[^'\n]*'", save_str)
-end
-
-local function restore_strings(src)
-  return gsub(src, "\1(%d+)\2", function(numstr)
-    return strings[tonumber(numstr)]
-  end)
-end
-
-local function def_istrue(def)
-  return def == "INT_MAX > 2147483640L" or
-	 def == "LUAI_BITSINT >= 32" or
-	 def == "SIZE_Bx < LUAI_BITSINT-1" or
-	 def == "cast" or
-	 def == "defined(LUA_CORE)" or
-	 def == "MINSTRTABSIZE" or
-	 def == "LUA_MINBUFFER" or
-	 def == "HARDSTACKTESTS" or
-	 def == "UNUSED"
-end
-
-local head, defs = {[[
-#ifdef _MSC_VER
-typedef unsigned __int64 U64;
-#else
-typedef unsigned long long U64;
-#endif
-int _CRT_glob = 0;
-]]}, {}
-
-local function preprocess(src)
-  local t = { match(src, "^(.-)#") }
-  local lvl, on, oldon = 0, true, {}
-  for pp, def, txt in string.gmatch(src, "#(%w+) *([^\n]*)\n([^#]*)") do
-    if pp == "if" or pp == "ifdef" or pp == "ifndef" then
-      lvl = lvl + 1
-      oldon[lvl] = on
-      on = def_istrue(def)
-    elseif pp == "else" then
-      if oldon[lvl] then
-	if on == false then on = true else on = false end
-      end
-    elseif pp == "elif" then
-      if oldon[lvl] then
-	on = def_istrue(def)
-      end
-    elseif pp == "endif" then
-      on = oldon[lvl]
-      lvl = lvl - 1
-    elseif on then
-      if pp == "include" then
-	if not head[def] and not REMOVE_EXTINC[def] then
-	  head[def] = true
-	  head[#head+1] = "#include "..def.."\n"
-	end
-      elseif pp == "define" then
-	local k, sp, v = match(def, "([%w_]+)(%s*)(.*)")
-	if k and not (sp == "" and sub(v, 1, 1) == "(") then
-	  defs[k] = gsub(v, "%a[%w_]*", function(tok)
-	    return defs[tok] or tok
-	  end)
-	else
-	  t[#t+1] = "#define "..def.."\n"
-	end
-      elseif pp ~= "undef" then
-	error("unexpected directive: "..pp.." "..def)
-      end
-    end
-    if on then t[#t+1] = txt end
-  end
-  return gsub(table.concat(t), "%a[%w_]*", function(tok)
-    return defs[tok] or tok
-  end)
-end
-
-local function merge_header(src, license)
-  local hdr = string.format([[
-/* This is a heavily customized and minimized copy of Lua %s. */
-/* It's only used to build LuaJIT. It does NOT have all standard functions! */
-]], LUA_VERSION)
-  return hdr..license..table.concat(head)..src
-end
-
-local function strip_unused1(src)
-  return gsub(src, '(  {"?([%w_]+)"?,%s+%a[%w_]*},\n)', function(line, func)
-    return REMOVE_LIB[func] and "" or line
-  end)
-end
-
-local function strip_unused2(src)
-  return gsub(src, "Symbolic Execution.-}=", "")
-end
-
-local function strip_unused3(src)
-  src = gsub(src, "extern", "static")
-  src = gsub(src, "\nstatic([^\n]-)%(([^)]*)%)%(", "\nstatic%1 %2(")
-  src = gsub(src, "#define lua_assert[^\n]*\n", "")
-  src = gsub(src, "lua_assert%b();?", "")
-  src = gsub(src, "default:\n}", "default:;\n}")
-  src = gsub(src, "lua_lock%b();", "")
-  src = gsub(src, "lua_unlock%b();", "")
-  src = gsub(src, "luai_threadyield%b();", "")
-  src = gsub(src, "luai_userstateopen%b();", "{}")
-  src = gsub(src, "luai_userstate%w+%b();", "")
-  src = gsub(src, "%(%(c==.*luaY_parser%)", "luaY_parser")
-  src = gsub(src, "trydecpoint%(ls,seminfo%)",
-		  "luaX_lexerror(ls,\"malformed number\",TK_NUMBER)")
-  src = gsub(src, "int c=luaZ_lookahead%b();", "")
-  src = gsub(src, "luaL_register%(L,[^,]*,co_funcs%);\nreturn 2;",
-		  "return 1;")
-  src = gsub(src, "getfuncname%b():", "NULL:")
-  src = gsub(src, "getobjname%b():", "NULL:")
-  src = gsub(src, "if%([^\n]*hookmask[^\n]*%)\n[^\n]*\n", "")
-  src = gsub(src, "if%([^\n]*hookmask[^\n]*%)%b{}\n", "")
-  src = gsub(src, "if%([^\n]*hookmask[^\n]*&&\n[^\n]*%b{}\n", "")
-  src = gsub(src, "(twoto%b()%()", "%1(size_t)")
-  src = gsub(src, "i<sizenode", "i<(int)sizenode")
-  return gsub(src, "\n\n+", "\n")
-end
-
-local function strip_comments(src)
-  return gsub(src, "/%*.-%*/", " ")
-end
-
-local function strip_whitespace(src)
-  src = gsub(src, "^%s+", "")
-  src = gsub(src, "%s*\n%s*", "\n")
-  src = gsub(src, "[ \t]+", " ")
-  src = gsub(src, "(%W) ", "%1")
-  return gsub(src, " (%W)", "%1")
-end
-
-local function rename_tokens1(src)
-  src = gsub(src, "getline", "getline_")
-  src = gsub(src, "struct ([%w_]+)", "ZX%1")
-  return gsub(src, "union ([%w_]+)", "ZY%1")
-end
-
-local function rename_tokens2(src)
-  src = gsub(src, "ZX([%w_]+)", "struct %1")
-  return gsub(src, "ZY([%w_]+)", "union %1")
-end
-
-local function func_gather(src)
-  local nodes, list = {}, {}
-  local pos, len = 1, #src
-  while pos < len do
-    local d, w = match(src, "^(#define ([%w_]+)[^\n]*\n)", pos)
-    if d then
-      local n = #list+1
-      list[n] = d
-      nodes[w] = n
-    else
-      local s
-      d, w, s = match(src, "^(([%w_]+)[^\n]*([{;])\n)", pos)
-      if not d then
-	d, w, s = match(src, "^(([%w_]+)[^(]*%b()([{;])\n)", pos)
-	if not d then d = match(src, "^[^\n]*\n", pos) end
-      end
-      if s == "{" then
-	d = d..sub(match(src, "^%b{}[^;\n]*;?\n", pos+#d-2), 3)
-	if sub(d, -2) == "{\n" then
-	  d = d..sub(match(src, "^%b{}[^;\n]*;?\n", pos+#d-2), 3)
-	end
-      end
-      local k, v = nil, d
-      if w == "typedef" then
-	if match(d, "^typedef enum") then
-	  head[#head+1] = d
-	else
-	  k = match(d, "([%w_]+);\n$")
-	  if not k then k = match(d, "^.-%(.-([%w_]+)%)%(") end
-	end
-      elseif w == "enum" then
-	head[#head+1] = v
-      elseif w ~= nil then
-	k = match(d, "^[^\n]-([%w_]+)[(%[=]")
-	if k then
-	  if w ~= "static" and k ~= "main" then v = "static "..d end
-	else
-	  k = w
-	end
-      end
-      if w and k then
-	local o = nodes[k]
-	if o then nodes["*"..k] = o end
-	local n = #list+1
-	list[n] = v
-	nodes[k] = n
-      end
-    end
-    pos = pos + #d
-  end
-  return nodes, list
-end
-
-local function func_visit(nodes, list, used, n)
-  local i = nodes[n]
-  for m in string.gmatch(list[i], "[%w_]+") do
-    if nodes[m] then
-      local j = used[m]
-      if not j then
-	used[m] = i
-	func_visit(nodes, list, used, m)
-      elseif i < j then
-	used[m] = i
-      end
-    end
-  end
-end
-
-local function func_collect(src)
-  local nodes, list = func_gather(src)
-  local used = {}
-  func_visit(nodes, list, used, "main")
-  for n,i in pairs(nodes) do
-    local j = used[n]
-    if j and j < i then used["*"..n] = j end
-  end
-  for n,i in pairs(nodes) do
-    if not used[n] then list[i] = "" end
-  end
-  return table.concat(list)
-end
-
-find_sources()
-local src = read_sources()
-src = merge_includes(src)
-local license = get_license(src)
-src = fold_lines(src)
-src = strip_unused1(src)
-src = save_strings(src)
-src = strip_unused2(src)
-src = strip_comments(src)
-src = preprocess(src)
-src = strip_whitespace(src)
-src = strip_unused3(src)
-src = rename_tokens1(src)
-src = func_collect(src)
-src = rename_tokens2(src)
-src = restore_strings(src)
-src = merge_header(src, license)
-io.write(src)
diff --git a/luajit-2.0/src/host/minilua.c b/luajit-2.0/src/host/minilua.c
deleted file mode 100644
index aee192a..0000000
--- a/luajit-2.0/src/host/minilua.c
+++ /dev/null
@@ -1,7770 +0,0 @@
-/* This is a heavily customized and minimized copy of Lua 5.1.5. */
-/* It's only used to build LuaJIT. It does NOT have all standard functions! */
-/******************************************************************************
-* Copyright (C) 1994-2012 Lua.org, PUC-Rio.  All rights reserved.
-*
-* Permission is hereby granted, free of charge, to any person obtaining
-* a copy of this software and associated documentation files (the
-* "Software"), to deal in the Software without restriction, including
-* without limitation the rights to use, copy, modify, merge, publish,
-* distribute, sublicense, and/or sell copies of the Software, and to
-* permit persons to whom the Software is furnished to do so, subject to
-* the following conditions:
-*
-* The above copyright notice and this permission notice shall be
-* included in all copies or substantial portions of the Software.
-*
-* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
-* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
-* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
-* IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY
-* CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT,
-* TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE
-* SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
-******************************************************************************/
-#ifdef _MSC_VER
-typedef unsigned __int64 U64;
-#else
-typedef unsigned long long U64;
-#endif
-int _CRT_glob = 0;
-#include <stddef.h>
-#include <stdarg.h>
-#include <limits.h>
-#include <math.h>
-#include <ctype.h>
-#include <stdio.h>
-#include <stdlib.h>
-#include <string.h>
-#include <setjmp.h>
-#include <errno.h>
-#include <time.h>
-typedef enum{
-TM_INDEX,
-TM_NEWINDEX,
-TM_GC,
-TM_MODE,
-TM_EQ,
-TM_ADD,
-TM_SUB,
-TM_MUL,
-TM_DIV,
-TM_MOD,
-TM_POW,
-TM_UNM,
-TM_LEN,
-TM_LT,
-TM_LE,
-TM_CONCAT,
-TM_CALL,
-TM_N
-}TMS;
-enum OpMode{iABC,iABx,iAsBx};
-typedef enum{
-OP_MOVE,
-OP_LOADK,
-OP_LOADBOOL,
-OP_LOADNIL,
-OP_GETUPVAL,
-OP_GETGLOBAL,
-OP_GETTABLE,
-OP_SETGLOBAL,
-OP_SETUPVAL,
-OP_SETTABLE,
-OP_NEWTABLE,
-OP_SELF,
-OP_ADD,
-OP_SUB,
-OP_MUL,
-OP_DIV,
-OP_MOD,
-OP_POW,
-OP_UNM,
-OP_NOT,
-OP_LEN,
-OP_CONCAT,
-OP_JMP,
-OP_EQ,
-OP_LT,
-OP_LE,
-OP_TEST,
-OP_TESTSET,
-OP_CALL,
-OP_TAILCALL,
-OP_RETURN,
-OP_FORLOOP,
-OP_FORPREP,
-OP_TFORLOOP,
-OP_SETLIST,
-OP_CLOSE,
-OP_CLOSURE,
-OP_VARARG
-}OpCode;
-enum OpArgMask{
-OpArgN,
-OpArgU,
-OpArgR,
-OpArgK
-};
-typedef enum{
-VVOID,
-VNIL,
-VTRUE,
-VFALSE,
-VK,
-VKNUM,
-VLOCAL,
-VUPVAL,
-VGLOBAL,
-VINDEXED,
-VJMP,
-VRELOCABLE,
-VNONRELOC,
-VCALL,
-VVARARG
-}expkind;
-enum RESERVED{
-TK_AND=257,TK_BREAK,
-TK_DO,TK_ELSE,TK_ELSEIF,TK_END,TK_FALSE,TK_FOR,TK_FUNCTION,
-TK_IF,TK_IN,TK_LOCAL,TK_NIL,TK_NOT,TK_OR,TK_REPEAT,
-TK_RETURN,TK_THEN,TK_TRUE,TK_UNTIL,TK_WHILE,
-TK_CONCAT,TK_DOTS,TK_EQ,TK_GE,TK_LE,TK_NE,TK_NUMBER,
-TK_NAME,TK_STRING,TK_EOS
-};
-typedef enum BinOpr{
-OPR_ADD,OPR_SUB,OPR_MUL,OPR_DIV,OPR_MOD,OPR_POW,
-OPR_CONCAT,
-OPR_NE,OPR_EQ,
-OPR_LT,OPR_LE,OPR_GT,OPR_GE,
-OPR_AND,OPR_OR,
-OPR_NOBINOPR
-}BinOpr;
-typedef enum UnOpr{OPR_MINUS,OPR_NOT,OPR_LEN,OPR_NOUNOPR}UnOpr;
-#define LUA_QL(x)"'"x"'"
-#define luai_apicheck(L,o){(void)L;}
-#define lua_number2str(s,n)sprintf((s),"%.14g",(n))
-#define lua_str2number(s,p)strtod((s),(p))
-#define luai_numadd(a,b)((a)+(b))
-#define luai_numsub(a,b)((a)-(b))
-#define luai_nummul(a,b)((a)*(b))
-#define luai_numdiv(a,b)((a)/(b))
-#define luai_nummod(a,b)((a)-floor((a)/(b))*(b))
-#define luai_numpow(a,b)(pow(a,b))
-#define luai_numunm(a)(-(a))
-#define luai_numeq(a,b)((a)==(b))
-#define luai_numlt(a,b)((a)<(b))
-#define luai_numle(a,b)((a)<=(b))
-#define luai_numisnan(a)(!luai_numeq((a),(a)))
-#define lua_number2int(i,d)((i)=(int)(d))
-#define lua_number2integer(i,d)((i)=(lua_Integer)(d))
-#define LUAI_THROW(L,c)longjmp((c)->b,1)
-#define LUAI_TRY(L,c,a)if(setjmp((c)->b)==0){a}
-#define lua_pclose(L,file)((void)((void)L,file),0)
-#define lua_upvalueindex(i)((-10002)-(i))
-typedef struct lua_State lua_State;
-typedef int(*lua_CFunction)(lua_State*L);
-typedef const char*(*lua_Reader)(lua_State*L,void*ud,size_t*sz);
-typedef void*(*lua_Alloc)(void*ud,void*ptr,size_t osize,size_t nsize);
-typedef double lua_Number;
-typedef ptrdiff_t lua_Integer;
-static void lua_settop(lua_State*L,int idx);
-static int lua_type(lua_State*L,int idx);
-static const char* lua_tolstring(lua_State*L,int idx,size_t*len);
-static size_t lua_objlen(lua_State*L,int idx);
-static void lua_pushlstring(lua_State*L,const char*s,size_t l);
-static void lua_pushcclosure(lua_State*L,lua_CFunction fn,int n);
-static void lua_createtable(lua_State*L,int narr,int nrec);
-static void lua_setfield(lua_State*L,int idx,const char*k);
-#define lua_pop(L,n)lua_settop(L,-(n)-1)
-#define lua_newtable(L)lua_createtable(L,0,0)
-#define lua_pushcfunction(L,f)lua_pushcclosure(L,(f),0)
-#define lua_strlen(L,i)lua_objlen(L,(i))
-#define lua_isfunction(L,n)(lua_type(L,(n))==6)
-#define lua_istable(L,n)(lua_type(L,(n))==5)
-#define lua_isnil(L,n)(lua_type(L,(n))==0)
-#define lua_isboolean(L,n)(lua_type(L,(n))==1)
-#define lua_isnone(L,n)(lua_type(L,(n))==(-1))
-#define lua_isnoneornil(L,n)(lua_type(L,(n))<=0)
-#define lua_pushliteral(L,s)lua_pushlstring(L,""s,(sizeof(s)/sizeof(char))-1)
-#define lua_setglobal(L,s)lua_setfield(L,(-10002),(s))
-#define lua_tostring(L,i)lua_tolstring(L,(i),NULL)
-typedef struct lua_Debug lua_Debug;
-typedef void(*lua_Hook)(lua_State*L,lua_Debug*ar);
-struct lua_Debug{
-int event;
-const char*name;
-const char*namewhat;
-const char*what;
-const char*source;
-int currentline;
-int nups;
-int linedefined;
-int lastlinedefined;
-char short_src[60];
-int i_ci;
-};
-typedef unsigned int lu_int32;
-typedef size_t lu_mem;
-typedef ptrdiff_t l_mem;
-typedef unsigned char lu_byte;
-#define IntPoint(p)((unsigned int)(lu_mem)(p))
-typedef union{double u;void*s;long l;}L_Umaxalign;
-typedef double l_uacNumber;
-#define check_exp(c,e)(e)
-#define UNUSED(x)((void)(x))
-#define cast(t,exp)((t)(exp))
-#define cast_byte(i)cast(lu_byte,(i))
-#define cast_num(i)cast(lua_Number,(i))
-#define cast_int(i)cast(int,(i))
-typedef lu_int32 Instruction;
-#define condhardstacktests(x)((void)0)
-typedef union GCObject GCObject;
-typedef struct GCheader{
-GCObject*next;lu_byte tt;lu_byte marked;
-}GCheader;
-typedef union{
-GCObject*gc;
-void*p;
-lua_Number n;
-int b;
-}Value;
-typedef struct lua_TValue{
-Value value;int tt;
-}TValue;
-#define ttisnil(o)(ttype(o)==0)
-#define ttisnumber(o)(ttype(o)==3)
-#define ttisstring(o)(ttype(o)==4)
-#define ttistable(o)(ttype(o)==5)
-#define ttisfunction(o)(ttype(o)==6)
-#define ttisboolean(o)(ttype(o)==1)
-#define ttisuserdata(o)(ttype(o)==7)
-#define ttisthread(o)(ttype(o)==8)
-#define ttislightuserdata(o)(ttype(o)==2)
-#define ttype(o)((o)->tt)
-#define gcvalue(o)check_exp(iscollectable(o),(o)->value.gc)
-#define pvalue(o)check_exp(ttislightuserdata(o),(o)->value.p)
-#define nvalue(o)check_exp(ttisnumber(o),(o)->value.n)
-#define rawtsvalue(o)check_exp(ttisstring(o),&(o)->value.gc->ts)
-#define tsvalue(o)(&rawtsvalue(o)->tsv)
-#define rawuvalue(o)check_exp(ttisuserdata(o),&(o)->value.gc->u)
-#define uvalue(o)(&rawuvalue(o)->uv)
-#define clvalue(o)check_exp(ttisfunction(o),&(o)->value.gc->cl)
-#define hvalue(o)check_exp(ttistable(o),&(o)->value.gc->h)
-#define bvalue(o)check_exp(ttisboolean(o),(o)->value.b)
-#define thvalue(o)check_exp(ttisthread(o),&(o)->value.gc->th)
-#define l_isfalse(o)(ttisnil(o)||(ttisboolean(o)&&bvalue(o)==0))
-#define checkconsistency(obj)
-#define checkliveness(g,obj)
-#define setnilvalue(obj)((obj)->tt=0)
-#define setnvalue(obj,x){TValue*i_o=(obj);i_o->value.n=(x);i_o->tt=3;}
-#define setbvalue(obj,x){TValue*i_o=(obj);i_o->value.b=(x);i_o->tt=1;}
-#define setsvalue(L,obj,x){TValue*i_o=(obj);i_o->value.gc=cast(GCObject*,(x));i_o->tt=4;checkliveness(G(L),i_o);}
-#define setuvalue(L,obj,x){TValue*i_o=(obj);i_o->value.gc=cast(GCObject*,(x));i_o->tt=7;checkliveness(G(L),i_o);}
-#define setthvalue(L,obj,x){TValue*i_o=(obj);i_o->value.gc=cast(GCObject*,(x));i_o->tt=8;checkliveness(G(L),i_o);}
-#define setclvalue(L,obj,x){TValue*i_o=(obj);i_o->value.gc=cast(GCObject*,(x));i_o->tt=6;checkliveness(G(L),i_o);}
-#define sethvalue(L,obj,x){TValue*i_o=(obj);i_o->value.gc=cast(GCObject*,(x));i_o->tt=5;checkliveness(G(L),i_o);}
-#define setptvalue(L,obj,x){TValue*i_o=(obj);i_o->value.gc=cast(GCObject*,(x));i_o->tt=(8+1);checkliveness(G(L),i_o);}
-#define setobj(L,obj1,obj2){const TValue*o2=(obj2);TValue*o1=(obj1);o1->value=o2->value;o1->tt=o2->tt;checkliveness(G(L),o1);}
-#define setttype(obj,tt)(ttype(obj)=(tt))
-#define iscollectable(o)(ttype(o)>=4)
-typedef TValue*StkId;
-typedef union TString{
-L_Umaxalign dummy;
-struct{
-GCObject*next;lu_byte tt;lu_byte marked;
-lu_byte reserved;
-unsigned int hash;
-size_t len;
-}tsv;
-}TString;
-#define getstr(ts)cast(const char*,(ts)+1)
-#define svalue(o)getstr(rawtsvalue(o))
-typedef union Udata{
-L_Umaxalign dummy;
-struct{
-GCObject*next;lu_byte tt;lu_byte marked;
-struct Table*metatable;
-struct Table*env;
-size_t len;
-}uv;
-}Udata;
-typedef struct Proto{
-GCObject*next;lu_byte tt;lu_byte marked;
-TValue*k;
-Instruction*code;
-struct Proto**p;
-int*lineinfo;
-struct LocVar*locvars;
-TString**upvalues;
-TString*source;
-int sizeupvalues;
-int sizek;
-int sizecode;
-int sizelineinfo;
-int sizep;
-int sizelocvars;
-int linedefined;
-int lastlinedefined;
-GCObject*gclist;
-lu_byte nups;
-lu_byte numparams;
-lu_byte is_vararg;
-lu_byte maxstacksize;
-}Proto;
-typedef struct LocVar{
-TString*varname;
-int startpc;
-int endpc;
-}LocVar;
-typedef struct UpVal{
-GCObject*next;lu_byte tt;lu_byte marked;
-TValue*v;
-union{
-TValue value;
-struct{
-struct UpVal*prev;
-struct UpVal*next;
-}l;
-}u;
-}UpVal;
-typedef struct CClosure{
-GCObject*next;lu_byte tt;lu_byte marked;lu_byte isC;lu_byte nupvalues;GCObject*gclist;struct Table*env;
-lua_CFunction f;
-TValue upvalue[1];
-}CClosure;
-typedef struct LClosure{
-GCObject*next;lu_byte tt;lu_byte marked;lu_byte isC;lu_byte nupvalues;GCObject*gclist;struct Table*env;
-struct Proto*p;
-UpVal*upvals[1];
-}LClosure;
-typedef union Closure{
-CClosure c;
-LClosure l;
-}Closure;
-#define iscfunction(o)(ttype(o)==6&&clvalue(o)->c.isC)
-typedef union TKey{
-struct{
-Value value;int tt;
-struct Node*next;
-}nk;
-TValue tvk;
-}TKey;
-typedef struct Node{
-TValue i_val;
-TKey i_key;
-}Node;
-typedef struct Table{
-GCObject*next;lu_byte tt;lu_byte marked;
-lu_byte flags;
-lu_byte lsizenode;
-struct Table*metatable;
-TValue*array;
-Node*node;
-Node*lastfree;
-GCObject*gclist;
-int sizearray;
-}Table;
-#define lmod(s,size)(check_exp((size&(size-1))==0,(cast(int,(s)&((size)-1)))))
-#define twoto(x)((size_t)1<<(x))
-#define sizenode(t)(twoto((t)->lsizenode))
-static const TValue luaO_nilobject_;
-#define ceillog2(x)(luaO_log2((x)-1)+1)
-static int luaO_log2(unsigned int x);
-#define gfasttm(g,et,e)((et)==NULL?NULL:((et)->flags&(1u<<(e)))?NULL:luaT_gettm(et,e,(g)->tmname[e]))
-#define fasttm(l,et,e)gfasttm(G(l),et,e)
-static const TValue*luaT_gettm(Table*events,TMS event,TString*ename);
-#define luaM_reallocv(L,b,on,n,e)((cast(size_t,(n)+1)<=((size_t)(~(size_t)0)-2)/(e))?luaM_realloc_(L,(b),(on)*(e),(n)*(e)):luaM_toobig(L))
-#define luaM_freemem(L,b,s)luaM_realloc_(L,(b),(s),0)
-#define luaM_free(L,b)luaM_realloc_(L,(b),sizeof(*(b)),0)
-#define luaM_freearray(L,b,n,t)luaM_reallocv(L,(b),n,0,sizeof(t))
-#define luaM_malloc(L,t)luaM_realloc_(L,NULL,0,(t))
-#define luaM_new(L,t)cast(t*,luaM_malloc(L,sizeof(t)))
-#define luaM_newvector(L,n,t)cast(t*,luaM_reallocv(L,NULL,0,n,sizeof(t)))
-#define luaM_growvector(L,v,nelems,size,t,limit,e)if((nelems)+1>(size))((v)=cast(t*,luaM_growaux_(L,v,&(size),sizeof(t),limit,e)))
-#define luaM_reallocvector(L,v,oldn,n,t)((v)=cast(t*,luaM_reallocv(L,v,oldn,n,sizeof(t))))
-static void*luaM_realloc_(lua_State*L,void*block,size_t oldsize,
-size_t size);
-static void*luaM_toobig(lua_State*L);
-static void*luaM_growaux_(lua_State*L,void*block,int*size,
-size_t size_elem,int limit,
-const char*errormsg);
-typedef struct Zio ZIO;
-#define char2int(c)cast(int,cast(unsigned char,(c)))
-#define zgetc(z)(((z)->n--)>0?char2int(*(z)->p++):luaZ_fill(z))
-typedef struct Mbuffer{
-char*buffer;
-size_t n;
-size_t buffsize;
-}Mbuffer;
-#define luaZ_initbuffer(L,buff)((buff)->buffer=NULL,(buff)->buffsize=0)
-#define luaZ_buffer(buff)((buff)->buffer)
-#define luaZ_sizebuffer(buff)((buff)->buffsize)
-#define luaZ_bufflen(buff)((buff)->n)
-#define luaZ_resetbuffer(buff)((buff)->n=0)
-#define luaZ_resizebuffer(L,buff,size)(luaM_reallocvector(L,(buff)->buffer,(buff)->buffsize,size,char),(buff)->buffsize=size)
-#define luaZ_freebuffer(L,buff)luaZ_resizebuffer(L,buff,0)
-struct Zio{
-size_t n;
-const char*p;
-lua_Reader reader;
-void*data;
-lua_State*L;
-};
-static int luaZ_fill(ZIO*z);
-struct lua_longjmp;
-#define gt(L)(&L->l_gt)
-#define registry(L)(&G(L)->l_registry)
-typedef struct stringtable{
-GCObject**hash;
-lu_int32 nuse;
-int size;
-}stringtable;
-typedef struct CallInfo{
-StkId base;
-StkId func;
-StkId top;
-const Instruction*savedpc;
-int nresults;
-int tailcalls;
-}CallInfo;
-#define curr_func(L)(clvalue(L->ci->func))
-#define ci_func(ci)(clvalue((ci)->func))
-#define f_isLua(ci)(!ci_func(ci)->c.isC)
-#define isLua(ci)(ttisfunction((ci)->func)&&f_isLua(ci))
-typedef struct global_State{
-stringtable strt;
-lua_Alloc frealloc;
-void*ud;
-lu_byte currentwhite;
-lu_byte gcstate;
-int sweepstrgc;
-GCObject*rootgc;
-GCObject**sweepgc;
-GCObject*gray;
-GCObject*grayagain;
-GCObject*weak;
-GCObject*tmudata;
-Mbuffer buff;
-lu_mem GCthreshold;
-lu_mem totalbytes;
-lu_mem estimate;
-lu_mem gcdept;
-int gcpause;
-int gcstepmul;
-lua_CFunction panic;
-TValue l_registry;
-struct lua_State*mainthread;
-UpVal uvhead;
-struct Table*mt[(8+1)];
-TString*tmname[TM_N];
-}global_State;
-struct lua_State{
-GCObject*next;lu_byte tt;lu_byte marked;
-lu_byte status;
-StkId top;
-StkId base;
-global_State*l_G;
-CallInfo*ci;
-const Instruction*savedpc;
-StkId stack_last;
-StkId stack;
-CallInfo*end_ci;
-CallInfo*base_ci;
-int stacksize;
-int size_ci;
-unsigned short nCcalls;
-unsigned short baseCcalls;
-lu_byte hookmask;
-lu_byte allowhook;
-int basehookcount;
-int hookcount;
-lua_Hook hook;
-TValue l_gt;
-TValue env;
-GCObject*openupval;
-GCObject*gclist;
-struct lua_longjmp*errorJmp;
-ptrdiff_t errfunc;
-};
-#define G(L)(L->l_G)
-union GCObject{
-GCheader gch;
-union TString ts;
-union Udata u;
-union Closure cl;
-struct Table h;
-struct Proto p;
-struct UpVal uv;
-struct lua_State th;
-};
-#define rawgco2ts(o)check_exp((o)->gch.tt==4,&((o)->ts))
-#define gco2ts(o)(&rawgco2ts(o)->tsv)
-#define rawgco2u(o)check_exp((o)->gch.tt==7,&((o)->u))
-#define gco2u(o)(&rawgco2u(o)->uv)
-#define gco2cl(o)check_exp((o)->gch.tt==6,&((o)->cl))
-#define gco2h(o)check_exp((o)->gch.tt==5,&((o)->h))
-#define gco2p(o)check_exp((o)->gch.tt==(8+1),&((o)->p))
-#define gco2uv(o)check_exp((o)->gch.tt==(8+2),&((o)->uv))
-#define ngcotouv(o)check_exp((o)==NULL||(o)->gch.tt==(8+2),&((o)->uv))
-#define gco2th(o)check_exp((o)->gch.tt==8,&((o)->th))
-#define obj2gco(v)(cast(GCObject*,(v)))
-static void luaE_freethread(lua_State*L,lua_State*L1);
-#define pcRel(pc,p)(cast(int,(pc)-(p)->code)-1)
-#define getline_(f,pc)(((f)->lineinfo)?(f)->lineinfo[pc]:0)
-#define resethookcount(L)(L->hookcount=L->basehookcount)
-static void luaG_typeerror(lua_State*L,const TValue*o,
-const char*opname);
-static void luaG_runerror(lua_State*L,const char*fmt,...);
-#define luaD_checkstack(L,n)if((char*)L->stack_last-(char*)L->top<=(n)*(int)sizeof(TValue))luaD_growstack(L,n);else condhardstacktests(luaD_reallocstack(L,L->stacksize-5-1));
-#define incr_top(L){luaD_checkstack(L,1);L->top++;}
-#define savestack(L,p)((char*)(p)-(char*)L->stack)
-#define restorestack(L,n)((TValue*)((char*)L->stack+(n)))
-#define saveci(L,p)((char*)(p)-(char*)L->base_ci)
-#define restoreci(L,n)((CallInfo*)((char*)L->base_ci+(n)))
-typedef void(*Pfunc)(lua_State*L,void*ud);
-static int luaD_poscall(lua_State*L,StkId firstResult);
-static void luaD_reallocCI(lua_State*L,int newsize);
-static void luaD_reallocstack(lua_State*L,int newsize);
-static void luaD_growstack(lua_State*L,int n);
-static void luaD_throw(lua_State*L,int errcode);
-static void*luaM_growaux_(lua_State*L,void*block,int*size,size_t size_elems,
-int limit,const char*errormsg){
-void*newblock;
-int newsize;
-if(*size>=limit/2){
-if(*size>=limit)
-luaG_runerror(L,errormsg);
-newsize=limit;
-}
-else{
-newsize=(*size)*2;
-if(newsize<4)
-newsize=4;
-}
-newblock=luaM_reallocv(L,block,*size,newsize,size_elems);
-*size=newsize;
-return newblock;
-}
-static void*luaM_toobig(lua_State*L){
-luaG_runerror(L,"memory allocation error: block too big");
-return NULL;
-}
-static void*luaM_realloc_(lua_State*L,void*block,size_t osize,size_t nsize){
-global_State*g=G(L);
-block=(*g->frealloc)(g->ud,block,osize,nsize);
-if(block==NULL&&nsize>0)
-luaD_throw(L,4);
-g->totalbytes=(g->totalbytes-osize)+nsize;
-return block;
-}
-#define resetbits(x,m)((x)&=cast(lu_byte,~(m)))
-#define setbits(x,m)((x)|=(m))
-#define testbits(x,m)((x)&(m))
-#define bitmask(b)(1<<(b))
-#define bit2mask(b1,b2)(bitmask(b1)|bitmask(b2))
-#define l_setbit(x,b)setbits(x,bitmask(b))
-#define resetbit(x,b)resetbits(x,bitmask(b))
-#define testbit(x,b)testbits(x,bitmask(b))
-#define set2bits(x,b1,b2)setbits(x,(bit2mask(b1,b2)))
-#define reset2bits(x,b1,b2)resetbits(x,(bit2mask(b1,b2)))
-#define test2bits(x,b1,b2)testbits(x,(bit2mask(b1,b2)))
-#define iswhite(x)test2bits((x)->gch.marked,0,1)
-#define isblack(x)testbit((x)->gch.marked,2)
-#define isgray(x)(!isblack(x)&&!iswhite(x))
-#define otherwhite(g)(g->currentwhite^bit2mask(0,1))
-#define isdead(g,v)((v)->gch.marked&otherwhite(g)&bit2mask(0,1))
-#define changewhite(x)((x)->gch.marked^=bit2mask(0,1))
-#define gray2black(x)l_setbit((x)->gch.marked,2)
-#define valiswhite(x)(iscollectable(x)&&iswhite(gcvalue(x)))
-#define luaC_white(g)cast(lu_byte,(g)->currentwhite&bit2mask(0,1))
-#define luaC_checkGC(L){condhardstacktests(luaD_reallocstack(L,L->stacksize-5-1));if(G(L)->totalbytes>=G(L)->GCthreshold)luaC_step(L);}
-#define luaC_barrier(L,p,v){if(valiswhite(v)&&isblack(obj2gco(p)))luaC_barrierf(L,obj2gco(p),gcvalue(v));}
-#define luaC_barriert(L,t,v){if(valiswhite(v)&&isblack(obj2gco(t)))luaC_barrierback(L,t);}
-#define luaC_objbarrier(L,p,o){if(iswhite(obj2gco(o))&&isblack(obj2gco(p)))luaC_barrierf(L,obj2gco(p),obj2gco(o));}
-#define luaC_objbarriert(L,t,o){if(iswhite(obj2gco(o))&&isblack(obj2gco(t)))luaC_barrierback(L,t);}
-static void luaC_step(lua_State*L);
-static void luaC_link(lua_State*L,GCObject*o,lu_byte tt);
-static void luaC_linkupval(lua_State*L,UpVal*uv);
-static void luaC_barrierf(lua_State*L,GCObject*o,GCObject*v);
-static void luaC_barrierback(lua_State*L,Table*t);
-#define sizestring(s)(sizeof(union TString)+((s)->len+1)*sizeof(char))
-#define sizeudata(u)(sizeof(union Udata)+(u)->len)
-#define luaS_new(L,s)(luaS_newlstr(L,s,strlen(s)))
-#define luaS_newliteral(L,s)(luaS_newlstr(L,""s,(sizeof(s)/sizeof(char))-1))
-#define luaS_fix(s)l_setbit((s)->tsv.marked,5)
-static TString*luaS_newlstr(lua_State*L,const char*str,size_t l);
-#define tostring(L,o)((ttype(o)==4)||(luaV_tostring(L,o)))
-#define tonumber(o,n)(ttype(o)==3||(((o)=luaV_tonumber(o,n))!=NULL))
-#define equalobj(L,o1,o2)(ttype(o1)==ttype(o2)&&luaV_equalval(L,o1,o2))
-static int luaV_equalval(lua_State*L,const TValue*t1,const TValue*t2);
-static const TValue*luaV_tonumber(const TValue*obj,TValue*n);
-static int luaV_tostring(lua_State*L,StkId obj);
-static void luaV_execute(lua_State*L,int nexeccalls);
-static void luaV_concat(lua_State*L,int total,int last);
-static const TValue luaO_nilobject_={{NULL},0};
-static int luaO_int2fb(unsigned int x){
-int e=0;
-while(x>=16){
-x=(x+1)>>1;
-e++;
-}
-if(x<8)return x;
-else return((e+1)<<3)|(cast_int(x)-8);
-}
-static int luaO_fb2int(int x){
-int e=(x>>3)&31;
-if(e==0)return x;
-else return((x&7)+8)<<(e-1);
-}
-static int luaO_log2(unsigned int x){
-static const lu_byte log_2[256]={
-0,1,2,2,3,3,3,3,4,4,4,4,4,4,4,4,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,
-6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,
-7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,
-7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,
-8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,
-8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,
-8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,
-8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8
-};
-int l=-1;
-while(x>=256){l+=8;x>>=8;}
-return l+log_2[x];
-}
-static int luaO_rawequalObj(const TValue*t1,const TValue*t2){
-if(ttype(t1)!=ttype(t2))return 0;
-else switch(ttype(t1)){
-case 0:
-return 1;
-case 3:
-return luai_numeq(nvalue(t1),nvalue(t2));
-case 1:
-return bvalue(t1)==bvalue(t2);
-case 2:
-return pvalue(t1)==pvalue(t2);
-default:
-return gcvalue(t1)==gcvalue(t2);
-}
-}
-static int luaO_str2d(const char*s,lua_Number*result){
-char*endptr;
-*result=lua_str2number(s,&endptr);
-if(endptr==s)return 0;
-if(*endptr=='x'||*endptr=='X')
-*result=cast_num(strtoul(s,&endptr,16));
-if(*endptr=='\0')return 1;
-while(isspace(cast(unsigned char,*endptr)))endptr++;
-if(*endptr!='\0')return 0;
-return 1;
-}
-static void pushstr(lua_State*L,const char*str){
-setsvalue(L,L->top,luaS_new(L,str));
-incr_top(L);
-}
-static const char*luaO_pushvfstring(lua_State*L,const char*fmt,va_list argp){
-int n=1;
-pushstr(L,"");
-for(;;){
-const char*e=strchr(fmt,'%');
-if(e==NULL)break;
-setsvalue(L,L->top,luaS_newlstr(L,fmt,e-fmt));
-incr_top(L);
-switch(*(e+1)){
-case's':{
-const char*s=va_arg(argp,char*);
-if(s==NULL)s="(null)";
-pushstr(L,s);
-break;
-}
-case'c':{
-char buff[2];
-buff[0]=cast(char,va_arg(argp,int));
-buff[1]='\0';
-pushstr(L,buff);
-break;
-}
-case'd':{
-setnvalue(L->top,cast_num(va_arg(argp,int)));
-incr_top(L);
-break;
-}
-case'f':{
-setnvalue(L->top,cast_num(va_arg(argp,l_uacNumber)));
-incr_top(L);
-break;
-}
-case'p':{
-char buff[4*sizeof(void*)+8];
-sprintf(buff,"%p",va_arg(argp,void*));
-pushstr(L,buff);
-break;
-}
-case'%':{
-pushstr(L,"%");
-break;
-}
-default:{
-char buff[3];
-buff[0]='%';
-buff[1]=*(e+1);
-buff[2]='\0';
-pushstr(L,buff);
-break;
-}
-}
-n+=2;
-fmt=e+2;
-}
-pushstr(L,fmt);
-luaV_concat(L,n+1,cast_int(L->top-L->base)-1);
-L->top-=n;
-return svalue(L->top-1);
-}
-static const char*luaO_pushfstring(lua_State*L,const char*fmt,...){
-const char*msg;
-va_list argp;
-va_start(argp,fmt);
-msg=luaO_pushvfstring(L,fmt,argp);
-va_end(argp);
-return msg;
-}
-static void luaO_chunkid(char*out,const char*source,size_t bufflen){
-if(*source=='='){
-strncpy(out,source+1,bufflen);
-out[bufflen-1]='\0';
-}
-else{
-if(*source=='@'){
-size_t l;
-source++;
-bufflen-=sizeof(" '...' ");
-l=strlen(source);
-strcpy(out,"");
-if(l>bufflen){
-source+=(l-bufflen);
-strcat(out,"...");
-}
-strcat(out,source);
-}
-else{
-size_t len=strcspn(source,"\n\r");
-bufflen-=sizeof(" [string \"...\"] ");
-if(len>bufflen)len=bufflen;
-strcpy(out,"[string \"");
-if(source[len]!='\0'){
-strncat(out,source,len);
-strcat(out,"...");
-}
-else
-strcat(out,source);
-strcat(out,"\"]");
-}
-}
-}
-#define gnode(t,i)(&(t)->node[i])
-#define gkey(n)(&(n)->i_key.nk)
-#define gval(n)(&(n)->i_val)
-#define gnext(n)((n)->i_key.nk.next)
-#define key2tval(n)(&(n)->i_key.tvk)
-static TValue*luaH_setnum(lua_State*L,Table*t,int key);
-static const TValue*luaH_getstr(Table*t,TString*key);
-static TValue*luaH_set(lua_State*L,Table*t,const TValue*key);
-static const char*const luaT_typenames[]={
-"nil","boolean","userdata","number",
-"string","table","function","userdata","thread",
-"proto","upval"
-};
-static void luaT_init(lua_State*L){
-static const char*const luaT_eventname[]={
-"__index","__newindex",
-"__gc","__mode","__eq",
-"__add","__sub","__mul","__div","__mod",
-"__pow","__unm","__len","__lt","__le",
-"__concat","__call"
-};
-int i;
-for(i=0;i<TM_N;i++){
-G(L)->tmname[i]=luaS_new(L,luaT_eventname[i]);
-luaS_fix(G(L)->tmname[i]);
-}
-}
-static const TValue*luaT_gettm(Table*events,TMS event,TString*ename){
-const TValue*tm=luaH_getstr(events,ename);
-if(ttisnil(tm)){
-events->flags|=cast_byte(1u<<event);
-return NULL;
-}
-else return tm;
-}
-static const TValue*luaT_gettmbyobj(lua_State*L,const TValue*o,TMS event){
-Table*mt;
-switch(ttype(o)){
-case 5:
-mt=hvalue(o)->metatable;
-break;
-case 7:
-mt=uvalue(o)->metatable;
-break;
-default:
-mt=G(L)->mt[ttype(o)];
-}
-return(mt?luaH_getstr(mt,G(L)->tmname[event]):(&luaO_nilobject_));
-}
-#define sizeCclosure(n)(cast(int,sizeof(CClosure))+cast(int,sizeof(TValue)*((n)-1)))
-#define sizeLclosure(n)(cast(int,sizeof(LClosure))+cast(int,sizeof(TValue*)*((n)-1)))
-static Closure*luaF_newCclosure(lua_State*L,int nelems,Table*e){
-Closure*c=cast(Closure*,luaM_malloc(L,sizeCclosure(nelems)));
-luaC_link(L,obj2gco(c),6);
-c->c.isC=1;
-c->c.env=e;
-c->c.nupvalues=cast_byte(nelems);
-return c;
-}
-static Closure*luaF_newLclosure(lua_State*L,int nelems,Table*e){
-Closure*c=cast(Closure*,luaM_malloc(L,sizeLclosure(nelems)));
-luaC_link(L,obj2gco(c),6);
-c->l.isC=0;
-c->l.env=e;
-c->l.nupvalues=cast_byte(nelems);
-while(nelems--)c->l.upvals[nelems]=NULL;
-return c;
-}
-static UpVal*luaF_newupval(lua_State*L){
-UpVal*uv=luaM_new(L,UpVal);
-luaC_link(L,obj2gco(uv),(8+2));
-uv->v=&uv->u.value;
-setnilvalue(uv->v);
-return uv;
-}
-static UpVal*luaF_findupval(lua_State*L,StkId level){
-global_State*g=G(L);
-GCObject**pp=&L->openupval;
-UpVal*p;
-UpVal*uv;
-while(*pp!=NULL&&(p=ngcotouv(*pp))->v>=level){
-if(p->v==level){
-if(isdead(g,obj2gco(p)))
-changewhite(obj2gco(p));
-return p;
-}
-pp=&p->next;
-}
-uv=luaM_new(L,UpVal);
-uv->tt=(8+2);
-uv->marked=luaC_white(g);
-uv->v=level;
-uv->next=*pp;
-*pp=obj2gco(uv);
-uv->u.l.prev=&g->uvhead;
-uv->u.l.next=g->uvhead.u.l.next;
-uv->u.l.next->u.l.prev=uv;
-g->uvhead.u.l.next=uv;
-return uv;
-}
-static void unlinkupval(UpVal*uv){
-uv->u.l.next->u.l.prev=uv->u.l.prev;
-uv->u.l.prev->u.l.next=uv->u.l.next;
-}
-static void luaF_freeupval(lua_State*L,UpVal*uv){
-if(uv->v!=&uv->u.value)
-unlinkupval(uv);
-luaM_free(L,uv);
-}
-static void luaF_close(lua_State*L,StkId level){
-UpVal*uv;
-global_State*g=G(L);
-while(L->openupval!=NULL&&(uv=ngcotouv(L->openupval))->v>=level){
-GCObject*o=obj2gco(uv);
-L->openupval=uv->next;
-if(isdead(g,o))
-luaF_freeupval(L,uv);
-else{
-unlinkupval(uv);
-setobj(L,&uv->u.value,uv->v);
-uv->v=&uv->u.value;
-luaC_linkupval(L,uv);
-}
-}
-}
-static Proto*luaF_newproto(lua_State*L){
-Proto*f=luaM_new(L,Proto);
-luaC_link(L,obj2gco(f),(8+1));
-f->k=NULL;
-f->sizek=0;
-f->p=NULL;
-f->sizep=0;
-f->code=NULL;
-f->sizecode=0;
-f->sizelineinfo=0;
-f->sizeupvalues=0;
-f->nups=0;
-f->upvalues=NULL;
-f->numparams=0;
-f->is_vararg=0;
-f->maxstacksize=0;
-f->lineinfo=NULL;
-f->sizelocvars=0;
-f->locvars=NULL;
-f->linedefined=0;
-f->lastlinedefined=0;
-f->source=NULL;
-return f;
-}
-static void luaF_freeproto(lua_State*L,Proto*f){
-luaM_freearray(L,f->code,f->sizecode,Instruction);
-luaM_freearray(L,f->p,f->sizep,Proto*);
-luaM_freearray(L,f->k,f->sizek,TValue);
-luaM_freearray(L,f->lineinfo,f->sizelineinfo,int);
-luaM_freearray(L,f->locvars,f->sizelocvars,struct LocVar);
-luaM_freearray(L,f->upvalues,f->sizeupvalues,TString*);
-luaM_free(L,f);
-}
-static void luaF_freeclosure(lua_State*L,Closure*c){
-int size=(c->c.isC)?sizeCclosure(c->c.nupvalues):
-sizeLclosure(c->l.nupvalues);
-luaM_freemem(L,c,size);
-}
-#define MASK1(n,p)((~((~(Instruction)0)<<n))<<p)
-#define MASK0(n,p)(~MASK1(n,p))
-#define GET_OPCODE(i)(cast(OpCode,((i)>>0)&MASK1(6,0)))
-#define SET_OPCODE(i,o)((i)=(((i)&MASK0(6,0))|((cast(Instruction,o)<<0)&MASK1(6,0))))
-#define GETARG_A(i)(cast(int,((i)>>(0+6))&MASK1(8,0)))
-#define SETARG_A(i,u)((i)=(((i)&MASK0(8,(0+6)))|((cast(Instruction,u)<<(0+6))&MASK1(8,(0+6)))))
-#define GETARG_B(i)(cast(int,((i)>>(((0+6)+8)+9))&MASK1(9,0)))
-#define SETARG_B(i,b)((i)=(((i)&MASK0(9,(((0+6)+8)+9)))|((cast(Instruction,b)<<(((0+6)+8)+9))&MASK1(9,(((0+6)+8)+9)))))
-#define GETARG_C(i)(cast(int,((i)>>((0+6)+8))&MASK1(9,0)))
-#define SETARG_C(i,b)((i)=(((i)&MASK0(9,((0+6)+8)))|((cast(Instruction,b)<<((0+6)+8))&MASK1(9,((0+6)+8)))))
-#define GETARG_Bx(i)(cast(int,((i)>>((0+6)+8))&MASK1((9+9),0)))
-#define SETARG_Bx(i,b)((i)=(((i)&MASK0((9+9),((0+6)+8)))|((cast(Instruction,b)<<((0+6)+8))&MASK1((9+9),((0+6)+8)))))
-#define GETARG_sBx(i)(GETARG_Bx(i)-(((1<<(9+9))-1)>>1))
-#define SETARG_sBx(i,b)SETARG_Bx((i),cast(unsigned int,(b)+(((1<<(9+9))-1)>>1)))
-#define CREATE_ABC(o,a,b,c)((cast(Instruction,o)<<0)|(cast(Instruction,a)<<(0+6))|(cast(Instruction,b)<<(((0+6)+8)+9))|(cast(Instruction,c)<<((0+6)+8)))
-#define CREATE_ABx(o,a,bc)((cast(Instruction,o)<<0)|(cast(Instruction,a)<<(0+6))|(cast(Instruction,bc)<<((0+6)+8)))
-#define ISK(x)((x)&(1<<(9-1)))
-#define INDEXK(r)((int)(r)&~(1<<(9-1)))
-#define RKASK(x)((x)|(1<<(9-1)))
-static const lu_byte luaP_opmodes[(cast(int,OP_VARARG)+1)];
-#define getBMode(m)(cast(enum OpArgMask,(luaP_opmodes[m]>>4)&3))
-#define getCMode(m)(cast(enum OpArgMask,(luaP_opmodes[m]>>2)&3))
-#define testTMode(m)(luaP_opmodes[m]&(1<<7))
-typedef struct expdesc{
-expkind k;
-union{
-struct{int info,aux;}s;
-lua_Number nval;
-}u;
-int t;
-int f;
-}expdesc;
-typedef struct upvaldesc{
-lu_byte k;
-lu_byte info;
-}upvaldesc;
-struct BlockCnt;
-typedef struct FuncState{
-Proto*f;
-Table*h;
-struct FuncState*prev;
-struct LexState*ls;
-struct lua_State*L;
-struct BlockCnt*bl;
-int pc;
-int lasttarget;
-int jpc;
-int freereg;
-int nk;
-int np;
-short nlocvars;
-lu_byte nactvar;
-upvaldesc upvalues[60];
-unsigned short actvar[200];
-}FuncState;
-static Proto*luaY_parser(lua_State*L,ZIO*z,Mbuffer*buff,
-const char*name);
-struct lua_longjmp{
-struct lua_longjmp*previous;
-jmp_buf b;
-volatile int status;
-};
-static void luaD_seterrorobj(lua_State*L,int errcode,StkId oldtop){
-switch(errcode){
-case 4:{
-setsvalue(L,oldtop,luaS_newliteral(L,"not enough memory"));
-break;
-}
-case 5:{
-setsvalue(L,oldtop,luaS_newliteral(L,"error in error handling"));
-break;
-}
-case 3:
-case 2:{
-setobj(L,oldtop,L->top-1);
-break;
-}
-}
-L->top=oldtop+1;
-}
-static void restore_stack_limit(lua_State*L){
-if(L->size_ci>20000){
-int inuse=cast_int(L->ci-L->base_ci);
-if(inuse+1<20000)
-luaD_reallocCI(L,20000);
-}
-}
-static void resetstack(lua_State*L,int status){
-L->ci=L->base_ci;
-L->base=L->ci->base;
-luaF_close(L,L->base);
-luaD_seterrorobj(L,status,L->base);
-L->nCcalls=L->baseCcalls;
-L->allowhook=1;
-restore_stack_limit(L);
-L->errfunc=0;
-L->errorJmp=NULL;
-}
-static void luaD_throw(lua_State*L,int errcode){
-if(L->errorJmp){
-L->errorJmp->status=errcode;
-LUAI_THROW(L,L->errorJmp);
-}
-else{
-L->status=cast_byte(errcode);
-if(G(L)->panic){
-resetstack(L,errcode);
-G(L)->panic(L);
-}
-exit(EXIT_FAILURE);
-}
-}
-static int luaD_rawrunprotected(lua_State*L,Pfunc f,void*ud){
-struct lua_longjmp lj;
-lj.status=0;
-lj.previous=L->errorJmp;
-L->errorJmp=&lj;
-LUAI_TRY(L,&lj,
-(*f)(L,ud);
-);
-L->errorJmp=lj.previous;
-return lj.status;
-}
-static void correctstack(lua_State*L,TValue*oldstack){
-CallInfo*ci;
-GCObject*up;
-L->top=(L->top-oldstack)+L->stack;
-for(up=L->openupval;up!=NULL;up=up->gch.next)
-gco2uv(up)->v=(gco2uv(up)->v-oldstack)+L->stack;
-for(ci=L->base_ci;ci<=L->ci;ci++){
-ci->top=(ci->top-oldstack)+L->stack;
-ci->base=(ci->base-oldstack)+L->stack;
-ci->func=(ci->func-oldstack)+L->stack;
-}
-L->base=(L->base-oldstack)+L->stack;
-}
-static void luaD_reallocstack(lua_State*L,int newsize){
-TValue*oldstack=L->stack;
-int realsize=newsize+1+5;
-luaM_reallocvector(L,L->stack,L->stacksize,realsize,TValue);
-L->stacksize=realsize;
-L->stack_last=L->stack+newsize;
-correctstack(L,oldstack);
-}
-static void luaD_reallocCI(lua_State*L,int newsize){
-CallInfo*oldci=L->base_ci;
-luaM_reallocvector(L,L->base_ci,L->size_ci,newsize,CallInfo);
-L->size_ci=newsize;
-L->ci=(L->ci-oldci)+L->base_ci;
-L->end_ci=L->base_ci+L->size_ci-1;
-}
-static void luaD_growstack(lua_State*L,int n){
-if(n<=L->stacksize)
-luaD_reallocstack(L,2*L->stacksize);
-else
-luaD_reallocstack(L,L->stacksize+n);
-}
-static CallInfo*growCI(lua_State*L){
-if(L->size_ci>20000)
-luaD_throw(L,5);
-else{
-luaD_reallocCI(L,2*L->size_ci);
-if(L->size_ci>20000)
-luaG_runerror(L,"stack overflow");
-}
-return++L->ci;
-}
-static StkId adjust_varargs(lua_State*L,Proto*p,int actual){
-int i;
-int nfixargs=p->numparams;
-Table*htab=NULL;
-StkId base,fixed;
-for(;actual<nfixargs;++actual)
-setnilvalue(L->top++);
-fixed=L->top-actual;
-base=L->top;
-for(i=0;i<nfixargs;i++){
-setobj(L,L->top++,fixed+i);
-setnilvalue(fixed+i);
-}
-if(htab){
-sethvalue(L,L->top++,htab);
-}
-return base;
-}
-static StkId tryfuncTM(lua_State*L,StkId func){
-const TValue*tm=luaT_gettmbyobj(L,func,TM_CALL);
-StkId p;
-ptrdiff_t funcr=savestack(L,func);
-if(!ttisfunction(tm))
-luaG_typeerror(L,func,"call");
-for(p=L->top;p>func;p--)setobj(L,p,p-1);
-incr_top(L);
-func=restorestack(L,funcr);
-setobj(L,func,tm);
-return func;
-}
-#define inc_ci(L)((L->ci==L->end_ci)?growCI(L):(condhardstacktests(luaD_reallocCI(L,L->size_ci)),++L->ci))
-static int luaD_precall(lua_State*L,StkId func,int nresults){
-LClosure*cl;
-ptrdiff_t funcr;
-if(!ttisfunction(func))
-func=tryfuncTM(L,func);
-funcr=savestack(L,func);
-cl=&clvalue(func)->l;
-L->ci->savedpc=L->savedpc;
-if(!cl->isC){
-CallInfo*ci;
-StkId st,base;
-Proto*p=cl->p;
-luaD_checkstack(L,p->maxstacksize);
-func=restorestack(L,funcr);
-if(!p->is_vararg){
-base=func+1;
-if(L->top>base+p->numparams)
-L->top=base+p->numparams;
-}
-else{
-int nargs=cast_int(L->top-func)-1;
-base=adjust_varargs(L,p,nargs);
-func=restorestack(L,funcr);
-}
-ci=inc_ci(L);
-ci->func=func;
-L->base=ci->base=base;
-ci->top=L->base+p->maxstacksize;
-L->savedpc=p->code;
-ci->tailcalls=0;
-ci->nresults=nresults;
-for(st=L->top;st<ci->top;st++)
-setnilvalue(st);
-L->top=ci->top;
-return 0;
-}
-else{
-CallInfo*ci;
-int n;
-luaD_checkstack(L,20);
-ci=inc_ci(L);
-ci->func=restorestack(L,funcr);
-L->base=ci->base=ci->func+1;
-ci->top=L->top+20;
-ci->nresults=nresults;
-n=(*curr_func(L)->c.f)(L);
-if(n<0)
-return 2;
-else{
-luaD_poscall(L,L->top-n);
-return 1;
-}
-}
-}
-static int luaD_poscall(lua_State*L,StkId firstResult){
-StkId res;
-int wanted,i;
-CallInfo*ci;
-ci=L->ci--;
-res=ci->func;
-wanted=ci->nresults;
-L->base=(ci-1)->base;
-L->savedpc=(ci-1)->savedpc;
-for(i=wanted;i!=0&&firstResult<L->top;i--)
-setobj(L,res++,firstResult++);
-while(i-->0)
-setnilvalue(res++);
-L->top=res;
-return(wanted-(-1));
-}
-static void luaD_call(lua_State*L,StkId func,int nResults){
-if(++L->nCcalls>=200){
-if(L->nCcalls==200)
-luaG_runerror(L,"C stack overflow");
-else if(L->nCcalls>=(200+(200>>3)))
-luaD_throw(L,5);
-}
-if(luaD_precall(L,func,nResults)==0)
-luaV_execute(L,1);
-L->nCcalls--;
-luaC_checkGC(L);
-}
-static int luaD_pcall(lua_State*L,Pfunc func,void*u,
-ptrdiff_t old_top,ptrdiff_t ef){
-int status;
-unsigned short oldnCcalls=L->nCcalls;
-ptrdiff_t old_ci=saveci(L,L->ci);
-lu_byte old_allowhooks=L->allowhook;
-ptrdiff_t old_errfunc=L->errfunc;
-L->errfunc=ef;
-status=luaD_rawrunprotected(L,func,u);
-if(status!=0){
-StkId oldtop=restorestack(L,old_top);
-luaF_close(L,oldtop);
-luaD_seterrorobj(L,status,oldtop);
-L->nCcalls=oldnCcalls;
-L->ci=restoreci(L,old_ci);
-L->base=L->ci->base;
-L->savedpc=L->ci->savedpc;
-L->allowhook=old_allowhooks;
-restore_stack_limit(L);
-}
-L->errfunc=old_errfunc;
-return status;
-}
-struct SParser{
-ZIO*z;
-Mbuffer buff;
-const char*name;
-};
-static void f_parser(lua_State*L,void*ud){
-int i;
-Proto*tf;
-Closure*cl;
-struct SParser*p=cast(struct SParser*,ud);
-luaC_checkGC(L);
-tf=luaY_parser(L,p->z,
-&p->buff,p->name);
-cl=luaF_newLclosure(L,tf->nups,hvalue(gt(L)));
-cl->l.p=tf;
-for(i=0;i<tf->nups;i++)
-cl->l.upvals[i]=luaF_newupval(L);
-setclvalue(L,L->top,cl);
-incr_top(L);
-}
-static int luaD_protectedparser(lua_State*L,ZIO*z,const char*name){
-struct SParser p;
-int status;
-p.z=z;p.name=name;
-luaZ_initbuffer(L,&p.buff);
-status=luaD_pcall(L,f_parser,&p,savestack(L,L->top),L->errfunc);
-luaZ_freebuffer(L,&p.buff);
-return status;
-}
-static void luaS_resize(lua_State*L,int newsize){
-GCObject**newhash;
-stringtable*tb;
-int i;
-if(G(L)->gcstate==2)
-return;
-newhash=luaM_newvector(L,newsize,GCObject*);
-tb=&G(L)->strt;
-for(i=0;i<newsize;i++)newhash[i]=NULL;
-for(i=0;i<tb->size;i++){
-GCObject*p=tb->hash[i];
-while(p){
-GCObject*next=p->gch.next;
-unsigned int h=gco2ts(p)->hash;
-int h1=lmod(h,newsize);
-p->gch.next=newhash[h1];
-newhash[h1]=p;
-p=next;
-}
-}
-luaM_freearray(L,tb->hash,tb->size,TString*);
-tb->size=newsize;
-tb->hash=newhash;
-}
-static TString*newlstr(lua_State*L,const char*str,size_t l,
-unsigned int h){
-TString*ts;
-stringtable*tb;
-if(l+1>(((size_t)(~(size_t)0)-2)-sizeof(TString))/sizeof(char))
-luaM_toobig(L);
-ts=cast(TString*,luaM_malloc(L,(l+1)*sizeof(char)+sizeof(TString)));
-ts->tsv.len=l;
-ts->tsv.hash=h;
-ts->tsv.marked=luaC_white(G(L));
-ts->tsv.tt=4;
-ts->tsv.reserved=0;
-memcpy(ts+1,str,l*sizeof(char));
-((char*)(ts+1))[l]='\0';
-tb=&G(L)->strt;
-h=lmod(h,tb->size);
-ts->tsv.next=tb->hash[h];
-tb->hash[h]=obj2gco(ts);
-tb->nuse++;
-if(tb->nuse>cast(lu_int32,tb->size)&&tb->size<=(INT_MAX-2)/2)
-luaS_resize(L,tb->size*2);
-return ts;
-}
-static TString*luaS_newlstr(lua_State*L,const char*str,size_t l){
-GCObject*o;
-unsigned int h=cast(unsigned int,l);
-size_t step=(l>>5)+1;
-size_t l1;
-for(l1=l;l1>=step;l1-=step)
-h=h^((h<<5)+(h>>2)+cast(unsigned char,str[l1-1]));
-for(o=G(L)->strt.hash[lmod(h,G(L)->strt.size)];
-o!=NULL;
-o=o->gch.next){
-TString*ts=rawgco2ts(o);
-if(ts->tsv.len==l&&(memcmp(str,getstr(ts),l)==0)){
-if(isdead(G(L),o))changewhite(o);
-return ts;
-}
-}
-return newlstr(L,str,l,h);
-}
-static Udata*luaS_newudata(lua_State*L,size_t s,Table*e){
-Udata*u;
-if(s>((size_t)(~(size_t)0)-2)-sizeof(Udata))
-luaM_toobig(L);
-u=cast(Udata*,luaM_malloc(L,s+sizeof(Udata)));
-u->uv.marked=luaC_white(G(L));
-u->uv.tt=7;
-u->uv.len=s;
-u->uv.metatable=NULL;
-u->uv.env=e;
-u->uv.next=G(L)->mainthread->next;
-G(L)->mainthread->next=obj2gco(u);
-return u;
-}
-#define hashpow2(t,n)(gnode(t,lmod((n),sizenode(t))))
-#define hashstr(t,str)hashpow2(t,(str)->tsv.hash)
-#define hashboolean(t,p)hashpow2(t,p)
-#define hashmod(t,n)(gnode(t,((n)%((sizenode(t)-1)|1))))
-#define hashpointer(t,p)hashmod(t,IntPoint(p))
-static const Node dummynode_={
-{{NULL},0},
-{{{NULL},0,NULL}}
-};
-static Node*hashnum(const Table*t,lua_Number n){
-unsigned int a[cast_int(sizeof(lua_Number)/sizeof(int))];
-int i;
-if(luai_numeq(n,0))
-return gnode(t,0);
-memcpy(a,&n,sizeof(a));
-for(i=1;i<cast_int(sizeof(lua_Number)/sizeof(int));i++)a[0]+=a[i];
-return hashmod(t,a[0]);
-}
-static Node*mainposition(const Table*t,const TValue*key){
-switch(ttype(key)){
-case 3:
-return hashnum(t,nvalue(key));
-case 4:
-return hashstr(t,rawtsvalue(key));
-case 1:
-return hashboolean(t,bvalue(key));
-case 2:
-return hashpointer(t,pvalue(key));
-default:
-return hashpointer(t,gcvalue(key));
-}
-}
-static int arrayindex(const TValue*key){
-if(ttisnumber(key)){
-lua_Number n=nvalue(key);
-int k;
-lua_number2int(k,n);
-if(luai_numeq(cast_num(k),n))
-return k;
-}
-return-1;
-}
-static int findindex(lua_State*L,Table*t,StkId key){
-int i;
-if(ttisnil(key))return-1;
-i=arrayindex(key);
-if(0<i&&i<=t->sizearray)
-return i-1;
-else{
-Node*n=mainposition(t,key);
-do{
-if(luaO_rawequalObj(key2tval(n),key)||
-(ttype(gkey(n))==(8+3)&&iscollectable(key)&&
-gcvalue(gkey(n))==gcvalue(key))){
-i=cast_int(n-gnode(t,0));
-return i+t->sizearray;
-}
-else n=gnext(n);
-}while(n);
-luaG_runerror(L,"invalid key to "LUA_QL("next"));
-return 0;
-}
-}
-static int luaH_next(lua_State*L,Table*t,StkId key){
-int i=findindex(L,t,key);
-for(i++;i<t->sizearray;i++){
-if(!ttisnil(&t->array[i])){
-setnvalue(key,cast_num(i+1));
-setobj(L,key+1,&t->array[i]);
-return 1;
-}
-}
-for(i-=t->sizearray;i<(int)sizenode(t);i++){
-if(!ttisnil(gval(gnode(t,i)))){
-setobj(L,key,key2tval(gnode(t,i)));
-setobj(L,key+1,gval(gnode(t,i)));
-return 1;
-}
-}
-return 0;
-}
-static int computesizes(int nums[],int*narray){
-int i;
-int twotoi;
-int a=0;
-int na=0;
-int n=0;
-for(i=0,twotoi=1;twotoi/2<*narray;i++,twotoi*=2){
-if(nums[i]>0){
-a+=nums[i];
-if(a>twotoi/2){
-n=twotoi;
-na=a;
-}
-}
-if(a==*narray)break;
-}
-*narray=n;
-return na;
-}
-static int countint(const TValue*key,int*nums){
-int k=arrayindex(key);
-if(0<k&&k<=(1<<(32-2))){
-nums[ceillog2(k)]++;
-return 1;
-}
-else
-return 0;
-}
-static int numusearray(const Table*t,int*nums){
-int lg;
-int ttlg;
-int ause=0;
-int i=1;
-for(lg=0,ttlg=1;lg<=(32-2);lg++,ttlg*=2){
-int lc=0;
-int lim=ttlg;
-if(lim>t->sizearray){
-lim=t->sizearray;
-if(i>lim)
-break;
-}
-for(;i<=lim;i++){
-if(!ttisnil(&t->array[i-1]))
-lc++;
-}
-nums[lg]+=lc;
-ause+=lc;
-}
-return ause;
-}
-static int numusehash(const Table*t,int*nums,int*pnasize){
-int totaluse=0;
-int ause=0;
-int i=sizenode(t);
-while(i--){
-Node*n=&t->node[i];
-if(!ttisnil(gval(n))){
-ause+=countint(key2tval(n),nums);
-totaluse++;
-}
-}
-*pnasize+=ause;
-return totaluse;
-}
-static void setarrayvector(lua_State*L,Table*t,int size){
-int i;
-luaM_reallocvector(L,t->array,t->sizearray,size,TValue);
-for(i=t->sizearray;i<size;i++)
-setnilvalue(&t->array[i]);
-t->sizearray=size;
-}
-static void setnodevector(lua_State*L,Table*t,int size){
-int lsize;
-if(size==0){
-t->node=cast(Node*,(&dummynode_));
-lsize=0;
-}
-else{
-int i;
-lsize=ceillog2(size);
-if(lsize>(32-2))
-luaG_runerror(L,"table overflow");
-size=twoto(lsize);
-t->node=luaM_newvector(L,size,Node);
-for(i=0;i<size;i++){
-Node*n=gnode(t,i);
-gnext(n)=NULL;
-setnilvalue(gkey(n));
-setnilvalue(gval(n));
-}
-}
-t->lsizenode=cast_byte(lsize);
-t->lastfree=gnode(t,size);
-}
-static void resize(lua_State*L,Table*t,int nasize,int nhsize){
-int i;
-int oldasize=t->sizearray;
-int oldhsize=t->lsizenode;
-Node*nold=t->node;
-if(nasize>oldasize)
-setarrayvector(L,t,nasize);
-setnodevector(L,t,nhsize);
-if(nasize<oldasize){
-t->sizearray=nasize;
-for(i=nasize;i<oldasize;i++){
-if(!ttisnil(&t->array[i]))
-setobj(L,luaH_setnum(L,t,i+1),&t->array[i]);
-}
-luaM_reallocvector(L,t->array,oldasize,nasize,TValue);
-}
-for(i=twoto(oldhsize)-1;i>=0;i--){
-Node*old=nold+i;
-if(!ttisnil(gval(old)))
-setobj(L,luaH_set(L,t,key2tval(old)),gval(old));
-}
-if(nold!=(&dummynode_))
-luaM_freearray(L,nold,twoto(oldhsize),Node);
-}
-static void luaH_resizearray(lua_State*L,Table*t,int nasize){
-int nsize=(t->node==(&dummynode_))?0:sizenode(t);
-resize(L,t,nasize,nsize);
-}
-static void rehash(lua_State*L,Table*t,const TValue*ek){
-int nasize,na;
-int nums[(32-2)+1];
-int i;
-int totaluse;
-for(i=0;i<=(32-2);i++)nums[i]=0;
-nasize=numusearray(t,nums);
-totaluse=nasize;
-totaluse+=numusehash(t,nums,&nasize);
-nasize+=countint(ek,nums);
-totaluse++;
-na=computesizes(nums,&nasize);
-resize(L,t,nasize,totaluse-na);
-}
-static Table*luaH_new(lua_State*L,int narray,int nhash){
-Table*t=luaM_new(L,Table);
-luaC_link(L,obj2gco(t),5);
-t->metatable=NULL;
-t->flags=cast_byte(~0);
-t->array=NULL;
-t->sizearray=0;
-t->lsizenode=0;
-t->node=cast(Node*,(&dummynode_));
-setarrayvector(L,t,narray);
-setnodevector(L,t,nhash);
-return t;
-}
-static void luaH_free(lua_State*L,Table*t){
-if(t->node!=(&dummynode_))
-luaM_freearray(L,t->node,sizenode(t),Node);
-luaM_freearray(L,t->array,t->sizearray,TValue);
-luaM_free(L,t);
-}
-static Node*getfreepos(Table*t){
-while(t->lastfree-->t->node){
-if(ttisnil(gkey(t->lastfree)))
-return t->lastfree;
-}
-return NULL;
-}
-static TValue*newkey(lua_State*L,Table*t,const TValue*key){
-Node*mp=mainposition(t,key);
-if(!ttisnil(gval(mp))||mp==(&dummynode_)){
-Node*othern;
-Node*n=getfreepos(t);
-if(n==NULL){
-rehash(L,t,key);
-return luaH_set(L,t,key);
-}
-othern=mainposition(t,key2tval(mp));
-if(othern!=mp){
-while(gnext(othern)!=mp)othern=gnext(othern);
-gnext(othern)=n;
-*n=*mp;
-gnext(mp)=NULL;
-setnilvalue(gval(mp));
-}
-else{
-gnext(n)=gnext(mp);
-gnext(mp)=n;
-mp=n;
-}
-}
-gkey(mp)->value=key->value;gkey(mp)->tt=key->tt;
-luaC_barriert(L,t,key);
-return gval(mp);
-}
-static const TValue*luaH_getnum(Table*t,int key){
-if(cast(unsigned int,key-1)<cast(unsigned int,t->sizearray))
-return&t->array[key-1];
-else{
-lua_Number nk=cast_num(key);
-Node*n=hashnum(t,nk);
-do{
-if(ttisnumber(gkey(n))&&luai_numeq(nvalue(gkey(n)),nk))
-return gval(n);
-else n=gnext(n);
-}while(n);
-return(&luaO_nilobject_);
-}
-}
-static const TValue*luaH_getstr(Table*t,TString*key){
-Node*n=hashstr(t,key);
-do{
-if(ttisstring(gkey(n))&&rawtsvalue(gkey(n))==key)
-return gval(n);
-else n=gnext(n);
-}while(n);
-return(&luaO_nilobject_);
-}
-static const TValue*luaH_get(Table*t,const TValue*key){
-switch(ttype(key)){
-case 0:return(&luaO_nilobject_);
-case 4:return luaH_getstr(t,rawtsvalue(key));
-case 3:{
-int k;
-lua_Number n=nvalue(key);
-lua_number2int(k,n);
-if(luai_numeq(cast_num(k),nvalue(key)))
-return luaH_getnum(t,k);
-}
-default:{
-Node*n=mainposition(t,key);
-do{
-if(luaO_rawequalObj(key2tval(n),key))
-return gval(n);
-else n=gnext(n);
-}while(n);
-return(&luaO_nilobject_);
-}
-}
-}
-static TValue*luaH_set(lua_State*L,Table*t,const TValue*key){
-const TValue*p=luaH_get(t,key);
-t->flags=0;
-if(p!=(&luaO_nilobject_))
-return cast(TValue*,p);
-else{
-if(ttisnil(key))luaG_runerror(L,"table index is nil");
-else if(ttisnumber(key)&&luai_numisnan(nvalue(key)))
-luaG_runerror(L,"table index is NaN");
-return newkey(L,t,key);
-}
-}
-static TValue*luaH_setnum(lua_State*L,Table*t,int key){
-const TValue*p=luaH_getnum(t,key);
-if(p!=(&luaO_nilobject_))
-return cast(TValue*,p);
-else{
-TValue k;
-setnvalue(&k,cast_num(key));
-return newkey(L,t,&k);
-}
-}
-static TValue*luaH_setstr(lua_State*L,Table*t,TString*key){
-const TValue*p=luaH_getstr(t,key);
-if(p!=(&luaO_nilobject_))
-return cast(TValue*,p);
-else{
-TValue k;
-setsvalue(L,&k,key);
-return newkey(L,t,&k);
-}
-}
-static int unbound_search(Table*t,unsigned int j){
-unsigned int i=j;
-j++;
-while(!ttisnil(luaH_getnum(t,j))){
-i=j;
-j*=2;
-if(j>cast(unsigned int,(INT_MAX-2))){
-i=1;
-while(!ttisnil(luaH_getnum(t,i)))i++;
-return i-1;
-}
-}
-while(j-i>1){
-unsigned int m=(i+j)/2;
-if(ttisnil(luaH_getnum(t,m)))j=m;
-else i=m;
-}
-return i;
-}
-static int luaH_getn(Table*t){
-unsigned int j=t->sizearray;
-if(j>0&&ttisnil(&t->array[j-1])){
-unsigned int i=0;
-while(j-i>1){
-unsigned int m=(i+j)/2;
-if(ttisnil(&t->array[m-1]))j=m;
-else i=m;
-}
-return i;
-}
-else if(t->node==(&dummynode_))
-return j;
-else return unbound_search(t,j);
-}
-#define makewhite(g,x)((x)->gch.marked=cast_byte(((x)->gch.marked&cast_byte(~(bitmask(2)|bit2mask(0,1))))|luaC_white(g)))
-#define white2gray(x)reset2bits((x)->gch.marked,0,1)
-#define black2gray(x)resetbit((x)->gch.marked,2)
-#define stringmark(s)reset2bits((s)->tsv.marked,0,1)
-#define isfinalized(u)testbit((u)->marked,3)
-#define markfinalized(u)l_setbit((u)->marked,3)
-#define markvalue(g,o){checkconsistency(o);if(iscollectable(o)&&iswhite(gcvalue(o)))reallymarkobject(g,gcvalue(o));}
-#define markobject(g,t){if(iswhite(obj2gco(t)))reallymarkobject(g,obj2gco(t));}
-#define setthreshold(g)(g->GCthreshold=(g->estimate/100)*g->gcpause)
-static void removeentry(Node*n){
-if(iscollectable(gkey(n)))
-setttype(gkey(n),(8+3));
-}
-static void reallymarkobject(global_State*g,GCObject*o){
-white2gray(o);
-switch(o->gch.tt){
-case 4:{
-return;
-}
-case 7:{
-Table*mt=gco2u(o)->metatable;
-gray2black(o);
-if(mt)markobject(g,mt);
-markobject(g,gco2u(o)->env);
-return;
-}
-case(8+2):{
-UpVal*uv=gco2uv(o);
-markvalue(g,uv->v);
-if(uv->v==&uv->u.value)
-gray2black(o);
-return;
-}
-case 6:{
-gco2cl(o)->c.gclist=g->gray;
-g->gray=o;
-break;
-}
-case 5:{
-gco2h(o)->gclist=g->gray;
-g->gray=o;
-break;
-}
-case 8:{
-gco2th(o)->gclist=g->gray;
-g->gray=o;
-break;
-}
-case(8+1):{
-gco2p(o)->gclist=g->gray;
-g->gray=o;
-break;
-}
-default:;
-}
-}
-static void marktmu(global_State*g){
-GCObject*u=g->tmudata;
-if(u){
-do{
-u=u->gch.next;
-makewhite(g,u);
-reallymarkobject(g,u);
-}while(u!=g->tmudata);
-}
-}
-static size_t luaC_separateudata(lua_State*L,int all){
-global_State*g=G(L);
-size_t deadmem=0;
-GCObject**p=&g->mainthread->next;
-GCObject*curr;
-while((curr=*p)!=NULL){
-if(!(iswhite(curr)||all)||isfinalized(gco2u(curr)))
-p=&curr->gch.next;
-else if(fasttm(L,gco2u(curr)->metatable,TM_GC)==NULL){
-markfinalized(gco2u(curr));
-p=&curr->gch.next;
-}
-else{
-deadmem+=sizeudata(gco2u(curr));
-markfinalized(gco2u(curr));
-*p=curr->gch.next;
-if(g->tmudata==NULL)
-g->tmudata=curr->gch.next=curr;
-else{
-curr->gch.next=g->tmudata->gch.next;
-g->tmudata->gch.next=curr;
-g->tmudata=curr;
-}
-}
-}
-return deadmem;
-}
-static int traversetable(global_State*g,Table*h){
-int i;
-int weakkey=0;
-int weakvalue=0;
-const TValue*mode;
-if(h->metatable)
-markobject(g,h->metatable);
-mode=gfasttm(g,h->metatable,TM_MODE);
-if(mode&&ttisstring(mode)){
-weakkey=(strchr(svalue(mode),'k')!=NULL);
-weakvalue=(strchr(svalue(mode),'v')!=NULL);
-if(weakkey||weakvalue){
-h->marked&=~(bitmask(3)|bitmask(4));
-h->marked|=cast_byte((weakkey<<3)|
-(weakvalue<<4));
-h->gclist=g->weak;
-g->weak=obj2gco(h);
-}
-}
-if(weakkey&&weakvalue)return 1;
-if(!weakvalue){
-i=h->sizearray;
-while(i--)
-markvalue(g,&h->array[i]);
-}
-i=sizenode(h);
-while(i--){
-Node*n=gnode(h,i);
-if(ttisnil(gval(n)))
-removeentry(n);
-else{
-if(!weakkey)markvalue(g,gkey(n));
-if(!weakvalue)markvalue(g,gval(n));
-}
-}
-return weakkey||weakvalue;
-}
-static void traverseproto(global_State*g,Proto*f){
-int i;
-if(f->source)stringmark(f->source);
-for(i=0;i<f->sizek;i++)
-markvalue(g,&f->k[i]);
-for(i=0;i<f->sizeupvalues;i++){
-if(f->upvalues[i])
-stringmark(f->upvalues[i]);
-}
-for(i=0;i<f->sizep;i++){
-if(f->p[i])
-markobject(g,f->p[i]);
-}
-for(i=0;i<f->sizelocvars;i++){
-if(f->locvars[i].varname)
-stringmark(f->locvars[i].varname);
-}
-}
-static void traverseclosure(global_State*g,Closure*cl){
-markobject(g,cl->c.env);
-if(cl->c.isC){
-int i;
-for(i=0;i<cl->c.nupvalues;i++)
-markvalue(g,&cl->c.upvalue[i]);
-}
-else{
-int i;
-markobject(g,cl->l.p);
-for(i=0;i<cl->l.nupvalues;i++)
-markobject(g,cl->l.upvals[i]);
-}
-}
-static void checkstacksizes(lua_State*L,StkId max){
-int ci_used=cast_int(L->ci-L->base_ci);
-int s_used=cast_int(max-L->stack);
-if(L->size_ci>20000)
-return;
-if(4*ci_used<L->size_ci&&2*8<L->size_ci)
-luaD_reallocCI(L,L->size_ci/2);
-condhardstacktests(luaD_reallocCI(L,ci_used+1));
-if(4*s_used<L->stacksize&&
-2*((2*20)+5)<L->stacksize)
-luaD_reallocstack(L,L->stacksize/2);
-condhardstacktests(luaD_reallocstack(L,s_used));
-}
-static void traversestack(global_State*g,lua_State*l){
-StkId o,lim;
-CallInfo*ci;
-markvalue(g,gt(l));
-lim=l->top;
-for(ci=l->base_ci;ci<=l->ci;ci++){
-if(lim<ci->top)lim=ci->top;
-}
-for(o=l->stack;o<l->top;o++)
-markvalue(g,o);
-for(;o<=lim;o++)
-setnilvalue(o);
-checkstacksizes(l,lim);
-}
-static l_mem propagatemark(global_State*g){
-GCObject*o=g->gray;
-gray2black(o);
-switch(o->gch.tt){
-case 5:{
-Table*h=gco2h(o);
-g->gray=h->gclist;
-if(traversetable(g,h))
-black2gray(o);
-return sizeof(Table)+sizeof(TValue)*h->sizearray+
-sizeof(Node)*sizenode(h);
-}
-case 6:{
-Closure*cl=gco2cl(o);
-g->gray=cl->c.gclist;
-traverseclosure(g,cl);
-return(cl->c.isC)?sizeCclosure(cl->c.nupvalues):
-sizeLclosure(cl->l.nupvalues);
-}
-case 8:{
-lua_State*th=gco2th(o);
-g->gray=th->gclist;
-th->gclist=g->grayagain;
-g->grayagain=o;
-black2gray(o);
-traversestack(g,th);
-return sizeof(lua_State)+sizeof(TValue)*th->stacksize+
-sizeof(CallInfo)*th->size_ci;
-}
-case(8+1):{
-Proto*p=gco2p(o);
-g->gray=p->gclist;
-traverseproto(g,p);
-return sizeof(Proto)+sizeof(Instruction)*p->sizecode+
-sizeof(Proto*)*p->sizep+
-sizeof(TValue)*p->sizek+
-sizeof(int)*p->sizelineinfo+
-sizeof(LocVar)*p->sizelocvars+
-sizeof(TString*)*p->sizeupvalues;
-}
-default:return 0;
-}
-}
-static size_t propagateall(global_State*g){
-size_t m=0;
-while(g->gray)m+=propagatemark(g);
-return m;
-}
-static int iscleared(const TValue*o,int iskey){
-if(!iscollectable(o))return 0;
-if(ttisstring(o)){
-stringmark(rawtsvalue(o));
-return 0;
-}
-return iswhite(gcvalue(o))||
-(ttisuserdata(o)&&(!iskey&&isfinalized(uvalue(o))));
-}
-static void cleartable(GCObject*l){
-while(l){
-Table*h=gco2h(l);
-int i=h->sizearray;
-if(testbit(h->marked,4)){
-while(i--){
-TValue*o=&h->array[i];
-if(iscleared(o,0))
-setnilvalue(o);
-}
-}
-i=sizenode(h);
-while(i--){
-Node*n=gnode(h,i);
-if(!ttisnil(gval(n))&&
-(iscleared(key2tval(n),1)||iscleared(gval(n),0))){
-setnilvalue(gval(n));
-removeentry(n);
-}
-}
-l=h->gclist;
-}
-}
-static void freeobj(lua_State*L,GCObject*o){
-switch(o->gch.tt){
-case(8+1):luaF_freeproto(L,gco2p(o));break;
-case 6:luaF_freeclosure(L,gco2cl(o));break;
-case(8+2):luaF_freeupval(L,gco2uv(o));break;
-case 5:luaH_free(L,gco2h(o));break;
-case 8:{
-luaE_freethread(L,gco2th(o));
-break;
-}
-case 4:{
-G(L)->strt.nuse--;
-luaM_freemem(L,o,sizestring(gco2ts(o)));
-break;
-}
-case 7:{
-luaM_freemem(L,o,sizeudata(gco2u(o)));
-break;
-}
-default:;
-}
-}
-#define sweepwholelist(L,p)sweeplist(L,p,((lu_mem)(~(lu_mem)0)-2))
-static GCObject**sweeplist(lua_State*L,GCObject**p,lu_mem count){
-GCObject*curr;
-global_State*g=G(L);
-int deadmask=otherwhite(g);
-while((curr=*p)!=NULL&&count-->0){
-if(curr->gch.tt==8)
-sweepwholelist(L,&gco2th(curr)->openupval);
-if((curr->gch.marked^bit2mask(0,1))&deadmask){
-makewhite(g,curr);
-p=&curr->gch.next;
-}
-else{
-*p=curr->gch.next;
-if(curr==g->rootgc)
-g->rootgc=curr->gch.next;
-freeobj(L,curr);
-}
-}
-return p;
-}
-static void checkSizes(lua_State*L){
-global_State*g=G(L);
-if(g->strt.nuse<cast(lu_int32,g->strt.size/4)&&
-g->strt.size>32*2)
-luaS_resize(L,g->strt.size/2);
-if(luaZ_sizebuffer(&g->buff)>32*2){
-size_t newsize=luaZ_sizebuffer(&g->buff)/2;
-luaZ_resizebuffer(L,&g->buff,newsize);
-}
-}
-static void GCTM(lua_State*L){
-global_State*g=G(L);
-GCObject*o=g->tmudata->gch.next;
-Udata*udata=rawgco2u(o);
-const TValue*tm;
-if(o==g->tmudata)
-g->tmudata=NULL;
-else
-g->tmudata->gch.next=udata->uv.next;
-udata->uv.next=g->mainthread->next;
-g->mainthread->next=o;
-makewhite(g,o);
-tm=fasttm(L,udata->uv.metatable,TM_GC);
-if(tm!=NULL){
-lu_byte oldah=L->allowhook;
-lu_mem oldt=g->GCthreshold;
-L->allowhook=0;
-g->GCthreshold=2*g->totalbytes;
-setobj(L,L->top,tm);
-setuvalue(L,L->top+1,udata);
-L->top+=2;
-luaD_call(L,L->top-2,0);
-L->allowhook=oldah;
-g->GCthreshold=oldt;
-}
-}
-static void luaC_callGCTM(lua_State*L){
-while(G(L)->tmudata)
-GCTM(L);
-}
-static void luaC_freeall(lua_State*L){
-global_State*g=G(L);
-int i;
-g->currentwhite=bit2mask(0,1)|bitmask(6);
-sweepwholelist(L,&g->rootgc);
-for(i=0;i<g->strt.size;i++)
-sweepwholelist(L,&g->strt.hash[i]);
-}
-static void markmt(global_State*g){
-int i;
-for(i=0;i<(8+1);i++)
-if(g->mt[i])markobject(g,g->mt[i]);
-}
-static void markroot(lua_State*L){
-global_State*g=G(L);
-g->gray=NULL;
-g->grayagain=NULL;
-g->weak=NULL;
-markobject(g,g->mainthread);
-markvalue(g,gt(g->mainthread));
-markvalue(g,registry(L));
-markmt(g);
-g->gcstate=1;
-}
-static void remarkupvals(global_State*g){
-UpVal*uv;
-for(uv=g->uvhead.u.l.next;uv!=&g->uvhead;uv=uv->u.l.next){
-if(isgray(obj2gco(uv)))
-markvalue(g,uv->v);
-}
-}
-static void atomic(lua_State*L){
-global_State*g=G(L);
-size_t udsize;
-remarkupvals(g);
-propagateall(g);
-g->gray=g->weak;
-g->weak=NULL;
-markobject(g,L);
-markmt(g);
-propagateall(g);
-g->gray=g->grayagain;
-g->grayagain=NULL;
-propagateall(g);
-udsize=luaC_separateudata(L,0);
-marktmu(g);
-udsize+=propagateall(g);
-cleartable(g->weak);
-g->currentwhite=cast_byte(otherwhite(g));
-g->sweepstrgc=0;
-g->sweepgc=&g->rootgc;
-g->gcstate=2;
-g->estimate=g->totalbytes-udsize;
-}
-static l_mem singlestep(lua_State*L){
-global_State*g=G(L);
-switch(g->gcstate){
-case 0:{
-markroot(L);
-return 0;
-}
-case 1:{
-if(g->gray)
-return propagatemark(g);
-else{
-atomic(L);
-return 0;
-}
-}
-case 2:{
-lu_mem old=g->totalbytes;
-sweepwholelist(L,&g->strt.hash[g->sweepstrgc++]);
-if(g->sweepstrgc>=g->strt.size)
-g->gcstate=3;
-g->estimate-=old-g->totalbytes;
-return 10;
-}
-case 3:{
-lu_mem old=g->totalbytes;
-g->sweepgc=sweeplist(L,g->sweepgc,40);
-if(*g->sweepgc==NULL){
-checkSizes(L);
-g->gcstate=4;
-}
-g->estimate-=old-g->totalbytes;
-return 40*10;
-}
-case 4:{
-if(g->tmudata){
-GCTM(L);
-if(g->estimate>100)
-g->estimate-=100;
-return 100;
-}
-else{
-g->gcstate=0;
-g->gcdept=0;
-return 0;
-}
-}
-default:return 0;
-}
-}
-static void luaC_step(lua_State*L){
-global_State*g=G(L);
-l_mem lim=(1024u/100)*g->gcstepmul;
-if(lim==0)
-lim=(((lu_mem)(~(lu_mem)0)-2)-1)/2;
-g->gcdept+=g->totalbytes-g->GCthreshold;
-do{
-lim-=singlestep(L);
-if(g->gcstate==0)
-break;
-}while(lim>0);
-if(g->gcstate!=0){
-if(g->gcdept<1024u)
-g->GCthreshold=g->totalbytes+1024u;
-else{
-g->gcdept-=1024u;
-g->GCthreshold=g->totalbytes;
-}
-}
-else{
-setthreshold(g);
-}
-}
-static void luaC_barrierf(lua_State*L,GCObject*o,GCObject*v){
-global_State*g=G(L);
-if(g->gcstate==1)
-reallymarkobject(g,v);
-else
-makewhite(g,o);
-}
-static void luaC_barrierback(lua_State*L,Table*t){
-global_State*g=G(L);
-GCObject*o=obj2gco(t);
-black2gray(o);
-t->gclist=g->grayagain;
-g->grayagain=o;
-}
-static void luaC_link(lua_State*L,GCObject*o,lu_byte tt){
-global_State*g=G(L);
-o->gch.next=g->rootgc;
-g->rootgc=o;
-o->gch.marked=luaC_white(g);
-o->gch.tt=tt;
-}
-static void luaC_linkupval(lua_State*L,UpVal*uv){
-global_State*g=G(L);
-GCObject*o=obj2gco(uv);
-o->gch.next=g->rootgc;
-g->rootgc=o;
-if(isgray(o)){
-if(g->gcstate==1){
-gray2black(o);
-luaC_barrier(L,uv,uv->v);
-}
-else{
-makewhite(g,o);
-}
-}
-}
-typedef union{
-lua_Number r;
-TString*ts;
-}SemInfo;
-typedef struct Token{
-int token;
-SemInfo seminfo;
-}Token;
-typedef struct LexState{
-int current;
-int linenumber;
-int lastline;
-Token t;
-Token lookahead;
-struct FuncState*fs;
-struct lua_State*L;
-ZIO*z;
-Mbuffer*buff;
-TString*source;
-char decpoint;
-}LexState;
-static void luaX_init(lua_State*L);
-static void luaX_lexerror(LexState*ls,const char*msg,int token);
-#define state_size(x)(sizeof(x)+0)
-#define fromstate(l)(cast(lu_byte*,(l))-0)
-#define tostate(l)(cast(lua_State*,cast(lu_byte*,l)+0))
-typedef struct LG{
-lua_State l;
-global_State g;
-}LG;
-static void stack_init(lua_State*L1,lua_State*L){
-L1->base_ci=luaM_newvector(L,8,CallInfo);
-L1->ci=L1->base_ci;
-L1->size_ci=8;
-L1->end_ci=L1->base_ci+L1->size_ci-1;
-L1->stack=luaM_newvector(L,(2*20)+5,TValue);
-L1->stacksize=(2*20)+5;
-L1->top=L1->stack;
-L1->stack_last=L1->stack+(L1->stacksize-5)-1;
-L1->ci->func=L1->top;
-setnilvalue(L1->top++);
-L1->base=L1->ci->base=L1->top;
-L1->ci->top=L1->top+20;
-}
-static void freestack(lua_State*L,lua_State*L1){
-luaM_freearray(L,L1->base_ci,L1->size_ci,CallInfo);
-luaM_freearray(L,L1->stack,L1->stacksize,TValue);
-}
-static void f_luaopen(lua_State*L,void*ud){
-global_State*g=G(L);
-UNUSED(ud);
-stack_init(L,L);
-sethvalue(L,gt(L),luaH_new(L,0,2));
-sethvalue(L,registry(L),luaH_new(L,0,2));
-luaS_resize(L,32);
-luaT_init(L);
-luaX_init(L);
-luaS_fix(luaS_newliteral(L,"not enough memory"));
-g->GCthreshold=4*g->totalbytes;
-}
-static void preinit_state(lua_State*L,global_State*g){
-G(L)=g;
-L->stack=NULL;
-L->stacksize=0;
-L->errorJmp=NULL;
-L->hook=NULL;
-L->hookmask=0;
-L->basehookcount=0;
-L->allowhook=1;
-resethookcount(L);
-L->openupval=NULL;
-L->size_ci=0;
-L->nCcalls=L->baseCcalls=0;
-L->status=0;
-L->base_ci=L->ci=NULL;
-L->savedpc=NULL;
-L->errfunc=0;
-setnilvalue(gt(L));
-}
-static void close_state(lua_State*L){
-global_State*g=G(L);
-luaF_close(L,L->stack);
-luaC_freeall(L);
-luaM_freearray(L,G(L)->strt.hash,G(L)->strt.size,TString*);
-luaZ_freebuffer(L,&g->buff);
-freestack(L,L);
-(*g->frealloc)(g->ud,fromstate(L),state_size(LG),0);
-}
-static void luaE_freethread(lua_State*L,lua_State*L1){
-luaF_close(L1,L1->stack);
-freestack(L,L1);
-luaM_freemem(L,fromstate(L1),state_size(lua_State));
-}
-static lua_State*lua_newstate(lua_Alloc f,void*ud){
-int i;
-lua_State*L;
-global_State*g;
-void*l=(*f)(ud,NULL,0,state_size(LG));
-if(l==NULL)return NULL;
-L=tostate(l);
-g=&((LG*)L)->g;
-L->next=NULL;
-L->tt=8;
-g->currentwhite=bit2mask(0,5);
-L->marked=luaC_white(g);
-set2bits(L->marked,5,6);
-preinit_state(L,g);
-g->frealloc=f;
-g->ud=ud;
-g->mainthread=L;
-g->uvhead.u.l.prev=&g->uvhead;
-g->uvhead.u.l.next=&g->uvhead;
-g->GCthreshold=0;
-g->strt.size=0;
-g->strt.nuse=0;
-g->strt.hash=NULL;
-setnilvalue(registry(L));
-luaZ_initbuffer(L,&g->buff);
-g->panic=NULL;
-g->gcstate=0;
-g->rootgc=obj2gco(L);
-g->sweepstrgc=0;
-g->sweepgc=&g->rootgc;
-g->gray=NULL;
-g->grayagain=NULL;
-g->weak=NULL;
-g->tmudata=NULL;
-g->totalbytes=sizeof(LG);
-g->gcpause=200;
-g->gcstepmul=200;
-g->gcdept=0;
-for(i=0;i<(8+1);i++)g->mt[i]=NULL;
-if(luaD_rawrunprotected(L,f_luaopen,NULL)!=0){
-close_state(L);
-L=NULL;
-}
-else
-{}
-return L;
-}
-static void callallgcTM(lua_State*L,void*ud){
-UNUSED(ud);
-luaC_callGCTM(L);
-}
-static void lua_close(lua_State*L){
-L=G(L)->mainthread;
-luaF_close(L,L->stack);
-luaC_separateudata(L,1);
-L->errfunc=0;
-do{
-L->ci=L->base_ci;
-L->base=L->top=L->ci->base;
-L->nCcalls=L->baseCcalls=0;
-}while(luaD_rawrunprotected(L,callallgcTM,NULL)!=0);
-close_state(L);
-}
-#define getcode(fs,e)((fs)->f->code[(e)->u.s.info])
-#define luaK_codeAsBx(fs,o,A,sBx)luaK_codeABx(fs,o,A,(sBx)+(((1<<(9+9))-1)>>1))
-#define luaK_setmultret(fs,e)luaK_setreturns(fs,e,(-1))
-static int luaK_codeABx(FuncState*fs,OpCode o,int A,unsigned int Bx);
-static int luaK_codeABC(FuncState*fs,OpCode o,int A,int B,int C);
-static void luaK_setreturns(FuncState*fs,expdesc*e,int nresults);
-static void luaK_patchtohere(FuncState*fs,int list);
-static void luaK_concat(FuncState*fs,int*l1,int l2);
-static int currentpc(lua_State*L,CallInfo*ci){
-if(!isLua(ci))return-1;
-if(ci==L->ci)
-ci->savedpc=L->savedpc;
-return pcRel(ci->savedpc,ci_func(ci)->l.p);
-}
-static int currentline(lua_State*L,CallInfo*ci){
-int pc=currentpc(L,ci);
-if(pc<0)
-return-1;
-else
-return getline_(ci_func(ci)->l.p,pc);
-}
-static int lua_getstack(lua_State*L,int level,lua_Debug*ar){
-int status;
-CallInfo*ci;
-for(ci=L->ci;level>0&&ci>L->base_ci;ci--){
-level--;
-if(f_isLua(ci))
-level-=ci->tailcalls;
-}
-if(level==0&&ci>L->base_ci){
-status=1;
-ar->i_ci=cast_int(ci-L->base_ci);
-}
-else if(level<0){
-status=1;
-ar->i_ci=0;
-}
-else status=0;
-return status;
-}
-static Proto*getluaproto(CallInfo*ci){
-return(isLua(ci)?ci_func(ci)->l.p:NULL);
-}
-static void funcinfo(lua_Debug*ar,Closure*cl){
-if(cl->c.isC){
-ar->source="=[C]";
-ar->linedefined=-1;
-ar->lastlinedefined=-1;
-ar->what="C";
-}
-else{
-ar->source=getstr(cl->l.p->source);
-ar->linedefined=cl->l.p->linedefined;
-ar->lastlinedefined=cl->l.p->lastlinedefined;
-ar->what=(ar->linedefined==0)?"main":"Lua";
-}
-luaO_chunkid(ar->short_src,ar->source,60);
-}
-static void info_tailcall(lua_Debug*ar){
-ar->name=ar->namewhat="";
-ar->what="tail";
-ar->lastlinedefined=ar->linedefined=ar->currentline=-1;
-ar->source="=(tail call)";
-luaO_chunkid(ar->short_src,ar->source,60);
-ar->nups=0;
-}
-static void collectvalidlines(lua_State*L,Closure*f){
-if(f==NULL||f->c.isC){
-setnilvalue(L->top);
-}
-else{
-Table*t=luaH_new(L,0,0);
-int*lineinfo=f->l.p->lineinfo;
-int i;
-for(i=0;i<f->l.p->sizelineinfo;i++)
-setbvalue(luaH_setnum(L,t,lineinfo[i]),1);
-sethvalue(L,L->top,t);
-}
-incr_top(L);
-}
-static int auxgetinfo(lua_State*L,const char*what,lua_Debug*ar,
-Closure*f,CallInfo*ci){
-int status=1;
-if(f==NULL){
-info_tailcall(ar);
-return status;
-}
-for(;*what;what++){
-switch(*what){
-case'S':{
-funcinfo(ar,f);
-break;
-}
-case'l':{
-ar->currentline=(ci)?currentline(L,ci):-1;
-break;
-}
-case'u':{
-ar->nups=f->c.nupvalues;
-break;
-}
-case'n':{
-ar->namewhat=(ci)?NULL:NULL;
-if(ar->namewhat==NULL){
-ar->namewhat="";
-ar->name=NULL;
-}
-break;
-}
-case'L':
-case'f':
-break;
-default:status=0;
-}
-}
-return status;
-}
-static int lua_getinfo(lua_State*L,const char*what,lua_Debug*ar){
-int status;
-Closure*f=NULL;
-CallInfo*ci=NULL;
-if(*what=='>'){
-StkId func=L->top-1;
-luai_apicheck(L,ttisfunction(func));
-what++;
-f=clvalue(func);
-L->top--;
-}
-else if(ar->i_ci!=0){
-ci=L->base_ci+ar->i_ci;
-f=clvalue(ci->func);
-}
-status=auxgetinfo(L,what,ar,f,ci);
-if(strchr(what,'f')){
-if(f==NULL)setnilvalue(L->top);
-else setclvalue(L,L->top,f);
-incr_top(L);
-}
-if(strchr(what,'L'))
-collectvalidlines(L,f);
-return status;
-}
-static int isinstack(CallInfo*ci,const TValue*o){
-StkId p;
-for(p=ci->base;p<ci->top;p++)
-if(o==p)return 1;
-return 0;
-}
-static void luaG_typeerror(lua_State*L,const TValue*o,const char*op){
-const char*name=NULL;
-const char*t=luaT_typenames[ttype(o)];
-const char*kind=(isinstack(L->ci,o))?
-NULL:
-NULL;
-if(kind)
-luaG_runerror(L,"attempt to %s %s "LUA_QL("%s")" (a %s value)",
-op,kind,name,t);
-else
-luaG_runerror(L,"attempt to %s a %s value",op,t);
-}
-static void luaG_concaterror(lua_State*L,StkId p1,StkId p2){
-if(ttisstring(p1)||ttisnumber(p1))p1=p2;
-luaG_typeerror(L,p1,"concatenate");
-}
-static void luaG_aritherror(lua_State*L,const TValue*p1,const TValue*p2){
-TValue temp;
-if(luaV_tonumber(p1,&temp)==NULL)
-p2=p1;
-luaG_typeerror(L,p2,"perform arithmetic on");
-}
-static int luaG_ordererror(lua_State*L,const TValue*p1,const TValue*p2){
-const char*t1=luaT_typenames[ttype(p1)];
-const char*t2=luaT_typenames[ttype(p2)];
-if(t1[2]==t2[2])
-luaG_runerror(L,"attempt to compare two %s values",t1);
-else
-luaG_runerror(L,"attempt to compare %s with %s",t1,t2);
-return 0;
-}
-static void addinfo(lua_State*L,const char*msg){
-CallInfo*ci=L->ci;
-if(isLua(ci)){
-char buff[60];
-int line=currentline(L,ci);
-luaO_chunkid(buff,getstr(getluaproto(ci)->source),60);
-luaO_pushfstring(L,"%s:%d: %s",buff,line,msg);
-}
-}
-static void luaG_errormsg(lua_State*L){
-if(L->errfunc!=0){
-StkId errfunc=restorestack(L,L->errfunc);
-if(!ttisfunction(errfunc))luaD_throw(L,5);
-setobj(L,L->top,L->top-1);
-setobj(L,L->top-1,errfunc);
-incr_top(L);
-luaD_call(L,L->top-2,1);
-}
-luaD_throw(L,2);
-}
-static void luaG_runerror(lua_State*L,const char*fmt,...){
-va_list argp;
-va_start(argp,fmt);
-addinfo(L,luaO_pushvfstring(L,fmt,argp));
-va_end(argp);
-luaG_errormsg(L);
-}
-static int luaZ_fill(ZIO*z){
-size_t size;
-lua_State*L=z->L;
-const char*buff;
-buff=z->reader(L,z->data,&size);
-if(buff==NULL||size==0)return(-1);
-z->n=size-1;
-z->p=buff;
-return char2int(*(z->p++));
-}
-static void luaZ_init(lua_State*L,ZIO*z,lua_Reader reader,void*data){
-z->L=L;
-z->reader=reader;
-z->data=data;
-z->n=0;
-z->p=NULL;
-}
-static char*luaZ_openspace(lua_State*L,Mbuffer*buff,size_t n){
-if(n>buff->buffsize){
-if(n<32)n=32;
-luaZ_resizebuffer(L,buff,n);
-}
-return buff->buffer;
-}
-#define opmode(t,a,b,c,m)(((t)<<7)|((a)<<6)|((b)<<4)|((c)<<2)|(m))
-static const lu_byte luaP_opmodes[(cast(int,OP_VARARG)+1)]={
-opmode(0,1,OpArgR,OpArgN,iABC)
-,opmode(0,1,OpArgK,OpArgN,iABx)
-,opmode(0,1,OpArgU,OpArgU,iABC)
-,opmode(0,1,OpArgR,OpArgN,iABC)
-,opmode(0,1,OpArgU,OpArgN,iABC)
-,opmode(0,1,OpArgK,OpArgN,iABx)
-,opmode(0,1,OpArgR,OpArgK,iABC)
-,opmode(0,0,OpArgK,OpArgN,iABx)
-,opmode(0,0,OpArgU,OpArgN,iABC)
-,opmode(0,0,OpArgK,OpArgK,iABC)
-,opmode(0,1,OpArgU,OpArgU,iABC)
-,opmode(0,1,OpArgR,OpArgK,iABC)
-,opmode(0,1,OpArgK,OpArgK,iABC)
-,opmode(0,1,OpArgK,OpArgK,iABC)
-,opmode(0,1,OpArgK,OpArgK,iABC)
-,opmode(0,1,OpArgK,OpArgK,iABC)
-,opmode(0,1,OpArgK,OpArgK,iABC)
-,opmode(0,1,OpArgK,OpArgK,iABC)
-,opmode(0,1,OpArgR,OpArgN,iABC)
-,opmode(0,1,OpArgR,OpArgN,iABC)
-,opmode(0,1,OpArgR,OpArgN,iABC)
-,opmode(0,1,OpArgR,OpArgR,iABC)
-,opmode(0,0,OpArgR,OpArgN,iAsBx)
-,opmode(1,0,OpArgK,OpArgK,iABC)
-,opmode(1,0,OpArgK,OpArgK,iABC)
-,opmode(1,0,OpArgK,OpArgK,iABC)
-,opmode(1,1,OpArgR,OpArgU,iABC)
-,opmode(1,1,OpArgR,OpArgU,iABC)
-,opmode(0,1,OpArgU,OpArgU,iABC)
-,opmode(0,1,OpArgU,OpArgU,iABC)
-,opmode(0,0,OpArgU,OpArgN,iABC)
-,opmode(0,1,OpArgR,OpArgN,iAsBx)
-,opmode(0,1,OpArgR,OpArgN,iAsBx)
-,opmode(1,0,OpArgN,OpArgU,iABC)
-,opmode(0,0,OpArgU,OpArgU,iABC)
-,opmode(0,0,OpArgN,OpArgN,iABC)
-,opmode(0,1,OpArgU,OpArgN,iABx)
-,opmode(0,1,OpArgU,OpArgN,iABC)
-};
-#define next(ls)(ls->current=zgetc(ls->z))
-#define currIsNewline(ls)(ls->current=='\n'||ls->current=='\r')
-static const char*const luaX_tokens[]={
-"and","break","do","else","elseif",
-"end","false","for","function","if",
-"in","local","nil","not","or","repeat",
-"return","then","true","until","while",
-"..","...","==",">=","<=","~=",
-"<number>","<name>","<string>","<eof>",
-NULL
-};
-#define save_and_next(ls)(save(ls,ls->current),next(ls))
-static void save(LexState*ls,int c){
-Mbuffer*b=ls->buff;
-if(b->n+1>b->buffsize){
-size_t newsize;
-if(b->buffsize>=((size_t)(~(size_t)0)-2)/2)
-luaX_lexerror(ls,"lexical element too long",0);
-newsize=b->buffsize*2;
-luaZ_resizebuffer(ls->L,b,newsize);
-}
-b->buffer[b->n++]=cast(char,c);
-}
-static void luaX_init(lua_State*L){
-int i;
-for(i=0;i<(cast(int,TK_WHILE-257+1));i++){
-TString*ts=luaS_new(L,luaX_tokens[i]);
-luaS_fix(ts);
-ts->tsv.reserved=cast_byte(i+1);
-}
-}
-static const char*luaX_token2str(LexState*ls,int token){
-if(token<257){
-return(iscntrl(token))?luaO_pushfstring(ls->L,"char(%d)",token):
-luaO_pushfstring(ls->L,"%c",token);
-}
-else
-return luaX_tokens[token-257];
-}
-static const char*txtToken(LexState*ls,int token){
-switch(token){
-case TK_NAME:
-case TK_STRING:
-case TK_NUMBER:
-save(ls,'\0');
-return luaZ_buffer(ls->buff);
-default:
-return luaX_token2str(ls,token);
-}
-}
-static void luaX_lexerror(LexState*ls,const char*msg,int token){
-char buff[80];
-luaO_chunkid(buff,getstr(ls->source),80);
-msg=luaO_pushfstring(ls->L,"%s:%d: %s",buff,ls->linenumber,msg);
-if(token)
-luaO_pushfstring(ls->L,"%s near "LUA_QL("%s"),msg,txtToken(ls,token));
-luaD_throw(ls->L,3);
-}
-static void luaX_syntaxerror(LexState*ls,const char*msg){
-luaX_lexerror(ls,msg,ls->t.token);
-}
-static TString*luaX_newstring(LexState*ls,const char*str,size_t l){
-lua_State*L=ls->L;
-TString*ts=luaS_newlstr(L,str,l);
-TValue*o=luaH_setstr(L,ls->fs->h,ts);
-if(ttisnil(o)){
-setbvalue(o,1);
-luaC_checkGC(L);
-}
-return ts;
-}
-static void inclinenumber(LexState*ls){
-int old=ls->current;
-next(ls);
-if(currIsNewline(ls)&&ls->current!=old)
-next(ls);
-if(++ls->linenumber>=(INT_MAX-2))
-luaX_syntaxerror(ls,"chunk has too many lines");
-}
-static void luaX_setinput(lua_State*L,LexState*ls,ZIO*z,TString*source){
-ls->decpoint='.';
-ls->L=L;
-ls->lookahead.token=TK_EOS;
-ls->z=z;
-ls->fs=NULL;
-ls->linenumber=1;
-ls->lastline=1;
-ls->source=source;
-luaZ_resizebuffer(ls->L,ls->buff,32);
-next(ls);
-}
-static int check_next(LexState*ls,const char*set){
-if(!strchr(set,ls->current))
-return 0;
-save_and_next(ls);
-return 1;
-}
-static void buffreplace(LexState*ls,char from,char to){
-size_t n=luaZ_bufflen(ls->buff);
-char*p=luaZ_buffer(ls->buff);
-while(n--)
-if(p[n]==from)p[n]=to;
-}
-static void read_numeral(LexState*ls,SemInfo*seminfo){
-do{
-save_and_next(ls);
-}while(isdigit(ls->current)||ls->current=='.');
-if(check_next(ls,"Ee"))
-check_next(ls,"+-");
-while(isalnum(ls->current)||ls->current=='_')
-save_and_next(ls);
-save(ls,'\0');
-buffreplace(ls,'.',ls->decpoint);
-if(!luaO_str2d(luaZ_buffer(ls->buff),&seminfo->r))
-luaX_lexerror(ls,"malformed number",TK_NUMBER);
-}
-static int skip_sep(LexState*ls){
-int count=0;
-int s=ls->current;
-save_and_next(ls);
-while(ls->current=='='){
-save_and_next(ls);
-count++;
-}
-return(ls->current==s)?count:(-count)-1;
-}
-static void read_long_string(LexState*ls,SemInfo*seminfo,int sep){
-int cont=0;
-(void)(cont);
-save_and_next(ls);
-if(currIsNewline(ls))
-inclinenumber(ls);
-for(;;){
-switch(ls->current){
-case(-1):
-luaX_lexerror(ls,(seminfo)?"unfinished long string":
-"unfinished long comment",TK_EOS);
-break;
-case']':{
-if(skip_sep(ls)==sep){
-save_and_next(ls);
-goto endloop;
-}
-break;
-}
-case'\n':
-case'\r':{
-save(ls,'\n');
-inclinenumber(ls);
-if(!seminfo)luaZ_resetbuffer(ls->buff);
-break;
-}
-default:{
-if(seminfo)save_and_next(ls);
-else next(ls);
-}
-}
-}endloop:
-if(seminfo)
-seminfo->ts=luaX_newstring(ls,luaZ_buffer(ls->buff)+(2+sep),
-luaZ_bufflen(ls->buff)-2*(2+sep));
-}
-static void read_string(LexState*ls,int del,SemInfo*seminfo){
-save_and_next(ls);
-while(ls->current!=del){
-switch(ls->current){
-case(-1):
-luaX_lexerror(ls,"unfinished string",TK_EOS);
-continue;
-case'\n':
-case'\r':
-luaX_lexerror(ls,"unfinished string",TK_STRING);
-continue;
-case'\\':{
-int c;
-next(ls);
-switch(ls->current){
-case'a':c='\a';break;
-case'b':c='\b';break;
-case'f':c='\f';break;
-case'n':c='\n';break;
-case'r':c='\r';break;
-case't':c='\t';break;
-case'v':c='\v';break;
-case'\n':
-case'\r':save(ls,'\n');inclinenumber(ls);continue;
-case(-1):continue;
-default:{
-if(!isdigit(ls->current))
-save_and_next(ls);
-else{
-int i=0;
-c=0;
-do{
-c=10*c+(ls->current-'0');
-next(ls);
-}while(++i<3&&isdigit(ls->current));
-if(c>UCHAR_MAX)
-luaX_lexerror(ls,"escape sequence too large",TK_STRING);
-save(ls,c);
-}
-continue;
-}
-}
-save(ls,c);
-next(ls);
-continue;
-}
-default:
-save_and_next(ls);
-}
-}
-save_and_next(ls);
-seminfo->ts=luaX_newstring(ls,luaZ_buffer(ls->buff)+1,
-luaZ_bufflen(ls->buff)-2);
-}
-static int llex(LexState*ls,SemInfo*seminfo){
-luaZ_resetbuffer(ls->buff);
-for(;;){
-switch(ls->current){
-case'\n':
-case'\r':{
-inclinenumber(ls);
-continue;
-}
-case'-':{
-next(ls);
-if(ls->current!='-')return'-';
-next(ls);
-if(ls->current=='['){
-int sep=skip_sep(ls);
-luaZ_resetbuffer(ls->buff);
-if(sep>=0){
-read_long_string(ls,NULL,sep);
-luaZ_resetbuffer(ls->buff);
-continue;
-}
-}
-while(!currIsNewline(ls)&&ls->current!=(-1))
-next(ls);
-continue;
-}
-case'[':{
-int sep=skip_sep(ls);
-if(sep>=0){
-read_long_string(ls,seminfo,sep);
-return TK_STRING;
-}
-else if(sep==-1)return'[';
-else luaX_lexerror(ls,"invalid long string delimiter",TK_STRING);
-}
-case'=':{
-next(ls);
-if(ls->current!='=')return'=';
-else{next(ls);return TK_EQ;}
-}
-case'<':{
-next(ls);
-if(ls->current!='=')return'<';
-else{next(ls);return TK_LE;}
-}
-case'>':{
-next(ls);
-if(ls->current!='=')return'>';
-else{next(ls);return TK_GE;}
-}
-case'~':{
-next(ls);
-if(ls->current!='=')return'~';
-else{next(ls);return TK_NE;}
-}
-case'"':
-case'\'':{
-read_string(ls,ls->current,seminfo);
-return TK_STRING;
-}
-case'.':{
-save_and_next(ls);
-if(check_next(ls,".")){
-if(check_next(ls,"."))
-return TK_DOTS;
-else return TK_CONCAT;
-}
-else if(!isdigit(ls->current))return'.';
-else{
-read_numeral(ls,seminfo);
-return TK_NUMBER;
-}
-}
-case(-1):{
-return TK_EOS;
-}
-default:{
-if(isspace(ls->current)){
-next(ls);
-continue;
-}
-else if(isdigit(ls->current)){
-read_numeral(ls,seminfo);
-return TK_NUMBER;
-}
-else if(isalpha(ls->current)||ls->current=='_'){
-TString*ts;
-do{
-save_and_next(ls);
-}while(isalnum(ls->current)||ls->current=='_');
-ts=luaX_newstring(ls,luaZ_buffer(ls->buff),
-luaZ_bufflen(ls->buff));
-if(ts->tsv.reserved>0)
-return ts->tsv.reserved-1+257;
-else{
-seminfo->ts=ts;
-return TK_NAME;
-}
-}
-else{
-int c=ls->current;
-next(ls);
-return c;
-}
-}
-}
-}
-}
-static void luaX_next(LexState*ls){
-ls->lastline=ls->linenumber;
-if(ls->lookahead.token!=TK_EOS){
-ls->t=ls->lookahead;
-ls->lookahead.token=TK_EOS;
-}
-else
-ls->t.token=llex(ls,&ls->t.seminfo);
-}
-static void luaX_lookahead(LexState*ls){
-ls->lookahead.token=llex(ls,&ls->lookahead.seminfo);
-}
-#define hasjumps(e)((e)->t!=(e)->f)
-static int isnumeral(expdesc*e){
-return(e->k==VKNUM&&e->t==(-1)&&e->f==(-1));
-}
-static void luaK_nil(FuncState*fs,int from,int n){
-Instruction*previous;
-if(fs->pc>fs->lasttarget){
-if(fs->pc==0){
-if(from>=fs->nactvar)
-return;
-}
-else{
-previous=&fs->f->code[fs->pc-1];
-if(GET_OPCODE(*previous)==OP_LOADNIL){
-int pfrom=GETARG_A(*previous);
-int pto=GETARG_B(*previous);
-if(pfrom<=from&&from<=pto+1){
-if(from+n-1>pto)
-SETARG_B(*previous,from+n-1);
-return;
-}
-}
-}
-}
-luaK_codeABC(fs,OP_LOADNIL,from,from+n-1,0);
-}
-static int luaK_jump(FuncState*fs){
-int jpc=fs->jpc;
-int j;
-fs->jpc=(-1);
-j=luaK_codeAsBx(fs,OP_JMP,0,(-1));
-luaK_concat(fs,&j,jpc);
-return j;
-}
-static void luaK_ret(FuncState*fs,int first,int nret){
-luaK_codeABC(fs,OP_RETURN,first,nret+1,0);
-}
-static int condjump(FuncState*fs,OpCode op,int A,int B,int C){
-luaK_codeABC(fs,op,A,B,C);
-return luaK_jump(fs);
-}
-static void fixjump(FuncState*fs,int pc,int dest){
-Instruction*jmp=&fs->f->code[pc];
-int offset=dest-(pc+1);
-if(abs(offset)>(((1<<(9+9))-1)>>1))
-luaX_syntaxerror(fs->ls,"control structure too long");
-SETARG_sBx(*jmp,offset);
-}
-static int luaK_getlabel(FuncState*fs){
-fs->lasttarget=fs->pc;
-return fs->pc;
-}
-static int getjump(FuncState*fs,int pc){
-int offset=GETARG_sBx(fs->f->code[pc]);
-if(offset==(-1))
-return(-1);
-else
-return(pc+1)+offset;
-}
-static Instruction*getjumpcontrol(FuncState*fs,int pc){
-Instruction*pi=&fs->f->code[pc];
-if(pc>=1&&testTMode(GET_OPCODE(*(pi-1))))
-return pi-1;
-else
-return pi;
-}
-static int need_value(FuncState*fs,int list){
-for(;list!=(-1);list=getjump(fs,list)){
-Instruction i=*getjumpcontrol(fs,list);
-if(GET_OPCODE(i)!=OP_TESTSET)return 1;
-}
-return 0;
-}
-static int patchtestreg(FuncState*fs,int node,int reg){
-Instruction*i=getjumpcontrol(fs,node);
-if(GET_OPCODE(*i)!=OP_TESTSET)
-return 0;
-if(reg!=((1<<8)-1)&&reg!=GETARG_B(*i))
-SETARG_A(*i,reg);
-else
-*i=CREATE_ABC(OP_TEST,GETARG_B(*i),0,GETARG_C(*i));
-return 1;
-}
-static void removevalues(FuncState*fs,int list){
-for(;list!=(-1);list=getjump(fs,list))
-patchtestreg(fs,list,((1<<8)-1));
-}
-static void patchlistaux(FuncState*fs,int list,int vtarget,int reg,
-int dtarget){
-while(list!=(-1)){
-int next=getjump(fs,list);
-if(patchtestreg(fs,list,reg))
-fixjump(fs,list,vtarget);
-else
-fixjump(fs,list,dtarget);
-list=next;
-}
-}
-static void dischargejpc(FuncState*fs){
-patchlistaux(fs,fs->jpc,fs->pc,((1<<8)-1),fs->pc);
-fs->jpc=(-1);
-}
-static void luaK_patchlist(FuncState*fs,int list,int target){
-if(target==fs->pc)
-luaK_patchtohere(fs,list);
-else{
-patchlistaux(fs,list,target,((1<<8)-1),target);
-}
-}
-static void luaK_patchtohere(FuncState*fs,int list){
-luaK_getlabel(fs);
-luaK_concat(fs,&fs->jpc,list);
-}
-static void luaK_concat(FuncState*fs,int*l1,int l2){
-if(l2==(-1))return;
-else if(*l1==(-1))
-*l1=l2;
-else{
-int list=*l1;
-int next;
-while((next=getjump(fs,list))!=(-1))
-list=next;
-fixjump(fs,list,l2);
-}
-}
-static void luaK_checkstack(FuncState*fs,int n){
-int newstack=fs->freereg+n;
-if(newstack>fs->f->maxstacksize){
-if(newstack>=250)
-luaX_syntaxerror(fs->ls,"function or expression too complex");
-fs->f->maxstacksize=cast_byte(newstack);
-}
-}
-static void luaK_reserveregs(FuncState*fs,int n){
-luaK_checkstack(fs,n);
-fs->freereg+=n;
-}
-static void freereg(FuncState*fs,int reg){
-if(!ISK(reg)&&reg>=fs->nactvar){
-fs->freereg--;
-}
-}
-static void freeexp(FuncState*fs,expdesc*e){
-if(e->k==VNONRELOC)
-freereg(fs,e->u.s.info);
-}
-static int addk(FuncState*fs,TValue*k,TValue*v){
-lua_State*L=fs->L;
-TValue*idx=luaH_set(L,fs->h,k);
-Proto*f=fs->f;
-int oldsize=f->sizek;
-if(ttisnumber(idx)){
-return cast_int(nvalue(idx));
-}
-else{
-setnvalue(idx,cast_num(fs->nk));
-luaM_growvector(L,f->k,fs->nk,f->sizek,TValue,
-((1<<(9+9))-1),"constant table overflow");
-while(oldsize<f->sizek)setnilvalue(&f->k[oldsize++]);
-setobj(L,&f->k[fs->nk],v);
-luaC_barrier(L,f,v);
-return fs->nk++;
-}
-}
-static int luaK_stringK(FuncState*fs,TString*s){
-TValue o;
-setsvalue(fs->L,&o,s);
-return addk(fs,&o,&o);
-}
-static int luaK_numberK(FuncState*fs,lua_Number r){
-TValue o;
-setnvalue(&o,r);
-return addk(fs,&o,&o);
-}
-static int boolK(FuncState*fs,int b){
-TValue o;
-setbvalue(&o,b);
-return addk(fs,&o,&o);
-}
-static int nilK(FuncState*fs){
-TValue k,v;
-setnilvalue(&v);
-sethvalue(fs->L,&k,fs->h);
-return addk(fs,&k,&v);
-}
-static void luaK_setreturns(FuncState*fs,expdesc*e,int nresults){
-if(e->k==VCALL){
-SETARG_C(getcode(fs,e),nresults+1);
-}
-else if(e->k==VVARARG){
-SETARG_B(getcode(fs,e),nresults+1);
-SETARG_A(getcode(fs,e),fs->freereg);
-luaK_reserveregs(fs,1);
-}
-}
-static void luaK_setoneret(FuncState*fs,expdesc*e){
-if(e->k==VCALL){
-e->k=VNONRELOC;
-e->u.s.info=GETARG_A(getcode(fs,e));
-}
-else if(e->k==VVARARG){
-SETARG_B(getcode(fs,e),2);
-e->k=VRELOCABLE;
-}
-}
-static void luaK_dischargevars(FuncState*fs,expdesc*e){
-switch(e->k){
-case VLOCAL:{
-e->k=VNONRELOC;
-break;
-}
-case VUPVAL:{
-e->u.s.info=luaK_codeABC(fs,OP_GETUPVAL,0,e->u.s.info,0);
-e->k=VRELOCABLE;
-break;
-}
-case VGLOBAL:{
-e->u.s.info=luaK_codeABx(fs,OP_GETGLOBAL,0,e->u.s.info);
-e->k=VRELOCABLE;
-break;
-}
-case VINDEXED:{
-freereg(fs,e->u.s.aux);
-freereg(fs,e->u.s.info);
-e->u.s.info=luaK_codeABC(fs,OP_GETTABLE,0,e->u.s.info,e->u.s.aux);
-e->k=VRELOCABLE;
-break;
-}
-case VVARARG:
-case VCALL:{
-luaK_setoneret(fs,e);
-break;
-}
-default:break;
-}
-}
-static int code_label(FuncState*fs,int A,int b,int jump){
-luaK_getlabel(fs);
-return luaK_codeABC(fs,OP_LOADBOOL,A,b,jump);
-}
-static void discharge2reg(FuncState*fs,expdesc*e,int reg){
-luaK_dischargevars(fs,e);
-switch(e->k){
-case VNIL:{
-luaK_nil(fs,reg,1);
-break;
-}
-case VFALSE:case VTRUE:{
-luaK_codeABC(fs,OP_LOADBOOL,reg,e->k==VTRUE,0);
-break;
-}
-case VK:{
-luaK_codeABx(fs,OP_LOADK,reg,e->u.s.info);
-break;
-}
-case VKNUM:{
-luaK_codeABx(fs,OP_LOADK,reg,luaK_numberK(fs,e->u.nval));
-break;
-}
-case VRELOCABLE:{
-Instruction*pc=&getcode(fs,e);
-SETARG_A(*pc,reg);
-break;
-}
-case VNONRELOC:{
-if(reg!=e->u.s.info)
-luaK_codeABC(fs,OP_MOVE,reg,e->u.s.info,0);
-break;
-}
-default:{
-return;
-}
-}
-e->u.s.info=reg;
-e->k=VNONRELOC;
-}
-static void discharge2anyreg(FuncState*fs,expdesc*e){
-if(e->k!=VNONRELOC){
-luaK_reserveregs(fs,1);
-discharge2reg(fs,e,fs->freereg-1);
-}
-}
-static void exp2reg(FuncState*fs,expdesc*e,int reg){
-discharge2reg(fs,e,reg);
-if(e->k==VJMP)
-luaK_concat(fs,&e->t,e->u.s.info);
-if(hasjumps(e)){
-int final;
-int p_f=(-1);
-int p_t=(-1);
-if(need_value(fs,e->t)||need_value(fs,e->f)){
-int fj=(e->k==VJMP)?(-1):luaK_jump(fs);
-p_f=code_label(fs,reg,0,1);
-p_t=code_label(fs,reg,1,0);
-luaK_patchtohere(fs,fj);
-}
-final=luaK_getlabel(fs);
-patchlistaux(fs,e->f,final,reg,p_f);
-patchlistaux(fs,e->t,final,reg,p_t);
-}
-e->f=e->t=(-1);
-e->u.s.info=reg;
-e->k=VNONRELOC;
-}
-static void luaK_exp2nextreg(FuncState*fs,expdesc*e){
-luaK_dischargevars(fs,e);
-freeexp(fs,e);
-luaK_reserveregs(fs,1);
-exp2reg(fs,e,fs->freereg-1);
-}
-static int luaK_exp2anyreg(FuncState*fs,expdesc*e){
-luaK_dischargevars(fs,e);
-if(e->k==VNONRELOC){
-if(!hasjumps(e))return e->u.s.info;
-if(e->u.s.info>=fs->nactvar){
-exp2reg(fs,e,e->u.s.info);
-return e->u.s.info;
-}
-}
-luaK_exp2nextreg(fs,e);
-return e->u.s.info;
-}
-static void luaK_exp2val(FuncState*fs,expdesc*e){
-if(hasjumps(e))
-luaK_exp2anyreg(fs,e);
-else
-luaK_dischargevars(fs,e);
-}
-static int luaK_exp2RK(FuncState*fs,expdesc*e){
-luaK_exp2val(fs,e);
-switch(e->k){
-case VKNUM:
-case VTRUE:
-case VFALSE:
-case VNIL:{
-if(fs->nk<=((1<<(9-1))-1)){
-e->u.s.info=(e->k==VNIL)?nilK(fs):
-(e->k==VKNUM)?luaK_numberK(fs,e->u.nval):
-boolK(fs,(e->k==VTRUE));
-e->k=VK;
-return RKASK(e->u.s.info);
-}
-else break;
-}
-case VK:{
-if(e->u.s.info<=((1<<(9-1))-1))
-return RKASK(e->u.s.info);
-else break;
-}
-default:break;
-}
-return luaK_exp2anyreg(fs,e);
-}
-static void luaK_storevar(FuncState*fs,expdesc*var,expdesc*ex){
-switch(var->k){
-case VLOCAL:{
-freeexp(fs,ex);
-exp2reg(fs,ex,var->u.s.info);
-return;
-}
-case VUPVAL:{
-int e=luaK_exp2anyreg(fs,ex);
-luaK_codeABC(fs,OP_SETUPVAL,e,var->u.s.info,0);
-break;
-}
-case VGLOBAL:{
-int e=luaK_exp2anyreg(fs,ex);
-luaK_codeABx(fs,OP_SETGLOBAL,e,var->u.s.info);
-break;
-}
-case VINDEXED:{
-int e=luaK_exp2RK(fs,ex);
-luaK_codeABC(fs,OP_SETTABLE,var->u.s.info,var->u.s.aux,e);
-break;
-}
-default:{
-break;
-}
-}
-freeexp(fs,ex);
-}
-static void luaK_self(FuncState*fs,expdesc*e,expdesc*key){
-int func;
-luaK_exp2anyreg(fs,e);
-freeexp(fs,e);
-func=fs->freereg;
-luaK_reserveregs(fs,2);
-luaK_codeABC(fs,OP_SELF,func,e->u.s.info,luaK_exp2RK(fs,key));
-freeexp(fs,key);
-e->u.s.info=func;
-e->k=VNONRELOC;
-}
-static void invertjump(FuncState*fs,expdesc*e){
-Instruction*pc=getjumpcontrol(fs,e->u.s.info);
-SETARG_A(*pc,!(GETARG_A(*pc)));
-}
-static int jumponcond(FuncState*fs,expdesc*e,int cond){
-if(e->k==VRELOCABLE){
-Instruction ie=getcode(fs,e);
-if(GET_OPCODE(ie)==OP_NOT){
-fs->pc--;
-return condjump(fs,OP_TEST,GETARG_B(ie),0,!cond);
-}
-}
-discharge2anyreg(fs,e);
-freeexp(fs,e);
-return condjump(fs,OP_TESTSET,((1<<8)-1),e->u.s.info,cond);
-}
-static void luaK_goiftrue(FuncState*fs,expdesc*e){
-int pc;
-luaK_dischargevars(fs,e);
-switch(e->k){
-case VK:case VKNUM:case VTRUE:{
-pc=(-1);
-break;
-}
-case VJMP:{
-invertjump(fs,e);
-pc=e->u.s.info;
-break;
-}
-default:{
-pc=jumponcond(fs,e,0);
-break;
-}
-}
-luaK_concat(fs,&e->f,pc);
-luaK_patchtohere(fs,e->t);
-e->t=(-1);
-}
-static void luaK_goiffalse(FuncState*fs,expdesc*e){
-int pc;
-luaK_dischargevars(fs,e);
-switch(e->k){
-case VNIL:case VFALSE:{
-pc=(-1);
-break;
-}
-case VJMP:{
-pc=e->u.s.info;
-break;
-}
-default:{
-pc=jumponcond(fs,e,1);
-break;
-}
-}
-luaK_concat(fs,&e->t,pc);
-luaK_patchtohere(fs,e->f);
-e->f=(-1);
-}
-static void codenot(FuncState*fs,expdesc*e){
-luaK_dischargevars(fs,e);
-switch(e->k){
-case VNIL:case VFALSE:{
-e->k=VTRUE;
-break;
-}
-case VK:case VKNUM:case VTRUE:{
-e->k=VFALSE;
-break;
-}
-case VJMP:{
-invertjump(fs,e);
-break;
-}
-case VRELOCABLE:
-case VNONRELOC:{
-discharge2anyreg(fs,e);
-freeexp(fs,e);
-e->u.s.info=luaK_codeABC(fs,OP_NOT,0,e->u.s.info,0);
-e->k=VRELOCABLE;
-break;
-}
-default:{
-break;
-}
-}
-{int temp=e->f;e->f=e->t;e->t=temp;}
-removevalues(fs,e->f);
-removevalues(fs,e->t);
-}
-static void luaK_indexed(FuncState*fs,expdesc*t,expdesc*k){
-t->u.s.aux=luaK_exp2RK(fs,k);
-t->k=VINDEXED;
-}
-static int constfolding(OpCode op,expdesc*e1,expdesc*e2){
-lua_Number v1,v2,r;
-if(!isnumeral(e1)||!isnumeral(e2))return 0;
-v1=e1->u.nval;
-v2=e2->u.nval;
-switch(op){
-case OP_ADD:r=luai_numadd(v1,v2);break;
-case OP_SUB:r=luai_numsub(v1,v2);break;
-case OP_MUL:r=luai_nummul(v1,v2);break;
-case OP_DIV:
-if(v2==0)return 0;
-r=luai_numdiv(v1,v2);break;
-case OP_MOD:
-if(v2==0)return 0;
-r=luai_nummod(v1,v2);break;
-case OP_POW:r=luai_numpow(v1,v2);break;
-case OP_UNM:r=luai_numunm(v1);break;
-case OP_LEN:return 0;
-default:r=0;break;
-}
-if(luai_numisnan(r))return 0;
-e1->u.nval=r;
-return 1;
-}
-static void codearith(FuncState*fs,OpCode op,expdesc*e1,expdesc*e2){
-if(constfolding(op,e1,e2))
-return;
-else{
-int o2=(op!=OP_UNM&&op!=OP_LEN)?luaK_exp2RK(fs,e2):0;
-int o1=luaK_exp2RK(fs,e1);
-if(o1>o2){
-freeexp(fs,e1);
-freeexp(fs,e2);
-}
-else{
-freeexp(fs,e2);
-freeexp(fs,e1);
-}
-e1->u.s.info=luaK_codeABC(fs,op,0,o1,o2);
-e1->k=VRELOCABLE;
-}
-}
-static void codecomp(FuncState*fs,OpCode op,int cond,expdesc*e1,
-expdesc*e2){
-int o1=luaK_exp2RK(fs,e1);
-int o2=luaK_exp2RK(fs,e2);
-freeexp(fs,e2);
-freeexp(fs,e1);
-if(cond==0&&op!=OP_EQ){
-int temp;
-temp=o1;o1=o2;o2=temp;
-cond=1;
-}
-e1->u.s.info=condjump(fs,op,cond,o1,o2);
-e1->k=VJMP;
-}
-static void luaK_prefix(FuncState*fs,UnOpr op,expdesc*e){
-expdesc e2;
-e2.t=e2.f=(-1);e2.k=VKNUM;e2.u.nval=0;
-switch(op){
-case OPR_MINUS:{
-if(!isnumeral(e))
-luaK_exp2anyreg(fs,e);
-codearith(fs,OP_UNM,e,&e2);
-break;
-}
-case OPR_NOT:codenot(fs,e);break;
-case OPR_LEN:{
-luaK_exp2anyreg(fs,e);
-codearith(fs,OP_LEN,e,&e2);
-break;
-}
-default:;
-}
-}
-static void luaK_infix(FuncState*fs,BinOpr op,expdesc*v){
-switch(op){
-case OPR_AND:{
-luaK_goiftrue(fs,v);
-break;
-}
-case OPR_OR:{
-luaK_goiffalse(fs,v);
-break;
-}
-case OPR_CONCAT:{
-luaK_exp2nextreg(fs,v);
-break;
-}
-case OPR_ADD:case OPR_SUB:case OPR_MUL:case OPR_DIV:
-case OPR_MOD:case OPR_POW:{
-if(!isnumeral(v))luaK_exp2RK(fs,v);
-break;
-}
-default:{
-luaK_exp2RK(fs,v);
-break;
-}
-}
-}
-static void luaK_posfix(FuncState*fs,BinOpr op,expdesc*e1,expdesc*e2){
-switch(op){
-case OPR_AND:{
-luaK_dischargevars(fs,e2);
-luaK_concat(fs,&e2->f,e1->f);
-*e1=*e2;
-break;
-}
-case OPR_OR:{
-luaK_dischargevars(fs,e2);
-luaK_concat(fs,&e2->t,e1->t);
-*e1=*e2;
-break;
-}
-case OPR_CONCAT:{
-luaK_exp2val(fs,e2);
-if(e2->k==VRELOCABLE&&GET_OPCODE(getcode(fs,e2))==OP_CONCAT){
-freeexp(fs,e1);
-SETARG_B(getcode(fs,e2),e1->u.s.info);
-e1->k=VRELOCABLE;e1->u.s.info=e2->u.s.info;
-}
-else{
-luaK_exp2nextreg(fs,e2);
-codearith(fs,OP_CONCAT,e1,e2);
-}
-break;
-}
-case OPR_ADD:codearith(fs,OP_ADD,e1,e2);break;
-case OPR_SUB:codearith(fs,OP_SUB,e1,e2);break;
-case OPR_MUL:codearith(fs,OP_MUL,e1,e2);break;
-case OPR_DIV:codearith(fs,OP_DIV,e1,e2);break;
-case OPR_MOD:codearith(fs,OP_MOD,e1,e2);break;
-case OPR_POW:codearith(fs,OP_POW,e1,e2);break;
-case OPR_EQ:codecomp(fs,OP_EQ,1,e1,e2);break;
-case OPR_NE:codecomp(fs,OP_EQ,0,e1,e2);break;
-case OPR_LT:codecomp(fs,OP_LT,1,e1,e2);break;
-case OPR_LE:codecomp(fs,OP_LE,1,e1,e2);break;
-case OPR_GT:codecomp(fs,OP_LT,0,e1,e2);break;
-case OPR_GE:codecomp(fs,OP_LE,0,e1,e2);break;
-default:;
-}
-}
-static void luaK_fixline(FuncState*fs,int line){
-fs->f->lineinfo[fs->pc-1]=line;
-}
-static int luaK_code(FuncState*fs,Instruction i,int line){
-Proto*f=fs->f;
-dischargejpc(fs);
-luaM_growvector(fs->L,f->code,fs->pc,f->sizecode,Instruction,
-(INT_MAX-2),"code size overflow");
-f->code[fs->pc]=i;
-luaM_growvector(fs->L,f->lineinfo,fs->pc,f->sizelineinfo,int,
-(INT_MAX-2),"code size overflow");
-f->lineinfo[fs->pc]=line;
-return fs->pc++;
-}
-static int luaK_codeABC(FuncState*fs,OpCode o,int a,int b,int c){
-return luaK_code(fs,CREATE_ABC(o,a,b,c),fs->ls->lastline);
-}
-static int luaK_codeABx(FuncState*fs,OpCode o,int a,unsigned int bc){
-return luaK_code(fs,CREATE_ABx(o,a,bc),fs->ls->lastline);
-}
-static void luaK_setlist(FuncState*fs,int base,int nelems,int tostore){
-int c=(nelems-1)/50+1;
-int b=(tostore==(-1))?0:tostore;
-if(c<=((1<<9)-1))
-luaK_codeABC(fs,OP_SETLIST,base,b,c);
-else{
-luaK_codeABC(fs,OP_SETLIST,base,b,0);
-luaK_code(fs,cast(Instruction,c),fs->ls->lastline);
-}
-fs->freereg=base+1;
-}
-#define hasmultret(k)((k)==VCALL||(k)==VVARARG)
-#define getlocvar(fs,i)((fs)->f->locvars[(fs)->actvar[i]])
-#define luaY_checklimit(fs,v,l,m)if((v)>(l))errorlimit(fs,l,m)
-typedef struct BlockCnt{
-struct BlockCnt*previous;
-int breaklist;
-lu_byte nactvar;
-lu_byte upval;
-lu_byte isbreakable;
-}BlockCnt;
-static void chunk(LexState*ls);
-static void expr(LexState*ls,expdesc*v);
-static void anchor_token(LexState*ls){
-if(ls->t.token==TK_NAME||ls->t.token==TK_STRING){
-TString*ts=ls->t.seminfo.ts;
-luaX_newstring(ls,getstr(ts),ts->tsv.len);
-}
-}
-static void error_expected(LexState*ls,int token){
-luaX_syntaxerror(ls,
-luaO_pushfstring(ls->L,LUA_QL("%s")" expected",luaX_token2str(ls,token)));
-}
-static void errorlimit(FuncState*fs,int limit,const char*what){
-const char*msg=(fs->f->linedefined==0)?
-luaO_pushfstring(fs->L,"main function has more than %d %s",limit,what):
-luaO_pushfstring(fs->L,"function at line %d has more than %d %s",
-fs->f->linedefined,limit,what);
-luaX_lexerror(fs->ls,msg,0);
-}
-static int testnext(LexState*ls,int c){
-if(ls->t.token==c){
-luaX_next(ls);
-return 1;
-}
-else return 0;
-}
-static void check(LexState*ls,int c){
-if(ls->t.token!=c)
-error_expected(ls,c);
-}
-static void checknext(LexState*ls,int c){
-check(ls,c);
-luaX_next(ls);
-}
-#define check_condition(ls,c,msg){if(!(c))luaX_syntaxerror(ls,msg);}
-static void check_match(LexState*ls,int what,int who,int where){
-if(!testnext(ls,what)){
-if(where==ls->linenumber)
-error_expected(ls,what);
-else{
-luaX_syntaxerror(ls,luaO_pushfstring(ls->L,
-LUA_QL("%s")" expected (to close "LUA_QL("%s")" at line %d)",
-luaX_token2str(ls,what),luaX_token2str(ls,who),where));
-}
-}
-}
-static TString*str_checkname(LexState*ls){
-TString*ts;
-check(ls,TK_NAME);
-ts=ls->t.seminfo.ts;
-luaX_next(ls);
-return ts;
-}
-static void init_exp(expdesc*e,expkind k,int i){
-e->f=e->t=(-1);
-e->k=k;
-e->u.s.info=i;
-}
-static void codestring(LexState*ls,expdesc*e,TString*s){
-init_exp(e,VK,luaK_stringK(ls->fs,s));
-}
-static void checkname(LexState*ls,expdesc*e){
-codestring(ls,e,str_checkname(ls));
-}
-static int registerlocalvar(LexState*ls,TString*varname){
-FuncState*fs=ls->fs;
-Proto*f=fs->f;
-int oldsize=f->sizelocvars;
-luaM_growvector(ls->L,f->locvars,fs->nlocvars,f->sizelocvars,
-LocVar,SHRT_MAX,"too many local variables");
-while(oldsize<f->sizelocvars)f->locvars[oldsize++].varname=NULL;
-f->locvars[fs->nlocvars].varname=varname;
-luaC_objbarrier(ls->L,f,varname);
-return fs->nlocvars++;
-}
-#define new_localvarliteral(ls,v,n)new_localvar(ls,luaX_newstring(ls,""v,(sizeof(v)/sizeof(char))-1),n)
-static void new_localvar(LexState*ls,TString*name,int n){
-FuncState*fs=ls->fs;
-luaY_checklimit(fs,fs->nactvar+n+1,200,"local variables");
-fs->actvar[fs->nactvar+n]=cast(unsigned short,registerlocalvar(ls,name));
-}
-static void adjustlocalvars(LexState*ls,int nvars){
-FuncState*fs=ls->fs;
-fs->nactvar=cast_byte(fs->nactvar+nvars);
-for(;nvars;nvars--){
-getlocvar(fs,fs->nactvar-nvars).startpc=fs->pc;
-}
-}
-static void removevars(LexState*ls,int tolevel){
-FuncState*fs=ls->fs;
-while(fs->nactvar>tolevel)
-getlocvar(fs,--fs->nactvar).endpc=fs->pc;
-}
-static int indexupvalue(FuncState*fs,TString*name,expdesc*v){
-int i;
-Proto*f=fs->f;
-int oldsize=f->sizeupvalues;
-for(i=0;i<f->nups;i++){
-if(fs->upvalues[i].k==v->k&&fs->upvalues[i].info==v->u.s.info){
-return i;
-}
-}
-luaY_checklimit(fs,f->nups+1,60,"upvalues");
-luaM_growvector(fs->L,f->upvalues,f->nups,f->sizeupvalues,
-TString*,(INT_MAX-2),"");
-while(oldsize<f->sizeupvalues)f->upvalues[oldsize++]=NULL;
-f->upvalues[f->nups]=name;
-luaC_objbarrier(fs->L,f,name);
-fs->upvalues[f->nups].k=cast_byte(v->k);
-fs->upvalues[f->nups].info=cast_byte(v->u.s.info);
-return f->nups++;
-}
-static int searchvar(FuncState*fs,TString*n){
-int i;
-for(i=fs->nactvar-1;i>=0;i--){
-if(n==getlocvar(fs,i).varname)
-return i;
-}
-return-1;
-}
-static void markupval(FuncState*fs,int level){
-BlockCnt*bl=fs->bl;
-while(bl&&bl->nactvar>level)bl=bl->previous;
-if(bl)bl->upval=1;
-}
-static int singlevaraux(FuncState*fs,TString*n,expdesc*var,int base){
-if(fs==NULL){
-init_exp(var,VGLOBAL,((1<<8)-1));
-return VGLOBAL;
-}
-else{
-int v=searchvar(fs,n);
-if(v>=0){
-init_exp(var,VLOCAL,v);
-if(!base)
-markupval(fs,v);
-return VLOCAL;
-}
-else{
-if(singlevaraux(fs->prev,n,var,0)==VGLOBAL)
-return VGLOBAL;
-var->u.s.info=indexupvalue(fs,n,var);
-var->k=VUPVAL;
-return VUPVAL;
-}
-}
-}
-static void singlevar(LexState*ls,expdesc*var){
-TString*varname=str_checkname(ls);
-FuncState*fs=ls->fs;
-if(singlevaraux(fs,varname,var,1)==VGLOBAL)
-var->u.s.info=luaK_stringK(fs,varname);
-}
-static void adjust_assign(LexState*ls,int nvars,int nexps,expdesc*e){
-FuncState*fs=ls->fs;
-int extra=nvars-nexps;
-if(hasmultret(e->k)){
-extra++;
-if(extra<0)extra=0;
-luaK_setreturns(fs,e,extra);
-if(extra>1)luaK_reserveregs(fs,extra-1);
-}
-else{
-if(e->k!=VVOID)luaK_exp2nextreg(fs,e);
-if(extra>0){
-int reg=fs->freereg;
-luaK_reserveregs(fs,extra);
-luaK_nil(fs,reg,extra);
-}
-}
-}
-static void enterlevel(LexState*ls){
-if(++ls->L->nCcalls>200)
-luaX_lexerror(ls,"chunk has too many syntax levels",0);
-}
-#define leavelevel(ls)((ls)->L->nCcalls--)
-static void enterblock(FuncState*fs,BlockCnt*bl,lu_byte isbreakable){
-bl->breaklist=(-1);
-bl->isbreakable=isbreakable;
-bl->nactvar=fs->nactvar;
-bl->upval=0;
-bl->previous=fs->bl;
-fs->bl=bl;
-}
-static void leaveblock(FuncState*fs){
-BlockCnt*bl=fs->bl;
-fs->bl=bl->previous;
-removevars(fs->ls,bl->nactvar);
-if(bl->upval)
-luaK_codeABC(fs,OP_CLOSE,bl->nactvar,0,0);
-fs->freereg=fs->nactvar;
-luaK_patchtohere(fs,bl->breaklist);
-}
-static void pushclosure(LexState*ls,FuncState*func,expdesc*v){
-FuncState*fs=ls->fs;
-Proto*f=fs->f;
-int oldsize=f->sizep;
-int i;
-luaM_growvector(ls->L,f->p,fs->np,f->sizep,Proto*,
-((1<<(9+9))-1),"constant table overflow");
-while(oldsize<f->sizep)f->p[oldsize++]=NULL;
-f->p[fs->np++]=func->f;
-luaC_objbarrier(ls->L,f,func->f);
-init_exp(v,VRELOCABLE,luaK_codeABx(fs,OP_CLOSURE,0,fs->np-1));
-for(i=0;i<func->f->nups;i++){
-OpCode o=(func->upvalues[i].k==VLOCAL)?OP_MOVE:OP_GETUPVAL;
-luaK_codeABC(fs,o,0,func->upvalues[i].info,0);
-}
-}
-static void open_func(LexState*ls,FuncState*fs){
-lua_State*L=ls->L;
-Proto*f=luaF_newproto(L);
-fs->f=f;
-fs->prev=ls->fs;
-fs->ls=ls;
-fs->L=L;
-ls->fs=fs;
-fs->pc=0;
-fs->lasttarget=-1;
-fs->jpc=(-1);
-fs->freereg=0;
-fs->nk=0;
-fs->np=0;
-fs->nlocvars=0;
-fs->nactvar=0;
-fs->bl=NULL;
-f->source=ls->source;
-f->maxstacksize=2;
-fs->h=luaH_new(L,0,0);
-sethvalue(L,L->top,fs->h);
-incr_top(L);
-setptvalue(L,L->top,f);
-incr_top(L);
-}
-static void close_func(LexState*ls){
-lua_State*L=ls->L;
-FuncState*fs=ls->fs;
-Proto*f=fs->f;
-removevars(ls,0);
-luaK_ret(fs,0,0);
-luaM_reallocvector(L,f->code,f->sizecode,fs->pc,Instruction);
-f->sizecode=fs->pc;
-luaM_reallocvector(L,f->lineinfo,f->sizelineinfo,fs->pc,int);
-f->sizelineinfo=fs->pc;
-luaM_reallocvector(L,f->k,f->sizek,fs->nk,TValue);
-f->sizek=fs->nk;
-luaM_reallocvector(L,f->p,f->sizep,fs->np,Proto*);
-f->sizep=fs->np;
-luaM_reallocvector(L,f->locvars,f->sizelocvars,fs->nlocvars,LocVar);
-f->sizelocvars=fs->nlocvars;
-luaM_reallocvector(L,f->upvalues,f->sizeupvalues,f->nups,TString*);
-f->sizeupvalues=f->nups;
-ls->fs=fs->prev;
-if(fs)anchor_token(ls);
-L->top-=2;
-}
-static Proto*luaY_parser(lua_State*L,ZIO*z,Mbuffer*buff,const char*name){
-struct LexState lexstate;
-struct FuncState funcstate;
-lexstate.buff=buff;
-luaX_setinput(L,&lexstate,z,luaS_new(L,name));
-open_func(&lexstate,&funcstate);
-funcstate.f->is_vararg=2;
-luaX_next(&lexstate);
-chunk(&lexstate);
-check(&lexstate,TK_EOS);
-close_func(&lexstate);
-return funcstate.f;
-}
-static void field(LexState*ls,expdesc*v){
-FuncState*fs=ls->fs;
-expdesc key;
-luaK_exp2anyreg(fs,v);
-luaX_next(ls);
-checkname(ls,&key);
-luaK_indexed(fs,v,&key);
-}
-static void yindex(LexState*ls,expdesc*v){
-luaX_next(ls);
-expr(ls,v);
-luaK_exp2val(ls->fs,v);
-checknext(ls,']');
-}
-struct ConsControl{
-expdesc v;
-expdesc*t;
-int nh;
-int na;
-int tostore;
-};
-static void recfield(LexState*ls,struct ConsControl*cc){
-FuncState*fs=ls->fs;
-int reg=ls->fs->freereg;
-expdesc key,val;
-int rkkey;
-if(ls->t.token==TK_NAME){
-luaY_checklimit(fs,cc->nh,(INT_MAX-2),"items in a constructor");
-checkname(ls,&key);
-}
-else
-yindex(ls,&key);
-cc->nh++;
-checknext(ls,'=');
-rkkey=luaK_exp2RK(fs,&key);
-expr(ls,&val);
-luaK_codeABC(fs,OP_SETTABLE,cc->t->u.s.info,rkkey,luaK_exp2RK(fs,&val));
-fs->freereg=reg;
-}
-static void closelistfield(FuncState*fs,struct ConsControl*cc){
-if(cc->v.k==VVOID)return;
-luaK_exp2nextreg(fs,&cc->v);
-cc->v.k=VVOID;
-if(cc->tostore==50){
-luaK_setlist(fs,cc->t->u.s.info,cc->na,cc->tostore);
-cc->tostore=0;
-}
-}
-static void lastlistfield(FuncState*fs,struct ConsControl*cc){
-if(cc->tostore==0)return;
-if(hasmultret(cc->v.k)){
-luaK_setmultret(fs,&cc->v);
-luaK_setlist(fs,cc->t->u.s.info,cc->na,(-1));
-cc->na--;
-}
-else{
-if(cc->v.k!=VVOID)
-luaK_exp2nextreg(fs,&cc->v);
-luaK_setlist(fs,cc->t->u.s.info,cc->na,cc->tostore);
-}
-}
-static void listfield(LexState*ls,struct ConsControl*cc){
-expr(ls,&cc->v);
-luaY_checklimit(ls->fs,cc->na,(INT_MAX-2),"items in a constructor");
-cc->na++;
-cc->tostore++;
-}
-static void constructor(LexState*ls,expdesc*t){
-FuncState*fs=ls->fs;
-int line=ls->linenumber;
-int pc=luaK_codeABC(fs,OP_NEWTABLE,0,0,0);
-struct ConsControl cc;
-cc.na=cc.nh=cc.tostore=0;
-cc.t=t;
-init_exp(t,VRELOCABLE,pc);
-init_exp(&cc.v,VVOID,0);
-luaK_exp2nextreg(ls->fs,t);
-checknext(ls,'{');
-do{
-if(ls->t.token=='}')break;
-closelistfield(fs,&cc);
-switch(ls->t.token){
-case TK_NAME:{
-luaX_lookahead(ls);
-if(ls->lookahead.token!='=')
-listfield(ls,&cc);
-else
-recfield(ls,&cc);
-break;
-}
-case'[':{
-recfield(ls,&cc);
-break;
-}
-default:{
-listfield(ls,&cc);
-break;
-}
-}
-}while(testnext(ls,',')||testnext(ls,';'));
-check_match(ls,'}','{',line);
-lastlistfield(fs,&cc);
-SETARG_B(fs->f->code[pc],luaO_int2fb(cc.na));
-SETARG_C(fs->f->code[pc],luaO_int2fb(cc.nh));
-}
-static void parlist(LexState*ls){
-FuncState*fs=ls->fs;
-Proto*f=fs->f;
-int nparams=0;
-f->is_vararg=0;
-if(ls->t.token!=')'){
-do{
-switch(ls->t.token){
-case TK_NAME:{
-new_localvar(ls,str_checkname(ls),nparams++);
-break;
-}
-case TK_DOTS:{
-luaX_next(ls);
-f->is_vararg|=2;
-break;
-}
-default:luaX_syntaxerror(ls,"<name> or "LUA_QL("...")" expected");
-}
-}while(!f->is_vararg&&testnext(ls,','));
-}
-adjustlocalvars(ls,nparams);
-f->numparams=cast_byte(fs->nactvar-(f->is_vararg&1));
-luaK_reserveregs(fs,fs->nactvar);
-}
-static void body(LexState*ls,expdesc*e,int needself,int line){
-FuncState new_fs;
-open_func(ls,&new_fs);
-new_fs.f->linedefined=line;
-checknext(ls,'(');
-if(needself){
-new_localvarliteral(ls,"self",0);
-adjustlocalvars(ls,1);
-}
-parlist(ls);
-checknext(ls,')');
-chunk(ls);
-new_fs.f->lastlinedefined=ls->linenumber;
-check_match(ls,TK_END,TK_FUNCTION,line);
-close_func(ls);
-pushclosure(ls,&new_fs,e);
-}
-static int explist1(LexState*ls,expdesc*v){
-int n=1;
-expr(ls,v);
-while(testnext(ls,',')){
-luaK_exp2nextreg(ls->fs,v);
-expr(ls,v);
-n++;
-}
-return n;
-}
-static void funcargs(LexState*ls,expdesc*f){
-FuncState*fs=ls->fs;
-expdesc args;
-int base,nparams;
-int line=ls->linenumber;
-switch(ls->t.token){
-case'(':{
-if(line!=ls->lastline)
-luaX_syntaxerror(ls,"ambiguous syntax (function call x new statement)");
-luaX_next(ls);
-if(ls->t.token==')')
-args.k=VVOID;
-else{
-explist1(ls,&args);
-luaK_setmultret(fs,&args);
-}
-check_match(ls,')','(',line);
-break;
-}
-case'{':{
-constructor(ls,&args);
-break;
-}
-case TK_STRING:{
-codestring(ls,&args,ls->t.seminfo.ts);
-luaX_next(ls);
-break;
-}
-default:{
-luaX_syntaxerror(ls,"function arguments expected");
-return;
-}
-}
-base=f->u.s.info;
-if(hasmultret(args.k))
-nparams=(-1);
-else{
-if(args.k!=VVOID)
-luaK_exp2nextreg(fs,&args);
-nparams=fs->freereg-(base+1);
-}
-init_exp(f,VCALL,luaK_codeABC(fs,OP_CALL,base,nparams+1,2));
-luaK_fixline(fs,line);
-fs->freereg=base+1;
-}
-static void prefixexp(LexState*ls,expdesc*v){
-switch(ls->t.token){
-case'(':{
-int line=ls->linenumber;
-luaX_next(ls);
-expr(ls,v);
-check_match(ls,')','(',line);
-luaK_dischargevars(ls->fs,v);
-return;
-}
-case TK_NAME:{
-singlevar(ls,v);
-return;
-}
-default:{
-luaX_syntaxerror(ls,"unexpected symbol");
-return;
-}
-}
-}
-static void primaryexp(LexState*ls,expdesc*v){
-FuncState*fs=ls->fs;
-prefixexp(ls,v);
-for(;;){
-switch(ls->t.token){
-case'.':{
-field(ls,v);
-break;
-}
-case'[':{
-expdesc key;
-luaK_exp2anyreg(fs,v);
-yindex(ls,&key);
-luaK_indexed(fs,v,&key);
-break;
-}
-case':':{
-expdesc key;
-luaX_next(ls);
-checkname(ls,&key);
-luaK_self(fs,v,&key);
-funcargs(ls,v);
-break;
-}
-case'(':case TK_STRING:case'{':{
-luaK_exp2nextreg(fs,v);
-funcargs(ls,v);
-break;
-}
-default:return;
-}
-}
-}
-static void simpleexp(LexState*ls,expdesc*v){
-switch(ls->t.token){
-case TK_NUMBER:{
-init_exp(v,VKNUM,0);
-v->u.nval=ls->t.seminfo.r;
-break;
-}
-case TK_STRING:{
-codestring(ls,v,ls->t.seminfo.ts);
-break;
-}
-case TK_NIL:{
-init_exp(v,VNIL,0);
-break;
-}
-case TK_TRUE:{
-init_exp(v,VTRUE,0);
-break;
-}
-case TK_FALSE:{
-init_exp(v,VFALSE,0);
-break;
-}
-case TK_DOTS:{
-FuncState*fs=ls->fs;
-check_condition(ls,fs->f->is_vararg,
-"cannot use "LUA_QL("...")" outside a vararg function");
-fs->f->is_vararg&=~4;
-init_exp(v,VVARARG,luaK_codeABC(fs,OP_VARARG,0,1,0));
-break;
-}
-case'{':{
-constructor(ls,v);
-return;
-}
-case TK_FUNCTION:{
-luaX_next(ls);
-body(ls,v,0,ls->linenumber);
-return;
-}
-default:{
-primaryexp(ls,v);
-return;
-}
-}
-luaX_next(ls);
-}
-static UnOpr getunopr(int op){
-switch(op){
-case TK_NOT:return OPR_NOT;
-case'-':return OPR_MINUS;
-case'#':return OPR_LEN;
-default:return OPR_NOUNOPR;
-}
-}
-static BinOpr getbinopr(int op){
-switch(op){
-case'+':return OPR_ADD;
-case'-':return OPR_SUB;
-case'*':return OPR_MUL;
-case'/':return OPR_DIV;
-case'%':return OPR_MOD;
-case'^':return OPR_POW;
-case TK_CONCAT:return OPR_CONCAT;
-case TK_NE:return OPR_NE;
-case TK_EQ:return OPR_EQ;
-case'<':return OPR_LT;
-case TK_LE:return OPR_LE;
-case'>':return OPR_GT;
-case TK_GE:return OPR_GE;
-case TK_AND:return OPR_AND;
-case TK_OR:return OPR_OR;
-default:return OPR_NOBINOPR;
-}
-}
-static const struct{
-lu_byte left;
-lu_byte right;
-}priority[]={
-{6,6},{6,6},{7,7},{7,7},{7,7},
-{10,9},{5,4},
-{3,3},{3,3},
-{3,3},{3,3},{3,3},{3,3},
-{2,2},{1,1}
-};
-static BinOpr subexpr(LexState*ls,expdesc*v,unsigned int limit){
-BinOpr op;
-UnOpr uop;
-enterlevel(ls);
-uop=getunopr(ls->t.token);
-if(uop!=OPR_NOUNOPR){
-luaX_next(ls);
-subexpr(ls,v,8);
-luaK_prefix(ls->fs,uop,v);
-}
-else simpleexp(ls,v);
-op=getbinopr(ls->t.token);
-while(op!=OPR_NOBINOPR&&priority[op].left>limit){
-expdesc v2;
-BinOpr nextop;
-luaX_next(ls);
-luaK_infix(ls->fs,op,v);
-nextop=subexpr(ls,&v2,priority[op].right);
-luaK_posfix(ls->fs,op,v,&v2);
-op=nextop;
-}
-leavelevel(ls);
-return op;
-}
-static void expr(LexState*ls,expdesc*v){
-subexpr(ls,v,0);
-}
-static int block_follow(int token){
-switch(token){
-case TK_ELSE:case TK_ELSEIF:case TK_END:
-case TK_UNTIL:case TK_EOS:
-return 1;
-default:return 0;
-}
-}
-static void block(LexState*ls){
-FuncState*fs=ls->fs;
-BlockCnt bl;
-enterblock(fs,&bl,0);
-chunk(ls);
-leaveblock(fs);
-}
-struct LHS_assign{
-struct LHS_assign*prev;
-expdesc v;
-};
-static void check_conflict(LexState*ls,struct LHS_assign*lh,expdesc*v){
-FuncState*fs=ls->fs;
-int extra=fs->freereg;
-int conflict=0;
-for(;lh;lh=lh->prev){
-if(lh->v.k==VINDEXED){
-if(lh->v.u.s.info==v->u.s.info){
-conflict=1;
-lh->v.u.s.info=extra;
-}
-if(lh->v.u.s.aux==v->u.s.info){
-conflict=1;
-lh->v.u.s.aux=extra;
-}
-}
-}
-if(conflict){
-luaK_codeABC(fs,OP_MOVE,fs->freereg,v->u.s.info,0);
-luaK_reserveregs(fs,1);
-}
-}
-static void assignment(LexState*ls,struct LHS_assign*lh,int nvars){
-expdesc e;
-check_condition(ls,VLOCAL<=lh->v.k&&lh->v.k<=VINDEXED,
-"syntax error");
-if(testnext(ls,',')){
-struct LHS_assign nv;
-nv.prev=lh;
-primaryexp(ls,&nv.v);
-if(nv.v.k==VLOCAL)
-check_conflict(ls,lh,&nv.v);
-luaY_checklimit(ls->fs,nvars,200-ls->L->nCcalls,
-"variables in assignment");
-assignment(ls,&nv,nvars+1);
-}
-else{
-int nexps;
-checknext(ls,'=');
-nexps=explist1(ls,&e);
-if(nexps!=nvars){
-adjust_assign(ls,nvars,nexps,&e);
-if(nexps>nvars)
-ls->fs->freereg-=nexps-nvars;
-}
-else{
-luaK_setoneret(ls->fs,&e);
-luaK_storevar(ls->fs,&lh->v,&e);
-return;
-}
-}
-init_exp(&e,VNONRELOC,ls->fs->freereg-1);
-luaK_storevar(ls->fs,&lh->v,&e);
-}
-static int cond(LexState*ls){
-expdesc v;
-expr(ls,&v);
-if(v.k==VNIL)v.k=VFALSE;
-luaK_goiftrue(ls->fs,&v);
-return v.f;
-}
-static void breakstat(LexState*ls){
-FuncState*fs=ls->fs;
-BlockCnt*bl=fs->bl;
-int upval=0;
-while(bl&&!bl->isbreakable){
-upval|=bl->upval;
-bl=bl->previous;
-}
-if(!bl)
-luaX_syntaxerror(ls,"no loop to break");
-if(upval)
-luaK_codeABC(fs,OP_CLOSE,bl->nactvar,0,0);
-luaK_concat(fs,&bl->breaklist,luaK_jump(fs));
-}
-static void whilestat(LexState*ls,int line){
-FuncState*fs=ls->fs;
-int whileinit;
-int condexit;
-BlockCnt bl;
-luaX_next(ls);
-whileinit=luaK_getlabel(fs);
-condexit=cond(ls);
-enterblock(fs,&bl,1);
-checknext(ls,TK_DO);
-block(ls);
-luaK_patchlist(fs,luaK_jump(fs),whileinit);
-check_match(ls,TK_END,TK_WHILE,line);
-leaveblock(fs);
-luaK_patchtohere(fs,condexit);
-}
-static void repeatstat(LexState*ls,int line){
-int condexit;
-FuncState*fs=ls->fs;
-int repeat_init=luaK_getlabel(fs);
-BlockCnt bl1,bl2;
-enterblock(fs,&bl1,1);
-enterblock(fs,&bl2,0);
-luaX_next(ls);
-chunk(ls);
-check_match(ls,TK_UNTIL,TK_REPEAT,line);
-condexit=cond(ls);
-if(!bl2.upval){
-leaveblock(fs);
-luaK_patchlist(ls->fs,condexit,repeat_init);
-}
-else{
-breakstat(ls);
-luaK_patchtohere(ls->fs,condexit);
-leaveblock(fs);
-luaK_patchlist(ls->fs,luaK_jump(fs),repeat_init);
-}
-leaveblock(fs);
-}
-static int exp1(LexState*ls){
-expdesc e;
-int k;
-expr(ls,&e);
-k=e.k;
-luaK_exp2nextreg(ls->fs,&e);
-return k;
-}
-static void forbody(LexState*ls,int base,int line,int nvars,int isnum){
-BlockCnt bl;
-FuncState*fs=ls->fs;
-int prep,endfor;
-adjustlocalvars(ls,3);
-checknext(ls,TK_DO);
-prep=isnum?luaK_codeAsBx(fs,OP_FORPREP,base,(-1)):luaK_jump(fs);
-enterblock(fs,&bl,0);
-adjustlocalvars(ls,nvars);
-luaK_reserveregs(fs,nvars);
-block(ls);
-leaveblock(fs);
-luaK_patchtohere(fs,prep);
-endfor=(isnum)?luaK_codeAsBx(fs,OP_FORLOOP,base,(-1)):
-luaK_codeABC(fs,OP_TFORLOOP,base,0,nvars);
-luaK_fixline(fs,line);
-luaK_patchlist(fs,(isnum?endfor:luaK_jump(fs)),prep+1);
-}
-static void fornum(LexState*ls,TString*varname,int line){
-FuncState*fs=ls->fs;
-int base=fs->freereg;
-new_localvarliteral(ls,"(for index)",0);
-new_localvarliteral(ls,"(for limit)",1);
-new_localvarliteral(ls,"(for step)",2);
-new_localvar(ls,varname,3);
-checknext(ls,'=');
-exp1(ls);
-checknext(ls,',');
-exp1(ls);
-if(testnext(ls,','))
-exp1(ls);
-else{
-luaK_codeABx(fs,OP_LOADK,fs->freereg,luaK_numberK(fs,1));
-luaK_reserveregs(fs,1);
-}
-forbody(ls,base,line,1,1);
-}
-static void forlist(LexState*ls,TString*indexname){
-FuncState*fs=ls->fs;
-expdesc e;
-int nvars=0;
-int line;
-int base=fs->freereg;
-new_localvarliteral(ls,"(for generator)",nvars++);
-new_localvarliteral(ls,"(for state)",nvars++);
-new_localvarliteral(ls,"(for control)",nvars++);
-new_localvar(ls,indexname,nvars++);
-while(testnext(ls,','))
-new_localvar(ls,str_checkname(ls),nvars++);
-checknext(ls,TK_IN);
-line=ls->linenumber;
-adjust_assign(ls,3,explist1(ls,&e),&e);
-luaK_checkstack(fs,3);
-forbody(ls,base,line,nvars-3,0);
-}
-static void forstat(LexState*ls,int line){
-FuncState*fs=ls->fs;
-TString*varname;
-BlockCnt bl;
-enterblock(fs,&bl,1);
-luaX_next(ls);
-varname=str_checkname(ls);
-switch(ls->t.token){
-case'=':fornum(ls,varname,line);break;
-case',':case TK_IN:forlist(ls,varname);break;
-default:luaX_syntaxerror(ls,LUA_QL("=")" or "LUA_QL("in")" expected");
-}
-check_match(ls,TK_END,TK_FOR,line);
-leaveblock(fs);
-}
-static int test_then_block(LexState*ls){
-int condexit;
-luaX_next(ls);
-condexit=cond(ls);
-checknext(ls,TK_THEN);
-block(ls);
-return condexit;
-}
-static void ifstat(LexState*ls,int line){
-FuncState*fs=ls->fs;
-int flist;
-int escapelist=(-1);
-flist=test_then_block(ls);
-while(ls->t.token==TK_ELSEIF){
-luaK_concat(fs,&escapelist,luaK_jump(fs));
-luaK_patchtohere(fs,flist);
-flist=test_then_block(ls);
-}
-if(ls->t.token==TK_ELSE){
-luaK_concat(fs,&escapelist,luaK_jump(fs));
-luaK_patchtohere(fs,flist);
-luaX_next(ls);
-block(ls);
-}
-else
-luaK_concat(fs,&escapelist,flist);
-luaK_patchtohere(fs,escapelist);
-check_match(ls,TK_END,TK_IF,line);
-}
-static void localfunc(LexState*ls){
-expdesc v,b;
-FuncState*fs=ls->fs;
-new_localvar(ls,str_checkname(ls),0);
-init_exp(&v,VLOCAL,fs->freereg);
-luaK_reserveregs(fs,1);
-adjustlocalvars(ls,1);
-body(ls,&b,0,ls->linenumber);
-luaK_storevar(fs,&v,&b);
-getlocvar(fs,fs->nactvar-1).startpc=fs->pc;
-}
-static void localstat(LexState*ls){
-int nvars=0;
-int nexps;
-expdesc e;
-do{
-new_localvar(ls,str_checkname(ls),nvars++);
-}while(testnext(ls,','));
-if(testnext(ls,'='))
-nexps=explist1(ls,&e);
-else{
-e.k=VVOID;
-nexps=0;
-}
-adjust_assign(ls,nvars,nexps,&e);
-adjustlocalvars(ls,nvars);
-}
-static int funcname(LexState*ls,expdesc*v){
-int needself=0;
-singlevar(ls,v);
-while(ls->t.token=='.')
-field(ls,v);
-if(ls->t.token==':'){
-needself=1;
-field(ls,v);
-}
-return needself;
-}
-static void funcstat(LexState*ls,int line){
-int needself;
-expdesc v,b;
-luaX_next(ls);
-needself=funcname(ls,&v);
-body(ls,&b,needself,line);
-luaK_storevar(ls->fs,&v,&b);
-luaK_fixline(ls->fs,line);
-}
-static void exprstat(LexState*ls){
-FuncState*fs=ls->fs;
-struct LHS_assign v;
-primaryexp(ls,&v.v);
-if(v.v.k==VCALL)
-SETARG_C(getcode(fs,&v.v),1);
-else{
-v.prev=NULL;
-assignment(ls,&v,1);
-}
-}
-static void retstat(LexState*ls){
-FuncState*fs=ls->fs;
-expdesc e;
-int first,nret;
-luaX_next(ls);
-if(block_follow(ls->t.token)||ls->t.token==';')
-first=nret=0;
-else{
-nret=explist1(ls,&e);
-if(hasmultret(e.k)){
-luaK_setmultret(fs,&e);
-if(e.k==VCALL&&nret==1){
-SET_OPCODE(getcode(fs,&e),OP_TAILCALL);
-}
-first=fs->nactvar;
-nret=(-1);
-}
-else{
-if(nret==1)
-first=luaK_exp2anyreg(fs,&e);
-else{
-luaK_exp2nextreg(fs,&e);
-first=fs->nactvar;
-}
-}
-}
-luaK_ret(fs,first,nret);
-}
-static int statement(LexState*ls){
-int line=ls->linenumber;
-switch(ls->t.token){
-case TK_IF:{
-ifstat(ls,line);
-return 0;
-}
-case TK_WHILE:{
-whilestat(ls,line);
-return 0;
-}
-case TK_DO:{
-luaX_next(ls);
-block(ls);
-check_match(ls,TK_END,TK_DO,line);
-return 0;
-}
-case TK_FOR:{
-forstat(ls,line);
-return 0;
-}
-case TK_REPEAT:{
-repeatstat(ls,line);
-return 0;
-}
-case TK_FUNCTION:{
-funcstat(ls,line);
-return 0;
-}
-case TK_LOCAL:{
-luaX_next(ls);
-if(testnext(ls,TK_FUNCTION))
-localfunc(ls);
-else
-localstat(ls);
-return 0;
-}
-case TK_RETURN:{
-retstat(ls);
-return 1;
-}
-case TK_BREAK:{
-luaX_next(ls);
-breakstat(ls);
-return 1;
-}
-default:{
-exprstat(ls);
-return 0;
-}
-}
-}
-static void chunk(LexState*ls){
-int islast=0;
-enterlevel(ls);
-while(!islast&&!block_follow(ls->t.token)){
-islast=statement(ls);
-testnext(ls,';');
-ls->fs->freereg=ls->fs->nactvar;
-}
-leavelevel(ls);
-}
-static const TValue*luaV_tonumber(const TValue*obj,TValue*n){
-lua_Number num;
-if(ttisnumber(obj))return obj;
-if(ttisstring(obj)&&luaO_str2d(svalue(obj),&num)){
-setnvalue(n,num);
-return n;
-}
-else
-return NULL;
-}
-static int luaV_tostring(lua_State*L,StkId obj){
-if(!ttisnumber(obj))
-return 0;
-else{
-char s[32];
-lua_Number n=nvalue(obj);
-lua_number2str(s,n);
-setsvalue(L,obj,luaS_new(L,s));
-return 1;
-}
-}
-static void callTMres(lua_State*L,StkId res,const TValue*f,
-const TValue*p1,const TValue*p2){
-ptrdiff_t result=savestack(L,res);
-setobj(L,L->top,f);
-setobj(L,L->top+1,p1);
-setobj(L,L->top+2,p2);
-luaD_checkstack(L,3);
-L->top+=3;
-luaD_call(L,L->top-3,1);
-res=restorestack(L,result);
-L->top--;
-setobj(L,res,L->top);
-}
-static void callTM(lua_State*L,const TValue*f,const TValue*p1,
-const TValue*p2,const TValue*p3){
-setobj(L,L->top,f);
-setobj(L,L->top+1,p1);
-setobj(L,L->top+2,p2);
-setobj(L,L->top+3,p3);
-luaD_checkstack(L,4);
-L->top+=4;
-luaD_call(L,L->top-4,0);
-}
-static void luaV_gettable(lua_State*L,const TValue*t,TValue*key,StkId val){
-int loop;
-for(loop=0;loop<100;loop++){
-const TValue*tm;
-if(ttistable(t)){
-Table*h=hvalue(t);
-const TValue*res=luaH_get(h,key);
-if(!ttisnil(res)||
-(tm=fasttm(L,h->metatable,TM_INDEX))==NULL){
-setobj(L,val,res);
-return;
-}
-}
-else if(ttisnil(tm=luaT_gettmbyobj(L,t,TM_INDEX)))
-luaG_typeerror(L,t,"index");
-if(ttisfunction(tm)){
-callTMres(L,val,tm,t,key);
-return;
-}
-t=tm;
-}
-luaG_runerror(L,"loop in gettable");
-}
-static void luaV_settable(lua_State*L,const TValue*t,TValue*key,StkId val){
-int loop;
-TValue temp;
-for(loop=0;loop<100;loop++){
-const TValue*tm;
-if(ttistable(t)){
-Table*h=hvalue(t);
-TValue*oldval=luaH_set(L,h,key);
-if(!ttisnil(oldval)||
-(tm=fasttm(L,h->metatable,TM_NEWINDEX))==NULL){
-setobj(L,oldval,val);
-h->flags=0;
-luaC_barriert(L,h,val);
-return;
-}
-}
-else if(ttisnil(tm=luaT_gettmbyobj(L,t,TM_NEWINDEX)))
-luaG_typeerror(L,t,"index");
-if(ttisfunction(tm)){
-callTM(L,tm,t,key,val);
-return;
-}
-setobj(L,&temp,tm);
-t=&temp;
-}
-luaG_runerror(L,"loop in settable");
-}
-static int call_binTM(lua_State*L,const TValue*p1,const TValue*p2,
-StkId res,TMS event){
-const TValue*tm=luaT_gettmbyobj(L,p1,event);
-if(ttisnil(tm))
-tm=luaT_gettmbyobj(L,p2,event);
-if(ttisnil(tm))return 0;
-callTMres(L,res,tm,p1,p2);
-return 1;
-}
-static const TValue*get_compTM(lua_State*L,Table*mt1,Table*mt2,
-TMS event){
-const TValue*tm1=fasttm(L,mt1,event);
-const TValue*tm2;
-if(tm1==NULL)return NULL;
-if(mt1==mt2)return tm1;
-tm2=fasttm(L,mt2,event);
-if(tm2==NULL)return NULL;
-if(luaO_rawequalObj(tm1,tm2))
-return tm1;
-return NULL;
-}
-static int call_orderTM(lua_State*L,const TValue*p1,const TValue*p2,
-TMS event){
-const TValue*tm1=luaT_gettmbyobj(L,p1,event);
-const TValue*tm2;
-if(ttisnil(tm1))return-1;
-tm2=luaT_gettmbyobj(L,p2,event);
-if(!luaO_rawequalObj(tm1,tm2))
-return-1;
-callTMres(L,L->top,tm1,p1,p2);
-return!l_isfalse(L->top);
-}
-static int l_strcmp(const TString*ls,const TString*rs){
-const char*l=getstr(ls);
-size_t ll=ls->tsv.len;
-const char*r=getstr(rs);
-size_t lr=rs->tsv.len;
-for(;;){
-int temp=strcoll(l,r);
-if(temp!=0)return temp;
-else{
-size_t len=strlen(l);
-if(len==lr)
-return(len==ll)?0:1;
-else if(len==ll)
-return-1;
-len++;
-l+=len;ll-=len;r+=len;lr-=len;
-}
-}
-}
-static int luaV_lessthan(lua_State*L,const TValue*l,const TValue*r){
-int res;
-if(ttype(l)!=ttype(r))
-return luaG_ordererror(L,l,r);
-else if(ttisnumber(l))
-return luai_numlt(nvalue(l),nvalue(r));
-else if(ttisstring(l))
-return l_strcmp(rawtsvalue(l),rawtsvalue(r))<0;
-else if((res=call_orderTM(L,l,r,TM_LT))!=-1)
-return res;
-return luaG_ordererror(L,l,r);
-}
-static int lessequal(lua_State*L,const TValue*l,const TValue*r){
-int res;
-if(ttype(l)!=ttype(r))
-return luaG_ordererror(L,l,r);
-else if(ttisnumber(l))
-return luai_numle(nvalue(l),nvalue(r));
-else if(ttisstring(l))
-return l_strcmp(rawtsvalue(l),rawtsvalue(r))<=0;
-else if((res=call_orderTM(L,l,r,TM_LE))!=-1)
-return res;
-else if((res=call_orderTM(L,r,l,TM_LT))!=-1)
-return!res;
-return luaG_ordererror(L,l,r);
-}
-static int luaV_equalval(lua_State*L,const TValue*t1,const TValue*t2){
-const TValue*tm;
-switch(ttype(t1)){
-case 0:return 1;
-case 3:return luai_numeq(nvalue(t1),nvalue(t2));
-case 1:return bvalue(t1)==bvalue(t2);
-case 2:return pvalue(t1)==pvalue(t2);
-case 7:{
-if(uvalue(t1)==uvalue(t2))return 1;
-tm=get_compTM(L,uvalue(t1)->metatable,uvalue(t2)->metatable,
-TM_EQ);
-break;
-}
-case 5:{
-if(hvalue(t1)==hvalue(t2))return 1;
-tm=get_compTM(L,hvalue(t1)->metatable,hvalue(t2)->metatable,TM_EQ);
-break;
-}
-default:return gcvalue(t1)==gcvalue(t2);
-}
-if(tm==NULL)return 0;
-callTMres(L,L->top,tm,t1,t2);
-return!l_isfalse(L->top);
-}
-static void luaV_concat(lua_State*L,int total,int last){
-do{
-StkId top=L->base+last+1;
-int n=2;
-if(!(ttisstring(top-2)||ttisnumber(top-2))||!tostring(L,top-1)){
-if(!call_binTM(L,top-2,top-1,top-2,TM_CONCAT))
-luaG_concaterror(L,top-2,top-1);
-}else if(tsvalue(top-1)->len==0)
-(void)tostring(L,top-2);
-else{
-size_t tl=tsvalue(top-1)->len;
-char*buffer;
-int i;
-for(n=1;n<total&&tostring(L,top-n-1);n++){
-size_t l=tsvalue(top-n-1)->len;
-if(l>=((size_t)(~(size_t)0)-2)-tl)luaG_runerror(L,"string length overflow");
-tl+=l;
-}
-buffer=luaZ_openspace(L,&G(L)->buff,tl);
-tl=0;
-for(i=n;i>0;i--){
-size_t l=tsvalue(top-i)->len;
-memcpy(buffer+tl,svalue(top-i),l);
-tl+=l;
-}
-setsvalue(L,top-n,luaS_newlstr(L,buffer,tl));
-}
-total-=n-1;
-last-=n-1;
-}while(total>1);
-}
-static void Arith(lua_State*L,StkId ra,const TValue*rb,
-const TValue*rc,TMS op){
-TValue tempb,tempc;
-const TValue*b,*c;
-if((b=luaV_tonumber(rb,&tempb))!=NULL&&
-(c=luaV_tonumber(rc,&tempc))!=NULL){
-lua_Number nb=nvalue(b),nc=nvalue(c);
-switch(op){
-case TM_ADD:setnvalue(ra,luai_numadd(nb,nc));break;
-case TM_SUB:setnvalue(ra,luai_numsub(nb,nc));break;
-case TM_MUL:setnvalue(ra,luai_nummul(nb,nc));break;
-case TM_DIV:setnvalue(ra,luai_numdiv(nb,nc));break;
-case TM_MOD:setnvalue(ra,luai_nummod(nb,nc));break;
-case TM_POW:setnvalue(ra,luai_numpow(nb,nc));break;
-case TM_UNM:setnvalue(ra,luai_numunm(nb));break;
-default:break;
-}
-}
-else if(!call_binTM(L,rb,rc,ra,op))
-luaG_aritherror(L,rb,rc);
-}
-#define runtime_check(L,c){if(!(c))break;}
-#define RA(i)(base+GETARG_A(i))
-#define RB(i)check_exp(getBMode(GET_OPCODE(i))==OpArgR,base+GETARG_B(i))
-#define RKB(i)check_exp(getBMode(GET_OPCODE(i))==OpArgK,ISK(GETARG_B(i))?k+INDEXK(GETARG_B(i)):base+GETARG_B(i))
-#define RKC(i)check_exp(getCMode(GET_OPCODE(i))==OpArgK,ISK(GETARG_C(i))?k+INDEXK(GETARG_C(i)):base+GETARG_C(i))
-#define KBx(i)check_exp(getBMode(GET_OPCODE(i))==OpArgK,k+GETARG_Bx(i))
-#define dojump(L,pc,i){(pc)+=(i);}
-#define Protect(x){L->savedpc=pc;{x;};base=L->base;}
-#define arith_op(op,tm){TValue*rb=RKB(i);TValue*rc=RKC(i);if(ttisnumber(rb)&&ttisnumber(rc)){lua_Number nb=nvalue(rb),nc=nvalue(rc);setnvalue(ra,op(nb,nc));}else Protect(Arith(L,ra,rb,rc,tm));}
-static void luaV_execute(lua_State*L,int nexeccalls){
-LClosure*cl;
-StkId base;
-TValue*k;
-const Instruction*pc;
-reentry:
-pc=L->savedpc;
-cl=&clvalue(L->ci->func)->l;
-base=L->base;
-k=cl->p->k;
-for(;;){
-const Instruction i=*pc++;
-StkId ra;
-ra=RA(i);
-switch(GET_OPCODE(i)){
-case OP_MOVE:{
-setobj(L,ra,RB(i));
-continue;
-}
-case OP_LOADK:{
-setobj(L,ra,KBx(i));
-continue;
-}
-case OP_LOADBOOL:{
-setbvalue(ra,GETARG_B(i));
-if(GETARG_C(i))pc++;
-continue;
-}
-case OP_LOADNIL:{
-TValue*rb=RB(i);
-do{
-setnilvalue(rb--);
-}while(rb>=ra);
-continue;
-}
-case OP_GETUPVAL:{
-int b=GETARG_B(i);
-setobj(L,ra,cl->upvals[b]->v);
-continue;
-}
-case OP_GETGLOBAL:{
-TValue g;
-TValue*rb=KBx(i);
-sethvalue(L,&g,cl->env);
-Protect(luaV_gettable(L,&g,rb,ra));
-continue;
-}
-case OP_GETTABLE:{
-Protect(luaV_gettable(L,RB(i),RKC(i),ra));
-continue;
-}
-case OP_SETGLOBAL:{
-TValue g;
-sethvalue(L,&g,cl->env);
-Protect(luaV_settable(L,&g,KBx(i),ra));
-continue;
-}
-case OP_SETUPVAL:{
-UpVal*uv=cl->upvals[GETARG_B(i)];
-setobj(L,uv->v,ra);
-luaC_barrier(L,uv,ra);
-continue;
-}
-case OP_SETTABLE:{
-Protect(luaV_settable(L,ra,RKB(i),RKC(i)));
-continue;
-}
-case OP_NEWTABLE:{
-int b=GETARG_B(i);
-int c=GETARG_C(i);
-sethvalue(L,ra,luaH_new(L,luaO_fb2int(b),luaO_fb2int(c)));
-Protect(luaC_checkGC(L));
-continue;
-}
-case OP_SELF:{
-StkId rb=RB(i);
-setobj(L,ra+1,rb);
-Protect(luaV_gettable(L,rb,RKC(i),ra));
-continue;
-}
-case OP_ADD:{
-arith_op(luai_numadd,TM_ADD);
-continue;
-}
-case OP_SUB:{
-arith_op(luai_numsub,TM_SUB);
-continue;
-}
-case OP_MUL:{
-arith_op(luai_nummul,TM_MUL);
-continue;
-}
-case OP_DIV:{
-arith_op(luai_numdiv,TM_DIV);
-continue;
-}
-case OP_MOD:{
-arith_op(luai_nummod,TM_MOD);
-continue;
-}
-case OP_POW:{
-arith_op(luai_numpow,TM_POW);
-continue;
-}
-case OP_UNM:{
-TValue*rb=RB(i);
-if(ttisnumber(rb)){
-lua_Number nb=nvalue(rb);
-setnvalue(ra,luai_numunm(nb));
-}
-else{
-Protect(Arith(L,ra,rb,rb,TM_UNM));
-}
-continue;
-}
-case OP_NOT:{
-int res=l_isfalse(RB(i));
-setbvalue(ra,res);
-continue;
-}
-case OP_LEN:{
-const TValue*rb=RB(i);
-switch(ttype(rb)){
-case 5:{
-setnvalue(ra,cast_num(luaH_getn(hvalue(rb))));
-break;
-}
-case 4:{
-setnvalue(ra,cast_num(tsvalue(rb)->len));
-break;
-}
-default:{
-Protect(
-if(!call_binTM(L,rb,(&luaO_nilobject_),ra,TM_LEN))
-luaG_typeerror(L,rb,"get length of");
-)
-}
-}
-continue;
-}
-case OP_CONCAT:{
-int b=GETARG_B(i);
-int c=GETARG_C(i);
-Protect(luaV_concat(L,c-b+1,c);luaC_checkGC(L));
-setobj(L,RA(i),base+b);
-continue;
-}
-case OP_JMP:{
-dojump(L,pc,GETARG_sBx(i));
-continue;
-}
-case OP_EQ:{
-TValue*rb=RKB(i);
-TValue*rc=RKC(i);
-Protect(
-if(equalobj(L,rb,rc)==GETARG_A(i))
-dojump(L,pc,GETARG_sBx(*pc));
-)
-pc++;
-continue;
-}
-case OP_LT:{
-Protect(
-if(luaV_lessthan(L,RKB(i),RKC(i))==GETARG_A(i))
-dojump(L,pc,GETARG_sBx(*pc));
-)
-pc++;
-continue;
-}
-case OP_LE:{
-Protect(
-if(lessequal(L,RKB(i),RKC(i))==GETARG_A(i))
-dojump(L,pc,GETARG_sBx(*pc));
-)
-pc++;
-continue;
-}
-case OP_TEST:{
-if(l_isfalse(ra)!=GETARG_C(i))
-dojump(L,pc,GETARG_sBx(*pc));
-pc++;
-continue;
-}
-case OP_TESTSET:{
-TValue*rb=RB(i);
-if(l_isfalse(rb)!=GETARG_C(i)){
-setobj(L,ra,rb);
-dojump(L,pc,GETARG_sBx(*pc));
-}
-pc++;
-continue;
-}
-case OP_CALL:{
-int b=GETARG_B(i);
-int nresults=GETARG_C(i)-1;
-if(b!=0)L->top=ra+b;
-L->savedpc=pc;
-switch(luaD_precall(L,ra,nresults)){
-case 0:{
-nexeccalls++;
-goto reentry;
-}
-case 1:{
-if(nresults>=0)L->top=L->ci->top;
-base=L->base;
-continue;
-}
-default:{
-return;
-}
-}
-}
-case OP_TAILCALL:{
-int b=GETARG_B(i);
-if(b!=0)L->top=ra+b;
-L->savedpc=pc;
-switch(luaD_precall(L,ra,(-1))){
-case 0:{
-CallInfo*ci=L->ci-1;
-int aux;
-StkId func=ci->func;
-StkId pfunc=(ci+1)->func;
-if(L->openupval)luaF_close(L,ci->base);
-L->base=ci->base=ci->func+((ci+1)->base-pfunc);
-for(aux=0;pfunc+aux<L->top;aux++)
-setobj(L,func+aux,pfunc+aux);
-ci->top=L->top=func+aux;
-ci->savedpc=L->savedpc;
-ci->tailcalls++;
-L->ci--;
-goto reentry;
-}
-case 1:{
-base=L->base;
-continue;
-}
-default:{
-return;
-}
-}
-}
-case OP_RETURN:{
-int b=GETARG_B(i);
-if(b!=0)L->top=ra+b-1;
-if(L->openupval)luaF_close(L,base);
-L->savedpc=pc;
-b=luaD_poscall(L,ra);
-if(--nexeccalls==0)
-return;
-else{
-if(b)L->top=L->ci->top;
-goto reentry;
-}
-}
-case OP_FORLOOP:{
-lua_Number step=nvalue(ra+2);
-lua_Number idx=luai_numadd(nvalue(ra),step);
-lua_Number limit=nvalue(ra+1);
-if(luai_numlt(0,step)?luai_numle(idx,limit)
-:luai_numle(limit,idx)){
-dojump(L,pc,GETARG_sBx(i));
-setnvalue(ra,idx);
-setnvalue(ra+3,idx);
-}
-continue;
-}
-case OP_FORPREP:{
-const TValue*init=ra;
-const TValue*plimit=ra+1;
-const TValue*pstep=ra+2;
-L->savedpc=pc;
-if(!tonumber(init,ra))
-luaG_runerror(L,LUA_QL("for")" initial value must be a number");
-else if(!tonumber(plimit,ra+1))
-luaG_runerror(L,LUA_QL("for")" limit must be a number");
-else if(!tonumber(pstep,ra+2))
-luaG_runerror(L,LUA_QL("for")" step must be a number");
-setnvalue(ra,luai_numsub(nvalue(ra),nvalue(pstep)));
-dojump(L,pc,GETARG_sBx(i));
-continue;
-}
-case OP_TFORLOOP:{
-StkId cb=ra+3;
-setobj(L,cb+2,ra+2);
-setobj(L,cb+1,ra+1);
-setobj(L,cb,ra);
-L->top=cb+3;
-Protect(luaD_call(L,cb,GETARG_C(i)));
-L->top=L->ci->top;
-cb=RA(i)+3;
-if(!ttisnil(cb)){
-setobj(L,cb-1,cb);
-dojump(L,pc,GETARG_sBx(*pc));
-}
-pc++;
-continue;
-}
-case OP_SETLIST:{
-int n=GETARG_B(i);
-int c=GETARG_C(i);
-int last;
-Table*h;
-if(n==0){
-n=cast_int(L->top-ra)-1;
-L->top=L->ci->top;
-}
-if(c==0)c=cast_int(*pc++);
-runtime_check(L,ttistable(ra));
-h=hvalue(ra);
-last=((c-1)*50)+n;
-if(last>h->sizearray)
-luaH_resizearray(L,h,last);
-for(;n>0;n--){
-TValue*val=ra+n;
-setobj(L,luaH_setnum(L,h,last--),val);
-luaC_barriert(L,h,val);
-}
-continue;
-}
-case OP_CLOSE:{
-luaF_close(L,ra);
-continue;
-}
-case OP_CLOSURE:{
-Proto*p;
-Closure*ncl;
-int nup,j;
-p=cl->p->p[GETARG_Bx(i)];
-nup=p->nups;
-ncl=luaF_newLclosure(L,nup,cl->env);
-ncl->l.p=p;
-for(j=0;j<nup;j++,pc++){
-if(GET_OPCODE(*pc)==OP_GETUPVAL)
-ncl->l.upvals[j]=cl->upvals[GETARG_B(*pc)];
-else{
-ncl->l.upvals[j]=luaF_findupval(L,base+GETARG_B(*pc));
-}
-}
-setclvalue(L,ra,ncl);
-Protect(luaC_checkGC(L));
-continue;
-}
-case OP_VARARG:{
-int b=GETARG_B(i)-1;
-int j;
-CallInfo*ci=L->ci;
-int n=cast_int(ci->base-ci->func)-cl->p->numparams-1;
-if(b==(-1)){
-Protect(luaD_checkstack(L,n));
-ra=RA(i);
-b=n;
-L->top=ra+n;
-}
-for(j=0;j<b;j++){
-if(j<n){
-setobj(L,ra+j,ci->base-n+j);
-}
-else{
-setnilvalue(ra+j);
-}
-}
-continue;
-}
-}
-}
-}
-#define api_checknelems(L,n)luai_apicheck(L,(n)<=(L->top-L->base))
-#define api_checkvalidindex(L,i)luai_apicheck(L,(i)!=(&luaO_nilobject_))
-#define api_incr_top(L){luai_apicheck(L,L->top<L->ci->top);L->top++;}
-static TValue*index2adr(lua_State*L,int idx){
-if(idx>0){
-TValue*o=L->base+(idx-1);
-luai_apicheck(L,idx<=L->ci->top-L->base);
-if(o>=L->top)return cast(TValue*,(&luaO_nilobject_));
-else return o;
-}
-else if(idx>(-10000)){
-luai_apicheck(L,idx!=0&&-idx<=L->top-L->base);
-return L->top+idx;
-}
-else switch(idx){
-case(-10000):return registry(L);
-case(-10001):{
-Closure*func=curr_func(L);
-sethvalue(L,&L->env,func->c.env);
-return&L->env;
-}
-case(-10002):return gt(L);
-default:{
-Closure*func=curr_func(L);
-idx=(-10002)-idx;
-return(idx<=func->c.nupvalues)
-?&func->c.upvalue[idx-1]
-:cast(TValue*,(&luaO_nilobject_));
-}
-}
-}
-static Table*getcurrenv(lua_State*L){
-if(L->ci==L->base_ci)
-return hvalue(gt(L));
-else{
-Closure*func=curr_func(L);
-return func->c.env;
-}
-}
-static int lua_checkstack(lua_State*L,int size){
-int res=1;
-if(size>8000||(L->top-L->base+size)>8000)
-res=0;
-else if(size>0){
-luaD_checkstack(L,size);
-if(L->ci->top<L->top+size)
-L->ci->top=L->top+size;
-}
-return res;
-}
-static lua_CFunction lua_atpanic(lua_State*L,lua_CFunction panicf){
-lua_CFunction old;
-old=G(L)->panic;
-G(L)->panic=panicf;
-return old;
-}
-static int lua_gettop(lua_State*L){
-return cast_int(L->top-L->base);
-}
-static void lua_settop(lua_State*L,int idx){
-if(idx>=0){
-luai_apicheck(L,idx<=L->stack_last-L->base);
-while(L->top<L->base+idx)
-setnilvalue(L->top++);
-L->top=L->base+idx;
-}
-else{
-luai_apicheck(L,-(idx+1)<=(L->top-L->base));
-L->top+=idx+1;
-}
-}
-static void lua_remove(lua_State*L,int idx){
-StkId p;
-p=index2adr(L,idx);
-api_checkvalidindex(L,p);
-while(++p<L->top)setobj(L,p-1,p);
-L->top--;
-}
-static void lua_insert(lua_State*L,int idx){
-StkId p;
-StkId q;
-p=index2adr(L,idx);
-api_checkvalidindex(L,p);
-for(q=L->top;q>p;q--)setobj(L,q,q-1);
-setobj(L,p,L->top);
-}
-static void lua_replace(lua_State*L,int idx){
-StkId o;
-if(idx==(-10001)&&L->ci==L->base_ci)
-luaG_runerror(L,"no calling environment");
-api_checknelems(L,1);
-o=index2adr(L,idx);
-api_checkvalidindex(L,o);
-if(idx==(-10001)){
-Closure*func=curr_func(L);
-luai_apicheck(L,ttistable(L->top-1));
-func->c.env=hvalue(L->top-1);
-luaC_barrier(L,func,L->top-1);
-}
-else{
-setobj(L,o,L->top-1);
-if(idx<(-10002))
-luaC_barrier(L,curr_func(L),L->top-1);
-}
-L->top--;
-}
-static void lua_pushvalue(lua_State*L,int idx){
-setobj(L,L->top,index2adr(L,idx));
-api_incr_top(L);
-}
-static int lua_type(lua_State*L,int idx){
-StkId o=index2adr(L,idx);
-return(o==(&luaO_nilobject_))?(-1):ttype(o);
-}
-static const char*lua_typename(lua_State*L,int t){
-UNUSED(L);
-return(t==(-1))?"no value":luaT_typenames[t];
-}
-static int lua_iscfunction(lua_State*L,int idx){
-StkId o=index2adr(L,idx);
-return iscfunction(o);
-}
-static int lua_isnumber(lua_State*L,int idx){
-TValue n;
-const TValue*o=index2adr(L,idx);
-return tonumber(o,&n);
-}
-static int lua_isstring(lua_State*L,int idx){
-int t=lua_type(L,idx);
-return(t==4||t==3);
-}
-static int lua_rawequal(lua_State*L,int index1,int index2){
-StkId o1=index2adr(L,index1);
-StkId o2=index2adr(L,index2);
-return(o1==(&luaO_nilobject_)||o2==(&luaO_nilobject_))?0
-:luaO_rawequalObj(o1,o2);
-}
-static int lua_lessthan(lua_State*L,int index1,int index2){
-StkId o1,o2;
-int i;
-o1=index2adr(L,index1);
-o2=index2adr(L,index2);
-i=(o1==(&luaO_nilobject_)||o2==(&luaO_nilobject_))?0
-:luaV_lessthan(L,o1,o2);
-return i;
-}
-static lua_Number lua_tonumber(lua_State*L,int idx){
-TValue n;
-const TValue*o=index2adr(L,idx);
-if(tonumber(o,&n))
-return nvalue(o);
-else
-return 0;
-}
-static lua_Integer lua_tointeger(lua_State*L,int idx){
-TValue n;
-const TValue*o=index2adr(L,idx);
-if(tonumber(o,&n)){
-lua_Integer res;
-lua_Number num=nvalue(o);
-lua_number2integer(res,num);
-return res;
-}
-else
-return 0;
-}
-static int lua_toboolean(lua_State*L,int idx){
-const TValue*o=index2adr(L,idx);
-return!l_isfalse(o);
-}
-static const char*lua_tolstring(lua_State*L,int idx,size_t*len){
-StkId o=index2adr(L,idx);
-if(!ttisstring(o)){
-if(!luaV_tostring(L,o)){
-if(len!=NULL)*len=0;
-return NULL;
-}
-luaC_checkGC(L);
-o=index2adr(L,idx);
-}
-if(len!=NULL)*len=tsvalue(o)->len;
-return svalue(o);
-}
-static size_t lua_objlen(lua_State*L,int idx){
-StkId o=index2adr(L,idx);
-switch(ttype(o)){
-case 4:return tsvalue(o)->len;
-case 7:return uvalue(o)->len;
-case 5:return luaH_getn(hvalue(o));
-case 3:{
-size_t l;
-l=(luaV_tostring(L,o)?tsvalue(o)->len:0);
-return l;
-}
-default:return 0;
-}
-}
-static lua_CFunction lua_tocfunction(lua_State*L,int idx){
-StkId o=index2adr(L,idx);
-return(!iscfunction(o))?NULL:clvalue(o)->c.f;
-}
-static void*lua_touserdata(lua_State*L,int idx){
-StkId o=index2adr(L,idx);
-switch(ttype(o)){
-case 7:return(rawuvalue(o)+1);
-case 2:return pvalue(o);
-default:return NULL;
-}
-}
-static void lua_pushnil(lua_State*L){
-setnilvalue(L->top);
-api_incr_top(L);
-}
-static void lua_pushnumber(lua_State*L,lua_Number n){
-setnvalue(L->top,n);
-api_incr_top(L);
-}
-static void lua_pushinteger(lua_State*L,lua_Integer n){
-setnvalue(L->top,cast_num(n));
-api_incr_top(L);
-}
-static void lua_pushlstring(lua_State*L,const char*s,size_t len){
-luaC_checkGC(L);
-setsvalue(L,L->top,luaS_newlstr(L,s,len));
-api_incr_top(L);
-}
-static void lua_pushstring(lua_State*L,const char*s){
-if(s==NULL)
-lua_pushnil(L);
-else
-lua_pushlstring(L,s,strlen(s));
-}
-static const char*lua_pushvfstring(lua_State*L,const char*fmt,
-va_list argp){
-const char*ret;
-luaC_checkGC(L);
-ret=luaO_pushvfstring(L,fmt,argp);
-return ret;
-}
-static const char*lua_pushfstring(lua_State*L,const char*fmt,...){
-const char*ret;
-va_list argp;
-luaC_checkGC(L);
-va_start(argp,fmt);
-ret=luaO_pushvfstring(L,fmt,argp);
-va_end(argp);
-return ret;
-}
-static void lua_pushcclosure(lua_State*L,lua_CFunction fn,int n){
-Closure*cl;
-luaC_checkGC(L);
-api_checknelems(L,n);
-cl=luaF_newCclosure(L,n,getcurrenv(L));
-cl->c.f=fn;
-L->top-=n;
-while(n--)
-setobj(L,&cl->c.upvalue[n],L->top+n);
-setclvalue(L,L->top,cl);
-api_incr_top(L);
-}
-static void lua_pushboolean(lua_State*L,int b){
-setbvalue(L->top,(b!=0));
-api_incr_top(L);
-}
-static int lua_pushthread(lua_State*L){
-setthvalue(L,L->top,L);
-api_incr_top(L);
-return(G(L)->mainthread==L);
-}
-static void lua_gettable(lua_State*L,int idx){
-StkId t;
-t=index2adr(L,idx);
-api_checkvalidindex(L,t);
-luaV_gettable(L,t,L->top-1,L->top-1);
-}
-static void lua_getfield(lua_State*L,int idx,const char*k){
-StkId t;
-TValue key;
-t=index2adr(L,idx);
-api_checkvalidindex(L,t);
-setsvalue(L,&key,luaS_new(L,k));
-luaV_gettable(L,t,&key,L->top);
-api_incr_top(L);
-}
-static void lua_rawget(lua_State*L,int idx){
-StkId t;
-t=index2adr(L,idx);
-luai_apicheck(L,ttistable(t));
-setobj(L,L->top-1,luaH_get(hvalue(t),L->top-1));
-}
-static void lua_rawgeti(lua_State*L,int idx,int n){
-StkId o;
-o=index2adr(L,idx);
-luai_apicheck(L,ttistable(o));
-setobj(L,L->top,luaH_getnum(hvalue(o),n));
-api_incr_top(L);
-}
-static void lua_createtable(lua_State*L,int narray,int nrec){
-luaC_checkGC(L);
-sethvalue(L,L->top,luaH_new(L,narray,nrec));
-api_incr_top(L);
-}
-static int lua_getmetatable(lua_State*L,int objindex){
-const TValue*obj;
-Table*mt=NULL;
-int res;
-obj=index2adr(L,objindex);
-switch(ttype(obj)){
-case 5:
-mt=hvalue(obj)->metatable;
-break;
-case 7:
-mt=uvalue(obj)->metatable;
-break;
-default:
-mt=G(L)->mt[ttype(obj)];
-break;
-}
-if(mt==NULL)
-res=0;
-else{
-sethvalue(L,L->top,mt);
-api_incr_top(L);
-res=1;
-}
-return res;
-}
-static void lua_getfenv(lua_State*L,int idx){
-StkId o;
-o=index2adr(L,idx);
-api_checkvalidindex(L,o);
-switch(ttype(o)){
-case 6:
-sethvalue(L,L->top,clvalue(o)->c.env);
-break;
-case 7:
-sethvalue(L,L->top,uvalue(o)->env);
-break;
-case 8:
-setobj(L,L->top,gt(thvalue(o)));
-break;
-default:
-setnilvalue(L->top);
-break;
-}
-api_incr_top(L);
-}
-static void lua_settable(lua_State*L,int idx){
-StkId t;
-api_checknelems(L,2);
-t=index2adr(L,idx);
-api_checkvalidindex(L,t);
-luaV_settable(L,t,L->top-2,L->top-1);
-L->top-=2;
-}
-static void lua_setfield(lua_State*L,int idx,const char*k){
-StkId t;
-TValue key;
-api_checknelems(L,1);
-t=index2adr(L,idx);
-api_checkvalidindex(L,t);
-setsvalue(L,&key,luaS_new(L,k));
-luaV_settable(L,t,&key,L->top-1);
-L->top--;
-}
-static void lua_rawset(lua_State*L,int idx){
-StkId t;
-api_checknelems(L,2);
-t=index2adr(L,idx);
-luai_apicheck(L,ttistable(t));
-setobj(L,luaH_set(L,hvalue(t),L->top-2),L->top-1);
-luaC_barriert(L,hvalue(t),L->top-1);
-L->top-=2;
-}
-static void lua_rawseti(lua_State*L,int idx,int n){
-StkId o;
-api_checknelems(L,1);
-o=index2adr(L,idx);
-luai_apicheck(L,ttistable(o));
-setobj(L,luaH_setnum(L,hvalue(o),n),L->top-1);
-luaC_barriert(L,hvalue(o),L->top-1);
-L->top--;
-}
-static int lua_setmetatable(lua_State*L,int objindex){
-TValue*obj;
-Table*mt;
-api_checknelems(L,1);
-obj=index2adr(L,objindex);
-api_checkvalidindex(L,obj);
-if(ttisnil(L->top-1))
-mt=NULL;
-else{
-luai_apicheck(L,ttistable(L->top-1));
-mt=hvalue(L->top-1);
-}
-switch(ttype(obj)){
-case 5:{
-hvalue(obj)->metatable=mt;
-if(mt)
-luaC_objbarriert(L,hvalue(obj),mt);
-break;
-}
-case 7:{
-uvalue(obj)->metatable=mt;
-if(mt)
-luaC_objbarrier(L,rawuvalue(obj),mt);
-break;
-}
-default:{
-G(L)->mt[ttype(obj)]=mt;
-break;
-}
-}
-L->top--;
-return 1;
-}
-static int lua_setfenv(lua_State*L,int idx){
-StkId o;
-int res=1;
-api_checknelems(L,1);
-o=index2adr(L,idx);
-api_checkvalidindex(L,o);
-luai_apicheck(L,ttistable(L->top-1));
-switch(ttype(o)){
-case 6:
-clvalue(o)->c.env=hvalue(L->top-1);
-break;
-case 7:
-uvalue(o)->env=hvalue(L->top-1);
-break;
-case 8:
-sethvalue(L,gt(thvalue(o)),hvalue(L->top-1));
-break;
-default:
-res=0;
-break;
-}
-if(res)luaC_objbarrier(L,gcvalue(o),hvalue(L->top-1));
-L->top--;
-return res;
-}
-#define adjustresults(L,nres){if(nres==(-1)&&L->top>=L->ci->top)L->ci->top=L->top;}
-#define checkresults(L,na,nr)luai_apicheck(L,(nr)==(-1)||(L->ci->top-L->top>=(nr)-(na)))
-static void lua_call(lua_State*L,int nargs,int nresults){
-StkId func;
-api_checknelems(L,nargs+1);
-checkresults(L,nargs,nresults);
-func=L->top-(nargs+1);
-luaD_call(L,func,nresults);
-adjustresults(L,nresults);
-}
-struct CallS{
-StkId func;
-int nresults;
-};
-static void f_call(lua_State*L,void*ud){
-struct CallS*c=cast(struct CallS*,ud);
-luaD_call(L,c->func,c->nresults);
-}
-static int lua_pcall(lua_State*L,int nargs,int nresults,int errfunc){
-struct CallS c;
-int status;
-ptrdiff_t func;
-api_checknelems(L,nargs+1);
-checkresults(L,nargs,nresults);
-if(errfunc==0)
-func=0;
-else{
-StkId o=index2adr(L,errfunc);
-api_checkvalidindex(L,o);
-func=savestack(L,o);
-}
-c.func=L->top-(nargs+1);
-c.nresults=nresults;
-status=luaD_pcall(L,f_call,&c,savestack(L,c.func),func);
-adjustresults(L,nresults);
-return status;
-}
-static int lua_load(lua_State*L,lua_Reader reader,void*data,
-const char*chunkname){
-ZIO z;
-int status;
-if(!chunkname)chunkname="?";
-luaZ_init(L,&z,reader,data);
-status=luaD_protectedparser(L,&z,chunkname);
-return status;
-}
-static int lua_error(lua_State*L){
-api_checknelems(L,1);
-luaG_errormsg(L);
-return 0;
-}
-static int lua_next(lua_State*L,int idx){
-StkId t;
-int more;
-t=index2adr(L,idx);
-luai_apicheck(L,ttistable(t));
-more=luaH_next(L,hvalue(t),L->top-1);
-if(more){
-api_incr_top(L);
-}
-else
-L->top-=1;
-return more;
-}
-static void lua_concat(lua_State*L,int n){
-api_checknelems(L,n);
-if(n>=2){
-luaC_checkGC(L);
-luaV_concat(L,n,cast_int(L->top-L->base)-1);
-L->top-=(n-1);
-}
-else if(n==0){
-setsvalue(L,L->top,luaS_newlstr(L,"",0));
-api_incr_top(L);
-}
-}
-static void*lua_newuserdata(lua_State*L,size_t size){
-Udata*u;
-luaC_checkGC(L);
-u=luaS_newudata(L,size,getcurrenv(L));
-setuvalue(L,L->top,u);
-api_incr_top(L);
-return u+1;
-}
-#define luaL_getn(L,i)((int)lua_objlen(L,i))
-#define luaL_setn(L,i,j)((void)0)
-typedef struct luaL_Reg{
-const char*name;
-lua_CFunction func;
-}luaL_Reg;
-static void luaI_openlib(lua_State*L,const char*libname,
-const luaL_Reg*l,int nup);
-static int luaL_argerror(lua_State*L,int numarg,const char*extramsg);
-static const char* luaL_checklstring(lua_State*L,int numArg,
-size_t*l);
-static const char* luaL_optlstring(lua_State*L,int numArg,
-const char*def,size_t*l);
-static lua_Integer luaL_checkinteger(lua_State*L,int numArg);
-static lua_Integer luaL_optinteger(lua_State*L,int nArg,
-lua_Integer def);
-static int luaL_error(lua_State*L,const char*fmt,...);
-static const char* luaL_findtable(lua_State*L,int idx,
-const char*fname,int szhint);
-#define luaL_argcheck(L,cond,numarg,extramsg)((void)((cond)||luaL_argerror(L,(numarg),(extramsg))))
-#define luaL_checkstring(L,n)(luaL_checklstring(L,(n),NULL))
-#define luaL_optstring(L,n,d)(luaL_optlstring(L,(n),(d),NULL))
-#define luaL_checkint(L,n)((int)luaL_checkinteger(L,(n)))
-#define luaL_optint(L,n,d)((int)luaL_optinteger(L,(n),(d)))
-#define luaL_typename(L,i)lua_typename(L,lua_type(L,(i)))
-#define luaL_getmetatable(L,n)(lua_getfield(L,(-10000),(n)))
-#define luaL_opt(L,f,n,d)(lua_isnoneornil(L,(n))?(d):f(L,(n)))
-typedef struct luaL_Buffer{
-char*p;
-int lvl;
-lua_State*L;
-char buffer[BUFSIZ];
-}luaL_Buffer;
-#define luaL_addchar(B,c)((void)((B)->p<((B)->buffer+BUFSIZ)||luaL_prepbuffer(B)),(*(B)->p++=(char)(c)))
-#define luaL_addsize(B,n)((B)->p+=(n))
-static char* luaL_prepbuffer(luaL_Buffer*B);
-static int luaL_argerror(lua_State*L,int narg,const char*extramsg){
-lua_Debug ar;
-if(!lua_getstack(L,0,&ar))
-return luaL_error(L,"bad argument #%d (%s)",narg,extramsg);
-lua_getinfo(L,"n",&ar);
-if(strcmp(ar.namewhat,"method")==0){
-narg--;
-if(narg==0)
-return luaL_error(L,"calling "LUA_QL("%s")" on bad self (%s)",
-ar.name,extramsg);
-}
-if(ar.name==NULL)
-ar.name="?";
-return luaL_error(L,"bad argument #%d to "LUA_QL("%s")" (%s)",
-narg,ar.name,extramsg);
-}
-static int luaL_typerror(lua_State*L,int narg,const char*tname){
-const char*msg=lua_pushfstring(L,"%s expected, got %s",
-tname,luaL_typename(L,narg));
-return luaL_argerror(L,narg,msg);
-}
-static void tag_error(lua_State*L,int narg,int tag){
-luaL_typerror(L,narg,lua_typename(L,tag));
-}
-static void luaL_where(lua_State*L,int level){
-lua_Debug ar;
-if(lua_getstack(L,level,&ar)){
-lua_getinfo(L,"Sl",&ar);
-if(ar.currentline>0){
-lua_pushfstring(L,"%s:%d: ",ar.short_src,ar.currentline);
-return;
-}
-}
-lua_pushliteral(L,"");
-}
-static int luaL_error(lua_State*L,const char*fmt,...){
-va_list argp;
-va_start(argp,fmt);
-luaL_where(L,1);
-lua_pushvfstring(L,fmt,argp);
-va_end(argp);
-lua_concat(L,2);
-return lua_error(L);
-}
-static int luaL_newmetatable(lua_State*L,const char*tname){
-lua_getfield(L,(-10000),tname);
-if(!lua_isnil(L,-1))
-return 0;
-lua_pop(L,1);
-lua_newtable(L);
-lua_pushvalue(L,-1);
-lua_setfield(L,(-10000),tname);
-return 1;
-}
-static void*luaL_checkudata(lua_State*L,int ud,const char*tname){
-void*p=lua_touserdata(L,ud);
-if(p!=NULL){
-if(lua_getmetatable(L,ud)){
-lua_getfield(L,(-10000),tname);
-if(lua_rawequal(L,-1,-2)){
-lua_pop(L,2);
-return p;
-}
-}
-}
-luaL_typerror(L,ud,tname);
-return NULL;
-}
-static void luaL_checkstack(lua_State*L,int space,const char*mes){
-if(!lua_checkstack(L,space))
-luaL_error(L,"stack overflow (%s)",mes);
-}
-static void luaL_checktype(lua_State*L,int narg,int t){
-if(lua_type(L,narg)!=t)
-tag_error(L,narg,t);
-}
-static void luaL_checkany(lua_State*L,int narg){
-if(lua_type(L,narg)==(-1))
-luaL_argerror(L,narg,"value expected");
-}
-static const char*luaL_checklstring(lua_State*L,int narg,size_t*len){
-const char*s=lua_tolstring(L,narg,len);
-if(!s)tag_error(L,narg,4);
-return s;
-}
-static const char*luaL_optlstring(lua_State*L,int narg,
-const char*def,size_t*len){
-if(lua_isnoneornil(L,narg)){
-if(len)
-*len=(def?strlen(def):0);
-return def;
-}
-else return luaL_checklstring(L,narg,len);
-}
-static lua_Number luaL_checknumber(lua_State*L,int narg){
-lua_Number d=lua_tonumber(L,narg);
-if(d==0&&!lua_isnumber(L,narg))
-tag_error(L,narg,3);
-return d;
-}
-static lua_Integer luaL_checkinteger(lua_State*L,int narg){
-lua_Integer d=lua_tointeger(L,narg);
-if(d==0&&!lua_isnumber(L,narg))
-tag_error(L,narg,3);
-return d;
-}
-static lua_Integer luaL_optinteger(lua_State*L,int narg,
-lua_Integer def){
-return luaL_opt(L,luaL_checkinteger,narg,def);
-}
-static int luaL_getmetafield(lua_State*L,int obj,const char*event){
-if(!lua_getmetatable(L,obj))
-return 0;
-lua_pushstring(L,event);
-lua_rawget(L,-2);
-if(lua_isnil(L,-1)){
-lua_pop(L,2);
-return 0;
-}
-else{
-lua_remove(L,-2);
-return 1;
-}
-}
-static void luaL_register(lua_State*L,const char*libname,
-const luaL_Reg*l){
-luaI_openlib(L,libname,l,0);
-}
-static int libsize(const luaL_Reg*l){
-int size=0;
-for(;l->name;l++)size++;
-return size;
-}
-static void luaI_openlib(lua_State*L,const char*libname,
-const luaL_Reg*l,int nup){
-if(libname){
-int size=libsize(l);
-luaL_findtable(L,(-10000),"_LOADED",1);
-lua_getfield(L,-1,libname);
-if(!lua_istable(L,-1)){
-lua_pop(L,1);
-if(luaL_findtable(L,(-10002),libname,size)!=NULL)
-luaL_error(L,"name conflict for module "LUA_QL("%s"),libname);
-lua_pushvalue(L,-1);
-lua_setfield(L,-3,libname);
-}
-lua_remove(L,-2);
-lua_insert(L,-(nup+1));
-}
-for(;l->name;l++){
-int i;
-for(i=0;i<nup;i++)
-lua_pushvalue(L,-nup);
-lua_pushcclosure(L,l->func,nup);
-lua_setfield(L,-(nup+2),l->name);
-}
-lua_pop(L,nup);
-}
-static const char*luaL_findtable(lua_State*L,int idx,
-const char*fname,int szhint){
-const char*e;
-lua_pushvalue(L,idx);
-do{
-e=strchr(fname,'.');
-if(e==NULL)e=fname+strlen(fname);
-lua_pushlstring(L,fname,e-fname);
-lua_rawget(L,-2);
-if(lua_isnil(L,-1)){
-lua_pop(L,1);
-lua_createtable(L,0,(*e=='.'?1:szhint));
-lua_pushlstring(L,fname,e-fname);
-lua_pushvalue(L,-2);
-lua_settable(L,-4);
-}
-else if(!lua_istable(L,-1)){
-lua_pop(L,2);
-return fname;
-}
-lua_remove(L,-2);
-fname=e+1;
-}while(*e=='.');
-return NULL;
-}
-#define bufflen(B)((B)->p-(B)->buffer)
-#define bufffree(B)((size_t)(BUFSIZ-bufflen(B)))
-static int emptybuffer(luaL_Buffer*B){
-size_t l=bufflen(B);
-if(l==0)return 0;
-else{
-lua_pushlstring(B->L,B->buffer,l);
-B->p=B->buffer;
-B->lvl++;
-return 1;
-}
-}
-static void adjuststack(luaL_Buffer*B){
-if(B->lvl>1){
-lua_State*L=B->L;
-int toget=1;
-size_t toplen=lua_strlen(L,-1);
-do{
-size_t l=lua_strlen(L,-(toget+1));
-if(B->lvl-toget+1>=(20/2)||toplen>l){
-toplen+=l;
-toget++;
-}
-else break;
-}while(toget<B->lvl);
-lua_concat(L,toget);
-B->lvl=B->lvl-toget+1;
-}
-}
-static char*luaL_prepbuffer(luaL_Buffer*B){
-if(emptybuffer(B))
-adjuststack(B);
-return B->buffer;
-}
-static void luaL_addlstring(luaL_Buffer*B,const char*s,size_t l){
-while(l--)
-luaL_addchar(B,*s++);
-}
-static void luaL_pushresult(luaL_Buffer*B){
-emptybuffer(B);
-lua_concat(B->L,B->lvl);
-B->lvl=1;
-}
-static void luaL_addvalue(luaL_Buffer*B){
-lua_State*L=B->L;
-size_t vl;
-const char*s=lua_tolstring(L,-1,&vl);
-if(vl<=bufffree(B)){
-memcpy(B->p,s,vl);
-B->p+=vl;
-lua_pop(L,1);
-}
-else{
-if(emptybuffer(B))
-lua_insert(L,-2);
-B->lvl++;
-adjuststack(B);
-}
-}
-static void luaL_buffinit(lua_State*L,luaL_Buffer*B){
-B->L=L;
-B->p=B->buffer;
-B->lvl=0;
-}
-typedef struct LoadF{
-int extraline;
-FILE*f;
-char buff[BUFSIZ];
-}LoadF;
-static const char*getF(lua_State*L,void*ud,size_t*size){
-LoadF*lf=(LoadF*)ud;
-(void)L;
-if(lf->extraline){
-lf->extraline=0;
-*size=1;
-return"\n";
-}
-if(feof(lf->f))return NULL;
-*size=fread(lf->buff,1,sizeof(lf->buff),lf->f);
-return(*size>0)?lf->buff:NULL;
-}
-static int errfile(lua_State*L,const char*what,int fnameindex){
-const char*serr=strerror(errno);
-const char*filename=lua_tostring(L,fnameindex)+1;
-lua_pushfstring(L,"cannot %s %s: %s",what,filename,serr);
-lua_remove(L,fnameindex);
-return(5+1);
-}
-static int luaL_loadfile(lua_State*L,const char*filename){
-LoadF lf;
-int status,readstatus;
-int c;
-int fnameindex=lua_gettop(L)+1;
-lf.extraline=0;
-if(filename==NULL){
-lua_pushliteral(L,"=stdin");
-lf.f=stdin;
-}
-else{
-lua_pushfstring(L,"@%s",filename);
-lf.f=fopen(filename,"r");
-if(lf.f==NULL)return errfile(L,"open",fnameindex);
-}
-c=getc(lf.f);
-if(c=='#'){
-lf.extraline=1;
-while((c=getc(lf.f))!=EOF&&c!='\n');
-if(c=='\n')c=getc(lf.f);
-}
-if(c=="\033Lua"[0]&&filename){
-lf.f=freopen(filename,"rb",lf.f);
-if(lf.f==NULL)return errfile(L,"reopen",fnameindex);
-while((c=getc(lf.f))!=EOF&&c!="\033Lua"[0]);
-lf.extraline=0;
-}
-ungetc(c,lf.f);
-status=lua_load(L,getF,&lf,lua_tostring(L,-1));
-readstatus=ferror(lf.f);
-if(filename)fclose(lf.f);
-if(readstatus){
-lua_settop(L,fnameindex);
-return errfile(L,"read",fnameindex);
-}
-lua_remove(L,fnameindex);
-return status;
-}
-typedef struct LoadS{
-const char*s;
-size_t size;
-}LoadS;
-static const char*getS(lua_State*L,void*ud,size_t*size){
-LoadS*ls=(LoadS*)ud;
-(void)L;
-if(ls->size==0)return NULL;
-*size=ls->size;
-ls->size=0;
-return ls->s;
-}
-static int luaL_loadbuffer(lua_State*L,const char*buff,size_t size,
-const char*name){
-LoadS ls;
-ls.s=buff;
-ls.size=size;
-return lua_load(L,getS,&ls,name);
-}
-static void*l_alloc(void*ud,void*ptr,size_t osize,size_t nsize){
-(void)ud;
-(void)osize;
-if(nsize==0){
-free(ptr);
-return NULL;
-}
-else
-return realloc(ptr,nsize);
-}
-static int panic(lua_State*L){
-(void)L;
-fprintf(stderr,"PANIC: unprotected error in call to Lua API (%s)\n",
-lua_tostring(L,-1));
-return 0;
-}
-static lua_State*luaL_newstate(void){
-lua_State*L=lua_newstate(l_alloc,NULL);
-if(L)lua_atpanic(L,&panic);
-return L;
-}
-static int luaB_tonumber(lua_State*L){
-int base=luaL_optint(L,2,10);
-if(base==10){
-luaL_checkany(L,1);
-if(lua_isnumber(L,1)){
-lua_pushnumber(L,lua_tonumber(L,1));
-return 1;
-}
-}
-else{
-const char*s1=luaL_checkstring(L,1);
-char*s2;
-unsigned long n;
-luaL_argcheck(L,2<=base&&base<=36,2,"base out of range");
-n=strtoul(s1,&s2,base);
-if(s1!=s2){
-while(isspace((unsigned char)(*s2)))s2++;
-if(*s2=='\0'){
-lua_pushnumber(L,(lua_Number)n);
-return 1;
-}
-}
-}
-lua_pushnil(L);
-return 1;
-}
-static int luaB_error(lua_State*L){
-int level=luaL_optint(L,2,1);
-lua_settop(L,1);
-if(lua_isstring(L,1)&&level>0){
-luaL_where(L,level);
-lua_pushvalue(L,1);
-lua_concat(L,2);
-}
-return lua_error(L);
-}
-static int luaB_setmetatable(lua_State*L){
-int t=lua_type(L,2);
-luaL_checktype(L,1,5);
-luaL_argcheck(L,t==0||t==5,2,
-"nil or table expected");
-if(luaL_getmetafield(L,1,"__metatable"))
-luaL_error(L,"cannot change a protected metatable");
-lua_settop(L,2);
-lua_setmetatable(L,1);
-return 1;
-}
-static void getfunc(lua_State*L,int opt){
-if(lua_isfunction(L,1))lua_pushvalue(L,1);
-else{
-lua_Debug ar;
-int level=opt?luaL_optint(L,1,1):luaL_checkint(L,1);
-luaL_argcheck(L,level>=0,1,"level must be non-negative");
-if(lua_getstack(L,level,&ar)==0)
-luaL_argerror(L,1,"invalid level");
-lua_getinfo(L,"f",&ar);
-if(lua_isnil(L,-1))
-luaL_error(L,"no function environment for tail call at level %d",
-level);
-}
-}
-static int luaB_setfenv(lua_State*L){
-luaL_checktype(L,2,5);
-getfunc(L,0);
-lua_pushvalue(L,2);
-if(lua_isnumber(L,1)&&lua_tonumber(L,1)==0){
-lua_pushthread(L);
-lua_insert(L,-2);
-lua_setfenv(L,-2);
-return 0;
-}
-else if(lua_iscfunction(L,-2)||lua_setfenv(L,-2)==0)
-luaL_error(L,
-LUA_QL("setfenv")" cannot change environment of given object");
-return 1;
-}
-static int luaB_rawget(lua_State*L){
-luaL_checktype(L,1,5);
-luaL_checkany(L,2);
-lua_settop(L,2);
-lua_rawget(L,1);
-return 1;
-}
-static int luaB_type(lua_State*L){
-luaL_checkany(L,1);
-lua_pushstring(L,luaL_typename(L,1));
-return 1;
-}
-static int luaB_next(lua_State*L){
-luaL_checktype(L,1,5);
-lua_settop(L,2);
-if(lua_next(L,1))
-return 2;
-else{
-lua_pushnil(L);
-return 1;
-}
-}
-static int luaB_pairs(lua_State*L){
-luaL_checktype(L,1,5);
-lua_pushvalue(L,lua_upvalueindex(1));
-lua_pushvalue(L,1);
-lua_pushnil(L);
-return 3;
-}
-static int ipairsaux(lua_State*L){
-int i=luaL_checkint(L,2);
-luaL_checktype(L,1,5);
-i++;
-lua_pushinteger(L,i);
-lua_rawgeti(L,1,i);
-return(lua_isnil(L,-1))?0:2;
-}
-static int luaB_ipairs(lua_State*L){
-luaL_checktype(L,1,5);
-lua_pushvalue(L,lua_upvalueindex(1));
-lua_pushvalue(L,1);
-lua_pushinteger(L,0);
-return 3;
-}
-static int load_aux(lua_State*L,int status){
-if(status==0)
-return 1;
-else{
-lua_pushnil(L);
-lua_insert(L,-2);
-return 2;
-}
-}
-static int luaB_loadstring(lua_State*L){
-size_t l;
-const char*s=luaL_checklstring(L,1,&l);
-const char*chunkname=luaL_optstring(L,2,s);
-return load_aux(L,luaL_loadbuffer(L,s,l,chunkname));
-}
-static int luaB_loadfile(lua_State*L){
-const char*fname=luaL_optstring(L,1,NULL);
-return load_aux(L,luaL_loadfile(L,fname));
-}
-static int luaB_assert(lua_State*L){
-luaL_checkany(L,1);
-if(!lua_toboolean(L,1))
-return luaL_error(L,"%s",luaL_optstring(L,2,"assertion failed!"));
-return lua_gettop(L);
-}
-static int luaB_unpack(lua_State*L){
-int i,e,n;
-luaL_checktype(L,1,5);
-i=luaL_optint(L,2,1);
-e=luaL_opt(L,luaL_checkint,3,luaL_getn(L,1));
-if(i>e)return 0;
-n=e-i+1;
-if(n<=0||!lua_checkstack(L,n))
-return luaL_error(L,"too many results to unpack");
-lua_rawgeti(L,1,i);
-while(i++<e)
-lua_rawgeti(L,1,i);
-return n;
-}
-static int luaB_pcall(lua_State*L){
-int status;
-luaL_checkany(L,1);
-status=lua_pcall(L,lua_gettop(L)-1,(-1),0);
-lua_pushboolean(L,(status==0));
-lua_insert(L,1);
-return lua_gettop(L);
-}
-static int luaB_newproxy(lua_State*L){
-lua_settop(L,1);
-lua_newuserdata(L,0);
-if(lua_toboolean(L,1)==0)
-return 1;
-else if(lua_isboolean(L,1)){
-lua_newtable(L);
-lua_pushvalue(L,-1);
-lua_pushboolean(L,1);
-lua_rawset(L,lua_upvalueindex(1));
-}
-else{
-int validproxy=0;
-if(lua_getmetatable(L,1)){
-lua_rawget(L,lua_upvalueindex(1));
-validproxy=lua_toboolean(L,-1);
-lua_pop(L,1);
-}
-luaL_argcheck(L,validproxy,1,"boolean or proxy expected");
-lua_getmetatable(L,1);
-}
-lua_setmetatable(L,2);
-return 1;
-}
-static const luaL_Reg base_funcs[]={
-{"assert",luaB_assert},
-{"error",luaB_error},
-{"loadfile",luaB_loadfile},
-{"loadstring",luaB_loadstring},
-{"next",luaB_next},
-{"pcall",luaB_pcall},
-{"rawget",luaB_rawget},
-{"setfenv",luaB_setfenv},
-{"setmetatable",luaB_setmetatable},
-{"tonumber",luaB_tonumber},
-{"type",luaB_type},
-{"unpack",luaB_unpack},
-{NULL,NULL}
-};
-static void auxopen(lua_State*L,const char*name,
-lua_CFunction f,lua_CFunction u){
-lua_pushcfunction(L,u);
-lua_pushcclosure(L,f,1);
-lua_setfield(L,-2,name);
-}
-static void base_open(lua_State*L){
-lua_pushvalue(L,(-10002));
-lua_setglobal(L,"_G");
-luaL_register(L,"_G",base_funcs);
-lua_pushliteral(L,"Lua 5.1");
-lua_setglobal(L,"_VERSION");
-auxopen(L,"ipairs",luaB_ipairs,ipairsaux);
-auxopen(L,"pairs",luaB_pairs,luaB_next);
-lua_createtable(L,0,1);
-lua_pushvalue(L,-1);
-lua_setmetatable(L,-2);
-lua_pushliteral(L,"kv");
-lua_setfield(L,-2,"__mode");
-lua_pushcclosure(L,luaB_newproxy,1);
-lua_setglobal(L,"newproxy");
-}
-static int luaopen_base(lua_State*L){
-base_open(L);
-return 1;
-}
-#define aux_getn(L,n)(luaL_checktype(L,n,5),luaL_getn(L,n))
-static int tinsert(lua_State*L){
-int e=aux_getn(L,1)+1;
-int pos;
-switch(lua_gettop(L)){
-case 2:{
-pos=e;
-break;
-}
-case 3:{
-int i;
-pos=luaL_checkint(L,2);
-if(pos>e)e=pos;
-for(i=e;i>pos;i--){
-lua_rawgeti(L,1,i-1);
-lua_rawseti(L,1,i);
-}
-break;
-}
-default:{
-return luaL_error(L,"wrong number of arguments to "LUA_QL("insert"));
-}
-}
-luaL_setn(L,1,e);
-lua_rawseti(L,1,pos);
-return 0;
-}
-static int tremove(lua_State*L){
-int e=aux_getn(L,1);
-int pos=luaL_optint(L,2,e);
-if(!(1<=pos&&pos<=e))
-return 0;
-luaL_setn(L,1,e-1);
-lua_rawgeti(L,1,pos);
-for(;pos<e;pos++){
-lua_rawgeti(L,1,pos+1);
-lua_rawseti(L,1,pos);
-}
-lua_pushnil(L);
-lua_rawseti(L,1,e);
-return 1;
-}
-static void addfield(lua_State*L,luaL_Buffer*b,int i){
-lua_rawgeti(L,1,i);
-if(!lua_isstring(L,-1))
-luaL_error(L,"invalid value (%s) at index %d in table for "
-LUA_QL("concat"),luaL_typename(L,-1),i);
-luaL_addvalue(b);
-}
-static int tconcat(lua_State*L){
-luaL_Buffer b;
-size_t lsep;
-int i,last;
-const char*sep=luaL_optlstring(L,2,"",&lsep);
-luaL_checktype(L,1,5);
-i=luaL_optint(L,3,1);
-last=luaL_opt(L,luaL_checkint,4,luaL_getn(L,1));
-luaL_buffinit(L,&b);
-for(;i<last;i++){
-addfield(L,&b,i);
-luaL_addlstring(&b,sep,lsep);
-}
-if(i==last)
-addfield(L,&b,i);
-luaL_pushresult(&b);
-return 1;
-}
-static void set2(lua_State*L,int i,int j){
-lua_rawseti(L,1,i);
-lua_rawseti(L,1,j);
-}
-static int sort_comp(lua_State*L,int a,int b){
-if(!lua_isnil(L,2)){
-int res;
-lua_pushvalue(L,2);
-lua_pushvalue(L,a-1);
-lua_pushvalue(L,b-2);
-lua_call(L,2,1);
-res=lua_toboolean(L,-1);
-lua_pop(L,1);
-return res;
-}
-else
-return lua_lessthan(L,a,b);
-}
-static void auxsort(lua_State*L,int l,int u){
-while(l<u){
-int i,j;
-lua_rawgeti(L,1,l);
-lua_rawgeti(L,1,u);
-if(sort_comp(L,-1,-2))
-set2(L,l,u);
-else
-lua_pop(L,2);
-if(u-l==1)break;
-i=(l+u)/2;
-lua_rawgeti(L,1,i);
-lua_rawgeti(L,1,l);
-if(sort_comp(L,-2,-1))
-set2(L,i,l);
-else{
-lua_pop(L,1);
-lua_rawgeti(L,1,u);
-if(sort_comp(L,-1,-2))
-set2(L,i,u);
-else
-lua_pop(L,2);
-}
-if(u-l==2)break;
-lua_rawgeti(L,1,i);
-lua_pushvalue(L,-1);
-lua_rawgeti(L,1,u-1);
-set2(L,i,u-1);
-i=l;j=u-1;
-for(;;){
-while(lua_rawgeti(L,1,++i),sort_comp(L,-1,-2)){
-if(i>u)luaL_error(L,"invalid order function for sorting");
-lua_pop(L,1);
-}
-while(lua_rawgeti(L,1,--j),sort_comp(L,-3,-1)){
-if(j<l)luaL_error(L,"invalid order function for sorting");
-lua_pop(L,1);
-}
-if(j<i){
-lua_pop(L,3);
-break;
-}
-set2(L,i,j);
-}
-lua_rawgeti(L,1,u-1);
-lua_rawgeti(L,1,i);
-set2(L,u-1,i);
-if(i-l<u-i){
-j=l;i=i-1;l=i+2;
-}
-else{
-j=i+1;i=u;u=j-2;
-}
-auxsort(L,j,i);
-}
-}
-static int sort(lua_State*L){
-int n=aux_getn(L,1);
-luaL_checkstack(L,40,"");
-if(!lua_isnoneornil(L,2))
-luaL_checktype(L,2,6);
-lua_settop(L,2);
-auxsort(L,1,n);
-return 0;
-}
-static const luaL_Reg tab_funcs[]={
-{"concat",tconcat},
-{"insert",tinsert},
-{"remove",tremove},
-{"sort",sort},
-{NULL,NULL}
-};
-static int luaopen_table(lua_State*L){
-luaL_register(L,"table",tab_funcs);
-return 1;
-}
-static const char*const fnames[]={"input","output"};
-static int pushresult(lua_State*L,int i,const char*filename){
-int en=errno;
-if(i){
-lua_pushboolean(L,1);
-return 1;
-}
-else{
-lua_pushnil(L);
-if(filename)
-lua_pushfstring(L,"%s: %s",filename,strerror(en));
-else
-lua_pushfstring(L,"%s",strerror(en));
-lua_pushinteger(L,en);
-return 3;
-}
-}
-static void fileerror(lua_State*L,int arg,const char*filename){
-lua_pushfstring(L,"%s: %s",filename,strerror(errno));
-luaL_argerror(L,arg,lua_tostring(L,-1));
-}
-#define tofilep(L)((FILE**)luaL_checkudata(L,1,"FILE*"))
-static int io_type(lua_State*L){
-void*ud;
-luaL_checkany(L,1);
-ud=lua_touserdata(L,1);
-lua_getfield(L,(-10000),"FILE*");
-if(ud==NULL||!lua_getmetatable(L,1)||!lua_rawequal(L,-2,-1))
-lua_pushnil(L);
-else if(*((FILE**)ud)==NULL)
-lua_pushliteral(L,"closed file");
-else
-lua_pushliteral(L,"file");
-return 1;
-}
-static FILE*tofile(lua_State*L){
-FILE**f=tofilep(L);
-if(*f==NULL)
-luaL_error(L,"attempt to use a closed file");
-return*f;
-}
-static FILE**newfile(lua_State*L){
-FILE**pf=(FILE**)lua_newuserdata(L,sizeof(FILE*));
-*pf=NULL;
-luaL_getmetatable(L,"FILE*");
-lua_setmetatable(L,-2);
-return pf;
-}
-static int io_noclose(lua_State*L){
-lua_pushnil(L);
-lua_pushliteral(L,"cannot close standard file");
-return 2;
-}
-static int io_pclose(lua_State*L){
-FILE**p=tofilep(L);
-int ok=lua_pclose(L,*p);
-*p=NULL;
-return pushresult(L,ok,NULL);
-}
-static int io_fclose(lua_State*L){
-FILE**p=tofilep(L);
-int ok=(fclose(*p)==0);
-*p=NULL;
-return pushresult(L,ok,NULL);
-}
-static int aux_close(lua_State*L){
-lua_getfenv(L,1);
-lua_getfield(L,-1,"__close");
-return(lua_tocfunction(L,-1))(L);
-}
-static int io_close(lua_State*L){
-if(lua_isnone(L,1))
-lua_rawgeti(L,(-10001),2);
-tofile(L);
-return aux_close(L);
-}
-static int io_gc(lua_State*L){
-FILE*f=*tofilep(L);
-if(f!=NULL)
-aux_close(L);
-return 0;
-}
-static int io_open(lua_State*L){
-const char*filename=luaL_checkstring(L,1);
-const char*mode=luaL_optstring(L,2,"r");
-FILE**pf=newfile(L);
-*pf=fopen(filename,mode);
-return(*pf==NULL)?pushresult(L,0,filename):1;
-}
-static FILE*getiofile(lua_State*L,int findex){
-FILE*f;
-lua_rawgeti(L,(-10001),findex);
-f=*(FILE**)lua_touserdata(L,-1);
-if(f==NULL)
-luaL_error(L,"standard %s file is closed",fnames[findex-1]);
-return f;
-}
-static int g_iofile(lua_State*L,int f,const char*mode){
-if(!lua_isnoneornil(L,1)){
-const char*filename=lua_tostring(L,1);
-if(filename){
-FILE**pf=newfile(L);
-*pf=fopen(filename,mode);
-if(*pf==NULL)
-fileerror(L,1,filename);
-}
-else{
-tofile(L);
-lua_pushvalue(L,1);
-}
-lua_rawseti(L,(-10001),f);
-}
-lua_rawgeti(L,(-10001),f);
-return 1;
-}
-static int io_input(lua_State*L){
-return g_iofile(L,1,"r");
-}
-static int io_output(lua_State*L){
-return g_iofile(L,2,"w");
-}
-static int io_readline(lua_State*L);
-static void aux_lines(lua_State*L,int idx,int toclose){
-lua_pushvalue(L,idx);
-lua_pushboolean(L,toclose);
-lua_pushcclosure(L,io_readline,2);
-}
-static int f_lines(lua_State*L){
-tofile(L);
-aux_lines(L,1,0);
-return 1;
-}
-static int io_lines(lua_State*L){
-if(lua_isnoneornil(L,1)){
-lua_rawgeti(L,(-10001),1);
-return f_lines(L);
-}
-else{
-const char*filename=luaL_checkstring(L,1);
-FILE**pf=newfile(L);
-*pf=fopen(filename,"r");
-if(*pf==NULL)
-fileerror(L,1,filename);
-aux_lines(L,lua_gettop(L),1);
-return 1;
-}
-}
-static int read_number(lua_State*L,FILE*f){
-lua_Number d;
-if(fscanf(f,"%lf",&d)==1){
-lua_pushnumber(L,d);
-return 1;
-}
-else{
-lua_pushnil(L);
-return 0;
-}
-}
-static int test_eof(lua_State*L,FILE*f){
-int c=getc(f);
-ungetc(c,f);
-lua_pushlstring(L,NULL,0);
-return(c!=EOF);
-}
-static int read_line(lua_State*L,FILE*f){
-luaL_Buffer b;
-luaL_buffinit(L,&b);
-for(;;){
-size_t l;
-char*p=luaL_prepbuffer(&b);
-if(fgets(p,BUFSIZ,f)==NULL){
-luaL_pushresult(&b);
-return(lua_objlen(L,-1)>0);
-}
-l=strlen(p);
-if(l==0||p[l-1]!='\n')
-luaL_addsize(&b,l);
-else{
-luaL_addsize(&b,l-1);
-luaL_pushresult(&b);
-return 1;
-}
-}
-}
-static int read_chars(lua_State*L,FILE*f,size_t n){
-size_t rlen;
-size_t nr;
-luaL_Buffer b;
-luaL_buffinit(L,&b);
-rlen=BUFSIZ;
-do{
-char*p=luaL_prepbuffer(&b);
-if(rlen>n)rlen=n;
-nr=fread(p,sizeof(char),rlen,f);
-luaL_addsize(&b,nr);
-n-=nr;
-}while(n>0&&nr==rlen);
-luaL_pushresult(&b);
-return(n==0||lua_objlen(L,-1)>0);
-}
-static int g_read(lua_State*L,FILE*f,int first){
-int nargs=lua_gettop(L)-1;
-int success;
-int n;
-clearerr(f);
-if(nargs==0){
-success=read_line(L,f);
-n=first+1;
-}
-else{
-luaL_checkstack(L,nargs+20,"too many arguments");
-success=1;
-for(n=first;nargs--&&success;n++){
-if(lua_type(L,n)==3){
-size_t l=(size_t)lua_tointeger(L,n);
-success=(l==0)?test_eof(L,f):read_chars(L,f,l);
-}
-else{
-const char*p=lua_tostring(L,n);
-luaL_argcheck(L,p&&p[0]=='*',n,"invalid option");
-switch(p[1]){
-case'n':
-success=read_number(L,f);
-break;
-case'l':
-success=read_line(L,f);
-break;
-case'a':
-read_chars(L,f,~((size_t)0));
-success=1;
-break;
-default:
-return luaL_argerror(L,n,"invalid format");
-}
-}
-}
-}
-if(ferror(f))
-return pushresult(L,0,NULL);
-if(!success){
-lua_pop(L,1);
-lua_pushnil(L);
-}
-return n-first;
-}
-static int io_read(lua_State*L){
-return g_read(L,getiofile(L,1),1);
-}
-static int f_read(lua_State*L){
-return g_read(L,tofile(L),2);
-}
-static int io_readline(lua_State*L){
-FILE*f=*(FILE**)lua_touserdata(L,lua_upvalueindex(1));
-int sucess;
-if(f==NULL)
-luaL_error(L,"file is already closed");
-sucess=read_line(L,f);
-if(ferror(f))
-return luaL_error(L,"%s",strerror(errno));
-if(sucess)return 1;
-else{
-if(lua_toboolean(L,lua_upvalueindex(2))){
-lua_settop(L,0);
-lua_pushvalue(L,lua_upvalueindex(1));
-aux_close(L);
-}
-return 0;
-}
-}
-static int g_write(lua_State*L,FILE*f,int arg){
-int nargs=lua_gettop(L)-1;
-int status=1;
-for(;nargs--;arg++){
-if(lua_type(L,arg)==3){
-status=status&&
-fprintf(f,"%.14g",lua_tonumber(L,arg))>0;
-}
-else{
-size_t l;
-const char*s=luaL_checklstring(L,arg,&l);
-status=status&&(fwrite(s,sizeof(char),l,f)==l);
-}
-}
-return pushresult(L,status,NULL);
-}
-static int io_write(lua_State*L){
-return g_write(L,getiofile(L,2),1);
-}
-static int f_write(lua_State*L){
-return g_write(L,tofile(L),2);
-}
-static int io_flush(lua_State*L){
-return pushresult(L,fflush(getiofile(L,2))==0,NULL);
-}
-static int f_flush(lua_State*L){
-return pushresult(L,fflush(tofile(L))==0,NULL);
-}
-static const luaL_Reg iolib[]={
-{"close",io_close},
-{"flush",io_flush},
-{"input",io_input},
-{"lines",io_lines},
-{"open",io_open},
-{"output",io_output},
-{"read",io_read},
-{"type",io_type},
-{"write",io_write},
-{NULL,NULL}
-};
-static const luaL_Reg flib[]={
-{"close",io_close},
-{"flush",f_flush},
-{"lines",f_lines},
-{"read",f_read},
-{"write",f_write},
-{"__gc",io_gc},
-{NULL,NULL}
-};
-static void createmeta(lua_State*L){
-luaL_newmetatable(L,"FILE*");
-lua_pushvalue(L,-1);
-lua_setfield(L,-2,"__index");
-luaL_register(L,NULL,flib);
-}
-static void createstdfile(lua_State*L,FILE*f,int k,const char*fname){
-*newfile(L)=f;
-if(k>0){
-lua_pushvalue(L,-1);
-lua_rawseti(L,(-10001),k);
-}
-lua_pushvalue(L,-2);
-lua_setfenv(L,-2);
-lua_setfield(L,-3,fname);
-}
-static void newfenv(lua_State*L,lua_CFunction cls){
-lua_createtable(L,0,1);
-lua_pushcfunction(L,cls);
-lua_setfield(L,-2,"__close");
-}
-static int luaopen_io(lua_State*L){
-createmeta(L);
-newfenv(L,io_fclose);
-lua_replace(L,(-10001));
-luaL_register(L,"io",iolib);
-newfenv(L,io_noclose);
-createstdfile(L,stdin,1,"stdin");
-createstdfile(L,stdout,2,"stdout");
-createstdfile(L,stderr,0,"stderr");
-lua_pop(L,1);
-lua_getfield(L,-1,"popen");
-newfenv(L,io_pclose);
-lua_setfenv(L,-2);
-lua_pop(L,1);
-return 1;
-}
-static int os_pushresult(lua_State*L,int i,const char*filename){
-int en=errno;
-if(i){
-lua_pushboolean(L,1);
-return 1;
-}
-else{
-lua_pushnil(L);
-lua_pushfstring(L,"%s: %s",filename,strerror(en));
-lua_pushinteger(L,en);
-return 3;
-}
-}
-static int os_remove(lua_State*L){
-const char*filename=luaL_checkstring(L,1);
-return os_pushresult(L,remove(filename)==0,filename);
-}
-static int os_exit(lua_State*L){
-exit(luaL_optint(L,1,EXIT_SUCCESS));
-}
-static const luaL_Reg syslib[]={
-{"exit",os_exit},
-{"remove",os_remove},
-{NULL,NULL}
-};
-static int luaopen_os(lua_State*L){
-luaL_register(L,"os",syslib);
-return 1;
-}
-#define uchar(c)((unsigned char)(c))
-static ptrdiff_t posrelat(ptrdiff_t pos,size_t len){
-if(pos<0)pos+=(ptrdiff_t)len+1;
-return(pos>=0)?pos:0;
-}
-static int str_sub(lua_State*L){
-size_t l;
-const char*s=luaL_checklstring(L,1,&l);
-ptrdiff_t start=posrelat(luaL_checkinteger(L,2),l);
-ptrdiff_t end=posrelat(luaL_optinteger(L,3,-1),l);
-if(start<1)start=1;
-if(end>(ptrdiff_t)l)end=(ptrdiff_t)l;
-if(start<=end)
-lua_pushlstring(L,s+start-1,end-start+1);
-else lua_pushliteral(L,"");
-return 1;
-}
-static int str_lower(lua_State*L){
-size_t l;
-size_t i;
-luaL_Buffer b;
-const char*s=luaL_checklstring(L,1,&l);
-luaL_buffinit(L,&b);
-for(i=0;i<l;i++)
-luaL_addchar(&b,tolower(uchar(s[i])));
-luaL_pushresult(&b);
-return 1;
-}
-static int str_upper(lua_State*L){
-size_t l;
-size_t i;
-luaL_Buffer b;
-const char*s=luaL_checklstring(L,1,&l);
-luaL_buffinit(L,&b);
-for(i=0;i<l;i++)
-luaL_addchar(&b,toupper(uchar(s[i])));
-luaL_pushresult(&b);
-return 1;
-}
-static int str_rep(lua_State*L){
-size_t l;
-luaL_Buffer b;
-const char*s=luaL_checklstring(L,1,&l);
-int n=luaL_checkint(L,2);
-luaL_buffinit(L,&b);
-while(n-->0)
-luaL_addlstring(&b,s,l);
-luaL_pushresult(&b);
-return 1;
-}
-static int str_byte(lua_State*L){
-size_t l;
-const char*s=luaL_checklstring(L,1,&l);
-ptrdiff_t posi=posrelat(luaL_optinteger(L,2,1),l);
-ptrdiff_t pose=posrelat(luaL_optinteger(L,3,posi),l);
-int n,i;
-if(posi<=0)posi=1;
-if((size_t)pose>l)pose=l;
-if(posi>pose)return 0;
-n=(int)(pose-posi+1);
-if(posi+n<=pose)
-luaL_error(L,"string slice too long");
-luaL_checkstack(L,n,"string slice too long");
-for(i=0;i<n;i++)
-lua_pushinteger(L,uchar(s[posi+i-1]));
-return n;
-}
-static int str_char(lua_State*L){
-int n=lua_gettop(L);
-int i;
-luaL_Buffer b;
-luaL_buffinit(L,&b);
-for(i=1;i<=n;i++){
-int c=luaL_checkint(L,i);
-luaL_argcheck(L,uchar(c)==c,i,"invalid value");
-luaL_addchar(&b,uchar(c));
-}
-luaL_pushresult(&b);
-return 1;
-}
-typedef struct MatchState{
-const char*src_init;
-const char*src_end;
-lua_State*L;
-int level;
-struct{
-const char*init;
-ptrdiff_t len;
-}capture[32];
-}MatchState;
-static int check_capture(MatchState*ms,int l){
-l-='1';
-if(l<0||l>=ms->level||ms->capture[l].len==(-1))
-return luaL_error(ms->L,"invalid capture index");
-return l;
-}
-static int capture_to_close(MatchState*ms){
-int level=ms->level;
-for(level--;level>=0;level--)
-if(ms->capture[level].len==(-1))return level;
-return luaL_error(ms->L,"invalid pattern capture");
-}
-static const char*classend(MatchState*ms,const char*p){
-switch(*p++){
-case'%':{
-if(*p=='\0')
-luaL_error(ms->L,"malformed pattern (ends with "LUA_QL("%%")")");
-return p+1;
-}
-case'[':{
-if(*p=='^')p++;
-do{
-if(*p=='\0')
-luaL_error(ms->L,"malformed pattern (missing "LUA_QL("]")")");
-if(*(p++)=='%'&&*p!='\0')
-p++;
-}while(*p!=']');
-return p+1;
-}
-default:{
-return p;
-}
-}
-}
-static int match_class(int c,int cl){
-int res;
-switch(tolower(cl)){
-case'a':res=isalpha(c);break;
-case'c':res=iscntrl(c);break;
-case'd':res=isdigit(c);break;
-case'l':res=islower(c);break;
-case'p':res=ispunct(c);break;
-case's':res=isspace(c);break;
-case'u':res=isupper(c);break;
-case'w':res=isalnum(c);break;
-case'x':res=isxdigit(c);break;
-case'z':res=(c==0);break;
-default:return(cl==c);
-}
-return(islower(cl)?res:!res);
-}
-static int matchbracketclass(int c,const char*p,const char*ec){
-int sig=1;
-if(*(p+1)=='^'){
-sig=0;
-p++;
-}
-while(++p<ec){
-if(*p=='%'){
-p++;
-if(match_class(c,uchar(*p)))
-return sig;
-}
-else if((*(p+1)=='-')&&(p+2<ec)){
-p+=2;
-if(uchar(*(p-2))<=c&&c<=uchar(*p))
-return sig;
-}
-else if(uchar(*p)==c)return sig;
-}
-return!sig;
-}
-static int singlematch(int c,const char*p,const char*ep){
-switch(*p){
-case'.':return 1;
-case'%':return match_class(c,uchar(*(p+1)));
-case'[':return matchbracketclass(c,p,ep-1);
-default:return(uchar(*p)==c);
-}
-}
-static const char*match(MatchState*ms,const char*s,const char*p);
-static const char*matchbalance(MatchState*ms,const char*s,
-const char*p){
-if(*p==0||*(p+1)==0)
-luaL_error(ms->L,"unbalanced pattern");
-if(*s!=*p)return NULL;
-else{
-int b=*p;
-int e=*(p+1);
-int cont=1;
-while(++s<ms->src_end){
-if(*s==e){
-if(--cont==0)return s+1;
-}
-else if(*s==b)cont++;
-}
-}
-return NULL;
-}
-static const char*max_expand(MatchState*ms,const char*s,
-const char*p,const char*ep){
-ptrdiff_t i=0;
-while((s+i)<ms->src_end&&singlematch(uchar(*(s+i)),p,ep))
-i++;
-while(i>=0){
-const char*res=match(ms,(s+i),ep+1);
-if(res)return res;
-i--;
-}
-return NULL;
-}
-static const char*min_expand(MatchState*ms,const char*s,
-const char*p,const char*ep){
-for(;;){
-const char*res=match(ms,s,ep+1);
-if(res!=NULL)
-return res;
-else if(s<ms->src_end&&singlematch(uchar(*s),p,ep))
-s++;
-else return NULL;
-}
-}
-static const char*start_capture(MatchState*ms,const char*s,
-const char*p,int what){
-const char*res;
-int level=ms->level;
-if(level>=32)luaL_error(ms->L,"too many captures");
-ms->capture[level].init=s;
-ms->capture[level].len=what;
-ms->level=level+1;
-if((res=match(ms,s,p))==NULL)
-ms->level--;
-return res;
-}
-static const char*end_capture(MatchState*ms,const char*s,
-const char*p){
-int l=capture_to_close(ms);
-const char*res;
-ms->capture[l].len=s-ms->capture[l].init;
-if((res=match(ms,s,p))==NULL)
-ms->capture[l].len=(-1);
-return res;
-}
-static const char*match_capture(MatchState*ms,const char*s,int l){
-size_t len;
-l=check_capture(ms,l);
-len=ms->capture[l].len;
-if((size_t)(ms->src_end-s)>=len&&
-memcmp(ms->capture[l].init,s,len)==0)
-return s+len;
-else return NULL;
-}
-static const char*match(MatchState*ms,const char*s,const char*p){
-init:
-switch(*p){
-case'(':{
-if(*(p+1)==')')
-return start_capture(ms,s,p+2,(-2));
-else
-return start_capture(ms,s,p+1,(-1));
-}
-case')':{
-return end_capture(ms,s,p+1);
-}
-case'%':{
-switch(*(p+1)){
-case'b':{
-s=matchbalance(ms,s,p+2);
-if(s==NULL)return NULL;
-p+=4;goto init;
-}
-case'f':{
-const char*ep;char previous;
-p+=2;
-if(*p!='[')
-luaL_error(ms->L,"missing "LUA_QL("[")" after "
-LUA_QL("%%f")" in pattern");
-ep=classend(ms,p);
-previous=(s==ms->src_init)?'\0':*(s-1);
-if(matchbracketclass(uchar(previous),p,ep-1)||
-!matchbracketclass(uchar(*s),p,ep-1))return NULL;
-p=ep;goto init;
-}
-default:{
-if(isdigit(uchar(*(p+1)))){
-s=match_capture(ms,s,uchar(*(p+1)));
-if(s==NULL)return NULL;
-p+=2;goto init;
-}
-goto dflt;
-}
-}
-}
-case'\0':{
-return s;
-}
-case'$':{
-if(*(p+1)=='\0')
-return(s==ms->src_end)?s:NULL;
-else goto dflt;
-}
-default:dflt:{
-const char*ep=classend(ms,p);
-int m=s<ms->src_end&&singlematch(uchar(*s),p,ep);
-switch(*ep){
-case'?':{
-const char*res;
-if(m&&((res=match(ms,s+1,ep+1))!=NULL))
-return res;
-p=ep+1;goto init;
-}
-case'*':{
-return max_expand(ms,s,p,ep);
-}
-case'+':{
-return(m?max_expand(ms,s+1,p,ep):NULL);
-}
-case'-':{
-return min_expand(ms,s,p,ep);
-}
-default:{
-if(!m)return NULL;
-s++;p=ep;goto init;
-}
-}
-}
-}
-}
-static const char*lmemfind(const char*s1,size_t l1,
-const char*s2,size_t l2){
-if(l2==0)return s1;
-else if(l2>l1)return NULL;
-else{
-const char*init;
-l2--;
-l1=l1-l2;
-while(l1>0&&(init=(const char*)memchr(s1,*s2,l1))!=NULL){
-init++;
-if(memcmp(init,s2+1,l2)==0)
-return init-1;
-else{
-l1-=init-s1;
-s1=init;
-}
-}
-return NULL;
-}
-}
-static void push_onecapture(MatchState*ms,int i,const char*s,
-const char*e){
-if(i>=ms->level){
-if(i==0)
-lua_pushlstring(ms->L,s,e-s);
-else
-luaL_error(ms->L,"invalid capture index");
-}
-else{
-ptrdiff_t l=ms->capture[i].len;
-if(l==(-1))luaL_error(ms->L,"unfinished capture");
-if(l==(-2))
-lua_pushinteger(ms->L,ms->capture[i].init-ms->src_init+1);
-else
-lua_pushlstring(ms->L,ms->capture[i].init,l);
-}
-}
-static int push_captures(MatchState*ms,const char*s,const char*e){
-int i;
-int nlevels=(ms->level==0&&s)?1:ms->level;
-luaL_checkstack(ms->L,nlevels,"too many captures");
-for(i=0;i<nlevels;i++)
-push_onecapture(ms,i,s,e);
-return nlevels;
-}
-static int str_find_aux(lua_State*L,int find){
-size_t l1,l2;
-const char*s=luaL_checklstring(L,1,&l1);
-const char*p=luaL_checklstring(L,2,&l2);
-ptrdiff_t init=posrelat(luaL_optinteger(L,3,1),l1)-1;
-if(init<0)init=0;
-else if((size_t)(init)>l1)init=(ptrdiff_t)l1;
-if(find&&(lua_toboolean(L,4)||
-strpbrk(p,"^$*+?.([%-")==NULL)){
-const char*s2=lmemfind(s+init,l1-init,p,l2);
-if(s2){
-lua_pushinteger(L,s2-s+1);
-lua_pushinteger(L,s2-s+l2);
-return 2;
-}
-}
-else{
-MatchState ms;
-int anchor=(*p=='^')?(p++,1):0;
-const char*s1=s+init;
-ms.L=L;
-ms.src_init=s;
-ms.src_end=s+l1;
-do{
-const char*res;
-ms.level=0;
-if((res=match(&ms,s1,p))!=NULL){
-if(find){
-lua_pushinteger(L,s1-s+1);
-lua_pushinteger(L,res-s);
-return push_captures(&ms,NULL,0)+2;
-}
-else
-return push_captures(&ms,s1,res);
-}
-}while(s1++<ms.src_end&&!anchor);
-}
-lua_pushnil(L);
-return 1;
-}
-static int str_find(lua_State*L){
-return str_find_aux(L,1);
-}
-static int str_match(lua_State*L){
-return str_find_aux(L,0);
-}
-static int gmatch_aux(lua_State*L){
-MatchState ms;
-size_t ls;
-const char*s=lua_tolstring(L,lua_upvalueindex(1),&ls);
-const char*p=lua_tostring(L,lua_upvalueindex(2));
-const char*src;
-ms.L=L;
-ms.src_init=s;
-ms.src_end=s+ls;
-for(src=s+(size_t)lua_tointeger(L,lua_upvalueindex(3));
-src<=ms.src_end;
-src++){
-const char*e;
-ms.level=0;
-if((e=match(&ms,src,p))!=NULL){
-lua_Integer newstart=e-s;
-if(e==src)newstart++;
-lua_pushinteger(L,newstart);
-lua_replace(L,lua_upvalueindex(3));
-return push_captures(&ms,src,e);
-}
-}
-return 0;
-}
-static int gmatch(lua_State*L){
-luaL_checkstring(L,1);
-luaL_checkstring(L,2);
-lua_settop(L,2);
-lua_pushinteger(L,0);
-lua_pushcclosure(L,gmatch_aux,3);
-return 1;
-}
-static void add_s(MatchState*ms,luaL_Buffer*b,const char*s,
-const char*e){
-size_t l,i;
-const char*news=lua_tolstring(ms->L,3,&l);
-for(i=0;i<l;i++){
-if(news[i]!='%')
-luaL_addchar(b,news[i]);
-else{
-i++;
-if(!isdigit(uchar(news[i])))
-luaL_addchar(b,news[i]);
-else if(news[i]=='0')
-luaL_addlstring(b,s,e-s);
-else{
-push_onecapture(ms,news[i]-'1',s,e);
-luaL_addvalue(b);
-}
-}
-}
-}
-static void add_value(MatchState*ms,luaL_Buffer*b,const char*s,
-const char*e){
-lua_State*L=ms->L;
-switch(lua_type(L,3)){
-case 3:
-case 4:{
-add_s(ms,b,s,e);
-return;
-}
-case 6:{
-int n;
-lua_pushvalue(L,3);
-n=push_captures(ms,s,e);
-lua_call(L,n,1);
-break;
-}
-case 5:{
-push_onecapture(ms,0,s,e);
-lua_gettable(L,3);
-break;
-}
-}
-if(!lua_toboolean(L,-1)){
-lua_pop(L,1);
-lua_pushlstring(L,s,e-s);
-}
-else if(!lua_isstring(L,-1))
-luaL_error(L,"invalid replacement value (a %s)",luaL_typename(L,-1));
-luaL_addvalue(b);
-}
-static int str_gsub(lua_State*L){
-size_t srcl;
-const char*src=luaL_checklstring(L,1,&srcl);
-const char*p=luaL_checkstring(L,2);
-int tr=lua_type(L,3);
-int max_s=luaL_optint(L,4,srcl+1);
-int anchor=(*p=='^')?(p++,1):0;
-int n=0;
-MatchState ms;
-luaL_Buffer b;
-luaL_argcheck(L,tr==3||tr==4||
-tr==6||tr==5,3,
-"string/function/table expected");
-luaL_buffinit(L,&b);
-ms.L=L;
-ms.src_init=src;
-ms.src_end=src+srcl;
-while(n<max_s){
-const char*e;
-ms.level=0;
-e=match(&ms,src,p);
-if(e){
-n++;
-add_value(&ms,&b,src,e);
-}
-if(e&&e>src)
-src=e;
-else if(src<ms.src_end)
-luaL_addchar(&b,*src++);
-else break;
-if(anchor)break;
-}
-luaL_addlstring(&b,src,ms.src_end-src);
-luaL_pushresult(&b);
-lua_pushinteger(L,n);
-return 2;
-}
-static void addquoted(lua_State*L,luaL_Buffer*b,int arg){
-size_t l;
-const char*s=luaL_checklstring(L,arg,&l);
-luaL_addchar(b,'"');
-while(l--){
-switch(*s){
-case'"':case'\\':case'\n':{
-luaL_addchar(b,'\\');
-luaL_addchar(b,*s);
-break;
-}
-case'\r':{
-luaL_addlstring(b,"\\r",2);
-break;
-}
-case'\0':{
-luaL_addlstring(b,"\\000",4);
-break;
-}
-default:{
-luaL_addchar(b,*s);
-break;
-}
-}
-s++;
-}
-luaL_addchar(b,'"');
-}
-static const char*scanformat(lua_State*L,const char*strfrmt,char*form){
-const char*p=strfrmt;
-while(*p!='\0'&&strchr("-+ #0",*p)!=NULL)p++;
-if((size_t)(p-strfrmt)>=sizeof("-+ #0"))
-luaL_error(L,"invalid format (repeated flags)");
-if(isdigit(uchar(*p)))p++;
-if(isdigit(uchar(*p)))p++;
-if(*p=='.'){
-p++;
-if(isdigit(uchar(*p)))p++;
-if(isdigit(uchar(*p)))p++;
-}
-if(isdigit(uchar(*p)))
-luaL_error(L,"invalid format (width or precision too long)");
-*(form++)='%';
-strncpy(form,strfrmt,p-strfrmt+1);
-form+=p-strfrmt+1;
-*form='\0';
-return p;
-}
-static void addintlen(char*form){
-size_t l=strlen(form);
-char spec=form[l-1];
-strcpy(form+l-1,"l");
-form[l+sizeof("l")-2]=spec;
-form[l+sizeof("l")-1]='\0';
-}
-static int str_format(lua_State*L){
-int top=lua_gettop(L);
-int arg=1;
-size_t sfl;
-const char*strfrmt=luaL_checklstring(L,arg,&sfl);
-const char*strfrmt_end=strfrmt+sfl;
-luaL_Buffer b;
-luaL_buffinit(L,&b);
-while(strfrmt<strfrmt_end){
-if(*strfrmt!='%')
-luaL_addchar(&b,*strfrmt++);
-else if(*++strfrmt=='%')
-luaL_addchar(&b,*strfrmt++);
-else{
-char form[(sizeof("-+ #0")+sizeof("l")+10)];
-char buff[512];
-if(++arg>top)
-luaL_argerror(L,arg,"no value");
-strfrmt=scanformat(L,strfrmt,form);
-switch(*strfrmt++){
-case'c':{
-sprintf(buff,form,(int)luaL_checknumber(L,arg));
-break;
-}
-case'd':case'i':{
-addintlen(form);
-sprintf(buff,form,(long)luaL_checknumber(L,arg));
-break;
-}
-case'o':case'u':case'x':case'X':{
-addintlen(form);
-sprintf(buff,form,(unsigned long)luaL_checknumber(L,arg));
-break;
-}
-case'e':case'E':case'f':
-case'g':case'G':{
-sprintf(buff,form,(double)luaL_checknumber(L,arg));
-break;
-}
-case'q':{
-addquoted(L,&b,arg);
-continue;
-}
-case's':{
-size_t l;
-const char*s=luaL_checklstring(L,arg,&l);
-if(!strchr(form,'.')&&l>=100){
-lua_pushvalue(L,arg);
-luaL_addvalue(&b);
-continue;
-}
-else{
-sprintf(buff,form,s);
-break;
-}
-}
-default:{
-return luaL_error(L,"invalid option "LUA_QL("%%%c")" to "
-LUA_QL("format"),*(strfrmt-1));
-}
-}
-luaL_addlstring(&b,buff,strlen(buff));
-}
-}
-luaL_pushresult(&b);
-return 1;
-}
-static const luaL_Reg strlib[]={
-{"byte",str_byte},
-{"char",str_char},
-{"find",str_find},
-{"format",str_format},
-{"gmatch",gmatch},
-{"gsub",str_gsub},
-{"lower",str_lower},
-{"match",str_match},
-{"rep",str_rep},
-{"sub",str_sub},
-{"upper",str_upper},
-{NULL,NULL}
-};
-static void createmetatable(lua_State*L){
-lua_createtable(L,0,1);
-lua_pushliteral(L,"");
-lua_pushvalue(L,-2);
-lua_setmetatable(L,-2);
-lua_pop(L,1);
-lua_pushvalue(L,-2);
-lua_setfield(L,-2,"__index");
-lua_pop(L,1);
-}
-static int luaopen_string(lua_State*L){
-luaL_register(L,"string",strlib);
-createmetatable(L);
-return 1;
-}
-static const luaL_Reg lualibs[]={
-{"",luaopen_base},
-{"table",luaopen_table},
-{"io",luaopen_io},
-{"os",luaopen_os},
-{"string",luaopen_string},
-{NULL,NULL}
-};
-static void luaL_openlibs(lua_State*L){
-const luaL_Reg*lib=lualibs;
-for(;lib->func;lib++){
-lua_pushcfunction(L,lib->func);
-lua_pushstring(L,lib->name);
-lua_call(L,1,0);
-}
-}
-typedef unsigned int UB;
-static UB barg(lua_State*L,int idx){
-union{lua_Number n;U64 b;}bn;
-bn.n=lua_tonumber(L,idx)+6755399441055744.0;
-if(bn.n==0.0&&!lua_isnumber(L,idx))luaL_typerror(L,idx,"number");
-return(UB)bn.b;
-}
-#define BRET(b)lua_pushnumber(L,(lua_Number)(int)(b));return 1;
-static int tobit(lua_State*L){
-BRET(barg(L,1))}
-static int bnot(lua_State*L){
-BRET(~barg(L,1))}
-static int band(lua_State*L){
-int i;UB b=barg(L,1);for(i=lua_gettop(L);i>1;i--)b&=barg(L,i);BRET(b)}
-static int bor(lua_State*L){
-int i;UB b=barg(L,1);for(i=lua_gettop(L);i>1;i--)b|=barg(L,i);BRET(b)}
-static int bxor(lua_State*L){
-int i;UB b=barg(L,1);for(i=lua_gettop(L);i>1;i--)b^=barg(L,i);BRET(b)}
-static int lshift(lua_State*L){
-UB b=barg(L,1),n=barg(L,2)&31;BRET(b<<n)}
-static int rshift(lua_State*L){
-UB b=barg(L,1),n=barg(L,2)&31;BRET(b>>n)}
-static int arshift(lua_State*L){
-UB b=barg(L,1),n=barg(L,2)&31;BRET((int)b>>n)}
-static int rol(lua_State*L){
-UB b=barg(L,1),n=barg(L,2)&31;BRET((b<<n)|(b>>(32-n)))}
-static int ror(lua_State*L){
-UB b=barg(L,1),n=barg(L,2)&31;BRET((b>>n)|(b<<(32-n)))}
-static int bswap(lua_State*L){
-UB b=barg(L,1);b=(b>>24)|((b>>8)&0xff00)|((b&0xff00)<<8)|(b<<24);BRET(b)}
-static int tohex(lua_State*L){
-UB b=barg(L,1);
-int n=lua_isnone(L,2)?8:(int)barg(L,2);
-const char*hexdigits="0123456789abcdef";
-char buf[8];
-int i;
-if(n<0){n=-n;hexdigits="0123456789ABCDEF";}
-if(n>8)n=8;
-for(i=(int)n;--i>=0;){buf[i]=hexdigits[b&15];b>>=4;}
-lua_pushlstring(L,buf,(size_t)n);
-return 1;
-}
-static const struct luaL_Reg bitlib[]={
-{"tobit",tobit},
-{"bnot",bnot},
-{"band",band},
-{"bor",bor},
-{"bxor",bxor},
-{"lshift",lshift},
-{"rshift",rshift},
-{"arshift",arshift},
-{"rol",rol},
-{"ror",ror},
-{"bswap",bswap},
-{"tohex",tohex},
-{NULL,NULL}
-};
-int main(int argc,char**argv){
-lua_State*L=luaL_newstate();
-int i;
-luaL_openlibs(L);
-luaL_register(L,"bit",bitlib);
-if(argc<2)return sizeof(void*);
-lua_createtable(L,0,1);
-lua_pushstring(L,argv[1]);
-lua_rawseti(L,-2,0);
-lua_setglobal(L,"arg");
-if(luaL_loadfile(L,argv[1]))
-goto err;
-for(i=2;i<argc;i++)
-lua_pushstring(L,argv[i]);
-if(lua_pcall(L,argc-2,0,0)){
-err:
-fprintf(stderr,"Error: %s\n",lua_tostring(L,-1));
-return 1;
-}
-lua_close(L);
-return 0;
-}
diff --git a/luajit-2.0/src/jit/.gitignore b/luajit-2.0/src/jit/.gitignore
deleted file mode 100644
index 500e285..0000000
--- a/luajit-2.0/src/jit/.gitignore
+++ /dev/null
@@ -1 +0,0 @@
-vmdef.lua
diff --git a/luajit-2.0/src/jit/bc.lua b/luajit-2.0/src/jit/bc.lua
deleted file mode 100644
index 9df19c7..0000000
--- a/luajit-2.0/src/jit/bc.lua
+++ /dev/null
@@ -1,191 +0,0 @@
-----------------------------------------------------------------------------
--- LuaJIT bytecode listing module.
---
--- Copyright (C) 2005-2014 Mike Pall. All rights reserved.
--- Released under the MIT license. See Copyright Notice in luajit.h
-----------------------------------------------------------------------------
---
--- This module lists the bytecode of a Lua function. If it's loaded by -jbc
--- it hooks into the parser and lists all functions of a chunk as they
--- are parsed.
---
--- Example usage:
---
---   luajit -jbc -e 'local x=0; for i=1,1e6 do x=x+i end; print(x)'
---   luajit -jbc=- foo.lua
---   luajit -jbc=foo.list foo.lua
---
--- Default output is to stderr. To redirect the output to a file, pass a
--- filename as an argument (use '-' for stdout) or set the environment
--- variable LUAJIT_LISTFILE. The file is overwritten every time the module
--- is started.
---
--- This module can also be used programmatically:
---
---   local bc = require("jit.bc")
---
---   local function foo() print("hello") end
---
---   bc.dump(foo)           --> -- BYTECODE -- [...]
---   print(bc.line(foo, 2)) --> 0002    KSTR     1   1      ; "hello"
---
---   local out = {
---     -- Do something with each line:
---     write = function(t, ...) io.write(...) end,
---     close = function(t) end,
---     flush = function(t) end,
---   }
---   bc.dump(foo, out)
---
-------------------------------------------------------------------------------
-
--- Cache some library functions and objects.
-local jit = require("jit")
-assert(jit.version_num == 20003, "LuaJIT core/library version mismatch")
-local jutil = require("jit.util")
-local vmdef = require("jit.vmdef")
-local bit = require("bit")
-local sub, gsub, format = string.sub, string.gsub, string.format
-local byte, band, shr = string.byte, bit.band, bit.rshift
-local funcinfo, funcbc, funck = jutil.funcinfo, jutil.funcbc, jutil.funck
-local funcuvname = jutil.funcuvname
-local bcnames = vmdef.bcnames
-local stdout, stderr = io.stdout, io.stderr
-
-------------------------------------------------------------------------------
-
-local function ctlsub(c)
-  if c == "\n" then return "\\n"
-  elseif c == "\r" then return "\\r"
-  elseif c == "\t" then return "\\t"
-  else return format("\\%03d", byte(c))
-  end
-end
-
--- Return one bytecode line.
-local function bcline(func, pc, prefix)
-  local ins, m = funcbc(func, pc)
-  if not ins then return end
-  local ma, mb, mc = band(m, 7), band(m, 15*8), band(m, 15*128)
-  local a = band(shr(ins, 8), 0xff)
-  local oidx = 6*band(ins, 0xff)
-  local op = sub(bcnames, oidx+1, oidx+6)
-  local s = format("%04d %s %-6s %3s ",
-    pc, prefix or "  ", op, ma == 0 and "" or a)
-  local d = shr(ins, 16)
-  if mc == 13*128 then -- BCMjump
-    return format("%s=> %04d\n", s, pc+d-0x7fff)
-  end
-  if mb ~= 0 then
-    d = band(d, 0xff)
-  elseif mc == 0 then
-    return s.."\n"
-  end
-  local kc
-  if mc == 10*128 then -- BCMstr
-    kc = funck(func, -d-1)
-    kc = format(#kc > 40 and '"%.40s"~' or '"%s"', gsub(kc, "%c", ctlsub))
-  elseif mc == 9*128 then -- BCMnum
-    kc = funck(func, d)
-    if op == "TSETM " then kc = kc - 2^52 end
-  elseif mc == 12*128 then -- BCMfunc
-    local fi = funcinfo(funck(func, -d-1))
-    if fi.ffid then
-      kc = vmdef.ffnames[fi.ffid]
-    else
-      kc = fi.loc
-    end
-  elseif mc == 5*128 then -- BCMuv
-    kc = funcuvname(func, d)
-  end
-  if ma == 5 then -- BCMuv
-    local ka = funcuvname(func, a)
-    if kc then kc = ka.." ; "..kc else kc = ka end
-  end
-  if mb ~= 0 then
-    local b = shr(ins, 24)
-    if kc then return format("%s%3d %3d  ; %s\n", s, b, d, kc) end
-    return format("%s%3d %3d\n", s, b, d)
-  end
-  if kc then return format("%s%3d      ; %s\n", s, d, kc) end
-  if mc == 7*128 and d > 32767 then d = d - 65536 end -- BCMlits
-  return format("%s%3d\n", s, d)
-end
-
--- Collect branch targets of a function.
-local function bctargets(func)
-  local target = {}
-  for pc=1,1000000000 do
-    local ins, m = funcbc(func, pc)
-    if not ins then break end
-    if band(m, 15*128) == 13*128 then target[pc+shr(ins, 16)-0x7fff] = true end
-  end
-  return target
-end
-
--- Dump bytecode instructions of a function.
-local function bcdump(func, out, all)
-  if not out then out = stdout end
-  local fi = funcinfo(func)
-  if all and fi.children then
-    for n=-1,-1000000000,-1 do
-      local k = funck(func, n)
-      if not k then break end
-      if type(k) == "proto" then bcdump(k, out, true) end
-    end
-  end
-  out:write(format("-- BYTECODE -- %s-%d\n", fi.loc, fi.lastlinedefined))
-  local target = bctargets(func)
-  for pc=1,1000000000 do
-    local s = bcline(func, pc, target[pc] and "=>")
-    if not s then break end
-    out:write(s)
-  end
-  out:write("\n")
-  out:flush()
-end
-
-------------------------------------------------------------------------------
-
--- Active flag and output file handle.
-local active, out
-
--- List handler.
-local function h_list(func)
-  return bcdump(func, out)
-end
-
--- Detach list handler.
-local function bclistoff()
-  if active then
-    active = false
-    jit.attach(h_list)
-    if out and out ~= stdout and out ~= stderr then out:close() end
-    out = nil
-  end
-end
-
--- Open the output file and attach list handler.
-local function bcliston(outfile)
-  if active then bclistoff() end
-  if not outfile then outfile = os.getenv("LUAJIT_LISTFILE") end
-  if outfile then
-    out = outfile == "-" and stdout or assert(io.open(outfile, "w"))
-  else
-    out = stderr
-  end
-  jit.attach(h_list, "bc")
-  active = true
-end
-
--- Public module functions.
-module(...)
-
-line = bcline
-dump = bcdump
-targets = bctargets
-
-on = bcliston
-off = bclistoff
-start = bcliston -- For -j command line option.
-
diff --git a/luajit-2.0/src/jit/bcsave.lua b/luajit-2.0/src/jit/bcsave.lua
deleted file mode 100644
index 122bb24..0000000
--- a/luajit-2.0/src/jit/bcsave.lua
+++ /dev/null
@@ -1,659 +0,0 @@
-----------------------------------------------------------------------------
--- LuaJIT module to save/list bytecode.
---
--- Copyright (C) 2005-2014 Mike Pall. All rights reserved.
--- Released under the MIT license. See Copyright Notice in luajit.h
-----------------------------------------------------------------------------
---
--- This module saves or lists the bytecode for an input file.
--- It's run by the -b command line option.
---
-------------------------------------------------------------------------------
-
-local jit = require("jit")
-assert(jit.version_num == 20003, "LuaJIT core/library version mismatch")
-local bit = require("bit")
-
--- Symbol name prefix for LuaJIT bytecode.
-local LJBC_PREFIX = "luaJIT_BC_"
-
-------------------------------------------------------------------------------
-
-local function usage()
-  io.stderr:write[[
-Save LuaJIT bytecode: luajit -b[options] input output
-  -l        Only list bytecode.
-  -s        Strip debug info (default).
-  -g        Keep debug info.
-  -n name   Set module name (default: auto-detect from input name).
-  -t type   Set output file type (default: auto-detect from output name).
-  -a arch   Override architecture for object files (default: native).
-  -o os     Override OS for object files (default: native).
-  -e chunk  Use chunk string as input.
-  --        Stop handling options.
-  -         Use stdin as input and/or stdout as output.
-
-File types: c h obj o raw (default)
-]]
-  os.exit(1)
-end
-
-local function check(ok, ...)
-  if ok then return ok, ... end
-  io.stderr:write("luajit: ", ...)
-  io.stderr:write("\n")
-  os.exit(1)
-end
-
-local function readfile(input)
-  if type(input) == "function" then return input end
-  if input == "-" then input = nil end
-  return check(loadfile(input))
-end
-
-local function savefile(name, mode)
-  if name == "-" then return io.stdout end
-  return check(io.open(name, mode))
-end
-
-------------------------------------------------------------------------------
-
-local map_type = {
-  raw = "raw", c = "c", h = "h", o = "obj", obj = "obj",
-}
-
-local map_arch = {
-  x86 = true, x64 = true, arm = true, ppc = true, ppcspe = true,
-  mips = true, mipsel = true,
-}
-
-local map_os = {
-  linux = true, windows = true, osx = true, freebsd = true, netbsd = true,
-  openbsd = true, dragonfly = true, solaris = true,
-}
-
-local function checkarg(str, map, err)
-  str = string.lower(str)
-  local s = check(map[str], "unknown ", err)
-  return s == true and str or s
-end
-
-local function detecttype(str)
-  local ext = string.match(string.lower(str), "%.(%a+)$")
-  return map_type[ext] or "raw"
-end
-
-local function checkmodname(str)
-  check(string.match(str, "^[%w_.%-]+$"), "bad module name")
-  return string.gsub(str, "[%.%-]", "_")
-end
-
-local function detectmodname(str)
-  if type(str) == "string" then
-    local tail = string.match(str, "[^/\\]+$")
-    if tail then str = tail end
-    local head = string.match(str, "^(.*)%.[^.]*$")
-    if head then str = head end
-    str = string.match(str, "^[%w_.%-]+")
-  else
-    str = nil
-  end
-  check(str, "cannot derive module name, use -n name")
-  return string.gsub(str, "[%.%-]", "_")
-end
-
-------------------------------------------------------------------------------
-
-local function bcsave_tail(fp, output, s)
-  local ok, err = fp:write(s)
-  if ok and output ~= "-" then ok, err = fp:close() end
-  check(ok, "cannot write ", output, ": ", err)
-end
-
-local function bcsave_raw(output, s)
-  local fp = savefile(output, "wb")
-  bcsave_tail(fp, output, s)
-end
-
-local function bcsave_c(ctx, output, s)
-  local fp = savefile(output, "w")
-  if ctx.type == "c" then
-    fp:write(string.format([[
-#ifdef _cplusplus
-extern "C"
-#endif
-#ifdef _WIN32
-__declspec(dllexport)
-#endif
-const char %s%s[] = {
-]], LJBC_PREFIX, ctx.modname))
-  else
-    fp:write(string.format([[
-#define %s%s_SIZE %d
-static const char %s%s[] = {
-]], LJBC_PREFIX, ctx.modname, #s, LJBC_PREFIX, ctx.modname))
-  end
-  local t, n, m = {}, 0, 0
-  for i=1,#s do
-    local b = tostring(string.byte(s, i))
-    m = m + #b + 1
-    if m > 78 then
-      fp:write(table.concat(t, ",", 1, n), ",\n")
-      n, m = 0, #b + 1
-    end
-    n = n + 1
-    t[n] = b
-  end
-  bcsave_tail(fp, output, table.concat(t, ",", 1, n).."\n};\n")
-end
-
-local function bcsave_elfobj(ctx, output, s, ffi)
-  ffi.cdef[[
-typedef struct {
-  uint8_t emagic[4], eclass, eendian, eversion, eosabi, eabiversion, epad[7];
-  uint16_t type, machine;
-  uint32_t version;
-  uint32_t entry, phofs, shofs;
-  uint32_t flags;
-  uint16_t ehsize, phentsize, phnum, shentsize, shnum, shstridx;
-} ELF32header;
-typedef struct {
-  uint8_t emagic[4], eclass, eendian, eversion, eosabi, eabiversion, epad[7];
-  uint16_t type, machine;
-  uint32_t version;
-  uint64_t entry, phofs, shofs;
-  uint32_t flags;
-  uint16_t ehsize, phentsize, phnum, shentsize, shnum, shstridx;
-} ELF64header;
-typedef struct {
-  uint32_t name, type, flags, addr, ofs, size, link, info, align, entsize;
-} ELF32sectheader;
-typedef struct {
-  uint32_t name, type;
-  uint64_t flags, addr, ofs, size;
-  uint32_t link, info;
-  uint64_t align, entsize;
-} ELF64sectheader;
-typedef struct {
-  uint32_t name, value, size;
-  uint8_t info, other;
-  uint16_t sectidx;
-} ELF32symbol;
-typedef struct {
-  uint32_t name;
-  uint8_t info, other;
-  uint16_t sectidx;
-  uint64_t value, size;
-} ELF64symbol;
-typedef struct {
-  ELF32header hdr;
-  ELF32sectheader sect[6];
-  ELF32symbol sym[2];
-  uint8_t space[4096];
-} ELF32obj;
-typedef struct {
-  ELF64header hdr;
-  ELF64sectheader sect[6];
-  ELF64symbol sym[2];
-  uint8_t space[4096];
-} ELF64obj;
-]]
-  local symname = LJBC_PREFIX..ctx.modname
-  local is64, isbe = false, false
-  if ctx.arch == "x64" then
-    is64 = true
-  elseif ctx.arch == "ppc" or ctx.arch == "ppcspe" or ctx.arch == "mips" then
-    isbe = true
-  end
-
-  -- Handle different host/target endianess.
-  local function f32(x) return x end
-  local f16, fofs = f32, f32
-  if ffi.abi("be") ~= isbe then
-    f32 = bit.bswap
-    function f16(x) return bit.rshift(bit.bswap(x), 16) end
-    if is64 then
-      local two32 = ffi.cast("int64_t", 2^32)
-      function fofs(x) return bit.bswap(x)*two32 end
-    else
-      fofs = f32
-    end
-  end
-
-  -- Create ELF object and fill in header.
-  local o = ffi.new(is64 and "ELF64obj" or "ELF32obj")
-  local hdr = o.hdr
-  if ctx.os == "bsd" or ctx.os == "other" then -- Determine native hdr.eosabi.
-    local bf = assert(io.open("/bin/ls", "rb"))
-    local bs = bf:read(9)
-    bf:close()
-    ffi.copy(o, bs, 9)
-    check(hdr.emagic[0] == 127, "no support for writing native object files")
-  else
-    hdr.emagic = "\127ELF"
-    hdr.eosabi = ({ freebsd=9, netbsd=2, openbsd=12, solaris=6 })[ctx.os] or 0
-  end
-  hdr.eclass = is64 and 2 or 1
-  hdr.eendian = isbe and 2 or 1
-  hdr.eversion = 1
-  hdr.type = f16(1)
-  hdr.machine = f16(({ x86=3, x64=62, arm=40, ppc=20, ppcspe=20, mips=8, mipsel=8 })[ctx.arch])
-  if ctx.arch == "mips" or ctx.arch == "mipsel" then
-    hdr.flags = 0x50001006
-  end
-  hdr.version = f32(1)
-  hdr.shofs = fofs(ffi.offsetof(o, "sect"))
-  hdr.ehsize = f16(ffi.sizeof(hdr))
-  hdr.shentsize = f16(ffi.sizeof(o.sect[0]))
-  hdr.shnum = f16(6)
-  hdr.shstridx = f16(2)
-
-  -- Fill in sections and symbols.
-  local sofs, ofs = ffi.offsetof(o, "space"), 1
-  for i,name in ipairs{
-      ".symtab", ".shstrtab", ".strtab", ".rodata", ".note.GNU-stack",
-    } do
-    local sect = o.sect[i]
-    sect.align = fofs(1)
-    sect.name = f32(ofs)
-    ffi.copy(o.space+ofs, name)
-    ofs = ofs + #name+1
-  end
-  o.sect[1].type = f32(2) -- .symtab
-  o.sect[1].link = f32(3)
-  o.sect[1].info = f32(1)
-  o.sect[1].align = fofs(8)
-  o.sect[1].ofs = fofs(ffi.offsetof(o, "sym"))
-  o.sect[1].entsize = fofs(ffi.sizeof(o.sym[0]))
-  o.sect[1].size = fofs(ffi.sizeof(o.sym))
-  o.sym[1].name = f32(1)
-  o.sym[1].sectidx = f16(4)
-  o.sym[1].size = fofs(#s)
-  o.sym[1].info = 17
-  o.sect[2].type = f32(3) -- .shstrtab
-  o.sect[2].ofs = fofs(sofs)
-  o.sect[2].size = fofs(ofs)
-  o.sect[3].type = f32(3) -- .strtab
-  o.sect[3].ofs = fofs(sofs + ofs)
-  o.sect[3].size = fofs(#symname+1)
-  ffi.copy(o.space+ofs+1, symname)
-  ofs = ofs + #symname + 2
-  o.sect[4].type = f32(1) -- .rodata
-  o.sect[4].flags = fofs(2)
-  o.sect[4].ofs = fofs(sofs + ofs)
-  o.sect[4].size = fofs(#s)
-  o.sect[5].type = f32(1) -- .note.GNU-stack
-  o.sect[5].ofs = fofs(sofs + ofs + #s)
-
-  -- Write ELF object file.
-  local fp = savefile(output, "wb")
-  fp:write(ffi.string(o, ffi.sizeof(o)-4096+ofs))
-  bcsave_tail(fp, output, s)
-end
-
-local function bcsave_peobj(ctx, output, s, ffi)
-  ffi.cdef[[
-typedef struct {
-  uint16_t arch, nsects;
-  uint32_t time, symtabofs, nsyms;
-  uint16_t opthdrsz, flags;
-} PEheader;
-typedef struct {
-  char name[8];
-  uint32_t vsize, vaddr, size, ofs, relocofs, lineofs;
-  uint16_t nreloc, nline;
-  uint32_t flags;
-} PEsection;
-typedef struct __attribute((packed)) {
-  union {
-    char name[8];
-    uint32_t nameref[2];
-  };
-  uint32_t value;
-  int16_t sect;
-  uint16_t type;
-  uint8_t scl, naux;
-} PEsym;
-typedef struct __attribute((packed)) {
-  uint32_t size;
-  uint16_t nreloc, nline;
-  uint32_t cksum;
-  uint16_t assoc;
-  uint8_t comdatsel, unused[3];
-} PEsymaux;
-typedef struct {
-  PEheader hdr;
-  PEsection sect[2];
-  // Must be an even number of symbol structs.
-  PEsym sym0;
-  PEsymaux sym0aux;
-  PEsym sym1;
-  PEsymaux sym1aux;
-  PEsym sym2;
-  PEsym sym3;
-  uint32_t strtabsize;
-  uint8_t space[4096];
-} PEobj;
-]]
-  local symname = LJBC_PREFIX..ctx.modname
-  local is64 = false
-  if ctx.arch == "x86" then
-    symname = "_"..symname
-  elseif ctx.arch == "x64" then
-    is64 = true
-  end
-  local symexport = "   /EXPORT:"..symname..",DATA "
-
-  -- The file format is always little-endian. Swap if the host is big-endian.
-  local function f32(x) return x end
-  local f16 = f32
-  if ffi.abi("be") then
-    f32 = bit.bswap
-    function f16(x) return bit.rshift(bit.bswap(x), 16) end
-  end
-
-  -- Create PE object and fill in header.
-  local o = ffi.new("PEobj")
-  local hdr = o.hdr
-  hdr.arch = f16(({ x86=0x14c, x64=0x8664, arm=0x1c0, ppc=0x1f2, mips=0x366, mipsel=0x366 })[ctx.arch])
-  hdr.nsects = f16(2)
-  hdr.symtabofs = f32(ffi.offsetof(o, "sym0"))
-  hdr.nsyms = f32(6)
-
-  -- Fill in sections and symbols.
-  o.sect[0].name = ".drectve"
-  o.sect[0].size = f32(#symexport)
-  o.sect[0].flags = f32(0x00100a00)
-  o.sym0.sect = f16(1)
-  o.sym0.scl = 3
-  o.sym0.name = ".drectve"
-  o.sym0.naux = 1
-  o.sym0aux.size = f32(#symexport)
-  o.sect[1].name = ".rdata"
-  o.sect[1].size = f32(#s)
-  o.sect[1].flags = f32(0x40300040)
-  o.sym1.sect = f16(2)
-  o.sym1.scl = 3
-  o.sym1.name = ".rdata"
-  o.sym1.naux = 1
-  o.sym1aux.size = f32(#s)
-  o.sym2.sect = f16(2)
-  o.sym2.scl = 2
-  o.sym2.nameref[1] = f32(4)
-  o.sym3.sect = f16(-1)
-  o.sym3.scl = 2
-  o.sym3.value = f32(1)
-  o.sym3.name = "@feat.00" -- Mark as SafeSEH compliant.
-  ffi.copy(o.space, symname)
-  local ofs = #symname + 1
-  o.strtabsize = f32(ofs + 4)
-  o.sect[0].ofs = f32(ffi.offsetof(o, "space") + ofs)
-  ffi.copy(o.space + ofs, symexport)
-  ofs = ofs + #symexport
-  o.sect[1].ofs = f32(ffi.offsetof(o, "space") + ofs)
-
-  -- Write PE object file.
-  local fp = savefile(output, "wb")
-  fp:write(ffi.string(o, ffi.sizeof(o)-4096+ofs))
-  bcsave_tail(fp, output, s)
-end
-
-local function bcsave_machobj(ctx, output, s, ffi)
-  ffi.cdef[[
-typedef struct
-{
-  uint32_t magic, cputype, cpusubtype, filetype, ncmds, sizeofcmds, flags;
-} mach_header;
-typedef struct
-{
-  mach_header; uint32_t reserved;
-} mach_header_64;
-typedef struct {
-  uint32_t cmd, cmdsize;
-  char segname[16];
-  uint32_t vmaddr, vmsize, fileoff, filesize;
-  uint32_t maxprot, initprot, nsects, flags;
-} mach_segment_command;
-typedef struct {
-  uint32_t cmd, cmdsize;
-  char segname[16];
-  uint64_t vmaddr, vmsize, fileoff, filesize;
-  uint32_t maxprot, initprot, nsects, flags;
-} mach_segment_command_64;
-typedef struct {
-  char sectname[16], segname[16];
-  uint32_t addr, size;
-  uint32_t offset, align, reloff, nreloc, flags;
-  uint32_t reserved1, reserved2;
-} mach_section;
-typedef struct {
-  char sectname[16], segname[16];
-  uint64_t addr, size;
-  uint32_t offset, align, reloff, nreloc, flags;
-  uint32_t reserved1, reserved2, reserved3;
-} mach_section_64;
-typedef struct {
-  uint32_t cmd, cmdsize, symoff, nsyms, stroff, strsize;
-} mach_symtab_command;
-typedef struct {
-  int32_t strx;
-  uint8_t type, sect;
-  int16_t desc;
-  uint32_t value;
-} mach_nlist;
-typedef struct {
-  uint32_t strx;
-  uint8_t type, sect;
-  uint16_t desc;
-  uint64_t value;
-} mach_nlist_64;
-typedef struct
-{
-  uint32_t magic, nfat_arch;
-} mach_fat_header;
-typedef struct
-{
-  uint32_t cputype, cpusubtype, offset, size, align;
-} mach_fat_arch;
-typedef struct {
-  struct {
-    mach_header hdr;
-    mach_segment_command seg;
-    mach_section sec;
-    mach_symtab_command sym;
-  } arch[1];
-  mach_nlist sym_entry;
-  uint8_t space[4096];
-} mach_obj;
-typedef struct {
-  struct {
-    mach_header_64 hdr;
-    mach_segment_command_64 seg;
-    mach_section_64 sec;
-    mach_symtab_command sym;
-  } arch[1];
-  mach_nlist_64 sym_entry;
-  uint8_t space[4096];
-} mach_obj_64;
-typedef struct {
-  mach_fat_header fat;
-  mach_fat_arch fat_arch[4];
-  struct {
-    mach_header hdr;
-    mach_segment_command seg;
-    mach_section sec;
-    mach_symtab_command sym;
-  } arch[4];
-  mach_nlist sym_entry;
-  uint8_t space[4096];
-} mach_fat_obj;
-]]
-  local symname = '_'..LJBC_PREFIX..ctx.modname
-  local isfat, is64, align, mobj = false, false, 4, "mach_obj"
-  if ctx.arch == "x64" then
-    is64, align, mobj = true, 8, "mach_obj_64"
-  elseif ctx.arch == "arm" then
-    isfat, mobj = true, "mach_fat_obj"
-  else
-    check(ctx.arch == "x86", "unsupported architecture for OSX")
-  end
-  local function aligned(v, a) return bit.band(v+a-1, -a) end
-  local be32 = bit.bswap -- Mach-O FAT is BE, supported archs are LE.
-
-  -- Create Mach-O object and fill in header.
-  local o = ffi.new(mobj)
-  local mach_size = aligned(ffi.offsetof(o, "space")+#symname+2, align)
-  local cputype = ({ x86={7}, x64={0x01000007}, arm={7,12,12,12} })[ctx.arch]
-  local cpusubtype = ({ x86={3}, x64={3}, arm={3,6,9,11} })[ctx.arch]
-  if isfat then
-    o.fat.magic = be32(0xcafebabe)
-    o.fat.nfat_arch = be32(#cpusubtype)
-  end
-
-  -- Fill in sections and symbols.
-  for i=0,#cpusubtype-1 do
-    local ofs = 0
-    if isfat then
-      local a = o.fat_arch[i]
-      a.cputype = be32(cputype[i+1])
-      a.cpusubtype = be32(cpusubtype[i+1])
-      -- Subsequent slices overlap each other to share data.
-      ofs = ffi.offsetof(o, "arch") + i*ffi.sizeof(o.arch[0])
-      a.offset = be32(ofs)
-      a.size = be32(mach_size-ofs+#s)
-    end
-    local a = o.arch[i]
-    a.hdr.magic = is64 and 0xfeedfacf or 0xfeedface
-    a.hdr.cputype = cputype[i+1]
-    a.hdr.cpusubtype = cpusubtype[i+1]
-    a.hdr.filetype = 1
-    a.hdr.ncmds = 2
-    a.hdr.sizeofcmds = ffi.sizeof(a.seg)+ffi.sizeof(a.sec)+ffi.sizeof(a.sym)
-    a.seg.cmd = is64 and 0x19 or 0x1
-    a.seg.cmdsize = ffi.sizeof(a.seg)+ffi.sizeof(a.sec)
-    a.seg.vmsize = #s
-    a.seg.fileoff = mach_size-ofs
-    a.seg.filesize = #s
-    a.seg.maxprot = 1
-    a.seg.initprot = 1
-    a.seg.nsects = 1
-    ffi.copy(a.sec.sectname, "__data")
-    ffi.copy(a.sec.segname, "__DATA")
-    a.sec.size = #s
-    a.sec.offset = mach_size-ofs
-    a.sym.cmd = 2
-    a.sym.cmdsize = ffi.sizeof(a.sym)
-    a.sym.symoff = ffi.offsetof(o, "sym_entry")-ofs
-    a.sym.nsyms = 1
-    a.sym.stroff = ffi.offsetof(o, "sym_entry")+ffi.sizeof(o.sym_entry)-ofs
-    a.sym.strsize = aligned(#symname+2, align)
-  end
-  o.sym_entry.type = 0xf
-  o.sym_entry.sect = 1
-  o.sym_entry.strx = 1
-  ffi.copy(o.space+1, symname)
-
-  -- Write Macho-O object file.
-  local fp = savefile(output, "wb")
-  fp:write(ffi.string(o, mach_size))
-  bcsave_tail(fp, output, s)
-end
-
-local function bcsave_obj(ctx, output, s)
-  local ok, ffi = pcall(require, "ffi")
-  check(ok, "FFI library required to write this file type")
-  if ctx.os == "windows" then
-    return bcsave_peobj(ctx, output, s, ffi)
-  elseif ctx.os == "osx" then
-    return bcsave_machobj(ctx, output, s, ffi)
-  else
-    return bcsave_elfobj(ctx, output, s, ffi)
-  end
-end
-
-------------------------------------------------------------------------------
-
-local function bclist(input, output)
-  local f = readfile(input)
-  require("jit.bc").dump(f, savefile(output, "w"), true)
-end
-
-local function bcsave(ctx, input, output)
-  local f = readfile(input)
-  local s = string.dump(f, ctx.strip)
-  local t = ctx.type
-  if not t then
-    t = detecttype(output)
-    ctx.type = t
-  end
-  if t == "raw" then
-    bcsave_raw(output, s)
-  else
-    if not ctx.modname then ctx.modname = detectmodname(input) end
-    if t == "obj" then
-      bcsave_obj(ctx, output, s)
-    else
-      bcsave_c(ctx, output, s)
-    end
-  end
-end
-
-local function docmd(...)
-  local arg = {...}
-  local n = 1
-  local list = false
-  local ctx = {
-    strip = true, arch = jit.arch, os = string.lower(jit.os),
-    type = false, modname = false,
-  }
-  while n <= #arg do
-    local a = arg[n]
-    if type(a) == "string" and string.sub(a, 1, 1) == "-" and a ~= "-" then
-      table.remove(arg, n)
-      if a == "--" then break end
-      for m=2,#a do
-	local opt = string.sub(a, m, m)
-	if opt == "l" then
-	  list = true
-	elseif opt == "s" then
-	  ctx.strip = true
-	elseif opt == "g" then
-	  ctx.strip = false
-	else
-	  if arg[n] == nil or m ~= #a then usage() end
-	  if opt == "e" then
-	    if n ~= 1 then usage() end
-	    arg[1] = check(loadstring(arg[1]))
-	  elseif opt == "n" then
-	    ctx.modname = checkmodname(table.remove(arg, n))
-	  elseif opt == "t" then
-	    ctx.type = checkarg(table.remove(arg, n), map_type, "file type")
-	  elseif opt == "a" then
-	    ctx.arch = checkarg(table.remove(arg, n), map_arch, "architecture")
-	  elseif opt == "o" then
-	    ctx.os = checkarg(table.remove(arg, n), map_os, "OS name")
-	  else
-	    usage()
-	  end
-	end
-      end
-    else
-      n = n + 1
-    end
-  end
-  if list then
-    if #arg == 0 or #arg > 2 then usage() end
-    bclist(arg[1], arg[2] or "-")
-  else
-    if #arg ~= 2 then usage() end
-    bcsave(ctx, arg[1], arg[2])
-  end
-end
-
-------------------------------------------------------------------------------
-
--- Public module functions.
-module(...)
-
-start = docmd -- Process -b command line option.
-
diff --git a/luajit-2.0/src/jit/dis_arm.lua b/luajit-2.0/src/jit/dis_arm.lua
deleted file mode 100644
index b3d0ebc..0000000
--- a/luajit-2.0/src/jit/dis_arm.lua
+++ /dev/null
@@ -1,689 +0,0 @@
-----------------------------------------------------------------------------
--- LuaJIT ARM disassembler module.
---
--- Copyright (C) 2005-2014 Mike Pall. All rights reserved.
--- Released under the MIT license. See Copyright Notice in luajit.h
-----------------------------------------------------------------------------
--- This is a helper module used by the LuaJIT machine code dumper module.
---
--- It disassembles most user-mode ARMv7 instructions
--- NYI: Advanced SIMD and VFP instructions.
-------------------------------------------------------------------------------
-
-local type = type
-local sub, byte, format = string.sub, string.byte, string.format
-local match, gmatch, gsub = string.match, string.gmatch, string.gsub
-local concat = table.concat
-local bit = require("bit")
-local band, bor, ror, tohex = bit.band, bit.bor, bit.ror, bit.tohex
-local lshift, rshift, arshift = bit.lshift, bit.rshift, bit.arshift
-
-------------------------------------------------------------------------------
--- Opcode maps
-------------------------------------------------------------------------------
-
-local map_loadc = {
-  shift = 8, mask = 15,
-  [10] = {
-    shift = 20, mask = 1,
-    [0] = {
-      shift = 23, mask = 3,
-      [0] = "vmovFmDN", "vstmFNdr",
-      _ = {
-	shift = 21, mask = 1,
-	[0] = "vstrFdl",
-	{ shift = 16, mask = 15, [13] = "vpushFdr", _ = "vstmdbFNdr", }
-      },
-    },
-    {
-      shift = 23, mask = 3,
-      [0] = "vmovFDNm",
-      { shift = 16, mask = 15, [13] = "vpopFdr", _ = "vldmFNdr", },
-      _ = {
-	shift = 21, mask = 1,
-	[0] = "vldrFdl", "vldmdbFNdr",
-      },
-    },
-  },
-  [11] = {
-    shift = 20, mask = 1,
-    [0] = {
-      shift = 23, mask = 3,
-      [0] = "vmovGmDN", "vstmGNdr",
-      _ = {
-	shift = 21, mask = 1,
-	[0] = "vstrGdl",
-	{ shift = 16, mask = 15, [13] = "vpushGdr", _ = "vstmdbGNdr", }
-      },
-    },
-    {
-      shift = 23, mask = 3,
-      [0] = "vmovGDNm",
-      { shift = 16, mask = 15, [13] = "vpopGdr", _ = "vldmGNdr", },
-      _ = {
-	shift = 21, mask = 1,
-	[0] = "vldrGdl", "vldmdbGNdr",
-      },
-    },
-  },
-  _ = {
-    shift = 0, mask = 0 -- NYI ldc, mcrr, mrrc.
-  },
-}
-
-local map_vfps = {
-  shift = 6, mask = 0x2c001,
-  [0] = "vmlaF.dnm", "vmlsF.dnm",
-  [0x04000] = "vnmlsF.dnm", [0x04001] = "vnmlaF.dnm",
-  [0x08000] = "vmulF.dnm", [0x08001] = "vnmulF.dnm",
-  [0x0c000] = "vaddF.dnm", [0x0c001] = "vsubF.dnm",
-  [0x20000] = "vdivF.dnm",
-  [0x24000] = "vfnmsF.dnm", [0x24001] = "vfnmaF.dnm",
-  [0x28000] = "vfmaF.dnm", [0x28001] = "vfmsF.dnm",
-  [0x2c000] = "vmovF.dY",
-  [0x2c001] = {
-    shift = 7, mask = 0x1e01,
-    [0] = "vmovF.dm", "vabsF.dm",
-    [0x0200] = "vnegF.dm", [0x0201] = "vsqrtF.dm",
-    [0x0800] = "vcmpF.dm", [0x0801] = "vcmpeF.dm",
-    [0x0a00] = "vcmpzF.d", [0x0a01] = "vcmpzeF.d",
-    [0x0e01] = "vcvtG.dF.m",
-    [0x1000] = "vcvt.f32.u32Fdm", [0x1001] = "vcvt.f32.s32Fdm",
-    [0x1800] = "vcvtr.u32F.dm", [0x1801] = "vcvt.u32F.dm",
-    [0x1a00] = "vcvtr.s32F.dm", [0x1a01] = "vcvt.s32F.dm",
-  },
-}
-
-local map_vfpd = {
-  shift = 6, mask = 0x2c001,
-  [0] = "vmlaG.dnm", "vmlsG.dnm",
-  [0x04000] = "vnmlsG.dnm", [0x04001] = "vnmlaG.dnm",
-  [0x08000] = "vmulG.dnm", [0x08001] = "vnmulG.dnm",
-  [0x0c000] = "vaddG.dnm", [0x0c001] = "vsubG.dnm",
-  [0x20000] = "vdivG.dnm",
-  [0x24000] = "vfnmsG.dnm", [0x24001] = "vfnmaG.dnm",
-  [0x28000] = "vfmaG.dnm", [0x28001] = "vfmsG.dnm",
-  [0x2c000] = "vmovG.dY",
-  [0x2c001] = {
-    shift = 7, mask = 0x1e01,
-    [0] = "vmovG.dm", "vabsG.dm",
-    [0x0200] = "vnegG.dm", [0x0201] = "vsqrtG.dm",
-    [0x0800] = "vcmpG.dm", [0x0801] = "vcmpeG.dm",
-    [0x0a00] = "vcmpzG.d", [0x0a01] = "vcmpzeG.d",
-    [0x0e01] = "vcvtF.dG.m",
-    [0x1000] = "vcvt.f64.u32GdFm", [0x1001] = "vcvt.f64.s32GdFm",
-    [0x1800] = "vcvtr.u32FdG.m", [0x1801] = "vcvt.u32FdG.m",
-    [0x1a00] = "vcvtr.s32FdG.m", [0x1a01] = "vcvt.s32FdG.m",
-  },
-}
-
-local map_datac = {
-  shift = 24, mask = 1,
-  [0] = {
-    shift = 4, mask = 1,
-    [0] = {
-      shift = 8, mask = 15,
-      [10] = map_vfps,
-      [11] = map_vfpd,
-      -- NYI cdp, mcr, mrc.
-    },
-    {
-      shift = 8, mask = 15,
-      [10] = {
-	shift = 20, mask = 15,
-	[0] = "vmovFnD", "vmovFDn",
-	[14] = "vmsrD",
-	[15] = { shift = 12, mask = 15, [15] = "vmrs", _ = "vmrsD", },
-      },
-    },
-  },
-  "svcT",
-}
-
-local map_loadcu = {
-  shift = 0, mask = 0, -- NYI unconditional CP load/store.
-}
-
-local map_datacu = {
-  shift = 0, mask = 0, -- NYI unconditional CP data.
-}
-
-local map_simddata = {
-  shift = 0, mask = 0, -- NYI SIMD data.
-}
-
-local map_simdload = {
-  shift = 0, mask = 0, -- NYI SIMD load/store, preload.
-}
-
-local map_preload = {
-  shift = 0, mask = 0, -- NYI preload.
-}
-
-local map_media = {
-  shift = 20, mask = 31,
-  [0] = false,
-  { --01
-    shift = 5, mask = 7,
-    [0] = "sadd16DNM", "sasxDNM", "ssaxDNM", "ssub16DNM",
-    "sadd8DNM", false, false, "ssub8DNM",
-  },
-  { --02
-    shift = 5, mask = 7,
-    [0] = "qadd16DNM", "qasxDNM", "qsaxDNM", "qsub16DNM",
-    "qadd8DNM", false, false, "qsub8DNM",
-  },
-  { --03
-    shift = 5, mask = 7,
-    [0] = "shadd16DNM", "shasxDNM", "shsaxDNM", "shsub16DNM",
-    "shadd8DNM", false, false, "shsub8DNM",
-  },
-  false,
-  { --05
-    shift = 5, mask = 7,
-    [0] = "uadd16DNM", "uasxDNM", "usaxDNM", "usub16DNM",
-    "uadd8DNM", false, false, "usub8DNM",
-  },
-  { --06
-    shift = 5, mask = 7,
-    [0] = "uqadd16DNM", "uqasxDNM", "uqsaxDNM", "uqsub16DNM",
-    "uqadd8DNM", false, false, "uqsub8DNM",
-  },
-  { --07
-    shift = 5, mask = 7,
-    [0] = "uhadd16DNM", "uhasxDNM", "uhsaxDNM", "uhsub16DNM",
-    "uhadd8DNM", false, false, "uhsub8DNM",
-  },
-  { --08
-    shift = 5, mask = 7,
-    [0] = "pkhbtDNMU", false, "pkhtbDNMU",
-    { shift = 16, mask = 15, [15] = "sxtb16DMU", _ = "sxtab16DNMU", },
-    "pkhbtDNMU", "selDNM", "pkhtbDNMU",
-  },
-  false,
-  { --0a
-    shift = 5, mask = 7,
-    [0] = "ssatDxMu", "ssat16DxM", "ssatDxMu",
-    { shift = 16, mask = 15, [15] = "sxtbDMU", _ = "sxtabDNMU", },
-    "ssatDxMu", false, "ssatDxMu",
-  },
-  { --0b
-    shift = 5, mask = 7,
-    [0] = "ssatDxMu", "revDM", "ssatDxMu",
-    { shift = 16, mask = 15, [15] = "sxthDMU", _ = "sxtahDNMU", },
-    "ssatDxMu", "rev16DM", "ssatDxMu",
-  },
-  { --0c
-    shift = 5, mask = 7,
-    [3] = { shift = 16, mask = 15, [15] = "uxtb16DMU", _ = "uxtab16DNMU", },
-  },
-  false,
-  { --0e
-    shift = 5, mask = 7,
-    [0] = "usatDwMu", "usat16DwM", "usatDwMu",
-    { shift = 16, mask = 15, [15] = "uxtbDMU", _ = "uxtabDNMU", },
-    "usatDwMu", false, "usatDwMu",
-  },
-  { --0f
-    shift = 5, mask = 7,
-    [0] = "usatDwMu", "rbitDM", "usatDwMu",
-    { shift = 16, mask = 15, [15] = "uxthDMU", _ = "uxtahDNMU", },
-    "usatDwMu", "revshDM", "usatDwMu",
-  },
-  { --10
-    shift = 12, mask = 15,
-    [15] = {
-      shift = 5, mask = 7,
-      "smuadNMS", "smuadxNMS", "smusdNMS", "smusdxNMS",
-    },
-    _ = {
-      shift = 5, mask = 7,
-      [0] = "smladNMSD", "smladxNMSD", "smlsdNMSD", "smlsdxNMSD",
-    },
-  },
-  false, false, false,
-  { --14
-    shift = 5, mask = 7,
-    [0] = "smlaldDNMS", "smlaldxDNMS", "smlsldDNMS", "smlsldxDNMS",
-  },
-  { --15
-    shift = 5, mask = 7,
-    [0] = { shift = 12, mask = 15, [15] = "smmulNMS", _ = "smmlaNMSD", },
-    { shift = 12, mask = 15, [15] = "smmulrNMS", _ = "smmlarNMSD", },
-    false, false, false, false,
-    "smmlsNMSD", "smmlsrNMSD",
-  },
-  false, false,
-  { --18
-    shift = 5, mask = 7,
-    [0] = { shift = 12, mask = 15, [15] = "usad8NMS", _ = "usada8NMSD", },
-  },
-  false,
-  { --1a
-    shift = 5, mask = 3, [2] = "sbfxDMvw",
-  },
-  { --1b
-    shift = 5, mask = 3, [2] = "sbfxDMvw",
-  },
-  { --1c
-    shift = 5, mask = 3,
-    [0] = { shift = 0, mask = 15, [15] = "bfcDvX", _ = "bfiDMvX", },
-  },
-  { --1d
-    shift = 5, mask = 3,
-    [0] = { shift = 0, mask = 15, [15] = "bfcDvX", _ = "bfiDMvX", },
-  },
-  { --1e
-    shift = 5, mask = 3, [2] = "ubfxDMvw",
-  },
-  { --1f
-    shift = 5, mask = 3, [2] = "ubfxDMvw",
-  },
-}
-
-local map_load = {
-  shift = 21, mask = 9,
-  {
-    shift = 20, mask = 5,
-    [0] = "strtDL", "ldrtDL", [4] = "strbtDL", [5] = "ldrbtDL",
-  },
-  _ = {
-    shift = 20, mask = 5,
-    [0] = "strDL", "ldrDL", [4] = "strbDL", [5] = "ldrbDL",
-  }
-}
-
-local map_load1 = {
-  shift = 4, mask = 1,
-  [0] = map_load, map_media,
-}
-
-local map_loadm = {
-  shift = 20, mask = 1,
-  [0] = {
-    shift = 23, mask = 3,
-    [0] = "stmdaNR", "stmNR",
-    { shift = 16, mask = 63, [45] = "pushR", _ = "stmdbNR", }, "stmibNR",
-  },
-  {
-    shift = 23, mask = 3,
-    [0] = "ldmdaNR", { shift = 16, mask = 63, [61] = "popR", _ = "ldmNR", },
-    "ldmdbNR", "ldmibNR",
-  },
-}
-
-local map_data = {
-  shift = 21, mask = 15,
-  [0] = "andDNPs", "eorDNPs", "subDNPs", "rsbDNPs",
-  "addDNPs", "adcDNPs", "sbcDNPs", "rscDNPs",
-  "tstNP", "teqNP", "cmpNP", "cmnNP",
-  "orrDNPs", "movDPs", "bicDNPs", "mvnDPs",
-}
-
-local map_mul = {
-  shift = 21, mask = 7,
-  [0] = "mulNMSs", "mlaNMSDs", "umaalDNMS", "mlsDNMS",
-  "umullDNMSs", "umlalDNMSs", "smullDNMSs", "smlalDNMSs",
-}
-
-local map_sync = {
-  shift = 20, mask = 15, -- NYI: brackets around N. R(D+1) for ldrexd/strexd.
-  [0] = "swpDMN", false, false, false,
-  "swpbDMN", false, false, false,
-  "strexDMN", "ldrexDN", "strexdDN", "ldrexdDN",
-  "strexbDMN", "ldrexbDN", "strexhDN", "ldrexhDN",
-}
-
-local map_mulh = {
-  shift = 21, mask = 3,
-  [0] = { shift = 5, mask = 3,
-    [0] = "smlabbNMSD", "smlatbNMSD", "smlabtNMSD", "smlattNMSD", },
-  { shift = 5, mask = 3,
-    [0] = "smlawbNMSD", "smulwbNMS", "smlawtNMSD", "smulwtNMS", },
-  { shift = 5, mask = 3,
-    [0] = "smlalbbDNMS", "smlaltbDNMS", "smlalbtDNMS", "smlalttDNMS", },
-  { shift = 5, mask = 3,
-    [0] = "smulbbNMS", "smultbNMS", "smulbtNMS", "smulttNMS", },
-}
-
-local map_misc = {
-  shift = 4, mask = 7,
-  -- NYI: decode PSR bits of msr.
-  [0] = { shift = 21, mask = 1, [0] = "mrsD", "msrM", },
-  { shift = 21, mask = 3, "bxM", false, "clzDM", },
-  { shift = 21, mask = 3, "bxjM", },
-  { shift = 21, mask = 3, "blxM", },
-  false,
-  { shift = 21, mask = 3, [0] = "qaddDMN", "qsubDMN", "qdaddDMN", "qdsubDMN", },
-  false,
-  { shift = 21, mask = 3, "bkptK", },
-}
-
-local map_datar = {
-  shift = 4, mask = 9,
-  [9] = {
-    shift = 5, mask = 3,
-    [0] = { shift = 24, mask = 1, [0] = map_mul, map_sync, },
-    { shift = 20, mask = 1, [0] = "strhDL", "ldrhDL", },
-    { shift = 20, mask = 1, [0] = "ldrdDL", "ldrsbDL", },
-    { shift = 20, mask = 1, [0] = "strdDL", "ldrshDL", },
-  },
-  _ = {
-    shift = 20, mask = 25,
-    [16] = { shift = 7, mask = 1, [0] = map_misc, map_mulh, },
-    _ = {
-      shift = 0, mask = 0xffffffff,
-      [bor(0xe1a00000)] = "nop",
-      _ = map_data,
-    }
-  },
-}
-
-local map_datai = {
-  shift = 20, mask = 31, -- NYI: decode PSR bits of msr. Decode imm12.
-  [16] = "movwDW", [20] = "movtDW",
-  [18] = { shift = 0, mask = 0xf00ff, [0] = "nopv6", _ = "msrNW", },
-  [22] = "msrNW",
-  _ = map_data,
-}
-
-local map_branch = {
-  shift = 24, mask = 1,
-  [0] = "bB", "blB"
-}
-
-local map_condins = {
-  [0] = map_datar, map_datai, map_load, map_load1,
-  map_loadm, map_branch, map_loadc, map_datac
-}
-
--- NYI: setend.
-local map_uncondins = {
-  [0] = false, map_simddata, map_simdload, map_preload,
-  false, "blxB", map_loadcu, map_datacu,
-}
-
-------------------------------------------------------------------------------
-
-local map_gpr = {
-  [0] = "r0", "r1", "r2", "r3", "r4", "r5", "r6", "r7",
-  "r8", "r9", "r10", "r11", "r12", "sp", "lr", "pc",
-}
-
-local map_cond = {
-  [0] = "eq", "ne", "hs", "lo", "mi", "pl", "vs", "vc",
-  "hi", "ls", "ge", "lt", "gt", "le", "al",
-}
-
-local map_shift = { [0] = "lsl", "lsr", "asr", "ror", }
-
-------------------------------------------------------------------------------
-
--- Output a nicely formatted line with an opcode and operands.
-local function putop(ctx, text, operands)
-  local pos = ctx.pos
-  local extra = ""
-  if ctx.rel then
-    local sym = ctx.symtab[ctx.rel]
-    if sym then
-      extra = "\t->"..sym
-    elseif band(ctx.op, 0x0e000000) ~= 0x0a000000 then
-      extra = "\t; 0x"..tohex(ctx.rel)
-    end
-  end
-  if ctx.hexdump > 0 then
-    ctx.out(format("%08x  %s  %-5s %s%s\n",
-	    ctx.addr+pos, tohex(ctx.op), text, concat(operands, ", "), extra))
-  else
-    ctx.out(format("%08x  %-5s %s%s\n",
-	    ctx.addr+pos, text, concat(operands, ", "), extra))
-  end
-  ctx.pos = pos + 4
-end
-
--- Fallback for unknown opcodes.
-local function unknown(ctx)
-  return putop(ctx, ".long", { "0x"..tohex(ctx.op) })
-end
-
--- Format operand 2 of load/store opcodes.
-local function fmtload(ctx, op, pos)
-  local base = map_gpr[band(rshift(op, 16), 15)]
-  local x, ofs
-  local ext = (band(op, 0x04000000) == 0)
-  if not ext and band(op, 0x02000000) == 0 then
-    ofs = band(op, 4095)
-    if band(op, 0x00800000) == 0 then ofs = -ofs end
-    if base == "pc" then ctx.rel = ctx.addr + pos + 8 + ofs end
-    ofs = "#"..ofs
-  elseif ext and band(op, 0x00400000) ~= 0 then
-    ofs = band(op, 15) + band(rshift(op, 4), 0xf0)
-    if band(op, 0x00800000) == 0 then ofs = -ofs end
-    if base == "pc" then ctx.rel = ctx.addr + pos + 8 + ofs end
-    ofs = "#"..ofs
-  else
-    ofs = map_gpr[band(op, 15)]
-    if ext or band(op, 0xfe0) == 0 then
-    elseif band(op, 0xfe0) == 0x60 then
-      ofs = format("%s, rrx", ofs)
-    else
-      local sh = band(rshift(op, 7), 31)
-      if sh == 0 then sh = 32 end
-      ofs = format("%s, %s #%d", ofs, map_shift[band(rshift(op, 5), 3)], sh)
-    end
-    if band(op, 0x00800000) == 0 then ofs = "-"..ofs end
-  end
-  if ofs == "#0" then
-    x = format("[%s]", base)
-  elseif band(op, 0x01000000) == 0 then
-    x = format("[%s], %s", base, ofs)
-  else
-    x = format("[%s, %s]", base, ofs)
-  end
-  if band(op, 0x01200000) == 0x01200000 then x = x.."!" end
-  return x
-end
-
--- Format operand 2 of vector load/store opcodes.
-local function fmtvload(ctx, op, pos)
-  local base = map_gpr[band(rshift(op, 16), 15)]
-  local ofs = band(op, 255)*4
-  if band(op, 0x00800000) == 0 then ofs = -ofs end
-  if base == "pc" then ctx.rel = ctx.addr + pos + 8 + ofs end
-  if ofs == 0 then
-    return format("[%s]", base)
-  else
-    return format("[%s, #%d]", base, ofs)
-  end
-end
-
-local function fmtvr(op, vr, sh0, sh1)
-  if vr == "s" then
-    return format("s%d", 2*band(rshift(op, sh0), 15)+band(rshift(op, sh1), 1))
-  else
-    return format("d%d", band(rshift(op, sh0), 15)+band(rshift(op, sh1-4), 16))
-  end
-end
-
--- Disassemble a single instruction.
-local function disass_ins(ctx)
-  local pos = ctx.pos
-  local b0, b1, b2, b3 = byte(ctx.code, pos+1, pos+4)
-  local op = bor(lshift(b3, 24), lshift(b2, 16), lshift(b1, 8), b0)
-  local operands = {}
-  local suffix = ""
-  local last, name, pat
-  local vr
-  ctx.op = op
-  ctx.rel = nil
-
-  local cond = rshift(op, 28)
-  local opat
-  if cond == 15 then
-    opat = map_uncondins[band(rshift(op, 25), 7)]
-  else
-    if cond ~= 14 then suffix = map_cond[cond] end
-    opat = map_condins[band(rshift(op, 25), 7)]
-  end
-  while type(opat) ~= "string" do
-    if not opat then return unknown(ctx) end
-    opat = opat[band(rshift(op, opat.shift), opat.mask)] or opat._
-  end
-  name, pat = match(opat, "^([a-z0-9]*)(.*)")
-  if sub(pat, 1, 1) == "." then
-    local s2, p2 = match(pat, "^([a-z0-9.]*)(.*)")
-    suffix = suffix..s2
-    pat = p2
-  end
-
-  for p in gmatch(pat, ".") do
-    local x = nil
-    if p == "D" then
-      x = map_gpr[band(rshift(op, 12), 15)]
-    elseif p == "N" then
-      x = map_gpr[band(rshift(op, 16), 15)]
-    elseif p == "S" then
-      x = map_gpr[band(rshift(op, 8), 15)]
-    elseif p == "M" then
-      x = map_gpr[band(op, 15)]
-    elseif p == "d" then
-      x = fmtvr(op, vr, 12, 22)
-    elseif p == "n" then
-      x = fmtvr(op, vr, 16, 7)
-    elseif p == "m" then
-      x = fmtvr(op, vr, 0, 5)
-    elseif p == "P" then
-      if band(op, 0x02000000) ~= 0 then
-	x = ror(band(op, 255), 2*band(rshift(op, 8), 15))
-      else
-	x = map_gpr[band(op, 15)]
-	if band(op, 0xff0) ~= 0 then
-	  operands[#operands+1] = x
-	  local s = map_shift[band(rshift(op, 5), 3)]
-	  local r = nil
-	  if band(op, 0xf90) == 0 then
-	    if s == "ror" then s = "rrx" else r = "#32" end
-	  elseif band(op, 0x10) == 0 then
-	    r = "#"..band(rshift(op, 7), 31)
-	  else
-	    r = map_gpr[band(rshift(op, 8), 15)]
-	  end
-	  if name == "mov" then name = s; x = r
-	  elseif r then x = format("%s %s", s, r)
-	  else x = s end
-	end
-      end
-    elseif p == "L" then
-      x = fmtload(ctx, op, pos)
-    elseif p == "l" then
-      x = fmtvload(ctx, op, pos)
-    elseif p == "B" then
-      local addr = ctx.addr + pos + 8 + arshift(lshift(op, 8), 6)
-      if cond == 15 then addr = addr + band(rshift(op, 23), 2) end
-      ctx.rel = addr
-      x = "0x"..tohex(addr)
-    elseif p == "F" then
-      vr = "s"
-    elseif p == "G" then
-      vr = "d"
-    elseif p == "." then
-      suffix = suffix..(vr == "s" and ".f32" or ".f64")
-    elseif p == "R" then
-      if band(op, 0x00200000) ~= 0 and #operands == 1 then
-	operands[1] = operands[1].."!"
-      end
-      local t = {}
-      for i=0,15 do
-	if band(rshift(op, i), 1) == 1 then t[#t+1] = map_gpr[i] end
-      end
-      x = "{"..concat(t, ", ").."}"
-    elseif p == "r" then
-      if band(op, 0x00200000) ~= 0 and #operands == 2 then
-	operands[1] = operands[1].."!"
-      end
-      local s = tonumber(sub(last, 2))
-      local n = band(op, 255)
-      if vr == "d" then n = rshift(n, 1) end
-      operands[#operands] = format("{%s-%s%d}", last, vr, s+n-1)
-    elseif p == "W" then
-      x = band(op, 0x0fff) + band(rshift(op, 4), 0xf000)
-    elseif p == "T" then
-      x = "#0x"..tohex(band(op, 0x00ffffff), 6)
-    elseif p == "U" then
-      x = band(rshift(op, 7), 31)
-      if x == 0 then x = nil end
-    elseif p == "u" then
-      x = band(rshift(op, 7), 31)
-      if band(op, 0x40) == 0 then
-	if x == 0 then x = nil else x = "lsl #"..x end
-      else
-	if x == 0 then x = "asr #32" else x = "asr #"..x end
-      end
-    elseif p == "v" then
-      x = band(rshift(op, 7), 31)
-    elseif p == "w" then
-      x = band(rshift(op, 16), 31)
-    elseif p == "x" then
-      x = band(rshift(op, 16), 31) + 1
-    elseif p == "X" then
-      x = band(rshift(op, 16), 31) - last + 1
-    elseif p == "Y" then
-      x = band(rshift(op, 12), 0xf0) + band(op, 0x0f)
-    elseif p == "K" then
-      x = "#0x"..tohex(band(rshift(op, 4), 0x0000fff0) + band(op, 15), 4)
-    elseif p == "s" then
-      if band(op, 0x00100000) ~= 0 then suffix = "s"..suffix end
-    else
-      assert(false)
-    end
-    if x then
-      last = x
-      if type(x) == "number" then x = "#"..x end
-      operands[#operands+1] = x
-    end
-  end
-
-  return putop(ctx, name..suffix, operands)
-end
-
-------------------------------------------------------------------------------
-
--- Disassemble a block of code.
-local function disass_block(ctx, ofs, len)
-  if not ofs then ofs = 0 end
-  local stop = len and ofs+len or #ctx.code
-  ctx.pos = ofs
-  ctx.rel = nil
-  while ctx.pos < stop do disass_ins(ctx) end
-end
-
--- Extended API: create a disassembler context. Then call ctx:disass(ofs, len).
-local function create_(code, addr, out)
-  local ctx = {}
-  ctx.code = code
-  ctx.addr = addr or 0
-  ctx.out = out or io.write
-  ctx.symtab = {}
-  ctx.disass = disass_block
-  ctx.hexdump = 8
-  return ctx
-end
-
--- Simple API: disassemble code (a string) at address and output via out.
-local function disass_(code, addr, out)
-  create_(code, addr, out):disass()
-end
-
--- Return register name for RID.
-local function regname_(r)
-  if r < 16 then return map_gpr[r] end
-  return "d"..(r-16)
-end
-
--- Public module functions.
-module(...)
-
-create = create_
-disass = disass_
-regname = regname_
-
diff --git a/luajit-2.0/src/jit/dis_mips.lua b/luajit-2.0/src/jit/dis_mips.lua
deleted file mode 100644
index 47a7a83..0000000
--- a/luajit-2.0/src/jit/dis_mips.lua
+++ /dev/null
@@ -1,428 +0,0 @@
-----------------------------------------------------------------------------
--- LuaJIT MIPS disassembler module.
---
--- Copyright (C) 2005-2014 Mike Pall. All rights reserved.
--- Released under the MIT/X license. See Copyright Notice in luajit.h
-----------------------------------------------------------------------------
--- This is a helper module used by the LuaJIT machine code dumper module.
---
--- It disassembles all standard MIPS32R1/R2 instructions.
--- Default mode is big-endian, but see: dis_mipsel.lua
-------------------------------------------------------------------------------
-
-local type = type
-local sub, byte, format = string.sub, string.byte, string.format
-local match, gmatch, gsub = string.match, string.gmatch, string.gsub
-local concat = table.concat
-local bit = require("bit")
-local band, bor, tohex = bit.band, bit.bor, bit.tohex
-local lshift, rshift, arshift = bit.lshift, bit.rshift, bit.arshift
-
-------------------------------------------------------------------------------
--- Primary and extended opcode maps
-------------------------------------------------------------------------------
-
-local map_movci = { shift = 16, mask = 1, [0] = "movfDSC", "movtDSC", }
-local map_srl = { shift = 21, mask = 1, [0] = "srlDTA", "rotrDTA", }
-local map_srlv = { shift = 6, mask = 1, [0] = "srlvDTS", "rotrvDTS", }
-
-local map_special = {
-  shift = 0, mask = 63,
-  [0] = { shift = 0, mask = -1, [0] = "nop", _ = "sllDTA" },
-  map_movci,	map_srl,	"sraDTA",
-  "sllvDTS",	false,		map_srlv,	"sravDTS",
-  "jrS",	"jalrD1S",	"movzDST",	"movnDST",
-  "syscallY",	"breakY",	false,		"sync",
-  "mfhiD",	"mthiS",	"mfloD",	"mtloS",
-  false,	false,		false,		false,
-  "multST",	"multuST",	"divST",	"divuST",
-  false,	false,		false,		false,
-  "addDST",	"addu|moveDST0", "subDST",	"subu|neguDS0T",
-  "andDST",	"orDST",	"xorDST",	"nor|notDST0",
-  false,	false,		"sltDST",	"sltuDST",
-  false,	false,		false,		false,
-  "tgeSTZ",	"tgeuSTZ",	"tltSTZ",	"tltuSTZ",
-  "teqSTZ",	false,		"tneSTZ",
-}
-
-local map_special2 = {
-  shift = 0, mask = 63,
-  [0] = "maddST", "madduST",	"mulDST",	false,
-  "msubST",	"msubuST",
-  [32] = "clzDS", [33] = "cloDS",
-  [63] = "sdbbpY",
-}
-
-local map_bshfl = {
-  shift = 6, mask = 31,
-  [2] = "wsbhDT",
-  [16] = "sebDT",
-  [24] = "sehDT",
-}
-
-local map_special3 = {
-  shift = 0, mask = 63,
-  [0] = "extTSAK", [4] = "insTSAL",
-  [32] = map_bshfl,
-  [59] = "rdhwrTD",
-}
-
-local map_regimm = {
-  shift = 16, mask = 31,
-  [0] = "bltzSB",	"bgezSB",	"bltzlSB",	"bgezlSB",
-  false,	false,		false,		false,
-  "tgeiSI",	"tgeiuSI",	"tltiSI",	"tltiuSI",
-  "teqiSI",	false,		"tneiSI",	false,
-  "bltzalSB",	"bgezalSB",	"bltzallSB",	"bgezallSB",
-  false,	false,		false,		false,
-  false,	false,		false,		false,
-  false,	false,		false,		"synciSO",
-}
-
-local map_cop0 = {
-  shift = 25, mask = 1,
-  [0] = {
-    shift = 21, mask = 15,
-    [0] = "mfc0TDW", [4] = "mtc0TDW",
-    [10] = "rdpgprDT",
-    [11] = { shift = 5, mask = 1, [0] = "diT0", "eiT0", },
-    [14] = "wrpgprDT",
-  }, {
-    shift = 0, mask = 63,
-    [1] = "tlbr", [2] = "tlbwi", [6] = "tlbwr", [8] = "tlbp",
-    [24] = "eret", [31] = "deret",
-    [32] = "wait",
-  },
-}
-
-local map_cop1s = {
-  shift = 0, mask = 63,
-  [0] = "add.sFGH",	"sub.sFGH",	"mul.sFGH",	"div.sFGH",
-  "sqrt.sFG",		"abs.sFG",	"mov.sFG",	"neg.sFG",
-  "round.l.sFG",	"trunc.l.sFG",	"ceil.l.sFG",	"floor.l.sFG",
-  "round.w.sFG",	"trunc.w.sFG",	"ceil.w.sFG",	"floor.w.sFG",
-  false,
-  { shift = 16, mask = 1, [0] = "movf.sFGC", "movt.sFGC" },
-  "movz.sFGT",	"movn.sFGT",
-  false,	"recip.sFG",	"rsqrt.sFG",	false,
-  false,	false,		false,		false,
-  false,	false,		false,		false,
-  false,	"cvt.d.sFG",	false,		false,
-  "cvt.w.sFG",	"cvt.l.sFG",	"cvt.ps.sFGH",	false,
-  false,	false,		false,		false,
-  false,	false,		false,		false,
-  "c.f.sVGH",	"c.un.sVGH",	"c.eq.sVGH",	"c.ueq.sVGH",
-  "c.olt.sVGH",	"c.ult.sVGH",	"c.ole.sVGH",	"c.ule.sVGH",
-  "c.sf.sVGH",	"c.ngle.sVGH",	"c.seq.sVGH",	"c.ngl.sVGH",
-  "c.lt.sVGH",	"c.nge.sVGH",	"c.le.sVGH",	"c.ngt.sVGH",
-}
-
-local map_cop1d = {
-  shift = 0, mask = 63,
-  [0] = "add.dFGH",	"sub.dFGH",	"mul.dFGH",	"div.dFGH",
-  "sqrt.dFG",		"abs.dFG",	"mov.dFG",	"neg.dFG",
-  "round.l.dFG",	"trunc.l.dFG",	"ceil.l.dFG",	"floor.l.dFG",
-  "round.w.dFG",	"trunc.w.dFG",	"ceil.w.dFG",	"floor.w.dFG",
-  false,
-  { shift = 16, mask = 1, [0] = "movf.dFGC", "movt.dFGC" },
-  "movz.dFGT",	"movn.dFGT",
-  false,	"recip.dFG",	"rsqrt.dFG",	false,
-  false,	false,		false,		false,
-  false,	false,		false,		false,
-  "cvt.s.dFG",	false,		false,		false,
-  "cvt.w.dFG",	"cvt.l.dFG",	false,		false,
-  false,	false,		false,		false,
-  false,	false,		false,		false,
-  "c.f.dVGH",	"c.un.dVGH",	"c.eq.dVGH",	"c.ueq.dVGH",
-  "c.olt.dVGH",	"c.ult.dVGH",	"c.ole.dVGH",	"c.ule.dVGH",
-  "c.df.dVGH",	"c.ngle.dVGH",	"c.deq.dVGH",	"c.ngl.dVGH",
-  "c.lt.dVGH",	"c.nge.dVGH",	"c.le.dVGH",	"c.ngt.dVGH",
-}
-
-local map_cop1ps = {
-  shift = 0, mask = 63,
-  [0] = "add.psFGH",	"sub.psFGH",	"mul.psFGH",	false,
-  false,		"abs.psFG",	"mov.psFG",	"neg.psFG",
-  false,		false,		false,		false,
-  false,		false,		false,		false,
-  false,
-  { shift = 16, mask = 1, [0] = "movf.psFGC", "movt.psFGC" },
-  "movz.psFGT",	"movn.psFGT",
-  false,	false,		false,		false,
-  false,	false,		false,		false,
-  false,	false,		false,		false,
-  "cvt.s.puFG",	false,		false,		false,
-  false,	false,		false,		false,
-  "cvt.s.plFG",	false,		false,		false,
-  "pll.psFGH",	"plu.psFGH",	"pul.psFGH",	"puu.psFGH",
-  "c.f.psVGH",	"c.un.psVGH",	"c.eq.psVGH",	"c.ueq.psVGH",
-  "c.olt.psVGH", "c.ult.psVGH",	"c.ole.psVGH",	"c.ule.psVGH",
-  "c.psf.psVGH", "c.ngle.psVGH", "c.pseq.psVGH", "c.ngl.psVGH",
-  "c.lt.psVGH",	"c.nge.psVGH",	"c.le.psVGH",	"c.ngt.psVGH",
-}
-
-local map_cop1w = {
-  shift = 0, mask = 63,
-  [32] = "cvt.s.wFG", [33] = "cvt.d.wFG",
-}
-
-local map_cop1l = {
-  shift = 0, mask = 63,
-  [32] = "cvt.s.lFG", [33] = "cvt.d.lFG",
-}
-
-local map_cop1bc = {
-  shift = 16, mask = 3,
-  [0] = "bc1fCB", "bc1tCB",	"bc1flCB",	"bc1tlCB",
-}
-
-local map_cop1 = {
-  shift = 21, mask = 31,
-  [0] = "mfc1TG", false,	"cfc1TG",	"mfhc1TG",
-  "mtc1TG",	false,		"ctc1TG",	"mthc1TG",
-  map_cop1bc,	false,		false,		false,
-  false,	false,		false,		false,
-  map_cop1s,	map_cop1d,	false,		false,
-  map_cop1w,	map_cop1l,	map_cop1ps,
-}
-
-local map_cop1x = {
-  shift = 0, mask = 63,
-  [0] = "lwxc1FSX",	"ldxc1FSX",	false,		false,
-  false,	"luxc1FSX",	false,		false,
-  "swxc1FSX",	"sdxc1FSX",	false,		false,
-  false,	"suxc1FSX",	false,		"prefxMSX",
-  false,	false,		false,		false,
-  false,	false,		false,		false,
-  false,	false,		false,		false,
-  false,	false,		"alnv.psFGHS",	false,
-  "madd.sFRGH",	"madd.dFRGH",	false,		false,
-  false,	false,		"madd.psFRGH",	false,
-  "msub.sFRGH",	"msub.dFRGH",	false,		false,
-  false,	false,		"msub.psFRGH",	false,
-  "nmadd.sFRGH", "nmadd.dFRGH",	false,		false,
-  false,	false,		"nmadd.psFRGH",	false,
-  "nmsub.sFRGH", "nmsub.dFRGH",	false,		false,
-  false,	false,		"nmsub.psFRGH",	false,
-}
-
-local map_pri = {
-  [0] = map_special,	map_regimm,	"jJ",	"jalJ",
-  "beq|beqz|bST00B",	"bne|bnezST0B",		"blezSB",	"bgtzSB",
-  "addiTSI",	"addiu|liTS0I",	"sltiTSI",	"sltiuTSI",
-  "andiTSU",	"ori|liTS0U",	"xoriTSU",	"luiTU",
-  map_cop0,	map_cop1,	false,		map_cop1x,
-  "beql|beqzlST0B",	"bnel|bnezlST0B",	"blezlSB",	"bgtzlSB",
-  false,	false,		false,		false,
-  map_special2,	false,		false,		map_special3,
-  "lbTSO",	"lhTSO",	"lwlTSO",	"lwTSO",
-  "lbuTSO",	"lhuTSO",	"lwrTSO",	false,
-  "sbTSO",	"shTSO",	"swlTSO",	"swTSO",
-  false,	false,		"swrTSO",	"cacheNSO",
-  "llTSO",	"lwc1HSO",	"lwc2TSO",	"prefNSO",
-  false,	"ldc1HSO",	"ldc2TSO",	false,
-  "scTSO",	"swc1HSO",	"swc2TSO",	false,
-  false,	"sdc1HSO",	"sdc2TSO",	false,
-}
-
-------------------------------------------------------------------------------
-
-local map_gpr = {
-  [0] = "r0", "r1", "r2", "r3", "r4", "r5", "r6", "r7",
-  "r8", "r9", "r10", "r11", "r12", "r13", "r14", "r15",
-  "r16", "r17", "r18", "r19", "r20", "r21", "r22", "r23",
-  "r24", "r25", "r26", "r27", "r28", "sp", "r30", "ra",
-}
-
-------------------------------------------------------------------------------
-
--- Output a nicely formatted line with an opcode and operands.
-local function putop(ctx, text, operands)
-  local pos = ctx.pos
-  local extra = ""
-  if ctx.rel then
-    local sym = ctx.symtab[ctx.rel]
-    if sym then extra = "\t->"..sym end
-  end
-  if ctx.hexdump > 0 then
-    ctx.out(format("%08x  %s  %-7s %s%s\n",
-	    ctx.addr+pos, tohex(ctx.op), text, concat(operands, ", "), extra))
-  else
-    ctx.out(format("%08x  %-7s %s%s\n",
-	    ctx.addr+pos, text, concat(operands, ", "), extra))
-  end
-  ctx.pos = pos + 4
-end
-
--- Fallback for unknown opcodes.
-local function unknown(ctx)
-  return putop(ctx, ".long", { "0x"..tohex(ctx.op) })
-end
-
-local function get_be(ctx)
-  local pos = ctx.pos
-  local b0, b1, b2, b3 = byte(ctx.code, pos+1, pos+4)
-  return bor(lshift(b0, 24), lshift(b1, 16), lshift(b2, 8), b3)
-end
-
-local function get_le(ctx)
-  local pos = ctx.pos
-  local b0, b1, b2, b3 = byte(ctx.code, pos+1, pos+4)
-  return bor(lshift(b3, 24), lshift(b2, 16), lshift(b1, 8), b0)
-end
-
--- Disassemble a single instruction.
-local function disass_ins(ctx)
-  local op = ctx:get()
-  local operands = {}
-  local last = nil
-  ctx.op = op
-  ctx.rel = nil
-
-  local opat = map_pri[rshift(op, 26)]
-  while type(opat) ~= "string" do
-    if not opat then return unknown(ctx) end
-    opat = opat[band(rshift(op, opat.shift), opat.mask)] or opat._
-  end
-  local name, pat = match(opat, "^([a-z0-9_.]*)(.*)")
-  local altname, pat2 = match(pat, "|([a-z0-9_.|]*)(.*)")
-  if altname then pat = pat2 end
-
-  for p in gmatch(pat, ".") do
-    local x = nil
-    if p == "S" then
-      x = map_gpr[band(rshift(op, 21), 31)]
-    elseif p == "T" then
-      x = map_gpr[band(rshift(op, 16), 31)]
-    elseif p == "D" then
-      x = map_gpr[band(rshift(op, 11), 31)]
-    elseif p == "F" then
-      x = "f"..band(rshift(op, 6), 31)
-    elseif p == "G" then
-      x = "f"..band(rshift(op, 11), 31)
-    elseif p == "H" then
-      x = "f"..band(rshift(op, 16), 31)
-    elseif p == "R" then
-      x = "f"..band(rshift(op, 21), 31)
-    elseif p == "A" then
-      x = band(rshift(op, 6), 31)
-    elseif p == "M" then
-      x = band(rshift(op, 11), 31)
-    elseif p == "N" then
-      x = band(rshift(op, 16), 31)
-    elseif p == "C" then
-      x = band(rshift(op, 18), 7)
-      if x == 0 then x = nil end
-    elseif p == "K" then
-      x = band(rshift(op, 11), 31) + 1
-    elseif p == "L" then
-      x = band(rshift(op, 11), 31) - last + 1
-    elseif p == "I" then
-      x = arshift(lshift(op, 16), 16)
-    elseif p == "U" then
-      x = band(op, 0xffff)
-    elseif p == "O" then
-      local disp = arshift(lshift(op, 16), 16)
-      operands[#operands] = format("%d(%s)", disp, last)
-    elseif p == "X" then
-      local index = map_gpr[band(rshift(op, 16), 31)]
-      operands[#operands] = format("%s(%s)", index, last)
-    elseif p == "B" then
-      x = ctx.addr + ctx.pos + arshift(lshift(op, 16), 16)*4 + 4
-      ctx.rel = x
-      x = "0x"..tohex(x)
-    elseif p == "J" then
-      x = band(ctx.addr + ctx.pos, 0xf0000000) + band(op, 0x03ffffff)*4
-      ctx.rel = x
-      x = "0x"..tohex(x)
-    elseif p == "V" then
-      x = band(rshift(op, 8), 7)
-      if x == 0 then x = nil end
-    elseif p == "W" then
-      x = band(op, 7)
-      if x == 0 then x = nil end
-    elseif p == "Y" then
-      x = band(rshift(op, 6), 0x000fffff)
-      if x == 0 then x = nil end
-    elseif p == "Z" then
-      x = band(rshift(op, 6), 1023)
-      if x == 0 then x = nil end
-    elseif p == "0" then
-      if last == "r0" or last == 0 then
-	local n = #operands
-	operands[n] = nil
-	last = operands[n-1]
-	if altname then
-	  local a1, a2 = match(altname, "([^|]*)|(.*)")
-	  if a1 then name, altname = a1, a2
-	  else name = altname end
-	end
-      end
-    elseif p == "1" then
-      if last == "ra" then
-	operands[#operands] = nil
-      end
-    else
-      assert(false)
-    end
-    if x then operands[#operands+1] = x; last = x end
-  end
-
-  return putop(ctx, name, operands)
-end
-
-------------------------------------------------------------------------------
-
--- Disassemble a block of code.
-local function disass_block(ctx, ofs, len)
-  if not ofs then ofs = 0 end
-  local stop = len and ofs+len or #ctx.code
-  stop = stop - stop % 4
-  ctx.pos = ofs - ofs % 4
-  ctx.rel = nil
-  while ctx.pos < stop do disass_ins(ctx) end
-end
-
--- Extended API: create a disassembler context. Then call ctx:disass(ofs, len).
-local function create_(code, addr, out)
-  local ctx = {}
-  ctx.code = code
-  ctx.addr = addr or 0
-  ctx.out = out or io.write
-  ctx.symtab = {}
-  ctx.disass = disass_block
-  ctx.hexdump = 8
-  ctx.get = get_be
-  return ctx
-end
-
-local function create_el_(code, addr, out)
-  local ctx = create_(code, addr, out)
-  ctx.get = get_le
-  return ctx
-end
-
--- Simple API: disassemble code (a string) at address and output via out.
-local function disass_(code, addr, out)
-  create_(code, addr, out):disass()
-end
-
-local function disass_el_(code, addr, out)
-  create_el_(code, addr, out):disass()
-end
-
--- Return register name for RID.
-local function regname_(r)
-  if r < 32 then return map_gpr[r] end
-  return "f"..(r-32)
-end
-
--- Public module functions.
-module(...)
-
-create = create_
-create_el = create_el_
-disass = disass_
-disass_el = disass_el_
-regname = regname_
-
diff --git a/luajit-2.0/src/jit/dis_mipsel.lua b/luajit-2.0/src/jit/dis_mipsel.lua
deleted file mode 100644
index d19de31..0000000
--- a/luajit-2.0/src/jit/dis_mipsel.lua
+++ /dev/null
@@ -1,20 +0,0 @@
-----------------------------------------------------------------------------
--- LuaJIT MIPSEL disassembler wrapper module.
---
--- Copyright (C) 2005-2014 Mike Pall. All rights reserved.
--- Released under the MIT license. See Copyright Notice in luajit.h
-----------------------------------------------------------------------------
--- This module just exports the little-endian functions from the
--- MIPS disassembler module. All the interesting stuff is there.
-------------------------------------------------------------------------------
-
-local require = require
-
-module(...)
-
-local dis_mips = require(_PACKAGE.."dis_mips")
-
-create = dis_mips.create_el
-disass = dis_mips.disass_el
-regname = dis_mips.regname
-
diff --git a/luajit-2.0/src/jit/dis_ppc.lua b/luajit-2.0/src/jit/dis_ppc.lua
deleted file mode 100644
index cfaf982..0000000
--- a/luajit-2.0/src/jit/dis_ppc.lua
+++ /dev/null
@@ -1,591 +0,0 @@
-----------------------------------------------------------------------------
--- LuaJIT PPC disassembler module.
---
--- Copyright (C) 2005-2014 Mike Pall. All rights reserved.
--- Released under the MIT/X license. See Copyright Notice in luajit.h
-----------------------------------------------------------------------------
--- This is a helper module used by the LuaJIT machine code dumper module.
---
--- It disassembles all common, non-privileged 32/64 bit PowerPC instructions
--- plus the e500 SPE instructions and some Cell/Xenon extensions.
---
--- NYI: VMX, VMX128
-------------------------------------------------------------------------------
-
-local type = type
-local sub, byte, format = string.sub, string.byte, string.format
-local match, gmatch, gsub = string.match, string.gmatch, string.gsub
-local concat = table.concat
-local bit = require("bit")
-local band, bor, tohex = bit.band, bit.bor, bit.tohex
-local lshift, rshift, arshift = bit.lshift, bit.rshift, bit.arshift
-
-------------------------------------------------------------------------------
--- Primary and extended opcode maps
-------------------------------------------------------------------------------
-
-local map_crops = {
-  shift = 1, mask = 1023,
-  [0] = "mcrfXX",
-  [33] = "crnor|crnotCCC=", [129] = "crandcCCC",
-  [193] = "crxor|crclrCCC%", [225] = "crnandCCC",
-  [257] = "crandCCC", [289] = "creqv|crsetCCC%",
-  [417] = "crorcCCC", [449] = "cror|crmoveCCC=",
-  [16] = "b_lrKB", [528] = "b_ctrKB",
-  [150] = "isync",
-}
-
-local map_rlwinm = setmetatable({
-  shift = 0, mask = -1,
-},
-{ __index = function(t, x)
-    local rot = band(rshift(x, 11), 31)
-    local mb = band(rshift(x, 6), 31)
-    local me = band(rshift(x, 1), 31)
-    if mb == 0 and me == 31-rot then
-      return "slwiRR~A."
-    elseif me == 31 and mb == 32-rot then
-      return "srwiRR~-A."
-    else
-      return "rlwinmRR~AAA."
-    end
-  end
-})
-
-local map_rld = {
-  shift = 2, mask = 7,
-  [0] = "rldiclRR~HM.", "rldicrRR~HM.", "rldicRR~HM.", "rldimiRR~HM.",
-  {
-    shift = 1, mask = 1,
-    [0] = "rldclRR~RM.", "rldcrRR~RM.",
-  },
-}
-
-local map_ext = setmetatable({
-  shift = 1, mask = 1023,
-
-  [0] = "cmp_YLRR", [32] = "cmpl_YLRR",
-  [4] = "twARR", [68] = "tdARR",
-
-  [8] = "subfcRRR.", [40] = "subfRRR.",
-  [104] = "negRR.", [136] = "subfeRRR.",
-  [200] = "subfzeRR.", [232] = "subfmeRR.",
-  [520] = "subfcoRRR.", [552] = "subfoRRR.",
-  [616] = "negoRR.", [648] = "subfeoRRR.",
-  [712] = "subfzeoRR.", [744] = "subfmeoRR.",
-
-  [9] = "mulhduRRR.", [73] = "mulhdRRR.", [233] = "mulldRRR.",
-  [457] = "divduRRR.", [489] = "divdRRR.",
-  [745] = "mulldoRRR.",
-  [969] = "divduoRRR.", [1001] = "divdoRRR.",
-
-  [10] = "addcRRR.", [138] = "addeRRR.",
-  [202] = "addzeRR.", [234] = "addmeRR.", [266] = "addRRR.",
-  [522] = "addcoRRR.", [650] = "addeoRRR.",
-  [714] = "addzeoRR.", [746] = "addmeoRR.", [778] = "addoRRR.",
-
-  [11] = "mulhwuRRR.", [75] = "mulhwRRR.", [235] = "mullwRRR.",
-  [459] = "divwuRRR.", [491] = "divwRRR.",
-  [747] = "mullwoRRR.",
-  [971] = "divwouRRR.", [1003] = "divwoRRR.",
-
-  [15] = "iselltRRR", [47] = "iselgtRRR", [79] = "iseleqRRR",
-
-  [144] = { shift = 20, mask = 1, [0] = "mtcrfRZ~", "mtocrfRZ~", },
-  [19] = { shift = 20, mask = 1, [0] = "mfcrR", "mfocrfRZ", },
-  [371] = { shift = 11, mask = 1023, [392] = "mftbR", [424] = "mftbuR", },
-  [339] = {
-    shift = 11, mask = 1023,
-    [32] = "mferR", [256] = "mflrR", [288] = "mfctrR", [16] = "mfspefscrR",
-  },
-  [467] = {
-    shift = 11, mask = 1023,
-    [32] = "mtxerR", [256] = "mtlrR", [288] = "mtctrR", [16] = "mtspefscrR",
-  },
-
-  [20] = "lwarxRR0R", [84] = "ldarxRR0R",
-
-  [21] = "ldxRR0R", [53] = "lduxRRR",
-  [149] = "stdxRR0R", [181] = "stduxRRR",
-  [341] = "lwaxRR0R", [373] = "lwauxRRR",
-
-  [23] = "lwzxRR0R", [55] = "lwzuxRRR",
-  [87] = "lbzxRR0R", [119] = "lbzuxRRR",
-  [151] = "stwxRR0R", [183] = "stwuxRRR",
-  [215] = "stbxRR0R", [247] = "stbuxRRR",
-  [279] = "lhzxRR0R", [311] = "lhzuxRRR",
-  [343] = "lhaxRR0R", [375] = "lhauxRRR",
-  [407] = "sthxRR0R", [439] = "sthuxRRR",
-
-  [54] = "dcbst-R0R", [86] = "dcbf-R0R",
-  [150] = "stwcxRR0R.", [214] = "stdcxRR0R.",
-  [246] = "dcbtst-R0R", [278] = "dcbt-R0R",
-  [310] = "eciwxRR0R", [438] = "ecowxRR0R",
-  [470] = "dcbi-RR",
-
-  [598] = {
-    shift = 21, mask = 3,
-    [0] = "sync", "lwsync", "ptesync",
-  },
-  [758] = "dcba-RR",
-  [854] = "eieio", [982] = "icbi-R0R", [1014] = "dcbz-R0R",
-
-  [26] = "cntlzwRR~", [58] = "cntlzdRR~",
-  [122] = "popcntbRR~",
-  [154] = "prtywRR~", [186] = "prtydRR~",
-
-  [28] = "andRR~R.", [60] = "andcRR~R.", [124] = "nor|notRR~R=.",
-  [284] = "eqvRR~R.", [316] = "xorRR~R.",
-  [412] = "orcRR~R.", [444] = "or|mrRR~R=.", [476] = "nandRR~R.",
-  [508] = "cmpbRR~R",
-
-  [512] = "mcrxrX",
-
-  [532] = "ldbrxRR0R", [660] = "stdbrxRR0R",
-
-  [533] = "lswxRR0R", [597] = "lswiRR0A",
-  [661] = "stswxRR0R", [725] = "stswiRR0A",
-
-  [534] = "lwbrxRR0R", [662] = "stwbrxRR0R",
-  [790] = "lhbrxRR0R", [918] = "sthbrxRR0R",
-
-  [535] = "lfsxFR0R", [567] = "lfsuxFRR",
-  [599] = "lfdxFR0R", [631] = "lfduxFRR",
-  [663] = "stfsxFR0R", [695] = "stfsuxFRR",
-  [727] = "stfdxFR0R", [759] = "stfduxFR0R",
-  [855] = "lfiwaxFR0R",
-  [983] = "stfiwxFR0R",
-
-  [24] = "slwRR~R.",
-
-  [27] = "sldRR~R.", [536] = "srwRR~R.",
-  [792] = "srawRR~R.", [824] = "srawiRR~A.",
-
-  [794] = "sradRR~R.", [826] = "sradiRR~H.", [827] = "sradiRR~H.",
-  [922] = "extshRR~.", [954] = "extsbRR~.", [986] = "extswRR~.",
-
-  [539] = "srdRR~R.",
-},
-{ __index = function(t, x)
-    if band(x, 31) == 15 then return "iselRRRC" end
-  end
-})
-
-local map_ld = {
-  shift = 0, mask = 3,
-  [0] = "ldRRE", "lduRRE", "lwaRRE",
-}
-
-local map_std = {
-  shift = 0, mask = 3,
-  [0] = "stdRRE", "stduRRE",
-}
-
-local map_fps = {
-  shift = 5, mask = 1,
-  {
-    shift = 1, mask = 15,
-    [0] = false, false, "fdivsFFF.", false,
-    "fsubsFFF.", "faddsFFF.", "fsqrtsF-F.", false,
-    "fresF-F.", "fmulsFF-F.", "frsqrtesF-F.", false,
-    "fmsubsFFFF~.", "fmaddsFFFF~.", "fnmsubsFFFF~.", "fnmaddsFFFF~.",
-  }
-}
-
-local map_fpd = {
-  shift = 5, mask = 1,
-  [0] = {
-    shift = 1, mask = 1023,
-    [0] = "fcmpuXFF", [32] = "fcmpoXFF", [64] = "mcrfsXX",
-    [38] = "mtfsb1A.", [70] = "mtfsb0A.", [134] = "mtfsfiA>>-A>",
-    [8] = "fcpsgnFFF.", [40] = "fnegF-F.", [72] = "fmrF-F.",
-    [136] = "fnabsF-F.", [264] = "fabsF-F.",
-    [12] = "frspF-F.",
-    [14] = "fctiwF-F.", [15] = "fctiwzF-F.",
-    [583] = "mffsF.", [711] = "mtfsfZF.",
-    [392] = "frinF-F.", [424] = "frizF-F.",
-    [456] = "fripF-F.", [488] = "frimF-F.",
-    [814] = "fctidF-F.", [815] = "fctidzF-F.", [846] = "fcfidF-F.",
-  },
-  {
-    shift = 1, mask = 15,
-    [0] = false, false, "fdivFFF.", false,
-    "fsubFFF.", "faddFFF.", "fsqrtF-F.", "fselFFFF~.",
-    "freF-F.", "fmulFF-F.", "frsqrteF-F.", false,
-    "fmsubFFFF~.", "fmaddFFFF~.", "fnmsubFFFF~.", "fnmaddFFFF~.",
-  }
-}
-
-local map_spe = {
-  shift = 0, mask = 2047,
-
-  [512] = "evaddwRRR", [514] = "evaddiwRAR~",
-  [516] = "evsubwRRR~", [518] = "evsubiwRAR~",
-  [520] = "evabsRR", [521] = "evnegRR",
-  [522] = "evextsbRR", [523] = "evextshRR", [524] = "evrndwRR",
-  [525] = "evcntlzwRR", [526] = "evcntlswRR",
-
-  [527] = "brincRRR",
-
-  [529] = "evandRRR", [530] = "evandcRRR", [534] = "evxorRRR",
-  [535] = "evor|evmrRRR=", [536] = "evnor|evnotRRR=",
-  [537] = "eveqvRRR", [539] = "evorcRRR", [542] = "evnandRRR",
-
-  [544] = "evsrwuRRR", [545] = "evsrwsRRR",
-  [546] = "evsrwiuRRA", [547] = "evsrwisRRA",
-  [548] = "evslwRRR", [550] = "evslwiRRA",
-  [552] = "evrlwRRR", [553] = "evsplatiRS",
-  [554] = "evrlwiRRA", [555] = "evsplatfiRS",
-  [556] = "evmergehiRRR", [557] = "evmergeloRRR",
-  [558] = "evmergehiloRRR", [559] = "evmergelohiRRR",
-
-  [560] = "evcmpgtuYRR", [561] = "evcmpgtsYRR",
-  [562] = "evcmpltuYRR", [563] = "evcmpltsYRR",
-  [564] = "evcmpeqYRR",
-
-  [632] = "evselRRR", [633] = "evselRRRW",
-  [634] = "evselRRRW", [635] = "evselRRRW",
-  [636] = "evselRRRW", [637] = "evselRRRW",
-  [638] = "evselRRRW", [639] = "evselRRRW",
-
-  [640] = "evfsaddRRR", [641] = "evfssubRRR",
-  [644] = "evfsabsRR", [645] = "evfsnabsRR", [646] = "evfsnegRR",
-  [648] = "evfsmulRRR", [649] = "evfsdivRRR",
-  [652] = "evfscmpgtYRR", [653] = "evfscmpltYRR", [654] = "evfscmpeqYRR",
-  [656] = "evfscfuiR-R", [657] = "evfscfsiR-R",
-  [658] = "evfscfufR-R", [659] = "evfscfsfR-R",
-  [660] = "evfsctuiR-R", [661] = "evfsctsiR-R",
-  [662] = "evfsctufR-R", [663] = "evfsctsfR-R",
-  [664] = "evfsctuizR-R", [666] = "evfsctsizR-R",
-  [668] = "evfststgtYRR", [669] = "evfststltYRR", [670] = "evfststeqYRR",
-
-  [704] = "efsaddRRR", [705] = "efssubRRR",
-  [708] = "efsabsRR", [709] = "efsnabsRR", [710] = "efsnegRR",
-  [712] = "efsmulRRR", [713] = "efsdivRRR",
-  [716] = "efscmpgtYRR", [717] = "efscmpltYRR", [718] = "efscmpeqYRR",
-  [719] = "efscfdR-R",
-  [720] = "efscfuiR-R", [721] = "efscfsiR-R",
-  [722] = "efscfufR-R", [723] = "efscfsfR-R",
-  [724] = "efsctuiR-R", [725] = "efsctsiR-R",
-  [726] = "efsctufR-R", [727] = "efsctsfR-R",
-  [728] = "efsctuizR-R", [730] = "efsctsizR-R",
-  [732] = "efststgtYRR", [733] = "efststltYRR", [734] = "efststeqYRR",
-
-  [736] = "efdaddRRR", [737] = "efdsubRRR",
-  [738] = "efdcfuidR-R", [739] = "efdcfsidR-R",
-  [740] = "efdabsRR", [741] = "efdnabsRR", [742] = "efdnegRR",
-  [744] = "efdmulRRR", [745] = "efddivRRR",
-  [746] = "efdctuidzR-R", [747] = "efdctsidzR-R",
-  [748] = "efdcmpgtYRR", [749] = "efdcmpltYRR", [750] = "efdcmpeqYRR",
-  [751] = "efdcfsR-R",
-  [752] = "efdcfuiR-R", [753] = "efdcfsiR-R",
-  [754] = "efdcfufR-R", [755] = "efdcfsfR-R",
-  [756] = "efdctuiR-R", [757] = "efdctsiR-R",
-  [758] = "efdctufR-R", [759] = "efdctsfR-R",
-  [760] = "efdctuizR-R", [762] = "efdctsizR-R",
-  [764] = "efdtstgtYRR", [765] = "efdtstltYRR", [766] = "efdtsteqYRR",
-
-  [768] = "evlddxRR0R", [769] = "evlddRR8",
-  [770] = "evldwxRR0R", [771] = "evldwRR8",
-  [772] = "evldhxRR0R", [773] = "evldhRR8",
-  [776] = "evlhhesplatxRR0R", [777] = "evlhhesplatRR2",
-  [780] = "evlhhousplatxRR0R", [781] = "evlhhousplatRR2",
-  [782] = "evlhhossplatxRR0R", [783] = "evlhhossplatRR2",
-  [784] = "evlwhexRR0R", [785] = "evlwheRR4",
-  [788] = "evlwhouxRR0R", [789] = "evlwhouRR4",
-  [790] = "evlwhosxRR0R", [791] = "evlwhosRR4",
-  [792] = "evlwwsplatxRR0R", [793] = "evlwwsplatRR4",
-  [796] = "evlwhsplatxRR0R", [797] = "evlwhsplatRR4",
-
-  [800] = "evstddxRR0R", [801] = "evstddRR8",
-  [802] = "evstdwxRR0R", [803] = "evstdwRR8",
-  [804] = "evstdhxRR0R", [805] = "evstdhRR8",
-  [816] = "evstwhexRR0R", [817] = "evstwheRR4",
-  [820] = "evstwhoxRR0R", [821] = "evstwhoRR4",
-  [824] = "evstwwexRR0R", [825] = "evstwweRR4",
-  [828] = "evstwwoxRR0R", [829] = "evstwwoRR4",
-
-  [1027] = "evmhessfRRR", [1031] = "evmhossfRRR", [1032] = "evmheumiRRR",
-  [1033] = "evmhesmiRRR", [1035] = "evmhesmfRRR", [1036] = "evmhoumiRRR",
-  [1037] = "evmhosmiRRR", [1039] = "evmhosmfRRR", [1059] = "evmhessfaRRR",
-  [1063] = "evmhossfaRRR", [1064] = "evmheumiaRRR", [1065] = "evmhesmiaRRR",
-  [1067] = "evmhesmfaRRR", [1068] = "evmhoumiaRRR", [1069] = "evmhosmiaRRR",
-  [1071] = "evmhosmfaRRR", [1095] = "evmwhssfRRR", [1096] = "evmwlumiRRR",
-  [1100] = "evmwhumiRRR", [1101] = "evmwhsmiRRR", [1103] = "evmwhsmfRRR",
-  [1107] = "evmwssfRRR", [1112] = "evmwumiRRR", [1113] = "evmwsmiRRR",
-  [1115] = "evmwsmfRRR", [1127] = "evmwhssfaRRR", [1128] = "evmwlumiaRRR",
-  [1132] = "evmwhumiaRRR", [1133] = "evmwhsmiaRRR", [1135] = "evmwhsmfaRRR",
-  [1139] = "evmwssfaRRR", [1144] = "evmwumiaRRR", [1145] = "evmwsmiaRRR",
-  [1147] = "evmwsmfaRRR",
-
-  [1216] = "evaddusiaawRR", [1217] = "evaddssiaawRR",
-  [1218] = "evsubfusiaawRR", [1219] = "evsubfssiaawRR",
-  [1220] = "evmraRR",
-  [1222] = "evdivwsRRR", [1223] = "evdivwuRRR",
-  [1224] = "evaddumiaawRR", [1225] = "evaddsmiaawRR",
-  [1226] = "evsubfumiaawRR", [1227] = "evsubfsmiaawRR",
-
-  [1280] = "evmheusiaawRRR", [1281] = "evmhessiaawRRR",
-  [1283] = "evmhessfaawRRR", [1284] = "evmhousiaawRRR",
-  [1285] = "evmhossiaawRRR", [1287] = "evmhossfaawRRR",
-  [1288] = "evmheumiaawRRR", [1289] = "evmhesmiaawRRR",
-  [1291] = "evmhesmfaawRRR", [1292] = "evmhoumiaawRRR",
-  [1293] = "evmhosmiaawRRR", [1295] = "evmhosmfaawRRR",
-  [1320] = "evmhegumiaaRRR", [1321] = "evmhegsmiaaRRR",
-  [1323] = "evmhegsmfaaRRR", [1324] = "evmhogumiaaRRR",
-  [1325] = "evmhogsmiaaRRR", [1327] = "evmhogsmfaaRRR",
-  [1344] = "evmwlusiaawRRR", [1345] = "evmwlssiaawRRR",
-  [1352] = "evmwlumiaawRRR", [1353] = "evmwlsmiaawRRR",
-  [1363] = "evmwssfaaRRR", [1368] = "evmwumiaaRRR",
-  [1369] = "evmwsmiaaRRR", [1371] = "evmwsmfaaRRR",
-  [1408] = "evmheusianwRRR", [1409] = "evmhessianwRRR",
-  [1411] = "evmhessfanwRRR", [1412] = "evmhousianwRRR",
-  [1413] = "evmhossianwRRR", [1415] = "evmhossfanwRRR",
-  [1416] = "evmheumianwRRR", [1417] = "evmhesmianwRRR",
-  [1419] = "evmhesmfanwRRR", [1420] = "evmhoumianwRRR",
-  [1421] = "evmhosmianwRRR", [1423] = "evmhosmfanwRRR",
-  [1448] = "evmhegumianRRR", [1449] = "evmhegsmianRRR",
-  [1451] = "evmhegsmfanRRR", [1452] = "evmhogumianRRR",
-  [1453] = "evmhogsmianRRR", [1455] = "evmhogsmfanRRR",
-  [1472] = "evmwlusianwRRR", [1473] = "evmwlssianwRRR",
-  [1480] = "evmwlumianwRRR", [1481] = "evmwlsmianwRRR",
-  [1491] = "evmwssfanRRR", [1496] = "evmwumianRRR",
-  [1497] = "evmwsmianRRR", [1499] = "evmwsmfanRRR",
-}
-
-local map_pri = {
-  [0] = false,	false,		"tdiARI",	"twiARI",
-  map_spe,	false,		false,		"mulliRRI",
-  "subficRRI",	false,		"cmpl_iYLRU",	"cmp_iYLRI",
-  "addicRRI",	"addic.RRI",	"addi|liRR0I",	"addis|lisRR0I",
-  "b_KBJ",	"sc",		 "bKJ",		map_crops,
-  "rlwimiRR~AAA.", map_rlwinm,	false,		"rlwnmRR~RAA.",
-  "oriNRR~U",	"orisRR~U",	"xoriRR~U",	"xorisRR~U",
-  "andi.RR~U",	"andis.RR~U",	map_rld,	map_ext,
-  "lwzRRD",	"lwzuRRD",	"lbzRRD",	"lbzuRRD",
-  "stwRRD",	"stwuRRD",	"stbRRD",	"stbuRRD",
-  "lhzRRD",	"lhzuRRD",	"lhaRRD",	"lhauRRD",
-  "sthRRD",	"sthuRRD",	"lmwRRD",	"stmwRRD",
-  "lfsFRD",	"lfsuFRD",	"lfdFRD",	"lfduFRD",
-  "stfsFRD",	"stfsuFRD",	"stfdFRD",	"stfduFRD",
-  false,	false,		map_ld,		map_fps,
-  false,	false,		map_std,	map_fpd,
-}
-
-------------------------------------------------------------------------------
-
-local map_gpr = {
-  [0] = "r0", "sp", "r2", "r3", "r4", "r5", "r6", "r7",
-  "r8", "r9", "r10", "r11", "r12", "r13", "r14", "r15",
-  "r16", "r17", "r18", "r19", "r20", "r21", "r22", "r23",
-  "r24", "r25", "r26", "r27", "r28", "r29", "r30", "r31",
-}
-
-local map_cond = { [0] = "lt", "gt", "eq", "so", "ge", "le", "ne", "ns", }
-
--- Format a condition bit.
-local function condfmt(cond)
-  if cond <= 3 then
-    return map_cond[band(cond, 3)]
-  else
-    return format("4*cr%d+%s", rshift(cond, 2), map_cond[band(cond, 3)])
-  end
-end
-
-------------------------------------------------------------------------------
-
--- Output a nicely formatted line with an opcode and operands.
-local function putop(ctx, text, operands)
-  local pos = ctx.pos
-  local extra = ""
-  if ctx.rel then
-    local sym = ctx.symtab[ctx.rel]
-    if sym then extra = "\t->"..sym end
-  end
-  if ctx.hexdump > 0 then
-    ctx.out(format("%08x  %s  %-7s %s%s\n",
-	    ctx.addr+pos, tohex(ctx.op), text, concat(operands, ", "), extra))
-  else
-    ctx.out(format("%08x  %-7s %s%s\n",
-	    ctx.addr+pos, text, concat(operands, ", "), extra))
-  end
-  ctx.pos = pos + 4
-end
-
--- Fallback for unknown opcodes.
-local function unknown(ctx)
-  return putop(ctx, ".long", { "0x"..tohex(ctx.op) })
-end
-
--- Disassemble a single instruction.
-local function disass_ins(ctx)
-  local pos = ctx.pos
-  local b0, b1, b2, b3 = byte(ctx.code, pos+1, pos+4)
-  local op = bor(lshift(b0, 24), lshift(b1, 16), lshift(b2, 8), b3)
-  local operands = {}
-  local last = nil
-  local rs = 21
-  ctx.op = op
-  ctx.rel = nil
-
-  local opat = map_pri[rshift(b0, 2)]
-  while type(opat) ~= "string" do
-    if not opat then return unknown(ctx) end
-    opat = opat[band(rshift(op, opat.shift), opat.mask)]
-  end
-  local name, pat = match(opat, "^([a-z0-9_.]*)(.*)")
-  local altname, pat2 = match(pat, "|([a-z0-9_.]*)(.*)")
-  if altname then pat = pat2 end
-
-  for p in gmatch(pat, ".") do
-    local x = nil
-    if p == "R" then
-      x = map_gpr[band(rshift(op, rs), 31)]
-      rs = rs - 5
-    elseif p == "F" then
-      x = "f"..band(rshift(op, rs), 31)
-      rs = rs - 5
-    elseif p == "A" then
-      x = band(rshift(op, rs), 31)
-      rs = rs - 5
-    elseif p == "S" then
-      x = arshift(lshift(op, 27-rs), 27)
-      rs = rs - 5
-    elseif p == "I" then
-      x = arshift(lshift(op, 16), 16)
-    elseif p == "U" then
-      x = band(op, 0xffff)
-    elseif p == "D" or p == "E" then
-      local disp = arshift(lshift(op, 16), 16)
-      if p == "E" then disp = band(disp, -4) end
-      if last == "r0" then last = "0" end
-      operands[#operands] = format("%d(%s)", disp, last)
-    elseif p >= "2" and p <= "8" then
-      local disp = band(rshift(op, rs), 31) * p
-      if last == "r0" then last = "0" end
-      operands[#operands] = format("%d(%s)", disp, last)
-    elseif p == "H" then
-      x = band(rshift(op, rs), 31) + lshift(band(op, 2), 4)
-      rs = rs - 5
-    elseif p == "M" then
-      x = band(rshift(op, rs), 31) + band(op, 0x20)
-    elseif p == "C" then
-      x = condfmt(band(rshift(op, rs), 31))
-      rs = rs - 5
-    elseif p == "B" then
-      local bo = rshift(op, 21)
-      local cond = band(rshift(op, 16), 31)
-      local cn = ""
-      rs = rs - 10
-      if band(bo, 4) == 0 then
-	cn = band(bo, 2) == 0 and "dnz" or "dz"
-	if band(bo, 0x10) == 0 then
-	  cn = cn..(band(bo, 8) == 0 and "f" or "t")
-	end
-	if band(bo, 0x10) == 0 then x = condfmt(cond) end
-	name = name..(band(bo, 1) == band(rshift(op, 15), 1) and "-" or "+")
-      elseif band(bo, 0x10) == 0 then
-	cn = map_cond[band(cond, 3) + (band(bo, 8) == 0 and 4 or 0)]
-	if cond > 3 then x = "cr"..rshift(cond, 2) end
-	name = name..(band(bo, 1) == band(rshift(op, 15), 1) and "-" or "+")
-      end
-      name = gsub(name, "_", cn)
-    elseif p == "J" then
-      x = arshift(lshift(op, 27-rs), 29-rs)*4
-      if band(op, 2) == 0 then x = ctx.addr + pos + x end
-      ctx.rel = x
-      x = "0x"..tohex(x)
-    elseif p == "K" then
-      if band(op, 1) ~= 0 then name = name.."l" end
-      if band(op, 2) ~= 0 then name = name.."a" end
-    elseif p == "X" or p == "Y" then
-      x = band(rshift(op, rs+2), 7)
-      if x == 0 and p == "Y" then x = nil else x = "cr"..x end
-      rs = rs - 5
-    elseif p == "W" then
-      x = "cr"..band(op, 7)
-    elseif p == "Z" then
-      x = band(rshift(op, rs-4), 255)
-      rs = rs - 10
-    elseif p == ">" then
-      operands[#operands] = rshift(operands[#operands], 1)
-    elseif p == "0" then
-      if last == "r0" then
-	operands[#operands] = nil
-	if altname then name = altname end
-      end
-    elseif p == "L" then
-      name = gsub(name, "_", band(op, 0x00200000) ~= 0 and "d" or "w")
-    elseif p == "." then
-      if band(op, 1) == 1 then name = name.."." end
-    elseif p == "N" then
-      if op == 0x60000000 then name = "nop"; break end
-    elseif p == "~" then
-      local n = #operands
-      operands[n-1],  operands[n] = operands[n], operands[n-1]
-    elseif p == "=" then
-      local n = #operands
-      if last == operands[n-1] then
-	operands[n] = nil
-	name = altname
-      end
-    elseif p == "%" then
-      local n = #operands
-      if last == operands[n-1] and last == operands[n-2] then
-	operands[n] = nil
-	operands[n-1] = nil
-	name = altname
-      end
-    elseif p == "-" then
-      rs = rs - 5
-    else
-      assert(false)
-    end
-    if x then operands[#operands+1] = x; last = x end
-  end
-
-  return putop(ctx, name, operands)
-end
-
-------------------------------------------------------------------------------
-
--- Disassemble a block of code.
-local function disass_block(ctx, ofs, len)
-  if not ofs then ofs = 0 end
-  local stop = len and ofs+len or #ctx.code
-  stop = stop - stop % 4
-  ctx.pos = ofs - ofs % 4
-  ctx.rel = nil
-  while ctx.pos < stop do disass_ins(ctx) end
-end
-
--- Extended API: create a disassembler context. Then call ctx:disass(ofs, len).
-local function create_(code, addr, out)
-  local ctx = {}
-  ctx.code = code
-  ctx.addr = addr or 0
-  ctx.out = out or io.write
-  ctx.symtab = {}
-  ctx.disass = disass_block
-  ctx.hexdump = 8
-  return ctx
-end
-
--- Simple API: disassemble code (a string) at address and output via out.
-local function disass_(code, addr, out)
-  create_(code, addr, out):disass()
-end
-
--- Return register name for RID.
-local function regname_(r)
-  if r < 32 then return map_gpr[r] end
-  return "f"..(r-32)
-end
-
--- Public module functions.
-module(...)
-
-create = create_
-disass = disass_
-regname = regname_
-
diff --git a/luajit-2.0/src/jit/dis_x64.lua b/luajit-2.0/src/jit/dis_x64.lua
deleted file mode 100644
index 4f49169..0000000
--- a/luajit-2.0/src/jit/dis_x64.lua
+++ /dev/null
@@ -1,20 +0,0 @@
-----------------------------------------------------------------------------
--- LuaJIT x64 disassembler wrapper module.
---
--- Copyright (C) 2005-2014 Mike Pall. All rights reserved.
--- Released under the MIT license. See Copyright Notice in luajit.h
-----------------------------------------------------------------------------
--- This module just exports the 64 bit functions from the combined
--- x86/x64 disassembler module. All the interesting stuff is there.
-------------------------------------------------------------------------------
-
-local require = require
-
-module(...)
-
-local dis_x86 = require(_PACKAGE.."dis_x86")
-
-create = dis_x86.create64
-disass = dis_x86.disass64
-regname = dis_x86.regname64
-
diff --git a/luajit-2.0/src/jit/dis_x86.lua b/luajit-2.0/src/jit/dis_x86.lua
deleted file mode 100644
index 0b865ab..0000000
--- a/luajit-2.0/src/jit/dis_x86.lua
+++ /dev/null
@@ -1,836 +0,0 @@
-----------------------------------------------------------------------------
--- LuaJIT x86/x64 disassembler module.
---
--- Copyright (C) 2005-2014 Mike Pall. All rights reserved.
--- Released under the MIT license. See Copyright Notice in luajit.h
-----------------------------------------------------------------------------
--- This is a helper module used by the LuaJIT machine code dumper module.
---
--- Sending small code snippets to an external disassembler and mixing the
--- output with our own stuff was too fragile. So I had to bite the bullet
--- and write yet another x86 disassembler. Oh well ...
---
--- The output format is very similar to what ndisasm generates. But it has
--- been developed independently by looking at the opcode tables from the
--- Intel and AMD manuals. The supported instruction set is quite extensive
--- and reflects what a current generation Intel or AMD CPU implements in
--- 32 bit and 64 bit mode. Yes, this includes MMX, SSE, SSE2, SSE3, SSSE3,
--- SSE4.1, SSE4.2, SSE4a and even privileged and hypervisor (VMX/SVM)
--- instructions.
---
--- Notes:
--- * The (useless) a16 prefix, 3DNow and pre-586 opcodes are unsupported.
--- * No attempt at optimization has been made -- it's fast enough for my needs.
--- * The public API may change when more architectures are added.
-------------------------------------------------------------------------------
-
-local type = type
-local sub, byte, format = string.sub, string.byte, string.format
-local match, gmatch, gsub = string.match, string.gmatch, string.gsub
-local lower, rep = string.lower, string.rep
-
--- Map for 1st opcode byte in 32 bit mode. Ugly? Well ... read on.
-local map_opc1_32 = {
---0x
-[0]="addBmr","addVmr","addBrm","addVrm","addBai","addVai","push es","pop es",
-"orBmr","orVmr","orBrm","orVrm","orBai","orVai","push cs","opc2*",
---1x
-"adcBmr","adcVmr","adcBrm","adcVrm","adcBai","adcVai","push ss","pop ss",
-"sbbBmr","sbbVmr","sbbBrm","sbbVrm","sbbBai","sbbVai","push ds","pop ds",
---2x
-"andBmr","andVmr","andBrm","andVrm","andBai","andVai","es:seg","daa",
-"subBmr","subVmr","subBrm","subVrm","subBai","subVai","cs:seg","das",
---3x
-"xorBmr","xorVmr","xorBrm","xorVrm","xorBai","xorVai","ss:seg","aaa",
-"cmpBmr","cmpVmr","cmpBrm","cmpVrm","cmpBai","cmpVai","ds:seg","aas",
---4x
-"incVR","incVR","incVR","incVR","incVR","incVR","incVR","incVR",
-"decVR","decVR","decVR","decVR","decVR","decVR","decVR","decVR",
---5x
-"pushUR","pushUR","pushUR","pushUR","pushUR","pushUR","pushUR","pushUR",
-"popUR","popUR","popUR","popUR","popUR","popUR","popUR","popUR",
---6x
-"sz*pushaw,pusha","sz*popaw,popa","boundVrm","arplWmr",
-"fs:seg","gs:seg","o16:","a16",
-"pushUi","imulVrmi","pushBs","imulVrms",
-"insb","insVS","outsb","outsVS",
---7x
-"joBj","jnoBj","jbBj","jnbBj","jzBj","jnzBj","jbeBj","jaBj",
-"jsBj","jnsBj","jpeBj","jpoBj","jlBj","jgeBj","jleBj","jgBj",
---8x
-"arith!Bmi","arith!Vmi","arith!Bmi","arith!Vms",
-"testBmr","testVmr","xchgBrm","xchgVrm",
-"movBmr","movVmr","movBrm","movVrm",
-"movVmg","leaVrm","movWgm","popUm",
---9x
-"nop*xchgVaR|pause|xchgWaR|repne nop","xchgVaR","xchgVaR","xchgVaR",
-"xchgVaR","xchgVaR","xchgVaR","xchgVaR",
-"sz*cbw,cwde,cdqe","sz*cwd,cdq,cqo","call farViw","wait",
-"sz*pushfw,pushf","sz*popfw,popf","sahf","lahf",
---Ax
-"movBao","movVao","movBoa","movVoa",
-"movsb","movsVS","cmpsb","cmpsVS",
-"testBai","testVai","stosb","stosVS",
-"lodsb","lodsVS","scasb","scasVS",
---Bx
-"movBRi","movBRi","movBRi","movBRi","movBRi","movBRi","movBRi","movBRi",
-"movVRI","movVRI","movVRI","movVRI","movVRI","movVRI","movVRI","movVRI",
---Cx
-"shift!Bmu","shift!Vmu","retBw","ret","$lesVrm","$ldsVrm","movBmi","movVmi",
-"enterBwu","leave","retfBw","retf","int3","intBu","into","iretVS",
---Dx
-"shift!Bm1","shift!Vm1","shift!Bmc","shift!Vmc","aamBu","aadBu","salc","xlatb",
-"fp*0","fp*1","fp*2","fp*3","fp*4","fp*5","fp*6","fp*7",
---Ex
-"loopneBj","loopeBj","loopBj","sz*jcxzBj,jecxzBj,jrcxzBj",
-"inBau","inVau","outBua","outVua",
-"callVj","jmpVj","jmp farViw","jmpBj","inBad","inVad","outBda","outVda",
---Fx
-"lock:","int1","repne:rep","rep:","hlt","cmc","testb!Bm","testv!Vm",
-"clc","stc","cli","sti","cld","std","incb!Bm","incd!Vm",
-}
-assert(#map_opc1_32 == 255)
-
--- Map for 1st opcode byte in 64 bit mode (overrides only).
-local map_opc1_64 = setmetatable({
-  [0x06]=false, [0x07]=false, [0x0e]=false,
-  [0x16]=false, [0x17]=false, [0x1e]=false, [0x1f]=false,
-  [0x27]=false, [0x2f]=false, [0x37]=false, [0x3f]=false,
-  [0x60]=false, [0x61]=false, [0x62]=false, [0x63]="movsxdVrDmt", [0x67]="a32:",
-  [0x40]="rex*",   [0x41]="rex*b",   [0x42]="rex*x",   [0x43]="rex*xb",
-  [0x44]="rex*r",  [0x45]="rex*rb",  [0x46]="rex*rx",  [0x47]="rex*rxb",
-  [0x48]="rex*w",  [0x49]="rex*wb",  [0x4a]="rex*wx",  [0x4b]="rex*wxb",
-  [0x4c]="rex*wr", [0x4d]="rex*wrb", [0x4e]="rex*wrx", [0x4f]="rex*wrxb",
-  [0x82]=false, [0x9a]=false, [0xc4]=false, [0xc5]=false, [0xce]=false,
-  [0xd4]=false, [0xd5]=false, [0xd6]=false, [0xea]=false,
-}, { __index = map_opc1_32 })
-
--- Map for 2nd opcode byte (0F xx). True CISC hell. Hey, I told you.
--- Prefix dependent MMX/SSE opcodes: (none)|rep|o16|repne, -|F3|66|F2
-local map_opc2 = {
---0x
-[0]="sldt!Dmp","sgdt!Ump","larVrm","lslVrm",nil,"syscall","clts","sysret",
-"invd","wbinvd",nil,"ud1",nil,"$prefetch!Bm","femms","3dnowMrmu",
---1x
-"movupsXrm|movssXrm|movupdXrm|movsdXrm",
-"movupsXmr|movssXmr|movupdXmr|movsdXmr",
-"movhlpsXrm$movlpsXrm|movsldupXrm|movlpdXrm|movddupXrm",
-"movlpsXmr||movlpdXmr",
-"unpcklpsXrm||unpcklpdXrm",
-"unpckhpsXrm||unpckhpdXrm",
-"movlhpsXrm$movhpsXrm|movshdupXrm|movhpdXrm",
-"movhpsXmr||movhpdXmr",
-"$prefetcht!Bm","hintnopVm","hintnopVm","hintnopVm",
-"hintnopVm","hintnopVm","hintnopVm","hintnopVm",
---2x
-"movUmx$","movUmy$","movUxm$","movUym$","movUmz$",nil,"movUzm$",nil,
-"movapsXrm||movapdXrm",
-"movapsXmr||movapdXmr",
-"cvtpi2psXrMm|cvtsi2ssXrVmt|cvtpi2pdXrMm|cvtsi2sdXrVmt",
-"movntpsXmr|movntssXmr|movntpdXmr|movntsdXmr",
-"cvttps2piMrXm|cvttss2siVrXm|cvttpd2piMrXm|cvttsd2siVrXm",
-"cvtps2piMrXm|cvtss2siVrXm|cvtpd2piMrXm|cvtsd2siVrXm",
-"ucomissXrm||ucomisdXrm",
-"comissXrm||comisdXrm",
---3x
-"wrmsr","rdtsc","rdmsr","rdpmc","sysenter","sysexit",nil,"getsec",
-"opc3*38",nil,"opc3*3a",nil,nil,nil,nil,nil,
---4x
-"cmovoVrm","cmovnoVrm","cmovbVrm","cmovnbVrm",
-"cmovzVrm","cmovnzVrm","cmovbeVrm","cmovaVrm",
-"cmovsVrm","cmovnsVrm","cmovpeVrm","cmovpoVrm",
-"cmovlVrm","cmovgeVrm","cmovleVrm","cmovgVrm",
---5x
-"movmskpsVrXm$||movmskpdVrXm$","sqrtpsXrm|sqrtssXrm|sqrtpdXrm|sqrtsdXrm",
-"rsqrtpsXrm|rsqrtssXrm","rcppsXrm|rcpssXrm",
-"andpsXrm||andpdXrm","andnpsXrm||andnpdXrm",
-"orpsXrm||orpdXrm","xorpsXrm||xorpdXrm",
-"addpsXrm|addssXrm|addpdXrm|addsdXrm","mulpsXrm|mulssXrm|mulpdXrm|mulsdXrm",
-"cvtps2pdXrm|cvtss2sdXrm|cvtpd2psXrm|cvtsd2ssXrm",
-"cvtdq2psXrm|cvttps2dqXrm|cvtps2dqXrm",
-"subpsXrm|subssXrm|subpdXrm|subsdXrm","minpsXrm|minssXrm|minpdXrm|minsdXrm",
-"divpsXrm|divssXrm|divpdXrm|divsdXrm","maxpsXrm|maxssXrm|maxpdXrm|maxsdXrm",
---6x
-"punpcklbwPrm","punpcklwdPrm","punpckldqPrm","packsswbPrm",
-"pcmpgtbPrm","pcmpgtwPrm","pcmpgtdPrm","packuswbPrm",
-"punpckhbwPrm","punpckhwdPrm","punpckhdqPrm","packssdwPrm",
-"||punpcklqdqXrm","||punpckhqdqXrm",
-"movPrVSm","movqMrm|movdquXrm|movdqaXrm",
---7x
-"pshufwMrmu|pshufhwXrmu|pshufdXrmu|pshuflwXrmu","pshiftw!Pmu",
-"pshiftd!Pmu","pshiftq!Mmu||pshiftdq!Xmu",
-"pcmpeqbPrm","pcmpeqwPrm","pcmpeqdPrm","emms|",
-"vmreadUmr||extrqXmuu$|insertqXrmuu$","vmwriteUrm||extrqXrm$|insertqXrm$",
-nil,nil,
-"||haddpdXrm|haddpsXrm","||hsubpdXrm|hsubpsXrm",
-"movVSmMr|movqXrm|movVSmXr","movqMmr|movdquXmr|movdqaXmr",
---8x
-"joVj","jnoVj","jbVj","jnbVj","jzVj","jnzVj","jbeVj","jaVj",
-"jsVj","jnsVj","jpeVj","jpoVj","jlVj","jgeVj","jleVj","jgVj",
---9x
-"setoBm","setnoBm","setbBm","setnbBm","setzBm","setnzBm","setbeBm","setaBm",
-"setsBm","setnsBm","setpeBm","setpoBm","setlBm","setgeBm","setleBm","setgBm",
---Ax
-"push fs","pop fs","cpuid","btVmr","shldVmru","shldVmrc",nil,nil,
-"push gs","pop gs","rsm","btsVmr","shrdVmru","shrdVmrc","fxsave!Dmp","imulVrm",
---Bx
-"cmpxchgBmr","cmpxchgVmr","$lssVrm","btrVmr",
-"$lfsVrm","$lgsVrm","movzxVrBmt","movzxVrWmt",
-"|popcntVrm","ud2Dp","bt!Vmu","btcVmr",
-"bsfVrm","bsrVrm|lzcntVrm|bsrWrm","movsxVrBmt","movsxVrWmt",
---Cx
-"xaddBmr","xaddVmr",
-"cmppsXrmu|cmpssXrmu|cmppdXrmu|cmpsdXrmu","$movntiVmr|",
-"pinsrwPrWmu","pextrwDrPmu",
-"shufpsXrmu||shufpdXrmu","$cmpxchg!Qmp",
-"bswapVR","bswapVR","bswapVR","bswapVR","bswapVR","bswapVR","bswapVR","bswapVR",
---Dx
-"||addsubpdXrm|addsubpsXrm","psrlwPrm","psrldPrm","psrlqPrm",
-"paddqPrm","pmullwPrm",
-"|movq2dqXrMm|movqXmr|movdq2qMrXm$","pmovmskbVrMm||pmovmskbVrXm",
-"psubusbPrm","psubuswPrm","pminubPrm","pandPrm",
-"paddusbPrm","padduswPrm","pmaxubPrm","pandnPrm",
---Ex
-"pavgbPrm","psrawPrm","psradPrm","pavgwPrm",
-"pmulhuwPrm","pmulhwPrm",
-"|cvtdq2pdXrm|cvttpd2dqXrm|cvtpd2dqXrm","$movntqMmr||$movntdqXmr",
-"psubsbPrm","psubswPrm","pminswPrm","porPrm",
-"paddsbPrm","paddswPrm","pmaxswPrm","pxorPrm",
---Fx
-"|||lddquXrm","psllwPrm","pslldPrm","psllqPrm",
-"pmuludqPrm","pmaddwdPrm","psadbwPrm","maskmovqMrm||maskmovdquXrm$",
-"psubbPrm","psubwPrm","psubdPrm","psubqPrm",
-"paddbPrm","paddwPrm","padddPrm","ud",
-}
-assert(map_opc2[255] == "ud")
-
--- Map for three-byte opcodes. Can't wait for their next invention.
-local map_opc3 = {
-["38"] = { -- [66] 0f 38 xx
---0x
-[0]="pshufbPrm","phaddwPrm","phadddPrm","phaddswPrm",
-"pmaddubswPrm","phsubwPrm","phsubdPrm","phsubswPrm",
-"psignbPrm","psignwPrm","psigndPrm","pmulhrswPrm",
-nil,nil,nil,nil,
---1x
-"||pblendvbXrma",nil,nil,nil,
-"||blendvpsXrma","||blendvpdXrma",nil,"||ptestXrm",
-nil,nil,nil,nil,
-"pabsbPrm","pabswPrm","pabsdPrm",nil,
---2x
-"||pmovsxbwXrm","||pmovsxbdXrm","||pmovsxbqXrm","||pmovsxwdXrm",
-"||pmovsxwqXrm","||pmovsxdqXrm",nil,nil,
-"||pmuldqXrm","||pcmpeqqXrm","||$movntdqaXrm","||packusdwXrm",
-nil,nil,nil,nil,
---3x
-"||pmovzxbwXrm","||pmovzxbdXrm","||pmovzxbqXrm","||pmovzxwdXrm",
-"||pmovzxwqXrm","||pmovzxdqXrm",nil,"||pcmpgtqXrm",
-"||pminsbXrm","||pminsdXrm","||pminuwXrm","||pminudXrm",
-"||pmaxsbXrm","||pmaxsdXrm","||pmaxuwXrm","||pmaxudXrm",
---4x
-"||pmulddXrm","||phminposuwXrm",
---Fx
-[0xf0] = "|||crc32TrBmt",[0xf1] = "|||crc32TrVmt",
-},
-
-["3a"] = { -- [66] 0f 3a xx
---0x
-[0x00]=nil,nil,nil,nil,nil,nil,nil,nil,
-"||roundpsXrmu","||roundpdXrmu","||roundssXrmu","||roundsdXrmu",
-"||blendpsXrmu","||blendpdXrmu","||pblendwXrmu","palignrPrmu",
---1x
-nil,nil,nil,nil,
-"||pextrbVmXru","||pextrwVmXru","||pextrVmSXru","||extractpsVmXru",
-nil,nil,nil,nil,nil,nil,nil,nil,
---2x
-"||pinsrbXrVmu","||insertpsXrmu","||pinsrXrVmuS",nil,
---4x
-[0x40] = "||dppsXrmu",
-[0x41] = "||dppdXrmu",
-[0x42] = "||mpsadbwXrmu",
---6x
-[0x60] = "||pcmpestrmXrmu",[0x61] = "||pcmpestriXrmu",
-[0x62] = "||pcmpistrmXrmu",[0x63] = "||pcmpistriXrmu",
-},
-}
-
--- Map for VMX/SVM opcodes 0F 01 C0-FF (sgdt group with register operands).
-local map_opcvm = {
-[0xc1]="vmcall",[0xc2]="vmlaunch",[0xc3]="vmresume",[0xc4]="vmxoff",
-[0xc8]="monitor",[0xc9]="mwait",
-[0xd8]="vmrun",[0xd9]="vmmcall",[0xda]="vmload",[0xdb]="vmsave",
-[0xdc]="stgi",[0xdd]="clgi",[0xde]="skinit",[0xdf]="invlpga",
-[0xf8]="swapgs",[0xf9]="rdtscp",
-}
-
--- Map for FP opcodes. And you thought stack machines are simple?
-local map_opcfp = {
--- D8-DF 00-BF: opcodes with a memory operand.
--- D8
-[0]="faddFm","fmulFm","fcomFm","fcompFm","fsubFm","fsubrFm","fdivFm","fdivrFm",
-"fldFm",nil,"fstFm","fstpFm","fldenvVm","fldcwWm","fnstenvVm","fnstcwWm",
--- DA
-"fiaddDm","fimulDm","ficomDm","ficompDm",
-"fisubDm","fisubrDm","fidivDm","fidivrDm",
--- DB
-"fildDm","fisttpDm","fistDm","fistpDm",nil,"fld twordFmp",nil,"fstp twordFmp",
--- DC
-"faddGm","fmulGm","fcomGm","fcompGm","fsubGm","fsubrGm","fdivGm","fdivrGm",
--- DD
-"fldGm","fisttpQm","fstGm","fstpGm","frstorDmp",nil,"fnsaveDmp","fnstswWm",
--- DE
-"fiaddWm","fimulWm","ficomWm","ficompWm",
-"fisubWm","fisubrWm","fidivWm","fidivrWm",
--- DF
-"fildWm","fisttpWm","fistWm","fistpWm",
-"fbld twordFmp","fildQm","fbstp twordFmp","fistpQm",
--- xx C0-FF: opcodes with a pseudo-register operand.
--- D8
-"faddFf","fmulFf","fcomFf","fcompFf","fsubFf","fsubrFf","fdivFf","fdivrFf",
--- D9
-"fldFf","fxchFf",{"fnop"},nil,
-{"fchs","fabs",nil,nil,"ftst","fxam"},
-{"fld1","fldl2t","fldl2e","fldpi","fldlg2","fldln2","fldz"},
-{"f2xm1","fyl2x","fptan","fpatan","fxtract","fprem1","fdecstp","fincstp"},
-{"fprem","fyl2xp1","fsqrt","fsincos","frndint","fscale","fsin","fcos"},
--- DA
-"fcmovbFf","fcmoveFf","fcmovbeFf","fcmovuFf",nil,{nil,"fucompp"},nil,nil,
--- DB
-"fcmovnbFf","fcmovneFf","fcmovnbeFf","fcmovnuFf",
-{nil,nil,"fnclex","fninit"},"fucomiFf","fcomiFf",nil,
--- DC
-"fadd toFf","fmul toFf",nil,nil,
-"fsub toFf","fsubr toFf","fdivr toFf","fdiv toFf",
--- DD
-"ffreeFf",nil,"fstFf","fstpFf","fucomFf","fucompFf",nil,nil,
--- DE
-"faddpFf","fmulpFf",nil,{nil,"fcompp"},
-"fsubrpFf","fsubpFf","fdivrpFf","fdivpFf",
--- DF
-nil,nil,nil,nil,{"fnstsw ax"},"fucomipFf","fcomipFf",nil,
-}
-assert(map_opcfp[126] == "fcomipFf")
-
--- Map for opcode groups. The subkey is sp from the ModRM byte.
-local map_opcgroup = {
-  arith = { "add", "or", "adc", "sbb", "and", "sub", "xor", "cmp" },
-  shift = { "rol", "ror", "rcl", "rcr", "shl", "shr", "sal", "sar" },
-  testb = { "testBmi", "testBmi", "not", "neg", "mul", "imul", "div", "idiv" },
-  testv = { "testVmi", "testVmi", "not", "neg", "mul", "imul", "div", "idiv" },
-  incb = { "inc", "dec" },
-  incd = { "inc", "dec", "callUmp", "$call farDmp",
-	   "jmpUmp", "$jmp farDmp", "pushUm" },
-  sldt = { "sldt", "str", "lldt", "ltr", "verr", "verw" },
-  sgdt = { "vm*$sgdt", "vm*$sidt", "$lgdt", "vm*$lidt",
-	   "smsw", nil, "lmsw", "vm*$invlpg" },
-  bt = { nil, nil, nil, nil, "bt", "bts", "btr", "btc" },
-  cmpxchg = { nil, "sz*,cmpxchg8bQmp,cmpxchg16bXmp", nil, nil,
-	      nil, nil, "vmptrld|vmxon|vmclear", "vmptrst" },
-  pshiftw = { nil, nil, "psrlw", nil, "psraw", nil, "psllw" },
-  pshiftd = { nil, nil, "psrld", nil, "psrad", nil, "pslld" },
-  pshiftq = { nil, nil, "psrlq", nil, nil, nil, "psllq" },
-  pshiftdq = { nil, nil, "psrlq", "psrldq", nil, nil, "psllq", "pslldq" },
-  fxsave = { "$fxsave", "$fxrstor", "$ldmxcsr", "$stmxcsr",
-	     nil, "lfenceDp$", "mfenceDp$", "sfenceDp$clflush" },
-  prefetch = { "prefetch", "prefetchw" },
-  prefetcht = { "prefetchnta", "prefetcht0", "prefetcht1", "prefetcht2" },
-}
-
-------------------------------------------------------------------------------
-
--- Maps for register names.
-local map_regs = {
-  B = { "al", "cl", "dl", "bl", "ah", "ch", "dh", "bh",
-	"r8b", "r9b", "r10b", "r11b", "r12b", "r13b", "r14b", "r15b" },
-  B64 = { "al", "cl", "dl", "bl", "spl", "bpl", "sil", "dil",
-	  "r8b", "r9b", "r10b", "r11b", "r12b", "r13b", "r14b", "r15b" },
-  W = { "ax", "cx", "dx", "bx", "sp", "bp", "si", "di",
-	"r8w", "r9w", "r10w", "r11w", "r12w", "r13w", "r14w", "r15w" },
-  D = { "eax", "ecx", "edx", "ebx", "esp", "ebp", "esi", "edi",
-	"r8d", "r9d", "r10d", "r11d", "r12d", "r13d", "r14d", "r15d" },
-  Q = { "rax", "rcx", "rdx", "rbx", "rsp", "rbp", "rsi", "rdi",
-	"r8", "r9", "r10", "r11", "r12", "r13", "r14", "r15" },
-  M = { "mm0", "mm1", "mm2", "mm3", "mm4", "mm5", "mm6", "mm7",
-	"mm0", "mm1", "mm2", "mm3", "mm4", "mm5", "mm6", "mm7" }, -- No x64 ext!
-  X = { "xmm0", "xmm1", "xmm2", "xmm3", "xmm4", "xmm5", "xmm6", "xmm7",
-	"xmm8", "xmm9", "xmm10", "xmm11", "xmm12", "xmm13", "xmm14", "xmm15" },
-}
-local map_segregs = { "es", "cs", "ss", "ds", "fs", "gs", "segr6", "segr7" }
-
--- Maps for size names.
-local map_sz2n = {
-  B = 1, W = 2, D = 4, Q = 8, M = 8, X = 16,
-}
-local map_sz2prefix = {
-  B = "byte", W = "word", D = "dword",
-  Q = "qword",
-  M = "qword", X = "xword",
-  F = "dword", G = "qword", -- No need for sizes/register names for these two.
-}
-
-------------------------------------------------------------------------------
-
--- Output a nicely formatted line with an opcode and operands.
-local function putop(ctx, text, operands)
-  local code, pos, hex = ctx.code, ctx.pos, ""
-  local hmax = ctx.hexdump
-  if hmax > 0 then
-    for i=ctx.start,pos-1 do
-      hex = hex..format("%02X", byte(code, i, i))
-    end
-    if #hex > hmax then hex = sub(hex, 1, hmax)..". "
-    else hex = hex..rep(" ", hmax-#hex+2) end
-  end
-  if operands then text = text.." "..operands end
-  if ctx.o16 then text = "o16 "..text; ctx.o16 = false end
-  if ctx.a32 then text = "a32 "..text; ctx.a32 = false end
-  if ctx.rep then text = ctx.rep.." "..text; ctx.rep = false end
-  if ctx.rex then
-    local t = (ctx.rexw and "w" or "")..(ctx.rexr and "r" or "")..
-	      (ctx.rexx and "x" or "")..(ctx.rexb and "b" or "")
-    if t ~= "" then text = "rex."..t.." "..text end
-    ctx.rexw = false; ctx.rexr = false; ctx.rexx = false; ctx.rexb = false
-    ctx.rex = false
-  end
-  if ctx.seg then
-    local text2, n = gsub(text, "%[", "["..ctx.seg..":")
-    if n == 0 then text = ctx.seg.." "..text else text = text2 end
-    ctx.seg = false
-  end
-  if ctx.lock then text = "lock "..text; ctx.lock = false end
-  local imm = ctx.imm
-  if imm then
-    local sym = ctx.symtab[imm]
-    if sym then text = text.."\t->"..sym end
-  end
-  ctx.out(format("%08x  %s%s\n", ctx.addr+ctx.start, hex, text))
-  ctx.mrm = false
-  ctx.start = pos
-  ctx.imm = nil
-end
-
--- Clear all prefix flags.
-local function clearprefixes(ctx)
-  ctx.o16 = false; ctx.seg = false; ctx.lock = false; ctx.rep = false
-  ctx.rexw = false; ctx.rexr = false; ctx.rexx = false; ctx.rexb = false
-  ctx.rex = false; ctx.a32 = false
-end
-
--- Fallback for incomplete opcodes at the end.
-local function incomplete(ctx)
-  ctx.pos = ctx.stop+1
-  clearprefixes(ctx)
-  return putop(ctx, "(incomplete)")
-end
-
--- Fallback for unknown opcodes.
-local function unknown(ctx)
-  clearprefixes(ctx)
-  return putop(ctx, "(unknown)")
-end
-
--- Return an immediate of the specified size.
-local function getimm(ctx, pos, n)
-  if pos+n-1 > ctx.stop then return incomplete(ctx) end
-  local code = ctx.code
-  if n == 1 then
-    local b1 = byte(code, pos, pos)
-    return b1
-  elseif n == 2 then
-    local b1, b2 = byte(code, pos, pos+1)
-    return b1+b2*256
-  else
-    local b1, b2, b3, b4 = byte(code, pos, pos+3)
-    local imm = b1+b2*256+b3*65536+b4*16777216
-    ctx.imm = imm
-    return imm
-  end
-end
-
--- Process pattern string and generate the operands.
-local function putpat(ctx, name, pat)
-  local operands, regs, sz, mode, sp, rm, sc, rx, sdisp
-  local code, pos, stop = ctx.code, ctx.pos, ctx.stop
-
-  -- Chars used: 1DFGIMPQRSTUVWXacdfgijmoprstuwxyz
-  for p in gmatch(pat, ".") do
-    local x = nil
-    if p == "V" or p == "U" then
-      if ctx.rexw then sz = "Q"; ctx.rexw = false
-      elseif ctx.o16 then sz = "W"; ctx.o16 = false
-      elseif p == "U" and ctx.x64 then sz = "Q"
-      else sz = "D" end
-      regs = map_regs[sz]
-    elseif p == "T" then
-      if ctx.rexw then sz = "Q"; ctx.rexw = false else sz = "D" end
-      regs = map_regs[sz]
-    elseif p == "B" then
-      sz = "B"
-      regs = ctx.rex and map_regs.B64 or map_regs.B
-    elseif match(p, "[WDQMXFG]") then
-      sz = p
-      regs = map_regs[sz]
-    elseif p == "P" then
-      sz = ctx.o16 and "X" or "M"; ctx.o16 = false
-      regs = map_regs[sz]
-    elseif p == "S" then
-      name = name..lower(sz)
-    elseif p == "s" then
-      local imm = getimm(ctx, pos, 1); if not imm then return end
-      x = imm <= 127 and format("+0x%02x", imm)
-		     or format("-0x%02x", 256-imm)
-      pos = pos+1
-    elseif p == "u" then
-      local imm = getimm(ctx, pos, 1); if not imm then return end
-      x = format("0x%02x", imm)
-      pos = pos+1
-    elseif p == "w" then
-      local imm = getimm(ctx, pos, 2); if not imm then return end
-      x = format("0x%x", imm)
-      pos = pos+2
-    elseif p == "o" then -- [offset]
-      if ctx.x64 then
-	local imm1 = getimm(ctx, pos, 4); if not imm1 then return end
-	local imm2 = getimm(ctx, pos+4, 4); if not imm2 then return end
-	x = format("[0x%08x%08x]", imm2, imm1)
-	pos = pos+8
-      else
-	local imm = getimm(ctx, pos, 4); if not imm then return end
-	x = format("[0x%08x]", imm)
-	pos = pos+4
-      end
-    elseif p == "i" or p == "I" then
-      local n = map_sz2n[sz]
-      if n == 8 and ctx.x64 and p == "I" then
-	local imm1 = getimm(ctx, pos, 4); if not imm1 then return end
-	local imm2 = getimm(ctx, pos+4, 4); if not imm2 then return end
-	x = format("0x%08x%08x", imm2, imm1)
-      else
-	if n == 8 then n = 4 end
-	local imm = getimm(ctx, pos, n); if not imm then return end
-	if sz == "Q" and (imm < 0 or imm > 0x7fffffff) then
-	  imm = (0xffffffff+1)-imm
-	  x = format(imm > 65535 and "-0x%08x" or "-0x%x", imm)
-	else
-	  x = format(imm > 65535 and "0x%08x" or "0x%x", imm)
-	end
-      end
-      pos = pos+n
-    elseif p == "j" then
-      local n = map_sz2n[sz]
-      if n == 8 then n = 4 end
-      local imm = getimm(ctx, pos, n); if not imm then return end
-      if sz == "B" and imm > 127 then imm = imm-256
-      elseif imm > 2147483647 then imm = imm-4294967296 end
-      pos = pos+n
-      imm = imm + pos + ctx.addr
-      if imm > 4294967295 and not ctx.x64 then imm = imm-4294967296 end
-      ctx.imm = imm
-      if sz == "W" then
-	x = format("word 0x%04x", imm%65536)
-      elseif ctx.x64 then
-	local lo = imm % 0x1000000
-	x = format("0x%02x%06x", (imm-lo) / 0x1000000, lo)
-      else
-	x = format("0x%08x", imm)
-      end
-    elseif p == "R" then
-      local r = byte(code, pos-1, pos-1)%8
-      if ctx.rexb then r = r + 8; ctx.rexb = false end
-      x = regs[r+1]
-    elseif p == "a" then x = regs[1]
-    elseif p == "c" then x = "cl"
-    elseif p == "d" then x = "dx"
-    elseif p == "1" then x = "1"
-    else
-      if not mode then
-	mode = ctx.mrm
-	if not mode then
-	  if pos > stop then return incomplete(ctx) end
-	  mode = byte(code, pos, pos)
-	  pos = pos+1
-	end
-	rm = mode%8; mode = (mode-rm)/8
-	sp = mode%8; mode = (mode-sp)/8
-	sdisp = ""
-	if mode < 3 then
-	  if rm == 4 then
-	    if pos > stop then return incomplete(ctx) end
-	    sc = byte(code, pos, pos)
-	    pos = pos+1
-	    rm = sc%8; sc = (sc-rm)/8
-	    rx = sc%8; sc = (sc-rx)/8
-	    if ctx.rexx then rx = rx + 8; ctx.rexx = false end
-	    if rx == 4 then rx = nil end
-	  end
-	  if mode > 0 or rm == 5 then
-	    local dsz = mode
-	    if dsz ~= 1 then dsz = 4 end
-	    local disp = getimm(ctx, pos, dsz); if not disp then return end
-	    if mode == 0 then rm = nil end
-	    if rm or rx or (not sc and ctx.x64 and not ctx.a32) then
-	      if dsz == 1 and disp > 127 then
-		sdisp = format("-0x%x", 256-disp)
-	      elseif disp >= 0 and disp <= 0x7fffffff then
-		sdisp = format("+0x%x", disp)
-	      else
-		sdisp = format("-0x%x", (0xffffffff+1)-disp)
-	      end
-	    else
-	      sdisp = format(ctx.x64 and not ctx.a32 and
-		not (disp >= 0 and disp <= 0x7fffffff)
-		and "0xffffffff%08x" or "0x%08x", disp)
-	    end
-	    pos = pos+dsz
-	  end
-	end
-	if rm and ctx.rexb then rm = rm + 8; ctx.rexb = false end
-	if ctx.rexr then sp = sp + 8; ctx.rexr = false end
-      end
-      if p == "m" then
-	if mode == 3 then x = regs[rm+1]
-	else
-	  local aregs = ctx.a32 and map_regs.D or ctx.aregs
-	  local srm, srx = "", ""
-	  if rm then srm = aregs[rm+1]
-	  elseif not sc and ctx.x64 and not ctx.a32 then srm = "rip" end
-	  ctx.a32 = false
-	  if rx then
-	    if rm then srm = srm.."+" end
-	    srx = aregs[rx+1]
-	    if sc > 0 then srx = srx.."*"..(2^sc) end
-	  end
-	  x = format("[%s%s%s]", srm, srx, sdisp)
-	end
-	if mode < 3 and
-	   (not match(pat, "[aRrgp]") or match(pat, "t")) then -- Yuck.
-	  x = map_sz2prefix[sz].." "..x
-	end
-      elseif p == "r" then x = regs[sp+1]
-      elseif p == "g" then x = map_segregs[sp+1]
-      elseif p == "p" then -- Suppress prefix.
-      elseif p == "f" then x = "st"..rm
-      elseif p == "x" then
-	if sp == 0 and ctx.lock and not ctx.x64 then
-	  x = "CR8"; ctx.lock = false
-	else
-	  x = "CR"..sp
-	end
-      elseif p == "y" then x = "DR"..sp
-      elseif p == "z" then x = "TR"..sp
-      elseif p == "t" then
-      else
-	error("bad pattern `"..pat.."'")
-      end
-    end
-    if x then operands = operands and operands..", "..x or x end
-  end
-  ctx.pos = pos
-  return putop(ctx, name, operands)
-end
-
--- Forward declaration.
-local map_act
-
--- Fetch and cache MRM byte.
-local function getmrm(ctx)
-  local mrm = ctx.mrm
-  if not mrm then
-    local pos = ctx.pos
-    if pos > ctx.stop then return nil end
-    mrm = byte(ctx.code, pos, pos)
-    ctx.pos = pos+1
-    ctx.mrm = mrm
-  end
-  return mrm
-end
-
--- Dispatch to handler depending on pattern.
-local function dispatch(ctx, opat, patgrp)
-  if not opat then return unknown(ctx) end
-  if match(opat, "%|") then -- MMX/SSE variants depending on prefix.
-    local p
-    if ctx.rep then
-      p = ctx.rep=="rep" and "%|([^%|]*)" or "%|[^%|]*%|[^%|]*%|([^%|]*)"
-      ctx.rep = false
-    elseif ctx.o16 then p = "%|[^%|]*%|([^%|]*)"; ctx.o16 = false
-    else p = "^[^%|]*" end
-    opat = match(opat, p)
-    if not opat then return unknown(ctx) end
---    ctx.rep = false; ctx.o16 = false
-    --XXX fails for 66 f2 0f 38 f1 06  crc32 eax,WORD PTR [esi]
-    --XXX remove in branches?
-  end
-  if match(opat, "%$") then -- reg$mem variants.
-    local mrm = getmrm(ctx); if not mrm then return incomplete(ctx) end
-    opat = match(opat, mrm >= 192 and "^[^%$]*" or "%$(.*)")
-    if opat == "" then return unknown(ctx) end
-  end
-  if opat == "" then return unknown(ctx) end
-  local name, pat = match(opat, "^([a-z0-9 ]*)(.*)")
-  if pat == "" and patgrp then pat = patgrp end
-  return map_act[sub(pat, 1, 1)](ctx, name, pat)
-end
-
--- Get a pattern from an opcode map and dispatch to handler.
-local function dispatchmap(ctx, opcmap)
-  local pos = ctx.pos
-  local opat = opcmap[byte(ctx.code, pos, pos)]
-  pos = pos + 1
-  ctx.pos = pos
-  return dispatch(ctx, opat)
-end
-
--- Map for action codes. The key is the first char after the name.
-map_act = {
-  -- Simple opcodes without operands.
-  [""] = function(ctx, name, pat)
-    return putop(ctx, name)
-  end,
-
-  -- Operand size chars fall right through.
-  B = putpat, W = putpat, D = putpat, Q = putpat,
-  V = putpat, U = putpat, T = putpat,
-  M = putpat, X = putpat, P = putpat,
-  F = putpat, G = putpat,
-
-  -- Collect prefixes.
-  [":"] = function(ctx, name, pat)
-    ctx[pat == ":" and name or sub(pat, 2)] = name
-    if ctx.pos - ctx.start > 5 then return unknown(ctx) end -- Limit #prefixes.
-  end,
-
-  -- Chain to special handler specified by name.
-  ["*"] = function(ctx, name, pat)
-    return map_act[name](ctx, name, sub(pat, 2))
-  end,
-
-  -- Use named subtable for opcode group.
-  ["!"] = function(ctx, name, pat)
-    local mrm = getmrm(ctx); if not mrm then return incomplete(ctx) end
-    return dispatch(ctx, map_opcgroup[name][((mrm-(mrm%8))/8)%8+1], sub(pat, 2))
-  end,
-
-  -- o16,o32[,o64] variants.
-  sz = function(ctx, name, pat)
-    if ctx.o16 then ctx.o16 = false
-    else
-      pat = match(pat, ",(.*)")
-      if ctx.rexw then
-	local p = match(pat, ",(.*)")
-	if p then pat = p; ctx.rexw = false end
-      end
-    end
-    pat = match(pat, "^[^,]*")
-    return dispatch(ctx, pat)
-  end,
-
-  -- Two-byte opcode dispatch.
-  opc2 = function(ctx, name, pat)
-    return dispatchmap(ctx, map_opc2)
-  end,
-
-  -- Three-byte opcode dispatch.
-  opc3 = function(ctx, name, pat)
-    return dispatchmap(ctx, map_opc3[pat])
-  end,
-
-  -- VMX/SVM dispatch.
-  vm = function(ctx, name, pat)
-    return dispatch(ctx, map_opcvm[ctx.mrm])
-  end,
-
-  -- Floating point opcode dispatch.
-  fp = function(ctx, name, pat)
-    local mrm = getmrm(ctx); if not mrm then return incomplete(ctx) end
-    local rm = mrm%8
-    local idx = pat*8 + ((mrm-rm)/8)%8
-    if mrm >= 192 then idx = idx + 64 end
-    local opat = map_opcfp[idx]
-    if type(opat) == "table" then opat = opat[rm+1] end
-    return dispatch(ctx, opat)
-  end,
-
-  -- REX prefix.
-  rex = function(ctx, name, pat)
-    if ctx.rex then return unknown(ctx) end -- Only 1 REX prefix allowed.
-    for p in gmatch(pat, ".") do ctx["rex"..p] = true end
-    ctx.rex = true
-  end,
-
-  -- Special case for nop with REX prefix.
-  nop = function(ctx, name, pat)
-    return dispatch(ctx, ctx.rex and pat or "nop")
-  end,
-}
-
-------------------------------------------------------------------------------
-
--- Disassemble a block of code.
-local function disass_block(ctx, ofs, len)
-  if not ofs then ofs = 0 end
-  local stop = len and ofs+len or #ctx.code
-  ofs = ofs + 1
-  ctx.start = ofs
-  ctx.pos = ofs
-  ctx.stop = stop
-  ctx.imm = nil
-  ctx.mrm = false
-  clearprefixes(ctx)
-  while ctx.pos <= stop do dispatchmap(ctx, ctx.map1) end
-  if ctx.pos ~= ctx.start then incomplete(ctx) end
-end
-
--- Extended API: create a disassembler context. Then call ctx:disass(ofs, len).
-local function create_(code, addr, out)
-  local ctx = {}
-  ctx.code = code
-  ctx.addr = (addr or 0) - 1
-  ctx.out = out or io.write
-  ctx.symtab = {}
-  ctx.disass = disass_block
-  ctx.hexdump = 16
-  ctx.x64 = false
-  ctx.map1 = map_opc1_32
-  ctx.aregs = map_regs.D
-  return ctx
-end
-
-local function create64_(code, addr, out)
-  local ctx = create_(code, addr, out)
-  ctx.x64 = true
-  ctx.map1 = map_opc1_64
-  ctx.aregs = map_regs.Q
-  return ctx
-end
-
--- Simple API: disassemble code (a string) at address and output via out.
-local function disass_(code, addr, out)
-  create_(code, addr, out):disass()
-end
-
-local function disass64_(code, addr, out)
-  create64_(code, addr, out):disass()
-end
-
--- Return register name for RID.
-local function regname_(r)
-  if r < 8 then return map_regs.D[r+1] end
-  return map_regs.X[r-7]
-end
-
-local function regname64_(r)
-  if r < 16 then return map_regs.Q[r+1] end
-  return map_regs.X[r-15]
-end
-
--- Public module functions.
-module(...)
-
-create = create_
-create64 = create64_
-disass = disass_
-disass64 = disass64_
-regname = regname_
-regname64 = regname64_
-
diff --git a/luajit-2.0/src/jit/dump.lua b/luajit-2.0/src/jit/dump.lua
deleted file mode 100644
index 556ce88..0000000
--- a/luajit-2.0/src/jit/dump.lua
+++ /dev/null
@@ -1,699 +0,0 @@
-----------------------------------------------------------------------------
--- LuaJIT compiler dump module.
---
--- Copyright (C) 2005-2014 Mike Pall. All rights reserved.
--- Released under the MIT license. See Copyright Notice in luajit.h
-----------------------------------------------------------------------------
---
--- This module can be used to debug the JIT compiler itself. It dumps the
--- code representations and structures used in various compiler stages.
---
--- Example usage:
---
---   luajit -jdump -e "local x=0; for i=1,1e6 do x=x+i end; print(x)"
---   luajit -jdump=im -e "for i=1,1000 do for j=1,1000 do end end" | less -R
---   luajit -jdump=is myapp.lua | less -R
---   luajit -jdump=-b myapp.lua
---   luajit -jdump=+aH,myapp.html myapp.lua
---   luajit -jdump=ixT,myapp.dump myapp.lua
---
--- The first argument specifies the dump mode. The second argument gives
--- the output file name. Default output is to stdout, unless the environment
--- variable LUAJIT_DUMPFILE is set. The file is overwritten every time the
--- module is started.
---
--- Different features can be turned on or off with the dump mode. If the
--- mode starts with a '+', the following features are added to the default
--- set of features; a '-' removes them. Otherwise the features are replaced.
---
--- The following dump features are available (* marks the default):
---
---  * t  Print a line for each started, ended or aborted trace (see also -jv).
---  * b  Dump the traced bytecode.
---  * i  Dump the IR (intermediate representation).
---    r  Augment the IR with register/stack slots.
---    s  Dump the snapshot map.
---  * m  Dump the generated machine code.
---    x  Print each taken trace exit.
---    X  Print each taken trace exit and the contents of all registers.
---    a  Print the IR of aborted traces, too.
---
--- The output format can be set with the following characters:
---
---    T  Plain text output.
---    A  ANSI-colored text output
---    H  Colorized HTML + CSS output.
---
--- The default output format is plain text. It's set to ANSI-colored text
--- if the COLORTERM variable is set. Note: this is independent of any output
--- redirection, which is actually considered a feature.
---
--- You probably want to use less -R to enjoy viewing ANSI-colored text from
--- a pipe or a file. Add this to your ~/.bashrc: export LESS="-R"
---
-------------------------------------------------------------------------------
-
--- Cache some library functions and objects.
-local jit = require("jit")
-assert(jit.version_num == 20003, "LuaJIT core/library version mismatch")
-local jutil = require("jit.util")
-local vmdef = require("jit.vmdef")
-local funcinfo, funcbc = jutil.funcinfo, jutil.funcbc
-local traceinfo, traceir, tracek = jutil.traceinfo, jutil.traceir, jutil.tracek
-local tracemc, tracesnap = jutil.tracemc, jutil.tracesnap
-local traceexitstub, ircalladdr = jutil.traceexitstub, jutil.ircalladdr
-local bit = require("bit")
-local band, shl, shr = bit.band, bit.lshift, bit.rshift
-local sub, gsub, format = string.sub, string.gsub, string.format
-local byte, char, rep = string.byte, string.char, string.rep
-local type, tostring = type, tostring
-local stdout, stderr = io.stdout, io.stderr
-
--- Load other modules on-demand.
-local bcline, disass
-
--- Active flag, output file handle and dump mode.
-local active, out, dumpmode
-
-------------------------------------------------------------------------------
-
-local symtabmt = { __index = false }
-local symtab = {}
-local nexitsym = 0
-
--- Fill nested symbol table with per-trace exit stub addresses.
-local function fillsymtab_tr(tr, nexit)
-  local t = {}
-  symtabmt.__index = t
-  if jit.arch == "mips" or jit.arch == "mipsel" then
-    t[traceexitstub(tr, 0)] = "exit"
-    return
-  end
-  for i=0,nexit-1 do
-    local addr = traceexitstub(tr, i)
-    t[addr] = tostring(i)
-  end
-  local addr = traceexitstub(tr, nexit)
-  if addr then t[addr] = "stack_check" end
-end
-
--- Fill symbol table with trace exit stub addresses.
-local function fillsymtab(tr, nexit)
-  local t = symtab
-  if nexitsym == 0 then
-    local ircall = vmdef.ircall
-    for i=0,#ircall do
-      local addr = ircalladdr(i)
-      if addr ~= 0 then t[addr] = ircall[i] end
-    end
-  end
-  if nexitsym == 1000000 then -- Per-trace exit stubs.
-    fillsymtab_tr(tr, nexit)
-  elseif nexit > nexitsym then -- Shared exit stubs.
-    for i=nexitsym,nexit-1 do
-      local addr = traceexitstub(i)
-      if addr == nil then -- Fall back to per-trace exit stubs.
-	fillsymtab_tr(tr, nexit)
-	setmetatable(symtab, symtabmt)
-	nexit = 1000000
-	break
-      end
-      t[addr] = tostring(i)
-    end
-    nexitsym = nexit
-  end
-  return t
-end
-
-local function dumpwrite(s)
-  out:write(s)
-end
-
--- Disassemble machine code.
-local function dump_mcode(tr)
-  local info = traceinfo(tr)
-  if not info then return end
-  local mcode, addr, loop = tracemc(tr)
-  if not mcode then return end
-  if not disass then disass = require("jit.dis_"..jit.arch) end
-  out:write("---- TRACE ", tr, " mcode ", #mcode, "\n")
-  local ctx = disass.create(mcode, addr, dumpwrite)
-  ctx.hexdump = 0
-  ctx.symtab = fillsymtab(tr, info.nexit)
-  if loop ~= 0 then
-    symtab[addr+loop] = "LOOP"
-    ctx:disass(0, loop)
-    out:write("->LOOP:\n")
-    ctx:disass(loop, #mcode-loop)
-    symtab[addr+loop] = nil
-  else
-    ctx:disass(0, #mcode)
-  end
-end
-
-------------------------------------------------------------------------------
-
-local irtype_text = {
-  [0] = "nil",
-  "fal",
-  "tru",
-  "lud",
-  "str",
-  "p32",
-  "thr",
-  "pro",
-  "fun",
-  "p64",
-  "cdt",
-  "tab",
-  "udt",
-  "flt",
-  "num",
-  "i8 ",
-  "u8 ",
-  "i16",
-  "u16",
-  "int",
-  "u32",
-  "i64",
-  "u64",
-  "sfp",
-}
-
-local colortype_ansi = {
-  [0] = "%s",
-  "%s",
-  "%s",
-  "\027[36m%s\027[m",
-  "\027[32m%s\027[m",
-  "%s",
-  "\027[1m%s\027[m",
-  "%s",
-  "\027[1m%s\027[m",
-  "%s",
-  "\027[33m%s\027[m",
-  "\027[31m%s\027[m",
-  "\027[36m%s\027[m",
-  "\027[34m%s\027[m",
-  "\027[34m%s\027[m",
-  "\027[35m%s\027[m",
-  "\027[35m%s\027[m",
-  "\027[35m%s\027[m",
-  "\027[35m%s\027[m",
-  "\027[35m%s\027[m",
-  "\027[35m%s\027[m",
-  "\027[35m%s\027[m",
-  "\027[35m%s\027[m",
-  "\027[35m%s\027[m",
-}
-
-local function colorize_text(s, t)
-  return s
-end
-
-local function colorize_ansi(s, t)
-  return format(colortype_ansi[t], s)
-end
-
-local irtype_ansi = setmetatable({},
-  { __index = function(tab, t)
-      local s = colorize_ansi(irtype_text[t], t); tab[t] = s; return s; end })
-
-local html_escape = { ["<"] = "&lt;", [">"] = "&gt;", ["&"] = "&amp;", }
-
-local function colorize_html(s, t)
-  s = gsub(s, "[<>&]", html_escape)
-  return format('<span class="irt_%s">%s</span>', irtype_text[t], s)
-end
-
-local irtype_html = setmetatable({},
-  { __index = function(tab, t)
-      local s = colorize_html(irtype_text[t], t); tab[t] = s; return s; end })
-
-local header_html = [[
-<style type="text/css">
-background { background: #ffffff; color: #000000; }
-pre.ljdump {
-font-size: 10pt;
-background: #f0f4ff;
-color: #000000;
-border: 1px solid #bfcfff;
-padding: 0.5em;
-margin-left: 2em;
-margin-right: 2em;
-}
-span.irt_str { color: #00a000; }
-span.irt_thr, span.irt_fun { color: #404040; font-weight: bold; }
-span.irt_tab { color: #c00000; }
-span.irt_udt, span.irt_lud { color: #00c0c0; }
-span.irt_num { color: #4040c0; }
-span.irt_int, span.irt_i8, span.irt_u8, span.irt_i16, span.irt_u16 { color: #b040b0; }
-</style>
-]]
-
-local colorize, irtype
-
--- Lookup tables to convert some literals into names.
-local litname = {
-  ["SLOAD "] = setmetatable({}, { __index = function(t, mode)
-    local s = ""
-    if band(mode, 1) ~= 0 then s = s.."P" end
-    if band(mode, 2) ~= 0 then s = s.."F" end
-    if band(mode, 4) ~= 0 then s = s.."T" end
-    if band(mode, 8) ~= 0 then s = s.."C" end
-    if band(mode, 16) ~= 0 then s = s.."R" end
-    if band(mode, 32) ~= 0 then s = s.."I" end
-    t[mode] = s
-    return s
-  end}),
-  ["XLOAD "] = { [0] = "", "R", "V", "RV", "U", "RU", "VU", "RVU", },
-  ["CONV  "] = setmetatable({}, { __index = function(t, mode)
-    local s = irtype[band(mode, 31)]
-    s = irtype[band(shr(mode, 5), 31)].."."..s
-    if band(mode, 0x400) ~= 0 then s = s.." trunc"
-    elseif band(mode, 0x800) ~= 0 then s = s.." sext" end
-    local c = shr(mode, 14)
-    if c == 2 then s = s.." index" elseif c == 3 then s = s.." check" end
-    t[mode] = s
-    return s
-  end}),
-  ["FLOAD "] = vmdef.irfield,
-  ["FREF  "] = vmdef.irfield,
-  ["FPMATH"] = vmdef.irfpm,
-}
-
-local function ctlsub(c)
-  if c == "\n" then return "\\n"
-  elseif c == "\r" then return "\\r"
-  elseif c == "\t" then return "\\t"
-  else return format("\\%03d", byte(c))
-  end
-end
-
-local function fmtfunc(func, pc)
-  local fi = funcinfo(func, pc)
-  if fi.loc then
-    return fi.loc
-  elseif fi.ffid then
-    return vmdef.ffnames[fi.ffid]
-  elseif fi.addr then
-    return format("C:%x", fi.addr)
-  else
-    return "(?)"
-  end
-end
-
-local function formatk(tr, idx)
-  local k, t, slot = tracek(tr, idx)
-  local tn = type(k)
-  local s
-  if tn == "number" then
-    if k == 2^52+2^51 then
-      s = "bias"
-    else
-      s = format("%+.14g", k)
-    end
-  elseif tn == "string" then
-    s = format(#k > 20 and '"%.20s"~' or '"%s"', gsub(k, "%c", ctlsub))
-  elseif tn == "function" then
-    s = fmtfunc(k)
-  elseif tn == "table" then
-    s = format("{%p}", k)
-  elseif tn == "userdata" then
-    if t == 12 then
-      s = format("userdata:%p", k)
-    else
-      s = format("[%p]", k)
-      if s == "[0x00000000]" then s = "NULL" end
-    end
-  elseif t == 21 then -- int64_t
-    s = sub(tostring(k), 1, -3)
-    if sub(s, 1, 1) ~= "-" then s = "+"..s end
-  else
-    s = tostring(k) -- For primitives.
-  end
-  s = colorize(format("%-4s", s), t)
-  if slot then
-    s = format("%s @%d", s, slot)
-  end
-  return s
-end
-
-local function printsnap(tr, snap)
-  local n = 2
-  for s=0,snap[1]-1 do
-    local sn = snap[n]
-    if shr(sn, 24) == s then
-      n = n + 1
-      local ref = band(sn, 0xffff) - 0x8000 -- REF_BIAS
-      if ref < 0 then
-	out:write(formatk(tr, ref))
-      elseif band(sn, 0x80000) ~= 0 then -- SNAP_SOFTFPNUM
-	out:write(colorize(format("%04d/%04d", ref, ref+1), 14))
-      else
-	local m, ot, op1, op2 = traceir(tr, ref)
-	out:write(colorize(format("%04d", ref), band(ot, 31)))
-      end
-      out:write(band(sn, 0x10000) == 0 and " " or "|") -- SNAP_FRAME
-    else
-      out:write("---- ")
-    end
-  end
-  out:write("]\n")
-end
-
--- Dump snapshots (not interleaved with IR).
-local function dump_snap(tr)
-  out:write("---- TRACE ", tr, " snapshots\n")
-  for i=0,1000000000 do
-    local snap = tracesnap(tr, i)
-    if not snap then break end
-    out:write(format("#%-3d %04d [ ", i, snap[0]))
-    printsnap(tr, snap)
-  end
-end
-
--- Return a register name or stack slot for a rid/sp location.
-local function ridsp_name(ridsp, ins)
-  if not disass then disass = require("jit.dis_"..jit.arch) end
-  local rid, slot = band(ridsp, 0xff), shr(ridsp, 8)
-  if rid == 253 or rid == 254 then
-    return (slot == 0 or slot == 255) and " {sink" or format(" {%04d", ins-slot)
-  end
-  if ridsp > 255 then return format("[%x]", slot*4) end
-  if rid < 128 then return disass.regname(rid) end
-  return ""
-end
-
--- Dump CALL* function ref and return optional ctype.
-local function dumpcallfunc(tr, ins)
-  local ctype
-  if ins > 0 then
-    local m, ot, op1, op2 = traceir(tr, ins)
-    if band(ot, 31) == 0 then -- nil type means CARG(func, ctype).
-      ins = op1
-      ctype = formatk(tr, op2)
-    end
-  end
-  if ins < 0 then
-    out:write(format("[0x%x](", tonumber((tracek(tr, ins)))))
-  else
-    out:write(format("%04d (", ins))
-  end
-  return ctype
-end
-
--- Recursively gather CALL* args and dump them.
-local function dumpcallargs(tr, ins)
-  if ins < 0 then
-    out:write(formatk(tr, ins))
-  else
-    local m, ot, op1, op2 = traceir(tr, ins)
-    local oidx = 6*shr(ot, 8)
-    local op = sub(vmdef.irnames, oidx+1, oidx+6)
-    if op == "CARG  " then
-      dumpcallargs(tr, op1)
-      if op2 < 0 then
-	out:write(" ", formatk(tr, op2))
-      else
-	out:write(" ", format("%04d", op2))
-      end
-    else
-      out:write(format("%04d", ins))
-    end
-  end
-end
-
--- Dump IR and interleaved snapshots.
-local function dump_ir(tr, dumpsnap, dumpreg)
-  local info = traceinfo(tr)
-  if not info then return end
-  local nins = info.nins
-  out:write("---- TRACE ", tr, " IR\n")
-  local irnames = vmdef.irnames
-  local snapref = 65536
-  local snap, snapno
-  if dumpsnap then
-    snap = tracesnap(tr, 0)
-    snapref = snap[0]
-    snapno = 0
-  end
-  for ins=1,nins do
-    if ins >= snapref then
-      if dumpreg then
-	out:write(format("....              SNAP   #%-3d [ ", snapno))
-      else
-	out:write(format("....        SNAP   #%-3d [ ", snapno))
-      end
-      printsnap(tr, snap)
-      snapno = snapno + 1
-      snap = tracesnap(tr, snapno)
-      snapref = snap and snap[0] or 65536
-    end
-    local m, ot, op1, op2, ridsp = traceir(tr, ins)
-    local oidx, t = 6*shr(ot, 8), band(ot, 31)
-    local op = sub(irnames, oidx+1, oidx+6)
-    if op == "LOOP  " then
-      if dumpreg then
-	out:write(format("%04d ------------ LOOP ------------\n", ins))
-      else
-	out:write(format("%04d ------ LOOP ------------\n", ins))
-      end
-    elseif op ~= "NOP   " and op ~= "CARG  " and
-	   (dumpreg or op ~= "RENAME") then
-      local rid = band(ridsp, 255)
-      if dumpreg then
-	out:write(format("%04d %-6s", ins, ridsp_name(ridsp, ins)))
-      else
-	out:write(format("%04d ", ins))
-      end
-      out:write(format("%s%s %s %s ",
-		       (rid == 254 or rid == 253) and "}" or
-		       (band(ot, 128) == 0 and " " or ">"),
-		       band(ot, 64) == 0 and " " or "+",
-		       irtype[t], op))
-      local m1, m2 = band(m, 3), band(m, 3*4)
-      if sub(op, 1, 4) == "CALL" then
-	local ctype
-	if m2 == 1*4 then -- op2 == IRMlit
-	  out:write(format("%-10s  (", vmdef.ircall[op2]))
-	else
-	  ctype = dumpcallfunc(tr, op2)
-	end
-	if op1 ~= -1 then dumpcallargs(tr, op1) end
-	out:write(")")
-	if ctype then out:write(" ctype ", ctype) end
-      elseif op == "CNEW  " and op2 == -1 then
-	out:write(formatk(tr, op1))
-      elseif m1 ~= 3 then -- op1 != IRMnone
-	if op1 < 0 then
-	  out:write(formatk(tr, op1))
-	else
-	  out:write(format(m1 == 0 and "%04d" or "#%-3d", op1))
-	end
-	if m2 ~= 3*4 then -- op2 != IRMnone
-	  if m2 == 1*4 then -- op2 == IRMlit
-	    local litn = litname[op]
-	    if litn and litn[op2] then
-	      out:write("  ", litn[op2])
-	    elseif op == "UREFO " or op == "UREFC " then
-	      out:write(format("  #%-3d", shr(op2, 8)))
-	    else
-	      out:write(format("  #%-3d", op2))
-	    end
-	  elseif op2 < 0 then
-	    out:write("  ", formatk(tr, op2))
-	  else
-	    out:write(format("  %04d", op2))
-	  end
-	end
-      end
-      out:write("\n")
-    end
-  end
-  if snap then
-    if dumpreg then
-      out:write(format("....              SNAP   #%-3d [ ", snapno))
-    else
-      out:write(format("....        SNAP   #%-3d [ ", snapno))
-    end
-    printsnap(tr, snap)
-  end
-end
-
-------------------------------------------------------------------------------
-
-local recprefix = ""
-local recdepth = 0
-
--- Format trace error message.
-local function fmterr(err, info)
-  if type(err) == "number" then
-    if type(info) == "function" then info = fmtfunc(info) end
-    err = format(vmdef.traceerr[err], info)
-  end
-  return err
-end
-
--- Dump trace states.
-local function dump_trace(what, tr, func, pc, otr, oex)
-  if what == "stop" or (what == "abort" and dumpmode.a) then
-    if dumpmode.i then dump_ir(tr, dumpmode.s, dumpmode.r and what == "stop")
-    elseif dumpmode.s then dump_snap(tr) end
-    if dumpmode.m then dump_mcode(tr) end
-  end
-  if what == "start" then
-    if dumpmode.H then out:write('<pre class="ljdump">\n') end
-    out:write("---- TRACE ", tr, " ", what)
-    if otr then out:write(" ", otr, "/", oex) end
-    out:write(" ", fmtfunc(func, pc), "\n")
-  elseif what == "stop" or what == "abort" then
-    out:write("---- TRACE ", tr, " ", what)
-    if what == "abort" then
-      out:write(" ", fmtfunc(func, pc), " -- ", fmterr(otr, oex), "\n")
-    else
-      local info = traceinfo(tr)
-      local link, ltype = info.link, info.linktype
-      if link == tr or link == 0 then
-	out:write(" -> ", ltype, "\n")
-      elseif ltype == "root" then
-	out:write(" -> ", link, "\n")
-      else
-	out:write(" -> ", link, " ", ltype, "\n")
-      end
-    end
-    if dumpmode.H then out:write("</pre>\n\n") else out:write("\n") end
-  else
-    out:write("---- TRACE ", what, "\n\n")
-  end
-  out:flush()
-end
-
--- Dump recorded bytecode.
-local function dump_record(tr, func, pc, depth, callee)
-  if depth ~= recdepth then
-    recdepth = depth
-    recprefix = rep(" .", depth)
-  end
-  local line
-  if pc >= 0 then
-    line = bcline(func, pc, recprefix)
-    if dumpmode.H then line = gsub(line, "[<>&]", html_escape) end
-  else
-    line = "0000 "..recprefix.." FUNCC      \n"
-    callee = func
-  end
-  if pc <= 0 then
-    out:write(sub(line, 1, -2), "         ; ", fmtfunc(func), "\n")
-  else
-    out:write(line)
-  end
-  if pc >= 0 and band(funcbc(func, pc), 0xff) < 16 then -- ORDER BC
-    out:write(bcline(func, pc+1, recprefix)) -- Write JMP for cond.
-  end
-end
-
-------------------------------------------------------------------------------
-
--- Dump taken trace exits.
-local function dump_texit(tr, ex, ngpr, nfpr, ...)
-  out:write("---- TRACE ", tr, " exit ", ex, "\n")
-  if dumpmode.X then
-    local regs = {...}
-    if jit.arch == "x64" then
-      for i=1,ngpr do
-	out:write(format(" %016x", regs[i]))
-	if i % 4 == 0 then out:write("\n") end
-      end
-    else
-      for i=1,ngpr do
-	out:write(format(" %08x", regs[i]))
-	if i % 8 == 0 then out:write("\n") end
-      end
-    end
-    if jit.arch == "mips" or jit.arch == "mipsel" then
-      for i=1,nfpr,2 do
-	out:write(format(" %+17.14g", regs[ngpr+i]))
-	if i % 8 == 7 then out:write("\n") end
-      end
-    else
-      for i=1,nfpr do
-	out:write(format(" %+17.14g", regs[ngpr+i]))
-	if i % 4 == 0 then out:write("\n") end
-      end
-    end
-  end
-end
-
-------------------------------------------------------------------------------
-
--- Detach dump handlers.
-local function dumpoff()
-  if active then
-    active = false
-    jit.attach(dump_texit)
-    jit.attach(dump_record)
-    jit.attach(dump_trace)
-    if out and out ~= stdout and out ~= stderr then out:close() end
-    out = nil
-  end
-end
-
--- Open the output file and attach dump handlers.
-local function dumpon(opt, outfile)
-  if active then dumpoff() end
-
-  local colormode = os.getenv("COLORTERM") and "A" or "T"
-  if opt then
-    opt = gsub(opt, "[TAH]", function(mode) colormode = mode; return ""; end)
-  end
-
-  local m = { t=true, b=true, i=true, m=true, }
-  if opt and opt ~= "" then
-    local o = sub(opt, 1, 1)
-    if o ~= "+" and o ~= "-" then m = {} end
-    for i=1,#opt do m[sub(opt, i, i)] = (o ~= "-") end
-  end
-  dumpmode = m
-
-  if m.t or m.b or m.i or m.s or m.m then
-    jit.attach(dump_trace, "trace")
-  end
-  if m.b then
-    jit.attach(dump_record, "record")
-    if not bcline then bcline = require("jit.bc").line end
-  end
-  if m.x or m.X then
-    jit.attach(dump_texit, "texit")
-  end
-
-  if not outfile then outfile = os.getenv("LUAJIT_DUMPFILE") end
-  if outfile then
-    out = outfile == "-" and stdout or assert(io.open(outfile, "w"))
-  else
-    out = stdout
-  end
-
-  m[colormode] = true
-  if colormode == "A" then
-    colorize = colorize_ansi
-    irtype = irtype_ansi
-  elseif colormode == "H" then
-    colorize = colorize_html
-    irtype = irtype_html
-    out:write(header_html)
-  else
-    colorize = colorize_text
-    irtype = irtype_text
-  end
-
-  active = true
-end
-
--- Public module functions.
-module(...)
-
-on = dumpon
-off = dumpoff
-start = dumpon -- For -j command line option.
-
diff --git a/luajit-2.0/src/jit/v.lua b/luajit-2.0/src/jit/v.lua
deleted file mode 100644
index 197e67c..0000000
--- a/luajit-2.0/src/jit/v.lua
+++ /dev/null
@@ -1,167 +0,0 @@
-----------------------------------------------------------------------------
--- Verbose mode of the LuaJIT compiler.
---
--- Copyright (C) 2005-2014 Mike Pall. All rights reserved.
--- Released under the MIT license. See Copyright Notice in luajit.h
-----------------------------------------------------------------------------
---
--- This module shows verbose information about the progress of the
--- JIT compiler. It prints one line for each generated trace. This module
--- is useful to see which code has been compiled or where the compiler
--- punts and falls back to the interpreter.
---
--- Example usage:
---
---   luajit -jv -e "for i=1,1000 do for j=1,1000 do end end"
---   luajit -jv=myapp.out myapp.lua
---
--- Default output is to stderr. To redirect the output to a file, pass a
--- filename as an argument (use '-' for stdout) or set the environment
--- variable LUAJIT_VERBOSEFILE. The file is overwritten every time the
--- module is started.
---
--- The output from the first example should look like this:
---
--- [TRACE   1 (command line):1 loop]
--- [TRACE   2 (1/3) (command line):1 -> 1]
---
--- The first number in each line is the internal trace number. Next are
--- the file name ('(command line)') and the line number (':1') where the
--- trace has started. Side traces also show the parent trace number and
--- the exit number where they are attached to in parentheses ('(1/3)').
--- An arrow at the end shows where the trace links to ('-> 1'), unless
--- it loops to itself.
---
--- In this case the inner loop gets hot and is traced first, generating
--- a root trace. Then the last exit from the 1st trace gets hot, too,
--- and triggers generation of the 2nd trace. The side trace follows the
--- path along the outer loop and *around* the inner loop, back to its
--- start, and then links to the 1st trace. Yes, this may seem unusual,
--- if you know how traditional compilers work. Trace compilers are full
--- of surprises like this -- have fun! :-)
---
--- Aborted traces are shown like this:
---
--- [TRACE --- foo.lua:44 -- leaving loop in root trace at foo:lua:50]
---
--- Don't worry -- trace aborts are quite common, even in programs which
--- can be fully compiled. The compiler may retry several times until it
--- finds a suitable trace.
---
--- Of course this doesn't work with features that are not-yet-implemented
--- (NYI error messages). The VM simply falls back to the interpreter. This
--- may not matter at all if the particular trace is not very high up in
--- the CPU usage profile. Oh, and the interpreter is quite fast, too.
---
--- Also check out the -jdump module, which prints all the gory details.
---
-------------------------------------------------------------------------------
-
--- Cache some library functions and objects.
-local jit = require("jit")
-assert(jit.version_num == 20003, "LuaJIT core/library version mismatch")
-local jutil = require("jit.util")
-local vmdef = require("jit.vmdef")
-local funcinfo, traceinfo = jutil.funcinfo, jutil.traceinfo
-local type, format = type, string.format
-local stdout, stderr = io.stdout, io.stderr
-
--- Active flag and output file handle.
-local active, out
-
-------------------------------------------------------------------------------
-
-local startloc, startex
-
-local function fmtfunc(func, pc)
-  local fi = funcinfo(func, pc)
-  if fi.loc then
-    return fi.loc
-  elseif fi.ffid then
-    return vmdef.ffnames[fi.ffid]
-  elseif fi.addr then
-    return format("C:%x", fi.addr)
-  else
-    return "(?)"
-  end
-end
-
--- Format trace error message.
-local function fmterr(err, info)
-  if type(err) == "number" then
-    if type(info) == "function" then info = fmtfunc(info) end
-    err = format(vmdef.traceerr[err], info)
-  end
-  return err
-end
-
--- Dump trace states.
-local function dump_trace(what, tr, func, pc, otr, oex)
-  if what == "start" then
-    startloc = fmtfunc(func, pc)
-    startex = otr and "("..otr.."/"..oex..") " or ""
-  else
-    if what == "abort" then
-      local loc = fmtfunc(func, pc)
-      if loc ~= startloc then
-	out:write(format("[TRACE --- %s%s -- %s at %s]\n",
-	  startex, startloc, fmterr(otr, oex), loc))
-      else
-	out:write(format("[TRACE --- %s%s -- %s]\n",
-	  startex, startloc, fmterr(otr, oex)))
-      end
-    elseif what == "stop" then
-      local info = traceinfo(tr)
-      local link, ltype = info.link, info.linktype
-      if ltype == "interpreter" then
-	out:write(format("[TRACE %3s %s%s -- fallback to interpreter]\n",
-	  tr, startex, startloc))
-      elseif link == tr or link == 0 then
-	out:write(format("[TRACE %3s %s%s %s]\n",
-	  tr, startex, startloc, ltype))
-      elseif ltype == "root" then
-	out:write(format("[TRACE %3s %s%s -> %d]\n",
-	  tr, startex, startloc, link))
-      else
-	out:write(format("[TRACE %3s %s%s -> %d %s]\n",
-	  tr, startex, startloc, link, ltype))
-      end
-    else
-      out:write(format("[TRACE %s]\n", what))
-    end
-    out:flush()
-  end
-end
-
-------------------------------------------------------------------------------
-
--- Detach dump handlers.
-local function dumpoff()
-  if active then
-    active = false
-    jit.attach(dump_trace)
-    if out and out ~= stdout and out ~= stderr then out:close() end
-    out = nil
-  end
-end
-
--- Open the output file and attach dump handlers.
-local function dumpon(outfile)
-  if active then dumpoff() end
-  if not outfile then outfile = os.getenv("LUAJIT_VERBOSEFILE") end
-  if outfile then
-    out = outfile == "-" and stdout or assert(io.open(outfile, "w"))
-  else
-    out = stderr
-  end
-  jit.attach(dump_trace, "trace")
-  active = true
-end
-
--- Public module functions.
-module(...)
-
-on = dumpon
-off = dumpoff
-start = dumpon -- For -j command line option.
-
diff --git a/luajit-2.0/src/lauxlib.h b/luajit-2.0/src/lauxlib.h
deleted file mode 100644
index fed1491..0000000
--- a/luajit-2.0/src/lauxlib.h
+++ /dev/null
@@ -1,167 +0,0 @@
-/*
-** $Id: lauxlib.h,v 1.88.1.1 2007/12/27 13:02:25 roberto Exp $
-** Auxiliary functions for building Lua libraries
-** See Copyright Notice in lua.h
-*/
-
-
-#ifndef lauxlib_h
-#define lauxlib_h
-
-
-#include <stddef.h>
-#include <stdio.h>
-
-#include "lua.h"
-
-
-#define luaL_getn(L,i)          ((int)lua_objlen(L, i))
-#define luaL_setn(L,i,j)        ((void)0)  /* no op! */
-
-/* extra error code for `luaL_load' */
-#define LUA_ERRFILE     (LUA_ERRERR+1)
-
-typedef struct luaL_Reg {
-  const char *name;
-  lua_CFunction func;
-} luaL_Reg;
-
-LUALIB_API void (luaL_openlib) (lua_State *L, const char *libname,
-                                const luaL_Reg *l, int nup);
-LUALIB_API void (luaL_register) (lua_State *L, const char *libname,
-                                const luaL_Reg *l);
-LUALIB_API int (luaL_getmetafield) (lua_State *L, int obj, const char *e);
-LUALIB_API int (luaL_callmeta) (lua_State *L, int obj, const char *e);
-LUALIB_API int (luaL_typerror) (lua_State *L, int narg, const char *tname);
-LUALIB_API int (luaL_argerror) (lua_State *L, int numarg, const char *extramsg);
-LUALIB_API const char *(luaL_checklstring) (lua_State *L, int numArg,
-                                                          size_t *l);
-LUALIB_API const char *(luaL_optlstring) (lua_State *L, int numArg,
-                                          const char *def, size_t *l);
-LUALIB_API lua_Number (luaL_checknumber) (lua_State *L, int numArg);
-LUALIB_API lua_Number (luaL_optnumber) (lua_State *L, int nArg, lua_Number def);
-
-LUALIB_API lua_Integer (luaL_checkinteger) (lua_State *L, int numArg);
-LUALIB_API lua_Integer (luaL_optinteger) (lua_State *L, int nArg,
-                                          lua_Integer def);
-
-LUALIB_API void (luaL_checkstack) (lua_State *L, int sz, const char *msg);
-LUALIB_API void (luaL_checktype) (lua_State *L, int narg, int t);
-LUALIB_API void (luaL_checkany) (lua_State *L, int narg);
-
-LUALIB_API int   (luaL_newmetatable) (lua_State *L, const char *tname);
-LUALIB_API void *(luaL_checkudata) (lua_State *L, int ud, const char *tname);
-
-LUALIB_API void (luaL_where) (lua_State *L, int lvl);
-LUALIB_API int (luaL_error) (lua_State *L, const char *fmt, ...);
-
-LUALIB_API int (luaL_checkoption) (lua_State *L, int narg, const char *def,
-                                   const char *const lst[]);
-
-LUALIB_API int (luaL_ref) (lua_State *L, int t);
-LUALIB_API void (luaL_unref) (lua_State *L, int t, int ref);
-
-LUALIB_API int (luaL_loadfile) (lua_State *L, const char *filename);
-LUALIB_API int (luaL_loadbuffer) (lua_State *L, const char *buff, size_t sz,
-                                  const char *name);
-LUALIB_API int (luaL_loadstring) (lua_State *L, const char *s);
-
-LUALIB_API lua_State *(luaL_newstate) (void);
-
-
-LUALIB_API const char *(luaL_gsub) (lua_State *L, const char *s, const char *p,
-                                                  const char *r);
-
-LUALIB_API const char *(luaL_findtable) (lua_State *L, int idx,
-                                         const char *fname, int szhint);
-
-/* From Lua 5.2. */
-LUALIB_API int luaL_fileresult(lua_State *L, int stat, const char *fname);
-LUALIB_API int luaL_execresult(lua_State *L, int stat);
-LUALIB_API int (luaL_loadfilex) (lua_State *L, const char *filename,
-				 const char *mode);
-LUALIB_API int (luaL_loadbufferx) (lua_State *L, const char *buff, size_t sz,
-				   const char *name, const char *mode);
-LUALIB_API void luaL_traceback (lua_State *L, lua_State *L1, const char *msg,
-				int level);
-
-
-/*
-** ===============================================================
-** some useful macros
-** ===============================================================
-*/
-
-#define luaL_argcheck(L, cond,numarg,extramsg)	\
-		((void)((cond) || luaL_argerror(L, (numarg), (extramsg))))
-#define luaL_checkstring(L,n)	(luaL_checklstring(L, (n), NULL))
-#define luaL_optstring(L,n,d)	(luaL_optlstring(L, (n), (d), NULL))
-#define luaL_checkint(L,n)	((int)luaL_checkinteger(L, (n)))
-#define luaL_optint(L,n,d)	((int)luaL_optinteger(L, (n), (d)))
-#define luaL_checklong(L,n)	((long)luaL_checkinteger(L, (n)))
-#define luaL_optlong(L,n,d)	((long)luaL_optinteger(L, (n), (d)))
-
-#define luaL_typename(L,i)	lua_typename(L, lua_type(L,(i)))
-
-#define luaL_dofile(L, fn) \
-	(luaL_loadfile(L, fn) || lua_pcall(L, 0, LUA_MULTRET, 0))
-
-#define luaL_dostring(L, s) \
-	(luaL_loadstring(L, s) || lua_pcall(L, 0, LUA_MULTRET, 0))
-
-#define luaL_getmetatable(L,n)	(lua_getfield(L, LUA_REGISTRYINDEX, (n)))
-
-#define luaL_opt(L,f,n,d)	(lua_isnoneornil(L,(n)) ? (d) : f(L,(n)))
-
-/*
-** {======================================================
-** Generic Buffer manipulation
-** =======================================================
-*/
-
-
-
-typedef struct luaL_Buffer {
-  char *p;			/* current position in buffer */
-  int lvl;  /* number of strings in the stack (level) */
-  lua_State *L;
-  char buffer[LUAL_BUFFERSIZE];
-} luaL_Buffer;
-
-#define luaL_addchar(B,c) \
-  ((void)((B)->p < ((B)->buffer+LUAL_BUFFERSIZE) || luaL_prepbuffer(B)), \
-   (*(B)->p++ = (char)(c)))
-
-/* compatibility only */
-#define luaL_putchar(B,c)	luaL_addchar(B,c)
-
-#define luaL_addsize(B,n)	((B)->p += (n))
-
-LUALIB_API void (luaL_buffinit) (lua_State *L, luaL_Buffer *B);
-LUALIB_API char *(luaL_prepbuffer) (luaL_Buffer *B);
-LUALIB_API void (luaL_addlstring) (luaL_Buffer *B, const char *s, size_t l);
-LUALIB_API void (luaL_addstring) (luaL_Buffer *B, const char *s);
-LUALIB_API void (luaL_addvalue) (luaL_Buffer *B);
-LUALIB_API void (luaL_pushresult) (luaL_Buffer *B);
-
-
-/* }====================================================== */
-
-
-/* compatibility with ref system */
-
-/* pre-defined references */
-#define LUA_NOREF       (-2)
-#define LUA_REFNIL      (-1)
-
-#define lua_ref(L,lock) ((lock) ? luaL_ref(L, LUA_REGISTRYINDEX) : \
-      (lua_pushstring(L, "unlocked references are obsolete"), lua_error(L), 0))
-
-#define lua_unref(L,ref)        luaL_unref(L, LUA_REGISTRYINDEX, (ref))
-
-#define lua_getref(L,ref)       lua_rawgeti(L, LUA_REGISTRYINDEX, (ref))
-
-
-#define luaL_reg	luaL_Reg
-
-#endif
diff --git a/luajit-2.0/src/lib_aux.c b/luajit-2.0/src/lib_aux.c
deleted file mode 100644
index e88dc7c..0000000
--- a/luajit-2.0/src/lib_aux.c
+++ /dev/null
@@ -1,356 +0,0 @@
-/*
-** Auxiliary library for the Lua/C API.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-**
-** Major parts taken verbatim or adapted from the Lua interpreter.
-** Copyright (C) 1994-2008 Lua.org, PUC-Rio. See Copyright Notice in lua.h
-*/
-
-#include <errno.h>
-#include <stdarg.h>
-#include <stdio.h>
-
-#define lib_aux_c
-#define LUA_LIB
-
-#include "lua.h"
-#include "lauxlib.h"
-
-#include "lj_obj.h"
-#include "lj_err.h"
-#include "lj_state.h"
-#include "lj_trace.h"
-#include "lj_lib.h"
-
-#if LJ_TARGET_POSIX
-#include <sys/wait.h>
-#endif
-
-/* -- I/O error handling -------------------------------------------------- */
-
-LUALIB_API int luaL_fileresult(lua_State *L, int stat, const char *fname)
-{
-  if (stat) {
-    setboolV(L->top++, 1);
-    return 1;
-  } else {
-    int en = errno;  /* Lua API calls may change this value. */
-    setnilV(L->top++);
-    if (fname)
-      lua_pushfstring(L, "%s: %s", fname, strerror(en));
-    else
-      lua_pushfstring(L, "%s", strerror(en));
-    setintV(L->top++, en);
-    lj_trace_abort(G(L));
-    return 3;
-  }
-}
-
-LUALIB_API int luaL_execresult(lua_State *L, int stat)
-{
-  if (stat != -1) {
-#if LJ_TARGET_POSIX
-    if (WIFSIGNALED(stat)) {
-      stat = WTERMSIG(stat);
-      setnilV(L->top++);
-      lua_pushliteral(L, "signal");
-    } else {
-      if (WIFEXITED(stat))
-	stat = WEXITSTATUS(stat);
-      if (stat == 0)
-	setboolV(L->top++, 1);
-      else
-	setnilV(L->top++);
-      lua_pushliteral(L, "exit");
-    }
-#else
-    if (stat == 0)
-      setboolV(L->top++, 1);
-    else
-      setnilV(L->top++);
-    lua_pushliteral(L, "exit");
-#endif
-    setintV(L->top++, stat);
-    return 3;
-  }
-  return luaL_fileresult(L, 0, NULL);
-}
-
-/* -- Module registration ------------------------------------------------- */
-
-LUALIB_API const char *luaL_findtable(lua_State *L, int idx,
-				      const char *fname, int szhint)
-{
-  const char *e;
-  lua_pushvalue(L, idx);
-  do {
-    e = strchr(fname, '.');
-    if (e == NULL) e = fname + strlen(fname);
-    lua_pushlstring(L, fname, (size_t)(e - fname));
-    lua_rawget(L, -2);
-    if (lua_isnil(L, -1)) {  /* no such field? */
-      lua_pop(L, 1);  /* remove this nil */
-      lua_createtable(L, 0, (*e == '.' ? 1 : szhint)); /* new table for field */
-      lua_pushlstring(L, fname, (size_t)(e - fname));
-      lua_pushvalue(L, -2);
-      lua_settable(L, -4);  /* set new table into field */
-    } else if (!lua_istable(L, -1)) {  /* field has a non-table value? */
-      lua_pop(L, 2);  /* remove table and value */
-      return fname;  /* return problematic part of the name */
-    }
-    lua_remove(L, -2);  /* remove previous table */
-    fname = e + 1;
-  } while (*e == '.');
-  return NULL;
-}
-
-static int libsize(const luaL_Reg *l)
-{
-  int size = 0;
-  for (; l->name; l++) size++;
-  return size;
-}
-
-LUALIB_API void luaL_openlib(lua_State *L, const char *libname,
-			     const luaL_Reg *l, int nup)
-{
-  lj_lib_checkfpu(L);
-  if (libname) {
-    int size = libsize(l);
-    /* check whether lib already exists */
-    luaL_findtable(L, LUA_REGISTRYINDEX, "_LOADED", 16);
-    lua_getfield(L, -1, libname);  /* get _LOADED[libname] */
-    if (!lua_istable(L, -1)) {  /* not found? */
-      lua_pop(L, 1);  /* remove previous result */
-      /* try global variable (and create one if it does not exist) */
-      if (luaL_findtable(L, LUA_GLOBALSINDEX, libname, size) != NULL)
-	lj_err_callerv(L, LJ_ERR_BADMODN, libname);
-      lua_pushvalue(L, -1);
-      lua_setfield(L, -3, libname);  /* _LOADED[libname] = new table */
-    }
-    lua_remove(L, -2);  /* remove _LOADED table */
-    lua_insert(L, -(nup+1));  /* move library table to below upvalues */
-  }
-  for (; l->name; l++) {
-    int i;
-    for (i = 0; i < nup; i++)  /* copy upvalues to the top */
-      lua_pushvalue(L, -nup);
-    lua_pushcclosure(L, l->func, nup);
-    lua_setfield(L, -(nup+2), l->name);
-  }
-  lua_pop(L, nup);  /* remove upvalues */
-}
-
-LUALIB_API void luaL_register(lua_State *L, const char *libname,
-			      const luaL_Reg *l)
-{
-  luaL_openlib(L, libname, l, 0);
-}
-
-LUALIB_API const char *luaL_gsub(lua_State *L, const char *s,
-				 const char *p, const char *r)
-{
-  const char *wild;
-  size_t l = strlen(p);
-  luaL_Buffer b;
-  luaL_buffinit(L, &b);
-  while ((wild = strstr(s, p)) != NULL) {
-    luaL_addlstring(&b, s, (size_t)(wild - s));  /* push prefix */
-    luaL_addstring(&b, r);  /* push replacement in place of pattern */
-    s = wild + l;  /* continue after `p' */
-  }
-  luaL_addstring(&b, s);  /* push last suffix */
-  luaL_pushresult(&b);
-  return lua_tostring(L, -1);
-}
-
-/* -- Buffer handling ----------------------------------------------------- */
-
-#define bufflen(B)	((size_t)((B)->p - (B)->buffer))
-#define bufffree(B)	((size_t)(LUAL_BUFFERSIZE - bufflen(B)))
-
-static int emptybuffer(luaL_Buffer *B)
-{
-  size_t l = bufflen(B);
-  if (l == 0)
-    return 0;  /* put nothing on stack */
-  lua_pushlstring(B->L, B->buffer, l);
-  B->p = B->buffer;
-  B->lvl++;
-  return 1;
-}
-
-static void adjuststack(luaL_Buffer *B)
-{
-  if (B->lvl > 1) {
-    lua_State *L = B->L;
-    int toget = 1;  /* number of levels to concat */
-    size_t toplen = lua_strlen(L, -1);
-    do {
-      size_t l = lua_strlen(L, -(toget+1));
-      if (!(B->lvl - toget + 1 >= LUA_MINSTACK/2 || toplen > l))
-	break;
-      toplen += l;
-      toget++;
-    } while (toget < B->lvl);
-    lua_concat(L, toget);
-    B->lvl = B->lvl - toget + 1;
-  }
-}
-
-LUALIB_API char *luaL_prepbuffer(luaL_Buffer *B)
-{
-  if (emptybuffer(B))
-    adjuststack(B);
-  return B->buffer;
-}
-
-LUALIB_API void luaL_addlstring(luaL_Buffer *B, const char *s, size_t l)
-{
-  while (l--)
-    luaL_addchar(B, *s++);
-}
-
-LUALIB_API void luaL_addstring(luaL_Buffer *B, const char *s)
-{
-  luaL_addlstring(B, s, strlen(s));
-}
-
-LUALIB_API void luaL_pushresult(luaL_Buffer *B)
-{
-  emptybuffer(B);
-  lua_concat(B->L, B->lvl);
-  B->lvl = 1;
-}
-
-LUALIB_API void luaL_addvalue(luaL_Buffer *B)
-{
-  lua_State *L = B->L;
-  size_t vl;
-  const char *s = lua_tolstring(L, -1, &vl);
-  if (vl <= bufffree(B)) {  /* fit into buffer? */
-    memcpy(B->p, s, vl);  /* put it there */
-    B->p += vl;
-    lua_pop(L, 1);  /* remove from stack */
-  } else {
-    if (emptybuffer(B))
-      lua_insert(L, -2);  /* put buffer before new value */
-    B->lvl++;  /* add new value into B stack */
-    adjuststack(B);
-  }
-}
-
-LUALIB_API void luaL_buffinit(lua_State *L, luaL_Buffer *B)
-{
-  B->L = L;
-  B->p = B->buffer;
-  B->lvl = 0;
-}
-
-/* -- Reference management ------------------------------------------------ */
-
-#define FREELIST_REF	0
-
-/* Convert a stack index to an absolute index. */
-#define abs_index(L, i) \
-  ((i) > 0 || (i) <= LUA_REGISTRYINDEX ? (i) : lua_gettop(L) + (i) + 1)
-
-LUALIB_API int luaL_ref(lua_State *L, int t)
-{
-  int ref;
-  t = abs_index(L, t);
-  if (lua_isnil(L, -1)) {
-    lua_pop(L, 1);  /* remove from stack */
-    return LUA_REFNIL;  /* `nil' has a unique fixed reference */
-  }
-  lua_rawgeti(L, t, FREELIST_REF);  /* get first free element */
-  ref = (int)lua_tointeger(L, -1);  /* ref = t[FREELIST_REF] */
-  lua_pop(L, 1);  /* remove it from stack */
-  if (ref != 0) {  /* any free element? */
-    lua_rawgeti(L, t, ref);  /* remove it from list */
-    lua_rawseti(L, t, FREELIST_REF);  /* (t[FREELIST_REF] = t[ref]) */
-  } else {  /* no free elements */
-    ref = (int)lua_objlen(L, t);
-    ref++;  /* create new reference */
-  }
-  lua_rawseti(L, t, ref);
-  return ref;
-}
-
-LUALIB_API void luaL_unref(lua_State *L, int t, int ref)
-{
-  if (ref >= 0) {
-    t = abs_index(L, t);
-    lua_rawgeti(L, t, FREELIST_REF);
-    lua_rawseti(L, t, ref);  /* t[ref] = t[FREELIST_REF] */
-    lua_pushinteger(L, ref);
-    lua_rawseti(L, t, FREELIST_REF);  /* t[FREELIST_REF] = ref */
-  }
-}
-
-/* -- Default allocator and panic function -------------------------------- */
-
-static int panic(lua_State *L)
-{
-  const char *s = lua_tostring(L, -1);
-  fputs("PANIC: unprotected error in call to Lua API (", stderr);
-  fputs(s ? s : "?", stderr);
-  fputc(')', stderr); fputc('\n', stderr);
-  fflush(stderr);
-  return 0;
-}
-
-#ifdef LUAJIT_USE_SYSMALLOC
-
-#if LJ_64 && !defined(LUAJIT_USE_VALGRIND)
-#error "Must use builtin allocator for 64 bit target"
-#endif
-
-static void *mem_alloc(void *ud, void *ptr, size_t osize, size_t nsize)
-{
-  (void)ud;
-  (void)osize;
-  if (nsize == 0) {
-    free(ptr);
-    return NULL;
-  } else {
-    return realloc(ptr, nsize);
-  }
-}
-
-LUALIB_API lua_State *luaL_newstate(void)
-{
-  lua_State *L = lua_newstate(mem_alloc, NULL);
-  if (L) G(L)->panic = panic;
-  return L;
-}
-
-#else
-
-#include "lj_alloc.h"
-
-LUALIB_API lua_State *luaL_newstate(void)
-{
-  lua_State *L;
-  void *ud = lj_alloc_create();
-  if (ud == NULL) return NULL;
-#if LJ_64
-  L = lj_state_newstate(lj_alloc_f, ud);
-#else
-  L = lua_newstate(lj_alloc_f, ud);
-#endif
-  if (L) G(L)->panic = panic;
-  return L;
-}
-
-#if LJ_64
-LUA_API lua_State *lua_newstate(lua_Alloc f, void *ud)
-{
-  UNUSED(f); UNUSED(ud);
-  fputs("Must use luaL_newstate() for 64 bit target\n", stderr);
-  return NULL;
-}
-#endif
-
-#endif
-
diff --git a/luajit-2.0/src/lib_base.c b/luajit-2.0/src/lib_base.c
deleted file mode 100644
index 30e88f1..0000000
--- a/luajit-2.0/src/lib_base.c
+++ /dev/null
@@ -1,683 +0,0 @@
-/*
-** Base and coroutine library.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-**
-** Major portions taken verbatim or adapted from the Lua interpreter.
-** Copyright (C) 1994-2011 Lua.org, PUC-Rio. See Copyright Notice in lua.h
-*/
-
-#include <stdio.h>
-
-#define lib_base_c
-#define LUA_LIB
-
-#include "lua.h"
-#include "lauxlib.h"
-#include "lualib.h"
-
-#include "lj_obj.h"
-#include "lj_gc.h"
-#include "lj_err.h"
-#include "lj_debug.h"
-#include "lj_str.h"
-#include "lj_tab.h"
-#include "lj_meta.h"
-#include "lj_state.h"
-#if LJ_HASFFI
-#include "lj_ctype.h"
-#include "lj_cconv.h"
-#endif
-#include "lj_bc.h"
-#include "lj_ff.h"
-#include "lj_dispatch.h"
-#include "lj_char.h"
-#include "lj_strscan.h"
-#include "lj_lib.h"
-
-/* -- Base library: checks ------------------------------------------------ */
-
-#define LJLIB_MODULE_base
-
-LJLIB_ASM(assert)		LJLIB_REC(.)
-{
-  GCstr *s;
-  lj_lib_checkany(L, 1);
-  s = lj_lib_optstr(L, 2);
-  if (s)
-    lj_err_callermsg(L, strdata(s));
-  else
-    lj_err_caller(L, LJ_ERR_ASSERT);
-  return FFH_UNREACHABLE;
-}
-
-/* ORDER LJ_T */
-LJLIB_PUSH("nil")
-LJLIB_PUSH("boolean")
-LJLIB_PUSH(top-1)  /* boolean */
-LJLIB_PUSH("userdata")
-LJLIB_PUSH("string")
-LJLIB_PUSH("upval")
-LJLIB_PUSH("thread")
-LJLIB_PUSH("proto")
-LJLIB_PUSH("function")
-LJLIB_PUSH("trace")
-LJLIB_PUSH("cdata")
-LJLIB_PUSH("table")
-LJLIB_PUSH(top-9)  /* userdata */
-LJLIB_PUSH("number")
-LJLIB_ASM_(type)		LJLIB_REC(.)
-/* Recycle the lj_lib_checkany(L, 1) from assert. */
-
-/* -- Base library: iterators --------------------------------------------- */
-
-/* This solves a circular dependency problem -- change FF_next_N as needed. */
-LJ_STATIC_ASSERT((int)FF_next == FF_next_N);
-
-LJLIB_ASM(next)
-{
-  lj_lib_checktab(L, 1);
-  return FFH_UNREACHABLE;
-}
-
-#if LJ_52 || LJ_HASFFI
-static int ffh_pairs(lua_State *L, MMS mm)
-{
-  TValue *o = lj_lib_checkany(L, 1);
-  cTValue *mo = lj_meta_lookup(L, o, mm);
-  if ((LJ_52 || tviscdata(o)) && !tvisnil(mo)) {
-    L->top = o+1;  /* Only keep one argument. */
-    copyTV(L, L->base-1, mo);  /* Replace callable. */
-    return FFH_TAILCALL;
-  } else {
-    if (!tvistab(o)) lj_err_argt(L, 1, LUA_TTABLE);
-    setfuncV(L, o-1, funcV(lj_lib_upvalue(L, 1)));
-    if (mm == MM_pairs) setnilV(o+1); else setintV(o+1, 0);
-    return FFH_RES(3);
-  }
-}
-#else
-#define ffh_pairs(L, mm)	(lj_lib_checktab(L, 1), FFH_UNREACHABLE)
-#endif
-
-LJLIB_PUSH(lastcl)
-LJLIB_ASM(pairs)
-{
-  return ffh_pairs(L, MM_pairs);
-}
-
-LJLIB_NOREGUV LJLIB_ASM(ipairs_aux)	LJLIB_REC(.)
-{
-  lj_lib_checktab(L, 1);
-  lj_lib_checkint(L, 2);
-  return FFH_UNREACHABLE;
-}
-
-LJLIB_PUSH(lastcl)
-LJLIB_ASM(ipairs)		LJLIB_REC(.)
-{
-  return ffh_pairs(L, MM_ipairs);
-}
-
-/* -- Base library: getters and setters ----------------------------------- */
-
-LJLIB_ASM_(getmetatable)	LJLIB_REC(.)
-/* Recycle the lj_lib_checkany(L, 1) from assert. */
-
-LJLIB_ASM(setmetatable)		LJLIB_REC(.)
-{
-  GCtab *t = lj_lib_checktab(L, 1);
-  GCtab *mt = lj_lib_checktabornil(L, 2);
-  if (!tvisnil(lj_meta_lookup(L, L->base, MM_metatable)))
-    lj_err_caller(L, LJ_ERR_PROTMT);
-  setgcref(t->metatable, obj2gco(mt));
-  if (mt) { lj_gc_objbarriert(L, t, mt); }
-  settabV(L, L->base-1, t);
-  return FFH_RES(1);
-}
-
-LJLIB_CF(getfenv)
-{
-  GCfunc *fn;
-  cTValue *o = L->base;
-  if (!(o < L->top && tvisfunc(o))) {
-    int level = lj_lib_optint(L, 1, 1);
-    o = lj_debug_frame(L, level, &level);
-    if (o == NULL)
-      lj_err_arg(L, 1, LJ_ERR_INVLVL);
-  }
-  fn = &gcval(o)->fn;
-  settabV(L, L->top++, isluafunc(fn) ? tabref(fn->l.env) : tabref(L->env));
-  return 1;
-}
-
-LJLIB_CF(setfenv)
-{
-  GCfunc *fn;
-  GCtab *t = lj_lib_checktab(L, 2);
-  cTValue *o = L->base;
-  if (!(o < L->top && tvisfunc(o))) {
-    int level = lj_lib_checkint(L, 1);
-    if (level == 0) {
-      /* NOBARRIER: A thread (i.e. L) is never black. */
-      setgcref(L->env, obj2gco(t));
-      return 0;
-    }
-    o = lj_debug_frame(L, level, &level);
-    if (o == NULL)
-      lj_err_arg(L, 1, LJ_ERR_INVLVL);
-  }
-  fn = &gcval(o)->fn;
-  if (!isluafunc(fn))
-    lj_err_caller(L, LJ_ERR_SETFENV);
-  setgcref(fn->l.env, obj2gco(t));
-  lj_gc_objbarrier(L, obj2gco(fn), t);
-  setfuncV(L, L->top++, fn);
-  return 1;
-}
-
-LJLIB_ASM(rawget)		LJLIB_REC(.)
-{
-  lj_lib_checktab(L, 1);
-  lj_lib_checkany(L, 2);
-  return FFH_UNREACHABLE;
-}
-
-LJLIB_CF(rawset)		LJLIB_REC(.)
-{
-  lj_lib_checktab(L, 1);
-  lj_lib_checkany(L, 2);
-  L->top = 1+lj_lib_checkany(L, 3);
-  lua_rawset(L, 1);
-  return 1;
-}
-
-LJLIB_CF(rawequal)		LJLIB_REC(.)
-{
-  cTValue *o1 = lj_lib_checkany(L, 1);
-  cTValue *o2 = lj_lib_checkany(L, 2);
-  setboolV(L->top-1, lj_obj_equal(o1, o2));
-  return 1;
-}
-
-#if LJ_52
-LJLIB_CF(rawlen)		LJLIB_REC(.)
-{
-  cTValue *o = L->base;
-  int32_t len;
-  if (L->top > o && tvisstr(o))
-    len = (int32_t)strV(o)->len;
-  else
-    len = (int32_t)lj_tab_len(lj_lib_checktab(L, 1));
-  setintV(L->top-1, len);
-  return 1;
-}
-#endif
-
-LJLIB_CF(unpack)
-{
-  GCtab *t = lj_lib_checktab(L, 1);
-  int32_t n, i = lj_lib_optint(L, 2, 1);
-  int32_t e = (L->base+3-1 < L->top && !tvisnil(L->base+3-1)) ?
-	      lj_lib_checkint(L, 3) : (int32_t)lj_tab_len(t);
-  if (i > e) return 0;
-  n = e - i + 1;
-  if (n <= 0 || !lua_checkstack(L, n))
-    lj_err_caller(L, LJ_ERR_UNPACK);
-  do {
-    cTValue *tv = lj_tab_getint(t, i);
-    if (tv) {
-      copyTV(L, L->top++, tv);
-    } else {
-      setnilV(L->top++);
-    }
-  } while (i++ < e);
-  return n;
-}
-
-LJLIB_CF(select)		LJLIB_REC(.)
-{
-  int32_t n = (int32_t)(L->top - L->base);
-  if (n >= 1 && tvisstr(L->base) && *strVdata(L->base) == '#') {
-    setintV(L->top-1, n-1);
-    return 1;
-  } else {
-    int32_t i = lj_lib_checkint(L, 1);
-    if (i < 0) i = n + i; else if (i > n) i = n;
-    if (i < 1)
-      lj_err_arg(L, 1, LJ_ERR_IDXRNG);
-    return n - i;
-  }
-}
-
-/* -- Base library: conversions ------------------------------------------- */
-
-LJLIB_ASM(tonumber)		LJLIB_REC(.)
-{
-  int32_t base = lj_lib_optint(L, 2, 10);
-  if (base == 10) {
-    TValue *o = lj_lib_checkany(L, 1);
-    if (lj_strscan_numberobj(o)) {
-      copyTV(L, L->base-1, o);
-      return FFH_RES(1);
-    }
-#if LJ_HASFFI
-    if (tviscdata(o)) {
-      CTState *cts = ctype_cts(L);
-      CType *ct = lj_ctype_rawref(cts, cdataV(o)->ctypeid);
-      if (ctype_isenum(ct->info)) ct = ctype_child(cts, ct);
-      if (ctype_isnum(ct->info) || ctype_iscomplex(ct->info)) {
-	if (LJ_DUALNUM && ctype_isinteger_or_bool(ct->info) &&
-	    ct->size <= 4 && !(ct->size == 4 && (ct->info & CTF_UNSIGNED))) {
-	  int32_t i;
-	  lj_cconv_ct_tv(cts, ctype_get(cts, CTID_INT32), (uint8_t *)&i, o, 0);
-	  setintV(L->base-1, i);
-	  return FFH_RES(1);
-	}
-	lj_cconv_ct_tv(cts, ctype_get(cts, CTID_DOUBLE),
-		       (uint8_t *)&(L->base-1)->n, o, 0);
-	return FFH_RES(1);
-      }
-    }
-#endif
-  } else {
-    const char *p = strdata(lj_lib_checkstr(L, 1));
-    char *ep;
-    unsigned long ul;
-    if (base < 2 || base > 36)
-      lj_err_arg(L, 2, LJ_ERR_BASERNG);
-    ul = strtoul(p, &ep, base);
-    if (p != ep) {
-      while (lj_char_isspace((unsigned char)(*ep))) ep++;
-      if (*ep == '\0') {
-	if (LJ_DUALNUM && LJ_LIKELY(ul < 0x80000000u))
-	  setintV(L->base-1, (int32_t)ul);
-	else
-	  setnumV(L->base-1, (lua_Number)ul);
-	return FFH_RES(1);
-      }
-    }
-  }
-  setnilV(L->base-1);
-  return FFH_RES(1);
-}
-
-LJLIB_PUSH("nil")
-LJLIB_PUSH("false")
-LJLIB_PUSH("true")
-LJLIB_ASM(tostring)		LJLIB_REC(.)
-{
-  TValue *o = lj_lib_checkany(L, 1);
-  cTValue *mo;
-  L->top = o+1;  /* Only keep one argument. */
-  if (!tvisnil(mo = lj_meta_lookup(L, o, MM_tostring))) {
-    copyTV(L, L->base-1, mo);  /* Replace callable. */
-    return FFH_TAILCALL;
-  } else {
-    GCstr *s;
-    if (tvisnumber(o)) {
-      s = lj_str_fromnumber(L, o);
-    } else if (tvispri(o)) {
-      s = strV(lj_lib_upvalue(L, -(int32_t)itype(o)));
-    } else {
-      if (tvisfunc(o) && isffunc(funcV(o)))
-	lua_pushfstring(L, "function: builtin#%d", funcV(o)->c.ffid);
-      else
-	lua_pushfstring(L, "%s: %p", lj_typename(o), lua_topointer(L, 1));
-      /* Note: lua_pushfstring calls the GC which may invalidate o. */
-      s = strV(L->top-1);
-    }
-    setstrV(L, L->base-1, s);
-    return FFH_RES(1);
-  }
-}
-
-/* -- Base library: throw and catch errors -------------------------------- */
-
-LJLIB_CF(error)
-{
-  int32_t level = lj_lib_optint(L, 2, 1);
-  lua_settop(L, 1);
-  if (lua_isstring(L, 1) && level > 0) {
-    luaL_where(L, level);
-    lua_pushvalue(L, 1);
-    lua_concat(L, 2);
-  }
-  return lua_error(L);
-}
-
-LJLIB_ASM(pcall)		LJLIB_REC(.)
-{
-  lj_lib_checkany(L, 1);
-  lj_lib_checkfunc(L, 2);  /* For xpcall only. */
-  return FFH_UNREACHABLE;
-}
-LJLIB_ASM_(xpcall)		LJLIB_REC(.)
-
-/* -- Base library: load Lua code ----------------------------------------- */
-
-static int load_aux(lua_State *L, int status, int envarg)
-{
-  if (status == 0) {
-    if (tvistab(L->base+envarg-1)) {
-      GCfunc *fn = funcV(L->top-1);
-      GCtab *t = tabV(L->base+envarg-1);
-      setgcref(fn->c.env, obj2gco(t));
-      lj_gc_objbarrier(L, fn, t);
-    }
-    return 1;
-  } else {
-    setnilV(L->top-2);
-    return 2;
-  }
-}
-
-LJLIB_CF(loadfile)
-{
-  GCstr *fname = lj_lib_optstr(L, 1);
-  GCstr *mode = lj_lib_optstr(L, 2);
-  int status;
-  lua_settop(L, 3);  /* Ensure env arg exists. */
-  status = luaL_loadfilex(L, fname ? strdata(fname) : NULL,
-			  mode ? strdata(mode) : NULL);
-  return load_aux(L, status, 3);
-}
-
-static const char *reader_func(lua_State *L, void *ud, size_t *size)
-{
-  UNUSED(ud);
-  luaL_checkstack(L, 2, "too many nested functions");
-  copyTV(L, L->top++, L->base);
-  lua_call(L, 0, 1);  /* Call user-supplied function. */
-  L->top--;
-  if (tvisnil(L->top)) {
-    *size = 0;
-    return NULL;
-  } else if (tvisstr(L->top) || tvisnumber(L->top)) {
-    copyTV(L, L->base+4, L->top);  /* Anchor string in reserved stack slot. */
-    return lua_tolstring(L, 5, size);
-  } else {
-    lj_err_caller(L, LJ_ERR_RDRSTR);
-    return NULL;
-  }
-}
-
-LJLIB_CF(load)
-{
-  GCstr *name = lj_lib_optstr(L, 2);
-  GCstr *mode = lj_lib_optstr(L, 3);
-  int status;
-  if (L->base < L->top && (tvisstr(L->base) || tvisnumber(L->base))) {
-    GCstr *s = lj_lib_checkstr(L, 1);
-    lua_settop(L, 4);  /* Ensure env arg exists. */
-    status = luaL_loadbufferx(L, strdata(s), s->len, strdata(name ? name : s),
-			      mode ? strdata(mode) : NULL);
-  } else {
-    lj_lib_checkfunc(L, 1);
-    lua_settop(L, 5);  /* Reserve a slot for the string from the reader. */
-    status = lua_loadx(L, reader_func, NULL, name ? strdata(name) : "=(load)",
-		       mode ? strdata(mode) : NULL);
-  }
-  return load_aux(L, status, 4);
-}
-
-LJLIB_CF(loadstring)
-{
-  return lj_cf_load(L);
-}
-
-LJLIB_CF(dofile)
-{
-  GCstr *fname = lj_lib_optstr(L, 1);
-  setnilV(L->top);
-  L->top = L->base+1;
-  if (luaL_loadfile(L, fname ? strdata(fname) : NULL) != 0)
-    lua_error(L);
-  lua_call(L, 0, LUA_MULTRET);
-  return (int)(L->top - L->base) - 1;
-}
-
-/* -- Base library: GC control -------------------------------------------- */
-
-LJLIB_CF(gcinfo)
-{
-  setintV(L->top++, (G(L)->gc.total >> 10));
-  return 1;
-}
-
-LJLIB_CF(collectgarbage)
-{
-  int opt = lj_lib_checkopt(L, 1, LUA_GCCOLLECT,  /* ORDER LUA_GC* */
-    "\4stop\7restart\7collect\5count\1\377\4step\10setpause\12setstepmul");
-  int32_t data = lj_lib_optint(L, 2, 0);
-  if (opt == LUA_GCCOUNT) {
-    setnumV(L->top, (lua_Number)G(L)->gc.total/1024.0);
-  } else {
-    int res = lua_gc(L, opt, data);
-    if (opt == LUA_GCSTEP)
-      setboolV(L->top, res);
-    else
-      setintV(L->top, res);
-  }
-  L->top++;
-  return 1;
-}
-
-/* -- Base library: miscellaneous functions ------------------------------- */
-
-LJLIB_PUSH(top-2)  /* Upvalue holds weak table. */
-LJLIB_CF(newproxy)
-{
-  lua_settop(L, 1);
-  lua_newuserdata(L, 0);
-  if (lua_toboolean(L, 1) == 0) {  /* newproxy(): without metatable. */
-    return 1;
-  } else if (lua_isboolean(L, 1)) {  /* newproxy(true): with metatable. */
-    lua_newtable(L);
-    lua_pushvalue(L, -1);
-    lua_pushboolean(L, 1);
-    lua_rawset(L, lua_upvalueindex(1));  /* Remember mt in weak table. */
-  } else {  /* newproxy(proxy): inherit metatable. */
-    int validproxy = 0;
-    if (lua_getmetatable(L, 1)) {
-      lua_rawget(L, lua_upvalueindex(1));
-      validproxy = lua_toboolean(L, -1);
-      lua_pop(L, 1);
-    }
-    if (!validproxy)
-      lj_err_arg(L, 1, LJ_ERR_NOPROXY);
-    lua_getmetatable(L, 1);
-  }
-  lua_setmetatable(L, 2);
-  return 1;
-}
-
-LJLIB_PUSH("tostring")
-LJLIB_CF(print)
-{
-  ptrdiff_t i, nargs = L->top - L->base;
-  cTValue *tv = lj_tab_getstr(tabref(L->env), strV(lj_lib_upvalue(L, 1)));
-  int shortcut;
-  if (tv && !tvisnil(tv)) {
-    copyTV(L, L->top++, tv);
-  } else {
-    setstrV(L, L->top++, strV(lj_lib_upvalue(L, 1)));
-    lua_gettable(L, LUA_GLOBALSINDEX);
-    tv = L->top-1;
-  }
-  shortcut = (tvisfunc(tv) && funcV(tv)->c.ffid == FF_tostring);
-  for (i = 0; i < nargs; i++) {
-    const char *str;
-    size_t size;
-    cTValue *o = &L->base[i];
-    if (shortcut && tvisstr(o)) {
-      str = strVdata(o);
-      size = strV(o)->len;
-    } else if (shortcut && tvisint(o)) {
-      char buf[LJ_STR_INTBUF];
-      char *p = lj_str_bufint(buf, intV(o));
-      size = (size_t)(buf+LJ_STR_INTBUF-p);
-      str = p;
-    } else if (shortcut && tvisnum(o)) {
-      char buf[LJ_STR_NUMBUF];
-      size = lj_str_bufnum(buf, o);
-      str = buf;
-    } else {
-      copyTV(L, L->top+1, o);
-      copyTV(L, L->top, L->top-1);
-      L->top += 2;
-      lua_call(L, 1, 1);
-      str = lua_tolstring(L, -1, &size);
-      if (!str)
-	lj_err_caller(L, LJ_ERR_PRTOSTR);
-      L->top--;
-    }
-    if (i)
-      putchar('\t');
-    fwrite(str, 1, size, stdout);
-  }
-  putchar('\n');
-  return 0;
-}
-
-LJLIB_PUSH(top-3)
-LJLIB_SET(_VERSION)
-
-#include "lj_libdef.h"
-
-/* -- Coroutine library --------------------------------------------------- */
-
-#define LJLIB_MODULE_coroutine
-
-LJLIB_CF(coroutine_status)
-{
-  const char *s;
-  lua_State *co;
-  if (!(L->top > L->base && tvisthread(L->base)))
-    lj_err_arg(L, 1, LJ_ERR_NOCORO);
-  co = threadV(L->base);
-  if (co == L) s = "running";
-  else if (co->status == LUA_YIELD) s = "suspended";
-  else if (co->status != 0) s = "dead";
-  else if (co->base > tvref(co->stack)+1) s = "normal";
-  else if (co->top == co->base) s = "dead";
-  else s = "suspended";
-  lua_pushstring(L, s);
-  return 1;
-}
-
-LJLIB_CF(coroutine_running)
-{
-#if LJ_52
-  int ismain = lua_pushthread(L);
-  setboolV(L->top++, ismain);
-  return 2;
-#else
-  if (lua_pushthread(L))
-    setnilV(L->top++);
-  return 1;
-#endif
-}
-
-LJLIB_CF(coroutine_create)
-{
-  lua_State *L1;
-  if (!(L->base < L->top && tvisfunc(L->base)))
-    lj_err_argt(L, 1, LUA_TFUNCTION);
-  L1 = lua_newthread(L);
-  setfuncV(L, L1->top++, funcV(L->base));
-  return 1;
-}
-
-LJLIB_ASM(coroutine_yield)
-{
-  lj_err_caller(L, LJ_ERR_CYIELD);
-  return FFH_UNREACHABLE;
-}
-
-static int ffh_resume(lua_State *L, lua_State *co, int wrap)
-{
-  if (co->cframe != NULL || co->status > LUA_YIELD ||
-      (co->status == 0 && co->top == co->base)) {
-    ErrMsg em = co->cframe ? LJ_ERR_CORUN : LJ_ERR_CODEAD;
-    if (wrap) lj_err_caller(L, em);
-    setboolV(L->base-1, 0);
-    setstrV(L, L->base, lj_err_str(L, em));
-    return FFH_RES(2);
-  }
-  lj_state_growstack(co, (MSize)(L->top - L->base));
-  return FFH_RETRY;
-}
-
-LJLIB_ASM(coroutine_resume)
-{
-  if (!(L->top > L->base && tvisthread(L->base)))
-    lj_err_arg(L, 1, LJ_ERR_NOCORO);
-  return ffh_resume(L, threadV(L->base), 0);
-}
-
-LJLIB_NOREG LJLIB_ASM(coroutine_wrap_aux)
-{
-  return ffh_resume(L, threadV(lj_lib_upvalue(L, 1)), 1);
-}
-
-/* Inline declarations. */
-LJ_ASMF void lj_ff_coroutine_wrap_aux(void);
-#if !(LJ_TARGET_MIPS && defined(ljamalg_c))
-LJ_FUNCA_NORET void LJ_FASTCALL lj_ffh_coroutine_wrap_err(lua_State *L,
-							  lua_State *co);
-#endif
-
-/* Error handler, called from assembler VM. */
-void LJ_FASTCALL lj_ffh_coroutine_wrap_err(lua_State *L, lua_State *co)
-{
-  co->top--; copyTV(L, L->top, co->top); L->top++;
-  if (tvisstr(L->top-1))
-    lj_err_callermsg(L, strVdata(L->top-1));
-  else
-    lj_err_run(L);
-}
-
-/* Forward declaration. */
-static void setpc_wrap_aux(lua_State *L, GCfunc *fn);
-
-LJLIB_CF(coroutine_wrap)
-{
-  lj_cf_coroutine_create(L);
-  lj_lib_pushcc(L, lj_ffh_coroutine_wrap_aux, FF_coroutine_wrap_aux, 1);
-  setpc_wrap_aux(L, funcV(L->top-1));
-  return 1;
-}
-
-#include "lj_libdef.h"
-
-/* Fix the PC of wrap_aux. Really ugly workaround. */
-static void setpc_wrap_aux(lua_State *L, GCfunc *fn)
-{
-  setmref(fn->c.pc, &L2GG(L)->bcff[lj_lib_init_coroutine[1]+2]);
-}
-
-/* ------------------------------------------------------------------------ */
-
-static void newproxy_weaktable(lua_State *L)
-{
-  /* NOBARRIER: The table is new (marked white). */
-  GCtab *t = lj_tab_new(L, 0, 1);
-  settabV(L, L->top++, t);
-  setgcref(t->metatable, obj2gco(t));
-  setstrV(L, lj_tab_setstr(L, t, lj_str_newlit(L, "__mode")),
-	    lj_str_newlit(L, "kv"));
-  t->nomm = (uint8_t)(~(1u<<MM_mode));
-}
-
-LUALIB_API int luaopen_base(lua_State *L)
-{
-  /* NOBARRIER: Table and value are the same. */
-  GCtab *env = tabref(L->env);
-  settabV(L, lj_tab_setstr(L, env, lj_str_newlit(L, "_G")), env);
-  lua_pushliteral(L, LUA_VERSION);  /* top-3. */
-  newproxy_weaktable(L);  /* top-2. */
-  LJ_LIB_REG(L, "_G", base);
-  LJ_LIB_REG(L, LUA_COLIBNAME, coroutine);
-  return 2;
-}
-
diff --git a/luajit-2.0/src/lib_bit.c b/luajit-2.0/src/lib_bit.c
deleted file mode 100644
index 739924b..0000000
--- a/luajit-2.0/src/lib_bit.c
+++ /dev/null
@@ -1,74 +0,0 @@
-/*
-** Bit manipulation library.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#define lib_bit_c
-#define LUA_LIB
-
-#include "lua.h"
-#include "lauxlib.h"
-#include "lualib.h"
-
-#include "lj_obj.h"
-#include "lj_err.h"
-#include "lj_str.h"
-#include "lj_lib.h"
-
-/* ------------------------------------------------------------------------ */
-
-#define LJLIB_MODULE_bit
-
-LJLIB_ASM(bit_tobit)		LJLIB_REC(bit_unary IR_TOBIT)
-{
-  lj_lib_checknumber(L, 1);
-  return FFH_RETRY;
-}
-LJLIB_ASM_(bit_bnot)		LJLIB_REC(bit_unary IR_BNOT)
-LJLIB_ASM_(bit_bswap)		LJLIB_REC(bit_unary IR_BSWAP)
-
-LJLIB_ASM(bit_lshift)		LJLIB_REC(bit_shift IR_BSHL)
-{
-  lj_lib_checknumber(L, 1);
-  lj_lib_checkbit(L, 2);
-  return FFH_RETRY;
-}
-LJLIB_ASM_(bit_rshift)		LJLIB_REC(bit_shift IR_BSHR)
-LJLIB_ASM_(bit_arshift)		LJLIB_REC(bit_shift IR_BSAR)
-LJLIB_ASM_(bit_rol)		LJLIB_REC(bit_shift IR_BROL)
-LJLIB_ASM_(bit_ror)		LJLIB_REC(bit_shift IR_BROR)
-
-LJLIB_ASM(bit_band)		LJLIB_REC(bit_nary IR_BAND)
-{
-  int i = 0;
-  do { lj_lib_checknumber(L, ++i); } while (L->base+i < L->top);
-  return FFH_RETRY;
-}
-LJLIB_ASM_(bit_bor)		LJLIB_REC(bit_nary IR_BOR)
-LJLIB_ASM_(bit_bxor)		LJLIB_REC(bit_nary IR_BXOR)
-
-/* ------------------------------------------------------------------------ */
-
-LJLIB_CF(bit_tohex)
-{
-  uint32_t b = (uint32_t)lj_lib_checkbit(L, 1);
-  int32_t i, n = L->base+1 >= L->top ? 8 : lj_lib_checkbit(L, 2);
-  const char *hexdigits = "0123456789abcdef";
-  char buf[8];
-  if (n < 0) { n = -n; hexdigits = "0123456789ABCDEF"; }
-  if (n > 8) n = 8;
-  for (i = n; --i >= 0; ) { buf[i] = hexdigits[b & 15]; b >>= 4; }
-  lua_pushlstring(L, buf, (size_t)n);
-  return 1;
-}
-
-/* ------------------------------------------------------------------------ */
-
-#include "lj_libdef.h"
-
-LUALIB_API int luaopen_bit(lua_State *L)
-{
-  LJ_LIB_REG(L, LUA_BITLIBNAME, bit);
-  return 1;
-}
-
diff --git a/luajit-2.0/src/lib_debug.c b/luajit-2.0/src/lib_debug.c
deleted file mode 100644
index 97f032f..0000000
--- a/luajit-2.0/src/lib_debug.c
+++ /dev/null
@@ -1,405 +0,0 @@
-/*
-** Debug library.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-**
-** Major portions taken verbatim or adapted from the Lua interpreter.
-** Copyright (C) 1994-2008 Lua.org, PUC-Rio. See Copyright Notice in lua.h
-*/
-
-#define lib_debug_c
-#define LUA_LIB
-
-#include "lua.h"
-#include "lauxlib.h"
-#include "lualib.h"
-
-#include "lj_obj.h"
-#include "lj_gc.h"
-#include "lj_err.h"
-#include "lj_debug.h"
-#include "lj_lib.h"
-
-/* ------------------------------------------------------------------------ */
-
-#define LJLIB_MODULE_debug
-
-LJLIB_CF(debug_getregistry)
-{
-  copyTV(L, L->top++, registry(L));
-  return 1;
-}
-
-LJLIB_CF(debug_getmetatable)
-{
-  lj_lib_checkany(L, 1);
-  if (!lua_getmetatable(L, 1)) {
-    setnilV(L->top-1);
-  }
-  return 1;
-}
-
-LJLIB_CF(debug_setmetatable)
-{
-  lj_lib_checktabornil(L, 2);
-  L->top = L->base+2;
-  lua_setmetatable(L, 1);
-#if !LJ_52
-  setboolV(L->top-1, 1);
-#endif
-  return 1;
-}
-
-LJLIB_CF(debug_getfenv)
-{
-  lj_lib_checkany(L, 1);
-  lua_getfenv(L, 1);
-  return 1;
-}
-
-LJLIB_CF(debug_setfenv)
-{
-  lj_lib_checktab(L, 2);
-  L->top = L->base+2;
-  if (!lua_setfenv(L, 1))
-    lj_err_caller(L, LJ_ERR_SETFENV);
-  return 1;
-}
-
-/* ------------------------------------------------------------------------ */
-
-static void settabss(lua_State *L, const char *i, const char *v)
-{
-  lua_pushstring(L, v);
-  lua_setfield(L, -2, i);
-}
-
-static void settabsi(lua_State *L, const char *i, int v)
-{
-  lua_pushinteger(L, v);
-  lua_setfield(L, -2, i);
-}
-
-static void settabsb(lua_State *L, const char *i, int v)
-{
-  lua_pushboolean(L, v);
-  lua_setfield(L, -2, i);
-}
-
-static lua_State *getthread(lua_State *L, int *arg)
-{
-  if (L->base < L->top && tvisthread(L->base)) {
-    *arg = 1;
-    return threadV(L->base);
-  } else {
-    *arg = 0;
-    return L;
-  }
-}
-
-static void treatstackoption(lua_State *L, lua_State *L1, const char *fname)
-{
-  if (L == L1) {
-    lua_pushvalue(L, -2);
-    lua_remove(L, -3);
-  }
-  else
-    lua_xmove(L1, L, 1);
-  lua_setfield(L, -2, fname);
-}
-
-LJLIB_CF(debug_getinfo)
-{
-  lj_Debug ar;
-  int arg, opt_f = 0, opt_L = 0;
-  lua_State *L1 = getthread(L, &arg);
-  const char *options = luaL_optstring(L, arg+2, "flnSu");
-  if (lua_isnumber(L, arg+1)) {
-    if (!lua_getstack(L1, (int)lua_tointeger(L, arg+1), (lua_Debug *)&ar)) {
-      setnilV(L->top-1);
-      return 1;
-    }
-  } else if (L->base+arg < L->top && tvisfunc(L->base+arg)) {
-    options = lua_pushfstring(L, ">%s", options);
-    setfuncV(L1, L1->top++, funcV(L->base+arg));
-  } else {
-    lj_err_arg(L, arg+1, LJ_ERR_NOFUNCL);
-  }
-  if (!lj_debug_getinfo(L1, options, &ar, 1))
-    lj_err_arg(L, arg+2, LJ_ERR_INVOPT);
-  lua_createtable(L, 0, 16);  /* Create result table. */
-  for (; *options; options++) {
-    switch (*options) {
-    case 'S':
-      settabss(L, "source", ar.source);
-      settabss(L, "short_src", ar.short_src);
-      settabsi(L, "linedefined", ar.linedefined);
-      settabsi(L, "lastlinedefined", ar.lastlinedefined);
-      settabss(L, "what", ar.what);
-      break;
-    case 'l':
-      settabsi(L, "currentline", ar.currentline);
-      break;
-    case 'u':
-      settabsi(L, "nups", ar.nups);
-      settabsi(L, "nparams", ar.nparams);
-      settabsb(L, "isvararg", ar.isvararg);
-      break;
-    case 'n':
-      settabss(L, "name", ar.name);
-      settabss(L, "namewhat", ar.namewhat);
-      break;
-    case 'f': opt_f = 1; break;
-    case 'L': opt_L = 1; break;
-    default: break;
-    }
-  }
-  if (opt_L) treatstackoption(L, L1, "activelines");
-  if (opt_f) treatstackoption(L, L1, "func");
-  return 1;  /* Return result table. */
-}
-
-LJLIB_CF(debug_getlocal)
-{
-  int arg;
-  lua_State *L1 = getthread(L, &arg);
-  lua_Debug ar;
-  const char *name;
-  int slot = lj_lib_checkint(L, arg+2);
-  if (tvisfunc(L->base+arg)) {
-    L->top = L->base+arg+1;
-    lua_pushstring(L, lua_getlocal(L, NULL, slot));
-    return 1;
-  }
-  if (!lua_getstack(L1, lj_lib_checkint(L, arg+1), &ar))
-    lj_err_arg(L, arg+1, LJ_ERR_LVLRNG);
-  name = lua_getlocal(L1, &ar, slot);
-  if (name) {
-    lua_xmove(L1, L, 1);
-    lua_pushstring(L, name);
-    lua_pushvalue(L, -2);
-    return 2;
-  } else {
-    setnilV(L->top-1);
-    return 1;
-  }
-}
-
-LJLIB_CF(debug_setlocal)
-{
-  int arg;
-  lua_State *L1 = getthread(L, &arg);
-  lua_Debug ar;
-  TValue *tv;
-  if (!lua_getstack(L1, lj_lib_checkint(L, arg+1), &ar))
-    lj_err_arg(L, arg+1, LJ_ERR_LVLRNG);
-  tv = lj_lib_checkany(L, arg+3);
-  copyTV(L1, L1->top++, tv);
-  lua_pushstring(L, lua_setlocal(L1, &ar, lj_lib_checkint(L, arg+2)));
-  return 1;
-}
-
-static int debug_getupvalue(lua_State *L, int get)
-{
-  int32_t n = lj_lib_checkint(L, 2);
-  const char *name;
-  lj_lib_checkfunc(L, 1);
-  name = get ? lua_getupvalue(L, 1, n) : lua_setupvalue(L, 1, n);
-  if (name) {
-    lua_pushstring(L, name);
-    if (!get) return 1;
-    copyTV(L, L->top, L->top-2);
-    L->top++;
-    return 2;
-  }
-  return 0;
-}
-
-LJLIB_CF(debug_getupvalue)
-{
-  return debug_getupvalue(L, 1);
-}
-
-LJLIB_CF(debug_setupvalue)
-{
-  lj_lib_checkany(L, 3);
-  return debug_getupvalue(L, 0);
-}
-
-LJLIB_CF(debug_upvalueid)
-{
-  GCfunc *fn = lj_lib_checkfunc(L, 1);
-  int32_t n = lj_lib_checkint(L, 2) - 1;
-  if ((uint32_t)n >= fn->l.nupvalues)
-    lj_err_arg(L, 2, LJ_ERR_IDXRNG);
-  setlightudV(L->top-1, isluafunc(fn) ? (void *)gcref(fn->l.uvptr[n]) :
-					(void *)&fn->c.upvalue[n]);
-  return 1;
-}
-
-LJLIB_CF(debug_upvaluejoin)
-{
-  GCfunc *fn[2];
-  GCRef *p[2];
-  int i;
-  for (i = 0; i < 2; i++) {
-    int32_t n;
-    fn[i] = lj_lib_checkfunc(L, 2*i+1);
-    if (!isluafunc(fn[i]))
-      lj_err_arg(L, 2*i+1, LJ_ERR_NOLFUNC);
-    n = lj_lib_checkint(L, 2*i+2) - 1;
-    if ((uint32_t)n >= fn[i]->l.nupvalues)
-      lj_err_arg(L, 2*i+2, LJ_ERR_IDXRNG);
-    p[i] = &fn[i]->l.uvptr[n];
-  }
-  setgcrefr(*p[0], *p[1]);
-  lj_gc_objbarrier(L, fn[0], gcref(*p[1]));
-  return 0;
-}
-
-#if LJ_52
-LJLIB_CF(debug_getuservalue)
-{
-  TValue *o = L->base;
-  if (o < L->top && tvisudata(o))
-    settabV(L, o, tabref(udataV(o)->env));
-  else
-    setnilV(o);
-  L->top = o+1;
-  return 1;
-}
-
-LJLIB_CF(debug_setuservalue)
-{
-  TValue *o = L->base;
-  if (!(o < L->top && tvisudata(o)))
-    lj_err_argt(L, 1, LUA_TUSERDATA);
-  if (!(o+1 < L->top && tvistab(o+1)))
-    lj_err_argt(L, 2, LUA_TTABLE);
-  L->top = o+2;
-  lua_setfenv(L, 1);
-  return 1;
-}
-#endif
-
-/* ------------------------------------------------------------------------ */
-
-static const char KEY_HOOK = 'h';
-
-static void hookf(lua_State *L, lua_Debug *ar)
-{
-  static const char *const hooknames[] =
-    {"call", "return", "line", "count", "tail return"};
-  lua_pushlightuserdata(L, (void *)&KEY_HOOK);
-  lua_rawget(L, LUA_REGISTRYINDEX);
-  if (lua_isfunction(L, -1)) {
-    lua_pushstring(L, hooknames[(int)ar->event]);
-    if (ar->currentline >= 0)
-      lua_pushinteger(L, ar->currentline);
-    else lua_pushnil(L);
-    lua_call(L, 2, 0);
-  }
-}
-
-static int makemask(const char *smask, int count)
-{
-  int mask = 0;
-  if (strchr(smask, 'c')) mask |= LUA_MASKCALL;
-  if (strchr(smask, 'r')) mask |= LUA_MASKRET;
-  if (strchr(smask, 'l')) mask |= LUA_MASKLINE;
-  if (count > 0) mask |= LUA_MASKCOUNT;
-  return mask;
-}
-
-static char *unmakemask(int mask, char *smask)
-{
-  int i = 0;
-  if (mask & LUA_MASKCALL) smask[i++] = 'c';
-  if (mask & LUA_MASKRET) smask[i++] = 'r';
-  if (mask & LUA_MASKLINE) smask[i++] = 'l';
-  smask[i] = '\0';
-  return smask;
-}
-
-LJLIB_CF(debug_sethook)
-{
-  int arg, mask, count;
-  lua_Hook func;
-  (void)getthread(L, &arg);
-  if (lua_isnoneornil(L, arg+1)) {
-    lua_settop(L, arg+1);
-    func = NULL; mask = 0; count = 0;  /* turn off hooks */
-  } else {
-    const char *smask = luaL_checkstring(L, arg+2);
-    luaL_checktype(L, arg+1, LUA_TFUNCTION);
-    count = luaL_optint(L, arg+3, 0);
-    func = hookf; mask = makemask(smask, count);
-  }
-  lua_pushlightuserdata(L, (void *)&KEY_HOOK);
-  lua_pushvalue(L, arg+1);
-  lua_rawset(L, LUA_REGISTRYINDEX);
-  lua_sethook(L, func, mask, count);
-  return 0;
-}
-
-LJLIB_CF(debug_gethook)
-{
-  char buff[5];
-  int mask = lua_gethookmask(L);
-  lua_Hook hook = lua_gethook(L);
-  if (hook != NULL && hook != hookf) {  /* external hook? */
-    lua_pushliteral(L, "external hook");
-  } else {
-    lua_pushlightuserdata(L, (void *)&KEY_HOOK);
-    lua_rawget(L, LUA_REGISTRYINDEX);   /* get hook */
-  }
-  lua_pushstring(L, unmakemask(mask, buff));
-  lua_pushinteger(L, lua_gethookcount(L));
-  return 3;
-}
-
-/* ------------------------------------------------------------------------ */
-
-LJLIB_CF(debug_debug)
-{
-  for (;;) {
-    char buffer[250];
-    fputs("lua_debug> ", stderr);
-    if (fgets(buffer, sizeof(buffer), stdin) == 0 ||
-	strcmp(buffer, "cont\n") == 0)
-      return 0;
-    if (luaL_loadbuffer(L, buffer, strlen(buffer), "=(debug command)") ||
-	lua_pcall(L, 0, 0, 0)) {
-      fputs(lua_tostring(L, -1), stderr);
-      fputs("\n", stderr);
-    }
-    lua_settop(L, 0);  /* remove eventual returns */
-  }
-}
-
-/* ------------------------------------------------------------------------ */
-
-#define LEVELS1	12	/* size of the first part of the stack */
-#define LEVELS2	10	/* size of the second part of the stack */
-
-LJLIB_CF(debug_traceback)
-{
-  int arg;
-  lua_State *L1 = getthread(L, &arg);
-  const char *msg = lua_tostring(L, arg+1);
-  if (msg == NULL && L->top > L->base+arg)
-    L->top = L->base+arg+1;
-  else
-    luaL_traceback(L, L1, msg, lj_lib_optint(L, arg+2, (L == L1)));
-  return 1;
-}
-
-/* ------------------------------------------------------------------------ */
-
-#include "lj_libdef.h"
-
-LUALIB_API int luaopen_debug(lua_State *L)
-{
-  LJ_LIB_REG(L, LUA_DBLIBNAME, debug);
-  return 1;
-}
-
diff --git a/luajit-2.0/src/lib_ffi.c b/luajit-2.0/src/lib_ffi.c
deleted file mode 100644
index 2549678..0000000
--- a/luajit-2.0/src/lib_ffi.c
+++ /dev/null
@@ -1,851 +0,0 @@
-/*
-** FFI library.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#define lib_ffi_c
-#define LUA_LIB
-
-#include <errno.h>
-
-#include "lua.h"
-#include "lauxlib.h"
-#include "lualib.h"
-
-#include "lj_obj.h"
-
-#if LJ_HASFFI
-
-#include "lj_gc.h"
-#include "lj_err.h"
-#include "lj_str.h"
-#include "lj_tab.h"
-#include "lj_meta.h"
-#include "lj_ctype.h"
-#include "lj_cparse.h"
-#include "lj_cdata.h"
-#include "lj_cconv.h"
-#include "lj_carith.h"
-#include "lj_ccall.h"
-#include "lj_ccallback.h"
-#include "lj_clib.h"
-#include "lj_ff.h"
-#include "lj_lib.h"
-
-/* -- C type checks ------------------------------------------------------- */
-
-/* Check first argument for a C type and returns its ID. */
-static CTypeID ffi_checkctype(lua_State *L, CTState *cts, TValue *param)
-{
-  TValue *o = L->base;
-  if (!(o < L->top)) {
-  err_argtype:
-    lj_err_argtype(L, 1, "C type");
-  }
-  if (tvisstr(o)) {  /* Parse an abstract C type declaration. */
-    GCstr *s = strV(o);
-    CPState cp;
-    int errcode;
-    cp.L = L;
-    cp.cts = cts;
-    cp.srcname = strdata(s);
-    cp.p = strdata(s);
-    cp.param = param;
-    cp.mode = CPARSE_MODE_ABSTRACT|CPARSE_MODE_NOIMPLICIT;
-    errcode = lj_cparse(&cp);
-    if (errcode) lj_err_throw(L, errcode);  /* Propagate errors. */
-    return cp.val.id;
-  } else {
-    GCcdata *cd;
-    if (!tviscdata(o)) goto err_argtype;
-    if (param && param < L->top) lj_err_arg(L, 1, LJ_ERR_FFI_NUMPARAM);
-    cd = cdataV(o);
-    return cd->ctypeid == CTID_CTYPEID ? *(CTypeID *)cdataptr(cd) : cd->ctypeid;
-  }
-}
-
-/* Check argument for C data and return it. */
-static GCcdata *ffi_checkcdata(lua_State *L, int narg)
-{
-  TValue *o = L->base + narg-1;
-  if (!(o < L->top && tviscdata(o)))
-    lj_err_argt(L, narg, LUA_TCDATA);
-  return cdataV(o);
-}
-
-/* Convert argument to C pointer. */
-static void *ffi_checkptr(lua_State *L, int narg, CTypeID id)
-{
-  CTState *cts = ctype_cts(L);
-  TValue *o = L->base + narg-1;
-  void *p;
-  if (o >= L->top)
-    lj_err_arg(L, narg, LJ_ERR_NOVAL);
-  lj_cconv_ct_tv(cts, ctype_get(cts, id), (uint8_t *)&p, o, CCF_ARG(narg));
-  return p;
-}
-
-/* Convert argument to int32_t. */
-static int32_t ffi_checkint(lua_State *L, int narg)
-{
-  CTState *cts = ctype_cts(L);
-  TValue *o = L->base + narg-1;
-  int32_t i;
-  if (o >= L->top)
-    lj_err_arg(L, narg, LJ_ERR_NOVAL);
-  lj_cconv_ct_tv(cts, ctype_get(cts, CTID_INT32), (uint8_t *)&i, o,
-		 CCF_ARG(narg));
-  return i;
-}
-
-/* -- C type metamethods -------------------------------------------------- */
-
-#define LJLIB_MODULE_ffi_meta
-
-/* Handle ctype __index/__newindex metamethods. */
-static int ffi_index_meta(lua_State *L, CTState *cts, CType *ct, MMS mm)
-{
-  CTypeID id = ctype_typeid(cts, ct);
-  cTValue *tv = lj_ctype_meta(cts, id, mm);
-  TValue *base = L->base;
-  if (!tv) {
-    const char *s;
-  err_index:
-    s = strdata(lj_ctype_repr(L, id, NULL));
-    if (tvisstr(L->base+1)) {
-      lj_err_callerv(L, LJ_ERR_FFI_BADMEMBER, s, strVdata(L->base+1));
-    } else {
-      const char *key = tviscdata(L->base+1) ?
-	strdata(lj_ctype_repr(L, cdataV(L->base+1)->ctypeid, NULL)) :
-	lj_typename(L->base+1);
-      lj_err_callerv(L, LJ_ERR_FFI_BADIDXW, s, key);
-    }
-  }
-  if (!tvisfunc(tv)) {
-    if (mm == MM_index) {
-      cTValue *o = lj_meta_tget(L, tv, base+1);
-      if (o) {
-	if (tvisnil(o)) goto err_index;
-	copyTV(L, L->top-1, o);
-	return 1;
-      }
-    } else {
-      TValue *o = lj_meta_tset(L, tv, base+1);
-      if (o) {
-	copyTV(L, o, base+2);
-	return 0;
-      }
-    }
-    copyTV(L, base, L->top);
-    tv = L->top-1;
-  }
-  return lj_meta_tailcall(L, tv);
-}
-
-LJLIB_CF(ffi_meta___index)	LJLIB_REC(cdata_index 0)
-{
-  CTState *cts = ctype_cts(L);
-  CTInfo qual = 0;
-  CType *ct;
-  uint8_t *p;
-  TValue *o = L->base;
-  if (!(o+1 < L->top && tviscdata(o)))  /* Also checks for presence of key. */
-    lj_err_argt(L, 1, LUA_TCDATA);
-  ct = lj_cdata_index(cts, cdataV(o), o+1, &p, &qual);
-  if ((qual & 1))
-    return ffi_index_meta(L, cts, ct, MM_index);
-  if (lj_cdata_get(cts, ct, L->top-1, p))
-    lj_gc_check(L);
-  return 1;
-}
-
-LJLIB_CF(ffi_meta___newindex)	LJLIB_REC(cdata_index 1)
-{
-  CTState *cts = ctype_cts(L);
-  CTInfo qual = 0;
-  CType *ct;
-  uint8_t *p;
-  TValue *o = L->base;
-  if (!(o+2 < L->top && tviscdata(o)))  /* Also checks for key and value. */
-    lj_err_argt(L, 1, LUA_TCDATA);
-  ct = lj_cdata_index(cts, cdataV(o), o+1, &p, &qual);
-  if ((qual & 1)) {
-    if ((qual & CTF_CONST))
-      lj_err_caller(L, LJ_ERR_FFI_WRCONST);
-    return ffi_index_meta(L, cts, ct, MM_newindex);
-  }
-  lj_cdata_set(cts, ct, p, o+2, qual);
-  return 0;
-}
-
-/* Common handler for cdata arithmetic. */
-static int ffi_arith(lua_State *L)
-{
-  MMS mm = (MMS)(curr_func(L)->c.ffid - (int)FF_ffi_meta___eq + (int)MM_eq);
-  return lj_carith_op(L, mm);
-}
-
-/* The following functions must be in contiguous ORDER MM. */
-LJLIB_CF(ffi_meta___eq)		LJLIB_REC(cdata_arith MM_eq)
-{
-  return ffi_arith(L);
-}
-
-LJLIB_CF(ffi_meta___len)	LJLIB_REC(cdata_arith MM_len)
-{
-  return ffi_arith(L);
-}
-
-LJLIB_CF(ffi_meta___lt)		LJLIB_REC(cdata_arith MM_lt)
-{
-  return ffi_arith(L);
-}
-
-LJLIB_CF(ffi_meta___le)		LJLIB_REC(cdata_arith MM_le)
-{
-  return ffi_arith(L);
-}
-
-LJLIB_CF(ffi_meta___concat)	LJLIB_REC(cdata_arith MM_concat)
-{
-  return ffi_arith(L);
-}
-
-/* Forward declaration. */
-static int lj_cf_ffi_new(lua_State *L);
-
-LJLIB_CF(ffi_meta___call)	LJLIB_REC(cdata_call)
-{
-  CTState *cts = ctype_cts(L);
-  GCcdata *cd = ffi_checkcdata(L, 1);
-  CTypeID id = cd->ctypeid;
-  CType *ct;
-  cTValue *tv;
-  MMS mm = MM_call;
-  if (cd->ctypeid == CTID_CTYPEID) {
-    id = *(CTypeID *)cdataptr(cd);
-    mm = MM_new;
-  } else {
-    int ret = lj_ccall_func(L, cd);
-    if (ret >= 0)
-      return ret;
-  }
-  /* Handle ctype __call/__new metamethod. */
-  ct = ctype_raw(cts, id);
-  if (ctype_isptr(ct->info)) id = ctype_cid(ct->info);
-  tv = lj_ctype_meta(cts, id, mm);
-  if (tv)
-    return lj_meta_tailcall(L, tv);
-  else if (mm == MM_call)
-    lj_err_callerv(L, LJ_ERR_FFI_BADCALL, strdata(lj_ctype_repr(L, id, NULL)));
-  return lj_cf_ffi_new(L);
-}
-
-LJLIB_CF(ffi_meta___add)	LJLIB_REC(cdata_arith MM_add)
-{
-  return ffi_arith(L);
-}
-
-LJLIB_CF(ffi_meta___sub)	LJLIB_REC(cdata_arith MM_sub)
-{
-  return ffi_arith(L);
-}
-
-LJLIB_CF(ffi_meta___mul)	LJLIB_REC(cdata_arith MM_mul)
-{
-  return ffi_arith(L);
-}
-
-LJLIB_CF(ffi_meta___div)	LJLIB_REC(cdata_arith MM_div)
-{
-  return ffi_arith(L);
-}
-
-LJLIB_CF(ffi_meta___mod)	LJLIB_REC(cdata_arith MM_mod)
-{
-  return ffi_arith(L);
-}
-
-LJLIB_CF(ffi_meta___pow)	LJLIB_REC(cdata_arith MM_pow)
-{
-  return ffi_arith(L);
-}
-
-LJLIB_CF(ffi_meta___unm)	LJLIB_REC(cdata_arith MM_unm)
-{
-  return ffi_arith(L);
-}
-/* End of contiguous ORDER MM. */
-
-LJLIB_CF(ffi_meta___tostring)
-{
-  GCcdata *cd = ffi_checkcdata(L, 1);
-  const char *msg = "cdata<%s>: %p";
-  CTypeID id = cd->ctypeid;
-  void *p = cdataptr(cd);
-  if (id == CTID_CTYPEID) {
-    msg = "ctype<%s>";
-    id = *(CTypeID *)p;
-  } else {
-    CTState *cts = ctype_cts(L);
-    CType *ct = ctype_raw(cts, id);
-    if (ctype_isref(ct->info)) {
-      p = *(void **)p;
-      ct = ctype_rawchild(cts, ct);
-    }
-    if (ctype_iscomplex(ct->info)) {
-      setstrV(L, L->top-1, lj_ctype_repr_complex(L, cdataptr(cd), ct->size));
-      goto checkgc;
-    } else if (ct->size == 8 && ctype_isinteger(ct->info)) {
-      setstrV(L, L->top-1, lj_ctype_repr_int64(L, *(uint64_t *)cdataptr(cd),
-					       (ct->info & CTF_UNSIGNED)));
-      goto checkgc;
-    } else if (ctype_isfunc(ct->info)) {
-      p = *(void **)p;
-    } else if (ctype_isenum(ct->info)) {
-      msg = "cdata<%s>: %d";
-      p = (void *)(uintptr_t)*(uint32_t **)p;
-    } else {
-      if (ctype_isptr(ct->info)) {
-	p = cdata_getptr(p, ct->size);
-	ct = ctype_rawchild(cts, ct);
-      }
-      if (ctype_isstruct(ct->info) || ctype_isvector(ct->info)) {
-	/* Handle ctype __tostring metamethod. */
-	cTValue *tv = lj_ctype_meta(cts, ctype_typeid(cts, ct), MM_tostring);
-	if (tv)
-	  return lj_meta_tailcall(L, tv);
-      }
-    }
-  }
-  lj_str_pushf(L, msg, strdata(lj_ctype_repr(L, id, NULL)), p);
-checkgc:
-  lj_gc_check(L);
-  return 1;
-}
-
-static int ffi_pairs(lua_State *L, MMS mm)
-{
-  CTState *cts = ctype_cts(L);
-  CTypeID id = ffi_checkcdata(L, 1)->ctypeid;
-  CType *ct = ctype_raw(cts, id);
-  cTValue *tv;
-  if (ctype_isptr(ct->info)) id = ctype_cid(ct->info);
-  tv = lj_ctype_meta(cts, id, mm);
-  if (!tv)
-    lj_err_callerv(L, LJ_ERR_FFI_BADMM, strdata(lj_ctype_repr(L, id, NULL)),
-		   strdata(mmname_str(G(L), mm)));
-  return lj_meta_tailcall(L, tv);
-}
-
-LJLIB_CF(ffi_meta___pairs)
-{
-  return ffi_pairs(L, MM_pairs);
-}
-
-LJLIB_CF(ffi_meta___ipairs)
-{
-  return ffi_pairs(L, MM_ipairs);
-}
-
-LJLIB_PUSH("ffi") LJLIB_SET(__metatable)
-
-#include "lj_libdef.h"
-
-/* -- C library metamethods ----------------------------------------------- */
-
-#define LJLIB_MODULE_ffi_clib
-
-/* Index C library by a name. */
-static TValue *ffi_clib_index(lua_State *L)
-{
-  TValue *o = L->base;
-  CLibrary *cl;
-  if (!(o < L->top && tvisudata(o) && udataV(o)->udtype == UDTYPE_FFI_CLIB))
-    lj_err_argt(L, 1, LUA_TUSERDATA);
-  cl = (CLibrary *)uddata(udataV(o));
-  if (!(o+1 < L->top && tvisstr(o+1)))
-    lj_err_argt(L, 2, LUA_TSTRING);
-  return lj_clib_index(L, cl, strV(o+1));
-}
-
-LJLIB_CF(ffi_clib___index)	LJLIB_REC(clib_index 1)
-{
-  TValue *tv = ffi_clib_index(L);
-  if (tviscdata(tv)) {
-    CTState *cts = ctype_cts(L);
-    GCcdata *cd = cdataV(tv);
-    CType *s = ctype_get(cts, cd->ctypeid);
-    if (ctype_isextern(s->info)) {
-      CTypeID sid = ctype_cid(s->info);
-      void *sp = *(void **)cdataptr(cd);
-      CType *ct = ctype_raw(cts, sid);
-      if (lj_cconv_tv_ct(cts, ct, sid, L->top-1, sp))
-	lj_gc_check(L);
-      return 1;
-    }
-  }
-  copyTV(L, L->top-1, tv);
-  return 1;
-}
-
-LJLIB_CF(ffi_clib___newindex)	LJLIB_REC(clib_index 0)
-{
-  TValue *tv = ffi_clib_index(L);
-  TValue *o = L->base+2;
-  if (o < L->top && tviscdata(tv)) {
-    CTState *cts = ctype_cts(L);
-    GCcdata *cd = cdataV(tv);
-    CType *d = ctype_get(cts, cd->ctypeid);
-    if (ctype_isextern(d->info)) {
-      CTInfo qual = 0;
-      for (;;) {  /* Skip attributes and collect qualifiers. */
-	d = ctype_child(cts, d);
-	if (!ctype_isattrib(d->info)) break;
-	if (ctype_attrib(d->info) == CTA_QUAL) qual |= d->size;
-      }
-      if (!((d->info|qual) & CTF_CONST)) {
-	lj_cconv_ct_tv(cts, d, *(void **)cdataptr(cd), o, 0);
-	return 0;
-      }
-    }
-  }
-  lj_err_caller(L, LJ_ERR_FFI_WRCONST);
-  return 0;  /* unreachable */
-}
-
-LJLIB_CF(ffi_clib___gc)
-{
-  TValue *o = L->base;
-  if (o < L->top && tvisudata(o) && udataV(o)->udtype == UDTYPE_FFI_CLIB)
-    lj_clib_unload((CLibrary *)uddata(udataV(o)));
-  return 0;
-}
-
-#include "lj_libdef.h"
-
-/* -- Callback function metamethods --------------------------------------- */
-
-#define LJLIB_MODULE_ffi_callback
-
-static int ffi_callback_set(lua_State *L, GCfunc *fn)
-{
-  GCcdata *cd = ffi_checkcdata(L, 1);
-  CTState *cts = ctype_cts(L);
-  CType *ct = ctype_raw(cts, cd->ctypeid);
-  if (ctype_isptr(ct->info) && (LJ_32 || ct->size == 8)) {
-    MSize slot = lj_ccallback_ptr2slot(cts, *(void **)cdataptr(cd));
-    if (slot < cts->cb.sizeid && cts->cb.cbid[slot] != 0) {
-      GCtab *t = cts->miscmap;
-      TValue *tv = lj_tab_setint(L, t, (int32_t)slot);
-      if (fn) {
-	setfuncV(L, tv, fn);
-	lj_gc_anybarriert(L, t);
-      } else {
-	setnilV(tv);
-	cts->cb.cbid[slot] = 0;
-	cts->cb.topid = slot < cts->cb.topid ? slot : cts->cb.topid;
-      }
-      return 0;
-    }
-  }
-  lj_err_caller(L, LJ_ERR_FFI_BADCBACK);
-  return 0;
-}
-
-LJLIB_CF(ffi_callback_free)
-{
-  return ffi_callback_set(L, NULL);
-}
-
-LJLIB_CF(ffi_callback_set)
-{
-  GCfunc *fn = lj_lib_checkfunc(L, 2);
-  return ffi_callback_set(L, fn);
-}
-
-LJLIB_PUSH(top-1) LJLIB_SET(__index)
-
-#include "lj_libdef.h"
-
-/* -- FFI library functions ----------------------------------------------- */
-
-#define LJLIB_MODULE_ffi
-
-LJLIB_CF(ffi_cdef)
-{
-  GCstr *s = lj_lib_checkstr(L, 1);
-  CPState cp;
-  int errcode;
-  cp.L = L;
-  cp.cts = ctype_cts(L);
-  cp.srcname = strdata(s);
-  cp.p = strdata(s);
-  cp.param = L->base+1;
-  cp.mode = CPARSE_MODE_MULTI|CPARSE_MODE_DIRECT;
-  errcode = lj_cparse(&cp);
-  if (errcode) lj_err_throw(L, errcode);  /* Propagate errors. */
-  lj_gc_check(L);
-  return 0;
-}
-
-LJLIB_CF(ffi_new)	LJLIB_REC(.)
-{
-  CTState *cts = ctype_cts(L);
-  CTypeID id = ffi_checkctype(L, cts, NULL);
-  CType *ct = ctype_raw(cts, id);
-  CTSize sz;
-  CTInfo info = lj_ctype_info(cts, id, &sz);
-  TValue *o = L->base+1;
-  GCcdata *cd;
-  if ((info & CTF_VLA)) {
-    o++;
-    sz = lj_ctype_vlsize(cts, ct, (CTSize)ffi_checkint(L, 2));
-  }
-  if (sz == CTSIZE_INVALID)
-    lj_err_arg(L, 1, LJ_ERR_FFI_INVSIZE);
-  if (!(info & CTF_VLA) && ctype_align(info) <= CT_MEMALIGN)
-    cd = lj_cdata_new(cts, id, sz);
-  else
-    cd = lj_cdata_newv(cts, id, sz, ctype_align(info));
-  setcdataV(L, o-1, cd);  /* Anchor the uninitialized cdata. */
-  lj_cconv_ct_init(cts, ct, sz, cdataptr(cd),
-		   o, (MSize)(L->top - o));  /* Initialize cdata. */
-  if (ctype_isstruct(ct->info)) {
-    /* Handle ctype __gc metamethod. Use the fast lookup here. */
-    cTValue *tv = lj_tab_getinth(cts->miscmap, -(int32_t)id);
-    if (tv && tvistab(tv) && (tv = lj_meta_fast(L, tabV(tv), MM_gc))) {
-      GCtab *t = cts->finalizer;
-      if (gcref(t->metatable)) {
-	/* Add to finalizer table, if still enabled. */
-	copyTV(L, lj_tab_set(L, t, o-1), tv);
-	lj_gc_anybarriert(L, t);
-	cd->marked |= LJ_GC_CDATA_FIN;
-      }
-    }
-  }
-  L->top = o;  /* Only return the cdata itself. */
-  lj_gc_check(L);
-  return 1;
-}
-
-LJLIB_CF(ffi_cast)	LJLIB_REC(ffi_new)
-{
-  CTState *cts = ctype_cts(L);
-  CTypeID id = ffi_checkctype(L, cts, NULL);
-  CType *d = ctype_raw(cts, id);
-  TValue *o = lj_lib_checkany(L, 2);
-  L->top = o+1;  /* Make sure this is the last item on the stack. */
-  if (!(ctype_isnum(d->info) || ctype_isptr(d->info) || ctype_isenum(d->info)))
-    lj_err_arg(L, 1, LJ_ERR_FFI_INVTYPE);
-  if (!(tviscdata(o) && cdataV(o)->ctypeid == id)) {
-    GCcdata *cd = lj_cdata_new(cts, id, d->size);
-    lj_cconv_ct_tv(cts, d, cdataptr(cd), o, CCF_CAST);
-    setcdataV(L, o, cd);
-    lj_gc_check(L);
-  }
-  return 1;
-}
-
-LJLIB_CF(ffi_typeof)	LJLIB_REC(.)
-{
-  CTState *cts = ctype_cts(L);
-  CTypeID id = ffi_checkctype(L, cts, L->base+1);
-  GCcdata *cd = lj_cdata_new(cts, CTID_CTYPEID, 4);
-  *(CTypeID *)cdataptr(cd) = id;
-  setcdataV(L, L->top-1, cd);
-  lj_gc_check(L);
-  return 1;
-}
-
-LJLIB_CF(ffi_istype)	LJLIB_REC(.)
-{
-  CTState *cts = ctype_cts(L);
-  CTypeID id1 = ffi_checkctype(L, cts, NULL);
-  TValue *o = lj_lib_checkany(L, 2);
-  int b = 0;
-  if (tviscdata(o)) {
-    GCcdata *cd = cdataV(o);
-    CTypeID id2 = cd->ctypeid == CTID_CTYPEID ? *(CTypeID *)cdataptr(cd) :
-						cd->ctypeid;
-    CType *ct1 = lj_ctype_rawref(cts, id1);
-    CType *ct2 = lj_ctype_rawref(cts, id2);
-    if (ct1 == ct2) {
-      b = 1;
-    } else if (ctype_type(ct1->info) == ctype_type(ct2->info) &&
-	       ct1->size == ct2->size) {
-      if (ctype_ispointer(ct1->info))
-	b = lj_cconv_compatptr(cts, ct1, ct2, CCF_IGNQUAL);
-      else if (ctype_isnum(ct1->info) || ctype_isvoid(ct1->info))
-	b = (((ct1->info ^ ct2->info) & ~(CTF_QUAL|CTF_LONG)) == 0);
-    } else if (ctype_isstruct(ct1->info) && ctype_isptr(ct2->info) &&
-	       ct1 == ctype_rawchild(cts, ct2)) {
-      b = 1;
-    }
-  }
-  setboolV(L->top-1, b);
-  setboolV(&G(L)->tmptv2, b);  /* Remember for trace recorder. */
-  return 1;
-}
-
-LJLIB_CF(ffi_sizeof)	LJLIB_REC(ffi_xof FF_ffi_sizeof)
-{
-  CTState *cts = ctype_cts(L);
-  CTypeID id = ffi_checkctype(L, cts, NULL);
-  CTSize sz;
-  if (LJ_UNLIKELY(tviscdata(L->base) && cdataisv(cdataV(L->base)))) {
-    sz = cdatavlen(cdataV(L->base));
-  } else {
-    CType *ct = lj_ctype_rawref(cts, id);
-    if (ctype_isvltype(ct->info))
-      sz = lj_ctype_vlsize(cts, ct, (CTSize)ffi_checkint(L, 2));
-    else
-      sz = ctype_hassize(ct->info) ? ct->size : CTSIZE_INVALID;
-    if (LJ_UNLIKELY(sz == CTSIZE_INVALID)) {
-      setnilV(L->top-1);
-      return 1;
-    }
-  }
-  setintV(L->top-1, (int32_t)sz);
-  return 1;
-}
-
-LJLIB_CF(ffi_alignof)	LJLIB_REC(ffi_xof FF_ffi_alignof)
-{
-  CTState *cts = ctype_cts(L);
-  CTypeID id = ffi_checkctype(L, cts, NULL);
-  CTSize sz = 0;
-  CTInfo info = lj_ctype_info(cts, id, &sz);
-  setintV(L->top-1, 1 << ctype_align(info));
-  return 1;
-}
-
-LJLIB_CF(ffi_offsetof)	LJLIB_REC(ffi_xof FF_ffi_offsetof)
-{
-  CTState *cts = ctype_cts(L);
-  CTypeID id = ffi_checkctype(L, cts, NULL);
-  GCstr *name = lj_lib_checkstr(L, 2);
-  CType *ct = lj_ctype_rawref(cts, id);
-  CTSize ofs;
-  if (ctype_isstruct(ct->info) && ct->size != CTSIZE_INVALID) {
-    CType *fct = lj_ctype_getfield(cts, ct, name, &ofs);
-    if (fct) {
-      setintV(L->top-1, ofs);
-      if (ctype_isfield(fct->info)) {
-	return 1;
-      } else if (ctype_isbitfield(fct->info)) {
-	setintV(L->top++, ctype_bitpos(fct->info));
-	setintV(L->top++, ctype_bitbsz(fct->info));
-	return 3;
-      }
-    }
-  }
-  return 0;
-}
-
-LJLIB_CF(ffi_errno)	LJLIB_REC(.)
-{
-  int err = errno;
-  if (L->top > L->base)
-    errno = ffi_checkint(L, 1);
-  setintV(L->top++, err);
-  return 1;
-}
-
-LJLIB_CF(ffi_string)	LJLIB_REC(.)
-{
-  CTState *cts = ctype_cts(L);
-  TValue *o = lj_lib_checkany(L, 1);
-  const char *p;
-  size_t len;
-  if (o+1 < L->top && !tvisnil(o+1)) {
-    len = (size_t)ffi_checkint(L, 2);
-    lj_cconv_ct_tv(cts, ctype_get(cts, CTID_P_CVOID), (uint8_t *)&p, o,
-		   CCF_ARG(1));
-  } else {
-    lj_cconv_ct_tv(cts, ctype_get(cts, CTID_P_CCHAR), (uint8_t *)&p, o,
-		   CCF_ARG(1));
-    len = strlen(p);
-  }
-  L->top = o+1;  /* Make sure this is the last item on the stack. */
-  setstrV(L, o, lj_str_new(L, p, len));
-  lj_gc_check(L);
-  return 1;
-}
-
-LJLIB_CF(ffi_copy)	LJLIB_REC(.)
-{
-  void *dp = ffi_checkptr(L, 1, CTID_P_VOID);
-  void *sp = ffi_checkptr(L, 2, CTID_P_CVOID);
-  TValue *o = L->base+1;
-  CTSize len;
-  if (tvisstr(o) && o+1 >= L->top)
-    len = strV(o)->len+1;  /* Copy Lua string including trailing '\0'. */
-  else
-    len = (CTSize)ffi_checkint(L, 3);
-  memcpy(dp, sp, len);
-  return 0;
-}
-
-LJLIB_CF(ffi_fill)	LJLIB_REC(.)
-{
-  void *dp = ffi_checkptr(L, 1, CTID_P_VOID);
-  CTSize len = (CTSize)ffi_checkint(L, 2);
-  int32_t fill = 0;
-  if (L->base+2 < L->top && !tvisnil(L->base+2)) fill = ffi_checkint(L, 3);
-  memset(dp, fill, len);
-  return 0;
-}
-
-#define H_(le, be)	LJ_ENDIAN_SELECT(0x##le, 0x##be)
-
-/* Test ABI string. */
-LJLIB_CF(ffi_abi)	LJLIB_REC(.)
-{
-  GCstr *s = lj_lib_checkstr(L, 1);
-  int b = 0;
-  switch (s->hash) {
-#if LJ_64
-  case H_(849858eb,ad35fd06): b = 1; break;  /* 64bit */
-#else
-  case H_(662d3c79,d0e22477): b = 1; break;  /* 32bit */
-#endif
-#if LJ_ARCH_HASFPU
-  case H_(e33ee463,e33ee463): b = 1; break;  /* fpu */
-#endif
-#if LJ_ABI_SOFTFP
-  case H_(61211a23,c2e8c81c): b = 1; break;  /* softfp */
-#else
-  case H_(539417a8,8ce0812f): b = 1; break;  /* hardfp */
-#endif
-#if LJ_ABI_EABI
-  case H_(2182df8f,f2ed1152): b = 1; break;  /* eabi */
-#endif
-#if LJ_ABI_WIN
-  case H_(4ab624a8,4ab624a8): b = 1; break;  /* win */
-#endif
-  case H_(3af93066,1f001464): b = 1; break;  /* le/be */
-  default:
-    break;
-  }
-  setboolV(L->top-1, b);
-  setboolV(&G(L)->tmptv2, b);  /* Remember for trace recorder. */
-  return 1;
-}
-
-#undef H_
-
-LJLIB_PUSH(top-8) LJLIB_SET(!)  /* Store reference to miscmap table. */
-
-LJLIB_CF(ffi_metatype)
-{
-  CTState *cts = ctype_cts(L);
-  CTypeID id = ffi_checkctype(L, cts, NULL);
-  GCtab *mt = lj_lib_checktab(L, 2);
-  GCtab *t = cts->miscmap;
-  CType *ct = ctype_get(cts, id);  /* Only allow raw types. */
-  TValue *tv;
-  GCcdata *cd;
-  if (!(ctype_isstruct(ct->info) || ctype_iscomplex(ct->info) ||
-	ctype_isvector(ct->info)))
-    lj_err_arg(L, 1, LJ_ERR_FFI_INVTYPE);
-  tv = lj_tab_setinth(L, t, -(int32_t)id);
-  if (!tvisnil(tv))
-    lj_err_caller(L, LJ_ERR_PROTMT);
-  settabV(L, tv, mt);
-  lj_gc_anybarriert(L, t);
-  cd = lj_cdata_new(cts, CTID_CTYPEID, 4);
-  *(CTypeID *)cdataptr(cd) = id;
-  setcdataV(L, L->top-1, cd);
-  lj_gc_check(L);
-  return 1;
-}
-
-LJLIB_PUSH(top-7) LJLIB_SET(!)  /* Store reference to finalizer table. */
-
-LJLIB_CF(ffi_gc)	LJLIB_REC(.)
-{
-  GCcdata *cd = ffi_checkcdata(L, 1);
-  TValue *fin = lj_lib_checkany(L, 2);
-  CTState *cts = ctype_cts(L);
-  GCtab *t = cts->finalizer;
-  CType *ct = ctype_raw(cts, cd->ctypeid);
-  if (!(ctype_isptr(ct->info) || ctype_isstruct(ct->info) ||
-	ctype_isrefarray(ct->info)))
-    lj_err_arg(L, 1, LJ_ERR_FFI_INVTYPE);
-  if (gcref(t->metatable)) {  /* Update finalizer table, if still enabled. */
-    copyTV(L, lj_tab_set(L, t, L->base), fin);
-    lj_gc_anybarriert(L, t);
-    if (!tvisnil(fin))
-      cd->marked |= LJ_GC_CDATA_FIN;
-    else
-      cd->marked &= ~LJ_GC_CDATA_FIN;
-  }
-  L->top = L->base+1;  /* Pass through the cdata object. */
-  return 1;
-}
-
-LJLIB_PUSH(top-5) LJLIB_SET(!)  /* Store clib metatable in func environment. */
-
-LJLIB_CF(ffi_load)
-{
-  GCstr *name = lj_lib_checkstr(L, 1);
-  int global = (L->base+1 < L->top && tvistruecond(L->base+1));
-  lj_clib_load(L, tabref(curr_func(L)->c.env), name, global);
-  return 1;
-}
-
-LJLIB_PUSH(top-4) LJLIB_SET(C)
-LJLIB_PUSH(top-3) LJLIB_SET(os)
-LJLIB_PUSH(top-2) LJLIB_SET(arch)
-
-#include "lj_libdef.h"
-
-/* ------------------------------------------------------------------------ */
-
-/* Create special weak-keyed finalizer table. */
-static GCtab *ffi_finalizer(lua_State *L)
-{
-  /* NOBARRIER: The table is new (marked white). */
-  GCtab *t = lj_tab_new(L, 0, 1);
-  settabV(L, L->top++, t);
-  setgcref(t->metatable, obj2gco(t));
-  setstrV(L, lj_tab_setstr(L, t, lj_str_newlit(L, "__mode")),
-	  lj_str_newlit(L, "K"));
-  t->nomm = (uint8_t)(~(1u<<MM_mode));
-  return t;
-}
-
-/* Register FFI module as loaded. */
-static void ffi_register_module(lua_State *L)
-{
-  cTValue *tmp = lj_tab_getstr(tabV(registry(L)), lj_str_newlit(L, "_LOADED"));
-  if (tmp && tvistab(tmp)) {
-    GCtab *t = tabV(tmp);
-    copyTV(L, lj_tab_setstr(L, t, lj_str_newlit(L, LUA_FFILIBNAME)), L->top-1);
-    lj_gc_anybarriert(L, t);
-  }
-}
-
-LUALIB_API int luaopen_ffi(lua_State *L)
-{
-  CTState *cts = lj_ctype_init(L);
-  settabV(L, L->top++, (cts->miscmap = lj_tab_new(L, 0, 1)));
-  cts->finalizer = ffi_finalizer(L);
-  LJ_LIB_REG(L, NULL, ffi_meta);
-  /* NOBARRIER: basemt is a GC root. */
-  setgcref(basemt_it(G(L), LJ_TCDATA), obj2gco(tabV(L->top-1)));
-  LJ_LIB_REG(L, NULL, ffi_clib);
-  LJ_LIB_REG(L, NULL, ffi_callback);
-  /* NOBARRIER: the key is new and lj_tab_newkey() handles the barrier. */
-  settabV(L, lj_tab_setstr(L, cts->miscmap, &cts->g->strempty), tabV(L->top-1));
-  L->top--;
-  lj_clib_default(L, tabV(L->top-1));  /* Create ffi.C default namespace. */
-  lua_pushliteral(L, LJ_OS_NAME);
-  lua_pushliteral(L, LJ_ARCH_NAME);
-  LJ_LIB_REG(L, NULL, ffi);  /* Note: no global "ffi" created! */
-  ffi_register_module(L);
-  return 1;
-}
-
-#endif
diff --git a/luajit-2.0/src/lib_init.c b/luajit-2.0/src/lib_init.c
deleted file mode 100644
index a729d12..0000000
--- a/luajit-2.0/src/lib_init.c
+++ /dev/null
@@ -1,55 +0,0 @@
-/*
-** Library initialization.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-**
-** Major parts taken verbatim from the Lua interpreter.
-** Copyright (C) 1994-2008 Lua.org, PUC-Rio. See Copyright Notice in lua.h
-*/
-
-#define lib_init_c
-#define LUA_LIB
-
-#include "lua.h"
-#include "lauxlib.h"
-#include "lualib.h"
-
-#include "lj_arch.h"
-
-static const luaL_Reg lj_lib_load[] = {
-  { "",			luaopen_base },
-  { LUA_LOADLIBNAME,	luaopen_package },
-  { LUA_TABLIBNAME,	luaopen_table },
-  { LUA_IOLIBNAME,	luaopen_io },
-  { LUA_OSLIBNAME,	luaopen_os },
-  { LUA_STRLIBNAME,	luaopen_string },
-  { LUA_MATHLIBNAME,	luaopen_math },
-  { LUA_DBLIBNAME,	luaopen_debug },
-  { LUA_BITLIBNAME,	luaopen_bit },
-  { LUA_JITLIBNAME,	luaopen_jit },
-  { NULL,		NULL }
-};
-
-static const luaL_Reg lj_lib_preload[] = {
-#if LJ_HASFFI
-  { LUA_FFILIBNAME,	luaopen_ffi },
-#endif
-  { NULL,		NULL }
-};
-
-LUALIB_API void luaL_openlibs(lua_State *L)
-{
-  const luaL_Reg *lib;
-  for (lib = lj_lib_load; lib->func; lib++) {
-    lua_pushcfunction(L, lib->func);
-    lua_pushstring(L, lib->name);
-    lua_call(L, 1, 0);
-  }
-  luaL_findtable(L, LUA_REGISTRYINDEX, "_PRELOAD",
-		 sizeof(lj_lib_preload)/sizeof(lj_lib_preload[0])-1);
-  for (lib = lj_lib_preload; lib->func; lib++) {
-    lua_pushcfunction(L, lib->func);
-    lua_setfield(L, -2, lib->name);
-  }
-  lua_pop(L, 1);
-}
-
diff --git a/luajit-2.0/src/lib_io.c b/luajit-2.0/src/lib_io.c
deleted file mode 100644
index 90f310b..0000000
--- a/luajit-2.0/src/lib_io.c
+++ /dev/null
@@ -1,539 +0,0 @@
-/*
-** I/O library.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-**
-** Major portions taken verbatim or adapted from the Lua interpreter.
-** Copyright (C) 1994-2011 Lua.org, PUC-Rio. See Copyright Notice in lua.h
-*/
-
-#include <errno.h>
-#include <stdio.h>
-
-#define lib_io_c
-#define LUA_LIB
-
-#include "lua.h"
-#include "lauxlib.h"
-#include "lualib.h"
-
-#include "lj_obj.h"
-#include "lj_gc.h"
-#include "lj_err.h"
-#include "lj_str.h"
-#include "lj_state.h"
-#include "lj_ff.h"
-#include "lj_lib.h"
-
-/* Userdata payload for I/O file. */
-typedef struct IOFileUD {
-  FILE *fp;		/* File handle. */
-  uint32_t type;	/* File type. */
-} IOFileUD;
-
-#define IOFILE_TYPE_FILE	0	/* Regular file. */
-#define IOFILE_TYPE_PIPE	1	/* Pipe. */
-#define IOFILE_TYPE_STDF	2	/* Standard file handle. */
-#define IOFILE_TYPE_MASK	3
-
-#define IOFILE_FLAG_CLOSE	4	/* Close after io.lines() iterator. */
-
-#define IOSTDF_UD(L, id)	(&gcref(G(L)->gcroot[(id)])->ud)
-#define IOSTDF_IOF(L, id)	((IOFileUD *)uddata(IOSTDF_UD(L, (id))))
-
-/* -- Open/close helpers -------------------------------------------------- */
-
-static IOFileUD *io_tofilep(lua_State *L)
-{
-  if (!(L->base < L->top && tvisudata(L->base) &&
-	udataV(L->base)->udtype == UDTYPE_IO_FILE))
-    lj_err_argtype(L, 1, "FILE*");
-  return (IOFileUD *)uddata(udataV(L->base));
-}
-
-static IOFileUD *io_tofile(lua_State *L)
-{
-  IOFileUD *iof = io_tofilep(L);
-  if (iof->fp == NULL)
-    lj_err_caller(L, LJ_ERR_IOCLFL);
-  return iof;
-}
-
-static FILE *io_stdfile(lua_State *L, ptrdiff_t id)
-{
-  IOFileUD *iof = IOSTDF_IOF(L, id);
-  if (iof->fp == NULL)
-    lj_err_caller(L, LJ_ERR_IOSTDCL);
-  return iof->fp;
-}
-
-static IOFileUD *io_file_new(lua_State *L)
-{
-  IOFileUD *iof = (IOFileUD *)lua_newuserdata(L, sizeof(IOFileUD));
-  GCudata *ud = udataV(L->top-1);
-  ud->udtype = UDTYPE_IO_FILE;
-  /* NOBARRIER: The GCudata is new (marked white). */
-  setgcrefr(ud->metatable, curr_func(L)->c.env);
-  iof->fp = NULL;
-  iof->type = IOFILE_TYPE_FILE;
-  return iof;
-}
-
-static IOFileUD *io_file_open(lua_State *L, const char *mode)
-{
-  const char *fname = strdata(lj_lib_checkstr(L, 1));
-  IOFileUD *iof = io_file_new(L);
-  iof->fp = fopen(fname, mode);
-  if (iof->fp == NULL)
-    luaL_argerror(L, 1, lj_str_pushf(L, "%s: %s", fname, strerror(errno)));
-  return iof;
-}
-
-static int io_file_close(lua_State *L, IOFileUD *iof)
-{
-  int ok;
-  if ((iof->type & IOFILE_TYPE_MASK) == IOFILE_TYPE_FILE) {
-    ok = (fclose(iof->fp) == 0);
-  } else if ((iof->type & IOFILE_TYPE_MASK) == IOFILE_TYPE_PIPE) {
-    int stat = -1;
-#if LJ_TARGET_POSIX
-    stat = pclose(iof->fp);
-#elif LJ_TARGET_WINDOWS
-    stat = _pclose(iof->fp);
-#else
-    lua_assert(0);
-    return 0;
-#endif
-#if LJ_52
-    iof->fp = NULL;
-    return luaL_execresult(L, stat);
-#else
-    ok = (stat != -1);
-#endif
-  } else {
-    lua_assert((iof->type & IOFILE_TYPE_MASK) == IOFILE_TYPE_STDF);
-    setnilV(L->top++);
-    lua_pushliteral(L, "cannot close standard file");
-    return 2;
-  }
-  iof->fp = NULL;
-  return luaL_fileresult(L, ok, NULL);
-}
-
-/* -- Read/write helpers -------------------------------------------------- */
-
-static int io_file_readnum(lua_State *L, FILE *fp)
-{
-  lua_Number d;
-  if (fscanf(fp, LUA_NUMBER_SCAN, &d) == 1) {
-    if (LJ_DUALNUM) {
-      int32_t i = lj_num2int(d);
-      if (d == (lua_Number)i && !tvismzero((cTValue *)&d)) {
-	setintV(L->top++, i);
-	return 1;
-      }
-    }
-    setnumV(L->top++, d);
-    return 1;
-  } else {
-    setnilV(L->top++);
-    return 0;
-  }
-}
-
-static int io_file_readline(lua_State *L, FILE *fp, MSize chop)
-{
-  MSize m = LUAL_BUFFERSIZE, n = 0, ok = 0;
-  char *buf;
-  for (;;) {
-    buf = lj_str_needbuf(L, &G(L)->tmpbuf, m);
-    if (fgets(buf+n, m-n, fp) == NULL) break;
-    n += (MSize)strlen(buf+n);
-    ok |= n;
-    if (n && buf[n-1] == '\n') { n -= chop; break; }
-    if (n >= m - 64) m += m;
-  }
-  setstrV(L, L->top++, lj_str_new(L, buf, (size_t)n));
-  lj_gc_check(L);
-  return (int)ok;
-}
-
-static void io_file_readall(lua_State *L, FILE *fp)
-{
-  MSize m, n;
-  for (m = LUAL_BUFFERSIZE, n = 0; ; m += m) {
-    char *buf = lj_str_needbuf(L, &G(L)->tmpbuf, m);
-    n += (MSize)fread(buf+n, 1, m-n, fp);
-    if (n != m) {
-      setstrV(L, L->top++, lj_str_new(L, buf, (size_t)n));
-      lj_gc_check(L);
-      return;
-    }
-  }
-}
-
-static int io_file_readlen(lua_State *L, FILE *fp, MSize m)
-{
-  if (m) {
-    char *buf = lj_str_needbuf(L, &G(L)->tmpbuf, m);
-    MSize n = (MSize)fread(buf, 1, m, fp);
-    setstrV(L, L->top++, lj_str_new(L, buf, (size_t)n));
-    lj_gc_check(L);
-    return (n > 0 || m == 0);
-  } else {
-    int c = getc(fp);
-    ungetc(c, fp);
-    setstrV(L, L->top++, &G(L)->strempty);
-    return (c != EOF);
-  }
-}
-
-static int io_file_read(lua_State *L, FILE *fp, int start)
-{
-  int ok, n, nargs = (int)(L->top - L->base) - start;
-  clearerr(fp);
-  if (nargs == 0) {
-    ok = io_file_readline(L, fp, 1);
-    n = start+1;  /* Return 1 result. */
-  } else {
-    /* The results plus the buffers go on top of the args. */
-    luaL_checkstack(L, nargs+LUA_MINSTACK, "too many arguments");
-    ok = 1;
-    for (n = start; nargs-- && ok; n++) {
-      if (tvisstr(L->base+n)) {
-	const char *p = strVdata(L->base+n);
-	if (p[0] != '*')
-	  lj_err_arg(L, n+1, LJ_ERR_INVOPT);
-	if (p[1] == 'n')
-	  ok = io_file_readnum(L, fp);
-	else if ((p[1] & ~0x20) == 'L')
-	  ok = io_file_readline(L, fp, (p[1] == 'l'));
-	else if (p[1] == 'a')
-	  io_file_readall(L, fp);
-	else
-	  lj_err_arg(L, n+1, LJ_ERR_INVFMT);
-      } else if (tvisnumber(L->base+n)) {
-	ok = io_file_readlen(L, fp, (MSize)lj_lib_checkint(L, n+1));
-      } else {
-	lj_err_arg(L, n+1, LJ_ERR_INVOPT);
-      }
-    }
-  }
-  if (ferror(fp))
-    return luaL_fileresult(L, 0, NULL);
-  if (!ok)
-    setnilV(L->top-1);  /* Replace last result with nil. */
-  return n - start;
-}
-
-static int io_file_write(lua_State *L, FILE *fp, int start)
-{
-  cTValue *tv;
-  int status = 1;
-  for (tv = L->base+start; tv < L->top; tv++) {
-    if (tvisstr(tv)) {
-      MSize len = strV(tv)->len;
-      status = status && (fwrite(strVdata(tv), 1, len, fp) == len);
-    } else if (tvisint(tv)) {
-      char buf[LJ_STR_INTBUF];
-      char *p = lj_str_bufint(buf, intV(tv));
-      size_t len = (size_t)(buf+LJ_STR_INTBUF-p);
-      status = status && (fwrite(p, 1, len, fp) == len);
-    } else if (tvisnum(tv)) {
-      status = status && (fprintf(fp, LUA_NUMBER_FMT, numV(tv)) > 0);
-    } else {
-      lj_err_argt(L, (int)(tv - L->base) + 1, LUA_TSTRING);
-    }
-  }
-  if (LJ_52 && status) {
-    L->top = L->base+1;
-    if (start == 0)
-      setudataV(L, L->base, IOSTDF_UD(L, GCROOT_IO_OUTPUT));
-    return 1;
-  }
-  return luaL_fileresult(L, status, NULL);
-}
-
-static int io_file_iter(lua_State *L)
-{
-  GCfunc *fn = curr_func(L);
-  IOFileUD *iof = uddata(udataV(&fn->c.upvalue[0]));
-  int n = fn->c.nupvalues - 1;
-  if (iof->fp == NULL)
-    lj_err_caller(L, LJ_ERR_IOCLFL);
-  L->top = L->base;
-  if (n) {  /* Copy upvalues with options to stack. */
-    if (n > LUAI_MAXCSTACK)
-      lj_err_caller(L, LJ_ERR_STKOV);
-    lj_state_checkstack(L, (MSize)n);
-    memcpy(L->top, &fn->c.upvalue[1], n*sizeof(TValue));
-    L->top += n;
-  }
-  n = io_file_read(L, iof->fp, 0);
-  if (ferror(iof->fp))
-    lj_err_callermsg(L, strVdata(L->top-2));
-  if (tvisnil(L->base) && (iof->type & IOFILE_FLAG_CLOSE)) {
-    io_file_close(L, iof);  /* Return values are ignored. */
-    return 0;
-  }
-  return n;
-}
-
-/* -- I/O file methods ---------------------------------------------------- */
-
-#define LJLIB_MODULE_io_method
-
-LJLIB_CF(io_method_close)
-{
-  IOFileUD *iof = L->base < L->top ? io_tofile(L) :
-		  IOSTDF_IOF(L, GCROOT_IO_OUTPUT);
-  return io_file_close(L, iof);
-}
-
-LJLIB_CF(io_method_read)
-{
-  return io_file_read(L, io_tofile(L)->fp, 1);
-}
-
-LJLIB_CF(io_method_write)		LJLIB_REC(io_write 0)
-{
-  return io_file_write(L, io_tofile(L)->fp, 1);
-}
-
-LJLIB_CF(io_method_flush)		LJLIB_REC(io_flush 0)
-{
-  return luaL_fileresult(L, fflush(io_tofile(L)->fp) == 0, NULL);
-}
-
-LJLIB_CF(io_method_seek)
-{
-  FILE *fp = io_tofile(L)->fp;
-  int opt = lj_lib_checkopt(L, 2, 1, "\3set\3cur\3end");
-  int64_t ofs = 0;
-  cTValue *o;
-  int res;
-  if (opt == 0) opt = SEEK_SET;
-  else if (opt == 1) opt = SEEK_CUR;
-  else if (opt == 2) opt = SEEK_END;
-  o = L->base+2;
-  if (o < L->top) {
-    if (tvisint(o))
-      ofs = (int64_t)intV(o);
-    else if (tvisnum(o))
-      ofs = (int64_t)numV(o);
-    else if (!tvisnil(o))
-      lj_err_argt(L, 3, LUA_TNUMBER);
-  }
-#if LJ_TARGET_POSIX
-  res = fseeko(fp, ofs, opt);
-#elif _MSC_VER >= 1400
-  res = _fseeki64(fp, ofs, opt);
-#elif defined(__MINGW32__)
-  res = fseeko64(fp, ofs, opt);
-#else
-  res = fseek(fp, (long)ofs, opt);
-#endif
-  if (res)
-    return luaL_fileresult(L, 0, NULL);
-#if LJ_TARGET_POSIX
-  ofs = ftello(fp);
-#elif _MSC_VER >= 1400
-  ofs = _ftelli64(fp);
-#elif defined(__MINGW32__)
-  ofs = ftello64(fp);
-#else
-  ofs = (int64_t)ftell(fp);
-#endif
-  setint64V(L->top-1, ofs);
-  return 1;
-}
-
-LJLIB_CF(io_method_setvbuf)
-{
-  FILE *fp = io_tofile(L)->fp;
-  int opt = lj_lib_checkopt(L, 2, -1, "\4full\4line\2no");
-  size_t sz = (size_t)lj_lib_optint(L, 3, LUAL_BUFFERSIZE);
-  if (opt == 0) opt = _IOFBF;
-  else if (opt == 1) opt = _IOLBF;
-  else if (opt == 2) opt = _IONBF;
-  return luaL_fileresult(L, setvbuf(fp, NULL, opt, sz) == 0, NULL);
-}
-
-LJLIB_CF(io_method_lines)
-{
-  io_tofile(L);
-  lua_pushcclosure(L, io_file_iter, (int)(L->top - L->base));
-  return 1;
-}
-
-LJLIB_CF(io_method___gc)
-{
-  IOFileUD *iof = io_tofilep(L);
-  if (iof->fp != NULL && (iof->type & IOFILE_TYPE_MASK) != IOFILE_TYPE_STDF)
-    io_file_close(L, iof);
-  return 0;
-}
-
-LJLIB_CF(io_method___tostring)
-{
-  IOFileUD *iof = io_tofilep(L);
-  if (iof->fp != NULL)
-    lua_pushfstring(L, "file (%p)", iof->fp);
-  else
-    lua_pushliteral(L, "file (closed)");
-  return 1;
-}
-
-LJLIB_PUSH(top-1) LJLIB_SET(__index)
-
-#include "lj_libdef.h"
-
-/* -- I/O library functions ----------------------------------------------- */
-
-#define LJLIB_MODULE_io
-
-LJLIB_PUSH(top-2) LJLIB_SET(!)  /* Set environment. */
-
-LJLIB_CF(io_open)
-{
-  const char *fname = strdata(lj_lib_checkstr(L, 1));
-  GCstr *s = lj_lib_optstr(L, 2);
-  const char *mode = s ? strdata(s) : "r";
-  IOFileUD *iof = io_file_new(L);
-  iof->fp = fopen(fname, mode);
-  return iof->fp != NULL ? 1 : luaL_fileresult(L, 0, fname);
-}
-
-LJLIB_CF(io_popen)
-{
-#if LJ_TARGET_POSIX || LJ_TARGET_WINDOWS
-  const char *fname = strdata(lj_lib_checkstr(L, 1));
-  GCstr *s = lj_lib_optstr(L, 2);
-  const char *mode = s ? strdata(s) : "r";
-  IOFileUD *iof = io_file_new(L);
-  iof->type = IOFILE_TYPE_PIPE;
-#if LJ_TARGET_POSIX
-  fflush(NULL);
-  iof->fp = popen(fname, mode);
-#else
-  iof->fp = _popen(fname, mode);
-#endif
-  return iof->fp != NULL ? 1 : luaL_fileresult(L, 0, fname);
-#else
-  return luaL_error(L, LUA_QL("popen") " not supported");
-#endif
-}
-
-LJLIB_CF(io_tmpfile)
-{
-  IOFileUD *iof = io_file_new(L);
-#if LJ_TARGET_PS3 || LJ_TARGET_PS4 || LJ_TARGET_PSVITA
-  iof->fp = NULL; errno = ENOSYS;
-#else
-  iof->fp = tmpfile();
-#endif
-  return iof->fp != NULL ? 1 : luaL_fileresult(L, 0, NULL);
-}
-
-LJLIB_CF(io_close)
-{
-  return lj_cf_io_method_close(L);
-}
-
-LJLIB_CF(io_read)
-{
-  return io_file_read(L, io_stdfile(L, GCROOT_IO_INPUT), 0);
-}
-
-LJLIB_CF(io_write)		LJLIB_REC(io_write GCROOT_IO_OUTPUT)
-{
-  return io_file_write(L, io_stdfile(L, GCROOT_IO_OUTPUT), 0);
-}
-
-LJLIB_CF(io_flush)		LJLIB_REC(io_flush GCROOT_IO_OUTPUT)
-{
-  return luaL_fileresult(L, fflush(io_stdfile(L, GCROOT_IO_OUTPUT)) == 0, NULL);
-}
-
-static int io_std_getset(lua_State *L, ptrdiff_t id, const char *mode)
-{
-  if (L->base < L->top && !tvisnil(L->base)) {
-    if (tvisudata(L->base)) {
-      io_tofile(L);
-      L->top = L->base+1;
-    } else {
-      io_file_open(L, mode);
-    }
-    /* NOBARRIER: The standard I/O handles are GC roots. */
-    setgcref(G(L)->gcroot[id], gcV(L->top-1));
-  } else {
-    setudataV(L, L->top++, IOSTDF_UD(L, id));
-  }
-  return 1;
-}
-
-LJLIB_CF(io_input)
-{
-  return io_std_getset(L, GCROOT_IO_INPUT, "r");
-}
-
-LJLIB_CF(io_output)
-{
-  return io_std_getset(L, GCROOT_IO_OUTPUT, "w");
-}
-
-LJLIB_CF(io_lines)
-{
-  if (L->base == L->top) setnilV(L->top++);
-  if (!tvisnil(L->base)) {  /* io.lines(fname) */
-    IOFileUD *iof = io_file_open(L, "r");
-    iof->type = IOFILE_TYPE_FILE|IOFILE_FLAG_CLOSE;
-    L->top--;
-    setudataV(L, L->base, udataV(L->top));
-  } else {  /* io.lines() iterates over stdin. */
-    setudataV(L, L->base, IOSTDF_UD(L, GCROOT_IO_INPUT));
-  }
-  lua_pushcclosure(L, io_file_iter, (int)(L->top - L->base));
-  return 1;
-}
-
-LJLIB_CF(io_type)
-{
-  cTValue *o = lj_lib_checkany(L, 1);
-  if (!(tvisudata(o) && udataV(o)->udtype == UDTYPE_IO_FILE))
-    setnilV(L->top++);
-  else if (((IOFileUD *)uddata(udataV(o)))->fp != NULL)
-    lua_pushliteral(L, "file");
-  else
-    lua_pushliteral(L, "closed file");
-  return 1;
-}
-
-#include "lj_libdef.h"
-
-/* ------------------------------------------------------------------------ */
-
-static GCobj *io_std_new(lua_State *L, FILE *fp, const char *name)
-{
-  IOFileUD *iof = (IOFileUD *)lua_newuserdata(L, sizeof(IOFileUD));
-  GCudata *ud = udataV(L->top-1);
-  ud->udtype = UDTYPE_IO_FILE;
-  /* NOBARRIER: The GCudata is new (marked white). */
-  setgcref(ud->metatable, gcV(L->top-3));
-  iof->fp = fp;
-  iof->type = IOFILE_TYPE_STDF;
-  lua_setfield(L, -2, name);
-  return obj2gco(ud);
-}
-
-LUALIB_API int luaopen_io(lua_State *L)
-{
-  LJ_LIB_REG(L, NULL, io_method);
-  copyTV(L, L->top, L->top-1); L->top++;
-  lua_setfield(L, LUA_REGISTRYINDEX, LUA_FILEHANDLE);
-  LJ_LIB_REG(L, LUA_IOLIBNAME, io);
-  setgcref(G(L)->gcroot[GCROOT_IO_INPUT], io_std_new(L, stdin, "stdin"));
-  setgcref(G(L)->gcroot[GCROOT_IO_OUTPUT], io_std_new(L, stdout, "stdout"));
-  io_std_new(L, stderr, "stderr");
-  return 1;
-}
-
diff --git a/luajit-2.0/src/lib_jit.c b/luajit-2.0/src/lib_jit.c
deleted file mode 100644
index 0fadf8b..0000000
--- a/luajit-2.0/src/lib_jit.c
+++ /dev/null
@@ -1,663 +0,0 @@
-/*
-** JIT library.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#define lib_jit_c
-#define LUA_LIB
-
-#include "lua.h"
-#include "lauxlib.h"
-#include "lualib.h"
-
-#include "lj_arch.h"
-#include "lj_obj.h"
-#include "lj_err.h"
-#include "lj_debug.h"
-#include "lj_str.h"
-#include "lj_tab.h"
-#include "lj_bc.h"
-#if LJ_HASJIT
-#include "lj_ir.h"
-#include "lj_jit.h"
-#include "lj_ircall.h"
-#include "lj_iropt.h"
-#include "lj_target.h"
-#endif
-#include "lj_dispatch.h"
-#include "lj_vm.h"
-#include "lj_vmevent.h"
-#include "lj_lib.h"
-
-#include "luajit.h"
-
-/* -- jit.* functions ----------------------------------------------------- */
-
-#define LJLIB_MODULE_jit
-
-static int setjitmode(lua_State *L, int mode)
-{
-  int idx = 0;
-  if (L->base == L->top || tvisnil(L->base)) {  /* jit.on/off/flush([nil]) */
-    mode |= LUAJIT_MODE_ENGINE;
-  } else {
-    /* jit.on/off/flush(func|proto, nil|true|false) */
-    if (tvisfunc(L->base) || tvisproto(L->base))
-      idx = 1;
-    else if (!tvistrue(L->base))  /* jit.on/off/flush(true, nil|true|false) */
-      goto err;
-    if (L->base+1 < L->top && tvisbool(L->base+1))
-      mode |= boolV(L->base+1) ? LUAJIT_MODE_ALLFUNC : LUAJIT_MODE_ALLSUBFUNC;
-    else
-      mode |= LUAJIT_MODE_FUNC;
-  }
-  if (luaJIT_setmode(L, idx, mode) != 1) {
-    if ((mode & LUAJIT_MODE_MASK) == LUAJIT_MODE_ENGINE)
-      lj_err_caller(L, LJ_ERR_NOJIT);
-  err:
-    lj_err_argt(L, 1, LUA_TFUNCTION);
-  }
-  return 0;
-}
-
-LJLIB_CF(jit_on)
-{
-  return setjitmode(L, LUAJIT_MODE_ON);
-}
-
-LJLIB_CF(jit_off)
-{
-  return setjitmode(L, LUAJIT_MODE_OFF);
-}
-
-LJLIB_CF(jit_flush)
-{
-#if LJ_HASJIT
-  if (L->base < L->top && tvisnumber(L->base)) {
-    int traceno = lj_lib_checkint(L, 1);
-    luaJIT_setmode(L, traceno, LUAJIT_MODE_FLUSH|LUAJIT_MODE_TRACE);
-    return 0;
-  }
-#endif
-  return setjitmode(L, LUAJIT_MODE_FLUSH);
-}
-
-#if LJ_HASJIT
-/* Push a string for every flag bit that is set. */
-static void flagbits_to_strings(lua_State *L, uint32_t flags, uint32_t base,
-				const char *str)
-{
-  for (; *str; base <<= 1, str += 1+*str)
-    if (flags & base)
-      setstrV(L, L->top++, lj_str_new(L, str+1, *(uint8_t *)str));
-}
-#endif
-
-LJLIB_CF(jit_status)
-{
-#if LJ_HASJIT
-  jit_State *J = L2J(L);
-  L->top = L->base;
-  setboolV(L->top++, (J->flags & JIT_F_ON) ? 1 : 0);
-  flagbits_to_strings(L, J->flags, JIT_F_CPU_FIRST, JIT_F_CPUSTRING);
-  flagbits_to_strings(L, J->flags, JIT_F_OPT_FIRST, JIT_F_OPTSTRING);
-  return (int)(L->top - L->base);
-#else
-  setboolV(L->top++, 0);
-  return 1;
-#endif
-}
-
-LJLIB_CF(jit_attach)
-{
-#ifdef LUAJIT_DISABLE_VMEVENT
-  luaL_error(L, "vmevent API disabled");
-#else
-  GCfunc *fn = lj_lib_checkfunc(L, 1);
-  GCstr *s = lj_lib_optstr(L, 2);
-  luaL_findtable(L, LUA_REGISTRYINDEX, LJ_VMEVENTS_REGKEY, LJ_VMEVENTS_HSIZE);
-  if (s) {  /* Attach to given event. */
-    const uint8_t *p = (const uint8_t *)strdata(s);
-    uint32_t h = s->len;
-    while (*p) h = h ^ (lj_rol(h, 6) + *p++);
-    lua_pushvalue(L, 1);
-    lua_rawseti(L, -2, VMEVENT_HASHIDX(h));
-    G(L)->vmevmask = VMEVENT_NOCACHE;  /* Invalidate cache. */
-  } else {  /* Detach if no event given. */
-    setnilV(L->top++);
-    while (lua_next(L, -2)) {
-      L->top--;
-      if (tvisfunc(L->top) && funcV(L->top) == fn) {
-	setnilV(lj_tab_set(L, tabV(L->top-2), L->top-1));
-      }
-    }
-  }
-#endif
-  return 0;
-}
-
-LJLIB_PUSH(top-5) LJLIB_SET(os)
-LJLIB_PUSH(top-4) LJLIB_SET(arch)
-LJLIB_PUSH(top-3) LJLIB_SET(version_num)
-LJLIB_PUSH(top-2) LJLIB_SET(version)
-
-#include "lj_libdef.h"
-
-/* -- jit.util.* functions ------------------------------------------------ */
-
-#define LJLIB_MODULE_jit_util
-
-/* -- Reflection API for Lua functions ------------------------------------ */
-
-/* Return prototype of first argument (Lua function or prototype object) */
-static GCproto *check_Lproto(lua_State *L, int nolua)
-{
-  TValue *o = L->base;
-  if (L->top > o) {
-    if (tvisproto(o)) {
-      return protoV(o);
-    } else if (tvisfunc(o)) {
-      if (isluafunc(funcV(o)))
-	return funcproto(funcV(o));
-      else if (nolua)
-	return NULL;
-    }
-  }
-  lj_err_argt(L, 1, LUA_TFUNCTION);
-  return NULL;  /* unreachable */
-}
-
-static void setintfield(lua_State *L, GCtab *t, const char *name, int32_t val)
-{
-  setintV(lj_tab_setstr(L, t, lj_str_newz(L, name)), val);
-}
-
-/* local info = jit.util.funcinfo(func [,pc]) */
-LJLIB_CF(jit_util_funcinfo)
-{
-  GCproto *pt = check_Lproto(L, 1);
-  if (pt) {
-    BCPos pc = (BCPos)lj_lib_optint(L, 2, 0);
-    GCtab *t;
-    lua_createtable(L, 0, 16);  /* Increment hash size if fields are added. */
-    t = tabV(L->top-1);
-    setintfield(L, t, "linedefined", pt->firstline);
-    setintfield(L, t, "lastlinedefined", pt->firstline + pt->numline);
-    setintfield(L, t, "stackslots", pt->framesize);
-    setintfield(L, t, "params", pt->numparams);
-    setintfield(L, t, "bytecodes", (int32_t)pt->sizebc);
-    setintfield(L, t, "gcconsts", (int32_t)pt->sizekgc);
-    setintfield(L, t, "nconsts", (int32_t)pt->sizekn);
-    setintfield(L, t, "upvalues", (int32_t)pt->sizeuv);
-    if (pc < pt->sizebc)
-      setintfield(L, t, "currentline", lj_debug_line(pt, pc));
-    lua_pushboolean(L, (pt->flags & PROTO_VARARG));
-    lua_setfield(L, -2, "isvararg");
-    lua_pushboolean(L, (pt->flags & PROTO_CHILD));
-    lua_setfield(L, -2, "children");
-    setstrV(L, L->top++, proto_chunkname(pt));
-    lua_setfield(L, -2, "source");
-    lj_debug_pushloc(L, pt, pc);
-    lua_setfield(L, -2, "loc");
-  } else {
-    GCfunc *fn = funcV(L->base);
-    GCtab *t;
-    lua_createtable(L, 0, 4);  /* Increment hash size if fields are added. */
-    t = tabV(L->top-1);
-    if (!iscfunc(fn))
-      setintfield(L, t, "ffid", fn->c.ffid);
-    setintptrV(lj_tab_setstr(L, t, lj_str_newlit(L, "addr")),
-	       (intptr_t)(void *)fn->c.f);
-    setintfield(L, t, "upvalues", fn->c.nupvalues);
-  }
-  return 1;
-}
-
-/* local ins, m = jit.util.funcbc(func, pc) */
-LJLIB_CF(jit_util_funcbc)
-{
-  GCproto *pt = check_Lproto(L, 0);
-  BCPos pc = (BCPos)lj_lib_checkint(L, 2);
-  if (pc < pt->sizebc) {
-    BCIns ins = proto_bc(pt)[pc];
-    BCOp op = bc_op(ins);
-    lua_assert(op < BC__MAX);
-    setintV(L->top, ins);
-    setintV(L->top+1, lj_bc_mode[op]);
-    L->top += 2;
-    return 2;
-  }
-  return 0;
-}
-
-/* local k = jit.util.funck(func, idx) */
-LJLIB_CF(jit_util_funck)
-{
-  GCproto *pt = check_Lproto(L, 0);
-  ptrdiff_t idx = (ptrdiff_t)lj_lib_checkint(L, 2);
-  if (idx >= 0) {
-    if (idx < (ptrdiff_t)pt->sizekn) {
-      copyTV(L, L->top-1, proto_knumtv(pt, idx));
-      return 1;
-    }
-  } else {
-    if (~idx < (ptrdiff_t)pt->sizekgc) {
-      GCobj *gc = proto_kgc(pt, idx);
-      setgcV(L, L->top-1, gc, ~gc->gch.gct);
-      return 1;
-    }
-  }
-  return 0;
-}
-
-/* local name = jit.util.funcuvname(func, idx) */
-LJLIB_CF(jit_util_funcuvname)
-{
-  GCproto *pt = check_Lproto(L, 0);
-  uint32_t idx = (uint32_t)lj_lib_checkint(L, 2);
-  if (idx < pt->sizeuv) {
-    setstrV(L, L->top-1, lj_str_newz(L, lj_debug_uvname(pt, idx)));
-    return 1;
-  }
-  return 0;
-}
-
-/* -- Reflection API for traces ------------------------------------------- */
-
-#if LJ_HASJIT
-
-/* Check trace argument. Must not throw for non-existent trace numbers. */
-static GCtrace *jit_checktrace(lua_State *L)
-{
-  TraceNo tr = (TraceNo)lj_lib_checkint(L, 1);
-  jit_State *J = L2J(L);
-  if (tr > 0 && tr < J->sizetrace)
-    return traceref(J, tr);
-  return NULL;
-}
-
-/* Names of link types. ORDER LJ_TRLINK */
-static const char *const jit_trlinkname[] = {
-  "none", "root", "loop", "tail-recursion", "up-recursion", "down-recursion",
-  "interpreter", "return"
-};
-
-/* local info = jit.util.traceinfo(tr) */
-LJLIB_CF(jit_util_traceinfo)
-{
-  GCtrace *T = jit_checktrace(L);
-  if (T) {
-    GCtab *t;
-    lua_createtable(L, 0, 8);  /* Increment hash size if fields are added. */
-    t = tabV(L->top-1);
-    setintfield(L, t, "nins", (int32_t)T->nins - REF_BIAS - 1);
-    setintfield(L, t, "nk", REF_BIAS - (int32_t)T->nk);
-    setintfield(L, t, "link", T->link);
-    setintfield(L, t, "nexit", T->nsnap);
-    setstrV(L, L->top++, lj_str_newz(L, jit_trlinkname[T->linktype]));
-    lua_setfield(L, -2, "linktype");
-    /* There are many more fields. Add them only when needed. */
-    return 1;
-  }
-  return 0;
-}
-
-/* local m, ot, op1, op2, prev = jit.util.traceir(tr, idx) */
-LJLIB_CF(jit_util_traceir)
-{
-  GCtrace *T = jit_checktrace(L);
-  IRRef ref = (IRRef)lj_lib_checkint(L, 2) + REF_BIAS;
-  if (T && ref >= REF_BIAS && ref < T->nins) {
-    IRIns *ir = &T->ir[ref];
-    int32_t m = lj_ir_mode[ir->o];
-    setintV(L->top-2, m);
-    setintV(L->top-1, ir->ot);
-    setintV(L->top++, (int32_t)ir->op1 - (irm_op1(m)==IRMref ? REF_BIAS : 0));
-    setintV(L->top++, (int32_t)ir->op2 - (irm_op2(m)==IRMref ? REF_BIAS : 0));
-    setintV(L->top++, ir->prev);
-    return 5;
-  }
-  return 0;
-}
-
-/* local k, t [, slot] = jit.util.tracek(tr, idx) */
-LJLIB_CF(jit_util_tracek)
-{
-  GCtrace *T = jit_checktrace(L);
-  IRRef ref = (IRRef)lj_lib_checkint(L, 2) + REF_BIAS;
-  if (T && ref >= T->nk && ref < REF_BIAS) {
-    IRIns *ir = &T->ir[ref];
-    int32_t slot = -1;
-    if (ir->o == IR_KSLOT) {
-      slot = ir->op2;
-      ir = &T->ir[ir->op1];
-    }
-    lj_ir_kvalue(L, L->top-2, ir);
-    setintV(L->top-1, (int32_t)irt_type(ir->t));
-    if (slot == -1)
-      return 2;
-    setintV(L->top++, slot);
-    return 3;
-  }
-  return 0;
-}
-
-/* local snap = jit.util.tracesnap(tr, sn) */
-LJLIB_CF(jit_util_tracesnap)
-{
-  GCtrace *T = jit_checktrace(L);
-  SnapNo sn = (SnapNo)lj_lib_checkint(L, 2);
-  if (T && sn < T->nsnap) {
-    SnapShot *snap = &T->snap[sn];
-    SnapEntry *map = &T->snapmap[snap->mapofs];
-    MSize n, nent = snap->nent;
-    GCtab *t;
-    lua_createtable(L, nent+2, 0);
-    t = tabV(L->top-1);
-    setintV(lj_tab_setint(L, t, 0), (int32_t)snap->ref - REF_BIAS);
-    setintV(lj_tab_setint(L, t, 1), (int32_t)snap->nslots);
-    for (n = 0; n < nent; n++)
-      setintV(lj_tab_setint(L, t, (int32_t)(n+2)), (int32_t)map[n]);
-    setintV(lj_tab_setint(L, t, (int32_t)(nent+2)), (int32_t)SNAP(255, 0, 0));
-    return 1;
-  }
-  return 0;
-}
-
-/* local mcode, addr, loop = jit.util.tracemc(tr) */
-LJLIB_CF(jit_util_tracemc)
-{
-  GCtrace *T = jit_checktrace(L);
-  if (T && T->mcode != NULL) {
-    setstrV(L, L->top-1, lj_str_new(L, (const char *)T->mcode, T->szmcode));
-    setintptrV(L->top++, (intptr_t)(void *)T->mcode);
-    setintV(L->top++, T->mcloop);
-    return 3;
-  }
-  return 0;
-}
-
-/* local addr = jit.util.traceexitstub([tr,] exitno) */
-LJLIB_CF(jit_util_traceexitstub)
-{
-#ifdef EXITSTUBS_PER_GROUP
-  ExitNo exitno = (ExitNo)lj_lib_checkint(L, 1);
-  jit_State *J = L2J(L);
-  if (exitno < EXITSTUBS_PER_GROUP*LJ_MAX_EXITSTUBGR) {
-    setintptrV(L->top-1, (intptr_t)(void *)exitstub_addr(J, exitno));
-    return 1;
-  }
-#else
-  if (L->top > L->base+1) {  /* Don't throw for one-argument variant. */
-    GCtrace *T = jit_checktrace(L);
-    ExitNo exitno = (ExitNo)lj_lib_checkint(L, 2);
-    ExitNo maxexit = T->root ? T->nsnap+1 : T->nsnap;
-    if (T && T->mcode != NULL && exitno < maxexit) {
-      setintptrV(L->top-1, (intptr_t)(void *)exitstub_trace_addr(T, exitno));
-      return 1;
-    }
-  }
-#endif
-  return 0;
-}
-
-/* local addr = jit.util.ircalladdr(idx) */
-LJLIB_CF(jit_util_ircalladdr)
-{
-  uint32_t idx = (uint32_t)lj_lib_checkint(L, 1);
-  if (idx < IRCALL__MAX) {
-    setintptrV(L->top-1, (intptr_t)(void *)lj_ir_callinfo[idx].func);
-    return 1;
-  }
-  return 0;
-}
-
-#endif
-
-#include "lj_libdef.h"
-
-/* -- jit.opt module ------------------------------------------------------ */
-
-#if LJ_HASJIT
-
-#define LJLIB_MODULE_jit_opt
-
-/* Parse optimization level. */
-static int jitopt_level(jit_State *J, const char *str)
-{
-  if (str[0] >= '0' && str[0] <= '9' && str[1] == '\0') {
-    uint32_t flags;
-    if (str[0] == '0') flags = JIT_F_OPT_0;
-    else if (str[0] == '1') flags = JIT_F_OPT_1;
-    else if (str[0] == '2') flags = JIT_F_OPT_2;
-    else flags = JIT_F_OPT_3;
-    J->flags = (J->flags & ~JIT_F_OPT_MASK) | flags;
-    return 1;  /* Ok. */
-  }
-  return 0;  /* No match. */
-}
-
-/* Parse optimization flag. */
-static int jitopt_flag(jit_State *J, const char *str)
-{
-  const char *lst = JIT_F_OPTSTRING;
-  uint32_t opt;
-  int set = 1;
-  if (str[0] == '+') {
-    str++;
-  } else if (str[0] == '-') {
-    str++;
-    set = 0;
-  } else if (str[0] == 'n' && str[1] == 'o') {
-    str += str[2] == '-' ? 3 : 2;
-    set = 0;
-  }
-  for (opt = JIT_F_OPT_FIRST; ; opt <<= 1) {
-    size_t len = *(const uint8_t *)lst;
-    if (len == 0)
-      break;
-    if (strncmp(str, lst+1, len) == 0 && str[len] == '\0') {
-      if (set) J->flags |= opt; else J->flags &= ~opt;
-      return 1;  /* Ok. */
-    }
-    lst += 1+len;
-  }
-  return 0;  /* No match. */
-}
-
-/* Parse optimization parameter. */
-static int jitopt_param(jit_State *J, const char *str)
-{
-  const char *lst = JIT_P_STRING;
-  int i;
-  for (i = 0; i < JIT_P__MAX; i++) {
-    size_t len = *(const uint8_t *)lst;
-    lua_assert(len != 0);
-    if (strncmp(str, lst+1, len) == 0 && str[len] == '=') {
-      int32_t n = 0;
-      const char *p = &str[len+1];
-      while (*p >= '0' && *p <= '9')
-	n = n*10 + (*p++ - '0');
-      if (*p) return 0;  /* Malformed number. */
-      J->param[i] = n;
-      if (i == JIT_P_hotloop)
-	lj_dispatch_init_hotcount(J2G(J));
-      return 1;  /* Ok. */
-    }
-    lst += 1+len;
-  }
-  return 0;  /* No match. */
-}
-
-/* jit.opt.start(flags...) */
-LJLIB_CF(jit_opt_start)
-{
-  jit_State *J = L2J(L);
-  int nargs = (int)(L->top - L->base);
-  if (nargs == 0) {
-    J->flags = (J->flags & ~JIT_F_OPT_MASK) | JIT_F_OPT_DEFAULT;
-  } else {
-    int i;
-    for (i = 1; i <= nargs; i++) {
-      const char *str = strdata(lj_lib_checkstr(L, i));
-      if (!jitopt_level(J, str) &&
-	  !jitopt_flag(J, str) &&
-	  !jitopt_param(J, str))
-	lj_err_callerv(L, LJ_ERR_JITOPT, str);
-    }
-  }
-  return 0;
-}
-
-#include "lj_libdef.h"
-
-#endif
-
-/* -- JIT compiler initialization ----------------------------------------- */
-
-#if LJ_HASJIT
-/* Default values for JIT parameters. */
-static const int32_t jit_param_default[JIT_P__MAX+1] = {
-#define JIT_PARAMINIT(len, name, value)	(value),
-JIT_PARAMDEF(JIT_PARAMINIT)
-#undef JIT_PARAMINIT
-  0
-};
-#endif
-
-#if LJ_TARGET_ARM && LJ_TARGET_LINUX
-#include <sys/utsname.h>
-#endif
-
-/* Arch-dependent CPU detection. */
-static uint32_t jit_cpudetect(lua_State *L)
-{
-  uint32_t flags = 0;
-#if LJ_TARGET_X86ORX64
-  uint32_t vendor[4];
-  uint32_t features[4];
-  if (lj_vm_cpuid(0, vendor) && lj_vm_cpuid(1, features)) {
-#if !LJ_HASJIT
-#define JIT_F_CMOV	1
-#define JIT_F_SSE2	2
-#endif
-    flags |= ((features[3] >> 15)&1) * JIT_F_CMOV;
-    flags |= ((features[3] >> 26)&1) * JIT_F_SSE2;
-#if LJ_HASJIT
-    flags |= ((features[2] >> 0)&1) * JIT_F_SSE3;
-    flags |= ((features[2] >> 19)&1) * JIT_F_SSE4_1;
-    if (vendor[2] == 0x6c65746e) {  /* Intel. */
-      if ((features[0] & 0x0ff00f00) == 0x00000f00)  /* P4. */
-	flags |= JIT_F_P4;  /* Currently unused. */
-      else if ((features[0] & 0x0fff0ff0) == 0x000106c0)  /* Atom. */
-	flags |= JIT_F_LEA_AGU;
-    } else if (vendor[2] == 0x444d4163) {  /* AMD. */
-      uint32_t fam = (features[0] & 0x0ff00f00);
-      if (fam == 0x00000f00)  /* K8. */
-	flags |= JIT_F_SPLIT_XMM;
-      if (fam >= 0x00000f00)  /* K8, K10. */
-	flags |= JIT_F_PREFER_IMUL;
-    }
-#endif
-  }
-  /* Check for required instruction set support on x86 (unnecessary on x64). */
-#if LJ_TARGET_X86
-#if !defined(LUAJIT_CPU_NOCMOV)
-  if (!(flags & JIT_F_CMOV))
-    luaL_error(L, "CPU not supported");
-#endif
-#if defined(LUAJIT_CPU_SSE2)
-  if (!(flags & JIT_F_SSE2))
-    luaL_error(L, "CPU does not support SSE2 (recompile without -DLUAJIT_CPU_SSE2)");
-#endif
-#endif
-#elif LJ_TARGET_ARM
-#if LJ_HASJIT
-  int ver = LJ_ARCH_VERSION;  /* Compile-time ARM CPU detection. */
-#if LJ_TARGET_LINUX
-  if (ver < 70) {  /* Runtime ARM CPU detection. */
-    struct utsname ut;
-    uname(&ut);
-    if (strncmp(ut.machine, "armv", 4) == 0) {
-      if (ut.machine[4] >= '7')
-	ver = 70;
-      else if (ut.machine[4] == '6')
-	ver = 60;
-    }
-  }
-#endif
-  flags |= ver >= 70 ? JIT_F_ARMV7 :
-	   ver >= 61 ? JIT_F_ARMV6T2_ :
-	   ver >= 60 ? JIT_F_ARMV6_ : 0;
-  flags |= LJ_ARCH_HASFPU == 0 ? 0 : ver >= 70 ? JIT_F_VFPV3 : JIT_F_VFPV2;
-#endif
-#elif LJ_TARGET_PPC
-#if LJ_HASJIT
-#if LJ_ARCH_SQRT
-  flags |= JIT_F_SQRT;
-#endif
-#if LJ_ARCH_ROUND
-  flags |= JIT_F_ROUND;
-#endif
-#endif
-#elif LJ_TARGET_PPCSPE
-  /* Nothing to do. */
-#elif LJ_TARGET_MIPS
-#if LJ_HASJIT
-  /* Compile-time MIPS CPU detection. */
-#if LJ_ARCH_VERSION >= 20
-  flags |= JIT_F_MIPS32R2;
-#endif
-  /* Runtime MIPS CPU detection. */
-#if defined(__GNUC__)
-  if (!(flags & JIT_F_MIPS32R2)) {
-    int x;
-    /* On MIPS32R1 rotr is treated as srl. rotr r2,r2,1 -> srl r2,r2,1. */
-    __asm__("li $2, 1\n\t.long 0x00221042\n\tmove %0, $2" : "=r"(x) : : "$2");
-    if (x) flags |= JIT_F_MIPS32R2;  /* Either 0x80000000 (R2) or 0 (R1). */
-  }
-#endif
-#endif
-#else
-#error "Missing CPU detection for this architecture"
-#endif
-  UNUSED(L);
-  return flags;
-}
-
-/* Initialize JIT compiler. */
-static void jit_init(lua_State *L)
-{
-  uint32_t flags = jit_cpudetect(L);
-#if LJ_HASJIT
-  jit_State *J = L2J(L);
-#if LJ_TARGET_X86
-  /* Silently turn off the JIT compiler on CPUs without SSE2. */
-  if ((flags & JIT_F_SSE2))
-#endif
-    J->flags = flags | JIT_F_ON | JIT_F_OPT_DEFAULT;
-  memcpy(J->param, jit_param_default, sizeof(J->param));
-  lj_dispatch_update(G(L));
-#else
-  UNUSED(flags);
-#endif
-}
-
-LUALIB_API int luaopen_jit(lua_State *L)
-{
-  lua_pushliteral(L, LJ_OS_NAME);
-  lua_pushliteral(L, LJ_ARCH_NAME);
-  lua_pushinteger(L, LUAJIT_VERSION_NUM);
-  lua_pushliteral(L, LUAJIT_VERSION);
-  LJ_LIB_REG(L, LUA_JITLIBNAME, jit);
-#ifndef LUAJIT_DISABLE_JITUTIL
-  LJ_LIB_REG(L, "jit.util", jit_util);
-#endif
-#if LJ_HASJIT
-  LJ_LIB_REG(L, "jit.opt", jit_opt);
-#endif
-  L->top -= 2;
-  jit_init(L);
-  return 1;
-}
-
diff --git a/luajit-2.0/src/lib_math.c b/luajit-2.0/src/lib_math.c
deleted file mode 100644
index 3aa5c6b..0000000
--- a/luajit-2.0/src/lib_math.c
+++ /dev/null
@@ -1,233 +0,0 @@
-/*
-** Math library.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#include <math.h>
-
-#define lib_math_c
-#define LUA_LIB
-
-#include "lua.h"
-#include "lauxlib.h"
-#include "lualib.h"
-
-#include "lj_obj.h"
-#include "lj_lib.h"
-#include "lj_vm.h"
-
-/* ------------------------------------------------------------------------ */
-
-#define LJLIB_MODULE_math
-
-LJLIB_ASM(math_abs)		LJLIB_REC(.)
-{
-  lj_lib_checknumber(L, 1);
-  return FFH_RETRY;
-}
-LJLIB_ASM_(math_floor)		LJLIB_REC(math_round IRFPM_FLOOR)
-LJLIB_ASM_(math_ceil)		LJLIB_REC(math_round IRFPM_CEIL)
-
-LJLIB_ASM(math_sqrt)		LJLIB_REC(math_unary IRFPM_SQRT)
-{
-  lj_lib_checknum(L, 1);
-  return FFH_RETRY;
-}
-LJLIB_ASM_(math_log10)		LJLIB_REC(math_unary IRFPM_LOG10)
-LJLIB_ASM_(math_exp)		LJLIB_REC(math_unary IRFPM_EXP)
-LJLIB_ASM_(math_sin)		LJLIB_REC(math_unary IRFPM_SIN)
-LJLIB_ASM_(math_cos)		LJLIB_REC(math_unary IRFPM_COS)
-LJLIB_ASM_(math_tan)		LJLIB_REC(math_unary IRFPM_TAN)
-LJLIB_ASM_(math_asin)		LJLIB_REC(math_atrig FF_math_asin)
-LJLIB_ASM_(math_acos)		LJLIB_REC(math_atrig FF_math_acos)
-LJLIB_ASM_(math_atan)		LJLIB_REC(math_atrig FF_math_atan)
-LJLIB_ASM_(math_sinh)		LJLIB_REC(math_htrig IRCALL_sinh)
-LJLIB_ASM_(math_cosh)		LJLIB_REC(math_htrig IRCALL_cosh)
-LJLIB_ASM_(math_tanh)		LJLIB_REC(math_htrig IRCALL_tanh)
-LJLIB_ASM_(math_frexp)
-LJLIB_ASM_(math_modf)		LJLIB_REC(.)
-
-LJLIB_PUSH(57.29577951308232)
-LJLIB_ASM_(math_deg)		LJLIB_REC(math_degrad)
-
-LJLIB_PUSH(0.017453292519943295)
-LJLIB_ASM_(math_rad)		LJLIB_REC(math_degrad)
-
-LJLIB_ASM(math_log)		LJLIB_REC(math_log)
-{
-  double x = lj_lib_checknum(L, 1);
-  if (L->base+1 < L->top) {
-    double y = lj_lib_checknum(L, 2);
-#ifdef LUAJIT_NO_LOG2
-    x = log(x); y = 1.0 / log(y);
-#else
-    x = lj_vm_log2(x); y = 1.0 / lj_vm_log2(y);
-#endif
-    setnumV(L->base-1, x*y);  /* Do NOT join the expression to x / y. */
-    return FFH_RES(1);
-  }
-  return FFH_RETRY;
-}
-
-LJLIB_ASM(math_atan2)		LJLIB_REC(.)
-{
-  lj_lib_checknum(L, 1);
-  lj_lib_checknum(L, 2);
-  return FFH_RETRY;
-}
-LJLIB_ASM_(math_pow)		LJLIB_REC(.)
-LJLIB_ASM_(math_fmod)
-
-LJLIB_ASM(math_ldexp)		LJLIB_REC(.)
-{
-  lj_lib_checknum(L, 1);
-#if LJ_DUALNUM && !LJ_TARGET_X86ORX64
-  lj_lib_checkint(L, 2);
-#else
-  lj_lib_checknum(L, 2);
-#endif
-  return FFH_RETRY;
-}
-
-LJLIB_ASM(math_min)		LJLIB_REC(math_minmax IR_MIN)
-{
-  int i = 0;
-  do { lj_lib_checknumber(L, ++i); } while (L->base+i < L->top);
-  return FFH_RETRY;
-}
-LJLIB_ASM_(math_max)		LJLIB_REC(math_minmax IR_MAX)
-
-LJLIB_PUSH(3.14159265358979323846) LJLIB_SET(pi)
-LJLIB_PUSH(1e310) LJLIB_SET(huge)
-
-/* ------------------------------------------------------------------------ */
-
-/* This implements a Tausworthe PRNG with period 2^223. Based on:
-**   Tables of maximally-equidistributed combined LFSR generators,
-**   Pierre L'Ecuyer, 1991, table 3, 1st entry.
-** Full-period ME-CF generator with L=64, J=4, k=223, N1=49.
-*/
-
-/* PRNG state. */
-struct RandomState {
-  uint64_t gen[4];	/* State of the 4 LFSR generators. */
-  int valid;		/* State is valid. */
-};
-
-/* Union needed for bit-pattern conversion between uint64_t and double. */
-typedef union { uint64_t u64; double d; } U64double;
-
-/* Update generator i and compute a running xor of all states. */
-#define TW223_GEN(i, k, q, s) \
-  z = rs->gen[i]; \
-  z = (((z<<q)^z) >> (k-s)) ^ ((z&((uint64_t)(int64_t)-1 << (64-k)))<<s); \
-  r ^= z; rs->gen[i] = z;
-
-/* PRNG step function. Returns a double in the range 1.0 <= d < 2.0. */
-LJ_NOINLINE uint64_t LJ_FASTCALL lj_math_random_step(RandomState *rs)
-{
-  uint64_t z, r = 0;
-  TW223_GEN(0, 63, 31, 18)
-  TW223_GEN(1, 58, 19, 28)
-  TW223_GEN(2, 55, 24,  7)
-  TW223_GEN(3, 47, 21,  8)
-  return (r & U64x(000fffff,ffffffff)) | U64x(3ff00000,00000000);
-}
-
-/* PRNG initialization function. */
-static void random_init(RandomState *rs, double d)
-{
-  uint32_t r = 0x11090601;  /* 64-k[i] as four 8 bit constants. */
-  int i;
-  for (i = 0; i < 4; i++) {
-    U64double u;
-    uint32_t m = 1u << (r&255);
-    r >>= 8;
-    u.d = d = d * 3.14159265358979323846 + 2.7182818284590452354;
-    if (u.u64 < m) u.u64 += m;  /* Ensure k[i] MSB of gen[i] are non-zero. */
-    rs->gen[i] = u.u64;
-  }
-  rs->valid = 1;
-  for (i = 0; i < 10; i++)
-    lj_math_random_step(rs);
-}
-
-/* PRNG extract function. */
-LJLIB_PUSH(top-2)  /* Upvalue holds userdata with RandomState. */
-LJLIB_CF(math_random)		LJLIB_REC(.)
-{
-  int n = (int)(L->top - L->base);
-  RandomState *rs = (RandomState *)(uddata(udataV(lj_lib_upvalue(L, 1))));
-  U64double u;
-  double d;
-  if (LJ_UNLIKELY(!rs->valid)) random_init(rs, 0.0);
-  u.u64 = lj_math_random_step(rs);
-  d = u.d - 1.0;
-  if (n > 0) {
-#if LJ_DUALNUM
-    int isint = 1;
-    double r1;
-    lj_lib_checknumber(L, 1);
-    if (tvisint(L->base)) {
-      r1 = (lua_Number)intV(L->base);
-    } else {
-      isint = 0;
-      r1 = numV(L->base);
-    }
-#else
-    double r1 = lj_lib_checknum(L, 1);
-#endif
-    if (n == 1) {
-      d = lj_vm_floor(d*r1) + 1.0;  /* d is an int in range [1, r1] */
-    } else {
-#if LJ_DUALNUM
-      double r2;
-      lj_lib_checknumber(L, 2);
-      if (tvisint(L->base+1)) {
-	r2 = (lua_Number)intV(L->base+1);
-      } else {
-	isint = 0;
-	r2 = numV(L->base+1);
-      }
-#else
-      double r2 = lj_lib_checknum(L, 2);
-#endif
-      d = lj_vm_floor(d*(r2-r1+1.0)) + r1;  /* d is an int in range [r1, r2] */
-    }
-#if LJ_DUALNUM
-    if (isint) {
-      setintV(L->top-1, lj_num2int(d));
-      return 1;
-    }
-#endif
-  }  /* else: d is a double in range [0, 1] */
-  setnumV(L->top++, d);
-  return 1;
-}
-
-/* PRNG seed function. */
-LJLIB_PUSH(top-2)  /* Upvalue holds userdata with RandomState. */
-LJLIB_CF(math_randomseed)
-{
-  RandomState *rs = (RandomState *)(uddata(udataV(lj_lib_upvalue(L, 1))));
-  random_init(rs, lj_lib_checknum(L, 1));
-  return 0;
-}
-
-/* ------------------------------------------------------------------------ */
-
-#include "lj_libdef.h"
-
-LUALIB_API int luaopen_math(lua_State *L)
-{
-  RandomState *rs;
-  rs = (RandomState *)lua_newuserdata(L, sizeof(RandomState));
-  rs->valid = 0;  /* Use lazy initialization to save some time on startup. */
-  LJ_LIB_REG(L, LUA_MATHLIBNAME, math);
-#if defined(LUA_COMPAT_MOD) && !LJ_52
-  lua_getfield(L, -1, "fmod");
-  lua_setfield(L, -2, "mod");
-#endif
-  return 1;
-}
-
diff --git a/luajit-2.0/src/lib_os.c b/luajit-2.0/src/lib_os.c
deleted file mode 100644
index 713ec93..0000000
--- a/luajit-2.0/src/lib_os.c
+++ /dev/null
@@ -1,287 +0,0 @@
-/*
-** OS library.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-**
-** Major portions taken verbatim or adapted from the Lua interpreter.
-** Copyright (C) 1994-2008 Lua.org, PUC-Rio. See Copyright Notice in lua.h
-*/
-
-#include <errno.h>
-#include <time.h>
-
-#define lib_os_c
-#define LUA_LIB
-
-#include "lua.h"
-#include "lauxlib.h"
-#include "lualib.h"
-
-#include "lj_obj.h"
-#include "lj_err.h"
-#include "lj_lib.h"
-
-#if LJ_TARGET_POSIX
-#include <unistd.h>
-#else
-#include <stdio.h>
-#endif
-
-#if !LJ_TARGET_PSVITA
-#include <locale.h>
-#endif
-
-/* ------------------------------------------------------------------------ */
-
-#define LJLIB_MODULE_os
-
-LJLIB_CF(os_execute)
-{
-#if LJ_TARGET_CONSOLE
-#if LJ_52
-  errno = ENOSYS;
-  return luaL_fileresult(L, 0, NULL);
-#else
-  lua_pushinteger(L, -1);
-  return 1;
-#endif
-#else
-  const char *cmd = luaL_optstring(L, 1, NULL);
-  int stat = system(cmd);
-#if LJ_52
-  if (cmd)
-    return luaL_execresult(L, stat);
-  setboolV(L->top++, 1);
-#else
-  setintV(L->top++, stat);
-#endif
-  return 1;
-#endif
-}
-
-LJLIB_CF(os_remove)
-{
-  const char *filename = luaL_checkstring(L, 1);
-  return luaL_fileresult(L, remove(filename) == 0, filename);
-}
-
-LJLIB_CF(os_rename)
-{
-  const char *fromname = luaL_checkstring(L, 1);
-  const char *toname = luaL_checkstring(L, 2);
-  return luaL_fileresult(L, rename(fromname, toname) == 0, fromname);
-}
-
-LJLIB_CF(os_tmpname)
-{
-#if LJ_TARGET_PS3 || LJ_TARGET_PS4 || LJ_TARGET_PSVITA
-  lj_err_caller(L, LJ_ERR_OSUNIQF);
-  return 0;
-#else
-#if LJ_TARGET_POSIX
-  char buf[15+1];
-  int fp;
-  strcpy(buf, "/tmp/lua_XXXXXX");
-  fp = mkstemp(buf);
-  if (fp != -1)
-    close(fp);
-  else
-    lj_err_caller(L, LJ_ERR_OSUNIQF);
-#else
-  char buf[L_tmpnam];
-  if (tmpnam(buf) == NULL)
-    lj_err_caller(L, LJ_ERR_OSUNIQF);
-#endif
-  lua_pushstring(L, buf);
-  return 1;
-#endif
-}
-
-LJLIB_CF(os_getenv)
-{
-#if LJ_TARGET_CONSOLE
-  lua_pushnil(L);
-#else
-  lua_pushstring(L, getenv(luaL_checkstring(L, 1)));  /* if NULL push nil */
-#endif
-  return 1;
-}
-
-LJLIB_CF(os_exit)
-{
-  int status;
-  if (L->base < L->top && tvisbool(L->base))
-    status = boolV(L->base) ? EXIT_SUCCESS : EXIT_FAILURE;
-  else
-    status = lj_lib_optint(L, 1, EXIT_SUCCESS);
-  if (L->base+1 < L->top && tvistruecond(L->base+1))
-    lua_close(L);
-  exit(status);
-  return 0;  /* Unreachable. */
-}
-
-LJLIB_CF(os_clock)
-{
-  setnumV(L->top++, ((lua_Number)clock())*(1.0/(lua_Number)CLOCKS_PER_SEC));
-  return 1;
-}
-
-/* ------------------------------------------------------------------------ */
-
-static void setfield(lua_State *L, const char *key, int value)
-{
-  lua_pushinteger(L, value);
-  lua_setfield(L, -2, key);
-}
-
-static void setboolfield(lua_State *L, const char *key, int value)
-{
-  if (value < 0)  /* undefined? */
-    return;  /* does not set field */
-  lua_pushboolean(L, value);
-  lua_setfield(L, -2, key);
-}
-
-static int getboolfield(lua_State *L, const char *key)
-{
-  int res;
-  lua_getfield(L, -1, key);
-  res = lua_isnil(L, -1) ? -1 : lua_toboolean(L, -1);
-  lua_pop(L, 1);
-  return res;
-}
-
-static int getfield(lua_State *L, const char *key, int d)
-{
-  int res;
-  lua_getfield(L, -1, key);
-  if (lua_isnumber(L, -1)) {
-    res = (int)lua_tointeger(L, -1);
-  } else {
-    if (d < 0)
-      lj_err_callerv(L, LJ_ERR_OSDATEF, key);
-    res = d;
-  }
-  lua_pop(L, 1);
-  return res;
-}
-
-LJLIB_CF(os_date)
-{
-  const char *s = luaL_optstring(L, 1, "%c");
-  time_t t = luaL_opt(L, (time_t)luaL_checknumber, 2, time(NULL));
-  struct tm *stm;
-#if LJ_TARGET_POSIX
-  struct tm rtm;
-#endif
-  if (*s == '!') {  /* UTC? */
-    s++;  /* Skip '!' */
-#if LJ_TARGET_POSIX
-    stm = gmtime_r(&t, &rtm);
-#else
-    stm = gmtime(&t);
-#endif
-  } else {
-#if LJ_TARGET_POSIX
-    stm = localtime_r(&t, &rtm);
-#else
-    stm = localtime(&t);
-#endif
-  }
-  if (stm == NULL) {  /* Invalid date? */
-    setnilV(L->top-1);
-  } else if (strcmp(s, "*t") == 0) {
-    lua_createtable(L, 0, 9);  /* 9 = number of fields */
-    setfield(L, "sec", stm->tm_sec);
-    setfield(L, "min", stm->tm_min);
-    setfield(L, "hour", stm->tm_hour);
-    setfield(L, "day", stm->tm_mday);
-    setfield(L, "month", stm->tm_mon+1);
-    setfield(L, "year", stm->tm_year+1900);
-    setfield(L, "wday", stm->tm_wday+1);
-    setfield(L, "yday", stm->tm_yday+1);
-    setboolfield(L, "isdst", stm->tm_isdst);
-  } else {
-    char cc[3];
-    luaL_Buffer b;
-    cc[0] = '%'; cc[2] = '\0';
-    luaL_buffinit(L, &b);
-    for (; *s; s++) {
-      if (*s != '%' || *(s + 1) == '\0') {  /* No conversion specifier? */
-	luaL_addchar(&b, *s);
-      } else {
-	size_t reslen;
-	char buff[200];  /* Should be big enough for any conversion result. */
-	cc[1] = *(++s);
-	reslen = strftime(buff, sizeof(buff), cc, stm);
-	luaL_addlstring(&b, buff, reslen);
-      }
-    }
-    luaL_pushresult(&b);
-  }
-  return 1;
-}
-
-LJLIB_CF(os_time)
-{
-  time_t t;
-  if (lua_isnoneornil(L, 1)) {  /* called without args? */
-    t = time(NULL);  /* get current time */
-  } else {
-    struct tm ts;
-    luaL_checktype(L, 1, LUA_TTABLE);
-    lua_settop(L, 1);  /* make sure table is at the top */
-    ts.tm_sec = getfield(L, "sec", 0);
-    ts.tm_min = getfield(L, "min", 0);
-    ts.tm_hour = getfield(L, "hour", 12);
-    ts.tm_mday = getfield(L, "day", -1);
-    ts.tm_mon = getfield(L, "month", -1) - 1;
-    ts.tm_year = getfield(L, "year", -1) - 1900;
-    ts.tm_isdst = getboolfield(L, "isdst");
-    t = mktime(&ts);
-  }
-  if (t == (time_t)(-1))
-    lua_pushnil(L);
-  else
-    lua_pushnumber(L, (lua_Number)t);
-  return 1;
-}
-
-LJLIB_CF(os_difftime)
-{
-  lua_pushnumber(L, difftime((time_t)(luaL_checknumber(L, 1)),
-			     (time_t)(luaL_optnumber(L, 2, (lua_Number)0))));
-  return 1;
-}
-
-/* ------------------------------------------------------------------------ */
-
-LJLIB_CF(os_setlocale)
-{
-#if LJ_TARGET_PSVITA
-  lua_pushliteral(L, "C");
-#else
-  GCstr *s = lj_lib_optstr(L, 1);
-  const char *str = s ? strdata(s) : NULL;
-  int opt = lj_lib_checkopt(L, 2, 6,
-    "\5ctype\7numeric\4time\7collate\10monetary\1\377\3all");
-  if (opt == 0) opt = LC_CTYPE;
-  else if (opt == 1) opt = LC_NUMERIC;
-  else if (opt == 2) opt = LC_TIME;
-  else if (opt == 3) opt = LC_COLLATE;
-  else if (opt == 4) opt = LC_MONETARY;
-  else if (opt == 6) opt = LC_ALL;
-  lua_pushstring(L, setlocale(opt, str));
-#endif
-  return 1;
-}
-
-/* ------------------------------------------------------------------------ */
-
-#include "lj_libdef.h"
-
-LUALIB_API int luaopen_os(lua_State *L)
-{
-  LJ_LIB_REG(L, LUA_OSLIBNAME, os);
-  return 1;
-}
-
diff --git a/luajit-2.0/src/lib_package.c b/luajit-2.0/src/lib_package.c
deleted file mode 100644
index e341039..0000000
--- a/luajit-2.0/src/lib_package.c
+++ /dev/null
@@ -1,602 +0,0 @@
-/*
-** Package library.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-**
-** Major portions taken verbatim or adapted from the Lua interpreter.
-** Copyright (C) 1994-2012 Lua.org, PUC-Rio. See Copyright Notice in lua.h
-*/
-
-#define lib_package_c
-#define LUA_LIB
-
-#include "lua.h"
-#include "lauxlib.h"
-#include "lualib.h"
-
-#include "lj_obj.h"
-#include "lj_err.h"
-#include "lj_lib.h"
-
-/* ------------------------------------------------------------------------ */
-
-/* Error codes for ll_loadfunc. */
-#define PACKAGE_ERR_LIB		1
-#define PACKAGE_ERR_FUNC	2
-#define PACKAGE_ERR_LOAD	3
-
-/* Redefined in platform specific part. */
-#define PACKAGE_LIB_FAIL	"open"
-#define setprogdir(L)		((void)0)
-
-/* Symbol name prefixes. */
-#define SYMPREFIX_CF		"luaopen_%s"
-#define SYMPREFIX_BC		"luaJIT_BC_%s"
-
-#if LJ_TARGET_DLOPEN
-
-#include <dlfcn.h>
-
-static void ll_unloadlib(void *lib)
-{
-  dlclose(lib);
-}
-
-static void *ll_load(lua_State *L, const char *path, int gl)
-{
-  void *lib = dlopen(path, RTLD_NOW | (gl ? RTLD_GLOBAL : RTLD_LOCAL));
-  if (lib == NULL) lua_pushstring(L, dlerror());
-  return lib;
-}
-
-static lua_CFunction ll_sym(lua_State *L, void *lib, const char *sym)
-{
-  lua_CFunction f = (lua_CFunction)dlsym(lib, sym);
-  if (f == NULL) lua_pushstring(L, dlerror());
-  return f;
-}
-
-static const char *ll_bcsym(void *lib, const char *sym)
-{
-#if defined(RTLD_DEFAULT)
-  if (lib == NULL) lib = RTLD_DEFAULT;
-#elif LJ_TARGET_OSX || LJ_TARGET_BSD
-  if (lib == NULL) lib = (void *)(intptr_t)-2;
-#endif
-  return (const char *)dlsym(lib, sym);
-}
-
-#elif LJ_TARGET_WINDOWS
-
-#define WIN32_LEAN_AND_MEAN
-#include <windows.h>
-
-#ifndef GET_MODULE_HANDLE_EX_FLAG_FROM_ADDRESS
-#define GET_MODULE_HANDLE_EX_FLAG_FROM_ADDRESS  4
-#define GET_MODULE_HANDLE_EX_FLAG_UNCHANGED_REFCOUNT  2
-BOOL WINAPI GetModuleHandleExA(DWORD, LPCSTR, HMODULE*);
-#endif
-
-#undef setprogdir
-
-static void setprogdir(lua_State *L)
-{
-  char buff[MAX_PATH + 1];
-  char *lb;
-  DWORD nsize = sizeof(buff);
-  DWORD n = GetModuleFileNameA(NULL, buff, nsize);
-  if (n == 0 || n == nsize || (lb = strrchr(buff, '\\')) == NULL) {
-    luaL_error(L, "unable to get ModuleFileName");
-  } else {
-    *lb = '\0';
-    luaL_gsub(L, lua_tostring(L, -1), LUA_EXECDIR, buff);
-    lua_remove(L, -2);  /* remove original string */
-  }
-}
-
-static void pusherror(lua_State *L)
-{
-  DWORD error = GetLastError();
-  char buffer[128];
-  if (FormatMessageA(FORMAT_MESSAGE_IGNORE_INSERTS | FORMAT_MESSAGE_FROM_SYSTEM,
-      NULL, error, 0, buffer, sizeof(buffer), NULL))
-    lua_pushstring(L, buffer);
-  else
-    lua_pushfstring(L, "system error %d\n", error);
-}
-
-static void ll_unloadlib(void *lib)
-{
-  FreeLibrary((HINSTANCE)lib);
-}
-
-static void *ll_load(lua_State *L, const char *path, int gl)
-{
-  HINSTANCE lib = LoadLibraryA(path);
-  if (lib == NULL) pusherror(L);
-  UNUSED(gl);
-  return lib;
-}
-
-static lua_CFunction ll_sym(lua_State *L, void *lib, const char *sym)
-{
-  lua_CFunction f = (lua_CFunction)GetProcAddress((HINSTANCE)lib, sym);
-  if (f == NULL) pusherror(L);
-  return f;
-}
-
-static const char *ll_bcsym(void *lib, const char *sym)
-{
-  if (lib) {
-    return (const char *)GetProcAddress((HINSTANCE)lib, sym);
-  } else {
-    HINSTANCE h = GetModuleHandleA(NULL);
-    const char *p = (const char *)GetProcAddress(h, sym);
-    if (p == NULL && GetModuleHandleExA(GET_MODULE_HANDLE_EX_FLAG_FROM_ADDRESS|GET_MODULE_HANDLE_EX_FLAG_UNCHANGED_REFCOUNT,
-					(const char *)ll_bcsym, &h))
-      p = (const char *)GetProcAddress(h, sym);
-    return p;
-  }
-}
-
-#else
-
-#undef PACKAGE_LIB_FAIL
-#define PACKAGE_LIB_FAIL	"absent"
-
-#define DLMSG	"dynamic libraries not enabled; no support for target OS"
-
-static void ll_unloadlib(void *lib)
-{
-  UNUSED(lib);
-}
-
-static void *ll_load(lua_State *L, const char *path, int gl)
-{
-  UNUSED(path); UNUSED(gl);
-  lua_pushliteral(L, DLMSG);
-  return NULL;
-}
-
-static lua_CFunction ll_sym(lua_State *L, void *lib, const char *sym)
-{
-  UNUSED(lib); UNUSED(sym);
-  lua_pushliteral(L, DLMSG);
-  return NULL;
-}
-
-static const char *ll_bcsym(void *lib, const char *sym)
-{
-  UNUSED(lib); UNUSED(sym);
-  return NULL;
-}
-
-#endif
-
-/* ------------------------------------------------------------------------ */
-
-static void **ll_register(lua_State *L, const char *path)
-{
-  void **plib;
-  lua_pushfstring(L, "LOADLIB: %s", path);
-  lua_gettable(L, LUA_REGISTRYINDEX);  /* check library in registry? */
-  if (!lua_isnil(L, -1)) {  /* is there an entry? */
-    plib = (void **)lua_touserdata(L, -1);
-  } else {  /* no entry yet; create one */
-    lua_pop(L, 1);
-    plib = (void **)lua_newuserdata(L, sizeof(void *));
-    *plib = NULL;
-    luaL_getmetatable(L, "_LOADLIB");
-    lua_setmetatable(L, -2);
-    lua_pushfstring(L, "LOADLIB: %s", path);
-    lua_pushvalue(L, -2);
-    lua_settable(L, LUA_REGISTRYINDEX);
-  }
-  return plib;
-}
-
-static const char *mksymname(lua_State *L, const char *modname,
-			     const char *prefix)
-{
-  const char *funcname;
-  const char *mark = strchr(modname, *LUA_IGMARK);
-  if (mark) modname = mark + 1;
-  funcname = luaL_gsub(L, modname, ".", "_");
-  funcname = lua_pushfstring(L, prefix, funcname);
-  lua_remove(L, -2);  /* remove 'gsub' result */
-  return funcname;
-}
-
-static int ll_loadfunc(lua_State *L, const char *path, const char *name, int r)
-{
-  void **reg = ll_register(L, path);
-  if (*reg == NULL) *reg = ll_load(L, path, (*name == '*'));
-  if (*reg == NULL) {
-    return PACKAGE_ERR_LIB;  /* Unable to load library. */
-  } else if (*name == '*') {  /* Only load library into global namespace. */
-    lua_pushboolean(L, 1);
-    return 0;
-  } else {
-    const char *sym = r ? name : mksymname(L, name, SYMPREFIX_CF);
-    lua_CFunction f = ll_sym(L, *reg, sym);
-    if (f) {
-      lua_pushcfunction(L, f);
-      return 0;
-    }
-    if (!r) {
-      const char *bcdata = ll_bcsym(*reg, mksymname(L, name, SYMPREFIX_BC));
-      lua_pop(L, 1);
-      if (bcdata) {
-	if (luaL_loadbuffer(L, bcdata, ~(size_t)0, name) != 0)
-	  return PACKAGE_ERR_LOAD;
-	return 0;
-      }
-    }
-    return PACKAGE_ERR_FUNC;  /* Unable to find function. */
-  }
-}
-
-static int lj_cf_package_loadlib(lua_State *L)
-{
-  const char *path = luaL_checkstring(L, 1);
-  const char *init = luaL_checkstring(L, 2);
-  int st = ll_loadfunc(L, path, init, 1);
-  if (st == 0) {  /* no errors? */
-    return 1;  /* return the loaded function */
-  } else {  /* error; error message is on stack top */
-    lua_pushnil(L);
-    lua_insert(L, -2);
-    lua_pushstring(L, (st == PACKAGE_ERR_LIB) ?  PACKAGE_LIB_FAIL : "init");
-    return 3;  /* return nil, error message, and where */
-  }
-}
-
-static int lj_cf_package_unloadlib(lua_State *L)
-{
-  void **lib = (void **)luaL_checkudata(L, 1, "_LOADLIB");
-  if (*lib) ll_unloadlib(*lib);
-  *lib = NULL;  /* mark library as closed */
-  return 0;
-}
-
-/* ------------------------------------------------------------------------ */
-
-static int readable(const char *filename)
-{
-  FILE *f = fopen(filename, "r");  /* try to open file */
-  if (f == NULL) return 0;  /* open failed */
-  fclose(f);
-  return 1;
-}
-
-static const char *pushnexttemplate(lua_State *L, const char *path)
-{
-  const char *l;
-  while (*path == *LUA_PATHSEP) path++;  /* skip separators */
-  if (*path == '\0') return NULL;  /* no more templates */
-  l = strchr(path, *LUA_PATHSEP);  /* find next separator */
-  if (l == NULL) l = path + strlen(path);
-  lua_pushlstring(L, path, (size_t)(l - path));  /* template */
-  return l;
-}
-
-static const char *searchpath (lua_State *L, const char *name,
-			       const char *path, const char *sep,
-			       const char *dirsep)
-{
-  luaL_Buffer msg;  /* to build error message */
-  luaL_buffinit(L, &msg);
-  if (*sep != '\0')  /* non-empty separator? */
-    name = luaL_gsub(L, name, sep, dirsep);  /* replace it by 'dirsep' */
-  while ((path = pushnexttemplate(L, path)) != NULL) {
-    const char *filename = luaL_gsub(L, lua_tostring(L, -1),
-				     LUA_PATH_MARK, name);
-    lua_remove(L, -2);  /* remove path template */
-    if (readable(filename))  /* does file exist and is readable? */
-      return filename;  /* return that file name */
-    lua_pushfstring(L, "\n\tno file " LUA_QS, filename);
-    lua_remove(L, -2);  /* remove file name */
-    luaL_addvalue(&msg);  /* concatenate error msg. entry */
-  }
-  luaL_pushresult(&msg);  /* create error message */
-  return NULL;  /* not found */
-}
-
-static int lj_cf_package_searchpath(lua_State *L)
-{
-  const char *f = searchpath(L, luaL_checkstring(L, 1),
-				luaL_checkstring(L, 2),
-				luaL_optstring(L, 3, "."),
-				luaL_optstring(L, 4, LUA_DIRSEP));
-  if (f != NULL) {
-    return 1;
-  } else {  /* error message is on top of the stack */
-    lua_pushnil(L);
-    lua_insert(L, -2);
-    return 2;  /* return nil + error message */
-  }
-}
-
-static const char *findfile(lua_State *L, const char *name,
-			    const char *pname)
-{
-  const char *path;
-  lua_getfield(L, LUA_ENVIRONINDEX, pname);
-  path = lua_tostring(L, -1);
-  if (path == NULL)
-    luaL_error(L, LUA_QL("package.%s") " must be a string", pname);
-  return searchpath(L, name, path, ".", LUA_DIRSEP);
-}
-
-static void loaderror(lua_State *L, const char *filename)
-{
-  luaL_error(L, "error loading module " LUA_QS " from file " LUA_QS ":\n\t%s",
-	     lua_tostring(L, 1), filename, lua_tostring(L, -1));
-}
-
-static int lj_cf_package_loader_lua(lua_State *L)
-{
-  const char *filename;
-  const char *name = luaL_checkstring(L, 1);
-  filename = findfile(L, name, "path");
-  if (filename == NULL) return 1;  /* library not found in this path */
-  if (luaL_loadfile(L, filename) != 0)
-    loaderror(L, filename);
-  return 1;  /* library loaded successfully */
-}
-
-static int lj_cf_package_loader_c(lua_State *L)
-{
-  const char *name = luaL_checkstring(L, 1);
-  const char *filename = findfile(L, name, "cpath");
-  if (filename == NULL) return 1;  /* library not found in this path */
-  if (ll_loadfunc(L, filename, name, 0) != 0)
-    loaderror(L, filename);
-  return 1;  /* library loaded successfully */
-}
-
-static int lj_cf_package_loader_croot(lua_State *L)
-{
-  const char *filename;
-  const char *name = luaL_checkstring(L, 1);
-  const char *p = strchr(name, '.');
-  int st;
-  if (p == NULL) return 0;  /* is root */
-  lua_pushlstring(L, name, (size_t)(p - name));
-  filename = findfile(L, lua_tostring(L, -1), "cpath");
-  if (filename == NULL) return 1;  /* root not found */
-  if ((st = ll_loadfunc(L, filename, name, 0)) != 0) {
-    if (st != PACKAGE_ERR_FUNC) loaderror(L, filename);  /* real error */
-    lua_pushfstring(L, "\n\tno module " LUA_QS " in file " LUA_QS,
-		    name, filename);
-    return 1;  /* function not found */
-  }
-  return 1;
-}
-
-static int lj_cf_package_loader_preload(lua_State *L)
-{
-  const char *name = luaL_checkstring(L, 1);
-  lua_getfield(L, LUA_ENVIRONINDEX, "preload");
-  if (!lua_istable(L, -1))
-    luaL_error(L, LUA_QL("package.preload") " must be a table");
-  lua_getfield(L, -1, name);
-  if (lua_isnil(L, -1)) {  /* Not found? */
-    const char *bcname = mksymname(L, name, SYMPREFIX_BC);
-    const char *bcdata = ll_bcsym(NULL, bcname);
-    if (bcdata == NULL || luaL_loadbuffer(L, bcdata, ~(size_t)0, name) != 0)
-      lua_pushfstring(L, "\n\tno field package.preload['%s']", name);
-  }
-  return 1;
-}
-
-/* ------------------------------------------------------------------------ */
-
-static const int sentinel_ = 0;
-#define sentinel	((void *)&sentinel_)
-
-static int lj_cf_package_require(lua_State *L)
-{
-  const char *name = luaL_checkstring(L, 1);
-  int i;
-  lua_settop(L, 1);  /* _LOADED table will be at index 2 */
-  lua_getfield(L, LUA_REGISTRYINDEX, "_LOADED");
-  lua_getfield(L, 2, name);
-  if (lua_toboolean(L, -1)) {  /* is it there? */
-    if (lua_touserdata(L, -1) == sentinel)  /* check loops */
-      luaL_error(L, "loop or previous error loading module " LUA_QS, name);
-    return 1;  /* package is already loaded */
-  }
-  /* else must load it; iterate over available loaders */
-  lua_getfield(L, LUA_ENVIRONINDEX, "loaders");
-  if (!lua_istable(L, -1))
-    luaL_error(L, LUA_QL("package.loaders") " must be a table");
-  lua_pushliteral(L, "");  /* error message accumulator */
-  for (i = 1; ; i++) {
-    lua_rawgeti(L, -2, i);  /* get a loader */
-    if (lua_isnil(L, -1))
-      luaL_error(L, "module " LUA_QS " not found:%s",
-		 name, lua_tostring(L, -2));
-    lua_pushstring(L, name);
-    lua_call(L, 1, 1);  /* call it */
-    if (lua_isfunction(L, -1))  /* did it find module? */
-      break;  /* module loaded successfully */
-    else if (lua_isstring(L, -1))  /* loader returned error message? */
-      lua_concat(L, 2);  /* accumulate it */
-    else
-      lua_pop(L, 1);
-  }
-  lua_pushlightuserdata(L, sentinel);
-  lua_setfield(L, 2, name);  /* _LOADED[name] = sentinel */
-  lua_pushstring(L, name);  /* pass name as argument to module */
-  lua_call(L, 1, 1);  /* run loaded module */
-  if (!lua_isnil(L, -1))  /* non-nil return? */
-    lua_setfield(L, 2, name);  /* _LOADED[name] = returned value */
-  lua_getfield(L, 2, name);
-  if (lua_touserdata(L, -1) == sentinel) {   /* module did not set a value? */
-    lua_pushboolean(L, 1);  /* use true as result */
-    lua_pushvalue(L, -1);  /* extra copy to be returned */
-    lua_setfield(L, 2, name);  /* _LOADED[name] = true */
-  }
-  lj_lib_checkfpu(L);
-  return 1;
-}
-
-/* ------------------------------------------------------------------------ */
-
-static void setfenv(lua_State *L)
-{
-  lua_Debug ar;
-  if (lua_getstack(L, 1, &ar) == 0 ||
-      lua_getinfo(L, "f", &ar) == 0 ||  /* get calling function */
-      lua_iscfunction(L, -1))
-    luaL_error(L, LUA_QL("module") " not called from a Lua function");
-  lua_pushvalue(L, -2);
-  lua_setfenv(L, -2);
-  lua_pop(L, 1);
-}
-
-static void dooptions(lua_State *L, int n)
-{
-  int i;
-  for (i = 2; i <= n; i++) {
-    lua_pushvalue(L, i);  /* get option (a function) */
-    lua_pushvalue(L, -2);  /* module */
-    lua_call(L, 1, 0);
-  }
-}
-
-static void modinit(lua_State *L, const char *modname)
-{
-  const char *dot;
-  lua_pushvalue(L, -1);
-  lua_setfield(L, -2, "_M");  /* module._M = module */
-  lua_pushstring(L, modname);
-  lua_setfield(L, -2, "_NAME");
-  dot = strrchr(modname, '.');  /* look for last dot in module name */
-  if (dot == NULL) dot = modname; else dot++;
-  /* set _PACKAGE as package name (full module name minus last part) */
-  lua_pushlstring(L, modname, (size_t)(dot - modname));
-  lua_setfield(L, -2, "_PACKAGE");
-}
-
-static int lj_cf_package_module(lua_State *L)
-{
-  const char *modname = luaL_checkstring(L, 1);
-  int loaded = lua_gettop(L) + 1;  /* index of _LOADED table */
-  lua_getfield(L, LUA_REGISTRYINDEX, "_LOADED");
-  lua_getfield(L, loaded, modname);  /* get _LOADED[modname] */
-  if (!lua_istable(L, -1)) {  /* not found? */
-    lua_pop(L, 1);  /* remove previous result */
-    /* try global variable (and create one if it does not exist) */
-    if (luaL_findtable(L, LUA_GLOBALSINDEX, modname, 1) != NULL)
-      lj_err_callerv(L, LJ_ERR_BADMODN, modname);
-    lua_pushvalue(L, -1);
-    lua_setfield(L, loaded, modname);  /* _LOADED[modname] = new table */
-  }
-  /* check whether table already has a _NAME field */
-  lua_getfield(L, -1, "_NAME");
-  if (!lua_isnil(L, -1)) {  /* is table an initialized module? */
-    lua_pop(L, 1);
-  } else {  /* no; initialize it */
-    lua_pop(L, 1);
-    modinit(L, modname);
-  }
-  lua_pushvalue(L, -1);
-  setfenv(L);
-  dooptions(L, loaded - 1);
-  return 0;
-}
-
-static int lj_cf_package_seeall(lua_State *L)
-{
-  luaL_checktype(L, 1, LUA_TTABLE);
-  if (!lua_getmetatable(L, 1)) {
-    lua_createtable(L, 0, 1); /* create new metatable */
-    lua_pushvalue(L, -1);
-    lua_setmetatable(L, 1);
-  }
-  lua_pushvalue(L, LUA_GLOBALSINDEX);
-  lua_setfield(L, -2, "__index");  /* mt.__index = _G */
-  return 0;
-}
-
-/* ------------------------------------------------------------------------ */
-
-#define AUXMARK		"\1"
-
-static void setpath(lua_State *L, const char *fieldname, const char *envname,
-		    const char *def, int noenv)
-{
-#if LJ_TARGET_CONSOLE
-  const char *path = NULL;
-  UNUSED(envname);
-#else
-  const char *path = getenv(envname);
-#endif
-  if (path == NULL || noenv) {
-    lua_pushstring(L, def);
-  } else {
-    path = luaL_gsub(L, path, LUA_PATHSEP LUA_PATHSEP,
-			      LUA_PATHSEP AUXMARK LUA_PATHSEP);
-    luaL_gsub(L, path, AUXMARK, def);
-    lua_remove(L, -2);
-  }
-  setprogdir(L);
-  lua_setfield(L, -2, fieldname);
-}
-
-static const luaL_Reg package_lib[] = {
-  { "loadlib",	lj_cf_package_loadlib },
-  { "searchpath",  lj_cf_package_searchpath },
-  { "seeall",	lj_cf_package_seeall },
-  { NULL, NULL }
-};
-
-static const luaL_Reg package_global[] = {
-  { "module",	lj_cf_package_module },
-  { "require",	lj_cf_package_require },
-  { NULL, NULL }
-};
-
-static const lua_CFunction package_loaders[] =
-{
-  lj_cf_package_loader_preload,
-  lj_cf_package_loader_lua,
-  lj_cf_package_loader_c,
-  lj_cf_package_loader_croot,
-  NULL
-};
-
-LUALIB_API int luaopen_package(lua_State *L)
-{
-  int i;
-  int noenv;
-  luaL_newmetatable(L, "_LOADLIB");
-  lj_lib_pushcf(L, lj_cf_package_unloadlib, 1);
-  lua_setfield(L, -2, "__gc");
-  luaL_register(L, LUA_LOADLIBNAME, package_lib);
-  lua_pushvalue(L, -1);
-  lua_replace(L, LUA_ENVIRONINDEX);
-  lua_createtable(L, sizeof(package_loaders)/sizeof(package_loaders[0])-1, 0);
-  for (i = 0; package_loaders[i] != NULL; i++) {
-    lj_lib_pushcf(L, package_loaders[i], 1);
-    lua_rawseti(L, -2, i+1);
-  }
-  lua_setfield(L, -2, "loaders");
-  lua_getfield(L, LUA_REGISTRYINDEX, "LUA_NOENV");
-  noenv = lua_toboolean(L, -1);
-  lua_pop(L, 1);
-  setpath(L, "path", LUA_PATH, LUA_PATH_DEFAULT, noenv);
-  setpath(L, "cpath", LUA_CPATH, LUA_CPATH_DEFAULT, noenv);
-  lua_pushliteral(L, LUA_PATH_CONFIG);
-  lua_setfield(L, -2, "config");
-  luaL_findtable(L, LUA_REGISTRYINDEX, "_LOADED", 16);
-  lua_setfield(L, -2, "loaded");
-  luaL_findtable(L, LUA_REGISTRYINDEX, "_PRELOAD", 4);
-  lua_setfield(L, -2, "preload");
-  lua_pushvalue(L, LUA_GLOBALSINDEX);
-  luaL_register(L, NULL, package_global);
-  lua_pop(L, 1);
-  return 1;
-}
-
diff --git a/luajit-2.0/src/lib_string.c b/luajit-2.0/src/lib_string.c
deleted file mode 100644
index 9ec6d0c..0000000
--- a/luajit-2.0/src/lib_string.c
+++ /dev/null
@@ -1,940 +0,0 @@
-/*
-** String library.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-**
-** Major portions taken verbatim or adapted from the Lua interpreter.
-** Copyright (C) 1994-2008 Lua.org, PUC-Rio. See Copyright Notice in lua.h
-*/
-
-#include <stdio.h>
-
-#define lib_string_c
-#define LUA_LIB
-
-#include "lua.h"
-#include "lauxlib.h"
-#include "lualib.h"
-
-#include "lj_obj.h"
-#include "lj_gc.h"
-#include "lj_err.h"
-#include "lj_str.h"
-#include "lj_tab.h"
-#include "lj_meta.h"
-#include "lj_state.h"
-#include "lj_ff.h"
-#include "lj_bcdump.h"
-#include "lj_char.h"
-#include "lj_lib.h"
-
-/* ------------------------------------------------------------------------ */
-
-#define LJLIB_MODULE_string
-
-LJLIB_ASM(string_len)		LJLIB_REC(.)
-{
-  lj_lib_checkstr(L, 1);
-  return FFH_RETRY;
-}
-
-LJLIB_ASM(string_byte)		LJLIB_REC(string_range 0)
-{
-  GCstr *s = lj_lib_checkstr(L, 1);
-  int32_t len = (int32_t)s->len;
-  int32_t start = lj_lib_optint(L, 2, 1);
-  int32_t stop = lj_lib_optint(L, 3, start);
-  int32_t n, i;
-  const unsigned char *p;
-  if (stop < 0) stop += len+1;
-  if (start < 0) start += len+1;
-  if (start <= 0) start = 1;
-  if (stop > len) stop = len;
-  if (start > stop) return FFH_RES(0);  /* Empty interval: return no results. */
-  start--;
-  n = stop - start;
-  if ((uint32_t)n > LUAI_MAXCSTACK)
-    lj_err_caller(L, LJ_ERR_STRSLC);
-  lj_state_checkstack(L, (MSize)n);
-  p = (const unsigned char *)strdata(s) + start;
-  for (i = 0; i < n; i++)
-    setintV(L->base + i-1, p[i]);
-  return FFH_RES(n);
-}
-
-LJLIB_ASM(string_char)
-{
-  int i, nargs = (int)(L->top - L->base);
-  char *buf = lj_str_needbuf(L, &G(L)->tmpbuf, (MSize)nargs);
-  for (i = 1; i <= nargs; i++) {
-    int32_t k = lj_lib_checkint(L, i);
-    if (!checku8(k))
-      lj_err_arg(L, i, LJ_ERR_BADVAL);
-    buf[i-1] = (char)k;
-  }
-  setstrV(L, L->base-1, lj_str_new(L, buf, (size_t)nargs));
-  return FFH_RES(1);
-}
-
-LJLIB_ASM(string_sub)		LJLIB_REC(string_range 1)
-{
-  lj_lib_checkstr(L, 1);
-  lj_lib_checkint(L, 2);
-  setintV(L->base+2, lj_lib_optint(L, 3, -1));
-  return FFH_RETRY;
-}
-
-LJLIB_ASM(string_rep)
-{
-  GCstr *s = lj_lib_checkstr(L, 1);
-  int32_t k = lj_lib_checkint(L, 2);
-  GCstr *sep = lj_lib_optstr(L, 3);
-  int32_t len = (int32_t)s->len;
-  global_State *g = G(L);
-  int64_t tlen;
-  const char *src;
-  char *buf;
-  if (k <= 0) {
-  empty:
-    setstrV(L, L->base-1, &g->strempty);
-    return FFH_RES(1);
-  }
-  if (sep) {
-    tlen = (int64_t)len + sep->len;
-    if (tlen > LJ_MAX_STR)
-      lj_err_caller(L, LJ_ERR_STROV);
-    tlen *= k;
-    if (tlen > LJ_MAX_STR)
-      lj_err_caller(L, LJ_ERR_STROV);
-  } else {
-    tlen = (int64_t)k * len;
-    if (tlen > LJ_MAX_STR)
-      lj_err_caller(L, LJ_ERR_STROV);
-  }
-  if (tlen == 0) goto empty;
-  buf = lj_str_needbuf(L, &g->tmpbuf, (MSize)tlen);
-  src = strdata(s);
-  if (sep) {
-    tlen -= sep->len;  /* Ignore trailing separator. */
-    if (k > 1) {  /* Paste one string and one separator. */
-      int32_t i;
-      i = 0; while (i < len) *buf++ = src[i++];
-      src = strdata(sep); len = sep->len;
-      i = 0; while (i < len) *buf++ = src[i++];
-      src = g->tmpbuf.buf; len += s->len; k--;  /* Now copy that k-1 times. */
-    }
-  }
-  do {
-    int32_t i = 0;
-    do { *buf++ = src[i++]; } while (i < len);
-  } while (--k > 0);
-  setstrV(L, L->base-1, lj_str_new(L, g->tmpbuf.buf, (size_t)tlen));
-  return FFH_RES(1);
-}
-
-LJLIB_ASM(string_reverse)
-{
-  GCstr *s = lj_lib_checkstr(L, 1);
-  lj_str_needbuf(L, &G(L)->tmpbuf, s->len);
-  return FFH_RETRY;
-}
-LJLIB_ASM_(string_lower)
-LJLIB_ASM_(string_upper)
-
-/* ------------------------------------------------------------------------ */
-
-static int writer_buf(lua_State *L, const void *p, size_t size, void *b)
-{
-  luaL_addlstring((luaL_Buffer *)b, (const char *)p, size);
-  UNUSED(L);
-  return 0;
-}
-
-LJLIB_CF(string_dump)
-{
-  GCfunc *fn = lj_lib_checkfunc(L, 1);
-  int strip = L->base+1 < L->top && tvistruecond(L->base+1);
-  luaL_Buffer b;
-  L->top = L->base+1;
-  luaL_buffinit(L, &b);
-  if (!isluafunc(fn) || lj_bcwrite(L, funcproto(fn), writer_buf, &b, strip))
-    lj_err_caller(L, LJ_ERR_STRDUMP);
-  luaL_pushresult(&b);
-  return 1;
-}
-
-/* ------------------------------------------------------------------------ */
-
-/* macro to `unsign' a character */
-#define uchar(c)        ((unsigned char)(c))
-
-#define CAP_UNFINISHED	(-1)
-#define CAP_POSITION	(-2)
-
-typedef struct MatchState {
-  const char *src_init;  /* init of source string */
-  const char *src_end;  /* end (`\0') of source string */
-  lua_State *L;
-  int level;  /* total number of captures (finished or unfinished) */
-  int depth;
-  struct {
-    const char *init;
-    ptrdiff_t len;
-  } capture[LUA_MAXCAPTURES];
-} MatchState;
-
-#define L_ESC		'%'
-#define SPECIALS	"^$*+?.([%-"
-
-static int check_capture(MatchState *ms, int l)
-{
-  l -= '1';
-  if (l < 0 || l >= ms->level || ms->capture[l].len == CAP_UNFINISHED)
-    lj_err_caller(ms->L, LJ_ERR_STRCAPI);
-  return l;
-}
-
-static int capture_to_close(MatchState *ms)
-{
-  int level = ms->level;
-  for (level--; level>=0; level--)
-    if (ms->capture[level].len == CAP_UNFINISHED) return level;
-  lj_err_caller(ms->L, LJ_ERR_STRPATC);
-  return 0;  /* unreachable */
-}
-
-static const char *classend(MatchState *ms, const char *p)
-{
-  switch (*p++) {
-  case L_ESC:
-    if (*p == '\0')
-      lj_err_caller(ms->L, LJ_ERR_STRPATE);
-    return p+1;
-  case '[':
-    if (*p == '^') p++;
-    do {  /* look for a `]' */
-      if (*p == '\0')
-	lj_err_caller(ms->L, LJ_ERR_STRPATM);
-      if (*(p++) == L_ESC && *p != '\0')
-	p++;  /* skip escapes (e.g. `%]') */
-    } while (*p != ']');
-    return p+1;
-  default:
-    return p;
-  }
-}
-
-static const unsigned char match_class_map[32] = {
-  0,LJ_CHAR_ALPHA,0,LJ_CHAR_CNTRL,LJ_CHAR_DIGIT,0,0,LJ_CHAR_GRAPH,0,0,0,0,
-  LJ_CHAR_LOWER,0,0,0,LJ_CHAR_PUNCT,0,0,LJ_CHAR_SPACE,0,
-  LJ_CHAR_UPPER,0,LJ_CHAR_ALNUM,LJ_CHAR_XDIGIT,0,0,0,0,0,0,0
-};
-
-static int match_class(int c, int cl)
-{
-  if ((cl & 0xc0) == 0x40) {
-    int t = match_class_map[(cl&0x1f)];
-    if (t) {
-      t = lj_char_isa(c, t);
-      return (cl & 0x20) ? t : !t;
-    }
-    if (cl == 'z') return c == 0;
-    if (cl == 'Z') return c != 0;
-  }
-  return (cl == c);
-}
-
-static int matchbracketclass(int c, const char *p, const char *ec)
-{
-  int sig = 1;
-  if (*(p+1) == '^') {
-    sig = 0;
-    p++;  /* skip the `^' */
-  }
-  while (++p < ec) {
-    if (*p == L_ESC) {
-      p++;
-      if (match_class(c, uchar(*p)))
-	return sig;
-    }
-    else if ((*(p+1) == '-') && (p+2 < ec)) {
-      p+=2;
-      if (uchar(*(p-2)) <= c && c <= uchar(*p))
-	return sig;
-    }
-    else if (uchar(*p) == c) return sig;
-  }
-  return !sig;
-}
-
-static int singlematch(int c, const char *p, const char *ep)
-{
-  switch (*p) {
-  case '.': return 1;  /* matches any char */
-  case L_ESC: return match_class(c, uchar(*(p+1)));
-  case '[': return matchbracketclass(c, p, ep-1);
-  default:  return (uchar(*p) == c);
-  }
-}
-
-static const char *match(MatchState *ms, const char *s, const char *p);
-
-static const char *matchbalance(MatchState *ms, const char *s, const char *p)
-{
-  if (*p == 0 || *(p+1) == 0)
-    lj_err_caller(ms->L, LJ_ERR_STRPATU);
-  if (*s != *p) {
-    return NULL;
-  } else {
-    int b = *p;
-    int e = *(p+1);
-    int cont = 1;
-    while (++s < ms->src_end) {
-      if (*s == e) {
-	if (--cont == 0) return s+1;
-      } else if (*s == b) {
-	cont++;
-      }
-    }
-  }
-  return NULL;  /* string ends out of balance */
-}
-
-static const char *max_expand(MatchState *ms, const char *s,
-			      const char *p, const char *ep)
-{
-  ptrdiff_t i = 0;  /* counts maximum expand for item */
-  while ((s+i)<ms->src_end && singlematch(uchar(*(s+i)), p, ep))
-    i++;
-  /* keeps trying to match with the maximum repetitions */
-  while (i>=0) {
-    const char *res = match(ms, (s+i), ep+1);
-    if (res) return res;
-    i--;  /* else didn't match; reduce 1 repetition to try again */
-  }
-  return NULL;
-}
-
-static const char *min_expand(MatchState *ms, const char *s,
-			      const char *p, const char *ep)
-{
-  for (;;) {
-    const char *res = match(ms, s, ep+1);
-    if (res != NULL)
-      return res;
-    else if (s<ms->src_end && singlematch(uchar(*s), p, ep))
-      s++;  /* try with one more repetition */
-    else
-      return NULL;
-  }
-}
-
-static const char *start_capture(MatchState *ms, const char *s,
-				 const char *p, int what)
-{
-  const char *res;
-  int level = ms->level;
-  if (level >= LUA_MAXCAPTURES) lj_err_caller(ms->L, LJ_ERR_STRCAPN);
-  ms->capture[level].init = s;
-  ms->capture[level].len = what;
-  ms->level = level+1;
-  if ((res=match(ms, s, p)) == NULL)  /* match failed? */
-    ms->level--;  /* undo capture */
-  return res;
-}
-
-static const char *end_capture(MatchState *ms, const char *s,
-			       const char *p)
-{
-  int l = capture_to_close(ms);
-  const char *res;
-  ms->capture[l].len = s - ms->capture[l].init;  /* close capture */
-  if ((res = match(ms, s, p)) == NULL)  /* match failed? */
-    ms->capture[l].len = CAP_UNFINISHED;  /* undo capture */
-  return res;
-}
-
-static const char *match_capture(MatchState *ms, const char *s, int l)
-{
-  size_t len;
-  l = check_capture(ms, l);
-  len = (size_t)ms->capture[l].len;
-  if ((size_t)(ms->src_end-s) >= len &&
-      memcmp(ms->capture[l].init, s, len) == 0)
-    return s+len;
-  else
-    return NULL;
-}
-
-static const char *match(MatchState *ms, const char *s, const char *p)
-{
-  if (++ms->depth > LJ_MAX_XLEVEL)
-    lj_err_caller(ms->L, LJ_ERR_STRPATX);
-  init: /* using goto's to optimize tail recursion */
-  switch (*p) {
-  case '(':  /* start capture */
-    if (*(p+1) == ')')  /* position capture? */
-      s = start_capture(ms, s, p+2, CAP_POSITION);
-    else
-      s = start_capture(ms, s, p+1, CAP_UNFINISHED);
-    break;
-  case ')':  /* end capture */
-    s = end_capture(ms, s, p+1);
-    break;
-  case L_ESC:
-    switch (*(p+1)) {
-    case 'b':  /* balanced string? */
-      s = matchbalance(ms, s, p+2);
-      if (s == NULL) break;
-      p+=4;
-      goto init;  /* else s = match(ms, s, p+4); */
-    case 'f': {  /* frontier? */
-      const char *ep; char previous;
-      p += 2;
-      if (*p != '[')
-	lj_err_caller(ms->L, LJ_ERR_STRPATB);
-      ep = classend(ms, p);  /* points to what is next */
-      previous = (s == ms->src_init) ? '\0' : *(s-1);
-      if (matchbracketclass(uchar(previous), p, ep-1) ||
-	 !matchbracketclass(uchar(*s), p, ep-1)) { s = NULL; break; }
-      p=ep;
-      goto init;  /* else s = match(ms, s, ep); */
-      }
-    default:
-      if (lj_char_isdigit(uchar(*(p+1)))) {  /* capture results (%0-%9)? */
-	s = match_capture(ms, s, uchar(*(p+1)));
-	if (s == NULL) break;
-	p+=2;
-	goto init;  /* else s = match(ms, s, p+2) */
-      }
-      goto dflt;  /* case default */
-    }
-    break;
-  case '\0':  /* end of pattern */
-    break;  /* match succeeded */
-  case '$':
-    /* is the `$' the last char in pattern? */
-    if (*(p+1) != '\0') goto dflt;
-    if (s != ms->src_end) s = NULL;  /* check end of string */
-    break;
-  default: dflt: {  /* it is a pattern item */
-    const char *ep = classend(ms, p);  /* points to what is next */
-    int m = s<ms->src_end && singlematch(uchar(*s), p, ep);
-    switch (*ep) {
-    case '?': {  /* optional */
-      const char *res;
-      if (m && ((res=match(ms, s+1, ep+1)) != NULL)) {
-	s = res;
-	break;
-      }
-      p=ep+1;
-      goto init;  /* else s = match(ms, s, ep+1); */
-      }
-    case '*':  /* 0 or more repetitions */
-      s = max_expand(ms, s, p, ep);
-      break;
-    case '+':  /* 1 or more repetitions */
-      s = (m ? max_expand(ms, s+1, p, ep) : NULL);
-      break;
-    case '-':  /* 0 or more repetitions (minimum) */
-      s = min_expand(ms, s, p, ep);
-      break;
-    default:
-      if (m) { s++; p=ep; goto init; }  /* else s = match(ms, s+1, ep); */
-      s = NULL;
-      break;
-    }
-    break;
-    }
-  }
-  ms->depth--;
-  return s;
-}
-
-static const char *lmemfind(const char *s1, size_t l1,
-			    const char *s2, size_t l2)
-{
-  if (l2 == 0) {
-    return s1;  /* empty strings are everywhere */
-  } else if (l2 > l1) {
-    return NULL;  /* avoids a negative `l1' */
-  } else {
-    const char *init;  /* to search for a `*s2' inside `s1' */
-    l2--;  /* 1st char will be checked by `memchr' */
-    l1 = l1-l2;  /* `s2' cannot be found after that */
-    while (l1 > 0 && (init = (const char *)memchr(s1, *s2, l1)) != NULL) {
-      init++;   /* 1st char is already checked */
-      if (memcmp(init, s2+1, l2) == 0) {
-	return init-1;
-      } else {  /* correct `l1' and `s1' to try again */
-	l1 -= (size_t)(init-s1);
-	s1 = init;
-      }
-    }
-    return NULL;  /* not found */
-  }
-}
-
-static void push_onecapture(MatchState *ms, int i, const char *s, const char *e)
-{
-  if (i >= ms->level) {
-    if (i == 0)  /* ms->level == 0, too */
-      lua_pushlstring(ms->L, s, (size_t)(e - s));  /* add whole match */
-    else
-      lj_err_caller(ms->L, LJ_ERR_STRCAPI);
-  } else {
-    ptrdiff_t l = ms->capture[i].len;
-    if (l == CAP_UNFINISHED) lj_err_caller(ms->L, LJ_ERR_STRCAPU);
-    if (l == CAP_POSITION)
-      lua_pushinteger(ms->L, ms->capture[i].init - ms->src_init + 1);
-    else
-      lua_pushlstring(ms->L, ms->capture[i].init, (size_t)l);
-  }
-}
-
-static int push_captures(MatchState *ms, const char *s, const char *e)
-{
-  int i;
-  int nlevels = (ms->level == 0 && s) ? 1 : ms->level;
-  luaL_checkstack(ms->L, nlevels, "too many captures");
-  for (i = 0; i < nlevels; i++)
-    push_onecapture(ms, i, s, e);
-  return nlevels;  /* number of strings pushed */
-}
-
-static ptrdiff_t posrelat(ptrdiff_t pos, size_t len)
-{
-  /* relative string position: negative means back from end */
-  if (pos < 0) pos += (ptrdiff_t)len + 1;
-  return (pos >= 0) ? pos : 0;
-}
-
-static int str_find_aux(lua_State *L, int find)
-{
-  size_t l1, l2;
-  const char *s = luaL_checklstring(L, 1, &l1);
-  const char *p = luaL_checklstring(L, 2, &l2);
-  ptrdiff_t init = posrelat(luaL_optinteger(L, 3, 1), l1) - 1;
-  if (init < 0) {
-    init = 0;
-  } else if ((size_t)(init) > l1) {
-#if LJ_52
-    setnilV(L->top-1);
-    return 1;
-#else
-    init = (ptrdiff_t)l1;
-#endif
-  }
-  if (find && (lua_toboolean(L, 4) ||  /* explicit request? */
-      strpbrk(p, SPECIALS) == NULL)) {  /* or no special characters? */
-    /* do a plain search */
-    const char *s2 = lmemfind(s+init, l1-(size_t)init, p, l2);
-    if (s2) {
-      lua_pushinteger(L, s2-s+1);
-      lua_pushinteger(L, s2-s+(ptrdiff_t)l2);
-      return 2;
-    }
-  } else {
-    MatchState ms;
-    int anchor = (*p == '^') ? (p++, 1) : 0;
-    const char *s1=s+init;
-    ms.L = L;
-    ms.src_init = s;
-    ms.src_end = s+l1;
-    do {
-      const char *res;
-      ms.level = ms.depth = 0;
-      if ((res=match(&ms, s1, p)) != NULL) {
-	if (find) {
-	  lua_pushinteger(L, s1-s+1);  /* start */
-	  lua_pushinteger(L, res-s);   /* end */
-	  return push_captures(&ms, NULL, 0) + 2;
-	} else {
-	  return push_captures(&ms, s1, res);
-	}
-      }
-    } while (s1++ < ms.src_end && !anchor);
-  }
-  lua_pushnil(L);  /* not found */
-  return 1;
-}
-
-LJLIB_CF(string_find)
-{
-  return str_find_aux(L, 1);
-}
-
-LJLIB_CF(string_match)
-{
-  return str_find_aux(L, 0);
-}
-
-LJLIB_NOREG LJLIB_CF(string_gmatch_aux)
-{
-  const char *p = strVdata(lj_lib_upvalue(L, 2));
-  GCstr *str = strV(lj_lib_upvalue(L, 1));
-  const char *s = strdata(str);
-  TValue *tvpos = lj_lib_upvalue(L, 3);
-  const char *src = s + tvpos->u32.lo;
-  MatchState ms;
-  ms.L = L;
-  ms.src_init = s;
-  ms.src_end = s + str->len;
-  for (; src <= ms.src_end; src++) {
-    const char *e;
-    ms.level = ms.depth = 0;
-    if ((e = match(&ms, src, p)) != NULL) {
-      int32_t pos = (int32_t)(e - s);
-      if (e == src) pos++;  /* Ensure progress for empty match. */
-      tvpos->u32.lo = (uint32_t)pos;
-      return push_captures(&ms, src, e);
-    }
-  }
-  return 0;  /* not found */
-}
-
-LJLIB_CF(string_gmatch)
-{
-  lj_lib_checkstr(L, 1);
-  lj_lib_checkstr(L, 2);
-  L->top = L->base+3;
-  (L->top-1)->u64 = 0;
-  lj_lib_pushcc(L, lj_cf_string_gmatch_aux, FF_string_gmatch_aux, 3);
-  return 1;
-}
-
-static void add_s(MatchState *ms, luaL_Buffer *b, const char *s, const char *e)
-{
-  size_t l, i;
-  const char *news = lua_tolstring(ms->L, 3, &l);
-  for (i = 0; i < l; i++) {
-    if (news[i] != L_ESC) {
-      luaL_addchar(b, news[i]);
-    } else {
-      i++;  /* skip ESC */
-      if (!lj_char_isdigit(uchar(news[i]))) {
-	luaL_addchar(b, news[i]);
-      } else if (news[i] == '0') {
-	luaL_addlstring(b, s, (size_t)(e - s));
-      } else {
-	push_onecapture(ms, news[i] - '1', s, e);
-	luaL_addvalue(b);  /* add capture to accumulated result */
-      }
-    }
-  }
-}
-
-static void add_value(MatchState *ms, luaL_Buffer *b,
-		      const char *s, const char *e)
-{
-  lua_State *L = ms->L;
-  switch (lua_type(L, 3)) {
-    case LUA_TNUMBER:
-    case LUA_TSTRING: {
-      add_s(ms, b, s, e);
-      return;
-    }
-    case LUA_TFUNCTION: {
-      int n;
-      lua_pushvalue(L, 3);
-      n = push_captures(ms, s, e);
-      lua_call(L, n, 1);
-      break;
-    }
-    case LUA_TTABLE: {
-      push_onecapture(ms, 0, s, e);
-      lua_gettable(L, 3);
-      break;
-    }
-  }
-  if (!lua_toboolean(L, -1)) {  /* nil or false? */
-    lua_pop(L, 1);
-    lua_pushlstring(L, s, (size_t)(e - s));  /* keep original text */
-  } else if (!lua_isstring(L, -1)) {
-    lj_err_callerv(L, LJ_ERR_STRGSRV, luaL_typename(L, -1));
-  }
-  luaL_addvalue(b);  /* add result to accumulator */
-}
-
-LJLIB_CF(string_gsub)
-{
-  size_t srcl;
-  const char *src = luaL_checklstring(L, 1, &srcl);
-  const char *p = luaL_checkstring(L, 2);
-  int  tr = lua_type(L, 3);
-  int max_s = luaL_optint(L, 4, (int)(srcl+1));
-  int anchor = (*p == '^') ? (p++, 1) : 0;
-  int n = 0;
-  MatchState ms;
-  luaL_Buffer b;
-  if (!(tr == LUA_TNUMBER || tr == LUA_TSTRING ||
-	tr == LUA_TFUNCTION || tr == LUA_TTABLE))
-    lj_err_arg(L, 3, LJ_ERR_NOSFT);
-  luaL_buffinit(L, &b);
-  ms.L = L;
-  ms.src_init = src;
-  ms.src_end = src+srcl;
-  while (n < max_s) {
-    const char *e;
-    ms.level = ms.depth = 0;
-    e = match(&ms, src, p);
-    if (e) {
-      n++;
-      add_value(&ms, &b, src, e);
-    }
-    if (e && e>src) /* non empty match? */
-      src = e;  /* skip it */
-    else if (src < ms.src_end)
-      luaL_addchar(&b, *src++);
-    else
-      break;
-    if (anchor)
-      break;
-  }
-  luaL_addlstring(&b, src, (size_t)(ms.src_end-src));
-  luaL_pushresult(&b);
-  lua_pushinteger(L, n);  /* number of substitutions */
-  return 2;
-}
-
-/* ------------------------------------------------------------------------ */
-
-/* maximum size of each formatted item (> len(format('%99.99f', -1e308))) */
-#define MAX_FMTITEM	512
-/* valid flags in a format specification */
-#define FMT_FLAGS	"-+ #0"
-/*
-** maximum size of each format specification (such as '%-099.99d')
-** (+10 accounts for %99.99x plus margin of error)
-*/
-#define MAX_FMTSPEC	(sizeof(FMT_FLAGS) + sizeof(LUA_INTFRMLEN) + 10)
-
-static void addquoted(lua_State *L, luaL_Buffer *b, int arg)
-{
-  GCstr *str = lj_lib_checkstr(L, arg);
-  int32_t len = (int32_t)str->len;
-  const char *s = strdata(str);
-  luaL_addchar(b, '"');
-  while (len--) {
-    uint32_t c = uchar(*s);
-    if (c == '"' || c == '\\' || c == '\n') {
-      luaL_addchar(b, '\\');
-    } else if (lj_char_iscntrl(c)) {  /* This can only be 0-31 or 127. */
-      uint32_t d;
-      luaL_addchar(b, '\\');
-      if (c >= 100 || lj_char_isdigit(uchar(s[1]))) {
-	luaL_addchar(b, '0'+(c >= 100)); if (c >= 100) c -= 100;
-	goto tens;
-      } else if (c >= 10) {
-      tens:
-	d = (c * 205) >> 11; c -= d * 10; luaL_addchar(b, '0'+d);
-      }
-      c += '0';
-    }
-    luaL_addchar(b, c);
-    s++;
-  }
-  luaL_addchar(b, '"');
-}
-
-static const char *scanformat(lua_State *L, const char *strfrmt, char *form)
-{
-  const char *p = strfrmt;
-  while (*p != '\0' && strchr(FMT_FLAGS, *p) != NULL) p++;  /* skip flags */
-  if ((size_t)(p - strfrmt) >= sizeof(FMT_FLAGS))
-    lj_err_caller(L, LJ_ERR_STRFMTR);
-  if (lj_char_isdigit(uchar(*p))) p++;  /* skip width */
-  if (lj_char_isdigit(uchar(*p))) p++;  /* (2 digits at most) */
-  if (*p == '.') {
-    p++;
-    if (lj_char_isdigit(uchar(*p))) p++;  /* skip precision */
-    if (lj_char_isdigit(uchar(*p))) p++;  /* (2 digits at most) */
-  }
-  if (lj_char_isdigit(uchar(*p)))
-    lj_err_caller(L, LJ_ERR_STRFMTW);
-  *(form++) = '%';
-  strncpy(form, strfrmt, (size_t)(p - strfrmt + 1));
-  form += p - strfrmt + 1;
-  *form = '\0';
-  return p;
-}
-
-static void addintlen(char *form)
-{
-  size_t l = strlen(form);
-  char spec = form[l - 1];
-  strcpy(form + l - 1, LUA_INTFRMLEN);
-  form[l + sizeof(LUA_INTFRMLEN) - 2] = spec;
-  form[l + sizeof(LUA_INTFRMLEN) - 1] = '\0';
-}
-
-static unsigned LUA_INTFRM_T num2intfrm(lua_State *L, int arg)
-{
-  if (sizeof(LUA_INTFRM_T) == 4) {
-    return (LUA_INTFRM_T)lj_lib_checkbit(L, arg);
-  } else {
-    cTValue *o;
-    lj_lib_checknumber(L, arg);
-    o = L->base+arg-1;
-    if (tvisint(o))
-      return (LUA_INTFRM_T)intV(o);
-    else
-      return (LUA_INTFRM_T)numV(o);
-  }
-}
-
-static unsigned LUA_INTFRM_T num2uintfrm(lua_State *L, int arg)
-{
-  if (sizeof(LUA_INTFRM_T) == 4) {
-    return (unsigned LUA_INTFRM_T)lj_lib_checkbit(L, arg);
-  } else {
-    cTValue *o;
-    lj_lib_checknumber(L, arg);
-    o = L->base+arg-1;
-    if (tvisint(o))
-      return (unsigned LUA_INTFRM_T)intV(o);
-    else if ((int32_t)o->u32.hi < 0)
-      return (unsigned LUA_INTFRM_T)(LUA_INTFRM_T)numV(o);
-    else
-      return (unsigned LUA_INTFRM_T)numV(o);
-  }
-}
-
-static GCstr *meta_tostring(lua_State *L, int arg)
-{
-  TValue *o = L->base+arg-1;
-  cTValue *mo;
-  lua_assert(o < L->top);  /* Caller already checks for existence. */
-  if (LJ_LIKELY(tvisstr(o)))
-    return strV(o);
-  if (!tvisnil(mo = lj_meta_lookup(L, o, MM_tostring))) {
-    copyTV(L, L->top++, mo);
-    copyTV(L, L->top++, o);
-    lua_call(L, 1, 1);
-    L->top--;
-    if (tvisstr(L->top))
-      return strV(L->top);
-    o = L->base+arg-1;
-    copyTV(L, o, L->top);
-  }
-  if (tvisnumber(o)) {
-    return lj_str_fromnumber(L, o);
-  } else if (tvisnil(o)) {
-    return lj_str_newlit(L, "nil");
-  } else if (tvisfalse(o)) {
-    return lj_str_newlit(L, "false");
-  } else if (tvistrue(o)) {
-    return lj_str_newlit(L, "true");
-  } else {
-    if (tvisfunc(o) && isffunc(funcV(o)))
-      lj_str_pushf(L, "function: builtin#%d", funcV(o)->c.ffid);
-    else
-      lj_str_pushf(L, "%s: %p", lj_typename(o), lua_topointer(L, arg));
-    L->top--;
-    return strV(L->top);
-  }
-}
-
-LJLIB_CF(string_format)
-{
-  int arg = 1, top = (int)(L->top - L->base);
-  GCstr *fmt = lj_lib_checkstr(L, arg);
-  const char *strfrmt = strdata(fmt);
-  const char *strfrmt_end = strfrmt + fmt->len;
-  luaL_Buffer b;
-  luaL_buffinit(L, &b);
-  while (strfrmt < strfrmt_end) {
-    if (*strfrmt != L_ESC) {
-      luaL_addchar(&b, *strfrmt++);
-    } else if (*++strfrmt == L_ESC) {
-      luaL_addchar(&b, *strfrmt++);  /* %% */
-    } else { /* format item */
-      char form[MAX_FMTSPEC];  /* to store the format (`%...') */
-      char buff[MAX_FMTITEM];  /* to store the formatted item */
-      if (++arg > top)
-	luaL_argerror(L, arg, lj_obj_typename[0]);
-      strfrmt = scanformat(L, strfrmt, form);
-      switch (*strfrmt++) {
-      case 'c':
-	sprintf(buff, form, lj_lib_checkint(L, arg));
-	break;
-      case 'd':  case 'i':
-	addintlen(form);
-	sprintf(buff, form, num2intfrm(L, arg));
-	break;
-      case 'o':  case 'u':  case 'x':  case 'X':
-	addintlen(form);
-	sprintf(buff, form, num2uintfrm(L, arg));
-	break;
-      case 'e':  case 'E': case 'f': case 'g': case 'G': case 'a': case 'A': {
-	TValue tv;
-	tv.n = lj_lib_checknum(L, arg);
-	if (LJ_UNLIKELY((tv.u32.hi << 1) >= 0xffe00000)) {
-	  /* Canonicalize output of non-finite values. */
-	  char *p, nbuf[LJ_STR_NUMBUF];
-	  size_t len = lj_str_bufnum(nbuf, &tv);
-	  if (strfrmt[-1] < 'a') {
-	    nbuf[len-3] = nbuf[len-3] - 0x20;
-	    nbuf[len-2] = nbuf[len-2] - 0x20;
-	    nbuf[len-1] = nbuf[len-1] - 0x20;
-	  }
-	  nbuf[len] = '\0';
-	  for (p = form; *p < 'A' && *p != '.'; p++) ;
-	  *p++ = 's'; *p = '\0';
-	  sprintf(buff, form, nbuf);
-	  break;
-	}
-	sprintf(buff, form, (double)tv.n);
-	break;
-	}
-      case 'q':
-	addquoted(L, &b, arg);
-	continue;
-      case 'p':
-	lj_str_pushf(L, "%p", lua_topointer(L, arg));
-	luaL_addvalue(&b);
-	continue;
-      case 's': {
-	GCstr *str = meta_tostring(L, arg);
-	if (!strchr(form, '.') && str->len >= 100) {
-	  /* no precision and string is too long to be formatted;
-	     keep original string */
-	  setstrV(L, L->top++, str);
-	  luaL_addvalue(&b);
-	  continue;
-	}
-	sprintf(buff, form, strdata(str));
-	break;
-	}
-      default:
-	lj_err_callerv(L, LJ_ERR_STRFMTO, *(strfrmt -1));
-	break;
-      }
-      luaL_addlstring(&b, buff, strlen(buff));
-    }
-  }
-  luaL_pushresult(&b);
-  return 1;
-}
-
-/* ------------------------------------------------------------------------ */
-
-#include "lj_libdef.h"
-
-LUALIB_API int luaopen_string(lua_State *L)
-{
-  GCtab *mt;
-  global_State *g;
-  LJ_LIB_REG(L, LUA_STRLIBNAME, string);
-#if defined(LUA_COMPAT_GFIND) && !LJ_52
-  lua_getfield(L, -1, "gmatch");
-  lua_setfield(L, -2, "gfind");
-#endif
-  mt = lj_tab_new(L, 0, 1);
-  /* NOBARRIER: basemt is a GC root. */
-  g = G(L);
-  setgcref(basemt_it(g, LJ_TSTR), obj2gco(mt));
-  settabV(L, lj_tab_setstr(L, mt, mmname_str(g, MM_index)), tabV(L->top-1));
-  mt->nomm = (uint8_t)(~(1u<<MM_index));
-  return 1;
-}
-
diff --git a/luajit-2.0/src/lib_table.c b/luajit-2.0/src/lib_table.c
deleted file mode 100644
index e0e8302..0000000
--- a/luajit-2.0/src/lib_table.c
+++ /dev/null
@@ -1,300 +0,0 @@
-/*
-** Table library.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-**
-** Major portions taken verbatim or adapted from the Lua interpreter.
-** Copyright (C) 1994-2008 Lua.org, PUC-Rio. See Copyright Notice in lua.h
-*/
-
-#define lib_table_c
-#define LUA_LIB
-
-#include "lua.h"
-#include "lauxlib.h"
-#include "lualib.h"
-
-#include "lj_obj.h"
-#include "lj_gc.h"
-#include "lj_err.h"
-#include "lj_tab.h"
-#include "lj_lib.h"
-
-/* ------------------------------------------------------------------------ */
-
-#define LJLIB_MODULE_table
-
-LJLIB_CF(table_foreachi)
-{
-  GCtab *t = lj_lib_checktab(L, 1);
-  GCfunc *func = lj_lib_checkfunc(L, 2);
-  MSize i, n = lj_tab_len(t);
-  for (i = 1; i <= n; i++) {
-    cTValue *val;
-    setfuncV(L, L->top, func);
-    setintV(L->top+1, i);
-    val = lj_tab_getint(t, (int32_t)i);
-    if (val) { copyTV(L, L->top+2, val); } else { setnilV(L->top+2); }
-    L->top += 3;
-    lua_call(L, 2, 1);
-    if (!tvisnil(L->top-1))
-      return 1;
-    L->top--;
-  }
-  return 0;
-}
-
-LJLIB_CF(table_foreach)
-{
-  GCtab *t = lj_lib_checktab(L, 1);
-  GCfunc *func = lj_lib_checkfunc(L, 2);
-  L->top = L->base+3;
-  setnilV(L->top-1);
-  while (lj_tab_next(L, t, L->top-1)) {
-    copyTV(L, L->top+2, L->top);
-    copyTV(L, L->top+1, L->top-1);
-    setfuncV(L, L->top, func);
-    L->top += 3;
-    lua_call(L, 2, 1);
-    if (!tvisnil(L->top-1))
-      return 1;
-    L->top--;
-  }
-  return 0;
-}
-
-LJLIB_ASM(table_getn)		LJLIB_REC(.)
-{
-  lj_lib_checktab(L, 1);
-  return FFH_UNREACHABLE;
-}
-
-LJLIB_CF(table_maxn)
-{
-  GCtab *t = lj_lib_checktab(L, 1);
-  TValue *array = tvref(t->array);
-  Node *node;
-  lua_Number m = 0;
-  ptrdiff_t i;
-  for (i = (ptrdiff_t)t->asize - 1; i >= 0; i--)
-    if (!tvisnil(&array[i])) {
-      m = (lua_Number)(int32_t)i;
-      break;
-    }
-  node = noderef(t->node);
-  for (i = (ptrdiff_t)t->hmask; i >= 0; i--)
-    if (!tvisnil(&node[i].val) && tvisnumber(&node[i].key)) {
-      lua_Number n = numberVnum(&node[i].key);
-      if (n > m) m = n;
-    }
-  setnumV(L->top-1, m);
-  return 1;
-}
-
-LJLIB_CF(table_insert)		LJLIB_REC(.)
-{
-  GCtab *t = lj_lib_checktab(L, 1);
-  int32_t n, i = (int32_t)lj_tab_len(t) + 1;
-  int nargs = (int)((char *)L->top - (char *)L->base);
-  if (nargs != 2*sizeof(TValue)) {
-    if (nargs != 3*sizeof(TValue))
-      lj_err_caller(L, LJ_ERR_TABINS);
-    /* NOBARRIER: This just moves existing elements around. */
-    for (n = lj_lib_checkint(L, 2); i > n; i--) {
-      /* The set may invalidate the get pointer, so need to do it first! */
-      TValue *dst = lj_tab_setint(L, t, i);
-      cTValue *src = lj_tab_getint(t, i-1);
-      if (src) {
-	copyTV(L, dst, src);
-      } else {
-	setnilV(dst);
-      }
-    }
-    i = n;
-  }
-  {
-    TValue *dst = lj_tab_setint(L, t, i);
-    copyTV(L, dst, L->top-1);  /* Set new value. */
-    lj_gc_barriert(L, t, dst);
-  }
-  return 0;
-}
-
-LJLIB_CF(table_remove)		LJLIB_REC(.)
-{
-  GCtab *t = lj_lib_checktab(L, 1);
-  int32_t e = (int32_t)lj_tab_len(t);
-  int32_t pos = lj_lib_optint(L, 2, e);
-  if (!(1 <= pos && pos <= e))  /* Nothing to remove? */
-    return 0;
-  lua_rawgeti(L, 1, pos);  /* Get previous value. */
-  /* NOBARRIER: This just moves existing elements around. */
-  for (; pos < e; pos++) {
-    cTValue *src = lj_tab_getint(t, pos+1);
-    TValue *dst = lj_tab_setint(L, t, pos);
-    if (src) {
-      copyTV(L, dst, src);
-    } else {
-      setnilV(dst);
-    }
-  }
-  setnilV(lj_tab_setint(L, t, e));  /* Remove (last) value. */
-  return 1;  /* Return previous value. */
-}
-
-LJLIB_CF(table_concat)
-{
-  luaL_Buffer b;
-  GCtab *t = lj_lib_checktab(L, 1);
-  GCstr *sep = lj_lib_optstr(L, 2);
-  MSize seplen = sep ? sep->len : 0;
-  int32_t i = lj_lib_optint(L, 3, 1);
-  int32_t e = (L->base+3 < L->top && !tvisnil(L->base+3)) ?
-	      lj_lib_checkint(L, 4) : (int32_t)lj_tab_len(t);
-  luaL_buffinit(L, &b);
-  if (i <= e) {
-    for (;;) {
-      cTValue *o;
-      lua_rawgeti(L, 1, i);
-      o = L->top-1;
-      if (!(tvisstr(o) || tvisnumber(o)))
-	lj_err_callerv(L, LJ_ERR_TABCAT, lj_typename(o), i);
-      luaL_addvalue(&b);
-      if (i++ == e) break;
-      if (seplen)
-	luaL_addlstring(&b, strdata(sep), seplen);
-    }
-  }
-  luaL_pushresult(&b);
-  return 1;
-}
-
-/* ------------------------------------------------------------------------ */
-
-static void set2(lua_State *L, int i, int j)
-{
-  lua_rawseti(L, 1, i);
-  lua_rawseti(L, 1, j);
-}
-
-static int sort_comp(lua_State *L, int a, int b)
-{
-  if (!lua_isnil(L, 2)) {  /* function? */
-    int res;
-    lua_pushvalue(L, 2);
-    lua_pushvalue(L, a-1);  /* -1 to compensate function */
-    lua_pushvalue(L, b-2);  /* -2 to compensate function and `a' */
-    lua_call(L, 2, 1);
-    res = lua_toboolean(L, -1);
-    lua_pop(L, 1);
-    return res;
-  } else {  /* a < b? */
-    return lua_lessthan(L, a, b);
-  }
-}
-
-static void auxsort(lua_State *L, int l, int u)
-{
-  while (l < u) {  /* for tail recursion */
-    int i, j;
-    /* sort elements a[l], a[(l+u)/2] and a[u] */
-    lua_rawgeti(L, 1, l);
-    lua_rawgeti(L, 1, u);
-    if (sort_comp(L, -1, -2))  /* a[u] < a[l]? */
-      set2(L, l, u);  /* swap a[l] - a[u] */
-    else
-      lua_pop(L, 2);
-    if (u-l == 1) break;  /* only 2 elements */
-    i = (l+u)/2;
-    lua_rawgeti(L, 1, i);
-    lua_rawgeti(L, 1, l);
-    if (sort_comp(L, -2, -1)) {  /* a[i]<a[l]? */
-      set2(L, i, l);
-    } else {
-      lua_pop(L, 1);  /* remove a[l] */
-      lua_rawgeti(L, 1, u);
-      if (sort_comp(L, -1, -2))  /* a[u]<a[i]? */
-	set2(L, i, u);
-      else
-	lua_pop(L, 2);
-    }
-    if (u-l == 2) break;  /* only 3 elements */
-    lua_rawgeti(L, 1, i);  /* Pivot */
-    lua_pushvalue(L, -1);
-    lua_rawgeti(L, 1, u-1);
-    set2(L, i, u-1);
-    /* a[l] <= P == a[u-1] <= a[u], only need to sort from l+1 to u-2 */
-    i = l; j = u-1;
-    for (;;) {  /* invariant: a[l..i] <= P <= a[j..u] */
-      /* repeat ++i until a[i] >= P */
-      while (lua_rawgeti(L, 1, ++i), sort_comp(L, -1, -2)) {
-	if (i>=u) lj_err_caller(L, LJ_ERR_TABSORT);
-	lua_pop(L, 1);  /* remove a[i] */
-      }
-      /* repeat --j until a[j] <= P */
-      while (lua_rawgeti(L, 1, --j), sort_comp(L, -3, -1)) {
-	if (j<=l) lj_err_caller(L, LJ_ERR_TABSORT);
-	lua_pop(L, 1);  /* remove a[j] */
-      }
-      if (j<i) {
-	lua_pop(L, 3);  /* pop pivot, a[i], a[j] */
-	break;
-      }
-      set2(L, i, j);
-    }
-    lua_rawgeti(L, 1, u-1);
-    lua_rawgeti(L, 1, i);
-    set2(L, u-1, i);  /* swap pivot (a[u-1]) with a[i] */
-    /* a[l..i-1] <= a[i] == P <= a[i+1..u] */
-    /* adjust so that smaller half is in [j..i] and larger one in [l..u] */
-    if (i-l < u-i) {
-      j=l; i=i-1; l=i+2;
-    } else {
-      j=i+1; i=u; u=j-2;
-    }
-    auxsort(L, j, i);  /* call recursively the smaller one */
-  }  /* repeat the routine for the larger one */
-}
-
-LJLIB_CF(table_sort)
-{
-  GCtab *t = lj_lib_checktab(L, 1);
-  int32_t n = (int32_t)lj_tab_len(t);
-  lua_settop(L, 2);
-  if (!tvisnil(L->base+1))
-    lj_lib_checkfunc(L, 2);
-  auxsort(L, 1, n);
-  return 0;
-}
-
-#if LJ_52
-LJLIB_PUSH("n")
-LJLIB_CF(table_pack)
-{
-  TValue *array, *base = L->base;
-  MSize i, n = (uint32_t)(L->top - base);
-  GCtab *t = lj_tab_new(L, n ? n+1 : 0, 1);
-  /* NOBARRIER: The table is new (marked white). */
-  setintV(lj_tab_setstr(L, t, strV(lj_lib_upvalue(L, 1))), (int32_t)n);
-  for (array = tvref(t->array) + 1, i = 0; i < n; i++)
-    copyTV(L, &array[i], &base[i]);
-  settabV(L, base, t);
-  L->top = base+1;
-  lj_gc_check(L);
-  return 1;
-}
-#endif
-
-/* ------------------------------------------------------------------------ */
-
-#include "lj_libdef.h"
-
-LUALIB_API int luaopen_table(lua_State *L)
-{
-  LJ_LIB_REG(L, LUA_TABLIBNAME, table);
-#if LJ_52
-  lua_getglobal(L, "unpack");
-  lua_setfield(L, -2, "unpack");
-#endif
-  return 1;
-}
-
diff --git a/luajit-2.0/src/lj.supp b/luajit-2.0/src/lj.supp
deleted file mode 100644
index 411f261..0000000
--- a/luajit-2.0/src/lj.supp
+++ /dev/null
@@ -1,26 +0,0 @@
-# Valgrind suppression file for LuaJIT 2.0.
-{
-   Optimized string compare
-   Memcheck:Addr4
-   fun:lj_str_cmp
-}
-{
-   Optimized string compare
-   Memcheck:Addr1
-   fun:lj_str_cmp
-}
-{
-   Optimized string compare
-   Memcheck:Addr4
-   fun:lj_str_new
-}
-{
-   Optimized string compare
-   Memcheck:Addr1
-   fun:lj_str_new
-}
-{
-   Optimized string compare
-   Memcheck:Cond
-   fun:lj_str_new
-}
diff --git a/luajit-2.0/src/lj_alloc.c b/luajit-2.0/src/lj_alloc.c
deleted file mode 100644
index 7c7ec67..0000000
--- a/luajit-2.0/src/lj_alloc.c
+++ /dev/null
@@ -1,1396 +0,0 @@
-/*
-** Bundled memory allocator.
-**
-** Beware: this is a HEAVILY CUSTOMIZED version of dlmalloc.
-** The original bears the following remark:
-**
-**   This is a version (aka dlmalloc) of malloc/free/realloc written by
-**   Doug Lea and released to the public domain, as explained at
-**   http://creativecommons.org/licenses/publicdomain.
-**
-**   * Version pre-2.8.4 Wed Mar 29 19:46:29 2006    (dl at gee)
-**
-** No additional copyright is claimed over the customizations.
-** Please do NOT bother the original author about this version here!
-**
-** If you want to use dlmalloc in another project, you should get
-** the original from: ftp://gee.cs.oswego.edu/pub/misc/
-** For thread-safe derivatives, take a look at:
-** - ptmalloc: http://www.malloc.de/
-** - nedmalloc: http://www.nedprod.com/programs/portable/nedmalloc/
-*/
-
-#define lj_alloc_c
-#define LUA_CORE
-
-/* To get the mremap prototype. Must be defined before any system includes. */
-#if defined(__linux__) && !defined(_GNU_SOURCE)
-#define _GNU_SOURCE
-#endif
-
-#include "lj_def.h"
-#include "lj_arch.h"
-#include "lj_alloc.h"
-
-#ifndef LUAJIT_USE_SYSMALLOC
-
-#define MAX_SIZE_T		(~(size_t)0)
-#define MALLOC_ALIGNMENT	((size_t)8U)
-
-#define DEFAULT_GRANULARITY	((size_t)128U * (size_t)1024U)
-#define DEFAULT_TRIM_THRESHOLD	((size_t)2U * (size_t)1024U * (size_t)1024U)
-#define DEFAULT_MMAP_THRESHOLD	((size_t)128U * (size_t)1024U)
-#define MAX_RELEASE_CHECK_RATE	255
-
-/* ------------------- size_t and alignment properties -------------------- */
-
-/* The byte and bit size of a size_t */
-#define SIZE_T_SIZE		(sizeof(size_t))
-#define SIZE_T_BITSIZE		(sizeof(size_t) << 3)
-
-/* Some constants coerced to size_t */
-/* Annoying but necessary to avoid errors on some platforms */
-#define SIZE_T_ZERO		((size_t)0)
-#define SIZE_T_ONE		((size_t)1)
-#define SIZE_T_TWO		((size_t)2)
-#define TWO_SIZE_T_SIZES	(SIZE_T_SIZE<<1)
-#define FOUR_SIZE_T_SIZES	(SIZE_T_SIZE<<2)
-#define SIX_SIZE_T_SIZES	(FOUR_SIZE_T_SIZES+TWO_SIZE_T_SIZES)
-
-/* The bit mask value corresponding to MALLOC_ALIGNMENT */
-#define CHUNK_ALIGN_MASK	(MALLOC_ALIGNMENT - SIZE_T_ONE)
-
-/* the number of bytes to offset an address to align it */
-#define align_offset(A)\
- ((((size_t)(A) & CHUNK_ALIGN_MASK) == 0)? 0 :\
-  ((MALLOC_ALIGNMENT - ((size_t)(A) & CHUNK_ALIGN_MASK)) & CHUNK_ALIGN_MASK))
-
-/* -------------------------- MMAP support ------------------------------- */
-
-#define MFAIL			((void *)(MAX_SIZE_T))
-#define CMFAIL			((char *)(MFAIL)) /* defined for convenience */
-
-#define IS_DIRECT_BIT		(SIZE_T_ONE)
-
-#if LJ_TARGET_WINDOWS
-
-#define WIN32_LEAN_AND_MEAN
-#include <windows.h>
-
-#if LJ_64
-
-/* Undocumented, but hey, that's what we all love so much about Windows. */
-typedef long (*PNTAVM)(HANDLE handle, void **addr, ULONG zbits,
-		       size_t *size, ULONG alloctype, ULONG prot);
-static PNTAVM ntavm;
-
-/* Number of top bits of the lower 32 bits of an address that must be zero.
-** Apparently 0 gives us full 64 bit addresses and 1 gives us the lower 2GB.
-*/
-#define NTAVM_ZEROBITS		1
-
-static void INIT_MMAP(void)
-{
-  ntavm = (PNTAVM)GetProcAddress(GetModuleHandleA("ntdll.dll"),
-				 "NtAllocateVirtualMemory");
-}
-
-/* Win64 32 bit MMAP via NtAllocateVirtualMemory. */
-static LJ_AINLINE void *CALL_MMAP(size_t size)
-{
-  DWORD olderr = GetLastError();
-  void *ptr = NULL;
-  long st = ntavm(INVALID_HANDLE_VALUE, &ptr, NTAVM_ZEROBITS, &size,
-		  MEM_RESERVE|MEM_COMMIT, PAGE_READWRITE);
-  SetLastError(olderr);
-  return st == 0 ? ptr : MFAIL;
-}
-
-/* For direct MMAP, use MEM_TOP_DOWN to minimize interference */
-static LJ_AINLINE void *DIRECT_MMAP(size_t size)
-{
-  DWORD olderr = GetLastError();
-  void *ptr = NULL;
-  long st = ntavm(INVALID_HANDLE_VALUE, &ptr, NTAVM_ZEROBITS, &size,
-		  MEM_RESERVE|MEM_COMMIT|MEM_TOP_DOWN, PAGE_READWRITE);
-  SetLastError(olderr);
-  return st == 0 ? ptr : MFAIL;
-}
-
-#else
-
-#define INIT_MMAP()		((void)0)
-
-/* Win32 MMAP via VirtualAlloc */
-static LJ_AINLINE void *CALL_MMAP(size_t size)
-{
-  DWORD olderr = GetLastError();
-  void *ptr = VirtualAlloc(0, size, MEM_RESERVE|MEM_COMMIT, PAGE_READWRITE);
-  SetLastError(olderr);
-  return ptr ? ptr : MFAIL;
-}
-
-/* For direct MMAP, use MEM_TOP_DOWN to minimize interference */
-static LJ_AINLINE void *DIRECT_MMAP(size_t size)
-{
-  DWORD olderr = GetLastError();
-  void *ptr = VirtualAlloc(0, size, MEM_RESERVE|MEM_COMMIT|MEM_TOP_DOWN,
-			   PAGE_READWRITE);
-  SetLastError(olderr);
-  return ptr ? ptr : MFAIL;
-}
-
-#endif
-
-/* This function supports releasing coalesed segments */
-static LJ_AINLINE int CALL_MUNMAP(void *ptr, size_t size)
-{
-  DWORD olderr = GetLastError();
-  MEMORY_BASIC_INFORMATION minfo;
-  char *cptr = (char *)ptr;
-  while (size) {
-    if (VirtualQuery(cptr, &minfo, sizeof(minfo)) == 0)
-      return -1;
-    if (minfo.BaseAddress != cptr || minfo.AllocationBase != cptr ||
-	minfo.State != MEM_COMMIT || minfo.RegionSize > size)
-      return -1;
-    if (VirtualFree(cptr, 0, MEM_RELEASE) == 0)
-      return -1;
-    cptr += minfo.RegionSize;
-    size -= minfo.RegionSize;
-  }
-  SetLastError(olderr);
-  return 0;
-}
-
-#else
-
-#include <errno.h>
-#include <sys/mman.h>
-
-#define MMAP_PROT		(PROT_READ|PROT_WRITE)
-#if !defined(MAP_ANONYMOUS) && defined(MAP_ANON)
-#define MAP_ANONYMOUS		MAP_ANON
-#endif
-#define MMAP_FLAGS		(MAP_PRIVATE|MAP_ANONYMOUS)
-
-#if LJ_64
-/* 64 bit mode needs special support for allocating memory in the lower 2GB. */
-
-#if defined(MAP_32BIT)
-
-#if defined(__sun__)
-#define MMAP_REGION_START	((uintptr_t)0x1000)
-#else
-/* Actually this only gives us max. 1GB in current Linux kernels. */
-#define MMAP_REGION_START	((uintptr_t)0)
-#endif
-
-static LJ_AINLINE void *CALL_MMAP(size_t size)
-{
-  int olderr = errno;
-  void *ptr = mmap((void *)MMAP_REGION_START, size, MMAP_PROT, MAP_32BIT|MMAP_FLAGS, -1, 0);
-  errno = olderr;
-  return ptr;
-}
-
-#elif LJ_TARGET_OSX || LJ_TARGET_PS4 || defined(__FreeBSD__) || defined(__FreeBSD_kernel__) || defined(__NetBSD__) || defined(__OpenBSD__) || defined(__DragonFly__) || defined(__sun__)
-
-/* OSX and FreeBSD mmap() use a naive first-fit linear search.
-** That's perfect for us. Except that -pagezero_size must be set for OSX,
-** otherwise the lower 4GB are blocked. And the 32GB RLIMIT_DATA needs
-** to be reduced to 250MB on FreeBSD.
-*/
-#if LJ_TARGET_OSX || defined(__DragonFly__)
-#define MMAP_REGION_START	((uintptr_t)0x10000)
-#elif LJ_TARGET_PS4
-#define MMAP_REGION_START	((uintptr_t)0x4000)
-#else
-#define MMAP_REGION_START	((uintptr_t)0x10000000)
-#endif
-#define MMAP_REGION_END		((uintptr_t)0x80000000)
-
-#if (defined(__FreeBSD__) || defined(__FreeBSD_kernel__)) && !LJ_TARGET_PS4
-#include <sys/resource.h>
-#endif
-
-static LJ_AINLINE void *CALL_MMAP(size_t size)
-{
-  int olderr = errno;
-  /* Hint for next allocation. Doesn't need to be thread-safe. */
-  static uintptr_t alloc_hint = MMAP_REGION_START;
-  int retry = 0;
-#if (defined(__FreeBSD__) || defined(__FreeBSD_kernel__)) && !LJ_TARGET_PS4
-  static int rlimit_modified = 0;
-  if (LJ_UNLIKELY(rlimit_modified == 0)) {
-    struct rlimit rlim;
-    rlim.rlim_cur = rlim.rlim_max = MMAP_REGION_START;
-    setrlimit(RLIMIT_DATA, &rlim);  /* Ignore result. May fail below. */
-    rlimit_modified = 1;
-  }
-#endif
-  for (;;) {
-    void *p = mmap((void *)alloc_hint, size, MMAP_PROT, MMAP_FLAGS, -1, 0);
-    if ((uintptr_t)p >= MMAP_REGION_START &&
-	(uintptr_t)p + size < MMAP_REGION_END) {
-      alloc_hint = (uintptr_t)p + size;
-      errno = olderr;
-      return p;
-    }
-    if (p != CMFAIL) munmap(p, size);
-#if defined(__sun__) || defined(__DragonFly__)
-    alloc_hint += 0x1000000;  /* Need near-exhaustive linear scan. */
-    if (alloc_hint + size < MMAP_REGION_END) continue;
-#endif
-    if (retry) break;
-    retry = 1;
-    alloc_hint = MMAP_REGION_START;
-  }
-  errno = olderr;
-  return CMFAIL;
-}
-
-#else
-
-#error "NYI: need an equivalent of MAP_32BIT for this 64 bit OS"
-
-#endif
-
-#else
-
-/* 32 bit mode is easy. */
-static LJ_AINLINE void *CALL_MMAP(size_t size)
-{
-  int olderr = errno;
-  void *ptr = mmap(NULL, size, MMAP_PROT, MMAP_FLAGS, -1, 0);
-  errno = olderr;
-  return ptr;
-}
-
-#endif
-
-#define INIT_MMAP()		((void)0)
-#define DIRECT_MMAP(s)		CALL_MMAP(s)
-
-static LJ_AINLINE int CALL_MUNMAP(void *ptr, size_t size)
-{
-  int olderr = errno;
-  int ret = munmap(ptr, size);
-  errno = olderr;
-  return ret;
-}
-
-#if LJ_TARGET_LINUX
-/* Need to define _GNU_SOURCE to get the mremap prototype. */
-static LJ_AINLINE void *CALL_MREMAP_(void *ptr, size_t osz, size_t nsz,
-				     int flags)
-{
-  int olderr = errno;
-  ptr = mremap(ptr, osz, nsz, flags);
-  errno = olderr;
-  return ptr;
-}
-
-#define CALL_MREMAP(addr, osz, nsz, mv) CALL_MREMAP_((addr), (osz), (nsz), (mv))
-#define CALL_MREMAP_NOMOVE	0
-#define CALL_MREMAP_MAYMOVE	1
-#if LJ_64
-#define CALL_MREMAP_MV		CALL_MREMAP_NOMOVE
-#else
-#define CALL_MREMAP_MV		CALL_MREMAP_MAYMOVE
-#endif
-#endif
-
-#endif
-
-#ifndef CALL_MREMAP
-#define CALL_MREMAP(addr, osz, nsz, mv) ((void)osz, MFAIL)
-#endif
-
-/* -----------------------  Chunk representations ------------------------ */
-
-struct malloc_chunk {
-  size_t               prev_foot;  /* Size of previous chunk (if free).  */
-  size_t               head;       /* Size and inuse bits. */
-  struct malloc_chunk *fd;         /* double links -- used only if free. */
-  struct malloc_chunk *bk;
-};
-
-typedef struct malloc_chunk  mchunk;
-typedef struct malloc_chunk *mchunkptr;
-typedef struct malloc_chunk *sbinptr;  /* The type of bins of chunks */
-typedef size_t bindex_t;               /* Described below */
-typedef unsigned int binmap_t;         /* Described below */
-typedef unsigned int flag_t;           /* The type of various bit flag sets */
-
-/* ------------------- Chunks sizes and alignments ----------------------- */
-
-#define MCHUNK_SIZE		(sizeof(mchunk))
-
-#define CHUNK_OVERHEAD		(SIZE_T_SIZE)
-
-/* Direct chunks need a second word of overhead ... */
-#define DIRECT_CHUNK_OVERHEAD	(TWO_SIZE_T_SIZES)
-/* ... and additional padding for fake next-chunk at foot */
-#define DIRECT_FOOT_PAD		(FOUR_SIZE_T_SIZES)
-
-/* The smallest size we can malloc is an aligned minimal chunk */
-#define MIN_CHUNK_SIZE\
-  ((MCHUNK_SIZE + CHUNK_ALIGN_MASK) & ~CHUNK_ALIGN_MASK)
-
-/* conversion from malloc headers to user pointers, and back */
-#define chunk2mem(p)		((void *)((char *)(p) + TWO_SIZE_T_SIZES))
-#define mem2chunk(mem)		((mchunkptr)((char *)(mem) - TWO_SIZE_T_SIZES))
-/* chunk associated with aligned address A */
-#define align_as_chunk(A)	(mchunkptr)((A) + align_offset(chunk2mem(A)))
-
-/* Bounds on request (not chunk) sizes. */
-#define MAX_REQUEST		((~MIN_CHUNK_SIZE+1) << 2)
-#define MIN_REQUEST		(MIN_CHUNK_SIZE - CHUNK_OVERHEAD - SIZE_T_ONE)
-
-/* pad request bytes into a usable size */
-#define pad_request(req) \
-   (((req) + CHUNK_OVERHEAD + CHUNK_ALIGN_MASK) & ~CHUNK_ALIGN_MASK)
-
-/* pad request, checking for minimum (but not maximum) */
-#define request2size(req) \
-  (((req) < MIN_REQUEST)? MIN_CHUNK_SIZE : pad_request(req))
-
-/* ------------------ Operations on head and foot fields ----------------- */
-
-#define PINUSE_BIT		(SIZE_T_ONE)
-#define CINUSE_BIT		(SIZE_T_TWO)
-#define INUSE_BITS		(PINUSE_BIT|CINUSE_BIT)
-
-/* Head value for fenceposts */
-#define FENCEPOST_HEAD		(INUSE_BITS|SIZE_T_SIZE)
-
-/* extraction of fields from head words */
-#define cinuse(p)		((p)->head & CINUSE_BIT)
-#define pinuse(p)		((p)->head & PINUSE_BIT)
-#define chunksize(p)		((p)->head & ~(INUSE_BITS))
-
-#define clear_pinuse(p)		((p)->head &= ~PINUSE_BIT)
-#define clear_cinuse(p)		((p)->head &= ~CINUSE_BIT)
-
-/* Treat space at ptr +/- offset as a chunk */
-#define chunk_plus_offset(p, s)		((mchunkptr)(((char *)(p)) + (s)))
-#define chunk_minus_offset(p, s)	((mchunkptr)(((char *)(p)) - (s)))
-
-/* Ptr to next or previous physical malloc_chunk. */
-#define next_chunk(p)	((mchunkptr)(((char *)(p)) + ((p)->head & ~INUSE_BITS)))
-#define prev_chunk(p)	((mchunkptr)(((char *)(p)) - ((p)->prev_foot) ))
-
-/* extract next chunk's pinuse bit */
-#define next_pinuse(p)	((next_chunk(p)->head) & PINUSE_BIT)
-
-/* Get/set size at footer */
-#define get_foot(p, s)	(((mchunkptr)((char *)(p) + (s)))->prev_foot)
-#define set_foot(p, s)	(((mchunkptr)((char *)(p) + (s)))->prev_foot = (s))
-
-/* Set size, pinuse bit, and foot */
-#define set_size_and_pinuse_of_free_chunk(p, s)\
-  ((p)->head = (s|PINUSE_BIT), set_foot(p, s))
-
-/* Set size, pinuse bit, foot, and clear next pinuse */
-#define set_free_with_pinuse(p, s, n)\
-  (clear_pinuse(n), set_size_and_pinuse_of_free_chunk(p, s))
-
-#define is_direct(p)\
-  (!((p)->head & PINUSE_BIT) && ((p)->prev_foot & IS_DIRECT_BIT))
-
-/* Get the internal overhead associated with chunk p */
-#define overhead_for(p)\
- (is_direct(p)? DIRECT_CHUNK_OVERHEAD : CHUNK_OVERHEAD)
-
-/* ---------------------- Overlaid data structures ----------------------- */
-
-struct malloc_tree_chunk {
-  /* The first four fields must be compatible with malloc_chunk */
-  size_t                    prev_foot;
-  size_t                    head;
-  struct malloc_tree_chunk *fd;
-  struct malloc_tree_chunk *bk;
-
-  struct malloc_tree_chunk *child[2];
-  struct malloc_tree_chunk *parent;
-  bindex_t                  index;
-};
-
-typedef struct malloc_tree_chunk  tchunk;
-typedef struct malloc_tree_chunk *tchunkptr;
-typedef struct malloc_tree_chunk *tbinptr; /* The type of bins of trees */
-
-/* A little helper macro for trees */
-#define leftmost_child(t) ((t)->child[0] != 0? (t)->child[0] : (t)->child[1])
-
-/* ----------------------------- Segments -------------------------------- */
-
-struct malloc_segment {
-  char        *base;             /* base address */
-  size_t       size;             /* allocated size */
-  struct malloc_segment *next;   /* ptr to next segment */
-};
-
-typedef struct malloc_segment  msegment;
-typedef struct malloc_segment *msegmentptr;
-
-/* ---------------------------- malloc_state ----------------------------- */
-
-/* Bin types, widths and sizes */
-#define NSMALLBINS		(32U)
-#define NTREEBINS		(32U)
-#define SMALLBIN_SHIFT		(3U)
-#define SMALLBIN_WIDTH		(SIZE_T_ONE << SMALLBIN_SHIFT)
-#define TREEBIN_SHIFT		(8U)
-#define MIN_LARGE_SIZE		(SIZE_T_ONE << TREEBIN_SHIFT)
-#define MAX_SMALL_SIZE		(MIN_LARGE_SIZE - SIZE_T_ONE)
-#define MAX_SMALL_REQUEST  (MAX_SMALL_SIZE - CHUNK_ALIGN_MASK - CHUNK_OVERHEAD)
-
-struct malloc_state {
-  binmap_t   smallmap;
-  binmap_t   treemap;
-  size_t     dvsize;
-  size_t     topsize;
-  mchunkptr  dv;
-  mchunkptr  top;
-  size_t     trim_check;
-  size_t     release_checks;
-  mchunkptr  smallbins[(NSMALLBINS+1)*2];
-  tbinptr    treebins[NTREEBINS];
-  msegment   seg;
-};
-
-typedef struct malloc_state *mstate;
-
-#define is_initialized(M)	((M)->top != 0)
-
-/* -------------------------- system alloc setup ------------------------- */
-
-/* page-align a size */
-#define page_align(S)\
- (((S) + (LJ_PAGESIZE - SIZE_T_ONE)) & ~(LJ_PAGESIZE - SIZE_T_ONE))
-
-/* granularity-align a size */
-#define granularity_align(S)\
-  (((S) + (DEFAULT_GRANULARITY - SIZE_T_ONE))\
-   & ~(DEFAULT_GRANULARITY - SIZE_T_ONE))
-
-#if LJ_TARGET_WINDOWS
-#define mmap_align(S)	granularity_align(S)
-#else
-#define mmap_align(S)	page_align(S)
-#endif
-
-/*  True if segment S holds address A */
-#define segment_holds(S, A)\
-  ((char *)(A) >= S->base && (char *)(A) < S->base + S->size)
-
-/* Return segment holding given address */
-static msegmentptr segment_holding(mstate m, char *addr)
-{
-  msegmentptr sp = &m->seg;
-  for (;;) {
-    if (addr >= sp->base && addr < sp->base + sp->size)
-      return sp;
-    if ((sp = sp->next) == 0)
-      return 0;
-  }
-}
-
-/* Return true if segment contains a segment link */
-static int has_segment_link(mstate m, msegmentptr ss)
-{
-  msegmentptr sp = &m->seg;
-  for (;;) {
-    if ((char *)sp >= ss->base && (char *)sp < ss->base + ss->size)
-      return 1;
-    if ((sp = sp->next) == 0)
-      return 0;
-  }
-}
-
-/*
-  TOP_FOOT_SIZE is padding at the end of a segment, including space
-  that may be needed to place segment records and fenceposts when new
-  noncontiguous segments are added.
-*/
-#define TOP_FOOT_SIZE\
-  (align_offset(chunk2mem(0))+pad_request(sizeof(struct malloc_segment))+MIN_CHUNK_SIZE)
-
-/* ---------------------------- Indexing Bins ---------------------------- */
-
-#define is_small(s)		(((s) >> SMALLBIN_SHIFT) < NSMALLBINS)
-#define small_index(s)		((s)  >> SMALLBIN_SHIFT)
-#define small_index2size(i)	((i)  << SMALLBIN_SHIFT)
-#define MIN_SMALL_INDEX		(small_index(MIN_CHUNK_SIZE))
-
-/* addressing by index. See above about smallbin repositioning */
-#define smallbin_at(M, i)	((sbinptr)((char *)&((M)->smallbins[(i)<<1])))
-#define treebin_at(M,i)		(&((M)->treebins[i]))
-
-/* assign tree index for size S to variable I */
-#define compute_tree_index(S, I)\
-{\
-  unsigned int X = (unsigned int)(S >> TREEBIN_SHIFT);\
-  if (X == 0) {\
-    I = 0;\
-  } else if (X > 0xFFFF) {\
-    I = NTREEBINS-1;\
-  } else {\
-    unsigned int K = lj_fls(X);\
-    I =  (bindex_t)((K << 1) + ((S >> (K + (TREEBIN_SHIFT-1)) & 1)));\
-  }\
-}
-
-/* Bit representing maximum resolved size in a treebin at i */
-#define bit_for_tree_index(i) \
-   (i == NTREEBINS-1)? (SIZE_T_BITSIZE-1) : (((i) >> 1) + TREEBIN_SHIFT - 2)
-
-/* Shift placing maximum resolved bit in a treebin at i as sign bit */
-#define leftshift_for_tree_index(i) \
-   ((i == NTREEBINS-1)? 0 : \
-    ((SIZE_T_BITSIZE-SIZE_T_ONE) - (((i) >> 1) + TREEBIN_SHIFT - 2)))
-
-/* The size of the smallest chunk held in bin with index i */
-#define minsize_for_tree_index(i) \
-   ((SIZE_T_ONE << (((i) >> 1) + TREEBIN_SHIFT)) |  \
-   (((size_t)((i) & SIZE_T_ONE)) << (((i) >> 1) + TREEBIN_SHIFT - 1)))
-
-/* ------------------------ Operations on bin maps ----------------------- */
-
-/* bit corresponding to given index */
-#define idx2bit(i)		((binmap_t)(1) << (i))
-
-/* Mark/Clear bits with given index */
-#define mark_smallmap(M,i)	((M)->smallmap |=  idx2bit(i))
-#define clear_smallmap(M,i)	((M)->smallmap &= ~idx2bit(i))
-#define smallmap_is_marked(M,i)	((M)->smallmap &   idx2bit(i))
-
-#define mark_treemap(M,i)	((M)->treemap  |=  idx2bit(i))
-#define clear_treemap(M,i)	((M)->treemap  &= ~idx2bit(i))
-#define treemap_is_marked(M,i)	((M)->treemap  &   idx2bit(i))
-
-/* mask with all bits to left of least bit of x on */
-#define left_bits(x)		((x<<1) | (~(x<<1)+1))
-
-/* Set cinuse bit and pinuse bit of next chunk */
-#define set_inuse(M,p,s)\
-  ((p)->head = (((p)->head & PINUSE_BIT)|s|CINUSE_BIT),\
-  ((mchunkptr)(((char *)(p)) + (s)))->head |= PINUSE_BIT)
-
-/* Set cinuse and pinuse of this chunk and pinuse of next chunk */
-#define set_inuse_and_pinuse(M,p,s)\
-  ((p)->head = (s|PINUSE_BIT|CINUSE_BIT),\
-  ((mchunkptr)(((char *)(p)) + (s)))->head |= PINUSE_BIT)
-
-/* Set size, cinuse and pinuse bit of this chunk */
-#define set_size_and_pinuse_of_inuse_chunk(M, p, s)\
-  ((p)->head = (s|PINUSE_BIT|CINUSE_BIT))
-
-/* ----------------------- Operations on smallbins ----------------------- */
-
-/* Link a free chunk into a smallbin  */
-#define insert_small_chunk(M, P, S) {\
-  bindex_t I = small_index(S);\
-  mchunkptr B = smallbin_at(M, I);\
-  mchunkptr F = B;\
-  if (!smallmap_is_marked(M, I))\
-    mark_smallmap(M, I);\
-  else\
-    F = B->fd;\
-  B->fd = P;\
-  F->bk = P;\
-  P->fd = F;\
-  P->bk = B;\
-}
-
-/* Unlink a chunk from a smallbin  */
-#define unlink_small_chunk(M, P, S) {\
-  mchunkptr F = P->fd;\
-  mchunkptr B = P->bk;\
-  bindex_t I = small_index(S);\
-  if (F == B) {\
-    clear_smallmap(M, I);\
-  } else {\
-    F->bk = B;\
-    B->fd = F;\
-  }\
-}
-
-/* Unlink the first chunk from a smallbin */
-#define unlink_first_small_chunk(M, B, P, I) {\
-  mchunkptr F = P->fd;\
-  if (B == F) {\
-    clear_smallmap(M, I);\
-  } else {\
-    B->fd = F;\
-    F->bk = B;\
-  }\
-}
-
-/* Replace dv node, binning the old one */
-/* Used only when dvsize known to be small */
-#define replace_dv(M, P, S) {\
-  size_t DVS = M->dvsize;\
-  if (DVS != 0) {\
-    mchunkptr DV = M->dv;\
-    insert_small_chunk(M, DV, DVS);\
-  }\
-  M->dvsize = S;\
-  M->dv = P;\
-}
-
-/* ------------------------- Operations on trees ------------------------- */
-
-/* Insert chunk into tree */
-#define insert_large_chunk(M, X, S) {\
-  tbinptr *H;\
-  bindex_t I;\
-  compute_tree_index(S, I);\
-  H = treebin_at(M, I);\
-  X->index = I;\
-  X->child[0] = X->child[1] = 0;\
-  if (!treemap_is_marked(M, I)) {\
-    mark_treemap(M, I);\
-    *H = X;\
-    X->parent = (tchunkptr)H;\
-    X->fd = X->bk = X;\
-  } else {\
-    tchunkptr T = *H;\
-    size_t K = S << leftshift_for_tree_index(I);\
-    for (;;) {\
-      if (chunksize(T) != S) {\
-	tchunkptr *C = &(T->child[(K >> (SIZE_T_BITSIZE-SIZE_T_ONE)) & 1]);\
-	K <<= 1;\
-	if (*C != 0) {\
-	  T = *C;\
-	} else {\
-	  *C = X;\
-	  X->parent = T;\
-	  X->fd = X->bk = X;\
-	  break;\
-	}\
-      } else {\
-	tchunkptr F = T->fd;\
-	T->fd = F->bk = X;\
-	X->fd = F;\
-	X->bk = T;\
-	X->parent = 0;\
-	break;\
-      }\
-    }\
-  }\
-}
-
-#define unlink_large_chunk(M, X) {\
-  tchunkptr XP = X->parent;\
-  tchunkptr R;\
-  if (X->bk != X) {\
-    tchunkptr F = X->fd;\
-    R = X->bk;\
-    F->bk = R;\
-    R->fd = F;\
-  } else {\
-    tchunkptr *RP;\
-    if (((R = *(RP = &(X->child[1]))) != 0) ||\
-	((R = *(RP = &(X->child[0]))) != 0)) {\
-      tchunkptr *CP;\
-      while ((*(CP = &(R->child[1])) != 0) ||\
-	     (*(CP = &(R->child[0])) != 0)) {\
-	R = *(RP = CP);\
-      }\
-      *RP = 0;\
-    }\
-  }\
-  if (XP != 0) {\
-    tbinptr *H = treebin_at(M, X->index);\
-    if (X == *H) {\
-      if ((*H = R) == 0) \
-	clear_treemap(M, X->index);\
-    } else {\
-      if (XP->child[0] == X) \
-	XP->child[0] = R;\
-      else \
-	XP->child[1] = R;\
-    }\
-    if (R != 0) {\
-      tchunkptr C0, C1;\
-      R->parent = XP;\
-      if ((C0 = X->child[0]) != 0) {\
-	R->child[0] = C0;\
-	C0->parent = R;\
-      }\
-      if ((C1 = X->child[1]) != 0) {\
-	R->child[1] = C1;\
-	C1->parent = R;\
-      }\
-    }\
-  }\
-}
-
-/* Relays to large vs small bin operations */
-
-#define insert_chunk(M, P, S)\
-  if (is_small(S)) { insert_small_chunk(M, P, S)\
-  } else { tchunkptr TP = (tchunkptr)(P); insert_large_chunk(M, TP, S); }
-
-#define unlink_chunk(M, P, S)\
-  if (is_small(S)) { unlink_small_chunk(M, P, S)\
-  } else { tchunkptr TP = (tchunkptr)(P); unlink_large_chunk(M, TP); }
-
-/* -----------------------  Direct-mmapping chunks ----------------------- */
-
-static void *direct_alloc(size_t nb)
-{
-  size_t mmsize = mmap_align(nb + SIX_SIZE_T_SIZES + CHUNK_ALIGN_MASK);
-  if (LJ_LIKELY(mmsize > nb)) {     /* Check for wrap around 0 */
-    char *mm = (char *)(DIRECT_MMAP(mmsize));
-    if (mm != CMFAIL) {
-      size_t offset = align_offset(chunk2mem(mm));
-      size_t psize = mmsize - offset - DIRECT_FOOT_PAD;
-      mchunkptr p = (mchunkptr)(mm + offset);
-      p->prev_foot = offset | IS_DIRECT_BIT;
-      p->head = psize|CINUSE_BIT;
-      chunk_plus_offset(p, psize)->head = FENCEPOST_HEAD;
-      chunk_plus_offset(p, psize+SIZE_T_SIZE)->head = 0;
-      return chunk2mem(p);
-    }
-  }
-  return NULL;
-}
-
-static mchunkptr direct_resize(mchunkptr oldp, size_t nb)
-{
-  size_t oldsize = chunksize(oldp);
-  if (is_small(nb)) /* Can't shrink direct regions below small size */
-    return NULL;
-  /* Keep old chunk if big enough but not too big */
-  if (oldsize >= nb + SIZE_T_SIZE &&
-      (oldsize - nb) <= (DEFAULT_GRANULARITY >> 1)) {
-    return oldp;
-  } else {
-    size_t offset = oldp->prev_foot & ~IS_DIRECT_BIT;
-    size_t oldmmsize = oldsize + offset + DIRECT_FOOT_PAD;
-    size_t newmmsize = mmap_align(nb + SIX_SIZE_T_SIZES + CHUNK_ALIGN_MASK);
-    char *cp = (char *)CALL_MREMAP((char *)oldp - offset,
-				   oldmmsize, newmmsize, CALL_MREMAP_MV);
-    if (cp != CMFAIL) {
-      mchunkptr newp = (mchunkptr)(cp + offset);
-      size_t psize = newmmsize - offset - DIRECT_FOOT_PAD;
-      newp->head = psize|CINUSE_BIT;
-      chunk_plus_offset(newp, psize)->head = FENCEPOST_HEAD;
-      chunk_plus_offset(newp, psize+SIZE_T_SIZE)->head = 0;
-      return newp;
-    }
-  }
-  return NULL;
-}
-
-/* -------------------------- mspace management -------------------------- */
-
-/* Initialize top chunk and its size */
-static void init_top(mstate m, mchunkptr p, size_t psize)
-{
-  /* Ensure alignment */
-  size_t offset = align_offset(chunk2mem(p));
-  p = (mchunkptr)((char *)p + offset);
-  psize -= offset;
-
-  m->top = p;
-  m->topsize = psize;
-  p->head = psize | PINUSE_BIT;
-  /* set size of fake trailing chunk holding overhead space only once */
-  chunk_plus_offset(p, psize)->head = TOP_FOOT_SIZE;
-  m->trim_check = DEFAULT_TRIM_THRESHOLD; /* reset on each update */
-}
-
-/* Initialize bins for a new mstate that is otherwise zeroed out */
-static void init_bins(mstate m)
-{
-  /* Establish circular links for smallbins */
-  bindex_t i;
-  for (i = 0; i < NSMALLBINS; i++) {
-    sbinptr bin = smallbin_at(m,i);
-    bin->fd = bin->bk = bin;
-  }
-}
-
-/* Allocate chunk and prepend remainder with chunk in successor base. */
-static void *prepend_alloc(mstate m, char *newbase, char *oldbase, size_t nb)
-{
-  mchunkptr p = align_as_chunk(newbase);
-  mchunkptr oldfirst = align_as_chunk(oldbase);
-  size_t psize = (size_t)((char *)oldfirst - (char *)p);
-  mchunkptr q = chunk_plus_offset(p, nb);
-  size_t qsize = psize - nb;
-  set_size_and_pinuse_of_inuse_chunk(m, p, nb);
-
-  /* consolidate remainder with first chunk of old base */
-  if (oldfirst == m->top) {
-    size_t tsize = m->topsize += qsize;
-    m->top = q;
-    q->head = tsize | PINUSE_BIT;
-  } else if (oldfirst == m->dv) {
-    size_t dsize = m->dvsize += qsize;
-    m->dv = q;
-    set_size_and_pinuse_of_free_chunk(q, dsize);
-  } else {
-    if (!cinuse(oldfirst)) {
-      size_t nsize = chunksize(oldfirst);
-      unlink_chunk(m, oldfirst, nsize);
-      oldfirst = chunk_plus_offset(oldfirst, nsize);
-      qsize += nsize;
-    }
-    set_free_with_pinuse(q, qsize, oldfirst);
-    insert_chunk(m, q, qsize);
-  }
-
-  return chunk2mem(p);
-}
-
-/* Add a segment to hold a new noncontiguous region */
-static void add_segment(mstate m, char *tbase, size_t tsize)
-{
-  /* Determine locations and sizes of segment, fenceposts, old top */
-  char *old_top = (char *)m->top;
-  msegmentptr oldsp = segment_holding(m, old_top);
-  char *old_end = oldsp->base + oldsp->size;
-  size_t ssize = pad_request(sizeof(struct malloc_segment));
-  char *rawsp = old_end - (ssize + FOUR_SIZE_T_SIZES + CHUNK_ALIGN_MASK);
-  size_t offset = align_offset(chunk2mem(rawsp));
-  char *asp = rawsp + offset;
-  char *csp = (asp < (old_top + MIN_CHUNK_SIZE))? old_top : asp;
-  mchunkptr sp = (mchunkptr)csp;
-  msegmentptr ss = (msegmentptr)(chunk2mem(sp));
-  mchunkptr tnext = chunk_plus_offset(sp, ssize);
-  mchunkptr p = tnext;
-
-  /* reset top to new space */
-  init_top(m, (mchunkptr)tbase, tsize - TOP_FOOT_SIZE);
-
-  /* Set up segment record */
-  set_size_and_pinuse_of_inuse_chunk(m, sp, ssize);
-  *ss = m->seg; /* Push current record */
-  m->seg.base = tbase;
-  m->seg.size = tsize;
-  m->seg.next = ss;
-
-  /* Insert trailing fenceposts */
-  for (;;) {
-    mchunkptr nextp = chunk_plus_offset(p, SIZE_T_SIZE);
-    p->head = FENCEPOST_HEAD;
-    if ((char *)(&(nextp->head)) < old_end)
-      p = nextp;
-    else
-      break;
-  }
-
-  /* Insert the rest of old top into a bin as an ordinary free chunk */
-  if (csp != old_top) {
-    mchunkptr q = (mchunkptr)old_top;
-    size_t psize = (size_t)(csp - old_top);
-    mchunkptr tn = chunk_plus_offset(q, psize);
-    set_free_with_pinuse(q, psize, tn);
-    insert_chunk(m, q, psize);
-  }
-}
-
-/* -------------------------- System allocation -------------------------- */
-
-static void *alloc_sys(mstate m, size_t nb)
-{
-  char *tbase = CMFAIL;
-  size_t tsize = 0;
-
-  /* Directly map large chunks */
-  if (LJ_UNLIKELY(nb >= DEFAULT_MMAP_THRESHOLD)) {
-    void *mem = direct_alloc(nb);
-    if (mem != 0)
-      return mem;
-  }
-
-  {
-    size_t req = nb + TOP_FOOT_SIZE + SIZE_T_ONE;
-    size_t rsize = granularity_align(req);
-    if (LJ_LIKELY(rsize > nb)) { /* Fail if wraps around zero */
-      char *mp = (char *)(CALL_MMAP(rsize));
-      if (mp != CMFAIL) {
-	tbase = mp;
-	tsize = rsize;
-      }
-    }
-  }
-
-  if (tbase != CMFAIL) {
-    msegmentptr sp = &m->seg;
-    /* Try to merge with an existing segment */
-    while (sp != 0 && tbase != sp->base + sp->size)
-      sp = sp->next;
-    if (sp != 0 && segment_holds(sp, m->top)) { /* append */
-      sp->size += tsize;
-      init_top(m, m->top, m->topsize + tsize);
-    } else {
-      sp = &m->seg;
-      while (sp != 0 && sp->base != tbase + tsize)
-	sp = sp->next;
-      if (sp != 0) {
-	char *oldbase = sp->base;
-	sp->base = tbase;
-	sp->size += tsize;
-	return prepend_alloc(m, tbase, oldbase, nb);
-      } else {
-	add_segment(m, tbase, tsize);
-      }
-    }
-
-    if (nb < m->topsize) { /* Allocate from new or extended top space */
-      size_t rsize = m->topsize -= nb;
-      mchunkptr p = m->top;
-      mchunkptr r = m->top = chunk_plus_offset(p, nb);
-      r->head = rsize | PINUSE_BIT;
-      set_size_and_pinuse_of_inuse_chunk(m, p, nb);
-      return chunk2mem(p);
-    }
-  }
-
-  return NULL;
-}
-
-/* -----------------------  system deallocation -------------------------- */
-
-/* Unmap and unlink any mmapped segments that don't contain used chunks */
-static size_t release_unused_segments(mstate m)
-{
-  size_t released = 0;
-  size_t nsegs = 0;
-  msegmentptr pred = &m->seg;
-  msegmentptr sp = pred->next;
-  while (sp != 0) {
-    char *base = sp->base;
-    size_t size = sp->size;
-    msegmentptr next = sp->next;
-    nsegs++;
-    {
-      mchunkptr p = align_as_chunk(base);
-      size_t psize = chunksize(p);
-      /* Can unmap if first chunk holds entire segment and not pinned */
-      if (!cinuse(p) && (char *)p + psize >= base + size - TOP_FOOT_SIZE) {
-	tchunkptr tp = (tchunkptr)p;
-	if (p == m->dv) {
-	  m->dv = 0;
-	  m->dvsize = 0;
-	} else {
-	  unlink_large_chunk(m, tp);
-	}
-	if (CALL_MUNMAP(base, size) == 0) {
-	  released += size;
-	  /* unlink obsoleted record */
-	  sp = pred;
-	  sp->next = next;
-	} else { /* back out if cannot unmap */
-	  insert_large_chunk(m, tp, psize);
-	}
-      }
-    }
-    pred = sp;
-    sp = next;
-  }
-  /* Reset check counter */
-  m->release_checks = nsegs > MAX_RELEASE_CHECK_RATE ?
-		      nsegs : MAX_RELEASE_CHECK_RATE;
-  return released;
-}
-
-static int alloc_trim(mstate m, size_t pad)
-{
-  size_t released = 0;
-  if (pad < MAX_REQUEST && is_initialized(m)) {
-    pad += TOP_FOOT_SIZE; /* ensure enough room for segment overhead */
-
-    if (m->topsize > pad) {
-      /* Shrink top space in granularity-size units, keeping at least one */
-      size_t unit = DEFAULT_GRANULARITY;
-      size_t extra = ((m->topsize - pad + (unit - SIZE_T_ONE)) / unit -
-		      SIZE_T_ONE) * unit;
-      msegmentptr sp = segment_holding(m, (char *)m->top);
-
-      if (sp->size >= extra &&
-	  !has_segment_link(m, sp)) { /* can't shrink if pinned */
-	size_t newsize = sp->size - extra;
-	/* Prefer mremap, fall back to munmap */
-	if ((CALL_MREMAP(sp->base, sp->size, newsize, CALL_MREMAP_NOMOVE) != MFAIL) ||
-	    (CALL_MUNMAP(sp->base + newsize, extra) == 0)) {
-	  released = extra;
-	}
-      }
-
-      if (released != 0) {
-	sp->size -= released;
-	init_top(m, m->top, m->topsize - released);
-      }
-    }
-
-    /* Unmap any unused mmapped segments */
-    released += release_unused_segments(m);
-
-    /* On failure, disable autotrim to avoid repeated failed future calls */
-    if (released == 0 && m->topsize > m->trim_check)
-      m->trim_check = MAX_SIZE_T;
-  }
-
-  return (released != 0)? 1 : 0;
-}
-
-/* ---------------------------- malloc support --------------------------- */
-
-/* allocate a large request from the best fitting chunk in a treebin */
-static void *tmalloc_large(mstate m, size_t nb)
-{
-  tchunkptr v = 0;
-  size_t rsize = ~nb+1; /* Unsigned negation */
-  tchunkptr t;
-  bindex_t idx;
-  compute_tree_index(nb, idx);
-
-  if ((t = *treebin_at(m, idx)) != 0) {
-    /* Traverse tree for this bin looking for node with size == nb */
-    size_t sizebits = nb << leftshift_for_tree_index(idx);
-    tchunkptr rst = 0;  /* The deepest untaken right subtree */
-    for (;;) {
-      tchunkptr rt;
-      size_t trem = chunksize(t) - nb;
-      if (trem < rsize) {
-	v = t;
-	if ((rsize = trem) == 0)
-	  break;
-      }
-      rt = t->child[1];
-      t = t->child[(sizebits >> (SIZE_T_BITSIZE-SIZE_T_ONE)) & 1];
-      if (rt != 0 && rt != t)
-	rst = rt;
-      if (t == 0) {
-	t = rst; /* set t to least subtree holding sizes > nb */
-	break;
-      }
-      sizebits <<= 1;
-    }
-  }
-
-  if (t == 0 && v == 0) { /* set t to root of next non-empty treebin */
-    binmap_t leftbits = left_bits(idx2bit(idx)) & m->treemap;
-    if (leftbits != 0)
-      t = *treebin_at(m, lj_ffs(leftbits));
-  }
-
-  while (t != 0) { /* find smallest of tree or subtree */
-    size_t trem = chunksize(t) - nb;
-    if (trem < rsize) {
-      rsize = trem;
-      v = t;
-    }
-    t = leftmost_child(t);
-  }
-
-  /*  If dv is a better fit, return NULL so malloc will use it */
-  if (v != 0 && rsize < (size_t)(m->dvsize - nb)) {
-    mchunkptr r = chunk_plus_offset(v, nb);
-    unlink_large_chunk(m, v);
-    if (rsize < MIN_CHUNK_SIZE) {
-      set_inuse_and_pinuse(m, v, (rsize + nb));
-    } else {
-      set_size_and_pinuse_of_inuse_chunk(m, v, nb);
-      set_size_and_pinuse_of_free_chunk(r, rsize);
-      insert_chunk(m, r, rsize);
-    }
-    return chunk2mem(v);
-  }
-  return NULL;
-}
-
-/* allocate a small request from the best fitting chunk in a treebin */
-static void *tmalloc_small(mstate m, size_t nb)
-{
-  tchunkptr t, v;
-  mchunkptr r;
-  size_t rsize;
-  bindex_t i = lj_ffs(m->treemap);
-
-  v = t = *treebin_at(m, i);
-  rsize = chunksize(t) - nb;
-
-  while ((t = leftmost_child(t)) != 0) {
-    size_t trem = chunksize(t) - nb;
-    if (trem < rsize) {
-      rsize = trem;
-      v = t;
-    }
-  }
-
-  r = chunk_plus_offset(v, nb);
-  unlink_large_chunk(m, v);
-  if (rsize < MIN_CHUNK_SIZE) {
-    set_inuse_and_pinuse(m, v, (rsize + nb));
-  } else {
-    set_size_and_pinuse_of_inuse_chunk(m, v, nb);
-    set_size_and_pinuse_of_free_chunk(r, rsize);
-    replace_dv(m, r, rsize);
-  }
-  return chunk2mem(v);
-}
-
-/* ----------------------------------------------------------------------- */
-
-void *lj_alloc_create(void)
-{
-  size_t tsize = DEFAULT_GRANULARITY;
-  char *tbase;
-  INIT_MMAP();
-  tbase = (char *)(CALL_MMAP(tsize));
-  if (tbase != CMFAIL) {
-    size_t msize = pad_request(sizeof(struct malloc_state));
-    mchunkptr mn;
-    mchunkptr msp = align_as_chunk(tbase);
-    mstate m = (mstate)(chunk2mem(msp));
-    memset(m, 0, msize);
-    msp->head = (msize|PINUSE_BIT|CINUSE_BIT);
-    m->seg.base = tbase;
-    m->seg.size = tsize;
-    m->release_checks = MAX_RELEASE_CHECK_RATE;
-    init_bins(m);
-    mn = next_chunk(mem2chunk(m));
-    init_top(m, mn, (size_t)((tbase + tsize) - (char *)mn) - TOP_FOOT_SIZE);
-    return m;
-  }
-  return NULL;
-}
-
-void lj_alloc_destroy(void *msp)
-{
-  mstate ms = (mstate)msp;
-  msegmentptr sp = &ms->seg;
-  while (sp != 0) {
-    char *base = sp->base;
-    size_t size = sp->size;
-    sp = sp->next;
-    CALL_MUNMAP(base, size);
-  }
-}
-
-static LJ_NOINLINE void *lj_alloc_malloc(void *msp, size_t nsize)
-{
-  mstate ms = (mstate)msp;
-  void *mem;
-  size_t nb;
-  if (nsize <= MAX_SMALL_REQUEST) {
-    bindex_t idx;
-    binmap_t smallbits;
-    nb = (nsize < MIN_REQUEST)? MIN_CHUNK_SIZE : pad_request(nsize);
-    idx = small_index(nb);
-    smallbits = ms->smallmap >> idx;
-
-    if ((smallbits & 0x3U) != 0) { /* Remainderless fit to a smallbin. */
-      mchunkptr b, p;
-      idx += ~smallbits & 1;       /* Uses next bin if idx empty */
-      b = smallbin_at(ms, idx);
-      p = b->fd;
-      unlink_first_small_chunk(ms, b, p, idx);
-      set_inuse_and_pinuse(ms, p, small_index2size(idx));
-      mem = chunk2mem(p);
-      return mem;
-    } else if (nb > ms->dvsize) {
-      if (smallbits != 0) { /* Use chunk in next nonempty smallbin */
-	mchunkptr b, p, r;
-	size_t rsize;
-	binmap_t leftbits = (smallbits << idx) & left_bits(idx2bit(idx));
-	bindex_t i = lj_ffs(leftbits);
-	b = smallbin_at(ms, i);
-	p = b->fd;
-	unlink_first_small_chunk(ms, b, p, i);
-	rsize = small_index2size(i) - nb;
-	/* Fit here cannot be remainderless if 4byte sizes */
-	if (SIZE_T_SIZE != 4 && rsize < MIN_CHUNK_SIZE) {
-	  set_inuse_and_pinuse(ms, p, small_index2size(i));
-	} else {
-	  set_size_and_pinuse_of_inuse_chunk(ms, p, nb);
-	  r = chunk_plus_offset(p, nb);
-	  set_size_and_pinuse_of_free_chunk(r, rsize);
-	  replace_dv(ms, r, rsize);
-	}
-	mem = chunk2mem(p);
-	return mem;
-      } else if (ms->treemap != 0 && (mem = tmalloc_small(ms, nb)) != 0) {
-	return mem;
-      }
-    }
-  } else if (nsize >= MAX_REQUEST) {
-    nb = MAX_SIZE_T; /* Too big to allocate. Force failure (in sys alloc) */
-  } else {
-    nb = pad_request(nsize);
-    if (ms->treemap != 0 && (mem = tmalloc_large(ms, nb)) != 0) {
-      return mem;
-    }
-  }
-
-  if (nb <= ms->dvsize) {
-    size_t rsize = ms->dvsize - nb;
-    mchunkptr p = ms->dv;
-    if (rsize >= MIN_CHUNK_SIZE) { /* split dv */
-      mchunkptr r = ms->dv = chunk_plus_offset(p, nb);
-      ms->dvsize = rsize;
-      set_size_and_pinuse_of_free_chunk(r, rsize);
-      set_size_and_pinuse_of_inuse_chunk(ms, p, nb);
-    } else { /* exhaust dv */
-      size_t dvs = ms->dvsize;
-      ms->dvsize = 0;
-      ms->dv = 0;
-      set_inuse_and_pinuse(ms, p, dvs);
-    }
-    mem = chunk2mem(p);
-    return mem;
-  } else if (nb < ms->topsize) { /* Split top */
-    size_t rsize = ms->topsize -= nb;
-    mchunkptr p = ms->top;
-    mchunkptr r = ms->top = chunk_plus_offset(p, nb);
-    r->head = rsize | PINUSE_BIT;
-    set_size_and_pinuse_of_inuse_chunk(ms, p, nb);
-    mem = chunk2mem(p);
-    return mem;
-  }
-  return alloc_sys(ms, nb);
-}
-
-static LJ_NOINLINE void *lj_alloc_free(void *msp, void *ptr)
-{
-  if (ptr != 0) {
-    mchunkptr p = mem2chunk(ptr);
-    mstate fm = (mstate)msp;
-    size_t psize = chunksize(p);
-    mchunkptr next = chunk_plus_offset(p, psize);
-    if (!pinuse(p)) {
-      size_t prevsize = p->prev_foot;
-      if ((prevsize & IS_DIRECT_BIT) != 0) {
-	prevsize &= ~IS_DIRECT_BIT;
-	psize += prevsize + DIRECT_FOOT_PAD;
-	CALL_MUNMAP((char *)p - prevsize, psize);
-	return NULL;
-      } else {
-	mchunkptr prev = chunk_minus_offset(p, prevsize);
-	psize += prevsize;
-	p = prev;
-	/* consolidate backward */
-	if (p != fm->dv) {
-	  unlink_chunk(fm, p, prevsize);
-	} else if ((next->head & INUSE_BITS) == INUSE_BITS) {
-	  fm->dvsize = psize;
-	  set_free_with_pinuse(p, psize, next);
-	  return NULL;
-	}
-      }
-    }
-    if (!cinuse(next)) {  /* consolidate forward */
-      if (next == fm->top) {
-	size_t tsize = fm->topsize += psize;
-	fm->top = p;
-	p->head = tsize | PINUSE_BIT;
-	if (p == fm->dv) {
-	  fm->dv = 0;
-	  fm->dvsize = 0;
-	}
-	if (tsize > fm->trim_check)
-	  alloc_trim(fm, 0);
-	return NULL;
-      } else if (next == fm->dv) {
-	size_t dsize = fm->dvsize += psize;
-	fm->dv = p;
-	set_size_and_pinuse_of_free_chunk(p, dsize);
-	return NULL;
-      } else {
-	size_t nsize = chunksize(next);
-	psize += nsize;
-	unlink_chunk(fm, next, nsize);
-	set_size_and_pinuse_of_free_chunk(p, psize);
-	if (p == fm->dv) {
-	  fm->dvsize = psize;
-	  return NULL;
-	}
-      }
-    } else {
-      set_free_with_pinuse(p, psize, next);
-    }
-
-    if (is_small(psize)) {
-      insert_small_chunk(fm, p, psize);
-    } else {
-      tchunkptr tp = (tchunkptr)p;
-      insert_large_chunk(fm, tp, psize);
-      if (--fm->release_checks == 0)
-	release_unused_segments(fm);
-    }
-  }
-  return NULL;
-}
-
-static LJ_NOINLINE void *lj_alloc_realloc(void *msp, void *ptr, size_t nsize)
-{
-  if (nsize >= MAX_REQUEST) {
-    return NULL;
-  } else {
-    mstate m = (mstate)msp;
-    mchunkptr oldp = mem2chunk(ptr);
-    size_t oldsize = chunksize(oldp);
-    mchunkptr next = chunk_plus_offset(oldp, oldsize);
-    mchunkptr newp = 0;
-    size_t nb = request2size(nsize);
-
-    /* Try to either shrink or extend into top. Else malloc-copy-free */
-    if (is_direct(oldp)) {
-      newp = direct_resize(oldp, nb);  /* this may return NULL. */
-    } else if (oldsize >= nb) { /* already big enough */
-      size_t rsize = oldsize - nb;
-      newp = oldp;
-      if (rsize >= MIN_CHUNK_SIZE) {
-	mchunkptr rem = chunk_plus_offset(newp, nb);
-	set_inuse(m, newp, nb);
-	set_inuse(m, rem, rsize);
-	lj_alloc_free(m, chunk2mem(rem));
-      }
-    } else if (next == m->top && oldsize + m->topsize > nb) {
-      /* Expand into top */
-      size_t newsize = oldsize + m->topsize;
-      size_t newtopsize = newsize - nb;
-      mchunkptr newtop = chunk_plus_offset(oldp, nb);
-      set_inuse(m, oldp, nb);
-      newtop->head = newtopsize |PINUSE_BIT;
-      m->top = newtop;
-      m->topsize = newtopsize;
-      newp = oldp;
-    }
-
-    if (newp != 0) {
-      return chunk2mem(newp);
-    } else {
-      void *newmem = lj_alloc_malloc(m, nsize);
-      if (newmem != 0) {
-	size_t oc = oldsize - overhead_for(oldp);
-	memcpy(newmem, ptr, oc < nsize ? oc : nsize);
-	lj_alloc_free(m, ptr);
-      }
-      return newmem;
-    }
-  }
-}
-
-void *lj_alloc_f(void *msp, void *ptr, size_t osize, size_t nsize)
-{
-  (void)osize;
-  if (nsize == 0) {
-    return lj_alloc_free(msp, ptr);
-  } else if (ptr == NULL) {
-    return lj_alloc_malloc(msp, nsize);
-  } else {
-    return lj_alloc_realloc(msp, ptr, nsize);
-  }
-}
-
-#endif
diff --git a/luajit-2.0/src/lj_alloc.h b/luajit-2.0/src/lj_alloc.h
deleted file mode 100644
index f87a7cf..0000000
--- a/luajit-2.0/src/lj_alloc.h
+++ /dev/null
@@ -1,17 +0,0 @@
-/*
-** Bundled memory allocator.
-** Donated to the public domain.
-*/
-
-#ifndef _LJ_ALLOC_H
-#define _LJ_ALLOC_H
-
-#include "lj_def.h"
-
-#ifndef LUAJIT_USE_SYSMALLOC
-LJ_FUNC void *lj_alloc_create(void);
-LJ_FUNC void lj_alloc_destroy(void *msp);
-LJ_FUNC void *lj_alloc_f(void *msp, void *ptr, size_t osize, size_t nsize);
-#endif
-
-#endif
diff --git a/luajit-2.0/src/lj_api.c b/luajit-2.0/src/lj_api.c
deleted file mode 100644
index bc5290b..0000000
--- a/luajit-2.0/src/lj_api.c
+++ /dev/null
@@ -1,1200 +0,0 @@
-/*
-** Public Lua/C API.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-**
-** Major portions taken verbatim or adapted from the Lua interpreter.
-** Copyright (C) 1994-2008 Lua.org, PUC-Rio. See Copyright Notice in lua.h
-*/
-
-#define lj_api_c
-#define LUA_CORE
-
-#include "lj_obj.h"
-#include "lj_gc.h"
-#include "lj_err.h"
-#include "lj_debug.h"
-#include "lj_str.h"
-#include "lj_tab.h"
-#include "lj_func.h"
-#include "lj_udata.h"
-#include "lj_meta.h"
-#include "lj_state.h"
-#include "lj_bc.h"
-#include "lj_frame.h"
-#include "lj_trace.h"
-#include "lj_vm.h"
-#include "lj_strscan.h"
-
-/* -- Common helper functions --------------------------------------------- */
-
-#define api_checknelems(L, n)		api_check(L, (n) <= (L->top - L->base))
-#define api_checkvalidindex(L, i)	api_check(L, (i) != niltv(L))
-
-static TValue *index2adr(lua_State *L, int idx)
-{
-  if (idx > 0) {
-    TValue *o = L->base + (idx - 1);
-    return o < L->top ? o : niltv(L);
-  } else if (idx > LUA_REGISTRYINDEX) {
-    api_check(L, idx != 0 && -idx <= L->top - L->base);
-    return L->top + idx;
-  } else if (idx == LUA_GLOBALSINDEX) {
-    TValue *o = &G(L)->tmptv;
-    settabV(L, o, tabref(L->env));
-    return o;
-  } else if (idx == LUA_REGISTRYINDEX) {
-    return registry(L);
-  } else {
-    GCfunc *fn = curr_func(L);
-    api_check(L, fn->c.gct == ~LJ_TFUNC && !isluafunc(fn));
-    if (idx == LUA_ENVIRONINDEX) {
-      TValue *o = &G(L)->tmptv;
-      settabV(L, o, tabref(fn->c.env));
-      return o;
-    } else {
-      idx = LUA_GLOBALSINDEX - idx;
-      return idx <= fn->c.nupvalues ? &fn->c.upvalue[idx-1] : niltv(L);
-    }
-  }
-}
-
-static TValue *stkindex2adr(lua_State *L, int idx)
-{
-  if (idx > 0) {
-    TValue *o = L->base + (idx - 1);
-    return o < L->top ? o : niltv(L);
-  } else {
-    api_check(L, idx != 0 && -idx <= L->top - L->base);
-    return L->top + idx;
-  }
-}
-
-static GCtab *getcurrenv(lua_State *L)
-{
-  GCfunc *fn = curr_func(L);
-  return fn->c.gct == ~LJ_TFUNC ? tabref(fn->c.env) : tabref(L->env);
-}
-
-/* -- Miscellaneous API functions ----------------------------------------- */
-
-LUA_API int lua_status(lua_State *L)
-{
-  return L->status;
-}
-
-LUA_API int lua_checkstack(lua_State *L, int size)
-{
-  if (size > LUAI_MAXCSTACK || (L->top - L->base + size) > LUAI_MAXCSTACK) {
-    return 0;  /* Stack overflow. */
-  } else if (size > 0) {
-    lj_state_checkstack(L, (MSize)size);
-  }
-  return 1;
-}
-
-LUALIB_API void luaL_checkstack(lua_State *L, int size, const char *msg)
-{
-  if (!lua_checkstack(L, size))
-    lj_err_callerv(L, LJ_ERR_STKOVM, msg);
-}
-
-LUA_API void lua_xmove(lua_State *from, lua_State *to, int n)
-{
-  TValue *f, *t;
-  if (from == to) return;
-  api_checknelems(from, n);
-  api_check(from, G(from) == G(to));
-  lj_state_checkstack(to, (MSize)n);
-  f = from->top;
-  t = to->top = to->top + n;
-  while (--n >= 0) copyTV(to, --t, --f);
-  from->top = f;
-}
-
-/* -- Stack manipulation -------------------------------------------------- */
-
-LUA_API int lua_gettop(lua_State *L)
-{
-  return (int)(L->top - L->base);
-}
-
-LUA_API void lua_settop(lua_State *L, int idx)
-{
-  if (idx >= 0) {
-    api_check(L, idx <= tvref(L->maxstack) - L->base);
-    if (L->base + idx > L->top) {
-      if (L->base + idx >= tvref(L->maxstack))
-	lj_state_growstack(L, (MSize)idx - (MSize)(L->top - L->base));
-      do { setnilV(L->top++); } while (L->top < L->base + idx);
-    } else {
-      L->top = L->base + idx;
-    }
-  } else {
-    api_check(L, -(idx+1) <= (L->top - L->base));
-    L->top += idx+1;  /* Shrinks top (idx < 0). */
-  }
-}
-
-LUA_API void lua_remove(lua_State *L, int idx)
-{
-  TValue *p = stkindex2adr(L, idx);
-  api_checkvalidindex(L, p);
-  while (++p < L->top) copyTV(L, p-1, p);
-  L->top--;
-}
-
-LUA_API void lua_insert(lua_State *L, int idx)
-{
-  TValue *q, *p = stkindex2adr(L, idx);
-  api_checkvalidindex(L, p);
-  for (q = L->top; q > p; q--) copyTV(L, q, q-1);
-  copyTV(L, p, L->top);
-}
-
-LUA_API void lua_replace(lua_State *L, int idx)
-{
-  api_checknelems(L, 1);
-  if (idx == LUA_GLOBALSINDEX) {
-    api_check(L, tvistab(L->top-1));
-    /* NOBARRIER: A thread (i.e. L) is never black. */
-    setgcref(L->env, obj2gco(tabV(L->top-1)));
-  } else if (idx == LUA_ENVIRONINDEX) {
-    GCfunc *fn = curr_func(L);
-    if (fn->c.gct != ~LJ_TFUNC)
-      lj_err_msg(L, LJ_ERR_NOENV);
-    api_check(L, tvistab(L->top-1));
-    setgcref(fn->c.env, obj2gco(tabV(L->top-1)));
-    lj_gc_barrier(L, fn, L->top-1);
-  } else {
-    TValue *o = index2adr(L, idx);
-    api_checkvalidindex(L, o);
-    copyTV(L, o, L->top-1);
-    if (idx < LUA_GLOBALSINDEX)  /* Need a barrier for upvalues. */
-      lj_gc_barrier(L, curr_func(L), L->top-1);
-  }
-  L->top--;
-}
-
-LUA_API void lua_pushvalue(lua_State *L, int idx)
-{
-  copyTV(L, L->top, index2adr(L, idx));
-  incr_top(L);
-}
-
-/* -- Stack getters ------------------------------------------------------- */
-
-LUA_API int lua_type(lua_State *L, int idx)
-{
-  cTValue *o = index2adr(L, idx);
-  if (tvisnumber(o)) {
-    return LUA_TNUMBER;
-#if LJ_64
-  } else if (tvislightud(o)) {
-    return LUA_TLIGHTUSERDATA;
-#endif
-  } else if (o == niltv(L)) {
-    return LUA_TNONE;
-  } else {  /* Magic internal/external tag conversion. ORDER LJ_T */
-    uint32_t t = ~itype(o);
-#if LJ_64
-    int tt = (int)((U64x(75a06,98042110) >> 4*t) & 15u);
-#else
-    int tt = (int)(((t < 8 ? 0x98042110u : 0x75a06u) >> 4*(t&7)) & 15u);
-#endif
-    lua_assert(tt != LUA_TNIL || tvisnil(o));
-    return tt;
-  }
-}
-
-LUALIB_API void luaL_checktype(lua_State *L, int idx, int tt)
-{
-  if (lua_type(L, idx) != tt)
-    lj_err_argt(L, idx, tt);
-}
-
-LUALIB_API void luaL_checkany(lua_State *L, int idx)
-{
-  if (index2adr(L, idx) == niltv(L))
-    lj_err_arg(L, idx, LJ_ERR_NOVAL);
-}
-
-LUA_API const char *lua_typename(lua_State *L, int t)
-{
-  UNUSED(L);
-  return lj_obj_typename[t+1];
-}
-
-LUA_API int lua_iscfunction(lua_State *L, int idx)
-{
-  cTValue *o = index2adr(L, idx);
-  return tvisfunc(o) && !isluafunc(funcV(o));
-}
-
-LUA_API int lua_isnumber(lua_State *L, int idx)
-{
-  cTValue *o = index2adr(L, idx);
-  TValue tmp;
-  return (tvisnumber(o) || (tvisstr(o) && lj_strscan_number(strV(o), &tmp)));
-}
-
-LUA_API int lua_isstring(lua_State *L, int idx)
-{
-  cTValue *o = index2adr(L, idx);
-  return (tvisstr(o) || tvisnumber(o));
-}
-
-LUA_API int lua_isuserdata(lua_State *L, int idx)
-{
-  cTValue *o = index2adr(L, idx);
-  return (tvisudata(o) || tvislightud(o));
-}
-
-LUA_API int lua_rawequal(lua_State *L, int idx1, int idx2)
-{
-  cTValue *o1 = index2adr(L, idx1);
-  cTValue *o2 = index2adr(L, idx2);
-  return (o1 == niltv(L) || o2 == niltv(L)) ? 0 : lj_obj_equal(o1, o2);
-}
-
-LUA_API int lua_equal(lua_State *L, int idx1, int idx2)
-{
-  cTValue *o1 = index2adr(L, idx1);
-  cTValue *o2 = index2adr(L, idx2);
-  if (tvisint(o1) && tvisint(o2)) {
-    return intV(o1) == intV(o2);
-  } else if (tvisnumber(o1) && tvisnumber(o2)) {
-    return numberVnum(o1) == numberVnum(o2);
-  } else if (itype(o1) != itype(o2)) {
-    return 0;
-  } else if (tvispri(o1)) {
-    return o1 != niltv(L) && o2 != niltv(L);
-#if LJ_64
-  } else if (tvislightud(o1)) {
-    return o1->u64 == o2->u64;
-#endif
-  } else if (gcrefeq(o1->gcr, o2->gcr)) {
-    return 1;
-  } else if (!tvistabud(o1)) {
-    return 0;
-  } else {
-    TValue *base = lj_meta_equal(L, gcV(o1), gcV(o2), 0);
-    if ((uintptr_t)base <= 1) {
-      return (int)(uintptr_t)base;
-    } else {
-      L->top = base+2;
-      lj_vm_call(L, base, 1+1);
-      L->top -= 2;
-      return tvistruecond(L->top+1);
-    }
-  }
-}
-
-LUA_API int lua_lessthan(lua_State *L, int idx1, int idx2)
-{
-  cTValue *o1 = index2adr(L, idx1);
-  cTValue *o2 = index2adr(L, idx2);
-  if (o1 == niltv(L) || o2 == niltv(L)) {
-    return 0;
-  } else if (tvisint(o1) && tvisint(o2)) {
-    return intV(o1) < intV(o2);
-  } else if (tvisnumber(o1) && tvisnumber(o2)) {
-    return numberVnum(o1) < numberVnum(o2);
-  } else {
-    TValue *base = lj_meta_comp(L, o1, o2, 0);
-    if ((uintptr_t)base <= 1) {
-      return (int)(uintptr_t)base;
-    } else {
-      L->top = base+2;
-      lj_vm_call(L, base, 1+1);
-      L->top -= 2;
-      return tvistruecond(L->top+1);
-    }
-  }
-}
-
-LUA_API lua_Number lua_tonumber(lua_State *L, int idx)
-{
-  cTValue *o = index2adr(L, idx);
-  TValue tmp;
-  if (LJ_LIKELY(tvisnumber(o)))
-    return numberVnum(o);
-  else if (tvisstr(o) && lj_strscan_num(strV(o), &tmp))
-    return numV(&tmp);
-  else
-    return 0;
-}
-
-LUALIB_API lua_Number luaL_checknumber(lua_State *L, int idx)
-{
-  cTValue *o = index2adr(L, idx);
-  TValue tmp;
-  if (LJ_LIKELY(tvisnumber(o)))
-    return numberVnum(o);
-  else if (!(tvisstr(o) && lj_strscan_num(strV(o), &tmp)))
-    lj_err_argt(L, idx, LUA_TNUMBER);
-  return numV(&tmp);
-}
-
-LUALIB_API lua_Number luaL_optnumber(lua_State *L, int idx, lua_Number def)
-{
-  cTValue *o = index2adr(L, idx);
-  TValue tmp;
-  if (LJ_LIKELY(tvisnumber(o)))
-    return numberVnum(o);
-  else if (tvisnil(o))
-    return def;
-  else if (!(tvisstr(o) && lj_strscan_num(strV(o), &tmp)))
-    lj_err_argt(L, idx, LUA_TNUMBER);
-  return numV(&tmp);
-}
-
-LUA_API lua_Integer lua_tointeger(lua_State *L, int idx)
-{
-  cTValue *o = index2adr(L, idx);
-  TValue tmp;
-  lua_Number n;
-  if (LJ_LIKELY(tvisint(o))) {
-    return intV(o);
-  } else if (LJ_LIKELY(tvisnum(o))) {
-    n = numV(o);
-  } else {
-    if (!(tvisstr(o) && lj_strscan_number(strV(o), &tmp)))
-      return 0;
-    if (tvisint(&tmp))
-      return (lua_Integer)intV(&tmp);
-    n = numV(&tmp);
-  }
-#if LJ_64
-  return (lua_Integer)n;
-#else
-  return lj_num2int(n);
-#endif
-}
-
-LUALIB_API lua_Integer luaL_checkinteger(lua_State *L, int idx)
-{
-  cTValue *o = index2adr(L, idx);
-  TValue tmp;
-  lua_Number n;
-  if (LJ_LIKELY(tvisint(o))) {
-    return intV(o);
-  } else if (LJ_LIKELY(tvisnum(o))) {
-    n = numV(o);
-  } else {
-    if (!(tvisstr(o) && lj_strscan_number(strV(o), &tmp)))
-      lj_err_argt(L, idx, LUA_TNUMBER);
-    if (tvisint(&tmp))
-      return (lua_Integer)intV(&tmp);
-    n = numV(&tmp);
-  }
-#if LJ_64
-  return (lua_Integer)n;
-#else
-  return lj_num2int(n);
-#endif
-}
-
-LUALIB_API lua_Integer luaL_optinteger(lua_State *L, int idx, lua_Integer def)
-{
-  cTValue *o = index2adr(L, idx);
-  TValue tmp;
-  lua_Number n;
-  if (LJ_LIKELY(tvisint(o))) {
-    return intV(o);
-  } else if (LJ_LIKELY(tvisnum(o))) {
-    n = numV(o);
-  } else if (tvisnil(o)) {
-    return def;
-  } else {
-    if (!(tvisstr(o) && lj_strscan_number(strV(o), &tmp)))
-      lj_err_argt(L, idx, LUA_TNUMBER);
-    if (tvisint(&tmp))
-      return (lua_Integer)intV(&tmp);
-    n = numV(&tmp);
-  }
-#if LJ_64
-  return (lua_Integer)n;
-#else
-  return lj_num2int(n);
-#endif
-}
-
-LUA_API int lua_toboolean(lua_State *L, int idx)
-{
-  cTValue *o = index2adr(L, idx);
-  return tvistruecond(o);
-}
-
-LUA_API const char *lua_tolstring(lua_State *L, int idx, size_t *len)
-{
-  TValue *o = index2adr(L, idx);
-  GCstr *s;
-  if (LJ_LIKELY(tvisstr(o))) {
-    s = strV(o);
-  } else if (tvisnumber(o)) {
-    lj_gc_check(L);
-    o = index2adr(L, idx);  /* GC may move the stack. */
-    s = lj_str_fromnumber(L, o);
-    setstrV(L, o, s);
-  } else {
-    if (len != NULL) *len = 0;
-    return NULL;
-  }
-  if (len != NULL) *len = s->len;
-  return strdata(s);
-}
-
-LUALIB_API const char *luaL_checklstring(lua_State *L, int idx, size_t *len)
-{
-  TValue *o = index2adr(L, idx);
-  GCstr *s;
-  if (LJ_LIKELY(tvisstr(o))) {
-    s = strV(o);
-  } else if (tvisnumber(o)) {
-    lj_gc_check(L);
-    o = index2adr(L, idx);  /* GC may move the stack. */
-    s = lj_str_fromnumber(L, o);
-    setstrV(L, o, s);
-  } else {
-    lj_err_argt(L, idx, LUA_TSTRING);
-  }
-  if (len != NULL) *len = s->len;
-  return strdata(s);
-}
-
-LUALIB_API const char *luaL_optlstring(lua_State *L, int idx,
-				       const char *def, size_t *len)
-{
-  TValue *o = index2adr(L, idx);
-  GCstr *s;
-  if (LJ_LIKELY(tvisstr(o))) {
-    s = strV(o);
-  } else if (tvisnil(o)) {
-    if (len != NULL) *len = def ? strlen(def) : 0;
-    return def;
-  } else if (tvisnumber(o)) {
-    lj_gc_check(L);
-    o = index2adr(L, idx);  /* GC may move the stack. */
-    s = lj_str_fromnumber(L, o);
-    setstrV(L, o, s);
-  } else {
-    lj_err_argt(L, idx, LUA_TSTRING);
-  }
-  if (len != NULL) *len = s->len;
-  return strdata(s);
-}
-
-LUALIB_API int luaL_checkoption(lua_State *L, int idx, const char *def,
-				const char *const lst[])
-{
-  ptrdiff_t i;
-  const char *s = lua_tolstring(L, idx, NULL);
-  if (s == NULL && (s = def) == NULL)
-    lj_err_argt(L, idx, LUA_TSTRING);
-  for (i = 0; lst[i]; i++)
-    if (strcmp(lst[i], s) == 0)
-      return (int)i;
-  lj_err_argv(L, idx, LJ_ERR_INVOPTM, s);
-}
-
-LUA_API size_t lua_objlen(lua_State *L, int idx)
-{
-  TValue *o = index2adr(L, idx);
-  if (tvisstr(o)) {
-    return strV(o)->len;
-  } else if (tvistab(o)) {
-    return (size_t)lj_tab_len(tabV(o));
-  } else if (tvisudata(o)) {
-    return udataV(o)->len;
-  } else if (tvisnumber(o)) {
-    GCstr *s = lj_str_fromnumber(L, o);
-    setstrV(L, o, s);
-    return s->len;
-  } else {
-    return 0;
-  }
-}
-
-LUA_API lua_CFunction lua_tocfunction(lua_State *L, int idx)
-{
-  cTValue *o = index2adr(L, idx);
-  if (tvisfunc(o)) {
-    BCOp op = bc_op(*mref(funcV(o)->c.pc, BCIns));
-    if (op == BC_FUNCC || op == BC_FUNCCW)
-      return funcV(o)->c.f;
-  }
-  return NULL;
-}
-
-LUA_API void *lua_touserdata(lua_State *L, int idx)
-{
-  cTValue *o = index2adr(L, idx);
-  if (tvisudata(o))
-    return uddata(udataV(o));
-  else if (tvislightud(o))
-    return lightudV(o);
-  else
-    return NULL;
-}
-
-LUA_API lua_State *lua_tothread(lua_State *L, int idx)
-{
-  cTValue *o = index2adr(L, idx);
-  return (!tvisthread(o)) ? NULL : threadV(o);
-}
-
-LUA_API const void *lua_topointer(lua_State *L, int idx)
-{
-  cTValue *o = index2adr(L, idx);
-  if (tvisudata(o))
-    return uddata(udataV(o));
-  else if (tvislightud(o))
-    return lightudV(o);
-  else if (tviscdata(o))
-    return cdataptr(cdataV(o));
-  else if (tvisgcv(o))
-    return gcV(o);
-  else
-    return NULL;
-}
-
-/* -- Stack setters (object creation) ------------------------------------- */
-
-LUA_API void lua_pushnil(lua_State *L)
-{
-  setnilV(L->top);
-  incr_top(L);
-}
-
-LUA_API void lua_pushnumber(lua_State *L, lua_Number n)
-{
-  setnumV(L->top, n);
-  if (LJ_UNLIKELY(tvisnan(L->top)))
-    setnanV(L->top);  /* Canonicalize injected NaNs. */
-  incr_top(L);
-}
-
-LUA_API void lua_pushinteger(lua_State *L, lua_Integer n)
-{
-  setintptrV(L->top, n);
-  incr_top(L);
-}
-
-LUA_API void lua_pushlstring(lua_State *L, const char *str, size_t len)
-{
-  GCstr *s;
-  lj_gc_check(L);
-  s = lj_str_new(L, str, len);
-  setstrV(L, L->top, s);
-  incr_top(L);
-}
-
-LUA_API void lua_pushstring(lua_State *L, const char *str)
-{
-  if (str == NULL) {
-    setnilV(L->top);
-  } else {
-    GCstr *s;
-    lj_gc_check(L);
-    s = lj_str_newz(L, str);
-    setstrV(L, L->top, s);
-  }
-  incr_top(L);
-}
-
-LUA_API const char *lua_pushvfstring(lua_State *L, const char *fmt,
-				     va_list argp)
-{
-  lj_gc_check(L);
-  return lj_str_pushvf(L, fmt, argp);
-}
-
-LUA_API const char *lua_pushfstring(lua_State *L, const char *fmt, ...)
-{
-  const char *ret;
-  va_list argp;
-  lj_gc_check(L);
-  va_start(argp, fmt);
-  ret = lj_str_pushvf(L, fmt, argp);
-  va_end(argp);
-  return ret;
-}
-
-LUA_API void lua_pushcclosure(lua_State *L, lua_CFunction f, int n)
-{
-  GCfunc *fn;
-  lj_gc_check(L);
-  api_checknelems(L, n);
-  fn = lj_func_newC(L, (MSize)n, getcurrenv(L));
-  fn->c.f = f;
-  L->top -= n;
-  while (n--)
-    copyTV(L, &fn->c.upvalue[n], L->top+n);
-  setfuncV(L, L->top, fn);
-  lua_assert(iswhite(obj2gco(fn)));
-  incr_top(L);
-}
-
-LUA_API void lua_pushboolean(lua_State *L, int b)
-{
-  setboolV(L->top, (b != 0));
-  incr_top(L);
-}
-
-LUA_API void lua_pushlightuserdata(lua_State *L, void *p)
-{
-  setlightudV(L->top, checklightudptr(L, p));
-  incr_top(L);
-}
-
-LUA_API void lua_createtable(lua_State *L, int narray, int nrec)
-{
-  GCtab *t;
-  lj_gc_check(L);
-  t = lj_tab_new(L, (uint32_t)(narray > 0 ? narray+1 : 0), hsize2hbits(nrec));
-  settabV(L, L->top, t);
-  incr_top(L);
-}
-
-LUALIB_API int luaL_newmetatable(lua_State *L, const char *tname)
-{
-  GCtab *regt = tabV(registry(L));
-  TValue *tv = lj_tab_setstr(L, regt, lj_str_newz(L, tname));
-  if (tvisnil(tv)) {
-    GCtab *mt = lj_tab_new(L, 0, 1);
-    settabV(L, tv, mt);
-    settabV(L, L->top++, mt);
-    lj_gc_anybarriert(L, regt);
-    return 1;
-  } else {
-    copyTV(L, L->top++, tv);
-    return 0;
-  }
-}
-
-LUA_API int lua_pushthread(lua_State *L)
-{
-  setthreadV(L, L->top, L);
-  incr_top(L);
-  return (mainthread(G(L)) == L);
-}
-
-LUA_API lua_State *lua_newthread(lua_State *L)
-{
-  lua_State *L1;
-  lj_gc_check(L);
-  L1 = lj_state_new(L);
-  setthreadV(L, L->top, L1);
-  incr_top(L);
-  return L1;
-}
-
-LUA_API void *lua_newuserdata(lua_State *L, size_t size)
-{
-  GCudata *ud;
-  lj_gc_check(L);
-  if (size > LJ_MAX_UDATA)
-    lj_err_msg(L, LJ_ERR_UDATAOV);
-  ud = lj_udata_new(L, (MSize)size, getcurrenv(L));
-  setudataV(L, L->top, ud);
-  incr_top(L);
-  return uddata(ud);
-}
-
-LUA_API void lua_concat(lua_State *L, int n)
-{
-  api_checknelems(L, n);
-  if (n >= 2) {
-    n--;
-    do {
-      TValue *top = lj_meta_cat(L, L->top-1, -n);
-      if (top == NULL) {
-	L->top -= n;
-	break;
-      }
-      n -= (int)(L->top - top);
-      L->top = top+2;
-      lj_vm_call(L, top, 1+1);
-      L->top--;
-      copyTV(L, L->top-1, L->top);
-    } while (--n > 0);
-  } else if (n == 0) {  /* Push empty string. */
-    setstrV(L, L->top, &G(L)->strempty);
-    incr_top(L);
-  }
-  /* else n == 1: nothing to do. */
-}
-
-/* -- Object getters ------------------------------------------------------ */
-
-LUA_API void lua_gettable(lua_State *L, int idx)
-{
-  cTValue *v, *t = index2adr(L, idx);
-  api_checkvalidindex(L, t);
-  v = lj_meta_tget(L, t, L->top-1);
-  if (v == NULL) {
-    L->top += 2;
-    lj_vm_call(L, L->top-2, 1+1);
-    L->top -= 2;
-    v = L->top+1;
-  }
-  copyTV(L, L->top-1, v);
-}
-
-LUA_API void lua_getfield(lua_State *L, int idx, const char *k)
-{
-  cTValue *v, *t = index2adr(L, idx);
-  TValue key;
-  api_checkvalidindex(L, t);
-  setstrV(L, &key, lj_str_newz(L, k));
-  v = lj_meta_tget(L, t, &key);
-  if (v == NULL) {
-    L->top += 2;
-    lj_vm_call(L, L->top-2, 1+1);
-    L->top -= 2;
-    v = L->top+1;
-  }
-  copyTV(L, L->top, v);
-  incr_top(L);
-}
-
-LUA_API void lua_rawget(lua_State *L, int idx)
-{
-  cTValue *t = index2adr(L, idx);
-  api_check(L, tvistab(t));
-  copyTV(L, L->top-1, lj_tab_get(L, tabV(t), L->top-1));
-}
-
-LUA_API void lua_rawgeti(lua_State *L, int idx, int n)
-{
-  cTValue *v, *t = index2adr(L, idx);
-  api_check(L, tvistab(t));
-  v = lj_tab_getint(tabV(t), n);
-  if (v) {
-    copyTV(L, L->top, v);
-  } else {
-    setnilV(L->top);
-  }
-  incr_top(L);
-}
-
-LUA_API int lua_getmetatable(lua_State *L, int idx)
-{
-  cTValue *o = index2adr(L, idx);
-  GCtab *mt = NULL;
-  if (tvistab(o))
-    mt = tabref(tabV(o)->metatable);
-  else if (tvisudata(o))
-    mt = tabref(udataV(o)->metatable);
-  else
-    mt = tabref(basemt_obj(G(L), o));
-  if (mt == NULL)
-    return 0;
-  settabV(L, L->top, mt);
-  incr_top(L);
-  return 1;
-}
-
-LUALIB_API int luaL_getmetafield(lua_State *L, int idx, const char *field)
-{
-  if (lua_getmetatable(L, idx)) {
-    cTValue *tv = lj_tab_getstr(tabV(L->top-1), lj_str_newz(L, field));
-    if (tv && !tvisnil(tv)) {
-      copyTV(L, L->top-1, tv);
-      return 1;
-    }
-    L->top--;
-  }
-  return 0;
-}
-
-LUA_API void lua_getfenv(lua_State *L, int idx)
-{
-  cTValue *o = index2adr(L, idx);
-  api_checkvalidindex(L, o);
-  if (tvisfunc(o)) {
-    settabV(L, L->top, tabref(funcV(o)->c.env));
-  } else if (tvisudata(o)) {
-    settabV(L, L->top, tabref(udataV(o)->env));
-  } else if (tvisthread(o)) {
-    settabV(L, L->top, tabref(threadV(o)->env));
-  } else {
-    setnilV(L->top);
-  }
-  incr_top(L);
-}
-
-LUA_API int lua_next(lua_State *L, int idx)
-{
-  cTValue *t = index2adr(L, idx);
-  int more;
-  api_check(L, tvistab(t));
-  more = lj_tab_next(L, tabV(t), L->top-1);
-  if (more) {
-    incr_top(L);  /* Return new key and value slot. */
-  } else {  /* End of traversal. */
-    L->top--;  /* Remove key slot. */
-  }
-  return more;
-}
-
-LUA_API const char *lua_getupvalue(lua_State *L, int idx, int n)
-{
-  TValue *val;
-  const char *name = lj_debug_uvnamev(index2adr(L, idx), (uint32_t)(n-1), &val);
-  if (name) {
-    copyTV(L, L->top, val);
-    incr_top(L);
-  }
-  return name;
-}
-
-LUA_API void *lua_upvalueid(lua_State *L, int idx, int n)
-{
-  GCfunc *fn = funcV(index2adr(L, idx));
-  n--;
-  api_check(L, (uint32_t)n < fn->l.nupvalues);
-  return isluafunc(fn) ? (void *)gcref(fn->l.uvptr[n]) :
-			 (void *)&fn->c.upvalue[n];
-}
-
-LUA_API void lua_upvaluejoin(lua_State *L, int idx1, int n1, int idx2, int n2)
-{
-  GCfunc *fn1 = funcV(index2adr(L, idx1));
-  GCfunc *fn2 = funcV(index2adr(L, idx2));
-  n1--; n2--;
-  api_check(L, isluafunc(fn1) && (uint32_t)n1 < fn1->l.nupvalues);
-  api_check(L, isluafunc(fn2) && (uint32_t)n2 < fn2->l.nupvalues);
-  setgcrefr(fn1->l.uvptr[n1], fn2->l.uvptr[n2]);
-  lj_gc_objbarrier(L, fn1, gcref(fn1->l.uvptr[n1]));
-}
-
-LUALIB_API void *luaL_checkudata(lua_State *L, int idx, const char *tname)
-{
-  cTValue *o = index2adr(L, idx);
-  if (tvisudata(o)) {
-    GCudata *ud = udataV(o);
-    cTValue *tv = lj_tab_getstr(tabV(registry(L)), lj_str_newz(L, tname));
-    if (tv && tvistab(tv) && tabV(tv) == tabref(ud->metatable))
-      return uddata(ud);
-  }
-  lj_err_argtype(L, idx, tname);
-  return NULL;  /* unreachable */
-}
-
-/* -- Object setters ------------------------------------------------------ */
-
-LUA_API void lua_settable(lua_State *L, int idx)
-{
-  TValue *o;
-  cTValue *t = index2adr(L, idx);
-  api_checknelems(L, 2);
-  api_checkvalidindex(L, t);
-  o = lj_meta_tset(L, t, L->top-2);
-  if (o) {
-    /* NOBARRIER: lj_meta_tset ensures the table is not black. */
-    copyTV(L, o, L->top-1);
-    L->top -= 2;
-  } else {
-    L->top += 3;
-    copyTV(L, L->top-1, L->top-6);
-    lj_vm_call(L, L->top-3, 0+1);
-    L->top -= 3;
-  }
-}
-
-LUA_API void lua_setfield(lua_State *L, int idx, const char *k)
-{
-  TValue *o;
-  TValue key;
-  cTValue *t = index2adr(L, idx);
-  api_checknelems(L, 1);
-  api_checkvalidindex(L, t);
-  setstrV(L, &key, lj_str_newz(L, k));
-  o = lj_meta_tset(L, t, &key);
-  if (o) {
-    L->top--;
-    /* NOBARRIER: lj_meta_tset ensures the table is not black. */
-    copyTV(L, o, L->top);
-  } else {
-    L->top += 3;
-    copyTV(L, L->top-1, L->top-6);
-    lj_vm_call(L, L->top-3, 0+1);
-    L->top -= 2;
-  }
-}
-
-LUA_API void lua_rawset(lua_State *L, int idx)
-{
-  GCtab *t = tabV(index2adr(L, idx));
-  TValue *dst, *key;
-  api_checknelems(L, 2);
-  key = L->top-2;
-  dst = lj_tab_set(L, t, key);
-  copyTV(L, dst, key+1);
-  lj_gc_anybarriert(L, t);
-  L->top = key;
-}
-
-LUA_API void lua_rawseti(lua_State *L, int idx, int n)
-{
-  GCtab *t = tabV(index2adr(L, idx));
-  TValue *dst, *src;
-  api_checknelems(L, 1);
-  dst = lj_tab_setint(L, t, n);
-  src = L->top-1;
-  copyTV(L, dst, src);
-  lj_gc_barriert(L, t, dst);
-  L->top = src;
-}
-
-LUA_API int lua_setmetatable(lua_State *L, int idx)
-{
-  global_State *g;
-  GCtab *mt;
-  cTValue *o = index2adr(L, idx);
-  api_checknelems(L, 1);
-  api_checkvalidindex(L, o);
-  if (tvisnil(L->top-1)) {
-    mt = NULL;
-  } else {
-    api_check(L, tvistab(L->top-1));
-    mt = tabV(L->top-1);
-  }
-  g = G(L);
-  if (tvistab(o)) {
-    setgcref(tabV(o)->metatable, obj2gco(mt));
-    if (mt)
-      lj_gc_objbarriert(L, tabV(o), mt);
-  } else if (tvisudata(o)) {
-    setgcref(udataV(o)->metatable, obj2gco(mt));
-    if (mt)
-      lj_gc_objbarrier(L, udataV(o), mt);
-  } else {
-    /* Flush cache, since traces specialize to basemt. But not during __gc. */
-    if (lj_trace_flushall(L))
-      lj_err_caller(L, LJ_ERR_NOGCMM);
-    if (tvisbool(o)) {
-      /* NOBARRIER: basemt is a GC root. */
-      setgcref(basemt_it(g, LJ_TTRUE), obj2gco(mt));
-      setgcref(basemt_it(g, LJ_TFALSE), obj2gco(mt));
-    } else {
-      /* NOBARRIER: basemt is a GC root. */
-      setgcref(basemt_obj(g, o), obj2gco(mt));
-    }
-  }
-  L->top--;
-  return 1;
-}
-
-LUA_API int lua_setfenv(lua_State *L, int idx)
-{
-  cTValue *o = index2adr(L, idx);
-  GCtab *t;
-  api_checknelems(L, 1);
-  api_checkvalidindex(L, o);
-  api_check(L, tvistab(L->top-1));
-  t = tabV(L->top-1);
-  if (tvisfunc(o)) {
-    setgcref(funcV(o)->c.env, obj2gco(t));
-  } else if (tvisudata(o)) {
-    setgcref(udataV(o)->env, obj2gco(t));
-  } else if (tvisthread(o)) {
-    setgcref(threadV(o)->env, obj2gco(t));
-  } else {
-    L->top--;
-    return 0;
-  }
-  lj_gc_objbarrier(L, gcV(o), t);
-  L->top--;
-  return 1;
-}
-
-LUA_API const char *lua_setupvalue(lua_State *L, int idx, int n)
-{
-  cTValue *f = index2adr(L, idx);
-  TValue *val;
-  const char *name;
-  api_checknelems(L, 1);
-  name = lj_debug_uvnamev(f, (uint32_t)(n-1), &val);
-  if (name) {
-    L->top--;
-    copyTV(L, val, L->top);
-    lj_gc_barrier(L, funcV(f), L->top);
-  }
-  return name;
-}
-
-/* -- Calls --------------------------------------------------------------- */
-
-LUA_API void lua_call(lua_State *L, int nargs, int nresults)
-{
-  api_check(L, L->status == 0 || L->status == LUA_ERRERR);
-  api_checknelems(L, nargs+1);
-  lj_vm_call(L, L->top - nargs, nresults+1);
-}
-
-LUA_API int lua_pcall(lua_State *L, int nargs, int nresults, int errfunc)
-{
-  global_State *g = G(L);
-  uint8_t oldh = hook_save(g);
-  ptrdiff_t ef;
-  int status;
-  api_check(L, L->status == 0 || L->status == LUA_ERRERR);
-  api_checknelems(L, nargs+1);
-  if (errfunc == 0) {
-    ef = 0;
-  } else {
-    cTValue *o = stkindex2adr(L, errfunc);
-    api_checkvalidindex(L, o);
-    ef = savestack(L, o);
-  }
-  status = lj_vm_pcall(L, L->top - nargs, nresults+1, ef);
-  if (status) hook_restore(g, oldh);
-  return status;
-}
-
-static TValue *cpcall(lua_State *L, lua_CFunction func, void *ud)
-{
-  GCfunc *fn = lj_func_newC(L, 0, getcurrenv(L));
-  fn->c.f = func;
-  setfuncV(L, L->top, fn);
-  setlightudV(L->top+1, checklightudptr(L, ud));
-  cframe_nres(L->cframe) = 1+0;  /* Zero results. */
-  L->top += 2;
-  return L->top-1;  /* Now call the newly allocated C function. */
-}
-
-LUA_API int lua_cpcall(lua_State *L, lua_CFunction func, void *ud)
-{
-  global_State *g = G(L);
-  uint8_t oldh = hook_save(g);
-  int status;
-  api_check(L, L->status == 0 || L->status == LUA_ERRERR);
-  status = lj_vm_cpcall(L, func, ud, cpcall);
-  if (status) hook_restore(g, oldh);
-  return status;
-}
-
-LUALIB_API int luaL_callmeta(lua_State *L, int idx, const char *field)
-{
-  if (luaL_getmetafield(L, idx, field)) {
-    TValue *base = L->top--;
-    copyTV(L, base, index2adr(L, idx));
-    L->top = base+1;
-    lj_vm_call(L, base, 1+1);
-    return 1;
-  }
-  return 0;
-}
-
-/* -- Coroutine yield and resume ------------------------------------------ */
-
-LUA_API int lua_yield(lua_State *L, int nresults)
-{
-  void *cf = L->cframe;
-  global_State *g = G(L);
-  if (cframe_canyield(cf)) {
-    cf = cframe_raw(cf);
-    if (!hook_active(g)) {  /* Regular yield: move results down if needed. */
-      cTValue *f = L->top - nresults;
-      if (f > L->base) {
-	TValue *t = L->base;
-	while (--nresults >= 0) copyTV(L, t++, f++);
-	L->top = t;
-      }
-      L->cframe = NULL;
-      L->status = LUA_YIELD;
-      return -1;
-    } else {  /* Yield from hook: add a pseudo-frame. */
-      TValue *top = L->top;
-      hook_leave(g);
-      top->u64 = cframe_multres(cf);
-      setcont(top+1, lj_cont_hook);
-      setframe_pc(top+1, cframe_pc(cf)-1);
-      setframe_gc(top+2, obj2gco(L));
-      setframe_ftsz(top+2, (int)((char *)(top+3)-(char *)L->base)+FRAME_CONT);
-      L->top = L->base = top+3;
-#if LJ_TARGET_X64
-      lj_err_throw(L, LUA_YIELD);
-#else
-      L->cframe = NULL;
-      L->status = LUA_YIELD;
-      lj_vm_unwind_c(cf, LUA_YIELD);
-#endif
-    }
-  }
-  lj_err_msg(L, LJ_ERR_CYIELD);
-  return 0;  /* unreachable */
-}
-
-LUA_API int lua_resume(lua_State *L, int nargs)
-{
-  if (L->cframe == NULL && L->status <= LUA_YIELD)
-    return lj_vm_resume(L, L->top - nargs, 0, 0);
-  L->top = L->base;
-  setstrV(L, L->top, lj_err_str(L, LJ_ERR_COSUSP));
-  incr_top(L);
-  return LUA_ERRRUN;
-}
-
-/* -- GC and memory management -------------------------------------------- */
-
-LUA_API int lua_gc(lua_State *L, int what, int data)
-{
-  global_State *g = G(L);
-  int res = 0;
-  switch (what) {
-  case LUA_GCSTOP:
-    g->gc.threshold = LJ_MAX_MEM;
-    break;
-  case LUA_GCRESTART:
-    g->gc.threshold = data == -1 ? (g->gc.total/100)*g->gc.pause : g->gc.total;
-    break;
-  case LUA_GCCOLLECT:
-    lj_gc_fullgc(L);
-    break;
-  case LUA_GCCOUNT:
-    res = (int)(g->gc.total >> 10);
-    break;
-  case LUA_GCCOUNTB:
-    res = (int)(g->gc.total & 0x3ff);
-    break;
-  case LUA_GCSTEP: {
-    MSize a = (MSize)data << 10;
-    g->gc.threshold = (a <= g->gc.total) ? (g->gc.total - a) : 0;
-    while (g->gc.total >= g->gc.threshold)
-      if (lj_gc_step(L) > 0) {
-	res = 1;
-	break;
-      }
-    break;
-  }
-  case LUA_GCSETPAUSE:
-    res = (int)(g->gc.pause);
-    g->gc.pause = (MSize)data;
-    break;
-  case LUA_GCSETSTEPMUL:
-    res = (int)(g->gc.stepmul);
-    g->gc.stepmul = (MSize)data;
-    break;
-  default:
-    res = -1;  /* Invalid option. */
-  }
-  return res;
-}
-
-LUA_API lua_Alloc lua_getallocf(lua_State *L, void **ud)
-{
-  global_State *g = G(L);
-  if (ud) *ud = g->allocd;
-  return g->allocf;
-}
-
-LUA_API void lua_setallocf(lua_State *L, lua_Alloc f, void *ud)
-{
-  global_State *g = G(L);
-  g->allocd = ud;
-  g->allocf = f;
-}
-
diff --git a/luajit-2.0/src/lj_arch.h b/luajit-2.0/src/lj_arch.h
deleted file mode 100644
index f1c6e5e..0000000
--- a/luajit-2.0/src/lj_arch.h
+++ /dev/null
@@ -1,432 +0,0 @@
-/*
-** Target architecture selection.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#ifndef _LJ_ARCH_H
-#define _LJ_ARCH_H
-
-#include "lua.h"
-
-/* Target endianess. */
-#define LUAJIT_LE	0
-#define LUAJIT_BE	1
-
-/* Target architectures. */
-#define LUAJIT_ARCH_X86		1
-#define LUAJIT_ARCH_x86		1
-#define LUAJIT_ARCH_X64		2
-#define LUAJIT_ARCH_x64		2
-#define LUAJIT_ARCH_ARM		3
-#define LUAJIT_ARCH_arm		3
-#define LUAJIT_ARCH_PPC		4
-#define LUAJIT_ARCH_ppc		4
-#define LUAJIT_ARCH_PPCSPE	5
-#define LUAJIT_ARCH_ppcspe	5
-#define LUAJIT_ARCH_MIPS	6
-#define LUAJIT_ARCH_mips	6
-
-/* Target OS. */
-#define LUAJIT_OS_OTHER		0
-#define LUAJIT_OS_WINDOWS	1
-#define LUAJIT_OS_LINUX		2
-#define LUAJIT_OS_OSX		3
-#define LUAJIT_OS_BSD		4
-#define LUAJIT_OS_POSIX		5
-
-/* Select native target if no target defined. */
-#ifndef LUAJIT_TARGET
-
-#if defined(__i386) || defined(__i386__) || defined(_M_IX86)
-#define LUAJIT_TARGET	LUAJIT_ARCH_X86
-#elif defined(__x86_64__) || defined(__x86_64) || defined(_M_X64) || defined(_M_AMD64)
-#define LUAJIT_TARGET	LUAJIT_ARCH_X64
-#elif defined(__arm__) || defined(__arm) || defined(__ARM__) || defined(__ARM)
-#define LUAJIT_TARGET	LUAJIT_ARCH_ARM
-#elif defined(__ppc__) || defined(__ppc) || defined(__PPC__) || defined(__PPC) || defined(__powerpc__) || defined(__powerpc) || defined(__POWERPC__) || defined(__POWERPC) || defined(_M_PPC)
-#ifdef __NO_FPRS__
-#define LUAJIT_TARGET	LUAJIT_ARCH_PPCSPE
-#else
-#define LUAJIT_TARGET	LUAJIT_ARCH_PPC
-#endif
-#elif defined(__mips__) || defined(__mips) || defined(__MIPS__) || defined(__MIPS)
-#define LUAJIT_TARGET	LUAJIT_ARCH_MIPS
-#else
-#error "No support for this architecture (yet)"
-#endif
-
-#endif
-
-/* Select native OS if no target OS defined. */
-#ifndef LUAJIT_OS
-
-#if defined(_WIN32) && !defined(_XBOX_VER)
-#define LUAJIT_OS	LUAJIT_OS_WINDOWS
-#elif defined(__linux__)
-#define LUAJIT_OS	LUAJIT_OS_LINUX
-#elif defined(__MACH__) && defined(__APPLE__)
-#define LUAJIT_OS	LUAJIT_OS_OSX
-#elif (defined(__FreeBSD__) || defined(__FreeBSD_kernel__) || \
-       defined(__NetBSD__) || defined(__OpenBSD__) || \
-       defined(__DragonFly__)) && !defined(__ORBIS__)
-#define LUAJIT_OS	LUAJIT_OS_BSD
-#elif (defined(__sun__) && defined(__svr4__)) || defined(__CYGWIN__)
-#define LUAJIT_OS	LUAJIT_OS_POSIX
-#else
-#define LUAJIT_OS	LUAJIT_OS_OTHER
-#endif
-
-#endif
-
-/* Set target OS properties. */
-#if LUAJIT_OS == LUAJIT_OS_WINDOWS
-#define LJ_OS_NAME	"Windows"
-#elif LUAJIT_OS == LUAJIT_OS_LINUX
-#define LJ_OS_NAME	"Linux"
-#elif LUAJIT_OS == LUAJIT_OS_OSX
-#define LJ_OS_NAME	"OSX"
-#elif LUAJIT_OS == LUAJIT_OS_BSD
-#define LJ_OS_NAME	"BSD"
-#elif LUAJIT_OS == LUAJIT_OS_POSIX
-#define LJ_OS_NAME	"POSIX"
-#else
-#define LJ_OS_NAME	"Other"
-#endif
-
-#define LJ_TARGET_WINDOWS	(LUAJIT_OS == LUAJIT_OS_WINDOWS)
-#define LJ_TARGET_LINUX		(LUAJIT_OS == LUAJIT_OS_LINUX)
-#define LJ_TARGET_OSX		(LUAJIT_OS == LUAJIT_OS_OSX)
-#define LJ_TARGET_IOS		(LJ_TARGET_OSX && LUAJIT_TARGET == LUAJIT_ARCH_ARM)
-#define LJ_TARGET_POSIX		(LUAJIT_OS > LUAJIT_OS_WINDOWS)
-#define LJ_TARGET_DLOPEN	LJ_TARGET_POSIX
-
-#ifdef __CELLOS_LV2__
-#define LJ_TARGET_PS3		1
-#define LJ_TARGET_CONSOLE	1
-#endif
-
-#ifdef __ORBIS__
-#define LJ_TARGET_PS4		1
-#define LJ_TARGET_CONSOLE	1
-#undef NULL
-#define NULL ((void*)0)
-#endif
-
-#ifdef __psp2__
-#define LJ_TARGET_PSVITA	1
-#define LJ_TARGET_CONSOLE	1
-#endif
-
-#if _XBOX_VER >= 200
-#define LJ_TARGET_XBOX360	1
-#define LJ_TARGET_CONSOLE	1
-#endif
-
-#define LJ_NUMMODE_SINGLE	0	/* Single-number mode only. */
-#define LJ_NUMMODE_SINGLE_DUAL	1	/* Default to single-number mode. */
-#define LJ_NUMMODE_DUAL		2	/* Dual-number mode only. */
-#define LJ_NUMMODE_DUAL_SINGLE	3	/* Default to dual-number mode. */
-
-/* Set target architecture properties. */
-#if LUAJIT_TARGET == LUAJIT_ARCH_X86
-
-#define LJ_ARCH_NAME		"x86"
-#define LJ_ARCH_BITS		32
-#define LJ_ARCH_ENDIAN		LUAJIT_LE
-#if LJ_TARGET_WINDOWS || __CYGWIN__
-#define LJ_ABI_WIN		1
-#else
-#define LJ_ABI_WIN		0
-#endif
-#define LJ_TARGET_X86		1
-#define LJ_TARGET_X86ORX64	1
-#define LJ_TARGET_EHRETREG	0
-#define LJ_TARGET_MASKSHIFT	1
-#define LJ_TARGET_MASKROT	1
-#define LJ_TARGET_UNALIGNED	1
-#define LJ_ARCH_NUMMODE		LJ_NUMMODE_SINGLE_DUAL
-
-#elif LUAJIT_TARGET == LUAJIT_ARCH_X64
-
-#define LJ_ARCH_NAME		"x64"
-#define LJ_ARCH_BITS		64
-#define LJ_ARCH_ENDIAN		LUAJIT_LE
-#define LJ_ABI_WIN		LJ_TARGET_WINDOWS
-#define LJ_TARGET_X64		1
-#define LJ_TARGET_X86ORX64	1
-#define LJ_TARGET_EHRETREG	0
-#define LJ_TARGET_JUMPRANGE	31	/* +-2^31 = +-2GB */
-#define LJ_TARGET_MASKSHIFT	1
-#define LJ_TARGET_MASKROT	1
-#define LJ_TARGET_UNALIGNED	1
-#define LJ_ARCH_NUMMODE		LJ_NUMMODE_SINGLE_DUAL
-
-#elif LUAJIT_TARGET == LUAJIT_ARCH_ARM
-
-#define LJ_ARCH_NAME		"arm"
-#define LJ_ARCH_BITS		32
-#define LJ_ARCH_ENDIAN		LUAJIT_LE
-#if !defined(LJ_ARCH_HASFPU) && __SOFTFP__
-#define LJ_ARCH_HASFPU		0
-#endif
-#if !defined(LJ_ABI_SOFTFP) && !__ARM_PCS_VFP
-#define LJ_ABI_SOFTFP		1
-#endif
-#define LJ_ABI_EABI		1
-#define LJ_TARGET_ARM		1
-#define LJ_TARGET_EHRETREG	0
-#define LJ_TARGET_JUMPRANGE	25	/* +-2^25 = +-32MB */
-#define LJ_TARGET_MASKSHIFT	0
-#define LJ_TARGET_MASKROT	1
-#define LJ_TARGET_UNIFYROT	2	/* Want only IR_BROR. */
-#define LJ_ARCH_NUMMODE		LJ_NUMMODE_DUAL
-
-#if __ARM_ARCH_7__ || __ARM_ARCH_7A__ || __ARM_ARCH_7R__ || __ARM_ARCH_7S__
-#define LJ_ARCH_VERSION		70
-#elif __ARM_ARCH_6T2__
-#define LJ_ARCH_VERSION		61
-#elif __ARM_ARCH_6__ || __ARM_ARCH_6J__ || __ARM_ARCH_6K__ || __ARM_ARCH_6Z__ || __ARM_ARCH_6ZK__
-#define LJ_ARCH_VERSION		60
-#else
-#define LJ_ARCH_VERSION		50
-#endif
-
-#elif LUAJIT_TARGET == LUAJIT_ARCH_PPC
-
-#define LJ_ARCH_NAME		"ppc"
-#if _LP64
-#define LJ_ARCH_BITS		64
-#else
-#define LJ_ARCH_BITS		32
-#endif
-#define LJ_ARCH_ENDIAN		LUAJIT_BE
-#define LJ_TARGET_PPC		1
-#define LJ_TARGET_EHRETREG	3
-#define LJ_TARGET_JUMPRANGE	25	/* +-2^25 = +-32MB */
-#define LJ_TARGET_MASKSHIFT	0
-#define LJ_TARGET_MASKROT	1
-#define LJ_TARGET_UNIFYROT	1	/* Want only IR_BROL. */
-#define LJ_ARCH_NUMMODE		LJ_NUMMODE_DUAL_SINGLE
-
-#if _ARCH_PWR7
-#define LJ_ARCH_VERSION		70
-#elif _ARCH_PWR6
-#define LJ_ARCH_VERSION		60
-#elif _ARCH_PWR5X
-#define LJ_ARCH_VERSION		51
-#elif _ARCH_PWR5
-#define LJ_ARCH_VERSION		50
-#elif _ARCH_PWR4
-#define LJ_ARCH_VERSION		40
-#else
-#define LJ_ARCH_VERSION		0
-#endif
-#if __PPC64__ || __powerpc64__ || LJ_TARGET_CONSOLE
-#define LJ_ARCH_PPC64		1
-#define LJ_ARCH_NOFFI		1
-#endif
-#if _ARCH_PPCSQ
-#define LJ_ARCH_SQRT		1
-#endif
-#if _ARCH_PWR5X
-#define LJ_ARCH_ROUND		1
-#endif
-#if __PPU__
-#define LJ_ARCH_CELL		1
-#endif
-#if LJ_TARGET_XBOX360
-#define LJ_ARCH_XENON		1
-#endif
-
-#elif LUAJIT_TARGET == LUAJIT_ARCH_PPCSPE
-
-#define LJ_ARCH_NAME		"ppcspe"
-#define LJ_ARCH_BITS		32
-#define LJ_ARCH_ENDIAN		LUAJIT_BE
-#ifndef LJ_ABI_SOFTFP
-#define LJ_ABI_SOFTFP		1
-#endif
-#define LJ_ABI_EABI		1
-#define LJ_TARGET_PPCSPE	1
-#define LJ_TARGET_EHRETREG	3
-#define LJ_TARGET_JUMPRANGE	25	/* +-2^25 = +-32MB */
-#define LJ_TARGET_MASKSHIFT	0
-#define LJ_TARGET_MASKROT	1
-#define LJ_TARGET_UNIFYROT	1	/* Want only IR_BROL. */
-#define LJ_ARCH_NUMMODE		LJ_NUMMODE_SINGLE
-#define LJ_ARCH_NOFFI		1	/* NYI: comparisons, calls. */
-#define LJ_ARCH_NOJIT		1
-
-#elif LUAJIT_TARGET == LUAJIT_ARCH_MIPS
-
-#if defined(__MIPSEL__) || defined(__MIPSEL) || defined(_MIPSEL)
-#define LJ_ARCH_NAME		"mipsel"
-#define LJ_ARCH_ENDIAN		LUAJIT_LE
-#else
-#define LJ_ARCH_NAME		"mips"
-#define LJ_ARCH_ENDIAN		LUAJIT_BE
-#endif
-#define LJ_ARCH_BITS		32
-#define LJ_TARGET_MIPS		1
-#define LJ_TARGET_EHRETREG	4
-#define LJ_TARGET_JUMPRANGE	27	/* 2*2^27 = 256MB-aligned region */
-#define LJ_TARGET_MASKSHIFT	1
-#define LJ_TARGET_MASKROT	1
-#define LJ_TARGET_UNIFYROT	2	/* Want only IR_BROR. */
-#define LJ_ARCH_NUMMODE		LJ_NUMMODE_SINGLE
-
-#if _MIPS_ARCH_MIPS32R2
-#define LJ_ARCH_VERSION		20
-#else
-#define LJ_ARCH_VERSION		10
-#endif
-
-#else
-#error "No target architecture defined"
-#endif
-
-#ifndef LJ_PAGESIZE
-#define LJ_PAGESIZE		4096
-#endif
-
-/* Check for minimum required compiler versions. */
-#if defined(__GNUC__)
-#if LJ_TARGET_X86
-#if (__GNUC__ < 3) || ((__GNUC__ == 3) && __GNUC_MINOR__ < 4)
-#error "Need at least GCC 3.4 or newer"
-#endif
-#elif LJ_TARGET_X64
-#if __GNUC__ < 4
-#error "Need at least GCC 4.0 or newer"
-#endif
-#elif LJ_TARGET_ARM
-#if (__GNUC__ < 4) || ((__GNUC__ == 4) && __GNUC_MINOR__ < 2)
-#error "Need at least GCC 4.2 or newer"
-#endif
-#elif !LJ_TARGET_PS3
-#if (__GNUC__ < 4) || ((__GNUC__ == 4) && __GNUC_MINOR__ < 3)
-#error "Need at least GCC 4.3 or newer"
-#endif
-#endif
-#endif
-
-/* Check target-specific constraints. */
-#ifndef _BUILDVM_H
-#if LJ_TARGET_X64
-#if __USING_SJLJ_EXCEPTIONS__
-#error "Need a C compiler with native exception handling on x64"
-#endif
-#elif LJ_TARGET_ARM
-#if defined(__ARMEB__)
-#error "No support for big-endian ARM"
-#endif
-#if __ARM_ARCH_6M__ || __ARM_ARCH_7M__ || __ARM_ARCH_7EM__
-#error "No support for Cortex-M CPUs"
-#endif
-#if !(__ARM_EABI__ || LJ_TARGET_IOS)
-#error "Only ARM EABI or iOS 3.0+ ABI is supported"
-#endif
-#elif LJ_TARGET_PPC || LJ_TARGET_PPCSPE
-#if defined(_SOFT_FLOAT) || defined(_SOFT_DOUBLE)
-#error "No support for PowerPC CPUs without double-precision FPU"
-#endif
-#if defined(_LITTLE_ENDIAN)
-#error "No support for little-endian PowerPC"
-#endif
-#if defined(_LP64)
-#error "No support for PowerPC 64 bit mode"
-#endif
-#elif LJ_TARGET_MIPS
-#if defined(__mips_soft_float)
-#error "No support for MIPS CPUs without FPU"
-#endif
-#endif
-#endif
-
-/* Enable or disable the dual-number mode for the VM. */
-#if (LJ_ARCH_NUMMODE == LJ_NUMMODE_SINGLE && LUAJIT_NUMMODE == 2) || \
-    (LJ_ARCH_NUMMODE == LJ_NUMMODE_DUAL && LUAJIT_NUMMODE == 1)
-#error "No support for this number mode on this architecture"
-#endif
-#if LJ_ARCH_NUMMODE == LJ_NUMMODE_DUAL || \
-    (LJ_ARCH_NUMMODE == LJ_NUMMODE_DUAL_SINGLE && LUAJIT_NUMMODE != 1) || \
-    (LJ_ARCH_NUMMODE == LJ_NUMMODE_SINGLE_DUAL && LUAJIT_NUMMODE == 2)
-#define LJ_DUALNUM		1
-#else
-#define LJ_DUALNUM		0
-#endif
-
-#if LJ_TARGET_IOS || LJ_TARGET_CONSOLE
-/* Runtime code generation is restricted on iOS. Complain to Apple, not me. */
-/* Ditto for the consoles. Complain to Sony or MS, not me. */
-#ifndef LUAJIT_ENABLE_JIT
-#define LJ_OS_NOJIT		1
-#endif
-#endif
-
-/* Disable or enable the JIT compiler. */
-#if defined(LUAJIT_DISABLE_JIT) || defined(LJ_ARCH_NOJIT) || defined(LJ_OS_NOJIT)
-#define LJ_HASJIT		0
-#else
-#define LJ_HASJIT		1
-#endif
-
-/* Disable or enable the FFI extension. */
-#if defined(LUAJIT_DISABLE_FFI) || defined(LJ_ARCH_NOFFI)
-#define LJ_HASFFI		0
-#else
-#define LJ_HASFFI		1
-#endif
-
-#ifndef LJ_ARCH_HASFPU
-#define LJ_ARCH_HASFPU		1
-#endif
-#ifndef LJ_ABI_SOFTFP
-#define LJ_ABI_SOFTFP		0
-#endif
-#define LJ_SOFTFP		(!LJ_ARCH_HASFPU)
-
-#if LJ_ARCH_ENDIAN == LUAJIT_BE
-#define LJ_LE			0
-#define LJ_BE			1
-#define LJ_ENDIAN_SELECT(le, be)	be
-#define LJ_ENDIAN_LOHI(lo, hi)		hi lo
-#else
-#define LJ_LE			1
-#define LJ_BE			0
-#define LJ_ENDIAN_SELECT(le, be)	le
-#define LJ_ENDIAN_LOHI(lo, hi)		lo hi
-#endif
-
-#if LJ_ARCH_BITS == 32
-#define LJ_32			1
-#define LJ_64			0
-#else
-#define LJ_32			0
-#define LJ_64			1
-#endif
-
-#ifndef LJ_TARGET_UNALIGNED
-#define LJ_TARGET_UNALIGNED	0
-#endif
-
-/* Various workarounds for embedded operating systems. */
-#if (defined(__ANDROID__) && !defined(LJ_TARGET_X86ORX64)) || defined(__symbian__) || LJ_TARGET_XBOX360
-#define LUAJIT_NO_LOG2
-#endif
-#if defined(__symbian__)
-#define LUAJIT_NO_EXP2
-#endif
-
-#if defined(LUAJIT_NO_UNWIND) || defined(__symbian__) || LJ_TARGET_IOS || LJ_TARGET_PS3
-#define LJ_NO_UNWIND		1
-#endif
-
-/* Compatibility with Lua 5.1 vs. 5.2. */
-#ifdef LUAJIT_ENABLE_LUA52COMPAT
-#define LJ_52			1
-#else
-#define LJ_52			0
-#endif
-
-#endif
diff --git a/luajit-2.0/src/lj_asm.c b/luajit-2.0/src/lj_asm.c
deleted file mode 100644
index 2afa92d..0000000
--- a/luajit-2.0/src/lj_asm.c
+++ /dev/null
@@ -1,1915 +0,0 @@
-/*
-** IR assembler (SSA IR -> machine code).
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#define lj_asm_c
-#define LUA_CORE
-
-#include "lj_obj.h"
-
-#if LJ_HASJIT
-
-#include "lj_gc.h"
-#include "lj_str.h"
-#include "lj_tab.h"
-#include "lj_frame.h"
-#if LJ_HASFFI
-#include "lj_ctype.h"
-#endif
-#include "lj_ir.h"
-#include "lj_jit.h"
-#include "lj_ircall.h"
-#include "lj_iropt.h"
-#include "lj_mcode.h"
-#include "lj_iropt.h"
-#include "lj_trace.h"
-#include "lj_snap.h"
-#include "lj_asm.h"
-#include "lj_dispatch.h"
-#include "lj_vm.h"
-#include "lj_target.h"
-
-#ifdef LUA_USE_ASSERT
-#include <stdio.h>
-#endif
-
-/* -- Assembler state and common macros ----------------------------------- */
-
-/* Assembler state. */
-typedef struct ASMState {
-  RegCost cost[RID_MAX];  /* Reference and blended allocation cost for regs. */
-
-  MCode *mcp;		/* Current MCode pointer (grows down). */
-  MCode *mclim;		/* Lower limit for MCode memory + red zone. */
-#ifdef LUA_USE_ASSERT
-  MCode *mcp_prev;	/* Red zone overflow check. */
-#endif
-
-  IRIns *ir;		/* Copy of pointer to IR instructions/constants. */
-  jit_State *J;		/* JIT compiler state. */
-
-#if LJ_TARGET_X86ORX64
-  x86ModRM mrm;		/* Fused x86 address operand. */
-#endif
-
-  RegSet freeset;	/* Set of free registers. */
-  RegSet modset;	/* Set of registers modified inside the loop. */
-  RegSet weakset;	/* Set of weakly referenced registers. */
-  RegSet phiset;	/* Set of PHI registers. */
-
-  uint32_t flags;	/* Copy of JIT compiler flags. */
-  int loopinv;		/* Loop branch inversion (0:no, 1:yes, 2:yes+CC_P). */
-
-  int32_t evenspill;	/* Next even spill slot. */
-  int32_t oddspill;	/* Next odd spill slot (or 0). */
-
-  IRRef curins;		/* Reference of current instruction. */
-  IRRef stopins;	/* Stop assembly before hitting this instruction. */
-  IRRef orignins;	/* Original T->nins. */
-
-  IRRef snapref;	/* Current snapshot is active after this reference. */
-  IRRef snaprename;	/* Rename highwater mark for snapshot check. */
-  SnapNo snapno;	/* Current snapshot number. */
-  SnapNo loopsnapno;	/* Loop snapshot number. */
-
-  IRRef fuseref;	/* Fusion limit (loopref, 0 or FUSE_DISABLED). */
-  IRRef sectref;	/* Section base reference (loopref or 0). */
-  IRRef loopref;	/* Reference of LOOP instruction (or 0). */
-
-  BCReg topslot;	/* Number of slots for stack check (unless 0). */
-  int32_t gcsteps;	/* Accumulated number of GC steps (per section). */
-
-  GCtrace *T;		/* Trace to assemble. */
-  GCtrace *parent;	/* Parent trace (or NULL). */
-
-  MCode *mcbot;		/* Bottom of reserved MCode. */
-  MCode *mctop;		/* Top of generated MCode. */
-  MCode *mcloop;	/* Pointer to loop MCode (or NULL). */
-  MCode *invmcp;	/* Points to invertible loop branch (or NULL). */
-  MCode *flagmcp;	/* Pending opportunity to merge flag setting ins. */
-  MCode *realign;	/* Realign loop if not NULL. */
-
-#ifdef RID_NUM_KREF
-  int32_t krefk[RID_NUM_KREF];
-#endif
-  IRRef1 phireg[RID_MAX];  /* PHI register references. */
-  uint16_t parentmap[LJ_MAX_JSLOTS];  /* Parent instruction to RegSP map. */
-} ASMState;
-
-#define IR(ref)			(&as->ir[(ref)])
-
-#define ASMREF_TMP1		REF_TRUE	/* Temp. register. */
-#define ASMREF_TMP2		REF_FALSE	/* Temp. register. */
-#define ASMREF_L		REF_NIL		/* Stores register for L. */
-
-/* Check for variant to invariant references. */
-#define iscrossref(as, ref)	((ref) < as->sectref)
-
-/* Inhibit memory op fusion from variant to invariant references. */
-#define FUSE_DISABLED		(~(IRRef)0)
-#define mayfuse(as, ref)	((ref) > as->fuseref)
-#define neverfuse(as)		(as->fuseref == FUSE_DISABLED)
-#define canfuse(as, ir)		(!neverfuse(as) && !irt_isphi((ir)->t))
-#define opisfusableload(o) \
-  ((o) == IR_ALOAD || (o) == IR_HLOAD || (o) == IR_ULOAD || \
-   (o) == IR_FLOAD || (o) == IR_XLOAD || (o) == IR_SLOAD || (o) == IR_VLOAD)
-
-/* Sparse limit checks using a red zone before the actual limit. */
-#define MCLIM_REDZONE	64
-
-static LJ_NORET LJ_NOINLINE void asm_mclimit(ASMState *as)
-{
-  lj_mcode_limiterr(as->J, (size_t)(as->mctop - as->mcp + 4*MCLIM_REDZONE));
-}
-
-static LJ_AINLINE void checkmclim(ASMState *as)
-{
-#ifdef LUA_USE_ASSERT
-  if (as->mcp + MCLIM_REDZONE < as->mcp_prev) {
-    IRIns *ir = IR(as->curins+1);
-    fprintf(stderr, "RED ZONE OVERFLOW: %p IR %04d  %02d %04d %04d\n", as->mcp,
-	    as->curins+1-REF_BIAS, ir->o, ir->op1-REF_BIAS, ir->op2-REF_BIAS);
-    lua_assert(0);
-  }
-#endif
-  if (LJ_UNLIKELY(as->mcp < as->mclim)) asm_mclimit(as);
-#ifdef LUA_USE_ASSERT
-  as->mcp_prev = as->mcp;
-#endif
-}
-
-#ifdef RID_NUM_KREF
-#define ra_iskref(ref)		((ref) < RID_NUM_KREF)
-#define ra_krefreg(ref)		((Reg)(RID_MIN_KREF + (Reg)(ref)))
-#define ra_krefk(as, ref)	(as->krefk[(ref)])
-
-static LJ_AINLINE void ra_setkref(ASMState *as, Reg r, int32_t k)
-{
-  IRRef ref = (IRRef)(r - RID_MIN_KREF);
-  as->krefk[ref] = k;
-  as->cost[r] = REGCOST(ref, ref);
-}
-
-#else
-#define ra_iskref(ref)		0
-#define ra_krefreg(ref)		RID_MIN_GPR
-#define ra_krefk(as, ref)	0
-#endif
-
-/* Arch-specific field offsets. */
-static const uint8_t field_ofs[IRFL__MAX+1] = {
-#define FLOFS(name, ofs)	(uint8_t)(ofs),
-IRFLDEF(FLOFS)
-#undef FLOFS
-  0
-};
-
-/* -- Target-specific instruction emitter --------------------------------- */
-
-#if LJ_TARGET_X86ORX64
-#include "lj_emit_x86.h"
-#elif LJ_TARGET_ARM
-#include "lj_emit_arm.h"
-#elif LJ_TARGET_PPC
-#include "lj_emit_ppc.h"
-#elif LJ_TARGET_MIPS
-#include "lj_emit_mips.h"
-#else
-#error "Missing instruction emitter for target CPU"
-#endif
-
-/* -- Register allocator debugging ---------------------------------------- */
-
-/* #define LUAJIT_DEBUG_RA */
-
-#ifdef LUAJIT_DEBUG_RA
-
-#include <stdio.h>
-#include <stdarg.h>
-
-#define RIDNAME(name)	#name,
-static const char *const ra_regname[] = {
-  GPRDEF(RIDNAME)
-  FPRDEF(RIDNAME)
-  VRIDDEF(RIDNAME)
-  NULL
-};
-#undef RIDNAME
-
-static char ra_dbg_buf[65536];
-static char *ra_dbg_p;
-static char *ra_dbg_merge;
-static MCode *ra_dbg_mcp;
-
-static void ra_dstart(void)
-{
-  ra_dbg_p = ra_dbg_buf;
-  ra_dbg_merge = NULL;
-  ra_dbg_mcp = NULL;
-}
-
-static void ra_dflush(void)
-{
-  fwrite(ra_dbg_buf, 1, (size_t)(ra_dbg_p-ra_dbg_buf), stdout);
-  ra_dstart();
-}
-
-static void ra_dprintf(ASMState *as, const char *fmt, ...)
-{
-  char *p;
-  va_list argp;
-  va_start(argp, fmt);
-  p = ra_dbg_mcp == as->mcp ? ra_dbg_merge : ra_dbg_p;
-  ra_dbg_mcp = NULL;
-  p += sprintf(p, "%08x  \e[36m%04d ", (uintptr_t)as->mcp, as->curins-REF_BIAS);
-  for (;;) {
-    const char *e = strchr(fmt, '$');
-    if (e == NULL) break;
-    memcpy(p, fmt, (size_t)(e-fmt));
-    p += e-fmt;
-    if (e[1] == 'r') {
-      Reg r = va_arg(argp, Reg) & RID_MASK;
-      if (r <= RID_MAX) {
-	const char *q;
-	for (q = ra_regname[r]; *q; q++)
-	  *p++ = *q >= 'A' && *q <= 'Z' ? *q + 0x20 : *q;
-      } else {
-	*p++ = '?';
-	lua_assert(0);
-      }
-    } else if (e[1] == 'f' || e[1] == 'i') {
-      IRRef ref;
-      if (e[1] == 'f')
-	ref = va_arg(argp, IRRef);
-      else
-	ref = va_arg(argp, IRIns *) - as->ir;
-      if (ref >= REF_BIAS)
-	p += sprintf(p, "%04d", ref - REF_BIAS);
-      else
-	p += sprintf(p, "K%03d", REF_BIAS - ref);
-    } else if (e[1] == 's') {
-      uint32_t slot = va_arg(argp, uint32_t);
-      p += sprintf(p, "[sp+0x%x]", sps_scale(slot));
-    } else if (e[1] == 'x') {
-      p += sprintf(p, "%08x", va_arg(argp, int32_t));
-    } else {
-      lua_assert(0);
-    }
-    fmt = e+2;
-  }
-  va_end(argp);
-  while (*fmt)
-    *p++ = *fmt++;
-  *p++ = '\e'; *p++ = '['; *p++ = 'm'; *p++ = '\n';
-  if (p > ra_dbg_buf+sizeof(ra_dbg_buf)-256) {
-    fwrite(ra_dbg_buf, 1, (size_t)(p-ra_dbg_buf), stdout);
-    p = ra_dbg_buf;
-  }
-  ra_dbg_p = p;
-}
-
-#define RA_DBG_START()	ra_dstart()
-#define RA_DBG_FLUSH()	ra_dflush()
-#define RA_DBG_REF() \
-  do { char *_p = ra_dbg_p; ra_dprintf(as, ""); \
-       ra_dbg_merge = _p; ra_dbg_mcp = as->mcp; } while (0)
-#define RA_DBGX(x)	ra_dprintf x
-
-#else
-#define RA_DBG_START()	((void)0)
-#define RA_DBG_FLUSH()	((void)0)
-#define RA_DBG_REF()	((void)0)
-#define RA_DBGX(x)	((void)0)
-#endif
-
-/* -- Register allocator -------------------------------------------------- */
-
-#define ra_free(as, r)		rset_set(as->freeset, (r))
-#define ra_modified(as, r)	rset_set(as->modset, (r))
-#define ra_weak(as, r)		rset_set(as->weakset, (r))
-#define ra_noweak(as, r)	rset_clear(as->weakset, (r))
-
-#define ra_used(ir)		(ra_hasreg((ir)->r) || ra_hasspill((ir)->s))
-
-/* Setup register allocator. */
-static void ra_setup(ASMState *as)
-{
-  Reg r;
-  /* Initially all regs (except the stack pointer) are free for use. */
-  as->freeset = RSET_INIT;
-  as->modset = RSET_EMPTY;
-  as->weakset = RSET_EMPTY;
-  as->phiset = RSET_EMPTY;
-  memset(as->phireg, 0, sizeof(as->phireg));
-  for (r = RID_MIN_GPR; r < RID_MAX; r++)
-    as->cost[r] = REGCOST(~0u, 0u);
-}
-
-/* Rematerialize constants. */
-static Reg ra_rematk(ASMState *as, IRRef ref)
-{
-  IRIns *ir;
-  Reg r;
-  if (ra_iskref(ref)) {
-    r = ra_krefreg(ref);
-    lua_assert(!rset_test(as->freeset, r));
-    ra_free(as, r);
-    ra_modified(as, r);
-    emit_loadi(as, r, ra_krefk(as, ref));
-    return r;
-  }
-  ir = IR(ref);
-  r = ir->r;
-  lua_assert(ra_hasreg(r) && !ra_hasspill(ir->s));
-  ra_free(as, r);
-  ra_modified(as, r);
-  ir->r = RID_INIT;  /* Do not keep any hint. */
-  RA_DBGX((as, "remat     $i $r", ir, r));
-#if !LJ_SOFTFP
-  if (ir->o == IR_KNUM) {
-    emit_loadn(as, r, ir_knum(ir));
-  } else
-#endif
-  if (emit_canremat(REF_BASE) && ir->o == IR_BASE) {
-    ra_sethint(ir->r, RID_BASE);  /* Restore BASE register hint. */
-    emit_getgl(as, r, jit_base);
-  } else if (emit_canremat(ASMREF_L) && ir->o == IR_KPRI) {
-    lua_assert(irt_isnil(ir->t));  /* REF_NIL stores ASMREF_L register. */
-    emit_getgl(as, r, jit_L);
-#if LJ_64
-  } else if (ir->o == IR_KINT64) {
-    emit_loadu64(as, r, ir_kint64(ir)->u64);
-#endif
-  } else {
-    lua_assert(ir->o == IR_KINT || ir->o == IR_KGC ||
-	       ir->o == IR_KPTR || ir->o == IR_KKPTR || ir->o == IR_KNULL);
-    emit_loadi(as, r, ir->i);
-  }
-  return r;
-}
-
-/* Force a spill. Allocate a new spill slot if needed. */
-static int32_t ra_spill(ASMState *as, IRIns *ir)
-{
-  int32_t slot = ir->s;
-  lua_assert(ir >= as->ir + REF_TRUE);
-  if (!ra_hasspill(slot)) {
-    if (irt_is64(ir->t)) {
-      slot = as->evenspill;
-      as->evenspill += 2;
-    } else if (as->oddspill) {
-      slot = as->oddspill;
-      as->oddspill = 0;
-    } else {
-      slot = as->evenspill;
-      as->oddspill = slot+1;
-      as->evenspill += 2;
-    }
-    if (as->evenspill > 256)
-      lj_trace_err(as->J, LJ_TRERR_SPILLOV);
-    ir->s = (uint8_t)slot;
-  }
-  return sps_scale(slot);
-}
-
-/* Release the temporarily allocated register in ASMREF_TMP1/ASMREF_TMP2. */
-static Reg ra_releasetmp(ASMState *as, IRRef ref)
-{
-  IRIns *ir = IR(ref);
-  Reg r = ir->r;
-  lua_assert(ra_hasreg(r) && !ra_hasspill(ir->s));
-  ra_free(as, r);
-  ra_modified(as, r);
-  ir->r = RID_INIT;
-  return r;
-}
-
-/* Restore a register (marked as free). Rematerialize or force a spill. */
-static Reg ra_restore(ASMState *as, IRRef ref)
-{
-  if (emit_canremat(ref)) {
-    return ra_rematk(as, ref);
-  } else {
-    IRIns *ir = IR(ref);
-    int32_t ofs = ra_spill(as, ir);  /* Force a spill slot. */
-    Reg r = ir->r;
-    lua_assert(ra_hasreg(r));
-    ra_sethint(ir->r, r);  /* Keep hint. */
-    ra_free(as, r);
-    if (!rset_test(as->weakset, r)) {  /* Only restore non-weak references. */
-      ra_modified(as, r);
-      RA_DBGX((as, "restore   $i $r", ir, r));
-      emit_spload(as, ir, r, ofs);
-    }
-    return r;
-  }
-}
-
-/* Save a register to a spill slot. */
-static void ra_save(ASMState *as, IRIns *ir, Reg r)
-{
-  RA_DBGX((as, "save      $i $r", ir, r));
-  emit_spstore(as, ir, r, sps_scale(ir->s));
-}
-
-#define MINCOST(name) \
-  if (rset_test(RSET_ALL, RID_##name) && \
-      LJ_LIKELY(allow&RID2RSET(RID_##name)) && as->cost[RID_##name] < cost) \
-    cost = as->cost[RID_##name];
-
-/* Evict the register with the lowest cost, forcing a restore. */
-static Reg ra_evict(ASMState *as, RegSet allow)
-{
-  IRRef ref;
-  RegCost cost = ~(RegCost)0;
-  lua_assert(allow != RSET_EMPTY);
-  if (RID_NUM_FPR == 0 || allow < RID2RSET(RID_MAX_GPR)) {
-    GPRDEF(MINCOST)
-  } else {
-    FPRDEF(MINCOST)
-  }
-  ref = regcost_ref(cost);
-  lua_assert(ra_iskref(ref) || (ref >= as->T->nk && ref < as->T->nins));
-  /* Preferably pick any weak ref instead of a non-weak, non-const ref. */
-  if (!irref_isk(ref) && (as->weakset & allow)) {
-    IRIns *ir = IR(ref);
-    if (!rset_test(as->weakset, ir->r))
-      ref = regcost_ref(as->cost[rset_pickbot((as->weakset & allow))]);
-  }
-  return ra_restore(as, ref);
-}
-
-/* Pick any register (marked as free). Evict on-demand. */
-static Reg ra_pick(ASMState *as, RegSet allow)
-{
-  RegSet pick = as->freeset & allow;
-  if (!pick)
-    return ra_evict(as, allow);
-  else
-    return rset_picktop(pick);
-}
-
-/* Get a scratch register (marked as free). */
-static Reg ra_scratch(ASMState *as, RegSet allow)
-{
-  Reg r = ra_pick(as, allow);
-  ra_modified(as, r);
-  RA_DBGX((as, "scratch        $r", r));
-  return r;
-}
-
-/* Evict all registers from a set (if not free). */
-static void ra_evictset(ASMState *as, RegSet drop)
-{
-  RegSet work;
-  as->modset |= drop;
-#if !LJ_SOFTFP
-  work = (drop & ~as->freeset) & RSET_FPR;
-  while (work) {
-    Reg r = rset_pickbot(work);
-    ra_restore(as, regcost_ref(as->cost[r]));
-    rset_clear(work, r);
-    checkmclim(as);
-  }
-#endif
-  work = (drop & ~as->freeset);
-  while (work) {
-    Reg r = rset_pickbot(work);
-    ra_restore(as, regcost_ref(as->cost[r]));
-    rset_clear(work, r);
-    checkmclim(as);
-  }
-}
-
-/* Evict (rematerialize) all registers allocated to constants. */
-static void ra_evictk(ASMState *as)
-{
-  RegSet work;
-#if !LJ_SOFTFP
-  work = ~as->freeset & RSET_FPR;
-  while (work) {
-    Reg r = rset_pickbot(work);
-    IRRef ref = regcost_ref(as->cost[r]);
-    if (emit_canremat(ref) && irref_isk(ref)) {
-      ra_rematk(as, ref);
-      checkmclim(as);
-    }
-    rset_clear(work, r);
-  }
-#endif
-  work = ~as->freeset & RSET_GPR;
-  while (work) {
-    Reg r = rset_pickbot(work);
-    IRRef ref = regcost_ref(as->cost[r]);
-    if (emit_canremat(ref) && irref_isk(ref)) {
-      ra_rematk(as, ref);
-      checkmclim(as);
-    }
-    rset_clear(work, r);
-  }
-}
-
-#ifdef RID_NUM_KREF
-/* Allocate a register for a constant. */
-static Reg ra_allock(ASMState *as, int32_t k, RegSet allow)
-{
-  /* First try to find a register which already holds the same constant. */
-  RegSet pick, work = ~as->freeset & RSET_GPR;
-  Reg r;
-  while (work) {
-    IRRef ref;
-    r = rset_pickbot(work);
-    ref = regcost_ref(as->cost[r]);
-    if (ref < ASMREF_L &&
-	k == (ra_iskref(ref) ? ra_krefk(as, ref) : IR(ref)->i))
-      return r;
-    rset_clear(work, r);
-  }
-  pick = as->freeset & allow;
-  if (pick) {
-    /* Constants should preferably get unmodified registers. */
-    if ((pick & ~as->modset))
-      pick &= ~as->modset;
-    r = rset_pickbot(pick);  /* Reduce conflicts with inverse allocation. */
-  } else {
-    r = ra_evict(as, allow);
-  }
-  RA_DBGX((as, "allock    $x $r", k, r));
-  ra_setkref(as, r, k);
-  rset_clear(as->freeset, r);
-  ra_noweak(as, r);
-  return r;
-}
-
-/* Allocate a specific register for a constant. */
-static void ra_allockreg(ASMState *as, int32_t k, Reg r)
-{
-  Reg kr = ra_allock(as, k, RID2RSET(r));
-  if (kr != r) {
-    IRIns irdummy;
-    irdummy.t.irt = IRT_INT;
-    ra_scratch(as, RID2RSET(r));
-    emit_movrr(as, &irdummy, r, kr);
-  }
-}
-#else
-#define ra_allockreg(as, k, r)		emit_loadi(as, (r), (k))
-#endif
-
-/* Allocate a register for ref from the allowed set of registers.
-** Note: this function assumes the ref does NOT have a register yet!
-** Picks an optimal register, sets the cost and marks the register as non-free.
-*/
-static Reg ra_allocref(ASMState *as, IRRef ref, RegSet allow)
-{
-  IRIns *ir = IR(ref);
-  RegSet pick = as->freeset & allow;
-  Reg r;
-  lua_assert(ra_noreg(ir->r));
-  if (pick) {
-    /* First check register hint from propagation or PHI. */
-    if (ra_hashint(ir->r)) {
-      r = ra_gethint(ir->r);
-      if (rset_test(pick, r))  /* Use hint register if possible. */
-	goto found;
-      /* Rematerialization is cheaper than missing a hint. */
-      if (rset_test(allow, r) && emit_canremat(regcost_ref(as->cost[r]))) {
-	ra_rematk(as, regcost_ref(as->cost[r]));
-	goto found;
-      }
-      RA_DBGX((as, "hintmiss  $f $r", ref, r));
-    }
-    /* Invariants should preferably get unmodified registers. */
-    if (ref < as->loopref && !irt_isphi(ir->t)) {
-      if ((pick & ~as->modset))
-	pick &= ~as->modset;
-      r = rset_pickbot(pick);  /* Reduce conflicts with inverse allocation. */
-    } else {
-      /* We've got plenty of regs, so get callee-save regs if possible. */
-      if (RID_NUM_GPR > 8 && (pick & ~RSET_SCRATCH))
-	pick &= ~RSET_SCRATCH;
-      r = rset_picktop(pick);
-    }
-  } else {
-    r = ra_evict(as, allow);
-  }
-found:
-  RA_DBGX((as, "alloc     $f $r", ref, r));
-  ir->r = (uint8_t)r;
-  rset_clear(as->freeset, r);
-  ra_noweak(as, r);
-  as->cost[r] = REGCOST_REF_T(ref, irt_t(ir->t));
-  return r;
-}
-
-/* Allocate a register on-demand. */
-static Reg ra_alloc1(ASMState *as, IRRef ref, RegSet allow)
-{
-  Reg r = IR(ref)->r;
-  /* Note: allow is ignored if the register is already allocated. */
-  if (ra_noreg(r)) r = ra_allocref(as, ref, allow);
-  ra_noweak(as, r);
-  return r;
-}
-
-/* Rename register allocation and emit move. */
-static void ra_rename(ASMState *as, Reg down, Reg up)
-{
-  IRRef ren, ref = regcost_ref(as->cost[up] = as->cost[down]);
-  IRIns *ir = IR(ref);
-  ir->r = (uint8_t)up;
-  as->cost[down] = 0;
-  lua_assert((down < RID_MAX_GPR) == (up < RID_MAX_GPR));
-  lua_assert(!rset_test(as->freeset, down) && rset_test(as->freeset, up));
-  ra_free(as, down);  /* 'down' is free ... */
-  ra_modified(as, down);
-  rset_clear(as->freeset, up);  /* ... and 'up' is now allocated. */
-  ra_noweak(as, up);
-  RA_DBGX((as, "rename    $f $r $r", regcost_ref(as->cost[up]), down, up));
-  emit_movrr(as, ir, down, up);  /* Backwards codegen needs inverse move. */
-  if (!ra_hasspill(IR(ref)->s)) {  /* Add the rename to the IR. */
-    lj_ir_set(as->J, IRT(IR_RENAME, IRT_NIL), ref, as->snapno);
-    ren = tref_ref(lj_ir_emit(as->J));
-    as->ir = as->T->ir;  /* The IR may have been reallocated. */
-    IR(ren)->r = (uint8_t)down;
-    IR(ren)->s = SPS_NONE;
-  }
-}
-
-/* Pick a destination register (marked as free).
-** Caveat: allow is ignored if there's already a destination register.
-** Use ra_destreg() to get a specific register.
-*/
-static Reg ra_dest(ASMState *as, IRIns *ir, RegSet allow)
-{
-  Reg dest = ir->r;
-  if (ra_hasreg(dest)) {
-    ra_free(as, dest);
-    ra_modified(as, dest);
-  } else {
-    if (ra_hashint(dest) && rset_test((as->freeset&allow), ra_gethint(dest))) {
-      dest = ra_gethint(dest);
-      ra_modified(as, dest);
-      RA_DBGX((as, "dest           $r", dest));
-    } else {
-      dest = ra_scratch(as, allow);
-    }
-    ir->r = dest;
-  }
-  if (LJ_UNLIKELY(ra_hasspill(ir->s))) ra_save(as, ir, dest);
-  return dest;
-}
-
-/* Force a specific destination register (marked as free). */
-static void ra_destreg(ASMState *as, IRIns *ir, Reg r)
-{
-  Reg dest = ra_dest(as, ir, RID2RSET(r));
-  if (dest != r) {
-    lua_assert(rset_test(as->freeset, r));
-    ra_modified(as, r);
-    emit_movrr(as, ir, dest, r);
-  }
-}
-
-#if LJ_TARGET_X86ORX64
-/* Propagate dest register to left reference. Emit moves as needed.
-** This is a required fixup step for all 2-operand machine instructions.
-*/
-static void ra_left(ASMState *as, Reg dest, IRRef lref)
-{
-  IRIns *ir = IR(lref);
-  Reg left = ir->r;
-  if (ra_noreg(left)) {
-    if (irref_isk(lref)) {
-      if (ir->o == IR_KNUM) {
-	cTValue *tv = ir_knum(ir);
-	/* FP remat needs a load except for +0. Still better than eviction. */
-	if (tvispzero(tv) || !(as->freeset & RSET_FPR)) {
-	  emit_loadn(as, dest, tv);
-	  return;
-	}
-#if LJ_64
-      } else if (ir->o == IR_KINT64) {
-	emit_loadu64(as, dest, ir_kint64(ir)->u64);
-	return;
-#endif
-      } else {
-	lua_assert(ir->o == IR_KINT || ir->o == IR_KGC ||
-		   ir->o == IR_KPTR || ir->o == IR_KKPTR || ir->o == IR_KNULL);
-	emit_loadi(as, dest, ir->i);
-	return;
-      }
-    }
-    if (!ra_hashint(left) && !iscrossref(as, lref))
-      ra_sethint(ir->r, dest);  /* Propagate register hint. */
-    left = ra_allocref(as, lref, dest < RID_MAX_GPR ? RSET_GPR : RSET_FPR);
-  }
-  ra_noweak(as, left);
-  /* Move needed for true 3-operand instruction: y=a+b ==> y=a; y+=b. */
-  if (dest != left) {
-    /* Use register renaming if dest is the PHI reg. */
-    if (irt_isphi(ir->t) && as->phireg[dest] == lref) {
-      ra_modified(as, left);
-      ra_rename(as, left, dest);
-    } else {
-      emit_movrr(as, ir, dest, left);
-    }
-  }
-}
-#else
-/* Similar to ra_left, except we override any hints. */
-static void ra_leftov(ASMState *as, Reg dest, IRRef lref)
-{
-  IRIns *ir = IR(lref);
-  Reg left = ir->r;
-  if (ra_noreg(left)) {
-    ra_sethint(ir->r, dest);  /* Propagate register hint. */
-    left = ra_allocref(as, lref,
-		       (LJ_SOFTFP || dest < RID_MAX_GPR) ? RSET_GPR : RSET_FPR);
-  }
-  ra_noweak(as, left);
-  if (dest != left) {
-    /* Use register renaming if dest is the PHI reg. */
-    if (irt_isphi(ir->t) && as->phireg[dest] == lref) {
-      ra_modified(as, left);
-      ra_rename(as, left, dest);
-    } else {
-      emit_movrr(as, ir, dest, left);
-    }
-  }
-}
-#endif
-
-#if !LJ_64
-/* Force a RID_RETLO/RID_RETHI destination register pair (marked as free). */
-static void ra_destpair(ASMState *as, IRIns *ir)
-{
-  Reg destlo = ir->r, desthi = (ir+1)->r;
-  /* First spill unrelated refs blocking the destination registers. */
-  if (!rset_test(as->freeset, RID_RETLO) &&
-      destlo != RID_RETLO && desthi != RID_RETLO)
-    ra_restore(as, regcost_ref(as->cost[RID_RETLO]));
-  if (!rset_test(as->freeset, RID_RETHI) &&
-      destlo != RID_RETHI && desthi != RID_RETHI)
-    ra_restore(as, regcost_ref(as->cost[RID_RETHI]));
-  /* Next free the destination registers (if any). */
-  if (ra_hasreg(destlo)) {
-    ra_free(as, destlo);
-    ra_modified(as, destlo);
-  } else {
-    destlo = RID_RETLO;
-  }
-  if (ra_hasreg(desthi)) {
-    ra_free(as, desthi);
-    ra_modified(as, desthi);
-  } else {
-    desthi = RID_RETHI;
-  }
-  /* Check for conflicts and shuffle the registers as needed. */
-  if (destlo == RID_RETHI) {
-    if (desthi == RID_RETLO) {
-#if LJ_TARGET_X86
-      *--as->mcp = XI_XCHGa + RID_RETHI;
-#else
-      emit_movrr(as, ir, RID_RETHI, RID_TMP);
-      emit_movrr(as, ir, RID_RETLO, RID_RETHI);
-      emit_movrr(as, ir, RID_TMP, RID_RETLO);
-#endif
-    } else {
-      emit_movrr(as, ir, RID_RETHI, RID_RETLO);
-      if (desthi != RID_RETHI) emit_movrr(as, ir, desthi, RID_RETHI);
-    }
-  } else if (desthi == RID_RETLO) {
-    emit_movrr(as, ir, RID_RETLO, RID_RETHI);
-    if (destlo != RID_RETLO) emit_movrr(as, ir, destlo, RID_RETLO);
-  } else {
-    if (desthi != RID_RETHI) emit_movrr(as, ir, desthi, RID_RETHI);
-    if (destlo != RID_RETLO) emit_movrr(as, ir, destlo, RID_RETLO);
-  }
-  /* Restore spill slots (if any). */
-  if (ra_hasspill((ir+1)->s)) ra_save(as, ir+1, RID_RETHI);
-  if (ra_hasspill(ir->s)) ra_save(as, ir, RID_RETLO);
-}
-#endif
-
-/* -- Snapshot handling --------- ----------------------------------------- */
-
-/* Can we rematerialize a KNUM instead of forcing a spill? */
-static int asm_snap_canremat(ASMState *as)
-{
-  Reg r;
-  for (r = RID_MIN_FPR; r < RID_MAX_FPR; r++)
-    if (irref_isk(regcost_ref(as->cost[r])))
-      return 1;
-  return 0;
-}
-
-/* Check whether a sunk store corresponds to an allocation. */
-static int asm_sunk_store(ASMState *as, IRIns *ira, IRIns *irs)
-{
-  if (irs->s == 255) {
-    if (irs->o == IR_ASTORE || irs->o == IR_HSTORE ||
-	irs->o == IR_FSTORE || irs->o == IR_XSTORE) {
-      IRIns *irk = IR(irs->op1);
-      if (irk->o == IR_AREF || irk->o == IR_HREFK)
-	irk = IR(irk->op1);
-      return (IR(irk->op1) == ira);
-    }
-    return 0;
-  } else {
-    return (ira + irs->s == irs);  /* Quick check. */
-  }
-}
-
-/* Allocate register or spill slot for a ref that escapes to a snapshot. */
-static void asm_snap_alloc1(ASMState *as, IRRef ref)
-{
-  IRIns *ir = IR(ref);
-  if (!irref_isk(ref) && (!(ra_used(ir) || ir->r == RID_SUNK))) {
-    if (ir->r == RID_SINK) {
-      ir->r = RID_SUNK;
-#if LJ_HASFFI
-      if (ir->o == IR_CNEWI) {  /* Allocate CNEWI value. */
-	asm_snap_alloc1(as, ir->op2);
-	if (LJ_32 && (ir+1)->o == IR_HIOP)
-	  asm_snap_alloc1(as, (ir+1)->op2);
-      } else
-#endif
-      {  /* Allocate stored values for TNEW, TDUP and CNEW. */
-	IRIns *irs;
-	lua_assert(ir->o == IR_TNEW || ir->o == IR_TDUP || ir->o == IR_CNEW);
-	for (irs = IR(as->snapref-1); irs > ir; irs--)
-	  if (irs->r == RID_SINK && asm_sunk_store(as, ir, irs)) {
-	    lua_assert(irs->o == IR_ASTORE || irs->o == IR_HSTORE ||
-		       irs->o == IR_FSTORE || irs->o == IR_XSTORE);
-	    asm_snap_alloc1(as, irs->op2);
-	    if (LJ_32 && (irs+1)->o == IR_HIOP)
-	      asm_snap_alloc1(as, (irs+1)->op2);
-	  }
-      }
-    } else {
-      RegSet allow;
-      if (ir->o == IR_CONV && ir->op2 == IRCONV_NUM_INT) {
-	IRIns *irc;
-	for (irc = IR(as->curins); irc > ir; irc--)
-	  if ((irc->op1 == ref || irc->op2 == ref) &&
-	      !(irc->r == RID_SINK || irc->r == RID_SUNK))
-	    goto nosink;  /* Don't sink conversion if result is used. */
-	asm_snap_alloc1(as, ir->op1);
-	return;
-      }
-    nosink:
-      allow = (!LJ_SOFTFP && irt_isfp(ir->t)) ? RSET_FPR : RSET_GPR;
-      if ((as->freeset & allow) ||
-	       (allow == RSET_FPR && asm_snap_canremat(as))) {
-	/* Get a weak register if we have a free one or can rematerialize. */
-	Reg r = ra_allocref(as, ref, allow);  /* Allocate a register. */
-	if (!irt_isphi(ir->t))
-	  ra_weak(as, r);  /* But mark it as weakly referenced. */
-	checkmclim(as);
-	RA_DBGX((as, "snapreg   $f $r", ref, ir->r));
-      } else {
-	ra_spill(as, ir);  /* Otherwise force a spill slot. */
-	RA_DBGX((as, "snapspill $f $s", ref, ir->s));
-      }
-    }
-  }
-}
-
-/* Allocate refs escaping to a snapshot. */
-static void asm_snap_alloc(ASMState *as)
-{
-  SnapShot *snap = &as->T->snap[as->snapno];
-  SnapEntry *map = &as->T->snapmap[snap->mapofs];
-  MSize n, nent = snap->nent;
-  for (n = 0; n < nent; n++) {
-    SnapEntry sn = map[n];
-    IRRef ref = snap_ref(sn);
-    if (!irref_isk(ref)) {
-      asm_snap_alloc1(as, ref);
-      if (LJ_SOFTFP && (sn & SNAP_SOFTFPNUM)) {
-	lua_assert(irt_type(IR(ref+1)->t) == IRT_SOFTFP);
-	asm_snap_alloc1(as, ref+1);
-      }
-    }
-  }
-}
-
-/* All guards for a snapshot use the same exitno. This is currently the
-** same as the snapshot number. Since the exact origin of the exit cannot
-** be determined, all guards for the same snapshot must exit with the same
-** RegSP mapping.
-** A renamed ref which has been used in a prior guard for the same snapshot
-** would cause an inconsistency. The easy way out is to force a spill slot.
-*/
-static int asm_snap_checkrename(ASMState *as, IRRef ren)
-{
-  SnapShot *snap = &as->T->snap[as->snapno];
-  SnapEntry *map = &as->T->snapmap[snap->mapofs];
-  MSize n, nent = snap->nent;
-  for (n = 0; n < nent; n++) {
-    SnapEntry sn = map[n];
-    IRRef ref = snap_ref(sn);
-    if (ref == ren || (LJ_SOFTFP && (sn & SNAP_SOFTFPNUM) && ++ref == ren)) {
-      IRIns *ir = IR(ref);
-      ra_spill(as, ir);  /* Register renamed, so force a spill slot. */
-      RA_DBGX((as, "snaprensp $f $s", ref, ir->s));
-      return 1;  /* Found. */
-    }
-  }
-  return 0;  /* Not found. */
-}
-
-/* Prepare snapshot for next guard instruction. */
-static void asm_snap_prep(ASMState *as)
-{
-  if (as->curins < as->snapref) {
-    do {
-      if (as->snapno == 0) return;  /* Called by sunk stores before snap #0. */
-      as->snapno--;
-      as->snapref = as->T->snap[as->snapno].ref;
-    } while (as->curins < as->snapref);
-    asm_snap_alloc(as);
-    as->snaprename = as->T->nins;
-  } else {
-    /* Process any renames above the highwater mark. */
-    for (; as->snaprename < as->T->nins; as->snaprename++) {
-      IRIns *ir = IR(as->snaprename);
-      if (asm_snap_checkrename(as, ir->op1))
-	ir->op2 = REF_BIAS-1;  /* Kill rename. */
-    }
-  }
-}
-
-/* -- Miscellaneous helpers ----------------------------------------------- */
-
-/* Collect arguments from CALL* and CARG instructions. */
-static void asm_collectargs(ASMState *as, IRIns *ir,
-			    const CCallInfo *ci, IRRef *args)
-{
-  uint32_t n = CCI_NARGS(ci);
-  lua_assert(n <= CCI_NARGS_MAX*2);  /* Account for split args. */
-  if ((ci->flags & CCI_L)) { *args++ = ASMREF_L; n--; }
-  while (n-- > 1) {
-    ir = IR(ir->op1);
-    lua_assert(ir->o == IR_CARG);
-    args[n] = ir->op2 == REF_NIL ? 0 : ir->op2;
-  }
-  args[0] = ir->op1 == REF_NIL ? 0 : ir->op1;
-  lua_assert(IR(ir->op1)->o != IR_CARG);
-}
-
-/* Reconstruct CCallInfo flags for CALLX*. */
-static uint32_t asm_callx_flags(ASMState *as, IRIns *ir)
-{
-  uint32_t nargs = 0;
-  if (ir->op1 != REF_NIL) {  /* Count number of arguments first. */
-    IRIns *ira = IR(ir->op1);
-    nargs++;
-    while (ira->o == IR_CARG) { nargs++; ira = IR(ira->op1); }
-  }
-#if LJ_HASFFI
-  if (IR(ir->op2)->o == IR_CARG) {  /* Copy calling convention info. */
-    CTypeID id = (CTypeID)IR(IR(ir->op2)->op2)->i;
-    CType *ct = ctype_get(ctype_ctsG(J2G(as->J)), id);
-    nargs |= ((ct->info & CTF_VARARG) ? CCI_VARARG : 0);
-#if LJ_TARGET_X86
-    nargs |= (ctype_cconv(ct->info) << CCI_CC_SHIFT);
-#endif
-  }
-#endif
-  return (nargs | (ir->t.irt << CCI_OTSHIFT));
-}
-
-/* Calculate stack adjustment. */
-static int32_t asm_stack_adjust(ASMState *as)
-{
-  if (as->evenspill <= SPS_FIXED)
-    return 0;
-  return sps_scale(sps_align(as->evenspill));
-}
-
-/* Must match with hash*() in lj_tab.c. */
-static uint32_t ir_khash(IRIns *ir)
-{
-  uint32_t lo, hi;
-  if (irt_isstr(ir->t)) {
-    return ir_kstr(ir)->hash;
-  } else if (irt_isnum(ir->t)) {
-    lo = ir_knum(ir)->u32.lo;
-    hi = ir_knum(ir)->u32.hi << 1;
-  } else if (irt_ispri(ir->t)) {
-    lua_assert(!irt_isnil(ir->t));
-    return irt_type(ir->t)-IRT_FALSE;
-  } else {
-    lua_assert(irt_isgcv(ir->t));
-    lo = u32ptr(ir_kgc(ir));
-    hi = lo + HASH_BIAS;
-  }
-  return hashrot(lo, hi);
-}
-
-/* -- Allocations --------------------------------------------------------- */
-
-static void asm_gencall(ASMState *as, const CCallInfo *ci, IRRef *args);
-static void asm_setupresult(ASMState *as, IRIns *ir, const CCallInfo *ci);
-
-static void asm_snew(ASMState *as, IRIns *ir)
-{
-  const CCallInfo *ci = &lj_ir_callinfo[IRCALL_lj_str_new];
-  IRRef args[3];
-  args[0] = ASMREF_L;  /* lua_State *L    */
-  args[1] = ir->op1;   /* const char *str */
-  args[2] = ir->op2;   /* size_t len      */
-  as->gcsteps++;
-  asm_setupresult(as, ir, ci);  /* GCstr * */
-  asm_gencall(as, ci, args);
-}
-
-static void asm_tnew(ASMState *as, IRIns *ir)
-{
-  const CCallInfo *ci = &lj_ir_callinfo[IRCALL_lj_tab_new1];
-  IRRef args[2];
-  args[0] = ASMREF_L;     /* lua_State *L    */
-  args[1] = ASMREF_TMP1;  /* uint32_t ahsize */
-  as->gcsteps++;
-  asm_setupresult(as, ir, ci);  /* GCtab * */
-  asm_gencall(as, ci, args);
-  ra_allockreg(as, ir->op1 | (ir->op2 << 24), ra_releasetmp(as, ASMREF_TMP1));
-}
-
-static void asm_tdup(ASMState *as, IRIns *ir)
-{
-  const CCallInfo *ci = &lj_ir_callinfo[IRCALL_lj_tab_dup];
-  IRRef args[2];
-  args[0] = ASMREF_L;  /* lua_State *L    */
-  args[1] = ir->op1;   /* const GCtab *kt */
-  as->gcsteps++;
-  asm_setupresult(as, ir, ci);  /* GCtab * */
-  asm_gencall(as, ci, args);
-}
-
-static void asm_gc_check(ASMState *as);
-
-/* Explicit GC step. */
-static void asm_gcstep(ASMState *as, IRIns *ir)
-{
-  IRIns *ira;
-  for (ira = IR(as->stopins+1); ira < ir; ira++)
-    if ((ira->o == IR_TNEW || ira->o == IR_TDUP ||
-	 (LJ_HASFFI && (ira->o == IR_CNEW || ira->o == IR_CNEWI))) &&
-	ra_used(ira))
-      as->gcsteps++;
-  if (as->gcsteps)
-    asm_gc_check(as);
-  as->gcsteps = 0x80000000;  /* Prevent implicit GC check further up. */
-}
-
-/* -- PHI and loop handling ----------------------------------------------- */
-
-/* Break a PHI cycle by renaming to a free register (evict if needed). */
-static void asm_phi_break(ASMState *as, RegSet blocked, RegSet blockedby,
-			  RegSet allow)
-{
-  RegSet candidates = blocked & allow;
-  if (candidates) {  /* If this register file has candidates. */
-    /* Note: the set for ra_pick cannot be empty, since each register file
-    ** has some registers never allocated to PHIs.
-    */
-    Reg down, up = ra_pick(as, ~blocked & allow);  /* Get a free register. */
-    if (candidates & ~blockedby)  /* Optimize shifts, else it's a cycle. */
-      candidates = candidates & ~blockedby;
-    down = rset_picktop(candidates);  /* Pick candidate PHI register. */
-    ra_rename(as, down, up);  /* And rename it to the free register. */
-  }
-}
-
-/* PHI register shuffling.
-**
-** The allocator tries hard to preserve PHI register assignments across
-** the loop body. Most of the time this loop does nothing, since there
-** are no register mismatches.
-**
-** If a register mismatch is detected and ...
-** - the register is currently free: rename it.
-** - the register is blocked by an invariant: restore/remat and rename it.
-** - Otherwise the register is used by another PHI, so mark it as blocked.
-**
-** The renames are order-sensitive, so just retry the loop if a register
-** is marked as blocked, but has been freed in the meantime. A cycle is
-** detected if all of the blocked registers are allocated. To break the
-** cycle rename one of them to a free register and retry.
-**
-** Note that PHI spill slots are kept in sync and don't need to be shuffled.
-*/
-static void asm_phi_shuffle(ASMState *as)
-{
-  RegSet work;
-
-  /* Find and resolve PHI register mismatches. */
-  for (;;) {
-    RegSet blocked = RSET_EMPTY;
-    RegSet blockedby = RSET_EMPTY;
-    RegSet phiset = as->phiset;
-    while (phiset) {  /* Check all left PHI operand registers. */
-      Reg r = rset_pickbot(phiset);
-      IRIns *irl = IR(as->phireg[r]);
-      Reg left = irl->r;
-      if (r != left) {  /* Mismatch? */
-	if (!rset_test(as->freeset, r)) {  /* PHI register blocked? */
-	  IRRef ref = regcost_ref(as->cost[r]);
-	  /* Blocked by other PHI (w/reg)? */
-	  if (!ra_iskref(ref) && irt_ismarked(IR(ref)->t)) {
-	    rset_set(blocked, r);
-	    if (ra_hasreg(left))
-	      rset_set(blockedby, left);
-	    left = RID_NONE;
-	  } else {  /* Otherwise grab register from invariant. */
-	    ra_restore(as, ref);
-	    checkmclim(as);
-	  }
-	}
-	if (ra_hasreg(left)) {
-	  ra_rename(as, left, r);
-	  checkmclim(as);
-	}
-      }
-      rset_clear(phiset, r);
-    }
-    if (!blocked) break;  /* Finished. */
-    if (!(as->freeset & blocked)) {  /* Break cycles if none are free. */
-      asm_phi_break(as, blocked, blockedby, RSET_GPR);
-      if (!LJ_SOFTFP) asm_phi_break(as, blocked, blockedby, RSET_FPR);
-      checkmclim(as);
-    }  /* Else retry some more renames. */
-  }
-
-  /* Restore/remat invariants whose registers are modified inside the loop. */
-#if !LJ_SOFTFP
-  work = as->modset & ~(as->freeset | as->phiset) & RSET_FPR;
-  while (work) {
-    Reg r = rset_pickbot(work);
-    ra_restore(as, regcost_ref(as->cost[r]));
-    rset_clear(work, r);
-    checkmclim(as);
-  }
-#endif
-  work = as->modset & ~(as->freeset | as->phiset);
-  while (work) {
-    Reg r = rset_pickbot(work);
-    ra_restore(as, regcost_ref(as->cost[r]));
-    rset_clear(work, r);
-    checkmclim(as);
-  }
-
-  /* Allocate and save all unsaved PHI regs and clear marks. */
-  work = as->phiset;
-  while (work) {
-    Reg r = rset_picktop(work);
-    IRRef lref = as->phireg[r];
-    IRIns *ir = IR(lref);
-    if (ra_hasspill(ir->s)) {  /* Left PHI gained a spill slot? */
-      irt_clearmark(ir->t);  /* Handled here, so clear marker now. */
-      ra_alloc1(as, lref, RID2RSET(r));
-      ra_save(as, ir, r);  /* Save to spill slot inside the loop. */
-      checkmclim(as);
-    }
-    rset_clear(work, r);
-  }
-}
-
-/* Copy unsynced left/right PHI spill slots. Rarely needed. */
-static void asm_phi_copyspill(ASMState *as)
-{
-  int need = 0;
-  IRIns *ir;
-  for (ir = IR(as->orignins-1); ir->o == IR_PHI; ir--)
-    if (ra_hasspill(ir->s) && ra_hasspill(IR(ir->op1)->s))
-      need |= irt_isfp(ir->t) ? 2 : 1;  /* Unsynced spill slot? */
-  if ((need & 1)) {  /* Copy integer spill slots. */
-#if !LJ_TARGET_X86ORX64
-    Reg r = RID_TMP;
-#else
-    Reg r = RID_RET;
-    if ((as->freeset & RSET_GPR))
-      r = rset_pickbot((as->freeset & RSET_GPR));
-    else
-      emit_spload(as, IR(regcost_ref(as->cost[r])), r, SPOFS_TMP);
-#endif
-    for (ir = IR(as->orignins-1); ir->o == IR_PHI; ir--) {
-      if (ra_hasspill(ir->s)) {
-	IRIns *irl = IR(ir->op1);
-	if (ra_hasspill(irl->s) && !irt_isfp(ir->t)) {
-	  emit_spstore(as, irl, r, sps_scale(irl->s));
-	  emit_spload(as, ir, r, sps_scale(ir->s));
-	  checkmclim(as);
-	}
-      }
-    }
-#if LJ_TARGET_X86ORX64
-    if (!rset_test(as->freeset, r))
-      emit_spstore(as, IR(regcost_ref(as->cost[r])), r, SPOFS_TMP);
-#endif
-  }
-#if !LJ_SOFTFP
-  if ((need & 2)) {  /* Copy FP spill slots. */
-#if LJ_TARGET_X86
-    Reg r = RID_XMM0;
-#else
-    Reg r = RID_FPRET;
-#endif
-    if ((as->freeset & RSET_FPR))
-      r = rset_pickbot((as->freeset & RSET_FPR));
-    if (!rset_test(as->freeset, r))
-      emit_spload(as, IR(regcost_ref(as->cost[r])), r, SPOFS_TMP);
-    for (ir = IR(as->orignins-1); ir->o == IR_PHI; ir--) {
-      if (ra_hasspill(ir->s)) {
-	IRIns *irl = IR(ir->op1);
-	if (ra_hasspill(irl->s) && irt_isfp(ir->t)) {
-	  emit_spstore(as, irl, r, sps_scale(irl->s));
-	  emit_spload(as, ir, r, sps_scale(ir->s));
-	  checkmclim(as);
-	}
-      }
-    }
-    if (!rset_test(as->freeset, r))
-      emit_spstore(as, IR(regcost_ref(as->cost[r])), r, SPOFS_TMP);
-  }
-#endif
-}
-
-/* Emit renames for left PHIs which are only spilled outside the loop. */
-static void asm_phi_fixup(ASMState *as)
-{
-  RegSet work = as->phiset;
-  while (work) {
-    Reg r = rset_picktop(work);
-    IRRef lref = as->phireg[r];
-    IRIns *ir = IR(lref);
-    if (irt_ismarked(ir->t)) {
-      irt_clearmark(ir->t);
-      /* Left PHI gained a spill slot before the loop? */
-      if (ra_hasspill(ir->s)) {
-	IRRef ren;
-	lj_ir_set(as->J, IRT(IR_RENAME, IRT_NIL), lref, as->loopsnapno);
-	ren = tref_ref(lj_ir_emit(as->J));
-	as->ir = as->T->ir;  /* The IR may have been reallocated. */
-	IR(ren)->r = (uint8_t)r;
-	IR(ren)->s = SPS_NONE;
-      }
-    }
-    rset_clear(work, r);
-  }
-}
-
-/* Setup right PHI reference. */
-static void asm_phi(ASMState *as, IRIns *ir)
-{
-  RegSet allow = ((!LJ_SOFTFP && irt_isfp(ir->t)) ? RSET_FPR : RSET_GPR) &
-		 ~as->phiset;
-  RegSet afree = (as->freeset & allow);
-  IRIns *irl = IR(ir->op1);
-  IRIns *irr = IR(ir->op2);
-  if (ir->r == RID_SINK)  /* Sink PHI. */
-    return;
-  /* Spill slot shuffling is not implemented yet (but rarely needed). */
-  if (ra_hasspill(irl->s) || ra_hasspill(irr->s))
-    lj_trace_err(as->J, LJ_TRERR_NYIPHI);
-  /* Leave at least one register free for non-PHIs (and PHI cycle breaking). */
-  if ((afree & (afree-1))) {  /* Two or more free registers? */
-    Reg r;
-    if (ra_noreg(irr->r)) {  /* Get a register for the right PHI. */
-      r = ra_allocref(as, ir->op2, allow);
-    } else {  /* Duplicate right PHI, need a copy (rare). */
-      r = ra_scratch(as, allow);
-      emit_movrr(as, irr, r, irr->r);
-    }
-    ir->r = (uint8_t)r;
-    rset_set(as->phiset, r);
-    as->phireg[r] = (IRRef1)ir->op1;
-    irt_setmark(irl->t);  /* Marks left PHIs _with_ register. */
-    if (ra_noreg(irl->r))
-      ra_sethint(irl->r, r); /* Set register hint for left PHI. */
-  } else {  /* Otherwise allocate a spill slot. */
-    /* This is overly restrictive, but it triggers only on synthetic code. */
-    if (ra_hasreg(irl->r) || ra_hasreg(irr->r))
-      lj_trace_err(as->J, LJ_TRERR_NYIPHI);
-    ra_spill(as, ir);
-    irr->s = ir->s;  /* Set right PHI spill slot. Sync left slot later. */
-  }
-}
-
-static void asm_loop_fixup(ASMState *as);
-
-/* Middle part of a loop. */
-static void asm_loop(ASMState *as)
-{
-  MCode *mcspill;
-  /* LOOP is a guard, so the snapno is up to date. */
-  as->loopsnapno = as->snapno;
-  if (as->gcsteps)
-    asm_gc_check(as);
-  /* LOOP marks the transition from the variant to the invariant part. */
-  as->flagmcp = as->invmcp = NULL;
-  as->sectref = 0;
-  if (!neverfuse(as)) as->fuseref = 0;
-  asm_phi_shuffle(as);
-  mcspill = as->mcp;
-  asm_phi_copyspill(as);
-  asm_loop_fixup(as);
-  as->mcloop = as->mcp;
-  RA_DBGX((as, "===== LOOP ====="));
-  if (!as->realign) RA_DBG_FLUSH();
-  if (as->mcp != mcspill)
-    emit_jmp(as, mcspill);
-}
-
-/* -- Target-specific assembler ------------------------------------------- */
-
-#if LJ_TARGET_X86ORX64
-#include "lj_asm_x86.h"
-#elif LJ_TARGET_ARM
-#include "lj_asm_arm.h"
-#elif LJ_TARGET_PPC
-#include "lj_asm_ppc.h"
-#elif LJ_TARGET_MIPS
-#include "lj_asm_mips.h"
-#else
-#error "Missing assembler for target CPU"
-#endif
-
-/* -- Head of trace ------------------------------------------------------- */
-
-/* Head of a root trace. */
-static void asm_head_root(ASMState *as)
-{
-  int32_t spadj;
-  asm_head_root_base(as);
-  emit_setvmstate(as, (int32_t)as->T->traceno);
-  spadj = asm_stack_adjust(as);
-  as->T->spadjust = (uint16_t)spadj;
-  emit_spsub(as, spadj);
-  /* Root traces assume a checked stack for the starting proto. */
-  as->T->topslot = gcref(as->T->startpt)->pt.framesize;
-}
-
-/* Head of a side trace.
-**
-** The current simplistic algorithm requires that all slots inherited
-** from the parent are live in a register between pass 2 and pass 3. This
-** avoids the complexity of stack slot shuffling. But of course this may
-** overflow the register set in some cases and cause the dreaded error:
-** "NYI: register coalescing too complex". A refined algorithm is needed.
-*/
-static void asm_head_side(ASMState *as)
-{
-  IRRef1 sloadins[RID_MAX];
-  RegSet allow = RSET_ALL;  /* Inverse of all coalesced registers. */
-  RegSet live = RSET_EMPTY;  /* Live parent registers. */
-  IRIns *irp = &as->parent->ir[REF_BASE];  /* Parent base. */
-  int32_t spadj, spdelta;
-  int pass2 = 0;
-  int pass3 = 0;
-  IRRef i;
-
-  allow = asm_head_side_base(as, irp, allow);
-
-  /* Scan all parent SLOADs and collect register dependencies. */
-  for (i = as->stopins; i > REF_BASE; i--) {
-    IRIns *ir = IR(i);
-    RegSP rs;
-    lua_assert((ir->o == IR_SLOAD && (ir->op2 & IRSLOAD_PARENT)) ||
-	       (LJ_SOFTFP && ir->o == IR_HIOP) || ir->o == IR_PVAL);
-    rs = as->parentmap[i - REF_FIRST];
-    if (ra_hasreg(ir->r)) {
-      rset_clear(allow, ir->r);
-      if (ra_hasspill(ir->s)) {
-	ra_save(as, ir, ir->r);
-	checkmclim(as);
-      }
-    } else if (ra_hasspill(ir->s)) {
-      irt_setmark(ir->t);
-      pass2 = 1;
-    }
-    if (ir->r == rs) {  /* Coalesce matching registers right now. */
-      ra_free(as, ir->r);
-    } else if (ra_hasspill(regsp_spill(rs))) {
-      if (ra_hasreg(ir->r))
-	pass3 = 1;
-    } else if (ra_used(ir)) {
-      sloadins[rs] = (IRRef1)i;
-      rset_set(live, rs);  /* Block live parent register. */
-    }
-  }
-
-  /* Calculate stack frame adjustment. */
-  spadj = asm_stack_adjust(as);
-  spdelta = spadj - (int32_t)as->parent->spadjust;
-  if (spdelta < 0) {  /* Don't shrink the stack frame. */
-    spadj = (int32_t)as->parent->spadjust;
-    spdelta = 0;
-  }
-  as->T->spadjust = (uint16_t)spadj;
-
-  /* Reload spilled target registers. */
-  if (pass2) {
-    for (i = as->stopins; i > REF_BASE; i--) {
-      IRIns *ir = IR(i);
-      if (irt_ismarked(ir->t)) {
-	RegSet mask;
-	Reg r;
-	RegSP rs;
-	irt_clearmark(ir->t);
-	rs = as->parentmap[i - REF_FIRST];
-	if (!ra_hasspill(regsp_spill(rs)))
-	  ra_sethint(ir->r, rs);  /* Hint may be gone, set it again. */
-	else if (sps_scale(regsp_spill(rs))+spdelta == sps_scale(ir->s))
-	  continue;  /* Same spill slot, do nothing. */
-	mask = ((!LJ_SOFTFP && irt_isfp(ir->t)) ? RSET_FPR : RSET_GPR) & allow;
-	if (mask == RSET_EMPTY)
-	  lj_trace_err(as->J, LJ_TRERR_NYICOAL);
-	r = ra_allocref(as, i, mask);
-	ra_save(as, ir, r);
-	rset_clear(allow, r);
-	if (r == rs) {  /* Coalesce matching registers right now. */
-	  ra_free(as, r);
-	  rset_clear(live, r);
-	} else if (ra_hasspill(regsp_spill(rs))) {
-	  pass3 = 1;
-	}
-	checkmclim(as);
-      }
-    }
-  }
-
-  /* Store trace number and adjust stack frame relative to the parent. */
-  emit_setvmstate(as, (int32_t)as->T->traceno);
-  emit_spsub(as, spdelta);
-
-#if !LJ_TARGET_X86ORX64
-  /* Restore BASE register from parent spill slot. */
-  if (ra_hasspill(irp->s))
-    emit_spload(as, IR(REF_BASE), IR(REF_BASE)->r, sps_scale(irp->s));
-#endif
-
-  /* Restore target registers from parent spill slots. */
-  if (pass3) {
-    RegSet work = ~as->freeset & RSET_ALL;
-    while (work) {
-      Reg r = rset_pickbot(work);
-      IRRef ref = regcost_ref(as->cost[r]);
-      RegSP rs = as->parentmap[ref - REF_FIRST];
-      rset_clear(work, r);
-      if (ra_hasspill(regsp_spill(rs))) {
-	int32_t ofs = sps_scale(regsp_spill(rs));
-	ra_free(as, r);
-	emit_spload(as, IR(ref), r, ofs);
-	checkmclim(as);
-      }
-    }
-  }
-
-  /* Shuffle registers to match up target regs with parent regs. */
-  for (;;) {
-    RegSet work;
-
-    /* Repeatedly coalesce free live registers by moving to their target. */
-    while ((work = as->freeset & live) != RSET_EMPTY) {
-      Reg rp = rset_pickbot(work);
-      IRIns *ir = IR(sloadins[rp]);
-      rset_clear(live, rp);
-      rset_clear(allow, rp);
-      ra_free(as, ir->r);
-      emit_movrr(as, ir, ir->r, rp);
-      checkmclim(as);
-    }
-
-    /* We're done if no live registers remain. */
-    if (live == RSET_EMPTY)
-      break;
-
-    /* Break cycles by renaming one target to a temp. register. */
-    if (live & RSET_GPR) {
-      RegSet tmpset = as->freeset & ~live & allow & RSET_GPR;
-      if (tmpset == RSET_EMPTY)
-	lj_trace_err(as->J, LJ_TRERR_NYICOAL);
-      ra_rename(as, rset_pickbot(live & RSET_GPR), rset_pickbot(tmpset));
-    }
-    if (!LJ_SOFTFP && (live & RSET_FPR)) {
-      RegSet tmpset = as->freeset & ~live & allow & RSET_FPR;
-      if (tmpset == RSET_EMPTY)
-	lj_trace_err(as->J, LJ_TRERR_NYICOAL);
-      ra_rename(as, rset_pickbot(live & RSET_FPR), rset_pickbot(tmpset));
-    }
-    checkmclim(as);
-    /* Continue with coalescing to fix up the broken cycle(s). */
-  }
-
-  /* Inherit top stack slot already checked by parent trace. */
-  as->T->topslot = as->parent->topslot;
-  if (as->topslot > as->T->topslot) {  /* Need to check for higher slot? */
-#ifdef EXITSTATE_CHECKEXIT
-    /* Highest exit + 1 indicates stack check. */
-    ExitNo exitno = as->T->nsnap;
-#else
-    /* Reuse the parent exit in the context of the parent trace. */
-    ExitNo exitno = as->J->exitno;
-#endif
-    as->T->topslot = (uint8_t)as->topslot;  /* Remember for child traces. */
-    asm_stack_check(as, as->topslot, irp, allow & RSET_GPR, exitno);
-  }
-}
-
-/* -- Tail of trace ------------------------------------------------------- */
-
-/* Get base slot for a snapshot. */
-static BCReg asm_baseslot(ASMState *as, SnapShot *snap, int *gotframe)
-{
-  SnapEntry *map = &as->T->snapmap[snap->mapofs];
-  MSize n;
-  for (n = snap->nent; n > 0; n--) {
-    SnapEntry sn = map[n-1];
-    if ((sn & SNAP_FRAME)) {
-      *gotframe = 1;
-      return snap_slot(sn);
-    }
-  }
-  return 0;
-}
-
-/* Link to another trace. */
-static void asm_tail_link(ASMState *as)
-{
-  SnapNo snapno = as->T->nsnap-1;  /* Last snapshot. */
-  SnapShot *snap = &as->T->snap[snapno];
-  int gotframe = 0;
-  BCReg baseslot = asm_baseslot(as, snap, &gotframe);
-
-  as->topslot = snap->topslot;
-  checkmclim(as);
-  ra_allocref(as, REF_BASE, RID2RSET(RID_BASE));
-
-  if (as->T->link == 0) {
-    /* Setup fixed registers for exit to interpreter. */
-    const BCIns *pc = snap_pc(as->T->snapmap[snap->mapofs + snap->nent]);
-    int32_t mres;
-    if (bc_op(*pc) == BC_JLOOP) {  /* NYI: find a better way to do this. */
-      BCIns *retpc = &traceref(as->J, bc_d(*pc))->startins;
-      if (bc_isret(bc_op(*retpc)))
-	pc = retpc;
-    }
-    ra_allockreg(as, i32ptr(J2GG(as->J)->dispatch), RID_DISPATCH);
-    ra_allockreg(as, i32ptr(pc), RID_LPC);
-    mres = (int32_t)(snap->nslots - baseslot);
-    switch (bc_op(*pc)) {
-    case BC_CALLM: case BC_CALLMT:
-      mres -= (int32_t)(1 + bc_a(*pc) + bc_c(*pc)); break;
-    case BC_RETM: mres -= (int32_t)(bc_a(*pc) + bc_d(*pc)); break;
-    case BC_TSETM: mres -= (int32_t)bc_a(*pc); break;
-    default: if (bc_op(*pc) < BC_FUNCF) mres = 0; break;
-    }
-    ra_allockreg(as, mres, RID_RET);  /* Return MULTRES or 0. */
-  } else if (baseslot) {
-    /* Save modified BASE for linking to trace with higher start frame. */
-    emit_setgl(as, RID_BASE, jit_base);
-  }
-  emit_addptr(as, RID_BASE, 8*(int32_t)baseslot);
-
-  /* Sync the interpreter state with the on-trace state. */
-  asm_stack_restore(as, snap);
-
-  /* Root traces that add frames need to check the stack at the end. */
-  if (!as->parent && gotframe)
-    asm_stack_check(as, as->topslot, NULL, as->freeset & RSET_GPR, snapno);
-}
-
-/* -- Trace setup --------------------------------------------------------- */
-
-/* Clear reg/sp for all instructions and add register hints. */
-static void asm_setup_regsp(ASMState *as)
-{
-  GCtrace *T = as->T;
-  int sink = T->sinktags;
-  IRRef nins = T->nins;
-  IRIns *ir, *lastir;
-  int inloop;
-#if LJ_TARGET_ARM
-  uint32_t rload = 0xa6402a64;
-#endif
-
-  ra_setup(as);
-
-  /* Clear reg/sp for constants. */
-  for (ir = IR(T->nk), lastir = IR(REF_BASE); ir < lastir; ir++)
-    ir->prev = REGSP_INIT;
-
-  /* REF_BASE is used for implicit references to the BASE register. */
-  lastir->prev = REGSP_HINT(RID_BASE);
-
-  ir = IR(nins-1);
-  if (ir->o == IR_RENAME) {
-    do { ir--; nins--; } while (ir->o == IR_RENAME);
-    T->nins = nins;  /* Remove any renames left over from ASM restart. */
-  }
-  as->snaprename = nins;
-  as->snapref = nins;
-  as->snapno = T->nsnap;
-
-  as->stopins = REF_BASE;
-  as->orignins = nins;
-  as->curins = nins;
-
-  /* Setup register hints for parent link instructions. */
-  ir = IR(REF_FIRST);
-  if (as->parent) {
-    uint16_t *p;
-    lastir = lj_snap_regspmap(as->parent, as->J->exitno, ir);
-    if (lastir - ir > LJ_MAX_JSLOTS)
-      lj_trace_err(as->J, LJ_TRERR_NYICOAL);
-    as->stopins = (IRRef)((lastir-1) - as->ir);
-    for (p = as->parentmap; ir < lastir; ir++) {
-      RegSP rs = ir->prev;
-      *p++ = (uint16_t)rs;  /* Copy original parent RegSP to parentmap. */
-      if (!ra_hasspill(regsp_spill(rs)))
-	ir->prev = (uint16_t)REGSP_HINT(regsp_reg(rs));
-      else
-	ir->prev = REGSP_INIT;
-    }
-  }
-
-  inloop = 0;
-  as->evenspill = SPS_FIRST;
-  for (lastir = IR(nins); ir < lastir; ir++) {
-    if (sink) {
-      if (ir->r == RID_SINK)
-	continue;
-      if (ir->r == RID_SUNK) {  /* Revert after ASM restart. */
-	ir->r = RID_SINK;
-	continue;
-      }
-    }
-    switch (ir->o) {
-    case IR_LOOP:
-      inloop = 1;
-      break;
-#if LJ_TARGET_ARM
-    case IR_SLOAD:
-      if (!((ir->op2 & IRSLOAD_TYPECHECK) || (ir+1)->o == IR_HIOP))
-	break;
-      /* fallthrough */
-    case IR_ALOAD: case IR_HLOAD: case IR_ULOAD: case IR_VLOAD:
-      if (!LJ_SOFTFP && irt_isnum(ir->t)) break;
-      ir->prev = (uint16_t)REGSP_HINT((rload & 15));
-      rload = lj_ror(rload, 4);
-      continue;
-#endif
-    case IR_CALLXS: {
-      CCallInfo ci;
-      ci.flags = asm_callx_flags(as, ir);
-      ir->prev = asm_setup_call_slots(as, ir, &ci);
-      if (inloop)
-	as->modset |= RSET_SCRATCH;
-      continue;
-      }
-    case IR_CALLN: case IR_CALLL: case IR_CALLS: {
-      const CCallInfo *ci = &lj_ir_callinfo[ir->op2];
-      ir->prev = asm_setup_call_slots(as, ir, ci);
-      if (inloop)
-	as->modset |= (ci->flags & CCI_NOFPRCLOBBER) ?
-		      (RSET_SCRATCH & ~RSET_FPR) : RSET_SCRATCH;
-      continue;
-      }
-#if LJ_SOFTFP || (LJ_32 && LJ_HASFFI)
-    case IR_HIOP:
-      switch ((ir-1)->o) {
-#if LJ_SOFTFP && LJ_TARGET_ARM
-      case IR_SLOAD: case IR_ALOAD: case IR_HLOAD: case IR_ULOAD: case IR_VLOAD:
-	if (ra_hashint((ir-1)->r)) {
-	  ir->prev = (ir-1)->prev + 1;
-	  continue;
-	}
-	break;
-#endif
-#if !LJ_SOFTFP && LJ_NEED_FP64
-      case IR_CONV:
-	if (irt_isfp((ir-1)->t)) {
-	  ir->prev = REGSP_HINT(RID_FPRET);
-	  continue;
-	}
-	/* fallthrough */
-#endif
-      case IR_CALLN: case IR_CALLXS:
-#if LJ_SOFTFP
-      case IR_MIN: case IR_MAX:
-#endif
-	(ir-1)->prev = REGSP_HINT(RID_RETLO);
-	ir->prev = REGSP_HINT(RID_RETHI);
-	continue;
-      default:
-	break;
-      }
-      break;
-#endif
-#if LJ_SOFTFP
-    case IR_MIN: case IR_MAX:
-      if ((ir+1)->o != IR_HIOP) break;
-      /* fallthrough */
-#endif
-    /* C calls evict all scratch regs and return results in RID_RET. */
-    case IR_SNEW: case IR_XSNEW: case IR_NEWREF:
-      if (REGARG_NUMGPR < 3 && as->evenspill < 3)
-	as->evenspill = 3;  /* lj_str_new and lj_tab_newkey need 3 args. */
-    case IR_TNEW: case IR_TDUP: case IR_CNEW: case IR_CNEWI: case IR_TOSTR:
-      ir->prev = REGSP_HINT(RID_RET);
-      if (inloop)
-	as->modset = RSET_SCRATCH;
-      continue;
-    case IR_STRTO: case IR_OBAR:
-      if (inloop)
-	as->modset = RSET_SCRATCH;
-      break;
-#if !LJ_TARGET_X86ORX64 && !LJ_SOFTFP
-    case IR_ATAN2: case IR_LDEXP:
-#endif
-    case IR_POW:
-      if (!LJ_SOFTFP && irt_isnum(ir->t)) {
-#if LJ_TARGET_X86ORX64
-	ir->prev = REGSP_HINT(RID_XMM0);
-	if (inloop)
-	  as->modset |= RSET_RANGE(RID_XMM0, RID_XMM1+1)|RID2RSET(RID_EAX);
-#else
-	ir->prev = REGSP_HINT(RID_FPRET);
-	if (inloop)
-	  as->modset |= RSET_SCRATCH;
-#endif
-	continue;
-      }
-      /* fallthrough for integer POW */
-    case IR_DIV: case IR_MOD:
-      if (!irt_isnum(ir->t)) {
-	ir->prev = REGSP_HINT(RID_RET);
-	if (inloop)
-	  as->modset |= (RSET_SCRATCH & RSET_GPR);
-	continue;
-      }
-      break;
-    case IR_FPMATH:
-#if LJ_TARGET_X86ORX64
-      if (ir->op2 == IRFPM_EXP2) {  /* May be joined to lj_vm_pow_sse. */
-	ir->prev = REGSP_HINT(RID_XMM0);
-#if !LJ_64
-	if (as->evenspill < 4)  /* Leave room for 16 byte scratch area. */
-	  as->evenspill = 4;
-#endif
-	if (inloop)
-	  as->modset |= RSET_RANGE(RID_XMM0, RID_XMM2+1)|RID2RSET(RID_EAX);
-	continue;
-      } else if (ir->op2 <= IRFPM_TRUNC && !(as->flags & JIT_F_SSE4_1)) {
-	ir->prev = REGSP_HINT(RID_XMM0);
-	if (inloop)
-	  as->modset |= RSET_RANGE(RID_XMM0, RID_XMM3+1)|RID2RSET(RID_EAX);
-	continue;
-      }
-      break;
-#else
-      ir->prev = REGSP_HINT(RID_FPRET);
-      if (inloop)
-	as->modset |= RSET_SCRATCH;
-      continue;
-#endif
-#if LJ_TARGET_X86ORX64
-    /* Non-constant shift counts need to be in RID_ECX on x86/x64. */
-    case IR_BSHL: case IR_BSHR: case IR_BSAR: case IR_BROL: case IR_BROR:
-      if (!irref_isk(ir->op2) && !ra_hashint(IR(ir->op2)->r)) {
-	IR(ir->op2)->r = REGSP_HINT(RID_ECX);
-	if (inloop)
-	  rset_set(as->modset, RID_ECX);
-      }
-      break;
-#endif
-    /* Do not propagate hints across type conversions or loads. */
-    case IR_TOBIT:
-    case IR_XLOAD:
-#if !LJ_TARGET_ARM
-    case IR_ALOAD: case IR_HLOAD: case IR_ULOAD: case IR_VLOAD:
-#endif
-      break;
-    case IR_CONV:
-      if (irt_isfp(ir->t) || (ir->op2 & IRCONV_SRCMASK) == IRT_NUM ||
-	  (ir->op2 & IRCONV_SRCMASK) == IRT_FLOAT)
-	break;
-      /* fallthrough */
-    default:
-      /* Propagate hints across likely 'op reg, imm' or 'op reg'. */
-      if (irref_isk(ir->op2) && !irref_isk(ir->op1) &&
-	  ra_hashint(regsp_reg(IR(ir->op1)->prev))) {
-	ir->prev = IR(ir->op1)->prev;
-	continue;
-      }
-      break;
-    }
-    ir->prev = REGSP_INIT;
-  }
-  if ((as->evenspill & 1))
-    as->oddspill = as->evenspill++;
-  else
-    as->oddspill = 0;
-}
-
-/* -- Assembler core ------------------------------------------------------ */
-
-/* Assemble a trace. */
-void lj_asm_trace(jit_State *J, GCtrace *T)
-{
-  ASMState as_;
-  ASMState *as = &as_;
-  MCode *origtop;
-
-  /* Ensure an initialized instruction beyond the last one for HIOP checks. */
-  J->cur.nins = lj_ir_nextins(J);
-  J->cur.ir[J->cur.nins].o = IR_NOP;
-
-  /* Setup initial state. Copy some fields to reduce indirections. */
-  as->J = J;
-  as->T = T;
-  as->ir = T->ir;
-  as->flags = J->flags;
-  as->loopref = J->loopref;
-  as->realign = NULL;
-  as->loopinv = 0;
-  as->parent = J->parent ? traceref(J, J->parent) : NULL;
-
-  /* Reserve MCode memory. */
-  as->mctop = origtop = lj_mcode_reserve(J, &as->mcbot);
-  as->mcp = as->mctop;
-  as->mclim = as->mcbot + MCLIM_REDZONE;
-  asm_setup_target(as);
-
-  do {
-    as->mcp = as->mctop;
-#ifdef LUA_USE_ASSERT
-    as->mcp_prev = as->mcp;
-#endif
-    as->curins = T->nins;
-    RA_DBG_START();
-    RA_DBGX((as, "===== STOP ====="));
-
-    /* General trace setup. Emit tail of trace. */
-    asm_tail_prep(as);
-    as->mcloop = NULL;
-    as->flagmcp = NULL;
-    as->topslot = 0;
-    as->gcsteps = 0;
-    as->sectref = as->loopref;
-    as->fuseref = (as->flags & JIT_F_OPT_FUSE) ? as->loopref : FUSE_DISABLED;
-    asm_setup_regsp(as);
-    if (!as->loopref)
-      asm_tail_link(as);
-
-    /* Assemble a trace in linear backwards order. */
-    for (as->curins--; as->curins > as->stopins; as->curins--) {
-      IRIns *ir = IR(as->curins);
-      lua_assert(!(LJ_32 && irt_isint64(ir->t)));  /* Handled by SPLIT. */
-      if (!ra_used(ir) && !ir_sideeff(ir) && (as->flags & JIT_F_OPT_DCE))
-	continue;  /* Dead-code elimination can be soooo easy. */
-      if (irt_isguard(ir->t))
-	asm_snap_prep(as);
-      RA_DBG_REF();
-      checkmclim(as);
-      asm_ir(as, ir);
-    }
-  } while (as->realign);  /* Retry in case the MCode needs to be realigned. */
-
-  /* Emit head of trace. */
-  RA_DBG_REF();
-  checkmclim(as);
-  if (as->gcsteps > 0) {
-    as->curins = as->T->snap[0].ref;
-    asm_snap_prep(as);  /* The GC check is a guard. */
-    asm_gc_check(as);
-  }
-  ra_evictk(as);
-  if (as->parent)
-    asm_head_side(as);
-  else
-    asm_head_root(as);
-  asm_phi_fixup(as);
-
-  RA_DBGX((as, "===== START ===="));
-  RA_DBG_FLUSH();
-  if (as->freeset != RSET_ALL)
-    lj_trace_err(as->J, LJ_TRERR_BADRA);  /* Ouch! Should never happen. */
-
-  /* Set trace entry point before fixing up tail to allow link to self. */
-  T->mcode = as->mcp;
-  T->mcloop = as->mcloop ? (MSize)((char *)as->mcloop - (char *)as->mcp) : 0;
-  if (!as->loopref)
-    asm_tail_fixup(as, T->link);  /* Note: this may change as->mctop! */
-  T->szmcode = (MSize)((char *)as->mctop - (char *)as->mcp);
-  lj_mcode_sync(T->mcode, origtop);
-}
-
-#undef IR
-
-#endif
diff --git a/luajit-2.0/src/lj_asm.h b/luajit-2.0/src/lj_asm.h
deleted file mode 100644
index f5d0159..0000000
--- a/luajit-2.0/src/lj_asm.h
+++ /dev/null
@@ -1,17 +0,0 @@
-/*
-** IR assembler (SSA IR -> machine code).
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#ifndef _LJ_ASM_H
-#define _LJ_ASM_H
-
-#include "lj_jit.h"
-
-#if LJ_HASJIT
-LJ_FUNC void lj_asm_trace(jit_State *J, GCtrace *T);
-LJ_FUNC void lj_asm_patchexit(jit_State *J, GCtrace *T, ExitNo exitno,
-			      MCode *target);
-#endif
-
-#endif
diff --git a/luajit-2.0/src/lj_asm_arm.h b/luajit-2.0/src/lj_asm_arm.h
deleted file mode 100644
index 72f205d..0000000
--- a/luajit-2.0/src/lj_asm_arm.h
+++ /dev/null
@@ -1,2361 +0,0 @@
-/*
-** ARM IR assembler (SSA IR -> machine code).
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-/* -- Register allocator extensions --------------------------------------- */
-
-/* Allocate a register with a hint. */
-static Reg ra_hintalloc(ASMState *as, IRRef ref, Reg hint, RegSet allow)
-{
-  Reg r = IR(ref)->r;
-  if (ra_noreg(r)) {
-    if (!ra_hashint(r) && !iscrossref(as, ref))
-      ra_sethint(IR(ref)->r, hint);  /* Propagate register hint. */
-    r = ra_allocref(as, ref, allow);
-  }
-  ra_noweak(as, r);
-  return r;
-}
-
-/* Allocate a scratch register pair. */
-static Reg ra_scratchpair(ASMState *as, RegSet allow)
-{
-  RegSet pick1 = as->freeset & allow;
-  RegSet pick2 = pick1 & (pick1 >> 1) & RSET_GPREVEN;
-  Reg r;
-  if (pick2) {
-    r = rset_picktop(pick2);
-  } else {
-    RegSet pick = pick1 & (allow >> 1) & RSET_GPREVEN;
-    if (pick) {
-      r = rset_picktop(pick);
-      ra_restore(as, regcost_ref(as->cost[r+1]));
-    } else {
-      pick = pick1 & (allow << 1) & RSET_GPRODD;
-      if (pick) {
-	r = ra_restore(as, regcost_ref(as->cost[rset_picktop(pick)-1]));
-      } else {
-	r = ra_evict(as, allow & (allow >> 1) & RSET_GPREVEN);
-	ra_restore(as, regcost_ref(as->cost[r+1]));
-      }
-    }
-  }
-  lua_assert(rset_test(RSET_GPREVEN, r));
-  ra_modified(as, r);
-  ra_modified(as, r+1);
-  RA_DBGX((as, "scratchpair    $r $r", r, r+1));
-  return r;
-}
-
-#if !LJ_SOFTFP
-/* Allocate two source registers for three-operand instructions. */
-static Reg ra_alloc2(ASMState *as, IRIns *ir, RegSet allow)
-{
-  IRIns *irl = IR(ir->op1), *irr = IR(ir->op2);
-  Reg left = irl->r, right = irr->r;
-  if (ra_hasreg(left)) {
-    ra_noweak(as, left);
-    if (ra_noreg(right))
-      right = ra_allocref(as, ir->op2, rset_exclude(allow, left));
-    else
-      ra_noweak(as, right);
-  } else if (ra_hasreg(right)) {
-    ra_noweak(as, right);
-    left = ra_allocref(as, ir->op1, rset_exclude(allow, right));
-  } else if (ra_hashint(right)) {
-    right = ra_allocref(as, ir->op2, allow);
-    left = ra_alloc1(as, ir->op1, rset_exclude(allow, right));
-  } else {
-    left = ra_allocref(as, ir->op1, allow);
-    right = ra_alloc1(as, ir->op2, rset_exclude(allow, left));
-  }
-  return left | (right << 8);
-}
-#endif
-
-/* -- Guard handling ------------------------------------------------------ */
-
-/* Generate an exit stub group at the bottom of the reserved MCode memory. */
-static MCode *asm_exitstub_gen(ASMState *as, ExitNo group)
-{
-  MCode *mxp = as->mcbot;
-  int i;
-  if (mxp + 4*4+4*EXITSTUBS_PER_GROUP >= as->mctop)
-    asm_mclimit(as);
-  /* str lr, [sp]; bl ->vm_exit_handler; .long DISPATCH_address, group. */
-  *mxp++ = ARMI_STR|ARMI_LS_P|ARMI_LS_U|ARMF_D(RID_LR)|ARMF_N(RID_SP);
-  *mxp = ARMI_BL|((((MCode *)(void *)lj_vm_exit_handler-mxp)-2)&0x00ffffffu);
-  mxp++;
-  *mxp++ = (MCode)i32ptr(J2GG(as->J)->dispatch);  /* DISPATCH address */
-  *mxp++ = group*EXITSTUBS_PER_GROUP;
-  for (i = 0; i < EXITSTUBS_PER_GROUP; i++)
-    *mxp++ = ARMI_B|((-6-i)&0x00ffffffu);
-  lj_mcode_sync(as->mcbot, mxp);
-  lj_mcode_commitbot(as->J, mxp);
-  as->mcbot = mxp;
-  as->mclim = as->mcbot + MCLIM_REDZONE;
-  return mxp - EXITSTUBS_PER_GROUP;
-}
-
-/* Setup all needed exit stubs. */
-static void asm_exitstub_setup(ASMState *as, ExitNo nexits)
-{
-  ExitNo i;
-  if (nexits >= EXITSTUBS_PER_GROUP*LJ_MAX_EXITSTUBGR)
-    lj_trace_err(as->J, LJ_TRERR_SNAPOV);
-  for (i = 0; i < (nexits+EXITSTUBS_PER_GROUP-1)/EXITSTUBS_PER_GROUP; i++)
-    if (as->J->exitstubgroup[i] == NULL)
-      as->J->exitstubgroup[i] = asm_exitstub_gen(as, i);
-}
-
-/* Emit conditional branch to exit for guard. */
-static void asm_guardcc(ASMState *as, ARMCC cc)
-{
-  MCode *target = exitstub_addr(as->J, as->snapno);
-  MCode *p = as->mcp;
-  if (LJ_UNLIKELY(p == as->invmcp)) {
-    as->loopinv = 1;
-    *p = ARMI_BL | ((target-p-2) & 0x00ffffffu);
-    emit_branch(as, ARMF_CC(ARMI_B, cc^1), p+1);
-    return;
-  }
-  emit_branch(as, ARMF_CC(ARMI_BL, cc), target);
-}
-
-/* -- Operand fusion ------------------------------------------------------ */
-
-/* Limit linear search to this distance. Avoids O(n^2) behavior. */
-#define CONFLICT_SEARCH_LIM	31
-
-/* Check if there's no conflicting instruction between curins and ref. */
-static int noconflict(ASMState *as, IRRef ref, IROp conflict)
-{
-  IRIns *ir = as->ir;
-  IRRef i = as->curins;
-  if (i > ref + CONFLICT_SEARCH_LIM)
-    return 0;  /* Give up, ref is too far away. */
-  while (--i > ref)
-    if (ir[i].o == conflict)
-      return 0;  /* Conflict found. */
-  return 1;  /* Ok, no conflict. */
-}
-
-/* Fuse the array base of colocated arrays. */
-static int32_t asm_fuseabase(ASMState *as, IRRef ref)
-{
-  IRIns *ir = IR(ref);
-  if (ir->o == IR_TNEW && ir->op1 <= LJ_MAX_COLOSIZE &&
-      !neverfuse(as) && noconflict(as, ref, IR_NEWREF))
-    return (int32_t)sizeof(GCtab);
-  return 0;
-}
-
-/* Fuse array/hash/upvalue reference into register+offset operand. */
-static Reg asm_fuseahuref(ASMState *as, IRRef ref, int32_t *ofsp, RegSet allow,
-			  int lim)
-{
-  IRIns *ir = IR(ref);
-  if (ra_noreg(ir->r)) {
-    if (ir->o == IR_AREF) {
-      if (mayfuse(as, ref)) {
-	if (irref_isk(ir->op2)) {
-	  IRRef tab = IR(ir->op1)->op1;
-	  int32_t ofs = asm_fuseabase(as, tab);
-	  IRRef refa = ofs ? tab : ir->op1;
-	  ofs += 8*IR(ir->op2)->i;
-	  if (ofs > -lim && ofs < lim) {
-	    *ofsp = ofs;
-	    return ra_alloc1(as, refa, allow);
-	  }
-	}
-      }
-    } else if (ir->o == IR_HREFK) {
-      if (mayfuse(as, ref)) {
-	int32_t ofs = (int32_t)(IR(ir->op2)->op2 * sizeof(Node));
-	if (ofs < lim) {
-	  *ofsp = ofs;
-	  return ra_alloc1(as, ir->op1, allow);
-	}
-      }
-    } else if (ir->o == IR_UREFC) {
-      if (irref_isk(ir->op1)) {
-	GCfunc *fn = ir_kfunc(IR(ir->op1));
-	int32_t ofs = i32ptr(&gcref(fn->l.uvptr[(ir->op2 >> 8)])->uv.tv);
-	*ofsp = (ofs & 255);  /* Mask out less bits to allow LDRD. */
-	return ra_allock(as, (ofs & ~255), allow);
-      }
-    }
-  }
-  *ofsp = 0;
-  return ra_alloc1(as, ref, allow);
-}
-
-/* Fuse m operand into arithmetic/logic instructions. */
-static uint32_t asm_fuseopm(ASMState *as, ARMIns ai, IRRef ref, RegSet allow)
-{
-  IRIns *ir = IR(ref);
-  if (ra_hasreg(ir->r)) {
-    ra_noweak(as, ir->r);
-    return ARMF_M(ir->r);
-  } else if (irref_isk(ref)) {
-    uint32_t k = emit_isk12(ai, ir->i);
-    if (k)
-      return k;
-  } else if (mayfuse(as, ref)) {
-    if (ir->o >= IR_BSHL && ir->o <= IR_BROR) {
-      Reg m = ra_alloc1(as, ir->op1, allow);
-      ARMShift sh = ir->o == IR_BSHL ? ARMSH_LSL :
-		    ir->o == IR_BSHR ? ARMSH_LSR :
-		    ir->o == IR_BSAR ? ARMSH_ASR : ARMSH_ROR;
-      if (irref_isk(ir->op2)) {
-	return m | ARMF_SH(sh, (IR(ir->op2)->i & 31));
-      } else {
-	Reg s = ra_alloc1(as, ir->op2, rset_exclude(allow, m));
-	return m | ARMF_RSH(sh, s);
-      }
-    } else if (ir->o == IR_ADD && ir->op1 == ir->op2) {
-      Reg m = ra_alloc1(as, ir->op1, allow);
-      return m | ARMF_SH(ARMSH_LSL, 1);
-    }
-  }
-  return ra_allocref(as, ref, allow);
-}
-
-/* Fuse shifts into loads/stores. Only bother with BSHL 2 => lsl #2. */
-static IRRef asm_fuselsl2(ASMState *as, IRRef ref)
-{
-  IRIns *ir = IR(ref);
-  if (ra_noreg(ir->r) && mayfuse(as, ref) && ir->o == IR_BSHL &&
-      irref_isk(ir->op2) && IR(ir->op2)->i == 2)
-    return ir->op1;
-  return 0;  /* No fusion. */
-}
-
-/* Fuse XLOAD/XSTORE reference into load/store operand. */
-static void asm_fusexref(ASMState *as, ARMIns ai, Reg rd, IRRef ref,
-			 RegSet allow, int32_t ofs)
-{
-  IRIns *ir = IR(ref);
-  Reg base;
-  if (ra_noreg(ir->r) && canfuse(as, ir)) {
-    int32_t lim = (!LJ_SOFTFP && (ai & 0x08000000)) ? 1024 :
-		   (ai & 0x04000000) ? 4096 : 256;
-    if (ir->o == IR_ADD) {
-      int32_t ofs2;
-      if (irref_isk(ir->op2) &&
-	  (ofs2 = ofs + IR(ir->op2)->i) > -lim && ofs2 < lim &&
-	  (!(!LJ_SOFTFP && (ai & 0x08000000)) || !(ofs2 & 3))) {
-	ofs = ofs2;
-	ref = ir->op1;
-      } else if (ofs == 0 && !(!LJ_SOFTFP && (ai & 0x08000000))) {
-	IRRef lref = ir->op1, rref = ir->op2;
-	Reg rn, rm;
-	if ((ai & 0x04000000)) {
-	  IRRef sref = asm_fuselsl2(as, rref);
-	  if (sref) {
-	    rref = sref;
-	    ai |= ARMF_SH(ARMSH_LSL, 2);
-	  } else if ((sref = asm_fuselsl2(as, lref)) != 0) {
-	    lref = rref;
-	    rref = sref;
-	    ai |= ARMF_SH(ARMSH_LSL, 2);
-	  }
-	}
-	rn = ra_alloc1(as, lref, allow);
-	rm = ra_alloc1(as, rref, rset_exclude(allow, rn));
-	if ((ai & 0x04000000)) ai |= ARMI_LS_R;
-	emit_dnm(as, ai|ARMI_LS_P|ARMI_LS_U, rd, rn, rm);
-	return;
-      }
-    } else if (ir->o == IR_STRREF && !(!LJ_SOFTFP && (ai & 0x08000000))) {
-      lua_assert(ofs == 0);
-      ofs = (int32_t)sizeof(GCstr);
-      if (irref_isk(ir->op2)) {
-	ofs += IR(ir->op2)->i;
-	ref = ir->op1;
-      } else if (irref_isk(ir->op1)) {
-	ofs += IR(ir->op1)->i;
-	ref = ir->op2;
-      } else {
-	/* NYI: Fuse ADD with constant. */
-	Reg rn = ra_alloc1(as, ir->op1, allow);
-	uint32_t m = asm_fuseopm(as, 0, ir->op2, rset_exclude(allow, rn));
-	if ((ai & 0x04000000))
-	  emit_lso(as, ai, rd, rd, ofs);
-	else
-	  emit_lsox(as, ai, rd, rd, ofs);
-	emit_dn(as, ARMI_ADD^m, rd, rn);
-	return;
-      }
-      if (ofs <= -lim || ofs >= lim) {
-	Reg rn = ra_alloc1(as, ref, allow);
-	Reg rm = ra_allock(as, ofs, rset_exclude(allow, rn));
-	if ((ai & 0x04000000)) ai |= ARMI_LS_R;
-	emit_dnm(as, ai|ARMI_LS_P|ARMI_LS_U, rd, rn, rm);
-	return;
-      }
-    }
-  }
-  base = ra_alloc1(as, ref, allow);
-#if !LJ_SOFTFP
-  if ((ai & 0x08000000))
-    emit_vlso(as, ai, rd, base, ofs);
-  else
-#endif
-  if ((ai & 0x04000000))
-    emit_lso(as, ai, rd, base, ofs);
-  else
-    emit_lsox(as, ai, rd, base, ofs);
-}
-
-#if !LJ_SOFTFP
-/* Fuse to multiply-add/sub instruction. */
-static int asm_fusemadd(ASMState *as, IRIns *ir, ARMIns ai, ARMIns air)
-{
-  IRRef lref = ir->op1, rref = ir->op2;
-  IRIns *irm;
-  if (lref != rref &&
-      ((mayfuse(as, lref) && (irm = IR(lref), irm->o == IR_MUL) &&
-	ra_noreg(irm->r)) ||
-       (mayfuse(as, rref) && (irm = IR(rref), irm->o == IR_MUL) &&
-	(rref = lref, ai = air, ra_noreg(irm->r))))) {
-    Reg dest = ra_dest(as, ir, RSET_FPR);
-    Reg add = ra_hintalloc(as, rref, dest, RSET_FPR);
-    Reg right, left = ra_alloc2(as, irm,
-			rset_exclude(rset_exclude(RSET_FPR, dest), add));
-    right = (left >> 8); left &= 255;
-    emit_dnm(as, ai, (dest & 15), (left & 15), (right & 15));
-    if (dest != add) emit_dm(as, ARMI_VMOV_D, (dest & 15), (add & 15));
-    return 1;
-  }
-  return 0;
-}
-#endif
-
-/* -- Calls --------------------------------------------------------------- */
-
-/* Generate a call to a C function. */
-static void asm_gencall(ASMState *as, const CCallInfo *ci, IRRef *args)
-{
-  uint32_t n, nargs = CCI_NARGS(ci);
-  int32_t ofs = 0;
-#if LJ_SOFTFP
-  Reg gpr = REGARG_FIRSTGPR;
-#else
-  Reg gpr, fpr = REGARG_FIRSTFPR, fprodd = 0;
-#endif
-  if ((void *)ci->func)
-    emit_call(as, (void *)ci->func);
-#if !LJ_SOFTFP
-  for (gpr = REGARG_FIRSTGPR; gpr <= REGARG_LASTGPR; gpr++)
-    as->cost[gpr] = REGCOST(~0u, ASMREF_L);
-  gpr = REGARG_FIRSTGPR;
-#endif
-  for (n = 0; n < nargs; n++) {  /* Setup args. */
-    IRRef ref = args[n];
-    IRIns *ir = IR(ref);
-#if !LJ_SOFTFP
-    if (ref && irt_isfp(ir->t)) {
-      RegSet of = as->freeset;
-      Reg src;
-      if (!LJ_ABI_SOFTFP && !(ci->flags & CCI_VARARG)) {
-	if (irt_isnum(ir->t)) {
-	  if (fpr <= REGARG_LASTFPR) {
-	    ra_leftov(as, fpr, ref);
-	    fpr++;
-	    continue;
-	  }
-	} else if (fprodd) {  /* Ick. */
-	  src = ra_alloc1(as, ref, RSET_FPR);
-	  emit_dm(as, ARMI_VMOV_S, (fprodd & 15), (src & 15) | 0x00400000);
-	  fprodd = 0;
-	  continue;
-	} else if (fpr <= REGARG_LASTFPR) {
-	  ra_leftov(as, fpr, ref);
-	  fprodd = fpr++;
-	  continue;
-	}
-	/* Workaround to protect argument GPRs from being used for remat. */
-	as->freeset &= ~RSET_RANGE(REGARG_FIRSTGPR, REGARG_LASTGPR+1);
-	src = ra_alloc1(as, ref, RSET_FPR);  /* May alloc GPR to remat FPR. */
-	as->freeset |= (of & RSET_RANGE(REGARG_FIRSTGPR, REGARG_LASTGPR+1));
-	fprodd = 0;
-	goto stackfp;
-      }
-      /* Workaround to protect argument GPRs from being used for remat. */
-      as->freeset &= ~RSET_RANGE(REGARG_FIRSTGPR, REGARG_LASTGPR+1);
-      src = ra_alloc1(as, ref, RSET_FPR);  /* May alloc GPR to remat FPR. */
-      as->freeset |= (of & RSET_RANGE(REGARG_FIRSTGPR, REGARG_LASTGPR+1));
-      if (irt_isnum(ir->t)) gpr = (gpr+1) & ~1u;
-      if (gpr <= REGARG_LASTGPR) {
-	lua_assert(rset_test(as->freeset, gpr));  /* Must have been evicted. */
-	if (irt_isnum(ir->t)) {
-	  lua_assert(rset_test(as->freeset, gpr+1));  /* Ditto. */
-	  emit_dnm(as, ARMI_VMOV_RR_D, gpr, gpr+1, (src & 15));
-	  gpr += 2;
-	} else {
-	  emit_dn(as, ARMI_VMOV_R_S, gpr, (src & 15));
-	  gpr++;
-	}
-      } else {
-      stackfp:
-	if (irt_isnum(ir->t)) ofs = (ofs + 4) & ~4;
-	emit_spstore(as, ir, src, ofs);
-	ofs += irt_isnum(ir->t) ? 8 : 4;
-      }
-    } else
-#endif
-    {
-      if (gpr <= REGARG_LASTGPR) {
-	lua_assert(rset_test(as->freeset, gpr));  /* Must have been evicted. */
-	if (ref) ra_leftov(as, gpr, ref);
-	gpr++;
-      } else {
-	if (ref) {
-	  Reg r = ra_alloc1(as, ref, RSET_GPR);
-	  emit_spstore(as, ir, r, ofs);
-	}
-	ofs += 4;
-      }
-    }
-  }
-}
-
-/* Setup result reg/sp for call. Evict scratch regs. */
-static void asm_setupresult(ASMState *as, IRIns *ir, const CCallInfo *ci)
-{
-  RegSet drop = RSET_SCRATCH;
-  int hiop = ((ir+1)->o == IR_HIOP);
-  if (ra_hasreg(ir->r))
-    rset_clear(drop, ir->r);  /* Dest reg handled below. */
-  if (hiop && ra_hasreg((ir+1)->r))
-    rset_clear(drop, (ir+1)->r);  /* Dest reg handled below. */
-  ra_evictset(as, drop);  /* Evictions must be performed first. */
-  if (ra_used(ir)) {
-    lua_assert(!irt_ispri(ir->t));
-    if (!LJ_SOFTFP && irt_isfp(ir->t)) {
-      if (LJ_ABI_SOFTFP || (ci->flags & (CCI_CASTU64|CCI_VARARG))) {
-	Reg dest = (ra_dest(as, ir, RSET_FPR) & 15);
-	if (irt_isnum(ir->t))
-	  emit_dnm(as, ARMI_VMOV_D_RR, RID_RETLO, RID_RETHI, dest);
-	else
-	  emit_dn(as, ARMI_VMOV_S_R, RID_RET, dest);
-      } else {
-	ra_destreg(as, ir, RID_FPRET);
-      }
-    } else if (hiop) {
-      ra_destpair(as, ir);
-    } else {
-      ra_destreg(as, ir, RID_RET);
-    }
-  }
-  UNUSED(ci);
-}
-
-static void asm_call(ASMState *as, IRIns *ir)
-{
-  IRRef args[CCI_NARGS_MAX];
-  const CCallInfo *ci = &lj_ir_callinfo[ir->op2];
-  asm_collectargs(as, ir, ci, args);
-  asm_setupresult(as, ir, ci);
-  asm_gencall(as, ci, args);
-}
-
-static void asm_callx(ASMState *as, IRIns *ir)
-{
-  IRRef args[CCI_NARGS_MAX*2];
-  CCallInfo ci;
-  IRRef func;
-  IRIns *irf;
-  ci.flags = asm_callx_flags(as, ir);
-  asm_collectargs(as, ir, &ci, args);
-  asm_setupresult(as, ir, &ci);
-  func = ir->op2; irf = IR(func);
-  if (irf->o == IR_CARG) { func = irf->op1; irf = IR(func); }
-  if (irref_isk(func)) {  /* Call to constant address. */
-    ci.func = (ASMFunction)(void *)(irf->i);
-  } else {  /* Need a non-argument register for indirect calls. */
-    Reg freg = ra_alloc1(as, func, RSET_RANGE(RID_R4, RID_R12+1));
-    emit_m(as, ARMI_BLXr, freg);
-    ci.func = (ASMFunction)(void *)0;
-  }
-  asm_gencall(as, &ci, args);
-}
-
-/* -- Returns ------------------------------------------------------------- */
-
-/* Return to lower frame. Guard that it goes to the right spot. */
-static void asm_retf(ASMState *as, IRIns *ir)
-{
-  Reg base = ra_alloc1(as, REF_BASE, RSET_GPR);
-  void *pc = ir_kptr(IR(ir->op2));
-  int32_t delta = 1+bc_a(*((const BCIns *)pc - 1));
-  as->topslot -= (BCReg)delta;
-  if ((int32_t)as->topslot < 0) as->topslot = 0;
-  irt_setmark(IR(REF_BASE)->t);  /* Children must not coalesce with BASE reg. */
-  /* Need to force a spill on REF_BASE now to update the stack slot. */
-  emit_lso(as, ARMI_STR, base, RID_SP, ra_spill(as, IR(REF_BASE)));
-  emit_setgl(as, base, jit_base);
-  emit_addptr(as, base, -8*delta);
-  asm_guardcc(as, CC_NE);
-  emit_nm(as, ARMI_CMP, RID_TMP,
-	  ra_allock(as, i32ptr(pc), rset_exclude(RSET_GPR, base)));
-  emit_lso(as, ARMI_LDR, RID_TMP, base, -4);
-}
-
-/* -- Type conversions ---------------------------------------------------- */
-
-#if !LJ_SOFTFP
-static void asm_tointg(ASMState *as, IRIns *ir, Reg left)
-{
-  Reg tmp = ra_scratch(as, rset_exclude(RSET_FPR, left));
-  Reg dest = ra_dest(as, ir, RSET_GPR);
-  asm_guardcc(as, CC_NE);
-  emit_d(as, ARMI_VMRS, 0);
-  emit_dm(as, ARMI_VCMP_D, (tmp & 15), (left & 15));
-  emit_dm(as, ARMI_VCVT_F64_S32, (tmp & 15), (tmp & 15));
-  emit_dn(as, ARMI_VMOV_R_S, dest, (tmp & 15));
-  emit_dm(as, ARMI_VCVT_S32_F64, (tmp & 15), (left & 15));
-}
-
-static void asm_tobit(ASMState *as, IRIns *ir)
-{
-  RegSet allow = RSET_FPR;
-  Reg left = ra_alloc1(as, ir->op1, allow);
-  Reg right = ra_alloc1(as, ir->op2, rset_clear(allow, left));
-  Reg tmp = ra_scratch(as, rset_clear(allow, right));
-  Reg dest = ra_dest(as, ir, RSET_GPR);
-  emit_dn(as, ARMI_VMOV_R_S, dest, (tmp & 15));
-  emit_dnm(as, ARMI_VADD_D, (tmp & 15), (left & 15), (right & 15));
-}
-#endif
-
-static void asm_conv(ASMState *as, IRIns *ir)
-{
-  IRType st = (IRType)(ir->op2 & IRCONV_SRCMASK);
-#if !LJ_SOFTFP
-  int stfp = (st == IRT_NUM || st == IRT_FLOAT);
-#endif
-  IRRef lref = ir->op1;
-  /* 64 bit integer conversions are handled by SPLIT. */
-  lua_assert(!irt_isint64(ir->t) && !(st == IRT_I64 || st == IRT_U64));
-#if LJ_SOFTFP
-  /* FP conversions are handled by SPLIT. */
-  lua_assert(!irt_isfp(ir->t) && !(st == IRT_NUM || st == IRT_FLOAT));
-  /* Can't check for same types: SPLIT uses CONV int.int + BXOR for sfp NEG. */
-#else
-  lua_assert(irt_type(ir->t) != st);
-  if (irt_isfp(ir->t)) {
-    Reg dest = ra_dest(as, ir, RSET_FPR);
-    if (stfp) {  /* FP to FP conversion. */
-      emit_dm(as, st == IRT_NUM ? ARMI_VCVT_F32_F64 : ARMI_VCVT_F64_F32,
-	      (dest & 15), (ra_alloc1(as, lref, RSET_FPR) & 15));
-    } else {  /* Integer to FP conversion. */
-      Reg left = ra_alloc1(as, lref, RSET_GPR);
-      ARMIns ai = irt_isfloat(ir->t) ?
-	(st == IRT_INT ? ARMI_VCVT_F32_S32 : ARMI_VCVT_F32_U32) :
-	(st == IRT_INT ? ARMI_VCVT_F64_S32 : ARMI_VCVT_F64_U32);
-      emit_dm(as, ai, (dest & 15), (dest & 15));
-      emit_dn(as, ARMI_VMOV_S_R, left, (dest & 15));
-    }
-  } else if (stfp) {  /* FP to integer conversion. */
-    if (irt_isguard(ir->t)) {
-      /* Checked conversions are only supported from number to int. */
-      lua_assert(irt_isint(ir->t) && st == IRT_NUM);
-      asm_tointg(as, ir, ra_alloc1(as, lref, RSET_FPR));
-    } else {
-      Reg left = ra_alloc1(as, lref, RSET_FPR);
-      Reg tmp = ra_scratch(as, rset_exclude(RSET_FPR, left));
-      Reg dest = ra_dest(as, ir, RSET_GPR);
-      ARMIns ai;
-      emit_dn(as, ARMI_VMOV_R_S, dest, (tmp & 15));
-      ai = irt_isint(ir->t) ?
-	(st == IRT_NUM ? ARMI_VCVT_S32_F64 : ARMI_VCVT_S32_F32) :
-	(st == IRT_NUM ? ARMI_VCVT_U32_F64 : ARMI_VCVT_U32_F32);
-      emit_dm(as, ai, (tmp & 15), (left & 15));
-    }
-  } else
-#endif
-  {
-    Reg dest = ra_dest(as, ir, RSET_GPR);
-    if (st >= IRT_I8 && st <= IRT_U16) {  /* Extend to 32 bit integer. */
-      Reg left = ra_alloc1(as, lref, RSET_GPR);
-      lua_assert(irt_isint(ir->t) || irt_isu32(ir->t));
-      if ((as->flags & JIT_F_ARMV6)) {
-	ARMIns ai = st == IRT_I8 ? ARMI_SXTB :
-		    st == IRT_U8 ? ARMI_UXTB :
-		    st == IRT_I16 ? ARMI_SXTH : ARMI_UXTH;
-	emit_dm(as, ai, dest, left);
-      } else if (st == IRT_U8) {
-	emit_dn(as, ARMI_AND|ARMI_K12|255, dest, left);
-      } else {
-	uint32_t shift = st == IRT_I8 ? 24 : 16;
-	ARMShift sh = st == IRT_U16 ? ARMSH_LSR : ARMSH_ASR;
-	emit_dm(as, ARMI_MOV|ARMF_SH(sh, shift), dest, RID_TMP);
-	emit_dm(as, ARMI_MOV|ARMF_SH(ARMSH_LSL, shift), RID_TMP, left);
-      }
-    } else {  /* Handle 32/32 bit no-op (cast). */
-      ra_leftov(as, dest, lref);  /* Do nothing, but may need to move regs. */
-    }
-  }
-}
-
-#if !LJ_SOFTFP && LJ_HASFFI
-static void asm_conv64(ASMState *as, IRIns *ir)
-{
-  IRType st = (IRType)((ir-1)->op2 & IRCONV_SRCMASK);
-  IRType dt = (((ir-1)->op2 & IRCONV_DSTMASK) >> IRCONV_DSH);
-  IRCallID id;
-  CCallInfo ci;
-  IRRef args[2];
-  args[0] = (ir-1)->op1;
-  args[1] = ir->op1;
-  if (st == IRT_NUM || st == IRT_FLOAT) {
-    id = IRCALL_fp64_d2l + ((st == IRT_FLOAT) ? 2 : 0) + (dt - IRT_I64);
-    ir--;
-  } else {
-    id = IRCALL_fp64_l2d + ((dt == IRT_FLOAT) ? 2 : 0) + (st - IRT_I64);
-  }
-  ci = lj_ir_callinfo[id];
-#if !LJ_ABI_SOFTFP
-  ci.flags |= CCI_VARARG;  /* These calls don't use the hard-float ABI! */
-#endif
-  asm_setupresult(as, ir, &ci);
-  asm_gencall(as, &ci, args);
-}
-#endif
-
-static void asm_strto(ASMState *as, IRIns *ir)
-{
-  const CCallInfo *ci = &lj_ir_callinfo[IRCALL_lj_strscan_num];
-  IRRef args[2];
-  Reg rlo = 0, rhi = 0, tmp;
-  int destused = ra_used(ir);
-  int32_t ofs = 0;
-  ra_evictset(as, RSET_SCRATCH);
-#if LJ_SOFTFP
-  if (destused) {
-    if (ra_hasspill(ir->s) && ra_hasspill((ir+1)->s) &&
-	(ir->s & 1) == 0 && ir->s + 1 == (ir+1)->s) {
-      int i;
-      for (i = 0; i < 2; i++) {
-	Reg r = (ir+i)->r;
-	if (ra_hasreg(r)) {
-	  ra_free(as, r);
-	  ra_modified(as, r);
-	  emit_spload(as, ir+i, r, sps_scale((ir+i)->s));
-	}
-      }
-      ofs = sps_scale(ir->s);
-      destused = 0;
-    } else {
-      rhi = ra_dest(as, ir+1, RSET_GPR);
-      rlo = ra_dest(as, ir, rset_exclude(RSET_GPR, rhi));
-    }
-  }
-  asm_guardcc(as, CC_EQ);
-  if (destused) {
-    emit_lso(as, ARMI_LDR, rhi, RID_SP, 4);
-    emit_lso(as, ARMI_LDR, rlo, RID_SP, 0);
-  }
-#else
-  UNUSED(rhi);
-  if (destused) {
-    if (ra_hasspill(ir->s)) {
-      ofs = sps_scale(ir->s);
-      destused = 0;
-      if (ra_hasreg(ir->r)) {
-	ra_free(as, ir->r);
-	ra_modified(as, ir->r);
-	emit_spload(as, ir, ir->r, ofs);
-      }
-    } else {
-      rlo = ra_dest(as, ir, RSET_FPR);
-    }
-  }
-  asm_guardcc(as, CC_EQ);
-  if (destused)
-    emit_vlso(as, ARMI_VLDR_D, rlo, RID_SP, 0);
-#endif
-  emit_n(as, ARMI_CMP|ARMI_K12|0, RID_RET);  /* Test return status. */
-  args[0] = ir->op1;      /* GCstr *str */
-  args[1] = ASMREF_TMP1;  /* TValue *n  */
-  asm_gencall(as, ci, args);
-  tmp = ra_releasetmp(as, ASMREF_TMP1);
-  if (ofs == 0)
-    emit_dm(as, ARMI_MOV, tmp, RID_SP);
-  else
-    emit_opk(as, ARMI_ADD, tmp, RID_SP, ofs, RSET_GPR);
-}
-
-/* Get pointer to TValue. */
-static void asm_tvptr(ASMState *as, Reg dest, IRRef ref)
-{
-  IRIns *ir = IR(ref);
-  if (irt_isnum(ir->t)) {
-    if (irref_isk(ref)) {
-      /* Use the number constant itself as a TValue. */
-      ra_allockreg(as, i32ptr(ir_knum(ir)), dest);
-    } else {
-#if LJ_SOFTFP
-      lua_assert(0);
-#else
-      /* Otherwise force a spill and use the spill slot. */
-      emit_opk(as, ARMI_ADD, dest, RID_SP, ra_spill(as, ir), RSET_GPR);
-#endif
-    }
-  } else {
-    /* Otherwise use [sp] and [sp+4] to hold the TValue. */
-    RegSet allow = rset_exclude(RSET_GPR, dest);
-    Reg type;
-    emit_dm(as, ARMI_MOV, dest, RID_SP);
-    if (!irt_ispri(ir->t)) {
-      Reg src = ra_alloc1(as, ref, allow);
-      emit_lso(as, ARMI_STR, src, RID_SP, 0);
-    }
-    if ((ir+1)->o == IR_HIOP)
-      type = ra_alloc1(as, ref+1, allow);
-    else
-      type = ra_allock(as, irt_toitype(ir->t), allow);
-    emit_lso(as, ARMI_STR, type, RID_SP, 4);
-  }
-}
-
-static void asm_tostr(ASMState *as, IRIns *ir)
-{
-  IRRef args[2];
-  args[0] = ASMREF_L;
-  as->gcsteps++;
-  if (irt_isnum(IR(ir->op1)->t) || (ir+1)->o == IR_HIOP) {
-    const CCallInfo *ci = &lj_ir_callinfo[IRCALL_lj_str_fromnum];
-    args[1] = ASMREF_TMP1;  /* const lua_Number * */
-    asm_setupresult(as, ir, ci);  /* GCstr * */
-    asm_gencall(as, ci, args);
-    asm_tvptr(as, ra_releasetmp(as, ASMREF_TMP1), ir->op1);
-  } else {
-    const CCallInfo *ci = &lj_ir_callinfo[IRCALL_lj_str_fromint];
-    args[1] = ir->op1;  /* int32_t k */
-    asm_setupresult(as, ir, ci);  /* GCstr * */
-    asm_gencall(as, ci, args);
-  }
-}
-
-/* -- Memory references --------------------------------------------------- */
-
-static void asm_aref(ASMState *as, IRIns *ir)
-{
-  Reg dest = ra_dest(as, ir, RSET_GPR);
-  Reg idx, base;
-  if (irref_isk(ir->op2)) {
-    IRRef tab = IR(ir->op1)->op1;
-    int32_t ofs = asm_fuseabase(as, tab);
-    IRRef refa = ofs ? tab : ir->op1;
-    uint32_t k = emit_isk12(ARMI_ADD, ofs + 8*IR(ir->op2)->i);
-    if (k) {
-      base = ra_alloc1(as, refa, RSET_GPR);
-      emit_dn(as, ARMI_ADD^k, dest, base);
-      return;
-    }
-  }
-  base = ra_alloc1(as, ir->op1, RSET_GPR);
-  idx = ra_alloc1(as, ir->op2, rset_exclude(RSET_GPR, base));
-  emit_dnm(as, ARMI_ADD|ARMF_SH(ARMSH_LSL, 3), dest, base, idx);
-}
-
-/* Inlined hash lookup. Specialized for key type and for const keys.
-** The equivalent C code is:
-**   Node *n = hashkey(t, key);
-**   do {
-**     if (lj_obj_equal(&n->key, key)) return &n->val;
-**   } while ((n = nextnode(n)));
-**   return niltv(L);
-*/
-static void asm_href(ASMState *as, IRIns *ir, IROp merge)
-{
-  RegSet allow = RSET_GPR;
-  int destused = ra_used(ir);
-  Reg dest = ra_dest(as, ir, allow);
-  Reg tab = ra_alloc1(as, ir->op1, rset_clear(allow, dest));
-  Reg key = 0, keyhi = 0, keynumhi = RID_NONE, tmp = RID_TMP;
-  IRRef refkey = ir->op2;
-  IRIns *irkey = IR(refkey);
-  IRType1 kt = irkey->t;
-  int32_t k = 0, khi = emit_isk12(ARMI_CMP, irt_toitype(kt));
-  uint32_t khash;
-  MCLabel l_end, l_loop;
-  rset_clear(allow, tab);
-  if (!irref_isk(refkey) || irt_isstr(kt)) {
-#if LJ_SOFTFP
-    key = ra_alloc1(as, refkey, allow);
-    rset_clear(allow, key);
-    if (irkey[1].o == IR_HIOP) {
-      if (ra_hasreg((irkey+1)->r)) {
-	keynumhi = (irkey+1)->r;
-	keyhi = RID_TMP;
-	ra_noweak(as, keynumhi);
-      } else {
-	keyhi = keynumhi = ra_allocref(as, refkey+1, allow);
-      }
-      rset_clear(allow, keynumhi);
-      khi = 0;
-    }
-#else
-    if (irt_isnum(kt)) {
-      key = ra_scratch(as, allow);
-      rset_clear(allow, key);
-      keyhi = keynumhi = ra_scratch(as, allow);
-      rset_clear(allow, keyhi);
-      khi = 0;
-    } else {
-      key = ra_alloc1(as, refkey, allow);
-      rset_clear(allow, key);
-    }
-#endif
-  } else if (irt_isnum(kt)) {
-    int32_t val = (int32_t)ir_knum(irkey)->u32.lo;
-    k = emit_isk12(ARMI_CMP, val);
-    if (!k) {
-      key = ra_allock(as, val, allow);
-      rset_clear(allow, key);
-    }
-    val = (int32_t)ir_knum(irkey)->u32.hi;
-    khi = emit_isk12(ARMI_CMP, val);
-    if (!khi) {
-      keyhi = ra_allock(as, val, allow);
-      rset_clear(allow, keyhi);
-    }
-  } else if (!irt_ispri(kt)) {
-    k = emit_isk12(ARMI_CMP, irkey->i);
-    if (!k) {
-      key = ra_alloc1(as, refkey, allow);
-      rset_clear(allow, key);
-    }
-  }
-  if (!irt_ispri(kt))
-    tmp = ra_scratchpair(as, allow);
-
-  /* Key not found in chain: jump to exit (if merged) or load niltv. */
-  l_end = emit_label(as);
-  as->invmcp = NULL;
-  if (merge == IR_NE)
-    asm_guardcc(as, CC_AL);
-  else if (destused)
-    emit_loada(as, dest, niltvg(J2G(as->J)));
-
-  /* Follow hash chain until the end. */
-  l_loop = --as->mcp;
-  emit_n(as, ARMI_CMP|ARMI_K12|0, dest);
-  emit_lso(as, ARMI_LDR, dest, dest, (int32_t)offsetof(Node, next));
-
-  /* Type and value comparison. */
-  if (merge == IR_EQ)
-    asm_guardcc(as, CC_EQ);
-  else
-    emit_branch(as, ARMF_CC(ARMI_B, CC_EQ), l_end);
-  if (!irt_ispri(kt)) {
-    emit_nm(as, ARMF_CC(ARMI_CMP, CC_EQ)^k, tmp, key);
-    emit_nm(as, ARMI_CMP^khi, tmp+1, keyhi);
-    emit_lsox(as, ARMI_LDRD, tmp, dest, (int32_t)offsetof(Node, key));
-  } else {
-    emit_n(as, ARMI_CMP^khi, tmp);
-    emit_lso(as, ARMI_LDR, tmp, dest, (int32_t)offsetof(Node, key.it));
-  }
-  *l_loop = ARMF_CC(ARMI_B, CC_NE) | ((as->mcp-l_loop-2) & 0x00ffffffu);
-
-  /* Load main position relative to tab->node into dest. */
-  khash = irref_isk(refkey) ? ir_khash(irkey) : 1;
-  if (khash == 0) {
-    emit_lso(as, ARMI_LDR, dest, tab, (int32_t)offsetof(GCtab, node));
-  } else {
-    emit_dnm(as, ARMI_ADD|ARMF_SH(ARMSH_LSL, 3), dest, dest, tmp);
-    emit_dnm(as, ARMI_ADD|ARMF_SH(ARMSH_LSL, 1), tmp, tmp, tmp);
-    if (irt_isstr(kt)) {  /* Fetch of str->hash is cheaper than ra_allock. */
-      emit_dnm(as, ARMI_AND, tmp, tmp+1, RID_TMP);
-      emit_lso(as, ARMI_LDR, dest, tab, (int32_t)offsetof(GCtab, node));
-      emit_lso(as, ARMI_LDR, tmp+1, key, (int32_t)offsetof(GCstr, hash));
-      emit_lso(as, ARMI_LDR, RID_TMP, tab, (int32_t)offsetof(GCtab, hmask));
-    } else if (irref_isk(refkey)) {
-      emit_opk(as, ARMI_AND, tmp, RID_TMP, (int32_t)khash,
-	       rset_exclude(rset_exclude(RSET_GPR, tab), dest));
-      emit_lso(as, ARMI_LDR, dest, tab, (int32_t)offsetof(GCtab, node));
-      emit_lso(as, ARMI_LDR, RID_TMP, tab, (int32_t)offsetof(GCtab, hmask));
-    } else {  /* Must match with hash*() in lj_tab.c. */
-      if (ra_hasreg(keynumhi)) {  /* Canonicalize +-0.0 to 0.0. */
-	if (keyhi == RID_TMP)
-	  emit_dm(as, ARMF_CC(ARMI_MOV, CC_NE), keyhi, keynumhi);
-	emit_d(as, ARMF_CC(ARMI_MOV, CC_EQ)|ARMI_K12|0, keyhi);
-      }
-      emit_dnm(as, ARMI_AND, tmp, tmp, RID_TMP);
-      emit_dnm(as, ARMI_SUB|ARMF_SH(ARMSH_ROR, 32-HASH_ROT3), tmp, tmp, tmp+1);
-      emit_lso(as, ARMI_LDR, dest, tab, (int32_t)offsetof(GCtab, node));
-      emit_dnm(as, ARMI_EOR|ARMF_SH(ARMSH_ROR, 32-((HASH_ROT2+HASH_ROT1)&31)),
-	       tmp, tmp+1, tmp);
-      emit_lso(as, ARMI_LDR, RID_TMP, tab, (int32_t)offsetof(GCtab, hmask));
-      emit_dnm(as, ARMI_SUB|ARMF_SH(ARMSH_ROR, 32-HASH_ROT1), tmp+1, tmp+1, tmp);
-      if (ra_hasreg(keynumhi)) {
-	emit_dnm(as, ARMI_EOR, tmp+1, tmp, key);
-	emit_dnm(as, ARMI_ORR|ARMI_S, RID_TMP, tmp, key);  /* Test for +-0.0. */
-	emit_dnm(as, ARMI_ADD, tmp, keynumhi, keynumhi);
-#if !LJ_SOFTFP
-	emit_dnm(as, ARMI_VMOV_RR_D, key, keynumhi,
-		 (ra_alloc1(as, refkey, RSET_FPR) & 15));
-#endif
-      } else {
-	emit_dnm(as, ARMI_EOR, tmp+1, tmp, key);
-	emit_opk(as, ARMI_ADD, tmp, key, (int32_t)HASH_BIAS,
-		 rset_exclude(rset_exclude(RSET_GPR, tab), key));
-      }
-    }
-  }
-}
-
-static void asm_hrefk(ASMState *as, IRIns *ir)
-{
-  IRIns *kslot = IR(ir->op2);
-  IRIns *irkey = IR(kslot->op1);
-  int32_t ofs = (int32_t)(kslot->op2 * sizeof(Node));
-  int32_t kofs = ofs + (int32_t)offsetof(Node, key);
-  Reg dest = (ra_used(ir) || ofs > 4095) ? ra_dest(as, ir, RSET_GPR) : RID_NONE;
-  Reg node = ra_alloc1(as, ir->op1, RSET_GPR);
-  Reg key = RID_NONE, type = RID_TMP, idx = node;
-  RegSet allow = rset_exclude(RSET_GPR, node);
-  lua_assert(ofs % sizeof(Node) == 0);
-  if (ofs > 4095) {
-    idx = dest;
-    rset_clear(allow, dest);
-    kofs = (int32_t)offsetof(Node, key);
-  } else if (ra_hasreg(dest)) {
-    emit_opk(as, ARMI_ADD, dest, node, ofs, allow);
-  }
-  asm_guardcc(as, CC_NE);
-  if (!irt_ispri(irkey->t)) {
-    RegSet even = (as->freeset & allow);
-    even = even & (even >> 1) & RSET_GPREVEN;
-    if (even) {
-      key = ra_scratch(as, even);
-      if (rset_test(as->freeset, key+1)) {
-	type = key+1;
-	ra_modified(as, type);
-      }
-    } else {
-      key = ra_scratch(as, allow);
-    }
-    rset_clear(allow, key);
-  }
-  rset_clear(allow, type);
-  if (irt_isnum(irkey->t)) {
-    emit_opk(as, ARMF_CC(ARMI_CMP, CC_EQ), 0, type,
-	     (int32_t)ir_knum(irkey)->u32.hi, allow);
-    emit_opk(as, ARMI_CMP, 0, key,
-	     (int32_t)ir_knum(irkey)->u32.lo, allow);
-  } else {
-    if (ra_hasreg(key))
-      emit_opk(as, ARMF_CC(ARMI_CMP, CC_EQ), 0, key, irkey->i, allow);
-    emit_n(as, ARMI_CMN|ARMI_K12|-irt_toitype(irkey->t), type);
-  }
-  emit_lso(as, ARMI_LDR, type, idx, kofs+4);
-  if (ra_hasreg(key)) emit_lso(as, ARMI_LDR, key, idx, kofs);
-  if (ofs > 4095)
-    emit_opk(as, ARMI_ADD, dest, node, ofs, RSET_GPR);
-}
-
-static void asm_newref(ASMState *as, IRIns *ir)
-{
-  const CCallInfo *ci = &lj_ir_callinfo[IRCALL_lj_tab_newkey];
-  IRRef args[3];
-  if (ir->r == RID_SINK)
-    return;
-  args[0] = ASMREF_L;     /* lua_State *L */
-  args[1] = ir->op1;      /* GCtab *t     */
-  args[2] = ASMREF_TMP1;  /* cTValue *key */
-  asm_setupresult(as, ir, ci);  /* TValue * */
-  asm_gencall(as, ci, args);
-  asm_tvptr(as, ra_releasetmp(as, ASMREF_TMP1), ir->op2);
-}
-
-static void asm_uref(ASMState *as, IRIns *ir)
-{
-  /* NYI: Check that UREFO is still open and not aliasing a slot. */
-  Reg dest = ra_dest(as, ir, RSET_GPR);
-  if (irref_isk(ir->op1)) {
-    GCfunc *fn = ir_kfunc(IR(ir->op1));
-    MRef *v = &gcref(fn->l.uvptr[(ir->op2 >> 8)])->uv.v;
-    emit_lsptr(as, ARMI_LDR, dest, v);
-  } else {
-    Reg uv = ra_scratch(as, RSET_GPR);
-    Reg func = ra_alloc1(as, ir->op1, RSET_GPR);
-    if (ir->o == IR_UREFC) {
-      asm_guardcc(as, CC_NE);
-      emit_n(as, ARMI_CMP|ARMI_K12|1, RID_TMP);
-      emit_opk(as, ARMI_ADD, dest, uv,
-	       (int32_t)offsetof(GCupval, tv), RSET_GPR);
-      emit_lso(as, ARMI_LDRB, RID_TMP, uv, (int32_t)offsetof(GCupval, closed));
-    } else {
-      emit_lso(as, ARMI_LDR, dest, uv, (int32_t)offsetof(GCupval, v));
-    }
-    emit_lso(as, ARMI_LDR, uv, func,
-	     (int32_t)offsetof(GCfuncL, uvptr) + 4*(int32_t)(ir->op2 >> 8));
-  }
-}
-
-static void asm_fref(ASMState *as, IRIns *ir)
-{
-  UNUSED(as); UNUSED(ir);
-  lua_assert(!ra_used(ir));
-}
-
-static void asm_strref(ASMState *as, IRIns *ir)
-{
-  Reg dest = ra_dest(as, ir, RSET_GPR);
-  IRRef ref = ir->op2, refk = ir->op1;
-  Reg r;
-  if (irref_isk(ref)) {
-    IRRef tmp = refk; refk = ref; ref = tmp;
-  } else if (!irref_isk(refk)) {
-    uint32_t k, m = ARMI_K12|sizeof(GCstr);
-    Reg right, left = ra_alloc1(as, ir->op1, RSET_GPR);
-    IRIns *irr = IR(ir->op2);
-    if (ra_hasreg(irr->r)) {
-      ra_noweak(as, irr->r);
-      right = irr->r;
-    } else if (mayfuse(as, irr->op2) &&
-	       irr->o == IR_ADD && irref_isk(irr->op2) &&
-	       (k = emit_isk12(ARMI_ADD,
-			       (int32_t)sizeof(GCstr) + IR(irr->op2)->i))) {
-      m = k;
-      right = ra_alloc1(as, irr->op1, rset_exclude(RSET_GPR, left));
-    } else {
-      right = ra_allocref(as, ir->op2, rset_exclude(RSET_GPR, left));
-    }
-    emit_dn(as, ARMI_ADD^m, dest, dest);
-    emit_dnm(as, ARMI_ADD, dest, left, right);
-    return;
-  }
-  r = ra_alloc1(as, ref, RSET_GPR);
-  emit_opk(as, ARMI_ADD, dest, r,
-	   sizeof(GCstr) + IR(refk)->i, rset_exclude(RSET_GPR, r));
-}
-
-/* -- Loads and stores ---------------------------------------------------- */
-
-static ARMIns asm_fxloadins(IRIns *ir)
-{
-  switch (irt_type(ir->t)) {
-  case IRT_I8: return ARMI_LDRSB;
-  case IRT_U8: return ARMI_LDRB;
-  case IRT_I16: return ARMI_LDRSH;
-  case IRT_U16: return ARMI_LDRH;
-  case IRT_NUM: lua_assert(!LJ_SOFTFP); return ARMI_VLDR_D;
-  case IRT_FLOAT: if (!LJ_SOFTFP) return ARMI_VLDR_S;
-  default: return ARMI_LDR;
-  }
-}
-
-static ARMIns asm_fxstoreins(IRIns *ir)
-{
-  switch (irt_type(ir->t)) {
-  case IRT_I8: case IRT_U8: return ARMI_STRB;
-  case IRT_I16: case IRT_U16: return ARMI_STRH;
-  case IRT_NUM: lua_assert(!LJ_SOFTFP); return ARMI_VSTR_D;
-  case IRT_FLOAT: if (!LJ_SOFTFP) return ARMI_VSTR_S;
-  default: return ARMI_STR;
-  }
-}
-
-static void asm_fload(ASMState *as, IRIns *ir)
-{
-  Reg dest = ra_dest(as, ir, RSET_GPR);
-  Reg idx = ra_alloc1(as, ir->op1, RSET_GPR);
-  ARMIns ai = asm_fxloadins(ir);
-  int32_t ofs;
-  if (ir->op2 == IRFL_TAB_ARRAY) {
-    ofs = asm_fuseabase(as, ir->op1);
-    if (ofs) {  /* Turn the t->array load into an add for colocated arrays. */
-      emit_dn(as, ARMI_ADD|ARMI_K12|ofs, dest, idx);
-      return;
-    }
-  }
-  ofs = field_ofs[ir->op2];
-  if ((ai & 0x04000000))
-    emit_lso(as, ai, dest, idx, ofs);
-  else
-    emit_lsox(as, ai, dest, idx, ofs);
-}
-
-static void asm_fstore(ASMState *as, IRIns *ir)
-{
-  if (ir->r != RID_SINK) {
-    Reg src = ra_alloc1(as, ir->op2, RSET_GPR);
-    IRIns *irf = IR(ir->op1);
-    Reg idx = ra_alloc1(as, irf->op1, rset_exclude(RSET_GPR, src));
-    int32_t ofs = field_ofs[irf->op2];
-    ARMIns ai = asm_fxstoreins(ir);
-    if ((ai & 0x04000000))
-      emit_lso(as, ai, src, idx, ofs);
-    else
-      emit_lsox(as, ai, src, idx, ofs);
-  }
-}
-
-static void asm_xload(ASMState *as, IRIns *ir)
-{
-  Reg dest = ra_dest(as, ir,
-		     (!LJ_SOFTFP && irt_isfp(ir->t)) ? RSET_FPR : RSET_GPR);
-  lua_assert(!(ir->op2 & IRXLOAD_UNALIGNED));
-  asm_fusexref(as, asm_fxloadins(ir), dest, ir->op1, RSET_GPR, 0);
-}
-
-static void asm_xstore(ASMState *as, IRIns *ir, int32_t ofs)
-{
-  if (ir->r != RID_SINK) {
-    Reg src = ra_alloc1(as, ir->op2,
-			(!LJ_SOFTFP && irt_isfp(ir->t)) ? RSET_FPR : RSET_GPR);
-    asm_fusexref(as, asm_fxstoreins(ir), src, ir->op1,
-		 rset_exclude(RSET_GPR, src), ofs);
-  }
-}
-
-static void asm_ahuvload(ASMState *as, IRIns *ir)
-{
-  int hiop = (LJ_SOFTFP && (ir+1)->o == IR_HIOP);
-  IRType t = hiop ? IRT_NUM : irt_type(ir->t);
-  Reg dest = RID_NONE, type = RID_NONE, idx;
-  RegSet allow = RSET_GPR;
-  int32_t ofs = 0;
-  if (hiop && ra_used(ir+1)) {
-    type = ra_dest(as, ir+1, allow);
-    rset_clear(allow, type);
-  }
-  if (ra_used(ir)) {
-    lua_assert((LJ_SOFTFP ? 0 : irt_isnum(ir->t)) ||
-	       irt_isint(ir->t) || irt_isaddr(ir->t));
-    dest = ra_dest(as, ir, (!LJ_SOFTFP && t == IRT_NUM) ? RSET_FPR : allow);
-    rset_clear(allow, dest);
-  }
-  idx = asm_fuseahuref(as, ir->op1, &ofs, allow,
-		       (!LJ_SOFTFP && t == IRT_NUM) ? 1024 : 4096);
-  if (!hiop || type == RID_NONE) {
-    rset_clear(allow, idx);
-    if (ofs < 256 && ra_hasreg(dest) && (dest & 1) == 0 &&
-	rset_test((as->freeset & allow), dest+1)) {
-      type = dest+1;
-      ra_modified(as, type);
-    } else {
-      type = RID_TMP;
-    }
-  }
-  asm_guardcc(as, t == IRT_NUM ? CC_HS : CC_NE);
-  emit_n(as, ARMI_CMN|ARMI_K12|-irt_toitype_(t), type);
-  if (ra_hasreg(dest)) {
-#if !LJ_SOFTFP
-    if (t == IRT_NUM)
-      emit_vlso(as, ARMI_VLDR_D, dest, idx, ofs);
-    else
-#endif
-      emit_lso(as, ARMI_LDR, dest, idx, ofs);
-  }
-  emit_lso(as, ARMI_LDR, type, idx, ofs+4);
-}
-
-static void asm_ahustore(ASMState *as, IRIns *ir)
-{
-  if (ir->r != RID_SINK) {
-    RegSet allow = RSET_GPR;
-    Reg idx, src = RID_NONE, type = RID_NONE;
-    int32_t ofs = 0;
-#if !LJ_SOFTFP
-    if (irt_isnum(ir->t)) {
-      src = ra_alloc1(as, ir->op2, RSET_FPR);
-      idx = asm_fuseahuref(as, ir->op1, &ofs, allow, 1024);
-      emit_vlso(as, ARMI_VSTR_D, src, idx, ofs);
-    } else
-#endif
-    {
-      int hiop = (LJ_SOFTFP && (ir+1)->o == IR_HIOP);
-      if (!irt_ispri(ir->t)) {
-	src = ra_alloc1(as, ir->op2, allow);
-	rset_clear(allow, src);
-      }
-      if (hiop)
-	type = ra_alloc1(as, (ir+1)->op2, allow);
-      else
-	type = ra_allock(as, (int32_t)irt_toitype(ir->t), allow);
-      idx = asm_fuseahuref(as, ir->op1, &ofs, rset_exclude(allow, type), 4096);
-      if (ra_hasreg(src)) emit_lso(as, ARMI_STR, src, idx, ofs);
-      emit_lso(as, ARMI_STR, type, idx, ofs+4);
-    }
-  }
-}
-
-static void asm_sload(ASMState *as, IRIns *ir)
-{
-  int32_t ofs = 8*((int32_t)ir->op1-1) + ((ir->op2 & IRSLOAD_FRAME) ? 4 : 0);
-  int hiop = (LJ_SOFTFP && (ir+1)->o == IR_HIOP);
-  IRType t = hiop ? IRT_NUM : irt_type(ir->t);
-  Reg dest = RID_NONE, type = RID_NONE, base;
-  RegSet allow = RSET_GPR;
-  lua_assert(!(ir->op2 & IRSLOAD_PARENT));  /* Handled by asm_head_side(). */
-  lua_assert(irt_isguard(ir->t) || !(ir->op2 & IRSLOAD_TYPECHECK));
-#if LJ_SOFTFP
-  lua_assert(!(ir->op2 & IRSLOAD_CONVERT));  /* Handled by LJ_SOFTFP SPLIT. */
-  if (hiop && ra_used(ir+1)) {
-    type = ra_dest(as, ir+1, allow);
-    rset_clear(allow, type);
-  }
-#else
-  if ((ir->op2 & IRSLOAD_CONVERT) && irt_isguard(ir->t) && t == IRT_INT) {
-    dest = ra_scratch(as, RSET_FPR);
-    asm_tointg(as, ir, dest);
-    t = IRT_NUM;  /* Continue with a regular number type check. */
-  } else
-#endif
-  if (ra_used(ir)) {
-    Reg tmp = RID_NONE;
-    if ((ir->op2 & IRSLOAD_CONVERT))
-      tmp = ra_scratch(as, t == IRT_INT ? RSET_FPR : RSET_GPR);
-    lua_assert((LJ_SOFTFP ? 0 : irt_isnum(ir->t)) ||
-	       irt_isint(ir->t) || irt_isaddr(ir->t));
-    dest = ra_dest(as, ir, (!LJ_SOFTFP && t == IRT_NUM) ? RSET_FPR : allow);
-    rset_clear(allow, dest);
-    base = ra_alloc1(as, REF_BASE, allow);
-    if ((ir->op2 & IRSLOAD_CONVERT)) {
-      if (t == IRT_INT) {
-	emit_dn(as, ARMI_VMOV_R_S, dest, (tmp & 15));
-	emit_dm(as, ARMI_VCVT_S32_F64, (tmp & 15), (tmp & 15));
-	t = IRT_NUM;  /* Check for original type. */
-      } else {
-	emit_dm(as, ARMI_VCVT_F64_S32, (dest & 15), (dest & 15));
-	emit_dn(as, ARMI_VMOV_S_R, tmp, (dest & 15));
-	t = IRT_INT;  /* Check for original type. */
-      }
-      dest = tmp;
-    }
-    goto dotypecheck;
-  }
-  base = ra_alloc1(as, REF_BASE, allow);
-dotypecheck:
-  rset_clear(allow, base);
-  if ((ir->op2 & IRSLOAD_TYPECHECK)) {
-    if (ra_noreg(type)) {
-      if (ofs < 256 && ra_hasreg(dest) && (dest & 1) == 0 &&
-	  rset_test((as->freeset & allow), dest+1)) {
-	type = dest+1;
-	ra_modified(as, type);
-      } else {
-	type = RID_TMP;
-      }
-    }
-    asm_guardcc(as, t == IRT_NUM ? CC_HS : CC_NE);
-    emit_n(as, ARMI_CMN|ARMI_K12|-irt_toitype_(t), type);
-  }
-  if (ra_hasreg(dest)) {
-#if !LJ_SOFTFP
-    if (t == IRT_NUM) {
-      if (ofs < 1024) {
-	emit_vlso(as, ARMI_VLDR_D, dest, base, ofs);
-      } else {
-	if (ra_hasreg(type)) emit_lso(as, ARMI_LDR, type, base, ofs+4);
-	emit_vlso(as, ARMI_VLDR_D, dest, RID_TMP, 0);
-	emit_opk(as, ARMI_ADD, RID_TMP, base, ofs, allow);
-	return;
-      }
-    } else
-#endif
-      emit_lso(as, ARMI_LDR, dest, base, ofs);
-  }
-  if (ra_hasreg(type)) emit_lso(as, ARMI_LDR, type, base, ofs+4);
-}
-
-/* -- Allocations --------------------------------------------------------- */
-
-#if LJ_HASFFI
-static void asm_cnew(ASMState *as, IRIns *ir)
-{
-  CTState *cts = ctype_ctsG(J2G(as->J));
-  CTypeID ctypeid = (CTypeID)IR(ir->op1)->i;
-  CTSize sz = (ir->o == IR_CNEWI || ir->op2 == REF_NIL) ?
-	      lj_ctype_size(cts, ctypeid) : (CTSize)IR(ir->op2)->i;
-  const CCallInfo *ci = &lj_ir_callinfo[IRCALL_lj_mem_newgco];
-  IRRef args[2];
-  RegSet allow = (RSET_GPR & ~RSET_SCRATCH);
-  RegSet drop = RSET_SCRATCH;
-  lua_assert(sz != CTSIZE_INVALID);
-
-  args[0] = ASMREF_L;     /* lua_State *L */
-  args[1] = ASMREF_TMP1;  /* MSize size   */
-  as->gcsteps++;
-
-  if (ra_hasreg(ir->r))
-    rset_clear(drop, ir->r);  /* Dest reg handled below. */
-  ra_evictset(as, drop);
-  if (ra_used(ir))
-    ra_destreg(as, ir, RID_RET);  /* GCcdata * */
-
-  /* Initialize immutable cdata object. */
-  if (ir->o == IR_CNEWI) {
-    int32_t ofs = sizeof(GCcdata);
-    lua_assert(sz == 4 || sz == 8);
-    if (sz == 8) {
-      ofs += 4; ir++;
-      lua_assert(ir->o == IR_HIOP);
-    }
-    for (;;) {
-      Reg r = ra_alloc1(as, ir->op2, allow);
-      emit_lso(as, ARMI_STR, r, RID_RET, ofs);
-      rset_clear(allow, r);
-      if (ofs == sizeof(GCcdata)) break;
-      ofs -= 4; ir--;
-    }
-  }
-  /* Initialize gct and ctypeid. lj_mem_newgco() already sets marked. */
-  {
-    uint32_t k = emit_isk12(ARMI_MOV, ctypeid);
-    Reg r = k ? RID_R1 : ra_allock(as, ctypeid, allow);
-    emit_lso(as, ARMI_STRB, RID_TMP, RID_RET, offsetof(GCcdata, gct));
-    emit_lsox(as, ARMI_STRH, r, RID_RET, offsetof(GCcdata, ctypeid));
-    emit_d(as, ARMI_MOV|ARMI_K12|~LJ_TCDATA, RID_TMP);
-    if (k) emit_d(as, ARMI_MOV^k, RID_R1);
-  }
-  asm_gencall(as, ci, args);
-  ra_allockreg(as, (int32_t)(sz+sizeof(GCcdata)),
-	       ra_releasetmp(as, ASMREF_TMP1));
-}
-#else
-#define asm_cnew(as, ir)	((void)0)
-#endif
-
-/* -- Write barriers ------------------------------------------------------ */
-
-static void asm_tbar(ASMState *as, IRIns *ir)
-{
-  Reg tab = ra_alloc1(as, ir->op1, RSET_GPR);
-  Reg link = ra_scratch(as, rset_exclude(RSET_GPR, tab));
-  Reg gr = ra_allock(as, i32ptr(J2G(as->J)),
-		     rset_exclude(rset_exclude(RSET_GPR, tab), link));
-  Reg mark = RID_TMP;
-  MCLabel l_end = emit_label(as);
-  emit_lso(as, ARMI_STR, link, tab, (int32_t)offsetof(GCtab, gclist));
-  emit_lso(as, ARMI_STRB, mark, tab, (int32_t)offsetof(GCtab, marked));
-  emit_lso(as, ARMI_STR, tab, gr,
-	   (int32_t)offsetof(global_State, gc.grayagain));
-  emit_dn(as, ARMI_BIC|ARMI_K12|LJ_GC_BLACK, mark, mark);
-  emit_lso(as, ARMI_LDR, link, gr,
-	   (int32_t)offsetof(global_State, gc.grayagain));
-  emit_branch(as, ARMF_CC(ARMI_B, CC_EQ), l_end);
-  emit_n(as, ARMI_TST|ARMI_K12|LJ_GC_BLACK, mark);
-  emit_lso(as, ARMI_LDRB, mark, tab, (int32_t)offsetof(GCtab, marked));
-}
-
-static void asm_obar(ASMState *as, IRIns *ir)
-{
-  const CCallInfo *ci = &lj_ir_callinfo[IRCALL_lj_gc_barrieruv];
-  IRRef args[2];
-  MCLabel l_end;
-  Reg obj, val, tmp;
-  /* No need for other object barriers (yet). */
-  lua_assert(IR(ir->op1)->o == IR_UREFC);
-  ra_evictset(as, RSET_SCRATCH);
-  l_end = emit_label(as);
-  args[0] = ASMREF_TMP1;  /* global_State *g */
-  args[1] = ir->op1;      /* TValue *tv      */
-  asm_gencall(as, ci, args);
-  if ((l_end[-1] >> 28) == CC_AL)
-    l_end[-1] = ARMF_CC(l_end[-1], CC_NE);
-  else
-    emit_branch(as, ARMF_CC(ARMI_B, CC_EQ), l_end);
-  ra_allockreg(as, i32ptr(J2G(as->J)), ra_releasetmp(as, ASMREF_TMP1));
-  obj = IR(ir->op1)->r;
-  tmp = ra_scratch(as, rset_exclude(RSET_GPR, obj));
-  emit_n(as, ARMF_CC(ARMI_TST, CC_NE)|ARMI_K12|LJ_GC_BLACK, tmp);
-  emit_n(as, ARMI_TST|ARMI_K12|LJ_GC_WHITES, RID_TMP);
-  val = ra_alloc1(as, ir->op2, rset_exclude(RSET_GPR, obj));
-  emit_lso(as, ARMI_LDRB, tmp, obj,
-	   (int32_t)offsetof(GCupval, marked)-(int32_t)offsetof(GCupval, tv));
-  emit_lso(as, ARMI_LDRB, RID_TMP, val, (int32_t)offsetof(GChead, marked));
-}
-
-/* -- Arithmetic and logic operations ------------------------------------- */
-
-#if !LJ_SOFTFP
-static void asm_fparith(ASMState *as, IRIns *ir, ARMIns ai)
-{
-  Reg dest = ra_dest(as, ir, RSET_FPR);
-  Reg right, left = ra_alloc2(as, ir, RSET_FPR);
-  right = (left >> 8); left &= 255;
-  emit_dnm(as, ai, (dest & 15), (left & 15), (right & 15));
-}
-
-static void asm_fpunary(ASMState *as, IRIns *ir, ARMIns ai)
-{
-  Reg dest = ra_dest(as, ir, RSET_FPR);
-  Reg left = ra_hintalloc(as, ir->op1, dest, RSET_FPR);
-  emit_dm(as, ai, (dest & 15), (left & 15));
-}
-
-static int asm_fpjoin_pow(ASMState *as, IRIns *ir)
-{
-  IRIns *irp = IR(ir->op1);
-  if (irp == ir-1 && irp->o == IR_MUL && !ra_used(irp)) {
-    IRIns *irpp = IR(irp->op1);
-    if (irpp == ir-2 && irpp->o == IR_FPMATH &&
-	irpp->op2 == IRFPM_LOG2 && !ra_used(irpp)) {
-      const CCallInfo *ci = &lj_ir_callinfo[IRCALL_pow];
-      IRRef args[2];
-      args[0] = irpp->op1;
-      args[1] = irp->op2;
-      asm_setupresult(as, ir, ci);
-      asm_gencall(as, ci, args);
-      return 1;
-    }
-  }
-  return 0;
-}
-#endif
-
-static int asm_swapops(ASMState *as, IRRef lref, IRRef rref)
-{
-  IRIns *ir;
-  if (irref_isk(rref))
-    return 0;  /* Don't swap constants to the left. */
-  if (irref_isk(lref))
-    return 1;  /* But swap constants to the right. */
-  ir = IR(rref);
-  if ((ir->o >= IR_BSHL && ir->o <= IR_BROR) ||
-      (ir->o == IR_ADD && ir->op1 == ir->op2))
-    return 0;  /* Don't swap fusable operands to the left. */
-  ir = IR(lref);
-  if ((ir->o >= IR_BSHL && ir->o <= IR_BROR) ||
-      (ir->o == IR_ADD && ir->op1 == ir->op2))
-    return 1;  /* But swap fusable operands to the right. */
-  return 0;  /* Otherwise don't swap. */
-}
-
-static void asm_intop(ASMState *as, IRIns *ir, ARMIns ai)
-{
-  IRRef lref = ir->op1, rref = ir->op2;
-  Reg left, dest = ra_dest(as, ir, RSET_GPR);
-  uint32_t m;
-  if (asm_swapops(as, lref, rref)) {
-    IRRef tmp = lref; lref = rref; rref = tmp;
-    if ((ai & ~ARMI_S) == ARMI_SUB || (ai & ~ARMI_S) == ARMI_SBC)
-      ai ^= (ARMI_SUB^ARMI_RSB);
-  }
-  left = ra_hintalloc(as, lref, dest, RSET_GPR);
-  m = asm_fuseopm(as, ai, rref, rset_exclude(RSET_GPR, left));
-  if (irt_isguard(ir->t)) {  /* For IR_ADDOV etc. */
-    asm_guardcc(as, CC_VS);
-    ai |= ARMI_S;
-  }
-  emit_dn(as, ai^m, dest, left);
-}
-
-static void asm_intop_s(ASMState *as, IRIns *ir, ARMIns ai)
-{
-  if (as->flagmcp == as->mcp) {  /* Drop cmp r, #0. */
-    as->flagmcp = NULL;
-    as->mcp++;
-    ai |= ARMI_S;
-  }
-  asm_intop(as, ir, ai);
-}
-
-static void asm_bitop(ASMState *as, IRIns *ir, ARMIns ai)
-{
-  if (as->flagmcp == as->mcp) {  /* Try to drop cmp r, #0. */
-    uint32_t cc = (as->mcp[1] >> 28);
-    as->flagmcp = NULL;
-    if (cc <= CC_NE) {
-      as->mcp++;
-      ai |= ARMI_S;
-    } else if (cc == CC_GE) {
-      *++as->mcp ^= ((CC_GE^CC_PL) << 28);
-      ai |= ARMI_S;
-    } else if (cc == CC_LT) {
-      *++as->mcp ^= ((CC_LT^CC_MI) << 28);
-      ai |= ARMI_S;
-    }  /* else: other conds don't work with bit ops. */
-  }
-  if (ir->op2 == 0) {
-    Reg dest = ra_dest(as, ir, RSET_GPR);
-    uint32_t m = asm_fuseopm(as, ai, ir->op1, RSET_GPR);
-    emit_d(as, ai^m, dest);
-  } else {
-    /* NYI: Turn BAND !k12 into uxtb, uxth or bfc or shl+shr. */
-    asm_intop(as, ir, ai);
-  }
-}
-
-static void asm_intneg(ASMState *as, IRIns *ir, ARMIns ai)
-{
-  Reg dest = ra_dest(as, ir, RSET_GPR);
-  Reg left = ra_hintalloc(as, ir->op1, dest, RSET_GPR);
-  emit_dn(as, ai|ARMI_K12|0, dest, left);
-}
-
-/* NYI: use add/shift for MUL(OV) with constants. FOLD only does 2^k. */
-static void asm_intmul(ASMState *as, IRIns *ir)
-{
-  Reg dest = ra_dest(as, ir, RSET_GPR);
-  Reg left = ra_alloc1(as, ir->op1, rset_exclude(RSET_GPR, dest));
-  Reg right = ra_alloc1(as, ir->op2, rset_exclude(RSET_GPR, left));
-  Reg tmp = RID_NONE;
-  /* ARMv5 restriction: dest != left and dest_hi != left. */
-  if (dest == left && left != right) { left = right; right = dest; }
-  if (irt_isguard(ir->t)) {  /* IR_MULOV */
-    if (!(as->flags & JIT_F_ARMV6) && dest == left)
-      tmp = left = ra_scratch(as, rset_exclude(RSET_GPR, left));
-    asm_guardcc(as, CC_NE);
-    emit_nm(as, ARMI_TEQ|ARMF_SH(ARMSH_ASR, 31), RID_TMP, dest);
-    emit_dnm(as, ARMI_SMULL|ARMF_S(right), dest, RID_TMP, left);
-  } else {
-    if (!(as->flags & JIT_F_ARMV6) && dest == left) tmp = left = RID_TMP;
-    emit_nm(as, ARMI_MUL|ARMF_S(right), dest, left);
-  }
-  /* Only need this for the dest == left == right case. */
-  if (ra_hasreg(tmp)) emit_dm(as, ARMI_MOV, tmp, right);
-}
-
-static void asm_add(ASMState *as, IRIns *ir)
-{
-#if !LJ_SOFTFP
-  if (irt_isnum(ir->t)) {
-    if (!asm_fusemadd(as, ir, ARMI_VMLA_D, ARMI_VMLA_D))
-      asm_fparith(as, ir, ARMI_VADD_D);
-    return;
-  }
-#endif
-  asm_intop_s(as, ir, ARMI_ADD);
-}
-
-static void asm_sub(ASMState *as, IRIns *ir)
-{
-#if !LJ_SOFTFP
-  if (irt_isnum(ir->t)) {
-    if (!asm_fusemadd(as, ir, ARMI_VNMLS_D, ARMI_VMLS_D))
-      asm_fparith(as, ir, ARMI_VSUB_D);
-    return;
-  }
-#endif
-  asm_intop_s(as, ir, ARMI_SUB);
-}
-
-static void asm_mul(ASMState *as, IRIns *ir)
-{
-#if !LJ_SOFTFP
-  if (irt_isnum(ir->t)) {
-    asm_fparith(as, ir, ARMI_VMUL_D);
-    return;
-  }
-#endif
-  asm_intmul(as, ir);
-}
-
-static void asm_neg(ASMState *as, IRIns *ir)
-{
-#if !LJ_SOFTFP
-  if (irt_isnum(ir->t)) {
-    asm_fpunary(as, ir, ARMI_VNEG_D);
-    return;
-  }
-#endif
-  asm_intneg(as, ir, ARMI_RSB);
-}
-
-static void asm_callid(ASMState *as, IRIns *ir, IRCallID id)
-{
-  const CCallInfo *ci = &lj_ir_callinfo[id];
-  IRRef args[2];
-  args[0] = ir->op1;
-  args[1] = ir->op2;
-  asm_setupresult(as, ir, ci);
-  asm_gencall(as, ci, args);
-}
-
-#if !LJ_SOFTFP
-static void asm_callround(ASMState *as, IRIns *ir, int id)
-{
-  /* The modified regs must match with the *.dasc implementation. */
-  RegSet drop = RID2RSET(RID_R0)|RID2RSET(RID_R1)|RID2RSET(RID_R2)|
-		RID2RSET(RID_R3)|RID2RSET(RID_R12);
-  RegSet of;
-  Reg dest, src;
-  ra_evictset(as, drop);
-  dest = ra_dest(as, ir, RSET_FPR);
-  emit_dnm(as, ARMI_VMOV_D_RR, RID_RETLO, RID_RETHI, (dest & 15));
-  emit_call(as, id == IRFPM_FLOOR ? (void *)lj_vm_floor_sf :
-		id == IRFPM_CEIL ? (void *)lj_vm_ceil_sf :
-				   (void *)lj_vm_trunc_sf);
-  /* Workaround to protect argument GPRs from being used for remat. */
-  of = as->freeset;
-  as->freeset &= ~RSET_RANGE(RID_R0, RID_R1+1);
-  as->cost[RID_R0] = as->cost[RID_R1] = REGCOST(~0u, ASMREF_L);
-  src = ra_alloc1(as, ir->op1, RSET_FPR);  /* May alloc GPR to remat FPR. */
-  as->freeset |= (of & RSET_RANGE(RID_R0, RID_R1+1));
-  emit_dnm(as, ARMI_VMOV_RR_D, RID_R0, RID_R1, (src & 15));
-}
-#endif
-
-static void asm_bitswap(ASMState *as, IRIns *ir)
-{
-  Reg dest = ra_dest(as, ir, RSET_GPR);
-  Reg left = ra_alloc1(as, ir->op1, RSET_GPR);
-  if ((as->flags & JIT_F_ARMV6)) {
-    emit_dm(as, ARMI_REV, dest, left);
-  } else {
-    Reg tmp2 = dest;
-    if (tmp2 == left)
-      tmp2 = ra_scratch(as, rset_exclude(rset_exclude(RSET_GPR, dest), left));
-    emit_dnm(as, ARMI_EOR|ARMF_SH(ARMSH_LSR, 8), dest, tmp2, RID_TMP);
-    emit_dm(as, ARMI_MOV|ARMF_SH(ARMSH_ROR, 8), tmp2, left);
-    emit_dn(as, ARMI_BIC|ARMI_K12|256*8|255, RID_TMP, RID_TMP);
-    emit_dnm(as, ARMI_EOR|ARMF_SH(ARMSH_ROR, 16), RID_TMP, left, left);
-  }
-}
-
-static void asm_bitshift(ASMState *as, IRIns *ir, ARMShift sh)
-{
-  if (irref_isk(ir->op2)) {  /* Constant shifts. */
-    /* NYI: Turn SHL+SHR or BAND+SHR into uxtb, uxth or ubfx. */
-    /* NYI: Turn SHL+ASR into sxtb, sxth or sbfx. */
-    Reg dest = ra_dest(as, ir, RSET_GPR);
-    Reg left = ra_alloc1(as, ir->op1, RSET_GPR);
-    int32_t shift = (IR(ir->op2)->i & 31);
-    emit_dm(as, ARMI_MOV|ARMF_SH(sh, shift), dest, left);
-  } else {
-    Reg dest = ra_dest(as, ir, RSET_GPR);
-    Reg left = ra_alloc1(as, ir->op1, RSET_GPR);
-    Reg right = ra_alloc1(as, ir->op2, rset_exclude(RSET_GPR, left));
-    emit_dm(as, ARMI_MOV|ARMF_RSH(sh, right), dest, left);
-  }
-}
-
-static void asm_intmin_max(ASMState *as, IRIns *ir, int cc)
-{
-  uint32_t kcmp = 0, kmov = 0;
-  Reg dest = ra_dest(as, ir, RSET_GPR);
-  Reg left = ra_hintalloc(as, ir->op1, dest, RSET_GPR);
-  Reg right = 0;
-  if (irref_isk(ir->op2)) {
-    kcmp = emit_isk12(ARMI_CMP, IR(ir->op2)->i);
-    if (kcmp) kmov = emit_isk12(ARMI_MOV, IR(ir->op2)->i);
-  }
-  if (!kmov) {
-    kcmp = 0;
-    right = ra_alloc1(as, ir->op2, rset_exclude(RSET_GPR, left));
-  }
-  if (kmov || dest != right) {
-    emit_dm(as, ARMF_CC(ARMI_MOV, cc)^kmov, dest, right);
-    cc ^= 1;  /* Must use opposite conditions for paired moves. */
-  } else {
-    cc ^= (CC_LT^CC_GT);  /* Otherwise may swap CC_LT <-> CC_GT. */
-  }
-  if (dest != left) emit_dm(as, ARMF_CC(ARMI_MOV, cc), dest, left);
-  emit_nm(as, ARMI_CMP^kcmp, left, right);
-}
-
-#if LJ_SOFTFP
-static void asm_sfpmin_max(ASMState *as, IRIns *ir, int cc)
-{
-  const CCallInfo *ci = &lj_ir_callinfo[IRCALL_softfp_cmp];
-  RegSet drop = RSET_SCRATCH;
-  Reg r;
-  IRRef args[4];
-  args[0] = ir->op1; args[1] = (ir+1)->op1;
-  args[2] = ir->op2; args[3] = (ir+1)->op2;
-  /* __aeabi_cdcmple preserves r0-r3. */
-  if (ra_hasreg(ir->r)) rset_clear(drop, ir->r);
-  if (ra_hasreg((ir+1)->r)) rset_clear(drop, (ir+1)->r);
-  if (!rset_test(as->freeset, RID_R2) &&
-      regcost_ref(as->cost[RID_R2]) == args[2]) rset_clear(drop, RID_R2);
-  if (!rset_test(as->freeset, RID_R3) &&
-      regcost_ref(as->cost[RID_R3]) == args[3]) rset_clear(drop, RID_R3);
-  ra_evictset(as, drop);
-  ra_destpair(as, ir);
-  emit_dm(as, ARMF_CC(ARMI_MOV, cc), RID_RETHI, RID_R3);
-  emit_dm(as, ARMF_CC(ARMI_MOV, cc), RID_RETLO, RID_R2);
-  emit_call(as, (void *)ci->func);
-  for (r = RID_R0; r <= RID_R3; r++)
-    ra_leftov(as, r, args[r-RID_R0]);
-}
-#else
-static void asm_fpmin_max(ASMState *as, IRIns *ir, int cc)
-{
-  Reg dest = (ra_dest(as, ir, RSET_FPR) & 15);
-  Reg right, left = ra_alloc2(as, ir, RSET_FPR);
-  right = ((left >> 8) & 15); left &= 15;
-  if (dest != left) emit_dm(as, ARMF_CC(ARMI_VMOV_D, cc^1), dest, left);
-  if (dest != right) emit_dm(as, ARMF_CC(ARMI_VMOV_D, cc), dest, right);
-  emit_d(as, ARMI_VMRS, 0);
-  emit_dm(as, ARMI_VCMP_D, left, right);
-}
-#endif
-
-static void asm_min_max(ASMState *as, IRIns *ir, int cc, int fcc)
-{
-#if LJ_SOFTFP
-  UNUSED(fcc);
-#else
-  if (irt_isnum(ir->t))
-    asm_fpmin_max(as, ir, fcc);
-  else
-#endif
-    asm_intmin_max(as, ir, cc);
-}
-
-/* -- Comparisons --------------------------------------------------------- */
-
-/* Map of comparisons to flags. ORDER IR. */
-static const uint8_t asm_compmap[IR_ABC+1] = {
-  /* op  FP swp  int cc   FP cc */
-  /* LT       */ CC_GE + (CC_HS << 4),
-  /* GE    x  */ CC_LT + (CC_HI << 4),
-  /* LE       */ CC_GT + (CC_HI << 4),
-  /* GT    x  */ CC_LE + (CC_HS << 4),
-  /* ULT   x  */ CC_HS + (CC_LS << 4),
-  /* UGE      */ CC_LO + (CC_LO << 4),
-  /* ULE   x  */ CC_HI + (CC_LO << 4),
-  /* UGT      */ CC_LS + (CC_LS << 4),
-  /* EQ       */ CC_NE + (CC_NE << 4),
-  /* NE       */ CC_EQ + (CC_EQ << 4),
-  /* ABC      */ CC_LS + (CC_LS << 4)  /* Same as UGT. */
-};
-
-#if LJ_SOFTFP
-/* FP comparisons. */
-static void asm_sfpcomp(ASMState *as, IRIns *ir)
-{
-  const CCallInfo *ci = &lj_ir_callinfo[IRCALL_softfp_cmp];
-  RegSet drop = RSET_SCRATCH;
-  Reg r;
-  IRRef args[4];
-  int swp = (((ir->o ^ (ir->o >> 2)) & ~(ir->o >> 3) & 1) << 1);
-  args[swp^0] = ir->op1; args[swp^1] = (ir+1)->op1;
-  args[swp^2] = ir->op2; args[swp^3] = (ir+1)->op2;
-  /* __aeabi_cdcmple preserves r0-r3. This helps to reduce spills. */
-  for (r = RID_R0; r <= RID_R3; r++)
-    if (!rset_test(as->freeset, r) &&
-	regcost_ref(as->cost[r]) == args[r-RID_R0]) rset_clear(drop, r);
-  ra_evictset(as, drop);
-  asm_guardcc(as, (asm_compmap[ir->o] >> 4));
-  emit_call(as, (void *)ci->func);
-  for (r = RID_R0; r <= RID_R3; r++)
-    ra_leftov(as, r, args[r-RID_R0]);
-}
-#else
-/* FP comparisons. */
-static void asm_fpcomp(ASMState *as, IRIns *ir)
-{
-  Reg left, right;
-  ARMIns ai;
-  int swp = ((ir->o ^ (ir->o >> 2)) & ~(ir->o >> 3) & 1);
-  if (!swp && irref_isk(ir->op2) && ir_knum(IR(ir->op2))->u64 == 0) {
-    left = (ra_alloc1(as, ir->op1, RSET_FPR) & 15);
-    right = 0;
-    ai = ARMI_VCMPZ_D;
-  } else {
-    left = ra_alloc2(as, ir, RSET_FPR);
-    if (swp) {
-      right = (left & 15); left = ((left >> 8) & 15);
-    } else {
-      right = ((left >> 8) & 15); left &= 15;
-    }
-    ai = ARMI_VCMP_D;
-  }
-  asm_guardcc(as, (asm_compmap[ir->o] >> 4));
-  emit_d(as, ARMI_VMRS, 0);
-  emit_dm(as, ai, left, right);
-}
-#endif
-
-/* Integer comparisons. */
-static void asm_intcomp(ASMState *as, IRIns *ir)
-{
-  ARMCC cc = (asm_compmap[ir->o] & 15);
-  IRRef lref = ir->op1, rref = ir->op2;
-  Reg left;
-  uint32_t m;
-  int cmpprev0 = 0;
-  lua_assert(irt_isint(ir->t) || irt_isu32(ir->t) || irt_isaddr(ir->t));
-  if (asm_swapops(as, lref, rref)) {
-    Reg tmp = lref; lref = rref; rref = tmp;
-    if (cc >= CC_GE) cc ^= 7;  /* LT <-> GT, LE <-> GE */
-    else if (cc > CC_NE) cc ^= 11;  /* LO <-> HI, LS <-> HS */
-  }
-  if (irref_isk(rref) && IR(rref)->i == 0) {
-    IRIns *irl = IR(lref);
-    cmpprev0 = (irl+1 == ir);
-    /* Combine comp(BAND(left, right), 0) into tst left, right. */
-    if (cmpprev0 && irl->o == IR_BAND && !ra_used(irl)) {
-      IRRef blref = irl->op1, brref = irl->op2;
-      uint32_t m2 = 0;
-      Reg bleft;
-      if (asm_swapops(as, blref, brref)) {
-	Reg tmp = blref; blref = brref; brref = tmp;
-      }
-      if (irref_isk(brref)) {
-	m2 = emit_isk12(ARMI_AND, IR(brref)->i);
-	if ((m2 & (ARMI_AND^ARMI_BIC)))
-	  goto notst;  /* Not beneficial if we miss a constant operand. */
-      }
-      if (cc == CC_GE) cc = CC_PL;
-      else if (cc == CC_LT) cc = CC_MI;
-      else if (cc > CC_NE) goto notst;  /* Other conds don't work with tst. */
-      bleft = ra_alloc1(as, blref, RSET_GPR);
-      if (!m2) m2 = asm_fuseopm(as, 0, brref, rset_exclude(RSET_GPR, bleft));
-      asm_guardcc(as, cc);
-      emit_n(as, ARMI_TST^m2, bleft);
-      return;
-    }
-  }
-notst:
-  left = ra_alloc1(as, lref, RSET_GPR);
-  m = asm_fuseopm(as, ARMI_CMP, rref, rset_exclude(RSET_GPR, left));
-  asm_guardcc(as, cc);
-  emit_n(as, ARMI_CMP^m, left);
-  /* Signed comparison with zero and referencing previous ins? */
-  if (cmpprev0 && (cc <= CC_NE || cc >= CC_GE))
-    as->flagmcp = as->mcp;  /* Allow elimination of the compare. */
-}
-
-#if LJ_HASFFI
-/* 64 bit integer comparisons. */
-static void asm_int64comp(ASMState *as, IRIns *ir)
-{
-  int signedcomp = (ir->o <= IR_GT);
-  ARMCC cclo, cchi;
-  Reg leftlo, lefthi;
-  uint32_t mlo, mhi;
-  RegSet allow = RSET_GPR, oldfree;
-
-  /* Always use unsigned comparison for loword. */
-  cclo = asm_compmap[ir->o + (signedcomp ? 4 : 0)] & 15;
-  leftlo = ra_alloc1(as, ir->op1, allow);
-  oldfree = as->freeset;
-  mlo = asm_fuseopm(as, ARMI_CMP, ir->op2, rset_clear(allow, leftlo));
-  allow &= ~(oldfree & ~as->freeset);  /* Update for allocs of asm_fuseopm. */
-
-  /* Use signed or unsigned comparison for hiword. */
-  cchi = asm_compmap[ir->o] & 15;
-  lefthi = ra_alloc1(as, (ir+1)->op1, allow);
-  mhi = asm_fuseopm(as, ARMI_CMP, (ir+1)->op2, rset_clear(allow, lefthi));
-
-  /* All register allocations must be performed _before_ this point. */
-  if (signedcomp) {
-    MCLabel l_around = emit_label(as);
-    asm_guardcc(as, cclo);
-    emit_n(as, ARMI_CMP^mlo, leftlo);
-    emit_branch(as, ARMF_CC(ARMI_B, CC_NE), l_around);
-    if (cchi == CC_GE || cchi == CC_LE) cchi ^= 6;  /* GE -> GT, LE -> LT */
-    asm_guardcc(as, cchi);
-  } else {
-    asm_guardcc(as, cclo);
-    emit_n(as, ARMF_CC(ARMI_CMP, CC_EQ)^mlo, leftlo);
-  }
-  emit_n(as, ARMI_CMP^mhi, lefthi);
-}
-#endif
-
-/* -- Support for 64 bit ops in 32 bit mode ------------------------------- */
-
-/* Hiword op of a split 64 bit op. Previous op must be the loword op. */
-static void asm_hiop(ASMState *as, IRIns *ir)
-{
-#if LJ_HASFFI || LJ_SOFTFP
-  /* HIOP is marked as a store because it needs its own DCE logic. */
-  int uselo = ra_used(ir-1), usehi = ra_used(ir);  /* Loword/hiword used? */
-  if (LJ_UNLIKELY(!(as->flags & JIT_F_OPT_DCE))) uselo = usehi = 1;
-  if ((ir-1)->o <= IR_NE) {  /* 64 bit integer or FP comparisons. ORDER IR. */
-    as->curins--;  /* Always skip the loword comparison. */
-#if LJ_SOFTFP
-    if (!irt_isint(ir->t)) {
-      asm_sfpcomp(as, ir-1);
-      return;
-    }
-#endif
-#if LJ_HASFFI
-    asm_int64comp(as, ir-1);
-#endif
-    return;
-#if LJ_SOFTFP
-  } else if ((ir-1)->o == IR_MIN || (ir-1)->o == IR_MAX) {
-    as->curins--;  /* Always skip the loword min/max. */
-    if (uselo || usehi)
-      asm_sfpmin_max(as, ir-1, (ir-1)->o == IR_MIN ? CC_HI : CC_LO);
-    return;
-#elif LJ_HASFFI
-  } else if ((ir-1)->o == IR_CONV) {
-    as->curins--;  /* Always skip the CONV. */
-    if (usehi || uselo)
-      asm_conv64(as, ir);
-    return;
-#endif
-  } else if ((ir-1)->o == IR_XSTORE) {
-    if ((ir-1)->r != RID_SINK)
-      asm_xstore(as, ir, 4);
-    return;
-  }
-  if (!usehi) return;  /* Skip unused hiword op for all remaining ops. */
-  switch ((ir-1)->o) {
-#if LJ_HASFFI
-  case IR_ADD:
-    as->curins--;
-    asm_intop(as, ir, ARMI_ADC);
-    asm_intop(as, ir-1, ARMI_ADD|ARMI_S);
-    break;
-  case IR_SUB:
-    as->curins--;
-    asm_intop(as, ir, ARMI_SBC);
-    asm_intop(as, ir-1, ARMI_SUB|ARMI_S);
-    break;
-  case IR_NEG:
-    as->curins--;
-    asm_intneg(as, ir, ARMI_RSC);
-    asm_intneg(as, ir-1, ARMI_RSB|ARMI_S);
-    break;
-#endif
-#if LJ_SOFTFP
-  case IR_SLOAD: case IR_ALOAD: case IR_HLOAD: case IR_ULOAD: case IR_VLOAD:
-  case IR_STRTO:
-    if (!uselo)
-      ra_allocref(as, ir->op1, RSET_GPR);  /* Mark lo op as used. */
-    break;
-#endif
-  case IR_CALLN:
-  case IR_CALLS:
-  case IR_CALLXS:
-    if (!uselo)
-      ra_allocref(as, ir->op1, RID2RSET(RID_RETLO));  /* Mark lo op as used. */
-    break;
-#if LJ_SOFTFP
-  case IR_ASTORE: case IR_HSTORE: case IR_USTORE: case IR_TOSTR:
-#endif
-  case IR_CNEWI:
-    /* Nothing to do here. Handled by lo op itself. */
-    break;
-  default: lua_assert(0); break;
-  }
-#else
-  UNUSED(as); UNUSED(ir); lua_assert(0);
-#endif
-}
-
-/* -- Stack handling ------------------------------------------------------ */
-
-/* Check Lua stack size for overflow. Use exit handler as fallback. */
-static void asm_stack_check(ASMState *as, BCReg topslot,
-			    IRIns *irp, RegSet allow, ExitNo exitno)
-{
-  Reg pbase;
-  uint32_t k;
-  if (irp) {
-    if (!ra_hasspill(irp->s)) {
-      pbase = irp->r;
-      lua_assert(ra_hasreg(pbase));
-    } else if (allow) {
-      pbase = rset_pickbot(allow);
-    } else {
-      pbase = RID_RET;
-      emit_lso(as, ARMI_LDR, RID_RET, RID_SP, 0);  /* Restore temp. register. */
-    }
-  } else {
-    pbase = RID_BASE;
-  }
-  emit_branch(as, ARMF_CC(ARMI_BL, CC_LS), exitstub_addr(as->J, exitno));
-  k = emit_isk12(0, (int32_t)(8*topslot));
-  lua_assert(k);
-  emit_n(as, ARMI_CMP^k, RID_TMP);
-  emit_dnm(as, ARMI_SUB, RID_TMP, RID_TMP, pbase);
-  emit_lso(as, ARMI_LDR, RID_TMP, RID_TMP,
-	   (int32_t)offsetof(lua_State, maxstack));
-  if (irp) {  /* Must not spill arbitrary registers in head of side trace. */
-    int32_t i = i32ptr(&J2G(as->J)->jit_L);
-    if (ra_hasspill(irp->s))
-      emit_lso(as, ARMI_LDR, pbase, RID_SP, sps_scale(irp->s));
-    emit_lso(as, ARMI_LDR, RID_TMP, RID_TMP, (i & 4095));
-    if (ra_hasspill(irp->s) && !allow)
-      emit_lso(as, ARMI_STR, RID_RET, RID_SP, 0);  /* Save temp. register. */
-    emit_loadi(as, RID_TMP, (i & ~4095));
-  } else {
-    emit_getgl(as, RID_TMP, jit_L);
-  }
-}
-
-/* Restore Lua stack from on-trace state. */
-static void asm_stack_restore(ASMState *as, SnapShot *snap)
-{
-  SnapEntry *map = &as->T->snapmap[snap->mapofs];
-  SnapEntry *flinks = &as->T->snapmap[snap_nextofs(as->T, snap)-1];
-  MSize n, nent = snap->nent;
-  /* Store the value of all modified slots to the Lua stack. */
-  for (n = 0; n < nent; n++) {
-    SnapEntry sn = map[n];
-    BCReg s = snap_slot(sn);
-    int32_t ofs = 8*((int32_t)s-1);
-    IRRef ref = snap_ref(sn);
-    IRIns *ir = IR(ref);
-    if ((sn & SNAP_NORESTORE))
-      continue;
-    if (irt_isnum(ir->t)) {
-#if LJ_SOFTFP
-      RegSet odd = rset_exclude(RSET_GPRODD, RID_BASE);
-      Reg tmp;
-      lua_assert(irref_isk(ref));  /* LJ_SOFTFP: must be a number constant. */
-      tmp = ra_allock(as, (int32_t)ir_knum(ir)->u32.lo,
-		      rset_exclude(RSET_GPREVEN, RID_BASE));
-      emit_lso(as, ARMI_STR, tmp, RID_BASE, ofs);
-      if (rset_test(as->freeset, tmp+1)) odd = RID2RSET(tmp+1);
-      tmp = ra_allock(as, (int32_t)ir_knum(ir)->u32.hi, odd);
-      emit_lso(as, ARMI_STR, tmp, RID_BASE, ofs+4);
-#else
-      Reg src = ra_alloc1(as, ref, RSET_FPR);
-      emit_vlso(as, ARMI_VSTR_D, src, RID_BASE, ofs);
-#endif
-    } else {
-      RegSet odd = rset_exclude(RSET_GPRODD, RID_BASE);
-      Reg type;
-      lua_assert(irt_ispri(ir->t) || irt_isaddr(ir->t) || irt_isinteger(ir->t));
-      if (!irt_ispri(ir->t)) {
-	Reg src = ra_alloc1(as, ref, rset_exclude(RSET_GPREVEN, RID_BASE));
-	emit_lso(as, ARMI_STR, src, RID_BASE, ofs);
-	if (rset_test(as->freeset, src+1)) odd = RID2RSET(src+1);
-      }
-      if ((sn & (SNAP_CONT|SNAP_FRAME))) {
-	if (s == 0) continue;  /* Do not overwrite link to previous frame. */
-	type = ra_allock(as, (int32_t)(*flinks--), odd);
-#if LJ_SOFTFP
-      } else if ((sn & SNAP_SOFTFPNUM)) {
-	type = ra_alloc1(as, ref+1, rset_exclude(RSET_GPRODD, RID_BASE));
-#endif
-      } else {
-	type = ra_allock(as, (int32_t)irt_toitype(ir->t), odd);
-      }
-      emit_lso(as, ARMI_STR, type, RID_BASE, ofs+4);
-    }
-    checkmclim(as);
-  }
-  lua_assert(map + nent == flinks);
-}
-
-/* -- GC handling --------------------------------------------------------- */
-
-/* Check GC threshold and do one or more GC steps. */
-static void asm_gc_check(ASMState *as)
-{
-  const CCallInfo *ci = &lj_ir_callinfo[IRCALL_lj_gc_step_jit];
-  IRRef args[2];
-  MCLabel l_end;
-  Reg tmp1, tmp2;
-  ra_evictset(as, RSET_SCRATCH);
-  l_end = emit_label(as);
-  /* Exit trace if in GCSatomic or GCSfinalize. Avoids syncing GC objects. */
-  asm_guardcc(as, CC_NE);  /* Assumes asm_snap_prep() already done. */
-  emit_n(as, ARMI_CMP|ARMI_K12|0, RID_RET);
-  args[0] = ASMREF_TMP1;  /* global_State *g */
-  args[1] = ASMREF_TMP2;  /* MSize steps     */
-  asm_gencall(as, ci, args);
-  tmp1 = ra_releasetmp(as, ASMREF_TMP1);
-  tmp2 = ra_releasetmp(as, ASMREF_TMP2);
-  emit_loadi(as, tmp2, as->gcsteps);
-  /* Jump around GC step if GC total < GC threshold. */
-  emit_branch(as, ARMF_CC(ARMI_B, CC_LS), l_end);
-  emit_nm(as, ARMI_CMP, RID_TMP, tmp2);
-  emit_lso(as, ARMI_LDR, tmp2, tmp1,
-	   (int32_t)offsetof(global_State, gc.threshold));
-  emit_lso(as, ARMI_LDR, RID_TMP, tmp1,
-	   (int32_t)offsetof(global_State, gc.total));
-  ra_allockreg(as, i32ptr(J2G(as->J)), tmp1);
-  as->gcsteps = 0;
-  checkmclim(as);
-}
-
-/* -- Loop handling ------------------------------------------------------- */
-
-/* Fixup the loop branch. */
-static void asm_loop_fixup(ASMState *as)
-{
-  MCode *p = as->mctop;
-  MCode *target = as->mcp;
-  if (as->loopinv) {  /* Inverted loop branch? */
-    /* asm_guardcc already inverted the bcc and patched the final bl. */
-    p[-2] |= ((uint32_t)(target-p) & 0x00ffffffu);
-  } else {
-    p[-1] = ARMI_B | ((uint32_t)((target-p)-1) & 0x00ffffffu);
-  }
-}
-
-/* -- Head of trace ------------------------------------------------------- */
-
-/* Reload L register from g->jit_L. */
-static void asm_head_lreg(ASMState *as)
-{
-  IRIns *ir = IR(ASMREF_L);
-  if (ra_used(ir)) {
-    Reg r = ra_dest(as, ir, RSET_GPR);
-    emit_getgl(as, r, jit_L);
-    ra_evictk(as);
-  }
-}
-
-/* Coalesce BASE register for a root trace. */
-static void asm_head_root_base(ASMState *as)
-{
-  IRIns *ir;
-  asm_head_lreg(as);
-  ir = IR(REF_BASE);
-  if (ra_hasreg(ir->r) && (rset_test(as->modset, ir->r) || irt_ismarked(ir->t)))
-    ra_spill(as, ir);
-  ra_destreg(as, ir, RID_BASE);
-}
-
-/* Coalesce BASE register for a side trace. */
-static RegSet asm_head_side_base(ASMState *as, IRIns *irp, RegSet allow)
-{
-  IRIns *ir;
-  asm_head_lreg(as);
-  ir = IR(REF_BASE);
-  if (ra_hasreg(ir->r) && (rset_test(as->modset, ir->r) || irt_ismarked(ir->t)))
-    ra_spill(as, ir);
-  if (ra_hasspill(irp->s)) {
-    rset_clear(allow, ra_dest(as, ir, allow));
-  } else {
-    Reg r = irp->r;
-    lua_assert(ra_hasreg(r));
-    rset_clear(allow, r);
-    if (r != ir->r && !rset_test(as->freeset, r))
-      ra_restore(as, regcost_ref(as->cost[r]));
-    ra_destreg(as, ir, r);
-  }
-  return allow;
-}
-
-/* -- Tail of trace ------------------------------------------------------- */
-
-/* Fixup the tail code. */
-static void asm_tail_fixup(ASMState *as, TraceNo lnk)
-{
-  MCode *p = as->mctop;
-  MCode *target;
-  int32_t spadj = as->T->spadjust;
-  if (spadj == 0) {
-    as->mctop = --p;
-  } else {
-    /* Patch stack adjustment. */
-    uint32_t k = emit_isk12(ARMI_ADD, spadj);
-    lua_assert(k);
-    p[-2] = (ARMI_ADD^k) | ARMF_D(RID_SP) | ARMF_N(RID_SP);
-  }
-  /* Patch exit branch. */
-  target = lnk ? traceref(as->J, lnk)->mcode : (MCode *)lj_vm_exit_interp;
-  p[-1] = ARMI_B|(((target-p)-1)&0x00ffffffu);
-}
-
-/* Prepare tail of code. */
-static void asm_tail_prep(ASMState *as)
-{
-  MCode *p = as->mctop - 1;  /* Leave room for exit branch. */
-  if (as->loopref) {
-    as->invmcp = as->mcp = p;
-  } else {
-    as->mcp = p-1;  /* Leave room for stack pointer adjustment. */
-    as->invmcp = NULL;
-  }
-  *p = 0;  /* Prevent load/store merging. */
-}
-
-/* -- Instruction dispatch ------------------------------------------------ */
-
-/* Assemble a single instruction. */
-static void asm_ir(ASMState *as, IRIns *ir)
-{
-  switch ((IROp)ir->o) {
-  /* Miscellaneous ops. */
-  case IR_LOOP: asm_loop(as); break;
-  case IR_NOP: case IR_XBAR: lua_assert(!ra_used(ir)); break;
-  case IR_USE:
-    ra_alloc1(as, ir->op1, irt_isfp(ir->t) ? RSET_FPR : RSET_GPR); break;
-  case IR_PHI: asm_phi(as, ir); break;
-  case IR_HIOP: asm_hiop(as, ir); break;
-  case IR_GCSTEP: asm_gcstep(as, ir); break;
-
-  /* Guarded assertions. */
-  case IR_EQ: case IR_NE:
-    if ((ir-1)->o == IR_HREF && ir->op1 == as->curins-1) {
-      as->curins--;
-      asm_href(as, ir-1, (IROp)ir->o);
-      break;
-    }
-    /* fallthrough */
-  case IR_LT: case IR_GE: case IR_LE: case IR_GT:
-  case IR_ULT: case IR_UGE: case IR_ULE: case IR_UGT:
-  case IR_ABC:
-#if !LJ_SOFTFP
-    if (irt_isnum(ir->t)) { asm_fpcomp(as, ir); break; }
-#endif
-    asm_intcomp(as, ir);
-    break;
-
-  case IR_RETF: asm_retf(as, ir); break;
-
-  /* Bit ops. */
-  case IR_BNOT: asm_bitop(as, ir, ARMI_MVN); break;
-  case IR_BSWAP: asm_bitswap(as, ir); break;
-
-  case IR_BAND: asm_bitop(as, ir, ARMI_AND); break;
-  case IR_BOR:  asm_bitop(as, ir, ARMI_ORR); break;
-  case IR_BXOR: asm_bitop(as, ir, ARMI_EOR); break;
-
-  case IR_BSHL: asm_bitshift(as, ir, ARMSH_LSL); break;
-  case IR_BSHR: asm_bitshift(as, ir, ARMSH_LSR); break;
-  case IR_BSAR: asm_bitshift(as, ir, ARMSH_ASR); break;
-  case IR_BROR: asm_bitshift(as, ir, ARMSH_ROR); break;
-  case IR_BROL: lua_assert(0); break;
-
-  /* Arithmetic ops. */
-  case IR_ADD: case IR_ADDOV: asm_add(as, ir); break;
-  case IR_SUB: case IR_SUBOV: asm_sub(as, ir); break;
-  case IR_MUL: case IR_MULOV: asm_mul(as, ir); break;
-  case IR_MOD: asm_callid(as, ir, IRCALL_lj_vm_modi); break;
-  case IR_NEG: asm_neg(as, ir); break;
-
-#if LJ_SOFTFP
-  case IR_DIV: case IR_POW: case IR_ABS:
-  case IR_ATAN2: case IR_LDEXP: case IR_FPMATH: case IR_TOBIT:
-    lua_assert(0);  /* Unused for LJ_SOFTFP. */
-    break;
-#else
-  case IR_DIV: asm_fparith(as, ir, ARMI_VDIV_D); break;
-  case IR_POW: asm_callid(as, ir, IRCALL_lj_vm_powi); break;
-  case IR_ABS: asm_fpunary(as, ir, ARMI_VABS_D); break;
-  case IR_ATAN2: asm_callid(as, ir, IRCALL_atan2); break;
-  case IR_LDEXP: asm_callid(as, ir, IRCALL_ldexp); break;
-  case IR_FPMATH:
-    if (ir->op2 == IRFPM_EXP2 && asm_fpjoin_pow(as, ir))
-      break;
-    if (ir->op2 <= IRFPM_TRUNC)
-      asm_callround(as, ir, ir->op2);
-    else if (ir->op2 == IRFPM_SQRT)
-      asm_fpunary(as, ir, ARMI_VSQRT_D);
-    else
-      asm_callid(as, ir, IRCALL_lj_vm_floor + ir->op2);
-    break;
-  case IR_TOBIT: asm_tobit(as, ir); break;
-#endif
-
-  case IR_MIN: asm_min_max(as, ir, CC_GT, CC_HI); break;
-  case IR_MAX: asm_min_max(as, ir, CC_LT, CC_LO); break;
-
-  /* Memory references. */
-  case IR_AREF: asm_aref(as, ir); break;
-  case IR_HREF: asm_href(as, ir, 0); break;
-  case IR_HREFK: asm_hrefk(as, ir); break;
-  case IR_NEWREF: asm_newref(as, ir); break;
-  case IR_UREFO: case IR_UREFC: asm_uref(as, ir); break;
-  case IR_FREF: asm_fref(as, ir); break;
-  case IR_STRREF: asm_strref(as, ir); break;
-
-  /* Loads and stores. */
-  case IR_ALOAD: case IR_HLOAD: case IR_ULOAD: case IR_VLOAD:
-    asm_ahuvload(as, ir);
-    break;
-  case IR_FLOAD: asm_fload(as, ir); break;
-  case IR_XLOAD: asm_xload(as, ir); break;
-  case IR_SLOAD: asm_sload(as, ir); break;
-
-  case IR_ASTORE: case IR_HSTORE: case IR_USTORE: asm_ahustore(as, ir); break;
-  case IR_FSTORE: asm_fstore(as, ir); break;
-  case IR_XSTORE: asm_xstore(as, ir, 0); break;
-
-  /* Allocations. */
-  case IR_SNEW: case IR_XSNEW: asm_snew(as, ir); break;
-  case IR_TNEW: asm_tnew(as, ir); break;
-  case IR_TDUP: asm_tdup(as, ir); break;
-  case IR_CNEW: case IR_CNEWI: asm_cnew(as, ir); break;
-
-  /* Write barriers. */
-  case IR_TBAR: asm_tbar(as, ir); break;
-  case IR_OBAR: asm_obar(as, ir); break;
-
-  /* Type conversions. */
-  case IR_CONV: asm_conv(as, ir); break;
-  case IR_TOSTR: asm_tostr(as, ir); break;
-  case IR_STRTO: asm_strto(as, ir); break;
-
-  /* Calls. */
-  case IR_CALLN: case IR_CALLL: case IR_CALLS: asm_call(as, ir); break;
-  case IR_CALLXS: asm_callx(as, ir); break;
-  case IR_CARG: break;
-
-  default:
-    setintV(&as->J->errinfo, ir->o);
-    lj_trace_err_info(as->J, LJ_TRERR_NYIIR);
-    break;
-  }
-}
-
-/* -- Trace setup --------------------------------------------------------- */
-
-/* Ensure there are enough stack slots for call arguments. */
-static Reg asm_setup_call_slots(ASMState *as, IRIns *ir, const CCallInfo *ci)
-{
-  IRRef args[CCI_NARGS_MAX*2];
-  uint32_t i, nargs = (int)CCI_NARGS(ci);
-  int nslots = 0, ngpr = REGARG_NUMGPR, nfpr = REGARG_NUMFPR, fprodd = 0;
-  asm_collectargs(as, ir, ci, args);
-  for (i = 0; i < nargs; i++) {
-    if (!LJ_SOFTFP && args[i] && irt_isfp(IR(args[i])->t)) {
-      if (!LJ_ABI_SOFTFP && !(ci->flags & CCI_VARARG)) {
-	if (irt_isnum(IR(args[i])->t)) {
-	  if (nfpr > 0) nfpr--;
-	  else fprodd = 0, nslots = (nslots + 3) & ~1;
-	} else {
-	  if (fprodd) fprodd--;
-	  else if (nfpr > 0) fprodd = 1, nfpr--;
-	  else nslots++;
-	}
-      } else if (irt_isnum(IR(args[i])->t)) {
-	ngpr &= ~1;
-	if (ngpr > 0) ngpr -= 2; else nslots += 2;
-      } else {
-	if (ngpr > 0) ngpr--; else nslots++;
-      }
-    } else {
-      if (ngpr > 0) ngpr--; else nslots++;
-    }
-  }
-  if (nslots > as->evenspill)  /* Leave room for args in stack slots. */
-    as->evenspill = nslots;
-  return REGSP_HINT(RID_RET);
-}
-
-static void asm_setup_target(ASMState *as)
-{
-  /* May need extra exit for asm_stack_check on side traces. */
-  asm_exitstub_setup(as, as->T->nsnap + (as->parent ? 1 : 0));
-}
-
-/* -- Trace patching ------------------------------------------------------ */
-
-/* Patch exit jumps of existing machine code to a new target. */
-void lj_asm_patchexit(jit_State *J, GCtrace *T, ExitNo exitno, MCode *target)
-{
-  MCode *p = T->mcode;
-  MCode *pe = (MCode *)((char *)p + T->szmcode);
-  MCode *cstart = NULL, *cend = p;
-  MCode *mcarea = lj_mcode_patch(J, p, 0);
-  MCode *px = exitstub_addr(J, exitno) - 2;
-  for (; p < pe; p++) {
-    /* Look for bl_cc exitstub, replace with b_cc target. */
-    uint32_t ins = *p;
-    if ((ins & 0x0f000000u) == 0x0b000000u && ins < 0xf0000000u &&
-	((ins ^ (px-p)) & 0x00ffffffu) == 0) {
-      *p = (ins & 0xfe000000u) | (((target-p)-2) & 0x00ffffffu);
-      cend = p+1;
-      if (!cstart) cstart = p;
-    }
-  }
-  lua_assert(cstart != NULL);
-  lj_mcode_sync(cstart, cend);
-  lj_mcode_patch(J, mcarea, 1);
-}
-
diff --git a/luajit-2.0/src/lj_asm_mips.h b/luajit-2.0/src/lj_asm_mips.h
deleted file mode 100644
index e5c67b5..0000000
--- a/luajit-2.0/src/lj_asm_mips.h
+++ /dev/null
@@ -1,1977 +0,0 @@
-/*
-** MIPS IR assembler (SSA IR -> machine code).
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-/* -- Register allocator extensions --------------------------------------- */
-
-/* Allocate a register with a hint. */
-static Reg ra_hintalloc(ASMState *as, IRRef ref, Reg hint, RegSet allow)
-{
-  Reg r = IR(ref)->r;
-  if (ra_noreg(r)) {
-    if (!ra_hashint(r) && !iscrossref(as, ref))
-      ra_sethint(IR(ref)->r, hint);  /* Propagate register hint. */
-    r = ra_allocref(as, ref, allow);
-  }
-  ra_noweak(as, r);
-  return r;
-}
-
-/* Allocate a register or RID_ZERO. */
-static Reg ra_alloc1z(ASMState *as, IRRef ref, RegSet allow)
-{
-  Reg r = IR(ref)->r;
-  if (ra_noreg(r)) {
-    if (!(allow & RSET_FPR) && irref_isk(ref) && IR(ref)->i == 0)
-      return RID_ZERO;
-    r = ra_allocref(as, ref, allow);
-  } else {
-    ra_noweak(as, r);
-  }
-  return r;
-}
-
-/* Allocate two source registers for three-operand instructions. */
-static Reg ra_alloc2(ASMState *as, IRIns *ir, RegSet allow)
-{
-  IRIns *irl = IR(ir->op1), *irr = IR(ir->op2);
-  Reg left = irl->r, right = irr->r;
-  if (ra_hasreg(left)) {
-    ra_noweak(as, left);
-    if (ra_noreg(right))
-      right = ra_alloc1z(as, ir->op2, rset_exclude(allow, left));
-    else
-      ra_noweak(as, right);
-  } else if (ra_hasreg(right)) {
-    ra_noweak(as, right);
-    left = ra_alloc1z(as, ir->op1, rset_exclude(allow, right));
-  } else if (ra_hashint(right)) {
-    right = ra_alloc1z(as, ir->op2, allow);
-    left = ra_alloc1z(as, ir->op1, rset_exclude(allow, right));
-  } else {
-    left = ra_alloc1z(as, ir->op1, allow);
-    right = ra_alloc1z(as, ir->op2, rset_exclude(allow, left));
-  }
-  return left | (right << 8);
-}
-
-/* -- Guard handling ------------------------------------------------------ */
-
-/* Need some spare long-range jump slots, for out-of-range branches. */
-#define MIPS_SPAREJUMP		4
-
-/* Setup spare long-range jump slots per mcarea. */
-static void asm_sparejump_setup(ASMState *as)
-{
-  MCode *mxp = as->mcbot;
-  /* Assumes sizeof(MCLink) == 8. */
-  if (((uintptr_t)mxp & (LJ_PAGESIZE-1)) == 8) {
-    lua_assert(MIPSI_NOP == 0);
-    memset(mxp+2, 0, MIPS_SPAREJUMP*8);
-    mxp += MIPS_SPAREJUMP*2;
-    lua_assert(mxp < as->mctop);
-    lj_mcode_sync(as->mcbot, mxp);
-    lj_mcode_commitbot(as->J, mxp);
-    as->mcbot = mxp;
-    as->mclim = as->mcbot + MCLIM_REDZONE;
-  }
-}
-
-/* Setup exit stub after the end of each trace. */
-static void asm_exitstub_setup(ASMState *as)
-{
-  MCode *mxp = as->mctop;
-  /* sw TMP, 0(sp); j ->vm_exit_handler; li TMP, traceno */
-  *--mxp = MIPSI_LI|MIPSF_T(RID_TMP)|as->T->traceno;
-  *--mxp = MIPSI_J|((((uintptr_t)(void *)lj_vm_exit_handler)>>2)&0x03ffffffu);
-  lua_assert(((uintptr_t)mxp ^ (uintptr_t)(void *)lj_vm_exit_handler)>>28 == 0);
-  *--mxp = MIPSI_SW|MIPSF_T(RID_TMP)|MIPSF_S(RID_SP)|0;
-  as->mctop = mxp;
-}
-
-/* Keep this in-sync with exitstub_trace_addr(). */
-#define asm_exitstub_addr(as)	((as)->mctop)
-
-/* Emit conditional branch to exit for guard. */
-static void asm_guard(ASMState *as, MIPSIns mi, Reg rs, Reg rt)
-{
-  MCode *target = asm_exitstub_addr(as);
-  MCode *p = as->mcp;
-  if (LJ_UNLIKELY(p == as->invmcp)) {
-    as->invmcp = NULL;
-    as->loopinv = 1;
-    as->mcp = p+1;
-    mi = mi ^ ((mi>>28) == 1 ? 0x04000000u : 0x00010000u);  /* Invert cond. */
-    target = p;  /* Patch target later in asm_loop_fixup. */
-  }
-  emit_ti(as, MIPSI_LI, RID_TMP, as->snapno);
-  emit_branch(as, mi, rs, rt, target);
-}
-
-/* -- Operand fusion ------------------------------------------------------ */
-
-/* Limit linear search to this distance. Avoids O(n^2) behavior. */
-#define CONFLICT_SEARCH_LIM	31
-
-/* Check if there's no conflicting instruction between curins and ref. */
-static int noconflict(ASMState *as, IRRef ref, IROp conflict)
-{
-  IRIns *ir = as->ir;
-  IRRef i = as->curins;
-  if (i > ref + CONFLICT_SEARCH_LIM)
-    return 0;  /* Give up, ref is too far away. */
-  while (--i > ref)
-    if (ir[i].o == conflict)
-      return 0;  /* Conflict found. */
-  return 1;  /* Ok, no conflict. */
-}
-
-/* Fuse the array base of colocated arrays. */
-static int32_t asm_fuseabase(ASMState *as, IRRef ref)
-{
-  IRIns *ir = IR(ref);
-  if (ir->o == IR_TNEW && ir->op1 <= LJ_MAX_COLOSIZE &&
-      !neverfuse(as) && noconflict(as, ref, IR_NEWREF))
-    return (int32_t)sizeof(GCtab);
-  return 0;
-}
-
-/* Fuse array/hash/upvalue reference into register+offset operand. */
-static Reg asm_fuseahuref(ASMState *as, IRRef ref, int32_t *ofsp, RegSet allow)
-{
-  IRIns *ir = IR(ref);
-  if (ra_noreg(ir->r)) {
-    if (ir->o == IR_AREF) {
-      if (mayfuse(as, ref)) {
-	if (irref_isk(ir->op2)) {
-	  IRRef tab = IR(ir->op1)->op1;
-	  int32_t ofs = asm_fuseabase(as, tab);
-	  IRRef refa = ofs ? tab : ir->op1;
-	  ofs += 8*IR(ir->op2)->i;
-	  if (checki16(ofs)) {
-	    *ofsp = ofs;
-	    return ra_alloc1(as, refa, allow);
-	  }
-	}
-      }
-    } else if (ir->o == IR_HREFK) {
-      if (mayfuse(as, ref)) {
-	int32_t ofs = (int32_t)(IR(ir->op2)->op2 * sizeof(Node));
-	if (checki16(ofs)) {
-	  *ofsp = ofs;
-	  return ra_alloc1(as, ir->op1, allow);
-	}
-      }
-    } else if (ir->o == IR_UREFC) {
-      if (irref_isk(ir->op1)) {
-	GCfunc *fn = ir_kfunc(IR(ir->op1));
-	int32_t ofs = i32ptr(&gcref(fn->l.uvptr[(ir->op2 >> 8)])->uv.tv);
-	int32_t jgl = (intptr_t)J2G(as->J);
-	if ((uint32_t)(ofs-jgl) < 65536) {
-	  *ofsp = ofs-jgl-32768;
-	  return RID_JGL;
-	} else {
-	  *ofsp = (int16_t)ofs;
-	  return ra_allock(as, ofs-(int16_t)ofs, allow);
-	}
-      }
-    }
-  }
-  *ofsp = 0;
-  return ra_alloc1(as, ref, allow);
-}
-
-/* Fuse XLOAD/XSTORE reference into load/store operand. */
-static void asm_fusexref(ASMState *as, MIPSIns mi, Reg rt, IRRef ref,
-			 RegSet allow, int32_t ofs)
-{
-  IRIns *ir = IR(ref);
-  Reg base;
-  if (ra_noreg(ir->r) && canfuse(as, ir)) {
-    if (ir->o == IR_ADD) {
-      int32_t ofs2;
-      if (irref_isk(ir->op2) && (ofs2 = ofs + IR(ir->op2)->i, checki16(ofs2))) {
-	ref = ir->op1;
-	ofs = ofs2;
-      }
-    } else if (ir->o == IR_STRREF) {
-      int32_t ofs2 = 65536;
-      lua_assert(ofs == 0);
-      ofs = (int32_t)sizeof(GCstr);
-      if (irref_isk(ir->op2)) {
-	ofs2 = ofs + IR(ir->op2)->i;
-	ref = ir->op1;
-      } else if (irref_isk(ir->op1)) {
-	ofs2 = ofs + IR(ir->op1)->i;
-	ref = ir->op2;
-      }
-      if (!checki16(ofs2)) {
-	/* NYI: Fuse ADD with constant. */
-	Reg right, left = ra_alloc2(as, ir, allow);
-	right = (left >> 8); left &= 255;
-	emit_hsi(as, mi, rt, RID_TMP, ofs);
-	emit_dst(as, MIPSI_ADDU, RID_TMP, left, right);
-	return;
-      }
-      ofs = ofs2;
-    }
-  }
-  base = ra_alloc1(as, ref, allow);
-  emit_hsi(as, mi, rt, base, ofs);
-}
-
-/* -- Calls --------------------------------------------------------------- */
-
-/* Generate a call to a C function. */
-static void asm_gencall(ASMState *as, const CCallInfo *ci, IRRef *args)
-{
-  uint32_t n, nargs = CCI_NARGS(ci);
-  int32_t ofs = 16;
-  Reg gpr, fpr = REGARG_FIRSTFPR;
-  if ((void *)ci->func)
-    emit_call(as, (void *)ci->func);
-  for (gpr = REGARG_FIRSTGPR; gpr <= REGARG_LASTGPR; gpr++)
-    as->cost[gpr] = REGCOST(~0u, ASMREF_L);
-  gpr = REGARG_FIRSTGPR;
-  for (n = 0; n < nargs; n++) {  /* Setup args. */
-    IRRef ref = args[n];
-    if (ref) {
-      IRIns *ir = IR(ref);
-      if (irt_isfp(ir->t) && fpr <= REGARG_LASTFPR &&
-	  !(ci->flags & CCI_VARARG)) {
-	lua_assert(rset_test(as->freeset, fpr));  /* Already evicted. */
-	ra_leftov(as, fpr, ref);
-	fpr += 2;
-	gpr += irt_isnum(ir->t) ? 2 : 1;
-      } else {
-	fpr = REGARG_LASTFPR+1;
-	if (irt_isnum(ir->t)) gpr = (gpr+1) & ~1;
-	if (gpr <= REGARG_LASTGPR) {
-	  lua_assert(rset_test(as->freeset, gpr));  /* Already evicted. */
-	  if (irt_isfp(ir->t)) {
-	    RegSet of = as->freeset;
-	    Reg r;
-	    /* Workaround to protect argument GPRs from being used for remat. */
-	    as->freeset &= ~RSET_RANGE(REGARG_FIRSTGPR, REGARG_LASTGPR+1);
-	    r = ra_alloc1(as, ref, RSET_FPR);
-	    as->freeset |= (of & RSET_RANGE(REGARG_FIRSTGPR, REGARG_LASTGPR+1));
-	    if (irt_isnum(ir->t)) {
-	      emit_tg(as, MIPSI_MFC1, gpr+(LJ_BE?0:1), r+1);
-	      emit_tg(as, MIPSI_MFC1, gpr+(LJ_BE?1:0), r);
-	      lua_assert(rset_test(as->freeset, gpr+1));  /* Already evicted. */
-	      gpr += 2;
-	    } else if (irt_isfloat(ir->t)) {
-	      emit_tg(as, MIPSI_MFC1, gpr, r);
-	      gpr++;
-	    }
-	  } else {
-	    ra_leftov(as, gpr, ref);
-	    gpr++;
-	  }
-	} else {
-	  Reg r = ra_alloc1z(as, ref, irt_isfp(ir->t) ? RSET_FPR : RSET_GPR);
-	  if (irt_isnum(ir->t)) ofs = (ofs + 4) & ~4;
-	  emit_spstore(as, ir, r, ofs);
-	  ofs += irt_isnum(ir->t) ? 8 : 4;
-	}
-      }
-    } else {
-      fpr = REGARG_LASTFPR+1;
-      if (gpr <= REGARG_LASTGPR)
-	gpr++;
-      else
-	ofs += 4;
-    }
-    checkmclim(as);
-  }
-}
-
-/* Setup result reg/sp for call. Evict scratch regs. */
-static void asm_setupresult(ASMState *as, IRIns *ir, const CCallInfo *ci)
-{
-  RegSet drop = RSET_SCRATCH;
-  int hiop = ((ir+1)->o == IR_HIOP);
-  if ((ci->flags & CCI_NOFPRCLOBBER))
-    drop &= ~RSET_FPR;
-  if (ra_hasreg(ir->r))
-    rset_clear(drop, ir->r);  /* Dest reg handled below. */
-  if (hiop && ra_hasreg((ir+1)->r))
-    rset_clear(drop, (ir+1)->r);  /* Dest reg handled below. */
-  ra_evictset(as, drop);  /* Evictions must be performed first. */
-  if (ra_used(ir)) {
-    lua_assert(!irt_ispri(ir->t));
-    if (irt_isfp(ir->t)) {
-      if ((ci->flags & CCI_CASTU64)) {
-	int32_t ofs = sps_scale(ir->s);
-	Reg dest = ir->r;
-	if (ra_hasreg(dest)) {
-	  ra_free(as, dest);
-	  ra_modified(as, dest);
-	  emit_tg(as, MIPSI_MTC1, RID_RETHI, dest+1);
-	  emit_tg(as, MIPSI_MTC1, RID_RETLO, dest);
-	}
-	if (ofs) {
-	  emit_tsi(as, MIPSI_SW, RID_RETLO, RID_SP, ofs+(LJ_BE?4:0));
-	  emit_tsi(as, MIPSI_SW, RID_RETHI, RID_SP, ofs+(LJ_BE?0:4));
-	}
-      } else {
-	ra_destreg(as, ir, RID_FPRET);
-      }
-    } else if (hiop) {
-      ra_destpair(as, ir);
-    } else {
-      ra_destreg(as, ir, RID_RET);
-    }
-  }
-}
-
-static void asm_call(ASMState *as, IRIns *ir)
-{
-  IRRef args[CCI_NARGS_MAX];
-  const CCallInfo *ci = &lj_ir_callinfo[ir->op2];
-  asm_collectargs(as, ir, ci, args);
-  asm_setupresult(as, ir, ci);
-  asm_gencall(as, ci, args);
-}
-
-static void asm_callx(ASMState *as, IRIns *ir)
-{
-  IRRef args[CCI_NARGS_MAX*2];
-  CCallInfo ci;
-  IRRef func;
-  IRIns *irf;
-  ci.flags = asm_callx_flags(as, ir);
-  asm_collectargs(as, ir, &ci, args);
-  asm_setupresult(as, ir, &ci);
-  func = ir->op2; irf = IR(func);
-  if (irf->o == IR_CARG) { func = irf->op1; irf = IR(func); }
-  if (irref_isk(func)) {  /* Call to constant address. */
-    ci.func = (ASMFunction)(void *)(irf->i);
-  } else {  /* Need specific register for indirect calls. */
-    Reg r = ra_alloc1(as, func, RID2RSET(RID_CFUNCADDR));
-    MCode *p = as->mcp;
-    if (r == RID_CFUNCADDR)
-      *--p = MIPSI_NOP;
-    else
-      *--p = MIPSI_MOVE | MIPSF_D(RID_CFUNCADDR) | MIPSF_S(r);
-    *--p = MIPSI_JALR | MIPSF_S(r);
-    as->mcp = p;
-    ci.func = (ASMFunction)(void *)0;
-  }
-  asm_gencall(as, &ci, args);
-}
-
-static void asm_callid(ASMState *as, IRIns *ir, IRCallID id)
-{
-  const CCallInfo *ci = &lj_ir_callinfo[id];
-  IRRef args[2];
-  args[0] = ir->op1;
-  args[1] = ir->op2;
-  asm_setupresult(as, ir, ci);
-  asm_gencall(as, ci, args);
-}
-
-static void asm_callround(ASMState *as, IRIns *ir, IRCallID id)
-{
-  /* The modified regs must match with the *.dasc implementation. */
-  RegSet drop = RID2RSET(RID_R1)|RID2RSET(RID_R12)|RID2RSET(RID_FPRET)|
-		RID2RSET(RID_F2)|RID2RSET(RID_F4)|RID2RSET(REGARG_FIRSTFPR);
-  if (ra_hasreg(ir->r)) rset_clear(drop, ir->r);
-  ra_evictset(as, drop);
-  ra_destreg(as, ir, RID_FPRET);
-  emit_call(as, (void *)lj_ir_callinfo[id].func);
-  ra_leftov(as, REGARG_FIRSTFPR, ir->op1);
-}
-
-/* -- Returns ------------------------------------------------------------- */
-
-/* Return to lower frame. Guard that it goes to the right spot. */
-static void asm_retf(ASMState *as, IRIns *ir)
-{
-  Reg base = ra_alloc1(as, REF_BASE, RSET_GPR);
-  void *pc = ir_kptr(IR(ir->op2));
-  int32_t delta = 1+bc_a(*((const BCIns *)pc - 1));
-  as->topslot -= (BCReg)delta;
-  if ((int32_t)as->topslot < 0) as->topslot = 0;
-  irt_setmark(IR(REF_BASE)->t);  /* Children must not coalesce with BASE reg. */
-  emit_setgl(as, base, jit_base);
-  emit_addptr(as, base, -8*delta);
-  asm_guard(as, MIPSI_BNE, RID_TMP,
-	    ra_allock(as, i32ptr(pc), rset_exclude(RSET_GPR, base)));
-  emit_tsi(as, MIPSI_LW, RID_TMP, base, -8);
-}
-
-/* -- Type conversions ---------------------------------------------------- */
-
-static void asm_tointg(ASMState *as, IRIns *ir, Reg left)
-{
-  Reg tmp = ra_scratch(as, rset_exclude(RSET_FPR, left));
-  Reg dest = ra_dest(as, ir, RSET_GPR);
-  asm_guard(as, MIPSI_BC1F, 0, 0);
-  emit_fgh(as, MIPSI_C_EQ_D, 0, tmp, left);
-  emit_fg(as, MIPSI_CVT_D_W, tmp, tmp);
-  emit_tg(as, MIPSI_MFC1, dest, tmp);
-  emit_fg(as, MIPSI_CVT_W_D, tmp, left);
-}
-
-static void asm_tobit(ASMState *as, IRIns *ir)
-{
-  RegSet allow = RSET_FPR;
-  Reg dest = ra_dest(as, ir, RSET_GPR);
-  Reg left = ra_alloc1(as, ir->op1, allow);
-  Reg right = ra_alloc1(as, ir->op2, rset_clear(allow, left));
-  Reg tmp = ra_scratch(as, rset_clear(allow, right));
-  emit_tg(as, MIPSI_MFC1, dest, tmp);
-  emit_fgh(as, MIPSI_ADD_D, tmp, left, right);
-}
-
-static void asm_conv(ASMState *as, IRIns *ir)
-{
-  IRType st = (IRType)(ir->op2 & IRCONV_SRCMASK);
-  int stfp = (st == IRT_NUM || st == IRT_FLOAT);
-  IRRef lref = ir->op1;
-  lua_assert(irt_type(ir->t) != st);
-  lua_assert(!(irt_isint64(ir->t) ||
-	       (st == IRT_I64 || st == IRT_U64))); /* Handled by SPLIT. */
-  if (irt_isfp(ir->t)) {
-    Reg dest = ra_dest(as, ir, RSET_FPR);
-    if (stfp) {  /* FP to FP conversion. */
-      emit_fg(as, st == IRT_NUM ? MIPSI_CVT_S_D : MIPSI_CVT_D_S,
-	      dest, ra_alloc1(as, lref, RSET_FPR));
-    } else if (st == IRT_U32) {  /* U32 to FP conversion. */
-      /* y = (x ^ 0x8000000) + 2147483648.0 */
-      Reg left = ra_alloc1(as, lref, RSET_GPR);
-      Reg tmp = ra_scratch(as, rset_exclude(RSET_FPR, dest));
-      emit_fgh(as, irt_isfloat(ir->t) ? MIPSI_ADD_S : MIPSI_ADD_D,
-	       dest, dest, tmp);
-      emit_fg(as, irt_isfloat(ir->t) ? MIPSI_CVT_S_W : MIPSI_CVT_D_W,
-	      dest, dest);
-      if (irt_isfloat(ir->t))
-	emit_lsptr(as, MIPSI_LWC1, (tmp & 31),
-		   (void *)lj_ir_k64_find(as->J, U64x(4f000000,4f000000)),
-		   RSET_GPR);
-      else
-	emit_lsptr(as, MIPSI_LDC1, (tmp & 31),
-		   (void *)lj_ir_k64_find(as->J, U64x(41e00000,00000000)),
-		   RSET_GPR);
-      emit_tg(as, MIPSI_MTC1, RID_TMP, dest);
-      emit_dst(as, MIPSI_XOR, RID_TMP, RID_TMP, left);
-      emit_ti(as, MIPSI_LUI, RID_TMP, 0x8000);
-    } else {  /* Integer to FP conversion. */
-      Reg left = ra_alloc1(as, lref, RSET_GPR);
-      emit_fg(as, irt_isfloat(ir->t) ? MIPSI_CVT_S_W : MIPSI_CVT_D_W,
-	      dest, dest);
-      emit_tg(as, MIPSI_MTC1, left, dest);
-    }
-  } else if (stfp) {  /* FP to integer conversion. */
-    if (irt_isguard(ir->t)) {
-      /* Checked conversions are only supported from number to int. */
-      lua_assert(irt_isint(ir->t) && st == IRT_NUM);
-      asm_tointg(as, ir, ra_alloc1(as, lref, RSET_FPR));
-    } else {
-      Reg dest = ra_dest(as, ir, RSET_GPR);
-      Reg left = ra_alloc1(as, lref, RSET_FPR);
-      Reg tmp = ra_scratch(as, rset_exclude(RSET_FPR, left));
-      if (irt_isu32(ir->t)) {
-	/* y = (int)floor(x - 2147483648.0) ^ 0x80000000 */
-	emit_dst(as, MIPSI_XOR, dest, dest, RID_TMP);
-	emit_ti(as, MIPSI_LUI, RID_TMP, 0x8000);
-	emit_tg(as, MIPSI_MFC1, dest, tmp);
-	emit_fg(as, st == IRT_FLOAT ? MIPSI_FLOOR_W_S : MIPSI_FLOOR_W_D,
-		tmp, tmp);
-	emit_fgh(as, st == IRT_FLOAT ? MIPSI_SUB_S : MIPSI_SUB_D,
-		 tmp, left, tmp);
-	if (st == IRT_FLOAT)
-	  emit_lsptr(as, MIPSI_LWC1, (tmp & 31),
-		     (void *)lj_ir_k64_find(as->J, U64x(4f000000,4f000000)),
-		     RSET_GPR);
-	else
-	  emit_lsptr(as, MIPSI_LDC1, (tmp & 31),
-		     (void *)lj_ir_k64_find(as->J, U64x(41e00000,00000000)),
-		     RSET_GPR);
-      } else {
-	emit_tg(as, MIPSI_MFC1, dest, tmp);
-	emit_fg(as, st == IRT_FLOAT ? MIPSI_TRUNC_W_S : MIPSI_TRUNC_W_D,
-		tmp, left);
-      }
-    }
-  } else {
-    Reg dest = ra_dest(as, ir, RSET_GPR);
-    if (st >= IRT_I8 && st <= IRT_U16) {  /* Extend to 32 bit integer. */
-      Reg left = ra_alloc1(as, ir->op1, RSET_GPR);
-      lua_assert(irt_isint(ir->t) || irt_isu32(ir->t));
-      if ((ir->op2 & IRCONV_SEXT)) {
-	if ((as->flags & JIT_F_MIPS32R2)) {
-	  emit_dst(as, st == IRT_I8 ? MIPSI_SEB : MIPSI_SEH, dest, 0, left);
-	} else {
-	  uint32_t shift = st == IRT_I8 ? 24 : 16;
-	  emit_dta(as, MIPSI_SRA, dest, dest, shift);
-	  emit_dta(as, MIPSI_SLL, dest, left, shift);
-	}
-      } else {
-	emit_tsi(as, MIPSI_ANDI, dest, left,
-		 (int32_t)(st == IRT_U8 ? 0xff : 0xffff));
-      }
-    } else {  /* 32/64 bit integer conversions. */
-      /* Only need to handle 32/32 bit no-op (cast) on 32 bit archs. */
-      ra_leftov(as, dest, lref);  /* Do nothing, but may need to move regs. */
-    }
-  }
-}
-
-#if LJ_HASFFI
-static void asm_conv64(ASMState *as, IRIns *ir)
-{
-  IRType st = (IRType)((ir-1)->op2 & IRCONV_SRCMASK);
-  IRType dt = (((ir-1)->op2 & IRCONV_DSTMASK) >> IRCONV_DSH);
-  IRCallID id;
-  const CCallInfo *ci;
-  IRRef args[2];
-  args[LJ_BE?0:1] = ir->op1;
-  args[LJ_BE?1:0] = (ir-1)->op1;
-  if (st == IRT_NUM || st == IRT_FLOAT) {
-    id = IRCALL_fp64_d2l + ((st == IRT_FLOAT) ? 2 : 0) + (dt - IRT_I64);
-    ir--;
-  } else {
-    id = IRCALL_fp64_l2d + ((dt == IRT_FLOAT) ? 2 : 0) + (st - IRT_I64);
-  }
-  ci = &lj_ir_callinfo[id];
-  asm_setupresult(as, ir, ci);
-  asm_gencall(as, ci, args);
-}
-#endif
-
-static void asm_strto(ASMState *as, IRIns *ir)
-{
-  const CCallInfo *ci = &lj_ir_callinfo[IRCALL_lj_strscan_num];
-  IRRef args[2];
-  RegSet drop = RSET_SCRATCH;
-  if (ra_hasreg(ir->r)) rset_set(drop, ir->r);  /* Spill dest reg (if any). */
-  ra_evictset(as, drop);
-  asm_guard(as, MIPSI_BEQ, RID_RET, RID_ZERO);  /* Test return status. */
-  args[0] = ir->op1;      /* GCstr *str */
-  args[1] = ASMREF_TMP1;  /* TValue *n  */
-  asm_gencall(as, ci, args);
-  /* Store the result to the spill slot or temp slots. */
-  emit_tsi(as, MIPSI_ADDIU, ra_releasetmp(as, ASMREF_TMP1),
-	   RID_SP, sps_scale(ir->s));
-}
-
-/* Get pointer to TValue. */
-static void asm_tvptr(ASMState *as, Reg dest, IRRef ref)
-{
-  IRIns *ir = IR(ref);
-  if (irt_isnum(ir->t)) {
-    if (irref_isk(ref))  /* Use the number constant itself as a TValue. */
-      ra_allockreg(as, i32ptr(ir_knum(ir)), dest);
-    else  /* Otherwise force a spill and use the spill slot. */
-      emit_tsi(as, MIPSI_ADDIU, dest, RID_SP, ra_spill(as, ir));
-  } else {
-    /* Otherwise use g->tmptv to hold the TValue. */
-    RegSet allow = rset_exclude(RSET_GPR, dest);
-    Reg type;
-    emit_tsi(as, MIPSI_ADDIU, dest, RID_JGL, offsetof(global_State, tmptv)-32768);
-    if (!irt_ispri(ir->t)) {
-      Reg src = ra_alloc1(as, ref, allow);
-      emit_setgl(as, src, tmptv.gcr);
-    }
-    type = ra_allock(as, irt_toitype(ir->t), allow);
-    emit_setgl(as, type, tmptv.it);
-  }
-}
-
-static void asm_tostr(ASMState *as, IRIns *ir)
-{
-  IRRef args[2];
-  args[0] = ASMREF_L;
-  as->gcsteps++;
-  if (irt_isnum(IR(ir->op1)->t) || (ir+1)->o == IR_HIOP) {
-    const CCallInfo *ci = &lj_ir_callinfo[IRCALL_lj_str_fromnum];
-    args[1] = ASMREF_TMP1;  /* const lua_Number * */
-    asm_setupresult(as, ir, ci);  /* GCstr * */
-    asm_gencall(as, ci, args);
-    asm_tvptr(as, ra_releasetmp(as, ASMREF_TMP1), ir->op1);
-  } else {
-    const CCallInfo *ci = &lj_ir_callinfo[IRCALL_lj_str_fromint];
-    args[1] = ir->op1;  /* int32_t k */
-    asm_setupresult(as, ir, ci);  /* GCstr * */
-    asm_gencall(as, ci, args);
-  }
-}
-
-/* -- Memory references --------------------------------------------------- */
-
-static void asm_aref(ASMState *as, IRIns *ir)
-{
-  Reg dest = ra_dest(as, ir, RSET_GPR);
-  Reg idx, base;
-  if (irref_isk(ir->op2)) {
-    IRRef tab = IR(ir->op1)->op1;
-    int32_t ofs = asm_fuseabase(as, tab);
-    IRRef refa = ofs ? tab : ir->op1;
-    ofs += 8*IR(ir->op2)->i;
-    if (checki16(ofs)) {
-      base = ra_alloc1(as, refa, RSET_GPR);
-      emit_tsi(as, MIPSI_ADDIU, dest, base, ofs);
-      return;
-    }
-  }
-  base = ra_alloc1(as, ir->op1, RSET_GPR);
-  idx = ra_alloc1(as, ir->op2, rset_exclude(RSET_GPR, base));
-  emit_dst(as, MIPSI_ADDU, dest, RID_TMP, base);
-  emit_dta(as, MIPSI_SLL, RID_TMP, idx, 3);
-}
-
-/* Inlined hash lookup. Specialized for key type and for const keys.
-** The equivalent C code is:
-**   Node *n = hashkey(t, key);
-**   do {
-**     if (lj_obj_equal(&n->key, key)) return &n->val;
-**   } while ((n = nextnode(n)));
-**   return niltv(L);
-*/
-static void asm_href(ASMState *as, IRIns *ir)
-{
-  RegSet allow = RSET_GPR;
-  int destused = ra_used(ir);
-  Reg dest = ra_dest(as, ir, allow);
-  Reg tab = ra_alloc1(as, ir->op1, rset_clear(allow, dest));
-  Reg key = RID_NONE, type = RID_NONE, tmpnum = RID_NONE, tmp1 = RID_TMP, tmp2;
-  IRRef refkey = ir->op2;
-  IRIns *irkey = IR(refkey);
-  IRType1 kt = irkey->t;
-  uint32_t khash;
-  MCLabel l_end, l_loop, l_next;
-
-  rset_clear(allow, tab);
-  if (irt_isnum(kt)) {
-    key = ra_alloc1(as, refkey, RSET_FPR);
-    tmpnum = ra_scratch(as, rset_exclude(RSET_FPR, key));
-  } else if (!irt_ispri(kt)) {
-    key = ra_alloc1(as, refkey, allow);
-    rset_clear(allow, key);
-    type = ra_allock(as, irt_toitype(irkey->t), allow);
-    rset_clear(allow, type);
-  }
-  tmp2 = ra_scratch(as, allow);
-  rset_clear(allow, tmp2);
-
-  /* Key not found in chain: load niltv. */
-  l_end = emit_label(as);
-  if (destused)
-    emit_loada(as, dest, niltvg(J2G(as->J)));
-  else
-    *--as->mcp = MIPSI_NOP;
-  /* Follow hash chain until the end. */
-  emit_move(as, dest, tmp1);
-  l_loop = --as->mcp;
-  emit_tsi(as, MIPSI_LW, tmp1, dest, (int32_t)offsetof(Node, next));
-  l_next = emit_label(as);
-
-  /* Type and value comparison. */
-  if (irt_isnum(kt)) {
-    emit_branch(as, MIPSI_BC1T, 0, 0, l_end);
-    emit_fgh(as, MIPSI_C_EQ_D, 0, tmpnum, key);
-	emit_tg(as, MIPSI_MFC1, tmp1, key+1);
-    emit_branch(as, MIPSI_BEQ, tmp1, RID_ZERO, l_next);
-    emit_tsi(as, MIPSI_SLTIU, tmp1, tmp1, (int32_t)LJ_TISNUM);
-    emit_hsi(as, MIPSI_LDC1, tmpnum, dest, (int32_t)offsetof(Node, key.n));
-  } else {
-    if (irt_ispri(kt)) {
-      emit_branch(as, MIPSI_BEQ, tmp1, type, l_end);
-    } else {
-      emit_branch(as, MIPSI_BEQ, tmp2, key, l_end);
-      emit_tsi(as, MIPSI_LW, tmp2, dest, (int32_t)offsetof(Node, key.gcr));
-      emit_branch(as, MIPSI_BNE, tmp1, type, l_next);
-    }
-  }
-  emit_tsi(as, MIPSI_LW, tmp1, dest, (int32_t)offsetof(Node, key.it));
-  *l_loop = MIPSI_BNE | MIPSF_S(tmp1) | ((as->mcp-l_loop-1) & 0xffffu);
-
-  /* Load main position relative to tab->node into dest. */
-  khash = irref_isk(refkey) ? ir_khash(irkey) : 1;
-  if (khash == 0) {
-    emit_tsi(as, MIPSI_LW, dest, tab, (int32_t)offsetof(GCtab, node));
-  } else {
-    Reg tmphash = tmp1;
-    if (irref_isk(refkey))
-      tmphash = ra_allock(as, khash, allow);
-    emit_dst(as, MIPSI_ADDU, dest, dest, tmp1);
-    lua_assert(sizeof(Node) == 24);
-    emit_dst(as, MIPSI_SUBU, tmp1, tmp2, tmp1);
-    emit_dta(as, MIPSI_SLL, tmp1, tmp1, 3);
-    emit_dta(as, MIPSI_SLL, tmp2, tmp1, 5);
-    emit_dst(as, MIPSI_AND, tmp1, tmp2, tmphash);
-    emit_tsi(as, MIPSI_LW, dest, tab, (int32_t)offsetof(GCtab, node));
-    emit_tsi(as, MIPSI_LW, tmp2, tab, (int32_t)offsetof(GCtab, hmask));
-    if (irref_isk(refkey)) {
-      /* Nothing to do. */
-    } else if (irt_isstr(kt)) {
-      emit_tsi(as, MIPSI_LW, tmp1, key, (int32_t)offsetof(GCstr, hash));
-    } else {  /* Must match with hash*() in lj_tab.c. */
-      emit_dst(as, MIPSI_SUBU, tmp1, tmp1, tmp2);
-      emit_rotr(as, tmp2, tmp2, dest, (-HASH_ROT3)&31);
-      emit_dst(as, MIPSI_XOR, tmp1, tmp1, tmp2);
-      emit_rotr(as, tmp1, tmp1, dest, (-HASH_ROT2-HASH_ROT1)&31);
-      emit_dst(as, MIPSI_SUBU, tmp2, tmp2, dest);
-      if (irt_isnum(kt)) {
-	emit_dst(as, MIPSI_XOR, tmp2, tmp2, tmp1);
-	if ((as->flags & JIT_F_MIPS32R2)) {
-	  emit_dta(as, MIPSI_ROTR, dest, tmp1, (-HASH_ROT1)&31);
-	} else {
-	  emit_dst(as, MIPSI_OR, dest, dest, tmp1);
-	  emit_dta(as, MIPSI_SLL, tmp1, tmp1, HASH_ROT1);
-	  emit_dta(as, MIPSI_SRL, dest, tmp1, (-HASH_ROT1)&31);
-	}
-	emit_dst(as, MIPSI_ADDU, tmp1, tmp1, tmp1);
-	emit_tg(as, MIPSI_MFC1, tmp2, key);
-	emit_tg(as, MIPSI_MFC1, tmp1, key+1);
-      } else {
-	emit_dst(as, MIPSI_XOR, tmp2, key, tmp1);
-	emit_rotr(as, dest, tmp1, tmp2, (-HASH_ROT1)&31);
-	emit_dst(as, MIPSI_ADDU, tmp1, key, ra_allock(as, HASH_BIAS, allow));
-      }
-    }
-  }
-}
-
-static void asm_hrefk(ASMState *as, IRIns *ir)
-{
-  IRIns *kslot = IR(ir->op2);
-  IRIns *irkey = IR(kslot->op1);
-  int32_t ofs = (int32_t)(kslot->op2 * sizeof(Node));
-  int32_t kofs = ofs + (int32_t)offsetof(Node, key);
-  Reg dest = (ra_used(ir)||ofs > 32736) ? ra_dest(as, ir, RSET_GPR) : RID_NONE;
-  Reg node = ra_alloc1(as, ir->op1, RSET_GPR);
-  Reg key = RID_NONE, type = RID_TMP, idx = node;
-  RegSet allow = rset_exclude(RSET_GPR, node);
-  int32_t lo, hi;
-  lua_assert(ofs % sizeof(Node) == 0);
-  if (ofs > 32736) {
-    idx = dest;
-    rset_clear(allow, dest);
-    kofs = (int32_t)offsetof(Node, key);
-  } else if (ra_hasreg(dest)) {
-    emit_tsi(as, MIPSI_ADDIU, dest, node, ofs);
-  }
-  if (!irt_ispri(irkey->t)) {
-    key = ra_scratch(as, allow);
-    rset_clear(allow, key);
-  }
-  if (irt_isnum(irkey->t)) {
-    lo = (int32_t)ir_knum(irkey)->u32.lo;
-    hi = (int32_t)ir_knum(irkey)->u32.hi;
-  } else {
-    lo = irkey->i;
-    hi = irt_toitype(irkey->t);
-    if (!ra_hasreg(key))
-      goto nolo;
-  }
-  asm_guard(as, MIPSI_BNE, key, lo ? ra_allock(as, lo, allow) : RID_ZERO);
-nolo:
-  asm_guard(as, MIPSI_BNE, type, hi ? ra_allock(as, hi, allow) : RID_ZERO);
-  if (ra_hasreg(key)) emit_tsi(as, MIPSI_LW, key, idx, kofs+(LJ_BE?4:0));
-  emit_tsi(as, MIPSI_LW, type, idx, kofs+(LJ_BE?0:4));
-  if (ofs > 32736)
-    emit_tsi(as, MIPSI_ADDU, dest, node, ra_allock(as, ofs, allow));
-}
-
-static void asm_newref(ASMState *as, IRIns *ir)
-{
-  if (ir->r != RID_SINK) {
-    const CCallInfo *ci = &lj_ir_callinfo[IRCALL_lj_tab_newkey];
-    IRRef args[3];
-    args[0] = ASMREF_L;     /* lua_State *L */
-    args[1] = ir->op1;      /* GCtab *t     */
-    args[2] = ASMREF_TMP1;  /* cTValue *key */
-    asm_setupresult(as, ir, ci);  /* TValue * */
-    asm_gencall(as, ci, args);
-    asm_tvptr(as, ra_releasetmp(as, ASMREF_TMP1), ir->op2);
-  }
-}
-
-static void asm_uref(ASMState *as, IRIns *ir)
-{
-  /* NYI: Check that UREFO is still open and not aliasing a slot. */
-  Reg dest = ra_dest(as, ir, RSET_GPR);
-  if (irref_isk(ir->op1)) {
-    GCfunc *fn = ir_kfunc(IR(ir->op1));
-    MRef *v = &gcref(fn->l.uvptr[(ir->op2 >> 8)])->uv.v;
-    emit_lsptr(as, MIPSI_LW, dest, v, RSET_GPR);
-  } else {
-    Reg uv = ra_scratch(as, RSET_GPR);
-    Reg func = ra_alloc1(as, ir->op1, RSET_GPR);
-    if (ir->o == IR_UREFC) {
-      asm_guard(as, MIPSI_BEQ, RID_TMP, RID_ZERO);
-      emit_tsi(as, MIPSI_ADDIU, dest, uv, (int32_t)offsetof(GCupval, tv));
-      emit_tsi(as, MIPSI_LBU, RID_TMP, uv, (int32_t)offsetof(GCupval, closed));
-    } else {
-      emit_tsi(as, MIPSI_LW, dest, uv, (int32_t)offsetof(GCupval, v));
-    }
-    emit_tsi(as, MIPSI_LW, uv, func,
-	     (int32_t)offsetof(GCfuncL, uvptr) + 4*(int32_t)(ir->op2 >> 8));
-  }
-}
-
-static void asm_fref(ASMState *as, IRIns *ir)
-{
-  UNUSED(as); UNUSED(ir);
-  lua_assert(!ra_used(ir));
-}
-
-static void asm_strref(ASMState *as, IRIns *ir)
-{
-  Reg dest = ra_dest(as, ir, RSET_GPR);
-  IRRef ref = ir->op2, refk = ir->op1;
-  int32_t ofs = (int32_t)sizeof(GCstr);
-  Reg r;
-  if (irref_isk(ref)) {
-    IRRef tmp = refk; refk = ref; ref = tmp;
-  } else if (!irref_isk(refk)) {
-    Reg right, left = ra_alloc1(as, ir->op1, RSET_GPR);
-    IRIns *irr = IR(ir->op2);
-    if (ra_hasreg(irr->r)) {
-      ra_noweak(as, irr->r);
-      right = irr->r;
-    } else if (mayfuse(as, irr->op2) &&
-	       irr->o == IR_ADD && irref_isk(irr->op2) &&
-	       checki16(ofs + IR(irr->op2)->i)) {
-      ofs += IR(irr->op2)->i;
-      right = ra_alloc1(as, irr->op1, rset_exclude(RSET_GPR, left));
-    } else {
-      right = ra_allocref(as, ir->op2, rset_exclude(RSET_GPR, left));
-    }
-    emit_tsi(as, MIPSI_ADDIU, dest, dest, ofs);
-    emit_dst(as, MIPSI_ADDU, dest, left, right);
-    return;
-  }
-  r = ra_alloc1(as, ref, RSET_GPR);
-  ofs += IR(refk)->i;
-  if (checki16(ofs))
-    emit_tsi(as, MIPSI_ADDIU, dest, r, ofs);
-  else
-    emit_dst(as, MIPSI_ADDU, dest, r,
-	     ra_allock(as, ofs, rset_exclude(RSET_GPR, r)));
-}
-
-/* -- Loads and stores ---------------------------------------------------- */
-
-static MIPSIns asm_fxloadins(IRIns *ir)
-{
-  switch (irt_type(ir->t)) {
-  case IRT_I8: return MIPSI_LB;
-  case IRT_U8: return MIPSI_LBU;
-  case IRT_I16: return MIPSI_LH;
-  case IRT_U16: return MIPSI_LHU;
-  case IRT_NUM: return MIPSI_LDC1;
-  case IRT_FLOAT: return MIPSI_LWC1;
-  default: return MIPSI_LW;
-  }
-}
-
-static MIPSIns asm_fxstoreins(IRIns *ir)
-{
-  switch (irt_type(ir->t)) {
-  case IRT_I8: case IRT_U8: return MIPSI_SB;
-  case IRT_I16: case IRT_U16: return MIPSI_SH;
-  case IRT_NUM: return MIPSI_SDC1;
-  case IRT_FLOAT: return MIPSI_SWC1;
-  default: return MIPSI_SW;
-  }
-}
-
-static void asm_fload(ASMState *as, IRIns *ir)
-{
-  Reg dest = ra_dest(as, ir, RSET_GPR);
-  Reg idx = ra_alloc1(as, ir->op1, RSET_GPR);
-  MIPSIns mi = asm_fxloadins(ir);
-  int32_t ofs;
-  if (ir->op2 == IRFL_TAB_ARRAY) {
-    ofs = asm_fuseabase(as, ir->op1);
-    if (ofs) {  /* Turn the t->array load into an add for colocated arrays. */
-      emit_tsi(as, MIPSI_ADDIU, dest, idx, ofs);
-      return;
-    }
-  }
-  ofs = field_ofs[ir->op2];
-  lua_assert(!irt_isfp(ir->t));
-  emit_tsi(as, mi, dest, idx, ofs);
-}
-
-static void asm_fstore(ASMState *as, IRIns *ir)
-{
-  if (ir->r != RID_SINK) {
-    Reg src = ra_alloc1z(as, ir->op2, RSET_GPR);
-    IRIns *irf = IR(ir->op1);
-    Reg idx = ra_alloc1(as, irf->op1, rset_exclude(RSET_GPR, src));
-    int32_t ofs = field_ofs[irf->op2];
-    MIPSIns mi = asm_fxstoreins(ir);
-    lua_assert(!irt_isfp(ir->t));
-    emit_tsi(as, mi, src, idx, ofs);
-  }
-}
-
-static void asm_xload(ASMState *as, IRIns *ir)
-{
-  Reg dest = ra_dest(as, ir, irt_isfp(ir->t) ? RSET_FPR : RSET_GPR);
-  lua_assert(!(ir->op2 & IRXLOAD_UNALIGNED));
-  asm_fusexref(as, asm_fxloadins(ir), dest, ir->op1, RSET_GPR, 0);
-}
-
-static void asm_xstore(ASMState *as, IRIns *ir, int32_t ofs)
-{
-  if (ir->r != RID_SINK) {
-    Reg src = ra_alloc1z(as, ir->op2, irt_isfp(ir->t) ? RSET_FPR : RSET_GPR);
-    asm_fusexref(as, asm_fxstoreins(ir), src, ir->op1,
-		 rset_exclude(RSET_GPR, src), ofs);
-  }
-}
-
-static void asm_ahuvload(ASMState *as, IRIns *ir)
-{
-  IRType1 t = ir->t;
-  Reg dest = RID_NONE, type = RID_TMP, idx;
-  RegSet allow = RSET_GPR;
-  int32_t ofs = 0;
-  if (ra_used(ir)) {
-    lua_assert(irt_isnum(t) || irt_isint(t) || irt_isaddr(t));
-    dest = ra_dest(as, ir, irt_isnum(t) ? RSET_FPR : RSET_GPR);
-    rset_clear(allow, dest);
-  }
-  idx = asm_fuseahuref(as, ir->op1, &ofs, allow);
-  rset_clear(allow, idx);
-  if (irt_isnum(t)) {
-    asm_guard(as, MIPSI_BEQ, type, RID_ZERO);
-    emit_tsi(as, MIPSI_SLTIU, type, type, (int32_t)LJ_TISNUM);
-    if (ra_hasreg(dest))
-      emit_hsi(as, MIPSI_LDC1, dest, idx, ofs);
-  } else {
-    asm_guard(as, MIPSI_BNE, type, ra_allock(as, irt_toitype(t), allow));
-    if (ra_hasreg(dest)) emit_tsi(as, MIPSI_LW, dest, idx, ofs+(LJ_BE?4:0));
-  }
-  emit_tsi(as, MIPSI_LW, type, idx, ofs+(LJ_BE?0:4));
-}
-
-static void asm_ahustore(ASMState *as, IRIns *ir)
-{
-  RegSet allow = RSET_GPR;
-  Reg idx, src = RID_NONE, type = RID_NONE;
-  int32_t ofs = 0;
-  if (ir->r == RID_SINK)
-    return;
-  if (irt_isnum(ir->t)) {
-    src = ra_alloc1(as, ir->op2, RSET_FPR);
-  } else {
-    if (!irt_ispri(ir->t)) {
-      src = ra_alloc1(as, ir->op2, allow);
-      rset_clear(allow, src);
-    }
-    type = ra_allock(as, (int32_t)irt_toitype(ir->t), allow);
-    rset_clear(allow, type);
-  }
-  idx = asm_fuseahuref(as, ir->op1, &ofs, allow);
-  if (irt_isnum(ir->t)) {
-    emit_hsi(as, MIPSI_SDC1, src, idx, ofs);
-  } else {
-    if (ra_hasreg(src))
-      emit_tsi(as, MIPSI_SW, src, idx, ofs+(LJ_BE?4:0));
-    emit_tsi(as, MIPSI_SW, type, idx, ofs+(LJ_BE?0:4));
-  }
-}
-
-static void asm_sload(ASMState *as, IRIns *ir)
-{
-  int32_t ofs = 8*((int32_t)ir->op1-1) + ((ir->op2 & IRSLOAD_FRAME) ? 4 : 0);
-  IRType1 t = ir->t;
-  Reg dest = RID_NONE, type = RID_NONE, base;
-  RegSet allow = RSET_GPR;
-  lua_assert(!(ir->op2 & IRSLOAD_PARENT));  /* Handled by asm_head_side(). */
-  lua_assert(irt_isguard(t) || !(ir->op2 & IRSLOAD_TYPECHECK));
-  lua_assert(!irt_isint(t) || (ir->op2 & (IRSLOAD_CONVERT|IRSLOAD_FRAME)));
-  if ((ir->op2 & IRSLOAD_CONVERT) && irt_isguard(t) && irt_isint(t)) {
-    dest = ra_scratch(as, RSET_FPR);
-    asm_tointg(as, ir, dest);
-    t.irt = IRT_NUM;  /* Continue with a regular number type check. */
-  } else if (ra_used(ir)) {
-    lua_assert(irt_isnum(t) || irt_isint(t) || irt_isaddr(t));
-    dest = ra_dest(as, ir, irt_isnum(t) ? RSET_FPR : RSET_GPR);
-    rset_clear(allow, dest);
-    base = ra_alloc1(as, REF_BASE, allow);
-    rset_clear(allow, base);
-    if ((ir->op2 & IRSLOAD_CONVERT)) {
-      if (irt_isint(t)) {
-	Reg tmp = ra_scratch(as, RSET_FPR);
-	emit_tg(as, MIPSI_MFC1, dest, tmp);
-	emit_fg(as, MIPSI_CVT_W_D, tmp, tmp);
-	dest = tmp;
-	t.irt = IRT_NUM;  /* Check for original type. */
-      } else {
-	Reg tmp = ra_scratch(as, RSET_GPR);
-	emit_fg(as, MIPSI_CVT_D_W, dest, dest);
-	emit_tg(as, MIPSI_MTC1, tmp, dest);
-	dest = tmp;
-	t.irt = IRT_INT;  /* Check for original type. */
-      }
-    }
-    goto dotypecheck;
-  }
-  base = ra_alloc1(as, REF_BASE, allow);
-  rset_clear(allow, base);
-dotypecheck:
-  if (irt_isnum(t)) {
-    if ((ir->op2 & IRSLOAD_TYPECHECK)) {
-      asm_guard(as, MIPSI_BEQ, RID_TMP, RID_ZERO);
-      emit_tsi(as, MIPSI_SLTIU, RID_TMP, RID_TMP, (int32_t)LJ_TISNUM);
-      type = RID_TMP;
-    }
-    if (ra_hasreg(dest)) emit_hsi(as, MIPSI_LDC1, dest, base, ofs);
-  } else {
-    if ((ir->op2 & IRSLOAD_TYPECHECK)) {
-      Reg ktype = ra_allock(as, irt_toitype(t), allow);
-      asm_guard(as, MIPSI_BNE, RID_TMP, ktype);
-      type = RID_TMP;
-    }
-    if (ra_hasreg(dest)) emit_tsi(as, MIPSI_LW, dest, base, ofs ^ (LJ_BE?4:0));
-  }
-  if (ra_hasreg(type)) emit_tsi(as, MIPSI_LW, type, base, ofs ^ (LJ_BE?0:4));
-}
-
-/* -- Allocations --------------------------------------------------------- */
-
-#if LJ_HASFFI
-static void asm_cnew(ASMState *as, IRIns *ir)
-{
-  CTState *cts = ctype_ctsG(J2G(as->J));
-  CTypeID ctypeid = (CTypeID)IR(ir->op1)->i;
-  CTSize sz = (ir->o == IR_CNEWI || ir->op2 == REF_NIL) ?
-	      lj_ctype_size(cts, ctypeid) : (CTSize)IR(ir->op2)->i;
-  const CCallInfo *ci = &lj_ir_callinfo[IRCALL_lj_mem_newgco];
-  IRRef args[2];
-  RegSet allow = (RSET_GPR & ~RSET_SCRATCH);
-  RegSet drop = RSET_SCRATCH;
-  lua_assert(sz != CTSIZE_INVALID);
-
-  args[0] = ASMREF_L;     /* lua_State *L */
-  args[1] = ASMREF_TMP1;  /* MSize size   */
-  as->gcsteps++;
-
-  if (ra_hasreg(ir->r))
-    rset_clear(drop, ir->r);  /* Dest reg handled below. */
-  ra_evictset(as, drop);
-  if (ra_used(ir))
-    ra_destreg(as, ir, RID_RET);  /* GCcdata * */
-
-  /* Initialize immutable cdata object. */
-  if (ir->o == IR_CNEWI) {
-    int32_t ofs = sizeof(GCcdata);
-    lua_assert(sz == 4 || sz == 8);
-    if (sz == 8) {
-      ofs += 4;
-      lua_assert((ir+1)->o == IR_HIOP);
-      if (LJ_LE) ir++;
-    }
-    for (;;) {
-      Reg r = ra_alloc1z(as, ir->op2, allow);
-      emit_tsi(as, MIPSI_SW, r, RID_RET, ofs);
-      rset_clear(allow, r);
-      if (ofs == sizeof(GCcdata)) break;
-      ofs -= 4; if (LJ_BE) ir++; else ir--;
-    }
-  }
-  /* Initialize gct and ctypeid. lj_mem_newgco() already sets marked. */
-  emit_tsi(as, MIPSI_SB, RID_RET+1, RID_RET, offsetof(GCcdata, gct));
-  emit_tsi(as, MIPSI_SH, RID_TMP, RID_RET, offsetof(GCcdata, ctypeid));
-  emit_ti(as, MIPSI_LI, RID_RET+1, ~LJ_TCDATA);
-  emit_ti(as, MIPSI_LI, RID_TMP, ctypeid); /* Lower 16 bit used. Sign-ext ok. */
-  asm_gencall(as, ci, args);
-  ra_allockreg(as, (int32_t)(sz+sizeof(GCcdata)),
-	       ra_releasetmp(as, ASMREF_TMP1));
-}
-#else
-#define asm_cnew(as, ir)	((void)0)
-#endif
-
-/* -- Write barriers ------------------------------------------------------ */
-
-static void asm_tbar(ASMState *as, IRIns *ir)
-{
-  Reg tab = ra_alloc1(as, ir->op1, RSET_GPR);
-  Reg mark = ra_scratch(as, rset_exclude(RSET_GPR, tab));
-  Reg link = RID_TMP;
-  MCLabel l_end = emit_label(as);
-  emit_tsi(as, MIPSI_SW, link, tab, (int32_t)offsetof(GCtab, gclist));
-  emit_tsi(as, MIPSI_SB, mark, tab, (int32_t)offsetof(GCtab, marked));
-  emit_setgl(as, tab, gc.grayagain);
-  emit_getgl(as, link, gc.grayagain);
-  emit_dst(as, MIPSI_XOR, mark, mark, RID_TMP);  /* Clear black bit. */
-  emit_branch(as, MIPSI_BEQ, RID_TMP, RID_ZERO, l_end);
-  emit_tsi(as, MIPSI_ANDI, RID_TMP, mark, LJ_GC_BLACK);
-  emit_tsi(as, MIPSI_LBU, mark, tab, (int32_t)offsetof(GCtab, marked));
-}
-
-static void asm_obar(ASMState *as, IRIns *ir)
-{
-  const CCallInfo *ci = &lj_ir_callinfo[IRCALL_lj_gc_barrieruv];
-  IRRef args[2];
-  MCLabel l_end;
-  Reg obj, val, tmp;
-  /* No need for other object barriers (yet). */
-  lua_assert(IR(ir->op1)->o == IR_UREFC);
-  ra_evictset(as, RSET_SCRATCH);
-  l_end = emit_label(as);
-  args[0] = ASMREF_TMP1;  /* global_State *g */
-  args[1] = ir->op1;      /* TValue *tv      */
-  asm_gencall(as, ci, args);
-  emit_tsi(as, MIPSI_ADDIU, ra_releasetmp(as, ASMREF_TMP1), RID_JGL, -32768);
-  obj = IR(ir->op1)->r;
-  tmp = ra_scratch(as, rset_exclude(RSET_GPR, obj));
-  emit_branch(as, MIPSI_BEQ, RID_TMP, RID_ZERO, l_end);
-  emit_tsi(as, MIPSI_ANDI, tmp, tmp, LJ_GC_BLACK);
-  emit_branch(as, MIPSI_BEQ, RID_TMP, RID_ZERO, l_end);
-  emit_tsi(as, MIPSI_ANDI, RID_TMP, RID_TMP, LJ_GC_WHITES);
-  val = ra_alloc1(as, ir->op2, rset_exclude(RSET_GPR, obj));
-  emit_tsi(as, MIPSI_LBU, tmp, obj,
-	   (int32_t)offsetof(GCupval, marked)-(int32_t)offsetof(GCupval, tv));
-  emit_tsi(as, MIPSI_LBU, RID_TMP, val, (int32_t)offsetof(GChead, marked));
-}
-
-/* -- Arithmetic and logic operations ------------------------------------- */
-
-static void asm_fparith(ASMState *as, IRIns *ir, MIPSIns mi)
-{
-  Reg dest = ra_dest(as, ir, RSET_FPR);
-  Reg right, left = ra_alloc2(as, ir, RSET_FPR);
-  right = (left >> 8); left &= 255;
-  emit_fgh(as, mi, dest, left, right);
-}
-
-static void asm_fpunary(ASMState *as, IRIns *ir, MIPSIns mi)
-{
-  Reg dest = ra_dest(as, ir, RSET_FPR);
-  Reg left = ra_hintalloc(as, ir->op1, dest, RSET_FPR);
-  emit_fg(as, mi, dest, left);
-}
-
-static int asm_fpjoin_pow(ASMState *as, IRIns *ir)
-{
-  IRIns *irp = IR(ir->op1);
-  if (irp == ir-1 && irp->o == IR_MUL && !ra_used(irp)) {
-    IRIns *irpp = IR(irp->op1);
-    if (irpp == ir-2 && irpp->o == IR_FPMATH &&
-	irpp->op2 == IRFPM_LOG2 && !ra_used(irpp)) {
-      const CCallInfo *ci = &lj_ir_callinfo[IRCALL_pow];
-      IRRef args[2];
-      args[0] = irpp->op1;
-      args[1] = irp->op2;
-      asm_setupresult(as, ir, ci);
-      asm_gencall(as, ci, args);
-      return 1;
-    }
-  }
-  return 0;
-}
-
-static void asm_add(ASMState *as, IRIns *ir)
-{
-  if (irt_isnum(ir->t)) {
-    asm_fparith(as, ir, MIPSI_ADD_D);
-  } else {
-    Reg dest = ra_dest(as, ir, RSET_GPR);
-    Reg right, left = ra_hintalloc(as, ir->op1, dest, RSET_GPR);
-    if (irref_isk(ir->op2)) {
-      int32_t k = IR(ir->op2)->i;
-      if (checki16(k)) {
-	emit_tsi(as, MIPSI_ADDIU, dest, left, k);
-	return;
-      }
-    }
-    right = ra_alloc1(as, ir->op2, rset_exclude(RSET_GPR, left));
-    emit_dst(as, MIPSI_ADDU, dest, left, right);
-  }
-}
-
-static void asm_sub(ASMState *as, IRIns *ir)
-{
-  if (irt_isnum(ir->t)) {
-    asm_fparith(as, ir, MIPSI_SUB_D);
-  } else {
-    Reg dest = ra_dest(as, ir, RSET_GPR);
-    Reg right, left = ra_alloc2(as, ir, RSET_GPR);
-    right = (left >> 8); left &= 255;
-    emit_dst(as, MIPSI_SUBU, dest, left, right);
-  }
-}
-
-static void asm_mul(ASMState *as, IRIns *ir)
-{
-  if (irt_isnum(ir->t)) {
-    asm_fparith(as, ir, MIPSI_MUL_D);
-  } else {
-    Reg dest = ra_dest(as, ir, RSET_GPR);
-    Reg right, left = ra_alloc2(as, ir, RSET_GPR);
-    right = (left >> 8); left &= 255;
-    emit_dst(as, MIPSI_MUL, dest, left, right);
-  }
-}
-
-static void asm_neg(ASMState *as, IRIns *ir)
-{
-  if (irt_isnum(ir->t)) {
-    asm_fpunary(as, ir, MIPSI_NEG_D);
-  } else {
-    Reg dest = ra_dest(as, ir, RSET_GPR);
-    Reg left = ra_hintalloc(as, ir->op1, dest, RSET_GPR);
-    emit_dst(as, MIPSI_SUBU, dest, RID_ZERO, left);
-  }
-}
-
-static void asm_arithov(ASMState *as, IRIns *ir)
-{
-  Reg right, left, tmp, dest = ra_dest(as, ir, RSET_GPR);
-  if (irref_isk(ir->op2)) {
-    int k = IR(ir->op2)->i;
-    if (ir->o == IR_SUBOV) k = -k;
-    if (checki16(k)) {  /* (dest < left) == (k >= 0 ? 1 : 0) */
-      left = ra_alloc1(as, ir->op1, RSET_GPR);
-      asm_guard(as, k >= 0 ? MIPSI_BNE : MIPSI_BEQ, RID_TMP, RID_ZERO);
-      emit_dst(as, MIPSI_SLT, RID_TMP, dest, dest == left ? RID_TMP : left);
-      emit_tsi(as, MIPSI_ADDIU, dest, left, k);
-      if (dest == left) emit_move(as, RID_TMP, left);
-      return;
-    }
-  }
-  left = ra_alloc2(as, ir, RSET_GPR);
-  right = (left >> 8); left &= 255;
-  tmp = ra_scratch(as, rset_exclude(rset_exclude(rset_exclude(RSET_GPR, left),
-						 right), dest));
-  asm_guard(as, MIPSI_BLTZ, RID_TMP, 0);
-  emit_dst(as, MIPSI_AND, RID_TMP, RID_TMP, tmp);
-  if (ir->o == IR_ADDOV) {  /* ((dest^left) & (dest^right)) < 0 */
-    emit_dst(as, MIPSI_XOR, RID_TMP, dest, dest == right ? RID_TMP : right);
-  } else {  /* ((dest^left) & (dest^~right)) < 0 */
-    emit_dst(as, MIPSI_XOR, RID_TMP, RID_TMP, dest);
-    emit_dst(as, MIPSI_NOR, RID_TMP, dest == right ? RID_TMP : right, RID_ZERO);
-  }
-  emit_dst(as, MIPSI_XOR, tmp, dest, dest == left ? RID_TMP : left);
-  emit_dst(as, ir->o == IR_ADDOV ? MIPSI_ADDU : MIPSI_SUBU, dest, left, right);
-  if (dest == left || dest == right)
-    emit_move(as, RID_TMP, dest == left ? left : right);
-}
-
-static void asm_mulov(ASMState *as, IRIns *ir)
-{
-#if LJ_DUALNUM
-#error "NYI: MULOV"
-#else
-  UNUSED(as); UNUSED(ir); lua_assert(0);  /* Unused in single-number mode. */
-#endif
-}
-
-#if LJ_HASFFI
-static void asm_add64(ASMState *as, IRIns *ir)
-{
-  Reg dest = ra_dest(as, ir, RSET_GPR);
-  Reg right, left = ra_alloc1(as, ir->op1, RSET_GPR);
-  if (irref_isk(ir->op2)) {
-    int32_t k = IR(ir->op2)->i;
-    if (k == 0) {
-      emit_dst(as, MIPSI_ADDU, dest, left, RID_TMP);
-      goto loarith;
-    } else if (checki16(k)) {
-      emit_dst(as, MIPSI_ADDU, dest, dest, RID_TMP);
-      emit_tsi(as, MIPSI_ADDIU, dest, left, k);
-      goto loarith;
-    }
-  }
-  emit_dst(as, MIPSI_ADDU, dest, dest, RID_TMP);
-  right = ra_alloc1(as, ir->op2, rset_exclude(RSET_GPR, left));
-  emit_dst(as, MIPSI_ADDU, dest, left, right);
-loarith:
-  ir--;
-  dest = ra_dest(as, ir, RSET_GPR);
-  left = ra_alloc1(as, ir->op1, RSET_GPR);
-  if (irref_isk(ir->op2)) {
-    int32_t k = IR(ir->op2)->i;
-    if (k == 0) {
-      if (dest != left)
-	emit_move(as, dest, left);
-      return;
-    } else if (checki16(k)) {
-      if (dest == left) {
-	Reg tmp = ra_scratch(as, rset_exclude(RSET_GPR, left));
-	emit_move(as, dest, tmp);
-	dest = tmp;
-      }
-      emit_dst(as, MIPSI_SLTU, RID_TMP, dest, left);
-      emit_tsi(as, MIPSI_ADDIU, dest, left, k);
-      return;
-    }
-  }
-  right = ra_alloc1(as, ir->op2, rset_exclude(RSET_GPR, left));
-  if (dest == left && dest == right) {
-    Reg tmp = ra_scratch(as, rset_exclude(rset_exclude(RSET_GPR, left), right));
-    emit_move(as, dest, tmp);
-    dest = tmp;
-  }
-  emit_dst(as, MIPSI_SLTU, RID_TMP, dest, dest == left ? right : left);
-  emit_dst(as, MIPSI_ADDU, dest, left, right);
-}
-
-static void asm_sub64(ASMState *as, IRIns *ir)
-{
-  Reg dest = ra_dest(as, ir, RSET_GPR);
-  Reg right, left = ra_alloc2(as, ir, RSET_GPR);
-  right = (left >> 8); left &= 255;
-  emit_dst(as, MIPSI_SUBU, dest, dest, RID_TMP);
-  emit_dst(as, MIPSI_SUBU, dest, left, right);
-  ir--;
-  dest = ra_dest(as, ir, RSET_GPR);
-  left = ra_alloc2(as, ir, RSET_GPR);
-  right = (left >> 8); left &= 255;
-  if (dest == left) {
-    Reg tmp = ra_scratch(as, rset_exclude(rset_exclude(RSET_GPR, left), right));
-    emit_move(as, dest, tmp);
-    dest = tmp;
-  }
-  emit_dst(as, MIPSI_SLTU, RID_TMP, left, dest);
-  emit_dst(as, MIPSI_SUBU, dest, left, right);
-}
-
-static void asm_neg64(ASMState *as, IRIns *ir)
-{
-  Reg dest = ra_dest(as, ir, RSET_GPR);
-  Reg left = ra_alloc1(as, ir->op1, RSET_GPR);
-  emit_dst(as, MIPSI_SUBU, dest, dest, RID_TMP);
-  emit_dst(as, MIPSI_SUBU, dest, RID_ZERO, left);
-  ir--;
-  dest = ra_dest(as, ir, RSET_GPR);
-  left = ra_alloc1(as, ir->op1, RSET_GPR);
-  emit_dst(as, MIPSI_SLTU, RID_TMP, RID_ZERO, dest);
-  emit_dst(as, MIPSI_SUBU, dest, RID_ZERO, left);
-}
-#endif
-
-static void asm_bitnot(ASMState *as, IRIns *ir)
-{
-  Reg left, right, dest = ra_dest(as, ir, RSET_GPR);
-  IRIns *irl = IR(ir->op1);
-  if (mayfuse(as, ir->op1) && irl->o == IR_BOR) {
-    left = ra_alloc2(as, irl, RSET_GPR);
-    right = (left >> 8); left &= 255;
-  } else {
-    left = ra_hintalloc(as, ir->op1, dest, RSET_GPR);
-    right = RID_ZERO;
-  }
-  emit_dst(as, MIPSI_NOR, dest, left, right);
-}
-
-static void asm_bitswap(ASMState *as, IRIns *ir)
-{
-  Reg dest = ra_dest(as, ir, RSET_GPR);
-  Reg left = ra_alloc1(as, ir->op1, RSET_GPR);
-  if ((as->flags & JIT_F_MIPS32R2)) {
-    emit_dta(as, MIPSI_ROTR, dest, RID_TMP, 16);
-    emit_dst(as, MIPSI_WSBH, RID_TMP, 0, left);
-  } else {
-    Reg tmp = ra_scratch(as, rset_exclude(rset_exclude(RSET_GPR, left), dest));
-    emit_dst(as, MIPSI_OR, dest, dest, tmp);
-    emit_dst(as, MIPSI_OR, dest, dest, RID_TMP);
-    emit_tsi(as, MIPSI_ANDI, dest, dest, 0xff00);
-    emit_dta(as, MIPSI_SLL, RID_TMP, RID_TMP, 8);
-    emit_dta(as, MIPSI_SRL, dest, left, 8);
-    emit_tsi(as, MIPSI_ANDI, RID_TMP, left, 0xff00);
-    emit_dst(as, MIPSI_OR, tmp, tmp, RID_TMP);
-    emit_dta(as, MIPSI_SRL, tmp, left, 24);
-    emit_dta(as, MIPSI_SLL, RID_TMP, left, 24);
-  }
-}
-
-static void asm_bitop(ASMState *as, IRIns *ir, MIPSIns mi, MIPSIns mik)
-{
-  Reg dest = ra_dest(as, ir, RSET_GPR);
-  Reg right, left = ra_hintalloc(as, ir->op1, dest, RSET_GPR);
-  if (irref_isk(ir->op2)) {
-    int32_t k = IR(ir->op2)->i;
-    if (checku16(k)) {
-      emit_tsi(as, mik, dest, left, k);
-      return;
-    }
-  }
-  right = ra_alloc1(as, ir->op2, rset_exclude(RSET_GPR, left));
-  emit_dst(as, mi, dest, left, right);
-}
-
-static void asm_bitshift(ASMState *as, IRIns *ir, MIPSIns mi, MIPSIns mik)
-{
-  Reg dest = ra_dest(as, ir, RSET_GPR);
-  if (irref_isk(ir->op2)) {  /* Constant shifts. */
-    uint32_t shift = (uint32_t)(IR(ir->op2)->i & 31);
-    emit_dta(as, mik, dest, ra_hintalloc(as, ir->op1, dest, RSET_GPR), shift);
-  } else {
-    Reg right, left = ra_alloc2(as, ir, RSET_GPR);
-    right = (left >> 8); left &= 255;
-    emit_dst(as, mi, dest, right, left);  /* Shift amount is in rs. */
-  }
-}
-
-static void asm_bitror(ASMState *as, IRIns *ir)
-{
-  if ((as->flags & JIT_F_MIPS32R2)) {
-    asm_bitshift(as, ir, MIPSI_ROTRV, MIPSI_ROTR);
-  } else {
-    Reg dest = ra_dest(as, ir, RSET_GPR);
-    if (irref_isk(ir->op2)) {  /* Constant shifts. */
-      uint32_t shift = (uint32_t)(IR(ir->op2)->i & 31);
-      Reg left = ra_hintalloc(as, ir->op1, dest, RSET_GPR);
-      emit_rotr(as, dest, left, RID_TMP, shift);
-    } else {
-      Reg right, left = ra_alloc2(as, ir, RSET_GPR);
-      right = (left >> 8); left &= 255;
-      emit_dst(as, MIPSI_OR, dest, dest, RID_TMP);
-      emit_dst(as, MIPSI_SRLV, dest, right, left);
-      emit_dst(as, MIPSI_SLLV, RID_TMP, RID_TMP, left);
-      emit_dst(as, MIPSI_SUBU, RID_TMP, ra_allock(as, 32, RSET_GPR), right);
-    }
-  }
-}
-
-static void asm_min_max(ASMState *as, IRIns *ir, int ismax)
-{
-  if (irt_isnum(ir->t)) {
-    Reg dest = ra_dest(as, ir, RSET_FPR);
-    Reg right, left = ra_alloc2(as, ir, RSET_FPR);
-    right = (left >> 8); left &= 255;
-    if (dest == left) {
-      emit_fg(as, MIPSI_MOVT_D, dest, right);
-    } else {
-      emit_fg(as, MIPSI_MOVF_D, dest, left);
-      if (dest != right) emit_fg(as, MIPSI_MOV_D, dest, right);
-    }
-    emit_fgh(as, MIPSI_C_OLT_D, 0, ismax ? left : right, ismax ? right : left);
-  } else {
-    Reg dest = ra_dest(as, ir, RSET_GPR);
-    Reg right, left = ra_alloc2(as, ir, RSET_GPR);
-    right = (left >> 8); left &= 255;
-    if (dest == left) {
-      emit_dst(as, MIPSI_MOVN, dest, right, RID_TMP);
-    } else {
-      emit_dst(as, MIPSI_MOVZ, dest, left, RID_TMP);
-      if (dest != right) emit_move(as, dest, right);
-    }
-    emit_dst(as, MIPSI_SLT, RID_TMP,
-	     ismax ? left : right, ismax ? right : left);
-  }
-}
-
-/* -- Comparisons --------------------------------------------------------- */
-
-static void asm_comp(ASMState *as, IRIns *ir)
-{
-  /* ORDER IR: LT GE LE GT  ULT UGE ULE UGT. */
-  IROp op = ir->o;
-  if (irt_isnum(ir->t)) {
-    Reg right, left = ra_alloc2(as, ir, RSET_FPR);
-    right = (left >> 8); left &= 255;
-    asm_guard(as, (op&1) ? MIPSI_BC1T : MIPSI_BC1F, 0, 0);
-    emit_fgh(as, MIPSI_C_OLT_D + ((op&3) ^ ((op>>2)&1)), 0, left, right);
-  } else {
-    Reg right, left = ra_alloc1(as, ir->op1, RSET_GPR);
-    if (op == IR_ABC) op = IR_UGT;
-    if ((op&4) == 0 && irref_isk(ir->op2) && IR(ir->op2)->i == 0) {
-      MIPSIns mi = (op&2) ? ((op&1) ? MIPSI_BLEZ : MIPSI_BGTZ) :
-			    ((op&1) ? MIPSI_BLTZ : MIPSI_BGEZ);
-      asm_guard(as, mi, left, 0);
-    } else {
-      if (irref_isk(ir->op2)) {
-	int32_t k = IR(ir->op2)->i;
-	if ((op&2)) k++;
-	if (checki16(k)) {
-	  asm_guard(as, (op&1) ? MIPSI_BNE : MIPSI_BEQ, RID_TMP, RID_ZERO);
-	  emit_tsi(as, (op&4) ? MIPSI_SLTIU : MIPSI_SLTI,
-		   RID_TMP, left, k);
-	  return;
-	}
-      }
-      right = ra_alloc1(as, ir->op2, rset_exclude(RSET_GPR, left));
-      asm_guard(as, ((op^(op>>1))&1) ? MIPSI_BNE : MIPSI_BEQ, RID_TMP, RID_ZERO);
-      emit_dst(as, (op&4) ? MIPSI_SLTU : MIPSI_SLT,
-	       RID_TMP, (op&2) ? right : left, (op&2) ? left : right);
-    }
-  }
-}
-
-static void asm_compeq(ASMState *as, IRIns *ir)
-{
-  Reg right, left = ra_alloc2(as, ir, irt_isnum(ir->t) ? RSET_FPR : RSET_GPR);
-  right = (left >> 8); left &= 255;
-  if (irt_isnum(ir->t)) {
-    asm_guard(as, (ir->o & 1) ? MIPSI_BC1T : MIPSI_BC1F, 0, 0);
-    emit_fgh(as, MIPSI_C_EQ_D, 0, left, right);
-  } else {
-    asm_guard(as, (ir->o & 1) ? MIPSI_BEQ : MIPSI_BNE, left, right);
-  }
-}
-
-#if LJ_HASFFI
-/* 64 bit integer comparisons. */
-static void asm_comp64(ASMState *as, IRIns *ir)
-{
-  /* ORDER IR: LT GE LE GT  ULT UGE ULE UGT. */
-  IROp op = (ir-1)->o;
-  MCLabel l_end;
-  Reg rightlo, leftlo, righthi, lefthi = ra_alloc2(as, ir, RSET_GPR);
-  righthi = (lefthi >> 8); lefthi &= 255;
-  leftlo = ra_alloc2(as, ir-1,
-		     rset_exclude(rset_exclude(RSET_GPR, lefthi), righthi));
-  rightlo = (leftlo >> 8); leftlo &= 255;
-  asm_guard(as, ((op^(op>>1))&1) ? MIPSI_BNE : MIPSI_BEQ, RID_TMP, RID_ZERO);
-  l_end = emit_label(as);
-  if (lefthi != righthi)
-    emit_dst(as, (op&4) ? MIPSI_SLTU : MIPSI_SLT, RID_TMP,
-	     (op&2) ? righthi : lefthi, (op&2) ? lefthi : righthi);
-  emit_dst(as, MIPSI_SLTU, RID_TMP,
-	   (op&2) ? rightlo : leftlo, (op&2) ? leftlo : rightlo);
-  if (lefthi != righthi)
-    emit_branch(as, MIPSI_BEQ, lefthi, righthi, l_end);
-}
-
-static void asm_comp64eq(ASMState *as, IRIns *ir)
-{
-  Reg tmp, right, left = ra_alloc2(as, ir, RSET_GPR);
-  right = (left >> 8); left &= 255;
-  asm_guard(as, ((ir-1)->o & 1) ? MIPSI_BEQ : MIPSI_BNE, RID_TMP, RID_ZERO);
-  tmp = ra_scratch(as, rset_exclude(rset_exclude(RSET_GPR, left), right));
-  emit_dst(as, MIPSI_OR, RID_TMP, RID_TMP, tmp);
-  emit_dst(as, MIPSI_XOR, tmp, left, right);
-  left = ra_alloc2(as, ir-1, RSET_GPR);
-  right = (left >> 8); left &= 255;
-  emit_dst(as, MIPSI_XOR, RID_TMP, left, right);
-}
-#endif
-
-/* -- Support for 64 bit ops in 32 bit mode ------------------------------- */
-
-/* Hiword op of a split 64 bit op. Previous op must be the loword op. */
-static void asm_hiop(ASMState *as, IRIns *ir)
-{
-#if LJ_HASFFI
-  /* HIOP is marked as a store because it needs its own DCE logic. */
-  int uselo = ra_used(ir-1), usehi = ra_used(ir);  /* Loword/hiword used? */
-  if (LJ_UNLIKELY(!(as->flags & JIT_F_OPT_DCE))) uselo = usehi = 1;
-  if ((ir-1)->o == IR_CONV) {  /* Conversions to/from 64 bit. */
-    as->curins--;  /* Always skip the CONV. */
-    if (usehi || uselo)
-      asm_conv64(as, ir);
-    return;
-  } else if ((ir-1)->o < IR_EQ) {  /* 64 bit integer comparisons. ORDER IR. */
-    as->curins--;  /* Always skip the loword comparison. */
-    asm_comp64(as, ir);
-    return;
-  } else if ((ir-1)->o <= IR_NE) {  /* 64 bit integer comparisons. ORDER IR. */
-    as->curins--;  /* Always skip the loword comparison. */
-    asm_comp64eq(as, ir);
-    return;
-  } else if ((ir-1)->o == IR_XSTORE) {
-    as->curins--;  /* Handle both stores here. */
-    if ((ir-1)->r != RID_SINK) {
-      asm_xstore(as, ir, LJ_LE ? 4 : 0);
-      asm_xstore(as, ir-1, LJ_LE ? 0 : 4);
-    }
-    return;
-  }
-  if (!usehi) return;  /* Skip unused hiword op for all remaining ops. */
-  switch ((ir-1)->o) {
-  case IR_ADD: as->curins--; asm_add64(as, ir); break;
-  case IR_SUB: as->curins--; asm_sub64(as, ir); break;
-  case IR_NEG: as->curins--; asm_neg64(as, ir); break;
-  case IR_CALLN:
-  case IR_CALLXS:
-    if (!uselo)
-      ra_allocref(as, ir->op1, RID2RSET(RID_RETLO));  /* Mark lo op as used. */
-    break;
-  case IR_CNEWI:
-    /* Nothing to do here. Handled by lo op itself. */
-    break;
-  default: lua_assert(0); break;
-  }
-#else
-  UNUSED(as); UNUSED(ir); lua_assert(0);  /* Unused without FFI. */
-#endif
-}
-
-/* -- Stack handling ------------------------------------------------------ */
-
-/* Check Lua stack size for overflow. Use exit handler as fallback. */
-static void asm_stack_check(ASMState *as, BCReg topslot,
-			    IRIns *irp, RegSet allow, ExitNo exitno)
-{
-  /* Try to get an unused temp. register, otherwise spill/restore RID_RET*. */
-  Reg tmp, pbase = irp ? (ra_hasreg(irp->r) ? irp->r : RID_TMP) : RID_BASE;
-  ExitNo oldsnap = as->snapno;
-  rset_clear(allow, pbase);
-  tmp = allow ? rset_pickbot(allow) :
-		(pbase == RID_RETHI ? RID_RETLO : RID_RETHI);
-  as->snapno = exitno;
-  asm_guard(as, MIPSI_BNE, RID_TMP, RID_ZERO);
-  as->snapno = oldsnap;
-  if (allow == RSET_EMPTY)  /* Restore temp. register. */
-    emit_tsi(as, MIPSI_LW, tmp, RID_SP, 0);
-  else
-    ra_modified(as, tmp);
-  emit_tsi(as, MIPSI_SLTIU, RID_TMP, RID_TMP, (int32_t)(8*topslot));
-  emit_dst(as, MIPSI_SUBU, RID_TMP, tmp, pbase);
-  emit_tsi(as, MIPSI_LW, tmp, tmp, offsetof(lua_State, maxstack));
-  if (pbase == RID_TMP)
-    emit_getgl(as, RID_TMP, jit_base);
-  emit_getgl(as, tmp, jit_L);
-  if (allow == RSET_EMPTY)  /* Spill temp. register. */
-    emit_tsi(as, MIPSI_SW, tmp, RID_SP, 0);
-}
-
-/* Restore Lua stack from on-trace state. */
-static void asm_stack_restore(ASMState *as, SnapShot *snap)
-{
-  SnapEntry *map = &as->T->snapmap[snap->mapofs];
-  SnapEntry *flinks = &as->T->snapmap[snap_nextofs(as->T, snap)-1];
-  MSize n, nent = snap->nent;
-  /* Store the value of all modified slots to the Lua stack. */
-  for (n = 0; n < nent; n++) {
-    SnapEntry sn = map[n];
-    BCReg s = snap_slot(sn);
-    int32_t ofs = 8*((int32_t)s-1);
-    IRRef ref = snap_ref(sn);
-    IRIns *ir = IR(ref);
-    if ((sn & SNAP_NORESTORE))
-      continue;
-    if (irt_isnum(ir->t)) {
-      Reg src = ra_alloc1(as, ref, RSET_FPR);
-      emit_hsi(as, MIPSI_SDC1, src, RID_BASE, ofs);
-    } else {
-      Reg type;
-      RegSet allow = rset_exclude(RSET_GPR, RID_BASE);
-      lua_assert(irt_ispri(ir->t) || irt_isaddr(ir->t) || irt_isinteger(ir->t));
-      if (!irt_ispri(ir->t)) {
-	Reg src = ra_alloc1(as, ref, allow);
-	rset_clear(allow, src);
-	emit_tsi(as, MIPSI_SW, src, RID_BASE, ofs+(LJ_BE?4:0));
-      }
-      if ((sn & (SNAP_CONT|SNAP_FRAME))) {
-	if (s == 0) continue;  /* Do not overwrite link to previous frame. */
-	type = ra_allock(as, (int32_t)(*flinks--), allow);
-      } else {
-	type = ra_allock(as, (int32_t)irt_toitype(ir->t), allow);
-      }
-      emit_tsi(as, MIPSI_SW, type, RID_BASE, ofs+(LJ_BE?0:4));
-    }
-    checkmclim(as);
-  }
-  lua_assert(map + nent == flinks);
-}
-
-/* -- GC handling --------------------------------------------------------- */
-
-/* Check GC threshold and do one or more GC steps. */
-static void asm_gc_check(ASMState *as)
-{
-  const CCallInfo *ci = &lj_ir_callinfo[IRCALL_lj_gc_step_jit];
-  IRRef args[2];
-  MCLabel l_end;
-  Reg tmp;
-  ra_evictset(as, RSET_SCRATCH);
-  l_end = emit_label(as);
-  /* Exit trace if in GCSatomic or GCSfinalize. Avoids syncing GC objects. */
-  /* Assumes asm_snap_prep() already done. */
-  asm_guard(as, MIPSI_BNE, RID_RET, RID_ZERO);
-  args[0] = ASMREF_TMP1;  /* global_State *g */
-  args[1] = ASMREF_TMP2;  /* MSize steps     */
-  asm_gencall(as, ci, args);
-  emit_tsi(as, MIPSI_ADDIU, ra_releasetmp(as, ASMREF_TMP1), RID_JGL, -32768);
-  tmp = ra_releasetmp(as, ASMREF_TMP2);
-  emit_loadi(as, tmp, as->gcsteps);
-  /* Jump around GC step if GC total < GC threshold. */
-  emit_branch(as, MIPSI_BNE, RID_TMP, RID_ZERO, l_end);
-  emit_dst(as, MIPSI_SLTU, RID_TMP, RID_TMP, tmp);
-  emit_getgl(as, tmp, gc.threshold);
-  emit_getgl(as, RID_TMP, gc.total);
-  as->gcsteps = 0;
-  checkmclim(as);
-}
-
-/* -- Loop handling ------------------------------------------------------- */
-
-/* Fixup the loop branch. */
-static void asm_loop_fixup(ASMState *as)
-{
-  MCode *p = as->mctop;
-  MCode *target = as->mcp;
-  p[-1] = MIPSI_NOP;
-  if (as->loopinv) {  /* Inverted loop branch? */
-    /* asm_guard already inverted the cond branch. Only patch the target. */
-    p[-3] |= ((target-p+2) & 0x0000ffffu);
-  } else {
-    p[-2] = MIPSI_J|(((uintptr_t)target>>2)&0x03ffffffu);
-  }
-}
-
-/* -- Head of trace ------------------------------------------------------- */
-
-/* Coalesce BASE register for a root trace. */
-static void asm_head_root_base(ASMState *as)
-{
-  IRIns *ir = IR(REF_BASE);
-  Reg r = ir->r;
-  if (as->loopinv) as->mctop--;
-  if (ra_hasreg(r)) {
-    ra_free(as, r);
-    if (rset_test(as->modset, r) || irt_ismarked(ir->t))
-      ir->r = RID_INIT;  /* No inheritance for modified BASE register. */
-    if (r != RID_BASE)
-      emit_move(as, r, RID_BASE);
-  }
-}
-
-/* Coalesce BASE register for a side trace. */
-static RegSet asm_head_side_base(ASMState *as, IRIns *irp, RegSet allow)
-{
-  IRIns *ir = IR(REF_BASE);
-  Reg r = ir->r;
-  if (as->loopinv) as->mctop--;
-  if (ra_hasreg(r)) {
-    ra_free(as, r);
-    if (rset_test(as->modset, r) || irt_ismarked(ir->t))
-      ir->r = RID_INIT;  /* No inheritance for modified BASE register. */
-    if (irp->r == r) {
-      rset_clear(allow, r);  /* Mark same BASE register as coalesced. */
-    } else if (ra_hasreg(irp->r) && rset_test(as->freeset, irp->r)) {
-      rset_clear(allow, irp->r);
-      emit_move(as, r, irp->r);  /* Move from coalesced parent reg. */
-    } else {
-      emit_getgl(as, r, jit_base);  /* Otherwise reload BASE. */
-    }
-  }
-  return allow;
-}
-
-/* -- Tail of trace ------------------------------------------------------- */
-
-/* Fixup the tail code. */
-static void asm_tail_fixup(ASMState *as, TraceNo lnk)
-{
-  MCode *target = lnk ? traceref(as->J,lnk)->mcode : (MCode *)lj_vm_exit_interp;
-  int32_t spadj = as->T->spadjust;
-  MCode *p = as->mctop-1;
-  *p = spadj ? (MIPSI_ADDIU|MIPSF_T(RID_SP)|MIPSF_S(RID_SP)|spadj) : MIPSI_NOP;
-  p[-1] = MIPSI_J|(((uintptr_t)target>>2)&0x03ffffffu);
-}
-
-/* Prepare tail of code. */
-static void asm_tail_prep(ASMState *as)
-{
-  as->mcp = as->mctop-2;  /* Leave room for branch plus nop or stack adj. */
-  as->invmcp = as->loopref ? as->mcp : NULL;
-}
-
-/* -- Instruction dispatch ------------------------------------------------ */
-
-/* Assemble a single instruction. */
-static void asm_ir(ASMState *as, IRIns *ir)
-{
-  switch ((IROp)ir->o) {
-  /* Miscellaneous ops. */
-  case IR_LOOP: asm_loop(as); break;
-  case IR_NOP: case IR_XBAR: lua_assert(!ra_used(ir)); break;
-  case IR_USE:
-    ra_alloc1(as, ir->op1, irt_isfp(ir->t) ? RSET_FPR : RSET_GPR); break;
-  case IR_PHI: asm_phi(as, ir); break;
-  case IR_HIOP: asm_hiop(as, ir); break;
-  case IR_GCSTEP: asm_gcstep(as, ir); break;
-
-  /* Guarded assertions. */
-  case IR_EQ: case IR_NE: asm_compeq(as, ir); break;
-  case IR_LT: case IR_GE: case IR_LE: case IR_GT:
-  case IR_ULT: case IR_UGE: case IR_ULE: case IR_UGT:
-  case IR_ABC:
-    asm_comp(as, ir);
-    break;
-
-  case IR_RETF: asm_retf(as, ir); break;
-
-  /* Bit ops. */
-  case IR_BNOT: asm_bitnot(as, ir); break;
-  case IR_BSWAP: asm_bitswap(as, ir); break;
-
-  case IR_BAND: asm_bitop(as, ir, MIPSI_AND, MIPSI_ANDI); break;
-  case IR_BOR:  asm_bitop(as, ir, MIPSI_OR, MIPSI_ORI); break;
-  case IR_BXOR: asm_bitop(as, ir, MIPSI_XOR, MIPSI_XORI); break;
-
-  case IR_BSHL: asm_bitshift(as, ir, MIPSI_SLLV, MIPSI_SLL); break;
-  case IR_BSHR: asm_bitshift(as, ir, MIPSI_SRLV, MIPSI_SRL); break;
-  case IR_BSAR: asm_bitshift(as, ir, MIPSI_SRAV, MIPSI_SRA); break;
-  case IR_BROL: lua_assert(0); break;
-  case IR_BROR: asm_bitror(as, ir); break;
-
-  /* Arithmetic ops. */
-  case IR_ADD: asm_add(as, ir); break;
-  case IR_SUB: asm_sub(as, ir); break;
-  case IR_MUL: asm_mul(as, ir); break;
-  case IR_DIV: asm_fparith(as, ir, MIPSI_DIV_D); break;
-  case IR_MOD: asm_callid(as, ir, IRCALL_lj_vm_modi); break;
-  case IR_POW: asm_callid(as, ir, IRCALL_lj_vm_powi); break;
-  case IR_NEG: asm_neg(as, ir); break;
-
-  case IR_ABS: asm_fpunary(as, ir, MIPSI_ABS_D); break;
-  case IR_ATAN2: asm_callid(as, ir, IRCALL_atan2); break;
-  case IR_LDEXP: asm_callid(as, ir, IRCALL_ldexp); break;
-  case IR_MIN: asm_min_max(as, ir, 0); break;
-  case IR_MAX: asm_min_max(as, ir, 1); break;
-  case IR_FPMATH:
-    if (ir->op2 == IRFPM_EXP2 && asm_fpjoin_pow(as, ir))
-      break;
-    if (ir->op2 <= IRFPM_TRUNC)
-      asm_callround(as, ir, IRCALL_lj_vm_floor + ir->op2);
-    else if (ir->op2 == IRFPM_SQRT)
-      asm_fpunary(as, ir, MIPSI_SQRT_D);
-    else
-      asm_callid(as, ir, IRCALL_lj_vm_floor + ir->op2);
-    break;
-
-  /* Overflow-checking arithmetic ops. */
-  case IR_ADDOV: asm_arithov(as, ir); break;
-  case IR_SUBOV: asm_arithov(as, ir); break;
-  case IR_MULOV: asm_mulov(as, ir); break;
-
-  /* Memory references. */
-  case IR_AREF: asm_aref(as, ir); break;
-  case IR_HREF: asm_href(as, ir); break;
-  case IR_HREFK: asm_hrefk(as, ir); break;
-  case IR_NEWREF: asm_newref(as, ir); break;
-  case IR_UREFO: case IR_UREFC: asm_uref(as, ir); break;
-  case IR_FREF: asm_fref(as, ir); break;
-  case IR_STRREF: asm_strref(as, ir); break;
-
-  /* Loads and stores. */
-  case IR_ALOAD: case IR_HLOAD: case IR_ULOAD: case IR_VLOAD:
-    asm_ahuvload(as, ir);
-    break;
-  case IR_FLOAD: asm_fload(as, ir); break;
-  case IR_XLOAD: asm_xload(as, ir); break;
-  case IR_SLOAD: asm_sload(as, ir); break;
-
-  case IR_ASTORE: case IR_HSTORE: case IR_USTORE: asm_ahustore(as, ir); break;
-  case IR_FSTORE: asm_fstore(as, ir); break;
-  case IR_XSTORE: asm_xstore(as, ir, 0); break;
-
-  /* Allocations. */
-  case IR_SNEW: case IR_XSNEW: asm_snew(as, ir); break;
-  case IR_TNEW: asm_tnew(as, ir); break;
-  case IR_TDUP: asm_tdup(as, ir); break;
-  case IR_CNEW: case IR_CNEWI: asm_cnew(as, ir); break;
-
-  /* Write barriers. */
-  case IR_TBAR: asm_tbar(as, ir); break;
-  case IR_OBAR: asm_obar(as, ir); break;
-
-  /* Type conversions. */
-  case IR_CONV: asm_conv(as, ir); break;
-  case IR_TOBIT: asm_tobit(as, ir); break;
-  case IR_TOSTR: asm_tostr(as, ir); break;
-  case IR_STRTO: asm_strto(as, ir); break;
-
-  /* Calls. */
-  case IR_CALLN: case IR_CALLL: case IR_CALLS: asm_call(as, ir); break;
-  case IR_CALLXS: asm_callx(as, ir); break;
-  case IR_CARG: break;
-
-  default:
-    setintV(&as->J->errinfo, ir->o);
-    lj_trace_err_info(as->J, LJ_TRERR_NYIIR);
-    break;
-  }
-}
-
-/* -- Trace setup --------------------------------------------------------- */
-
-/* Ensure there are enough stack slots for call arguments. */
-static Reg asm_setup_call_slots(ASMState *as, IRIns *ir, const CCallInfo *ci)
-{
-  IRRef args[CCI_NARGS_MAX*2];
-  uint32_t i, nargs = (int)CCI_NARGS(ci);
-  int nslots = 4, ngpr = REGARG_NUMGPR, nfpr = REGARG_NUMFPR;
-  asm_collectargs(as, ir, ci, args);
-  for (i = 0; i < nargs; i++) {
-    if (args[i] && irt_isfp(IR(args[i])->t) &&
-	nfpr > 0 && !(ci->flags & CCI_VARARG)) {
-      nfpr--;
-      ngpr -= irt_isnum(IR(args[i])->t) ? 2 : 1;
-    } else if (args[i] && irt_isnum(IR(args[i])->t)) {
-      nfpr = 0;
-      ngpr = ngpr & ~1;
-      if (ngpr > 0) ngpr -= 2; else nslots = (nslots+3) & ~1;
-    } else {
-      nfpr = 0;
-      if (ngpr > 0) ngpr--; else nslots++;
-    }
-  }
-  if (nslots > as->evenspill)  /* Leave room for args in stack slots. */
-    as->evenspill = nslots;
-  return irt_isfp(ir->t) ? REGSP_HINT(RID_FPRET) : REGSP_HINT(RID_RET);
-}
-
-static void asm_setup_target(ASMState *as)
-{
-  asm_sparejump_setup(as);
-  asm_exitstub_setup(as);
-}
-
-/* -- Trace patching ------------------------------------------------------ */
-
-/* Patch exit jumps of existing machine code to a new target. */
-void lj_asm_patchexit(jit_State *J, GCtrace *T, ExitNo exitno, MCode *target)
-{
-  MCode *p = T->mcode;
-  MCode *pe = (MCode *)((char *)p + T->szmcode);
-  MCode *px = exitstub_trace_addr(T, exitno);
-  MCode *cstart = NULL, *cstop = NULL;
-  MCode *mcarea = lj_mcode_patch(J, p, 0);
-  MCode exitload = MIPSI_LI | MIPSF_T(RID_TMP) | exitno;
-  MCode tjump = MIPSI_J|(((uintptr_t)target>>2)&0x03ffffffu);
-  for (p++; p < pe; p++) {
-    if (*p == exitload) {  /* Look for load of exit number. */
-      if (((p[-1] ^ (px-p)) & 0xffffu) == 0) {  /* Look for exitstub branch. */
-	ptrdiff_t delta = target - p;
-	if (((delta + 0x8000) >> 16) == 0) {  /* Patch in-range branch. */
-	patchbranch:
-	  p[-1] = (p[-1] & 0xffff0000u) | (delta & 0xffffu);
-	  *p = MIPSI_NOP;  /* Replace the load of the exit number. */
-	  cstop = p;
-	  if (!cstart) cstart = p-1;
-	} else {  /* Branch out of range. Use spare jump slot in mcarea. */
-	  int i;
-	  for (i = 2; i < 2+MIPS_SPAREJUMP*2; i += 2) {
-	    if (mcarea[i] == tjump) {
-	      delta = mcarea+i - p;
-	      goto patchbranch;
-	    } else if (mcarea[i] == MIPSI_NOP) {
-	      mcarea[i] = tjump;
-	      cstart = mcarea+i;
-	      delta = mcarea+i - p;
-	      goto patchbranch;
-	    }
-	  }
-	  /* Ignore jump slot overflow. Child trace is simply not attached. */
-	}
-      } else if (p+1 == pe) {
-	/* Patch NOP after code for inverted loop branch. Use of J is ok. */
-	lua_assert(p[1] == MIPSI_NOP);
-	p[1] = tjump;
-	*p = MIPSI_NOP;  /* Replace the load of the exit number. */
-	cstop = p+2;
-	if (!cstart) cstart = p+1;
-      }
-    }
-  }
-  if (cstart) lj_mcode_sync(cstart, cstop);
-  lj_mcode_patch(J, mcarea, 1);
-}
-
diff --git a/luajit-2.0/src/lj_asm_ppc.h b/luajit-2.0/src/lj_asm_ppc.h
deleted file mode 100644
index 0a3d35e..0000000
--- a/luajit-2.0/src/lj_asm_ppc.h
+++ /dev/null
@@ -1,2169 +0,0 @@
-/*
-** PPC IR assembler (SSA IR -> machine code).
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-/* -- Register allocator extensions --------------------------------------- */
-
-/* Allocate a register with a hint. */
-static Reg ra_hintalloc(ASMState *as, IRRef ref, Reg hint, RegSet allow)
-{
-  Reg r = IR(ref)->r;
-  if (ra_noreg(r)) {
-    if (!ra_hashint(r) && !iscrossref(as, ref))
-      ra_sethint(IR(ref)->r, hint);  /* Propagate register hint. */
-    r = ra_allocref(as, ref, allow);
-  }
-  ra_noweak(as, r);
-  return r;
-}
-
-/* Allocate two source registers for three-operand instructions. */
-static Reg ra_alloc2(ASMState *as, IRIns *ir, RegSet allow)
-{
-  IRIns *irl = IR(ir->op1), *irr = IR(ir->op2);
-  Reg left = irl->r, right = irr->r;
-  if (ra_hasreg(left)) {
-    ra_noweak(as, left);
-    if (ra_noreg(right))
-      right = ra_allocref(as, ir->op2, rset_exclude(allow, left));
-    else
-      ra_noweak(as, right);
-  } else if (ra_hasreg(right)) {
-    ra_noweak(as, right);
-    left = ra_allocref(as, ir->op1, rset_exclude(allow, right));
-  } else if (ra_hashint(right)) {
-    right = ra_allocref(as, ir->op2, allow);
-    left = ra_alloc1(as, ir->op1, rset_exclude(allow, right));
-  } else {
-    left = ra_allocref(as, ir->op1, allow);
-    right = ra_alloc1(as, ir->op2, rset_exclude(allow, left));
-  }
-  return left | (right << 8);
-}
-
-/* -- Guard handling ------------------------------------------------------ */
-
-/* Setup exit stubs after the end of each trace. */
-static void asm_exitstub_setup(ASMState *as, ExitNo nexits)
-{
-  ExitNo i;
-  MCode *mxp = as->mctop;
-  if (mxp - (nexits + 3 + MCLIM_REDZONE) < as->mclim)
-    asm_mclimit(as);
-  /* 1: mflr r0; bl ->vm_exit_handler; li r0, traceno; bl <1; bl <1; ... */
-  for (i = nexits-1; (int32_t)i >= 0; i--)
-    *--mxp = PPCI_BL|(((-3-i)&0x00ffffffu)<<2);
-  *--mxp = PPCI_LI|PPCF_T(RID_TMP)|as->T->traceno;  /* Read by exit handler. */
-  mxp--;
-  *mxp = PPCI_BL|((((MCode *)(void *)lj_vm_exit_handler-mxp)&0x00ffffffu)<<2);
-  *--mxp = PPCI_MFLR|PPCF_T(RID_TMP);
-  as->mctop = mxp;
-}
-
-static MCode *asm_exitstub_addr(ASMState *as, ExitNo exitno)
-{
-  /* Keep this in-sync with exitstub_trace_addr(). */
-  return as->mctop + exitno + 3;
-}
-
-/* Emit conditional branch to exit for guard. */
-static void asm_guardcc(ASMState *as, PPCCC cc)
-{
-  MCode *target = asm_exitstub_addr(as, as->snapno);
-  MCode *p = as->mcp;
-  if (LJ_UNLIKELY(p == as->invmcp)) {
-    as->loopinv = 1;
-    *p = PPCI_B | (((target-p) & 0x00ffffffu) << 2);
-    emit_condbranch(as, PPCI_BC, cc^4, p);
-    return;
-  }
-  emit_condbranch(as, PPCI_BC, cc, target);
-}
-
-/* -- Operand fusion ------------------------------------------------------ */
-
-/* Limit linear search to this distance. Avoids O(n^2) behavior. */
-#define CONFLICT_SEARCH_LIM	31
-
-/* Check if there's no conflicting instruction between curins and ref. */
-static int noconflict(ASMState *as, IRRef ref, IROp conflict)
-{
-  IRIns *ir = as->ir;
-  IRRef i = as->curins;
-  if (i > ref + CONFLICT_SEARCH_LIM)
-    return 0;  /* Give up, ref is too far away. */
-  while (--i > ref)
-    if (ir[i].o == conflict)
-      return 0;  /* Conflict found. */
-  return 1;  /* Ok, no conflict. */
-}
-
-/* Fuse the array base of colocated arrays. */
-static int32_t asm_fuseabase(ASMState *as, IRRef ref)
-{
-  IRIns *ir = IR(ref);
-  if (ir->o == IR_TNEW && ir->op1 <= LJ_MAX_COLOSIZE &&
-      !neverfuse(as) && noconflict(as, ref, IR_NEWREF))
-    return (int32_t)sizeof(GCtab);
-  return 0;
-}
-
-/* Indicates load/store indexed is ok. */
-#define AHUREF_LSX	((int32_t)0x80000000)
-
-/* Fuse array/hash/upvalue reference into register+offset operand. */
-static Reg asm_fuseahuref(ASMState *as, IRRef ref, int32_t *ofsp, RegSet allow)
-{
-  IRIns *ir = IR(ref);
-  if (ra_noreg(ir->r)) {
-    if (ir->o == IR_AREF) {
-      if (mayfuse(as, ref)) {
-	if (irref_isk(ir->op2)) {
-	  IRRef tab = IR(ir->op1)->op1;
-	  int32_t ofs = asm_fuseabase(as, tab);
-	  IRRef refa = ofs ? tab : ir->op1;
-	  ofs += 8*IR(ir->op2)->i;
-	  if (checki16(ofs)) {
-	    *ofsp = ofs;
-	    return ra_alloc1(as, refa, allow);
-	  }
-	}
-	if (*ofsp == AHUREF_LSX) {
-	  Reg base = ra_alloc1(as, ir->op1, allow);
-	  Reg idx = ra_alloc1(as, ir->op2, rset_exclude(RSET_GPR, base));
-	  return base | (idx << 8);
-	}
-      }
-    } else if (ir->o == IR_HREFK) {
-      if (mayfuse(as, ref)) {
-	int32_t ofs = (int32_t)(IR(ir->op2)->op2 * sizeof(Node));
-	if (checki16(ofs)) {
-	  *ofsp = ofs;
-	  return ra_alloc1(as, ir->op1, allow);
-	}
-      }
-    } else if (ir->o == IR_UREFC) {
-      if (irref_isk(ir->op1)) {
-	GCfunc *fn = ir_kfunc(IR(ir->op1));
-	int32_t ofs = i32ptr(&gcref(fn->l.uvptr[(ir->op2 >> 8)])->uv.tv);
-	int32_t jgl = (intptr_t)J2G(as->J);
-	if ((uint32_t)(ofs-jgl) < 65536) {
-	  *ofsp = ofs-jgl-32768;
-	  return RID_JGL;
-	} else {
-	  *ofsp = (int16_t)ofs;
-	  return ra_allock(as, ofs-(int16_t)ofs, allow);
-	}
-      }
-    }
-  }
-  *ofsp = 0;
-  return ra_alloc1(as, ref, allow);
-}
-
-/* Fuse XLOAD/XSTORE reference into load/store operand. */
-static void asm_fusexref(ASMState *as, PPCIns pi, Reg rt, IRRef ref,
-			 RegSet allow, int32_t ofs)
-{
-  IRIns *ir = IR(ref);
-  Reg base;
-  if (ra_noreg(ir->r) && canfuse(as, ir)) {
-    if (ir->o == IR_ADD) {
-      int32_t ofs2;
-      if (irref_isk(ir->op2) && (ofs2 = ofs + IR(ir->op2)->i, checki16(ofs2))) {
-	ofs = ofs2;
-	ref = ir->op1;
-      } else if (ofs == 0) {
-	Reg right, left = ra_alloc2(as, ir, allow);
-	right = (left >> 8); left &= 255;
-	emit_fab(as, PPCI_LWZX | ((pi >> 20) & 0x780), rt, left, right);
-	return;
-      }
-    } else if (ir->o == IR_STRREF) {
-      lua_assert(ofs == 0);
-      ofs = (int32_t)sizeof(GCstr);
-      if (irref_isk(ir->op2)) {
-	ofs += IR(ir->op2)->i;
-	ref = ir->op1;
-      } else if (irref_isk(ir->op1)) {
-	ofs += IR(ir->op1)->i;
-	ref = ir->op2;
-      } else {
-	/* NYI: Fuse ADD with constant. */
-	Reg tmp, right, left = ra_alloc2(as, ir, allow);
-	right = (left >> 8); left &= 255;
-	tmp = ra_scratch(as, rset_exclude(rset_exclude(allow, left), right));
-	emit_fai(as, pi, rt, tmp, ofs);
-	emit_tab(as, PPCI_ADD, tmp, left, right);
-	return;
-      }
-      if (!checki16(ofs)) {
-	Reg left = ra_alloc1(as, ref, allow);
-	Reg right = ra_allock(as, ofs, rset_exclude(allow, left));
-	emit_fab(as, PPCI_LWZX | ((pi >> 20) & 0x780), rt, left, right);
-	return;
-      }
-    }
-  }
-  base = ra_alloc1(as, ref, allow);
-  emit_fai(as, pi, rt, base, ofs);
-}
-
-/* Fuse XLOAD/XSTORE reference into indexed-only load/store operand. */
-static void asm_fusexrefx(ASMState *as, PPCIns pi, Reg rt, IRRef ref,
-			  RegSet allow)
-{
-  IRIns *ira = IR(ref);
-  Reg right, left;
-  if (canfuse(as, ira) && ira->o == IR_ADD && ra_noreg(ira->r)) {
-    left = ra_alloc2(as, ira, allow);
-    right = (left >> 8); left &= 255;
-  } else {
-    right = ra_alloc1(as, ref, allow);
-    left = RID_R0;
-  }
-  emit_tab(as, pi, rt, left, right);
-}
-
-/* Fuse to multiply-add/sub instruction. */
-static int asm_fusemadd(ASMState *as, IRIns *ir, PPCIns pi, PPCIns pir)
-{
-  IRRef lref = ir->op1, rref = ir->op2;
-  IRIns *irm;
-  if (lref != rref &&
-      ((mayfuse(as, lref) && (irm = IR(lref), irm->o == IR_MUL) &&
-	ra_noreg(irm->r)) ||
-       (mayfuse(as, rref) && (irm = IR(rref), irm->o == IR_MUL) &&
-	(rref = lref, pi = pir, ra_noreg(irm->r))))) {
-    Reg dest = ra_dest(as, ir, RSET_FPR);
-    Reg add = ra_alloc1(as, rref, RSET_FPR);
-    Reg right, left = ra_alloc2(as, irm, rset_exclude(RSET_FPR, add));
-    right = (left >> 8); left &= 255;
-    emit_facb(as, pi, dest, left, right, add);
-    return 1;
-  }
-  return 0;
-}
-
-/* -- Calls --------------------------------------------------------------- */
-
-/* Generate a call to a C function. */
-static void asm_gencall(ASMState *as, const CCallInfo *ci, IRRef *args)
-{
-  uint32_t n, nargs = CCI_NARGS(ci);
-  int32_t ofs = 8;
-  Reg gpr = REGARG_FIRSTGPR, fpr = REGARG_FIRSTFPR;
-  if ((void *)ci->func)
-    emit_call(as, (void *)ci->func);
-  for (n = 0; n < nargs; n++) {  /* Setup args. */
-    IRRef ref = args[n];
-    if (ref) {
-      IRIns *ir = IR(ref);
-      if (irt_isfp(ir->t)) {
-	if (fpr <= REGARG_LASTFPR) {
-	  lua_assert(rset_test(as->freeset, fpr));  /* Already evicted. */
-	  ra_leftov(as, fpr, ref);
-	  fpr++;
-	} else {
-	  Reg r = ra_alloc1(as, ref, RSET_FPR);
-	  if (irt_isnum(ir->t)) ofs = (ofs + 4) & ~4;
-	  emit_spstore(as, ir, r, ofs);
-	  ofs += irt_isnum(ir->t) ? 8 : 4;
-	}
-      } else {
-	if (gpr <= REGARG_LASTGPR) {
-	  lua_assert(rset_test(as->freeset, gpr));  /* Already evicted. */
-	  ra_leftov(as, gpr, ref);
-	  gpr++;
-	} else {
-	  Reg r = ra_alloc1(as, ref, RSET_GPR);
-	  emit_spstore(as, ir, r, ofs);
-	  ofs += 4;
-	}
-      }
-    } else {
-      if (gpr <= REGARG_LASTGPR)
-	gpr++;
-      else
-	ofs += 4;
-    }
-    checkmclim(as);
-  }
-  if ((ci->flags & CCI_VARARG))  /* Vararg calls need to know about FPR use. */
-    emit_tab(as, fpr == REGARG_FIRSTFPR ? PPCI_CRXOR : PPCI_CREQV, 6, 6, 6);
-}
-
-/* Setup result reg/sp for call. Evict scratch regs. */
-static void asm_setupresult(ASMState *as, IRIns *ir, const CCallInfo *ci)
-{
-  RegSet drop = RSET_SCRATCH;
-  int hiop = ((ir+1)->o == IR_HIOP);
-  if ((ci->flags & CCI_NOFPRCLOBBER))
-    drop &= ~RSET_FPR;
-  if (ra_hasreg(ir->r))
-    rset_clear(drop, ir->r);  /* Dest reg handled below. */
-  if (hiop && ra_hasreg((ir+1)->r))
-    rset_clear(drop, (ir+1)->r);  /* Dest reg handled below. */
-  ra_evictset(as, drop);  /* Evictions must be performed first. */
-  if (ra_used(ir)) {
-    lua_assert(!irt_ispri(ir->t));
-    if (irt_isfp(ir->t)) {
-      if ((ci->flags & CCI_CASTU64)) {
-	/* Use spill slot or temp slots. */
-	int32_t ofs = ir->s ? sps_scale(ir->s) : SPOFS_TMP;
-	Reg dest = ir->r;
-	if (ra_hasreg(dest)) {
-	  ra_free(as, dest);
-	  ra_modified(as, dest);
-	  emit_fai(as, PPCI_LFD, dest, RID_SP, ofs);
-	}
-	emit_tai(as, PPCI_STW, RID_RETHI, RID_SP, ofs);
-	emit_tai(as, PPCI_STW, RID_RETLO, RID_SP, ofs+4);
-      } else {
-	ra_destreg(as, ir, RID_FPRET);
-      }
-    } else if (hiop) {
-      ra_destpair(as, ir);
-    } else {
-      ra_destreg(as, ir, RID_RET);
-    }
-  }
-}
-
-static void asm_call(ASMState *as, IRIns *ir)
-{
-  IRRef args[CCI_NARGS_MAX];
-  const CCallInfo *ci = &lj_ir_callinfo[ir->op2];
-  asm_collectargs(as, ir, ci, args);
-  asm_setupresult(as, ir, ci);
-  asm_gencall(as, ci, args);
-}
-
-static void asm_callx(ASMState *as, IRIns *ir)
-{
-  IRRef args[CCI_NARGS_MAX*2];
-  CCallInfo ci;
-  IRRef func;
-  IRIns *irf;
-  ci.flags = asm_callx_flags(as, ir);
-  asm_collectargs(as, ir, &ci, args);
-  asm_setupresult(as, ir, &ci);
-  func = ir->op2; irf = IR(func);
-  if (irf->o == IR_CARG) { func = irf->op1; irf = IR(func); }
-  if (irref_isk(func)) {  /* Call to constant address. */
-    ci.func = (ASMFunction)(void *)(irf->i);
-  } else {  /* Need a non-argument register for indirect calls. */
-    RegSet allow = RSET_GPR & ~RSET_RANGE(RID_R0, REGARG_LASTGPR+1);
-    Reg freg = ra_alloc1(as, func, allow);
-    *--as->mcp = PPCI_BCTRL;
-    *--as->mcp = PPCI_MTCTR | PPCF_T(freg);
-    ci.func = (ASMFunction)(void *)0;
-  }
-  asm_gencall(as, &ci, args);
-}
-
-static void asm_callid(ASMState *as, IRIns *ir, IRCallID id)
-{
-  const CCallInfo *ci = &lj_ir_callinfo[id];
-  IRRef args[2];
-  args[0] = ir->op1;
-  args[1] = ir->op2;
-  asm_setupresult(as, ir, ci);
-  asm_gencall(as, ci, args);
-}
-
-/* -- Returns ------------------------------------------------------------- */
-
-/* Return to lower frame. Guard that it goes to the right spot. */
-static void asm_retf(ASMState *as, IRIns *ir)
-{
-  Reg base = ra_alloc1(as, REF_BASE, RSET_GPR);
-  void *pc = ir_kptr(IR(ir->op2));
-  int32_t delta = 1+bc_a(*((const BCIns *)pc - 1));
-  as->topslot -= (BCReg)delta;
-  if ((int32_t)as->topslot < 0) as->topslot = 0;
-  irt_setmark(IR(REF_BASE)->t);  /* Children must not coalesce with BASE reg. */
-  emit_setgl(as, base, jit_base);
-  emit_addptr(as, base, -8*delta);
-  asm_guardcc(as, CC_NE);
-  emit_ab(as, PPCI_CMPW, RID_TMP,
-	  ra_allock(as, i32ptr(pc), rset_exclude(RSET_GPR, base)));
-  emit_tai(as, PPCI_LWZ, RID_TMP, base, -8);
-}
-
-/* -- Type conversions ---------------------------------------------------- */
-
-static void asm_tointg(ASMState *as, IRIns *ir, Reg left)
-{
-  RegSet allow = RSET_FPR;
-  Reg tmp = ra_scratch(as, rset_clear(allow, left));
-  Reg fbias = ra_scratch(as, rset_clear(allow, tmp));
-  Reg dest = ra_dest(as, ir, RSET_GPR);
-  Reg hibias = ra_allock(as, 0x43300000, rset_exclude(RSET_GPR, dest));
-  asm_guardcc(as, CC_NE);
-  emit_fab(as, PPCI_FCMPU, 0, tmp, left);
-  emit_fab(as, PPCI_FSUB, tmp, tmp, fbias);
-  emit_fai(as, PPCI_LFD, tmp, RID_SP, SPOFS_TMP);
-  emit_tai(as, PPCI_STW, RID_TMP, RID_SP, SPOFS_TMPLO);
-  emit_tai(as, PPCI_STW, hibias, RID_SP, SPOFS_TMPHI);
-  emit_asi(as, PPCI_XORIS, RID_TMP, dest, 0x8000);
-  emit_tai(as, PPCI_LWZ, dest, RID_SP, SPOFS_TMPLO);
-  emit_lsptr(as, PPCI_LFS, (fbias & 31),
-	     (void *)lj_ir_k64_find(as->J, U64x(59800004,59800000)),
-	     RSET_GPR);
-  emit_fai(as, PPCI_STFD, tmp, RID_SP, SPOFS_TMP);
-  emit_fb(as, PPCI_FCTIWZ, tmp, left);
-}
-
-static void asm_tobit(ASMState *as, IRIns *ir)
-{
-  RegSet allow = RSET_FPR;
-  Reg dest = ra_dest(as, ir, RSET_GPR);
-  Reg left = ra_alloc1(as, ir->op1, allow);
-  Reg right = ra_alloc1(as, ir->op2, rset_clear(allow, left));
-  Reg tmp = ra_scratch(as, rset_clear(allow, right));
-  emit_tai(as, PPCI_LWZ, dest, RID_SP, SPOFS_TMPLO);
-  emit_fai(as, PPCI_STFD, tmp, RID_SP, SPOFS_TMP);
-  emit_fab(as, PPCI_FADD, tmp, left, right);
-}
-
-static void asm_conv(ASMState *as, IRIns *ir)
-{
-  IRType st = (IRType)(ir->op2 & IRCONV_SRCMASK);
-  int stfp = (st == IRT_NUM || st == IRT_FLOAT);
-  IRRef lref = ir->op1;
-  lua_assert(irt_type(ir->t) != st);
-  lua_assert(!(irt_isint64(ir->t) ||
-	       (st == IRT_I64 || st == IRT_U64))); /* Handled by SPLIT. */
-  if (irt_isfp(ir->t)) {
-    Reg dest = ra_dest(as, ir, RSET_FPR);
-    if (stfp) {  /* FP to FP conversion. */
-      if (st == IRT_NUM)  /* double -> float conversion. */
-	emit_fb(as, PPCI_FRSP, dest, ra_alloc1(as, lref, RSET_FPR));
-      else  /* float -> double conversion is a no-op on PPC. */
-	ra_leftov(as, dest, lref);  /* Do nothing, but may need to move regs. */
-    } else {  /* Integer to FP conversion. */
-      /* IRT_INT: Flip hibit, bias with 2^52, subtract 2^52+2^31. */
-      /* IRT_U32: Bias with 2^52, subtract 2^52. */
-      RegSet allow = RSET_GPR;
-      Reg left = ra_alloc1(as, lref, allow);
-      Reg hibias = ra_allock(as, 0x43300000, rset_clear(allow, left));
-      Reg fbias = ra_scratch(as, rset_exclude(RSET_FPR, dest));
-      const float *kbias;
-      if (irt_isfloat(ir->t)) emit_fb(as, PPCI_FRSP, dest, dest);
-      emit_fab(as, PPCI_FSUB, dest, dest, fbias);
-      emit_fai(as, PPCI_LFD, dest, RID_SP, SPOFS_TMP);
-      kbias = (const float *)lj_ir_k64_find(as->J, U64x(59800004,59800000));
-      if (st == IRT_U32) kbias++;
-      emit_lsptr(as, PPCI_LFS, (fbias & 31), (void *)kbias,
-		 rset_clear(allow, hibias));
-      emit_tai(as, PPCI_STW, st == IRT_U32 ? left : RID_TMP,
-	       RID_SP, SPOFS_TMPLO);
-      emit_tai(as, PPCI_STW, hibias, RID_SP, SPOFS_TMPHI);
-      if (st != IRT_U32) emit_asi(as, PPCI_XORIS, RID_TMP, left, 0x8000);
-    }
-  } else if (stfp) {  /* FP to integer conversion. */
-    if (irt_isguard(ir->t)) {
-      /* Checked conversions are only supported from number to int. */
-      lua_assert(irt_isint(ir->t) && st == IRT_NUM);
-      asm_tointg(as, ir, ra_alloc1(as, lref, RSET_FPR));
-    } else {
-      Reg dest = ra_dest(as, ir, RSET_GPR);
-      Reg left = ra_alloc1(as, lref, RSET_FPR);
-      Reg tmp = ra_scratch(as, rset_exclude(RSET_FPR, left));
-      if (irt_isu32(ir->t)) {
-	/* Convert both x and x-2^31 to int and merge results. */
-	Reg tmpi = ra_scratch(as, rset_exclude(RSET_GPR, dest));
-	emit_asb(as, PPCI_OR, dest, dest, tmpi);  /* Select with mask idiom. */
-	emit_asb(as, PPCI_AND, tmpi, tmpi, RID_TMP);
-	emit_asb(as, PPCI_ANDC, dest, dest, RID_TMP);
-	emit_tai(as, PPCI_LWZ, tmpi, RID_SP, SPOFS_TMPLO);  /* tmp = (int)(x) */
-	emit_tai(as, PPCI_ADDIS, dest, dest, 0x8000);  /* dest += 2^31 */
-	emit_asb(as, PPCI_SRAWI, RID_TMP, dest, 31);  /* mask = -(dest < 0) */
-	emit_fai(as, PPCI_STFD, tmp, RID_SP, SPOFS_TMP);
-	emit_tai(as, PPCI_LWZ, dest,
-		 RID_SP, SPOFS_TMPLO);  /* dest = (int)(x-2^31) */
-	emit_fb(as, PPCI_FCTIWZ, tmp, left);
-	emit_fai(as, PPCI_STFD, tmp, RID_SP, SPOFS_TMP);
-	emit_fb(as, PPCI_FCTIWZ, tmp, tmp);
-	emit_fab(as, PPCI_FSUB, tmp, left, tmp);
-	emit_lsptr(as, PPCI_LFS, (tmp & 31),
-		   (void *)lj_ir_k64_find(as->J, U64x(4f000000,00000000)),
-		   RSET_GPR);
-      } else {
-	emit_tai(as, PPCI_LWZ, dest, RID_SP, SPOFS_TMPLO);
-	emit_fai(as, PPCI_STFD, tmp, RID_SP, SPOFS_TMP);
-	emit_fb(as, PPCI_FCTIWZ, tmp, left);
-      }
-    }
-  } else {
-    Reg dest = ra_dest(as, ir, RSET_GPR);
-    if (st >= IRT_I8 && st <= IRT_U16) {  /* Extend to 32 bit integer. */
-      Reg left = ra_alloc1(as, ir->op1, RSET_GPR);
-      lua_assert(irt_isint(ir->t) || irt_isu32(ir->t));
-      if ((ir->op2 & IRCONV_SEXT))
-	emit_as(as, st == IRT_I8 ? PPCI_EXTSB : PPCI_EXTSH, dest, left);
-      else
-	emit_rot(as, PPCI_RLWINM, dest, left, 0, st == IRT_U8 ? 24 : 16, 31);
-    } else {  /* 32/64 bit integer conversions. */
-      /* Only need to handle 32/32 bit no-op (cast) on 32 bit archs. */
-      ra_leftov(as, dest, lref);  /* Do nothing, but may need to move regs. */
-    }
-  }
-}
-
-#if LJ_HASFFI
-static void asm_conv64(ASMState *as, IRIns *ir)
-{
-  IRType st = (IRType)((ir-1)->op2 & IRCONV_SRCMASK);
-  IRType dt = (((ir-1)->op2 & IRCONV_DSTMASK) >> IRCONV_DSH);
-  IRCallID id;
-  const CCallInfo *ci;
-  IRRef args[2];
-  args[0] = ir->op1;
-  args[1] = (ir-1)->op1;
-  if (st == IRT_NUM || st == IRT_FLOAT) {
-    id = IRCALL_fp64_d2l + ((st == IRT_FLOAT) ? 2 : 0) + (dt - IRT_I64);
-    ir--;
-  } else {
-    id = IRCALL_fp64_l2d + ((dt == IRT_FLOAT) ? 2 : 0) + (st - IRT_I64);
-  }
-  ci = &lj_ir_callinfo[id];
-  asm_setupresult(as, ir, ci);
-  asm_gencall(as, ci, args);
-}
-#endif
-
-static void asm_strto(ASMState *as, IRIns *ir)
-{
-  const CCallInfo *ci = &lj_ir_callinfo[IRCALL_lj_strscan_num];
-  IRRef args[2];
-  int32_t ofs;
-  RegSet drop = RSET_SCRATCH;
-  if (ra_hasreg(ir->r)) rset_set(drop, ir->r);  /* Spill dest reg (if any). */
-  ra_evictset(as, drop);
-  asm_guardcc(as, CC_EQ);
-  emit_ai(as, PPCI_CMPWI, RID_RET, 0);  /* Test return status. */
-  args[0] = ir->op1;      /* GCstr *str */
-  args[1] = ASMREF_TMP1;  /* TValue *n  */
-  asm_gencall(as, ci, args);
-  /* Store the result to the spill slot or temp slots. */
-  ofs = ir->s ? sps_scale(ir->s) : SPOFS_TMP;
-  emit_tai(as, PPCI_ADDI, ra_releasetmp(as, ASMREF_TMP1), RID_SP, ofs);
-}
-
-/* Get pointer to TValue. */
-static void asm_tvptr(ASMState *as, Reg dest, IRRef ref)
-{
-  IRIns *ir = IR(ref);
-  if (irt_isnum(ir->t)) {
-    if (irref_isk(ref))  /* Use the number constant itself as a TValue. */
-      ra_allockreg(as, i32ptr(ir_knum(ir)), dest);
-    else  /* Otherwise force a spill and use the spill slot. */
-      emit_tai(as, PPCI_ADDI, dest, RID_SP, ra_spill(as, ir));
-  } else {
-    /* Otherwise use g->tmptv to hold the TValue. */
-    RegSet allow = rset_exclude(RSET_GPR, dest);
-    Reg type;
-    emit_tai(as, PPCI_ADDI, dest, RID_JGL, offsetof(global_State, tmptv)-32768);
-    if (!irt_ispri(ir->t)) {
-      Reg src = ra_alloc1(as, ref, allow);
-      emit_setgl(as, src, tmptv.gcr);
-    }
-    type = ra_allock(as, irt_toitype(ir->t), allow);
-    emit_setgl(as, type, tmptv.it);
-  }
-}
-
-static void asm_tostr(ASMState *as, IRIns *ir)
-{
-  IRRef args[2];
-  args[0] = ASMREF_L;
-  as->gcsteps++;
-  if (irt_isnum(IR(ir->op1)->t) || (ir+1)->o == IR_HIOP) {
-    const CCallInfo *ci = &lj_ir_callinfo[IRCALL_lj_str_fromnum];
-    args[1] = ASMREF_TMP1;  /* const lua_Number * */
-    asm_setupresult(as, ir, ci);  /* GCstr * */
-    asm_gencall(as, ci, args);
-    asm_tvptr(as, ra_releasetmp(as, ASMREF_TMP1), ir->op1);
-  } else {
-    const CCallInfo *ci = &lj_ir_callinfo[IRCALL_lj_str_fromint];
-    args[1] = ir->op1;  /* int32_t k */
-    asm_setupresult(as, ir, ci);  /* GCstr * */
-    asm_gencall(as, ci, args);
-  }
-}
-
-/* -- Memory references --------------------------------------------------- */
-
-static void asm_aref(ASMState *as, IRIns *ir)
-{
-  Reg dest = ra_dest(as, ir, RSET_GPR);
-  Reg idx, base;
-  if (irref_isk(ir->op2)) {
-    IRRef tab = IR(ir->op1)->op1;
-    int32_t ofs = asm_fuseabase(as, tab);
-    IRRef refa = ofs ? tab : ir->op1;
-    ofs += 8*IR(ir->op2)->i;
-    if (checki16(ofs)) {
-      base = ra_alloc1(as, refa, RSET_GPR);
-      emit_tai(as, PPCI_ADDI, dest, base, ofs);
-      return;
-    }
-  }
-  base = ra_alloc1(as, ir->op1, RSET_GPR);
-  idx = ra_alloc1(as, ir->op2, rset_exclude(RSET_GPR, base));
-  emit_tab(as, PPCI_ADD, dest, RID_TMP, base);
-  emit_slwi(as, RID_TMP, idx, 3);
-}
-
-/* Inlined hash lookup. Specialized for key type and for const keys.
-** The equivalent C code is:
-**   Node *n = hashkey(t, key);
-**   do {
-**     if (lj_obj_equal(&n->key, key)) return &n->val;
-**   } while ((n = nextnode(n)));
-**   return niltv(L);
-*/
-static void asm_href(ASMState *as, IRIns *ir, IROp merge)
-{
-  RegSet allow = RSET_GPR;
-  int destused = ra_used(ir);
-  Reg dest = ra_dest(as, ir, allow);
-  Reg tab = ra_alloc1(as, ir->op1, rset_clear(allow, dest));
-  Reg key = RID_NONE, tmp1 = RID_TMP, tmp2;
-  Reg tisnum = RID_NONE, tmpnum = RID_NONE;
-  IRRef refkey = ir->op2;
-  IRIns *irkey = IR(refkey);
-  IRType1 kt = irkey->t;
-  uint32_t khash;
-  MCLabel l_end, l_loop, l_next;
-
-  rset_clear(allow, tab);
-  if (irt_isnum(kt)) {
-    key = ra_alloc1(as, refkey, RSET_FPR);
-    tmpnum = ra_scratch(as, rset_exclude(RSET_FPR, key));
-    tisnum = ra_allock(as, (int32_t)LJ_TISNUM, allow);
-    rset_clear(allow, tisnum);
-  } else if (!irt_ispri(kt)) {
-    key = ra_alloc1(as, refkey, allow);
-    rset_clear(allow, key);
-  }
-  tmp2 = ra_scratch(as, allow);
-  rset_clear(allow, tmp2);
-
-  /* Key not found in chain: jump to exit (if merged) or load niltv. */
-  l_end = emit_label(as);
-  as->invmcp = NULL;
-  if (merge == IR_NE)
-    asm_guardcc(as, CC_EQ);
-  else if (destused)
-    emit_loada(as, dest, niltvg(J2G(as->J)));
-
-  /* Follow hash chain until the end. */
-  l_loop = --as->mcp;
-  emit_ai(as, PPCI_CMPWI, dest, 0);
-  emit_tai(as, PPCI_LWZ, dest, dest, (int32_t)offsetof(Node, next));
-  l_next = emit_label(as);
-
-  /* Type and value comparison. */
-  if (merge == IR_EQ)
-    asm_guardcc(as, CC_EQ);
-  else
-    emit_condbranch(as, PPCI_BC|PPCF_Y, CC_EQ, l_end);
-  if (irt_isnum(kt)) {
-    emit_fab(as, PPCI_FCMPU, 0, tmpnum, key);
-    emit_condbranch(as, PPCI_BC, CC_GE, l_next);
-    emit_ab(as, PPCI_CMPLW, tmp1, tisnum);
-    emit_fai(as, PPCI_LFD, tmpnum, dest, (int32_t)offsetof(Node, key.n));
-  } else {
-    if (!irt_ispri(kt)) {
-      emit_ab(as, PPCI_CMPW, tmp2, key);
-      emit_condbranch(as, PPCI_BC, CC_NE, l_next);
-    }
-    emit_ai(as, PPCI_CMPWI, tmp1, irt_toitype(irkey->t));
-    if (!irt_ispri(kt))
-      emit_tai(as, PPCI_LWZ, tmp2, dest, (int32_t)offsetof(Node, key.gcr));
-  }
-  emit_tai(as, PPCI_LWZ, tmp1, dest, (int32_t)offsetof(Node, key.it));
-  *l_loop = PPCI_BC | PPCF_Y | PPCF_CC(CC_NE) |
-	    (((char *)as->mcp-(char *)l_loop) & 0xffffu);
-
-  /* Load main position relative to tab->node into dest. */
-  khash = irref_isk(refkey) ? ir_khash(irkey) : 1;
-  if (khash == 0) {
-    emit_tai(as, PPCI_LWZ, dest, tab, (int32_t)offsetof(GCtab, node));
-  } else {
-    Reg tmphash = tmp1;
-    if (irref_isk(refkey))
-      tmphash = ra_allock(as, khash, allow);
-    emit_tab(as, PPCI_ADD, dest, dest, tmp1);
-    emit_tai(as, PPCI_MULLI, tmp1, tmp1, sizeof(Node));
-    emit_asb(as, PPCI_AND, tmp1, tmp2, tmphash);
-    emit_tai(as, PPCI_LWZ, dest, tab, (int32_t)offsetof(GCtab, node));
-    emit_tai(as, PPCI_LWZ, tmp2, tab, (int32_t)offsetof(GCtab, hmask));
-    if (irref_isk(refkey)) {
-      /* Nothing to do. */
-    } else if (irt_isstr(kt)) {
-      emit_tai(as, PPCI_LWZ, tmp1, key, (int32_t)offsetof(GCstr, hash));
-    } else {  /* Must match with hash*() in lj_tab.c. */
-      emit_tab(as, PPCI_SUBF, tmp1, tmp2, tmp1);
-      emit_rotlwi(as, tmp2, tmp2, HASH_ROT3);
-      emit_asb(as, PPCI_XOR, tmp1, tmp1, tmp2);
-      emit_rotlwi(as, tmp1, tmp1, (HASH_ROT2+HASH_ROT1)&31);
-      emit_tab(as, PPCI_SUBF, tmp2, dest, tmp2);
-      if (irt_isnum(kt)) {
-	int32_t ofs = ra_spill(as, irkey);
-	emit_asb(as, PPCI_XOR, tmp2, tmp2, tmp1);
-	emit_rotlwi(as, dest, tmp1, HASH_ROT1);
-	emit_tab(as, PPCI_ADD, tmp1, tmp1, tmp1);
-	emit_tai(as, PPCI_LWZ, tmp2, RID_SP, ofs+4);
-	emit_tai(as, PPCI_LWZ, tmp1, RID_SP, ofs);
-      } else {
-	emit_asb(as, PPCI_XOR, tmp2, key, tmp1);
-	emit_rotlwi(as, dest, tmp1, HASH_ROT1);
-	emit_tai(as, PPCI_ADDI, tmp1, tmp2, HASH_BIAS);
-	emit_tai(as, PPCI_ADDIS, tmp2, key, (HASH_BIAS + 32768)>>16);
-      }
-    }
-  }
-}
-
-static void asm_hrefk(ASMState *as, IRIns *ir)
-{
-  IRIns *kslot = IR(ir->op2);
-  IRIns *irkey = IR(kslot->op1);
-  int32_t ofs = (int32_t)(kslot->op2 * sizeof(Node));
-  int32_t kofs = ofs + (int32_t)offsetof(Node, key);
-  Reg dest = (ra_used(ir)||ofs > 32736) ? ra_dest(as, ir, RSET_GPR) : RID_NONE;
-  Reg node = ra_alloc1(as, ir->op1, RSET_GPR);
-  Reg key = RID_NONE, type = RID_TMP, idx = node;
-  RegSet allow = rset_exclude(RSET_GPR, node);
-  lua_assert(ofs % sizeof(Node) == 0);
-  if (ofs > 32736) {
-    idx = dest;
-    rset_clear(allow, dest);
-    kofs = (int32_t)offsetof(Node, key);
-  } else if (ra_hasreg(dest)) {
-    emit_tai(as, PPCI_ADDI, dest, node, ofs);
-  }
-  asm_guardcc(as, CC_NE);
-  if (!irt_ispri(irkey->t)) {
-    key = ra_scratch(as, allow);
-    rset_clear(allow, key);
-  }
-  rset_clear(allow, type);
-  if (irt_isnum(irkey->t)) {
-    emit_cmpi(as, key, (int32_t)ir_knum(irkey)->u32.lo);
-    asm_guardcc(as, CC_NE);
-    emit_cmpi(as, type, (int32_t)ir_knum(irkey)->u32.hi);
-  } else {
-    if (ra_hasreg(key)) {
-      emit_cmpi(as, key, irkey->i);  /* May use RID_TMP, i.e. type. */
-      asm_guardcc(as, CC_NE);
-    }
-    emit_ai(as, PPCI_CMPWI, type, irt_toitype(irkey->t));
-  }
-  if (ra_hasreg(key)) emit_tai(as, PPCI_LWZ, key, idx, kofs+4);
-  emit_tai(as, PPCI_LWZ, type, idx, kofs);
-  if (ofs > 32736) {
-    emit_tai(as, PPCI_ADDIS, dest, dest, (ofs + 32768) >> 16);
-    emit_tai(as, PPCI_ADDI, dest, node, ofs);
-  }
-}
-
-static void asm_newref(ASMState *as, IRIns *ir)
-{
-  const CCallInfo *ci = &lj_ir_callinfo[IRCALL_lj_tab_newkey];
-  IRRef args[3];
-  if (ir->r == RID_SINK)
-    return;
-  args[0] = ASMREF_L;     /* lua_State *L */
-  args[1] = ir->op1;      /* GCtab *t     */
-  args[2] = ASMREF_TMP1;  /* cTValue *key */
-  asm_setupresult(as, ir, ci);  /* TValue * */
-  asm_gencall(as, ci, args);
-  asm_tvptr(as, ra_releasetmp(as, ASMREF_TMP1), ir->op2);
-}
-
-static void asm_uref(ASMState *as, IRIns *ir)
-{
-  /* NYI: Check that UREFO is still open and not aliasing a slot. */
-  Reg dest = ra_dest(as, ir, RSET_GPR);
-  if (irref_isk(ir->op1)) {
-    GCfunc *fn = ir_kfunc(IR(ir->op1));
-    MRef *v = &gcref(fn->l.uvptr[(ir->op2 >> 8)])->uv.v;
-    emit_lsptr(as, PPCI_LWZ, dest, v, RSET_GPR);
-  } else {
-    Reg uv = ra_scratch(as, RSET_GPR);
-    Reg func = ra_alloc1(as, ir->op1, RSET_GPR);
-    if (ir->o == IR_UREFC) {
-      asm_guardcc(as, CC_NE);
-      emit_ai(as, PPCI_CMPWI, RID_TMP, 1);
-      emit_tai(as, PPCI_ADDI, dest, uv, (int32_t)offsetof(GCupval, tv));
-      emit_tai(as, PPCI_LBZ, RID_TMP, uv, (int32_t)offsetof(GCupval, closed));
-    } else {
-      emit_tai(as, PPCI_LWZ, dest, uv, (int32_t)offsetof(GCupval, v));
-    }
-    emit_tai(as, PPCI_LWZ, uv, func,
-	     (int32_t)offsetof(GCfuncL, uvptr) + 4*(int32_t)(ir->op2 >> 8));
-  }
-}
-
-static void asm_fref(ASMState *as, IRIns *ir)
-{
-  UNUSED(as); UNUSED(ir);
-  lua_assert(!ra_used(ir));
-}
-
-static void asm_strref(ASMState *as, IRIns *ir)
-{
-  Reg dest = ra_dest(as, ir, RSET_GPR);
-  IRRef ref = ir->op2, refk = ir->op1;
-  int32_t ofs = (int32_t)sizeof(GCstr);
-  Reg r;
-  if (irref_isk(ref)) {
-    IRRef tmp = refk; refk = ref; ref = tmp;
-  } else if (!irref_isk(refk)) {
-    Reg right, left = ra_alloc1(as, ir->op1, RSET_GPR);
-    IRIns *irr = IR(ir->op2);
-    if (ra_hasreg(irr->r)) {
-      ra_noweak(as, irr->r);
-      right = irr->r;
-    } else if (mayfuse(as, irr->op2) &&
-	       irr->o == IR_ADD && irref_isk(irr->op2) &&
-	       checki16(ofs + IR(irr->op2)->i)) {
-      ofs += IR(irr->op2)->i;
-      right = ra_alloc1(as, irr->op1, rset_exclude(RSET_GPR, left));
-    } else {
-      right = ra_allocref(as, ir->op2, rset_exclude(RSET_GPR, left));
-    }
-    emit_tai(as, PPCI_ADDI, dest, dest, ofs);
-    emit_tab(as, PPCI_ADD, dest, left, right);
-    return;
-  }
-  r = ra_alloc1(as, ref, RSET_GPR);
-  ofs += IR(refk)->i;
-  if (checki16(ofs))
-    emit_tai(as, PPCI_ADDI, dest, r, ofs);
-  else
-    emit_tab(as, PPCI_ADD, dest, r,
-	     ra_allock(as, ofs, rset_exclude(RSET_GPR, r)));
-}
-
-/* -- Loads and stores ---------------------------------------------------- */
-
-static PPCIns asm_fxloadins(IRIns *ir)
-{
-  switch (irt_type(ir->t)) {
-  case IRT_I8: return PPCI_LBZ;  /* Needs sign-extension. */
-  case IRT_U8: return PPCI_LBZ;
-  case IRT_I16: return PPCI_LHA;
-  case IRT_U16: return PPCI_LHZ;
-  case IRT_NUM: return PPCI_LFD;
-  case IRT_FLOAT: return PPCI_LFS;
-  default: return PPCI_LWZ;
-  }
-}
-
-static PPCIns asm_fxstoreins(IRIns *ir)
-{
-  switch (irt_type(ir->t)) {
-  case IRT_I8: case IRT_U8: return PPCI_STB;
-  case IRT_I16: case IRT_U16: return PPCI_STH;
-  case IRT_NUM: return PPCI_STFD;
-  case IRT_FLOAT: return PPCI_STFS;
-  default: return PPCI_STW;
-  }
-}
-
-static void asm_fload(ASMState *as, IRIns *ir)
-{
-  Reg dest = ra_dest(as, ir, RSET_GPR);
-  Reg idx = ra_alloc1(as, ir->op1, RSET_GPR);
-  PPCIns pi = asm_fxloadins(ir);
-  int32_t ofs;
-  if (ir->op2 == IRFL_TAB_ARRAY) {
-    ofs = asm_fuseabase(as, ir->op1);
-    if (ofs) {  /* Turn the t->array load into an add for colocated arrays. */
-      emit_tai(as, PPCI_ADDI, dest, idx, ofs);
-      return;
-    }
-  }
-  ofs = field_ofs[ir->op2];
-  lua_assert(!irt_isi8(ir->t));
-  emit_tai(as, pi, dest, idx, ofs);
-}
-
-static void asm_fstore(ASMState *as, IRIns *ir)
-{
-  if (ir->r != RID_SINK) {
-    Reg src = ra_alloc1(as, ir->op2, RSET_GPR);
-    IRIns *irf = IR(ir->op1);
-    Reg idx = ra_alloc1(as, irf->op1, rset_exclude(RSET_GPR, src));
-    int32_t ofs = field_ofs[irf->op2];
-    PPCIns pi = asm_fxstoreins(ir);
-    emit_tai(as, pi, src, idx, ofs);
-  }
-}
-
-static void asm_xload(ASMState *as, IRIns *ir)
-{
-  Reg dest = ra_dest(as, ir, irt_isfp(ir->t) ? RSET_FPR : RSET_GPR);
-  lua_assert(!(ir->op2 & IRXLOAD_UNALIGNED));
-  if (irt_isi8(ir->t))
-    emit_as(as, PPCI_EXTSB, dest, dest);
-  asm_fusexref(as, asm_fxloadins(ir), dest, ir->op1, RSET_GPR, 0);
-}
-
-static void asm_xstore(ASMState *as, IRIns *ir, int32_t ofs)
-{
-  IRIns *irb;
-  if (ir->r == RID_SINK)
-    return;
-  if (ofs == 0 && mayfuse(as, ir->op2) && (irb = IR(ir->op2))->o == IR_BSWAP &&
-      ra_noreg(irb->r) && (irt_isint(ir->t) || irt_isu32(ir->t))) {
-    /* Fuse BSWAP with XSTORE to stwbrx. */
-    Reg src = ra_alloc1(as, irb->op1, RSET_GPR);
-    asm_fusexrefx(as, PPCI_STWBRX, src, ir->op1, rset_exclude(RSET_GPR, src));
-  } else {
-    Reg src = ra_alloc1(as, ir->op2, irt_isfp(ir->t) ? RSET_FPR : RSET_GPR);
-    asm_fusexref(as, asm_fxstoreins(ir), src, ir->op1,
-		 rset_exclude(RSET_GPR, src), ofs);
-  }
-}
-
-static void asm_ahuvload(ASMState *as, IRIns *ir)
-{
-  IRType1 t = ir->t;
-  Reg dest = RID_NONE, type = RID_TMP, tmp = RID_TMP, idx;
-  RegSet allow = RSET_GPR;
-  int32_t ofs = AHUREF_LSX;
-  if (ra_used(ir)) {
-    lua_assert(irt_isnum(t) || irt_isint(t) || irt_isaddr(t));
-    if (!irt_isnum(t)) ofs = 0;
-    dest = ra_dest(as, ir, irt_isnum(t) ? RSET_FPR : RSET_GPR);
-    rset_clear(allow, dest);
-  }
-  idx = asm_fuseahuref(as, ir->op1, &ofs, allow);
-  if (irt_isnum(t)) {
-    Reg tisnum = ra_allock(as, (int32_t)LJ_TISNUM, rset_exclude(allow, idx));
-    asm_guardcc(as, CC_GE);
-    emit_ab(as, PPCI_CMPLW, type, tisnum);
-    if (ra_hasreg(dest)) {
-      if (ofs == AHUREF_LSX) {
-	tmp = ra_scratch(as, rset_exclude(rset_exclude(RSET_GPR,
-						       (idx&255)), (idx>>8)));
-	emit_fab(as, PPCI_LFDX, dest, (idx&255), tmp);
-      } else {
-	emit_fai(as, PPCI_LFD, dest, idx, ofs);
-      }
-    }
-  } else {
-    asm_guardcc(as, CC_NE);
-    emit_ai(as, PPCI_CMPWI, type, irt_toitype(t));
-    if (ra_hasreg(dest)) emit_tai(as, PPCI_LWZ, dest, idx, ofs+4);
-  }
-  if (ofs == AHUREF_LSX) {
-    emit_tab(as, PPCI_LWZX, type, (idx&255), tmp);
-    emit_slwi(as, tmp, (idx>>8), 3);
-  } else {
-    emit_tai(as, PPCI_LWZ, type, idx, ofs);
-  }
-}
-
-static void asm_ahustore(ASMState *as, IRIns *ir)
-{
-  RegSet allow = RSET_GPR;
-  Reg idx, src = RID_NONE, type = RID_NONE;
-  int32_t ofs = AHUREF_LSX;
-  if (ir->r == RID_SINK)
-    return;
-  if (irt_isnum(ir->t)) {
-    src = ra_alloc1(as, ir->op2, RSET_FPR);
-  } else {
-    if (!irt_ispri(ir->t)) {
-      src = ra_alloc1(as, ir->op2, allow);
-      rset_clear(allow, src);
-      ofs = 0;
-    }
-    type = ra_allock(as, (int32_t)irt_toitype(ir->t), allow);
-    rset_clear(allow, type);
-  }
-  idx = asm_fuseahuref(as, ir->op1, &ofs, allow);
-  if (irt_isnum(ir->t)) {
-    if (ofs == AHUREF_LSX) {
-      emit_fab(as, PPCI_STFDX, src, (idx&255), RID_TMP);
-      emit_slwi(as, RID_TMP, (idx>>8), 3);
-    } else {
-      emit_fai(as, PPCI_STFD, src, idx, ofs);
-    }
-  } else {
-    if (ra_hasreg(src))
-      emit_tai(as, PPCI_STW, src, idx, ofs+4);
-    if (ofs == AHUREF_LSX) {
-      emit_tab(as, PPCI_STWX, type, (idx&255), RID_TMP);
-      emit_slwi(as, RID_TMP, (idx>>8), 3);
-    } else {
-      emit_tai(as, PPCI_STW, type, idx, ofs);
-    }
-  }
-}
-
-static void asm_sload(ASMState *as, IRIns *ir)
-{
-  int32_t ofs = 8*((int32_t)ir->op1-1) + ((ir->op2 & IRSLOAD_FRAME) ? 0 : 4);
-  IRType1 t = ir->t;
-  Reg dest = RID_NONE, type = RID_NONE, base;
-  RegSet allow = RSET_GPR;
-  lua_assert(!(ir->op2 & IRSLOAD_PARENT));  /* Handled by asm_head_side(). */
-  lua_assert(irt_isguard(t) || !(ir->op2 & IRSLOAD_TYPECHECK));
-  lua_assert(LJ_DUALNUM ||
-	     !irt_isint(t) || (ir->op2 & (IRSLOAD_CONVERT|IRSLOAD_FRAME)));
-  if ((ir->op2 & IRSLOAD_CONVERT) && irt_isguard(t) && irt_isint(t)) {
-    dest = ra_scratch(as, RSET_FPR);
-    asm_tointg(as, ir, dest);
-    t.irt = IRT_NUM;  /* Continue with a regular number type check. */
-  } else if (ra_used(ir)) {
-    lua_assert(irt_isnum(t) || irt_isint(t) || irt_isaddr(t));
-    dest = ra_dest(as, ir, irt_isnum(t) ? RSET_FPR : RSET_GPR);
-    rset_clear(allow, dest);
-    base = ra_alloc1(as, REF_BASE, allow);
-    rset_clear(allow, base);
-    if ((ir->op2 & IRSLOAD_CONVERT)) {
-      if (irt_isint(t)) {
-	emit_tai(as, PPCI_LWZ, dest, RID_SP, SPOFS_TMPLO);
-	dest = ra_scratch(as, RSET_FPR);
-	emit_fai(as, PPCI_STFD, dest, RID_SP, SPOFS_TMP);
-	emit_fb(as, PPCI_FCTIWZ, dest, dest);
-	t.irt = IRT_NUM;  /* Check for original type. */
-      } else {
-	Reg tmp = ra_scratch(as, allow);
-	Reg hibias = ra_allock(as, 0x43300000, rset_clear(allow, tmp));
-	Reg fbias = ra_scratch(as, rset_exclude(RSET_FPR, dest));
-	emit_fab(as, PPCI_FSUB, dest, dest, fbias);
-	emit_fai(as, PPCI_LFD, dest, RID_SP, SPOFS_TMP);
-	emit_lsptr(as, PPCI_LFS, (fbias & 31),
-		   (void *)lj_ir_k64_find(as->J, U64x(59800004,59800000)),
-		   rset_clear(allow, hibias));
-	emit_tai(as, PPCI_STW, tmp, RID_SP, SPOFS_TMPLO);
-	emit_tai(as, PPCI_STW, hibias, RID_SP, SPOFS_TMPHI);
-	emit_asi(as, PPCI_XORIS, tmp, tmp, 0x8000);
-	dest = tmp;
-	t.irt = IRT_INT;  /* Check for original type. */
-      }
-    }
-    goto dotypecheck;
-  }
-  base = ra_alloc1(as, REF_BASE, allow);
-  rset_clear(allow, base);
-dotypecheck:
-  if (irt_isnum(t)) {
-    if ((ir->op2 & IRSLOAD_TYPECHECK)) {
-      Reg tisnum = ra_allock(as, (int32_t)LJ_TISNUM, allow);
-      asm_guardcc(as, CC_GE);
-      emit_ab(as, PPCI_CMPLW, RID_TMP, tisnum);
-      type = RID_TMP;
-    }
-    if (ra_hasreg(dest)) emit_fai(as, PPCI_LFD, dest, base, ofs-4);
-  } else {
-    if ((ir->op2 & IRSLOAD_TYPECHECK)) {
-      asm_guardcc(as, CC_NE);
-      emit_ai(as, PPCI_CMPWI, RID_TMP, irt_toitype(t));
-      type = RID_TMP;
-    }
-    if (ra_hasreg(dest)) emit_tai(as, PPCI_LWZ, dest, base, ofs);
-  }
-  if (ra_hasreg(type)) emit_tai(as, PPCI_LWZ, type, base, ofs-4);
-}
-
-/* -- Allocations --------------------------------------------------------- */
-
-#if LJ_HASFFI
-static void asm_cnew(ASMState *as, IRIns *ir)
-{
-  CTState *cts = ctype_ctsG(J2G(as->J));
-  CTypeID ctypeid = (CTypeID)IR(ir->op1)->i;
-  CTSize sz = (ir->o == IR_CNEWI || ir->op2 == REF_NIL) ?
-	      lj_ctype_size(cts, ctypeid) : (CTSize)IR(ir->op2)->i;
-  const CCallInfo *ci = &lj_ir_callinfo[IRCALL_lj_mem_newgco];
-  IRRef args[2];
-  RegSet allow = (RSET_GPR & ~RSET_SCRATCH);
-  RegSet drop = RSET_SCRATCH;
-  lua_assert(sz != CTSIZE_INVALID);
-
-  args[0] = ASMREF_L;     /* lua_State *L */
-  args[1] = ASMREF_TMP1;  /* MSize size   */
-  as->gcsteps++;
-
-  if (ra_hasreg(ir->r))
-    rset_clear(drop, ir->r);  /* Dest reg handled below. */
-  ra_evictset(as, drop);
-  if (ra_used(ir))
-    ra_destreg(as, ir, RID_RET);  /* GCcdata * */
-
-  /* Initialize immutable cdata object. */
-  if (ir->o == IR_CNEWI) {
-    int32_t ofs = sizeof(GCcdata);
-    lua_assert(sz == 4 || sz == 8);
-    if (sz == 8) {
-      ofs += 4;
-      lua_assert((ir+1)->o == IR_HIOP);
-    }
-    for (;;) {
-      Reg r = ra_alloc1(as, ir->op2, allow);
-      emit_tai(as, PPCI_STW, r, RID_RET, ofs);
-      rset_clear(allow, r);
-      if (ofs == sizeof(GCcdata)) break;
-      ofs -= 4; ir++;
-    }
-  }
-  /* Initialize gct and ctypeid. lj_mem_newgco() already sets marked. */
-  emit_tai(as, PPCI_STB, RID_RET+1, RID_RET, offsetof(GCcdata, gct));
-  emit_tai(as, PPCI_STH, RID_TMP, RID_RET, offsetof(GCcdata, ctypeid));
-  emit_ti(as, PPCI_LI, RID_RET+1, ~LJ_TCDATA);
-  emit_ti(as, PPCI_LI, RID_TMP, ctypeid);  /* Lower 16 bit used. Sign-ext ok. */
-  asm_gencall(as, ci, args);
-  ra_allockreg(as, (int32_t)(sz+sizeof(GCcdata)),
-	       ra_releasetmp(as, ASMREF_TMP1));
-}
-#else
-#define asm_cnew(as, ir)	((void)0)
-#endif
-
-/* -- Write barriers ------------------------------------------------------ */
-
-static void asm_tbar(ASMState *as, IRIns *ir)
-{
-  Reg tab = ra_alloc1(as, ir->op1, RSET_GPR);
-  Reg mark = ra_scratch(as, rset_exclude(RSET_GPR, tab));
-  Reg link = RID_TMP;
-  MCLabel l_end = emit_label(as);
-  emit_tai(as, PPCI_STW, link, tab, (int32_t)offsetof(GCtab, gclist));
-  emit_tai(as, PPCI_STB, mark, tab, (int32_t)offsetof(GCtab, marked));
-  emit_setgl(as, tab, gc.grayagain);
-  lua_assert(LJ_GC_BLACK == 0x04);
-  emit_rot(as, PPCI_RLWINM, mark, mark, 0, 30, 28);  /* Clear black bit. */
-  emit_getgl(as, link, gc.grayagain);
-  emit_condbranch(as, PPCI_BC|PPCF_Y, CC_EQ, l_end);
-  emit_asi(as, PPCI_ANDIDOT, RID_TMP, mark, LJ_GC_BLACK);
-  emit_tai(as, PPCI_LBZ, mark, tab, (int32_t)offsetof(GCtab, marked));
-}
-
-static void asm_obar(ASMState *as, IRIns *ir)
-{
-  const CCallInfo *ci = &lj_ir_callinfo[IRCALL_lj_gc_barrieruv];
-  IRRef args[2];
-  MCLabel l_end;
-  Reg obj, val, tmp;
-  /* No need for other object barriers (yet). */
-  lua_assert(IR(ir->op1)->o == IR_UREFC);
-  ra_evictset(as, RSET_SCRATCH);
-  l_end = emit_label(as);
-  args[0] = ASMREF_TMP1;  /* global_State *g */
-  args[1] = ir->op1;      /* TValue *tv      */
-  asm_gencall(as, ci, args);
-  emit_tai(as, PPCI_ADDI, ra_releasetmp(as, ASMREF_TMP1), RID_JGL, -32768);
-  obj = IR(ir->op1)->r;
-  tmp = ra_scratch(as, rset_exclude(RSET_GPR, obj));
-  emit_condbranch(as, PPCI_BC|PPCF_Y, CC_EQ, l_end);
-  emit_asi(as, PPCI_ANDIDOT, tmp, tmp, LJ_GC_BLACK);
-  emit_condbranch(as, PPCI_BC, CC_EQ, l_end);
-  emit_asi(as, PPCI_ANDIDOT, RID_TMP, RID_TMP, LJ_GC_WHITES);
-  val = ra_alloc1(as, ir->op2, rset_exclude(RSET_GPR, obj));
-  emit_tai(as, PPCI_LBZ, tmp, obj,
-	   (int32_t)offsetof(GCupval, marked)-(int32_t)offsetof(GCupval, tv));
-  emit_tai(as, PPCI_LBZ, RID_TMP, val, (int32_t)offsetof(GChead, marked));
-}
-
-/* -- Arithmetic and logic operations ------------------------------------- */
-
-static void asm_fparith(ASMState *as, IRIns *ir, PPCIns pi)
-{
-  Reg dest = ra_dest(as, ir, RSET_FPR);
-  Reg right, left = ra_alloc2(as, ir, RSET_FPR);
-  right = (left >> 8); left &= 255;
-  if (pi == PPCI_FMUL)
-    emit_fac(as, pi, dest, left, right);
-  else
-    emit_fab(as, pi, dest, left, right);
-}
-
-static void asm_fpunary(ASMState *as, IRIns *ir, PPCIns pi)
-{
-  Reg dest = ra_dest(as, ir, RSET_FPR);
-  Reg left = ra_hintalloc(as, ir->op1, dest, RSET_FPR);
-  emit_fb(as, pi, dest, left);
-}
-
-static int asm_fpjoin_pow(ASMState *as, IRIns *ir)
-{
-  IRIns *irp = IR(ir->op1);
-  if (irp == ir-1 && irp->o == IR_MUL && !ra_used(irp)) {
-    IRIns *irpp = IR(irp->op1);
-    if (irpp == ir-2 && irpp->o == IR_FPMATH &&
-	irpp->op2 == IRFPM_LOG2 && !ra_used(irpp)) {
-      const CCallInfo *ci = &lj_ir_callinfo[IRCALL_pow];
-      IRRef args[2];
-      args[0] = irpp->op1;
-      args[1] = irp->op2;
-      asm_setupresult(as, ir, ci);
-      asm_gencall(as, ci, args);
-      return 1;
-    }
-  }
-  return 0;
-}
-
-static void asm_add(ASMState *as, IRIns *ir)
-{
-  if (irt_isnum(ir->t)) {
-    if (!asm_fusemadd(as, ir, PPCI_FMADD, PPCI_FMADD))
-      asm_fparith(as, ir, PPCI_FADD);
-  } else {
-    Reg dest = ra_dest(as, ir, RSET_GPR);
-    Reg right, left = ra_hintalloc(as, ir->op1, dest, RSET_GPR);
-    PPCIns pi;
-    if (irref_isk(ir->op2)) {
-      int32_t k = IR(ir->op2)->i;
-      if (checki16(k)) {
-	pi = PPCI_ADDI;
-	/* May fail due to spills/restores above, but simplifies the logic. */
-	if (as->flagmcp == as->mcp) {
-	  as->flagmcp = NULL;
-	  as->mcp++;
-	  pi = PPCI_ADDICDOT;
-	}
-	emit_tai(as, pi, dest, left, k);
-	return;
-      } else if ((k & 0xffff) == 0) {
-	emit_tai(as, PPCI_ADDIS, dest, left, (k >> 16));
-	return;
-      } else if (!as->sectref) {
-	emit_tai(as, PPCI_ADDIS, dest, dest, (k + 32768) >> 16);
-	emit_tai(as, PPCI_ADDI, dest, left, k);
-	return;
-      }
-    }
-    pi = PPCI_ADD;
-    /* May fail due to spills/restores above, but simplifies the logic. */
-    if (as->flagmcp == as->mcp) {
-      as->flagmcp = NULL;
-      as->mcp++;
-      pi |= PPCF_DOT;
-    }
-    right = ra_alloc1(as, ir->op2, rset_exclude(RSET_GPR, left));
-    emit_tab(as, pi, dest, left, right);
-  }
-}
-
-static void asm_sub(ASMState *as, IRIns *ir)
-{
-  if (irt_isnum(ir->t)) {
-    if (!asm_fusemadd(as, ir, PPCI_FMSUB, PPCI_FNMSUB))
-      asm_fparith(as, ir, PPCI_FSUB);
-  } else {
-    PPCIns pi = PPCI_SUBF;
-    Reg dest = ra_dest(as, ir, RSET_GPR);
-    Reg left, right;
-    if (irref_isk(ir->op1)) {
-      int32_t k = IR(ir->op1)->i;
-      if (checki16(k)) {
-	right = ra_alloc1(as, ir->op2, RSET_GPR);
-	emit_tai(as, PPCI_SUBFIC, dest, right, k);
-	return;
-      }
-    }
-    /* May fail due to spills/restores above, but simplifies the logic. */
-    if (as->flagmcp == as->mcp) {
-      as->flagmcp = NULL;
-      as->mcp++;
-      pi |= PPCF_DOT;
-    }
-    left = ra_hintalloc(as, ir->op1, dest, RSET_GPR);
-    right = ra_alloc1(as, ir->op2, rset_exclude(RSET_GPR, left));
-    emit_tab(as, pi, dest, right, left);  /* Subtract right _from_ left. */
-  }
-}
-
-static void asm_mul(ASMState *as, IRIns *ir)
-{
-  if (irt_isnum(ir->t)) {
-    asm_fparith(as, ir, PPCI_FMUL);
-  } else {
-    PPCIns pi = PPCI_MULLW;
-    Reg dest = ra_dest(as, ir, RSET_GPR);
-    Reg right, left = ra_hintalloc(as, ir->op1, dest, RSET_GPR);
-    if (irref_isk(ir->op2)) {
-      int32_t k = IR(ir->op2)->i;
-      if (checki16(k)) {
-	emit_tai(as, PPCI_MULLI, dest, left, k);
-	return;
-      }
-    }
-    /* May fail due to spills/restores above, but simplifies the logic. */
-    if (as->flagmcp == as->mcp) {
-      as->flagmcp = NULL;
-      as->mcp++;
-      pi |= PPCF_DOT;
-    }
-    right = ra_alloc1(as, ir->op2, rset_exclude(RSET_GPR, left));
-    emit_tab(as, pi, dest, left, right);
-  }
-}
-
-static void asm_neg(ASMState *as, IRIns *ir)
-{
-  if (irt_isnum(ir->t)) {
-    asm_fpunary(as, ir, PPCI_FNEG);
-  } else {
-    Reg dest, left;
-    PPCIns pi = PPCI_NEG;
-    if (as->flagmcp == as->mcp) {
-      as->flagmcp = NULL;
-      as->mcp++;
-      pi |= PPCF_DOT;
-    }
-    dest = ra_dest(as, ir, RSET_GPR);
-    left = ra_hintalloc(as, ir->op1, dest, RSET_GPR);
-    emit_tab(as, pi, dest, left, 0);
-  }
-}
-
-static void asm_arithov(ASMState *as, IRIns *ir, PPCIns pi)
-{
-  Reg dest, left, right;
-  if (as->flagmcp == as->mcp) {
-    as->flagmcp = NULL;
-    as->mcp++;
-  }
-  asm_guardcc(as, CC_SO);
-  dest = ra_dest(as, ir, RSET_GPR);
-  left = ra_alloc2(as, ir, RSET_GPR);
-  right = (left >> 8); left &= 255;
-  if (pi == PPCI_SUBFO) { Reg tmp = left; left = right; right = tmp; }
-  emit_tab(as, pi|PPCF_DOT, dest, left, right);
-}
-
-#if LJ_HASFFI
-static void asm_add64(ASMState *as, IRIns *ir)
-{
-  Reg dest = ra_dest(as, ir, RSET_GPR);
-  Reg right, left = ra_alloc1(as, ir->op1, RSET_GPR);
-  PPCIns pi = PPCI_ADDE;
-  if (irref_isk(ir->op2)) {
-    int32_t k = IR(ir->op2)->i;
-    if (k == 0)
-      pi = PPCI_ADDZE;
-    else if (k == -1)
-      pi = PPCI_ADDME;
-    else
-      goto needright;
-    right = 0;
-  } else {
-  needright:
-    right = ra_alloc1(as, ir->op2, rset_exclude(RSET_GPR, left));
-  }
-  emit_tab(as, pi, dest, left, right);
-  ir--;
-  dest = ra_dest(as, ir, RSET_GPR);
-  left = ra_alloc1(as, ir->op1, RSET_GPR);
-  if (irref_isk(ir->op2)) {
-    int32_t k = IR(ir->op2)->i;
-    if (checki16(k)) {
-      emit_tai(as, PPCI_ADDIC, dest, left, k);
-      return;
-    }
-  }
-  right = ra_alloc1(as, ir->op2, rset_exclude(RSET_GPR, left));
-  emit_tab(as, PPCI_ADDC, dest, left, right);
-}
-
-static void asm_sub64(ASMState *as, IRIns *ir)
-{
-  Reg dest = ra_dest(as, ir, RSET_GPR);
-  Reg left, right = ra_alloc1(as, ir->op2, RSET_GPR);
-  PPCIns pi = PPCI_SUBFE;
-  if (irref_isk(ir->op1)) {
-    int32_t k = IR(ir->op1)->i;
-    if (k == 0)
-      pi = PPCI_SUBFZE;
-    else if (k == -1)
-      pi = PPCI_SUBFME;
-    else
-      goto needleft;
-    left = 0;
-  } else {
-  needleft:
-    left = ra_alloc1(as, ir->op1, rset_exclude(RSET_GPR, right));
-  }
-  emit_tab(as, pi, dest, right, left);  /* Subtract right _from_ left. */
-  ir--;
-  dest = ra_dest(as, ir, RSET_GPR);
-  right = ra_alloc1(as, ir->op2, RSET_GPR);
-  if (irref_isk(ir->op1)) {
-    int32_t k = IR(ir->op1)->i;
-    if (checki16(k)) {
-      emit_tai(as, PPCI_SUBFIC, dest, right, k);
-      return;
-    }
-  }
-  left = ra_alloc1(as, ir->op1, rset_exclude(RSET_GPR, right));
-  emit_tab(as, PPCI_SUBFC, dest, right, left);
-}
-
-static void asm_neg64(ASMState *as, IRIns *ir)
-{
-  Reg dest = ra_dest(as, ir, RSET_GPR);
-  Reg left = ra_alloc1(as, ir->op1, RSET_GPR);
-  emit_tab(as, PPCI_SUBFZE, dest, left, 0);
-  ir--;
-  dest = ra_dest(as, ir, RSET_GPR);
-  left = ra_alloc1(as, ir->op1, RSET_GPR);
-  emit_tai(as, PPCI_SUBFIC, dest, left, 0);
-}
-#endif
-
-static void asm_bitnot(ASMState *as, IRIns *ir)
-{
-  Reg dest, left, right;
-  PPCIns pi = PPCI_NOR;
-  if (as->flagmcp == as->mcp) {
-    as->flagmcp = NULL;
-    as->mcp++;
-    pi |= PPCF_DOT;
-  }
-  dest = ra_dest(as, ir, RSET_GPR);
-  if (mayfuse(as, ir->op1)) {
-    IRIns *irl = IR(ir->op1);
-    if (irl->o == IR_BAND)
-      pi ^= (PPCI_NOR ^ PPCI_NAND);
-    else if (irl->o == IR_BXOR)
-      pi ^= (PPCI_NOR ^ PPCI_EQV);
-    else if (irl->o != IR_BOR)
-      goto nofuse;
-    left = ra_hintalloc(as, irl->op1, dest, RSET_GPR);
-    right = ra_alloc1(as, irl->op2, rset_exclude(RSET_GPR, left));
-  } else {
-nofuse:
-    left = right = ra_hintalloc(as, ir->op1, dest, RSET_GPR);
-  }
-  emit_asb(as, pi, dest, left, right);
-}
-
-static void asm_bitswap(ASMState *as, IRIns *ir)
-{
-  Reg dest = ra_dest(as, ir, RSET_GPR);
-  IRIns *irx;
-  if (mayfuse(as, ir->op1) && (irx = IR(ir->op1))->o == IR_XLOAD &&
-      ra_noreg(irx->r) && (irt_isint(irx->t) || irt_isu32(irx->t))) {
-    /* Fuse BSWAP with XLOAD to lwbrx. */
-    asm_fusexrefx(as, PPCI_LWBRX, dest, irx->op1, RSET_GPR);
-  } else {
-    Reg left = ra_alloc1(as, ir->op1, RSET_GPR);
-    Reg tmp = dest;
-    if (tmp == left) {
-      tmp = RID_TMP;
-      emit_mr(as, dest, RID_TMP);
-    }
-    emit_rot(as, PPCI_RLWIMI, tmp, left, 24, 16, 23);
-    emit_rot(as, PPCI_RLWIMI, tmp, left, 24, 0, 7);
-    emit_rotlwi(as, tmp, left, 8);
-  }
-}
-
-static void asm_bitop(ASMState *as, IRIns *ir, PPCIns pi, PPCIns pik)
-{
-  Reg dest = ra_dest(as, ir, RSET_GPR);
-  Reg right, left = ra_hintalloc(as, ir->op1, dest, RSET_GPR);
-  if (irref_isk(ir->op2)) {
-    int32_t k = IR(ir->op2)->i;
-    Reg tmp = left;
-    if ((checku16(k) || (k & 0xffff) == 0) || (tmp = dest, !as->sectref)) {
-      if (!checku16(k)) {
-	emit_asi(as, pik ^ (PPCI_ORI ^ PPCI_ORIS), dest, tmp, (k >> 16));
-	if ((k & 0xffff) == 0) return;
-      }
-      emit_asi(as, pik, dest, left, k);
-      return;
-    }
-  }
-  /* May fail due to spills/restores above, but simplifies the logic. */
-  if (as->flagmcp == as->mcp) {
-    as->flagmcp = NULL;
-    as->mcp++;
-    pi |= PPCF_DOT;
-  }
-  right = ra_alloc1(as, ir->op2, rset_exclude(RSET_GPR, left));
-  emit_asb(as, pi, dest, left, right);
-}
-
-/* Fuse BAND with contiguous bitmask and a shift to rlwinm. */
-static void asm_fuseandsh(ASMState *as, PPCIns pi, int32_t mask, IRRef ref)
-{
-  IRIns *ir;
-  Reg left;
-  if (mayfuse(as, ref) && (ir = IR(ref), ra_noreg(ir->r)) &&
-      irref_isk(ir->op2) && ir->o >= IR_BSHL && ir->o <= IR_BROR) {
-    int32_t sh = (IR(ir->op2)->i & 31);
-    switch (ir->o) {
-    case IR_BSHL:
-      if ((mask & ((1u<<sh)-1))) goto nofuse;
-      break;
-    case IR_BSHR:
-      if ((mask & ~((~0u)>>sh))) goto nofuse;
-      sh = ((32-sh)&31);
-      break;
-    case IR_BROL:
-      break;
-    default:
-      goto nofuse;
-    }
-    left = ra_alloc1(as, ir->op1, RSET_GPR);
-    *--as->mcp = pi | PPCF_T(left) | PPCF_B(sh);
-    return;
-  }
-nofuse:
-  left = ra_alloc1(as, ref, RSET_GPR);
-  *--as->mcp = pi | PPCF_T(left);
-}
-
-static void asm_bitand(ASMState *as, IRIns *ir)
-{
-  Reg dest, left, right;
-  IRRef lref = ir->op1;
-  PPCIns dot = 0;
-  IRRef op2;
-  if (as->flagmcp == as->mcp) {
-    as->flagmcp = NULL;
-    as->mcp++;
-    dot = PPCF_DOT;
-  }
-  dest = ra_dest(as, ir, RSET_GPR);
-  if (irref_isk(ir->op2)) {
-    int32_t k = IR(ir->op2)->i;
-    if (k) {
-      /* First check for a contiguous bitmask as used by rlwinm. */
-      uint32_t s1 = lj_ffs((uint32_t)k);
-      uint32_t k1 = ((uint32_t)k >> s1);
-      if ((k1 & (k1+1)) == 0) {
-	asm_fuseandsh(as, PPCI_RLWINM|dot | PPCF_A(dest) |
-			  PPCF_MB(31-lj_fls((uint32_t)k)) | PPCF_ME(31-s1),
-			  k, lref);
-	return;
-      }
-      if (~(uint32_t)k) {
-	uint32_t s2 = lj_ffs(~(uint32_t)k);
-	uint32_t k2 = (~(uint32_t)k >> s2);
-	if ((k2 & (k2+1)) == 0) {
-	  asm_fuseandsh(as, PPCI_RLWINM|dot | PPCF_A(dest) |
-			    PPCF_MB(32-s2) | PPCF_ME(30-lj_fls(~(uint32_t)k)),
-			    k, lref);
-	  return;
-	}
-      }
-    }
-    if (checku16(k)) {
-      left = ra_alloc1(as, lref, RSET_GPR);
-      emit_asi(as, PPCI_ANDIDOT, dest, left, k);
-      return;
-    } else if ((k & 0xffff) == 0) {
-      left = ra_alloc1(as, lref, RSET_GPR);
-      emit_asi(as, PPCI_ANDISDOT, dest, left, (k >> 16));
-      return;
-    }
-  }
-  op2 = ir->op2;
-  if (mayfuse(as, op2) && IR(op2)->o == IR_BNOT && ra_noreg(IR(op2)->r)) {
-    dot ^= (PPCI_AND ^ PPCI_ANDC);
-    op2 = IR(op2)->op1;
-  }
-  left = ra_hintalloc(as, lref, dest, RSET_GPR);
-  right = ra_alloc1(as, op2, rset_exclude(RSET_GPR, left));
-  emit_asb(as, PPCI_AND ^ dot, dest, left, right);
-}
-
-static void asm_bitshift(ASMState *as, IRIns *ir, PPCIns pi, PPCIns pik)
-{
-  Reg dest, left;
-  Reg dot = 0;
-  if (as->flagmcp == as->mcp) {
-    as->flagmcp = NULL;
-    as->mcp++;
-    dot = PPCF_DOT;
-  }
-  dest = ra_dest(as, ir, RSET_GPR);
-  left = ra_alloc1(as, ir->op1, RSET_GPR);
-  if (irref_isk(ir->op2)) {  /* Constant shifts. */
-    int32_t shift = (IR(ir->op2)->i & 31);
-    if (pik == 0)  /* SLWI */
-      emit_rot(as, PPCI_RLWINM|dot, dest, left, shift, 0, 31-shift);
-    else if (pik == 1)  /* SRWI */
-      emit_rot(as, PPCI_RLWINM|dot, dest, left, (32-shift)&31, shift, 31);
-    else
-      emit_asb(as, pik|dot, dest, left, shift);
-  } else {
-    Reg right = ra_alloc1(as, ir->op2, rset_exclude(RSET_GPR, left));
-    emit_asb(as, pi|dot, dest, left, right);
-  }
-}
-
-static void asm_min_max(ASMState *as, IRIns *ir, int ismax)
-{
-  if (irt_isnum(ir->t)) {
-    Reg dest = ra_dest(as, ir, RSET_FPR);
-    Reg tmp = dest;
-    Reg right, left = ra_alloc2(as, ir, RSET_FPR);
-    right = (left >> 8); left &= 255;
-    if (tmp == left || tmp == right)
-      tmp = ra_scratch(as, rset_exclude(rset_exclude(rset_exclude(RSET_FPR,
-					dest), left), right));
-    emit_facb(as, PPCI_FSEL, dest, tmp,
-	      ismax ? left : right, ismax ? right : left);
-    emit_fab(as, PPCI_FSUB, tmp, left, right);
-  } else {
-    Reg dest = ra_dest(as, ir, RSET_GPR);
-    Reg tmp1 = RID_TMP, tmp2 = dest;
-    Reg right, left = ra_alloc2(as, ir, RSET_GPR);
-    right = (left >> 8); left &= 255;
-    if (tmp2 == left || tmp2 == right)
-      tmp2 = ra_scratch(as, rset_exclude(rset_exclude(rset_exclude(RSET_GPR,
-					 dest), left), right));
-    emit_tab(as, PPCI_ADD, dest, tmp2, right);
-    emit_asb(as, ismax ? PPCI_ANDC : PPCI_AND, tmp2, tmp2, tmp1);
-    emit_tab(as, PPCI_SUBFE, tmp1, tmp1, tmp1);
-    emit_tab(as, PPCI_SUBFC, tmp2, tmp2, tmp1);
-    emit_asi(as, PPCI_XORIS, tmp2, right, 0x8000);
-    emit_asi(as, PPCI_XORIS, tmp1, left, 0x8000);
-  }
-}
-
-/* -- Comparisons --------------------------------------------------------- */
-
-#define CC_UNSIGNED	0x08	/* Unsigned integer comparison. */
-#define CC_TWO		0x80	/* Check two flags for FP comparison. */
-
-/* Map of comparisons to flags. ORDER IR. */
-static const uint8_t asm_compmap[IR_ABC+1] = {
-  /* op     int cc                 FP cc */
-  /* LT  */ CC_GE               + (CC_GE<<4),
-  /* GE  */ CC_LT               + (CC_LE<<4) + CC_TWO,
-  /* LE  */ CC_GT               + (CC_GE<<4) + CC_TWO,
-  /* GT  */ CC_LE               + (CC_LE<<4),
-  /* ULT */ CC_GE + CC_UNSIGNED + (CC_GT<<4) + CC_TWO,
-  /* UGE */ CC_LT + CC_UNSIGNED + (CC_LT<<4),
-  /* ULE */ CC_GT + CC_UNSIGNED + (CC_GT<<4),
-  /* UGT */ CC_LE + CC_UNSIGNED + (CC_LT<<4) + CC_TWO,
-  /* EQ  */ CC_NE               + (CC_NE<<4),
-  /* NE  */ CC_EQ               + (CC_EQ<<4),
-  /* ABC */ CC_LE + CC_UNSIGNED + (CC_LT<<4) + CC_TWO  /* Same as UGT. */
-};
-
-static void asm_intcomp_(ASMState *as, IRRef lref, IRRef rref, Reg cr, PPCCC cc)
-{
-  Reg right, left = ra_alloc1(as, lref, RSET_GPR);
-  if (irref_isk(rref)) {
-    int32_t k = IR(rref)->i;
-    if ((cc & CC_UNSIGNED) == 0) {  /* Signed comparison with constant. */
-      if (checki16(k)) {
-	emit_tai(as, PPCI_CMPWI, cr, left, k);
-	/* Signed comparison with zero and referencing previous ins? */
-	if (k == 0 && lref == as->curins-1)
-	  as->flagmcp = as->mcp;  /* Allow elimination of the compare. */
-	return;
-      } else if ((cc & 3) == (CC_EQ & 3)) {  /* Use CMPLWI for EQ or NE. */
-	if (checku16(k)) {
-	  emit_tai(as, PPCI_CMPLWI, cr, left, k);
-	  return;
-	} else if (!as->sectref && ra_noreg(IR(rref)->r)) {
-	  emit_tai(as, PPCI_CMPLWI, cr, RID_TMP, k);
-	  emit_asi(as, PPCI_XORIS, RID_TMP, left, (k >> 16));
-	  return;
-	}
-      }
-    } else {  /* Unsigned comparison with constant. */
-      if (checku16(k)) {
-	emit_tai(as, PPCI_CMPLWI, cr, left, k);
-	return;
-      }
-    }
-  }
-  right = ra_alloc1(as, rref, rset_exclude(RSET_GPR, left));
-  emit_tab(as, (cc & CC_UNSIGNED) ? PPCI_CMPLW : PPCI_CMPW, cr, left, right);
-}
-
-static void asm_comp(ASMState *as, IRIns *ir)
-{
-  PPCCC cc = asm_compmap[ir->o];
-  if (irt_isnum(ir->t)) {
-    Reg right, left = ra_alloc2(as, ir, RSET_FPR);
-    right = (left >> 8); left &= 255;
-    asm_guardcc(as, (cc >> 4));
-    if ((cc & CC_TWO))
-      emit_tab(as, PPCI_CROR, ((cc>>4)&3), ((cc>>4)&3), (CC_EQ&3));
-    emit_fab(as, PPCI_FCMPU, 0, left, right);
-  } else {
-    IRRef lref = ir->op1, rref = ir->op2;
-    if (irref_isk(lref) && !irref_isk(rref)) {
-      /* Swap constants to the right (only for ABC). */
-      IRRef tmp = lref; lref = rref; rref = tmp;
-      if ((cc & 2) == 0) cc ^= 1;  /* LT <-> GT, LE <-> GE */
-    }
-    asm_guardcc(as, cc);
-    asm_intcomp_(as, lref, rref, 0, cc);
-  }
-}
-
-#if LJ_HASFFI
-/* 64 bit integer comparisons. */
-static void asm_comp64(ASMState *as, IRIns *ir)
-{
-  PPCCC cc = asm_compmap[(ir-1)->o];
-  if ((cc&3) == (CC_EQ&3)) {
-    asm_guardcc(as, cc);
-    emit_tab(as, (cc&4) ? PPCI_CRAND : PPCI_CROR,
-	     (CC_EQ&3), (CC_EQ&3), 4+(CC_EQ&3));
-  } else {
-    asm_guardcc(as, CC_EQ);
-    emit_tab(as, PPCI_CROR, (CC_EQ&3), (CC_EQ&3), ((cc^~(cc>>2))&1));
-    emit_tab(as, (cc&4) ? PPCI_CRAND : PPCI_CRANDC,
-	     (CC_EQ&3), (CC_EQ&3), 4+(cc&3));
-  }
-  /* Loword comparison sets cr1 and is unsigned, except for equality. */
-  asm_intcomp_(as, (ir-1)->op1, (ir-1)->op2, 4,
-	       cc | ((cc&3) == (CC_EQ&3) ? 0 : CC_UNSIGNED));
-  /* Hiword comparison sets cr0. */
-  asm_intcomp_(as, ir->op1, ir->op2, 0, cc);
-  as->flagmcp = NULL;  /* Doesn't work here. */
-}
-#endif
-
-/* -- Support for 64 bit ops in 32 bit mode ------------------------------- */
-
-/* Hiword op of a split 64 bit op. Previous op must be the loword op. */
-static void asm_hiop(ASMState *as, IRIns *ir)
-{
-#if LJ_HASFFI
-  /* HIOP is marked as a store because it needs its own DCE logic. */
-  int uselo = ra_used(ir-1), usehi = ra_used(ir);  /* Loword/hiword used? */
-  if (LJ_UNLIKELY(!(as->flags & JIT_F_OPT_DCE))) uselo = usehi = 1;
-  if ((ir-1)->o == IR_CONV) {  /* Conversions to/from 64 bit. */
-    as->curins--;  /* Always skip the CONV. */
-    if (usehi || uselo)
-      asm_conv64(as, ir);
-    return;
-  } else if ((ir-1)->o <= IR_NE) {  /* 64 bit integer comparisons. ORDER IR. */
-    as->curins--;  /* Always skip the loword comparison. */
-    asm_comp64(as, ir);
-    return;
-  } else if ((ir-1)->o == IR_XSTORE) {
-    as->curins--;  /* Handle both stores here. */
-    if ((ir-1)->r != RID_SINK) {
-      asm_xstore(as, ir, 0);
-      asm_xstore(as, ir-1, 4);
-    }
-    return;
-  }
-  if (!usehi) return;  /* Skip unused hiword op for all remaining ops. */
-  switch ((ir-1)->o) {
-  case IR_ADD: as->curins--; asm_add64(as, ir); break;
-  case IR_SUB: as->curins--; asm_sub64(as, ir); break;
-  case IR_NEG: as->curins--; asm_neg64(as, ir); break;
-  case IR_CALLN:
-  case IR_CALLXS:
-    if (!uselo)
-      ra_allocref(as, ir->op1, RID2RSET(RID_RETLO));  /* Mark lo op as used. */
-    break;
-  case IR_CNEWI:
-    /* Nothing to do here. Handled by lo op itself. */
-    break;
-  default: lua_assert(0); break;
-  }
-#else
-  UNUSED(as); UNUSED(ir); lua_assert(0);  /* Unused without FFI. */
-#endif
-}
-
-/* -- Stack handling ------------------------------------------------------ */
-
-/* Check Lua stack size for overflow. Use exit handler as fallback. */
-static void asm_stack_check(ASMState *as, BCReg topslot,
-			    IRIns *irp, RegSet allow, ExitNo exitno)
-{
-  /* Try to get an unused temp. register, otherwise spill/restore RID_RET*. */
-  Reg tmp, pbase = irp ? (ra_hasreg(irp->r) ? irp->r : RID_TMP) : RID_BASE;
-  rset_clear(allow, pbase);
-  tmp = allow ? rset_pickbot(allow) :
-		(pbase == RID_RETHI ? RID_RETLO : RID_RETHI);
-  emit_condbranch(as, PPCI_BC, CC_LT, asm_exitstub_addr(as, exitno));
-  if (allow == RSET_EMPTY)  /* Restore temp. register. */
-    emit_tai(as, PPCI_LWZ, tmp, RID_SP, SPOFS_TMPW);
-  else
-    ra_modified(as, tmp);
-  emit_ai(as, PPCI_CMPLWI, RID_TMP, (int32_t)(8*topslot));
-  emit_tab(as, PPCI_SUBF, RID_TMP, pbase, tmp);
-  emit_tai(as, PPCI_LWZ, tmp, tmp, offsetof(lua_State, maxstack));
-  if (pbase == RID_TMP)
-    emit_getgl(as, RID_TMP, jit_base);
-  emit_getgl(as, tmp, jit_L);
-  if (allow == RSET_EMPTY)  /* Spill temp. register. */
-    emit_tai(as, PPCI_STW, tmp, RID_SP, SPOFS_TMPW);
-}
-
-/* Restore Lua stack from on-trace state. */
-static void asm_stack_restore(ASMState *as, SnapShot *snap)
-{
-  SnapEntry *map = &as->T->snapmap[snap->mapofs];
-  SnapEntry *flinks = &as->T->snapmap[snap_nextofs(as->T, snap)-1];
-  MSize n, nent = snap->nent;
-  /* Store the value of all modified slots to the Lua stack. */
-  for (n = 0; n < nent; n++) {
-    SnapEntry sn = map[n];
-    BCReg s = snap_slot(sn);
-    int32_t ofs = 8*((int32_t)s-1);
-    IRRef ref = snap_ref(sn);
-    IRIns *ir = IR(ref);
-    if ((sn & SNAP_NORESTORE))
-      continue;
-    if (irt_isnum(ir->t)) {
-      Reg src = ra_alloc1(as, ref, RSET_FPR);
-      emit_fai(as, PPCI_STFD, src, RID_BASE, ofs);
-    } else {
-      Reg type;
-      RegSet allow = rset_exclude(RSET_GPR, RID_BASE);
-      lua_assert(irt_ispri(ir->t) || irt_isaddr(ir->t) || irt_isinteger(ir->t));
-      if (!irt_ispri(ir->t)) {
-	Reg src = ra_alloc1(as, ref, allow);
-	rset_clear(allow, src);
-	emit_tai(as, PPCI_STW, src, RID_BASE, ofs+4);
-      }
-      if ((sn & (SNAP_CONT|SNAP_FRAME))) {
-	if (s == 0) continue;  /* Do not overwrite link to previous frame. */
-	type = ra_allock(as, (int32_t)(*flinks--), allow);
-      } else {
-	type = ra_allock(as, (int32_t)irt_toitype(ir->t), allow);
-      }
-      emit_tai(as, PPCI_STW, type, RID_BASE, ofs);
-    }
-    checkmclim(as);
-  }
-  lua_assert(map + nent == flinks);
-}
-
-/* -- GC handling --------------------------------------------------------- */
-
-/* Check GC threshold and do one or more GC steps. */
-static void asm_gc_check(ASMState *as)
-{
-  const CCallInfo *ci = &lj_ir_callinfo[IRCALL_lj_gc_step_jit];
-  IRRef args[2];
-  MCLabel l_end;
-  Reg tmp;
-  ra_evictset(as, RSET_SCRATCH);
-  l_end = emit_label(as);
-  /* Exit trace if in GCSatomic or GCSfinalize. Avoids syncing GC objects. */
-  asm_guardcc(as, CC_NE);  /* Assumes asm_snap_prep() already done. */
-  emit_ai(as, PPCI_CMPWI, RID_RET, 0);
-  args[0] = ASMREF_TMP1;  /* global_State *g */
-  args[1] = ASMREF_TMP2;  /* MSize steps     */
-  asm_gencall(as, ci, args);
-  emit_tai(as, PPCI_ADDI, ra_releasetmp(as, ASMREF_TMP1), RID_JGL, -32768);
-  tmp = ra_releasetmp(as, ASMREF_TMP2);
-  emit_loadi(as, tmp, as->gcsteps);
-  /* Jump around GC step if GC total < GC threshold. */
-  emit_condbranch(as, PPCI_BC|PPCF_Y, CC_LT, l_end);
-  emit_ab(as, PPCI_CMPLW, RID_TMP, tmp);
-  emit_getgl(as, tmp, gc.threshold);
-  emit_getgl(as, RID_TMP, gc.total);
-  as->gcsteps = 0;
-  checkmclim(as);
-}
-
-/* -- Loop handling ------------------------------------------------------- */
-
-/* Fixup the loop branch. */
-static void asm_loop_fixup(ASMState *as)
-{
-  MCode *p = as->mctop;
-  MCode *target = as->mcp;
-  if (as->loopinv) {  /* Inverted loop branch? */
-    /* asm_guardcc already inverted the cond branch and patched the final b. */
-    p[-2] = (p[-2] & (0xffff0000u & ~PPCF_Y)) | (((target-p+2) & 0x3fffu) << 2);
-  } else {
-    p[-1] = PPCI_B|(((target-p+1)&0x00ffffffu)<<2);
-  }
-}
-
-/* -- Head of trace ------------------------------------------------------- */
-
-/* Coalesce BASE register for a root trace. */
-static void asm_head_root_base(ASMState *as)
-{
-  IRIns *ir = IR(REF_BASE);
-  Reg r = ir->r;
-  if (ra_hasreg(r)) {
-    ra_free(as, r);
-    if (rset_test(as->modset, r) || irt_ismarked(ir->t))
-      ir->r = RID_INIT;  /* No inheritance for modified BASE register. */
-    if (r != RID_BASE)
-      emit_mr(as, r, RID_BASE);
-  }
-}
-
-/* Coalesce BASE register for a side trace. */
-static RegSet asm_head_side_base(ASMState *as, IRIns *irp, RegSet allow)
-{
-  IRIns *ir = IR(REF_BASE);
-  Reg r = ir->r;
-  if (ra_hasreg(r)) {
-    ra_free(as, r);
-    if (rset_test(as->modset, r) || irt_ismarked(ir->t))
-      ir->r = RID_INIT;  /* No inheritance for modified BASE register. */
-    if (irp->r == r) {
-      rset_clear(allow, r);  /* Mark same BASE register as coalesced. */
-    } else if (ra_hasreg(irp->r) && rset_test(as->freeset, irp->r)) {
-      rset_clear(allow, irp->r);
-      emit_mr(as, r, irp->r);  /* Move from coalesced parent reg. */
-    } else {
-      emit_getgl(as, r, jit_base);  /* Otherwise reload BASE. */
-    }
-  }
-  return allow;
-}
-
-/* -- Tail of trace ------------------------------------------------------- */
-
-/* Fixup the tail code. */
-static void asm_tail_fixup(ASMState *as, TraceNo lnk)
-{
-  MCode *p = as->mctop;
-  MCode *target;
-  int32_t spadj = as->T->spadjust;
-  if (spadj == 0) {
-    *--p = PPCI_NOP;
-    *--p = PPCI_NOP;
-    as->mctop = p;
-  } else {
-    /* Patch stack adjustment. */
-    lua_assert(checki16(CFRAME_SIZE+spadj));
-    p[-3] = PPCI_ADDI | PPCF_T(RID_TMP) | PPCF_A(RID_SP) | (CFRAME_SIZE+spadj);
-    p[-2] = PPCI_STWU | PPCF_T(RID_TMP) | PPCF_A(RID_SP) | spadj;
-  }
-  /* Patch exit branch. */
-  target = lnk ? traceref(as->J, lnk)->mcode : (MCode *)lj_vm_exit_interp;
-  p[-1] = PPCI_B|(((target-p+1)&0x00ffffffu)<<2);
-}
-
-/* Prepare tail of code. */
-static void asm_tail_prep(ASMState *as)
-{
-  MCode *p = as->mctop - 1;  /* Leave room for exit branch. */
-  if (as->loopref) {
-    as->invmcp = as->mcp = p;
-  } else {
-    as->mcp = p-2;  /* Leave room for stack pointer adjustment. */
-    as->invmcp = NULL;
-  }
-}
-
-/* -- Instruction dispatch ------------------------------------------------ */
-
-/* Assemble a single instruction. */
-static void asm_ir(ASMState *as, IRIns *ir)
-{
-  switch ((IROp)ir->o) {
-  /* Miscellaneous ops. */
-  case IR_LOOP: asm_loop(as); break;
-  case IR_NOP: case IR_XBAR: lua_assert(!ra_used(ir)); break;
-  case IR_USE:
-    ra_alloc1(as, ir->op1, irt_isfp(ir->t) ? RSET_FPR : RSET_GPR); break;
-  case IR_PHI: asm_phi(as, ir); break;
-  case IR_HIOP: asm_hiop(as, ir); break;
-  case IR_GCSTEP: asm_gcstep(as, ir); break;
-
-  /* Guarded assertions. */
-  case IR_EQ: case IR_NE:
-    if ((ir-1)->o == IR_HREF && ir->op1 == as->curins-1) {
-      as->curins--;
-      asm_href(as, ir-1, (IROp)ir->o);
-      break;
-    }
-    /* fallthrough */
-  case IR_LT: case IR_GE: case IR_LE: case IR_GT:
-  case IR_ULT: case IR_UGE: case IR_ULE: case IR_UGT:
-  case IR_ABC:
-    asm_comp(as, ir);
-    break;
-
-  case IR_RETF: asm_retf(as, ir); break;
-
-  /* Bit ops. */
-  case IR_BNOT: asm_bitnot(as, ir); break;
-  case IR_BSWAP: asm_bitswap(as, ir); break;
-
-  case IR_BAND: asm_bitand(as, ir); break;
-  case IR_BOR:  asm_bitop(as, ir, PPCI_OR, PPCI_ORI); break;
-  case IR_BXOR: asm_bitop(as, ir, PPCI_XOR, PPCI_XORI); break;
-
-  case IR_BSHL: asm_bitshift(as, ir, PPCI_SLW, 0); break;
-  case IR_BSHR: asm_bitshift(as, ir, PPCI_SRW, 1); break;
-  case IR_BSAR: asm_bitshift(as, ir, PPCI_SRAW, PPCI_SRAWI); break;
-  case IR_BROL: asm_bitshift(as, ir, PPCI_RLWNM|PPCF_MB(0)|PPCF_ME(31),
-			     PPCI_RLWINM|PPCF_MB(0)|PPCF_ME(31)); break;
-  case IR_BROR: lua_assert(0); break;
-
-  /* Arithmetic ops. */
-  case IR_ADD: asm_add(as, ir); break;
-  case IR_SUB: asm_sub(as, ir); break;
-  case IR_MUL: asm_mul(as, ir); break;
-  case IR_DIV: asm_fparith(as, ir, PPCI_FDIV); break;
-  case IR_MOD: asm_callid(as, ir, IRCALL_lj_vm_modi); break;
-  case IR_POW: asm_callid(as, ir, IRCALL_lj_vm_powi); break;
-  case IR_NEG: asm_neg(as, ir); break;
-
-  case IR_ABS: asm_fpunary(as, ir, PPCI_FABS); break;
-  case IR_ATAN2: asm_callid(as, ir, IRCALL_atan2); break;
-  case IR_LDEXP: asm_callid(as, ir, IRCALL_ldexp); break;
-  case IR_MIN: asm_min_max(as, ir, 0); break;
-  case IR_MAX: asm_min_max(as, ir, 1); break;
-  case IR_FPMATH:
-    if (ir->op2 == IRFPM_EXP2 && asm_fpjoin_pow(as, ir))
-      break;
-    if (ir->op2 == IRFPM_SQRT && (as->flags & JIT_F_SQRT))
-      asm_fpunary(as, ir, PPCI_FSQRT);
-    else
-      asm_callid(as, ir, IRCALL_lj_vm_floor + ir->op2);
-    break;
-
-  /* Overflow-checking arithmetic ops. */
-  case IR_ADDOV: asm_arithov(as, ir, PPCI_ADDO); break;
-  case IR_SUBOV: asm_arithov(as, ir, PPCI_SUBFO); break;
-  case IR_MULOV: asm_arithov(as, ir, PPCI_MULLWO); break;
-
-  /* Memory references. */
-  case IR_AREF: asm_aref(as, ir); break;
-  case IR_HREF: asm_href(as, ir, 0); break;
-  case IR_HREFK: asm_hrefk(as, ir); break;
-  case IR_NEWREF: asm_newref(as, ir); break;
-  case IR_UREFO: case IR_UREFC: asm_uref(as, ir); break;
-  case IR_FREF: asm_fref(as, ir); break;
-  case IR_STRREF: asm_strref(as, ir); break;
-
-  /* Loads and stores. */
-  case IR_ALOAD: case IR_HLOAD: case IR_ULOAD: case IR_VLOAD:
-    asm_ahuvload(as, ir);
-    break;
-  case IR_FLOAD: asm_fload(as, ir); break;
-  case IR_XLOAD: asm_xload(as, ir); break;
-  case IR_SLOAD: asm_sload(as, ir); break;
-
-  case IR_ASTORE: case IR_HSTORE: case IR_USTORE: asm_ahustore(as, ir); break;
-  case IR_FSTORE: asm_fstore(as, ir); break;
-  case IR_XSTORE: asm_xstore(as, ir, 0); break;
-
-  /* Allocations. */
-  case IR_SNEW: case IR_XSNEW: asm_snew(as, ir); break;
-  case IR_TNEW: asm_tnew(as, ir); break;
-  case IR_TDUP: asm_tdup(as, ir); break;
-  case IR_CNEW: case IR_CNEWI: asm_cnew(as, ir); break;
-
-  /* Write barriers. */
-  case IR_TBAR: asm_tbar(as, ir); break;
-  case IR_OBAR: asm_obar(as, ir); break;
-
-  /* Type conversions. */
-  case IR_CONV: asm_conv(as, ir); break;
-  case IR_TOBIT: asm_tobit(as, ir); break;
-  case IR_TOSTR: asm_tostr(as, ir); break;
-  case IR_STRTO: asm_strto(as, ir); break;
-
-  /* Calls. */
-  case IR_CALLN: case IR_CALLL: case IR_CALLS: asm_call(as, ir); break;
-  case IR_CALLXS: asm_callx(as, ir); break;
-  case IR_CARG: break;
-
-  default:
-    setintV(&as->J->errinfo, ir->o);
-    lj_trace_err_info(as->J, LJ_TRERR_NYIIR);
-    break;
-  }
-}
-
-/* -- Trace setup --------------------------------------------------------- */
-
-/* Ensure there are enough stack slots for call arguments. */
-static Reg asm_setup_call_slots(ASMState *as, IRIns *ir, const CCallInfo *ci)
-{
-  IRRef args[CCI_NARGS_MAX*2];
-  uint32_t i, nargs = (int)CCI_NARGS(ci);
-  int nslots = 2, ngpr = REGARG_NUMGPR, nfpr = REGARG_NUMFPR;
-  asm_collectargs(as, ir, ci, args);
-  for (i = 0; i < nargs; i++)
-    if (args[i] && irt_isfp(IR(args[i])->t)) {
-      if (nfpr > 0) nfpr--; else nslots = (nslots+3) & ~1;
-    } else {
-      if (ngpr > 0) ngpr--; else nslots++;
-    }
-  if (nslots > as->evenspill)  /* Leave room for args in stack slots. */
-    as->evenspill = nslots;
-  return irt_isfp(ir->t) ? REGSP_HINT(RID_FPRET) : REGSP_HINT(RID_RET);
-}
-
-static void asm_setup_target(ASMState *as)
-{
-  asm_exitstub_setup(as, as->T->nsnap + (as->parent ? 1 : 0));
-}
-
-/* -- Trace patching ------------------------------------------------------ */
-
-/* Patch exit jumps of existing machine code to a new target. */
-void lj_asm_patchexit(jit_State *J, GCtrace *T, ExitNo exitno, MCode *target)
-{
-  MCode *p = T->mcode;
-  MCode *pe = (MCode *)((char *)p + T->szmcode);
-  MCode *px = exitstub_trace_addr(T, exitno);
-  MCode *cstart = NULL;
-  MCode *mcarea = lj_mcode_patch(J, p, 0);
-  int clearso = 0;
-  for (; p < pe; p++) {
-    /* Look for exitstub branch, try to replace with branch to target. */
-    uint32_t ins = *p;
-    if ((ins & 0xfc000000u) == 0x40000000u &&
-	((ins ^ ((char *)px-(char *)p)) & 0xffffu) == 0) {
-      ptrdiff_t delta = (char *)target - (char *)p;
-      if (((ins >> 16) & 3) == (CC_SO&3)) {
-	clearso = sizeof(MCode);
-	delta -= sizeof(MCode);
-      }
-      /* Many, but not all short-range branches can be patched directly. */
-      if (((delta + 0x8000) >> 16) == 0) {
-	*p = (ins & 0xffdf0000u) | ((uint32_t)delta & 0xffffu) |
-	     ((delta & 0x8000) * (PPCF_Y/0x8000));
-	if (!cstart) cstart = p;
-      }
-    } else if ((ins & 0xfc000000u) == PPCI_B &&
-	       ((ins ^ ((char *)px-(char *)p)) & 0x03ffffffu) == 0) {
-      ptrdiff_t delta = (char *)target - (char *)p;
-      lua_assert(((delta + 0x02000000) >> 26) == 0);
-      *p = PPCI_B | ((uint32_t)delta & 0x03ffffffu);
-      if (!cstart) cstart = p;
-    }
-  }
-  {  /* Always patch long-range branch in exit stub itself. */
-    ptrdiff_t delta = (char *)target - (char *)px - clearso;
-    lua_assert(((delta + 0x02000000) >> 26) == 0);
-    *px = PPCI_B | ((uint32_t)delta & 0x03ffffffu);
-  }
-  if (!cstart) cstart = px;
-  lj_mcode_sync(cstart, px+1);
-  if (clearso) {  /* Extend the current trace. Ugly workaround. */
-    MCode *pp = J->cur.mcode;
-    J->cur.szmcode += sizeof(MCode);
-    *--pp = PPCI_MCRXR;  /* Clear SO flag. */
-    J->cur.mcode = pp;
-    lj_mcode_sync(pp, pp+1);
-  }
-  lj_mcode_patch(J, mcarea, 1);
-}
-
diff --git a/luajit-2.0/src/lj_asm_x86.h b/luajit-2.0/src/lj_asm_x86.h
deleted file mode 100644
index 04b7964..0000000
--- a/luajit-2.0/src/lj_asm_x86.h
+++ /dev/null
@@ -1,2802 +0,0 @@
-/*
-** x86/x64 IR assembler (SSA IR -> machine code).
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-/* -- Guard handling ------------------------------------------------------ */
-
-/* Generate an exit stub group at the bottom of the reserved MCode memory. */
-static MCode *asm_exitstub_gen(ASMState *as, ExitNo group)
-{
-  ExitNo i, groupofs = (group*EXITSTUBS_PER_GROUP) & 0xff;
-  MCode *mxp = as->mcbot;
-  MCode *mxpstart = mxp;
-  if (mxp + (2+2)*EXITSTUBS_PER_GROUP+8+5 >= as->mctop)
-    asm_mclimit(as);
-  /* Push low byte of exitno for each exit stub. */
-  *mxp++ = XI_PUSHi8; *mxp++ = (MCode)groupofs;
-  for (i = 1; i < EXITSTUBS_PER_GROUP; i++) {
-    *mxp++ = XI_JMPs; *mxp++ = (MCode)((2+2)*(EXITSTUBS_PER_GROUP - i) - 2);
-    *mxp++ = XI_PUSHi8; *mxp++ = (MCode)(groupofs + i);
-  }
-  /* Push the high byte of the exitno for each exit stub group. */
-  *mxp++ = XI_PUSHi8; *mxp++ = (MCode)((group*EXITSTUBS_PER_GROUP)>>8);
-  /* Store DISPATCH at original stack slot 0. Account for the two push ops. */
-  *mxp++ = XI_MOVmi;
-  *mxp++ = MODRM(XM_OFS8, 0, RID_ESP);
-  *mxp++ = MODRM(XM_SCALE1, RID_ESP, RID_ESP);
-  *mxp++ = 2*sizeof(void *);
-  *(int32_t *)mxp = ptr2addr(J2GG(as->J)->dispatch); mxp += 4;
-  /* Jump to exit handler which fills in the ExitState. */
-  *mxp++ = XI_JMP; mxp += 4;
-  *((int32_t *)(mxp-4)) = jmprel(mxp, (MCode *)(void *)lj_vm_exit_handler);
-  /* Commit the code for this group (even if assembly fails later on). */
-  lj_mcode_commitbot(as->J, mxp);
-  as->mcbot = mxp;
-  as->mclim = as->mcbot + MCLIM_REDZONE;
-  return mxpstart;
-}
-
-/* Setup all needed exit stubs. */
-static void asm_exitstub_setup(ASMState *as, ExitNo nexits)
-{
-  ExitNo i;
-  if (nexits >= EXITSTUBS_PER_GROUP*LJ_MAX_EXITSTUBGR)
-    lj_trace_err(as->J, LJ_TRERR_SNAPOV);
-  for (i = 0; i < (nexits+EXITSTUBS_PER_GROUP-1)/EXITSTUBS_PER_GROUP; i++)
-    if (as->J->exitstubgroup[i] == NULL)
-      as->J->exitstubgroup[i] = asm_exitstub_gen(as, i);
-}
-
-/* Emit conditional branch to exit for guard.
-** It's important to emit this *after* all registers have been allocated,
-** because rematerializations may invalidate the flags.
-*/
-static void asm_guardcc(ASMState *as, int cc)
-{
-  MCode *target = exitstub_addr(as->J, as->snapno);
-  MCode *p = as->mcp;
-  if (LJ_UNLIKELY(p == as->invmcp)) {
-    as->loopinv = 1;
-    *(int32_t *)(p+1) = jmprel(p+5, target);
-    target = p;
-    cc ^= 1;
-    if (as->realign) {
-      emit_sjcc(as, cc, target);
-      return;
-    }
-  }
-  emit_jcc(as, cc, target);
-}
-
-/* -- Memory operand fusion ----------------------------------------------- */
-
-/* Limit linear search to this distance. Avoids O(n^2) behavior. */
-#define CONFLICT_SEARCH_LIM	31
-
-/* Check if a reference is a signed 32 bit constant. */
-static int asm_isk32(ASMState *as, IRRef ref, int32_t *k)
-{
-  if (irref_isk(ref)) {
-    IRIns *ir = IR(ref);
-    if (ir->o != IR_KINT64) {
-      *k = ir->i;
-      return 1;
-    } else if (checki32((int64_t)ir_kint64(ir)->u64)) {
-      *k = (int32_t)ir_kint64(ir)->u64;
-      return 1;
-    }
-  }
-  return 0;
-}
-
-/* Check if there's no conflicting instruction between curins and ref.
-** Also avoid fusing loads if there are multiple references.
-*/
-static int noconflict(ASMState *as, IRRef ref, IROp conflict, int noload)
-{
-  IRIns *ir = as->ir;
-  IRRef i = as->curins;
-  if (i > ref + CONFLICT_SEARCH_LIM)
-    return 0;  /* Give up, ref is too far away. */
-  while (--i > ref) {
-    if (ir[i].o == conflict)
-      return 0;  /* Conflict found. */
-    else if (!noload && (ir[i].op1 == ref || ir[i].op2 == ref))
-      return 0;
-  }
-  return 1;  /* Ok, no conflict. */
-}
-
-/* Fuse array base into memory operand. */
-static IRRef asm_fuseabase(ASMState *as, IRRef ref)
-{
-  IRIns *irb = IR(ref);
-  as->mrm.ofs = 0;
-  if (irb->o == IR_FLOAD) {
-    IRIns *ira = IR(irb->op1);
-    lua_assert(irb->op2 == IRFL_TAB_ARRAY);
-    /* We can avoid the FLOAD of t->array for colocated arrays. */
-    if (ira->o == IR_TNEW && ira->op1 <= LJ_MAX_COLOSIZE &&
-	!neverfuse(as) && noconflict(as, irb->op1, IR_NEWREF, 1)) {
-      as->mrm.ofs = (int32_t)sizeof(GCtab);  /* Ofs to colocated array. */
-      return irb->op1;  /* Table obj. */
-    }
-  } else if (irb->o == IR_ADD && irref_isk(irb->op2)) {
-    /* Fuse base offset (vararg load). */
-    as->mrm.ofs = IR(irb->op2)->i;
-    return irb->op1;
-  }
-  return ref;  /* Otherwise use the given array base. */
-}
-
-/* Fuse array reference into memory operand. */
-static void asm_fusearef(ASMState *as, IRIns *ir, RegSet allow)
-{
-  IRIns *irx;
-  lua_assert(ir->o == IR_AREF);
-  as->mrm.base = (uint8_t)ra_alloc1(as, asm_fuseabase(as, ir->op1), allow);
-  irx = IR(ir->op2);
-  if (irref_isk(ir->op2)) {
-    as->mrm.ofs += 8*irx->i;
-    as->mrm.idx = RID_NONE;
-  } else {
-    rset_clear(allow, as->mrm.base);
-    as->mrm.scale = XM_SCALE8;
-    /* Fuse a constant ADD (e.g. t[i+1]) into the offset.
-    ** Doesn't help much without ABCelim, but reduces register pressure.
-    */
-    if (!LJ_64 &&  /* Has bad effects with negative index on x64. */
-	mayfuse(as, ir->op2) && ra_noreg(irx->r) &&
-	irx->o == IR_ADD && irref_isk(irx->op2)) {
-      as->mrm.ofs += 8*IR(irx->op2)->i;
-      as->mrm.idx = (uint8_t)ra_alloc1(as, irx->op1, allow);
-    } else {
-      as->mrm.idx = (uint8_t)ra_alloc1(as, ir->op2, allow);
-    }
-  }
-}
-
-/* Fuse array/hash/upvalue reference into memory operand.
-** Caveat: this may allocate GPRs for the base/idx registers. Be sure to
-** pass the final allow mask, excluding any GPRs used for other inputs.
-** In particular: 2-operand GPR instructions need to call ra_dest() first!
-*/
-static void asm_fuseahuref(ASMState *as, IRRef ref, RegSet allow)
-{
-  IRIns *ir = IR(ref);
-  if (ra_noreg(ir->r)) {
-    switch ((IROp)ir->o) {
-    case IR_AREF:
-      if (mayfuse(as, ref)) {
-	asm_fusearef(as, ir, allow);
-	return;
-      }
-      break;
-    case IR_HREFK:
-      if (mayfuse(as, ref)) {
-	as->mrm.base = (uint8_t)ra_alloc1(as, ir->op1, allow);
-	as->mrm.ofs = (int32_t)(IR(ir->op2)->op2 * sizeof(Node));
-	as->mrm.idx = RID_NONE;
-	return;
-      }
-      break;
-    case IR_UREFC:
-      if (irref_isk(ir->op1)) {
-	GCfunc *fn = ir_kfunc(IR(ir->op1));
-	GCupval *uv = &gcref(fn->l.uvptr[(ir->op2 >> 8)])->uv;
-	as->mrm.ofs = ptr2addr(&uv->tv);
-	as->mrm.base = as->mrm.idx = RID_NONE;
-	return;
-      }
-      break;
-    default:
-      lua_assert(ir->o == IR_HREF || ir->o == IR_NEWREF || ir->o == IR_UREFO ||
-		 ir->o == IR_KKPTR);
-      break;
-    }
-  }
-  as->mrm.base = (uint8_t)ra_alloc1(as, ref, allow);
-  as->mrm.ofs = 0;
-  as->mrm.idx = RID_NONE;
-}
-
-/* Fuse FLOAD/FREF reference into memory operand. */
-static void asm_fusefref(ASMState *as, IRIns *ir, RegSet allow)
-{
-  lua_assert(ir->o == IR_FLOAD || ir->o == IR_FREF);
-  as->mrm.ofs = field_ofs[ir->op2];
-  as->mrm.idx = RID_NONE;
-  if (irref_isk(ir->op1)) {
-    as->mrm.ofs += IR(ir->op1)->i;
-    as->mrm.base = RID_NONE;
-  } else {
-    as->mrm.base = (uint8_t)ra_alloc1(as, ir->op1, allow);
-  }
-}
-
-/* Fuse string reference into memory operand. */
-static void asm_fusestrref(ASMState *as, IRIns *ir, RegSet allow)
-{
-  IRIns *irr;
-  lua_assert(ir->o == IR_STRREF);
-  as->mrm.base = as->mrm.idx = RID_NONE;
-  as->mrm.scale = XM_SCALE1;
-  as->mrm.ofs = sizeof(GCstr);
-  if (irref_isk(ir->op1)) {
-    as->mrm.ofs += IR(ir->op1)->i;
-  } else {
-    Reg r = ra_alloc1(as, ir->op1, allow);
-    rset_clear(allow, r);
-    as->mrm.base = (uint8_t)r;
-  }
-  irr = IR(ir->op2);
-  if (irref_isk(ir->op2)) {
-    as->mrm.ofs += irr->i;
-  } else {
-    Reg r;
-    /* Fuse a constant add into the offset, e.g. string.sub(s, i+10). */
-    if (!LJ_64 &&  /* Has bad effects with negative index on x64. */
-	mayfuse(as, ir->op2) && irr->o == IR_ADD && irref_isk(irr->op2)) {
-      as->mrm.ofs += IR(irr->op2)->i;
-      r = ra_alloc1(as, irr->op1, allow);
-    } else {
-      r = ra_alloc1(as, ir->op2, allow);
-    }
-    if (as->mrm.base == RID_NONE)
-      as->mrm.base = (uint8_t)r;
-    else
-      as->mrm.idx = (uint8_t)r;
-  }
-}
-
-static void asm_fusexref(ASMState *as, IRRef ref, RegSet allow)
-{
-  IRIns *ir = IR(ref);
-  as->mrm.idx = RID_NONE;
-  if (ir->o == IR_KPTR || ir->o == IR_KKPTR) {
-    as->mrm.ofs = ir->i;
-    as->mrm.base = RID_NONE;
-  } else if (ir->o == IR_STRREF) {
-    asm_fusestrref(as, ir, allow);
-  } else {
-    as->mrm.ofs = 0;
-    if (canfuse(as, ir) && ir->o == IR_ADD && ra_noreg(ir->r)) {
-      /* Gather (base+idx*sz)+ofs as emitted by cdata ptr/array indexing. */
-      IRIns *irx;
-      IRRef idx;
-      Reg r;
-      if (asm_isk32(as, ir->op2, &as->mrm.ofs)) {  /* Recognize x+ofs. */
-	ref = ir->op1;
-	ir = IR(ref);
-	if (!(ir->o == IR_ADD && canfuse(as, ir) && ra_noreg(ir->r)))
-	  goto noadd;
-      }
-      as->mrm.scale = XM_SCALE1;
-      idx = ir->op1;
-      ref = ir->op2;
-      irx = IR(idx);
-      if (!(irx->o == IR_BSHL || irx->o == IR_ADD)) {  /* Try other operand. */
-	idx = ir->op2;
-	ref = ir->op1;
-	irx = IR(idx);
-      }
-      if (canfuse(as, irx) && ra_noreg(irx->r)) {
-	if (irx->o == IR_BSHL && irref_isk(irx->op2) && IR(irx->op2)->i <= 3) {
-	  /* Recognize idx<<b with b = 0-3, corresponding to sz = (1),2,4,8. */
-	  idx = irx->op1;
-	  as->mrm.scale = (uint8_t)(IR(irx->op2)->i << 6);
-	} else if (irx->o == IR_ADD && irx->op1 == irx->op2) {
-	  /* FOLD does idx*2 ==> idx<<1 ==> idx+idx. */
-	  idx = irx->op1;
-	  as->mrm.scale = XM_SCALE2;
-	}
-      }
-      r = ra_alloc1(as, idx, allow);
-      rset_clear(allow, r);
-      as->mrm.idx = (uint8_t)r;
-    }
-  noadd:
-    as->mrm.base = (uint8_t)ra_alloc1(as, ref, allow);
-  }
-}
-
-/* Fuse load into memory operand. */
-static Reg asm_fuseload(ASMState *as, IRRef ref, RegSet allow)
-{
-  IRIns *ir = IR(ref);
-  if (ra_hasreg(ir->r)) {
-    if (allow != RSET_EMPTY) {  /* Fast path. */
-      ra_noweak(as, ir->r);
-      return ir->r;
-    }
-  fusespill:
-    /* Force a spill if only memory operands are allowed (asm_x87load). */
-    as->mrm.base = RID_ESP;
-    as->mrm.ofs = ra_spill(as, ir);
-    as->mrm.idx = RID_NONE;
-    return RID_MRM;
-  }
-  if (ir->o == IR_KNUM) {
-    RegSet avail = as->freeset & ~as->modset & RSET_FPR;
-    lua_assert(allow != RSET_EMPTY);
-    if (!(avail & (avail-1))) {  /* Fuse if less than two regs available. */
-      as->mrm.ofs = ptr2addr(ir_knum(ir));
-      as->mrm.base = as->mrm.idx = RID_NONE;
-      return RID_MRM;
-    }
-  } else if (ir->o == IR_KINT64) {
-    RegSet avail = as->freeset & ~as->modset & RSET_GPR;
-    lua_assert(allow != RSET_EMPTY);
-    if (!(avail & (avail-1))) {  /* Fuse if less than two regs available. */
-      as->mrm.ofs = ptr2addr(ir_kint64(ir));
-      as->mrm.base = as->mrm.idx = RID_NONE;
-      return RID_MRM;
-    }
-  } else if (mayfuse(as, ref)) {
-    RegSet xallow = (allow & RSET_GPR) ? allow : RSET_GPR;
-    if (ir->o == IR_SLOAD) {
-      if (!(ir->op2 & (IRSLOAD_PARENT|IRSLOAD_CONVERT)) &&
-	  noconflict(as, ref, IR_RETF, 0)) {
-	as->mrm.base = (uint8_t)ra_alloc1(as, REF_BASE, xallow);
-	as->mrm.ofs = 8*((int32_t)ir->op1-1) + ((ir->op2&IRSLOAD_FRAME)?4:0);
-	as->mrm.idx = RID_NONE;
-	return RID_MRM;
-      }
-    } else if (ir->o == IR_FLOAD) {
-      /* Generic fusion is only ok for 32 bit operand (but see asm_comp). */
-      if ((irt_isint(ir->t) || irt_isu32(ir->t) || irt_isaddr(ir->t)) &&
-	  noconflict(as, ref, IR_FSTORE, 0)) {
-	asm_fusefref(as, ir, xallow);
-	return RID_MRM;
-      }
-    } else if (ir->o == IR_ALOAD || ir->o == IR_HLOAD || ir->o == IR_ULOAD) {
-      if (noconflict(as, ref, ir->o + IRDELTA_L2S, 0)) {
-	asm_fuseahuref(as, ir->op1, xallow);
-	return RID_MRM;
-      }
-    } else if (ir->o == IR_XLOAD) {
-      /* Generic fusion is not ok for 8/16 bit operands (but see asm_comp).
-      ** Fusing unaligned memory operands is ok on x86 (except for SIMD types).
-      */
-      if ((!irt_typerange(ir->t, IRT_I8, IRT_U16)) &&
-	  noconflict(as, ref, IR_XSTORE, 0)) {
-	asm_fusexref(as, ir->op1, xallow);
-	return RID_MRM;
-      }
-    } else if (ir->o == IR_VLOAD) {
-      asm_fuseahuref(as, ir->op1, xallow);
-      return RID_MRM;
-    }
-  }
-  if (!(as->freeset & allow) && !irref_isk(ref) &&
-      (allow == RSET_EMPTY || ra_hasspill(ir->s) || iscrossref(as, ref)))
-    goto fusespill;
-  return ra_allocref(as, ref, allow);
-}
-
-#if LJ_64
-/* Don't fuse a 32 bit load into a 64 bit operation. */
-static Reg asm_fuseloadm(ASMState *as, IRRef ref, RegSet allow, int is64)
-{
-  if (is64 && !irt_is64(IR(ref)->t))
-    return ra_alloc1(as, ref, allow);
-  return asm_fuseload(as, ref, allow);
-}
-#else
-#define asm_fuseloadm(as, ref, allow, is64)  asm_fuseload(as, (ref), (allow))
-#endif
-
-/* -- Calls --------------------------------------------------------------- */
-
-/* Count the required number of stack slots for a call. */
-static int asm_count_call_slots(ASMState *as, const CCallInfo *ci, IRRef *args)
-{
-  uint32_t i, nargs = CCI_NARGS(ci);
-  int nslots = 0;
-#if LJ_64
-  if (LJ_ABI_WIN) {
-    nslots = (int)(nargs*2);  /* Only matters for more than four args. */
-  } else {
-    int ngpr = REGARG_NUMGPR, nfpr = REGARG_NUMFPR;
-    for (i = 0; i < nargs; i++)
-      if (args[i] && irt_isfp(IR(args[i])->t)) {
-	if (nfpr > 0) nfpr--; else nslots += 2;
-      } else {
-	if (ngpr > 0) ngpr--; else nslots += 2;
-      }
-  }
-#else
-  int ngpr = 0;
-  if ((ci->flags & CCI_CC_MASK) == CCI_CC_FASTCALL)
-    ngpr = 2;
-  else if ((ci->flags & CCI_CC_MASK) == CCI_CC_THISCALL)
-    ngpr = 1;
-  for (i = 0; i < nargs; i++)
-    if (args[i] && irt_isfp(IR(args[i])->t)) {
-      nslots += irt_isnum(IR(args[i])->t) ? 2 : 1;
-    } else {
-      if (ngpr > 0) ngpr--; else nslots++;
-    }
-#endif
-  return nslots;
-}
-
-/* Generate a call to a C function. */
-static void asm_gencall(ASMState *as, const CCallInfo *ci, IRRef *args)
-{
-  uint32_t n, nargs = CCI_NARGS(ci);
-  int32_t ofs = STACKARG_OFS;
-#if LJ_64
-  uint32_t gprs = REGARG_GPRS;
-  Reg fpr = REGARG_FIRSTFPR;
-#if !LJ_ABI_WIN
-  MCode *patchnfpr = NULL;
-#endif
-#else
-  uint32_t gprs = 0;
-  if ((ci->flags & CCI_CC_MASK) != CCI_CC_CDECL) {
-    if ((ci->flags & CCI_CC_MASK) == CCI_CC_THISCALL)
-      gprs = (REGARG_GPRS & 31);
-    else if ((ci->flags & CCI_CC_MASK) == CCI_CC_FASTCALL)
-      gprs = REGARG_GPRS;
-  }
-#endif
-  if ((void *)ci->func)
-    emit_call(as, ci->func);
-#if LJ_64
-  if ((ci->flags & CCI_VARARG)) {  /* Special handling for vararg calls. */
-#if LJ_ABI_WIN
-    for (n = 0; n < 4 && n < nargs; n++) {
-      IRIns *ir = IR(args[n]);
-      if (irt_isfp(ir->t))  /* Duplicate FPRs in GPRs. */
-	emit_rr(as, XO_MOVDto, (irt_isnum(ir->t) ? REX_64 : 0) | (fpr+n),
-		((gprs >> (n*5)) & 31));  /* Either MOVD or MOVQ. */
-    }
-#else
-    patchnfpr = --as->mcp;  /* Indicate number of used FPRs in register al. */
-    *--as->mcp = XI_MOVrib | RID_EAX;
-#endif
-  }
-#endif
-  for (n = 0; n < nargs; n++) {  /* Setup args. */
-    IRRef ref = args[n];
-    IRIns *ir = IR(ref);
-    Reg r;
-#if LJ_64 && LJ_ABI_WIN
-    /* Windows/x64 argument registers are strictly positional. */
-    r = irt_isfp(ir->t) ? (fpr <= REGARG_LASTFPR ? fpr : 0) : (gprs & 31);
-    fpr++; gprs >>= 5;
-#elif LJ_64
-    /* POSIX/x64 argument registers are used in order of appearance. */
-    if (irt_isfp(ir->t)) {
-      r = fpr <= REGARG_LASTFPR ? fpr++ : 0;
-    } else {
-      r = gprs & 31; gprs >>= 5;
-    }
-#else
-    if (ref && irt_isfp(ir->t)) {
-      r = 0;
-    } else {
-      r = gprs & 31; gprs >>= 5;
-      if (!ref) continue;
-    }
-#endif
-    if (r) {  /* Argument is in a register. */
-      if (r < RID_MAX_GPR && ref < ASMREF_TMP1) {
-#if LJ_64
-	if (ir->o == IR_KINT64)
-	  emit_loadu64(as, r, ir_kint64(ir)->u64);
-	else
-#endif
-	  emit_loadi(as, r, ir->i);
-      } else {
-	lua_assert(rset_test(as->freeset, r));  /* Must have been evicted. */
-	if (ra_hasreg(ir->r)) {
-	  ra_noweak(as, ir->r);
-	  emit_movrr(as, ir, r, ir->r);
-	} else {
-	  ra_allocref(as, ref, RID2RSET(r));
-	}
-      }
-    } else if (irt_isfp(ir->t)) {  /* FP argument is on stack. */
-      lua_assert(!(irt_isfloat(ir->t) && irref_isk(ref)));  /* No float k. */
-      if (LJ_32 && (ofs & 4) && irref_isk(ref)) {
-	/* Split stores for unaligned FP consts. */
-	emit_movmroi(as, RID_ESP, ofs, (int32_t)ir_knum(ir)->u32.lo);
-	emit_movmroi(as, RID_ESP, ofs+4, (int32_t)ir_knum(ir)->u32.hi);
-      } else {
-	r = ra_alloc1(as, ref, RSET_FPR);
-	emit_rmro(as, irt_isnum(ir->t) ? XO_MOVSDto : XO_MOVSSto,
-		  r, RID_ESP, ofs);
-      }
-      ofs += (LJ_32 && irt_isfloat(ir->t)) ? 4 : 8;
-    } else {  /* Non-FP argument is on stack. */
-      if (LJ_32 && ref < ASMREF_TMP1) {
-	emit_movmroi(as, RID_ESP, ofs, ir->i);
-      } else {
-	r = ra_alloc1(as, ref, RSET_GPR);
-	emit_movtomro(as, REX_64 + r, RID_ESP, ofs);
-      }
-      ofs += sizeof(intptr_t);
-    }
-    checkmclim(as);
-  }
-#if LJ_64 && !LJ_ABI_WIN
-  if (patchnfpr) *patchnfpr = fpr - REGARG_FIRSTFPR;
-#endif
-}
-
-/* Setup result reg/sp for call. Evict scratch regs. */
-static void asm_setupresult(ASMState *as, IRIns *ir, const CCallInfo *ci)
-{
-  RegSet drop = RSET_SCRATCH;
-  int hiop = (LJ_32 && (ir+1)->o == IR_HIOP);
-  if ((ci->flags & CCI_NOFPRCLOBBER))
-    drop &= ~RSET_FPR;
-  if (ra_hasreg(ir->r))
-    rset_clear(drop, ir->r);  /* Dest reg handled below. */
-  if (hiop && ra_hasreg((ir+1)->r))
-    rset_clear(drop, (ir+1)->r);  /* Dest reg handled below. */
-  ra_evictset(as, drop);  /* Evictions must be performed first. */
-  if (ra_used(ir)) {
-    if (irt_isfp(ir->t)) {
-      int32_t ofs = sps_scale(ir->s);  /* Use spill slot or temp slots. */
-#if LJ_64
-      if ((ci->flags & CCI_CASTU64)) {
-	Reg dest = ir->r;
-	if (ra_hasreg(dest)) {
-	  ra_free(as, dest);
-	  ra_modified(as, dest);
-	  emit_rr(as, XO_MOVD, dest|REX_64, RID_RET);  /* Really MOVQ. */
-	}
-	if (ofs) emit_movtomro(as, RID_RET|REX_64, RID_ESP, ofs);
-      } else {
-	ra_destreg(as, ir, RID_FPRET);
-      }
-#else
-      /* Number result is in x87 st0 for x86 calling convention. */
-      Reg dest = ir->r;
-      if (ra_hasreg(dest)) {
-	ra_free(as, dest);
-	ra_modified(as, dest);
-	emit_rmro(as, irt_isnum(ir->t) ? XMM_MOVRM(as) : XO_MOVSS,
-		  dest, RID_ESP, ofs);
-      }
-      if ((ci->flags & CCI_CASTU64)) {
-	emit_movtomro(as, RID_RETLO, RID_ESP, ofs);
-	emit_movtomro(as, RID_RETHI, RID_ESP, ofs+4);
-      } else {
-	emit_rmro(as, irt_isnum(ir->t) ? XO_FSTPq : XO_FSTPd,
-		  irt_isnum(ir->t) ? XOg_FSTPq : XOg_FSTPd, RID_ESP, ofs);
-      }
-#endif
-#if LJ_32
-    } else if (hiop) {
-      ra_destpair(as, ir);
-#endif
-    } else {
-      lua_assert(!irt_ispri(ir->t));
-      ra_destreg(as, ir, RID_RET);
-    }
-  } else if (LJ_32 && irt_isfp(ir->t) && !(ci->flags & CCI_CASTU64)) {
-    emit_x87op(as, XI_FPOP);  /* Pop unused result from x87 st0. */
-  }
-}
-
-static void asm_call(ASMState *as, IRIns *ir)
-{
-  IRRef args[CCI_NARGS_MAX];
-  const CCallInfo *ci = &lj_ir_callinfo[ir->op2];
-  asm_collectargs(as, ir, ci, args);
-  asm_setupresult(as, ir, ci);
-  asm_gencall(as, ci, args);
-}
-
-/* Return a constant function pointer or NULL for indirect calls. */
-static void *asm_callx_func(ASMState *as, IRIns *irf, IRRef func)
-{
-#if LJ_32
-  UNUSED(as);
-  if (irref_isk(func))
-    return (void *)irf->i;
-#else
-  if (irref_isk(func)) {
-    MCode *p;
-    if (irf->o == IR_KINT64)
-      p = (MCode *)(void *)ir_k64(irf)->u64;
-    else
-      p = (MCode *)(void *)(uintptr_t)(uint32_t)irf->i;
-    if (p - as->mcp == (int32_t)(p - as->mcp))
-      return p;  /* Call target is still in +-2GB range. */
-    /* Avoid the indirect case of emit_call(). Try to hoist func addr. */
-  }
-#endif
-  return NULL;
-}
-
-static void asm_callx(ASMState *as, IRIns *ir)
-{
-  IRRef args[CCI_NARGS_MAX*2];
-  CCallInfo ci;
-  IRRef func;
-  IRIns *irf;
-  int32_t spadj = 0;
-  ci.flags = asm_callx_flags(as, ir);
-  asm_collectargs(as, ir, &ci, args);
-  asm_setupresult(as, ir, &ci);
-#if LJ_32
-  /* Have to readjust stack after non-cdecl calls due to callee cleanup. */
-  if ((ci.flags & CCI_CC_MASK) != CCI_CC_CDECL)
-    spadj = 4 * asm_count_call_slots(as, &ci, args);
-#endif
-  func = ir->op2; irf = IR(func);
-  if (irf->o == IR_CARG) { func = irf->op1; irf = IR(func); }
-  ci.func = (ASMFunction)asm_callx_func(as, irf, func);
-  if (!(void *)ci.func) {
-    /* Use a (hoistable) non-scratch register for indirect calls. */
-    RegSet allow = (RSET_GPR & ~RSET_SCRATCH);
-    Reg r = ra_alloc1(as, func, allow);
-    if (LJ_32) emit_spsub(as, spadj);  /* Above code may cause restores! */
-    emit_rr(as, XO_GROUP5, XOg_CALL, r);
-  } else if (LJ_32) {
-    emit_spsub(as, spadj);
-  }
-  asm_gencall(as, &ci, args);
-}
-
-/* -- Returns ------------------------------------------------------------- */
-
-/* Return to lower frame. Guard that it goes to the right spot. */
-static void asm_retf(ASMState *as, IRIns *ir)
-{
-  Reg base = ra_alloc1(as, REF_BASE, RSET_GPR);
-  void *pc = ir_kptr(IR(ir->op2));
-  int32_t delta = 1+bc_a(*((const BCIns *)pc - 1));
-  as->topslot -= (BCReg)delta;
-  if ((int32_t)as->topslot < 0) as->topslot = 0;
-  irt_setmark(IR(REF_BASE)->t);  /* Children must not coalesce with BASE reg. */
-  emit_setgl(as, base, jit_base);
-  emit_addptr(as, base, -8*delta);
-  asm_guardcc(as, CC_NE);
-  emit_gmroi(as, XG_ARITHi(XOg_CMP), base, -4, ptr2addr(pc));
-}
-
-/* -- Type conversions ---------------------------------------------------- */
-
-static void asm_tointg(ASMState *as, IRIns *ir, Reg left)
-{
-  Reg tmp = ra_scratch(as, rset_exclude(RSET_FPR, left));
-  Reg dest = ra_dest(as, ir, RSET_GPR);
-  asm_guardcc(as, CC_P);
-  asm_guardcc(as, CC_NE);
-  emit_rr(as, XO_UCOMISD, left, tmp);
-  emit_rr(as, XO_CVTSI2SD, tmp, dest);
-  if (!(as->flags & JIT_F_SPLIT_XMM))
-    emit_rr(as, XO_XORPS, tmp, tmp);  /* Avoid partial register stall. */
-  emit_rr(as, XO_CVTTSD2SI, dest, left);
-  /* Can't fuse since left is needed twice. */
-}
-
-static void asm_tobit(ASMState *as, IRIns *ir)
-{
-  Reg dest = ra_dest(as, ir, RSET_GPR);
-  Reg tmp = ra_noreg(IR(ir->op1)->r) ?
-	      ra_alloc1(as, ir->op1, RSET_FPR) :
-	      ra_scratch(as, RSET_FPR);
-  Reg right = asm_fuseload(as, ir->op2, rset_exclude(RSET_FPR, tmp));
-  emit_rr(as, XO_MOVDto, tmp, dest);
-  emit_mrm(as, XO_ADDSD, tmp, right);
-  ra_left(as, tmp, ir->op1);
-}
-
-static void asm_conv(ASMState *as, IRIns *ir)
-{
-  IRType st = (IRType)(ir->op2 & IRCONV_SRCMASK);
-  int st64 = (st == IRT_I64 || st == IRT_U64 || (LJ_64 && st == IRT_P64));
-  int stfp = (st == IRT_NUM || st == IRT_FLOAT);
-  IRRef lref = ir->op1;
-  lua_assert(irt_type(ir->t) != st);
-  lua_assert(!(LJ_32 && (irt_isint64(ir->t) || st64)));  /* Handled by SPLIT. */
-  if (irt_isfp(ir->t)) {
-    Reg dest = ra_dest(as, ir, RSET_FPR);
-    if (stfp) {  /* FP to FP conversion. */
-      Reg left = asm_fuseload(as, lref, RSET_FPR);
-      emit_mrm(as, st == IRT_NUM ? XO_CVTSD2SS : XO_CVTSS2SD, dest, left);
-      if (left == dest) return;  /* Avoid the XO_XORPS. */
-    } else if (LJ_32 && st == IRT_U32) {  /* U32 to FP conversion on x86. */
-      /* number = (2^52+2^51 .. u32) - (2^52+2^51) */
-      cTValue *k = lj_ir_k64_find(as->J, U64x(43380000,00000000));
-      Reg bias = ra_scratch(as, rset_exclude(RSET_FPR, dest));
-      if (irt_isfloat(ir->t))
-	emit_rr(as, XO_CVTSD2SS, dest, dest);
-      emit_rr(as, XO_SUBSD, dest, bias);  /* Subtract 2^52+2^51 bias. */
-      emit_rr(as, XO_XORPS, dest, bias);  /* Merge bias and integer. */
-      emit_loadn(as, bias, k);
-      emit_mrm(as, XO_MOVD, dest, asm_fuseload(as, lref, RSET_GPR));
-      return;
-    } else {  /* Integer to FP conversion. */
-      Reg left = (LJ_64 && (st == IRT_U32 || st == IRT_U64)) ?
-		 ra_alloc1(as, lref, RSET_GPR) :
-		 asm_fuseloadm(as, lref, RSET_GPR, st64);
-      if (LJ_64 && st == IRT_U64) {
-	MCLabel l_end = emit_label(as);
-	const void *k = lj_ir_k64_find(as->J, U64x(43f00000,00000000));
-	emit_rma(as, XO_ADDSD, dest, k);  /* Add 2^64 to compensate. */
-	emit_sjcc(as, CC_NS, l_end);
-	emit_rr(as, XO_TEST, left|REX_64, left);  /* Check if u64 >= 2^63. */
-      }
-      emit_mrm(as, irt_isnum(ir->t) ? XO_CVTSI2SD : XO_CVTSI2SS,
-	       dest|((LJ_64 && (st64 || st == IRT_U32)) ? REX_64 : 0), left);
-    }
-    if (!(as->flags & JIT_F_SPLIT_XMM))
-      emit_rr(as, XO_XORPS, dest, dest);  /* Avoid partial register stall. */
-  } else if (stfp) {  /* FP to integer conversion. */
-    if (irt_isguard(ir->t)) {
-      /* Checked conversions are only supported from number to int. */
-      lua_assert(irt_isint(ir->t) && st == IRT_NUM);
-      asm_tointg(as, ir, ra_alloc1(as, lref, RSET_FPR));
-    } else {
-      Reg dest = ra_dest(as, ir, RSET_GPR);
-      x86Op op = st == IRT_NUM ?
-		 ((ir->op2 & IRCONV_TRUNC) ? XO_CVTTSD2SI : XO_CVTSD2SI) :
-		 ((ir->op2 & IRCONV_TRUNC) ? XO_CVTTSS2SI : XO_CVTSS2SI);
-      if (LJ_64 ? irt_isu64(ir->t) : irt_isu32(ir->t)) {
-	/* LJ_64: For inputs >= 2^63 add -2^64, convert again. */
-	/* LJ_32: For inputs >= 2^31 add -2^31, convert again and add 2^31. */
-	Reg tmp = ra_noreg(IR(lref)->r) ? ra_alloc1(as, lref, RSET_FPR) :
-					  ra_scratch(as, RSET_FPR);
-	MCLabel l_end = emit_label(as);
-	if (LJ_32)
-	  emit_gri(as, XG_ARITHi(XOg_ADD), dest, (int32_t)0x80000000);
-	emit_rr(as, op, dest|REX_64, tmp);
-	if (st == IRT_NUM)
-	  emit_rma(as, XO_ADDSD, tmp, lj_ir_k64_find(as->J,
-		   LJ_64 ? U64x(c3f00000,00000000) : U64x(c1e00000,00000000)));
-	else
-	  emit_rma(as, XO_ADDSS, tmp, lj_ir_k64_find(as->J,
-		   LJ_64 ? U64x(00000000,df800000) : U64x(00000000,cf000000)));
-	emit_sjcc(as, CC_NS, l_end);
-	emit_rr(as, XO_TEST, dest|REX_64, dest);  /* Check if dest negative. */
-	emit_rr(as, op, dest|REX_64, tmp);
-	ra_left(as, tmp, lref);
-      } else {
-	Reg left = asm_fuseload(as, lref, RSET_FPR);
-	if (LJ_64 && irt_isu32(ir->t))
-	  emit_rr(as, XO_MOV, dest, dest);  /* Zero hiword. */
-	emit_mrm(as, op,
-		 dest|((LJ_64 &&
-			(irt_is64(ir->t) || irt_isu32(ir->t))) ? REX_64 : 0),
-		 left);
-      }
-    }
-  } else if (st >= IRT_I8 && st <= IRT_U16) {  /* Extend to 32 bit integer. */
-    Reg left, dest = ra_dest(as, ir, RSET_GPR);
-    RegSet allow = RSET_GPR;
-    x86Op op;
-    lua_assert(irt_isint(ir->t) || irt_isu32(ir->t));
-    if (st == IRT_I8) {
-      op = XO_MOVSXb; allow = RSET_GPR8; dest |= FORCE_REX;
-    } else if (st == IRT_U8) {
-      op = XO_MOVZXb; allow = RSET_GPR8; dest |= FORCE_REX;
-    } else if (st == IRT_I16) {
-      op = XO_MOVSXw;
-    } else {
-      op = XO_MOVZXw;
-    }
-    left = asm_fuseload(as, lref, allow);
-    /* Add extra MOV if source is already in wrong register. */
-    if (!LJ_64 && left != RID_MRM && !rset_test(allow, left)) {
-      Reg tmp = ra_scratch(as, allow);
-      emit_rr(as, op, dest, tmp);
-      emit_rr(as, XO_MOV, tmp, left);
-    } else {
-      emit_mrm(as, op, dest, left);
-    }
-  } else {  /* 32/64 bit integer conversions. */
-    if (LJ_32) {  /* Only need to handle 32/32 bit no-op (cast) on x86. */
-      Reg dest = ra_dest(as, ir, RSET_GPR);
-      ra_left(as, dest, lref);  /* Do nothing, but may need to move regs. */
-    } else if (irt_is64(ir->t)) {
-      Reg dest = ra_dest(as, ir, RSET_GPR);
-      if (st64 || !(ir->op2 & IRCONV_SEXT)) {
-	/* 64/64 bit no-op (cast) or 32 to 64 bit zero extension. */
-	ra_left(as, dest, lref);  /* Do nothing, but may need to move regs. */
-      } else {  /* 32 to 64 bit sign extension. */
-	Reg left = asm_fuseload(as, lref, RSET_GPR);
-	emit_mrm(as, XO_MOVSXd, dest|REX_64, left);
-      }
-    } else {
-      Reg dest = ra_dest(as, ir, RSET_GPR);
-      if (st64) {
-	Reg left = asm_fuseload(as, lref, RSET_GPR);
-	/* This is either a 32 bit reg/reg mov which zeroes the hiword
-	** or a load of the loword from a 64 bit address.
-	*/
-	emit_mrm(as, XO_MOV, dest, left);
-      } else {  /* 32/32 bit no-op (cast). */
-	ra_left(as, dest, lref);  /* Do nothing, but may need to move regs. */
-      }
-    }
-  }
-}
-
-#if LJ_32 && LJ_HASFFI
-/* No SSE conversions to/from 64 bit on x86, so resort to ugly x87 code. */
-
-/* 64 bit integer to FP conversion in 32 bit mode. */
-static void asm_conv_fp_int64(ASMState *as, IRIns *ir)
-{
-  Reg hi = ra_alloc1(as, ir->op1, RSET_GPR);
-  Reg lo = ra_alloc1(as, (ir-1)->op1, rset_exclude(RSET_GPR, hi));
-  int32_t ofs = sps_scale(ir->s);  /* Use spill slot or temp slots. */
-  Reg dest = ir->r;
-  if (ra_hasreg(dest)) {
-    ra_free(as, dest);
-    ra_modified(as, dest);
-    emit_rmro(as, irt_isnum(ir->t) ? XMM_MOVRM(as) : XO_MOVSS,
-	      dest, RID_ESP, ofs);
-  }
-  emit_rmro(as, irt_isnum(ir->t) ? XO_FSTPq : XO_FSTPd,
-	    irt_isnum(ir->t) ? XOg_FSTPq : XOg_FSTPd, RID_ESP, ofs);
-  if (((ir-1)->op2 & IRCONV_SRCMASK) == IRT_U64) {
-    /* For inputs in [2^63,2^64-1] add 2^64 to compensate. */
-    MCLabel l_end = emit_label(as);
-    emit_rma(as, XO_FADDq, XOg_FADDq,
-	     lj_ir_k64_find(as->J, U64x(43f00000,00000000)));
-    emit_sjcc(as, CC_NS, l_end);
-    emit_rr(as, XO_TEST, hi, hi);  /* Check if u64 >= 2^63. */
-  } else {
-    lua_assert(((ir-1)->op2 & IRCONV_SRCMASK) == IRT_I64);
-  }
-  emit_rmro(as, XO_FILDq, XOg_FILDq, RID_ESP, 0);
-  /* NYI: Avoid narrow-to-wide store-to-load forwarding stall. */
-  emit_rmro(as, XO_MOVto, hi, RID_ESP, 4);
-  emit_rmro(as, XO_MOVto, lo, RID_ESP, 0);
-}
-
-/* FP to 64 bit integer conversion in 32 bit mode. */
-static void asm_conv_int64_fp(ASMState *as, IRIns *ir)
-{
-  IRType st = (IRType)((ir-1)->op2 & IRCONV_SRCMASK);
-  IRType dt = (((ir-1)->op2 & IRCONV_DSTMASK) >> IRCONV_DSH);
-  Reg lo, hi;
-  lua_assert(st == IRT_NUM || st == IRT_FLOAT);
-  lua_assert(dt == IRT_I64 || dt == IRT_U64);
-  lua_assert(((ir-1)->op2 & IRCONV_TRUNC));
-  hi = ra_dest(as, ir, RSET_GPR);
-  lo = ra_dest(as, ir-1, rset_exclude(RSET_GPR, hi));
-  if (ra_used(ir-1)) emit_rmro(as, XO_MOV, lo, RID_ESP, 0);
-  /* NYI: Avoid wide-to-narrow store-to-load forwarding stall. */
-  if (!(as->flags & JIT_F_SSE3)) {  /* Set FPU rounding mode to default. */
-    emit_rmro(as, XO_FLDCW, XOg_FLDCW, RID_ESP, 4);
-    emit_rmro(as, XO_MOVto, lo, RID_ESP, 4);
-    emit_gri(as, XG_ARITHi(XOg_AND), lo, 0xf3ff);
-  }
-  if (dt == IRT_U64) {
-    /* For inputs in [2^63,2^64-1] add -2^64 and convert again. */
-    MCLabel l_pop, l_end = emit_label(as);
-    emit_x87op(as, XI_FPOP);
-    l_pop = emit_label(as);
-    emit_sjmp(as, l_end);
-    emit_rmro(as, XO_MOV, hi, RID_ESP, 4);
-    if ((as->flags & JIT_F_SSE3))
-      emit_rmro(as, XO_FISTTPq, XOg_FISTTPq, RID_ESP, 0);
-    else
-      emit_rmro(as, XO_FISTPq, XOg_FISTPq, RID_ESP, 0);
-    emit_rma(as, XO_FADDq, XOg_FADDq,
-	     lj_ir_k64_find(as->J, U64x(c3f00000,00000000)));
-    emit_sjcc(as, CC_NS, l_pop);
-    emit_rr(as, XO_TEST, hi, hi);  /* Check if out-of-range (2^63). */
-  }
-  emit_rmro(as, XO_MOV, hi, RID_ESP, 4);
-  if ((as->flags & JIT_F_SSE3)) {  /* Truncation is easy with SSE3. */
-    emit_rmro(as, XO_FISTTPq, XOg_FISTTPq, RID_ESP, 0);
-  } else {  /* Otherwise set FPU rounding mode to truncate before the store. */
-    emit_rmro(as, XO_FISTPq, XOg_FISTPq, RID_ESP, 0);
-    emit_rmro(as, XO_FLDCW, XOg_FLDCW, RID_ESP, 0);
-    emit_rmro(as, XO_MOVtow, lo, RID_ESP, 0);
-    emit_rmro(as, XO_ARITHw(XOg_OR), lo, RID_ESP, 0);
-    emit_loadi(as, lo, 0xc00);
-    emit_rmro(as, XO_FNSTCW, XOg_FNSTCW, RID_ESP, 0);
-  }
-  if (dt == IRT_U64)
-    emit_x87op(as, XI_FDUP);
-  emit_mrm(as, st == IRT_NUM ? XO_FLDq : XO_FLDd,
-	   st == IRT_NUM ? XOg_FLDq: XOg_FLDd,
-	   asm_fuseload(as, ir->op1, RSET_EMPTY));
-}
-#endif
-
-static void asm_strto(ASMState *as, IRIns *ir)
-{
-  /* Force a spill slot for the destination register (if any). */
-  const CCallInfo *ci = &lj_ir_callinfo[IRCALL_lj_strscan_num];
-  IRRef args[2];
-  RegSet drop = RSET_SCRATCH;
-  if ((drop & RSET_FPR) != RSET_FPR && ra_hasreg(ir->r))
-    rset_set(drop, ir->r);  /* WIN64 doesn't spill all FPRs. */
-  ra_evictset(as, drop);
-  asm_guardcc(as, CC_E);
-  emit_rr(as, XO_TEST, RID_RET, RID_RET);  /* Test return status. */
-  args[0] = ir->op1;      /* GCstr *str */
-  args[1] = ASMREF_TMP1;  /* TValue *n  */
-  asm_gencall(as, ci, args);
-  /* Store the result to the spill slot or temp slots. */
-  emit_rmro(as, XO_LEA, ra_releasetmp(as, ASMREF_TMP1)|REX_64,
-	    RID_ESP, sps_scale(ir->s));
-}
-
-static void asm_tostr(ASMState *as, IRIns *ir)
-{
-  IRIns *irl = IR(ir->op1);
-  IRRef args[2];
-  args[0] = ASMREF_L;
-  as->gcsteps++;
-  if (irt_isnum(irl->t)) {
-    const CCallInfo *ci = &lj_ir_callinfo[IRCALL_lj_str_fromnum];
-    args[1] = ASMREF_TMP1;  /* const lua_Number * */
-    asm_setupresult(as, ir, ci);  /* GCstr * */
-    asm_gencall(as, ci, args);
-    emit_rmro(as, XO_LEA, ra_releasetmp(as, ASMREF_TMP1)|REX_64,
-	      RID_ESP, ra_spill(as, irl));
-  } else {
-    const CCallInfo *ci = &lj_ir_callinfo[IRCALL_lj_str_fromint];
-    args[1] = ir->op1;  /* int32_t k */
-    asm_setupresult(as, ir, ci);  /* GCstr * */
-    asm_gencall(as, ci, args);
-  }
-}
-
-/* -- Memory references --------------------------------------------------- */
-
-static void asm_aref(ASMState *as, IRIns *ir)
-{
-  Reg dest = ra_dest(as, ir, RSET_GPR);
-  asm_fusearef(as, ir, RSET_GPR);
-  if (!(as->mrm.idx == RID_NONE && as->mrm.ofs == 0))
-    emit_mrm(as, XO_LEA, dest, RID_MRM);
-  else if (as->mrm.base != dest)
-    emit_rr(as, XO_MOV, dest, as->mrm.base);
-}
-
-/* Merge NE(HREF, niltv) check. */
-static MCode *merge_href_niltv(ASMState *as, IRIns *ir)
-{
-  /* Assumes nothing else generates NE of HREF. */
-  if ((ir[1].o == IR_NE || ir[1].o == IR_EQ) && ir[1].op1 == as->curins &&
-      ra_hasreg(ir->r)) {
-    MCode *p = as->mcp;
-    p += (LJ_64 && *p != XI_ARITHi) ? 7+6 : 6+6;
-    /* Ensure no loop branch inversion happened. */
-    if (p[-6] == 0x0f && p[-5] == XI_JCCn+(CC_NE^(ir[1].o & 1))) {
-      as->mcp = p;  /* Kill cmp reg, imm32 + jz exit. */
-      return p + *(int32_t *)(p-4);  /* Return exit address. */
-    }
-  }
-  return NULL;
-}
-
-/* Inlined hash lookup. Specialized for key type and for const keys.
-** The equivalent C code is:
-**   Node *n = hashkey(t, key);
-**   do {
-**     if (lj_obj_equal(&n->key, key)) return &n->val;
-**   } while ((n = nextnode(n)));
-**   return niltv(L);
-*/
-static void asm_href(ASMState *as, IRIns *ir)
-{
-  MCode *nilexit = merge_href_niltv(as, ir);  /* Do this before any restores. */
-  RegSet allow = RSET_GPR;
-  Reg dest = ra_dest(as, ir, allow);
-  Reg tab = ra_alloc1(as, ir->op1, rset_clear(allow, dest));
-  Reg key = RID_NONE, tmp = RID_NONE;
-  IRIns *irkey = IR(ir->op2);
-  int isk = irref_isk(ir->op2);
-  IRType1 kt = irkey->t;
-  uint32_t khash;
-  MCLabel l_end, l_loop, l_next;
-
-  if (!isk) {
-    rset_clear(allow, tab);
-    key = ra_alloc1(as, ir->op2, irt_isnum(kt) ? RSET_FPR : allow);
-    if (!irt_isstr(kt))
-      tmp = ra_scratch(as, rset_exclude(allow, key));
-  }
-
-  /* Key not found in chain: jump to exit (if merged with NE) or load niltv. */
-  l_end = emit_label(as);
-  if (nilexit && ir[1].o == IR_NE) {
-    emit_jcc(as, CC_E, nilexit);  /* XI_JMP is not found by lj_asm_patchexit. */
-    nilexit = NULL;
-  } else {
-    emit_loada(as, dest, niltvg(J2G(as->J)));
-  }
-
-  /* Follow hash chain until the end. */
-  l_loop = emit_sjcc_label(as, CC_NZ);
-  emit_rr(as, XO_TEST, dest, dest);
-  emit_rmro(as, XO_MOV, dest, dest, offsetof(Node, next));
-  l_next = emit_label(as);
-
-  /* Type and value comparison. */
-  if (nilexit)
-    emit_jcc(as, CC_E, nilexit);
-  else
-    emit_sjcc(as, CC_E, l_end);
-  if (irt_isnum(kt)) {
-    if (isk) {
-      /* Assumes -0.0 is already canonicalized to +0.0. */
-      emit_gmroi(as, XG_ARITHi(XOg_CMP), dest, offsetof(Node, key.u32.lo),
-		 (int32_t)ir_knum(irkey)->u32.lo);
-      emit_sjcc(as, CC_NE, l_next);
-      emit_gmroi(as, XG_ARITHi(XOg_CMP), dest, offsetof(Node, key.u32.hi),
-		 (int32_t)ir_knum(irkey)->u32.hi);
-    } else {
-      emit_sjcc(as, CC_P, l_next);
-      emit_rmro(as, XO_UCOMISD, key, dest, offsetof(Node, key.n));
-      emit_sjcc(as, CC_AE, l_next);
-      /* The type check avoids NaN penalties and complaints from Valgrind. */
-#if LJ_64
-      emit_u32(as, LJ_TISNUM);
-      emit_rmro(as, XO_ARITHi, XOg_CMP, dest, offsetof(Node, key.it));
-#else
-      emit_i8(as, LJ_TISNUM);
-      emit_rmro(as, XO_ARITHi8, XOg_CMP, dest, offsetof(Node, key.it));
-#endif
-    }
-#if LJ_64
-  } else if (irt_islightud(kt)) {
-    emit_rmro(as, XO_CMP, key|REX_64, dest, offsetof(Node, key.u64));
-#endif
-  } else {
-    if (!irt_ispri(kt)) {
-      lua_assert(irt_isaddr(kt));
-      if (isk)
-	emit_gmroi(as, XG_ARITHi(XOg_CMP), dest, offsetof(Node, key.gcr),
-		   ptr2addr(ir_kgc(irkey)));
-      else
-	emit_rmro(as, XO_CMP, key, dest, offsetof(Node, key.gcr));
-      emit_sjcc(as, CC_NE, l_next);
-    }
-    lua_assert(!irt_isnil(kt));
-    emit_i8(as, irt_toitype(kt));
-    emit_rmro(as, XO_ARITHi8, XOg_CMP, dest, offsetof(Node, key.it));
-  }
-  emit_sfixup(as, l_loop);
-  checkmclim(as);
-
-  /* Load main position relative to tab->node into dest. */
-  khash = isk ? ir_khash(irkey) : 1;
-  if (khash == 0) {
-    emit_rmro(as, XO_MOV, dest, tab, offsetof(GCtab, node));
-  } else {
-    emit_rmro(as, XO_ARITH(XOg_ADD), dest, tab, offsetof(GCtab, node));
-    if ((as->flags & JIT_F_PREFER_IMUL)) {
-      emit_i8(as, sizeof(Node));
-      emit_rr(as, XO_IMULi8, dest, dest);
-    } else {
-      emit_shifti(as, XOg_SHL, dest, 3);
-      emit_rmrxo(as, XO_LEA, dest, dest, dest, XM_SCALE2, 0);
-    }
-    if (isk) {
-      emit_gri(as, XG_ARITHi(XOg_AND), dest, (int32_t)khash);
-      emit_rmro(as, XO_MOV, dest, tab, offsetof(GCtab, hmask));
-    } else if (irt_isstr(kt)) {
-      emit_rmro(as, XO_ARITH(XOg_AND), dest, key, offsetof(GCstr, hash));
-      emit_rmro(as, XO_MOV, dest, tab, offsetof(GCtab, hmask));
-    } else {  /* Must match with hashrot() in lj_tab.c. */
-      emit_rmro(as, XO_ARITH(XOg_AND), dest, tab, offsetof(GCtab, hmask));
-      emit_rr(as, XO_ARITH(XOg_SUB), dest, tmp);
-      emit_shifti(as, XOg_ROL, tmp, HASH_ROT3);
-      emit_rr(as, XO_ARITH(XOg_XOR), dest, tmp);
-      emit_shifti(as, XOg_ROL, dest, HASH_ROT2);
-      emit_rr(as, XO_ARITH(XOg_SUB), tmp, dest);
-      emit_shifti(as, XOg_ROL, dest, HASH_ROT1);
-      emit_rr(as, XO_ARITH(XOg_XOR), tmp, dest);
-      if (irt_isnum(kt)) {
-	emit_rr(as, XO_ARITH(XOg_ADD), dest, dest);
-#if LJ_64
-	emit_shifti(as, XOg_SHR|REX_64, dest, 32);
-	emit_rr(as, XO_MOV, tmp, dest);
-	emit_rr(as, XO_MOVDto, key|REX_64, dest);
-#else
-	emit_rmro(as, XO_MOV, dest, RID_ESP, ra_spill(as, irkey)+4);
-	emit_rr(as, XO_MOVDto, key, tmp);
-#endif
-      } else {
-	emit_rr(as, XO_MOV, tmp, key);
-	emit_rmro(as, XO_LEA, dest, key, HASH_BIAS);
-      }
-    }
-  }
-}
-
-static void asm_hrefk(ASMState *as, IRIns *ir)
-{
-  IRIns *kslot = IR(ir->op2);
-  IRIns *irkey = IR(kslot->op1);
-  int32_t ofs = (int32_t)(kslot->op2 * sizeof(Node));
-  Reg dest = ra_used(ir) ? ra_dest(as, ir, RSET_GPR) : RID_NONE;
-  Reg node = ra_alloc1(as, ir->op1, RSET_GPR);
-#if !LJ_64
-  MCLabel l_exit;
-#endif
-  lua_assert(ofs % sizeof(Node) == 0);
-  if (ra_hasreg(dest)) {
-    if (ofs != 0) {
-      if (dest == node && !(as->flags & JIT_F_LEA_AGU))
-	emit_gri(as, XG_ARITHi(XOg_ADD), dest, ofs);
-      else
-	emit_rmro(as, XO_LEA, dest, node, ofs);
-    } else if (dest != node) {
-      emit_rr(as, XO_MOV, dest, node);
-    }
-  }
-  asm_guardcc(as, CC_NE);
-#if LJ_64
-  if (!irt_ispri(irkey->t)) {
-    Reg key = ra_scratch(as, rset_exclude(RSET_GPR, node));
-    emit_rmro(as, XO_CMP, key|REX_64, node,
-	       ofs + (int32_t)offsetof(Node, key.u64));
-    lua_assert(irt_isnum(irkey->t) || irt_isgcv(irkey->t));
-    /* Assumes -0.0 is already canonicalized to +0.0. */
-    emit_loadu64(as, key, irt_isnum(irkey->t) ? ir_knum(irkey)->u64 :
-			  ((uint64_t)irt_toitype(irkey->t) << 32) |
-			  (uint64_t)(uint32_t)ptr2addr(ir_kgc(irkey)));
-  } else {
-    lua_assert(!irt_isnil(irkey->t));
-    emit_i8(as, irt_toitype(irkey->t));
-    emit_rmro(as, XO_ARITHi8, XOg_CMP, node,
-	      ofs + (int32_t)offsetof(Node, key.it));
-  }
-#else
-  l_exit = emit_label(as);
-  if (irt_isnum(irkey->t)) {
-    /* Assumes -0.0 is already canonicalized to +0.0. */
-    emit_gmroi(as, XG_ARITHi(XOg_CMP), node,
-	       ofs + (int32_t)offsetof(Node, key.u32.lo),
-	       (int32_t)ir_knum(irkey)->u32.lo);
-    emit_sjcc(as, CC_NE, l_exit);
-    emit_gmroi(as, XG_ARITHi(XOg_CMP), node,
-	       ofs + (int32_t)offsetof(Node, key.u32.hi),
-	       (int32_t)ir_knum(irkey)->u32.hi);
-  } else {
-    if (!irt_ispri(irkey->t)) {
-      lua_assert(irt_isgcv(irkey->t));
-      emit_gmroi(as, XG_ARITHi(XOg_CMP), node,
-		 ofs + (int32_t)offsetof(Node, key.gcr),
-		 ptr2addr(ir_kgc(irkey)));
-      emit_sjcc(as, CC_NE, l_exit);
-    }
-    lua_assert(!irt_isnil(irkey->t));
-    emit_i8(as, irt_toitype(irkey->t));
-    emit_rmro(as, XO_ARITHi8, XOg_CMP, node,
-	      ofs + (int32_t)offsetof(Node, key.it));
-  }
-#endif
-}
-
-static void asm_newref(ASMState *as, IRIns *ir)
-{
-  const CCallInfo *ci = &lj_ir_callinfo[IRCALL_lj_tab_newkey];
-  IRRef args[3];
-  IRIns *irkey;
-  Reg tmp;
-  if (ir->r == RID_SINK)
-    return;
-  args[0] = ASMREF_L;     /* lua_State *L */
-  args[1] = ir->op1;      /* GCtab *t     */
-  args[2] = ASMREF_TMP1;  /* cTValue *key */
-  asm_setupresult(as, ir, ci);  /* TValue * */
-  asm_gencall(as, ci, args);
-  tmp = ra_releasetmp(as, ASMREF_TMP1);
-  irkey = IR(ir->op2);
-  if (irt_isnum(irkey->t)) {
-    /* For numbers use the constant itself or a spill slot as a TValue. */
-    if (irref_isk(ir->op2))
-      emit_loada(as, tmp, ir_knum(irkey));
-    else
-      emit_rmro(as, XO_LEA, tmp|REX_64, RID_ESP, ra_spill(as, irkey));
-  } else {
-    /* Otherwise use g->tmptv to hold the TValue. */
-    if (!irref_isk(ir->op2)) {
-      Reg src = ra_alloc1(as, ir->op2, rset_exclude(RSET_GPR, tmp));
-      emit_movtomro(as, REX_64IR(irkey, src), tmp, 0);
-    } else if (!irt_ispri(irkey->t)) {
-      emit_movmroi(as, tmp, 0, irkey->i);
-    }
-    if (!(LJ_64 && irt_islightud(irkey->t)))
-      emit_movmroi(as, tmp, 4, irt_toitype(irkey->t));
-    emit_loada(as, tmp, &J2G(as->J)->tmptv);
-  }
-}
-
-static void asm_uref(ASMState *as, IRIns *ir)
-{
-  /* NYI: Check that UREFO is still open and not aliasing a slot. */
-  Reg dest = ra_dest(as, ir, RSET_GPR);
-  if (irref_isk(ir->op1)) {
-    GCfunc *fn = ir_kfunc(IR(ir->op1));
-    MRef *v = &gcref(fn->l.uvptr[(ir->op2 >> 8)])->uv.v;
-    emit_rma(as, XO_MOV, dest, v);
-  } else {
-    Reg uv = ra_scratch(as, RSET_GPR);
-    Reg func = ra_alloc1(as, ir->op1, RSET_GPR);
-    if (ir->o == IR_UREFC) {
-      emit_rmro(as, XO_LEA, dest, uv, offsetof(GCupval, tv));
-      asm_guardcc(as, CC_NE);
-      emit_i8(as, 1);
-      emit_rmro(as, XO_ARITHib, XOg_CMP, uv, offsetof(GCupval, closed));
-    } else {
-      emit_rmro(as, XO_MOV, dest, uv, offsetof(GCupval, v));
-    }
-    emit_rmro(as, XO_MOV, uv, func,
-	      (int32_t)offsetof(GCfuncL, uvptr) + 4*(int32_t)(ir->op2 >> 8));
-  }
-}
-
-static void asm_fref(ASMState *as, IRIns *ir)
-{
-  Reg dest = ra_dest(as, ir, RSET_GPR);
-  asm_fusefref(as, ir, RSET_GPR);
-  emit_mrm(as, XO_LEA, dest, RID_MRM);
-}
-
-static void asm_strref(ASMState *as, IRIns *ir)
-{
-  Reg dest = ra_dest(as, ir, RSET_GPR);
-  asm_fusestrref(as, ir, RSET_GPR);
-  if (as->mrm.base == RID_NONE)
-    emit_loadi(as, dest, as->mrm.ofs);
-  else if (as->mrm.base == dest && as->mrm.idx == RID_NONE)
-    emit_gri(as, XG_ARITHi(XOg_ADD), dest, as->mrm.ofs);
-  else
-    emit_mrm(as, XO_LEA, dest, RID_MRM);
-}
-
-/* -- Loads and stores ---------------------------------------------------- */
-
-static void asm_fxload(ASMState *as, IRIns *ir)
-{
-  Reg dest = ra_dest(as, ir, irt_isfp(ir->t) ? RSET_FPR : RSET_GPR);
-  x86Op xo;
-  if (ir->o == IR_FLOAD)
-    asm_fusefref(as, ir, RSET_GPR);
-  else
-    asm_fusexref(as, ir->op1, RSET_GPR);
-  /* ir->op2 is ignored -- unaligned loads are ok on x86. */
-  switch (irt_type(ir->t)) {
-  case IRT_I8: xo = XO_MOVSXb; break;
-  case IRT_U8: xo = XO_MOVZXb; break;
-  case IRT_I16: xo = XO_MOVSXw; break;
-  case IRT_U16: xo = XO_MOVZXw; break;
-  case IRT_NUM: xo = XMM_MOVRM(as); break;
-  case IRT_FLOAT: xo = XO_MOVSS; break;
-  default:
-    if (LJ_64 && irt_is64(ir->t))
-      dest |= REX_64;
-    else
-      lua_assert(irt_isint(ir->t) || irt_isu32(ir->t) || irt_isaddr(ir->t));
-    xo = XO_MOV;
-    break;
-  }
-  emit_mrm(as, xo, dest, RID_MRM);
-}
-
-static void asm_fxstore(ASMState *as, IRIns *ir)
-{
-  RegSet allow = RSET_GPR;
-  Reg src = RID_NONE, osrc = RID_NONE;
-  int32_t k = 0;
-  if (ir->r == RID_SINK)
-    return;
-  /* The IRT_I16/IRT_U16 stores should never be simplified for constant
-  ** values since mov word [mem], imm16 has a length-changing prefix.
-  */
-  if (irt_isi16(ir->t) || irt_isu16(ir->t) || irt_isfp(ir->t) ||
-      !asm_isk32(as, ir->op2, &k)) {
-    RegSet allow8 = irt_isfp(ir->t) ? RSET_FPR :
-		    (irt_isi8(ir->t) || irt_isu8(ir->t)) ? RSET_GPR8 : RSET_GPR;
-    src = osrc = ra_alloc1(as, ir->op2, allow8);
-    if (!LJ_64 && !rset_test(allow8, src)) {  /* Already in wrong register. */
-      rset_clear(allow, osrc);
-      src = ra_scratch(as, allow8);
-    }
-    rset_clear(allow, src);
-  }
-  if (ir->o == IR_FSTORE) {
-    asm_fusefref(as, IR(ir->op1), allow);
-  } else {
-    asm_fusexref(as, ir->op1, allow);
-    if (LJ_32 && ir->o == IR_HIOP) as->mrm.ofs += 4;
-  }
-  if (ra_hasreg(src)) {
-    x86Op xo;
-    switch (irt_type(ir->t)) {
-    case IRT_I8: case IRT_U8: xo = XO_MOVtob; src |= FORCE_REX; break;
-    case IRT_I16: case IRT_U16: xo = XO_MOVtow; break;
-    case IRT_NUM: xo = XO_MOVSDto; break;
-    case IRT_FLOAT: xo = XO_MOVSSto; break;
-#if LJ_64
-    case IRT_LIGHTUD: lua_assert(0);  /* NYI: mask 64 bit lightuserdata. */
-#endif
-    default:
-      if (LJ_64 && irt_is64(ir->t))
-	src |= REX_64;
-      else
-	lua_assert(irt_isint(ir->t) || irt_isu32(ir->t) || irt_isaddr(ir->t));
-      xo = XO_MOVto;
-      break;
-    }
-    emit_mrm(as, xo, src, RID_MRM);
-    if (!LJ_64 && src != osrc) {
-      ra_noweak(as, osrc);
-      emit_rr(as, XO_MOV, src, osrc);
-    }
-  } else {
-    if (irt_isi8(ir->t) || irt_isu8(ir->t)) {
-      emit_i8(as, k);
-      emit_mrm(as, XO_MOVmib, 0, RID_MRM);
-    } else {
-      lua_assert(irt_is64(ir->t) || irt_isint(ir->t) || irt_isu32(ir->t) ||
-		 irt_isaddr(ir->t));
-      emit_i32(as, k);
-      emit_mrm(as, XO_MOVmi, REX_64IR(ir, 0), RID_MRM);
-    }
-  }
-}
-
-#if LJ_64
-static Reg asm_load_lightud64(ASMState *as, IRIns *ir, int typecheck)
-{
-  if (ra_used(ir) || typecheck) {
-    Reg dest = ra_dest(as, ir, RSET_GPR);
-    if (typecheck) {
-      Reg tmp = ra_scratch(as, rset_exclude(RSET_GPR, dest));
-      asm_guardcc(as, CC_NE);
-      emit_i8(as, -2);
-      emit_rr(as, XO_ARITHi8, XOg_CMP, tmp);
-      emit_shifti(as, XOg_SAR|REX_64, tmp, 47);
-      emit_rr(as, XO_MOV, tmp|REX_64, dest);
-    }
-    return dest;
-  } else {
-    return RID_NONE;
-  }
-}
-#endif
-
-static void asm_ahuvload(ASMState *as, IRIns *ir)
-{
-  lua_assert(irt_isnum(ir->t) || irt_ispri(ir->t) || irt_isaddr(ir->t) ||
-	     (LJ_DUALNUM && irt_isint(ir->t)));
-#if LJ_64
-  if (irt_islightud(ir->t)) {
-    Reg dest = asm_load_lightud64(as, ir, 1);
-    if (ra_hasreg(dest)) {
-      asm_fuseahuref(as, ir->op1, RSET_GPR);
-      emit_mrm(as, XO_MOV, dest|REX_64, RID_MRM);
-    }
-    return;
-  } else
-#endif
-  if (ra_used(ir)) {
-    RegSet allow = irt_isnum(ir->t) ? RSET_FPR : RSET_GPR;
-    Reg dest = ra_dest(as, ir, allow);
-    asm_fuseahuref(as, ir->op1, RSET_GPR);
-    emit_mrm(as, dest < RID_MAX_GPR ? XO_MOV : XMM_MOVRM(as), dest, RID_MRM);
-  } else {
-    asm_fuseahuref(as, ir->op1, RSET_GPR);
-  }
-  /* Always do the type check, even if the load result is unused. */
-  as->mrm.ofs += 4;
-  asm_guardcc(as, irt_isnum(ir->t) ? CC_AE : CC_NE);
-  if (LJ_64 && irt_type(ir->t) >= IRT_NUM) {
-    lua_assert(irt_isinteger(ir->t) || irt_isnum(ir->t));
-    emit_u32(as, LJ_TISNUM);
-    emit_mrm(as, XO_ARITHi, XOg_CMP, RID_MRM);
-  } else {
-    emit_i8(as, irt_toitype(ir->t));
-    emit_mrm(as, XO_ARITHi8, XOg_CMP, RID_MRM);
-  }
-}
-
-static void asm_ahustore(ASMState *as, IRIns *ir)
-{
-  if (ir->r == RID_SINK)
-    return;
-  if (irt_isnum(ir->t)) {
-    Reg src = ra_alloc1(as, ir->op2, RSET_FPR);
-    asm_fuseahuref(as, ir->op1, RSET_GPR);
-    emit_mrm(as, XO_MOVSDto, src, RID_MRM);
-#if LJ_64
-  } else if (irt_islightud(ir->t)) {
-    Reg src = ra_alloc1(as, ir->op2, RSET_GPR);
-    asm_fuseahuref(as, ir->op1, rset_exclude(RSET_GPR, src));
-    emit_mrm(as, XO_MOVto, src|REX_64, RID_MRM);
-#endif
-  } else {
-    IRIns *irr = IR(ir->op2);
-    RegSet allow = RSET_GPR;
-    Reg src = RID_NONE;
-    if (!irref_isk(ir->op2)) {
-      src = ra_alloc1(as, ir->op2, allow);
-      rset_clear(allow, src);
-    }
-    asm_fuseahuref(as, ir->op1, allow);
-    if (ra_hasreg(src)) {
-      emit_mrm(as, XO_MOVto, src, RID_MRM);
-    } else if (!irt_ispri(irr->t)) {
-      lua_assert(irt_isaddr(ir->t) || (LJ_DUALNUM && irt_isinteger(ir->t)));
-      emit_i32(as, irr->i);
-      emit_mrm(as, XO_MOVmi, 0, RID_MRM);
-    }
-    as->mrm.ofs += 4;
-    emit_i32(as, (int32_t)irt_toitype(ir->t));
-    emit_mrm(as, XO_MOVmi, 0, RID_MRM);
-  }
-}
-
-static void asm_sload(ASMState *as, IRIns *ir)
-{
-  int32_t ofs = 8*((int32_t)ir->op1-1) + ((ir->op2 & IRSLOAD_FRAME) ? 4 : 0);
-  IRType1 t = ir->t;
-  Reg base;
-  lua_assert(!(ir->op2 & IRSLOAD_PARENT));  /* Handled by asm_head_side(). */
-  lua_assert(irt_isguard(t) || !(ir->op2 & IRSLOAD_TYPECHECK));
-  lua_assert(LJ_DUALNUM ||
-	     !irt_isint(t) || (ir->op2 & (IRSLOAD_CONVERT|IRSLOAD_FRAME)));
-  if ((ir->op2 & IRSLOAD_CONVERT) && irt_isguard(t) && irt_isint(t)) {
-    Reg left = ra_scratch(as, RSET_FPR);
-    asm_tointg(as, ir, left);  /* Frees dest reg. Do this before base alloc. */
-    base = ra_alloc1(as, REF_BASE, RSET_GPR);
-    emit_rmro(as, XMM_MOVRM(as), left, base, ofs);
-    t.irt = IRT_NUM;  /* Continue with a regular number type check. */
-#if LJ_64
-  } else if (irt_islightud(t)) {
-    Reg dest = asm_load_lightud64(as, ir, (ir->op2 & IRSLOAD_TYPECHECK));
-    if (ra_hasreg(dest)) {
-      base = ra_alloc1(as, REF_BASE, RSET_GPR);
-      emit_rmro(as, XO_MOV, dest|REX_64, base, ofs);
-    }
-    return;
-#endif
-  } else if (ra_used(ir)) {
-    RegSet allow = irt_isnum(t) ? RSET_FPR : RSET_GPR;
-    Reg dest = ra_dest(as, ir, allow);
-    base = ra_alloc1(as, REF_BASE, RSET_GPR);
-    lua_assert(irt_isnum(t) || irt_isint(t) || irt_isaddr(t));
-    if ((ir->op2 & IRSLOAD_CONVERT)) {
-      t.irt = irt_isint(t) ? IRT_NUM : IRT_INT;  /* Check for original type. */
-      emit_rmro(as, irt_isint(t) ? XO_CVTSI2SD : XO_CVTSD2SI, dest, base, ofs);
-    } else if (irt_isnum(t)) {
-      emit_rmro(as, XMM_MOVRM(as), dest, base, ofs);
-    } else {
-      emit_rmro(as, XO_MOV, dest, base, ofs);
-    }
-  } else {
-    if (!(ir->op2 & IRSLOAD_TYPECHECK))
-      return;  /* No type check: avoid base alloc. */
-    base = ra_alloc1(as, REF_BASE, RSET_GPR);
-  }
-  if ((ir->op2 & IRSLOAD_TYPECHECK)) {
-    /* Need type check, even if the load result is unused. */
-    asm_guardcc(as, irt_isnum(t) ? CC_AE : CC_NE);
-    if (LJ_64 && irt_type(t) >= IRT_NUM) {
-      lua_assert(irt_isinteger(t) || irt_isnum(t));
-      emit_u32(as, LJ_TISNUM);
-      emit_rmro(as, XO_ARITHi, XOg_CMP, base, ofs+4);
-    } else {
-      emit_i8(as, irt_toitype(t));
-      emit_rmro(as, XO_ARITHi8, XOg_CMP, base, ofs+4);
-    }
-  }
-}
-
-/* -- Allocations --------------------------------------------------------- */
-
-#if LJ_HASFFI
-static void asm_cnew(ASMState *as, IRIns *ir)
-{
-  CTState *cts = ctype_ctsG(J2G(as->J));
-  CTypeID ctypeid = (CTypeID)IR(ir->op1)->i;
-  CTSize sz = (ir->o == IR_CNEWI || ir->op2 == REF_NIL) ?
-	      lj_ctype_size(cts, ctypeid) : (CTSize)IR(ir->op2)->i;
-  const CCallInfo *ci = &lj_ir_callinfo[IRCALL_lj_mem_newgco];
-  IRRef args[2];
-  lua_assert(sz != CTSIZE_INVALID);
-
-  args[0] = ASMREF_L;     /* lua_State *L */
-  args[1] = ASMREF_TMP1;  /* MSize size   */
-  as->gcsteps++;
-  asm_setupresult(as, ir, ci);  /* GCcdata * */
-
-  /* Initialize immutable cdata object. */
-  if (ir->o == IR_CNEWI) {
-    RegSet allow = (RSET_GPR & ~RSET_SCRATCH);
-#if LJ_64
-    Reg r64 = sz == 8 ? REX_64 : 0;
-    if (irref_isk(ir->op2)) {
-      IRIns *irk = IR(ir->op2);
-      uint64_t k = irk->o == IR_KINT64 ? ir_k64(irk)->u64 :
-					 (uint64_t)(uint32_t)irk->i;
-      if (sz == 4 || checki32((int64_t)k)) {
-	emit_i32(as, (int32_t)k);
-	emit_rmro(as, XO_MOVmi, r64, RID_RET, sizeof(GCcdata));
-      } else {
-	emit_movtomro(as, RID_ECX + r64, RID_RET, sizeof(GCcdata));
-	emit_loadu64(as, RID_ECX, k);
-      }
-    } else {
-      Reg r = ra_alloc1(as, ir->op2, allow);
-      emit_movtomro(as, r + r64, RID_RET, sizeof(GCcdata));
-    }
-#else
-    int32_t ofs = sizeof(GCcdata);
-    if (sz == 8) {
-      ofs += 4; ir++;
-      lua_assert(ir->o == IR_HIOP);
-    }
-    do {
-      if (irref_isk(ir->op2)) {
-	emit_movmroi(as, RID_RET, ofs, IR(ir->op2)->i);
-      } else {
-	Reg r = ra_alloc1(as, ir->op2, allow);
-	emit_movtomro(as, r, RID_RET, ofs);
-	rset_clear(allow, r);
-      }
-      if (ofs == sizeof(GCcdata)) break;
-      ofs -= 4; ir--;
-    } while (1);
-#endif
-    lua_assert(sz == 4 || sz == 8);
-  }
-
-  /* Combine initialization of marked, gct and ctypeid. */
-  emit_movtomro(as, RID_ECX, RID_RET, offsetof(GCcdata, marked));
-  emit_gri(as, XG_ARITHi(XOg_OR), RID_ECX,
-	   (int32_t)((~LJ_TCDATA<<8)+(ctypeid<<16)));
-  emit_gri(as, XG_ARITHi(XOg_AND), RID_ECX, LJ_GC_WHITES);
-  emit_opgl(as, XO_MOVZXb, RID_ECX, gc.currentwhite);
-
-  asm_gencall(as, ci, args);
-  emit_loadi(as, ra_releasetmp(as, ASMREF_TMP1), (int32_t)(sz+sizeof(GCcdata)));
-}
-#else
-#define asm_cnew(as, ir)	((void)0)
-#endif
-
-/* -- Write barriers ------------------------------------------------------ */
-
-static void asm_tbar(ASMState *as, IRIns *ir)
-{
-  Reg tab = ra_alloc1(as, ir->op1, RSET_GPR);
-  Reg tmp = ra_scratch(as, rset_exclude(RSET_GPR, tab));
-  MCLabel l_end = emit_label(as);
-  emit_movtomro(as, tmp, tab, offsetof(GCtab, gclist));
-  emit_setgl(as, tab, gc.grayagain);
-  emit_getgl(as, tmp, gc.grayagain);
-  emit_i8(as, ~LJ_GC_BLACK);
-  emit_rmro(as, XO_ARITHib, XOg_AND, tab, offsetof(GCtab, marked));
-  emit_sjcc(as, CC_Z, l_end);
-  emit_i8(as, LJ_GC_BLACK);
-  emit_rmro(as, XO_GROUP3b, XOg_TEST, tab, offsetof(GCtab, marked));
-}
-
-static void asm_obar(ASMState *as, IRIns *ir)
-{
-  const CCallInfo *ci = &lj_ir_callinfo[IRCALL_lj_gc_barrieruv];
-  IRRef args[2];
-  MCLabel l_end;
-  Reg obj;
-  /* No need for other object barriers (yet). */
-  lua_assert(IR(ir->op1)->o == IR_UREFC);
-  ra_evictset(as, RSET_SCRATCH);
-  l_end = emit_label(as);
-  args[0] = ASMREF_TMP1;  /* global_State *g */
-  args[1] = ir->op1;      /* TValue *tv      */
-  asm_gencall(as, ci, args);
-  emit_loada(as, ra_releasetmp(as, ASMREF_TMP1), J2G(as->J));
-  obj = IR(ir->op1)->r;
-  emit_sjcc(as, CC_Z, l_end);
-  emit_i8(as, LJ_GC_WHITES);
-  if (irref_isk(ir->op2)) {
-    GCobj *vp = ir_kgc(IR(ir->op2));
-    emit_rma(as, XO_GROUP3b, XOg_TEST, &vp->gch.marked);
-  } else {
-    Reg val = ra_alloc1(as, ir->op2, rset_exclude(RSET_SCRATCH&RSET_GPR, obj));
-    emit_rmro(as, XO_GROUP3b, XOg_TEST, val, (int32_t)offsetof(GChead, marked));
-  }
-  emit_sjcc(as, CC_Z, l_end);
-  emit_i8(as, LJ_GC_BLACK);
-  emit_rmro(as, XO_GROUP3b, XOg_TEST, obj,
-	    (int32_t)offsetof(GCupval, marked)-(int32_t)offsetof(GCupval, tv));
-}
-
-/* -- FP/int arithmetic and logic operations ------------------------------ */
-
-/* Load reference onto x87 stack. Force a spill to memory if needed. */
-static void asm_x87load(ASMState *as, IRRef ref)
-{
-  IRIns *ir = IR(ref);
-  if (ir->o == IR_KNUM) {
-    cTValue *tv = ir_knum(ir);
-    if (tvispzero(tv))  /* Use fldz only for +0. */
-      emit_x87op(as, XI_FLDZ);
-    else if (tvispone(tv))
-      emit_x87op(as, XI_FLD1);
-    else
-      emit_rma(as, XO_FLDq, XOg_FLDq, tv);
-  } else if (ir->o == IR_CONV && ir->op2 == IRCONV_NUM_INT && !ra_used(ir) &&
-	     !irref_isk(ir->op1) && mayfuse(as, ir->op1)) {
-    IRIns *iri = IR(ir->op1);
-    emit_rmro(as, XO_FILDd, XOg_FILDd, RID_ESP, ra_spill(as, iri));
-  } else {
-    emit_mrm(as, XO_FLDq, XOg_FLDq, asm_fuseload(as, ref, RSET_EMPTY));
-  }
-}
-
-/* Try to rejoin pow from EXP2, MUL and LOG2 (if still unsplit). */
-static int fpmjoin_pow(ASMState *as, IRIns *ir)
-{
-  IRIns *irp = IR(ir->op1);
-  if (irp == ir-1 && irp->o == IR_MUL && !ra_used(irp)) {
-    IRIns *irpp = IR(irp->op1);
-    if (irpp == ir-2 && irpp->o == IR_FPMATH &&
-	irpp->op2 == IRFPM_LOG2 && !ra_used(irpp)) {
-      /* The modified regs must match with the *.dasc implementation. */
-      RegSet drop = RSET_RANGE(RID_XMM0, RID_XMM2+1)|RID2RSET(RID_EAX);
-      IRIns *irx;
-      if (ra_hasreg(ir->r))
-	rset_clear(drop, ir->r);  /* Dest reg handled below. */
-      ra_evictset(as, drop);
-      ra_destreg(as, ir, RID_XMM0);
-      emit_call(as, lj_vm_pow_sse);
-      irx = IR(irpp->op1);
-      if (ra_noreg(irx->r) && ra_gethint(irx->r) == RID_XMM1)
-	irx->r = RID_INIT;  /* Avoid allocating xmm1 for x. */
-      ra_left(as, RID_XMM0, irpp->op1);
-      ra_left(as, RID_XMM1, irp->op2);
-      return 1;
-    }
-  }
-  return 0;
-}
-
-static void asm_fpmath(ASMState *as, IRIns *ir)
-{
-  IRFPMathOp fpm = ir->o == IR_FPMATH ? (IRFPMathOp)ir->op2 : IRFPM_OTHER;
-  if (fpm == IRFPM_SQRT) {
-    Reg dest = ra_dest(as, ir, RSET_FPR);
-    Reg left = asm_fuseload(as, ir->op1, RSET_FPR);
-    emit_mrm(as, XO_SQRTSD, dest, left);
-  } else if (fpm <= IRFPM_TRUNC) {
-    if (as->flags & JIT_F_SSE4_1) {  /* SSE4.1 has a rounding instruction. */
-      Reg dest = ra_dest(as, ir, RSET_FPR);
-      Reg left = asm_fuseload(as, ir->op1, RSET_FPR);
-      /* ROUNDSD has a 4-byte opcode which doesn't fit in x86Op.
-      ** Let's pretend it's a 3-byte opcode, and compensate afterwards.
-      ** This is atrocious, but the alternatives are much worse.
-      */
-      /* Round down/up/trunc == 1001/1010/1011. */
-      emit_i8(as, 0x09 + fpm);
-      emit_mrm(as, XO_ROUNDSD, dest, left);
-      if (LJ_64 && as->mcp[1] != (MCode)(XO_ROUNDSD >> 16)) {
-	as->mcp[0] = as->mcp[1]; as->mcp[1] = 0x0f;  /* Swap 0F and REX. */
-      }
-      *--as->mcp = 0x66;  /* 1st byte of ROUNDSD opcode. */
-    } else {  /* Call helper functions for SSE2 variant. */
-      /* The modified regs must match with the *.dasc implementation. */
-      RegSet drop = RSET_RANGE(RID_XMM0, RID_XMM3+1)|RID2RSET(RID_EAX);
-      if (ra_hasreg(ir->r))
-	rset_clear(drop, ir->r);  /* Dest reg handled below. */
-      ra_evictset(as, drop);
-      ra_destreg(as, ir, RID_XMM0);
-      emit_call(as, fpm == IRFPM_FLOOR ? lj_vm_floor_sse :
-		    fpm == IRFPM_CEIL ? lj_vm_ceil_sse : lj_vm_trunc_sse);
-      ra_left(as, RID_XMM0, ir->op1);
-    }
-  } else if (fpm == IRFPM_EXP2 && fpmjoin_pow(as, ir)) {
-    /* Rejoined to pow(). */
-  } else {  /* Handle x87 ops. */
-    int32_t ofs = sps_scale(ir->s);  /* Use spill slot or temp slots. */
-    Reg dest = ir->r;
-    if (ra_hasreg(dest)) {
-      ra_free(as, dest);
-      ra_modified(as, dest);
-      emit_rmro(as, XMM_MOVRM(as), dest, RID_ESP, ofs);
-    }
-    emit_rmro(as, XO_FSTPq, XOg_FSTPq, RID_ESP, ofs);
-    switch (fpm) {  /* st0 = lj_vm_*(st0) */
-    case IRFPM_EXP: emit_call(as, lj_vm_exp_x87); break;
-    case IRFPM_EXP2: emit_call(as, lj_vm_exp2_x87); break;
-    case IRFPM_SIN: emit_x87op(as, XI_FSIN); break;
-    case IRFPM_COS: emit_x87op(as, XI_FCOS); break;
-    case IRFPM_TAN: emit_x87op(as, XI_FPOP); emit_x87op(as, XI_FPTAN); break;
-    case IRFPM_LOG: case IRFPM_LOG2: case IRFPM_LOG10:
-      /* Note: the use of fyl2xp1 would be pointless here. When computing
-      ** log(1.0+eps) the precision is already lost after 1.0 is added.
-      ** Subtracting 1.0 won't recover it. OTOH math.log1p would make sense.
-      */
-      emit_x87op(as, XI_FYL2X); break;
-    case IRFPM_OTHER:
-      switch (ir->o) {
-      case IR_ATAN2:
-	emit_x87op(as, XI_FPATAN); asm_x87load(as, ir->op2); break;
-      case IR_LDEXP:
-	emit_x87op(as, XI_FPOP1); emit_x87op(as, XI_FSCALE); break;
-      default: lua_assert(0); break;
-      }
-      break;
-    default: lua_assert(0); break;
-    }
-    asm_x87load(as, ir->op1);
-    switch (fpm) {
-    case IRFPM_LOG: emit_x87op(as, XI_FLDLN2); break;
-    case IRFPM_LOG2: emit_x87op(as, XI_FLD1); break;
-    case IRFPM_LOG10: emit_x87op(as, XI_FLDLG2); break;
-    case IRFPM_OTHER:
-      if (ir->o == IR_LDEXP) asm_x87load(as, ir->op2);
-      break;
-    default: break;
-    }
-  }
-}
-
-static void asm_fppowi(ASMState *as, IRIns *ir)
-{
-  /* The modified regs must match with the *.dasc implementation. */
-  RegSet drop = RSET_RANGE(RID_XMM0, RID_XMM1+1)|RID2RSET(RID_EAX);
-  if (ra_hasreg(ir->r))
-    rset_clear(drop, ir->r);  /* Dest reg handled below. */
-  ra_evictset(as, drop);
-  ra_destreg(as, ir, RID_XMM0);
-  emit_call(as, lj_vm_powi_sse);
-  ra_left(as, RID_XMM0, ir->op1);
-  ra_left(as, RID_EAX, ir->op2);
-}
-
-#if LJ_64 && LJ_HASFFI
-static void asm_arith64(ASMState *as, IRIns *ir, IRCallID id)
-{
-  const CCallInfo *ci = &lj_ir_callinfo[id];
-  IRRef args[2];
-  args[0] = ir->op1;
-  args[1] = ir->op2;
-  asm_setupresult(as, ir, ci);
-  asm_gencall(as, ci, args);
-}
-#endif
-
-static void asm_intmod(ASMState *as, IRIns *ir)
-{
-  const CCallInfo *ci = &lj_ir_callinfo[IRCALL_lj_vm_modi];
-  IRRef args[2];
-  args[0] = ir->op1;
-  args[1] = ir->op2;
-  asm_setupresult(as, ir, ci);
-  asm_gencall(as, ci, args);
-}
-
-static int asm_swapops(ASMState *as, IRIns *ir)
-{
-  IRIns *irl = IR(ir->op1);
-  IRIns *irr = IR(ir->op2);
-  lua_assert(ra_noreg(irr->r));
-  if (!irm_iscomm(lj_ir_mode[ir->o]))
-    return 0;  /* Can't swap non-commutative operations. */
-  if (irref_isk(ir->op2))
-    return 0;  /* Don't swap constants to the left. */
-  if (ra_hasreg(irl->r))
-    return 1;  /* Swap if left already has a register. */
-  if (ra_samehint(ir->r, irr->r))
-    return 1;  /* Swap if dest and right have matching hints. */
-  if (as->curins > as->loopref) {  /* In variant part? */
-    if (ir->op2 < as->loopref && !irt_isphi(irr->t))
-      return 0;  /* Keep invariants on the right. */
-    if (ir->op1 < as->loopref && !irt_isphi(irl->t))
-      return 1;  /* Swap invariants to the right. */
-  }
-  if (opisfusableload(irl->o))
-    return 1;  /* Swap fusable loads to the right. */
-  return 0;  /* Otherwise don't swap. */
-}
-
-static void asm_fparith(ASMState *as, IRIns *ir, x86Op xo)
-{
-  IRRef lref = ir->op1;
-  IRRef rref = ir->op2;
-  RegSet allow = RSET_FPR;
-  Reg dest;
-  Reg right = IR(rref)->r;
-  if (ra_hasreg(right)) {
-    rset_clear(allow, right);
-    ra_noweak(as, right);
-  }
-  dest = ra_dest(as, ir, allow);
-  if (lref == rref) {
-    right = dest;
-  } else if (ra_noreg(right)) {
-    if (asm_swapops(as, ir)) {
-      IRRef tmp = lref; lref = rref; rref = tmp;
-    }
-    right = asm_fuseload(as, rref, rset_clear(allow, dest));
-  }
-  emit_mrm(as, xo, dest, right);
-  ra_left(as, dest, lref);
-}
-
-static void asm_intarith(ASMState *as, IRIns *ir, x86Arith xa)
-{
-  IRRef lref = ir->op1;
-  IRRef rref = ir->op2;
-  RegSet allow = RSET_GPR;
-  Reg dest, right;
-  int32_t k = 0;
-  if (as->flagmcp == as->mcp) {  /* Drop test r,r instruction. */
-    as->flagmcp = NULL;
-    as->mcp += (LJ_64 && *as->mcp < XI_TESTb) ? 3 : 2;
-  }
-  right = IR(rref)->r;
-  if (ra_hasreg(right)) {
-    rset_clear(allow, right);
-    ra_noweak(as, right);
-  }
-  dest = ra_dest(as, ir, allow);
-  if (lref == rref) {
-    right = dest;
-  } else if (ra_noreg(right) && !asm_isk32(as, rref, &k)) {
-    if (asm_swapops(as, ir)) {
-      IRRef tmp = lref; lref = rref; rref = tmp;
-    }
-    right = asm_fuseloadm(as, rref, rset_clear(allow, dest), irt_is64(ir->t));
-  }
-  if (irt_isguard(ir->t))  /* For IR_ADDOV etc. */
-    asm_guardcc(as, CC_O);
-  if (xa != XOg_X_IMUL) {
-    if (ra_hasreg(right))
-      emit_mrm(as, XO_ARITH(xa), REX_64IR(ir, dest), right);
-    else
-      emit_gri(as, XG_ARITHi(xa), REX_64IR(ir, dest), k);
-  } else if (ra_hasreg(right)) {  /* IMUL r, mrm. */
-    emit_mrm(as, XO_IMUL, REX_64IR(ir, dest), right);
-  } else {  /* IMUL r, r, k. */
-    /* NYI: use lea/shl/add/sub (FOLD only does 2^k) depending on CPU. */
-    Reg left = asm_fuseloadm(as, lref, RSET_GPR, irt_is64(ir->t));
-    x86Op xo;
-    if (checki8(k)) { emit_i8(as, k); xo = XO_IMULi8;
-    } else { emit_i32(as, k); xo = XO_IMULi; }
-    emit_mrm(as, xo, REX_64IR(ir, dest), left);
-    return;
-  }
-  ra_left(as, dest, lref);
-}
-
-/* LEA is really a 4-operand ADD with an independent destination register,
-** up to two source registers and an immediate. One register can be scaled
-** by 1, 2, 4 or 8. This can be used to avoid moves or to fuse several
-** instructions.
-**
-** Currently only a few common cases are supported:
-** - 3-operand ADD:    y = a+b; y = a+k   with a and b already allocated
-** - Left ADD fusion:  y = (a+b)+k; y = (a+k)+b
-** - Right ADD fusion: y = a+(b+k)
-** The ommited variants have already been reduced by FOLD.
-**
-** There are more fusion opportunities, like gathering shifts or joining
-** common references. But these are probably not worth the trouble, since
-** array indexing is not decomposed and already makes use of all fields
-** of the ModRM operand.
-*/
-static int asm_lea(ASMState *as, IRIns *ir)
-{
-  IRIns *irl = IR(ir->op1);
-  IRIns *irr = IR(ir->op2);
-  RegSet allow = RSET_GPR;
-  Reg dest;
-  as->mrm.base = as->mrm.idx = RID_NONE;
-  as->mrm.scale = XM_SCALE1;
-  as->mrm.ofs = 0;
-  if (ra_hasreg(irl->r)) {
-    rset_clear(allow, irl->r);
-    ra_noweak(as, irl->r);
-    as->mrm.base = irl->r;
-    if (irref_isk(ir->op2) || ra_hasreg(irr->r)) {
-      /* The PHI renaming logic does a better job in some cases. */
-      if (ra_hasreg(ir->r) &&
-	  ((irt_isphi(irl->t) && as->phireg[ir->r] == ir->op1) ||
-	   (irt_isphi(irr->t) && as->phireg[ir->r] == ir->op2)))
-	return 0;
-      if (irref_isk(ir->op2)) {
-	as->mrm.ofs = irr->i;
-      } else {
-	rset_clear(allow, irr->r);
-	ra_noweak(as, irr->r);
-	as->mrm.idx = irr->r;
-      }
-    } else if (irr->o == IR_ADD && mayfuse(as, ir->op2) &&
-	       irref_isk(irr->op2)) {
-      Reg idx = ra_alloc1(as, irr->op1, allow);
-      rset_clear(allow, idx);
-      as->mrm.idx = (uint8_t)idx;
-      as->mrm.ofs = IR(irr->op2)->i;
-    } else {
-      return 0;
-    }
-  } else if (ir->op1 != ir->op2 && irl->o == IR_ADD && mayfuse(as, ir->op1) &&
-	     (irref_isk(ir->op2) || irref_isk(irl->op2))) {
-    Reg idx, base = ra_alloc1(as, irl->op1, allow);
-    rset_clear(allow, base);
-    as->mrm.base = (uint8_t)base;
-    if (irref_isk(ir->op2)) {
-      as->mrm.ofs = irr->i;
-      idx = ra_alloc1(as, irl->op2, allow);
-    } else {
-      as->mrm.ofs = IR(irl->op2)->i;
-      idx = ra_alloc1(as, ir->op2, allow);
-    }
-    rset_clear(allow, idx);
-    as->mrm.idx = (uint8_t)idx;
-  } else {
-    return 0;
-  }
-  dest = ra_dest(as, ir, allow);
-  emit_mrm(as, XO_LEA, dest, RID_MRM);
-  return 1;  /* Success. */
-}
-
-static void asm_add(ASMState *as, IRIns *ir)
-{
-  if (irt_isnum(ir->t))
-    asm_fparith(as, ir, XO_ADDSD);
-  else if ((as->flags & JIT_F_LEA_AGU) || as->flagmcp == as->mcp ||
-	   irt_is64(ir->t) || !asm_lea(as, ir))
-    asm_intarith(as, ir, XOg_ADD);
-}
-
-static void asm_neg_not(ASMState *as, IRIns *ir, x86Group3 xg)
-{
-  Reg dest = ra_dest(as, ir, RSET_GPR);
-  emit_rr(as, XO_GROUP3, REX_64IR(ir, xg), dest);
-  ra_left(as, dest, ir->op1);
-}
-
-static void asm_min_max(ASMState *as, IRIns *ir, int cc)
-{
-  Reg right, dest = ra_dest(as, ir, RSET_GPR);
-  IRRef lref = ir->op1, rref = ir->op2;
-  if (irref_isk(rref)) { lref = rref; rref = ir->op1; }
-  right = ra_alloc1(as, rref, rset_exclude(RSET_GPR, dest));
-  emit_rr(as, XO_CMOV + (cc<<24), REX_64IR(ir, dest), right);
-  emit_rr(as, XO_CMP, REX_64IR(ir, dest), right);
-  ra_left(as, dest, lref);
-}
-
-static void asm_bitswap(ASMState *as, IRIns *ir)
-{
-  Reg dest = ra_dest(as, ir, RSET_GPR);
-  as->mcp = emit_op(XO_BSWAP + ((dest&7) << 24),
-		    REX_64IR(ir, 0), dest, 0, as->mcp, 1);
-  ra_left(as, dest, ir->op1);
-}
-
-static void asm_bitshift(ASMState *as, IRIns *ir, x86Shift xs)
-{
-  IRRef rref = ir->op2;
-  IRIns *irr = IR(rref);
-  Reg dest;
-  if (irref_isk(rref)) {  /* Constant shifts. */
-    int shift;
-    dest = ra_dest(as, ir, RSET_GPR);
-    shift = irr->i & (irt_is64(ir->t) ? 63 : 31);
-    switch (shift) {
-    case 0: break;
-    case 1: emit_rr(as, XO_SHIFT1, REX_64IR(ir, xs), dest); break;
-    default: emit_shifti(as, REX_64IR(ir, xs), dest, shift); break;
-    }
-  } else {  /* Variable shifts implicitly use register cl (i.e. ecx). */
-    Reg right;
-    dest = ra_dest(as, ir, rset_exclude(RSET_GPR, RID_ECX));
-    if (dest == RID_ECX) {
-      dest = ra_scratch(as, rset_exclude(RSET_GPR, RID_ECX));
-      emit_rr(as, XO_MOV, RID_ECX, dest);
-    }
-    right = irr->r;
-    if (ra_noreg(right))
-      right = ra_allocref(as, rref, RID2RSET(RID_ECX));
-    else if (right != RID_ECX)
-      ra_scratch(as, RID2RSET(RID_ECX));
-    emit_rr(as, XO_SHIFTcl, REX_64IR(ir, xs), dest);
-    ra_noweak(as, right);
-    if (right != RID_ECX)
-      emit_rr(as, XO_MOV, RID_ECX, right);
-  }
-  ra_left(as, dest, ir->op1);
-  /*
-  ** Note: avoid using the flags resulting from a shift or rotate!
-  ** All of them cause a partial flag stall, except for r,1 shifts
-  ** (but not rotates). And a shift count of 0 leaves the flags unmodified.
-  */
-}
-
-/* -- Comparisons --------------------------------------------------------- */
-
-/* Virtual flags for unordered FP comparisons. */
-#define VCC_U	0x1000		/* Unordered. */
-#define VCC_P	0x2000		/* Needs extra CC_P branch. */
-#define VCC_S	0x4000		/* Swap avoids CC_P branch. */
-#define VCC_PS	(VCC_P|VCC_S)
-
-/* Map of comparisons to flags. ORDER IR. */
-#define COMPFLAGS(ci, cin, cu, cf)	((ci)+((cu)<<4)+((cin)<<8)+(cf))
-static const uint16_t asm_compmap[IR_ABC+1] = {
-  /*                 signed non-eq unsigned flags */
-  /* LT  */ COMPFLAGS(CC_GE, CC_G,  CC_AE, VCC_PS),
-  /* GE  */ COMPFLAGS(CC_L,  CC_L,  CC_B,  0),
-  /* LE  */ COMPFLAGS(CC_G,  CC_G,  CC_A,  VCC_PS),
-  /* GT  */ COMPFLAGS(CC_LE, CC_L,  CC_BE, 0),
-  /* ULT */ COMPFLAGS(CC_AE, CC_A,  CC_AE, VCC_U),
-  /* UGE */ COMPFLAGS(CC_B,  CC_B,  CC_B,  VCC_U|VCC_PS),
-  /* ULE */ COMPFLAGS(CC_A,  CC_A,  CC_A,  VCC_U),
-  /* UGT */ COMPFLAGS(CC_BE, CC_B,  CC_BE, VCC_U|VCC_PS),
-  /* EQ  */ COMPFLAGS(CC_NE, CC_NE, CC_NE, VCC_P),
-  /* NE  */ COMPFLAGS(CC_E,  CC_E,  CC_E,  VCC_U|VCC_P),
-  /* ABC */ COMPFLAGS(CC_BE, CC_B,  CC_BE, VCC_U|VCC_PS)  /* Same as UGT. */
-};
-
-/* FP and integer comparisons. */
-static void asm_comp(ASMState *as, IRIns *ir, uint32_t cc)
-{
-  if (irt_isnum(ir->t)) {
-    IRRef lref = ir->op1;
-    IRRef rref = ir->op2;
-    Reg left, right;
-    MCLabel l_around;
-    /*
-    ** An extra CC_P branch is required to preserve ordered/unordered
-    ** semantics for FP comparisons. This can be avoided by swapping
-    ** the operands and inverting the condition (except for EQ and UNE).
-    ** So always try to swap if possible.
-    **
-    ** Another option would be to swap operands to achieve better memory
-    ** operand fusion. But it's unlikely that this outweighs the cost
-    ** of the extra branches.
-    */
-    if (cc & VCC_S) {  /* Swap? */
-      IRRef tmp = lref; lref = rref; rref = tmp;
-      cc ^= (VCC_PS|(5<<4));  /* A <-> B, AE <-> BE, PS <-> none */
-    }
-    left = ra_alloc1(as, lref, RSET_FPR);
-    right = asm_fuseload(as, rref, rset_exclude(RSET_FPR, left));
-    l_around = emit_label(as);
-    asm_guardcc(as, cc >> 4);
-    if (cc & VCC_P) {  /* Extra CC_P branch required? */
-      if (!(cc & VCC_U)) {
-	asm_guardcc(as, CC_P);  /* Branch to exit for ordered comparisons. */
-      } else if (l_around != as->invmcp) {
-	emit_sjcc(as, CC_P, l_around);  /* Branch around for unordered. */
-      } else {
-	/* Patched to mcloop by asm_loop_fixup. */
-	as->loopinv = 2;
-	if (as->realign)
-	  emit_sjcc(as, CC_P, as->mcp);
-	else
-	  emit_jcc(as, CC_P, as->mcp);
-      }
-    }
-    emit_mrm(as, XO_UCOMISD, left, right);
-  } else {
-    IRRef lref = ir->op1, rref = ir->op2;
-    IROp leftop = (IROp)(IR(lref)->o);
-    Reg r64 = REX_64IR(ir, 0);
-    int32_t imm = 0;
-    lua_assert(irt_is64(ir->t) || irt_isint(ir->t) ||
-	       irt_isu32(ir->t) || irt_isaddr(ir->t) || irt_isu8(ir->t));
-    /* Swap constants (only for ABC) and fusable loads to the right. */
-    if (irref_isk(lref) || (!irref_isk(rref) && opisfusableload(leftop))) {
-      if ((cc & 0xc) == 0xc) cc ^= 0x53;  /* L <-> G, LE <-> GE */
-      else if ((cc & 0xa) == 0x2) cc ^= 0x55;  /* A <-> B, AE <-> BE */
-      lref = ir->op2; rref = ir->op1;
-    }
-    if (asm_isk32(as, rref, &imm)) {
-      IRIns *irl = IR(lref);
-      /* Check wether we can use test ins. Not for unsigned, since CF=0. */
-      int usetest = (imm == 0 && (cc & 0xa) != 0x2);
-      if (usetest && irl->o == IR_BAND && irl+1 == ir && !ra_used(irl)) {
-	/* Combine comp(BAND(ref, r/imm), 0) into test mrm, r/imm. */
-	Reg right, left = RID_NONE;
-	RegSet allow = RSET_GPR;
-	if (!asm_isk32(as, irl->op2, &imm)) {
-	  left = ra_alloc1(as, irl->op2, allow);
-	  rset_clear(allow, left);
-	} else {  /* Try to Fuse IRT_I8/IRT_U8 loads, too. See below. */
-	  IRIns *irll = IR(irl->op1);
-	  if (opisfusableload((IROp)irll->o) &&
-	      (irt_isi8(irll->t) || irt_isu8(irll->t))) {
-	    IRType1 origt = irll->t;  /* Temporarily flip types. */
-	    irll->t.irt = (irll->t.irt & ~IRT_TYPE) | IRT_INT;
-	    as->curins--;  /* Skip to BAND to avoid failing in noconflict(). */
-	    right = asm_fuseload(as, irl->op1, RSET_GPR);
-	    as->curins++;
-	    irll->t = origt;
-	    if (right != RID_MRM) goto test_nofuse;
-	    /* Fusion succeeded, emit test byte mrm, imm8. */
-	    asm_guardcc(as, cc);
-	    emit_i8(as, (imm & 0xff));
-	    emit_mrm(as, XO_GROUP3b, XOg_TEST, RID_MRM);
-	    return;
-	  }
-	}
-	as->curins--;  /* Skip to BAND to avoid failing in noconflict(). */
-	right = asm_fuseloadm(as, irl->op1, allow, r64);
-	as->curins++;  /* Undo the above. */
-      test_nofuse:
-	asm_guardcc(as, cc);
-	if (ra_noreg(left)) {
-	  emit_i32(as, imm);
-	  emit_mrm(as, XO_GROUP3, r64 + XOg_TEST, right);
-	} else {
-	  emit_mrm(as, XO_TEST, r64 + left, right);
-	}
-      } else {
-	Reg left;
-	if (opisfusableload((IROp)irl->o) &&
-	    ((irt_isu8(irl->t) && checku8(imm)) ||
-	     ((irt_isi8(irl->t) || irt_isi16(irl->t)) && checki8(imm)) ||
-	     (irt_isu16(irl->t) && checku16(imm) && checki8((int16_t)imm)))) {
-	  /* Only the IRT_INT case is fused by asm_fuseload.
-	  ** The IRT_I8/IRT_U8 loads and some IRT_I16/IRT_U16 loads
-	  ** are handled here.
-	  ** Note that cmp word [mem], imm16 should not be generated,
-	  ** since it has a length-changing prefix. Compares of a word
-	  ** against a sign-extended imm8 are ok, however.
-	  */
-	  IRType1 origt = irl->t;  /* Temporarily flip types. */
-	  irl->t.irt = (irl->t.irt & ~IRT_TYPE) | IRT_INT;
-	  left = asm_fuseload(as, lref, RSET_GPR);
-	  irl->t = origt;
-	  if (left == RID_MRM) {  /* Fusion succeeded? */
-	    if (irt_isu8(irl->t) || irt_isu16(irl->t))
-	      cc >>= 4;  /* Need unsigned compare. */
-	    asm_guardcc(as, cc);
-	    emit_i8(as, imm);
-	    emit_mrm(as, (irt_isi8(origt) || irt_isu8(origt)) ?
-			 XO_ARITHib : XO_ARITHiw8, r64 + XOg_CMP, RID_MRM);
-	    return;
-	  }  /* Otherwise handle register case as usual. */
-	} else {
-	  left = asm_fuseloadm(as, lref,
-			       irt_isu8(ir->t) ? RSET_GPR8 : RSET_GPR, r64);
-	}
-	asm_guardcc(as, cc);
-	if (usetest && left != RID_MRM) {
-	  /* Use test r,r instead of cmp r,0. */
-	  x86Op xo = XO_TEST;
-	  if (irt_isu8(ir->t)) {
-	    lua_assert(ir->o == IR_EQ || ir->o == IR_NE);
-	    xo = XO_TESTb;
-	    if (!rset_test(RSET_RANGE(RID_EAX, RID_EBX+1), left)) {
-	      if (LJ_64) {
-		left |= FORCE_REX;
-	      } else {
-		emit_i32(as, 0xff);
-		emit_mrm(as, XO_GROUP3, XOg_TEST, left);
-		return;
-	      }
-	    }
-	  }
-	  emit_rr(as, xo, r64 + left, left);
-	  if (irl+1 == ir)  /* Referencing previous ins? */
-	    as->flagmcp = as->mcp;  /* Set flag to drop test r,r if possible. */
-	} else {
-	  emit_gmrmi(as, XG_ARITHi(XOg_CMP), r64 + left, imm);
-	}
-      }
-    } else {
-      Reg left = ra_alloc1(as, lref, RSET_GPR);
-      Reg right = asm_fuseloadm(as, rref, rset_exclude(RSET_GPR, left), r64);
-      asm_guardcc(as, cc);
-      emit_mrm(as, XO_CMP, r64 + left, right);
-    }
-  }
-}
-
-#if LJ_32 && LJ_HASFFI
-/* 64 bit integer comparisons in 32 bit mode. */
-static void asm_comp_int64(ASMState *as, IRIns *ir)
-{
-  uint32_t cc = asm_compmap[(ir-1)->o];
-  RegSet allow = RSET_GPR;
-  Reg lefthi = RID_NONE, leftlo = RID_NONE;
-  Reg righthi = RID_NONE, rightlo = RID_NONE;
-  MCLabel l_around;
-  x86ModRM mrm;
-
-  as->curins--;  /* Skip loword ins. Avoids failing in noconflict(), too. */
-
-  /* Allocate/fuse hiword operands. */
-  if (irref_isk(ir->op2)) {
-    lefthi = asm_fuseload(as, ir->op1, allow);
-  } else {
-    lefthi = ra_alloc1(as, ir->op1, allow);
-    rset_clear(allow, lefthi);
-    righthi = asm_fuseload(as, ir->op2, allow);
-    if (righthi == RID_MRM) {
-      if (as->mrm.base != RID_NONE) rset_clear(allow, as->mrm.base);
-      if (as->mrm.idx != RID_NONE) rset_clear(allow, as->mrm.idx);
-    } else {
-      rset_clear(allow, righthi);
-    }
-  }
-  mrm = as->mrm;  /* Save state for hiword instruction. */
-
-  /* Allocate/fuse loword operands. */
-  if (irref_isk((ir-1)->op2)) {
-    leftlo = asm_fuseload(as, (ir-1)->op1, allow);
-  } else {
-    leftlo = ra_alloc1(as, (ir-1)->op1, allow);
-    rset_clear(allow, leftlo);
-    rightlo = asm_fuseload(as, (ir-1)->op2, allow);
-  }
-
-  /* All register allocations must be performed _before_ this point. */
-  l_around = emit_label(as);
-  as->invmcp = as->flagmcp = NULL;  /* Cannot use these optimizations. */
-
-  /* Loword comparison and branch. */
-  asm_guardcc(as, cc >> 4);  /* Always use unsigned compare for loword. */
-  if (ra_noreg(rightlo)) {
-    int32_t imm = IR((ir-1)->op2)->i;
-    if (imm == 0 && ((cc >> 4) & 0xa) != 0x2 && leftlo != RID_MRM)
-      emit_rr(as, XO_TEST, leftlo, leftlo);
-    else
-      emit_gmrmi(as, XG_ARITHi(XOg_CMP), leftlo, imm);
-  } else {
-    emit_mrm(as, XO_CMP, leftlo, rightlo);
-  }
-
-  /* Hiword comparison and branches. */
-  if ((cc & 15) != CC_NE)
-    emit_sjcc(as, CC_NE, l_around);  /* Hiword unequal: skip loword compare. */
-  if ((cc & 15) != CC_E)
-    asm_guardcc(as, cc >> 8);  /* Hiword compare without equality check. */
-  as->mrm = mrm;  /* Restore state. */
-  if (ra_noreg(righthi)) {
-    int32_t imm = IR(ir->op2)->i;
-    if (imm == 0 && (cc & 0xa) != 0x2 && lefthi != RID_MRM)
-      emit_rr(as, XO_TEST, lefthi, lefthi);
-    else
-      emit_gmrmi(as, XG_ARITHi(XOg_CMP), lefthi, imm);
-  } else {
-    emit_mrm(as, XO_CMP, lefthi, righthi);
-  }
-}
-#endif
-
-/* -- Support for 64 bit ops in 32 bit mode ------------------------------- */
-
-/* Hiword op of a split 64 bit op. Previous op must be the loword op. */
-static void asm_hiop(ASMState *as, IRIns *ir)
-{
-#if LJ_32 && LJ_HASFFI
-  /* HIOP is marked as a store because it needs its own DCE logic. */
-  int uselo = ra_used(ir-1), usehi = ra_used(ir);  /* Loword/hiword used? */
-  if (LJ_UNLIKELY(!(as->flags & JIT_F_OPT_DCE))) uselo = usehi = 1;
-  if ((ir-1)->o == IR_CONV) {  /* Conversions to/from 64 bit. */
-    if (usehi || uselo) {
-      if (irt_isfp(ir->t))
-	asm_conv_fp_int64(as, ir);
-      else
-	asm_conv_int64_fp(as, ir);
-    }
-    as->curins--;  /* Always skip the CONV. */
-    return;
-  } else if ((ir-1)->o <= IR_NE) {  /* 64 bit integer comparisons. ORDER IR. */
-    asm_comp_int64(as, ir);
-    return;
-  } else if ((ir-1)->o == IR_XSTORE) {
-    if ((ir-1)->r != RID_SINK)
-      asm_fxstore(as, ir);
-    return;
-  }
-  if (!usehi) return;  /* Skip unused hiword op for all remaining ops. */
-  switch ((ir-1)->o) {
-  case IR_ADD:
-    as->flagmcp = NULL;
-    as->curins--;
-    asm_intarith(as, ir, XOg_ADC);
-    asm_intarith(as, ir-1, XOg_ADD);
-    break;
-  case IR_SUB:
-    as->flagmcp = NULL;
-    as->curins--;
-    asm_intarith(as, ir, XOg_SBB);
-    asm_intarith(as, ir-1, XOg_SUB);
-    break;
-  case IR_NEG: {
-    Reg dest = ra_dest(as, ir, RSET_GPR);
-    emit_rr(as, XO_GROUP3, XOg_NEG, dest);
-    emit_i8(as, 0);
-    emit_rr(as, XO_ARITHi8, XOg_ADC, dest);
-    ra_left(as, dest, ir->op1);
-    as->curins--;
-    asm_neg_not(as, ir-1, XOg_NEG);
-    break;
-    }
-  case IR_CALLN:
-  case IR_CALLXS:
-    if (!uselo)
-      ra_allocref(as, ir->op1, RID2RSET(RID_RETLO));  /* Mark lo op as used. */
-    break;
-  case IR_CNEWI:
-    /* Nothing to do here. Handled by CNEWI itself. */
-    break;
-  default: lua_assert(0); break;
-  }
-#else
-  UNUSED(as); UNUSED(ir); lua_assert(0);  /* Unused on x64 or without FFI. */
-#endif
-}
-
-/* -- Stack handling ------------------------------------------------------ */
-
-/* Check Lua stack size for overflow. Use exit handler as fallback. */
-static void asm_stack_check(ASMState *as, BCReg topslot,
-			    IRIns *irp, RegSet allow, ExitNo exitno)
-{
-  /* Try to get an unused temp. register, otherwise spill/restore eax. */
-  Reg pbase = irp ? irp->r : RID_BASE;
-  Reg r = allow ? rset_pickbot(allow) : RID_EAX;
-  emit_jcc(as, CC_B, exitstub_addr(as->J, exitno));
-  if (allow == RSET_EMPTY)  /* Restore temp. register. */
-    emit_rmro(as, XO_MOV, r|REX_64, RID_ESP, 0);
-  else
-    ra_modified(as, r);
-  emit_gri(as, XG_ARITHi(XOg_CMP), r, (int32_t)(8*topslot));
-  if (ra_hasreg(pbase) && pbase != r)
-    emit_rr(as, XO_ARITH(XOg_SUB), r, pbase);
-  else
-    emit_rmro(as, XO_ARITH(XOg_SUB), r, RID_NONE,
-	      ptr2addr(&J2G(as->J)->jit_base));
-  emit_rmro(as, XO_MOV, r, r, offsetof(lua_State, maxstack));
-  emit_getgl(as, r, jit_L);
-  if (allow == RSET_EMPTY)  /* Spill temp. register. */
-    emit_rmro(as, XO_MOVto, r|REX_64, RID_ESP, 0);
-}
-
-/* Restore Lua stack from on-trace state. */
-static void asm_stack_restore(ASMState *as, SnapShot *snap)
-{
-  SnapEntry *map = &as->T->snapmap[snap->mapofs];
-  SnapEntry *flinks = &as->T->snapmap[snap_nextofs(as->T, snap)-1];
-  MSize n, nent = snap->nent;
-  /* Store the value of all modified slots to the Lua stack. */
-  for (n = 0; n < nent; n++) {
-    SnapEntry sn = map[n];
-    BCReg s = snap_slot(sn);
-    int32_t ofs = 8*((int32_t)s-1);
-    IRRef ref = snap_ref(sn);
-    IRIns *ir = IR(ref);
-    if ((sn & SNAP_NORESTORE))
-      continue;
-    if (irt_isnum(ir->t)) {
-      Reg src = ra_alloc1(as, ref, RSET_FPR);
-      emit_rmro(as, XO_MOVSDto, src, RID_BASE, ofs);
-    } else {
-      lua_assert(irt_ispri(ir->t) || irt_isaddr(ir->t) ||
-		 (LJ_DUALNUM && irt_isinteger(ir->t)));
-      if (!irref_isk(ref)) {
-	Reg src = ra_alloc1(as, ref, rset_exclude(RSET_GPR, RID_BASE));
-	emit_movtomro(as, REX_64IR(ir, src), RID_BASE, ofs);
-      } else if (!irt_ispri(ir->t)) {
-	emit_movmroi(as, RID_BASE, ofs, ir->i);
-      }
-      if ((sn & (SNAP_CONT|SNAP_FRAME))) {
-	if (s != 0)  /* Do not overwrite link to previous frame. */
-	  emit_movmroi(as, RID_BASE, ofs+4, (int32_t)(*flinks--));
-      } else {
-	if (!(LJ_64 && irt_islightud(ir->t)))
-	  emit_movmroi(as, RID_BASE, ofs+4, irt_toitype(ir->t));
-      }
-    }
-    checkmclim(as);
-  }
-  lua_assert(map + nent == flinks);
-}
-
-/* -- GC handling --------------------------------------------------------- */
-
-/* Check GC threshold and do one or more GC steps. */
-static void asm_gc_check(ASMState *as)
-{
-  const CCallInfo *ci = &lj_ir_callinfo[IRCALL_lj_gc_step_jit];
-  IRRef args[2];
-  MCLabel l_end;
-  Reg tmp;
-  ra_evictset(as, RSET_SCRATCH);
-  l_end = emit_label(as);
-  /* Exit trace if in GCSatomic or GCSfinalize. Avoids syncing GC objects. */
-  asm_guardcc(as, CC_NE);  /* Assumes asm_snap_prep() already done. */
-  emit_rr(as, XO_TEST, RID_RET, RID_RET);
-  args[0] = ASMREF_TMP1;  /* global_State *g */
-  args[1] = ASMREF_TMP2;  /* MSize steps     */
-  asm_gencall(as, ci, args);
-  tmp = ra_releasetmp(as, ASMREF_TMP1);
-  emit_loada(as, tmp, J2G(as->J));
-  emit_loadi(as, ra_releasetmp(as, ASMREF_TMP2), as->gcsteps);
-  /* Jump around GC step if GC total < GC threshold. */
-  emit_sjcc(as, CC_B, l_end);
-  emit_opgl(as, XO_ARITH(XOg_CMP), tmp, gc.threshold);
-  emit_getgl(as, tmp, gc.total);
-  as->gcsteps = 0;
-  checkmclim(as);
-}
-
-/* -- Loop handling ------------------------------------------------------- */
-
-/* Fixup the loop branch. */
-static void asm_loop_fixup(ASMState *as)
-{
-  MCode *p = as->mctop;
-  MCode *target = as->mcp;
-  if (as->realign) {  /* Realigned loops use short jumps. */
-    as->realign = NULL;  /* Stop another retry. */
-    lua_assert(((intptr_t)target & 15) == 0);
-    if (as->loopinv) {  /* Inverted loop branch? */
-      p -= 5;
-      p[0] = XI_JMP;
-      lua_assert(target - p >= -128);
-      p[-1] = (MCode)(target - p);  /* Patch sjcc. */
-      if (as->loopinv == 2)
-	p[-3] = (MCode)(target - p + 2);  /* Patch opt. short jp. */
-    } else {
-      lua_assert(target - p >= -128);
-      p[-1] = (MCode)(int8_t)(target - p);  /* Patch short jmp. */
-      p[-2] = XI_JMPs;
-    }
-  } else {
-    MCode *newloop;
-    p[-5] = XI_JMP;
-    if (as->loopinv) {  /* Inverted loop branch? */
-      /* asm_guardcc already inverted the jcc and patched the jmp. */
-      p -= 5;
-      newloop = target+4;
-      *(int32_t *)(p-4) = (int32_t)(target - p);  /* Patch jcc. */
-      if (as->loopinv == 2) {
-	*(int32_t *)(p-10) = (int32_t)(target - p + 6);  /* Patch opt. jp. */
-	newloop = target+8;
-      }
-    } else {  /* Otherwise just patch jmp. */
-      *(int32_t *)(p-4) = (int32_t)(target - p);
-      newloop = target+3;
-    }
-    /* Realign small loops and shorten the loop branch. */
-    if (newloop >= p - 128) {
-      as->realign = newloop;  /* Force a retry and remember alignment. */
-      as->curins = as->stopins;  /* Abort asm_trace now. */
-      as->T->nins = as->orignins;  /* Remove any added renames. */
-    }
-  }
-}
-
-/* -- Head of trace ------------------------------------------------------- */
-
-/* Coalesce BASE register for a root trace. */
-static void asm_head_root_base(ASMState *as)
-{
-  IRIns *ir = IR(REF_BASE);
-  Reg r = ir->r;
-  if (ra_hasreg(r)) {
-    ra_free(as, r);
-    if (rset_test(as->modset, r) || irt_ismarked(ir->t))
-      ir->r = RID_INIT;  /* No inheritance for modified BASE register. */
-    if (r != RID_BASE)
-      emit_rr(as, XO_MOV, r, RID_BASE);
-  }
-}
-
-/* Coalesce or reload BASE register for a side trace. */
-static RegSet asm_head_side_base(ASMState *as, IRIns *irp, RegSet allow)
-{
-  IRIns *ir = IR(REF_BASE);
-  Reg r = ir->r;
-  if (ra_hasreg(r)) {
-    ra_free(as, r);
-    if (rset_test(as->modset, r) || irt_ismarked(ir->t))
-      ir->r = RID_INIT;  /* No inheritance for modified BASE register. */
-    if (irp->r == r) {
-      rset_clear(allow, r);  /* Mark same BASE register as coalesced. */
-    } else if (ra_hasreg(irp->r) && rset_test(as->freeset, irp->r)) {
-      rset_clear(allow, irp->r);
-      emit_rr(as, XO_MOV, r, irp->r);  /* Move from coalesced parent reg. */
-    } else {
-      emit_getgl(as, r, jit_base);  /* Otherwise reload BASE. */
-    }
-  }
-  return allow;
-}
-
-/* -- Tail of trace ------------------------------------------------------- */
-
-/* Fixup the tail code. */
-static void asm_tail_fixup(ASMState *as, TraceNo lnk)
-{
-  /* Note: don't use as->mcp swap + emit_*: emit_op overwrites more bytes. */
-  MCode *p = as->mctop;
-  MCode *target, *q;
-  int32_t spadj = as->T->spadjust;
-  if (spadj == 0) {
-    p -= ((as->flags & JIT_F_LEA_AGU) ? 7 : 6) + (LJ_64 ? 1 : 0);
-  } else {
-    MCode *p1;
-    /* Patch stack adjustment. */
-    if (checki8(spadj)) {
-      p -= 3;
-      p1 = p-6;
-      *p1 = (MCode)spadj;
-    } else {
-      p1 = p-9;
-      *(int32_t *)p1 = spadj;
-    }
-    if ((as->flags & JIT_F_LEA_AGU)) {
-#if LJ_64
-      p1[-4] = 0x48;
-#endif
-      p1[-3] = (MCode)XI_LEA;
-      p1[-2] = MODRM(checki8(spadj) ? XM_OFS8 : XM_OFS32, RID_ESP, RID_ESP);
-      p1[-1] = MODRM(XM_SCALE1, RID_ESP, RID_ESP);
-    } else {
-#if LJ_64
-      p1[-3] = 0x48;
-#endif
-      p1[-2] = (MCode)(checki8(spadj) ? XI_ARITHi8 : XI_ARITHi);
-      p1[-1] = MODRM(XM_REG, XOg_ADD, RID_ESP);
-    }
-  }
-  /* Patch exit branch. */
-  target = lnk ? traceref(as->J, lnk)->mcode : (MCode *)lj_vm_exit_interp;
-  *(int32_t *)(p-4) = jmprel(p, target);
-  p[-5] = XI_JMP;
-  /* Drop unused mcode tail. Fill with NOPs to make the prefetcher happy. */
-  for (q = as->mctop-1; q >= p; q--)
-    *q = XI_NOP;
-  as->mctop = p;
-}
-
-/* Prepare tail of code. */
-static void asm_tail_prep(ASMState *as)
-{
-  MCode *p = as->mctop;
-  /* Realign and leave room for backwards loop branch or exit branch. */
-  if (as->realign) {
-    int i = ((int)(intptr_t)as->realign) & 15;
-    /* Fill unused mcode tail with NOPs to make the prefetcher happy. */
-    while (i-- > 0)
-      *--p = XI_NOP;
-    as->mctop = p;
-    p -= (as->loopinv ? 5 : 2);  /* Space for short/near jmp. */
-  } else {
-    p -= 5;  /* Space for exit branch (near jmp). */
-  }
-  if (as->loopref) {
-    as->invmcp = as->mcp = p;
-  } else {
-    /* Leave room for ESP adjustment: add esp, imm or lea esp, [esp+imm] */
-    as->mcp = p - (((as->flags & JIT_F_LEA_AGU) ? 7 : 6)  + (LJ_64 ? 1 : 0));
-    as->invmcp = NULL;
-  }
-}
-
-/* -- Instruction dispatch ------------------------------------------------ */
-
-/* Assemble a single instruction. */
-static void asm_ir(ASMState *as, IRIns *ir)
-{
-  switch ((IROp)ir->o) {
-  /* Miscellaneous ops. */
-  case IR_LOOP: asm_loop(as); break;
-  case IR_NOP: case IR_XBAR: lua_assert(!ra_used(ir)); break;
-  case IR_USE:
-    ra_alloc1(as, ir->op1, irt_isfp(ir->t) ? RSET_FPR : RSET_GPR); break;
-  case IR_PHI: asm_phi(as, ir); break;
-  case IR_HIOP: asm_hiop(as, ir); break;
-  case IR_GCSTEP: asm_gcstep(as, ir); break;
-
-  /* Guarded assertions. */
-  case IR_LT: case IR_GE: case IR_LE: case IR_GT:
-  case IR_ULT: case IR_UGE: case IR_ULE: case IR_UGT:
-  case IR_EQ: case IR_NE: case IR_ABC:
-    asm_comp(as, ir, asm_compmap[ir->o]);
-    break;
-
-  case IR_RETF: asm_retf(as, ir); break;
-
-  /* Bit ops. */
-  case IR_BNOT: asm_neg_not(as, ir, XOg_NOT); break;
-  case IR_BSWAP: asm_bitswap(as, ir); break;
-
-  case IR_BAND: asm_intarith(as, ir, XOg_AND); break;
-  case IR_BOR:  asm_intarith(as, ir, XOg_OR); break;
-  case IR_BXOR: asm_intarith(as, ir, XOg_XOR); break;
-
-  case IR_BSHL: asm_bitshift(as, ir, XOg_SHL); break;
-  case IR_BSHR: asm_bitshift(as, ir, XOg_SHR); break;
-  case IR_BSAR: asm_bitshift(as, ir, XOg_SAR); break;
-  case IR_BROL: asm_bitshift(as, ir, XOg_ROL); break;
-  case IR_BROR: asm_bitshift(as, ir, XOg_ROR); break;
-
-  /* Arithmetic ops. */
-  case IR_ADD: asm_add(as, ir); break;
-  case IR_SUB:
-    if (irt_isnum(ir->t))
-      asm_fparith(as, ir, XO_SUBSD);
-    else  /* Note: no need for LEA trick here. i-k is encoded as i+(-k). */
-      asm_intarith(as, ir, XOg_SUB);
-    break;
-  case IR_MUL:
-    if (irt_isnum(ir->t))
-      asm_fparith(as, ir, XO_MULSD);
-    else
-      asm_intarith(as, ir, XOg_X_IMUL);
-    break;
-  case IR_DIV:
-#if LJ_64 && LJ_HASFFI
-    if (!irt_isnum(ir->t))
-      asm_arith64(as, ir, irt_isi64(ir->t) ? IRCALL_lj_carith_divi64 :
-					     IRCALL_lj_carith_divu64);
-    else
-#endif
-      asm_fparith(as, ir, XO_DIVSD);
-    break;
-  case IR_MOD:
-#if LJ_64 && LJ_HASFFI
-    if (!irt_isint(ir->t))
-      asm_arith64(as, ir, irt_isi64(ir->t) ? IRCALL_lj_carith_modi64 :
-					     IRCALL_lj_carith_modu64);
-    else
-#endif
-      asm_intmod(as, ir);
-    break;
-
-  case IR_NEG:
-    if (irt_isnum(ir->t))
-      asm_fparith(as, ir, XO_XORPS);
-    else
-      asm_neg_not(as, ir, XOg_NEG);
-    break;
-  case IR_ABS: asm_fparith(as, ir, XO_ANDPS); break;
-
-  case IR_MIN:
-    if (irt_isnum(ir->t))
-      asm_fparith(as, ir, XO_MINSD);
-    else
-      asm_min_max(as, ir, CC_G);
-    break;
-  case IR_MAX:
-    if (irt_isnum(ir->t))
-      asm_fparith(as, ir, XO_MAXSD);
-    else
-      asm_min_max(as, ir, CC_L);
-    break;
-
-  case IR_FPMATH: case IR_ATAN2: case IR_LDEXP:
-    asm_fpmath(as, ir);
-    break;
-  case IR_POW:
-#if LJ_64 && LJ_HASFFI
-    if (!irt_isnum(ir->t))
-      asm_arith64(as, ir, irt_isi64(ir->t) ? IRCALL_lj_carith_powi64 :
-					     IRCALL_lj_carith_powu64);
-    else
-#endif
-      asm_fppowi(as, ir);
-    break;
-
-  /* Overflow-checking arithmetic ops. Note: don't use LEA here! */
-  case IR_ADDOV: asm_intarith(as, ir, XOg_ADD); break;
-  case IR_SUBOV: asm_intarith(as, ir, XOg_SUB); break;
-  case IR_MULOV: asm_intarith(as, ir, XOg_X_IMUL); break;
-
-  /* Memory references. */
-  case IR_AREF: asm_aref(as, ir); break;
-  case IR_HREF: asm_href(as, ir); break;
-  case IR_HREFK: asm_hrefk(as, ir); break;
-  case IR_NEWREF: asm_newref(as, ir); break;
-  case IR_UREFO: case IR_UREFC: asm_uref(as, ir); break;
-  case IR_FREF: asm_fref(as, ir); break;
-  case IR_STRREF: asm_strref(as, ir); break;
-
-  /* Loads and stores. */
-  case IR_ALOAD: case IR_HLOAD: case IR_ULOAD: case IR_VLOAD:
-    asm_ahuvload(as, ir);
-    break;
-  case IR_FLOAD: case IR_XLOAD: asm_fxload(as, ir); break;
-  case IR_SLOAD: asm_sload(as, ir); break;
-
-  case IR_ASTORE: case IR_HSTORE: case IR_USTORE: asm_ahustore(as, ir); break;
-  case IR_FSTORE: case IR_XSTORE: asm_fxstore(as, ir); break;
-
-  /* Allocations. */
-  case IR_SNEW: case IR_XSNEW: asm_snew(as, ir); break;
-  case IR_TNEW: asm_tnew(as, ir); break;
-  case IR_TDUP: asm_tdup(as, ir); break;
-  case IR_CNEW: case IR_CNEWI: asm_cnew(as, ir); break;
-
-  /* Write barriers. */
-  case IR_TBAR: asm_tbar(as, ir); break;
-  case IR_OBAR: asm_obar(as, ir); break;
-
-  /* Type conversions. */
-  case IR_TOBIT: asm_tobit(as, ir); break;
-  case IR_CONV: asm_conv(as, ir); break;
-  case IR_TOSTR: asm_tostr(as, ir); break;
-  case IR_STRTO: asm_strto(as, ir); break;
-
-  /* Calls. */
-  case IR_CALLN: case IR_CALLL: case IR_CALLS: asm_call(as, ir); break;
-  case IR_CALLXS: asm_callx(as, ir); break;
-  case IR_CARG: break;
-
-  default:
-    setintV(&as->J->errinfo, ir->o);
-    lj_trace_err_info(as->J, LJ_TRERR_NYIIR);
-    break;
-  }
-}
-
-/* -- Trace setup --------------------------------------------------------- */
-
-/* Ensure there are enough stack slots for call arguments. */
-static Reg asm_setup_call_slots(ASMState *as, IRIns *ir, const CCallInfo *ci)
-{
-  IRRef args[CCI_NARGS_MAX*2];
-  int nslots;
-  asm_collectargs(as, ir, ci, args);
-  nslots = asm_count_call_slots(as, ci, args);
-  if (nslots > as->evenspill)  /* Leave room for args in stack slots. */
-    as->evenspill = nslots;
-#if LJ_64
-  return irt_isfp(ir->t) ? REGSP_HINT(RID_FPRET) : REGSP_HINT(RID_RET);
-#else
-  return irt_isfp(ir->t) ? REGSP_INIT : REGSP_HINT(RID_RET);
-#endif
-}
-
-/* Target-specific setup. */
-static void asm_setup_target(ASMState *as)
-{
-  asm_exitstub_setup(as, as->T->nsnap);
-}
-
-/* -- Trace patching ------------------------------------------------------ */
-
-/* Patch exit jumps of existing machine code to a new target. */
-void lj_asm_patchexit(jit_State *J, GCtrace *T, ExitNo exitno, MCode *target)
-{
-  MCode *p = T->mcode;
-  MCode *mcarea = lj_mcode_patch(J, p, 0);
-  MSize len = T->szmcode;
-  MCode *px = exitstub_addr(J, exitno) - 6;
-  MCode *pe = p+len-6;
-  uint32_t stateaddr = u32ptr(&J2G(J)->vmstate);
-  if (len > 5 && p[len-5] == XI_JMP && p+len-6 + *(int32_t *)(p+len-4) == px)
-    *(int32_t *)(p+len-4) = jmprel(p+len, target);
-  /* Do not patch parent exit for a stack check. Skip beyond vmstate update. */
-  for (; p < pe; p++)
-    if (*(uint32_t *)(p+(LJ_64 ? 3 : 2)) == stateaddr && p[0] == XI_MOVmi) {
-      p += LJ_64 ? 11 : 10;
-      break;
-    }
-  lua_assert(p < pe);
-  for (; p < pe; p++) {
-    if ((*(uint16_t *)p & 0xf0ff) == 0x800f && p + *(int32_t *)(p+2) == px) {
-      *(int32_t *)(p+2) = jmprel(p+6, target);
-      p += 5;
-    }
-  }
-  lj_mcode_sync(T->mcode, T->mcode + T->szmcode);
-  lj_mcode_patch(J, mcarea, 1);
-}
-
diff --git a/luajit-2.0/src/lj_bc.c b/luajit-2.0/src/lj_bc.c
deleted file mode 100644
index d5d3d78..0000000
--- a/luajit-2.0/src/lj_bc.c
+++ /dev/null
@@ -1,14 +0,0 @@
-/*
-** Bytecode instruction modes.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#define lj_bc_c
-#define LUA_CORE
-
-#include "lj_obj.h"
-#include "lj_bc.h"
-
-/* Bytecode offsets and bytecode instruction modes. */
-#include "lj_bcdef.h"
-
diff --git a/luajit-2.0/src/lj_bc.h b/luajit-2.0/src/lj_bc.h
deleted file mode 100644
index 1a4ade3..0000000
--- a/luajit-2.0/src/lj_bc.h
+++ /dev/null
@@ -1,261 +0,0 @@
-/*
-** Bytecode instruction format.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#ifndef _LJ_BC_H
-#define _LJ_BC_H
-
-#include "lj_def.h"
-#include "lj_arch.h"
-
-/* Bytecode instruction format, 32 bit wide, fields of 8 or 16 bit:
-**
-** +----+----+----+----+
-** | B  | C  | A  | OP | Format ABC
-** +----+----+----+----+
-** |    D    | A  | OP | Format AD
-** +--------------------
-** MSB               LSB
-**
-** In-memory instructions are always stored in host byte order.
-*/
-
-/* Operand ranges and related constants. */
-#define BCMAX_A		0xff
-#define BCMAX_B		0xff
-#define BCMAX_C		0xff
-#define BCMAX_D		0xffff
-#define BCBIAS_J	0x8000
-#define NO_REG		BCMAX_A
-#define NO_JMP		(~(BCPos)0)
-
-/* Macros to get instruction fields. */
-#define bc_op(i)	((BCOp)((i)&0xff))
-#define bc_a(i)		((BCReg)(((i)>>8)&0xff))
-#define bc_b(i)		((BCReg)((i)>>24))
-#define bc_c(i)		((BCReg)(((i)>>16)&0xff))
-#define bc_d(i)		((BCReg)((i)>>16))
-#define bc_j(i)		((ptrdiff_t)bc_d(i)-BCBIAS_J)
-
-/* Macros to set instruction fields. */
-#define setbc_byte(p, x, ofs) \
-  ((uint8_t *)(p))[LJ_ENDIAN_SELECT(ofs, 3-ofs)] = (uint8_t)(x)
-#define setbc_op(p, x)	setbc_byte(p, (x), 0)
-#define setbc_a(p, x)	setbc_byte(p, (x), 1)
-#define setbc_b(p, x)	setbc_byte(p, (x), 3)
-#define setbc_c(p, x)	setbc_byte(p, (x), 2)
-#define setbc_d(p, x) \
-  ((uint16_t *)(p))[LJ_ENDIAN_SELECT(1, 0)] = (uint16_t)(x)
-#define setbc_j(p, x)	setbc_d(p, (BCPos)((int32_t)(x)+BCBIAS_J))
-
-/* Macros to compose instructions. */
-#define BCINS_ABC(o, a, b, c) \
-  (((BCIns)(o))|((BCIns)(a)<<8)|((BCIns)(b)<<24)|((BCIns)(c)<<16))
-#define BCINS_AD(o, a, d) \
-  (((BCIns)(o))|((BCIns)(a)<<8)|((BCIns)(d)<<16))
-#define BCINS_AJ(o, a, j)	BCINS_AD(o, a, (BCPos)((int32_t)(j)+BCBIAS_J))
-
-/* Bytecode instruction definition. Order matters, see below.
-**
-** (name, filler, Amode, Bmode, Cmode or Dmode, metamethod)
-**
-** The opcode name suffixes specify the type for RB/RC or RD:
-** V = variable slot
-** S = string const
-** N = number const
-** P = primitive type (~itype)
-** B = unsigned byte literal
-** M = multiple args/results
-*/
-#define BCDEF(_) \
-  /* Comparison ops. ORDER OPR. */ \
-  _(ISLT,	var,	___,	var,	lt) \
-  _(ISGE,	var,	___,	var,	lt) \
-  _(ISLE,	var,	___,	var,	le) \
-  _(ISGT,	var,	___,	var,	le) \
-  \
-  _(ISEQV,	var,	___,	var,	eq) \
-  _(ISNEV,	var,	___,	var,	eq) \
-  _(ISEQS,	var,	___,	str,	eq) \
-  _(ISNES,	var,	___,	str,	eq) \
-  _(ISEQN,	var,	___,	num,	eq) \
-  _(ISNEN,	var,	___,	num,	eq) \
-  _(ISEQP,	var,	___,	pri,	eq) \
-  _(ISNEP,	var,	___,	pri,	eq) \
-  \
-  /* Unary test and copy ops. */ \
-  _(ISTC,	dst,	___,	var,	___) \
-  _(ISFC,	dst,	___,	var,	___) \
-  _(IST,	___,	___,	var,	___) \
-  _(ISF,	___,	___,	var,	___) \
-  \
-  /* Unary ops. */ \
-  _(MOV,	dst,	___,	var,	___) \
-  _(NOT,	dst,	___,	var,	___) \
-  _(UNM,	dst,	___,	var,	unm) \
-  _(LEN,	dst,	___,	var,	len) \
-  \
-  /* Binary ops. ORDER OPR. VV last, POW must be next. */ \
-  _(ADDVN,	dst,	var,	num,	add) \
-  _(SUBVN,	dst,	var,	num,	sub) \
-  _(MULVN,	dst,	var,	num,	mul) \
-  _(DIVVN,	dst,	var,	num,	div) \
-  _(MODVN,	dst,	var,	num,	mod) \
-  \
-  _(ADDNV,	dst,	var,	num,	add) \
-  _(SUBNV,	dst,	var,	num,	sub) \
-  _(MULNV,	dst,	var,	num,	mul) \
-  _(DIVNV,	dst,	var,	num,	div) \
-  _(MODNV,	dst,	var,	num,	mod) \
-  \
-  _(ADDVV,	dst,	var,	var,	add) \
-  _(SUBVV,	dst,	var,	var,	sub) \
-  _(MULVV,	dst,	var,	var,	mul) \
-  _(DIVVV,	dst,	var,	var,	div) \
-  _(MODVV,	dst,	var,	var,	mod) \
-  \
-  _(POW,	dst,	var,	var,	pow) \
-  _(CAT,	dst,	rbase,	rbase,	concat) \
-  \
-  /* Constant ops. */ \
-  _(KSTR,	dst,	___,	str,	___) \
-  _(KCDATA,	dst,	___,	cdata,	___) \
-  _(KSHORT,	dst,	___,	lits,	___) \
-  _(KNUM,	dst,	___,	num,	___) \
-  _(KPRI,	dst,	___,	pri,	___) \
-  _(KNIL,	base,	___,	base,	___) \
-  \
-  /* Upvalue and function ops. */ \
-  _(UGET,	dst,	___,	uv,	___) \
-  _(USETV,	uv,	___,	var,	___) \
-  _(USETS,	uv,	___,	str,	___) \
-  _(USETN,	uv,	___,	num,	___) \
-  _(USETP,	uv,	___,	pri,	___) \
-  _(UCLO,	rbase,	___,	jump,	___) \
-  _(FNEW,	dst,	___,	func,	gc) \
-  \
-  /* Table ops. */ \
-  _(TNEW,	dst,	___,	lit,	gc) \
-  _(TDUP,	dst,	___,	tab,	gc) \
-  _(GGET,	dst,	___,	str,	index) \
-  _(GSET,	var,	___,	str,	newindex) \
-  _(TGETV,	dst,	var,	var,	index) \
-  _(TGETS,	dst,	var,	str,	index) \
-  _(TGETB,	dst,	var,	lit,	index) \
-  _(TSETV,	var,	var,	var,	newindex) \
-  _(TSETS,	var,	var,	str,	newindex) \
-  _(TSETB,	var,	var,	lit,	newindex) \
-  _(TSETM,	base,	___,	num,	newindex) \
-  \
-  /* Calls and vararg handling. T = tail call. */ \
-  _(CALLM,	base,	lit,	lit,	call) \
-  _(CALL,	base,	lit,	lit,	call) \
-  _(CALLMT,	base,	___,	lit,	call) \
-  _(CALLT,	base,	___,	lit,	call) \
-  _(ITERC,	base,	lit,	lit,	call) \
-  _(ITERN,	base,	lit,	lit,	call) \
-  _(VARG,	base,	lit,	lit,	___) \
-  _(ISNEXT,	base,	___,	jump,	___) \
-  \
-  /* Returns. */ \
-  _(RETM,	base,	___,	lit,	___) \
-  _(RET,	rbase,	___,	lit,	___) \
-  _(RET0,	rbase,	___,	lit,	___) \
-  _(RET1,	rbase,	___,	lit,	___) \
-  \
-  /* Loops and branches. I/J = interp/JIT, I/C/L = init/call/loop. */ \
-  _(FORI,	base,	___,	jump,	___) \
-  _(JFORI,	base,	___,	jump,	___) \
-  \
-  _(FORL,	base,	___,	jump,	___) \
-  _(IFORL,	base,	___,	jump,	___) \
-  _(JFORL,	base,	___,	lit,	___) \
-  \
-  _(ITERL,	base,	___,	jump,	___) \
-  _(IITERL,	base,	___,	jump,	___) \
-  _(JITERL,	base,	___,	lit,	___) \
-  \
-  _(LOOP,	rbase,	___,	jump,	___) \
-  _(ILOOP,	rbase,	___,	jump,	___) \
-  _(JLOOP,	rbase,	___,	lit,	___) \
-  \
-  _(JMP,	rbase,	___,	jump,	___) \
-  \
-  /* Function headers. I/J = interp/JIT, F/V/C = fixarg/vararg/C func. */ \
-  _(FUNCF,	rbase,	___,	___,	___) \
-  _(IFUNCF,	rbase,	___,	___,	___) \
-  _(JFUNCF,	rbase,	___,	lit,	___) \
-  _(FUNCV,	rbase,	___,	___,	___) \
-  _(IFUNCV,	rbase,	___,	___,	___) \
-  _(JFUNCV,	rbase,	___,	lit,	___) \
-  _(FUNCC,	rbase,	___,	___,	___) \
-  _(FUNCCW,	rbase,	___,	___,	___)
-
-/* Bytecode opcode numbers. */
-typedef enum {
-#define BCENUM(name, ma, mb, mc, mt)	BC_##name,
-BCDEF(BCENUM)
-#undef BCENUM
-  BC__MAX
-} BCOp;
-
-LJ_STATIC_ASSERT((int)BC_ISEQV+1 == (int)BC_ISNEV);
-LJ_STATIC_ASSERT(((int)BC_ISEQV^1) == (int)BC_ISNEV);
-LJ_STATIC_ASSERT(((int)BC_ISEQS^1) == (int)BC_ISNES);
-LJ_STATIC_ASSERT(((int)BC_ISEQN^1) == (int)BC_ISNEN);
-LJ_STATIC_ASSERT(((int)BC_ISEQP^1) == (int)BC_ISNEP);
-LJ_STATIC_ASSERT(((int)BC_ISLT^1) == (int)BC_ISGE);
-LJ_STATIC_ASSERT(((int)BC_ISLE^1) == (int)BC_ISGT);
-LJ_STATIC_ASSERT(((int)BC_ISLT^3) == (int)BC_ISGT);
-LJ_STATIC_ASSERT((int)BC_IST-(int)BC_ISTC == (int)BC_ISF-(int)BC_ISFC);
-LJ_STATIC_ASSERT((int)BC_CALLT-(int)BC_CALL == (int)BC_CALLMT-(int)BC_CALLM);
-LJ_STATIC_ASSERT((int)BC_CALLMT + 1 == (int)BC_CALLT);
-LJ_STATIC_ASSERT((int)BC_RETM + 1 == (int)BC_RET);
-LJ_STATIC_ASSERT((int)BC_FORL + 1 == (int)BC_IFORL);
-LJ_STATIC_ASSERT((int)BC_FORL + 2 == (int)BC_JFORL);
-LJ_STATIC_ASSERT((int)BC_ITERL + 1 == (int)BC_IITERL);
-LJ_STATIC_ASSERT((int)BC_ITERL + 2 == (int)BC_JITERL);
-LJ_STATIC_ASSERT((int)BC_LOOP + 1 == (int)BC_ILOOP);
-LJ_STATIC_ASSERT((int)BC_LOOP + 2 == (int)BC_JLOOP);
-LJ_STATIC_ASSERT((int)BC_FUNCF + 1 == (int)BC_IFUNCF);
-LJ_STATIC_ASSERT((int)BC_FUNCF + 2 == (int)BC_JFUNCF);
-LJ_STATIC_ASSERT((int)BC_FUNCV + 1 == (int)BC_IFUNCV);
-LJ_STATIC_ASSERT((int)BC_FUNCV + 2 == (int)BC_JFUNCV);
-
-/* This solves a circular dependency problem, change as needed. */
-#define FF_next_N	4
-
-/* Stack slots used by FORI/FORL, relative to operand A. */
-enum {
-  FORL_IDX, FORL_STOP, FORL_STEP, FORL_EXT
-};
-
-/* Bytecode operand modes. ORDER BCMode */
-typedef enum {
-  BCMnone, BCMdst, BCMbase, BCMvar, BCMrbase, BCMuv,  /* Mode A must be <= 7 */
-  BCMlit, BCMlits, BCMpri, BCMnum, BCMstr, BCMtab, BCMfunc, BCMjump, BCMcdata,
-  BCM_max
-} BCMode;
-#define BCM___		BCMnone
-
-#define bcmode_a(op)	((BCMode)(lj_bc_mode[op] & 7))
-#define bcmode_b(op)	((BCMode)((lj_bc_mode[op]>>3) & 15))
-#define bcmode_c(op)	((BCMode)((lj_bc_mode[op]>>7) & 15))
-#define bcmode_d(op)	bcmode_c(op)
-#define bcmode_hasd(op)	((lj_bc_mode[op] & (15<<3)) == (BCMnone<<3))
-#define bcmode_mm(op)	((MMS)(lj_bc_mode[op]>>11))
-
-#define BCMODE(name, ma, mb, mc, mm) \
-  (BCM##ma|(BCM##mb<<3)|(BCM##mc<<7)|(MM_##mm<<11)),
-#define BCMODE_FF	0
-
-static LJ_AINLINE int bc_isret(BCOp op)
-{
-  return (op == BC_RETM || op == BC_RET || op == BC_RET0 || op == BC_RET1);
-}
-
-LJ_DATA const uint16_t lj_bc_mode[];
-LJ_DATA const uint16_t lj_bc_ofs[];
-
-#endif
diff --git a/luajit-2.0/src/lj_bcdump.h b/luajit-2.0/src/lj_bcdump.h
deleted file mode 100644
index 77a789e..0000000
--- a/luajit-2.0/src/lj_bcdump.h
+++ /dev/null
@@ -1,66 +0,0 @@
-/*
-** Bytecode dump definitions.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#ifndef _LJ_BCDUMP_H
-#define _LJ_BCDUMP_H
-
-#include "lj_obj.h"
-#include "lj_lex.h"
-
-/* -- Bytecode dump format ------------------------------------------------ */
-
-/*
-** dump   = header proto+ 0U
-** header = ESC 'L' 'J' versionB flagsU [namelenU nameB*]
-** proto  = lengthU pdata
-** pdata  = phead bcinsW* uvdataH* kgc* knum* [debugB*]
-** phead  = flagsB numparamsB framesizeB numuvB numkgcU numknU numbcU
-**          [debuglenU [firstlineU numlineU]]
-** kgc    = kgctypeU { ktab | (loU hiU) | (rloU rhiU iloU ihiU) | strB* }
-** knum   = intU0 | (loU1 hiU)
-** ktab   = narrayU nhashU karray* khash*
-** karray = ktabk
-** khash  = ktabk ktabk
-** ktabk  = ktabtypeU { intU | (loU hiU) | strB* }
-**
-** B = 8 bit, H = 16 bit, W = 32 bit, U = ULEB128 of W, U0/U1 = ULEB128 of W+1
-*/
-
-/* Bytecode dump header. */
-#define BCDUMP_HEAD1		0x1b
-#define BCDUMP_HEAD2		0x4c
-#define BCDUMP_HEAD3		0x4a
-
-/* If you perform *any* kind of private modifications to the bytecode itself
-** or to the dump format, you *must* set BCDUMP_VERSION to 0x80 or higher.
-*/
-#define BCDUMP_VERSION		1
-
-/* Compatibility flags. */
-#define BCDUMP_F_BE		0x01
-#define BCDUMP_F_STRIP		0x02
-#define BCDUMP_F_FFI		0x04
-
-#define BCDUMP_F_KNOWN		(BCDUMP_F_FFI*2-1)
-
-/* Type codes for the GC constants of a prototype. Plus length for strings. */
-enum {
-  BCDUMP_KGC_CHILD, BCDUMP_KGC_TAB, BCDUMP_KGC_I64, BCDUMP_KGC_U64,
-  BCDUMP_KGC_COMPLEX, BCDUMP_KGC_STR
-};
-
-/* Type codes for the keys/values of a constant table. */
-enum {
-  BCDUMP_KTAB_NIL, BCDUMP_KTAB_FALSE, BCDUMP_KTAB_TRUE,
-  BCDUMP_KTAB_INT, BCDUMP_KTAB_NUM, BCDUMP_KTAB_STR
-};
-
-/* -- Bytecode reader/writer ---------------------------------------------- */
-
-LJ_FUNC int lj_bcwrite(lua_State *L, GCproto *pt, lua_Writer writer,
-		       void *data, int strip);
-LJ_FUNC GCproto *lj_bcread(LexState *ls);
-
-#endif
diff --git a/luajit-2.0/src/lj_bcread.c b/luajit-2.0/src/lj_bcread.c
deleted file mode 100644
index c0baece..0000000
--- a/luajit-2.0/src/lj_bcread.c
+++ /dev/null
@@ -1,476 +0,0 @@
-/*
-** Bytecode reader.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#define lj_bcread_c
-#define LUA_CORE
-
-#include "lj_obj.h"
-#include "lj_gc.h"
-#include "lj_err.h"
-#include "lj_str.h"
-#include "lj_tab.h"
-#include "lj_bc.h"
-#if LJ_HASFFI
-#include "lj_ctype.h"
-#include "lj_cdata.h"
-#include "lualib.h"
-#endif
-#include "lj_lex.h"
-#include "lj_bcdump.h"
-#include "lj_state.h"
-
-/* Reuse some lexer fields for our own purposes. */
-#define bcread_flags(ls)	ls->level
-#define bcread_swap(ls) \
-  ((bcread_flags(ls) & BCDUMP_F_BE) != LJ_BE*BCDUMP_F_BE)
-#define bcread_oldtop(L, ls)	restorestack(L, ls->lastline)
-#define bcread_savetop(L, ls, top) \
-  ls->lastline = (BCLine)savestack(L, (top))
-
-/* -- Input buffer handling ----------------------------------------------- */
-
-/* Throw reader error. */
-static LJ_NOINLINE void bcread_error(LexState *ls, ErrMsg em)
-{
-  lua_State *L = ls->L;
-  const char *name = ls->chunkarg;
-  if (*name == BCDUMP_HEAD1) name = "(binary)";
-  else if (*name == '@' || *name == '=') name++;
-  lj_str_pushf(L, "%s: %s", name, err2msg(em));
-  lj_err_throw(L, LUA_ERRSYNTAX);
-}
-
-/* Resize input buffer. */
-static void bcread_resize(LexState *ls, MSize len)
-{
-  if (ls->sb.sz < len) {
-    MSize sz = ls->sb.sz * 2;
-    while (len > sz) sz = sz * 2;
-    lj_str_resizebuf(ls->L, &ls->sb, sz);
-    /* Caveat: this may change ls->sb.buf which may affect ls->p. */
-  }
-}
-
-/* Refill buffer if needed. */
-static LJ_NOINLINE void bcread_fill(LexState *ls, MSize len, int need)
-{
-  lua_assert(len != 0);
-  if (len > LJ_MAX_MEM || ls->current < 0)
-    bcread_error(ls, LJ_ERR_BCBAD);
-  do {
-    const char *buf;
-    size_t size;
-    if (ls->n) {  /* Copy remainder to buffer. */
-      if (ls->sb.n) {  /* Move down in buffer. */
-	lua_assert(ls->p + ls->n == ls->sb.buf + ls->sb.n);
-	if (ls->n != ls->sb.n)
-	  memmove(ls->sb.buf, ls->p, ls->n);
-      } else {  /* Copy from buffer provided by reader. */
-	bcread_resize(ls, len);
-	memcpy(ls->sb.buf, ls->p, ls->n);
-      }
-      ls->p = ls->sb.buf;
-    }
-    ls->sb.n = ls->n;
-    buf = ls->rfunc(ls->L, ls->rdata, &size);  /* Get more data from reader. */
-    if (buf == NULL || size == 0) {  /* EOF? */
-      if (need) bcread_error(ls, LJ_ERR_BCBAD);
-      ls->current = -1;  /* Only bad if we get called again. */
-      break;
-    }
-    if (ls->sb.n) {  /* Append to buffer. */
-      MSize n = ls->sb.n + (MSize)size;
-      bcread_resize(ls, n < len ? len : n);
-      memcpy(ls->sb.buf + ls->sb.n, buf, size);
-      ls->n = ls->sb.n = n;
-      ls->p = ls->sb.buf;
-    } else {  /* Return buffer provided by reader. */
-      ls->n = (MSize)size;
-      ls->p = buf;
-    }
-  } while (ls->n < len);
-}
-
-/* Need a certain number of bytes. */
-static LJ_AINLINE void bcread_need(LexState *ls, MSize len)
-{
-  if (LJ_UNLIKELY(ls->n < len))
-    bcread_fill(ls, len, 1);
-}
-
-/* Want to read up to a certain number of bytes, but may need less. */
-static LJ_AINLINE void bcread_want(LexState *ls, MSize len)
-{
-  if (LJ_UNLIKELY(ls->n < len))
-    bcread_fill(ls, len, 0);
-}
-
-#define bcread_dec(ls)		check_exp(ls->n > 0, ls->n--)
-#define bcread_consume(ls, len)	check_exp(ls->n >= (len), ls->n -= (len))
-
-/* Return memory block from buffer. */
-static uint8_t *bcread_mem(LexState *ls, MSize len)
-{
-  uint8_t *p = (uint8_t *)ls->p;
-  bcread_consume(ls, len);
-  ls->p = (char *)p + len;
-  return p;
-}
-
-/* Copy memory block from buffer. */
-static void bcread_block(LexState *ls, void *q, MSize len)
-{
-  memcpy(q, bcread_mem(ls, len), len);
-}
-
-/* Read byte from buffer. */
-static LJ_AINLINE uint32_t bcread_byte(LexState *ls)
-{
-  bcread_dec(ls);
-  return (uint32_t)(uint8_t)*ls->p++;
-}
-
-/* Read ULEB128 value from buffer. */
-static uint32_t bcread_uleb128(LexState *ls)
-{
-  const uint8_t *p = (const uint8_t *)ls->p;
-  uint32_t v = *p++;
-  if (LJ_UNLIKELY(v >= 0x80)) {
-    int sh = 0;
-    v &= 0x7f;
-    do {
-     v |= ((*p & 0x7f) << (sh += 7));
-     bcread_dec(ls);
-   } while (*p++ >= 0x80);
-  }
-  bcread_dec(ls);
-  ls->p = (char *)p;
-  return v;
-}
-
-/* Read top 32 bits of 33 bit ULEB128 value from buffer. */
-static uint32_t bcread_uleb128_33(LexState *ls)
-{
-  const uint8_t *p = (const uint8_t *)ls->p;
-  uint32_t v = (*p++ >> 1);
-  if (LJ_UNLIKELY(v >= 0x40)) {
-    int sh = -1;
-    v &= 0x3f;
-    do {
-     v |= ((*p & 0x7f) << (sh += 7));
-     bcread_dec(ls);
-   } while (*p++ >= 0x80);
-  }
-  bcread_dec(ls);
-  ls->p = (char *)p;
-  return v;
-}
-
-/* -- Bytecode reader ----------------------------------------------------- */
-
-/* Read debug info of a prototype. */
-static void bcread_dbg(LexState *ls, GCproto *pt, MSize sizedbg)
-{
-  void *lineinfo = (void *)proto_lineinfo(pt);
-  bcread_block(ls, lineinfo, sizedbg);
-  /* Swap lineinfo if the endianess differs. */
-  if (bcread_swap(ls) && pt->numline >= 256) {
-    MSize i, n = pt->sizebc-1;
-    if (pt->numline < 65536) {
-      uint16_t *p = (uint16_t *)lineinfo;
-      for (i = 0; i < n; i++) p[i] = (uint16_t)((p[i] >> 8)|(p[i] << 8));
-    } else {
-      uint32_t *p = (uint32_t *)lineinfo;
-      for (i = 0; i < n; i++) p[i] = lj_bswap(p[i]);
-    }
-  }
-}
-
-/* Find pointer to varinfo. */
-static const void *bcread_varinfo(GCproto *pt)
-{
-  const uint8_t *p = proto_uvinfo(pt);
-  MSize n = pt->sizeuv;
-  if (n) while (*p++ || --n) ;
-  return p;
-}
-
-/* Read a single constant key/value of a template table. */
-static void bcread_ktabk(LexState *ls, TValue *o)
-{
-  MSize tp = bcread_uleb128(ls);
-  if (tp >= BCDUMP_KTAB_STR) {
-    MSize len = tp - BCDUMP_KTAB_STR;
-    const char *p = (const char *)bcread_mem(ls, len);
-    setstrV(ls->L, o, lj_str_new(ls->L, p, len));
-  } else if (tp == BCDUMP_KTAB_INT) {
-    setintV(o, (int32_t)bcread_uleb128(ls));
-  } else if (tp == BCDUMP_KTAB_NUM) {
-    o->u32.lo = bcread_uleb128(ls);
-    o->u32.hi = bcread_uleb128(ls);
-  } else {
-    lua_assert(tp <= BCDUMP_KTAB_TRUE);
-    setitype(o, ~tp);
-  }
-}
-
-/* Read a template table. */
-static GCtab *bcread_ktab(LexState *ls)
-{
-  MSize narray = bcread_uleb128(ls);
-  MSize nhash = bcread_uleb128(ls);
-  GCtab *t = lj_tab_new(ls->L, narray, hsize2hbits(nhash));
-  if (narray) {  /* Read array entries. */
-    MSize i;
-    TValue *o = tvref(t->array);
-    for (i = 0; i < narray; i++, o++)
-      bcread_ktabk(ls, o);
-  }
-  if (nhash) {  /* Read hash entries. */
-    MSize i;
-    for (i = 0; i < nhash; i++) {
-      TValue key;
-      bcread_ktabk(ls, &key);
-      lua_assert(!tvisnil(&key));
-      bcread_ktabk(ls, lj_tab_set(ls->L, t, &key));
-    }
-  }
-  return t;
-}
-
-/* Read GC constants of a prototype. */
-static void bcread_kgc(LexState *ls, GCproto *pt, MSize sizekgc)
-{
-  MSize i;
-  GCRef *kr = mref(pt->k, GCRef) - (ptrdiff_t)sizekgc;
-  for (i = 0; i < sizekgc; i++, kr++) {
-    MSize tp = bcread_uleb128(ls);
-    if (tp >= BCDUMP_KGC_STR) {
-      MSize len = tp - BCDUMP_KGC_STR;
-      const char *p = (const char *)bcread_mem(ls, len);
-      setgcref(*kr, obj2gco(lj_str_new(ls->L, p, len)));
-    } else if (tp == BCDUMP_KGC_TAB) {
-      setgcref(*kr, obj2gco(bcread_ktab(ls)));
-#if LJ_HASFFI
-    } else if (tp != BCDUMP_KGC_CHILD) {
-      CTypeID id = tp == BCDUMP_KGC_COMPLEX ? CTID_COMPLEX_DOUBLE :
-		   tp == BCDUMP_KGC_I64 ? CTID_INT64 : CTID_UINT64;
-      CTSize sz = tp == BCDUMP_KGC_COMPLEX ? 16 : 8;
-      GCcdata *cd = lj_cdata_new_(ls->L, id, sz);
-      TValue *p = (TValue *)cdataptr(cd);
-      setgcref(*kr, obj2gco(cd));
-      p[0].u32.lo = bcread_uleb128(ls);
-      p[0].u32.hi = bcread_uleb128(ls);
-      if (tp == BCDUMP_KGC_COMPLEX) {
-	p[1].u32.lo = bcread_uleb128(ls);
-	p[1].u32.hi = bcread_uleb128(ls);
-      }
-#endif
-    } else {
-      lua_State *L = ls->L;
-      lua_assert(tp == BCDUMP_KGC_CHILD);
-      if (L->top <= bcread_oldtop(L, ls))  /* Stack underflow? */
-	bcread_error(ls, LJ_ERR_BCBAD);
-      L->top--;
-      setgcref(*kr, obj2gco(protoV(L->top)));
-    }
-  }
-}
-
-/* Read number constants of a prototype. */
-static void bcread_knum(LexState *ls, GCproto *pt, MSize sizekn)
-{
-  MSize i;
-  TValue *o = mref(pt->k, TValue);
-  for (i = 0; i < sizekn; i++, o++) {
-    int isnum = (ls->p[0] & 1);
-    uint32_t lo = bcread_uleb128_33(ls);
-    if (isnum) {
-      o->u32.lo = lo;
-      o->u32.hi = bcread_uleb128(ls);
-    } else {
-      setintV(o, lo);
-    }
-  }
-}
-
-/* Read bytecode instructions. */
-static void bcread_bytecode(LexState *ls, GCproto *pt, MSize sizebc)
-{
-  BCIns *bc = proto_bc(pt);
-  bc[0] = BCINS_AD((pt->flags & PROTO_VARARG) ? BC_FUNCV : BC_FUNCF,
-		   pt->framesize, 0);
-  bcread_block(ls, bc+1, (sizebc-1)*(MSize)sizeof(BCIns));
-  /* Swap bytecode instructions if the endianess differs. */
-  if (bcread_swap(ls)) {
-    MSize i;
-    for (i = 1; i < sizebc; i++) bc[i] = lj_bswap(bc[i]);
-  }
-}
-
-/* Read upvalue refs. */
-static void bcread_uv(LexState *ls, GCproto *pt, MSize sizeuv)
-{
-  if (sizeuv) {
-    uint16_t *uv = proto_uv(pt);
-    bcread_block(ls, uv, sizeuv*2);
-    /* Swap upvalue refs if the endianess differs. */
-    if (bcread_swap(ls)) {
-      MSize i;
-      for (i = 0; i < sizeuv; i++)
-	uv[i] = (uint16_t)((uv[i] >> 8)|(uv[i] << 8));
-    }
-  }
-}
-
-/* Read a prototype. */
-static GCproto *bcread_proto(LexState *ls)
-{
-  GCproto *pt;
-  MSize framesize, numparams, flags, sizeuv, sizekgc, sizekn, sizebc, sizept;
-  MSize ofsk, ofsuv, ofsdbg;
-  MSize sizedbg = 0;
-  BCLine firstline = 0, numline = 0;
-  MSize len, startn;
-
-  /* Read length. */
-  if (ls->n > 0 && ls->p[0] == 0) {  /* Shortcut EOF. */
-    ls->n--; ls->p++;
-    return NULL;
-  }
-  bcread_want(ls, 5);
-  len = bcread_uleb128(ls);
-  if (!len) return NULL;  /* EOF */
-  bcread_need(ls, len);
-  startn = ls->n;
-
-  /* Read prototype header. */
-  flags = bcread_byte(ls);
-  numparams = bcread_byte(ls);
-  framesize = bcread_byte(ls);
-  sizeuv = bcread_byte(ls);
-  sizekgc = bcread_uleb128(ls);
-  sizekn = bcread_uleb128(ls);
-  sizebc = bcread_uleb128(ls) + 1;
-  if (!(bcread_flags(ls) & BCDUMP_F_STRIP)) {
-    sizedbg = bcread_uleb128(ls);
-    if (sizedbg) {
-      firstline = bcread_uleb128(ls);
-      numline = bcread_uleb128(ls);
-    }
-  }
-
-  /* Calculate total size of prototype including all colocated arrays. */
-  sizept = (MSize)sizeof(GCproto) +
-	   sizebc*(MSize)sizeof(BCIns) +
-	   sizekgc*(MSize)sizeof(GCRef);
-  sizept = (sizept + (MSize)sizeof(TValue)-1) & ~((MSize)sizeof(TValue)-1);
-  ofsk = sizept; sizept += sizekn*(MSize)sizeof(TValue);
-  ofsuv = sizept; sizept += ((sizeuv+1)&~1)*2;
-  ofsdbg = sizept; sizept += sizedbg;
-
-  /* Allocate prototype object and initialize its fields. */
-  pt = (GCproto *)lj_mem_newgco(ls->L, (MSize)sizept);
-  pt->gct = ~LJ_TPROTO;
-  pt->numparams = (uint8_t)numparams;
-  pt->framesize = (uint8_t)framesize;
-  pt->sizebc = sizebc;
-  setmref(pt->k, (char *)pt + ofsk);
-  setmref(pt->uv, (char *)pt + ofsuv);
-  pt->sizekgc = 0;  /* Set to zero until fully initialized. */
-  pt->sizekn = sizekn;
-  pt->sizept = sizept;
-  pt->sizeuv = (uint8_t)sizeuv;
-  pt->flags = (uint8_t)flags;
-  pt->trace = 0;
-  setgcref(pt->chunkname, obj2gco(ls->chunkname));
-
-  /* Close potentially uninitialized gap between bc and kgc. */
-  *(uint32_t *)((char *)pt + ofsk - sizeof(GCRef)*(sizekgc+1)) = 0;
-
-  /* Read bytecode instructions and upvalue refs. */
-  bcread_bytecode(ls, pt, sizebc);
-  bcread_uv(ls, pt, sizeuv);
-
-  /* Read constants. */
-  bcread_kgc(ls, pt, sizekgc);
-  pt->sizekgc = sizekgc;
-  bcread_knum(ls, pt, sizekn);
-
-  /* Read and initialize debug info. */
-  pt->firstline = firstline;
-  pt->numline = numline;
-  if (sizedbg) {
-    MSize sizeli = (sizebc-1) << (numline < 256 ? 0 : numline < 65536 ? 1 : 2);
-    setmref(pt->lineinfo, (char *)pt + ofsdbg);
-    setmref(pt->uvinfo, (char *)pt + ofsdbg + sizeli);
-    bcread_dbg(ls, pt, sizedbg);
-    setmref(pt->varinfo, bcread_varinfo(pt));
-  } else {
-    setmref(pt->lineinfo, NULL);
-    setmref(pt->uvinfo, NULL);
-    setmref(pt->varinfo, NULL);
-  }
-
-  if (len != startn - ls->n)
-    bcread_error(ls, LJ_ERR_BCBAD);
-  return pt;
-}
-
-/* Read and check header of bytecode dump. */
-static int bcread_header(LexState *ls)
-{
-  uint32_t flags;
-  bcread_want(ls, 3+5+5);
-  if (bcread_byte(ls) != BCDUMP_HEAD2 ||
-      bcread_byte(ls) != BCDUMP_HEAD3 ||
-      bcread_byte(ls) != BCDUMP_VERSION) return 0;
-  bcread_flags(ls) = flags = bcread_uleb128(ls);
-  if ((flags & ~(BCDUMP_F_KNOWN)) != 0) return 0;
-  if ((flags & BCDUMP_F_FFI)) {
-#if LJ_HASFFI
-    lua_State *L = ls->L;
-    if (!ctype_ctsG(G(L))) {
-      ptrdiff_t oldtop = savestack(L, L->top);
-      luaopen_ffi(L);  /* Load FFI library on-demand. */
-      L->top = restorestack(L, oldtop);
-    }
-#else
-    return 0;
-#endif
-  }
-  if ((flags & BCDUMP_F_STRIP)) {
-    ls->chunkname = lj_str_newz(ls->L, ls->chunkarg);
-  } else {
-    MSize len = bcread_uleb128(ls);
-    bcread_need(ls, len);
-    ls->chunkname = lj_str_new(ls->L, (const char *)bcread_mem(ls, len), len);
-  }
-  return 1;  /* Ok. */
-}
-
-/* Read a bytecode dump. */
-GCproto *lj_bcread(LexState *ls)
-{
-  lua_State *L = ls->L;
-  lua_assert(ls->current == BCDUMP_HEAD1);
-  bcread_savetop(L, ls, L->top);
-  lj_str_resetbuf(&ls->sb);
-  /* Check for a valid bytecode dump header. */
-  if (!bcread_header(ls))
-    bcread_error(ls, LJ_ERR_BCFMT);
-  for (;;) {  /* Process all prototypes in the bytecode dump. */
-    GCproto *pt = bcread_proto(ls);
-    if (!pt) break;
-    setprotoV(L, L->top, pt);
-    incr_top(L);
-  }
-  if ((int32_t)ls->n > 0 || L->top-1 != bcread_oldtop(L, ls))
-    bcread_error(ls, LJ_ERR_BCBAD);
-  /* Pop off last prototype. */
-  L->top--;
-  return protoV(L->top);
-}
-
diff --git a/luajit-2.0/src/lj_bcwrite.c b/luajit-2.0/src/lj_bcwrite.c
deleted file mode 100644
index dcdaa10..0000000
--- a/luajit-2.0/src/lj_bcwrite.c
+++ /dev/null
@@ -1,396 +0,0 @@
-/*
-** Bytecode writer.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#define lj_bcwrite_c
-#define LUA_CORE
-
-#include "lj_obj.h"
-#include "lj_gc.h"
-#include "lj_str.h"
-#include "lj_bc.h"
-#if LJ_HASFFI
-#include "lj_ctype.h"
-#endif
-#if LJ_HASJIT
-#include "lj_dispatch.h"
-#include "lj_jit.h"
-#endif
-#include "lj_bcdump.h"
-#include "lj_vm.h"
-
-/* Context for bytecode writer. */
-typedef struct BCWriteCtx {
-  SBuf sb;			/* Output buffer. */
-  lua_State *L;			/* Lua state. */
-  GCproto *pt;			/* Root prototype. */
-  lua_Writer wfunc;		/* Writer callback. */
-  void *wdata;			/* Writer callback data. */
-  int strip;			/* Strip debug info. */
-  int status;			/* Status from writer callback. */
-} BCWriteCtx;
-
-/* -- Output buffer handling ---------------------------------------------- */
-
-/* Resize buffer if needed. */
-static LJ_NOINLINE void bcwrite_resize(BCWriteCtx *ctx, MSize len)
-{
-  MSize sz = ctx->sb.sz * 2;
-  while (ctx->sb.n + len > sz) sz = sz * 2;
-  lj_str_resizebuf(ctx->L, &ctx->sb, sz);
-}
-
-/* Need a certain amount of buffer space. */
-static LJ_AINLINE void bcwrite_need(BCWriteCtx *ctx, MSize len)
-{
-  if (LJ_UNLIKELY(ctx->sb.n + len > ctx->sb.sz))
-    bcwrite_resize(ctx, len);
-}
-
-/* Add memory block to buffer. */
-static void bcwrite_block(BCWriteCtx *ctx, const void *p, MSize len)
-{
-  uint8_t *q = (uint8_t *)(ctx->sb.buf + ctx->sb.n);
-  MSize i;
-  ctx->sb.n += len;
-  for (i = 0; i < len; i++) q[i] = ((uint8_t *)p)[i];
-}
-
-/* Add byte to buffer. */
-static LJ_AINLINE void bcwrite_byte(BCWriteCtx *ctx, uint8_t b)
-{
-  ctx->sb.buf[ctx->sb.n++] = b;
-}
-
-/* Add ULEB128 value to buffer. */
-static void bcwrite_uleb128(BCWriteCtx *ctx, uint32_t v)
-{
-  MSize n = ctx->sb.n;
-  uint8_t *p = (uint8_t *)ctx->sb.buf;
-  for (; v >= 0x80; v >>= 7)
-    p[n++] = (uint8_t)((v & 0x7f) | 0x80);
-  p[n++] = (uint8_t)v;
-  ctx->sb.n = n;
-}
-
-/* -- Bytecode writer ----------------------------------------------------- */
-
-/* Write a single constant key/value of a template table. */
-static void bcwrite_ktabk(BCWriteCtx *ctx, cTValue *o, int narrow)
-{
-  bcwrite_need(ctx, 1+10);
-  if (tvisstr(o)) {
-    const GCstr *str = strV(o);
-    MSize len = str->len;
-    bcwrite_need(ctx, 5+len);
-    bcwrite_uleb128(ctx, BCDUMP_KTAB_STR+len);
-    bcwrite_block(ctx, strdata(str), len);
-  } else if (tvisint(o)) {
-    bcwrite_byte(ctx, BCDUMP_KTAB_INT);
-    bcwrite_uleb128(ctx, intV(o));
-  } else if (tvisnum(o)) {
-    if (!LJ_DUALNUM && narrow) {  /* Narrow number constants to integers. */
-      lua_Number num = numV(o);
-      int32_t k = lj_num2int(num);
-      if (num == (lua_Number)k) {  /* -0 is never a constant. */
-	bcwrite_byte(ctx, BCDUMP_KTAB_INT);
-	bcwrite_uleb128(ctx, k);
-	return;
-      }
-    }
-    bcwrite_byte(ctx, BCDUMP_KTAB_NUM);
-    bcwrite_uleb128(ctx, o->u32.lo);
-    bcwrite_uleb128(ctx, o->u32.hi);
-  } else {
-    lua_assert(tvispri(o));
-    bcwrite_byte(ctx, BCDUMP_KTAB_NIL+~itype(o));
-  }
-}
-
-/* Write a template table. */
-static void bcwrite_ktab(BCWriteCtx *ctx, const GCtab *t)
-{
-  MSize narray = 0, nhash = 0;
-  if (t->asize > 0) {  /* Determine max. length of array part. */
-    ptrdiff_t i;
-    TValue *array = tvref(t->array);
-    for (i = (ptrdiff_t)t->asize-1; i >= 0; i--)
-      if (!tvisnil(&array[i]))
-	break;
-    narray = (MSize)(i+1);
-  }
-  if (t->hmask > 0) {  /* Count number of used hash slots. */
-    MSize i, hmask = t->hmask;
-    Node *node = noderef(t->node);
-    for (i = 0; i <= hmask; i++)
-      nhash += !tvisnil(&node[i].val);
-  }
-  /* Write number of array slots and hash slots. */
-  bcwrite_uleb128(ctx, narray);
-  bcwrite_uleb128(ctx, nhash);
-  if (narray) {  /* Write array entries (may contain nil). */
-    MSize i;
-    TValue *o = tvref(t->array);
-    for (i = 0; i < narray; i++, o++)
-      bcwrite_ktabk(ctx, o, 1);
-  }
-  if (nhash) {  /* Write hash entries. */
-    MSize i = nhash;
-    Node *node = noderef(t->node) + t->hmask;
-    for (;; node--)
-      if (!tvisnil(&node->val)) {
-	bcwrite_ktabk(ctx, &node->key, 0);
-	bcwrite_ktabk(ctx, &node->val, 1);
-	if (--i == 0) break;
-      }
-  }
-}
-
-/* Write GC constants of a prototype. */
-static void bcwrite_kgc(BCWriteCtx *ctx, GCproto *pt)
-{
-  MSize i, sizekgc = pt->sizekgc;
-  GCRef *kr = mref(pt->k, GCRef) - (ptrdiff_t)sizekgc;
-  for (i = 0; i < sizekgc; i++, kr++) {
-    GCobj *o = gcref(*kr);
-    MSize tp, need = 1;
-    /* Determine constant type and needed size. */
-    if (o->gch.gct == ~LJ_TSTR) {
-      tp = BCDUMP_KGC_STR + gco2str(o)->len;
-      need = 5+gco2str(o)->len;
-    } else if (o->gch.gct == ~LJ_TPROTO) {
-      lua_assert((pt->flags & PROTO_CHILD));
-      tp = BCDUMP_KGC_CHILD;
-#if LJ_HASFFI
-    } else if (o->gch.gct == ~LJ_TCDATA) {
-      CTypeID id = gco2cd(o)->ctypeid;
-      need = 1+4*5;
-      if (id == CTID_INT64) {
-	tp = BCDUMP_KGC_I64;
-      } else if (id == CTID_UINT64) {
-	tp = BCDUMP_KGC_U64;
-      } else {
-	lua_assert(id == CTID_COMPLEX_DOUBLE);
-	tp = BCDUMP_KGC_COMPLEX;
-      }
-#endif
-    } else {
-      lua_assert(o->gch.gct == ~LJ_TTAB);
-      tp = BCDUMP_KGC_TAB;
-      need = 1+2*5;
-    }
-    /* Write constant type. */
-    bcwrite_need(ctx, need);
-    bcwrite_uleb128(ctx, tp);
-    /* Write constant data (if any). */
-    if (tp >= BCDUMP_KGC_STR) {
-      bcwrite_block(ctx, strdata(gco2str(o)), gco2str(o)->len);
-    } else if (tp == BCDUMP_KGC_TAB) {
-      bcwrite_ktab(ctx, gco2tab(o));
-#if LJ_HASFFI
-    } else if (tp != BCDUMP_KGC_CHILD) {
-      cTValue *p = (TValue *)cdataptr(gco2cd(o));
-      bcwrite_uleb128(ctx, p[0].u32.lo);
-      bcwrite_uleb128(ctx, p[0].u32.hi);
-      if (tp == BCDUMP_KGC_COMPLEX) {
-	bcwrite_uleb128(ctx, p[1].u32.lo);
-	bcwrite_uleb128(ctx, p[1].u32.hi);
-      }
-#endif
-    }
-  }
-}
-
-/* Write number constants of a prototype. */
-static void bcwrite_knum(BCWriteCtx *ctx, GCproto *pt)
-{
-  MSize i, sizekn = pt->sizekn;
-  cTValue *o = mref(pt->k, TValue);
-  bcwrite_need(ctx, 10*sizekn);
-  for (i = 0; i < sizekn; i++, o++) {
-    int32_t k;
-    if (tvisint(o)) {
-      k = intV(o);
-      goto save_int;
-    } else {
-      /* Write a 33 bit ULEB128 for the int (lsb=0) or loword (lsb=1). */
-      if (!LJ_DUALNUM) {  /* Narrow number constants to integers. */
-	lua_Number num = numV(o);
-	k = lj_num2int(num);
-	if (num == (lua_Number)k) {  /* -0 is never a constant. */
-	save_int:
-	  bcwrite_uleb128(ctx, 2*(uint32_t)k | ((uint32_t)k & 0x80000000u));
-	  if (k < 0) {
-	    char *p = &ctx->sb.buf[ctx->sb.n-1];
-	    *p = (*p & 7) | ((k>>27) & 0x18);
-	  }
-	  continue;
-	}
-      }
-      bcwrite_uleb128(ctx, 1+(2*o->u32.lo | (o->u32.lo & 0x80000000u)));
-      if (o->u32.lo >= 0x80000000u) {
-	char *p = &ctx->sb.buf[ctx->sb.n-1];
-	*p = (*p & 7) | ((o->u32.lo>>27) & 0x18);
-      }
-      bcwrite_uleb128(ctx, o->u32.hi);
-    }
-  }
-}
-
-/* Write bytecode instructions. */
-static void bcwrite_bytecode(BCWriteCtx *ctx, GCproto *pt)
-{
-  MSize nbc = pt->sizebc-1;  /* Omit the [JI]FUNC* header. */
-#if LJ_HASJIT
-  uint8_t *p = (uint8_t *)&ctx->sb.buf[ctx->sb.n];
-#endif
-  bcwrite_block(ctx, proto_bc(pt)+1, nbc*(MSize)sizeof(BCIns));
-#if LJ_HASJIT
-  /* Unpatch modified bytecode containing ILOOP/JLOOP etc. */
-  if ((pt->flags & PROTO_ILOOP) || pt->trace) {
-    jit_State *J = L2J(ctx->L);
-    MSize i;
-    for (i = 0; i < nbc; i++, p += sizeof(BCIns)) {
-      BCOp op = (BCOp)p[LJ_ENDIAN_SELECT(0, 3)];
-      if (op == BC_IFORL || op == BC_IITERL || op == BC_ILOOP ||
-	  op == BC_JFORI) {
-	p[LJ_ENDIAN_SELECT(0, 3)] = (uint8_t)(op-BC_IFORL+BC_FORL);
-      } else if (op == BC_JFORL || op == BC_JITERL || op == BC_JLOOP) {
-	BCReg rd = p[LJ_ENDIAN_SELECT(2, 1)] + (p[LJ_ENDIAN_SELECT(3, 0)] << 8);
-	BCIns ins = traceref(J, rd)->startins;
-	p[LJ_ENDIAN_SELECT(0, 3)] = (uint8_t)(op-BC_JFORL+BC_FORL);
-	p[LJ_ENDIAN_SELECT(2, 1)] = bc_c(ins);
-	p[LJ_ENDIAN_SELECT(3, 0)] = bc_b(ins);
-      }
-    }
-  }
-#endif
-}
-
-/* Write prototype. */
-static void bcwrite_proto(BCWriteCtx *ctx, GCproto *pt)
-{
-  MSize sizedbg = 0;
-
-  /* Recursively write children of prototype. */
-  if ((pt->flags & PROTO_CHILD)) {
-    ptrdiff_t i, n = pt->sizekgc;
-    GCRef *kr = mref(pt->k, GCRef) - 1;
-    for (i = 0; i < n; i++, kr--) {
-      GCobj *o = gcref(*kr);
-      if (o->gch.gct == ~LJ_TPROTO)
-	bcwrite_proto(ctx, gco2pt(o));
-    }
-  }
-
-  /* Start writing the prototype info to a buffer. */
-  lj_str_resetbuf(&ctx->sb);
-  ctx->sb.n = 5;  /* Leave room for final size. */
-  bcwrite_need(ctx, 4+6*5+(pt->sizebc-1)*(MSize)sizeof(BCIns)+pt->sizeuv*2);
-
-  /* Write prototype header. */
-  bcwrite_byte(ctx, (pt->flags & (PROTO_CHILD|PROTO_VARARG|PROTO_FFI)));
-  bcwrite_byte(ctx, pt->numparams);
-  bcwrite_byte(ctx, pt->framesize);
-  bcwrite_byte(ctx, pt->sizeuv);
-  bcwrite_uleb128(ctx, pt->sizekgc);
-  bcwrite_uleb128(ctx, pt->sizekn);
-  bcwrite_uleb128(ctx, pt->sizebc-1);
-  if (!ctx->strip) {
-    if (proto_lineinfo(pt))
-      sizedbg = pt->sizept - (MSize)((char *)proto_lineinfo(pt) - (char *)pt);
-    bcwrite_uleb128(ctx, sizedbg);
-    if (sizedbg) {
-      bcwrite_uleb128(ctx, pt->firstline);
-      bcwrite_uleb128(ctx, pt->numline);
-    }
-  }
-
-  /* Write bytecode instructions and upvalue refs. */
-  bcwrite_bytecode(ctx, pt);
-  bcwrite_block(ctx, proto_uv(pt), pt->sizeuv*2);
-
-  /* Write constants. */
-  bcwrite_kgc(ctx, pt);
-  bcwrite_knum(ctx, pt);
-
-  /* Write debug info, if not stripped. */
-  if (sizedbg) {
-    bcwrite_need(ctx, sizedbg);
-    bcwrite_block(ctx, proto_lineinfo(pt), sizedbg);
-  }
-
-  /* Pass buffer to writer function. */
-  if (ctx->status == 0) {
-    MSize n = ctx->sb.n - 5;
-    MSize nn = (lj_fls(n)+8)*9 >> 6;
-    ctx->sb.n = 5 - nn;
-    bcwrite_uleb128(ctx, n);  /* Fill in final size. */
-    lua_assert(ctx->sb.n == 5);
-    ctx->status = ctx->wfunc(ctx->L, ctx->sb.buf+5-nn, nn+n, ctx->wdata);
-  }
-}
-
-/* Write header of bytecode dump. */
-static void bcwrite_header(BCWriteCtx *ctx)
-{
-  GCstr *chunkname = proto_chunkname(ctx->pt);
-  const char *name = strdata(chunkname);
-  MSize len = chunkname->len;
-  lj_str_resetbuf(&ctx->sb);
-  bcwrite_need(ctx, 5+5+len);
-  bcwrite_byte(ctx, BCDUMP_HEAD1);
-  bcwrite_byte(ctx, BCDUMP_HEAD2);
-  bcwrite_byte(ctx, BCDUMP_HEAD3);
-  bcwrite_byte(ctx, BCDUMP_VERSION);
-  bcwrite_byte(ctx, (ctx->strip ? BCDUMP_F_STRIP : 0) +
-		   (LJ_BE ? BCDUMP_F_BE : 0) +
-		   ((ctx->pt->flags & PROTO_FFI) ? BCDUMP_F_FFI : 0));
-  if (!ctx->strip) {
-    bcwrite_uleb128(ctx, len);
-    bcwrite_block(ctx, name, len);
-  }
-  ctx->status = ctx->wfunc(ctx->L, ctx->sb.buf, ctx->sb.n, ctx->wdata);
-}
-
-/* Write footer of bytecode dump. */
-static void bcwrite_footer(BCWriteCtx *ctx)
-{
-  if (ctx->status == 0) {
-    uint8_t zero = 0;
-    ctx->status = ctx->wfunc(ctx->L, &zero, 1, ctx->wdata);
-  }
-}
-
-/* Protected callback for bytecode writer. */
-static TValue *cpwriter(lua_State *L, lua_CFunction dummy, void *ud)
-{
-  BCWriteCtx *ctx = (BCWriteCtx *)ud;
-  UNUSED(dummy);
-  lj_str_resizebuf(L, &ctx->sb, 1024);  /* Avoids resize for most prototypes. */
-  bcwrite_header(ctx);
-  bcwrite_proto(ctx, ctx->pt);
-  bcwrite_footer(ctx);
-  return NULL;
-}
-
-/* Write bytecode for a prototype. */
-int lj_bcwrite(lua_State *L, GCproto *pt, lua_Writer writer, void *data,
-	      int strip)
-{
-  BCWriteCtx ctx;
-  int status;
-  ctx.L = L;
-  ctx.pt = pt;
-  ctx.wfunc = writer;
-  ctx.wdata = data;
-  ctx.strip = strip;
-  ctx.status = 0;
-  lj_str_initbuf(&ctx.sb);
-  status = lj_vm_cpcall(L, NULL, &ctx, cpwriter);
-  if (status == 0) status = ctx.status;
-  lj_str_freebuf(G(ctx.L), &ctx.sb);
-  return status;
-}
-
diff --git a/luajit-2.0/src/lj_carith.c b/luajit-2.0/src/lj_carith.c
deleted file mode 100644
index 9a451b2..0000000
--- a/luajit-2.0/src/lj_carith.c
+++ /dev/null
@@ -1,353 +0,0 @@
-/*
-** C data arithmetic.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#include "lj_obj.h"
-
-#if LJ_HASFFI
-
-#include "lj_gc.h"
-#include "lj_err.h"
-#include "lj_tab.h"
-#include "lj_meta.h"
-#include "lj_ctype.h"
-#include "lj_cconv.h"
-#include "lj_cdata.h"
-#include "lj_carith.h"
-
-/* -- C data arithmetic --------------------------------------------------- */
-
-/* Binary operands of an operator converted to ctypes. */
-typedef struct CDArith {
-  uint8_t *p[2];
-  CType *ct[2];
-} CDArith;
-
-/* Check arguments for arithmetic metamethods. */
-static int carith_checkarg(lua_State *L, CTState *cts, CDArith *ca)
-{
-  TValue *o = L->base;
-  int ok = 1;
-  MSize i;
-  if (o+1 >= L->top)
-    lj_err_argt(L, 1, LUA_TCDATA);
-  for (i = 0; i < 2; i++, o++) {
-    if (tviscdata(o)) {
-      GCcdata *cd = cdataV(o);
-      CTypeID id = (CTypeID)cd->ctypeid;
-      CType *ct = ctype_raw(cts, id);
-      uint8_t *p = (uint8_t *)cdataptr(cd);
-      if (ctype_isptr(ct->info)) {
-	p = (uint8_t *)cdata_getptr(p, ct->size);
-	if (ctype_isref(ct->info)) ct = ctype_rawchild(cts, ct);
-      } else if (ctype_isfunc(ct->info)) {
-	p = (uint8_t *)*(void **)p;
-	ct = ctype_get(cts,
-	  lj_ctype_intern(cts, CTINFO(CT_PTR, CTALIGN_PTR|id), CTSIZE_PTR));
-      }
-      if (ctype_isenum(ct->info)) ct = ctype_child(cts, ct);
-      ca->ct[i] = ct;
-      ca->p[i] = p;
-    } else if (tvisint(o)) {
-      ca->ct[i] = ctype_get(cts, CTID_INT32);
-      ca->p[i] = (uint8_t *)&o->i;
-    } else if (tvisnum(o)) {
-      ca->ct[i] = ctype_get(cts, CTID_DOUBLE);
-      ca->p[i] = (uint8_t *)&o->n;
-    } else if (tvisnil(o)) {
-      ca->ct[i] = ctype_get(cts, CTID_P_VOID);
-      ca->p[i] = (uint8_t *)0;
-    } else if (tvisstr(o)) {
-      TValue *o2 = i == 0 ? o+1 : o-1;
-      CType *ct = ctype_raw(cts, cdataV(o2)->ctypeid);
-      ca->ct[i] = NULL;
-      ca->p[i] = (uint8_t *)strVdata(o);
-      ok = 0;
-      if (ctype_isenum(ct->info)) {
-	CTSize ofs;
-	CType *cct = lj_ctype_getfield(cts, ct, strV(o), &ofs);
-	if (cct && ctype_isconstval(cct->info)) {
-	  ca->ct[i] = ctype_child(cts, cct);
-	  ca->p[i] = (uint8_t *)&cct->size;  /* Assumes ct does not grow. */
-	  ok = 1;
-	} else {
-	  ca->ct[1-i] = ct;  /* Use enum to improve error message. */
-	  ca->p[1-i] = NULL;
-	  break;
-	}
-      }
-    } else {
-      ca->ct[i] = NULL;
-      ca->p[i] = (void *)(intptr_t)1;  /* To make it unequal. */
-      ok = 0;
-    }
-  }
-  return ok;
-}
-
-/* Pointer arithmetic. */
-static int carith_ptr(lua_State *L, CTState *cts, CDArith *ca, MMS mm)
-{
-  CType *ctp = ca->ct[0];
-  uint8_t *pp = ca->p[0];
-  ptrdiff_t idx;
-  CTSize sz;
-  CTypeID id;
-  GCcdata *cd;
-  if (ctype_isptr(ctp->info) || ctype_isrefarray(ctp->info)) {
-    if ((mm == MM_sub || mm == MM_eq || mm == MM_lt || mm == MM_le) &&
-	(ctype_isptr(ca->ct[1]->info) || ctype_isrefarray(ca->ct[1]->info))) {
-      uint8_t *pp2 = ca->p[1];
-      if (mm == MM_eq) {  /* Pointer equality. Incompatible pointers are ok. */
-	setboolV(L->top-1, (pp == pp2));
-	return 1;
-      }
-      if (!lj_cconv_compatptr(cts, ctp, ca->ct[1], CCF_IGNQUAL))
-	return 0;
-      if (mm == MM_sub) {  /* Pointer difference. */
-	intptr_t diff;
-	sz = lj_ctype_size(cts, ctype_cid(ctp->info));  /* Element size. */
-	if (sz == 0 || sz == CTSIZE_INVALID)
-	  return 0;
-	diff = ((intptr_t)pp - (intptr_t)pp2) / (int32_t)sz;
-	/* All valid pointer differences on x64 are in (-2^47, +2^47),
-	** which fits into a double without loss of precision.
-	*/
-	setintptrV(L->top-1, (int32_t)diff);
-	return 1;
-      } else if (mm == MM_lt) {  /* Pointer comparison (unsigned). */
-	setboolV(L->top-1, ((uintptr_t)pp < (uintptr_t)pp2));
-	return 1;
-      } else {
-	lua_assert(mm == MM_le);
-	setboolV(L->top-1, ((uintptr_t)pp <= (uintptr_t)pp2));
-	return 1;
-      }
-    }
-    if (!((mm == MM_add || mm == MM_sub) && ctype_isnum(ca->ct[1]->info)))
-      return 0;
-    lj_cconv_ct_ct(cts, ctype_get(cts, CTID_INT_PSZ), ca->ct[1],
-		   (uint8_t *)&idx, ca->p[1], 0);
-    if (mm == MM_sub) idx = -idx;
-  } else if (mm == MM_add && ctype_isnum(ctp->info) &&
-      (ctype_isptr(ca->ct[1]->info) || ctype_isrefarray(ca->ct[1]->info))) {
-    /* Swap pointer and index. */
-    ctp = ca->ct[1]; pp = ca->p[1];
-    lj_cconv_ct_ct(cts, ctype_get(cts, CTID_INT_PSZ), ca->ct[0],
-		   (uint8_t *)&idx, ca->p[0], 0);
-  } else {
-    return 0;
-  }
-  sz = lj_ctype_size(cts, ctype_cid(ctp->info));  /* Element size. */
-  if (sz == CTSIZE_INVALID)
-    return 0;
-  pp += idx*(int32_t)sz;  /* Compute pointer + index. */
-  id = lj_ctype_intern(cts, CTINFO(CT_PTR, CTALIGN_PTR|ctype_cid(ctp->info)),
-		       CTSIZE_PTR);
-  cd = lj_cdata_new(cts, id, CTSIZE_PTR);
-  *(uint8_t **)cdataptr(cd) = pp;
-  setcdataV(L, L->top-1, cd);
-  lj_gc_check(L);
-  return 1;
-}
-
-/* 64 bit integer arithmetic. */
-static int carith_int64(lua_State *L, CTState *cts, CDArith *ca, MMS mm)
-{
-  if (ctype_isnum(ca->ct[0]->info) && ca->ct[0]->size <= 8 &&
-      ctype_isnum(ca->ct[1]->info) && ca->ct[1]->size <= 8) {
-    CTypeID id = (((ca->ct[0]->info & CTF_UNSIGNED) && ca->ct[0]->size == 8) ||
-		  ((ca->ct[1]->info & CTF_UNSIGNED) && ca->ct[1]->size == 8)) ?
-		 CTID_UINT64 : CTID_INT64;
-    CType *ct = ctype_get(cts, id);
-    GCcdata *cd;
-    uint64_t u0, u1, *up;
-    lj_cconv_ct_ct(cts, ct, ca->ct[0], (uint8_t *)&u0, ca->p[0], 0);
-    if (mm != MM_unm)
-      lj_cconv_ct_ct(cts, ct, ca->ct[1], (uint8_t *)&u1, ca->p[1], 0);
-    switch (mm) {
-    case MM_eq:
-      setboolV(L->top-1, (u0 == u1));
-      return 1;
-    case MM_lt:
-      setboolV(L->top-1,
-	       id == CTID_INT64 ? ((int64_t)u0 < (int64_t)u1) : (u0 < u1));
-      return 1;
-    case MM_le:
-      setboolV(L->top-1,
-	       id == CTID_INT64 ? ((int64_t)u0 <= (int64_t)u1) : (u0 <= u1));
-      return 1;
-    default: break;
-    }
-    cd = lj_cdata_new(cts, id, 8);
-    up = (uint64_t *)cdataptr(cd);
-    setcdataV(L, L->top-1, cd);
-    switch (mm) {
-    case MM_add: *up = u0 + u1; break;
-    case MM_sub: *up = u0 - u1; break;
-    case MM_mul: *up = u0 * u1; break;
-    case MM_div:
-      if (id == CTID_INT64)
-	*up = (uint64_t)lj_carith_divi64((int64_t)u0, (int64_t)u1);
-      else
-	*up = lj_carith_divu64(u0, u1);
-      break;
-    case MM_mod:
-      if (id == CTID_INT64)
-	*up = (uint64_t)lj_carith_modi64((int64_t)u0, (int64_t)u1);
-      else
-	*up = lj_carith_modu64(u0, u1);
-      break;
-    case MM_pow:
-      if (id == CTID_INT64)
-	*up = (uint64_t)lj_carith_powi64((int64_t)u0, (int64_t)u1);
-      else
-	*up = lj_carith_powu64(u0, u1);
-      break;
-    case MM_unm: *up = (uint64_t)-(int64_t)u0; break;
-    default: lua_assert(0); break;
-    }
-    lj_gc_check(L);
-    return 1;
-  }
-  return 0;
-}
-
-/* Handle ctype arithmetic metamethods. */
-static int lj_carith_meta(lua_State *L, CTState *cts, CDArith *ca, MMS mm)
-{
-  cTValue *tv = NULL;
-  if (tviscdata(L->base)) {
-    CTypeID id = cdataV(L->base)->ctypeid;
-    CType *ct = ctype_raw(cts, id);
-    if (ctype_isptr(ct->info)) id = ctype_cid(ct->info);
-    tv = lj_ctype_meta(cts, id, mm);
-  }
-  if (!tv && L->base+1 < L->top && tviscdata(L->base+1)) {
-    CTypeID id = cdataV(L->base+1)->ctypeid;
-    CType *ct = ctype_raw(cts, id);
-    if (ctype_isptr(ct->info)) id = ctype_cid(ct->info);
-    tv = lj_ctype_meta(cts, id, mm);
-  }
-  if (!tv) {
-    const char *repr[2];
-    int i, isenum = -1, isstr = -1;
-    if (mm == MM_eq) {  /* Equality checks never raise an error. */
-      int eq = ca->p[0] == ca->p[1];
-      setboolV(L->top-1, eq);
-      setboolV(&G(L)->tmptv2, eq);  /* Remember for trace recorder. */
-      return 1;
-    }
-    for (i = 0; i < 2; i++) {
-      if (ca->ct[i] && tviscdata(L->base+i)) {
-	if (ctype_isenum(ca->ct[i]->info)) isenum = i;
-	repr[i] = strdata(lj_ctype_repr(L, ctype_typeid(cts, ca->ct[i]), NULL));
-      } else {
-	if (tvisstr(&L->base[i])) isstr = i;
-	repr[i] = lj_typename(&L->base[i]);
-      }
-    }
-    if ((isenum ^ isstr) == 1)
-      lj_err_callerv(L, LJ_ERR_FFI_BADCONV, repr[isstr], repr[isenum]);
-    lj_err_callerv(L, mm == MM_len ? LJ_ERR_FFI_BADLEN :
-		      mm == MM_concat ? LJ_ERR_FFI_BADCONCAT :
-		      mm < MM_add ? LJ_ERR_FFI_BADCOMP : LJ_ERR_FFI_BADARITH,
-		   repr[0], repr[1]);
-  }
-  return lj_meta_tailcall(L, tv);
-}
-
-/* Arithmetic operators for cdata. */
-int lj_carith_op(lua_State *L, MMS mm)
-{
-  CTState *cts = ctype_cts(L);
-  CDArith ca;
-  if (carith_checkarg(L, cts, &ca)) {
-    if (carith_int64(L, cts, &ca, mm) || carith_ptr(L, cts, &ca, mm)) {
-      copyTV(L, &G(L)->tmptv2, L->top-1);  /* Remember for trace recorder. */
-      return 1;
-    }
-  }
-  return lj_carith_meta(L, cts, &ca, mm);
-}
-
-/* -- 64 bit integer arithmetic helpers ----------------------------------- */
-
-#if LJ_32 && LJ_HASJIT
-/* Signed/unsigned 64 bit multiplication. */
-int64_t lj_carith_mul64(int64_t a, int64_t b)
-{
-  return a * b;
-}
-#endif
-
-/* Unsigned 64 bit division. */
-uint64_t lj_carith_divu64(uint64_t a, uint64_t b)
-{
-  if (b == 0) return U64x(80000000,00000000);
-  return a / b;
-}
-
-/* Signed 64 bit division. */
-int64_t lj_carith_divi64(int64_t a, int64_t b)
-{
-  if (b == 0 || (a == (int64_t)U64x(80000000,00000000) && b == -1))
-    return U64x(80000000,00000000);
-  return a / b;
-}
-
-/* Unsigned 64 bit modulo. */
-uint64_t lj_carith_modu64(uint64_t a, uint64_t b)
-{
-  if (b == 0) return U64x(80000000,00000000);
-  return a % b;
-}
-
-/* Signed 64 bit modulo. */
-int64_t lj_carith_modi64(int64_t a, int64_t b)
-{
-  if (b == 0) return U64x(80000000,00000000);
-  if (a == (int64_t)U64x(80000000,00000000) && b == -1) return 0;
-  return a % b;
-}
-
-/* Unsigned 64 bit x^k. */
-uint64_t lj_carith_powu64(uint64_t x, uint64_t k)
-{
-  uint64_t y;
-  if (k == 0)
-    return 1;
-  for (; (k & 1) == 0; k >>= 1) x *= x;
-  y = x;
-  if ((k >>= 1) != 0) {
-    for (;;) {
-      x *= x;
-      if (k == 1) break;
-      if (k & 1) y *= x;
-      k >>= 1;
-    }
-    y *= x;
-  }
-  return y;
-}
-
-/* Signed 64 bit x^k. */
-int64_t lj_carith_powi64(int64_t x, int64_t k)
-{
-  if (k == 0)
-    return 1;
-  if (k < 0) {
-    if (x == 0)
-      return U64x(7fffffff,ffffffff);
-    else if (x == 1)
-      return 1;
-    else if (x == -1)
-      return (k & 1) ? -1 : 1;
-    else
-      return 0;
-  }
-  return (int64_t)lj_carith_powu64((uint64_t)x, (uint64_t)k);
-}
-
-#endif
diff --git a/luajit-2.0/src/lj_carith.h b/luajit-2.0/src/lj_carith.h
deleted file mode 100644
index 8b28556..0000000
--- a/luajit-2.0/src/lj_carith.h
+++ /dev/null
@@ -1,27 +0,0 @@
-/*
-** C data arithmetic.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#ifndef _LJ_CARITH_H
-#define _LJ_CARITH_H
-
-#include "lj_obj.h"
-
-#if LJ_HASFFI
-
-LJ_FUNC int lj_carith_op(lua_State *L, MMS mm);
-
-#if LJ_32 && LJ_HASJIT
-LJ_FUNC int64_t lj_carith_mul64(int64_t x, int64_t k);
-#endif
-LJ_FUNC uint64_t lj_carith_divu64(uint64_t a, uint64_t b);
-LJ_FUNC int64_t lj_carith_divi64(int64_t a, int64_t b);
-LJ_FUNC uint64_t lj_carith_modu64(uint64_t a, uint64_t b);
-LJ_FUNC int64_t lj_carith_modi64(int64_t a, int64_t b);
-LJ_FUNC uint64_t lj_carith_powu64(uint64_t x, uint64_t k);
-LJ_FUNC int64_t lj_carith_powi64(int64_t x, int64_t k);
-
-#endif
-
-#endif
diff --git a/luajit-2.0/src/lj_ccall.c b/luajit-2.0/src/lj_ccall.c
deleted file mode 100644
index 70c9ba5..0000000
--- a/luajit-2.0/src/lj_ccall.c
+++ /dev/null
@@ -1,900 +0,0 @@
-/*
-** FFI C call handling.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#include "lj_obj.h"
-
-#if LJ_HASFFI
-
-#include "lj_gc.h"
-#include "lj_err.h"
-#include "lj_str.h"
-#include "lj_tab.h"
-#include "lj_ctype.h"
-#include "lj_cconv.h"
-#include "lj_cdata.h"
-#include "lj_ccall.h"
-#include "lj_trace.h"
-
-/* Target-specific handling of register arguments. */
-#if LJ_TARGET_X86
-/* -- x86 calling conventions --------------------------------------------- */
-
-#if LJ_ABI_WIN
-
-#define CCALL_HANDLE_STRUCTRET \
-  /* Return structs bigger than 8 by reference (on stack only). */ \
-  cc->retref = (sz > 8); \
-  if (cc->retref) cc->stack[nsp++] = (GPRArg)dp;
-
-#define CCALL_HANDLE_COMPLEXRET CCALL_HANDLE_STRUCTRET
-
-#else
-
-#if LJ_TARGET_OSX
-
-#define CCALL_HANDLE_STRUCTRET \
-  /* Return structs of size 1, 2, 4 or 8 in registers. */ \
-  cc->retref = !(sz == 1 || sz == 2 || sz == 4 || sz == 8); \
-  if (cc->retref) { \
-    if (ngpr < maxgpr) \
-      cc->gpr[ngpr++] = (GPRArg)dp; \
-    else \
-      cc->stack[nsp++] = (GPRArg)dp; \
-  } else {  /* Struct with single FP field ends up in FPR. */ \
-    cc->resx87 = ccall_classify_struct(cts, ctr); \
-  }
-
-#define CCALL_HANDLE_STRUCTRET2 \
-  if (cc->resx87) sp = (uint8_t *)&cc->fpr[0]; \
-  memcpy(dp, sp, ctr->size);
-
-#else
-
-#define CCALL_HANDLE_STRUCTRET \
-  cc->retref = 1;  /* Return all structs by reference (in reg or on stack). */ \
-  if (ngpr < maxgpr) \
-    cc->gpr[ngpr++] = (GPRArg)dp; \
-  else \
-    cc->stack[nsp++] = (GPRArg)dp;
-
-#endif
-
-#define CCALL_HANDLE_COMPLEXRET \
-  /* Return complex float in GPRs and complex double by reference. */ \
-  cc->retref = (sz > 8); \
-  if (cc->retref) { \
-    if (ngpr < maxgpr) \
-      cc->gpr[ngpr++] = (GPRArg)dp; \
-    else \
-      cc->stack[nsp++] = (GPRArg)dp; \
-  }
-
-#endif
-
-#define CCALL_HANDLE_COMPLEXRET2 \
-  if (!cc->retref) \
-    *(int64_t *)dp = *(int64_t *)sp;  /* Copy complex float from GPRs. */
-
-#define CCALL_HANDLE_STRUCTARG \
-  ngpr = maxgpr;  /* Pass all structs by value on the stack. */
-
-#define CCALL_HANDLE_COMPLEXARG \
-  isfp = 1;  /* Pass complex by value on stack. */
-
-#define CCALL_HANDLE_REGARG \
-  if (!isfp) {  /* Only non-FP values may be passed in registers. */ \
-    if (n > 1) {  /* Anything > 32 bit is passed on the stack. */ \
-      if (!LJ_ABI_WIN) ngpr = maxgpr;  /* Prevent reordering. */ \
-    } else if (ngpr + 1 <= maxgpr) { \
-      dp = &cc->gpr[ngpr]; \
-      ngpr += n; \
-      goto done; \
-    } \
-  }
-
-#elif LJ_TARGET_X64 && LJ_ABI_WIN
-/* -- Windows/x64 calling conventions ------------------------------------- */
-
-#define CCALL_HANDLE_STRUCTRET \
-  /* Return structs of size 1, 2, 4 or 8 in a GPR. */ \
-  cc->retref = !(sz == 1 || sz == 2 || sz == 4 || sz == 8); \
-  if (cc->retref) cc->gpr[ngpr++] = (GPRArg)dp;
-
-#define CCALL_HANDLE_COMPLEXRET CCALL_HANDLE_STRUCTRET
-
-#define CCALL_HANDLE_COMPLEXRET2 \
-  if (!cc->retref) \
-    *(int64_t *)dp = *(int64_t *)sp;  /* Copy complex float from GPRs. */
-
-#define CCALL_HANDLE_STRUCTARG \
-  /* Pass structs of size 1, 2, 4 or 8 in a GPR by value. */ \
-  if (!(sz == 1 || sz == 2 || sz == 4 || sz == 8)) { \
-    rp = cdataptr(lj_cdata_new(cts, did, sz)); \
-    sz = CTSIZE_PTR;  /* Pass all other structs by reference. */ \
-  }
-
-#define CCALL_HANDLE_COMPLEXARG \
-  /* Pass complex float in a GPR and complex double by reference. */ \
-  if (sz != 2*sizeof(float)) { \
-    rp = cdataptr(lj_cdata_new(cts, did, sz)); \
-    sz = CTSIZE_PTR; \
-  }
-
-/* Windows/x64 argument registers are strictly positional (use ngpr). */
-#define CCALL_HANDLE_REGARG \
-  if (isfp) { \
-    if (ngpr < maxgpr) { dp = &cc->fpr[ngpr++]; nfpr = ngpr; goto done; } \
-  } else { \
-    if (ngpr < maxgpr) { dp = &cc->gpr[ngpr++]; goto done; } \
-  }
-
-#elif LJ_TARGET_X64
-/* -- POSIX/x64 calling conventions --------------------------------------- */
-
-#define CCALL_HANDLE_STRUCTRET \
-  int rcl[2]; rcl[0] = rcl[1] = 0; \
-  if (ccall_classify_struct(cts, ctr, rcl, 0)) { \
-    cc->retref = 1;  /* Return struct by reference. */ \
-    cc->gpr[ngpr++] = (GPRArg)dp; \
-  } else { \
-    cc->retref = 0;  /* Return small structs in registers. */ \
-  }
-
-#define CCALL_HANDLE_STRUCTRET2 \
-  int rcl[2]; rcl[0] = rcl[1] = 0; \
-  ccall_classify_struct(cts, ctr, rcl, 0); \
-  ccall_struct_ret(cc, rcl, dp, ctr->size);
-
-#define CCALL_HANDLE_COMPLEXRET \
-  /* Complex values are returned in one or two FPRs. */ \
-  cc->retref = 0;
-
-#define CCALL_HANDLE_COMPLEXRET2 \
-  if (ctr->size == 2*sizeof(float)) {  /* Copy complex float from FPR. */ \
-    *(int64_t *)dp = cc->fpr[0].l[0]; \
-  } else {  /* Copy non-contiguous complex double from FPRs. */ \
-    ((int64_t *)dp)[0] = cc->fpr[0].l[0]; \
-    ((int64_t *)dp)[1] = cc->fpr[1].l[0]; \
-  }
-
-#define CCALL_HANDLE_STRUCTARG \
-  int rcl[2]; rcl[0] = rcl[1] = 0; \
-  if (!ccall_classify_struct(cts, d, rcl, 0)) { \
-    cc->nsp = nsp; cc->ngpr = ngpr; cc->nfpr = nfpr; \
-    if (ccall_struct_arg(cc, cts, d, rcl, o, narg)) goto err_nyi; \
-    nsp = cc->nsp; ngpr = cc->ngpr; nfpr = cc->nfpr; \
-    continue; \
-  }  /* Pass all other structs by value on stack. */
-
-#define CCALL_HANDLE_COMPLEXARG \
-  isfp = 2;  /* Pass complex in FPRs or on stack. Needs postprocessing. */
-
-#define CCALL_HANDLE_REGARG \
-  if (isfp) {  /* Try to pass argument in FPRs. */ \
-    int n2 = ctype_isvector(d->info) ? 1 : n; \
-    if (nfpr + n2 <= CCALL_NARG_FPR) { \
-      dp = &cc->fpr[nfpr]; \
-      nfpr += n2; \
-      goto done; \
-    } \
-  } else {  /* Try to pass argument in GPRs. */ \
-    /* Note that reordering is explicitly allowed in the x64 ABI. */ \
-    if (n <= 2 && ngpr + n <= maxgpr) { \
-      dp = &cc->gpr[ngpr]; \
-      ngpr += n; \
-      goto done; \
-    } \
-  }
-
-#elif LJ_TARGET_ARM
-/* -- ARM calling conventions --------------------------------------------- */
-
-#if LJ_ABI_SOFTFP
-
-#define CCALL_HANDLE_STRUCTRET \
-  /* Return structs of size <= 4 in a GPR. */ \
-  cc->retref = !(sz <= 4); \
-  if (cc->retref) cc->gpr[ngpr++] = (GPRArg)dp;
-
-#define CCALL_HANDLE_COMPLEXRET \
-  cc->retref = 1;  /* Return all complex values by reference. */ \
-  cc->gpr[ngpr++] = (GPRArg)dp;
-
-#define CCALL_HANDLE_COMPLEXRET2 \
-  UNUSED(dp); /* Nothing to do. */
-
-#define CCALL_HANDLE_STRUCTARG \
-  /* Pass all structs by value in registers and/or on the stack. */
-
-#define CCALL_HANDLE_COMPLEXARG \
-  /* Pass complex by value in 2 or 4 GPRs. */
-
-#define CCALL_HANDLE_REGARG_FP1
-#define CCALL_HANDLE_REGARG_FP2
-
-#else
-
-#define CCALL_HANDLE_STRUCTRET \
-  cc->retref = !ccall_classify_struct(cts, ctr, ct); \
-  if (cc->retref) cc->gpr[ngpr++] = (GPRArg)dp;
-
-#define CCALL_HANDLE_STRUCTRET2 \
-  if (ccall_classify_struct(cts, ctr, ct) > 1) sp = (uint8_t *)&cc->fpr[0]; \
-  memcpy(dp, sp, ctr->size);
-
-#define CCALL_HANDLE_COMPLEXRET \
-  if (!(ct->info & CTF_VARARG)) cc->retref = 0;  /* Return complex in FPRs. */
-
-#define CCALL_HANDLE_COMPLEXRET2 \
-  if (!(ct->info & CTF_VARARG)) memcpy(dp, &cc->fpr[0], ctr->size);
-
-#define CCALL_HANDLE_STRUCTARG \
-  isfp = (ccall_classify_struct(cts, d, ct) > 1);
-  /* Pass all structs by value in registers and/or on the stack. */
-
-#define CCALL_HANDLE_COMPLEXARG \
-  isfp = 1;  /* Pass complex by value in FPRs or on stack. */
-
-#define CCALL_HANDLE_REGARG_FP1 \
-  if (isfp && !(ct->info & CTF_VARARG)) { \
-    if ((d->info & CTF_ALIGN) > CTALIGN_PTR) { \
-      if (nfpr + (n >> 1) <= CCALL_NARG_FPR) { \
-	dp = &cc->fpr[nfpr]; \
-	nfpr += (n >> 1); \
-	goto done; \
-      } \
-    } else { \
-      if (sz > 1 && fprodd != nfpr) fprodd = 0; \
-      if (fprodd) { \
-	if (2*nfpr+n <= 2*CCALL_NARG_FPR+1) { \
-	  dp = (void *)&cc->fpr[fprodd-1].f[1]; \
-	  nfpr += (n >> 1); \
-	  if ((n & 1)) fprodd = 0; else fprodd = nfpr-1; \
-	  goto done; \
-	} \
-      } else { \
-	if (2*nfpr+n <= 2*CCALL_NARG_FPR) { \
-	  dp = (void *)&cc->fpr[nfpr]; \
-	  nfpr += (n >> 1); \
-	  if ((n & 1)) fprodd = ++nfpr; else fprodd = 0; \
-	  goto done; \
-	} \
-      } \
-    } \
-    fprodd = 0;  /* No reordering after the first FP value is on stack. */ \
-  } else {
-
-#define CCALL_HANDLE_REGARG_FP2	}
-
-#endif
-
-#define CCALL_HANDLE_REGARG \
-  CCALL_HANDLE_REGARG_FP1 \
-  if ((d->info & CTF_ALIGN) > CTALIGN_PTR) { \
-    if (ngpr < maxgpr) \
-      ngpr = (ngpr + 1u) & ~1u;  /* Align to regpair. */ \
-  } \
-  if (ngpr < maxgpr) { \
-    dp = &cc->gpr[ngpr]; \
-    if (ngpr + n > maxgpr) { \
-      nsp += ngpr + n - maxgpr;  /* Assumes contiguous gpr/stack fields. */ \
-      if (nsp > CCALL_MAXSTACK) goto err_nyi;  /* Too many arguments. */ \
-      ngpr = maxgpr; \
-    } else { \
-      ngpr += n; \
-    } \
-    goto done; \
-  } CCALL_HANDLE_REGARG_FP2
-
-#define CCALL_HANDLE_RET \
-  if ((ct->info & CTF_VARARG)) sp = (uint8_t *)&cc->gpr[0];
-
-#elif LJ_TARGET_PPC
-/* -- PPC calling conventions --------------------------------------------- */
-
-#define CCALL_HANDLE_STRUCTRET \
-  cc->retref = 1;  /* Return all structs by reference. */ \
-  cc->gpr[ngpr++] = (GPRArg)dp;
-
-#define CCALL_HANDLE_COMPLEXRET \
-  /* Complex values are returned in 2 or 4 GPRs. */ \
-  cc->retref = 0;
-
-#define CCALL_HANDLE_COMPLEXRET2 \
-  memcpy(dp, sp, ctr->size);  /* Copy complex from GPRs. */
-
-#define CCALL_HANDLE_STRUCTARG \
-  rp = cdataptr(lj_cdata_new(cts, did, sz)); \
-  sz = CTSIZE_PTR;  /* Pass all structs by reference. */
-
-#define CCALL_HANDLE_COMPLEXARG \
-  /* Pass complex by value in 2 or 4 GPRs. */
-
-#define CCALL_HANDLE_REGARG \
-  if (isfp) {  /* Try to pass argument in FPRs. */ \
-    if (nfpr + 1 <= CCALL_NARG_FPR) { \
-      dp = &cc->fpr[nfpr]; \
-      nfpr += 1; \
-      d = ctype_get(cts, CTID_DOUBLE);  /* FPRs always hold doubles. */ \
-      goto done; \
-    } \
-  } else {  /* Try to pass argument in GPRs. */ \
-    if (n > 1) { \
-      lua_assert(n == 2 || n == 4);  /* int64_t or complex (float). */ \
-      if (ctype_isinteger(d->info)) \
-	ngpr = (ngpr + 1u) & ~1u;  /* Align int64_t to regpair. */ \
-      else if (ngpr + n > maxgpr) \
-	ngpr = maxgpr;  /* Prevent reordering. */ \
-    } \
-    if (ngpr + n <= maxgpr) { \
-      dp = &cc->gpr[ngpr]; \
-      ngpr += n; \
-      goto done; \
-    } \
-  }
-
-#define CCALL_HANDLE_RET \
-  if (ctype_isfp(ctr->info) && ctr->size == sizeof(float)) \
-    ctr = ctype_get(cts, CTID_DOUBLE);  /* FPRs always hold doubles. */
-
-#elif LJ_TARGET_PPCSPE
-/* -- PPC/SPE calling conventions ----------------------------------------- */
-
-#define CCALL_HANDLE_STRUCTRET \
-  cc->retref = 1;  /* Return all structs by reference. */ \
-  cc->gpr[ngpr++] = (GPRArg)dp;
-
-#define CCALL_HANDLE_COMPLEXRET \
-  /* Complex values are returned in 2 or 4 GPRs. */ \
-  cc->retref = 0;
-
-#define CCALL_HANDLE_COMPLEXRET2 \
-  memcpy(dp, sp, ctr->size);  /* Copy complex from GPRs. */
-
-#define CCALL_HANDLE_STRUCTARG \
-  rp = cdataptr(lj_cdata_new(cts, did, sz)); \
-  sz = CTSIZE_PTR;  /* Pass all structs by reference. */
-
-#define CCALL_HANDLE_COMPLEXARG \
-  /* Pass complex by value in 2 or 4 GPRs. */
-
-/* PPC/SPE has a softfp ABI. */
-#define CCALL_HANDLE_REGARG \
-  if (n > 1) {  /* Doesn't fit in a single GPR? */ \
-    lua_assert(n == 2 || n == 4);  /* int64_t, double or complex (float). */ \
-    if (n == 2) \
-      ngpr = (ngpr + 1u) & ~1u;  /* Only align 64 bit value to regpair. */ \
-    else if (ngpr + n > maxgpr) \
-      ngpr = maxgpr;  /* Prevent reordering. */ \
-  } \
-  if (ngpr + n <= maxgpr) { \
-    dp = &cc->gpr[ngpr]; \
-    ngpr += n; \
-    goto done; \
-  }
-
-#elif LJ_TARGET_MIPS
-/* -- MIPS calling conventions -------------------------------------------- */
-
-#define CCALL_HANDLE_STRUCTRET \
-  cc->retref = 1;  /* Return all structs by reference. */ \
-  cc->gpr[ngpr++] = (GPRArg)dp;
-
-#define CCALL_HANDLE_COMPLEXRET \
-  /* Complex values are returned in 1 or 2 FPRs. */ \
-  cc->retref = 0;
-
-#define CCALL_HANDLE_COMPLEXRET2 \
-  if (ctr->size == 2*sizeof(float)) {  /* Copy complex float from FPRs. */ \
-    ((float *)dp)[0] = cc->fpr[0].f; \
-    ((float *)dp)[1] = cc->fpr[1].f; \
-  } else {  /* Copy complex double from FPRs. */ \
-    ((double *)dp)[0] = cc->fpr[0].d; \
-    ((double *)dp)[1] = cc->fpr[1].d; \
-  }
-
-#define CCALL_HANDLE_STRUCTARG \
-  /* Pass all structs by value in registers and/or on the stack. */
-
-#define CCALL_HANDLE_COMPLEXARG \
-  /* Pass complex by value in 2 or 4 GPRs. */
-
-#define CCALL_HANDLE_REGARG \
-  if (isfp && nfpr < CCALL_NARG_FPR && !(ct->info & CTF_VARARG)) { \
-    /* Try to pass argument in FPRs. */ \
-    dp = n == 1 ? (void *)&cc->fpr[nfpr].f : (void *)&cc->fpr[nfpr].d; \
-    nfpr++; ngpr += n; \
-    goto done; \
-  } else {  /* Try to pass argument in GPRs. */ \
-    nfpr = CCALL_NARG_FPR; \
-    if ((d->info & CTF_ALIGN) > CTALIGN_PTR) \
-      ngpr = (ngpr + 1u) & ~1u;  /* Align to regpair. */ \
-    if (ngpr < maxgpr) { \
-      dp = &cc->gpr[ngpr]; \
-      if (ngpr + n > maxgpr) { \
-	nsp += ngpr + n - maxgpr;  /* Assumes contiguous gpr/stack fields. */ \
-	if (nsp > CCALL_MAXSTACK) goto err_nyi;  /* Too many arguments. */ \
-	ngpr = maxgpr; \
-      } else { \
-	ngpr += n; \
-      } \
-      goto done; \
-    } \
-  }
-
-#define CCALL_HANDLE_RET \
-  if (ctype_isfp(ctr->info) && ctr->size == sizeof(float)) \
-    sp = (uint8_t *)&cc->fpr[0].f;
-
-#else
-#error "Missing calling convention definitions for this architecture"
-#endif
-
-#ifndef CCALL_HANDLE_STRUCTRET2
-#define CCALL_HANDLE_STRUCTRET2 \
-  memcpy(dp, sp, ctr->size);  /* Copy struct return value from GPRs. */
-#endif
-
-/* -- x86 OSX ABI struct classification ----------------------------------- */
-
-#if LJ_TARGET_X86 && LJ_TARGET_OSX
-
-/* Check for struct with single FP field. */
-static int ccall_classify_struct(CTState *cts, CType *ct)
-{
-  CTSize sz = ct->size;
-  if (!(sz == sizeof(float) || sz == sizeof(double))) return 0;
-  if ((ct->info & CTF_UNION)) return 0;
-  while (ct->sib) {
-    ct = ctype_get(cts, ct->sib);
-    if (ctype_isfield(ct->info)) {
-      CType *sct = ctype_rawchild(cts, ct);
-      if (ctype_isfp(sct->info)) {
-	if (sct->size == sz)
-	  return (sz >> 2);  /* Return 1 for float or 2 for double. */
-      } else if (ctype_isstruct(sct->info)) {
-	if (sct->size)
-	  return ccall_classify_struct(cts, sct);
-      } else {
-	break;
-      }
-    } else if (ctype_isbitfield(ct->info)) {
-      break;
-    } else if (ctype_isxattrib(ct->info, CTA_SUBTYPE)) {
-      CType *sct = ctype_rawchild(cts, ct);
-      if (sct->size)
-	return ccall_classify_struct(cts, sct);
-    }
-  }
-  return 0;
-}
-
-#endif
-
-/* -- x64 struct classification ------------------------------------------- */
-
-#if LJ_TARGET_X64 && !LJ_ABI_WIN
-
-/* Register classes for x64 struct classification. */
-#define CCALL_RCL_INT	1
-#define CCALL_RCL_SSE	2
-#define CCALL_RCL_MEM	4
-/* NYI: classify vectors. */
-
-static int ccall_classify_struct(CTState *cts, CType *ct, int *rcl, CTSize ofs);
-
-/* Classify a C type. */
-static void ccall_classify_ct(CTState *cts, CType *ct, int *rcl, CTSize ofs)
-{
-  if (ctype_isarray(ct->info)) {
-    CType *cct = ctype_rawchild(cts, ct);
-    CTSize eofs, esz = cct->size, asz = ct->size;
-    for (eofs = 0; eofs < asz; eofs += esz)
-      ccall_classify_ct(cts, cct, rcl, ofs+eofs);
-  } else if (ctype_isstruct(ct->info)) {
-    ccall_classify_struct(cts, ct, rcl, ofs);
-  } else {
-    int cl = ctype_isfp(ct->info) ? CCALL_RCL_SSE : CCALL_RCL_INT;
-    lua_assert(ctype_hassize(ct->info));
-    if ((ofs & (ct->size-1))) cl = CCALL_RCL_MEM;  /* Unaligned. */
-    rcl[(ofs >= 8)] |= cl;
-  }
-}
-
-/* Recursively classify a struct based on its fields. */
-static int ccall_classify_struct(CTState *cts, CType *ct, int *rcl, CTSize ofs)
-{
-  if (ct->size > 16) return CCALL_RCL_MEM;  /* Too big, gets memory class. */
-  while (ct->sib) {
-    CTSize fofs;
-    ct = ctype_get(cts, ct->sib);
-    fofs = ofs+ct->size;
-    if (ctype_isfield(ct->info))
-      ccall_classify_ct(cts, ctype_rawchild(cts, ct), rcl, fofs);
-    else if (ctype_isbitfield(ct->info))
-      rcl[(fofs >= 8)] |= CCALL_RCL_INT;  /* NYI: unaligned bitfields? */
-    else if (ctype_isxattrib(ct->info, CTA_SUBTYPE))
-      ccall_classify_struct(cts, ctype_rawchild(cts, ct), rcl, fofs);
-  }
-  return ((rcl[0]|rcl[1]) & CCALL_RCL_MEM);  /* Memory class? */
-}
-
-/* Try to split up a small struct into registers. */
-static int ccall_struct_reg(CCallState *cc, GPRArg *dp, int *rcl)
-{
-  MSize ngpr = cc->ngpr, nfpr = cc->nfpr;
-  uint32_t i;
-  for (i = 0; i < 2; i++) {
-    lua_assert(!(rcl[i] & CCALL_RCL_MEM));
-    if ((rcl[i] & CCALL_RCL_INT)) {  /* Integer class takes precedence. */
-      if (ngpr >= CCALL_NARG_GPR) return 1;  /* Register overflow. */
-      cc->gpr[ngpr++] = dp[i];
-    } else if ((rcl[i] & CCALL_RCL_SSE)) {
-      if (nfpr >= CCALL_NARG_FPR) return 1;  /* Register overflow. */
-      cc->fpr[nfpr++].l[0] = dp[i];
-    }
-  }
-  cc->ngpr = ngpr; cc->nfpr = nfpr;
-  return 0;  /* Ok. */
-}
-
-/* Pass a small struct argument. */
-static int ccall_struct_arg(CCallState *cc, CTState *cts, CType *d, int *rcl,
-			    TValue *o, int narg)
-{
-  GPRArg dp[2];
-  dp[0] = dp[1] = 0;
-  /* Convert to temp. struct. */
-  lj_cconv_ct_tv(cts, d, (uint8_t *)dp, o, CCF_ARG(narg));
-  if (ccall_struct_reg(cc, dp, rcl)) {  /* Register overflow? Pass on stack. */
-    MSize nsp = cc->nsp, n = rcl[1] ? 2 : 1;
-    if (nsp + n > CCALL_MAXSTACK) return 1;  /* Too many arguments. */
-    cc->nsp = nsp + n;
-    memcpy(&cc->stack[nsp], dp, n*CTSIZE_PTR);
-  }
-  return 0;  /* Ok. */
-}
-
-/* Combine returned small struct. */
-static void ccall_struct_ret(CCallState *cc, int *rcl, uint8_t *dp, CTSize sz)
-{
-  GPRArg sp[2];
-  MSize ngpr = 0, nfpr = 0;
-  uint32_t i;
-  for (i = 0; i < 2; i++) {
-    if ((rcl[i] & CCALL_RCL_INT)) {  /* Integer class takes precedence. */
-      sp[i] = cc->gpr[ngpr++];
-    } else if ((rcl[i] & CCALL_RCL_SSE)) {
-      sp[i] = cc->fpr[nfpr++].l[0];
-    }
-  }
-  memcpy(dp, sp, sz);
-}
-#endif
-
-/* -- ARM hard-float ABI struct classification ---------------------------- */
-
-#if LJ_TARGET_ARM && !LJ_ABI_SOFTFP
-
-/* Classify a struct based on its fields. */
-static unsigned int ccall_classify_struct(CTState *cts, CType *ct, CType *ctf)
-{
-  CTSize sz = ct->size;
-  unsigned int r = 0, n = 0, isu = (ct->info & CTF_UNION);
-  if ((ctf->info & CTF_VARARG)) goto noth;
-  while (ct->sib) {
-    CType *sct;
-    ct = ctype_get(cts, ct->sib);
-    if (ctype_isfield(ct->info)) {
-      sct = ctype_rawchild(cts, ct);
-      if (ctype_isfp(sct->info)) {
-	r |= sct->size;
-	if (!isu) n++; else if (n == 0) n = 1;
-      } else if (ctype_iscomplex(sct->info)) {
-	r |= (sct->size >> 1);
-	if (!isu) n += 2; else if (n < 2) n = 2;
-      } else if (ctype_isstruct(sct->info)) {
-	goto substruct;
-      } else {
-	goto noth;
-      }
-    } else if (ctype_isbitfield(ct->info)) {
-      goto noth;
-    } else if (ctype_isxattrib(ct->info, CTA_SUBTYPE)) {
-      sct = ctype_rawchild(cts, ct);
-    substruct:
-      if (sct->size > 0) {
-	unsigned int s = ccall_classify_struct(cts, sct, ctf);
-	if (s <= 1) goto noth;
-	r |= (s & 255);
-	if (!isu) n += (s >> 8); else if (n < (s >>8)) n = (s >> 8);
-      }
-    }
-  }
-  if ((r == 4 || r == 8) && n <= 4)
-    return r + (n << 8);
-noth:  /* Not a homogeneous float/double aggregate. */
-  return (sz <= 4);  /* Return structs of size <= 4 in a GPR. */
-}
-
-#endif
-
-/* -- Common C call handling ---------------------------------------------- */
-
-/* Infer the destination CTypeID for a vararg argument. */
-CTypeID lj_ccall_ctid_vararg(CTState *cts, cTValue *o)
-{
-  if (tvisnumber(o)) {
-    return CTID_DOUBLE;
-  } else if (tviscdata(o)) {
-    CTypeID id = cdataV(o)->ctypeid;
-    CType *s = ctype_get(cts, id);
-    if (ctype_isrefarray(s->info)) {
-      return lj_ctype_intern(cts,
-	       CTINFO(CT_PTR, CTALIGN_PTR|ctype_cid(s->info)), CTSIZE_PTR);
-    } else if (ctype_isstruct(s->info) || ctype_isfunc(s->info)) {
-      /* NYI: how to pass a struct by value in a vararg argument? */
-      return lj_ctype_intern(cts, CTINFO(CT_PTR, CTALIGN_PTR|id), CTSIZE_PTR);
-    } else if (ctype_isfp(s->info) && s->size == sizeof(float)) {
-      return CTID_DOUBLE;
-    } else {
-      return id;
-    }
-  } else if (tvisstr(o)) {
-    return CTID_P_CCHAR;
-  } else if (tvisbool(o)) {
-    return CTID_BOOL;
-  } else {
-    return CTID_P_VOID;
-  }
-}
-
-/* Setup arguments for C call. */
-static int ccall_set_args(lua_State *L, CTState *cts, CType *ct,
-			  CCallState *cc)
-{
-  int gcsteps = 0;
-  TValue *o, *top = L->top;
-  CTypeID fid;
-  CType *ctr;
-  MSize maxgpr, ngpr = 0, nsp = 0, narg;
-#if CCALL_NARG_FPR
-  MSize nfpr = 0;
-#if LJ_TARGET_ARM
-  MSize fprodd = 0;
-#endif
-#endif
-
-  /* Clear unused regs to get some determinism in case of misdeclaration. */
-  memset(cc->gpr, 0, sizeof(cc->gpr));
-#if CCALL_NUM_FPR
-  memset(cc->fpr, 0, sizeof(cc->fpr));
-#endif
-
-#if LJ_TARGET_X86
-  /* x86 has several different calling conventions. */
-  cc->resx87 = 0;
-  switch (ctype_cconv(ct->info)) {
-  case CTCC_FASTCALL: maxgpr = 2; break;
-  case CTCC_THISCALL: maxgpr = 1; break;
-  default: maxgpr = 0; break;
-  }
-#else
-  maxgpr = CCALL_NARG_GPR;
-#endif
-
-  /* Perform required setup for some result types. */
-  ctr = ctype_rawchild(cts, ct);
-  if (ctype_isvector(ctr->info)) {
-    if (!(CCALL_VECTOR_REG && (ctr->size == 8 || ctr->size == 16)))
-      goto err_nyi;
-  } else if (ctype_iscomplex(ctr->info) || ctype_isstruct(ctr->info)) {
-    /* Preallocate cdata object and anchor it after arguments. */
-    CTSize sz = ctr->size;
-    GCcdata *cd = lj_cdata_new(cts, ctype_cid(ct->info), sz);
-    void *dp = cdataptr(cd);
-    setcdataV(L, L->top++, cd);
-    if (ctype_isstruct(ctr->info)) {
-      CCALL_HANDLE_STRUCTRET
-    } else {
-      CCALL_HANDLE_COMPLEXRET
-    }
-#if LJ_TARGET_X86
-  } else if (ctype_isfp(ctr->info)) {
-    cc->resx87 = ctr->size == sizeof(float) ? 1 : 2;
-#endif
-  }
-
-  /* Skip initial attributes. */
-  fid = ct->sib;
-  while (fid) {
-    CType *ctf = ctype_get(cts, fid);
-    if (!ctype_isattrib(ctf->info)) break;
-    fid = ctf->sib;
-  }
-
-  /* Walk through all passed arguments. */
-  for (o = L->base+1, narg = 1; o < top; o++, narg++) {
-    CTypeID did;
-    CType *d;
-    CTSize sz;
-    MSize n, isfp = 0, isva = 0;
-    void *dp, *rp = NULL;
-
-    if (fid) {  /* Get argument type from field. */
-      CType *ctf = ctype_get(cts, fid);
-      fid = ctf->sib;
-      lua_assert(ctype_isfield(ctf->info));
-      did = ctype_cid(ctf->info);
-    } else {
-      if (!(ct->info & CTF_VARARG))
-	lj_err_caller(L, LJ_ERR_FFI_NUMARG);  /* Too many arguments. */
-      did = lj_ccall_ctid_vararg(cts, o);  /* Infer vararg type. */
-      isva = 1;
-    }
-    d = ctype_raw(cts, did);
-    sz = d->size;
-
-    /* Find out how (by value/ref) and where (GPR/FPR) to pass an argument. */
-    if (ctype_isnum(d->info)) {
-      if (sz > 8) goto err_nyi;
-      if ((d->info & CTF_FP))
-	isfp = 1;
-    } else if (ctype_isvector(d->info)) {
-      if (CCALL_VECTOR_REG && (sz == 8 || sz == 16))
-	isfp = 1;
-      else
-	goto err_nyi;
-    } else if (ctype_isstruct(d->info)) {
-      CCALL_HANDLE_STRUCTARG
-    } else if (ctype_iscomplex(d->info)) {
-      CCALL_HANDLE_COMPLEXARG
-    } else {
-      sz = CTSIZE_PTR;
-    }
-    sz = (sz + CTSIZE_PTR-1) & ~(CTSIZE_PTR-1);
-    n = sz / CTSIZE_PTR;  /* Number of GPRs or stack slots needed. */
-
-    CCALL_HANDLE_REGARG  /* Handle register arguments. */
-
-    /* Otherwise pass argument on stack. */
-    if (CCALL_ALIGN_STACKARG && !rp && (d->info & CTF_ALIGN) > CTALIGN_PTR) {
-      MSize align = (1u << ctype_align(d->info-CTALIGN_PTR)) -1;
-      nsp = (nsp + align) & ~align;  /* Align argument on stack. */
-    }
-    if (nsp + n > CCALL_MAXSTACK) {  /* Too many arguments. */
-    err_nyi:
-      lj_err_caller(L, LJ_ERR_FFI_NYICALL);
-    }
-    dp = &cc->stack[nsp];
-    nsp += n;
-    isva = 0;
-
-  done:
-    if (rp) {  /* Pass by reference. */
-      gcsteps++;
-      *(void **)dp = rp;
-      dp = rp;
-    }
-    lj_cconv_ct_tv(cts, d, (uint8_t *)dp, o, CCF_ARG(narg));
-    /* Extend passed integers to 32 bits at least. */
-    if (ctype_isinteger_or_bool(d->info) && d->size < 4) {
-      if (d->info & CTF_UNSIGNED)
-	*(uint32_t *)dp = d->size == 1 ? (uint32_t)*(uint8_t *)dp :
-					 (uint32_t)*(uint16_t *)dp;
-      else
-	*(int32_t *)dp = d->size == 1 ? (int32_t)*(int8_t *)dp :
-					(int32_t)*(int16_t *)dp;
-    }
-#if LJ_TARGET_X64 && LJ_ABI_WIN
-    if (isva) {  /* Windows/x64 mirrors varargs in both register sets. */
-      if (nfpr == ngpr)
-	cc->gpr[ngpr-1] = cc->fpr[ngpr-1].l[0];
-      else
-	cc->fpr[ngpr-1].l[0] = cc->gpr[ngpr-1];
-    }
-#else
-    UNUSED(isva);
-#endif
-#if LJ_TARGET_X64 && !LJ_ABI_WIN
-    if (isfp == 2 && n == 2 && (uint8_t *)dp == (uint8_t *)&cc->fpr[nfpr-2]) {
-      cc->fpr[nfpr-1].d[0] = cc->fpr[nfpr-2].d[1];  /* Split complex double. */
-      cc->fpr[nfpr-2].d[1] = 0;
-    }
-#else
-    UNUSED(isfp);
-#endif
-  }
-  if (fid) lj_err_caller(L, LJ_ERR_FFI_NUMARG);  /* Too few arguments. */
-
-#if LJ_TARGET_X64 || LJ_TARGET_PPC
-  cc->nfpr = nfpr;  /* Required for vararg functions. */
-#endif
-  cc->nsp = nsp;
-  cc->spadj = (CCALL_SPS_FREE + CCALL_SPS_EXTRA)*CTSIZE_PTR;
-  if (nsp > CCALL_SPS_FREE)
-    cc->spadj += (((nsp-CCALL_SPS_FREE)*CTSIZE_PTR + 15u) & ~15u);
-  return gcsteps;
-}
-
-/* Get results from C call. */
-static int ccall_get_results(lua_State *L, CTState *cts, CType *ct,
-			     CCallState *cc, int *ret)
-{
-  CType *ctr = ctype_rawchild(cts, ct);
-  uint8_t *sp = (uint8_t *)&cc->gpr[0];
-  if (ctype_isvoid(ctr->info)) {
-    *ret = 0;  /* Zero results. */
-    return 0;  /* No additional GC step. */
-  }
-  *ret = 1;  /* One result. */
-  if (ctype_isstruct(ctr->info)) {
-    /* Return cdata object which is already on top of stack. */
-    if (!cc->retref) {
-      void *dp = cdataptr(cdataV(L->top-1));  /* Use preallocated object. */
-      CCALL_HANDLE_STRUCTRET2
-    }
-    return 1;  /* One GC step. */
-  }
-  if (ctype_iscomplex(ctr->info)) {
-    /* Return cdata object which is already on top of stack. */
-    void *dp = cdataptr(cdataV(L->top-1));  /* Use preallocated object. */
-    CCALL_HANDLE_COMPLEXRET2
-    return 1;  /* One GC step. */
-  }
-  if (LJ_BE && ctype_isinteger_or_bool(ctr->info) && ctr->size < CTSIZE_PTR)
-    sp += (CTSIZE_PTR - ctr->size);
-#if CCALL_NUM_FPR
-  if (ctype_isfp(ctr->info) || ctype_isvector(ctr->info))
-    sp = (uint8_t *)&cc->fpr[0];
-#endif
-#ifdef CCALL_HANDLE_RET
-  CCALL_HANDLE_RET
-#endif
-  /* No reference types end up here, so there's no need for the CTypeID. */
-  lua_assert(!(ctype_isrefarray(ctr->info) || ctype_isstruct(ctr->info)));
-  return lj_cconv_tv_ct(cts, ctr, 0, L->top-1, sp);
-}
-
-/* Call C function. */
-int lj_ccall_func(lua_State *L, GCcdata *cd)
-{
-  CTState *cts = ctype_cts(L);
-  CType *ct = ctype_raw(cts, cd->ctypeid);
-  CTSize sz = CTSIZE_PTR;
-  if (ctype_isptr(ct->info)) {
-    sz = ct->size;
-    ct = ctype_rawchild(cts, ct);
-  }
-  if (ctype_isfunc(ct->info)) {
-    CCallState cc;
-    int gcsteps, ret;
-    cc.func = (void (*)(void))cdata_getptr(cdataptr(cd), sz);
-    gcsteps = ccall_set_args(L, cts, ct, &cc);
-    ct = (CType *)((intptr_t)ct-(intptr_t)cts->tab);
-    cts->cb.slot = ~0u;
-    lj_vm_ffi_call(&cc);
-    if (cts->cb.slot != ~0u) {  /* Blacklist function that called a callback. */
-      TValue tv;
-      setlightudV(&tv, (void *)cc.func);
-      setboolV(lj_tab_set(L, cts->miscmap, &tv), 1);
-    }
-    ct = (CType *)((intptr_t)ct+(intptr_t)cts->tab);  /* May be reallocated. */
-    gcsteps += ccall_get_results(L, cts, ct, &cc, &ret);
-#if LJ_TARGET_X86 && LJ_ABI_WIN
-    /* Automatically detect __stdcall and fix up C function declaration. */
-    if (cc.spadj && ctype_cconv(ct->info) == CTCC_CDECL) {
-      CTF_INSERT(ct->info, CCONV, CTCC_STDCALL);
-      lj_trace_abort(G(L));
-    }
-#endif
-    while (gcsteps-- > 0)
-      lj_gc_check(L);
-    return ret;
-  }
-  return -1;  /* Not a function. */
-}
-
-#endif
diff --git a/luajit-2.0/src/lj_ccall.h b/luajit-2.0/src/lj_ccall.h
deleted file mode 100644
index c3ea9e6..0000000
--- a/luajit-2.0/src/lj_ccall.h
+++ /dev/null
@@ -1,171 +0,0 @@
-/*
-** FFI C call handling.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#ifndef _LJ_CCALL_H
-#define _LJ_CCALL_H
-
-#include "lj_obj.h"
-#include "lj_ctype.h"
-
-#if LJ_HASFFI
-
-/* -- C calling conventions ----------------------------------------------- */
-
-#if LJ_TARGET_X86ORX64
-
-#if LJ_TARGET_X86
-#define CCALL_NARG_GPR		2	/* For fastcall arguments. */
-#define CCALL_NARG_FPR		0
-#define CCALL_NRET_GPR		2
-#define CCALL_NRET_FPR		1	/* For FP results on x87 stack. */
-#define CCALL_ALIGN_STACKARG	0	/* Don't align argument on stack. */
-#elif LJ_ABI_WIN
-#define CCALL_NARG_GPR		4
-#define CCALL_NARG_FPR		4
-#define CCALL_NRET_GPR		1
-#define CCALL_NRET_FPR		1
-#define CCALL_SPS_EXTRA		4
-#else
-#define CCALL_NARG_GPR		6
-#define CCALL_NARG_FPR		8
-#define CCALL_NRET_GPR		2
-#define CCALL_NRET_FPR		2
-#define CCALL_VECTOR_REG	1	/* Pass vectors in registers. */
-#endif
-
-#define CCALL_SPS_FREE		1
-#define CCALL_ALIGN_CALLSTATE	16
-
-typedef LJ_ALIGN(16) union FPRArg {
-  double d[2];
-  float f[4];
-  uint8_t b[16];
-  uint16_t s[8];
-  int i[4];
-  int64_t l[2];
-} FPRArg;
-
-typedef intptr_t GPRArg;
-
-#elif LJ_TARGET_ARM
-
-#define CCALL_NARG_GPR		4
-#define CCALL_NRET_GPR		2	/* For softfp double. */
-#if LJ_ABI_SOFTFP
-#define CCALL_NARG_FPR		0
-#define CCALL_NRET_FPR		0
-#else
-#define CCALL_NARG_FPR		8
-#define CCALL_NRET_FPR		4
-#endif
-#define CCALL_SPS_FREE		0
-
-typedef intptr_t GPRArg;
-typedef union FPRArg {
-  double d;
-  float f[2];
-} FPRArg;
-
-#elif LJ_TARGET_PPC
-
-#define CCALL_NARG_GPR		8
-#define CCALL_NARG_FPR		8
-#define CCALL_NRET_GPR		4	/* For complex double. */
-#define CCALL_NRET_FPR		1
-#define CCALL_SPS_EXTRA		4
-#define CCALL_SPS_FREE		0
-
-typedef intptr_t GPRArg;
-typedef double FPRArg;
-
-#elif LJ_TARGET_PPCSPE
-
-#define CCALL_NARG_GPR		8
-#define CCALL_NARG_FPR		0
-#define CCALL_NRET_GPR		4	/* For softfp complex double. */
-#define CCALL_NRET_FPR		0
-#define CCALL_SPS_FREE		0	/* NYI */
-
-typedef intptr_t GPRArg;
-
-#elif LJ_TARGET_MIPS
-
-#define CCALL_NARG_GPR		4
-#define CCALL_NARG_FPR		2
-#define CCALL_NRET_GPR		2
-#define CCALL_NRET_FPR		2
-#define CCALL_SPS_EXTRA		7
-#define CCALL_SPS_FREE		1
-
-typedef intptr_t GPRArg;
-typedef union FPRArg {
-  double d;
-  struct { LJ_ENDIAN_LOHI(float f; , float g;) };
-} FPRArg;
-
-#else
-#error "Missing calling convention definitions for this architecture"
-#endif
-
-#ifndef CCALL_SPS_EXTRA
-#define CCALL_SPS_EXTRA		0
-#endif
-#ifndef CCALL_VECTOR_REG
-#define CCALL_VECTOR_REG	0
-#endif
-#ifndef CCALL_ALIGN_STACKARG
-#define CCALL_ALIGN_STACKARG	1
-#endif
-#ifndef CCALL_ALIGN_CALLSTATE
-#define CCALL_ALIGN_CALLSTATE	8
-#endif
-
-#define CCALL_NUM_GPR \
-  (CCALL_NARG_GPR > CCALL_NRET_GPR ? CCALL_NARG_GPR : CCALL_NRET_GPR)
-#define CCALL_NUM_FPR \
-  (CCALL_NARG_FPR > CCALL_NRET_FPR ? CCALL_NARG_FPR : CCALL_NRET_FPR)
-
-/* Check against constants in lj_ctype.h. */
-LJ_STATIC_ASSERT(CCALL_NUM_GPR <= CCALL_MAX_GPR);
-LJ_STATIC_ASSERT(CCALL_NUM_FPR <= CCALL_MAX_FPR);
-
-#define CCALL_MAXSTACK		32
-
-/* -- C call state -------------------------------------------------------- */
-
-typedef LJ_ALIGN(CCALL_ALIGN_CALLSTATE) struct CCallState {
-  void (*func)(void);		/* Pointer to called function. */
-  uint32_t spadj;		/* Stack pointer adjustment. */
-  uint8_t nsp;			/* Number of stack slots. */
-  uint8_t retref;		/* Return value by reference. */
-#if LJ_TARGET_X64
-  uint8_t ngpr;			/* Number of arguments in GPRs. */
-  uint8_t nfpr;			/* Number of arguments in FPRs. */
-#elif LJ_TARGET_X86
-  uint8_t resx87;		/* Result on x87 stack: 1:float, 2:double. */
-#elif LJ_TARGET_PPC
-  uint8_t nfpr;			/* Number of arguments in FPRs. */
-#endif
-#if LJ_32
-  int32_t align1;
-#endif
-#if CCALL_NUM_FPR
-  FPRArg fpr[CCALL_NUM_FPR];	/* Arguments/results in FPRs. */
-#endif
-  GPRArg gpr[CCALL_NUM_GPR];	/* Arguments/results in GPRs. */
-  GPRArg stack[CCALL_MAXSTACK];	/* Stack slots. */
-} CCallState;
-
-/* -- C call handling ----------------------------------------------------- */
-
-/* Really belongs to lj_vm.h. */
-LJ_ASMF void LJ_FASTCALL lj_vm_ffi_call(CCallState *cc);
-
-LJ_FUNC CTypeID lj_ccall_ctid_vararg(CTState *cts, cTValue *o);
-LJ_FUNC int lj_ccall_func(lua_State *L, GCcdata *cd);
-
-#endif
-
-#endif
diff --git a/luajit-2.0/src/lj_ccallback.c b/luajit-2.0/src/lj_ccallback.c
deleted file mode 100644
index d872d67..0000000
--- a/luajit-2.0/src/lj_ccallback.c
+++ /dev/null
@@ -1,644 +0,0 @@
-/*
-** FFI C callback handling.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#include "lj_obj.h"
-
-#if LJ_HASFFI
-
-#include "lj_gc.h"
-#include "lj_err.h"
-#include "lj_tab.h"
-#include "lj_state.h"
-#include "lj_frame.h"
-#include "lj_ctype.h"
-#include "lj_cconv.h"
-#include "lj_ccall.h"
-#include "lj_ccallback.h"
-#include "lj_target.h"
-#include "lj_mcode.h"
-#include "lj_trace.h"
-#include "lj_vm.h"
-
-/* -- Target-specific handling of callback slots -------------------------- */
-
-#define CALLBACK_MCODE_SIZE	(LJ_PAGESIZE * LJ_NUM_CBPAGE)
-
-#if LJ_OS_NOJIT
-
-/* Disabled callback support. */
-#define CALLBACK_SLOT2OFS(slot)	(0*(slot))
-#define CALLBACK_OFS2SLOT(ofs)	(0*(ofs))
-#define CALLBACK_MAX_SLOT	0
-
-#elif LJ_TARGET_X86ORX64
-
-#define CALLBACK_MCODE_HEAD	(LJ_64 ? 8 : 0)
-#define CALLBACK_MCODE_GROUP	(-2+1+2+5+(LJ_64 ? 6 : 5))
-
-#define CALLBACK_SLOT2OFS(slot) \
-  (CALLBACK_MCODE_HEAD + CALLBACK_MCODE_GROUP*((slot)/32) + 4*(slot))
-
-static MSize CALLBACK_OFS2SLOT(MSize ofs)
-{
-  MSize group;
-  ofs -= CALLBACK_MCODE_HEAD;
-  group = ofs / (32*4 + CALLBACK_MCODE_GROUP);
-  return (ofs % (32*4 + CALLBACK_MCODE_GROUP))/4 + group*32;
-}
-
-#define CALLBACK_MAX_SLOT \
-  (((CALLBACK_MCODE_SIZE-CALLBACK_MCODE_HEAD)/(CALLBACK_MCODE_GROUP+4*32))*32)
-
-#elif LJ_TARGET_ARM
-
-#define CALLBACK_MCODE_HEAD		32
-#define CALLBACK_SLOT2OFS(slot)		(CALLBACK_MCODE_HEAD + 8*(slot))
-#define CALLBACK_OFS2SLOT(ofs)		(((ofs)-CALLBACK_MCODE_HEAD)/8)
-#define CALLBACK_MAX_SLOT		(CALLBACK_OFS2SLOT(CALLBACK_MCODE_SIZE))
-
-#elif LJ_TARGET_PPC
-
-#define CALLBACK_MCODE_HEAD		24
-#define CALLBACK_SLOT2OFS(slot)		(CALLBACK_MCODE_HEAD + 8*(slot))
-#define CALLBACK_OFS2SLOT(ofs)		(((ofs)-CALLBACK_MCODE_HEAD)/8)
-#define CALLBACK_MAX_SLOT		(CALLBACK_OFS2SLOT(CALLBACK_MCODE_SIZE))
-
-#elif LJ_TARGET_MIPS
-
-#define CALLBACK_MCODE_HEAD		24
-#define CALLBACK_SLOT2OFS(slot)		(CALLBACK_MCODE_HEAD + 8*(slot))
-#define CALLBACK_OFS2SLOT(ofs)		(((ofs)-CALLBACK_MCODE_HEAD)/8)
-#define CALLBACK_MAX_SLOT		(CALLBACK_OFS2SLOT(CALLBACK_MCODE_SIZE))
-
-#else
-
-/* Missing support for this architecture. */
-#define CALLBACK_SLOT2OFS(slot)	(0*(slot))
-#define CALLBACK_OFS2SLOT(ofs)	(0*(ofs))
-#define CALLBACK_MAX_SLOT	0
-
-#endif
-
-/* Convert callback slot number to callback function pointer. */
-static void *callback_slot2ptr(CTState *cts, MSize slot)
-{
-  return (uint8_t *)cts->cb.mcode + CALLBACK_SLOT2OFS(slot);
-}
-
-/* Convert callback function pointer to slot number. */
-MSize lj_ccallback_ptr2slot(CTState *cts, void *p)
-{
-  uintptr_t ofs = (uintptr_t)((uint8_t *)p -(uint8_t *)cts->cb.mcode);
-  if (ofs < CALLBACK_MCODE_SIZE) {
-    MSize slot = CALLBACK_OFS2SLOT((MSize)ofs);
-    if (CALLBACK_SLOT2OFS(slot) == (MSize)ofs)
-      return slot;
-  }
-  return ~0u;  /* Not a known callback function pointer. */
-}
-
-/* Initialize machine code for callback function pointers. */
-#if LJ_OS_NOJIT
-/* Disabled callback support. */
-#define callback_mcode_init(g, p)	UNUSED(p)
-#elif LJ_TARGET_X86ORX64
-static void callback_mcode_init(global_State *g, uint8_t *page)
-{
-  uint8_t *p = page;
-  uint8_t *target = (uint8_t *)(void *)lj_vm_ffi_callback;
-  MSize slot;
-#if LJ_64
-  *(void **)p = target; p += 8;
-#endif
-  for (slot = 0; slot < CALLBACK_MAX_SLOT; slot++) {
-    /* mov al, slot; jmp group */
-    *p++ = XI_MOVrib | RID_EAX; *p++ = (uint8_t)slot;
-    if ((slot & 31) == 31 || slot == CALLBACK_MAX_SLOT-1) {
-      /* push ebp/rbp; mov ah, slot>>8; mov ebp, &g. */
-      *p++ = XI_PUSH + RID_EBP;
-      *p++ = XI_MOVrib | (RID_EAX+4); *p++ = (uint8_t)(slot >> 8);
-      *p++ = XI_MOVri | RID_EBP;
-      *(int32_t *)p = i32ptr(g); p += 4;
-#if LJ_64
-      /* jmp [rip-pageofs] where lj_vm_ffi_callback is stored. */
-      *p++ = XI_GROUP5; *p++ = XM_OFS0 + (XOg_JMP<<3) + RID_EBP;
-      *(int32_t *)p = (int32_t)(page-(p+4)); p += 4;
-#else
-      /* jmp lj_vm_ffi_callback. */
-      *p++ = XI_JMP; *(int32_t *)p = target-(p+4); p += 4;
-#endif
-    } else {
-      *p++ = XI_JMPs; *p++ = (uint8_t)((2+2)*(31-(slot&31)) - 2);
-    }
-  }
-  lua_assert(p - page <= CALLBACK_MCODE_SIZE);
-}
-#elif LJ_TARGET_ARM
-static void callback_mcode_init(global_State *g, uint32_t *page)
-{
-  uint32_t *p = page;
-  void *target = (void *)lj_vm_ffi_callback;
-  MSize slot;
-  /* This must match with the saveregs macro in buildvm_arm.dasc. */
-  *p++ = ARMI_SUB|ARMF_D(RID_R12)|ARMF_N(RID_R12)|ARMF_M(RID_PC);
-  *p++ = ARMI_PUSH|ARMF_N(RID_SP)|RSET_RANGE(RID_R4,RID_R11+1)|RID2RSET(RID_LR);
-  *p++ = ARMI_SUB|ARMI_K12|ARMF_D(RID_R12)|ARMF_N(RID_R12)|CALLBACK_MCODE_HEAD;
-  *p++ = ARMI_STR|ARMI_LS_P|ARMI_LS_W|ARMF_D(RID_R12)|ARMF_N(RID_SP)|(CFRAME_SIZE-4*9);
-  *p++ = ARMI_LDR|ARMI_LS_P|ARMI_LS_U|ARMF_D(RID_R12)|ARMF_N(RID_PC);
-  *p++ = ARMI_LDR|ARMI_LS_P|ARMI_LS_U|ARMF_D(RID_PC)|ARMF_N(RID_PC);
-  *p++ = u32ptr(g);
-  *p++ = u32ptr(target);
-  for (slot = 0; slot < CALLBACK_MAX_SLOT; slot++) {
-    *p++ = ARMI_MOV|ARMF_D(RID_R12)|ARMF_M(RID_PC);
-    *p = ARMI_B | ((page-p-2) & 0x00ffffffu);
-    p++;
-  }
-  lua_assert(p - page <= CALLBACK_MCODE_SIZE);
-}
-#elif LJ_TARGET_PPC
-static void callback_mcode_init(global_State *g, uint32_t *page)
-{
-  uint32_t *p = page;
-  void *target = (void *)lj_vm_ffi_callback;
-  MSize slot;
-  *p++ = PPCI_LIS | PPCF_T(RID_TMP) | (u32ptr(target) >> 16);
-  *p++ = PPCI_LIS | PPCF_T(RID_R12) | (u32ptr(g) >> 16);
-  *p++ = PPCI_ORI | PPCF_A(RID_TMP)|PPCF_T(RID_TMP) | (u32ptr(target) & 0xffff);
-  *p++ = PPCI_ORI | PPCF_A(RID_R12)|PPCF_T(RID_R12) | (u32ptr(g) & 0xffff);
-  *p++ = PPCI_MTCTR | PPCF_T(RID_TMP);
-  *p++ = PPCI_BCTR;
-  for (slot = 0; slot < CALLBACK_MAX_SLOT; slot++) {
-    *p++ = PPCI_LI | PPCF_T(RID_R11) | slot;
-    *p = PPCI_B | (((page-p) & 0x00ffffffu) << 2);
-    p++;
-  }
-  lua_assert(p - page <= CALLBACK_MCODE_SIZE);
-}
-#elif LJ_TARGET_MIPS
-static void callback_mcode_init(global_State *g, uint32_t *page)
-{
-  uint32_t *p = page;
-  void *target = (void *)lj_vm_ffi_callback;
-  MSize slot;
-  *p++ = MIPSI_SW | MIPSF_T(RID_R1)|MIPSF_S(RID_SP) | 0;
-  *p++ = MIPSI_LUI | MIPSF_T(RID_R3) | (u32ptr(target) >> 16);
-  *p++ = MIPSI_LUI | MIPSF_T(RID_R2) | (u32ptr(g) >> 16);
-  *p++ = MIPSI_ORI | MIPSF_T(RID_R3)|MIPSF_S(RID_R3) |(u32ptr(target)&0xffff);
-  *p++ = MIPSI_JR | MIPSF_S(RID_R3);
-  *p++ = MIPSI_ORI | MIPSF_T(RID_R2)|MIPSF_S(RID_R2) | (u32ptr(g)&0xffff);
-  for (slot = 0; slot < CALLBACK_MAX_SLOT; slot++) {
-    *p = MIPSI_B | ((page-p-1) & 0x0000ffffu);
-    p++;
-    *p++ = MIPSI_LI | MIPSF_T(RID_R1) | slot;
-  }
-  lua_assert(p - page <= CALLBACK_MCODE_SIZE);
-}
-#else
-/* Missing support for this architecture. */
-#define callback_mcode_init(g, p)	UNUSED(p)
-#endif
-
-/* -- Machine code management --------------------------------------------- */
-
-#if LJ_TARGET_WINDOWS
-
-#define WIN32_LEAN_AND_MEAN
-#include <windows.h>
-
-#elif LJ_TARGET_POSIX
-
-#include <sys/mman.h>
-#ifndef MAP_ANONYMOUS
-#define MAP_ANONYMOUS   MAP_ANON
-#endif
-
-#endif
-
-/* Allocate and initialize area for callback function pointers. */
-static void callback_mcode_new(CTState *cts)
-{
-  size_t sz = (size_t)CALLBACK_MCODE_SIZE;
-  void *p;
-  if (CALLBACK_MAX_SLOT == 0)
-    lj_err_caller(cts->L, LJ_ERR_FFI_CBACKOV);
-#if LJ_TARGET_WINDOWS
-  p = VirtualAlloc(NULL, sz, MEM_RESERVE|MEM_COMMIT, PAGE_READWRITE);
-  if (!p)
-    lj_err_caller(cts->L, LJ_ERR_FFI_CBACKOV);
-#elif LJ_TARGET_POSIX
-  p = mmap(NULL, sz, (PROT_READ|PROT_WRITE), MAP_PRIVATE|MAP_ANONYMOUS,
-	   -1, 0);
-  if (p == MAP_FAILED)
-    lj_err_caller(cts->L, LJ_ERR_FFI_CBACKOV);
-#else
-  /* Fallback allocator. Fails if memory is not executable by default. */
-  p = lj_mem_new(cts->L, sz);
-#endif
-  cts->cb.mcode = p;
-  callback_mcode_init(cts->g, p);
-  lj_mcode_sync(p, (char *)p + sz);
-#if LJ_TARGET_WINDOWS
-  {
-    DWORD oprot;
-    VirtualProtect(p, sz, PAGE_EXECUTE_READ, &oprot);
-  }
-#elif LJ_TARGET_POSIX
-  mprotect(p, sz, (PROT_READ|PROT_EXEC));
-#endif
-}
-
-/* Free area for callback function pointers. */
-void lj_ccallback_mcode_free(CTState *cts)
-{
-  size_t sz = (size_t)CALLBACK_MCODE_SIZE;
-  void *p = cts->cb.mcode;
-  if (p == NULL) return;
-#if LJ_TARGET_WINDOWS
-  VirtualFree(p, 0, MEM_RELEASE);
-  UNUSED(sz);
-#elif LJ_TARGET_POSIX
-  munmap(p, sz);
-#else
-  lj_mem_free(cts->g, p, sz);
-#endif
-}
-
-/* -- C callback entry ---------------------------------------------------- */
-
-/* Target-specific handling of register arguments. Similar to lj_ccall.c. */
-#if LJ_TARGET_X86
-
-#define CALLBACK_HANDLE_REGARG \
-  if (!isfp) {  /* Only non-FP values may be passed in registers. */ \
-    if (n > 1) {  /* Anything > 32 bit is passed on the stack. */ \
-      if (!LJ_ABI_WIN) ngpr = maxgpr;  /* Prevent reordering. */ \
-    } else if (ngpr + 1 <= maxgpr) { \
-      sp = &cts->cb.gpr[ngpr]; \
-      ngpr += n; \
-      goto done; \
-    } \
-  }
-
-#elif LJ_TARGET_X64 && LJ_ABI_WIN
-
-/* Windows/x64 argument registers are strictly positional (use ngpr). */
-#define CALLBACK_HANDLE_REGARG \
-  if (isfp) { \
-    if (ngpr < maxgpr) { sp = &cts->cb.fpr[ngpr++]; UNUSED(nfpr); goto done; } \
-  } else { \
-    if (ngpr < maxgpr) { sp = &cts->cb.gpr[ngpr++]; goto done; } \
-  }
-
-#elif LJ_TARGET_X64
-
-#define CALLBACK_HANDLE_REGARG \
-  if (isfp) { \
-    if (nfpr + n <= CCALL_NARG_FPR) { \
-      sp = &cts->cb.fpr[nfpr]; \
-      nfpr += n; \
-      goto done; \
-    } \
-  } else { \
-    if (ngpr + n <= maxgpr) { \
-      sp = &cts->cb.gpr[ngpr]; \
-      ngpr += n; \
-      goto done; \
-    } \
-  }
-
-#elif LJ_TARGET_ARM
-
-#if LJ_ABI_SOFTFP
-
-#define CALLBACK_HANDLE_REGARG_FP1	UNUSED(isfp);
-#define CALLBACK_HANDLE_REGARG_FP2
-
-#else
-
-#define CALLBACK_HANDLE_REGARG_FP1 \
-  if (isfp) { \
-    if (n == 1) { \
-      if (fprodd) { \
-	sp = &cts->cb.fpr[fprodd-1]; \
-	fprodd = 0; \
-	goto done; \
-      } else if (nfpr + 1 <= CCALL_NARG_FPR) { \
-	sp = &cts->cb.fpr[nfpr++]; \
-	fprodd = nfpr; \
-	goto done; \
-      } \
-    } else { \
-      if (nfpr + 1 <= CCALL_NARG_FPR) { \
-	sp = &cts->cb.fpr[nfpr++]; \
-	goto done; \
-      } \
-    } \
-    fprodd = 0;  /* No reordering after the first FP value is on stack. */ \
-  } else {
-
-#define CALLBACK_HANDLE_REGARG_FP2	}
-
-#endif
-
-#define CALLBACK_HANDLE_REGARG \
-  CALLBACK_HANDLE_REGARG_FP1 \
-  if (n > 1) ngpr = (ngpr + 1u) & ~1u;  /* Align to regpair. */ \
-  if (ngpr + n <= maxgpr) { \
-    sp = &cts->cb.gpr[ngpr]; \
-    ngpr += n; \
-    goto done; \
-  } CALLBACK_HANDLE_REGARG_FP2
-
-#elif LJ_TARGET_PPC
-
-#define CALLBACK_HANDLE_REGARG \
-  if (isfp) { \
-    if (nfpr + 1 <= CCALL_NARG_FPR) { \
-      sp = &cts->cb.fpr[nfpr++]; \
-      cta = ctype_get(cts, CTID_DOUBLE);  /* FPRs always hold doubles. */ \
-      goto done; \
-    } \
-  } else {  /* Try to pass argument in GPRs. */ \
-    if (n > 1) { \
-      lua_assert(ctype_isinteger(cta->info) && n == 2);  /* int64_t. */ \
-      ngpr = (ngpr + 1u) & ~1u;  /* Align int64_t to regpair. */ \
-    } \
-    if (ngpr + n <= maxgpr) { \
-      sp = &cts->cb.gpr[ngpr]; \
-      ngpr += n; \
-      goto done; \
-    } \
-  }
-
-#define CALLBACK_HANDLE_RET \
-  if (ctype_isfp(ctr->info) && ctr->size == sizeof(float)) \
-    *(double *)dp = *(float *)dp;  /* FPRs always hold doubles. */
-
-#elif LJ_TARGET_MIPS
-
-#define CALLBACK_HANDLE_REGARG \
-  if (isfp && nfpr < CCALL_NARG_FPR) {  /* Try to pass argument in FPRs. */ \
-    sp = (void *)((uint8_t *)&cts->cb.fpr[nfpr] + ((LJ_BE && n==1) ? 4 : 0)); \
-    nfpr++; ngpr += n; \
-    goto done; \
-  } else {  /* Try to pass argument in GPRs. */ \
-    nfpr = CCALL_NARG_FPR; \
-    if (n > 1) ngpr = (ngpr + 1u) & ~1u;  /* Align to regpair. */ \
-    if (ngpr + n <= maxgpr) { \
-      sp = &cts->cb.gpr[ngpr]; \
-      ngpr += n; \
-      goto done; \
-    } \
-  }
-
-#define CALLBACK_HANDLE_RET \
-  if (ctype_isfp(ctr->info) && ctr->size == sizeof(float)) \
-    ((float *)dp)[1] = *(float *)dp;
-
-#else
-#error "Missing calling convention definitions for this architecture"
-#endif
-
-/* Convert and push callback arguments to Lua stack. */
-static void callback_conv_args(CTState *cts, lua_State *L)
-{
-  TValue *o = L->top;
-  intptr_t *stack = cts->cb.stack;
-  MSize slot = cts->cb.slot;
-  CTypeID id = 0, rid, fid;
-  int gcsteps = 0;
-  CType *ct;
-  GCfunc *fn;
-  MSize ngpr = 0, nsp = 0, maxgpr = CCALL_NARG_GPR;
-#if CCALL_NARG_FPR
-  MSize nfpr = 0;
-#if LJ_TARGET_ARM
-  MSize fprodd = 0;
-#endif
-#endif
-
-  if (slot < cts->cb.sizeid && (id = cts->cb.cbid[slot]) != 0) {
-    ct = ctype_get(cts, id);
-    rid = ctype_cid(ct->info);
-    fn = funcV(lj_tab_getint(cts->miscmap, (int32_t)slot));
-  } else {  /* Must set up frame first, before throwing the error. */
-    ct = NULL;
-    rid = 0;
-    fn = (GCfunc *)L;
-  }
-  o->u32.lo = LJ_CONT_FFI_CALLBACK;  /* Continuation returns from callback. */
-  o->u32.hi = rid;  /* Return type. x86: +(spadj<<16). */
-  o++;
-  setframe_gc(o, obj2gco(fn));
-  setframe_ftsz(o, (int)((char *)(o+1) - (char *)L->base) + FRAME_CONT);
-  L->top = L->base = ++o;
-  if (!ct)
-    lj_err_caller(cts->L, LJ_ERR_FFI_BADCBACK);
-  if (isluafunc(fn))
-    setcframe_pc(L->cframe, proto_bc(funcproto(fn))+1);
-  lj_state_checkstack(L, LUA_MINSTACK);  /* May throw. */
-  o = L->base;  /* Might have been reallocated. */
-
-#if LJ_TARGET_X86
-  /* x86 has several different calling conventions. */
-  switch (ctype_cconv(ct->info)) {
-  case CTCC_FASTCALL: maxgpr = 2; break;
-  case CTCC_THISCALL: maxgpr = 1; break;
-  default: maxgpr = 0; break;
-  }
-#endif
-
-  fid = ct->sib;
-  while (fid) {
-    CType *ctf = ctype_get(cts, fid);
-    if (!ctype_isattrib(ctf->info)) {
-      CType *cta;
-      void *sp;
-      CTSize sz;
-      int isfp;
-      MSize n;
-      lua_assert(ctype_isfield(ctf->info));
-      cta = ctype_rawchild(cts, ctf);
-      isfp = ctype_isfp(cta->info);
-      sz = (cta->size + CTSIZE_PTR-1) & ~(CTSIZE_PTR-1);
-      n = sz / CTSIZE_PTR;  /* Number of GPRs or stack slots needed. */
-
-      CALLBACK_HANDLE_REGARG  /* Handle register arguments. */
-
-      /* Otherwise pass argument on stack. */
-      if (CCALL_ALIGN_STACKARG && LJ_32 && sz == 8)
-	nsp = (nsp + 1) & ~1u;  /* Align 64 bit argument on stack. */
-      sp = &stack[nsp];
-      nsp += n;
-
-    done:
-      if (LJ_BE && cta->size < CTSIZE_PTR)
-	sp = (void *)((uint8_t *)sp + CTSIZE_PTR-cta->size);
-      gcsteps += lj_cconv_tv_ct(cts, cta, 0, o++, sp);
-    }
-    fid = ctf->sib;
-  }
-  L->top = o;
-#if LJ_TARGET_X86
-  /* Store stack adjustment for returns from non-cdecl callbacks. */
-  if (ctype_cconv(ct->info) != CTCC_CDECL)
-    (L->base-2)->u32.hi |= (nsp << (16+2));
-#endif
-  while (gcsteps-- > 0)
-    lj_gc_check(L);
-}
-
-/* Convert Lua object to callback result. */
-static void callback_conv_result(CTState *cts, lua_State *L, TValue *o)
-{
-  CType *ctr = ctype_raw(cts, (uint16_t)(L->base-2)->u32.hi);
-#if LJ_TARGET_X86
-  cts->cb.gpr[2] = 0;
-#endif
-  if (!ctype_isvoid(ctr->info)) {
-    uint8_t *dp = (uint8_t *)&cts->cb.gpr[0];
-#if CCALL_NUM_FPR
-    if (ctype_isfp(ctr->info))
-      dp = (uint8_t *)&cts->cb.fpr[0];
-#endif
-    lj_cconv_ct_tv(cts, ctr, dp, o, 0);
-#ifdef CALLBACK_HANDLE_RET
-    CALLBACK_HANDLE_RET
-#endif
-    /* Extend returned integers to (at least) 32 bits. */
-    if (ctype_isinteger_or_bool(ctr->info) && ctr->size < 4) {
-      if (ctr->info & CTF_UNSIGNED)
-	*(uint32_t *)dp = ctr->size == 1 ? (uint32_t)*(uint8_t *)dp :
-					   (uint32_t)*(uint16_t *)dp;
-      else
-	*(int32_t *)dp = ctr->size == 1 ? (int32_t)*(int8_t *)dp :
-					  (int32_t)*(int16_t *)dp;
-    }
-#if LJ_TARGET_X86
-    if (ctype_isfp(ctr->info))
-      cts->cb.gpr[2] = ctr->size == sizeof(float) ? 1 : 2;
-#endif
-  }
-}
-
-/* Enter callback. */
-lua_State * LJ_FASTCALL lj_ccallback_enter(CTState *cts, void *cf)
-{
-  lua_State *L = cts->L;
-  global_State *g = cts->g;
-  lua_assert(L != NULL);
-  if (gcref(g->jit_L)) {
-    setstrV(L, L->top++, lj_err_str(L, LJ_ERR_FFI_BADCBACK));
-    if (g->panic) g->panic(L);
-    exit(EXIT_FAILURE);
-  }
-  lj_trace_abort(g);  /* Never record across callback. */
-  /* Setup C frame. */
-  cframe_prev(cf) = L->cframe;
-  setcframe_L(cf, L);
-  cframe_errfunc(cf) = -1;
-  cframe_nres(cf) = 0;
-  L->cframe = cf;
-  callback_conv_args(cts, L);
-  return L;  /* Now call the function on this stack. */
-}
-
-/* Leave callback. */
-void LJ_FASTCALL lj_ccallback_leave(CTState *cts, TValue *o)
-{
-  lua_State *L = cts->L;
-  GCfunc *fn;
-  TValue *obase = L->base;
-  L->base = L->top;  /* Keep continuation frame for throwing errors. */
-  if (o >= L->base) {
-    /* PC of RET* is lost. Point to last line for result conv. errors. */
-    fn = curr_func(L);
-    if (isluafunc(fn)) {
-      GCproto *pt = funcproto(fn);
-      setcframe_pc(L->cframe, proto_bc(pt)+pt->sizebc+1);
-    }
-  }
-  callback_conv_result(cts, L, o);
-  /* Finally drop C frame and continuation frame. */
-  L->cframe = cframe_prev(L->cframe);
-  L->top -= 2;
-  L->base = obase;
-  cts->cb.slot = 0;  /* Blacklist C function that called the callback. */
-}
-
-/* -- C callback management ----------------------------------------------- */
-
-/* Get an unused slot in the callback slot table. */
-static MSize callback_slot_new(CTState *cts, CType *ct)
-{
-  CTypeID id = ctype_typeid(cts, ct);
-  CTypeID1 *cbid = cts->cb.cbid;
-  MSize top;
-  for (top = cts->cb.topid; top < cts->cb.sizeid; top++)
-    if (LJ_LIKELY(cbid[top] == 0))
-      goto found;
-#if CALLBACK_MAX_SLOT
-  if (top >= CALLBACK_MAX_SLOT)
-#endif
-    lj_err_caller(cts->L, LJ_ERR_FFI_CBACKOV);
-  if (!cts->cb.mcode)
-    callback_mcode_new(cts);
-  lj_mem_growvec(cts->L, cbid, cts->cb.sizeid, CALLBACK_MAX_SLOT, CTypeID1);
-  cts->cb.cbid = cbid;
-  memset(cbid+top, 0, (cts->cb.sizeid-top)*sizeof(CTypeID1));
-found:
-  cbid[top] = id;
-  cts->cb.topid = top+1;
-  return top;
-}
-
-/* Check for function pointer and supported argument/result types. */
-static CType *callback_checkfunc(CTState *cts, CType *ct)
-{
-  int narg = 0;
-  if (!ctype_isptr(ct->info) || (LJ_64 && ct->size != CTSIZE_PTR))
-    return NULL;
-  ct = ctype_rawchild(cts, ct);
-  if (ctype_isfunc(ct->info)) {
-    CType *ctr = ctype_rawchild(cts, ct);
-    CTypeID fid = ct->sib;
-    if (!(ctype_isvoid(ctr->info) || ctype_isenum(ctr->info) ||
-	  ctype_isptr(ctr->info) || (ctype_isnum(ctr->info) && ctr->size <= 8)))
-      return NULL;
-    if ((ct->info & CTF_VARARG))
-      return NULL;
-    while (fid) {
-      CType *ctf = ctype_get(cts, fid);
-      if (!ctype_isattrib(ctf->info)) {
-	CType *cta;
-	lua_assert(ctype_isfield(ctf->info));
-	cta = ctype_rawchild(cts, ctf);
-	if (!(ctype_isenum(cta->info) || ctype_isptr(cta->info) ||
-	      (ctype_isnum(cta->info) && cta->size <= 8)) ||
-	    ++narg >= LUA_MINSTACK-3)
-	  return NULL;
-      }
-      fid = ctf->sib;
-    }
-    return ct;
-  }
-  return NULL;
-}
-
-/* Create a new callback and return the callback function pointer. */
-void *lj_ccallback_new(CTState *cts, CType *ct, GCfunc *fn)
-{
-  ct = callback_checkfunc(cts, ct);
-  if (ct) {
-    MSize slot = callback_slot_new(cts, ct);
-    GCtab *t = cts->miscmap;
-    setfuncV(cts->L, lj_tab_setint(cts->L, t, (int32_t)slot), fn);
-    lj_gc_anybarriert(cts->L, t);
-    return callback_slot2ptr(cts, slot);
-  }
-  return NULL;  /* Bad conversion. */
-}
-
-#endif
diff --git a/luajit-2.0/src/lj_ccallback.h b/luajit-2.0/src/lj_ccallback.h
deleted file mode 100644
index 45b5ff0..0000000
--- a/luajit-2.0/src/lj_ccallback.h
+++ /dev/null
@@ -1,25 +0,0 @@
-/*
-** FFI C callback handling.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#ifndef _LJ_CCALLBACK_H
-#define _LJ_CCALLBACK_H
-
-#include "lj_obj.h"
-#include "lj_ctype.h"
-
-#if LJ_HASFFI
-
-/* Really belongs to lj_vm.h. */
-LJ_ASMF void lj_vm_ffi_callback(void);
-
-LJ_FUNC MSize lj_ccallback_ptr2slot(CTState *cts, void *p);
-LJ_FUNCA lua_State * LJ_FASTCALL lj_ccallback_enter(CTState *cts, void *cf);
-LJ_FUNCA void LJ_FASTCALL lj_ccallback_leave(CTState *cts, TValue *o);
-LJ_FUNC void *lj_ccallback_new(CTState *cts, CType *ct, GCfunc *fn);
-LJ_FUNC void lj_ccallback_mcode_free(CTState *cts);
-
-#endif
-
-#endif
diff --git a/luajit-2.0/src/lj_cconv.c b/luajit-2.0/src/lj_cconv.c
deleted file mode 100644
index 90cd36e..0000000
--- a/luajit-2.0/src/lj_cconv.c
+++ /dev/null
@@ -1,752 +0,0 @@
-/*
-** C type conversions.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#include "lj_obj.h"
-
-#if LJ_HASFFI
-
-#include "lj_err.h"
-#include "lj_tab.h"
-#include "lj_ctype.h"
-#include "lj_cdata.h"
-#include "lj_cconv.h"
-#include "lj_ccallback.h"
-
-/* -- Conversion errors --------------------------------------------------- */
-
-/* Bad conversion. */
-LJ_NORET static void cconv_err_conv(CTState *cts, CType *d, CType *s,
-				    CTInfo flags)
-{
-  const char *dst = strdata(lj_ctype_repr(cts->L, ctype_typeid(cts, d), NULL));
-  const char *src;
-  if ((flags & CCF_FROMTV))
-    src = lj_obj_typename[1+(ctype_isnum(s->info) ? LUA_TNUMBER :
-			     ctype_isarray(s->info) ? LUA_TSTRING : LUA_TNIL)];
-  else
-    src = strdata(lj_ctype_repr(cts->L, ctype_typeid(cts, s), NULL));
-  if (CCF_GETARG(flags))
-    lj_err_argv(cts->L, CCF_GETARG(flags), LJ_ERR_FFI_BADCONV, src, dst);
-  else
-    lj_err_callerv(cts->L, LJ_ERR_FFI_BADCONV, src, dst);
-}
-
-/* Bad conversion from TValue. */
-LJ_NORET static void cconv_err_convtv(CTState *cts, CType *d, TValue *o,
-				      CTInfo flags)
-{
-  const char *dst = strdata(lj_ctype_repr(cts->L, ctype_typeid(cts, d), NULL));
-  const char *src = lj_typename(o);
-  if (CCF_GETARG(flags))
-    lj_err_argv(cts->L, CCF_GETARG(flags), LJ_ERR_FFI_BADCONV, src, dst);
-  else
-    lj_err_callerv(cts->L, LJ_ERR_FFI_BADCONV, src, dst);
-}
-
-/* Initializer overflow. */
-LJ_NORET static void cconv_err_initov(CTState *cts, CType *d)
-{
-  const char *dst = strdata(lj_ctype_repr(cts->L, ctype_typeid(cts, d), NULL));
-  lj_err_callerv(cts->L, LJ_ERR_FFI_INITOV, dst);
-}
-
-/* -- C type compatibility checks ----------------------------------------- */
-
-/* Get raw type and qualifiers for a child type. Resolves enums, too. */
-static CType *cconv_childqual(CTState *cts, CType *ct, CTInfo *qual)
-{
-  ct = ctype_child(cts, ct);
-  for (;;) {
-    if (ctype_isattrib(ct->info)) {
-      if (ctype_attrib(ct->info) == CTA_QUAL) *qual |= ct->size;
-    } else if (!ctype_isenum(ct->info)) {
-      break;
-    }
-    ct = ctype_child(cts, ct);
-  }
-  *qual |= (ct->info & CTF_QUAL);
-  return ct;
-}
-
-/* Check for compatible types when converting to a pointer.
-** Note: these checks are more relaxed than what C99 mandates.
-*/
-int lj_cconv_compatptr(CTState *cts, CType *d, CType *s, CTInfo flags)
-{
-  if (!((flags & CCF_CAST) || d == s)) {
-    CTInfo dqual = 0, squal = 0;
-    d = cconv_childqual(cts, d, &dqual);
-    if (!ctype_isstruct(s->info))
-      s = cconv_childqual(cts, s, &squal);
-    if ((flags & CCF_SAME)) {
-      if (dqual != squal)
-	return 0;  /* Different qualifiers. */
-    } else if (!(flags & CCF_IGNQUAL)) {
-      if ((dqual & squal) != squal)
-	return 0;  /* Discarded qualifiers. */
-      if (ctype_isvoid(d->info) || ctype_isvoid(s->info))
-	return 1;  /* Converting to/from void * is always ok. */
-    }
-    if (ctype_type(d->info) != ctype_type(s->info) ||
-	d->size != s->size)
-      return 0;  /* Different type or different size. */
-    if (ctype_isnum(d->info)) {
-      if (((d->info ^ s->info) & (CTF_BOOL|CTF_FP)))
-	return 0;  /* Different numeric types. */
-    } else if (ctype_ispointer(d->info)) {
-      /* Check child types for compatibility. */
-      return lj_cconv_compatptr(cts, d, s, flags|CCF_SAME);
-    } else if (ctype_isstruct(d->info)) {
-      if (d != s)
-	return 0;  /* Must be exact same type for struct/union. */
-    } else if (ctype_isfunc(d->info)) {
-      /* NYI: structural equality of functions. */
-    }
-  }
-  return 1;  /* Types are compatible. */
-}
-
-/* -- C type to C type conversion ----------------------------------------- */
-
-/* Convert C type to C type. Caveat: expects to get the raw CType!
-**
-** Note: This is only used by the interpreter and not optimized at all.
-** The JIT compiler will do a much better job specializing for each case.
-*/
-void lj_cconv_ct_ct(CTState *cts, CType *d, CType *s,
-		    uint8_t *dp, uint8_t *sp, CTInfo flags)
-{
-  CTSize dsize = d->size, ssize = s->size;
-  CTInfo dinfo = d->info, sinfo = s->info;
-  void *tmpptr;
-
-  lua_assert(!ctype_isenum(dinfo) && !ctype_isenum(sinfo));
-  lua_assert(!ctype_isattrib(dinfo) && !ctype_isattrib(sinfo));
-
-  if (ctype_type(dinfo) > CT_MAYCONVERT || ctype_type(sinfo) > CT_MAYCONVERT)
-    goto err_conv;
-
-  /* Some basic sanity checks. */
-  lua_assert(!ctype_isnum(dinfo) || dsize > 0);
-  lua_assert(!ctype_isnum(sinfo) || ssize > 0);
-  lua_assert(!ctype_isbool(dinfo) || dsize == 1 || dsize == 4);
-  lua_assert(!ctype_isbool(sinfo) || ssize == 1 || ssize == 4);
-  lua_assert(!ctype_isinteger(dinfo) || (1u<<lj_fls(dsize)) == dsize);
-  lua_assert(!ctype_isinteger(sinfo) || (1u<<lj_fls(ssize)) == ssize);
-
-  switch (cconv_idx2(dinfo, sinfo)) {
-  /* Destination is a bool. */
-  case CCX(B, B):
-    /* Source operand is already normalized. */
-    if (dsize == 1) *dp = *sp; else *(int *)dp = *sp;
-    break;
-  case CCX(B, I): {
-    MSize i;
-    uint8_t b = 0;
-    for (i = 0; i < ssize; i++) b |= sp[i];
-    b = (b != 0);
-    if (dsize == 1) *dp = b; else *(int *)dp = b;
-    break;
-    }
-  case CCX(B, F): {
-    uint8_t b;
-    if (ssize == sizeof(double)) b = (*(double *)sp != 0);
-    else if (ssize == sizeof(float)) b = (*(float *)sp != 0);
-    else goto err_conv;  /* NYI: long double. */
-    if (dsize == 1) *dp = b; else *(int *)dp = b;
-    break;
-    }
-
-  /* Destination is an integer. */
-  case CCX(I, B):
-  case CCX(I, I):
-  conv_I_I:
-    if (dsize > ssize) {  /* Zero-extend or sign-extend LSB. */
-#if LJ_LE
-      uint8_t fill = (!(sinfo & CTF_UNSIGNED) && (sp[ssize-1]&0x80)) ? 0xff : 0;
-      memcpy(dp, sp, ssize);
-      memset(dp + ssize, fill, dsize-ssize);
-#else
-      uint8_t fill = (!(sinfo & CTF_UNSIGNED) && (sp[0]&0x80)) ? 0xff : 0;
-      memset(dp, fill, dsize-ssize);
-      memcpy(dp + (dsize-ssize), sp, ssize);
-#endif
-    } else {  /* Copy LSB. */
-#if LJ_LE
-      memcpy(dp, sp, dsize);
-#else
-      memcpy(dp, sp + (ssize-dsize), dsize);
-#endif
-    }
-    break;
-  case CCX(I, F): {
-    double n;  /* Always convert via double. */
-  conv_I_F:
-    /* Convert source to double. */
-    if (ssize == sizeof(double)) n = *(double *)sp;
-    else if (ssize == sizeof(float)) n = (double)*(float *)sp;
-    else goto err_conv;  /* NYI: long double. */
-    /* Then convert double to integer. */
-    /* The conversion must exactly match the semantics of JIT-compiled code! */
-    if (dsize < 4 || (dsize == 4 && !(dinfo & CTF_UNSIGNED))) {
-      int32_t i = (int32_t)n;
-      if (dsize == 4) *(int32_t *)dp = i;
-      else if (dsize == 2) *(int16_t *)dp = (int16_t)i;
-      else *(int8_t *)dp = (int8_t)i;
-    } else if (dsize == 4) {
-      *(uint32_t *)dp = (uint32_t)n;
-    } else if (dsize == 8) {
-      if (!(dinfo & CTF_UNSIGNED))
-	*(int64_t *)dp = (int64_t)n;
-      else
-	*(uint64_t *)dp = lj_num2u64(n);
-    } else {
-      goto err_conv;  /* NYI: conversion to >64 bit integers. */
-    }
-    break;
-    }
-  case CCX(I, C):
-    s = ctype_child(cts, s);
-    sinfo = s->info;
-    ssize = s->size;
-    goto conv_I_F;  /* Just convert re. */
-  case CCX(I, P):
-    if (!(flags & CCF_CAST)) goto err_conv;
-    sinfo = CTINFO(CT_NUM, CTF_UNSIGNED);
-    goto conv_I_I;
-  case CCX(I, A):
-    if (!(flags & CCF_CAST)) goto err_conv;
-    sinfo = CTINFO(CT_NUM, CTF_UNSIGNED);
-    ssize = CTSIZE_PTR;
-    tmpptr = sp;
-    sp = (uint8_t *)&tmpptr;
-    goto conv_I_I;
-
-  /* Destination is a floating-point number. */
-  case CCX(F, B):
-  case CCX(F, I): {
-    double n;  /* Always convert via double. */
-  conv_F_I:
-    /* First convert source to double. */
-    /* The conversion must exactly match the semantics of JIT-compiled code! */
-    if (ssize < 4 || (ssize == 4 && !(sinfo & CTF_UNSIGNED))) {
-      int32_t i;
-      if (ssize == 4) {
-	i = *(int32_t *)sp;
-      } else if (!(sinfo & CTF_UNSIGNED)) {
-	if (ssize == 2) i = *(int16_t *)sp;
-	else i = *(int8_t *)sp;
-      } else {
-	if (ssize == 2) i = *(uint16_t *)sp;
-	else i = *(uint8_t *)sp;
-      }
-      n = (double)i;
-    } else if (ssize == 4) {
-      n = (double)*(uint32_t *)sp;
-    } else if (ssize == 8) {
-      if (!(sinfo & CTF_UNSIGNED)) n = (double)*(int64_t *)sp;
-      else n = (double)*(uint64_t *)sp;
-    } else {
-      goto err_conv;  /* NYI: conversion from >64 bit integers. */
-    }
-    /* Convert double to destination. */
-    if (dsize == sizeof(double)) *(double *)dp = n;
-    else if (dsize == sizeof(float)) *(float *)dp = (float)n;
-    else goto err_conv;  /* NYI: long double. */
-    break;
-    }
-  case CCX(F, F): {
-    double n;  /* Always convert via double. */
-  conv_F_F:
-    if (ssize == dsize) goto copyval;
-    /* Convert source to double. */
-    if (ssize == sizeof(double)) n = *(double *)sp;
-    else if (ssize == sizeof(float)) n = (double)*(float *)sp;
-    else goto err_conv;  /* NYI: long double. */
-    /* Convert double to destination. */
-    if (dsize == sizeof(double)) *(double *)dp = n;
-    else if (dsize == sizeof(float)) *(float *)dp = (float)n;
-    else goto err_conv;  /* NYI: long double. */
-    break;
-    }
-  case CCX(F, C):
-    s = ctype_child(cts, s);
-    sinfo = s->info;
-    ssize = s->size;
-    goto conv_F_F;  /* Ignore im, and convert from re. */
-
-  /* Destination is a complex number. */
-  case CCX(C, I):
-    d = ctype_child(cts, d);
-    dinfo = d->info;
-    dsize = d->size;
-    memset(dp + dsize, 0, dsize);  /* Clear im. */
-    goto conv_F_I;  /* Convert to re. */
-  case CCX(C, F):
-    d = ctype_child(cts, d);
-    dinfo = d->info;
-    dsize = d->size;
-    memset(dp + dsize, 0, dsize);  /* Clear im. */
-    goto conv_F_F;  /* Convert to re. */
-
-  case CCX(C, C):
-    if (dsize != ssize) {  /* Different types: convert re/im separately. */
-      CType *dc = ctype_child(cts, d);
-      CType *sc = ctype_child(cts, s);
-      lj_cconv_ct_ct(cts, dc, sc, dp, sp, flags);
-      lj_cconv_ct_ct(cts, dc, sc, dp + dc->size, sp + sc->size, flags);
-      return;
-    }
-    goto copyval;  /* Otherwise this is easy. */
-
-  /* Destination is a vector. */
-  case CCX(V, I):
-  case CCX(V, F):
-  case CCX(V, C): {
-    CType *dc = ctype_child(cts, d);
-    CTSize esize;
-    /* First convert the scalar to the first element. */
-    lj_cconv_ct_ct(cts, dc, s, dp, sp, flags);
-    /* Then replicate it to the other elements (splat). */
-    for (sp = dp, esize = dc->size; dsize > esize; dsize -= esize) {
-      dp += esize;
-      memcpy(dp, sp, esize);
-    }
-    break;
-    }
-
-  case CCX(V, V):
-    /* Copy same-sized vectors, even for different lengths/element-types. */
-    if (dsize != ssize) goto err_conv;
-    goto copyval;
-
-  /* Destination is a pointer. */
-  case CCX(P, I):
-    if (!(flags & CCF_CAST)) goto err_conv;
-    dinfo = CTINFO(CT_NUM, CTF_UNSIGNED);
-    goto conv_I_I;
-
-  case CCX(P, F):
-    if (!(flags & CCF_CAST) || !(flags & CCF_FROMTV)) goto err_conv;
-    /* The signed conversion is cheaper. x64 really has 47 bit pointers. */
-    dinfo = CTINFO(CT_NUM, (LJ_64 && dsize == 8) ? 0 : CTF_UNSIGNED);
-    goto conv_I_F;
-
-  case CCX(P, P):
-    if (!lj_cconv_compatptr(cts, d, s, flags)) goto err_conv;
-    cdata_setptr(dp, dsize, cdata_getptr(sp, ssize));
-    break;
-
-  case CCX(P, A):
-  case CCX(P, S):
-    if (!lj_cconv_compatptr(cts, d, s, flags)) goto err_conv;
-    cdata_setptr(dp, dsize, sp);
-    break;
-
-  /* Destination is an array. */
-  case CCX(A, A):
-    if ((flags & CCF_CAST) || (d->info & CTF_VLA) || dsize != ssize ||
-	d->size == CTSIZE_INVALID || !lj_cconv_compatptr(cts, d, s, flags))
-      goto err_conv;
-    goto copyval;
-
-  /* Destination is a struct/union. */
-  case CCX(S, S):
-    if ((flags & CCF_CAST) || (d->info & CTF_VLA) || d != s)
-      goto err_conv;  /* Must be exact same type. */
-copyval:  /* Copy value. */
-    lua_assert(dsize == ssize);
-    memcpy(dp, sp, dsize);
-    break;
-
-  default:
-  err_conv:
-    cconv_err_conv(cts, d, s, flags);
-  }
-}
-
-/* -- C type to TValue conversion ----------------------------------------- */
-
-/* Convert C type to TValue. Caveat: expects to get the raw CType! */
-int lj_cconv_tv_ct(CTState *cts, CType *s, CTypeID sid,
-		   TValue *o, uint8_t *sp)
-{
-  CTInfo sinfo = s->info;
-  if (ctype_isnum(sinfo)) {
-    if (!ctype_isbool(sinfo)) {
-      if (ctype_isinteger(sinfo) && s->size > 4) goto copyval;
-      if (LJ_DUALNUM && ctype_isinteger(sinfo)) {
-	int32_t i;
-	lj_cconv_ct_ct(cts, ctype_get(cts, CTID_INT32), s,
-		       (uint8_t *)&i, sp, 0);
-	if ((sinfo & CTF_UNSIGNED) && i < 0)
-	  setnumV(o, (lua_Number)(uint32_t)i);
-	else
-	  setintV(o, i);
-      } else {
-	lj_cconv_ct_ct(cts, ctype_get(cts, CTID_DOUBLE), s,
-		       (uint8_t *)&o->n, sp, 0);
-	/* Numbers are NOT canonicalized here! Beware of uninitialized data. */
-	lua_assert(tvisnum(o));
-      }
-    } else {
-      uint32_t b = s->size == 1 ? (*sp != 0) : (*(int *)sp != 0);
-      setboolV(o, b);
-      setboolV(&cts->g->tmptv2, b);  /* Remember for trace recorder. */
-    }
-    return 0;
-  } else if (ctype_isrefarray(sinfo) || ctype_isstruct(sinfo)) {
-    /* Create reference. */
-    setcdataV(cts->L, o, lj_cdata_newref(cts, sp, sid));
-    return 1;  /* Need GC step. */
-  } else {
-    GCcdata *cd;
-    CTSize sz;
-  copyval:  /* Copy value. */
-    sz = s->size;
-    lua_assert(sz != CTSIZE_INVALID);
-    /* Attributes are stripped, qualifiers are kept (but mostly ignored). */
-    cd = lj_cdata_new(cts, ctype_typeid(cts, s), sz);
-    setcdataV(cts->L, o, cd);
-    memcpy(cdataptr(cd), sp, sz);
-    return 1;  /* Need GC step. */
-  }
-}
-
-/* Convert bitfield to TValue. */
-int lj_cconv_tv_bf(CTState *cts, CType *s, TValue *o, uint8_t *sp)
-{
-  CTInfo info = s->info;
-  CTSize pos, bsz;
-  uint32_t val;
-  lua_assert(ctype_isbitfield(info));
-  /* NYI: packed bitfields may cause misaligned reads. */
-  switch (ctype_bitcsz(info)) {
-  case 4: val = *(uint32_t *)sp; break;
-  case 2: val = *(uint16_t *)sp; break;
-  case 1: val = *(uint8_t *)sp; break;
-  default: lua_assert(0); val = 0; break;
-  }
-  /* Check if a packed bitfield crosses a container boundary. */
-  pos = ctype_bitpos(info);
-  bsz = ctype_bitbsz(info);
-  lua_assert(pos < 8*ctype_bitcsz(info));
-  lua_assert(bsz > 0 && bsz <= 8*ctype_bitcsz(info));
-  if (pos + bsz > 8*ctype_bitcsz(info))
-    lj_err_caller(cts->L, LJ_ERR_FFI_NYIPACKBIT);
-  if (!(info & CTF_BOOL)) {
-    CTSize shift = 32 - bsz;
-    if (!(info & CTF_UNSIGNED)) {
-      setintV(o, (int32_t)(val << (shift-pos)) >> shift);
-    } else {
-      val = (val << (shift-pos)) >> shift;
-      if (!LJ_DUALNUM || (int32_t)val < 0)
-	setnumV(o, (lua_Number)(uint32_t)val);
-      else
-	setintV(o, (int32_t)val);
-    }
-  } else {
-    lua_assert(bsz == 1);
-    setboolV(o, (val >> pos) & 1);
-  }
-  return 0;  /* No GC step needed. */
-}
-
-/* -- TValue to C type conversion ----------------------------------------- */
-
-/* Convert table to array. */
-static void cconv_array_tab(CTState *cts, CType *d,
-			    uint8_t *dp, GCtab *t, CTInfo flags)
-{
-  int32_t i;
-  CType *dc = ctype_rawchild(cts, d);  /* Array element type. */
-  CTSize size = d->size, esize = dc->size, ofs = 0;
-  for (i = 0; ; i++) {
-    TValue *tv = (TValue *)lj_tab_getint(t, i);
-    if (!tv || tvisnil(tv)) {
-      if (i == 0) continue;  /* Try again for 1-based tables. */
-      break;  /* Stop at first nil. */
-    }
-    if (ofs >= size)
-      cconv_err_initov(cts, d);
-    lj_cconv_ct_tv(cts, dc, dp + ofs, tv, flags);
-    ofs += esize;
-  }
-  if (size != CTSIZE_INVALID) {  /* Only fill up arrays with known size. */
-    if (ofs == esize) {  /* Replicate a single element. */
-      for (; ofs < size; ofs += esize) memcpy(dp + ofs, dp, esize);
-    } else {  /* Otherwise fill the remainder with zero. */
-      memset(dp + ofs, 0, size - ofs);
-    }
-  }
-}
-
-/* Convert table to sub-struct/union. */
-static void cconv_substruct_tab(CTState *cts, CType *d, uint8_t *dp,
-				GCtab *t, int32_t *ip, CTInfo flags)
-{
-  CTypeID id = d->sib;
-  while (id) {
-    CType *df = ctype_get(cts, id);
-    id = df->sib;
-    if (ctype_isfield(df->info) || ctype_isbitfield(df->info)) {
-      TValue *tv;
-      int32_t i = *ip, iz = i;
-      if (!gcref(df->name)) continue;  /* Ignore unnamed fields. */
-      if (i >= 0) {
-      retry:
-	tv = (TValue *)lj_tab_getint(t, i);
-	if (!tv || tvisnil(tv)) {
-	  if (i == 0) { i = 1; goto retry; }  /* 1-based tables. */
-	  if (iz == 0) { *ip = i = -1; goto tryname; }  /* Init named fields. */
-	  break;  /* Stop at first nil. */
-	}
-	*ip = i + 1;
-      } else {
-      tryname:
-	tv = (TValue *)lj_tab_getstr(t, gco2str(gcref(df->name)));
-	if (!tv || tvisnil(tv)) continue;
-      }
-      if (ctype_isfield(df->info))
-	lj_cconv_ct_tv(cts, ctype_rawchild(cts, df), dp+df->size, tv, flags);
-      else
-	lj_cconv_bf_tv(cts, df, dp+df->size, tv);
-      if ((d->info & CTF_UNION)) break;
-    } else if (ctype_isxattrib(df->info, CTA_SUBTYPE)) {
-      cconv_substruct_tab(cts, ctype_rawchild(cts, df),
-			  dp+df->size, t, ip, flags);
-    }  /* Ignore all other entries in the chain. */
-  }
-}
-
-/* Convert table to struct/union. */
-static void cconv_struct_tab(CTState *cts, CType *d,
-			     uint8_t *dp, GCtab *t, CTInfo flags)
-{
-  int32_t i = 0;
-  memset(dp, 0, d->size);  /* Much simpler to clear the struct first. */
-  cconv_substruct_tab(cts, d, dp, t, &i, flags);
-}
-
-/* Convert TValue to C type. Caveat: expects to get the raw CType! */
-void lj_cconv_ct_tv(CTState *cts, CType *d,
-		    uint8_t *dp, TValue *o, CTInfo flags)
-{
-  CTypeID sid = CTID_P_VOID;
-  CType *s;
-  void *tmpptr;
-  uint8_t tmpbool, *sp = (uint8_t *)&tmpptr;
-  if (LJ_LIKELY(tvisint(o))) {
-    sp = (uint8_t *)&o->i;
-    sid = CTID_INT32;
-    flags |= CCF_FROMTV;
-  } else if (LJ_LIKELY(tvisnum(o))) {
-    sp = (uint8_t *)&o->n;
-    sid = CTID_DOUBLE;
-    flags |= CCF_FROMTV;
-  } else if (tviscdata(o)) {
-    sp = cdataptr(cdataV(o));
-    sid = cdataV(o)->ctypeid;
-    s = ctype_get(cts, sid);
-    if (ctype_isref(s->info)) {  /* Resolve reference for value. */
-      lua_assert(s->size == CTSIZE_PTR);
-      sp = *(void **)sp;
-      sid = ctype_cid(s->info);
-    }
-    s = ctype_raw(cts, sid);
-    if (ctype_isfunc(s->info)) {
-      sid = lj_ctype_intern(cts, CTINFO(CT_PTR, CTALIGN_PTR|sid), CTSIZE_PTR);
-    } else {
-      if (ctype_isenum(s->info)) s = ctype_child(cts, s);
-      goto doconv;
-    }
-  } else if (tvisstr(o)) {
-    GCstr *str = strV(o);
-    if (ctype_isenum(d->info)) {  /* Match string against enum constant. */
-      CTSize ofs;
-      CType *cct = lj_ctype_getfield(cts, d, str, &ofs);
-      if (!cct || !ctype_isconstval(cct->info))
-	goto err_conv;
-      lua_assert(d->size == 4);
-      sp = (uint8_t *)&cct->size;
-      sid = ctype_cid(cct->info);
-    } else if (ctype_isrefarray(d->info)) {  /* Copy string to array. */
-      CType *dc = ctype_rawchild(cts, d);
-      CTSize sz = str->len+1;
-      if (!ctype_isinteger(dc->info) || dc->size != 1)
-	goto err_conv;
-      if (d->size != 0 && d->size < sz)
-	sz = d->size;
-      memcpy(dp, strdata(str), sz);
-      return;
-    } else {  /* Otherwise pass it as a const char[]. */
-      sp = (uint8_t *)strdata(str);
-      sid = CTID_A_CCHAR;
-      flags |= CCF_FROMTV;
-    }
-  } else if (tvistab(o)) {
-    if (ctype_isarray(d->info)) {
-      cconv_array_tab(cts, d, dp, tabV(o), flags);
-      return;
-    } else if (ctype_isstruct(d->info)) {
-      cconv_struct_tab(cts, d, dp, tabV(o), flags);
-      return;
-    } else {
-      goto err_conv;
-    }
-  } else if (tvisbool(o)) {
-    tmpbool = boolV(o);
-    sp = &tmpbool;
-    sid = CTID_BOOL;
-  } else if (tvisnil(o)) {
-    tmpptr = (void *)0;
-    flags |= CCF_FROMTV;
-  } else if (tvisudata(o)) {
-    GCudata *ud = udataV(o);
-    tmpptr = uddata(ud);
-    if (ud->udtype == UDTYPE_IO_FILE)
-      tmpptr = *(void **)tmpptr;
-  } else if (tvislightud(o)) {
-    tmpptr = lightudV(o);
-  } else if (tvisfunc(o)) {
-    void *p = lj_ccallback_new(cts, d, funcV(o));
-    if (p) {
-      *(void **)dp = p;
-      return;
-    }
-    goto err_conv;
-  } else {
-  err_conv:
-    cconv_err_convtv(cts, d, o, flags);
-  }
-  s = ctype_get(cts, sid);
-doconv:
-  if (ctype_isenum(d->info)) d = ctype_child(cts, d);
-  lj_cconv_ct_ct(cts, d, s, dp, sp, flags);
-}
-
-/* Convert TValue to bitfield. */
-void lj_cconv_bf_tv(CTState *cts, CType *d, uint8_t *dp, TValue *o)
-{
-  CTInfo info = d->info;
-  CTSize pos, bsz;
-  uint32_t val, mask;
-  lua_assert(ctype_isbitfield(info));
-  if ((info & CTF_BOOL)) {
-    uint8_t tmpbool;
-    lua_assert(ctype_bitbsz(info) == 1);
-    lj_cconv_ct_tv(cts, ctype_get(cts, CTID_BOOL), &tmpbool, o, 0);
-    val = tmpbool;
-  } else {
-    CTypeID did = (info & CTF_UNSIGNED) ? CTID_UINT32 : CTID_INT32;
-    lj_cconv_ct_tv(cts, ctype_get(cts, did), (uint8_t *)&val, o, 0);
-  }
-  pos = ctype_bitpos(info);
-  bsz = ctype_bitbsz(info);
-  lua_assert(pos < 8*ctype_bitcsz(info));
-  lua_assert(bsz > 0 && bsz <= 8*ctype_bitcsz(info));
-  /* Check if a packed bitfield crosses a container boundary. */
-  if (pos + bsz > 8*ctype_bitcsz(info))
-    lj_err_caller(cts->L, LJ_ERR_FFI_NYIPACKBIT);
-  mask = ((1u << bsz) - 1u) << pos;
-  val = (val << pos) & mask;
-  /* NYI: packed bitfields may cause misaligned reads/writes. */
-  switch (ctype_bitcsz(info)) {
-  case 4: *(uint32_t *)dp = (*(uint32_t *)dp & ~mask) | (uint32_t)val; break;
-  case 2: *(uint16_t *)dp = (*(uint16_t *)dp & ~mask) | (uint16_t)val; break;
-  case 1: *(uint8_t *)dp = (*(uint8_t *)dp & ~mask) | (uint8_t)val; break;
-  default: lua_assert(0); break;
-  }
-}
-
-/* -- Initialize C type with TValues -------------------------------------- */
-
-/* Initialize an array with TValues. */
-static void cconv_array_init(CTState *cts, CType *d, CTSize sz, uint8_t *dp,
-			     TValue *o, MSize len)
-{
-  CType *dc = ctype_rawchild(cts, d);  /* Array element type. */
-  CTSize ofs, esize = dc->size;
-  MSize i;
-  if (len*esize > sz)
-    cconv_err_initov(cts, d);
-  for (i = 0, ofs = 0; i < len; i++, ofs += esize)
-    lj_cconv_ct_tv(cts, dc, dp + ofs, o + i, 0);
-  if (ofs == esize) {  /* Replicate a single element. */
-    for (; ofs < sz; ofs += esize) memcpy(dp + ofs, dp, esize);
-  } else {  /* Otherwise fill the remainder with zero. */
-    memset(dp + ofs, 0, sz - ofs);
-  }
-}
-
-/* Initialize a sub-struct/union with TValues. */
-static void cconv_substruct_init(CTState *cts, CType *d, uint8_t *dp,
-				 TValue *o, MSize len, MSize *ip)
-{
-  CTypeID id = d->sib;
-  while (id) {
-    CType *df = ctype_get(cts, id);
-    id = df->sib;
-    if (ctype_isfield(df->info) || ctype_isbitfield(df->info)) {
-      MSize i = *ip;
-      if (!gcref(df->name)) continue;  /* Ignore unnamed fields. */
-      if (i >= len) break;
-      *ip = i + 1;
-      if (ctype_isfield(df->info))
-	lj_cconv_ct_tv(cts, ctype_rawchild(cts, df), dp+df->size, o + i, 0);
-      else
-	lj_cconv_bf_tv(cts, df, dp+df->size, o + i);
-      if ((d->info & CTF_UNION)) break;
-    } else if (ctype_isxattrib(df->info, CTA_SUBTYPE)) {
-      cconv_substruct_init(cts, ctype_rawchild(cts, df),
-			   dp+df->size, o, len, ip);
-      if ((d->info & CTF_UNION)) break;
-    }  /* Ignore all other entries in the chain. */
-  }
-}
-
-/* Initialize a struct/union with TValues. */
-static void cconv_struct_init(CTState *cts, CType *d, CTSize sz, uint8_t *dp,
-			      TValue *o, MSize len)
-{
-  MSize i = 0;
-  memset(dp, 0, sz);  /* Much simpler to clear the struct first. */
-  cconv_substruct_init(cts, d, dp, o, len, &i);
-  if (i < len)
-    cconv_err_initov(cts, d);
-}
-
-/* Check whether to use a multi-value initializer.
-** This is true if an aggregate is to be initialized with a value.
-** Valarrays are treated as values here so ct_tv handles (V|C, I|F).
-*/
-int lj_cconv_multi_init(CTState *cts, CType *d, TValue *o)
-{
-  if (!(ctype_isrefarray(d->info) || ctype_isstruct(d->info)))
-    return 0;  /* Destination is not an aggregate. */
-  if (tvistab(o) || (tvisstr(o) && !ctype_isstruct(d->info)))
-    return 0;  /* Initializer is not a value. */
-  if (tviscdata(o) && lj_ctype_rawref(cts, cdataV(o)->ctypeid) == d)
-    return 0;  /* Source and destination are identical aggregates. */
-  return 1;  /* Otherwise the initializer is a value. */
-}
-
-/* Initialize C type with TValues. Caveat: expects to get the raw CType! */
-void lj_cconv_ct_init(CTState *cts, CType *d, CTSize sz,
-		      uint8_t *dp, TValue *o, MSize len)
-{
-  if (len == 0)
-    memset(dp, 0, sz);
-  else if (len == 1 && !lj_cconv_multi_init(cts, d, o))
-    lj_cconv_ct_tv(cts, d, dp, o, 0);
-  else if (ctype_isarray(d->info))  /* Also handles valarray init with len>1. */
-    cconv_array_init(cts, d, sz, dp, o, len);
-  else if (ctype_isstruct(d->info))
-    cconv_struct_init(cts, d, sz, dp, o, len);
-  else
-    cconv_err_initov(cts, d);
-}
-
-#endif
diff --git a/luajit-2.0/src/lj_cconv.h b/luajit-2.0/src/lj_cconv.h
deleted file mode 100644
index 17e0f05..0000000
--- a/luajit-2.0/src/lj_cconv.h
+++ /dev/null
@@ -1,70 +0,0 @@
-/*
-** C type conversions.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#ifndef _LJ_CCONV_H
-#define _LJ_CCONV_H
-
-#include "lj_obj.h"
-#include "lj_ctype.h"
-
-#if LJ_HASFFI
-
-/* Compressed C type index. ORDER CCX. */
-enum {
-  CCX_B,	/* Bool. */
-  CCX_I,	/* Integer. */
-  CCX_F,	/* Floating-point number. */
-  CCX_C,	/* Complex. */
-  CCX_V,	/* Vector. */
-  CCX_P,	/* Pointer. */
-  CCX_A,	/* Refarray. */
-  CCX_S		/* Struct/union. */
-};
-
-/* Convert C type info to compressed C type index. ORDER CT. ORDER CCX. */
-static LJ_AINLINE uint32_t cconv_idx(CTInfo info)
-{
-  uint32_t idx = ((info >> 26) & 15u);  /* Dispatch bits. */
-  lua_assert(ctype_type(info) <= CT_MAYCONVERT);
-#if LJ_64
-  idx = ((uint32_t)(U64x(f436fff5,fff7f021) >> 4*idx) & 15u);
-#else
-  idx = (((idx < 8 ? 0xfff7f021u : 0xf436fff5) >> 4*(idx & 7u)) & 15u);
-#endif
-  lua_assert(idx < 8);
-  return idx;
-}
-
-#define cconv_idx2(dinfo, sinfo) \
-  ((cconv_idx((dinfo)) << 3) + cconv_idx((sinfo)))
-
-#define CCX(dst, src)		((CCX_##dst << 3) + CCX_##src)
-
-/* Conversion flags. */
-#define CCF_CAST	0x00000001u
-#define CCF_FROMTV	0x00000002u
-#define CCF_SAME	0x00000004u
-#define CCF_IGNQUAL	0x00000008u
-
-#define CCF_ARG_SHIFT	8
-#define CCF_ARG(n)	((n) << CCF_ARG_SHIFT)
-#define CCF_GETARG(f)	((f) >> CCF_ARG_SHIFT)
-
-LJ_FUNC int lj_cconv_compatptr(CTState *cts, CType *d, CType *s, CTInfo flags);
-LJ_FUNC void lj_cconv_ct_ct(CTState *cts, CType *d, CType *s,
-			    uint8_t *dp, uint8_t *sp, CTInfo flags);
-LJ_FUNC int lj_cconv_tv_ct(CTState *cts, CType *s, CTypeID sid,
-			   TValue *o, uint8_t *sp);
-LJ_FUNC int lj_cconv_tv_bf(CTState *cts, CType *s, TValue *o, uint8_t *sp);
-LJ_FUNC void lj_cconv_ct_tv(CTState *cts, CType *d,
-			    uint8_t *dp, TValue *o, CTInfo flags);
-LJ_FUNC void lj_cconv_bf_tv(CTState *cts, CType *d, uint8_t *dp, TValue *o);
-LJ_FUNC int lj_cconv_multi_init(CTState *cts, CType *d, TValue *o);
-LJ_FUNC void lj_cconv_ct_init(CTState *cts, CType *d, CTSize sz,
-			      uint8_t *dp, TValue *o, MSize len);
-
-#endif
-
-#endif
diff --git a/luajit-2.0/src/lj_cdata.c b/luajit-2.0/src/lj_cdata.c
deleted file mode 100644
index 590ddf1..0000000
--- a/luajit-2.0/src/lj_cdata.c
+++ /dev/null
@@ -1,285 +0,0 @@
-/*
-** C data management.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#include "lj_obj.h"
-
-#if LJ_HASFFI
-
-#include "lj_gc.h"
-#include "lj_err.h"
-#include "lj_str.h"
-#include "lj_tab.h"
-#include "lj_ctype.h"
-#include "lj_cconv.h"
-#include "lj_cdata.h"
-
-/* -- C data allocation --------------------------------------------------- */
-
-/* Allocate a new C data object holding a reference to another object. */
-GCcdata *lj_cdata_newref(CTState *cts, const void *p, CTypeID id)
-{
-  CTypeID refid = lj_ctype_intern(cts, CTINFO_REF(id), CTSIZE_PTR);
-  GCcdata *cd = lj_cdata_new(cts, refid, CTSIZE_PTR);
-  *(const void **)cdataptr(cd) = p;
-  return cd;
-}
-
-/* Allocate variable-sized or specially aligned C data object. */
-GCcdata *lj_cdata_newv(CTState *cts, CTypeID id, CTSize sz, CTSize align)
-{
-  global_State *g;
-  MSize extra = sizeof(GCcdataVar) + sizeof(GCcdata) +
-		(align > CT_MEMALIGN ? (1u<<align) - (1u<<CT_MEMALIGN) : 0);
-  char *p = lj_mem_newt(cts->L, extra + sz, char);
-  uintptr_t adata = (uintptr_t)p + sizeof(GCcdataVar) + sizeof(GCcdata);
-  uintptr_t almask = (1u << align) - 1u;
-  GCcdata *cd = (GCcdata *)(((adata + almask) & ~almask) - sizeof(GCcdata));
-  lua_assert((char *)cd - p < 65536);
-  cdatav(cd)->offset = (uint16_t)((char *)cd - p);
-  cdatav(cd)->extra = extra;
-  cdatav(cd)->len = sz;
-  g = cts->g;
-  setgcrefr(cd->nextgc, g->gc.root);
-  setgcref(g->gc.root, obj2gco(cd));
-  newwhite(g, obj2gco(cd));
-  cd->marked |= 0x80;
-  cd->gct = ~LJ_TCDATA;
-  cd->ctypeid = id;
-  return cd;
-}
-
-/* Free a C data object. */
-void LJ_FASTCALL lj_cdata_free(global_State *g, GCcdata *cd)
-{
-  if (LJ_UNLIKELY(cd->marked & LJ_GC_CDATA_FIN)) {
-    GCobj *root;
-    makewhite(g, obj2gco(cd));
-    markfinalized(obj2gco(cd));
-    if ((root = gcref(g->gc.mmudata)) != NULL) {
-      setgcrefr(cd->nextgc, root->gch.nextgc);
-      setgcref(root->gch.nextgc, obj2gco(cd));
-      setgcref(g->gc.mmudata, obj2gco(cd));
-    } else {
-      setgcref(cd->nextgc, obj2gco(cd));
-      setgcref(g->gc.mmudata, obj2gco(cd));
-    }
-  } else if (LJ_LIKELY(!cdataisv(cd))) {
-    CType *ct = ctype_raw(ctype_ctsG(g), cd->ctypeid);
-    CTSize sz = ctype_hassize(ct->info) ? ct->size : CTSIZE_PTR;
-    lua_assert(ctype_hassize(ct->info) || ctype_isfunc(ct->info) ||
-	       ctype_isextern(ct->info));
-    lj_mem_free(g, cd, sizeof(GCcdata) + sz);
-  } else {
-    lj_mem_free(g, memcdatav(cd), sizecdatav(cd));
-  }
-}
-
-TValue * LJ_FASTCALL lj_cdata_setfin(lua_State *L, GCcdata *cd)
-{
-  global_State *g = G(L);
-  GCtab *t = ctype_ctsG(g)->finalizer;
-  if (gcref(t->metatable)) {
-    /* Add cdata to finalizer table, if still enabled. */
-    TValue *tv, tmp;
-    setcdataV(L, &tmp, cd);
-    lj_gc_anybarriert(L, t);
-    tv = lj_tab_set(L, t, &tmp);
-    cd->marked |= LJ_GC_CDATA_FIN;
-    return tv;
-  } else {
-    /* Otherwise return dummy TValue. */
-    return &g->tmptv;
-  }
-}
-
-/* -- C data indexing ----------------------------------------------------- */
-
-/* Index C data by a TValue. Return CType and pointer. */
-CType *lj_cdata_index(CTState *cts, GCcdata *cd, cTValue *key, uint8_t **pp,
-		      CTInfo *qual)
-{
-  uint8_t *p = (uint8_t *)cdataptr(cd);
-  CType *ct = ctype_get(cts, cd->ctypeid);
-  ptrdiff_t idx;
-
-  /* Resolve reference for cdata object. */
-  if (ctype_isref(ct->info)) {
-    lua_assert(ct->size == CTSIZE_PTR);
-    p = *(uint8_t **)p;
-    ct = ctype_child(cts, ct);
-  }
-
-collect_attrib:
-  /* Skip attributes and collect qualifiers. */
-  while (ctype_isattrib(ct->info)) {
-    if (ctype_attrib(ct->info) == CTA_QUAL) *qual |= ct->size;
-    ct = ctype_child(cts, ct);
-  }
-  lua_assert(!ctype_isref(ct->info));  /* Interning rejects refs to refs. */
-
-  if (tvisint(key)) {
-    idx = (ptrdiff_t)intV(key);
-    goto integer_key;
-  } else if (tvisnum(key)) {  /* Numeric key. */
-    idx = LJ_64 ? (ptrdiff_t)numV(key) : (ptrdiff_t)lj_num2int(numV(key));
-  integer_key:
-    if (ctype_ispointer(ct->info)) {
-      CTSize sz = lj_ctype_size(cts, ctype_cid(ct->info));  /* Element size. */
-      if (sz != CTSIZE_INVALID) {
-	if (ctype_isptr(ct->info)) {
-	  p = (uint8_t *)cdata_getptr(p, ct->size);
-	} else if ((ct->info & (CTF_VECTOR|CTF_COMPLEX))) {
-	  if ((ct->info & CTF_COMPLEX)) idx &= 1;
-	  *qual |= CTF_CONST;  /* Valarray elements are constant. */
-	}
-	*pp = p + idx*(int32_t)sz;
-	return ct;
-      }
-    }
-  } else if (tviscdata(key)) {  /* Integer cdata key. */
-    GCcdata *cdk = cdataV(key);
-    CType *ctk = ctype_raw(cts, cdk->ctypeid);
-    if (ctype_isenum(ctk->info)) ctk = ctype_child(cts, ctk);
-    if (ctype_isinteger(ctk->info)) {
-      lj_cconv_ct_ct(cts, ctype_get(cts, CTID_INT_PSZ), ctk,
-		     (uint8_t *)&idx, cdataptr(cdk), 0);
-      goto integer_key;
-    }
-  } else if (tvisstr(key)) {  /* String key. */
-    GCstr *name = strV(key);
-    if (ctype_isstruct(ct->info)) {
-      CTSize ofs;
-      CType *fct = lj_ctype_getfieldq(cts, ct, name, &ofs, qual);
-      if (fct) {
-	*pp = p + ofs;
-	return fct;
-      }
-    } else if (ctype_iscomplex(ct->info)) {
-      if (name->len == 2) {
-	*qual |= CTF_CONST;  /* Complex fields are constant. */
-	if (strdata(name)[0] == 'r' && strdata(name)[1] == 'e') {
-	  *pp = p;
-	  return ct;
-	} else if (strdata(name)[0] == 'i' && strdata(name)[1] == 'm') {
-	  *pp = p + (ct->size >> 1);
-	  return ct;
-	}
-      }
-    } else if (cd->ctypeid == CTID_CTYPEID) {
-      /* Allow indexing a (pointer to) struct constructor to get constants. */
-      CType *sct = ctype_raw(cts, *(CTypeID *)p);
-      if (ctype_isptr(sct->info))
-	sct = ctype_rawchild(cts, sct);
-      if (ctype_isstruct(sct->info)) {
-	CTSize ofs;
-	CType *fct = lj_ctype_getfield(cts, sct, name, &ofs);
-	if (fct && ctype_isconstval(fct->info))
-	  return fct;
-      }
-      ct = sct;  /* Allow resolving metamethods for constructors, too. */
-    }
-  }
-  if (ctype_isptr(ct->info)) {  /* Automatically perform '->'. */
-    if (ctype_isstruct(ctype_rawchild(cts, ct)->info)) {
-      p = (uint8_t *)cdata_getptr(p, ct->size);
-      ct = ctype_child(cts, ct);
-      goto collect_attrib;
-    }
-  }
-  *qual |= 1;  /* Lookup failed. */
-  return ct;  /* But return the resolved raw type. */
-}
-
-/* -- C data getters ------------------------------------------------------ */
-
-/* Get constant value and convert to TValue. */
-static void cdata_getconst(CTState *cts, TValue *o, CType *ct)
-{
-  CType *ctt = ctype_child(cts, ct);
-  lua_assert(ctype_isinteger(ctt->info) && ctt->size <= 4);
-  /* Constants are already zero-extended/sign-extended to 32 bits. */
-  if ((ctt->info & CTF_UNSIGNED) && (int32_t)ct->size < 0)
-    setnumV(o, (lua_Number)(uint32_t)ct->size);
-  else
-    setintV(o, (int32_t)ct->size);
-}
-
-/* Get C data value and convert to TValue. */
-int lj_cdata_get(CTState *cts, CType *s, TValue *o, uint8_t *sp)
-{
-  CTypeID sid;
-
-  if (ctype_isconstval(s->info)) {
-    cdata_getconst(cts, o, s);
-    return 0;  /* No GC step needed. */
-  } else if (ctype_isbitfield(s->info)) {
-    return lj_cconv_tv_bf(cts, s, o, sp);
-  }
-
-  /* Get child type of pointer/array/field. */
-  lua_assert(ctype_ispointer(s->info) || ctype_isfield(s->info));
-  sid = ctype_cid(s->info);
-  s = ctype_get(cts, sid);
-
-  /* Resolve reference for field. */
-  if (ctype_isref(s->info)) {
-    lua_assert(s->size == CTSIZE_PTR);
-    sp = *(uint8_t **)sp;
-    sid = ctype_cid(s->info);
-    s = ctype_get(cts, sid);
-  }
-
-  /* Skip attributes. */
-  while (ctype_isattrib(s->info))
-    s = ctype_child(cts, s);
-
-  return lj_cconv_tv_ct(cts, s, sid, o, sp);
-}
-
-/* -- C data setters ------------------------------------------------------ */
-
-/* Convert TValue and set C data value. */
-void lj_cdata_set(CTState *cts, CType *d, uint8_t *dp, TValue *o, CTInfo qual)
-{
-  if (ctype_isconstval(d->info)) {
-    goto err_const;
-  } else if (ctype_isbitfield(d->info)) {
-    if (((d->info|qual) & CTF_CONST)) goto err_const;
-    lj_cconv_bf_tv(cts, d, dp, o);
-    return;
-  }
-
-  /* Get child type of pointer/array/field. */
-  lua_assert(ctype_ispointer(d->info) || ctype_isfield(d->info));
-  d = ctype_child(cts, d);
-
-  /* Resolve reference for field. */
-  if (ctype_isref(d->info)) {
-    lua_assert(d->size == CTSIZE_PTR);
-    dp = *(uint8_t **)dp;
-    d = ctype_child(cts, d);
-  }
-
-  /* Skip attributes and collect qualifiers. */
-  for (;;) {
-    if (ctype_isattrib(d->info)) {
-      if (ctype_attrib(d->info) == CTA_QUAL) qual |= d->size;
-    } else {
-      break;
-    }
-    d = ctype_child(cts, d);
-  }
-
-  lua_assert(ctype_hassize(d->info) && !ctype_isvoid(d->info));
-
-  if (((d->info|qual) & CTF_CONST)) {
-  err_const:
-    lj_err_caller(cts->L, LJ_ERR_FFI_WRCONST);
-  }
-
-  lj_cconv_ct_tv(cts, d, dp, o, 0);
-}
-
-#endif
diff --git a/luajit-2.0/src/lj_cdata.h b/luajit-2.0/src/lj_cdata.h
deleted file mode 100644
index 6c8e7a1..0000000
--- a/luajit-2.0/src/lj_cdata.h
+++ /dev/null
@@ -1,75 +0,0 @@
-/*
-** C data management.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#ifndef _LJ_CDATA_H
-#define _LJ_CDATA_H
-
-#include "lj_obj.h"
-#include "lj_gc.h"
-#include "lj_ctype.h"
-
-#if LJ_HASFFI
-
-/* Get C data pointer. */
-static LJ_AINLINE void *cdata_getptr(void *p, CTSize sz)
-{
-  if (LJ_64 && sz == 4) {  /* Support 32 bit pointers on 64 bit targets. */
-    return ((void *)(uintptr_t)*(uint32_t *)p);
-  } else {
-    lua_assert(sz == CTSIZE_PTR);
-    return *(void **)p;
-  }
-}
-
-/* Set C data pointer. */
-static LJ_AINLINE void cdata_setptr(void *p, CTSize sz, const void *v)
-{
-  if (LJ_64 && sz == 4) {  /* Support 32 bit pointers on 64 bit targets. */
-    *(uint32_t *)p = (uint32_t)(uintptr_t)v;
-  } else {
-    lua_assert(sz == CTSIZE_PTR);
-    *(void **)p = (void *)v;
-  }
-}
-
-/* Allocate fixed-size C data object. */
-static LJ_AINLINE GCcdata *lj_cdata_new(CTState *cts, CTypeID id, CTSize sz)
-{
-  GCcdata *cd;
-#ifdef LUA_USE_ASSERT
-  CType *ct = ctype_raw(cts, id);
-  lua_assert((ctype_hassize(ct->info) ? ct->size : CTSIZE_PTR) == sz);
-#endif
-  cd = (GCcdata *)lj_mem_newgco(cts->L, sizeof(GCcdata) + sz);
-  cd->gct = ~LJ_TCDATA;
-  cd->ctypeid = ctype_check(cts, id);
-  return cd;
-}
-
-/* Variant which works without a valid CTState. */
-static LJ_AINLINE GCcdata *lj_cdata_new_(lua_State *L, CTypeID id, CTSize sz)
-{
-  GCcdata *cd = (GCcdata *)lj_mem_newgco(L, sizeof(GCcdata) + sz);
-  cd->gct = ~LJ_TCDATA;
-  cd->ctypeid = id;
-  return cd;
-}
-
-LJ_FUNC GCcdata *lj_cdata_newref(CTState *cts, const void *pp, CTypeID id);
-LJ_FUNC GCcdata *lj_cdata_newv(CTState *cts, CTypeID id, CTSize sz,
-			       CTSize align);
-
-LJ_FUNC void LJ_FASTCALL lj_cdata_free(global_State *g, GCcdata *cd);
-LJ_FUNCA TValue * LJ_FASTCALL lj_cdata_setfin(lua_State *L, GCcdata *cd);
-
-LJ_FUNC CType *lj_cdata_index(CTState *cts, GCcdata *cd, cTValue *key,
-			      uint8_t **pp, CTInfo *qual);
-LJ_FUNC int lj_cdata_get(CTState *cts, CType *s, TValue *o, uint8_t *sp);
-LJ_FUNC void lj_cdata_set(CTState *cts, CType *d, uint8_t *dp, TValue *o,
-			  CTInfo qual);
-
-#endif
-
-#endif
diff --git a/luajit-2.0/src/lj_char.c b/luajit-2.0/src/lj_char.c
deleted file mode 100644
index 11f23ef..0000000
--- a/luajit-2.0/src/lj_char.c
+++ /dev/null
@@ -1,43 +0,0 @@
-/*
-** Character types.
-** Donated to the public domain.
-**
-** This is intended to replace the problematic libc single-byte NLS functions.
-** These just don't make sense anymore with UTF-8 locales becoming the norm
-** on POSIX systems. It never worked too well on Windows systems since hardly
-** anyone bothered to call setlocale().
-**
-** This table is hardcoded for ASCII. Identifiers include the characters
-** 128-255, too. This allows for the use of all non-ASCII chars as identifiers
-** in the lexer. This is a broad definition, but works well in practice
-** for both UTF-8 locales and most single-byte locales (such as ISO-8859-*).
-**
-** If you really need proper character types for UTF-8 strings, please use
-** an add-on library such as slnunicode: http://luaforge.net/projects/sln/
-*/
-
-#define lj_char_c
-#define LUA_CORE
-
-#include "lj_char.h"
-
-LJ_DATADEF const uint8_t lj_char_bits[257] = {
-    0,
-    1,  1,  1,  1,  1,  1,  1,  1,  1,  3,  3,  3,  3,  3,  1,  1,
-    1,  1,  1,  1,  1,  1,  1,  1,  1,  1,  1,  1,  1,  1,  1,  1,
-    2,  4,  4,  4,  4,  4,  4,  4,  4,  4,  4,  4,  4,  4,  4,  4,
-  152,152,152,152,152,152,152,152,152,152,  4,  4,  4,  4,  4,  4,
-    4,176,176,176,176,176,176,160,160,160,160,160,160,160,160,160,
-  160,160,160,160,160,160,160,160,160,160,160,  4,  4,  4,  4,132,
-    4,208,208,208,208,208,208,192,192,192,192,192,192,192,192,192,
-  192,192,192,192,192,192,192,192,192,192,192,  4,  4,  4,  4,  1,
-  128,128,128,128,128,128,128,128,128,128,128,128,128,128,128,128,
-  128,128,128,128,128,128,128,128,128,128,128,128,128,128,128,128,
-  128,128,128,128,128,128,128,128,128,128,128,128,128,128,128,128,
-  128,128,128,128,128,128,128,128,128,128,128,128,128,128,128,128,
-  128,128,128,128,128,128,128,128,128,128,128,128,128,128,128,128,
-  128,128,128,128,128,128,128,128,128,128,128,128,128,128,128,128,
-  128,128,128,128,128,128,128,128,128,128,128,128,128,128,128,128,
-  128,128,128,128,128,128,128,128,128,128,128,128,128,128,128,128
-};
-
diff --git a/luajit-2.0/src/lj_char.h b/luajit-2.0/src/lj_char.h
deleted file mode 100644
index c3c86d3..0000000
--- a/luajit-2.0/src/lj_char.h
+++ /dev/null
@@ -1,42 +0,0 @@
-/*
-** Character types.
-** Donated to the public domain.
-*/
-
-#ifndef _LJ_CHAR_H
-#define _LJ_CHAR_H
-
-#include "lj_def.h"
-
-#define LJ_CHAR_CNTRL	0x01
-#define LJ_CHAR_SPACE	0x02
-#define LJ_CHAR_PUNCT	0x04
-#define LJ_CHAR_DIGIT	0x08
-#define LJ_CHAR_XDIGIT	0x10
-#define LJ_CHAR_UPPER	0x20
-#define LJ_CHAR_LOWER	0x40
-#define LJ_CHAR_IDENT	0x80
-#define LJ_CHAR_ALPHA	(LJ_CHAR_LOWER|LJ_CHAR_UPPER)
-#define LJ_CHAR_ALNUM	(LJ_CHAR_ALPHA|LJ_CHAR_DIGIT)
-#define LJ_CHAR_GRAPH	(LJ_CHAR_ALNUM|LJ_CHAR_PUNCT)
-
-/* Only pass -1 or 0..255 to these macros. Never pass a signed char! */
-#define lj_char_isa(c, t)	((lj_char_bits+1)[(c)] & t)
-#define lj_char_iscntrl(c)	lj_char_isa((c), LJ_CHAR_CNTRL)
-#define lj_char_isspace(c)	lj_char_isa((c), LJ_CHAR_SPACE)
-#define lj_char_ispunct(c)	lj_char_isa((c), LJ_CHAR_PUNCT)
-#define lj_char_isdigit(c)	lj_char_isa((c), LJ_CHAR_DIGIT)
-#define lj_char_isxdigit(c)	lj_char_isa((c), LJ_CHAR_XDIGIT)
-#define lj_char_isupper(c)	lj_char_isa((c), LJ_CHAR_UPPER)
-#define lj_char_islower(c)	lj_char_isa((c), LJ_CHAR_LOWER)
-#define lj_char_isident(c)	lj_char_isa((c), LJ_CHAR_IDENT)
-#define lj_char_isalpha(c)	lj_char_isa((c), LJ_CHAR_ALPHA)
-#define lj_char_isalnum(c)	lj_char_isa((c), LJ_CHAR_ALNUM)
-#define lj_char_isgraph(c)	lj_char_isa((c), LJ_CHAR_GRAPH)
-
-#define lj_char_toupper(c)	((c) - (lj_char_islower(c) >> 1))
-#define lj_char_tolower(c)	((c) + lj_char_isupper(c))
-
-LJ_DATA const uint8_t lj_char_bits[257];
-
-#endif
diff --git a/luajit-2.0/src/lj_clib.c b/luajit-2.0/src/lj_clib.c
deleted file mode 100644
index ccb99e5..0000000
--- a/luajit-2.0/src/lj_clib.c
+++ /dev/null
@@ -1,409 +0,0 @@
-/*
-** FFI C library loader.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#include "lj_obj.h"
-
-#if LJ_HASFFI
-
-#include "lj_gc.h"
-#include "lj_err.h"
-#include "lj_tab.h"
-#include "lj_str.h"
-#include "lj_udata.h"
-#include "lj_ctype.h"
-#include "lj_cconv.h"
-#include "lj_cdata.h"
-#include "lj_clib.h"
-
-/* -- OS-specific functions ----------------------------------------------- */
-
-#if LJ_TARGET_DLOPEN
-
-#include <dlfcn.h>
-#include <stdio.h>
-
-#if defined(RTLD_DEFAULT)
-#define CLIB_DEFHANDLE	RTLD_DEFAULT
-#elif LJ_TARGET_OSX || LJ_TARGET_BSD
-#define CLIB_DEFHANDLE	((void *)(intptr_t)-2)
-#else
-#define CLIB_DEFHANDLE	NULL
-#endif
-
-LJ_NORET LJ_NOINLINE static void clib_error_(lua_State *L)
-{
-  lj_err_callermsg(L, dlerror());
-}
-
-#define clib_error(L, fmt, name)	clib_error_(L)
-
-#if defined(__CYGWIN__)
-#define CLIB_SOPREFIX	"cyg"
-#else
-#define CLIB_SOPREFIX	"lib"
-#endif
-
-#if LJ_TARGET_OSX
-#define CLIB_SOEXT	"%s.dylib"
-#elif defined(__CYGWIN__)
-#define CLIB_SOEXT	"%s.dll"
-#else
-#define CLIB_SOEXT	"%s.so"
-#endif
-
-static const char *clib_extname(lua_State *L, const char *name)
-{
-  if (!strchr(name, '/')
-#ifdef __CYGWIN__
-      && !strchr(name, '\\')
-#endif
-     ) {
-    if (!strchr(name, '.')) {
-      name = lj_str_pushf(L, CLIB_SOEXT, name);
-      L->top--;
-#ifdef __CYGWIN__
-    } else {
-      return name;
-#endif
-    }
-    if (!(name[0] == CLIB_SOPREFIX[0] && name[1] == CLIB_SOPREFIX[1] &&
-	  name[2] == CLIB_SOPREFIX[2])) {
-      name = lj_str_pushf(L, CLIB_SOPREFIX "%s", name);
-      L->top--;
-    }
-  }
-  return name;
-}
-
-/* Check for a recognized ld script line. */
-static const char *clib_check_lds(lua_State *L, const char *buf)
-{
-  char *p, *e;
-  if ((!strncmp(buf, "GROUP", 5) || !strncmp(buf, "INPUT", 5)) &&
-      (p = strchr(buf, '('))) {
-    while (*++p == ' ') ;
-    for (e = p; *e && *e != ' ' && *e != ')'; e++) ;
-    return strdata(lj_str_new(L, p, e-p));
-  }
-  return NULL;
-}
-
-/* Quick and dirty solution to resolve shared library name from ld script. */
-static const char *clib_resolve_lds(lua_State *L, const char *name)
-{
-  FILE *fp = fopen(name, "r");
-  const char *p = NULL;
-  if (fp) {
-    char buf[256];
-    if (fgets(buf, sizeof(buf), fp)) {
-      if (!strncmp(buf, "/* GNU ld script", 16)) {  /* ld script magic? */
-	while (fgets(buf, sizeof(buf), fp)) {  /* Check all lines. */
-	  p = clib_check_lds(L, buf);
-	  if (p) break;
-	}
-      } else {  /* Otherwise check only the first line. */
-	p = clib_check_lds(L, buf);
-      }
-    }
-    fclose(fp);
-  }
-  return p;
-}
-
-static void *clib_loadlib(lua_State *L, const char *name, int global)
-{
-  void *h = dlopen(clib_extname(L, name),
-		   RTLD_LAZY | (global?RTLD_GLOBAL:RTLD_LOCAL));
-  if (!h) {
-    const char *e, *err = dlerror();
-    if (*err == '/' && (e = strchr(err, ':')) &&
-	(name = clib_resolve_lds(L, strdata(lj_str_new(L, err, e-err))))) {
-      h = dlopen(name, RTLD_LAZY | (global?RTLD_GLOBAL:RTLD_LOCAL));
-      if (h) return h;
-      err = dlerror();
-    }
-    lj_err_callermsg(L, err);
-  }
-  return h;
-}
-
-static void clib_unloadlib(CLibrary *cl)
-{
-  if (cl->handle && cl->handle != CLIB_DEFHANDLE)
-    dlclose(cl->handle);
-}
-
-static void *clib_getsym(CLibrary *cl, const char *name)
-{
-  void *p = dlsym(cl->handle, name);
-  return p;
-}
-
-#elif LJ_TARGET_WINDOWS
-
-#define WIN32_LEAN_AND_MEAN
-#include <windows.h>
-
-#ifndef GET_MODULE_HANDLE_EX_FLAG_FROM_ADDRESS
-#define GET_MODULE_HANDLE_EX_FLAG_FROM_ADDRESS	4
-#define GET_MODULE_HANDLE_EX_FLAG_UNCHANGED_REFCOUNT	2
-BOOL WINAPI GetModuleHandleExA(DWORD, LPCSTR, HMODULE*);
-#endif
-
-#define CLIB_DEFHANDLE	((void *)-1)
-
-/* Default libraries. */
-enum {
-  CLIB_HANDLE_EXE,
-  CLIB_HANDLE_DLL,
-  CLIB_HANDLE_CRT,
-  CLIB_HANDLE_KERNEL32,
-  CLIB_HANDLE_USER32,
-  CLIB_HANDLE_GDI32,
-  CLIB_HANDLE_MAX
-};
-
-static void *clib_def_handle[CLIB_HANDLE_MAX];
-
-LJ_NORET LJ_NOINLINE static void clib_error(lua_State *L, const char *fmt,
-					    const char *name)
-{
-  DWORD err = GetLastError();
-  char buf[128];
-  if (!FormatMessageA(FORMAT_MESSAGE_IGNORE_INSERTS|FORMAT_MESSAGE_FROM_SYSTEM,
-		      NULL, err, 0, buf, sizeof(buf), NULL))
-    buf[0] = '\0';
-  lj_err_callermsg(L, lj_str_pushf(L, fmt, name, buf));
-}
-
-static int clib_needext(const char *s)
-{
-  while (*s) {
-    if (*s == '/' || *s == '\\' || *s == '.') return 0;
-    s++;
-  }
-  return 1;
-}
-
-static const char *clib_extname(lua_State *L, const char *name)
-{
-  if (clib_needext(name)) {
-    name = lj_str_pushf(L, "%s.dll", name);
-    L->top--;
-  }
-  return name;
-}
-
-static void *clib_loadlib(lua_State *L, const char *name, int global)
-{
-  DWORD oldwerr = GetLastError();
-  void *h = (void *)LoadLibraryA(clib_extname(L, name));
-  if (!h) clib_error(L, "cannot load module " LUA_QS ": %s", name);
-  SetLastError(oldwerr);
-  UNUSED(global);
-  return h;
-}
-
-static void clib_unloadlib(CLibrary *cl)
-{
-  if (cl->handle == CLIB_DEFHANDLE) {
-    MSize i;
-    for (i = CLIB_HANDLE_KERNEL32; i < CLIB_HANDLE_MAX; i++) {
-      void *h = clib_def_handle[i];
-      if (h) {
-	clib_def_handle[i] = NULL;
-	FreeLibrary((HINSTANCE)h);
-      }
-    }
-  } else if (cl->handle) {
-    FreeLibrary((HINSTANCE)cl->handle);
-  }
-}
-
-static void *clib_getsym(CLibrary *cl, const char *name)
-{
-  void *p = NULL;
-  if (cl->handle == CLIB_DEFHANDLE) {  /* Search default libraries. */
-    MSize i;
-    for (i = 0; i < CLIB_HANDLE_MAX; i++) {
-      HINSTANCE h = (HINSTANCE)clib_def_handle[i];
-      if (!(void *)h) {  /* Resolve default library handles (once). */
-	switch (i) {
-	case CLIB_HANDLE_EXE: GetModuleHandleExA(GET_MODULE_HANDLE_EX_FLAG_UNCHANGED_REFCOUNT, NULL, &h); break;
-	case CLIB_HANDLE_DLL:
-	  GetModuleHandleExA(GET_MODULE_HANDLE_EX_FLAG_FROM_ADDRESS|GET_MODULE_HANDLE_EX_FLAG_UNCHANGED_REFCOUNT,
-			     (const char *)clib_def_handle, &h);
-	  break;
-	case CLIB_HANDLE_CRT:
-	  GetModuleHandleExA(GET_MODULE_HANDLE_EX_FLAG_FROM_ADDRESS|GET_MODULE_HANDLE_EX_FLAG_UNCHANGED_REFCOUNT,
-			     (const char *)&_fmode, &h);
-	  break;
-	case CLIB_HANDLE_KERNEL32: h = LoadLibraryA("kernel32.dll"); break;
-	case CLIB_HANDLE_USER32: h = LoadLibraryA("user32.dll"); break;
-	case CLIB_HANDLE_GDI32: h = LoadLibraryA("gdi32.dll"); break;
-	}
-	if (!h) continue;
-	clib_def_handle[i] = (void *)h;
-      }
-      p = (void *)GetProcAddress(h, name);
-      if (p) break;
-    }
-  } else {
-    p = (void *)GetProcAddress((HINSTANCE)cl->handle, name);
-  }
-  return p;
-}
-
-#else
-
-#define CLIB_DEFHANDLE	NULL
-
-LJ_NORET LJ_NOINLINE static void clib_error(lua_State *L, const char *fmt,
-					    const char *name)
-{
-  lj_err_callermsg(L, lj_str_pushf(L, fmt, name, "no support for this OS"));
-}
-
-static void *clib_loadlib(lua_State *L, const char *name, int global)
-{
-  lj_err_callermsg(L, "no support for loading dynamic libraries for this OS");
-  UNUSED(name); UNUSED(global);
-  return NULL;
-}
-
-static void clib_unloadlib(CLibrary *cl)
-{
-  UNUSED(cl);
-}
-
-static void *clib_getsym(CLibrary *cl, const char *name)
-{
-  UNUSED(cl); UNUSED(name);
-  return NULL;
-}
-
-#endif
-
-/* -- C library indexing -------------------------------------------------- */
-
-#if LJ_TARGET_X86 && LJ_ABI_WIN
-/* Compute argument size for fastcall/stdcall functions. */
-static CTSize clib_func_argsize(CTState *cts, CType *ct)
-{
-  CTSize n = 0;
-  while (ct->sib) {
-    CType *d;
-    ct = ctype_get(cts, ct->sib);
-    if (ctype_isfield(ct->info)) {
-      d = ctype_rawchild(cts, ct);
-      n += ((d->size + 3) & ~3);
-    }
-  }
-  return n;
-}
-#endif
-
-/* Get redirected or mangled external symbol. */
-static const char *clib_extsym(CTState *cts, CType *ct, GCstr *name)
-{
-  if (ct->sib) {
-    CType *ctf = ctype_get(cts, ct->sib);
-    if (ctype_isxattrib(ctf->info, CTA_REDIR))
-      return strdata(gco2str(gcref(ctf->name)));
-  }
-  return strdata(name);
-}
-
-/* Index a C library by name. */
-TValue *lj_clib_index(lua_State *L, CLibrary *cl, GCstr *name)
-{
-  TValue *tv = lj_tab_setstr(L, cl->cache, name);
-  if (LJ_UNLIKELY(tvisnil(tv))) {
-    CTState *cts = ctype_cts(L);
-    CType *ct;
-    CTypeID id = lj_ctype_getname(cts, &ct, name, CLNS_INDEX);
-    if (!id)
-      lj_err_callerv(L, LJ_ERR_FFI_NODECL, strdata(name));
-    if (ctype_isconstval(ct->info)) {
-      CType *ctt = ctype_child(cts, ct);
-      lua_assert(ctype_isinteger(ctt->info) && ctt->size <= 4);
-      if ((ctt->info & CTF_UNSIGNED) && (int32_t)ct->size < 0)
-	setnumV(tv, (lua_Number)(uint32_t)ct->size);
-      else
-	setintV(tv, (int32_t)ct->size);
-    } else {
-      const char *sym = clib_extsym(cts, ct, name);
-#if LJ_TARGET_WINDOWS
-      DWORD oldwerr = GetLastError();
-#endif
-      void *p = clib_getsym(cl, sym);
-      GCcdata *cd;
-      lua_assert(ctype_isfunc(ct->info) || ctype_isextern(ct->info));
-#if LJ_TARGET_X86 && LJ_ABI_WIN
-      /* Retry with decorated name for fastcall/stdcall functions. */
-      if (!p && ctype_isfunc(ct->info)) {
-	CTInfo cconv = ctype_cconv(ct->info);
-	if (cconv == CTCC_FASTCALL || cconv == CTCC_STDCALL) {
-	  CTSize sz = clib_func_argsize(cts, ct);
-	  const char *symd = lj_str_pushf(L,
-			       cconv == CTCC_FASTCALL ? "@%s@%d" : "_%s@%d",
-			       sym, sz);
-	  L->top--;
-	  p = clib_getsym(cl, symd);
-	}
-      }
-#endif
-      if (!p)
-	clib_error(L, "cannot resolve symbol " LUA_QS ": %s", sym);
-#if LJ_TARGET_WINDOWS
-      SetLastError(oldwerr);
-#endif
-      cd = lj_cdata_new(cts, id, CTSIZE_PTR);
-      *(void **)cdataptr(cd) = p;
-      setcdataV(L, tv, cd);
-    }
-  }
-  return tv;
-}
-
-/* -- C library management ------------------------------------------------ */
-
-/* Create a new CLibrary object and push it on the stack. */
-static CLibrary *clib_new(lua_State *L, GCtab *mt)
-{
-  GCtab *t = lj_tab_new(L, 0, 0);
-  GCudata *ud = lj_udata_new(L, sizeof(CLibrary), t);
-  CLibrary *cl = (CLibrary *)uddata(ud);
-  cl->cache = t;
-  ud->udtype = UDTYPE_FFI_CLIB;
-  /* NOBARRIER: The GCudata is new (marked white). */
-  setgcref(ud->metatable, obj2gco(mt));
-  setudataV(L, L->top++, ud);
-  return cl;
-}
-
-/* Load a C library. */
-void lj_clib_load(lua_State *L, GCtab *mt, GCstr *name, int global)
-{
-  void *handle = clib_loadlib(L, strdata(name), global);
-  CLibrary *cl = clib_new(L, mt);
-  cl->handle = handle;
-}
-
-/* Unload a C library. */
-void lj_clib_unload(CLibrary *cl)
-{
-  clib_unloadlib(cl);
-  cl->handle = NULL;
-}
-
-/* Create the default C library object. */
-void lj_clib_default(lua_State *L, GCtab *mt)
-{
-  CLibrary *cl = clib_new(L, mt);
-  cl->handle = CLIB_DEFHANDLE;
-}
-
-#endif
diff --git a/luajit-2.0/src/lj_clib.h b/luajit-2.0/src/lj_clib.h
deleted file mode 100644
index 4737328..0000000
--- a/luajit-2.0/src/lj_clib.h
+++ /dev/null
@@ -1,29 +0,0 @@
-/*
-** FFI C library loader.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#ifndef _LJ_CLIB_H
-#define _LJ_CLIB_H
-
-#include "lj_obj.h"
-
-#if LJ_HASFFI
-
-/* Namespace for C library indexing. */
-#define CLNS_INDEX	((1u<<CT_FUNC)|(1u<<CT_EXTERN)|(1u<<CT_CONSTVAL))
-
-/* C library namespace. */
-typedef struct CLibrary {
-  void *handle;		/* Opaque handle for dynamic library loader. */
-  GCtab *cache;		/* Cache for resolved symbols. Anchored in ud->env. */
-} CLibrary;
-
-LJ_FUNC TValue *lj_clib_index(lua_State *L, CLibrary *cl, GCstr *name);
-LJ_FUNC void lj_clib_load(lua_State *L, GCtab *mt, GCstr *name, int global);
-LJ_FUNC void lj_clib_unload(CLibrary *cl);
-LJ_FUNC void lj_clib_default(lua_State *L, GCtab *mt);
-
-#endif
-
-#endif
diff --git a/luajit-2.0/src/lj_cparse.c b/luajit-2.0/src/lj_cparse.c
deleted file mode 100644
index 6ffe16a..0000000
--- a/luajit-2.0/src/lj_cparse.c
+++ /dev/null
@@ -1,1872 +0,0 @@
-/*
-** C declaration parser.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#include "lj_obj.h"
-
-#if LJ_HASFFI
-
-#include "lj_gc.h"
-#include "lj_err.h"
-#include "lj_str.h"
-#include "lj_ctype.h"
-#include "lj_cparse.h"
-#include "lj_frame.h"
-#include "lj_vm.h"
-#include "lj_char.h"
-#include "lj_strscan.h"
-
-/*
-** Important note: this is NOT a validating C parser! This is a minimal
-** C declaration parser, solely for use by the LuaJIT FFI.
-**
-** It ought to return correct results for properly formed C declarations,
-** but it may accept some invalid declarations, too (and return nonsense).
-** Also, it shows rather generic error messages to avoid unnecessary bloat.
-** If in doubt, please check the input against your favorite C compiler.
-*/
-
-/* -- C lexer ------------------------------------------------------------- */
-
-/* C lexer token names. */
-static const char *const ctoknames[] = {
-#define CTOKSTR(name, str)	str,
-CTOKDEF(CTOKSTR)
-#undef CTOKSTR
-  NULL
-};
-
-/* Forward declaration. */
-LJ_NORET static void cp_err(CPState *cp, ErrMsg em);
-
-static const char *cp_tok2str(CPState *cp, CPToken tok)
-{
-  lua_assert(tok < CTOK_FIRSTDECL);
-  if (tok > CTOK_OFS)
-    return ctoknames[tok-CTOK_OFS-1];
-  else if (!lj_char_iscntrl(tok))
-    return lj_str_pushf(cp->L, "%c", tok);
-  else
-    return lj_str_pushf(cp->L, "char(%d)", tok);
-}
-
-/* End-of-line? */
-static LJ_AINLINE int cp_iseol(CPChar c)
-{
-  return (c == '\n' || c == '\r');
-}
-
-/* Peek next raw character. */
-static LJ_AINLINE CPChar cp_rawpeek(CPState *cp)
-{
-  return (CPChar)(uint8_t)(*cp->p);
-}
-
-static LJ_NOINLINE CPChar cp_get_bs(CPState *cp);
-
-/* Get next character. */
-static LJ_AINLINE CPChar cp_get(CPState *cp)
-{
-  cp->c = (CPChar)(uint8_t)(*cp->p++);
-  if (LJ_LIKELY(cp->c != '\\')) return cp->c;
-  return cp_get_bs(cp);
-}
-
-/* Transparently skip backslash-escaped line breaks. */
-static LJ_NOINLINE CPChar cp_get_bs(CPState *cp)
-{
-  CPChar c2, c = cp_rawpeek(cp);
-  if (!cp_iseol(c)) return cp->c;
-  cp->p++;
-  c2 = cp_rawpeek(cp);
-  if (cp_iseol(c2) && c2 != c) cp->p++;
-  cp->linenumber++;
-  return cp_get(cp);
-}
-
-/* Grow save buffer. */
-static LJ_NOINLINE void cp_save_grow(CPState *cp, CPChar c)
-{
-  MSize newsize;
-  if (cp->sb.sz >= CPARSE_MAX_BUF/2)
-    cp_err(cp, LJ_ERR_XELEM);
-  newsize = cp->sb.sz * 2;
-  lj_str_resizebuf(cp->L, &cp->sb, newsize);
-  cp->sb.buf[cp->sb.n++] = (char)c;
-}
-
-/* Save character in buffer. */
-static LJ_AINLINE void cp_save(CPState *cp, CPChar c)
-{
-  if (LJ_UNLIKELY(cp->sb.n + 1 > cp->sb.sz))
-    cp_save_grow(cp, c);
-  else
-    cp->sb.buf[cp->sb.n++] = (char)c;
-}
-
-/* Skip line break. Handles "\n", "\r", "\r\n" or "\n\r". */
-static void cp_newline(CPState *cp)
-{
-  CPChar c = cp_rawpeek(cp);
-  if (cp_iseol(c) && c != cp->c) cp->p++;
-  cp->linenumber++;
-}
-
-LJ_NORET static void cp_errmsg(CPState *cp, CPToken tok, ErrMsg em, ...)
-{
-  const char *msg, *tokstr;
-  lua_State *L;
-  va_list argp;
-  if (tok == 0) {
-    tokstr = NULL;
-  } else if (tok == CTOK_IDENT || tok == CTOK_INTEGER || tok == CTOK_STRING ||
-	     tok >= CTOK_FIRSTDECL) {
-    if (cp->sb.n == 0) cp_save(cp, '$');
-    cp_save(cp, '\0');
-    tokstr = cp->sb.buf;
-  } else {
-    tokstr = cp_tok2str(cp, tok);
-  }
-  L = cp->L;
-  va_start(argp, em);
-  msg = lj_str_pushvf(L, err2msg(em), argp);
-  va_end(argp);
-  if (tokstr)
-    msg = lj_str_pushf(L, err2msg(LJ_ERR_XNEAR), msg, tokstr);
-  if (cp->linenumber > 1)
-    msg = lj_str_pushf(L, "%s at line %d", msg, cp->linenumber);
-  lj_err_callermsg(L, msg);
-}
-
-LJ_NORET LJ_NOINLINE static void cp_err_token(CPState *cp, CPToken tok)
-{
-  cp_errmsg(cp, cp->tok, LJ_ERR_XTOKEN, cp_tok2str(cp, tok));
-}
-
-LJ_NORET LJ_NOINLINE static void cp_err_badidx(CPState *cp, CType *ct)
-{
-  GCstr *s = lj_ctype_repr(cp->cts->L, ctype_typeid(cp->cts, ct), NULL);
-  cp_errmsg(cp, 0, LJ_ERR_FFI_BADIDX, strdata(s));
-}
-
-LJ_NORET LJ_NOINLINE static void cp_err(CPState *cp, ErrMsg em)
-{
-  cp_errmsg(cp, 0, em);
-}
-
-/* -- Main lexical scanner ------------------------------------------------ */
-
-/* Parse number literal. Only handles int32_t/uint32_t right now. */
-static CPToken cp_number(CPState *cp)
-{
-  StrScanFmt fmt;
-  TValue o;
-  do { cp_save(cp, cp->c); } while (lj_char_isident(cp_get(cp)));
-  cp_save(cp, '\0');
-  fmt = lj_strscan_scan((const uint8_t *)cp->sb.buf, &o, STRSCAN_OPT_C);
-  if (fmt == STRSCAN_INT) cp->val.id = CTID_INT32;
-  else if (fmt == STRSCAN_U32) cp->val.id = CTID_UINT32;
-  else if (!(cp->mode & CPARSE_MODE_SKIP))
-    cp_errmsg(cp, CTOK_INTEGER, LJ_ERR_XNUMBER);
-  cp->val.u32 = (uint32_t)o.i;
-  return CTOK_INTEGER;
-}
-
-/* Parse identifier or keyword. */
-static CPToken cp_ident(CPState *cp)
-{
-  do { cp_save(cp, cp->c); } while (lj_char_isident(cp_get(cp)));
-  cp->str = lj_str_new(cp->L, cp->sb.buf, cp->sb.n);
-  cp->val.id = lj_ctype_getname(cp->cts, &cp->ct, cp->str, cp->tmask);
-  if (ctype_type(cp->ct->info) == CT_KW)
-    return ctype_cid(cp->ct->info);
-  return CTOK_IDENT;
-}
-
-/* Parse parameter. */
-static CPToken cp_param(CPState *cp)
-{
-  CPChar c = cp_get(cp);
-  TValue *o = cp->param;
-  if (lj_char_isident(c) || c == '$')  /* Reserve $xyz for future extensions. */
-    cp_errmsg(cp, c, LJ_ERR_XSYNTAX);
-  if (!o || o >= cp->L->top)
-    cp_err(cp, LJ_ERR_FFI_NUMPARAM);
-  cp->param = o+1;
-  if (tvisstr(o)) {
-    cp->str = strV(o);
-    cp->val.id = 0;
-    cp->ct = &cp->cts->tab[0];
-    return CTOK_IDENT;
-  } else if (tvisnumber(o)) {
-    cp->val.i32 = numberVint(o);
-    cp->val.id = CTID_INT32;
-    return CTOK_INTEGER;
-  } else {
-    GCcdata *cd;
-    if (!tviscdata(o))
-      lj_err_argtype(cp->L, (int)(o-cp->L->base)+1, "type parameter");
-    cd = cdataV(o);
-    if (cd->ctypeid == CTID_CTYPEID)
-      cp->val.id = *(CTypeID *)cdataptr(cd);
-    else
-      cp->val.id = cd->ctypeid;
-    return '$';
-  }
-}
-
-/* Parse string or character constant. */
-static CPToken cp_string(CPState *cp)
-{
-  CPChar delim = cp->c;
-  cp_get(cp);
-  while (cp->c != delim) {
-    CPChar c = cp->c;
-    if (c == '\0') cp_errmsg(cp, CTOK_EOF, LJ_ERR_XSTR);
-    if (c == '\\') {
-      c = cp_get(cp);
-      switch (c) {
-      case '\0': cp_errmsg(cp, CTOK_EOF, LJ_ERR_XSTR); break;
-      case 'a': c = '\a'; break;
-      case 'b': c = '\b'; break;
-      case 'f': c = '\f'; break;
-      case 'n': c = '\n'; break;
-      case 'r': c = '\r'; break;
-      case 't': c = '\t'; break;
-      case 'v': c = '\v'; break;
-      case 'e': c = 27; break;
-      case 'x':
-	c = 0;
-	while (lj_char_isxdigit(cp_get(cp)))
-	  c = (c<<4) + (lj_char_isdigit(cp->c) ? cp->c-'0' : (cp->c&15)+9);
-	cp_save(cp, (c & 0xff));
-	continue;
-      default:
-	if (lj_char_isdigit(c)) {
-	  c -= '0';
-	  if (lj_char_isdigit(cp_get(cp))) {
-	    c = c*8 + (cp->c - '0');
-	    if (lj_char_isdigit(cp_get(cp))) {
-	      c = c*8 + (cp->c - '0');
-	      cp_get(cp);
-	    }
-	  }
-	  cp_save(cp, (c & 0xff));
-	  continue;
-	}
-	break;
-      }
-    }
-    cp_save(cp, c);
-    cp_get(cp);
-  }
-  cp_get(cp);
-  if (delim == '"') {
-    cp->str = lj_str_new(cp->L, cp->sb.buf, cp->sb.n);
-    return CTOK_STRING;
-  } else {
-    if (cp->sb.n != 1) cp_err_token(cp, '\'');
-    cp->val.i32 = (int32_t)(char)cp->sb.buf[0];
-    cp->val.id = CTID_INT32;
-    return CTOK_INTEGER;
-  }
-}
-
-/* Skip C comment. */
-static void cp_comment_c(CPState *cp)
-{
-  do {
-    if (cp_get(cp) == '*') {
-      do {
-	if (cp_get(cp) == '/') { cp_get(cp); return; }
-      } while (cp->c == '*');
-    }
-    if (cp_iseol(cp->c)) cp_newline(cp);
-  } while (cp->c != '\0');
-}
-
-/* Skip C++ comment. */
-static void cp_comment_cpp(CPState *cp)
-{
-  while (!cp_iseol(cp_get(cp)) && cp->c != '\0')
-    ;
-}
-
-/* Lexical scanner for C. Only a minimal subset is implemented. */
-static CPToken cp_next_(CPState *cp)
-{
-  lj_str_resetbuf(&cp->sb);
-  for (;;) {
-    if (lj_char_isident(cp->c))
-      return lj_char_isdigit(cp->c) ? cp_number(cp) : cp_ident(cp);
-    switch (cp->c) {
-    case '\n': case '\r': cp_newline(cp);  /* fallthrough. */
-    case ' ': case '\t': case '\v': case '\f': cp_get(cp); break;
-    case '"': case '\'': return cp_string(cp);
-    case '/':
-      if (cp_get(cp) == '*') cp_comment_c(cp);
-      else if (cp->c == '/') cp_comment_cpp(cp);
-      else return '/';
-      break;
-    case '|':
-      if (cp_get(cp) != '|') return '|'; cp_get(cp); return CTOK_OROR;
-    case '&':
-      if (cp_get(cp) != '&') return '&'; cp_get(cp); return CTOK_ANDAND;
-    case '=':
-      if (cp_get(cp) != '=') return '='; cp_get(cp); return CTOK_EQ;
-    case '!':
-      if (cp_get(cp) != '=') return '!'; cp_get(cp); return CTOK_NE;
-    case '<':
-      if (cp_get(cp) == '=') { cp_get(cp); return CTOK_LE; }
-      else if (cp->c == '<') { cp_get(cp); return CTOK_SHL; }
-      return '<';
-    case '>':
-      if (cp_get(cp) == '=') { cp_get(cp); return CTOK_GE; }
-      else if (cp->c == '>') { cp_get(cp); return CTOK_SHR; }
-      return '>';
-    case '-':
-      if (cp_get(cp) != '>') return '-'; cp_get(cp); return CTOK_DEREF;
-    case '$':
-      return cp_param(cp);
-    case '\0': return CTOK_EOF;
-    default: { CPToken c = cp->c; cp_get(cp); return c; }
-    }
-  }
-}
-
-static LJ_NOINLINE CPToken cp_next(CPState *cp)
-{
-  return (cp->tok = cp_next_(cp));
-}
-
-/* -- C parser ------------------------------------------------------------ */
-
-/* Namespaces for resolving identifiers. */
-#define CPNS_DEFAULT \
-  ((1u<<CT_KW)|(1u<<CT_TYPEDEF)|(1u<<CT_FUNC)|(1u<<CT_EXTERN)|(1u<<CT_CONSTVAL))
-#define CPNS_STRUCT	((1u<<CT_KW)|(1u<<CT_STRUCT)|(1u<<CT_ENUM))
-
-typedef CTypeID CPDeclIdx;	/* Index into declaration stack. */
-typedef uint32_t CPscl;		/* Storage class flags. */
-
-/* Type declaration context. */
-typedef struct CPDecl {
-  CPDeclIdx top;	/* Top of declaration stack. */
-  CPDeclIdx pos;	/* Insertion position in declaration chain. */
-  CPDeclIdx specpos;	/* Saved position for declaration specifier. */
-  uint32_t mode;	/* Declarator mode. */
-  CPState *cp;		/* C parser state. */
-  GCstr *name;		/* Name of declared identifier (if direct). */
-  GCstr *redir;		/* Redirected symbol name. */
-  CTypeID nameid;	/* Existing typedef for declared identifier. */
-  CTInfo attr;		/* Attributes. */
-  CTInfo fattr;		/* Function attributes. */
-  CTInfo specattr;	/* Saved attributes. */
-  CTInfo specfattr;	/* Saved function attributes. */
-  CTSize bits;		/* Field size in bits (if any). */
-  CType stack[CPARSE_MAX_DECLSTACK];  /* Type declaration stack. */
-} CPDecl;
-
-/* Forward declarations. */
-static CPscl cp_decl_spec(CPState *cp, CPDecl *decl, CPscl scl);
-static void cp_declarator(CPState *cp, CPDecl *decl);
-static CTypeID cp_decl_abstract(CPState *cp);
-
-/* Initialize C parser state. Caller must set up: L, p, srcname, mode. */
-static void cp_init(CPState *cp)
-{
-  cp->linenumber = 1;
-  cp->depth = 0;
-  cp->curpack = 0;
-  cp->packstack[0] = 255;
-  lj_str_initbuf(&cp->sb);
-  lj_str_resizebuf(cp->L, &cp->sb, LJ_MIN_SBUF);
-  lua_assert(cp->p != NULL);
-  cp_get(cp);  /* Read-ahead first char. */
-  cp->tok = 0;
-  cp->tmask = CPNS_DEFAULT;
-  cp_next(cp);  /* Read-ahead first token. */
-}
-
-/* Cleanup C parser state. */
-static void cp_cleanup(CPState *cp)
-{
-  global_State *g = G(cp->L);
-  lj_str_freebuf(g, &cp->sb);
-}
-
-/* Check and consume optional token. */
-static int cp_opt(CPState *cp, CPToken tok)
-{
-  if (cp->tok == tok) { cp_next(cp); return 1; }
-  return 0;
-}
-
-/* Check and consume token. */
-static void cp_check(CPState *cp, CPToken tok)
-{
-  if (cp->tok != tok) cp_err_token(cp, tok);
-  cp_next(cp);
-}
-
-/* Check if the next token may start a type declaration. */
-static int cp_istypedecl(CPState *cp)
-{
-  if (cp->tok >= CTOK_FIRSTDECL && cp->tok <= CTOK_LASTDECL) return 1;
-  if (cp->tok == CTOK_IDENT && ctype_istypedef(cp->ct->info)) return 1;
-  if (cp->tok == '$') return 1;
-  return 0;
-}
-
-/* -- Constant expression evaluator --------------------------------------- */
-
-/* Forward declarations. */
-static void cp_expr_unary(CPState *cp, CPValue *k);
-static void cp_expr_sub(CPState *cp, CPValue *k, int pri);
-
-/* Please note that type handling is very weak here. Most ops simply
-** assume integer operands. Accessors are only needed to compute types and
-** return synthetic values. The only purpose of the expression evaluator
-** is to compute the values of constant expressions one would typically
-** find in C header files. And again: this is NOT a validating C parser!
-*/
-
-/* Parse comma separated expression and return last result. */
-static void cp_expr_comma(CPState *cp, CPValue *k)
-{
-  do { cp_expr_sub(cp, k, 0); } while (cp_opt(cp, ','));
-}
-
-/* Parse sizeof/alignof operator. */
-static void cp_expr_sizeof(CPState *cp, CPValue *k, int wantsz)
-{
-  CTSize sz;
-  CTInfo info;
-  if (cp_opt(cp, '(')) {
-    if (cp_istypedecl(cp))
-      k->id = cp_decl_abstract(cp);
-    else
-      cp_expr_comma(cp, k);
-    cp_check(cp, ')');
-  } else {
-    cp_expr_unary(cp, k);
-  }
-  info = lj_ctype_info(cp->cts, k->id, &sz);
-  if (wantsz) {
-    if (sz != CTSIZE_INVALID)
-      k->u32 = sz;
-    else if (k->id != CTID_A_CCHAR)  /* Special case for sizeof("string"). */
-      cp_err(cp, LJ_ERR_FFI_INVSIZE);
-  } else {
-    k->u32 = 1u << ctype_align(info);
-  }
-  k->id = CTID_UINT32;  /* Really size_t. */
-}
-
-/* Parse prefix operators. */
-static void cp_expr_prefix(CPState *cp, CPValue *k)
-{
-  if (cp->tok == CTOK_INTEGER) {
-    *k = cp->val; cp_next(cp);
-  } else if (cp_opt(cp, '+')) {
-    cp_expr_unary(cp, k);  /* Nothing to do (well, integer promotion). */
-  } else if (cp_opt(cp, '-')) {
-    cp_expr_unary(cp, k); k->i32 = -k->i32;
-  } else if (cp_opt(cp, '~')) {
-    cp_expr_unary(cp, k); k->i32 = ~k->i32;
-  } else if (cp_opt(cp, '!')) {
-    cp_expr_unary(cp, k); k->i32 = !k->i32; k->id = CTID_INT32;
-  } else if (cp_opt(cp, '(')) {
-    if (cp_istypedecl(cp)) {  /* Cast operator. */
-      CTypeID id = cp_decl_abstract(cp);
-      cp_check(cp, ')');
-      cp_expr_unary(cp, k);
-      k->id = id;  /* No conversion performed. */
-    } else {  /* Sub-expression. */
-      cp_expr_comma(cp, k);
-      cp_check(cp, ')');
-    }
-  } else if (cp_opt(cp, '*')) {  /* Indirection. */
-    CType *ct;
-    cp_expr_unary(cp, k);
-    ct = lj_ctype_rawref(cp->cts, k->id);
-    if (!ctype_ispointer(ct->info))
-      cp_err_badidx(cp, ct);
-    k->u32 = 0; k->id = ctype_cid(ct->info);
-  } else if (cp_opt(cp, '&')) {  /* Address operator. */
-    cp_expr_unary(cp, k);
-    k->id = lj_ctype_intern(cp->cts, CTINFO(CT_PTR, CTALIGN_PTR+k->id),
-			    CTSIZE_PTR);
-  } else if (cp_opt(cp, CTOK_SIZEOF)) {
-    cp_expr_sizeof(cp, k, 1);
-  } else if (cp_opt(cp, CTOK_ALIGNOF)) {
-    cp_expr_sizeof(cp, k, 0);
-  } else if (cp->tok == CTOK_IDENT) {
-    if (ctype_type(cp->ct->info) == CT_CONSTVAL) {
-      k->u32 = cp->ct->size; k->id = ctype_cid(cp->ct->info);
-    } else if (ctype_type(cp->ct->info) == CT_EXTERN) {
-      k->u32 = cp->val.id; k->id = ctype_cid(cp->ct->info);
-    } else if (ctype_type(cp->ct->info) == CT_FUNC) {
-      k->u32 = cp->val.id; k->id = cp->val.id;
-    } else {
-      goto err_expr;
-    }
-    cp_next(cp);
-  } else if (cp->tok == CTOK_STRING) {
-    CTSize sz = cp->str->len;
-    while (cp_next(cp) == CTOK_STRING)
-      sz += cp->str->len;
-    k->u32 = sz + 1;
-    k->id = CTID_A_CCHAR;
-  } else {
-  err_expr:
-    cp_errmsg(cp, cp->tok, LJ_ERR_XSYMBOL);
-  }
-}
-
-/* Parse postfix operators. */
-static void cp_expr_postfix(CPState *cp, CPValue *k)
-{
-  for (;;) {
-    CType *ct;
-    if (cp_opt(cp, '[')) {  /* Array/pointer index. */
-      CPValue k2;
-      cp_expr_comma(cp, &k2);
-      ct = lj_ctype_rawref(cp->cts, k->id);
-      if (!ctype_ispointer(ct->info)) {
-	ct = lj_ctype_rawref(cp->cts, k2.id);
-	if (!ctype_ispointer(ct->info))
-	  cp_err_badidx(cp, ct);
-      }
-      cp_check(cp, ']');
-      k->u32 = 0;
-    } else if (cp->tok == '.' || cp->tok == CTOK_DEREF) {  /* Struct deref. */
-      CTSize ofs;
-      CType *fct;
-      ct = lj_ctype_rawref(cp->cts, k->id);
-      if (cp->tok == CTOK_DEREF) {
-	if (!ctype_ispointer(ct->info))
-	  cp_err_badidx(cp, ct);
-	ct = lj_ctype_rawref(cp->cts, ctype_cid(ct->info));
-      }
-      cp_next(cp);
-      if (cp->tok != CTOK_IDENT) cp_err_token(cp, CTOK_IDENT);
-      if (!ctype_isstruct(ct->info) || ct->size == CTSIZE_INVALID ||
-	  !(fct = lj_ctype_getfield(cp->cts, ct, cp->str, &ofs)) ||
-	  ctype_isbitfield(fct->info)) {
-	GCstr *s = lj_ctype_repr(cp->cts->L, ctype_typeid(cp->cts, ct), NULL);
-	cp_errmsg(cp, 0, LJ_ERR_FFI_BADMEMBER, strdata(s), strdata(cp->str));
-      }
-      ct = fct;
-      k->u32 = ctype_isconstval(ct->info) ? ct->size : 0;
-      cp_next(cp);
-    } else {
-      return;
-    }
-    k->id = ctype_cid(ct->info);
-  }
-}
-
-/* Parse infix operators. */
-static void cp_expr_infix(CPState *cp, CPValue *k, int pri)
-{
-  CPValue k2;
-  k2.u32 = 0; k2.id = 0;  /* Silence the compiler. */
-  for (;;) {
-    switch (pri) {
-    case 0:
-      if (cp_opt(cp, '?')) {
-	CPValue k3;
-	cp_expr_comma(cp, &k2);  /* Right-associative. */
-	cp_check(cp, ':');
-	cp_expr_sub(cp, &k3, 0);
-	k->u32 = k->u32 ? k2.u32 : k3.u32;
-	k->id = k2.id > k3.id ? k2.id : k3.id;
-	continue;
-      }
-    case 1:
-      if (cp_opt(cp, CTOK_OROR)) {
-	cp_expr_sub(cp, &k2, 2); k->i32 = k->u32 || k2.u32; k->id = CTID_INT32;
-	continue;
-      }
-    case 2:
-      if (cp_opt(cp, CTOK_ANDAND)) {
-	cp_expr_sub(cp, &k2, 3); k->i32 = k->u32 && k2.u32; k->id = CTID_INT32;
-	continue;
-      }
-    case 3:
-      if (cp_opt(cp, '|')) {
-	cp_expr_sub(cp, &k2, 4); k->u32 = k->u32 | k2.u32; goto arith_result;
-      }
-    case 4:
-      if (cp_opt(cp, '^')) {
-	cp_expr_sub(cp, &k2, 5); k->u32 = k->u32 ^ k2.u32; goto arith_result;
-      }
-    case 5:
-      if (cp_opt(cp, '&')) {
-	cp_expr_sub(cp, &k2, 6); k->u32 = k->u32 & k2.u32; goto arith_result;
-      }
-    case 6:
-      if (cp_opt(cp, CTOK_EQ)) {
-	cp_expr_sub(cp, &k2, 7); k->i32 = k->u32 == k2.u32; k->id = CTID_INT32;
-	continue;
-      } else if (cp_opt(cp, CTOK_NE)) {
-	cp_expr_sub(cp, &k2, 7); k->i32 = k->u32 != k2.u32; k->id = CTID_INT32;
-	continue;
-      }
-    case 7:
-      if (cp_opt(cp, '<')) {
-	cp_expr_sub(cp, &k2, 8);
-	if (k->id == CTID_INT32 && k2.id == CTID_INT32)
-	  k->i32 = k->i32 < k2.i32;
-	else
-	  k->i32 = k->u32 < k2.u32;
-	k->id = CTID_INT32;
-	continue;
-      } else if (cp_opt(cp, '>')) {
-	cp_expr_sub(cp, &k2, 8);
-	if (k->id == CTID_INT32 && k2.id == CTID_INT32)
-	  k->i32 = k->i32 > k2.i32;
-	else
-	  k->i32 = k->u32 > k2.u32;
-	k->id = CTID_INT32;
-	continue;
-      } else if (cp_opt(cp, CTOK_LE)) {
-	cp_expr_sub(cp, &k2, 8);
-	if (k->id == CTID_INT32 && k2.id == CTID_INT32)
-	  k->i32 = k->i32 <= k2.i32;
-	else
-	  k->i32 = k->u32 <= k2.u32;
-	k->id = CTID_INT32;
-	continue;
-      } else if (cp_opt(cp, CTOK_GE)) {
-	cp_expr_sub(cp, &k2, 8);
-	if (k->id == CTID_INT32 && k2.id == CTID_INT32)
-	  k->i32 = k->i32 >= k2.i32;
-	else
-	  k->i32 = k->u32 >= k2.u32;
-	k->id = CTID_INT32;
-	continue;
-      }
-    case 8:
-      if (cp_opt(cp, CTOK_SHL)) {
-	cp_expr_sub(cp, &k2, 9); k->u32 = k->u32 << k2.u32;
-	continue;
-      } else if (cp_opt(cp, CTOK_SHR)) {
-	cp_expr_sub(cp, &k2, 9);
-	if (k->id == CTID_INT32)
-	  k->i32 = k->i32 >> k2.i32;
-	else
-	  k->u32 = k->u32 >> k2.u32;
-	continue;
-      }
-    case 9:
-      if (cp_opt(cp, '+')) {
-	cp_expr_sub(cp, &k2, 10); k->u32 = k->u32 + k2.u32;
-      arith_result:
-	if (k2.id > k->id) k->id = k2.id;  /* Trivial promotion to unsigned. */
-	continue;
-      } else if (cp_opt(cp, '-')) {
-	cp_expr_sub(cp, &k2, 10); k->u32 = k->u32 - k2.u32; goto arith_result;
-      }
-    case 10:
-      if (cp_opt(cp, '*')) {
-	cp_expr_unary(cp, &k2); k->u32 = k->u32 * k2.u32; goto arith_result;
-      } else if (cp_opt(cp, '/')) {
-	cp_expr_unary(cp, &k2);
-	if (k2.id > k->id) k->id = k2.id;  /* Trivial promotion to unsigned. */
-	if (k2.u32 == 0 ||
-	    (k->id == CTID_INT32 && k->u32 == 0x80000000u && k2.i32 == -1))
-	  cp_err(cp, LJ_ERR_BADVAL);
-	if (k->id == CTID_INT32)
-	  k->i32 = k->i32 / k2.i32;
-	else
-	  k->u32 = k->u32 / k2.u32;
-	continue;
-      } else if (cp_opt(cp, '%')) {
-	cp_expr_unary(cp, &k2);
-	if (k2.id > k->id) k->id = k2.id;  /* Trivial promotion to unsigned. */
-	if (k2.u32 == 0 ||
-	    (k->id == CTID_INT32 && k->u32 == 0x80000000u && k2.i32 == -1))
-	  cp_err(cp, LJ_ERR_BADVAL);
-	if (k->id == CTID_INT32)
-	  k->i32 = k->i32 % k2.i32;
-	else
-	  k->u32 = k->u32 % k2.u32;
-	continue;
-      }
-    default:
-      return;
-    }
-  }
-}
-
-/* Parse and evaluate unary expression. */
-static void cp_expr_unary(CPState *cp, CPValue *k)
-{
-  if (++cp->depth > CPARSE_MAX_DECLDEPTH) cp_err(cp, LJ_ERR_XLEVELS);
-  cp_expr_prefix(cp, k);
-  cp_expr_postfix(cp, k);
-  cp->depth--;
-}
-
-/* Parse and evaluate sub-expression. */
-static void cp_expr_sub(CPState *cp, CPValue *k, int pri)
-{
-  cp_expr_unary(cp, k);
-  cp_expr_infix(cp, k, pri);
-}
-
-/* Parse constant integer expression. */
-static void cp_expr_kint(CPState *cp, CPValue *k)
-{
-  CType *ct;
-  cp_expr_sub(cp, k, 0);
-  ct = ctype_raw(cp->cts, k->id);
-  if (!ctype_isinteger(ct->info)) cp_err(cp, LJ_ERR_BADVAL);
-}
-
-/* Parse (non-negative) size expression. */
-static CTSize cp_expr_ksize(CPState *cp)
-{
-  CPValue k;
-  cp_expr_kint(cp, &k);
-  if (k.u32 >= 0x80000000u) cp_err(cp, LJ_ERR_FFI_INVSIZE);
-  return k.u32;
-}
-
-/* -- Type declaration stack management ----------------------------------- */
-
-/* Add declaration element behind the insertion position. */
-static CPDeclIdx cp_add(CPDecl *decl, CTInfo info, CTSize size)
-{
-  CPDeclIdx top = decl->top;
-  if (top >= CPARSE_MAX_DECLSTACK) cp_err(decl->cp, LJ_ERR_XLEVELS);
-  decl->stack[top].info = info;
-  decl->stack[top].size = size;
-  decl->stack[top].sib = 0;
-  setgcrefnull(decl->stack[top].name);
-  decl->stack[top].next = decl->stack[decl->pos].next;
-  decl->stack[decl->pos].next = (CTypeID1)top;
-  decl->top = top+1;
-  return top;
-}
-
-/* Push declaration element before the insertion position. */
-static CPDeclIdx cp_push(CPDecl *decl, CTInfo info, CTSize size)
-{
-  return (decl->pos = cp_add(decl, info, size));
-}
-
-/* Push or merge attributes. */
-static void cp_push_attributes(CPDecl *decl)
-{
-  CType *ct = &decl->stack[decl->pos];
-  if (ctype_isfunc(ct->info)) {  /* Ok to modify in-place. */
-#if LJ_TARGET_X86
-    if ((decl->fattr & CTFP_CCONV))
-      ct->info = (ct->info & (CTMASK_NUM|CTF_VARARG|CTMASK_CID)) +
-		 (decl->fattr & ~CTMASK_CID);
-#endif
-  } else {
-    if ((decl->attr & CTFP_ALIGNED) && !(decl->mode & CPARSE_MODE_FIELD))
-      cp_push(decl, CTINFO(CT_ATTRIB, CTATTRIB(CTA_ALIGN)),
-	      ctype_align(decl->attr));
-  }
-}
-
-/* Push unrolled type to declaration stack and merge qualifiers. */
-static void cp_push_type(CPDecl *decl, CTypeID id)
-{
-  CType *ct = ctype_get(decl->cp->cts, id);
-  CTInfo info = ct->info;
-  CTSize size = ct->size;
-  switch (ctype_type(info)) {
-  case CT_STRUCT: case CT_ENUM:
-    cp_push(decl, CTINFO(CT_TYPEDEF, id), 0);  /* Don't copy unique types. */
-    if ((decl->attr & CTF_QUAL)) {  /* Push unmerged qualifiers. */
-      cp_push(decl, CTINFO(CT_ATTRIB, CTATTRIB(CTA_QUAL)),
-	      (decl->attr & CTF_QUAL));
-      decl->attr &= ~CTF_QUAL;
-    }
-    break;
-  case CT_ATTRIB:
-    if (ctype_isxattrib(info, CTA_QUAL))
-      decl->attr &= ~size;  /* Remove redundant qualifiers. */
-    cp_push_type(decl, ctype_cid(info));  /* Unroll. */
-    cp_push(decl, info & ~CTMASK_CID, size);  /* Copy type. */
-    break;
-  case CT_ARRAY:
-    cp_push_type(decl, ctype_cid(info));  /* Unroll. */
-    cp_push(decl, info & ~CTMASK_CID, size);  /* Copy type. */
-    decl->stack[decl->pos].sib = 1;  /* Mark as already checked and sized. */
-    /* Note: this is not copied to the ct->sib in the C type table. */
-    break;
-  case CT_FUNC:
-    /* Copy type, link parameters (shared). */
-    decl->stack[cp_push(decl, info, size)].sib = ct->sib;
-    break;
-  default:
-    /* Copy type, merge common qualifiers. */
-    cp_push(decl, info|(decl->attr & CTF_QUAL), size);
-    decl->attr &= ~CTF_QUAL;
-    break;
-  }
-}
-
-/* Consume the declaration element chain and intern the C type. */
-static CTypeID cp_decl_intern(CPState *cp, CPDecl *decl)
-{
-  CTypeID id = 0;
-  CPDeclIdx idx = 0;
-  CTSize csize = CTSIZE_INVALID;
-  CTSize cinfo = 0;
-  do {
-    CType *ct = &decl->stack[idx];
-    CTInfo info = ct->info;
-    CTInfo size = ct->size;
-    /* The cid is already part of info for copies of pointers/functions. */
-    idx = ct->next;
-    if (ctype_istypedef(info)) {
-      lua_assert(id == 0);
-      id = ctype_cid(info);
-      /* Always refetch info/size, since struct/enum may have been completed. */
-      cinfo = ctype_get(cp->cts, id)->info;
-      csize = ctype_get(cp->cts, id)->size;
-      lua_assert(ctype_isstruct(cinfo) || ctype_isenum(cinfo));
-    } else if (ctype_isfunc(info)) {  /* Intern function. */
-      CType *fct;
-      CTypeID fid;
-      CTypeID sib;
-      if (id) {
-	CType *refct = ctype_raw(cp->cts, id);
-	/* Reject function or refarray return types. */
-	if (ctype_isfunc(refct->info) || ctype_isrefarray(refct->info))
-	  cp_err(cp, LJ_ERR_FFI_INVTYPE);
-      }
-      /* No intervening attributes allowed, skip forward. */
-      while (idx) {
-	CType *ctn = &decl->stack[idx];
-	if (!ctype_isattrib(ctn->info)) break;
-	idx = ctn->next;  /* Skip attribute. */
-      }
-      sib = ct->sib;  /* Next line may reallocate the C type table. */
-      fid = lj_ctype_new(cp->cts, &fct);
-      csize = CTSIZE_INVALID;
-      fct->info = cinfo = info + id;
-      fct->size = size;
-      fct->sib = sib;
-      id = fid;
-    } else if (ctype_isattrib(info)) {
-      if (ctype_isxattrib(info, CTA_QUAL))
-	cinfo |= size;
-      else if (ctype_isxattrib(info, CTA_ALIGN))
-	CTF_INSERT(cinfo, ALIGN, size);
-      id = lj_ctype_intern(cp->cts, info+id, size);
-      /* Inherit csize/cinfo from original type. */
-    } else {
-      if (ctype_isnum(info)) {  /* Handle mode/vector-size attributes. */
-	lua_assert(id == 0);
-	if (!(info & CTF_BOOL)) {
-	  CTSize msize = ctype_msizeP(decl->attr);
-	  CTSize vsize = ctype_vsizeP(decl->attr);
-	  if (msize && (!(info & CTF_FP) || (msize == 4 || msize == 8))) {
-	    CTSize malign = lj_fls(msize);
-	    if (malign > 4) malign = 4;  /* Limit alignment. */
-	    CTF_INSERT(info, ALIGN, malign);
-	    size = msize;  /* Override size via mode. */
-	  }
-	  if (vsize) {  /* Vector size set? */
-	    CTSize esize = lj_fls(size);
-	    if (vsize >= esize) {
-	      /* Intern the element type first. */
-	      id = lj_ctype_intern(cp->cts, info, size);
-	      /* Then create a vector (array) with vsize alignment. */
-	      size = (1u << vsize);
-	      if (vsize > 4) vsize = 4;  /* Limit alignment. */
-	      if (ctype_align(info) > vsize) vsize = ctype_align(info);
-	      info = CTINFO(CT_ARRAY, (info & CTF_QUAL) + CTF_VECTOR +
-				      CTALIGN(vsize));
-	    }
-	  }
-	}
-      } else if (ctype_isptr(info)) {
-	/* Reject pointer/ref to ref. */
-	if (id && ctype_isref(ctype_raw(cp->cts, id)->info))
-	  cp_err(cp, LJ_ERR_FFI_INVTYPE);
-	if (ctype_isref(info)) {
-	  info &= ~CTF_VOLATILE;  /* Refs are always const, never volatile. */
-	  /* No intervening attributes allowed, skip forward. */
-	  while (idx) {
-	    CType *ctn = &decl->stack[idx];
-	    if (!ctype_isattrib(ctn->info)) break;
-	    idx = ctn->next;  /* Skip attribute. */
-	  }
-	}
-      } else if (ctype_isarray(info)) {  /* Check for valid array size etc. */
-	if (ct->sib == 0) {  /* Only check/size arrays not copied by unroll. */
-	  if (ctype_isref(cinfo))  /* Reject arrays of refs. */
-	    cp_err(cp, LJ_ERR_FFI_INVTYPE);
-	  /* Reject VLS or unknown-sized types. */
-	  if (ctype_isvltype(cinfo) || csize == CTSIZE_INVALID)
-	    cp_err(cp, LJ_ERR_FFI_INVSIZE);
-	  /* a[] and a[?] keep their invalid size. */
-	  if (size != CTSIZE_INVALID) {
-	    uint64_t xsz = (uint64_t)size * csize;
-	    if (xsz >= 0x80000000u) cp_err(cp, LJ_ERR_FFI_INVSIZE);
-	    size = (CTSize)xsz;
-	  }
-	}
-	if ((cinfo & CTF_ALIGN) > (info & CTF_ALIGN))  /* Find max. align. */
-	  info = (info & ~CTF_ALIGN) | (cinfo & CTF_ALIGN);
-	info |= (cinfo & CTF_QUAL);  /* Inherit qual. */
-      } else {
-	lua_assert(ctype_isvoid(info));
-      }
-      csize = size;
-      cinfo = info+id;
-      id = lj_ctype_intern(cp->cts, info+id, size);
-    }
-  } while (idx);
-  return id;
-}
-
-/* -- C declaration parser ------------------------------------------------ */
-
-#define H_(le, be)	LJ_ENDIAN_SELECT(0x##le, 0x##be)
-
-/* Reset declaration state to declaration specifier. */
-static void cp_decl_reset(CPDecl *decl)
-{
-  decl->pos = decl->specpos;
-  decl->top = decl->specpos+1;
-  decl->stack[decl->specpos].next = 0;
-  decl->attr = decl->specattr;
-  decl->fattr = decl->specfattr;
-  decl->name = NULL;
-  decl->redir = NULL;
-}
-
-/* Parse constant initializer. */
-/* NYI: FP constants and strings as initializers. */
-static CTypeID cp_decl_constinit(CPState *cp, CType **ctp, CTypeID ctypeid)
-{
-  CType *ctt = ctype_get(cp->cts, ctypeid);
-  CTInfo info;
-  CTSize size;
-  CPValue k;
-  CTypeID constid;
-  while (ctype_isattrib(ctt->info)) {  /* Skip attributes. */
-    ctypeid = ctype_cid(ctt->info);  /* Update ID, too. */
-    ctt = ctype_get(cp->cts, ctypeid);
-  }
-  info = ctt->info;
-  size = ctt->size;
-  if (!ctype_isinteger(info) || !(info & CTF_CONST) || size > 4)
-    cp_err(cp, LJ_ERR_FFI_INVTYPE);
-  cp_check(cp, '=');
-  cp_expr_sub(cp, &k, 0);
-  constid = lj_ctype_new(cp->cts, ctp);
-  (*ctp)->info = CTINFO(CT_CONSTVAL, CTF_CONST|ctypeid);
-  k.u32 <<= 8*(4-size);
-  if ((info & CTF_UNSIGNED))
-    k.u32 >>= 8*(4-size);
-  else
-    k.u32 = (uint32_t)((int32_t)k.u32 >> 8*(4-size));
-  (*ctp)->size = k.u32;
-  return constid;
-}
-
-/* Parse size in parentheses as part of attribute. */
-static CTSize cp_decl_sizeattr(CPState *cp)
-{
-  CTSize sz;
-  uint32_t oldtmask = cp->tmask;
-  cp->tmask = CPNS_DEFAULT;  /* Required for expression evaluator. */
-  cp_check(cp, '(');
-  sz = cp_expr_ksize(cp);
-  cp->tmask = oldtmask;
-  cp_check(cp, ')');
-  return sz;
-}
-
-/* Parse alignment attribute. */
-static void cp_decl_align(CPState *cp, CPDecl *decl)
-{
-  CTSize al = 4;  /* Unspecified alignment is 16 bytes. */
-  if (cp->tok == '(') {
-    al = cp_decl_sizeattr(cp);
-    al = al ? lj_fls(al) : 0;
-  }
-  CTF_INSERT(decl->attr, ALIGN, al);
-  decl->attr |= CTFP_ALIGNED;
-}
-
-/* Parse GCC asm("name") redirect. */
-static void cp_decl_asm(CPState *cp, CPDecl *decl)
-{
-  UNUSED(decl);
-  cp_next(cp);
-  cp_check(cp, '(');
-  if (cp->tok == CTOK_STRING) {
-    GCstr *str = cp->str;
-    while (cp_next(cp) == CTOK_STRING) {
-      lj_str_pushf(cp->L, "%s%s", strdata(str), strdata(cp->str));
-      cp->L->top--;
-      str = strV(cp->L->top);
-    }
-    decl->redir = str;
-  }
-  cp_check(cp, ')');
-}
-
-/* Parse GCC __attribute__((mode(...))). */
-static void cp_decl_mode(CPState *cp, CPDecl *decl)
-{
-  cp_check(cp, '(');
-  if (cp->tok == CTOK_IDENT) {
-    const char *s = strdata(cp->str);
-    CTSize sz = 0, vlen = 0;
-    if (s[0] == '_' && s[1] == '_') s += 2;
-    if (*s == 'V') {
-      s++;
-      vlen = *s++ - '0';
-      if (*s >= '0' && *s <= '9')
-	vlen = vlen*10 + (*s++ - '0');
-    }
-    switch (*s++) {
-    case 'Q': sz = 1; break;
-    case 'H': sz = 2; break;
-    case 'S': sz = 4; break;
-    case 'D': sz = 8; break;
-    case 'T': sz = 16; break;
-    case 'O': sz = 32; break;
-    default: goto bad_size;
-    }
-    if (*s == 'I' || *s == 'F') {
-      CTF_INSERT(decl->attr, MSIZEP, sz);
-      if (vlen) CTF_INSERT(decl->attr, VSIZEP, lj_fls(vlen*sz));
-    }
-  bad_size:
-    cp_next(cp);
-  }
-  cp_check(cp, ')');
-}
-
-/* Parse GCC __attribute__((...)). */
-static void cp_decl_gccattribute(CPState *cp, CPDecl *decl)
-{
-  cp_next(cp);
-  cp_check(cp, '(');
-  cp_check(cp, '(');
-  while (cp->tok != ')') {
-    if (cp->tok == CTOK_IDENT) {
-      GCstr *attrstr = cp->str;
-      cp_next(cp);
-      switch (attrstr->hash) {
-      case H_(64a9208e,8ce14319): case H_(8e6331b2,95a282af):  /* aligned */
-	cp_decl_align(cp, decl);
-	break;
-      case H_(42eb47de,f0ede26c): case H_(29f48a09,cf383e0c):  /* packed */
-	decl->attr |= CTFP_PACKED;
-	break;
-      case H_(0a84eef6,8dfab04c): case H_(995cf92c,d5696591):  /* mode */
-	cp_decl_mode(cp, decl);
-	break;
-      case H_(0ab31997,2d5213fa): case H_(bf875611,200e9990):  /* vector_size */
-	{
-	  CTSize vsize = cp_decl_sizeattr(cp);
-	  if (vsize) CTF_INSERT(decl->attr, VSIZEP, lj_fls(vsize));
-	}
-	break;
-#if LJ_TARGET_X86
-      case H_(5ad22db8,c689b848): case H_(439150fa,65ea78cb):  /* regparm */
-	CTF_INSERT(decl->fattr, REGPARM, cp_decl_sizeattr(cp));
-	decl->fattr |= CTFP_CCONV;
-	break;
-      case H_(18fc0b98,7ff4c074): case H_(4e62abed,0a747424):  /* cdecl */
-	CTF_INSERT(decl->fattr, CCONV, CTCC_CDECL);
-	decl->fattr |= CTFP_CCONV;
-	break;
-      case H_(72b2e41b,494c5a44): case H_(f2356d59,f25fc9bd):  /* thiscall */
-	CTF_INSERT(decl->fattr, CCONV, CTCC_THISCALL);
-	decl->fattr |= CTFP_CCONV;
-	break;
-      case H_(0d0ffc42,ab746f88): case H_(21c54ba1,7f0ca7e3):  /* fastcall */
-	CTF_INSERT(decl->fattr, CCONV, CTCC_FASTCALL);
-	decl->fattr |= CTFP_CCONV;
-	break;
-      case H_(ef76b040,9412e06a): case H_(de56697b,c750e6e1):  /* stdcall */
-	CTF_INSERT(decl->fattr, CCONV, CTCC_STDCALL);
-	decl->fattr |= CTFP_CCONV;
-	break;
-      case H_(ea78b622,f234bd8e): case H_(252ffb06,8d50f34b):  /* sseregparm */
-	decl->fattr |= CTF_SSEREGPARM;
-	decl->fattr |= CTFP_CCONV;
-	break;
-#endif
-      default:  /* Skip all other attributes. */
-	goto skip_attr;
-      }
-    } else if (cp->tok >= CTOK_FIRSTDECL) {  /* For __attribute((const)) etc. */
-      cp_next(cp);
-    skip_attr:
-      if (cp_opt(cp, '(')) {
-	while (cp->tok != ')' && cp->tok != CTOK_EOF) cp_next(cp);
-	cp_check(cp, ')');
-      }
-    } else {
-      break;
-    }
-    if (!cp_opt(cp, ',')) break;
-  }
-  cp_check(cp, ')');
-  cp_check(cp, ')');
-}
-
-/* Parse MSVC __declspec(...). */
-static void cp_decl_msvcattribute(CPState *cp, CPDecl *decl)
-{
-  cp_next(cp);
-  cp_check(cp, '(');
-  while (cp->tok == CTOK_IDENT) {
-    GCstr *attrstr = cp->str;
-    cp_next(cp);
-    switch (attrstr->hash) {
-    case H_(bc2395fa,98f267f8):  /* align */
-      cp_decl_align(cp, decl);
-      break;
-    default:  /* Ignore all other attributes. */
-      if (cp_opt(cp, '(')) {
-	while (cp->tok != ')' && cp->tok != CTOK_EOF) cp_next(cp);
-	cp_check(cp, ')');
-      }
-      break;
-    }
-  }
-  cp_check(cp, ')');
-}
-
-/* Parse declaration attributes (and common qualifiers). */
-static void cp_decl_attributes(CPState *cp, CPDecl *decl)
-{
-  for (;;) {
-    switch (cp->tok) {
-    case CTOK_CONST: decl->attr |= CTF_CONST; break;
-    case CTOK_VOLATILE: decl->attr |= CTF_VOLATILE; break;
-    case CTOK_RESTRICT: break;  /* Ignore. */
-    case CTOK_EXTENSION: break;  /* Ignore. */
-    case CTOK_ATTRIBUTE: cp_decl_gccattribute(cp, decl); continue;
-    case CTOK_ASM: cp_decl_asm(cp, decl); continue;
-    case CTOK_DECLSPEC: cp_decl_msvcattribute(cp, decl); continue;
-    case CTOK_CCDECL:
-#if LJ_TARGET_X86
-      CTF_INSERT(decl->fattr, CCONV, cp->ct->size);
-      decl->fattr |= CTFP_CCONV;
-#endif
-      break;
-    case CTOK_PTRSZ:
-#if LJ_64
-      CTF_INSERT(decl->attr, MSIZEP, cp->ct->size);
-#endif
-      break;
-    default: return;
-    }
-    cp_next(cp);
-  }
-}
-
-/* Parse struct/union/enum name. */
-static CTypeID cp_struct_name(CPState *cp, CPDecl *sdecl, CTInfo info)
-{
-  CTypeID sid;
-  CType *ct;
-  cp->tmask = CPNS_STRUCT;
-  cp_next(cp);
-  cp_decl_attributes(cp, sdecl);
-  cp->tmask = CPNS_DEFAULT;
-  if (cp->tok != '{') {
-    if (cp->tok != CTOK_IDENT) cp_err_token(cp, CTOK_IDENT);
-    if (cp->val.id) {  /* Name of existing struct/union/enum. */
-      sid = cp->val.id;
-      ct = cp->ct;
-      if ((ct->info ^ info) & (CTMASK_NUM|CTF_UNION))  /* Wrong type. */
-	cp_errmsg(cp, 0, LJ_ERR_FFI_REDEF, strdata(gco2str(gcref(ct->name))));
-    } else {  /* Create named, incomplete struct/union/enum. */
-      if ((cp->mode & CPARSE_MODE_NOIMPLICIT))
-	cp_errmsg(cp, 0, LJ_ERR_FFI_BADTAG, strdata(cp->str));
-      sid = lj_ctype_new(cp->cts, &ct);
-      ct->info = info;
-      ct->size = CTSIZE_INVALID;
-      ctype_setname(ct, cp->str);
-      lj_ctype_addname(cp->cts, ct, sid);
-    }
-    cp_next(cp);
-  } else {  /* Create anonymous, incomplete struct/union/enum. */
-    sid = lj_ctype_new(cp->cts, &ct);
-    ct->info = info;
-    ct->size = CTSIZE_INVALID;
-  }
-  if (cp->tok == '{') {
-    if (ct->size != CTSIZE_INVALID || ct->sib)
-      cp_errmsg(cp, 0, LJ_ERR_FFI_REDEF, strdata(gco2str(gcref(ct->name))));
-    ct->sib = 1;  /* Indicate the type is currently being defined. */
-  }
-  return sid;
-}
-
-/* Determine field alignment. */
-static CTSize cp_field_align(CPState *cp, CType *ct, CTInfo info)
-{
-  CTSize align = ctype_align(info);
-  UNUSED(cp); UNUSED(ct);
-#if (LJ_TARGET_X86 && !LJ_ABI_WIN) || (LJ_TARGET_ARM && __APPLE__)
-  /* The SYSV i386 and iOS ABIs limit alignment of non-vector fields to 2^2. */
-  if (align > 2 && !(info & CTFP_ALIGNED)) {
-    if (ctype_isarray(info) && !(info & CTF_VECTOR)) {
-      do {
-	ct = ctype_rawchild(cp->cts, ct);
-	info = ct->info;
-      } while (ctype_isarray(info) && !(info & CTF_VECTOR));
-    }
-    if (ctype_isnum(info) || ctype_isenum(info))
-      align = 2;
-  }
-#endif
-  return align;
-}
-
-/* Layout struct/union fields. */
-static void cp_struct_layout(CPState *cp, CTypeID sid, CTInfo sattr)
-{
-  CTSize bofs = 0, bmaxofs = 0;  /* Bit offset and max. bit offset. */
-  CTSize maxalign = ctype_align(sattr);
-  CType *sct = ctype_get(cp->cts, sid);
-  CTInfo sinfo = sct->info;
-  CTypeID fieldid = sct->sib;
-  while (fieldid) {
-    CType *ct = ctype_get(cp->cts, fieldid);
-    CTInfo attr = ct->size;  /* Field declaration attributes (temp.). */
-
-    if (ctype_isfield(ct->info) ||
-	(ctype_isxattrib(ct->info, CTA_SUBTYPE) && attr)) {
-      CTSize align, amask;  /* Alignment (pow2) and alignment mask (bits). */
-      CTSize sz;
-      CTInfo info = lj_ctype_info(cp->cts, ctype_cid(ct->info), &sz);
-      CTSize bsz, csz = 8*sz;  /* Field size and container size (in bits). */
-      sinfo |= (info & (CTF_QUAL|CTF_VLA));  /* Merge pseudo-qualifiers. */
-
-      /* Check for size overflow and determine alignment. */
-      if (sz >= 0x20000000u || bofs + csz < bofs || (info & CTF_VLA)) {
-	if (!(sz == CTSIZE_INVALID && ctype_isarray(info) &&
-	      !(sinfo & CTF_UNION)))
-	  cp_err(cp, LJ_ERR_FFI_INVSIZE);
-	csz = sz = 0;  /* Treat a[] and a[?] as zero-sized. */
-      }
-      align = cp_field_align(cp, ct, info);
-      if (((attr|sattr) & CTFP_PACKED) ||
-	  ((attr & CTFP_ALIGNED) && ctype_align(attr) > align))
-	align = ctype_align(attr);
-      if (cp->packstack[cp->curpack] < align)
-	align = cp->packstack[cp->curpack];
-      if (align > maxalign) maxalign = align;
-      amask = (8u << align) - 1;
-
-      bsz = ctype_bitcsz(ct->info);  /* Bitfield size (temp.). */
-      if (bsz == CTBSZ_FIELD || !ctype_isfield(ct->info)) {
-	bsz = csz;  /* Regular fields or subtypes always fill the container. */
-	bofs = (bofs + amask) & ~amask;  /* Start new aligned field. */
-	ct->size = (bofs >> 3);  /* Store field offset. */
-      } else {  /* Bitfield. */
-	if (bsz == 0 || (attr & CTFP_ALIGNED) ||
-	    (!((attr|sattr) & CTFP_PACKED) && (bofs & amask) + bsz > csz))
-	  bofs = (bofs + amask) & ~amask;  /* Start new aligned field. */
-
-	/* Prefer regular field over bitfield. */
-	if (bsz == csz && (bofs & amask) == 0) {
-	  ct->info = CTINFO(CT_FIELD, ctype_cid(ct->info));
-	  ct->size = (bofs >> 3);  /* Store field offset. */
-	} else {
-	  ct->info = CTINFO(CT_BITFIELD,
-	    (info & (CTF_QUAL|CTF_UNSIGNED|CTF_BOOL)) +
-	    (csz << (CTSHIFT_BITCSZ-3)) + (bsz << CTSHIFT_BITBSZ));
-#if LJ_BE
-	  ct->info += ((csz - (bofs & (csz-1)) - bsz) << CTSHIFT_BITPOS);
-#else
-	  ct->info += ((bofs & (csz-1)) << CTSHIFT_BITPOS);
-#endif
-	  ct->size = ((bofs & ~(csz-1)) >> 3);  /* Store container offset. */
-	}
-      }
-
-      /* Determine next offset or max. offset. */
-      if ((sinfo & CTF_UNION)) {
-	if (bsz > bmaxofs) bmaxofs = bsz;
-      } else {
-	bofs += bsz;
-      }
-    }  /* All other fields in the chain are already set up. */
-
-    fieldid = ct->sib;
-  }
-
-  /* Complete struct/union. */
-  sct->info = sinfo + CTALIGN(maxalign);
-  bofs = (sinfo & CTF_UNION) ? bmaxofs : bofs;
-  maxalign = (8u << maxalign) - 1;
-  sct->size = (((bofs + maxalign) & ~maxalign) >> 3);
-}
-
-/* Parse struct/union declaration. */
-static CTypeID cp_decl_struct(CPState *cp, CPDecl *sdecl, CTInfo sinfo)
-{
-  CTypeID sid = cp_struct_name(cp, sdecl, sinfo);
-  if (cp_opt(cp, '{')) {  /* Struct/union definition. */
-    CTypeID lastid = sid;
-    int lastdecl = 0;
-    while (cp->tok != '}') {
-      CPDecl decl;
-      CPscl scl = cp_decl_spec(cp, &decl, CDF_STATIC);
-      decl.mode = scl ? CPARSE_MODE_DIRECT :
-	CPARSE_MODE_DIRECT|CPARSE_MODE_ABSTRACT|CPARSE_MODE_FIELD;
-
-      for (;;) {
-	CTypeID ctypeid;
-
-	if (lastdecl) cp_err_token(cp, '}');
-
-	/* Parse field declarator. */
-	decl.bits = CTSIZE_INVALID;
-	cp_declarator(cp, &decl);
-	ctypeid = cp_decl_intern(cp, &decl);
-
-	if ((scl & CDF_STATIC)) {  /* Static constant in struct namespace. */
-	  CType *ct;
-	  CTypeID fieldid = cp_decl_constinit(cp, &ct, ctypeid);
-	  ctype_get(cp->cts, lastid)->sib = fieldid;
-	  lastid = fieldid;
-	  ctype_setname(ct, decl.name);
-	} else {
-	  CTSize bsz = CTBSZ_FIELD;  /* Temp. for layout phase. */
-	  CType *ct;
-	  CTypeID fieldid = lj_ctype_new(cp->cts, &ct);  /* Do this first. */
-	  CType *tct = ctype_raw(cp->cts, ctypeid);
-
-	  if (decl.bits == CTSIZE_INVALID) {  /* Regular field. */
-	    if (ctype_isarray(tct->info) && tct->size == CTSIZE_INVALID)
-	      lastdecl = 1;  /* a[] or a[?] must be the last declared field. */
-
-	    /* Accept transparent struct/union/enum. */
-	    if (!decl.name) {
-	      if (!((ctype_isstruct(tct->info) && !(tct->info & CTF_VLA)) ||
-		    ctype_isenum(tct->info)))
-		cp_err_token(cp, CTOK_IDENT);
-	      ct->info = CTINFO(CT_ATTRIB, CTATTRIB(CTA_SUBTYPE) + ctypeid);
-	      ct->size = ctype_isstruct(tct->info) ?
-			 (decl.attr|0x80000000u) : 0;  /* For layout phase. */
-	      goto add_field;
-	    }
-	  } else {  /* Bitfield. */
-	    bsz = decl.bits;
-	    if (!ctype_isinteger_or_bool(tct->info) ||
-		(bsz == 0 && decl.name) || 8*tct->size > CTBSZ_MAX ||
-		bsz > ((tct->info & CTF_BOOL) ? 1 : 8*tct->size))
-	      cp_errmsg(cp, ':', LJ_ERR_BADVAL);
-	  }
-
-	  /* Create temporary field for layout phase. */
-	  ct->info = CTINFO(CT_FIELD, ctypeid + (bsz << CTSHIFT_BITCSZ));
-	  ct->size = decl.attr;
-	  if (decl.name) ctype_setname(ct, decl.name);
-
-	add_field:
-	  ctype_get(cp->cts, lastid)->sib = fieldid;
-	  lastid = fieldid;
-	}
-	if (!cp_opt(cp, ',')) break;
-	cp_decl_reset(&decl);
-      }
-      cp_check(cp, ';');
-    }
-    cp_check(cp, '}');
-    ctype_get(cp->cts, lastid)->sib = 0;  /* Drop sib = 1 for empty structs. */
-    cp_decl_attributes(cp, sdecl);  /* Layout phase needs postfix attributes. */
-    cp_struct_layout(cp, sid, sdecl->attr);
-  }
-  return sid;
-}
-
-/* Parse enum declaration. */
-static CTypeID cp_decl_enum(CPState *cp, CPDecl *sdecl)
-{
-  CTypeID eid = cp_struct_name(cp, sdecl, CTINFO(CT_ENUM, CTID_VOID));
-  CTInfo einfo = CTINFO(CT_ENUM, CTALIGN(2) + CTID_UINT32);
-  CTSize esize = 4;  /* Only 32 bit enums are supported. */
-  if (cp_opt(cp, '{')) {  /* Enum definition. */
-    CPValue k;
-    CTypeID lastid = eid;
-    k.u32 = 0;
-    k.id = CTID_INT32;
-    do {
-      GCstr *name = cp->str;
-      if (cp->tok != CTOK_IDENT) cp_err_token(cp, CTOK_IDENT);
-      if (cp->val.id) cp_errmsg(cp, 0, LJ_ERR_FFI_REDEF, strdata(name));
-      cp_next(cp);
-      if (cp_opt(cp, '=')) {
-	cp_expr_kint(cp, &k);
-	if (k.id == CTID_UINT32) {
-	  /* C99 says that enum constants are always (signed) integers.
-	  ** But since unsigned constants like 0x80000000 are quite common,
-	  ** those are left as uint32_t.
-	  */
-	  if (k.i32 >= 0) k.id = CTID_INT32;
-	} else {
-	  /* OTOH it's common practice and even mandated by some ABIs
-	  ** that the enum type itself is unsigned, unless there are any
-	  ** negative constants.
-	  */
-	  k.id = CTID_INT32;
-	  if (k.i32 < 0) einfo = CTINFO(CT_ENUM, CTALIGN(2) + CTID_INT32);
-	}
-      }
-      /* Add named enum constant. */
-      {
-	CType *ct;
-	CTypeID constid = lj_ctype_new(cp->cts, &ct);
-	ctype_get(cp->cts, lastid)->sib = constid;
-	lastid = constid;
-	ctype_setname(ct, name);
-	ct->info = CTINFO(CT_CONSTVAL, CTF_CONST|k.id);
-	ct->size = k.u32++;
-	if (k.u32 == 0x80000000u) k.id = CTID_UINT32;
-	lj_ctype_addname(cp->cts, ct, constid);
-      }
-      if (!cp_opt(cp, ',')) break;
-    } while (cp->tok != '}');  /* Trailing ',' is ok. */
-    cp_check(cp, '}');
-    /* Complete enum. */
-    ctype_get(cp->cts, eid)->info = einfo;
-    ctype_get(cp->cts, eid)->size = esize;
-  }
-  return eid;
-}
-
-/* Parse declaration specifiers. */
-static CPscl cp_decl_spec(CPState *cp, CPDecl *decl, CPscl scl)
-{
-  uint32_t cds = 0, sz = 0;
-  CTypeID tdef = 0;
-
-  decl->cp = cp;
-  decl->mode = cp->mode;
-  decl->name = NULL;
-  decl->redir = NULL;
-  decl->attr = 0;
-  decl->fattr = 0;
-  decl->pos = decl->top = 0;
-  decl->stack[0].next = 0;
-
-  for (;;) {  /* Parse basic types. */
-    cp_decl_attributes(cp, decl);
-    if (cp->tok >= CTOK_FIRSTDECL && cp->tok <= CTOK_LASTDECLFLAG) {
-      uint32_t cbit;
-      if (cp->ct->size) {
-	if (sz) goto end_decl;
-	sz = cp->ct->size;
-      }
-      cbit = (1u << (cp->tok - CTOK_FIRSTDECL));
-      cds = cds | cbit | ((cbit & cds & CDF_LONG) << 1);
-      if (cp->tok >= CTOK_FIRSTSCL) {
-	if (!(scl & cbit)) cp_errmsg(cp, cp->tok, LJ_ERR_FFI_BADSCL);
-      } else if (tdef) {
-	goto end_decl;
-      }
-      cp_next(cp);
-      continue;
-    }
-    if (sz || tdef ||
-	(cds & (CDF_SHORT|CDF_LONG|CDF_SIGNED|CDF_UNSIGNED|CDF_COMPLEX)))
-      break;
-    switch (cp->tok) {
-    case CTOK_STRUCT:
-      tdef = cp_decl_struct(cp, decl, CTINFO(CT_STRUCT, 0));
-      continue;
-    case CTOK_UNION:
-      tdef = cp_decl_struct(cp, decl, CTINFO(CT_STRUCT, CTF_UNION));
-      continue;
-    case CTOK_ENUM:
-      tdef = cp_decl_enum(cp, decl);
-      continue;
-    case CTOK_IDENT:
-      if (ctype_istypedef(cp->ct->info)) {
-	tdef = ctype_cid(cp->ct->info);  /* Get typedef. */
-	cp_next(cp);
-	continue;
-      }
-      break;
-    case '$':
-      tdef = cp->val.id;
-      cp_next(cp);
-      continue;
-    default:
-      break;
-    }
-    break;
-  }
-end_decl:
-
-  if ((cds & CDF_COMPLEX))  /* Use predefined complex types. */
-    tdef = sz == 4 ? CTID_COMPLEX_FLOAT : CTID_COMPLEX_DOUBLE;
-
-  if (tdef) {
-    cp_push_type(decl, tdef);
-  } else if ((cds & CDF_VOID)) {
-    cp_push(decl, CTINFO(CT_VOID, (decl->attr & CTF_QUAL)), CTSIZE_INVALID);
-    decl->attr &= ~CTF_QUAL;
-  } else {
-    /* Determine type info and size. */
-    CTInfo info = CTINFO(CT_NUM, (cds & CDF_UNSIGNED) ? CTF_UNSIGNED : 0);
-    if ((cds & CDF_BOOL)) {
-      if ((cds & ~(CDF_SCL|CDF_BOOL|CDF_INT|CDF_SIGNED|CDF_UNSIGNED)))
-	cp_errmsg(cp, 0, LJ_ERR_FFI_INVTYPE);
-      info |= CTF_BOOL;
-      if (!(cds & CDF_SIGNED)) info |= CTF_UNSIGNED;
-      if (!sz) {
-	sz = 1;
-      }
-    } else if ((cds & CDF_FP)) {
-      info = CTINFO(CT_NUM, CTF_FP);
-      if ((cds & CDF_LONG)) sz = sizeof(long double);
-    } else if ((cds & CDF_CHAR)) {
-      if ((cds & (CDF_CHAR|CDF_SIGNED|CDF_UNSIGNED)) == CDF_CHAR)
-	info |= CTF_UCHAR;  /* Handle platforms where char is unsigned. */
-    } else if ((cds & CDF_SHORT)) {
-      sz = sizeof(short);
-    } else if ((cds & CDF_LONGLONG)) {
-      sz = 8;
-    } else if ((cds & CDF_LONG)) {
-      info |= CTF_LONG;
-      sz = sizeof(long);
-    } else if (!sz) {
-      if (!(cds & (CDF_SIGNED|CDF_UNSIGNED)))
-	cp_errmsg(cp, cp->tok, LJ_ERR_FFI_DECLSPEC);
-      sz = sizeof(int);
-    }
-    lua_assert(sz != 0);
-    info += CTALIGN(lj_fls(sz));  /* Use natural alignment. */
-    info += (decl->attr & CTF_QUAL);  /* Merge qualifiers. */
-    cp_push(decl, info, sz);
-    decl->attr &= ~CTF_QUAL;
-  }
-  decl->specpos = decl->pos;
-  decl->specattr = decl->attr;
-  decl->specfattr = decl->fattr;
-  return (cds & CDF_SCL);  /* Return storage class. */
-}
-
-/* Parse array declaration. */
-static void cp_decl_array(CPState *cp, CPDecl *decl)
-{
-  CTInfo info = CTINFO(CT_ARRAY, 0);
-  CTSize nelem = CTSIZE_INVALID;  /* Default size for a[] or a[?]. */
-  cp_decl_attributes(cp, decl);
-  if (cp_opt(cp, '?'))
-    info |= CTF_VLA;  /* Create variable-length array a[?]. */
-  else if (cp->tok != ']')
-    nelem = cp_expr_ksize(cp);
-  cp_check(cp, ']');
-  cp_add(decl, info, nelem);
-}
-
-/* Parse function declaration. */
-static void cp_decl_func(CPState *cp, CPDecl *fdecl)
-{
-  CTSize nargs = 0;
-  CTInfo info = CTINFO(CT_FUNC, 0);
-  CTypeID lastid = 0, anchor = 0;
-  if (cp->tok != ')') {
-    do {
-      CPDecl decl;
-      CTypeID ctypeid, fieldid;
-      CType *ct;
-      if (cp_opt(cp, '.')) {  /* Vararg function. */
-	cp_check(cp, '.');  /* Workaround for the minimalistic lexer. */
-	cp_check(cp, '.');
-	info |= CTF_VARARG;
-	break;
-      }
-      cp_decl_spec(cp, &decl, CDF_REGISTER);
-      decl.mode = CPARSE_MODE_DIRECT|CPARSE_MODE_ABSTRACT;
-      cp_declarator(cp, &decl);
-      ctypeid = cp_decl_intern(cp, &decl);
-      ct = ctype_raw(cp->cts, ctypeid);
-      if (ctype_isvoid(ct->info))
-	break;
-      else if (ctype_isrefarray(ct->info))
-	ctypeid = lj_ctype_intern(cp->cts,
-	  CTINFO(CT_PTR, CTALIGN_PTR|ctype_cid(ct->info)), CTSIZE_PTR);
-      else if (ctype_isfunc(ct->info))
-	ctypeid = lj_ctype_intern(cp->cts,
-	  CTINFO(CT_PTR, CTALIGN_PTR|ctypeid), CTSIZE_PTR);
-      /* Add new parameter. */
-      fieldid = lj_ctype_new(cp->cts, &ct);
-      if (anchor)
-	ctype_get(cp->cts, lastid)->sib = fieldid;
-      else
-	anchor = fieldid;
-      lastid = fieldid;
-      if (decl.name) ctype_setname(ct, decl.name);
-      ct->info = CTINFO(CT_FIELD, ctypeid);
-      ct->size = nargs++;
-    } while (cp_opt(cp, ','));
-  }
-  cp_check(cp, ')');
-  if (cp_opt(cp, '{')) {  /* Skip function definition. */
-    int level = 1;
-    cp->mode |= CPARSE_MODE_SKIP;
-    for (;;) {
-      if (cp->tok == '{') level++;
-      else if (cp->tok == '}' && --level == 0) break;
-      else if (cp->tok == CTOK_EOF) cp_err_token(cp, '}');
-      cp_next(cp);
-    }
-    cp->mode &= ~CPARSE_MODE_SKIP;
-    cp->tok = ';';  /* Ok for cp_decl_multi(), error in cp_decl_single(). */
-  }
-  info |= (fdecl->fattr & ~CTMASK_CID);
-  fdecl->fattr = 0;
-  fdecl->stack[cp_add(fdecl, info, nargs)].sib = anchor;
-}
-
-/* Parse declarator. */
-static void cp_declarator(CPState *cp, CPDecl *decl)
-{
-  if (++cp->depth > CPARSE_MAX_DECLDEPTH) cp_err(cp, LJ_ERR_XLEVELS);
-
-  for (;;) {  /* Head of declarator. */
-    if (cp_opt(cp, '*')) {  /* Pointer. */
-      CTSize sz;
-      CTInfo info;
-      cp_decl_attributes(cp, decl);
-      sz = CTSIZE_PTR;
-      info = CTINFO(CT_PTR, CTALIGN_PTR);
-#if LJ_64
-      if (ctype_msizeP(decl->attr) == 4) {
-	sz = 4;
-	info = CTINFO(CT_PTR, CTALIGN(2));
-      }
-#endif
-      info += (decl->attr & (CTF_QUAL|CTF_REF));
-      decl->attr &= ~(CTF_QUAL|(CTMASK_MSIZEP<<CTSHIFT_MSIZEP));
-      cp_push(decl, info, sz);
-    } else if (cp_opt(cp, '&') || cp_opt(cp, CTOK_ANDAND)) {  /* Reference. */
-      decl->attr &= ~(CTF_QUAL|(CTMASK_MSIZEP<<CTSHIFT_MSIZEP));
-      cp_push(decl, CTINFO_REF(0), CTSIZE_PTR);
-    } else {
-      break;
-    }
-  }
-
-  if (cp_opt(cp, '(')) {  /* Inner declarator. */
-    CPDeclIdx pos;
-    cp_decl_attributes(cp, decl);
-    /* Resolve ambiguity between inner declarator and 1st function parameter. */
-    if ((decl->mode & CPARSE_MODE_ABSTRACT) &&
-	(cp->tok == ')' || cp_istypedecl(cp))) goto func_decl;
-    pos = decl->pos;
-    cp_declarator(cp, decl);
-    cp_check(cp, ')');
-    decl->pos = pos;
-  } else if (cp->tok == CTOK_IDENT) {  /* Direct declarator. */
-    if (!(decl->mode & CPARSE_MODE_DIRECT)) cp_err_token(cp, CTOK_EOF);
-    decl->name = cp->str;
-    decl->nameid = cp->val.id;
-    cp_next(cp);
-  } else {  /* Abstract declarator. */
-    if (!(decl->mode & CPARSE_MODE_ABSTRACT)) cp_err_token(cp, CTOK_IDENT);
-  }
-
-  for (;;) {  /* Tail of declarator. */
-    if (cp_opt(cp, '[')) {  /* Array. */
-      cp_decl_array(cp, decl);
-    } else if (cp_opt(cp, '(')) {  /* Function. */
-    func_decl:
-      cp_decl_func(cp, decl);
-    } else {
-      break;
-    }
-  }
-
-  if ((decl->mode & CPARSE_MODE_FIELD) && cp_opt(cp, ':'))  /* Field width. */
-    decl->bits = cp_expr_ksize(cp);
-
-  /* Process postfix attributes. */
-  cp_decl_attributes(cp, decl);
-  cp_push_attributes(decl);
-
-  cp->depth--;
-}
-
-/* Parse an abstract type declaration and return it's C type ID. */
-static CTypeID cp_decl_abstract(CPState *cp)
-{
-  CPDecl decl;
-  cp_decl_spec(cp, &decl, 0);
-  decl.mode = CPARSE_MODE_ABSTRACT;
-  cp_declarator(cp, &decl);
-  return cp_decl_intern(cp, &decl);
-}
-
-/* Handle pragmas. */
-static void cp_pragma(CPState *cp, BCLine pragmaline)
-{
-  cp_next(cp);
-  if (cp->tok == CTOK_IDENT &&
-      cp->str->hash == H_(e79b999f,42ca3e85))  {  /* pack */
-    cp_next(cp);
-    cp_check(cp, '(');
-    if (cp->tok == CTOK_IDENT) {
-      if (cp->str->hash == H_(738e923c,a1b65954)) {  /* push */
-	if (cp->curpack < CPARSE_MAX_PACKSTACK) {
-	  cp->packstack[cp->curpack+1] = cp->packstack[cp->curpack];
-	  cp->curpack++;
-	}
-      } else if (cp->str->hash == H_(6c71cf27,6c71cf27)) {  /* pop */
-	if (cp->curpack > 0) cp->curpack--;
-      } else {
-	cp_errmsg(cp, cp->tok, LJ_ERR_XSYMBOL);
-      }
-      cp_next(cp);
-      if (!cp_opt(cp, ',')) goto end_pack;
-    }
-    if (cp->tok == CTOK_INTEGER) {
-      cp->packstack[cp->curpack] = cp->val.u32 ? lj_fls(cp->val.u32) : 0;
-      cp_next(cp);
-    } else {
-      cp->packstack[cp->curpack] = 255;
-    }
-  end_pack:
-    cp_check(cp, ')');
-  } else {  /* Ignore all other pragmas. */
-    while (cp->tok != CTOK_EOF && cp->linenumber == pragmaline)
-      cp_next(cp);
-  }
-}
-
-/* Parse multiple C declarations of types or extern identifiers. */
-static void cp_decl_multi(CPState *cp)
-{
-  int first = 1;
-  while (cp->tok != CTOK_EOF) {
-    CPDecl decl;
-    CPscl scl;
-    if (cp_opt(cp, ';')) {  /* Skip empty statements. */
-      first = 0;
-      continue;
-    }
-    if (cp->tok == '#') {  /* Workaround, since we have no preprocessor, yet. */
-      BCLine pragmaline = cp->linenumber;
-      if (!(cp_next(cp) == CTOK_IDENT &&
-	    cp->str->hash == H_(f5e6b4f8,1d509107)))  /* pragma */
-	cp_errmsg(cp, cp->tok, LJ_ERR_XSYMBOL);
-      cp_pragma(cp, pragmaline);
-      continue;
-    }
-    scl = cp_decl_spec(cp, &decl, CDF_TYPEDEF|CDF_EXTERN|CDF_STATIC);
-    if ((cp->tok == ';' || cp->tok == CTOK_EOF) &&
-	ctype_istypedef(decl.stack[0].info)) {
-      CTInfo info = ctype_rawchild(cp->cts, &decl.stack[0])->info;
-      if (ctype_isstruct(info) || ctype_isenum(info))
-	goto decl_end;  /* Accept empty declaration of struct/union/enum. */
-    }
-    for (;;) {
-      CTypeID ctypeid;
-      cp_declarator(cp, &decl);
-      ctypeid = cp_decl_intern(cp, &decl);
-      if (decl.name && !decl.nameid) {  /* NYI: redeclarations are ignored. */
-	CType *ct;
-	CTypeID id;
-	if ((scl & CDF_TYPEDEF)) {  /* Create new typedef. */
-	  id = lj_ctype_new(cp->cts, &ct);
-	  ct->info = CTINFO(CT_TYPEDEF, ctypeid);
-	  goto noredir;
-	} else if (ctype_isfunc(ctype_get(cp->cts, ctypeid)->info)) {
-	  /* Treat both static and extern function declarations as extern. */
-	  ct = ctype_get(cp->cts, ctypeid);
-	  /* We always get new anonymous functions (typedefs are copied). */
-	  lua_assert(gcref(ct->name) == NULL);
-	  id = ctypeid;  /* Just name it. */
-	} else if ((scl & CDF_STATIC)) {  /* Accept static constants. */
-	  id = cp_decl_constinit(cp, &ct, ctypeid);
-	  goto noredir;
-	} else {  /* External references have extern or no storage class. */
-	  id = lj_ctype_new(cp->cts, &ct);
-	  ct->info = CTINFO(CT_EXTERN, ctypeid);
-	}
-	if (decl.redir) {  /* Add attribute for redirected symbol name. */
-	  CType *cta;
-	  CTypeID aid = lj_ctype_new(cp->cts, &cta);
-	  ct = ctype_get(cp->cts, id);  /* Table may have been reallocated. */
-	  cta->info = CTINFO(CT_ATTRIB, CTATTRIB(CTA_REDIR));
-	  cta->sib = ct->sib;
-	  ct->sib = aid;
-	  ctype_setname(cta, decl.redir);
-	}
-      noredir:
-	ctype_setname(ct, decl.name);
-	lj_ctype_addname(cp->cts, ct, id);
-      }
-      if (!cp_opt(cp, ',')) break;
-      cp_decl_reset(&decl);
-    }
-  decl_end:
-    if (cp->tok == CTOK_EOF && first) break;  /* May omit ';' for 1 decl. */
-    first = 0;
-    cp_check(cp, ';');
-  }
-}
-
-/* Parse a single C type declaration. */
-static void cp_decl_single(CPState *cp)
-{
-  CPDecl decl;
-  cp_decl_spec(cp, &decl, 0);
-  cp_declarator(cp, &decl);
-  cp->val.id = cp_decl_intern(cp, &decl);
-  if (cp->tok != CTOK_EOF) cp_err_token(cp, CTOK_EOF);
-}
-
-#undef H_
-
-/* ------------------------------------------------------------------------ */
-
-/* Protected callback for C parser. */
-static TValue *cpcparser(lua_State *L, lua_CFunction dummy, void *ud)
-{
-  CPState *cp = (CPState *)ud;
-  UNUSED(dummy);
-  cframe_errfunc(L->cframe) = -1;  /* Inherit error function. */
-  cp_init(cp);
-  if ((cp->mode & CPARSE_MODE_MULTI))
-    cp_decl_multi(cp);
-  else
-    cp_decl_single(cp);
-  if (cp->param && cp->param != cp->L->top)
-    cp_err(cp, LJ_ERR_FFI_NUMPARAM);
-  lua_assert(cp->depth == 0);
-  return NULL;
-}
-
-/* C parser. */
-int lj_cparse(CPState *cp)
-{
-  LJ_CTYPE_SAVE(cp->cts);
-  int errcode = lj_vm_cpcall(cp->L, NULL, cp, cpcparser);
-  if (errcode)
-    LJ_CTYPE_RESTORE(cp->cts);
-  cp_cleanup(cp);
-  return errcode;
-}
-
-#endif
diff --git a/luajit-2.0/src/lj_cparse.h b/luajit-2.0/src/lj_cparse.h
deleted file mode 100644
index 586f494..0000000
--- a/luajit-2.0/src/lj_cparse.h
+++ /dev/null
@@ -1,65 +0,0 @@
-/*
-** C declaration parser.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#ifndef _LJ_CPARSE_H
-#define _LJ_CPARSE_H
-
-#include "lj_obj.h"
-#include "lj_ctype.h"
-
-#if LJ_HASFFI
-
-/* C parser limits. */
-#define CPARSE_MAX_BUF		32768	/* Max. token buffer size. */
-#define CPARSE_MAX_DECLSTACK	100	/* Max. declaration stack depth. */
-#define CPARSE_MAX_DECLDEPTH	20	/* Max. recursive declaration depth. */
-#define CPARSE_MAX_PACKSTACK	7	/* Max. pack pragma stack depth. */
-
-/* Flags for C parser mode. */
-#define CPARSE_MODE_MULTI	1	/* Process multiple declarations. */
-#define CPARSE_MODE_ABSTRACT	2	/* Accept abstract declarators. */
-#define CPARSE_MODE_DIRECT	4	/* Accept direct declarators. */
-#define CPARSE_MODE_FIELD	8	/* Accept field width in bits, too. */
-#define CPARSE_MODE_NOIMPLICIT	16	/* Reject implicit declarations. */
-#define CPARSE_MODE_SKIP	32	/* Skip definitions, ignore errors. */
-
-typedef int CPChar;	/* C parser character. Unsigned ext. from char. */
-typedef int CPToken;	/* C parser token. */
-
-/* C parser internal value representation. */
-typedef struct CPValue {
-  union {
-    int32_t i32;	/* Value for CTID_INT32. */
-    uint32_t u32;	/* Value for CTID_UINT32. */
-  };
-  CTypeID id;		/* C Type ID of the value. */
-} CPValue;
-
-/* C parser state. */
-typedef struct CPState {
-  CPChar c;		/* Current character. */
-  CPToken tok;		/* Current token. */
-  CPValue val;		/* Token value. */
-  GCstr *str;		/* Interned string of identifier/keyword. */
-  CType *ct;		/* C type table entry. */
-  const char *p;	/* Current position in input buffer. */
-  SBuf sb;		/* String buffer for tokens. */
-  lua_State *L;		/* Lua state. */
-  CTState *cts;		/* C type state. */
-  TValue *param;	/* C type parameters. */
-  const char *srcname;	/* Current source name. */
-  BCLine linenumber;	/* Input line counter. */
-  int depth;		/* Recursive declaration depth. */
-  uint32_t tmask;	/* Type mask for next identifier. */
-  uint32_t mode;	/* C parser mode. */
-  uint8_t packstack[CPARSE_MAX_PACKSTACK];  /* Stack for pack pragmas. */
-  uint8_t curpack;	/* Current position in pack pragma stack. */
-} CPState;
-
-LJ_FUNC int lj_cparse(CPState *cp);
-
-#endif
-
-#endif
diff --git a/luajit-2.0/src/lj_crecord.c b/luajit-2.0/src/lj_crecord.c
deleted file mode 100644
index fe08b93..0000000
--- a/luajit-2.0/src/lj_crecord.c
+++ /dev/null
@@ -1,1671 +0,0 @@
-/*
-** Trace recorder for C data operations.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#define lj_ffrecord_c
-#define LUA_CORE
-
-#include "lj_obj.h"
-
-#if LJ_HASJIT && LJ_HASFFI
-
-#include "lj_err.h"
-#include "lj_str.h"
-#include "lj_tab.h"
-#include "lj_frame.h"
-#include "lj_ctype.h"
-#include "lj_cdata.h"
-#include "lj_cparse.h"
-#include "lj_cconv.h"
-#include "lj_clib.h"
-#include "lj_ccall.h"
-#include "lj_ff.h"
-#include "lj_ir.h"
-#include "lj_jit.h"
-#include "lj_ircall.h"
-#include "lj_iropt.h"
-#include "lj_trace.h"
-#include "lj_record.h"
-#include "lj_ffrecord.h"
-#include "lj_snap.h"
-#include "lj_crecord.h"
-#include "lj_dispatch.h"
-
-/* Some local macros to save typing. Undef'd at the end. */
-#define IR(ref)			(&J->cur.ir[(ref)])
-
-/* Pass IR on to next optimization in chain (FOLD). */
-#define emitir(ot, a, b)	(lj_ir_set(J, (ot), (a), (b)), lj_opt_fold(J))
-
-#define emitconv(a, dt, st, flags) \
-  emitir(IRT(IR_CONV, (dt)), (a), (st)|((dt) << 5)|(flags))
-
-/* -- C type checks ------------------------------------------------------- */
-
-static GCcdata *argv2cdata(jit_State *J, TRef tr, cTValue *o)
-{
-  GCcdata *cd;
-  TRef trtypeid;
-  if (!tref_iscdata(tr))
-    lj_trace_err(J, LJ_TRERR_BADTYPE);
-  cd = cdataV(o);
-  /* Specialize to the CTypeID. */
-  trtypeid = emitir(IRT(IR_FLOAD, IRT_U16), tr, IRFL_CDATA_CTYPEID);
-  emitir(IRTG(IR_EQ, IRT_INT), trtypeid, lj_ir_kint(J, (int32_t)cd->ctypeid));
-  return cd;
-}
-
-/* Specialize to the CTypeID held by a cdata constructor. */
-static CTypeID crec_constructor(jit_State *J, GCcdata *cd, TRef tr)
-{
-  CTypeID id;
-  lua_assert(tref_iscdata(tr) && cd->ctypeid == CTID_CTYPEID);
-  id = *(CTypeID *)cdataptr(cd);
-  tr = emitir(IRT(IR_FLOAD, IRT_INT), tr, IRFL_CDATA_INT);
-  emitir(IRTG(IR_EQ, IRT_INT), tr, lj_ir_kint(J, (int32_t)id));
-  return id;
-}
-
-static CTypeID argv2ctype(jit_State *J, TRef tr, cTValue *o)
-{
-  if (tref_isstr(tr)) {
-    GCstr *s = strV(o);
-    CPState cp;
-    CTypeID oldtop;
-    /* Specialize to the string containing the C type declaration. */
-    emitir(IRTG(IR_EQ, IRT_STR), tr, lj_ir_kstr(J, s));
-    cp.L = J->L;
-    cp.cts = ctype_ctsG(J2G(J));
-    oldtop = cp.cts->top;
-    cp.srcname = strdata(s);
-    cp.p = strdata(s);
-    cp.param = NULL;
-    cp.mode = CPARSE_MODE_ABSTRACT|CPARSE_MODE_NOIMPLICIT;
-    if (lj_cparse(&cp) || cp.cts->top > oldtop)  /* Avoid new struct defs. */
-      lj_trace_err(J, LJ_TRERR_BADTYPE);
-    return cp.val.id;
-  } else {
-    GCcdata *cd = argv2cdata(J, tr, o);
-    return cd->ctypeid == CTID_CTYPEID ? crec_constructor(J, cd, tr) :
-					cd->ctypeid;
-  }
-}
-
-/* Convert CType to IRType (if possible). */
-static IRType crec_ct2irt(CTState *cts, CType *ct)
-{
-  if (ctype_isenum(ct->info)) ct = ctype_child(cts, ct);
-  if (LJ_LIKELY(ctype_isnum(ct->info))) {
-    if ((ct->info & CTF_FP)) {
-      if (ct->size == sizeof(double))
-	return IRT_NUM;
-      else if (ct->size == sizeof(float))
-	return IRT_FLOAT;
-    } else {
-      uint32_t b = lj_fls(ct->size);
-      if (b <= 3)
-	return IRT_I8 + 2*b + ((ct->info & CTF_UNSIGNED) ? 1 : 0);
-    }
-  } else if (ctype_isptr(ct->info)) {
-    return (LJ_64 && ct->size == 8) ? IRT_P64 : IRT_P32;
-  } else if (ctype_iscomplex(ct->info)) {
-    if (ct->size == 2*sizeof(double))
-      return IRT_NUM;
-    else if (ct->size == 2*sizeof(float))
-      return IRT_FLOAT;
-  }
-  return IRT_CDATA;
-}
-
-/* -- Optimized memory fill and copy -------------------------------------- */
-
-/* Maximum length and unroll of inlined copy/fill. */
-#define CREC_COPY_MAXUNROLL		16
-#define CREC_COPY_MAXLEN		128
-
-#define CREC_FILL_MAXUNROLL		16
-
-/* Number of windowed registers used for optimized memory copy. */
-#if LJ_TARGET_X86
-#define CREC_COPY_REGWIN		2
-#elif LJ_TARGET_PPC || LJ_TARGET_MIPS
-#define CREC_COPY_REGWIN		8
-#else
-#define CREC_COPY_REGWIN		4
-#endif
-
-/* List of memory offsets for copy/fill. */
-typedef struct CRecMemList {
-  CTSize ofs;		/* Offset in bytes. */
-  IRType tp;		/* Type of load/store. */
-  TRef trofs;		/* TRef of interned offset. */
-  TRef trval;		/* TRef of load value. */
-} CRecMemList;
-
-/* Generate copy list for element-wise struct copy. */
-static MSize crec_copy_struct(CRecMemList *ml, CTState *cts, CType *ct)
-{
-  CTypeID fid = ct->sib;
-  MSize mlp = 0;
-  while (fid) {
-    CType *df = ctype_get(cts, fid);
-    fid = df->sib;
-    if (ctype_isfield(df->info)) {
-      CType *cct;
-      IRType tp;
-      if (!gcref(df->name)) continue;  /* Ignore unnamed fields. */
-      cct = ctype_rawchild(cts, df);  /* Field type. */
-      tp = crec_ct2irt(cts, cct);
-      if (tp == IRT_CDATA) return 0;  /* NYI: aggregates. */
-      if (mlp >= CREC_COPY_MAXUNROLL) return 0;
-      ml[mlp].ofs = df->size;
-      ml[mlp].tp = tp;
-      mlp++;
-      if (ctype_iscomplex(cct->info)) {
-	if (mlp >= CREC_COPY_MAXUNROLL) return 0;
-	ml[mlp].ofs = df->size + (cct->size >> 1);
-	ml[mlp].tp = tp;
-	mlp++;
-      }
-    } else if (!ctype_isconstval(df->info)) {
-      /* NYI: bitfields and sub-structures. */
-      return 0;
-    }
-  }
-  return mlp;
-}
-
-/* Generate unrolled copy list, from highest to lowest step size/alignment. */
-static MSize crec_copy_unroll(CRecMemList *ml, CTSize len, CTSize step,
-			      IRType tp)
-{
-  CTSize ofs = 0;
-  MSize mlp = 0;
-  if (tp == IRT_CDATA) tp = IRT_U8 + 2*lj_fls(step);
-  do {
-    while (ofs + step <= len) {
-      if (mlp >= CREC_COPY_MAXUNROLL) return 0;
-      ml[mlp].ofs = ofs;
-      ml[mlp].tp = tp;
-      mlp++;
-      ofs += step;
-    }
-    step >>= 1;
-    tp -= 2;
-  } while (ofs < len);
-  return mlp;
-}
-
-/*
-** Emit copy list with windowed loads/stores.
-** LJ_TARGET_UNALIGNED: may emit unaligned loads/stores (not marked as such).
-*/
-static void crec_copy_emit(jit_State *J, CRecMemList *ml, MSize mlp,
-			   TRef trdst, TRef trsrc)
-{
-  MSize i, j, rwin = 0;
-  for (i = 0, j = 0; i < mlp; ) {
-    TRef trofs = lj_ir_kintp(J, ml[i].ofs);
-    TRef trsptr = emitir(IRT(IR_ADD, IRT_PTR), trsrc, trofs);
-    ml[i].trval = emitir(IRT(IR_XLOAD, ml[i].tp), trsptr, 0);
-    ml[i].trofs = trofs;
-    i++;
-    rwin += (LJ_SOFTFP && ml[i].tp == IRT_NUM) ? 2 : 1;
-    if (rwin >= CREC_COPY_REGWIN || i >= mlp) {  /* Flush buffered stores. */
-      rwin = 0;
-      for ( ; j < i; j++) {
-	TRef trdptr = emitir(IRT(IR_ADD, IRT_PTR), trdst, ml[j].trofs);
-	emitir(IRT(IR_XSTORE, ml[j].tp), trdptr, ml[j].trval);
-      }
-    }
-  }
-}
-
-/* Optimized memory copy. */
-static void crec_copy(jit_State *J, TRef trdst, TRef trsrc, TRef trlen,
-		      CType *ct)
-{
-  if (tref_isk(trlen)) {  /* Length must be constant. */
-    CRecMemList ml[CREC_COPY_MAXUNROLL];
-    MSize mlp = 0;
-    CTSize step = 1, len = (CTSize)IR(tref_ref(trlen))->i;
-    IRType tp = IRT_CDATA;
-    int needxbar = 0;
-    if (len == 0) return;  /* Shortcut. */
-    if (len > CREC_COPY_MAXLEN) goto fallback;
-    if (ct) {
-      CTState *cts = ctype_ctsG(J2G(J));
-      lua_assert(ctype_isarray(ct->info) || ctype_isstruct(ct->info));
-      if (ctype_isarray(ct->info)) {
-	CType *cct = ctype_rawchild(cts, ct);
-	tp = crec_ct2irt(cts, cct);
-	if (tp == IRT_CDATA) goto rawcopy;
-	step = lj_ir_type_size[tp];
-	lua_assert((len & (step-1)) == 0);
-      } else if ((ct->info & CTF_UNION)) {
-	step = (1u << ctype_align(ct->info));
-	goto rawcopy;
-      } else {
-	mlp = crec_copy_struct(ml, cts, ct);
-	goto emitcopy;
-      }
-    } else {
-    rawcopy:
-      needxbar = 1;
-      if (LJ_TARGET_UNALIGNED || step >= CTSIZE_PTR)
-	step = CTSIZE_PTR;
-    }
-    mlp = crec_copy_unroll(ml, len, step, tp);
-  emitcopy:
-    if (mlp) {
-      crec_copy_emit(J, ml, mlp, trdst, trsrc);
-      if (needxbar)
-	emitir(IRT(IR_XBAR, IRT_NIL), 0, 0);
-      return;
-    }
-  }
-fallback:
-  /* Call memcpy. Always needs a barrier to disable alias analysis. */
-  lj_ir_call(J, IRCALL_memcpy, trdst, trsrc, trlen);
-  emitir(IRT(IR_XBAR, IRT_NIL), 0, 0);
-}
-
-/* Generate unrolled fill list, from highest to lowest step size/alignment. */
-static MSize crec_fill_unroll(CRecMemList *ml, CTSize len, CTSize step)
-{
-  CTSize ofs = 0;
-  MSize mlp = 0;
-  IRType tp = IRT_U8 + 2*lj_fls(step);
-  do {
-    while (ofs + step <= len) {
-      if (mlp >= CREC_COPY_MAXUNROLL) return 0;
-      ml[mlp].ofs = ofs;
-      ml[mlp].tp = tp;
-      mlp++;
-      ofs += step;
-    }
-    step >>= 1;
-    tp -= 2;
-  } while (ofs < len);
-  return mlp;
-}
-
-/*
-** Emit stores for fill list.
-** LJ_TARGET_UNALIGNED: may emit unaligned stores (not marked as such).
-*/
-static void crec_fill_emit(jit_State *J, CRecMemList *ml, MSize mlp,
-			   TRef trdst, TRef trfill)
-{
-  MSize i;
-  for (i = 0; i < mlp; i++) {
-    TRef trofs = lj_ir_kintp(J, ml[i].ofs);
-    TRef trdptr = emitir(IRT(IR_ADD, IRT_PTR), trdst, trofs);
-    emitir(IRT(IR_XSTORE, ml[i].tp), trdptr, trfill);
-  }
-}
-
-/* Optimized memory fill. */
-static void crec_fill(jit_State *J, TRef trdst, TRef trlen, TRef trfill,
-		      CTSize step)
-{
-  if (tref_isk(trlen)) {  /* Length must be constant. */
-    CRecMemList ml[CREC_FILL_MAXUNROLL];
-    MSize mlp;
-    CTSize len = (CTSize)IR(tref_ref(trlen))->i;
-    if (len == 0) return;  /* Shortcut. */
-    if (LJ_TARGET_UNALIGNED || step >= CTSIZE_PTR)
-      step = CTSIZE_PTR;
-    if (step * CREC_FILL_MAXUNROLL < len) goto fallback;
-    mlp = crec_fill_unroll(ml, len, step);
-    if (!mlp) goto fallback;
-    if (tref_isk(trfill) || ml[0].tp != IRT_U8)
-      trfill = emitconv(trfill, IRT_INT, IRT_U8, 0);
-    if (ml[0].tp != IRT_U8) {  /* Scatter U8 to U16/U32/U64. */
-      if (CTSIZE_PTR == 8 && ml[0].tp == IRT_U64) {
-	if (tref_isk(trfill))  /* Pointless on x64 with zero-extended regs. */
-	  trfill = emitconv(trfill, IRT_U64, IRT_U32, 0);
-	trfill = emitir(IRT(IR_MUL, IRT_U64), trfill,
-			lj_ir_kint64(J, U64x(01010101,01010101)));
-      } else {
-	trfill = emitir(IRTI(IR_MUL), trfill,
-		   lj_ir_kint(J, ml[0].tp == IRT_U16 ? 0x0101 : 0x01010101));
-      }
-    }
-    crec_fill_emit(J, ml, mlp, trdst, trfill);
-  } else {
-fallback:
-    /* Call memset. Always needs a barrier to disable alias analysis. */
-    lj_ir_call(J, IRCALL_memset, trdst, trfill, trlen);  /* Note: arg order! */
-  }
-  emitir(IRT(IR_XBAR, IRT_NIL), 0, 0);
-}
-
-/* -- Convert C type to C type -------------------------------------------- */
-
-/*
-** This code mirrors the code in lj_cconv.c. It performs the same steps
-** for the trace recorder that lj_cconv.c does for the interpreter.
-**
-** One major difference is that we can get away with much fewer checks
-** here. E.g. checks for casts, constness or correct types can often be
-** omitted, even if they might fail. The interpreter subsequently throws
-** an error, which aborts the trace.
-**
-** All operations are specialized to their C types, so the on-trace
-** outcome must be the same as the outcome in the interpreter. If the
-** interpreter doesn't throw an error, then the trace is correct, too.
-** Care must be taken not to generate invalid (temporary) IR or to
-** trigger asserts.
-*/
-
-/* Determine whether a passed number or cdata number is non-zero. */
-static int crec_isnonzero(CType *s, void *p)
-{
-  if (p == (void *)0)
-    return 0;
-  if (p == (void *)1)
-    return 1;
-  if ((s->info & CTF_FP)) {
-    if (s->size == sizeof(float))
-      return (*(float *)p != 0);
-    else
-      return (*(double *)p != 0);
-  } else {
-    if (s->size == 1)
-      return (*(uint8_t *)p != 0);
-    else if (s->size == 2)
-      return (*(uint16_t *)p != 0);
-    else if (s->size == 4)
-      return (*(uint32_t *)p != 0);
-    else
-      return (*(uint64_t *)p != 0);
-  }
-}
-
-static TRef crec_ct_ct(jit_State *J, CType *d, CType *s, TRef dp, TRef sp,
-		       void *svisnz)
-{
-  IRType dt = crec_ct2irt(ctype_ctsG(J2G(J)), d);
-  IRType st = crec_ct2irt(ctype_ctsG(J2G(J)), s);
-  CTSize dsize = d->size, ssize = s->size;
-  CTInfo dinfo = d->info, sinfo = s->info;
-
-  if (ctype_type(dinfo) > CT_MAYCONVERT || ctype_type(sinfo) > CT_MAYCONVERT)
-    goto err_conv;
-
-  /*
-  ** Note: Unlike lj_cconv_ct_ct(), sp holds the _value_ of pointers and
-  ** numbers up to 8 bytes. Otherwise sp holds a pointer.
-  */
-
-  switch (cconv_idx2(dinfo, sinfo)) {
-  /* Destination is a bool. */
-  case CCX(B, B):
-    goto xstore;  /* Source operand is already normalized. */
-  case CCX(B, I):
-  case CCX(B, F):
-    if (st != IRT_CDATA) {
-      /* Specialize to the result of a comparison against 0. */
-      TRef zero = (st == IRT_NUM  || st == IRT_FLOAT) ? lj_ir_knum(J, 0) :
-		  (st == IRT_I64 || st == IRT_U64) ? lj_ir_kint64(J, 0) :
-		  lj_ir_kint(J, 0);
-      int isnz = crec_isnonzero(s, svisnz);
-      emitir(IRTG(isnz ? IR_NE : IR_EQ, st), sp, zero);
-      sp = lj_ir_kint(J, isnz);
-      goto xstore;
-    }
-    goto err_nyi;
-
-  /* Destination is an integer. */
-  case CCX(I, B):
-  case CCX(I, I):
-  conv_I_I:
-    if (dt == IRT_CDATA || st == IRT_CDATA) goto err_nyi;
-    /* Extend 32 to 64 bit integer. */
-    if (dsize == 8 && ssize < 8 && !(LJ_64 && (sinfo & CTF_UNSIGNED)))
-      sp = emitconv(sp, dt, ssize < 4 ? IRT_INT : st,
-		    (sinfo & CTF_UNSIGNED) ? 0 : IRCONV_SEXT);
-    else if (dsize < 8 && ssize == 8)  /* Truncate from 64 bit integer. */
-      sp = emitconv(sp, dsize < 4 ? IRT_INT : dt, st, 0);
-    else if (st == IRT_INT)
-      sp = lj_opt_narrow_toint(J, sp);
-  xstore:
-    if (dt == IRT_I64 || dt == IRT_U64) lj_needsplit(J);
-    if (dp == 0) return sp;
-    emitir(IRT(IR_XSTORE, dt), dp, sp);
-    break;
-  case CCX(I, C):
-    sp = emitir(IRT(IR_XLOAD, st), sp, 0);  /* Load re. */
-    /* fallthrough */
-  case CCX(I, F):
-    if (dt == IRT_CDATA || st == IRT_CDATA) goto err_nyi;
-    sp = emitconv(sp, dsize < 4 ? IRT_INT : dt, st, IRCONV_TRUNC|IRCONV_ANY);
-    goto xstore;
-  case CCX(I, P):
-  case CCX(I, A):
-    sinfo = CTINFO(CT_NUM, CTF_UNSIGNED);
-    ssize = CTSIZE_PTR;
-    st = IRT_UINTP;
-    if (((dsize ^ ssize) & 8) == 0) {  /* Must insert no-op type conversion. */
-      sp = emitconv(sp, dsize < 4 ? IRT_INT : dt, IRT_PTR, 0);
-      goto xstore;
-    }
-    goto conv_I_I;
-
-  /* Destination is a floating-point number. */
-  case CCX(F, B):
-  case CCX(F, I):
-  conv_F_I:
-    if (dt == IRT_CDATA || st == IRT_CDATA) goto err_nyi;
-    sp = emitconv(sp, dt, ssize < 4 ? IRT_INT : st, 0);
-    goto xstore;
-  case CCX(F, C):
-    sp = emitir(IRT(IR_XLOAD, st), sp, 0);  /* Load re. */
-    /* fallthrough */
-  case CCX(F, F):
-  conv_F_F:
-    if (dt == IRT_CDATA || st == IRT_CDATA) goto err_nyi;
-    if (dt != st) sp = emitconv(sp, dt, st, 0);
-    goto xstore;
-
-  /* Destination is a complex number. */
-  case CCX(C, I):
-  case CCX(C, F):
-    {  /* Clear im. */
-      TRef ptr = emitir(IRT(IR_ADD, IRT_PTR), dp, lj_ir_kintp(J, (dsize >> 1)));
-      emitir(IRT(IR_XSTORE, dt), ptr, lj_ir_knum(J, 0));
-    }
-    /* Convert to re. */
-    if ((sinfo & CTF_FP)) goto conv_F_F; else goto conv_F_I;
-
-  case CCX(C, C):
-    if (dt == IRT_CDATA || st == IRT_CDATA) goto err_nyi;
-    {
-      TRef re, im, ptr;
-      re = emitir(IRT(IR_XLOAD, st), sp, 0);
-      ptr = emitir(IRT(IR_ADD, IRT_PTR), sp, lj_ir_kintp(J, (ssize >> 1)));
-      im = emitir(IRT(IR_XLOAD, st), ptr, 0);
-      if (dt != st) {
-	re = emitconv(re, dt, st, 0);
-	im = emitconv(im, dt, st, 0);
-      }
-      emitir(IRT(IR_XSTORE, dt), dp, re);
-      ptr = emitir(IRT(IR_ADD, IRT_PTR), dp, lj_ir_kintp(J, (dsize >> 1)));
-      emitir(IRT(IR_XSTORE, dt), ptr, im);
-    }
-    break;
-
-  /* Destination is a vector. */
-  case CCX(V, I):
-  case CCX(V, F):
-  case CCX(V, C):
-  case CCX(V, V):
-    goto err_nyi;
-
-  /* Destination is a pointer. */
-  case CCX(P, P):
-  case CCX(P, A):
-  case CCX(P, S):
-    /* There are only 32 bit pointers/addresses on 32 bit machines.
-    ** Also ok on x64, since all 32 bit ops clear the upper part of the reg.
-    */
-    goto xstore;
-  case CCX(P, I):
-    if (st == IRT_CDATA) goto err_nyi;
-    if (!LJ_64 && ssize == 8)  /* Truncate from 64 bit integer. */
-      sp = emitconv(sp, IRT_U32, st, 0);
-    goto xstore;
-  case CCX(P, F):
-    if (st == IRT_CDATA) goto err_nyi;
-    /* The signed conversion is cheaper. x64 really has 47 bit pointers. */
-    sp = emitconv(sp, (LJ_64 && dsize == 8) ? IRT_I64 : IRT_U32,
-		  st, IRCONV_TRUNC|IRCONV_ANY);
-    goto xstore;
-
-  /* Destination is an array. */
-  case CCX(A, A):
-  /* Destination is a struct/union. */
-  case CCX(S, S):
-    if (dp == 0) goto err_conv;
-    crec_copy(J, dp, sp, lj_ir_kint(J, dsize), d);
-    break;
-
-  default:
-  err_conv:
-  err_nyi:
-    lj_trace_err(J, LJ_TRERR_NYICONV);
-    break;
-  }
-  return 0;
-}
-
-/* -- Convert C type to TValue (load) ------------------------------------- */
-
-static TRef crec_tv_ct(jit_State *J, CType *s, CTypeID sid, TRef sp)
-{
-  CTState *cts = ctype_ctsG(J2G(J));
-  IRType t = crec_ct2irt(cts, s);
-  CTInfo sinfo = s->info;
-  if (ctype_isnum(sinfo)) {
-    TRef tr;
-    if (t == IRT_CDATA)
-      goto err_nyi;  /* NYI: copyval of >64 bit integers. */
-    tr = emitir(IRT(IR_XLOAD, t), sp, 0);
-    if (t == IRT_FLOAT || t == IRT_U32) {  /* Keep uint32_t/float as numbers. */
-      return emitconv(tr, IRT_NUM, t, 0);
-    } else if (t == IRT_I64 || t == IRT_U64) {  /* Box 64 bit integer. */
-      sp = tr;
-      lj_needsplit(J);
-    } else if ((sinfo & CTF_BOOL)) {
-      /* Assume not equal to zero. Fixup and emit pending guard later. */
-      lj_ir_set(J, IRTGI(IR_NE), tr, lj_ir_kint(J, 0));
-      J->postproc = LJ_POST_FIXGUARD;
-      return TREF_TRUE;
-    } else {
-      return tr;
-    }
-  } else if (ctype_isptr(sinfo) || ctype_isenum(sinfo)) {
-    sp = emitir(IRT(IR_XLOAD, t), sp, 0);  /* Box pointers and enums. */
-  } else if (ctype_isrefarray(sinfo) || ctype_isstruct(sinfo)) {
-    cts->L = J->L;
-    sid = lj_ctype_intern(cts, CTINFO_REF(sid), CTSIZE_PTR);  /* Create ref. */
-  } else if (ctype_iscomplex(sinfo)) {  /* Unbox/box complex. */
-    ptrdiff_t esz = (ptrdiff_t)(s->size >> 1);
-    TRef ptr, tr1, tr2, dp;
-    dp = emitir(IRTG(IR_CNEW, IRT_CDATA), lj_ir_kint(J, sid), TREF_NIL);
-    tr1 = emitir(IRT(IR_XLOAD, t), sp, 0);
-    ptr = emitir(IRT(IR_ADD, IRT_PTR), sp, lj_ir_kintp(J, esz));
-    tr2 = emitir(IRT(IR_XLOAD, t), ptr, 0);
-    ptr = emitir(IRT(IR_ADD, IRT_PTR), dp, lj_ir_kintp(J, sizeof(GCcdata)));
-    emitir(IRT(IR_XSTORE, t), ptr, tr1);
-    ptr = emitir(IRT(IR_ADD, IRT_PTR), dp, lj_ir_kintp(J, sizeof(GCcdata)+esz));
-    emitir(IRT(IR_XSTORE, t), ptr, tr2);
-    return dp;
-  } else {
-    /* NYI: copyval of vectors. */
-  err_nyi:
-    lj_trace_err(J, LJ_TRERR_NYICONV);
-  }
-  /* Box pointer, ref, enum or 64 bit integer. */
-  return emitir(IRTG(IR_CNEWI, IRT_CDATA), lj_ir_kint(J, sid), sp);
-}
-
-/* -- Convert TValue to C type (store) ------------------------------------ */
-
-static TRef crec_ct_tv(jit_State *J, CType *d, TRef dp, TRef sp, cTValue *sval)
-{
-  CTState *cts = ctype_ctsG(J2G(J));
-  CTypeID sid = CTID_P_VOID;
-  void *svisnz = 0;
-  CType *s;
-  if (LJ_LIKELY(tref_isinteger(sp))) {
-    sid = CTID_INT32;
-    svisnz = (void *)(intptr_t)(tvisint(sval)?(intV(sval)!=0):!tviszero(sval));
-  } else if (tref_isnum(sp)) {
-    sid = CTID_DOUBLE;
-    svisnz = (void *)(intptr_t)(tvisint(sval)?(intV(sval)!=0):!tviszero(sval));
-  } else if (tref_isbool(sp)) {
-    sp = lj_ir_kint(J, tref_istrue(sp) ? 1 : 0);
-    sid = CTID_BOOL;
-  } else if (tref_isnil(sp)) {
-    sp = lj_ir_kptr(J, NULL);
-  } else if (tref_isudata(sp)) {
-    GCudata *ud = udataV(sval);
-    if (ud->udtype == UDTYPE_IO_FILE) {
-      TRef tr = emitir(IRT(IR_FLOAD, IRT_U8), sp, IRFL_UDATA_UDTYPE);
-      emitir(IRTGI(IR_EQ), tr, lj_ir_kint(J, UDTYPE_IO_FILE));
-      sp = emitir(IRT(IR_FLOAD, IRT_PTR), sp, IRFL_UDATA_FILE);
-    } else {
-      sp = emitir(IRT(IR_ADD, IRT_PTR), sp, lj_ir_kintp(J, sizeof(GCudata)));
-    }
-  } else if (tref_isstr(sp)) {
-    if (ctype_isenum(d->info)) {  /* Match string against enum constant. */
-      GCstr *str = strV(sval);
-      CTSize ofs;
-      CType *cct = lj_ctype_getfield(cts, d, str, &ofs);
-      /* Specialize to the name of the enum constant. */
-      emitir(IRTG(IR_EQ, IRT_STR), sp, lj_ir_kstr(J, str));
-      if (cct && ctype_isconstval(cct->info)) {
-	lua_assert(ctype_child(cts, cct)->size == 4);
-	svisnz = (void *)(intptr_t)(ofs != 0);
-	sp = lj_ir_kint(J, (int32_t)ofs);
-	sid = ctype_cid(cct->info);
-      }  /* else: interpreter will throw. */
-    } else if (ctype_isrefarray(d->info)) {  /* Copy string to array. */
-      lj_trace_err(J, LJ_TRERR_BADTYPE);  /* NYI */
-    } else {  /* Otherwise pass the string data as a const char[]. */
-      /* Don't use STRREF. It folds with SNEW, which loses the trailing NUL. */
-      sp = emitir(IRT(IR_ADD, IRT_PTR), sp, lj_ir_kintp(J, sizeof(GCstr)));
-      sid = CTID_A_CCHAR;
-    }
-  } else {  /* NYI: tref_istab(sp), tref_islightud(sp). */
-    IRType t;
-    sid = argv2cdata(J, sp, sval)->ctypeid;
-    s = ctype_raw(cts, sid);
-    svisnz = cdataptr(cdataV(sval));
-    t = crec_ct2irt(cts, s);
-    if (ctype_isptr(s->info)) {
-      sp = emitir(IRT(IR_FLOAD, t), sp, IRFL_CDATA_PTR);
-      if (ctype_isref(s->info)) {
-	svisnz = *(void **)svisnz;
-	s = ctype_rawchild(cts, s);
-	if (ctype_isenum(s->info)) s = ctype_child(cts, s);
-	t = crec_ct2irt(cts, s);
-      } else {
-	goto doconv;
-      }
-    } else if (t == IRT_I64 || t == IRT_U64) {
-      sp = emitir(IRT(IR_FLOAD, t), sp, IRFL_CDATA_INT64);
-      lj_needsplit(J);
-      goto doconv;
-    } else if (t == IRT_INT || t == IRT_U32) {
-      if (ctype_isenum(s->info)) s = ctype_child(cts, s);
-      sp = emitir(IRT(IR_FLOAD, t), sp, IRFL_CDATA_INT);
-      goto doconv;
-    } else {
-      sp = emitir(IRT(IR_ADD, IRT_PTR), sp, lj_ir_kintp(J, sizeof(GCcdata)));
-    }
-    if (ctype_isnum(s->info) && t != IRT_CDATA)
-      sp = emitir(IRT(IR_XLOAD, t), sp, 0);  /* Load number value. */
-    goto doconv;
-  }
-  s = ctype_get(cts, sid);
-doconv:
-  if (ctype_isenum(d->info)) d = ctype_child(cts, d);
-  return crec_ct_ct(J, d, s, dp, sp, svisnz);
-}
-
-/* -- C data metamethods -------------------------------------------------- */
-
-/* This would be rather difficult in FOLD, so do it here:
-** (base+k)+(idx*sz)+ofs ==> (base+idx*sz)+(ofs+k)
-** (base+(idx+k)*sz)+ofs ==> (base+idx*sz)+(ofs+k*sz)
-*/
-static TRef crec_reassoc_ofs(jit_State *J, TRef tr, ptrdiff_t *ofsp, MSize sz)
-{
-  IRIns *ir = IR(tref_ref(tr));
-  if (LJ_LIKELY(J->flags & JIT_F_OPT_FOLD) && irref_isk(ir->op2) &&
-      (ir->o == IR_ADD || ir->o == IR_ADDOV || ir->o == IR_SUBOV)) {
-    IRIns *irk = IR(ir->op2);
-    ptrdiff_t k;
-    if (LJ_64 && irk->o == IR_KINT64)
-      k = (ptrdiff_t)ir_kint64(irk)->u64 * sz;
-    else
-      k = (ptrdiff_t)irk->i * sz;
-    if (ir->o == IR_SUBOV) *ofsp -= k; else *ofsp += k;
-    tr = ir->op1;  /* Not a TRef, but the caller doesn't care. */
-  }
-  return tr;
-}
-
-/* Record ctype __index/__newindex metamethods. */
-static void crec_index_meta(jit_State *J, CTState *cts, CType *ct,
-			    RecordFFData *rd)
-{
-  CTypeID id = ctype_typeid(cts, ct);
-  cTValue *tv = lj_ctype_meta(cts, id, rd->data ? MM_newindex : MM_index);
-  if (!tv)
-    lj_trace_err(J, LJ_TRERR_BADTYPE);
-  if (tvisfunc(tv)) {
-    J->base[-1] = lj_ir_kfunc(J, funcV(tv)) | TREF_FRAME;
-    rd->nres = -1;  /* Pending tailcall. */
-  } else if (rd->data == 0 && tvistab(tv) && tref_isstr(J->base[1])) {
-    /* Specialize to result of __index lookup. */
-    cTValue *o = lj_tab_get(J->L, tabV(tv), &rd->argv[1]);
-    J->base[0] = lj_record_constify(J, o);
-    if (!J->base[0])
-      lj_trace_err(J, LJ_TRERR_BADTYPE);
-    /* Always specialize to the key. */
-    emitir(IRTG(IR_EQ, IRT_STR), J->base[1], lj_ir_kstr(J, strV(&rd->argv[1])));
-  } else {
-    /* NYI: resolving of non-function metamethods. */
-    /* NYI: non-string keys for __index table. */
-    /* NYI: stores to __newindex table. */
-    lj_trace_err(J, LJ_TRERR_BADTYPE);
-  }
-}
-
-void LJ_FASTCALL recff_cdata_index(jit_State *J, RecordFFData *rd)
-{
-  TRef idx, ptr = J->base[0];
-  ptrdiff_t ofs = sizeof(GCcdata);
-  GCcdata *cd = argv2cdata(J, ptr, &rd->argv[0]);
-  CTState *cts = ctype_ctsG(J2G(J));
-  CType *ct = ctype_raw(cts, cd->ctypeid);
-  CTypeID sid = 0;
-
-  /* Resolve pointer or reference for cdata object. */
-  if (ctype_isptr(ct->info)) {
-    IRType t = (LJ_64 && ct->size == 8) ? IRT_P64 : IRT_P32;
-    if (ctype_isref(ct->info)) ct = ctype_rawchild(cts, ct);
-    ptr = emitir(IRT(IR_FLOAD, t), ptr, IRFL_CDATA_PTR);
-    ofs = 0;
-    ptr = crec_reassoc_ofs(J, ptr, &ofs, 1);
-  }
-
-again:
-  idx = J->base[1];
-  if (tref_isnumber(idx)) {
-    idx = lj_opt_narrow_cindex(J, idx);
-    if (ctype_ispointer(ct->info)) {
-      CTSize sz;
-  integer_key:
-      if ((ct->info & CTF_COMPLEX))
-	idx = emitir(IRT(IR_BAND, IRT_INTP), idx, lj_ir_kintp(J, 1));
-      sz = lj_ctype_size(cts, (sid = ctype_cid(ct->info)));
-      idx = crec_reassoc_ofs(J, idx, &ofs, sz);
-#if LJ_TARGET_ARM || LJ_TARGET_PPC
-      /* Hoist base add to allow fusion of index/shift into operands. */
-      if (LJ_LIKELY(J->flags & JIT_F_OPT_LOOP) && ofs
-#if LJ_TARGET_ARM
-	  && (sz == 1 || sz == 4)
-#endif
-	  ) {
-	ptr = emitir(IRT(IR_ADD, IRT_PTR), ptr, lj_ir_kintp(J, ofs));
-	ofs = 0;
-      }
-#endif
-      idx = emitir(IRT(IR_MUL, IRT_INTP), idx, lj_ir_kintp(J, sz));
-      ptr = emitir(IRT(IR_ADD, IRT_PTR), idx, ptr);
-    }
-  } else if (tref_iscdata(idx)) {
-    GCcdata *cdk = cdataV(&rd->argv[1]);
-    CType *ctk = ctype_raw(cts, cdk->ctypeid);
-    IRType t = crec_ct2irt(cts, ctk);
-    if (ctype_ispointer(ct->info) && t >= IRT_I8 && t <= IRT_U64) {
-      if (ctk->size == 8) {
-	idx = emitir(IRT(IR_FLOAD, t), idx, IRFL_CDATA_INT64);
-      } else if (ctk->size == 4) {
-	idx = emitir(IRT(IR_FLOAD, t), idx, IRFL_CDATA_INT);
-      } else {
-	idx = emitir(IRT(IR_ADD, IRT_PTR), idx,
-		     lj_ir_kintp(J, sizeof(GCcdata)));
-	idx = emitir(IRT(IR_XLOAD, t), idx, 0);
-      }
-      if (LJ_64 && ctk->size < sizeof(intptr_t) && !(ctk->info & CTF_UNSIGNED))
-	idx = emitconv(idx, IRT_INTP, IRT_INT, IRCONV_SEXT);
-      if (!LJ_64 && ctk->size > sizeof(intptr_t)) {
-	idx = emitconv(idx, IRT_INTP, t, 0);
-	lj_needsplit(J);
-      }
-      goto integer_key;
-    }
-  } else if (tref_isstr(idx)) {
-    GCstr *name = strV(&rd->argv[1]);
-    if (cd && cd->ctypeid == CTID_CTYPEID)
-      ct = ctype_raw(cts, crec_constructor(J, cd, ptr));
-    if (ctype_isstruct(ct->info)) {
-      CTSize fofs;
-      CType *fct;
-      fct = lj_ctype_getfield(cts, ct, name, &fofs);
-      if (fct) {
-	/* Always specialize to the field name. */
-	emitir(IRTG(IR_EQ, IRT_STR), idx, lj_ir_kstr(J, name));
-	if (ctype_isconstval(fct->info)) {
-	  if (fct->size >= 0x80000000u &&
-	      (ctype_child(cts, fct)->info & CTF_UNSIGNED)) {
-	    J->base[0] = lj_ir_knum(J, (lua_Number)(uint32_t)fct->size);
-	    return;
-	  }
-	  J->base[0] = lj_ir_kint(J, (int32_t)fct->size);
-	  return;  /* Interpreter will throw for newindex. */
-	} else if (ctype_isbitfield(fct->info)) {
-	  lj_trace_err(J, LJ_TRERR_NYICONV);
-	} else {
-	  lua_assert(ctype_isfield(fct->info));
-	  sid = ctype_cid(fct->info);
-	}
-	ofs += (ptrdiff_t)fofs;
-      }
-    } else if (ctype_iscomplex(ct->info)) {
-      if (name->len == 2 &&
-	  ((strdata(name)[0] == 'r' && strdata(name)[1] == 'e') ||
-	   (strdata(name)[0] == 'i' && strdata(name)[1] == 'm'))) {
-	/* Always specialize to the field name. */
-	emitir(IRTG(IR_EQ, IRT_STR), idx, lj_ir_kstr(J, name));
-	if (strdata(name)[0] == 'i') ofs += (ct->size >> 1);
-	sid = ctype_cid(ct->info);
-      }
-    }
-  }
-  if (!sid) {
-    if (ctype_isptr(ct->info)) {  /* Automatically perform '->'. */
-      CType *cct = ctype_rawchild(cts, ct);
-      if (ctype_isstruct(cct->info)) {
-	ct = cct;
-	cd = NULL;
-	if (tref_isstr(idx)) goto again;
-      }
-    }
-    crec_index_meta(J, cts, ct, rd);
-    return;
-  }
-
-  if (ofs)
-    ptr = emitir(IRT(IR_ADD, IRT_PTR), ptr, lj_ir_kintp(J, ofs));
-
-  /* Resolve reference for field. */
-  ct = ctype_get(cts, sid);
-  if (ctype_isref(ct->info)) {
-    ptr = emitir(IRT(IR_XLOAD, IRT_PTR), ptr, 0);
-    sid = ctype_cid(ct->info);
-    ct = ctype_get(cts, sid);
-  }
-
-  while (ctype_isattrib(ct->info))
-    ct = ctype_child(cts, ct);  /* Skip attributes. */
-
-  if (rd->data == 0) {  /* __index metamethod. */
-    J->base[0] = crec_tv_ct(J, ct, sid, ptr);
-  } else {  /* __newindex metamethod. */
-    rd->nres = 0;
-    J->needsnap = 1;
-    crec_ct_tv(J, ct, ptr, J->base[2], &rd->argv[2]);
-  }
-}
-
-/* Record setting a finalizer. */
-static void crec_finalizer(jit_State *J, TRef trcd, cTValue *fin)
-{
-  TRef trlo = lj_ir_call(J, IRCALL_lj_cdata_setfin, trcd);
-  TRef trhi = emitir(IRT(IR_ADD, IRT_P32), trlo, lj_ir_kint(J, 4));
-  if (LJ_BE) { TRef tmp = trlo; trlo = trhi; trhi = tmp; }
-  if (tvisfunc(fin)) {
-    emitir(IRT(IR_XSTORE, IRT_P32), trlo, lj_ir_kfunc(J, funcV(fin)));
-    emitir(IRTI(IR_XSTORE), trhi, lj_ir_kint(J, LJ_TFUNC));
-  } else if (tviscdata(fin)) {
-    emitir(IRT(IR_XSTORE, IRT_P32), trlo,
-	   lj_ir_kgc(J, obj2gco(cdataV(fin)), IRT_CDATA));
-    emitir(IRTI(IR_XSTORE), trhi, lj_ir_kint(J, LJ_TCDATA));
-  } else {
-    lj_trace_err(J, LJ_TRERR_BADTYPE);
-  }
-  J->needsnap = 1;
-}
-
-/* Record cdata allocation. */
-static void crec_alloc(jit_State *J, RecordFFData *rd, CTypeID id)
-{
-  CTState *cts = ctype_ctsG(J2G(J));
-  CTSize sz;
-  CTInfo info = lj_ctype_info(cts, id, &sz);
-  CType *d = ctype_raw(cts, id);
-  TRef trid;
-  if (!sz || sz > 128 || (info & CTF_VLA) || ctype_align(info) > CT_MEMALIGN)
-    lj_trace_err(J, LJ_TRERR_NYICONV);  /* NYI: large/special allocations. */
-  trid = lj_ir_kint(J, id);
-  /* Use special instruction to box pointer or 32/64 bit integer. */
-  if (ctype_isptr(info) || (ctype_isinteger(info) && (sz == 4 || sz == 8))) {
-    TRef sp = J->base[1] ? crec_ct_tv(J, d, 0, J->base[1], &rd->argv[1]) :
-	      ctype_isptr(info) ? lj_ir_kptr(J, NULL) :
-	      sz == 4 ? lj_ir_kint(J, 0) :
-	      (lj_needsplit(J), lj_ir_kint64(J, 0));
-    J->base[0] = emitir(IRTG(IR_CNEWI, IRT_CDATA), trid, sp);
-  } else {
-    TRef trcd = emitir(IRTG(IR_CNEW, IRT_CDATA), trid, TREF_NIL);
-    cTValue *fin;
-    J->base[0] = trcd;
-    if (J->base[1] && !J->base[2] &&
-	!lj_cconv_multi_init(cts, d, &rd->argv[1])) {
-      goto single_init;
-    } else if (ctype_isarray(d->info)) {
-      CType *dc = ctype_rawchild(cts, d);  /* Array element type. */
-      CTSize ofs, esize = dc->size;
-      TRef sp = 0;
-      TValue tv;
-      TValue *sval = &tv;
-      MSize i;
-      tv.u64 = 0;
-      if (!(ctype_isnum(dc->info) || ctype_isptr(dc->info)))
-	lj_trace_err(J, LJ_TRERR_NYICONV);  /* NYI: init array of aggregates. */
-      for (i = 1, ofs = 0; ofs < sz; ofs += esize) {
-	TRef dp = emitir(IRT(IR_ADD, IRT_PTR), trcd,
-			 lj_ir_kintp(J, ofs + sizeof(GCcdata)));
-	if (J->base[i]) {
-	  sp = J->base[i];
-	  sval = &rd->argv[i];
-	  i++;
-	} else if (i != 2) {
-	  sp = ctype_isnum(dc->info) ? lj_ir_kint(J, 0) : TREF_NIL;
-	}
-	crec_ct_tv(J, dc, dp, sp, sval);
-      }
-    } else if (ctype_isstruct(d->info)) {
-      CTypeID fid = d->sib;
-      MSize i = 1;
-      while (fid) {
-	CType *df = ctype_get(cts, fid);
-	fid = df->sib;
-	if (ctype_isfield(df->info)) {
-	  CType *dc;
-	  TRef sp, dp;
-	  TValue tv;
-	  TValue *sval = &tv;
-	  setintV(&tv, 0);
-	  if (!gcref(df->name)) continue;  /* Ignore unnamed fields. */
-	  dc = ctype_rawchild(cts, df);  /* Field type. */
-	  if (!(ctype_isnum(dc->info) || ctype_isptr(dc->info) ||
-		ctype_isenum(dc->info)))
-	    lj_trace_err(J, LJ_TRERR_NYICONV);  /* NYI: init aggregates. */
-	  if (J->base[i]) {
-	    sp = J->base[i];
-	    sval = &rd->argv[i];
-	    i++;
-	  } else {
-	    sp = ctype_isptr(dc->info) ? TREF_NIL : lj_ir_kint(J, 0);
-	  }
-	  dp = emitir(IRT(IR_ADD, IRT_PTR), trcd,
-		      lj_ir_kintp(J, df->size + sizeof(GCcdata)));
-	  crec_ct_tv(J, dc, dp, sp, sval);
-	} else if (!ctype_isconstval(df->info)) {
-	  /* NYI: init bitfields and sub-structures. */
-	  lj_trace_err(J, LJ_TRERR_NYICONV);
-	}
-      }
-    } else {
-      TRef dp;
-    single_init:
-      dp = emitir(IRT(IR_ADD, IRT_PTR), trcd, lj_ir_kintp(J, sizeof(GCcdata)));
-      if (J->base[1]) {
-	crec_ct_tv(J, d, dp, J->base[1], &rd->argv[1]);
-      } else {
-	TValue tv;
-	tv.u64 = 0;
-	crec_ct_tv(J, d, dp, lj_ir_kint(J, 0), &tv);
-      }
-    }
-    /* Handle __gc metamethod. */
-    fin = lj_ctype_meta(cts, id, MM_gc);
-    if (fin)
-      crec_finalizer(J, trcd, fin);
-  }
-}
-
-/* Record argument conversions. */
-static TRef crec_call_args(jit_State *J, RecordFFData *rd,
-			   CTState *cts, CType *ct)
-{
-  TRef args[CCI_NARGS_MAX];
-  CTypeID fid;
-  MSize i, n;
-  TRef tr, *base;
-  cTValue *o;
-#if LJ_TARGET_X86
-#if LJ_ABI_WIN
-  TRef *arg0 = NULL, *arg1 = NULL;
-#endif
-  int ngpr = 0;
-  if (ctype_cconv(ct->info) == CTCC_THISCALL)
-    ngpr = 1;
-  else if (ctype_cconv(ct->info) == CTCC_FASTCALL)
-    ngpr = 2;
-#endif
-
-  /* Skip initial attributes. */
-  fid = ct->sib;
-  while (fid) {
-    CType *ctf = ctype_get(cts, fid);
-    if (!ctype_isattrib(ctf->info)) break;
-    fid = ctf->sib;
-  }
-  args[0] = TREF_NIL;
-  for (n = 0, base = J->base+1, o = rd->argv+1; *base; n++, base++, o++) {
-    CTypeID did;
-    CType *d;
-
-    if (n >= CCI_NARGS_MAX)
-      lj_trace_err(J, LJ_TRERR_NYICALL);
-
-    if (fid) {  /* Get argument type from field. */
-      CType *ctf = ctype_get(cts, fid);
-      fid = ctf->sib;
-      lua_assert(ctype_isfield(ctf->info));
-      did = ctype_cid(ctf->info);
-    } else {
-      if (!(ct->info & CTF_VARARG))
-	lj_trace_err(J, LJ_TRERR_NYICALL);  /* Too many arguments. */
-      did = lj_ccall_ctid_vararg(cts, o);  /* Infer vararg type. */
-    }
-    d = ctype_raw(cts, did);
-    if (!(ctype_isnum(d->info) || ctype_isptr(d->info) ||
-	  ctype_isenum(d->info)))
-      lj_trace_err(J, LJ_TRERR_NYICALL);
-    tr = crec_ct_tv(J, d, 0, *base, o);
-    if (ctype_isinteger_or_bool(d->info)) {
-      if (d->size < 4) {
-	if ((d->info & CTF_UNSIGNED))
-	  tr = emitconv(tr, IRT_INT, d->size==1 ? IRT_U8 : IRT_U16, 0);
-	else
-	  tr = emitconv(tr, IRT_INT, d->size==1 ? IRT_I8 : IRT_I16,IRCONV_SEXT);
-      }
-    } else if (LJ_SOFTFP && ctype_isfp(d->info) && d->size > 4) {
-      lj_needsplit(J);
-    }
-#if LJ_TARGET_X86
-    /* 64 bit args must not end up in registers for fastcall/thiscall. */
-#if LJ_ABI_WIN
-    if (!ctype_isfp(d->info)) {
-      /* Sigh, the Windows/x86 ABI allows reordering across 64 bit args. */
-      if (tref_typerange(tr, IRT_I64, IRT_U64)) {
-	if (ngpr) {
-	  arg0 = &args[n]; args[n++] = TREF_NIL; ngpr--;
-	  if (ngpr) {
-	    arg1 = &args[n]; args[n++] = TREF_NIL; ngpr--;
-	  }
-	}
-      } else {
-	if (arg0) { *arg0 = tr; arg0 = NULL; n--; continue; }
-	if (arg1) { *arg1 = tr; arg1 = NULL; n--; continue; }
-	if (ngpr) ngpr--;
-      }
-    }
-#else
-    if (!ctype_isfp(d->info) && ngpr) {
-      if (tref_typerange(tr, IRT_I64, IRT_U64)) {
-	/* No reordering for other x86 ABIs. Simply add alignment args. */
-	do { args[n++] = TREF_NIL; } while (--ngpr);
-      } else {
-	ngpr--;
-      }
-    }
-#endif
-#endif
-    args[n] = tr;
-  }
-  tr = args[0];
-  for (i = 1; i < n; i++)
-    tr = emitir(IRT(IR_CARG, IRT_NIL), tr, args[i]);
-  return tr;
-}
-
-/* Create a snapshot for the caller, simulating a 'false' return value. */
-static void crec_snap_caller(jit_State *J)
-{
-  lua_State *L = J->L;
-  TValue *base = L->base, *top = L->top;
-  const BCIns *pc = J->pc;
-  TRef ftr = J->base[-1];
-  ptrdiff_t delta;
-  if (!frame_islua(base-1) || J->framedepth <= 0)
-    lj_trace_err(J, LJ_TRERR_NYICALL);
-  J->pc = frame_pc(base-1); delta = 1+bc_a(J->pc[-1]);
-  L->top = base; L->base = base - delta;
-  J->base[-1] = TREF_FALSE;
-  J->base -= delta; J->baseslot -= (BCReg)delta;
-  J->maxslot = (BCReg)delta; J->framedepth--;
-  lj_snap_add(J);
-  L->base = base; L->top = top;
-  J->framedepth++; J->maxslot = 1;
-  J->base += delta; J->baseslot += (BCReg)delta;
-  J->base[-1] = ftr; J->pc = pc;
-}
-
-/* Record function call. */
-static int crec_call(jit_State *J, RecordFFData *rd, GCcdata *cd)
-{
-  CTState *cts = ctype_ctsG(J2G(J));
-  CType *ct = ctype_raw(cts, cd->ctypeid);
-  IRType tp = IRT_PTR;
-  if (ctype_isptr(ct->info)) {
-    tp = (LJ_64 && ct->size == 8) ? IRT_P64 : IRT_P32;
-    ct = ctype_rawchild(cts, ct);
-  }
-  if (ctype_isfunc(ct->info)) {
-    TRef func = emitir(IRT(IR_FLOAD, tp), J->base[0], IRFL_CDATA_PTR);
-    CType *ctr = ctype_rawchild(cts, ct);
-    IRType t = crec_ct2irt(cts, ctr);
-    TRef tr;
-    TValue tv;
-    /* Check for blacklisted C functions that might call a callback. */
-    setlightudV(&tv,
-		cdata_getptr(cdataptr(cd), (LJ_64 && tp == IRT_P64) ? 8 : 4));
-    if (tvistrue(lj_tab_get(J->L, cts->miscmap, &tv)))
-      lj_trace_err(J, LJ_TRERR_BLACKL);
-    if (ctype_isvoid(ctr->info)) {
-      t = IRT_NIL;
-      rd->nres = 0;
-    } else if (!(ctype_isnum(ctr->info) || ctype_isptr(ctr->info) ||
-		 ctype_isenum(ctr->info)) || t == IRT_CDATA) {
-      lj_trace_err(J, LJ_TRERR_NYICALL);
-    }
-    if ((ct->info & CTF_VARARG)
-#if LJ_TARGET_X86
-	|| ctype_cconv(ct->info) != CTCC_CDECL
-#endif
-	)
-      func = emitir(IRT(IR_CARG, IRT_NIL), func,
-		    lj_ir_kint(J, ctype_typeid(cts, ct)));
-    tr = emitir(IRT(IR_CALLXS, t), crec_call_args(J, rd, cts, ct), func);
-    if (ctype_isbool(ctr->info)) {
-      if (frame_islua(J->L->base-1) && bc_b(frame_pc(J->L->base-1)[-1]) == 1) {
-	/* Don't check result if ignored. */
-	tr = TREF_NIL;
-      } else {
-	crec_snap_caller(J);
-#if LJ_TARGET_X86ORX64
-	/* Note: only the x86/x64 backend supports U8 and only for EQ(tr, 0). */
-	lj_ir_set(J, IRTG(IR_NE, IRT_U8), tr, lj_ir_kint(J, 0));
-#else
-	lj_ir_set(J, IRTGI(IR_NE), tr, lj_ir_kint(J, 0));
-#endif
-	J->postproc = LJ_POST_FIXGUARDSNAP;
-	tr = TREF_TRUE;
-      }
-    } else if (t == IRT_PTR || (LJ_64 && t == IRT_P32) ||
-	       t == IRT_I64 || t == IRT_U64 || ctype_isenum(ctr->info)) {
-      TRef trid = lj_ir_kint(J, ctype_cid(ct->info));
-      tr = emitir(IRTG(IR_CNEWI, IRT_CDATA), trid, tr);
-      if (t == IRT_I64 || t == IRT_U64) lj_needsplit(J);
-    } else if (t == IRT_FLOAT || t == IRT_U32) {
-      tr = emitconv(tr, IRT_NUM, t, 0);
-    } else if (t == IRT_I8 || t == IRT_I16) {
-      tr = emitconv(tr, IRT_INT, t, IRCONV_SEXT);
-    } else if (t == IRT_U8 || t == IRT_U16) {
-      tr = emitconv(tr, IRT_INT, t, 0);
-    }
-    J->base[0] = tr;
-    J->needsnap = 1;
-    return 1;
-  }
-  return 0;
-}
-
-void LJ_FASTCALL recff_cdata_call(jit_State *J, RecordFFData *rd)
-{
-  CTState *cts = ctype_ctsG(J2G(J));
-  GCcdata *cd = argv2cdata(J, J->base[0], &rd->argv[0]);
-  CTypeID id = cd->ctypeid;
-  CType *ct;
-  cTValue *tv;
-  MMS mm = MM_call;
-  if (id == CTID_CTYPEID) {
-    id = crec_constructor(J, cd, J->base[0]);
-    mm = MM_new;
-  } else if (crec_call(J, rd, cd)) {
-    return;
-  }
-  /* Record ctype __call/__new metamethod. */
-  ct = ctype_raw(cts, id);
-  tv = lj_ctype_meta(cts, ctype_isptr(ct->info) ? ctype_cid(ct->info) : id, mm);
-  if (tv) {
-    if (tvisfunc(tv)) {
-      J->base[-1] = lj_ir_kfunc(J, funcV(tv)) | TREF_FRAME;
-      rd->nres = -1;  /* Pending tailcall. */
-      return;
-    }
-  } else if (mm == MM_new) {
-    crec_alloc(J, rd, id);
-    return;
-  }
-  /* No metamethod or NYI: non-function metamethods. */
-  lj_trace_err(J, LJ_TRERR_BADTYPE);
-}
-
-static TRef crec_arith_int64(jit_State *J, TRef *sp, CType **s, MMS mm)
-{
-  if (ctype_isnum(s[0]->info) && ctype_isnum(s[1]->info)) {
-    IRType dt;
-    CTypeID id;
-    TRef tr;
-    MSize i;
-    IROp op;
-    lj_needsplit(J);
-    if (((s[0]->info & CTF_UNSIGNED) && s[0]->size == 8) ||
-	((s[1]->info & CTF_UNSIGNED) && s[1]->size == 8)) {
-      dt = IRT_U64; id = CTID_UINT64;
-    } else {
-      dt = IRT_I64; id = CTID_INT64;
-      if (mm < MM_add &&
-	  !((s[0]->info | s[1]->info) & CTF_FP) &&
-	  s[0]->size == 4 && s[1]->size == 4) {  /* Try to narrow comparison. */
-	if (!((s[0]->info ^ s[1]->info) & CTF_UNSIGNED) ||
-	    (tref_isk(sp[1]) && IR(tref_ref(sp[1]))->i >= 0)) {
-	  dt = (s[0]->info & CTF_UNSIGNED) ? IRT_U32 : IRT_INT;
-	  goto comp;
-	} else if (tref_isk(sp[0]) && IR(tref_ref(sp[0]))->i >= 0) {
-	  dt = (s[1]->info & CTF_UNSIGNED) ? IRT_U32 : IRT_INT;
-	  goto comp;
-	}
-      }
-    }
-    for (i = 0; i < 2; i++) {
-      IRType st = tref_type(sp[i]);
-      if (st == IRT_NUM || st == IRT_FLOAT)
-	sp[i] = emitconv(sp[i], dt, st, IRCONV_TRUNC|IRCONV_ANY);
-      else if (!(st == IRT_I64 || st == IRT_U64))
-	sp[i] = emitconv(sp[i], dt, IRT_INT,
-			 (s[i]->info & CTF_UNSIGNED) ? 0 : IRCONV_SEXT);
-    }
-    if (mm < MM_add) {
-    comp:
-      /* Assume true comparison. Fixup and emit pending guard later. */
-      if (mm == MM_eq) {
-	op = IR_EQ;
-      } else {
-	op = mm == MM_lt ? IR_LT : IR_LE;
-	if (dt == IRT_U32 || dt == IRT_U64)
-	  op += (IR_ULT-IR_LT);
-      }
-      lj_ir_set(J, IRTG(op, dt), sp[0], sp[1]);
-      J->postproc = LJ_POST_FIXGUARD;
-      return TREF_TRUE;
-    } else {
-      tr = emitir(IRT(mm+(int)IR_ADD-(int)MM_add, dt), sp[0], sp[1]);
-    }
-    return emitir(IRTG(IR_CNEWI, IRT_CDATA), lj_ir_kint(J, id), tr);
-  }
-  return 0;
-}
-
-static TRef crec_arith_ptr(jit_State *J, TRef *sp, CType **s, MMS mm)
-{
-  CTState *cts = ctype_ctsG(J2G(J));
-  CType *ctp = s[0];
-  if (ctype_isptr(ctp->info) || ctype_isrefarray(ctp->info)) {
-    if ((mm == MM_sub || mm == MM_eq || mm == MM_lt || mm == MM_le) &&
-	(ctype_isptr(s[1]->info) || ctype_isrefarray(s[1]->info))) {
-      if (mm == MM_sub) {  /* Pointer difference. */
-	TRef tr;
-	CTSize sz = lj_ctype_size(cts, ctype_cid(ctp->info));
-	if (sz == 0 || (sz & (sz-1)) != 0)
-	  return 0;  /* NYI: integer division. */
-	tr = emitir(IRT(IR_SUB, IRT_INTP), sp[0], sp[1]);
-	tr = emitir(IRT(IR_BSAR, IRT_INTP), tr, lj_ir_kint(J, lj_fls(sz)));
-#if LJ_64
-	tr = emitconv(tr, IRT_NUM, IRT_INTP, 0);
-#endif
-	return tr;
-      } else {  /* Pointer comparison (unsigned). */
-	/* Assume true comparison. Fixup and emit pending guard later. */
-	IROp op = mm == MM_eq ? IR_EQ : mm == MM_lt ? IR_ULT : IR_ULE;
-	lj_ir_set(J, IRTG(op, IRT_PTR), sp[0], sp[1]);
-	J->postproc = LJ_POST_FIXGUARD;
-	return TREF_TRUE;
-      }
-    }
-    if (!((mm == MM_add || mm == MM_sub) && ctype_isnum(s[1]->info)))
-      return 0;
-  } else if (mm == MM_add && ctype_isnum(ctp->info) &&
-	     (ctype_isptr(s[1]->info) || ctype_isrefarray(s[1]->info))) {
-    TRef tr = sp[0]; sp[0] = sp[1]; sp[1] = tr;  /* Swap pointer and index. */
-    ctp = s[1];
-  } else {
-    return 0;
-  }
-  {
-    TRef tr = sp[1];
-    IRType t = tref_type(tr);
-    CTSize sz = lj_ctype_size(cts, ctype_cid(ctp->info));
-    CTypeID id;
-#if LJ_64
-    if (t == IRT_NUM || t == IRT_FLOAT)
-      tr = emitconv(tr, IRT_INTP, t, IRCONV_TRUNC|IRCONV_ANY);
-    else if (!(t == IRT_I64 || t == IRT_U64))
-      tr = emitconv(tr, IRT_INTP, IRT_INT,
-		    ((t - IRT_I8) & 1) ? 0 : IRCONV_SEXT);
-#else
-    if (!tref_typerange(sp[1], IRT_I8, IRT_U32)) {
-      tr = emitconv(tr, IRT_INTP, t,
-		    (t == IRT_NUM || t == IRT_FLOAT) ?
-		    IRCONV_TRUNC|IRCONV_ANY : 0);
-    }
-#endif
-    tr = emitir(IRT(IR_MUL, IRT_INTP), tr, lj_ir_kintp(J, sz));
-    tr = emitir(IRT(mm+(int)IR_ADD-(int)MM_add, IRT_PTR), sp[0], tr);
-    id = lj_ctype_intern(cts, CTINFO(CT_PTR, CTALIGN_PTR|ctype_cid(ctp->info)),
-			 CTSIZE_PTR);
-    return emitir(IRTG(IR_CNEWI, IRT_CDATA), lj_ir_kint(J, id), tr);
-  }
-}
-
-/* Record ctype arithmetic metamethods. */
-static TRef crec_arith_meta(jit_State *J, TRef *sp, CType **s, CTState *cts,
-			    RecordFFData *rd)
-{
-  cTValue *tv = NULL;
-  if (J->base[0]) {
-    if (tviscdata(&rd->argv[0])) {
-      CTypeID id = argv2cdata(J, J->base[0], &rd->argv[0])->ctypeid;
-      CType *ct = ctype_raw(cts, id);
-      if (ctype_isptr(ct->info)) id = ctype_cid(ct->info);
-      tv = lj_ctype_meta(cts, id, (MMS)rd->data);
-    }
-    if (!tv && J->base[1] && tviscdata(&rd->argv[1])) {
-      CTypeID id = argv2cdata(J, J->base[1], &rd->argv[1])->ctypeid;
-      CType *ct = ctype_raw(cts, id);
-      if (ctype_isptr(ct->info)) id = ctype_cid(ct->info);
-      tv = lj_ctype_meta(cts, id, (MMS)rd->data);
-    }
-  }
-  if (tv) {
-    if (tvisfunc(tv)) {
-      J->base[-1] = lj_ir_kfunc(J, funcV(tv)) | TREF_FRAME;
-      rd->nres = -1;  /* Pending tailcall. */
-      return 0;
-    }  /* NYI: non-function metamethods. */
-  } else if ((MMS)rd->data == MM_eq) {  /* Fallback cdata pointer comparison. */
-    if (sp[0] && sp[1] && ctype_isnum(s[0]->info) == ctype_isnum(s[1]->info)) {
-      /* Assume true comparison. Fixup and emit pending guard later. */
-      lj_ir_set(J, IRTG(IR_EQ, IRT_PTR), sp[0], sp[1]);
-      J->postproc = LJ_POST_FIXGUARD;
-      return TREF_TRUE;
-    } else {
-      return TREF_FALSE;
-    }
-  }
-  lj_trace_err(J, LJ_TRERR_BADTYPE);
-  return 0;
-}
-
-void LJ_FASTCALL recff_cdata_arith(jit_State *J, RecordFFData *rd)
-{
-  CTState *cts = ctype_ctsG(J2G(J));
-  TRef sp[2];
-  CType *s[2];
-  MSize i;
-  for (i = 0; i < 2; i++) {
-    TRef tr = J->base[i];
-    CType *ct = ctype_get(cts, CTID_DOUBLE);
-    if (!tr) {
-      lj_trace_err(J, LJ_TRERR_BADTYPE);
-    } else if (tref_iscdata(tr)) {
-      CTypeID id = argv2cdata(J, tr, &rd->argv[i])->ctypeid;
-      IRType t;
-      ct = ctype_raw(cts, id);
-      t = crec_ct2irt(cts, ct);
-      if (ctype_isptr(ct->info)) {  /* Resolve pointer or reference. */
-	tr = emitir(IRT(IR_FLOAD, t), tr, IRFL_CDATA_PTR);
-	if (ctype_isref(ct->info)) {
-	  ct = ctype_rawchild(cts, ct);
-	  t = crec_ct2irt(cts, ct);
-	}
-      } else if (t == IRT_I64 || t == IRT_U64) {
-	tr = emitir(IRT(IR_FLOAD, t), tr, IRFL_CDATA_INT64);
-	lj_needsplit(J);
-	goto ok;
-      } else if (t == IRT_INT || t == IRT_U32) {
-	tr = emitir(IRT(IR_FLOAD, t), tr, IRFL_CDATA_INT);
-	if (ctype_isenum(ct->info)) ct = ctype_child(cts, ct);
-	goto ok;
-      } else if (ctype_isfunc(ct->info)) {
-	tr = emitir(IRT(IR_FLOAD, IRT_PTR), tr, IRFL_CDATA_PTR);
-	ct = ctype_get(cts,
-	  lj_ctype_intern(cts, CTINFO(CT_PTR, CTALIGN_PTR|id), CTSIZE_PTR));
-	goto ok;
-      } else {
-	tr = emitir(IRT(IR_ADD, IRT_PTR), tr, lj_ir_kintp(J, sizeof(GCcdata)));
-      }
-      if (ctype_isenum(ct->info)) ct = ctype_child(cts, ct);
-      if (ctype_isnum(ct->info)) {
-	if (t == IRT_CDATA) {
-	  tr = 0;
-	} else {
-	  if (t == IRT_I64 || t == IRT_U64) lj_needsplit(J);
-	  tr = emitir(IRT(IR_XLOAD, t), tr, 0);
-	}
-      }
-    } else if (tref_isnil(tr)) {
-      tr = lj_ir_kptr(J, NULL);
-      ct = ctype_get(cts, CTID_P_VOID);
-    } else if (tref_isinteger(tr)) {
-      ct = ctype_get(cts, CTID_INT32);
-    } else if (tref_isstr(tr)) {
-      TRef tr2 = J->base[1-i];
-      CTypeID id = argv2cdata(J, tr2, &rd->argv[1-i])->ctypeid;
-      ct = ctype_raw(cts, id);
-      if (ctype_isenum(ct->info)) {  /* Match string against enum constant. */
-	GCstr *str = strV(&rd->argv[i]);
-	CTSize ofs;
-	CType *cct = lj_ctype_getfield(cts, ct, str, &ofs);
-	if (cct && ctype_isconstval(cct->info)) {
-	  /* Specialize to the name of the enum constant. */
-	  emitir(IRTG(IR_EQ, IRT_STR), tr, lj_ir_kstr(J, str));
-	  ct = ctype_child(cts, cct);
-	  tr = lj_ir_kint(J, (int32_t)ofs);
-	} else {  /* Interpreter will throw or return false. */
-	  ct = ctype_get(cts, CTID_P_VOID);
-	}
-      } else if (ctype_isptr(ct->info)) {
-	tr = emitir(IRT(IR_ADD, IRT_PTR), tr, lj_ir_kintp(J, sizeof(GCstr)));
-      } else {
-	ct = ctype_get(cts, CTID_P_VOID);
-      }
-    } else if (!tref_isnum(tr)) {
-      tr = 0;
-      ct = ctype_get(cts, CTID_P_VOID);
-    }
-  ok:
-    s[i] = ct;
-    sp[i] = tr;
-  }
-  {
-    TRef tr;
-    if (!(tr = crec_arith_int64(J, sp, s, (MMS)rd->data)) &&
-	!(tr = crec_arith_ptr(J, sp, s, (MMS)rd->data)) &&
-	!(tr = crec_arith_meta(J, sp, s, cts, rd)))
-      return;
-    J->base[0] = tr;
-    /* Fixup cdata comparisons, too. Avoids some cdata escapes. */
-    if (J->postproc == LJ_POST_FIXGUARD && frame_iscont(J->L->base-1) &&
-	!irt_isguard(J->guardemit)) {
-      const BCIns *pc = frame_contpc(J->L->base-1) - 1;
-      if (bc_op(*pc) <= BC_ISNEP) {
-	setframe_pc(&J2G(J)->tmptv, pc);
-	J2G(J)->tmptv.u32.lo = ((tref_istrue(tr) ^ bc_op(*pc)) & 1);
-	J->postproc = LJ_POST_FIXCOMP;
-      }
-    }
-  }
-}
-
-/* -- C library namespace metamethods ------------------------------------- */
-
-void LJ_FASTCALL recff_clib_index(jit_State *J, RecordFFData *rd)
-{
-  CTState *cts = ctype_ctsG(J2G(J));
-  if (tref_isudata(J->base[0]) && tref_isstr(J->base[1]) &&
-      udataV(&rd->argv[0])->udtype == UDTYPE_FFI_CLIB) {
-    CLibrary *cl = (CLibrary *)uddata(udataV(&rd->argv[0]));
-    GCstr *name = strV(&rd->argv[1]);
-    CType *ct;
-    CTypeID id = lj_ctype_getname(cts, &ct, name, CLNS_INDEX);
-    cTValue *tv = lj_tab_getstr(cl->cache, name);
-    rd->nres = rd->data;
-    if (id && tv && !tvisnil(tv)) {
-      /* Specialize to the symbol name and make the result a constant. */
-      emitir(IRTG(IR_EQ, IRT_STR), J->base[1], lj_ir_kstr(J, name));
-      if (ctype_isconstval(ct->info)) {
-	if (ct->size >= 0x80000000u &&
-	    (ctype_child(cts, ct)->info & CTF_UNSIGNED))
-	  J->base[0] = lj_ir_knum(J, (lua_Number)(uint32_t)ct->size);
-	else
-	  J->base[0] = lj_ir_kint(J, (int32_t)ct->size);
-      } else if (ctype_isextern(ct->info)) {
-	CTypeID sid = ctype_cid(ct->info);
-	void *sp = *(void **)cdataptr(cdataV(tv));
-	TRef ptr;
-	ct = ctype_raw(cts, sid);
-	if (LJ_64 && !checkptr32(sp))
-	  ptr = lj_ir_kintp(J, (uintptr_t)sp);
-	else
-	  ptr = lj_ir_kptr(J, sp);
-	if (rd->data) {
-	  J->base[0] = crec_tv_ct(J, ct, sid, ptr);
-	} else {
-	  J->needsnap = 1;
-	  crec_ct_tv(J, ct, ptr, J->base[2], &rd->argv[2]);
-	}
-      } else {
-	J->base[0] = lj_ir_kgc(J, obj2gco(cdataV(tv)), IRT_CDATA);
-      }
-    } else {
-      lj_trace_err(J, LJ_TRERR_NOCACHE);
-    }
-  }  /* else: interpreter will throw. */
-}
-
-/* -- FFI library functions ----------------------------------------------- */
-
-static TRef crec_toint(jit_State *J, CTState *cts, TRef sp, TValue *sval)
-{
-  return crec_ct_tv(J, ctype_get(cts, CTID_INT32), 0, sp, sval);
-}
-
-void LJ_FASTCALL recff_ffi_new(jit_State *J, RecordFFData *rd)
-{
-  crec_alloc(J, rd, argv2ctype(J, J->base[0], &rd->argv[0]));
-}
-
-void LJ_FASTCALL recff_ffi_errno(jit_State *J, RecordFFData *rd)
-{
-  UNUSED(rd);
-  if (J->base[0])
-    lj_trace_err(J, LJ_TRERR_NYICALL);
-  J->base[0] = lj_ir_call(J, IRCALL_lj_vm_errno);
-}
-
-void LJ_FASTCALL recff_ffi_string(jit_State *J, RecordFFData *rd)
-{
-  CTState *cts = ctype_ctsG(J2G(J));
-  TRef tr = J->base[0];
-  if (tr) {
-    TRef trlen = J->base[1];
-    if (!tref_isnil(trlen)) {
-      trlen = crec_toint(J, cts, trlen, &rd->argv[1]);
-      tr = crec_ct_tv(J, ctype_get(cts, CTID_P_CVOID), 0, tr, &rd->argv[0]);
-    } else {
-      tr = crec_ct_tv(J, ctype_get(cts, CTID_P_CCHAR), 0, tr, &rd->argv[0]);
-      trlen = lj_ir_call(J, IRCALL_strlen, tr);
-    }
-    J->base[0] = emitir(IRT(IR_XSNEW, IRT_STR), tr, trlen);
-  }  /* else: interpreter will throw. */
-}
-
-void LJ_FASTCALL recff_ffi_copy(jit_State *J, RecordFFData *rd)
-{
-  CTState *cts = ctype_ctsG(J2G(J));
-  TRef trdst = J->base[0], trsrc = J->base[1], trlen = J->base[2];
-  if (trdst && trsrc && (trlen || tref_isstr(trsrc))) {
-    trdst = crec_ct_tv(J, ctype_get(cts, CTID_P_VOID), 0, trdst, &rd->argv[0]);
-    trsrc = crec_ct_tv(J, ctype_get(cts, CTID_P_CVOID), 0, trsrc, &rd->argv[1]);
-    if (trlen) {
-      trlen = crec_toint(J, cts, trlen, &rd->argv[2]);
-    } else {
-      trlen = emitir(IRTI(IR_FLOAD), J->base[1], IRFL_STR_LEN);
-      trlen = emitir(IRTI(IR_ADD), trlen, lj_ir_kint(J, 1));
-    }
-    rd->nres = 0;
-    crec_copy(J, trdst, trsrc, trlen, NULL);
-  }  /* else: interpreter will throw. */
-}
-
-void LJ_FASTCALL recff_ffi_fill(jit_State *J, RecordFFData *rd)
-{
-  CTState *cts = ctype_ctsG(J2G(J));
-  TRef trdst = J->base[0], trlen = J->base[1], trfill = J->base[2];
-  if (trdst && trlen) {
-    CTSize step = 1;
-    if (tviscdata(&rd->argv[0])) {  /* Get alignment of original destination. */
-      CTSize sz;
-      CType *ct = ctype_raw(cts, cdataV(&rd->argv[0])->ctypeid);
-      if (ctype_isptr(ct->info))
-	ct = ctype_rawchild(cts, ct);
-      step = (1u<<ctype_align(lj_ctype_info(cts, ctype_typeid(cts, ct), &sz)));
-    }
-    trdst = crec_ct_tv(J, ctype_get(cts, CTID_P_VOID), 0, trdst, &rd->argv[0]);
-    trlen = crec_toint(J, cts, trlen, &rd->argv[1]);
-    if (trfill)
-      trfill = crec_toint(J, cts, trfill, &rd->argv[2]);
-    else
-      trfill = lj_ir_kint(J, 0);
-    rd->nres = 0;
-    crec_fill(J, trdst, trlen, trfill, step);
-  }  /* else: interpreter will throw. */
-}
-
-void LJ_FASTCALL recff_ffi_typeof(jit_State *J, RecordFFData *rd)
-{
-  if (tref_iscdata(J->base[0])) {
-    TRef trid = lj_ir_kint(J, argv2ctype(J, J->base[0], &rd->argv[0]));
-    J->base[0] = emitir(IRTG(IR_CNEWI, IRT_CDATA),
-			lj_ir_kint(J, CTID_CTYPEID), trid);
-  } else {
-    setfuncV(J->L, &J->errinfo, J->fn);
-    lj_trace_err_info(J, LJ_TRERR_NYIFFU);
-  }
-}
-
-void LJ_FASTCALL recff_ffi_istype(jit_State *J, RecordFFData *rd)
-{
-  argv2ctype(J, J->base[0], &rd->argv[0]);
-  if (tref_iscdata(J->base[1])) {
-    argv2ctype(J, J->base[1], &rd->argv[1]);
-    J->postproc = LJ_POST_FIXBOOL;
-    J->base[0] = TREF_TRUE;
-  } else {
-    J->base[0] = TREF_FALSE;
-  }
-}
-
-void LJ_FASTCALL recff_ffi_abi(jit_State *J, RecordFFData *rd)
-{
-  if (tref_isstr(J->base[0])) {
-    /* Specialize to the ABI string to make the boolean result a constant. */
-    emitir(IRTG(IR_EQ, IRT_STR), J->base[0], lj_ir_kstr(J, strV(&rd->argv[0])));
-    J->postproc = LJ_POST_FIXBOOL;
-    J->base[0] = TREF_TRUE;
-  } else {
-    lj_trace_err(J, LJ_TRERR_BADTYPE);
-  }
-}
-
-/* Record ffi.sizeof(), ffi.alignof(), ffi.offsetof(). */
-void LJ_FASTCALL recff_ffi_xof(jit_State *J, RecordFFData *rd)
-{
-  CTypeID id = argv2ctype(J, J->base[0], &rd->argv[0]);
-  if (rd->data == FF_ffi_sizeof) {
-    CType *ct = lj_ctype_rawref(ctype_ctsG(J2G(J)), id);
-    if (ctype_isvltype(ct->info))
-      lj_trace_err(J, LJ_TRERR_BADTYPE);
-  } else if (rd->data == FF_ffi_offsetof) {  /* Specialize to the field name. */
-    if (!tref_isstr(J->base[1]))
-      lj_trace_err(J, LJ_TRERR_BADTYPE);
-    emitir(IRTG(IR_EQ, IRT_STR), J->base[1], lj_ir_kstr(J, strV(&rd->argv[1])));
-    rd->nres = 3;  /* Just in case. */
-  }
-  J->postproc = LJ_POST_FIXCONST;
-  J->base[0] = J->base[1] = J->base[2] = TREF_NIL;
-}
-
-void LJ_FASTCALL recff_ffi_gc(jit_State *J, RecordFFData *rd)
-{
-  argv2cdata(J, J->base[0], &rd->argv[0]);
-  crec_finalizer(J, J->base[0], &rd->argv[1]);
-}
-
-/* -- Miscellaneous library functions ------------------------------------- */
-
-void LJ_FASTCALL lj_crecord_tonumber(jit_State *J, RecordFFData *rd)
-{
-  CTState *cts = ctype_ctsG(J2G(J));
-  CType *d, *ct = lj_ctype_rawref(cts, cdataV(&rd->argv[0])->ctypeid);
-  if (ctype_isenum(ct->info)) ct = ctype_child(cts, ct);
-  if (ctype_isnum(ct->info) || ctype_iscomplex(ct->info)) {
-    if (ctype_isinteger_or_bool(ct->info) && ct->size <= 4 &&
-	!(ct->size == 4 && (ct->info & CTF_UNSIGNED)))
-      d = ctype_get(cts, CTID_INT32);
-    else
-      d = ctype_get(cts, CTID_DOUBLE);
-    J->base[0] = crec_ct_tv(J, d, 0, J->base[0], &rd->argv[0]);
-  } else {
-    J->base[0] = TREF_NIL;
-  }
-}
-
-#undef IR
-#undef emitir
-#undef emitconv
-
-#endif
diff --git a/luajit-2.0/src/lj_crecord.h b/luajit-2.0/src/lj_crecord.h
deleted file mode 100644
index fb77ca6..0000000
--- a/luajit-2.0/src/lj_crecord.h
+++ /dev/null
@@ -1,31 +0,0 @@
-/*
-** Trace recorder for C data operations.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#ifndef _LJ_CRECORD_H
-#define _LJ_CRECORD_H
-
-#include "lj_obj.h"
-#include "lj_jit.h"
-#include "lj_ffrecord.h"
-
-#if LJ_HASJIT && LJ_HASFFI
-LJ_FUNC void LJ_FASTCALL recff_cdata_index(jit_State *J, RecordFFData *rd);
-LJ_FUNC void LJ_FASTCALL recff_cdata_call(jit_State *J, RecordFFData *rd);
-LJ_FUNC void LJ_FASTCALL recff_cdata_arith(jit_State *J, RecordFFData *rd);
-LJ_FUNC void LJ_FASTCALL recff_clib_index(jit_State *J, RecordFFData *rd);
-LJ_FUNC void LJ_FASTCALL recff_ffi_new(jit_State *J, RecordFFData *rd);
-LJ_FUNC void LJ_FASTCALL recff_ffi_errno(jit_State *J, RecordFFData *rd);
-LJ_FUNC void LJ_FASTCALL recff_ffi_string(jit_State *J, RecordFFData *rd);
-LJ_FUNC void LJ_FASTCALL recff_ffi_copy(jit_State *J, RecordFFData *rd);
-LJ_FUNC void LJ_FASTCALL recff_ffi_fill(jit_State *J, RecordFFData *rd);
-LJ_FUNC void LJ_FASTCALL recff_ffi_typeof(jit_State *J, RecordFFData *rd);
-LJ_FUNC void LJ_FASTCALL recff_ffi_istype(jit_State *J, RecordFFData *rd);
-LJ_FUNC void LJ_FASTCALL recff_ffi_abi(jit_State *J, RecordFFData *rd);
-LJ_FUNC void LJ_FASTCALL recff_ffi_xof(jit_State *J, RecordFFData *rd);
-LJ_FUNC void LJ_FASTCALL recff_ffi_gc(jit_State *J, RecordFFData *rd);
-LJ_FUNC void LJ_FASTCALL lj_crecord_tonumber(jit_State *J, RecordFFData *rd);
-#endif
-
-#endif
diff --git a/luajit-2.0/src/lj_ctype.c b/luajit-2.0/src/lj_ctype.c
deleted file mode 100644
index e9fe094..0000000
--- a/luajit-2.0/src/lj_ctype.c
+++ /dev/null
@@ -1,634 +0,0 @@
-/*
-** C type management.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#include "lj_obj.h"
-
-#if LJ_HASFFI
-
-#include "lj_gc.h"
-#include "lj_err.h"
-#include "lj_str.h"
-#include "lj_tab.h"
-#include "lj_ctype.h"
-#include "lj_ccallback.h"
-
-/* -- C type definitions -------------------------------------------------- */
-
-/* Predefined typedefs. */
-#define CTTDDEF(_) \
-  /* Vararg handling. */ \
-  _("va_list",			P_VOID) \
-  _("__builtin_va_list",	P_VOID) \
-  _("__gnuc_va_list",		P_VOID) \
-  /* From stddef.h. */ \
-  _("ptrdiff_t",		INT_PSZ) \
-  _("size_t",			UINT_PSZ) \
-  _("wchar_t",			WCHAR) \
-  /* Subset of stdint.h. */ \
-  _("int8_t",			INT8) \
-  _("int16_t",			INT16) \
-  _("int32_t",			INT32) \
-  _("int64_t",			INT64) \
-  _("uint8_t",			UINT8) \
-  _("uint16_t",			UINT16) \
-  _("uint32_t",			UINT32) \
-  _("uint64_t",			UINT64) \
-  _("intptr_t",			INT_PSZ) \
-  _("uintptr_t",		UINT_PSZ) \
-  /* End of typedef list. */
-
-/* Keywords (only the ones we actually care for). */
-#define CTKWDEF(_) \
-  /* Type specifiers. */ \
-  _("void",		-1,	CTOK_VOID) \
-  _("_Bool",		0,	CTOK_BOOL) \
-  _("bool",		1,	CTOK_BOOL) \
-  _("char",		1,	CTOK_CHAR) \
-  _("int",		4,	CTOK_INT) \
-  _("__int8",		1,	CTOK_INT) \
-  _("__int16",		2,	CTOK_INT) \
-  _("__int32",		4,	CTOK_INT) \
-  _("__int64",		8,	CTOK_INT) \
-  _("float",		4,	CTOK_FP) \
-  _("double",		8,	CTOK_FP) \
-  _("long",		0,	CTOK_LONG) \
-  _("short",		0,	CTOK_SHORT) \
-  _("_Complex",		0,	CTOK_COMPLEX) \
-  _("complex",		0,	CTOK_COMPLEX) \
-  _("__complex",	0,	CTOK_COMPLEX) \
-  _("__complex__",	0,	CTOK_COMPLEX) \
-  _("signed",		0,	CTOK_SIGNED) \
-  _("__signed",		0,	CTOK_SIGNED) \
-  _("__signed__",	0,	CTOK_SIGNED) \
-  _("unsigned",		0,	CTOK_UNSIGNED) \
-  /* Type qualifiers. */ \
-  _("const",		0,	CTOK_CONST) \
-  _("__const",		0,	CTOK_CONST) \
-  _("__const__",	0,	CTOK_CONST) \
-  _("volatile",		0,	CTOK_VOLATILE) \
-  _("__volatile",	0,	CTOK_VOLATILE) \
-  _("__volatile__",	0,	CTOK_VOLATILE) \
-  _("restrict",		0,	CTOK_RESTRICT) \
-  _("__restrict",	0,	CTOK_RESTRICT) \
-  _("__restrict__",	0,	CTOK_RESTRICT) \
-  _("inline",		0,	CTOK_INLINE) \
-  _("__inline",		0,	CTOK_INLINE) \
-  _("__inline__",	0,	CTOK_INLINE) \
-  /* Storage class specifiers. */ \
-  _("typedef",		0,	CTOK_TYPEDEF) \
-  _("extern",		0,	CTOK_EXTERN) \
-  _("static",		0,	CTOK_STATIC) \
-  _("auto",		0,	CTOK_AUTO) \
-  _("register",		0,	CTOK_REGISTER) \
-  /* GCC Attributes. */ \
-  _("__extension__",	0,	CTOK_EXTENSION) \
-  _("__attribute",	0,	CTOK_ATTRIBUTE) \
-  _("__attribute__",	0,	CTOK_ATTRIBUTE) \
-  _("asm",		0,	CTOK_ASM) \
-  _("__asm",		0,	CTOK_ASM) \
-  _("__asm__",		0,	CTOK_ASM) \
-  /* MSVC Attributes. */ \
-  _("__declspec",	0,	CTOK_DECLSPEC) \
-  _("__cdecl",		CTCC_CDECL,	CTOK_CCDECL) \
-  _("__thiscall",	CTCC_THISCALL,	CTOK_CCDECL) \
-  _("__fastcall",	CTCC_FASTCALL,	CTOK_CCDECL) \
-  _("__stdcall",	CTCC_STDCALL,	CTOK_CCDECL) \
-  _("__ptr32",		4,	CTOK_PTRSZ) \
-  _("__ptr64",		8,	CTOK_PTRSZ) \
-  /* Other type specifiers. */ \
-  _("struct",		0,	CTOK_STRUCT) \
-  _("union",		0,	CTOK_UNION) \
-  _("enum",		0,	CTOK_ENUM) \
-  /* Operators. */ \
-  _("sizeof",		0,	CTOK_SIZEOF) \
-  _("__alignof",	0,	CTOK_ALIGNOF) \
-  _("__alignof__",	0,	CTOK_ALIGNOF) \
-  /* End of keyword list. */
-
-/* Type info for predefined types. Size merged in. */
-static CTInfo lj_ctype_typeinfo[] = {
-#define CTTYINFODEF(id, sz, ct, info)	CTINFO((ct),(((sz)&0x3fu)<<10)+(info)),
-#define CTTDINFODEF(name, id)		CTINFO(CT_TYPEDEF, CTID_##id),
-#define CTKWINFODEF(name, sz, kw)	CTINFO(CT_KW,(((sz)&0x3fu)<<10)+(kw)),
-CTTYDEF(CTTYINFODEF)
-CTTDDEF(CTTDINFODEF)
-CTKWDEF(CTKWINFODEF)
-#undef CTTYINFODEF
-#undef CTTDINFODEF
-#undef CTKWINFODEF
-  0
-};
-
-/* Predefined type names collected in a single string. */
-static const char * const lj_ctype_typenames =
-#define CTTDNAMEDEF(name, id)		name "\0"
-#define CTKWNAMEDEF(name, sz, cds)	name "\0"
-CTTDDEF(CTTDNAMEDEF)
-CTKWDEF(CTKWNAMEDEF)
-#undef CTTDNAMEDEF
-#undef CTKWNAMEDEF
-;
-
-#define CTTYPEINFO_NUM		(sizeof(lj_ctype_typeinfo)/sizeof(CTInfo)-1)
-#ifdef LUAJIT_CTYPE_CHECK_ANCHOR
-#define CTTYPETAB_MIN		CTTYPEINFO_NUM
-#else
-#define CTTYPETAB_MIN		128
-#endif
-
-/* -- C type interning ---------------------------------------------------- */
-
-#define ct_hashtype(info, size)	(hashrot(info, size) & CTHASH_MASK)
-#define ct_hashname(name) \
-  (hashrot(u32ptr(name), u32ptr(name) + HASH_BIAS) & CTHASH_MASK)
-
-/* Create new type element. */
-CTypeID lj_ctype_new(CTState *cts, CType **ctp)
-{
-  CTypeID id = cts->top;
-  CType *ct;
-  lua_assert(cts->L);
-  if (LJ_UNLIKELY(id >= cts->sizetab)) {
-    if (id >= CTID_MAX) lj_err_msg(cts->L, LJ_ERR_TABOV);
-#ifdef LUAJIT_CTYPE_CHECK_ANCHOR
-    ct = lj_mem_newvec(cts->L, id+1, CType);
-    memcpy(ct, cts->tab, id*sizeof(CType));
-    memset(cts->tab, 0, id*sizeof(CType));
-    lj_mem_freevec(cts->g, cts->tab, cts->sizetab, CType);
-    cts->tab = ct;
-    cts->sizetab = id+1;
-#else
-    lj_mem_growvec(cts->L, cts->tab, cts->sizetab, CTID_MAX, CType);
-#endif
-  }
-  cts->top = id+1;
-  *ctp = ct = &cts->tab[id];
-  ct->info = 0;
-  ct->size = 0;
-  ct->sib = 0;
-  ct->next = 0;
-  setgcrefnull(ct->name);
-  return id;
-}
-
-/* Intern a type element. */
-CTypeID lj_ctype_intern(CTState *cts, CTInfo info, CTSize size)
-{
-  uint32_t h = ct_hashtype(info, size);
-  CTypeID id = cts->hash[h];
-  lua_assert(cts->L);
-  while (id) {
-    CType *ct = ctype_get(cts, id);
-    if (ct->info == info && ct->size == size)
-      return id;
-    id = ct->next;
-  }
-  id = cts->top;
-  if (LJ_UNLIKELY(id >= cts->sizetab)) {
-    if (id >= CTID_MAX) lj_err_msg(cts->L, LJ_ERR_TABOV);
-    lj_mem_growvec(cts->L, cts->tab, cts->sizetab, CTID_MAX, CType);
-  }
-  cts->top = id+1;
-  cts->tab[id].info = info;
-  cts->tab[id].size = size;
-  cts->tab[id].sib = 0;
-  cts->tab[id].next = cts->hash[h];
-  setgcrefnull(cts->tab[id].name);
-  cts->hash[h] = (CTypeID1)id;
-  return id;
-}
-
-/* Add type element to hash table. */
-static void ctype_addtype(CTState *cts, CType *ct, CTypeID id)
-{
-  uint32_t h = ct_hashtype(ct->info, ct->size);
-  ct->next = cts->hash[h];
-  cts->hash[h] = (CTypeID1)id;
-}
-
-/* Add named element to hash table. */
-void lj_ctype_addname(CTState *cts, CType *ct, CTypeID id)
-{
-  uint32_t h = ct_hashname(gcref(ct->name));
-  ct->next = cts->hash[h];
-  cts->hash[h] = (CTypeID1)id;
-}
-
-/* Get a C type by name, matching the type mask. */
-CTypeID lj_ctype_getname(CTState *cts, CType **ctp, GCstr *name, uint32_t tmask)
-{
-  CTypeID id = cts->hash[ct_hashname(name)];
-  while (id) {
-    CType *ct = ctype_get(cts, id);
-    if (gcref(ct->name) == obj2gco(name) &&
-	((tmask >> ctype_type(ct->info)) & 1)) {
-      *ctp = ct;
-      return id;
-    }
-    id = ct->next;
-  }
-  *ctp = &cts->tab[0];  /* Simplify caller logic. ctype_get() would assert. */
-  return 0;
-}
-
-/* Get a struct/union/enum/function field by name. */
-CType *lj_ctype_getfieldq(CTState *cts, CType *ct, GCstr *name, CTSize *ofs,
-			  CTInfo *qual)
-{
-  while (ct->sib) {
-    ct = ctype_get(cts, ct->sib);
-    if (gcref(ct->name) == obj2gco(name)) {
-      *ofs = ct->size;
-      return ct;
-    }
-    if (ctype_isxattrib(ct->info, CTA_SUBTYPE)) {
-      CType *fct, *cct = ctype_child(cts, ct);
-      CTInfo q = 0;
-      while (ctype_isattrib(cct->info)) {
-	if (ctype_attrib(cct->info) == CTA_QUAL) q |= cct->size;
-	cct = ctype_child(cts, cct);
-      }
-      fct = lj_ctype_getfieldq(cts, cct, name, ofs, qual);
-      if (fct) {
-	if (qual) *qual |= q;
-	*ofs += ct->size;
-	return fct;
-      }
-    }
-  }
-  return NULL;  /* Not found. */
-}
-
-/* -- C type information -------------------------------------------------- */
-
-/* Follow references and get raw type for a C type ID. */
-CType *lj_ctype_rawref(CTState *cts, CTypeID id)
-{
-  CType *ct = ctype_get(cts, id);
-  while (ctype_isattrib(ct->info) || ctype_isref(ct->info))
-    ct = ctype_child(cts, ct);
-  return ct;
-}
-
-/* Get size for a C type ID. Does NOT support VLA/VLS. */
-CTSize lj_ctype_size(CTState *cts, CTypeID id)
-{
-  CType *ct = ctype_raw(cts, id);
-  return ctype_hassize(ct->info) ? ct->size : CTSIZE_INVALID;
-}
-
-/* Get size for a variable-length C type. Does NOT support other C types. */
-CTSize lj_ctype_vlsize(CTState *cts, CType *ct, CTSize nelem)
-{
-  uint64_t xsz = 0;
-  if (ctype_isstruct(ct->info)) {
-    CTypeID arrid = 0, fid = ct->sib;
-    xsz = ct->size;  /* Add the struct size. */
-    while (fid) {
-      CType *ctf = ctype_get(cts, fid);
-      if (ctype_type(ctf->info) == CT_FIELD)
-	arrid = ctype_cid(ctf->info);  /* Remember last field of VLS. */
-      fid = ctf->sib;
-    }
-    ct = ctype_raw(cts, arrid);
-  }
-  lua_assert(ctype_isvlarray(ct->info));  /* Must be a VLA. */
-  ct = ctype_rawchild(cts, ct);  /* Get array element. */
-  lua_assert(ctype_hassize(ct->info));
-  /* Calculate actual size of VLA and check for overflow. */
-  xsz += (uint64_t)ct->size * nelem;
-  return xsz < 0x80000000u ? (CTSize)xsz : CTSIZE_INVALID;
-}
-
-/* Get type, qualifiers, size and alignment for a C type ID. */
-CTInfo lj_ctype_info(CTState *cts, CTypeID id, CTSize *szp)
-{
-  CTInfo qual = 0;
-  CType *ct = ctype_get(cts, id);
-  for (;;) {
-    CTInfo info = ct->info;
-    if (ctype_isenum(info)) {
-      /* Follow child. Need to look at its attributes, too. */
-    } else if (ctype_isattrib(info)) {
-      if (ctype_isxattrib(info, CTA_QUAL))
-	qual |= ct->size;
-      else if (ctype_isxattrib(info, CTA_ALIGN) && !(qual & CTFP_ALIGNED))
-	qual |= CTFP_ALIGNED + CTALIGN(ct->size);
-    } else {
-      if (!(qual & CTFP_ALIGNED)) qual |= (info & CTF_ALIGN);
-      qual |= (info & ~(CTF_ALIGN|CTMASK_CID));
-      lua_assert(ctype_hassize(info) || ctype_isfunc(info));
-      *szp = ctype_isfunc(info) ? CTSIZE_INVALID : ct->size;
-      break;
-    }
-    ct = ctype_get(cts, ctype_cid(info));
-  }
-  return qual;
-}
-
-/* Get ctype metamethod. */
-cTValue *lj_ctype_meta(CTState *cts, CTypeID id, MMS mm)
-{
-  CType *ct = ctype_get(cts, id);
-  cTValue *tv;
-  while (ctype_isattrib(ct->info) || ctype_isref(ct->info)) {
-    id = ctype_cid(ct->info);
-    ct = ctype_get(cts, id);
-  }
-  if (ctype_isptr(ct->info) &&
-      ctype_isfunc(ctype_get(cts, ctype_cid(ct->info))->info))
-    tv = lj_tab_getstr(cts->miscmap, &cts->g->strempty);
-  else
-    tv = lj_tab_getinth(cts->miscmap, -(int32_t)id);
-  if (tv && tvistab(tv) &&
-      (tv = lj_tab_getstr(tabV(tv), mmname_str(cts->g, mm))) && !tvisnil(tv))
-    return tv;
-  return NULL;
-}
-
-/* -- C type representation ----------------------------------------------- */
-
-/* Fixed max. length of a C type representation. */
-#define CTREPR_MAX		512
-
-typedef struct CTRepr {
-  char *pb, *pe;
-  CTState *cts;
-  lua_State *L;
-  int needsp;
-  int ok;
-  char buf[CTREPR_MAX];
-} CTRepr;
-
-/* Prepend string. */
-static void ctype_prepstr(CTRepr *ctr, const char *str, MSize len)
-{
-  char *p = ctr->pb;
-  if (ctr->buf + len+1 > p) { ctr->ok = 0; return; }
-  if (ctr->needsp) *--p = ' ';
-  ctr->needsp = 1;
-  p -= len;
-  while (len-- > 0) p[len] = str[len];
-  ctr->pb = p;
-}
-
-#define ctype_preplit(ctr, str)	ctype_prepstr((ctr), "" str, sizeof(str)-1)
-
-/* Prepend char. */
-static void ctype_prepc(CTRepr *ctr, int c)
-{
-  if (ctr->buf >= ctr->pb) { ctr->ok = 0; return; }
-  *--ctr->pb = c;
-}
-
-/* Prepend number. */
-static void ctype_prepnum(CTRepr *ctr, uint32_t n)
-{
-  char *p = ctr->pb;
-  if (ctr->buf + 10+1 > p) { ctr->ok = 0; return; }
-  do { *--p = (char)('0' + n % 10); } while (n /= 10);
-  ctr->pb = p;
-  ctr->needsp = 0;
-}
-
-/* Append char. */
-static void ctype_appc(CTRepr *ctr, int c)
-{
-  if (ctr->pe >= ctr->buf + CTREPR_MAX) { ctr->ok = 0; return; }
-  *ctr->pe++ = c;
-}
-
-/* Append number. */
-static void ctype_appnum(CTRepr *ctr, uint32_t n)
-{
-  char buf[10];
-  char *p = buf+sizeof(buf);
-  char *q = ctr->pe;
-  if (q > ctr->buf + CTREPR_MAX - 10) { ctr->ok = 0; return; }
-  do { *--p = (char)('0' + n % 10); } while (n /= 10);
-  do { *q++ = *p++; } while (p < buf+sizeof(buf));
-  ctr->pe = q;
-}
-
-/* Prepend qualifiers. */
-static void ctype_prepqual(CTRepr *ctr, CTInfo info)
-{
-  if ((info & CTF_VOLATILE)) ctype_preplit(ctr, "volatile");
-  if ((info & CTF_CONST)) ctype_preplit(ctr, "const");
-}
-
-/* Prepend named type. */
-static void ctype_preptype(CTRepr *ctr, CType *ct, CTInfo qual, const char *t)
-{
-  if (gcref(ct->name)) {
-    GCstr *str = gco2str(gcref(ct->name));
-    ctype_prepstr(ctr, strdata(str), str->len);
-  } else {
-    if (ctr->needsp) ctype_prepc(ctr, ' ');
-    ctype_prepnum(ctr, ctype_typeid(ctr->cts, ct));
-    ctr->needsp = 1;
-  }
-  ctype_prepstr(ctr, t, (MSize)strlen(t));
-  ctype_prepqual(ctr, qual);
-}
-
-static void ctype_repr(CTRepr *ctr, CTypeID id)
-{
-  CType *ct = ctype_get(ctr->cts, id);
-  CTInfo qual = 0;
-  int ptrto = 0;
-  for (;;) {
-    CTInfo info = ct->info;
-    CTSize size = ct->size;
-    switch (ctype_type(info)) {
-    case CT_NUM:
-      if ((info & CTF_BOOL)) {
-	ctype_preplit(ctr, "bool");
-      } else if ((info & CTF_FP)) {
-	if (size == sizeof(double)) ctype_preplit(ctr, "double");
-	else if (size == sizeof(float)) ctype_preplit(ctr, "float");
-	else ctype_preplit(ctr, "long double");
-      } else if (size == 1) {
-	if (!((info ^ CTF_UCHAR) & CTF_UNSIGNED)) ctype_preplit(ctr, "char");
-	else if (CTF_UCHAR) ctype_preplit(ctr, "signed char");
-	else ctype_preplit(ctr, "unsigned char");
-      } else if (size < 8) {
-	if (size == 4) ctype_preplit(ctr, "int");
-	else ctype_preplit(ctr, "short");
-	if ((info & CTF_UNSIGNED)) ctype_preplit(ctr, "unsigned");
-      } else {
-	ctype_preplit(ctr, "_t");
-	ctype_prepnum(ctr, size*8);
-	ctype_preplit(ctr, "int");
-	if ((info & CTF_UNSIGNED)) ctype_prepc(ctr, 'u');
-      }
-      ctype_prepqual(ctr, (qual|info));
-      return;
-    case CT_VOID:
-      ctype_preplit(ctr, "void");
-      ctype_prepqual(ctr, (qual|info));
-      return;
-    case CT_STRUCT:
-      ctype_preptype(ctr, ct, qual, (info & CTF_UNION) ? "union" : "struct");
-      return;
-    case CT_ENUM:
-      if (id == CTID_CTYPEID) {
-	ctype_preplit(ctr, "ctype");
-	return;
-      }
-      ctype_preptype(ctr, ct, qual, "enum");
-      return;
-    case CT_ATTRIB:
-      if (ctype_attrib(info) == CTA_QUAL) qual |= size;
-      break;
-    case CT_PTR:
-      if ((info & CTF_REF)) {
-	ctype_prepc(ctr, '&');
-      } else {
-	ctype_prepqual(ctr, (qual|info));
-	if (LJ_64 && size == 4) ctype_preplit(ctr, "__ptr32");
-	ctype_prepc(ctr, '*');
-      }
-      qual = 0;
-      ptrto = 1;
-      ctr->needsp = 1;
-      break;
-    case CT_ARRAY:
-      if (ctype_isrefarray(info)) {
-	ctr->needsp = 1;
-	if (ptrto) { ptrto = 0; ctype_prepc(ctr, '('); ctype_appc(ctr, ')'); }
-	ctype_appc(ctr, '[');
-	if (size != CTSIZE_INVALID) {
-	  CTSize csize = ctype_child(ctr->cts, ct)->size;
-	  ctype_appnum(ctr, csize ? size/csize : 0);
-	} else if ((info & CTF_VLA)) {
-	  ctype_appc(ctr, '?');
-	}
-	ctype_appc(ctr, ']');
-      } else if ((info & CTF_COMPLEX)) {
-	if (size == 2*sizeof(float)) ctype_preplit(ctr, "float");
-	ctype_preplit(ctr, "complex");
-	return;
-      } else {
-	ctype_preplit(ctr, ")))");
-	ctype_prepnum(ctr, size);
-	ctype_preplit(ctr, "__attribute__((vector_size(");
-      }
-      break;
-    case CT_FUNC:
-      ctr->needsp = 1;
-      if (ptrto) { ptrto = 0; ctype_prepc(ctr, '('); ctype_appc(ctr, ')'); }
-      ctype_appc(ctr, '(');
-      ctype_appc(ctr, ')');
-      break;
-    default:
-      lua_assert(0);
-      break;
-    }
-    ct = ctype_get(ctr->cts, ctype_cid(info));
-  }
-}
-
-/* Return a printable representation of a C type. */
-GCstr *lj_ctype_repr(lua_State *L, CTypeID id, GCstr *name)
-{
-  global_State *g = G(L);
-  CTRepr ctr;
-  ctr.pb = ctr.pe = &ctr.buf[CTREPR_MAX/2];
-  ctr.cts = ctype_ctsG(g);
-  ctr.L = L;
-  ctr.ok = 1;
-  ctr.needsp = 0;
-  if (name) ctype_prepstr(&ctr, strdata(name), name->len);
-  ctype_repr(&ctr, id);
-  if (LJ_UNLIKELY(!ctr.ok)) return lj_str_newlit(L, "?");
-  return lj_str_new(L, ctr.pb, ctr.pe - ctr.pb);
-}
-
-/* Convert int64_t/uint64_t to string with 'LL' or 'ULL' suffix. */
-GCstr *lj_ctype_repr_int64(lua_State *L, uint64_t n, int isunsigned)
-{
-  char buf[1+20+3];
-  char *p = buf+sizeof(buf);
-  int sign = 0;
-  *--p = 'L'; *--p = 'L';
-  if (isunsigned) {
-    *--p = 'U';
-  } else if ((int64_t)n < 0) {
-    n = (uint64_t)-(int64_t)n;
-    sign = 1;
-  }
-  do { *--p = (char)('0' + n % 10); } while (n /= 10);
-  if (sign) *--p = '-';
-  return lj_str_new(L, p, (size_t)(buf+sizeof(buf)-p));
-}
-
-/* Convert complex to string with 'i' or 'I' suffix. */
-GCstr *lj_ctype_repr_complex(lua_State *L, void *sp, CTSize size)
-{
-  char buf[2*LJ_STR_NUMBUF+2+1];
-  TValue re, im;
-  size_t len;
-  if (size == 2*sizeof(double)) {
-    re.n = *(double *)sp; im.n = ((double *)sp)[1];
-  } else {
-    re.n = (double)*(float *)sp; im.n = (double)((float *)sp)[1];
-  }
-  len = lj_str_bufnum(buf, &re);
-  if (!(im.u32.hi & 0x80000000u) || im.n != im.n) buf[len++] = '+';
-  len += lj_str_bufnum(buf+len, &im);
-  buf[len] = buf[len-1] >= 'a' ? 'I' : 'i';
-  return lj_str_new(L, buf, len+1);
-}
-
-/* -- C type state -------------------------------------------------------- */
-
-/* Initialize C type table and state. */
-CTState *lj_ctype_init(lua_State *L)
-{
-  CTState *cts = lj_mem_newt(L, sizeof(CTState), CTState);
-  CType *ct = lj_mem_newvec(L, CTTYPETAB_MIN, CType);
-  const char *name = lj_ctype_typenames;
-  CTypeID id;
-  memset(cts, 0, sizeof(CTState));
-  cts->tab = ct;
-  cts->sizetab = CTTYPETAB_MIN;
-  cts->top = CTTYPEINFO_NUM;
-  cts->L = NULL;
-  cts->g = G(L);
-  for (id = 0; id < CTTYPEINFO_NUM; id++, ct++) {
-    CTInfo info = lj_ctype_typeinfo[id];
-    ct->size = (CTSize)((int32_t)(info << 16) >> 26);
-    ct->info = info & 0xffff03ffu;
-    ct->sib = 0;
-    if (ctype_type(info) == CT_KW || ctype_istypedef(info)) {
-      size_t len = strlen(name);
-      GCstr *str = lj_str_new(L, name, len);
-      ctype_setname(ct, str);
-      name += len+1;
-      lj_ctype_addname(cts, ct, id);
-    } else {
-      setgcrefnull(ct->name);
-      ct->next = 0;
-      if (!ctype_isenum(info)) ctype_addtype(cts, ct, id);
-    }
-  }
-  setmref(G(L)->ctype_state, cts);
-  return cts;
-}
-
-/* Free C type table and state. */
-void lj_ctype_freestate(global_State *g)
-{
-  CTState *cts = ctype_ctsG(g);
-  if (cts) {
-    lj_ccallback_mcode_free(cts);
-    lj_mem_freevec(g, cts->tab, cts->sizetab, CType);
-    lj_mem_freevec(g, cts->cb.cbid, cts->cb.sizeid, CTypeID1);
-    lj_mem_freet(g, cts);
-  }
-}
-
-#endif
diff --git a/luajit-2.0/src/lj_ctype.h b/luajit-2.0/src/lj_ctype.h
deleted file mode 100644
index ff8ee06..0000000
--- a/luajit-2.0/src/lj_ctype.h
+++ /dev/null
@@ -1,461 +0,0 @@
-/*
-** C type management.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#ifndef _LJ_CTYPE_H
-#define _LJ_CTYPE_H
-
-#include "lj_obj.h"
-#include "lj_gc.h"
-
-#if LJ_HASFFI
-
-/* -- C type definitions -------------------------------------------------- */
-
-/* C type numbers. Highest 4 bits of C type info. ORDER CT. */
-enum {
-  /* Externally visible types. */
-  CT_NUM,		/* Integer or floating-point numbers. */
-  CT_STRUCT,		/* Struct or union. */
-  CT_PTR,		/* Pointer or reference. */
-  CT_ARRAY,		/* Array or complex type. */
-  CT_MAYCONVERT = CT_ARRAY,
-  CT_VOID,		/* Void type. */
-  CT_ENUM,		/* Enumeration. */
-  CT_HASSIZE = CT_ENUM,  /* Last type where ct->size holds the actual size. */
-  CT_FUNC,		/* Function. */
-  CT_TYPEDEF,		/* Typedef. */
-  CT_ATTRIB,		/* Miscellaneous attributes. */
-  /* Internal element types. */
-  CT_FIELD,		/* Struct/union field or function parameter. */
-  CT_BITFIELD,		/* Struct/union bitfield. */
-  CT_CONSTVAL,		/* Constant value. */
-  CT_EXTERN,		/* External reference. */
-  CT_KW			/* Keyword. */
-};
-
-LJ_STATIC_ASSERT(((int)CT_PTR & (int)CT_ARRAY) == CT_PTR);
-LJ_STATIC_ASSERT(((int)CT_STRUCT & (int)CT_ARRAY) == CT_STRUCT);
-
-/*
-**  ---------- info ------------
-** |type      flags...  A   cid | size   |  sib  | next  | name  |
-** +----------------------------+--------+-------+-------+-------+--
-** |NUM       BFvcUL..  A       | size   |       | type  |       |
-** |STRUCT    ..vcU..V  A       | size   | field | name? | name? |
-** |PTR       ..vcR...  A   cid | size   |       | type  |       |
-** |ARRAY     VCvc...V  A   cid | size   |       | type  |       |
-** |VOID      ..vc....  A       | size   |       | type  |       |
-** |ENUM                A   cid | size   | const | name? | name? |
-** |FUNC      ....VS.. cc   cid | nargs  | field | name? | name? |
-** |TYPEDEF                 cid |        |       | name  | name  |
-** |ATTRIB        attrnum   cid | attr   | sib?  | type? |       |
-** |FIELD                   cid | offset | field |       | name? |
-** |BITFIELD  B.vcU csz bsz pos | offset | field |       | name? |
-** |CONSTVAL     c          cid | value  | const | name  | name  |
-** |EXTERN                  cid |        | sib?  | name  | name  |
-** |KW                      tok | size   |       | name  | name  |
-** +----------------------------+--------+-------+-------+-------+--
-**        ^^  ^^--- bits used for C type conversion dispatch
-*/
-
-/* C type info flags.     TFFArrrr  */
-#define CTF_BOOL	0x08000000u	/* Boolean: NUM, BITFIELD. */
-#define CTF_FP		0x04000000u	/* Floating-point: NUM. */
-#define CTF_CONST	0x02000000u	/* Const qualifier. */
-#define CTF_VOLATILE	0x01000000u	/* Volatile qualifier. */
-#define CTF_UNSIGNED	0x00800000u	/* Unsigned: NUM, BITFIELD. */
-#define CTF_LONG	0x00400000u	/* Long: NUM. */
-#define CTF_VLA		0x00100000u	/* Variable-length: ARRAY, STRUCT. */
-#define CTF_REF		0x00800000u	/* Reference: PTR. */
-#define CTF_VECTOR	0x08000000u	/* Vector: ARRAY. */
-#define CTF_COMPLEX	0x04000000u	/* Complex: ARRAY. */
-#define CTF_UNION	0x00800000u	/* Union: STRUCT. */
-#define CTF_VARARG	0x00800000u	/* Vararg: FUNC. */
-#define CTF_SSEREGPARM	0x00400000u	/* SSE register parameters: FUNC. */
-
-#define CTF_QUAL	(CTF_CONST|CTF_VOLATILE)
-#define CTF_ALIGN	(CTMASK_ALIGN<<CTSHIFT_ALIGN)
-#define CTF_UCHAR	((char)-1 > 0 ? CTF_UNSIGNED : 0)
-
-/* Flags used in parser.  .F.Ammvf   cp->attr  */
-#define CTFP_ALIGNED	0x00000001u	/* cp->attr + ALIGN */
-#define CTFP_PACKED	0x00000002u	/* cp->attr */
-/*                        ...C...f   cp->fattr */
-#define CTFP_CCONV	0x00000001u	/* cp->fattr + CCONV/[SSE]REGPARM */
-
-/* C type info bitfields. */
-#define CTMASK_CID	0x0000ffffu	/* Max. 65536 type IDs. */
-#define CTMASK_NUM	0xf0000000u	/* Max. 16 type numbers. */
-#define CTSHIFT_NUM	28
-#define CTMASK_ALIGN	15		/* Max. alignment is 2^15. */
-#define CTSHIFT_ALIGN	16
-#define CTMASK_ATTRIB	255		/* Max. 256 attributes. */
-#define CTSHIFT_ATTRIB	16
-#define CTMASK_CCONV	3		/* Max. 4 calling conventions. */
-#define CTSHIFT_CCONV	16
-#define CTMASK_REGPARM	3		/* Max. 0-3 regparms. */
-#define CTSHIFT_REGPARM	18
-/* Bitfields only used in parser. */
-#define CTMASK_VSIZEP	15		/* Max. vector size is 2^15. */
-#define CTSHIFT_VSIZEP	4
-#define CTMASK_MSIZEP	255		/* Max. type size (via mode) is 128. */
-#define CTSHIFT_MSIZEP	8
-
-/* Info bits for BITFIELD. Max. size of bitfield is 64 bits. */
-#define CTBSZ_MAX	32		/* Max. size of bitfield is 32 bit. */
-#define CTBSZ_FIELD	127		/* Temp. marker for regular field. */
-#define CTMASK_BITPOS	127
-#define CTMASK_BITBSZ	127
-#define CTMASK_BITCSZ	127
-#define CTSHIFT_BITPOS	0
-#define CTSHIFT_BITBSZ	8
-#define CTSHIFT_BITCSZ	16
-
-#define CTF_INSERT(info, field, val) \
-  info = (info & ~(CTMASK_##field<<CTSHIFT_##field)) | \
-	  (((CTSize)(val) & CTMASK_##field) << CTSHIFT_##field)
-
-/* Calling conventions. ORDER CC */
-enum { CTCC_CDECL, CTCC_THISCALL, CTCC_FASTCALL, CTCC_STDCALL };
-
-/* Attribute numbers. */
-enum {
-  CTA_NONE,		/* Ignored attribute. Must be zero. */
-  CTA_QUAL,		/* Unmerged qualifiers. */
-  CTA_ALIGN,		/* Alignment override. */
-  CTA_SUBTYPE,		/* Transparent sub-type. */
-  CTA_REDIR,		/* Redirected symbol name. */
-  CTA_BAD,		/* To catch bad IDs. */
-  CTA__MAX
-};
-
-/* Special sizes. */
-#define CTSIZE_INVALID	0xffffffffu
-
-typedef uint32_t CTInfo;	/* Type info. */
-typedef uint32_t CTSize;	/* Type size. */
-typedef uint32_t CTypeID;	/* Type ID. */
-typedef uint16_t CTypeID1;	/* Minimum-sized type ID. */
-
-/* C type table element. */
-typedef struct CType {
-  CTInfo info;		/* Type info. */
-  CTSize size;		/* Type size or other info. */
-  CTypeID1 sib;		/* Sibling element. */
-  CTypeID1 next;	/* Next element in hash chain. */
-  GCRef name;		/* Element name (GCstr). */
-} CType;
-
-#define CTHASH_SIZE	128	/* Number of hash anchors. */
-#define CTHASH_MASK	(CTHASH_SIZE-1)
-
-/* Simplify target-specific configuration. Checked in lj_ccall.h. */
-#define CCALL_MAX_GPR		8
-#define CCALL_MAX_FPR		8
-
-typedef LJ_ALIGN(8) union FPRCBArg { double d; float f[2]; } FPRCBArg;
-
-/* C callback state. Defined here, to avoid dragging in lj_ccall.h. */
-
-typedef LJ_ALIGN(8) struct CCallback {
-  FPRCBArg fpr[CCALL_MAX_FPR];	/* Arguments/results in FPRs. */
-  intptr_t gpr[CCALL_MAX_GPR];	/* Arguments/results in GPRs. */
-  intptr_t *stack;		/* Pointer to arguments on stack. */
-  void *mcode;			/* Machine code for callback func. pointers. */
-  CTypeID1 *cbid;		/* Callback type table. */
-  MSize sizeid;			/* Size of callback type table. */
-  MSize topid;			/* Highest unused callback type table slot. */
-  MSize slot;			/* Current callback slot. */
-} CCallback;
-
-/* C type state. */
-typedef struct CTState {
-  CType *tab;		/* C type table. */
-  CTypeID top;		/* Current top of C type table. */
-  MSize sizetab;	/* Size of C type table. */
-  lua_State *L;		/* Lua state (needed for errors and allocations). */
-  global_State *g;	/* Global state. */
-  GCtab *finalizer;	/* Map of cdata to finalizer. */
-  GCtab *miscmap;	/* Map of -CTypeID to metatable and cb slot to func. */
-  CCallback cb;		/* Temporary callback state. */
-  CTypeID1 hash[CTHASH_SIZE];  /* Hash anchors for C type table. */
-} CTState;
-
-#define CTINFO(ct, flags)	(((CTInfo)(ct) << CTSHIFT_NUM) + (flags))
-#define CTALIGN(al)		((CTSize)(al) << CTSHIFT_ALIGN)
-#define CTATTRIB(at)		((CTInfo)(at) << CTSHIFT_ATTRIB)
-
-#define ctype_type(info)	((info) >> CTSHIFT_NUM)
-#define ctype_cid(info)		((CTypeID)((info) & CTMASK_CID))
-#define ctype_align(info)	(((info) >> CTSHIFT_ALIGN) & CTMASK_ALIGN)
-#define ctype_attrib(info)	(((info) >> CTSHIFT_ATTRIB) & CTMASK_ATTRIB)
-#define ctype_bitpos(info)	(((info) >> CTSHIFT_BITPOS) & CTMASK_BITPOS)
-#define ctype_bitbsz(info)	(((info) >> CTSHIFT_BITBSZ) & CTMASK_BITBSZ)
-#define ctype_bitcsz(info)	(((info) >> CTSHIFT_BITCSZ) & CTMASK_BITCSZ)
-#define ctype_vsizeP(info)	(((info) >> CTSHIFT_VSIZEP) & CTMASK_VSIZEP)
-#define ctype_msizeP(info)	(((info) >> CTSHIFT_MSIZEP) & CTMASK_MSIZEP)
-#define ctype_cconv(info)	(((info) >> CTSHIFT_CCONV) & CTMASK_CCONV)
-
-/* Simple type checks. */
-#define ctype_isnum(info)	(ctype_type((info)) == CT_NUM)
-#define ctype_isvoid(info)	(ctype_type((info)) == CT_VOID)
-#define ctype_isptr(info)	(ctype_type((info)) == CT_PTR)
-#define ctype_isarray(info)	(ctype_type((info)) == CT_ARRAY)
-#define ctype_isstruct(info)	(ctype_type((info)) == CT_STRUCT)
-#define ctype_isfunc(info)	(ctype_type((info)) == CT_FUNC)
-#define ctype_isenum(info)	(ctype_type((info)) == CT_ENUM)
-#define ctype_istypedef(info)	(ctype_type((info)) == CT_TYPEDEF)
-#define ctype_isattrib(info)	(ctype_type((info)) == CT_ATTRIB)
-#define ctype_isfield(info)	(ctype_type((info)) == CT_FIELD)
-#define ctype_isbitfield(info)	(ctype_type((info)) == CT_BITFIELD)
-#define ctype_isconstval(info)	(ctype_type((info)) == CT_CONSTVAL)
-#define ctype_isextern(info)	(ctype_type((info)) == CT_EXTERN)
-#define ctype_hassize(info)	(ctype_type((info)) <= CT_HASSIZE)
-
-/* Combined type and flag checks. */
-#define ctype_isinteger(info) \
-  (((info) & (CTMASK_NUM|CTF_BOOL|CTF_FP)) == CTINFO(CT_NUM, 0))
-#define ctype_isinteger_or_bool(info) \
-  (((info) & (CTMASK_NUM|CTF_FP)) == CTINFO(CT_NUM, 0))
-#define ctype_isbool(info) \
-  (((info) & (CTMASK_NUM|CTF_BOOL)) == CTINFO(CT_NUM, CTF_BOOL))
-#define ctype_isfp(info) \
-  (((info) & (CTMASK_NUM|CTF_FP)) == CTINFO(CT_NUM, CTF_FP))
-
-#define ctype_ispointer(info) \
-  ((ctype_type(info) >> 1) == (CT_PTR >> 1))  /* Pointer or array. */
-#define ctype_isref(info) \
-  (((info) & (CTMASK_NUM|CTF_REF)) == CTINFO(CT_PTR, CTF_REF))
-
-#define ctype_isrefarray(info) \
-  (((info) & (CTMASK_NUM|CTF_VECTOR|CTF_COMPLEX)) == CTINFO(CT_ARRAY, 0))
-#define ctype_isvector(info) \
-  (((info) & (CTMASK_NUM|CTF_VECTOR)) == CTINFO(CT_ARRAY, CTF_VECTOR))
-#define ctype_iscomplex(info) \
-  (((info) & (CTMASK_NUM|CTF_COMPLEX)) == CTINFO(CT_ARRAY, CTF_COMPLEX))
-
-#define ctype_isvltype(info) \
-  (((info) & ((CTMASK_NUM|CTF_VLA) - (2u<<CTSHIFT_NUM))) == \
-   CTINFO(CT_STRUCT, CTF_VLA))  /* VL array or VL struct. */
-#define ctype_isvlarray(info) \
-  (((info) & (CTMASK_NUM|CTF_VLA)) == CTINFO(CT_ARRAY, CTF_VLA))
-
-#define ctype_isxattrib(info, at) \
-  (((info) & (CTMASK_NUM|CTATTRIB(CTMASK_ATTRIB))) == \
-   CTINFO(CT_ATTRIB, CTATTRIB(at)))
-
-/* Target-dependent sizes and alignments. */
-#if LJ_64
-#define CTSIZE_PTR	8
-#define CTALIGN_PTR	CTALIGN(3)
-#else
-#define CTSIZE_PTR	4
-#define CTALIGN_PTR	CTALIGN(2)
-#endif
-
-#define CTINFO_REF(ref) \
-  CTINFO(CT_PTR, (CTF_CONST|CTF_REF|CTALIGN_PTR) + (ref))
-
-#define CT_MEMALIGN	3	/* Alignment guaranteed by memory allocator. */
-
-/* -- Predefined types ---------------------------------------------------- */
-
-/* Target-dependent types. */
-#if LJ_TARGET_PPC || LJ_TARGET_PPCSPE
-#define CTTYDEFP(_) \
-  _(LINT32,		4,	CT_NUM, CTF_LONG|CTALIGN(2))
-#else
-#define CTTYDEFP(_)
-#endif
-
-/* Common types. */
-#define CTTYDEF(_) \
-  _(NONE,		0,	CT_ATTRIB, CTATTRIB(CTA_BAD)) \
-  _(VOID,		-1,	CT_VOID, CTALIGN(0)) \
-  _(CVOID,		-1,	CT_VOID, CTF_CONST|CTALIGN(0)) \
-  _(BOOL,		1,	CT_NUM, CTF_BOOL|CTF_UNSIGNED|CTALIGN(0)) \
-  _(CCHAR,		1,	CT_NUM, CTF_CONST|CTF_UCHAR|CTALIGN(0)) \
-  _(INT8,		1,	CT_NUM, CTALIGN(0)) \
-  _(UINT8,		1,	CT_NUM, CTF_UNSIGNED|CTALIGN(0)) \
-  _(INT16,		2,	CT_NUM, CTALIGN(1)) \
-  _(UINT16,		2,	CT_NUM, CTF_UNSIGNED|CTALIGN(1)) \
-  _(INT32,		4,	CT_NUM, CTALIGN(2)) \
-  _(UINT32,		4,	CT_NUM, CTF_UNSIGNED|CTALIGN(2)) \
-  _(INT64,		8,	CT_NUM, CTF_LONG|CTALIGN(3)) \
-  _(UINT64,		8,	CT_NUM, CTF_UNSIGNED|CTF_LONG|CTALIGN(3)) \
-  _(FLOAT,		4,	CT_NUM, CTF_FP|CTALIGN(2)) \
-  _(DOUBLE,		8,	CT_NUM, CTF_FP|CTALIGN(3)) \
-  _(COMPLEX_FLOAT,	8,	CT_ARRAY, CTF_COMPLEX|CTALIGN(2)|CTID_FLOAT) \
-  _(COMPLEX_DOUBLE,	16,	CT_ARRAY, CTF_COMPLEX|CTALIGN(3)|CTID_DOUBLE) \
-  _(P_VOID,	CTSIZE_PTR,	CT_PTR, CTALIGN_PTR|CTID_VOID) \
-  _(P_CVOID,	CTSIZE_PTR,	CT_PTR, CTALIGN_PTR|CTID_CVOID) \
-  _(P_CCHAR,	CTSIZE_PTR,	CT_PTR, CTALIGN_PTR|CTID_CCHAR) \
-  _(A_CCHAR,		-1,	CT_ARRAY, CTF_CONST|CTALIGN(0)|CTID_CCHAR) \
-  _(CTYPEID,		4,	CT_ENUM, CTALIGN(2)|CTID_INT32) \
-  CTTYDEFP(_) \
-  /* End of type list. */
-
-/* Public predefined type IDs. */
-enum {
-#define CTTYIDDEF(id, sz, ct, info)	CTID_##id,
-CTTYDEF(CTTYIDDEF)
-#undef CTTYIDDEF
-  /* Predefined typedefs and keywords follow. */
-  CTID_MAX = 65536
-};
-
-/* Target-dependent type IDs. */
-#if LJ_64
-#define CTID_INT_PSZ	CTID_INT64
-#define CTID_UINT_PSZ	CTID_UINT64
-#else
-#define CTID_INT_PSZ	CTID_INT32
-#define CTID_UINT_PSZ	CTID_UINT32
-#endif
-
-#if LJ_ABI_WIN
-#define CTID_WCHAR	CTID_UINT16
-#elif LJ_TARGET_PPC
-#define CTID_WCHAR	CTID_LINT32
-#else
-#define CTID_WCHAR	CTID_INT32
-#endif
-
-/* -- C tokens and keywords ----------------------------------------------- */
-
-/* C lexer keywords. */
-#define CTOKDEF(_) \
-  _(IDENT, "<identifier>") _(STRING, "<string>") \
-  _(INTEGER, "<integer>") _(EOF, "<eof>") \
-  _(OROR, "||") _(ANDAND, "&&") _(EQ, "==") _(NE, "!=") \
-  _(LE, "<=") _(GE, ">=") _(SHL, "<<") _(SHR, ">>") _(DEREF, "->")
-
-/* Simple declaration specifiers. */
-#define CDSDEF(_) \
-  _(VOID) _(BOOL) _(CHAR) _(INT) _(FP) \
-  _(LONG) _(LONGLONG) _(SHORT) _(COMPLEX) _(SIGNED) _(UNSIGNED) \
-  _(CONST) _(VOLATILE) _(RESTRICT) _(INLINE) \
-  _(TYPEDEF) _(EXTERN) _(STATIC) _(AUTO) _(REGISTER)
-
-/* C keywords. */
-#define CKWDEF(_) \
-  CDSDEF(_) _(EXTENSION) _(ASM) _(ATTRIBUTE) \
-  _(DECLSPEC) _(CCDECL) _(PTRSZ) \
-  _(STRUCT) _(UNION) _(ENUM) \
-  _(SIZEOF) _(ALIGNOF)
-
-/* C token numbers. */
-enum {
-  CTOK_OFS = 255,
-#define CTOKNUM(name, sym)	CTOK_##name,
-#define CKWNUM(name)		CTOK_##name,
-CTOKDEF(CTOKNUM)
-CKWDEF(CKWNUM)
-#undef CTOKNUM
-#undef CKWNUM
-  CTOK_FIRSTDECL = CTOK_VOID,
-  CTOK_FIRSTSCL = CTOK_TYPEDEF,
-  CTOK_LASTDECLFLAG = CTOK_REGISTER,
-  CTOK_LASTDECL = CTOK_ENUM
-};
-
-/* Declaration specifier flags. */
-enum {
-#define CDSFLAG(name)	CDF_##name = (1u << (CTOK_##name - CTOK_FIRSTDECL)),
-CDSDEF(CDSFLAG)
-#undef CDSFLAG
-  CDF__END
-};
-
-#define CDF_SCL  (CDF_TYPEDEF|CDF_EXTERN|CDF_STATIC|CDF_AUTO|CDF_REGISTER)
-
-/* -- C type management --------------------------------------------------- */
-
-#define ctype_ctsG(g)		(mref((g)->ctype_state, CTState))
-
-/* Get C type state. */
-static LJ_AINLINE CTState *ctype_cts(lua_State *L)
-{
-  CTState *cts = ctype_ctsG(G(L));
-  cts->L = L;  /* Save L for errors and allocations. */
-  return cts;
-}
-
-/* Save and restore state of C type table. */
-#define LJ_CTYPE_SAVE(cts)	CTState savects_ = *(cts)
-#define LJ_CTYPE_RESTORE(cts) \
-  ((cts)->top = savects_.top, \
-   memcpy((cts)->hash, savects_.hash, sizeof(savects_.hash)))
-
-/* Check C type ID for validity when assertions are enabled. */
-static LJ_AINLINE CTypeID ctype_check(CTState *cts, CTypeID id)
-{
-  lua_assert(id > 0 && id < cts->top); UNUSED(cts);
-  return id;
-}
-
-/* Get C type for C type ID. */
-static LJ_AINLINE CType *ctype_get(CTState *cts, CTypeID id)
-{
-  return &cts->tab[ctype_check(cts, id)];
-}
-
-/* Get C type ID for a C type. */
-#define ctype_typeid(cts, ct)	((CTypeID)((ct) - (cts)->tab))
-
-/* Get child C type. */
-static LJ_AINLINE CType *ctype_child(CTState *cts, CType *ct)
-{
-  lua_assert(!(ctype_isvoid(ct->info) || ctype_isstruct(ct->info) ||
-	     ctype_isbitfield(ct->info)));  /* These don't have children. */
-  return ctype_get(cts, ctype_cid(ct->info));
-}
-
-/* Get raw type for a C type ID. */
-static LJ_AINLINE CType *ctype_raw(CTState *cts, CTypeID id)
-{
-  CType *ct = ctype_get(cts, id);
-  while (ctype_isattrib(ct->info)) ct = ctype_child(cts, ct);
-  return ct;
-}
-
-/* Get raw type of the child of a C type. */
-static LJ_AINLINE CType *ctype_rawchild(CTState *cts, CType *ct)
-{
-  do { ct = ctype_child(cts, ct); } while (ctype_isattrib(ct->info));
-  return ct;
-}
-
-/* Set the name of a C type table element. */
-static LJ_AINLINE void ctype_setname(CType *ct, GCstr *s)
-{
-  /* NOBARRIER: mark string as fixed -- the C type table is never collected. */
-  fixstring(s);
-  setgcref(ct->name, obj2gco(s));
-}
-
-LJ_FUNC CTypeID lj_ctype_new(CTState *cts, CType **ctp);
-LJ_FUNC CTypeID lj_ctype_intern(CTState *cts, CTInfo info, CTSize size);
-LJ_FUNC void lj_ctype_addname(CTState *cts, CType *ct, CTypeID id);
-LJ_FUNC CTypeID lj_ctype_getname(CTState *cts, CType **ctp, GCstr *name,
-				 uint32_t tmask);
-LJ_FUNC CType *lj_ctype_getfieldq(CTState *cts, CType *ct, GCstr *name,
-				  CTSize *ofs, CTInfo *qual);
-#define lj_ctype_getfield(cts, ct, name, ofs) \
-  lj_ctype_getfieldq((cts), (ct), (name), (ofs), NULL)
-LJ_FUNC CType *lj_ctype_rawref(CTState *cts, CTypeID id);
-LJ_FUNC CTSize lj_ctype_size(CTState *cts, CTypeID id);
-LJ_FUNC CTSize lj_ctype_vlsize(CTState *cts, CType *ct, CTSize nelem);
-LJ_FUNC CTInfo lj_ctype_info(CTState *cts, CTypeID id, CTSize *szp);
-LJ_FUNC cTValue *lj_ctype_meta(CTState *cts, CTypeID id, MMS mm);
-LJ_FUNC GCstr *lj_ctype_repr(lua_State *L, CTypeID id, GCstr *name);
-LJ_FUNC GCstr *lj_ctype_repr_int64(lua_State *L, uint64_t n, int isunsigned);
-LJ_FUNC GCstr *lj_ctype_repr_complex(lua_State *L, void *sp, CTSize size);
-LJ_FUNC CTState *lj_ctype_init(lua_State *L);
-LJ_FUNC void lj_ctype_freestate(global_State *g);
-
-#endif
-
-#endif
diff --git a/luajit-2.0/src/lj_debug.c b/luajit-2.0/src/lj_debug.c
deleted file mode 100644
index e4ab9c1..0000000
--- a/luajit-2.0/src/lj_debug.c
+++ /dev/null
@@ -1,605 +0,0 @@
-/*
-** Debugging and introspection.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#define lj_debug_c
-#define LUA_CORE
-
-#include "lj_obj.h"
-#include "lj_err.h"
-#include "lj_debug.h"
-#include "lj_str.h"
-#include "lj_tab.h"
-#include "lj_state.h"
-#include "lj_frame.h"
-#include "lj_bc.h"
-#include "lj_vm.h"
-#if LJ_HASJIT
-#include "lj_jit.h"
-#endif
-
-/* -- Frames -------------------------------------------------------------- */
-
-/* Get frame corresponding to a level. */
-cTValue *lj_debug_frame(lua_State *L, int level, int *size)
-{
-  cTValue *frame, *nextframe, *bot = tvref(L->stack);
-  /* Traverse frames backwards. */
-  for (nextframe = frame = L->base-1; frame > bot; ) {
-    if (frame_gc(frame) == obj2gco(L))
-      level++;  /* Skip dummy frames. See lj_meta_call(). */
-    if (level-- == 0) {
-      *size = (int)(nextframe - frame);
-      return frame;  /* Level found. */
-    }
-    nextframe = frame;
-    if (frame_islua(frame)) {
-      frame = frame_prevl(frame);
-    } else {
-      if (frame_isvarg(frame))
-	level++;  /* Skip vararg pseudo-frame. */
-      frame = frame_prevd(frame);
-    }
-  }
-  *size = level;
-  return NULL;  /* Level not found. */
-}
-
-/* Invalid bytecode position. */
-#define NO_BCPOS	(~(BCPos)0)
-
-/* Return bytecode position for function/frame or NO_BCPOS. */
-static BCPos debug_framepc(lua_State *L, GCfunc *fn, cTValue *nextframe)
-{
-  const BCIns *ins;
-  GCproto *pt;
-  BCPos pos;
-  lua_assert(fn->c.gct == ~LJ_TFUNC || fn->c.gct == ~LJ_TTHREAD);
-  if (!isluafunc(fn)) {  /* Cannot derive a PC for non-Lua functions. */
-    return NO_BCPOS;
-  } else if (nextframe == NULL) {  /* Lua function on top. */
-    void *cf = cframe_raw(L->cframe);
-    if (cf == NULL || (char *)cframe_pc(cf) == (char *)cframe_L(cf))
-      return NO_BCPOS;
-    ins = cframe_pc(cf);  /* Only happens during error/hook handling. */
-  } else {
-    if (frame_islua(nextframe)) {
-      ins = frame_pc(nextframe);
-    } else if (frame_iscont(nextframe)) {
-      ins = frame_contpc(nextframe);
-    } else {
-      /* Lua function below errfunc/gc/hook: find cframe to get the PC. */
-      void *cf = cframe_raw(L->cframe);
-      TValue *f = L->base-1;
-      for (;;) {
-	if (cf == NULL)
-	  return NO_BCPOS;
-	while (cframe_nres(cf) < 0) {
-	  if (f >= restorestack(L, -cframe_nres(cf)))
-	    break;
-	  cf = cframe_raw(cframe_prev(cf));
-	  if (cf == NULL)
-	    return NO_BCPOS;
-	}
-	if (f < nextframe)
-	  break;
-	if (frame_islua(f)) {
-	  f = frame_prevl(f);
-	} else {
-	  if (frame_isc(f) || (LJ_HASFFI && frame_iscont(f) &&
-			       (f-1)->u32.lo == LJ_CONT_FFI_CALLBACK))
-	    cf = cframe_raw(cframe_prev(cf));
-	  f = frame_prevd(f);
-	}
-      }
-      ins = cframe_pc(cf);
-    }
-  }
-  pt = funcproto(fn);
-  pos = proto_bcpos(pt, ins) - 1;
-#if LJ_HASJIT
-  if (pos > pt->sizebc) {  /* Undo the effects of lj_trace_exit for JLOOP. */
-    GCtrace *T = (GCtrace *)((char *)(ins-1) - offsetof(GCtrace, startins));
-    lua_assert(bc_isret(bc_op(ins[-1])));
-    pos = proto_bcpos(pt, mref(T->startpc, const BCIns));
-  }
-#endif
-  return pos;
-}
-
-/* -- Line numbers -------------------------------------------------------- */
-
-/* Get line number for a bytecode position. */
-BCLine LJ_FASTCALL lj_debug_line(GCproto *pt, BCPos pc)
-{
-  const void *lineinfo = proto_lineinfo(pt);
-  if (pc <= pt->sizebc && lineinfo) {
-    BCLine first = pt->firstline;
-    if (pc == pt->sizebc) return first + pt->numline;
-    if (pc-- == 0) return first;
-    if (pt->numline < 256)
-      return first + (BCLine)((const uint8_t *)lineinfo)[pc];
-    else if (pt->numline < 65536)
-      return first + (BCLine)((const uint16_t *)lineinfo)[pc];
-    else
-      return first + (BCLine)((const uint32_t *)lineinfo)[pc];
-  }
-  return 0;
-}
-
-/* Get line number for function/frame. */
-static BCLine debug_frameline(lua_State *L, GCfunc *fn, cTValue *nextframe)
-{
-  BCPos pc = debug_framepc(L, fn, nextframe);
-  if (pc != NO_BCPOS) {
-    GCproto *pt = funcproto(fn);
-    lua_assert(pc <= pt->sizebc);
-    return lj_debug_line(pt, pc);
-  }
-  return -1;
-}
-
-/* -- Variable names ------------------------------------------------------ */
-
-/* Read ULEB128 value. */
-static uint32_t debug_read_uleb128(const uint8_t **pp)
-{
-  const uint8_t *p = *pp;
-  uint32_t v = *p++;
-  if (LJ_UNLIKELY(v >= 0x80)) {
-    int sh = 0;
-    v &= 0x7f;
-    do { v |= ((*p & 0x7f) << (sh += 7)); } while (*p++ >= 0x80);
-  }
-  *pp = p;
-  return v;
-}
-
-/* Get name of a local variable from slot number and PC. */
-static const char *debug_varname(const GCproto *pt, BCPos pc, BCReg slot)
-{
-  const uint8_t *p = proto_varinfo(pt);
-  if (p) {
-    BCPos lastpc = 0;
-    for (;;) {
-      const char *name = (const char *)p;
-      uint32_t vn = *p++;
-      BCPos startpc, endpc;
-      if (vn < VARNAME__MAX) {
-	if (vn == VARNAME_END) break;  /* End of varinfo. */
-      } else {
-	while (*p++) ;  /* Skip over variable name string. */
-      }
-      lastpc = startpc = lastpc + debug_read_uleb128(&p);
-      if (startpc > pc) break;
-      endpc = startpc + debug_read_uleb128(&p);
-      if (pc < endpc && slot-- == 0) {
-	if (vn < VARNAME__MAX) {
-#define VARNAMESTR(name, str)	str "\0"
-	  name = VARNAMEDEF(VARNAMESTR);
-#undef VARNAMESTR
-	  if (--vn) while (*name++ || --vn) ;
-	}
-	return name;
-      }
-    }
-  }
-  return NULL;
-}
-
-/* Get name of local variable from 1-based slot number and function/frame. */
-static TValue *debug_localname(lua_State *L, const lua_Debug *ar,
-			       const char **name, BCReg slot1)
-{
-  uint32_t offset = (uint32_t)ar->i_ci & 0xffff;
-  uint32_t size = (uint32_t)ar->i_ci >> 16;
-  TValue *frame = tvref(L->stack) + offset;
-  TValue *nextframe = size ? frame + size : NULL;
-  GCfunc *fn = frame_func(frame);
-  BCPos pc = debug_framepc(L, fn, nextframe);
-  if (!nextframe) nextframe = L->top;
-  if ((int)slot1 < 0) {  /* Negative slot number is for varargs. */
-    if (pc != NO_BCPOS) {
-      GCproto *pt = funcproto(fn);
-      if ((pt->flags & PROTO_VARARG)) {
-	slot1 = pt->numparams + (BCReg)(-(int)slot1);
-	if (frame_isvarg(frame)) {  /* Vararg frame has been set up? (pc!=0) */
-	  nextframe = frame;
-	  frame = frame_prevd(frame);
-	}
-	if (frame + slot1 < nextframe) {
-	  *name = "(*vararg)";
-	  return frame+slot1;
-	}
-      }
-    }
-    return NULL;
-  }
-  if (pc != NO_BCPOS &&
-      (*name = debug_varname(funcproto(fn), pc, slot1-1)) != NULL)
-    ;
-  else if (slot1 > 0 && frame + slot1 < nextframe)
-    *name = "(*temporary)";
-  return frame+slot1;
-}
-
-/* Get name of upvalue. */
-const char *lj_debug_uvname(GCproto *pt, uint32_t idx)
-{
-  const uint8_t *p = proto_uvinfo(pt);
-  lua_assert(idx < pt->sizeuv);
-  if (!p) return "";
-  if (idx) while (*p++ || --idx) ;
-  return (const char *)p;
-}
-
-/* Get name and value of upvalue. */
-const char *lj_debug_uvnamev(cTValue *o, uint32_t idx, TValue **tvp)
-{
-  if (tvisfunc(o)) {
-    GCfunc *fn = funcV(o);
-    if (isluafunc(fn)) {
-      GCproto *pt = funcproto(fn);
-      if (idx < pt->sizeuv) {
-	*tvp = uvval(&gcref(fn->l.uvptr[idx])->uv);
-	return lj_debug_uvname(pt, idx);
-      }
-    } else {
-      if (idx < fn->c.nupvalues) {
-	*tvp = &fn->c.upvalue[idx];
-	return "";
-      }
-    }
-  }
-  return NULL;
-}
-
-/* Deduce name of an object from slot number and PC. */
-const char *lj_debug_slotname(GCproto *pt, const BCIns *ip, BCReg slot,
-			      const char **name)
-{
-  const char *lname;
-restart:
-  lname = debug_varname(pt, proto_bcpos(pt, ip), slot);
-  if (lname != NULL) { *name = lname; return "local"; }
-  while (--ip > proto_bc(pt)) {
-    BCIns ins = *ip;
-    BCOp op = bc_op(ins);
-    BCReg ra = bc_a(ins);
-    if (bcmode_a(op) == BCMbase) {
-      if (slot >= ra && (op != BC_KNIL || slot <= bc_d(ins)))
-	return NULL;
-    } else if (bcmode_a(op) == BCMdst && ra == slot) {
-      switch (bc_op(ins)) {
-      case BC_MOV:
-	if (ra == slot) { slot = bc_d(ins); goto restart; }
-	break;
-      case BC_GGET:
-	*name = strdata(gco2str(proto_kgc(pt, ~(ptrdiff_t)bc_d(ins))));
-	return "global";
-      case BC_TGETS:
-	*name = strdata(gco2str(proto_kgc(pt, ~(ptrdiff_t)bc_c(ins))));
-	if (ip > proto_bc(pt)) {
-	  BCIns insp = ip[-1];
-	  if (bc_op(insp) == BC_MOV && bc_a(insp) == ra+1 &&
-	      bc_d(insp) == bc_b(ins))
-	    return "method";
-	}
-	return "field";
-      case BC_UGET:
-	*name = lj_debug_uvname(pt, bc_d(ins));
-	return "upvalue";
-      default:
-	return NULL;
-      }
-    }
-  }
-  return NULL;
-}
-
-/* Deduce function name from caller of a frame. */
-const char *lj_debug_funcname(lua_State *L, TValue *frame, const char **name)
-{
-  TValue *pframe;
-  GCfunc *fn;
-  BCPos pc;
-  if (frame <= tvref(L->stack))
-    return NULL;
-  if (frame_isvarg(frame))
-    frame = frame_prevd(frame);
-  pframe = frame_prev(frame);
-  fn = frame_func(pframe);
-  pc = debug_framepc(L, fn, frame);
-  if (pc != NO_BCPOS) {
-    GCproto *pt = funcproto(fn);
-    const BCIns *ip = &proto_bc(pt)[check_exp(pc < pt->sizebc, pc)];
-    MMS mm = bcmode_mm(bc_op(*ip));
-    if (mm == MM_call) {
-      BCReg slot = bc_a(*ip);
-      if (bc_op(*ip) == BC_ITERC) slot -= 3;
-      return lj_debug_slotname(pt, ip, slot, name);
-    } else if (mm != MM__MAX) {
-      *name = strdata(mmname_str(G(L), mm));
-      return "metamethod";
-    }
-  }
-  return NULL;
-}
-
-/* -- Source code locations ----------------------------------------------- */
-
-/* Generate shortened source name. */
-void lj_debug_shortname(char *out, GCstr *str)
-{
-  const char *src = strdata(str);
-  if (*src == '=') {
-    strncpy(out, src+1, LUA_IDSIZE);  /* Remove first char. */
-    out[LUA_IDSIZE-1] = '\0';  /* Ensures null termination. */
-  } else if (*src == '@') {  /* Output "source", or "...source". */
-    size_t len = str->len-1;
-    src++;  /* Skip the `@' */
-    if (len >= LUA_IDSIZE) {
-      src += len-(LUA_IDSIZE-4);  /* Get last part of file name. */
-      *out++ = '.'; *out++ = '.'; *out++ = '.';
-    }
-    strcpy(out, src);
-  } else {  /* Output [string "string"]. */
-    size_t len;  /* Length, up to first control char. */
-    for (len = 0; len < LUA_IDSIZE-12; len++)
-      if (((const unsigned char *)src)[len] < ' ') break;
-    strcpy(out, "[string \""); out += 9;
-    if (src[len] != '\0') {  /* Must truncate? */
-      if (len > LUA_IDSIZE-15) len = LUA_IDSIZE-15;
-      strncpy(out, src, len); out += len;
-      strcpy(out, "..."); out += 3;
-    } else {
-      strcpy(out, src); out += len;
-    }
-    strcpy(out, "\"]");
-  }
-}
-
-/* Add current location of a frame to error message. */
-void lj_debug_addloc(lua_State *L, const char *msg,
-		     cTValue *frame, cTValue *nextframe)
-{
-  if (frame) {
-    GCfunc *fn = frame_func(frame);
-    if (isluafunc(fn)) {
-      BCLine line = debug_frameline(L, fn, nextframe);
-      if (line >= 0) {
-	char buf[LUA_IDSIZE];
-	lj_debug_shortname(buf, proto_chunkname(funcproto(fn)));
-	lj_str_pushf(L, "%s:%d: %s", buf, line, msg);
-	return;
-      }
-    }
-  }
-  lj_str_pushf(L, "%s", msg);
-}
-
-/* Push location string for a bytecode position to Lua stack. */
-void lj_debug_pushloc(lua_State *L, GCproto *pt, BCPos pc)
-{
-  GCstr *name = proto_chunkname(pt);
-  const char *s = strdata(name);
-  MSize i, len = name->len;
-  BCLine line = lj_debug_line(pt, pc);
-  if (*s == '@') {
-    s++; len--;
-    for (i = len; i > 0; i--)
-      if (s[i] == '/' || s[i] == '\\') {
-	s += i+1;
-	break;
-      }
-    lj_str_pushf(L, "%s:%d", s, line);
-  } else if (len > 40) {
-    lj_str_pushf(L, "%p:%d", pt, line);
-  } else if (*s == '=') {
-    lj_str_pushf(L, "%s:%d", s+1, line);
-  } else {
-    lj_str_pushf(L, "\"%s\":%d", s, line);
-  }
-}
-
-/* -- Public debug API ---------------------------------------------------- */
-
-/* lua_getupvalue() and lua_setupvalue() are in lj_api.c. */
-
-LUA_API const char *lua_getlocal(lua_State *L, const lua_Debug *ar, int n)
-{
-  const char *name = NULL;
-  if (ar) {
-    TValue *o = debug_localname(L, ar, &name, (BCReg)n);
-    if (name) {
-      copyTV(L, L->top, o);
-      incr_top(L);
-    }
-  } else if (tvisfunc(L->top-1) && isluafunc(funcV(L->top-1))) {
-    name = debug_varname(funcproto(funcV(L->top-1)), 0, (BCReg)n-1);
-  }
-  return name;
-}
-
-LUA_API const char *lua_setlocal(lua_State *L, const lua_Debug *ar, int n)
-{
-  const char *name = NULL;
-  TValue *o = debug_localname(L, ar, &name, (BCReg)n);
-  if (name)
-    copyTV(L, o, L->top-1);
-  L->top--;
-  return name;
-}
-
-int lj_debug_getinfo(lua_State *L, const char *what, lj_Debug *ar, int ext)
-{
-  int opt_f = 0, opt_L = 0;
-  TValue *frame = NULL;
-  TValue *nextframe = NULL;
-  GCfunc *fn;
-  if (*what == '>') {
-    TValue *func = L->top - 1;
-    api_check(L, tvisfunc(func));
-    fn = funcV(func);
-    L->top--;
-    what++;
-  } else {
-    uint32_t offset = (uint32_t)ar->i_ci & 0xffff;
-    uint32_t size = (uint32_t)ar->i_ci >> 16;
-    lua_assert(offset != 0);
-    frame = tvref(L->stack) + offset;
-    if (size) nextframe = frame + size;
-    lua_assert(frame <= tvref(L->maxstack) &&
-	       (!nextframe || nextframe <= tvref(L->maxstack)));
-    fn = frame_func(frame);
-    lua_assert(fn->c.gct == ~LJ_TFUNC);
-  }
-  for (; *what; what++) {
-    if (*what == 'S') {
-      if (isluafunc(fn)) {
-	GCproto *pt = funcproto(fn);
-	BCLine firstline = pt->firstline;
-	GCstr *name = proto_chunkname(pt);
-	ar->source = strdata(name);
-	lj_debug_shortname(ar->short_src, name);
-	ar->linedefined = (int)firstline;
-	ar->lastlinedefined = (int)(firstline + pt->numline);
-	ar->what = (firstline || !pt->numline) ? "Lua" : "main";
-      } else {
-	ar->source = "=[C]";
-	ar->short_src[0] = '[';
-	ar->short_src[1] = 'C';
-	ar->short_src[2] = ']';
-	ar->short_src[3] = '\0';
-	ar->linedefined = -1;
-	ar->lastlinedefined = -1;
-	ar->what = "C";
-      }
-    } else if (*what == 'l') {
-      ar->currentline = frame ? debug_frameline(L, fn, nextframe) : -1;
-    } else if (*what == 'u') {
-      ar->nups = fn->c.nupvalues;
-      if (ext) {
-	if (isluafunc(fn)) {
-	  GCproto *pt = funcproto(fn);
-	  ar->nparams = pt->numparams;
-	  ar->isvararg = !!(pt->flags & PROTO_VARARG);
-	} else {
-	  ar->nparams = 0;
-	  ar->isvararg = 1;
-	}
-      }
-    } else if (*what == 'n') {
-      ar->namewhat = frame ? lj_debug_funcname(L, frame, &ar->name) : NULL;
-      if (ar->namewhat == NULL) {
-	ar->namewhat = "";
-	ar->name = NULL;
-      }
-    } else if (*what == 'f') {
-      opt_f = 1;
-    } else if (*what == 'L') {
-      opt_L = 1;
-    } else {
-      return 0;  /* Bad option. */
-    }
-  }
-  if (opt_f) {
-    setfuncV(L, L->top, fn);
-    incr_top(L);
-  }
-  if (opt_L) {
-    if (isluafunc(fn)) {
-      GCtab *t = lj_tab_new(L, 0, 0);
-      GCproto *pt = funcproto(fn);
-      const void *lineinfo = proto_lineinfo(pt);
-      if (lineinfo) {
-	BCLine first = pt->firstline;
-	int sz = pt->numline < 256 ? 1 : pt->numline < 65536 ? 2 : 4;
-	MSize i, szl = pt->sizebc-1;
-	for (i = 0; i < szl; i++) {
-	  BCLine line = first +
-	    (sz == 1 ? (BCLine)((const uint8_t *)lineinfo)[i] :
-	     sz == 2 ? (BCLine)((const uint16_t *)lineinfo)[i] :
-	     (BCLine)((const uint32_t *)lineinfo)[i]);
-	  setboolV(lj_tab_setint(L, t, line), 1);
-	}
-      }
-      settabV(L, L->top, t);
-    } else {
-      setnilV(L->top);
-    }
-    incr_top(L);
-  }
-  return 1;  /* Ok. */
-}
-
-LUA_API int lua_getinfo(lua_State *L, const char *what, lua_Debug *ar)
-{
-  return lj_debug_getinfo(L, what, (lj_Debug *)ar, 0);
-}
-
-LUA_API int lua_getstack(lua_State *L, int level, lua_Debug *ar)
-{
-  int size;
-  cTValue *frame = lj_debug_frame(L, level, &size);
-  if (frame) {
-    ar->i_ci = (size << 16) + (int)(frame - tvref(L->stack));
-    return 1;
-  } else {
-    ar->i_ci = level - size;
-    return 0;
-  }
-}
-
-/* Number of frames for the leading and trailing part of a traceback. */
-#define TRACEBACK_LEVELS1	12
-#define TRACEBACK_LEVELS2	10
-
-LUALIB_API void luaL_traceback (lua_State *L, lua_State *L1, const char *msg,
-				int level)
-{
-  int top = (int)(L->top - L->base);
-  int lim = TRACEBACK_LEVELS1;
-  lua_Debug ar;
-  if (msg) lua_pushfstring(L, "%s\n", msg);
-  lua_pushliteral(L, "stack traceback:");
-  while (lua_getstack(L1, level++, &ar)) {
-    GCfunc *fn;
-    if (level > lim) {
-      if (!lua_getstack(L1, level + TRACEBACK_LEVELS2, &ar)) {
-	level--;
-      } else {
-	lua_pushliteral(L, "\n\t...");
-	lua_getstack(L1, -10, &ar);
-	level = ar.i_ci - TRACEBACK_LEVELS2;
-      }
-      lim = 2147483647;
-      continue;
-    }
-    lua_getinfo(L1, "Snlf", &ar);
-    fn = funcV(L1->top-1); L1->top--;
-    if (isffunc(fn) && !*ar.namewhat)
-      lua_pushfstring(L, "\n\t[builtin#%d]:", fn->c.ffid);
-    else
-      lua_pushfstring(L, "\n\t%s:", ar.short_src);
-    if (ar.currentline > 0)
-      lua_pushfstring(L, "%d:", ar.currentline);
-    if (*ar.namewhat) {
-      lua_pushfstring(L, " in function " LUA_QS, ar.name);
-    } else {
-      if (*ar.what == 'm') {
-	lua_pushliteral(L, " in main chunk");
-      } else if (*ar.what == 'C') {
-	lua_pushfstring(L, " at %p", fn->c.f);
-      } else {
-	lua_pushfstring(L, " in function <%s:%d>",
-			ar.short_src, ar.linedefined);
-      }
-    }
-    if ((int)(L->top - L->base) - top >= 15)
-      lua_concat(L, (int)(L->top - L->base) - top);
-  }
-  lua_concat(L, (int)(L->top - L->base) - top);
-}
-
diff --git a/luajit-2.0/src/lj_debug.h b/luajit-2.0/src/lj_debug.h
deleted file mode 100644
index bec6b4f..0000000
--- a/luajit-2.0/src/lj_debug.h
+++ /dev/null
@@ -1,61 +0,0 @@
-/*
-** Debugging and introspection.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#ifndef _LJ_DEBUG_H
-#define _LJ_DEBUG_H
-
-#include "lj_obj.h"
-
-typedef struct lj_Debug {
-  /* Common fields. Must be in the same order as in lua.h. */
-  int event;
-  const char *name;
-  const char *namewhat;
-  const char *what;
-  const char *source;
-  int currentline;
-  int nups;
-  int linedefined;
-  int lastlinedefined;
-  char short_src[LUA_IDSIZE];
-  int i_ci;
-  /* Extended fields. Only valid if lj_debug_getinfo() is called with ext = 1.*/
-  int nparams;
-  int isvararg;
-} lj_Debug;
-
-LJ_FUNC cTValue *lj_debug_frame(lua_State *L, int level, int *size);
-LJ_FUNC BCLine LJ_FASTCALL lj_debug_line(GCproto *pt, BCPos pc);
-LJ_FUNC const char *lj_debug_uvname(GCproto *pt, uint32_t idx);
-LJ_FUNC const char *lj_debug_uvnamev(cTValue *o, uint32_t idx, TValue **tvp);
-LJ_FUNC const char *lj_debug_slotname(GCproto *pt, const BCIns *pc,
-				      BCReg slot, const char **name);
-LJ_FUNC const char *lj_debug_funcname(lua_State *L, TValue *frame,
-				      const char **name);
-LJ_FUNC void lj_debug_shortname(char *out, GCstr *str);
-LJ_FUNC void lj_debug_addloc(lua_State *L, const char *msg,
-			     cTValue *frame, cTValue *nextframe);
-LJ_FUNC void lj_debug_pushloc(lua_State *L, GCproto *pt, BCPos pc);
-LJ_FUNC int lj_debug_getinfo(lua_State *L, const char *what, lj_Debug *ar,
-			     int ext);
-
-/* Fixed internal variable names. */
-#define VARNAMEDEF(_) \
-  _(FOR_IDX, "(for index)") \
-  _(FOR_STOP, "(for limit)") \
-  _(FOR_STEP, "(for step)") \
-  _(FOR_GEN, "(for generator)") \
-  _(FOR_STATE, "(for state)") \
-  _(FOR_CTL, "(for control)")
-
-enum {
-  VARNAME_END,
-#define VARNAMEENUM(name, str)	VARNAME_##name,
-  VARNAMEDEF(VARNAMEENUM)
-#undef VARNAMEENUM
-  VARNAME__MAX
-};
-
-#endif
diff --git a/luajit-2.0/src/lj_def.h b/luajit-2.0/src/lj_def.h
deleted file mode 100644
index 8624aed..0000000
--- a/luajit-2.0/src/lj_def.h
+++ /dev/null
@@ -1,353 +0,0 @@
-/*
-** LuaJIT common internal definitions.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#ifndef _LJ_DEF_H
-#define _LJ_DEF_H
-
-#include "lua.h"
-
-#if defined(_MSC_VER)
-/* MSVC is stuck in the last century and doesn't have C99's stdint.h. */
-typedef __int8 int8_t;
-typedef __int16 int16_t;
-typedef __int32 int32_t;
-typedef __int64 int64_t;
-typedef unsigned __int8 uint8_t;
-typedef unsigned __int16 uint16_t;
-typedef unsigned __int32 uint32_t;
-typedef unsigned __int64 uint64_t;
-#ifdef _WIN64
-typedef __int64 intptr_t;
-typedef unsigned __int64 uintptr_t;
-#else
-typedef __int32 intptr_t;
-typedef unsigned __int32 uintptr_t;
-#endif
-#elif defined(__symbian__)
-/* Cough. */
-typedef signed char int8_t;
-typedef short int int16_t;
-typedef int int32_t;
-typedef long long int64_t;
-typedef unsigned char uint8_t;
-typedef unsigned short int uint16_t;
-typedef unsigned int uint32_t;
-typedef unsigned long long uint64_t;
-typedef int intptr_t;
-typedef unsigned int uintptr_t;
-#else
-#include <stdint.h>
-#endif
-
-/* Needed everywhere. */
-#include <string.h>
-#include <stdlib.h>
-
-/* Various VM limits. */
-#define LJ_MAX_MEM	0x7fffff00	/* Max. total memory allocation. */
-#define LJ_MAX_ALLOC	LJ_MAX_MEM	/* Max. individual allocation length. */
-#define LJ_MAX_STR	LJ_MAX_MEM	/* Max. string length. */
-#define LJ_MAX_UDATA	LJ_MAX_MEM	/* Max. userdata length. */
-
-#define LJ_MAX_STRTAB	(1<<26)		/* Max. string table size. */
-#define LJ_MAX_HBITS	26		/* Max. hash bits. */
-#define LJ_MAX_ABITS	28		/* Max. bits of array key. */
-#define LJ_MAX_ASIZE	((1<<(LJ_MAX_ABITS-1))+1)  /* Max. array part size. */
-#define LJ_MAX_COLOSIZE	16		/* Max. elems for colocated array. */
-
-#define LJ_MAX_LINE	LJ_MAX_MEM	/* Max. source code line number. */
-#define LJ_MAX_XLEVEL	200		/* Max. syntactic nesting level. */
-#define LJ_MAX_BCINS	(1<<26)		/* Max. # of bytecode instructions. */
-#define LJ_MAX_SLOTS	250		/* Max. # of slots in a Lua func. */
-#define LJ_MAX_LOCVAR	200		/* Max. # of local variables. */
-#define LJ_MAX_UPVAL	60		/* Max. # of upvalues. */
-
-#define LJ_MAX_IDXCHAIN	100		/* __index/__newindex chain limit. */
-#define LJ_STACK_EXTRA	5		/* Extra stack space (metamethods). */
-
-#define LJ_NUM_CBPAGE	1		/* Number of FFI callback pages. */
-
-/* Minimum table/buffer sizes. */
-#define LJ_MIN_GLOBAL	6		/* Min. global table size (hbits). */
-#define LJ_MIN_REGISTRY	2		/* Min. registry size (hbits). */
-#define LJ_MIN_STRTAB	256		/* Min. string table size (pow2). */
-#define LJ_MIN_SBUF	32		/* Min. string buffer length. */
-#define LJ_MIN_VECSZ	8		/* Min. size for growable vectors. */
-#define LJ_MIN_IRSZ	32		/* Min. size for growable IR. */
-#define LJ_MIN_K64SZ	16		/* Min. size for chained K64Array. */
-
-/* JIT compiler limits. */
-#define LJ_MAX_JSLOTS	250		/* Max. # of stack slots for a trace. */
-#define LJ_MAX_PHI	64		/* Max. # of PHIs for a loop. */
-#define LJ_MAX_EXITSTUBGR	16	/* Max. # of exit stub groups. */
-
-/* Various macros. */
-#ifndef UNUSED
-#define UNUSED(x)	((void)(x))	/* to avoid warnings */
-#endif
-
-#define U64x(hi, lo)	(((uint64_t)0x##hi << 32) + (uint64_t)0x##lo)
-#define i32ptr(p)	((int32_t)(intptr_t)(void *)(p))
-#define u32ptr(p)	((uint32_t)(intptr_t)(void *)(p))
-
-#define checki8(x)	((x) == (int32_t)(int8_t)(x))
-#define checku8(x)	((x) == (int32_t)(uint8_t)(x))
-#define checki16(x)	((x) == (int32_t)(int16_t)(x))
-#define checku16(x)	((x) == (int32_t)(uint16_t)(x))
-#define checki32(x)	((x) == (int32_t)(x))
-#define checku32(x)	((x) == (uint32_t)(x))
-#define checkptr32(x)	((uintptr_t)(x) == (uint32_t)(uintptr_t)(x))
-
-/* Every half-decent C compiler transforms this into a rotate instruction. */
-#define lj_rol(x, n)	(((x)<<(n)) | ((x)>>(-(int)(n)&(8*sizeof(x)-1))))
-#define lj_ror(x, n)	(((x)<<(-(int)(n)&(8*sizeof(x)-1))) | ((x)>>(n)))
-
-/* A really naive Bloom filter. But sufficient for our needs. */
-typedef uintptr_t BloomFilter;
-#define BLOOM_MASK	(8*sizeof(BloomFilter) - 1)
-#define bloombit(x)	((uintptr_t)1 << ((x) & BLOOM_MASK))
-#define bloomset(b, x)	((b) |= bloombit((x)))
-#define bloomtest(b, x)	((b) & bloombit((x)))
-
-#if defined(__GNUC__) || defined(__psp2__)
-
-#define LJ_NORET	__attribute__((noreturn))
-#define LJ_ALIGN(n)	__attribute__((aligned(n)))
-#define LJ_INLINE	inline
-#define LJ_AINLINE	inline __attribute__((always_inline))
-#define LJ_NOINLINE	__attribute__((noinline))
-
-#if defined(__ELF__) || defined(__MACH__) || defined(__psp2__)
-#if !((defined(__sun__) && defined(__svr4__)) || defined(__CELLOS_LV2__))
-#define LJ_NOAPI	extern __attribute__((visibility("hidden")))
-#endif
-#endif
-
-/* Note: it's only beneficial to use fastcall on x86 and then only for up to
-** two non-FP args. The amalgamated compile covers all LJ_FUNC cases. Only
-** indirect calls and related tail-called C functions are marked as fastcall.
-*/
-#if defined(__i386__)
-#define LJ_FASTCALL	__attribute__((fastcall))
-#endif
-
-#define LJ_LIKELY(x)	__builtin_expect(!!(x), 1)
-#define LJ_UNLIKELY(x)	__builtin_expect(!!(x), 0)
-
-#define lj_ffs(x)	((uint32_t)__builtin_ctz(x))
-/* Don't ask ... */
-#if defined(__INTEL_COMPILER) && (defined(__i386__) || defined(__x86_64__))
-static LJ_AINLINE uint32_t lj_fls(uint32_t x)
-{
-  uint32_t r; __asm__("bsrl %1, %0" : "=r" (r) : "rm" (x) : "cc"); return r;
-}
-#else
-#define lj_fls(x)	((uint32_t)(__builtin_clz(x)^31))
-#endif
-
-#if defined(__arm__)
-static LJ_AINLINE uint32_t lj_bswap(uint32_t x)
-{
-#if defined(__psp2__)
-  return __builtin_rev(x);
-#else
-  uint32_t r;
-#if __ARM_ARCH_6__ || __ARM_ARCH_6J__ || __ARM_ARCH_6T2__ || __ARM_ARCH_6Z__ ||\
-    __ARM_ARCH_6ZK__ || __ARM_ARCH_7__ || __ARM_ARCH_7A__ || __ARM_ARCH_7R__
-  __asm__("rev %0, %1" : "=r" (r) : "r" (x));
-  return r;
-#else
-#ifdef __thumb__
-  r = x ^ lj_ror(x, 16);
-#else
-  __asm__("eor %0, %1, %1, ror #16" : "=r" (r) : "r" (x));
-#endif
-  return ((r & 0xff00ffffu) >> 8) ^ lj_ror(x, 8);
-#endif
-#endif
-}
-
-static LJ_AINLINE uint64_t lj_bswap64(uint64_t x)
-{
-  return ((uint64_t)lj_bswap((uint32_t)x)<<32) | lj_bswap((uint32_t)(x>>32));
-}
-#elif (__GNUC__ > 4) || (__GNUC__ == 4 && __GNUC_MINOR__ >= 3)
-static LJ_AINLINE uint32_t lj_bswap(uint32_t x)
-{
-  return (uint32_t)__builtin_bswap32((int32_t)x);
-}
-
-static LJ_AINLINE uint64_t lj_bswap64(uint64_t x)
-{
-  return (uint64_t)__builtin_bswap64((int64_t)x);
-}
-#elif defined(__i386__) || defined(__x86_64__)
-static LJ_AINLINE uint32_t lj_bswap(uint32_t x)
-{
-  uint32_t r; __asm__("bswap %0" : "=r" (r) : "0" (x)); return r;
-}
-
-#if defined(__i386__)
-static LJ_AINLINE uint64_t lj_bswap64(uint64_t x)
-{
-  return ((uint64_t)lj_bswap((uint32_t)x)<<32) | lj_bswap((uint32_t)(x>>32));
-}
-#else
-static LJ_AINLINE uint64_t lj_bswap64(uint64_t x)
-{
-  uint64_t r; __asm__("bswap %0" : "=r" (r) : "0" (x)); return r;
-}
-#endif
-#else
-static LJ_AINLINE uint32_t lj_bswap(uint32_t x)
-{
-  return (x << 24) | ((x & 0xff00) << 8) | ((x >> 8) & 0xff00) | (x >> 24);
-}
-
-static LJ_AINLINE uint64_t lj_bswap64(uint64_t x)
-{
-  return (uint64_t)lj_bswap((uint32_t)(x >> 32)) |
-	 ((uint64_t)lj_bswap((uint32_t)x) << 32);
-}
-#endif
-
-typedef union __attribute__((packed)) Unaligned16 {
-  uint16_t u;
-  uint8_t b[2];
-} Unaligned16;
-
-typedef union __attribute__((packed)) Unaligned32 {
-  uint32_t u;
-  uint8_t b[4];
-} Unaligned32;
-
-/* Unaligned load of uint16_t. */
-static LJ_AINLINE uint16_t lj_getu16(const void *p)
-{
-  return ((const Unaligned16 *)p)->u;
-}
-
-/* Unaligned load of uint32_t. */
-static LJ_AINLINE uint32_t lj_getu32(const void *p)
-{
-  return ((const Unaligned32 *)p)->u;
-}
-
-#elif defined(_MSC_VER)
-
-#define LJ_NORET	__declspec(noreturn)
-#define LJ_ALIGN(n)	__declspec(align(n))
-#define LJ_INLINE	__inline
-#define LJ_AINLINE	__forceinline
-#define LJ_NOINLINE	__declspec(noinline)
-#if defined(_M_IX86)
-#define LJ_FASTCALL	__fastcall
-#endif
-
-#ifdef _M_PPC
-unsigned int _CountLeadingZeros(long);
-#pragma intrinsic(_CountLeadingZeros)
-static LJ_AINLINE uint32_t lj_fls(uint32_t x)
-{
-  return _CountLeadingZeros(x) ^ 31;
-}
-#else
-unsigned char _BitScanForward(uint32_t *, unsigned long);
-unsigned char _BitScanReverse(uint32_t *, unsigned long);
-#pragma intrinsic(_BitScanForward)
-#pragma intrinsic(_BitScanReverse)
-
-static LJ_AINLINE uint32_t lj_ffs(uint32_t x)
-{
-  uint32_t r; _BitScanForward(&r, x); return r;
-}
-
-static LJ_AINLINE uint32_t lj_fls(uint32_t x)
-{
-  uint32_t r; _BitScanReverse(&r, x); return r;
-}
-#endif
-
-unsigned long _byteswap_ulong(unsigned long);
-uint64_t _byteswap_uint64(uint64_t);
-#define lj_bswap(x)	(_byteswap_ulong((x)))
-#define lj_bswap64(x)	(_byteswap_uint64((x)))
-
-#if defined(_M_PPC) && defined(LUAJIT_NO_UNALIGNED)
-/*
-** Replacement for unaligned loads on Xbox 360. Disabled by default since it's
-** usually more costly than the occasional stall when crossing a cache-line.
-*/
-static LJ_AINLINE uint16_t lj_getu16(const void *v)
-{
-  const uint8_t *p = (const uint8_t *)v;
-  return (uint16_t)((p[0]<<8) | p[1]);
-}
-static LJ_AINLINE uint32_t lj_getu32(const void *v)
-{
-  const uint8_t *p = (const uint8_t *)v;
-  return (uint32_t)((p[0]<<24) | (p[1]<<16) | (p[2]<<8) | p[3]);
-}
-#else
-/* Unaligned loads are generally ok on x86/x64. */
-#define lj_getu16(p)	(*(uint16_t *)(p))
-#define lj_getu32(p)	(*(uint32_t *)(p))
-#endif
-
-#else
-#error "missing defines for your compiler"
-#endif
-
-/* Optional defines. */
-#ifndef LJ_FASTCALL
-#define LJ_FASTCALL
-#endif
-#ifndef LJ_NORET
-#define LJ_NORET
-#endif
-#ifndef LJ_NOAPI
-#define LJ_NOAPI	extern
-#endif
-#ifndef LJ_LIKELY
-#define LJ_LIKELY(x)	(x)
-#define LJ_UNLIKELY(x)	(x)
-#endif
-
-/* Attributes for internal functions. */
-#define LJ_DATA		LJ_NOAPI
-#define LJ_DATADEF
-#define LJ_ASMF		LJ_NOAPI
-#define LJ_FUNCA	LJ_NOAPI
-#if defined(ljamalg_c)
-#define LJ_FUNC		static
-#else
-#define LJ_FUNC		LJ_NOAPI
-#endif
-#define LJ_FUNC_NORET	LJ_FUNC LJ_NORET
-#define LJ_FUNCA_NORET	LJ_FUNCA LJ_NORET
-#define LJ_ASMF_NORET	LJ_ASMF LJ_NORET
-
-/* Runtime assertions. */
-#ifdef lua_assert
-#define check_exp(c, e)		(lua_assert(c), (e))
-#define api_check(l, e)		lua_assert(e)
-#else
-#define lua_assert(c)		((void)0)
-#define check_exp(c, e)		(e)
-#define api_check		luai_apicheck
-#endif
-
-/* Static assertions. */
-#define LJ_ASSERT_NAME2(name, line)	name ## line
-#define LJ_ASSERT_NAME(line)		LJ_ASSERT_NAME2(lj_assert_, line)
-#ifdef __COUNTER__
-#define LJ_STATIC_ASSERT(cond) \
-  extern void LJ_ASSERT_NAME(__COUNTER__)(int STATIC_ASSERTION_FAILED[(cond)?1:-1])
-#else
-#define LJ_STATIC_ASSERT(cond) \
-  extern void LJ_ASSERT_NAME(__LINE__)(int STATIC_ASSERTION_FAILED[(cond)?1:-1])
-#endif
-
-#endif
diff --git a/luajit-2.0/src/lj_dispatch.c b/luajit-2.0/src/lj_dispatch.c
deleted file mode 100644
index 58d6c3e..0000000
--- a/luajit-2.0/src/lj_dispatch.c
+++ /dev/null
@@ -1,494 +0,0 @@
-/*
-** Instruction dispatch handling.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#define lj_dispatch_c
-#define LUA_CORE
-
-#include "lj_obj.h"
-#include "lj_err.h"
-#include "lj_func.h"
-#include "lj_str.h"
-#include "lj_tab.h"
-#include "lj_meta.h"
-#include "lj_debug.h"
-#include "lj_state.h"
-#include "lj_frame.h"
-#include "lj_bc.h"
-#include "lj_ff.h"
-#if LJ_HASJIT
-#include "lj_jit.h"
-#endif
-#if LJ_HASFFI
-#include "lj_ccallback.h"
-#endif
-#include "lj_trace.h"
-#include "lj_dispatch.h"
-#include "lj_vm.h"
-#include "luajit.h"
-
-/* Bump GG_NUM_ASMFF in lj_dispatch.h as needed. Ugly. */
-LJ_STATIC_ASSERT(GG_NUM_ASMFF == FF_NUM_ASMFUNC);
-
-/* -- Dispatch table management ------------------------------------------- */
-
-#if LJ_TARGET_MIPS
-#include <math.h>
-LJ_FUNCA_NORET void LJ_FASTCALL lj_ffh_coroutine_wrap_err(lua_State *L,
-							  lua_State *co);
-
-#define GOTFUNC(name)	(ASMFunction)name,
-static const ASMFunction dispatch_got[] = {
-  GOTDEF(GOTFUNC)
-};
-#undef GOTFUNC
-#endif
-
-/* Initialize instruction dispatch table and hot counters. */
-void lj_dispatch_init(GG_State *GG)
-{
-  uint32_t i;
-  ASMFunction *disp = GG->dispatch;
-  for (i = 0; i < GG_LEN_SDISP; i++)
-    disp[GG_LEN_DDISP+i] = disp[i] = makeasmfunc(lj_bc_ofs[i]);
-  for (i = GG_LEN_SDISP; i < GG_LEN_DDISP; i++)
-    disp[i] = makeasmfunc(lj_bc_ofs[i]);
-  /* The JIT engine is off by default. luaopen_jit() turns it on. */
-  disp[BC_FORL] = disp[BC_IFORL];
-  disp[BC_ITERL] = disp[BC_IITERL];
-  disp[BC_LOOP] = disp[BC_ILOOP];
-  disp[BC_FUNCF] = disp[BC_IFUNCF];
-  disp[BC_FUNCV] = disp[BC_IFUNCV];
-  GG->g.bc_cfunc_ext = GG->g.bc_cfunc_int = BCINS_AD(BC_FUNCC, LUA_MINSTACK, 0);
-  for (i = 0; i < GG_NUM_ASMFF; i++)
-    GG->bcff[i] = BCINS_AD(BC__MAX+i, 0, 0);
-#if LJ_TARGET_MIPS
-  memcpy(GG->got, dispatch_got, LJ_GOT__MAX*4);
-#endif
-}
-
-#if LJ_HASJIT
-/* Initialize hotcount table. */
-void lj_dispatch_init_hotcount(global_State *g)
-{
-  int32_t hotloop = G2J(g)->param[JIT_P_hotloop];
-  HotCount start = (HotCount)(hotloop*HOTCOUNT_LOOP - 1);
-  HotCount *hotcount = G2GG(g)->hotcount;
-  uint32_t i;
-  for (i = 0; i < HOTCOUNT_SIZE; i++)
-    hotcount[i] = start;
-}
-#endif
-
-/* Internal dispatch mode bits. */
-#define DISPMODE_JIT	0x01	/* JIT compiler on. */
-#define DISPMODE_REC	0x02	/* Recording active. */
-#define DISPMODE_INS	0x04	/* Override instruction dispatch. */
-#define DISPMODE_CALL	0x08	/* Override call dispatch. */
-#define DISPMODE_RET	0x10	/* Override return dispatch. */
-
-/* Update dispatch table depending on various flags. */
-void lj_dispatch_update(global_State *g)
-{
-  uint8_t oldmode = g->dispatchmode;
-  uint8_t mode = 0;
-#if LJ_HASJIT
-  mode |= (G2J(g)->flags & JIT_F_ON) ? DISPMODE_JIT : 0;
-  mode |= G2J(g)->state != LJ_TRACE_IDLE ?
-	    (DISPMODE_REC|DISPMODE_INS|DISPMODE_CALL) : 0;
-#endif
-  mode |= (g->hookmask & (LUA_MASKLINE|LUA_MASKCOUNT)) ? DISPMODE_INS : 0;
-  mode |= (g->hookmask & LUA_MASKCALL) ? DISPMODE_CALL : 0;
-  mode |= (g->hookmask & LUA_MASKRET) ? DISPMODE_RET : 0;
-  if (oldmode != mode) {  /* Mode changed? */
-    ASMFunction *disp = G2GG(g)->dispatch;
-    ASMFunction f_forl, f_iterl, f_loop, f_funcf, f_funcv;
-    g->dispatchmode = mode;
-
-    /* Hotcount if JIT is on, but not while recording. */
-    if ((mode & (DISPMODE_JIT|DISPMODE_REC)) == DISPMODE_JIT) {
-      f_forl = makeasmfunc(lj_bc_ofs[BC_FORL]);
-      f_iterl = makeasmfunc(lj_bc_ofs[BC_ITERL]);
-      f_loop = makeasmfunc(lj_bc_ofs[BC_LOOP]);
-      f_funcf = makeasmfunc(lj_bc_ofs[BC_FUNCF]);
-      f_funcv = makeasmfunc(lj_bc_ofs[BC_FUNCV]);
-    } else {  /* Otherwise use the non-hotcounting instructions. */
-      f_forl = disp[GG_LEN_DDISP+BC_IFORL];
-      f_iterl = disp[GG_LEN_DDISP+BC_IITERL];
-      f_loop = disp[GG_LEN_DDISP+BC_ILOOP];
-      f_funcf = makeasmfunc(lj_bc_ofs[BC_IFUNCF]);
-      f_funcv = makeasmfunc(lj_bc_ofs[BC_IFUNCV]);
-    }
-    /* Init static counting instruction dispatch first (may be copied below). */
-    disp[GG_LEN_DDISP+BC_FORL] = f_forl;
-    disp[GG_LEN_DDISP+BC_ITERL] = f_iterl;
-    disp[GG_LEN_DDISP+BC_LOOP] = f_loop;
-
-    /* Set dynamic instruction dispatch. */
-    if ((oldmode ^ mode) & (DISPMODE_REC|DISPMODE_INS)) {
-      /* Need to update the whole table. */
-      if (!(mode & (DISPMODE_REC|DISPMODE_INS))) {  /* No ins dispatch? */
-	/* Copy static dispatch table to dynamic dispatch table. */
-	memcpy(&disp[0], &disp[GG_LEN_DDISP], GG_LEN_SDISP*sizeof(ASMFunction));
-	/* Overwrite with dynamic return dispatch. */
-	if ((mode & DISPMODE_RET)) {
-	  disp[BC_RETM] = lj_vm_rethook;
-	  disp[BC_RET] = lj_vm_rethook;
-	  disp[BC_RET0] = lj_vm_rethook;
-	  disp[BC_RET1] = lj_vm_rethook;
-	}
-      } else {
-	/* The recording dispatch also checks for hooks. */
-	ASMFunction f = (mode & DISPMODE_REC) ? lj_vm_record : lj_vm_inshook;
-	uint32_t i;
-	for (i = 0; i < GG_LEN_SDISP; i++)
-	  disp[i] = f;
-      }
-    } else if (!(mode & (DISPMODE_REC|DISPMODE_INS))) {
-      /* Otherwise set dynamic counting ins. */
-      disp[BC_FORL] = f_forl;
-      disp[BC_ITERL] = f_iterl;
-      disp[BC_LOOP] = f_loop;
-      /* Set dynamic return dispatch. */
-      if ((mode & DISPMODE_RET)) {
-	disp[BC_RETM] = lj_vm_rethook;
-	disp[BC_RET] = lj_vm_rethook;
-	disp[BC_RET0] = lj_vm_rethook;
-	disp[BC_RET1] = lj_vm_rethook;
-      } else {
-	disp[BC_RETM] = disp[GG_LEN_DDISP+BC_RETM];
-	disp[BC_RET] = disp[GG_LEN_DDISP+BC_RET];
-	disp[BC_RET0] = disp[GG_LEN_DDISP+BC_RET0];
-	disp[BC_RET1] = disp[GG_LEN_DDISP+BC_RET1];
-      }
-    }
-
-    /* Set dynamic call dispatch. */
-    if ((oldmode ^ mode) & DISPMODE_CALL) {  /* Update the whole table? */
-      uint32_t i;
-      if ((mode & DISPMODE_CALL) == 0) {  /* No call hooks? */
-	for (i = GG_LEN_SDISP; i < GG_LEN_DDISP; i++)
-	  disp[i] = makeasmfunc(lj_bc_ofs[i]);
-      } else {
-	for (i = GG_LEN_SDISP; i < GG_LEN_DDISP; i++)
-	  disp[i] = lj_vm_callhook;
-      }
-    }
-    if (!(mode & DISPMODE_CALL)) {  /* Overwrite dynamic counting ins. */
-      disp[BC_FUNCF] = f_funcf;
-      disp[BC_FUNCV] = f_funcv;
-    }
-
-#if LJ_HASJIT
-    /* Reset hotcounts for JIT off to on transition. */
-    if ((mode & DISPMODE_JIT) && !(oldmode & DISPMODE_JIT))
-      lj_dispatch_init_hotcount(g);
-#endif
-  }
-}
-
-/* -- JIT mode setting ---------------------------------------------------- */
-
-#if LJ_HASJIT
-/* Set JIT mode for a single prototype. */
-static void setptmode(global_State *g, GCproto *pt, int mode)
-{
-  if ((mode & LUAJIT_MODE_ON)) {  /* (Re-)enable JIT compilation. */
-    pt->flags &= ~PROTO_NOJIT;
-    lj_trace_reenableproto(pt);  /* Unpatch all ILOOP etc. bytecodes. */
-  } else {  /* Flush and/or disable JIT compilation. */
-    if (!(mode & LUAJIT_MODE_FLUSH))
-      pt->flags |= PROTO_NOJIT;
-    lj_trace_flushproto(g, pt);  /* Flush all traces of prototype. */
-  }
-}
-
-/* Recursively set the JIT mode for all children of a prototype. */
-static void setptmode_all(global_State *g, GCproto *pt, int mode)
-{
-  ptrdiff_t i;
-  if (!(pt->flags & PROTO_CHILD)) return;
-  for (i = -(ptrdiff_t)pt->sizekgc; i < 0; i++) {
-    GCobj *o = proto_kgc(pt, i);
-    if (o->gch.gct == ~LJ_TPROTO) {
-      setptmode(g, gco2pt(o), mode);
-      setptmode_all(g, gco2pt(o), mode);
-    }
-  }
-}
-#endif
-
-/* Public API function: control the JIT engine. */
-int luaJIT_setmode(lua_State *L, int idx, int mode)
-{
-  global_State *g = G(L);
-  int mm = mode & LUAJIT_MODE_MASK;
-  lj_trace_abort(g);  /* Abort recording on any state change. */
-  /* Avoid pulling the rug from under our own feet. */
-  if ((g->hookmask & HOOK_GC))
-    lj_err_caller(L, LJ_ERR_NOGCMM);
-  switch (mm) {
-#if LJ_HASJIT
-  case LUAJIT_MODE_ENGINE:
-    if ((mode & LUAJIT_MODE_FLUSH)) {
-      lj_trace_flushall(L);
-    } else {
-      if (!(mode & LUAJIT_MODE_ON))
-	G2J(g)->flags &= ~(uint32_t)JIT_F_ON;
-#if LJ_TARGET_X86ORX64
-      else if ((G2J(g)->flags & JIT_F_SSE2))
-	G2J(g)->flags |= (uint32_t)JIT_F_ON;
-      else
-	return 0;  /* Don't turn on JIT compiler without SSE2 support. */
-#else
-      else
-	G2J(g)->flags |= (uint32_t)JIT_F_ON;
-#endif
-      lj_dispatch_update(g);
-    }
-    break;
-  case LUAJIT_MODE_FUNC:
-  case LUAJIT_MODE_ALLFUNC:
-  case LUAJIT_MODE_ALLSUBFUNC: {
-    cTValue *tv = idx == 0 ? frame_prev(L->base-1) :
-		  idx > 0 ? L->base + (idx-1) : L->top + idx;
-    GCproto *pt;
-    if ((idx == 0 || tvisfunc(tv)) && isluafunc(&gcval(tv)->fn))
-      pt = funcproto(&gcval(tv)->fn);  /* Cannot use funcV() for frame slot. */
-    else if (tvisproto(tv))
-      pt = protoV(tv);
-    else
-      return 0;  /* Failed. */
-    if (mm != LUAJIT_MODE_ALLSUBFUNC)
-      setptmode(g, pt, mode);
-    if (mm != LUAJIT_MODE_FUNC)
-      setptmode_all(g, pt, mode);
-    break;
-    }
-  case LUAJIT_MODE_TRACE:
-    if (!(mode & LUAJIT_MODE_FLUSH))
-      return 0;  /* Failed. */
-    lj_trace_flush(G2J(g), idx);
-    break;
-#else
-  case LUAJIT_MODE_ENGINE:
-  case LUAJIT_MODE_FUNC:
-  case LUAJIT_MODE_ALLFUNC:
-  case LUAJIT_MODE_ALLSUBFUNC:
-    UNUSED(idx);
-    if ((mode & LUAJIT_MODE_ON))
-      return 0;  /* Failed. */
-    break;
-#endif
-  case LUAJIT_MODE_WRAPCFUNC:
-    if ((mode & LUAJIT_MODE_ON)) {
-      if (idx != 0) {
-	cTValue *tv = idx > 0 ? L->base + (idx-1) : L->top + idx;
-	if (tvislightud(tv))
-	  g->wrapf = (lua_CFunction)lightudV(tv);
-	else
-	  return 0;  /* Failed. */
-      } else {
-	return 0;  /* Failed. */
-      }
-      g->bc_cfunc_ext = BCINS_AD(BC_FUNCCW, 0, 0);
-    } else {
-      g->bc_cfunc_ext = BCINS_AD(BC_FUNCC, 0, 0);
-    }
-    break;
-  default:
-    return 0;  /* Failed. */
-  }
-  return 1;  /* OK. */
-}
-
-/* Enforce (dynamic) linker error for version mismatches. See luajit.c. */
-LUA_API void LUAJIT_VERSION_SYM(void)
-{
-}
-
-/* -- Hooks --------------------------------------------------------------- */
-
-/* This function can be called asynchronously (e.g. during a signal). */
-LUA_API int lua_sethook(lua_State *L, lua_Hook func, int mask, int count)
-{
-  global_State *g = G(L);
-  mask &= HOOK_EVENTMASK;
-  if (func == NULL || mask == 0) { mask = 0; func = NULL; }  /* Consistency. */
-  g->hookf = func;
-  g->hookcount = g->hookcstart = (int32_t)count;
-  g->hookmask = (uint8_t)((g->hookmask & ~HOOK_EVENTMASK) | mask);
-  lj_trace_abort(g);  /* Abort recording on any hook change. */
-  lj_dispatch_update(g);
-  return 1;
-}
-
-LUA_API lua_Hook lua_gethook(lua_State *L)
-{
-  return G(L)->hookf;
-}
-
-LUA_API int lua_gethookmask(lua_State *L)
-{
-  return G(L)->hookmask & HOOK_EVENTMASK;
-}
-
-LUA_API int lua_gethookcount(lua_State *L)
-{
-  return (int)G(L)->hookcstart;
-}
-
-/* Call a hook. */
-static void callhook(lua_State *L, int event, BCLine line)
-{
-  global_State *g = G(L);
-  lua_Hook hookf = g->hookf;
-  if (hookf && !hook_active(g)) {
-    lua_Debug ar;
-    lj_trace_abort(g);  /* Abort recording on any hook call. */
-    ar.event = event;
-    ar.currentline = line;
-    /* Top frame, nextframe = NULL. */
-    ar.i_ci = (int)((L->base-1) - tvref(L->stack));
-    lj_state_checkstack(L, 1+LUA_MINSTACK);
-    hook_enter(g);
-    hookf(L, &ar);
-    lua_assert(hook_active(g));
-    hook_leave(g);
-  }
-}
-
-/* -- Dispatch callbacks -------------------------------------------------- */
-
-/* Calculate number of used stack slots in the current frame. */
-static BCReg cur_topslot(GCproto *pt, const BCIns *pc, uint32_t nres)
-{
-  BCIns ins = pc[-1];
-  if (bc_op(ins) == BC_UCLO)
-    ins = pc[bc_j(ins)];
-  switch (bc_op(ins)) {
-  case BC_CALLM: case BC_CALLMT: return bc_a(ins) + bc_c(ins) + nres-1+1;
-  case BC_RETM: return bc_a(ins) + bc_d(ins) + nres-1;
-  case BC_TSETM: return bc_a(ins) + nres-1;
-  default: return pt->framesize;
-  }
-}
-
-/* Instruction dispatch. Used by instr/line/return hooks or when recording. */
-void LJ_FASTCALL lj_dispatch_ins(lua_State *L, const BCIns *pc)
-{
-  ERRNO_SAVE
-  GCfunc *fn = curr_func(L);
-  GCproto *pt = funcproto(fn);
-  void *cf = cframe_raw(L->cframe);
-  const BCIns *oldpc = cframe_pc(cf);
-  global_State *g = G(L);
-  BCReg slots;
-  setcframe_pc(cf, pc);
-  slots = cur_topslot(pt, pc, cframe_multres_n(cf));
-  L->top = L->base + slots;  /* Fix top. */
-#if LJ_HASJIT
-  {
-    jit_State *J = G2J(g);
-    if (J->state != LJ_TRACE_IDLE) {
-#ifdef LUA_USE_ASSERT
-      ptrdiff_t delta = L->top - L->base;
-#endif
-      J->L = L;
-      lj_trace_ins(J, pc-1);  /* The interpreter bytecode PC is offset by 1. */
-      lua_assert(L->top - L->base == delta);
-    }
-  }
-#endif
-  if ((g->hookmask & LUA_MASKCOUNT) && g->hookcount == 0) {
-    g->hookcount = g->hookcstart;
-    callhook(L, LUA_HOOKCOUNT, -1);
-    L->top = L->base + slots;  /* Fix top again. */
-  }
-  if ((g->hookmask & LUA_MASKLINE)) {
-    BCPos npc = proto_bcpos(pt, pc) - 1;
-    BCPos opc = proto_bcpos(pt, oldpc) - 1;
-    BCLine line = lj_debug_line(pt, npc);
-    if (pc <= oldpc || opc >= pt->sizebc || line != lj_debug_line(pt, opc)) {
-      callhook(L, LUA_HOOKLINE, line);
-      L->top = L->base + slots;  /* Fix top again. */
-    }
-  }
-  if ((g->hookmask & LUA_MASKRET) && bc_isret(bc_op(pc[-1])))
-    callhook(L, LUA_HOOKRET, -1);
-  ERRNO_RESTORE
-}
-
-/* Initialize call. Ensure stack space and return # of missing parameters. */
-static int call_init(lua_State *L, GCfunc *fn)
-{
-  if (isluafunc(fn)) {
-    GCproto *pt = funcproto(fn);
-    int numparams = pt->numparams;
-    int gotparams = (int)(L->top - L->base);
-    int need = pt->framesize;
-    if ((pt->flags & PROTO_VARARG)) need += 1+gotparams;
-    lj_state_checkstack(L, (MSize)need);
-    numparams -= gotparams;
-    return numparams >= 0 ? numparams : 0;
-  } else {
-    lj_state_checkstack(L, LUA_MINSTACK);
-    return 0;
-  }
-}
-
-/* Call dispatch. Used by call hooks, hot calls or when recording. */
-ASMFunction LJ_FASTCALL lj_dispatch_call(lua_State *L, const BCIns *pc)
-{
-  ERRNO_SAVE
-  GCfunc *fn = curr_func(L);
-  BCOp op;
-  global_State *g = G(L);
-#if LJ_HASJIT
-  jit_State *J = G2J(g);
-#endif
-  int missing = call_init(L, fn);
-#if LJ_HASJIT
-  J->L = L;
-  if ((uintptr_t)pc & 1) {  /* Marker for hot call. */
-#ifdef LUA_USE_ASSERT
-    ptrdiff_t delta = L->top - L->base;
-#endif
-    pc = (const BCIns *)((uintptr_t)pc & ~(uintptr_t)1);
-    lj_trace_hot(J, pc);
-    lua_assert(L->top - L->base == delta);
-    goto out;
-  } else if (J->state != LJ_TRACE_IDLE &&
-	     !(g->hookmask & (HOOK_GC|HOOK_VMEVENT))) {
-#ifdef LUA_USE_ASSERT
-    ptrdiff_t delta = L->top - L->base;
-#endif
-    /* Record the FUNC* bytecodes, too. */
-    lj_trace_ins(J, pc-1);  /* The interpreter bytecode PC is offset by 1. */
-    lua_assert(L->top - L->base == delta);
-  }
-#endif
-  if ((g->hookmask & LUA_MASKCALL)) {
-    int i;
-    for (i = 0; i < missing; i++)  /* Add missing parameters. */
-      setnilV(L->top++);
-    callhook(L, LUA_HOOKCALL, -1);
-    /* Preserve modifications of missing parameters by lua_setlocal(). */
-    while (missing-- > 0 && tvisnil(L->top - 1))
-      L->top--;
-  }
-#if LJ_HASJIT
-out:
-#endif
-  op = bc_op(pc[-1]);  /* Get FUNC* op. */
-#if LJ_HASJIT
-  /* Use the non-hotcounting variants if JIT is off or while recording. */
-  if ((!(J->flags & JIT_F_ON) || J->state != LJ_TRACE_IDLE) &&
-      (op == BC_FUNCF || op == BC_FUNCV))
-    op = (BCOp)((int)op+(int)BC_IFUNCF-(int)BC_FUNCF);
-#endif
-  ERRNO_RESTORE
-  return makeasmfunc(lj_bc_ofs[op]);  /* Return static dispatch target. */
-}
-
diff --git a/luajit-2.0/src/lj_dispatch.h b/luajit-2.0/src/lj_dispatch.h
deleted file mode 100644
index 5960e64..0000000
--- a/luajit-2.0/src/lj_dispatch.h
+++ /dev/null
@@ -1,131 +0,0 @@
-/*
-** Instruction dispatch handling.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#ifndef _LJ_DISPATCH_H
-#define _LJ_DISPATCH_H
-
-#include "lj_obj.h"
-#include "lj_bc.h"
-#if LJ_HASJIT
-#include "lj_jit.h"
-#endif
-
-#if LJ_TARGET_MIPS
-/* Need our own global offset table for the dreaded MIPS calling conventions. */
-#if LJ_HASJIT
-#define JITGOTDEF(_)	_(lj_trace_exit) _(lj_trace_hot)
-#else
-#define JITGOTDEF(_)
-#endif
-#if LJ_HASFFI
-#define FFIGOTDEF(_) \
-  _(lj_meta_equal_cd) _(lj_ccallback_enter) _(lj_ccallback_leave)
-#else
-#define FFIGOTDEF(_)
-#endif
-#define GOTDEF(_) \
-  _(floor) _(ceil) _(trunc) _(log) _(log10) _(exp) _(sin) _(cos) _(tan) \
-  _(asin) _(acos) _(atan) _(sinh) _(cosh) _(tanh) _(frexp) _(modf) _(atan2) \
-  _(pow) _(fmod) _(ldexp) \
-  _(lj_dispatch_call) _(lj_dispatch_ins) _(lj_err_throw) \
-  _(lj_ffh_coroutine_wrap_err) _(lj_func_closeuv) _(lj_func_newL_gc) \
-  _(lj_gc_barrieruv) _(lj_gc_step) _(lj_gc_step_fixtop) _(lj_meta_arith) \
-  _(lj_meta_call) _(lj_meta_cat) _(lj_meta_comp) _(lj_meta_equal) \
-  _(lj_meta_for) _(lj_meta_len) _(lj_meta_tget) _(lj_meta_tset) \
-  _(lj_state_growstack) _(lj_str_fromnum) _(lj_str_fromnumber) _(lj_str_new) \
-  _(lj_tab_dup) _(lj_tab_get) _(lj_tab_getinth) _(lj_tab_len) _(lj_tab_new) \
-  _(lj_tab_newkey) _(lj_tab_next) _(lj_tab_reasize) \
-  JITGOTDEF(_) FFIGOTDEF(_)
-
-enum {
-#define GOTENUM(name) LJ_GOT_##name,
-GOTDEF(GOTENUM)
-#undef GOTENUM
-  LJ_GOT__MAX
-};
-#endif
-
-/* Type of hot counter. Must match the code in the assembler VM. */
-/* 16 bits are sufficient. Only 0.0015% overhead with maximum slot penalty. */
-typedef uint16_t HotCount;
-
-/* Number of hot counter hash table entries (must be a power of two). */
-#define HOTCOUNT_SIZE		64
-#define HOTCOUNT_PCMASK		((HOTCOUNT_SIZE-1)*sizeof(HotCount))
-
-/* Hotcount decrements. */
-#define HOTCOUNT_LOOP		2
-#define HOTCOUNT_CALL		1
-
-/* This solves a circular dependency problem -- bump as needed. Sigh. */
-#define GG_NUM_ASMFF	62
-
-#define GG_LEN_DDISP	(BC__MAX + GG_NUM_ASMFF)
-#define GG_LEN_SDISP	BC_FUNCF
-#define GG_LEN_DISP	(GG_LEN_DDISP + GG_LEN_SDISP)
-
-/* Global state, main thread and extra fields are allocated together. */
-typedef struct GG_State {
-  lua_State L;				/* Main thread. */
-  global_State g;			/* Global state. */
-#if LJ_TARGET_MIPS
-  ASMFunction got[LJ_GOT__MAX];		/* Global offset table. */
-#endif
-#if LJ_HASJIT
-  jit_State J;				/* JIT state. */
-  HotCount hotcount[HOTCOUNT_SIZE];	/* Hot counters. */
-#endif
-  ASMFunction dispatch[GG_LEN_DISP];	/* Instruction dispatch tables. */
-  BCIns bcff[GG_NUM_ASMFF];		/* Bytecode for ASM fast functions. */
-} GG_State;
-
-#define GG_OFS(field)	((int)offsetof(GG_State, field))
-#define G2GG(gl)	((GG_State *)((char *)(gl) - GG_OFS(g)))
-#define J2GG(j)		((GG_State *)((char *)(j) - GG_OFS(J)))
-#define L2GG(L)		(G2GG(G(L)))
-#define J2G(J)		(&J2GG(J)->g)
-#define G2J(gl)		(&G2GG(gl)->J)
-#define L2J(L)		(&L2GG(L)->J)
-#define GG_G2DISP	(GG_OFS(dispatch) - GG_OFS(g))
-#define GG_DISP2G	(GG_OFS(g) - GG_OFS(dispatch))
-#define GG_DISP2J	(GG_OFS(J) - GG_OFS(dispatch))
-#define GG_DISP2HOT	(GG_OFS(hotcount) - GG_OFS(dispatch))
-#define GG_DISP2STATIC	(GG_LEN_DDISP*(int)sizeof(ASMFunction))
-
-#define hotcount_get(gg, pc) \
-  (gg)->hotcount[(u32ptr(pc)>>2) & (HOTCOUNT_SIZE-1)]
-#define hotcount_set(gg, pc, val) \
-  (hotcount_get((gg), (pc)) = (HotCount)(val))
-
-/* Dispatch table management. */
-LJ_FUNC void lj_dispatch_init(GG_State *GG);
-#if LJ_HASJIT
-LJ_FUNC void lj_dispatch_init_hotcount(global_State *g);
-#endif
-LJ_FUNC void lj_dispatch_update(global_State *g);
-
-/* Instruction dispatch callback for hooks or when recording. */
-LJ_FUNCA void LJ_FASTCALL lj_dispatch_ins(lua_State *L, const BCIns *pc);
-LJ_FUNCA ASMFunction LJ_FASTCALL lj_dispatch_call(lua_State *L, const BCIns*pc);
-LJ_FUNCA void LJ_FASTCALL lj_dispatch_return(lua_State *L, const BCIns *pc);
-
-#if LJ_HASFFI && !defined(_BUILDVM_H)
-/* Save/restore errno and GetLastError() around hooks, exits and recording. */
-#include <errno.h>
-#if LJ_TARGET_WINDOWS
-#define WIN32_LEAN_AND_MEAN
-#include <windows.h>
-#define ERRNO_SAVE	int olderr = errno; DWORD oldwerr = GetLastError();
-#define ERRNO_RESTORE	errno = olderr; SetLastError(oldwerr);
-#else
-#define ERRNO_SAVE	int olderr = errno;
-#define ERRNO_RESTORE	errno = olderr;
-#endif
-#else
-#define ERRNO_SAVE
-#define ERRNO_RESTORE
-#endif
-
-#endif
diff --git a/luajit-2.0/src/lj_emit_arm.h b/luajit-2.0/src/lj_emit_arm.h
deleted file mode 100644
index 3bac367..0000000
--- a/luajit-2.0/src/lj_emit_arm.h
+++ /dev/null
@@ -1,356 +0,0 @@
-/*
-** ARM instruction emitter.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-/* -- Constant encoding --------------------------------------------------- */
-
-static uint8_t emit_invai[16] = {
-  /* AND */ (ARMI_AND^ARMI_BIC) >> 21,
-  /* EOR */ 0,
-  /* SUB */ (ARMI_SUB^ARMI_ADD) >> 21,
-  /* RSB */ 0,
-  /* ADD */ (ARMI_ADD^ARMI_SUB) >> 21,
-  /* ADC */ (ARMI_ADC^ARMI_SBC) >> 21,
-  /* SBC */ (ARMI_SBC^ARMI_ADC) >> 21,
-  /* RSC */ 0,
-  /* TST */ 0,
-  /* TEQ */ 0,
-  /* CMP */ (ARMI_CMP^ARMI_CMN) >> 21,
-  /* CMN */ (ARMI_CMN^ARMI_CMP) >> 21,
-  /* ORR */ 0,
-  /* MOV */ (ARMI_MOV^ARMI_MVN) >> 21,
-  /* BIC */ (ARMI_BIC^ARMI_AND) >> 21,
-  /* MVN */ (ARMI_MVN^ARMI_MOV) >> 21
-};
-
-/* Encode constant in K12 format for data processing instructions. */
-static uint32_t emit_isk12(ARMIns ai, int32_t n)
-{
-  uint32_t invai, i, m = (uint32_t)n;
-  /* K12: unsigned 8 bit value, rotated in steps of two bits. */
-  for (i = 0; i < 4096; i += 256, m = lj_rol(m, 2))
-    if (m <= 255) return ARMI_K12|m|i;
-  /* Otherwise try negation/complement with the inverse instruction. */
-  invai = emit_invai[((ai >> 21) & 15)];
-  if (!invai) return 0;  /* Failed. No inverse instruction. */
-  m = ~(uint32_t)n;
-  if (invai == ((ARMI_SUB^ARMI_ADD) >> 21) ||
-      invai == (ARMI_CMP^ARMI_CMN) >> 21) m++;
-  for (i = 0; i < 4096; i += 256, m = lj_rol(m, 2))
-    if (m <= 255) return ARMI_K12|(invai<<21)|m|i;
-  return 0;  /* Failed. */
-}
-
-/* -- Emit basic instructions --------------------------------------------- */
-
-static void emit_dnm(ASMState *as, ARMIns ai, Reg rd, Reg rn, Reg rm)
-{
-  *--as->mcp = ai | ARMF_D(rd) | ARMF_N(rn) | ARMF_M(rm);
-}
-
-static void emit_dm(ASMState *as, ARMIns ai, Reg rd, Reg rm)
-{
-  *--as->mcp = ai | ARMF_D(rd) | ARMF_M(rm);
-}
-
-static void emit_dn(ASMState *as, ARMIns ai, Reg rd, Reg rn)
-{
-  *--as->mcp = ai | ARMF_D(rd) | ARMF_N(rn);
-}
-
-static void emit_nm(ASMState *as, ARMIns ai, Reg rn, Reg rm)
-{
-  *--as->mcp = ai | ARMF_N(rn) | ARMF_M(rm);
-}
-
-static void emit_d(ASMState *as, ARMIns ai, Reg rd)
-{
-  *--as->mcp = ai | ARMF_D(rd);
-}
-
-static void emit_n(ASMState *as, ARMIns ai, Reg rn)
-{
-  *--as->mcp = ai | ARMF_N(rn);
-}
-
-static void emit_m(ASMState *as, ARMIns ai, Reg rm)
-{
-  *--as->mcp = ai | ARMF_M(rm);
-}
-
-static void emit_lsox(ASMState *as, ARMIns ai, Reg rd, Reg rn, int32_t ofs)
-{
-  lua_assert(ofs >= -255 && ofs <= 255);
-  if (ofs < 0) ofs = -ofs; else ai |= ARMI_LS_U;
-  *--as->mcp = ai | ARMI_LS_P | ARMI_LSX_I | ARMF_D(rd) | ARMF_N(rn) |
-	       ((ofs & 0xf0) << 4) | (ofs & 0x0f);
-}
-
-static void emit_lso(ASMState *as, ARMIns ai, Reg rd, Reg rn, int32_t ofs)
-{
-  lua_assert(ofs >= -4095 && ofs <= 4095);
-  /* Combine LDR/STR pairs to LDRD/STRD. */
-  if (*as->mcp == (ai|ARMI_LS_P|ARMI_LS_U|ARMF_D(rd^1)|ARMF_N(rn)|(ofs^4)) &&
-      (ai & ~(ARMI_LDR^ARMI_STR)) == ARMI_STR && rd != rn &&
-      (uint32_t)ofs <= 252 && !(ofs & 3) && !((rd ^ (ofs >>2)) & 1) &&
-      as->mcp != as->mcloop) {
-    as->mcp++;
-    emit_lsox(as, ai == ARMI_LDR ? ARMI_LDRD : ARMI_STRD, rd&~1, rn, ofs&~4);
-    return;
-  }
-  if (ofs < 0) ofs = -ofs; else ai |= ARMI_LS_U;
-  *--as->mcp = ai | ARMI_LS_P | ARMF_D(rd) | ARMF_N(rn) | ofs;
-}
-
-#if !LJ_SOFTFP
-static void emit_vlso(ASMState *as, ARMIns ai, Reg rd, Reg rn, int32_t ofs)
-{
-  lua_assert(ofs >= -1020 && ofs <= 1020 && (ofs&3) == 0);
-  if (ofs < 0) ofs = -ofs; else ai |= ARMI_LS_U;
-  *--as->mcp = ai | ARMI_LS_P | ARMF_D(rd & 15) | ARMF_N(rn) | (ofs >> 2);
-}
-#endif
-
-/* -- Emit loads/stores --------------------------------------------------- */
-
-/* Prefer spills of BASE/L. */
-#define emit_canremat(ref)	((ref) < ASMREF_L)
-
-/* Try to find a one step delta relative to another constant. */
-static int emit_kdelta1(ASMState *as, Reg d, int32_t i)
-{
-  RegSet work = ~as->freeset & RSET_GPR;
-  while (work) {
-    Reg r = rset_picktop(work);
-    IRRef ref = regcost_ref(as->cost[r]);
-    lua_assert(r != d);
-    if (emit_canremat(ref)) {
-      int32_t delta = i - (ra_iskref(ref) ? ra_krefk(as, ref) : IR(ref)->i);
-      uint32_t k = emit_isk12(ARMI_ADD, delta);
-      if (k) {
-	if (k == ARMI_K12)
-	  emit_dm(as, ARMI_MOV, d, r);
-	else
-	  emit_dn(as, ARMI_ADD^k, d, r);
-	return 1;
-      }
-    }
-    rset_clear(work, r);
-  }
-  return 0;  /* Failed. */
-}
-
-/* Try to find a two step delta relative to another constant. */
-static int emit_kdelta2(ASMState *as, Reg d, int32_t i)
-{
-  RegSet work = ~as->freeset & RSET_GPR;
-  while (work) {
-    Reg r = rset_picktop(work);
-    IRRef ref = regcost_ref(as->cost[r]);
-    lua_assert(r != d);
-    if (emit_canremat(ref)) {
-      int32_t other = ra_iskref(ref) ? ra_krefk(as, ref) : IR(ref)->i;
-      if (other) {
-	int32_t delta = i - other;
-	uint32_t sh, inv = 0, k2, k;
-	if (delta < 0) { delta = -delta; inv = ARMI_ADD^ARMI_SUB; }
-	sh = lj_ffs(delta) & ~1;
-	k2 = emit_isk12(0, delta & (255 << sh));
-	k = emit_isk12(0, delta & ~(255 << sh));
-	if (k) {
-	  emit_dn(as, ARMI_ADD^k2^inv, d, d);
-	  emit_dn(as, ARMI_ADD^k^inv, d, r);
-	  return 1;
-	}
-      }
-    }
-    rset_clear(work, r);
-  }
-  return 0;  /* Failed. */
-}
-
-/* Load a 32 bit constant into a GPR. */
-static void emit_loadi(ASMState *as, Reg r, int32_t i)
-{
-  uint32_t k = emit_isk12(ARMI_MOV, i);
-  lua_assert(rset_test(as->freeset, r) || r == RID_TMP);
-  if (k) {
-    /* Standard K12 constant. */
-    emit_d(as, ARMI_MOV^k, r);
-  } else if ((as->flags & JIT_F_ARMV6T2) && (uint32_t)i < 0x00010000u) {
-    /* 16 bit loword constant for ARMv6T2. */
-    emit_d(as, ARMI_MOVW|(i & 0x0fff)|((i & 0xf000)<<4), r);
-  } else if (emit_kdelta1(as, r, i)) {
-    /* One step delta relative to another constant. */
-  } else if ((as->flags & JIT_F_ARMV6T2)) {
-    /* 32 bit hiword/loword constant for ARMv6T2. */
-    emit_d(as, ARMI_MOVT|((i>>16) & 0x0fff)|(((i>>16) & 0xf000)<<4), r);
-    emit_d(as, ARMI_MOVW|(i & 0x0fff)|((i & 0xf000)<<4), r);
-  } else if (emit_kdelta2(as, r, i)) {
-    /* Two step delta relative to another constant. */
-  } else {
-    /* Otherwise construct the constant with up to 4 instructions. */
-    /* NYI: use mvn+bic, use pc-relative loads. */
-    for (;;) {
-      uint32_t sh = lj_ffs(i) & ~1;
-      int32_t m = i & (255 << sh);
-      i &= ~(255 << sh);
-      if (i == 0) {
-	emit_d(as, ARMI_MOV ^ emit_isk12(0, m), r);
-	break;
-      }
-      emit_dn(as, ARMI_ORR ^ emit_isk12(0, m), r, r);
-    }
-  }
-}
-
-#define emit_loada(as, r, addr)		emit_loadi(as, (r), i32ptr((addr)))
-
-static Reg ra_allock(ASMState *as, int32_t k, RegSet allow);
-
-/* Get/set from constant pointer. */
-static void emit_lsptr(ASMState *as, ARMIns ai, Reg r, void *p)
-{
-  int32_t i = i32ptr(p);
-  emit_lso(as, ai, r, ra_allock(as, (i & ~4095), rset_exclude(RSET_GPR, r)),
-	   (i & 4095));
-}
-
-#if !LJ_SOFTFP
-/* Load a number constant into an FPR. */
-static void emit_loadn(ASMState *as, Reg r, cTValue *tv)
-{
-  int32_t i;
-  if ((as->flags & JIT_F_VFPV3) && !tv->u32.lo) {
-    uint32_t hi = tv->u32.hi;
-    uint32_t b = ((hi >> 22) & 0x1ff);
-    if (!(hi & 0xffff) && (b == 0x100 || b == 0x0ff)) {
-      *--as->mcp = ARMI_VMOVI_D | ARMF_D(r & 15) |
-		   ((tv->u32.hi >> 12) & 0x00080000) |
-		   ((tv->u32.hi >> 4) & 0x00070000) |
-		   ((tv->u32.hi >> 16) & 0x0000000f);
-      return;
-    }
-  }
-  i = i32ptr(tv);
-  emit_vlso(as, ARMI_VLDR_D, r,
-	    ra_allock(as, (i & ~1020), RSET_GPR), (i & 1020));
-}
-#endif
-
-/* Get/set global_State fields. */
-#define emit_getgl(as, r, field) \
-  emit_lsptr(as, ARMI_LDR, (r), (void *)&J2G(as->J)->field)
-#define emit_setgl(as, r, field) \
-  emit_lsptr(as, ARMI_STR, (r), (void *)&J2G(as->J)->field)
-
-/* Trace number is determined from pc of exit instruction. */
-#define emit_setvmstate(as, i)		UNUSED(i)
-
-/* -- Emit control-flow instructions -------------------------------------- */
-
-/* Label for internal jumps. */
-typedef MCode *MCLabel;
-
-/* Return label pointing to current PC. */
-#define emit_label(as)		((as)->mcp)
-
-static void emit_branch(ASMState *as, ARMIns ai, MCode *target)
-{
-  MCode *p = as->mcp;
-  ptrdiff_t delta = (target - p) - 1;
-  lua_assert(((delta + 0x00800000) >> 24) == 0);
-  *--p = ai | ((uint32_t)delta & 0x00ffffffu);
-  as->mcp = p;
-}
-
-#define emit_jmp(as, target) emit_branch(as, ARMI_B, (target))
-
-static void emit_call(ASMState *as, void *target)
-{
-  MCode *p = --as->mcp;
-  ptrdiff_t delta = ((char *)target - (char *)p) - 8;
-  if ((((delta>>2) + 0x00800000) >> 24) == 0) {
-    if ((delta & 1))
-      *p = ARMI_BLX | ((uint32_t)(delta>>2) & 0x00ffffffu) | ((delta&2) << 27);
-    else
-      *p = ARMI_BL | ((uint32_t)(delta>>2) & 0x00ffffffu);
-  } else {  /* Target out of range: need indirect call. But don't use R0-R3. */
-    Reg r = ra_allock(as, i32ptr(target), RSET_RANGE(RID_R4, RID_R12+1));
-    *p = ARMI_BLXr | ARMF_M(r);
-  }
-}
-
-/* -- Emit generic operations --------------------------------------------- */
-
-/* Generic move between two regs. */
-static void emit_movrr(ASMState *as, IRIns *ir, Reg dst, Reg src)
-{
-#if LJ_SOFTFP
-  lua_assert(!irt_isnum(ir->t)); UNUSED(ir);
-#else
-  if (dst >= RID_MAX_GPR) {
-    emit_dm(as, irt_isnum(ir->t) ? ARMI_VMOV_D : ARMI_VMOV_S,
-	    (dst & 15), (src & 15));
-    return;
-  }
-#endif
-  if (as->mcp != as->mcloop) {  /* Swap early registers for loads/stores. */
-    MCode ins = *as->mcp, swp = (src^dst);
-    if ((ins & 0x0c000000) == 0x04000000 && (ins & 0x02000010) != 0x02000010) {
-      if (!((ins ^ (dst << 16)) & 0x000f0000))
-	*as->mcp = ins ^ (swp << 16);  /* Swap N in load/store. */
-      if (!(ins & 0x00100000) && !((ins ^ (dst << 12)) & 0x0000f000))
-	*as->mcp = ins ^ (swp << 12);  /* Swap D in store. */
-    }
-  }
-  emit_dm(as, ARMI_MOV, dst, src);
-}
-
-/* Generic load of register from stack slot. */
-static void emit_spload(ASMState *as, IRIns *ir, Reg r, int32_t ofs)
-{
-#if LJ_SOFTFP
-  lua_assert(!irt_isnum(ir->t)); UNUSED(ir);
-#else
-  if (r >= RID_MAX_GPR)
-    emit_vlso(as, irt_isnum(ir->t) ? ARMI_VLDR_D : ARMI_VLDR_S, r, RID_SP, ofs);
-  else
-#endif
-    emit_lso(as, ARMI_LDR, r, RID_SP, ofs);
-}
-
-/* Generic store of register to stack slot. */
-static void emit_spstore(ASMState *as, IRIns *ir, Reg r, int32_t ofs)
-{
-#if LJ_SOFTFP
-  lua_assert(!irt_isnum(ir->t)); UNUSED(ir);
-#else
-  if (r >= RID_MAX_GPR)
-    emit_vlso(as, irt_isnum(ir->t) ? ARMI_VSTR_D : ARMI_VSTR_S, r, RID_SP, ofs);
-  else
-#endif
-    emit_lso(as, ARMI_STR, r, RID_SP, ofs);
-}
-
-/* Emit an arithmetic/logic operation with a constant operand. */
-static void emit_opk(ASMState *as, ARMIns ai, Reg dest, Reg src,
-		     int32_t i, RegSet allow)
-{
-  uint32_t k = emit_isk12(ai, i);
-  if (k)
-    emit_dn(as, ai^k, dest, src);
-  else
-    emit_dnm(as, ai, dest, src, ra_allock(as, i, allow));
-}
-
-/* Add offset to pointer. */
-static void emit_addptr(ASMState *as, Reg r, int32_t ofs)
-{
-  if (ofs)
-    emit_opk(as, ARMI_ADD, r, r, ofs, rset_exclude(RSET_GPR, r));
-}
-
-#define emit_spsub(as, ofs)	emit_addptr(as, RID_SP, -(ofs))
-
diff --git a/luajit-2.0/src/lj_emit_mips.h b/luajit-2.0/src/lj_emit_mips.h
deleted file mode 100644
index dc9197a..0000000
--- a/luajit-2.0/src/lj_emit_mips.h
+++ /dev/null
@@ -1,211 +0,0 @@
-/*
-** MIPS instruction emitter.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-/* -- Emit basic instructions --------------------------------------------- */
-
-static void emit_dst(ASMState *as, MIPSIns mi, Reg rd, Reg rs, Reg rt)
-{
-  *--as->mcp = mi | MIPSF_D(rd) | MIPSF_S(rs) | MIPSF_T(rt);
-}
-
-static void emit_dta(ASMState *as, MIPSIns mi, Reg rd, Reg rt, uint32_t a)
-{
-  *--as->mcp = mi | MIPSF_D(rd) | MIPSF_T(rt) | MIPSF_A(a);
-}
-
-#define emit_ds(as, mi, rd, rs)		emit_dst(as, (mi), (rd), (rs), 0)
-#define emit_tg(as, mi, rt, rg)		emit_dst(as, (mi), (rg)&31, 0, (rt))
-
-static void emit_tsi(ASMState *as, MIPSIns mi, Reg rt, Reg rs, int32_t i)
-{
-  *--as->mcp = mi | MIPSF_T(rt) | MIPSF_S(rs) | (i & 0xffff);
-}
-
-#define emit_ti(as, mi, rt, i)		emit_tsi(as, (mi), (rt), 0, (i))
-#define emit_hsi(as, mi, rh, rs, i)	emit_tsi(as, (mi), (rh) & 31, (rs), (i))
-
-static void emit_fgh(ASMState *as, MIPSIns mi, Reg rf, Reg rg, Reg rh)
-{
-  *--as->mcp = mi | MIPSF_F(rf&31) | MIPSF_G(rg&31) | MIPSF_H(rh&31);
-}
-
-#define emit_fg(as, mi, rf, rg)		emit_fgh(as, (mi), (rf), (rg), 0)
-
-static void emit_rotr(ASMState *as, Reg dest, Reg src, Reg tmp, uint32_t shift)
-{
-  if ((as->flags & JIT_F_MIPS32R2)) {
-    emit_dta(as, MIPSI_ROTR, dest, src, shift);
-  } else {
-    emit_dst(as, MIPSI_OR, dest, dest, tmp);
-    emit_dta(as, MIPSI_SLL, dest, src, (-shift)&31);
-    emit_dta(as, MIPSI_SRL, tmp, src, shift);
-  }
-}
-
-/* -- Emit loads/stores --------------------------------------------------- */
-
-/* Prefer rematerialization of BASE/L from global_State over spills. */
-#define emit_canremat(ref)	((ref) <= REF_BASE)
-
-/* Try to find a one step delta relative to another constant. */
-static int emit_kdelta1(ASMState *as, Reg t, int32_t i)
-{
-  RegSet work = ~as->freeset & RSET_GPR;
-  while (work) {
-    Reg r = rset_picktop(work);
-    IRRef ref = regcost_ref(as->cost[r]);
-    lua_assert(r != t);
-    if (ref < ASMREF_L) {
-      int32_t delta = i - (ra_iskref(ref) ? ra_krefk(as, ref) : IR(ref)->i);
-      if (checki16(delta)) {
-	emit_tsi(as, MIPSI_ADDIU, t, r, delta);
-	return 1;
-      }
-    }
-    rset_clear(work, r);
-  }
-  return 0;  /* Failed. */
-}
-
-/* Load a 32 bit constant into a GPR. */
-static void emit_loadi(ASMState *as, Reg r, int32_t i)
-{
-  if (checki16(i)) {
-    emit_ti(as, MIPSI_LI, r, i);
-  } else {
-    if ((i & 0xffff)) {
-      int32_t jgl = i32ptr(J2G(as->J));
-      if ((uint32_t)(i-jgl) < 65536) {
-	emit_tsi(as, MIPSI_ADDIU, r, RID_JGL, i-jgl-32768);
-	return;
-      } else if (emit_kdelta1(as, r, i)) {
-	return;
-      } else if ((i >> 16) == 0) {
-	emit_tsi(as, MIPSI_ORI, r, RID_ZERO, i);
-	return;
-      }
-      emit_tsi(as, MIPSI_ORI, r, r, i);
-    }
-    emit_ti(as, MIPSI_LUI, r, (i >> 16));
-  }
-}
-
-#define emit_loada(as, r, addr)		emit_loadi(as, (r), i32ptr((addr)))
-
-static Reg ra_allock(ASMState *as, int32_t k, RegSet allow);
-static void ra_allockreg(ASMState *as, int32_t k, Reg r);
-
-/* Get/set from constant pointer. */
-static void emit_lsptr(ASMState *as, MIPSIns mi, Reg r, void *p, RegSet allow)
-{
-  int32_t jgl = i32ptr(J2G(as->J));
-  int32_t i = i32ptr(p);
-  Reg base;
-  if ((uint32_t)(i-jgl) < 65536) {
-    i = i-jgl-32768;
-    base = RID_JGL;
-  } else {
-    base = ra_allock(as, i-(int16_t)i, allow);
-  }
-  emit_tsi(as, mi, r, base, i);
-}
-
-#define emit_loadn(as, r, tv) \
-  emit_lsptr(as, MIPSI_LDC1, ((r) & 31), (void *)(tv), RSET_GPR)
-
-/* Get/set global_State fields. */
-static void emit_lsglptr(ASMState *as, MIPSIns mi, Reg r, int32_t ofs)
-{
-  emit_tsi(as, mi, r, RID_JGL, ofs-32768);
-}
-
-#define emit_getgl(as, r, field) \
-  emit_lsglptr(as, MIPSI_LW, (r), (int32_t)offsetof(global_State, field))
-#define emit_setgl(as, r, field) \
-  emit_lsglptr(as, MIPSI_SW, (r), (int32_t)offsetof(global_State, field))
-
-/* Trace number is determined from per-trace exit stubs. */
-#define emit_setvmstate(as, i)		UNUSED(i)
-
-/* -- Emit control-flow instructions -------------------------------------- */
-
-/* Label for internal jumps. */
-typedef MCode *MCLabel;
-
-/* Return label pointing to current PC. */
-#define emit_label(as)		((as)->mcp)
-
-static void emit_branch(ASMState *as, MIPSIns mi, Reg rs, Reg rt, MCode *target)
-{
-  MCode *p = as->mcp;
-  ptrdiff_t delta = target - p;
-  lua_assert(((delta + 0x8000) >> 16) == 0);
-  *--p = mi | MIPSF_S(rs) | MIPSF_T(rt) | ((uint32_t)delta & 0xffffu);
-  as->mcp = p;
-}
-
-static void emit_jmp(ASMState *as, MCode *target)
-{
-  *--as->mcp = MIPSI_NOP;
-  emit_branch(as, MIPSI_B, RID_ZERO, RID_ZERO, (target));
-}
-
-static void emit_call(ASMState *as, void *target)
-{
-  MCode *p = as->mcp;
-  *--p = MIPSI_NOP;
-  if ((((uintptr_t)target ^ (uintptr_t)p) >> 28) == 0)
-    *--p = MIPSI_JAL | (((uintptr_t)target >>2) & 0x03ffffffu);
-  else  /* Target out of range: need indirect call. */
-    *--p = MIPSI_JALR | MIPSF_S(RID_CFUNCADDR);
-  as->mcp = p;
-  ra_allockreg(as, i32ptr(target), RID_CFUNCADDR);
-}
-
-/* -- Emit generic operations --------------------------------------------- */
-
-#define emit_move(as, dst, src) \
-  emit_ds(as, MIPSI_MOVE, (dst), (src))
-
-/* Generic move between two regs. */
-static void emit_movrr(ASMState *as, IRIns *ir, Reg dst, Reg src)
-{
-  if (dst < RID_MAX_GPR)
-    emit_move(as, dst, src);
-  else
-    emit_fg(as, irt_isnum(ir->t) ? MIPSI_MOV_D : MIPSI_MOV_S, dst, src);
-}
-
-/* Generic load of register from stack slot. */
-static void emit_spload(ASMState *as, IRIns *ir, Reg r, int32_t ofs)
-{
-  if (r < RID_MAX_GPR)
-    emit_tsi(as, MIPSI_LW, r, RID_SP, ofs);
-  else
-    emit_tsi(as, irt_isnum(ir->t) ? MIPSI_LDC1 : MIPSI_LWC1,
-	     (r & 31), RID_SP, ofs);
-}
-
-/* Generic store of register to stack slot. */
-static void emit_spstore(ASMState *as, IRIns *ir, Reg r, int32_t ofs)
-{
-  if (r < RID_MAX_GPR)
-    emit_tsi(as, MIPSI_SW, r, RID_SP, ofs);
-  else
-    emit_tsi(as, irt_isnum(ir->t) ? MIPSI_SDC1 : MIPSI_SWC1,
-	     (r&31), RID_SP, ofs);
-}
-
-/* Add offset to pointer. */
-static void emit_addptr(ASMState *as, Reg r, int32_t ofs)
-{
-  if (ofs) {
-    lua_assert(checki16(ofs));
-    emit_tsi(as, MIPSI_ADDIU, r, r, ofs);
-  }
-}
-
-#define emit_spsub(as, ofs)	emit_addptr(as, RID_SP, -(ofs))
-
diff --git a/luajit-2.0/src/lj_emit_ppc.h b/luajit-2.0/src/lj_emit_ppc.h
deleted file mode 100644
index 3a2ae38..0000000
--- a/luajit-2.0/src/lj_emit_ppc.h
+++ /dev/null
@@ -1,238 +0,0 @@
-/*
-** PPC instruction emitter.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-/* -- Emit basic instructions --------------------------------------------- */
-
-static void emit_tab(ASMState *as, PPCIns pi, Reg rt, Reg ra, Reg rb)
-{
-  *--as->mcp = pi | PPCF_T(rt) | PPCF_A(ra) | PPCF_B(rb);
-}
-
-#define emit_asb(as, pi, ra, rs, rb)	emit_tab(as, (pi), (rs), (ra), (rb))
-#define emit_as(as, pi, ra, rs)		emit_tab(as, (pi), (rs), (ra), 0)
-#define emit_ab(as, pi, ra, rb)		emit_tab(as, (pi), 0, (ra), (rb))
-
-static void emit_tai(ASMState *as, PPCIns pi, Reg rt, Reg ra, int32_t i)
-{
-  *--as->mcp = pi | PPCF_T(rt) | PPCF_A(ra) | (i & 0xffff);
-}
-
-#define emit_ti(as, pi, rt, i)		emit_tai(as, (pi), (rt), 0, (i))
-#define emit_ai(as, pi, ra, i)		emit_tai(as, (pi), 0, (ra), (i))
-#define emit_asi(as, pi, ra, rs, i)	emit_tai(as, (pi), (rs), (ra), (i))
-
-#define emit_fab(as, pi, rf, ra, rb) \
-  emit_tab(as, (pi), (rf)&31, (ra)&31, (rb)&31)
-#define emit_fb(as, pi, rf, rb)		emit_tab(as, (pi), (rf)&31, 0, (rb)&31)
-#define emit_fac(as, pi, rf, ra, rc) \
-  emit_tab(as, (pi) | PPCF_C((rc) & 31), (rf)&31, (ra)&31, 0)
-#define emit_facb(as, pi, rf, ra, rc, rb) \
-  emit_tab(as, (pi) | PPCF_C((rc) & 31), (rf)&31, (ra)&31, (rb)&31)
-#define emit_fai(as, pi, rf, ra, i)	emit_tai(as, (pi), (rf)&31, (ra), (i))
-
-static void emit_rot(ASMState *as, PPCIns pi, Reg ra, Reg rs,
-		     int32_t n, int32_t b, int32_t e)
-{
-  *--as->mcp = pi | PPCF_T(rs) | PPCF_A(ra) | PPCF_B(n) |
-	       PPCF_MB(b) | PPCF_ME(e);
-}
-
-static void emit_slwi(ASMState *as, Reg ra, Reg rs, int32_t n)
-{
-  lua_assert(n >= 0 && n < 32);
-  emit_rot(as, PPCI_RLWINM, ra, rs, n, 0, 31-n);
-}
-
-static void emit_rotlwi(ASMState *as, Reg ra, Reg rs, int32_t n)
-{
-  lua_assert(n >= 0 && n < 32);
-  emit_rot(as, PPCI_RLWINM, ra, rs, n, 0, 31);
-}
-
-/* -- Emit loads/stores --------------------------------------------------- */
-
-/* Prefer rematerialization of BASE/L from global_State over spills. */
-#define emit_canremat(ref)	((ref) <= REF_BASE)
-
-/* Try to find a one step delta relative to another constant. */
-static int emit_kdelta1(ASMState *as, Reg t, int32_t i)
-{
-  RegSet work = ~as->freeset & RSET_GPR;
-  while (work) {
-    Reg r = rset_picktop(work);
-    IRRef ref = regcost_ref(as->cost[r]);
-    lua_assert(r != t);
-    if (ref < ASMREF_L) {
-      int32_t delta = i - (ra_iskref(ref) ? ra_krefk(as, ref) : IR(ref)->i);
-      if (checki16(delta)) {
-	emit_tai(as, PPCI_ADDI, t, r, delta);
-	return 1;
-      }
-    }
-    rset_clear(work, r);
-  }
-  return 0;  /* Failed. */
-}
-
-/* Load a 32 bit constant into a GPR. */
-static void emit_loadi(ASMState *as, Reg r, int32_t i)
-{
-  if (checki16(i)) {
-    emit_ti(as, PPCI_LI, r, i);
-  } else {
-    if ((i & 0xffff)) {
-      int32_t jgl = i32ptr(J2G(as->J));
-      if ((uint32_t)(i-jgl) < 65536) {
-	emit_tai(as, PPCI_ADDI, r, RID_JGL, i-jgl-32768);
-	return;
-      } else if (emit_kdelta1(as, r, i)) {
-	return;
-      }
-      emit_asi(as, PPCI_ORI, r, r, i);
-    }
-    emit_ti(as, PPCI_LIS, r, (i >> 16));
-  }
-}
-
-#define emit_loada(as, r, addr)		emit_loadi(as, (r), i32ptr((addr)))
-
-static Reg ra_allock(ASMState *as, int32_t k, RegSet allow);
-
-/* Get/set from constant pointer. */
-static void emit_lsptr(ASMState *as, PPCIns pi, Reg r, void *p, RegSet allow)
-{
-  int32_t jgl = i32ptr(J2G(as->J));
-  int32_t i = i32ptr(p);
-  Reg base;
-  if ((uint32_t)(i-jgl) < 65536) {
-    i = i-jgl-32768;
-    base = RID_JGL;
-  } else {
-    base = ra_allock(as, i-(int16_t)i, allow);
-  }
-  emit_tai(as, pi, r, base, i);
-}
-
-#define emit_loadn(as, r, tv) \
-  emit_lsptr(as, PPCI_LFD, ((r) & 31), (void *)(tv), RSET_GPR)
-
-/* Get/set global_State fields. */
-static void emit_lsglptr(ASMState *as, PPCIns pi, Reg r, int32_t ofs)
-{
-  emit_tai(as, pi, r, RID_JGL, ofs-32768);
-}
-
-#define emit_getgl(as, r, field) \
-  emit_lsglptr(as, PPCI_LWZ, (r), (int32_t)offsetof(global_State, field))
-#define emit_setgl(as, r, field) \
-  emit_lsglptr(as, PPCI_STW, (r), (int32_t)offsetof(global_State, field))
-
-/* Trace number is determined from per-trace exit stubs. */
-#define emit_setvmstate(as, i)		UNUSED(i)
-
-/* -- Emit control-flow instructions -------------------------------------- */
-
-/* Label for internal jumps. */
-typedef MCode *MCLabel;
-
-/* Return label pointing to current PC. */
-#define emit_label(as)		((as)->mcp)
-
-static void emit_condbranch(ASMState *as, PPCIns pi, PPCCC cc, MCode *target)
-{
-  MCode *p = --as->mcp;
-  ptrdiff_t delta = (char *)target - (char *)p;
-  lua_assert(((delta + 0x8000) >> 16) == 0);
-  pi ^= (delta & 0x8000) * (PPCF_Y/0x8000);
-  *p = pi | PPCF_CC(cc) | ((uint32_t)delta & 0xffffu);
-}
-
-static void emit_jmp(ASMState *as, MCode *target)
-{
-  MCode *p = --as->mcp;
-  ptrdiff_t delta = (char *)target - (char *)p;
-  *p = PPCI_B | (delta & 0x03fffffcu);
-}
-
-static void emit_call(ASMState *as, void *target)
-{
-  MCode *p = --as->mcp;
-  ptrdiff_t delta = (char *)target - (char *)p;
-  if ((((delta>>2) + 0x00800000) >> 24) == 0) {
-    *p = PPCI_BL | (delta & 0x03fffffcu);
-  } else {  /* Target out of range: need indirect call. Don't use arg reg. */
-    RegSet allow = RSET_GPR & ~RSET_RANGE(RID_R0, REGARG_LASTGPR+1);
-    Reg r = ra_allock(as, i32ptr(target), allow);
-    *p = PPCI_BCTRL;
-    p[-1] = PPCI_MTCTR | PPCF_T(r);
-    as->mcp = p-1;
-  }
-}
-
-/* -- Emit generic operations --------------------------------------------- */
-
-#define emit_mr(as, dst, src) \
-  emit_asb(as, PPCI_MR, (dst), (src), (src))
-
-/* Generic move between two regs. */
-static void emit_movrr(ASMState *as, IRIns *ir, Reg dst, Reg src)
-{
-  UNUSED(ir);
-  if (dst < RID_MAX_GPR)
-    emit_mr(as, dst, src);
-  else
-    emit_fb(as, PPCI_FMR, dst, src);
-}
-
-/* Generic load of register from stack slot. */
-static void emit_spload(ASMState *as, IRIns *ir, Reg r, int32_t ofs)
-{
-  if (r < RID_MAX_GPR)
-    emit_tai(as, PPCI_LWZ, r, RID_SP, ofs);
-  else
-    emit_fai(as, irt_isnum(ir->t) ? PPCI_LFD : PPCI_LFS, r, RID_SP, ofs);
-}
-
-/* Generic store of register to stack slot. */
-static void emit_spstore(ASMState *as, IRIns *ir, Reg r, int32_t ofs)
-{
-  if (r < RID_MAX_GPR)
-    emit_tai(as, PPCI_STW, r, RID_SP, ofs);
-  else
-    emit_fai(as, irt_isnum(ir->t) ? PPCI_STFD : PPCI_STFS, r, RID_SP, ofs);
-}
-
-/* Emit a compare (for equality) with a constant operand. */
-static void emit_cmpi(ASMState *as, Reg r, int32_t k)
-{
-  if (checki16(k)) {
-    emit_ai(as, PPCI_CMPWI, r, k);
-  } else if (checku16(k)) {
-    emit_ai(as, PPCI_CMPLWI, r, k);
-  } else {
-    emit_ai(as, PPCI_CMPLWI, RID_TMP, k);
-    emit_asi(as, PPCI_XORIS, RID_TMP, r, (k >> 16));
-  }
-}
-
-/* Add offset to pointer. */
-static void emit_addptr(ASMState *as, Reg r, int32_t ofs)
-{
-  if (ofs) {
-    emit_tai(as, PPCI_ADDI, r, r, ofs);
-    if (!checki16(ofs))
-      emit_tai(as, PPCI_ADDIS, r, r, (ofs + 32768) >> 16);
-  }
-}
-
-static void emit_spsub(ASMState *as, int32_t ofs)
-{
-  if (ofs) {
-    emit_tai(as, PPCI_STWU, RID_TMP, RID_SP, -ofs);
-    emit_tai(as, PPCI_ADDI, RID_TMP, RID_SP,
-	     CFRAME_SIZE + (as->parent ? as->parent->spadjust : 0));
-  }
-}
-
diff --git a/luajit-2.0/src/lj_emit_x86.h b/luajit-2.0/src/lj_emit_x86.h
deleted file mode 100644
index 8cfb654..0000000
--- a/luajit-2.0/src/lj_emit_x86.h
+++ /dev/null
@@ -1,466 +0,0 @@
-/*
-** x86/x64 instruction emitter.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-/* -- Emit basic instructions --------------------------------------------- */
-
-#define MODRM(mode, r1, r2)	((MCode)((mode)+(((r1)&7)<<3)+((r2)&7)))
-
-#if LJ_64
-#define REXRB(p, rr, rb) \
-    { MCode rex = 0x40 + (((rr)>>1)&4) + (((rb)>>3)&1); \
-      if (rex != 0x40) *--(p) = rex; }
-#define FORCE_REX		0x200
-#define REX_64			(FORCE_REX|0x080000)
-#else
-#define REXRB(p, rr, rb)	((void)0)
-#define FORCE_REX		0
-#define REX_64			0
-#endif
-
-#define emit_i8(as, i)		(*--as->mcp = (MCode)(i))
-#define emit_i32(as, i)		(*(int32_t *)(as->mcp-4) = (i), as->mcp -= 4)
-#define emit_u32(as, u)		(*(uint32_t *)(as->mcp-4) = (u), as->mcp -= 4)
-
-#define emit_x87op(as, xo) \
-  (*(uint16_t *)(as->mcp-2) = (uint16_t)(xo), as->mcp -= 2)
-
-/* op */
-static LJ_AINLINE MCode *emit_op(x86Op xo, Reg rr, Reg rb, Reg rx,
-				 MCode *p, int delta)
-{
-  int n = (int8_t)xo;
-#if defined(__GNUC__)
-  if (__builtin_constant_p(xo) && n == -2)
-    p[delta-2] = (MCode)(xo >> 24);
-  else if (__builtin_constant_p(xo) && n == -3)
-    *(uint16_t *)(p+delta-3) = (uint16_t)(xo >> 16);
-  else
-#endif
-    *(uint32_t *)(p+delta-5) = (uint32_t)xo;
-  p += n + delta;
-#if LJ_64
-  {
-    uint32_t rex = 0x40 + ((rr>>1)&(4+(FORCE_REX>>1)))+((rx>>2)&2)+((rb>>3)&1);
-    if (rex != 0x40) {
-      rex |= (rr >> 16);
-      if (n == -4) { *p = (MCode)rex; rex = (MCode)(xo >> 8); }
-      else if ((xo & 0xffffff) == 0x6600fd) { *p = (MCode)rex; rex = 0x66; }
-      *--p = (MCode)rex;
-    }
-  }
-#else
-  UNUSED(rr); UNUSED(rb); UNUSED(rx);
-#endif
-  return p;
-}
-
-/* op + modrm */
-#define emit_opm(xo, mode, rr, rb, p, delta) \
-  (p[(delta)-1] = MODRM((mode), (rr), (rb)), \
-   emit_op((xo), (rr), (rb), 0, (p), (delta)))
-
-/* op + modrm + sib */
-#define emit_opmx(xo, mode, scale, rr, rb, rx, p) \
-  (p[-1] = MODRM((scale), (rx), (rb)), \
-   p[-2] = MODRM((mode), (rr), RID_ESP), \
-   emit_op((xo), (rr), (rb), (rx), (p), -1))
-
-/* op r1, r2 */
-static void emit_rr(ASMState *as, x86Op xo, Reg r1, Reg r2)
-{
-  MCode *p = as->mcp;
-  as->mcp = emit_opm(xo, XM_REG, r1, r2, p, 0);
-}
-
-#if LJ_64 && defined(LUA_USE_ASSERT)
-/* [addr] is sign-extended in x64 and must be in lower 2G (not 4G). */
-static int32_t ptr2addr(const void *p)
-{
-  lua_assert((uintptr_t)p < (uintptr_t)0x80000000);
-  return i32ptr(p);
-}
-#else
-#define ptr2addr(p)	(i32ptr((p)))
-#endif
-
-/* op r, [addr] */
-static void emit_rma(ASMState *as, x86Op xo, Reg rr, const void *addr)
-{
-  MCode *p = as->mcp;
-  *(int32_t *)(p-4) = ptr2addr(addr);
-#if LJ_64
-  p[-5] = MODRM(XM_SCALE1, RID_ESP, RID_EBP);
-  as->mcp = emit_opm(xo, XM_OFS0, rr, RID_ESP, p, -5);
-#else
-  as->mcp = emit_opm(xo, XM_OFS0, rr, RID_EBP, p, -4);
-#endif
-}
-
-/* op r, [base+ofs] */
-static void emit_rmro(ASMState *as, x86Op xo, Reg rr, Reg rb, int32_t ofs)
-{
-  MCode *p = as->mcp;
-  x86Mode mode;
-  if (ra_hasreg(rb)) {
-    if (ofs == 0 && (rb&7) != RID_EBP) {
-      mode = XM_OFS0;
-    } else if (checki8(ofs)) {
-      *--p = (MCode)ofs;
-      mode = XM_OFS8;
-    } else {
-      p -= 4;
-      *(int32_t *)p = ofs;
-      mode = XM_OFS32;
-    }
-    if ((rb&7) == RID_ESP)
-      *--p = MODRM(XM_SCALE1, RID_ESP, RID_ESP);
-  } else {
-    *(int32_t *)(p-4) = ofs;
-#if LJ_64
-    p[-5] = MODRM(XM_SCALE1, RID_ESP, RID_EBP);
-    p -= 5;
-    rb = RID_ESP;
-#else
-    p -= 4;
-    rb = RID_EBP;
-#endif
-    mode = XM_OFS0;
-  }
-  as->mcp = emit_opm(xo, mode, rr, rb, p, 0);
-}
-
-/* op r, [base+idx*scale+ofs] */
-static void emit_rmrxo(ASMState *as, x86Op xo, Reg rr, Reg rb, Reg rx,
-		       x86Mode scale, int32_t ofs)
-{
-  MCode *p = as->mcp;
-  x86Mode mode;
-  if (ofs == 0 && (rb&7) != RID_EBP) {
-    mode = XM_OFS0;
-  } else if (checki8(ofs)) {
-    mode = XM_OFS8;
-    *--p = (MCode)ofs;
-  } else {
-    mode = XM_OFS32;
-    p -= 4;
-    *(int32_t *)p = ofs;
-  }
-  as->mcp = emit_opmx(xo, mode, scale, rr, rb, rx, p);
-}
-
-/* op r, i */
-static void emit_gri(ASMState *as, x86Group xg, Reg rb, int32_t i)
-{
-  MCode *p = as->mcp;
-  x86Op xo;
-  if (checki8(i)) {
-    *--p = (MCode)i;
-    xo = XG_TOXOi8(xg);
-  } else {
-    p -= 4;
-    *(int32_t *)p = i;
-    xo = XG_TOXOi(xg);
-  }
-  as->mcp = emit_opm(xo, XM_REG, (Reg)(xg & 7) | (rb & REX_64), rb, p, 0);
-}
-
-/* op [base+ofs], i */
-static void emit_gmroi(ASMState *as, x86Group xg, Reg rb, int32_t ofs,
-		       int32_t i)
-{
-  x86Op xo;
-  if (checki8(i)) {
-    emit_i8(as, i);
-    xo = XG_TOXOi8(xg);
-  } else {
-    emit_i32(as, i);
-    xo = XG_TOXOi(xg);
-  }
-  emit_rmro(as, xo, (Reg)(xg & 7), rb, ofs);
-}
-
-#define emit_shifti(as, xg, r, i) \
-  (emit_i8(as, (i)), emit_rr(as, XO_SHIFTi, (Reg)(xg), (r)))
-
-/* op r, rm/mrm */
-static void emit_mrm(ASMState *as, x86Op xo, Reg rr, Reg rb)
-{
-  MCode *p = as->mcp;
-  x86Mode mode = XM_REG;
-  if (rb == RID_MRM) {
-    rb = as->mrm.base;
-    if (rb == RID_NONE) {
-      rb = RID_EBP;
-      mode = XM_OFS0;
-      p -= 4;
-      *(int32_t *)p = as->mrm.ofs;
-      if (as->mrm.idx != RID_NONE)
-	goto mrmidx;
-#if LJ_64
-      *--p = MODRM(XM_SCALE1, RID_ESP, RID_EBP);
-      rb = RID_ESP;
-#endif
-    } else {
-      if (as->mrm.ofs == 0 && (rb&7) != RID_EBP) {
-	mode = XM_OFS0;
-      } else if (checki8(as->mrm.ofs)) {
-	*--p = (MCode)as->mrm.ofs;
-	mode = XM_OFS8;
-      } else {
-	p -= 4;
-	*(int32_t *)p = as->mrm.ofs;
-	mode = XM_OFS32;
-      }
-      if (as->mrm.idx != RID_NONE) {
-      mrmidx:
-	as->mcp = emit_opmx(xo, mode, as->mrm.scale, rr, rb, as->mrm.idx, p);
-	return;
-      }
-      if ((rb&7) == RID_ESP)
-	*--p = MODRM(XM_SCALE1, RID_ESP, RID_ESP);
-    }
-  }
-  as->mcp = emit_opm(xo, mode, rr, rb, p, 0);
-}
-
-/* op rm/mrm, i */
-static void emit_gmrmi(ASMState *as, x86Group xg, Reg rb, int32_t i)
-{
-  x86Op xo;
-  if (checki8(i)) {
-    emit_i8(as, i);
-    xo = XG_TOXOi8(xg);
-  } else {
-    emit_i32(as, i);
-    xo = XG_TOXOi(xg);
-  }
-  emit_mrm(as, xo, (Reg)(xg & 7) | (rb & REX_64), (rb & ~REX_64));
-}
-
-/* -- Emit loads/stores --------------------------------------------------- */
-
-/* Instruction selection for XMM moves. */
-#define XMM_MOVRR(as)	((as->flags & JIT_F_SPLIT_XMM) ? XO_MOVSD : XO_MOVAPS)
-#define XMM_MOVRM(as)	((as->flags & JIT_F_SPLIT_XMM) ? XO_MOVLPD : XO_MOVSD)
-
-/* mov [base+ofs], i */
-static void emit_movmroi(ASMState *as, Reg base, int32_t ofs, int32_t i)
-{
-  emit_i32(as, i);
-  emit_rmro(as, XO_MOVmi, 0, base, ofs);
-}
-
-/* mov [base+ofs], r */
-#define emit_movtomro(as, r, base, ofs) \
-  emit_rmro(as, XO_MOVto, (r), (base), (ofs))
-
-/* Get/set global_State fields. */
-#define emit_opgl(as, xo, r, field) \
-  emit_rma(as, (xo), (r), (void *)&J2G(as->J)->field)
-#define emit_getgl(as, r, field)	emit_opgl(as, XO_MOV, (r), field)
-#define emit_setgl(as, r, field)	emit_opgl(as, XO_MOVto, (r), field)
-
-#define emit_setvmstate(as, i) \
-  (emit_i32(as, i), emit_opgl(as, XO_MOVmi, 0, vmstate))
-
-/* mov r, i / xor r, r */
-static void emit_loadi(ASMState *as, Reg r, int32_t i)
-{
-  /* XOR r,r is shorter, but modifies the flags. This is bad for HIOP. */
-  if (i == 0 && !(LJ_32 && (IR(as->curins)->o == IR_HIOP ||
-			    (as->curins+1 < as->T->nins &&
-			     IR(as->curins+1)->o == IR_HIOP)))) {
-    emit_rr(as, XO_ARITH(XOg_XOR), r, r);
-  } else {
-    MCode *p = as->mcp;
-    *(int32_t *)(p-4) = i;
-    p[-5] = (MCode)(XI_MOVri+(r&7));
-    p -= 5;
-    REXRB(p, 0, r);
-    as->mcp = p;
-  }
-}
-
-/* mov r, addr */
-#define emit_loada(as, r, addr) \
-  emit_loadi(as, (r), ptr2addr((addr)))
-
-#if LJ_64
-/* mov r, imm64 or shorter 32 bit extended load. */
-static void emit_loadu64(ASMState *as, Reg r, uint64_t u64)
-{
-  if (checku32(u64)) {  /* 32 bit load clears upper 32 bits. */
-    emit_loadi(as, r, (int32_t)u64);
-  } else if (checki32((int64_t)u64)) {  /* Sign-extended 32 bit load. */
-    MCode *p = as->mcp;
-    *(int32_t *)(p-4) = (int32_t)u64;
-    as->mcp = emit_opm(XO_MOVmi, XM_REG, REX_64, r, p, -4);
-  } else {  /* Full-size 64 bit load. */
-    MCode *p = as->mcp;
-    *(uint64_t *)(p-8) = u64;
-    p[-9] = (MCode)(XI_MOVri+(r&7));
-    p[-10] = 0x48 + ((r>>3)&1);
-    p -= 10;
-    as->mcp = p;
-  }
-}
-#endif
-
-/* movsd r, [&tv->n] / xorps r, r */
-static void emit_loadn(ASMState *as, Reg r, cTValue *tv)
-{
-  if (tvispzero(tv))  /* Use xor only for +0. */
-    emit_rr(as, XO_XORPS, r, r);
-  else
-    emit_rma(as, XMM_MOVRM(as), r, &tv->n);
-}
-
-/* -- Emit control-flow instructions -------------------------------------- */
-
-/* Label for short jumps. */
-typedef MCode *MCLabel;
-
-#if LJ_32 && LJ_HASFFI
-/* jmp short target */
-static void emit_sjmp(ASMState *as, MCLabel target)
-{
-  MCode *p = as->mcp;
-  ptrdiff_t delta = target - p;
-  lua_assert(delta == (int8_t)delta);
-  p[-1] = (MCode)(int8_t)delta;
-  p[-2] = XI_JMPs;
-  as->mcp = p - 2;
-}
-#endif
-
-/* jcc short target */
-static void emit_sjcc(ASMState *as, int cc, MCLabel target)
-{
-  MCode *p = as->mcp;
-  ptrdiff_t delta = target - p;
-  lua_assert(delta == (int8_t)delta);
-  p[-1] = (MCode)(int8_t)delta;
-  p[-2] = (MCode)(XI_JCCs+(cc&15));
-  as->mcp = p - 2;
-}
-
-/* jcc short (pending target) */
-static MCLabel emit_sjcc_label(ASMState *as, int cc)
-{
-  MCode *p = as->mcp;
-  p[-1] = 0;
-  p[-2] = (MCode)(XI_JCCs+(cc&15));
-  as->mcp = p - 2;
-  return p;
-}
-
-/* Fixup jcc short target. */
-static void emit_sfixup(ASMState *as, MCLabel source)
-{
-  source[-1] = (MCode)(as->mcp-source);
-}
-
-/* Return label pointing to current PC. */
-#define emit_label(as)		((as)->mcp)
-
-/* Compute relative 32 bit offset for jump and call instructions. */
-static LJ_AINLINE int32_t jmprel(MCode *p, MCode *target)
-{
-  ptrdiff_t delta = target - p;
-  lua_assert(delta == (int32_t)delta);
-  return (int32_t)delta;
-}
-
-/* jcc target */
-static void emit_jcc(ASMState *as, int cc, MCode *target)
-{
-  MCode *p = as->mcp;
-  *(int32_t *)(p-4) = jmprel(p, target);
-  p[-5] = (MCode)(XI_JCCn+(cc&15));
-  p[-6] = 0x0f;
-  as->mcp = p - 6;
-}
-
-/* jmp target */
-static void emit_jmp(ASMState *as, MCode *target)
-{
-  MCode *p = as->mcp;
-  *(int32_t *)(p-4) = jmprel(p, target);
-  p[-5] = XI_JMP;
-  as->mcp = p - 5;
-}
-
-/* call target */
-static void emit_call_(ASMState *as, MCode *target)
-{
-  MCode *p = as->mcp;
-#if LJ_64
-  if (target-p != (int32_t)(target-p)) {
-    /* Assumes RID_RET is never an argument to calls and always clobbered. */
-    emit_rr(as, XO_GROUP5, XOg_CALL, RID_RET);
-    emit_loadu64(as, RID_RET, (uint64_t)target);
-    return;
-  }
-#endif
-  *(int32_t *)(p-4) = jmprel(p, target);
-  p[-5] = XI_CALL;
-  as->mcp = p - 5;
-}
-
-#define emit_call(as, f)	emit_call_(as, (MCode *)(void *)(f))
-
-/* -- Emit generic operations --------------------------------------------- */
-
-/* Use 64 bit operations to handle 64 bit IR types. */
-#if LJ_64
-#define REX_64IR(ir, r)		((r) + (irt_is64((ir)->t) ? REX_64 : 0))
-#else
-#define REX_64IR(ir, r)		(r)
-#endif
-
-/* Generic move between two regs. */
-static void emit_movrr(ASMState *as, IRIns *ir, Reg dst, Reg src)
-{
-  UNUSED(ir);
-  if (dst < RID_MAX_GPR)
-    emit_rr(as, XO_MOV, REX_64IR(ir, dst), src);
-  else
-    emit_rr(as, XMM_MOVRR(as), dst, src);
-}
-
-/* Generic load of register from stack slot. */
-static void emit_spload(ASMState *as, IRIns *ir, Reg r, int32_t ofs)
-{
-  if (r < RID_MAX_GPR)
-    emit_rmro(as, XO_MOV, REX_64IR(ir, r), RID_ESP, ofs);
-  else
-    emit_rmro(as, irt_isnum(ir->t) ? XMM_MOVRM(as) : XO_MOVSS, r, RID_ESP, ofs);
-}
-
-/* Generic store of register to stack slot. */
-static void emit_spstore(ASMState *as, IRIns *ir, Reg r, int32_t ofs)
-{
-  if (r < RID_MAX_GPR)
-    emit_rmro(as, XO_MOVto, REX_64IR(ir, r), RID_ESP, ofs);
-  else
-    emit_rmro(as, irt_isnum(ir->t) ? XO_MOVSDto : XO_MOVSSto, r, RID_ESP, ofs);
-}
-
-/* Add offset to pointer. */
-static void emit_addptr(ASMState *as, Reg r, int32_t ofs)
-{
-  if (ofs) {
-    if ((as->flags & JIT_F_LEA_AGU))
-      emit_rmro(as, XO_LEA, r, r, ofs);
-    else
-      emit_gri(as, XG_ARITHi(XOg_ADD), r, ofs);
-  }
-}
-
-#define emit_spsub(as, ofs)	emit_addptr(as, RID_ESP|REX_64, -(ofs))
-
-/* Prefer rematerialization of BASE/L from global_State over spills. */
-#define emit_canremat(ref)	((ref) <= REF_BASE)
-
diff --git a/luajit-2.0/src/lj_err.c b/luajit-2.0/src/lj_err.c
deleted file mode 100644
index 3097795..0000000
--- a/luajit-2.0/src/lj_err.c
+++ /dev/null
@@ -1,787 +0,0 @@
-/*
-** Error handling.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#define lj_err_c
-#define LUA_CORE
-
-#include "lj_obj.h"
-#include "lj_err.h"
-#include "lj_debug.h"
-#include "lj_str.h"
-#include "lj_func.h"
-#include "lj_state.h"
-#include "lj_frame.h"
-#include "lj_ff.h"
-#include "lj_trace.h"
-#include "lj_vm.h"
-
-/*
-** LuaJIT can either use internal or external frame unwinding:
-**
-** - Internal frame unwinding (INT) is free-standing and doesn't require
-**   any OS or library support.
-**
-** - External frame unwinding (EXT) uses the system-provided unwind handler.
-**
-** Pros and Cons:
-**
-** - EXT requires unwind tables for *all* functions on the C stack between
-**   the pcall/catch and the error/throw. This is the default on x64,
-**   but needs to be manually enabled on x86/PPC for non-C++ code.
-**
-** - INT is faster when actually throwing errors (but this happens rarely).
-**   Setting up error handlers is zero-cost in any case.
-**
-** - EXT provides full interoperability with C++ exceptions. You can throw
-**   Lua errors or C++ exceptions through a mix of Lua frames and C++ frames.
-**   C++ destructors are called as needed. C++ exceptions caught by pcall
-**   are converted to the string "C++ exception". Lua errors can be caught
-**   with catch (...) in C++.
-**
-** - INT has only limited support for automatically catching C++ exceptions
-**   on POSIX systems using DWARF2 stack unwinding. Other systems may use
-**   the wrapper function feature. Lua errors thrown through C++ frames
-**   cannot be caught by C++ code and C++ destructors are not run.
-**
-** EXT is the default on x64 systems, INT is the default on all other systems.
-**
-** EXT can be manually enabled on POSIX systems using GCC and DWARF2 stack
-** unwinding with -DLUAJIT_UNWIND_EXTERNAL. *All* C code must be compiled
-** with -funwind-tables (or -fexceptions). This includes LuaJIT itself (set
-** TARGET_CFLAGS), all of your C/Lua binding code, all loadable C modules
-** and all C libraries that have callbacks which may be used to call back
-** into Lua. C++ code must *not* be compiled with -fno-exceptions.
-**
-** EXT cannot be enabled on WIN32 since system exceptions use code-driven SEH.
-** EXT is mandatory on WIN64 since the calling convention has an abundance
-** of callee-saved registers (rbx, rbp, rsi, rdi, r12-r15, xmm6-xmm15).
-** EXT is mandatory on POSIX/x64 since the interpreter doesn't save r12/r13.
-*/
-
-#if defined(__GNUC__) && (LJ_TARGET_X64 || defined(LUAJIT_UNWIND_EXTERNAL))
-#define LJ_UNWIND_EXT	1
-#elif LJ_TARGET_X64 && LJ_TARGET_WINDOWS
-#define LJ_UNWIND_EXT	1
-#endif
-
-/* -- Error messages ------------------------------------------------------ */
-
-/* Error message strings. */
-LJ_DATADEF const char *lj_err_allmsg =
-#define ERRDEF(name, msg)	msg "\0"
-#include "lj_errmsg.h"
-;
-
-/* -- Internal frame unwinding -------------------------------------------- */
-
-/* Unwind Lua stack and move error message to new top. */
-LJ_NOINLINE static void unwindstack(lua_State *L, TValue *top)
-{
-  lj_func_closeuv(L, top);
-  if (top < L->top-1) {
-    copyTV(L, top, L->top-1);
-    L->top = top+1;
-  }
-  lj_state_relimitstack(L);
-}
-
-/* Unwind until stop frame. Optionally cleanup frames. */
-static void *err_unwind(lua_State *L, void *stopcf, int errcode)
-{
-  TValue *frame = L->base-1;
-  void *cf = L->cframe;
-  while (cf) {
-    int32_t nres = cframe_nres(cframe_raw(cf));
-    if (nres < 0) {  /* C frame without Lua frame? */
-      TValue *top = restorestack(L, -nres);
-      if (frame < top) {  /* Frame reached? */
-	if (errcode) {
-	  L->cframe = cframe_prev(cf);
-	  L->base = frame+1;
-	  unwindstack(L, top);
-	}
-	return cf;
-      }
-    }
-    if (frame <= tvref(L->stack))
-      break;
-    switch (frame_typep(frame)) {
-    case FRAME_LUA:  /* Lua frame. */
-    case FRAME_LUAP:
-      frame = frame_prevl(frame);
-      break;
-    case FRAME_C:  /* C frame. */
-#if LJ_HASFFI
-    unwind_c:
-#endif
-#if LJ_UNWIND_EXT
-      if (errcode) {
-	L->cframe = cframe_prev(cf);
-	L->base = frame_prevd(frame) + 1;
-	unwindstack(L, frame);
-      } else if (cf != stopcf) {
-	cf = cframe_prev(cf);
-	frame = frame_prevd(frame);
-	break;
-      }
-      return NULL;  /* Continue unwinding. */
-#else
-      UNUSED(stopcf);
-      cf = cframe_prev(cf);
-      frame = frame_prevd(frame);
-      break;
-#endif
-    case FRAME_CP:  /* Protected C frame. */
-      if (cframe_canyield(cf)) {  /* Resume? */
-	if (errcode) {
-	  hook_leave(G(L));  /* Assumes nobody uses coroutines inside hooks. */
-	  L->cframe = NULL;
-	  L->status = (uint8_t)errcode;
-	}
-	return cf;
-      }
-      if (errcode) {
-	L->cframe = cframe_prev(cf);
-	L->base = frame_prevd(frame) + 1;
-	unwindstack(L, frame);
-      }
-      return cf;
-    case FRAME_CONT:  /* Continuation frame. */
-#if LJ_HASFFI
-      if ((frame-1)->u32.lo == LJ_CONT_FFI_CALLBACK)
-	goto unwind_c;
-#endif
-    case FRAME_VARG:  /* Vararg frame. */
-      frame = frame_prevd(frame);
-      break;
-    case FRAME_PCALL:  /* FF pcall() frame. */
-    case FRAME_PCALLH:  /* FF pcall() frame inside hook. */
-      if (errcode) {
-	if (errcode == LUA_YIELD) {
-	  frame = frame_prevd(frame);
-	  break;
-	}
-	if (frame_typep(frame) == FRAME_PCALL)
-	  hook_leave(G(L));
-	L->cframe = cf;
-	L->base = frame_prevd(frame) + 1;
-	unwindstack(L, L->base);
-      }
-      return (void *)((intptr_t)cf | CFRAME_UNWIND_FF);
-    }
-  }
-  /* No C frame. */
-  if (errcode) {
-    L->cframe = NULL;
-    L->base = tvref(L->stack)+1;
-    unwindstack(L, L->base);
-    if (G(L)->panic)
-      G(L)->panic(L);
-    exit(EXIT_FAILURE);
-  }
-  return L;  /* Anything non-NULL will do. */
-}
-
-/* -- External frame unwinding -------------------------------------------- */
-
-#if defined(__GNUC__) && !LJ_NO_UNWIND && !LJ_TARGET_WINDOWS
-
-/*
-** We have to use our own definitions instead of the mandatory (!) unwind.h,
-** since various OS, distros and compilers mess up the header installation.
-*/
-
-typedef struct _Unwind_Exception
-{
-  uint64_t exclass;
-  void (*excleanup)(int, struct _Unwind_Exception *);
-  uintptr_t p1, p2;
-} __attribute__((__aligned__)) _Unwind_Exception;
-
-typedef struct _Unwind_Context _Unwind_Context;
-
-#define _URC_OK			0
-#define _URC_FATAL_PHASE1_ERROR	3
-#define _URC_HANDLER_FOUND	6
-#define _URC_INSTALL_CONTEXT	7
-#define _URC_CONTINUE_UNWIND	8
-#define _URC_FAILURE		9
-
-#if !LJ_TARGET_ARM
-
-extern uintptr_t _Unwind_GetCFA(_Unwind_Context *);
-extern void _Unwind_SetGR(_Unwind_Context *, int, uintptr_t);
-extern void _Unwind_SetIP(_Unwind_Context *, uintptr_t);
-extern void _Unwind_DeleteException(_Unwind_Exception *);
-extern int _Unwind_RaiseException(_Unwind_Exception *);
-
-#define _UA_SEARCH_PHASE	1
-#define _UA_CLEANUP_PHASE	2
-#define _UA_HANDLER_FRAME	4
-#define _UA_FORCE_UNWIND	8
-
-#define LJ_UEXCLASS		0x4c55414a49543200ULL	/* LUAJIT2\0 */
-#define LJ_UEXCLASS_MAKE(c)	(LJ_UEXCLASS | (uint64_t)(c))
-#define LJ_UEXCLASS_CHECK(cl)	(((cl) ^ LJ_UEXCLASS) <= 0xff)
-#define LJ_UEXCLASS_ERRCODE(cl)	((int)((cl) & 0xff))
-
-/* DWARF2 personality handler referenced from interpreter .eh_frame. */
-LJ_FUNCA int lj_err_unwind_dwarf(int version, int actions,
-  uint64_t uexclass, _Unwind_Exception *uex, _Unwind_Context *ctx)
-{
-  void *cf;
-  lua_State *L;
-  if (version != 1)
-    return _URC_FATAL_PHASE1_ERROR;
-  UNUSED(uexclass);
-  cf = (void *)_Unwind_GetCFA(ctx);
-  L = cframe_L(cf);
-  if ((actions & _UA_SEARCH_PHASE)) {
-#if LJ_UNWIND_EXT
-    if (err_unwind(L, cf, 0) == NULL)
-      return _URC_CONTINUE_UNWIND;
-#endif
-    if (!LJ_UEXCLASS_CHECK(uexclass)) {
-      setstrV(L, L->top++, lj_err_str(L, LJ_ERR_ERRCPP));
-    }
-    return _URC_HANDLER_FOUND;
-  }
-  if ((actions & _UA_CLEANUP_PHASE)) {
-    int errcode;
-    if (LJ_UEXCLASS_CHECK(uexclass)) {
-      errcode = LJ_UEXCLASS_ERRCODE(uexclass);
-    } else {
-      if ((actions & _UA_HANDLER_FRAME))
-	_Unwind_DeleteException(uex);
-      errcode = LUA_ERRRUN;
-    }
-#if LJ_UNWIND_EXT
-    cf = err_unwind(L, cf, errcode);
-    if ((actions & _UA_FORCE_UNWIND)) {
-      return _URC_CONTINUE_UNWIND;
-    } else if (cf) {
-      _Unwind_SetGR(ctx, LJ_TARGET_EHRETREG, errcode);
-      _Unwind_SetIP(ctx, (uintptr_t)(cframe_unwind_ff(cf) ?
-				     lj_vm_unwind_ff_eh :
-				     lj_vm_unwind_c_eh));
-      return _URC_INSTALL_CONTEXT;
-    }
-#if LJ_TARGET_X86ORX64
-    else if ((actions & _UA_HANDLER_FRAME)) {
-      /* Workaround for ancient libgcc bug. Still present in RHEL 5.5. :-/
-      ** Real fix: http://gcc.gnu.org/viewcvs/trunk/gcc/unwind-dw2.c?r1=121165&r2=124837&pathrev=153877&diff_format=h
-      */
-      _Unwind_SetGR(ctx, LJ_TARGET_EHRETREG, errcode);
-      _Unwind_SetIP(ctx, (uintptr_t)lj_vm_unwind_rethrow);
-      return _URC_INSTALL_CONTEXT;
-    }
-#endif
-#else
-    /* This is not the proper way to escape from the unwinder. We get away with
-    ** it on non-x64 because the interpreter restores all callee-saved regs.
-    */
-    lj_err_throw(L, errcode);
-#endif
-  }
-  return _URC_CONTINUE_UNWIND;
-}
-
-#if LJ_UNWIND_EXT
-#if LJ_TARGET_OSX || defined(__OpenBSD__)
-/* Sorry, no thread safety for OSX. Complain to Apple, not me. */
-static _Unwind_Exception static_uex;
-#else
-static __thread _Unwind_Exception static_uex;
-#endif
-
-/* Raise DWARF2 exception. */
-static void err_raise_ext(int errcode)
-{
-  static_uex.exclass = LJ_UEXCLASS_MAKE(errcode);
-  static_uex.excleanup = NULL;
-  _Unwind_RaiseException(&static_uex);
-}
-#endif
-
-#else
-
-extern void _Unwind_DeleteException(void *);
-extern int __gnu_unwind_frame (void *, _Unwind_Context *);
-extern int _Unwind_VRS_Set(_Unwind_Context *, int, uint32_t, int, void *);
-extern int _Unwind_VRS_Get(_Unwind_Context *, int, uint32_t, int, void *);
-
-static inline uint32_t _Unwind_GetGR(_Unwind_Context *ctx, int r)
-{
-  uint32_t v;
-  _Unwind_VRS_Get(ctx, 0, r, 0, &v);
-  return v;
-}
-
-static inline void _Unwind_SetGR(_Unwind_Context *ctx, int r, uint32_t v)
-{
-  _Unwind_VRS_Set(ctx, 0, r, 0, &v);
-}
-
-#define _US_VIRTUAL_UNWIND_FRAME	0
-#define _US_UNWIND_FRAME_STARTING	1
-#define _US_ACTION_MASK			3
-#define _US_FORCE_UNWIND		8
-
-/* ARM unwinder personality handler referenced from interpreter .ARM.extab. */
-LJ_FUNCA int lj_err_unwind_arm(int state, void *ucb, _Unwind_Context *ctx)
-{
-  void *cf = (void *)_Unwind_GetGR(ctx, 13);
-  lua_State *L = cframe_L(cf);
-  if ((state & _US_ACTION_MASK) == _US_VIRTUAL_UNWIND_FRAME) {
-    setstrV(L, L->top++, lj_err_str(L, LJ_ERR_ERRCPP));
-    return _URC_HANDLER_FOUND;
-  }
-  if ((state&(_US_ACTION_MASK|_US_FORCE_UNWIND)) == _US_UNWIND_FRAME_STARTING) {
-    _Unwind_DeleteException(ucb);
-    _Unwind_SetGR(ctx, 15, (uint32_t)(void *)lj_err_throw);
-    _Unwind_SetGR(ctx, 0, (uint32_t)L);
-    _Unwind_SetGR(ctx, 1, (uint32_t)LUA_ERRRUN);
-    return _URC_INSTALL_CONTEXT;
-  }
-  if (__gnu_unwind_frame(ucb, ctx) != _URC_OK)
-    return _URC_FAILURE;
-  return _URC_CONTINUE_UNWIND;
-}
-
-#endif
-
-#elif LJ_TARGET_X64 && LJ_TARGET_WINDOWS
-
-/*
-** Someone in Redmond owes me several days of my life. A lot of this is
-** undocumented or just plain wrong on MSDN. Some of it can be gathered
-** from 3rd party docs or must be found by trial-and-error. They really
-** don't want you to write your own language-specific exception handler
-** or to interact gracefully with MSVC. :-(
-**
-** Apparently MSVC doesn't call C++ destructors for foreign exceptions
-** unless you compile your C++ code with /EHa. Unfortunately this means
-** catch (...) also catches things like access violations. The use of
-** _set_se_translator doesn't really help, because it requires /EHa, too.
-*/
-
-#define WIN32_LEAN_AND_MEAN
-#include <windows.h>
-
-/* Taken from: http://www.nynaeve.net/?p=99 */
-typedef struct UndocumentedDispatcherContext {
-  ULONG64 ControlPc;
-  ULONG64 ImageBase;
-  PRUNTIME_FUNCTION FunctionEntry;
-  ULONG64 EstablisherFrame;
-  ULONG64 TargetIp;
-  PCONTEXT ContextRecord;
-  void (*LanguageHandler)(void);
-  PVOID HandlerData;
-  PUNWIND_HISTORY_TABLE HistoryTable;
-  ULONG ScopeIndex;
-  ULONG Fill0;
-} UndocumentedDispatcherContext;
-
-/* Another wild guess. */
-extern void __DestructExceptionObject(EXCEPTION_RECORD *rec, int nothrow);
-
-#ifdef MINGW_SDK_INIT
-/* Workaround for broken MinGW64 declaration. */
-VOID RtlUnwindEx_FIXED(PVOID,PVOID,PVOID,PVOID,PVOID,PVOID) asm("RtlUnwindEx");
-#define RtlUnwindEx RtlUnwindEx_FIXED
-#endif
-
-#define LJ_MSVC_EXCODE		((DWORD)0xe06d7363)
-#define LJ_GCC_EXCODE		((DWORD)0x20474343)
-
-#define LJ_EXCODE		((DWORD)0xe24c4a00)
-#define LJ_EXCODE_MAKE(c)	(LJ_EXCODE | (DWORD)(c))
-#define LJ_EXCODE_CHECK(cl)	(((cl) ^ LJ_EXCODE) <= 0xff)
-#define LJ_EXCODE_ERRCODE(cl)	((int)((cl) & 0xff))
-
-/* Win64 exception handler for interpreter frame. */
-LJ_FUNCA EXCEPTION_DISPOSITION lj_err_unwind_win64(EXCEPTION_RECORD *rec,
-  void *cf, CONTEXT *ctx, UndocumentedDispatcherContext *dispatch)
-{
-  lua_State *L = cframe_L(cf);
-  int errcode = LJ_EXCODE_CHECK(rec->ExceptionCode) ?
-		LJ_EXCODE_ERRCODE(rec->ExceptionCode) : LUA_ERRRUN;
-  if ((rec->ExceptionFlags & 6)) {  /* EH_UNWINDING|EH_EXIT_UNWIND */
-    /* Unwind internal frames. */
-    err_unwind(L, cf, errcode);
-  } else {
-    void *cf2 = err_unwind(L, cf, 0);
-    if (cf2) {  /* We catch it, so start unwinding the upper frames. */
-      if (rec->ExceptionCode == LJ_MSVC_EXCODE ||
-	  rec->ExceptionCode == LJ_GCC_EXCODE) {
-	__DestructExceptionObject(rec, 1);
-	setstrV(L, L->top++, lj_err_str(L, LJ_ERR_ERRCPP));
-      } else if (!LJ_EXCODE_CHECK(rec->ExceptionCode)) {
-	/* Don't catch access violations etc. */
-	return ExceptionContinueSearch;
-      }
-      /* Unwind the stack and call all handlers for all lower C frames
-      ** (including ourselves) again with EH_UNWINDING set. Then set
-      ** rsp = cf, rax = errcode and jump to the specified target.
-      */
-      RtlUnwindEx(cf, (void *)((cframe_unwind_ff(cf2) && errcode != LUA_YIELD) ?
-			       lj_vm_unwind_ff_eh :
-			       lj_vm_unwind_c_eh),
-		  rec, (void *)(uintptr_t)errcode, ctx, dispatch->HistoryTable);
-      /* RtlUnwindEx should never return. */
-    }
-  }
-  return ExceptionContinueSearch;
-}
-
-/* Raise Windows exception. */
-static void err_raise_ext(int errcode)
-{
-  RaiseException(LJ_EXCODE_MAKE(errcode), 1 /* EH_NONCONTINUABLE */, 0, NULL);
-}
-
-#endif
-
-/* -- Error handling ------------------------------------------------------ */
-
-/* Throw error. Find catch frame, unwind stack and continue. */
-LJ_NOINLINE void LJ_FASTCALL lj_err_throw(lua_State *L, int errcode)
-{
-  global_State *g = G(L);
-  lj_trace_abort(g);
-  setgcrefnull(g->jit_L);
-  L->status = 0;
-#if LJ_UNWIND_EXT
-  err_raise_ext(errcode);
-  /*
-  ** A return from this function signals a corrupt C stack that cannot be
-  ** unwound. We have no choice but to call the panic function and exit.
-  **
-  ** Usually this is caused by a C function without unwind information.
-  ** This should never happen on x64, but may happen if you've manually
-  ** enabled LUAJIT_UNWIND_EXTERNAL and forgot to recompile *every*
-  ** non-C++ file with -funwind-tables.
-  */
-  if (G(L)->panic)
-    G(L)->panic(L);
-#else
-  {
-    void *cf = err_unwind(L, NULL, errcode);
-    if (cframe_unwind_ff(cf))
-      lj_vm_unwind_ff(cframe_raw(cf));
-    else
-      lj_vm_unwind_c(cframe_raw(cf), errcode);
-  }
-#endif
-  exit(EXIT_FAILURE);
-}
-
-/* Return string object for error message. */
-LJ_NOINLINE GCstr *lj_err_str(lua_State *L, ErrMsg em)
-{
-  return lj_str_newz(L, err2msg(em));
-}
-
-/* Out-of-memory error. */
-LJ_NOINLINE void lj_err_mem(lua_State *L)
-{
-  if (L->status == LUA_ERRERR+1)  /* Don't touch the stack during lua_open. */
-    lj_vm_unwind_c(L->cframe, LUA_ERRMEM);
-  setstrV(L, L->top++, lj_err_str(L, LJ_ERR_ERRMEM));
-  lj_err_throw(L, LUA_ERRMEM);
-}
-
-/* Find error function for runtime errors. Requires an extra stack traversal. */
-static ptrdiff_t finderrfunc(lua_State *L)
-{
-  cTValue *frame = L->base-1, *bot = tvref(L->stack);
-  void *cf = L->cframe;
-  while (frame > bot) {
-    lua_assert(cf != NULL);
-    while (cframe_nres(cframe_raw(cf)) < 0) {  /* cframe without frame? */
-      if (frame >= restorestack(L, -cframe_nres(cf)))
-	break;
-      if (cframe_errfunc(cf) >= 0)  /* Error handler not inherited (-1)? */
-	return cframe_errfunc(cf);
-      cf = cframe_prev(cf);  /* Else unwind cframe and continue searching. */
-      if (cf == NULL)
-	return 0;
-    }
-    switch (frame_typep(frame)) {
-    case FRAME_LUA:
-    case FRAME_LUAP:
-      frame = frame_prevl(frame);
-      break;
-    case FRAME_C:
-      cf = cframe_prev(cf);
-      /* fallthrough */
-    case FRAME_VARG:
-      frame = frame_prevd(frame);
-      break;
-    case FRAME_CONT:
-#if LJ_HASFFI
-      if ((frame-1)->u32.lo == LJ_CONT_FFI_CALLBACK)
-	cf = cframe_prev(cf);
-#endif
-      frame = frame_prevd(frame);
-      break;
-    case FRAME_CP:
-      if (cframe_canyield(cf)) return 0;
-      if (cframe_errfunc(cf) >= 0)
-	return cframe_errfunc(cf);
-      frame = frame_prevd(frame);
-      break;
-    case FRAME_PCALL:
-    case FRAME_PCALLH:
-      if (frame_ftsz(frame) >= (ptrdiff_t)(2*sizeof(TValue)))  /* xpcall? */
-	return savestack(L, frame-1);  /* Point to xpcall's errorfunc. */
-      return 0;
-    default:
-      lua_assert(0);
-      return 0;
-    }
-  }
-  return 0;
-}
-
-/* Runtime error. */
-LJ_NOINLINE void lj_err_run(lua_State *L)
-{
-  ptrdiff_t ef = finderrfunc(L);
-  if (ef) {
-    TValue *errfunc = restorestack(L, ef);
-    TValue *top = L->top;
-    lj_trace_abort(G(L));
-    if (!tvisfunc(errfunc) || L->status == LUA_ERRERR) {
-      setstrV(L, top-1, lj_err_str(L, LJ_ERR_ERRERR));
-      lj_err_throw(L, LUA_ERRERR);
-    }
-    L->status = LUA_ERRERR;
-    copyTV(L, top, top-1);
-    copyTV(L, top-1, errfunc);
-    L->top = top+1;
-    lj_vm_call(L, top, 1+1);  /* Stack: |errfunc|msg| -> |msg| */
-  }
-  lj_err_throw(L, LUA_ERRRUN);
-}
-
-/* Formatted runtime error message. */
-LJ_NORET LJ_NOINLINE static void err_msgv(lua_State *L, ErrMsg em, ...)
-{
-  const char *msg;
-  va_list argp;
-  va_start(argp, em);
-  if (curr_funcisL(L)) L->top = curr_topL(L);
-  msg = lj_str_pushvf(L, err2msg(em), argp);
-  va_end(argp);
-  lj_debug_addloc(L, msg, L->base-1, NULL);
-  lj_err_run(L);
-}
-
-/* Non-vararg variant for better calling conventions. */
-LJ_NOINLINE void lj_err_msg(lua_State *L, ErrMsg em)
-{
-  err_msgv(L, em);
-}
-
-/* Lexer error. */
-LJ_NOINLINE void lj_err_lex(lua_State *L, GCstr *src, const char *tok,
-			    BCLine line, ErrMsg em, va_list argp)
-{
-  char buff[LUA_IDSIZE];
-  const char *msg;
-  lj_debug_shortname(buff, src);
-  msg = lj_str_pushvf(L, err2msg(em), argp);
-  msg = lj_str_pushf(L, "%s:%d: %s", buff, line, msg);
-  if (tok)
-    lj_str_pushf(L, err2msg(LJ_ERR_XNEAR), msg, tok);
-  lj_err_throw(L, LUA_ERRSYNTAX);
-}
-
-/* Typecheck error for operands. */
-LJ_NOINLINE void lj_err_optype(lua_State *L, cTValue *o, ErrMsg opm)
-{
-  const char *tname = lj_typename(o);
-  const char *opname = err2msg(opm);
-  if (curr_funcisL(L)) {
-    GCproto *pt = curr_proto(L);
-    const BCIns *pc = cframe_Lpc(L) - 1;
-    const char *oname = NULL;
-    const char *kind = lj_debug_slotname(pt, pc, (BCReg)(o-L->base), &oname);
-    if (kind)
-      err_msgv(L, LJ_ERR_BADOPRT, opname, kind, oname, tname);
-  }
-  err_msgv(L, LJ_ERR_BADOPRV, opname, tname);
-}
-
-/* Typecheck error for ordered comparisons. */
-LJ_NOINLINE void lj_err_comp(lua_State *L, cTValue *o1, cTValue *o2)
-{
-  const char *t1 = lj_typename(o1);
-  const char *t2 = lj_typename(o2);
-  err_msgv(L, t1 == t2 ? LJ_ERR_BADCMPV : LJ_ERR_BADCMPT, t1, t2);
-  /* This assumes the two "boolean" entries are commoned by the C compiler. */
-}
-
-/* Typecheck error for __call. */
-LJ_NOINLINE void lj_err_optype_call(lua_State *L, TValue *o)
-{
-  /* Gross hack if lua_[p]call or pcall/xpcall fail for a non-callable object:
-  ** L->base still points to the caller. So add a dummy frame with L instead
-  ** of a function. See lua_getstack().
-  */
-  const BCIns *pc = cframe_Lpc(L);
-  if (((ptrdiff_t)pc & FRAME_TYPE) != FRAME_LUA) {
-    const char *tname = lj_typename(o);
-    setframe_pc(o, pc);
-    setframe_gc(o, obj2gco(L));
-    L->top = L->base = o+1;
-    err_msgv(L, LJ_ERR_BADCALL, tname);
-  }
-  lj_err_optype(L, o, LJ_ERR_OPCALL);
-}
-
-/* Error in context of caller. */
-LJ_NOINLINE void lj_err_callermsg(lua_State *L, const char *msg)
-{
-  TValue *frame = L->base-1;
-  TValue *pframe = NULL;
-  if (frame_islua(frame)) {
-    pframe = frame_prevl(frame);
-  } else if (frame_iscont(frame)) {
-#if LJ_HASFFI
-    if ((frame-1)->u32.lo == LJ_CONT_FFI_CALLBACK) {
-      pframe = frame;
-      frame = NULL;
-    } else
-#endif
-    {
-      pframe = frame_prevd(frame);
-#if LJ_HASFFI
-      /* Remove frame for FFI metamethods. */
-      if (frame_func(frame)->c.ffid >= FF_ffi_meta___index &&
-	  frame_func(frame)->c.ffid <= FF_ffi_meta___tostring) {
-	L->base = pframe+1;
-	L->top = frame;
-	setcframe_pc(cframe_raw(L->cframe), frame_contpc(frame));
-      }
-#endif
-    }
-  }
-  lj_debug_addloc(L, msg, pframe, frame);
-  lj_err_run(L);
-}
-
-/* Formatted error in context of caller. */
-LJ_NOINLINE void lj_err_callerv(lua_State *L, ErrMsg em, ...)
-{
-  const char *msg;
-  va_list argp;
-  va_start(argp, em);
-  msg = lj_str_pushvf(L, err2msg(em), argp);
-  va_end(argp);
-  lj_err_callermsg(L, msg);
-}
-
-/* Error in context of caller. */
-LJ_NOINLINE void lj_err_caller(lua_State *L, ErrMsg em)
-{
-  lj_err_callermsg(L, err2msg(em));
-}
-
-/* Argument error message. */
-LJ_NORET LJ_NOINLINE static void err_argmsg(lua_State *L, int narg,
-					    const char *msg)
-{
-  const char *fname = "?";
-  const char *ftype = lj_debug_funcname(L, L->base - 1, &fname);
-  if (narg < 0 && narg > LUA_REGISTRYINDEX)
-    narg = (int)(L->top - L->base) + narg + 1;
-  if (ftype && ftype[3] == 'h' && --narg == 0)  /* Check for "method". */
-    msg = lj_str_pushf(L, err2msg(LJ_ERR_BADSELF), fname, msg);
-  else
-    msg = lj_str_pushf(L, err2msg(LJ_ERR_BADARG), narg, fname, msg);
-  lj_err_callermsg(L, msg);
-}
-
-/* Formatted argument error. */
-LJ_NOINLINE void lj_err_argv(lua_State *L, int narg, ErrMsg em, ...)
-{
-  const char *msg;
-  va_list argp;
-  va_start(argp, em);
-  msg = lj_str_pushvf(L, err2msg(em), argp);
-  va_end(argp);
-  err_argmsg(L, narg, msg);
-}
-
-/* Argument error. */
-LJ_NOINLINE void lj_err_arg(lua_State *L, int narg, ErrMsg em)
-{
-  err_argmsg(L, narg, err2msg(em));
-}
-
-/* Typecheck error for arguments. */
-LJ_NOINLINE void lj_err_argtype(lua_State *L, int narg, const char *xname)
-{
-  TValue *o = narg < 0 ? L->top + narg : L->base + narg-1;
-  const char *tname = o < L->top ? lj_typename(o) : lj_obj_typename[0];
-  const char *msg = lj_str_pushf(L, err2msg(LJ_ERR_BADTYPE), xname, tname);
-  err_argmsg(L, narg, msg);
-}
-
-/* Typecheck error for arguments. */
-LJ_NOINLINE void lj_err_argt(lua_State *L, int narg, int tt)
-{
-  lj_err_argtype(L, narg, lj_obj_typename[tt+1]);
-}
-
-/* -- Public error handling API ------------------------------------------- */
-
-LUA_API lua_CFunction lua_atpanic(lua_State *L, lua_CFunction panicf)
-{
-  lua_CFunction old = G(L)->panic;
-  G(L)->panic = panicf;
-  return old;
-}
-
-/* Forwarders for the public API (C calling convention and no LJ_NORET). */
-LUA_API int lua_error(lua_State *L)
-{
-  lj_err_run(L);
-  return 0;  /* unreachable */
-}
-
-LUALIB_API int luaL_argerror(lua_State *L, int narg, const char *msg)
-{
-  err_argmsg(L, narg, msg);
-  return 0;  /* unreachable */
-}
-
-LUALIB_API int luaL_typerror(lua_State *L, int narg, const char *xname)
-{
-  lj_err_argtype(L, narg, xname);
-  return 0;  /* unreachable */
-}
-
-LUALIB_API void luaL_where(lua_State *L, int level)
-{
-  int size;
-  cTValue *frame = lj_debug_frame(L, level, &size);
-  lj_debug_addloc(L, "", frame, size ? frame+size : NULL);
-}
-
-LUALIB_API int luaL_error(lua_State *L, const char *fmt, ...)
-{
-  const char *msg;
-  va_list argp;
-  va_start(argp, fmt);
-  msg = lj_str_pushvf(L, fmt, argp);
-  va_end(argp);
-  lj_err_callermsg(L, msg);
-  return 0;  /* unreachable */
-}
-
diff --git a/luajit-2.0/src/lj_err.h b/luajit-2.0/src/lj_err.h
deleted file mode 100644
index 7ea512a..0000000
--- a/luajit-2.0/src/lj_err.h
+++ /dev/null
@@ -1,41 +0,0 @@
-/*
-** Error handling.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#ifndef _LJ_ERR_H
-#define _LJ_ERR_H
-
-#include <stdarg.h>
-
-#include "lj_obj.h"
-
-typedef enum {
-#define ERRDEF(name, msg) \
-  LJ_ERR_##name, LJ_ERR_##name##_ = LJ_ERR_##name + sizeof(msg)-1,
-#include "lj_errmsg.h"
-  LJ_ERR__MAX
-} ErrMsg;
-
-LJ_DATA const char *lj_err_allmsg;
-#define err2msg(em)	(lj_err_allmsg+(int)(em))
-
-LJ_FUNC GCstr *lj_err_str(lua_State *L, ErrMsg em);
-LJ_FUNCA_NORET void LJ_FASTCALL lj_err_throw(lua_State *L, int errcode);
-LJ_FUNC_NORET void lj_err_mem(lua_State *L);
-LJ_FUNC_NORET void lj_err_run(lua_State *L);
-LJ_FUNC_NORET void lj_err_msg(lua_State *L, ErrMsg em);
-LJ_FUNC_NORET void lj_err_lex(lua_State *L, GCstr *src, const char *tok,
-			      BCLine line, ErrMsg em, va_list argp);
-LJ_FUNC_NORET void lj_err_optype(lua_State *L, cTValue *o, ErrMsg opm);
-LJ_FUNC_NORET void lj_err_comp(lua_State *L, cTValue *o1, cTValue *o2);
-LJ_FUNC_NORET void lj_err_optype_call(lua_State *L, TValue *o);
-LJ_FUNC_NORET void lj_err_callermsg(lua_State *L, const char *msg);
-LJ_FUNC_NORET void lj_err_callerv(lua_State *L, ErrMsg em, ...);
-LJ_FUNC_NORET void lj_err_caller(lua_State *L, ErrMsg em);
-LJ_FUNC_NORET void lj_err_arg(lua_State *L, int narg, ErrMsg em);
-LJ_FUNC_NORET void lj_err_argv(lua_State *L, int narg, ErrMsg em, ...);
-LJ_FUNC_NORET void lj_err_argtype(lua_State *L, int narg, const char *xname);
-LJ_FUNC_NORET void lj_err_argt(lua_State *L, int narg, int tt);
-
-#endif
diff --git a/luajit-2.0/src/lj_errmsg.h b/luajit-2.0/src/lj_errmsg.h
deleted file mode 100644
index 137831e..0000000
--- a/luajit-2.0/src/lj_errmsg.h
+++ /dev/null
@@ -1,193 +0,0 @@
-/*
-** VM error messages.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-/* This file may be included multiple times with different ERRDEF macros. */
-
-/* Basic error handling. */
-ERRDEF(ERRMEM,	"not enough memory")
-ERRDEF(ERRERR,	"error in error handling")
-ERRDEF(ERRCPP,	"C++ exception")
-
-/* Allocations. */
-ERRDEF(STROV,	"string length overflow")
-ERRDEF(UDATAOV,	"userdata length overflow")
-ERRDEF(STKOV,	"stack overflow")
-ERRDEF(STKOVM,	"stack overflow (%s)")
-ERRDEF(TABOV,	"table overflow")
-
-/* Table indexing. */
-ERRDEF(NANIDX,	"table index is NaN")
-ERRDEF(NILIDX,	"table index is nil")
-ERRDEF(NEXTIDX,	"invalid key to " LUA_QL("next"))
-
-/* Metamethod resolving. */
-ERRDEF(BADCALL,	"attempt to call a %s value")
-ERRDEF(BADOPRT,	"attempt to %s %s " LUA_QS " (a %s value)")
-ERRDEF(BADOPRV,	"attempt to %s a %s value")
-ERRDEF(BADCMPT,	"attempt to compare %s with %s")
-ERRDEF(BADCMPV,	"attempt to compare two %s values")
-ERRDEF(GETLOOP,	"loop in gettable")
-ERRDEF(SETLOOP,	"loop in settable")
-ERRDEF(OPCALL,	"call")
-ERRDEF(OPINDEX,	"index")
-ERRDEF(OPARITH,	"perform arithmetic on")
-ERRDEF(OPCAT,	"concatenate")
-ERRDEF(OPLEN,	"get length of")
-
-/* Type checks. */
-ERRDEF(BADSELF,	"calling " LUA_QS " on bad self (%s)")
-ERRDEF(BADARG,	"bad argument #%d to " LUA_QS " (%s)")
-ERRDEF(BADTYPE,	"%s expected, got %s")
-ERRDEF(BADVAL,	"invalid value")
-ERRDEF(NOVAL,	"value expected")
-ERRDEF(NOCORO,	"coroutine expected")
-ERRDEF(NOTABN,	"nil or table expected")
-ERRDEF(NOLFUNC,	"Lua function expected")
-ERRDEF(NOFUNCL,	"function or level expected")
-ERRDEF(NOSFT,	"string/function/table expected")
-ERRDEF(NOPROXY,	"boolean or proxy expected")
-ERRDEF(FORINIT,	LUA_QL("for") " initial value must be a number")
-ERRDEF(FORLIM,	LUA_QL("for") " limit must be a number")
-ERRDEF(FORSTEP,	LUA_QL("for") " step must be a number")
-
-/* C API checks. */
-ERRDEF(NOENV,	"no calling environment")
-ERRDEF(CYIELD,	"attempt to yield across C-call boundary")
-ERRDEF(BADLU,	"bad light userdata pointer")
-ERRDEF(NOGCMM,	"bad action while in __gc metamethod")
-#if LJ_TARGET_WINDOWS
-ERRDEF(BADFPU,	"bad FPU precision (use D3DCREATE_FPU_PRESERVE with DirectX)")
-#endif
-
-/* Standard library function errors. */
-ERRDEF(ASSERT,	"assertion failed!")
-ERRDEF(PROTMT,	"cannot change a protected metatable")
-ERRDEF(UNPACK,	"too many results to unpack")
-ERRDEF(RDRSTR,	"reader function must return a string")
-ERRDEF(PRTOSTR,	LUA_QL("tostring") " must return a string to " LUA_QL("print"))
-ERRDEF(IDXRNG,	"index out of range")
-ERRDEF(BASERNG,	"base out of range")
-ERRDEF(LVLRNG,	"level out of range")
-ERRDEF(INVLVL,	"invalid level")
-ERRDEF(INVOPT,	"invalid option")
-ERRDEF(INVOPTM,	"invalid option " LUA_QS)
-ERRDEF(INVFMT,	"invalid format")
-ERRDEF(SETFENV,	LUA_QL("setfenv") " cannot change environment of given object")
-ERRDEF(CORUN,	"cannot resume running coroutine")
-ERRDEF(CODEAD,	"cannot resume dead coroutine")
-ERRDEF(COSUSP,	"cannot resume non-suspended coroutine")
-ERRDEF(TABINS,	"wrong number of arguments to " LUA_QL("insert"))
-ERRDEF(TABCAT,	"invalid value (%s) at index %d in table for " LUA_QL("concat"))
-ERRDEF(TABSORT,	"invalid order function for sorting")
-ERRDEF(IOCLFL,	"attempt to use a closed file")
-ERRDEF(IOSTDCL,	"standard file is closed")
-ERRDEF(OSUNIQF,	"unable to generate a unique filename")
-ERRDEF(OSDATEF,	"field " LUA_QS " missing in date table")
-ERRDEF(STRDUMP,	"unable to dump given function")
-ERRDEF(STRSLC,	"string slice too long")
-ERRDEF(STRPATB,	"missing " LUA_QL("[") " after " LUA_QL("%f") " in pattern")
-ERRDEF(STRPATC,	"invalid pattern capture")
-ERRDEF(STRPATE,	"malformed pattern (ends with " LUA_QL("%") ")")
-ERRDEF(STRPATM,	"malformed pattern (missing " LUA_QL("]") ")")
-ERRDEF(STRPATU,	"unbalanced pattern")
-ERRDEF(STRPATX,	"pattern too complex")
-ERRDEF(STRCAPI,	"invalid capture index")
-ERRDEF(STRCAPN,	"too many captures")
-ERRDEF(STRCAPU,	"unfinished capture")
-ERRDEF(STRFMTO,	"invalid option " LUA_QL("%%%c") " to " LUA_QL("format"))
-ERRDEF(STRFMTR,	"invalid format (repeated flags)")
-ERRDEF(STRFMTW,	"invalid format (width or precision too long)")
-ERRDEF(STRGSRV,	"invalid replacement value (a %s)")
-ERRDEF(BADMODN,	"name conflict for module " LUA_QS)
-#if LJ_HASJIT
-ERRDEF(JITPROT,	"runtime code generation failed, restricted kernel?")
-#if LJ_TARGET_X86ORX64
-ERRDEF(NOJIT,	"JIT compiler disabled, CPU does not support SSE2")
-#else
-ERRDEF(NOJIT,	"JIT compiler disabled")
-#endif
-#elif defined(LJ_ARCH_NOJIT)
-ERRDEF(NOJIT,	"no JIT compiler for this architecture (yet)")
-#else
-ERRDEF(NOJIT,	"JIT compiler permanently disabled by build option")
-#endif
-ERRDEF(JITOPT,	"unknown or malformed optimization flag " LUA_QS)
-
-/* Lexer/parser errors. */
-ERRDEF(XMODE,	"attempt to load chunk with wrong mode")
-ERRDEF(XNEAR,	"%s near " LUA_QS)
-ERRDEF(XELEM,	"lexical element too long")
-ERRDEF(XLINES,	"chunk has too many lines")
-ERRDEF(XLEVELS,	"chunk has too many syntax levels")
-ERRDEF(XNUMBER,	"malformed number")
-ERRDEF(XLSTR,	"unfinished long string")
-ERRDEF(XLCOM,	"unfinished long comment")
-ERRDEF(XSTR,	"unfinished string")
-ERRDEF(XESC,	"invalid escape sequence")
-ERRDEF(XLDELIM,	"invalid long string delimiter")
-ERRDEF(XTOKEN,	LUA_QS " expected")
-ERRDEF(XJUMP,	"control structure too long")
-ERRDEF(XSLOTS,	"function or expression too complex")
-ERRDEF(XLIMC,	"chunk has more than %d local variables")
-ERRDEF(XLIMM,	"main function has more than %d %s")
-ERRDEF(XLIMF,	"function at line %d has more than %d %s")
-ERRDEF(XMATCH,	LUA_QS " expected (to close " LUA_QS " at line %d)")
-ERRDEF(XFIXUP,	"function too long for return fixup")
-ERRDEF(XPARAM,	"<name> or " LUA_QL("...") " expected")
-#if !LJ_52
-ERRDEF(XAMBIG,	"ambiguous syntax (function call x new statement)")
-#endif
-ERRDEF(XFUNARG,	"function arguments expected")
-ERRDEF(XSYMBOL,	"unexpected symbol")
-ERRDEF(XDOTS,	"cannot use " LUA_QL("...") " outside a vararg function")
-ERRDEF(XSYNTAX,	"syntax error")
-ERRDEF(XFOR,	LUA_QL("=") " or " LUA_QL("in") " expected")
-ERRDEF(XBREAK,	"no loop to break")
-ERRDEF(XLUNDEF,	"undefined label " LUA_QS)
-ERRDEF(XLDUP,	"duplicate label " LUA_QS)
-ERRDEF(XGSCOPE,	"<goto %s> jumps into the scope of local " LUA_QS)
-
-/* Bytecode reader errors. */
-ERRDEF(BCFMT,	"cannot load incompatible bytecode")
-ERRDEF(BCBAD,	"cannot load malformed bytecode")
-
-#if LJ_HASFFI
-/* FFI errors. */
-ERRDEF(FFI_INVTYPE,	"invalid C type")
-ERRDEF(FFI_INVSIZE,	"size of C type is unknown or too large")
-ERRDEF(FFI_BADSCL,	"bad storage class")
-ERRDEF(FFI_DECLSPEC,	"declaration specifier expected")
-ERRDEF(FFI_BADTAG,	"undeclared or implicit tag " LUA_QS)
-ERRDEF(FFI_REDEF,	"attempt to redefine " LUA_QS)
-ERRDEF(FFI_NUMPARAM,	"wrong number of type parameters")
-ERRDEF(FFI_INITOV,	"too many initializers for " LUA_QS)
-ERRDEF(FFI_BADCONV,	"cannot convert " LUA_QS " to " LUA_QS)
-ERRDEF(FFI_BADLEN,	"attempt to get length of " LUA_QS)
-ERRDEF(FFI_BADCONCAT,	"attempt to concatenate " LUA_QS " and " LUA_QS)
-ERRDEF(FFI_BADARITH,	"attempt to perform arithmetic on " LUA_QS " and " LUA_QS)
-ERRDEF(FFI_BADCOMP,	"attempt to compare " LUA_QS " with " LUA_QS)
-ERRDEF(FFI_BADCALL,	LUA_QS " is not callable")
-ERRDEF(FFI_NUMARG,	"wrong number of arguments for function call")
-ERRDEF(FFI_BADMEMBER,	LUA_QS " has no member named " LUA_QS)
-ERRDEF(FFI_BADIDX,	LUA_QS " cannot be indexed")
-ERRDEF(FFI_BADIDXW,	LUA_QS " cannot be indexed with " LUA_QS)
-ERRDEF(FFI_BADMM,	LUA_QS " has no " LUA_QS " metamethod")
-ERRDEF(FFI_WRCONST,	"attempt to write to constant location")
-ERRDEF(FFI_NODECL,	"missing declaration for symbol " LUA_QS)
-ERRDEF(FFI_BADCBACK,	"bad callback")
-#if LJ_OS_NOJIT
-ERRDEF(FFI_CBACKOV,	"no support for callbacks on this OS")
-#else
-ERRDEF(FFI_CBACKOV,	"too many callbacks")
-#endif
-ERRDEF(FFI_NYIPACKBIT,	"NYI: packed bit fields")
-ERRDEF(FFI_NYICALL,	"NYI: cannot call this C function (yet)")
-#endif
-
-#undef ERRDEF
-
-/* Detecting unused error messages:
-   awk -F, '/^ERRDEF/ { gsub(/ERRDEF./, ""); printf "grep -q LJ_ERR_%s *.[ch] || echo %s\n", $1, $1}' lj_errmsg.h | sh
-*/
diff --git a/luajit-2.0/src/lj_ff.h b/luajit-2.0/src/lj_ff.h
deleted file mode 100644
index d91a739..0000000
--- a/luajit-2.0/src/lj_ff.h
+++ /dev/null
@@ -1,18 +0,0 @@
-/*
-** Fast function IDs.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#ifndef _LJ_FF_H
-#define _LJ_FF_H
-
-/* Fast function ID. */
-typedef enum {
-  FF_LUA_ = FF_LUA,	/* Lua function (must be 0). */
-  FF_C_ = FF_C,		/* Regular C function (must be 1). */
-#define FFDEF(name)	FF_##name,
-#include "lj_ffdef.h"
-  FF__MAX
-} FastFunc;
-
-#endif
diff --git a/luajit-2.0/src/lj_ffrecord.c b/luajit-2.0/src/lj_ffrecord.c
deleted file mode 100644
index 794bbd4..0000000
--- a/luajit-2.0/src/lj_ffrecord.c
+++ /dev/null
@@ -1,888 +0,0 @@
-/*
-** Fast function call recorder.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#define lj_ffrecord_c
-#define LUA_CORE
-
-#include "lj_obj.h"
-
-#if LJ_HASJIT
-
-#include "lj_err.h"
-#include "lj_str.h"
-#include "lj_tab.h"
-#include "lj_frame.h"
-#include "lj_bc.h"
-#include "lj_ff.h"
-#include "lj_ir.h"
-#include "lj_jit.h"
-#include "lj_ircall.h"
-#include "lj_iropt.h"
-#include "lj_trace.h"
-#include "lj_record.h"
-#include "lj_ffrecord.h"
-#include "lj_crecord.h"
-#include "lj_dispatch.h"
-#include "lj_vm.h"
-#include "lj_strscan.h"
-
-/* Some local macros to save typing. Undef'd at the end. */
-#define IR(ref)			(&J->cur.ir[(ref)])
-
-/* Pass IR on to next optimization in chain (FOLD). */
-#define emitir(ot, a, b)	(lj_ir_set(J, (ot), (a), (b)), lj_opt_fold(J))
-
-/* -- Fast function recording handlers ------------------------------------ */
-
-/* Conventions for fast function call handlers:
-**
-** The argument slots start at J->base[0]. All of them are guaranteed to be
-** valid and type-specialized references. J->base[J->maxslot] is set to 0
-** as a sentinel. The runtime argument values start at rd->argv[0].
-**
-** In general fast functions should check for presence of all of their
-** arguments and for the correct argument types. Some simplifications
-** are allowed if the interpreter throws instead. But even if recording
-** is aborted, the generated IR must be consistent (no zero-refs).
-**
-** The number of results in rd->nres is set to 1. Handlers that return
-** a different number of results need to override it. A negative value
-** prevents return processing (e.g. for pending calls).
-**
-** Results need to be stored starting at J->base[0]. Return processing
-** moves them to the right slots later.
-**
-** The per-ffid auxiliary data is the value of the 2nd part of the
-** LJLIB_REC() annotation. This allows handling similar functionality
-** in a common handler.
-*/
-
-/* Type of handler to record a fast function. */
-typedef void (LJ_FASTCALL *RecordFunc)(jit_State *J, RecordFFData *rd);
-
-/* Get runtime value of int argument. */
-static int32_t argv2int(jit_State *J, TValue *o)
-{
-  if (!lj_strscan_numberobj(o))
-    lj_trace_err(J, LJ_TRERR_BADTYPE);
-  return tvisint(o) ? intV(o) : lj_num2int(numV(o));
-}
-
-/* Get runtime value of string argument. */
-static GCstr *argv2str(jit_State *J, TValue *o)
-{
-  if (LJ_LIKELY(tvisstr(o))) {
-    return strV(o);
-  } else {
-    GCstr *s;
-    if (!tvisnumber(o))
-      lj_trace_err(J, LJ_TRERR_BADTYPE);
-    if (tvisint(o))
-      s = lj_str_fromint(J->L, intV(o));
-    else
-      s = lj_str_fromnum(J->L, &o->n);
-    setstrV(J->L, o, s);
-    return s;
-  }
-}
-
-/* Return number of results wanted by caller. */
-static ptrdiff_t results_wanted(jit_State *J)
-{
-  TValue *frame = J->L->base-1;
-  if (frame_islua(frame))
-    return (ptrdiff_t)bc_b(frame_pc(frame)[-1]) - 1;
-  else
-    return -1;
-}
-
-/* Throw error for unsupported variant of fast function. */
-LJ_NORET static void recff_nyiu(jit_State *J)
-{
-  setfuncV(J->L, &J->errinfo, J->fn);
-  lj_trace_err_info(J, LJ_TRERR_NYIFFU);
-}
-
-/* Fallback handler for all fast functions that are not recorded (yet). */
-static void LJ_FASTCALL recff_nyi(jit_State *J, RecordFFData *rd)
-{
-  setfuncV(J->L, &J->errinfo, J->fn);
-  lj_trace_err_info(J, LJ_TRERR_NYIFF);
-  UNUSED(rd);
-}
-
-/* C functions can have arbitrary side-effects and are not recorded (yet). */
-static void LJ_FASTCALL recff_c(jit_State *J, RecordFFData *rd)
-{
-  setfuncV(J->L, &J->errinfo, J->fn);
-  lj_trace_err_info(J, LJ_TRERR_NYICF);
-  UNUSED(rd);
-}
-
-/* -- Base library fast functions ----------------------------------------- */
-
-static void LJ_FASTCALL recff_assert(jit_State *J, RecordFFData *rd)
-{
-  /* Arguments already specialized. The interpreter throws for nil/false. */
-  rd->nres = J->maxslot;  /* Pass through all arguments. */
-}
-
-static void LJ_FASTCALL recff_type(jit_State *J, RecordFFData *rd)
-{
-  /* Arguments already specialized. Result is a constant string. Neat, huh? */
-  uint32_t t;
-  if (tvisnumber(&rd->argv[0]))
-    t = ~LJ_TNUMX;
-  else if (LJ_64 && tvislightud(&rd->argv[0]))
-    t = ~LJ_TLIGHTUD;
-  else
-    t = ~itype(&rd->argv[0]);
-  J->base[0] = lj_ir_kstr(J, strV(&J->fn->c.upvalue[t]));
-  UNUSED(rd);
-}
-
-static void LJ_FASTCALL recff_getmetatable(jit_State *J, RecordFFData *rd)
-{
-  TRef tr = J->base[0];
-  if (tr) {
-    RecordIndex ix;
-    ix.tab = tr;
-    copyTV(J->L, &ix.tabv, &rd->argv[0]);
-    if (lj_record_mm_lookup(J, &ix, MM_metatable))
-      J->base[0] = ix.mobj;
-    else
-      J->base[0] = ix.mt;
-  }  /* else: Interpreter will throw. */
-}
-
-static void LJ_FASTCALL recff_setmetatable(jit_State *J, RecordFFData *rd)
-{
-  TRef tr = J->base[0];
-  TRef mt = J->base[1];
-  if (tref_istab(tr) && (tref_istab(mt) || (mt && tref_isnil(mt)))) {
-    TRef fref, mtref;
-    RecordIndex ix;
-    ix.tab = tr;
-    copyTV(J->L, &ix.tabv, &rd->argv[0]);
-    lj_record_mm_lookup(J, &ix, MM_metatable); /* Guard for no __metatable. */
-    fref = emitir(IRT(IR_FREF, IRT_P32), tr, IRFL_TAB_META);
-    mtref = tref_isnil(mt) ? lj_ir_knull(J, IRT_TAB) : mt;
-    emitir(IRT(IR_FSTORE, IRT_TAB), fref, mtref);
-    if (!tref_isnil(mt))
-      emitir(IRT(IR_TBAR, IRT_TAB), tr, 0);
-    J->base[0] = tr;
-    J->needsnap = 1;
-  }  /* else: Interpreter will throw. */
-}
-
-static void LJ_FASTCALL recff_rawget(jit_State *J, RecordFFData *rd)
-{
-  RecordIndex ix;
-  ix.tab = J->base[0]; ix.key = J->base[1];
-  if (tref_istab(ix.tab) && ix.key) {
-    ix.val = 0; ix.idxchain = 0;
-    settabV(J->L, &ix.tabv, tabV(&rd->argv[0]));
-    copyTV(J->L, &ix.keyv, &rd->argv[1]);
-    J->base[0] = lj_record_idx(J, &ix);
-  }  /* else: Interpreter will throw. */
-}
-
-static void LJ_FASTCALL recff_rawset(jit_State *J, RecordFFData *rd)
-{
-  RecordIndex ix;
-  ix.tab = J->base[0]; ix.key = J->base[1]; ix.val = J->base[2];
-  if (tref_istab(ix.tab) && ix.key && ix.val) {
-    ix.idxchain = 0;
-    settabV(J->L, &ix.tabv, tabV(&rd->argv[0]));
-    copyTV(J->L, &ix.keyv, &rd->argv[1]);
-    copyTV(J->L, &ix.valv, &rd->argv[2]);
-    lj_record_idx(J, &ix);
-    /* Pass through table at J->base[0] as result. */
-  }  /* else: Interpreter will throw. */
-}
-
-static void LJ_FASTCALL recff_rawequal(jit_State *J, RecordFFData *rd)
-{
-  TRef tra = J->base[0];
-  TRef trb = J->base[1];
-  if (tra && trb) {
-    int diff = lj_record_objcmp(J, tra, trb, &rd->argv[0], &rd->argv[1]);
-    J->base[0] = diff ? TREF_FALSE : TREF_TRUE;
-  }  /* else: Interpreter will throw. */
-}
-
-#if LJ_52
-static void LJ_FASTCALL recff_rawlen(jit_State *J, RecordFFData *rd)
-{
-  TRef tr = J->base[0];
-  if (tref_isstr(tr))
-    J->base[0] = emitir(IRTI(IR_FLOAD), tr, IRFL_STR_LEN);
-  else if (tref_istab(tr))
-    J->base[0] = lj_ir_call(J, IRCALL_lj_tab_len, tr);
-  /* else: Interpreter will throw. */
-  UNUSED(rd);
-}
-#endif
-
-/* Determine mode of select() call. */
-int32_t lj_ffrecord_select_mode(jit_State *J, TRef tr, TValue *tv)
-{
-  if (tref_isstr(tr) && *strVdata(tv) == '#') {  /* select('#', ...) */
-    if (strV(tv)->len == 1) {
-      emitir(IRTG(IR_EQ, IRT_STR), tr, lj_ir_kstr(J, strV(tv)));
-    } else {
-      TRef trptr = emitir(IRT(IR_STRREF, IRT_P32), tr, lj_ir_kint(J, 0));
-      TRef trchar = emitir(IRT(IR_XLOAD, IRT_U8), trptr, IRXLOAD_READONLY);
-      emitir(IRTG(IR_EQ, IRT_INT), trchar, lj_ir_kint(J, '#'));
-    }
-    return 0;
-  } else {  /* select(n, ...) */
-    int32_t start = argv2int(J, tv);
-    if (start == 0) lj_trace_err(J, LJ_TRERR_BADTYPE);  /* A bit misleading. */
-    return start;
-  }
-}
-
-static void LJ_FASTCALL recff_select(jit_State *J, RecordFFData *rd)
-{
-  TRef tr = J->base[0];
-  if (tr) {
-    ptrdiff_t start = lj_ffrecord_select_mode(J, tr, &rd->argv[0]);
-    if (start == 0) {  /* select('#', ...) */
-      J->base[0] = lj_ir_kint(J, J->maxslot - 1);
-    } else if (tref_isk(tr)) {  /* select(k, ...) */
-      ptrdiff_t n = (ptrdiff_t)J->maxslot;
-      if (start < 0) start += n;
-      else if (start > n) start = n;
-      rd->nres = n - start;
-      if (start >= 1) {
-	ptrdiff_t i;
-	for (i = 0; i < n - start; i++)
-	  J->base[i] = J->base[start+i];
-      }  /* else: Interpreter will throw. */
-    } else {
-      recff_nyiu(J);
-    }
-  }  /* else: Interpreter will throw. */
-}
-
-static void LJ_FASTCALL recff_tonumber(jit_State *J, RecordFFData *rd)
-{
-  TRef tr = J->base[0];
-  TRef base = J->base[1];
-  if (tr && !tref_isnil(base)) {
-    base = lj_opt_narrow_toint(J, base);
-    if (!tref_isk(base) || IR(tref_ref(base))->i != 10)
-      recff_nyiu(J);
-  }
-  if (tref_isnumber_str(tr)) {
-    if (tref_isstr(tr)) {
-      TValue tmp;
-      if (!lj_strscan_num(strV(&rd->argv[0]), &tmp))
-	recff_nyiu(J);  /* Would need an inverted STRTO for this case. */
-      tr = emitir(IRTG(IR_STRTO, IRT_NUM), tr, 0);
-    }
-#if LJ_HASFFI
-  } else if (tref_iscdata(tr)) {
-    lj_crecord_tonumber(J, rd);
-    return;
-#endif
-  } else {
-    tr = TREF_NIL;
-  }
-  J->base[0] = tr;
-  UNUSED(rd);
-}
-
-static TValue *recff_metacall_cp(lua_State *L, lua_CFunction dummy, void *ud)
-{
-  jit_State *J = (jit_State *)ud;
-  lj_record_tailcall(J, 0, 1);
-  UNUSED(L); UNUSED(dummy);
-  return NULL;
-}
-
-static int recff_metacall(jit_State *J, RecordFFData *rd, MMS mm)
-{
-  RecordIndex ix;
-  ix.tab = J->base[0];
-  copyTV(J->L, &ix.tabv, &rd->argv[0]);
-  if (lj_record_mm_lookup(J, &ix, mm)) {  /* Has metamethod? */
-    int errcode;
-    TValue argv0;
-    /* Temporarily insert metamethod below object. */
-    J->base[1] = J->base[0];
-    J->base[0] = ix.mobj;
-    copyTV(J->L, &argv0, &rd->argv[0]);
-    copyTV(J->L, &rd->argv[1], &rd->argv[0]);
-    copyTV(J->L, &rd->argv[0], &ix.mobjv);
-    /* Need to protect lj_record_tailcall because it may throw. */
-    errcode = lj_vm_cpcall(J->L, NULL, J, recff_metacall_cp);
-    /* Always undo Lua stack changes to avoid confusing the interpreter. */
-    copyTV(J->L, &rd->argv[0], &argv0);
-    if (errcode)
-      lj_err_throw(J->L, errcode);  /* Propagate errors. */
-    rd->nres = -1;  /* Pending call. */
-    return 1;  /* Tailcalled to metamethod. */
-  }
-  return 0;
-}
-
-static void LJ_FASTCALL recff_tostring(jit_State *J, RecordFFData *rd)
-{
-  TRef tr = J->base[0];
-  if (tref_isstr(tr)) {
-    /* Ignore __tostring in the string base metatable. */
-    /* Pass on result in J->base[0]. */
-  } else if (!recff_metacall(J, rd, MM_tostring)) {
-    if (tref_isnumber(tr)) {
-      J->base[0] = emitir(IRT(IR_TOSTR, IRT_STR), tr, 0);
-    } else if (tref_ispri(tr)) {
-      J->base[0] = lj_ir_kstr(J, strV(&J->fn->c.upvalue[tref_type(tr)]));
-    } else {
-      recff_nyiu(J);
-    }
-  }
-}
-
-static void LJ_FASTCALL recff_ipairs_aux(jit_State *J, RecordFFData *rd)
-{
-  RecordIndex ix;
-  ix.tab = J->base[0];
-  if (tref_istab(ix.tab)) {
-    if (!tvisnumber(&rd->argv[1]))  /* No support for string coercion. */
-      lj_trace_err(J, LJ_TRERR_BADTYPE);
-    setintV(&ix.keyv, numberVint(&rd->argv[1])+1);
-    settabV(J->L, &ix.tabv, tabV(&rd->argv[0]));
-    ix.val = 0; ix.idxchain = 0;
-    ix.key = lj_opt_narrow_toint(J, J->base[1]);
-    J->base[0] = ix.key = emitir(IRTI(IR_ADD), ix.key, lj_ir_kint(J, 1));
-    J->base[1] = lj_record_idx(J, &ix);
-    rd->nres = tref_isnil(J->base[1]) ? 0 : 2;
-  }  /* else: Interpreter will throw. */
-}
-
-static void LJ_FASTCALL recff_ipairs(jit_State *J, RecordFFData *rd)
-{
-  if (!(LJ_52 && recff_metacall(J, rd, MM_ipairs))) {
-    TRef tab = J->base[0];
-    if (tref_istab(tab)) {
-      J->base[0] = lj_ir_kfunc(J, funcV(&J->fn->c.upvalue[0]));
-      J->base[1] = tab;
-      J->base[2] = lj_ir_kint(J, 0);
-      rd->nres = 3;
-    }  /* else: Interpreter will throw. */
-  }
-}
-
-static void LJ_FASTCALL recff_pcall(jit_State *J, RecordFFData *rd)
-{
-  if (J->maxslot >= 1) {
-    lj_record_call(J, 0, J->maxslot - 1);
-    rd->nres = -1;  /* Pending call. */
-  }  /* else: Interpreter will throw. */
-}
-
-static TValue *recff_xpcall_cp(lua_State *L, lua_CFunction dummy, void *ud)
-{
-  jit_State *J = (jit_State *)ud;
-  lj_record_call(J, 1, J->maxslot - 2);
-  UNUSED(L); UNUSED(dummy);
-  return NULL;
-}
-
-static void LJ_FASTCALL recff_xpcall(jit_State *J, RecordFFData *rd)
-{
-  if (J->maxslot >= 2) {
-    TValue argv0, argv1;
-    TRef tmp;
-    int errcode;
-    /* Swap function and traceback. */
-    tmp = J->base[0]; J->base[0] = J->base[1]; J->base[1] = tmp;
-    copyTV(J->L, &argv0, &rd->argv[0]);
-    copyTV(J->L, &argv1, &rd->argv[1]);
-    copyTV(J->L, &rd->argv[0], &argv1);
-    copyTV(J->L, &rd->argv[1], &argv0);
-    /* Need to protect lj_record_call because it may throw. */
-    errcode = lj_vm_cpcall(J->L, NULL, J, recff_xpcall_cp);
-    /* Always undo Lua stack swap to avoid confusing the interpreter. */
-    copyTV(J->L, &rd->argv[0], &argv0);
-    copyTV(J->L, &rd->argv[1], &argv1);
-    if (errcode)
-      lj_err_throw(J->L, errcode);  /* Propagate errors. */
-    rd->nres = -1;  /* Pending call. */
-  }  /* else: Interpreter will throw. */
-}
-
-/* -- Math library fast functions ----------------------------------------- */
-
-static void LJ_FASTCALL recff_math_abs(jit_State *J, RecordFFData *rd)
-{
-  TRef tr = lj_ir_tonum(J, J->base[0]);
-  J->base[0] = emitir(IRTN(IR_ABS), tr, lj_ir_knum_abs(J));
-  UNUSED(rd);
-}
-
-/* Record rounding functions math.floor and math.ceil. */
-static void LJ_FASTCALL recff_math_round(jit_State *J, RecordFFData *rd)
-{
-  TRef tr = J->base[0];
-  if (!tref_isinteger(tr)) {  /* Pass through integers unmodified. */
-    tr = emitir(IRTN(IR_FPMATH), lj_ir_tonum(J, tr), rd->data);
-    /* Result is integral (or NaN/Inf), but may not fit an int32_t. */
-    if (LJ_DUALNUM) {  /* Try to narrow using a guarded conversion to int. */
-      lua_Number n = lj_vm_foldfpm(numberVnum(&rd->argv[0]), rd->data);
-      if (n == (lua_Number)lj_num2int(n))
-	tr = emitir(IRTGI(IR_CONV), tr, IRCONV_INT_NUM|IRCONV_CHECK);
-    }
-    J->base[0] = tr;
-  }
-}
-
-/* Record unary math.* functions, mapped to IR_FPMATH opcode. */
-static void LJ_FASTCALL recff_math_unary(jit_State *J, RecordFFData *rd)
-{
-  J->base[0] = emitir(IRTN(IR_FPMATH), lj_ir_tonum(J, J->base[0]), rd->data);
-}
-
-/* Record math.log. */
-static void LJ_FASTCALL recff_math_log(jit_State *J, RecordFFData *rd)
-{
-  TRef tr = lj_ir_tonum(J, J->base[0]);
-  if (J->base[1]) {
-#ifdef LUAJIT_NO_LOG2
-    uint32_t fpm = IRFPM_LOG;
-#else
-    uint32_t fpm = IRFPM_LOG2;
-#endif
-    TRef trb = lj_ir_tonum(J, J->base[1]);
-    tr = emitir(IRTN(IR_FPMATH), tr, fpm);
-    trb = emitir(IRTN(IR_FPMATH), trb, fpm);
-    trb = emitir(IRTN(IR_DIV), lj_ir_knum_one(J), trb);
-    tr = emitir(IRTN(IR_MUL), tr, trb);
-  } else {
-    tr = emitir(IRTN(IR_FPMATH), tr, IRFPM_LOG);
-  }
-  J->base[0] = tr;
-  UNUSED(rd);
-}
-
-/* Record math.atan2. */
-static void LJ_FASTCALL recff_math_atan2(jit_State *J, RecordFFData *rd)
-{
-  TRef tr = lj_ir_tonum(J, J->base[0]);
-  TRef tr2 = lj_ir_tonum(J, J->base[1]);
-  J->base[0] = emitir(IRTN(IR_ATAN2), tr, tr2);
-  UNUSED(rd);
-}
-
-/* Record math.ldexp. */
-static void LJ_FASTCALL recff_math_ldexp(jit_State *J, RecordFFData *rd)
-{
-  TRef tr = lj_ir_tonum(J, J->base[0]);
-#if LJ_TARGET_X86ORX64
-  TRef tr2 = lj_ir_tonum(J, J->base[1]);
-#else
-  TRef tr2 = lj_opt_narrow_toint(J, J->base[1]);
-#endif
-  J->base[0] = emitir(IRTN(IR_LDEXP), tr, tr2);
-  UNUSED(rd);
-}
-
-/* Record math.asin, math.acos, math.atan. */
-static void LJ_FASTCALL recff_math_atrig(jit_State *J, RecordFFData *rd)
-{
-  TRef y = lj_ir_tonum(J, J->base[0]);
-  TRef x = lj_ir_knum_one(J);
-  uint32_t ffid = rd->data;
-  if (ffid != FF_math_atan) {
-    TRef tmp = emitir(IRTN(IR_MUL), y, y);
-    tmp = emitir(IRTN(IR_SUB), x, tmp);
-    tmp = emitir(IRTN(IR_FPMATH), tmp, IRFPM_SQRT);
-    if (ffid == FF_math_asin) { x = tmp; } else { x = y; y = tmp; }
-  }
-  J->base[0] = emitir(IRTN(IR_ATAN2), y, x);
-}
-
-static void LJ_FASTCALL recff_math_htrig(jit_State *J, RecordFFData *rd)
-{
-  TRef tr = lj_ir_tonum(J, J->base[0]);
-  J->base[0] = emitir(IRTN(IR_CALLN), tr, rd->data);
-}
-
-static void LJ_FASTCALL recff_math_modf(jit_State *J, RecordFFData *rd)
-{
-  TRef tr = J->base[0];
-  if (tref_isinteger(tr)) {
-    J->base[0] = tr;
-    J->base[1] = lj_ir_kint(J, 0);
-  } else {
-    TRef trt;
-    tr = lj_ir_tonum(J, tr);
-    trt = emitir(IRTN(IR_FPMATH), tr, IRFPM_TRUNC);
-    J->base[0] = trt;
-    J->base[1] = emitir(IRTN(IR_SUB), tr, trt);
-  }
-  rd->nres = 2;
-}
-
-static void LJ_FASTCALL recff_math_degrad(jit_State *J, RecordFFData *rd)
-{
-  TRef tr = lj_ir_tonum(J, J->base[0]);
-  TRef trm = lj_ir_knum(J, numV(&J->fn->c.upvalue[0]));
-  J->base[0] = emitir(IRTN(IR_MUL), tr, trm);
-  UNUSED(rd);
-}
-
-static void LJ_FASTCALL recff_math_pow(jit_State *J, RecordFFData *rd)
-{
-  TRef tr = lj_ir_tonum(J, J->base[0]);
-  if (!tref_isnumber_str(J->base[1]))
-    lj_trace_err(J, LJ_TRERR_BADTYPE);
-  J->base[0] = lj_opt_narrow_pow(J, tr, J->base[1], &rd->argv[1]);
-  UNUSED(rd);
-}
-
-static void LJ_FASTCALL recff_math_minmax(jit_State *J, RecordFFData *rd)
-{
-  TRef tr = lj_ir_tonumber(J, J->base[0]);
-  uint32_t op = rd->data;
-  BCReg i;
-  for (i = 1; J->base[i] != 0; i++) {
-    TRef tr2 = lj_ir_tonumber(J, J->base[i]);
-    IRType t = IRT_INT;
-    if (!(tref_isinteger(tr) && tref_isinteger(tr2))) {
-      if (tref_isinteger(tr)) tr = emitir(IRTN(IR_CONV), tr, IRCONV_NUM_INT);
-      if (tref_isinteger(tr2)) tr2 = emitir(IRTN(IR_CONV), tr2, IRCONV_NUM_INT);
-      t = IRT_NUM;
-    }
-    tr = emitir(IRT(op, t), tr, tr2);
-  }
-  J->base[0] = tr;
-}
-
-static void LJ_FASTCALL recff_math_random(jit_State *J, RecordFFData *rd)
-{
-  GCudata *ud = udataV(&J->fn->c.upvalue[0]);
-  TRef tr, one;
-  lj_ir_kgc(J, obj2gco(ud), IRT_UDATA);  /* Prevent collection. */
-  tr = lj_ir_call(J, IRCALL_lj_math_random_step, lj_ir_kptr(J, uddata(ud)));
-  one = lj_ir_knum_one(J);
-  tr = emitir(IRTN(IR_SUB), tr, one);
-  if (J->base[0]) {
-    TRef tr1 = lj_ir_tonum(J, J->base[0]);
-    if (J->base[1]) {  /* d = floor(d*(r2-r1+1.0)) + r1 */
-      TRef tr2 = lj_ir_tonum(J, J->base[1]);
-      tr2 = emitir(IRTN(IR_SUB), tr2, tr1);
-      tr2 = emitir(IRTN(IR_ADD), tr2, one);
-      tr = emitir(IRTN(IR_MUL), tr, tr2);
-      tr = emitir(IRTN(IR_FPMATH), tr, IRFPM_FLOOR);
-      tr = emitir(IRTN(IR_ADD), tr, tr1);
-    } else {  /* d = floor(d*r1) + 1.0 */
-      tr = emitir(IRTN(IR_MUL), tr, tr1);
-      tr = emitir(IRTN(IR_FPMATH), tr, IRFPM_FLOOR);
-      tr = emitir(IRTN(IR_ADD), tr, one);
-    }
-  }
-  J->base[0] = tr;
-  UNUSED(rd);
-}
-
-/* -- Bit library fast functions ------------------------------------------ */
-
-/* Record unary bit.tobit, bit.bnot, bit.bswap. */
-static void LJ_FASTCALL recff_bit_unary(jit_State *J, RecordFFData *rd)
-{
-  TRef tr = lj_opt_narrow_tobit(J, J->base[0]);
-  J->base[0] = (rd->data == IR_TOBIT) ? tr : emitir(IRTI(rd->data), tr, 0);
-}
-
-/* Record N-ary bit.band, bit.bor, bit.bxor. */
-static void LJ_FASTCALL recff_bit_nary(jit_State *J, RecordFFData *rd)
-{
-  TRef tr = lj_opt_narrow_tobit(J, J->base[0]);
-  uint32_t op = rd->data;
-  BCReg i;
-  for (i = 1; J->base[i] != 0; i++)
-    tr = emitir(IRTI(op), tr, lj_opt_narrow_tobit(J, J->base[i]));
-  J->base[0] = tr;
-}
-
-/* Record bit shifts. */
-static void LJ_FASTCALL recff_bit_shift(jit_State *J, RecordFFData *rd)
-{
-  TRef tr = lj_opt_narrow_tobit(J, J->base[0]);
-  TRef tsh = lj_opt_narrow_tobit(J, J->base[1]);
-  IROp op = (IROp)rd->data;
-  if (!(op < IR_BROL ? LJ_TARGET_MASKSHIFT : LJ_TARGET_MASKROT) &&
-      !tref_isk(tsh))
-    tsh = emitir(IRTI(IR_BAND), tsh, lj_ir_kint(J, 31));
-#ifdef LJ_TARGET_UNIFYROT
-  if (op == (LJ_TARGET_UNIFYROT == 1 ? IR_BROR : IR_BROL)) {
-    op = LJ_TARGET_UNIFYROT == 1 ? IR_BROL : IR_BROR;
-    tsh = emitir(IRTI(IR_NEG), tsh, tsh);
-  }
-#endif
-  J->base[0] = emitir(IRTI(op), tr, tsh);
-}
-
-/* -- String library fast functions --------------------------------------- */
-
-static void LJ_FASTCALL recff_string_len(jit_State *J, RecordFFData *rd)
-{
-  J->base[0] = emitir(IRTI(IR_FLOAD), lj_ir_tostr(J, J->base[0]), IRFL_STR_LEN);
-  UNUSED(rd);
-}
-
-/* Handle string.byte (rd->data = 0) and string.sub (rd->data = 1). */
-static void LJ_FASTCALL recff_string_range(jit_State *J, RecordFFData *rd)
-{
-  TRef trstr = lj_ir_tostr(J, J->base[0]);
-  TRef trlen = emitir(IRTI(IR_FLOAD), trstr, IRFL_STR_LEN);
-  TRef tr0 = lj_ir_kint(J, 0);
-  TRef trstart, trend;
-  GCstr *str = argv2str(J, &rd->argv[0]);
-  int32_t start, end;
-  if (rd->data) {  /* string.sub(str, start [,end]) */
-    start = argv2int(J, &rd->argv[1]);
-    trstart = lj_opt_narrow_toint(J, J->base[1]);
-    trend = J->base[2];
-    if (tref_isnil(trend)) {
-      trend = lj_ir_kint(J, -1);
-      end = -1;
-    } else {
-      trend = lj_opt_narrow_toint(J, trend);
-      end = argv2int(J, &rd->argv[2]);
-    }
-  } else {  /* string.byte(str, [,start [,end]]) */
-    if (tref_isnil(J->base[1])) {
-      start = 1;
-      trstart = lj_ir_kint(J, 1);
-    } else {
-      start = argv2int(J, &rd->argv[1]);
-      trstart = lj_opt_narrow_toint(J, J->base[1]);
-    }
-    if (J->base[1] && !tref_isnil(J->base[2])) {
-      trend = lj_opt_narrow_toint(J, J->base[2]);
-      end = argv2int(J, &rd->argv[2]);
-    } else {
-      trend = trstart;
-      end = start;
-    }
-  }
-  if (end < 0) {
-    emitir(IRTGI(IR_LT), trend, tr0);
-    trend = emitir(IRTI(IR_ADD), emitir(IRTI(IR_ADD), trlen, trend),
-		   lj_ir_kint(J, 1));
-    end = end+(int32_t)str->len+1;
-  } else if ((MSize)end <= str->len) {
-    emitir(IRTGI(IR_ULE), trend, trlen);
-  } else {
-    emitir(IRTGI(IR_GT), trend, trlen);
-    end = (int32_t)str->len;
-    trend = trlen;
-  }
-  if (start < 0) {
-    emitir(IRTGI(IR_LT), trstart, tr0);
-    trstart = emitir(IRTI(IR_ADD), trlen, trstart);
-    start = start+(int32_t)str->len;
-    emitir(start < 0 ? IRTGI(IR_LT) : IRTGI(IR_GE), trstart, tr0);
-    if (start < 0) {
-      trstart = tr0;
-      start = 0;
-    }
-  } else {
-    if (start == 0) {
-      emitir(IRTGI(IR_EQ), trstart, tr0);
-      trstart = tr0;
-    } else {
-      trstart = emitir(IRTI(IR_ADD), trstart, lj_ir_kint(J, -1));
-      emitir(IRTGI(IR_GE), trstart, tr0);
-      start--;
-    }
-  }
-  if (rd->data) {  /* Return string.sub result. */
-    if (end - start >= 0) {
-      /* Also handle empty range here, to avoid extra traces. */
-      TRef trptr, trslen = emitir(IRTI(IR_SUB), trend, trstart);
-      emitir(IRTGI(IR_GE), trslen, tr0);
-      trptr = emitir(IRT(IR_STRREF, IRT_P32), trstr, trstart);
-      J->base[0] = emitir(IRT(IR_SNEW, IRT_STR), trptr, trslen);
-    } else {  /* Range underflow: return empty string. */
-      emitir(IRTGI(IR_LT), trend, trstart);
-      J->base[0] = lj_ir_kstr(J, lj_str_new(J->L, strdata(str), 0));
-    }
-  } else {  /* Return string.byte result(s). */
-    ptrdiff_t i, len = end - start;
-    if (len > 0) {
-      TRef trslen = emitir(IRTI(IR_SUB), trend, trstart);
-      emitir(IRTGI(IR_EQ), trslen, lj_ir_kint(J, (int32_t)len));
-      if (J->baseslot + len > LJ_MAX_JSLOTS)
-	lj_trace_err_info(J, LJ_TRERR_STACKOV);
-      rd->nres = len;
-      for (i = 0; i < len; i++) {
-	TRef tmp = emitir(IRTI(IR_ADD), trstart, lj_ir_kint(J, (int32_t)i));
-	tmp = emitir(IRT(IR_STRREF, IRT_P32), trstr, tmp);
-	J->base[i] = emitir(IRT(IR_XLOAD, IRT_U8), tmp, IRXLOAD_READONLY);
-      }
-    } else {  /* Empty range or range underflow: return no results. */
-      emitir(IRTGI(IR_LE), trend, trstart);
-      rd->nres = 0;
-    }
-  }
-}
-
-/* -- Table library fast functions ---------------------------------------- */
-
-static void LJ_FASTCALL recff_table_getn(jit_State *J, RecordFFData *rd)
-{
-  if (tref_istab(J->base[0]))
-    J->base[0] = lj_ir_call(J, IRCALL_lj_tab_len, J->base[0]);
-  /* else: Interpreter will throw. */
-  UNUSED(rd);
-}
-
-static void LJ_FASTCALL recff_table_remove(jit_State *J, RecordFFData *rd)
-{
-  TRef tab = J->base[0];
-  rd->nres = 0;
-  if (tref_istab(tab)) {
-    if (tref_isnil(J->base[1])) {  /* Simple pop: t[#t] = nil */
-      TRef trlen = lj_ir_call(J, IRCALL_lj_tab_len, tab);
-      GCtab *t = tabV(&rd->argv[0]);
-      MSize len = lj_tab_len(t);
-      emitir(IRTGI(len ? IR_NE : IR_EQ), trlen, lj_ir_kint(J, 0));
-      if (len) {
-	RecordIndex ix;
-	ix.tab = tab;
-	ix.key = trlen;
-	settabV(J->L, &ix.tabv, t);
-	setintV(&ix.keyv, len);
-	ix.idxchain = 0;
-	if (results_wanted(J) != 0) {  /* Specialize load only if needed. */
-	  ix.val = 0;
-	  J->base[0] = lj_record_idx(J, &ix);  /* Load previous value. */
-	  rd->nres = 1;
-	  /* Assumes ix.key/ix.tab is not modified for raw lj_record_idx(). */
-	}
-	ix.val = TREF_NIL;
-	lj_record_idx(J, &ix);  /* Remove value. */
-      }
-    } else {  /* Complex case: remove in the middle. */
-      recff_nyiu(J);
-    }
-  }  /* else: Interpreter will throw. */
-}
-
-static void LJ_FASTCALL recff_table_insert(jit_State *J, RecordFFData *rd)
-{
-  RecordIndex ix;
-  ix.tab = J->base[0];
-  ix.val = J->base[1];
-  rd->nres = 0;
-  if (tref_istab(ix.tab) && ix.val) {
-    if (!J->base[2]) {  /* Simple push: t[#t+1] = v */
-      TRef trlen = lj_ir_call(J, IRCALL_lj_tab_len, ix.tab);
-      GCtab *t = tabV(&rd->argv[0]);
-      ix.key = emitir(IRTI(IR_ADD), trlen, lj_ir_kint(J, 1));
-      settabV(J->L, &ix.tabv, t);
-      setintV(&ix.keyv, lj_tab_len(t) + 1);
-      ix.idxchain = 0;
-      lj_record_idx(J, &ix);  /* Set new value. */
-    } else {  /* Complex case: insert in the middle. */
-      recff_nyiu(J);
-    }
-  }  /* else: Interpreter will throw. */
-}
-
-/* -- I/O library fast functions ------------------------------------------ */
-
-/* Get FILE* for I/O function. Any I/O error aborts recording, so there's
-** no need to encode the alternate cases for any of the guards.
-*/
-static TRef recff_io_fp(jit_State *J, TRef *udp, int32_t id)
-{
-  TRef tr, ud, fp;
-  if (id) {  /* io.func() */
-    tr = lj_ir_kptr(J, &J2G(J)->gcroot[id]);
-    ud = emitir(IRT(IR_XLOAD, IRT_UDATA), tr, 0);
-  } else {  /* fp:method() */
-    ud = J->base[0];
-    if (!tref_isudata(ud))
-      lj_trace_err(J, LJ_TRERR_BADTYPE);
-    tr = emitir(IRT(IR_FLOAD, IRT_U8), ud, IRFL_UDATA_UDTYPE);
-    emitir(IRTGI(IR_EQ), tr, lj_ir_kint(J, UDTYPE_IO_FILE));
-  }
-  *udp = ud;
-  fp = emitir(IRT(IR_FLOAD, IRT_PTR), ud, IRFL_UDATA_FILE);
-  emitir(IRTG(IR_NE, IRT_PTR), fp, lj_ir_knull(J, IRT_PTR));
-  return fp;
-}
-
-static void LJ_FASTCALL recff_io_write(jit_State *J, RecordFFData *rd)
-{
-  TRef ud, fp = recff_io_fp(J, &ud, rd->data);
-  TRef zero = lj_ir_kint(J, 0);
-  TRef one = lj_ir_kint(J, 1);
-  ptrdiff_t i = rd->data == 0 ? 1 : 0;
-  for (; J->base[i]; i++) {
-    TRef str = lj_ir_tostr(J, J->base[i]);
-    TRef buf = emitir(IRT(IR_STRREF, IRT_P32), str, zero);
-    TRef len = emitir(IRTI(IR_FLOAD), str, IRFL_STR_LEN);
-    if (tref_isk(len) && IR(tref_ref(len))->i == 1) {
-      TRef tr = emitir(IRT(IR_XLOAD, IRT_U8), buf, IRXLOAD_READONLY);
-      tr = lj_ir_call(J, IRCALL_fputc, tr, fp);
-      if (results_wanted(J) != 0)  /* Check result only if not ignored. */
-	emitir(IRTGI(IR_NE), tr, lj_ir_kint(J, -1));
-    } else {
-      TRef tr = lj_ir_call(J, IRCALL_fwrite, buf, one, len, fp);
-      if (results_wanted(J) != 0)  /* Check result only if not ignored. */
-	emitir(IRTGI(IR_EQ), tr, len);
-    }
-  }
-  J->base[0] = LJ_52 ? ud : TREF_TRUE;
-}
-
-static void LJ_FASTCALL recff_io_flush(jit_State *J, RecordFFData *rd)
-{
-  TRef ud, fp = recff_io_fp(J, &ud, rd->data);
-  TRef tr = lj_ir_call(J, IRCALL_fflush, fp);
-  if (results_wanted(J) != 0)  /* Check result only if not ignored. */
-    emitir(IRTGI(IR_EQ), tr, lj_ir_kint(J, 0));
-  J->base[0] = TREF_TRUE;
-}
-
-/* -- Record calls to fast functions -------------------------------------- */
-
-#include "lj_recdef.h"
-
-static uint32_t recdef_lookup(GCfunc *fn)
-{
-  if (fn->c.ffid < sizeof(recff_idmap)/sizeof(recff_idmap[0]))
-    return recff_idmap[fn->c.ffid];
-  else
-    return 0;
-}
-
-/* Record entry to a fast function or C function. */
-void lj_ffrecord_func(jit_State *J)
-{
-  RecordFFData rd;
-  uint32_t m = recdef_lookup(J->fn);
-  rd.data = m & 0xff;
-  rd.nres = 1;  /* Default is one result. */
-  rd.argv = J->L->base;
-  J->base[J->maxslot] = 0;  /* Mark end of arguments. */
-  (recff_func[m >> 8])(J, &rd);  /* Call recff_* handler. */
-  if (rd.nres >= 0) {
-    if (J->postproc == LJ_POST_NONE) J->postproc = LJ_POST_FFRETRY;
-    lj_record_ret(J, 0, rd.nres);
-  }
-}
-
-#undef IR
-#undef emitir
-
-#endif
diff --git a/luajit-2.0/src/lj_ffrecord.h b/luajit-2.0/src/lj_ffrecord.h
deleted file mode 100644
index b3bc662..0000000
--- a/luajit-2.0/src/lj_ffrecord.h
+++ /dev/null
@@ -1,24 +0,0 @@
-/*
-** Fast function call recorder.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#ifndef _LJ_FFRECORD_H
-#define _LJ_FFRECORD_H
-
-#include "lj_obj.h"
-#include "lj_jit.h"
-
-#if LJ_HASJIT
-/* Data used by handlers to record a fast function. */
-typedef struct RecordFFData {
-  TValue *argv;		/* Runtime argument values. */
-  ptrdiff_t nres;	/* Number of returned results (defaults to 1). */
-  uint32_t data;	/* Per-ffid auxiliary data (opcode, literal etc.). */
-} RecordFFData;
-
-LJ_FUNC int32_t lj_ffrecord_select_mode(jit_State *J, TRef tr, TValue *tv);
-LJ_FUNC void lj_ffrecord_func(jit_State *J);
-#endif
-
-#endif
diff --git a/luajit-2.0/src/lj_frame.h b/luajit-2.0/src/lj_frame.h
deleted file mode 100644
index fb533b0..0000000
--- a/luajit-2.0/src/lj_frame.h
+++ /dev/null
@@ -1,183 +0,0 @@
-/*
-** Stack frames.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#ifndef _LJ_FRAME_H
-#define _LJ_FRAME_H
-
-#include "lj_obj.h"
-#include "lj_bc.h"
-
-/* -- Lua stack frame ----------------------------------------------------- */
-
-/* Frame type markers in callee function slot (callee base-1). */
-enum {
-  FRAME_LUA, FRAME_C, FRAME_CONT, FRAME_VARG,
-  FRAME_LUAP, FRAME_CP, FRAME_PCALL, FRAME_PCALLH
-};
-#define FRAME_TYPE		3
-#define FRAME_P			4
-#define FRAME_TYPEP		(FRAME_TYPE|FRAME_P)
-
-/* Macros to access and modify Lua frames. */
-#define frame_gc(f)		(gcref((f)->fr.func))
-#define frame_func(f)		(&frame_gc(f)->fn)
-#define frame_ftsz(f)		((f)->fr.tp.ftsz)
-
-#define frame_type(f)		(frame_ftsz(f) & FRAME_TYPE)
-#define frame_typep(f)		(frame_ftsz(f) & FRAME_TYPEP)
-#define frame_islua(f)		(frame_type(f) == FRAME_LUA)
-#define frame_isc(f)		(frame_type(f) == FRAME_C)
-#define frame_iscont(f)		(frame_typep(f) == FRAME_CONT)
-#define frame_isvarg(f)		(frame_typep(f) == FRAME_VARG)
-#define frame_ispcall(f)	((frame_ftsz(f) & 6) == FRAME_PCALL)
-
-#define frame_pc(f)		(mref((f)->fr.tp.pcr, const BCIns))
-#define frame_contpc(f)		(frame_pc((f)-1))
-#if LJ_64
-#define frame_contf(f) \
-  ((ASMFunction)(void *)((intptr_t)lj_vm_asm_begin + \
-			 (intptr_t)(int32_t)((f)-1)->u32.lo))
-#else
-#define frame_contf(f)		((ASMFunction)gcrefp(((f)-1)->gcr, void))
-#endif
-#define frame_delta(f)		(frame_ftsz(f) >> 3)
-#define frame_sized(f)		(frame_ftsz(f) & ~FRAME_TYPEP)
-
-#define frame_prevl(f)		((f) - (1+bc_a(frame_pc(f)[-1])))
-#define frame_prevd(f)		((TValue *)((char *)(f) - frame_sized(f)))
-#define frame_prev(f)		(frame_islua(f)?frame_prevl(f):frame_prevd(f))
-/* Note: this macro does not skip over FRAME_VARG. */
-
-#define setframe_pc(f, pc)	(setmref((f)->fr.tp.pcr, (pc)))
-#define setframe_ftsz(f, sz)	((f)->fr.tp.ftsz = (sz))
-#define setframe_gc(f, p)	(setgcref((f)->fr.func, (p)))
-
-/* -- C stack frame ------------------------------------------------------- */
-
-/* Macros to access and modify the C stack frame chain. */
-
-/* These definitions must match with the arch-specific *.dasc files. */
-#if LJ_TARGET_X86
-#define CFRAME_OFS_ERRF		(15*4)
-#define CFRAME_OFS_NRES		(14*4)
-#define CFRAME_OFS_PREV		(13*4)
-#define CFRAME_OFS_L		(12*4)
-#define CFRAME_OFS_PC		(6*4)
-#define CFRAME_OFS_MULTRES	(5*4)
-#define CFRAME_SIZE		(12*4)
-#define CFRAME_SHIFT_MULTRES	0
-#elif LJ_TARGET_X64
-#if LJ_ABI_WIN
-#define CFRAME_OFS_PREV		(13*8)
-#define CFRAME_OFS_PC		(25*4)
-#define CFRAME_OFS_L		(24*4)
-#define CFRAME_OFS_ERRF		(23*4)
-#define CFRAME_OFS_NRES		(22*4)
-#define CFRAME_OFS_MULTRES	(21*4)
-#define CFRAME_SIZE		(10*8)
-#define CFRAME_SIZE_JIT		(CFRAME_SIZE + 9*16 + 4*8)
-#define CFRAME_SHIFT_MULTRES	0
-#else
-#define CFRAME_OFS_PREV		(4*8)
-#define CFRAME_OFS_PC		(7*4)
-#define CFRAME_OFS_L		(6*4)
-#define CFRAME_OFS_ERRF		(5*4)
-#define CFRAME_OFS_NRES		(4*4)
-#define CFRAME_OFS_MULTRES	(1*4)
-#define CFRAME_SIZE		(10*8)
-#define CFRAME_SIZE_JIT		(CFRAME_SIZE + 16)
-#define CFRAME_SHIFT_MULTRES	0
-#endif
-#elif LJ_TARGET_ARM
-#define CFRAME_OFS_ERRF		24
-#define CFRAME_OFS_NRES		20
-#define CFRAME_OFS_PREV		16
-#define CFRAME_OFS_L		12
-#define CFRAME_OFS_PC		8
-#define CFRAME_OFS_MULTRES	4
-#if LJ_ARCH_HASFPU
-#define CFRAME_SIZE		128
-#else
-#define CFRAME_SIZE		64
-#endif
-#define CFRAME_SHIFT_MULTRES	3
-#elif LJ_TARGET_PPC
-#if LJ_TARGET_XBOX360
-#define CFRAME_OFS_ERRF		424
-#define CFRAME_OFS_NRES		420
-#define CFRAME_OFS_PREV		400
-#define CFRAME_OFS_L		416
-#define CFRAME_OFS_PC		412
-#define CFRAME_OFS_MULTRES	408
-#define CFRAME_SIZE		384
-#define CFRAME_SHIFT_MULTRES	3
-#elif LJ_ARCH_PPC64
-#define CFRAME_OFS_ERRF		472
-#define CFRAME_OFS_NRES		468
-#define CFRAME_OFS_PREV		448
-#define CFRAME_OFS_L		464
-#define CFRAME_OFS_PC		460
-#define CFRAME_OFS_MULTRES	456
-#define CFRAME_SIZE		400
-#define CFRAME_SHIFT_MULTRES	3
-#else
-#define CFRAME_OFS_ERRF		48
-#define CFRAME_OFS_NRES		44
-#define CFRAME_OFS_PREV		40
-#define CFRAME_OFS_L		36
-#define CFRAME_OFS_PC		32
-#define CFRAME_OFS_MULTRES	28
-#define CFRAME_SIZE		272
-#define CFRAME_SHIFT_MULTRES	3
-#endif
-#elif LJ_TARGET_PPCSPE
-#define CFRAME_OFS_ERRF		28
-#define CFRAME_OFS_NRES		24
-#define CFRAME_OFS_PREV		20
-#define CFRAME_OFS_L		16
-#define CFRAME_OFS_PC		12
-#define CFRAME_OFS_MULTRES	8
-#define CFRAME_SIZE		184
-#define CFRAME_SHIFT_MULTRES	3
-#elif LJ_TARGET_MIPS
-#define CFRAME_OFS_ERRF		124
-#define CFRAME_OFS_NRES		120
-#define CFRAME_OFS_PREV		116
-#define CFRAME_OFS_L		112
-#define CFRAME_OFS_PC		20
-#define CFRAME_OFS_MULTRES	16
-#define CFRAME_SIZE		112
-#define CFRAME_SHIFT_MULTRES	3
-#else
-#error "Missing CFRAME_* definitions for this architecture"
-#endif
-
-#ifndef CFRAME_SIZE_JIT
-#define CFRAME_SIZE_JIT		CFRAME_SIZE
-#endif
-
-#define CFRAME_RESUME		1
-#define CFRAME_UNWIND_FF	2  /* Only used in unwinder. */
-#define CFRAME_RAWMASK		(~(intptr_t)(CFRAME_RESUME|CFRAME_UNWIND_FF))
-
-#define cframe_errfunc(cf)	(*(int32_t *)(((char *)(cf))+CFRAME_OFS_ERRF))
-#define cframe_nres(cf)		(*(int32_t *)(((char *)(cf))+CFRAME_OFS_NRES))
-#define cframe_prev(cf)		(*(void **)(((char *)(cf))+CFRAME_OFS_PREV))
-#define cframe_multres(cf)  (*(uint32_t *)(((char *)(cf))+CFRAME_OFS_MULTRES))
-#define cframe_multres_n(cf)	(cframe_multres((cf)) >> CFRAME_SHIFT_MULTRES)
-#define cframe_L(cf) \
-  (&gcref(*(GCRef *)(((char *)(cf))+CFRAME_OFS_L))->th)
-#define cframe_pc(cf) \
-  (mref(*(MRef *)(((char *)(cf))+CFRAME_OFS_PC), const BCIns))
-#define setcframe_L(cf, L) \
-  (setmref(*(MRef *)(((char *)(cf))+CFRAME_OFS_L), (L)))
-#define setcframe_pc(cf, pc) \
-  (setmref(*(MRef *)(((char *)(cf))+CFRAME_OFS_PC), (pc)))
-#define cframe_canyield(cf)	((intptr_t)(cf) & CFRAME_RESUME)
-#define cframe_unwind_ff(cf)	((intptr_t)(cf) & CFRAME_UNWIND_FF)
-#define cframe_raw(cf)		((void *)((intptr_t)(cf) & CFRAME_RAWMASK))
-#define cframe_Lpc(L)		cframe_pc(cframe_raw(L->cframe))
-
-#endif
diff --git a/luajit-2.0/src/lj_func.c b/luajit-2.0/src/lj_func.c
deleted file mode 100644
index 9a59b0f..0000000
--- a/luajit-2.0/src/lj_func.c
+++ /dev/null
@@ -1,185 +0,0 @@
-/*
-** Function handling (prototypes, functions and upvalues).
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-**
-** Portions taken verbatim or adapted from the Lua interpreter.
-** Copyright (C) 1994-2008 Lua.org, PUC-Rio. See Copyright Notice in lua.h
-*/
-
-#define lj_func_c
-#define LUA_CORE
-
-#include "lj_obj.h"
-#include "lj_gc.h"
-#include "lj_func.h"
-#include "lj_trace.h"
-#include "lj_vm.h"
-
-/* -- Prototypes ---------------------------------------------------------- */
-
-void LJ_FASTCALL lj_func_freeproto(global_State *g, GCproto *pt)
-{
-  lj_mem_free(g, pt, pt->sizept);
-}
-
-/* -- Upvalues ------------------------------------------------------------ */
-
-static void unlinkuv(GCupval *uv)
-{
-  lua_assert(uvprev(uvnext(uv)) == uv && uvnext(uvprev(uv)) == uv);
-  setgcrefr(uvnext(uv)->prev, uv->prev);
-  setgcrefr(uvprev(uv)->next, uv->next);
-}
-
-/* Find existing open upvalue for a stack slot or create a new one. */
-static GCupval *func_finduv(lua_State *L, TValue *slot)
-{
-  global_State *g = G(L);
-  GCRef *pp = &L->openupval;
-  GCupval *p;
-  GCupval *uv;
-  /* Search the sorted list of open upvalues. */
-  while (gcref(*pp) != NULL && uvval((p = gco2uv(gcref(*pp)))) >= slot) {
-    lua_assert(!p->closed && uvval(p) != &p->tv);
-    if (uvval(p) == slot) {  /* Found open upvalue pointing to same slot? */
-      if (isdead(g, obj2gco(p)))  /* Resurrect it, if it's dead. */
-	flipwhite(obj2gco(p));
-      return p;
-    }
-    pp = &p->nextgc;
-  }
-  /* No matching upvalue found. Create a new one. */
-  uv = lj_mem_newt(L, sizeof(GCupval), GCupval);
-  newwhite(g, uv);
-  uv->gct = ~LJ_TUPVAL;
-  uv->closed = 0;  /* Still open. */
-  setmref(uv->v, slot);  /* Pointing to the stack slot. */
-  /* NOBARRIER: The GCupval is new (marked white) and open. */
-  setgcrefr(uv->nextgc, *pp);  /* Insert into sorted list of open upvalues. */
-  setgcref(*pp, obj2gco(uv));
-  setgcref(uv->prev, obj2gco(&g->uvhead));  /* Insert into GC list, too. */
-  setgcrefr(uv->next, g->uvhead.next);
-  setgcref(uvnext(uv)->prev, obj2gco(uv));
-  setgcref(g->uvhead.next, obj2gco(uv));
-  lua_assert(uvprev(uvnext(uv)) == uv && uvnext(uvprev(uv)) == uv);
-  return uv;
-}
-
-/* Create an empty and closed upvalue. */
-static GCupval *func_emptyuv(lua_State *L)
-{
-  GCupval *uv = (GCupval *)lj_mem_newgco(L, sizeof(GCupval));
-  uv->gct = ~LJ_TUPVAL;
-  uv->closed = 1;
-  setnilV(&uv->tv);
-  setmref(uv->v, &uv->tv);
-  return uv;
-}
-
-/* Close all open upvalues pointing to some stack level or above. */
-void LJ_FASTCALL lj_func_closeuv(lua_State *L, TValue *level)
-{
-  GCupval *uv;
-  global_State *g = G(L);
-  while (gcref(L->openupval) != NULL &&
-	 uvval((uv = gco2uv(gcref(L->openupval)))) >= level) {
-    GCobj *o = obj2gco(uv);
-    lua_assert(!isblack(o) && !uv->closed && uvval(uv) != &uv->tv);
-    setgcrefr(L->openupval, uv->nextgc);  /* No longer in open list. */
-    if (isdead(g, o)) {
-      lj_func_freeuv(g, uv);
-    } else {
-      unlinkuv(uv);
-      lj_gc_closeuv(g, uv);
-    }
-  }
-}
-
-void LJ_FASTCALL lj_func_freeuv(global_State *g, GCupval *uv)
-{
-  if (!uv->closed)
-    unlinkuv(uv);
-  lj_mem_freet(g, uv);
-}
-
-/* -- Functions (closures) ------------------------------------------------ */
-
-GCfunc *lj_func_newC(lua_State *L, MSize nelems, GCtab *env)
-{
-  GCfunc *fn = (GCfunc *)lj_mem_newgco(L, sizeCfunc(nelems));
-  fn->c.gct = ~LJ_TFUNC;
-  fn->c.ffid = FF_C;
-  fn->c.nupvalues = (uint8_t)nelems;
-  /* NOBARRIER: The GCfunc is new (marked white). */
-  setmref(fn->c.pc, &G(L)->bc_cfunc_ext);
-  setgcref(fn->c.env, obj2gco(env));
-  return fn;
-}
-
-static GCfunc *func_newL(lua_State *L, GCproto *pt, GCtab *env)
-{
-  uint32_t count;
-  GCfunc *fn = (GCfunc *)lj_mem_newgco(L, sizeLfunc((MSize)pt->sizeuv));
-  fn->l.gct = ~LJ_TFUNC;
-  fn->l.ffid = FF_LUA;
-  fn->l.nupvalues = 0;  /* Set to zero until upvalues are initialized. */
-  /* NOBARRIER: Really a setgcref. But the GCfunc is new (marked white). */
-  setmref(fn->l.pc, proto_bc(pt));
-  setgcref(fn->l.env, obj2gco(env));
-  /* Saturating 3 bit counter (0..7) for created closures. */
-  count = (uint32_t)pt->flags + PROTO_CLCOUNT;
-  pt->flags = (uint8_t)(count - ((count >> PROTO_CLC_BITS) & PROTO_CLCOUNT));
-  return fn;
-}
-
-/* Create a new Lua function with empty upvalues. */
-GCfunc *lj_func_newL_empty(lua_State *L, GCproto *pt, GCtab *env)
-{
-  GCfunc *fn = func_newL(L, pt, env);
-  MSize i, nuv = pt->sizeuv;
-  /* NOBARRIER: The GCfunc is new (marked white). */
-  for (i = 0; i < nuv; i++) {
-    GCupval *uv = func_emptyuv(L);
-    uv->dhash = (uint32_t)(uintptr_t)pt ^ ((uint32_t)proto_uv(pt)[i] << 24);
-    setgcref(fn->l.uvptr[i], obj2gco(uv));
-  }
-  fn->l.nupvalues = (uint8_t)nuv;
-  return fn;
-}
-
-/* Do a GC check and create a new Lua function with inherited upvalues. */
-GCfunc *lj_func_newL_gc(lua_State *L, GCproto *pt, GCfuncL *parent)
-{
-  GCfunc *fn;
-  GCRef *puv;
-  MSize i, nuv;
-  TValue *base;
-  lj_gc_check_fixtop(L);
-  fn = func_newL(L, pt, tabref(parent->env));
-  /* NOBARRIER: The GCfunc is new (marked white). */
-  puv = parent->uvptr;
-  nuv = pt->sizeuv;
-  base = L->base;
-  for (i = 0; i < nuv; i++) {
-    uint32_t v = proto_uv(pt)[i];
-    GCupval *uv;
-    if ((v & PROTO_UV_LOCAL)) {
-      uv = func_finduv(L, base + (v & 0xff));
-      uv->immutable = ((v / PROTO_UV_IMMUTABLE) & 1);
-      uv->dhash = (uint32_t)(uintptr_t)mref(parent->pc, char) ^ (v << 24);
-    } else {
-      uv = &gcref(puv[v])->uv;
-    }
-    setgcref(fn->l.uvptr[i], obj2gco(uv));
-  }
-  fn->l.nupvalues = (uint8_t)nuv;
-  return fn;
-}
-
-void LJ_FASTCALL lj_func_free(global_State *g, GCfunc *fn)
-{
-  MSize size = isluafunc(fn) ? sizeLfunc((MSize)fn->l.nupvalues) :
-			       sizeCfunc((MSize)fn->c.nupvalues);
-  lj_mem_free(g, fn, size);
-}
-
diff --git a/luajit-2.0/src/lj_func.h b/luajit-2.0/src/lj_func.h
deleted file mode 100644
index 88732e8..0000000
--- a/luajit-2.0/src/lj_func.h
+++ /dev/null
@@ -1,24 +0,0 @@
-/*
-** Function handling (prototypes, functions and upvalues).
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#ifndef _LJ_FUNC_H
-#define _LJ_FUNC_H
-
-#include "lj_obj.h"
-
-/* Prototypes. */
-LJ_FUNC void LJ_FASTCALL lj_func_freeproto(global_State *g, GCproto *pt);
-
-/* Upvalues. */
-LJ_FUNCA void LJ_FASTCALL lj_func_closeuv(lua_State *L, TValue *level);
-LJ_FUNC void LJ_FASTCALL lj_func_freeuv(global_State *g, GCupval *uv);
-
-/* Functions (closures). */
-LJ_FUNC GCfunc *lj_func_newC(lua_State *L, MSize nelems, GCtab *env);
-LJ_FUNC GCfunc *lj_func_newL_empty(lua_State *L, GCproto *pt, GCtab *env);
-LJ_FUNCA GCfunc *lj_func_newL_gc(lua_State *L, GCproto *pt, GCfuncL *parent);
-LJ_FUNC void LJ_FASTCALL lj_func_free(global_State *g, GCfunc *c);
-
-#endif
diff --git a/luajit-2.0/src/lj_gc.c b/luajit-2.0/src/lj_gc.c
deleted file mode 100644
index c856df4..0000000
--- a/luajit-2.0/src/lj_gc.c
+++ /dev/null
@@ -1,849 +0,0 @@
-/*
-** Garbage collector.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-**
-** Major portions taken verbatim or adapted from the Lua interpreter.
-** Copyright (C) 1994-2008 Lua.org, PUC-Rio. See Copyright Notice in lua.h
-*/
-
-#define lj_gc_c
-#define LUA_CORE
-
-#include "lj_obj.h"
-#include "lj_gc.h"
-#include "lj_err.h"
-#include "lj_str.h"
-#include "lj_tab.h"
-#include "lj_func.h"
-#include "lj_udata.h"
-#include "lj_meta.h"
-#include "lj_state.h"
-#include "lj_frame.h"
-#if LJ_HASFFI
-#include "lj_ctype.h"
-#include "lj_cdata.h"
-#endif
-#include "lj_trace.h"
-#include "lj_vm.h"
-
-#define GCSTEPSIZE	1024u
-#define GCSWEEPMAX	40
-#define GCSWEEPCOST	10
-#define GCFINALIZECOST	100
-
-/* Macros to set GCobj colors and flags. */
-#define white2gray(x)		((x)->gch.marked &= (uint8_t)~LJ_GC_WHITES)
-#define gray2black(x)		((x)->gch.marked |= LJ_GC_BLACK)
-#define isfinalized(u)		((u)->marked & LJ_GC_FINALIZED)
-
-/* -- Mark phase ---------------------------------------------------------- */
-
-/* Mark a TValue (if needed). */
-#define gc_marktv(g, tv) \
-  { lua_assert(!tvisgcv(tv) || (~itype(tv) == gcval(tv)->gch.gct)); \
-    if (tviswhite(tv)) gc_mark(g, gcV(tv)); }
-
-/* Mark a GCobj (if needed). */
-#define gc_markobj(g, o) \
-  { if (iswhite(obj2gco(o))) gc_mark(g, obj2gco(o)); }
-
-/* Mark a string object. */
-#define gc_mark_str(s)		((s)->marked &= (uint8_t)~LJ_GC_WHITES)
-
-/* Mark a white GCobj. */
-static void gc_mark(global_State *g, GCobj *o)
-{
-  int gct = o->gch.gct;
-  lua_assert(iswhite(o) && !isdead(g, o));
-  white2gray(o);
-  if (LJ_UNLIKELY(gct == ~LJ_TUDATA)) {
-    GCtab *mt = tabref(gco2ud(o)->metatable);
-    gray2black(o);  /* Userdata are never gray. */
-    if (mt) gc_markobj(g, mt);
-    gc_markobj(g, tabref(gco2ud(o)->env));
-  } else if (LJ_UNLIKELY(gct == ~LJ_TUPVAL)) {
-    GCupval *uv = gco2uv(o);
-    gc_marktv(g, uvval(uv));
-    if (uv->closed)
-      gray2black(o);  /* Closed upvalues are never gray. */
-  } else if (gct != ~LJ_TSTR && gct != ~LJ_TCDATA) {
-    lua_assert(gct == ~LJ_TFUNC || gct == ~LJ_TTAB ||
-	       gct == ~LJ_TTHREAD || gct == ~LJ_TPROTO);
-    setgcrefr(o->gch.gclist, g->gc.gray);
-    setgcref(g->gc.gray, o);
-  }
-}
-
-/* Mark GC roots. */
-static void gc_mark_gcroot(global_State *g)
-{
-  ptrdiff_t i;
-  for (i = 0; i < GCROOT_MAX; i++)
-    if (gcref(g->gcroot[i]) != NULL)
-      gc_markobj(g, gcref(g->gcroot[i]));
-}
-
-/* Start a GC cycle and mark the root set. */
-static void gc_mark_start(global_State *g)
-{
-  setgcrefnull(g->gc.gray);
-  setgcrefnull(g->gc.grayagain);
-  setgcrefnull(g->gc.weak);
-  gc_markobj(g, mainthread(g));
-  gc_markobj(g, tabref(mainthread(g)->env));
-  gc_marktv(g, &g->registrytv);
-  gc_mark_gcroot(g);
-  g->gc.state = GCSpropagate;
-}
-
-/* Mark open upvalues. */
-static void gc_mark_uv(global_State *g)
-{
-  GCupval *uv;
-  for (uv = uvnext(&g->uvhead); uv != &g->uvhead; uv = uvnext(uv)) {
-    lua_assert(uvprev(uvnext(uv)) == uv && uvnext(uvprev(uv)) == uv);
-    if (isgray(obj2gco(uv)))
-      gc_marktv(g, uvval(uv));
-  }
-}
-
-/* Mark userdata in mmudata list. */
-static void gc_mark_mmudata(global_State *g)
-{
-  GCobj *root = gcref(g->gc.mmudata);
-  GCobj *u = root;
-  if (u) {
-    do {
-      u = gcnext(u);
-      makewhite(g, u);  /* Could be from previous GC. */
-      gc_mark(g, u);
-    } while (u != root);
-  }
-}
-
-/* Separate userdata objects to be finalized to mmudata list. */
-size_t lj_gc_separateudata(global_State *g, int all)
-{
-  size_t m = 0;
-  GCRef *p = &mainthread(g)->nextgc;
-  GCobj *o;
-  while ((o = gcref(*p)) != NULL) {
-    if (!(iswhite(o) || all) || isfinalized(gco2ud(o))) {
-      p = &o->gch.nextgc;  /* Nothing to do. */
-    } else if (!lj_meta_fastg(g, tabref(gco2ud(o)->metatable), MM_gc)) {
-      markfinalized(o);  /* Done, as there's no __gc metamethod. */
-      p = &o->gch.nextgc;
-    } else {  /* Otherwise move userdata to be finalized to mmudata list. */
-      m += sizeudata(gco2ud(o));
-      markfinalized(o);
-      *p = o->gch.nextgc;
-      if (gcref(g->gc.mmudata)) {  /* Link to end of mmudata list. */
-	GCobj *root = gcref(g->gc.mmudata);
-	setgcrefr(o->gch.nextgc, root->gch.nextgc);
-	setgcref(root->gch.nextgc, o);
-	setgcref(g->gc.mmudata, o);
-      } else {  /* Create circular list. */
-	setgcref(o->gch.nextgc, o);
-	setgcref(g->gc.mmudata, o);
-      }
-    }
-  }
-  return m;
-}
-
-/* -- Propagation phase --------------------------------------------------- */
-
-/* Traverse a table. */
-static int gc_traverse_tab(global_State *g, GCtab *t)
-{
-  int weak = 0;
-  cTValue *mode;
-  GCtab *mt = tabref(t->metatable);
-  if (mt)
-    gc_markobj(g, mt);
-  mode = lj_meta_fastg(g, mt, MM_mode);
-  if (mode && tvisstr(mode)) {  /* Valid __mode field? */
-    const char *modestr = strVdata(mode);
-    int c;
-    while ((c = *modestr++)) {
-      if (c == 'k') weak |= LJ_GC_WEAKKEY;
-      else if (c == 'v') weak |= LJ_GC_WEAKVAL;
-      else if (c == 'K') weak = (int)(~0u & ~LJ_GC_WEAKVAL);
-    }
-    if (weak > 0) {  /* Weak tables are cleared in the atomic phase. */
-      t->marked = (uint8_t)((t->marked & ~LJ_GC_WEAK) | weak);
-      setgcrefr(t->gclist, g->gc.weak);
-      setgcref(g->gc.weak, obj2gco(t));
-    }
-  }
-  if (weak == LJ_GC_WEAK)  /* Nothing to mark if both keys/values are weak. */
-    return 1;
-  if (!(weak & LJ_GC_WEAKVAL)) {  /* Mark array part. */
-    MSize i, asize = t->asize;
-    for (i = 0; i < asize; i++)
-      gc_marktv(g, arrayslot(t, i));
-  }
-  if (t->hmask > 0) {  /* Mark hash part. */
-    Node *node = noderef(t->node);
-    MSize i, hmask = t->hmask;
-    for (i = 0; i <= hmask; i++) {
-      Node *n = &node[i];
-      if (!tvisnil(&n->val)) {  /* Mark non-empty slot. */
-	lua_assert(!tvisnil(&n->key));
-	if (!(weak & LJ_GC_WEAKKEY)) gc_marktv(g, &n->key);
-	if (!(weak & LJ_GC_WEAKVAL)) gc_marktv(g, &n->val);
-      }
-    }
-  }
-  return weak;
-}
-
-/* Traverse a function. */
-static void gc_traverse_func(global_State *g, GCfunc *fn)
-{
-  gc_markobj(g, tabref(fn->c.env));
-  if (isluafunc(fn)) {
-    uint32_t i;
-    lua_assert(fn->l.nupvalues <= funcproto(fn)->sizeuv);
-    gc_markobj(g, funcproto(fn));
-    for (i = 0; i < fn->l.nupvalues; i++)  /* Mark Lua function upvalues. */
-      gc_markobj(g, &gcref(fn->l.uvptr[i])->uv);
-  } else {
-    uint32_t i;
-    for (i = 0; i < fn->c.nupvalues; i++)  /* Mark C function upvalues. */
-      gc_marktv(g, &fn->c.upvalue[i]);
-  }
-}
-
-#if LJ_HASJIT
-/* Mark a trace. */
-static void gc_marktrace(global_State *g, TraceNo traceno)
-{
-  GCobj *o = obj2gco(traceref(G2J(g), traceno));
-  lua_assert(traceno != G2J(g)->cur.traceno);
-  if (iswhite(o)) {
-    white2gray(o);
-    setgcrefr(o->gch.gclist, g->gc.gray);
-    setgcref(g->gc.gray, o);
-  }
-}
-
-/* Traverse a trace. */
-static void gc_traverse_trace(global_State *g, GCtrace *T)
-{
-  IRRef ref;
-  if (T->traceno == 0) return;
-  for (ref = T->nk; ref < REF_TRUE; ref++) {
-    IRIns *ir = &T->ir[ref];
-    if (ir->o == IR_KGC)
-      gc_markobj(g, ir_kgc(ir));
-  }
-  if (T->link) gc_marktrace(g, T->link);
-  if (T->nextroot) gc_marktrace(g, T->nextroot);
-  if (T->nextside) gc_marktrace(g, T->nextside);
-  gc_markobj(g, gcref(T->startpt));
-}
-
-/* The current trace is a GC root while not anchored in the prototype (yet). */
-#define gc_traverse_curtrace(g)	gc_traverse_trace(g, &G2J(g)->cur)
-#else
-#define gc_traverse_curtrace(g)	UNUSED(g)
-#endif
-
-/* Traverse a prototype. */
-static void gc_traverse_proto(global_State *g, GCproto *pt)
-{
-  ptrdiff_t i;
-  gc_mark_str(proto_chunkname(pt));
-  for (i = -(ptrdiff_t)pt->sizekgc; i < 0; i++)  /* Mark collectable consts. */
-    gc_markobj(g, proto_kgc(pt, i));
-#if LJ_HASJIT
-  if (pt->trace) gc_marktrace(g, pt->trace);
-#endif
-}
-
-/* Traverse the frame structure of a stack. */
-static MSize gc_traverse_frames(global_State *g, lua_State *th)
-{
-  TValue *frame, *top = th->top-1, *bot = tvref(th->stack);
-  /* Note: extra vararg frame not skipped, marks function twice (harmless). */
-  for (frame = th->base-1; frame > bot; frame = frame_prev(frame)) {
-    GCfunc *fn = frame_func(frame);
-    TValue *ftop = frame;
-    if (isluafunc(fn)) ftop += funcproto(fn)->framesize;
-    if (ftop > top) top = ftop;
-    gc_markobj(g, fn);  /* Need to mark hidden function (or L). */
-  }
-  top++;  /* Correct bias of -1 (frame == base-1). */
-  if (top > tvref(th->maxstack)) top = tvref(th->maxstack);
-  return (MSize)(top - bot);  /* Return minimum needed stack size. */
-}
-
-/* Traverse a thread object. */
-static void gc_traverse_thread(global_State *g, lua_State *th)
-{
-  TValue *o, *top = th->top;
-  for (o = tvref(th->stack)+1; o < top; o++)
-    gc_marktv(g, o);
-  if (g->gc.state == GCSatomic) {
-    top = tvref(th->stack) + th->stacksize;
-    for (; o < top; o++)  /* Clear unmarked slots. */
-      setnilV(o);
-  }
-  gc_markobj(g, tabref(th->env));
-  lj_state_shrinkstack(th, gc_traverse_frames(g, th));
-}
-
-/* Propagate one gray object. Traverse it and turn it black. */
-static size_t propagatemark(global_State *g)
-{
-  GCobj *o = gcref(g->gc.gray);
-  int gct = o->gch.gct;
-  lua_assert(isgray(o));
-  gray2black(o);
-  setgcrefr(g->gc.gray, o->gch.gclist);  /* Remove from gray list. */
-  if (LJ_LIKELY(gct == ~LJ_TTAB)) {
-    GCtab *t = gco2tab(o);
-    if (gc_traverse_tab(g, t) > 0)
-      black2gray(o);  /* Keep weak tables gray. */
-    return sizeof(GCtab) + sizeof(TValue) * t->asize +
-			   sizeof(Node) * (t->hmask + 1);
-  } else if (LJ_LIKELY(gct == ~LJ_TFUNC)) {
-    GCfunc *fn = gco2func(o);
-    gc_traverse_func(g, fn);
-    return isluafunc(fn) ? sizeLfunc((MSize)fn->l.nupvalues) :
-			   sizeCfunc((MSize)fn->c.nupvalues);
-  } else if (LJ_LIKELY(gct == ~LJ_TPROTO)) {
-    GCproto *pt = gco2pt(o);
-    gc_traverse_proto(g, pt);
-    return pt->sizept;
-  } else if (LJ_LIKELY(gct == ~LJ_TTHREAD)) {
-    lua_State *th = gco2th(o);
-    setgcrefr(th->gclist, g->gc.grayagain);
-    setgcref(g->gc.grayagain, o);
-    black2gray(o);  /* Threads are never black. */
-    gc_traverse_thread(g, th);
-    return sizeof(lua_State) + sizeof(TValue) * th->stacksize;
-  } else {
-#if LJ_HASJIT
-    GCtrace *T = gco2trace(o);
-    gc_traverse_trace(g, T);
-    return ((sizeof(GCtrace)+7)&~7) + (T->nins-T->nk)*sizeof(IRIns) +
-	   T->nsnap*sizeof(SnapShot) + T->nsnapmap*sizeof(SnapEntry);
-#else
-    lua_assert(0);
-    return 0;
-#endif
-  }
-}
-
-/* Propagate all gray objects. */
-static size_t gc_propagate_gray(global_State *g)
-{
-  size_t m = 0;
-  while (gcref(g->gc.gray) != NULL)
-    m += propagatemark(g);
-  return m;
-}
-
-/* -- Sweep phase --------------------------------------------------------- */
-
-/* Try to shrink some common data structures. */
-static void gc_shrink(global_State *g, lua_State *L)
-{
-  if (g->strnum <= (g->strmask >> 2) && g->strmask > LJ_MIN_STRTAB*2-1)
-    lj_str_resize(L, g->strmask >> 1);  /* Shrink string table. */
-  if (g->tmpbuf.sz > LJ_MIN_SBUF*2)
-    lj_str_resizebuf(L, &g->tmpbuf, g->tmpbuf.sz >> 1);  /* Shrink temp buf. */
-}
-
-/* Type of GC free functions. */
-typedef void (LJ_FASTCALL *GCFreeFunc)(global_State *g, GCobj *o);
-
-/* GC free functions for LJ_TSTR .. LJ_TUDATA. ORDER LJ_T */
-static const GCFreeFunc gc_freefunc[] = {
-  (GCFreeFunc)lj_str_free,
-  (GCFreeFunc)lj_func_freeuv,
-  (GCFreeFunc)lj_state_free,
-  (GCFreeFunc)lj_func_freeproto,
-  (GCFreeFunc)lj_func_free,
-#if LJ_HASJIT
-  (GCFreeFunc)lj_trace_free,
-#else
-  (GCFreeFunc)0,
-#endif
-#if LJ_HASFFI
-  (GCFreeFunc)lj_cdata_free,
-#else
-  (GCFreeFunc)0,
-#endif
-  (GCFreeFunc)lj_tab_free,
-  (GCFreeFunc)lj_udata_free
-};
-
-/* Full sweep of a GC list. */
-#define gc_fullsweep(g, p)	gc_sweep(g, (p), LJ_MAX_MEM)
-
-/* Partial sweep of a GC list. */
-static GCRef *gc_sweep(global_State *g, GCRef *p, uint32_t lim)
-{
-  /* Mask with other white and LJ_GC_FIXED. Or LJ_GC_SFIXED on shutdown. */
-  int ow = otherwhite(g);
-  GCobj *o;
-  while ((o = gcref(*p)) != NULL && lim-- > 0) {
-    if (o->gch.gct == ~LJ_TTHREAD)  /* Need to sweep open upvalues, too. */
-      gc_fullsweep(g, &gco2th(o)->openupval);
-    if (((o->gch.marked ^ LJ_GC_WHITES) & ow)) {  /* Black or current white? */
-      lua_assert(!isdead(g, o) || (o->gch.marked & LJ_GC_FIXED));
-      makewhite(g, o);  /* Value is alive, change to the current white. */
-      p = &o->gch.nextgc;
-    } else {  /* Otherwise value is dead, free it. */
-      lua_assert(isdead(g, o) || ow == LJ_GC_SFIXED);
-      setgcrefr(*p, o->gch.nextgc);
-      if (o == gcref(g->gc.root))
-	setgcrefr(g->gc.root, o->gch.nextgc);  /* Adjust list anchor. */
-      gc_freefunc[o->gch.gct - ~LJ_TSTR](g, o);
-    }
-  }
-  return p;
-}
-
-/* Check whether we can clear a key or a value slot from a table. */
-static int gc_mayclear(cTValue *o, int val)
-{
-  if (tvisgcv(o)) {  /* Only collectable objects can be weak references. */
-    if (tvisstr(o)) {  /* But strings cannot be used as weak references. */
-      gc_mark_str(strV(o));  /* And need to be marked. */
-      return 0;
-    }
-    if (iswhite(gcV(o)))
-      return 1;  /* Object is about to be collected. */
-    if (tvisudata(o) && val && isfinalized(udataV(o)))
-      return 1;  /* Finalized userdata is dropped only from values. */
-  }
-  return 0;  /* Cannot clear. */
-}
-
-/* Clear collected entries from weak tables. */
-static void gc_clearweak(GCobj *o)
-{
-  while (o) {
-    GCtab *t = gco2tab(o);
-    lua_assert((t->marked & LJ_GC_WEAK));
-    if ((t->marked & LJ_GC_WEAKVAL)) {
-      MSize i, asize = t->asize;
-      for (i = 0; i < asize; i++) {
-	/* Clear array slot when value is about to be collected. */
-	TValue *tv = arrayslot(t, i);
-	if (gc_mayclear(tv, 1))
-	  setnilV(tv);
-      }
-    }
-    if (t->hmask > 0) {
-      Node *node = noderef(t->node);
-      MSize i, hmask = t->hmask;
-      for (i = 0; i <= hmask; i++) {
-	Node *n = &node[i];
-	/* Clear hash slot when key or value is about to be collected. */
-	if (!tvisnil(&n->val) && (gc_mayclear(&n->key, 0) ||
-				  gc_mayclear(&n->val, 1)))
-	  setnilV(&n->val);
-      }
-    }
-    o = gcref(t->gclist);
-  }
-}
-
-/* Call a userdata or cdata finalizer. */
-static void gc_call_finalizer(global_State *g, lua_State *L,
-			      cTValue *mo, GCobj *o)
-{
-  /* Save and restore lots of state around the __gc callback. */
-  uint8_t oldh = hook_save(g);
-  MSize oldt = g->gc.threshold;
-  int errcode;
-  TValue *top;
-  lj_trace_abort(g);
-  top = L->top;
-  L->top = top+2;
-  hook_entergc(g);  /* Disable hooks and new traces during __gc. */
-  g->gc.threshold = LJ_MAX_MEM;  /* Prevent GC steps. */
-  copyTV(L, top, mo);
-  setgcV(L, top+1, o, ~o->gch.gct);
-  errcode = lj_vm_pcall(L, top+1, 1+0, -1);  /* Stack: |mo|o| -> | */
-  hook_restore(g, oldh);
-  g->gc.threshold = oldt;  /* Restore GC threshold. */
-  if (errcode)
-    lj_err_throw(L, errcode);  /* Propagate errors. */
-}
-
-/* Finalize one userdata or cdata object from the mmudata list. */
-static void gc_finalize(lua_State *L)
-{
-  global_State *g = G(L);
-  GCobj *o = gcnext(gcref(g->gc.mmudata));
-  cTValue *mo;
-  lua_assert(gcref(g->jit_L) == NULL);  /* Must not be called on trace. */
-  /* Unchain from list of userdata to be finalized. */
-  if (o == gcref(g->gc.mmudata))
-    setgcrefnull(g->gc.mmudata);
-  else
-    setgcrefr(gcref(g->gc.mmudata)->gch.nextgc, o->gch.nextgc);
-#if LJ_HASFFI
-  if (o->gch.gct == ~LJ_TCDATA) {
-    TValue tmp, *tv;
-    /* Add cdata back to the GC list and make it white. */
-    setgcrefr(o->gch.nextgc, g->gc.root);
-    setgcref(g->gc.root, o);
-    makewhite(g, o);
-    o->gch.marked &= (uint8_t)~LJ_GC_CDATA_FIN;
-    /* Resolve finalizer. */
-    setcdataV(L, &tmp, gco2cd(o));
-    tv = lj_tab_set(L, ctype_ctsG(g)->finalizer, &tmp);
-    if (!tvisnil(tv)) {
-      g->gc.nocdatafin = 0;
-      copyTV(L, &tmp, tv);
-      setnilV(tv);  /* Clear entry in finalizer table. */
-      gc_call_finalizer(g, L, &tmp, o);
-    }
-    return;
-  }
-#endif
-  /* Add userdata back to the main userdata list and make it white. */
-  setgcrefr(o->gch.nextgc, mainthread(g)->nextgc);
-  setgcref(mainthread(g)->nextgc, o);
-  makewhite(g, o);
-  /* Resolve the __gc metamethod. */
-  mo = lj_meta_fastg(g, tabref(gco2ud(o)->metatable), MM_gc);
-  if (mo)
-    gc_call_finalizer(g, L, mo, o);
-}
-
-/* Finalize all userdata objects from mmudata list. */
-void lj_gc_finalize_udata(lua_State *L)
-{
-  while (gcref(G(L)->gc.mmudata) != NULL)
-    gc_finalize(L);
-}
-
-#if LJ_HASFFI
-/* Finalize all cdata objects from finalizer table. */
-void lj_gc_finalize_cdata(lua_State *L)
-{
-  global_State *g = G(L);
-  CTState *cts = ctype_ctsG(g);
-  if (cts) {
-    GCtab *t = cts->finalizer;
-    Node *node = noderef(t->node);
-    ptrdiff_t i;
-    setgcrefnull(t->metatable);  /* Mark finalizer table as disabled. */
-    for (i = (ptrdiff_t)t->hmask; i >= 0; i--)
-      if (!tvisnil(&node[i].val) && tviscdata(&node[i].key)) {
-	GCobj *o = gcV(&node[i].key);
-	TValue tmp;
-	makewhite(g, o);
-	o->gch.marked &= (uint8_t)~LJ_GC_CDATA_FIN;
-	copyTV(L, &tmp, &node[i].val);
-	setnilV(&node[i].val);
-	gc_call_finalizer(g, L, &tmp, o);
-      }
-  }
-}
-#endif
-
-/* Free all remaining GC objects. */
-void lj_gc_freeall(global_State *g)
-{
-  MSize i, strmask;
-  /* Free everything, except super-fixed objects (the main thread). */
-  g->gc.currentwhite = LJ_GC_WHITES | LJ_GC_SFIXED;
-  gc_fullsweep(g, &g->gc.root);
-  strmask = g->strmask;
-  for (i = 0; i <= strmask; i++)  /* Free all string hash chains. */
-    gc_fullsweep(g, &g->strhash[i]);
-}
-
-/* -- Collector ----------------------------------------------------------- */
-
-/* Atomic part of the GC cycle, transitioning from mark to sweep phase. */
-static void atomic(global_State *g, lua_State *L)
-{
-  size_t udsize;
-
-  gc_mark_uv(g);  /* Need to remark open upvalues (the thread may be dead). */
-  gc_propagate_gray(g);  /* Propagate any left-overs. */
-
-  setgcrefr(g->gc.gray, g->gc.weak);  /* Empty the list of weak tables. */
-  setgcrefnull(g->gc.weak);
-  lua_assert(!iswhite(obj2gco(mainthread(g))));
-  gc_markobj(g, L);  /* Mark running thread. */
-  gc_traverse_curtrace(g);  /* Traverse current trace. */
-  gc_mark_gcroot(g);  /* Mark GC roots (again). */
-  gc_propagate_gray(g);  /* Propagate all of the above. */
-
-  setgcrefr(g->gc.gray, g->gc.grayagain);  /* Empty the 2nd chance list. */
-  setgcrefnull(g->gc.grayagain);
-  gc_propagate_gray(g);  /* Propagate it. */
-
-  udsize = lj_gc_separateudata(g, 0);  /* Separate userdata to be finalized. */
-  gc_mark_mmudata(g);  /* Mark them. */
-  udsize += gc_propagate_gray(g);  /* And propagate the marks. */
-
-  /* All marking done, clear weak tables. */
-  gc_clearweak(gcref(g->gc.weak));
-
-  /* Prepare for sweep phase. */
-  g->gc.currentwhite = (uint8_t)otherwhite(g);  /* Flip current white. */
-  g->strempty.marked = g->gc.currentwhite;
-  setmref(g->gc.sweep, &g->gc.root);
-  g->gc.estimate = g->gc.total - (MSize)udsize;  /* Initial estimate. */
-}
-
-/* GC state machine. Returns a cost estimate for each step performed. */
-static size_t gc_onestep(lua_State *L)
-{
-  global_State *g = G(L);
-  switch (g->gc.state) {
-  case GCSpause:
-    gc_mark_start(g);  /* Start a new GC cycle by marking all GC roots. */
-    return 0;
-  case GCSpropagate:
-    if (gcref(g->gc.gray) != NULL)
-      return propagatemark(g);  /* Propagate one gray object. */
-    g->gc.state = GCSatomic;  /* End of mark phase. */
-    return 0;
-  case GCSatomic:
-    if (gcref(g->jit_L))  /* Don't run atomic phase on trace. */
-      return LJ_MAX_MEM;
-    atomic(g, L);
-    g->gc.state = GCSsweepstring;  /* Start of sweep phase. */
-    g->gc.sweepstr = 0;
-    return 0;
-  case GCSsweepstring: {
-    MSize old = g->gc.total;
-    gc_fullsweep(g, &g->strhash[g->gc.sweepstr++]);  /* Sweep one chain. */
-    if (g->gc.sweepstr > g->strmask)
-      g->gc.state = GCSsweep;  /* All string hash chains sweeped. */
-    lua_assert(old >= g->gc.total);
-    g->gc.estimate -= old - g->gc.total;
-    return GCSWEEPCOST;
-    }
-  case GCSsweep: {
-    MSize old = g->gc.total;
-    setmref(g->gc.sweep, gc_sweep(g, mref(g->gc.sweep, GCRef), GCSWEEPMAX));
-    lua_assert(old >= g->gc.total);
-    g->gc.estimate -= old - g->gc.total;
-    if (gcref(*mref(g->gc.sweep, GCRef)) == NULL) {
-      gc_shrink(g, L);
-      if (gcref(g->gc.mmudata)) {  /* Need any finalizations? */
-	g->gc.state = GCSfinalize;
-#if LJ_HASFFI
-	g->gc.nocdatafin = 1;
-#endif
-      } else {  /* Otherwise skip this phase to help the JIT. */
-	g->gc.state = GCSpause;  /* End of GC cycle. */
-	g->gc.debt = 0;
-      }
-    }
-    return GCSWEEPMAX*GCSWEEPCOST;
-    }
-  case GCSfinalize:
-    if (gcref(g->gc.mmudata) != NULL) {
-      if (gcref(g->jit_L))  /* Don't call finalizers on trace. */
-	return LJ_MAX_MEM;
-      gc_finalize(L);  /* Finalize one userdata object. */
-      if (g->gc.estimate > GCFINALIZECOST)
-	g->gc.estimate -= GCFINALIZECOST;
-      return GCFINALIZECOST;
-    }
-#if LJ_HASFFI
-    if (!g->gc.nocdatafin) lj_tab_rehash(L, ctype_ctsG(g)->finalizer);
-#endif
-    g->gc.state = GCSpause;  /* End of GC cycle. */
-    g->gc.debt = 0;
-    return 0;
-  default:
-    lua_assert(0);
-    return 0;
-  }
-}
-
-/* Perform a limited amount of incremental GC steps. */
-int LJ_FASTCALL lj_gc_step(lua_State *L)
-{
-  global_State *g = G(L);
-  MSize lim;
-  int32_t ostate = g->vmstate;
-  setvmstate(g, GC);
-  lim = (GCSTEPSIZE/100) * g->gc.stepmul;
-  if (lim == 0)
-    lim = LJ_MAX_MEM;
-  if (g->gc.total > g->gc.threshold)
-    g->gc.debt += g->gc.total - g->gc.threshold;
-  do {
-    lim -= (MSize)gc_onestep(L);
-    if (g->gc.state == GCSpause) {
-      g->gc.threshold = (g->gc.estimate/100) * g->gc.pause;
-      g->vmstate = ostate;
-      return 1;  /* Finished a GC cycle. */
-    }
-  } while ((int32_t)lim > 0);
-  if (g->gc.debt < GCSTEPSIZE) {
-    g->gc.threshold = g->gc.total + GCSTEPSIZE;
-    g->vmstate = ostate;
-    return -1;
-  } else {
-    g->gc.debt -= GCSTEPSIZE;
-    g->gc.threshold = g->gc.total;
-    g->vmstate = ostate;
-    return 0;
-  }
-}
-
-/* Ditto, but fix the stack top first. */
-void LJ_FASTCALL lj_gc_step_fixtop(lua_State *L)
-{
-  if (curr_funcisL(L)) L->top = curr_topL(L);
-  lj_gc_step(L);
-}
-
-#if LJ_HASJIT
-/* Perform multiple GC steps. Called from JIT-compiled code. */
-int LJ_FASTCALL lj_gc_step_jit(global_State *g, MSize steps)
-{
-  lua_State *L = gco2th(gcref(g->jit_L));
-  L->base = mref(G(L)->jit_base, TValue);
-  L->top = curr_topL(L);
-  while (steps-- > 0 && lj_gc_step(L) == 0)
-    ;
-  /* Return 1 to force a trace exit. */
-  return (G(L)->gc.state == GCSatomic || G(L)->gc.state == GCSfinalize);
-}
-#endif
-
-/* Perform a full GC cycle. */
-void lj_gc_fullgc(lua_State *L)
-{
-  global_State *g = G(L);
-  int32_t ostate = g->vmstate;
-  setvmstate(g, GC);
-  if (g->gc.state <= GCSatomic) {  /* Caught somewhere in the middle. */
-    setmref(g->gc.sweep, &g->gc.root);  /* Sweep everything (preserving it). */
-    setgcrefnull(g->gc.gray);  /* Reset lists from partial propagation. */
-    setgcrefnull(g->gc.grayagain);
-    setgcrefnull(g->gc.weak);
-    g->gc.state = GCSsweepstring;  /* Fast forward to the sweep phase. */
-    g->gc.sweepstr = 0;
-  }
-  while (g->gc.state == GCSsweepstring || g->gc.state == GCSsweep)
-    gc_onestep(L);  /* Finish sweep. */
-  lua_assert(g->gc.state == GCSfinalize || g->gc.state == GCSpause);
-  /* Now perform a full GC. */
-  g->gc.state = GCSpause;
-  do { gc_onestep(L); } while (g->gc.state != GCSpause);
-  g->gc.threshold = (g->gc.estimate/100) * g->gc.pause;
-  g->vmstate = ostate;
-}
-
-/* -- Write barriers ------------------------------------------------------ */
-
-/* Move the GC propagation frontier forward. */
-void lj_gc_barrierf(global_State *g, GCobj *o, GCobj *v)
-{
-  lua_assert(isblack(o) && iswhite(v) && !isdead(g, v) && !isdead(g, o));
-  lua_assert(g->gc.state != GCSfinalize && g->gc.state != GCSpause);
-  lua_assert(o->gch.gct != ~LJ_TTAB);
-  /* Preserve invariant during propagation. Otherwise it doesn't matter. */
-  if (g->gc.state == GCSpropagate || g->gc.state == GCSatomic)
-    gc_mark(g, v);  /* Move frontier forward. */
-  else
-    makewhite(g, o);  /* Make it white to avoid the following barrier. */
-}
-
-/* Specialized barrier for closed upvalue. Pass &uv->tv. */
-void LJ_FASTCALL lj_gc_barrieruv(global_State *g, TValue *tv)
-{
-#define TV2MARKED(x) \
-  (*((uint8_t *)(x) - offsetof(GCupval, tv) + offsetof(GCupval, marked)))
-  if (g->gc.state == GCSpropagate || g->gc.state == GCSatomic)
-    gc_mark(g, gcV(tv));
-  else
-    TV2MARKED(tv) = (TV2MARKED(tv) & (uint8_t)~LJ_GC_COLORS) | curwhite(g);
-#undef TV2MARKED
-}
-
-/* Close upvalue. Also needs a write barrier. */
-void lj_gc_closeuv(global_State *g, GCupval *uv)
-{
-  GCobj *o = obj2gco(uv);
-  /* Copy stack slot to upvalue itself and point to the copy. */
-  copyTV(mainthread(g), &uv->tv, uvval(uv));
-  setmref(uv->v, &uv->tv);
-  uv->closed = 1;
-  setgcrefr(o->gch.nextgc, g->gc.root);
-  setgcref(g->gc.root, o);
-  if (isgray(o)) {  /* A closed upvalue is never gray, so fix this. */
-    if (g->gc.state == GCSpropagate || g->gc.state == GCSatomic) {
-      gray2black(o);  /* Make it black and preserve invariant. */
-      if (tviswhite(&uv->tv))
-	lj_gc_barrierf(g, o, gcV(&uv->tv));
-    } else {
-      makewhite(g, o);  /* Make it white, i.e. sweep the upvalue. */
-      lua_assert(g->gc.state != GCSfinalize && g->gc.state != GCSpause);
-    }
-  }
-}
-
-#if LJ_HASJIT
-/* Mark a trace if it's saved during the propagation phase. */
-void lj_gc_barriertrace(global_State *g, uint32_t traceno)
-{
-  if (g->gc.state == GCSpropagate || g->gc.state == GCSatomic)
-    gc_marktrace(g, traceno);
-}
-#endif
-
-/* -- Allocator ----------------------------------------------------------- */
-
-/* Call pluggable memory allocator to allocate or resize a fragment. */
-void *lj_mem_realloc(lua_State *L, void *p, MSize osz, MSize nsz)
-{
-  global_State *g = G(L);
-  lua_assert((osz == 0) == (p == NULL));
-  p = g->allocf(g->allocd, p, osz, nsz);
-  if (p == NULL && nsz > 0)
-    lj_err_mem(L);
-  lua_assert((nsz == 0) == (p == NULL));
-  lua_assert(checkptr32(p));
-  g->gc.total = (g->gc.total - osz) + nsz;
-  return p;
-}
-
-/* Allocate new GC object and link it to the root set. */
-void * LJ_FASTCALL lj_mem_newgco(lua_State *L, MSize size)
-{
-  global_State *g = G(L);
-  GCobj *o = (GCobj *)g->allocf(g->allocd, NULL, 0, size);
-  if (o == NULL)
-    lj_err_mem(L);
-  lua_assert(checkptr32(o));
-  g->gc.total += size;
-  setgcrefr(o->gch.nextgc, g->gc.root);
-  setgcref(g->gc.root, o);
-  newwhite(g, o);
-  return o;
-}
-
-/* Resize growable vector. */
-void *lj_mem_grow(lua_State *L, void *p, MSize *szp, MSize lim, MSize esz)
-{
-  MSize sz = (*szp) << 1;
-  if (sz < LJ_MIN_VECSZ)
-    sz = LJ_MIN_VECSZ;
-  if (sz > lim)
-    sz = lim;
-  p = lj_mem_realloc(L, p, (*szp)*esz, sz*esz);
-  *szp = sz;
-  return p;
-}
-
diff --git a/luajit-2.0/src/lj_gc.h b/luajit-2.0/src/lj_gc.h
deleted file mode 100644
index c85d075..0000000
--- a/luajit-2.0/src/lj_gc.h
+++ /dev/null
@@ -1,134 +0,0 @@
-/*
-** Garbage collector.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#ifndef _LJ_GC_H
-#define _LJ_GC_H
-
-#include "lj_obj.h"
-
-/* Garbage collector states. Order matters. */
-enum {
-  GCSpause, GCSpropagate, GCSatomic, GCSsweepstring, GCSsweep, GCSfinalize
-};
-
-/* Bitmasks for marked field of GCobj. */
-#define LJ_GC_WHITE0	0x01
-#define LJ_GC_WHITE1	0x02
-#define LJ_GC_BLACK	0x04
-#define LJ_GC_FINALIZED	0x08
-#define LJ_GC_WEAKKEY	0x08
-#define LJ_GC_WEAKVAL	0x10
-#define LJ_GC_CDATA_FIN	0x10
-#define LJ_GC_FIXED	0x20
-#define LJ_GC_SFIXED	0x40
-
-#define LJ_GC_WHITES	(LJ_GC_WHITE0 | LJ_GC_WHITE1)
-#define LJ_GC_COLORS	(LJ_GC_WHITES | LJ_GC_BLACK)
-#define LJ_GC_WEAK	(LJ_GC_WEAKKEY | LJ_GC_WEAKVAL)
-
-/* Macros to test and set GCobj colors. */
-#define iswhite(x)	((x)->gch.marked & LJ_GC_WHITES)
-#define isblack(x)	((x)->gch.marked & LJ_GC_BLACK)
-#define isgray(x)	(!((x)->gch.marked & (LJ_GC_BLACK|LJ_GC_WHITES)))
-#define tviswhite(x)	(tvisgcv(x) && iswhite(gcV(x)))
-#define otherwhite(g)	(g->gc.currentwhite ^ LJ_GC_WHITES)
-#define isdead(g, v)	((v)->gch.marked & otherwhite(g) & LJ_GC_WHITES)
-
-#define curwhite(g)	((g)->gc.currentwhite & LJ_GC_WHITES)
-#define newwhite(g, x)	(obj2gco(x)->gch.marked = (uint8_t)curwhite(g))
-#define makewhite(g, x) \
-  ((x)->gch.marked = ((x)->gch.marked & (uint8_t)~LJ_GC_COLORS) | curwhite(g))
-#define flipwhite(x)	((x)->gch.marked ^= LJ_GC_WHITES)
-#define black2gray(x)	((x)->gch.marked &= (uint8_t)~LJ_GC_BLACK)
-#define fixstring(s)	((s)->marked |= LJ_GC_FIXED)
-#define markfinalized(x)	((x)->gch.marked |= LJ_GC_FINALIZED)
-
-/* Collector. */
-LJ_FUNC size_t lj_gc_separateudata(global_State *g, int all);
-LJ_FUNC void lj_gc_finalize_udata(lua_State *L);
-#if LJ_HASFFI
-LJ_FUNC void lj_gc_finalize_cdata(lua_State *L);
-#else
-#define lj_gc_finalize_cdata(L)		UNUSED(L)
-#endif
-LJ_FUNC void lj_gc_freeall(global_State *g);
-LJ_FUNCA int LJ_FASTCALL lj_gc_step(lua_State *L);
-LJ_FUNCA void LJ_FASTCALL lj_gc_step_fixtop(lua_State *L);
-#if LJ_HASJIT
-LJ_FUNC int LJ_FASTCALL lj_gc_step_jit(global_State *g, MSize steps);
-#endif
-LJ_FUNC void lj_gc_fullgc(lua_State *L);
-
-/* GC check: drive collector forward if the GC threshold has been reached. */
-#define lj_gc_check(L) \
-  { if (LJ_UNLIKELY(G(L)->gc.total >= G(L)->gc.threshold)) \
-      lj_gc_step(L); }
-#define lj_gc_check_fixtop(L) \
-  { if (LJ_UNLIKELY(G(L)->gc.total >= G(L)->gc.threshold)) \
-      lj_gc_step_fixtop(L); }
-
-/* Write barriers. */
-LJ_FUNC void lj_gc_barrierf(global_State *g, GCobj *o, GCobj *v);
-LJ_FUNCA void LJ_FASTCALL lj_gc_barrieruv(global_State *g, TValue *tv);
-LJ_FUNC void lj_gc_closeuv(global_State *g, GCupval *uv);
-#if LJ_HASJIT
-LJ_FUNC void lj_gc_barriertrace(global_State *g, uint32_t traceno);
-#endif
-
-/* Move the GC propagation frontier back for tables (make it gray again). */
-static LJ_AINLINE void lj_gc_barrierback(global_State *g, GCtab *t)
-{
-  GCobj *o = obj2gco(t);
-  lua_assert(isblack(o) && !isdead(g, o));
-  lua_assert(g->gc.state != GCSfinalize && g->gc.state != GCSpause);
-  black2gray(o);
-  setgcrefr(t->gclist, g->gc.grayagain);
-  setgcref(g->gc.grayagain, o);
-}
-
-/* Barrier for stores to table objects. TValue and GCobj variant. */
-#define lj_gc_anybarriert(L, t)  \
-  { if (LJ_UNLIKELY(isblack(obj2gco(t)))) lj_gc_barrierback(G(L), (t)); }
-#define lj_gc_barriert(L, t, tv) \
-  { if (tviswhite(tv) && isblack(obj2gco(t))) \
-      lj_gc_barrierback(G(L), (t)); }
-#define lj_gc_objbarriert(L, t, o)  \
-  { if (iswhite(obj2gco(o)) && isblack(obj2gco(t))) \
-      lj_gc_barrierback(G(L), (t)); }
-
-/* Barrier for stores to any other object. TValue and GCobj variant. */
-#define lj_gc_barrier(L, p, tv) \
-  { if (tviswhite(tv) && isblack(obj2gco(p))) \
-      lj_gc_barrierf(G(L), obj2gco(p), gcV(tv)); }
-#define lj_gc_objbarrier(L, p, o) \
-  { if (iswhite(obj2gco(o)) && isblack(obj2gco(p))) \
-      lj_gc_barrierf(G(L), obj2gco(p), obj2gco(o)); }
-
-/* Allocator. */
-LJ_FUNC void *lj_mem_realloc(lua_State *L, void *p, MSize osz, MSize nsz);
-LJ_FUNC void * LJ_FASTCALL lj_mem_newgco(lua_State *L, MSize size);
-LJ_FUNC void *lj_mem_grow(lua_State *L, void *p,
-			  MSize *szp, MSize lim, MSize esz);
-
-#define lj_mem_new(L, s)	lj_mem_realloc(L, NULL, 0, (s))
-
-static LJ_AINLINE void lj_mem_free(global_State *g, void *p, size_t osize)
-{
-  g->gc.total -= (MSize)osize;
-  g->allocf(g->allocd, p, osize, 0);
-}
-
-#define lj_mem_newvec(L, n, t)	((t *)lj_mem_new(L, (MSize)((n)*sizeof(t))))
-#define lj_mem_reallocvec(L, p, on, n, t) \
-  ((p) = (t *)lj_mem_realloc(L, p, (on)*sizeof(t), (MSize)((n)*sizeof(t))))
-#define lj_mem_growvec(L, p, n, m, t) \
-  ((p) = (t *)lj_mem_grow(L, (p), &(n), (m), (MSize)sizeof(t)))
-#define lj_mem_freevec(g, p, n, t)	lj_mem_free(g, (p), (n)*sizeof(t))
-
-#define lj_mem_newobj(L, t)	((t *)lj_mem_newgco(L, sizeof(t)))
-#define lj_mem_newt(L, s, t)	((t *)lj_mem_new(L, (s)))
-#define lj_mem_freet(g, p)	lj_mem_free(g, (p), sizeof(*(p)))
-
-#endif
diff --git a/luajit-2.0/src/lj_gdbjit.c b/luajit-2.0/src/lj_gdbjit.c
deleted file mode 100644
index d999986..0000000
--- a/luajit-2.0/src/lj_gdbjit.c
+++ /dev/null
@@ -1,795 +0,0 @@
-/*
-** Client for the GDB JIT API.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#define lj_gdbjit_c
-#define LUA_CORE
-
-#include "lj_obj.h"
-
-#if LJ_HASJIT
-
-#include "lj_gc.h"
-#include "lj_err.h"
-#include "lj_debug.h"
-#include "lj_frame.h"
-#include "lj_jit.h"
-#include "lj_dispatch.h"
-
-/* This is not compiled in by default.
-** Enable with -DLUAJIT_USE_GDBJIT in the Makefile and recompile everything.
-*/
-#ifdef LUAJIT_USE_GDBJIT
-
-/* The GDB JIT API allows JIT compilers to pass debug information about
-** JIT-compiled code back to GDB. You need at least GDB 7.0 or higher
-** to see it in action.
-**
-** This is a passive API, so it works even when not running under GDB
-** or when attaching to an already running process. Alas, this implies
-** enabling it always has a non-negligible overhead -- do not use in
-** release mode!
-**
-** The LuaJIT GDB JIT client is rather minimal at the moment. It gives
-** each trace a symbol name and adds a source location and frame unwind
-** information. Obviously LuaJIT itself and any embedding C application
-** should be compiled with debug symbols, too (see the Makefile).
-**
-** Traces are named TRACE_1, TRACE_2, ... these correspond to the trace
-** numbers from -jv or -jdump. Use "break TRACE_1" or "tbreak TRACE_1" etc.
-** to set breakpoints on specific traces (even ahead of their creation).
-**
-** The source location for each trace allows listing the corresponding
-** source lines with the GDB command "list" (but only if the Lua source
-** has been loaded from a file). Currently this is always set to the
-** location where the trace has been started.
-**
-** Frame unwind information can be inspected with the GDB command
-** "info frame". This also allows proper backtraces across JIT-compiled
-** code with the GDB command "bt".
-**
-** You probably want to add the following settings to a .gdbinit file
-** (or add them to ~/.gdbinit):
-**   set disassembly-flavor intel
-**   set breakpoint pending on
-**
-** Here's a sample GDB session:
-** ------------------------------------------------------------------------
-
-$ cat >x.lua
-for outer=1,100 do
-  for inner=1,100 do end
-end
-^D
-
-$ luajit -jv x.lua
-[TRACE   1 x.lua:2]
-[TRACE   2 (1/3) x.lua:1 -> 1]
-
-$ gdb --quiet --args luajit x.lua
-(gdb) tbreak TRACE_1
-Function "TRACE_1" not defined.
-Temporary breakpoint 1 (TRACE_1) pending.
-(gdb) run
-Starting program: luajit x.lua
-
-Temporary breakpoint 1, TRACE_1 () at x.lua:2
-2	  for inner=1,100 do end
-(gdb) list
-1	for outer=1,100 do
-2	  for inner=1,100 do end
-3	end
-(gdb) bt
-#0  TRACE_1 () at x.lua:2
-#1  0x08053690 in lua_pcall [...]
-[...]
-#7  0x0806ff90 in main [...]
-(gdb) disass TRACE_1
-Dump of assembler code for function TRACE_1:
-0xf7fd9fba <TRACE_1+0>:	mov    DWORD PTR ds:0xf7e0e2a0,0x1
-0xf7fd9fc4 <TRACE_1+10>:	movsd  xmm7,QWORD PTR [edx+0x20]
-[...]
-0xf7fd9ff8 <TRACE_1+62>:	jmp    0xf7fd2014
-End of assembler dump.
-(gdb) tbreak TRACE_2
-Function "TRACE_2" not defined.
-Temporary breakpoint 2 (TRACE_2) pending.
-(gdb) cont
-Continuing.
-
-Temporary breakpoint 2, TRACE_2 () at x.lua:1
-1	for outer=1,100 do
-(gdb) info frame
-Stack level 0, frame at 0xffffd7c0:
- eip = 0xf7fd9f60 in TRACE_2 (x.lua:1); saved eip 0x8053690
- called by frame at 0xffffd7e0
- source language unknown.
- Arglist at 0xffffd78c, args:
- Locals at 0xffffd78c, Previous frame's sp is 0xffffd7c0
- Saved registers:
-  ebx at 0xffffd7ac, ebp at 0xffffd7b8, esi at 0xffffd7b0, edi at 0xffffd7b4,
-  eip at 0xffffd7bc
-(gdb)
-
-** ------------------------------------------------------------------------
-*/
-
-/* -- GDB JIT API --------------------------------------------------------- */
-
-/* GDB JIT actions. */
-enum {
-  GDBJIT_NOACTION = 0,
-  GDBJIT_REGISTER,
-  GDBJIT_UNREGISTER
-};
-
-/* GDB JIT entry. */
-typedef struct GDBJITentry {
-  struct GDBJITentry *next_entry;
-  struct GDBJITentry *prev_entry;
-  const char *symfile_addr;
-  uint64_t symfile_size;
-} GDBJITentry;
-
-/* GDB JIT descriptor. */
-typedef struct GDBJITdesc {
-  uint32_t version;
-  uint32_t action_flag;
-  GDBJITentry *relevant_entry;
-  GDBJITentry *first_entry;
-} GDBJITdesc;
-
-GDBJITdesc __jit_debug_descriptor = {
-  1, GDBJIT_NOACTION, NULL, NULL
-};
-
-/* GDB sets a breakpoint at this function. */
-void LJ_NOINLINE __jit_debug_register_code()
-{
-  __asm__ __volatile__("");
-};
-
-/* -- In-memory ELF object definitions ------------------------------------ */
-
-/* ELF definitions. */
-typedef struct ELFheader {
-  uint8_t emagic[4];
-  uint8_t eclass;
-  uint8_t eendian;
-  uint8_t eversion;
-  uint8_t eosabi;
-  uint8_t eabiversion;
-  uint8_t epad[7];
-  uint16_t type;
-  uint16_t machine;
-  uint32_t version;
-  uintptr_t entry;
-  uintptr_t phofs;
-  uintptr_t shofs;
-  uint32_t flags;
-  uint16_t ehsize;
-  uint16_t phentsize;
-  uint16_t phnum;
-  uint16_t shentsize;
-  uint16_t shnum;
-  uint16_t shstridx;
-} ELFheader;
-
-typedef struct ELFsectheader {
-  uint32_t name;
-  uint32_t type;
-  uintptr_t flags;
-  uintptr_t addr;
-  uintptr_t ofs;
-  uintptr_t size;
-  uint32_t link;
-  uint32_t info;
-  uintptr_t align;
-  uintptr_t entsize;
-} ELFsectheader;
-
-#define ELFSECT_IDX_ABS		0xfff1
-
-enum {
-  ELFSECT_TYPE_PROGBITS = 1,
-  ELFSECT_TYPE_SYMTAB = 2,
-  ELFSECT_TYPE_STRTAB = 3,
-  ELFSECT_TYPE_NOBITS = 8
-};
-
-#define ELFSECT_FLAGS_WRITE	1
-#define ELFSECT_FLAGS_ALLOC	2
-#define ELFSECT_FLAGS_EXEC	4
-
-typedef struct ELFsymbol {
-#if LJ_64
-  uint32_t name;
-  uint8_t info;
-  uint8_t other;
-  uint16_t sectidx;
-  uintptr_t value;
-  uint64_t size;
-#else
-  uint32_t name;
-  uintptr_t value;
-  uint32_t size;
-  uint8_t info;
-  uint8_t other;
-  uint16_t sectidx;
-#endif
-} ELFsymbol;
-
-enum {
-  ELFSYM_TYPE_FUNC = 2,
-  ELFSYM_TYPE_FILE = 4,
-  ELFSYM_BIND_LOCAL = 0 << 4,
-  ELFSYM_BIND_GLOBAL = 1 << 4,
-};
-
-/* DWARF definitions. */
-#define DW_CIE_VERSION	1
-
-enum {
-  DW_CFA_nop = 0x0,
-  DW_CFA_offset_extended = 0x5,
-  DW_CFA_def_cfa = 0xc,
-  DW_CFA_def_cfa_offset = 0xe,
-  DW_CFA_offset_extended_sf = 0x11,
-  DW_CFA_advance_loc = 0x40,
-  DW_CFA_offset = 0x80
-};
-
-enum {
-  DW_EH_PE_udata4 = 3,
-  DW_EH_PE_textrel = 0x20
-};
-
-enum {
-  DW_TAG_compile_unit = 0x11
-};
-
-enum {
-  DW_children_no = 0,
-  DW_children_yes = 1
-};
-
-enum {
-  DW_AT_name = 0x03,
-  DW_AT_stmt_list = 0x10,
-  DW_AT_low_pc = 0x11,
-  DW_AT_high_pc = 0x12
-};
-
-enum {
-  DW_FORM_addr = 0x01,
-  DW_FORM_data4 = 0x06,
-  DW_FORM_string = 0x08
-};
-
-enum {
-  DW_LNS_extended_op = 0,
-  DW_LNS_copy = 1,
-  DW_LNS_advance_pc = 2,
-  DW_LNS_advance_line = 3
-};
-
-enum {
-  DW_LNE_end_sequence = 1,
-  DW_LNE_set_address = 2
-};
-
-enum {
-#if LJ_TARGET_X86
-  DW_REG_AX, DW_REG_CX, DW_REG_DX, DW_REG_BX,
-  DW_REG_SP, DW_REG_BP, DW_REG_SI, DW_REG_DI,
-  DW_REG_RA,
-#elif LJ_TARGET_X64
-  /* Yes, the order is strange, but correct. */
-  DW_REG_AX, DW_REG_DX, DW_REG_CX, DW_REG_BX,
-  DW_REG_SI, DW_REG_DI, DW_REG_BP, DW_REG_SP,
-  DW_REG_8, DW_REG_9, DW_REG_10, DW_REG_11,
-  DW_REG_12, DW_REG_13, DW_REG_14, DW_REG_15,
-  DW_REG_RA,
-#elif LJ_TARGET_ARM
-  DW_REG_SP = 13,
-  DW_REG_RA = 14,
-#elif LJ_TARGET_PPC
-  DW_REG_SP = 1,
-  DW_REG_RA = 65,
-  DW_REG_CR = 70,
-#elif LJ_TARGET_MIPS
-  DW_REG_SP = 29,
-  DW_REG_RA = 31,
-#else
-#error "Unsupported target architecture"
-#endif
-};
-
-/* Minimal list of sections for the in-memory ELF object. */
-enum {
-  GDBJIT_SECT_NULL,
-  GDBJIT_SECT_text,
-  GDBJIT_SECT_eh_frame,
-  GDBJIT_SECT_shstrtab,
-  GDBJIT_SECT_strtab,
-  GDBJIT_SECT_symtab,
-  GDBJIT_SECT_debug_info,
-  GDBJIT_SECT_debug_abbrev,
-  GDBJIT_SECT_debug_line,
-  GDBJIT_SECT__MAX
-};
-
-enum {
-  GDBJIT_SYM_UNDEF,
-  GDBJIT_SYM_FILE,
-  GDBJIT_SYM_FUNC,
-  GDBJIT_SYM__MAX
-};
-
-/* In-memory ELF object. */
-typedef struct GDBJITobj {
-  ELFheader hdr;			/* ELF header. */
-  ELFsectheader sect[GDBJIT_SECT__MAX];	/* ELF sections. */
-  ELFsymbol sym[GDBJIT_SYM__MAX];	/* ELF symbol table. */
-  uint8_t space[4096];			/* Space for various section data. */
-} GDBJITobj;
-
-/* Combined structure for GDB JIT entry and ELF object. */
-typedef struct GDBJITentryobj {
-  GDBJITentry entry;
-  size_t sz;
-  GDBJITobj obj;
-} GDBJITentryobj;
-
-/* Template for in-memory ELF header. */
-static const ELFheader elfhdr_template = {
-  .emagic = { 0x7f, 'E', 'L', 'F' },
-  .eclass = LJ_64 ? 2 : 1,
-  .eendian = LJ_ENDIAN_SELECT(1, 2),
-  .eversion = 1,
-#if LJ_TARGET_LINUX
-  .eosabi = 0,  /* Nope, it's not 3. */
-#elif defined(__FreeBSD__)
-  .eosabi = 9,
-#elif defined(__NetBSD__)
-  .eosabi = 2,
-#elif defined(__OpenBSD__)
-  .eosabi = 12,
-#elif defined(__DragonFly__)
-  .eosabi = 0,
-#elif (defined(__sun__) && defined(__svr4__))
-  .eosabi = 6,
-#else
-  .eosabi = 0,
-#endif
-  .eabiversion = 0,
-  .epad = { 0, 0, 0, 0, 0, 0, 0 },
-  .type = 1,
-#if LJ_TARGET_X86
-  .machine = 3,
-#elif LJ_TARGET_X64
-  .machine = 62,
-#elif LJ_TARGET_ARM
-  .machine = 40,
-#elif LJ_TARGET_PPC
-  .machine = 20,
-#elif LJ_TARGET_MIPS
-  .machine = 8,
-#else
-#error "Unsupported target architecture"
-#endif
-  .version = 1,
-  .entry = 0,
-  .phofs = 0,
-  .shofs = offsetof(GDBJITobj, sect),
-  .flags = 0,
-  .ehsize = sizeof(ELFheader),
-  .phentsize = 0,
-  .phnum = 0,
-  .shentsize = sizeof(ELFsectheader),
-  .shnum = GDBJIT_SECT__MAX,
-  .shstridx = GDBJIT_SECT_shstrtab
-};
-
-/* -- In-memory ELF object generation ------------------------------------- */
-
-/* Context for generating the ELF object for the GDB JIT API. */
-typedef struct GDBJITctx {
-  uint8_t *p;		/* Pointer to next address in obj.space. */
-  uint8_t *startp;	/* Pointer to start address in obj.space. */
-  GCtrace *T;		/* Generate symbols for this trace. */
-  uintptr_t mcaddr;	/* Machine code address. */
-  MSize szmcode;	/* Size of machine code. */
-  MSize spadjp;		/* Stack adjustment for parent trace or interpreter. */
-  MSize spadj;		/* Stack adjustment for trace itself. */
-  BCLine lineno;	/* Starting line number. */
-  const char *filename;	/* Starting file name. */
-  size_t objsize;	/* Final size of ELF object. */
-  GDBJITobj obj;	/* In-memory ELF object. */
-} GDBJITctx;
-
-/* Add a zero-terminated string. */
-static uint32_t gdbjit_strz(GDBJITctx *ctx, const char *str)
-{
-  uint8_t *p = ctx->p;
-  uint32_t ofs = (uint32_t)(p - ctx->startp);
-  do {
-    *p++ = (uint8_t)*str;
-  } while (*str++);
-  ctx->p = p;
-  return ofs;
-}
-
-/* Append a decimal number. */
-static void gdbjit_catnum(GDBJITctx *ctx, uint32_t n)
-{
-  if (n >= 10) { uint32_t m = n / 10; n = n % 10; gdbjit_catnum(ctx, m); }
-  *ctx->p++ = '0' + n;
-}
-
-/* Add a ULEB128 value. */
-static void gdbjit_uleb128(GDBJITctx *ctx, uint32_t v)
-{
-  uint8_t *p = ctx->p;
-  for (; v >= 0x80; v >>= 7)
-    *p++ = (uint8_t)((v & 0x7f) | 0x80);
-  *p++ = (uint8_t)v;
-  ctx->p = p;
-}
-
-/* Add a SLEB128 value. */
-static void gdbjit_sleb128(GDBJITctx *ctx, int32_t v)
-{
-  uint8_t *p = ctx->p;
-  for (; (uint32_t)(v+0x40) >= 0x80; v >>= 7)
-    *p++ = (uint8_t)((v & 0x7f) | 0x80);
-  *p++ = (uint8_t)(v & 0x7f);
-  ctx->p = p;
-}
-
-/* Shortcuts to generate DWARF structures. */
-#define DB(x)		(*p++ = (x))
-#define DI8(x)		(*(int8_t *)p = (x), p++)
-#define DU16(x)		(*(uint16_t *)p = (x), p += 2)
-#define DU32(x)		(*(uint32_t *)p = (x), p += 4)
-#define DADDR(x)	(*(uintptr_t *)p = (x), p += sizeof(uintptr_t))
-#define DUV(x)		(ctx->p = p, gdbjit_uleb128(ctx, (x)), p = ctx->p)
-#define DSV(x)		(ctx->p = p, gdbjit_sleb128(ctx, (x)), p = ctx->p)
-#define DSTR(str)	(ctx->p = p, gdbjit_strz(ctx, (str)), p = ctx->p)
-#define DALIGNNOP(s)	while ((uintptr_t)p & ((s)-1)) *p++ = DW_CFA_nop
-#define DSECT(name, stmt) \
-  { uint32_t *szp_##name = (uint32_t *)p; p += 4; stmt \
-    *szp_##name = (uint32_t)((p-(uint8_t *)szp_##name)-4); } \
-
-/* Initialize ELF section headers. */
-static void LJ_FASTCALL gdbjit_secthdr(GDBJITctx *ctx)
-{
-  ELFsectheader *sect;
-
-  *ctx->p++ = '\0';  /* Empty string at start of string table. */
-
-#define SECTDEF(id, tp, al) \
-  sect = &ctx->obj.sect[GDBJIT_SECT_##id]; \
-  sect->name = gdbjit_strz(ctx, "." #id); \
-  sect->type = ELFSECT_TYPE_##tp; \
-  sect->align = (al)
-
-  SECTDEF(text, NOBITS, 16);
-  sect->flags = ELFSECT_FLAGS_ALLOC|ELFSECT_FLAGS_EXEC;
-  sect->addr = ctx->mcaddr;
-  sect->ofs = 0;
-  sect->size = ctx->szmcode;
-
-  SECTDEF(eh_frame, PROGBITS, sizeof(uintptr_t));
-  sect->flags = ELFSECT_FLAGS_ALLOC;
-
-  SECTDEF(shstrtab, STRTAB, 1);
-  SECTDEF(strtab, STRTAB, 1);
-
-  SECTDEF(symtab, SYMTAB, sizeof(uintptr_t));
-  sect->ofs = offsetof(GDBJITobj, sym);
-  sect->size = sizeof(ctx->obj.sym);
-  sect->link = GDBJIT_SECT_strtab;
-  sect->entsize = sizeof(ELFsymbol);
-  sect->info = GDBJIT_SYM_FUNC;
-
-  SECTDEF(debug_info, PROGBITS, 1);
-  SECTDEF(debug_abbrev, PROGBITS, 1);
-  SECTDEF(debug_line, PROGBITS, 1);
-
-#undef SECTDEF
-}
-
-/* Initialize symbol table. */
-static void LJ_FASTCALL gdbjit_symtab(GDBJITctx *ctx)
-{
-  ELFsymbol *sym;
-
-  *ctx->p++ = '\0';  /* Empty string at start of string table. */
-
-  sym = &ctx->obj.sym[GDBJIT_SYM_FILE];
-  sym->name = gdbjit_strz(ctx, "JIT mcode");
-  sym->sectidx = ELFSECT_IDX_ABS;
-  sym->info = ELFSYM_TYPE_FILE|ELFSYM_BIND_LOCAL;
-
-  sym = &ctx->obj.sym[GDBJIT_SYM_FUNC];
-  sym->name = gdbjit_strz(ctx, "TRACE_"); ctx->p--;
-  gdbjit_catnum(ctx, ctx->T->traceno); *ctx->p++ = '\0';
-  sym->sectidx = GDBJIT_SECT_text;
-  sym->value = 0;
-  sym->size = ctx->szmcode;
-  sym->info = ELFSYM_TYPE_FUNC|ELFSYM_BIND_GLOBAL;
-}
-
-/* Initialize .eh_frame section. */
-static void LJ_FASTCALL gdbjit_ehframe(GDBJITctx *ctx)
-{
-  uint8_t *p = ctx->p;
-  uint8_t *framep = p;
-
-  /* Emit DWARF EH CIE. */
-  DSECT(CIE,
-    DU32(0);			/* Offset to CIE itself. */
-    DB(DW_CIE_VERSION);
-    DSTR("zR");			/* Augmentation. */
-    DUV(1);			/* Code alignment factor. */
-    DSV(-(int32_t)sizeof(uintptr_t));  /* Data alignment factor. */
-    DB(DW_REG_RA);		/* Return address register. */
-    DB(1); DB(DW_EH_PE_textrel|DW_EH_PE_udata4);  /* Augmentation data. */
-    DB(DW_CFA_def_cfa); DUV(DW_REG_SP); DUV(sizeof(uintptr_t));
-#if LJ_TARGET_PPC
-    DB(DW_CFA_offset_extended_sf); DB(DW_REG_RA); DSV(-1);
-#else
-    DB(DW_CFA_offset|DW_REG_RA); DUV(1);
-#endif
-    DALIGNNOP(sizeof(uintptr_t));
-  )
-
-  /* Emit DWARF EH FDE. */
-  DSECT(FDE,
-    DU32((uint32_t)(p-framep));	/* Offset to CIE. */
-    DU32(0);			/* Machine code offset relative to .text. */
-    DU32(ctx->szmcode);		/* Machine code length. */
-    DB(0);			/* Augmentation data. */
-    /* Registers saved in CFRAME. */
-#if LJ_TARGET_X86
-    DB(DW_CFA_offset|DW_REG_BP); DUV(2);
-    DB(DW_CFA_offset|DW_REG_DI); DUV(3);
-    DB(DW_CFA_offset|DW_REG_SI); DUV(4);
-    DB(DW_CFA_offset|DW_REG_BX); DUV(5);
-#elif LJ_TARGET_X64
-    DB(DW_CFA_offset|DW_REG_BP); DUV(2);
-    DB(DW_CFA_offset|DW_REG_BX); DUV(3);
-    DB(DW_CFA_offset|DW_REG_15); DUV(4);
-    DB(DW_CFA_offset|DW_REG_14); DUV(5);
-    /* Extra registers saved for JIT-compiled code. */
-    DB(DW_CFA_offset|DW_REG_13); DUV(9);
-    DB(DW_CFA_offset|DW_REG_12); DUV(10);
-#elif LJ_TARGET_ARM
-    {
-      int i;
-      for (i = 11; i >= 4; i--) { DB(DW_CFA_offset|i); DUV(2+(11-i)); }
-    }
-#elif LJ_TARGET_PPC
-    {
-      int i;
-      DB(DW_CFA_offset_extended); DB(DW_REG_CR); DUV(55);
-      for (i = 14; i <= 31; i++) {
-	DB(DW_CFA_offset|i); DUV(37+(31-i));
-	DB(DW_CFA_offset|32|i); DUV(2+2*(31-i));
-      }
-    }
-#elif LJ_TARGET_MIPS
-    {
-      int i;
-      DB(DW_CFA_offset|30); DUV(2);
-      for (i = 23; i >= 16; i--) { DB(DW_CFA_offset|i); DUV(26-i); }
-      for (i = 30; i >= 20; i -= 2) { DB(DW_CFA_offset|32|i); DUV(42-i); }
-    }
-#else
-#error "Unsupported target architecture"
-#endif
-    if (ctx->spadjp != ctx->spadj) {  /* Parent/interpreter stack frame size. */
-      DB(DW_CFA_def_cfa_offset); DUV(ctx->spadjp);
-      DB(DW_CFA_advance_loc|1);  /* Only an approximation. */
-    }
-    DB(DW_CFA_def_cfa_offset); DUV(ctx->spadj);  /* Trace stack frame size. */
-    DALIGNNOP(sizeof(uintptr_t));
-  )
-
-  ctx->p = p;
-}
-
-/* Initialize .debug_info section. */
-static void LJ_FASTCALL gdbjit_debuginfo(GDBJITctx *ctx)
-{
-  uint8_t *p = ctx->p;
-
-  DSECT(info,
-    DU16(2);			/* DWARF version. */
-    DU32(0);			/* Abbrev offset. */
-    DB(sizeof(uintptr_t));	/* Pointer size. */
-
-    DUV(1);			/* Abbrev #1: DW_TAG_compile_unit. */
-    DSTR(ctx->filename);	/* DW_AT_name. */
-    DADDR(ctx->mcaddr);		/* DW_AT_low_pc. */
-    DADDR(ctx->mcaddr + ctx->szmcode);  /* DW_AT_high_pc. */
-    DU32(0);			/* DW_AT_stmt_list. */
-  )
-
-  ctx->p = p;
-}
-
-/* Initialize .debug_abbrev section. */
-static void LJ_FASTCALL gdbjit_debugabbrev(GDBJITctx *ctx)
-{
-  uint8_t *p = ctx->p;
-
-  /* Abbrev #1: DW_TAG_compile_unit. */
-  DUV(1); DUV(DW_TAG_compile_unit);
-  DB(DW_children_no);
-  DUV(DW_AT_name);	DUV(DW_FORM_string);
-  DUV(DW_AT_low_pc);	DUV(DW_FORM_addr);
-  DUV(DW_AT_high_pc);	DUV(DW_FORM_addr);
-  DUV(DW_AT_stmt_list);	DUV(DW_FORM_data4);
-  DB(0); DB(0);
-
-  ctx->p = p;
-}
-
-#define DLNE(op, s)	(DB(DW_LNS_extended_op), DUV(1+(s)), DB((op)))
-
-/* Initialize .debug_line section. */
-static void LJ_FASTCALL gdbjit_debugline(GDBJITctx *ctx)
-{
-  uint8_t *p = ctx->p;
-
-  DSECT(line,
-    DU16(2);			/* DWARF version. */
-    DSECT(header,
-      DB(1);			/* Minimum instruction length. */
-      DB(1);			/* is_stmt. */
-      DI8(0);			/* Line base for special opcodes. */
-      DB(2);			/* Line range for special opcodes. */
-      DB(3+1);			/* Opcode base at DW_LNS_advance_line+1. */
-      DB(0); DB(1); DB(1);	/* Standard opcode lengths. */
-      /* Directory table. */
-      DB(0);
-      /* File name table. */
-      DSTR(ctx->filename); DUV(0); DUV(0); DUV(0);
-      DB(0);
-    )
-
-    DLNE(DW_LNE_set_address, sizeof(uintptr_t)); DADDR(ctx->mcaddr);
-    if (ctx->lineno) {
-      DB(DW_LNS_advance_line); DSV(ctx->lineno-1);
-    }
-    DB(DW_LNS_copy);
-    DB(DW_LNS_advance_pc); DUV(ctx->szmcode);
-    DLNE(DW_LNE_end_sequence, 0);
-  )
-
-  ctx->p = p;
-}
-
-#undef DLNE
-
-/* Undef shortcuts. */
-#undef DB
-#undef DI8
-#undef DU16
-#undef DU32
-#undef DADDR
-#undef DUV
-#undef DSV
-#undef DSTR
-#undef DALIGNNOP
-#undef DSECT
-
-/* Type of a section initializer callback. */
-typedef void (LJ_FASTCALL *GDBJITinitf)(GDBJITctx *ctx);
-
-/* Call section initializer and set the section offset and size. */
-static void gdbjit_initsect(GDBJITctx *ctx, int sect, GDBJITinitf initf)
-{
-  ctx->startp = ctx->p;
-  ctx->obj.sect[sect].ofs = (uintptr_t)((char *)ctx->p - (char *)&ctx->obj);
-  initf(ctx);
-  ctx->obj.sect[sect].size = (uintptr_t)(ctx->p - ctx->startp);
-}
-
-#define SECTALIGN(p, a) \
-  ((p) = (uint8_t *)(((uintptr_t)(p) + ((a)-1)) & ~(uintptr_t)((a)-1)))
-
-/* Build in-memory ELF object. */
-static void gdbjit_buildobj(GDBJITctx *ctx)
-{
-  GDBJITobj *obj = &ctx->obj;
-  /* Fill in ELF header and clear structures. */
-  memcpy(&obj->hdr, &elfhdr_template, sizeof(ELFheader));
-  memset(&obj->sect, 0, sizeof(ELFsectheader)*GDBJIT_SECT__MAX);
-  memset(&obj->sym, 0, sizeof(ELFsymbol)*GDBJIT_SYM__MAX);
-  /* Initialize sections. */
-  ctx->p = obj->space;
-  gdbjit_initsect(ctx, GDBJIT_SECT_shstrtab, gdbjit_secthdr);
-  gdbjit_initsect(ctx, GDBJIT_SECT_strtab, gdbjit_symtab);
-  gdbjit_initsect(ctx, GDBJIT_SECT_debug_info, gdbjit_debuginfo);
-  gdbjit_initsect(ctx, GDBJIT_SECT_debug_abbrev, gdbjit_debugabbrev);
-  gdbjit_initsect(ctx, GDBJIT_SECT_debug_line, gdbjit_debugline);
-  SECTALIGN(ctx->p, sizeof(uintptr_t));
-  gdbjit_initsect(ctx, GDBJIT_SECT_eh_frame, gdbjit_ehframe);
-  ctx->objsize = (size_t)((char *)ctx->p - (char *)obj);
-  lua_assert(ctx->objsize < sizeof(GDBJITobj));
-}
-
-#undef SECTALIGN
-
-/* -- Interface to GDB JIT API -------------------------------------------- */
-
-/* Add new entry to GDB JIT symbol chain. */
-static void gdbjit_newentry(lua_State *L, GDBJITctx *ctx)
-{
-  /* Allocate memory for GDB JIT entry and ELF object. */
-  MSize sz = (MSize)(sizeof(GDBJITentryobj) - sizeof(GDBJITobj) + ctx->objsize);
-  GDBJITentryobj *eo = lj_mem_newt(L, sz, GDBJITentryobj);
-  memcpy(&eo->obj, &ctx->obj, ctx->objsize);  /* Copy ELF object. */
-  eo->sz = sz;
-  ctx->T->gdbjit_entry = (void *)eo;
-  /* Link new entry to chain and register it. */
-  eo->entry.prev_entry = NULL;
-  eo->entry.next_entry = __jit_debug_descriptor.first_entry;
-  if (eo->entry.next_entry)
-    eo->entry.next_entry->prev_entry = &eo->entry;
-  eo->entry.symfile_addr = (const char *)&eo->obj;
-  eo->entry.symfile_size = ctx->objsize;
-  __jit_debug_descriptor.first_entry = &eo->entry;
-  __jit_debug_descriptor.relevant_entry = &eo->entry;
-  __jit_debug_descriptor.action_flag = GDBJIT_REGISTER;
-  __jit_debug_register_code();
-}
-
-/* Add debug info for newly compiled trace and notify GDB. */
-void lj_gdbjit_addtrace(jit_State *J, GCtrace *T)
-{
-  GDBJITctx ctx;
-  GCproto *pt = &gcref(T->startpt)->pt;
-  TraceNo parent = T->ir[REF_BASE].op1;
-  const BCIns *startpc = mref(T->startpc, const BCIns);
-  ctx.T = T;
-  ctx.mcaddr = (uintptr_t)T->mcode;
-  ctx.szmcode = T->szmcode;
-  ctx.spadjp = CFRAME_SIZE_JIT +
-	       (MSize)(parent ? traceref(J, parent)->spadjust : 0);
-  ctx.spadj = CFRAME_SIZE_JIT + T->spadjust;
-  lua_assert(startpc >= proto_bc(pt) && startpc < proto_bc(pt) + pt->sizebc);
-  ctx.lineno = lj_debug_line(pt, proto_bcpos(pt, startpc));
-  ctx.filename = proto_chunknamestr(pt);
-  if (*ctx.filename == '@' || *ctx.filename == '=')
-    ctx.filename++;
-  else
-    ctx.filename = "(string)";
-  gdbjit_buildobj(&ctx);
-  gdbjit_newentry(J->L, &ctx);
-}
-
-/* Delete debug info for trace and notify GDB. */
-void lj_gdbjit_deltrace(jit_State *J, GCtrace *T)
-{
-  GDBJITentryobj *eo = (GDBJITentryobj *)T->gdbjit_entry;
-  if (eo) {
-    if (eo->entry.prev_entry)
-      eo->entry.prev_entry->next_entry = eo->entry.next_entry;
-    else
-      __jit_debug_descriptor.first_entry = eo->entry.next_entry;
-    if (eo->entry.next_entry)
-      eo->entry.next_entry->prev_entry = eo->entry.prev_entry;
-    __jit_debug_descriptor.relevant_entry = &eo->entry;
-    __jit_debug_descriptor.action_flag = GDBJIT_UNREGISTER;
-    __jit_debug_register_code();
-    lj_mem_free(J2G(J), eo, eo->sz);
-  }
-}
-
-#endif
-#endif
diff --git a/luajit-2.0/src/lj_gdbjit.h b/luajit-2.0/src/lj_gdbjit.h
deleted file mode 100644
index 9ae504f..0000000
--- a/luajit-2.0/src/lj_gdbjit.h
+++ /dev/null
@@ -1,22 +0,0 @@
-/*
-** Client for the GDB JIT API.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#ifndef _LJ_GDBJIT_H
-#define _LJ_GDBJIT_H
-
-#include "lj_obj.h"
-#include "lj_jit.h"
-
-#if LJ_HASJIT && defined(LUAJIT_USE_GDBJIT)
-
-LJ_FUNC void lj_gdbjit_addtrace(jit_State *J, GCtrace *T);
-LJ_FUNC void lj_gdbjit_deltrace(jit_State *J, GCtrace *T);
-
-#else
-#define lj_gdbjit_addtrace(J, T)	UNUSED(T)
-#define lj_gdbjit_deltrace(J, T)	UNUSED(T)
-#endif
-
-#endif
diff --git a/luajit-2.0/src/lj_ir.c b/luajit-2.0/src/lj_ir.c
deleted file mode 100644
index b2170a1..0000000
--- a/luajit-2.0/src/lj_ir.c
+++ /dev/null
@@ -1,501 +0,0 @@
-/*
-** SSA IR (Intermediate Representation) emitter.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#define lj_ir_c
-#define LUA_CORE
-
-/* For pointers to libc/libm functions. */
-#include <stdio.h>
-#include <math.h>
-
-#include "lj_obj.h"
-
-#if LJ_HASJIT
-
-#include "lj_gc.h"
-#include "lj_str.h"
-#include "lj_tab.h"
-#include "lj_ir.h"
-#include "lj_jit.h"
-#include "lj_ircall.h"
-#include "lj_iropt.h"
-#include "lj_trace.h"
-#if LJ_HASFFI
-#include "lj_ctype.h"
-#include "lj_cdata.h"
-#include "lj_carith.h"
-#endif
-#include "lj_vm.h"
-#include "lj_strscan.h"
-#include "lj_lib.h"
-
-/* Some local macros to save typing. Undef'd at the end. */
-#define IR(ref)			(&J->cur.ir[(ref)])
-#define fins			(&J->fold.ins)
-
-/* Pass IR on to next optimization in chain (FOLD). */
-#define emitir(ot, a, b)        (lj_ir_set(J, (ot), (a), (b)), lj_opt_fold(J))
-
-/* -- IR tables ----------------------------------------------------------- */
-
-/* IR instruction modes. */
-LJ_DATADEF const uint8_t lj_ir_mode[IR__MAX+1] = {
-IRDEF(IRMODE)
-  0
-};
-
-/* IR type sizes. */
-LJ_DATADEF const uint8_t lj_ir_type_size[IRT__MAX+1] = {
-#define IRTSIZE(name, size)	size,
-IRTDEF(IRTSIZE)
-#undef IRTSIZE
-  0
-};
-
-/* C call info for CALL* instructions. */
-LJ_DATADEF const CCallInfo lj_ir_callinfo[] = {
-#define IRCALLCI(cond, name, nargs, kind, type, flags) \
-  { (ASMFunction)IRCALLCOND_##cond(name), \
-    (nargs)|(CCI_CALL_##kind)|(IRT_##type<<CCI_OTSHIFT)|(flags) },
-IRCALLDEF(IRCALLCI)
-#undef IRCALLCI
-  { NULL, 0 }
-};
-
-/* -- IR emitter ---------------------------------------------------------- */
-
-/* Grow IR buffer at the top. */
-void LJ_FASTCALL lj_ir_growtop(jit_State *J)
-{
-  IRIns *baseir = J->irbuf + J->irbotlim;
-  MSize szins = J->irtoplim - J->irbotlim;
-  if (szins) {
-    baseir = (IRIns *)lj_mem_realloc(J->L, baseir, szins*sizeof(IRIns),
-				     2*szins*sizeof(IRIns));
-    J->irtoplim = J->irbotlim + 2*szins;
-  } else {
-    baseir = (IRIns *)lj_mem_realloc(J->L, NULL, 0, LJ_MIN_IRSZ*sizeof(IRIns));
-    J->irbotlim = REF_BASE - LJ_MIN_IRSZ/4;
-    J->irtoplim = J->irbotlim + LJ_MIN_IRSZ;
-  }
-  J->cur.ir = J->irbuf = baseir - J->irbotlim;
-}
-
-/* Grow IR buffer at the bottom or shift it up. */
-static void lj_ir_growbot(jit_State *J)
-{
-  IRIns *baseir = J->irbuf + J->irbotlim;
-  MSize szins = J->irtoplim - J->irbotlim;
-  lua_assert(szins != 0);
-  lua_assert(J->cur.nk == J->irbotlim);
-  if (J->cur.nins + (szins >> 1) < J->irtoplim) {
-    /* More than half of the buffer is free on top: shift up by a quarter. */
-    MSize ofs = szins >> 2;
-    memmove(baseir + ofs, baseir, (J->cur.nins - J->irbotlim)*sizeof(IRIns));
-    J->irbotlim -= ofs;
-    J->irtoplim -= ofs;
-    J->cur.ir = J->irbuf = baseir - J->irbotlim;
-  } else {
-    /* Double the buffer size, but split the growth amongst top/bottom. */
-    IRIns *newbase = lj_mem_newt(J->L, 2*szins*sizeof(IRIns), IRIns);
-    MSize ofs = szins >= 256 ? 128 : (szins >> 1);  /* Limit bottom growth. */
-    memcpy(newbase + ofs, baseir, (J->cur.nins - J->irbotlim)*sizeof(IRIns));
-    lj_mem_free(G(J->L), baseir, szins*sizeof(IRIns));
-    J->irbotlim -= ofs;
-    J->irtoplim = J->irbotlim + 2*szins;
-    J->cur.ir = J->irbuf = newbase - J->irbotlim;
-  }
-}
-
-/* Emit IR without any optimizations. */
-TRef LJ_FASTCALL lj_ir_emit(jit_State *J)
-{
-  IRRef ref = lj_ir_nextins(J);
-  IRIns *ir = IR(ref);
-  IROp op = fins->o;
-  ir->prev = J->chain[op];
-  J->chain[op] = (IRRef1)ref;
-  ir->o = op;
-  ir->op1 = fins->op1;
-  ir->op2 = fins->op2;
-  J->guardemit.irt |= fins->t.irt;
-  return TREF(ref, irt_t((ir->t = fins->t)));
-}
-
-/* Emit call to a C function. */
-TRef lj_ir_call(jit_State *J, IRCallID id, ...)
-{
-  const CCallInfo *ci = &lj_ir_callinfo[id];
-  uint32_t n = CCI_NARGS(ci);
-  TRef tr = TREF_NIL;
-  va_list argp;
-  va_start(argp, id);
-  if ((ci->flags & CCI_L)) n--;
-  if (n > 0)
-    tr = va_arg(argp, IRRef);
-  while (n-- > 1)
-    tr = emitir(IRT(IR_CARG, IRT_NIL), tr, va_arg(argp, IRRef));
-  va_end(argp);
-  if (CCI_OP(ci) == IR_CALLS)
-    J->needsnap = 1;  /* Need snapshot after call with side effect. */
-  return emitir(CCI_OPTYPE(ci), tr, id);
-}
-
-/* -- Interning of constants ---------------------------------------------- */
-
-/*
-** IR instructions for constants are kept between J->cur.nk >= ref < REF_BIAS.
-** They are chained like all other instructions, but grow downwards.
-** The are interned (like strings in the VM) to facilitate reference
-** comparisons. The same constant must get the same reference.
-*/
-
-/* Get ref of next IR constant and optionally grow IR.
-** Note: this may invalidate all IRIns *!
-*/
-static LJ_AINLINE IRRef ir_nextk(jit_State *J)
-{
-  IRRef ref = J->cur.nk;
-  if (LJ_UNLIKELY(ref <= J->irbotlim)) lj_ir_growbot(J);
-  J->cur.nk = --ref;
-  return ref;
-}
-
-/* Intern int32_t constant. */
-TRef LJ_FASTCALL lj_ir_kint(jit_State *J, int32_t k)
-{
-  IRIns *ir, *cir = J->cur.ir;
-  IRRef ref;
-  for (ref = J->chain[IR_KINT]; ref; ref = cir[ref].prev)
-    if (cir[ref].i == k)
-      goto found;
-  ref = ir_nextk(J);
-  ir = IR(ref);
-  ir->i = k;
-  ir->t.irt = IRT_INT;
-  ir->o = IR_KINT;
-  ir->prev = J->chain[IR_KINT];
-  J->chain[IR_KINT] = (IRRef1)ref;
-found:
-  return TREF(ref, IRT_INT);
-}
-
-/* The MRef inside the KNUM/KINT64 IR instructions holds the address of the
-** 64 bit constant. The constants themselves are stored in a chained array
-** and shared across traces.
-**
-** Rationale for choosing this data structure:
-** - The address of the constants is embedded in the generated machine code
-**   and must never move. A resizable array or hash table wouldn't work.
-** - Most apps need very few non-32 bit integer constants (less than a dozen).
-** - Linear search is hard to beat in terms of speed and low complexity.
-*/
-typedef struct K64Array {
-  MRef next;			/* Pointer to next list. */
-  MSize numk;			/* Number of used elements in this array. */
-  TValue k[LJ_MIN_K64SZ];	/* Array of constants. */
-} K64Array;
-
-/* Free all chained arrays. */
-void lj_ir_k64_freeall(jit_State *J)
-{
-  K64Array *k;
-  for (k = mref(J->k64, K64Array); k; ) {
-    K64Array *next = mref(k->next, K64Array);
-    lj_mem_free(J2G(J), k, sizeof(K64Array));
-    k = next;
-  }
-}
-
-/* Find 64 bit constant in chained array or add it. */
-cTValue *lj_ir_k64_find(jit_State *J, uint64_t u64)
-{
-  K64Array *k, *kp = NULL;
-  TValue *ntv;
-  MSize idx;
-  /* Search for the constant in the whole chain of arrays. */
-  for (k = mref(J->k64, K64Array); k; k = mref(k->next, K64Array)) {
-    kp = k;  /* Remember previous element in list. */
-    for (idx = 0; idx < k->numk; idx++) {  /* Search one array. */
-      TValue *tv = &k->k[idx];
-      if (tv->u64 == u64)  /* Needed for +-0/NaN/absmask. */
-	return tv;
-    }
-  }
-  /* Constant was not found, need to add it. */
-  if (!(kp && kp->numk < LJ_MIN_K64SZ)) {  /* Allocate a new array. */
-    K64Array *kn = lj_mem_newt(J->L, sizeof(K64Array), K64Array);
-    setmref(kn->next, NULL);
-    kn->numk = 0;
-    if (kp)
-      setmref(kp->next, kn);  /* Chain to the end of the list. */
-    else
-      setmref(J->k64, kn);  /* Link first array. */
-    kp = kn;
-  }
-  ntv = &kp->k[kp->numk++];  /* Add to current array. */
-  ntv->u64 = u64;
-  return ntv;
-}
-
-/* Intern 64 bit constant, given by its address. */
-TRef lj_ir_k64(jit_State *J, IROp op, cTValue *tv)
-{
-  IRIns *ir, *cir = J->cur.ir;
-  IRRef ref;
-  IRType t = op == IR_KNUM ? IRT_NUM : IRT_I64;
-  for (ref = J->chain[op]; ref; ref = cir[ref].prev)
-    if (ir_k64(&cir[ref]) == tv)
-      goto found;
-  ref = ir_nextk(J);
-  ir = IR(ref);
-  lua_assert(checkptr32(tv));
-  setmref(ir->ptr, tv);
-  ir->t.irt = t;
-  ir->o = op;
-  ir->prev = J->chain[op];
-  J->chain[op] = (IRRef1)ref;
-found:
-  return TREF(ref, t);
-}
-
-/* Intern FP constant, given by its 64 bit pattern. */
-TRef lj_ir_knum_u64(jit_State *J, uint64_t u64)
-{
-  return lj_ir_k64(J, IR_KNUM, lj_ir_k64_find(J, u64));
-}
-
-/* Intern 64 bit integer constant. */
-TRef lj_ir_kint64(jit_State *J, uint64_t u64)
-{
-  return lj_ir_k64(J, IR_KINT64, lj_ir_k64_find(J, u64));
-}
-
-/* Check whether a number is int and return it. -0 is NOT considered an int. */
-static int numistrueint(lua_Number n, int32_t *kp)
-{
-  int32_t k = lj_num2int(n);
-  if (n == (lua_Number)k) {
-    if (kp) *kp = k;
-    if (k == 0) {  /* Special check for -0. */
-      TValue tv;
-      setnumV(&tv, n);
-      if (tv.u32.hi != 0)
-	return 0;
-    }
-    return 1;
-  }
-  return 0;
-}
-
-/* Intern number as int32_t constant if possible, otherwise as FP constant. */
-TRef lj_ir_knumint(jit_State *J, lua_Number n)
-{
-  int32_t k;
-  if (numistrueint(n, &k))
-    return lj_ir_kint(J, k);
-  else
-    return lj_ir_knum(J, n);
-}
-
-/* Intern GC object "constant". */
-TRef lj_ir_kgc(jit_State *J, GCobj *o, IRType t)
-{
-  IRIns *ir, *cir = J->cur.ir;
-  IRRef ref;
-  lua_assert(!isdead(J2G(J), o));
-  for (ref = J->chain[IR_KGC]; ref; ref = cir[ref].prev)
-    if (ir_kgc(&cir[ref]) == o)
-      goto found;
-  ref = ir_nextk(J);
-  ir = IR(ref);
-  /* NOBARRIER: Current trace is a GC root. */
-  setgcref(ir->gcr, o);
-  ir->t.irt = (uint8_t)t;
-  ir->o = IR_KGC;
-  ir->prev = J->chain[IR_KGC];
-  J->chain[IR_KGC] = (IRRef1)ref;
-found:
-  return TREF(ref, t);
-}
-
-/* Intern 32 bit pointer constant. */
-TRef lj_ir_kptr_(jit_State *J, IROp op, void *ptr)
-{
-  IRIns *ir, *cir = J->cur.ir;
-  IRRef ref;
-  lua_assert((void *)(intptr_t)i32ptr(ptr) == ptr);
-  for (ref = J->chain[op]; ref; ref = cir[ref].prev)
-    if (mref(cir[ref].ptr, void) == ptr)
-      goto found;
-  ref = ir_nextk(J);
-  ir = IR(ref);
-  setmref(ir->ptr, ptr);
-  ir->t.irt = IRT_P32;
-  ir->o = op;
-  ir->prev = J->chain[op];
-  J->chain[op] = (IRRef1)ref;
-found:
-  return TREF(ref, IRT_P32);
-}
-
-/* Intern typed NULL constant. */
-TRef lj_ir_knull(jit_State *J, IRType t)
-{
-  IRIns *ir, *cir = J->cur.ir;
-  IRRef ref;
-  for (ref = J->chain[IR_KNULL]; ref; ref = cir[ref].prev)
-    if (irt_t(cir[ref].t) == t)
-      goto found;
-  ref = ir_nextk(J);
-  ir = IR(ref);
-  ir->i = 0;
-  ir->t.irt = (uint8_t)t;
-  ir->o = IR_KNULL;
-  ir->prev = J->chain[IR_KNULL];
-  J->chain[IR_KNULL] = (IRRef1)ref;
-found:
-  return TREF(ref, t);
-}
-
-/* Intern key slot. */
-TRef lj_ir_kslot(jit_State *J, TRef key, IRRef slot)
-{
-  IRIns *ir, *cir = J->cur.ir;
-  IRRef2 op12 = IRREF2((IRRef1)key, (IRRef1)slot);
-  IRRef ref;
-  /* Const part is not touched by CSE/DCE, so 0-65535 is ok for IRMlit here. */
-  lua_assert(tref_isk(key) && slot == (IRRef)(IRRef1)slot);
-  for (ref = J->chain[IR_KSLOT]; ref; ref = cir[ref].prev)
-    if (cir[ref].op12 == op12)
-      goto found;
-  ref = ir_nextk(J);
-  ir = IR(ref);
-  ir->op12 = op12;
-  ir->t.irt = IRT_P32;
-  ir->o = IR_KSLOT;
-  ir->prev = J->chain[IR_KSLOT];
-  J->chain[IR_KSLOT] = (IRRef1)ref;
-found:
-  return TREF(ref, IRT_P32);
-}
-
-/* -- Access to IR constants ---------------------------------------------- */
-
-/* Copy value of IR constant. */
-void lj_ir_kvalue(lua_State *L, TValue *tv, const IRIns *ir)
-{
-  UNUSED(L);
-  lua_assert(ir->o != IR_KSLOT);  /* Common mistake. */
-  switch (ir->o) {
-  case IR_KPRI: setitype(tv, irt_toitype(ir->t)); break;
-  case IR_KINT: setintV(tv, ir->i); break;
-  case IR_KGC: setgcV(L, tv, ir_kgc(ir), irt_toitype(ir->t)); break;
-  case IR_KPTR: case IR_KKPTR: case IR_KNULL:
-    setlightudV(tv, mref(ir->ptr, void));
-    break;
-  case IR_KNUM: setnumV(tv, ir_knum(ir)->n); break;
-#if LJ_HASFFI
-  case IR_KINT64: {
-    GCcdata *cd = lj_cdata_new_(L, CTID_INT64, 8);
-    *(uint64_t *)cdataptr(cd) = ir_kint64(ir)->u64;
-    setcdataV(L, tv, cd);
-    break;
-    }
-#endif
-  default: lua_assert(0); break;
-  }
-}
-
-/* -- Convert IR operand types -------------------------------------------- */
-
-/* Convert from string to number. */
-TRef LJ_FASTCALL lj_ir_tonumber(jit_State *J, TRef tr)
-{
-  if (!tref_isnumber(tr)) {
-    if (tref_isstr(tr))
-      tr = emitir(IRTG(IR_STRTO, IRT_NUM), tr, 0);
-    else
-      lj_trace_err(J, LJ_TRERR_BADTYPE);
-  }
-  return tr;
-}
-
-/* Convert from integer or string to number. */
-TRef LJ_FASTCALL lj_ir_tonum(jit_State *J, TRef tr)
-{
-  if (!tref_isnum(tr)) {
-    if (tref_isinteger(tr))
-      tr = emitir(IRTN(IR_CONV), tr, IRCONV_NUM_INT);
-    else if (tref_isstr(tr))
-      tr = emitir(IRTG(IR_STRTO, IRT_NUM), tr, 0);
-    else
-      lj_trace_err(J, LJ_TRERR_BADTYPE);
-  }
-  return tr;
-}
-
-/* Convert from integer or number to string. */
-TRef LJ_FASTCALL lj_ir_tostr(jit_State *J, TRef tr)
-{
-  if (!tref_isstr(tr)) {
-    if (!tref_isnumber(tr))
-      lj_trace_err(J, LJ_TRERR_BADTYPE);
-    tr = emitir(IRT(IR_TOSTR, IRT_STR), tr, 0);
-  }
-  return tr;
-}
-
-/* -- Miscellaneous IR ops ------------------------------------------------ */
-
-/* Evaluate numeric comparison. */
-int lj_ir_numcmp(lua_Number a, lua_Number b, IROp op)
-{
-  switch (op) {
-  case IR_EQ: return (a == b);
-  case IR_NE: return (a != b);
-  case IR_LT: return (a < b);
-  case IR_GE: return (a >= b);
-  case IR_LE: return (a <= b);
-  case IR_GT: return (a > b);
-  case IR_ULT: return !(a >= b);
-  case IR_UGE: return !(a < b);
-  case IR_ULE: return !(a > b);
-  case IR_UGT: return !(a <= b);
-  default: lua_assert(0); return 0;
-  }
-}
-
-/* Evaluate string comparison. */
-int lj_ir_strcmp(GCstr *a, GCstr *b, IROp op)
-{
-  int res = lj_str_cmp(a, b);
-  switch (op) {
-  case IR_LT: return (res < 0);
-  case IR_GE: return (res >= 0);
-  case IR_LE: return (res <= 0);
-  case IR_GT: return (res > 0);
-  default: lua_assert(0); return 0;
-  }
-}
-
-/* Rollback IR to previous state. */
-void lj_ir_rollback(jit_State *J, IRRef ref)
-{
-  IRRef nins = J->cur.nins;
-  while (nins > ref) {
-    IRIns *ir;
-    nins--;
-    ir = IR(nins);
-    J->chain[ir->o] = ir->prev;
-  }
-  J->cur.nins = nins;
-}
-
-#undef IR
-#undef fins
-#undef emitir
-
-#endif
diff --git a/luajit-2.0/src/lj_ir.h b/luajit-2.0/src/lj_ir.h
deleted file mode 100644
index 80763d8..0000000
--- a/luajit-2.0/src/lj_ir.h
+++ /dev/null
@@ -1,551 +0,0 @@
-/*
-** SSA IR (Intermediate Representation) format.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#ifndef _LJ_IR_H
-#define _LJ_IR_H
-
-#include "lj_obj.h"
-
-/* -- IR instructions ----------------------------------------------------- */
-
-/* IR instruction definition. Order matters, see below. ORDER IR */
-#define IRDEF(_) \
-  /* Guarded assertions. */ \
-  /* Must be properly aligned to flip opposites (^1) and (un)ordered (^4). */ \
-  _(LT,		N , ref, ref) \
-  _(GE,		N , ref, ref) \
-  _(LE,		N , ref, ref) \
-  _(GT,		N , ref, ref) \
-  \
-  _(ULT,	N , ref, ref) \
-  _(UGE,	N , ref, ref) \
-  _(ULE,	N , ref, ref) \
-  _(UGT,	N , ref, ref) \
-  \
-  _(EQ,		C , ref, ref) \
-  _(NE,		C , ref, ref) \
-  \
-  _(ABC,	N , ref, ref) \
-  _(RETF,	S , ref, ref) \
-  \
-  /* Miscellaneous ops. */ \
-  _(NOP,	N , ___, ___) \
-  _(BASE,	N , lit, lit) \
-  _(PVAL,	N , lit, ___) \
-  _(GCSTEP,	S , ___, ___) \
-  _(HIOP,	S , ref, ref) \
-  _(LOOP,	S , ___, ___) \
-  _(USE,	S , ref, ___) \
-  _(PHI,	S , ref, ref) \
-  _(RENAME,	S , ref, lit) \
-  \
-  /* Constants. */ \
-  _(KPRI,	N , ___, ___) \
-  _(KINT,	N , cst, ___) \
-  _(KGC,	N , cst, ___) \
-  _(KPTR,	N , cst, ___) \
-  _(KKPTR,	N , cst, ___) \
-  _(KNULL,	N , cst, ___) \
-  _(KNUM,	N , cst, ___) \
-  _(KINT64,	N , cst, ___) \
-  _(KSLOT,	N , ref, lit) \
-  \
-  /* Bit ops. */ \
-  _(BNOT,	N , ref, ___) \
-  _(BSWAP,	N , ref, ___) \
-  _(BAND,	C , ref, ref) \
-  _(BOR,	C , ref, ref) \
-  _(BXOR,	C , ref, ref) \
-  _(BSHL,	N , ref, ref) \
-  _(BSHR,	N , ref, ref) \
-  _(BSAR,	N , ref, ref) \
-  _(BROL,	N , ref, ref) \
-  _(BROR,	N , ref, ref) \
-  \
-  /* Arithmetic ops. ORDER ARITH */ \
-  _(ADD,	C , ref, ref) \
-  _(SUB,	N , ref, ref) \
-  _(MUL,	C , ref, ref) \
-  _(DIV,	N , ref, ref) \
-  _(MOD,	N , ref, ref) \
-  _(POW,	N , ref, ref) \
-  _(NEG,	N , ref, ref) \
-  \
-  _(ABS,	N , ref, ref) \
-  _(ATAN2,	N , ref, ref) \
-  _(LDEXP,	N , ref, ref) \
-  _(MIN,	C , ref, ref) \
-  _(MAX,	C , ref, ref) \
-  _(FPMATH,	N , ref, lit) \
-  \
-  /* Overflow-checking arithmetic ops. */ \
-  _(ADDOV,	CW, ref, ref) \
-  _(SUBOV,	NW, ref, ref) \
-  _(MULOV,	CW, ref, ref) \
-  \
-  /* Memory ops. A = array, H = hash, U = upvalue, F = field, S = stack. */ \
-  \
-  /* Memory references. */ \
-  _(AREF,	R , ref, ref) \
-  _(HREFK,	R , ref, ref) \
-  _(HREF,	L , ref, ref) \
-  _(NEWREF,	S , ref, ref) \
-  _(UREFO,	LW, ref, lit) \
-  _(UREFC,	LW, ref, lit) \
-  _(FREF,	R , ref, lit) \
-  _(STRREF,	N , ref, ref) \
-  \
-  /* Loads and Stores. These must be in the same order. */ \
-  _(ALOAD,	L , ref, ___) \
-  _(HLOAD,	L , ref, ___) \
-  _(ULOAD,	L , ref, ___) \
-  _(FLOAD,	L , ref, lit) \
-  _(XLOAD,	L , ref, lit) \
-  _(SLOAD,	L , lit, lit) \
-  _(VLOAD,	L , ref, ___) \
-  \
-  _(ASTORE,	S , ref, ref) \
-  _(HSTORE,	S , ref, ref) \
-  _(USTORE,	S , ref, ref) \
-  _(FSTORE,	S , ref, ref) \
-  _(XSTORE,	S , ref, ref) \
-  \
-  /* Allocations. */ \
-  _(SNEW,	N , ref, ref)  /* CSE is ok, not marked as A. */ \
-  _(XSNEW,	A , ref, ref) \
-  _(TNEW,	AW, lit, lit) \
-  _(TDUP,	AW, ref, ___) \
-  _(CNEW,	AW, ref, ref) \
-  _(CNEWI,	NW, ref, ref)  /* CSE is ok, not marked as A. */ \
-  \
-  /* Barriers. */ \
-  _(TBAR,	S , ref, ___) \
-  _(OBAR,	S , ref, ref) \
-  _(XBAR,	S , ___, ___) \
-  \
-  /* Type conversions. */ \
-  _(CONV,	NW, ref, lit) \
-  _(TOBIT,	N , ref, ref) \
-  _(TOSTR,	N , ref, ___) \
-  _(STRTO,	N , ref, ___) \
-  \
-  /* Calls. */ \
-  _(CALLN,	N , ref, lit) \
-  _(CALLL,	L , ref, lit) \
-  _(CALLS,	S , ref, lit) \
-  _(CALLXS,	S , ref, ref) \
-  _(CARG,	N , ref, ref) \
-  \
-  /* End of list. */
-
-/* IR opcodes (max. 256). */
-typedef enum {
-#define IRENUM(name, m, m1, m2)	IR_##name,
-IRDEF(IRENUM)
-#undef IRENUM
-  IR__MAX
-} IROp;
-
-/* Stored opcode. */
-typedef uint8_t IROp1;
-
-LJ_STATIC_ASSERT(((int)IR_EQ^1) == (int)IR_NE);
-LJ_STATIC_ASSERT(((int)IR_LT^1) == (int)IR_GE);
-LJ_STATIC_ASSERT(((int)IR_LE^1) == (int)IR_GT);
-LJ_STATIC_ASSERT(((int)IR_LT^3) == (int)IR_GT);
-LJ_STATIC_ASSERT(((int)IR_LT^4) == (int)IR_ULT);
-
-/* Delta between xLOAD and xSTORE. */
-#define IRDELTA_L2S		((int)IR_ASTORE - (int)IR_ALOAD)
-
-LJ_STATIC_ASSERT((int)IR_HLOAD + IRDELTA_L2S == (int)IR_HSTORE);
-LJ_STATIC_ASSERT((int)IR_ULOAD + IRDELTA_L2S == (int)IR_USTORE);
-LJ_STATIC_ASSERT((int)IR_FLOAD + IRDELTA_L2S == (int)IR_FSTORE);
-LJ_STATIC_ASSERT((int)IR_XLOAD + IRDELTA_L2S == (int)IR_XSTORE);
-
-/* -- Named IR literals --------------------------------------------------- */
-
-/* FPMATH sub-functions. ORDER FPM. */
-#define IRFPMDEF(_) \
-  _(FLOOR) _(CEIL) _(TRUNC)  /* Must be first and in this order. */ \
-  _(SQRT) _(EXP) _(EXP2) _(LOG) _(LOG2) _(LOG10) \
-  _(SIN) _(COS) _(TAN) \
-  _(OTHER)
-
-typedef enum {
-#define FPMENUM(name)		IRFPM_##name,
-IRFPMDEF(FPMENUM)
-#undef FPMENUM
-  IRFPM__MAX
-} IRFPMathOp;
-
-/* FLOAD fields. */
-#define IRFLDEF(_) \
-  _(STR_LEN,	offsetof(GCstr, len)) \
-  _(FUNC_ENV,	offsetof(GCfunc, l.env)) \
-  _(FUNC_PC,	offsetof(GCfunc, l.pc)) \
-  _(TAB_META,	offsetof(GCtab, metatable)) \
-  _(TAB_ARRAY,	offsetof(GCtab, array)) \
-  _(TAB_NODE,	offsetof(GCtab, node)) \
-  _(TAB_ASIZE,	offsetof(GCtab, asize)) \
-  _(TAB_HMASK,	offsetof(GCtab, hmask)) \
-  _(TAB_NOMM,	offsetof(GCtab, nomm)) \
-  _(UDATA_META,	offsetof(GCudata, metatable)) \
-  _(UDATA_UDTYPE, offsetof(GCudata, udtype)) \
-  _(UDATA_FILE,	sizeof(GCudata)) \
-  _(CDATA_CTYPEID, offsetof(GCcdata, ctypeid)) \
-  _(CDATA_PTR,	sizeof(GCcdata)) \
-  _(CDATA_INT, sizeof(GCcdata)) \
-  _(CDATA_INT64, sizeof(GCcdata)) \
-  _(CDATA_INT64_4, sizeof(GCcdata) + 4)
-
-typedef enum {
-#define FLENUM(name, ofs)	IRFL_##name,
-IRFLDEF(FLENUM)
-#undef FLENUM
-  IRFL__MAX
-} IRFieldID;
-
-/* SLOAD mode bits, stored in op2. */
-#define IRSLOAD_PARENT		0x01	/* Coalesce with parent trace. */
-#define IRSLOAD_FRAME		0x02	/* Load hiword of frame. */
-#define IRSLOAD_TYPECHECK	0x04	/* Needs type check. */
-#define IRSLOAD_CONVERT		0x08	/* Number to integer conversion. */
-#define IRSLOAD_READONLY	0x10	/* Read-only, omit slot store. */
-#define IRSLOAD_INHERIT		0x20	/* Inherited by exits/side traces. */
-
-/* XLOAD mode, stored in op2. */
-#define IRXLOAD_READONLY	1	/* Load from read-only data. */
-#define IRXLOAD_VOLATILE	2	/* Load from volatile data. */
-#define IRXLOAD_UNALIGNED	4	/* Unaligned load. */
-
-/* CONV mode, stored in op2. */
-#define IRCONV_SRCMASK		0x001f	/* Source IRType. */
-#define IRCONV_DSTMASK		0x03e0	/* Dest. IRType (also in ir->t). */
-#define IRCONV_DSH		5
-#define IRCONV_NUM_INT		((IRT_NUM<<IRCONV_DSH)|IRT_INT)
-#define IRCONV_INT_NUM		((IRT_INT<<IRCONV_DSH)|IRT_NUM)
-#define IRCONV_TRUNC		0x0400	/* Truncate number to integer. */
-#define IRCONV_SEXT		0x0800	/* Sign-extend integer to integer. */
-#define IRCONV_MODEMASK		0x0fff
-#define IRCONV_CONVMASK		0xf000
-#define IRCONV_CSH		12
-/* Number to integer conversion mode. Ordered by strength of the checks. */
-#define IRCONV_TOBIT  (0<<IRCONV_CSH)	/* None. Cache only: TOBIT conv. */
-#define IRCONV_ANY    (1<<IRCONV_CSH)	/* Any FP number is ok. */
-#define IRCONV_INDEX  (2<<IRCONV_CSH)	/* Check + special backprop rules. */
-#define IRCONV_CHECK  (3<<IRCONV_CSH)	/* Number checked for integerness. */
-
-/* -- IR operands --------------------------------------------------------- */
-
-/* IR operand mode (2 bit). */
-typedef enum {
-  IRMref,		/* IR reference. */
-  IRMlit,		/* 16 bit unsigned literal. */
-  IRMcst,		/* Constant literal: i, gcr or ptr. */
-  IRMnone		/* Unused operand. */
-} IRMode;
-#define IRM___		IRMnone
-
-/* Mode bits: Commutative, {Normal/Ref, Alloc, Load, Store}, Non-weak guard. */
-#define IRM_C			0x10
-
-#define IRM_N			0x00
-#define IRM_R			IRM_N
-#define IRM_A			0x20
-#define IRM_L			0x40
-#define IRM_S			0x60
-
-#define IRM_W			0x80
-
-#define IRM_NW			(IRM_N|IRM_W)
-#define IRM_CW			(IRM_C|IRM_W)
-#define IRM_AW			(IRM_A|IRM_W)
-#define IRM_LW			(IRM_L|IRM_W)
-
-#define irm_op1(m)		((IRMode)((m)&3))
-#define irm_op2(m)		((IRMode)(((m)>>2)&3))
-#define irm_iscomm(m)		((m) & IRM_C)
-#define irm_kind(m)		((m) & IRM_S)
-
-#define IRMODE(name, m, m1, m2)	(((IRM##m1)|((IRM##m2)<<2)|(IRM_##m))^IRM_W),
-
-LJ_DATA const uint8_t lj_ir_mode[IR__MAX+1];
-
-/* -- IR instruction types ------------------------------------------------ */
-
-/* Map of itypes to non-negative numbers. ORDER LJ_T.
-** LJ_TUPVAL/LJ_TTRACE never appear in a TValue. Use these itypes for
-** IRT_P32 and IRT_P64, which never escape the IR.
-** The various integers are only used in the IR and can only escape to
-** a TValue after implicit or explicit conversion. Their types must be
-** contiguous and next to IRT_NUM (see the typerange macros below).
-*/
-#define IRTDEF(_) \
-  _(NIL, 4) _(FALSE, 4) _(TRUE, 4) _(LIGHTUD, LJ_64 ? 8 : 4) _(STR, 4) \
-  _(P32, 4) _(THREAD, 4) _(PROTO, 4) _(FUNC, 4) _(P64, 8) _(CDATA, 4) \
-  _(TAB, 4) _(UDATA, 4) \
-  _(FLOAT, 4) _(NUM, 8) _(I8, 1) _(U8, 1) _(I16, 2) _(U16, 2) \
-  _(INT, 4) _(U32, 4) _(I64, 8) _(U64, 8) \
-  _(SOFTFP, 4)  /* There is room for 9 more types. */
-
-/* IR result type and flags (8 bit). */
-typedef enum {
-#define IRTENUM(name, size)	IRT_##name,
-IRTDEF(IRTENUM)
-#undef IRTENUM
-  IRT__MAX,
-
-  /* Native pointer type and the corresponding integer type. */
-  IRT_PTR = LJ_64 ? IRT_P64 : IRT_P32,
-  IRT_INTP = LJ_64 ? IRT_I64 : IRT_INT,
-  IRT_UINTP = LJ_64 ? IRT_U64 : IRT_U32,
-
-  /* Additional flags. */
-  IRT_MARK = 0x20,	/* Marker for misc. purposes. */
-  IRT_ISPHI = 0x40,	/* Instruction is left or right PHI operand. */
-  IRT_GUARD = 0x80,	/* Instruction is a guard. */
-
-  /* Masks. */
-  IRT_TYPE = 0x1f,
-  IRT_T = 0xff
-} IRType;
-
-#define irtype_ispri(irt)	((uint32_t)(irt) <= IRT_TRUE)
-
-/* Stored IRType. */
-typedef struct IRType1 { uint8_t irt; } IRType1;
-
-#define IRT(o, t)		((uint32_t)(((o)<<8) | (t)))
-#define IRTI(o)			(IRT((o), IRT_INT))
-#define IRTN(o)			(IRT((o), IRT_NUM))
-#define IRTG(o, t)		(IRT((o), IRT_GUARD|(t)))
-#define IRTGI(o)		(IRT((o), IRT_GUARD|IRT_INT))
-
-#define irt_t(t)		((IRType)(t).irt)
-#define irt_type(t)		((IRType)((t).irt & IRT_TYPE))
-#define irt_sametype(t1, t2)	((((t1).irt ^ (t2).irt) & IRT_TYPE) == 0)
-#define irt_typerange(t, first, last) \
-  ((uint32_t)((t).irt & IRT_TYPE) - (uint32_t)(first) <= (uint32_t)(last-first))
-
-#define irt_isnil(t)		(irt_type(t) == IRT_NIL)
-#define irt_ispri(t)		((uint32_t)irt_type(t) <= IRT_TRUE)
-#define irt_islightud(t)	(irt_type(t) == IRT_LIGHTUD)
-#define irt_isstr(t)		(irt_type(t) == IRT_STR)
-#define irt_istab(t)		(irt_type(t) == IRT_TAB)
-#define irt_iscdata(t)		(irt_type(t) == IRT_CDATA)
-#define irt_isfloat(t)		(irt_type(t) == IRT_FLOAT)
-#define irt_isnum(t)		(irt_type(t) == IRT_NUM)
-#define irt_isint(t)		(irt_type(t) == IRT_INT)
-#define irt_isi8(t)		(irt_type(t) == IRT_I8)
-#define irt_isu8(t)		(irt_type(t) == IRT_U8)
-#define irt_isi16(t)		(irt_type(t) == IRT_I16)
-#define irt_isu16(t)		(irt_type(t) == IRT_U16)
-#define irt_isu32(t)		(irt_type(t) == IRT_U32)
-#define irt_isi64(t)		(irt_type(t) == IRT_I64)
-#define irt_isu64(t)		(irt_type(t) == IRT_U64)
-
-#define irt_isfp(t)		(irt_isnum(t) || irt_isfloat(t))
-#define irt_isinteger(t)	(irt_typerange((t), IRT_I8, IRT_INT))
-#define irt_isgcv(t)		(irt_typerange((t), IRT_STR, IRT_UDATA))
-#define irt_isaddr(t)		(irt_typerange((t), IRT_LIGHTUD, IRT_UDATA))
-#define irt_isint64(t)		(irt_typerange((t), IRT_I64, IRT_U64))
-
-#if LJ_64
-#define IRT_IS64 \
-  ((1u<<IRT_NUM)|(1u<<IRT_I64)|(1u<<IRT_U64)|(1u<<IRT_P64)|(1u<<IRT_LIGHTUD))
-#else
-#define IRT_IS64 \
-  ((1u<<IRT_NUM)|(1u<<IRT_I64)|(1u<<IRT_U64))
-#endif
-
-#define irt_is64(t)		((IRT_IS64 >> irt_type(t)) & 1)
-#define irt_is64orfp(t)		(((IRT_IS64|(1u<<IRT_FLOAT))>>irt_type(t)) & 1)
-
-#define irt_size(t)		(lj_ir_type_size[irt_t((t))])
-
-LJ_DATA const uint8_t lj_ir_type_size[];
-
-static LJ_AINLINE IRType itype2irt(const TValue *tv)
-{
-  if (tvisint(tv))
-    return IRT_INT;
-  else if (tvisnum(tv))
-    return IRT_NUM;
-#if LJ_64
-  else if (tvislightud(tv))
-    return IRT_LIGHTUD;
-#endif
-  else
-    return (IRType)~itype(tv);
-}
-
-static LJ_AINLINE uint32_t irt_toitype_(IRType t)
-{
-  lua_assert(!LJ_64 || t != IRT_LIGHTUD);
-  if (LJ_DUALNUM && t > IRT_NUM) {
-    return LJ_TISNUM;
-  } else {
-    lua_assert(t <= IRT_NUM);
-    return ~(uint32_t)t;
-  }
-}
-
-#define irt_toitype(t)		irt_toitype_(irt_type((t)))
-
-#define irt_isguard(t)		((t).irt & IRT_GUARD)
-#define irt_ismarked(t)		((t).irt & IRT_MARK)
-#define irt_setmark(t)		((t).irt |= IRT_MARK)
-#define irt_clearmark(t)	((t).irt &= ~IRT_MARK)
-#define irt_isphi(t)		((t).irt & IRT_ISPHI)
-#define irt_setphi(t)		((t).irt |= IRT_ISPHI)
-#define irt_clearphi(t)		((t).irt &= ~IRT_ISPHI)
-
-/* Stored combined IR opcode and type. */
-typedef uint16_t IROpT;
-
-/* -- IR references ------------------------------------------------------- */
-
-/* IR references. */
-typedef uint16_t IRRef1;	/* One stored reference. */
-typedef uint32_t IRRef2;	/* Two stored references. */
-typedef uint32_t IRRef;		/* Used to pass around references. */
-
-/* Fixed references. */
-enum {
-  REF_BIAS =	0x8000,
-  REF_TRUE =	REF_BIAS-3,
-  REF_FALSE =	REF_BIAS-2,
-  REF_NIL =	REF_BIAS-1,	/* \--- Constants grow downwards. */
-  REF_BASE =	REF_BIAS,	/* /--- IR grows upwards. */
-  REF_FIRST =	REF_BIAS+1,
-  REF_DROP =	0xffff
-};
-
-/* Note: IRMlit operands must be < REF_BIAS, too!
-** This allows for fast and uniform manipulation of all operands
-** without looking up the operand mode in lj_ir_mode:
-** - CSE calculates the maximum reference of two operands.
-**   This must work with mixed reference/literal operands, too.
-** - DCE marking only checks for operand >= REF_BIAS.
-** - LOOP needs to substitute reference operands.
-**   Constant references and literals must not be modified.
-*/
-
-#define IRREF2(lo, hi)		((IRRef2)(lo) | ((IRRef2)(hi) << 16))
-
-#define irref_isk(ref)		((ref) < REF_BIAS)
-
-/* Tagged IR references (32 bit).
-**
-** +-------+-------+---------------+
-** |  irt  | flags |      ref      |
-** +-------+-------+---------------+
-**
-** The tag holds a copy of the IRType and speeds up IR type checks.
-*/
-typedef uint32_t TRef;
-
-#define TREF_REFMASK		0x0000ffff
-#define TREF_FRAME		0x00010000
-#define TREF_CONT		0x00020000
-
-#define TREF(ref, t)		((TRef)((ref) + ((t)<<24)))
-
-#define tref_ref(tr)		((IRRef1)(tr))
-#define tref_t(tr)		((IRType)((tr)>>24))
-#define tref_type(tr)		((IRType)(((tr)>>24) & IRT_TYPE))
-#define tref_typerange(tr, first, last) \
-  ((((tr)>>24) & IRT_TYPE) - (TRef)(first) <= (TRef)(last-first))
-
-#define tref_istype(tr, t)	(((tr) & (IRT_TYPE<<24)) == ((t)<<24))
-#define tref_isnil(tr)		(tref_istype((tr), IRT_NIL))
-#define tref_isfalse(tr)	(tref_istype((tr), IRT_FALSE))
-#define tref_istrue(tr)		(tref_istype((tr), IRT_TRUE))
-#define tref_isstr(tr)		(tref_istype((tr), IRT_STR))
-#define tref_isfunc(tr)		(tref_istype((tr), IRT_FUNC))
-#define tref_iscdata(tr)	(tref_istype((tr), IRT_CDATA))
-#define tref_istab(tr)		(tref_istype((tr), IRT_TAB))
-#define tref_isudata(tr)	(tref_istype((tr), IRT_UDATA))
-#define tref_isnum(tr)		(tref_istype((tr), IRT_NUM))
-#define tref_isint(tr)		(tref_istype((tr), IRT_INT))
-
-#define tref_isbool(tr)		(tref_typerange((tr), IRT_FALSE, IRT_TRUE))
-#define tref_ispri(tr)		(tref_typerange((tr), IRT_NIL, IRT_TRUE))
-#define tref_istruecond(tr)	(!tref_typerange((tr), IRT_NIL, IRT_FALSE))
-#define tref_isinteger(tr)	(tref_typerange((tr), IRT_I8, IRT_INT))
-#define tref_isnumber(tr)	(tref_typerange((tr), IRT_NUM, IRT_INT))
-#define tref_isnumber_str(tr)	(tref_isnumber((tr)) || tref_isstr((tr)))
-#define tref_isgcv(tr)		(tref_typerange((tr), IRT_STR, IRT_UDATA))
-
-#define tref_isk(tr)		(irref_isk(tref_ref((tr))))
-#define tref_isk2(tr1, tr2)	(irref_isk(tref_ref((tr1) | (tr2))))
-
-#define TREF_PRI(t)		(TREF(REF_NIL-(t), (t)))
-#define TREF_NIL		(TREF_PRI(IRT_NIL))
-#define TREF_FALSE		(TREF_PRI(IRT_FALSE))
-#define TREF_TRUE		(TREF_PRI(IRT_TRUE))
-
-/* -- IR format ----------------------------------------------------------- */
-
-/* IR instruction format (64 bit).
-**
-**    16      16     8   8   8   8
-** +-------+-------+---+---+---+---+
-** |  op1  |  op2  | t | o | r | s |
-** +-------+-------+---+---+---+---+
-** |  op12/i/gco   |   ot  | prev  | (alternative fields in union)
-** +---------------+-------+-------+
-**        32           16      16
-**
-** prev is only valid prior to register allocation and then reused for r + s.
-*/
-
-typedef union IRIns {
-  struct {
-    LJ_ENDIAN_LOHI(
-      IRRef1 op1;	/* IR operand 1. */
-    , IRRef1 op2;	/* IR operand 2. */
-    )
-    IROpT ot;		/* IR opcode and type (overlaps t and o). */
-    IRRef1 prev;	/* Previous ins in same chain (overlaps r and s). */
-  };
-  struct {
-    IRRef2 op12;	/* IR operand 1 and 2 (overlaps op1 and op2). */
-    LJ_ENDIAN_LOHI(
-      IRType1 t;	/* IR type. */
-    , IROp1 o;		/* IR opcode. */
-    )
-    LJ_ENDIAN_LOHI(
-      uint8_t r;	/* Register allocation (overlaps prev). */
-    , uint8_t s;	/* Spill slot allocation (overlaps prev). */
-    )
-  };
-  int32_t i;		/* 32 bit signed integer literal (overlaps op12). */
-  GCRef gcr;		/* GCobj constant (overlaps op12). */
-  MRef ptr;		/* Pointer constant (overlaps op12). */
-} IRIns;
-
-#define ir_kgc(ir)	check_exp((ir)->o == IR_KGC, gcref((ir)->gcr))
-#define ir_kstr(ir)	(gco2str(ir_kgc((ir))))
-#define ir_ktab(ir)	(gco2tab(ir_kgc((ir))))
-#define ir_kfunc(ir)	(gco2func(ir_kgc((ir))))
-#define ir_kcdata(ir)	(gco2cd(ir_kgc((ir))))
-#define ir_knum(ir)	check_exp((ir)->o == IR_KNUM, mref((ir)->ptr, cTValue))
-#define ir_kint64(ir)	check_exp((ir)->o == IR_KINT64, mref((ir)->ptr,cTValue))
-#define ir_k64(ir) \
-  check_exp((ir)->o == IR_KNUM || (ir)->o == IR_KINT64, mref((ir)->ptr,cTValue))
-#define ir_kptr(ir) \
-  check_exp((ir)->o == IR_KPTR || (ir)->o == IR_KKPTR, mref((ir)->ptr, void))
-
-/* A store or any other op with a non-weak guard has a side-effect. */
-static LJ_AINLINE int ir_sideeff(IRIns *ir)
-{
-  return (((ir->t.irt | ~IRT_GUARD) & lj_ir_mode[ir->o]) >= IRM_S);
-}
-
-LJ_STATIC_ASSERT((int)IRT_GUARD == (int)IRM_W);
-
-#endif
diff --git a/luajit-2.0/src/lj_ircall.h b/luajit-2.0/src/lj_ircall.h
deleted file mode 100644
index 92d61df..0000000
--- a/luajit-2.0/src/lj_ircall.h
+++ /dev/null
@@ -1,277 +0,0 @@
-/*
-** IR CALL* instruction definitions.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#ifndef _LJ_IRCALL_H
-#define _LJ_IRCALL_H
-
-#include "lj_obj.h"
-#include "lj_ir.h"
-#include "lj_jit.h"
-
-/* C call info for CALL* instructions. */
-typedef struct CCallInfo {
-  ASMFunction func;		/* Function pointer. */
-  uint32_t flags;		/* Number of arguments and flags. */
-} CCallInfo;
-
-#define CCI_NARGS(ci)		((ci)->flags & 0xff)	/* Extract # of args. */
-#define CCI_NARGS_MAX		32			/* Max. # of args. */
-
-#define CCI_OTSHIFT		16
-#define CCI_OPTYPE(ci)		((ci)->flags >> CCI_OTSHIFT)  /* Get op/type. */
-#define CCI_OPSHIFT		24
-#define CCI_OP(ci)		((ci)->flags >> CCI_OPSHIFT)  /* Get op. */
-
-#define CCI_CALL_N		(IR_CALLN << CCI_OPSHIFT)
-#define CCI_CALL_L		(IR_CALLL << CCI_OPSHIFT)
-#define CCI_CALL_S		(IR_CALLS << CCI_OPSHIFT)
-#define CCI_CALL_FN		(CCI_CALL_N|CCI_CC_FASTCALL)
-#define CCI_CALL_FL		(CCI_CALL_L|CCI_CC_FASTCALL)
-#define CCI_CALL_FS		(CCI_CALL_S|CCI_CC_FASTCALL)
-
-/* C call info flags. */
-#define CCI_L			0x0100	/* Implicit L arg. */
-#define CCI_CASTU64		0x0200	/* Cast u64 result to number. */
-#define CCI_NOFPRCLOBBER	0x0400	/* Does not clobber any FPRs. */
-#define CCI_VARARG		0x0800	/* Vararg function. */
-
-#define CCI_CC_MASK		0x3000	/* Calling convention mask. */
-#define CCI_CC_SHIFT		12
-/* ORDER CC */
-#define CCI_CC_CDECL		0x0000	/* Default cdecl calling convention. */
-#define CCI_CC_THISCALL		0x1000	/* Thiscall calling convention. */
-#define CCI_CC_FASTCALL		0x2000	/* Fastcall calling convention. */
-#define CCI_CC_STDCALL		0x3000	/* Stdcall calling convention. */
-
-/* Helpers for conditional function definitions. */
-#define IRCALLCOND_ANY(x)		x
-
-#if LJ_TARGET_X86ORX64
-#define IRCALLCOND_FPMATH(x)		NULL
-#else
-#define IRCALLCOND_FPMATH(x)		x
-#endif
-
-#if LJ_SOFTFP
-#define IRCALLCOND_SOFTFP(x)		x
-#if LJ_HASFFI
-#define IRCALLCOND_SOFTFP_FFI(x)	x
-#else
-#define IRCALLCOND_SOFTFP_FFI(x)	NULL
-#endif
-#else
-#define IRCALLCOND_SOFTFP(x)		NULL
-#define IRCALLCOND_SOFTFP_FFI(x)	NULL
-#endif
-
-#define LJ_NEED_FP64	(LJ_TARGET_ARM || LJ_TARGET_PPC || LJ_TARGET_MIPS)
-
-#if LJ_HASFFI && (LJ_SOFTFP || LJ_NEED_FP64)
-#define IRCALLCOND_FP64_FFI(x)		x
-#else
-#define IRCALLCOND_FP64_FFI(x)		NULL
-#endif
-
-#if LJ_HASFFI
-#define IRCALLCOND_FFI(x)		x
-#if LJ_32
-#define IRCALLCOND_FFI32(x)		x
-#else
-#define IRCALLCOND_FFI32(x)		NULL
-#endif
-#else
-#define IRCALLCOND_FFI(x)		NULL
-#define IRCALLCOND_FFI32(x)		NULL
-#endif
-
-#if LJ_TARGET_X86
-#define CCI_RANDFPR	0	/* Clang on OSX/x86 is overzealous. */
-#else
-#define CCI_RANDFPR	CCI_NOFPRCLOBBER
-#endif
-
-#if LJ_SOFTFP
-#define ARG1_FP		2	/* Treat as 2 32 bit arguments. */
-#else
-#define ARG1_FP		1
-#endif
-
-#if LJ_32
-#define ARG2_64		4	/* Treat as 4 32 bit arguments. */
-#else
-#define ARG2_64		2
-#endif
-
-/* Function definitions for CALL* instructions. */
-#define IRCALLDEF(_) \
-  _(ANY,	lj_str_cmp,		2,  FN, INT, CCI_NOFPRCLOBBER) \
-  _(ANY,	lj_str_new,		3,   S, STR, CCI_L) \
-  _(ANY,	lj_strscan_num,		2,  FN, INT, 0) \
-  _(ANY,	lj_str_fromint,		2,  FN, STR, CCI_L) \
-  _(ANY,	lj_str_fromnum,		2,  FN, STR, CCI_L) \
-  _(ANY,	lj_tab_new1,		2,  FS, TAB, CCI_L) \
-  _(ANY,	lj_tab_dup,		2,  FS, TAB, CCI_L) \
-  _(ANY,	lj_tab_newkey,		3,   S, P32, CCI_L) \
-  _(ANY,	lj_tab_len,		1,  FL, INT, 0) \
-  _(ANY,	lj_gc_step_jit,		2,  FS, NIL, CCI_L) \
-  _(ANY,	lj_gc_barrieruv,	2,  FS, NIL, 0) \
-  _(ANY,	lj_mem_newgco,		2,  FS, P32, CCI_L) \
-  _(ANY,	lj_math_random_step, 1, FS, NUM, CCI_CASTU64|CCI_RANDFPR)\
-  _(ANY,	lj_vm_modi,		2,  FN, INT, 0) \
-  _(ANY,	sinh,			ARG1_FP,  N, NUM, 0) \
-  _(ANY,	cosh,			ARG1_FP,  N, NUM, 0) \
-  _(ANY,	tanh,			ARG1_FP,  N, NUM, 0) \
-  _(ANY,	fputc,			2,  S, INT, 0) \
-  _(ANY,	fwrite,			4,  S, INT, 0) \
-  _(ANY,	fflush,			1,  S, INT, 0) \
-  /* ORDER FPM */ \
-  _(FPMATH,	lj_vm_floor,		ARG1_FP,   N, NUM, 0) \
-  _(FPMATH,	lj_vm_ceil,		ARG1_FP,   N, NUM, 0) \
-  _(FPMATH,	lj_vm_trunc,		ARG1_FP,   N, NUM, 0) \
-  _(FPMATH,	sqrt,			ARG1_FP,   N, NUM, 0) \
-  _(FPMATH,	exp,			ARG1_FP,   N, NUM, 0) \
-  _(FPMATH,	lj_vm_exp2,		ARG1_FP,   N, NUM, 0) \
-  _(FPMATH,	log,			ARG1_FP,   N, NUM, 0) \
-  _(FPMATH,	lj_vm_log2,		ARG1_FP,   N, NUM, 0) \
-  _(FPMATH,	log10,			ARG1_FP,   N, NUM, 0) \
-  _(FPMATH,	sin,			ARG1_FP,   N, NUM, 0) \
-  _(FPMATH,	cos,			ARG1_FP,   N, NUM, 0) \
-  _(FPMATH,	tan,			ARG1_FP,   N, NUM, 0) \
-  _(FPMATH,	lj_vm_powi,		ARG1_FP+1, N, NUM, 0) \
-  _(FPMATH,	pow,			ARG1_FP*2, N, NUM, 0) \
-  _(FPMATH,	atan2,			ARG1_FP*2, N, NUM, 0) \
-  _(FPMATH,	ldexp,			ARG1_FP+1, N, NUM, 0) \
-  _(SOFTFP,	lj_vm_tobit,		2,   N, INT, 0) \
-  _(SOFTFP,	softfp_add,		4,   N, NUM, 0) \
-  _(SOFTFP,	softfp_sub,		4,   N, NUM, 0) \
-  _(SOFTFP,	softfp_mul,		4,   N, NUM, 0) \
-  _(SOFTFP,	softfp_div,		4,   N, NUM, 0) \
-  _(SOFTFP,	softfp_cmp,		4,   N, NIL, 0) \
-  _(SOFTFP,	softfp_i2d,		1,   N, NUM, 0) \
-  _(SOFTFP,	softfp_d2i,		2,   N, INT, 0) \
-  _(SOFTFP_FFI,	softfp_ui2d,		1,   N, NUM, 0) \
-  _(SOFTFP_FFI,	softfp_f2d,		1,   N, NUM, 0) \
-  _(SOFTFP_FFI,	softfp_d2ui,		2,   N, INT, 0) \
-  _(SOFTFP_FFI,	softfp_d2f,		2,   N, FLOAT, 0) \
-  _(SOFTFP_FFI,	softfp_i2f,		1,   N, FLOAT, 0) \
-  _(SOFTFP_FFI,	softfp_ui2f,		1,   N, FLOAT, 0) \
-  _(SOFTFP_FFI,	softfp_f2i,		1,   N, INT, 0) \
-  _(SOFTFP_FFI,	softfp_f2ui,		1,   N, INT, 0) \
-  _(FP64_FFI,	fp64_l2d,		2,   N, NUM, 0) \
-  _(FP64_FFI,	fp64_ul2d,		2,   N, NUM, 0) \
-  _(FP64_FFI,	fp64_l2f,		2,   N, FLOAT, 0) \
-  _(FP64_FFI,	fp64_ul2f,		2,   N, FLOAT, 0) \
-  _(FP64_FFI,	fp64_d2l,		ARG1_FP,   N, I64, 0) \
-  _(FP64_FFI,	fp64_d2ul,		ARG1_FP,   N, U64, 0) \
-  _(FP64_FFI,	fp64_f2l,		1,   N, I64, 0) \
-  _(FP64_FFI,	fp64_f2ul,		1,   N, U64, 0) \
-  _(FFI,	lj_carith_divi64,	ARG2_64,   N, I64, CCI_NOFPRCLOBBER) \
-  _(FFI,	lj_carith_divu64,	ARG2_64,   N, U64, CCI_NOFPRCLOBBER) \
-  _(FFI,	lj_carith_modi64,	ARG2_64,   N, I64, CCI_NOFPRCLOBBER) \
-  _(FFI,	lj_carith_modu64,	ARG2_64,   N, U64, CCI_NOFPRCLOBBER) \
-  _(FFI,	lj_carith_powi64,	ARG2_64,   N, I64, CCI_NOFPRCLOBBER) \
-  _(FFI,	lj_carith_powu64,	ARG2_64,   N, U64, CCI_NOFPRCLOBBER) \
-  _(FFI,	lj_cdata_setfin,	2,        FN, P32, CCI_L) \
-  _(FFI,	strlen,			1,         L, INTP, 0) \
-  _(FFI,	memcpy,			3,         S, PTR, 0) \
-  _(FFI,	memset,			3,         S, PTR, 0) \
-  _(FFI,	lj_vm_errno,		0,         S, INT, CCI_NOFPRCLOBBER) \
-  _(FFI32,	lj_carith_mul64,	ARG2_64,   N, I64, CCI_NOFPRCLOBBER)
-  \
-  /* End of list. */
-
-typedef enum {
-#define IRCALLENUM(cond, name, nargs, kind, type, flags)	IRCALL_##name,
-IRCALLDEF(IRCALLENUM)
-#undef IRCALLENUM
-  IRCALL__MAX
-} IRCallID;
-
-LJ_FUNC TRef lj_ir_call(jit_State *J, IRCallID id, ...);
-
-LJ_DATA const CCallInfo lj_ir_callinfo[IRCALL__MAX+1];
-
-/* Soft-float declarations. */
-#if LJ_SOFTFP
-#if LJ_TARGET_ARM
-#define softfp_add __aeabi_dadd
-#define softfp_sub __aeabi_dsub
-#define softfp_mul __aeabi_dmul
-#define softfp_div __aeabi_ddiv
-#define softfp_cmp __aeabi_cdcmple
-#define softfp_i2d __aeabi_i2d
-#define softfp_d2i __aeabi_d2iz
-#define softfp_ui2d __aeabi_ui2d
-#define softfp_f2d __aeabi_f2d
-#define softfp_d2ui __aeabi_d2uiz
-#define softfp_d2f __aeabi_d2f
-#define softfp_i2f __aeabi_i2f
-#define softfp_ui2f __aeabi_ui2f
-#define softfp_f2i __aeabi_f2iz
-#define softfp_f2ui __aeabi_f2uiz
-#define fp64_l2d __aeabi_l2d
-#define fp64_ul2d __aeabi_ul2d
-#define fp64_l2f __aeabi_l2f
-#define fp64_ul2f __aeabi_ul2f
-#if LJ_TARGET_IOS
-#define fp64_d2l __fixdfdi
-#define fp64_d2ul __fixunsdfdi
-#define fp64_f2l __fixsfdi
-#define fp64_f2ul __fixunssfdi
-#else
-#define fp64_d2l __aeabi_d2lz
-#define fp64_d2ul __aeabi_d2ulz
-#define fp64_f2l __aeabi_f2lz
-#define fp64_f2ul __aeabi_f2ulz
-#endif
-#else
-#error "Missing soft-float definitions for target architecture"
-#endif
-extern double softfp_add(double a, double b);
-extern double softfp_sub(double a, double b);
-extern double softfp_mul(double a, double b);
-extern double softfp_div(double a, double b);
-extern void softfp_cmp(double a, double b);
-extern double softfp_i2d(int32_t a);
-extern int32_t softfp_d2i(double a);
-#if LJ_HASFFI
-extern double softfp_ui2d(uint32_t a);
-extern double softfp_f2d(float a);
-extern uint32_t softfp_d2ui(double a);
-extern float softfp_d2f(double a);
-extern float softfp_i2f(int32_t a);
-extern float softfp_ui2f(uint32_t a);
-extern int32_t softfp_f2i(float a);
-extern uint32_t softfp_f2ui(float a);
-#endif
-#endif
-
-#if LJ_HASFFI && LJ_NEED_FP64 && !(LJ_TARGET_ARM && LJ_SOFTFP)
-#ifdef __GNUC__
-#define fp64_l2d __floatdidf
-#define fp64_ul2d __floatundidf
-#define fp64_l2f __floatdisf
-#define fp64_ul2f __floatundisf
-#define fp64_d2l __fixdfdi
-#define fp64_d2ul __fixunsdfdi
-#define fp64_f2l __fixsfdi
-#define fp64_f2ul __fixunssfdi
-#else
-#error "Missing fp64 helper definitions for this compiler"
-#endif
-#endif
-
-#if LJ_HASFFI && (LJ_SOFTFP || LJ_NEED_FP64)
-extern double fp64_l2d(int64_t a);
-extern double fp64_ul2d(uint64_t a);
-extern float fp64_l2f(int64_t a);
-extern float fp64_ul2f(uint64_t a);
-extern int64_t fp64_d2l(double a);
-extern uint64_t fp64_d2ul(double a);
-extern int64_t fp64_f2l(float a);
-extern uint64_t fp64_f2ul(float a);
-#endif
-
-#endif
diff --git a/luajit-2.0/src/lj_iropt.h b/luajit-2.0/src/lj_iropt.h
deleted file mode 100644
index e45ae2b..0000000
--- a/luajit-2.0/src/lj_iropt.h
+++ /dev/null
@@ -1,161 +0,0 @@
-/*
-** Common header for IR emitter and optimizations.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#ifndef _LJ_IROPT_H
-#define _LJ_IROPT_H
-
-#include <stdarg.h>
-
-#include "lj_obj.h"
-#include "lj_jit.h"
-
-#if LJ_HASJIT
-/* IR emitter. */
-LJ_FUNC void LJ_FASTCALL lj_ir_growtop(jit_State *J);
-LJ_FUNC TRef LJ_FASTCALL lj_ir_emit(jit_State *J);
-
-/* Save current IR in J->fold.ins, but do not emit it (yet). */
-static LJ_AINLINE void lj_ir_set_(jit_State *J, uint16_t ot, IRRef1 a, IRRef1 b)
-{
-  J->fold.ins.ot = ot; J->fold.ins.op1 = a; J->fold.ins.op2 = b;
-}
-
-#define lj_ir_set(J, ot, a, b) \
-  lj_ir_set_(J, (uint16_t)(ot), (IRRef1)(a), (IRRef1)(b))
-
-/* Get ref of next IR instruction and optionally grow IR.
-** Note: this may invalidate all IRIns*!
-*/
-static LJ_AINLINE IRRef lj_ir_nextins(jit_State *J)
-{
-  IRRef ref = J->cur.nins;
-  if (LJ_UNLIKELY(ref >= J->irtoplim)) lj_ir_growtop(J);
-  J->cur.nins = ref + 1;
-  return ref;
-}
-
-/* Interning of constants. */
-LJ_FUNC TRef LJ_FASTCALL lj_ir_kint(jit_State *J, int32_t k);
-LJ_FUNC void lj_ir_k64_freeall(jit_State *J);
-LJ_FUNC TRef lj_ir_k64(jit_State *J, IROp op, cTValue *tv);
-LJ_FUNC cTValue *lj_ir_k64_find(jit_State *J, uint64_t u64);
-LJ_FUNC TRef lj_ir_knum_u64(jit_State *J, uint64_t u64);
-LJ_FUNC TRef lj_ir_knumint(jit_State *J, lua_Number n);
-LJ_FUNC TRef lj_ir_kint64(jit_State *J, uint64_t u64);
-LJ_FUNC TRef lj_ir_kgc(jit_State *J, GCobj *o, IRType t);
-LJ_FUNC TRef lj_ir_kptr_(jit_State *J, IROp op, void *ptr);
-LJ_FUNC TRef lj_ir_knull(jit_State *J, IRType t);
-LJ_FUNC TRef lj_ir_kslot(jit_State *J, TRef key, IRRef slot);
-
-#if LJ_64
-#define lj_ir_kintp(J, k)	lj_ir_kint64(J, (uint64_t)(k))
-#else
-#define lj_ir_kintp(J, k)	lj_ir_kint(J, (int32_t)(k))
-#endif
-
-static LJ_AINLINE TRef lj_ir_knum(jit_State *J, lua_Number n)
-{
-  TValue tv;
-  tv.n = n;
-  return lj_ir_knum_u64(J, tv.u64);
-}
-
-#define lj_ir_kstr(J, str)	lj_ir_kgc(J, obj2gco((str)), IRT_STR)
-#define lj_ir_ktab(J, tab)	lj_ir_kgc(J, obj2gco((tab)), IRT_TAB)
-#define lj_ir_kfunc(J, func)	lj_ir_kgc(J, obj2gco((func)), IRT_FUNC)
-#define lj_ir_kptr(J, ptr)	lj_ir_kptr_(J, IR_KPTR, (ptr))
-#define lj_ir_kkptr(J, ptr)	lj_ir_kptr_(J, IR_KKPTR, (ptr))
-
-/* Special FP constants. */
-#define lj_ir_knum_zero(J)	lj_ir_knum_u64(J, U64x(00000000,00000000))
-#define lj_ir_knum_one(J)	lj_ir_knum_u64(J, U64x(3ff00000,00000000))
-#define lj_ir_knum_tobit(J)	lj_ir_knum_u64(J, U64x(43380000,00000000))
-
-/* Special 128 bit SIMD constants. */
-#define lj_ir_knum_abs(J)	lj_ir_k64(J, IR_KNUM, LJ_KSIMD(J, LJ_KSIMD_ABS))
-#define lj_ir_knum_neg(J)	lj_ir_k64(J, IR_KNUM, LJ_KSIMD(J, LJ_KSIMD_NEG))
-
-/* Access to constants. */
-LJ_FUNC void lj_ir_kvalue(lua_State *L, TValue *tv, const IRIns *ir);
-
-/* Convert IR operand types. */
-LJ_FUNC TRef LJ_FASTCALL lj_ir_tonumber(jit_State *J, TRef tr);
-LJ_FUNC TRef LJ_FASTCALL lj_ir_tonum(jit_State *J, TRef tr);
-LJ_FUNC TRef LJ_FASTCALL lj_ir_tostr(jit_State *J, TRef tr);
-
-/* Miscellaneous IR ops. */
-LJ_FUNC int lj_ir_numcmp(lua_Number a, lua_Number b, IROp op);
-LJ_FUNC int lj_ir_strcmp(GCstr *a, GCstr *b, IROp op);
-LJ_FUNC void lj_ir_rollback(jit_State *J, IRRef ref);
-
-/* Emit IR instructions with on-the-fly optimizations. */
-LJ_FUNC TRef LJ_FASTCALL lj_opt_fold(jit_State *J);
-LJ_FUNC TRef LJ_FASTCALL lj_opt_cse(jit_State *J);
-LJ_FUNC TRef LJ_FASTCALL lj_opt_cselim(jit_State *J, IRRef lim);
-
-/* Special return values for the fold functions. */
-enum {
-  NEXTFOLD,		/* Couldn't fold, pass on. */
-  RETRYFOLD,		/* Retry fold with modified fins. */
-  KINTFOLD,		/* Return ref for int constant in fins->i. */
-  FAILFOLD,		/* Guard would always fail. */
-  DROPFOLD,		/* Guard eliminated. */
-  MAX_FOLD
-};
-
-#define INTFOLD(k)	((J->fold.ins.i = (k)), (TRef)KINTFOLD)
-#define INT64FOLD(k)	(lj_ir_kint64(J, (k)))
-#define CONDFOLD(cond)	((TRef)FAILFOLD + (TRef)(cond))
-#define LEFTFOLD	(J->fold.ins.op1)
-#define RIGHTFOLD	(J->fold.ins.op2)
-#define CSEFOLD		(lj_opt_cse(J))
-#define EMITFOLD	(lj_ir_emit(J))
-
-/* Load/store forwarding. */
-LJ_FUNC TRef LJ_FASTCALL lj_opt_fwd_aload(jit_State *J);
-LJ_FUNC TRef LJ_FASTCALL lj_opt_fwd_hload(jit_State *J);
-LJ_FUNC TRef LJ_FASTCALL lj_opt_fwd_uload(jit_State *J);
-LJ_FUNC TRef LJ_FASTCALL lj_opt_fwd_fload(jit_State *J);
-LJ_FUNC TRef LJ_FASTCALL lj_opt_fwd_xload(jit_State *J);
-LJ_FUNC TRef LJ_FASTCALL lj_opt_fwd_tab_len(jit_State *J);
-LJ_FUNC TRef LJ_FASTCALL lj_opt_fwd_hrefk(jit_State *J);
-LJ_FUNC int LJ_FASTCALL lj_opt_fwd_href_nokey(jit_State *J);
-LJ_FUNC int LJ_FASTCALL lj_opt_fwd_tptr(jit_State *J, IRRef lim);
-LJ_FUNC int lj_opt_fwd_wasnonnil(jit_State *J, IROpT loadop, IRRef xref);
-
-/* Dead-store elimination. */
-LJ_FUNC TRef LJ_FASTCALL lj_opt_dse_ahstore(jit_State *J);
-LJ_FUNC TRef LJ_FASTCALL lj_opt_dse_ustore(jit_State *J);
-LJ_FUNC TRef LJ_FASTCALL lj_opt_dse_fstore(jit_State *J);
-LJ_FUNC TRef LJ_FASTCALL lj_opt_dse_xstore(jit_State *J);
-
-/* Narrowing. */
-LJ_FUNC TRef LJ_FASTCALL lj_opt_narrow_convert(jit_State *J);
-LJ_FUNC TRef LJ_FASTCALL lj_opt_narrow_index(jit_State *J, TRef key);
-LJ_FUNC TRef LJ_FASTCALL lj_opt_narrow_toint(jit_State *J, TRef tr);
-LJ_FUNC TRef LJ_FASTCALL lj_opt_narrow_tobit(jit_State *J, TRef tr);
-#if LJ_HASFFI
-LJ_FUNC TRef LJ_FASTCALL lj_opt_narrow_cindex(jit_State *J, TRef key);
-#endif
-LJ_FUNC TRef lj_opt_narrow_arith(jit_State *J, TRef rb, TRef rc,
-				 TValue *vb, TValue *vc, IROp op);
-LJ_FUNC TRef lj_opt_narrow_unm(jit_State *J, TRef rc, TValue *vc);
-LJ_FUNC TRef lj_opt_narrow_mod(jit_State *J, TRef rb, TRef rc, TValue *vc);
-LJ_FUNC TRef lj_opt_narrow_pow(jit_State *J, TRef rb, TRef rc, TValue *vc);
-LJ_FUNC IRType lj_opt_narrow_forl(jit_State *J, cTValue *forbase);
-
-/* Optimization passes. */
-LJ_FUNC void lj_opt_dce(jit_State *J);
-LJ_FUNC int lj_opt_loop(jit_State *J);
-#if LJ_SOFTFP || (LJ_32 && LJ_HASFFI)
-LJ_FUNC void lj_opt_split(jit_State *J);
-#else
-#define lj_opt_split(J)		UNUSED(J)
-#endif
-LJ_FUNC void lj_opt_sink(jit_State *J);
-
-#endif
-
-#endif
diff --git a/luajit-2.0/src/lj_jit.h b/luajit-2.0/src/lj_jit.h
deleted file mode 100644
index ecd79de..0000000
--- a/luajit-2.0/src/lj_jit.h
+++ /dev/null
@@ -1,417 +0,0 @@
-/*
-** Common definitions for the JIT compiler.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#ifndef _LJ_JIT_H
-#define _LJ_JIT_H
-
-#include "lj_obj.h"
-#include "lj_ir.h"
-
-/* JIT engine flags. */
-#define JIT_F_ON		0x00000001
-
-/* CPU-specific JIT engine flags. */
-#if LJ_TARGET_X86ORX64
-#define JIT_F_CMOV		0x00000010
-#define JIT_F_SSE2		0x00000020
-#define JIT_F_SSE3		0x00000040
-#define JIT_F_SSE4_1		0x00000080
-#define JIT_F_P4		0x00000100
-#define JIT_F_PREFER_IMUL	0x00000200
-#define JIT_F_SPLIT_XMM		0x00000400
-#define JIT_F_LEA_AGU		0x00000800
-
-/* Names for the CPU-specific flags. Must match the order above. */
-#define JIT_F_CPU_FIRST		JIT_F_CMOV
-#define JIT_F_CPUSTRING		"\4CMOV\4SSE2\4SSE3\6SSE4.1\2P4\3AMD\2K8\4ATOM"
-#elif LJ_TARGET_ARM
-#define JIT_F_ARMV6_		0x00000010
-#define JIT_F_ARMV6T2_		0x00000020
-#define JIT_F_ARMV7		0x00000040
-#define JIT_F_VFPV2		0x00000080
-#define JIT_F_VFPV3		0x00000100
-
-#define JIT_F_ARMV6		(JIT_F_ARMV6_|JIT_F_ARMV6T2_|JIT_F_ARMV7)
-#define JIT_F_ARMV6T2		(JIT_F_ARMV6T2_|JIT_F_ARMV7)
-#define JIT_F_VFP		(JIT_F_VFPV2|JIT_F_VFPV3)
-
-/* Names for the CPU-specific flags. Must match the order above. */
-#define JIT_F_CPU_FIRST		JIT_F_ARMV6_
-#define JIT_F_CPUSTRING		"\5ARMv6\7ARMv6T2\5ARMv7\5VFPv2\5VFPv3"
-#elif LJ_TARGET_PPC
-#define JIT_F_SQRT		0x00000010
-#define JIT_F_ROUND		0x00000020
-
-/* Names for the CPU-specific flags. Must match the order above. */
-#define JIT_F_CPU_FIRST		JIT_F_SQRT
-#define JIT_F_CPUSTRING		"\4SQRT\5ROUND"
-#elif LJ_TARGET_MIPS
-#define JIT_F_MIPS32R2		0x00000010
-
-/* Names for the CPU-specific flags. Must match the order above. */
-#define JIT_F_CPU_FIRST		JIT_F_MIPS32R2
-#define JIT_F_CPUSTRING		"\010MIPS32R2"
-#else
-#define JIT_F_CPU_FIRST		0
-#define JIT_F_CPUSTRING		""
-#endif
-
-/* Optimization flags. */
-#define JIT_F_OPT_MASK		0x0fff0000
-
-#define JIT_F_OPT_FOLD		0x00010000
-#define JIT_F_OPT_CSE		0x00020000
-#define JIT_F_OPT_DCE		0x00040000
-#define JIT_F_OPT_FWD		0x00080000
-#define JIT_F_OPT_DSE		0x00100000
-#define JIT_F_OPT_NARROW	0x00200000
-#define JIT_F_OPT_LOOP		0x00400000
-#define JIT_F_OPT_ABC		0x00800000
-#define JIT_F_OPT_SINK		0x01000000
-#define JIT_F_OPT_FUSE		0x02000000
-
-/* Optimizations names for -O. Must match the order above. */
-#define JIT_F_OPT_FIRST		JIT_F_OPT_FOLD
-#define JIT_F_OPTSTRING	\
-  "\4fold\3cse\3dce\3fwd\3dse\6narrow\4loop\3abc\4sink\4fuse"
-
-/* Optimization levels set a fixed combination of flags. */
-#define JIT_F_OPT_0	0
-#define JIT_F_OPT_1	(JIT_F_OPT_FOLD|JIT_F_OPT_CSE|JIT_F_OPT_DCE)
-#define JIT_F_OPT_2	(JIT_F_OPT_1|JIT_F_OPT_NARROW|JIT_F_OPT_LOOP)
-#define JIT_F_OPT_3	(JIT_F_OPT_2|\
-  JIT_F_OPT_FWD|JIT_F_OPT_DSE|JIT_F_OPT_ABC|JIT_F_OPT_SINK|JIT_F_OPT_FUSE)
-#define JIT_F_OPT_DEFAULT	JIT_F_OPT_3
-
-#if LJ_TARGET_WINDOWS || LJ_64
-/* See: http://blogs.msdn.com/oldnewthing/archive/2003/10/08/55239.aspx */
-#define JIT_P_sizemcode_DEFAULT		64
-#else
-/* Could go as low as 4K, but the mmap() overhead would be rather high. */
-#define JIT_P_sizemcode_DEFAULT		32
-#endif
-
-/* Optimization parameters and their defaults. Length is a char in octal! */
-#define JIT_PARAMDEF(_) \
-  _(\010, maxtrace,	1000)	/* Max. # of traces in cache. */ \
-  _(\011, maxrecord,	4000)	/* Max. # of recorded IR instructions. */ \
-  _(\012, maxirconst,	500)	/* Max. # of IR constants of a trace. */ \
-  _(\007, maxside,	100)	/* Max. # of side traces of a root trace. */ \
-  _(\007, maxsnap,	500)	/* Max. # of snapshots for a trace. */ \
-  \
-  _(\007, hotloop,	56)	/* # of iter. to detect a hot loop/call. */ \
-  _(\007, hotexit,	10)	/* # of taken exits to start a side trace. */ \
-  _(\007, tryside,	4)	/* # of attempts to compile a side trace. */ \
-  \
-  _(\012, instunroll,	4)	/* Max. unroll for instable loops. */ \
-  _(\012, loopunroll,	15)	/* Max. unroll for loop ops in side traces. */ \
-  _(\012, callunroll,	3)	/* Max. unroll for recursive calls. */ \
-  _(\011, recunroll,	2)	/* Min. unroll for true recursion. */ \
-  \
-  /* Size of each machine code area (in KBytes). */ \
-  _(\011, sizemcode,	JIT_P_sizemcode_DEFAULT) \
-  /* Max. total size of all machine code areas (in KBytes). */ \
-  _(\010, maxmcode,	512) \
-  /* End of list. */
-
-enum {
-#define JIT_PARAMENUM(len, name, value)	JIT_P_##name,
-JIT_PARAMDEF(JIT_PARAMENUM)
-#undef JIT_PARAMENUM
-  JIT_P__MAX
-};
-
-#define JIT_PARAMSTR(len, name, value)	#len #name
-#define JIT_P_STRING	JIT_PARAMDEF(JIT_PARAMSTR)
-
-/* Trace compiler state. */
-typedef enum {
-  LJ_TRACE_IDLE,	/* Trace compiler idle. */
-  LJ_TRACE_ACTIVE = 0x10,
-  LJ_TRACE_RECORD,	/* Bytecode recording active. */
-  LJ_TRACE_START,	/* New trace started. */
-  LJ_TRACE_END,		/* End of trace. */
-  LJ_TRACE_ASM,		/* Assemble trace. */
-  LJ_TRACE_ERR		/* Trace aborted with error. */
-} TraceState;
-
-/* Post-processing action. */
-typedef enum {
-  LJ_POST_NONE,		/* No action. */
-  LJ_POST_FIXCOMP,	/* Fixup comparison and emit pending guard. */
-  LJ_POST_FIXGUARD,	/* Fixup and emit pending guard. */
-  LJ_POST_FIXGUARDSNAP,	/* Fixup and emit pending guard and snapshot. */
-  LJ_POST_FIXBOOL,	/* Fixup boolean result. */
-  LJ_POST_FIXCONST,	/* Fixup constant results. */
-  LJ_POST_FFRETRY	/* Suppress recording of retried fast functions. */
-} PostProc;
-
-/* Machine code type. */
-#if LJ_TARGET_X86ORX64
-typedef uint8_t MCode;
-#else
-typedef uint32_t MCode;
-#endif
-
-/* Stack snapshot header. */
-typedef struct SnapShot {
-  uint16_t mapofs;	/* Offset into snapshot map. */
-  IRRef1 ref;		/* First IR ref for this snapshot. */
-  uint8_t nslots;	/* Number of valid slots. */
-  uint8_t topslot;	/* Maximum frame extent. */
-  uint8_t nent;		/* Number of compressed entries. */
-  uint8_t count;	/* Count of taken exits for this snapshot. */
-} SnapShot;
-
-#define SNAPCOUNT_DONE	255	/* Already compiled and linked a side trace. */
-
-/* Compressed snapshot entry. */
-typedef uint32_t SnapEntry;
-
-#define SNAP_FRAME		0x010000	/* Frame slot. */
-#define SNAP_CONT		0x020000	/* Continuation slot. */
-#define SNAP_NORESTORE		0x040000	/* No need to restore slot. */
-#define SNAP_SOFTFPNUM		0x080000	/* Soft-float number. */
-LJ_STATIC_ASSERT(SNAP_FRAME == TREF_FRAME);
-LJ_STATIC_ASSERT(SNAP_CONT == TREF_CONT);
-
-#define SNAP(slot, flags, ref)	(((SnapEntry)(slot) << 24) + (flags) + (ref))
-#define SNAP_TR(slot, tr) \
-  (((SnapEntry)(slot) << 24) + ((tr) & (TREF_CONT|TREF_FRAME|TREF_REFMASK)))
-#define SNAP_MKPC(pc)		((SnapEntry)u32ptr(pc))
-#define SNAP_MKFTSZ(ftsz)	((SnapEntry)(ftsz))
-#define snap_ref(sn)		((sn) & 0xffff)
-#define snap_slot(sn)		((BCReg)((sn) >> 24))
-#define snap_isframe(sn)	((sn) & SNAP_FRAME)
-#define snap_pc(sn)		((const BCIns *)(uintptr_t)(sn))
-#define snap_setref(sn, ref)	(((sn) & (0xffff0000&~SNAP_NORESTORE)) | (ref))
-
-/* Snapshot and exit numbers. */
-typedef uint32_t SnapNo;
-typedef uint32_t ExitNo;
-
-/* Trace number. */
-typedef uint32_t TraceNo;	/* Used to pass around trace numbers. */
-typedef uint16_t TraceNo1;	/* Stored trace number. */
-
-/* Type of link. ORDER LJ_TRLINK */
-typedef enum {
-  LJ_TRLINK_NONE,		/* Incomplete trace. No link, yet. */
-  LJ_TRLINK_ROOT,		/* Link to other root trace. */
-  LJ_TRLINK_LOOP,		/* Loop to same trace. */
-  LJ_TRLINK_TAILREC,		/* Tail-recursion. */
-  LJ_TRLINK_UPREC,		/* Up-recursion. */
-  LJ_TRLINK_DOWNREC,		/* Down-recursion. */
-  LJ_TRLINK_INTERP,		/* Fallback to interpreter. */
-  LJ_TRLINK_RETURN		/* Return to interpreter. */
-} TraceLink;
-
-/* Trace object. */
-typedef struct GCtrace {
-  GCHeader;
-  uint8_t topslot;	/* Top stack slot already checked to be allocated. */
-  uint8_t linktype;	/* Type of link. */
-  IRRef nins;		/* Next IR instruction. Biased with REF_BIAS. */
-  GCRef gclist;
-  IRIns *ir;		/* IR instructions/constants. Biased with REF_BIAS. */
-  IRRef nk;		/* Lowest IR constant. Biased with REF_BIAS. */
-  uint16_t nsnap;	/* Number of snapshots. */
-  uint16_t nsnapmap;	/* Number of snapshot map elements. */
-  SnapShot *snap;	/* Snapshot array. */
-  SnapEntry *snapmap;	/* Snapshot map. */
-  GCRef startpt;	/* Starting prototype. */
-  MRef startpc;		/* Bytecode PC of starting instruction. */
-  BCIns startins;	/* Original bytecode of starting instruction. */
-  MSize szmcode;	/* Size of machine code. */
-  MCode *mcode;		/* Start of machine code. */
-  MSize mcloop;		/* Offset of loop start in machine code. */
-  uint16_t nchild;	/* Number of child traces (root trace only). */
-  uint16_t spadjust;	/* Stack pointer adjustment (offset in bytes). */
-  TraceNo1 traceno;	/* Trace number. */
-  TraceNo1 link;	/* Linked trace (or self for loops). */
-  TraceNo1 root;	/* Root trace of side trace (or 0 for root traces). */
-  TraceNo1 nextroot;	/* Next root trace for same prototype. */
-  TraceNo1 nextside;	/* Next side trace of same root trace. */
-  uint8_t sinktags;	/* Trace has SINK tags. */
-  uint8_t unused1;
-#ifdef LUAJIT_USE_GDBJIT
-  void *gdbjit_entry;	/* GDB JIT entry. */
-#endif
-} GCtrace;
-
-#define gco2trace(o)	check_exp((o)->gch.gct == ~LJ_TTRACE, (GCtrace *)(o))
-#define traceref(J, n) \
-  check_exp((n)>0 && (MSize)(n)<J->sizetrace, (GCtrace *)gcref(J->trace[(n)]))
-
-LJ_STATIC_ASSERT(offsetof(GChead, gclist) == offsetof(GCtrace, gclist));
-
-static LJ_AINLINE MSize snap_nextofs(GCtrace *T, SnapShot *snap)
-{
-  if (snap+1 == &T->snap[T->nsnap])
-    return T->nsnapmap;
-  else
-    return (snap+1)->mapofs;
-}
-
-/* Round-robin penalty cache for bytecodes leading to aborted traces. */
-typedef struct HotPenalty {
-  MRef pc;		/* Starting bytecode PC. */
-  uint16_t val;		/* Penalty value, i.e. hotcount start. */
-  uint16_t reason;	/* Abort reason (really TraceErr). */
-} HotPenalty;
-
-#define PENALTY_SLOTS	64	/* Penalty cache slot. Must be a power of 2. */
-#define PENALTY_MIN	(36*2)	/* Minimum penalty value. */
-#define PENALTY_MAX	60000	/* Maximum penalty value. */
-#define PENALTY_RNDBITS	4	/* # of random bits to add to penalty value. */
-
-/* Round-robin backpropagation cache for narrowing conversions. */
-typedef struct BPropEntry {
-  IRRef1 key;		/* Key: original reference. */
-  IRRef1 val;		/* Value: reference after conversion. */
-  IRRef mode;		/* Mode for this entry (currently IRCONV_*). */
-} BPropEntry;
-
-/* Number of slots for the backpropagation cache. Must be a power of 2. */
-#define BPROP_SLOTS	16
-
-/* Scalar evolution analysis cache. */
-typedef struct ScEvEntry {
-  MRef pc;		/* Bytecode PC of FORI. */
-  IRRef1 idx;		/* Index reference. */
-  IRRef1 start;		/* Constant start reference. */
-  IRRef1 stop;		/* Constant stop reference. */
-  IRRef1 step;		/* Constant step reference. */
-  IRType1 t;		/* Scalar type. */
-  uint8_t dir;		/* Direction. 1: +, 0: -. */
-} ScEvEntry;
-
-/* 128 bit SIMD constants. */
-enum {
-  LJ_KSIMD_ABS,
-  LJ_KSIMD_NEG,
-  LJ_KSIMD__MAX
-};
-
-/* Get 16 byte aligned pointer to SIMD constant. */
-#define LJ_KSIMD(J, n) \
-  ((TValue *)(((intptr_t)&J->ksimd[2*(n)] + 15) & ~(intptr_t)15))
-
-/* Set/reset flag to activate the SPLIT pass for the current trace. */
-#if LJ_SOFTFP || (LJ_32 && LJ_HASFFI)
-#define lj_needsplit(J)		(J->needsplit = 1)
-#define lj_resetsplit(J)	(J->needsplit = 0)
-#else
-#define lj_needsplit(J)		UNUSED(J)
-#define lj_resetsplit(J)	UNUSED(J)
-#endif
-
-/* Fold state is used to fold instructions on-the-fly. */
-typedef struct FoldState {
-  IRIns ins;		/* Currently emitted instruction. */
-  IRIns left;		/* Instruction referenced by left operand. */
-  IRIns right;		/* Instruction referenced by right operand. */
-} FoldState;
-
-/* JIT compiler state. */
-typedef struct jit_State {
-  GCtrace cur;		/* Current trace. */
-
-  lua_State *L;		/* Current Lua state. */
-  const BCIns *pc;	/* Current PC. */
-  GCfunc *fn;		/* Current function. */
-  GCproto *pt;		/* Current prototype. */
-  TRef *base;		/* Current frame base, points into J->slots. */
-
-  uint32_t flags;	/* JIT engine flags. */
-  BCReg maxslot;	/* Relative to baseslot. */
-  BCReg baseslot;	/* Current frame base, offset into J->slots. */
-
-  uint8_t mergesnap;	/* Allowed to merge with next snapshot. */
-  uint8_t needsnap;	/* Need snapshot before recording next bytecode. */
-  IRType1 guardemit;	/* Accumulated IRT_GUARD for emitted instructions. */
-  uint8_t bcskip;	/* Number of bytecode instructions to skip. */
-
-  FoldState fold;	/* Fold state. */
-
-  const BCIns *bc_min;	/* Start of allowed bytecode range for root trace. */
-  MSize bc_extent;	/* Extent of the range. */
-
-  TraceState state;	/* Trace compiler state. */
-
-  int32_t instunroll;	/* Unroll counter for instable loops. */
-  int32_t loopunroll;	/* Unroll counter for loop ops in side traces. */
-  int32_t tailcalled;	/* Number of successive tailcalls. */
-  int32_t framedepth;	/* Current frame depth. */
-  int32_t retdepth;	/* Return frame depth (count of RETF). */
-
-  MRef k64;		/* Pointer to chained array of 64 bit constants. */
-  TValue ksimd[LJ_KSIMD__MAX*2+1];  /* 16 byte aligned SIMD constants. */
-
-  IRIns *irbuf;		/* Temp. IR instruction buffer. Biased with REF_BIAS. */
-  IRRef irtoplim;	/* Upper limit of instuction buffer (biased). */
-  IRRef irbotlim;	/* Lower limit of instuction buffer (biased). */
-  IRRef loopref;	/* Last loop reference or ref of final LOOP (or 0). */
-
-  MSize sizesnap;	/* Size of temp. snapshot buffer. */
-  SnapShot *snapbuf;	/* Temp. snapshot buffer. */
-  SnapEntry *snapmapbuf;  /* Temp. snapshot map buffer. */
-  MSize sizesnapmap;	/* Size of temp. snapshot map buffer. */
-
-  PostProc postproc;	/* Required post-processing after execution. */
-#if LJ_SOFTFP || (LJ_32 && LJ_HASFFI)
-  int needsplit;	/* Need SPLIT pass. */
-#endif
-
-  GCRef *trace;		/* Array of traces. */
-  TraceNo freetrace;	/* Start of scan for next free trace. */
-  MSize sizetrace;	/* Size of trace array. */
-
-  IRRef1 chain[IR__MAX];  /* IR instruction skip-list chain anchors. */
-  TRef slot[LJ_MAX_JSLOTS+LJ_STACK_EXTRA];  /* Stack slot map. */
-
-  int32_t param[JIT_P__MAX];  /* JIT engine parameters. */
-
-  MCode *exitstubgroup[LJ_MAX_EXITSTUBGR];  /* Exit stub group addresses. */
-
-  HotPenalty penalty[PENALTY_SLOTS];  /* Penalty slots. */
-  uint32_t penaltyslot;	/* Round-robin index into penalty slots. */
-  uint32_t prngstate;	/* PRNG state. */
-
-  BPropEntry bpropcache[BPROP_SLOTS];  /* Backpropagation cache slots. */
-  uint32_t bpropslot;	/* Round-robin index into bpropcache slots. */
-
-  ScEvEntry scev;	/* Scalar evolution analysis cache slots. */
-
-  const BCIns *startpc;	/* Bytecode PC of starting instruction. */
-  TraceNo parent;	/* Parent of current side trace (0 for root traces). */
-  ExitNo exitno;	/* Exit number in parent of current side trace. */
-
-  BCIns *patchpc;	/* PC for pending re-patch. */
-  BCIns patchins;	/* Instruction for pending re-patch. */
-
-  int mcprot;		/* Protection of current mcode area. */
-  MCode *mcarea;	/* Base of current mcode area. */
-  MCode *mctop;		/* Top of current mcode area. */
-  MCode *mcbot;		/* Bottom of current mcode area. */
-  size_t szmcarea;	/* Size of current mcode area. */
-  size_t szallmcarea;	/* Total size of all allocated mcode areas. */
-
-  TValue errinfo;	/* Additional info element for trace errors. */
-}
-#if LJ_TARGET_ARM
-LJ_ALIGN(16)		/* For DISPATCH-relative addresses in assembler part. */
-#endif
-jit_State;
-
-/* Trivial PRNG e.g. used for penalty randomization. */
-static LJ_AINLINE uint32_t LJ_PRNG_BITS(jit_State *J, int bits)
-{
-  /* Yes, this LCG is very weak, but that doesn't matter for our use case. */
-  J->prngstate = J->prngstate * 1103515245 + 12345;
-  return J->prngstate >> (32-bits);
-}
-
-#endif
diff --git a/luajit-2.0/src/lj_lex.c b/luajit-2.0/src/lj_lex.c
deleted file mode 100644
index 4fa3931..0000000
--- a/luajit-2.0/src/lj_lex.c
+++ /dev/null
@@ -1,481 +0,0 @@
-/*
-** Lexical analyzer.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-**
-** Major portions taken verbatim or adapted from the Lua interpreter.
-** Copyright (C) 1994-2008 Lua.org, PUC-Rio. See Copyright Notice in lua.h
-*/
-
-#define lj_lex_c
-#define LUA_CORE
-
-#include "lj_obj.h"
-#include "lj_gc.h"
-#include "lj_err.h"
-#include "lj_str.h"
-#if LJ_HASFFI
-#include "lj_tab.h"
-#include "lj_ctype.h"
-#include "lj_cdata.h"
-#include "lualib.h"
-#endif
-#include "lj_state.h"
-#include "lj_lex.h"
-#include "lj_parse.h"
-#include "lj_char.h"
-#include "lj_strscan.h"
-
-/* Lua lexer token names. */
-static const char *const tokennames[] = {
-#define TKSTR1(name)		#name,
-#define TKSTR2(name, sym)	#sym,
-TKDEF(TKSTR1, TKSTR2)
-#undef TKSTR1
-#undef TKSTR2
-  NULL
-};
-
-/* -- Buffer handling ----------------------------------------------------- */
-
-#define char2int(c)		((int)(uint8_t)(c))
-#define next(ls) \
-  (ls->current = (ls->n--) > 0 ? char2int(*ls->p++) : fillbuf(ls))
-#define save_and_next(ls)	(save(ls, ls->current), next(ls))
-#define currIsNewline(ls)	(ls->current == '\n' || ls->current == '\r')
-#define END_OF_STREAM		(-1)
-
-static int fillbuf(LexState *ls)
-{
-  size_t sz;
-  const char *buf = ls->rfunc(ls->L, ls->rdata, &sz);
-  if (buf == NULL || sz == 0) return END_OF_STREAM;
-  ls->n = (MSize)sz - 1;
-  ls->p = buf;
-  return char2int(*(ls->p++));
-}
-
-static LJ_NOINLINE void save_grow(LexState *ls, int c)
-{
-  MSize newsize;
-  if (ls->sb.sz >= LJ_MAX_STR/2)
-    lj_lex_error(ls, 0, LJ_ERR_XELEM);
-  newsize = ls->sb.sz * 2;
-  lj_str_resizebuf(ls->L, &ls->sb, newsize);
-  ls->sb.buf[ls->sb.n++] = (char)c;
-}
-
-static LJ_AINLINE void save(LexState *ls, int c)
-{
-  if (LJ_UNLIKELY(ls->sb.n + 1 > ls->sb.sz))
-    save_grow(ls, c);
-  else
-    ls->sb.buf[ls->sb.n++] = (char)c;
-}
-
-static void inclinenumber(LexState *ls)
-{
-  int old = ls->current;
-  lua_assert(currIsNewline(ls));
-  next(ls);  /* skip `\n' or `\r' */
-  if (currIsNewline(ls) && ls->current != old)
-    next(ls);  /* skip `\n\r' or `\r\n' */
-  if (++ls->linenumber >= LJ_MAX_LINE)
-    lj_lex_error(ls, ls->token, LJ_ERR_XLINES);
-}
-
-/* -- Scanner for terminals ----------------------------------------------- */
-
-/* Parse a number literal. */
-static void lex_number(LexState *ls, TValue *tv)
-{
-  StrScanFmt fmt;
-  int c, xp = 'e';
-  lua_assert(lj_char_isdigit(ls->current));
-  if ((c = ls->current) == '0') {
-    save_and_next(ls);
-    if ((ls->current | 0x20) == 'x') xp = 'p';
-  }
-  while (lj_char_isident(ls->current) || ls->current == '.' ||
-	 ((ls->current == '-' || ls->current == '+') && (c | 0x20) == xp)) {
-    c = ls->current;
-    save_and_next(ls);
-  }
-  save(ls, '\0');
-  fmt = lj_strscan_scan((const uint8_t *)ls->sb.buf, tv,
-	  (LJ_DUALNUM ? STRSCAN_OPT_TOINT : STRSCAN_OPT_TONUM) |
-	  (LJ_HASFFI ? (STRSCAN_OPT_LL|STRSCAN_OPT_IMAG) : 0));
-  if (LJ_DUALNUM && fmt == STRSCAN_INT) {
-    setitype(tv, LJ_TISNUM);
-  } else if (fmt == STRSCAN_NUM) {
-    /* Already in correct format. */
-#if LJ_HASFFI
-  } else if (fmt != STRSCAN_ERROR) {
-    lua_State *L = ls->L;
-    GCcdata *cd;
-    lua_assert(fmt == STRSCAN_I64 || fmt == STRSCAN_U64 || fmt == STRSCAN_IMAG);
-    if (!ctype_ctsG(G(L))) {
-      ptrdiff_t oldtop = savestack(L, L->top);
-      luaopen_ffi(L);  /* Load FFI library on-demand. */
-      L->top = restorestack(L, oldtop);
-    }
-    if (fmt == STRSCAN_IMAG) {
-      cd = lj_cdata_new_(L, CTID_COMPLEX_DOUBLE, 2*sizeof(double));
-      ((double *)cdataptr(cd))[0] = 0;
-      ((double *)cdataptr(cd))[1] = numV(tv);
-    } else {
-      cd = lj_cdata_new_(L, fmt==STRSCAN_I64 ? CTID_INT64 : CTID_UINT64, 8);
-      *(uint64_t *)cdataptr(cd) = tv->u64;
-    }
-    lj_parse_keepcdata(ls, tv, cd);
-#endif
-  } else {
-    lua_assert(fmt == STRSCAN_ERROR);
-    lj_lex_error(ls, TK_number, LJ_ERR_XNUMBER);
-  }
-}
-
-static int skip_sep(LexState *ls)
-{
-  int count = 0;
-  int s = ls->current;
-  lua_assert(s == '[' || s == ']');
-  save_and_next(ls);
-  while (ls->current == '=') {
-    save_and_next(ls);
-    count++;
-  }
-  return (ls->current == s) ? count : (-count) - 1;
-}
-
-static void read_long_string(LexState *ls, TValue *tv, int sep)
-{
-  save_and_next(ls);  /* skip 2nd `[' */
-  if (currIsNewline(ls))  /* string starts with a newline? */
-    inclinenumber(ls);  /* skip it */
-  for (;;) {
-    switch (ls->current) {
-    case END_OF_STREAM:
-      lj_lex_error(ls, TK_eof, tv ? LJ_ERR_XLSTR : LJ_ERR_XLCOM);
-      break;
-    case ']':
-      if (skip_sep(ls) == sep) {
-	save_and_next(ls);  /* skip 2nd `]' */
-	goto endloop;
-      }
-      break;
-    case '\n':
-    case '\r':
-      save(ls, '\n');
-      inclinenumber(ls);
-      if (!tv) lj_str_resetbuf(&ls->sb);  /* avoid wasting space */
-      break;
-    default:
-      if (tv) save_and_next(ls);
-      else next(ls);
-      break;
-    }
-  } endloop:
-  if (tv) {
-    GCstr *str = lj_parse_keepstr(ls, ls->sb.buf + (2 + (MSize)sep),
-				      ls->sb.n - 2*(2 + (MSize)sep));
-    setstrV(ls->L, tv, str);
-  }
-}
-
-static void read_string(LexState *ls, int delim, TValue *tv)
-{
-  save_and_next(ls);
-  while (ls->current != delim) {
-    switch (ls->current) {
-    case END_OF_STREAM:
-      lj_lex_error(ls, TK_eof, LJ_ERR_XSTR);
-      continue;
-    case '\n':
-    case '\r':
-      lj_lex_error(ls, TK_string, LJ_ERR_XSTR);
-      continue;
-    case '\\': {
-      int c = next(ls);  /* Skip the '\\'. */
-      switch (c) {
-      case 'a': c = '\a'; break;
-      case 'b': c = '\b'; break;
-      case 'f': c = '\f'; break;
-      case 'n': c = '\n'; break;
-      case 'r': c = '\r'; break;
-      case 't': c = '\t'; break;
-      case 'v': c = '\v'; break;
-      case 'x':  /* Hexadecimal escape '\xXX'. */
-	c = (next(ls) & 15u) << 4;
-	if (!lj_char_isdigit(ls->current)) {
-	  if (!lj_char_isxdigit(ls->current)) goto err_xesc;
-	  c += 9 << 4;
-	}
-	c += (next(ls) & 15u);
-	if (!lj_char_isdigit(ls->current)) {
-	  if (!lj_char_isxdigit(ls->current)) goto err_xesc;
-	  c += 9;
-	}
-	break;
-      case 'z':  /* Skip whitespace. */
-	next(ls);
-	while (lj_char_isspace(ls->current))
-	  if (currIsNewline(ls)) inclinenumber(ls); else next(ls);
-	continue;
-      case '\n': case '\r': save(ls, '\n'); inclinenumber(ls); continue;
-      case '\\': case '\"': case '\'': break;
-      case END_OF_STREAM: continue;
-      default:
-	if (!lj_char_isdigit(c))
-	  goto err_xesc;
-	c -= '0';  /* Decimal escape '\ddd'. */
-	if (lj_char_isdigit(next(ls))) {
-	  c = c*10 + (ls->current - '0');
-	  if (lj_char_isdigit(next(ls))) {
-	    c = c*10 + (ls->current - '0');
-	    if (c > 255) {
-	    err_xesc:
-	      lj_lex_error(ls, TK_string, LJ_ERR_XESC);
-	    }
-	    next(ls);
-	  }
-	}
-	save(ls, c);
-	continue;
-      }
-      save(ls, c);
-      next(ls);
-      continue;
-      }
-    default:
-      save_and_next(ls);
-      break;
-    }
-  }
-  save_and_next(ls);  /* skip delimiter */
-  setstrV(ls->L, tv, lj_parse_keepstr(ls, ls->sb.buf + 1, ls->sb.n - 2));
-}
-
-/* -- Main lexical scanner ------------------------------------------------ */
-
-static int llex(LexState *ls, TValue *tv)
-{
-  lj_str_resetbuf(&ls->sb);
-  for (;;) {
-    if (lj_char_isident(ls->current)) {
-      GCstr *s;
-      if (lj_char_isdigit(ls->current)) {  /* Numeric literal. */
-	lex_number(ls, tv);
-	return TK_number;
-      }
-      /* Identifier or reserved word. */
-      do {
-	save_and_next(ls);
-      } while (lj_char_isident(ls->current));
-      s = lj_parse_keepstr(ls, ls->sb.buf, ls->sb.n);
-      setstrV(ls->L, tv, s);
-      if (s->reserved > 0)  /* Reserved word? */
-	return TK_OFS + s->reserved;
-      return TK_name;
-    }
-    switch (ls->current) {
-    case '\n':
-    case '\r':
-      inclinenumber(ls);
-      continue;
-    case ' ':
-    case '\t':
-    case '\v':
-    case '\f':
-      next(ls);
-      continue;
-    case '-':
-      next(ls);
-      if (ls->current != '-') return '-';
-      /* else is a comment */
-      next(ls);
-      if (ls->current == '[') {
-	int sep = skip_sep(ls);
-	lj_str_resetbuf(&ls->sb);  /* `skip_sep' may dirty the buffer */
-	if (sep >= 0) {
-	  read_long_string(ls, NULL, sep);  /* long comment */
-	  lj_str_resetbuf(&ls->sb);
-	  continue;
-	}
-      }
-      /* else short comment */
-      while (!currIsNewline(ls) && ls->current != END_OF_STREAM)
-	next(ls);
-      continue;
-    case '[': {
-      int sep = skip_sep(ls);
-      if (sep >= 0) {
-	read_long_string(ls, tv, sep);
-	return TK_string;
-      } else if (sep == -1) {
-	return '[';
-      } else {
-	lj_lex_error(ls, TK_string, LJ_ERR_XLDELIM);
-	continue;
-      }
-      }
-    case '=':
-      next(ls);
-      if (ls->current != '=') return '='; else { next(ls); return TK_eq; }
-    case '<':
-      next(ls);
-      if (ls->current != '=') return '<'; else { next(ls); return TK_le; }
-    case '>':
-      next(ls);
-      if (ls->current != '=') return '>'; else { next(ls); return TK_ge; }
-    case '~':
-      next(ls);
-      if (ls->current != '=') return '~'; else { next(ls); return TK_ne; }
-    case ':':
-      next(ls);
-      if (ls->current != ':') return ':'; else { next(ls); return TK_label; }
-    case '"':
-    case '\'':
-      read_string(ls, ls->current, tv);
-      return TK_string;
-    case '.':
-      save_and_next(ls);
-      if (ls->current == '.') {
-	next(ls);
-	if (ls->current == '.') {
-	  next(ls);
-	  return TK_dots;   /* ... */
-	}
-	return TK_concat;   /* .. */
-      } else if (!lj_char_isdigit(ls->current)) {
-	return '.';
-      } else {
-	lex_number(ls, tv);
-	return TK_number;
-      }
-    case END_OF_STREAM:
-      return TK_eof;
-    default: {
-      int c = ls->current;
-      next(ls);
-      return c;  /* Single-char tokens (+ - / ...). */
-    }
-    }
-  }
-}
-
-/* -- Lexer API ----------------------------------------------------------- */
-
-/* Setup lexer state. */
-int lj_lex_setup(lua_State *L, LexState *ls)
-{
-  int header = 0;
-  ls->L = L;
-  ls->fs = NULL;
-  ls->n = 0;
-  ls->p = NULL;
-  ls->vstack = NULL;
-  ls->sizevstack = 0;
-  ls->vtop = 0;
-  ls->bcstack = NULL;
-  ls->sizebcstack = 0;
-  ls->lookahead = TK_eof;  /* No look-ahead token. */
-  ls->linenumber = 1;
-  ls->lastline = 1;
-  lj_str_resizebuf(ls->L, &ls->sb, LJ_MIN_SBUF);
-  next(ls);  /* Read-ahead first char. */
-  if (ls->current == 0xef && ls->n >= 2 && char2int(ls->p[0]) == 0xbb &&
-      char2int(ls->p[1]) == 0xbf) {  /* Skip UTF-8 BOM (if buffered). */
-    ls->n -= 2;
-    ls->p += 2;
-    next(ls);
-    header = 1;
-  }
-  if (ls->current == '#') {  /* Skip POSIX #! header line. */
-    do {
-      next(ls);
-      if (ls->current == END_OF_STREAM) return 0;
-    } while (!currIsNewline(ls));
-    inclinenumber(ls);
-    header = 1;
-  }
-  if (ls->current == LUA_SIGNATURE[0]) {  /* Bytecode dump. */
-    if (header) {
-      /*
-      ** Loading bytecode with an extra header is disabled for security
-      ** reasons. This may circumvent the usual check for bytecode vs.
-      ** Lua code by looking at the first char. Since this is a potential
-      ** security violation no attempt is made to echo the chunkname either.
-      */
-      setstrV(L, L->top++, lj_err_str(L, LJ_ERR_BCBAD));
-      lj_err_throw(L, LUA_ERRSYNTAX);
-    }
-    return 1;
-  }
-  return 0;
-}
-
-/* Cleanup lexer state. */
-void lj_lex_cleanup(lua_State *L, LexState *ls)
-{
-  global_State *g = G(L);
-  lj_mem_freevec(g, ls->bcstack, ls->sizebcstack, BCInsLine);
-  lj_mem_freevec(g, ls->vstack, ls->sizevstack, VarInfo);
-  lj_str_freebuf(g, &ls->sb);
-}
-
-void lj_lex_next(LexState *ls)
-{
-  ls->lastline = ls->linenumber;
-  if (LJ_LIKELY(ls->lookahead == TK_eof)) {  /* No lookahead token? */
-    ls->token = llex(ls, &ls->tokenval);  /* Get next token. */
-  } else {  /* Otherwise return lookahead token. */
-    ls->token = ls->lookahead;
-    ls->lookahead = TK_eof;
-    ls->tokenval = ls->lookaheadval;
-  }
-}
-
-LexToken lj_lex_lookahead(LexState *ls)
-{
-  lua_assert(ls->lookahead == TK_eof);
-  ls->lookahead = llex(ls, &ls->lookaheadval);
-  return ls->lookahead;
-}
-
-const char *lj_lex_token2str(LexState *ls, LexToken token)
-{
-  if (token > TK_OFS)
-    return tokennames[token-TK_OFS-1];
-  else if (!lj_char_iscntrl(token))
-    return lj_str_pushf(ls->L, "%c", token);
-  else
-    return lj_str_pushf(ls->L, "char(%d)", token);
-}
-
-void lj_lex_error(LexState *ls, LexToken token, ErrMsg em, ...)
-{
-  const char *tok;
-  va_list argp;
-  if (token == 0) {
-    tok = NULL;
-  } else if (token == TK_name || token == TK_string || token == TK_number) {
-    save(ls, '\0');
-    tok = ls->sb.buf;
-  } else {
-    tok = lj_lex_token2str(ls, token);
-  }
-  va_start(argp, em);
-  lj_err_lex(ls->L, ls->chunkname, tok, ls->linenumber, em, argp);
-  va_end(argp);
-}
-
-void lj_lex_init(lua_State *L)
-{
-  uint32_t i;
-  for (i = 0; i < TK_RESERVED; i++) {
-    GCstr *s = lj_str_newz(L, tokennames[i]);
-    fixstring(s);  /* Reserved words are never collected. */
-    s->reserved = (uint8_t)(i+1);
-  }
-}
-
diff --git a/luajit-2.0/src/lj_lex.h b/luajit-2.0/src/lj_lex.h
deleted file mode 100644
index a7ff29a..0000000
--- a/luajit-2.0/src/lj_lex.h
+++ /dev/null
@@ -1,85 +0,0 @@
-/*
-** Lexical analyzer.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#ifndef _LJ_LEX_H
-#define _LJ_LEX_H
-
-#include <stdarg.h>
-
-#include "lj_obj.h"
-#include "lj_err.h"
-
-/* Lua lexer tokens. */
-#define TKDEF(_, __) \
-  _(and) _(break) _(do) _(else) _(elseif) _(end) _(false) \
-  _(for) _(function) _(goto) _(if) _(in) _(local) _(nil) _(not) _(or) \
-  _(repeat) _(return) _(then) _(true) _(until) _(while) \
-  __(concat, ..) __(dots, ...) __(eq, ==) __(ge, >=) __(le, <=) __(ne, ~=) \
-  __(label, ::) __(number, <number>) __(name, <name>) __(string, <string>) \
-  __(eof, <eof>)
-
-enum {
-  TK_OFS = 256,
-#define TKENUM1(name)		TK_##name,
-#define TKENUM2(name, sym)	TK_##name,
-TKDEF(TKENUM1, TKENUM2)
-#undef TKENUM1
-#undef TKENUM2
-  TK_RESERVED = TK_while - TK_OFS
-};
-
-typedef int LexToken;
-
-/* Combined bytecode ins/line. Only used during bytecode generation. */
-typedef struct BCInsLine {
-  BCIns ins;		/* Bytecode instruction. */
-  BCLine line;		/* Line number for this bytecode. */
-} BCInsLine;
-
-/* Info for local variables. Only used during bytecode generation. */
-typedef struct VarInfo {
-  GCRef name;		/* Local variable name or goto/label name. */
-  BCPos startpc;	/* First point where the local variable is active. */
-  BCPos endpc;		/* First point where the local variable is dead. */
-  uint8_t slot;		/* Variable slot. */
-  uint8_t info;		/* Variable/goto/label info. */
-} VarInfo;
-
-/* Lua lexer state. */
-typedef struct LexState {
-  struct FuncState *fs;	/* Current FuncState. Defined in lj_parse.c. */
-  struct lua_State *L;	/* Lua state. */
-  TValue tokenval;	/* Current token value. */
-  TValue lookaheadval;	/* Lookahead token value. */
-  int current;		/* Current character (charint). */
-  LexToken token;	/* Current token. */
-  LexToken lookahead;	/* Lookahead token. */
-  MSize n;		/* Bytes left in input buffer. */
-  const char *p;	/* Current position in input buffer. */
-  SBuf sb;		/* String buffer for tokens. */
-  lua_Reader rfunc;	/* Reader callback. */
-  void *rdata;		/* Reader callback data. */
-  BCLine linenumber;	/* Input line counter. */
-  BCLine lastline;	/* Line of last token. */
-  GCstr *chunkname;	/* Current chunk name (interned string). */
-  const char *chunkarg;	/* Chunk name argument. */
-  const char *mode;	/* Allow loading bytecode (b) and/or source text (t). */
-  VarInfo *vstack;	/* Stack for names and extents of local variables. */
-  MSize sizevstack;	/* Size of variable stack. */
-  MSize vtop;		/* Top of variable stack. */
-  BCInsLine *bcstack;	/* Stack for bytecode instructions/line numbers. */
-  MSize sizebcstack;	/* Size of bytecode stack. */
-  uint32_t level;	/* Syntactical nesting level. */
-} LexState;
-
-LJ_FUNC int lj_lex_setup(lua_State *L, LexState *ls);
-LJ_FUNC void lj_lex_cleanup(lua_State *L, LexState *ls);
-LJ_FUNC void lj_lex_next(LexState *ls);
-LJ_FUNC LexToken lj_lex_lookahead(LexState *ls);
-LJ_FUNC const char *lj_lex_token2str(LexState *ls, LexToken token);
-LJ_FUNC_NORET void lj_lex_error(LexState *ls, LexToken token, ErrMsg em, ...);
-LJ_FUNC void lj_lex_init(lua_State *L);
-
-#endif
diff --git a/luajit-2.0/src/lj_lib.c b/luajit-2.0/src/lj_lib.c
deleted file mode 100644
index 76c8a06..0000000
--- a/luajit-2.0/src/lj_lib.c
+++ /dev/null
@@ -1,258 +0,0 @@
-/*
-** Library function support.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#define lj_lib_c
-#define LUA_CORE
-
-#include "lauxlib.h"
-
-#include "lj_obj.h"
-#include "lj_gc.h"
-#include "lj_err.h"
-#include "lj_str.h"
-#include "lj_tab.h"
-#include "lj_func.h"
-#include "lj_bc.h"
-#include "lj_dispatch.h"
-#include "lj_vm.h"
-#include "lj_strscan.h"
-#include "lj_lib.h"
-
-/* -- Library initialization ---------------------------------------------- */
-
-static GCtab *lib_create_table(lua_State *L, const char *libname, int hsize)
-{
-  if (libname) {
-    luaL_findtable(L, LUA_REGISTRYINDEX, "_LOADED", 16);
-    lua_getfield(L, -1, libname);
-    if (!tvistab(L->top-1)) {
-      L->top--;
-      if (luaL_findtable(L, LUA_GLOBALSINDEX, libname, hsize) != NULL)
-	lj_err_callerv(L, LJ_ERR_BADMODN, libname);
-      settabV(L, L->top, tabV(L->top-1));
-      L->top++;
-      lua_setfield(L, -3, libname);  /* _LOADED[libname] = new table */
-    }
-    L->top--;
-    settabV(L, L->top-1, tabV(L->top));
-  } else {
-    lua_createtable(L, 0, hsize);
-  }
-  return tabV(L->top-1);
-}
-
-void lj_lib_register(lua_State *L, const char *libname,
-		     const uint8_t *p, const lua_CFunction *cf)
-{
-  GCtab *env = tabref(L->env);
-  GCfunc *ofn = NULL;
-  int ffid = *p++;
-  BCIns *bcff = &L2GG(L)->bcff[*p++];
-  GCtab *tab = lib_create_table(L, libname, *p++);
-  ptrdiff_t tpos = L->top - L->base;
-
-  /* Avoid barriers further down. */
-  lj_gc_anybarriert(L, tab);
-  tab->nomm = 0;
-
-  for (;;) {
-    uint32_t tag = *p++;
-    MSize len = tag & LIBINIT_LENMASK;
-    tag &= LIBINIT_TAGMASK;
-    if (tag != LIBINIT_STRING) {
-      const char *name;
-      MSize nuv = (MSize)(L->top - L->base - tpos);
-      GCfunc *fn = lj_func_newC(L, nuv, env);
-      if (nuv) {
-	L->top = L->base + tpos;
-	memcpy(fn->c.upvalue, L->top, sizeof(TValue)*nuv);
-      }
-      fn->c.ffid = (uint8_t)(ffid++);
-      name = (const char *)p;
-      p += len;
-      if (tag == LIBINIT_CF)
-	setmref(fn->c.pc, &G(L)->bc_cfunc_int);
-      else
-	setmref(fn->c.pc, bcff++);
-      if (tag == LIBINIT_ASM_)
-	fn->c.f = ofn->c.f;  /* Copy handler from previous function. */
-      else
-	fn->c.f = *cf++;  /* Get cf or handler from C function table. */
-      if (len) {
-	/* NOBARRIER: See above for common barrier. */
-	setfuncV(L, lj_tab_setstr(L, tab, lj_str_new(L, name, len)), fn);
-      }
-      ofn = fn;
-    } else {
-      switch (tag | len) {
-      case LIBINIT_SET:
-	L->top -= 2;
-	if (tvisstr(L->top+1) && strV(L->top+1)->len == 0)
-	  env = tabV(L->top);
-	else  /* NOBARRIER: See above for common barrier. */
-	  copyTV(L, lj_tab_set(L, tab, L->top+1), L->top);
-	break;
-      case LIBINIT_NUMBER:
-	memcpy(&L->top->n, p, sizeof(double));
-	L->top++;
-	p += sizeof(double);
-	break;
-      case LIBINIT_COPY:
-	copyTV(L, L->top, L->top - *p++);
-	L->top++;
-	break;
-      case LIBINIT_LASTCL:
-	setfuncV(L, L->top++, ofn);
-	break;
-      case LIBINIT_FFID:
-	ffid++;
-	break;
-      case LIBINIT_END:
-	return;
-      default:
-	setstrV(L, L->top++, lj_str_new(L, (const char *)p, len));
-	p += len;
-	break;
-      }
-    }
-  }
-}
-
-/* -- Type checks --------------------------------------------------------- */
-
-TValue *lj_lib_checkany(lua_State *L, int narg)
-{
-  TValue *o = L->base + narg-1;
-  if (o >= L->top)
-    lj_err_arg(L, narg, LJ_ERR_NOVAL);
-  return o;
-}
-
-GCstr *lj_lib_checkstr(lua_State *L, int narg)
-{
-  TValue *o = L->base + narg-1;
-  if (o < L->top) {
-    if (LJ_LIKELY(tvisstr(o))) {
-      return strV(o);
-    } else if (tvisnumber(o)) {
-      GCstr *s = lj_str_fromnumber(L, o);
-      setstrV(L, o, s);
-      return s;
-    }
-  }
-  lj_err_argt(L, narg, LUA_TSTRING);
-  return NULL;  /* unreachable */
-}
-
-GCstr *lj_lib_optstr(lua_State *L, int narg)
-{
-  TValue *o = L->base + narg-1;
-  return (o < L->top && !tvisnil(o)) ? lj_lib_checkstr(L, narg) : NULL;
-}
-
-#if LJ_DUALNUM
-void lj_lib_checknumber(lua_State *L, int narg)
-{
-  TValue *o = L->base + narg-1;
-  if (!(o < L->top && lj_strscan_numberobj(o)))
-    lj_err_argt(L, narg, LUA_TNUMBER);
-}
-#endif
-
-lua_Number lj_lib_checknum(lua_State *L, int narg)
-{
-  TValue *o = L->base + narg-1;
-  if (!(o < L->top &&
-	(tvisnumber(o) || (tvisstr(o) && lj_strscan_num(strV(o), o)))))
-    lj_err_argt(L, narg, LUA_TNUMBER);
-  if (LJ_UNLIKELY(tvisint(o))) {
-    lua_Number n = (lua_Number)intV(o);
-    setnumV(o, n);
-    return n;
-  } else {
-    return numV(o);
-  }
-}
-
-int32_t lj_lib_checkint(lua_State *L, int narg)
-{
-  TValue *o = L->base + narg-1;
-  if (!(o < L->top && lj_strscan_numberobj(o)))
-    lj_err_argt(L, narg, LUA_TNUMBER);
-  if (LJ_LIKELY(tvisint(o))) {
-    return intV(o);
-  } else {
-    int32_t i = lj_num2int(numV(o));
-    if (LJ_DUALNUM) setintV(o, i);
-    return i;
-  }
-}
-
-int32_t lj_lib_optint(lua_State *L, int narg, int32_t def)
-{
-  TValue *o = L->base + narg-1;
-  return (o < L->top && !tvisnil(o)) ? lj_lib_checkint(L, narg) : def;
-}
-
-int32_t lj_lib_checkbit(lua_State *L, int narg)
-{
-  TValue *o = L->base + narg-1;
-  if (!(o < L->top && lj_strscan_numberobj(o)))
-    lj_err_argt(L, narg, LUA_TNUMBER);
-  if (LJ_LIKELY(tvisint(o))) {
-    return intV(o);
-  } else {
-    int32_t i = lj_num2bit(numV(o));
-    if (LJ_DUALNUM) setintV(o, i);
-    return i;
-  }
-}
-
-GCfunc *lj_lib_checkfunc(lua_State *L, int narg)
-{
-  TValue *o = L->base + narg-1;
-  if (!(o < L->top && tvisfunc(o)))
-    lj_err_argt(L, narg, LUA_TFUNCTION);
-  return funcV(o);
-}
-
-GCtab *lj_lib_checktab(lua_State *L, int narg)
-{
-  TValue *o = L->base + narg-1;
-  if (!(o < L->top && tvistab(o)))
-    lj_err_argt(L, narg, LUA_TTABLE);
-  return tabV(o);
-}
-
-GCtab *lj_lib_checktabornil(lua_State *L, int narg)
-{
-  TValue *o = L->base + narg-1;
-  if (o < L->top) {
-    if (tvistab(o))
-      return tabV(o);
-    else if (tvisnil(o))
-      return NULL;
-  }
-  lj_err_arg(L, narg, LJ_ERR_NOTABN);
-  return NULL;  /* unreachable */
-}
-
-int lj_lib_checkopt(lua_State *L, int narg, int def, const char *lst)
-{
-  GCstr *s = def >= 0 ? lj_lib_optstr(L, narg) : lj_lib_checkstr(L, narg);
-  if (s) {
-    const char *opt = strdata(s);
-    MSize len = s->len;
-    int i;
-    for (i = 0; *(const uint8_t *)lst; i++) {
-      if (*(const uint8_t *)lst == len && memcmp(opt, lst+1, len) == 0)
-	return i;
-      lst += 1+*(const uint8_t *)lst;
-    }
-    lj_err_argv(L, narg, LJ_ERR_INVOPTM, opt);
-  }
-  return def;
-}
-
diff --git a/luajit-2.0/src/lj_lib.h b/luajit-2.0/src/lj_lib.h
deleted file mode 100644
index daacb92..0000000
--- a/luajit-2.0/src/lj_lib.h
+++ /dev/null
@@ -1,112 +0,0 @@
-/*
-** Library function support.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#ifndef _LJ_LIB_H
-#define _LJ_LIB_H
-
-#include "lj_obj.h"
-
-/*
-** A fallback handler is called by the assembler VM if the fast path fails:
-**
-** - too few arguments:   unrecoverable.
-** - wrong argument type:   recoverable, if coercion succeeds.
-** - bad argument value:  unrecoverable.
-** - stack overflow:        recoverable, if stack reallocation succeeds.
-** - extra handling:        recoverable.
-**
-** The unrecoverable cases throw an error with lj_err_arg(), lj_err_argtype(),
-** lj_err_caller() or lj_err_callermsg().
-** The recoverable cases return 0 or the number of results + 1.
-** The assembler VM retries the fast path only if 0 is returned.
-** This time the fallback must not be called again or it gets stuck in a loop.
-*/
-
-/* Return values from fallback handler. */
-#define FFH_RETRY	0
-#define FFH_UNREACHABLE	FFH_RETRY
-#define FFH_RES(n)	((n)+1)
-#define FFH_TAILCALL	(-1)
-
-LJ_FUNC TValue *lj_lib_checkany(lua_State *L, int narg);
-LJ_FUNC GCstr *lj_lib_checkstr(lua_State *L, int narg);
-LJ_FUNC GCstr *lj_lib_optstr(lua_State *L, int narg);
-#if LJ_DUALNUM
-LJ_FUNC void lj_lib_checknumber(lua_State *L, int narg);
-#else
-#define lj_lib_checknumber(L, narg)	lj_lib_checknum((L), (narg))
-#endif
-LJ_FUNC lua_Number lj_lib_checknum(lua_State *L, int narg);
-LJ_FUNC int32_t lj_lib_checkint(lua_State *L, int narg);
-LJ_FUNC int32_t lj_lib_optint(lua_State *L, int narg, int32_t def);
-LJ_FUNC int32_t lj_lib_checkbit(lua_State *L, int narg);
-LJ_FUNC GCfunc *lj_lib_checkfunc(lua_State *L, int narg);
-LJ_FUNC GCtab *lj_lib_checktab(lua_State *L, int narg);
-LJ_FUNC GCtab *lj_lib_checktabornil(lua_State *L, int narg);
-LJ_FUNC int lj_lib_checkopt(lua_State *L, int narg, int def, const char *lst);
-
-/* Avoid including lj_frame.h. */
-#define lj_lib_upvalue(L, n) \
-  (&gcref((L->base-1)->fr.func)->fn.c.upvalue[(n)-1])
-
-#if LJ_TARGET_WINDOWS
-#define lj_lib_checkfpu(L) \
-  do { setnumV(L->top++, (lua_Number)1437217655); \
-    if (lua_tointeger(L, -1) != 1437217655) lj_err_caller(L, LJ_ERR_BADFPU); \
-    L->top--; } while (0)
-#else
-#define lj_lib_checkfpu(L)	UNUSED(L)
-#endif
-
-/* Push internal function on the stack. */
-static LJ_AINLINE void lj_lib_pushcc(lua_State *L, lua_CFunction f,
-				     int id, int n)
-{
-  GCfunc *fn;
-  lua_pushcclosure(L, f, n);
-  fn = funcV(L->top-1);
-  fn->c.ffid = (uint8_t)id;
-  setmref(fn->c.pc, &G(L)->bc_cfunc_int);
-}
-
-#define lj_lib_pushcf(L, fn, id)	(lj_lib_pushcc(L, (fn), (id), 0))
-
-/* Library function declarations. Scanned by buildvm. */
-#define LJLIB_CF(name)		static int lj_cf_##name(lua_State *L)
-#define LJLIB_ASM(name)		static int lj_ffh_##name(lua_State *L)
-#define LJLIB_ASM_(name)
-#define LJLIB_SET(name)
-#define LJLIB_PUSH(arg)
-#define LJLIB_REC(handler)
-#define LJLIB_NOREGUV
-#define LJLIB_NOREG
-
-#define LJ_LIB_REG(L, regname, name) \
-  lj_lib_register(L, regname, lj_lib_init_##name, lj_lib_cf_##name)
-
-LJ_FUNC void lj_lib_register(lua_State *L, const char *libname,
-			     const uint8_t *init, const lua_CFunction *cf);
-
-/* Library init data tags. */
-#define LIBINIT_LENMASK	0x3f
-#define LIBINIT_TAGMASK	0xc0
-#define LIBINIT_CF	0x00
-#define LIBINIT_ASM	0x40
-#define LIBINIT_ASM_	0x80
-#define LIBINIT_STRING	0xc0
-#define LIBINIT_MAXSTR	0x39
-#define LIBINIT_SET	0xfa
-#define LIBINIT_NUMBER	0xfb
-#define LIBINIT_COPY	0xfc
-#define LIBINIT_LASTCL	0xfd
-#define LIBINIT_FFID	0xfe
-#define LIBINIT_END	0xff
-
-/* Exported library functions. */
-
-typedef struct RandomState RandomState;
-LJ_FUNC uint64_t LJ_FASTCALL lj_math_random_step(RandomState *rs);
-
-#endif
diff --git a/luajit-2.0/src/lj_load.c b/luajit-2.0/src/lj_load.c
deleted file mode 100644
index edfdc90..0000000
--- a/luajit-2.0/src/lj_load.c
+++ /dev/null
@@ -1,168 +0,0 @@
-/*
-** Load and dump code.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#include <errno.h>
-#include <stdio.h>
-
-#define lj_load_c
-#define LUA_CORE
-
-#include "lua.h"
-#include "lauxlib.h"
-
-#include "lj_obj.h"
-#include "lj_gc.h"
-#include "lj_err.h"
-#include "lj_str.h"
-#include "lj_func.h"
-#include "lj_frame.h"
-#include "lj_vm.h"
-#include "lj_lex.h"
-#include "lj_bcdump.h"
-#include "lj_parse.h"
-
-/* -- Load Lua source code and bytecode ----------------------------------- */
-
-static TValue *cpparser(lua_State *L, lua_CFunction dummy, void *ud)
-{
-  LexState *ls = (LexState *)ud;
-  GCproto *pt;
-  GCfunc *fn;
-  int bc;
-  UNUSED(dummy);
-  cframe_errfunc(L->cframe) = -1;  /* Inherit error function. */
-  bc = lj_lex_setup(L, ls);
-  if (ls->mode && !strchr(ls->mode, bc ? 'b' : 't')) {
-    setstrV(L, L->top++, lj_err_str(L, LJ_ERR_XMODE));
-    lj_err_throw(L, LUA_ERRSYNTAX);
-  }
-  pt = bc ? lj_bcread(ls) : lj_parse(ls);
-  fn = lj_func_newL_empty(L, pt, tabref(L->env));
-  /* Don't combine above/below into one statement. */
-  setfuncV(L, L->top++, fn);
-  return NULL;
-}
-
-LUA_API int lua_loadx(lua_State *L, lua_Reader reader, void *data,
-		      const char *chunkname, const char *mode)
-{
-  LexState ls;
-  int status;
-  ls.rfunc = reader;
-  ls.rdata = data;
-  ls.chunkarg = chunkname ? chunkname : "?";
-  ls.mode = mode;
-  lj_str_initbuf(&ls.sb);
-  status = lj_vm_cpcall(L, NULL, &ls, cpparser);
-  lj_lex_cleanup(L, &ls);
-  lj_gc_check(L);
-  return status;
-}
-
-LUA_API int lua_load(lua_State *L, lua_Reader reader, void *data,
-		     const char *chunkname)
-{
-  return lua_loadx(L, reader, data, chunkname, NULL);
-}
-
-typedef struct FileReaderCtx {
-  FILE *fp;
-  char buf[LUAL_BUFFERSIZE];
-} FileReaderCtx;
-
-static const char *reader_file(lua_State *L, void *ud, size_t *size)
-{
-  FileReaderCtx *ctx = (FileReaderCtx *)ud;
-  UNUSED(L);
-  if (feof(ctx->fp)) return NULL;
-  *size = fread(ctx->buf, 1, sizeof(ctx->buf), ctx->fp);
-  return *size > 0 ? ctx->buf : NULL;
-}
-
-LUALIB_API int luaL_loadfilex(lua_State *L, const char *filename,
-			      const char *mode)
-{
-  FileReaderCtx ctx;
-  int status;
-  const char *chunkname;
-  if (filename) {
-    ctx.fp = fopen(filename, "rb");
-    if (ctx.fp == NULL) {
-      lua_pushfstring(L, "cannot open %s: %s", filename, strerror(errno));
-      return LUA_ERRFILE;
-    }
-    chunkname = lua_pushfstring(L, "@%s", filename);
-  } else {
-    ctx.fp = stdin;
-    chunkname = "=stdin";
-  }
-  status = lua_loadx(L, reader_file, &ctx, chunkname, mode);
-  if (ferror(ctx.fp)) {
-    L->top -= filename ? 2 : 1;
-    lua_pushfstring(L, "cannot read %s: %s", chunkname+1, strerror(errno));
-    if (filename)
-      fclose(ctx.fp);
-    return LUA_ERRFILE;
-  }
-  if (filename) {
-    L->top--;
-    copyTV(L, L->top-1, L->top);
-    fclose(ctx.fp);
-  }
-  return status;
-}
-
-LUALIB_API int luaL_loadfile(lua_State *L, const char *filename)
-{
-  return luaL_loadfilex(L, filename, NULL);
-}
-
-typedef struct StringReaderCtx {
-  const char *str;
-  size_t size;
-} StringReaderCtx;
-
-static const char *reader_string(lua_State *L, void *ud, size_t *size)
-{
-  StringReaderCtx *ctx = (StringReaderCtx *)ud;
-  UNUSED(L);
-  if (ctx->size == 0) return NULL;
-  *size = ctx->size;
-  ctx->size = 0;
-  return ctx->str;
-}
-
-LUALIB_API int luaL_loadbufferx(lua_State *L, const char *buf, size_t size,
-				const char *name, const char *mode)
-{
-  StringReaderCtx ctx;
-  ctx.str = buf;
-  ctx.size = size;
-  return lua_loadx(L, reader_string, &ctx, name, mode);
-}
-
-LUALIB_API int luaL_loadbuffer(lua_State *L, const char *buf, size_t size,
-			       const char *name)
-{
-  return luaL_loadbufferx(L, buf, size, name, NULL);
-}
-
-LUALIB_API int luaL_loadstring(lua_State *L, const char *s)
-{
-  return luaL_loadbuffer(L, s, strlen(s), s);
-}
-
-/* -- Dump bytecode ------------------------------------------------------- */
-
-LUA_API int lua_dump(lua_State *L, lua_Writer writer, void *data)
-{
-  cTValue *o = L->top-1;
-  api_check(L, L->top > L->base);
-  if (tvisfunc(o) && isluafunc(funcV(o)))
-    return lj_bcwrite(L, funcproto(funcV(o)), writer, data, 0);
-  else
-    return 1;
-}
-
diff --git a/luajit-2.0/src/lj_mcode.c b/luajit-2.0/src/lj_mcode.c
deleted file mode 100644
index 5a73296..0000000
--- a/luajit-2.0/src/lj_mcode.c
+++ /dev/null
@@ -1,373 +0,0 @@
-/*
-** Machine code management.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#define lj_mcode_c
-#define LUA_CORE
-
-#include "lj_obj.h"
-#if LJ_HASJIT
-#include "lj_gc.h"
-#include "lj_err.h"
-#include "lj_jit.h"
-#include "lj_mcode.h"
-#include "lj_trace.h"
-#include "lj_dispatch.h"
-#endif
-#if LJ_HASJIT || LJ_HASFFI
-#include "lj_vm.h"
-#endif
-
-/* -- OS-specific functions ----------------------------------------------- */
-
-#if LJ_HASJIT || LJ_HASFFI
-
-/* Define this if you want to run LuaJIT with Valgrind. */
-#ifdef LUAJIT_USE_VALGRIND
-#include <valgrind/valgrind.h>
-#endif
-
-#if LJ_TARGET_IOS
-void sys_icache_invalidate(void *start, size_t len);
-#endif
-
-/* Synchronize data/instruction cache. */
-void lj_mcode_sync(void *start, void *end)
-{
-#ifdef LUAJIT_USE_VALGRIND
-  VALGRIND_DISCARD_TRANSLATIONS(start, (char *)end-(char *)start);
-#endif
-#if LJ_TARGET_X86ORX64
-  UNUSED(start); UNUSED(end);
-#elif LJ_TARGET_IOS
-  sys_icache_invalidate(start, (char *)end-(char *)start);
-#elif LJ_TARGET_PPC
-  lj_vm_cachesync(start, end);
-#elif defined(__GNUC__)
-  __clear_cache(start, end);
-#else
-#error "Missing builtin to flush instruction cache"
-#endif
-}
-
-#endif
-
-#if LJ_HASJIT
-
-#if LJ_TARGET_WINDOWS
-
-#define WIN32_LEAN_AND_MEAN
-#include <windows.h>
-
-#define MCPROT_RW	PAGE_READWRITE
-#define MCPROT_RX	PAGE_EXECUTE_READ
-#define MCPROT_RWX	PAGE_EXECUTE_READWRITE
-
-static void *mcode_alloc_at(jit_State *J, uintptr_t hint, size_t sz, DWORD prot)
-{
-  void *p = VirtualAlloc((void *)hint, sz,
-			 MEM_RESERVE|MEM_COMMIT|MEM_TOP_DOWN, prot);
-  if (!p && !hint)
-    lj_trace_err(J, LJ_TRERR_MCODEAL);
-  return p;
-}
-
-static void mcode_free(jit_State *J, void *p, size_t sz)
-{
-  UNUSED(J); UNUSED(sz);
-  VirtualFree(p, 0, MEM_RELEASE);
-}
-
-static int mcode_setprot(void *p, size_t sz, DWORD prot)
-{
-  DWORD oprot;
-  return !VirtualProtect(p, sz, prot, &oprot);
-}
-
-#elif LJ_TARGET_POSIX
-
-#include <sys/mman.h>
-
-#ifndef MAP_ANONYMOUS
-#define MAP_ANONYMOUS	MAP_ANON
-#endif
-
-#define MCPROT_RW	(PROT_READ|PROT_WRITE)
-#define MCPROT_RX	(PROT_READ|PROT_EXEC)
-#define MCPROT_RWX	(PROT_READ|PROT_WRITE|PROT_EXEC)
-
-static void *mcode_alloc_at(jit_State *J, uintptr_t hint, size_t sz, int prot)
-{
-  void *p = mmap((void *)hint, sz, prot, MAP_PRIVATE|MAP_ANONYMOUS, -1, 0);
-  if (p == MAP_FAILED) {
-    if (!hint) lj_trace_err(J, LJ_TRERR_MCODEAL);
-    p = NULL;
-  }
-  return p;
-}
-
-static void mcode_free(jit_State *J, void *p, size_t sz)
-{
-  UNUSED(J);
-  munmap(p, sz);
-}
-
-static int mcode_setprot(void *p, size_t sz, int prot)
-{
-  return mprotect(p, sz, prot);
-}
-
-#elif LJ_64
-
-#error "Missing OS support for explicit placement of executable memory"
-
-#else
-
-/* Fallback allocator. This will fail if memory is not executable by default. */
-#define LUAJIT_UNPROTECT_MCODE
-#define MCPROT_RW	0
-#define MCPROT_RX	0
-#define MCPROT_RWX	0
-
-static void *mcode_alloc_at(jit_State *J, uintptr_t hint, size_t sz, int prot)
-{
-  UNUSED(hint); UNUSED(prot);
-  return lj_mem_new(J->L, sz);
-}
-
-static void mcode_free(jit_State *J, void *p, size_t sz)
-{
-  lj_mem_free(J2G(J), p, sz);
-}
-
-#endif
-
-/* -- MCode area protection ----------------------------------------------- */
-
-/* Define this ONLY if the page protection twiddling becomes a bottleneck. */
-#ifdef LUAJIT_UNPROTECT_MCODE
-
-/* It's generally considered to be a potential security risk to have
-** pages with simultaneous write *and* execute access in a process.
-**
-** Do not even think about using this mode for server processes or
-** apps handling untrusted external data (such as a browser).
-**
-** The security risk is not in LuaJIT itself -- but if an adversary finds
-** any *other* flaw in your C application logic, then any RWX memory page
-** simplifies writing an exploit considerably.
-*/
-#define MCPROT_GEN	MCPROT_RWX
-#define MCPROT_RUN	MCPROT_RWX
-
-static void mcode_protect(jit_State *J, int prot)
-{
-  UNUSED(J); UNUSED(prot);
-}
-
-#else
-
-/* This is the default behaviour and much safer:
-**
-** Most of the time the memory pages holding machine code are executable,
-** but NONE of them is writable.
-**
-** The current memory area is marked read-write (but NOT executable) only
-** during the short time window while the assembler generates machine code.
-*/
-#define MCPROT_GEN	MCPROT_RW
-#define MCPROT_RUN	MCPROT_RX
-
-/* Protection twiddling failed. Probably due to kernel security. */
-static LJ_NOINLINE void mcode_protfail(jit_State *J)
-{
-  lua_CFunction panic = J2G(J)->panic;
-  if (panic) {
-    lua_State *L = J->L;
-    setstrV(L, L->top++, lj_err_str(L, LJ_ERR_JITPROT));
-    panic(L);
-  }
-}
-
-/* Change protection of MCode area. */
-static void mcode_protect(jit_State *J, int prot)
-{
-  if (J->mcprot != prot) {
-    if (LJ_UNLIKELY(mcode_setprot(J->mcarea, J->szmcarea, prot)))
-      mcode_protfail(J);
-    J->mcprot = prot;
-  }
-}
-
-#endif
-
-/* -- MCode area allocation ----------------------------------------------- */
-
-#if LJ_TARGET_X64
-#define mcode_validptr(p)	((p) && (uintptr_t)(p) < (uintptr_t)1<<47)
-#else
-#define mcode_validptr(p)	((p) && (uintptr_t)(p) < 0xffff0000)
-#endif
-
-#ifdef LJ_TARGET_JUMPRANGE
-
-/* Get memory within relative jump distance of our code in 64 bit mode. */
-static void *mcode_alloc(jit_State *J, size_t sz)
-{
-  /* Target an address in the static assembler code (64K aligned).
-  ** Try addresses within a distance of target-range/2+1MB..target+range/2-1MB.
-  ** Use half the jump range so every address in the range can reach any other.
-  */
-#if LJ_TARGET_MIPS
-  /* Use the middle of the 256MB-aligned region. */
-  uintptr_t target = ((uintptr_t)(void *)lj_vm_exit_handler & 0xf0000000u) +
-		     0x08000000u;
-#else
-  uintptr_t target = (uintptr_t)(void *)lj_vm_exit_handler & ~(uintptr_t)0xffff;
-#endif
-  const uintptr_t range = (1u << (LJ_TARGET_JUMPRANGE-1)) - (1u << 21);
-  /* First try a contiguous area below the last one. */
-  uintptr_t hint = J->mcarea ? (uintptr_t)J->mcarea - sz : 0;
-  int i;
-  for (i = 0; i < 32; i++) {  /* 32 attempts ought to be enough ... */
-    if (mcode_validptr(hint)) {
-      void *p = mcode_alloc_at(J, hint, sz, MCPROT_GEN);
-
-      if (mcode_validptr(p) &&
-	  ((uintptr_t)p + sz - target < range || target - (uintptr_t)p < range))
-	return p;
-      if (p) mcode_free(J, p, sz);  /* Free badly placed area. */
-    }
-    /* Next try probing pseudo-random addresses. */
-    do {
-      hint = (0x78fb ^ LJ_PRNG_BITS(J, 15)) << 16;  /* 64K aligned. */
-    } while (!(hint + sz < range));
-    hint = target + hint - (range>>1);
-  }
-  lj_trace_err(J, LJ_TRERR_MCODEAL);  /* Give up. OS probably ignores hints? */
-  return NULL;
-}
-
-#else
-
-/* All memory addresses are reachable by relative jumps. */
-#define mcode_alloc(J, sz)	mcode_alloc_at((J), 0, (sz), MCPROT_GEN)
-
-#endif
-
-/* -- MCode area management ----------------------------------------------- */
-
-/* Linked list of MCode areas. */
-typedef struct MCLink {
-  MCode *next;		/* Next area. */
-  size_t size;		/* Size of current area. */
-} MCLink;
-
-/* Allocate a new MCode area. */
-static void mcode_allocarea(jit_State *J)
-{
-  MCode *oldarea = J->mcarea;
-  size_t sz = (size_t)J->param[JIT_P_sizemcode] << 10;
-  sz = (sz + LJ_PAGESIZE-1) & ~(size_t)(LJ_PAGESIZE - 1);
-  J->mcarea = (MCode *)mcode_alloc(J, sz);
-  J->szmcarea = sz;
-  J->mcprot = MCPROT_GEN;
-  J->mctop = (MCode *)((char *)J->mcarea + J->szmcarea);
-  J->mcbot = (MCode *)((char *)J->mcarea + sizeof(MCLink));
-  ((MCLink *)J->mcarea)->next = oldarea;
-  ((MCLink *)J->mcarea)->size = sz;
-  J->szallmcarea += sz;
-}
-
-/* Free all MCode areas. */
-void lj_mcode_free(jit_State *J)
-{
-  MCode *mc = J->mcarea;
-  J->mcarea = NULL;
-  J->szallmcarea = 0;
-  while (mc) {
-    MCode *next = ((MCLink *)mc)->next;
-    mcode_free(J, mc, ((MCLink *)mc)->size);
-    mc = next;
-  }
-}
-
-/* -- MCode transactions -------------------------------------------------- */
-
-/* Reserve the remainder of the current MCode area. */
-MCode *lj_mcode_reserve(jit_State *J, MCode **lim)
-{
-  if (!J->mcarea)
-    mcode_allocarea(J);
-  else
-    mcode_protect(J, MCPROT_GEN);
-  *lim = J->mcbot;
-  return J->mctop;
-}
-
-/* Commit the top part of the current MCode area. */
-void lj_mcode_commit(jit_State *J, MCode *top)
-{
-  J->mctop = top;
-  mcode_protect(J, MCPROT_RUN);
-}
-
-/* Abort the reservation. */
-void lj_mcode_abort(jit_State *J)
-{
-  if (J->mcarea)
-    mcode_protect(J, MCPROT_RUN);
-}
-
-/* Set/reset protection to allow patching of MCode areas. */
-MCode *lj_mcode_patch(jit_State *J, MCode *ptr, int finish)
-{
-#ifdef LUAJIT_UNPROTECT_MCODE
-  UNUSED(J); UNUSED(ptr); UNUSED(finish);
-  return NULL;
-#else
-  if (finish) {
-    if (J->mcarea == ptr)
-      mcode_protect(J, MCPROT_RUN);
-    else if (LJ_UNLIKELY(mcode_setprot(ptr, ((MCLink *)ptr)->size, MCPROT_RUN)))
-      mcode_protfail(J);
-    return NULL;
-  } else {
-    MCode *mc = J->mcarea;
-    /* Try current area first to use the protection cache. */
-    if (ptr >= mc && ptr < (MCode *)((char *)mc + J->szmcarea)) {
-      mcode_protect(J, MCPROT_GEN);
-      return mc;
-    }
-    /* Otherwise search through the list of MCode areas. */
-    for (;;) {
-      mc = ((MCLink *)mc)->next;
-      lua_assert(mc != NULL);
-      if (ptr >= mc && ptr < (MCode *)((char *)mc + ((MCLink *)mc)->size)) {
-	if (LJ_UNLIKELY(mcode_setprot(mc, ((MCLink *)mc)->size, MCPROT_GEN)))
-	  mcode_protfail(J);
-	return mc;
-      }
-    }
-  }
-#endif
-}
-
-/* Limit of MCode reservation reached. */
-void lj_mcode_limiterr(jit_State *J, size_t need)
-{
-  size_t sizemcode, maxmcode;
-  lj_mcode_abort(J);
-  sizemcode = (size_t)J->param[JIT_P_sizemcode] << 10;
-  sizemcode = (sizemcode + LJ_PAGESIZE-1) & ~(size_t)(LJ_PAGESIZE - 1);
-  maxmcode = (size_t)J->param[JIT_P_maxmcode] << 10;
-  if ((size_t)need > sizemcode)
-    lj_trace_err(J, LJ_TRERR_MCODEOV);  /* Too long for any area. */
-  if (J->szallmcarea + sizemcode > maxmcode)
-    lj_trace_err(J, LJ_TRERR_MCODEAL);
-  mcode_allocarea(J);
-  lj_trace_err(J, LJ_TRERR_MCODELM);  /* Retry with new area. */
-}
-
-#endif
diff --git a/luajit-2.0/src/lj_mcode.h b/luajit-2.0/src/lj_mcode.h
deleted file mode 100644
index 89344fc..0000000
--- a/luajit-2.0/src/lj_mcode.h
+++ /dev/null
@@ -1,30 +0,0 @@
-/*
-** Machine code management.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#ifndef _LJ_MCODE_H
-#define _LJ_MCODE_H
-
-#include "lj_obj.h"
-
-#if LJ_HASJIT || LJ_HASFFI
-LJ_FUNC void lj_mcode_sync(void *start, void *end);
-#endif
-
-#if LJ_HASJIT
-
-#include "lj_jit.h"
-
-LJ_FUNC void lj_mcode_free(jit_State *J);
-LJ_FUNC MCode *lj_mcode_reserve(jit_State *J, MCode **lim);
-LJ_FUNC void lj_mcode_commit(jit_State *J, MCode *m);
-LJ_FUNC void lj_mcode_abort(jit_State *J);
-LJ_FUNC MCode *lj_mcode_patch(jit_State *J, MCode *ptr, int finish);
-LJ_FUNC_NORET void lj_mcode_limiterr(jit_State *J, size_t need);
-
-#define lj_mcode_commitbot(J, m)	(J->mcbot = (m))
-
-#endif
-
-#endif
diff --git a/luajit-2.0/src/lj_meta.c b/luajit-2.0/src/lj_meta.c
deleted file mode 100644
index 0a52667..0000000
--- a/luajit-2.0/src/lj_meta.c
+++ /dev/null
@@ -1,466 +0,0 @@
-/*
-** Metamethod handling.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-**
-** Portions taken verbatim or adapted from the Lua interpreter.
-** Copyright (C) 1994-2008 Lua.org, PUC-Rio. See Copyright Notice in lua.h
-*/
-
-#define lj_meta_c
-#define LUA_CORE
-
-#include "lj_obj.h"
-#include "lj_gc.h"
-#include "lj_err.h"
-#include "lj_str.h"
-#include "lj_tab.h"
-#include "lj_meta.h"
-#include "lj_frame.h"
-#include "lj_bc.h"
-#include "lj_vm.h"
-#include "lj_strscan.h"
-
-/* -- Metamethod handling ------------------------------------------------- */
-
-/* String interning of metamethod names for fast indexing. */
-void lj_meta_init(lua_State *L)
-{
-#define MMNAME(name)	"__" #name
-  const char *metanames = MMDEF(MMNAME);
-#undef MMNAME
-  global_State *g = G(L);
-  const char *p, *q;
-  uint32_t mm;
-  for (mm = 0, p = metanames; *p; mm++, p = q) {
-    GCstr *s;
-    for (q = p+2; *q && *q != '_'; q++) ;
-    s = lj_str_new(L, p, (size_t)(q-p));
-    /* NOBARRIER: g->gcroot[] is a GC root. */
-    setgcref(g->gcroot[GCROOT_MMNAME+mm], obj2gco(s));
-  }
-}
-
-/* Negative caching of a few fast metamethods. See the lj_meta_fast() macro. */
-cTValue *lj_meta_cache(GCtab *mt, MMS mm, GCstr *name)
-{
-  cTValue *mo = lj_tab_getstr(mt, name);
-  lua_assert(mm <= MM_FAST);
-  if (!mo || tvisnil(mo)) {  /* No metamethod? */
-    mt->nomm |= (uint8_t)(1u<<mm);  /* Set negative cache flag. */
-    return NULL;
-  }
-  return mo;
-}
-
-/* Lookup metamethod for object. */
-cTValue *lj_meta_lookup(lua_State *L, cTValue *o, MMS mm)
-{
-  GCtab *mt;
-  if (tvistab(o))
-    mt = tabref(tabV(o)->metatable);
-  else if (tvisudata(o))
-    mt = tabref(udataV(o)->metatable);
-  else
-    mt = tabref(basemt_obj(G(L), o));
-  if (mt) {
-    cTValue *mo = lj_tab_getstr(mt, mmname_str(G(L), mm));
-    if (mo)
-      return mo;
-  }
-  return niltv(L);
-}
-
-#if LJ_HASFFI
-/* Tailcall from C function. */
-int lj_meta_tailcall(lua_State *L, cTValue *tv)
-{
-  TValue *base = L->base;
-  TValue *top = L->top;
-  const BCIns *pc = frame_pc(base-1);  /* Preserve old PC from frame. */
-  copyTV(L, base-1, tv);  /* Replace frame with new object. */
-  top->u32.lo = LJ_CONT_TAILCALL;
-  setframe_pc(top, pc);
-  setframe_gc(top+1, obj2gco(L));  /* Dummy frame object. */
-  setframe_ftsz(top+1, (int)((char *)(top+2) - (char *)base) + FRAME_CONT);
-  L->base = L->top = top+2;
-  /*
-  ** before:   [old_mo|PC]    [... ...]
-  **                         ^base     ^top
-  ** after:    [new_mo|itype] [... ...] [NULL|PC] [dummy|delta]
-  **                                                           ^base/top
-  ** tailcall: [new_mo|PC]    [... ...]
-  **                         ^base     ^top
-  */
-  return 0;
-}
-#endif
-
-/* Setup call to metamethod to be run by Assembler VM. */
-static TValue *mmcall(lua_State *L, ASMFunction cont, cTValue *mo,
-		    cTValue *a, cTValue *b)
-{
-  /*
-  **           |-- framesize -> top       top+1       top+2 top+3
-  ** before:   [func slots ...]
-  ** mm setup: [func slots ...] [cont|?]  [mo|tmtype] [a]   [b]
-  ** in asm:   [func slots ...] [cont|PC] [mo|delta]  [a]   [b]
-  **           ^-- func base                          ^-- mm base
-  ** after mm: [func slots ...]           [result]
-  **                ^-- copy to base[PC_RA] --/     for lj_cont_ra
-  **                          istruecond + branch   for lj_cont_cond*
-  **                                       ignore   for lj_cont_nop
-  ** next PC:  [func slots ...]
-  */
-  TValue *top = L->top;
-  if (curr_funcisL(L)) top = curr_topL(L);
-  setcont(top, cont);  /* Assembler VM stores PC in upper word. */
-  copyTV(L, top+1, mo);  /* Store metamethod and two arguments. */
-  copyTV(L, top+2, a);
-  copyTV(L, top+3, b);
-  return top+2;  /* Return new base. */
-}
-
-/* -- C helpers for some instructions, called from assembler VM ----------- */
-
-/* Helper for TGET*. __index chain and metamethod. */
-cTValue *lj_meta_tget(lua_State *L, cTValue *o, cTValue *k)
-{
-  int loop;
-  for (loop = 0; loop < LJ_MAX_IDXCHAIN; loop++) {
-    cTValue *mo;
-    if (LJ_LIKELY(tvistab(o))) {
-      GCtab *t = tabV(o);
-      cTValue *tv = lj_tab_get(L, t, k);
-      if (!tvisnil(tv) ||
-	  !(mo = lj_meta_fast(L, tabref(t->metatable), MM_index)))
-	return tv;
-    } else if (tvisnil(mo = lj_meta_lookup(L, o, MM_index))) {
-      lj_err_optype(L, o, LJ_ERR_OPINDEX);
-      return NULL;  /* unreachable */
-    }
-    if (tvisfunc(mo)) {
-      L->top = mmcall(L, lj_cont_ra, mo, o, k);
-      return NULL;  /* Trigger metamethod call. */
-    }
-    o = mo;
-  }
-  lj_err_msg(L, LJ_ERR_GETLOOP);
-  return NULL;  /* unreachable */
-}
-
-/* Helper for TSET*. __newindex chain and metamethod. */
-TValue *lj_meta_tset(lua_State *L, cTValue *o, cTValue *k)
-{
-  TValue tmp;
-  int loop;
-  for (loop = 0; loop < LJ_MAX_IDXCHAIN; loop++) {
-    cTValue *mo;
-    if (LJ_LIKELY(tvistab(o))) {
-      GCtab *t = tabV(o);
-      cTValue *tv = lj_tab_get(L, t, k);
-      if (LJ_LIKELY(!tvisnil(tv))) {
-	t->nomm = 0;  /* Invalidate negative metamethod cache. */
-	lj_gc_anybarriert(L, t);
-	return (TValue *)tv;
-      } else if (!(mo = lj_meta_fast(L, tabref(t->metatable), MM_newindex))) {
-	t->nomm = 0;  /* Invalidate negative metamethod cache. */
-	lj_gc_anybarriert(L, t);
-	if (tv != niltv(L))
-	  return (TValue *)tv;
-	if (tvisnil(k)) lj_err_msg(L, LJ_ERR_NILIDX);
-	else if (tvisint(k)) { setnumV(&tmp, (lua_Number)intV(k)); k = &tmp; }
-	else if (tvisnum(k) && tvisnan(k)) lj_err_msg(L, LJ_ERR_NANIDX);
-	return lj_tab_newkey(L, t, k);
-      }
-    } else if (tvisnil(mo = lj_meta_lookup(L, o, MM_newindex))) {
-      lj_err_optype(L, o, LJ_ERR_OPINDEX);
-      return NULL;  /* unreachable */
-    }
-    if (tvisfunc(mo)) {
-      L->top = mmcall(L, lj_cont_nop, mo, o, k);
-      /* L->top+2 = v filled in by caller. */
-      return NULL;  /* Trigger metamethod call. */
-    }
-    copyTV(L, &tmp, mo);
-    o = &tmp;
-  }
-  lj_err_msg(L, LJ_ERR_SETLOOP);
-  return NULL;  /* unreachable */
-}
-
-static cTValue *str2num(cTValue *o, TValue *n)
-{
-  if (tvisnum(o))
-    return o;
-  else if (tvisint(o))
-    return (setnumV(n, (lua_Number)intV(o)), n);
-  else if (tvisstr(o) && lj_strscan_num(strV(o), n))
-    return n;
-  else
-    return NULL;
-}
-
-/* Helper for arithmetic instructions. Coercion, metamethod. */
-TValue *lj_meta_arith(lua_State *L, TValue *ra, cTValue *rb, cTValue *rc,
-		      BCReg op)
-{
-  MMS mm = bcmode_mm(op);
-  TValue tempb, tempc;
-  cTValue *b, *c;
-  if ((b = str2num(rb, &tempb)) != NULL &&
-      (c = str2num(rc, &tempc)) != NULL) {  /* Try coercion first. */
-    setnumV(ra, lj_vm_foldarith(numV(b), numV(c), (int)mm-MM_add));
-    return NULL;
-  } else {
-    cTValue *mo = lj_meta_lookup(L, rb, mm);
-    if (tvisnil(mo)) {
-      mo = lj_meta_lookup(L, rc, mm);
-      if (tvisnil(mo)) {
-	if (str2num(rb, &tempb) == NULL) rc = rb;
-	lj_err_optype(L, rc, LJ_ERR_OPARITH);
-	return NULL;  /* unreachable */
-      }
-    }
-    return mmcall(L, lj_cont_ra, mo, rb, rc);
-  }
-}
-
-/* In-place coercion of a number to a string. */
-static LJ_AINLINE int tostring(lua_State *L, TValue *o)
-{
-  if (tvisstr(o)) {
-    return 1;
-  } else if (tvisnumber(o)) {
-    setstrV(L, o, lj_str_fromnumber(L, o));
-    return 1;
-  } else {
-    return 0;
-  }
-}
-
-/* Helper for CAT. Coercion, iterative concat, __concat metamethod. */
-TValue *lj_meta_cat(lua_State *L, TValue *top, int left)
-{
-  int fromc = 0;
-  if (left < 0) { left = -left; fromc = 1; }
-  do {
-    int n = 1;
-    if (!(tvisstr(top-1) || tvisnumber(top-1)) || !tostring(L, top)) {
-      cTValue *mo = lj_meta_lookup(L, top-1, MM_concat);
-      if (tvisnil(mo)) {
-	mo = lj_meta_lookup(L, top, MM_concat);
-	if (tvisnil(mo)) {
-	  if (tvisstr(top-1) || tvisnumber(top-1)) top++;
-	  lj_err_optype(L, top-1, LJ_ERR_OPCAT);
-	  return NULL;  /* unreachable */
-	}
-      }
-      /* One of the top two elements is not a string, call __cat metamethod:
-      **
-      ** before:    [...][CAT stack .........................]
-      **                                 top-1     top         top+1 top+2
-      ** pick two:  [...][CAT stack ...] [o1]      [o2]
-      ** setup mm:  [...][CAT stack ...] [cont|?]  [mo|tmtype] [o1]  [o2]
-      ** in asm:    [...][CAT stack ...] [cont|PC] [mo|delta]  [o1]  [o2]
-      **            ^-- func base                              ^-- mm base
-      ** after mm:  [...][CAT stack ...] <--push-- [result]
-      ** next step: [...][CAT stack .............]
-      */
-      copyTV(L, top+2, top);  /* Careful with the order of stack copies! */
-      copyTV(L, top+1, top-1);
-      copyTV(L, top, mo);
-      setcont(top-1, lj_cont_cat);
-      return top+1;  /* Trigger metamethod call. */
-    } else if (strV(top)->len == 0) {  /* Shortcut. */
-      (void)tostring(L, top-1);
-    } else {
-      /* Pick as many strings as possible from the top and concatenate them:
-      **
-      ** before:    [...][CAT stack ...........................]
-      ** pick str:  [...][CAT stack ...] [...... strings ......]
-      ** concat:    [...][CAT stack ...] [result]
-      ** next step: [...][CAT stack ............]
-      */
-      MSize tlen = strV(top)->len;
-      char *buffer;
-      int i;
-      for (n = 1; n <= left && tostring(L, top-n); n++) {
-	MSize len = strV(top-n)->len;
-	if (len >= LJ_MAX_STR - tlen)
-	  lj_err_msg(L, LJ_ERR_STROV);
-	tlen += len;
-      }
-      buffer = lj_str_needbuf(L, &G(L)->tmpbuf, tlen);
-      n--;
-      tlen = 0;
-      for (i = n; i >= 0; i--) {
-	MSize len = strV(top-i)->len;
-	memcpy(buffer + tlen, strVdata(top-i), len);
-	tlen += len;
-      }
-      setstrV(L, top-n, lj_str_new(L, buffer, tlen));
-    }
-    left -= n;
-    top -= n;
-  } while (left >= 1);
-  if (LJ_UNLIKELY(G(L)->gc.total >= G(L)->gc.threshold)) {
-    if (!fromc) L->top = curr_topL(L);
-    lj_gc_step(L);
-  }
-  return NULL;
-}
-
-/* Helper for LEN. __len metamethod. */
-TValue * LJ_FASTCALL lj_meta_len(lua_State *L, cTValue *o)
-{
-  cTValue *mo = lj_meta_lookup(L, o, MM_len);
-  if (tvisnil(mo)) {
-    if (LJ_52 && tvistab(o))
-      tabref(tabV(o)->metatable)->nomm |= (uint8_t)(1u<<MM_len);
-    else
-      lj_err_optype(L, o, LJ_ERR_OPLEN);
-    return NULL;
-  }
-  return mmcall(L, lj_cont_ra, mo, o, LJ_52 ? o : niltv(L));
-}
-
-/* Helper for equality comparisons. __eq metamethod. */
-TValue *lj_meta_equal(lua_State *L, GCobj *o1, GCobj *o2, int ne)
-{
-  /* Field metatable must be at same offset for GCtab and GCudata! */
-  cTValue *mo = lj_meta_fast(L, tabref(o1->gch.metatable), MM_eq);
-  if (mo) {
-    TValue *top;
-    uint32_t it;
-    if (tabref(o1->gch.metatable) != tabref(o2->gch.metatable)) {
-      cTValue *mo2 = lj_meta_fast(L, tabref(o2->gch.metatable), MM_eq);
-      if (mo2 == NULL || !lj_obj_equal(mo, mo2))
-	return (TValue *)(intptr_t)ne;
-    }
-    top = curr_top(L);
-    setcont(top, ne ? lj_cont_condf : lj_cont_condt);
-    copyTV(L, top+1, mo);
-    it = ~(uint32_t)o1->gch.gct;
-    setgcV(L, top+2, o1, it);
-    setgcV(L, top+3, o2, it);
-    return top+2;  /* Trigger metamethod call. */
-  }
-  return (TValue *)(intptr_t)ne;
-}
-
-#if LJ_HASFFI
-TValue * LJ_FASTCALL lj_meta_equal_cd(lua_State *L, BCIns ins)
-{
-  ASMFunction cont = (bc_op(ins) & 1) ? lj_cont_condf : lj_cont_condt;
-  int op = (int)bc_op(ins) & ~1;
-  TValue tv;
-  cTValue *mo, *o2, *o1 = &L->base[bc_a(ins)];
-  cTValue *o1mm = o1;
-  if (op == BC_ISEQV) {
-    o2 = &L->base[bc_d(ins)];
-    if (!tviscdata(o1mm)) o1mm = o2;
-  } else if (op == BC_ISEQS) {
-    setstrV(L, &tv, gco2str(proto_kgc(curr_proto(L), ~(ptrdiff_t)bc_d(ins))));
-    o2 = &tv;
-  } else if (op == BC_ISEQN) {
-    o2 = &mref(curr_proto(L)->k, cTValue)[bc_d(ins)];
-  } else {
-    lua_assert(op == BC_ISEQP);
-    setitype(&tv, ~bc_d(ins));
-    o2 = &tv;
-  }
-  mo = lj_meta_lookup(L, o1mm, MM_eq);
-  if (LJ_LIKELY(!tvisnil(mo)))
-    return mmcall(L, cont, mo, o1, o2);
-  else
-    return (TValue *)(intptr_t)(bc_op(ins) & 1);
-}
-#endif
-
-/* Helper for ordered comparisons. String compare, __lt/__le metamethods. */
-TValue *lj_meta_comp(lua_State *L, cTValue *o1, cTValue *o2, int op)
-{
-  if (LJ_HASFFI && (tviscdata(o1) || tviscdata(o2))) {
-    ASMFunction cont = (op & 1) ? lj_cont_condf : lj_cont_condt;
-    MMS mm = (op & 2) ? MM_le : MM_lt;
-    cTValue *mo = lj_meta_lookup(L, tviscdata(o1) ? o1 : o2, mm);
-    if (LJ_UNLIKELY(tvisnil(mo))) goto err;
-    return mmcall(L, cont, mo, o1, o2);
-  } else if (LJ_52 || itype(o1) == itype(o2)) {
-    /* Never called with two numbers. */
-    if (tvisstr(o1) && tvisstr(o2)) {
-      int32_t res = lj_str_cmp(strV(o1), strV(o2));
-      return (TValue *)(intptr_t)(((op&2) ? res <= 0 : res < 0) ^ (op&1));
-    } else {
-    trymt:
-      while (1) {
-	ASMFunction cont = (op & 1) ? lj_cont_condf : lj_cont_condt;
-	MMS mm = (op & 2) ? MM_le : MM_lt;
-	cTValue *mo = lj_meta_lookup(L, o1, mm);
-#if LJ_52
-	if (tvisnil(mo) && tvisnil((mo = lj_meta_lookup(L, o2, mm))))
-#else
-	cTValue *mo2 = lj_meta_lookup(L, o2, mm);
-	if (tvisnil(mo) || !lj_obj_equal(mo, mo2))
-#endif
-	{
-	  if (op & 2) {  /* MM_le not found: retry with MM_lt. */
-	    cTValue *ot = o1; o1 = o2; o2 = ot;  /* Swap operands. */
-	    op ^= 3;  /* Use LT and flip condition. */
-	    continue;
-	  }
-	  goto err;
-	}
-	return mmcall(L, cont, mo, o1, o2);
-      }
-    }
-  } else if (tvisbool(o1) && tvisbool(o2)) {
-    goto trymt;
-  } else {
-  err:
-    lj_err_comp(L, o1, o2);
-    return NULL;
-  }
-}
-
-/* Helper for calls. __call metamethod. */
-void lj_meta_call(lua_State *L, TValue *func, TValue *top)
-{
-  cTValue *mo = lj_meta_lookup(L, func, MM_call);
-  TValue *p;
-  if (!tvisfunc(mo))
-    lj_err_optype_call(L, func);
-  for (p = top; p > func; p--) copyTV(L, p, p-1);
-  copyTV(L, func, mo);
-}
-
-/* Helper for FORI. Coercion. */
-void LJ_FASTCALL lj_meta_for(lua_State *L, TValue *o)
-{
-  if (!lj_strscan_numberobj(o)) lj_err_msg(L, LJ_ERR_FORINIT);
-  if (!lj_strscan_numberobj(o+1)) lj_err_msg(L, LJ_ERR_FORLIM);
-  if (!lj_strscan_numberobj(o+2)) lj_err_msg(L, LJ_ERR_FORSTEP);
-  if (LJ_DUALNUM) {
-    /* Ensure all slots are integers or all slots are numbers. */
-    int32_t k[3];
-    int nint = 0;
-    ptrdiff_t i;
-    for (i = 0; i <= 2; i++) {
-      if (tvisint(o+i)) {
-	k[i] = intV(o+i); nint++;
-      } else {
-	k[i] = lj_num2int(numV(o+i)); nint += ((lua_Number)k[i] == numV(o+i));
-      }
-    }
-    if (nint == 3) {  /* Narrow to integers. */
-      setintV(o, k[0]);
-      setintV(o+1, k[1]);
-      setintV(o+2, k[2]);
-    } else if (nint != 0) {  /* Widen to numbers. */
-      if (tvisint(o)) setnumV(o, (lua_Number)intV(o));
-      if (tvisint(o+1)) setnumV(o+1, (lua_Number)intV(o+1));
-      if (tvisint(o+2)) setnumV(o+2, (lua_Number)intV(o+2));
-    }
-  }
-}
-
diff --git a/luajit-2.0/src/lj_meta.h b/luajit-2.0/src/lj_meta.h
deleted file mode 100644
index 8d7c2cd..0000000
--- a/luajit-2.0/src/lj_meta.h
+++ /dev/null
@@ -1,37 +0,0 @@
-/*
-** Metamethod handling.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#ifndef _LJ_META_H
-#define _LJ_META_H
-
-#include "lj_obj.h"
-
-/* Metamethod handling */
-LJ_FUNC void lj_meta_init(lua_State *L);
-LJ_FUNC cTValue *lj_meta_cache(GCtab *mt, MMS mm, GCstr *name);
-LJ_FUNC cTValue *lj_meta_lookup(lua_State *L, cTValue *o, MMS mm);
-#if LJ_HASFFI
-LJ_FUNC int lj_meta_tailcall(lua_State *L, cTValue *tv);
-#endif
-
-#define lj_meta_fastg(g, mt, mm) \
-  ((mt) == NULL ? NULL : ((mt)->nomm & (1u<<(mm))) ? NULL : \
-   lj_meta_cache(mt, mm, mmname_str(g, mm)))
-#define lj_meta_fast(L, mt, mm)	lj_meta_fastg(G(L), mt, mm)
-
-/* C helpers for some instructions, called from assembler VM. */
-LJ_FUNCA cTValue *lj_meta_tget(lua_State *L, cTValue *o, cTValue *k);
-LJ_FUNCA TValue *lj_meta_tset(lua_State *L, cTValue *o, cTValue *k);
-LJ_FUNCA TValue *lj_meta_arith(lua_State *L, TValue *ra, cTValue *rb,
-			       cTValue *rc, BCReg op);
-LJ_FUNCA TValue *lj_meta_cat(lua_State *L, TValue *top, int left);
-LJ_FUNCA TValue * LJ_FASTCALL lj_meta_len(lua_State *L, cTValue *o);
-LJ_FUNCA TValue *lj_meta_equal(lua_State *L, GCobj *o1, GCobj *o2, int ne);
-LJ_FUNCA TValue * LJ_FASTCALL lj_meta_equal_cd(lua_State *L, BCIns ins);
-LJ_FUNCA TValue *lj_meta_comp(lua_State *L, cTValue *o1, cTValue *o2, int op);
-LJ_FUNCA void lj_meta_call(lua_State *L, TValue *func, TValue *top);
-LJ_FUNCA void LJ_FASTCALL lj_meta_for(lua_State *L, TValue *o);
-
-#endif
diff --git a/luajit-2.0/src/lj_obj.c b/luajit-2.0/src/lj_obj.c
deleted file mode 100644
index c7f3bc1..0000000
--- a/luajit-2.0/src/lj_obj.c
+++ /dev/null
@@ -1,35 +0,0 @@
-/*
-** Miscellaneous object handling.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#define lj_obj_c
-#define LUA_CORE
-
-#include "lj_obj.h"
-
-/* Object type names. */
-LJ_DATADEF const char *const lj_obj_typename[] = {  /* ORDER LUA_T */
-  "no value", "nil", "boolean", "userdata", "number", "string",
-  "table", "function", "userdata", "thread", "proto", "cdata"
-};
-
-LJ_DATADEF const char *const lj_obj_itypename[] = {  /* ORDER LJ_T */
-  "nil", "boolean", "boolean", "userdata", "string", "upval", "thread",
-  "proto", "function", "trace", "cdata", "table", "userdata", "number"
-};
-
-/* Compare two objects without calling metamethods. */
-int lj_obj_equal(cTValue *o1, cTValue *o2)
-{
-  if (itype(o1) == itype(o2)) {
-    if (tvispri(o1))
-      return 1;
-    if (!tvisnum(o1))
-      return gcrefeq(o1->gcr, o2->gcr);
-  } else if (!tvisnumber(o1) || !tvisnumber(o2)) {
-    return 0;
-  }
-  return numberVnum(o1) == numberVnum(o2);
-}
-
diff --git a/luajit-2.0/src/lj_obj.h b/luajit-2.0/src/lj_obj.h
deleted file mode 100644
index cc999aa..0000000
--- a/luajit-2.0/src/lj_obj.h
+++ /dev/null
@@ -1,856 +0,0 @@
-/*
-** LuaJIT VM tags, values and objects.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-**
-** Portions taken verbatim or adapted from the Lua interpreter.
-** Copyright (C) 1994-2008 Lua.org, PUC-Rio. See Copyright Notice in lua.h
-*/
-
-#ifndef _LJ_OBJ_H
-#define _LJ_OBJ_H
-
-#include "lua.h"
-#include "lj_def.h"
-#include "lj_arch.h"
-
-/* -- Memory references (32 bit address space) ---------------------------- */
-
-/* Memory size. */
-typedef uint32_t MSize;
-
-/* Memory reference */
-typedef struct MRef {
-  uint32_t ptr32;	/* Pseudo 32 bit pointer. */
-} MRef;
-
-#define mref(r, t)	((t *)(void *)(uintptr_t)(r).ptr32)
-
-#define setmref(r, p)	((r).ptr32 = (uint32_t)(uintptr_t)(void *)(p))
-#define setmrefr(r, v)	((r).ptr32 = (v).ptr32)
-
-/* -- GC object references (32 bit address space) ------------------------- */
-
-/* GCobj reference */
-typedef struct GCRef {
-  uint32_t gcptr32;	/* Pseudo 32 bit pointer. */
-} GCRef;
-
-/* Common GC header for all collectable objects. */
-#define GCHeader	GCRef nextgc; uint8_t marked; uint8_t gct
-/* This occupies 6 bytes, so use the next 2 bytes for non-32 bit fields. */
-
-#define gcref(r)	((GCobj *)(uintptr_t)(r).gcptr32)
-#define gcrefp(r, t)	((t *)(void *)(uintptr_t)(r).gcptr32)
-#define gcrefu(r)	((r).gcptr32)
-#define gcrefi(r)	((int32_t)(r).gcptr32)
-#define gcrefeq(r1, r2)	((r1).gcptr32 == (r2).gcptr32)
-#define gcnext(gc)	(gcref((gc)->gch.nextgc))
-
-#define setgcref(r, gc)	((r).gcptr32 = (uint32_t)(uintptr_t)&(gc)->gch)
-#define setgcrefi(r, i)	((r).gcptr32 = (uint32_t)(i))
-#define setgcrefp(r, p)	((r).gcptr32 = (uint32_t)(uintptr_t)(p))
-#define setgcrefnull(r)	((r).gcptr32 = 0)
-#define setgcrefr(r, v)	((r).gcptr32 = (v).gcptr32)
-
-/* IMPORTANT NOTE:
-**
-** All uses of the setgcref* macros MUST be accompanied with a write barrier.
-**
-** This is to ensure the integrity of the incremental GC. The invariant
-** to preserve is that a black object never points to a white object.
-** I.e. never store a white object into a field of a black object.
-**
-** It's ok to LEAVE OUT the write barrier ONLY in the following cases:
-** - The source is not a GC object (NULL).
-** - The target is a GC root. I.e. everything in global_State.
-** - The target is a lua_State field (threads are never black).
-** - The target is a stack slot, see setgcV et al.
-** - The target is an open upvalue, i.e. pointing to a stack slot.
-** - The target is a newly created object (i.e. marked white). But make
-**   sure nothing invokes the GC inbetween.
-** - The target and the source are the same object (self-reference).
-** - The target already contains the object (e.g. moving elements around).
-**
-** The most common case is a store to a stack slot. All other cases where
-** a barrier has been omitted are annotated with a NOBARRIER comment.
-**
-** The same logic applies for stores to table slots (array part or hash
-** part). ALL uses of lj_tab_set* require a barrier for the stored value
-** *and* the stored key, based on the above rules. In practice this means
-** a barrier is needed if *either* of the key or value are a GC object.
-**
-** It's ok to LEAVE OUT the write barrier in the following special cases:
-** - The stored value is nil. The key doesn't matter because it's either
-**   not resurrected or lj_tab_newkey() will take care of the key barrier.
-** - The key doesn't matter if the *previously* stored value is guaranteed
-**   to be non-nil (because the key is kept alive in the table).
-** - The key doesn't matter if it's guaranteed not to be part of the table,
-**   since lj_tab_newkey() takes care of the key barrier. This applies
-**   trivially to new tables, but watch out for resurrected keys. Storing
-**   a nil value leaves the key in the table!
-**
-** In case of doubt use lj_gc_anybarriert() as it's rather cheap. It's used
-** by the interpreter for all table stores.
-**
-** Note: In contrast to Lua's GC, LuaJIT's GC does *not* specially mark
-** dead keys in tables. The reference is left in, but it's guaranteed to
-** be never dereferenced as long as the value is nil. It's ok if the key is
-** freed or if any object subsequently gets the same address.
-**
-** Not destroying dead keys helps to keep key hash slots stable. This avoids
-** specialization back-off for HREFK when a value flips between nil and
-** non-nil and the GC gets in the way. It also allows safely hoisting
-** HREF/HREFK across GC steps. Dead keys are only removed if a table is
-** resized (i.e. by NEWREF) and xREF must not be CSEd across a resize.
-**
-** The trade-off is that a write barrier for tables must take the key into
-** account, too. Implicitly resurrecting the key by storing a non-nil value
-** may invalidate the incremental GC invariant.
-*/
-
-/* -- Common type definitions --------------------------------------------- */
-
-/* Types for handling bytecodes. Need this here, details in lj_bc.h. */
-typedef uint32_t BCIns;  /* Bytecode instruction. */
-typedef uint32_t BCPos;  /* Bytecode position. */
-typedef uint32_t BCReg;  /* Bytecode register. */
-typedef int32_t BCLine;  /* Bytecode line number. */
-
-/* Internal assembler functions. Never call these directly from C. */
-typedef void (*ASMFunction)(void);
-
-/* Resizable string buffer. Need this here, details in lj_str.h. */
-typedef struct SBuf {
-  char *buf;		/* String buffer base. */
-  MSize n;		/* String buffer length. */
-  MSize sz;		/* String buffer size. */
-} SBuf;
-
-/* -- Tags and values ----------------------------------------------------- */
-
-/* Frame link. */
-typedef union {
-  int32_t ftsz;		/* Frame type and size of previous frame. */
-  MRef pcr;		/* Overlaps PC for Lua frames. */
-} FrameLink;
-
-/* Tagged value. */
-typedef LJ_ALIGN(8) union TValue {
-  uint64_t u64;		/* 64 bit pattern overlaps number. */
-  lua_Number n;		/* Number object overlaps split tag/value object. */
-  struct {
-    LJ_ENDIAN_LOHI(
-      union {
-	GCRef gcr;	/* GCobj reference (if any). */
-	int32_t i;	/* Integer value. */
-      };
-    , uint32_t it;	/* Internal object tag. Must overlap MSW of number. */
-    )
-  };
-  struct {
-    LJ_ENDIAN_LOHI(
-      GCRef func;	/* Function for next frame (or dummy L). */
-    , FrameLink tp;	/* Link to previous frame. */
-    )
-  } fr;
-  struct {
-    LJ_ENDIAN_LOHI(
-      uint32_t lo;	/* Lower 32 bits of number. */
-    , uint32_t hi;	/* Upper 32 bits of number. */
-    )
-  } u32;
-} TValue;
-
-typedef const TValue cTValue;
-
-#define tvref(r)	(mref(r, TValue))
-
-/* More external and GCobj tags for internal objects. */
-#define LAST_TT		LUA_TTHREAD
-#define LUA_TPROTO	(LAST_TT+1)
-#define LUA_TCDATA	(LAST_TT+2)
-
-/* Internal object tags.
-**
-** Internal tags overlap the MSW of a number object (must be a double).
-** Interpreted as a double these are special NaNs. The FPU only generates
-** one type of NaN (0xfff8_0000_0000_0000). So MSWs > 0xfff80000 are available
-** for use as internal tags. Small negative numbers are used to shorten the
-** encoding of type comparisons (reg/mem against sign-ext. 8 bit immediate).
-**
-**                  ---MSW---.---LSW---
-** primitive types |  itype  |         |
-** lightuserdata   |  itype  |  void * |  (32 bit platforms)
-** lightuserdata   |ffff|    void *    |  (64 bit platforms, 47 bit pointers)
-** GC objects      |  itype  |  GCRef  |
-** int (LJ_DUALNUM)|  itype  |   int   |
-** number           -------double------
-**
-** ORDER LJ_T
-** Primitive types nil/false/true must be first, lightuserdata next.
-** GC objects are at the end, table/userdata must be lowest.
-** Also check lj_ir.h for similar ordering constraints.
-*/
-#define LJ_TNIL			(~0u)
-#define LJ_TFALSE		(~1u)
-#define LJ_TTRUE		(~2u)
-#define LJ_TLIGHTUD		(~3u)
-#define LJ_TSTR			(~4u)
-#define LJ_TUPVAL		(~5u)
-#define LJ_TTHREAD		(~6u)
-#define LJ_TPROTO		(~7u)
-#define LJ_TFUNC		(~8u)
-#define LJ_TTRACE		(~9u)
-#define LJ_TCDATA		(~10u)
-#define LJ_TTAB			(~11u)
-#define LJ_TUDATA		(~12u)
-/* This is just the canonical number type used in some places. */
-#define LJ_TNUMX		(~13u)
-
-/* Integers have itype == LJ_TISNUM doubles have itype < LJ_TISNUM */
-#if LJ_64
-#define LJ_TISNUM		0xfffeffffu
-#else
-#define LJ_TISNUM		LJ_TNUMX
-#endif
-#define LJ_TISTRUECOND		LJ_TFALSE
-#define LJ_TISPRI		LJ_TTRUE
-#define LJ_TISGCV		(LJ_TSTR+1)
-#define LJ_TISTABUD		LJ_TTAB
-
-/* -- String object ------------------------------------------------------- */
-
-/* String object header. String payload follows. */
-typedef struct GCstr {
-  GCHeader;
-  uint8_t reserved;	/* Used by lexer for fast lookup of reserved words. */
-  uint8_t unused;
-  MSize hash;		/* Hash of string. */
-  MSize len;		/* Size of string. */
-} GCstr;
-
-#define strref(r)	(&gcref((r))->str)
-#define strdata(s)	((const char *)((s)+1))
-#define strdatawr(s)	((char *)((s)+1))
-#define strVdata(o)	strdata(strV(o))
-#define sizestring(s)	(sizeof(struct GCstr)+(s)->len+1)
-
-/* -- Userdata object ----------------------------------------------------- */
-
-/* Userdata object. Payload follows. */
-typedef struct GCudata {
-  GCHeader;
-  uint8_t udtype;	/* Userdata type. */
-  uint8_t unused2;
-  GCRef env;		/* Should be at same offset in GCfunc. */
-  MSize len;		/* Size of payload. */
-  GCRef metatable;	/* Must be at same offset in GCtab. */
-  uint32_t align1;	/* To force 8 byte alignment of the payload. */
-} GCudata;
-
-/* Userdata types. */
-enum {
-  UDTYPE_USERDATA,	/* Regular userdata. */
-  UDTYPE_IO_FILE,	/* I/O library FILE. */
-  UDTYPE_FFI_CLIB,	/* FFI C library namespace. */
-  UDTYPE__MAX
-};
-
-#define uddata(u)	((void *)((u)+1))
-#define sizeudata(u)	(sizeof(struct GCudata)+(u)->len)
-
-/* -- C data object ------------------------------------------------------- */
-
-/* C data object. Payload follows. */
-typedef struct GCcdata {
-  GCHeader;
-  uint16_t ctypeid;	/* C type ID. */
-} GCcdata;
-
-/* Prepended to variable-sized or realigned C data objects. */
-typedef struct GCcdataVar {
-  uint16_t offset;	/* Offset to allocated memory (relative to GCcdata). */
-  uint16_t extra;	/* Extra space allocated (incl. GCcdata + GCcdatav). */
-  MSize len;		/* Size of payload. */
-} GCcdataVar;
-
-#define cdataptr(cd)	((void *)((cd)+1))
-#define cdataisv(cd)	((cd)->marked & 0x80)
-#define cdatav(cd)	((GCcdataVar *)((char *)(cd) - sizeof(GCcdataVar)))
-#define cdatavlen(cd)	check_exp(cdataisv(cd), cdatav(cd)->len)
-#define sizecdatav(cd)	(cdatavlen(cd) + cdatav(cd)->extra)
-#define memcdatav(cd)	((void *)((char *)(cd) - cdatav(cd)->offset))
-
-/* -- Prototype object ---------------------------------------------------- */
-
-#define SCALE_NUM_GCO	((int32_t)sizeof(lua_Number)/sizeof(GCRef))
-#define round_nkgc(n)	(((n) + SCALE_NUM_GCO-1) & ~(SCALE_NUM_GCO-1))
-
-typedef struct GCproto {
-  GCHeader;
-  uint8_t numparams;	/* Number of parameters. */
-  uint8_t framesize;	/* Fixed frame size. */
-  MSize sizebc;		/* Number of bytecode instructions. */
-  GCRef gclist;
-  MRef k;		/* Split constant array (points to the middle). */
-  MRef uv;		/* Upvalue list. local slot|0x8000 or parent uv idx. */
-  MSize sizekgc;	/* Number of collectable constants. */
-  MSize sizekn;		/* Number of lua_Number constants. */
-  MSize sizept;		/* Total size including colocated arrays. */
-  uint8_t sizeuv;	/* Number of upvalues. */
-  uint8_t flags;	/* Miscellaneous flags (see below). */
-  uint16_t trace;	/* Anchor for chain of root traces. */
-  /* ------ The following fields are for debugging/tracebacks only ------ */
-  GCRef chunkname;	/* Name of the chunk this function was defined in. */
-  BCLine firstline;	/* First line of the function definition. */
-  BCLine numline;	/* Number of lines for the function definition. */
-  MRef lineinfo;	/* Compressed map from bytecode ins. to source line. */
-  MRef uvinfo;		/* Upvalue names. */
-  MRef varinfo;		/* Names and compressed extents of local variables. */
-} GCproto;
-
-/* Flags for prototype. */
-#define PROTO_CHILD		0x01	/* Has child prototypes. */
-#define PROTO_VARARG		0x02	/* Vararg function. */
-#define PROTO_FFI		0x04	/* Uses BC_KCDATA for FFI datatypes. */
-#define PROTO_NOJIT		0x08	/* JIT disabled for this function. */
-#define PROTO_ILOOP		0x10	/* Patched bytecode with ILOOP etc. */
-/* Only used during parsing. */
-#define PROTO_HAS_RETURN	0x20	/* Already emitted a return. */
-#define PROTO_FIXUP_RETURN	0x40	/* Need to fixup emitted returns. */
-/* Top bits used for counting created closures. */
-#define PROTO_CLCOUNT		0x20	/* Base of saturating 3 bit counter. */
-#define PROTO_CLC_BITS		3
-#define PROTO_CLC_POLY		(3*PROTO_CLCOUNT)  /* Polymorphic threshold. */
-
-#define PROTO_UV_LOCAL		0x8000	/* Upvalue for local slot. */
-#define PROTO_UV_IMMUTABLE	0x4000	/* Immutable upvalue. */
-
-#define proto_kgc(pt, idx) \
-  check_exp((uintptr_t)(intptr_t)(idx) >= (uintptr_t)-(intptr_t)(pt)->sizekgc, \
-	    gcref(mref((pt)->k, GCRef)[(idx)]))
-#define proto_knumtv(pt, idx) \
-  check_exp((uintptr_t)(idx) < (pt)->sizekn, &mref((pt)->k, TValue)[(idx)])
-#define proto_bc(pt)		((BCIns *)((char *)(pt) + sizeof(GCproto)))
-#define proto_bcpos(pt, pc)	((BCPos)((pc) - proto_bc(pt)))
-#define proto_uv(pt)		(mref((pt)->uv, uint16_t))
-
-#define proto_chunkname(pt)	(strref((pt)->chunkname))
-#define proto_chunknamestr(pt)	(strdata(proto_chunkname((pt))))
-#define proto_lineinfo(pt)	(mref((pt)->lineinfo, const void))
-#define proto_uvinfo(pt)	(mref((pt)->uvinfo, const uint8_t))
-#define proto_varinfo(pt)	(mref((pt)->varinfo, const uint8_t))
-
-/* -- Upvalue object ------------------------------------------------------ */
-
-typedef struct GCupval {
-  GCHeader;
-  uint8_t closed;	/* Set if closed (i.e. uv->v == &uv->u.value). */
-  uint8_t immutable;	/* Immutable value. */
-  union {
-    TValue tv;		/* If closed: the value itself. */
-    struct {		/* If open: double linked list, anchored at thread. */
-      GCRef prev;
-      GCRef next;
-    };
-  };
-  MRef v;		/* Points to stack slot (open) or above (closed). */
-  uint32_t dhash;	/* Disambiguation hash: dh1 != dh2 => cannot alias. */
-} GCupval;
-
-#define uvprev(uv_)	(&gcref((uv_)->prev)->uv)
-#define uvnext(uv_)	(&gcref((uv_)->next)->uv)
-#define uvval(uv_)	(mref((uv_)->v, TValue))
-
-/* -- Function object (closures) ------------------------------------------ */
-
-/* Common header for functions. env should be at same offset in GCudata. */
-#define GCfuncHeader \
-  GCHeader; uint8_t ffid; uint8_t nupvalues; \
-  GCRef env; GCRef gclist; MRef pc
-
-typedef struct GCfuncC {
-  GCfuncHeader;
-  lua_CFunction f;	/* C function to be called. */
-  TValue upvalue[1];	/* Array of upvalues (TValue). */
-} GCfuncC;
-
-typedef struct GCfuncL {
-  GCfuncHeader;
-  GCRef uvptr[1];	/* Array of _pointers_ to upvalue objects (GCupval). */
-} GCfuncL;
-
-typedef union GCfunc {
-  GCfuncC c;
-  GCfuncL l;
-} GCfunc;
-
-#define FF_LUA		0
-#define FF_C		1
-#define isluafunc(fn)	((fn)->c.ffid == FF_LUA)
-#define iscfunc(fn)	((fn)->c.ffid == FF_C)
-#define isffunc(fn)	((fn)->c.ffid > FF_C)
-#define funcproto(fn) \
-  check_exp(isluafunc(fn), (GCproto *)(mref((fn)->l.pc, char)-sizeof(GCproto)))
-#define sizeCfunc(n)	(sizeof(GCfuncC)-sizeof(TValue)+sizeof(TValue)*(n))
-#define sizeLfunc(n)	(sizeof(GCfuncL)-sizeof(GCRef)+sizeof(GCRef)*(n))
-
-/* -- Table object -------------------------------------------------------- */
-
-/* Hash node. */
-typedef struct Node {
-  TValue val;		/* Value object. Must be first field. */
-  TValue key;		/* Key object. */
-  MRef next;		/* Hash chain. */
-  MRef freetop;		/* Top of free elements (stored in t->node[0]). */
-} Node;
-
-LJ_STATIC_ASSERT(offsetof(Node, val) == 0);
-
-typedef struct GCtab {
-  GCHeader;
-  uint8_t nomm;		/* Negative cache for fast metamethods. */
-  int8_t colo;		/* Array colocation. */
-  MRef array;		/* Array part. */
-  GCRef gclist;
-  GCRef metatable;	/* Must be at same offset in GCudata. */
-  MRef node;		/* Hash part. */
-  uint32_t asize;	/* Size of array part (keys [0, asize-1]). */
-  uint32_t hmask;	/* Hash part mask (size of hash part - 1). */
-} GCtab;
-
-#define sizetabcolo(n)	((n)*sizeof(TValue) + sizeof(GCtab))
-#define tabref(r)	(&gcref((r))->tab)
-#define noderef(r)	(mref((r), Node))
-#define nextnode(n)	(mref((n)->next, Node))
-
-/* -- State objects ------------------------------------------------------- */
-
-/* VM states. */
-enum {
-  LJ_VMST_INTERP,	/* Interpreter. */
-  LJ_VMST_C,		/* C function. */
-  LJ_VMST_GC,		/* Garbage collector. */
-  LJ_VMST_EXIT,		/* Trace exit handler. */
-  LJ_VMST_RECORD,	/* Trace recorder. */
-  LJ_VMST_OPT,		/* Optimizer. */
-  LJ_VMST_ASM,		/* Assembler. */
-  LJ_VMST__MAX
-};
-
-#define setvmstate(g, st)	((g)->vmstate = ~LJ_VMST_##st)
-
-/* Metamethods. ORDER MM */
-#ifdef LJ_HASFFI
-#define MMDEF_FFI(_) _(new)
-#else
-#define MMDEF_FFI(_)
-#endif
-
-#if LJ_52 || LJ_HASFFI
-#define MMDEF_PAIRS(_) _(pairs) _(ipairs)
-#else
-#define MMDEF_PAIRS(_)
-#define MM_pairs	255
-#define MM_ipairs	255
-#endif
-
-#define MMDEF(_) \
-  _(index) _(newindex) _(gc) _(mode) _(eq) _(len) \
-  /* Only the above (fast) metamethods are negative cached (max. 8). */ \
-  _(lt) _(le) _(concat) _(call) \
-  /* The following must be in ORDER ARITH. */ \
-  _(add) _(sub) _(mul) _(div) _(mod) _(pow) _(unm) \
-  /* The following are used in the standard libraries. */ \
-  _(metatable) _(tostring) MMDEF_FFI(_) MMDEF_PAIRS(_)
-
-typedef enum {
-#define MMENUM(name)	MM_##name,
-MMDEF(MMENUM)
-#undef MMENUM
-  MM__MAX,
-  MM____ = MM__MAX,
-  MM_FAST = MM_len
-} MMS;
-
-/* GC root IDs. */
-typedef enum {
-  GCROOT_MMNAME,	/* Metamethod names. */
-  GCROOT_MMNAME_LAST = GCROOT_MMNAME + MM__MAX-1,
-  GCROOT_BASEMT,	/* Metatables for base types. */
-  GCROOT_BASEMT_NUM = GCROOT_BASEMT + ~LJ_TNUMX,
-  GCROOT_IO_INPUT,	/* Userdata for default I/O input file. */
-  GCROOT_IO_OUTPUT,	/* Userdata for default I/O output file. */
-  GCROOT_MAX
-} GCRootID;
-
-#define basemt_it(g, it)	((g)->gcroot[GCROOT_BASEMT+~(it)])
-#define basemt_obj(g, o)	((g)->gcroot[GCROOT_BASEMT+itypemap(o)])
-#define mmname_str(g, mm)	(strref((g)->gcroot[GCROOT_MMNAME+(mm)]))
-
-typedef struct GCState {
-  MSize total;		/* Memory currently allocated. */
-  MSize threshold;	/* Memory threshold. */
-  uint8_t currentwhite;	/* Current white color. */
-  uint8_t state;	/* GC state. */
-  uint8_t nocdatafin;	/* No cdata finalizer called. */
-  uint8_t unused2;
-  MSize sweepstr;	/* Sweep position in string table. */
-  GCRef root;		/* List of all collectable objects. */
-  MRef sweep;		/* Sweep position in root list. */
-  GCRef gray;		/* List of gray objects. */
-  GCRef grayagain;	/* List of objects for atomic traversal. */
-  GCRef weak;		/* List of weak tables (to be cleared). */
-  GCRef mmudata;	/* List of userdata (to be finalized). */
-  MSize stepmul;	/* Incremental GC step granularity. */
-  MSize debt;		/* Debt (how much GC is behind schedule). */
-  MSize estimate;	/* Estimate of memory actually in use. */
-  MSize pause;		/* Pause between successive GC cycles. */
-} GCState;
-
-/* Global state, shared by all threads of a Lua universe. */
-typedef struct global_State {
-  GCRef *strhash;	/* String hash table (hash chain anchors). */
-  MSize strmask;	/* String hash mask (size of hash table - 1). */
-  MSize strnum;		/* Number of strings in hash table. */
-  lua_Alloc allocf;	/* Memory allocator. */
-  void *allocd;		/* Memory allocator data. */
-  GCState gc;		/* Garbage collector. */
-  SBuf tmpbuf;		/* Temporary buffer for string concatenation. */
-  Node nilnode;		/* Fallback 1-element hash part (nil key and value). */
-  GCstr strempty;	/* Empty string. */
-  uint8_t stremptyz;	/* Zero terminator of empty string. */
-  uint8_t hookmask;	/* Hook mask. */
-  uint8_t dispatchmode;	/* Dispatch mode. */
-  uint8_t vmevmask;	/* VM event mask. */
-  GCRef mainthref;	/* Link to main thread. */
-  TValue registrytv;	/* Anchor for registry. */
-  TValue tmptv, tmptv2;	/* Temporary TValues. */
-  GCupval uvhead;	/* Head of double-linked list of all open upvalues. */
-  int32_t hookcount;	/* Instruction hook countdown. */
-  int32_t hookcstart;	/* Start count for instruction hook counter. */
-  lua_Hook hookf;	/* Hook function. */
-  lua_CFunction wrapf;	/* Wrapper for C function calls. */
-  lua_CFunction panic;	/* Called as a last resort for errors. */
-  volatile int32_t vmstate;  /* VM state or current JIT code trace number. */
-  BCIns bc_cfunc_int;	/* Bytecode for internal C function calls. */
-  BCIns bc_cfunc_ext;	/* Bytecode for external C function calls. */
-  GCRef jit_L;		/* Current JIT code lua_State or NULL. */
-  MRef jit_base;	/* Current JIT code L->base. */
-  MRef ctype_state;	/* Pointer to C type state. */
-  GCRef gcroot[GCROOT_MAX];  /* GC roots. */
-} global_State;
-
-#define mainthread(g)	(&gcref(g->mainthref)->th)
-#define niltv(L) \
-  check_exp(tvisnil(&G(L)->nilnode.val), &G(L)->nilnode.val)
-#define niltvg(g) \
-  check_exp(tvisnil(&(g)->nilnode.val), &(g)->nilnode.val)
-
-/* Hook management. Hook event masks are defined in lua.h. */
-#define HOOK_EVENTMASK		0x0f
-#define HOOK_ACTIVE		0x10
-#define HOOK_ACTIVE_SHIFT	4
-#define HOOK_VMEVENT		0x20
-#define HOOK_GC			0x40
-#define hook_active(g)		((g)->hookmask & HOOK_ACTIVE)
-#define hook_enter(g)		((g)->hookmask |= HOOK_ACTIVE)
-#define hook_entergc(g)		((g)->hookmask |= (HOOK_ACTIVE|HOOK_GC))
-#define hook_vmevent(g)		((g)->hookmask |= (HOOK_ACTIVE|HOOK_VMEVENT))
-#define hook_leave(g)		((g)->hookmask &= ~HOOK_ACTIVE)
-#define hook_save(g)		((g)->hookmask & ~HOOK_EVENTMASK)
-#define hook_restore(g, h) \
-  ((g)->hookmask = ((g)->hookmask & HOOK_EVENTMASK) | (h))
-
-/* Per-thread state object. */
-struct lua_State {
-  GCHeader;
-  uint8_t dummy_ffid;	/* Fake FF_C for curr_funcisL() on dummy frames. */
-  uint8_t status;	/* Thread status. */
-  MRef glref;		/* Link to global state. */
-  GCRef gclist;		/* GC chain. */
-  TValue *base;		/* Base of currently executing function. */
-  TValue *top;		/* First free slot in the stack. */
-  MRef maxstack;	/* Last free slot in the stack. */
-  MRef stack;		/* Stack base. */
-  GCRef openupval;	/* List of open upvalues in the stack. */
-  GCRef env;		/* Thread environment (table of globals). */
-  void *cframe;		/* End of C stack frame chain. */
-  MSize stacksize;	/* True stack size (incl. LJ_STACK_EXTRA). */
-};
-
-#define G(L)			(mref(L->glref, global_State))
-#define registry(L)		(&G(L)->registrytv)
-
-/* Macros to access the currently executing (Lua) function. */
-#define curr_func(L)		(&gcref((L->base-1)->fr.func)->fn)
-#define curr_funcisL(L)		(isluafunc(curr_func(L)))
-#define curr_proto(L)		(funcproto(curr_func(L)))
-#define curr_topL(L)		(L->base + curr_proto(L)->framesize)
-#define curr_top(L)		(curr_funcisL(L) ? curr_topL(L) : L->top)
-
-/* -- GC object definition and conversions -------------------------------- */
-
-/* GC header for generic access to common fields of GC objects. */
-typedef struct GChead {
-  GCHeader;
-  uint8_t unused1;
-  uint8_t unused2;
-  GCRef env;
-  GCRef gclist;
-  GCRef metatable;
-} GChead;
-
-/* The env field SHOULD be at the same offset for all GC objects. */
-LJ_STATIC_ASSERT(offsetof(GChead, env) == offsetof(GCfuncL, env));
-LJ_STATIC_ASSERT(offsetof(GChead, env) == offsetof(GCudata, env));
-
-/* The metatable field MUST be at the same offset for all GC objects. */
-LJ_STATIC_ASSERT(offsetof(GChead, metatable) == offsetof(GCtab, metatable));
-LJ_STATIC_ASSERT(offsetof(GChead, metatable) == offsetof(GCudata, metatable));
-
-/* The gclist field MUST be at the same offset for all GC objects. */
-LJ_STATIC_ASSERT(offsetof(GChead, gclist) == offsetof(lua_State, gclist));
-LJ_STATIC_ASSERT(offsetof(GChead, gclist) == offsetof(GCproto, gclist));
-LJ_STATIC_ASSERT(offsetof(GChead, gclist) == offsetof(GCfuncL, gclist));
-LJ_STATIC_ASSERT(offsetof(GChead, gclist) == offsetof(GCtab, gclist));
-
-typedef union GCobj {
-  GChead gch;
-  GCstr str;
-  GCupval uv;
-  lua_State th;
-  GCproto pt;
-  GCfunc fn;
-  GCcdata cd;
-  GCtab tab;
-  GCudata ud;
-} GCobj;
-
-/* Macros to convert a GCobj pointer into a specific value. */
-#define gco2str(o)	check_exp((o)->gch.gct == ~LJ_TSTR, &(o)->str)
-#define gco2uv(o)	check_exp((o)->gch.gct == ~LJ_TUPVAL, &(o)->uv)
-#define gco2th(o)	check_exp((o)->gch.gct == ~LJ_TTHREAD, &(o)->th)
-#define gco2pt(o)	check_exp((o)->gch.gct == ~LJ_TPROTO, &(o)->pt)
-#define gco2func(o)	check_exp((o)->gch.gct == ~LJ_TFUNC, &(o)->fn)
-#define gco2cd(o)	check_exp((o)->gch.gct == ~LJ_TCDATA, &(o)->cd)
-#define gco2tab(o)	check_exp((o)->gch.gct == ~LJ_TTAB, &(o)->tab)
-#define gco2ud(o)	check_exp((o)->gch.gct == ~LJ_TUDATA, &(o)->ud)
-
-/* Macro to convert any collectable object into a GCobj pointer. */
-#define obj2gco(v)	((GCobj *)(v))
-
-/* -- TValue getters/setters ---------------------------------------------- */
-
-#ifdef LUA_USE_ASSERT
-#include "lj_gc.h"
-#endif
-
-/* Macros to test types. */
-#define itype(o)	((o)->it)
-#define tvisnil(o)	(itype(o) == LJ_TNIL)
-#define tvisfalse(o)	(itype(o) == LJ_TFALSE)
-#define tvistrue(o)	(itype(o) == LJ_TTRUE)
-#define tvisbool(o)	(tvisfalse(o) || tvistrue(o))
-#if LJ_64
-#define tvislightud(o)	(((int32_t)itype(o) >> 15) == -2)
-#else
-#define tvislightud(o)	(itype(o) == LJ_TLIGHTUD)
-#endif
-#define tvisstr(o)	(itype(o) == LJ_TSTR)
-#define tvisfunc(o)	(itype(o) == LJ_TFUNC)
-#define tvisthread(o)	(itype(o) == LJ_TTHREAD)
-#define tvisproto(o)	(itype(o) == LJ_TPROTO)
-#define tviscdata(o)	(itype(o) == LJ_TCDATA)
-#define tvistab(o)	(itype(o) == LJ_TTAB)
-#define tvisudata(o)	(itype(o) == LJ_TUDATA)
-#define tvisnumber(o)	(itype(o) <= LJ_TISNUM)
-#define tvisint(o)	(LJ_DUALNUM && itype(o) == LJ_TISNUM)
-#define tvisnum(o)	(itype(o) < LJ_TISNUM)
-
-#define tvistruecond(o)	(itype(o) < LJ_TISTRUECOND)
-#define tvispri(o)	(itype(o) >= LJ_TISPRI)
-#define tvistabud(o)	(itype(o) <= LJ_TISTABUD)  /* && !tvisnum() */
-#define tvisgcv(o)	((itype(o) - LJ_TISGCV) > (LJ_TNUMX - LJ_TISGCV))
-
-/* Special macros to test numbers for NaN, +0, -0, +1 and raw equality. */
-#define tvisnan(o)	((o)->n != (o)->n)
-#if LJ_64
-#define tviszero(o)	(((o)->u64 << 1) == 0)
-#else
-#define tviszero(o)	(((o)->u32.lo | ((o)->u32.hi << 1)) == 0)
-#endif
-#define tvispzero(o)	((o)->u64 == 0)
-#define tvismzero(o)	((o)->u64 == U64x(80000000,00000000))
-#define tvispone(o)	((o)->u64 == U64x(3ff00000,00000000))
-#define rawnumequal(o1, o2)	((o1)->u64 == (o2)->u64)
-
-/* Macros to convert type ids. */
-#if LJ_64
-#define itypemap(o) \
-  (tvisnumber(o) ? ~LJ_TNUMX : tvislightud(o) ? ~LJ_TLIGHTUD : ~itype(o))
-#else
-#define itypemap(o)	(tvisnumber(o) ? ~LJ_TNUMX : ~itype(o))
-#endif
-
-/* Macros to get tagged values. */
-#define gcval(o)	(gcref((o)->gcr))
-#define boolV(o)	check_exp(tvisbool(o), (LJ_TFALSE - (o)->it))
-#if LJ_64
-#define lightudV(o) \
-  check_exp(tvislightud(o), (void *)((o)->u64 & U64x(00007fff,ffffffff)))
-#else
-#define lightudV(o)	check_exp(tvislightud(o), gcrefp((o)->gcr, void))
-#endif
-#define gcV(o)		check_exp(tvisgcv(o), gcval(o))
-#define strV(o)		check_exp(tvisstr(o), &gcval(o)->str)
-#define funcV(o)	check_exp(tvisfunc(o), &gcval(o)->fn)
-#define threadV(o)	check_exp(tvisthread(o), &gcval(o)->th)
-#define protoV(o)	check_exp(tvisproto(o), &gcval(o)->pt)
-#define cdataV(o)	check_exp(tviscdata(o), &gcval(o)->cd)
-#define tabV(o)		check_exp(tvistab(o), &gcval(o)->tab)
-#define udataV(o)	check_exp(tvisudata(o), &gcval(o)->ud)
-#define numV(o)		check_exp(tvisnum(o), (o)->n)
-#define intV(o)		check_exp(tvisint(o), (int32_t)(o)->i)
-
-/* Macros to set tagged values. */
-#define setitype(o, i)		((o)->it = (i))
-#define setnilV(o)		((o)->it = LJ_TNIL)
-#define setboolV(o, x)		((o)->it = LJ_TFALSE-(uint32_t)(x))
-
-static LJ_AINLINE void setlightudV(TValue *o, void *p)
-{
-#if LJ_64
-  o->u64 = (uint64_t)p | (((uint64_t)0xffff) << 48);
-#else
-  setgcrefp(o->gcr, p); setitype(o, LJ_TLIGHTUD);
-#endif
-}
-
-#if LJ_64
-#define checklightudptr(L, p) \
-  (((uint64_t)(p) >> 47) ? (lj_err_msg(L, LJ_ERR_BADLU), NULL) : (p))
-#define setcont(o, f) \
-  ((o)->u64 = (uint64_t)(void *)(f) - (uint64_t)lj_vm_asm_begin)
-#else
-#define checklightudptr(L, p)	(p)
-#define setcont(o, f)		setlightudV((o), (void *)(f))
-#endif
-
-#define tvchecklive(L, o) \
-  UNUSED(L), lua_assert(!tvisgcv(o) || \
-  ((~itype(o) == gcval(o)->gch.gct) && !isdead(G(L), gcval(o))))
-
-static LJ_AINLINE void setgcV(lua_State *L, TValue *o, GCobj *v, uint32_t itype)
-{
-  setgcref(o->gcr, v); setitype(o, itype); tvchecklive(L, o);
-}
-
-#define define_setV(name, type, tag) \
-static LJ_AINLINE void name(lua_State *L, TValue *o, type *v) \
-{ \
-  setgcV(L, o, obj2gco(v), tag); \
-}
-define_setV(setstrV, GCstr, LJ_TSTR)
-define_setV(setthreadV, lua_State, LJ_TTHREAD)
-define_setV(setprotoV, GCproto, LJ_TPROTO)
-define_setV(setfuncV, GCfunc, LJ_TFUNC)
-define_setV(setcdataV, GCcdata, LJ_TCDATA)
-define_setV(settabV, GCtab, LJ_TTAB)
-define_setV(setudataV, GCudata, LJ_TUDATA)
-
-#define setnumV(o, x)		((o)->n = (x))
-#define setnanV(o)		((o)->u64 = U64x(fff80000,00000000))
-#define setpinfV(o)		((o)->u64 = U64x(7ff00000,00000000))
-#define setminfV(o)		((o)->u64 = U64x(fff00000,00000000))
-
-static LJ_AINLINE void setintV(TValue *o, int32_t i)
-{
-#if LJ_DUALNUM
-  o->i = (uint32_t)i; setitype(o, LJ_TISNUM);
-#else
-  o->n = (lua_Number)i;
-#endif
-}
-
-static LJ_AINLINE void setint64V(TValue *o, int64_t i)
-{
-  if (LJ_DUALNUM && LJ_LIKELY(i == (int64_t)(int32_t)i))
-    setintV(o, (int32_t)i);
-  else
-    setnumV(o, (lua_Number)i);
-}
-
-#if LJ_64
-#define setintptrV(o, i)	setint64V((o), (i))
-#else
-#define setintptrV(o, i)	setintV((o), (i))
-#endif
-
-/* Copy tagged values. */
-static LJ_AINLINE void copyTV(lua_State *L, TValue *o1, const TValue *o2)
-{
-  *o1 = *o2; tvchecklive(L, o1);
-}
-
-/* -- Number to integer conversion ---------------------------------------- */
-
-#if LJ_SOFTFP
-LJ_ASMF int32_t lj_vm_tobit(double x);
-#endif
-
-static LJ_AINLINE int32_t lj_num2bit(lua_Number n)
-{
-#if LJ_SOFTFP
-  return lj_vm_tobit(n);
-#else
-  TValue o;
-  o.n = n + 6755399441055744.0;  /* 2^52 + 2^51 */
-  return (int32_t)o.u32.lo;
-#endif
-}
-
-#if LJ_TARGET_X86 && !defined(__SSE2__)
-#define lj_num2int(n)   lj_num2bit((n))
-#else
-#define lj_num2int(n)   ((int32_t)(n))
-#endif
-
-static LJ_AINLINE uint64_t lj_num2u64(lua_Number n)
-{
-#ifdef _MSC_VER
-  if (n >= 9223372036854775808.0)  /* They think it's a feature. */
-    return (uint64_t)(int64_t)(n - 18446744073709551616.0);
-  else
-#endif
-    return (uint64_t)n;
-}
-
-static LJ_AINLINE int32_t numberVint(cTValue *o)
-{
-  if (LJ_LIKELY(tvisint(o)))
-    return intV(o);
-  else
-    return lj_num2int(numV(o));
-}
-
-static LJ_AINLINE lua_Number numberVnum(cTValue *o)
-{
-  if (LJ_UNLIKELY(tvisint(o)))
-    return (lua_Number)intV(o);
-  else
-    return numV(o);
-}
-
-/* -- Miscellaneous object handling --------------------------------------- */
-
-/* Names and maps for internal and external object tags. */
-LJ_DATA const char *const lj_obj_typename[1+LUA_TCDATA+1];
-LJ_DATA const char *const lj_obj_itypename[~LJ_TNUMX+1];
-
-#define lj_typename(o)	(lj_obj_itypename[itypemap(o)])
-
-/* Compare two objects without calling metamethods. */
-LJ_FUNC int lj_obj_equal(cTValue *o1, cTValue *o2);
-
-#endif
diff --git a/luajit-2.0/src/lj_opt_dce.c b/luajit-2.0/src/lj_opt_dce.c
deleted file mode 100644
index fdfe934..0000000
--- a/luajit-2.0/src/lj_opt_dce.c
+++ /dev/null
@@ -1,78 +0,0 @@
-/*
-** DCE: Dead Code Elimination. Pre-LOOP only -- ASM already performs DCE.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#define lj_opt_dce_c
-#define LUA_CORE
-
-#include "lj_obj.h"
-
-#if LJ_HASJIT
-
-#include "lj_ir.h"
-#include "lj_jit.h"
-#include "lj_iropt.h"
-
-/* Some local macros to save typing. Undef'd at the end. */
-#define IR(ref)		(&J->cur.ir[(ref)])
-
-/* Scan through all snapshots and mark all referenced instructions. */
-static void dce_marksnap(jit_State *J)
-{
-  SnapNo i, nsnap = J->cur.nsnap;
-  for (i = 0; i < nsnap; i++) {
-    SnapShot *snap = &J->cur.snap[i];
-    SnapEntry *map = &J->cur.snapmap[snap->mapofs];
-    MSize n, nent = snap->nent;
-    for (n = 0; n < nent; n++) {
-      IRRef ref = snap_ref(map[n]);
-      if (ref >= REF_FIRST)
-	irt_setmark(IR(ref)->t);
-    }
-  }
-}
-
-/* Backwards propagate marks. Replace unused instructions with NOPs. */
-static void dce_propagate(jit_State *J)
-{
-  IRRef1 *pchain[IR__MAX];
-  IRRef ins;
-  uint32_t i;
-  for (i = 0; i < IR__MAX; i++) pchain[i] = &J->chain[i];
-  for (ins = J->cur.nins-1; ins >= REF_FIRST; ins--) {
-    IRIns *ir = IR(ins);
-    if (irt_ismarked(ir->t)) {
-      irt_clearmark(ir->t);
-      pchain[ir->o] = &ir->prev;
-    } else if (!ir_sideeff(ir)) {
-      *pchain[ir->o] = ir->prev;  /* Reroute original instruction chain. */
-      ir->t.irt = IRT_NIL;
-      ir->o = IR_NOP;  /* Replace instruction with NOP. */
-      ir->op1 = ir->op2 = 0;
-      ir->prev = 0;
-      continue;
-    }
-    if (ir->op1 >= REF_FIRST) irt_setmark(IR(ir->op1)->t);
-    if (ir->op2 >= REF_FIRST) irt_setmark(IR(ir->op2)->t);
-  }
-}
-
-/* Dead Code Elimination.
-**
-** First backpropagate marks for all used instructions. Then replace
-** the unused ones with a NOP. Note that compressing the IR to eliminate
-** the NOPs does not pay off.
-*/
-void lj_opt_dce(jit_State *J)
-{
-  if ((J->flags & JIT_F_OPT_DCE)) {
-    dce_marksnap(J);
-    dce_propagate(J);
-    memset(J->bpropcache, 0, sizeof(J->bpropcache));  /* Invalidate cache. */
-  }
-}
-
-#undef IR
-
-#endif
diff --git a/luajit-2.0/src/lj_opt_fold.c b/luajit-2.0/src/lj_opt_fold.c
deleted file mode 100644
index a15f927..0000000
--- a/luajit-2.0/src/lj_opt_fold.c
+++ /dev/null
@@ -1,2299 +0,0 @@
-/*
-** FOLD: Constant Folding, Algebraic Simplifications and Reassociation.
-** ABCelim: Array Bounds Check Elimination.
-** CSE: Common-Subexpression Elimination.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#define lj_opt_fold_c
-#define LUA_CORE
-
-#include <math.h>
-
-#include "lj_obj.h"
-
-#if LJ_HASJIT
-
-#include "lj_str.h"
-#include "lj_tab.h"
-#include "lj_ir.h"
-#include "lj_jit.h"
-#include "lj_iropt.h"
-#include "lj_trace.h"
-#if LJ_HASFFI
-#include "lj_ctype.h"
-#endif
-#include "lj_carith.h"
-#include "lj_vm.h"
-#include "lj_strscan.h"
-
-/* Here's a short description how the FOLD engine processes instructions:
-**
-** The FOLD engine receives a single instruction stored in fins (J->fold.ins).
-** The instruction and its operands are used to select matching fold rules.
-** These are applied iteratively until a fixed point is reached.
-**
-** The 8 bit opcode of the instruction itself plus the opcodes of the
-** two instructions referenced by its operands form a 24 bit key
-** 'ins left right' (unused operands -> 0, literals -> lowest 8 bits).
-**
-** This key is used for partial matching against the fold rules. The
-** left/right operand fields of the key are successively masked with
-** the 'any' wildcard, from most specific to least specific:
-**
-**   ins left right
-**   ins any  right
-**   ins left any
-**   ins any  any
-**
-** The masked key is used to lookup a matching fold rule in a semi-perfect
-** hash table. If a matching rule is found, the related fold function is run.
-** Multiple rules can share the same fold function. A fold rule may return
-** one of several special values:
-**
-** - NEXTFOLD means no folding was applied, because an additional test
-**   inside the fold function failed. Matching continues against less
-**   specific fold rules. Finally the instruction is passed on to CSE.
-**
-** - RETRYFOLD means the instruction was modified in-place. Folding is
-**   retried as if this instruction had just been received.
-**
-** All other return values are terminal actions -- no further folding is
-** applied:
-**
-** - INTFOLD(i) returns a reference to the integer constant i.
-**
-** - LEFTFOLD and RIGHTFOLD return the left/right operand reference
-**   without emitting an instruction.
-**
-** - CSEFOLD and EMITFOLD pass the instruction directly to CSE or emit
-**   it without passing through any further optimizations.
-**
-** - FAILFOLD, DROPFOLD and CONDFOLD only apply to instructions which have
-**   no result (e.g. guarded assertions): FAILFOLD means the guard would
-**   always fail, i.e. the current trace is pointless. DROPFOLD means
-**   the guard is always true and has been eliminated. CONDFOLD is a
-**   shortcut for FAILFOLD + cond (i.e. drop if true, otherwise fail).
-**
-** - Any other return value is interpreted as an IRRef or TRef. This
-**   can be a reference to an existing or a newly created instruction.
-**   Only the least-significant 16 bits (IRRef1) are used to form a TRef
-**   which is finally returned to the caller.
-**
-** The FOLD engine receives instructions both from the trace recorder and
-** substituted instructions from LOOP unrolling. This means all types
-** of instructions may end up here, even though the recorder bypasses
-** FOLD in some cases. Thus all loads, stores and allocations must have
-** an any/any rule to avoid being passed on to CSE.
-**
-** Carefully read the following requirements before adding or modifying
-** any fold rules:
-**
-** Requirement #1: All fold rules must preserve their destination type.
-**
-** Consistently use INTFOLD() (KINT result) or lj_ir_knum() (KNUM result).
-** Never use lj_ir_knumint() which can have either a KINT or KNUM result.
-**
-** Requirement #2: Fold rules should not create *new* instructions which
-** reference operands *across* PHIs.
-**
-** E.g. a RETRYFOLD with 'fins->op1 = fleft->op1' is invalid if the
-** left operand is a PHI. Then fleft->op1 would point across the PHI
-** frontier to an invariant instruction. Adding a PHI for this instruction
-** would be counterproductive. The solution is to add a barrier which
-** prevents folding across PHIs, i.e. 'PHIBARRIER(fleft)' in this case.
-** The only exception is for recurrences with high latencies like
-** repeated int->num->int conversions.
-**
-** One could relax this condition a bit if the referenced instruction is
-** a PHI, too. But this often leads to worse code due to excessive
-** register shuffling.
-**
-** Note: returning *existing* instructions (e.g. LEFTFOLD) is ok, though.
-** Even returning fleft->op1 would be ok, because a new PHI will added,
-** if needed. But again, this leads to excessive register shuffling and
-** should be avoided.
-**
-** Requirement #3: The set of all fold rules must be monotonic to guarantee
-** termination.
-**
-** The goal is optimization, so one primarily wants to add strength-reducing
-** rules. This means eliminating an instruction or replacing an instruction
-** with one or more simpler instructions. Don't add fold rules which point
-** into the other direction.
-**
-** Some rules (like commutativity) do not directly reduce the strength of
-** an instruction, but enable other fold rules (e.g. by moving constants
-** to the right operand). These rules must be made unidirectional to avoid
-** cycles.
-**
-** Rule of thumb: the trace recorder expands the IR and FOLD shrinks it.
-*/
-
-/* Some local macros to save typing. Undef'd at the end. */
-#define IR(ref)		(&J->cur.ir[(ref)])
-#define fins		(&J->fold.ins)
-#define fleft		(&J->fold.left)
-#define fright		(&J->fold.right)
-#define knumleft	(ir_knum(fleft)->n)
-#define knumright	(ir_knum(fright)->n)
-
-/* Pass IR on to next optimization in chain (FOLD). */
-#define emitir(ot, a, b)	(lj_ir_set(J, (ot), (a), (b)), lj_opt_fold(J))
-
-/* Fold function type. Fastcall on x86 significantly reduces their size. */
-typedef IRRef (LJ_FASTCALL *FoldFunc)(jit_State *J);
-
-/* Macros for the fold specs, so buildvm can recognize them. */
-#define LJFOLD(x)
-#define LJFOLDX(x)
-#define LJFOLDF(name)	static TRef LJ_FASTCALL fold_##name(jit_State *J)
-/* Note: They must be at the start of a line or buildvm ignores them! */
-
-/* Barrier to prevent using operands across PHIs. */
-#define PHIBARRIER(ir)	if (irt_isphi((ir)->t)) return NEXTFOLD
-
-/* Barrier to prevent folding across a GC step.
-** GC steps can only happen at the head of a trace and at LOOP.
-** And the GC is only driven forward if there is at least one allocation.
-*/
-#define gcstep_barrier(J, ref) \
-  ((ref) < J->chain[IR_LOOP] && \
-   (J->chain[IR_SNEW] || J->chain[IR_XSNEW] || \
-    J->chain[IR_TNEW] || J->chain[IR_TDUP] || \
-    J->chain[IR_CNEW] || J->chain[IR_CNEWI] || J->chain[IR_TOSTR]))
-
-/* -- Constant folding for FP numbers ------------------------------------- */
-
-LJFOLD(ADD KNUM KNUM)
-LJFOLD(SUB KNUM KNUM)
-LJFOLD(MUL KNUM KNUM)
-LJFOLD(DIV KNUM KNUM)
-LJFOLD(NEG KNUM KNUM)
-LJFOLD(ABS KNUM KNUM)
-LJFOLD(ATAN2 KNUM KNUM)
-LJFOLD(LDEXP KNUM KNUM)
-LJFOLD(MIN KNUM KNUM)
-LJFOLD(MAX KNUM KNUM)
-LJFOLDF(kfold_numarith)
-{
-  lua_Number a = knumleft;
-  lua_Number b = knumright;
-  lua_Number y = lj_vm_foldarith(a, b, fins->o - IR_ADD);
-  return lj_ir_knum(J, y);
-}
-
-LJFOLD(LDEXP KNUM KINT)
-LJFOLDF(kfold_ldexp)
-{
-#if LJ_TARGET_X86ORX64
-  UNUSED(J);
-  return NEXTFOLD;
-#else
-  return lj_ir_knum(J, ldexp(knumleft, fright->i));
-#endif
-}
-
-LJFOLD(FPMATH KNUM any)
-LJFOLDF(kfold_fpmath)
-{
-  lua_Number a = knumleft;
-  lua_Number y = lj_vm_foldfpm(a, fins->op2);
-  return lj_ir_knum(J, y);
-}
-
-LJFOLD(POW KNUM KINT)
-LJFOLDF(kfold_numpow)
-{
-  lua_Number a = knumleft;
-  lua_Number b = (lua_Number)fright->i;
-  lua_Number y = lj_vm_foldarith(a, b, IR_POW - IR_ADD);
-  return lj_ir_knum(J, y);
-}
-
-/* Must not use kfold_kref for numbers (could be NaN). */
-LJFOLD(EQ KNUM KNUM)
-LJFOLD(NE KNUM KNUM)
-LJFOLD(LT KNUM KNUM)
-LJFOLD(GE KNUM KNUM)
-LJFOLD(LE KNUM KNUM)
-LJFOLD(GT KNUM KNUM)
-LJFOLD(ULT KNUM KNUM)
-LJFOLD(UGE KNUM KNUM)
-LJFOLD(ULE KNUM KNUM)
-LJFOLD(UGT KNUM KNUM)
-LJFOLDF(kfold_numcomp)
-{
-  return CONDFOLD(lj_ir_numcmp(knumleft, knumright, (IROp)fins->o));
-}
-
-/* -- Constant folding for 32 bit integers -------------------------------- */
-
-static int32_t kfold_intop(int32_t k1, int32_t k2, IROp op)
-{
-  switch (op) {
-  case IR_ADD: k1 += k2; break;
-  case IR_SUB: k1 -= k2; break;
-  case IR_MUL: k1 *= k2; break;
-  case IR_MOD: k1 = lj_vm_modi(k1, k2); break;
-  case IR_NEG: k1 = -k1; break;
-  case IR_BAND: k1 &= k2; break;
-  case IR_BOR: k1 |= k2; break;
-  case IR_BXOR: k1 ^= k2; break;
-  case IR_BSHL: k1 <<= (k2 & 31); break;
-  case IR_BSHR: k1 = (int32_t)((uint32_t)k1 >> (k2 & 31)); break;
-  case IR_BSAR: k1 >>= (k2 & 31); break;
-  case IR_BROL: k1 = (int32_t)lj_rol((uint32_t)k1, (k2 & 31)); break;
-  case IR_BROR: k1 = (int32_t)lj_ror((uint32_t)k1, (k2 & 31)); break;
-  case IR_MIN: k1 = k1 < k2 ? k1 : k2; break;
-  case IR_MAX: k1 = k1 > k2 ? k1 : k2; break;
-  default: lua_assert(0); break;
-  }
-  return k1;
-}
-
-LJFOLD(ADD KINT KINT)
-LJFOLD(SUB KINT KINT)
-LJFOLD(MUL KINT KINT)
-LJFOLD(MOD KINT KINT)
-LJFOLD(NEG KINT KINT)
-LJFOLD(BAND KINT KINT)
-LJFOLD(BOR KINT KINT)
-LJFOLD(BXOR KINT KINT)
-LJFOLD(BSHL KINT KINT)
-LJFOLD(BSHR KINT KINT)
-LJFOLD(BSAR KINT KINT)
-LJFOLD(BROL KINT KINT)
-LJFOLD(BROR KINT KINT)
-LJFOLD(MIN KINT KINT)
-LJFOLD(MAX KINT KINT)
-LJFOLDF(kfold_intarith)
-{
-  return INTFOLD(kfold_intop(fleft->i, fright->i, (IROp)fins->o));
-}
-
-LJFOLD(ADDOV KINT KINT)
-LJFOLD(SUBOV KINT KINT)
-LJFOLD(MULOV KINT KINT)
-LJFOLDF(kfold_intovarith)
-{
-  lua_Number n = lj_vm_foldarith((lua_Number)fleft->i, (lua_Number)fright->i,
-				 fins->o - IR_ADDOV);
-  int32_t k = lj_num2int(n);
-  if (n != (lua_Number)k)
-    return FAILFOLD;
-  return INTFOLD(k);
-}
-
-LJFOLD(BNOT KINT)
-LJFOLDF(kfold_bnot)
-{
-  return INTFOLD(~fleft->i);
-}
-
-LJFOLD(BSWAP KINT)
-LJFOLDF(kfold_bswap)
-{
-  return INTFOLD((int32_t)lj_bswap((uint32_t)fleft->i));
-}
-
-LJFOLD(LT KINT KINT)
-LJFOLD(GE KINT KINT)
-LJFOLD(LE KINT KINT)
-LJFOLD(GT KINT KINT)
-LJFOLD(ULT KINT KINT)
-LJFOLD(UGE KINT KINT)
-LJFOLD(ULE KINT KINT)
-LJFOLD(UGT KINT KINT)
-LJFOLD(ABC KINT KINT)
-LJFOLDF(kfold_intcomp)
-{
-  int32_t a = fleft->i, b = fright->i;
-  switch ((IROp)fins->o) {
-  case IR_LT: return CONDFOLD(a < b);
-  case IR_GE: return CONDFOLD(a >= b);
-  case IR_LE: return CONDFOLD(a <= b);
-  case IR_GT: return CONDFOLD(a > b);
-  case IR_ULT: return CONDFOLD((uint32_t)a < (uint32_t)b);
-  case IR_UGE: return CONDFOLD((uint32_t)a >= (uint32_t)b);
-  case IR_ULE: return CONDFOLD((uint32_t)a <= (uint32_t)b);
-  case IR_ABC:
-  case IR_UGT: return CONDFOLD((uint32_t)a > (uint32_t)b);
-  default: lua_assert(0); return FAILFOLD;
-  }
-}
-
-LJFOLD(UGE any KINT)
-LJFOLDF(kfold_intcomp0)
-{
-  if (fright->i == 0)
-    return DROPFOLD;
-  return NEXTFOLD;
-}
-
-/* -- Constant folding for 64 bit integers -------------------------------- */
-
-static uint64_t kfold_int64arith(uint64_t k1, uint64_t k2, IROp op)
-{
-  switch (op) {
-#if LJ_64 || LJ_HASFFI
-  case IR_ADD: k1 += k2; break;
-  case IR_SUB: k1 -= k2; break;
-#endif
-#if LJ_HASFFI
-  case IR_MUL: k1 *= k2; break;
-  case IR_BAND: k1 &= k2; break;
-  case IR_BOR: k1 |= k2; break;
-  case IR_BXOR: k1 ^= k2; break;
-#endif
-  default: UNUSED(k2); lua_assert(0); break;
-  }
-  return k1;
-}
-
-LJFOLD(ADD KINT64 KINT64)
-LJFOLD(SUB KINT64 KINT64)
-LJFOLD(MUL KINT64 KINT64)
-LJFOLD(BAND KINT64 KINT64)
-LJFOLD(BOR KINT64 KINT64)
-LJFOLD(BXOR KINT64 KINT64)
-LJFOLDF(kfold_int64arith)
-{
-  return INT64FOLD(kfold_int64arith(ir_k64(fleft)->u64,
-				    ir_k64(fright)->u64, (IROp)fins->o));
-}
-
-LJFOLD(DIV KINT64 KINT64)
-LJFOLD(MOD KINT64 KINT64)
-LJFOLD(POW KINT64 KINT64)
-LJFOLDF(kfold_int64arith2)
-{
-#if LJ_HASFFI
-  uint64_t k1 = ir_k64(fleft)->u64, k2 = ir_k64(fright)->u64;
-  if (irt_isi64(fins->t)) {
-    k1 = fins->o == IR_DIV ? lj_carith_divi64((int64_t)k1, (int64_t)k2) :
-	 fins->o == IR_MOD ? lj_carith_modi64((int64_t)k1, (int64_t)k2) :
-			     lj_carith_powi64((int64_t)k1, (int64_t)k2);
-  } else {
-    k1 = fins->o == IR_DIV ? lj_carith_divu64(k1, k2) :
-	 fins->o == IR_MOD ? lj_carith_modu64(k1, k2) :
-			     lj_carith_powu64(k1, k2);
-  }
-  return INT64FOLD(k1);
-#else
-  UNUSED(J); lua_assert(0); return FAILFOLD;
-#endif
-}
-
-LJFOLD(BSHL KINT64 KINT)
-LJFOLD(BSHR KINT64 KINT)
-LJFOLD(BSAR KINT64 KINT)
-LJFOLD(BROL KINT64 KINT)
-LJFOLD(BROR KINT64 KINT)
-LJFOLDF(kfold_int64shift)
-{
-#if LJ_HASFFI || LJ_64
-  uint64_t k = ir_k64(fleft)->u64;
-  int32_t sh = (fright->i & 63);
-  switch ((IROp)fins->o) {
-  case IR_BSHL: k <<= sh; break;
-#if LJ_HASFFI
-  case IR_BSHR: k >>= sh; break;
-  case IR_BSAR: k = (uint64_t)((int64_t)k >> sh); break;
-  case IR_BROL: k = lj_rol(k, sh); break;
-  case IR_BROR: k = lj_ror(k, sh); break;
-#endif
-  default: lua_assert(0); break;
-  }
-  return INT64FOLD(k);
-#else
-  UNUSED(J); lua_assert(0); return FAILFOLD;
-#endif
-}
-
-LJFOLD(BNOT KINT64)
-LJFOLDF(kfold_bnot64)
-{
-#if LJ_HASFFI
-  return INT64FOLD(~ir_k64(fleft)->u64);
-#else
-  UNUSED(J); lua_assert(0); return FAILFOLD;
-#endif
-}
-
-LJFOLD(BSWAP KINT64)
-LJFOLDF(kfold_bswap64)
-{
-#if LJ_HASFFI
-  return INT64FOLD(lj_bswap64(ir_k64(fleft)->u64));
-#else
-  UNUSED(J); lua_assert(0); return FAILFOLD;
-#endif
-}
-
-LJFOLD(LT KINT64 KINT64)
-LJFOLD(GE KINT64 KINT64)
-LJFOLD(LE KINT64 KINT64)
-LJFOLD(GT KINT64 KINT64)
-LJFOLD(ULT KINT64 KINT64)
-LJFOLD(UGE KINT64 KINT64)
-LJFOLD(ULE KINT64 KINT64)
-LJFOLD(UGT KINT64 KINT64)
-LJFOLDF(kfold_int64comp)
-{
-#if LJ_HASFFI
-  uint64_t a = ir_k64(fleft)->u64, b = ir_k64(fright)->u64;
-  switch ((IROp)fins->o) {
-  case IR_LT: return CONDFOLD(a < b);
-  case IR_GE: return CONDFOLD(a >= b);
-  case IR_LE: return CONDFOLD(a <= b);
-  case IR_GT: return CONDFOLD(a > b);
-  case IR_ULT: return CONDFOLD((uint64_t)a < (uint64_t)b);
-  case IR_UGE: return CONDFOLD((uint64_t)a >= (uint64_t)b);
-  case IR_ULE: return CONDFOLD((uint64_t)a <= (uint64_t)b);
-  case IR_UGT: return CONDFOLD((uint64_t)a > (uint64_t)b);
-  default: lua_assert(0); return FAILFOLD;
-  }
-#else
-  UNUSED(J); lua_assert(0); return FAILFOLD;
-#endif
-}
-
-LJFOLD(UGE any KINT64)
-LJFOLDF(kfold_int64comp0)
-{
-#if LJ_HASFFI
-  if (ir_k64(fright)->u64 == 0)
-    return DROPFOLD;
-  return NEXTFOLD;
-#else
-  UNUSED(J); lua_assert(0); return FAILFOLD;
-#endif
-}
-
-/* -- Constant folding for strings ---------------------------------------- */
-
-LJFOLD(SNEW KKPTR KINT)
-LJFOLDF(kfold_snew_kptr)
-{
-  GCstr *s = lj_str_new(J->L, (const char *)ir_kptr(fleft), (size_t)fright->i);
-  return lj_ir_kstr(J, s);
-}
-
-LJFOLD(SNEW any KINT)
-LJFOLDF(kfold_snew_empty)
-{
-  if (fright->i == 0)
-    return lj_ir_kstr(J, &J2G(J)->strempty);
-  return NEXTFOLD;
-}
-
-LJFOLD(STRREF KGC KINT)
-LJFOLDF(kfold_strref)
-{
-  GCstr *str = ir_kstr(fleft);
-  lua_assert((MSize)fright->i <= str->len);
-  return lj_ir_kkptr(J, (char *)strdata(str) + fright->i);
-}
-
-LJFOLD(STRREF SNEW any)
-LJFOLDF(kfold_strref_snew)
-{
-  PHIBARRIER(fleft);
-  if (irref_isk(fins->op2) && fright->i == 0) {
-    return fleft->op1;  /* strref(snew(ptr, len), 0) ==> ptr */
-  } else {
-    /* Reassociate: strref(snew(strref(str, a), len), b) ==> strref(str, a+b) */
-    IRIns *ir = IR(fleft->op1);
-    if (ir->o == IR_STRREF) {
-      IRRef1 str = ir->op1;  /* IRIns * is not valid across emitir. */
-      PHIBARRIER(ir);
-      fins->op2 = emitir(IRTI(IR_ADD), ir->op2, fins->op2); /* Clobbers fins! */
-      fins->op1 = str;
-      fins->ot = IRT(IR_STRREF, IRT_P32);
-      return RETRYFOLD;
-    }
-  }
-  return NEXTFOLD;
-}
-
-LJFOLD(CALLN CARG IRCALL_lj_str_cmp)
-LJFOLDF(kfold_strcmp)
-{
-  if (irref_isk(fleft->op1) && irref_isk(fleft->op2)) {
-    GCstr *a = ir_kstr(IR(fleft->op1));
-    GCstr *b = ir_kstr(IR(fleft->op2));
-    return INTFOLD(lj_str_cmp(a, b));
-  }
-  return NEXTFOLD;
-}
-
-/* -- Constant folding of pointer arithmetic ------------------------------ */
-
-LJFOLD(ADD KGC KINT)
-LJFOLD(ADD KGC KINT64)
-LJFOLDF(kfold_add_kgc)
-{
-  GCobj *o = ir_kgc(fleft);
-#if LJ_64
-  ptrdiff_t ofs = (ptrdiff_t)ir_kint64(fright)->u64;
-#else
-  ptrdiff_t ofs = fright->i;
-#endif
-#if LJ_HASFFI
-  if (irt_iscdata(fleft->t)) {
-    CType *ct = ctype_raw(ctype_ctsG(J2G(J)), gco2cd(o)->ctypeid);
-    if (ctype_isnum(ct->info) || ctype_isenum(ct->info) ||
-	ctype_isptr(ct->info) || ctype_isfunc(ct->info) ||
-	ctype_iscomplex(ct->info) || ctype_isvector(ct->info))
-      return lj_ir_kkptr(J, (char *)o + ofs);
-  }
-#endif
-  return lj_ir_kptr(J, (char *)o + ofs);
-}
-
-LJFOLD(ADD KPTR KINT)
-LJFOLD(ADD KPTR KINT64)
-LJFOLD(ADD KKPTR KINT)
-LJFOLD(ADD KKPTR KINT64)
-LJFOLDF(kfold_add_kptr)
-{
-  void *p = ir_kptr(fleft);
-#if LJ_64
-  ptrdiff_t ofs = (ptrdiff_t)ir_kint64(fright)->u64;
-#else
-  ptrdiff_t ofs = fright->i;
-#endif
-  return lj_ir_kptr_(J, fleft->o, (char *)p + ofs);
-}
-
-LJFOLD(ADD any KGC)
-LJFOLD(ADD any KPTR)
-LJFOLD(ADD any KKPTR)
-LJFOLDF(kfold_add_kright)
-{
-  if (fleft->o == IR_KINT || fleft->o == IR_KINT64) {
-    IRRef1 tmp = fins->op1; fins->op1 = fins->op2; fins->op2 = tmp;
-    return RETRYFOLD;
-  }
-  return NEXTFOLD;
-}
-
-/* -- Constant folding of conversions ------------------------------------- */
-
-LJFOLD(TOBIT KNUM KNUM)
-LJFOLDF(kfold_tobit)
-{
-  return INTFOLD(lj_num2bit(knumleft));
-}
-
-LJFOLD(CONV KINT IRCONV_NUM_INT)
-LJFOLDF(kfold_conv_kint_num)
-{
-  return lj_ir_knum(J, (lua_Number)fleft->i);
-}
-
-LJFOLD(CONV KINT IRCONV_NUM_U32)
-LJFOLDF(kfold_conv_kintu32_num)
-{
-  return lj_ir_knum(J, (lua_Number)(uint32_t)fleft->i);
-}
-
-LJFOLD(CONV KINT IRCONV_INT_I8)
-LJFOLD(CONV KINT IRCONV_INT_U8)
-LJFOLD(CONV KINT IRCONV_INT_I16)
-LJFOLD(CONV KINT IRCONV_INT_U16)
-LJFOLDF(kfold_conv_kint_ext)
-{
-  int32_t k = fleft->i;
-  if ((fins->op2 & IRCONV_SRCMASK) == IRT_I8) k = (int8_t)k;
-  else if ((fins->op2 & IRCONV_SRCMASK) == IRT_U8) k = (uint8_t)k;
-  else if ((fins->op2 & IRCONV_SRCMASK) == IRT_I16) k = (int16_t)k;
-  else k = (uint16_t)k;
-  return INTFOLD(k);
-}
-
-LJFOLD(CONV KINT IRCONV_I64_INT)
-LJFOLD(CONV KINT IRCONV_U64_INT)
-LJFOLD(CONV KINT IRCONV_I64_U32)
-LJFOLD(CONV KINT IRCONV_U64_U32)
-LJFOLDF(kfold_conv_kint_i64)
-{
-  if ((fins->op2 & IRCONV_SEXT))
-    return INT64FOLD((uint64_t)(int64_t)fleft->i);
-  else
-    return INT64FOLD((uint64_t)(int64_t)(uint32_t)fleft->i);
-}
-
-LJFOLD(CONV KINT64 IRCONV_NUM_I64)
-LJFOLDF(kfold_conv_kint64_num_i64)
-{
-  return lj_ir_knum(J, (lua_Number)(int64_t)ir_kint64(fleft)->u64);
-}
-
-LJFOLD(CONV KINT64 IRCONV_NUM_U64)
-LJFOLDF(kfold_conv_kint64_num_u64)
-{
-  return lj_ir_knum(J, (lua_Number)ir_kint64(fleft)->u64);
-}
-
-LJFOLD(CONV KINT64 IRCONV_INT_I64)
-LJFOLD(CONV KINT64 IRCONV_U32_I64)
-LJFOLDF(kfold_conv_kint64_int_i64)
-{
-  return INTFOLD((int32_t)ir_kint64(fleft)->u64);
-}
-
-LJFOLD(CONV KNUM IRCONV_INT_NUM)
-LJFOLDF(kfold_conv_knum_int_num)
-{
-  lua_Number n = knumleft;
-  if (!(fins->op2 & IRCONV_TRUNC)) {
-    int32_t k = lj_num2int(n);
-    if (irt_isguard(fins->t) && n != (lua_Number)k) {
-      /* We're about to create a guard which always fails, like CONV +1.5.
-      ** Some pathological loops cause this during LICM, e.g.:
-      **   local x,k,t = 0,1.5,{1,[1.5]=2}
-      **   for i=1,200 do x = x+ t[k]; k = k == 1 and 1.5 or 1 end
-      **   assert(x == 300)
-      */
-      return FAILFOLD;
-    }
-    return INTFOLD(k);
-  } else {
-    return INTFOLD((int32_t)n);
-  }
-}
-
-LJFOLD(CONV KNUM IRCONV_U32_NUM)
-LJFOLDF(kfold_conv_knum_u32_num)
-{
-  lua_assert((fins->op2 & IRCONV_TRUNC));
-#ifdef _MSC_VER
-  {  /* Workaround for MSVC bug. */
-    volatile uint32_t u = (uint32_t)knumleft;
-    return INTFOLD((int32_t)u);
-  }
-#else
-  return INTFOLD((int32_t)(uint32_t)knumleft);
-#endif
-}
-
-LJFOLD(CONV KNUM IRCONV_I64_NUM)
-LJFOLDF(kfold_conv_knum_i64_num)
-{
-  lua_assert((fins->op2 & IRCONV_TRUNC));
-  return INT64FOLD((uint64_t)(int64_t)knumleft);
-}
-
-LJFOLD(CONV KNUM IRCONV_U64_NUM)
-LJFOLDF(kfold_conv_knum_u64_num)
-{
-  lua_assert((fins->op2 & IRCONV_TRUNC));
-  return INT64FOLD(lj_num2u64(knumleft));
-}
-
-LJFOLD(TOSTR KNUM)
-LJFOLDF(kfold_tostr_knum)
-{
-  return lj_ir_kstr(J, lj_str_fromnum(J->L, &knumleft));
-}
-
-LJFOLD(TOSTR KINT)
-LJFOLDF(kfold_tostr_kint)
-{
-  return lj_ir_kstr(J, lj_str_fromint(J->L, fleft->i));
-}
-
-LJFOLD(STRTO KGC)
-LJFOLDF(kfold_strto)
-{
-  TValue n;
-  if (lj_strscan_num(ir_kstr(fleft), &n))
-    return lj_ir_knum(J, numV(&n));
-  return FAILFOLD;
-}
-
-/* -- Constant folding of equality checks --------------------------------- */
-
-/* Don't constant-fold away FLOAD checks against KNULL. */
-LJFOLD(EQ FLOAD KNULL)
-LJFOLD(NE FLOAD KNULL)
-LJFOLDX(lj_opt_cse)
-
-/* But fold all other KNULL compares, since only KNULL is equal to KNULL. */
-LJFOLD(EQ any KNULL)
-LJFOLD(NE any KNULL)
-LJFOLD(EQ KNULL any)
-LJFOLD(NE KNULL any)
-LJFOLD(EQ KINT KINT)  /* Constants are unique, so same refs <==> same value. */
-LJFOLD(NE KINT KINT)
-LJFOLD(EQ KINT64 KINT64)
-LJFOLD(NE KINT64 KINT64)
-LJFOLD(EQ KGC KGC)
-LJFOLD(NE KGC KGC)
-LJFOLDF(kfold_kref)
-{
-  return CONDFOLD((fins->op1 == fins->op2) ^ (fins->o == IR_NE));
-}
-
-/* -- Algebraic shortcuts ------------------------------------------------- */
-
-LJFOLD(FPMATH FPMATH IRFPM_FLOOR)
-LJFOLD(FPMATH FPMATH IRFPM_CEIL)
-LJFOLD(FPMATH FPMATH IRFPM_TRUNC)
-LJFOLDF(shortcut_round)
-{
-  IRFPMathOp op = (IRFPMathOp)fleft->op2;
-  if (op == IRFPM_FLOOR || op == IRFPM_CEIL || op == IRFPM_TRUNC)
-    return LEFTFOLD;  /* round(round_left(x)) = round_left(x) */
-  return NEXTFOLD;
-}
-
-LJFOLD(ABS ABS KNUM)
-LJFOLDF(shortcut_left)
-{
-  return LEFTFOLD;  /* f(g(x)) ==> g(x) */
-}
-
-LJFOLD(ABS NEG KNUM)
-LJFOLDF(shortcut_dropleft)
-{
-  PHIBARRIER(fleft);
-  fins->op1 = fleft->op1;  /* abs(neg(x)) ==> abs(x) */
-  return RETRYFOLD;
-}
-
-/* Note: no safe shortcuts with STRTO and TOSTR ("1e2" ==> +100 ==> "100"). */
-LJFOLD(NEG NEG any)
-LJFOLD(BNOT BNOT)
-LJFOLD(BSWAP BSWAP)
-LJFOLDF(shortcut_leftleft)
-{
-  PHIBARRIER(fleft);  /* See above. Fold would be ok, but not beneficial. */
-  return fleft->op1;  /* f(g(x)) ==> x */
-}
-
-/* -- FP algebraic simplifications ---------------------------------------- */
-
-/* FP arithmetic is tricky -- there's not much to simplify.
-** Please note the following common pitfalls before sending "improvements":
-**   x+0 ==> x  is INVALID for x=-0
-**   0-x ==> -x is INVALID for x=+0
-**   x*0 ==> 0  is INVALID for x=-0, x=+-Inf or x=NaN
-*/
-
-LJFOLD(ADD NEG any)
-LJFOLDF(simplify_numadd_negx)
-{
-  PHIBARRIER(fleft);
-  fins->o = IR_SUB;  /* (-a) + b ==> b - a */
-  fins->op1 = fins->op2;
-  fins->op2 = fleft->op1;
-  return RETRYFOLD;
-}
-
-LJFOLD(ADD any NEG)
-LJFOLDF(simplify_numadd_xneg)
-{
-  PHIBARRIER(fright);
-  fins->o = IR_SUB;  /* a + (-b) ==> a - b */
-  fins->op2 = fright->op1;
-  return RETRYFOLD;
-}
-
-LJFOLD(SUB any KNUM)
-LJFOLDF(simplify_numsub_k)
-{
-  lua_Number n = knumright;
-  if (n == 0.0)  /* x - (+-0) ==> x */
-    return LEFTFOLD;
-  return NEXTFOLD;
-}
-
-LJFOLD(SUB NEG KNUM)
-LJFOLDF(simplify_numsub_negk)
-{
-  PHIBARRIER(fleft);
-  fins->op2 = fleft->op1;  /* (-x) - k ==> (-k) - x */
-  fins->op1 = (IRRef1)lj_ir_knum(J, -knumright);
-  return RETRYFOLD;
-}
-
-LJFOLD(SUB any NEG)
-LJFOLDF(simplify_numsub_xneg)
-{
-  PHIBARRIER(fright);
-  fins->o = IR_ADD;  /* a - (-b) ==> a + b */
-  fins->op2 = fright->op1;
-  return RETRYFOLD;
-}
-
-LJFOLD(MUL any KNUM)
-LJFOLD(DIV any KNUM)
-LJFOLDF(simplify_nummuldiv_k)
-{
-  lua_Number n = knumright;
-  if (n == 1.0) {  /* x o 1 ==> x */
-    return LEFTFOLD;
-  } else if (n == -1.0) {  /* x o -1 ==> -x */
-    fins->o = IR_NEG;
-    fins->op2 = (IRRef1)lj_ir_knum_neg(J);
-    return RETRYFOLD;
-  } else if (fins->o == IR_MUL && n == 2.0) {  /* x * 2 ==> x + x */
-    fins->o = IR_ADD;
-    fins->op2 = fins->op1;
-    return RETRYFOLD;
-  } else if (fins->o == IR_DIV) {  /* x / 2^k ==> x * 2^-k */
-    uint64_t u = ir_knum(fright)->u64;
-    uint32_t ex = ((uint32_t)(u >> 52) & 0x7ff);
-    if ((u & U64x(000fffff,ffffffff)) == 0 && ex - 1 < 0x7fd) {
-      u = (u & ((uint64_t)1 << 63)) | ((uint64_t)(0x7fe - ex) << 52);
-      fins->o = IR_MUL;  /* Multiply by exact reciprocal. */
-      fins->op2 = lj_ir_knum_u64(J, u);
-      return RETRYFOLD;
-    }
-  }
-  return NEXTFOLD;
-}
-
-LJFOLD(MUL NEG KNUM)
-LJFOLD(DIV NEG KNUM)
-LJFOLDF(simplify_nummuldiv_negk)
-{
-  PHIBARRIER(fleft);
-  fins->op1 = fleft->op1;  /* (-a) o k ==> a o (-k) */
-  fins->op2 = (IRRef1)lj_ir_knum(J, -knumright);
-  return RETRYFOLD;
-}
-
-LJFOLD(MUL NEG NEG)
-LJFOLD(DIV NEG NEG)
-LJFOLDF(simplify_nummuldiv_negneg)
-{
-  PHIBARRIER(fleft);
-  PHIBARRIER(fright);
-  fins->op1 = fleft->op1;  /* (-a) o (-b) ==> a o b */
-  fins->op2 = fright->op1;
-  return RETRYFOLD;
-}
-
-LJFOLD(POW any KINT)
-LJFOLDF(simplify_numpow_xk)
-{
-  int32_t k = fright->i;
-  TRef ref = fins->op1;
-  if (k == 0)  /* x ^ 0 ==> 1 */
-    return lj_ir_knum_one(J);  /* Result must be a number, not an int. */
-  if (k == 1)  /* x ^ 1 ==> x */
-    return LEFTFOLD;
-  if ((uint32_t)(k+65536) > 2*65536u)  /* Limit code explosion. */
-    return NEXTFOLD;
-  if (k < 0) {  /* x ^ (-k) ==> (1/x) ^ k. */
-    ref = emitir(IRTN(IR_DIV), lj_ir_knum_one(J), ref);
-    k = -k;
-  }
-  /* Unroll x^k for 1 <= k <= 65536. */
-  for (; (k & 1) == 0; k >>= 1)  /* Handle leading zeros. */
-    ref = emitir(IRTN(IR_MUL), ref, ref);
-  if ((k >>= 1) != 0) {  /* Handle trailing bits. */
-    TRef tmp = emitir(IRTN(IR_MUL), ref, ref);
-    for (; k != 1; k >>= 1) {
-      if (k & 1)
-	ref = emitir(IRTN(IR_MUL), ref, tmp);
-      tmp = emitir(IRTN(IR_MUL), tmp, tmp);
-    }
-    ref = emitir(IRTN(IR_MUL), ref, tmp);
-  }
-  return ref;
-}
-
-LJFOLD(POW KNUM any)
-LJFOLDF(simplify_numpow_kx)
-{
-  lua_Number n = knumleft;
-  if (n == 2.0) {  /* 2.0 ^ i ==> ldexp(1.0, tonum(i)) */
-    fins->o = IR_CONV;
-#if LJ_TARGET_X86ORX64
-    fins->op1 = fins->op2;
-    fins->op2 = IRCONV_NUM_INT;
-    fins->op2 = (IRRef1)lj_opt_fold(J);
-#endif
-    fins->op1 = (IRRef1)lj_ir_knum_one(J);
-    fins->o = IR_LDEXP;
-    return RETRYFOLD;
-  }
-  return NEXTFOLD;
-}
-
-/* -- Simplify conversions ------------------------------------------------ */
-
-LJFOLD(CONV CONV IRCONV_NUM_INT)  /* _NUM */
-LJFOLDF(shortcut_conv_num_int)
-{
-  PHIBARRIER(fleft);
-  /* Only safe with a guarded conversion to int. */
-  if ((fleft->op2 & IRCONV_SRCMASK) == IRT_NUM && irt_isguard(fleft->t))
-    return fleft->op1;  /* f(g(x)) ==> x */
-  return NEXTFOLD;
-}
-
-LJFOLD(CONV CONV IRCONV_INT_NUM)  /* _INT */
-LJFOLD(CONV CONV IRCONV_U32_NUM)  /* _U32*/
-LJFOLDF(simplify_conv_int_num)
-{
-  /* Fold even across PHI to avoid expensive num->int conversions in loop. */
-  if ((fleft->op2 & IRCONV_SRCMASK) ==
-      ((fins->op2 & IRCONV_DSTMASK) >> IRCONV_DSH))
-    return fleft->op1;
-  return NEXTFOLD;
-}
-
-LJFOLD(CONV CONV IRCONV_I64_NUM)  /* _INT or _U32 */
-LJFOLD(CONV CONV IRCONV_U64_NUM)  /* _INT or _U32 */
-LJFOLDF(simplify_conv_i64_num)
-{
-  PHIBARRIER(fleft);
-  if ((fleft->op2 & IRCONV_SRCMASK) == IRT_INT) {
-    /* Reduce to a sign-extension. */
-    fins->op1 = fleft->op1;
-    fins->op2 = ((IRT_I64<<5)|IRT_INT|IRCONV_SEXT);
-    return RETRYFOLD;
-  } else if ((fleft->op2 & IRCONV_SRCMASK) == IRT_U32) {
-#if LJ_TARGET_X64
-    return fleft->op1;
-#else
-    /* Reduce to a zero-extension. */
-    fins->op1 = fleft->op1;
-    fins->op2 = (IRT_I64<<5)|IRT_U32;
-    return RETRYFOLD;
-#endif
-  }
-  return NEXTFOLD;
-}
-
-LJFOLD(CONV CONV IRCONV_INT_I64)  /* _INT or _U32 */
-LJFOLD(CONV CONV IRCONV_INT_U64)  /* _INT or _U32 */
-LJFOLD(CONV CONV IRCONV_U32_I64)  /* _INT or _U32 */
-LJFOLD(CONV CONV IRCONV_U32_U64)  /* _INT or _U32 */
-LJFOLDF(simplify_conv_int_i64)
-{
-  int src;
-  PHIBARRIER(fleft);
-  src = (fleft->op2 & IRCONV_SRCMASK);
-  if (src == IRT_INT || src == IRT_U32) {
-    if (src == ((fins->op2 & IRCONV_DSTMASK) >> IRCONV_DSH)) {
-      return fleft->op1;
-    } else {
-      fins->op2 = ((fins->op2 & IRCONV_DSTMASK) | src);
-      fins->op1 = fleft->op1;
-      return RETRYFOLD;
-    }
-  }
-  return NEXTFOLD;
-}
-
-LJFOLD(CONV CONV IRCONV_FLOAT_NUM)  /* _FLOAT */
-LJFOLDF(simplify_conv_flt_num)
-{
-  PHIBARRIER(fleft);
-  if ((fleft->op2 & IRCONV_SRCMASK) == IRT_FLOAT)
-    return fleft->op1;
-  return NEXTFOLD;
-}
-
-/* Shortcut TOBIT + IRT_NUM <- IRT_INT/IRT_U32 conversion. */
-LJFOLD(TOBIT CONV KNUM)
-LJFOLDF(simplify_tobit_conv)
-{
-  if ((fleft->op2 & IRCONV_SRCMASK) == IRT_INT ||
-      (fleft->op2 & IRCONV_SRCMASK) == IRT_U32) {
-    /* Fold even across PHI to avoid expensive num->int conversions in loop. */
-    lua_assert(irt_isnum(fleft->t));
-    return fleft->op1;
-  }
-  return NEXTFOLD;
-}
-
-/* Shortcut floor/ceil/round + IRT_NUM <- IRT_INT/IRT_U32 conversion. */
-LJFOLD(FPMATH CONV IRFPM_FLOOR)
-LJFOLD(FPMATH CONV IRFPM_CEIL)
-LJFOLD(FPMATH CONV IRFPM_TRUNC)
-LJFOLDF(simplify_floor_conv)
-{
-  if ((fleft->op2 & IRCONV_SRCMASK) == IRT_INT ||
-      (fleft->op2 & IRCONV_SRCMASK) == IRT_U32)
-    return LEFTFOLD;
-  return NEXTFOLD;
-}
-
-/* Strength reduction of widening. */
-LJFOLD(CONV any IRCONV_I64_INT)
-LJFOLD(CONV any IRCONV_U64_INT)
-LJFOLDF(simplify_conv_sext)
-{
-  IRRef ref = fins->op1;
-  int64_t ofs = 0;
-  if (!(fins->op2 & IRCONV_SEXT))
-    return NEXTFOLD;
-  PHIBARRIER(fleft);
-  if (fleft->o == IR_XLOAD && (irt_isu8(fleft->t) || irt_isu16(fleft->t)))
-    goto ok_reduce;
-  if (fleft->o == IR_ADD && irref_isk(fleft->op2)) {
-    ofs = (int64_t)IR(fleft->op2)->i;
-    ref = fleft->op1;
-  }
-  /* Use scalar evolution analysis results to strength-reduce sign-extension. */
-  if (ref == J->scev.idx) {
-    IRRef lo = J->scev.dir ? J->scev.start : J->scev.stop;
-    lua_assert(irt_isint(J->scev.t));
-    if (lo && IR(lo)->i + ofs >= 0) {
-    ok_reduce:
-#if LJ_TARGET_X64
-      /* Eliminate widening. All 32 bit ops do an implicit zero-extension. */
-      return LEFTFOLD;
-#else
-      /* Reduce to a (cheaper) zero-extension. */
-      fins->op2 &= ~IRCONV_SEXT;
-      return RETRYFOLD;
-#endif
-    }
-  }
-  return NEXTFOLD;
-}
-
-/* Strength reduction of narrowing. */
-LJFOLD(CONV ADD IRCONV_INT_I64)
-LJFOLD(CONV SUB IRCONV_INT_I64)
-LJFOLD(CONV MUL IRCONV_INT_I64)
-LJFOLD(CONV ADD IRCONV_INT_U64)
-LJFOLD(CONV SUB IRCONV_INT_U64)
-LJFOLD(CONV MUL IRCONV_INT_U64)
-LJFOLD(CONV ADD IRCONV_U32_I64)
-LJFOLD(CONV SUB IRCONV_U32_I64)
-LJFOLD(CONV MUL IRCONV_U32_I64)
-LJFOLD(CONV ADD IRCONV_U32_U64)
-LJFOLD(CONV SUB IRCONV_U32_U64)
-LJFOLD(CONV MUL IRCONV_U32_U64)
-LJFOLDF(simplify_conv_narrow)
-{
-  IROp op = (IROp)fleft->o;
-  IRType t = irt_type(fins->t);
-  IRRef op1 = fleft->op1, op2 = fleft->op2, mode = fins->op2;
-  PHIBARRIER(fleft);
-  op1 = emitir(IRTI(IR_CONV), op1, mode);
-  op2 = emitir(IRTI(IR_CONV), op2, mode);
-  fins->ot = IRT(op, t);
-  fins->op1 = op1;
-  fins->op2 = op2;
-  return RETRYFOLD;
-}
-
-/* Special CSE rule for CONV. */
-LJFOLD(CONV any any)
-LJFOLDF(cse_conv)
-{
-  if (LJ_LIKELY(J->flags & JIT_F_OPT_CSE)) {
-    IRRef op1 = fins->op1, op2 = (fins->op2 & IRCONV_MODEMASK);
-    uint8_t guard = irt_isguard(fins->t);
-    IRRef ref = J->chain[IR_CONV];
-    while (ref > op1) {
-      IRIns *ir = IR(ref);
-      /* Commoning with stronger checks is ok. */
-      if (ir->op1 == op1 && (ir->op2 & IRCONV_MODEMASK) == op2 &&
-	  irt_isguard(ir->t) >= guard)
-	return ref;
-      ref = ir->prev;
-    }
-  }
-  return EMITFOLD;  /* No fallthrough to regular CSE. */
-}
-
-/* FP conversion narrowing. */
-LJFOLD(TOBIT ADD KNUM)
-LJFOLD(TOBIT SUB KNUM)
-LJFOLD(CONV ADD IRCONV_INT_NUM)
-LJFOLD(CONV SUB IRCONV_INT_NUM)
-LJFOLD(CONV ADD IRCONV_I64_NUM)
-LJFOLD(CONV SUB IRCONV_I64_NUM)
-LJFOLDF(narrow_convert)
-{
-  PHIBARRIER(fleft);
-  /* Narrowing ignores PHIs and repeating it inside the loop is not useful. */
-  if (J->chain[IR_LOOP])
-    return NEXTFOLD;
-  lua_assert(fins->o != IR_CONV || (fins->op2&IRCONV_CONVMASK) != IRCONV_TOBIT);
-  return lj_opt_narrow_convert(J);
-}
-
-/* -- Integer algebraic simplifications ----------------------------------- */
-
-LJFOLD(ADD any KINT)
-LJFOLD(ADDOV any KINT)
-LJFOLD(SUBOV any KINT)
-LJFOLDF(simplify_intadd_k)
-{
-  if (fright->i == 0)  /* i o 0 ==> i */
-    return LEFTFOLD;
-  return NEXTFOLD;
-}
-
-LJFOLD(MULOV any KINT)
-LJFOLDF(simplify_intmul_k)
-{
-  if (fright->i == 0)  /* i * 0 ==> 0 */
-    return RIGHTFOLD;
-  if (fright->i == 1)  /* i * 1 ==> i */
-    return LEFTFOLD;
-  if (fright->i == 2) {  /* i * 2 ==> i + i */
-    fins->o = IR_ADDOV;
-    fins->op2 = fins->op1;
-    return RETRYFOLD;
-  }
-  return NEXTFOLD;
-}
-
-LJFOLD(SUB any KINT)
-LJFOLDF(simplify_intsub_k)
-{
-  if (fright->i == 0)  /* i - 0 ==> i */
-    return LEFTFOLD;
-  fins->o = IR_ADD;  /* i - k ==> i + (-k) */
-  fins->op2 = (IRRef1)lj_ir_kint(J, -fright->i);  /* Overflow for -2^31 ok. */
-  return RETRYFOLD;
-}
-
-LJFOLD(SUB KINT any)
-LJFOLD(SUB KINT64 any)
-LJFOLDF(simplify_intsub_kleft)
-{
-  if (fleft->o == IR_KINT ? (fleft->i == 0) : (ir_kint64(fleft)->u64 == 0)) {
-    fins->o = IR_NEG;  /* 0 - i ==> -i */
-    fins->op1 = fins->op2;
-    return RETRYFOLD;
-  }
-  return NEXTFOLD;
-}
-
-LJFOLD(ADD any KINT64)
-LJFOLDF(simplify_intadd_k64)
-{
-  if (ir_kint64(fright)->u64 == 0)  /* i + 0 ==> i */
-    return LEFTFOLD;
-  return NEXTFOLD;
-}
-
-LJFOLD(SUB any KINT64)
-LJFOLDF(simplify_intsub_k64)
-{
-  uint64_t k = ir_kint64(fright)->u64;
-  if (k == 0)  /* i - 0 ==> i */
-    return LEFTFOLD;
-  fins->o = IR_ADD;  /* i - k ==> i + (-k) */
-  fins->op2 = (IRRef1)lj_ir_kint64(J, (uint64_t)-(int64_t)k);
-  return RETRYFOLD;
-}
-
-static TRef simplify_intmul_k(jit_State *J, int32_t k)
-{
-  /* Note: many more simplifications are possible, e.g. 2^k1 +- 2^k2.
-  ** But this is mainly intended for simple address arithmetic.
-  ** Also it's easier for the backend to optimize the original multiplies.
-  */
-  if (k == 1) {  /* i * 1 ==> i */
-    return LEFTFOLD;
-  } else if ((k & (k-1)) == 0) {  /* i * 2^k ==> i << k */
-    fins->o = IR_BSHL;
-    fins->op2 = lj_ir_kint(J, lj_fls((uint32_t)k));
-    return RETRYFOLD;
-  }
-  return NEXTFOLD;
-}
-
-LJFOLD(MUL any KINT)
-LJFOLDF(simplify_intmul_k32)
-{
-  if (fright->i == 0)  /* i * 0 ==> 0 */
-    return INTFOLD(0);
-  else if (fright->i > 0)
-    return simplify_intmul_k(J, fright->i);
-  return NEXTFOLD;
-}
-
-LJFOLD(MUL any KINT64)
-LJFOLDF(simplify_intmul_k64)
-{
-  if (ir_kint64(fright)->u64 == 0)  /* i * 0 ==> 0 */
-    return INT64FOLD(0);
-#if LJ_64
-  /* NYI: SPLIT for BSHL and 32 bit backend support. */
-  else if (ir_kint64(fright)->u64 < 0x80000000u)
-    return simplify_intmul_k(J, (int32_t)ir_kint64(fright)->u64);
-#endif
-  return NEXTFOLD;
-}
-
-LJFOLD(MOD any KINT)
-LJFOLDF(simplify_intmod_k)
-{
-  int32_t k = fright->i;
-  lua_assert(k != 0);
-  if (k > 0 && (k & (k-1)) == 0) {  /* i % (2^k) ==> i & (2^k-1) */
-    fins->o = IR_BAND;
-    fins->op2 = lj_ir_kint(J, k-1);
-    return RETRYFOLD;
-  }
-  return NEXTFOLD;
-}
-
-LJFOLD(MOD KINT any)
-LJFOLDF(simplify_intmod_kleft)
-{
-  if (fleft->i == 0)
-    return INTFOLD(0);
-  return NEXTFOLD;
-}
-
-LJFOLD(SUB any any)
-LJFOLD(SUBOV any any)
-LJFOLDF(simplify_intsub)
-{
-  if (fins->op1 == fins->op2 && !irt_isnum(fins->t))  /* i - i ==> 0 */
-    return irt_is64(fins->t) ? INT64FOLD(0) : INTFOLD(0);
-  return NEXTFOLD;
-}
-
-LJFOLD(SUB ADD any)
-LJFOLDF(simplify_intsubadd_leftcancel)
-{
-  if (!irt_isnum(fins->t)) {
-    PHIBARRIER(fleft);
-    if (fins->op2 == fleft->op1)  /* (i + j) - i ==> j */
-      return fleft->op2;
-    if (fins->op2 == fleft->op2)  /* (i + j) - j ==> i */
-      return fleft->op1;
-  }
-  return NEXTFOLD;
-}
-
-LJFOLD(SUB SUB any)
-LJFOLDF(simplify_intsubsub_leftcancel)
-{
-  if (!irt_isnum(fins->t)) {
-    PHIBARRIER(fleft);
-    if (fins->op2 == fleft->op1) {  /* (i - j) - i ==> 0 - j */
-      fins->op1 = (IRRef1)lj_ir_kint(J, 0);
-      fins->op2 = fleft->op2;
-      return RETRYFOLD;
-    }
-  }
-  return NEXTFOLD;
-}
-
-LJFOLD(SUB any SUB)
-LJFOLDF(simplify_intsubsub_rightcancel)
-{
-  if (!irt_isnum(fins->t)) {
-    PHIBARRIER(fright);
-    if (fins->op1 == fright->op1)  /* i - (i - j) ==> j */
-      return fright->op2;
-  }
-  return NEXTFOLD;
-}
-
-LJFOLD(SUB any ADD)
-LJFOLDF(simplify_intsubadd_rightcancel)
-{
-  if (!irt_isnum(fins->t)) {
-    PHIBARRIER(fright);
-    if (fins->op1 == fright->op1) {  /* i - (i + j) ==> 0 - j */
-      fins->op2 = fright->op2;
-      fins->op1 = (IRRef1)lj_ir_kint(J, 0);
-      return RETRYFOLD;
-    }
-    if (fins->op1 == fright->op2) {  /* i - (j + i) ==> 0 - j */
-      fins->op2 = fright->op1;
-      fins->op1 = (IRRef1)lj_ir_kint(J, 0);
-      return RETRYFOLD;
-    }
-  }
-  return NEXTFOLD;
-}
-
-LJFOLD(SUB ADD ADD)
-LJFOLDF(simplify_intsubaddadd_cancel)
-{
-  if (!irt_isnum(fins->t)) {
-    PHIBARRIER(fleft);
-    PHIBARRIER(fright);
-    if (fleft->op1 == fright->op1) {  /* (i + j1) - (i + j2) ==> j1 - j2 */
-      fins->op1 = fleft->op2;
-      fins->op2 = fright->op2;
-      return RETRYFOLD;
-    }
-    if (fleft->op1 == fright->op2) {  /* (i + j1) - (j2 + i) ==> j1 - j2 */
-      fins->op1 = fleft->op2;
-      fins->op2 = fright->op1;
-      return RETRYFOLD;
-    }
-    if (fleft->op2 == fright->op1) {  /* (j1 + i) - (i + j2) ==> j1 - j2 */
-      fins->op1 = fleft->op1;
-      fins->op2 = fright->op2;
-      return RETRYFOLD;
-    }
-    if (fleft->op2 == fright->op2) {  /* (j1 + i) - (j2 + i) ==> j1 - j2 */
-      fins->op1 = fleft->op1;
-      fins->op2 = fright->op1;
-      return RETRYFOLD;
-    }
-  }
-  return NEXTFOLD;
-}
-
-LJFOLD(BAND any KINT)
-LJFOLD(BAND any KINT64)
-LJFOLDF(simplify_band_k)
-{
-  int64_t k = fright->o == IR_KINT ? (int64_t)fright->i :
-				     (int64_t)ir_k64(fright)->u64;
-  if (k == 0)  /* i & 0 ==> 0 */
-    return RIGHTFOLD;
-  if (k == -1)  /* i & -1 ==> i */
-    return LEFTFOLD;
-  return NEXTFOLD;
-}
-
-LJFOLD(BOR any KINT)
-LJFOLD(BOR any KINT64)
-LJFOLDF(simplify_bor_k)
-{
-  int64_t k = fright->o == IR_KINT ? (int64_t)fright->i :
-				     (int64_t)ir_k64(fright)->u64;
-  if (k == 0)  /* i | 0 ==> i */
-    return LEFTFOLD;
-  if (k == -1)  /* i | -1 ==> -1 */
-    return RIGHTFOLD;
-  return NEXTFOLD;
-}
-
-LJFOLD(BXOR any KINT)
-LJFOLD(BXOR any KINT64)
-LJFOLDF(simplify_bxor_k)
-{
-  int64_t k = fright->o == IR_KINT ? (int64_t)fright->i :
-				     (int64_t)ir_k64(fright)->u64;
-  if (k == 0)  /* i xor 0 ==> i */
-    return LEFTFOLD;
-  if (k == -1) {  /* i xor -1 ==> ~i */
-    fins->o = IR_BNOT;
-    fins->op2 = 0;
-    return RETRYFOLD;
-  }
-  return NEXTFOLD;
-}
-
-LJFOLD(BSHL any KINT)
-LJFOLD(BSHR any KINT)
-LJFOLD(BSAR any KINT)
-LJFOLD(BROL any KINT)
-LJFOLD(BROR any KINT)
-LJFOLDF(simplify_shift_ik)
-{
-  int32_t mask = irt_is64(fins->t) ? 63 : 31;
-  int32_t k = (fright->i & mask);
-  if (k == 0)  /* i o 0 ==> i */
-    return LEFTFOLD;
-  if (k == 1 && fins->o == IR_BSHL) {  /* i << 1 ==> i + i */
-    fins->o = IR_ADD;
-    fins->op2 = fins->op1;
-    return RETRYFOLD;
-  }
-  if (k != fright->i) {  /* i o k ==> i o (k & mask) */
-    fins->op2 = (IRRef1)lj_ir_kint(J, k);
-    return RETRYFOLD;
-  }
-#ifndef LJ_TARGET_UNIFYROT
-  if (fins->o == IR_BROR) {  /* bror(i, k) ==> brol(i, (-k)&mask) */
-    fins->o = IR_BROL;
-    fins->op2 = (IRRef1)lj_ir_kint(J, (-k)&mask);
-    return RETRYFOLD;
-  }
-#endif
-  return NEXTFOLD;
-}
-
-LJFOLD(BSHL any BAND)
-LJFOLD(BSHR any BAND)
-LJFOLD(BSAR any BAND)
-LJFOLD(BROL any BAND)
-LJFOLD(BROR any BAND)
-LJFOLDF(simplify_shift_andk)
-{
-  IRIns *irk = IR(fright->op2);
-  PHIBARRIER(fright);
-  if ((fins->o < IR_BROL ? LJ_TARGET_MASKSHIFT : LJ_TARGET_MASKROT) &&
-      irk->o == IR_KINT) {  /* i o (j & mask) ==> i o j */
-    int32_t mask = irt_is64(fins->t) ? 63 : 31;
-    int32_t k = irk->i & mask;
-    if (k == mask) {
-      fins->op2 = fright->op1;
-      return RETRYFOLD;
-    }
-  }
-  return NEXTFOLD;
-}
-
-LJFOLD(BSHL KINT any)
-LJFOLD(BSHR KINT any)
-LJFOLD(BSHL KINT64 any)
-LJFOLD(BSHR KINT64 any)
-LJFOLDF(simplify_shift1_ki)
-{
-  int64_t k = fleft->o == IR_KINT ? (int64_t)fleft->i :
-				    (int64_t)ir_k64(fleft)->u64;
-  if (k == 0)  /* 0 o i ==> 0 */
-    return LEFTFOLD;
-  return NEXTFOLD;
-}
-
-LJFOLD(BSAR KINT any)
-LJFOLD(BROL KINT any)
-LJFOLD(BROR KINT any)
-LJFOLD(BSAR KINT64 any)
-LJFOLD(BROL KINT64 any)
-LJFOLD(BROR KINT64 any)
-LJFOLDF(simplify_shift2_ki)
-{
-  int64_t k = fleft->o == IR_KINT ? (int64_t)fleft->i :
-				    (int64_t)ir_k64(fleft)->u64;
-  if (k == 0 || k == -1)  /* 0 o i ==> 0; -1 o i ==> -1 */
-    return LEFTFOLD;
-  return NEXTFOLD;
-}
-
-LJFOLD(BSHL BAND KINT)
-LJFOLD(BSHR BAND KINT)
-LJFOLD(BROL BAND KINT)
-LJFOLD(BROR BAND KINT)
-LJFOLDF(simplify_shiftk_andk)
-{
-  IRIns *irk = IR(fleft->op2);
-  PHIBARRIER(fleft);
-  if (irk->o == IR_KINT) {  /* (i & k1) o k2 ==> (i o k2) & (k1 o k2) */
-    int32_t k = kfold_intop(irk->i, fright->i, (IROp)fins->o);
-    fins->op1 = fleft->op1;
-    fins->op1 = (IRRef1)lj_opt_fold(J);
-    fins->op2 = (IRRef1)lj_ir_kint(J, k);
-    fins->ot = IRTI(IR_BAND);
-    return RETRYFOLD;
-  }
-  return NEXTFOLD;
-}
-
-LJFOLD(BAND BSHL KINT)
-LJFOLD(BAND BSHR KINT)
-LJFOLDF(simplify_andk_shiftk)
-{
-  IRIns *irk = IR(fleft->op2);
-  if (irk->o == IR_KINT &&
-      kfold_intop(-1, irk->i, (IROp)fleft->o) == fright->i)
-    return LEFTFOLD;  /* (i o k1) & k2 ==> i, if (-1 o k1) == k2 */
-  return NEXTFOLD;
-}
-
-/* -- Reassociation ------------------------------------------------------- */
-
-LJFOLD(ADD ADD KINT)
-LJFOLD(MUL MUL KINT)
-LJFOLD(BAND BAND KINT)
-LJFOLD(BOR BOR KINT)
-LJFOLD(BXOR BXOR KINT)
-LJFOLDF(reassoc_intarith_k)
-{
-  IRIns *irk = IR(fleft->op2);
-  if (irk->o == IR_KINT) {
-    int32_t k = kfold_intop(irk->i, fright->i, (IROp)fins->o);
-    if (k == irk->i)  /* (i o k1) o k2 ==> i o k1, if (k1 o k2) == k1. */
-      return LEFTFOLD;
-    PHIBARRIER(fleft);
-    fins->op1 = fleft->op1;
-    fins->op2 = (IRRef1)lj_ir_kint(J, k);
-    return RETRYFOLD;  /* (i o k1) o k2 ==> i o (k1 o k2) */
-  }
-  return NEXTFOLD;
-}
-
-LJFOLD(ADD ADD KINT64)
-LJFOLD(MUL MUL KINT64)
-LJFOLD(BAND BAND KINT64)
-LJFOLD(BOR BOR KINT64)
-LJFOLD(BXOR BXOR KINT64)
-LJFOLDF(reassoc_intarith_k64)
-{
-#if LJ_HASFFI || LJ_64
-  IRIns *irk = IR(fleft->op2);
-  if (irk->o == IR_KINT64) {
-    uint64_t k = kfold_int64arith(ir_k64(irk)->u64,
-				  ir_k64(fright)->u64, (IROp)fins->o);
-    PHIBARRIER(fleft);
-    fins->op1 = fleft->op1;
-    fins->op2 = (IRRef1)lj_ir_kint64(J, k);
-    return RETRYFOLD;  /* (i o k1) o k2 ==> i o (k1 o k2) */
-  }
-  return NEXTFOLD;
-#else
-  UNUSED(J); lua_assert(0); return FAILFOLD;
-#endif
-}
-
-LJFOLD(MIN MIN any)
-LJFOLD(MAX MAX any)
-LJFOLD(BAND BAND any)
-LJFOLD(BOR BOR any)
-LJFOLDF(reassoc_dup)
-{
-  if (fins->op2 == fleft->op1 || fins->op2 == fleft->op2)
-    return LEFTFOLD;  /* (a o b) o a ==> a o b; (a o b) o b ==> a o b */
-  return NEXTFOLD;
-}
-
-LJFOLD(BXOR BXOR any)
-LJFOLDF(reassoc_bxor)
-{
-  PHIBARRIER(fleft);
-  if (fins->op2 == fleft->op1)  /* (a xor b) xor a ==> b */
-    return fleft->op2;
-  if (fins->op2 == fleft->op2)  /* (a xor b) xor b ==> a */
-    return fleft->op1;
-  return NEXTFOLD;
-}
-
-LJFOLD(BSHL BSHL KINT)
-LJFOLD(BSHR BSHR KINT)
-LJFOLD(BSAR BSAR KINT)
-LJFOLD(BROL BROL KINT)
-LJFOLD(BROR BROR KINT)
-LJFOLDF(reassoc_shift)
-{
-  IRIns *irk = IR(fleft->op2);
-  PHIBARRIER(fleft);  /* The (shift any KINT) rule covers k2 == 0 and more. */
-  if (irk->o == IR_KINT) {  /* (i o k1) o k2 ==> i o (k1 + k2) */
-    int32_t mask = irt_is64(fins->t) ? 63 : 31;
-    int32_t k = (irk->i & mask) + (fright->i & mask);
-    if (k > mask) {  /* Combined shift too wide? */
-      if (fins->o == IR_BSHL || fins->o == IR_BSHR)
-	return mask == 31 ? INTFOLD(0) : INT64FOLD(0);
-      else if (fins->o == IR_BSAR)
-	k = mask;
-      else
-	k &= mask;
-    }
-    fins->op1 = fleft->op1;
-    fins->op2 = (IRRef1)lj_ir_kint(J, k);
-    return RETRYFOLD;
-  }
-  return NEXTFOLD;
-}
-
-LJFOLD(MIN MIN KNUM)
-LJFOLD(MAX MAX KNUM)
-LJFOLD(MIN MIN KINT)
-LJFOLD(MAX MAX KINT)
-LJFOLDF(reassoc_minmax_k)
-{
-  IRIns *irk = IR(fleft->op2);
-  if (irk->o == IR_KNUM) {
-    lua_Number a = ir_knum(irk)->n;
-    lua_Number y = lj_vm_foldarith(a, knumright, fins->o - IR_ADD);
-    if (a == y)  /* (x o k1) o k2 ==> x o k1, if (k1 o k2) == k1. */
-      return LEFTFOLD;
-    PHIBARRIER(fleft);
-    fins->op1 = fleft->op1;
-    fins->op2 = (IRRef1)lj_ir_knum(J, y);
-    return RETRYFOLD;  /* (x o k1) o k2 ==> x o (k1 o k2) */
-  } else if (irk->o == IR_KINT) {
-    int32_t a = irk->i;
-    int32_t y = kfold_intop(a, fright->i, fins->o);
-    if (a == y)  /* (x o k1) o k2 ==> x o k1, if (k1 o k2) == k1. */
-      return LEFTFOLD;
-    PHIBARRIER(fleft);
-    fins->op1 = fleft->op1;
-    fins->op2 = (IRRef1)lj_ir_kint(J, y);
-    return RETRYFOLD;  /* (x o k1) o k2 ==> x o (k1 o k2) */
-  }
-  return NEXTFOLD;
-}
-
-LJFOLD(MIN MAX any)
-LJFOLD(MAX MIN any)
-LJFOLDF(reassoc_minmax_left)
-{
-  if (fins->op2 == fleft->op1 || fins->op2 == fleft->op2)
-    return RIGHTFOLD;  /* (b o1 a) o2 b ==> b; (a o1 b) o2 b ==> b */
-  return NEXTFOLD;
-}
-
-LJFOLD(MIN any MAX)
-LJFOLD(MAX any MIN)
-LJFOLDF(reassoc_minmax_right)
-{
-  if (fins->op1 == fright->op1 || fins->op1 == fright->op2)
-    return LEFTFOLD;  /* a o2 (a o1 b) ==> a; a o2 (b o1 a) ==> a */
-  return NEXTFOLD;
-}
-
-/* -- Array bounds check elimination -------------------------------------- */
-
-/* Eliminate ABC across PHIs to handle t[i-1] forwarding case.
-** ABC(asize, (i+k)+(-k)) ==> ABC(asize, i), but only if it already exists.
-** Could be generalized to (i+k1)+k2 ==> i+(k1+k2), but needs better disambig.
-*/
-LJFOLD(ABC any ADD)
-LJFOLDF(abc_fwd)
-{
-  if (LJ_LIKELY(J->flags & JIT_F_OPT_ABC)) {
-    if (irref_isk(fright->op2)) {
-      IRIns *add2 = IR(fright->op1);
-      if (add2->o == IR_ADD && irref_isk(add2->op2) &&
-	  IR(fright->op2)->i == -IR(add2->op2)->i) {
-	IRRef ref = J->chain[IR_ABC];
-	IRRef lim = add2->op1;
-	if (fins->op1 > lim) lim = fins->op1;
-	while (ref > lim) {
-	  IRIns *ir = IR(ref);
-	  if (ir->op1 == fins->op1 && ir->op2 == add2->op1)
-	    return DROPFOLD;
-	  ref = ir->prev;
-	}
-      }
-    }
-  }
-  return NEXTFOLD;
-}
-
-/* Eliminate ABC for constants.
-** ABC(asize, k1), ABC(asize k2) ==> ABC(asize, max(k1, k2))
-** Drop second ABC if k2 is lower. Otherwise patch first ABC with k2.
-*/
-LJFOLD(ABC any KINT)
-LJFOLDF(abc_k)
-{
-  if (LJ_LIKELY(J->flags & JIT_F_OPT_ABC)) {
-    IRRef ref = J->chain[IR_ABC];
-    IRRef asize = fins->op1;
-    while (ref > asize) {
-      IRIns *ir = IR(ref);
-      if (ir->op1 == asize && irref_isk(ir->op2)) {
-	int32_t k = IR(ir->op2)->i;
-	if (fright->i > k)
-	  ir->op2 = fins->op2;
-	return DROPFOLD;
-      }
-      ref = ir->prev;
-    }
-    return EMITFOLD;  /* Already performed CSE. */
-  }
-  return NEXTFOLD;
-}
-
-/* Eliminate invariant ABC inside loop. */
-LJFOLD(ABC any any)
-LJFOLDF(abc_invar)
-{
-  /* Invariant ABC marked as PTR. Drop if op1 is invariant, too. */
-  if (!irt_isint(fins->t) && fins->op1 < J->chain[IR_LOOP] &&
-      !irt_isphi(IR(fins->op1)->t))
-    return DROPFOLD;
-  return NEXTFOLD;
-}
-
-/* -- Commutativity ------------------------------------------------------- */
-
-/* The refs of commutative ops are canonicalized. Lower refs go to the right.
-** Rationale behind this:
-** - It (also) moves constants to the right.
-** - It reduces the number of FOLD rules (e.g. (BOR any KINT) suffices).
-** - It helps CSE to find more matches.
-** - The assembler generates better code with constants at the right.
-*/
-
-LJFOLD(ADD any any)
-LJFOLD(MUL any any)
-LJFOLD(ADDOV any any)
-LJFOLD(MULOV any any)
-LJFOLDF(comm_swap)
-{
-  if (fins->op1 < fins->op2) {  /* Move lower ref to the right. */
-    IRRef1 tmp = fins->op1;
-    fins->op1 = fins->op2;
-    fins->op2 = tmp;
-    return RETRYFOLD;
-  }
-  return NEXTFOLD;
-}
-
-LJFOLD(EQ any any)
-LJFOLD(NE any any)
-LJFOLDF(comm_equal)
-{
-  /* For non-numbers only: x == x ==> drop; x ~= x ==> fail */
-  if (fins->op1 == fins->op2 && !irt_isnum(fins->t))
-    return CONDFOLD(fins->o == IR_EQ);
-  return fold_comm_swap(J);
-}
-
-LJFOLD(LT any any)
-LJFOLD(GE any any)
-LJFOLD(LE any any)
-LJFOLD(GT any any)
-LJFOLD(ULT any any)
-LJFOLD(UGE any any)
-LJFOLD(ULE any any)
-LJFOLD(UGT any any)
-LJFOLDF(comm_comp)
-{
-  /* For non-numbers only: x <=> x ==> drop; x <> x ==> fail */
-  if (fins->op1 == fins->op2 && !irt_isnum(fins->t))
-    return CONDFOLD((fins->o ^ (fins->o >> 1)) & 1);
-  if (fins->op1 < fins->op2) {  /* Move lower ref to the right. */
-    IRRef1 tmp = fins->op1;
-    fins->op1 = fins->op2;
-    fins->op2 = tmp;
-    fins->o ^= 3; /* GT <-> LT, GE <-> LE, does not affect U */
-    return RETRYFOLD;
-  }
-  return NEXTFOLD;
-}
-
-LJFOLD(BAND any any)
-LJFOLD(BOR any any)
-LJFOLD(MIN any any)
-LJFOLD(MAX any any)
-LJFOLDF(comm_dup)
-{
-  if (fins->op1 == fins->op2)  /* x o x ==> x */
-    return LEFTFOLD;
-  return fold_comm_swap(J);
-}
-
-LJFOLD(BXOR any any)
-LJFOLDF(comm_bxor)
-{
-  if (fins->op1 == fins->op2)  /* i xor i ==> 0 */
-    return irt_is64(fins->t) ? INT64FOLD(0) : INTFOLD(0);
-  return fold_comm_swap(J);
-}
-
-/* -- Simplification of compound expressions ------------------------------ */
-
-static TRef kfold_xload(jit_State *J, IRIns *ir, const void *p)
-{
-  int32_t k;
-  switch (irt_type(ir->t)) {
-  case IRT_NUM: return lj_ir_knum_u64(J, *(uint64_t *)p);
-  case IRT_I8: k = (int32_t)*(int8_t *)p; break;
-  case IRT_U8: k = (int32_t)*(uint8_t *)p; break;
-  case IRT_I16: k = (int32_t)(int16_t)lj_getu16(p); break;
-  case IRT_U16: k = (int32_t)(uint16_t)lj_getu16(p); break;
-  case IRT_INT: case IRT_U32: k = (int32_t)lj_getu32(p); break;
-  case IRT_I64: case IRT_U64: return lj_ir_kint64(J, *(uint64_t *)p);
-  default: return 0;
-  }
-  return lj_ir_kint(J, k);
-}
-
-/* Turn: string.sub(str, a, b) == kstr
-** into: string.byte(str, a) == string.byte(kstr, 1) etc.
-** Note: this creates unaligned XLOADs on x86/x64.
-*/
-LJFOLD(EQ SNEW KGC)
-LJFOLD(NE SNEW KGC)
-LJFOLDF(merge_eqne_snew_kgc)
-{
-  GCstr *kstr = ir_kstr(fright);
-  int32_t len = (int32_t)kstr->len;
-  lua_assert(irt_isstr(fins->t));
-
-#if LJ_TARGET_UNALIGNED
-#define FOLD_SNEW_MAX_LEN	4  /* Handle string lengths 0, 1, 2, 3, 4. */
-#define FOLD_SNEW_TYPE8		IRT_I8	/* Creates shorter immediates. */
-#else
-#define FOLD_SNEW_MAX_LEN	1  /* Handle string lengths 0 or 1. */
-#define FOLD_SNEW_TYPE8		IRT_U8  /* Prefer unsigned loads. */
-#endif
-
-  PHIBARRIER(fleft);
-  if (len <= FOLD_SNEW_MAX_LEN) {
-    IROp op = (IROp)fins->o;
-    IRRef strref = fleft->op1;
-    if (IR(strref)->o != IR_STRREF)
-      return NEXTFOLD;
-    if (op == IR_EQ) {
-      emitir(IRTGI(IR_EQ), fleft->op2, lj_ir_kint(J, len));
-      /* Caveat: fins/fleft/fright is no longer valid after emitir. */
-    } else {
-      /* NE is not expanded since this would need an OR of two conds. */
-      if (!irref_isk(fleft->op2))  /* Only handle the constant length case. */
-	return NEXTFOLD;
-      if (IR(fleft->op2)->i != len)
-	return DROPFOLD;
-    }
-    if (len > 0) {
-      /* A 4 byte load for length 3 is ok -- all strings have an extra NUL. */
-      uint16_t ot = (uint16_t)(len == 1 ? IRT(IR_XLOAD, FOLD_SNEW_TYPE8) :
-			       len == 2 ? IRT(IR_XLOAD, IRT_U16) :
-			       IRTI(IR_XLOAD));
-      TRef tmp = emitir(ot, strref,
-			IRXLOAD_READONLY | (len > 1 ? IRXLOAD_UNALIGNED : 0));
-      TRef val = kfold_xload(J, IR(tref_ref(tmp)), strdata(kstr));
-      if (len == 3)
-	tmp = emitir(IRTI(IR_BAND), tmp,
-		     lj_ir_kint(J, LJ_ENDIAN_SELECT(0x00ffffff, 0xffffff00)));
-      fins->op1 = (IRRef1)tmp;
-      fins->op2 = (IRRef1)val;
-      fins->ot = (IROpT)IRTGI(op);
-      return RETRYFOLD;
-    } else {
-      return DROPFOLD;
-    }
-  }
-  return NEXTFOLD;
-}
-
-/* -- Loads --------------------------------------------------------------- */
-
-/* Loads cannot be folded or passed on to CSE in general.
-** Alias analysis is needed to check for forwarding opportunities.
-**
-** Caveat: *all* loads must be listed here or they end up at CSE!
-*/
-
-LJFOLD(ALOAD any)
-LJFOLDX(lj_opt_fwd_aload)
-
-/* From HREF fwd (see below). Must eliminate, not supported by fwd/backend. */
-LJFOLD(HLOAD KKPTR)
-LJFOLDF(kfold_hload_kkptr)
-{
-  UNUSED(J);
-  lua_assert(ir_kptr(fleft) == niltvg(J2G(J)));
-  return TREF_NIL;
-}
-
-LJFOLD(HLOAD any)
-LJFOLDX(lj_opt_fwd_hload)
-
-LJFOLD(ULOAD any)
-LJFOLDX(lj_opt_fwd_uload)
-
-LJFOLD(CALLL any IRCALL_lj_tab_len)
-LJFOLDX(lj_opt_fwd_tab_len)
-
-/* Upvalue refs are really loads, but there are no corresponding stores.
-** So CSE is ok for them, except for UREFO across a GC step (see below).
-** If the referenced function is const, its upvalue addresses are const, too.
-** This can be used to improve CSE by looking for the same address,
-** even if the upvalues originate from a different function.
-*/
-LJFOLD(UREFO KGC any)
-LJFOLD(UREFC KGC any)
-LJFOLDF(cse_uref)
-{
-  if (LJ_LIKELY(J->flags & JIT_F_OPT_CSE)) {
-    IRRef ref = J->chain[fins->o];
-    GCfunc *fn = ir_kfunc(fleft);
-    GCupval *uv = gco2uv(gcref(fn->l.uvptr[(fins->op2 >> 8)]));
-    while (ref > 0) {
-      IRIns *ir = IR(ref);
-      if (irref_isk(ir->op1)) {
-	GCfunc *fn2 = ir_kfunc(IR(ir->op1));
-	if (gco2uv(gcref(fn2->l.uvptr[(ir->op2 >> 8)])) == uv) {
-	  if (fins->o == IR_UREFO && gcstep_barrier(J, ref))
-	    break;
-	  return ref;
-	}
-      }
-      ref = ir->prev;
-    }
-  }
-  return EMITFOLD;
-}
-
-LJFOLD(HREFK any any)
-LJFOLDX(lj_opt_fwd_hrefk)
-
-LJFOLD(HREF TNEW any)
-LJFOLDF(fwd_href_tnew)
-{
-  if (lj_opt_fwd_href_nokey(J))
-    return lj_ir_kkptr(J, niltvg(J2G(J)));
-  return NEXTFOLD;
-}
-
-LJFOLD(HREF TDUP KPRI)
-LJFOLD(HREF TDUP KGC)
-LJFOLD(HREF TDUP KNUM)
-LJFOLDF(fwd_href_tdup)
-{
-  TValue keyv;
-  lj_ir_kvalue(J->L, &keyv, fright);
-  if (lj_tab_get(J->L, ir_ktab(IR(fleft->op1)), &keyv) == niltvg(J2G(J)) &&
-      lj_opt_fwd_href_nokey(J))
-    return lj_ir_kkptr(J, niltvg(J2G(J)));
-  return NEXTFOLD;
-}
-
-/* We can safely FOLD/CSE array/hash refs and field loads, since there
-** are no corresponding stores. But we need to check for any NEWREF with
-** an aliased table, as it may invalidate all of the pointers and fields.
-** Only HREF needs the NEWREF check -- AREF and HREFK already depend on
-** FLOADs. And NEWREF itself is treated like a store (see below).
-*/
-LJFOLD(FLOAD TNEW IRFL_TAB_ASIZE)
-LJFOLDF(fload_tab_tnew_asize)
-{
-  if (LJ_LIKELY(J->flags & JIT_F_OPT_FOLD) && lj_opt_fwd_tptr(J, fins->op1))
-    return INTFOLD(fleft->op1);
-  return NEXTFOLD;
-}
-
-LJFOLD(FLOAD TNEW IRFL_TAB_HMASK)
-LJFOLDF(fload_tab_tnew_hmask)
-{
-  if (LJ_LIKELY(J->flags & JIT_F_OPT_FOLD) && lj_opt_fwd_tptr(J, fins->op1))
-    return INTFOLD((1 << fleft->op2)-1);
-  return NEXTFOLD;
-}
-
-LJFOLD(FLOAD TDUP IRFL_TAB_ASIZE)
-LJFOLDF(fload_tab_tdup_asize)
-{
-  if (LJ_LIKELY(J->flags & JIT_F_OPT_FOLD) && lj_opt_fwd_tptr(J, fins->op1))
-    return INTFOLD((int32_t)ir_ktab(IR(fleft->op1))->asize);
-  return NEXTFOLD;
-}
-
-LJFOLD(FLOAD TDUP IRFL_TAB_HMASK)
-LJFOLDF(fload_tab_tdup_hmask)
-{
-  if (LJ_LIKELY(J->flags & JIT_F_OPT_FOLD) && lj_opt_fwd_tptr(J, fins->op1))
-    return INTFOLD((int32_t)ir_ktab(IR(fleft->op1))->hmask);
-  return NEXTFOLD;
-}
-
-LJFOLD(HREF any any)
-LJFOLD(FLOAD any IRFL_TAB_ARRAY)
-LJFOLD(FLOAD any IRFL_TAB_NODE)
-LJFOLD(FLOAD any IRFL_TAB_ASIZE)
-LJFOLD(FLOAD any IRFL_TAB_HMASK)
-LJFOLDF(fload_tab_ah)
-{
-  TRef tr = lj_opt_cse(J);
-  return lj_opt_fwd_tptr(J, tref_ref(tr)) ? tr : EMITFOLD;
-}
-
-/* Strings are immutable, so we can safely FOLD/CSE the related FLOAD. */
-LJFOLD(FLOAD KGC IRFL_STR_LEN)
-LJFOLDF(fload_str_len_kgc)
-{
-  if (LJ_LIKELY(J->flags & JIT_F_OPT_FOLD))
-    return INTFOLD((int32_t)ir_kstr(fleft)->len);
-  return NEXTFOLD;
-}
-
-LJFOLD(FLOAD SNEW IRFL_STR_LEN)
-LJFOLDF(fload_str_len_snew)
-{
-  if (LJ_LIKELY(J->flags & JIT_F_OPT_FOLD)) {
-    PHIBARRIER(fleft);
-    return fleft->op2;
-  }
-  return NEXTFOLD;
-}
-
-/* The C type ID of cdata objects is immutable. */
-LJFOLD(FLOAD KGC IRFL_CDATA_CTYPEID)
-LJFOLDF(fload_cdata_typeid_kgc)
-{
-  if (LJ_LIKELY(J->flags & JIT_F_OPT_FOLD))
-    return INTFOLD((int32_t)ir_kcdata(fleft)->ctypeid);
-  return NEXTFOLD;
-}
-
-/* Get the contents of immutable cdata objects. */
-LJFOLD(FLOAD KGC IRFL_CDATA_PTR)
-LJFOLD(FLOAD KGC IRFL_CDATA_INT)
-LJFOLD(FLOAD KGC IRFL_CDATA_INT64)
-LJFOLDF(fload_cdata_int64_kgc)
-{
-  if (LJ_LIKELY(J->flags & JIT_F_OPT_FOLD)) {
-    void *p = cdataptr(ir_kcdata(fleft));
-    if (irt_is64(fins->t))
-      return INT64FOLD(*(uint64_t *)p);
-    else
-      return INTFOLD(*(int32_t *)p);
-  }
-  return NEXTFOLD;
-}
-
-LJFOLD(FLOAD CNEW IRFL_CDATA_CTYPEID)
-LJFOLD(FLOAD CNEWI IRFL_CDATA_CTYPEID)
-LJFOLDF(fload_cdata_typeid_cnew)
-{
-  if (LJ_LIKELY(J->flags & JIT_F_OPT_FOLD))
-    return fleft->op1;  /* No PHI barrier needed. CNEW/CNEWI op1 is const. */
-  return NEXTFOLD;
-}
-
-/* Pointer, int and int64 cdata objects are immutable. */
-LJFOLD(FLOAD CNEWI IRFL_CDATA_PTR)
-LJFOLD(FLOAD CNEWI IRFL_CDATA_INT)
-LJFOLD(FLOAD CNEWI IRFL_CDATA_INT64)
-LJFOLDF(fload_cdata_ptr_int64_cnew)
-{
-  if (LJ_LIKELY(J->flags & JIT_F_OPT_FOLD))
-    return fleft->op2;  /* Fold even across PHI to avoid allocations. */
-  return NEXTFOLD;
-}
-
-LJFOLD(FLOAD any IRFL_STR_LEN)
-LJFOLD(FLOAD any IRFL_CDATA_CTYPEID)
-LJFOLD(FLOAD any IRFL_CDATA_PTR)
-LJFOLD(FLOAD any IRFL_CDATA_INT)
-LJFOLD(FLOAD any IRFL_CDATA_INT64)
-LJFOLD(VLOAD any any)  /* Vararg loads have no corresponding stores. */
-LJFOLDX(lj_opt_cse)
-
-/* All other field loads need alias analysis. */
-LJFOLD(FLOAD any any)
-LJFOLDX(lj_opt_fwd_fload)
-
-/* This is for LOOP only. Recording handles SLOADs internally. */
-LJFOLD(SLOAD any any)
-LJFOLDF(fwd_sload)
-{
-  if ((fins->op2 & IRSLOAD_FRAME)) {
-    TRef tr = lj_opt_cse(J);
-    return tref_ref(tr) < J->chain[IR_RETF] ? EMITFOLD : tr;
-  } else {
-    lua_assert(J->slot[fins->op1] != 0);
-    return J->slot[fins->op1];
-  }
-}
-
-/* Only fold for KKPTR. The pointer _and_ the contents must be const. */
-LJFOLD(XLOAD KKPTR any)
-LJFOLDF(xload_kptr)
-{
-  TRef tr = kfold_xload(J, fins, ir_kptr(fleft));
-  return tr ? tr : NEXTFOLD;
-}
-
-LJFOLD(XLOAD any any)
-LJFOLDX(lj_opt_fwd_xload)
-
-/* -- Write barriers ------------------------------------------------------ */
-
-/* Write barriers are amenable to CSE, but not across any incremental
-** GC steps.
-**
-** The same logic applies to open upvalue references, because a stack
-** may be resized during a GC step (not the current stack, but maybe that
-** of a coroutine).
-*/
-LJFOLD(TBAR any)
-LJFOLD(OBAR any any)
-LJFOLD(UREFO any any)
-LJFOLDF(barrier_tab)
-{
-  TRef tr = lj_opt_cse(J);
-  if (gcstep_barrier(J, tref_ref(tr)))  /* CSE across GC step? */
-    return EMITFOLD;  /* Raw emit. Assumes fins is left intact by CSE. */
-  return tr;
-}
-
-LJFOLD(TBAR TNEW)
-LJFOLD(TBAR TDUP)
-LJFOLDF(barrier_tnew_tdup)
-{
-  /* New tables are always white and never need a barrier. */
-  if (fins->op1 < J->chain[IR_LOOP])  /* Except across a GC step. */
-    return NEXTFOLD;
-  return DROPFOLD;
-}
-
-/* -- Stores and allocations ---------------------------------------------- */
-
-/* Stores and allocations cannot be folded or passed on to CSE in general.
-** But some stores can be eliminated with dead-store elimination (DSE).
-**
-** Caveat: *all* stores and allocs must be listed here or they end up at CSE!
-*/
-
-LJFOLD(ASTORE any any)
-LJFOLD(HSTORE any any)
-LJFOLDX(lj_opt_dse_ahstore)
-
-LJFOLD(USTORE any any)
-LJFOLDX(lj_opt_dse_ustore)
-
-LJFOLD(FSTORE any any)
-LJFOLDX(lj_opt_dse_fstore)
-
-LJFOLD(XSTORE any any)
-LJFOLDX(lj_opt_dse_xstore)
-
-LJFOLD(NEWREF any any)  /* Treated like a store. */
-LJFOLD(CALLS any any)
-LJFOLD(CALLL any any)  /* Safeguard fallback. */
-LJFOLD(CALLXS any any)
-LJFOLD(XBAR)
-LJFOLD(RETF any any)  /* Modifies BASE. */
-LJFOLD(TNEW any any)
-LJFOLD(TDUP any)
-LJFOLD(CNEW any any)
-LJFOLD(XSNEW any any)
-LJFOLDX(lj_ir_emit)
-
-/* ------------------------------------------------------------------------ */
-
-/* Every entry in the generated hash table is a 32 bit pattern:
-**
-** xxxxxxxx iiiiiii lllllll rrrrrrrrrr
-**
-**   xxxxxxxx = 8 bit index into fold function table
-**    iiiiiii = 7 bit folded instruction opcode
-**    lllllll = 7 bit left instruction opcode
-** rrrrrrrrrr = 8 bit right instruction opcode or 10 bits from literal field
-*/
-
-#include "lj_folddef.h"
-
-/* ------------------------------------------------------------------------ */
-
-/* Fold IR instruction. */
-TRef LJ_FASTCALL lj_opt_fold(jit_State *J)
-{
-  uint32_t key, any;
-  IRRef ref;
-
-  if (LJ_UNLIKELY((J->flags & JIT_F_OPT_MASK) != JIT_F_OPT_DEFAULT)) {
-    lua_assert(((JIT_F_OPT_FOLD|JIT_F_OPT_FWD|JIT_F_OPT_CSE|JIT_F_OPT_DSE) |
-		JIT_F_OPT_DEFAULT) == JIT_F_OPT_DEFAULT);
-    /* Folding disabled? Chain to CSE, but not for loads/stores/allocs. */
-    if (!(J->flags & JIT_F_OPT_FOLD) && irm_kind(lj_ir_mode[fins->o]) == IRM_N)
-      return lj_opt_cse(J);
-
-    /* No FOLD, forwarding or CSE? Emit raw IR for loads, except for SLOAD. */
-    if ((J->flags & (JIT_F_OPT_FOLD|JIT_F_OPT_FWD|JIT_F_OPT_CSE)) !=
-		    (JIT_F_OPT_FOLD|JIT_F_OPT_FWD|JIT_F_OPT_CSE) &&
-	irm_kind(lj_ir_mode[fins->o]) == IRM_L && fins->o != IR_SLOAD)
-      return lj_ir_emit(J);
-
-    /* No FOLD or DSE? Emit raw IR for stores. */
-    if ((J->flags & (JIT_F_OPT_FOLD|JIT_F_OPT_DSE)) !=
-		    (JIT_F_OPT_FOLD|JIT_F_OPT_DSE) &&
-	irm_kind(lj_ir_mode[fins->o]) == IRM_S)
-      return lj_ir_emit(J);
-  }
-
-  /* Fold engine start/retry point. */
-retry:
-  /* Construct key from opcode and operand opcodes (unless literal/none). */
-  key = ((uint32_t)fins->o << 17);
-  if (fins->op1 >= J->cur.nk) {
-    key += (uint32_t)IR(fins->op1)->o << 10;
-    *fleft = *IR(fins->op1);
-  }
-  if (fins->op2 >= J->cur.nk) {
-    key += (uint32_t)IR(fins->op2)->o;
-    *fright = *IR(fins->op2);
-  } else {
-    key += (fins->op2 & 0x3ffu);  /* Literal mask. Must include IRCONV_*MASK. */
-  }
-
-  /* Check for a match in order from most specific to least specific. */
-  any = 0;
-  for (;;) {
-    uint32_t k = key | (any & 0x1ffff);
-    uint32_t h = fold_hashkey(k);
-    uint32_t fh = fold_hash[h];  /* Lookup key in semi-perfect hash table. */
-    if ((fh & 0xffffff) == k || (fh = fold_hash[h+1], (fh & 0xffffff) == k)) {
-      ref = (IRRef)tref_ref(fold_func[fh >> 24](J));
-      if (ref != NEXTFOLD)
-	break;
-    }
-    if (any == 0xfffff)  /* Exhausted folding. Pass on to CSE. */
-      return lj_opt_cse(J);
-    any = (any | (any >> 10)) ^ 0xffc00;
-  }
-
-  /* Return value processing, ordered by frequency. */
-  if (LJ_LIKELY(ref >= MAX_FOLD))
-    return TREF(ref, irt_t(IR(ref)->t));
-  if (ref == RETRYFOLD)
-    goto retry;
-  if (ref == KINTFOLD)
-    return lj_ir_kint(J, fins->i);
-  if (ref == FAILFOLD)
-    lj_trace_err(J, LJ_TRERR_GFAIL);
-  lua_assert(ref == DROPFOLD);
-  return REF_DROP;
-}
-
-/* -- Common-Subexpression Elimination ------------------------------------ */
-
-/* CSE an IR instruction. This is very fast due to the skip-list chains. */
-TRef LJ_FASTCALL lj_opt_cse(jit_State *J)
-{
-  /* Avoid narrow to wide store-to-load forwarding stall */
-  IRRef2 op12 = (IRRef2)fins->op1 + ((IRRef2)fins->op2 << 16);
-  IROp op = fins->o;
-  if (LJ_LIKELY(J->flags & JIT_F_OPT_CSE)) {
-    /* Limited search for same operands in per-opcode chain. */
-    IRRef ref = J->chain[op];
-    IRRef lim = fins->op1;
-    if (fins->op2 > lim) lim = fins->op2;  /* Relies on lit < REF_BIAS. */
-    while (ref > lim) {
-      if (IR(ref)->op12 == op12)
-	return TREF(ref, irt_t(IR(ref)->t));  /* Common subexpression found. */
-      ref = IR(ref)->prev;
-    }
-  }
-  /* Otherwise emit IR (inlined for speed). */
-  {
-    IRRef ref = lj_ir_nextins(J);
-    IRIns *ir = IR(ref);
-    ir->prev = J->chain[op];
-    ir->op12 = op12;
-    J->chain[op] = (IRRef1)ref;
-    ir->o = fins->o;
-    J->guardemit.irt |= fins->t.irt;
-    return TREF(ref, irt_t((ir->t = fins->t)));
-  }
-}
-
-/* CSE with explicit search limit. */
-TRef LJ_FASTCALL lj_opt_cselim(jit_State *J, IRRef lim)
-{
-  IRRef ref = J->chain[fins->o];
-  IRRef2 op12 = (IRRef2)fins->op1 + ((IRRef2)fins->op2 << 16);
-  while (ref > lim) {
-    if (IR(ref)->op12 == op12)
-      return ref;
-    ref = IR(ref)->prev;
-  }
-  return lj_ir_emit(J);
-}
-
-/* ------------------------------------------------------------------------ */
-
-#undef IR
-#undef fins
-#undef fleft
-#undef fright
-#undef knumleft
-#undef knumright
-#undef emitir
-
-#endif
diff --git a/luajit-2.0/src/lj_opt_loop.c b/luajit-2.0/src/lj_opt_loop.c
deleted file mode 100644
index fa00115..0000000
--- a/luajit-2.0/src/lj_opt_loop.c
+++ /dev/null
@@ -1,436 +0,0 @@
-/*
-** LOOP: Loop Optimizations.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#define lj_opt_loop_c
-#define LUA_CORE
-
-#include "lj_obj.h"
-
-#if LJ_HASJIT
-
-#include "lj_err.h"
-#include "lj_str.h"
-#include "lj_ir.h"
-#include "lj_jit.h"
-#include "lj_iropt.h"
-#include "lj_trace.h"
-#include "lj_snap.h"
-#include "lj_vm.h"
-
-/* Loop optimization:
-**
-** Traditional Loop-Invariant Code Motion (LICM) splits the instructions
-** of a loop into invariant and variant instructions. The invariant
-** instructions are hoisted out of the loop and only the variant
-** instructions remain inside the loop body.
-**
-** Unfortunately LICM is mostly useless for compiling dynamic languages.
-** The IR has many guards and most of the subsequent instructions are
-** control-dependent on them. The first non-hoistable guard would
-** effectively prevent hoisting of all subsequent instructions.
-**
-** That's why we use a special form of unrolling using copy-substitution,
-** combined with redundancy elimination:
-**
-** The recorded instruction stream is re-emitted to the compiler pipeline
-** with substituted operands. The substitution table is filled with the
-** refs returned by re-emitting each instruction. This can be done
-** on-the-fly, because the IR is in strict SSA form, where every ref is
-** defined before its use.
-**
-** This aproach generates two code sections, separated by the LOOP
-** instruction:
-**
-** 1. The recorded instructions form a kind of pre-roll for the loop. It
-** contains a mix of invariant and variant instructions and performs
-** exactly one loop iteration (but not necessarily the 1st iteration).
-**
-** 2. The loop body contains only the variant instructions and performs
-** all remaining loop iterations.
-**
-** On first sight that looks like a waste of space, because the variant
-** instructions are present twice. But the key insight is that the
-** pre-roll honors the control-dependencies for *both* the pre-roll itself
-** *and* the loop body!
-**
-** It also means one doesn't have to explicitly model control-dependencies
-** (which, BTW, wouldn't help LICM much). And it's much easier to
-** integrate sparse snapshotting with this approach.
-**
-** One of the nicest aspects of this approach is that all of the
-** optimizations of the compiler pipeline (FOLD, CSE, FWD, etc.) can be
-** reused with only minor restrictions (e.g. one should not fold
-** instructions across loop-carried dependencies).
-**
-** But in general all optimizations can be applied which only need to look
-** backwards into the generated instruction stream. At any point in time
-** during the copy-substitution process this contains both a static loop
-** iteration (the pre-roll) and a dynamic one (from the to-be-copied
-** instruction up to the end of the partial loop body).
-**
-** Since control-dependencies are implicitly kept, CSE also applies to all
-** kinds of guards. The major advantage is that all invariant guards can
-** be hoisted, too.
-**
-** Load/store forwarding works across loop iterations, too. This is
-** important if loop-carried dependencies are kept in upvalues or tables.
-** E.g. 'self.idx = self.idx + 1' deep down in some OO-style method may
-** become a forwarded loop-recurrence after inlining.
-**
-** Since the IR is in SSA form, loop-carried dependencies have to be
-** modeled with PHI instructions. The potential candidates for PHIs are
-** collected on-the-fly during copy-substitution. After eliminating the
-** redundant ones, PHI instructions are emitted *below* the loop body.
-**
-** Note that this departure from traditional SSA form doesn't change the
-** semantics of the PHI instructions themselves. But it greatly simplifies
-** on-the-fly generation of the IR and the machine code.
-*/
-
-/* Some local macros to save typing. Undef'd at the end. */
-#define IR(ref)		(&J->cur.ir[(ref)])
-
-/* Pass IR on to next optimization in chain (FOLD). */
-#define emitir(ot, a, b)	(lj_ir_set(J, (ot), (a), (b)), lj_opt_fold(J))
-
-/* Emit raw IR without passing through optimizations. */
-#define emitir_raw(ot, a, b)	(lj_ir_set(J, (ot), (a), (b)), lj_ir_emit(J))
-
-/* -- PHI elimination ----------------------------------------------------- */
-
-/* Emit or eliminate collected PHIs. */
-static void loop_emit_phi(jit_State *J, IRRef1 *subst, IRRef1 *phi, IRRef nphi,
-			  SnapNo onsnap)
-{
-  int passx = 0;
-  IRRef i, j, nslots;
-  IRRef invar = J->chain[IR_LOOP];
-  /* Pass #1: mark redundant and potentially redundant PHIs. */
-  for (i = 0, j = 0; i < nphi; i++) {
-    IRRef lref = phi[i];
-    IRRef rref = subst[lref];
-    if (lref == rref || rref == REF_DROP) {  /* Invariants are redundant. */
-      irt_clearphi(IR(lref)->t);
-    } else {
-      phi[j++] = (IRRef1)lref;
-      if (!(IR(rref)->op1 == lref || IR(rref)->op2 == lref)) {
-	/* Quick check for simple recurrences failed, need pass2. */
-	irt_setmark(IR(lref)->t);
-	passx = 1;
-      }
-    }
-  }
-  nphi = j;
-  /* Pass #2: traverse variant part and clear marks of non-redundant PHIs. */
-  if (passx) {
-    SnapNo s;
-    for (i = J->cur.nins-1; i > invar; i--) {
-      IRIns *ir = IR(i);
-      if (!irref_isk(ir->op2)) irt_clearmark(IR(ir->op2)->t);
-      if (!irref_isk(ir->op1)) {
-	irt_clearmark(IR(ir->op1)->t);
-	if (ir->op1 < invar &&
-	    ir->o >= IR_CALLN && ir->o <= IR_CARG) {  /* ORDER IR */
-	  ir = IR(ir->op1);
-	  while (ir->o == IR_CARG) {
-	    if (!irref_isk(ir->op2)) irt_clearmark(IR(ir->op2)->t);
-	    if (irref_isk(ir->op1)) break;
-	    ir = IR(ir->op1);
-	    irt_clearmark(ir->t);
-	  }
-	}
-      }
-    }
-    for (s = J->cur.nsnap-1; s >= onsnap; s--) {
-      SnapShot *snap = &J->cur.snap[s];
-      SnapEntry *map = &J->cur.snapmap[snap->mapofs];
-      MSize n, nent = snap->nent;
-      for (n = 0; n < nent; n++) {
-	IRRef ref = snap_ref(map[n]);
-	if (!irref_isk(ref)) irt_clearmark(IR(ref)->t);
-      }
-    }
-  }
-  /* Pass #3: add PHIs for variant slots without a corresponding SLOAD. */
-  nslots = J->baseslot+J->maxslot;
-  for (i = 1; i < nslots; i++) {
-    IRRef ref = tref_ref(J->slot[i]);
-    while (!irref_isk(ref) && ref != subst[ref]) {
-      IRIns *ir = IR(ref);
-      irt_clearmark(ir->t);  /* Unmark potential uses, too. */
-      if (irt_isphi(ir->t) || irt_ispri(ir->t))
-	break;
-      irt_setphi(ir->t);
-      if (nphi >= LJ_MAX_PHI)
-	lj_trace_err(J, LJ_TRERR_PHIOV);
-      phi[nphi++] = (IRRef1)ref;
-      ref = subst[ref];
-      if (ref > invar)
-	break;
-    }
-  }
-  /* Pass #4: propagate non-redundant PHIs. */
-  while (passx) {
-    passx = 0;
-    for (i = 0; i < nphi; i++) {
-      IRRef lref = phi[i];
-      IRIns *ir = IR(lref);
-      if (!irt_ismarked(ir->t)) {  /* Propagate only from unmarked PHIs. */
-	IRIns *irr = IR(subst[lref]);
-	if (irt_ismarked(irr->t)) {  /* Right ref points to other PHI? */
-	  irt_clearmark(irr->t);  /* Mark that PHI as non-redundant. */
-	  passx = 1;  /* Retry. */
-	}
-      }
-    }
-  }
-  /* Pass #5: emit PHI instructions or eliminate PHIs. */
-  for (i = 0; i < nphi; i++) {
-    IRRef lref = phi[i];
-    IRIns *ir = IR(lref);
-    if (!irt_ismarked(ir->t)) {  /* Emit PHI if not marked. */
-      IRRef rref = subst[lref];
-      if (rref > invar)
-	irt_setphi(IR(rref)->t);
-      emitir_raw(IRT(IR_PHI, irt_type(ir->t)), lref, rref);
-    } else {  /* Otherwise eliminate PHI. */
-      irt_clearmark(ir->t);
-      irt_clearphi(ir->t);
-    }
-  }
-}
-
-/* -- Loop unrolling using copy-substitution ------------------------------ */
-
-/* Copy-substitute snapshot. */
-static void loop_subst_snap(jit_State *J, SnapShot *osnap,
-			    SnapEntry *loopmap, IRRef1 *subst)
-{
-  SnapEntry *nmap, *omap = &J->cur.snapmap[osnap->mapofs];
-  SnapEntry *nextmap = &J->cur.snapmap[snap_nextofs(&J->cur, osnap)];
-  MSize nmapofs;
-  MSize on, ln, nn, onent = osnap->nent;
-  BCReg nslots = osnap->nslots;
-  SnapShot *snap = &J->cur.snap[J->cur.nsnap];
-  if (irt_isguard(J->guardemit)) {  /* Guard inbetween? */
-    nmapofs = J->cur.nsnapmap;
-    J->cur.nsnap++;  /* Add new snapshot. */
-  } else {  /* Otherwise overwrite previous snapshot. */
-    snap--;
-    nmapofs = snap->mapofs;
-  }
-  J->guardemit.irt = 0;
-  /* Setup new snapshot. */
-  snap->mapofs = (uint16_t)nmapofs;
-  snap->ref = (IRRef1)J->cur.nins;
-  snap->nslots = nslots;
-  snap->topslot = osnap->topslot;
-  snap->count = 0;
-  nmap = &J->cur.snapmap[nmapofs];
-  /* Substitute snapshot slots. */
-  on = ln = nn = 0;
-  while (on < onent) {
-    SnapEntry osn = omap[on], lsn = loopmap[ln];
-    if (snap_slot(lsn) < snap_slot(osn)) {  /* Copy slot from loop map. */
-      nmap[nn++] = lsn;
-      ln++;
-    } else {  /* Copy substituted slot from snapshot map. */
-      if (snap_slot(lsn) == snap_slot(osn)) ln++;  /* Shadowed loop slot. */
-      if (!irref_isk(snap_ref(osn)))
-	osn = snap_setref(osn, subst[snap_ref(osn)]);
-      nmap[nn++] = osn;
-      on++;
-    }
-  }
-  while (snap_slot(loopmap[ln]) < nslots)  /* Copy remaining loop slots. */
-    nmap[nn++] = loopmap[ln++];
-  snap->nent = (uint8_t)nn;
-  omap += onent;
-  nmap += nn;
-  while (omap < nextmap)  /* Copy PC + frame links. */
-    *nmap++ = *omap++;
-  J->cur.nsnapmap = (uint16_t)(nmap - J->cur.snapmap);
-}
-
-/* Unroll loop. */
-static void loop_unroll(jit_State *J)
-{
-  IRRef1 phi[LJ_MAX_PHI];
-  uint32_t nphi = 0;
-  IRRef1 *subst;
-  SnapNo onsnap;
-  SnapShot *osnap, *loopsnap;
-  SnapEntry *loopmap, *psentinel;
-  IRRef ins, invar;
-
-  /* Use temp buffer for substitution table.
-  ** Only non-constant refs in [REF_BIAS,invar) are valid indexes.
-  ** Caveat: don't call into the VM or run the GC or the buffer may be gone.
-  */
-  invar = J->cur.nins;
-  subst = (IRRef1 *)lj_str_needbuf(J->L, &G(J->L)->tmpbuf,
-				   (invar-REF_BIAS)*sizeof(IRRef1)) - REF_BIAS;
-  subst[REF_BASE] = REF_BASE;
-
-  /* LOOP separates the pre-roll from the loop body. */
-  emitir_raw(IRTG(IR_LOOP, IRT_NIL), 0, 0);
-
-  /* Grow snapshot buffer and map for copy-substituted snapshots.
-  ** Need up to twice the number of snapshots minus #0 and loop snapshot.
-  ** Need up to twice the number of entries plus fallback substitutions
-  ** from the loop snapshot entries for each new snapshot.
-  ** Caveat: both calls may reallocate J->cur.snap and J->cur.snapmap!
-  */
-  onsnap = J->cur.nsnap;
-  lj_snap_grow_buf(J, 2*onsnap-2);
-  lj_snap_grow_map(J, J->cur.nsnapmap*2+(onsnap-2)*J->cur.snap[onsnap-1].nent);
-
-  /* The loop snapshot is used for fallback substitutions. */
-  loopsnap = &J->cur.snap[onsnap-1];
-  loopmap = &J->cur.snapmap[loopsnap->mapofs];
-  /* The PC of snapshot #0 and the loop snapshot must match. */
-  psentinel = &loopmap[loopsnap->nent];
-  lua_assert(*psentinel == J->cur.snapmap[J->cur.snap[0].nent]);
-  *psentinel = SNAP(255, 0, 0);  /* Replace PC with temporary sentinel. */
-
-  /* Start substitution with snapshot #1 (#0 is empty for root traces). */
-  osnap = &J->cur.snap[1];
-
-  /* Copy and substitute all recorded instructions and snapshots. */
-  for (ins = REF_FIRST; ins < invar; ins++) {
-    IRIns *ir;
-    IRRef op1, op2;
-
-    if (ins >= osnap->ref)  /* Instruction belongs to next snapshot? */
-      loop_subst_snap(J, osnap++, loopmap, subst);  /* Copy-substitute it. */
-
-    /* Substitute instruction operands. */
-    ir = IR(ins);
-    op1 = ir->op1;
-    if (!irref_isk(op1)) op1 = subst[op1];
-    op2 = ir->op2;
-    if (!irref_isk(op2)) op2 = subst[op2];
-    if (irm_kind(lj_ir_mode[ir->o]) == IRM_N &&
-	op1 == ir->op1 && op2 == ir->op2) {  /* Regular invariant ins? */
-      subst[ins] = (IRRef1)ins;  /* Shortcut. */
-    } else {
-      /* Re-emit substituted instruction to the FOLD/CSE/etc. pipeline. */
-      IRType1 t = ir->t;  /* Get this first, since emitir may invalidate ir. */
-      IRRef ref = tref_ref(emitir(ir->ot & ~IRT_ISPHI, op1, op2));
-      subst[ins] = (IRRef1)ref;
-      if (ref != ins) {
-	IRIns *irr = IR(ref);
-	if (ref < invar) {  /* Loop-carried dependency? */
-	  /* Potential PHI? */
-	  if (!irref_isk(ref) && !irt_isphi(irr->t) && !irt_ispri(irr->t)) {
-	    irt_setphi(irr->t);
-	    if (nphi >= LJ_MAX_PHI)
-	      lj_trace_err(J, LJ_TRERR_PHIOV);
-	    phi[nphi++] = (IRRef1)ref;
-	  }
-	  /* Check all loop-carried dependencies for type instability. */
-	  if (!irt_sametype(t, irr->t)) {
-	    if (irt_isinteger(t) && irt_isinteger(irr->t))
-	      continue;
-	    else if (irt_isnum(t) && irt_isinteger(irr->t))  /* Fix int->num. */
-	      ref = tref_ref(emitir(IRTN(IR_CONV), ref, IRCONV_NUM_INT));
-	    else if (irt_isnum(irr->t) && irt_isinteger(t))  /* Fix num->int. */
-	      ref = tref_ref(emitir(IRTGI(IR_CONV), ref,
-				    IRCONV_INT_NUM|IRCONV_CHECK));
-	    else
-	      lj_trace_err(J, LJ_TRERR_TYPEINS);
-	    subst[ins] = (IRRef1)ref;
-	    irr = IR(ref);
-	    goto phiconv;
-	  }
-	} else if (ref != REF_DROP && irr->o == IR_CONV &&
-		   ref > invar && irr->op1 < invar) {
-	  /* May need an extra PHI for a CONV. */
-	  ref = irr->op1;
-	  irr = IR(ref);
-	phiconv:
-	  if (ref < invar && !irref_isk(ref) && !irt_isphi(irr->t)) {
-	    irt_setphi(irr->t);
-	    if (nphi >= LJ_MAX_PHI)
-	      lj_trace_err(J, LJ_TRERR_PHIOV);
-	    phi[nphi++] = (IRRef1)ref;
-	  }
-	}
-      }
-    }
-  }
-  if (!irt_isguard(J->guardemit))  /* Drop redundant snapshot. */
-    J->cur.nsnapmap = (uint16_t)J->cur.snap[--J->cur.nsnap].mapofs;
-  lua_assert(J->cur.nsnapmap <= J->sizesnapmap);
-  *psentinel = J->cur.snapmap[J->cur.snap[0].nent];  /* Restore PC. */
-
-  loop_emit_phi(J, subst, phi, nphi, onsnap);
-}
-
-/* Undo any partial changes made by the loop optimization. */
-static void loop_undo(jit_State *J, IRRef ins, SnapNo nsnap, MSize nsnapmap)
-{
-  ptrdiff_t i;
-  SnapShot *snap = &J->cur.snap[nsnap-1];
-  SnapEntry *map = J->cur.snapmap;
-  map[snap->mapofs + snap->nent] = map[J->cur.snap[0].nent];  /* Restore PC. */
-  J->cur.nsnapmap = (uint16_t)nsnapmap;
-  J->cur.nsnap = nsnap;
-  J->guardemit.irt = 0;
-  lj_ir_rollback(J, ins);
-  for (i = 0; i < BPROP_SLOTS; i++) {  /* Remove backprop. cache entries. */
-    BPropEntry *bp = &J->bpropcache[i];
-    if (bp->val >= ins)
-      bp->key = 0;
-  }
-  for (ins--; ins >= REF_FIRST; ins--) {  /* Remove flags. */
-    IRIns *ir = IR(ins);
-    irt_clearphi(ir->t);
-    irt_clearmark(ir->t);
-  }
-}
-
-/* Protected callback for loop optimization. */
-static TValue *cploop_opt(lua_State *L, lua_CFunction dummy, void *ud)
-{
-  UNUSED(L); UNUSED(dummy);
-  loop_unroll((jit_State *)ud);
-  return NULL;
-}
-
-/* Loop optimization. */
-int lj_opt_loop(jit_State *J)
-{
-  IRRef nins = J->cur.nins;
-  SnapNo nsnap = J->cur.nsnap;
-  MSize nsnapmap = J->cur.nsnapmap;
-  int errcode = lj_vm_cpcall(J->L, NULL, J, cploop_opt);
-  if (LJ_UNLIKELY(errcode)) {
-    lua_State *L = J->L;
-    if (errcode == LUA_ERRRUN && tvisnumber(L->top-1)) {  /* Trace error? */
-      int32_t e = numberVint(L->top-1);
-      switch ((TraceError)e) {
-      case LJ_TRERR_TYPEINS:  /* Type instability. */
-      case LJ_TRERR_GFAIL:  /* Guard would always fail. */
-	/* Unrolling via recording fixes many cases, e.g. a flipped boolean. */
-	if (--J->instunroll < 0)  /* But do not unroll forever. */
-	  break;
-	L->top--;  /* Remove error object. */
-	loop_undo(J, nins, nsnap, nsnapmap);
-	return 1;  /* Loop optimization failed, continue recording. */
-      default:
-	break;
-      }
-    }
-    lj_err_throw(L, errcode);  /* Propagate all other errors. */
-  }
-  return 0;  /* Loop optimization is ok. */
-}
-
-#undef IR
-#undef emitir
-#undef emitir_raw
-
-#endif
diff --git a/luajit-2.0/src/lj_opt_mem.c b/luajit-2.0/src/lj_opt_mem.c
deleted file mode 100644
index d5f5290..0000000
--- a/luajit-2.0/src/lj_opt_mem.c
+++ /dev/null
@@ -1,915 +0,0 @@
-/*
-** Memory access optimizations.
-** AA: Alias Analysis using high-level semantic disambiguation.
-** FWD: Load Forwarding (L2L) + Store Forwarding (S2L).
-** DSE: Dead-Store Elimination.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#define lj_opt_mem_c
-#define LUA_CORE
-
-#include "lj_obj.h"
-
-#if LJ_HASJIT
-
-#include "lj_tab.h"
-#include "lj_ir.h"
-#include "lj_jit.h"
-#include "lj_iropt.h"
-
-/* Some local macros to save typing. Undef'd at the end. */
-#define IR(ref)		(&J->cur.ir[(ref)])
-#define fins		(&J->fold.ins)
-#define fleft		(&J->fold.left)
-#define fright		(&J->fold.right)
-
-/*
-** Caveat #1: return value is not always a TRef -- only use with tref_ref().
-** Caveat #2: FWD relies on active CSE for xREF operands -- see lj_opt_fold().
-*/
-
-/* Return values from alias analysis. */
-typedef enum {
-  ALIAS_NO,	/* The two refs CANNOT alias (exact). */
-  ALIAS_MAY,	/* The two refs MAY alias (inexact). */
-  ALIAS_MUST	/* The two refs MUST alias (exact). */
-} AliasRet;
-
-/* -- ALOAD/HLOAD forwarding and ASTORE/HSTORE elimination ---------------- */
-
-/* Simplified escape analysis: check for intervening stores. */
-static AliasRet aa_escape(jit_State *J, IRIns *ir, IRIns *stop)
-{
-  IRRef ref = (IRRef)(ir - J->cur.ir);  /* The ref that might be stored. */
-  for (ir++; ir < stop; ir++)
-    if (ir->op2 == ref &&
-	(ir->o == IR_ASTORE || ir->o == IR_HSTORE ||
-	 ir->o == IR_USTORE || ir->o == IR_FSTORE))
-      return ALIAS_MAY;  /* Reference was stored and might alias. */
-  return ALIAS_NO;  /* Reference was not stored. */
-}
-
-/* Alias analysis for two different table references. */
-static AliasRet aa_table(jit_State *J, IRRef ta, IRRef tb)
-{
-  IRIns *taba = IR(ta), *tabb = IR(tb);
-  int newa, newb;
-  lua_assert(ta != tb);
-  lua_assert(irt_istab(taba->t) && irt_istab(tabb->t));
-  /* Disambiguate new allocations. */
-  newa = (taba->o == IR_TNEW || taba->o == IR_TDUP);
-  newb = (tabb->o == IR_TNEW || tabb->o == IR_TDUP);
-  if (newa && newb)
-    return ALIAS_NO;  /* Two different allocations never alias. */
-  if (newb) {  /* At least one allocation? */
-    IRIns *tmp = taba; taba = tabb; tabb = tmp;
-  } else if (!newa) {
-    return ALIAS_MAY;  /* Anything else: we just don't know. */
-  }
-  return aa_escape(J, taba, tabb);
-}
-
-/* Alias analysis for array and hash access using key-based disambiguation. */
-static AliasRet aa_ahref(jit_State *J, IRIns *refa, IRIns *refb)
-{
-  IRRef ka = refa->op2;
-  IRRef kb = refb->op2;
-  IRIns *keya, *keyb;
-  IRRef ta, tb;
-  if (refa == refb)
-    return ALIAS_MUST;  /* Shortcut for same refs. */
-  keya = IR(ka);
-  if (keya->o == IR_KSLOT) { ka = keya->op1; keya = IR(ka); }
-  keyb = IR(kb);
-  if (keyb->o == IR_KSLOT) { kb = keyb->op1; keyb = IR(kb); }
-  ta = (refa->o==IR_HREFK || refa->o==IR_AREF) ? IR(refa->op1)->op1 : refa->op1;
-  tb = (refb->o==IR_HREFK || refb->o==IR_AREF) ? IR(refb->op1)->op1 : refb->op1;
-  if (ka == kb) {
-    /* Same key. Check for same table with different ref (NEWREF vs. HREF). */
-    if (ta == tb)
-      return ALIAS_MUST;  /* Same key, same table. */
-    else
-      return aa_table(J, ta, tb);  /* Same key, possibly different table. */
-  }
-  if (irref_isk(ka) && irref_isk(kb))
-    return ALIAS_NO;  /* Different constant keys. */
-  if (refa->o == IR_AREF) {
-    /* Disambiguate array references based on index arithmetic. */
-    int32_t ofsa = 0, ofsb = 0;
-    IRRef basea = ka, baseb = kb;
-    lua_assert(refb->o == IR_AREF);
-    /* Gather base and offset from t[base] or t[base+-ofs]. */
-    if (keya->o == IR_ADD && irref_isk(keya->op2)) {
-      basea = keya->op1;
-      ofsa = IR(keya->op2)->i;
-      if (basea == kb && ofsa != 0)
-	return ALIAS_NO;  /* t[base+-ofs] vs. t[base]. */
-    }
-    if (keyb->o == IR_ADD && irref_isk(keyb->op2)) {
-      baseb = keyb->op1;
-      ofsb = IR(keyb->op2)->i;
-      if (ka == baseb && ofsb != 0)
-	return ALIAS_NO;  /* t[base] vs. t[base+-ofs]. */
-    }
-    if (basea == baseb && ofsa != ofsb)
-      return ALIAS_NO;  /* t[base+-o1] vs. t[base+-o2] and o1 != o2. */
-  } else {
-    /* Disambiguate hash references based on the type of their keys. */
-    lua_assert((refa->o==IR_HREF || refa->o==IR_HREFK || refa->o==IR_NEWREF) &&
-	       (refb->o==IR_HREF || refb->o==IR_HREFK || refb->o==IR_NEWREF));
-    if (!irt_sametype(keya->t, keyb->t))
-      return ALIAS_NO;  /* Different key types. */
-  }
-  if (ta == tb)
-    return ALIAS_MAY;  /* Same table, cannot disambiguate keys. */
-  else
-    return aa_table(J, ta, tb);  /* Try to disambiguate tables. */
-}
-
-/* Array and hash load forwarding. */
-static TRef fwd_ahload(jit_State *J, IRRef xref)
-{
-  IRIns *xr = IR(xref);
-  IRRef lim = xref;  /* Search limit. */
-  IRRef ref;
-
-  /* Search for conflicting stores. */
-  ref = J->chain[fins->o+IRDELTA_L2S];
-  while (ref > xref) {
-    IRIns *store = IR(ref);
-    switch (aa_ahref(J, xr, IR(store->op1))) {
-    case ALIAS_NO:   break;  /* Continue searching. */
-    case ALIAS_MAY:  lim = ref; goto cselim;  /* Limit search for load. */
-    case ALIAS_MUST: return store->op2;  /* Store forwarding. */
-    }
-    ref = store->prev;
-  }
-
-  /* No conflicting store (yet): const-fold loads from allocations. */
-  {
-    IRIns *ir = (xr->o == IR_HREFK || xr->o == IR_AREF) ? IR(xr->op1) : xr;
-    IRRef tab = ir->op1;
-    ir = IR(tab);
-    if (ir->o == IR_TNEW || (ir->o == IR_TDUP && irref_isk(xr->op2))) {
-      /* A NEWREF with a number key may end up pointing to the array part.
-      ** But it's referenced from HSTORE and not found in the ASTORE chain.
-      ** For now simply consider this a conflict without forwarding anything.
-      */
-      if (xr->o == IR_AREF) {
-	IRRef ref2 = J->chain[IR_NEWREF];
-	while (ref2 > tab) {
-	  IRIns *newref = IR(ref2);
-	  if (irt_isnum(IR(newref->op2)->t))
-	    goto cselim;
-	  ref2 = newref->prev;
-	}
-      }
-      /* NEWREF inhibits CSE for HREF, and dependent FLOADs from HREFK/AREF.
-      ** But the above search for conflicting stores was limited by xref.
-      ** So continue searching, limited by the TNEW/TDUP. Store forwarding
-      ** is ok, too. A conflict does NOT limit the search for a matching load.
-      */
-      while (ref > tab) {
-	IRIns *store = IR(ref);
-	switch (aa_ahref(J, xr, IR(store->op1))) {
-	case ALIAS_NO:   break;  /* Continue searching. */
-	case ALIAS_MAY:  goto cselim;  /* Conflicting store. */
-	case ALIAS_MUST: return store->op2;  /* Store forwarding. */
-	}
-	ref = store->prev;
-      }
-      lua_assert(ir->o != IR_TNEW || irt_isnil(fins->t));
-      if (irt_ispri(fins->t)) {
-	return TREF_PRI(irt_type(fins->t));
-      } else if (irt_isnum(fins->t) || (LJ_DUALNUM && irt_isint(fins->t)) ||
-		 irt_isstr(fins->t)) {
-	TValue keyv;
-	cTValue *tv;
-	IRIns *key = IR(xr->op2);
-	if (key->o == IR_KSLOT) key = IR(key->op1);
-	lj_ir_kvalue(J->L, &keyv, key);
-	tv = lj_tab_get(J->L, ir_ktab(IR(ir->op1)), &keyv);
-	lua_assert(itype2irt(tv) == irt_type(fins->t));
-	if (irt_isnum(fins->t))
-	  return lj_ir_knum_u64(J, tv->u64);
-	else if (LJ_DUALNUM && irt_isint(fins->t))
-	  return lj_ir_kint(J, intV(tv));
-	else
-	  return lj_ir_kstr(J, strV(tv));
-      }
-      /* Othwerwise: don't intern as a constant. */
-    }
-  }
-
-cselim:
-  /* Try to find a matching load. Below the conflicting store, if any. */
-  ref = J->chain[fins->o];
-  while (ref > lim) {
-    IRIns *load = IR(ref);
-    if (load->op1 == xref)
-      return ref;  /* Load forwarding. */
-    ref = load->prev;
-  }
-  return 0;  /* Conflict or no match. */
-}
-
-/* Reassociate ALOAD across PHIs to handle t[i-1] forwarding case. */
-static TRef fwd_aload_reassoc(jit_State *J)
-{
-  IRIns *irx = IR(fins->op1);
-  IRIns *key = IR(irx->op2);
-  if (key->o == IR_ADD && irref_isk(key->op2)) {
-    IRIns *add2 = IR(key->op1);
-    if (add2->o == IR_ADD && irref_isk(add2->op2) &&
-	IR(key->op2)->i == -IR(add2->op2)->i) {
-      IRRef ref = J->chain[IR_AREF];
-      IRRef lim = add2->op1;
-      if (irx->op1 > lim) lim = irx->op1;
-      while (ref > lim) {
-	IRIns *ir = IR(ref);
-	if (ir->op1 == irx->op1 && ir->op2 == add2->op1)
-	  return fwd_ahload(J, ref);
-	ref = ir->prev;
-      }
-    }
-  }
-  return 0;
-}
-
-/* ALOAD forwarding. */
-TRef LJ_FASTCALL lj_opt_fwd_aload(jit_State *J)
-{
-  IRRef ref;
-  if ((ref = fwd_ahload(J, fins->op1)) ||
-      (ref = fwd_aload_reassoc(J)))
-    return ref;
-  return EMITFOLD;
-}
-
-/* HLOAD forwarding. */
-TRef LJ_FASTCALL lj_opt_fwd_hload(jit_State *J)
-{
-  IRRef ref = fwd_ahload(J, fins->op1);
-  if (ref)
-    return ref;
-  return EMITFOLD;
-}
-
-/* HREFK forwarding. */
-TRef LJ_FASTCALL lj_opt_fwd_hrefk(jit_State *J)
-{
-  IRRef tab = fleft->op1;
-  IRRef ref = J->chain[IR_NEWREF];
-  while (ref > tab) {
-    IRIns *newref = IR(ref);
-    if (tab == newref->op1) {
-      if (fright->op1 == newref->op2)
-	return ref;  /* Forward from NEWREF. */
-      else
-	goto docse;
-    } else if (aa_table(J, tab, newref->op1) != ALIAS_NO) {
-      goto docse;
-    }
-    ref = newref->prev;
-  }
-  /* No conflicting NEWREF: key location unchanged for HREFK of TDUP. */
-  if (IR(tab)->o == IR_TDUP)
-    fins->t.irt &= ~IRT_GUARD;  /* Drop HREFK guard. */
-docse:
-  return CSEFOLD;
-}
-
-/* Check whether HREF of TNEW/TDUP can be folded to niltv. */
-int LJ_FASTCALL lj_opt_fwd_href_nokey(jit_State *J)
-{
-  IRRef lim = fins->op1;  /* Search limit. */
-  IRRef ref;
-
-  /* The key for an ASTORE may end up in the hash part after a NEWREF. */
-  if (irt_isnum(fright->t) && J->chain[IR_NEWREF] > lim) {
-    ref = J->chain[IR_ASTORE];
-    while (ref > lim) {
-      if (ref < J->chain[IR_NEWREF])
-	return 0;  /* Conflict. */
-      ref = IR(ref)->prev;
-    }
-  }
-
-  /* Search for conflicting stores. */
-  ref = J->chain[IR_HSTORE];
-  while (ref > lim) {
-    IRIns *store = IR(ref);
-    if (aa_ahref(J, fins, IR(store->op1)) != ALIAS_NO)
-      return 0;  /* Conflict. */
-    ref = store->prev;
-  }
-
-  return 1;  /* No conflict. Can fold to niltv. */
-}
-
-/* Check whether there's no aliasing NEWREF for the left operand. */
-int LJ_FASTCALL lj_opt_fwd_tptr(jit_State *J, IRRef lim)
-{
-  IRRef ta = fins->op1;
-  IRRef ref = J->chain[IR_NEWREF];
-  while (ref > lim) {
-    IRIns *newref = IR(ref);
-    if (ta == newref->op1 || aa_table(J, ta, newref->op1) != ALIAS_NO)
-      return 0;  /* Conflict. */
-    ref = newref->prev;
-  }
-  return 1;  /* No conflict. Can safely FOLD/CSE. */
-}
-
-/* ASTORE/HSTORE elimination. */
-TRef LJ_FASTCALL lj_opt_dse_ahstore(jit_State *J)
-{
-  IRRef xref = fins->op1;  /* xREF reference. */
-  IRRef val = fins->op2;  /* Stored value reference. */
-  IRIns *xr = IR(xref);
-  IRRef1 *refp = &J->chain[fins->o];
-  IRRef ref = *refp;
-  while (ref > xref) {  /* Search for redundant or conflicting stores. */
-    IRIns *store = IR(ref);
-    switch (aa_ahref(J, xr, IR(store->op1))) {
-    case ALIAS_NO:
-      break;  /* Continue searching. */
-    case ALIAS_MAY:	/* Store to MAYBE the same location. */
-      if (store->op2 != val)  /* Conflict if the value is different. */
-	goto doemit;
-      break;  /* Otherwise continue searching. */
-    case ALIAS_MUST:	/* Store to the same location. */
-      if (store->op2 == val)  /* Same value: drop the new store. */
-	return DROPFOLD;
-      /* Different value: try to eliminate the redundant store. */
-      if (ref > J->chain[IR_LOOP]) {  /* Quick check to avoid crossing LOOP. */
-	IRIns *ir;
-	/* Check for any intervening guards (includes conflicting loads). */
-	for (ir = IR(J->cur.nins-1); ir > store; ir--)
-	  if (irt_isguard(ir->t) || ir->o == IR_CALLL)
-	    goto doemit;  /* No elimination possible. */
-	/* Remove redundant store from chain and replace with NOP. */
-	*refp = store->prev;
-	store->o = IR_NOP;
-	store->t.irt = IRT_NIL;
-	store->op1 = store->op2 = 0;
-	store->prev = 0;
-	/* Now emit the new store instead. */
-      }
-      goto doemit;
-    }
-    ref = *(refp = &store->prev);
-  }
-doemit:
-  return EMITFOLD;  /* Otherwise we have a conflict or simply no match. */
-}
-
-/* -- ULOAD forwarding ---------------------------------------------------- */
-
-/* The current alias analysis for upvalues is very simplistic. It only
-** disambiguates between the unique upvalues of the same function.
-** This is good enough for now, since most upvalues are read-only.
-**
-** A more precise analysis would be feasible with the help of the parser:
-** generate a unique key for every upvalue, even across all prototypes.
-** Lacking a realistic use-case, it's unclear whether this is beneficial.
-*/
-static AliasRet aa_uref(IRIns *refa, IRIns *refb)
-{
-  if (refa->o != refb->o)
-    return ALIAS_NO;  /* Different UREFx type. */
-  if (refa->op1 == refb->op1) {  /* Same function. */
-    if (refa->op2 == refb->op2)
-      return ALIAS_MUST;  /* Same function, same upvalue idx. */
-    else
-      return ALIAS_NO;  /* Same function, different upvalue idx. */
-  } else {  /* Different functions, check disambiguation hash values. */
-    if (((refa->op2 ^ refb->op2) & 0xff))
-      return ALIAS_NO;  /* Upvalues with different hash values cannot alias. */
-    else
-      return ALIAS_MAY;  /* No conclusion can be drawn for same hash value. */
-  }
-}
-
-/* ULOAD forwarding. */
-TRef LJ_FASTCALL lj_opt_fwd_uload(jit_State *J)
-{
-  IRRef uref = fins->op1;
-  IRRef lim = REF_BASE;  /* Search limit. */
-  IRIns *xr = IR(uref);
-  IRRef ref;
-
-  /* Search for conflicting stores. */
-  ref = J->chain[IR_USTORE];
-  while (ref > lim) {
-    IRIns *store = IR(ref);
-    switch (aa_uref(xr, IR(store->op1))) {
-    case ALIAS_NO:   break;  /* Continue searching. */
-    case ALIAS_MAY:  lim = ref; goto cselim;  /* Limit search for load. */
-    case ALIAS_MUST: return store->op2;  /* Store forwarding. */
-    }
-    ref = store->prev;
-  }
-
-cselim:
-  /* Try to find a matching load. Below the conflicting store, if any. */
-
-  ref = J->chain[IR_ULOAD];
-  while (ref > lim) {
-    IRIns *ir = IR(ref);
-    if (ir->op1 == uref ||
-	(IR(ir->op1)->op12 == IR(uref)->op12 && IR(ir->op1)->o == IR(uref)->o))
-      return ref;  /* Match for identical or equal UREFx (non-CSEable UREFO). */
-    ref = ir->prev;
-  }
-  return lj_ir_emit(J);
-}
-
-/* USTORE elimination. */
-TRef LJ_FASTCALL lj_opt_dse_ustore(jit_State *J)
-{
-  IRRef xref = fins->op1;  /* xREF reference. */
-  IRRef val = fins->op2;  /* Stored value reference. */
-  IRIns *xr = IR(xref);
-  IRRef1 *refp = &J->chain[IR_USTORE];
-  IRRef ref = *refp;
-  while (ref > xref) {  /* Search for redundant or conflicting stores. */
-    IRIns *store = IR(ref);
-    switch (aa_uref(xr, IR(store->op1))) {
-    case ALIAS_NO:
-      break;  /* Continue searching. */
-    case ALIAS_MAY:	/* Store to MAYBE the same location. */
-      if (store->op2 != val)  /* Conflict if the value is different. */
-	goto doemit;
-      break;  /* Otherwise continue searching. */
-    case ALIAS_MUST:	/* Store to the same location. */
-      if (store->op2 == val)  /* Same value: drop the new store. */
-	return DROPFOLD;
-      /* Different value: try to eliminate the redundant store. */
-      if (ref > J->chain[IR_LOOP]) {  /* Quick check to avoid crossing LOOP. */
-	IRIns *ir;
-	/* Check for any intervening guards (includes conflicting loads). */
-	for (ir = IR(J->cur.nins-1); ir > store; ir--)
-	  if (irt_isguard(ir->t))
-	    goto doemit;  /* No elimination possible. */
-	/* Remove redundant store from chain and replace with NOP. */
-	*refp = store->prev;
-	store->o = IR_NOP;
-	store->t.irt = IRT_NIL;
-	store->op1 = store->op2 = 0;
-	store->prev = 0;
-	if (ref+1 < J->cur.nins &&
-	    store[1].o == IR_OBAR && store[1].op1 == xref) {
-	  IRRef1 *bp = &J->chain[IR_OBAR];
-	  IRIns *obar;
-	  for (obar = IR(*bp); *bp > ref+1; obar = IR(*bp))
-	    bp = &obar->prev;
-	  /* Remove OBAR, too. */
-	  *bp = obar->prev;
-	  obar->o = IR_NOP;
-	  obar->t.irt = IRT_NIL;
-	  obar->op1 = obar->op2 = 0;
-	  obar->prev = 0;
-	}
-	/* Now emit the new store instead. */
-      }
-      goto doemit;
-    }
-    ref = *(refp = &store->prev);
-  }
-doemit:
-  return EMITFOLD;  /* Otherwise we have a conflict or simply no match. */
-}
-
-/* -- FLOAD forwarding and FSTORE elimination ----------------------------- */
-
-/* Alias analysis for field access.
-** Field loads are cheap and field stores are rare.
-** Simple disambiguation based on field types is good enough.
-*/
-static AliasRet aa_fref(jit_State *J, IRIns *refa, IRIns *refb)
-{
-  if (refa->op2 != refb->op2)
-    return ALIAS_NO;  /* Different fields. */
-  if (refa->op1 == refb->op1)
-    return ALIAS_MUST;  /* Same field, same object. */
-  else if (refa->op2 >= IRFL_TAB_META && refa->op2 <= IRFL_TAB_NOMM)
-    return aa_table(J, refa->op1, refb->op1);  /* Disambiguate tables. */
-  else
-    return ALIAS_MAY;  /* Same field, possibly different object. */
-}
-
-/* Only the loads for mutable fields end up here (see FOLD). */
-TRef LJ_FASTCALL lj_opt_fwd_fload(jit_State *J)
-{
-  IRRef oref = fins->op1;  /* Object reference. */
-  IRRef fid = fins->op2;  /* Field ID. */
-  IRRef lim = oref;  /* Search limit. */
-  IRRef ref;
-
-  /* Search for conflicting stores. */
-  ref = J->chain[IR_FSTORE];
-  while (ref > oref) {
-    IRIns *store = IR(ref);
-    switch (aa_fref(J, fins, IR(store->op1))) {
-    case ALIAS_NO:   break;  /* Continue searching. */
-    case ALIAS_MAY:  lim = ref; goto cselim;  /* Limit search for load. */
-    case ALIAS_MUST: return store->op2;  /* Store forwarding. */
-    }
-    ref = store->prev;
-  }
-
-  /* No conflicting store: const-fold field loads from allocations. */
-  if (fid == IRFL_TAB_META) {
-    IRIns *ir = IR(oref);
-    if (ir->o == IR_TNEW || ir->o == IR_TDUP)
-      return lj_ir_knull(J, IRT_TAB);
-  }
-
-cselim:
-  /* Try to find a matching load. Below the conflicting store, if any. */
-  return lj_opt_cselim(J, lim);
-}
-
-/* FSTORE elimination. */
-TRef LJ_FASTCALL lj_opt_dse_fstore(jit_State *J)
-{
-  IRRef fref = fins->op1;  /* FREF reference. */
-  IRRef val = fins->op2;  /* Stored value reference. */
-  IRIns *xr = IR(fref);
-  IRRef1 *refp = &J->chain[IR_FSTORE];
-  IRRef ref = *refp;
-  while (ref > fref) {  /* Search for redundant or conflicting stores. */
-    IRIns *store = IR(ref);
-    switch (aa_fref(J, xr, IR(store->op1))) {
-    case ALIAS_NO:
-      break;  /* Continue searching. */
-    case ALIAS_MAY:
-      if (store->op2 != val)  /* Conflict if the value is different. */
-	goto doemit;
-      break;  /* Otherwise continue searching. */
-    case ALIAS_MUST:
-      if (store->op2 == val)  /* Same value: drop the new store. */
-	return DROPFOLD;
-      /* Different value: try to eliminate the redundant store. */
-      if (ref > J->chain[IR_LOOP]) {  /* Quick check to avoid crossing LOOP. */
-	IRIns *ir;
-	/* Check for any intervening guards or conflicting loads. */
-	for (ir = IR(J->cur.nins-1); ir > store; ir--)
-	  if (irt_isguard(ir->t) || (ir->o == IR_FLOAD && ir->op2 == xr->op2))
-	    goto doemit;  /* No elimination possible. */
-	/* Remove redundant store from chain and replace with NOP. */
-	*refp = store->prev;
-	store->o = IR_NOP;
-	store->t.irt = IRT_NIL;
-	store->op1 = store->op2 = 0;
-	store->prev = 0;
-	/* Now emit the new store instead. */
-      }
-      goto doemit;
-    }
-    ref = *(refp = &store->prev);
-  }
-doemit:
-  return EMITFOLD;  /* Otherwise we have a conflict or simply no match. */
-}
-
-/* -- XLOAD forwarding and XSTORE elimination ----------------------------- */
-
-/* Find cdata allocation for a reference (if any). */
-static IRIns *aa_findcnew(jit_State *J, IRIns *ir)
-{
-  while (ir->o == IR_ADD) {
-    if (!irref_isk(ir->op1)) {
-      IRIns *ir1 = aa_findcnew(J, IR(ir->op1));  /* Left-recursion. */
-      if (ir1) return ir1;
-    }
-    if (irref_isk(ir->op2)) return NULL;
-    ir = IR(ir->op2);  /* Flatten right-recursion. */
-  }
-  return ir->o == IR_CNEW ? ir : NULL;
-}
-
-/* Alias analysis for two cdata allocations. */
-static AliasRet aa_cnew(jit_State *J, IRIns *refa, IRIns *refb)
-{
-  IRIns *cnewa = aa_findcnew(J, refa);
-  IRIns *cnewb = aa_findcnew(J, refb);
-  if (cnewa == cnewb)
-    return ALIAS_MAY;  /* Same allocation or neither is an allocation. */
-  if (cnewa && cnewb)
-    return ALIAS_NO;  /* Two different allocations never alias. */
-  if (cnewb) { cnewa = cnewb; refb = refa; }
-  return aa_escape(J, cnewa, refb);
-}
-
-/* Alias analysis for XLOAD/XSTORE. */
-static AliasRet aa_xref(jit_State *J, IRIns *refa, IRIns *xa, IRIns *xb)
-{
-  ptrdiff_t ofsa = 0, ofsb = 0;
-  IRIns *refb = IR(xb->op1);
-  IRIns *basea = refa, *baseb = refb;
-  if (refa == refb && irt_sametype(xa->t, xb->t))
-    return ALIAS_MUST;  /* Shortcut for same refs with identical type. */
-  /* Offset-based disambiguation. */
-  if (refa->o == IR_ADD && irref_isk(refa->op2)) {
-    IRIns *irk = IR(refa->op2);
-    basea = IR(refa->op1);
-    ofsa = (LJ_64 && irk->o == IR_KINT64) ? (ptrdiff_t)ir_k64(irk)->u64 :
-					    (ptrdiff_t)irk->i;
-  }
-  if (refb->o == IR_ADD && irref_isk(refb->op2)) {
-    IRIns *irk = IR(refb->op2);
-    baseb = IR(refb->op1);
-    ofsb = (LJ_64 && irk->o == IR_KINT64) ? (ptrdiff_t)ir_k64(irk)->u64 :
-					    (ptrdiff_t)irk->i;
-  }
-  /* Treat constified pointers like base vs. base+offset. */
-  if (basea->o == IR_KPTR && baseb->o == IR_KPTR) {
-    ofsb += (char *)ir_kptr(baseb) - (char *)ir_kptr(basea);
-    baseb = basea;
-  }
-  /* This implements (very) strict aliasing rules.
-  ** Different types do NOT alias, except for differences in signedness.
-  ** Type punning through unions is allowed (but forces a reload).
-  */
-  if (basea == baseb) {
-    ptrdiff_t sza = irt_size(xa->t), szb = irt_size(xb->t);
-    if (ofsa == ofsb) {
-      if (sza == szb && irt_isfp(xa->t) == irt_isfp(xb->t))
-	return ALIAS_MUST;  /* Same-sized, same-kind. May need to convert. */
-    } else if (ofsa + sza <= ofsb || ofsb + szb <= ofsa) {
-      return ALIAS_NO;  /* Non-overlapping base+-o1 vs. base+-o2. */
-    }
-    /* NYI: extract, extend or reinterpret bits (int <-> fp). */
-    return ALIAS_MAY;  /* Overlapping or type punning: force reload. */
-  }
-  if (!irt_sametype(xa->t, xb->t) &&
-      !(irt_typerange(xa->t, IRT_I8, IRT_U64) &&
-	((xa->t.irt - IRT_I8) ^ (xb->t.irt - IRT_I8)) == 1))
-    return ALIAS_NO;
-  /* NYI: structural disambiguation. */
-  return aa_cnew(J, basea, baseb);  /* Try to disambiguate allocations. */
-}
-
-/* Return CSEd reference or 0. Caveat: swaps lower ref to the right! */
-static IRRef reassoc_trycse(jit_State *J, IROp op, IRRef op1, IRRef op2)
-{
-  IRRef ref = J->chain[op];
-  IRRef lim = op1;
-  if (op2 > lim) { lim = op2; op2 = op1; op1 = lim; }
-  while (ref > lim) {
-    IRIns *ir = IR(ref);
-    if (ir->op1 == op1 && ir->op2 == op2)
-      return ref;
-    ref = ir->prev;
-  }
-  return 0;
-}
-
-/* Reassociate index references. */
-static IRRef reassoc_xref(jit_State *J, IRIns *ir)
-{
-  ptrdiff_t ofs = 0;
-  if (ir->o == IR_ADD && irref_isk(ir->op2)) {  /* Get constant offset. */
-    IRIns *irk = IR(ir->op2);
-    ofs = (LJ_64 && irk->o == IR_KINT64) ? (ptrdiff_t)ir_k64(irk)->u64 :
-					   (ptrdiff_t)irk->i;
-    ir = IR(ir->op1);
-  }
-  if (ir->o == IR_ADD) {  /* Add of base + index. */
-    /* Index ref > base ref for loop-carried dependences. Only check op1. */
-    IRIns *ir2, *ir1 = IR(ir->op1);
-    int32_t shift = 0;
-    IRRef idxref;
-    /* Determine index shifts. Don't bother with IR_MUL here. */
-    if (ir1->o == IR_BSHL && irref_isk(ir1->op2))
-      shift = IR(ir1->op2)->i;
-    else if (ir1->o == IR_ADD && ir1->op1 == ir1->op2)
-      shift = 1;
-    else
-      ir1 = ir;
-    ir2 = IR(ir1->op1);
-    /* A non-reassociated add. Must be a loop-carried dependence. */
-    if (ir2->o == IR_ADD && irt_isint(ir2->t) && irref_isk(ir2->op2))
-      ofs += (ptrdiff_t)IR(ir2->op2)->i << shift;
-    else
-      return 0;
-    idxref = ir2->op1;
-    /* Try to CSE the reassociated chain. Give up if not found. */
-    if (ir1 != ir &&
-	!(idxref = reassoc_trycse(J, ir1->o, idxref,
-				  ir1->o == IR_BSHL ? ir1->op2 : idxref)))
-      return 0;
-    if (!(idxref = reassoc_trycse(J, IR_ADD, idxref, ir->op2)))
-      return 0;
-    if (ofs != 0) {
-      IRRef refk = tref_ref(lj_ir_kintp(J, ofs));
-      if (!(idxref = reassoc_trycse(J, IR_ADD, idxref, refk)))
-	return 0;
-    }
-    return idxref;  /* Success, found a reassociated index reference. Phew. */
-  }
-  return 0;  /* Failure. */
-}
-
-/* XLOAD forwarding. */
-TRef LJ_FASTCALL lj_opt_fwd_xload(jit_State *J)
-{
-  IRRef xref = fins->op1;
-  IRIns *xr = IR(xref);
-  IRRef lim = xref;  /* Search limit. */
-  IRRef ref;
-
-  if ((fins->op2 & IRXLOAD_READONLY))
-    goto cselim;
-  if ((fins->op2 & IRXLOAD_VOLATILE))
-    goto doemit;
-
-  /* Search for conflicting stores. */
-  ref = J->chain[IR_XSTORE];
-retry:
-  if (J->chain[IR_CALLXS] > lim) lim = J->chain[IR_CALLXS];
-  if (J->chain[IR_XBAR] > lim) lim = J->chain[IR_XBAR];
-  while (ref > lim) {
-    IRIns *store = IR(ref);
-    switch (aa_xref(J, xr, fins, store)) {
-    case ALIAS_NO:   break;  /* Continue searching. */
-    case ALIAS_MAY:  lim = ref; goto cselim;  /* Limit search for load. */
-    case ALIAS_MUST:
-      /* Emit conversion if the loaded type doesn't match the forwarded type. */
-      if (!irt_sametype(fins->t, IR(store->op2)->t)) {
-	IRType dt = irt_type(fins->t), st = irt_type(IR(store->op2)->t);
-	if (dt == IRT_I8 || dt == IRT_I16) {  /* Trunc + sign-extend. */
-	  st = dt | IRCONV_SEXT;
-	  dt = IRT_INT;
-	} else if (dt == IRT_U8 || dt == IRT_U16) {  /* Trunc + zero-extend. */
-	  st = dt;
-	  dt = IRT_INT;
-	}
-	fins->ot = IRT(IR_CONV, dt);
-	fins->op1 = store->op2;
-	fins->op2 = (dt<<5)|st;
-	return RETRYFOLD;
-      }
-      return store->op2;  /* Store forwarding. */
-    }
-    ref = store->prev;
-  }
-
-cselim:
-  /* Try to find a matching load. Below the conflicting store, if any. */
-  ref = J->chain[IR_XLOAD];
-  while (ref > lim) {
-    /* CSE for XLOAD depends on the type, but not on the IRXLOAD_* flags. */
-    if (IR(ref)->op1 == xref && irt_sametype(IR(ref)->t, fins->t))
-      return ref;
-    ref = IR(ref)->prev;
-  }
-
-  /* Reassociate XLOAD across PHIs to handle a[i-1] forwarding case. */
-  if (!(fins->op2 & IRXLOAD_READONLY) && J->chain[IR_LOOP] &&
-      xref == fins->op1 && (xref = reassoc_xref(J, xr)) != 0) {
-    ref = J->chain[IR_XSTORE];
-    while (ref > lim)  /* Skip stores that have already been checked. */
-      ref = IR(ref)->prev;
-    lim = xref;
-    xr = IR(xref);
-    goto retry;  /* Retry with the reassociated reference. */
-  }
-doemit:
-  return EMITFOLD;
-}
-
-/* XSTORE elimination. */
-TRef LJ_FASTCALL lj_opt_dse_xstore(jit_State *J)
-{
-  IRRef xref = fins->op1;
-  IRIns *xr = IR(xref);
-  IRRef lim = xref;  /* Search limit. */
-  IRRef val = fins->op2;  /* Stored value reference. */
-  IRRef1 *refp = &J->chain[IR_XSTORE];
-  IRRef ref = *refp;
-  if (J->chain[IR_CALLXS] > lim) lim = J->chain[IR_CALLXS];
-  if (J->chain[IR_XBAR] > lim) lim = J->chain[IR_XBAR];
-  while (ref > lim) {  /* Search for redundant or conflicting stores. */
-    IRIns *store = IR(ref);
-    switch (aa_xref(J, xr, fins, store)) {
-    case ALIAS_NO:
-      break;  /* Continue searching. */
-    case ALIAS_MAY:
-      if (store->op2 != val)  /* Conflict if the value is different. */
-	goto doemit;
-      break;  /* Otherwise continue searching. */
-    case ALIAS_MUST:
-      if (store->op2 == val)  /* Same value: drop the new store. */
-	return DROPFOLD;
-      /* Different value: try to eliminate the redundant store. */
-      if (ref > J->chain[IR_LOOP]) {  /* Quick check to avoid crossing LOOP. */
-	IRIns *ir;
-	/* Check for any intervening guards or any XLOADs (no AA performed). */
-	for (ir = IR(J->cur.nins-1); ir > store; ir--)
-	  if (irt_isguard(ir->t) || ir->o == IR_XLOAD)
-	    goto doemit;  /* No elimination possible. */
-	/* Remove redundant store from chain and replace with NOP. */
-	*refp = store->prev;
-	store->o = IR_NOP;
-	store->t.irt = IRT_NIL;
-	store->op1 = store->op2 = 0;
-	store->prev = 0;
-	/* Now emit the new store instead. */
-      }
-      goto doemit;
-    }
-    ref = *(refp = &store->prev);
-  }
-doemit:
-  return EMITFOLD;  /* Otherwise we have a conflict or simply no match. */
-}
-
-/* -- Forwarding of lj_tab_len -------------------------------------------- */
-
-/* This is rather simplistic right now, but better than nothing. */
-TRef LJ_FASTCALL lj_opt_fwd_tab_len(jit_State *J)
-{
-  IRRef tab = fins->op1;  /* Table reference. */
-  IRRef lim = tab;  /* Search limit. */
-  IRRef ref;
-
-  /* Any ASTORE is a conflict and limits the search. */
-  if (J->chain[IR_ASTORE] > lim) lim = J->chain[IR_ASTORE];
-
-  /* Search for conflicting HSTORE with numeric key. */
-  ref = J->chain[IR_HSTORE];
-  while (ref > lim) {
-    IRIns *store = IR(ref);
-    IRIns *href = IR(store->op1);
-    IRIns *key = IR(href->op2);
-    if (irt_isnum(key->o == IR_KSLOT ? IR(key->op1)->t : key->t)) {
-      lim = ref;  /* Conflicting store found, limits search for TLEN. */
-      break;
-    }
-    ref = store->prev;
-  }
-
-  /* Try to find a matching load. Below the conflicting store, if any. */
-  return lj_opt_cselim(J, lim);
-}
-
-/* -- ASTORE/HSTORE previous type analysis -------------------------------- */
-
-/* Check whether the previous value for a table store is non-nil.
-** This can be derived either from a previous store or from a previous
-** load (because all loads from tables perform a type check).
-**
-** The result of the analysis can be used to avoid the metatable check
-** and the guard against HREF returning niltv. Both of these are cheap,
-** so let's not spend too much effort on the analysis.
-**
-** A result of 1 is exact: previous value CANNOT be nil.
-** A result of 0 is inexact: previous value MAY be nil.
-*/
-int lj_opt_fwd_wasnonnil(jit_State *J, IROpT loadop, IRRef xref)
-{
-  /* First check stores. */
-  IRRef ref = J->chain[loadop+IRDELTA_L2S];
-  while (ref > xref) {
-    IRIns *store = IR(ref);
-    if (store->op1 == xref) {  /* Same xREF. */
-      /* A nil store MAY alias, but a non-nil store MUST alias. */
-      return !irt_isnil(store->t);
-    } else if (irt_isnil(store->t)) {  /* Must check any nil store. */
-      IRRef skref = IR(store->op1)->op2;
-      IRRef xkref = IR(xref)->op2;
-      /* Same key type MAY alias. Need ALOAD check due to multiple int types. */
-      if (loadop == IR_ALOAD || irt_sametype(IR(skref)->t, IR(xkref)->t)) {
-	if (skref == xkref || !irref_isk(skref) || !irref_isk(xkref))
-	  return 0;  /* A nil store with same const key or var key MAY alias. */
-	/* Different const keys CANNOT alias. */
-      }  /* Different key types CANNOT alias. */
-    }  /* Other non-nil stores MAY alias. */
-    ref = store->prev;
-  }
-
-  /* Check loads since nothing could be derived from stores. */
-  ref = J->chain[loadop];
-  while (ref > xref) {
-    IRIns *load = IR(ref);
-    if (load->op1 == xref) {  /* Same xREF. */
-      /* A nil load MAY alias, but a non-nil load MUST alias. */
-      return !irt_isnil(load->t);
-    }  /* Other non-nil loads MAY alias. */
-    ref = load->prev;
-  }
-  return 0;  /* Nothing derived at all, previous value MAY be nil. */
-}
-
-/* ------------------------------------------------------------------------ */
-
-#undef IR
-#undef fins
-#undef fleft
-#undef fright
-
-#endif
diff --git a/luajit-2.0/src/lj_opt_narrow.c b/luajit-2.0/src/lj_opt_narrow.c
deleted file mode 100644
index 2cecf65..0000000
--- a/luajit-2.0/src/lj_opt_narrow.c
+++ /dev/null
@@ -1,648 +0,0 @@
-/*
-** NARROW: Narrowing of numbers to integers (double to int32_t).
-** STRIPOV: Stripping of overflow checks.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#define lj_opt_narrow_c
-#define LUA_CORE
-
-#include "lj_obj.h"
-
-#if LJ_HASJIT
-
-#include "lj_bc.h"
-#include "lj_ir.h"
-#include "lj_jit.h"
-#include "lj_iropt.h"
-#include "lj_trace.h"
-#include "lj_vm.h"
-#include "lj_strscan.h"
-
-/* Rationale for narrowing optimizations:
-**
-** Lua has only a single number type and this is a FP double by default.
-** Narrowing doubles to integers does not pay off for the interpreter on a
-** current-generation x86/x64 machine. Most FP operations need the same
-** amount of execution resources as their integer counterparts, except
-** with slightly longer latencies. Longer latencies are a non-issue for
-** the interpreter, since they are usually hidden by other overhead.
-**
-** The total CPU execution bandwidth is the sum of the bandwidth of the FP
-** and the integer units, because they execute in parallel. The FP units
-** have an equal or higher bandwidth than the integer units. Not using
-** them means losing execution bandwidth. Moving work away from them to
-** the already quite busy integer units is a losing proposition.
-**
-** The situation for JIT-compiled code is a bit different: the higher code
-** density makes the extra latencies much more visible. Tight loops expose
-** the latencies for updating the induction variables. Array indexing
-** requires narrowing conversions with high latencies and additional
-** guards (to check that the index is really an integer). And many common
-** optimizations only work on integers.
-**
-** One solution would be speculative, eager narrowing of all number loads.
-** This causes many problems, like losing -0 or the need to resolve type
-** mismatches between traces. It also effectively forces the integer type
-** to have overflow-checking semantics. This impedes many basic
-** optimizations and requires adding overflow checks to all integer
-** arithmetic operations (whereas FP arithmetics can do without).
-**
-** Always replacing an FP op with an integer op plus an overflow check is
-** counter-productive on a current-generation super-scalar CPU. Although
-** the overflow check branches are highly predictable, they will clog the
-** execution port for the branch unit and tie up reorder buffers. This is
-** turning a pure data-flow dependency into a different data-flow
-** dependency (with slightly lower latency) *plus* a control dependency.
-** In general, you don't want to do this since latencies due to data-flow
-** dependencies can be well hidden by out-of-order execution.
-**
-** A better solution is to keep all numbers as FP values and only narrow
-** when it's beneficial to do so. LuaJIT uses predictive narrowing for
-** induction variables and demand-driven narrowing for index expressions,
-** integer arguments and bit operations. Additionally it can eliminate or
-** hoist most of the resulting overflow checks. Regular arithmetic
-** computations are never narrowed to integers.
-**
-** The integer type in the IR has convenient wrap-around semantics and
-** ignores overflow. Extra operations have been added for
-** overflow-checking arithmetic (ADDOV/SUBOV) instead of an extra type.
-** Apart from reducing overall complexity of the compiler, this also
-** nicely solves the problem where you want to apply algebraic
-** simplifications to ADD, but not to ADDOV. And the x86/x64 assembler can
-** use lea instead of an add for integer ADD, but not for ADDOV (lea does
-** not affect the flags, but it helps to avoid register moves).
-**
-**
-** All of the above has to be reconsidered for architectures with slow FP
-** operations or without a hardware FPU. The dual-number mode of LuaJIT
-** addresses this issue. Arithmetic operations are performed on integers
-** as far as possible and overflow checks are added as needed.
-**
-** This implies that narrowing for integer arguments and bit operations
-** should also strip overflow checks, e.g. replace ADDOV with ADD. The
-** original overflow guards are weak and can be eliminated by DCE, if
-** there's no other use.
-**
-** A slight twist is that it's usually beneficial to use overflow-checked
-** integer arithmetics if all inputs are already integers. This is the only
-** change that affects the single-number mode, too.
-*/
-
-/* Some local macros to save typing. Undef'd at the end. */
-#define IR(ref)			(&J->cur.ir[(ref)])
-#define fins			(&J->fold.ins)
-
-/* Pass IR on to next optimization in chain (FOLD). */
-#define emitir(ot, a, b)	(lj_ir_set(J, (ot), (a), (b)), lj_opt_fold(J))
-
-#define emitir_raw(ot, a, b)	(lj_ir_set(J, (ot), (a), (b)), lj_ir_emit(J))
-
-/* -- Elimination of narrowing type conversions --------------------------- */
-
-/* Narrowing of index expressions and bit operations is demand-driven. The
-** trace recorder emits a narrowing type conversion (CONV.int.num or TOBIT)
-** in all of these cases (e.g. array indexing or string indexing). FOLD
-** already takes care of eliminating simple redundant conversions like
-** CONV.int.num(CONV.num.int(x)) ==> x.
-**
-** But the surrounding code is FP-heavy and arithmetic operations are
-** performed on FP numbers (for the single-number mode). Consider a common
-** example such as 'x=t[i+1]', with 'i' already an integer (due to induction
-** variable narrowing). The index expression would be recorded as
-**   CONV.int.num(ADD(CONV.num.int(i), 1))
-** which is clearly suboptimal.
-**
-** One can do better by recursively backpropagating the narrowing type
-** conversion across FP arithmetic operations. This turns FP ops into
-** their corresponding integer counterparts. Depending on the semantics of
-** the conversion they also need to check for overflow. Currently only ADD
-** and SUB are supported.
-**
-** The above example can be rewritten as
-**   ADDOV(CONV.int.num(CONV.num.int(i)), 1)
-** and then into ADDOV(i, 1) after folding of the conversions. The original
-** FP ops remain in the IR and are eliminated by DCE since all references to
-** them are gone.
-**
-** [In dual-number mode the trace recorder already emits ADDOV etc., but
-** this can be further reduced. See below.]
-**
-** Special care has to be taken to avoid narrowing across an operation
-** which is potentially operating on non-integral operands. One obvious
-** case is when an expression contains a non-integral constant, but ends
-** up as an integer index at runtime (like t[x+1.5] with x=0.5).
-**
-** Operations with two non-constant operands illustrate a similar problem
-** (like t[a+b] with a=1.5 and b=2.5). Backpropagation has to stop there,
-** unless it can be proven that either operand is integral (e.g. by CSEing
-** a previous conversion). As a not-so-obvious corollary this logic also
-** applies for a whole expression tree (e.g. t[(a+1)+(b+1)]).
-**
-** Correctness of the transformation is guaranteed by avoiding to expand
-** the tree by adding more conversions than the one we would need to emit
-** if not backpropagating. TOBIT employs a more optimistic rule, because
-** the conversion has special semantics, designed to make the life of the
-** compiler writer easier. ;-)
-**
-** Using on-the-fly backpropagation of an expression tree doesn't work
-** because it's unknown whether the transform is correct until the end.
-** This either requires IR rollback and cache invalidation for every
-** subtree or a two-pass algorithm. The former didn't work out too well,
-** so the code now combines a recursive collector with a stack-based
-** emitter.
-**
-** [A recursive backpropagation algorithm with backtracking, employing
-** skip-list lookup and round-robin caching, emitting stack operations
-** on-the-fly for a stack-based interpreter -- and all of that in a meager
-** kilobyte? Yep, compilers are a great treasure chest. Throw away your
-** textbooks and read the codebase of a compiler today!]
-**
-** There's another optimization opportunity for array indexing: it's
-** always accompanied by an array bounds-check. The outermost overflow
-** check may be delegated to the ABC operation. This works because ABC is
-** an unsigned comparison and wrap-around due to overflow creates negative
-** numbers.
-**
-** But this optimization is only valid for constants that cannot overflow
-** an int32_t into the range of valid array indexes [0..2^27+1). A check
-** for +-2^30 is safe since -2^31 - 2^30 wraps to 2^30 and 2^31-1 + 2^30
-** wraps to -2^30-1.
-**
-** It's also good enough in practice, since e.g. t[i+1] or t[i-10] are
-** quite common. So the above example finally ends up as ADD(i, 1)!
-**
-** Later on, the assembler is able to fuse the whole array reference and
-** the ADD into the memory operands of loads and other instructions. This
-** is why LuaJIT is able to generate very pretty (and fast) machine code
-** for array indexing. And that, my dear, concludes another story about
-** one of the hidden secrets of LuaJIT ...
-*/
-
-/* Maximum backpropagation depth and maximum stack size. */
-#define NARROW_MAX_BACKPROP	100
-#define NARROW_MAX_STACK	256
-
-/* The stack machine has a 32 bit instruction format: [IROpT | IRRef1]
-** The lower 16 bits hold a reference (or 0). The upper 16 bits hold
-** the IR opcode + type or one of the following special opcodes:
-*/
-enum {
-  NARROW_REF,		/* Push ref. */
-  NARROW_CONV,		/* Push conversion of ref. */
-  NARROW_SEXT,		/* Push sign-extension of ref. */
-  NARROW_INT		/* Push KINT ref. The next code holds an int32_t. */
-};
-
-typedef uint32_t NarrowIns;
-
-#define NARROWINS(op, ref)	(((op) << 16) + (ref))
-#define narrow_op(ins)		((IROpT)((ins) >> 16))
-#define narrow_ref(ins)		((IRRef1)(ins))
-
-/* Context used for narrowing of type conversions. */
-typedef struct NarrowConv {
-  jit_State *J;		/* JIT compiler state. */
-  NarrowIns *sp;	/* Current stack pointer. */
-  NarrowIns *maxsp;	/* Maximum stack pointer minus redzone. */
-  int lim;		/* Limit on the number of emitted conversions. */
-  IRRef mode;		/* Conversion mode (IRCONV_*). */
-  IRType t;		/* Destination type: IRT_INT or IRT_I64. */
-  NarrowIns stack[NARROW_MAX_STACK];  /* Stack holding stack-machine code. */
-} NarrowConv;
-
-/* Lookup a reference in the backpropagation cache. */
-static BPropEntry *narrow_bpc_get(jit_State *J, IRRef1 key, IRRef mode)
-{
-  ptrdiff_t i;
-  for (i = 0; i < BPROP_SLOTS; i++) {
-    BPropEntry *bp = &J->bpropcache[i];
-    /* Stronger checks are ok, too. */
-    if (bp->key == key && bp->mode >= mode &&
-	((bp->mode ^ mode) & IRCONV_MODEMASK) == 0)
-      return bp;
-  }
-  return NULL;
-}
-
-/* Add an entry to the backpropagation cache. */
-static void narrow_bpc_set(jit_State *J, IRRef1 key, IRRef1 val, IRRef mode)
-{
-  uint32_t slot = J->bpropslot;
-  BPropEntry *bp = &J->bpropcache[slot];
-  J->bpropslot = (slot + 1) & (BPROP_SLOTS-1);
-  bp->key = key;
-  bp->val = val;
-  bp->mode = mode;
-}
-
-/* Backpropagate overflow stripping. */
-static void narrow_stripov_backprop(NarrowConv *nc, IRRef ref, int depth)
-{
-  jit_State *J = nc->J;
-  IRIns *ir = IR(ref);
-  if (ir->o == IR_ADDOV || ir->o == IR_SUBOV ||
-      (ir->o == IR_MULOV && (nc->mode & IRCONV_CONVMASK) == IRCONV_ANY)) {
-    BPropEntry *bp = narrow_bpc_get(nc->J, ref, IRCONV_TOBIT);
-    if (bp) {
-      ref = bp->val;
-    } else if (++depth < NARROW_MAX_BACKPROP && nc->sp < nc->maxsp) {
-      narrow_stripov_backprop(nc, ir->op1, depth);
-      narrow_stripov_backprop(nc, ir->op2, depth);
-      *nc->sp++ = NARROWINS(IRT(ir->o - IR_ADDOV + IR_ADD, IRT_INT), ref);
-      return;
-    }
-  }
-  *nc->sp++ = NARROWINS(NARROW_REF, ref);
-}
-
-/* Backpropagate narrowing conversion. Return number of needed conversions. */
-static int narrow_conv_backprop(NarrowConv *nc, IRRef ref, int depth)
-{
-  jit_State *J = nc->J;
-  IRIns *ir = IR(ref);
-  IRRef cref;
-
-  /* Check the easy cases first. */
-  if (ir->o == IR_CONV && (ir->op2 & IRCONV_SRCMASK) == IRT_INT) {
-    if ((nc->mode & IRCONV_CONVMASK) <= IRCONV_ANY)
-      narrow_stripov_backprop(nc, ir->op1, depth+1);
-    else
-      *nc->sp++ = NARROWINS(NARROW_REF, ir->op1);  /* Undo conversion. */
-    if (nc->t == IRT_I64)
-      *nc->sp++ = NARROWINS(NARROW_SEXT, 0);  /* Sign-extend integer. */
-    return 0;
-  } else if (ir->o == IR_KNUM) {  /* Narrow FP constant. */
-    lua_Number n = ir_knum(ir)->n;
-    if ((nc->mode & IRCONV_CONVMASK) == IRCONV_TOBIT) {
-      /* Allows a wider range of constants. */
-      int64_t k64 = (int64_t)n;
-      if (n == (lua_Number)k64) {  /* Only if const doesn't lose precision. */
-	*nc->sp++ = NARROWINS(NARROW_INT, 0);
-	*nc->sp++ = (NarrowIns)k64;  /* But always truncate to 32 bits. */
-	return 0;
-      }
-    } else {
-      int32_t k = lj_num2int(n);
-      /* Only if constant is a small integer. */
-      if (checki16(k) && n == (lua_Number)k) {
-	*nc->sp++ = NARROWINS(NARROW_INT, 0);
-	*nc->sp++ = (NarrowIns)k;
-	return 0;
-      }
-    }
-    return 10;  /* Never narrow other FP constants (this is rare). */
-  }
-
-  /* Try to CSE the conversion. Stronger checks are ok, too. */
-  cref = J->chain[fins->o];
-  while (cref > ref) {
-    IRIns *cr = IR(cref);
-    if (cr->op1 == ref &&
-	(fins->o == IR_TOBIT ||
-	 ((cr->op2 & IRCONV_MODEMASK) == (nc->mode & IRCONV_MODEMASK) &&
-	  irt_isguard(cr->t) >= irt_isguard(fins->t)))) {
-      *nc->sp++ = NARROWINS(NARROW_REF, cref);
-      return 0;  /* Already there, no additional conversion needed. */
-    }
-    cref = cr->prev;
-  }
-
-  /* Backpropagate across ADD/SUB. */
-  if (ir->o == IR_ADD || ir->o == IR_SUB) {
-    /* Try cache lookup first. */
-    IRRef mode = nc->mode;
-    BPropEntry *bp;
-    /* Inner conversions need a stronger check. */
-    if ((mode & IRCONV_CONVMASK) == IRCONV_INDEX && depth > 0)
-      mode += IRCONV_CHECK-IRCONV_INDEX;
-    bp = narrow_bpc_get(nc->J, (IRRef1)ref, mode);
-    if (bp) {
-      *nc->sp++ = NARROWINS(NARROW_REF, bp->val);
-      return 0;
-    } else if (nc->t == IRT_I64) {
-      /* Try sign-extending from an existing (checked) conversion to int. */
-      mode = (IRT_INT<<5)|IRT_NUM|IRCONV_INDEX;
-      bp = narrow_bpc_get(nc->J, (IRRef1)ref, mode);
-      if (bp) {
-	*nc->sp++ = NARROWINS(NARROW_REF, bp->val);
-	*nc->sp++ = NARROWINS(NARROW_SEXT, 0);
-	return 0;
-      }
-    }
-    if (++depth < NARROW_MAX_BACKPROP && nc->sp < nc->maxsp) {
-      NarrowIns *savesp = nc->sp;
-      int count = narrow_conv_backprop(nc, ir->op1, depth);
-      count += narrow_conv_backprop(nc, ir->op2, depth);
-      if (count <= nc->lim) {  /* Limit total number of conversions. */
-	*nc->sp++ = NARROWINS(IRT(ir->o, nc->t), ref);
-	return count;
-      }
-      nc->sp = savesp;  /* Too many conversions, need to backtrack. */
-    }
-  }
-
-  /* Otherwise add a conversion. */
-  *nc->sp++ = NARROWINS(NARROW_CONV, ref);
-  return 1;
-}
-
-/* Emit the conversions collected during backpropagation. */
-static IRRef narrow_conv_emit(jit_State *J, NarrowConv *nc)
-{
-  /* The fins fields must be saved now -- emitir() overwrites them. */
-  IROpT guardot = irt_isguard(fins->t) ? IRTG(IR_ADDOV-IR_ADD, 0) : 0;
-  IROpT convot = fins->ot;
-  IRRef1 convop2 = fins->op2;
-  NarrowIns *next = nc->stack;  /* List of instructions from backpropagation. */
-  NarrowIns *last = nc->sp;
-  NarrowIns *sp = nc->stack;  /* Recycle the stack to store operands. */
-  while (next < last) {  /* Simple stack machine to process the ins. list. */
-    NarrowIns ref = *next++;
-    IROpT op = narrow_op(ref);
-    if (op == NARROW_REF) {
-      *sp++ = ref;
-    } else if (op == NARROW_CONV) {
-      *sp++ = emitir_raw(convot, ref, convop2);  /* Raw emit avoids a loop. */
-    } else if (op == NARROW_SEXT) {
-      lua_assert(sp >= nc->stack+1);
-      sp[-1] = emitir(IRT(IR_CONV, IRT_I64), sp[-1],
-		      (IRT_I64<<5)|IRT_INT|IRCONV_SEXT);
-    } else if (op == NARROW_INT) {
-      lua_assert(next < last);
-      *sp++ = nc->t == IRT_I64 ?
-	      lj_ir_kint64(J, (int64_t)(int32_t)*next++) :
-	      lj_ir_kint(J, *next++);
-    } else {  /* Regular IROpT. Pops two operands and pushes one result. */
-      IRRef mode = nc->mode;
-      lua_assert(sp >= nc->stack+2);
-      sp--;
-      /* Omit some overflow checks for array indexing. See comments above. */
-      if ((mode & IRCONV_CONVMASK) == IRCONV_INDEX) {
-	if (next == last && irref_isk(narrow_ref(sp[0])) &&
-	  (uint32_t)IR(narrow_ref(sp[0]))->i + 0x40000000u < 0x80000000u)
-	  guardot = 0;
-	else  /* Otherwise cache a stronger check. */
-	  mode += IRCONV_CHECK-IRCONV_INDEX;
-      }
-      sp[-1] = emitir(op+guardot, sp[-1], sp[0]);
-      /* Add to cache. */
-      if (narrow_ref(ref))
-	narrow_bpc_set(J, narrow_ref(ref), narrow_ref(sp[-1]), mode);
-    }
-  }
-  lua_assert(sp == nc->stack+1);
-  return nc->stack[0];
-}
-
-/* Narrow a type conversion of an arithmetic operation. */
-TRef LJ_FASTCALL lj_opt_narrow_convert(jit_State *J)
-{
-  if ((J->flags & JIT_F_OPT_NARROW)) {
-    NarrowConv nc;
-    nc.J = J;
-    nc.sp = nc.stack;
-    nc.maxsp = &nc.stack[NARROW_MAX_STACK-4];
-    nc.t = irt_type(fins->t);
-    if (fins->o == IR_TOBIT) {
-      nc.mode = IRCONV_TOBIT;  /* Used only in the backpropagation cache. */
-      nc.lim = 2;  /* TOBIT can use a more optimistic rule. */
-    } else {
-      nc.mode = fins->op2;
-      nc.lim = 1;
-    }
-    if (narrow_conv_backprop(&nc, fins->op1, 0) <= nc.lim)
-      return narrow_conv_emit(J, &nc);
-  }
-  return NEXTFOLD;
-}
-
-/* -- Narrowing of implicit conversions ----------------------------------- */
-
-/* Recursively strip overflow checks. */
-static TRef narrow_stripov(jit_State *J, TRef tr, int lastop, IRRef mode)
-{
-  IRRef ref = tref_ref(tr);
-  IRIns *ir = IR(ref);
-  int op = ir->o;
-  if (op >= IR_ADDOV && op <= lastop) {
-    BPropEntry *bp = narrow_bpc_get(J, ref, mode);
-    if (bp) {
-      return TREF(bp->val, irt_t(IR(bp->val)->t));
-    } else {
-      IRRef op1 = ir->op1, op2 = ir->op2;  /* The IR may be reallocated. */
-      op1 = narrow_stripov(J, op1, lastop, mode);
-      op2 = narrow_stripov(J, op2, lastop, mode);
-      tr = emitir(IRT(op - IR_ADDOV + IR_ADD,
-		      ((mode & IRCONV_DSTMASK) >> IRCONV_DSH)), op1, op2);
-      narrow_bpc_set(J, ref, tref_ref(tr), mode);
-    }
-  } else if (LJ_64 && (mode & IRCONV_SEXT) && !irt_is64(ir->t)) {
-    tr = emitir(IRT(IR_CONV, IRT_INTP), tr, mode);
-  }
-  return tr;
-}
-
-/* Narrow array index. */
-TRef LJ_FASTCALL lj_opt_narrow_index(jit_State *J, TRef tr)
-{
-  IRIns *ir;
-  lua_assert(tref_isnumber(tr));
-  if (tref_isnum(tr))  /* Conversion may be narrowed, too. See above. */
-    return emitir(IRTGI(IR_CONV), tr, IRCONV_INT_NUM|IRCONV_INDEX);
-  /* Omit some overflow checks for array indexing. See comments above. */
-  ir = IR(tref_ref(tr));
-  if ((ir->o == IR_ADDOV || ir->o == IR_SUBOV) && irref_isk(ir->op2) &&
-      (uint32_t)IR(ir->op2)->i + 0x40000000u < 0x80000000u)
-    return emitir(IRTI(ir->o - IR_ADDOV + IR_ADD), ir->op1, ir->op2);
-  return tr;
-}
-
-/* Narrow conversion to integer operand (overflow undefined). */
-TRef LJ_FASTCALL lj_opt_narrow_toint(jit_State *J, TRef tr)
-{
-  if (tref_isstr(tr))
-    tr = emitir(IRTG(IR_STRTO, IRT_NUM), tr, 0);
-  if (tref_isnum(tr))  /* Conversion may be narrowed, too. See above. */
-    return emitir(IRTI(IR_CONV), tr, IRCONV_INT_NUM|IRCONV_ANY);
-  if (!tref_isinteger(tr))
-    lj_trace_err(J, LJ_TRERR_BADTYPE);
-  /*
-  ** Undefined overflow semantics allow stripping of ADDOV, SUBOV and MULOV.
-  ** Use IRCONV_TOBIT for the cache entries, since the semantics are the same.
-  */
-  return narrow_stripov(J, tr, IR_MULOV, (IRT_INT<<5)|IRT_INT|IRCONV_TOBIT);
-}
-
-/* Narrow conversion to bitop operand (overflow wrapped). */
-TRef LJ_FASTCALL lj_opt_narrow_tobit(jit_State *J, TRef tr)
-{
-  if (tref_isstr(tr))
-    tr = emitir(IRTG(IR_STRTO, IRT_NUM), tr, 0);
-  if (tref_isnum(tr))  /* Conversion may be narrowed, too. See above. */
-    return emitir(IRTI(IR_TOBIT), tr, lj_ir_knum_tobit(J));
-  if (!tref_isinteger(tr))
-    lj_trace_err(J, LJ_TRERR_BADTYPE);
-  /*
-  ** Wrapped overflow semantics allow stripping of ADDOV and SUBOV.
-  ** MULOV cannot be stripped due to precision widening.
-  */
-  return narrow_stripov(J, tr, IR_SUBOV, (IRT_INT<<5)|IRT_INT|IRCONV_TOBIT);
-}
-
-#if LJ_HASFFI
-/* Narrow C array index (overflow undefined). */
-TRef LJ_FASTCALL lj_opt_narrow_cindex(jit_State *J, TRef tr)
-{
-  lua_assert(tref_isnumber(tr));
-  if (tref_isnum(tr))
-    return emitir(IRT(IR_CONV, IRT_INTP), tr,
-		  (IRT_INTP<<5)|IRT_NUM|IRCONV_TRUNC|IRCONV_ANY);
-  /* Undefined overflow semantics allow stripping of ADDOV, SUBOV and MULOV. */
-  return narrow_stripov(J, tr, IR_MULOV,
-			LJ_64 ? ((IRT_INTP<<5)|IRT_INT|IRCONV_SEXT) :
-				((IRT_INTP<<5)|IRT_INT|IRCONV_TOBIT));
-}
-#endif
-
-/* -- Narrowing of arithmetic operators ----------------------------------- */
-
-/* Check whether a number fits into an int32_t (-0 is ok, too). */
-static int numisint(lua_Number n)
-{
-  return (n == (lua_Number)lj_num2int(n));
-}
-
-/* Narrowing of arithmetic operations. */
-TRef lj_opt_narrow_arith(jit_State *J, TRef rb, TRef rc,
-			 TValue *vb, TValue *vc, IROp op)
-{
-  if (tref_isstr(rb)) {
-    rb = emitir(IRTG(IR_STRTO, IRT_NUM), rb, 0);
-    lj_strscan_num(strV(vb), vb);
-  }
-  if (tref_isstr(rc)) {
-    rc = emitir(IRTG(IR_STRTO, IRT_NUM), rc, 0);
-    lj_strscan_num(strV(vc), vc);
-  }
-  /* Must not narrow MUL in non-DUALNUM variant, because it loses -0. */
-  if ((op >= IR_ADD && op <= (LJ_DUALNUM ? IR_MUL : IR_SUB)) &&
-      tref_isinteger(rb) && tref_isinteger(rc) &&
-      numisint(lj_vm_foldarith(numberVnum(vb), numberVnum(vc),
-			       (int)op - (int)IR_ADD)))
-    return emitir(IRTGI((int)op - (int)IR_ADD + (int)IR_ADDOV), rb, rc);
-  if (!tref_isnum(rb)) rb = emitir(IRTN(IR_CONV), rb, IRCONV_NUM_INT);
-  if (!tref_isnum(rc)) rc = emitir(IRTN(IR_CONV), rc, IRCONV_NUM_INT);
-  return emitir(IRTN(op), rb, rc);
-}
-
-/* Narrowing of unary minus operator. */
-TRef lj_opt_narrow_unm(jit_State *J, TRef rc, TValue *vc)
-{
-  if (tref_isstr(rc)) {
-    rc = emitir(IRTG(IR_STRTO, IRT_NUM), rc, 0);
-    lj_strscan_num(strV(vc), vc);
-  }
-  if (tref_isinteger(rc)) {
-    if ((uint32_t)numberVint(vc) != 0x80000000u)
-      return emitir(IRTGI(IR_SUBOV), lj_ir_kint(J, 0), rc);
-    rc = emitir(IRTN(IR_CONV), rc, IRCONV_NUM_INT);
-  }
-  return emitir(IRTN(IR_NEG), rc, lj_ir_knum_neg(J));
-}
-
-/* Narrowing of modulo operator. */
-TRef lj_opt_narrow_mod(jit_State *J, TRef rb, TRef rc, TValue *vc)
-{
-  TRef tmp;
-  if (tvisstr(vc) && !lj_strscan_num(strV(vc), vc))
-    lj_trace_err(J, LJ_TRERR_BADTYPE);
-  if ((LJ_DUALNUM || (J->flags & JIT_F_OPT_NARROW)) &&
-      tref_isinteger(rb) && tref_isinteger(rc) &&
-      (tvisint(vc) ? intV(vc) != 0 : !tviszero(vc))) {
-    emitir(IRTGI(IR_NE), rc, lj_ir_kint(J, 0));
-    return emitir(IRTI(IR_MOD), rb, rc);
-  }
-  /* b % c ==> b - floor(b/c)*c */
-  rb = lj_ir_tonum(J, rb);
-  rc = lj_ir_tonum(J, rc);
-  tmp = emitir(IRTN(IR_DIV), rb, rc);
-  tmp = emitir(IRTN(IR_FPMATH), tmp, IRFPM_FLOOR);
-  tmp = emitir(IRTN(IR_MUL), tmp, rc);
-  return emitir(IRTN(IR_SUB), rb, tmp);
-}
-
-/* Narrowing of power operator or math.pow. */
-TRef lj_opt_narrow_pow(jit_State *J, TRef rb, TRef rc, TValue *vc)
-{
-  if (tvisstr(vc) && !lj_strscan_num(strV(vc), vc))
-    lj_trace_err(J, LJ_TRERR_BADTYPE);
-  /* Narrowing must be unconditional to preserve (-x)^i semantics. */
-  if (tvisint(vc) || numisint(numV(vc))) {
-    int checkrange = 0;
-    /* Split pow is faster for bigger exponents. But do this only for (+k)^i. */
-    if (tref_isk(rb) && (int32_t)ir_knum(IR(tref_ref(rb)))->u32.hi >= 0) {
-      int32_t k = numberVint(vc);
-      if (!(k >= -65536 && k <= 65536)) goto split_pow;
-      checkrange = 1;
-    }
-    if (!tref_isinteger(rc)) {
-      if (tref_isstr(rc))
-	rc = emitir(IRTG(IR_STRTO, IRT_NUM), rc, 0);
-      /* Guarded conversion to integer! */
-      rc = emitir(IRTGI(IR_CONV), rc, IRCONV_INT_NUM|IRCONV_CHECK);
-    }
-    if (checkrange && !tref_isk(rc)) {  /* Range guard: -65536 <= i <= 65536 */
-      TRef tmp = emitir(IRTI(IR_ADD), rc, lj_ir_kint(J, 65536));
-      emitir(IRTGI(IR_ULE), tmp, lj_ir_kint(J, 2*65536));
-    }
-    return emitir(IRTN(IR_POW), rb, rc);
-  }
-split_pow:
-  /* FOLD covers most cases, but some are easier to do here. */
-  if (tref_isk(rb) && tvispone(ir_knum(IR(tref_ref(rb)))))
-    return rb;  /* 1 ^ x ==> 1 */
-  rc = lj_ir_tonum(J, rc);
-  if (tref_isk(rc) && ir_knum(IR(tref_ref(rc)))->n == 0.5)
-    return emitir(IRTN(IR_FPMATH), rb, IRFPM_SQRT);  /* x ^ 0.5 ==> sqrt(x) */
-  /* Split up b^c into exp2(c*log2(b)). Assembler may rejoin later. */
-  rb = emitir(IRTN(IR_FPMATH), rb, IRFPM_LOG2);
-  rc = emitir(IRTN(IR_MUL), rb, rc);
-  return emitir(IRTN(IR_FPMATH), rc, IRFPM_EXP2);
-}
-
-/* -- Predictive narrowing of induction variables ------------------------- */
-
-/* Narrow a single runtime value. */
-static int narrow_forl(jit_State *J, cTValue *o)
-{
-  if (tvisint(o)) return 1;
-  if (LJ_DUALNUM || (J->flags & JIT_F_OPT_NARROW)) return numisint(numV(o));
-  return 0;
-}
-
-/* Narrow the FORL index type by looking at the runtime values. */
-IRType lj_opt_narrow_forl(jit_State *J, cTValue *tv)
-{
-  lua_assert(tvisnumber(&tv[FORL_IDX]) &&
-	     tvisnumber(&tv[FORL_STOP]) &&
-	     tvisnumber(&tv[FORL_STEP]));
-  /* Narrow only if the runtime values of start/stop/step are all integers. */
-  if (narrow_forl(J, &tv[FORL_IDX]) &&
-      narrow_forl(J, &tv[FORL_STOP]) &&
-      narrow_forl(J, &tv[FORL_STEP])) {
-    /* And if the loop index can't possibly overflow. */
-    lua_Number step = numberVnum(&tv[FORL_STEP]);
-    lua_Number sum = numberVnum(&tv[FORL_STOP]) + step;
-    if (0 <= step ? (sum <= 2147483647.0) : (sum >= -2147483648.0))
-      return IRT_INT;
-  }
-  return IRT_NUM;
-}
-
-#undef IR
-#undef fins
-#undef emitir
-#undef emitir_raw
-
-#endif
diff --git a/luajit-2.0/src/lj_opt_sink.c b/luajit-2.0/src/lj_opt_sink.c
deleted file mode 100644
index 3a33346..0000000
--- a/luajit-2.0/src/lj_opt_sink.c
+++ /dev/null
@@ -1,245 +0,0 @@
-/*
-** SINK: Allocation Sinking and Store Sinking.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#define lj_opt_sink_c
-#define LUA_CORE
-
-#include "lj_obj.h"
-
-#if LJ_HASJIT
-
-#include "lj_ir.h"
-#include "lj_jit.h"
-#include "lj_iropt.h"
-#include "lj_target.h"
-
-/* Some local macros to save typing. Undef'd at the end. */
-#define IR(ref)		(&J->cur.ir[(ref)])
-
-/* Check whether the store ref points to an eligible allocation. */
-static IRIns *sink_checkalloc(jit_State *J, IRIns *irs)
-{
-  IRIns *ir = IR(irs->op1);
-  if (!irref_isk(ir->op2))
-    return NULL;  /* Non-constant key. */
-  if (ir->o == IR_HREFK || ir->o == IR_AREF)
-    ir = IR(ir->op1);
-  else if (!(ir->o == IR_HREF || ir->o == IR_NEWREF ||
-	     ir->o == IR_FREF || ir->o == IR_ADD))
-    return NULL;  /* Unhandled reference type (for XSTORE). */
-  ir = IR(ir->op1);
-  if (!(ir->o == IR_TNEW || ir->o == IR_TDUP || ir->o == IR_CNEW))
-    return NULL;  /* Not an allocation. */
-  return ir;  /* Return allocation. */
-}
-
-/* Recursively check whether a value depends on a PHI. */
-static int sink_phidep(jit_State *J, IRRef ref)
-{
-  IRIns *ir = IR(ref);
-  if (irt_isphi(ir->t)) return 1;
-  if (ir->op1 >= REF_FIRST && sink_phidep(J, ir->op1)) return 1;
-  if (ir->op2 >= REF_FIRST && sink_phidep(J, ir->op2)) return 1;
-  return 0;
-}
-
-/* Check whether a value is a sinkable PHI or loop-invariant. */
-static int sink_checkphi(jit_State *J, IRIns *ira, IRRef ref)
-{
-  if (ref >= REF_FIRST) {
-    IRIns *ir = IR(ref);
-    if (irt_isphi(ir->t) || (ir->o == IR_CONV && ir->op2 == IRCONV_NUM_INT &&
-			     irt_isphi(IR(ir->op1)->t))) {
-      ira->prev++;
-      return 1;  /* Sinkable PHI. */
-    }
-    /* Otherwise the value must be loop-invariant. */
-    return ref < J->loopref && !sink_phidep(J, ref);
-  }
-  return 1;  /* Constant (non-PHI). */
-}
-
-/* Mark non-sinkable allocations using single-pass backward propagation.
-**
-** Roots for the marking process are:
-** - Some PHIs or snapshots (see below).
-** - Non-PHI, non-constant values stored to PHI allocations.
-** - All guards.
-** - Any remaining loads not eliminated by store-to-load forwarding.
-** - Stores with non-constant keys.
-** - All stored values.
-*/
-static void sink_mark_ins(jit_State *J)
-{
-  IRIns *ir, *irlast = IR(J->cur.nins-1);
-  for (ir = irlast ; ; ir--) {
-    switch (ir->o) {
-    case IR_BASE:
-      return;  /* Finished. */
-    case IR_CALLL:  /* IRCALL_lj_tab_len */
-    case IR_ALOAD: case IR_HLOAD: case IR_XLOAD: case IR_TBAR:
-      irt_setmark(IR(ir->op1)->t);  /* Mark ref for remaining loads. */
-      break;
-    case IR_FLOAD:
-      if (irt_ismarked(ir->t) || ir->op2 == IRFL_TAB_META)
-	irt_setmark(IR(ir->op1)->t);  /* Mark table for remaining loads. */
-      break;
-    case IR_ASTORE: case IR_HSTORE: case IR_FSTORE: case IR_XSTORE: {
-      IRIns *ira = sink_checkalloc(J, ir);
-      if (!ira || (irt_isphi(ira->t) && !sink_checkphi(J, ira, ir->op2)))
-	irt_setmark(IR(ir->op1)->t);  /* Mark ineligible ref. */
-      irt_setmark(IR(ir->op2)->t);  /* Mark stored value. */
-      break;
-      }
-#if LJ_HASFFI
-    case IR_CNEWI:
-      if (irt_isphi(ir->t) &&
-	  (!sink_checkphi(J, ir, ir->op2) ||
-	   (LJ_32 && ir+1 < irlast && (ir+1)->o == IR_HIOP &&
-	    !sink_checkphi(J, ir, (ir+1)->op2))))
-	irt_setmark(ir->t);  /* Mark ineligible allocation. */
-      /* fallthrough */
-#endif
-    case IR_USTORE:
-      irt_setmark(IR(ir->op2)->t);  /* Mark stored value. */
-      break;
-#if LJ_HASFFI
-    case IR_CALLXS:
-#endif
-    case IR_CALLS:
-      irt_setmark(IR(ir->op1)->t);  /* Mark (potentially) stored values. */
-      break;
-    case IR_PHI: {
-      IRIns *irl = IR(ir->op1), *irr = IR(ir->op2);
-      irl->prev = irr->prev = 0;  /* Clear PHI value counts. */
-      if (irl->o == irr->o &&
-	  (irl->o == IR_TNEW || irl->o == IR_TDUP ||
-	   (LJ_HASFFI && (irl->o == IR_CNEW || irl->o == IR_CNEWI))))
-	break;
-      irt_setmark(irl->t);
-      irt_setmark(irr->t);
-      break;
-      }
-    default:
-      if (irt_ismarked(ir->t) || irt_isguard(ir->t)) {  /* Propagate mark. */
-	if (ir->op1 >= REF_FIRST) irt_setmark(IR(ir->op1)->t);
-	if (ir->op2 >= REF_FIRST) irt_setmark(IR(ir->op2)->t);
-      }
-      break;
-    }
-  }
-}
-
-/* Mark all instructions referenced by a snapshot. */
-static void sink_mark_snap(jit_State *J, SnapShot *snap)
-{
-  SnapEntry *map = &J->cur.snapmap[snap->mapofs];
-  MSize n, nent = snap->nent;
-  for (n = 0; n < nent; n++) {
-    IRRef ref = snap_ref(map[n]);
-    if (!irref_isk(ref))
-      irt_setmark(IR(ref)->t);
-  }
-}
-
-/* Iteratively remark PHI refs with differing marks or PHI value counts. */
-static void sink_remark_phi(jit_State *J)
-{
-  IRIns *ir;
-  int remark;
-  do {
-    remark = 0;
-    for (ir = IR(J->cur.nins-1); ir->o == IR_PHI; ir--) {
-      IRIns *irl = IR(ir->op1), *irr = IR(ir->op2);
-      if (((irl->t.irt ^ irr->t.irt) & IRT_MARK))
-	remark = 1;
-      else if (irl->prev == irr->prev)
-	continue;
-      irt_setmark(IR(ir->op1)->t);
-      irt_setmark(IR(ir->op2)->t);
-    }
-  } while (remark);
-}
-
-/* Sweep instructions and tag sunken allocations and stores. */
-static void sink_sweep_ins(jit_State *J)
-{
-  IRIns *ir, *irfirst = IR(J->cur.nk);
-  for (ir = IR(J->cur.nins-1) ; ir >= irfirst; ir--) {
-    switch (ir->o) {
-    case IR_ASTORE: case IR_HSTORE: case IR_FSTORE: case IR_XSTORE: {
-      IRIns *ira = sink_checkalloc(J, ir);
-      if (ira && !irt_ismarked(ira->t)) {
-	int delta = (int)(ir - ira);
-	ir->prev = REGSP(RID_SINK, delta > 255 ? 255 : delta);
-      } else {
-	ir->prev = REGSP_INIT;
-      }
-      break;
-      }
-    case IR_NEWREF:
-      if (!irt_ismarked(IR(ir->op1)->t)) {
-	ir->prev = REGSP(RID_SINK, 0);
-      } else {
-	irt_clearmark(ir->t);
-	ir->prev = REGSP_INIT;
-      }
-      break;
-#if LJ_HASFFI
-    case IR_CNEW: case IR_CNEWI:
-#endif
-    case IR_TNEW: case IR_TDUP:
-      if (!irt_ismarked(ir->t)) {
-	ir->t.irt &= ~IRT_GUARD;
-	ir->prev = REGSP(RID_SINK, 0);
-	J->cur.sinktags = 1;  /* Signal present SINK tags to assembler. */
-      } else {
-	irt_clearmark(ir->t);
-	ir->prev = REGSP_INIT;
-      }
-      break;
-    case IR_PHI: {
-      IRIns *ira = IR(ir->op2);
-      if (!irt_ismarked(ira->t) &&
-	  (ira->o == IR_TNEW || ira->o == IR_TDUP ||
-	   (LJ_HASFFI && (ira->o == IR_CNEW || ira->o == IR_CNEWI)))) {
-	ir->prev = REGSP(RID_SINK, 0);
-      } else {
-	ir->prev = REGSP_INIT;
-      }
-      break;
-      }
-    default:
-      irt_clearmark(ir->t);
-      ir->prev = REGSP_INIT;
-      break;
-    }
-  }
-}
-
-/* Allocation sinking and store sinking.
-**
-** 1. Mark all non-sinkable allocations.
-** 2. Then sink all remaining allocations and the related stores.
-*/
-void lj_opt_sink(jit_State *J)
-{
-  const uint32_t need = (JIT_F_OPT_SINK|JIT_F_OPT_FWD|
-			 JIT_F_OPT_DCE|JIT_F_OPT_CSE|JIT_F_OPT_FOLD);
-  if ((J->flags & need) == need &&
-      (J->chain[IR_TNEW] || J->chain[IR_TDUP] ||
-       (LJ_HASFFI && (J->chain[IR_CNEW] || J->chain[IR_CNEWI])))) {
-    if (!J->loopref)
-      sink_mark_snap(J, &J->cur.snap[J->cur.nsnap-1]);
-    sink_mark_ins(J);
-    if (J->loopref)
-      sink_remark_phi(J);
-    sink_sweep_ins(J);
-  }
-}
-
-#undef IR
-
-#endif
diff --git a/luajit-2.0/src/lj_opt_split.c b/luajit-2.0/src/lj_opt_split.c
deleted file mode 100644
index 99d1058..0000000
--- a/luajit-2.0/src/lj_opt_split.c
+++ /dev/null
@@ -1,731 +0,0 @@
-/*
-** SPLIT: Split 64 bit IR instructions into 32 bit IR instructions.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#define lj_opt_split_c
-#define LUA_CORE
-
-#include "lj_obj.h"
-
-#if LJ_HASJIT && (LJ_SOFTFP || (LJ_32 && LJ_HASFFI))
-
-#include "lj_err.h"
-#include "lj_str.h"
-#include "lj_ir.h"
-#include "lj_jit.h"
-#include "lj_ircall.h"
-#include "lj_iropt.h"
-#include "lj_vm.h"
-
-/* SPLIT pass:
-**
-** This pass splits up 64 bit IR instructions into multiple 32 bit IR
-** instructions. It's only active for soft-float targets or for 32 bit CPUs
-** which lack native 64 bit integer operations (the FFI is currently the
-** only emitter for 64 bit integer instructions).
-**
-** Splitting the IR in a separate pass keeps each 32 bit IR assembler
-** backend simple. Only a small amount of extra functionality needs to be
-** implemented. This is much easier than adding support for allocating
-** register pairs to each backend (believe me, I tried). A few simple, but
-** important optimizations can be performed by the SPLIT pass, which would
-** be tedious to do in the backend.
-**
-** The basic idea is to replace each 64 bit IR instruction with its 32 bit
-** equivalent plus an extra HIOP instruction. The splitted IR is not passed
-** through FOLD or any other optimizations, so each HIOP is guaranteed to
-** immediately follow it's counterpart. The actual functionality of HIOP is
-** inferred from the previous instruction.
-**
-** The operands of HIOP hold the hiword input references. The output of HIOP
-** is the hiword output reference, which is also used to hold the hiword
-** register or spill slot information. The register allocator treats this
-** instruction independently of any other instruction, which improves code
-** quality compared to using fixed register pairs.
-**
-** It's easier to split up some instructions into two regular 32 bit
-** instructions. E.g. XLOAD is split up into two XLOADs with two different
-** addresses. Obviously 64 bit constants need to be split up into two 32 bit
-** constants, too. Some hiword instructions can be entirely omitted, e.g.
-** when zero-extending a 32 bit value to 64 bits. 64 bit arguments for calls
-** are split up into two 32 bit arguments each.
-**
-** On soft-float targets, floating-point instructions are directly converted
-** to soft-float calls by the SPLIT pass (except for comparisons and MIN/MAX).
-** HIOP for number results has the type IRT_SOFTFP ("sfp" in -jdump).
-**
-** Here's the IR and x64 machine code for 'x.b = x.a + 1' for a struct with
-** two int64_t fields:
-**
-** 0100    p32 ADD    base  +8
-** 0101    i64 XLOAD  0100
-** 0102    i64 ADD    0101  +1
-** 0103    p32 ADD    base  +16
-** 0104    i64 XSTORE 0103  0102
-**
-**         mov rax, [esi+0x8]
-**         add rax, +0x01
-**         mov [esi+0x10], rax
-**
-** Here's the transformed IR and the x86 machine code after the SPLIT pass:
-**
-** 0100    p32 ADD    base  +8
-** 0101    int XLOAD  0100
-** 0102    p32 ADD    base  +12
-** 0103    int XLOAD  0102
-** 0104    int ADD    0101  +1
-** 0105    int HIOP   0103  +0
-** 0106    p32 ADD    base  +16
-** 0107    int XSTORE 0106  0104
-** 0108    int HIOP   0106  0105
-**
-**         mov eax, [esi+0x8]
-**         mov ecx, [esi+0xc]
-**         add eax, +0x01
-**         adc ecx, +0x00
-**         mov [esi+0x10], eax
-**         mov [esi+0x14], ecx
-**
-** You may notice the reassociated hiword address computation, which is
-** later fused into the mov operands by the assembler.
-*/
-
-/* Some local macros to save typing. Undef'd at the end. */
-#define IR(ref)		(&J->cur.ir[(ref)])
-
-/* Directly emit the transformed IR without updating chains etc. */
-static IRRef split_emit(jit_State *J, uint16_t ot, IRRef1 op1, IRRef1 op2)
-{
-  IRRef nref = lj_ir_nextins(J);
-  IRIns *ir = IR(nref);
-  ir->ot = ot;
-  ir->op1 = op1;
-  ir->op2 = op2;
-  return nref;
-}
-
-#if LJ_SOFTFP
-/* Emit a (checked) number to integer conversion. */
-static IRRef split_num2int(jit_State *J, IRRef lo, IRRef hi, int check)
-{
-  IRRef tmp, res;
-#if LJ_LE
-  tmp = split_emit(J, IRT(IR_CARG, IRT_NIL), lo, hi);
-#else
-  tmp = split_emit(J, IRT(IR_CARG, IRT_NIL), hi, lo);
-#endif
-  res = split_emit(J, IRTI(IR_CALLN), tmp, IRCALL_softfp_d2i);
-  if (check) {
-    tmp = split_emit(J, IRTI(IR_CALLN), res, IRCALL_softfp_i2d);
-    split_emit(J, IRT(IR_HIOP, IRT_SOFTFP), tmp, tmp);
-    split_emit(J, IRTGI(IR_EQ), tmp, lo);
-    split_emit(J, IRTG(IR_HIOP, IRT_SOFTFP), tmp+1, hi);
-  }
-  return res;
-}
-
-/* Emit a CALLN with one split 64 bit argument. */
-static IRRef split_call_l(jit_State *J, IRRef1 *hisubst, IRIns *oir,
-			  IRIns *ir, IRCallID id)
-{
-  IRRef tmp, op1 = ir->op1;
-  J->cur.nins--;
-#if LJ_LE
-  tmp = split_emit(J, IRT(IR_CARG, IRT_NIL), oir[op1].prev, hisubst[op1]);
-#else
-  tmp = split_emit(J, IRT(IR_CARG, IRT_NIL), hisubst[op1], oir[op1].prev);
-#endif
-  ir->prev = tmp = split_emit(J, IRTI(IR_CALLN), tmp, id);
-  return split_emit(J, IRT(IR_HIOP, IRT_SOFTFP), tmp, tmp);
-}
-
-/* Emit a CALLN with one split 64 bit argument and a 32 bit argument. */
-static IRRef split_call_li(jit_State *J, IRRef1 *hisubst, IRIns *oir,
-			   IRIns *ir, IRCallID id)
-{
-  IRRef tmp, op1 = ir->op1, op2 = ir->op2;
-  J->cur.nins--;
-#if LJ_LE
-  tmp = split_emit(J, IRT(IR_CARG, IRT_NIL), oir[op1].prev, hisubst[op1]);
-#else
-  tmp = split_emit(J, IRT(IR_CARG, IRT_NIL), hisubst[op1], oir[op1].prev);
-#endif
-  tmp = split_emit(J, IRT(IR_CARG, IRT_NIL), tmp, oir[op2].prev);
-  ir->prev = tmp = split_emit(J, IRTI(IR_CALLN), tmp, id);
-  return split_emit(J, IRT(IR_HIOP, IRT_SOFTFP), tmp, tmp);
-}
-#endif
-
-/* Emit a CALLN with two split 64 bit arguments. */
-static IRRef split_call_ll(jit_State *J, IRRef1 *hisubst, IRIns *oir,
-			   IRIns *ir, IRCallID id)
-{
-  IRRef tmp, op1 = ir->op1, op2 = ir->op2;
-  J->cur.nins--;
-#if LJ_LE
-  tmp = split_emit(J, IRT(IR_CARG, IRT_NIL), oir[op1].prev, hisubst[op1]);
-  tmp = split_emit(J, IRT(IR_CARG, IRT_NIL), tmp, oir[op2].prev);
-  tmp = split_emit(J, IRT(IR_CARG, IRT_NIL), tmp, hisubst[op2]);
-#else
-  tmp = split_emit(J, IRT(IR_CARG, IRT_NIL), hisubst[op1], oir[op1].prev);
-  tmp = split_emit(J, IRT(IR_CARG, IRT_NIL), tmp, hisubst[op2]);
-  tmp = split_emit(J, IRT(IR_CARG, IRT_NIL), tmp, oir[op2].prev);
-#endif
-  ir->prev = tmp = split_emit(J, IRTI(IR_CALLN), tmp, id);
-  return split_emit(J,
-    IRT(IR_HIOP, (LJ_SOFTFP && irt_isnum(ir->t)) ? IRT_SOFTFP : IRT_INT),
-    tmp, tmp);
-}
-
-/* Get a pointer to the other 32 bit word (LE: hiword, BE: loword). */
-static IRRef split_ptr(jit_State *J, IRIns *oir, IRRef ref)
-{
-  IRRef nref = oir[ref].prev;
-  IRIns *ir = IR(nref);
-  int32_t ofs = 4;
-  if (ir->o == IR_KPTR)
-    return lj_ir_kptr(J, (char *)ir_kptr(ir) + ofs);
-  if (ir->o == IR_ADD && irref_isk(ir->op2) && !irt_isphi(oir[ref].t)) {
-    /* Reassociate address. */
-    ofs += IR(ir->op2)->i;
-    nref = ir->op1;
-    if (ofs == 0) return nref;
-  }
-  return split_emit(J, IRTI(IR_ADD), nref, lj_ir_kint(J, ofs));
-}
-
-/* Substitute references of a snapshot. */
-static void split_subst_snap(jit_State *J, SnapShot *snap, IRIns *oir)
-{
-  SnapEntry *map = &J->cur.snapmap[snap->mapofs];
-  MSize n, nent = snap->nent;
-  for (n = 0; n < nent; n++) {
-    SnapEntry sn = map[n];
-    IRIns *ir = &oir[snap_ref(sn)];
-    if (!(LJ_SOFTFP && (sn & SNAP_SOFTFPNUM) && irref_isk(snap_ref(sn))))
-      map[n] = ((sn & 0xffff0000) | ir->prev);
-  }
-}
-
-/* Transform the old IR to the new IR. */
-static void split_ir(jit_State *J)
-{
-  IRRef nins = J->cur.nins, nk = J->cur.nk;
-  MSize irlen = nins - nk;
-  MSize need = (irlen+1)*(sizeof(IRIns) + sizeof(IRRef1));
-  IRIns *oir = (IRIns *)lj_str_needbuf(J->L, &G(J->L)->tmpbuf, need);
-  IRRef1 *hisubst;
-  IRRef ref, snref;
-  SnapShot *snap;
-
-  /* Copy old IR to buffer. */
-  memcpy(oir, IR(nk), irlen*sizeof(IRIns));
-  /* Bias hiword substitution table and old IR. Loword kept in field prev. */
-  hisubst = (IRRef1 *)&oir[irlen] - nk;
-  oir -= nk;
-
-  /* Remove all IR instructions, but retain IR constants. */
-  J->cur.nins = REF_FIRST;
-  J->loopref = 0;
-
-  /* Process constants and fixed references. */
-  for (ref = nk; ref <= REF_BASE; ref++) {
-    IRIns *ir = &oir[ref];
-    if ((LJ_SOFTFP && ir->o == IR_KNUM) || ir->o == IR_KINT64) {
-      /* Split up 64 bit constant. */
-      TValue tv = *ir_k64(ir);
-      ir->prev = lj_ir_kint(J, (int32_t)tv.u32.lo);
-      hisubst[ref] = lj_ir_kint(J, (int32_t)tv.u32.hi);
-    } else {
-      ir->prev = ref;  /* Identity substitution for loword. */
-      hisubst[ref] = 0;
-    }
-  }
-
-  /* Process old IR instructions. */
-  snap = J->cur.snap;
-  snref = snap->ref;
-  for (ref = REF_FIRST; ref < nins; ref++) {
-    IRIns *ir = &oir[ref];
-    IRRef nref = lj_ir_nextins(J);
-    IRIns *nir = IR(nref);
-    IRRef hi = 0;
-
-    if (ref >= snref) {
-      snap->ref = nref;
-      split_subst_snap(J, snap++, oir);
-      snref = snap < &J->cur.snap[J->cur.nsnap] ? snap->ref : ~(IRRef)0;
-    }
-
-    /* Copy-substitute old instruction to new instruction. */
-    nir->op1 = ir->op1 < nk ? ir->op1 : oir[ir->op1].prev;
-    nir->op2 = ir->op2 < nk ? ir->op2 : oir[ir->op2].prev;
-    ir->prev = nref;  /* Loword substitution. */
-    nir->o = ir->o;
-    nir->t.irt = ir->t.irt & ~(IRT_MARK|IRT_ISPHI);
-    hisubst[ref] = 0;
-
-    /* Split 64 bit instructions. */
-#if LJ_SOFTFP
-    if (irt_isnum(ir->t)) {
-      nir->t.irt = IRT_INT | (nir->t.irt & IRT_GUARD);  /* Turn into INT op. */
-      /* Note: hi ref = lo ref + 1! Required for SNAP_SOFTFPNUM logic. */
-      switch (ir->o) {
-      case IR_ADD:
-	hi = split_call_ll(J, hisubst, oir, ir, IRCALL_softfp_add);
-	break;
-      case IR_SUB:
-	hi = split_call_ll(J, hisubst, oir, ir, IRCALL_softfp_sub);
-	break;
-      case IR_MUL:
-	hi = split_call_ll(J, hisubst, oir, ir, IRCALL_softfp_mul);
-	break;
-      case IR_DIV:
-	hi = split_call_ll(J, hisubst, oir, ir, IRCALL_softfp_div);
-	break;
-      case IR_POW:
-	hi = split_call_li(J, hisubst, oir, ir, IRCALL_lj_vm_powi);
-	break;
-      case IR_FPMATH:
-	/* Try to rejoin pow from EXP2, MUL and LOG2. */
-	if (nir->op2 == IRFPM_EXP2 && nir->op1 > J->loopref) {
-	  IRIns *irp = IR(nir->op1);
-	  if (irp->o == IR_CALLN && irp->op2 == IRCALL_softfp_mul) {
-	    IRIns *irm4 = IR(irp->op1);
-	    IRIns *irm3 = IR(irm4->op1);
-	    IRIns *irm12 = IR(irm3->op1);
-	    IRIns *irl1 = IR(irm12->op1);
-	    if (irm12->op1 > J->loopref && irl1->o == IR_CALLN &&
-		irl1->op2 == IRCALL_lj_vm_log2) {
-	      IRRef tmp = irl1->op1;  /* Recycle first two args from LOG2. */
-	      IRRef arg3 = irm3->op2, arg4 = irm4->op2;
-	      J->cur.nins--;
-	      tmp = split_emit(J, IRT(IR_CARG, IRT_NIL), tmp, arg3);
-	      tmp = split_emit(J, IRT(IR_CARG, IRT_NIL), tmp, arg4);
-	      ir->prev = tmp = split_emit(J, IRTI(IR_CALLN), tmp, IRCALL_pow);
-	      hi = split_emit(J, IRT(IR_HIOP, IRT_SOFTFP), tmp, tmp);
-	      break;
-	    }
-	  }
-	}
-	hi = split_call_l(J, hisubst, oir, ir, IRCALL_lj_vm_floor + ir->op2);
-	break;
-      case IR_ATAN2:
-	hi = split_call_ll(J, hisubst, oir, ir, IRCALL_atan2);
-	break;
-      case IR_LDEXP:
-	hi = split_call_li(J, hisubst, oir, ir, IRCALL_ldexp);
-	break;
-      case IR_NEG: case IR_ABS:
-	nir->o = IR_CONV;  /* Pass through loword. */
-	nir->op2 = (IRT_INT << 5) | IRT_INT;
-	hi = split_emit(J, IRT(ir->o == IR_NEG ? IR_BXOR : IR_BAND, IRT_SOFTFP),
-			hisubst[ir->op1], hisubst[ir->op2]);
-	break;
-      case IR_SLOAD:
-	if ((nir->op2 & IRSLOAD_CONVERT)) {  /* Convert from int to number. */
-	  nir->op2 &= ~IRSLOAD_CONVERT;
-	  ir->prev = nref = split_emit(J, IRTI(IR_CALLN), nref,
-				       IRCALL_softfp_i2d);
-	  hi = split_emit(J, IRT(IR_HIOP, IRT_SOFTFP), nref, nref);
-	  break;
-	}
-	/* fallthrough */
-      case IR_ALOAD: case IR_HLOAD: case IR_ULOAD: case IR_VLOAD:
-      case IR_STRTO:
-	hi = split_emit(J, IRT(IR_HIOP, IRT_SOFTFP), nref, nref);
-	break;
-      case IR_XLOAD: {
-	IRIns inslo = *nir;  /* Save/undo the emit of the lo XLOAD. */
-	J->cur.nins--;
-	hi = split_ptr(J, oir, ir->op1);  /* Insert the hiref ADD. */
-	nref = lj_ir_nextins(J);
-	nir = IR(nref);
-	*nir = inslo;  /* Re-emit lo XLOAD immediately before hi XLOAD. */
-	hi = split_emit(J, IRT(IR_XLOAD, IRT_SOFTFP), hi, ir->op2);
-#if LJ_LE
-	ir->prev = nref;
-#else
-	ir->prev = hi; hi = nref;
-#endif
-	break;
-	}
-      case IR_ASTORE: case IR_HSTORE: case IR_USTORE: case IR_XSTORE:
-	split_emit(J, IRT(IR_HIOP, IRT_SOFTFP), nir->op1, hisubst[ir->op2]);
-	break;
-      case IR_CONV: {  /* Conversion to number. Others handled below. */
-	IRType st = (IRType)(ir->op2 & IRCONV_SRCMASK);
-	UNUSED(st);
-#if LJ_32 && LJ_HASFFI
-	if (st == IRT_I64 || st == IRT_U64) {
-	  hi = split_call_l(J, hisubst, oir, ir,
-		 st == IRT_I64 ? IRCALL_fp64_l2d : IRCALL_fp64_ul2d);
-	  break;
-	}
-#endif
-	lua_assert(st == IRT_INT ||
-		   (LJ_32 && LJ_HASFFI && (st == IRT_U32 || st == IRT_FLOAT)));
-	nir->o = IR_CALLN;
-#if LJ_32 && LJ_HASFFI
-	nir->op2 = st == IRT_INT ? IRCALL_softfp_i2d :
-		   st == IRT_FLOAT ? IRCALL_softfp_f2d :
-		   IRCALL_softfp_ui2d;
-#else
-	nir->op2 = IRCALL_softfp_i2d;
-#endif
-	hi = split_emit(J, IRT(IR_HIOP, IRT_SOFTFP), nref, nref);
-	break;
-	}
-      case IR_CALLN:
-      case IR_CALLL:
-      case IR_CALLS:
-      case IR_CALLXS:
-	goto split_call;
-      case IR_PHI:
-	if (nir->op1 == nir->op2)
-	  J->cur.nins--;  /* Drop useless PHIs. */
-	if (hisubst[ir->op1] != hisubst[ir->op2])
-	  split_emit(J, IRT(IR_PHI, IRT_SOFTFP),
-		     hisubst[ir->op1], hisubst[ir->op2]);
-	break;
-      case IR_HIOP:
-	J->cur.nins--;  /* Drop joining HIOP. */
-	ir->prev = nir->op1;
-	hi = nir->op2;
-	break;
-      default:
-	lua_assert(ir->o <= IR_NE || ir->o == IR_MIN || ir->o == IR_MAX);
-	hi = split_emit(J, IRTG(IR_HIOP, IRT_SOFTFP),
-			hisubst[ir->op1], hisubst[ir->op2]);
-	break;
-      }
-    } else
-#endif
-#if LJ_32 && LJ_HASFFI
-    if (irt_isint64(ir->t)) {
-      IRRef hiref = hisubst[ir->op1];
-      nir->t.irt = IRT_INT | (nir->t.irt & IRT_GUARD);  /* Turn into INT op. */
-      switch (ir->o) {
-      case IR_ADD:
-      case IR_SUB:
-	/* Use plain op for hiword if loword cannot produce a carry/borrow. */
-	if (irref_isk(nir->op2) && IR(nir->op2)->i == 0) {
-	  ir->prev = nir->op1;  /* Pass through loword. */
-	  nir->op1 = hiref; nir->op2 = hisubst[ir->op2];
-	  hi = nref;
-	  break;
-	}
-	/* fallthrough */
-      case IR_NEG:
-	hi = split_emit(J, IRTI(IR_HIOP), hiref, hisubst[ir->op2]);
-	break;
-      case IR_MUL:
-	hi = split_call_ll(J, hisubst, oir, ir, IRCALL_lj_carith_mul64);
-	break;
-      case IR_DIV:
-	hi = split_call_ll(J, hisubst, oir, ir,
-			   irt_isi64(ir->t) ? IRCALL_lj_carith_divi64 :
-					      IRCALL_lj_carith_divu64);
-	break;
-      case IR_MOD:
-	hi = split_call_ll(J, hisubst, oir, ir,
-			   irt_isi64(ir->t) ? IRCALL_lj_carith_modi64 :
-					      IRCALL_lj_carith_modu64);
-	break;
-      case IR_POW:
-	hi = split_call_ll(J, hisubst, oir, ir,
-			   irt_isi64(ir->t) ? IRCALL_lj_carith_powi64 :
-					      IRCALL_lj_carith_powu64);
-	break;
-      case IR_FLOAD:
-	lua_assert(ir->op2 == IRFL_CDATA_INT64);
-	hi = split_emit(J, IRTI(IR_FLOAD), nir->op1, IRFL_CDATA_INT64_4);
-#if LJ_BE
-	ir->prev = hi; hi = nref;
-#endif
-	break;
-      case IR_XLOAD:
-	hi = split_emit(J, IRTI(IR_XLOAD), split_ptr(J, oir, ir->op1), ir->op2);
-#if LJ_BE
-	ir->prev = hi; hi = nref;
-#endif
-	break;
-      case IR_XSTORE:
-	split_emit(J, IRTI(IR_HIOP), nir->op1, hisubst[ir->op2]);
-	break;
-      case IR_CONV: {  /* Conversion to 64 bit integer. Others handled below. */
-	IRType st = (IRType)(ir->op2 & IRCONV_SRCMASK);
-#if LJ_SOFTFP
-	if (st == IRT_NUM) {  /* NUM to 64 bit int conv. */
-	  hi = split_call_l(J, hisubst, oir, ir,
-		 irt_isi64(ir->t) ? IRCALL_fp64_d2l : IRCALL_fp64_d2ul);
-	} else if (st == IRT_FLOAT) {  /* FLOAT to 64 bit int conv. */
-	  nir->o = IR_CALLN;
-	  nir->op2 = irt_isi64(ir->t) ? IRCALL_fp64_f2l : IRCALL_fp64_f2ul;
-	  hi = split_emit(J, IRTI(IR_HIOP), nref, nref);
-	}
-#else
-	if (st == IRT_NUM || st == IRT_FLOAT) {  /* FP to 64 bit int conv. */
-	  hi = split_emit(J, IRTI(IR_HIOP), nir->op1, nref);
-	}
-#endif
-	else if (st == IRT_I64 || st == IRT_U64) {  /* 64/64 bit cast. */
-	  /* Drop cast, since assembler doesn't care. */
-	  goto fwdlo;
-	} else if ((ir->op2 & IRCONV_SEXT)) {  /* Sign-extend to 64 bit. */
-	  IRRef k31 = lj_ir_kint(J, 31);
-	  nir = IR(nref);  /* May have been reallocated. */
-	  ir->prev = nir->op1;  /* Pass through loword. */
-	  nir->o = IR_BSAR;  /* hi = bsar(lo, 31). */
-	  nir->op2 = k31;
-	  hi = nref;
-	} else {  /* Zero-extend to 64 bit. */
-	  hi = lj_ir_kint(J, 0);
-	  goto fwdlo;
-	}
-	break;
-	}
-      case IR_CALLXS:
-	goto split_call;
-      case IR_PHI: {
-	IRRef hiref2;
-	if ((irref_isk(nir->op1) && irref_isk(nir->op2)) ||
-	    nir->op1 == nir->op2)
-	  J->cur.nins--;  /* Drop useless PHIs. */
-	hiref2 = hisubst[ir->op2];
-	if (!((irref_isk(hiref) && irref_isk(hiref2)) || hiref == hiref2))
-	  split_emit(J, IRTI(IR_PHI), hiref, hiref2);
-	break;
-	}
-      case IR_HIOP:
-	J->cur.nins--;  /* Drop joining HIOP. */
-	ir->prev = nir->op1;
-	hi = nir->op2;
-	break;
-      default:
-	lua_assert(ir->o <= IR_NE);  /* Comparisons. */
-	split_emit(J, IRTGI(IR_HIOP), hiref, hisubst[ir->op2]);
-	break;
-      }
-    } else
-#endif
-#if LJ_SOFTFP
-    if (ir->o == IR_SLOAD) {
-      if ((nir->op2 & IRSLOAD_CONVERT)) {  /* Convert from number to int. */
-	nir->op2 &= ~IRSLOAD_CONVERT;
-	if (!(nir->op2 & IRSLOAD_TYPECHECK))
-	  nir->t.irt = IRT_INT;  /* Drop guard. */
-	split_emit(J, IRT(IR_HIOP, IRT_SOFTFP), nref, nref);
-	ir->prev = split_num2int(J, nref, nref+1, irt_isguard(ir->t));
-      }
-    } else if (ir->o == IR_TOBIT) {
-      IRRef tmp, op1 = ir->op1;
-      J->cur.nins--;
-#if LJ_LE
-      tmp = split_emit(J, IRT(IR_CARG, IRT_NIL), oir[op1].prev, hisubst[op1]);
-#else
-      tmp = split_emit(J, IRT(IR_CARG, IRT_NIL), hisubst[op1], oir[op1].prev);
-#endif
-      ir->prev = split_emit(J, IRTI(IR_CALLN), tmp, IRCALL_lj_vm_tobit);
-    } else if (ir->o == IR_TOSTR) {
-      if (hisubst[ir->op1]) {
-	if (irref_isk(ir->op1))
-	  nir->op1 = ir->op1;
-	else
-	  split_emit(J, IRT(IR_HIOP, IRT_NIL), hisubst[ir->op1], nref);
-      }
-    } else if (ir->o == IR_HREF || ir->o == IR_NEWREF) {
-      if (irref_isk(ir->op2) && hisubst[ir->op2])
-	nir->op2 = ir->op2;
-    } else
-#endif
-    if (ir->o == IR_CONV) {  /* See above, too. */
-      IRType st = (IRType)(ir->op2 & IRCONV_SRCMASK);
-#if LJ_32 && LJ_HASFFI
-      if (st == IRT_I64 || st == IRT_U64) {  /* Conversion from 64 bit int. */
-#if LJ_SOFTFP
-	if (irt_isfloat(ir->t)) {
-	  split_call_l(J, hisubst, oir, ir,
-		       st == IRT_I64 ? IRCALL_fp64_l2f : IRCALL_fp64_ul2f);
-	  J->cur.nins--;  /* Drop unused HIOP. */
-	}
-#else
-	if (irt_isfp(ir->t)) {  /* 64 bit integer to FP conversion. */
-	  ir->prev = split_emit(J, IRT(IR_HIOP, irt_type(ir->t)),
-				hisubst[ir->op1], nref);
-	}
-#endif
-	else {  /* Truncate to lower 32 bits. */
-	fwdlo:
-	  ir->prev = nir->op1;  /* Forward loword. */
-	  /* Replace with NOP to avoid messing up the snapshot logic. */
-	  nir->ot = IRT(IR_NOP, IRT_NIL);
-	  nir->op1 = nir->op2 = 0;
-	}
-      }
-#endif
-#if LJ_SOFTFP && LJ_32 && LJ_HASFFI
-      else if (irt_isfloat(ir->t)) {
-	if (st == IRT_NUM) {
-	  split_call_l(J, hisubst, oir, ir, IRCALL_softfp_d2f);
-	  J->cur.nins--;  /* Drop unused HIOP. */
-	} else {
-	  nir->o = IR_CALLN;
-	  nir->op2 = st == IRT_INT ? IRCALL_softfp_i2f : IRCALL_softfp_ui2f;
-	}
-      } else if (st == IRT_FLOAT) {
-	nir->o = IR_CALLN;
-	nir->op2 = irt_isint(ir->t) ? IRCALL_softfp_f2i : IRCALL_softfp_f2ui;
-      } else
-#endif
-#if LJ_SOFTFP
-      if (st == IRT_NUM || (LJ_32 && LJ_HASFFI && st == IRT_FLOAT)) {
-	if (irt_isguard(ir->t)) {
-	  lua_assert(st == IRT_NUM && irt_isint(ir->t));
-	  J->cur.nins--;
-	  ir->prev = split_num2int(J, nir->op1, hisubst[ir->op1], 1);
-	} else {
-	  split_call_l(J, hisubst, oir, ir,
-#if LJ_32 && LJ_HASFFI
-	    st == IRT_NUM ?
-	      (irt_isint(ir->t) ? IRCALL_softfp_d2i : IRCALL_softfp_d2ui) :
-	      (irt_isint(ir->t) ? IRCALL_softfp_f2i : IRCALL_softfp_f2ui)
-#else
-	    IRCALL_softfp_d2i
-#endif
-	  );
-	  J->cur.nins--;  /* Drop unused HIOP. */
-	}
-      }
-#endif
-    } else if (ir->o == IR_CALLXS) {
-      IRRef hiref;
-    split_call:
-      hiref = hisubst[ir->op1];
-      if (hiref) {
-	IROpT ot = nir->ot;
-	IRRef op2 = nir->op2;
-	nir->ot = IRT(IR_CARG, IRT_NIL);
-#if LJ_LE
-	nir->op2 = hiref;
-#else
-	nir->op2 = nir->op1; nir->op1 = hiref;
-#endif
-	ir->prev = nref = split_emit(J, ot, nref, op2);
-      }
-      if (LJ_SOFTFP ? irt_is64(ir->t) : irt_isint64(ir->t))
-	hi = split_emit(J,
-	  IRT(IR_HIOP, (LJ_SOFTFP && irt_isnum(ir->t)) ? IRT_SOFTFP : IRT_INT),
-	  nref, nref);
-    } else if (ir->o == IR_CARG) {
-      IRRef hiref = hisubst[ir->op1];
-      if (hiref) {
-	IRRef op2 = nir->op2;
-#if LJ_LE
-	nir->op2 = hiref;
-#else
-	nir->op2 = nir->op1; nir->op1 = hiref;
-#endif
-	ir->prev = nref = split_emit(J, IRT(IR_CARG, IRT_NIL), nref, op2);
-	nir = IR(nref);
-      }
-      hiref = hisubst[ir->op2];
-      if (hiref) {
-#if !LJ_TARGET_X86
-	int carg = 0;
-	IRIns *cir;
-	for (cir = IR(nir->op1); cir->o == IR_CARG; cir = IR(cir->op1))
-	  carg++;
-	if ((carg & 1) == 0) {  /* Align 64 bit arguments. */
-	  IRRef op2 = nir->op2;
-	  nir->op2 = REF_NIL;
-	  nref = split_emit(J, IRT(IR_CARG, IRT_NIL), nref, op2);
-	  nir = IR(nref);
-	}
-#endif
-#if LJ_BE
-	{ IRRef tmp = nir->op2; nir->op2 = hiref; hiref = tmp; }
-#endif
-	ir->prev = split_emit(J, IRT(IR_CARG, IRT_NIL), nref, hiref);
-      }
-    } else if (ir->o == IR_CNEWI) {
-      if (hisubst[ir->op2])
-	split_emit(J, IRT(IR_HIOP, IRT_NIL), nref, hisubst[ir->op2]);
-    } else if (ir->o == IR_LOOP) {
-      J->loopref = nref;  /* Needed by assembler. */
-    }
-    hisubst[ref] = hi;  /* Store hiword substitution. */
-  }
-  if (snref == nins) {  /* Substitution for last snapshot. */
-    snap->ref = J->cur.nins;
-    split_subst_snap(J, snap, oir);
-  }
-
-  /* Add PHI marks. */
-  for (ref = J->cur.nins-1; ref >= REF_FIRST; ref--) {
-    IRIns *ir = IR(ref);
-    if (ir->o != IR_PHI) break;
-    if (!irref_isk(ir->op1)) irt_setphi(IR(ir->op1)->t);
-    if (ir->op2 > J->loopref) irt_setphi(IR(ir->op2)->t);
-  }
-}
-
-/* Protected callback for split pass. */
-static TValue *cpsplit(lua_State *L, lua_CFunction dummy, void *ud)
-{
-  jit_State *J = (jit_State *)ud;
-  split_ir(J);
-  UNUSED(L); UNUSED(dummy);
-  return NULL;
-}
-
-#if defined(LUA_USE_ASSERT) || LJ_SOFTFP
-/* Slow, but sure way to check whether a SPLIT pass is needed. */
-static int split_needsplit(jit_State *J)
-{
-  IRIns *ir, *irend;
-  IRRef ref;
-  for (ir = IR(REF_FIRST), irend = IR(J->cur.nins); ir < irend; ir++)
-    if (LJ_SOFTFP ? irt_is64orfp(ir->t) : irt_isint64(ir->t))
-      return 1;
-  if (LJ_SOFTFP) {
-    for (ref = J->chain[IR_SLOAD]; ref; ref = IR(ref)->prev)
-      if ((IR(ref)->op2 & IRSLOAD_CONVERT))
-	return 1;
-    if (J->chain[IR_TOBIT])
-      return 1;
-  }
-  for (ref = J->chain[IR_CONV]; ref; ref = IR(ref)->prev) {
-    IRType st = (IR(ref)->op2 & IRCONV_SRCMASK);
-    if ((LJ_SOFTFP && (st == IRT_NUM || st == IRT_FLOAT)) ||
-	st == IRT_I64 || st == IRT_U64)
-      return 1;
-  }
-  return 0;  /* Nope. */
-}
-#endif
-
-/* SPLIT pass. */
-void lj_opt_split(jit_State *J)
-{
-#if LJ_SOFTFP
-  if (!J->needsplit)
-    J->needsplit = split_needsplit(J);
-#else
-  lua_assert(J->needsplit >= split_needsplit(J));  /* Verify flag. */
-#endif
-  if (J->needsplit) {
-    int errcode = lj_vm_cpcall(J->L, NULL, J, cpsplit);
-    if (errcode) {
-      /* Completely reset the trace to avoid inconsistent dump on abort. */
-      J->cur.nins = J->cur.nk = REF_BASE;
-      J->cur.nsnap = 0;
-      lj_err_throw(J->L, errcode);  /* Propagate errors. */
-    }
-  }
-}
-
-#undef IR
-
-#endif
diff --git a/luajit-2.0/src/lj_parse.c b/luajit-2.0/src/lj_parse.c
deleted file mode 100644
index e8aafba..0000000
--- a/luajit-2.0/src/lj_parse.c
+++ /dev/null
@@ -1,2752 +0,0 @@
-/*
-** Lua parser (source code -> bytecode).
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-**
-** Major portions taken verbatim or adapted from the Lua interpreter.
-** Copyright (C) 1994-2008 Lua.org, PUC-Rio. See Copyright Notice in lua.h
-*/
-
-#define lj_parse_c
-#define LUA_CORE
-
-#include "lj_obj.h"
-#include "lj_gc.h"
-#include "lj_err.h"
-#include "lj_debug.h"
-#include "lj_str.h"
-#include "lj_tab.h"
-#include "lj_func.h"
-#include "lj_state.h"
-#include "lj_bc.h"
-#if LJ_HASFFI
-#include "lj_ctype.h"
-#endif
-#include "lj_lex.h"
-#include "lj_parse.h"
-#include "lj_vm.h"
-#include "lj_vmevent.h"
-
-/* -- Parser structures and definitions ----------------------------------- */
-
-/* Expression kinds. */
-typedef enum {
-  /* Constant expressions must be first and in this order: */
-  VKNIL,
-  VKFALSE,
-  VKTRUE,
-  VKSTR,	/* sval = string value */
-  VKNUM,	/* nval = number value */
-  VKLAST = VKNUM,
-  VKCDATA,	/* nval = cdata value, not treated as a constant expression */
-  /* Non-constant expressions follow: */
-  VLOCAL,	/* info = local register, aux = vstack index */
-  VUPVAL,	/* info = upvalue index, aux = vstack index */
-  VGLOBAL,	/* sval = string value */
-  VINDEXED,	/* info = table register, aux = index reg/byte/string const */
-  VJMP,		/* info = instruction PC */
-  VRELOCABLE,	/* info = instruction PC */
-  VNONRELOC,	/* info = result register */
-  VCALL,	/* info = instruction PC, aux = base */
-  VVOID
-} ExpKind;
-
-/* Expression descriptor. */
-typedef struct ExpDesc {
-  union {
-    struct {
-      uint32_t info;	/* Primary info. */
-      uint32_t aux;	/* Secondary info. */
-    } s;
-    TValue nval;	/* Number value. */
-    GCstr *sval;	/* String value. */
-  } u;
-  ExpKind k;
-  BCPos t;		/* True condition jump list. */
-  BCPos f;		/* False condition jump list. */
-} ExpDesc;
-
-/* Macros for expressions. */
-#define expr_hasjump(e)		((e)->t != (e)->f)
-
-#define expr_isk(e)		((e)->k <= VKLAST)
-#define expr_isk_nojump(e)	(expr_isk(e) && !expr_hasjump(e))
-#define expr_isnumk(e)		((e)->k == VKNUM)
-#define expr_isnumk_nojump(e)	(expr_isnumk(e) && !expr_hasjump(e))
-#define expr_isstrk(e)		((e)->k == VKSTR)
-
-#define expr_numtv(e)		check_exp(expr_isnumk((e)), &(e)->u.nval)
-#define expr_numberV(e)		numberVnum(expr_numtv((e)))
-
-/* Initialize expression. */
-static LJ_AINLINE void expr_init(ExpDesc *e, ExpKind k, uint32_t info)
-{
-  e->k = k;
-  e->u.s.info = info;
-  e->f = e->t = NO_JMP;
-}
-
-/* Check number constant for +-0. */
-static int expr_numiszero(ExpDesc *e)
-{
-  TValue *o = expr_numtv(e);
-  return tvisint(o) ? (intV(o) == 0) : tviszero(o);
-}
-
-/* Per-function linked list of scope blocks. */
-typedef struct FuncScope {
-  struct FuncScope *prev;	/* Link to outer scope. */
-  MSize vstart;			/* Start of block-local variables. */
-  uint8_t nactvar;		/* Number of active vars outside the scope. */
-  uint8_t flags;		/* Scope flags. */
-} FuncScope;
-
-#define FSCOPE_LOOP		0x01	/* Scope is a (breakable) loop. */
-#define FSCOPE_BREAK		0x02	/* Break used in scope. */
-#define FSCOPE_GOLA		0x04	/* Goto or label used in scope. */
-#define FSCOPE_UPVAL		0x08	/* Upvalue in scope. */
-#define FSCOPE_NOCLOSE		0x10	/* Do not close upvalues. */
-
-#define NAME_BREAK		((GCstr *)(uintptr_t)1)
-
-/* Index into variable stack. */
-typedef uint16_t VarIndex;
-#define LJ_MAX_VSTACK		(65536 - LJ_MAX_UPVAL)
-
-/* Variable/goto/label info. */
-#define VSTACK_VAR_RW		0x01	/* R/W variable. */
-#define VSTACK_GOTO		0x02	/* Pending goto. */
-#define VSTACK_LABEL		0x04	/* Label. */
-
-/* Per-function state. */
-typedef struct FuncState {
-  GCtab *kt;			/* Hash table for constants. */
-  LexState *ls;			/* Lexer state. */
-  lua_State *L;			/* Lua state. */
-  FuncScope *bl;		/* Current scope. */
-  struct FuncState *prev;	/* Enclosing function. */
-  BCPos pc;			/* Next bytecode position. */
-  BCPos lasttarget;		/* Bytecode position of last jump target. */
-  BCPos jpc;			/* Pending jump list to next bytecode. */
-  BCReg freereg;		/* First free register. */
-  BCReg nactvar;		/* Number of active local variables. */
-  BCReg nkn, nkgc;		/* Number of lua_Number/GCobj constants */
-  BCLine linedefined;		/* First line of the function definition. */
-  BCInsLine *bcbase;		/* Base of bytecode stack. */
-  BCPos bclim;			/* Limit of bytecode stack. */
-  MSize vbase;			/* Base of variable stack for this function. */
-  uint8_t flags;		/* Prototype flags. */
-  uint8_t numparams;		/* Number of parameters. */
-  uint8_t framesize;		/* Fixed frame size. */
-  uint8_t nuv;			/* Number of upvalues */
-  VarIndex varmap[LJ_MAX_LOCVAR];  /* Map from register to variable idx. */
-  VarIndex uvmap[LJ_MAX_UPVAL];	/* Map from upvalue to variable idx. */
-  VarIndex uvtmp[LJ_MAX_UPVAL];	/* Temporary upvalue map. */
-} FuncState;
-
-/* Binary and unary operators. ORDER OPR */
-typedef enum BinOpr {
-  OPR_ADD, OPR_SUB, OPR_MUL, OPR_DIV, OPR_MOD, OPR_POW,  /* ORDER ARITH */
-  OPR_CONCAT,
-  OPR_NE, OPR_EQ,
-  OPR_LT, OPR_GE, OPR_LE, OPR_GT,
-  OPR_AND, OPR_OR,
-  OPR_NOBINOPR
-} BinOpr;
-
-LJ_STATIC_ASSERT((int)BC_ISGE-(int)BC_ISLT == (int)OPR_GE-(int)OPR_LT);
-LJ_STATIC_ASSERT((int)BC_ISLE-(int)BC_ISLT == (int)OPR_LE-(int)OPR_LT);
-LJ_STATIC_ASSERT((int)BC_ISGT-(int)BC_ISLT == (int)OPR_GT-(int)OPR_LT);
-LJ_STATIC_ASSERT((int)BC_SUBVV-(int)BC_ADDVV == (int)OPR_SUB-(int)OPR_ADD);
-LJ_STATIC_ASSERT((int)BC_MULVV-(int)BC_ADDVV == (int)OPR_MUL-(int)OPR_ADD);
-LJ_STATIC_ASSERT((int)BC_DIVVV-(int)BC_ADDVV == (int)OPR_DIV-(int)OPR_ADD);
-LJ_STATIC_ASSERT((int)BC_MODVV-(int)BC_ADDVV == (int)OPR_MOD-(int)OPR_ADD);
-
-/* -- Error handling ------------------------------------------------------ */
-
-LJ_NORET LJ_NOINLINE static void err_syntax(LexState *ls, ErrMsg em)
-{
-  lj_lex_error(ls, ls->token, em);
-}
-
-LJ_NORET LJ_NOINLINE static void err_token(LexState *ls, LexToken token)
-{
-  lj_lex_error(ls, ls->token, LJ_ERR_XTOKEN, lj_lex_token2str(ls, token));
-}
-
-LJ_NORET static void err_limit(FuncState *fs, uint32_t limit, const char *what)
-{
-  if (fs->linedefined == 0)
-    lj_lex_error(fs->ls, 0, LJ_ERR_XLIMM, limit, what);
-  else
-    lj_lex_error(fs->ls, 0, LJ_ERR_XLIMF, fs->linedefined, limit, what);
-}
-
-#define checklimit(fs, v, l, m)		if ((v) >= (l)) err_limit(fs, l, m)
-#define checklimitgt(fs, v, l, m)	if ((v) > (l)) err_limit(fs, l, m)
-#define checkcond(ls, c, em)		{ if (!(c)) err_syntax(ls, em); }
-
-/* -- Management of constants --------------------------------------------- */
-
-/* Return bytecode encoding for primitive constant. */
-#define const_pri(e)		check_exp((e)->k <= VKTRUE, (e)->k)
-
-#define tvhaskslot(o)	((o)->u32.hi == 0)
-#define tvkslot(o)	((o)->u32.lo)
-
-/* Add a number constant. */
-static BCReg const_num(FuncState *fs, ExpDesc *e)
-{
-  lua_State *L = fs->L;
-  TValue *o;
-  lua_assert(expr_isnumk(e));
-  o = lj_tab_set(L, fs->kt, &e->u.nval);
-  if (tvhaskslot(o))
-    return tvkslot(o);
-  o->u64 = fs->nkn;
-  return fs->nkn++;
-}
-
-/* Add a GC object constant. */
-static BCReg const_gc(FuncState *fs, GCobj *gc, uint32_t itype)
-{
-  lua_State *L = fs->L;
-  TValue key, *o;
-  setgcV(L, &key, gc, itype);
-  /* NOBARRIER: the key is new or kept alive. */
-  o = lj_tab_set(L, fs->kt, &key);
-  if (tvhaskslot(o))
-    return tvkslot(o);
-  o->u64 = fs->nkgc;
-  return fs->nkgc++;
-}
-
-/* Add a string constant. */
-static BCReg const_str(FuncState *fs, ExpDesc *e)
-{
-  lua_assert(expr_isstrk(e) || e->k == VGLOBAL);
-  return const_gc(fs, obj2gco(e->u.sval), LJ_TSTR);
-}
-
-/* Anchor string constant to avoid GC. */
-GCstr *lj_parse_keepstr(LexState *ls, const char *str, size_t len)
-{
-  /* NOBARRIER: the key is new or kept alive. */
-  lua_State *L = ls->L;
-  GCstr *s = lj_str_new(L, str, len);
-  TValue *tv = lj_tab_setstr(L, ls->fs->kt, s);
-  if (tvisnil(tv)) setboolV(tv, 1);
-  lj_gc_check(L);
-  return s;
-}
-
-#if LJ_HASFFI
-/* Anchor cdata to avoid GC. */
-void lj_parse_keepcdata(LexState *ls, TValue *tv, GCcdata *cd)
-{
-  /* NOBARRIER: the key is new or kept alive. */
-  lua_State *L = ls->L;
-  setcdataV(L, tv, cd);
-  setboolV(lj_tab_set(L, ls->fs->kt, tv), 1);
-}
-#endif
-
-/* -- Jump list handling -------------------------------------------------- */
-
-/* Get next element in jump list. */
-static BCPos jmp_next(FuncState *fs, BCPos pc)
-{
-  ptrdiff_t delta = bc_j(fs->bcbase[pc].ins);
-  if ((BCPos)delta == NO_JMP)
-    return NO_JMP;
-  else
-    return (BCPos)(((ptrdiff_t)pc+1)+delta);
-}
-
-/* Check if any of the instructions on the jump list produce no value. */
-static int jmp_novalue(FuncState *fs, BCPos list)
-{
-  for (; list != NO_JMP; list = jmp_next(fs, list)) {
-    BCIns p = fs->bcbase[list >= 1 ? list-1 : list].ins;
-    if (!(bc_op(p) == BC_ISTC || bc_op(p) == BC_ISFC || bc_a(p) == NO_REG))
-      return 1;
-  }
-  return 0;
-}
-
-/* Patch register of test instructions. */
-static int jmp_patchtestreg(FuncState *fs, BCPos pc, BCReg reg)
-{
-  BCInsLine *ilp = &fs->bcbase[pc >= 1 ? pc-1 : pc];
-  BCOp op = bc_op(ilp->ins);
-  if (op == BC_ISTC || op == BC_ISFC) {
-    if (reg != NO_REG && reg != bc_d(ilp->ins)) {
-      setbc_a(&ilp->ins, reg);
-    } else {  /* Nothing to store or already in the right register. */
-      setbc_op(&ilp->ins, op+(BC_IST-BC_ISTC));
-      setbc_a(&ilp->ins, 0);
-    }
-  } else if (bc_a(ilp->ins) == NO_REG) {
-    if (reg == NO_REG) {
-      ilp->ins = BCINS_AJ(BC_JMP, bc_a(fs->bcbase[pc].ins), 0);
-    } else {
-      setbc_a(&ilp->ins, reg);
-      if (reg >= bc_a(ilp[1].ins))
-	setbc_a(&ilp[1].ins, reg+1);
-    }
-  } else {
-    return 0;  /* Cannot patch other instructions. */
-  }
-  return 1;
-}
-
-/* Drop values for all instructions on jump list. */
-static void jmp_dropval(FuncState *fs, BCPos list)
-{
-  for (; list != NO_JMP; list = jmp_next(fs, list))
-    jmp_patchtestreg(fs, list, NO_REG);
-}
-
-/* Patch jump instruction to target. */
-static void jmp_patchins(FuncState *fs, BCPos pc, BCPos dest)
-{
-  BCIns *jmp = &fs->bcbase[pc].ins;
-  BCPos offset = dest-(pc+1)+BCBIAS_J;
-  lua_assert(dest != NO_JMP);
-  if (offset > BCMAX_D)
-    err_syntax(fs->ls, LJ_ERR_XJUMP);
-  setbc_d(jmp, offset);
-}
-
-/* Append to jump list. */
-static void jmp_append(FuncState *fs, BCPos *l1, BCPos l2)
-{
-  if (l2 == NO_JMP) {
-    return;
-  } else if (*l1 == NO_JMP) {
-    *l1 = l2;
-  } else {
-    BCPos list = *l1;
-    BCPos next;
-    while ((next = jmp_next(fs, list)) != NO_JMP)  /* Find last element. */
-      list = next;
-    jmp_patchins(fs, list, l2);
-  }
-}
-
-/* Patch jump list and preserve produced values. */
-static void jmp_patchval(FuncState *fs, BCPos list, BCPos vtarget,
-			 BCReg reg, BCPos dtarget)
-{
-  while (list != NO_JMP) {
-    BCPos next = jmp_next(fs, list);
-    if (jmp_patchtestreg(fs, list, reg))
-      jmp_patchins(fs, list, vtarget);  /* Jump to target with value. */
-    else
-      jmp_patchins(fs, list, dtarget);  /* Jump to default target. */
-    list = next;
-  }
-}
-
-/* Jump to following instruction. Append to list of pending jumps. */
-static void jmp_tohere(FuncState *fs, BCPos list)
-{
-  fs->lasttarget = fs->pc;
-  jmp_append(fs, &fs->jpc, list);
-}
-
-/* Patch jump list to target. */
-static void jmp_patch(FuncState *fs, BCPos list, BCPos target)
-{
-  if (target == fs->pc) {
-    jmp_tohere(fs, list);
-  } else {
-    lua_assert(target < fs->pc);
-    jmp_patchval(fs, list, target, NO_REG, target);
-  }
-}
-
-/* -- Bytecode register allocator ----------------------------------------- */
-
-/* Bump frame size. */
-static void bcreg_bump(FuncState *fs, BCReg n)
-{
-  BCReg sz = fs->freereg + n;
-  if (sz > fs->framesize) {
-    if (sz >= LJ_MAX_SLOTS)
-      err_syntax(fs->ls, LJ_ERR_XSLOTS);
-    fs->framesize = (uint8_t)sz;
-  }
-}
-
-/* Reserve registers. */
-static void bcreg_reserve(FuncState *fs, BCReg n)
-{
-  bcreg_bump(fs, n);
-  fs->freereg += n;
-}
-
-/* Free register. */
-static void bcreg_free(FuncState *fs, BCReg reg)
-{
-  if (reg >= fs->nactvar) {
-    fs->freereg--;
-    lua_assert(reg == fs->freereg);
-  }
-}
-
-/* Free register for expression. */
-static void expr_free(FuncState *fs, ExpDesc *e)
-{
-  if (e->k == VNONRELOC)
-    bcreg_free(fs, e->u.s.info);
-}
-
-/* -- Bytecode emitter ---------------------------------------------------- */
-
-/* Emit bytecode instruction. */
-static BCPos bcemit_INS(FuncState *fs, BCIns ins)
-{
-  BCPos pc = fs->pc;
-  LexState *ls = fs->ls;
-  jmp_patchval(fs, fs->jpc, pc, NO_REG, pc);
-  fs->jpc = NO_JMP;
-  if (LJ_UNLIKELY(pc >= fs->bclim)) {
-    ptrdiff_t base = fs->bcbase - ls->bcstack;
-    checklimit(fs, ls->sizebcstack, LJ_MAX_BCINS, "bytecode instructions");
-    lj_mem_growvec(fs->L, ls->bcstack, ls->sizebcstack, LJ_MAX_BCINS,BCInsLine);
-    fs->bclim = (BCPos)(ls->sizebcstack - base);
-    fs->bcbase = ls->bcstack + base;
-  }
-  fs->bcbase[pc].ins = ins;
-  fs->bcbase[pc].line = ls->lastline;
-  fs->pc = pc+1;
-  return pc;
-}
-
-#define bcemit_ABC(fs, o, a, b, c)	bcemit_INS(fs, BCINS_ABC(o, a, b, c))
-#define bcemit_AD(fs, o, a, d)		bcemit_INS(fs, BCINS_AD(o, a, d))
-#define bcemit_AJ(fs, o, a, j)		bcemit_INS(fs, BCINS_AJ(o, a, j))
-
-#define bcptr(fs, e)			(&(fs)->bcbase[(e)->u.s.info].ins)
-
-/* -- Bytecode emitter for expressions ------------------------------------ */
-
-/* Discharge non-constant expression to any register. */
-static void expr_discharge(FuncState *fs, ExpDesc *e)
-{
-  BCIns ins;
-  if (e->k == VUPVAL) {
-    ins = BCINS_AD(BC_UGET, 0, e->u.s.info);
-  } else if (e->k == VGLOBAL) {
-    ins = BCINS_AD(BC_GGET, 0, const_str(fs, e));
-  } else if (e->k == VINDEXED) {
-    BCReg rc = e->u.s.aux;
-    if ((int32_t)rc < 0) {
-      ins = BCINS_ABC(BC_TGETS, 0, e->u.s.info, ~rc);
-    } else if (rc > BCMAX_C) {
-      ins = BCINS_ABC(BC_TGETB, 0, e->u.s.info, rc-(BCMAX_C+1));
-    } else {
-      bcreg_free(fs, rc);
-      ins = BCINS_ABC(BC_TGETV, 0, e->u.s.info, rc);
-    }
-    bcreg_free(fs, e->u.s.info);
-  } else if (e->k == VCALL) {
-    e->u.s.info = e->u.s.aux;
-    e->k = VNONRELOC;
-    return;
-  } else if (e->k == VLOCAL) {
-    e->k = VNONRELOC;
-    return;
-  } else {
-    return;
-  }
-  e->u.s.info = bcemit_INS(fs, ins);
-  e->k = VRELOCABLE;
-}
-
-/* Emit bytecode to set a range of registers to nil. */
-static void bcemit_nil(FuncState *fs, BCReg from, BCReg n)
-{
-  if (fs->pc > fs->lasttarget) {  /* No jumps to current position? */
-    BCIns *ip = &fs->bcbase[fs->pc-1].ins;
-    BCReg pto, pfrom = bc_a(*ip);
-    switch (bc_op(*ip)) {  /* Try to merge with the previous instruction. */
-    case BC_KPRI:
-      if (bc_d(*ip) != ~LJ_TNIL) break;
-      if (from == pfrom) {
-	if (n == 1) return;
-      } else if (from == pfrom+1) {
-	from = pfrom;
-	n++;
-      } else {
-	break;
-      }
-      *ip = BCINS_AD(BC_KNIL, from, from+n-1);  /* Replace KPRI. */
-      return;
-    case BC_KNIL:
-      pto = bc_d(*ip);
-      if (pfrom <= from && from <= pto+1) {  /* Can we connect both ranges? */
-	if (from+n-1 > pto)
-	  setbc_d(ip, from+n-1);  /* Patch previous instruction range. */
-	return;
-      }
-      break;
-    default:
-      break;
-    }
-  }
-  /* Emit new instruction or replace old instruction. */
-  bcemit_INS(fs, n == 1 ? BCINS_AD(BC_KPRI, from, VKNIL) :
-			  BCINS_AD(BC_KNIL, from, from+n-1));
-}
-
-/* Discharge an expression to a specific register. Ignore branches. */
-static void expr_toreg_nobranch(FuncState *fs, ExpDesc *e, BCReg reg)
-{
-  BCIns ins;
-  expr_discharge(fs, e);
-  if (e->k == VKSTR) {
-    ins = BCINS_AD(BC_KSTR, reg, const_str(fs, e));
-  } else if (e->k == VKNUM) {
-#if LJ_DUALNUM
-    cTValue *tv = expr_numtv(e);
-    if (tvisint(tv) && checki16(intV(tv)))
-      ins = BCINS_AD(BC_KSHORT, reg, (BCReg)(uint16_t)intV(tv));
-    else
-#else
-    lua_Number n = expr_numberV(e);
-    int32_t k = lj_num2int(n);
-    if (checki16(k) && n == (lua_Number)k)
-      ins = BCINS_AD(BC_KSHORT, reg, (BCReg)(uint16_t)k);
-    else
-#endif
-      ins = BCINS_AD(BC_KNUM, reg, const_num(fs, e));
-#if LJ_HASFFI
-  } else if (e->k == VKCDATA) {
-    fs->flags |= PROTO_FFI;
-    ins = BCINS_AD(BC_KCDATA, reg,
-		   const_gc(fs, obj2gco(cdataV(&e->u.nval)), LJ_TCDATA));
-#endif
-  } else if (e->k == VRELOCABLE) {
-    setbc_a(bcptr(fs, e), reg);
-    goto noins;
-  } else if (e->k == VNONRELOC) {
-    if (reg == e->u.s.info)
-      goto noins;
-    ins = BCINS_AD(BC_MOV, reg, e->u.s.info);
-  } else if (e->k == VKNIL) {
-    bcemit_nil(fs, reg, 1);
-    goto noins;
-  } else if (e->k <= VKTRUE) {
-    ins = BCINS_AD(BC_KPRI, reg, const_pri(e));
-  } else {
-    lua_assert(e->k == VVOID || e->k == VJMP);
-    return;
-  }
-  bcemit_INS(fs, ins);
-noins:
-  e->u.s.info = reg;
-  e->k = VNONRELOC;
-}
-
-/* Forward declaration. */
-static BCPos bcemit_jmp(FuncState *fs);
-
-/* Discharge an expression to a specific register. */
-static void expr_toreg(FuncState *fs, ExpDesc *e, BCReg reg)
-{
-  expr_toreg_nobranch(fs, e, reg);
-  if (e->k == VJMP)
-    jmp_append(fs, &e->t, e->u.s.info);  /* Add it to the true jump list. */
-  if (expr_hasjump(e)) {  /* Discharge expression with branches. */
-    BCPos jend, jfalse = NO_JMP, jtrue = NO_JMP;
-    if (jmp_novalue(fs, e->t) || jmp_novalue(fs, e->f)) {
-      BCPos jval = (e->k == VJMP) ? NO_JMP : bcemit_jmp(fs);
-      jfalse = bcemit_AD(fs, BC_KPRI, reg, VKFALSE);
-      bcemit_AJ(fs, BC_JMP, fs->freereg, 1);
-      jtrue = bcemit_AD(fs, BC_KPRI, reg, VKTRUE);
-      jmp_tohere(fs, jval);
-    }
-    jend = fs->pc;
-    fs->lasttarget = jend;
-    jmp_patchval(fs, e->f, jend, reg, jfalse);
-    jmp_patchval(fs, e->t, jend, reg, jtrue);
-  }
-  e->f = e->t = NO_JMP;
-  e->u.s.info = reg;
-  e->k = VNONRELOC;
-}
-
-/* Discharge an expression to the next free register. */
-static void expr_tonextreg(FuncState *fs, ExpDesc *e)
-{
-  expr_discharge(fs, e);
-  expr_free(fs, e);
-  bcreg_reserve(fs, 1);
-  expr_toreg(fs, e, fs->freereg - 1);
-}
-
-/* Discharge an expression to any register. */
-static BCReg expr_toanyreg(FuncState *fs, ExpDesc *e)
-{
-  expr_discharge(fs, e);
-  if (e->k == VNONRELOC) {
-    if (!expr_hasjump(e)) return e->u.s.info;  /* Already in a register. */
-    if (e->u.s.info >= fs->nactvar) {
-      expr_toreg(fs, e, e->u.s.info);  /* Discharge to temp. register. */
-      return e->u.s.info;
-    }
-  }
-  expr_tonextreg(fs, e);  /* Discharge to next register. */
-  return e->u.s.info;
-}
-
-/* Partially discharge expression to a value. */
-static void expr_toval(FuncState *fs, ExpDesc *e)
-{
-  if (expr_hasjump(e))
-    expr_toanyreg(fs, e);
-  else
-    expr_discharge(fs, e);
-}
-
-/* Emit store for LHS expression. */
-static void bcemit_store(FuncState *fs, ExpDesc *var, ExpDesc *e)
-{
-  BCIns ins;
-  if (var->k == VLOCAL) {
-    fs->ls->vstack[var->u.s.aux].info |= VSTACK_VAR_RW;
-    expr_free(fs, e);
-    expr_toreg(fs, e, var->u.s.info);
-    return;
-  } else if (var->k == VUPVAL) {
-    fs->ls->vstack[var->u.s.aux].info |= VSTACK_VAR_RW;
-    expr_toval(fs, e);
-    if (e->k <= VKTRUE)
-      ins = BCINS_AD(BC_USETP, var->u.s.info, const_pri(e));
-    else if (e->k == VKSTR)
-      ins = BCINS_AD(BC_USETS, var->u.s.info, const_str(fs, e));
-    else if (e->k == VKNUM)
-      ins = BCINS_AD(BC_USETN, var->u.s.info, const_num(fs, e));
-    else
-      ins = BCINS_AD(BC_USETV, var->u.s.info, expr_toanyreg(fs, e));
-  } else if (var->k == VGLOBAL) {
-    BCReg ra = expr_toanyreg(fs, e);
-    ins = BCINS_AD(BC_GSET, ra, const_str(fs, var));
-  } else {
-    BCReg ra, rc;
-    lua_assert(var->k == VINDEXED);
-    ra = expr_toanyreg(fs, e);
-    rc = var->u.s.aux;
-    if ((int32_t)rc < 0) {
-      ins = BCINS_ABC(BC_TSETS, ra, var->u.s.info, ~rc);
-    } else if (rc > BCMAX_C) {
-      ins = BCINS_ABC(BC_TSETB, ra, var->u.s.info, rc-(BCMAX_C+1));
-    } else {
-      /* Free late alloced key reg to avoid assert on free of value reg. */
-      /* This can only happen when called from expr_table(). */
-      lua_assert(e->k != VNONRELOC || ra < fs->nactvar ||
-		 rc < ra || (bcreg_free(fs, rc),1));
-      ins = BCINS_ABC(BC_TSETV, ra, var->u.s.info, rc);
-    }
-  }
-  bcemit_INS(fs, ins);
-  expr_free(fs, e);
-}
-
-/* Emit method lookup expression. */
-static void bcemit_method(FuncState *fs, ExpDesc *e, ExpDesc *key)
-{
-  BCReg idx, func, obj = expr_toanyreg(fs, e);
-  expr_free(fs, e);
-  func = fs->freereg;
-  bcemit_AD(fs, BC_MOV, func+1, obj);  /* Copy object to first argument. */
-  lua_assert(expr_isstrk(key));
-  idx = const_str(fs, key);
-  if (idx <= BCMAX_C) {
-    bcreg_reserve(fs, 2);
-    bcemit_ABC(fs, BC_TGETS, func, obj, idx);
-  } else {
-    bcreg_reserve(fs, 3);
-    bcemit_AD(fs, BC_KSTR, func+2, idx);
-    bcemit_ABC(fs, BC_TGETV, func, obj, func+2);
-    fs->freereg--;
-  }
-  e->u.s.info = func;
-  e->k = VNONRELOC;
-}
-
-/* -- Bytecode emitter for branches --------------------------------------- */
-
-/* Emit unconditional branch. */
-static BCPos bcemit_jmp(FuncState *fs)
-{
-  BCPos jpc = fs->jpc;
-  BCPos j = fs->pc - 1;
-  BCIns *ip = &fs->bcbase[j].ins;
-  fs->jpc = NO_JMP;
-  if ((int32_t)j >= (int32_t)fs->lasttarget && bc_op(*ip) == BC_UCLO)
-    setbc_j(ip, NO_JMP);
-  else
-    j = bcemit_AJ(fs, BC_JMP, fs->freereg, NO_JMP);
-  jmp_append(fs, &j, jpc);
-  return j;
-}
-
-/* Invert branch condition of bytecode instruction. */
-static void invertcond(FuncState *fs, ExpDesc *e)
-{
-  BCIns *ip = &fs->bcbase[e->u.s.info - 1].ins;
-  setbc_op(ip, bc_op(*ip)^1);
-}
-
-/* Emit conditional branch. */
-static BCPos bcemit_branch(FuncState *fs, ExpDesc *e, int cond)
-{
-  BCPos pc;
-  if (e->k == VRELOCABLE) {
-    BCIns *ip = bcptr(fs, e);
-    if (bc_op(*ip) == BC_NOT) {
-      *ip = BCINS_AD(cond ? BC_ISF : BC_IST, 0, bc_d(*ip));
-      return bcemit_jmp(fs);
-    }
-  }
-  if (e->k != VNONRELOC) {
-    bcreg_reserve(fs, 1);
-    expr_toreg_nobranch(fs, e, fs->freereg-1);
-  }
-  bcemit_AD(fs, cond ? BC_ISTC : BC_ISFC, NO_REG, e->u.s.info);
-  pc = bcemit_jmp(fs);
-  expr_free(fs, e);
-  return pc;
-}
-
-/* Emit branch on true condition. */
-static void bcemit_branch_t(FuncState *fs, ExpDesc *e)
-{
-  BCPos pc;
-  expr_discharge(fs, e);
-  if (e->k == VKSTR || e->k == VKNUM || e->k == VKTRUE)
-    pc = NO_JMP;  /* Never jump. */
-  else if (e->k == VJMP)
-    invertcond(fs, e), pc = e->u.s.info;
-  else if (e->k == VKFALSE || e->k == VKNIL)
-    expr_toreg_nobranch(fs, e, NO_REG), pc = bcemit_jmp(fs);
-  else
-    pc = bcemit_branch(fs, e, 0);
-  jmp_append(fs, &e->f, pc);
-  jmp_tohere(fs, e->t);
-  e->t = NO_JMP;
-}
-
-/* Emit branch on false condition. */
-static void bcemit_branch_f(FuncState *fs, ExpDesc *e)
-{
-  BCPos pc;
-  expr_discharge(fs, e);
-  if (e->k == VKNIL || e->k == VKFALSE)
-    pc = NO_JMP;  /* Never jump. */
-  else if (e->k == VJMP)
-    pc = e->u.s.info;
-  else if (e->k == VKSTR || e->k == VKNUM || e->k == VKTRUE)
-    expr_toreg_nobranch(fs, e, NO_REG), pc = bcemit_jmp(fs);
-  else
-    pc = bcemit_branch(fs, e, 1);
-  jmp_append(fs, &e->t, pc);
-  jmp_tohere(fs, e->f);
-  e->f = NO_JMP;
-}
-
-/* -- Bytecode emitter for operators -------------------------------------- */
-
-/* Try constant-folding of arithmetic operators. */
-static int foldarith(BinOpr opr, ExpDesc *e1, ExpDesc *e2)
-{
-  TValue o;
-  lua_Number n;
-  if (!expr_isnumk_nojump(e1) || !expr_isnumk_nojump(e2)) return 0;
-  n = lj_vm_foldarith(expr_numberV(e1), expr_numberV(e2), (int)opr-OPR_ADD);
-  setnumV(&o, n);
-  if (tvisnan(&o) || tvismzero(&o)) return 0;  /* Avoid NaN and -0 as consts. */
-  if (LJ_DUALNUM) {
-    int32_t k = lj_num2int(n);
-    if ((lua_Number)k == n) {
-      setintV(&e1->u.nval, k);
-      return 1;
-    }
-  }
-  setnumV(&e1->u.nval, n);
-  return 1;
-}
-
-/* Emit arithmetic operator. */
-static void bcemit_arith(FuncState *fs, BinOpr opr, ExpDesc *e1, ExpDesc *e2)
-{
-  BCReg rb, rc, t;
-  uint32_t op;
-  if (foldarith(opr, e1, e2))
-    return;
-  if (opr == OPR_POW) {
-    op = BC_POW;
-    rc = expr_toanyreg(fs, e2);
-    rb = expr_toanyreg(fs, e1);
-  } else {
-    op = opr-OPR_ADD+BC_ADDVV;
-    /* Must discharge 2nd operand first since VINDEXED might free regs. */
-    expr_toval(fs, e2);
-    if (expr_isnumk(e2) && (rc = const_num(fs, e2)) <= BCMAX_C)
-      op -= BC_ADDVV-BC_ADDVN;
-    else
-      rc = expr_toanyreg(fs, e2);
-    /* 1st operand discharged by bcemit_binop_left, but need KNUM/KSHORT. */
-    lua_assert(expr_isnumk(e1) || e1->k == VNONRELOC);
-    expr_toval(fs, e1);
-    /* Avoid two consts to satisfy bytecode constraints. */
-    if (expr_isnumk(e1) && !expr_isnumk(e2) &&
-	(t = const_num(fs, e1)) <= BCMAX_B) {
-      rb = rc; rc = t; op -= BC_ADDVV-BC_ADDNV;
-    } else {
-      rb = expr_toanyreg(fs, e1);
-    }
-  }
-  /* Using expr_free might cause asserts if the order is wrong. */
-  if (e1->k == VNONRELOC && e1->u.s.info >= fs->nactvar) fs->freereg--;
-  if (e2->k == VNONRELOC && e2->u.s.info >= fs->nactvar) fs->freereg--;
-  e1->u.s.info = bcemit_ABC(fs, op, 0, rb, rc);
-  e1->k = VRELOCABLE;
-}
-
-/* Emit comparison operator. */
-static void bcemit_comp(FuncState *fs, BinOpr opr, ExpDesc *e1, ExpDesc *e2)
-{
-  ExpDesc *eret = e1;
-  BCIns ins;
-  expr_toval(fs, e1);
-  if (opr == OPR_EQ || opr == OPR_NE) {
-    BCOp op = opr == OPR_EQ ? BC_ISEQV : BC_ISNEV;
-    BCReg ra;
-    if (expr_isk(e1)) { e1 = e2; e2 = eret; }  /* Need constant in 2nd arg. */
-    ra = expr_toanyreg(fs, e1);  /* First arg must be in a reg. */
-    expr_toval(fs, e2);
-    switch (e2->k) {
-    case VKNIL: case VKFALSE: case VKTRUE:
-      ins = BCINS_AD(op+(BC_ISEQP-BC_ISEQV), ra, const_pri(e2));
-      break;
-    case VKSTR:
-      ins = BCINS_AD(op+(BC_ISEQS-BC_ISEQV), ra, const_str(fs, e2));
-      break;
-    case VKNUM:
-      ins = BCINS_AD(op+(BC_ISEQN-BC_ISEQV), ra, const_num(fs, e2));
-      break;
-    default:
-      ins = BCINS_AD(op, ra, expr_toanyreg(fs, e2));
-      break;
-    }
-  } else {
-    uint32_t op = opr-OPR_LT+BC_ISLT;
-    BCReg ra, rd;
-    if ((op-BC_ISLT) & 1) {  /* GT -> LT, GE -> LE */
-      e1 = e2; e2 = eret;  /* Swap operands. */
-      op = ((op-BC_ISLT)^3)+BC_ISLT;
-      expr_toval(fs, e1);
-    }
-    rd = expr_toanyreg(fs, e2);
-    ra = expr_toanyreg(fs, e1);
-    ins = BCINS_AD(op, ra, rd);
-  }
-  /* Using expr_free might cause asserts if the order is wrong. */
-  if (e1->k == VNONRELOC && e1->u.s.info >= fs->nactvar) fs->freereg--;
-  if (e2->k == VNONRELOC && e2->u.s.info >= fs->nactvar) fs->freereg--;
-  bcemit_INS(fs, ins);
-  eret->u.s.info = bcemit_jmp(fs);
-  eret->k = VJMP;
-}
-
-/* Fixup left side of binary operator. */
-static void bcemit_binop_left(FuncState *fs, BinOpr op, ExpDesc *e)
-{
-  if (op == OPR_AND) {
-    bcemit_branch_t(fs, e);
-  } else if (op == OPR_OR) {
-    bcemit_branch_f(fs, e);
-  } else if (op == OPR_CONCAT) {
-    expr_tonextreg(fs, e);
-  } else if (op == OPR_EQ || op == OPR_NE) {
-    if (!expr_isk_nojump(e)) expr_toanyreg(fs, e);
-  } else {
-    if (!expr_isnumk_nojump(e)) expr_toanyreg(fs, e);
-  }
-}
-
-/* Emit binary operator. */
-static void bcemit_binop(FuncState *fs, BinOpr op, ExpDesc *e1, ExpDesc *e2)
-{
-  if (op <= OPR_POW) {
-    bcemit_arith(fs, op, e1, e2);
-  } else if (op == OPR_AND) {
-    lua_assert(e1->t == NO_JMP);  /* List must be closed. */
-    expr_discharge(fs, e2);
-    jmp_append(fs, &e2->f, e1->f);
-    *e1 = *e2;
-  } else if (op == OPR_OR) {
-    lua_assert(e1->f == NO_JMP);  /* List must be closed. */
-    expr_discharge(fs, e2);
-    jmp_append(fs, &e2->t, e1->t);
-    *e1 = *e2;
-  } else if (op == OPR_CONCAT) {
-    expr_toval(fs, e2);
-    if (e2->k == VRELOCABLE && bc_op(*bcptr(fs, e2)) == BC_CAT) {
-      lua_assert(e1->u.s.info == bc_b(*bcptr(fs, e2))-1);
-      expr_free(fs, e1);
-      setbc_b(bcptr(fs, e2), e1->u.s.info);
-      e1->u.s.info = e2->u.s.info;
-    } else {
-      expr_tonextreg(fs, e2);
-      expr_free(fs, e2);
-      expr_free(fs, e1);
-      e1->u.s.info = bcemit_ABC(fs, BC_CAT, 0, e1->u.s.info, e2->u.s.info);
-    }
-    e1->k = VRELOCABLE;
-  } else {
-    lua_assert(op == OPR_NE || op == OPR_EQ ||
-	       op == OPR_LT || op == OPR_GE || op == OPR_LE || op == OPR_GT);
-    bcemit_comp(fs, op, e1, e2);
-  }
-}
-
-/* Emit unary operator. */
-static void bcemit_unop(FuncState *fs, BCOp op, ExpDesc *e)
-{
-  if (op == BC_NOT) {
-    /* Swap true and false lists. */
-    { BCPos temp = e->f; e->f = e->t; e->t = temp; }
-    jmp_dropval(fs, e->f);
-    jmp_dropval(fs, e->t);
-    expr_discharge(fs, e);
-    if (e->k == VKNIL || e->k == VKFALSE) {
-      e->k = VKTRUE;
-      return;
-    } else if (expr_isk(e) || (LJ_HASFFI && e->k == VKCDATA)) {
-      e->k = VKFALSE;
-      return;
-    } else if (e->k == VJMP) {
-      invertcond(fs, e);
-      return;
-    } else if (e->k == VRELOCABLE) {
-      bcreg_reserve(fs, 1);
-      setbc_a(bcptr(fs, e), fs->freereg-1);
-      e->u.s.info = fs->freereg-1;
-      e->k = VNONRELOC;
-    } else {
-      lua_assert(e->k == VNONRELOC);
-    }
-  } else {
-    lua_assert(op == BC_UNM || op == BC_LEN);
-    if (op == BC_UNM && !expr_hasjump(e)) {  /* Constant-fold negations. */
-#if LJ_HASFFI
-      if (e->k == VKCDATA) {  /* Fold in-place since cdata is not interned. */
-	GCcdata *cd = cdataV(&e->u.nval);
-	int64_t *p = (int64_t *)cdataptr(cd);
-	if (cd->ctypeid == CTID_COMPLEX_DOUBLE)
-	  p[1] ^= (int64_t)U64x(80000000,00000000);
-	else
-	  *p = -*p;
-	return;
-      } else
-#endif
-      if (expr_isnumk(e) && !expr_numiszero(e)) {  /* Avoid folding to -0. */
-	TValue *o = expr_numtv(e);
-	if (tvisint(o)) {
-	  int32_t k = intV(o);
-	  if (k == -k)
-	    setnumV(o, -(lua_Number)k);
-	  else
-	    setintV(o, -k);
-	  return;
-	} else {
-	  o->u64 ^= U64x(80000000,00000000);
-	  return;
-	}
-      }
-    }
-    expr_toanyreg(fs, e);
-  }
-  expr_free(fs, e);
-  e->u.s.info = bcemit_AD(fs, op, 0, e->u.s.info);
-  e->k = VRELOCABLE;
-}
-
-/* -- Lexer support ------------------------------------------------------- */
-
-/* Check and consume optional token. */
-static int lex_opt(LexState *ls, LexToken tok)
-{
-  if (ls->token == tok) {
-    lj_lex_next(ls);
-    return 1;
-  }
-  return 0;
-}
-
-/* Check and consume token. */
-static void lex_check(LexState *ls, LexToken tok)
-{
-  if (ls->token != tok)
-    err_token(ls, tok);
-  lj_lex_next(ls);
-}
-
-/* Check for matching token. */
-static void lex_match(LexState *ls, LexToken what, LexToken who, BCLine line)
-{
-  if (!lex_opt(ls, what)) {
-    if (line == ls->linenumber) {
-      err_token(ls, what);
-    } else {
-      const char *swhat = lj_lex_token2str(ls, what);
-      const char *swho = lj_lex_token2str(ls, who);
-      lj_lex_error(ls, ls->token, LJ_ERR_XMATCH, swhat, swho, line);
-    }
-  }
-}
-
-/* Check for string token. */
-static GCstr *lex_str(LexState *ls)
-{
-  GCstr *s;
-  if (ls->token != TK_name && (LJ_52 || ls->token != TK_goto))
-    err_token(ls, TK_name);
-  s = strV(&ls->tokenval);
-  lj_lex_next(ls);
-  return s;
-}
-
-/* -- Variable handling --------------------------------------------------- */
-
-#define var_get(ls, fs, i)	((ls)->vstack[(fs)->varmap[(i)]])
-
-/* Define a new local variable. */
-static void var_new(LexState *ls, BCReg n, GCstr *name)
-{
-  FuncState *fs = ls->fs;
-  MSize vtop = ls->vtop;
-  checklimit(fs, fs->nactvar+n, LJ_MAX_LOCVAR, "local variables");
-  if (LJ_UNLIKELY(vtop >= ls->sizevstack)) {
-    if (ls->sizevstack >= LJ_MAX_VSTACK)
-      lj_lex_error(ls, 0, LJ_ERR_XLIMC, LJ_MAX_VSTACK);
-    lj_mem_growvec(ls->L, ls->vstack, ls->sizevstack, LJ_MAX_VSTACK, VarInfo);
-  }
-  lua_assert((uintptr_t)name < VARNAME__MAX ||
-	     lj_tab_getstr(fs->kt, name) != NULL);
-  /* NOBARRIER: name is anchored in fs->kt and ls->vstack is not a GCobj. */
-  setgcref(ls->vstack[vtop].name, obj2gco(name));
-  fs->varmap[fs->nactvar+n] = (uint16_t)vtop;
-  ls->vtop = vtop+1;
-}
-
-#define var_new_lit(ls, n, v) \
-  var_new(ls, (n), lj_parse_keepstr(ls, "" v, sizeof(v)-1))
-
-#define var_new_fixed(ls, n, vn) \
-  var_new(ls, (n), (GCstr *)(uintptr_t)(vn))
-
-/* Add local variables. */
-static void var_add(LexState *ls, BCReg nvars)
-{
-  FuncState *fs = ls->fs;
-  BCReg nactvar = fs->nactvar;
-  while (nvars--) {
-    VarInfo *v = &var_get(ls, fs, nactvar);
-    v->startpc = fs->pc;
-    v->slot = nactvar++;
-    v->info = 0;
-  }
-  fs->nactvar = nactvar;
-}
-
-/* Remove local variables. */
-static void var_remove(LexState *ls, BCReg tolevel)
-{
-  FuncState *fs = ls->fs;
-  while (fs->nactvar > tolevel)
-    var_get(ls, fs, --fs->nactvar).endpc = fs->pc;
-}
-
-/* Lookup local variable name. */
-static BCReg var_lookup_local(FuncState *fs, GCstr *n)
-{
-  int i;
-  for (i = fs->nactvar-1; i >= 0; i--) {
-    if (n == strref(var_get(fs->ls, fs, i).name))
-      return (BCReg)i;
-  }
-  return (BCReg)-1;  /* Not found. */
-}
-
-/* Lookup or add upvalue index. */
-static MSize var_lookup_uv(FuncState *fs, MSize vidx, ExpDesc *e)
-{
-  MSize i, n = fs->nuv;
-  for (i = 0; i < n; i++)
-    if (fs->uvmap[i] == vidx)
-      return i;  /* Already exists. */
-  /* Otherwise create a new one. */
-  checklimit(fs, fs->nuv, LJ_MAX_UPVAL, "upvalues");
-  lua_assert(e->k == VLOCAL || e->k == VUPVAL);
-  fs->uvmap[n] = (uint16_t)vidx;
-  fs->uvtmp[n] = (uint16_t)(e->k == VLOCAL ? vidx : LJ_MAX_VSTACK+e->u.s.info);
-  fs->nuv = n+1;
-  return n;
-}
-
-/* Forward declaration. */
-static void fscope_uvmark(FuncState *fs, BCReg level);
-
-/* Recursively lookup variables in enclosing functions. */
-static MSize var_lookup_(FuncState *fs, GCstr *name, ExpDesc *e, int first)
-{
-  if (fs) {
-    BCReg reg = var_lookup_local(fs, name);
-    if ((int32_t)reg >= 0) {  /* Local in this function? */
-      expr_init(e, VLOCAL, reg);
-      if (!first)
-	fscope_uvmark(fs, reg);  /* Scope now has an upvalue. */
-      return (MSize)(e->u.s.aux = (uint32_t)fs->varmap[reg]);
-    } else {
-      MSize vidx = var_lookup_(fs->prev, name, e, 0);  /* Var in outer func? */
-      if ((int32_t)vidx >= 0) {  /* Yes, make it an upvalue here. */
-	e->u.s.info = (uint8_t)var_lookup_uv(fs, vidx, e);
-	e->k = VUPVAL;
-	return vidx;
-      }
-    }
-  } else {  /* Not found in any function, must be a global. */
-    expr_init(e, VGLOBAL, 0);
-    e->u.sval = name;
-  }
-  return (MSize)-1;  /* Global. */
-}
-
-/* Lookup variable name. */
-#define var_lookup(ls, e) \
-  var_lookup_((ls)->fs, lex_str(ls), (e), 1)
-
-/* -- Goto an label handling ---------------------------------------------- */
-
-/* Add a new goto or label. */
-static MSize gola_new(LexState *ls, GCstr *name, uint8_t info, BCPos pc)
-{
-  FuncState *fs = ls->fs;
-  MSize vtop = ls->vtop;
-  if (LJ_UNLIKELY(vtop >= ls->sizevstack)) {
-    if (ls->sizevstack >= LJ_MAX_VSTACK)
-      lj_lex_error(ls, 0, LJ_ERR_XLIMC, LJ_MAX_VSTACK);
-    lj_mem_growvec(ls->L, ls->vstack, ls->sizevstack, LJ_MAX_VSTACK, VarInfo);
-  }
-  lua_assert(name == NAME_BREAK || lj_tab_getstr(fs->kt, name) != NULL);
-  /* NOBARRIER: name is anchored in fs->kt and ls->vstack is not a GCobj. */
-  setgcref(ls->vstack[vtop].name, obj2gco(name));
-  ls->vstack[vtop].startpc = pc;
-  ls->vstack[vtop].slot = (uint8_t)fs->nactvar;
-  ls->vstack[vtop].info = info;
-  ls->vtop = vtop+1;
-  return vtop;
-}
-
-#define gola_isgoto(v)		((v)->info & VSTACK_GOTO)
-#define gola_islabel(v)		((v)->info & VSTACK_LABEL)
-#define gola_isgotolabel(v)	((v)->info & (VSTACK_GOTO|VSTACK_LABEL))
-
-/* Patch goto to jump to label. */
-static void gola_patch(LexState *ls, VarInfo *vg, VarInfo *vl)
-{
-  FuncState *fs = ls->fs;
-  BCPos pc = vg->startpc;
-  setgcrefnull(vg->name);  /* Invalidate pending goto. */
-  setbc_a(&fs->bcbase[pc].ins, vl->slot);
-  jmp_patch(fs, pc, vl->startpc);
-}
-
-/* Patch goto to close upvalues. */
-static void gola_close(LexState *ls, VarInfo *vg)
-{
-  FuncState *fs = ls->fs;
-  BCPos pc = vg->startpc;
-  BCIns *ip = &fs->bcbase[pc].ins;
-  lua_assert(gola_isgoto(vg));
-  lua_assert(bc_op(*ip) == BC_JMP || bc_op(*ip) == BC_UCLO);
-  setbc_a(ip, vg->slot);
-  if (bc_op(*ip) == BC_JMP) {
-    BCPos next = jmp_next(fs, pc);
-    if (next != NO_JMP) jmp_patch(fs, next, pc);  /* Jump to UCLO. */
-    setbc_op(ip, BC_UCLO);  /* Turn into UCLO. */
-    setbc_j(ip, NO_JMP);
-  }
-}
-
-/* Resolve pending forward gotos for label. */
-static void gola_resolve(LexState *ls, FuncScope *bl, MSize idx)
-{
-  VarInfo *vg = ls->vstack + bl->vstart;
-  VarInfo *vl = ls->vstack + idx;
-  for (; vg < vl; vg++)
-    if (gcrefeq(vg->name, vl->name) && gola_isgoto(vg)) {
-      if (vg->slot < vl->slot) {
-	GCstr *name = strref(var_get(ls, ls->fs, vg->slot).name);
-	lua_assert((uintptr_t)name >= VARNAME__MAX);
-	ls->linenumber = ls->fs->bcbase[vg->startpc].line;
-	lua_assert(strref(vg->name) != NAME_BREAK);
-	lj_lex_error(ls, 0, LJ_ERR_XGSCOPE,
-		     strdata(strref(vg->name)), strdata(name));
-      }
-      gola_patch(ls, vg, vl);
-    }
-}
-
-/* Fixup remaining gotos and labels for scope. */
-static void gola_fixup(LexState *ls, FuncScope *bl)
-{
-  VarInfo *v = ls->vstack + bl->vstart;
-  VarInfo *ve = ls->vstack + ls->vtop;
-  for (; v < ve; v++) {
-    GCstr *name = strref(v->name);
-    if (name != NULL) {  /* Only consider remaining valid gotos/labels. */
-      if (gola_islabel(v)) {
-	VarInfo *vg;
-	setgcrefnull(v->name);  /* Invalidate label that goes out of scope. */
-	for (vg = v+1; vg < ve; vg++)  /* Resolve pending backward gotos. */
-	  if (strref(vg->name) == name && gola_isgoto(vg)) {
-	    if ((bl->flags&FSCOPE_UPVAL) && vg->slot > v->slot)
-	      gola_close(ls, vg);
-	    gola_patch(ls, vg, v);
-	  }
-      } else if (gola_isgoto(v)) {
-	if (bl->prev) {  /* Propagate goto or break to outer scope. */
-	  bl->prev->flags |= name == NAME_BREAK ? FSCOPE_BREAK : FSCOPE_GOLA;
-	  v->slot = bl->nactvar;
-	  if ((bl->flags & FSCOPE_UPVAL))
-	    gola_close(ls, v);
-	} else {  /* No outer scope: undefined goto label or no loop. */
-	  ls->linenumber = ls->fs->bcbase[v->startpc].line;
-	  if (name == NAME_BREAK)
-	    lj_lex_error(ls, 0, LJ_ERR_XBREAK);
-	  else
-	    lj_lex_error(ls, 0, LJ_ERR_XLUNDEF, strdata(name));
-	}
-      }
-    }
-  }
-}
-
-/* Find existing label. */
-static VarInfo *gola_findlabel(LexState *ls, GCstr *name)
-{
-  VarInfo *v = ls->vstack + ls->fs->bl->vstart;
-  VarInfo *ve = ls->vstack + ls->vtop;
-  for (; v < ve; v++)
-    if (strref(v->name) == name && gola_islabel(v))
-      return v;
-  return NULL;
-}
-
-/* -- Scope handling ------------------------------------------------------ */
-
-/* Begin a scope. */
-static void fscope_begin(FuncState *fs, FuncScope *bl, int flags)
-{
-  bl->nactvar = (uint8_t)fs->nactvar;
-  bl->flags = flags;
-  bl->vstart = fs->ls->vtop;
-  bl->prev = fs->bl;
-  fs->bl = bl;
-  lua_assert(fs->freereg == fs->nactvar);
-}
-
-/* End a scope. */
-static void fscope_end(FuncState *fs)
-{
-  FuncScope *bl = fs->bl;
-  LexState *ls = fs->ls;
-  fs->bl = bl->prev;
-  var_remove(ls, bl->nactvar);
-  fs->freereg = fs->nactvar;
-  lua_assert(bl->nactvar == fs->nactvar);
-  if ((bl->flags & (FSCOPE_UPVAL|FSCOPE_NOCLOSE)) == FSCOPE_UPVAL)
-    bcemit_AJ(fs, BC_UCLO, bl->nactvar, 0);
-  if ((bl->flags & FSCOPE_BREAK)) {
-    if ((bl->flags & FSCOPE_LOOP)) {
-      MSize idx = gola_new(ls, NAME_BREAK, VSTACK_LABEL, fs->pc);
-      ls->vtop = idx;  /* Drop break label immediately. */
-      gola_resolve(ls, bl, idx);
-      return;
-    }  /* else: need the fixup step to propagate the breaks. */
-  } else if (!(bl->flags & FSCOPE_GOLA)) {
-    return;
-  }
-  gola_fixup(ls, bl);
-}
-
-/* Mark scope as having an upvalue. */
-static void fscope_uvmark(FuncState *fs, BCReg level)
-{
-  FuncScope *bl;
-  for (bl = fs->bl; bl && bl->nactvar > level; bl = bl->prev)
-    ;
-  if (bl)
-    bl->flags |= FSCOPE_UPVAL;
-}
-
-/* -- Function state management ------------------------------------------- */
-
-/* Fixup bytecode for prototype. */
-static void fs_fixup_bc(FuncState *fs, GCproto *pt, BCIns *bc, MSize n)
-{
-  BCInsLine *base = fs->bcbase;
-  MSize i;
-  pt->sizebc = n;
-  bc[0] = BCINS_AD((fs->flags & PROTO_VARARG) ? BC_FUNCV : BC_FUNCF,
-		   fs->framesize, 0);
-  for (i = 1; i < n; i++)
-    bc[i] = base[i].ins;
-}
-
-/* Fixup upvalues for child prototype, step #2. */
-static void fs_fixup_uv2(FuncState *fs, GCproto *pt)
-{
-  VarInfo *vstack = fs->ls->vstack;
-  uint16_t *uv = proto_uv(pt);
-  MSize i, n = pt->sizeuv;
-  for (i = 0; i < n; i++) {
-    VarIndex vidx = uv[i];
-    if (vidx >= LJ_MAX_VSTACK)
-      uv[i] = vidx - LJ_MAX_VSTACK;
-    else if ((vstack[vidx].info & VSTACK_VAR_RW))
-      uv[i] = vstack[vidx].slot | PROTO_UV_LOCAL;
-    else
-      uv[i] = vstack[vidx].slot | PROTO_UV_LOCAL | PROTO_UV_IMMUTABLE;
-  }
-}
-
-/* Fixup constants for prototype. */
-static void fs_fixup_k(FuncState *fs, GCproto *pt, void *kptr)
-{
-  GCtab *kt;
-  TValue *array;
-  Node *node;
-  MSize i, hmask;
-  checklimitgt(fs, fs->nkn, BCMAX_D+1, "constants");
-  checklimitgt(fs, fs->nkgc, BCMAX_D+1, "constants");
-  setmref(pt->k, kptr);
-  pt->sizekn = fs->nkn;
-  pt->sizekgc = fs->nkgc;
-  kt = fs->kt;
-  array = tvref(kt->array);
-  for (i = 0; i < kt->asize; i++)
-    if (tvhaskslot(&array[i])) {
-      TValue *tv = &((TValue *)kptr)[tvkslot(&array[i])];
-      if (LJ_DUALNUM)
-	setintV(tv, (int32_t)i);
-      else
-	setnumV(tv, (lua_Number)i);
-    }
-  node = noderef(kt->node);
-  hmask = kt->hmask;
-  for (i = 0; i <= hmask; i++) {
-    Node *n = &node[i];
-    if (tvhaskslot(&n->val)) {
-      ptrdiff_t kidx = (ptrdiff_t)tvkslot(&n->val);
-      lua_assert(!tvisint(&n->key));
-      if (tvisnum(&n->key)) {
-	TValue *tv = &((TValue *)kptr)[kidx];
-	if (LJ_DUALNUM) {
-	  lua_Number nn = numV(&n->key);
-	  int32_t k = lj_num2int(nn);
-	  lua_assert(!tvismzero(&n->key));
-	  if ((lua_Number)k == nn)
-	    setintV(tv, k);
-	  else
-	    *tv = n->key;
-	} else {
-	  *tv = n->key;
-	}
-      } else {
-	GCobj *o = gcV(&n->key);
-	setgcref(((GCRef *)kptr)[~kidx], o);
-	lj_gc_objbarrier(fs->L, pt, o);
-	if (tvisproto(&n->key))
-	  fs_fixup_uv2(fs, gco2pt(o));
-      }
-    }
-  }
-}
-
-/* Fixup upvalues for prototype, step #1. */
-static void fs_fixup_uv1(FuncState *fs, GCproto *pt, uint16_t *uv)
-{
-  setmref(pt->uv, uv);
-  pt->sizeuv = fs->nuv;
-  memcpy(uv, fs->uvtmp, fs->nuv*sizeof(VarIndex));
-}
-
-#ifndef LUAJIT_DISABLE_DEBUGINFO
-/* Prepare lineinfo for prototype. */
-static size_t fs_prep_line(FuncState *fs, BCLine numline)
-{
-  return (fs->pc-1) << (numline < 256 ? 0 : numline < 65536 ? 1 : 2);
-}
-
-/* Fixup lineinfo for prototype. */
-static void fs_fixup_line(FuncState *fs, GCproto *pt,
-			  void *lineinfo, BCLine numline)
-{
-  BCInsLine *base = fs->bcbase + 1;
-  BCLine first = fs->linedefined;
-  MSize i = 0, n = fs->pc-1;
-  pt->firstline = fs->linedefined;
-  pt->numline = numline;
-  setmref(pt->lineinfo, lineinfo);
-  if (LJ_LIKELY(numline < 256)) {
-    uint8_t *li = (uint8_t *)lineinfo;
-    do {
-      BCLine delta = base[i].line - first;
-      lua_assert(delta >= 0 && delta < 256);
-      li[i] = (uint8_t)delta;
-    } while (++i < n);
-  } else if (LJ_LIKELY(numline < 65536)) {
-    uint16_t *li = (uint16_t *)lineinfo;
-    do {
-      BCLine delta = base[i].line - first;
-      lua_assert(delta >= 0 && delta < 65536);
-      li[i] = (uint16_t)delta;
-    } while (++i < n);
-  } else {
-    uint32_t *li = (uint32_t *)lineinfo;
-    do {
-      BCLine delta = base[i].line - first;
-      lua_assert(delta >= 0);
-      li[i] = (uint32_t)delta;
-    } while (++i < n);
-  }
-}
-
-/* Resize buffer if needed. */
-static LJ_NOINLINE void fs_buf_resize(LexState *ls, MSize len)
-{
-  MSize sz = ls->sb.sz * 2;
-  while (ls->sb.n + len > sz) sz = sz * 2;
-  lj_str_resizebuf(ls->L, &ls->sb, sz);
-}
-
-static LJ_AINLINE void fs_buf_need(LexState *ls, MSize len)
-{
-  if (LJ_UNLIKELY(ls->sb.n + len > ls->sb.sz))
-    fs_buf_resize(ls, len);
-}
-
-/* Add string to buffer. */
-static void fs_buf_str(LexState *ls, const char *str, MSize len)
-{
-  char *p = ls->sb.buf + ls->sb.n;
-  MSize i;
-  ls->sb.n += len;
-  for (i = 0; i < len; i++) p[i] = str[i];
-}
-
-/* Add ULEB128 value to buffer. */
-static void fs_buf_uleb128(LexState *ls, uint32_t v)
-{
-  MSize n = ls->sb.n;
-  uint8_t *p = (uint8_t *)ls->sb.buf;
-  for (; v >= 0x80; v >>= 7)
-    p[n++] = (uint8_t)((v & 0x7f) | 0x80);
-  p[n++] = (uint8_t)v;
-  ls->sb.n = n;
-}
-
-/* Prepare variable info for prototype. */
-static size_t fs_prep_var(LexState *ls, FuncState *fs, size_t *ofsvar)
-{
-  VarInfo *vs =ls->vstack, *ve;
-  MSize i, n;
-  BCPos lastpc;
-  lj_str_resetbuf(&ls->sb);  /* Copy to temp. string buffer. */
-  /* Store upvalue names. */
-  for (i = 0, n = fs->nuv; i < n; i++) {
-    GCstr *s = strref(vs[fs->uvmap[i]].name);
-    MSize len = s->len+1;
-    fs_buf_need(ls, len);
-    fs_buf_str(ls, strdata(s), len);
-  }
-  *ofsvar = ls->sb.n;
-  lastpc = 0;
-  /* Store local variable names and compressed ranges. */
-  for (ve = vs + ls->vtop, vs += fs->vbase; vs < ve; vs++) {
-    if (!gola_isgotolabel(vs)) {
-      GCstr *s = strref(vs->name);
-      BCPos startpc;
-      if ((uintptr_t)s < VARNAME__MAX) {
-	fs_buf_need(ls, 1 + 2*5);
-	ls->sb.buf[ls->sb.n++] = (uint8_t)(uintptr_t)s;
-      } else {
-	MSize len = s->len+1;
-	fs_buf_need(ls, len + 2*5);
-	fs_buf_str(ls, strdata(s), len);
-      }
-      startpc = vs->startpc;
-      fs_buf_uleb128(ls, startpc-lastpc);
-      fs_buf_uleb128(ls, vs->endpc-startpc);
-      lastpc = startpc;
-    }
-  }
-  fs_buf_need(ls, 1);
-  ls->sb.buf[ls->sb.n++] = '\0';  /* Terminator for varinfo. */
-  return ls->sb.n;
-}
-
-/* Fixup variable info for prototype. */
-static void fs_fixup_var(LexState *ls, GCproto *pt, uint8_t *p, size_t ofsvar)
-{
-  setmref(pt->uvinfo, p);
-  setmref(pt->varinfo, (char *)p + ofsvar);
-  memcpy(p, ls->sb.buf, ls->sb.n);  /* Copy from temp. string buffer. */
-}
-#else
-
-/* Initialize with empty debug info, if disabled. */
-#define fs_prep_line(fs, numline)		(UNUSED(numline), 0)
-#define fs_fixup_line(fs, pt, li, numline) \
-  pt->firstline = pt->numline = 0, setmref((pt)->lineinfo, NULL)
-#define fs_prep_var(ls, fs, ofsvar)		(UNUSED(ofsvar), 0)
-#define fs_fixup_var(ls, pt, p, ofsvar) \
-  setmref((pt)->uvinfo, NULL), setmref((pt)->varinfo, NULL)
-
-#endif
-
-/* Check if bytecode op returns. */
-static int bcopisret(BCOp op)
-{
-  switch (op) {
-  case BC_CALLMT: case BC_CALLT:
-  case BC_RETM: case BC_RET: case BC_RET0: case BC_RET1:
-    return 1;
-  default:
-    return 0;
-  }
-}
-
-/* Fixup return instruction for prototype. */
-static void fs_fixup_ret(FuncState *fs)
-{
-  BCPos lastpc = fs->pc;
-  if (lastpc <= fs->lasttarget || !bcopisret(bc_op(fs->bcbase[lastpc-1].ins))) {
-    if ((fs->bl->flags & FSCOPE_UPVAL))
-      bcemit_AJ(fs, BC_UCLO, 0, 0);
-    bcemit_AD(fs, BC_RET0, 0, 1);  /* Need final return. */
-  }
-  fs->bl->flags |= FSCOPE_NOCLOSE;  /* Handled above. */
-  fscope_end(fs);
-  lua_assert(fs->bl == NULL);
-  /* May need to fixup returns encoded before first function was created. */
-  if (fs->flags & PROTO_FIXUP_RETURN) {
-    BCPos pc;
-    for (pc = 1; pc < lastpc; pc++) {
-      BCIns ins = fs->bcbase[pc].ins;
-      BCPos offset;
-      switch (bc_op(ins)) {
-      case BC_CALLMT: case BC_CALLT:
-      case BC_RETM: case BC_RET: case BC_RET0: case BC_RET1:
-	offset = bcemit_INS(fs, ins);  /* Copy original instruction. */
-	fs->bcbase[offset].line = fs->bcbase[pc].line;
-	offset = offset-(pc+1)+BCBIAS_J;
-	if (offset > BCMAX_D)
-	  err_syntax(fs->ls, LJ_ERR_XFIXUP);
-	/* Replace with UCLO plus branch. */
-	fs->bcbase[pc].ins = BCINS_AD(BC_UCLO, 0, offset);
-	break;
-      case BC_UCLO:
-	return;  /* We're done. */
-      default:
-	break;
-      }
-    }
-  }
-}
-
-/* Finish a FuncState and return the new prototype. */
-static GCproto *fs_finish(LexState *ls, BCLine line)
-{
-  lua_State *L = ls->L;
-  FuncState *fs = ls->fs;
-  BCLine numline = line - fs->linedefined;
-  size_t sizept, ofsk, ofsuv, ofsli, ofsdbg, ofsvar;
-  GCproto *pt;
-
-  /* Apply final fixups. */
-  fs_fixup_ret(fs);
-
-  /* Calculate total size of prototype including all colocated arrays. */
-  sizept = sizeof(GCproto) + fs->pc*sizeof(BCIns) + fs->nkgc*sizeof(GCRef);
-  sizept = (sizept + sizeof(TValue)-1) & ~(sizeof(TValue)-1);
-  ofsk = sizept; sizept += fs->nkn*sizeof(TValue);
-  ofsuv = sizept; sizept += ((fs->nuv+1)&~1)*2;
-  ofsli = sizept; sizept += fs_prep_line(fs, numline);
-  ofsdbg = sizept; sizept += fs_prep_var(ls, fs, &ofsvar);
-
-  /* Allocate prototype and initialize its fields. */
-  pt = (GCproto *)lj_mem_newgco(L, (MSize)sizept);
-  pt->gct = ~LJ_TPROTO;
-  pt->sizept = (MSize)sizept;
-  pt->trace = 0;
-  pt->flags = (uint8_t)(fs->flags & ~(PROTO_HAS_RETURN|PROTO_FIXUP_RETURN));
-  pt->numparams = fs->numparams;
-  pt->framesize = fs->framesize;
-  setgcref(pt->chunkname, obj2gco(ls->chunkname));
-
-  /* Close potentially uninitialized gap between bc and kgc. */
-  *(uint32_t *)((char *)pt + ofsk - sizeof(GCRef)*(fs->nkgc+1)) = 0;
-  fs_fixup_bc(fs, pt, (BCIns *)((char *)pt + sizeof(GCproto)), fs->pc);
-  fs_fixup_k(fs, pt, (void *)((char *)pt + ofsk));
-  fs_fixup_uv1(fs, pt, (uint16_t *)((char *)pt + ofsuv));
-  fs_fixup_line(fs, pt, (void *)((char *)pt + ofsli), numline);
-  fs_fixup_var(ls, pt, (uint8_t *)((char *)pt + ofsdbg), ofsvar);
-
-  lj_vmevent_send(L, BC,
-    setprotoV(L, L->top++, pt);
-  );
-
-  L->top--;  /* Pop table of constants. */
-  ls->vtop = fs->vbase;  /* Reset variable stack. */
-  ls->fs = fs->prev;
-  lua_assert(ls->fs != NULL || ls->token == TK_eof);
-  return pt;
-}
-
-/* Initialize a new FuncState. */
-static void fs_init(LexState *ls, FuncState *fs)
-{
-  lua_State *L = ls->L;
-  fs->prev = ls->fs; ls->fs = fs;  /* Append to list. */
-  fs->ls = ls;
-  fs->vbase = ls->vtop;
-  fs->L = L;
-  fs->pc = 0;
-  fs->lasttarget = 0;
-  fs->jpc = NO_JMP;
-  fs->freereg = 0;
-  fs->nkgc = 0;
-  fs->nkn = 0;
-  fs->nactvar = 0;
-  fs->nuv = 0;
-  fs->bl = NULL;
-  fs->flags = 0;
-  fs->framesize = 1;  /* Minimum frame size. */
-  fs->kt = lj_tab_new(L, 0, 0);
-  /* Anchor table of constants in stack to avoid being collected. */
-  settabV(L, L->top, fs->kt);
-  incr_top(L);
-}
-
-/* -- Expressions --------------------------------------------------------- */
-
-/* Forward declaration. */
-static void expr(LexState *ls, ExpDesc *v);
-
-/* Return string expression. */
-static void expr_str(LexState *ls, ExpDesc *e)
-{
-  expr_init(e, VKSTR, 0);
-  e->u.sval = lex_str(ls);
-}
-
-/* Return index expression. */
-static void expr_index(FuncState *fs, ExpDesc *t, ExpDesc *e)
-{
-  /* Already called: expr_toval(fs, e). */
-  t->k = VINDEXED;
-  if (expr_isnumk(e)) {
-#if LJ_DUALNUM
-    if (tvisint(expr_numtv(e))) {
-      int32_t k = intV(expr_numtv(e));
-      if (checku8(k)) {
-	t->u.s.aux = BCMAX_C+1+(uint32_t)k;  /* 256..511: const byte key */
-	return;
-      }
-    }
-#else
-    lua_Number n = expr_numberV(e);
-    int32_t k = lj_num2int(n);
-    if (checku8(k) && n == (lua_Number)k) {
-      t->u.s.aux = BCMAX_C+1+(uint32_t)k;  /* 256..511: const byte key */
-      return;
-    }
-#endif
-  } else if (expr_isstrk(e)) {
-    BCReg idx = const_str(fs, e);
-    if (idx <= BCMAX_C) {
-      t->u.s.aux = ~idx;  /* -256..-1: const string key */
-      return;
-    }
-  }
-  t->u.s.aux = expr_toanyreg(fs, e);  /* 0..255: register */
-}
-
-/* Parse index expression with named field. */
-static void expr_field(LexState *ls, ExpDesc *v)
-{
-  FuncState *fs = ls->fs;
-  ExpDesc key;
-  expr_toanyreg(fs, v);
-  lj_lex_next(ls);  /* Skip dot or colon. */
-  expr_str(ls, &key);
-  expr_index(fs, v, &key);
-}
-
-/* Parse index expression with brackets. */
-static void expr_bracket(LexState *ls, ExpDesc *v)
-{
-  lj_lex_next(ls);  /* Skip '['. */
-  expr(ls, v);
-  expr_toval(ls->fs, v);
-  lex_check(ls, ']');
-}
-
-/* Get value of constant expression. */
-static void expr_kvalue(TValue *v, ExpDesc *e)
-{
-  if (e->k <= VKTRUE) {
-    setitype(v, ~(uint32_t)e->k);
-  } else if (e->k == VKSTR) {
-    setgcref(v->gcr, obj2gco(e->u.sval));
-    setitype(v, LJ_TSTR);
-  } else {
-    lua_assert(tvisnumber(expr_numtv(e)));
-    *v = *expr_numtv(e);
-  }
-}
-
-/* Parse table constructor expression. */
-static void expr_table(LexState *ls, ExpDesc *e)
-{
-  FuncState *fs = ls->fs;
-  BCLine line = ls->linenumber;
-  GCtab *t = NULL;
-  int vcall = 0, needarr = 0, fixt = 0;
-  uint32_t narr = 1;  /* First array index. */
-  uint32_t nhash = 0;  /* Number of hash entries. */
-  BCReg freg = fs->freereg;
-  BCPos pc = bcemit_AD(fs, BC_TNEW, freg, 0);
-  expr_init(e, VNONRELOC, freg);
-  bcreg_reserve(fs, 1);
-  freg++;
-  lex_check(ls, '{');
-  while (ls->token != '}') {
-    ExpDesc key, val;
-    vcall = 0;
-    if (ls->token == '[') {
-      expr_bracket(ls, &key);  /* Already calls expr_toval. */
-      if (!expr_isk(&key)) expr_index(fs, e, &key);
-      if (expr_isnumk(&key) && expr_numiszero(&key)) needarr = 1; else nhash++;
-      lex_check(ls, '=');
-    } else if ((ls->token == TK_name || (!LJ_52 && ls->token == TK_goto)) &&
-	       lj_lex_lookahead(ls) == '=') {
-      expr_str(ls, &key);
-      lex_check(ls, '=');
-      nhash++;
-    } else {
-      expr_init(&key, VKNUM, 0);
-      setintV(&key.u.nval, (int)narr);
-      narr++;
-      needarr = vcall = 1;
-    }
-    expr(ls, &val);
-    if (expr_isk(&key) && key.k != VKNIL &&
-	(key.k == VKSTR || expr_isk_nojump(&val))) {
-      TValue k, *v;
-      if (!t) {  /* Create template table on demand. */
-	BCReg kidx;
-	t = lj_tab_new(fs->L, needarr ? narr : 0, hsize2hbits(nhash));
-	kidx = const_gc(fs, obj2gco(t), LJ_TTAB);
-	fs->bcbase[pc].ins = BCINS_AD(BC_TDUP, freg-1, kidx);
-      }
-      vcall = 0;
-      expr_kvalue(&k, &key);
-      v = lj_tab_set(fs->L, t, &k);
-      lj_gc_anybarriert(fs->L, t);
-      if (expr_isk_nojump(&val)) {  /* Add const key/value to template table. */
-	expr_kvalue(v, &val);
-      } else {  /* Otherwise create dummy string key (avoids lj_tab_newkey). */
-	settabV(fs->L, v, t);  /* Preserve key with table itself as value. */
-	fixt = 1;   /* Fix this later, after all resizes. */
-	goto nonconst;
-      }
-    } else {
-    nonconst:
-      if (val.k != VCALL) { expr_toanyreg(fs, &val); vcall = 0; }
-      if (expr_isk(&key)) expr_index(fs, e, &key);
-      bcemit_store(fs, e, &val);
-    }
-    fs->freereg = freg;
-    if (!lex_opt(ls, ',') && !lex_opt(ls, ';')) break;
-  }
-  lex_match(ls, '}', '{', line);
-  if (vcall) {
-    BCInsLine *ilp = &fs->bcbase[fs->pc-1];
-    ExpDesc en;
-    lua_assert(bc_a(ilp->ins) == freg &&
-	       bc_op(ilp->ins) == (narr > 256 ? BC_TSETV : BC_TSETB));
-    expr_init(&en, VKNUM, 0);
-    en.u.nval.u32.lo = narr-1;
-    en.u.nval.u32.hi = 0x43300000;  /* Biased integer to avoid denormals. */
-    if (narr > 256) { fs->pc--; ilp--; }
-    ilp->ins = BCINS_AD(BC_TSETM, freg, const_num(fs, &en));
-    setbc_b(&ilp[-1].ins, 0);
-  }
-  if (pc == fs->pc-1) {  /* Make expr relocable if possible. */
-    e->u.s.info = pc;
-    fs->freereg--;
-    e->k = VRELOCABLE;
-  } else {
-    e->k = VNONRELOC;  /* May have been changed by expr_index. */
-  }
-  if (!t) {  /* Construct TNEW RD: hhhhhaaaaaaaaaaa. */
-    BCIns *ip = &fs->bcbase[pc].ins;
-    if (!needarr) narr = 0;
-    else if (narr < 3) narr = 3;
-    else if (narr > 0x7ff) narr = 0x7ff;
-    setbc_d(ip, narr|(hsize2hbits(nhash)<<11));
-  } else {
-    if (needarr && t->asize < narr)
-      lj_tab_reasize(fs->L, t, narr-1);
-    if (fixt) {  /* Fix value for dummy keys in template table. */
-      Node *node = noderef(t->node);
-      uint32_t i, hmask = t->hmask;
-      for (i = 0; i <= hmask; i++) {
-	Node *n = &node[i];
-	if (tvistab(&n->val)) {
-	  lua_assert(tabV(&n->val) == t);
-	  setnilV(&n->val);  /* Turn value into nil. */
-	}
-      }
-    }
-    lj_gc_check(fs->L);
-  }
-}
-
-/* Parse function parameters. */
-static BCReg parse_params(LexState *ls, int needself)
-{
-  FuncState *fs = ls->fs;
-  BCReg nparams = 0;
-  lex_check(ls, '(');
-  if (needself)
-    var_new_lit(ls, nparams++, "self");
-  if (ls->token != ')') {
-    do {
-      if (ls->token == TK_name || (!LJ_52 && ls->token == TK_goto)) {
-	var_new(ls, nparams++, lex_str(ls));
-      } else if (ls->token == TK_dots) {
-	lj_lex_next(ls);
-	fs->flags |= PROTO_VARARG;
-	break;
-      } else {
-	err_syntax(ls, LJ_ERR_XPARAM);
-      }
-    } while (lex_opt(ls, ','));
-  }
-  var_add(ls, nparams);
-  lua_assert(fs->nactvar == nparams);
-  bcreg_reserve(fs, nparams);
-  lex_check(ls, ')');
-  return nparams;
-}
-
-/* Forward declaration. */
-static void parse_chunk(LexState *ls);
-
-/* Parse body of a function. */
-static void parse_body(LexState *ls, ExpDesc *e, int needself, BCLine line)
-{
-  FuncState fs, *pfs = ls->fs;
-  FuncScope bl;
-  GCproto *pt;
-  ptrdiff_t oldbase = pfs->bcbase - ls->bcstack;
-  fs_init(ls, &fs);
-  fscope_begin(&fs, &bl, 0);
-  fs.linedefined = line;
-  fs.numparams = (uint8_t)parse_params(ls, needself);
-  fs.bcbase = pfs->bcbase + pfs->pc;
-  fs.bclim = pfs->bclim - pfs->pc;
-  bcemit_AD(&fs, BC_FUNCF, 0, 0);  /* Placeholder. */
-  parse_chunk(ls);
-  if (ls->token != TK_end) lex_match(ls, TK_end, TK_function, line);
-  pt = fs_finish(ls, (ls->lastline = ls->linenumber));
-  pfs->bcbase = ls->bcstack + oldbase;  /* May have been reallocated. */
-  pfs->bclim = (BCPos)(ls->sizebcstack - oldbase);
-  /* Store new prototype in the constant array of the parent. */
-  expr_init(e, VRELOCABLE,
-	    bcemit_AD(pfs, BC_FNEW, 0, const_gc(pfs, obj2gco(pt), LJ_TPROTO)));
-#if LJ_HASFFI
-  pfs->flags |= (fs.flags & PROTO_FFI);
-#endif
-  if (!(pfs->flags & PROTO_CHILD)) {
-    if (pfs->flags & PROTO_HAS_RETURN)
-      pfs->flags |= PROTO_FIXUP_RETURN;
-    pfs->flags |= PROTO_CHILD;
-  }
-  lj_lex_next(ls);
-}
-
-/* Parse expression list. Last expression is left open. */
-static BCReg expr_list(LexState *ls, ExpDesc *v)
-{
-  BCReg n = 1;
-  expr(ls, v);
-  while (lex_opt(ls, ',')) {
-    expr_tonextreg(ls->fs, v);
-    expr(ls, v);
-    n++;
-  }
-  return n;
-}
-
-/* Parse function argument list. */
-static void parse_args(LexState *ls, ExpDesc *e)
-{
-  FuncState *fs = ls->fs;
-  ExpDesc args;
-  BCIns ins;
-  BCReg base;
-  BCLine line = ls->linenumber;
-  if (ls->token == '(') {
-#if !LJ_52
-    if (line != ls->lastline)
-      err_syntax(ls, LJ_ERR_XAMBIG);
-#endif
-    lj_lex_next(ls);
-    if (ls->token == ')') {  /* f(). */
-      args.k = VVOID;
-    } else {
-      expr_list(ls, &args);
-      if (args.k == VCALL)  /* f(a, b, g()) or f(a, b, ...). */
-	setbc_b(bcptr(fs, &args), 0);  /* Pass on multiple results. */
-    }
-    lex_match(ls, ')', '(', line);
-  } else if (ls->token == '{') {
-    expr_table(ls, &args);
-  } else if (ls->token == TK_string) {
-    expr_init(&args, VKSTR, 0);
-    args.u.sval = strV(&ls->tokenval);
-    lj_lex_next(ls);
-  } else {
-    err_syntax(ls, LJ_ERR_XFUNARG);
-    return;  /* Silence compiler. */
-  }
-  lua_assert(e->k == VNONRELOC);
-  base = e->u.s.info;  /* Base register for call. */
-  if (args.k == VCALL) {
-    ins = BCINS_ABC(BC_CALLM, base, 2, args.u.s.aux - base - 1);
-  } else {
-    if (args.k != VVOID)
-      expr_tonextreg(fs, &args);
-    ins = BCINS_ABC(BC_CALL, base, 2, fs->freereg - base);
-  }
-  expr_init(e, VCALL, bcemit_INS(fs, ins));
-  e->u.s.aux = base;
-  fs->bcbase[fs->pc - 1].line = line;
-  fs->freereg = base+1;  /* Leave one result by default. */
-}
-
-/* Parse primary expression. */
-static void expr_primary(LexState *ls, ExpDesc *v)
-{
-  FuncState *fs = ls->fs;
-  /* Parse prefix expression. */
-  if (ls->token == '(') {
-    BCLine line = ls->linenumber;
-    lj_lex_next(ls);
-    expr(ls, v);
-    lex_match(ls, ')', '(', line);
-    expr_discharge(ls->fs, v);
-  } else if (ls->token == TK_name || (!LJ_52 && ls->token == TK_goto)) {
-    var_lookup(ls, v);
-  } else {
-    err_syntax(ls, LJ_ERR_XSYMBOL);
-  }
-  for (;;) {  /* Parse multiple expression suffixes. */
-    if (ls->token == '.') {
-      expr_field(ls, v);
-    } else if (ls->token == '[') {
-      ExpDesc key;
-      expr_toanyreg(fs, v);
-      expr_bracket(ls, &key);
-      expr_index(fs, v, &key);
-    } else if (ls->token == ':') {
-      ExpDesc key;
-      lj_lex_next(ls);
-      expr_str(ls, &key);
-      bcemit_method(fs, v, &key);
-      parse_args(ls, v);
-    } else if (ls->token == '(' || ls->token == TK_string || ls->token == '{') {
-      expr_tonextreg(fs, v);
-      parse_args(ls, v);
-    } else {
-      break;
-    }
-  }
-}
-
-/* Parse simple expression. */
-static void expr_simple(LexState *ls, ExpDesc *v)
-{
-  switch (ls->token) {
-  case TK_number:
-    expr_init(v, (LJ_HASFFI && tviscdata(&ls->tokenval)) ? VKCDATA : VKNUM, 0);
-    copyTV(ls->L, &v->u.nval, &ls->tokenval);
-    break;
-  case TK_string:
-    expr_init(v, VKSTR, 0);
-    v->u.sval = strV(&ls->tokenval);
-    break;
-  case TK_nil:
-    expr_init(v, VKNIL, 0);
-    break;
-  case TK_true:
-    expr_init(v, VKTRUE, 0);
-    break;
-  case TK_false:
-    expr_init(v, VKFALSE, 0);
-    break;
-  case TK_dots: {  /* Vararg. */
-    FuncState *fs = ls->fs;
-    BCReg base;
-    checkcond(ls, fs->flags & PROTO_VARARG, LJ_ERR_XDOTS);
-    bcreg_reserve(fs, 1);
-    base = fs->freereg-1;
-    expr_init(v, VCALL, bcemit_ABC(fs, BC_VARG, base, 2, fs->numparams));
-    v->u.s.aux = base;
-    break;
-  }
-  case '{':  /* Table constructor. */
-    expr_table(ls, v);
-    return;
-  case TK_function:
-    lj_lex_next(ls);
-    parse_body(ls, v, 0, ls->linenumber);
-    return;
-  default:
-    expr_primary(ls, v);
-    return;
-  }
-  lj_lex_next(ls);
-}
-
-/* Manage syntactic levels to avoid blowing up the stack. */
-static void synlevel_begin(LexState *ls)
-{
-  if (++ls->level >= LJ_MAX_XLEVEL)
-    lj_lex_error(ls, 0, LJ_ERR_XLEVELS);
-}
-
-#define synlevel_end(ls)	((ls)->level--)
-
-/* Convert token to binary operator. */
-static BinOpr token2binop(LexToken tok)
-{
-  switch (tok) {
-  case '+':	return OPR_ADD;
-  case '-':	return OPR_SUB;
-  case '*':	return OPR_MUL;
-  case '/':	return OPR_DIV;
-  case '%':	return OPR_MOD;
-  case '^':	return OPR_POW;
-  case TK_concat: return OPR_CONCAT;
-  case TK_ne:	return OPR_NE;
-  case TK_eq:	return OPR_EQ;
-  case '<':	return OPR_LT;
-  case TK_le:	return OPR_LE;
-  case '>':	return OPR_GT;
-  case TK_ge:	return OPR_GE;
-  case TK_and:	return OPR_AND;
-  case TK_or:	return OPR_OR;
-  default:	return OPR_NOBINOPR;
-  }
-}
-
-/* Priorities for each binary operator. ORDER OPR. */
-static const struct {
-  uint8_t left;		/* Left priority. */
-  uint8_t right;	/* Right priority. */
-} priority[] = {
-  {6,6}, {6,6}, {7,7}, {7,7}, {7,7},	/* ADD SUB MUL DIV MOD */
-  {10,9}, {5,4},			/* POW CONCAT (right associative) */
-  {3,3}, {3,3},				/* EQ NE */
-  {3,3}, {3,3}, {3,3}, {3,3},		/* LT GE GT LE */
-  {2,2}, {1,1}				/* AND OR */
-};
-
-#define UNARY_PRIORITY		8  /* Priority for unary operators. */
-
-/* Forward declaration. */
-static BinOpr expr_binop(LexState *ls, ExpDesc *v, uint32_t limit);
-
-/* Parse unary expression. */
-static void expr_unop(LexState *ls, ExpDesc *v)
-{
-  BCOp op;
-  if (ls->token == TK_not) {
-    op = BC_NOT;
-  } else if (ls->token == '-') {
-    op = BC_UNM;
-  } else if (ls->token == '#') {
-    op = BC_LEN;
-  } else {
-    expr_simple(ls, v);
-    return;
-  }
-  lj_lex_next(ls);
-  expr_binop(ls, v, UNARY_PRIORITY);
-  bcemit_unop(ls->fs, op, v);
-}
-
-/* Parse binary expressions with priority higher than the limit. */
-static BinOpr expr_binop(LexState *ls, ExpDesc *v, uint32_t limit)
-{
-  BinOpr op;
-  synlevel_begin(ls);
-  expr_unop(ls, v);
-  op = token2binop(ls->token);
-  while (op != OPR_NOBINOPR && priority[op].left > limit) {
-    ExpDesc v2;
-    BinOpr nextop;
-    lj_lex_next(ls);
-    bcemit_binop_left(ls->fs, op, v);
-    /* Parse binary expression with higher priority. */
-    nextop = expr_binop(ls, &v2, priority[op].right);
-    bcemit_binop(ls->fs, op, v, &v2);
-    op = nextop;
-  }
-  synlevel_end(ls);
-  return op;  /* Return unconsumed binary operator (if any). */
-}
-
-/* Parse expression. */
-static void expr(LexState *ls, ExpDesc *v)
-{
-  expr_binop(ls, v, 0);  /* Priority 0: parse whole expression. */
-}
-
-/* Assign expression to the next register. */
-static void expr_next(LexState *ls)
-{
-  ExpDesc e;
-  expr(ls, &e);
-  expr_tonextreg(ls->fs, &e);
-}
-
-/* Parse conditional expression. */
-static BCPos expr_cond(LexState *ls)
-{
-  ExpDesc v;
-  expr(ls, &v);
-  if (v.k == VKNIL) v.k = VKFALSE;
-  bcemit_branch_t(ls->fs, &v);
-  return v.f;
-}
-
-/* -- Assignments --------------------------------------------------------- */
-
-/* List of LHS variables. */
-typedef struct LHSVarList {
-  ExpDesc v;			/* LHS variable. */
-  struct LHSVarList *prev;	/* Link to previous LHS variable. */
-} LHSVarList;
-
-/* Eliminate write-after-read hazards for local variable assignment. */
-static void assign_hazard(LexState *ls, LHSVarList *lh, const ExpDesc *v)
-{
-  FuncState *fs = ls->fs;
-  BCReg reg = v->u.s.info;  /* Check against this variable. */
-  BCReg tmp = fs->freereg;  /* Rename to this temp. register (if needed). */
-  int hazard = 0;
-  for (; lh; lh = lh->prev) {
-    if (lh->v.k == VINDEXED) {
-      if (lh->v.u.s.info == reg) {  /* t[i], t = 1, 2 */
-	hazard = 1;
-	lh->v.u.s.info = tmp;
-      }
-      if (lh->v.u.s.aux == reg) {  /* t[i], i = 1, 2 */
-	hazard = 1;
-	lh->v.u.s.aux = tmp;
-      }
-    }
-  }
-  if (hazard) {
-    bcemit_AD(fs, BC_MOV, tmp, reg);  /* Rename conflicting variable. */
-    bcreg_reserve(fs, 1);
-  }
-}
-
-/* Adjust LHS/RHS of an assignment. */
-static void assign_adjust(LexState *ls, BCReg nvars, BCReg nexps, ExpDesc *e)
-{
-  FuncState *fs = ls->fs;
-  int32_t extra = (int32_t)nvars - (int32_t)nexps;
-  if (e->k == VCALL) {
-    extra++;  /* Compensate for the VCALL itself. */
-    if (extra < 0) extra = 0;
-    setbc_b(bcptr(fs, e), extra+1);  /* Fixup call results. */
-    if (extra > 1) bcreg_reserve(fs, (BCReg)extra-1);
-  } else {
-    if (e->k != VVOID)
-      expr_tonextreg(fs, e);  /* Close last expression. */
-    if (extra > 0) {  /* Leftover LHS are set to nil. */
-      BCReg reg = fs->freereg;
-      bcreg_reserve(fs, (BCReg)extra);
-      bcemit_nil(fs, reg, (BCReg)extra);
-    }
-  }
-}
-
-/* Recursively parse assignment statement. */
-static void parse_assignment(LexState *ls, LHSVarList *lh, BCReg nvars)
-{
-  ExpDesc e;
-  checkcond(ls, VLOCAL <= lh->v.k && lh->v.k <= VINDEXED, LJ_ERR_XSYNTAX);
-  if (lex_opt(ls, ',')) {  /* Collect LHS list and recurse upwards. */
-    LHSVarList vl;
-    vl.prev = lh;
-    expr_primary(ls, &vl.v);
-    if (vl.v.k == VLOCAL)
-      assign_hazard(ls, lh, &vl.v);
-    checklimit(ls->fs, ls->level + nvars, LJ_MAX_XLEVEL, "variable names");
-    parse_assignment(ls, &vl, nvars+1);
-  } else {  /* Parse RHS. */
-    BCReg nexps;
-    lex_check(ls, '=');
-    nexps = expr_list(ls, &e);
-    if (nexps == nvars) {
-      if (e.k == VCALL) {
-	if (bc_op(*bcptr(ls->fs, &e)) == BC_VARG) {  /* Vararg assignment. */
-	  ls->fs->freereg--;
-	  e.k = VRELOCABLE;
-	} else {  /* Multiple call results. */
-	  e.u.s.info = e.u.s.aux;  /* Base of call is not relocatable. */
-	  e.k = VNONRELOC;
-	}
-      }
-      bcemit_store(ls->fs, &lh->v, &e);
-      return;
-    }
-    assign_adjust(ls, nvars, nexps, &e);
-    if (nexps > nvars)
-      ls->fs->freereg -= nexps - nvars;  /* Drop leftover regs. */
-  }
-  /* Assign RHS to LHS and recurse downwards. */
-  expr_init(&e, VNONRELOC, ls->fs->freereg-1);
-  bcemit_store(ls->fs, &lh->v, &e);
-}
-
-/* Parse call statement or assignment. */
-static void parse_call_assign(LexState *ls)
-{
-  FuncState *fs = ls->fs;
-  LHSVarList vl;
-  expr_primary(ls, &vl.v);
-  if (vl.v.k == VCALL) {  /* Function call statement. */
-    setbc_b(bcptr(fs, &vl.v), 1);  /* No results. */
-  } else {  /* Start of an assignment. */
-    vl.prev = NULL;
-    parse_assignment(ls, &vl, 1);
-  }
-}
-
-/* Parse 'local' statement. */
-static void parse_local(LexState *ls)
-{
-  if (lex_opt(ls, TK_function)) {  /* Local function declaration. */
-    ExpDesc v, b;
-    FuncState *fs = ls->fs;
-    var_new(ls, 0, lex_str(ls));
-    expr_init(&v, VLOCAL, fs->freereg);
-    v.u.s.aux = fs->varmap[fs->freereg];
-    bcreg_reserve(fs, 1);
-    var_add(ls, 1);
-    parse_body(ls, &b, 0, ls->linenumber);
-    /* bcemit_store(fs, &v, &b) without setting VSTACK_VAR_RW. */
-    expr_free(fs, &b);
-    expr_toreg(fs, &b, v.u.s.info);
-    /* The upvalue is in scope, but the local is only valid after the store. */
-    var_get(ls, fs, fs->nactvar - 1).startpc = fs->pc;
-  } else {  /* Local variable declaration. */
-    ExpDesc e;
-    BCReg nexps, nvars = 0;
-    do {  /* Collect LHS. */
-      var_new(ls, nvars++, lex_str(ls));
-    } while (lex_opt(ls, ','));
-    if (lex_opt(ls, '=')) {  /* Optional RHS. */
-      nexps = expr_list(ls, &e);
-    } else {  /* Or implicitly set to nil. */
-      e.k = VVOID;
-      nexps = 0;
-    }
-    assign_adjust(ls, nvars, nexps, &e);
-    var_add(ls, nvars);
-  }
-}
-
-/* Parse 'function' statement. */
-static void parse_func(LexState *ls, BCLine line)
-{
-  FuncState *fs;
-  ExpDesc v, b;
-  int needself = 0;
-  lj_lex_next(ls);  /* Skip 'function'. */
-  /* Parse function name. */
-  var_lookup(ls, &v);
-  while (ls->token == '.')  /* Multiple dot-separated fields. */
-    expr_field(ls, &v);
-  if (ls->token == ':') {  /* Optional colon to signify method call. */
-    needself = 1;
-    expr_field(ls, &v);
-  }
-  parse_body(ls, &b, needself, line);
-  fs = ls->fs;
-  bcemit_store(fs, &v, &b);
-  fs->bcbase[fs->pc - 1].line = line;  /* Set line for the store. */
-}
-
-/* -- Control transfer statements ----------------------------------------- */
-
-/* Check for end of block. */
-static int endofblock(LexToken token)
-{
-  switch (token) {
-  case TK_else: case TK_elseif: case TK_end: case TK_until: case TK_eof:
-    return 1;
-  default:
-    return 0;
-  }
-}
-
-/* Parse 'return' statement. */
-static void parse_return(LexState *ls)
-{
-  BCIns ins;
-  FuncState *fs = ls->fs;
-  lj_lex_next(ls);  /* Skip 'return'. */
-  fs->flags |= PROTO_HAS_RETURN;
-  if (endofblock(ls->token) || ls->token == ';') {  /* Bare return. */
-    ins = BCINS_AD(BC_RET0, 0, 1);
-  } else {  /* Return with one or more values. */
-    ExpDesc e;  /* Receives the _last_ expression in the list. */
-    BCReg nret = expr_list(ls, &e);
-    if (nret == 1) {  /* Return one result. */
-      if (e.k == VCALL) {  /* Check for tail call. */
-	BCIns *ip = bcptr(fs, &e);
-	/* It doesn't pay off to add BC_VARGT just for 'return ...'. */
-	if (bc_op(*ip) == BC_VARG) goto notailcall;
-	fs->pc--;
-	ins = BCINS_AD(bc_op(*ip)-BC_CALL+BC_CALLT, bc_a(*ip), bc_c(*ip));
-      } else {  /* Can return the result from any register. */
-	ins = BCINS_AD(BC_RET1, expr_toanyreg(fs, &e), 2);
-      }
-    } else {
-      if (e.k == VCALL) {  /* Append all results from a call. */
-      notailcall:
-	setbc_b(bcptr(fs, &e), 0);
-	ins = BCINS_AD(BC_RETM, fs->nactvar, e.u.s.aux - fs->nactvar);
-      } else {
-	expr_tonextreg(fs, &e);  /* Force contiguous registers. */
-	ins = BCINS_AD(BC_RET, fs->nactvar, nret+1);
-      }
-    }
-  }
-  if (fs->flags & PROTO_CHILD)
-    bcemit_AJ(fs, BC_UCLO, 0, 0);  /* May need to close upvalues first. */
-  bcemit_INS(fs, ins);
-}
-
-/* Parse 'break' statement. */
-static void parse_break(LexState *ls)
-{
-  ls->fs->bl->flags |= FSCOPE_BREAK;
-  gola_new(ls, NAME_BREAK, VSTACK_GOTO, bcemit_jmp(ls->fs));
-}
-
-/* Parse 'goto' statement. */
-static void parse_goto(LexState *ls)
-{
-  FuncState *fs = ls->fs;
-  GCstr *name = lex_str(ls);
-  VarInfo *vl = gola_findlabel(ls, name);
-  if (vl)  /* Treat backwards goto within same scope like a loop. */
-    bcemit_AJ(fs, BC_LOOP, vl->slot, -1);  /* No BC range check. */
-  fs->bl->flags |= FSCOPE_GOLA;
-  gola_new(ls, name, VSTACK_GOTO, bcemit_jmp(fs));
-}
-
-/* Parse label. */
-static void parse_label(LexState *ls)
-{
-  FuncState *fs = ls->fs;
-  GCstr *name;
-  MSize idx;
-  fs->lasttarget = fs->pc;
-  fs->bl->flags |= FSCOPE_GOLA;
-  lj_lex_next(ls);  /* Skip '::'. */
-  name = lex_str(ls);
-  if (gola_findlabel(ls, name))
-    lj_lex_error(ls, 0, LJ_ERR_XLDUP, strdata(name));
-  idx = gola_new(ls, name, VSTACK_LABEL, fs->pc);
-  lex_check(ls, TK_label);
-  /* Recursively parse trailing statements: labels and ';' (Lua 5.2 only). */
-  for (;;) {
-    if (ls->token == TK_label) {
-      synlevel_begin(ls);
-      parse_label(ls);
-      synlevel_end(ls);
-    } else if (LJ_52 && ls->token == ';') {
-      lj_lex_next(ls);
-    } else {
-      break;
-    }
-  }
-  /* Trailing label is considered to be outside of scope. */
-  if (endofblock(ls->token) && ls->token != TK_until)
-    ls->vstack[idx].slot = fs->bl->nactvar;
-  gola_resolve(ls, fs->bl, idx);
-}
-
-/* -- Blocks, loops and conditional statements ---------------------------- */
-
-/* Parse a block. */
-static void parse_block(LexState *ls)
-{
-  FuncState *fs = ls->fs;
-  FuncScope bl;
-  fscope_begin(fs, &bl, 0);
-  parse_chunk(ls);
-  fscope_end(fs);
-}
-
-/* Parse 'while' statement. */
-static void parse_while(LexState *ls, BCLine line)
-{
-  FuncState *fs = ls->fs;
-  BCPos start, loop, condexit;
-  FuncScope bl;
-  lj_lex_next(ls);  /* Skip 'while'. */
-  start = fs->lasttarget = fs->pc;
-  condexit = expr_cond(ls);
-  fscope_begin(fs, &bl, FSCOPE_LOOP);
-  lex_check(ls, TK_do);
-  loop = bcemit_AD(fs, BC_LOOP, fs->nactvar, 0);
-  parse_block(ls);
-  jmp_patch(fs, bcemit_jmp(fs), start);
-  lex_match(ls, TK_end, TK_while, line);
-  fscope_end(fs);
-  jmp_tohere(fs, condexit);
-  jmp_patchins(fs, loop, fs->pc);
-}
-
-/* Parse 'repeat' statement. */
-static void parse_repeat(LexState *ls, BCLine line)
-{
-  FuncState *fs = ls->fs;
-  BCPos loop = fs->lasttarget = fs->pc;
-  BCPos condexit;
-  FuncScope bl1, bl2;
-  fscope_begin(fs, &bl1, FSCOPE_LOOP);  /* Breakable loop scope. */
-  fscope_begin(fs, &bl2, 0);  /* Inner scope. */
-  lj_lex_next(ls);  /* Skip 'repeat'. */
-  bcemit_AD(fs, BC_LOOP, fs->nactvar, 0);
-  parse_chunk(ls);
-  lex_match(ls, TK_until, TK_repeat, line);
-  condexit = expr_cond(ls);  /* Parse condition (still inside inner scope). */
-  if (!(bl2.flags & FSCOPE_UPVAL)) {  /* No upvalues? Just end inner scope. */
-    fscope_end(fs);
-  } else {  /* Otherwise generate: cond: UCLO+JMP out, !cond: UCLO+JMP loop. */
-    parse_break(ls);  /* Break from loop and close upvalues. */
-    jmp_tohere(fs, condexit);
-    fscope_end(fs);  /* End inner scope and close upvalues. */
-    condexit = bcemit_jmp(fs);
-  }
-  jmp_patch(fs, condexit, loop);  /* Jump backwards if !cond. */
-  jmp_patchins(fs, loop, fs->pc);
-  fscope_end(fs);  /* End loop scope. */
-}
-
-/* Parse numeric 'for'. */
-static void parse_for_num(LexState *ls, GCstr *varname, BCLine line)
-{
-  FuncState *fs = ls->fs;
-  BCReg base = fs->freereg;
-  FuncScope bl;
-  BCPos loop, loopend;
-  /* Hidden control variables. */
-  var_new_fixed(ls, FORL_IDX, VARNAME_FOR_IDX);
-  var_new_fixed(ls, FORL_STOP, VARNAME_FOR_STOP);
-  var_new_fixed(ls, FORL_STEP, VARNAME_FOR_STEP);
-  /* Visible copy of index variable. */
-  var_new(ls, FORL_EXT, varname);
-  lex_check(ls, '=');
-  expr_next(ls);
-  lex_check(ls, ',');
-  expr_next(ls);
-  if (lex_opt(ls, ',')) {
-    expr_next(ls);
-  } else {
-    bcemit_AD(fs, BC_KSHORT, fs->freereg, 1);  /* Default step is 1. */
-    bcreg_reserve(fs, 1);
-  }
-  var_add(ls, 3);  /* Hidden control variables. */
-  lex_check(ls, TK_do);
-  loop = bcemit_AJ(fs, BC_FORI, base, NO_JMP);
-  fscope_begin(fs, &bl, 0);  /* Scope for visible variables. */
-  var_add(ls, 1);
-  bcreg_reserve(fs, 1);
-  parse_block(ls);
-  fscope_end(fs);
-  /* Perform loop inversion. Loop control instructions are at the end. */
-  loopend = bcemit_AJ(fs, BC_FORL, base, NO_JMP);
-  fs->bcbase[loopend].line = line;  /* Fix line for control ins. */
-  jmp_patchins(fs, loopend, loop+1);
-  jmp_patchins(fs, loop, fs->pc);
-}
-
-/* Try to predict whether the iterator is next() and specialize the bytecode.
-** Detecting next() and pairs() by name is simplistic, but quite effective.
-** The interpreter backs off if the check for the closure fails at runtime.
-*/
-static int predict_next(LexState *ls, FuncState *fs, BCPos pc)
-{
-  BCIns ins = fs->bcbase[pc].ins;
-  GCstr *name;
-  cTValue *o;
-  switch (bc_op(ins)) {
-  case BC_MOV:
-    name = gco2str(gcref(var_get(ls, fs, bc_d(ins)).name));
-    break;
-  case BC_UGET:
-    name = gco2str(gcref(ls->vstack[fs->uvmap[bc_d(ins)]].name));
-    break;
-  case BC_GGET:
-    /* There's no inverse index (yet), so lookup the strings. */
-    o = lj_tab_getstr(fs->kt, lj_str_newlit(ls->L, "pairs"));
-    if (o && tvhaskslot(o) && tvkslot(o) == bc_d(ins))
-      return 1;
-    o = lj_tab_getstr(fs->kt, lj_str_newlit(ls->L, "next"));
-    if (o && tvhaskslot(o) && tvkslot(o) == bc_d(ins))
-      return 1;
-    return 0;
-  default:
-    return 0;
-  }
-  return (name->len == 5 && !strcmp(strdata(name), "pairs")) ||
-	 (name->len == 4 && !strcmp(strdata(name), "next"));
-}
-
-/* Parse 'for' iterator. */
-static void parse_for_iter(LexState *ls, GCstr *indexname)
-{
-  FuncState *fs = ls->fs;
-  ExpDesc e;
-  BCReg nvars = 0;
-  BCLine line;
-  BCReg base = fs->freereg + 3;
-  BCPos loop, loopend, exprpc = fs->pc;
-  FuncScope bl;
-  int isnext;
-  /* Hidden control variables. */
-  var_new_fixed(ls, nvars++, VARNAME_FOR_GEN);
-  var_new_fixed(ls, nvars++, VARNAME_FOR_STATE);
-  var_new_fixed(ls, nvars++, VARNAME_FOR_CTL);
-  /* Visible variables returned from iterator. */
-  var_new(ls, nvars++, indexname);
-  while (lex_opt(ls, ','))
-    var_new(ls, nvars++, lex_str(ls));
-  lex_check(ls, TK_in);
-  line = ls->linenumber;
-  assign_adjust(ls, 3, expr_list(ls, &e), &e);
-  bcreg_bump(fs, 3);  /* The iterator needs another 3 slots (func + 2 args). */
-  isnext = (nvars <= 5 && predict_next(ls, fs, exprpc));
-  var_add(ls, 3);  /* Hidden control variables. */
-  lex_check(ls, TK_do);
-  loop = bcemit_AJ(fs, isnext ? BC_ISNEXT : BC_JMP, base, NO_JMP);
-  fscope_begin(fs, &bl, 0);  /* Scope for visible variables. */
-  var_add(ls, nvars-3);
-  bcreg_reserve(fs, nvars-3);
-  parse_block(ls);
-  fscope_end(fs);
-  /* Perform loop inversion. Loop control instructions are at the end. */
-  jmp_patchins(fs, loop, fs->pc);
-  bcemit_ABC(fs, isnext ? BC_ITERN : BC_ITERC, base, nvars-3+1, 2+1);
-  loopend = bcemit_AJ(fs, BC_ITERL, base, NO_JMP);
-  fs->bcbase[loopend-1].line = line;  /* Fix line for control ins. */
-  fs->bcbase[loopend].line = line;
-  jmp_patchins(fs, loopend, loop+1);
-}
-
-/* Parse 'for' statement. */
-static void parse_for(LexState *ls, BCLine line)
-{
-  FuncState *fs = ls->fs;
-  GCstr *varname;
-  FuncScope bl;
-  fscope_begin(fs, &bl, FSCOPE_LOOP);
-  lj_lex_next(ls);  /* Skip 'for'. */
-  varname = lex_str(ls);  /* Get first variable name. */
-  if (ls->token == '=')
-    parse_for_num(ls, varname, line);
-  else if (ls->token == ',' || ls->token == TK_in)
-    parse_for_iter(ls, varname);
-  else
-    err_syntax(ls, LJ_ERR_XFOR);
-  lex_match(ls, TK_end, TK_for, line);
-  fscope_end(fs);  /* Resolve break list. */
-}
-
-/* Parse condition and 'then' block. */
-static BCPos parse_then(LexState *ls)
-{
-  BCPos condexit;
-  lj_lex_next(ls);  /* Skip 'if' or 'elseif'. */
-  condexit = expr_cond(ls);
-  lex_check(ls, TK_then);
-  parse_block(ls);
-  return condexit;
-}
-
-/* Parse 'if' statement. */
-static void parse_if(LexState *ls, BCLine line)
-{
-  FuncState *fs = ls->fs;
-  BCPos flist;
-  BCPos escapelist = NO_JMP;
-  flist = parse_then(ls);
-  while (ls->token == TK_elseif) {  /* Parse multiple 'elseif' blocks. */
-    jmp_append(fs, &escapelist, bcemit_jmp(fs));
-    jmp_tohere(fs, flist);
-    flist = parse_then(ls);
-  }
-  if (ls->token == TK_else) {  /* Parse optional 'else' block. */
-    jmp_append(fs, &escapelist, bcemit_jmp(fs));
-    jmp_tohere(fs, flist);
-    lj_lex_next(ls);  /* Skip 'else'. */
-    parse_block(ls);
-  } else {
-    jmp_append(fs, &escapelist, flist);
-  }
-  jmp_tohere(fs, escapelist);
-  lex_match(ls, TK_end, TK_if, line);
-}
-
-/* -- Parse statements ---------------------------------------------------- */
-
-/* Parse a statement. Returns 1 if it must be the last one in a chunk. */
-static int parse_stmt(LexState *ls)
-{
-  BCLine line = ls->linenumber;
-  switch (ls->token) {
-  case TK_if:
-    parse_if(ls, line);
-    break;
-  case TK_while:
-    parse_while(ls, line);
-    break;
-  case TK_do:
-    lj_lex_next(ls);
-    parse_block(ls);
-    lex_match(ls, TK_end, TK_do, line);
-    break;
-  case TK_for:
-    parse_for(ls, line);
-    break;
-  case TK_repeat:
-    parse_repeat(ls, line);
-    break;
-  case TK_function:
-    parse_func(ls, line);
-    break;
-  case TK_local:
-    lj_lex_next(ls);
-    parse_local(ls);
-    break;
-  case TK_return:
-    parse_return(ls);
-    return 1;  /* Must be last. */
-  case TK_break:
-    lj_lex_next(ls);
-    parse_break(ls);
-    return !LJ_52;  /* Must be last in Lua 5.1. */
-#if LJ_52
-  case ';':
-    lj_lex_next(ls);
-    break;
-#endif
-  case TK_label:
-    parse_label(ls);
-    break;
-  case TK_goto:
-    if (LJ_52 || lj_lex_lookahead(ls) == TK_name) {
-      lj_lex_next(ls);
-      parse_goto(ls);
-      break;
-    }  /* else: fallthrough */
-  default:
-    parse_call_assign(ls);
-    break;
-  }
-  return 0;
-}
-
-/* A chunk is a list of statements optionally separated by semicolons. */
-static void parse_chunk(LexState *ls)
-{
-  int islast = 0;
-  synlevel_begin(ls);
-  while (!islast && !endofblock(ls->token)) {
-    islast = parse_stmt(ls);
-    lex_opt(ls, ';');
-    lua_assert(ls->fs->framesize >= ls->fs->freereg &&
-	       ls->fs->freereg >= ls->fs->nactvar);
-    ls->fs->freereg = ls->fs->nactvar;  /* Free registers after each stmt. */
-  }
-  synlevel_end(ls);
-}
-
-/* Entry point of bytecode parser. */
-GCproto *lj_parse(LexState *ls)
-{
-  FuncState fs;
-  FuncScope bl;
-  GCproto *pt;
-  lua_State *L = ls->L;
-#ifdef LUAJIT_DISABLE_DEBUGINFO
-  ls->chunkname = lj_str_newlit(L, "=");
-#else
-  ls->chunkname = lj_str_newz(L, ls->chunkarg);
-#endif
-  setstrV(L, L->top, ls->chunkname);  /* Anchor chunkname string. */
-  incr_top(L);
-  ls->level = 0;
-  fs_init(ls, &fs);
-  fs.linedefined = 0;
-  fs.numparams = 0;
-  fs.bcbase = NULL;
-  fs.bclim = 0;
-  fs.flags |= PROTO_VARARG;  /* Main chunk is always a vararg func. */
-  fscope_begin(&fs, &bl, 0);
-  bcemit_AD(&fs, BC_FUNCV, 0, 0);  /* Placeholder. */
-  lj_lex_next(ls);  /* Read-ahead first token. */
-  parse_chunk(ls);
-  if (ls->token != TK_eof)
-    err_token(ls, TK_eof);
-  pt = fs_finish(ls, ls->linenumber);
-  L->top--;  /* Drop chunkname. */
-  lua_assert(fs.prev == NULL);
-  lua_assert(ls->fs == NULL);
-  lua_assert(pt->sizeuv == 0);
-  return pt;
-}
-
diff --git a/luajit-2.0/src/lj_parse.h b/luajit-2.0/src/lj_parse.h
deleted file mode 100644
index 532657a..0000000
--- a/luajit-2.0/src/lj_parse.h
+++ /dev/null
@@ -1,18 +0,0 @@
-/*
-** Lua parser (source code -> bytecode).
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#ifndef _LJ_PARSE_H
-#define _LJ_PARSE_H
-
-#include "lj_obj.h"
-#include "lj_lex.h"
-
-LJ_FUNC GCproto *lj_parse(LexState *ls);
-LJ_FUNC GCstr *lj_parse_keepstr(LexState *ls, const char *str, size_t l);
-#if LJ_HASFFI
-LJ_FUNC void lj_parse_keepcdata(LexState *ls, TValue *tv, GCcdata *cd);
-#endif
-
-#endif
diff --git a/luajit-2.0/src/lj_record.c b/luajit-2.0/src/lj_record.c
deleted file mode 100644
index 12b76bb..0000000
--- a/luajit-2.0/src/lj_record.c
+++ /dev/null
@@ -1,2250 +0,0 @@
-/*
-** Trace recorder (bytecode -> SSA IR).
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#define lj_record_c
-#define LUA_CORE
-
-#include "lj_obj.h"
-
-#if LJ_HASJIT
-
-#include "lj_err.h"
-#include "lj_str.h"
-#include "lj_tab.h"
-#include "lj_meta.h"
-#include "lj_frame.h"
-#if LJ_HASFFI
-#include "lj_ctype.h"
-#endif
-#include "lj_bc.h"
-#include "lj_ff.h"
-#include "lj_ir.h"
-#include "lj_jit.h"
-#include "lj_ircall.h"
-#include "lj_iropt.h"
-#include "lj_trace.h"
-#include "lj_record.h"
-#include "lj_ffrecord.h"
-#include "lj_snap.h"
-#include "lj_dispatch.h"
-#include "lj_vm.h"
-
-/* Some local macros to save typing. Undef'd at the end. */
-#define IR(ref)			(&J->cur.ir[(ref)])
-
-/* Pass IR on to next optimization in chain (FOLD). */
-#define emitir(ot, a, b)	(lj_ir_set(J, (ot), (a), (b)), lj_opt_fold(J))
-
-/* Emit raw IR without passing through optimizations. */
-#define emitir_raw(ot, a, b)	(lj_ir_set(J, (ot), (a), (b)), lj_ir_emit(J))
-
-/* -- Sanity checks ------------------------------------------------------- */
-
-#ifdef LUA_USE_ASSERT
-/* Sanity check the whole IR -- sloooow. */
-static void rec_check_ir(jit_State *J)
-{
-  IRRef i, nins = J->cur.nins, nk = J->cur.nk;
-  lua_assert(nk <= REF_BIAS && nins >= REF_BIAS && nins < 65536);
-  for (i = nins-1; i >= nk; i--) {
-    IRIns *ir = IR(i);
-    uint32_t mode = lj_ir_mode[ir->o];
-    IRRef op1 = ir->op1;
-    IRRef op2 = ir->op2;
-    switch (irm_op1(mode)) {
-    case IRMnone: lua_assert(op1 == 0); break;
-    case IRMref: lua_assert(op1 >= nk);
-      lua_assert(i >= REF_BIAS ? op1 < i : op1 > i); break;
-    case IRMlit: break;
-    case IRMcst: lua_assert(i < REF_BIAS); continue;
-    }
-    switch (irm_op2(mode)) {
-    case IRMnone: lua_assert(op2 == 0); break;
-    case IRMref: lua_assert(op2 >= nk);
-      lua_assert(i >= REF_BIAS ? op2 < i : op2 > i); break;
-    case IRMlit: break;
-    case IRMcst: lua_assert(0); break;
-    }
-    if (ir->prev) {
-      lua_assert(ir->prev >= nk);
-      lua_assert(i >= REF_BIAS ? ir->prev < i : ir->prev > i);
-      lua_assert(ir->o == IR_NOP || IR(ir->prev)->o == ir->o);
-    }
-  }
-}
-
-/* Compare stack slots and frames of the recorder and the VM. */
-static void rec_check_slots(jit_State *J)
-{
-  BCReg s, nslots = J->baseslot + J->maxslot;
-  int32_t depth = 0;
-  cTValue *base = J->L->base - J->baseslot;
-  lua_assert(J->baseslot >= 1 && J->baseslot < LJ_MAX_JSLOTS);
-  lua_assert(J->baseslot == 1 || (J->slot[J->baseslot-1] & TREF_FRAME));
-  lua_assert(nslots < LJ_MAX_JSLOTS);
-  for (s = 0; s < nslots; s++) {
-    TRef tr = J->slot[s];
-    if (tr) {
-      cTValue *tv = &base[s];
-      IRRef ref = tref_ref(tr);
-      IRIns *ir;
-      lua_assert(ref >= J->cur.nk && ref < J->cur.nins);
-      ir = IR(ref);
-      lua_assert(irt_t(ir->t) == tref_t(tr));
-      if (s == 0) {
-	lua_assert(tref_isfunc(tr));
-      } else if ((tr & TREF_FRAME)) {
-	GCfunc *fn = gco2func(frame_gc(tv));
-	BCReg delta = (BCReg)(tv - frame_prev(tv));
-	lua_assert(tref_isfunc(tr));
-	if (tref_isk(tr)) lua_assert(fn == ir_kfunc(ir));
-	lua_assert(s > delta ? (J->slot[s-delta] & TREF_FRAME) : (s == delta));
-	depth++;
-      } else if ((tr & TREF_CONT)) {
-	lua_assert(ir_kptr(ir) == gcrefp(tv->gcr, void));
-	lua_assert((J->slot[s+1] & TREF_FRAME));
-	depth++;
-      } else {
-	if (tvisnumber(tv))
-	  lua_assert(tref_isnumber(tr));  /* Could be IRT_INT etc., too. */
-	else
-	  lua_assert(itype2irt(tv) == tref_type(tr));
-	if (tref_isk(tr)) {  /* Compare constants. */
-	  TValue tvk;
-	  lj_ir_kvalue(J->L, &tvk, ir);
-	  if (!(tvisnum(&tvk) && tvisnan(&tvk)))
-	    lua_assert(lj_obj_equal(tv, &tvk));
-	  else
-	    lua_assert(tvisnum(tv) && tvisnan(tv));
-	}
-      }
-    }
-  }
-  lua_assert(J->framedepth == depth);
-}
-#endif
-
-/* -- Type handling and specialization ------------------------------------ */
-
-/* Note: these functions return tagged references (TRef). */
-
-/* Specialize a slot to a specific type. Note: slot can be negative! */
-static TRef sloadt(jit_State *J, int32_t slot, IRType t, int mode)
-{
-  /* Caller may set IRT_GUARD in t. */
-  TRef ref = emitir_raw(IRT(IR_SLOAD, t), (int32_t)J->baseslot+slot, mode);
-  J->base[slot] = ref;
-  return ref;
-}
-
-/* Specialize a slot to the runtime type. Note: slot can be negative! */
-static TRef sload(jit_State *J, int32_t slot)
-{
-  IRType t = itype2irt(&J->L->base[slot]);
-  TRef ref = emitir_raw(IRTG(IR_SLOAD, t), (int32_t)J->baseslot+slot,
-			IRSLOAD_TYPECHECK);
-  if (irtype_ispri(t)) ref = TREF_PRI(t);  /* Canonicalize primitive refs. */
-  J->base[slot] = ref;
-  return ref;
-}
-
-/* Get TRef from slot. Load slot and specialize if not done already. */
-#define getslot(J, s)	(J->base[(s)] ? J->base[(s)] : sload(J, (int32_t)(s)))
-
-/* Get TRef for current function. */
-static TRef getcurrf(jit_State *J)
-{
-  if (J->base[-1])
-    return J->base[-1];
-  lua_assert(J->baseslot == 1);
-  return sloadt(J, -1, IRT_FUNC, IRSLOAD_READONLY);
-}
-
-/* Compare for raw object equality.
-** Returns 0 if the objects are the same.
-** Returns 1 if they are different, but the same type.
-** Returns 2 for two different types.
-** Comparisons between primitives always return 1 -- no caller cares about it.
-*/
-int lj_record_objcmp(jit_State *J, TRef a, TRef b, cTValue *av, cTValue *bv)
-{
-  int diff = !lj_obj_equal(av, bv);
-  if (!tref_isk2(a, b)) {  /* Shortcut, also handles primitives. */
-    IRType ta = tref_isinteger(a) ? IRT_INT : tref_type(a);
-    IRType tb = tref_isinteger(b) ? IRT_INT : tref_type(b);
-    if (ta != tb) {
-      /* Widen mixed number/int comparisons to number/number comparison. */
-      if (ta == IRT_INT && tb == IRT_NUM) {
-	a = emitir(IRTN(IR_CONV), a, IRCONV_NUM_INT);
-	ta = IRT_NUM;
-      } else if (ta == IRT_NUM && tb == IRT_INT) {
-	b = emitir(IRTN(IR_CONV), b, IRCONV_NUM_INT);
-      } else {
-	return 2;  /* Two different types are never equal. */
-      }
-    }
-    emitir(IRTG(diff ? IR_NE : IR_EQ, ta), a, b);
-  }
-  return diff;
-}
-
-/* Constify a value. Returns 0 for non-representable object types. */
-TRef lj_record_constify(jit_State *J, cTValue *o)
-{
-  if (tvisgcv(o))
-    return lj_ir_kgc(J, gcV(o), itype2irt(o));
-  else if (tvisint(o))
-    return lj_ir_kint(J, intV(o));
-  else if (tvisnum(o))
-    return lj_ir_knumint(J, numV(o));
-  else if (tvisbool(o))
-    return TREF_PRI(itype2irt(o));
-  else
-    return 0;  /* Can't represent lightuserdata (pointless). */
-}
-
-/* -- Record loop ops ----------------------------------------------------- */
-
-/* Loop event. */
-typedef enum {
-  LOOPEV_LEAVE,		/* Loop is left or not entered. */
-  LOOPEV_ENTERLO,	/* Loop is entered with a low iteration count left. */
-  LOOPEV_ENTER		/* Loop is entered. */
-} LoopEvent;
-
-/* Canonicalize slots: convert integers to numbers. */
-static void canonicalize_slots(jit_State *J)
-{
-  BCReg s;
-  if (LJ_DUALNUM) return;
-  for (s = J->baseslot+J->maxslot-1; s >= 1; s--) {
-    TRef tr = J->slot[s];
-    if (tref_isinteger(tr)) {
-      IRIns *ir = IR(tref_ref(tr));
-      if (!(ir->o == IR_SLOAD && (ir->op2 & IRSLOAD_READONLY)))
-	J->slot[s] = emitir(IRTN(IR_CONV), tr, IRCONV_NUM_INT);
-    }
-  }
-}
-
-/* Stop recording. */
-static void rec_stop(jit_State *J, TraceLink linktype, TraceNo lnk)
-{
-  lj_trace_end(J);
-  J->cur.linktype = (uint8_t)linktype;
-  J->cur.link = (uint16_t)lnk;
-  /* Looping back at the same stack level? */
-  if (lnk == J->cur.traceno && J->framedepth + J->retdepth == 0) {
-    if ((J->flags & JIT_F_OPT_LOOP))  /* Shall we try to create a loop? */
-      goto nocanon;  /* Do not canonicalize or we lose the narrowing. */
-    if (J->cur.root)  /* Otherwise ensure we always link to the root trace. */
-      J->cur.link = J->cur.root;
-  }
-  canonicalize_slots(J);
-nocanon:
-  /* Note: all loop ops must set J->pc to the following instruction! */
-  lj_snap_add(J);  /* Add loop snapshot. */
-  J->needsnap = 0;
-  J->mergesnap = 1;  /* In case recording continues. */
-}
-
-/* Search bytecode backwards for a int/num constant slot initializer. */
-static TRef find_kinit(jit_State *J, const BCIns *endpc, BCReg slot, IRType t)
-{
-  /* This algorithm is rather simplistic and assumes quite a bit about
-  ** how the bytecode is generated. It works fine for FORI initializers,
-  ** but it won't necessarily work in other cases (e.g. iterator arguments).
-  ** It doesn't do anything fancy, either (like backpropagating MOVs).
-  */
-  const BCIns *pc, *startpc = proto_bc(J->pt);
-  for (pc = endpc-1; pc > startpc; pc--) {
-    BCIns ins = *pc;
-    BCOp op = bc_op(ins);
-    /* First try to find the last instruction that stores to this slot. */
-    if (bcmode_a(op) == BCMbase && bc_a(ins) <= slot) {
-      return 0;  /* Multiple results, e.g. from a CALL or KNIL. */
-    } else if (bcmode_a(op) == BCMdst && bc_a(ins) == slot) {
-      if (op == BC_KSHORT || op == BC_KNUM) {  /* Found const. initializer. */
-	/* Now try to verify there's no forward jump across it. */
-	const BCIns *kpc = pc;
-	for (; pc > startpc; pc--)
-	  if (bc_op(*pc) == BC_JMP) {
-	    const BCIns *target = pc+bc_j(*pc)+1;
-	    if (target > kpc && target <= endpc)
-	      return 0;  /* Conditional assignment. */
-	  }
-	if (op == BC_KSHORT) {
-	  int32_t k = (int32_t)(int16_t)bc_d(ins);
-	  return t == IRT_INT ? lj_ir_kint(J, k) : lj_ir_knum(J, (lua_Number)k);
-	} else {
-	  cTValue *tv = proto_knumtv(J->pt, bc_d(ins));
-	  if (t == IRT_INT) {
-	    int32_t k = numberVint(tv);
-	    if (tvisint(tv) || numV(tv) == (lua_Number)k)  /* -0 is ok here. */
-	      return lj_ir_kint(J, k);
-	    return 0;  /* Type mismatch. */
-	  } else {
-	    return lj_ir_knum(J, numberVnum(tv));
-	  }
-	}
-      }
-      return 0;  /* Non-constant initializer. */
-    }
-  }
-  return 0;  /* No assignment to this slot found? */
-}
-
-/* Load and optionally convert a FORI argument from a slot. */
-static TRef fori_load(jit_State *J, BCReg slot, IRType t, int mode)
-{
-  int conv = (tvisint(&J->L->base[slot]) != (t==IRT_INT)) ? IRSLOAD_CONVERT : 0;
-  return sloadt(J, (int32_t)slot,
-		t + (((mode & IRSLOAD_TYPECHECK) ||
-		      (conv && t == IRT_INT && !(mode >> 16))) ?
-		     IRT_GUARD : 0),
-		mode + conv);
-}
-
-/* Peek before FORI to find a const initializer. Otherwise load from slot. */
-static TRef fori_arg(jit_State *J, const BCIns *fori, BCReg slot,
-		     IRType t, int mode)
-{
-  TRef tr = J->base[slot];
-  if (!tr) {
-    tr = find_kinit(J, fori, slot, t);
-    if (!tr)
-      tr = fori_load(J, slot, t, mode);
-  }
-  return tr;
-}
-
-/* Return the direction of the FOR loop iterator.
-** It's important to exactly reproduce the semantics of the interpreter.
-*/
-static int rec_for_direction(cTValue *o)
-{
-  return (tvisint(o) ? intV(o) : (int32_t)o->u32.hi) >= 0;
-}
-
-/* Simulate the runtime behavior of the FOR loop iterator. */
-static LoopEvent rec_for_iter(IROp *op, cTValue *o, int isforl)
-{
-  lua_Number stopv = numberVnum(&o[FORL_STOP]);
-  lua_Number idxv = numberVnum(&o[FORL_IDX]);
-  lua_Number stepv = numberVnum(&o[FORL_STEP]);
-  if (isforl)
-    idxv += stepv;
-  if (rec_for_direction(&o[FORL_STEP])) {
-    if (idxv <= stopv) {
-      *op = IR_LE;
-      return idxv + 2*stepv > stopv ? LOOPEV_ENTERLO : LOOPEV_ENTER;
-    }
-    *op = IR_GT; return LOOPEV_LEAVE;
-  } else {
-    if (stopv <= idxv) {
-      *op = IR_GE;
-      return idxv + 2*stepv < stopv ? LOOPEV_ENTERLO : LOOPEV_ENTER;
-    }
-    *op = IR_LT; return LOOPEV_LEAVE;
-  }
-}
-
-/* Record checks for FOR loop overflow and step direction. */
-static void rec_for_check(jit_State *J, IRType t, int dir,
-			  TRef stop, TRef step, int init)
-{
-  if (!tref_isk(step)) {
-    /* Non-constant step: need a guard for the direction. */
-    TRef zero = (t == IRT_INT) ? lj_ir_kint(J, 0) : lj_ir_knum_zero(J);
-    emitir(IRTG(dir ? IR_GE : IR_LT, t), step, zero);
-    /* Add hoistable overflow checks for a narrowed FORL index. */
-    if (init && t == IRT_INT) {
-      if (tref_isk(stop)) {
-	/* Constant stop: optimize check away or to a range check for step. */
-	int32_t k = IR(tref_ref(stop))->i;
-	if (dir) {
-	  if (k > 0)
-	    emitir(IRTGI(IR_LE), step, lj_ir_kint(J, (int32_t)0x7fffffff-k));
-	} else {
-	  if (k < 0)
-	    emitir(IRTGI(IR_GE), step, lj_ir_kint(J, (int32_t)0x80000000-k));
-	}
-      } else {
-	/* Stop+step variable: need full overflow check. */
-	TRef tr = emitir(IRTGI(IR_ADDOV), step, stop);
-	emitir(IRTI(IR_USE), tr, 0);  /* ADDOV is weak. Avoid dead result. */
-      }
-    }
-  } else if (init && t == IRT_INT && !tref_isk(stop)) {
-    /* Constant step: optimize overflow check to a range check for stop. */
-    int32_t k = IR(tref_ref(step))->i;
-    k = (int32_t)(dir ? 0x7fffffff : 0x80000000) - k;
-    emitir(IRTGI(dir ? IR_LE : IR_GE), stop, lj_ir_kint(J, k));
-  }
-}
-
-/* Record a FORL instruction. */
-static void rec_for_loop(jit_State *J, const BCIns *fori, ScEvEntry *scev,
-			 int init)
-{
-  BCReg ra = bc_a(*fori);
-  cTValue *tv = &J->L->base[ra];
-  TRef idx = J->base[ra+FORL_IDX];
-  IRType t = idx ? tref_type(idx) :
-	     (init || LJ_DUALNUM) ? lj_opt_narrow_forl(J, tv) : IRT_NUM;
-  int mode = IRSLOAD_INHERIT +
-    ((!LJ_DUALNUM || tvisint(tv) == (t == IRT_INT)) ? IRSLOAD_READONLY : 0);
-  TRef stop = fori_arg(J, fori, ra+FORL_STOP, t, mode);
-  TRef step = fori_arg(J, fori, ra+FORL_STEP, t, mode);
-  int tc, dir = rec_for_direction(&tv[FORL_STEP]);
-  lua_assert(bc_op(*fori) == BC_FORI || bc_op(*fori) == BC_JFORI);
-  scev->t.irt = t;
-  scev->dir = dir;
-  scev->stop = tref_ref(stop);
-  scev->step = tref_ref(step);
-  rec_for_check(J, t, dir, stop, step, init);
-  scev->start = tref_ref(find_kinit(J, fori, ra+FORL_IDX, IRT_INT));
-  tc = (LJ_DUALNUM &&
-	!(scev->start && irref_isk(scev->stop) && irref_isk(scev->step) &&
-	  tvisint(&tv[FORL_IDX]) == (t == IRT_INT))) ?
-	IRSLOAD_TYPECHECK : 0;
-  if (tc) {
-    J->base[ra+FORL_STOP] = stop;
-    J->base[ra+FORL_STEP] = step;
-  }
-  if (!idx)
-    idx = fori_load(J, ra+FORL_IDX, t,
-		    IRSLOAD_INHERIT + tc + (J->scev.start << 16));
-  if (!init)
-    J->base[ra+FORL_IDX] = idx = emitir(IRT(IR_ADD, t), idx, step);
-  J->base[ra+FORL_EXT] = idx;
-  scev->idx = tref_ref(idx);
-  setmref(scev->pc, fori);
-  J->maxslot = ra+FORL_EXT+1;
-}
-
-/* Record FORL/JFORL or FORI/JFORI. */
-static LoopEvent rec_for(jit_State *J, const BCIns *fori, int isforl)
-{
-  BCReg ra = bc_a(*fori);
-  TValue *tv = &J->L->base[ra];
-  TRef *tr = &J->base[ra];
-  IROp op;
-  LoopEvent ev;
-  TRef stop;
-  IRType t;
-  if (isforl) {  /* Handle FORL/JFORL opcodes. */
-    TRef idx = tr[FORL_IDX];
-    if (mref(J->scev.pc, const BCIns) == fori && tref_ref(idx) == J->scev.idx) {
-      t = J->scev.t.irt;
-      stop = J->scev.stop;
-      idx = emitir(IRT(IR_ADD, t), idx, J->scev.step);
-      tr[FORL_EXT] = tr[FORL_IDX] = idx;
-    } else {
-      ScEvEntry scev;
-      rec_for_loop(J, fori, &scev, 0);
-      t = scev.t.irt;
-      stop = scev.stop;
-    }
-  } else {  /* Handle FORI/JFORI opcodes. */
-    BCReg i;
-    lj_meta_for(J->L, tv);
-    t = (LJ_DUALNUM || tref_isint(tr[FORL_IDX])) ? lj_opt_narrow_forl(J, tv) :
-						   IRT_NUM;
-    for (i = FORL_IDX; i <= FORL_STEP; i++) {
-      if (!tr[i]) sload(J, ra+i);
-      lua_assert(tref_isnumber_str(tr[i]));
-      if (tref_isstr(tr[i]))
-	tr[i] = emitir(IRTG(IR_STRTO, IRT_NUM), tr[i], 0);
-      if (t == IRT_INT) {
-	if (!tref_isinteger(tr[i]))
-	  tr[i] = emitir(IRTGI(IR_CONV), tr[i], IRCONV_INT_NUM|IRCONV_CHECK);
-      } else {
-	if (!tref_isnum(tr[i]))
-	  tr[i] = emitir(IRTN(IR_CONV), tr[i], IRCONV_NUM_INT);
-      }
-    }
-    tr[FORL_EXT] = tr[FORL_IDX];
-    stop = tr[FORL_STOP];
-    rec_for_check(J, t, rec_for_direction(&tv[FORL_STEP]),
-		  stop, tr[FORL_STEP], 1);
-  }
-
-  ev = rec_for_iter(&op, tv, isforl);
-  if (ev == LOOPEV_LEAVE) {
-    J->maxslot = ra+FORL_EXT+1;
-    J->pc = fori+1;
-  } else {
-    J->maxslot = ra;
-    J->pc = fori+bc_j(*fori)+1;
-  }
-  lj_snap_add(J);
-
-  emitir(IRTG(op, t), tr[FORL_IDX], stop);
-
-  if (ev == LOOPEV_LEAVE) {
-    J->maxslot = ra;
-    J->pc = fori+bc_j(*fori)+1;
-  } else {
-    J->maxslot = ra+FORL_EXT+1;
-    J->pc = fori+1;
-  }
-  J->needsnap = 1;
-  return ev;
-}
-
-/* Record ITERL/JITERL. */
-static LoopEvent rec_iterl(jit_State *J, const BCIns iterins)
-{
-  BCReg ra = bc_a(iterins);
-  lua_assert(J->base[ra] != 0);
-  if (!tref_isnil(J->base[ra])) {  /* Looping back? */
-    J->base[ra-1] = J->base[ra];  /* Copy result of ITERC to control var. */
-    J->maxslot = ra-1+bc_b(J->pc[-1]);
-    J->pc += bc_j(iterins)+1;
-    return LOOPEV_ENTER;
-  } else {
-    J->maxslot = ra-3;
-    J->pc++;
-    return LOOPEV_LEAVE;
-  }
-}
-
-/* Record LOOP/JLOOP. Now, that was easy. */
-static LoopEvent rec_loop(jit_State *J, BCReg ra)
-{
-  if (ra < J->maxslot) J->maxslot = ra;
-  J->pc++;
-  return LOOPEV_ENTER;
-}
-
-/* Check if a loop repeatedly failed to trace because it didn't loop back. */
-static int innerloopleft(jit_State *J, const BCIns *pc)
-{
-  ptrdiff_t i;
-  for (i = 0; i < PENALTY_SLOTS; i++)
-    if (mref(J->penalty[i].pc, const BCIns) == pc) {
-      if ((J->penalty[i].reason == LJ_TRERR_LLEAVE ||
-	   J->penalty[i].reason == LJ_TRERR_LINNER) &&
-	  J->penalty[i].val >= 2*PENALTY_MIN)
-	return 1;
-      break;
-    }
-  return 0;
-}
-
-/* Handle the case when an interpreted loop op is hit. */
-static void rec_loop_interp(jit_State *J, const BCIns *pc, LoopEvent ev)
-{
-  if (J->parent == 0) {
-    if (pc == J->startpc && J->framedepth + J->retdepth == 0) {
-      /* Same loop? */
-      if (ev == LOOPEV_LEAVE)  /* Must loop back to form a root trace. */
-	lj_trace_err(J, LJ_TRERR_LLEAVE);
-      rec_stop(J, LJ_TRLINK_LOOP, J->cur.traceno);  /* Looping root trace. */
-    } else if (ev != LOOPEV_LEAVE) {  /* Entering inner loop? */
-      /* It's usually better to abort here and wait until the inner loop
-      ** is traced. But if the inner loop repeatedly didn't loop back,
-      ** this indicates a low trip count. In this case try unrolling
-      ** an inner loop even in a root trace. But it's better to be a bit
-      ** more conservative here and only do it for very short loops.
-      */
-      if (bc_j(*pc) != -1 && !innerloopleft(J, pc))
-	lj_trace_err(J, LJ_TRERR_LINNER);  /* Root trace hit an inner loop. */
-      if ((ev != LOOPEV_ENTERLO &&
-	   J->loopref && J->cur.nins - J->loopref > 24) || --J->loopunroll < 0)
-	lj_trace_err(J, LJ_TRERR_LUNROLL);  /* Limit loop unrolling. */
-      J->loopref = J->cur.nins;
-    }
-  } else if (ev != LOOPEV_LEAVE) {  /* Side trace enters an inner loop. */
-    J->loopref = J->cur.nins;
-    if (--J->loopunroll < 0)
-      lj_trace_err(J, LJ_TRERR_LUNROLL);  /* Limit loop unrolling. */
-  }  /* Side trace continues across a loop that's left or not entered. */
-}
-
-/* Handle the case when an already compiled loop op is hit. */
-static void rec_loop_jit(jit_State *J, TraceNo lnk, LoopEvent ev)
-{
-  if (J->parent == 0) {  /* Root trace hit an inner loop. */
-    /* Better let the inner loop spawn a side trace back here. */
-    lj_trace_err(J, LJ_TRERR_LINNER);
-  } else if (ev != LOOPEV_LEAVE) {  /* Side trace enters a compiled loop. */
-    J->instunroll = 0;  /* Cannot continue across a compiled loop op. */
-    if (J->pc == J->startpc && J->framedepth + J->retdepth == 0)
-      rec_stop(J, LJ_TRLINK_LOOP, J->cur.traceno);  /* Form an extra loop. */
-    else
-      rec_stop(J, LJ_TRLINK_ROOT, lnk);  /* Link to the loop. */
-  }  /* Side trace continues across a loop that's left or not entered. */
-}
-
-/* -- Record calls and returns -------------------------------------------- */
-
-/* Specialize to the runtime value of the called function or its prototype. */
-static TRef rec_call_specialize(jit_State *J, GCfunc *fn, TRef tr)
-{
-  TRef kfunc;
-  if (isluafunc(fn)) {
-    GCproto *pt = funcproto(fn);
-    /* Too many closures created? Probably not a monomorphic function. */
-    if (pt->flags >= PROTO_CLC_POLY) {  /* Specialize to prototype instead. */
-      TRef trpt = emitir(IRT(IR_FLOAD, IRT_P32), tr, IRFL_FUNC_PC);
-      emitir(IRTG(IR_EQ, IRT_P32), trpt, lj_ir_kptr(J, proto_bc(pt)));
-      (void)lj_ir_kgc(J, obj2gco(pt), IRT_PROTO);  /* Prevent GC of proto. */
-      return tr;
-    }
-  }
-  /* Otherwise specialize to the function (closure) value itself. */
-  kfunc = lj_ir_kfunc(J, fn);
-  emitir(IRTG(IR_EQ, IRT_FUNC), tr, kfunc);
-  return kfunc;
-}
-
-/* Record call setup. */
-static void rec_call_setup(jit_State *J, BCReg func, ptrdiff_t nargs)
-{
-  RecordIndex ix;
-  TValue *functv = &J->L->base[func];
-  TRef *fbase = &J->base[func];
-  ptrdiff_t i;
-  for (i = 0; i <= nargs; i++)
-    (void)getslot(J, func+i);  /* Ensure func and all args have a reference. */
-  if (!tref_isfunc(fbase[0])) {  /* Resolve __call metamethod. */
-    ix.tab = fbase[0];
-    copyTV(J->L, &ix.tabv, functv);
-    if (!lj_record_mm_lookup(J, &ix, MM_call) || !tref_isfunc(ix.mobj))
-      lj_trace_err(J, LJ_TRERR_NOMM);
-    for (i = ++nargs; i > 0; i--)  /* Shift arguments up. */
-      fbase[i] = fbase[i-1];
-    fbase[0] = ix.mobj;  /* Replace function. */
-    functv = &ix.mobjv;
-  }
-  fbase[0] = TREF_FRAME | rec_call_specialize(J, funcV(functv), fbase[0]);
-  J->maxslot = (BCReg)nargs;
-}
-
-/* Record call. */
-void lj_record_call(jit_State *J, BCReg func, ptrdiff_t nargs)
-{
-  rec_call_setup(J, func, nargs);
-  /* Bump frame. */
-  J->framedepth++;
-  J->base += func+1;
-  J->baseslot += func+1;
-}
-
-/* Record tail call. */
-void lj_record_tailcall(jit_State *J, BCReg func, ptrdiff_t nargs)
-{
-  rec_call_setup(J, func, nargs);
-  if (frame_isvarg(J->L->base - 1)) {
-    BCReg cbase = (BCReg)frame_delta(J->L->base - 1);
-    if (--J->framedepth < 0)
-      lj_trace_err(J, LJ_TRERR_NYIRETL);
-    J->baseslot -= (BCReg)cbase;
-    J->base -= cbase;
-    func += cbase;
-  }
-  /* Move func + args down. */
-  memmove(&J->base[-1], &J->base[func], sizeof(TRef)*(J->maxslot+1));
-  /* Note: the new TREF_FRAME is now at J->base[-1] (even for slot #0). */
-  /* Tailcalls can form a loop, so count towards the loop unroll limit. */
-  if (++J->tailcalled > J->loopunroll)
-    lj_trace_err(J, LJ_TRERR_LUNROLL);
-}
-
-/* Check unroll limits for down-recursion. */
-static int check_downrec_unroll(jit_State *J, GCproto *pt)
-{
-  IRRef ptref;
-  for (ptref = J->chain[IR_KGC]; ptref; ptref = IR(ptref)->prev)
-    if (ir_kgc(IR(ptref)) == obj2gco(pt)) {
-      int count = 0;
-      IRRef ref;
-      for (ref = J->chain[IR_RETF]; ref; ref = IR(ref)->prev)
-	if (IR(ref)->op1 == ptref)
-	  count++;
-      if (count) {
-	if (J->pc == J->startpc) {
-	  if (count + J->tailcalled > J->param[JIT_P_recunroll])
-	    return 1;
-	} else {
-	  lj_trace_err(J, LJ_TRERR_DOWNREC);
-	}
-      }
-    }
-  return 0;
-}
-
-/* Record return. */
-void lj_record_ret(jit_State *J, BCReg rbase, ptrdiff_t gotresults)
-{
-  TValue *frame = J->L->base - 1;
-  ptrdiff_t i;
-  for (i = 0; i < gotresults; i++)
-    (void)getslot(J, rbase+i);  /* Ensure all results have a reference. */
-  while (frame_ispcall(frame)) {  /* Immediately resolve pcall() returns. */
-    BCReg cbase = (BCReg)frame_delta(frame);
-    if (--J->framedepth < 0)
-      lj_trace_err(J, LJ_TRERR_NYIRETL);
-    lua_assert(J->baseslot > 1);
-    gotresults++;
-    rbase += cbase;
-    J->baseslot -= (BCReg)cbase;
-    J->base -= cbase;
-    J->base[--rbase] = TREF_TRUE;  /* Prepend true to results. */
-    frame = frame_prevd(frame);
-  }
-  /* Return to lower frame via interpreter for unhandled cases. */
-  if (J->framedepth == 0 && J->pt && bc_isret(bc_op(*J->pc)) &&
-       (!frame_islua(frame) ||
-	(J->parent == 0 && !bc_isret(bc_op(J->cur.startins))))) {
-    /* NYI: specialize to frame type and return directly, not via RET*. */
-    for (i = 0; i < (ptrdiff_t)rbase; i++)
-      J->base[i] = 0;  /* Purge dead slots. */
-    J->maxslot = rbase + (BCReg)gotresults;
-    rec_stop(J, LJ_TRLINK_RETURN, 0);  /* Return to interpreter. */
-    return;
-  }
-  if (frame_isvarg(frame)) {
-    BCReg cbase = (BCReg)frame_delta(frame);
-    if (--J->framedepth < 0)  /* NYI: return of vararg func to lower frame. */
-      lj_trace_err(J, LJ_TRERR_NYIRETL);
-    lua_assert(J->baseslot > 1);
-    rbase += cbase;
-    J->baseslot -= (BCReg)cbase;
-    J->base -= cbase;
-    frame = frame_prevd(frame);
-  }
-  if (frame_islua(frame)) {  /* Return to Lua frame. */
-    BCIns callins = *(frame_pc(frame)-1);
-    ptrdiff_t nresults = bc_b(callins) ? (ptrdiff_t)bc_b(callins)-1 :gotresults;
-    BCReg cbase = bc_a(callins);
-    GCproto *pt = funcproto(frame_func(frame - (cbase+1)));
-    if ((pt->flags & PROTO_NOJIT))
-      lj_trace_err(J, LJ_TRERR_CJITOFF);
-    if (J->framedepth == 0 && J->pt && frame == J->L->base - 1) {
-      if (check_downrec_unroll(J, pt)) {
-	J->maxslot = (BCReg)(rbase + gotresults);
-	lj_snap_purge(J);
-	rec_stop(J, LJ_TRLINK_DOWNREC, J->cur.traceno);  /* Down-recursion. */
-	return;
-      }
-      lj_snap_add(J);
-    }
-    for (i = 0; i < nresults; i++)  /* Adjust results. */
-      J->base[i-1] = i < gotresults ? J->base[rbase+i] : TREF_NIL;
-    J->maxslot = cbase+(BCReg)nresults;
-    if (J->framedepth > 0) {  /* Return to a frame that is part of the trace. */
-      J->framedepth--;
-      lua_assert(J->baseslot > cbase+1);
-      J->baseslot -= cbase+1;
-      J->base -= cbase+1;
-    } else if (J->parent == 0 && !bc_isret(bc_op(J->cur.startins))) {
-      /* Return to lower frame would leave the loop in a root trace. */
-      lj_trace_err(J, LJ_TRERR_LLEAVE);
-    } else {  /* Return to lower frame. Guard for the target we return to. */
-      TRef trpt = lj_ir_kgc(J, obj2gco(pt), IRT_PROTO);
-      TRef trpc = lj_ir_kptr(J, (void *)frame_pc(frame));
-      emitir(IRTG(IR_RETF, IRT_P32), trpt, trpc);
-      J->retdepth++;
-      J->needsnap = 1;
-      lua_assert(J->baseslot == 1);
-      /* Shift result slots up and clear the slots of the new frame below. */
-      memmove(J->base + cbase, J->base-1, sizeof(TRef)*nresults);
-      memset(J->base-1, 0, sizeof(TRef)*(cbase+1));
-    }
-  } else if (frame_iscont(frame)) {  /* Return to continuation frame. */
-    ASMFunction cont = frame_contf(frame);
-    BCReg cbase = (BCReg)frame_delta(frame);
-    if ((J->framedepth -= 2) < 0)
-      lj_trace_err(J, LJ_TRERR_NYIRETL);
-    J->baseslot -= (BCReg)cbase;
-    J->base -= cbase;
-    J->maxslot = cbase-2;
-    if (cont == lj_cont_ra) {
-      /* Copy result to destination slot. */
-      BCReg dst = bc_a(*(frame_contpc(frame)-1));
-      J->base[dst] = gotresults ? J->base[cbase+rbase] : TREF_NIL;
-      if (dst >= J->maxslot) J->maxslot = dst+1;
-    } else if (cont == lj_cont_nop) {
-      /* Nothing to do here. */
-    } else if (cont == lj_cont_cat) {
-      lua_assert(0);
-    } else {
-      /* Result type already specialized. */
-      lua_assert(cont == lj_cont_condf || cont == lj_cont_condt);
-    }
-  } else {
-    lj_trace_err(J, LJ_TRERR_NYIRETL);  /* NYI: handle return to C frame. */
-  }
-  lua_assert(J->baseslot >= 1);
-}
-
-/* -- Metamethod handling ------------------------------------------------- */
-
-/* Prepare to record call to metamethod. */
-static BCReg rec_mm_prep(jit_State *J, ASMFunction cont)
-{
-  BCReg s, top = curr_proto(J->L)->framesize;
-  TRef trcont;
-  setcont(&J->L->base[top], cont);
-#if LJ_64
-  trcont = lj_ir_kptr(J, (void *)((int64_t)cont - (int64_t)lj_vm_asm_begin));
-#else
-  trcont = lj_ir_kptr(J, (void *)cont);
-#endif
-  J->base[top] = trcont | TREF_CONT;
-  J->framedepth++;
-  for (s = J->maxslot; s < top; s++)
-    J->base[s] = 0;  /* Clear frame gap to avoid resurrecting previous refs. */
-  return top+1;
-}
-
-/* Record metamethod lookup. */
-int lj_record_mm_lookup(jit_State *J, RecordIndex *ix, MMS mm)
-{
-  RecordIndex mix;
-  GCtab *mt;
-  if (tref_istab(ix->tab)) {
-    mt = tabref(tabV(&ix->tabv)->metatable);
-    mix.tab = emitir(IRT(IR_FLOAD, IRT_TAB), ix->tab, IRFL_TAB_META);
-  } else if (tref_isudata(ix->tab)) {
-    int udtype = udataV(&ix->tabv)->udtype;
-    mt = tabref(udataV(&ix->tabv)->metatable);
-    /* The metatables of special userdata objects are treated as immutable. */
-    if (udtype != UDTYPE_USERDATA) {
-      cTValue *mo;
-      if (LJ_HASFFI && udtype == UDTYPE_FFI_CLIB) {
-	/* Specialize to the C library namespace object. */
-	emitir(IRTG(IR_EQ, IRT_P32), ix->tab, lj_ir_kptr(J, udataV(&ix->tabv)));
-      } else {
-	/* Specialize to the type of userdata. */
-	TRef tr = emitir(IRT(IR_FLOAD, IRT_U8), ix->tab, IRFL_UDATA_UDTYPE);
-	emitir(IRTGI(IR_EQ), tr, lj_ir_kint(J, udtype));
-      }
-  immutable_mt:
-      mo = lj_tab_getstr(mt, mmname_str(J2G(J), mm));
-      if (!mo || tvisnil(mo))
-	return 0;  /* No metamethod. */
-      /* Treat metamethod or index table as immutable, too. */
-      if (!(tvisfunc(mo) || tvistab(mo)))
-	lj_trace_err(J, LJ_TRERR_BADTYPE);
-      copyTV(J->L, &ix->mobjv, mo);
-      ix->mobj = lj_ir_kgc(J, gcV(mo), tvisfunc(mo) ? IRT_FUNC : IRT_TAB);
-      ix->mtv = mt;
-      ix->mt = TREF_NIL;  /* Dummy value for comparison semantics. */
-      return 1;  /* Got metamethod or index table. */
-    }
-    mix.tab = emitir(IRT(IR_FLOAD, IRT_TAB), ix->tab, IRFL_UDATA_META);
-  } else {
-    /* Specialize to base metatable. Must flush mcode in lua_setmetatable(). */
-    mt = tabref(basemt_obj(J2G(J), &ix->tabv));
-    if (mt == NULL) {
-      ix->mt = TREF_NIL;
-      return 0;  /* No metamethod. */
-    }
-    /* The cdata metatable is treated as immutable. */
-    if (LJ_HASFFI && tref_iscdata(ix->tab)) goto immutable_mt;
-    ix->mt = mix.tab = lj_ir_ktab(J, mt);
-    goto nocheck;
-  }
-  ix->mt = mt ? mix.tab : TREF_NIL;
-  emitir(IRTG(mt ? IR_NE : IR_EQ, IRT_TAB), mix.tab, lj_ir_knull(J, IRT_TAB));
-nocheck:
-  if (mt) {
-    GCstr *mmstr = mmname_str(J2G(J), mm);
-    cTValue *mo = lj_tab_getstr(mt, mmstr);
-    if (mo && !tvisnil(mo))
-      copyTV(J->L, &ix->mobjv, mo);
-    ix->mtv = mt;
-    settabV(J->L, &mix.tabv, mt);
-    setstrV(J->L, &mix.keyv, mmstr);
-    mix.key = lj_ir_kstr(J, mmstr);
-    mix.val = 0;
-    mix.idxchain = 0;
-    ix->mobj = lj_record_idx(J, &mix);
-    return !tref_isnil(ix->mobj);  /* 1 if metamethod found, 0 if not. */
-  }
-  return 0;  /* No metamethod. */
-}
-
-/* Record call to arithmetic metamethod. */
-static TRef rec_mm_arith(jit_State *J, RecordIndex *ix, MMS mm)
-{
-  /* Set up metamethod call first to save ix->tab and ix->tabv. */
-  BCReg func = rec_mm_prep(J, lj_cont_ra);
-  TRef *base = J->base + func;
-  TValue *basev = J->L->base + func;
-  base[1] = ix->tab; base[2] = ix->key;
-  copyTV(J->L, basev+1, &ix->tabv);
-  copyTV(J->L, basev+2, &ix->keyv);
-  if (!lj_record_mm_lookup(J, ix, mm)) {  /* Lookup mm on 1st operand. */
-    if (mm != MM_unm) {
-      ix->tab = ix->key;
-      copyTV(J->L, &ix->tabv, &ix->keyv);
-      if (lj_record_mm_lookup(J, ix, mm))  /* Lookup mm on 2nd operand. */
-	goto ok;
-    }
-    lj_trace_err(J, LJ_TRERR_NOMM);
-  }
-ok:
-  base[0] = ix->mobj;
-  copyTV(J->L, basev+0, &ix->mobjv);
-  lj_record_call(J, func, 2);
-  return 0;  /* No result yet. */
-}
-
-/* Record call to __len metamethod. */
-static TRef rec_mm_len(jit_State *J, TRef tr, TValue *tv)
-{
-  RecordIndex ix;
-  ix.tab = tr;
-  copyTV(J->L, &ix.tabv, tv);
-  if (lj_record_mm_lookup(J, &ix, MM_len)) {
-    BCReg func = rec_mm_prep(J, lj_cont_ra);
-    TRef *base = J->base + func;
-    TValue *basev = J->L->base + func;
-    base[0] = ix.mobj; copyTV(J->L, basev+0, &ix.mobjv);
-    base[1] = tr; copyTV(J->L, basev+1, tv);
-#if LJ_52
-    base[2] = tr; copyTV(J->L, basev+2, tv);
-#else
-    base[2] = TREF_NIL; setnilV(basev+2);
-#endif
-    lj_record_call(J, func, 2);
-  } else {
-    if (LJ_52 && tref_istab(tr))
-      return lj_ir_call(J, IRCALL_lj_tab_len, tr);
-    lj_trace_err(J, LJ_TRERR_NOMM);
-  }
-  return 0;  /* No result yet. */
-}
-
-/* Call a comparison metamethod. */
-static void rec_mm_callcomp(jit_State *J, RecordIndex *ix, int op)
-{
-  BCReg func = rec_mm_prep(J, (op&1) ? lj_cont_condf : lj_cont_condt);
-  TRef *base = J->base + func;
-  TValue *tv = J->L->base + func;
-  base[0] = ix->mobj; base[1] = ix->val; base[2] = ix->key;
-  copyTV(J->L, tv+0, &ix->mobjv);
-  copyTV(J->L, tv+1, &ix->valv);
-  copyTV(J->L, tv+2, &ix->keyv);
-  lj_record_call(J, func, 2);
-}
-
-/* Record call to equality comparison metamethod (for tab and udata only). */
-static void rec_mm_equal(jit_State *J, RecordIndex *ix, int op)
-{
-  ix->tab = ix->val;
-  copyTV(J->L, &ix->tabv, &ix->valv);
-  if (lj_record_mm_lookup(J, ix, MM_eq)) {  /* Lookup mm on 1st operand. */
-    cTValue *bv;
-    TRef mo1 = ix->mobj;
-    TValue mo1v;
-    copyTV(J->L, &mo1v, &ix->mobjv);
-    /* Avoid the 2nd lookup and the objcmp if the metatables are equal. */
-    bv = &ix->keyv;
-    if (tvistab(bv) && tabref(tabV(bv)->metatable) == ix->mtv) {
-      TRef mt2 = emitir(IRT(IR_FLOAD, IRT_TAB), ix->key, IRFL_TAB_META);
-      emitir(IRTG(IR_EQ, IRT_TAB), mt2, ix->mt);
-    } else if (tvisudata(bv) && tabref(udataV(bv)->metatable) == ix->mtv) {
-      TRef mt2 = emitir(IRT(IR_FLOAD, IRT_TAB), ix->key, IRFL_UDATA_META);
-      emitir(IRTG(IR_EQ, IRT_TAB), mt2, ix->mt);
-    } else {  /* Lookup metamethod on 2nd operand and compare both. */
-      ix->tab = ix->key;
-      copyTV(J->L, &ix->tabv, bv);
-      if (!lj_record_mm_lookup(J, ix, MM_eq) ||
-	  lj_record_objcmp(J, mo1, ix->mobj, &mo1v, &ix->mobjv))
-	return;
-    }
-    rec_mm_callcomp(J, ix, op);
-  }
-}
-
-/* Record call to ordered comparison metamethods (for arbitrary objects). */
-static void rec_mm_comp(jit_State *J, RecordIndex *ix, int op)
-{
-  ix->tab = ix->val;
-  copyTV(J->L, &ix->tabv, &ix->valv);
-  while (1) {
-    MMS mm = (op & 2) ? MM_le : MM_lt;  /* Try __le + __lt or only __lt. */
-#if LJ_52
-    if (!lj_record_mm_lookup(J, ix, mm)) {  /* Lookup mm on 1st operand. */
-      ix->tab = ix->key;
-      copyTV(J->L, &ix->tabv, &ix->keyv);
-      if (!lj_record_mm_lookup(J, ix, mm))  /* Lookup mm on 2nd operand. */
-	goto nomatch;
-    }
-    rec_mm_callcomp(J, ix, op);
-    return;
-#else
-    if (lj_record_mm_lookup(J, ix, mm)) {  /* Lookup mm on 1st operand. */
-      cTValue *bv;
-      TRef mo1 = ix->mobj;
-      TValue mo1v;
-      copyTV(J->L, &mo1v, &ix->mobjv);
-      /* Avoid the 2nd lookup and the objcmp if the metatables are equal. */
-      bv = &ix->keyv;
-      if (tvistab(bv) && tabref(tabV(bv)->metatable) == ix->mtv) {
-	TRef mt2 = emitir(IRT(IR_FLOAD, IRT_TAB), ix->key, IRFL_TAB_META);
-	emitir(IRTG(IR_EQ, IRT_TAB), mt2, ix->mt);
-      } else if (tvisudata(bv) && tabref(udataV(bv)->metatable) == ix->mtv) {
-	TRef mt2 = emitir(IRT(IR_FLOAD, IRT_TAB), ix->key, IRFL_UDATA_META);
-	emitir(IRTG(IR_EQ, IRT_TAB), mt2, ix->mt);
-      } else {  /* Lookup metamethod on 2nd operand and compare both. */
-	ix->tab = ix->key;
-	copyTV(J->L, &ix->tabv, bv);
-	if (!lj_record_mm_lookup(J, ix, mm) ||
-	    lj_record_objcmp(J, mo1, ix->mobj, &mo1v, &ix->mobjv))
-	  goto nomatch;
-      }
-      rec_mm_callcomp(J, ix, op);
-      return;
-    }
-#endif
-  nomatch:
-    /* Lookup failed. Retry with  __lt and swapped operands. */
-    if (!(op & 2)) break;  /* Already at __lt. Interpreter will throw. */
-    ix->tab = ix->key; ix->key = ix->val; ix->val = ix->tab;
-    copyTV(J->L, &ix->tabv, &ix->keyv);
-    copyTV(J->L, &ix->keyv, &ix->valv);
-    copyTV(J->L, &ix->valv, &ix->tabv);
-    op ^= 3;
-  }
-}
-
-#if LJ_HASFFI
-/* Setup call to cdata comparison metamethod. */
-static void rec_mm_comp_cdata(jit_State *J, RecordIndex *ix, int op, MMS mm)
-{
-  lj_snap_add(J);
-  if (tref_iscdata(ix->val)) {
-    ix->tab = ix->val;
-    copyTV(J->L, &ix->tabv, &ix->valv);
-  } else {
-    lua_assert(tref_iscdata(ix->key));
-    ix->tab = ix->key;
-    copyTV(J->L, &ix->tabv, &ix->keyv);
-  }
-  lj_record_mm_lookup(J, ix, mm);
-  rec_mm_callcomp(J, ix, op);
-}
-#endif
-
-/* -- Indexed access ------------------------------------------------------ */
-
-/* Record bounds-check. */
-static void rec_idx_abc(jit_State *J, TRef asizeref, TRef ikey, uint32_t asize)
-{
-  /* Try to emit invariant bounds checks. */
-  if ((J->flags & (JIT_F_OPT_LOOP|JIT_F_OPT_ABC)) ==
-      (JIT_F_OPT_LOOP|JIT_F_OPT_ABC)) {
-    IRRef ref = tref_ref(ikey);
-    IRIns *ir = IR(ref);
-    int32_t ofs = 0;
-    IRRef ofsref = 0;
-    /* Handle constant offsets. */
-    if (ir->o == IR_ADD && irref_isk(ir->op2)) {
-      ofsref = ir->op2;
-      ofs = IR(ofsref)->i;
-      ref = ir->op1;
-      ir = IR(ref);
-    }
-    /* Got scalar evolution analysis results for this reference? */
-    if (ref == J->scev.idx) {
-      int32_t stop;
-      lua_assert(irt_isint(J->scev.t) && ir->o == IR_SLOAD);
-      stop = numberVint(&(J->L->base - J->baseslot)[ir->op1 + FORL_STOP]);
-      /* Runtime value for stop of loop is within bounds? */
-      if ((uint64_t)stop + ofs < (uint64_t)asize) {
-	/* Emit invariant bounds check for stop. */
-	emitir(IRTG(IR_ABC, IRT_P32), asizeref, ofs == 0 ? J->scev.stop :
-	       emitir(IRTI(IR_ADD), J->scev.stop, ofsref));
-	/* Emit invariant bounds check for start, if not const or negative. */
-	if (!(J->scev.dir && J->scev.start &&
-	      (int64_t)IR(J->scev.start)->i + ofs >= 0))
-	  emitir(IRTG(IR_ABC, IRT_P32), asizeref, ikey);
-	return;
-      }
-    }
-  }
-  emitir(IRTGI(IR_ABC), asizeref, ikey);  /* Emit regular bounds check. */
-}
-
-/* Record indexed key lookup. */
-static TRef rec_idx_key(jit_State *J, RecordIndex *ix)
-{
-  TRef key;
-  GCtab *t = tabV(&ix->tabv);
-  ix->oldv = lj_tab_get(J->L, t, &ix->keyv);  /* Lookup previous value. */
-
-  /* Integer keys are looked up in the array part first. */
-  key = ix->key;
-  if (tref_isnumber(key)) {
-    int32_t k = numberVint(&ix->keyv);
-    if (!tvisint(&ix->keyv) && numV(&ix->keyv) != (lua_Number)k)
-      k = LJ_MAX_ASIZE;
-    if ((MSize)k < LJ_MAX_ASIZE) {  /* Potential array key? */
-      TRef ikey = lj_opt_narrow_index(J, key);
-      TRef asizeref = emitir(IRTI(IR_FLOAD), ix->tab, IRFL_TAB_ASIZE);
-      if ((MSize)k < t->asize) {  /* Currently an array key? */
-	TRef arrayref;
-	rec_idx_abc(J, asizeref, ikey, t->asize);
-	arrayref = emitir(IRT(IR_FLOAD, IRT_P32), ix->tab, IRFL_TAB_ARRAY);
-	return emitir(IRT(IR_AREF, IRT_P32), arrayref, ikey);
-      } else {  /* Currently not in array (may be an array extension)? */
-	emitir(IRTGI(IR_ULE), asizeref, ikey);  /* Inv. bounds check. */
-	if (k == 0 && tref_isk(key))
-	  key = lj_ir_knum_zero(J);  /* Canonicalize 0 or +-0.0 to +0.0. */
-	/* And continue with the hash lookup. */
-      }
-    } else if (!tref_isk(key)) {
-      /* We can rule out const numbers which failed the integerness test
-      ** above. But all other numbers are potential array keys.
-      */
-      if (t->asize == 0) {  /* True sparse tables have an empty array part. */
-	/* Guard that the array part stays empty. */
-	TRef tmp = emitir(IRTI(IR_FLOAD), ix->tab, IRFL_TAB_ASIZE);
-	emitir(IRTGI(IR_EQ), tmp, lj_ir_kint(J, 0));
-      } else {
-	lj_trace_err(J, LJ_TRERR_NYITMIX);
-      }
-    }
-  }
-
-  /* Otherwise the key is located in the hash part. */
-  if (t->hmask == 0) {  /* Shortcut for empty hash part. */
-    /* Guard that the hash part stays empty. */
-    TRef tmp = emitir(IRTI(IR_FLOAD), ix->tab, IRFL_TAB_HMASK);
-    emitir(IRTGI(IR_EQ), tmp, lj_ir_kint(J, 0));
-    return lj_ir_kkptr(J, niltvg(J2G(J)));
-  }
-  if (tref_isinteger(key))  /* Hash keys are based on numbers, not ints. */
-    key = emitir(IRTN(IR_CONV), key, IRCONV_NUM_INT);
-  if (tref_isk(key)) {
-    /* Optimize lookup of constant hash keys. */
-    MSize hslot = (MSize)((char *)ix->oldv - (char *)&noderef(t->node)[0].val);
-    if (t->hmask > 0 && hslot <= t->hmask*(MSize)sizeof(Node) &&
-	hslot <= 65535*(MSize)sizeof(Node)) {
-      TRef node, kslot;
-      TRef hm = emitir(IRTI(IR_FLOAD), ix->tab, IRFL_TAB_HMASK);
-      emitir(IRTGI(IR_EQ), hm, lj_ir_kint(J, (int32_t)t->hmask));
-      node = emitir(IRT(IR_FLOAD, IRT_P32), ix->tab, IRFL_TAB_NODE);
-      kslot = lj_ir_kslot(J, key, hslot / sizeof(Node));
-      return emitir(IRTG(IR_HREFK, IRT_P32), node, kslot);
-    }
-  }
-  /* Fall back to a regular hash lookup. */
-  return emitir(IRT(IR_HREF, IRT_P32), ix->tab, key);
-}
-
-/* Determine whether a key is NOT one of the fast metamethod names. */
-static int nommstr(jit_State *J, TRef key)
-{
-  if (tref_isstr(key)) {
-    if (tref_isk(key)) {
-      GCstr *str = ir_kstr(IR(tref_ref(key)));
-      uint32_t mm;
-      for (mm = 0; mm <= MM_FAST; mm++)
-	if (mmname_str(J2G(J), mm) == str)
-	  return 0;  /* MUST be one the fast metamethod names. */
-    } else {
-      return 0;  /* Variable string key MAY be a metamethod name. */
-    }
-  }
-  return 1;  /* CANNOT be a metamethod name. */
-}
-
-/* Record indexed load/store. */
-TRef lj_record_idx(jit_State *J, RecordIndex *ix)
-{
-  TRef xref;
-  IROp xrefop, loadop;
-  cTValue *oldv;
-
-  while (!tref_istab(ix->tab)) { /* Handle non-table lookup. */
-    /* Never call raw lj_record_idx() on non-table. */
-    lua_assert(ix->idxchain != 0);
-    if (!lj_record_mm_lookup(J, ix, ix->val ? MM_newindex : MM_index))
-      lj_trace_err(J, LJ_TRERR_NOMM);
-  handlemm:
-    if (tref_isfunc(ix->mobj)) {  /* Handle metamethod call. */
-      BCReg func = rec_mm_prep(J, ix->val ? lj_cont_nop : lj_cont_ra);
-      TRef *base = J->base + func;
-      TValue *tv = J->L->base + func;
-      base[0] = ix->mobj; base[1] = ix->tab; base[2] = ix->key;
-      setfuncV(J->L, tv+0, funcV(&ix->mobjv));
-      copyTV(J->L, tv+1, &ix->tabv);
-      copyTV(J->L, tv+2, &ix->keyv);
-      if (ix->val) {
-	base[3] = ix->val;
-	copyTV(J->L, tv+3, &ix->valv);
-	lj_record_call(J, func, 3);  /* mobj(tab, key, val) */
-	return 0;
-      } else {
-	lj_record_call(J, func, 2);  /* res = mobj(tab, key) */
-	return 0;  /* No result yet. */
-      }
-    }
-    /* Otherwise retry lookup with metaobject. */
-    ix->tab = ix->mobj;
-    copyTV(J->L, &ix->tabv, &ix->mobjv);
-    if (--ix->idxchain == 0)
-      lj_trace_err(J, LJ_TRERR_IDXLOOP);
-  }
-
-  /* First catch nil and NaN keys for tables. */
-  if (tvisnil(&ix->keyv) || (tvisnum(&ix->keyv) && tvisnan(&ix->keyv))) {
-    if (ix->val)  /* Better fail early. */
-      lj_trace_err(J, LJ_TRERR_STORENN);
-    if (tref_isk(ix->key)) {
-      if (ix->idxchain && lj_record_mm_lookup(J, ix, MM_index))
-	goto handlemm;
-      return TREF_NIL;
-    }
-  }
-
-  /* Record the key lookup. */
-  xref = rec_idx_key(J, ix);
-  xrefop = IR(tref_ref(xref))->o;
-  loadop = xrefop == IR_AREF ? IR_ALOAD : IR_HLOAD;
-  /* The lj_meta_tset() inconsistency is gone, but better play safe. */
-  oldv = xrefop == IR_KKPTR ? (cTValue *)ir_kptr(IR(tref_ref(xref))) : ix->oldv;
-
-  if (ix->val == 0) {  /* Indexed load */
-    IRType t = itype2irt(oldv);
-    TRef res;
-    if (oldv == niltvg(J2G(J))) {
-      emitir(IRTG(IR_EQ, IRT_P32), xref, lj_ir_kkptr(J, niltvg(J2G(J))));
-      res = TREF_NIL;
-    } else {
-      res = emitir(IRTG(loadop, t), xref, 0);
-    }
-    if (t == IRT_NIL && ix->idxchain && lj_record_mm_lookup(J, ix, MM_index))
-      goto handlemm;
-    if (irtype_ispri(t)) res = TREF_PRI(t);  /* Canonicalize primitives. */
-    return res;
-  } else {  /* Indexed store. */
-    GCtab *mt = tabref(tabV(&ix->tabv)->metatable);
-    int keybarrier = tref_isgcv(ix->key) && !tref_isnil(ix->val);
-    if (tvisnil(oldv)) {  /* Previous value was nil? */
-      /* Need to duplicate the hasmm check for the early guards. */
-      int hasmm = 0;
-      if (ix->idxchain && mt) {
-	cTValue *mo = lj_tab_getstr(mt, mmname_str(J2G(J), MM_newindex));
-	hasmm = mo && !tvisnil(mo);
-      }
-      if (hasmm)
-	emitir(IRTG(loadop, IRT_NIL), xref, 0);  /* Guard for nil value. */
-      else if (xrefop == IR_HREF)
-	emitir(IRTG(oldv == niltvg(J2G(J)) ? IR_EQ : IR_NE, IRT_P32),
-	       xref, lj_ir_kkptr(J, niltvg(J2G(J))));
-      if (ix->idxchain && lj_record_mm_lookup(J, ix, MM_newindex)) {
-	lua_assert(hasmm);
-	goto handlemm;
-      }
-      lua_assert(!hasmm);
-      if (oldv == niltvg(J2G(J))) {  /* Need to insert a new key. */
-	TRef key = ix->key;
-	if (tref_isinteger(key))  /* NEWREF needs a TValue as a key. */
-	  key = emitir(IRTN(IR_CONV), key, IRCONV_NUM_INT);
-	xref = emitir(IRT(IR_NEWREF, IRT_P32), ix->tab, key);
-	keybarrier = 0;  /* NEWREF already takes care of the key barrier. */
-      }
-    } else if (!lj_opt_fwd_wasnonnil(J, loadop, tref_ref(xref))) {
-      /* Cannot derive that the previous value was non-nil, must do checks. */
-      if (xrefop == IR_HREF)  /* Guard against store to niltv. */
-	emitir(IRTG(IR_NE, IRT_P32), xref, lj_ir_kkptr(J, niltvg(J2G(J))));
-      if (ix->idxchain) {  /* Metamethod lookup required? */
-	/* A check for NULL metatable is cheaper (hoistable) than a load. */
-	if (!mt) {
-	  TRef mtref = emitir(IRT(IR_FLOAD, IRT_TAB), ix->tab, IRFL_TAB_META);
-	  emitir(IRTG(IR_EQ, IRT_TAB), mtref, lj_ir_knull(J, IRT_TAB));
-	} else {
-	  IRType t = itype2irt(oldv);
-	  emitir(IRTG(loadop, t), xref, 0);  /* Guard for non-nil value. */
-	}
-      }
-    } else {
-      keybarrier = 0;  /* Previous non-nil value kept the key alive. */
-    }
-    /* Convert int to number before storing. */
-    if (!LJ_DUALNUM && tref_isinteger(ix->val))
-      ix->val = emitir(IRTN(IR_CONV), ix->val, IRCONV_NUM_INT);
-    emitir(IRT(loadop+IRDELTA_L2S, tref_type(ix->val)), xref, ix->val);
-    if (keybarrier || tref_isgcv(ix->val))
-      emitir(IRT(IR_TBAR, IRT_NIL), ix->tab, 0);
-    /* Invalidate neg. metamethod cache for stores with certain string keys. */
-    if (!nommstr(J, ix->key)) {
-      TRef fref = emitir(IRT(IR_FREF, IRT_P32), ix->tab, IRFL_TAB_NOMM);
-      emitir(IRT(IR_FSTORE, IRT_U8), fref, lj_ir_kint(J, 0));
-    }
-    J->needsnap = 1;
-    return 0;
-  }
-}
-
-/* -- Upvalue access ------------------------------------------------------ */
-
-/* Check whether upvalue is immutable and ok to constify. */
-static int rec_upvalue_constify(jit_State *J, GCupval *uvp)
-{
-  if (uvp->immutable) {
-    cTValue *o = uvval(uvp);
-    /* Don't constify objects that may retain large amounts of memory. */
-#if LJ_HASFFI
-    if (tviscdata(o)) {
-      GCcdata *cd = cdataV(o);
-      if (!cdataisv(cd) && !(cd->marked & LJ_GC_CDATA_FIN)) {
-	CType *ct = ctype_raw(ctype_ctsG(J2G(J)), cd->ctypeid);
-	if (!ctype_hassize(ct->info) || ct->size <= 16)
-	  return 1;
-      }
-      return 0;
-    }
-#else
-    UNUSED(J);
-#endif
-    if (!(tvistab(o) || tvisudata(o) || tvisthread(o)))
-      return 1;
-  }
-  return 0;
-}
-
-/* Record upvalue load/store. */
-static TRef rec_upvalue(jit_State *J, uint32_t uv, TRef val)
-{
-  GCupval *uvp = &gcref(J->fn->l.uvptr[uv])->uv;
-  TRef fn = getcurrf(J);
-  IRRef uref;
-  int needbarrier = 0;
-  if (rec_upvalue_constify(J, uvp)) {  /* Try to constify immutable upvalue. */
-    TRef tr, kfunc;
-    lua_assert(val == 0);
-    if (!tref_isk(fn)) {  /* Late specialization of current function. */
-      if (J->pt->flags >= PROTO_CLC_POLY)
-	goto noconstify;
-      kfunc = lj_ir_kfunc(J, J->fn);
-      emitir(IRTG(IR_EQ, IRT_FUNC), fn, kfunc);
-      J->base[-1] = TREF_FRAME | kfunc;
-      fn = kfunc;
-    }
-    tr = lj_record_constify(J, uvval(uvp));
-    if (tr)
-      return tr;
-  }
-noconstify:
-  /* Note: this effectively limits LJ_MAX_UPVAL to 127. */
-  uv = (uv << 8) | (hashrot(uvp->dhash, uvp->dhash + HASH_BIAS) & 0xff);
-  if (!uvp->closed) {
-    /* In current stack? */
-    if (uvval(uvp) >= tvref(J->L->stack) &&
-	uvval(uvp) < tvref(J->L->maxstack)) {
-      int32_t slot = (int32_t)(uvval(uvp) - (J->L->base - J->baseslot));
-      if (slot >= 0) {  /* Aliases an SSA slot? */
-	slot -= (int32_t)J->baseslot;  /* Note: slot number may be negative! */
-	/* NYI: add IR to guard that it's still aliasing the same slot. */
-	if (val == 0) {
-	  return getslot(J, slot);
-	} else {
-	  J->base[slot] = val;
-	  if (slot >= (int32_t)J->maxslot) J->maxslot = (BCReg)(slot+1);
-	  return 0;
-	}
-      }
-    }
-    uref = tref_ref(emitir(IRTG(IR_UREFO, IRT_P32), fn, uv));
-  } else {
-    needbarrier = 1;
-    uref = tref_ref(emitir(IRTG(IR_UREFC, IRT_P32), fn, uv));
-  }
-  if (val == 0) {  /* Upvalue load */
-    IRType t = itype2irt(uvval(uvp));
-    TRef res = emitir(IRTG(IR_ULOAD, t), uref, 0);
-    if (irtype_ispri(t)) res = TREF_PRI(t);  /* Canonicalize primitive refs. */
-    return res;
-  } else {  /* Upvalue store. */
-    /* Convert int to number before storing. */
-    if (!LJ_DUALNUM && tref_isinteger(val))
-      val = emitir(IRTN(IR_CONV), val, IRCONV_NUM_INT);
-    emitir(IRT(IR_USTORE, tref_type(val)), uref, val);
-    if (needbarrier && tref_isgcv(val))
-      emitir(IRT(IR_OBAR, IRT_NIL), uref, val);
-    J->needsnap = 1;
-    return 0;
-  }
-}
-
-/* -- Record calls to Lua functions --------------------------------------- */
-
-/* Check unroll limits for calls. */
-static void check_call_unroll(jit_State *J, TraceNo lnk)
-{
-  cTValue *frame = J->L->base - 1;
-  void *pc = mref(frame_func(frame)->l.pc, void);
-  int32_t depth = J->framedepth;
-  int32_t count = 0;
-  if ((J->pt->flags & PROTO_VARARG)) depth--;  /* Vararg frame still missing. */
-  for (; depth > 0; depth--) {  /* Count frames with same prototype. */
-    if (frame_iscont(frame)) depth--;
-    frame = frame_prev(frame);
-    if (mref(frame_func(frame)->l.pc, void) == pc)
-      count++;
-  }
-  if (J->pc == J->startpc) {
-    if (count + J->tailcalled > J->param[JIT_P_recunroll]) {
-      J->pc++;
-      if (J->framedepth + J->retdepth == 0)
-	rec_stop(J, LJ_TRLINK_TAILREC, J->cur.traceno);  /* Tail-recursion. */
-      else
-	rec_stop(J, LJ_TRLINK_UPREC, J->cur.traceno);  /* Up-recursion. */
-    }
-  } else {
-    if (count > J->param[JIT_P_callunroll]) {
-      if (lnk) {  /* Possible tail- or up-recursion. */
-	lj_trace_flush(J, lnk);  /* Flush trace that only returns. */
-	/* Set a small, pseudo-random hotcount for a quick retry of JFUNC*. */
-	hotcount_set(J2GG(J), J->pc+1, LJ_PRNG_BITS(J, 4));
-      }
-      lj_trace_err(J, LJ_TRERR_CUNROLL);
-    }
-  }
-}
-
-/* Record Lua function setup. */
-static void rec_func_setup(jit_State *J)
-{
-  GCproto *pt = J->pt;
-  BCReg s, numparams = pt->numparams;
-  if ((pt->flags & PROTO_NOJIT))
-    lj_trace_err(J, LJ_TRERR_CJITOFF);
-  if (J->baseslot + pt->framesize >= LJ_MAX_JSLOTS)
-    lj_trace_err(J, LJ_TRERR_STACKOV);
-  /* Fill up missing parameters with nil. */
-  for (s = J->maxslot; s < numparams; s++)
-    J->base[s] = TREF_NIL;
-  /* The remaining slots should never be read before they are written. */
-  J->maxslot = numparams;
-}
-
-/* Record Lua vararg function setup. */
-static void rec_func_vararg(jit_State *J)
-{
-  GCproto *pt = J->pt;
-  BCReg s, fixargs, vframe = J->maxslot+1;
-  lua_assert((pt->flags & PROTO_VARARG));
-  if (J->baseslot + vframe + pt->framesize >= LJ_MAX_JSLOTS)
-    lj_trace_err(J, LJ_TRERR_STACKOV);
-  J->base[vframe-1] = J->base[-1];  /* Copy function up. */
-  /* Copy fixarg slots up and set their original slots to nil. */
-  fixargs = pt->numparams < J->maxslot ? pt->numparams : J->maxslot;
-  for (s = 0; s < fixargs; s++) {
-    J->base[vframe+s] = J->base[s];
-    J->base[s] = TREF_NIL;
-  }
-  J->maxslot = fixargs;
-  J->framedepth++;
-  J->base += vframe;
-  J->baseslot += vframe;
-}
-
-/* Record entry to a Lua function. */
-static void rec_func_lua(jit_State *J)
-{
-  rec_func_setup(J);
-  check_call_unroll(J, 0);
-}
-
-/* Record entry to an already compiled function. */
-static void rec_func_jit(jit_State *J, TraceNo lnk)
-{
-  GCtrace *T;
-  rec_func_setup(J);
-  T = traceref(J, lnk);
-  if (T->linktype == LJ_TRLINK_RETURN) {  /* Trace returns to interpreter? */
-    check_call_unroll(J, lnk);
-    /* Temporarily unpatch JFUNC* to continue recording across function. */
-    J->patchins = *J->pc;
-    J->patchpc = (BCIns *)J->pc;
-    *J->patchpc = T->startins;
-    return;
-  }
-  J->instunroll = 0;  /* Cannot continue across a compiled function. */
-  if (J->pc == J->startpc && J->framedepth + J->retdepth == 0)
-    rec_stop(J, LJ_TRLINK_TAILREC, J->cur.traceno);  /* Extra tail-recursion. */
-  else
-    rec_stop(J, LJ_TRLINK_ROOT, lnk);  /* Link to the function. */
-}
-
-/* -- Vararg handling ----------------------------------------------------- */
-
-/* Detect y = select(x, ...) idiom. */
-static int select_detect(jit_State *J)
-{
-  BCIns ins = J->pc[1];
-  if (bc_op(ins) == BC_CALLM && bc_b(ins) == 2 && bc_c(ins) == 1) {
-    cTValue *func = &J->L->base[bc_a(ins)];
-    if (tvisfunc(func) && funcV(func)->c.ffid == FF_select)
-      return 1;
-  }
-  return 0;
-}
-
-/* Record vararg instruction. */
-static void rec_varg(jit_State *J, BCReg dst, ptrdiff_t nresults)
-{
-  int32_t numparams = J->pt->numparams;
-  ptrdiff_t nvararg = frame_delta(J->L->base-1) - numparams - 1;
-  lua_assert(frame_isvarg(J->L->base-1));
-  if (J->framedepth > 0) {  /* Simple case: varargs defined on-trace. */
-    ptrdiff_t i;
-    if (nvararg < 0) nvararg = 0;
-    if (nresults == -1) {
-      nresults = nvararg;
-      J->maxslot = dst + (BCReg)nvararg;
-    } else if (dst + nresults > J->maxslot) {
-      J->maxslot = dst + (BCReg)nresults;
-    }
-    for (i = 0; i < nresults; i++)
-      J->base[dst+i] = i < nvararg ? getslot(J, i - nvararg - 1) : TREF_NIL;
-  } else {  /* Unknown number of varargs passed to trace. */
-    TRef fr = emitir(IRTI(IR_SLOAD), 0, IRSLOAD_READONLY|IRSLOAD_FRAME);
-    int32_t frofs = 8*(1+numparams)+FRAME_VARG;
-    if (nresults >= 0) {  /* Known fixed number of results. */
-      ptrdiff_t i;
-      if (nvararg > 0) {
-	ptrdiff_t nload = nvararg >= nresults ? nresults : nvararg;
-	TRef vbase;
-	if (nvararg >= nresults)
-	  emitir(IRTGI(IR_GE), fr, lj_ir_kint(J, frofs+8*(int32_t)nresults));
-	else
-	  emitir(IRTGI(IR_EQ), fr, lj_ir_kint(J, frame_ftsz(J->L->base-1)));
-	vbase = emitir(IRTI(IR_SUB), REF_BASE, fr);
-	vbase = emitir(IRT(IR_ADD, IRT_P32), vbase, lj_ir_kint(J, frofs-8));
-	for (i = 0; i < nload; i++) {
-	  IRType t = itype2irt(&J->L->base[i-1-nvararg]);
-	  TRef aref = emitir(IRT(IR_AREF, IRT_P32),
-			     vbase, lj_ir_kint(J, (int32_t)i));
-	  TRef tr = emitir(IRTG(IR_VLOAD, t), aref, 0);
-	  if (irtype_ispri(t)) tr = TREF_PRI(t);  /* Canonicalize primitives. */
-	  J->base[dst+i] = tr;
-	}
-      } else {
-	emitir(IRTGI(IR_LE), fr, lj_ir_kint(J, frofs));
-	nvararg = 0;
-      }
-      for (i = nvararg; i < nresults; i++)
-	J->base[dst+i] = TREF_NIL;
-      if (dst + (BCReg)nresults > J->maxslot)
-	J->maxslot = dst + (BCReg)nresults;
-    } else if (select_detect(J)) {  /* y = select(x, ...) */
-      TRef tridx = J->base[dst-1];
-      TRef tr = TREF_NIL;
-      ptrdiff_t idx = lj_ffrecord_select_mode(J, tridx, &J->L->base[dst-1]);
-      if (idx < 0) goto nyivarg;
-      if (idx != 0 && !tref_isinteger(tridx))
-	tridx = emitir(IRTGI(IR_CONV), tridx, IRCONV_INT_NUM|IRCONV_INDEX);
-      if (idx != 0 && tref_isk(tridx)) {
-	emitir(IRTGI(idx <= nvararg ? IR_GE : IR_LT),
-	       fr, lj_ir_kint(J, frofs+8*(int32_t)idx));
-	frofs -= 8;  /* Bias for 1-based index. */
-      } else if (idx <= nvararg) {  /* Compute size. */
-	TRef tmp = emitir(IRTI(IR_ADD), fr, lj_ir_kint(J, -frofs));
-	if (numparams)
-	  emitir(IRTGI(IR_GE), tmp, lj_ir_kint(J, 0));
-	tr = emitir(IRTI(IR_BSHR), tmp, lj_ir_kint(J, 3));
-	if (idx != 0) {
-	  tridx = emitir(IRTI(IR_ADD), tridx, lj_ir_kint(J, -1));
-	  rec_idx_abc(J, tr, tridx, (uint32_t)nvararg);
-	}
-      } else {
-	TRef tmp = lj_ir_kint(J, frofs);
-	if (idx != 0) {
-	  TRef tmp2 = emitir(IRTI(IR_BSHL), tridx, lj_ir_kint(J, 3));
-	  tmp = emitir(IRTI(IR_ADD), tmp2, tmp);
-	} else {
-	  tr = lj_ir_kint(J, 0);
-	}
-	emitir(IRTGI(IR_LT), fr, tmp);
-      }
-      if (idx != 0 && idx <= nvararg) {
-	IRType t;
-	TRef aref, vbase = emitir(IRTI(IR_SUB), REF_BASE, fr);
-	vbase = emitir(IRT(IR_ADD, IRT_P32), vbase, lj_ir_kint(J, frofs-8));
-	t = itype2irt(&J->L->base[idx-2-nvararg]);
-	aref = emitir(IRT(IR_AREF, IRT_P32), vbase, tridx);
-	tr = emitir(IRTG(IR_VLOAD, t), aref, 0);
-	if (irtype_ispri(t)) tr = TREF_PRI(t);  /* Canonicalize primitives. */
-      }
-      J->base[dst-2] = tr;
-      J->maxslot = dst-1;
-      J->bcskip = 2;  /* Skip CALLM + select. */
-    } else {
-    nyivarg:
-      setintV(&J->errinfo, BC_VARG);
-      lj_trace_err_info(J, LJ_TRERR_NYIBC);
-    }
-  }
-}
-
-/* -- Record allocations -------------------------------------------------- */
-
-static TRef rec_tnew(jit_State *J, uint32_t ah)
-{
-  uint32_t asize = ah & 0x7ff;
-  uint32_t hbits = ah >> 11;
-  if (asize == 0x7ff) asize = 0x801;
-  return emitir(IRTG(IR_TNEW, IRT_TAB), asize, hbits);
-}
-
-/* -- Record bytecode ops ------------------------------------------------- */
-
-/* Prepare for comparison. */
-static void rec_comp_prep(jit_State *J)
-{
-  /* Prevent merging with snapshot #0 (GC exit) since we fixup the PC. */
-  if (J->cur.nsnap == 1 && J->cur.snap[0].ref == J->cur.nins)
-    emitir_raw(IRT(IR_NOP, IRT_NIL), 0, 0);
-  lj_snap_add(J);
-}
-
-/* Fixup comparison. */
-static void rec_comp_fixup(jit_State *J, const BCIns *pc, int cond)
-{
-  BCIns jmpins = pc[1];
-  const BCIns *npc = pc + 2 + (cond ? bc_j(jmpins) : 0);
-  SnapShot *snap = &J->cur.snap[J->cur.nsnap-1];
-  /* Set PC to opposite target to avoid re-recording the comp. in side trace. */
-  J->cur.snapmap[snap->mapofs + snap->nent] = SNAP_MKPC(npc);
-  J->needsnap = 1;
-  if (bc_a(jmpins) < J->maxslot) J->maxslot = bc_a(jmpins);
-  lj_snap_shrink(J);  /* Shrink last snapshot if possible. */
-}
-
-/* Record the next bytecode instruction (_before_ it's executed). */
-void lj_record_ins(jit_State *J)
-{
-  cTValue *lbase;
-  RecordIndex ix;
-  const BCIns *pc;
-  BCIns ins;
-  BCOp op;
-  TRef ra, rb, rc;
-
-  /* Perform post-processing action before recording the next instruction. */
-  if (LJ_UNLIKELY(J->postproc != LJ_POST_NONE)) {
-    switch (J->postproc) {
-    case LJ_POST_FIXCOMP:  /* Fixup comparison. */
-      pc = frame_pc(&J2G(J)->tmptv);
-      rec_comp_fixup(J, pc, (!tvistruecond(&J2G(J)->tmptv2) ^ (bc_op(*pc)&1)));
-      /* fallthrough */
-    case LJ_POST_FIXGUARD:  /* Fixup and emit pending guard. */
-    case LJ_POST_FIXGUARDSNAP:  /* Fixup and emit pending guard and snapshot. */
-      if (!tvistruecond(&J2G(J)->tmptv2)) {
-	J->fold.ins.o ^= 1;  /* Flip guard to opposite. */
-	if (J->postproc == LJ_POST_FIXGUARDSNAP) {
-	  SnapShot *snap = &J->cur.snap[J->cur.nsnap-1];
-	  J->cur.snapmap[snap->mapofs+snap->nent-1]--;  /* False -> true. */
-	}
-      }
-      lj_opt_fold(J);  /* Emit pending guard. */
-      /* fallthrough */
-    case LJ_POST_FIXBOOL:
-      if (!tvistruecond(&J2G(J)->tmptv2)) {
-	BCReg s;
-	TValue *tv = J->L->base;
-	for (s = 0; s < J->maxslot; s++)  /* Fixup stack slot (if any). */
-	  if (J->base[s] == TREF_TRUE && tvisfalse(&tv[s])) {
-	    J->base[s] = TREF_FALSE;
-	    break;
-	  }
-      }
-      break;
-    case LJ_POST_FIXCONST:
-      {
-	BCReg s;
-	TValue *tv = J->L->base;
-	for (s = 0; s < J->maxslot; s++)  /* Constify stack slots (if any). */
-	  if (J->base[s] == TREF_NIL && !tvisnil(&tv[s]))
-	    J->base[s] = lj_record_constify(J, &tv[s]);
-      }
-      break;
-    case LJ_POST_FFRETRY:  /* Suppress recording of retried fast function. */
-      if (bc_op(*J->pc) >= BC__MAX)
-	return;
-      break;
-    default: lua_assert(0); break;
-    }
-    J->postproc = LJ_POST_NONE;
-  }
-
-  /* Need snapshot before recording next bytecode (e.g. after a store). */
-  if (J->needsnap) {
-    J->needsnap = 0;
-    lj_snap_purge(J);
-    lj_snap_add(J);
-    J->mergesnap = 1;
-  }
-
-  /* Skip some bytecodes. */
-  if (LJ_UNLIKELY(J->bcskip > 0)) {
-    J->bcskip--;
-    return;
-  }
-
-  /* Record only closed loops for root traces. */
-  pc = J->pc;
-  if (J->framedepth == 0 &&
-     (MSize)((char *)pc - (char *)J->bc_min) >= J->bc_extent)
-    lj_trace_err(J, LJ_TRERR_LLEAVE);
-
-#ifdef LUA_USE_ASSERT
-  rec_check_slots(J);
-  rec_check_ir(J);
-#endif
-
-  /* Keep a copy of the runtime values of var/num/str operands. */
-#define rav	(&ix.valv)
-#define rbv	(&ix.tabv)
-#define rcv	(&ix.keyv)
-
-  lbase = J->L->base;
-  ins = *pc;
-  op = bc_op(ins);
-  ra = bc_a(ins);
-  ix.val = 0;
-  switch (bcmode_a(op)) {
-  case BCMvar:
-    copyTV(J->L, rav, &lbase[ra]); ix.val = ra = getslot(J, ra); break;
-  default: break;  /* Handled later. */
-  }
-  rb = bc_b(ins);
-  rc = bc_c(ins);
-  switch (bcmode_b(op)) {
-  case BCMnone: rb = 0; rc = bc_d(ins); break;  /* Upgrade rc to 'rd'. */
-  case BCMvar:
-    copyTV(J->L, rbv, &lbase[rb]); ix.tab = rb = getslot(J, rb); break;
-  default: break;  /* Handled later. */
-  }
-  switch (bcmode_c(op)) {
-  case BCMvar:
-    copyTV(J->L, rcv, &lbase[rc]); ix.key = rc = getslot(J, rc); break;
-  case BCMpri: setitype(rcv, ~rc); ix.key = rc = TREF_PRI(IRT_NIL+rc); break;
-  case BCMnum: { cTValue *tv = proto_knumtv(J->pt, rc);
-    copyTV(J->L, rcv, tv); ix.key = rc = tvisint(tv) ? lj_ir_kint(J, intV(tv)) :
-    lj_ir_knumint(J, numV(tv)); } break;
-  case BCMstr: { GCstr *s = gco2str(proto_kgc(J->pt, ~(ptrdiff_t)rc));
-    setstrV(J->L, rcv, s); ix.key = rc = lj_ir_kstr(J, s); } break;
-  default: break;  /* Handled later. */
-  }
-
-  switch (op) {
-
-  /* -- Comparison ops ---------------------------------------------------- */
-
-  case BC_ISLT: case BC_ISGE: case BC_ISLE: case BC_ISGT:
-#if LJ_HASFFI
-    if (tref_iscdata(ra) || tref_iscdata(rc)) {
-      rec_mm_comp_cdata(J, &ix, op, ((int)op & 2) ? MM_le : MM_lt);
-      break;
-    }
-#endif
-    /* Emit nothing for two numeric or string consts. */
-    if (!(tref_isk2(ra,rc) && tref_isnumber_str(ra) && tref_isnumber_str(rc))) {
-      IRType ta = tref_isinteger(ra) ? IRT_INT : tref_type(ra);
-      IRType tc = tref_isinteger(rc) ? IRT_INT : tref_type(rc);
-      int irop;
-      if (ta != tc) {
-	/* Widen mixed number/int comparisons to number/number comparison. */
-	if (ta == IRT_INT && tc == IRT_NUM) {
-	  ra = emitir(IRTN(IR_CONV), ra, IRCONV_NUM_INT);
-	  ta = IRT_NUM;
-	} else if (ta == IRT_NUM && tc == IRT_INT) {
-	  rc = emitir(IRTN(IR_CONV), rc, IRCONV_NUM_INT);
-	} else if (LJ_52) {
-	  ta = IRT_NIL;  /* Force metamethod for different types. */
-	} else if (!((ta == IRT_FALSE || ta == IRT_TRUE) &&
-		     (tc == IRT_FALSE || tc == IRT_TRUE))) {
-	  break;  /* Interpreter will throw for two different types. */
-	}
-      }
-      rec_comp_prep(J);
-      irop = (int)op - (int)BC_ISLT + (int)IR_LT;
-      if (ta == IRT_NUM) {
-	if ((irop & 1)) irop ^= 4;  /* ISGE/ISGT are unordered. */
-	if (!lj_ir_numcmp(numberVnum(rav), numberVnum(rcv), (IROp)irop))
-	  irop ^= 5;
-      } else if (ta == IRT_INT) {
-	if (!lj_ir_numcmp(numberVnum(rav), numberVnum(rcv), (IROp)irop))
-	  irop ^= 1;
-      } else if (ta == IRT_STR) {
-	if (!lj_ir_strcmp(strV(rav), strV(rcv), (IROp)irop)) irop ^= 1;
-	ra = lj_ir_call(J, IRCALL_lj_str_cmp, ra, rc);
-	rc = lj_ir_kint(J, 0);
-	ta = IRT_INT;
-      } else {
-	rec_mm_comp(J, &ix, (int)op);
-	break;
-      }
-      emitir(IRTG(irop, ta), ra, rc);
-      rec_comp_fixup(J, J->pc, ((int)op ^ irop) & 1);
-    }
-    break;
-
-  case BC_ISEQV: case BC_ISNEV:
-  case BC_ISEQS: case BC_ISNES:
-  case BC_ISEQN: case BC_ISNEN:
-  case BC_ISEQP: case BC_ISNEP:
-#if LJ_HASFFI
-    if (tref_iscdata(ra) || tref_iscdata(rc)) {
-      rec_mm_comp_cdata(J, &ix, op, MM_eq);
-      break;
-    }
-#endif
-    /* Emit nothing for two non-table, non-udata consts. */
-    if (!(tref_isk2(ra, rc) && !(tref_istab(ra) || tref_isudata(ra)))) {
-      int diff;
-      rec_comp_prep(J);
-      diff = lj_record_objcmp(J, ra, rc, rav, rcv);
-      if (diff == 2 || !(tref_istab(ra) || tref_isudata(ra)))
-	rec_comp_fixup(J, J->pc, ((int)op & 1) == !diff);
-      else if (diff == 1)  /* Only check __eq if different, but same type. */
-	rec_mm_equal(J, &ix, (int)op);
-    }
-    break;
-
-  /* -- Unary test and copy ops ------------------------------------------- */
-
-  case BC_ISTC: case BC_ISFC:
-    if ((op & 1) == tref_istruecond(rc))
-      rc = 0;  /* Don't store if condition is not true. */
-    /* fallthrough */
-  case BC_IST: case BC_ISF:  /* Type specialization suffices. */
-    if (bc_a(pc[1]) < J->maxslot)
-      J->maxslot = bc_a(pc[1]);  /* Shrink used slots. */
-    break;
-
-  /* -- Unary ops --------------------------------------------------------- */
-
-  case BC_NOT:
-    /* Type specialization already forces const result. */
-    rc = tref_istruecond(rc) ? TREF_FALSE : TREF_TRUE;
-    break;
-
-  case BC_LEN:
-    if (tref_isstr(rc))
-      rc = emitir(IRTI(IR_FLOAD), rc, IRFL_STR_LEN);
-    else if (!LJ_52 && tref_istab(rc))
-      rc = lj_ir_call(J, IRCALL_lj_tab_len, rc);
-    else
-      rc = rec_mm_len(J, rc, rcv);
-    break;
-
-  /* -- Arithmetic ops ---------------------------------------------------- */
-
-  case BC_UNM:
-    if (tref_isnumber_str(rc)) {
-      rc = lj_opt_narrow_unm(J, rc, rcv);
-    } else {
-      ix.tab = rc;
-      copyTV(J->L, &ix.tabv, rcv);
-      rc = rec_mm_arith(J, &ix, MM_unm);
-    }
-    break;
-
-  case BC_ADDNV: case BC_SUBNV: case BC_MULNV: case BC_DIVNV: case BC_MODNV:
-    /* Swap rb/rc and rbv/rcv. rav is temp. */
-    ix.tab = rc; ix.key = rc = rb; rb = ix.tab;
-    copyTV(J->L, rav, rbv);
-    copyTV(J->L, rbv, rcv);
-    copyTV(J->L, rcv, rav);
-    if (op == BC_MODNV)
-      goto recmod;
-    /* fallthrough */
-  case BC_ADDVN: case BC_SUBVN: case BC_MULVN: case BC_DIVVN:
-  case BC_ADDVV: case BC_SUBVV: case BC_MULVV: case BC_DIVVV: {
-    MMS mm = bcmode_mm(op);
-    if (tref_isnumber_str(rb) && tref_isnumber_str(rc))
-      rc = lj_opt_narrow_arith(J, rb, rc, rbv, rcv,
-			       (int)mm - (int)MM_add + (int)IR_ADD);
-    else
-      rc = rec_mm_arith(J, &ix, mm);
-    break;
-    }
-
-  case BC_MODVN: case BC_MODVV:
-  recmod:
-    if (tref_isnumber_str(rb) && tref_isnumber_str(rc))
-      rc = lj_opt_narrow_mod(J, rb, rc, rcv);
-    else
-      rc = rec_mm_arith(J, &ix, MM_mod);
-    break;
-
-  case BC_POW:
-    if (tref_isnumber_str(rb) && tref_isnumber_str(rc))
-      rc = lj_opt_narrow_pow(J, lj_ir_tonum(J, rb), rc, rcv);
-    else
-      rc = rec_mm_arith(J, &ix, MM_pow);
-    break;
-
-  /* -- Constant and move ops --------------------------------------------- */
-
-  case BC_MOV:
-    /* Clear gap of method call to avoid resurrecting previous refs. */
-    if (ra > J->maxslot) J->base[ra-1] = 0;
-    break;
-  case BC_KSTR: case BC_KNUM: case BC_KPRI:
-    break;
-  case BC_KSHORT:
-    rc = lj_ir_kint(J, (int32_t)(int16_t)rc);
-    break;
-  case BC_KNIL:
-    while (ra <= rc)
-      J->base[ra++] = TREF_NIL;
-    if (rc >= J->maxslot) J->maxslot = rc+1;
-    break;
-#if LJ_HASFFI
-  case BC_KCDATA:
-    rc = lj_ir_kgc(J, proto_kgc(J->pt, ~(ptrdiff_t)rc), IRT_CDATA);
-    break;
-#endif
-
-  /* -- Upvalue and function ops ------------------------------------------ */
-
-  case BC_UGET:
-    rc = rec_upvalue(J, rc, 0);
-    break;
-  case BC_USETV: case BC_USETS: case BC_USETN: case BC_USETP:
-    rec_upvalue(J, ra, rc);
-    break;
-
-  /* -- Table ops --------------------------------------------------------- */
-
-  case BC_GGET: case BC_GSET:
-    settabV(J->L, &ix.tabv, tabref(J->fn->l.env));
-    ix.tab = emitir(IRT(IR_FLOAD, IRT_TAB), getcurrf(J), IRFL_FUNC_ENV);
-    ix.idxchain = LJ_MAX_IDXCHAIN;
-    rc = lj_record_idx(J, &ix);
-    break;
-
-  case BC_TGETB: case BC_TSETB:
-    setintV(&ix.keyv, (int32_t)rc);
-    ix.key = lj_ir_kint(J, (int32_t)rc);
-    /* fallthrough */
-  case BC_TGETV: case BC_TGETS: case BC_TSETV: case BC_TSETS:
-    ix.idxchain = LJ_MAX_IDXCHAIN;
-    rc = lj_record_idx(J, &ix);
-    break;
-
-  case BC_TNEW:
-    rc = rec_tnew(J, rc);
-    break;
-  case BC_TDUP:
-    rc = emitir(IRTG(IR_TDUP, IRT_TAB),
-		lj_ir_ktab(J, gco2tab(proto_kgc(J->pt, ~(ptrdiff_t)rc))), 0);
-    break;
-
-  /* -- Calls and vararg handling ----------------------------------------- */
-
-  case BC_ITERC:
-    J->base[ra] = getslot(J, ra-3);
-    J->base[ra+1] = getslot(J, ra-2);
-    J->base[ra+2] = getslot(J, ra-1);
-    { /* Do the actual copy now because lj_record_call needs the values. */
-      TValue *b = &J->L->base[ra];
-      copyTV(J->L, b, b-3);
-      copyTV(J->L, b+1, b-2);
-      copyTV(J->L, b+2, b-1);
-    }
-    lj_record_call(J, ra, (ptrdiff_t)rc-1);
-    break;
-
-  /* L->top is set to L->base+ra+rc+NARGS-1+1. See lj_dispatch_ins(). */
-  case BC_CALLM:
-    rc = (BCReg)(J->L->top - J->L->base) - ra;
-    /* fallthrough */
-  case BC_CALL:
-    lj_record_call(J, ra, (ptrdiff_t)rc-1);
-    break;
-
-  case BC_CALLMT:
-    rc = (BCReg)(J->L->top - J->L->base) - ra;
-    /* fallthrough */
-  case BC_CALLT:
-    lj_record_tailcall(J, ra, (ptrdiff_t)rc-1);
-    break;
-
-  case BC_VARG:
-    rec_varg(J, ra, (ptrdiff_t)rb-1);
-    break;
-
-  /* -- Returns ----------------------------------------------------------- */
-
-  case BC_RETM:
-    /* L->top is set to L->base+ra+rc+NRESULTS-1, see lj_dispatch_ins(). */
-    rc = (BCReg)(J->L->top - J->L->base) - ra + 1;
-    /* fallthrough */
-  case BC_RET: case BC_RET0: case BC_RET1:
-    lj_record_ret(J, ra, (ptrdiff_t)rc-1);
-    break;
-
-  /* -- Loops and branches ------------------------------------------------ */
-
-  case BC_FORI:
-    if (rec_for(J, pc, 0) != LOOPEV_LEAVE)
-      J->loopref = J->cur.nins;
-    break;
-  case BC_JFORI:
-    lua_assert(bc_op(pc[(ptrdiff_t)rc-BCBIAS_J]) == BC_JFORL);
-    if (rec_for(J, pc, 0) != LOOPEV_LEAVE)  /* Link to existing loop. */
-      rec_stop(J, LJ_TRLINK_ROOT, bc_d(pc[(ptrdiff_t)rc-BCBIAS_J]));
-    /* Continue tracing if the loop is not entered. */
-    break;
-
-  case BC_FORL:
-    rec_loop_interp(J, pc, rec_for(J, pc+((ptrdiff_t)rc-BCBIAS_J), 1));
-    break;
-  case BC_ITERL:
-    rec_loop_interp(J, pc, rec_iterl(J, *pc));
-    break;
-  case BC_LOOP:
-    rec_loop_interp(J, pc, rec_loop(J, ra));
-    break;
-
-  case BC_JFORL:
-    rec_loop_jit(J, rc, rec_for(J, pc+bc_j(traceref(J, rc)->startins), 1));
-    break;
-  case BC_JITERL:
-    rec_loop_jit(J, rc, rec_iterl(J, traceref(J, rc)->startins));
-    break;
-  case BC_JLOOP:
-    rec_loop_jit(J, rc, rec_loop(J, ra));
-    break;
-
-  case BC_IFORL:
-  case BC_IITERL:
-  case BC_ILOOP:
-  case BC_IFUNCF:
-  case BC_IFUNCV:
-    lj_trace_err(J, LJ_TRERR_BLACKL);
-    break;
-
-  case BC_JMP:
-    if (ra < J->maxslot)
-      J->maxslot = ra;  /* Shrink used slots. */
-    break;
-
-  /* -- Function headers -------------------------------------------------- */
-
-  case BC_FUNCF:
-    rec_func_lua(J);
-    break;
-  case BC_JFUNCF:
-    rec_func_jit(J, rc);
-    break;
-
-  case BC_FUNCV:
-    rec_func_vararg(J);
-    rec_func_lua(J);
-    break;
-  case BC_JFUNCV:
-    lua_assert(0);  /* Cannot happen. No hotcall counting for varag funcs. */
-    break;
-
-  case BC_FUNCC:
-  case BC_FUNCCW:
-    lj_ffrecord_func(J);
-    break;
-
-  default:
-    if (op >= BC__MAX) {
-      lj_ffrecord_func(J);
-      break;
-    }
-    /* fallthrough */
-  case BC_ITERN:
-  case BC_ISNEXT:
-  case BC_CAT:
-  case BC_UCLO:
-  case BC_FNEW:
-  case BC_TSETM:
-    setintV(&J->errinfo, (int32_t)op);
-    lj_trace_err_info(J, LJ_TRERR_NYIBC);
-    break;
-  }
-
-  /* rc == 0 if we have no result yet, e.g. pending __index metamethod call. */
-  if (bcmode_a(op) == BCMdst && rc) {
-    J->base[ra] = rc;
-    if (ra >= J->maxslot) J->maxslot = ra+1;
-  }
-
-#undef rav
-#undef rbv
-#undef rcv
-
-  /* Limit the number of recorded IR instructions. */
-  if (J->cur.nins > REF_FIRST+(IRRef)J->param[JIT_P_maxrecord])
-    lj_trace_err(J, LJ_TRERR_TRACEOV);
-}
-
-/* -- Recording setup ----------------------------------------------------- */
-
-/* Setup recording for a root trace started by a hot loop. */
-static const BCIns *rec_setup_root(jit_State *J)
-{
-  /* Determine the next PC and the bytecode range for the loop. */
-  const BCIns *pcj, *pc = J->pc;
-  BCIns ins = *pc;
-  BCReg ra = bc_a(ins);
-  switch (bc_op(ins)) {
-  case BC_FORL:
-    J->bc_extent = (MSize)(-bc_j(ins))*sizeof(BCIns);
-    pc += 1+bc_j(ins);
-    J->bc_min = pc;
-    break;
-  case BC_ITERL:
-    lua_assert(bc_op(pc[-1]) == BC_ITERC);
-    J->maxslot = ra + bc_b(pc[-1]) - 1;
-    J->bc_extent = (MSize)(-bc_j(ins))*sizeof(BCIns);
-    pc += 1+bc_j(ins);
-    lua_assert(bc_op(pc[-1]) == BC_JMP);
-    J->bc_min = pc;
-    break;
-  case BC_LOOP:
-    /* Only check BC range for real loops, but not for "repeat until true". */
-    pcj = pc + bc_j(ins);
-    ins = *pcj;
-    if (bc_op(ins) == BC_JMP && bc_j(ins) < 0) {
-      J->bc_min = pcj+1 + bc_j(ins);
-      J->bc_extent = (MSize)(-bc_j(ins))*sizeof(BCIns);
-    }
-    J->maxslot = ra;
-    pc++;
-    break;
-  case BC_RET:
-  case BC_RET0:
-  case BC_RET1:
-    /* No bytecode range check for down-recursive root traces. */
-    J->maxslot = ra + bc_d(ins) - 1;
-    break;
-  case BC_FUNCF:
-    /* No bytecode range check for root traces started by a hot call. */
-    J->maxslot = J->pt->numparams;
-    pc++;
-    break;
-  default:
-    lua_assert(0);
-    break;
-  }
-  return pc;
-}
-
-/* Setup for recording a new trace. */
-void lj_record_setup(jit_State *J)
-{
-  uint32_t i;
-
-  /* Initialize state related to current trace. */
-  memset(J->slot, 0, sizeof(J->slot));
-  memset(J->chain, 0, sizeof(J->chain));
-  memset(J->bpropcache, 0, sizeof(J->bpropcache));
-  J->scev.idx = REF_NIL;
-  setmref(J->scev.pc, NULL);
-
-  J->baseslot = 1;  /* Invoking function is at base[-1]. */
-  J->base = J->slot + J->baseslot;
-  J->maxslot = 0;
-  J->framedepth = 0;
-  J->retdepth = 0;
-
-  J->instunroll = J->param[JIT_P_instunroll];
-  J->loopunroll = J->param[JIT_P_loopunroll];
-  J->tailcalled = 0;
-  J->loopref = 0;
-
-  J->bc_min = NULL;  /* Means no limit. */
-  J->bc_extent = ~(MSize)0;
-
-  /* Emit instructions for fixed references. Also triggers initial IR alloc. */
-  emitir_raw(IRT(IR_BASE, IRT_P32), J->parent, J->exitno);
-  for (i = 0; i <= 2; i++) {
-    IRIns *ir = IR(REF_NIL-i);
-    ir->i = 0;
-    ir->t.irt = (uint8_t)(IRT_NIL+i);
-    ir->o = IR_KPRI;
-    ir->prev = 0;
-  }
-  J->cur.nk = REF_TRUE;
-
-  J->startpc = J->pc;
-  setmref(J->cur.startpc, J->pc);
-  if (J->parent) {  /* Side trace. */
-    GCtrace *T = traceref(J, J->parent);
-    TraceNo root = T->root ? T->root : J->parent;
-    J->cur.root = (uint16_t)root;
-    J->cur.startins = BCINS_AD(BC_JMP, 0, 0);
-    /* Check whether we could at least potentially form an extra loop. */
-    if (J->exitno == 0 && T->snap[0].nent == 0) {
-      /* We can narrow a FORL for some side traces, too. */
-      if (J->pc > proto_bc(J->pt) && bc_op(J->pc[-1]) == BC_JFORI &&
-	  bc_d(J->pc[bc_j(J->pc[-1])-1]) == root) {
-	lj_snap_add(J);
-	rec_for_loop(J, J->pc-1, &J->scev, 1);
-	goto sidecheck;
-      }
-    } else {
-      J->startpc = NULL;  /* Prevent forming an extra loop. */
-    }
-    lj_snap_replay(J, T);
-  sidecheck:
-    if (traceref(J, J->cur.root)->nchild >= J->param[JIT_P_maxside] ||
-	T->snap[J->exitno].count >= J->param[JIT_P_hotexit] +
-				    J->param[JIT_P_tryside]) {
-      rec_stop(J, LJ_TRLINK_INTERP, 0);
-    }
-  } else {  /* Root trace. */
-    J->cur.root = 0;
-    J->cur.startins = *J->pc;
-    J->pc = rec_setup_root(J);
-    /* Note: the loop instruction itself is recorded at the end and not
-    ** at the start! So snapshot #0 needs to point to the *next* instruction.
-    */
-    lj_snap_add(J);
-    if (bc_op(J->cur.startins) == BC_FORL)
-      rec_for_loop(J, J->pc-1, &J->scev, 1);
-    if (1 + J->pt->framesize >= LJ_MAX_JSLOTS)
-      lj_trace_err(J, LJ_TRERR_STACKOV);
-  }
-#ifdef LUAJIT_ENABLE_CHECKHOOK
-  /* Regularly check for instruction/line hooks from compiled code and
-  ** exit to the interpreter if the hooks are set.
-  **
-  ** This is a compile-time option and disabled by default, since the
-  ** hook checks may be quite expensive in tight loops.
-  **
-  ** Note this is only useful if hooks are *not* set most of the time.
-  ** Use this only if you want to *asynchronously* interrupt the execution.
-  **
-  ** You can set the instruction hook via lua_sethook() with a count of 1
-  ** from a signal handler or another native thread. Please have a look
-  ** at the first few functions in luajit.c for an example (Ctrl-C handler).
-  */
-  {
-    TRef tr = emitir(IRT(IR_XLOAD, IRT_U8),
-		     lj_ir_kptr(J, &J2G(J)->hookmask), IRXLOAD_VOLATILE);
-    tr = emitir(IRTI(IR_BAND), tr, lj_ir_kint(J, (LUA_MASKLINE|LUA_MASKCOUNT)));
-    emitir(IRTGI(IR_EQ), tr, lj_ir_kint(J, 0));
-  }
-#endif
-}
-
-#undef IR
-#undef emitir_raw
-#undef emitir
-
-#endif
diff --git a/luajit-2.0/src/lj_record.h b/luajit-2.0/src/lj_record.h
deleted file mode 100644
index 940e105..0000000
--- a/luajit-2.0/src/lj_record.h
+++ /dev/null
@@ -1,44 +0,0 @@
-/*
-** Trace recorder (bytecode -> SSA IR).
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#ifndef _LJ_RECORD_H
-#define _LJ_RECORD_H
-
-#include "lj_obj.h"
-#include "lj_jit.h"
-
-#if LJ_HASJIT
-/* Context for recording an indexed load/store. */
-typedef struct RecordIndex {
-  TValue tabv;		/* Runtime value of table (or indexed object). */
-  TValue keyv;		/* Runtime value of key. */
-  TValue valv;		/* Runtime value of stored value. */
-  TValue mobjv;		/* Runtime value of metamethod object. */
-  GCtab *mtv;		/* Runtime value of metatable object. */
-  cTValue *oldv;	/* Runtime value of previously stored value. */
-  TRef tab;		/* Table (or indexed object) reference. */
-  TRef key;		/* Key reference. */
-  TRef val;		/* Value reference for a store or 0 for a load. */
-  TRef mt;		/* Metatable reference. */
-  TRef mobj;		/* Metamethod object reference. */
-  int idxchain;		/* Index indirections left or 0 for raw lookup. */
-} RecordIndex;
-
-LJ_FUNC int lj_record_objcmp(jit_State *J, TRef a, TRef b,
-			     cTValue *av, cTValue *bv);
-LJ_FUNC TRef lj_record_constify(jit_State *J, cTValue *o);
-
-LJ_FUNC void lj_record_call(jit_State *J, BCReg func, ptrdiff_t nargs);
-LJ_FUNC void lj_record_tailcall(jit_State *J, BCReg func, ptrdiff_t nargs);
-LJ_FUNC void lj_record_ret(jit_State *J, BCReg rbase, ptrdiff_t gotresults);
-
-LJ_FUNC int lj_record_mm_lookup(jit_State *J, RecordIndex *ix, MMS mm);
-LJ_FUNC TRef lj_record_idx(jit_State *J, RecordIndex *ix);
-
-LJ_FUNC void lj_record_ins(jit_State *J);
-LJ_FUNC void lj_record_setup(jit_State *J);
-#endif
-
-#endif
diff --git a/luajit-2.0/src/lj_snap.c b/luajit-2.0/src/lj_snap.c
deleted file mode 100644
index 803533c..0000000
--- a/luajit-2.0/src/lj_snap.c
+++ /dev/null
@@ -1,866 +0,0 @@
-/*
-** Snapshot handling.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#define lj_snap_c
-#define LUA_CORE
-
-#include "lj_obj.h"
-
-#if LJ_HASJIT
-
-#include "lj_gc.h"
-#include "lj_tab.h"
-#include "lj_state.h"
-#include "lj_frame.h"
-#include "lj_bc.h"
-#include "lj_ir.h"
-#include "lj_jit.h"
-#include "lj_iropt.h"
-#include "lj_trace.h"
-#include "lj_snap.h"
-#include "lj_target.h"
-#if LJ_HASFFI
-#include "lj_ctype.h"
-#include "lj_cdata.h"
-#endif
-
-/* Some local macros to save typing. Undef'd at the end. */
-#define IR(ref)		(&J->cur.ir[(ref)])
-
-/* Pass IR on to next optimization in chain (FOLD). */
-#define emitir(ot, a, b)	(lj_ir_set(J, (ot), (a), (b)), lj_opt_fold(J))
-
-/* Emit raw IR without passing through optimizations. */
-#define emitir_raw(ot, a, b)	(lj_ir_set(J, (ot), (a), (b)), lj_ir_emit(J))
-
-/* -- Snapshot buffer allocation ------------------------------------------ */
-
-/* Grow snapshot buffer. */
-void lj_snap_grow_buf_(jit_State *J, MSize need)
-{
-  MSize maxsnap = (MSize)J->param[JIT_P_maxsnap];
-  if (need > maxsnap)
-    lj_trace_err(J, LJ_TRERR_SNAPOV);
-  lj_mem_growvec(J->L, J->snapbuf, J->sizesnap, maxsnap, SnapShot);
-  J->cur.snap = J->snapbuf;
-}
-
-/* Grow snapshot map buffer. */
-void lj_snap_grow_map_(jit_State *J, MSize need)
-{
-  if (need < 2*J->sizesnapmap)
-    need = 2*J->sizesnapmap;
-  else if (need < 64)
-    need = 64;
-  J->snapmapbuf = (SnapEntry *)lj_mem_realloc(J->L, J->snapmapbuf,
-		    J->sizesnapmap*sizeof(SnapEntry), need*sizeof(SnapEntry));
-  J->cur.snapmap = J->snapmapbuf;
-  J->sizesnapmap = need;
-}
-
-/* -- Snapshot generation ------------------------------------------------- */
-
-/* Add all modified slots to the snapshot. */
-static MSize snapshot_slots(jit_State *J, SnapEntry *map, BCReg nslots)
-{
-  IRRef retf = J->chain[IR_RETF];  /* Limits SLOAD restore elimination. */
-  BCReg s;
-  MSize n = 0;
-  for (s = 0; s < nslots; s++) {
-    TRef tr = J->slot[s];
-    IRRef ref = tref_ref(tr);
-    if (ref) {
-      SnapEntry sn = SNAP_TR(s, tr);
-      IRIns *ir = IR(ref);
-      if (!(sn & (SNAP_CONT|SNAP_FRAME)) &&
-	  ir->o == IR_SLOAD && ir->op1 == s && ref > retf) {
-	/* No need to snapshot unmodified non-inherited slots. */
-	if (!(ir->op2 & IRSLOAD_INHERIT))
-	  continue;
-	/* No need to restore readonly slots and unmodified non-parent slots. */
-	if (!(LJ_DUALNUM && (ir->op2 & IRSLOAD_CONVERT)) &&
-	    (ir->op2 & (IRSLOAD_READONLY|IRSLOAD_PARENT)) != IRSLOAD_PARENT)
-	  sn |= SNAP_NORESTORE;
-      }
-      if (LJ_SOFTFP && irt_isnum(ir->t))
-	sn |= SNAP_SOFTFPNUM;
-      map[n++] = sn;
-    }
-  }
-  return n;
-}
-
-/* Add frame links at the end of the snapshot. */
-static BCReg snapshot_framelinks(jit_State *J, SnapEntry *map)
-{
-  cTValue *frame = J->L->base - 1;
-  cTValue *lim = J->L->base - J->baseslot;
-  cTValue *ftop = frame + funcproto(frame_func(frame))->framesize;
-  MSize f = 0;
-  map[f++] = SNAP_MKPC(J->pc);  /* The current PC is always the first entry. */
-  while (frame > lim) {  /* Backwards traversal of all frames above base. */
-    if (frame_islua(frame)) {
-      map[f++] = SNAP_MKPC(frame_pc(frame));
-      frame = frame_prevl(frame);
-    } else if (frame_iscont(frame)) {
-      map[f++] = SNAP_MKFTSZ(frame_ftsz(frame));
-      map[f++] = SNAP_MKPC(frame_contpc(frame));
-      frame = frame_prevd(frame);
-    } else {
-      lua_assert(!frame_isc(frame));
-      map[f++] = SNAP_MKFTSZ(frame_ftsz(frame));
-      frame = frame_prevd(frame);
-      continue;
-    }
-    if (frame + funcproto(frame_func(frame))->framesize > ftop)
-      ftop = frame + funcproto(frame_func(frame))->framesize;
-  }
-  lua_assert(f == (MSize)(1 + J->framedepth));
-  return (BCReg)(ftop - lim);
-}
-
-/* Take a snapshot of the current stack. */
-static void snapshot_stack(jit_State *J, SnapShot *snap, MSize nsnapmap)
-{
-  BCReg nslots = J->baseslot + J->maxslot;
-  MSize nent;
-  SnapEntry *p;
-  /* Conservative estimate. */
-  lj_snap_grow_map(J, nsnapmap + nslots + (MSize)J->framedepth+1);
-  p = &J->cur.snapmap[nsnapmap];
-  nent = snapshot_slots(J, p, nslots);
-  snap->topslot = (uint8_t)snapshot_framelinks(J, p + nent);
-  snap->mapofs = (uint16_t)nsnapmap;
-  snap->ref = (IRRef1)J->cur.nins;
-  snap->nent = (uint8_t)nent;
-  snap->nslots = (uint8_t)nslots;
-  snap->count = 0;
-  J->cur.nsnapmap = (uint16_t)(nsnapmap + nent + 1 + J->framedepth);
-}
-
-/* Add or merge a snapshot. */
-void lj_snap_add(jit_State *J)
-{
-  MSize nsnap = J->cur.nsnap;
-  MSize nsnapmap = J->cur.nsnapmap;
-  /* Merge if no ins. inbetween or if requested and no guard inbetween. */
-  if (J->mergesnap ? !irt_isguard(J->guardemit) :
-      (nsnap > 0 && J->cur.snap[nsnap-1].ref == J->cur.nins)) {
-    if (nsnap == 1) {  /* But preserve snap #0 PC. */
-      emitir_raw(IRT(IR_NOP, IRT_NIL), 0, 0);
-      goto nomerge;
-    }
-    nsnapmap = J->cur.snap[--nsnap].mapofs;
-  } else {
-  nomerge:
-    lj_snap_grow_buf(J, nsnap+1);
-    J->cur.nsnap = (uint16_t)(nsnap+1);
-  }
-  J->mergesnap = 0;
-  J->guardemit.irt = 0;
-  snapshot_stack(J, &J->cur.snap[nsnap], nsnapmap);
-}
-
-/* -- Snapshot modification ----------------------------------------------- */
-
-#define SNAP_USEDEF_SLOTS	(LJ_MAX_JSLOTS+LJ_STACK_EXTRA)
-
-/* Find unused slots with reaching-definitions bytecode data-flow analysis. */
-static BCReg snap_usedef(jit_State *J, uint8_t *udf,
-			 const BCIns *pc, BCReg maxslot)
-{
-  BCReg s;
-  GCobj *o;
-
-  if (maxslot == 0) return 0;
-#ifdef LUAJIT_USE_VALGRIND
-  /* Avoid errors for harmless reads beyond maxslot. */
-  memset(udf, 1, SNAP_USEDEF_SLOTS);
-#else
-  memset(udf, 1, maxslot);
-#endif
-
-  /* Treat open upvalues as used. */
-  o = gcref(J->L->openupval);
-  while (o) {
-    if (uvval(gco2uv(o)) < J->L->base) break;
-    udf[uvval(gco2uv(o)) - J->L->base] = 0;
-    o = gcref(o->gch.nextgc);
-  }
-
-#define USE_SLOT(s)		udf[(s)] &= ~1
-#define DEF_SLOT(s)		udf[(s)] *= 3
-
-  /* Scan through following bytecode and check for uses/defs. */
-  lua_assert(pc >= proto_bc(J->pt) && pc < proto_bc(J->pt) + J->pt->sizebc);
-  for (;;) {
-    BCIns ins = *pc++;
-    BCOp op = bc_op(ins);
-    switch (bcmode_b(op)) {
-    case BCMvar: USE_SLOT(bc_b(ins)); break;
-    default: break;
-    }
-    switch (bcmode_c(op)) {
-    case BCMvar: USE_SLOT(bc_c(ins)); break;
-    case BCMrbase:
-      lua_assert(op == BC_CAT);
-      for (s = bc_b(ins); s <= bc_c(ins); s++) USE_SLOT(s);
-      for (; s < maxslot; s++) DEF_SLOT(s);
-      break;
-    case BCMjump:
-    handle_jump: {
-      BCReg minslot = bc_a(ins);
-      if (op >= BC_FORI && op <= BC_JFORL) minslot += FORL_EXT;
-      else if (op >= BC_ITERL && op <= BC_JITERL) minslot += bc_b(pc[-2])-1;
-      else if (op == BC_UCLO) { pc += bc_j(ins); break; }
-      for (s = minslot; s < maxslot; s++) DEF_SLOT(s);
-      return minslot < maxslot ? minslot : maxslot;
-      }
-    case BCMlit:
-      if (op == BC_JFORL || op == BC_JITERL || op == BC_JLOOP) {
-	goto handle_jump;
-      } else if (bc_isret(op)) {
-	BCReg top = op == BC_RETM ? maxslot : (bc_a(ins) + bc_d(ins)-1);
-	for (s = 0; s < bc_a(ins); s++) DEF_SLOT(s);
-	for (; s < top; s++) USE_SLOT(s);
-	for (; s < maxslot; s++) DEF_SLOT(s);
-	return 0;
-      }
-      break;
-    case BCMfunc: return maxslot;  /* NYI: will abort, anyway. */
-    default: break;
-    }
-    switch (bcmode_a(op)) {
-    case BCMvar: USE_SLOT(bc_a(ins)); break;
-    case BCMdst:
-       if (!(op == BC_ISTC || op == BC_ISFC)) DEF_SLOT(bc_a(ins));
-       break;
-    case BCMbase:
-      if (op >= BC_CALLM && op <= BC_VARG) {
-	BCReg top = (op == BC_CALLM || op == BC_CALLMT || bc_c(ins) == 0) ?
-		    maxslot : (bc_a(ins) + bc_c(ins));
-	s = bc_a(ins) - ((op == BC_ITERC || op == BC_ITERN) ? 3 : 0);
-	for (; s < top; s++) USE_SLOT(s);
-	for (; s < maxslot; s++) DEF_SLOT(s);
-	if (op == BC_CALLT || op == BC_CALLMT) {
-	  for (s = 0; s < bc_a(ins); s++) DEF_SLOT(s);
-	  return 0;
-	}
-      } else if (op == BC_KNIL) {
-	for (s = bc_a(ins); s <= bc_d(ins); s++) DEF_SLOT(s);
-      } else if (op == BC_TSETM) {
-	for (s = bc_a(ins)-1; s < maxslot; s++) USE_SLOT(s);
-      }
-      break;
-    default: break;
-    }
-    lua_assert(pc >= proto_bc(J->pt) && pc < proto_bc(J->pt) + J->pt->sizebc);
-  }
-
-#undef USE_SLOT
-#undef DEF_SLOT
-
-  return 0;  /* unreachable */
-}
-
-/* Purge dead slots before the next snapshot. */
-void lj_snap_purge(jit_State *J)
-{
-  uint8_t udf[SNAP_USEDEF_SLOTS];
-  BCReg maxslot = J->maxslot;
-  BCReg s = snap_usedef(J, udf, J->pc, maxslot);
-  for (; s < maxslot; s++)
-    if (udf[s] != 0)
-      J->base[s] = 0;  /* Purge dead slots. */
-}
-
-/* Shrink last snapshot. */
-void lj_snap_shrink(jit_State *J)
-{
-  SnapShot *snap = &J->cur.snap[J->cur.nsnap-1];
-  SnapEntry *map = &J->cur.snapmap[snap->mapofs];
-  MSize n, m, nlim, nent = snap->nent;
-  uint8_t udf[SNAP_USEDEF_SLOTS];
-  BCReg maxslot = J->maxslot;
-  BCReg minslot = snap_usedef(J, udf, snap_pc(map[nent]), maxslot);
-  BCReg baseslot = J->baseslot;
-  maxslot += baseslot;
-  minslot += baseslot;
-  snap->nslots = (uint8_t)maxslot;
-  for (n = m = 0; n < nent; n++) {  /* Remove unused slots from snapshot. */
-    BCReg s = snap_slot(map[n]);
-    if (s < minslot || (s < maxslot && udf[s-baseslot] == 0))
-      map[m++] = map[n];  /* Only copy used slots. */
-  }
-  snap->nent = (uint8_t)m;
-  nlim = J->cur.nsnapmap - snap->mapofs - 1;
-  while (n <= nlim) map[m++] = map[n++];  /* Move PC + frame links down. */
-  J->cur.nsnapmap = (uint16_t)(snap->mapofs + m);  /* Free up space in map. */
-}
-
-/* -- Snapshot access ----------------------------------------------------- */
-
-/* Initialize a Bloom Filter with all renamed refs.
-** There are very few renames (often none), so the filter has
-** very few bits set. This makes it suitable for negative filtering.
-*/
-static BloomFilter snap_renamefilter(GCtrace *T, SnapNo lim)
-{
-  BloomFilter rfilt = 0;
-  IRIns *ir;
-  for (ir = &T->ir[T->nins-1]; ir->o == IR_RENAME; ir--)
-    if (ir->op2 <= lim)
-      bloomset(rfilt, ir->op1);
-  return rfilt;
-}
-
-/* Process matching renames to find the original RegSP. */
-static RegSP snap_renameref(GCtrace *T, SnapNo lim, IRRef ref, RegSP rs)
-{
-  IRIns *ir;
-  for (ir = &T->ir[T->nins-1]; ir->o == IR_RENAME; ir--)
-    if (ir->op1 == ref && ir->op2 <= lim)
-      rs = ir->prev;
-  return rs;
-}
-
-/* Copy RegSP from parent snapshot to the parent links of the IR. */
-IRIns *lj_snap_regspmap(GCtrace *T, SnapNo snapno, IRIns *ir)
-{
-  SnapShot *snap = &T->snap[snapno];
-  SnapEntry *map = &T->snapmap[snap->mapofs];
-  BloomFilter rfilt = snap_renamefilter(T, snapno);
-  MSize n = 0;
-  IRRef ref = 0;
-  for ( ; ; ir++) {
-    uint32_t rs;
-    if (ir->o == IR_SLOAD) {
-      if (!(ir->op2 & IRSLOAD_PARENT)) break;
-      for ( ; ; n++) {
-	lua_assert(n < snap->nent);
-	if (snap_slot(map[n]) == ir->op1) {
-	  ref = snap_ref(map[n++]);
-	  break;
-	}
-      }
-    } else if (LJ_SOFTFP && ir->o == IR_HIOP) {
-      ref++;
-    } else if (ir->o == IR_PVAL) {
-      ref = ir->op1 + REF_BIAS;
-    } else {
-      break;
-    }
-    rs = T->ir[ref].prev;
-    if (bloomtest(rfilt, ref))
-      rs = snap_renameref(T, snapno, ref, rs);
-    ir->prev = (uint16_t)rs;
-    lua_assert(regsp_used(rs));
-  }
-  return ir;
-}
-
-/* -- Snapshot replay ----------------------------------------------------- */
-
-/* Replay constant from parent trace. */
-static TRef snap_replay_const(jit_State *J, IRIns *ir)
-{
-  /* Only have to deal with constants that can occur in stack slots. */
-  switch ((IROp)ir->o) {
-  case IR_KPRI: return TREF_PRI(irt_type(ir->t));
-  case IR_KINT: return lj_ir_kint(J, ir->i);
-  case IR_KGC: return lj_ir_kgc(J, ir_kgc(ir), irt_t(ir->t));
-  case IR_KNUM: return lj_ir_k64(J, IR_KNUM, ir_knum(ir));
-  case IR_KINT64: return lj_ir_k64(J, IR_KINT64, ir_kint64(ir));
-  case IR_KPTR: return lj_ir_kptr(J, ir_kptr(ir));  /* Continuation. */
-  default: lua_assert(0); return TREF_NIL; break;
-  }
-}
-
-/* De-duplicate parent reference. */
-static TRef snap_dedup(jit_State *J, SnapEntry *map, MSize nmax, IRRef ref)
-{
-  MSize j;
-  for (j = 0; j < nmax; j++)
-    if (snap_ref(map[j]) == ref)
-      return J->slot[snap_slot(map[j])] & ~(SNAP_CONT|SNAP_FRAME);
-  return 0;
-}
-
-/* Emit parent reference with de-duplication. */
-static TRef snap_pref(jit_State *J, GCtrace *T, SnapEntry *map, MSize nmax,
-		      BloomFilter seen, IRRef ref)
-{
-  IRIns *ir = &T->ir[ref];
-  TRef tr;
-  if (irref_isk(ref))
-    tr = snap_replay_const(J, ir);
-  else if (!regsp_used(ir->prev))
-    tr = 0;
-  else if (!bloomtest(seen, ref) || (tr = snap_dedup(J, map, nmax, ref)) == 0)
-    tr = emitir(IRT(IR_PVAL, irt_type(ir->t)), ref - REF_BIAS, 0);
-  return tr;
-}
-
-/* Check whether a sunk store corresponds to an allocation. Slow path. */
-static int snap_sunk_store2(jit_State *J, IRIns *ira, IRIns *irs)
-{
-  if (irs->o == IR_ASTORE || irs->o == IR_HSTORE ||
-      irs->o == IR_FSTORE || irs->o == IR_XSTORE) {
-    IRIns *irk = IR(irs->op1);
-    if (irk->o == IR_AREF || irk->o == IR_HREFK)
-      irk = IR(irk->op1);
-    return (IR(irk->op1) == ira);
-  }
-  return 0;
-}
-
-/* Check whether a sunk store corresponds to an allocation. Fast path. */
-static LJ_AINLINE int snap_sunk_store(jit_State *J, IRIns *ira, IRIns *irs)
-{
-  if (irs->s != 255)
-    return (ira + irs->s == irs);  /* Fast check. */
-  return snap_sunk_store2(J, ira, irs);
-}
-
-/* Replay snapshot state to setup side trace. */
-void lj_snap_replay(jit_State *J, GCtrace *T)
-{
-  SnapShot *snap = &T->snap[J->exitno];
-  SnapEntry *map = &T->snapmap[snap->mapofs];
-  MSize n, nent = snap->nent;
-  BloomFilter seen = 0;
-  int pass23 = 0;
-  J->framedepth = 0;
-  /* Emit IR for slots inherited from parent snapshot. */
-  for (n = 0; n < nent; n++) {
-    SnapEntry sn = map[n];
-    BCReg s = snap_slot(sn);
-    IRRef ref = snap_ref(sn);
-    IRIns *ir = &T->ir[ref];
-    TRef tr;
-    /* The bloom filter avoids O(nent^2) overhead for de-duping slots. */
-    if (bloomtest(seen, ref) && (tr = snap_dedup(J, map, n, ref)) != 0)
-      goto setslot;
-    bloomset(seen, ref);
-    if (irref_isk(ref)) {
-      tr = snap_replay_const(J, ir);
-    } else if (!regsp_used(ir->prev)) {
-      pass23 = 1;
-      lua_assert(s != 0);
-      tr = s;
-    } else {
-      IRType t = irt_type(ir->t);
-      uint32_t mode = IRSLOAD_INHERIT|IRSLOAD_PARENT;
-      if (LJ_SOFTFP && (sn & SNAP_SOFTFPNUM)) t = IRT_NUM;
-      if (ir->o == IR_SLOAD) mode |= (ir->op2 & IRSLOAD_READONLY);
-      tr = emitir_raw(IRT(IR_SLOAD, t), s, mode);
-    }
-  setslot:
-    J->slot[s] = tr | (sn&(SNAP_CONT|SNAP_FRAME));  /* Same as TREF_* flags. */
-    J->framedepth += ((sn & (SNAP_CONT|SNAP_FRAME)) && s);
-    if ((sn & SNAP_FRAME))
-      J->baseslot = s+1;
-  }
-  if (pass23) {
-    IRIns *irlast = &T->ir[snap->ref];
-    pass23 = 0;
-    /* Emit dependent PVALs. */
-    for (n = 0; n < nent; n++) {
-      SnapEntry sn = map[n];
-      IRRef refp = snap_ref(sn);
-      IRIns *ir = &T->ir[refp];
-      if (regsp_reg(ir->r) == RID_SUNK) {
-	if (J->slot[snap_slot(sn)] != snap_slot(sn)) continue;
-	pass23 = 1;
-	lua_assert(ir->o == IR_TNEW || ir->o == IR_TDUP ||
-		   ir->o == IR_CNEW || ir->o == IR_CNEWI);
-	if (ir->op1 >= T->nk) snap_pref(J, T, map, nent, seen, ir->op1);
-	if (ir->op2 >= T->nk) snap_pref(J, T, map, nent, seen, ir->op2);
-	if (LJ_HASFFI && ir->o == IR_CNEWI) {
-	  if (LJ_32 && refp+1 < T->nins && (ir+1)->o == IR_HIOP)
-	    snap_pref(J, T, map, nent, seen, (ir+1)->op2);
-	} else {
-	  IRIns *irs;
-	  for (irs = ir+1; irs < irlast; irs++)
-	    if (irs->r == RID_SINK && snap_sunk_store(J, ir, irs)) {
-	      if (snap_pref(J, T, map, nent, seen, irs->op2) == 0)
-		snap_pref(J, T, map, nent, seen, T->ir[irs->op2].op1);
-	      else if ((LJ_SOFTFP || (LJ_32 && LJ_HASFFI)) &&
-		       irs+1 < irlast && (irs+1)->o == IR_HIOP)
-		snap_pref(J, T, map, nent, seen, (irs+1)->op2);
-	    }
-	}
-      } else if (!irref_isk(refp) && !regsp_used(ir->prev)) {
-	lua_assert(ir->o == IR_CONV && ir->op2 == IRCONV_NUM_INT);
-	J->slot[snap_slot(sn)] = snap_pref(J, T, map, nent, seen, ir->op1);
-      }
-    }
-    /* Replay sunk instructions. */
-    for (n = 0; pass23 && n < nent; n++) {
-      SnapEntry sn = map[n];
-      IRRef refp = snap_ref(sn);
-      IRIns *ir = &T->ir[refp];
-      if (regsp_reg(ir->r) == RID_SUNK) {
-	TRef op1, op2;
-	if (J->slot[snap_slot(sn)] != snap_slot(sn)) {  /* De-dup allocs. */
-	  J->slot[snap_slot(sn)] = J->slot[J->slot[snap_slot(sn)]];
-	  continue;
-	}
-	op1 = ir->op1;
-	if (op1 >= T->nk) op1 = snap_pref(J, T, map, nent, seen, op1);
-	op2 = ir->op2;
-	if (op2 >= T->nk) op2 = snap_pref(J, T, map, nent, seen, op2);
-	if (LJ_HASFFI && ir->o == IR_CNEWI) {
-	  if (LJ_32 && refp+1 < T->nins && (ir+1)->o == IR_HIOP) {
-	    lj_needsplit(J);  /* Emit joining HIOP. */
-	    op2 = emitir_raw(IRT(IR_HIOP, IRT_I64), op2,
-			     snap_pref(J, T, map, nent, seen, (ir+1)->op2));
-	  }
-	  J->slot[snap_slot(sn)] = emitir(ir->ot, op1, op2);
-	} else {
-	  IRIns *irs;
-	  TRef tr = emitir(ir->ot, op1, op2);
-	  J->slot[snap_slot(sn)] = tr;
-	  for (irs = ir+1; irs < irlast; irs++)
-	    if (irs->r == RID_SINK && snap_sunk_store(J, ir, irs)) {
-	      IRIns *irr = &T->ir[irs->op1];
-	      TRef val, key = irr->op2, tmp = tr;
-	      if (irr->o != IR_FREF) {
-		IRIns *irk = &T->ir[key];
-		if (irr->o == IR_HREFK)
-		  key = lj_ir_kslot(J, snap_replay_const(J, &T->ir[irk->op1]),
-				    irk->op2);
-		else
-		  key = snap_replay_const(J, irk);
-		if (irr->o == IR_HREFK || irr->o == IR_AREF) {
-		  IRIns *irf = &T->ir[irr->op1];
-		  tmp = emitir(irf->ot, tmp, irf->op2);
-		}
-	      }
-	      tmp = emitir(irr->ot, tmp, key);
-	      val = snap_pref(J, T, map, nent, seen, irs->op2);
-	      if (val == 0) {
-		IRIns *irc = &T->ir[irs->op2];
-		lua_assert(irc->o == IR_CONV && irc->op2 == IRCONV_NUM_INT);
-		val = snap_pref(J, T, map, nent, seen, irc->op1);
-		val = emitir(IRTN(IR_CONV), val, IRCONV_NUM_INT);
-	      } else if ((LJ_SOFTFP || (LJ_32 && LJ_HASFFI)) &&
-			 irs+1 < irlast && (irs+1)->o == IR_HIOP) {
-		IRType t = IRT_I64;
-		if (LJ_SOFTFP && irt_type((irs+1)->t) == IRT_SOFTFP)
-		  t = IRT_NUM;
-		lj_needsplit(J);
-		if (irref_isk(irs->op2) && irref_isk((irs+1)->op2)) {
-		  uint64_t k = (uint32_t)T->ir[irs->op2].i +
-			       ((uint64_t)T->ir[(irs+1)->op2].i << 32);
-		  val = lj_ir_k64(J, t == IRT_I64 ? IR_KINT64 : IR_KNUM,
-				  lj_ir_k64_find(J, k));
-		} else {
-		  val = emitir_raw(IRT(IR_HIOP, t), val,
-			  snap_pref(J, T, map, nent, seen, (irs+1)->op2));
-		}
-		tmp = emitir(IRT(irs->o, t), tmp, val);
-		continue;
-	      }
-	      tmp = emitir(irs->ot, tmp, val);
-	    } else if (LJ_HASFFI && irs->o == IR_XBAR && ir->o == IR_CNEW) {
-	      emitir(IRT(IR_XBAR, IRT_NIL), 0, 0);
-	    }
-	}
-      }
-    }
-  }
-  J->base = J->slot + J->baseslot;
-  J->maxslot = snap->nslots - J->baseslot;
-  lj_snap_add(J);
-  if (pass23)  /* Need explicit GC step _after_ initial snapshot. */
-    emitir_raw(IRTG(IR_GCSTEP, IRT_NIL), 0, 0);
-}
-
-/* -- Snapshot restore ---------------------------------------------------- */
-
-static void snap_unsink(jit_State *J, GCtrace *T, ExitState *ex,
-			SnapNo snapno, BloomFilter rfilt,
-			IRIns *ir, TValue *o);
-
-/* Restore a value from the trace exit state. */
-static void snap_restoreval(jit_State *J, GCtrace *T, ExitState *ex,
-			    SnapNo snapno, BloomFilter rfilt,
-			    IRRef ref, TValue *o)
-{
-  IRIns *ir = &T->ir[ref];
-  IRType1 t = ir->t;
-  RegSP rs = ir->prev;
-  if (irref_isk(ref)) {  /* Restore constant slot. */
-    lj_ir_kvalue(J->L, o, ir);
-    return;
-  }
-  if (LJ_UNLIKELY(bloomtest(rfilt, ref)))
-    rs = snap_renameref(T, snapno, ref, rs);
-  if (ra_hasspill(regsp_spill(rs))) {  /* Restore from spill slot. */
-    int32_t *sps = &ex->spill[regsp_spill(rs)];
-    if (irt_isinteger(t)) {
-      setintV(o, *sps);
-#if !LJ_SOFTFP
-    } else if (irt_isnum(t)) {
-      o->u64 = *(uint64_t *)sps;
-#endif
-    } else if (LJ_64 && irt_islightud(t)) {
-      /* 64 bit lightuserdata which may escape already has the tag bits. */
-      o->u64 = *(uint64_t *)sps;
-    } else {
-      lua_assert(!irt_ispri(t));  /* PRI refs never have a spill slot. */
-      setgcrefi(o->gcr, *sps);
-      setitype(o, irt_toitype(t));
-    }
-  } else {  /* Restore from register. */
-    Reg r = regsp_reg(rs);
-    if (ra_noreg(r)) {
-      lua_assert(ir->o == IR_CONV && ir->op2 == IRCONV_NUM_INT);
-      snap_restoreval(J, T, ex, snapno, rfilt, ir->op1, o);
-      if (LJ_DUALNUM) setnumV(o, (lua_Number)intV(o));
-      return;
-    } else if (irt_isinteger(t)) {
-      setintV(o, (int32_t)ex->gpr[r-RID_MIN_GPR]);
-#if !LJ_SOFTFP
-    } else if (irt_isnum(t)) {
-      setnumV(o, ex->fpr[r-RID_MIN_FPR]);
-#endif
-    } else if (LJ_64 && irt_islightud(t)) {
-      /* 64 bit lightuserdata which may escape already has the tag bits. */
-      o->u64 = ex->gpr[r-RID_MIN_GPR];
-    } else {
-      if (!irt_ispri(t))
-	setgcrefi(o->gcr, ex->gpr[r-RID_MIN_GPR]);
-      setitype(o, irt_toitype(t));
-    }
-  }
-}
-
-#if LJ_HASFFI
-/* Restore raw data from the trace exit state. */
-static void snap_restoredata(GCtrace *T, ExitState *ex,
-			     SnapNo snapno, BloomFilter rfilt,
-			     IRRef ref, void *dst, CTSize sz)
-{
-  IRIns *ir = &T->ir[ref];
-  RegSP rs = ir->prev;
-  int32_t *src;
-  uint64_t tmp;
-  if (irref_isk(ref)) {
-    if (ir->o == IR_KNUM || ir->o == IR_KINT64) {
-      src = mref(ir->ptr, int32_t);
-    } else if (sz == 8) {
-      tmp = (uint64_t)(uint32_t)ir->i;
-      src = (int32_t *)&tmp;
-    } else {
-      src = &ir->i;
-    }
-  } else {
-    if (LJ_UNLIKELY(bloomtest(rfilt, ref)))
-      rs = snap_renameref(T, snapno, ref, rs);
-    if (ra_hasspill(regsp_spill(rs))) {
-      src = &ex->spill[regsp_spill(rs)];
-      if (sz == 8 && !irt_is64(ir->t)) {
-	tmp = (uint64_t)(uint32_t)*src;
-	src = (int32_t *)&tmp;
-      }
-    } else {
-      Reg r = regsp_reg(rs);
-      if (ra_noreg(r)) {
-	/* Note: this assumes CNEWI is never used for SOFTFP split numbers. */
-	lua_assert(sz == 8 && ir->o == IR_CONV && ir->op2 == IRCONV_NUM_INT);
-	snap_restoredata(T, ex, snapno, rfilt, ir->op1, dst, 4);
-	*(lua_Number *)dst = (lua_Number)*(int32_t *)dst;
-	return;
-      }
-      src = (int32_t *)&ex->gpr[r-RID_MIN_GPR];
-#if !LJ_SOFTFP
-      if (r >= RID_MAX_GPR) {
-	src = (int32_t *)&ex->fpr[r-RID_MIN_FPR];
-#if LJ_TARGET_PPC
-	if (sz == 4) {  /* PPC FPRs are always doubles. */
-	  *(float *)dst = (float)*(double *)src;
-	  return;
-	}
-#else
-	if (LJ_BE && sz == 4) src++;
-#endif
-      }
-#endif
-    }
-  }
-  lua_assert(sz == 1 || sz == 2 || sz == 4 || sz == 8);
-  if (sz == 4) *(int32_t *)dst = *src;
-  else if (sz == 8) *(int64_t *)dst = *(int64_t *)src;
-  else if (sz == 1) *(int8_t *)dst = (int8_t)*src;
-  else *(int16_t *)dst = (int16_t)*src;
-}
-#endif
-
-/* Unsink allocation from the trace exit state. Unsink sunk stores. */
-static void snap_unsink(jit_State *J, GCtrace *T, ExitState *ex,
-			SnapNo snapno, BloomFilter rfilt,
-			IRIns *ir, TValue *o)
-{
-  lua_assert(ir->o == IR_TNEW || ir->o == IR_TDUP ||
-	     ir->o == IR_CNEW || ir->o == IR_CNEWI);
-#if LJ_HASFFI
-  if (ir->o == IR_CNEW || ir->o == IR_CNEWI) {
-    CTState *cts = ctype_cts(J->L);
-    CTypeID id = (CTypeID)T->ir[ir->op1].i;
-    CTSize sz = lj_ctype_size(cts, id);
-    GCcdata *cd = lj_cdata_new(cts, id, sz);
-    setcdataV(J->L, o, cd);
-    if (ir->o == IR_CNEWI) {
-      uint8_t *p = (uint8_t *)cdataptr(cd);
-      lua_assert(sz == 4 || sz == 8);
-      if (LJ_32 && sz == 8 && ir+1 < T->ir + T->nins && (ir+1)->o == IR_HIOP) {
-	snap_restoredata(T, ex, snapno, rfilt, (ir+1)->op2, LJ_LE?p+4:p, 4);
-	if (LJ_BE) p += 4;
-	sz = 4;
-      }
-      snap_restoredata(T, ex, snapno, rfilt, ir->op2, p, sz);
-    } else {
-      IRIns *irs, *irlast = &T->ir[T->snap[snapno].ref];
-      for (irs = ir+1; irs < irlast; irs++)
-	if (irs->r == RID_SINK && snap_sunk_store(J, ir, irs)) {
-	  IRIns *iro = &T->ir[T->ir[irs->op1].op2];
-	  uint8_t *p = (uint8_t *)cd;
-	  CTSize szs;
-	  lua_assert(irs->o == IR_XSTORE && T->ir[irs->op1].o == IR_ADD);
-	  lua_assert(iro->o == IR_KINT || iro->o == IR_KINT64);
-	  if (irt_is64(irs->t)) szs = 8;
-	  else if (irt_isi8(irs->t) || irt_isu8(irs->t)) szs = 1;
-	  else if (irt_isi16(irs->t) || irt_isu16(irs->t)) szs = 2;
-	  else szs = 4;
-	  if (LJ_64 && iro->o == IR_KINT64)
-	    p += (int64_t)ir_k64(iro)->u64;
-	  else
-	    p += iro->i;
-	  lua_assert(p >= (uint8_t *)cdataptr(cd) &&
-		     p + szs <= (uint8_t *)cdataptr(cd) + sz);
-	  if (LJ_32 && irs+1 < T->ir + T->nins && (irs+1)->o == IR_HIOP) {
-	    lua_assert(szs == 4);
-	    snap_restoredata(T, ex, snapno, rfilt, (irs+1)->op2, LJ_LE?p+4:p,4);
-	    if (LJ_BE) p += 4;
-	  }
-	  snap_restoredata(T, ex, snapno, rfilt, irs->op2, p, szs);
-	}
-    }
-  } else
-#endif
-  {
-    IRIns *irs, *irlast;
-    GCtab *t = ir->o == IR_TNEW ? lj_tab_new(J->L, ir->op1, ir->op2) :
-				  lj_tab_dup(J->L, ir_ktab(&T->ir[ir->op1]));
-    settabV(J->L, o, t);
-    irlast = &T->ir[T->snap[snapno].ref];
-    for (irs = ir+1; irs < irlast; irs++)
-      if (irs->r == RID_SINK && snap_sunk_store(J, ir, irs)) {
-	IRIns *irk = &T->ir[irs->op1];
-	TValue tmp, *val;
-	lua_assert(irs->o == IR_ASTORE || irs->o == IR_HSTORE ||
-		   irs->o == IR_FSTORE);
-	if (irk->o == IR_FREF) {
-	  lua_assert(irk->op2 == IRFL_TAB_META);
-	  snap_restoreval(J, T, ex, snapno, rfilt, irs->op2, &tmp);
-	  /* NOBARRIER: The table is new (marked white). */
-	  setgcref(t->metatable, obj2gco(tabV(&tmp)));
-	} else {
-	  irk = &T->ir[irk->op2];
-	  if (irk->o == IR_KSLOT) irk = &T->ir[irk->op1];
-	  lj_ir_kvalue(J->L, &tmp, irk);
-	  val = lj_tab_set(J->L, t, &tmp);
-	  /* NOBARRIER: The table is new (marked white). */
-	  snap_restoreval(J, T, ex, snapno, rfilt, irs->op2, val);
-	  if (LJ_SOFTFP && irs+1 < T->ir + T->nins && (irs+1)->o == IR_HIOP) {
-	    snap_restoreval(J, T, ex, snapno, rfilt, (irs+1)->op2, &tmp);
-	    val->u32.hi = tmp.u32.lo;
-	  }
-	}
-      }
-  }
-}
-
-/* Restore interpreter state from exit state with the help of a snapshot. */
-const BCIns *lj_snap_restore(jit_State *J, void *exptr)
-{
-  ExitState *ex = (ExitState *)exptr;
-  SnapNo snapno = J->exitno;  /* For now, snapno == exitno. */
-  GCtrace *T = traceref(J, J->parent);
-  SnapShot *snap = &T->snap[snapno];
-  MSize n, nent = snap->nent;
-  SnapEntry *map = &T->snapmap[snap->mapofs];
-  SnapEntry *flinks = &T->snapmap[snap_nextofs(T, snap)-1];
-  int32_t ftsz0;
-  TValue *frame;
-  BloomFilter rfilt = snap_renamefilter(T, snapno);
-  const BCIns *pc = snap_pc(map[nent]);
-  lua_State *L = J->L;
-
-  /* Set interpreter PC to the next PC to get correct error messages. */
-  setcframe_pc(cframe_raw(L->cframe), pc+1);
-
-  /* Make sure the stack is big enough for the slots from the snapshot. */
-  if (LJ_UNLIKELY(L->base + snap->topslot >= tvref(L->maxstack))) {
-    L->top = curr_topL(L);
-    lj_state_growstack(L, snap->topslot - curr_proto(L)->framesize);
-  }
-
-  /* Fill stack slots with data from the registers and spill slots. */
-  frame = L->base-1;
-  ftsz0 = frame_ftsz(frame);  /* Preserve link to previous frame in slot #0. */
-  for (n = 0; n < nent; n++) {
-    SnapEntry sn = map[n];
-    if (!(sn & SNAP_NORESTORE)) {
-      TValue *o = &frame[snap_slot(sn)];
-      IRRef ref = snap_ref(sn);
-      IRIns *ir = &T->ir[ref];
-      if (ir->r == RID_SUNK) {
-	MSize j;
-	for (j = 0; j < n; j++)
-	  if (snap_ref(map[j]) == ref) {  /* De-duplicate sunk allocations. */
-	    copyTV(L, o, &frame[snap_slot(map[j])]);
-	    goto dupslot;
-	  }
-	snap_unsink(J, T, ex, snapno, rfilt, ir, o);
-      dupslot:
-	continue;
-      }
-      snap_restoreval(J, T, ex, snapno, rfilt, ref, o);
-      if (LJ_SOFTFP && (sn & SNAP_SOFTFPNUM) && tvisint(o)) {
-	TValue tmp;
-	snap_restoreval(J, T, ex, snapno, rfilt, ref+1, &tmp);
-	o->u32.hi = tmp.u32.lo;
-      } else if ((sn & (SNAP_CONT|SNAP_FRAME))) {
-	/* Overwrite tag with frame link. */
-	o->fr.tp.ftsz = snap_slot(sn) != 0 ? (int32_t)*flinks-- : ftsz0;
-	L->base = o+1;
-      }
-    }
-  }
-  lua_assert(map + nent == flinks);
-
-  /* Compute current stack top. */
-  switch (bc_op(*pc)) {
-  default:
-    if (bc_op(*pc) < BC_FUNCF) {
-      L->top = curr_topL(L);
-      break;
-    }
-    /* fallthrough */
-  case BC_CALLM: case BC_CALLMT: case BC_RETM: case BC_TSETM:
-    L->top = frame + snap->nslots;
-    break;
-  }
-  return pc;
-}
-
-#undef IR
-#undef emitir_raw
-#undef emitir
-
-#endif
diff --git a/luajit-2.0/src/lj_snap.h b/luajit-2.0/src/lj_snap.h
deleted file mode 100644
index 1b2d74d..0000000
--- a/luajit-2.0/src/lj_snap.h
+++ /dev/null
@@ -1,34 +0,0 @@
-/*
-** Snapshot handling.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#ifndef _LJ_SNAP_H
-#define _LJ_SNAP_H
-
-#include "lj_obj.h"
-#include "lj_jit.h"
-
-#if LJ_HASJIT
-LJ_FUNC void lj_snap_add(jit_State *J);
-LJ_FUNC void lj_snap_purge(jit_State *J);
-LJ_FUNC void lj_snap_shrink(jit_State *J);
-LJ_FUNC IRIns *lj_snap_regspmap(GCtrace *T, SnapNo snapno, IRIns *ir);
-LJ_FUNC void lj_snap_replay(jit_State *J, GCtrace *T);
-LJ_FUNC const BCIns *lj_snap_restore(jit_State *J, void *exptr);
-LJ_FUNC void lj_snap_grow_buf_(jit_State *J, MSize need);
-LJ_FUNC void lj_snap_grow_map_(jit_State *J, MSize need);
-
-static LJ_AINLINE void lj_snap_grow_buf(jit_State *J, MSize need)
-{
-  if (LJ_UNLIKELY(need > J->sizesnap)) lj_snap_grow_buf_(J, need);
-}
-
-static LJ_AINLINE void lj_snap_grow_map(jit_State *J, MSize need)
-{
-  if (LJ_UNLIKELY(need > J->sizesnapmap)) lj_snap_grow_map_(J, need);
-}
-
-#endif
-
-#endif
diff --git a/luajit-2.0/src/lj_state.c b/luajit-2.0/src/lj_state.c
deleted file mode 100644
index b9eaef4..0000000
--- a/luajit-2.0/src/lj_state.c
+++ /dev/null
@@ -1,287 +0,0 @@
-/*
-** State and stack handling.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-**
-** Portions taken verbatim or adapted from the Lua interpreter.
-** Copyright (C) 1994-2008 Lua.org, PUC-Rio. See Copyright Notice in lua.h
-*/
-
-#define lj_state_c
-#define LUA_CORE
-
-#include "lj_obj.h"
-#include "lj_gc.h"
-#include "lj_err.h"
-#include "lj_str.h"
-#include "lj_tab.h"
-#include "lj_func.h"
-#include "lj_meta.h"
-#include "lj_state.h"
-#include "lj_frame.h"
-#if LJ_HASFFI
-#include "lj_ctype.h"
-#endif
-#include "lj_trace.h"
-#include "lj_dispatch.h"
-#include "lj_vm.h"
-#include "lj_lex.h"
-#include "lj_alloc.h"
-
-/* -- Stack handling ------------------------------------------------------ */
-
-/* Stack sizes. */
-#define LJ_STACK_MIN	LUA_MINSTACK	/* Min. stack size. */
-#define LJ_STACK_MAX	LUAI_MAXSTACK	/* Max. stack size. */
-#define LJ_STACK_START	(2*LJ_STACK_MIN)	/* Starting stack size. */
-#define LJ_STACK_MAXEX	(LJ_STACK_MAX + 1 + LJ_STACK_EXTRA)
-
-/* Explanation of LJ_STACK_EXTRA:
-**
-** Calls to metamethods store their arguments beyond the current top
-** without checking for the stack limit. This avoids stack resizes which
-** would invalidate passed TValue pointers. The stack check is performed
-** later by the function header. This can safely resize the stack or raise
-** an error. Thus we need some extra slots beyond the current stack limit.
-**
-** Most metamethods need 4 slots above top (cont, mobj, arg1, arg2) plus
-** one extra slot if mobj is not a function. Only lj_meta_tset needs 5
-** slots above top, but then mobj is always a function. So we can get by
-** with 5 extra slots.
-*/
-
-/* Resize stack slots and adjust pointers in state. */
-static void resizestack(lua_State *L, MSize n)
-{
-  TValue *st, *oldst = tvref(L->stack);
-  ptrdiff_t delta;
-  MSize oldsize = L->stacksize;
-  MSize realsize = n + 1 + LJ_STACK_EXTRA;
-  GCobj *up;
-  lua_assert((MSize)(tvref(L->maxstack)-oldst)==L->stacksize-LJ_STACK_EXTRA-1);
-  st = (TValue *)lj_mem_realloc(L, tvref(L->stack),
-				(MSize)(L->stacksize*sizeof(TValue)),
-				(MSize)(realsize*sizeof(TValue)));
-  setmref(L->stack, st);
-  delta = (char *)st - (char *)oldst;
-  setmref(L->maxstack, st + n);
-  while (oldsize < realsize)  /* Clear new slots. */
-    setnilV(st + oldsize++);
-  L->stacksize = realsize;
-  L->base = (TValue *)((char *)L->base + delta);
-  L->top = (TValue *)((char *)L->top + delta);
-  for (up = gcref(L->openupval); up != NULL; up = gcnext(up))
-    setmref(gco2uv(up)->v, (TValue *)((char *)uvval(gco2uv(up)) + delta));
-  if (obj2gco(L) == gcref(G(L)->jit_L))
-    setmref(G(L)->jit_base, mref(G(L)->jit_base, char) + delta);
-}
-
-/* Relimit stack after error, in case the limit was overdrawn. */
-void lj_state_relimitstack(lua_State *L)
-{
-  if (L->stacksize > LJ_STACK_MAXEX && L->top-tvref(L->stack) < LJ_STACK_MAX-1)
-    resizestack(L, LJ_STACK_MAX);
-}
-
-/* Try to shrink the stack (called from GC). */
-void lj_state_shrinkstack(lua_State *L, MSize used)
-{
-  if (L->stacksize > LJ_STACK_MAXEX)
-    return;  /* Avoid stack shrinking while handling stack overflow. */
-  if (4*used < L->stacksize &&
-      2*(LJ_STACK_START+LJ_STACK_EXTRA) < L->stacksize &&
-      obj2gco(L) != gcref(G(L)->jit_L))  /* Don't shrink stack of live trace. */
-    resizestack(L, L->stacksize >> 1);
-}
-
-/* Try to grow stack. */
-void LJ_FASTCALL lj_state_growstack(lua_State *L, MSize need)
-{
-  MSize n;
-  if (L->stacksize > LJ_STACK_MAXEX)  /* Overflow while handling overflow? */
-    lj_err_throw(L, LUA_ERRERR);
-  n = L->stacksize + need;
-  if (n > LJ_STACK_MAX) {
-    n += 2*LUA_MINSTACK;
-  } else if (n < 2*L->stacksize) {
-    n = 2*L->stacksize;
-    if (n >= LJ_STACK_MAX)
-      n = LJ_STACK_MAX;
-  }
-  resizestack(L, n);
-  if (L->stacksize > LJ_STACK_MAXEX)
-    lj_err_msg(L, LJ_ERR_STKOV);
-}
-
-void LJ_FASTCALL lj_state_growstack1(lua_State *L)
-{
-  lj_state_growstack(L, 1);
-}
-
-/* Allocate basic stack for new state. */
-static void stack_init(lua_State *L1, lua_State *L)
-{
-  TValue *stend, *st = lj_mem_newvec(L, LJ_STACK_START+LJ_STACK_EXTRA, TValue);
-  setmref(L1->stack, st);
-  L1->stacksize = LJ_STACK_START + LJ_STACK_EXTRA;
-  stend = st + L1->stacksize;
-  setmref(L1->maxstack, stend - LJ_STACK_EXTRA - 1);
-  L1->base = L1->top = st+1;
-  setthreadV(L1, st, L1);  /* Needed for curr_funcisL() on empty stack. */
-  while (st < stend)  /* Clear new slots. */
-    setnilV(st++);
-}
-
-/* -- State handling ------------------------------------------------------ */
-
-/* Open parts that may cause memory-allocation errors. */
-static TValue *cpluaopen(lua_State *L, lua_CFunction dummy, void *ud)
-{
-  global_State *g = G(L);
-  UNUSED(dummy);
-  UNUSED(ud);
-  stack_init(L, L);
-  /* NOBARRIER: State initialization, all objects are white. */
-  setgcref(L->env, obj2gco(lj_tab_new(L, 0, LJ_MIN_GLOBAL)));
-  settabV(L, registry(L), lj_tab_new(L, 0, LJ_MIN_REGISTRY));
-  lj_str_resize(L, LJ_MIN_STRTAB-1);
-  lj_meta_init(L);
-  lj_lex_init(L);
-  fixstring(lj_err_str(L, LJ_ERR_ERRMEM));  /* Preallocate memory error msg. */
-  g->gc.threshold = 4*g->gc.total;
-  lj_trace_initstate(g);
-  return NULL;
-}
-
-static void close_state(lua_State *L)
-{
-  global_State *g = G(L);
-  lj_func_closeuv(L, tvref(L->stack));
-  lj_gc_freeall(g);
-  lua_assert(gcref(g->gc.root) == obj2gco(L));
-  lua_assert(g->strnum == 0);
-  lj_trace_freestate(g);
-#if LJ_HASFFI
-  lj_ctype_freestate(g);
-#endif
-  lj_mem_freevec(g, g->strhash, g->strmask+1, GCRef);
-  lj_str_freebuf(g, &g->tmpbuf);
-  lj_mem_freevec(g, tvref(L->stack), L->stacksize, TValue);
-  lua_assert(g->gc.total == sizeof(GG_State));
-#ifndef LUAJIT_USE_SYSMALLOC
-  if (g->allocf == lj_alloc_f)
-    lj_alloc_destroy(g->allocd);
-  else
-#endif
-    g->allocf(g->allocd, G2GG(g), sizeof(GG_State), 0);
-}
-
-#if LJ_64 && !(defined(LUAJIT_USE_VALGRIND) && defined(LUAJIT_USE_SYSMALLOC))
-lua_State *lj_state_newstate(lua_Alloc f, void *ud)
-#else
-LUA_API lua_State *lua_newstate(lua_Alloc f, void *ud)
-#endif
-{
-  GG_State *GG = (GG_State *)f(ud, NULL, 0, sizeof(GG_State));
-  lua_State *L = &GG->L;
-  global_State *g = &GG->g;
-  if (GG == NULL || !checkptr32(GG)) return NULL;
-  memset(GG, 0, sizeof(GG_State));
-  L->gct = ~LJ_TTHREAD;
-  L->marked = LJ_GC_WHITE0 | LJ_GC_FIXED | LJ_GC_SFIXED;  /* Prevent free. */
-  L->dummy_ffid = FF_C;
-  setmref(L->glref, g);
-  g->gc.currentwhite = LJ_GC_WHITE0 | LJ_GC_FIXED;
-  g->strempty.marked = LJ_GC_WHITE0;
-  g->strempty.gct = ~LJ_TSTR;
-  g->allocf = f;
-  g->allocd = ud;
-  setgcref(g->mainthref, obj2gco(L));
-  setgcref(g->uvhead.prev, obj2gco(&g->uvhead));
-  setgcref(g->uvhead.next, obj2gco(&g->uvhead));
-  g->strmask = ~(MSize)0;
-  setnilV(registry(L));
-  setnilV(&g->nilnode.val);
-  setnilV(&g->nilnode.key);
-  setmref(g->nilnode.freetop, &g->nilnode);
-  lj_str_initbuf(&g->tmpbuf);
-  g->gc.state = GCSpause;
-  setgcref(g->gc.root, obj2gco(L));
-  setmref(g->gc.sweep, &g->gc.root);
-  g->gc.total = sizeof(GG_State);
-  g->gc.pause = LUAI_GCPAUSE;
-  g->gc.stepmul = LUAI_GCMUL;
-  lj_dispatch_init((GG_State *)L);
-  L->status = LUA_ERRERR+1;  /* Avoid touching the stack upon memory error. */
-  if (lj_vm_cpcall(L, NULL, NULL, cpluaopen) != 0) {
-    /* Memory allocation error: free partial state. */
-    close_state(L);
-    return NULL;
-  }
-  L->status = 0;
-  return L;
-}
-
-static TValue *cpfinalize(lua_State *L, lua_CFunction dummy, void *ud)
-{
-  UNUSED(dummy);
-  UNUSED(ud);
-  lj_gc_finalize_cdata(L);
-  lj_gc_finalize_udata(L);
-  /* Frame pop omitted. */
-  return NULL;
-}
-
-LUA_API void lua_close(lua_State *L)
-{
-  global_State *g = G(L);
-  int i;
-  L = mainthread(g);  /* Only the main thread can be closed. */
-  lj_func_closeuv(L, tvref(L->stack));
-  lj_gc_separateudata(g, 1);  /* Separate udata which have GC metamethods. */
-#if LJ_HASJIT
-  G2J(g)->flags &= ~JIT_F_ON;
-  G2J(g)->state = LJ_TRACE_IDLE;
-  lj_dispatch_update(g);
-#endif
-  for (i = 0;;) {
-    hook_enter(g);
-    L->status = 0;
-    L->cframe = NULL;
-    L->base = L->top = tvref(L->stack) + 1;
-    if (lj_vm_cpcall(L, NULL, NULL, cpfinalize) == 0) {
-      if (++i >= 10) break;
-      lj_gc_separateudata(g, 1);  /* Separate udata again. */
-      if (gcref(g->gc.mmudata) == NULL)  /* Until nothing is left to do. */
-	break;
-    }
-  }
-  close_state(L);
-}
-
-lua_State *lj_state_new(lua_State *L)
-{
-  lua_State *L1 = lj_mem_newobj(L, lua_State);
-  L1->gct = ~LJ_TTHREAD;
-  L1->dummy_ffid = FF_C;
-  L1->status = 0;
-  L1->stacksize = 0;
-  setmref(L1->stack, NULL);
-  L1->cframe = NULL;
-  /* NOBARRIER: The lua_State is new (marked white). */
-  setgcrefnull(L1->openupval);
-  setmrefr(L1->glref, L->glref);
-  setgcrefr(L1->env, L->env);
-  stack_init(L1, L);  /* init stack */
-  lua_assert(iswhite(obj2gco(L1)));
-  return L1;
-}
-
-void LJ_FASTCALL lj_state_free(global_State *g, lua_State *L)
-{
-  lua_assert(L != mainthread(g));
-  lj_func_closeuv(L, tvref(L->stack));
-  lua_assert(gcref(L->openupval) == NULL);
-  lj_mem_freevec(g, tvref(L->stack), L->stacksize, TValue);
-  lj_mem_freet(g, L);
-}
-
diff --git a/luajit-2.0/src/lj_state.h b/luajit-2.0/src/lj_state.h
deleted file mode 100644
index 74249d9..0000000
--- a/luajit-2.0/src/lj_state.h
+++ /dev/null
@@ -1,35 +0,0 @@
-/*
-** State and stack handling.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#ifndef _LJ_STATE_H
-#define _LJ_STATE_H
-
-#include "lj_obj.h"
-
-#define incr_top(L) \
-  (++L->top >= tvref(L->maxstack) && (lj_state_growstack1(L), 0))
-
-#define savestack(L, p)		((char *)(p) - mref(L->stack, char))
-#define restorestack(L, n)	((TValue *)(mref(L->stack, char) + (n)))
-
-LJ_FUNC void lj_state_relimitstack(lua_State *L);
-LJ_FUNC void lj_state_shrinkstack(lua_State *L, MSize used);
-LJ_FUNCA void LJ_FASTCALL lj_state_growstack(lua_State *L, MSize need);
-LJ_FUNC void LJ_FASTCALL lj_state_growstack1(lua_State *L);
-
-static LJ_AINLINE void lj_state_checkstack(lua_State *L, MSize need)
-{
-  if ((mref(L->maxstack, char) - (char *)L->top) <=
-      (ptrdiff_t)need*(ptrdiff_t)sizeof(TValue))
-    lj_state_growstack(L, need);
-}
-
-LJ_FUNC lua_State *lj_state_new(lua_State *L);
-LJ_FUNC void LJ_FASTCALL lj_state_free(global_State *g, lua_State *L);
-#if LJ_64
-LJ_FUNC lua_State *lj_state_newstate(lua_Alloc f, void *ud);
-#endif
-
-#endif
diff --git a/luajit-2.0/src/lj_str.c b/luajit-2.0/src/lj_str.c
deleted file mode 100644
index aead8b5..0000000
--- a/luajit-2.0/src/lj_str.c
+++ /dev/null
@@ -1,339 +0,0 @@
-/*
-** String handling.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-**
-** Portions taken verbatim or adapted from the Lua interpreter.
-** Copyright (C) 1994-2008 Lua.org, PUC-Rio. See Copyright Notice in lua.h
-*/
-
-#include <stdio.h>
-
-#define lj_str_c
-#define LUA_CORE
-
-#include "lj_obj.h"
-#include "lj_gc.h"
-#include "lj_err.h"
-#include "lj_str.h"
-#include "lj_state.h"
-#include "lj_char.h"
-
-/* -- String interning ---------------------------------------------------- */
-
-/* Ordered compare of strings. Assumes string data is 4-byte aligned. */
-int32_t LJ_FASTCALL lj_str_cmp(GCstr *a, GCstr *b)
-{
-  MSize i, n = a->len > b->len ? b->len : a->len;
-  for (i = 0; i < n; i += 4) {
-    /* Note: innocuous access up to end of string + 3. */
-    uint32_t va = *(const uint32_t *)(strdata(a)+i);
-    uint32_t vb = *(const uint32_t *)(strdata(b)+i);
-    if (va != vb) {
-#if LJ_LE
-      va = lj_bswap(va); vb = lj_bswap(vb);
-#endif
-      i -= n;
-      if ((int32_t)i >= -3) {
-	va >>= 32+(i<<3); vb >>= 32+(i<<3);
-	if (va == vb) break;
-      }
-      return va < vb ? -1 : 1;
-    }
-  }
-  return (int32_t)(a->len - b->len);
-}
-
-/* Fast string data comparison. Caveat: unaligned access to 1st string! */
-static LJ_AINLINE int str_fastcmp(const char *a, const char *b, MSize len)
-{
-  MSize i = 0;
-  lua_assert(len > 0);
-  lua_assert((((uintptr_t)a+len-1) & (LJ_PAGESIZE-1)) <= LJ_PAGESIZE-4);
-  do {  /* Note: innocuous access up to end of string + 3. */
-    uint32_t v = lj_getu32(a+i) ^ *(const uint32_t *)(b+i);
-    if (v) {
-      i -= len;
-#if LJ_LE
-      return (int32_t)i >= -3 ? (v << (32+(i<<3))) : 1;
-#else
-      return (int32_t)i >= -3 ? (v >> (32+(i<<3))) : 1;
-#endif
-    }
-    i += 4;
-  } while (i < len);
-  return 0;
-}
-
-/* Resize the string hash table (grow and shrink). */
-void lj_str_resize(lua_State *L, MSize newmask)
-{
-  global_State *g = G(L);
-  GCRef *newhash;
-  MSize i;
-  if (g->gc.state == GCSsweepstring || newmask >= LJ_MAX_STRTAB-1)
-    return;  /* No resizing during GC traversal or if already too big. */
-  newhash = lj_mem_newvec(L, newmask+1, GCRef);
-  memset(newhash, 0, (newmask+1)*sizeof(GCRef));
-  for (i = g->strmask; i != ~(MSize)0; i--) {  /* Rehash old table. */
-    GCobj *p = gcref(g->strhash[i]);
-    while (p) {  /* Follow each hash chain and reinsert all strings. */
-      MSize h = gco2str(p)->hash & newmask;
-      GCobj *next = gcnext(p);
-      /* NOBARRIER: The string table is a GC root. */
-      setgcrefr(p->gch.nextgc, newhash[h]);
-      setgcref(newhash[h], p);
-      p = next;
-    }
-  }
-  lj_mem_freevec(g, g->strhash, g->strmask+1, GCRef);
-  g->strmask = newmask;
-  g->strhash = newhash;
-}
-
-/* Intern a string and return string object. */
-GCstr *lj_str_new(lua_State *L, const char *str, size_t lenx)
-{
-  global_State *g;
-  GCstr *s;
-  GCobj *o;
-  MSize len = (MSize)lenx;
-  MSize a, b, h = len;
-  if (lenx >= LJ_MAX_STR)
-    lj_err_msg(L, LJ_ERR_STROV);
-  g = G(L);
-  /* Compute string hash. Constants taken from lookup3 hash by Bob Jenkins. */
-  if (len >= 4) {  /* Caveat: unaligned access! */
-    a = lj_getu32(str);
-    h ^= lj_getu32(str+len-4);
-    b = lj_getu32(str+(len>>1)-2);
-    h ^= b; h -= lj_rol(b, 14);
-    b += lj_getu32(str+(len>>2)-1);
-  } else if (len > 0) {
-    a = *(const uint8_t *)str;
-    h ^= *(const uint8_t *)(str+len-1);
-    b = *(const uint8_t *)(str+(len>>1));
-    h ^= b; h -= lj_rol(b, 14);
-  } else {
-    return &g->strempty;
-  }
-  a ^= h; a -= lj_rol(h, 11);
-  b ^= a; b -= lj_rol(a, 25);
-  h ^= b; h -= lj_rol(b, 16);
-  /* Check if the string has already been interned. */
-  o = gcref(g->strhash[h & g->strmask]);
-  if (LJ_LIKELY((((uintptr_t)str+len-1) & (LJ_PAGESIZE-1)) <= LJ_PAGESIZE-4)) {
-    while (o != NULL) {
-      GCstr *sx = gco2str(o);
-      if (sx->len == len && str_fastcmp(str, strdata(sx), len) == 0) {
-	/* Resurrect if dead. Can only happen with fixstring() (keywords). */
-	if (isdead(g, o)) flipwhite(o);
-	return sx;  /* Return existing string. */
-      }
-      o = gcnext(o);
-    }
-  } else {  /* Slow path: end of string is too close to a page boundary. */
-    while (o != NULL) {
-      GCstr *sx = gco2str(o);
-      if (sx->len == len && memcmp(str, strdata(sx), len) == 0) {
-	/* Resurrect if dead. Can only happen with fixstring() (keywords). */
-	if (isdead(g, o)) flipwhite(o);
-	return sx;  /* Return existing string. */
-      }
-      o = gcnext(o);
-    }
-  }
-  /* Nope, create a new string. */
-  s = lj_mem_newt(L, sizeof(GCstr)+len+1, GCstr);
-  newwhite(g, s);
-  s->gct = ~LJ_TSTR;
-  s->len = len;
-  s->hash = h;
-  s->reserved = 0;
-  memcpy(strdatawr(s), str, len);
-  strdatawr(s)[len] = '\0';  /* Zero-terminate string. */
-  /* Add it to string hash table. */
-  h &= g->strmask;
-  s->nextgc = g->strhash[h];
-  /* NOBARRIER: The string table is a GC root. */
-  setgcref(g->strhash[h], obj2gco(s));
-  if (g->strnum++ > g->strmask)  /* Allow a 100% load factor. */
-    lj_str_resize(L, (g->strmask<<1)+1);  /* Grow string table. */
-  return s;  /* Return newly interned string. */
-}
-
-void LJ_FASTCALL lj_str_free(global_State *g, GCstr *s)
-{
-  g->strnum--;
-  lj_mem_free(g, s, sizestring(s));
-}
-
-/* -- Type conversions ---------------------------------------------------- */
-
-/* Print number to buffer. Canonicalizes non-finite values. */
-size_t LJ_FASTCALL lj_str_bufnum(char *s, cTValue *o)
-{
-  if (LJ_LIKELY((o->u32.hi << 1) < 0xffe00000)) {  /* Finite? */
-    lua_Number n = o->n;
-#if __BIONIC__
-    if (tvismzero(o)) { s[0] = '-'; s[1] = '0'; return 2; }
-#endif
-    return (size_t)lua_number2str(s, n);
-  } else if (((o->u32.hi & 0x000fffff) | o->u32.lo) != 0) {
-    s[0] = 'n'; s[1] = 'a'; s[2] = 'n'; return 3;
-  } else if ((o->u32.hi & 0x80000000) == 0) {
-    s[0] = 'i'; s[1] = 'n'; s[2] = 'f'; return 3;
-  } else {
-    s[0] = '-'; s[1] = 'i'; s[2] = 'n'; s[3] = 'f'; return 4;
-  }
-}
-
-/* Print integer to buffer. Returns pointer to start. */
-char * LJ_FASTCALL lj_str_bufint(char *p, int32_t k)
-{
-  uint32_t u = (uint32_t)(k < 0 ? -k : k);
-  p += 1+10;
-  do { *--p = (char)('0' + u % 10); } while (u /= 10);
-  if (k < 0) *--p = '-';
-  return p;
-}
-
-/* Convert number to string. */
-GCstr * LJ_FASTCALL lj_str_fromnum(lua_State *L, const lua_Number *np)
-{
-  char buf[LJ_STR_NUMBUF];
-  size_t len = lj_str_bufnum(buf, (TValue *)np);
-  return lj_str_new(L, buf, len);
-}
-
-/* Convert integer to string. */
-GCstr * LJ_FASTCALL lj_str_fromint(lua_State *L, int32_t k)
-{
-  char s[1+10];
-  char *p = lj_str_bufint(s, k);
-  return lj_str_new(L, p, (size_t)(s+sizeof(s)-p));
-}
-
-GCstr * LJ_FASTCALL lj_str_fromnumber(lua_State *L, cTValue *o)
-{
-  return tvisint(o) ? lj_str_fromint(L, intV(o)) : lj_str_fromnum(L, &o->n);
-}
-
-/* -- String formatting --------------------------------------------------- */
-
-static void addstr(lua_State *L, SBuf *sb, const char *str, MSize len)
-{
-  char *p;
-  MSize i;
-  if (sb->n + len > sb->sz) {
-    MSize sz = sb->sz * 2;
-    while (sb->n + len > sz) sz = sz * 2;
-    lj_str_resizebuf(L, sb, sz);
-  }
-  p = sb->buf + sb->n;
-  sb->n += len;
-  for (i = 0; i < len; i++) p[i] = str[i];
-}
-
-static void addchar(lua_State *L, SBuf *sb, int c)
-{
-  if (sb->n + 1 > sb->sz) {
-    MSize sz = sb->sz * 2;
-    lj_str_resizebuf(L, sb, sz);
-  }
-  sb->buf[sb->n++] = (char)c;
-}
-
-/* Push formatted message as a string object to Lua stack. va_list variant. */
-const char *lj_str_pushvf(lua_State *L, const char *fmt, va_list argp)
-{
-  SBuf *sb = &G(L)->tmpbuf;
-  lj_str_needbuf(L, sb, (MSize)strlen(fmt));
-  lj_str_resetbuf(sb);
-  for (;;) {
-    const char *e = strchr(fmt, '%');
-    if (e == NULL) break;
-    addstr(L, sb, fmt, (MSize)(e-fmt));
-    /* This function only handles %s, %c, %d, %f and %p formats. */
-    switch (e[1]) {
-    case 's': {
-      const char *s = va_arg(argp, char *);
-      if (s == NULL) s = "(null)";
-      addstr(L, sb, s, (MSize)strlen(s));
-      break;
-      }
-    case 'c':
-      addchar(L, sb, va_arg(argp, int));
-      break;
-    case 'd': {
-      char buf[LJ_STR_INTBUF];
-      char *p = lj_str_bufint(buf, va_arg(argp, int32_t));
-      addstr(L, sb, p, (MSize)(buf+LJ_STR_INTBUF-p));
-      break;
-      }
-    case 'f': {
-      char buf[LJ_STR_NUMBUF];
-      TValue tv;
-      MSize len;
-      tv.n = (lua_Number)(va_arg(argp, LUAI_UACNUMBER));
-      len = (MSize)lj_str_bufnum(buf, &tv);
-      addstr(L, sb, buf, len);
-      break;
-      }
-    case 'p': {
-#define FMTP_CHARS	(2*sizeof(ptrdiff_t))
-      char buf[2+FMTP_CHARS];
-      ptrdiff_t p = (ptrdiff_t)(va_arg(argp, void *));
-      ptrdiff_t i, lasti = 2+FMTP_CHARS;
-      if (p == 0) {
-	addstr(L, sb, "NULL", 4);
-	break;
-      }
-#if LJ_64
-      /* Shorten output for 64 bit pointers. */
-      lasti = 2+2*4+((p >> 32) ? 2+2*(lj_fls((uint32_t)(p >> 32))>>3) : 0);
-#endif
-      buf[0] = '0';
-      buf[1] = 'x';
-      for (i = lasti-1; i >= 2; i--, p >>= 4)
-	buf[i] = "0123456789abcdef"[(p & 15)];
-      addstr(L, sb, buf, (MSize)lasti);
-      break;
-      }
-    case '%':
-      addchar(L, sb, '%');
-      break;
-    default:
-      addchar(L, sb, '%');
-      addchar(L, sb, e[1]);
-      break;
-    }
-    fmt = e+2;
-  }
-  addstr(L, sb, fmt, (MSize)strlen(fmt));
-  setstrV(L, L->top, lj_str_new(L, sb->buf, sb->n));
-  incr_top(L);
-  return strVdata(L->top - 1);
-}
-
-/* Push formatted message as a string object to Lua stack. Vararg variant. */
-const char *lj_str_pushf(lua_State *L, const char *fmt, ...)
-{
-  const char *msg;
-  va_list argp;
-  va_start(argp, fmt);
-  msg = lj_str_pushvf(L, fmt, argp);
-  va_end(argp);
-  return msg;
-}
-
-/* -- Buffer handling ----------------------------------------------------- */
-
-char *lj_str_needbuf(lua_State *L, SBuf *sb, MSize sz)
-{
-  if (sz > sb->sz) {
-    if (sz < LJ_MIN_SBUF) sz = LJ_MIN_SBUF;
-    lj_str_resizebuf(L, sb, sz);
-  }
-  return sb->buf;
-}
-
diff --git a/luajit-2.0/src/lj_str.h b/luajit-2.0/src/lj_str.h
deleted file mode 100644
index 1602c98..0000000
--- a/luajit-2.0/src/lj_str.h
+++ /dev/null
@@ -1,50 +0,0 @@
-/*
-** String handling.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#ifndef _LJ_STR_H
-#define _LJ_STR_H
-
-#include <stdarg.h>
-
-#include "lj_obj.h"
-
-/* String interning. */
-LJ_FUNC int32_t LJ_FASTCALL lj_str_cmp(GCstr *a, GCstr *b);
-LJ_FUNC void lj_str_resize(lua_State *L, MSize newmask);
-LJ_FUNCA GCstr *lj_str_new(lua_State *L, const char *str, size_t len);
-LJ_FUNC void LJ_FASTCALL lj_str_free(global_State *g, GCstr *s);
-
-#define lj_str_newz(L, s)	(lj_str_new(L, s, strlen(s)))
-#define lj_str_newlit(L, s)	(lj_str_new(L, "" s, sizeof(s)-1))
-
-/* Type conversions. */
-LJ_FUNC size_t LJ_FASTCALL lj_str_bufnum(char *s, cTValue *o);
-LJ_FUNC char * LJ_FASTCALL lj_str_bufint(char *p, int32_t k);
-LJ_FUNCA GCstr * LJ_FASTCALL lj_str_fromnum(lua_State *L, const lua_Number *np);
-LJ_FUNC GCstr * LJ_FASTCALL lj_str_fromint(lua_State *L, int32_t k);
-LJ_FUNCA GCstr * LJ_FASTCALL lj_str_fromnumber(lua_State *L, cTValue *o);
-
-#define LJ_STR_INTBUF		(1+10)
-#define LJ_STR_NUMBUF		LUAI_MAXNUMBER2STR
-
-/* String formatting. */
-LJ_FUNC const char *lj_str_pushvf(lua_State *L, const char *fmt, va_list argp);
-LJ_FUNC const char *lj_str_pushf(lua_State *L, const char *fmt, ...)
-#if defined(__GNUC__)
-  __attribute__ ((format (printf, 2, 3)))
-#endif
-  ;
-
-/* Resizable string buffers. Struct definition in lj_obj.h. */
-LJ_FUNC char *lj_str_needbuf(lua_State *L, SBuf *sb, MSize sz);
-
-#define lj_str_initbuf(sb)	((sb)->buf = NULL, (sb)->sz = 0)
-#define lj_str_resetbuf(sb)	((sb)->n = 0)
-#define lj_str_resizebuf(L, sb, size) \
-  ((sb)->buf = (char *)lj_mem_realloc(L, (sb)->buf, (sb)->sz, (size)), \
-   (sb)->sz = (size))
-#define lj_str_freebuf(g, sb)	lj_mem_free(g, (void *)(sb)->buf, (sb)->sz)
-
-#endif
diff --git a/luajit-2.0/src/lj_strscan.c b/luajit-2.0/src/lj_strscan.c
deleted file mode 100644
index a21c414..0000000
--- a/luajit-2.0/src/lj_strscan.c
+++ /dev/null
@@ -1,497 +0,0 @@
-/*
-** String scanning.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#include <math.h>
-
-#define lj_strscan_c
-#define LUA_CORE
-
-#include "lj_obj.h"
-#include "lj_char.h"
-#include "lj_strscan.h"
-
-/* -- Scanning numbers ---------------------------------------------------- */
-
-/*
-** Rationale for the builtin string to number conversion library:
-**
-** It removes a dependency on libc's strtod(), which is a true portability
-** nightmare. Mainly due to the plethora of supported OS and toolchain
-** combinations. Sadly, the various implementations
-** a) are often buggy, incomplete (no hex floats) and/or imprecise,
-** b) sometimes crash or hang on certain inputs,
-** c) return non-standard NaNs that need to be filtered out, and
-** d) fail if the locale-specific decimal separator is not a dot,
-**    which can only be fixed with atrocious workarounds.
-**
-** Also, most of the strtod() implementations are hopelessly bloated,
-** which is not just an I-cache hog, but a problem for static linkage
-** on embedded systems, too.
-**
-** OTOH the builtin conversion function is very compact. Even though it
-** does a lot more, like parsing long longs, octal or imaginary numbers
-** and returning the result in different formats:
-** a) It needs less than 3 KB (!) of machine code (on x64 with -Os),
-** b) it doesn't perform any dynamic allocation and,
-** c) it needs only around 600 bytes of stack space.
-**
-** The builtin function is faster than strtod() for typical inputs, e.g.
-** "123", "1.5" or "1e6". Arguably, it's slower for very large exponents,
-** which are not very common (this could be fixed, if needed).
-**
-** And most importantly, the builtin function is equally precise on all
-** platforms. It correctly converts and rounds any input to a double.
-** If this is not the case, please send a bug report -- but PLEASE verify
-** that the implementation you're comparing to is not the culprit!
-**
-** The implementation quickly pre-scans the entire string first and
-** handles simple integers on-the-fly. Otherwise, it dispatches to the
-** base-specific parser. Hex and octal is straightforward.
-**
-** Decimal to binary conversion uses a fixed-length circular buffer in
-** base 100. Some simple cases are handled directly. For other cases, the
-** number in the buffer is up-scaled or down-scaled until the integer part
-** is in the proper range. Then the integer part is rounded and converted
-** to a double which is finally rescaled to the result. Denormals need
-** special treatment to prevent incorrect 'double rounding'.
-*/
-
-/* Definitions for circular decimal digit buffer (base 100 = 2 digits/byte). */
-#define STRSCAN_DIG	1024
-#define STRSCAN_MAXDIG	800		/* 772 + extra are sufficient. */
-#define STRSCAN_DDIG	(STRSCAN_DIG/2)
-#define STRSCAN_DMASK	(STRSCAN_DDIG-1)
-
-/* Helpers for circular buffer. */
-#define DNEXT(a)	(((a)+1) & STRSCAN_DMASK)
-#define DPREV(a)	(((a)-1) & STRSCAN_DMASK)
-#define DLEN(lo, hi)	((int32_t)(((lo)-(hi)) & STRSCAN_DMASK))
-
-#define casecmp(c, k)	(((c) | 0x20) == k)
-
-/* Final conversion to double. */
-static void strscan_double(uint64_t x, TValue *o, int32_t ex2, int32_t neg)
-{
-  double n;
-
-  /* Avoid double rounding for denormals. */
-  if (LJ_UNLIKELY(ex2 <= -1075 && x != 0)) {
-    /* NYI: all of this generates way too much code on 32 bit CPUs. */
-#if defined(__GNUC__) && LJ_64
-    int32_t b = (int32_t)(__builtin_clzll(x)^63);
-#else
-    int32_t b = (x>>32) ? 32+(int32_t)lj_fls((uint32_t)(x>>32)) :
-			  (int32_t)lj_fls((uint32_t)x);
-#endif
-    if ((int32_t)b + ex2 <= -1023 && (int32_t)b + ex2 >= -1075) {
-      uint64_t rb = (uint64_t)1 << (-1075-ex2);
-      if ((x & rb) && ((x & (rb+rb+rb-1)))) x += rb+rb;
-      x = (x & ~(rb+rb-1));
-    }
-  }
-
-  /* Convert to double using a signed int64_t conversion, then rescale. */
-  lua_assert((int64_t)x >= 0);
-  n = (double)(int64_t)x;
-  if (neg) n = -n;
-  if (ex2) n = ldexp(n, ex2);
-  o->n = n;
-}
-
-/* Parse hexadecimal number. */
-static StrScanFmt strscan_hex(const uint8_t *p, TValue *o,
-			      StrScanFmt fmt, uint32_t opt,
-			      int32_t ex2, int32_t neg, uint32_t dig)
-{
-  uint64_t x = 0;
-  uint32_t i;
-
-  /* Scan hex digits. */
-  for (i = dig > 16 ? 16 : dig ; i; i--, p++) {
-    uint32_t d = (*p != '.' ? *p : *++p); if (d > '9') d += 9;
-    x = (x << 4) + (d & 15);
-  }
-
-  /* Summarize rounding-effect of excess digits. */
-  for (i = 16; i < dig; i++, p++)
-    x |= ((*p != '.' ? *p : *++p) != '0'), ex2 += 4;
-
-  /* Format-specific handling. */
-  switch (fmt) {
-  case STRSCAN_INT:
-    if (!(opt & STRSCAN_OPT_TONUM) && x < 0x80000000u+neg) {
-      o->i = neg ? -(int32_t)x : (int32_t)x;
-      return STRSCAN_INT;  /* Fast path for 32 bit integers. */
-    }
-    if (!(opt & STRSCAN_OPT_C)) { fmt = STRSCAN_NUM; break; }
-    /* fallthrough */
-  case STRSCAN_U32:
-    if (dig > 8) return STRSCAN_ERROR;
-    o->i = neg ? -(int32_t)x : (int32_t)x;
-    return STRSCAN_U32;
-  case STRSCAN_I64:
-  case STRSCAN_U64:
-    if (dig > 16) return STRSCAN_ERROR;
-    o->u64 = neg ? (uint64_t)-(int64_t)x : x;
-    return fmt;
-  default:
-    break;
-  }
-
-  /* Reduce range then convert to double. */
-  if ((x & U64x(c0000000,0000000))) { x = (x >> 2) | (x & 3); ex2 += 2; }
-  strscan_double(x, o, ex2, neg);
-  return fmt;
-}
-
-/* Parse octal number. */
-static StrScanFmt strscan_oct(const uint8_t *p, TValue *o,
-			      StrScanFmt fmt, int32_t neg, uint32_t dig)
-{
-  uint64_t x = 0;
-
-  /* Scan octal digits. */
-  if (dig > 22 || (dig == 22 && *p > '1')) return STRSCAN_ERROR;
-  while (dig-- > 0) {
-    if (!(*p >= '0' && *p <= '7')) return STRSCAN_ERROR;
-    x = (x << 3) + (*p++ & 7);
-  }
-
-  /* Format-specific handling. */
-  switch (fmt) {
-  case STRSCAN_INT:
-    if (x >= 0x80000000u+neg) fmt = STRSCAN_U32;
-    /* fallthrough */
-  case STRSCAN_U32:
-    if ((x >> 32)) return STRSCAN_ERROR;
-    o->i = neg ? -(int32_t)x : (int32_t)x;
-    break;
-  default:
-  case STRSCAN_I64:
-  case STRSCAN_U64:
-    o->u64 = neg ? (uint64_t)-(int64_t)x : x;
-    break;
-  }
-  return fmt;
-}
-
-/* Parse decimal number. */
-static StrScanFmt strscan_dec(const uint8_t *p, TValue *o,
-			      StrScanFmt fmt, uint32_t opt,
-			      int32_t ex10, int32_t neg, uint32_t dig)
-{
-  uint8_t xi[STRSCAN_DDIG], *xip = xi;
-
-  if (dig) {
-    uint32_t i = dig;
-    if (i > STRSCAN_MAXDIG) {
-      ex10 += (int32_t)(i - STRSCAN_MAXDIG);
-      i = STRSCAN_MAXDIG;
-    }
-    /* Scan unaligned leading digit. */
-    if (((ex10^i) & 1))
-      *xip++ = ((*p != '.' ? *p : *++p) & 15), i--, p++;
-    /* Scan aligned double-digits. */
-    for ( ; i > 1; i -= 2) {
-      uint32_t d = 10 * ((*p != '.' ? *p : *++p) & 15); p++;
-      *xip++ = d + ((*p != '.' ? *p : *++p) & 15); p++;
-    }
-    /* Scan and realign trailing digit. */
-    if (i) *xip++ = 10 * ((*p != '.' ? *p : *++p) & 15), ex10--, p++;
-
-    /* Summarize rounding-effect of excess digits. */
-    if (dig > STRSCAN_MAXDIG) {
-      do {
-	if ((*p != '.' ? *p : *++p) != '0') { xip[-1] |= 1; break; }
-	p++;
-      } while (--dig > STRSCAN_MAXDIG);
-      dig = STRSCAN_MAXDIG;
-    } else {  /* Simplify exponent. */
-      while (ex10 > 0 && dig <= 18) *xip++ = 0, ex10 -= 2, dig += 2;
-    }
-  } else {  /* Only got zeros. */
-    ex10 = 0;
-    xi[0] = 0;
-  }
-
-  /* Fast path for numbers in integer format (but handles e.g. 1e6, too). */
-  if (dig <= 20 && ex10 == 0) {
-    uint8_t *xis;
-    uint64_t x = xi[0];
-    double n;
-    for (xis = xi+1; xis < xip; xis++) x = x * 100 + *xis;
-    if (!(dig == 20 && (xi[0] > 18 || (int64_t)x >= 0))) {  /* No overflow? */
-      /* Format-specific handling. */
-      switch (fmt) {
-      case STRSCAN_INT:
-	if (!(opt & STRSCAN_OPT_TONUM) && x < 0x80000000u+neg) {
-	  o->i = neg ? -(int32_t)x : (int32_t)x;
-	  return STRSCAN_INT;  /* Fast path for 32 bit integers. */
-	}
-	if (!(opt & STRSCAN_OPT_C)) { fmt = STRSCAN_NUM; goto plainnumber; }
-	/* fallthrough */
-      case STRSCAN_U32:
-	if ((x >> 32) != 0) return STRSCAN_ERROR;
-	o->i = neg ? -(int32_t)x : (int32_t)x;
-	return STRSCAN_U32;
-      case STRSCAN_I64:
-      case STRSCAN_U64:
-	o->u64 = neg ? (uint64_t)-(int64_t)x : x;
-	return fmt;
-      default:
-      plainnumber:  /* Fast path for plain numbers < 2^63. */
-	if ((int64_t)x < 0) break;
-	n = (double)(int64_t)x;
-	if (neg) n = -n;
-	o->n = n;
-	return fmt;
-      }
-    }
-  }
-
-  /* Slow non-integer path. */
-  if (fmt == STRSCAN_INT) {
-    if ((opt & STRSCAN_OPT_C)) return STRSCAN_ERROR;
-    fmt = STRSCAN_NUM;
-  } else if (fmt > STRSCAN_INT) {
-    return STRSCAN_ERROR;
-  }
-  {
-    uint32_t hi = 0, lo = (uint32_t)(xip-xi);
-    int32_t ex2 = 0, idig = (int32_t)lo + (ex10 >> 1);
-
-    lua_assert(lo > 0 && (ex10 & 1) == 0);
-
-    /* Handle simple overflow/underflow. */
-    if (idig > 310/2) { if (neg) setminfV(o); else setpinfV(o); return fmt; }
-    else if (idig < -326/2) { o->n = neg ? -0.0 : 0.0; return fmt; }
-
-    /* Scale up until we have at least 17 or 18 integer part digits. */
-    while (idig < 9 && idig < DLEN(lo, hi)) {
-      uint32_t i, cy = 0;
-      ex2 -= 6;
-      for (i = DPREV(lo); ; i = DPREV(i)) {
-	uint32_t d = (xi[i] << 6) + cy;
-	cy = (((d >> 2) * 5243) >> 17); d = d - cy * 100;  /* Div/mod 100. */
-	xi[i] = (uint8_t)d;
-	if (i == hi) break;
-	if (d == 0 && i == DPREV(lo)) lo = i;
-      }
-      if (cy) {
-	hi = DPREV(hi);
-	if (xi[DPREV(lo)] == 0) lo = DPREV(lo);
-	else if (hi == lo) { lo = DPREV(lo); xi[DPREV(lo)] |= xi[lo]; }
-	xi[hi] = (uint8_t)cy; idig++;
-      }
-    }
-
-    /* Scale down until no more than 17 or 18 integer part digits remain. */
-    while (idig > 9) {
-      uint32_t i, cy = 0;
-      ex2 += 6;
-      for (i = hi; i != lo; i = DNEXT(i)) {
-	cy += xi[i];
-	xi[i] = (cy >> 6);
-	cy = 100 * (cy & 0x3f);
-	if (xi[i] == 0 && i == hi) hi = DNEXT(hi), idig--;
-      }
-      while (cy) {
-	if (hi == lo) { xi[DPREV(lo)] |= 1; break; }
-	xi[lo] = (cy >> 6); lo = DNEXT(lo);
-	cy = 100 * (cy & 0x3f);
-      }
-    }
-
-    /* Collect integer part digits and convert to rescaled double. */
-    {
-      uint64_t x = xi[hi];
-      uint32_t i;
-      for (i = DNEXT(hi); --idig > 0 && i != lo; i = DNEXT(i))
-	x = x * 100 + xi[i];
-      if (i == lo) {
-	while (--idig >= 0) x = x * 100;
-      } else {  /* Gather round bit from remaining digits. */
-	x <<= 1; ex2--;
-	do {
-	  if (xi[i]) { x |= 1; break; }
-	  i = DNEXT(i);
-	} while (i != lo);
-      }
-      strscan_double(x, o, ex2, neg);
-    }
-  }
-  return fmt;
-}
-
-/* Scan string containing a number. Returns format. Returns value in o. */
-StrScanFmt lj_strscan_scan(const uint8_t *p, TValue *o, uint32_t opt)
-{
-  int32_t neg = 0;
-
-  /* Remove leading space, parse sign and non-numbers. */
-  if (LJ_UNLIKELY(!lj_char_isdigit(*p))) {
-    while (lj_char_isspace(*p)) p++;
-    if (*p == '+' || *p == '-') neg = (*p++ == '-');
-    if (LJ_UNLIKELY(*p >= 'A')) {  /* Parse "inf", "infinity" or "nan". */
-      TValue tmp;
-      setnanV(&tmp);
-      if (casecmp(p[0],'i') && casecmp(p[1],'n') && casecmp(p[2],'f')) {
-	if (neg) setminfV(&tmp); else setpinfV(&tmp);
-	p += 3;
-	if (casecmp(p[0],'i') && casecmp(p[1],'n') && casecmp(p[2],'i') &&
-	    casecmp(p[3],'t') && casecmp(p[4],'y')) p += 5;
-      } else if (casecmp(p[0],'n') && casecmp(p[1],'a') && casecmp(p[2],'n')) {
-	p += 3;
-      }
-      while (lj_char_isspace(*p)) p++;
-      if (*p) return STRSCAN_ERROR;
-      o->u64 = tmp.u64;
-      return STRSCAN_NUM;
-    }
-  }
-
-  /* Parse regular number. */
-  {
-    StrScanFmt fmt = STRSCAN_INT;
-    int cmask = LJ_CHAR_DIGIT;
-    int base = (opt & STRSCAN_OPT_C) && *p == '0' ? 0 : 10;
-    const uint8_t *sp, *dp = NULL;
-    uint32_t dig = 0, hasdig = 0, x = 0;
-    int32_t ex = 0;
-
-    /* Determine base and skip leading zeros. */
-    if (LJ_UNLIKELY(*p <= '0')) {
-      if (*p == '0' && casecmp(p[1], 'x'))
-	base = 16, cmask = LJ_CHAR_XDIGIT, p += 2;
-      for ( ; ; p++) {
-	if (*p == '0') {
-	  hasdig = 1;
-	} else if (*p == '.') {
-	  if (dp) return STRSCAN_ERROR;
-	  dp = p;
-	} else {
-	  break;
-	}
-      }
-    }
-
-    /* Preliminary digit and decimal point scan. */
-    for (sp = p; ; p++) {
-      if (LJ_LIKELY(lj_char_isa(*p, cmask))) {
-	x = x * 10 + (*p & 15);  /* For fast path below. */
-	dig++;
-      } else if (*p == '.') {
-	if (dp) return STRSCAN_ERROR;
-	dp = p;
-      } else {
-	break;
-      }
-    }
-    if (!(hasdig | dig)) return STRSCAN_ERROR;
-
-    /* Handle decimal point. */
-    if (dp) {
-      fmt = STRSCAN_NUM;
-      if (dig) {
-	ex = (int32_t)(dp-(p-1)); dp = p-1;
-	while (ex < 0 && *dp-- == '0') ex++, dig--;  /* Skip trailing zeros. */
-	if (base == 16) ex *= 4;
-      }
-    }
-
-    /* Parse exponent. */
-    if (casecmp(*p, (uint32_t)(base == 16 ? 'p' : 'e'))) {
-      uint32_t xx;
-      int negx = 0;
-      fmt = STRSCAN_NUM; p++;
-      if (*p == '+' || *p == '-') negx = (*p++ == '-');
-      if (!lj_char_isdigit(*p)) return STRSCAN_ERROR;
-      xx = (*p++ & 15);
-      while (lj_char_isdigit(*p)) {
-	if (xx < 65536) xx = xx * 10 + (*p & 15);
-	p++;
-      }
-      ex += negx ? -(int32_t)xx : (int32_t)xx;
-    }
-
-    /* Parse suffix. */
-    if (*p) {
-      /* I (IMAG), U (U32), LL (I64), ULL/LLU (U64), L (long), UL/LU (ulong). */
-      /* NYI: f (float). Not needed until cp_number() handles non-integers. */
-      if (casecmp(*p, 'i')) {
-	if (!(opt & STRSCAN_OPT_IMAG)) return STRSCAN_ERROR;
-	p++; fmt = STRSCAN_IMAG;
-      } else if (fmt == STRSCAN_INT) {
-	if (casecmp(*p, 'u')) p++, fmt = STRSCAN_U32;
-	if (casecmp(*p, 'l')) {
-	  p++;
-	  if (casecmp(*p, 'l')) p++, fmt += STRSCAN_I64 - STRSCAN_INT;
-	  else if (!(opt & STRSCAN_OPT_C)) return STRSCAN_ERROR;
-	  else if (sizeof(long) == 8) fmt += STRSCAN_I64 - STRSCAN_INT;
-	}
-	if (casecmp(*p, 'u') && (fmt == STRSCAN_INT || fmt == STRSCAN_I64))
-	  p++, fmt += STRSCAN_U32 - STRSCAN_INT;
-	if ((fmt == STRSCAN_U32 && !(opt & STRSCAN_OPT_C)) ||
-	    (fmt >= STRSCAN_I64 && !(opt & STRSCAN_OPT_LL)))
-	  return STRSCAN_ERROR;
-      }
-      while (lj_char_isspace(*p)) p++;
-      if (*p) return STRSCAN_ERROR;
-    }
-
-    /* Fast path for decimal 32 bit integers. */
-    if (fmt == STRSCAN_INT && base == 10 &&
-	(dig < 10 || (dig == 10 && *sp <= '2' && x < 0x80000000u+neg))) {
-      int32_t y = neg ? -(int32_t)x : (int32_t)x;
-      if ((opt & STRSCAN_OPT_TONUM)) {
-	o->n = (double)y;
-	return STRSCAN_NUM;
-      } else {
-	o->i = y;
-	return STRSCAN_INT;
-      }
-    }
-
-    /* Dispatch to base-specific parser. */
-    if (base == 0 && !(fmt == STRSCAN_NUM || fmt == STRSCAN_IMAG))
-      return strscan_oct(sp, o, fmt, neg, dig);
-    if (base == 16)
-      fmt = strscan_hex(sp, o, fmt, opt, ex, neg, dig);
-    else
-      fmt = strscan_dec(sp, o, fmt, opt, ex, neg, dig);
-
-    /* Try to convert number to integer, if requested. */
-    if (fmt == STRSCAN_NUM && (opt & STRSCAN_OPT_TOINT)) {
-      double n = o->n;
-      int32_t i = lj_num2int(n);
-      if (n == (lua_Number)i) { o->i = i; return STRSCAN_INT; }
-    }
-    return fmt;
-  }
-}
-
-int LJ_FASTCALL lj_strscan_num(GCstr *str, TValue *o)
-{
-  StrScanFmt fmt = lj_strscan_scan((const uint8_t *)strdata(str), o,
-				   STRSCAN_OPT_TONUM);
-  lua_assert(fmt == STRSCAN_ERROR || fmt == STRSCAN_NUM);
-  return (fmt != STRSCAN_ERROR);
-}
-
-#if LJ_DUALNUM
-int LJ_FASTCALL lj_strscan_number(GCstr *str, TValue *o)
-{
-  StrScanFmt fmt = lj_strscan_scan((const uint8_t *)strdata(str), o,
-				   STRSCAN_OPT_TOINT);
-  lua_assert(fmt == STRSCAN_ERROR || fmt == STRSCAN_NUM || fmt == STRSCAN_INT);
-  if (fmt == STRSCAN_INT) setitype(o, LJ_TISNUM);
-  return (fmt != STRSCAN_ERROR);
-}
-#endif
-
-#undef DNEXT
-#undef DPREV
-#undef DLEN
-
diff --git a/luajit-2.0/src/lj_strscan.h b/luajit-2.0/src/lj_strscan.h
deleted file mode 100644
index 15abd6a..0000000
--- a/luajit-2.0/src/lj_strscan.h
+++ /dev/null
@@ -1,39 +0,0 @@
-/*
-** String scanning.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#ifndef _LJ_STRSCAN_H
-#define _LJ_STRSCAN_H
-
-#include "lj_obj.h"
-
-/* Options for accepted/returned formats. */
-#define STRSCAN_OPT_TOINT	0x01  /* Convert to int32_t, if possible. */
-#define STRSCAN_OPT_TONUM	0x02  /* Always convert to double. */
-#define STRSCAN_OPT_IMAG	0x04
-#define STRSCAN_OPT_LL		0x08
-#define STRSCAN_OPT_C		0x10
-
-/* Returned format. */
-typedef enum {
-  STRSCAN_ERROR,
-  STRSCAN_NUM, STRSCAN_IMAG,
-  STRSCAN_INT, STRSCAN_U32, STRSCAN_I64, STRSCAN_U64,
-} StrScanFmt;
-
-LJ_FUNC StrScanFmt lj_strscan_scan(const uint8_t *p, TValue *o, uint32_t opt);
-LJ_FUNC int LJ_FASTCALL lj_strscan_num(GCstr *str, TValue *o);
-#if LJ_DUALNUM
-LJ_FUNC int LJ_FASTCALL lj_strscan_number(GCstr *str, TValue *o);
-#else
-#define lj_strscan_number(s, o)		lj_strscan_num((s), (o))
-#endif
-
-/* Check for number or convert string to number/int in-place (!). */
-static LJ_AINLINE int lj_strscan_numberobj(TValue *o)
-{
-  return tvisnumber(o) || (tvisstr(o) && lj_strscan_number(strV(o), o));
-}
-
-#endif
diff --git a/luajit-2.0/src/lj_tab.c b/luajit-2.0/src/lj_tab.c
deleted file mode 100644
index fc7d0f1..0000000
--- a/luajit-2.0/src/lj_tab.c
+++ /dev/null
@@ -1,631 +0,0 @@
-/*
-** Table handling.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-**
-** Major portions taken verbatim or adapted from the Lua interpreter.
-** Copyright (C) 1994-2008 Lua.org, PUC-Rio. See Copyright Notice in lua.h
-*/
-
-#define lj_tab_c
-#define LUA_CORE
-
-#include "lj_obj.h"
-#include "lj_gc.h"
-#include "lj_err.h"
-#include "lj_tab.h"
-
-/* -- Object hashing ------------------------------------------------------ */
-
-/* Hash values are masked with the table hash mask and used as an index. */
-static LJ_AINLINE Node *hashmask(const GCtab *t, uint32_t hash)
-{
-  Node *n = noderef(t->node);
-  return &n[hash & t->hmask];
-}
-
-/* String hashes are precomputed when they are interned. */
-#define hashstr(t, s)		hashmask(t, (s)->hash)
-
-#define hashlohi(t, lo, hi)	hashmask((t), hashrot((lo), (hi)))
-#define hashnum(t, o)		hashlohi((t), (o)->u32.lo, ((o)->u32.hi << 1))
-#define hashptr(t, p)		hashlohi((t), u32ptr(p), u32ptr(p) + HASH_BIAS)
-#define hashgcref(t, r)		hashlohi((t), gcrefu(r), gcrefu(r) + HASH_BIAS)
-
-/* Hash an arbitrary key and return its anchor position in the hash table. */
-static Node *hashkey(const GCtab *t, cTValue *key)
-{
-  lua_assert(!tvisint(key));
-  if (tvisstr(key))
-    return hashstr(t, strV(key));
-  else if (tvisnum(key))
-    return hashnum(t, key);
-  else if (tvisbool(key))
-    return hashmask(t, boolV(key));
-  else
-    return hashgcref(t, key->gcr);
-  /* Only hash 32 bits of lightuserdata on a 64 bit CPU. Good enough? */
-}
-
-/* -- Table creation and destruction -------------------------------------- */
-
-/* Create new hash part for table. */
-static LJ_AINLINE void newhpart(lua_State *L, GCtab *t, uint32_t hbits)
-{
-  uint32_t hsize;
-  Node *node;
-  lua_assert(hbits != 0);
-  if (hbits > LJ_MAX_HBITS)
-    lj_err_msg(L, LJ_ERR_TABOV);
-  hsize = 1u << hbits;
-  node = lj_mem_newvec(L, hsize, Node);
-  setmref(node->freetop, &node[hsize]);
-  setmref(t->node, node);
-  t->hmask = hsize-1;
-}
-
-/*
-** Q: Why all of these copies of t->hmask, t->node etc. to local variables?
-** A: Because alias analysis for C is _really_ tough.
-**    Even state-of-the-art C compilers won't produce good code without this.
-*/
-
-/* Clear hash part of table. */
-static LJ_AINLINE void clearhpart(GCtab *t)
-{
-  uint32_t i, hmask = t->hmask;
-  Node *node = noderef(t->node);
-  lua_assert(t->hmask != 0);
-  for (i = 0; i <= hmask; i++) {
-    Node *n = &node[i];
-    setmref(n->next, NULL);
-    setnilV(&n->key);
-    setnilV(&n->val);
-  }
-}
-
-/* Clear array part of table. */
-static LJ_AINLINE void clearapart(GCtab *t)
-{
-  uint32_t i, asize = t->asize;
-  TValue *array = tvref(t->array);
-  for (i = 0; i < asize; i++)
-    setnilV(&array[i]);
-}
-
-/* Create a new table. Note: the slots are not initialized (yet). */
-static GCtab *newtab(lua_State *L, uint32_t asize, uint32_t hbits)
-{
-  GCtab *t;
-  /* First try to colocate the array part. */
-  if (LJ_MAX_COLOSIZE != 0 && asize > 0 && asize <= LJ_MAX_COLOSIZE) {
-    lua_assert((sizeof(GCtab) & 7) == 0);
-    t = (GCtab *)lj_mem_newgco(L, sizetabcolo(asize));
-    t->gct = ~LJ_TTAB;
-    t->nomm = (uint8_t)~0;
-    t->colo = (int8_t)asize;
-    setmref(t->array, (TValue *)((char *)t + sizeof(GCtab)));
-    setgcrefnull(t->metatable);
-    t->asize = asize;
-    t->hmask = 0;
-    setmref(t->node, &G(L)->nilnode);
-  } else {  /* Otherwise separately allocate the array part. */
-    t = lj_mem_newobj(L, GCtab);
-    t->gct = ~LJ_TTAB;
-    t->nomm = (uint8_t)~0;
-    t->colo = 0;
-    setmref(t->array, NULL);
-    setgcrefnull(t->metatable);
-    t->asize = 0;  /* In case the array allocation fails. */
-    t->hmask = 0;
-    setmref(t->node, &G(L)->nilnode);
-    if (asize > 0) {
-      if (asize > LJ_MAX_ASIZE)
-	lj_err_msg(L, LJ_ERR_TABOV);
-      setmref(t->array, lj_mem_newvec(L, asize, TValue));
-      t->asize = asize;
-    }
-  }
-  if (hbits)
-    newhpart(L, t, hbits);
-  return t;
-}
-
-/* Create a new table.
-**
-** IMPORTANT NOTE: The API differs from lua_createtable()!
-**
-** The array size is non-inclusive. E.g. asize=128 creates array slots
-** for 0..127, but not for 128. If you need slots 1..128, pass asize=129
-** (slot 0 is wasted in this case).
-**
-** The hash size is given in hash bits. hbits=0 means no hash part.
-** hbits=1 creates 2 hash slots, hbits=2 creates 4 hash slots and so on.
-*/
-GCtab *lj_tab_new(lua_State *L, uint32_t asize, uint32_t hbits)
-{
-  GCtab *t = newtab(L, asize, hbits);
-  clearapart(t);
-  if (t->hmask > 0) clearhpart(t);
-  return t;
-}
-
-#if LJ_HASJIT
-GCtab * LJ_FASTCALL lj_tab_new1(lua_State *L, uint32_t ahsize)
-{
-  GCtab *t = newtab(L, ahsize & 0xffffff, ahsize >> 24);
-  clearapart(t);
-  if (t->hmask > 0) clearhpart(t);
-  return t;
-}
-#endif
-
-/* Duplicate a table. */
-GCtab * LJ_FASTCALL lj_tab_dup(lua_State *L, const GCtab *kt)
-{
-  GCtab *t;
-  uint32_t asize, hmask;
-  t = newtab(L, kt->asize, kt->hmask > 0 ? lj_fls(kt->hmask)+1 : 0);
-  lua_assert(kt->asize == t->asize && kt->hmask == t->hmask);
-  t->nomm = 0;  /* Keys with metamethod names may be present. */
-  asize = kt->asize;
-  if (asize > 0) {
-    TValue *array = tvref(t->array);
-    TValue *karray = tvref(kt->array);
-    if (asize < 64) {  /* An inlined loop beats memcpy for < 512 bytes. */
-      uint32_t i;
-      for (i = 0; i < asize; i++)
-	copyTV(L, &array[i], &karray[i]);
-    } else {
-      memcpy(array, karray, asize*sizeof(TValue));
-    }
-  }
-  hmask = kt->hmask;
-  if (hmask > 0) {
-    uint32_t i;
-    Node *node = noderef(t->node);
-    Node *knode = noderef(kt->node);
-    ptrdiff_t d = (char *)node - (char *)knode;
-    setmref(node->freetop, (Node *)((char *)noderef(knode->freetop) + d));
-    for (i = 0; i <= hmask; i++) {
-      Node *kn = &knode[i];
-      Node *n = &node[i];
-      Node *next = nextnode(kn);
-      /* Don't use copyTV here, since it asserts on a copy of a dead key. */
-      n->val = kn->val; n->key = kn->key;
-      setmref(n->next, next == NULL? next : (Node *)((char *)next + d));
-    }
-  }
-  return t;
-}
-
-/* Free a table. */
-void LJ_FASTCALL lj_tab_free(global_State *g, GCtab *t)
-{
-  if (t->hmask > 0)
-    lj_mem_freevec(g, noderef(t->node), t->hmask+1, Node);
-  if (t->asize > 0 && LJ_MAX_COLOSIZE != 0 && t->colo <= 0)
-    lj_mem_freevec(g, tvref(t->array), t->asize, TValue);
-  if (LJ_MAX_COLOSIZE != 0 && t->colo)
-    lj_mem_free(g, t, sizetabcolo((uint32_t)t->colo & 0x7f));
-  else
-    lj_mem_freet(g, t);
-}
-
-/* -- Table resizing ------------------------------------------------------ */
-
-/* Resize a table to fit the new array/hash part sizes. */
-static void resizetab(lua_State *L, GCtab *t, uint32_t asize, uint32_t hbits)
-{
-  Node *oldnode = noderef(t->node);
-  uint32_t oldasize = t->asize;
-  uint32_t oldhmask = t->hmask;
-  if (asize > oldasize) {  /* Array part grows? */
-    TValue *array;
-    uint32_t i;
-    if (asize > LJ_MAX_ASIZE)
-      lj_err_msg(L, LJ_ERR_TABOV);
-    if (LJ_MAX_COLOSIZE != 0 && t->colo > 0) {
-      /* A colocated array must be separated and copied. */
-      TValue *oarray = tvref(t->array);
-      array = lj_mem_newvec(L, asize, TValue);
-      t->colo = (int8_t)(t->colo | 0x80);  /* Mark as separated (colo < 0). */
-      for (i = 0; i < oldasize; i++)
-	copyTV(L, &array[i], &oarray[i]);
-    } else {
-      array = (TValue *)lj_mem_realloc(L, tvref(t->array),
-			  oldasize*sizeof(TValue), asize*sizeof(TValue));
-    }
-    setmref(t->array, array);
-    t->asize = asize;
-    for (i = oldasize; i < asize; i++)  /* Clear newly allocated slots. */
-      setnilV(&array[i]);
-  }
-  /* Create new (empty) hash part. */
-  if (hbits) {
-    newhpart(L, t, hbits);
-    clearhpart(t);
-  } else {
-    global_State *g = G(L);
-    setmref(t->node, &g->nilnode);
-    t->hmask = 0;
-  }
-  if (asize < oldasize) {  /* Array part shrinks? */
-    TValue *array = tvref(t->array);
-    uint32_t i;
-    t->asize = asize;  /* Note: This 'shrinks' even colocated arrays. */
-    for (i = asize; i < oldasize; i++)  /* Reinsert old array values. */
-      if (!tvisnil(&array[i]))
-	copyTV(L, lj_tab_setinth(L, t, (int32_t)i), &array[i]);
-    /* Physically shrink only separated arrays. */
-    if (LJ_MAX_COLOSIZE != 0 && t->colo <= 0)
-      setmref(t->array, lj_mem_realloc(L, array,
-	      oldasize*sizeof(TValue), asize*sizeof(TValue)));
-  }
-  if (oldhmask > 0) {  /* Reinsert pairs from old hash part. */
-    global_State *g;
-    uint32_t i;
-    for (i = 0; i <= oldhmask; i++) {
-      Node *n = &oldnode[i];
-      if (!tvisnil(&n->val))
-	copyTV(L, lj_tab_set(L, t, &n->key), &n->val);
-    }
-    g = G(L);
-    lj_mem_freevec(g, oldnode, oldhmask+1, Node);
-  }
-}
-
-static uint32_t countint(cTValue *key, uint32_t *bins)
-{
-  lua_assert(!tvisint(key));
-  if (tvisnum(key)) {
-    lua_Number nk = numV(key);
-    int32_t k = lj_num2int(nk);
-    if ((uint32_t)k < LJ_MAX_ASIZE && nk == (lua_Number)k) {
-      bins[(k > 2 ? lj_fls((uint32_t)(k-1)) : 0)]++;
-      return 1;
-    }
-  }
-  return 0;
-}
-
-static uint32_t countarray(const GCtab *t, uint32_t *bins)
-{
-  uint32_t na, b, i;
-  if (t->asize == 0) return 0;
-  for (na = i = b = 0; b < LJ_MAX_ABITS; b++) {
-    uint32_t n, top = 2u << b;
-    TValue *array;
-    if (top >= t->asize) {
-      top = t->asize-1;
-      if (i > top)
-	break;
-    }
-    array = tvref(t->array);
-    for (n = 0; i <= top; i++)
-      if (!tvisnil(&array[i]))
-	n++;
-    bins[b] += n;
-    na += n;
-  }
-  return na;
-}
-
-static uint32_t counthash(const GCtab *t, uint32_t *bins, uint32_t *narray)
-{
-  uint32_t total, na, i, hmask = t->hmask;
-  Node *node = noderef(t->node);
-  for (total = na = 0, i = 0; i <= hmask; i++) {
-    Node *n = &node[i];
-    if (!tvisnil(&n->val)) {
-      na += countint(&n->key, bins);
-      total++;
-    }
-  }
-  *narray += na;
-  return total;
-}
-
-static uint32_t bestasize(uint32_t bins[], uint32_t *narray)
-{
-  uint32_t b, sum, na = 0, sz = 0, nn = *narray;
-  for (b = 0, sum = 0; 2*nn > (1u<<b) && sum != nn; b++)
-    if (bins[b] > 0 && 2*(sum += bins[b]) > (1u<<b)) {
-      sz = (2u<<b)+1;
-      na = sum;
-    }
-  *narray = sz;
-  return na;
-}
-
-static void rehashtab(lua_State *L, GCtab *t, cTValue *ek)
-{
-  uint32_t bins[LJ_MAX_ABITS];
-  uint32_t total, asize, na, i;
-  for (i = 0; i < LJ_MAX_ABITS; i++) bins[i] = 0;
-  asize = countarray(t, bins);
-  total = 1 + asize;
-  total += counthash(t, bins, &asize);
-  asize += countint(ek, bins);
-  na = bestasize(bins, &asize);
-  total -= na;
-  resizetab(L, t, asize, hsize2hbits(total));
-}
-
-#if LJ_HASFFI
-void lj_tab_rehash(lua_State *L, GCtab *t)
-{
-  rehashtab(L, t, niltv(L));
-}
-#endif
-
-void lj_tab_reasize(lua_State *L, GCtab *t, uint32_t nasize)
-{
-  resizetab(L, t, nasize+1, t->hmask > 0 ? lj_fls(t->hmask)+1 : 0);
-}
-
-/* -- Table getters ------------------------------------------------------- */
-
-cTValue * LJ_FASTCALL lj_tab_getinth(GCtab *t, int32_t key)
-{
-  TValue k;
-  Node *n;
-  k.n = (lua_Number)key;
-  n = hashnum(t, &k);
-  do {
-    if (tvisnum(&n->key) && n->key.n == k.n)
-      return &n->val;
-  } while ((n = nextnode(n)));
-  return NULL;
-}
-
-cTValue *lj_tab_getstr(GCtab *t, GCstr *key)
-{
-  Node *n = hashstr(t, key);
-  do {
-    if (tvisstr(&n->key) && strV(&n->key) == key)
-      return &n->val;
-  } while ((n = nextnode(n)));
-  return NULL;
-}
-
-cTValue *lj_tab_get(lua_State *L, GCtab *t, cTValue *key)
-{
-  if (tvisstr(key)) {
-    cTValue *tv = lj_tab_getstr(t, strV(key));
-    if (tv)
-      return tv;
-  } else if (tvisint(key)) {
-    cTValue *tv = lj_tab_getint(t, intV(key));
-    if (tv)
-      return tv;
-  } else if (tvisnum(key)) {
-    lua_Number nk = numV(key);
-    int32_t k = lj_num2int(nk);
-    if (nk == (lua_Number)k) {
-      cTValue *tv = lj_tab_getint(t, k);
-      if (tv)
-	return tv;
-    } else {
-      goto genlookup;  /* Else use the generic lookup. */
-    }
-  } else if (!tvisnil(key)) {
-    Node *n;
-  genlookup:
-    n = hashkey(t, key);
-    do {
-      if (lj_obj_equal(&n->key, key))
-	return &n->val;
-    } while ((n = nextnode(n)));
-  }
-  return niltv(L);
-}
-
-/* -- Table setters ------------------------------------------------------- */
-
-/* Insert new key. Use Brent's variation to optimize the chain length. */
-TValue *lj_tab_newkey(lua_State *L, GCtab *t, cTValue *key)
-{
-  Node *n = hashkey(t, key);
-  if (!tvisnil(&n->val) || t->hmask == 0) {
-    Node *nodebase = noderef(t->node);
-    Node *collide, *freenode = noderef(nodebase->freetop);
-    lua_assert(freenode >= nodebase && freenode <= nodebase+t->hmask+1);
-    do {
-      if (freenode == nodebase) {  /* No free node found? */
-	rehashtab(L, t, key);  /* Rehash table. */
-	return lj_tab_set(L, t, key);  /* Retry key insertion. */
-      }
-    } while (!tvisnil(&(--freenode)->key));
-    setmref(nodebase->freetop, freenode);
-    lua_assert(freenode != &G(L)->nilnode);
-    collide = hashkey(t, &n->key);
-    if (collide != n) {  /* Colliding node not the main node? */
-      while (noderef(collide->next) != n)  /* Find predecessor. */
-	collide = nextnode(collide);
-      setmref(collide->next, freenode);  /* Relink chain. */
-      /* Copy colliding node into free node and free main node. */
-      freenode->val = n->val;
-      freenode->key = n->key;
-      freenode->next = n->next;
-      setmref(n->next, NULL);
-      setnilV(&n->val);
-      /* Rechain pseudo-resurrected string keys with colliding hashes. */
-      while (nextnode(freenode)) {
-	Node *nn = nextnode(freenode);
-	if (tvisstr(&nn->key) && !tvisnil(&nn->val) &&
-	    hashstr(t, strV(&nn->key)) == n) {
-	  freenode->next = nn->next;
-	  nn->next = n->next;
-	  setmref(n->next, nn);
-	} else {
-	  freenode = nn;
-	}
-      }
-    } else {  /* Otherwise use free node. */
-      setmrefr(freenode->next, n->next);  /* Insert into chain. */
-      setmref(n->next, freenode);
-      n = freenode;
-    }
-  }
-  n->key.u64 = key->u64;
-  if (LJ_UNLIKELY(tvismzero(&n->key)))
-    n->key.u64 = 0;
-  lj_gc_anybarriert(L, t);
-  lua_assert(tvisnil(&n->val));
-  return &n->val;
-}
-
-TValue *lj_tab_setinth(lua_State *L, GCtab *t, int32_t key)
-{
-  TValue k;
-  Node *n;
-  k.n = (lua_Number)key;
-  n = hashnum(t, &k);
-  do {
-    if (tvisnum(&n->key) && n->key.n == k.n)
-      return &n->val;
-  } while ((n = nextnode(n)));
-  return lj_tab_newkey(L, t, &k);
-}
-
-TValue *lj_tab_setstr(lua_State *L, GCtab *t, GCstr *key)
-{
-  TValue k;
-  Node *n = hashstr(t, key);
-  do {
-    if (tvisstr(&n->key) && strV(&n->key) == key)
-      return &n->val;
-  } while ((n = nextnode(n)));
-  setstrV(L, &k, key);
-  return lj_tab_newkey(L, t, &k);
-}
-
-TValue *lj_tab_set(lua_State *L, GCtab *t, cTValue *key)
-{
-  Node *n;
-  t->nomm = 0;  /* Invalidate negative metamethod cache. */
-  if (tvisstr(key)) {
-    return lj_tab_setstr(L, t, strV(key));
-  } else if (tvisint(key)) {
-    return lj_tab_setint(L, t, intV(key));
-  } else if (tvisnum(key)) {
-    lua_Number nk = numV(key);
-    int32_t k = lj_num2int(nk);
-    if (nk == (lua_Number)k)
-      return lj_tab_setint(L, t, k);
-    if (tvisnan(key))
-      lj_err_msg(L, LJ_ERR_NANIDX);
-    /* Else use the generic lookup. */
-  } else if (tvisnil(key)) {
-    lj_err_msg(L, LJ_ERR_NILIDX);
-  }
-  n = hashkey(t, key);
-  do {
-    if (lj_obj_equal(&n->key, key))
-      return &n->val;
-  } while ((n = nextnode(n)));
-  return lj_tab_newkey(L, t, key);
-}
-
-/* -- Table traversal ----------------------------------------------------- */
-
-/* Get the traversal index of a key. */
-static uint32_t keyindex(lua_State *L, GCtab *t, cTValue *key)
-{
-  TValue tmp;
-  if (tvisint(key)) {
-    int32_t k = intV(key);
-    if ((uint32_t)k < t->asize)
-      return (uint32_t)k;  /* Array key indexes: [0..t->asize-1] */
-    setnumV(&tmp, (lua_Number)k);
-    key = &tmp;
-  } else if (tvisnum(key)) {
-    lua_Number nk = numV(key);
-    int32_t k = lj_num2int(nk);
-    if ((uint32_t)k < t->asize && nk == (lua_Number)k)
-      return (uint32_t)k;  /* Array key indexes: [0..t->asize-1] */
-  }
-  if (!tvisnil(key)) {
-    Node *n = hashkey(t, key);
-    do {
-      if (lj_obj_equal(&n->key, key))
-	return t->asize + (uint32_t)(n - noderef(t->node));
-	/* Hash key indexes: [t->asize..t->asize+t->nmask] */
-    } while ((n = nextnode(n)));
-    if (key->u32.hi == 0xfffe7fff)  /* ITERN was despecialized while running. */
-      return key->u32.lo - 1;
-    lj_err_msg(L, LJ_ERR_NEXTIDX);
-    return 0;  /* unreachable */
-  }
-  return ~0u;  /* A nil key starts the traversal. */
-}
-
-/* Advance to the next step in a table traversal. */
-int lj_tab_next(lua_State *L, GCtab *t, TValue *key)
-{
-  uint32_t i = keyindex(L, t, key);  /* Find predecessor key index. */
-  for (i++; i < t->asize; i++)  /* First traverse the array keys. */
-    if (!tvisnil(arrayslot(t, i))) {
-      setintV(key, i);
-      copyTV(L, key+1, arrayslot(t, i));
-      return 1;
-    }
-  for (i -= t->asize; i <= t->hmask; i++) {  /* Then traverse the hash keys. */
-    Node *n = &noderef(t->node)[i];
-    if (!tvisnil(&n->val)) {
-      copyTV(L, key, &n->key);
-      copyTV(L, key+1, &n->val);
-      return 1;
-    }
-  }
-  return 0;  /* End of traversal. */
-}
-
-/* -- Table length calculation -------------------------------------------- */
-
-static MSize unbound_search(GCtab *t, MSize j)
-{
-  cTValue *tv;
-  MSize i = j;  /* i is zero or a present index */
-  j++;
-  /* find `i' and `j' such that i is present and j is not */
-  while ((tv = lj_tab_getint(t, (int32_t)j)) && !tvisnil(tv)) {
-    i = j;
-    j *= 2;
-    if (j > (MSize)(INT_MAX-2)) {  /* overflow? */
-      /* table was built with bad purposes: resort to linear search */
-      i = 1;
-      while ((tv = lj_tab_getint(t, (int32_t)i)) && !tvisnil(tv)) i++;
-      return i - 1;
-    }
-  }
-  /* now do a binary search between them */
-  while (j - i > 1) {
-    MSize m = (i+j)/2;
-    cTValue *tvb = lj_tab_getint(t, (int32_t)m);
-    if (tvb && !tvisnil(tvb)) i = m; else j = m;
-  }
-  return i;
-}
-
-/*
-** Try to find a boundary in table `t'. A `boundary' is an integer index
-** such that t[i] is non-nil and t[i+1] is nil (and 0 if t[1] is nil).
-*/
-MSize LJ_FASTCALL lj_tab_len(GCtab *t)
-{
-  MSize j = (MSize)t->asize;
-  if (j > 1 && tvisnil(arrayslot(t, j-1))) {
-    MSize i = 1;
-    while (j - i > 1) {
-      MSize m = (i+j)/2;
-      if (tvisnil(arrayslot(t, m-1))) j = m; else i = m;
-    }
-    return i-1;
-  }
-  if (j) j--;
-  if (t->hmask <= 0)
-    return j;
-  return unbound_search(t, j);
-}
-
diff --git a/luajit-2.0/src/lj_tab.h b/luajit-2.0/src/lj_tab.h
deleted file mode 100644
index 44b1bbb..0000000
--- a/luajit-2.0/src/lj_tab.h
+++ /dev/null
@@ -1,70 +0,0 @@
-/*
-** Table handling.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#ifndef _LJ_TAB_H
-#define _LJ_TAB_H
-
-#include "lj_obj.h"
-
-/* Hash constants. Tuned using a brute force search. */
-#define HASH_BIAS	(-0x04c11db7)
-#define HASH_ROT1	14
-#define HASH_ROT2	5
-#define HASH_ROT3	13
-
-/* Scramble the bits of numbers and pointers. */
-static LJ_AINLINE uint32_t hashrot(uint32_t lo, uint32_t hi)
-{
-#if LJ_TARGET_X86ORX64
-  /* Prefer variant that compiles well for a 2-operand CPU. */
-  lo ^= hi; hi = lj_rol(hi, HASH_ROT1);
-  lo -= hi; hi = lj_rol(hi, HASH_ROT2);
-  hi ^= lo; hi -= lj_rol(lo, HASH_ROT3);
-#else
-  lo ^= hi;
-  lo = lo - lj_rol(hi, HASH_ROT1);
-  hi = lo ^ lj_rol(hi, HASH_ROT1 + HASH_ROT2);
-  hi = hi - lj_rol(lo, HASH_ROT3);
-#endif
-  return hi;
-}
-
-#define hsize2hbits(s)	((s) ? ((s)==1 ? 1 : 1+lj_fls((uint32_t)((s)-1))) : 0)
-
-LJ_FUNCA GCtab *lj_tab_new(lua_State *L, uint32_t asize, uint32_t hbits);
-#if LJ_HASJIT
-LJ_FUNC GCtab * LJ_FASTCALL lj_tab_new1(lua_State *L, uint32_t ahsize);
-#endif
-LJ_FUNCA GCtab * LJ_FASTCALL lj_tab_dup(lua_State *L, const GCtab *kt);
-LJ_FUNC void LJ_FASTCALL lj_tab_free(global_State *g, GCtab *t);
-#if LJ_HASFFI
-LJ_FUNC void lj_tab_rehash(lua_State *L, GCtab *t);
-#endif
-LJ_FUNCA void lj_tab_reasize(lua_State *L, GCtab *t, uint32_t nasize);
-
-/* Caveat: all getters except lj_tab_get() can return NULL! */
-
-LJ_FUNCA cTValue * LJ_FASTCALL lj_tab_getinth(GCtab *t, int32_t key);
-LJ_FUNC cTValue *lj_tab_getstr(GCtab *t, GCstr *key);
-LJ_FUNCA cTValue *lj_tab_get(lua_State *L, GCtab *t, cTValue *key);
-
-/* Caveat: all setters require a write barrier for the stored value. */
-
-LJ_FUNCA TValue *lj_tab_newkey(lua_State *L, GCtab *t, cTValue *key);
-LJ_FUNC TValue *lj_tab_setinth(lua_State *L, GCtab *t, int32_t key);
-LJ_FUNC TValue *lj_tab_setstr(lua_State *L, GCtab *t, GCstr *key);
-LJ_FUNC TValue *lj_tab_set(lua_State *L, GCtab *t, cTValue *key);
-
-#define inarray(t, key)		((MSize)(key) < (MSize)(t)->asize)
-#define arrayslot(t, i)		(&tvref((t)->array)[(i)])
-#define lj_tab_getint(t, key) \
-  (inarray((t), (key)) ? arrayslot((t), (key)) : lj_tab_getinth((t), (key)))
-#define lj_tab_setint(L, t, key) \
-  (inarray((t), (key)) ? arrayslot((t), (key)) : lj_tab_setinth(L, (t), (key)))
-
-LJ_FUNCA int lj_tab_next(lua_State *L, GCtab *t, TValue *key);
-LJ_FUNCA MSize LJ_FASTCALL lj_tab_len(GCtab *t);
-
-#endif
diff --git a/luajit-2.0/src/lj_target.h b/luajit-2.0/src/lj_target.h
deleted file mode 100644
index 820a97a..0000000
--- a/luajit-2.0/src/lj_target.h
+++ /dev/null
@@ -1,162 +0,0 @@
-/*
-** Definitions for target CPU.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#ifndef _LJ_TARGET_H
-#define _LJ_TARGET_H
-
-#include "lj_def.h"
-#include "lj_arch.h"
-
-/* -- Registers and spill slots ------------------------------------------- */
-
-/* Register type (uint8_t in ir->r). */
-typedef uint32_t Reg;
-
-/* The hi-bit is NOT set for an allocated register. This means the value
-** can be directly used without masking. The hi-bit is set for a register
-** allocation hint or for RID_INIT, RID_SINK or RID_SUNK.
-*/
-#define RID_NONE		0x80
-#define RID_MASK		0x7f
-#define RID_INIT		(RID_NONE|RID_MASK)
-#define RID_SINK		(RID_INIT-1)
-#define RID_SUNK		(RID_INIT-2)
-
-#define ra_noreg(r)		((r) & RID_NONE)
-#define ra_hasreg(r)		(!((r) & RID_NONE))
-
-/* The ra_hashint() macro assumes a previous test for ra_noreg(). */
-#define ra_hashint(r)		((r) < RID_SUNK)
-#define ra_gethint(r)		((Reg)((r) & RID_MASK))
-#define ra_sethint(rr, r)	rr = (uint8_t)((r)|RID_NONE)
-#define ra_samehint(r1, r2)	(ra_gethint((r1)^(r2)) == 0)
-
-/* Spill slot 0 means no spill slot has been allocated. */
-#define SPS_NONE		0
-
-#define ra_hasspill(s)		((s) != SPS_NONE)
-
-/* Combined register and spill slot (uint16_t in ir->prev). */
-typedef uint32_t RegSP;
-
-#define REGSP(r, s)		((r) + ((s) << 8))
-#define REGSP_HINT(r)		((r)|RID_NONE)
-#define REGSP_INIT		REGSP(RID_INIT, 0)
-
-#define regsp_reg(rs)		((rs) & 255)
-#define regsp_spill(rs)		((rs) >> 8)
-#define regsp_used(rs) \
-  (((rs) & ~REGSP(RID_MASK, 0)) != REGSP(RID_NONE, 0))
-
-/* -- Register sets ------------------------------------------------------- */
-
-/* Bitset for registers. 32 registers suffice for most architectures.
-** Note that one set holds bits for both GPRs and FPRs.
-*/
-#if LJ_TARGET_PPC || LJ_TARGET_MIPS
-typedef uint64_t RegSet;
-#else
-typedef uint32_t RegSet;
-#endif
-
-#define RID2RSET(r)		(((RegSet)1) << (r))
-#define RSET_EMPTY		((RegSet)0)
-#define RSET_RANGE(lo, hi)	((RID2RSET((hi)-(lo))-1) << (lo))
-
-#define rset_test(rs, r)	((int)((rs) >> (r)) & 1)
-#define rset_set(rs, r)		(rs |= RID2RSET(r))
-#define rset_clear(rs, r)	(rs &= ~RID2RSET(r))
-#define rset_exclude(rs, r)	(rs & ~RID2RSET(r))
-#if LJ_TARGET_PPC || LJ_TARGET_MIPS
-#define rset_picktop(rs)	((Reg)(__builtin_clzll(rs)^63))
-#define rset_pickbot(rs)	((Reg)__builtin_ctzll(rs))
-#else
-#define rset_picktop(rs)	((Reg)lj_fls(rs))
-#define rset_pickbot(rs)	((Reg)lj_ffs(rs))
-#endif
-
-/* -- Register allocation cost -------------------------------------------- */
-
-/* The register allocation heuristic keeps track of the cost for allocating
-** a specific register:
-**
-** A free register (obviously) has a cost of 0 and a 1-bit in the free mask.
-**
-** An already allocated register has the (non-zero) IR reference in the lowest
-** bits and the result of a blended cost-model in the higher bits.
-**
-** The allocator first checks the free mask for a hit. Otherwise an (unrolled)
-** linear search for the minimum cost is used. The search doesn't need to
-** keep track of the position of the minimum, which makes it very fast.
-** The lowest bits of the minimum cost show the desired IR reference whose
-** register is the one to evict.
-**
-** Without the cost-model this degenerates to the standard heuristics for
-** (reverse) linear-scan register allocation. Since code generation is done
-** in reverse, a live interval extends from the last use to the first def.
-** For an SSA IR the IR reference is the first (and only) def and thus
-** trivially marks the end of the interval. The LSRA heuristics says to pick
-** the register whose live interval has the furthest extent, i.e. the lowest
-** IR reference in our case.
-**
-** A cost-model should take into account other factors, like spill-cost and
-** restore- or rematerialization-cost, which depend on the kind of instruction.
-** E.g. constants have zero spill costs, variant instructions have higher
-** costs than invariants and PHIs should preferably never be spilled.
-**
-** Here's a first cut at simple, but effective blended cost-model for R-LSRA:
-** - Due to careful design of the IR, constants already have lower IR
-**   references than invariants and invariants have lower IR references
-**   than variants.
-** - The cost in the upper 16 bits is the sum of the IR reference and a
-**   weighted score. The score currently only takes into account whether
-**   the IRT_ISPHI bit is set in the instruction type.
-** - The PHI weight is the minimum distance (in IR instructions) a PHI
-**   reference has to be further apart from a non-PHI reference to be spilled.
-** - It should be a power of two (for speed) and must be between 2 and 32768.
-**   Good values for the PHI weight seem to be between 40 and 150.
-** - Further study is required.
-*/
-#define REGCOST_PHI_WEIGHT	64
-
-/* Cost for allocating a specific register. */
-typedef uint32_t RegCost;
-
-/* Note: assumes 16 bit IRRef1. */
-#define REGCOST(cost, ref)	((RegCost)(ref) + ((RegCost)(cost) << 16))
-#define regcost_ref(rc)		((IRRef1)(rc))
-
-#define REGCOST_T(t) \
-  ((RegCost)((t)&IRT_ISPHI) * (((RegCost)(REGCOST_PHI_WEIGHT)<<16)/IRT_ISPHI))
-#define REGCOST_REF_T(ref, t)	(REGCOST((ref), (ref)) + REGCOST_T((t)))
-
-/* -- Target-specific definitions ----------------------------------------- */
-
-#if LJ_TARGET_X86ORX64
-#include "lj_target_x86.h"
-#elif LJ_TARGET_ARM
-#include "lj_target_arm.h"
-#elif LJ_TARGET_PPC
-#include "lj_target_ppc.h"
-#elif LJ_TARGET_MIPS
-#include "lj_target_mips.h"
-#else
-#error "Missing include for target CPU"
-#endif
-
-#ifdef EXITSTUBS_PER_GROUP
-/* Return the address of an exit stub. */
-static LJ_AINLINE char *exitstub_addr_(char **group, uint32_t exitno)
-{
-  lua_assert(group[exitno / EXITSTUBS_PER_GROUP] != NULL);
-  return (char *)group[exitno / EXITSTUBS_PER_GROUP] +
-	 EXITSTUB_SPACING*(exitno % EXITSTUBS_PER_GROUP);
-}
-/* Avoid dependence on lj_jit.h if only including lj_target.h. */
-#define exitstub_addr(J, exitno) \
-  ((MCode *)exitstub_addr_((char **)((J)->exitstubgroup), (exitno)))
-#endif
-
-#endif
diff --git a/luajit-2.0/src/lj_target_arm.h b/luajit-2.0/src/lj_target_arm.h
deleted file mode 100644
index 63a0c92..0000000
--- a/luajit-2.0/src/lj_target_arm.h
+++ /dev/null
@@ -1,274 +0,0 @@
-/*
-** Definitions for ARM CPUs.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#ifndef _LJ_TARGET_ARM_H
-#define _LJ_TARGET_ARM_H
-
-/* -- Registers IDs ------------------------------------------------------- */
-
-#define GPRDEF(_) \
-  _(R0) _(R1) _(R2) _(R3) _(R4) _(R5) _(R6) _(R7) \
-  _(R8) _(R9) _(R10) _(R11) _(R12) _(SP) _(LR) _(PC)
-#if LJ_SOFTFP
-#define FPRDEF(_)
-#else
-#define FPRDEF(_) \
-  _(D0) _(D1) _(D2) _(D3) _(D4) _(D5) _(D6) _(D7) \
-  _(D8) _(D9) _(D10) _(D11) _(D12) _(D13) _(D14) _(D15)
-#endif
-#define VRIDDEF(_)
-
-#define RIDENUM(name)	RID_##name,
-
-enum {
-  GPRDEF(RIDENUM)		/* General-purpose registers (GPRs). */
-  FPRDEF(RIDENUM)		/* Floating-point registers (FPRs). */
-  RID_MAX,
-  RID_TMP = RID_LR,
-
-  /* Calling conventions. */
-  RID_RET = RID_R0,
-  RID_RETLO = RID_R0,
-  RID_RETHI = RID_R1,
-#if LJ_SOFTFP
-  RID_FPRET = RID_R0,
-#else
-  RID_FPRET = RID_D0,
-#endif
-
-  /* These definitions must match with the *.dasc file(s): */
-  RID_BASE = RID_R9,		/* Interpreter BASE. */
-  RID_LPC = RID_R6,		/* Interpreter PC. */
-  RID_DISPATCH = RID_R7,	/* Interpreter DISPATCH table. */
-  RID_LREG = RID_R8,		/* Interpreter L. */
-
-  /* Register ranges [min, max) and number of registers. */
-  RID_MIN_GPR = RID_R0,
-  RID_MAX_GPR = RID_PC+1,
-  RID_MIN_FPR = RID_MAX_GPR,
-#if LJ_SOFTFP
-  RID_MAX_FPR = RID_MIN_FPR,
-#else
-  RID_MAX_FPR = RID_D15+1,
-#endif
-  RID_NUM_GPR = RID_MAX_GPR - RID_MIN_GPR,
-  RID_NUM_FPR = RID_MAX_FPR - RID_MIN_FPR
-};
-
-#define RID_NUM_KREF		RID_NUM_GPR
-#define RID_MIN_KREF		RID_R0
-
-/* -- Register sets ------------------------------------------------------- */
-
-/* Make use of all registers, except sp, lr and pc. */
-#define RSET_GPR		(RSET_RANGE(RID_MIN_GPR, RID_R12+1))
-#define RSET_GPREVEN \
-  (RID2RSET(RID_R0)|RID2RSET(RID_R2)|RID2RSET(RID_R4)|RID2RSET(RID_R6)| \
-   RID2RSET(RID_R8)|RID2RSET(RID_R10))
-#define RSET_GPRODD \
-  (RID2RSET(RID_R1)|RID2RSET(RID_R3)|RID2RSET(RID_R5)|RID2RSET(RID_R7)| \
-   RID2RSET(RID_R9)|RID2RSET(RID_R11))
-#if LJ_SOFTFP
-#define RSET_FPR		0
-#else
-#define RSET_FPR		(RSET_RANGE(RID_MIN_FPR, RID_MAX_FPR))
-#endif
-#define RSET_ALL		(RSET_GPR|RSET_FPR)
-#define RSET_INIT		RSET_ALL
-
-/* ABI-specific register sets. lr is an implicit scratch register. */
-#define RSET_SCRATCH_GPR_	(RSET_RANGE(RID_R0, RID_R3+1)|RID2RSET(RID_R12))
-#ifdef __APPLE__
-#define RSET_SCRATCH_GPR	(RSET_SCRATCH_GPR_|RID2RSET(RID_R9))
-#else
-#define RSET_SCRATCH_GPR	RSET_SCRATCH_GPR_
-#endif
-#if LJ_SOFTFP
-#define RSET_SCRATCH_FPR	0
-#else
-#define RSET_SCRATCH_FPR	(RSET_RANGE(RID_D0, RID_D7+1))
-#endif
-#define RSET_SCRATCH		(RSET_SCRATCH_GPR|RSET_SCRATCH_FPR)
-#define REGARG_FIRSTGPR		RID_R0
-#define REGARG_LASTGPR		RID_R3
-#define REGARG_NUMGPR		4
-#if LJ_ABI_SOFTFP
-#define REGARG_FIRSTFPR		0
-#define REGARG_LASTFPR		0
-#define REGARG_NUMFPR		0
-#else
-#define REGARG_FIRSTFPR		RID_D0
-#define REGARG_LASTFPR		RID_D7
-#define REGARG_NUMFPR		8
-#endif
-
-/* -- Spill slots --------------------------------------------------------- */
-
-/* Spill slots are 32 bit wide. An even/odd pair is used for FPRs.
-**
-** SPS_FIXED: Available fixed spill slots in interpreter frame.
-** This definition must match with the *.dasc file(s).
-**
-** SPS_FIRST: First spill slot for general use. Reserve min. two 32 bit slots.
-*/
-#define SPS_FIXED	2
-#define SPS_FIRST	2
-
-#define SPOFS_TMP	0
-
-#define sps_scale(slot)		(4 * (int32_t)(slot))
-#define sps_align(slot)		(((slot) - SPS_FIXED + 1) & ~1)
-
-/* -- Exit state ---------------------------------------------------------- */
-
-/* This definition must match with the *.dasc file(s). */
-typedef struct {
-#if !LJ_SOFTFP
-  lua_Number fpr[RID_NUM_FPR];	/* Floating-point registers. */
-#endif
-  int32_t gpr[RID_NUM_GPR];	/* General-purpose registers. */
-  int32_t spill[256];		/* Spill slots. */
-} ExitState;
-
-/* PC after instruction that caused an exit. Used to find the trace number. */
-#define EXITSTATE_PCREG		RID_PC
-/* Highest exit + 1 indicates stack check. */
-#define EXITSTATE_CHECKEXIT	1
-
-#define EXITSTUB_SPACING        4
-#define EXITSTUBS_PER_GROUP     32
-
-/* -- Instructions -------------------------------------------------------- */
-
-/* Instruction fields. */
-#define ARMF_CC(ai, cc)	(((ai) ^ ARMI_CCAL) | ((cc) << 28))
-#define ARMF_N(r)	((r) << 16)
-#define ARMF_D(r)	((r) << 12)
-#define ARMF_S(r)	((r) << 8)
-#define ARMF_M(r)	(r)
-#define ARMF_SH(sh, n)	(((sh) << 5) | ((n) << 7))
-#define ARMF_RSH(sh, r)	(0x10 | ((sh) << 5) | ARMF_S(r))
-
-typedef enum ARMIns {
-  ARMI_CCAL = 0xe0000000,
-  ARMI_S = 0x000100000,
-  ARMI_K12 = 0x02000000,
-  ARMI_KNEG = 0x00200000,
-  ARMI_LS_W = 0x00200000,
-  ARMI_LS_U = 0x00800000,
-  ARMI_LS_P = 0x01000000,
-  ARMI_LS_R = 0x02000000,
-  ARMI_LSX_I = 0x00400000,
-
-  ARMI_AND = 0xe0000000,
-  ARMI_EOR = 0xe0200000,
-  ARMI_SUB = 0xe0400000,
-  ARMI_RSB = 0xe0600000,
-  ARMI_ADD = 0xe0800000,
-  ARMI_ADC = 0xe0a00000,
-  ARMI_SBC = 0xe0c00000,
-  ARMI_RSC = 0xe0e00000,
-  ARMI_TST = 0xe1100000,
-  ARMI_TEQ = 0xe1300000,
-  ARMI_CMP = 0xe1500000,
-  ARMI_CMN = 0xe1700000,
-  ARMI_ORR = 0xe1800000,
-  ARMI_MOV = 0xe1a00000,
-  ARMI_BIC = 0xe1c00000,
-  ARMI_MVN = 0xe1e00000,
-
-  ARMI_NOP = 0xe1a00000,
-
-  ARMI_MUL = 0xe0000090,
-  ARMI_SMULL = 0xe0c00090,
-
-  ARMI_LDR = 0xe4100000,
-  ARMI_LDRB = 0xe4500000,
-  ARMI_LDRH = 0xe01000b0,
-  ARMI_LDRSB = 0xe01000d0,
-  ARMI_LDRSH = 0xe01000f0,
-  ARMI_LDRD = 0xe00000d0,
-  ARMI_STR = 0xe4000000,
-  ARMI_STRB = 0xe4400000,
-  ARMI_STRH = 0xe00000b0,
-  ARMI_STRD = 0xe00000f0,
-  ARMI_PUSH = 0xe92d0000,
-
-  ARMI_B = 0xea000000,
-  ARMI_BL = 0xeb000000,
-  ARMI_BLX = 0xfa000000,
-  ARMI_BLXr = 0xe12fff30,
-
-  /* ARMv6 */
-  ARMI_REV = 0xe6bf0f30,
-  ARMI_SXTB = 0xe6af0070,
-  ARMI_SXTH = 0xe6bf0070,
-  ARMI_UXTB = 0xe6ef0070,
-  ARMI_UXTH = 0xe6ff0070,
-
-  /* ARMv6T2 */
-  ARMI_MOVW = 0xe3000000,
-  ARMI_MOVT = 0xe3400000,
-
-  /* VFP */
-  ARMI_VMOV_D = 0xeeb00b40,
-  ARMI_VMOV_S = 0xeeb00a40,
-  ARMI_VMOVI_D = 0xeeb00b00,
-
-  ARMI_VMOV_R_S = 0xee100a10,
-  ARMI_VMOV_S_R = 0xee000a10,
-  ARMI_VMOV_RR_D = 0xec500b10,
-  ARMI_VMOV_D_RR = 0xec400b10,
-
-  ARMI_VADD_D = 0xee300b00,
-  ARMI_VSUB_D = 0xee300b40,
-  ARMI_VMUL_D = 0xee200b00,
-  ARMI_VMLA_D = 0xee000b00,
-  ARMI_VMLS_D = 0xee000b40,
-  ARMI_VNMLS_D = 0xee100b00,
-  ARMI_VDIV_D = 0xee800b00,
-
-  ARMI_VABS_D = 0xeeb00bc0,
-  ARMI_VNEG_D = 0xeeb10b40,
-  ARMI_VSQRT_D = 0xeeb10bc0,
-
-  ARMI_VCMP_D = 0xeeb40b40,
-  ARMI_VCMPZ_D = 0xeeb50b40,
-
-  ARMI_VMRS = 0xeef1fa10,
-
-  ARMI_VCVT_S32_F32 = 0xeebd0ac0,
-  ARMI_VCVT_S32_F64 = 0xeebd0bc0,
-  ARMI_VCVT_U32_F32 = 0xeebc0ac0,
-  ARMI_VCVT_U32_F64 = 0xeebc0bc0,
-  ARMI_VCVTR_S32_F32 = 0xeebd0a40,
-  ARMI_VCVTR_S32_F64 = 0xeebd0b40,
-  ARMI_VCVTR_U32_F32 = 0xeebc0a40,
-  ARMI_VCVTR_U32_F64 = 0xeebc0b40,
-  ARMI_VCVT_F32_S32 = 0xeeb80ac0,
-  ARMI_VCVT_F64_S32 = 0xeeb80bc0,
-  ARMI_VCVT_F32_U32 = 0xeeb80a40,
-  ARMI_VCVT_F64_U32 = 0xeeb80b40,
-  ARMI_VCVT_F32_F64 = 0xeeb70bc0,
-  ARMI_VCVT_F64_F32 = 0xeeb70ac0,
-
-  ARMI_VLDR_S = 0xed100a00,
-  ARMI_VLDR_D = 0xed100b00,
-  ARMI_VSTR_S = 0xed000a00,
-  ARMI_VSTR_D = 0xed000b00,
-} ARMIns;
-
-typedef enum ARMShift {
-  ARMSH_LSL, ARMSH_LSR, ARMSH_ASR, ARMSH_ROR
-} ARMShift;
-
-/* ARM condition codes. */
-typedef enum ARMCC {
-  CC_EQ, CC_NE, CC_CS, CC_CC, CC_MI, CC_PL, CC_VS, CC_VC,
-  CC_HI, CC_LS, CC_GE, CC_LT, CC_GT, CC_LE, CC_AL,
-  CC_HS = CC_CS, CC_LO = CC_CC
-} ARMCC;
-
-#endif
diff --git a/luajit-2.0/src/lj_target_mips.h b/luajit-2.0/src/lj_target_mips.h
deleted file mode 100644
index e0fc152..0000000
--- a/luajit-2.0/src/lj_target_mips.h
+++ /dev/null
@@ -1,257 +0,0 @@
-/*
-** Definitions for MIPS CPUs.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#ifndef _LJ_TARGET_MIPS_H
-#define _LJ_TARGET_MIPS_H
-
-/* -- Registers IDs ------------------------------------------------------- */
-
-#define GPRDEF(_) \
-  _(R0) _(R1) _(R2) _(R3) _(R4) _(R5) _(R6) _(R7) \
-  _(R8) _(R9) _(R10) _(R11) _(R12) _(R13) _(R14) _(R15) \
-  _(R16) _(R17) _(R18) _(R19) _(R20) _(R21) _(R22) _(R23) \
-  _(R24) _(R25) _(SYS1) _(SYS2) _(R28) _(SP) _(R30) _(RA)
-#define FPRDEF(_) \
-  _(F0) _(F1) _(F2) _(F3) _(F4) _(F5) _(F6) _(F7) \
-  _(F8) _(F9) _(F10) _(F11) _(F12) _(F13) _(F14) _(F15) \
-  _(F16) _(F17) _(F18) _(F19) _(F20) _(F21) _(F22) _(F23) \
-  _(F24) _(F25) _(F26) _(F27) _(F28) _(F29) _(F30) _(F31)
-#define VRIDDEF(_)
-
-#define RIDENUM(name)	RID_##name,
-
-enum {
-  GPRDEF(RIDENUM)		/* General-purpose registers (GPRs). */
-  FPRDEF(RIDENUM)		/* Floating-point registers (FPRs). */
-  RID_MAX,
-  RID_ZERO = RID_R0,
-  RID_TMP = RID_RA,
-
-  /* Calling conventions. */
-  RID_RET = RID_R2,
-#if LJ_LE
-  RID_RETHI = RID_R3,
-  RID_RETLO = RID_R2,
-#else
-  RID_RETHI = RID_R2,
-  RID_RETLO = RID_R3,
-#endif
-  RID_FPRET = RID_F0,
-  RID_CFUNCADDR = RID_R25,
-
-  /* These definitions must match with the *.dasc file(s): */
-  RID_BASE = RID_R16,		/* Interpreter BASE. */
-  RID_LPC = RID_R18,		/* Interpreter PC. */
-  RID_DISPATCH = RID_R19,	/* Interpreter DISPATCH table. */
-  RID_LREG = RID_R20,		/* Interpreter L. */
-  RID_JGL = RID_R30,		/* On-trace: global_State + 32768. */
-
-  /* Register ranges [min, max) and number of registers. */
-  RID_MIN_GPR = RID_R0,
-  RID_MAX_GPR = RID_RA+1,
-  RID_MIN_FPR = RID_F0,
-  RID_MAX_FPR = RID_F31+1,
-  RID_NUM_GPR = RID_MAX_GPR - RID_MIN_GPR,
-  RID_NUM_FPR = RID_MAX_FPR - RID_MIN_FPR	/* Only even regs are used. */
-};
-
-#define RID_NUM_KREF		RID_NUM_GPR
-#define RID_MIN_KREF		RID_R0
-
-/* -- Register sets ------------------------------------------------------- */
-
-/* Make use of all registers, except ZERO, TMP, SP, SYS1, SYS2 and JGL. */
-#define RSET_FIXED \
-  (RID2RSET(RID_ZERO)|RID2RSET(RID_TMP)|RID2RSET(RID_SP)|\
-   RID2RSET(RID_SYS1)|RID2RSET(RID_SYS2)|RID2RSET(RID_JGL))
-#define RSET_GPR	(RSET_RANGE(RID_MIN_GPR, RID_MAX_GPR) - RSET_FIXED)
-#define RSET_FPR \
-  (RID2RSET(RID_F0)|RID2RSET(RID_F2)|RID2RSET(RID_F4)|RID2RSET(RID_F6)|\
-   RID2RSET(RID_F8)|RID2RSET(RID_F10)|RID2RSET(RID_F12)|RID2RSET(RID_F14)|\
-   RID2RSET(RID_F16)|RID2RSET(RID_F18)|RID2RSET(RID_F20)|RID2RSET(RID_F22)|\
-   RID2RSET(RID_F24)|RID2RSET(RID_F26)|RID2RSET(RID_F28)|RID2RSET(RID_F30))
-#define RSET_ALL	(RSET_GPR|RSET_FPR)
-#define RSET_INIT	RSET_ALL
-
-#define RSET_SCRATCH_GPR \
-  (RSET_RANGE(RID_R1, RID_R15+1)|\
-   RID2RSET(RID_R24)|RID2RSET(RID_R25)|RID2RSET(RID_R28))
-#define RSET_SCRATCH_FPR \
-  (RID2RSET(RID_F0)|RID2RSET(RID_F2)|RID2RSET(RID_F4)|RID2RSET(RID_F6)|\
-   RID2RSET(RID_F8)|RID2RSET(RID_F10)|RID2RSET(RID_F12)|RID2RSET(RID_F14)|\
-   RID2RSET(RID_F16)|RID2RSET(RID_F18))
-#define RSET_SCRATCH		(RSET_SCRATCH_GPR|RSET_SCRATCH_FPR)
-#define REGARG_FIRSTGPR		RID_R4
-#define REGARG_LASTGPR		RID_R7
-#define REGARG_NUMGPR		4
-#define REGARG_FIRSTFPR		RID_F12
-#define REGARG_LASTFPR		RID_F14
-#define REGARG_NUMFPR		2
-
-/* -- Spill slots --------------------------------------------------------- */
-
-/* Spill slots are 32 bit wide. An even/odd pair is used for FPRs.
-**
-** SPS_FIXED: Available fixed spill slots in interpreter frame.
-** This definition must match with the *.dasc file(s).
-**
-** SPS_FIRST: First spill slot for general use.
-*/
-#define SPS_FIXED	5
-#define SPS_FIRST	4
-
-#define SPOFS_TMP	0
-
-#define sps_scale(slot)		(4 * (int32_t)(slot))
-#define sps_align(slot)		(((slot) - SPS_FIXED + 1) & ~1)
-
-/* -- Exit state ---------------------------------------------------------- */
-
-/* This definition must match with the *.dasc file(s). */
-typedef struct {
-  lua_Number fpr[RID_NUM_FPR];	/* Floating-point registers. */
-  int32_t gpr[RID_NUM_GPR];	/* General-purpose registers. */
-  int32_t spill[256];		/* Spill slots. */
-} ExitState;
-
-/* Highest exit + 1 indicates stack check. */
-#define EXITSTATE_CHECKEXIT	1
-
-/* Return the address of a per-trace exit stub. */
-static LJ_AINLINE uint32_t *exitstub_trace_addr_(uint32_t *p)
-{
-  while (*p == 0x00000000) p++;  /* Skip MIPSI_NOP. */
-  return p;
-}
-/* Avoid dependence on lj_jit.h if only including lj_target.h. */
-#define exitstub_trace_addr(T, exitno) \
-  exitstub_trace_addr_((MCode *)((char *)(T)->mcode + (T)->szmcode))
-
-/* -- Instructions -------------------------------------------------------- */
-
-/* Instruction fields. */
-#define MIPSF_S(r)	((r) << 21)
-#define MIPSF_T(r)	((r) << 16)
-#define MIPSF_D(r)	((r) << 11)
-#define MIPSF_R(r)	((r) << 21)
-#define MIPSF_H(r)	((r) << 16)
-#define MIPSF_G(r)	((r) << 11)
-#define MIPSF_F(r)	((r) << 6)
-#define MIPSF_A(n)	((n) << 6)
-#define MIPSF_M(n)	((n) << 11)
-
-typedef enum MIPSIns {
-  /* Integer instructions. */
-  MIPSI_MOVE = 0x00000021,
-  MIPSI_NOP = 0x00000000,
-
-  MIPSI_LI = 0x24000000,
-  MIPSI_LU = 0x34000000,
-  MIPSI_LUI = 0x3c000000,
-
-  MIPSI_ADDIU = 0x24000000,
-  MIPSI_ANDI = 0x30000000,
-  MIPSI_ORI = 0x34000000,
-  MIPSI_XORI = 0x38000000,
-  MIPSI_SLTI = 0x28000000,
-  MIPSI_SLTIU = 0x2c000000,
-
-  MIPSI_ADDU = 0x00000021,
-  MIPSI_SUBU = 0x00000023,
-  MIPSI_MUL = 0x70000002,
-  MIPSI_AND = 0x00000024,
-  MIPSI_OR = 0x00000025,
-  MIPSI_XOR = 0x00000026,
-  MIPSI_NOR = 0x00000027,
-  MIPSI_SLT = 0x0000002a,
-  MIPSI_SLTU = 0x0000002b,
-  MIPSI_MOVZ = 0x0000000a,
-  MIPSI_MOVN = 0x0000000b,
-
-  MIPSI_SLL = 0x00000000,
-  MIPSI_SRL = 0x00000002,
-  MIPSI_SRA = 0x00000003,
-  MIPSI_ROTR = 0x00200002,	/* MIPS32R2 */
-  MIPSI_SLLV = 0x00000004,
-  MIPSI_SRLV = 0x00000006,
-  MIPSI_SRAV = 0x00000007,
-  MIPSI_ROTRV = 0x00000046,	/* MIPS32R2 */
-
-  MIPSI_SEB = 0x7c000420,	/* MIPS32R2 */
-  MIPSI_SEH = 0x7c000620,	/* MIPS32R2 */
-  MIPSI_WSBH = 0x7c0000a0,	/* MIPS32R2 */
-
-  MIPSI_B = 0x10000000,
-  MIPSI_J = 0x08000000,
-  MIPSI_JAL = 0x0c000000,
-  MIPSI_JR = 0x00000008,
-  MIPSI_JALR = 0x0000f809,
-
-  MIPSI_BEQ = 0x10000000,
-  MIPSI_BNE = 0x14000000,
-  MIPSI_BLEZ = 0x18000000,
-  MIPSI_BGTZ = 0x1c000000,
-  MIPSI_BLTZ = 0x04000000,
-  MIPSI_BGEZ = 0x04010000,
-
-  /* Load/store instructions. */
-  MIPSI_LW = 0x8c000000,
-  MIPSI_SW = 0xac000000,
-  MIPSI_LB = 0x80000000,
-  MIPSI_SB = 0xa0000000,
-  MIPSI_LH = 0x84000000,
-  MIPSI_SH = 0xa4000000,
-  MIPSI_LBU = 0x90000000,
-  MIPSI_LHU = 0x94000000,
-  MIPSI_LWC1 = 0xc4000000,
-  MIPSI_SWC1 = 0xe4000000,
-  MIPSI_LDC1 = 0xd4000000,
-  MIPSI_SDC1 = 0xf4000000,
-
-  /* FP instructions. */
-  MIPSI_MOV_S = 0x46000006,
-  MIPSI_MOV_D = 0x46200006,
-  MIPSI_MOVT_D = 0x46210011,
-  MIPSI_MOVF_D = 0x46200011,
-
-  MIPSI_ABS_D = 0x46200005,
-  MIPSI_NEG_D = 0x46200007,
-
-  MIPSI_ADD_D = 0x46200000,
-  MIPSI_SUB_D = 0x46200001,
-  MIPSI_MUL_D = 0x46200002,
-  MIPSI_DIV_D = 0x46200003,
-  MIPSI_SQRT_D = 0x46200004,
-
-  MIPSI_ADD_S = 0x46000000,
-  MIPSI_SUB_S = 0x46000001,
-
-  MIPSI_CVT_D_S = 0x46000021,
-  MIPSI_CVT_W_S = 0x46000024,
-  MIPSI_CVT_S_D = 0x46200020,
-  MIPSI_CVT_W_D = 0x46200024,
-  MIPSI_CVT_S_W = 0x46800020,
-  MIPSI_CVT_D_W = 0x46800021,
-
-  MIPSI_TRUNC_W_S = 0x4600000d,
-  MIPSI_TRUNC_W_D = 0x4620000d,
-  MIPSI_FLOOR_W_S = 0x4600000f,
-  MIPSI_FLOOR_W_D = 0x4620000f,
-
-  MIPSI_MFC1 = 0x44000000,
-  MIPSI_MTC1 = 0x44800000,
-
-  MIPSI_BC1F = 0x45000000,
-  MIPSI_BC1T = 0x45010000,
-
-  MIPSI_C_EQ_D = 0x46200032,
-  MIPSI_C_OLT_D = 0x46200034,
-  MIPSI_C_ULT_D = 0x46200035,
-  MIPSI_C_OLE_D = 0x46200036,
-  MIPSI_C_ULE_D = 0x46200037,
-
-} MIPSIns;
-
-#endif
diff --git a/luajit-2.0/src/lj_target_ppc.h b/luajit-2.0/src/lj_target_ppc.h
deleted file mode 100644
index 475e046..0000000
--- a/luajit-2.0/src/lj_target_ppc.h
+++ /dev/null
@@ -1,280 +0,0 @@
-/*
-** Definitions for PPC CPUs.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#ifndef _LJ_TARGET_PPC_H
-#define _LJ_TARGET_PPC_H
-
-/* -- Registers IDs ------------------------------------------------------- */
-
-#define GPRDEF(_) \
-  _(R0) _(SP) _(SYS1) _(R3) _(R4) _(R5) _(R6) _(R7) \
-  _(R8) _(R9) _(R10) _(R11) _(R12) _(SYS2) _(R14) _(R15) \
-  _(R16) _(R17) _(R18) _(R19) _(R20) _(R21) _(R22) _(R23) \
-  _(R24) _(R25) _(R26) _(R27) _(R28) _(R29) _(R30) _(R31)
-#define FPRDEF(_) \
-  _(F0) _(F1) _(F2) _(F3) _(F4) _(F5) _(F6) _(F7) \
-  _(F8) _(F9) _(F10) _(F11) _(F12) _(F13) _(F14) _(F15) \
-  _(F16) _(F17) _(F18) _(F19) _(F20) _(F21) _(F22) _(F23) \
-  _(F24) _(F25) _(F26) _(F27) _(F28) _(F29) _(F30) _(F31)
-#define VRIDDEF(_)
-
-#define RIDENUM(name)	RID_##name,
-
-enum {
-  GPRDEF(RIDENUM)		/* General-purpose registers (GPRs). */
-  FPRDEF(RIDENUM)		/* Floating-point registers (FPRs). */
-  RID_MAX,
-  RID_TMP = RID_R0,
-
-  /* Calling conventions. */
-  RID_RET = RID_R3,
-  RID_RETHI = RID_R3,
-  RID_RETLO = RID_R4,
-  RID_FPRET = RID_F1,
-
-  /* These definitions must match with the *.dasc file(s): */
-  RID_BASE = RID_R14,		/* Interpreter BASE. */
-  RID_LPC = RID_R16,		/* Interpreter PC. */
-  RID_DISPATCH = RID_R17,	/* Interpreter DISPATCH table. */
-  RID_LREG = RID_R18,		/* Interpreter L. */
-  RID_JGL = RID_R31,		/* On-trace: global_State + 32768. */
-
-  /* Register ranges [min, max) and number of registers. */
-  RID_MIN_GPR = RID_R0,
-  RID_MAX_GPR = RID_R31+1,
-  RID_MIN_FPR = RID_F0,
-  RID_MAX_FPR = RID_F31+1,
-  RID_NUM_GPR = RID_MAX_GPR - RID_MIN_GPR,
-  RID_NUM_FPR = RID_MAX_FPR - RID_MIN_FPR
-};
-
-#define RID_NUM_KREF		RID_NUM_GPR
-#define RID_MIN_KREF		RID_R0
-
-/* -- Register sets ------------------------------------------------------- */
-
-/* Make use of all registers, except TMP, SP, SYS1, SYS2 and JGL. */
-#define RSET_FIXED \
-  (RID2RSET(RID_TMP)|RID2RSET(RID_SP)|RID2RSET(RID_SYS1)|\
-   RID2RSET(RID_SYS2)|RID2RSET(RID_JGL))
-#define RSET_GPR	(RSET_RANGE(RID_MIN_GPR, RID_MAX_GPR) - RSET_FIXED)
-#define RSET_FPR	RSET_RANGE(RID_MIN_FPR, RID_MAX_FPR)
-#define RSET_ALL	(RSET_GPR|RSET_FPR)
-#define RSET_INIT	RSET_ALL
-
-#define RSET_SCRATCH_GPR	(RSET_RANGE(RID_R3, RID_R12+1))
-#define RSET_SCRATCH_FPR	(RSET_RANGE(RID_F0, RID_F13+1))
-#define RSET_SCRATCH		(RSET_SCRATCH_GPR|RSET_SCRATCH_FPR)
-#define REGARG_FIRSTGPR		RID_R3
-#define REGARG_LASTGPR		RID_R10
-#define REGARG_NUMGPR		8
-#define REGARG_FIRSTFPR		RID_F1
-#define REGARG_LASTFPR		RID_F8
-#define REGARG_NUMFPR		8
-
-/* -- Spill slots --------------------------------------------------------- */
-
-/* Spill slots are 32 bit wide. An even/odd pair is used for FPRs.
-**
-** SPS_FIXED: Available fixed spill slots in interpreter frame.
-** This definition must match with the *.dasc file(s).
-**
-** SPS_FIRST: First spill slot for general use.
-** [sp+12] tmplo word \
-** [sp+ 8] tmphi word / tmp dword, parameter area for callee
-** [sp+ 4] tmpw, LR of callee
-** [sp+ 0] stack chain
-*/
-#define SPS_FIXED	7
-#define SPS_FIRST	4
-
-/* Stack offsets for temporary slots. Used for FP<->int conversions etc. */
-#define SPOFS_TMPW	4
-#define SPOFS_TMP	8
-#define SPOFS_TMPHI	8
-#define SPOFS_TMPLO	12
-
-#define sps_scale(slot)		(4 * (int32_t)(slot))
-#define sps_align(slot)		(((slot) - SPS_FIXED + 3) & ~3)
-
-/* -- Exit state ---------------------------------------------------------- */
-
-/* This definition must match with the *.dasc file(s). */
-typedef struct {
-  lua_Number fpr[RID_NUM_FPR];	/* Floating-point registers. */
-  int32_t gpr[RID_NUM_GPR];	/* General-purpose registers. */
-  int32_t spill[256];		/* Spill slots. */
-} ExitState;
-
-/* Highest exit + 1 indicates stack check. */
-#define EXITSTATE_CHECKEXIT	1
-
-/* Return the address of a per-trace exit stub. */
-static LJ_AINLINE uint32_t *exitstub_trace_addr_(uint32_t *p, uint32_t exitno)
-{
-  while (*p == 0x60000000) p++;  /* Skip PPCI_NOP. */
-  return p + 3 + exitno;
-}
-/* Avoid dependence on lj_jit.h if only including lj_target.h. */
-#define exitstub_trace_addr(T, exitno) \
-  exitstub_trace_addr_((MCode *)((char *)(T)->mcode + (T)->szmcode), (exitno))
-
-/* -- Instructions -------------------------------------------------------- */
-
-/* Instruction fields. */
-#define PPCF_CC(cc)	((((cc) & 3) << 16) | (((cc) & 4) << 22))
-#define PPCF_T(r)	((r) << 21)
-#define PPCF_A(r)	((r) << 16)
-#define PPCF_B(r)	((r) << 11)
-#define PPCF_C(r)	((r) << 6)
-#define PPCF_MB(n)	((n) << 6)
-#define PPCF_ME(n)	((n) << 1)
-#define PPCF_Y		0x00200000
-#define PPCF_DOT	0x00000001
-
-typedef enum PPCIns {
-  /* Integer instructions. */
-  PPCI_MR = 0x7c000378,
-  PPCI_NOP = 0x60000000,
-
-  PPCI_LI = 0x38000000,
-  PPCI_LIS = 0x3c000000,
-
-  PPCI_ADD = 0x7c000214,
-  PPCI_ADDC = 0x7c000014,
-  PPCI_ADDO = 0x7c000614,
-  PPCI_ADDE = 0x7c000114,
-  PPCI_ADDZE = 0x7c000194,
-  PPCI_ADDME = 0x7c0001d4,
-  PPCI_ADDI = 0x38000000,
-  PPCI_ADDIS = 0x3c000000,
-  PPCI_ADDIC = 0x30000000,
-  PPCI_ADDICDOT = 0x34000000,
-
-  PPCI_SUBF = 0x7c000050,
-  PPCI_SUBFC = 0x7c000010,
-  PPCI_SUBFO = 0x7c000450,
-  PPCI_SUBFE = 0x7c000110,
-  PPCI_SUBFZE = 0x7c000190,
-  PPCI_SUBFME = 0x7c0001d0,
-  PPCI_SUBFIC = 0x20000000,
-
-  PPCI_NEG = 0x7c0000d0,
-
-  PPCI_AND = 0x7c000038,
-  PPCI_ANDC = 0x7c000078,
-  PPCI_NAND = 0x7c0003b8,
-  PPCI_ANDIDOT = 0x70000000,
-  PPCI_ANDISDOT = 0x74000000,
-
-  PPCI_OR = 0x7c000378,
-  PPCI_NOR = 0x7c0000f8,
-  PPCI_ORI = 0x60000000,
-  PPCI_ORIS = 0x64000000,
-
-  PPCI_XOR = 0x7c000278,
-  PPCI_EQV = 0x7c000238,
-  PPCI_XORI = 0x68000000,
-  PPCI_XORIS = 0x6c000000,
-
-  PPCI_CMPW = 0x7c000000,
-  PPCI_CMPLW = 0x7c000040,
-  PPCI_CMPWI = 0x2c000000,
-  PPCI_CMPLWI = 0x28000000,
-
-  PPCI_MULLW = 0x7c0001d6,
-  PPCI_MULLI = 0x1c000000,
-  PPCI_MULLWO = 0x7c0005d6,
-
-  PPCI_EXTSB = 0x7c000774,
-  PPCI_EXTSH = 0x7c000734,
-
-  PPCI_SLW = 0x7c000030,
-  PPCI_SRW = 0x7c000430,
-  PPCI_SRAW = 0x7c000630,
-  PPCI_SRAWI = 0x7c000670,
-
-  PPCI_RLWNM = 0x5c000000,
-  PPCI_RLWINM = 0x54000000,
-  PPCI_RLWIMI = 0x50000000,
-
-  PPCI_B = 0x48000000,
-  PPCI_BL = 0x48000001,
-  PPCI_BC = 0x40800000,
-  PPCI_BCL = 0x40800001,
-  PPCI_BCTR = 0x4e800420,
-  PPCI_BCTRL = 0x4e800421,
-
-  PPCI_CRANDC = 0x4c000102,
-  PPCI_CRXOR = 0x4c000182,
-  PPCI_CRAND = 0x4c000202,
-  PPCI_CREQV = 0x4c000242,
-  PPCI_CRORC = 0x4c000342,
-  PPCI_CROR = 0x4c000382,
-
-  PPCI_MFLR = 0x7c0802a6,
-  PPCI_MTCTR = 0x7c0903a6,
-
-  PPCI_MCRXR = 0x7c000400,
-
-  /* Load/store instructions. */
-  PPCI_LWZ = 0x80000000,
-  PPCI_LBZ = 0x88000000,
-  PPCI_STW = 0x90000000,
-  PPCI_STB = 0x98000000,
-  PPCI_LHZ = 0xa0000000,
-  PPCI_LHA = 0xa8000000,
-  PPCI_STH = 0xb0000000,
-
-  PPCI_STWU = 0x94000000,
-
-  PPCI_LFS = 0xc0000000,
-  PPCI_LFD = 0xc8000000,
-  PPCI_STFS = 0xd0000000,
-  PPCI_STFD = 0xd8000000,
-
-  PPCI_LWZX = 0x7c00002e,
-  PPCI_LBZX = 0x7c0000ae,
-  PPCI_STWX = 0x7c00012e,
-  PPCI_STBX = 0x7c0001ae,
-  PPCI_LHZX = 0x7c00022e,
-  PPCI_LHAX = 0x7c0002ae,
-  PPCI_STHX = 0x7c00032e,
-
-  PPCI_LWBRX = 0x7c00042c,
-  PPCI_STWBRX = 0x7c00052c,
-
-  PPCI_LFSX = 0x7c00042e,
-  PPCI_LFDX = 0x7c0004ae,
-  PPCI_STFSX = 0x7c00052e,
-  PPCI_STFDX = 0x7c0005ae,
-
-  /* FP instructions. */
-  PPCI_FMR = 0xfc000090,
-  PPCI_FNEG = 0xfc000050,
-  PPCI_FABS = 0xfc000210,
-
-  PPCI_FRSP = 0xfc000018,
-  PPCI_FCTIWZ = 0xfc00001e,
-
-  PPCI_FADD = 0xfc00002a,
-  PPCI_FSUB = 0xfc000028,
-  PPCI_FMUL = 0xfc000032,
-  PPCI_FDIV = 0xfc000024,
-  PPCI_FSQRT = 0xfc00002c,
-
-  PPCI_FMADD = 0xfc00003a,
-  PPCI_FMSUB = 0xfc000038,
-  PPCI_FNMSUB = 0xfc00003c,
-
-  PPCI_FCMPU = 0xfc000000,
-  PPCI_FSEL = 0xfc00002e,
-} PPCIns;
-
-typedef enum PPCCC {
-  CC_GE, CC_LE, CC_NE, CC_NS, CC_LT, CC_GT, CC_EQ, CC_SO
-} PPCCC;
-
-#endif
diff --git a/luajit-2.0/src/lj_target_x86.h b/luajit-2.0/src/lj_target_x86.h
deleted file mode 100644
index 41f401b..0000000
--- a/luajit-2.0/src/lj_target_x86.h
+++ /dev/null
@@ -1,342 +0,0 @@
-/*
-** Definitions for x86 and x64 CPUs.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#ifndef _LJ_TARGET_X86_H
-#define _LJ_TARGET_X86_H
-
-/* -- Registers IDs ------------------------------------------------------- */
-
-#if LJ_64
-#define GPRDEF(_) \
-  _(EAX) _(ECX) _(EDX) _(EBX) _(ESP) _(EBP) _(ESI) _(EDI) \
-  _(R8D) _(R9D) _(R10D) _(R11D) _(R12D) _(R13D) _(R14D) _(R15D)
-#define FPRDEF(_) \
-  _(XMM0) _(XMM1) _(XMM2) _(XMM3) _(XMM4) _(XMM5) _(XMM6) _(XMM7) \
-  _(XMM8) _(XMM9) _(XMM10) _(XMM11) _(XMM12) _(XMM13) _(XMM14) _(XMM15)
-#else
-#define GPRDEF(_) \
-  _(EAX) _(ECX) _(EDX) _(EBX) _(ESP) _(EBP) _(ESI) _(EDI)
-#define FPRDEF(_) \
-  _(XMM0) _(XMM1) _(XMM2) _(XMM3) _(XMM4) _(XMM5) _(XMM6) _(XMM7)
-#endif
-#define VRIDDEF(_) \
-  _(MRM)
-
-#define RIDENUM(name)	RID_##name,
-
-enum {
-  GPRDEF(RIDENUM)		/* General-purpose registers (GPRs). */
-  FPRDEF(RIDENUM)		/* Floating-point registers (FPRs). */
-  RID_MAX,
-  RID_MRM = RID_MAX,		/* Pseudo-id for ModRM operand. */
-
-  /* Calling conventions. */
-  RID_RET = RID_EAX,
-#if LJ_64
-  RID_FPRET = RID_XMM0,
-#else
-  RID_RETLO = RID_EAX,
-  RID_RETHI = RID_EDX,
-#endif
-
-  /* These definitions must match with the *.dasc file(s): */
-  RID_BASE = RID_EDX,		/* Interpreter BASE. */
-#if LJ_64 && !LJ_ABI_WIN
-  RID_LPC = RID_EBX,		/* Interpreter PC. */
-  RID_DISPATCH = RID_R14D,	/* Interpreter DISPATCH table. */
-#else
-  RID_LPC = RID_ESI,		/* Interpreter PC. */
-  RID_DISPATCH = RID_EBX,	/* Interpreter DISPATCH table. */
-#endif
-
-  /* Register ranges [min, max) and number of registers. */
-  RID_MIN_GPR = RID_EAX,
-  RID_MIN_FPR = RID_XMM0,
-  RID_MAX_GPR = RID_MIN_FPR,
-  RID_MAX_FPR = RID_MAX,
-  RID_NUM_GPR = RID_MAX_GPR - RID_MIN_GPR,
-  RID_NUM_FPR = RID_MAX_FPR - RID_MIN_FPR,
-};
-
-/* -- Register sets ------------------------------------------------------- */
-
-/* Make use of all registers, except the stack pointer. */
-#define RSET_GPR	(RSET_RANGE(RID_MIN_GPR, RID_MAX_GPR)-RID2RSET(RID_ESP))
-#define RSET_FPR	(RSET_RANGE(RID_MIN_FPR, RID_MAX_FPR))
-#define RSET_ALL	(RSET_GPR|RSET_FPR)
-#define RSET_INIT	RSET_ALL
-
-#if LJ_64
-/* Note: this requires the use of FORCE_REX! */
-#define RSET_GPR8	RSET_GPR
-#else
-#define RSET_GPR8	(RSET_RANGE(RID_EAX, RID_EBX+1))
-#endif
-
-/* ABI-specific register sets. */
-#define RSET_ACD	(RID2RSET(RID_EAX)|RID2RSET(RID_ECX)|RID2RSET(RID_EDX))
-#if LJ_64
-#if LJ_ABI_WIN
-/* Windows x64 ABI. */
-#define RSET_SCRATCH \
-  (RSET_ACD|RSET_RANGE(RID_R8D, RID_R11D+1)|RSET_RANGE(RID_XMM0, RID_XMM5+1))
-#define REGARG_GPRS \
-  (RID_ECX|((RID_EDX|((RID_R8D|(RID_R9D<<5))<<5))<<5))
-#define REGARG_NUMGPR	4
-#define REGARG_NUMFPR	4
-#define REGARG_FIRSTFPR	RID_XMM0
-#define REGARG_LASTFPR	RID_XMM3
-#define STACKARG_OFS	(4*8)
-#else
-/* The rest of the civilized x64 world has a common ABI. */
-#define RSET_SCRATCH \
-  (RSET_ACD|RSET_RANGE(RID_ESI, RID_R11D+1)|RSET_FPR)
-#define REGARG_GPRS \
-  (RID_EDI|((RID_ESI|((RID_EDX|((RID_ECX|((RID_R8D|(RID_R9D \
-   <<5))<<5))<<5))<<5))<<5))
-#define REGARG_NUMGPR	6
-#define REGARG_NUMFPR	8
-#define REGARG_FIRSTFPR	RID_XMM0
-#define REGARG_LASTFPR	RID_XMM7
-#define STACKARG_OFS	0
-#endif
-#else
-/* Common x86 ABI. */
-#define RSET_SCRATCH	(RSET_ACD|RSET_FPR)
-#define REGARG_GPRS	(RID_ECX|(RID_EDX<<5))  /* Fastcall only. */
-#define REGARG_NUMGPR	2  /* Fastcall only. */
-#define REGARG_NUMFPR	0
-#define STACKARG_OFS	0
-#endif
-
-#if LJ_64
-/* Prefer the low 8 regs of each type to reduce REX prefixes. */
-#undef rset_picktop
-#define rset_picktop(rs)	(lj_fls(lj_bswap(rs)) ^ 0x18)
-#endif
-
-/* -- Spill slots --------------------------------------------------------- */
-
-/* Spill slots are 32 bit wide. An even/odd pair is used for FPRs.
-**
-** SPS_FIXED: Available fixed spill slots in interpreter frame.
-** This definition must match with the *.dasc file(s).
-**
-** SPS_FIRST: First spill slot for general use. Reserve min. two 32 bit slots.
-*/
-#if LJ_64
-#if LJ_ABI_WIN
-#define SPS_FIXED	(4*2)
-#define SPS_FIRST	(4*2)	/* Don't use callee register save area. */
-#else
-#define SPS_FIXED	4
-#define SPS_FIRST	2
-#endif
-#else
-#define SPS_FIXED	6
-#define SPS_FIRST	2
-#endif
-
-#define SPOFS_TMP	0
-
-#define sps_scale(slot)		(4 * (int32_t)(slot))
-#define sps_align(slot)		(((slot) - SPS_FIXED + 3) & ~3)
-
-/* -- Exit state ---------------------------------------------------------- */
-
-/* This definition must match with the *.dasc file(s). */
-typedef struct {
-  lua_Number fpr[RID_NUM_FPR];	/* Floating-point registers. */
-  intptr_t gpr[RID_NUM_GPR];	/* General-purpose registers. */
-  int32_t spill[256];		/* Spill slots. */
-} ExitState;
-
-/* Limited by the range of a short fwd jump (127): (2+2)*(32-1)-2 = 122. */
-#define EXITSTUB_SPACING	(2+2)
-#define EXITSTUBS_PER_GROUP	32
-
-/* -- x86 ModRM operand encoding ------------------------------------------ */
-
-typedef enum {
-  XM_OFS0 = 0x00, XM_OFS8 = 0x40, XM_OFS32 = 0x80, XM_REG = 0xc0,
-  XM_SCALE1 = 0x00, XM_SCALE2 = 0x40, XM_SCALE4 = 0x80, XM_SCALE8 = 0xc0,
-  XM_MASK = 0xc0
-} x86Mode;
-
-/* Structure to hold variable ModRM operand. */
-typedef struct {
-  int32_t ofs;		/* Offset. */
-  uint8_t base;		/* Base register or RID_NONE. */
-  uint8_t idx;		/* Index register or RID_NONE. */
-  uint8_t scale;	/* Index scale (XM_SCALE1 .. XM_SCALE8). */
-} x86ModRM;
-
-/* -- Opcodes ------------------------------------------------------------- */
-
-/* Macros to construct variable-length x86 opcodes. -(len+1) is in LSB. */
-#define XO_(o)		((uint32_t)(0x0000fe + (0x##o<<24)))
-#define XO_FPU(a,b)	((uint32_t)(0x00fd + (0x##a<<16)+(0x##b<<24)))
-#define XO_0f(o)	((uint32_t)(0x0f00fd + (0x##o<<24)))
-#define XO_66(o)	((uint32_t)(0x6600fd + (0x##o<<24)))
-#define XO_660f(o)	((uint32_t)(0x0f66fc + (0x##o<<24)))
-#define XO_f20f(o)	((uint32_t)(0x0ff2fc + (0x##o<<24)))
-#define XO_f30f(o)	((uint32_t)(0x0ff3fc + (0x##o<<24)))
-
-/* This list of x86 opcodes is not intended to be complete. Opcodes are only
-** included when needed. Take a look at DynASM or jit.dis_x86 to see the
-** whole mess.
-*/
-typedef enum {
-  /* Fixed length opcodes. XI_* prefix. */
-  XI_NOP =	0x90,
-  XI_XCHGa =	0x90,
-  XI_CALL =	0xe8,
-  XI_JMP =	0xe9,
-  XI_JMPs =	0xeb,
-  XI_PUSH =	0x50, /* Really 50+r. */
-  XI_JCCs =	0x70, /* Really 7x. */
-  XI_JCCn =	0x80, /* Really 0f8x. */
-  XI_LEA =	0x8d,
-  XI_MOVrib =	0xb0, /* Really b0+r. */
-  XI_MOVri =	0xb8, /* Really b8+r. */
-  XI_ARITHib =	0x80,
-  XI_ARITHi =	0x81,
-  XI_ARITHi8 =	0x83,
-  XI_PUSHi8 =	0x6a,
-  XI_TESTb =	0x84,
-  XI_TEST =	0x85,
-  XI_MOVmi =	0xc7,
-  XI_GROUP5 =	0xff,
-
-  /* Note: little-endian byte-order! */
-  XI_FLDZ =	0xeed9,
-  XI_FLD1 =	0xe8d9,
-  XI_FLDLG2 =	0xecd9,
-  XI_FLDLN2 =	0xedd9,
-  XI_FDUP =	0xc0d9,  /* Really fld st0. */
-  XI_FPOP =	0xd8dd,  /* Really fstp st0. */
-  XI_FPOP1 =	0xd9dd,  /* Really fstp st1. */
-  XI_FRNDINT =	0xfcd9,
-  XI_FSIN =	0xfed9,
-  XI_FCOS =	0xffd9,
-  XI_FPTAN =	0xf2d9,
-  XI_FPATAN =	0xf3d9,
-  XI_FSCALE =	0xfdd9,
-  XI_FYL2X =	0xf1d9,
-
-  /* Variable-length opcodes. XO_* prefix. */
-  XO_MOV =	XO_(8b),
-  XO_MOVto =	XO_(89),
-  XO_MOVtow =	XO_66(89),
-  XO_MOVtob =	XO_(88),
-  XO_MOVmi =	XO_(c7),
-  XO_MOVmib =	XO_(c6),
-  XO_LEA =	XO_(8d),
-  XO_ARITHib =	XO_(80),
-  XO_ARITHi =	XO_(81),
-  XO_ARITHi8 =	XO_(83),
-  XO_ARITHiw8 =	XO_66(83),
-  XO_SHIFTi =	XO_(c1),
-  XO_SHIFT1 =	XO_(d1),
-  XO_SHIFTcl =	XO_(d3),
-  XO_IMUL =	XO_0f(af),
-  XO_IMULi =	XO_(69),
-  XO_IMULi8 =	XO_(6b),
-  XO_CMP =	XO_(3b),
-  XO_TESTb =	XO_(84),
-  XO_TEST =	XO_(85),
-  XO_GROUP3b =	XO_(f6),
-  XO_GROUP3 =	XO_(f7),
-  XO_GROUP5b =	XO_(fe),
-  XO_GROUP5 =	XO_(ff),
-  XO_MOVZXb =	XO_0f(b6),
-  XO_MOVZXw =	XO_0f(b7),
-  XO_MOVSXb =	XO_0f(be),
-  XO_MOVSXw =	XO_0f(bf),
-  XO_MOVSXd =	XO_(63),
-  XO_BSWAP =	XO_0f(c8),
-  XO_CMOV =	XO_0f(40),
-
-  XO_MOVSD =	XO_f20f(10),
-  XO_MOVSDto =	XO_f20f(11),
-  XO_MOVSS =	XO_f30f(10),
-  XO_MOVSSto =	XO_f30f(11),
-  XO_MOVLPD =	XO_660f(12),
-  XO_MOVAPS =	XO_0f(28),
-  XO_XORPS =	XO_0f(57),
-  XO_ANDPS =	XO_0f(54),
-  XO_ADDSD =	XO_f20f(58),
-  XO_SUBSD =	XO_f20f(5c),
-  XO_MULSD =	XO_f20f(59),
-  XO_DIVSD =	XO_f20f(5e),
-  XO_SQRTSD =	XO_f20f(51),
-  XO_MINSD =	XO_f20f(5d),
-  XO_MAXSD =	XO_f20f(5f),
-  XO_ROUNDSD =	0x0b3a0ffc,  /* Really 66 0f 3a 0b. See asm_fpmath. */
-  XO_UCOMISD =	XO_660f(2e),
-  XO_CVTSI2SD =	XO_f20f(2a),
-  XO_CVTSD2SI =	XO_f20f(2d),
-  XO_CVTTSD2SI=	XO_f20f(2c),
-  XO_CVTSI2SS =	XO_f30f(2a),
-  XO_CVTSS2SI =	XO_f30f(2d),
-  XO_CVTTSS2SI=	XO_f30f(2c),
-  XO_CVTSS2SD =	XO_f30f(5a),
-  XO_CVTSD2SS =	XO_f20f(5a),
-  XO_ADDSS =	XO_f30f(58),
-  XO_MOVD =	XO_660f(6e),
-  XO_MOVDto =	XO_660f(7e),
-
-  XO_FLDd =	XO_(d9), XOg_FLDd = 0,
-  XO_FLDq =	XO_(dd), XOg_FLDq = 0,
-  XO_FILDd =	XO_(db), XOg_FILDd = 0,
-  XO_FILDq =	XO_(df), XOg_FILDq = 5,
-  XO_FSTPd =	XO_(d9), XOg_FSTPd = 3,
-  XO_FSTPq =	XO_(dd), XOg_FSTPq = 3,
-  XO_FISTPq =	XO_(df), XOg_FISTPq = 7,
-  XO_FISTTPq =	XO_(dd), XOg_FISTTPq = 1,
-  XO_FADDq =	XO_(dc), XOg_FADDq = 0,
-  XO_FLDCW =	XO_(d9), XOg_FLDCW = 5,
-  XO_FNSTCW =	XO_(d9), XOg_FNSTCW = 7
-} x86Op;
-
-/* x86 opcode groups. */
-typedef uint32_t x86Group;
-
-#define XG_(i8, i, g)	((x86Group)(((i8) << 16) + ((i) << 8) + (g)))
-#define XG_ARITHi(g)	XG_(XI_ARITHi8, XI_ARITHi, g)
-#define XG_TOXOi(xg)	((x86Op)(0x000000fe + (((xg)<<16) & 0xff000000)))
-#define XG_TOXOi8(xg)	((x86Op)(0x000000fe + (((xg)<<8) & 0xff000000)))
-
-#define XO_ARITH(a)	((x86Op)(0x030000fe + ((a)<<27)))
-#define XO_ARITHw(a)	((x86Op)(0x036600fd + ((a)<<27)))
-
-typedef enum {
-  XOg_ADD, XOg_OR, XOg_ADC, XOg_SBB, XOg_AND, XOg_SUB, XOg_XOR, XOg_CMP,
-  XOg_X_IMUL
-} x86Arith;
-
-typedef enum {
-  XOg_ROL, XOg_ROR, XOg_RCL, XOg_RCR, XOg_SHL, XOg_SHR, XOg_SAL, XOg_SAR
-} x86Shift;
-
-typedef enum {
-  XOg_TEST, XOg_TEST_, XOg_NOT, XOg_NEG, XOg_MUL, XOg_IMUL, XOg_DIV, XOg_IDIV
-} x86Group3;
-
-typedef enum {
-  XOg_INC, XOg_DEC, XOg_CALL, XOg_CALLfar, XOg_JMP, XOg_JMPfar, XOg_PUSH
-} x86Group5;
-
-/* x86 condition codes. */
-typedef enum {
-  CC_O, CC_NO, CC_B, CC_NB, CC_E, CC_NE, CC_BE, CC_NBE,
-  CC_S, CC_NS, CC_P, CC_NP, CC_L, CC_NL, CC_LE, CC_NLE,
-  CC_C = CC_B, CC_NAE = CC_C, CC_NC = CC_NB, CC_AE = CC_NB,
-  CC_Z = CC_E, CC_NZ = CC_NE, CC_NA = CC_BE, CC_A = CC_NBE,
-  CC_PE = CC_P, CC_PO = CC_NP, CC_NGE = CC_L, CC_GE = CC_NL,
-  CC_NG = CC_LE, CC_G = CC_NLE
-} x86CC;
-
-#endif
diff --git a/luajit-2.0/src/lj_trace.c b/luajit-2.0/src/lj_trace.c
deleted file mode 100644
index 0f48809..0000000
--- a/luajit-2.0/src/lj_trace.c
+++ /dev/null
@@ -1,816 +0,0 @@
-/*
-** Trace management.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#define lj_trace_c
-#define LUA_CORE
-
-#include "lj_obj.h"
-
-#if LJ_HASJIT
-
-#include "lj_gc.h"
-#include "lj_err.h"
-#include "lj_debug.h"
-#include "lj_str.h"
-#include "lj_frame.h"
-#include "lj_state.h"
-#include "lj_bc.h"
-#include "lj_ir.h"
-#include "lj_jit.h"
-#include "lj_iropt.h"
-#include "lj_mcode.h"
-#include "lj_trace.h"
-#include "lj_snap.h"
-#include "lj_gdbjit.h"
-#include "lj_record.h"
-#include "lj_asm.h"
-#include "lj_dispatch.h"
-#include "lj_vm.h"
-#include "lj_vmevent.h"
-#include "lj_target.h"
-
-/* -- Error handling ------------------------------------------------------ */
-
-/* Synchronous abort with error message. */
-void lj_trace_err(jit_State *J, TraceError e)
-{
-  setnilV(&J->errinfo);  /* No error info. */
-  setintV(J->L->top++, (int32_t)e);
-  lj_err_throw(J->L, LUA_ERRRUN);
-}
-
-/* Synchronous abort with error message and error info. */
-void lj_trace_err_info(jit_State *J, TraceError e)
-{
-  setintV(J->L->top++, (int32_t)e);
-  lj_err_throw(J->L, LUA_ERRRUN);
-}
-
-/* -- Trace management ---------------------------------------------------- */
-
-/* The current trace is first assembled in J->cur. The variable length
-** arrays point to shared, growable buffers (J->irbuf etc.). When trace
-** recording ends successfully, the current trace and its data structures
-** are copied to a new (compact) GCtrace object.
-*/
-
-/* Find a free trace number. */
-static TraceNo trace_findfree(jit_State *J)
-{
-  MSize osz, lim;
-  if (J->freetrace == 0)
-    J->freetrace = 1;
-  for (; J->freetrace < J->sizetrace; J->freetrace++)
-    if (traceref(J, J->freetrace) == NULL)
-      return J->freetrace++;
-  /* Need to grow trace array. */
-  lim = (MSize)J->param[JIT_P_maxtrace] + 1;
-  if (lim < 2) lim = 2; else if (lim > 65535) lim = 65535;
-  osz = J->sizetrace;
-  if (osz >= lim)
-    return 0;  /* Too many traces. */
-  lj_mem_growvec(J->L, J->trace, J->sizetrace, lim, GCRef);
-  for (; osz < J->sizetrace; osz++)
-    setgcrefnull(J->trace[osz]);
-  return J->freetrace;
-}
-
-#define TRACE_APPENDVEC(field, szfield, tp) \
-  T->field = (tp *)p; \
-  memcpy(p, J->cur.field, J->cur.szfield*sizeof(tp)); \
-  p += J->cur.szfield*sizeof(tp);
-
-#ifdef LUAJIT_USE_PERFTOOLS
-/*
-** Create symbol table of JIT-compiled code. For use with Linux perf tools.
-** Example usage:
-**   perf record -f -e cycles luajit test.lua
-**   perf report -s symbol
-**   rm perf.data /tmp/perf-*.map
-*/
-#include <stdio.h>
-#include <unistd.h>
-
-static void perftools_addtrace(GCtrace *T)
-{
-  static FILE *fp;
-  GCproto *pt = &gcref(T->startpt)->pt;
-  const BCIns *startpc = mref(T->startpc, const BCIns);
-  const char *name = proto_chunknamestr(pt);
-  BCLine lineno;
-  if (name[0] == '@' || name[0] == '=')
-    name++;
-  else
-    name = "(string)";
-  lua_assert(startpc >= proto_bc(pt) && startpc < proto_bc(pt) + pt->sizebc);
-  lineno = lj_debug_line(pt, proto_bcpos(pt, startpc));
-  if (!fp) {
-    char fname[40];
-    sprintf(fname, "/tmp/perf-%d.map", getpid());
-    if (!(fp = fopen(fname, "w"))) return;
-    setlinebuf(fp);
-  }
-  fprintf(fp, "%lx %x TRACE_%d::%s:%u\n",
-	  (long)T->mcode, T->szmcode, T->traceno, name, lineno);
-}
-#endif
-
-/* Save current trace by copying and compacting it. */
-static void trace_save(jit_State *J)
-{
-  size_t sztr = ((sizeof(GCtrace)+7)&~7);
-  size_t szins = (J->cur.nins-J->cur.nk)*sizeof(IRIns);
-  size_t sz = sztr + szins +
-	      J->cur.nsnap*sizeof(SnapShot) +
-	      J->cur.nsnapmap*sizeof(SnapEntry);
-  GCtrace *T = lj_mem_newt(J->L, (MSize)sz, GCtrace);
-  char *p = (char *)T + sztr;
-  memcpy(T, &J->cur, sizeof(GCtrace));
-  setgcrefr(T->nextgc, J2G(J)->gc.root);
-  setgcrefp(J2G(J)->gc.root, T);
-  newwhite(J2G(J), T);
-  T->gct = ~LJ_TTRACE;
-  T->ir = (IRIns *)p - J->cur.nk;
-  memcpy(p, J->cur.ir+J->cur.nk, szins);
-  p += szins;
-  TRACE_APPENDVEC(snap, nsnap, SnapShot)
-  TRACE_APPENDVEC(snapmap, nsnapmap, SnapEntry)
-  J->cur.traceno = 0;
-  setgcrefp(J->trace[T->traceno], T);
-  lj_gc_barriertrace(J2G(J), T->traceno);
-  lj_gdbjit_addtrace(J, T);
-#ifdef LUAJIT_USE_PERFTOOLS
-  perftools_addtrace(T);
-#endif
-}
-
-void LJ_FASTCALL lj_trace_free(global_State *g, GCtrace *T)
-{
-  jit_State *J = G2J(g);
-  if (T->traceno) {
-    lj_gdbjit_deltrace(J, T);
-    if (T->traceno < J->freetrace)
-      J->freetrace = T->traceno;
-    setgcrefnull(J->trace[T->traceno]);
-  }
-  lj_mem_free(g, T,
-    ((sizeof(GCtrace)+7)&~7) + (T->nins-T->nk)*sizeof(IRIns) +
-    T->nsnap*sizeof(SnapShot) + T->nsnapmap*sizeof(SnapEntry));
-}
-
-/* Re-enable compiling a prototype by unpatching any modified bytecode. */
-void lj_trace_reenableproto(GCproto *pt)
-{
-  if ((pt->flags & PROTO_ILOOP)) {
-    BCIns *bc = proto_bc(pt);
-    BCPos i, sizebc = pt->sizebc;;
-    pt->flags &= ~PROTO_ILOOP;
-    if (bc_op(bc[0]) == BC_IFUNCF)
-      setbc_op(&bc[0], BC_FUNCF);
-    for (i = 1; i < sizebc; i++) {
-      BCOp op = bc_op(bc[i]);
-      if (op == BC_IFORL || op == BC_IITERL || op == BC_ILOOP)
-	setbc_op(&bc[i], (int)op+(int)BC_LOOP-(int)BC_ILOOP);
-    }
-  }
-}
-
-/* Unpatch the bytecode modified by a root trace. */
-static void trace_unpatch(jit_State *J, GCtrace *T)
-{
-  BCOp op = bc_op(T->startins);
-  BCIns *pc = mref(T->startpc, BCIns);
-  UNUSED(J);
-  if (op == BC_JMP)
-    return;  /* No need to unpatch branches in parent traces (yet). */
-  switch (bc_op(*pc)) {
-  case BC_JFORL:
-    lua_assert(traceref(J, bc_d(*pc)) == T);
-    *pc = T->startins;
-    pc += bc_j(T->startins);
-    lua_assert(bc_op(*pc) == BC_JFORI);
-    setbc_op(pc, BC_FORI);
-    break;
-  case BC_JITERL:
-  case BC_JLOOP:
-    lua_assert(op == BC_ITERL || op == BC_LOOP || bc_isret(op));
-    *pc = T->startins;
-    break;
-  case BC_JMP:
-    lua_assert(op == BC_ITERL);
-    pc += bc_j(*pc)+2;
-    if (bc_op(*pc) == BC_JITERL) {
-      lua_assert(traceref(J, bc_d(*pc)) == T);
-      *pc = T->startins;
-    }
-    break;
-  case BC_JFUNCF:
-    lua_assert(op == BC_FUNCF);
-    *pc = T->startins;
-    break;
-  default:  /* Already unpatched. */
-    break;
-  }
-}
-
-/* Flush a root trace. */
-static void trace_flushroot(jit_State *J, GCtrace *T)
-{
-  GCproto *pt = &gcref(T->startpt)->pt;
-  lua_assert(T->root == 0 && pt != NULL);
-  /* First unpatch any modified bytecode. */
-  trace_unpatch(J, T);
-  /* Unlink root trace from chain anchored in prototype. */
-  if (pt->trace == T->traceno) {  /* Trace is first in chain. Easy. */
-    pt->trace = T->nextroot;
-  } else if (pt->trace) {  /* Otherwise search in chain of root traces. */
-    GCtrace *T2 = traceref(J, pt->trace);
-    if (T2) {
-      for (; T2->nextroot; T2 = traceref(J, T2->nextroot))
-	if (T2->nextroot == T->traceno) {
-	  T2->nextroot = T->nextroot;  /* Unlink from chain. */
-	  break;
-	}
-    }
-  }
-}
-
-/* Flush a trace. Only root traces are considered. */
-void lj_trace_flush(jit_State *J, TraceNo traceno)
-{
-  if (traceno > 0 && traceno < J->sizetrace) {
-    GCtrace *T = traceref(J, traceno);
-    if (T && T->root == 0)
-      trace_flushroot(J, T);
-  }
-}
-
-/* Flush all traces associated with a prototype. */
-void lj_trace_flushproto(global_State *g, GCproto *pt)
-{
-  while (pt->trace != 0)
-    trace_flushroot(G2J(g), traceref(G2J(g), pt->trace));
-}
-
-/* Flush all traces. */
-int lj_trace_flushall(lua_State *L)
-{
-  jit_State *J = L2J(L);
-  ptrdiff_t i;
-  if ((J2G(J)->hookmask & HOOK_GC))
-    return 1;
-  for (i = (ptrdiff_t)J->sizetrace-1; i > 0; i--) {
-    GCtrace *T = traceref(J, i);
-    if (T) {
-      if (T->root == 0)
-	trace_flushroot(J, T);
-      lj_gdbjit_deltrace(J, T);
-      T->traceno = 0;
-      setgcrefnull(J->trace[i]);
-    }
-  }
-  J->cur.traceno = 0;
-  J->freetrace = 0;
-  /* Clear penalty cache. */
-  memset(J->penalty, 0, sizeof(J->penalty));
-  /* Free the whole machine code and invalidate all exit stub groups. */
-  lj_mcode_free(J);
-  memset(J->exitstubgroup, 0, sizeof(J->exitstubgroup));
-  lj_vmevent_send(L, TRACE,
-    setstrV(L, L->top++, lj_str_newlit(L, "flush"));
-  );
-  return 0;
-}
-
-/* Initialize JIT compiler state. */
-void lj_trace_initstate(global_State *g)
-{
-  jit_State *J = G2J(g);
-  TValue *tv;
-  /* Initialize SIMD constants. */
-  tv = LJ_KSIMD(J, LJ_KSIMD_ABS);
-  tv[0].u64 = U64x(7fffffff,ffffffff);
-  tv[1].u64 = U64x(7fffffff,ffffffff);
-  tv = LJ_KSIMD(J, LJ_KSIMD_NEG);
-  tv[0].u64 = U64x(80000000,00000000);
-  tv[1].u64 = U64x(80000000,00000000);
-}
-
-/* Free everything associated with the JIT compiler state. */
-void lj_trace_freestate(global_State *g)
-{
-  jit_State *J = G2J(g);
-#ifdef LUA_USE_ASSERT
-  {  /* This assumes all traces have already been freed. */
-    ptrdiff_t i;
-    for (i = 1; i < (ptrdiff_t)J->sizetrace; i++)
-      lua_assert(i == (ptrdiff_t)J->cur.traceno || traceref(J, i) == NULL);
-  }
-#endif
-  lj_mcode_free(J);
-  lj_ir_k64_freeall(J);
-  lj_mem_freevec(g, J->snapmapbuf, J->sizesnapmap, SnapEntry);
-  lj_mem_freevec(g, J->snapbuf, J->sizesnap, SnapShot);
-  lj_mem_freevec(g, J->irbuf + J->irbotlim, J->irtoplim - J->irbotlim, IRIns);
-  lj_mem_freevec(g, J->trace, J->sizetrace, GCRef);
-}
-
-/* -- Penalties and blacklisting ------------------------------------------ */
-
-/* Blacklist a bytecode instruction. */
-static void blacklist_pc(GCproto *pt, BCIns *pc)
-{
-  setbc_op(pc, (int)bc_op(*pc)+(int)BC_ILOOP-(int)BC_LOOP);
-  pt->flags |= PROTO_ILOOP;
-}
-
-/* Penalize a bytecode instruction. */
-static void penalty_pc(jit_State *J, GCproto *pt, BCIns *pc, TraceError e)
-{
-  uint32_t i, val = PENALTY_MIN;
-  for (i = 0; i < PENALTY_SLOTS; i++)
-    if (mref(J->penalty[i].pc, const BCIns) == pc) {  /* Cache slot found? */
-      /* First try to bump its hotcount several times. */
-      val = ((uint32_t)J->penalty[i].val << 1) +
-	    LJ_PRNG_BITS(J, PENALTY_RNDBITS);
-      if (val > PENALTY_MAX) {
-	blacklist_pc(pt, pc);  /* Blacklist it, if that didn't help. */
-	return;
-      }
-      goto setpenalty;
-    }
-  /* Assign a new penalty cache slot. */
-  i = J->penaltyslot;
-  J->penaltyslot = (J->penaltyslot + 1) & (PENALTY_SLOTS-1);
-  setmref(J->penalty[i].pc, pc);
-setpenalty:
-  J->penalty[i].val = (uint16_t)val;
-  J->penalty[i].reason = e;
-  hotcount_set(J2GG(J), pc+1, val);
-}
-
-/* -- Trace compiler state machine ---------------------------------------- */
-
-/* Start tracing. */
-static void trace_start(jit_State *J)
-{
-  lua_State *L;
-  TraceNo traceno;
-
-  if ((J->pt->flags & PROTO_NOJIT)) {  /* JIT disabled for this proto? */
-    if (J->parent == 0) {
-      /* Lazy bytecode patching to disable hotcount events. */
-      lua_assert(bc_op(*J->pc) == BC_FORL || bc_op(*J->pc) == BC_ITERL ||
-		 bc_op(*J->pc) == BC_LOOP || bc_op(*J->pc) == BC_FUNCF);
-      setbc_op(J->pc, (int)bc_op(*J->pc)+(int)BC_ILOOP-(int)BC_LOOP);
-      J->pt->flags |= PROTO_ILOOP;
-    }
-    J->state = LJ_TRACE_IDLE;  /* Silently ignored. */
-    return;
-  }
-
-  /* Get a new trace number. */
-  traceno = trace_findfree(J);
-  if (LJ_UNLIKELY(traceno == 0)) {  /* No free trace? */
-    lua_assert((J2G(J)->hookmask & HOOK_GC) == 0);
-    lj_trace_flushall(J->L);
-    J->state = LJ_TRACE_IDLE;  /* Silently ignored. */
-    return;
-  }
-  setgcrefp(J->trace[traceno], &J->cur);
-
-  /* Setup enough of the current trace to be able to send the vmevent. */
-  memset(&J->cur, 0, sizeof(GCtrace));
-  J->cur.traceno = traceno;
-  J->cur.nins = J->cur.nk = REF_BASE;
-  J->cur.ir = J->irbuf;
-  J->cur.snap = J->snapbuf;
-  J->cur.snapmap = J->snapmapbuf;
-  J->mergesnap = 0;
-  J->needsnap = 0;
-  J->bcskip = 0;
-  J->guardemit.irt = 0;
-  J->postproc = LJ_POST_NONE;
-  lj_resetsplit(J);
-  setgcref(J->cur.startpt, obj2gco(J->pt));
-
-  L = J->L;
-  lj_vmevent_send(L, TRACE,
-    setstrV(L, L->top++, lj_str_newlit(L, "start"));
-    setintV(L->top++, traceno);
-    setfuncV(L, L->top++, J->fn);
-    setintV(L->top++, proto_bcpos(J->pt, J->pc));
-    if (J->parent) {
-      setintV(L->top++, J->parent);
-      setintV(L->top++, J->exitno);
-    }
-  );
-  lj_record_setup(J);
-}
-
-/* Stop tracing. */
-static void trace_stop(jit_State *J)
-{
-  BCIns *pc = mref(J->cur.startpc, BCIns);
-  BCOp op = bc_op(J->cur.startins);
-  GCproto *pt = &gcref(J->cur.startpt)->pt;
-  TraceNo traceno = J->cur.traceno;
-  lua_State *L;
-
-  switch (op) {
-  case BC_FORL:
-    setbc_op(pc+bc_j(J->cur.startins), BC_JFORI);  /* Patch FORI, too. */
-    /* fallthrough */
-  case BC_LOOP:
-  case BC_ITERL:
-  case BC_FUNCF:
-    /* Patch bytecode of starting instruction in root trace. */
-    setbc_op(pc, (int)op+(int)BC_JLOOP-(int)BC_LOOP);
-    setbc_d(pc, traceno);
-  addroot:
-    /* Add to root trace chain in prototype. */
-    J->cur.nextroot = pt->trace;
-    pt->trace = (TraceNo1)traceno;
-    break;
-  case BC_RET:
-  case BC_RET0:
-  case BC_RET1:
-    *pc = BCINS_AD(BC_JLOOP, J->cur.snap[0].nslots, traceno);
-    goto addroot;
-  case BC_JMP:
-    /* Patch exit branch in parent to side trace entry. */
-    lua_assert(J->parent != 0 && J->cur.root != 0);
-    lj_asm_patchexit(J, traceref(J, J->parent), J->exitno, J->cur.mcode);
-    /* Avoid compiling a side trace twice (stack resizing uses parent exit). */
-    traceref(J, J->parent)->snap[J->exitno].count = SNAPCOUNT_DONE;
-    /* Add to side trace chain in root trace. */
-    {
-      GCtrace *root = traceref(J, J->cur.root);
-      root->nchild++;
-      J->cur.nextside = root->nextside;
-      root->nextside = (TraceNo1)traceno;
-    }
-    break;
-  default:
-    lua_assert(0);
-    break;
-  }
-
-  /* Commit new mcode only after all patching is done. */
-  lj_mcode_commit(J, J->cur.mcode);
-  J->postproc = LJ_POST_NONE;
-  trace_save(J);
-
-  L = J->L;
-  lj_vmevent_send(L, TRACE,
-    setstrV(L, L->top++, lj_str_newlit(L, "stop"));
-    setintV(L->top++, traceno);
-  );
-}
-
-/* Start a new root trace for down-recursion. */
-static int trace_downrec(jit_State *J)
-{
-  /* Restart recording at the return instruction. */
-  lua_assert(J->pt != NULL);
-  lua_assert(bc_isret(bc_op(*J->pc)));
-  if (bc_op(*J->pc) == BC_RETM)
-    return 0;  /* NYI: down-recursion with RETM. */
-  J->parent = 0;
-  J->exitno = 0;
-  J->state = LJ_TRACE_RECORD;
-  trace_start(J);
-  return 1;
-}
-
-/* Abort tracing. */
-static int trace_abort(jit_State *J)
-{
-  lua_State *L = J->L;
-  TraceError e = LJ_TRERR_RECERR;
-  TraceNo traceno;
-
-  J->postproc = LJ_POST_NONE;
-  lj_mcode_abort(J);
-  if (tvisnumber(L->top-1))
-    e = (TraceError)numberVint(L->top-1);
-  if (e == LJ_TRERR_MCODELM) {
-    L->top--;  /* Remove error object */
-    J->state = LJ_TRACE_ASM;
-    return 1;  /* Retry ASM with new MCode area. */
-  }
-  /* Penalize or blacklist starting bytecode instruction. */
-  if (J->parent == 0 && !bc_isret(bc_op(J->cur.startins)))
-    penalty_pc(J, &gcref(J->cur.startpt)->pt, mref(J->cur.startpc, BCIns), e);
-
-  /* Is there anything to abort? */
-  traceno = J->cur.traceno;
-  if (traceno) {
-    ptrdiff_t errobj = savestack(L, L->top-1);  /* Stack may be resized. */
-    J->cur.link = 0;
-    J->cur.linktype = LJ_TRLINK_NONE;
-    lj_vmevent_send(L, TRACE,
-      TValue *frame;
-      const BCIns *pc;
-      GCfunc *fn;
-      setstrV(L, L->top++, lj_str_newlit(L, "abort"));
-      setintV(L->top++, traceno);
-      /* Find original Lua function call to generate a better error message. */
-      frame = J->L->base-1;
-      pc = J->pc;
-      while (!isluafunc(frame_func(frame))) {
-	pc = (frame_iscont(frame) ? frame_contpc(frame) : frame_pc(frame)) - 1;
-	frame = frame_prev(frame);
-      }
-      fn = frame_func(frame);
-      setfuncV(L, L->top++, fn);
-      setintV(L->top++, proto_bcpos(funcproto(fn), pc));
-      copyTV(L, L->top++, restorestack(L, errobj));
-      copyTV(L, L->top++, &J->errinfo);
-    );
-    /* Drop aborted trace after the vmevent (which may still access it). */
-    setgcrefnull(J->trace[traceno]);
-    if (traceno < J->freetrace)
-      J->freetrace = traceno;
-    J->cur.traceno = 0;
-  }
-  L->top--;  /* Remove error object */
-  if (e == LJ_TRERR_DOWNREC)
-    return trace_downrec(J);
-  else if (e == LJ_TRERR_MCODEAL)
-    lj_trace_flushall(L);
-  return 0;
-}
-
-/* Perform pending re-patch of a bytecode instruction. */
-static LJ_AINLINE void trace_pendpatch(jit_State *J, int force)
-{
-  if (LJ_UNLIKELY(J->patchpc)) {
-    if (force || J->bcskip == 0) {
-      *J->patchpc = J->patchins;
-      J->patchpc = NULL;
-    } else {
-      J->bcskip = 0;
-    }
-  }
-}
-
-/* State machine for the trace compiler. Protected callback. */
-static TValue *trace_state(lua_State *L, lua_CFunction dummy, void *ud)
-{
-  jit_State *J = (jit_State *)ud;
-  UNUSED(dummy);
-  do {
-  retry:
-    switch (J->state) {
-    case LJ_TRACE_START:
-      J->state = LJ_TRACE_RECORD;  /* trace_start() may change state. */
-      trace_start(J);
-      lj_dispatch_update(J2G(J));
-      break;
-
-    case LJ_TRACE_RECORD:
-      trace_pendpatch(J, 0);
-      setvmstate(J2G(J), RECORD);
-      lj_vmevent_send_(L, RECORD,
-	/* Save/restore tmptv state for trace recorder. */
-	TValue savetv = J2G(J)->tmptv;
-	TValue savetv2 = J2G(J)->tmptv2;
-	setintV(L->top++, J->cur.traceno);
-	setfuncV(L, L->top++, J->fn);
-	setintV(L->top++, J->pt ? (int32_t)proto_bcpos(J->pt, J->pc) : -1);
-	setintV(L->top++, J->framedepth);
-      ,
-	J2G(J)->tmptv = savetv;
-	J2G(J)->tmptv2 = savetv2;
-      );
-      lj_record_ins(J);
-      break;
-
-    case LJ_TRACE_END:
-      trace_pendpatch(J, 1);
-      J->loopref = 0;
-      if ((J->flags & JIT_F_OPT_LOOP) &&
-	  J->cur.link == J->cur.traceno && J->framedepth + J->retdepth == 0) {
-	setvmstate(J2G(J), OPT);
-	lj_opt_dce(J);
-	if (lj_opt_loop(J)) {  /* Loop optimization failed? */
-	  J->cur.link = 0;
-	  J->cur.linktype = LJ_TRLINK_NONE;
-	  J->loopref = J->cur.nins;
-	  J->state = LJ_TRACE_RECORD;  /* Try to continue recording. */
-	  break;
-	}
-	J->loopref = J->chain[IR_LOOP];  /* Needed by assembler. */
-      }
-      lj_opt_split(J);
-      lj_opt_sink(J);
-      if (!J->loopref) J->cur.snap[J->cur.nsnap-1].count = SNAPCOUNT_DONE;
-      J->state = LJ_TRACE_ASM;
-      break;
-
-    case LJ_TRACE_ASM:
-      setvmstate(J2G(J), ASM);
-      lj_asm_trace(J, &J->cur);
-      trace_stop(J);
-      setvmstate(J2G(J), INTERP);
-      J->state = LJ_TRACE_IDLE;
-      lj_dispatch_update(J2G(J));
-      return NULL;
-
-    default:  /* Trace aborted asynchronously. */
-      setintV(L->top++, (int32_t)LJ_TRERR_RECERR);
-      /* fallthrough */
-    case LJ_TRACE_ERR:
-      trace_pendpatch(J, 1);
-      if (trace_abort(J))
-	goto retry;
-      setvmstate(J2G(J), INTERP);
-      J->state = LJ_TRACE_IDLE;
-      lj_dispatch_update(J2G(J));
-      return NULL;
-    }
-  } while (J->state > LJ_TRACE_RECORD);
-  return NULL;
-}
-
-/* -- Event handling ------------------------------------------------------ */
-
-/* A bytecode instruction is about to be executed. Record it. */
-void lj_trace_ins(jit_State *J, const BCIns *pc)
-{
-  /* Note: J->L must already be set. pc is the true bytecode PC here. */
-  J->pc = pc;
-  J->fn = curr_func(J->L);
-  J->pt = isluafunc(J->fn) ? funcproto(J->fn) : NULL;
-  while (lj_vm_cpcall(J->L, NULL, (void *)J, trace_state) != 0)
-    J->state = LJ_TRACE_ERR;
-}
-
-/* A hotcount triggered. Start recording a root trace. */
-void LJ_FASTCALL lj_trace_hot(jit_State *J, const BCIns *pc)
-{
-  /* Note: pc is the interpreter bytecode PC here. It's offset by 1. */
-  ERRNO_SAVE
-  /* Reset hotcount. */
-  hotcount_set(J2GG(J), pc, J->param[JIT_P_hotloop]*HOTCOUNT_LOOP);
-  /* Only start a new trace if not recording or inside __gc call or vmevent. */
-  if (J->state == LJ_TRACE_IDLE &&
-      !(J2G(J)->hookmask & (HOOK_GC|HOOK_VMEVENT))) {
-    J->parent = 0;  /* Root trace. */
-    J->exitno = 0;
-    J->state = LJ_TRACE_START;
-    lj_trace_ins(J, pc-1);
-  }
-  ERRNO_RESTORE
-}
-
-/* Check for a hot side exit. If yes, start recording a side trace. */
-static void trace_hotside(jit_State *J, const BCIns *pc)
-{
-  SnapShot *snap = &traceref(J, J->parent)->snap[J->exitno];
-  if (!(J2G(J)->hookmask & (HOOK_GC|HOOK_VMEVENT)) &&
-      snap->count != SNAPCOUNT_DONE &&
-      ++snap->count >= J->param[JIT_P_hotexit]) {
-    lua_assert(J->state == LJ_TRACE_IDLE);
-    /* J->parent is non-zero for a side trace. */
-    J->state = LJ_TRACE_START;
-    lj_trace_ins(J, pc);
-  }
-}
-
-/* Tiny struct to pass data to protected call. */
-typedef struct ExitDataCP {
-  jit_State *J;
-  void *exptr;		/* Pointer to exit state. */
-  const BCIns *pc;	/* Restart interpreter at this PC. */
-} ExitDataCP;
-
-/* Need to protect lj_snap_restore because it may throw. */
-static TValue *trace_exit_cp(lua_State *L, lua_CFunction dummy, void *ud)
-{
-  ExitDataCP *exd = (ExitDataCP *)ud;
-  cframe_errfunc(L->cframe) = -1;  /* Inherit error function. */
-  exd->pc = lj_snap_restore(exd->J, exd->exptr);
-  UNUSED(dummy);
-  return NULL;
-}
-
-#ifndef LUAJIT_DISABLE_VMEVENT
-/* Push all registers from exit state. */
-static void trace_exit_regs(lua_State *L, ExitState *ex)
-{
-  int32_t i;
-  setintV(L->top++, RID_NUM_GPR);
-  setintV(L->top++, RID_NUM_FPR);
-  for (i = 0; i < RID_NUM_GPR; i++) {
-    if (sizeof(ex->gpr[i]) == sizeof(int32_t))
-      setintV(L->top++, (int32_t)ex->gpr[i]);
-    else
-      setnumV(L->top++, (lua_Number)ex->gpr[i]);
-  }
-#if !LJ_SOFTFP
-  for (i = 0; i < RID_NUM_FPR; i++) {
-    setnumV(L->top, ex->fpr[i]);
-    if (LJ_UNLIKELY(tvisnan(L->top)))
-      setnanV(L->top);
-    L->top++;
-  }
-#endif
-}
-#endif
-
-#ifdef EXITSTATE_PCREG
-/* Determine trace number from pc of exit instruction. */
-static TraceNo trace_exit_find(jit_State *J, MCode *pc)
-{
-  TraceNo traceno;
-  for (traceno = 1; traceno < J->sizetrace; traceno++) {
-    GCtrace *T = traceref(J, traceno);
-    if (T && pc >= T->mcode && pc < (MCode *)((char *)T->mcode + T->szmcode))
-      return traceno;
-  }
-  lua_assert(0);
-  return 0;
-}
-#endif
-
-/* A trace exited. Restore interpreter state. */
-int LJ_FASTCALL lj_trace_exit(jit_State *J, void *exptr)
-{
-  ERRNO_SAVE
-  lua_State *L = J->L;
-  ExitState *ex = (ExitState *)exptr;
-  ExitDataCP exd;
-  int errcode;
-  const BCIns *pc;
-  void *cf;
-  GCtrace *T;
-#ifdef EXITSTATE_PCREG
-  J->parent = trace_exit_find(J, (MCode *)(intptr_t)ex->gpr[EXITSTATE_PCREG]);
-#endif
-  T = traceref(J, J->parent); UNUSED(T);
-#ifdef EXITSTATE_CHECKEXIT
-  if (J->exitno == T->nsnap) {  /* Treat stack check like a parent exit. */
-    lua_assert(T->root != 0);
-    J->exitno = T->ir[REF_BASE].op2;
-    J->parent = T->ir[REF_BASE].op1;
-    T = traceref(J, J->parent);
-  }
-#endif
-  lua_assert(T != NULL && J->exitno < T->nsnap);
-  exd.J = J;
-  exd.exptr = exptr;
-  errcode = lj_vm_cpcall(L, NULL, &exd, trace_exit_cp);
-  if (errcode)
-    return -errcode;  /* Return negated error code. */
-
-  lj_vmevent_send(L, TEXIT,
-    lj_state_checkstack(L, 4+RID_NUM_GPR+RID_NUM_FPR+LUA_MINSTACK);
-    setintV(L->top++, J->parent);
-    setintV(L->top++, J->exitno);
-    trace_exit_regs(L, ex);
-  );
-
-  pc = exd.pc;
-  cf = cframe_raw(L->cframe);
-  setcframe_pc(cf, pc);
-  if (G(L)->gc.state == GCSatomic || G(L)->gc.state == GCSfinalize) {
-    if (!(G(L)->hookmask & HOOK_GC))
-      lj_gc_step(L);  /* Exited because of GC: drive GC forward. */
-  } else {
-    trace_hotside(J, pc);
-  }
-  if (bc_op(*pc) == BC_JLOOP) {
-    BCIns *retpc = &traceref(J, bc_d(*pc))->startins;
-    if (bc_isret(bc_op(*retpc))) {
-      if (J->state == LJ_TRACE_RECORD) {
-	J->patchins = *pc;
-	J->patchpc = (BCIns *)pc;
-	*J->patchpc = *retpc;
-	J->bcskip = 1;
-      } else {
-	pc = retpc;
-	setcframe_pc(cf, pc);
-      }
-    }
-  }
-  /* Return MULTRES or 0. */
-  ERRNO_RESTORE
-  switch (bc_op(*pc)) {
-  case BC_CALLM: case BC_CALLMT:
-    return (int)((BCReg)(L->top - L->base) - bc_a(*pc) - bc_c(*pc));
-  case BC_RETM:
-    return (int)((BCReg)(L->top - L->base) + 1 - bc_a(*pc) - bc_d(*pc));
-  case BC_TSETM:
-    return (int)((BCReg)(L->top - L->base) + 1 - bc_a(*pc));
-  default:
-    if (bc_op(*pc) >= BC_FUNCF)
-      return (int)((BCReg)(L->top - L->base) + 1);
-    return 0;
-  }
-}
-
-#endif
diff --git a/luajit-2.0/src/lj_trace.h b/luajit-2.0/src/lj_trace.h
deleted file mode 100644
index f310908..0000000
--- a/luajit-2.0/src/lj_trace.h
+++ /dev/null
@@ -1,53 +0,0 @@
-/*
-** Trace management.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#ifndef _LJ_TRACE_H
-#define _LJ_TRACE_H
-
-#include "lj_obj.h"
-
-#if LJ_HASJIT
-#include "lj_jit.h"
-#include "lj_dispatch.h"
-
-/* Trace errors. */
-typedef enum {
-#define TREDEF(name, msg)	LJ_TRERR_##name,
-#include "lj_traceerr.h"
-  LJ_TRERR__MAX
-} TraceError;
-
-LJ_FUNC_NORET void lj_trace_err(jit_State *J, TraceError e);
-LJ_FUNC_NORET void lj_trace_err_info(jit_State *J, TraceError e);
-
-/* Trace management. */
-LJ_FUNC void LJ_FASTCALL lj_trace_free(global_State *g, GCtrace *T);
-LJ_FUNC void lj_trace_reenableproto(GCproto *pt);
-LJ_FUNC void lj_trace_flushproto(global_State *g, GCproto *pt);
-LJ_FUNC void lj_trace_flush(jit_State *J, TraceNo traceno);
-LJ_FUNC int lj_trace_flushall(lua_State *L);
-LJ_FUNC void lj_trace_initstate(global_State *g);
-LJ_FUNC void lj_trace_freestate(global_State *g);
-
-/* Event handling. */
-LJ_FUNC void lj_trace_ins(jit_State *J, const BCIns *pc);
-LJ_FUNCA void LJ_FASTCALL lj_trace_hot(jit_State *J, const BCIns *pc);
-LJ_FUNCA int LJ_FASTCALL lj_trace_exit(jit_State *J, void *exptr);
-
-/* Signal asynchronous abort of trace or end of trace. */
-#define lj_trace_abort(g)	(G2J(g)->state &= ~LJ_TRACE_ACTIVE)
-#define lj_trace_end(J)		(J->state = LJ_TRACE_END)
-
-#else
-
-#define lj_trace_flushall(L)	(UNUSED(L), 0)
-#define lj_trace_initstate(g)	UNUSED(g)
-#define lj_trace_freestate(g)	UNUSED(g)
-#define lj_trace_abort(g)	UNUSED(g)
-#define lj_trace_end(J)		UNUSED(J)
-
-#endif
-
-#endif
diff --git a/luajit-2.0/src/lj_traceerr.h b/luajit-2.0/src/lj_traceerr.h
deleted file mode 100644
index 521560a..0000000
--- a/luajit-2.0/src/lj_traceerr.h
+++ /dev/null
@@ -1,61 +0,0 @@
-/*
-** Trace compiler error messages.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-/* This file may be included multiple times with different TREDEF macros. */
-
-/* Recording. */
-TREDEF(RECERR,	"error thrown or hook called during recording")
-TREDEF(TRACEOV,	"trace too long")
-TREDEF(STACKOV,	"trace too deep")
-TREDEF(SNAPOV,	"too many snapshots")
-TREDEF(BLACKL,	"blacklisted")
-TREDEF(NYIBC,	"NYI: bytecode %d")
-
-/* Recording loop ops. */
-TREDEF(LLEAVE,	"leaving loop in root trace")
-TREDEF(LINNER,	"inner loop in root trace")
-TREDEF(LUNROLL,	"loop unroll limit reached")
-
-/* Recording calls/returns. */
-TREDEF(BADTYPE,	"bad argument type")
-TREDEF(CJITOFF,	"JIT compilation disabled for function")
-TREDEF(CUNROLL,	"call unroll limit reached")
-TREDEF(DOWNREC,	"down-recursion, restarting")
-TREDEF(NYICF,	"NYI: C function %p")
-TREDEF(NYIFF,	"NYI: FastFunc %s")
-TREDEF(NYIFFU,	"NYI: unsupported variant of FastFunc %s")
-TREDEF(NYIRETL,	"NYI: return to lower frame")
-
-/* Recording indexed load/store. */
-TREDEF(STORENN,	"store with nil or NaN key")
-TREDEF(NOMM,	"missing metamethod")
-TREDEF(IDXLOOP,	"looping index lookup")
-TREDEF(NYITMIX,	"NYI: mixed sparse/dense table")
-
-/* Recording C data operations. */
-TREDEF(NOCACHE,	"symbol not in cache")
-TREDEF(NYICONV,	"NYI: unsupported C type conversion")
-TREDEF(NYICALL,	"NYI: unsupported C function type")
-
-/* Optimizations. */
-TREDEF(GFAIL,	"guard would always fail")
-TREDEF(PHIOV,	"too many PHIs")
-TREDEF(TYPEINS,	"persistent type instability")
-
-/* Assembler. */
-TREDEF(MCODEAL,	"failed to allocate mcode memory")
-TREDEF(MCODEOV,	"machine code too long")
-TREDEF(MCODELM,	"hit mcode limit (retrying)")
-TREDEF(SPILLOV,	"too many spill slots")
-TREDEF(BADRA,	"inconsistent register allocation")
-TREDEF(NYIIR,	"NYI: cannot assemble IR instruction %d")
-TREDEF(NYIPHI,	"NYI: PHI shuffling too complex")
-TREDEF(NYICOAL,	"NYI: register coalescing too complex")
-
-#undef TREDEF
-
-/* Detecting unused error messages:
-   awk -F, '/^TREDEF/ { gsub(/TREDEF./, ""); printf "grep -q LJ_TRERR_%s *.[ch] || echo %s\n", $1, $1}' lj_traceerr.h | sh
-*/
diff --git a/luajit-2.0/src/lj_udata.c b/luajit-2.0/src/lj_udata.c
deleted file mode 100644
index 6cd357e..0000000
--- a/luajit-2.0/src/lj_udata.c
+++ /dev/null
@@ -1,34 +0,0 @@
-/*
-** Userdata handling.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#define lj_udata_c
-#define LUA_CORE
-
-#include "lj_obj.h"
-#include "lj_gc.h"
-#include "lj_udata.h"
-
-GCudata *lj_udata_new(lua_State *L, MSize sz, GCtab *env)
-{
-  GCudata *ud = lj_mem_newt(L, sizeof(GCudata) + sz, GCudata);
-  global_State *g = G(L);
-  newwhite(g, ud);  /* Not finalized. */
-  ud->gct = ~LJ_TUDATA;
-  ud->udtype = UDTYPE_USERDATA;
-  ud->len = sz;
-  /* NOBARRIER: The GCudata is new (marked white). */
-  setgcrefnull(ud->metatable);
-  setgcref(ud->env, obj2gco(env));
-  /* Chain to userdata list (after main thread). */
-  setgcrefr(ud->nextgc, mainthread(g)->nextgc);
-  setgcref(mainthread(g)->nextgc, obj2gco(ud));
-  return ud;
-}
-
-void LJ_FASTCALL lj_udata_free(global_State *g, GCudata *ud)
-{
-  lj_mem_free(g, ud, sizeudata(ud));
-}
-
diff --git a/luajit-2.0/src/lj_udata.h b/luajit-2.0/src/lj_udata.h
deleted file mode 100644
index e03d9a3..0000000
--- a/luajit-2.0/src/lj_udata.h
+++ /dev/null
@@ -1,14 +0,0 @@
-/*
-** Userdata handling.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#ifndef _LJ_UDATA_H
-#define _LJ_UDATA_H
-
-#include "lj_obj.h"
-
-LJ_FUNC GCudata *lj_udata_new(lua_State *L, MSize sz, GCtab *env);
-LJ_FUNC void LJ_FASTCALL lj_udata_free(global_State *g, GCudata *ud);
-
-#endif
diff --git a/luajit-2.0/src/lj_vm.h b/luajit-2.0/src/lj_vm.h
deleted file mode 100644
index 4a8f03f..0000000
--- a/luajit-2.0/src/lj_vm.h
+++ /dev/null
@@ -1,116 +0,0 @@
-/*
-** Assembler VM interface definitions.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#ifndef _LJ_VM_H
-#define _LJ_VM_H
-
-#include "lj_obj.h"
-
-/* Entry points for ASM parts of VM. */
-LJ_ASMF void lj_vm_call(lua_State *L, TValue *base, int nres1);
-LJ_ASMF int lj_vm_pcall(lua_State *L, TValue *base, int nres1, ptrdiff_t ef);
-typedef TValue *(*lua_CPFunction)(lua_State *L, lua_CFunction func, void *ud);
-LJ_ASMF int lj_vm_cpcall(lua_State *L, lua_CFunction func, void *ud,
-			 lua_CPFunction cp);
-LJ_ASMF int lj_vm_resume(lua_State *L, TValue *base, int nres1, ptrdiff_t ef);
-LJ_ASMF_NORET void LJ_FASTCALL lj_vm_unwind_c(void *cframe, int errcode);
-LJ_ASMF_NORET void LJ_FASTCALL lj_vm_unwind_ff(void *cframe);
-LJ_ASMF void lj_vm_unwind_c_eh(void);
-LJ_ASMF void lj_vm_unwind_ff_eh(void);
-#if LJ_TARGET_X86ORX64
-LJ_ASMF void lj_vm_unwind_rethrow(void);
-#endif
-
-/* Miscellaneous functions. */
-#if LJ_TARGET_X86ORX64
-LJ_ASMF int lj_vm_cpuid(uint32_t f, uint32_t res[4]);
-#endif
-#if LJ_TARGET_PPC
-void lj_vm_cachesync(void *start, void *end);
-#endif
-LJ_ASMF double lj_vm_foldarith(double x, double y, int op);
-#if LJ_HASJIT
-LJ_ASMF double lj_vm_foldfpm(double x, int op);
-#endif
-#if !LJ_ARCH_HASFPU
-/* Declared in lj_obj.h: LJ_ASMF int32_t lj_vm_tobit(double x); */
-#endif
-
-/* Dispatch targets for recording and hooks. */
-LJ_ASMF void lj_vm_record(void);
-LJ_ASMF void lj_vm_inshook(void);
-LJ_ASMF void lj_vm_rethook(void);
-LJ_ASMF void lj_vm_callhook(void);
-
-/* Trace exit handling. */
-LJ_ASMF void lj_vm_exit_handler(void);
-LJ_ASMF void lj_vm_exit_interp(void);
-
-/* Internal math helper functions. */
-#if LJ_TARGET_X86ORX64 || LJ_TARGET_PPC
-#define lj_vm_floor	floor
-#define lj_vm_ceil	ceil
-#else
-LJ_ASMF double lj_vm_floor(double);
-LJ_ASMF double lj_vm_ceil(double);
-#if LJ_TARGET_ARM
-LJ_ASMF double lj_vm_floor_sf(double);
-LJ_ASMF double lj_vm_ceil_sf(double);
-#endif
-#endif
-#if defined(LUAJIT_NO_LOG2) || LJ_TARGET_X86ORX64
-LJ_ASMF double lj_vm_log2(double);
-#else
-#define lj_vm_log2	log2
-#endif
-
-#if LJ_HASJIT
-#if LJ_TARGET_X86ORX64
-LJ_ASMF void lj_vm_floor_sse(void);
-LJ_ASMF void lj_vm_ceil_sse(void);
-LJ_ASMF void lj_vm_trunc_sse(void);
-LJ_ASMF void lj_vm_exp_x87(void);
-LJ_ASMF void lj_vm_exp2_x87(void);
-LJ_ASMF void lj_vm_pow_sse(void);
-LJ_ASMF void lj_vm_powi_sse(void);
-#else
-#if LJ_TARGET_PPC
-#define lj_vm_trunc	trunc
-#else
-LJ_ASMF double lj_vm_trunc(double);
-#if LJ_TARGET_ARM
-LJ_ASMF double lj_vm_trunc_sf(double);
-#endif
-#endif
-LJ_ASMF double lj_vm_powi(double, int32_t);
-#ifdef LUAJIT_NO_EXP2
-LJ_ASMF double lj_vm_exp2(double);
-#else
-#define lj_vm_exp2	exp2
-#endif
-#endif
-LJ_ASMF int32_t LJ_FASTCALL lj_vm_modi(int32_t, int32_t);
-#if LJ_HASFFI
-LJ_ASMF int lj_vm_errno(void);
-#endif
-#endif
-
-/* Continuations for metamethods. */
-LJ_ASMF void lj_cont_cat(void);  /* Continue with concatenation. */
-LJ_ASMF void lj_cont_ra(void);  /* Store result in RA from instruction. */
-LJ_ASMF void lj_cont_nop(void);  /* Do nothing, just continue execution. */
-LJ_ASMF void lj_cont_condt(void);  /* Branch if result is true. */
-LJ_ASMF void lj_cont_condf(void);  /* Branch if result is false. */
-LJ_ASMF void lj_cont_hook(void);  /* Continue from hook yield. */
-
-enum { LJ_CONT_TAILCALL, LJ_CONT_FFI_CALLBACK };  /* Special continuations. */
-
-/* Start of the ASM code. */
-LJ_ASMF char lj_vm_asm_begin[];
-
-/* Bytecode offsets are relative to lj_vm_asm_begin. */
-#define makeasmfunc(ofs)	((ASMFunction)(lj_vm_asm_begin + (ofs)))
-
-#endif
diff --git a/luajit-2.0/src/lj_vmevent.c b/luajit-2.0/src/lj_vmevent.c
deleted file mode 100644
index e14ad5b..0000000
--- a/luajit-2.0/src/lj_vmevent.c
+++ /dev/null
@@ -1,57 +0,0 @@
-/*
-** VM event handling.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#include <stdio.h>
-
-#define lj_vmevent_c
-#define LUA_CORE
-
-#include "lj_obj.h"
-#include "lj_str.h"
-#include "lj_tab.h"
-#include "lj_state.h"
-#include "lj_dispatch.h"
-#include "lj_vm.h"
-#include "lj_vmevent.h"
-
-ptrdiff_t lj_vmevent_prepare(lua_State *L, VMEvent ev)
-{
-  global_State *g = G(L);
-  GCstr *s = lj_str_newlit(L, LJ_VMEVENTS_REGKEY);
-  cTValue *tv = lj_tab_getstr(tabV(registry(L)), s);
-  if (tvistab(tv)) {
-    int hash = VMEVENT_HASH(ev);
-    tv = lj_tab_getint(tabV(tv), hash);
-    if (tv && tvisfunc(tv)) {
-      lj_state_checkstack(L, LUA_MINSTACK);
-      setfuncV(L, L->top++, funcV(tv));
-      return savestack(L, L->top);
-    }
-  }
-  g->vmevmask &= ~VMEVENT_MASK(ev);  /* No handler: cache this fact. */
-  return 0;
-}
-
-void lj_vmevent_call(lua_State *L, ptrdiff_t argbase)
-{
-  global_State *g = G(L);
-  uint8_t oldmask = g->vmevmask;
-  uint8_t oldh = hook_save(g);
-  int status;
-  g->vmevmask = 0;  /* Disable all events. */
-  hook_vmevent(g);
-  status = lj_vm_pcall(L, restorestack(L, argbase), 0+1, 0);
-  if (LJ_UNLIKELY(status)) {
-    /* Really shouldn't use stderr here, but where else to complain? */
-    L->top--;
-    fputs("VM handler failed: ", stderr);
-    fputs(tvisstr(L->top) ? strVdata(L->top) : "?", stderr);
-    fputc('\n', stderr);
-  }
-  hook_restore(g, oldh);
-  if (g->vmevmask != VMEVENT_NOCACHE)
-    g->vmevmask = oldmask;  /* Restore event mask, but not if not modified. */
-}
-
diff --git a/luajit-2.0/src/lj_vmevent.h b/luajit-2.0/src/lj_vmevent.h
deleted file mode 100644
index 51bae01..0000000
--- a/luajit-2.0/src/lj_vmevent.h
+++ /dev/null
@@ -1,59 +0,0 @@
-/*
-** VM event handling.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#ifndef _LJ_VMEVENT_H
-#define _LJ_VMEVENT_H
-
-#include "lj_obj.h"
-
-/* Registry key for VM event handler table. */
-#define LJ_VMEVENTS_REGKEY	"_VMEVENTS"
-#define LJ_VMEVENTS_HSIZE	4
-
-#define VMEVENT_MASK(ev)	((uint8_t)1 << ((int)(ev) & 7))
-#define VMEVENT_HASH(ev)	((int)(ev) & ~7)
-#define VMEVENT_HASHIDX(h)	((int)(h) << 3)
-#define VMEVENT_NOCACHE		255
-
-#define VMEVENT_DEF(name, hash) \
-  LJ_VMEVENT_##name##_, \
-  LJ_VMEVENT_##name = ((LJ_VMEVENT_##name##_) & 7)|((hash) << 3)
-
-/* VM event IDs. */
-typedef enum {
-  VMEVENT_DEF(BC,	0x00003883),
-  VMEVENT_DEF(TRACE,	0xb2d91467),
-  VMEVENT_DEF(RECORD,	0x9284bf4f),
-  VMEVENT_DEF(TEXIT,	0xb29df2b0),
-  LJ_VMEVENT__MAX
-} VMEvent;
-
-#ifdef LUAJIT_DISABLE_VMEVENT
-#define lj_vmevent_send(L, ev, args)		UNUSED(L)
-#define lj_vmevent_send_(L, ev, args, post)	UNUSED(L)
-#else
-#define lj_vmevent_send(L, ev, args) \
-  if (G(L)->vmevmask & VMEVENT_MASK(LJ_VMEVENT_##ev)) { \
-    ptrdiff_t argbase = lj_vmevent_prepare(L, LJ_VMEVENT_##ev); \
-    if (argbase) { \
-      args \
-      lj_vmevent_call(L, argbase); \
-    } \
-  }
-#define lj_vmevent_send_(L, ev, args, post) \
-  if (G(L)->vmevmask & VMEVENT_MASK(LJ_VMEVENT_##ev)) { \
-    ptrdiff_t argbase = lj_vmevent_prepare(L, LJ_VMEVENT_##ev); \
-    if (argbase) { \
-      args \
-      lj_vmevent_call(L, argbase); \
-      post \
-    } \
-  }
-
-LJ_FUNC ptrdiff_t lj_vmevent_prepare(lua_State *L, VMEvent ev);
-LJ_FUNC void lj_vmevent_call(lua_State *L, ptrdiff_t argbase);
-#endif
-
-#endif
diff --git a/luajit-2.0/src/lj_vmmath.c b/luajit-2.0/src/lj_vmmath.c
deleted file mode 100644
index 63886aa..0000000
--- a/luajit-2.0/src/lj_vmmath.c
+++ /dev/null
@@ -1,140 +0,0 @@
-/*
-** Math helper functions for assembler VM.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#define lj_vmmath_c
-#define LUA_CORE
-
-#include <errno.h>
-#include <math.h>
-
-#include "lj_obj.h"
-#include "lj_ir.h"
-#include "lj_vm.h"
-
-/* -- Helper functions for generated machine code ------------------------- */
-
-#if LJ_TARGET_X86ORX64
-/* Wrapper functions to avoid linker issues on OSX. */
-LJ_FUNCA double lj_vm_sinh(double x) { return sinh(x); }
-LJ_FUNCA double lj_vm_cosh(double x) { return cosh(x); }
-LJ_FUNCA double lj_vm_tanh(double x) { return tanh(x); }
-#endif
-
-#if !LJ_TARGET_X86ORX64
-double lj_vm_foldarith(double x, double y, int op)
-{
-  switch (op) {
-  case IR_ADD - IR_ADD: return x+y; break;
-  case IR_SUB - IR_ADD: return x-y; break;
-  case IR_MUL - IR_ADD: return x*y; break;
-  case IR_DIV - IR_ADD: return x/y; break;
-  case IR_MOD - IR_ADD: return x-lj_vm_floor(x/y)*y; break;
-  case IR_POW - IR_ADD: return pow(x, y); break;
-  case IR_NEG - IR_ADD: return -x; break;
-  case IR_ABS - IR_ADD: return fabs(x); break;
-#if LJ_HASJIT
-  case IR_ATAN2 - IR_ADD: return atan2(x, y); break;
-  case IR_LDEXP - IR_ADD: return ldexp(x, (int)y); break;
-  case IR_MIN - IR_ADD: return x > y ? y : x; break;
-  case IR_MAX - IR_ADD: return x < y ? y : x; break;
-#endif
-  default: return x;
-  }
-}
-#endif
-
-#if LJ_HASJIT
-
-#ifdef LUAJIT_NO_LOG2
-double lj_vm_log2(double a)
-{
-  return log(a) * 1.4426950408889634074;
-}
-#endif
-
-#ifdef LUAJIT_NO_EXP2
-double lj_vm_exp2(double a)
-{
-  return exp(a * 0.6931471805599453);
-}
-#endif
-
-#if !(LJ_TARGET_ARM || LJ_TARGET_PPC)
-int32_t LJ_FASTCALL lj_vm_modi(int32_t a, int32_t b)
-{
-  uint32_t y, ua, ub;
-  lua_assert(b != 0);  /* This must be checked before using this function. */
-  ua = a < 0 ? (uint32_t)-a : (uint32_t)a;
-  ub = b < 0 ? (uint32_t)-b : (uint32_t)b;
-  y = ua % ub;
-  if (y != 0 && (a^b) < 0) y = y - ub;
-  if (((int32_t)y^b) < 0) y = (uint32_t)-(int32_t)y;
-  return (int32_t)y;
-}
-#endif
-
-#if !LJ_TARGET_X86ORX64
-/* Unsigned x^k. */
-static double lj_vm_powui(double x, uint32_t k)
-{
-  double y;
-  lua_assert(k != 0);
-  for (; (k & 1) == 0; k >>= 1) x *= x;
-  y = x;
-  if ((k >>= 1) != 0) {
-    for (;;) {
-      x *= x;
-      if (k == 1) break;
-      if (k & 1) y *= x;
-      k >>= 1;
-    }
-    y *= x;
-  }
-  return y;
-}
-
-/* Signed x^k. */
-double lj_vm_powi(double x, int32_t k)
-{
-  if (k > 1)
-    return lj_vm_powui(x, (uint32_t)k);
-  else if (k == 1)
-    return x;
-  else if (k == 0)
-    return 1.0;
-  else
-    return 1.0 / lj_vm_powui(x, (uint32_t)-k);
-}
-
-/* Computes fpm(x) for extended math functions. */
-double lj_vm_foldfpm(double x, int fpm)
-{
-  switch (fpm) {
-  case IRFPM_FLOOR: return lj_vm_floor(x);
-  case IRFPM_CEIL: return lj_vm_ceil(x);
-  case IRFPM_TRUNC: return lj_vm_trunc(x);
-  case IRFPM_SQRT: return sqrt(x);
-  case IRFPM_EXP: return exp(x);
-  case IRFPM_EXP2: return lj_vm_exp2(x);
-  case IRFPM_LOG: return log(x);
-  case IRFPM_LOG2: return lj_vm_log2(x);
-  case IRFPM_LOG10: return log10(x);
-  case IRFPM_SIN: return sin(x);
-  case IRFPM_COS: return cos(x);
-  case IRFPM_TAN: return tan(x);
-  default: lua_assert(0);
-  }
-  return 0;
-}
-#endif
-
-#if LJ_HASFFI
-int lj_vm_errno(void)
-{
-  return errno;
-}
-#endif
-
-#endif
diff --git a/luajit-2.0/src/ljamalg.c b/luajit-2.0/src/ljamalg.c
deleted file mode 100644
index 52a8615..0000000
--- a/luajit-2.0/src/ljamalg.c
+++ /dev/null
@@ -1,93 +0,0 @@
-/*
-** LuaJIT core and libraries amalgamation.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-/*
-+--------------------------------------------------------------------------+
-| WARNING: Compiling the amalgamation needs a lot of virtual memory        |
-| (around 300 MB with GCC 4.x)! If you don't have enough physical memory   |
-| your machine will start swapping to disk and the compile will not finish |
-| within a reasonable amount of time.                                      |
-| So either compile on a bigger machine or use the non-amalgamated build.  |
-+--------------------------------------------------------------------------+
-*/
-
-#define ljamalg_c
-#define LUA_CORE
-
-/* To get the mremap prototype. Must be defined before any system includes. */
-#if defined(__linux__) && !defined(_GNU_SOURCE)
-#define _GNU_SOURCE
-#endif
-
-#ifndef WINVER
-#define WINVER 0x0501
-#endif
-
-#include "lua.h"
-#include "lauxlib.h"
-
-#include "lj_gc.c"
-#include "lj_err.c"
-#include "lj_char.c"
-#include "lj_bc.c"
-#include "lj_obj.c"
-#include "lj_str.c"
-#include "lj_tab.c"
-#include "lj_func.c"
-#include "lj_udata.c"
-#include "lj_meta.c"
-#include "lj_debug.c"
-#include "lj_state.c"
-#include "lj_dispatch.c"
-#include "lj_vmevent.c"
-#include "lj_vmmath.c"
-#include "lj_strscan.c"
-#include "lj_api.c"
-#include "lj_lex.c"
-#include "lj_parse.c"
-#include "lj_bcread.c"
-#include "lj_bcwrite.c"
-#include "lj_load.c"
-#include "lj_ctype.c"
-#include "lj_cdata.c"
-#include "lj_cconv.c"
-#include "lj_ccall.c"
-#include "lj_ccallback.c"
-#include "lj_carith.c"
-#include "lj_clib.c"
-#include "lj_cparse.c"
-#include "lj_lib.c"
-#include "lj_ir.c"
-#include "lj_opt_mem.c"
-#include "lj_opt_fold.c"
-#include "lj_opt_narrow.c"
-#include "lj_opt_dce.c"
-#include "lj_opt_loop.c"
-#include "lj_opt_split.c"
-#include "lj_opt_sink.c"
-#include "lj_mcode.c"
-#include "lj_snap.c"
-#include "lj_record.c"
-#include "lj_crecord.c"
-#include "lj_ffrecord.c"
-#include "lj_asm.c"
-#include "lj_trace.c"
-#include "lj_gdbjit.c"
-#include "lj_alloc.c"
-
-#include "lib_aux.c"
-#include "lib_base.c"
-#include "lib_math.c"
-#include "lib_string.c"
-#include "lib_table.c"
-#include "lib_io.c"
-#include "lib_os.c"
-#include "lib_package.c"
-#include "lib_debug.c"
-#include "lib_bit.c"
-#include "lib_jit.c"
-#include "lib_ffi.c"
-#include "lib_init.c"
-
diff --git a/luajit-2.0/src/lua.h b/luajit-2.0/src/lua.h
deleted file mode 100644
index c83fd3b..0000000
--- a/luajit-2.0/src/lua.h
+++ /dev/null
@@ -1,393 +0,0 @@
-/*
-** $Id: lua.h,v 1.218.1.5 2008/08/06 13:30:12 roberto Exp $
-** Lua - An Extensible Extension Language
-** Lua.org, PUC-Rio, Brazil (http://www.lua.org)
-** See Copyright Notice at the end of this file
-*/
-
-
-#ifndef lua_h
-#define lua_h
-
-#include <stdarg.h>
-#include <stddef.h>
-
-
-#include "luaconf.h"
-
-
-#define LUA_VERSION	"Lua 5.1"
-#define LUA_RELEASE	"Lua 5.1.4"
-#define LUA_VERSION_NUM	501
-#define LUA_COPYRIGHT	"Copyright (C) 1994-2008 Lua.org, PUC-Rio"
-#define LUA_AUTHORS	"R. Ierusalimschy, L. H. de Figueiredo & W. Celes"
-
-
-/* mark for precompiled code (`<esc>Lua') */
-#define	LUA_SIGNATURE	"\033Lua"
-
-/* option for multiple returns in `lua_pcall' and `lua_call' */
-#define LUA_MULTRET	(-1)
-
-
-/*
-** pseudo-indices
-*/
-#define LUA_REGISTRYINDEX	(-10000)
-#define LUA_ENVIRONINDEX	(-10001)
-#define LUA_GLOBALSINDEX	(-10002)
-#define lua_upvalueindex(i)	(LUA_GLOBALSINDEX-(i))
-
-
-/* thread status; 0 is OK */
-#define LUA_YIELD	1
-#define LUA_ERRRUN	2
-#define LUA_ERRSYNTAX	3
-#define LUA_ERRMEM	4
-#define LUA_ERRERR	5
-
-
-typedef struct lua_State lua_State;
-
-typedef int (*lua_CFunction) (lua_State *L);
-
-
-/*
-** functions that read/write blocks when loading/dumping Lua chunks
-*/
-typedef const char * (*lua_Reader) (lua_State *L, void *ud, size_t *sz);
-
-typedef int (*lua_Writer) (lua_State *L, const void* p, size_t sz, void* ud);
-
-
-/*
-** prototype for memory-allocation functions
-*/
-typedef void * (*lua_Alloc) (void *ud, void *ptr, size_t osize, size_t nsize);
-
-
-/*
-** basic types
-*/
-#define LUA_TNONE		(-1)
-
-#define LUA_TNIL		0
-#define LUA_TBOOLEAN		1
-#define LUA_TLIGHTUSERDATA	2
-#define LUA_TNUMBER		3
-#define LUA_TSTRING		4
-#define LUA_TTABLE		5
-#define LUA_TFUNCTION		6
-#define LUA_TUSERDATA		7
-#define LUA_TTHREAD		8
-
-
-
-/* minimum Lua stack available to a C function */
-#define LUA_MINSTACK	20
-
-
-/*
-** generic extra include file
-*/
-#if defined(LUA_USER_H)
-#include LUA_USER_H
-#endif
-
-
-/* type of numbers in Lua */
-typedef LUA_NUMBER lua_Number;
-
-
-/* type for integer functions */
-typedef LUA_INTEGER lua_Integer;
-
-
-
-/*
-** state manipulation
-*/
-LUA_API lua_State *(lua_newstate) (lua_Alloc f, void *ud);
-LUA_API void       (lua_close) (lua_State *L);
-LUA_API lua_State *(lua_newthread) (lua_State *L);
-
-LUA_API lua_CFunction (lua_atpanic) (lua_State *L, lua_CFunction panicf);
-
-
-/*
-** basic stack manipulation
-*/
-LUA_API int   (lua_gettop) (lua_State *L);
-LUA_API void  (lua_settop) (lua_State *L, int idx);
-LUA_API void  (lua_pushvalue) (lua_State *L, int idx);
-LUA_API void  (lua_remove) (lua_State *L, int idx);
-LUA_API void  (lua_insert) (lua_State *L, int idx);
-LUA_API void  (lua_replace) (lua_State *L, int idx);
-LUA_API int   (lua_checkstack) (lua_State *L, int sz);
-
-LUA_API void  (lua_xmove) (lua_State *from, lua_State *to, int n);
-
-
-/*
-** access functions (stack -> C)
-*/
-
-LUA_API int             (lua_isnumber) (lua_State *L, int idx);
-LUA_API int             (lua_isstring) (lua_State *L, int idx);
-LUA_API int             (lua_iscfunction) (lua_State *L, int idx);
-LUA_API int             (lua_isuserdata) (lua_State *L, int idx);
-LUA_API int             (lua_type) (lua_State *L, int idx);
-LUA_API const char     *(lua_typename) (lua_State *L, int tp);
-
-LUA_API int            (lua_equal) (lua_State *L, int idx1, int idx2);
-LUA_API int            (lua_rawequal) (lua_State *L, int idx1, int idx2);
-LUA_API int            (lua_lessthan) (lua_State *L, int idx1, int idx2);
-
-LUA_API lua_Number      (lua_tonumber) (lua_State *L, int idx);
-LUA_API lua_Integer     (lua_tointeger) (lua_State *L, int idx);
-LUA_API int             (lua_toboolean) (lua_State *L, int idx);
-LUA_API const char     *(lua_tolstring) (lua_State *L, int idx, size_t *len);
-LUA_API size_t          (lua_objlen) (lua_State *L, int idx);
-LUA_API lua_CFunction   (lua_tocfunction) (lua_State *L, int idx);
-LUA_API void	       *(lua_touserdata) (lua_State *L, int idx);
-LUA_API lua_State      *(lua_tothread) (lua_State *L, int idx);
-LUA_API const void     *(lua_topointer) (lua_State *L, int idx);
-
-
-/*
-** push functions (C -> stack)
-*/
-LUA_API void  (lua_pushnil) (lua_State *L);
-LUA_API void  (lua_pushnumber) (lua_State *L, lua_Number n);
-LUA_API void  (lua_pushinteger) (lua_State *L, lua_Integer n);
-LUA_API void  (lua_pushlstring) (lua_State *L, const char *s, size_t l);
-LUA_API void  (lua_pushstring) (lua_State *L, const char *s);
-LUA_API const char *(lua_pushvfstring) (lua_State *L, const char *fmt,
-                                                      va_list argp);
-LUA_API const char *(lua_pushfstring) (lua_State *L, const char *fmt, ...);
-LUA_API void  (lua_pushcclosure) (lua_State *L, lua_CFunction fn, int n);
-LUA_API void  (lua_pushboolean) (lua_State *L, int b);
-LUA_API void  (lua_pushlightuserdata) (lua_State *L, void *p);
-LUA_API int   (lua_pushthread) (lua_State *L);
-
-
-/*
-** get functions (Lua -> stack)
-*/
-LUA_API void  (lua_gettable) (lua_State *L, int idx);
-LUA_API void  (lua_getfield) (lua_State *L, int idx, const char *k);
-LUA_API void  (lua_rawget) (lua_State *L, int idx);
-LUA_API void  (lua_rawgeti) (lua_State *L, int idx, int n);
-LUA_API void  (lua_createtable) (lua_State *L, int narr, int nrec);
-LUA_API void *(lua_newuserdata) (lua_State *L, size_t sz);
-LUA_API int   (lua_getmetatable) (lua_State *L, int objindex);
-LUA_API void  (lua_getfenv) (lua_State *L, int idx);
-
-
-/*
-** set functions (stack -> Lua)
-*/
-LUA_API void  (lua_settable) (lua_State *L, int idx);
-LUA_API void  (lua_setfield) (lua_State *L, int idx, const char *k);
-LUA_API void  (lua_rawset) (lua_State *L, int idx);
-LUA_API void  (lua_rawseti) (lua_State *L, int idx, int n);
-LUA_API int   (lua_setmetatable) (lua_State *L, int objindex);
-LUA_API int   (lua_setfenv) (lua_State *L, int idx);
-
-
-/*
-** `load' and `call' functions (load and run Lua code)
-*/
-LUA_API void  (lua_call) (lua_State *L, int nargs, int nresults);
-LUA_API int   (lua_pcall) (lua_State *L, int nargs, int nresults, int errfunc);
-LUA_API int   (lua_cpcall) (lua_State *L, lua_CFunction func, void *ud);
-LUA_API int   (lua_load) (lua_State *L, lua_Reader reader, void *dt,
-                                        const char *chunkname);
-
-LUA_API int (lua_dump) (lua_State *L, lua_Writer writer, void *data);
-
-
-/*
-** coroutine functions
-*/
-LUA_API int  (lua_yield) (lua_State *L, int nresults);
-LUA_API int  (lua_resume) (lua_State *L, int narg);
-LUA_API int  (lua_status) (lua_State *L);
-
-/*
-** garbage-collection function and options
-*/
-
-#define LUA_GCSTOP		0
-#define LUA_GCRESTART		1
-#define LUA_GCCOLLECT		2
-#define LUA_GCCOUNT		3
-#define LUA_GCCOUNTB		4
-#define LUA_GCSTEP		5
-#define LUA_GCSETPAUSE		6
-#define LUA_GCSETSTEPMUL	7
-
-LUA_API int (lua_gc) (lua_State *L, int what, int data);
-
-
-/*
-** miscellaneous functions
-*/
-
-LUA_API int   (lua_error) (lua_State *L);
-
-LUA_API int   (lua_next) (lua_State *L, int idx);
-
-LUA_API void  (lua_concat) (lua_State *L, int n);
-
-LUA_API lua_Alloc (lua_getallocf) (lua_State *L, void **ud);
-LUA_API void lua_setallocf (lua_State *L, lua_Alloc f, void *ud);
-
-
-
-/*
-** ===============================================================
-** some useful macros
-** ===============================================================
-*/
-
-#define lua_pop(L,n)		lua_settop(L, -(n)-1)
-
-#define lua_newtable(L)		lua_createtable(L, 0, 0)
-
-#define lua_register(L,n,f) (lua_pushcfunction(L, (f)), lua_setglobal(L, (n)))
-
-#define lua_pushcfunction(L,f)	lua_pushcclosure(L, (f), 0)
-
-#define lua_strlen(L,i)		lua_objlen(L, (i))
-
-#define lua_isfunction(L,n)	(lua_type(L, (n)) == LUA_TFUNCTION)
-#define lua_istable(L,n)	(lua_type(L, (n)) == LUA_TTABLE)
-#define lua_islightuserdata(L,n)	(lua_type(L, (n)) == LUA_TLIGHTUSERDATA)
-#define lua_isnil(L,n)		(lua_type(L, (n)) == LUA_TNIL)
-#define lua_isboolean(L,n)	(lua_type(L, (n)) == LUA_TBOOLEAN)
-#define lua_isthread(L,n)	(lua_type(L, (n)) == LUA_TTHREAD)
-#define lua_isnone(L,n)		(lua_type(L, (n)) == LUA_TNONE)
-#define lua_isnoneornil(L, n)	(lua_type(L, (n)) <= 0)
-
-#define lua_pushliteral(L, s)	\
-	lua_pushlstring(L, "" s, (sizeof(s)/sizeof(char))-1)
-
-#define lua_setglobal(L,s)	lua_setfield(L, LUA_GLOBALSINDEX, (s))
-#define lua_getglobal(L,s)	lua_getfield(L, LUA_GLOBALSINDEX, (s))
-
-#define lua_tostring(L,i)	lua_tolstring(L, (i), NULL)
-
-
-
-/*
-** compatibility macros and functions
-*/
-
-#define lua_open()	luaL_newstate()
-
-#define lua_getregistry(L)	lua_pushvalue(L, LUA_REGISTRYINDEX)
-
-#define lua_getgccount(L)	lua_gc(L, LUA_GCCOUNT, 0)
-
-#define lua_Chunkreader		lua_Reader
-#define lua_Chunkwriter		lua_Writer
-
-
-/* hack */
-LUA_API void lua_setlevel	(lua_State *from, lua_State *to);
-
-
-/*
-** {======================================================================
-** Debug API
-** =======================================================================
-*/
-
-
-/*
-** Event codes
-*/
-#define LUA_HOOKCALL	0
-#define LUA_HOOKRET	1
-#define LUA_HOOKLINE	2
-#define LUA_HOOKCOUNT	3
-#define LUA_HOOKTAILRET 4
-
-
-/*
-** Event masks
-*/
-#define LUA_MASKCALL	(1 << LUA_HOOKCALL)
-#define LUA_MASKRET	(1 << LUA_HOOKRET)
-#define LUA_MASKLINE	(1 << LUA_HOOKLINE)
-#define LUA_MASKCOUNT	(1 << LUA_HOOKCOUNT)
-
-typedef struct lua_Debug lua_Debug;  /* activation record */
-
-
-/* Functions to be called by the debuger in specific events */
-typedef void (*lua_Hook) (lua_State *L, lua_Debug *ar);
-
-
-LUA_API int lua_getstack (lua_State *L, int level, lua_Debug *ar);
-LUA_API int lua_getinfo (lua_State *L, const char *what, lua_Debug *ar);
-LUA_API const char *lua_getlocal (lua_State *L, const lua_Debug *ar, int n);
-LUA_API const char *lua_setlocal (lua_State *L, const lua_Debug *ar, int n);
-LUA_API const char *lua_getupvalue (lua_State *L, int funcindex, int n);
-LUA_API const char *lua_setupvalue (lua_State *L, int funcindex, int n);
-LUA_API int lua_sethook (lua_State *L, lua_Hook func, int mask, int count);
-LUA_API lua_Hook lua_gethook (lua_State *L);
-LUA_API int lua_gethookmask (lua_State *L);
-LUA_API int lua_gethookcount (lua_State *L);
-
-/* From Lua 5.2. */
-LUA_API void *lua_upvalueid (lua_State *L, int idx, int n);
-LUA_API void lua_upvaluejoin (lua_State *L, int idx1, int n1, int idx2, int n2);
-LUA_API int lua_loadx (lua_State *L, lua_Reader reader, void *dt,
-		       const char *chunkname, const char *mode);
-
-
-struct lua_Debug {
-  int event;
-  const char *name;	/* (n) */
-  const char *namewhat;	/* (n) `global', `local', `field', `method' */
-  const char *what;	/* (S) `Lua', `C', `main', `tail' */
-  const char *source;	/* (S) */
-  int currentline;	/* (l) */
-  int nups;		/* (u) number of upvalues */
-  int linedefined;	/* (S) */
-  int lastlinedefined;	/* (S) */
-  char short_src[LUA_IDSIZE]; /* (S) */
-  /* private part */
-  int i_ci;  /* active function */
-};
-
-/* }====================================================================== */
-
-
-/******************************************************************************
-* Copyright (C) 1994-2008 Lua.org, PUC-Rio.  All rights reserved.
-*
-* Permission is hereby granted, free of charge, to any person obtaining
-* a copy of this software and associated documentation files (the
-* "Software"), to deal in the Software without restriction, including
-* without limitation the rights to use, copy, modify, merge, publish,
-* distribute, sublicense, and/or sell copies of the Software, and to
-* permit persons to whom the Software is furnished to do so, subject to
-* the following conditions:
-*
-* The above copyright notice and this permission notice shall be
-* included in all copies or substantial portions of the Software.
-*
-* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
-* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
-* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
-* IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY
-* CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT,
-* TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE
-* SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
-******************************************************************************/
-
-
-#endif
diff --git a/luajit-2.0/src/lua.hpp b/luajit-2.0/src/lua.hpp
deleted file mode 100644
index 07e9002..0000000
--- a/luajit-2.0/src/lua.hpp
+++ /dev/null
@@ -1,9 +0,0 @@
-// C++ wrapper for LuaJIT header files.
-
-extern "C" {
-#include "lua.h"
-#include "lauxlib.h"
-#include "lualib.h"
-#include "luajit.h"
-}
-
diff --git a/luajit-2.0/src/luaconf.h b/luajit-2.0/src/luaconf.h
deleted file mode 100644
index 736c0e2..0000000
--- a/luajit-2.0/src/luaconf.h
+++ /dev/null
@@ -1,156 +0,0 @@
-/*
-** Configuration header.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#ifndef luaconf_h
-#define luaconf_h
-
-#ifndef WINVER
-#define WINVER 0x0501
-#endif
-#include <limits.h>
-#include <stddef.h>
-
-/* Default path for loading Lua and C modules with require(). */
-#if defined(_WIN32)
-/*
-** In Windows, any exclamation mark ('!') in the path is replaced by the
-** path of the directory of the executable file of the current process.
-*/
-#define LUA_LDIR	"!\\lua\\"
-#define LUA_CDIR	"!\\"
-#define LUA_PATH_DEFAULT \
-  ".\\?.lua;" LUA_LDIR"?.lua;" LUA_LDIR"?\\init.lua;"
-#define LUA_CPATH_DEFAULT \
-  ".\\?.dll;" LUA_CDIR"?.dll;" LUA_CDIR"loadall.dll"
-#else
-/*
-** Note to distribution maintainers: do NOT patch the following lines!
-** Please read ../doc/install.html#distro and pass PREFIX=/usr instead.
-*/
-#ifndef LUA_MULTILIB
-#define LUA_MULTILIB	"lib"
-#endif
-#ifndef LUA_LMULTILIB
-#define LUA_LMULTILIB	"lib"
-#endif
-#define LUA_LROOT	"/usr/local"
-#define LUA_LUADIR	"/lua/5.1/"
-#define LUA_LJDIR	"/luajit-2.0.3/"
-
-#ifdef LUA_ROOT
-#define LUA_JROOT	LUA_ROOT
-#define LUA_RLDIR	LUA_ROOT "/share" LUA_LUADIR
-#define LUA_RCDIR	LUA_ROOT "/" LUA_MULTILIB LUA_LUADIR
-#define LUA_RLPATH	";" LUA_RLDIR "?.lua;" LUA_RLDIR "?/init.lua"
-#define LUA_RCPATH	";" LUA_RCDIR "?.so"
-#else
-#define LUA_JROOT	LUA_LROOT
-#define LUA_RLPATH
-#define LUA_RCPATH
-#endif
-
-#define LUA_JPATH	";" LUA_JROOT "/share" LUA_LJDIR "?.lua"
-#define LUA_LLDIR	LUA_LROOT "/share" LUA_LUADIR
-#define LUA_LCDIR	LUA_LROOT "/" LUA_LMULTILIB LUA_LUADIR
-#define LUA_LLPATH	";" LUA_LLDIR "?.lua;" LUA_LLDIR "?/init.lua"
-#define LUA_LCPATH1	";" LUA_LCDIR "?.so"
-#define LUA_LCPATH2	";" LUA_LCDIR "loadall.so"
-
-#define LUA_PATH_DEFAULT	"./?.lua" LUA_JPATH LUA_LLPATH LUA_RLPATH
-#define LUA_CPATH_DEFAULT	"./?.so" LUA_LCPATH1 LUA_RCPATH LUA_LCPATH2
-#endif
-
-/* Environment variable names for path overrides and initialization code. */
-#define LUA_PATH	"LUA_PATH"
-#define LUA_CPATH	"LUA_CPATH"
-#define LUA_INIT	"LUA_INIT"
-
-/* Special file system characters. */
-#if defined(_WIN32)
-#define LUA_DIRSEP	"\\"
-#else
-#define LUA_DIRSEP	"/"
-#endif
-#define LUA_PATHSEP	";"
-#define LUA_PATH_MARK	"?"
-#define LUA_EXECDIR	"!"
-#define LUA_IGMARK	"-"
-#define LUA_PATH_CONFIG \
-  LUA_DIRSEP "\n" LUA_PATHSEP "\n" LUA_PATH_MARK "\n" \
-  LUA_EXECDIR "\n" LUA_IGMARK
-
-/* Quoting in error messages. */
-#define LUA_QL(x)	"'" x "'"
-#define LUA_QS		LUA_QL("%s")
-
-/* Various tunables. */
-#define LUAI_MAXSTACK	65500	/* Max. # of stack slots for a thread (<64K). */
-#define LUAI_MAXCSTACK	8000	/* Max. # of stack slots for a C func (<10K). */
-#define LUAI_GCPAUSE	200	/* Pause GC until memory is at 200%. */
-#define LUAI_GCMUL	200	/* Run GC at 200% of allocation speed. */
-#define LUA_MAXCAPTURES	32	/* Max. pattern captures. */
-
-/* Compatibility with older library function names. */
-#define LUA_COMPAT_MOD		/* OLD: math.mod, NEW: math.fmod */
-#define LUA_COMPAT_GFIND	/* OLD: string.gfind, NEW: string.gmatch */
-
-/* Configuration for the frontend (the luajit executable). */
-#if defined(luajit_c)
-#define LUA_PROGNAME	"luajit"  /* Fallback frontend name. */
-#define LUA_PROMPT	"th> "	/* Interactive prompt. */
-#define LUA_PROMPT2	"th>> "	/* Continuation prompt. */
-#define LUA_MAXINPUT	512	/* Max. input line length. */
-#endif
-
-/* Note: changing the following defines breaks the Lua 5.1 ABI. */
-#define LUA_INTEGER	ptrdiff_t
-#define LUA_IDSIZE	60	/* Size of lua_Debug.short_src. */
-/*
-** Size of lauxlib and io.* on-stack buffers. Weird workaround to avoid using
-** unreasonable amounts of stack space, but still retain ABI compatibility.
-** Blame Lua for depending on BUFSIZ in the ABI, blame **** for wrecking it.
-*/
-#define LUAL_BUFFERSIZE	(BUFSIZ > 16384 ? 8192 : BUFSIZ)
-
-/* The following defines are here only for compatibility with luaconf.h
-** from the standard Lua distribution. They must not be changed for LuaJIT.
-*/
-#define LUA_NUMBER_DOUBLE
-#define LUA_NUMBER		double
-#define LUAI_UACNUMBER		double
-#define LUA_NUMBER_SCAN		"%lf"
-#define LUA_NUMBER_FMT		"%.14g"
-#define lua_number2str(s, n)	sprintf((s), LUA_NUMBER_FMT, (n))
-#define LUAI_MAXNUMBER2STR	32
-#define LUA_INTFRMLEN		"l"
-#define LUA_INTFRM_T		long
-
-/* Linkage of public API functions. */
-#if defined(LUA_BUILD_AS_DLL)
-#if defined(LUA_CORE) || defined(LUA_LIB)
-#define LUA_API		__declspec(dllexport)
-#else
-#define LUA_API		__declspec(dllimport)
-#endif
-#else
-#define LUA_API		extern
-#endif
-
-#define LUALIB_API	LUA_API
-
-/* Support for internal assertions. */
-#if defined(LUA_USE_ASSERT) || defined(LUA_USE_APICHECK)
-#include <assert.h>
-#endif
-#ifdef LUA_USE_ASSERT
-#define lua_assert(x)		assert(x)
-#endif
-#ifdef LUA_USE_APICHECK
-#define luai_apicheck(L, o)	{ (void)L; assert(o); }
-#else
-#define luai_apicheck(L, o)	{ (void)L; }
-#endif
-
-#endif
diff --git a/luajit-2.0/src/luajit.c b/luajit-2.0/src/luajit.c
deleted file mode 100644
index 4e85908..0000000
--- a/luajit-2.0/src/luajit.c
+++ /dev/null
@@ -1,862 +0,0 @@
-/*
-** LuaJIT frontend. Runs commands, scripts, read-eval-print (REPL) etc.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-**
-** Major portions taken verbatim or adapted from the Lua interpreter.
-** Copyright (C) 1994-2008 Lua.org, PUC-Rio. See Copyright Notice in lua.h
-*/
-
-#include <stdio.h>
-#include <stdlib.h>
-#include <string.h>
-
-#define luajit_c
-
-#include "lua.h"
-#include "lauxlib.h"
-#include "lualib.h"
-#include "luajit.h"
-
-#include "lj_arch.h"
-
-#if LJ_TARGET_POSIX
-#include <unistd.h>
-#define lua_stdin_is_tty()	isatty(0)
-#elif LJ_TARGET_WINDOWS
-#include <io.h>
-#ifdef __BORLANDC__
-#define lua_stdin_is_tty()	isatty(_fileno(stdin))
-#else
-#define lua_stdin_is_tty()	_isatty(_fileno(stdin))
-#endif
-#else
-#define lua_stdin_is_tty()	1
-#endif
-
-#if !LJ_TARGET_CONSOLE
-#include <signal.h>
-#endif
-
-static lua_State *globalL = NULL;
-static const char *progname = LUA_PROGNAME;
-
-/* ------------------------------------------------------------------------ */
-
-#ifdef LUA_USE_READLINE
-
-#include <readline/readline.h>
-#include <readline/history.h>
-
-#define lua_readline(L,b,p) ((void)L, ((b)=readline(p)) != NULL)
-#define lua_saveline(L,idx) \
-  if (lua_strlen(L,idx) > 0)  /* non-empty line? */ \
-    add_history(lua_tostring(L, idx));  /* add it to history */
-#define lua_freeline(L,b) ((void)L, free(b))
-
-/*
-** Lua 5.1.4 advanced readline support for the GNU readline and history
-** libraries or compatible replacements.
-**
-** Author: Mike Pall.
-** Maintainer: Sean Bolton (sean at smbolton dot com).
-**
-** Copyright (C) 2004-2006, 2011 Mike Pall. Same license as Lua. See lua.h.
-**
-** Advanced features:
-** - Completion of keywords and global variable names.
-** - Recursive and metatable-aware completion of variable names.
-** - Context sensitive delimiter completion.
-** - Save/restore of the history to/from a file (LUA_HISTORY env variable).
-** - Setting a limit for the size of the history (LUA_HISTSIZE env variable).
-** - Setting the app name to allow for $if lua ... $endif in ~/.inputrc.
-**
-** Start lua and try these (replace ~ with the TAB key):
-**
-** ~~
-** fu~foo() ret~fa~end<CR>
-** io~~~s~~~o~~~w~"foo\n")<CR>
-**
-** The ~~ are just for demonstration purposes (io~s~o~w~ suffices, of course).
-**
-** If you are used to zsh/tcsh-style completion support, try adding
-** 'TAB: menu-complete' and 'C-d: possible-completions' to your ~/.inputrc.
-**
-** The patch has been successfully tested with:
-**
-** GNU    readline 2.2.1  (1998-07-17)
-** GNU    readline 4.0    (1999-02-18) [harmless compiler warning]
-** GNU    readline 4.3    (2002-07-16)
-** GNU    readline 5.0    (2004-07-27)
-** GNU    readline 5.1    (2005-12-07)
-** GNU    readline 5.2    (2006-10-11)
-** GNU    readline 6.0    (2009-02-20)
-** GNU    readline 6.2    (2011-02-13)
-** MacOSX libedit  2.11   (2008-07-12)
-** NETBSD libedit  2.6.5  (2002-03-25)
-** NETBSD libedit  2.6.9  (2004-05-01)
-**
-** Change Log:
-** 2004-2006  Mike Pall   - original patch
-** 2009/08/24 Sean Bolton - updated for GNU readline version 6
-** 2011/12/14 Sean Bolton - fixed segfault when using Mac OS X libedit 2.11
-*/
-
-#include <ctype.h>
-
-static char *lua_rl_hist;
-static int lua_rl_histsize;
-
-static lua_State *lua_rl_L;  /* User data is not passed to rl callbacks. */
-
-/* Reserved keywords. */
-static const char *const lua_rl_keywords[] = {
-  "and", "break", "do", "else", "elseif", "end", "false",
-  "for", "function", "if", "in", "local", "nil", "not", "or",
-  "repeat", "return", "then", "true", "until", "while", NULL
-};
-
-static int valididentifier(const char *s)
-{
-  if (!(isalpha(*s) || *s == '_')) return 0;
-  for (s++; *s; s++) if (!(isalpha(*s) || isdigit(*s) || *s == '_')) return 0;
-  return 1;
-}
-
-/* Dynamically resizable match list. */
-typedef struct {
-  char **list;
-  size_t idx, allocated, matchlen;
-} dmlist;
-
-/* Add prefix + string + suffix to list and compute common prefix. */
-static int lua_rl_dmadd(dmlist *ml, const char *p, size_t pn, const char *s,
-			int suf)
-{
-  char *t = NULL;
-
-  if (ml->idx+1 >= ml->allocated &&
-      !(ml->list = realloc(ml->list, sizeof(char *)*(ml->allocated += 32))))
-    return -1;
-
-  if (s) {
-    size_t n = strlen(s);
-    if (!(t = (char *)malloc(sizeof(char)*(pn+n+(suf?2:1))))) return 1;
-    memcpy(t, p, pn);
-    memcpy(t+pn, s, n);
-    n += pn;
-    t[n] = suf;
-    if (suf) t[++n] = '\0';
-
-    if (ml->idx == 0) {
-      ml->matchlen = n;
-    } else {
-      size_t i;
-      for (i = 0; i < ml->matchlen && i < n && ml->list[1][i] == t[i]; i++) ;
-      ml->matchlen = i;  /* Set matchlen to common prefix. */
-    }
-  }
-
-  ml->list[++ml->idx] = t;
-  return 0;
-}
-
-/* Get __index field of metatable of object on top of stack. */
-static int lua_rl_getmetaindex(lua_State *L)
-{
-  if (!lua_getmetatable(L, -1)) { lua_pop(L, 1); return 0; }
-
-  /* prefer __metatable if it exists */
-  lua_pushstring(L, "__metatable");
-  lua_rawget(L, -2);
-  if(lua_istable(L, -1))
-  {
-    lua_remove(L, -2);
-    return 1;
-  }
-  else
-    lua_pop(L, 1);
-
-  lua_pushstring(L, "__index");
-  lua_rawget(L, -2);
-  lua_replace(L, -2);
-  if (lua_isnil(L, -1) || lua_rawequal(L, -1, -2)) { lua_pop(L, 2); return 0; }
-  lua_replace(L, -2);
-  return 1;
-}  /* 1: obj -- val, 0: obj -- */
-
-/* Get field from object on top of stack. Avoid calling metamethods. */
-static int lua_rl_getfield(lua_State *L, const char *s, size_t n)
-{
-  int i = 20;  /* Avoid infinite metatable loops. */
-  do {
-    if (lua_istable(L, -1)) {
-      lua_pushlstring(L, s, n);
-      lua_rawget(L, -2);
-      if (!lua_isnil(L, -1)) { lua_replace(L, -2); return 1; }
-      lua_pop(L, 1);
-    }
-  } while (--i > 0 && lua_rl_getmetaindex(L));
-  lua_pop(L, 1);
-  return 0;
-}  /* 1: obj -- val, 0: obj -- */
-
-/* Completion callback. */
-static char **lua_rl_complete(const char *text, int start, int end)
-{
-  lua_State *L = lua_rl_L;
-  dmlist ml;
-  const char *s;
-  size_t i, n, dot, loop;
-  int savetop;
-
-  if (!(text[0] == '\0' || isalpha(text[0]) || text[0] == '_')) return NULL;
-
-  ml.list = NULL;
-  ml.idx = ml.allocated = ml.matchlen = 0;
-
-  savetop = lua_gettop(L);
-  lua_pushvalue(L, LUA_GLOBALSINDEX);
-  for (n = (size_t)(end-start), i = dot = 0; i < n; i++)
-    if (text[i] == '.' || text[i] == ':') {
-      if (!lua_rl_getfield(L, text+dot, i-dot))
-	goto error;  /* Invalid prefix. */
-      dot = i+1;  /* Points to first char after dot/colon. */
-    }
-
-  /* Add all matches against keywords if there is no dot/colon. */
-  if (dot == 0)
-    for (i = 0; (s = lua_rl_keywords[i]) != NULL; i++)
-      if (!strncmp(s, text, n) && lua_rl_dmadd(&ml, NULL, 0, s, ' '))
-	goto error;
-
-  /* Add all valid matches from all tables/metatables. */
-  loop = 0;  /* Avoid infinite metatable loops. */
-  do {
-    if (lua_istable(L, -1) &&
-	(loop == 0 || !lua_rawequal(L, -1, LUA_GLOBALSINDEX)))
-      for (lua_pushnil(L); lua_next(L, -2); lua_pop(L, 1))
-	if (lua_type(L, -2) == LUA_TSTRING) {
-	  s = lua_tostring(L, -2);
-	  /* Only match names starting with '_' if explicitly requested. */
-	  if (!strncmp(s, text+dot, n-dot) && valididentifier(s) &&
-	      (*s != '_' || text[dot] == '_')) {
-	    int suf = ' ';  /* Default suffix is a space. */
-	    switch (lua_type(L, -1)) {
-	    case LUA_TTABLE:	suf = '.'; break;  /* No way to guess ':'. */
-	    case LUA_TFUNCTION:	suf = '('; break;
-	    case LUA_TUSERDATA:
-	      if (lua_getmetatable(L, -1)) { lua_pop(L, 1); suf = ':'; }
-	      break;
-	    }
-	    if (lua_rl_dmadd(&ml, text, dot, s, suf)) goto error;
-	  }
-	}
-  } while (++loop < 20 && lua_rl_getmetaindex(L));
-
-  if (ml.idx == 0) {
-error:
-    lua_settop(L, savetop);
-    return NULL;
-  } else {
-    /* list[0] holds the common prefix of all matches (may be ""). */
-    /* If there is only one match, list[0] and list[1] will be the same. */
-    if (!(ml.list[0] = (char *)malloc(sizeof(char)*(ml.matchlen+1))))
-      goto error;
-    memcpy(ml.list[0], ml.list[1], ml.matchlen);
-    ml.list[0][ml.matchlen] = '\0';
-    /* Add the NULL list terminator. */
-    if (lua_rl_dmadd(&ml, NULL, 0, NULL, 0)) goto error;
-  }
-
-  lua_settop(L, savetop);
-#if RL_READLINE_VERSION >= 0x0600
-  rl_completion_suppress_append = 1;
-#endif
-  return ml.list;
-}
-
-/* Initialize readline library. */
-static void lua_rl_init(lua_State *L)
-{
-  char *s;
-
-  lua_rl_L = L;
-
-  /* This allows for $if lua ... $endif in ~/.inputrc. */
-  rl_readline_name = "lua";
-  /* Break words at every non-identifier character except '.' and ':'. */
-  rl_completer_word_break_characters = 
-    "\t\r\n !\"#$%&'()*+,-/;<=>?@[\\]^`{|}~";
-  rl_completer_quote_characters = "\"'";
-#if RL_READLINE_VERSION < 0x0600
-  rl_completion_append_character = '\0';
-#endif
-  rl_attempted_completion_function = lua_rl_complete;
-  rl_initialize();
-
-  /* Start using history, optionally set history size and load history file. */
-  using_history();
-  if ((s = getenv("LUA_HISTSIZE")) &&
-      (lua_rl_histsize = atoi(s))) stifle_history(lua_rl_histsize);
-  if ((lua_rl_hist = getenv("LUA_HISTORY"))) read_history(lua_rl_hist);
-}
-
-/* Finalize readline library. */
-static void lua_rl_exit(lua_State *L)
-{
-  /* Optionally save history file. */
-  if (lua_rl_hist) write_history(lua_rl_hist);
-}
-#else
-#define lua_readline(L,b,p) \
-  ((void)L, fputs(p, stdout), fflush(stdout),  /* show prompt */ \
-   fgets(b, LUA_MAXINPUT, stdin) != NULL)  /* get line */
-#define lua_saveline(L,idx) { (void)L; (void)idx; }
-#define lua_freeline(L,b) { (void)L; (void)b; }
-#define lua_rl_init(L)		((void)L)
-#define lua_rl_exit(L)		((void)L)
-#endif
-
-/* ------------------------------------------------------------------------ */
-
-#if !LJ_TARGET_CONSOLE
-static void lstop(lua_State *L, lua_Debug *ar)
-{
-  (void)ar;  /* unused arg. */
-  lua_sethook(L, NULL, 0, 0);
-  /* Avoid luaL_error -- a C hook doesn't add an extra frame. */
-  luaL_where(L, 0);
-  lua_pushfstring(L, "%sinterrupted!", lua_tostring(L, -1));
-  lua_error(L);
-}
-
-static void laction(int i)
-{
-  signal(i, SIG_DFL); /* if another SIGINT happens before lstop,
-			 terminate process (default action) */
-  lua_sethook(globalL, lstop, LUA_MASKCALL | LUA_MASKRET | LUA_MASKCOUNT, 1);
-}
-#endif
-
-static void print_usage(void)
-{
-  fprintf(stderr,
-  "usage: %s [options]... [script [args]...].\n"
-  "Available options are:\n"
-  "  -e chunk  Execute string " LUA_QL("chunk") ".\n"
-  "  -l name   Require library " LUA_QL("name") ".\n"
-  "  -b ...    Save or list bytecode.\n"
-  "  -j cmd    Perform LuaJIT control command.\n"
-  "  -O[opt]   Control LuaJIT optimizations.\n"
-  "  -i        Enter interactive mode after executing " LUA_QL("script") ".\n"
-  "  -v        Show version information.\n"
-  "  -E        Ignore environment variables.\n"
-  "  --        Stop handling options.\n"
-  "  -         Execute stdin and stop handling options.\n"
-  ,
-  progname);
-  fflush(stderr);
-}
-
-static void l_message(const char *pname, const char *msg)
-{
-  if (pname) fprintf(stderr, "%s: ", pname);
-  fprintf(stderr, "%s\n", msg);
-  fflush(stderr);
-}
-
-static int report(lua_State *L, int status)
-{
-  if (status && !lua_isnil(L, -1)) {
-    const char *msg = lua_tostring(L, -1);
-    if (msg == NULL) msg = "(error object is not a string)";
-    l_message(progname, msg);
-    lua_pop(L, 1);
-  }
-  return status;
-}
-
-static int traceback(lua_State *L)
-{
-  if (!lua_isstring(L, 1)) { /* Non-string error object? Try metamethod. */
-    if (lua_isnoneornil(L, 1) ||
-	!luaL_callmeta(L, 1, "__tostring") ||
-	!lua_isstring(L, -1))
-      return 1;  /* Return non-string error object. */
-    lua_remove(L, 1);  /* Replace object by result of __tostring metamethod. */
-  }
-  luaL_traceback(L, L, lua_tostring(L, 1), 1);
-  return 1;
-}
-
-static int docall(lua_State *L, int narg, int clear)
-{
-  int status;
-  int base = lua_gettop(L) - narg;  /* function index */
-  lua_pushcfunction(L, traceback);  /* push traceback function */
-  lua_insert(L, base);  /* put it under chunk and args */
-#if !LJ_TARGET_CONSOLE
-  signal(SIGINT, laction);
-#endif
-  status = lua_pcall(L, narg, (clear ? 0 : LUA_MULTRET), base);
-#if !LJ_TARGET_CONSOLE
-  signal(SIGINT, SIG_DFL);
-#endif
-  lua_remove(L, base);  /* remove traceback function */
-  /* force a complete garbage collection in case of errors */
-  if (status != 0) lua_gc(L, LUA_GCCOLLECT, 0);
-  return status;
-}
-
-static void print_version(void)
-{
-  fputs(LUAJIT_VERSION " -- " LUAJIT_COPYRIGHT ". " LUAJIT_URL "\n", stdout);
-  fputs("\n", stdout);
-  fputs(" _____              _     \n", stdout);
-  fputs("|_   _|            | |    \n", stdout);
-  fputs("  | | ___  _ __ ___| |__  \n", stdout);
-  fputs("  | |/ _ \\| '__/ __| '_ \\ \n", stdout);
-  fputs("  | | (_) | | | (__| | | |\n", stdout);
-  fputs("  \\_/\\___/|_|  \\___|_| |_|\n", stdout);
-  fputs("\n", stdout);
-}
-
-static void print_jit_status(lua_State *L)
-{
-  int n;
-  const char *s;
-  lua_getfield(L, LUA_REGISTRYINDEX, "_LOADED");
-  lua_getfield(L, -1, "jit");  /* Get jit.* module table. */
-  lua_remove(L, -2);
-  lua_getfield(L, -1, "status");
-  lua_remove(L, -2);
-  n = lua_gettop(L);
-  lua_call(L, 0, LUA_MULTRET);
-  fputs(lua_toboolean(L, n) ? "JIT: ON" : "JIT: OFF", stdout);
-  for (n++; (s = lua_tostring(L, n)); n++) {
-    putc(' ', stdout);
-    fputs(s, stdout);
-  }
-  putc('\n', stdout);
-}
-
-static int getargs(lua_State *L, char **argv, int n)
-{
-  int narg;
-  int i;
-  int argc = 0;
-  while (argv[argc]) argc++;  /* count total number of arguments */
-  narg = argc - (n + 1);  /* number of arguments to the script */
-  luaL_checkstack(L, narg + 3, "too many arguments to script");
-  for (i = n+1; i < argc; i++)
-    lua_pushstring(L, argv[i]);
-  lua_createtable(L, narg, n + 1);
-  for (i = 0; i < argc; i++) {
-    lua_pushstring(L, argv[i]);
-    lua_rawseti(L, -2, i - n);
-  }
-  return narg;
-}
-
-static int dofile(lua_State *L, const char *name)
-{
-  int status = luaL_loadfile(L, name) || docall(L, 0, 1);
-  return report(L, status);
-}
-
-static int dostring(lua_State *L, const char *s, const char *name)
-{
-  int status = luaL_loadbuffer(L, s, strlen(s), name) || docall(L, 0, 1);
-  return report(L, status);
-}
-
-static int dolibrary(lua_State *L, const char *name)
-{
-  lua_getglobal(L, "require");
-  lua_pushstring(L, name);
-  return report(L, docall(L, 1, 1));
-}
-
-static const char* get_prompt(lua_State *L, int firstline)
-{
-  const char *p;
-  lua_getfield(L, LUA_GLOBALSINDEX, firstline ? "_PROMPT" : "_PROMPT2");
-  p = lua_tostring(L, -1);
-  if (p == NULL) p = firstline ? LUA_PROMPT : LUA_PROMPT2;
-  lua_pop(L, 1);  /* remove global */
-  return p;
-}
-
-static int incomplete(lua_State *L, int status)
-{
-  if (status == LUA_ERRSYNTAX) {
-    size_t lmsg;
-    const char *msg = lua_tolstring(L, -1, &lmsg);
-    const char *tp = msg + lmsg - (sizeof(LUA_QL("<eof>")) - 1);
-    if (strstr(msg, LUA_QL("<eof>")) == tp) {
-      lua_pop(L, 1);
-      return 1;
-    }
-  }
-  return 0;  /* else... */
-}
-
-static int pushline(lua_State *L, int firstline)
-{
-  char buf[LUA_MAXINPUT];
-  char *b = buf;
-  const char *prmt = get_prompt(L, firstline);
-  if (lua_readline(L, b, prmt)) {
-    size_t len = strlen(b);
-    if (len > 0 && b[len-1] == '\n')
-      b[len-1] = '\0';
-    if (firstline && b[0] == '=')
-      lua_pushfstring(L, "return %s", b+1);
-    else
-      lua_pushstring(L, b);
-    lua_freeline(L, b);
-    return 1;
-  }
-  return 0;
-}
-
-static int loadline(lua_State *L)
-{
-  int status;
-  lua_settop(L, 0);
-  if (!pushline(L, 1))
-    return -1;  /* no input */
-  for (;;) {  /* repeat until gets a complete line */
-    status = luaL_loadbuffer(L, lua_tostring(L, 1), lua_strlen(L, 1), "=stdin");
-    if (!incomplete(L, status)) break;  /* cannot try to add lines? */
-    if (!pushline(L, 0))  /* no more input? */
-      return -1;
-    lua_pushliteral(L, "\n");  /* add a new line... */
-    lua_insert(L, -2);  /* ...between the two lines */
-    lua_concat(L, 3);  /* join them */
-  }
-  lua_saveline(L, 1);
-  lua_remove(L, 1);  /* remove line */
-  return status;
-}
-
-static void dotty(lua_State *L)
-{
-  int status;
-  const char *oldprogname = progname;
-  progname = NULL;
-  lua_rl_init(L);
-  while ((status = loadline(L)) != -1) {
-    if (status == 0) status = docall(L, 0, 0);
-    report(L, status);
-    if (status == 0 && lua_gettop(L) > 0) {  /* any result to print? */
-      lua_getglobal(L, "print");
-      lua_insert(L, 1);
-      if (lua_pcall(L, lua_gettop(L)-1, 0, 0) != 0)
-	l_message(progname,
-	  lua_pushfstring(L, "error calling " LUA_QL("print") " (%s)",
-			      lua_tostring(L, -1)));
-    }
-  }
-  lua_settop(L, 0);  /* clear stack */
-  fputs("\n", stdout);
-  fflush(stdout);
-  lua_rl_exit(L);
-  progname = oldprogname;
-}
-
-static int handle_script(lua_State *L, char **argv, int n)
-{
-  int status;
-  const char *fname;
-  int narg = getargs(L, argv, n);  /* collect arguments */
-  lua_setglobal(L, "arg");
-  fname = argv[n];
-  if (strcmp(fname, "-") == 0 && strcmp(argv[n-1], "--") != 0)
-    fname = NULL;  /* stdin */
-  status = luaL_loadfile(L, fname);
-  lua_insert(L, -(narg+1));
-  if (status == 0)
-    status = docall(L, narg, 0);
-  else
-    lua_pop(L, narg);
-  return report(L, status);
-}
-
-/* Load add-on module. */
-static int loadjitmodule(lua_State *L)
-{
-  lua_getglobal(L, "require");
-  lua_pushliteral(L, "jit.");
-  lua_pushvalue(L, -3);
-  lua_concat(L, 2);
-  if (lua_pcall(L, 1, 1, 0)) {
-    const char *msg = lua_tostring(L, -1);
-    if (msg && !strncmp(msg, "module ", 7))
-      goto nomodule;
-    return report(L, 1);
-  }
-  lua_getfield(L, -1, "start");
-  if (lua_isnil(L, -1)) {
-  nomodule:
-    l_message(progname,
-	      "unknown luaJIT command or jit.* modules not installed");
-    return 1;
-  }
-  lua_remove(L, -2);  /* Drop module table. */
-  return 0;
-}
-
-/* Run command with options. */
-static int runcmdopt(lua_State *L, const char *opt)
-{
-  int narg = 0;
-  if (opt && *opt) {
-    for (;;) {  /* Split arguments. */
-      const char *p = strchr(opt, ',');
-      narg++;
-      if (!p) break;
-      if (p == opt)
-	lua_pushnil(L);
-      else
-	lua_pushlstring(L, opt, (size_t)(p - opt));
-      opt = p + 1;
-    }
-    if (*opt)
-      lua_pushstring(L, opt);
-    else
-      lua_pushnil(L);
-  }
-  return report(L, lua_pcall(L, narg, 0, 0));
-}
-
-/* JIT engine control command: try jit library first or load add-on module. */
-static int dojitcmd(lua_State *L, const char *cmd)
-{
-  const char *opt = strchr(cmd, '=');
-  lua_pushlstring(L, cmd, opt ? (size_t)(opt - cmd) : strlen(cmd));
-  lua_getfield(L, LUA_REGISTRYINDEX, "_LOADED");
-  lua_getfield(L, -1, "jit");  /* Get jit.* module table. */
-  lua_remove(L, -2);
-  lua_pushvalue(L, -2);
-  lua_gettable(L, -2);  /* Lookup library function. */
-  if (!lua_isfunction(L, -1)) {
-    lua_pop(L, 2);  /* Drop non-function and jit.* table, keep module name. */
-    if (loadjitmodule(L))
-      return 1;
-  } else {
-    lua_remove(L, -2);  /* Drop jit.* table. */
-  }
-  lua_remove(L, -2);  /* Drop module name. */
-  return runcmdopt(L, opt ? opt+1 : opt);
-}
-
-/* Optimization flags. */
-static int dojitopt(lua_State *L, const char *opt)
-{
-  lua_getfield(L, LUA_REGISTRYINDEX, "_LOADED");
-  lua_getfield(L, -1, "jit.opt");  /* Get jit.opt.* module table. */
-  lua_remove(L, -2);
-  lua_getfield(L, -1, "start");
-  lua_remove(L, -2);
-  return runcmdopt(L, opt);
-}
-
-/* Save or list bytecode. */
-static int dobytecode(lua_State *L, char **argv)
-{
-  int narg = 0;
-  lua_pushliteral(L, "bcsave");
-  if (loadjitmodule(L))
-    return 1;
-  if (argv[0][2]) {
-    narg++;
-    argv[0][1] = '-';
-    lua_pushstring(L, argv[0]+1);
-  }
-  for (argv++; *argv != NULL; narg++, argv++)
-    lua_pushstring(L, *argv);
-  return report(L, lua_pcall(L, narg, 0, 0));
-}
-
-/* check that argument has no extra characters at the end */
-#define notail(x)	{if ((x)[2] != '\0') return -1;}
-
-#define FLAGS_INTERACTIVE	1
-#define FLAGS_VERSION		2
-#define FLAGS_EXEC		4
-#define FLAGS_OPTION		8
-#define FLAGS_NOENV		16
-
-static int collectargs(char **argv, int *flags)
-{
-  int i;
-  for (i = 1; argv[i] != NULL; i++) {
-    if (argv[i][0] != '-')  /* Not an option? */
-      return i;
-    switch (argv[i][1]) {  /* Check option. */
-    case '-':
-      notail(argv[i]);
-      return (argv[i+1] != NULL ? i+1 : 0);
-    case '\0':
-      return i;
-    case 'i':
-      notail(argv[i]);
-      *flags |= FLAGS_INTERACTIVE;
-      /* fallthrough */
-    case 'v':
-      notail(argv[i]);
-      *flags |= FLAGS_VERSION;
-      break;
-    case 'e':
-      *flags |= FLAGS_EXEC;
-    case 'j':  /* LuaJIT extension */
-    case 'l':
-      *flags |= FLAGS_OPTION;
-      if (argv[i][2] == '\0') {
-	i++;
-	if (argv[i] == NULL) return -1;
-      }
-      break;
-    case 'O': break;  /* LuaJIT extension */
-    case 'b':  /* LuaJIT extension */
-      if (*flags) return -1;
-      *flags |= FLAGS_EXEC;
-      return 0;
-    case 'E':
-      *flags |= FLAGS_NOENV;
-      break;
-    default: return -1;  /* invalid option */
-    }
-  }
-  return 0;
-}
-
-static int runargs(lua_State *L, char **argv, int n)
-{
-  int i;
-  for (i = 1; i < n; i++) {
-    if (argv[i] == NULL) continue;
-    lua_assert(argv[i][0] == '-');
-    switch (argv[i][1]) {  /* option */
-    case 'e': {
-      const char *chunk = argv[i] + 2;
-      if (*chunk == '\0') chunk = argv[++i];
-      lua_assert(chunk != NULL);
-      if (dostring(L, chunk, "=(command line)") != 0)
-	return 1;
-      break;
-      }
-    case 'l': {
-      const char *filename = argv[i] + 2;
-      if (*filename == '\0') filename = argv[++i];
-      lua_assert(filename != NULL);
-      if (dolibrary(L, filename))
-	return 1;  /* stop if file fails */
-      break;
-      }
-    case 'j': {  /* LuaJIT extension */
-      const char *cmd = argv[i] + 2;
-      if (*cmd == '\0') cmd = argv[++i];
-      lua_assert(cmd != NULL);
-      if (dojitcmd(L, cmd))
-	return 1;
-      break;
-      }
-    case 'O':  /* LuaJIT extension */
-      if (dojitopt(L, argv[i] + 2))
-	return 1;
-      break;
-    case 'b':  /* LuaJIT extension */
-      return dobytecode(L, argv+i);
-    default: break;
-    }
-  }
-  return 0;
-}
-
-static int handle_luainit(lua_State *L)
-{
-#if LJ_TARGET_CONSOLE
-  const char *init = NULL;
-#else
-  const char *init = getenv(LUA_INIT);
-#endif
-  if (init == NULL)
-    return 0;  /* status OK */
-  else if (init[0] == '@')
-    return dofile(L, init+1);
-  else
-    return dostring(L, init, "=" LUA_INIT);
-}
-
-static struct Smain {
-  char **argv;
-  int argc;
-  int status;
-} smain;
-
-static int pmain(lua_State *L)
-{
-  struct Smain *s = &smain;
-  char **argv = s->argv;
-  int script;
-  int flags = 0;
-  globalL = L;
-  if (argv[0] && argv[0][0]) progname = argv[0];
-  LUAJIT_VERSION_SYM();  /* linker-enforced version check */
-  script = collectargs(argv, &flags);
-  if (script < 0) {  /* invalid args? */
-    print_usage();
-    s->status = 1;
-    return 0;
-  }
-  if ((flags & FLAGS_NOENV)) {
-    lua_pushboolean(L, 1);
-    lua_setfield(L, LUA_REGISTRYINDEX, "LUA_NOENV");
-  }
-  lua_gc(L, LUA_GCSTOP, 0);  /* stop collector during initialization */
-  luaL_openlibs(L);  /* open libraries */
-  lua_gc(L, LUA_GCRESTART, -1);
-  if (!(flags & FLAGS_NOENV)) {
-    s->status = handle_luainit(L);
-    if (s->status != 0) return 0;
-  }
-  if ((flags & FLAGS_VERSION)) print_version();
-  s->status = runargs(L, argv, (script > 0) ? script : s->argc);
-  if (s->status != 0) return 0;
-  if (script) {
-    s->status = handle_script(L, argv, script);
-    if (s->status != 0) return 0;
-  }
-  if ((flags & FLAGS_INTERACTIVE)) {
-    print_jit_status(L);
-    dotty(L);
-  } else if (script == 0 && !(flags & (FLAGS_EXEC|FLAGS_VERSION))) {
-    if (lua_stdin_is_tty()) {
-      print_version();
-      print_jit_status(L);
-      dotty(L);
-    } else {
-      dofile(L, NULL);  /* executes stdin as a file */
-    }
-  }
-  return 0;
-}
-
-int main(int argc, char **argv)
-{
-  int status;
-  lua_State *L = lua_open();  /* create state */
-  if (L == NULL) {
-    l_message(argv[0], "cannot create state: not enough memory");
-    return EXIT_FAILURE;
-  }
-  smain.argc = argc;
-  smain.argv = argv;
-  status = lua_cpcall(L, pmain, NULL);
-  report(L, status);
-  lua_close(L);
-  return (status || smain.status) ? EXIT_FAILURE : EXIT_SUCCESS;
-}
-
diff --git a/luajit-2.0/src/luajit.h b/luajit-2.0/src/luajit.h
deleted file mode 100644
index be721cf..0000000
--- a/luajit-2.0/src/luajit.h
+++ /dev/null
@@ -1,70 +0,0 @@
-/*
-** LuaJIT -- a Just-In-Time Compiler for Lua. http://luajit.org/
-**
-** Copyright (C) 2005-2014 Mike Pall. All rights reserved.
-**
-** Permission is hereby granted, free of charge, to any person obtaining
-** a copy of this software and associated documentation files (the
-** "Software"), to deal in the Software without restriction, including
-** without limitation the rights to use, copy, modify, merge, publish,
-** distribute, sublicense, and/or sell copies of the Software, and to
-** permit persons to whom the Software is furnished to do so, subject to
-** the following conditions:
-**
-** The above copyright notice and this permission notice shall be
-** included in all copies or substantial portions of the Software.
-**
-** THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
-** EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
-** MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
-** IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY
-** CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT,
-** TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE
-** SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
-**
-** [ MIT license: http://www.opensource.org/licenses/mit-license.php ]
-*/
-
-#ifndef _LUAJIT_H
-#define _LUAJIT_H
-
-#include "lua.h"
-
-#define LUAJIT_VERSION		"LuaJIT 2.0.3"
-#define LUAJIT_VERSION_NUM	20003  /* Version 2.0.3 = 02.00.03. */
-#define LUAJIT_VERSION_SYM	luaJIT_version_2_0_3
-#define LUAJIT_COPYRIGHT	"Copyright (C) 2005-2014 Mike Pall"
-#define LUAJIT_URL		"http://luajit.org/"
-
-/* Modes for luaJIT_setmode. */
-#define LUAJIT_MODE_MASK	0x00ff
-
-enum {
-  LUAJIT_MODE_ENGINE,		/* Set mode for whole JIT engine. */
-  LUAJIT_MODE_DEBUG,		/* Set debug mode (idx = level). */
-
-  LUAJIT_MODE_FUNC,		/* Change mode for a function. */
-  LUAJIT_MODE_ALLFUNC,		/* Recurse into subroutine protos. */
-  LUAJIT_MODE_ALLSUBFUNC,	/* Change only the subroutines. */
-
-  LUAJIT_MODE_TRACE,		/* Flush a compiled trace. */
-
-  LUAJIT_MODE_WRAPCFUNC = 0x10,	/* Set wrapper mode for C function calls. */
-
-  LUAJIT_MODE_MAX
-};
-
-/* Flags or'ed in to the mode. */
-#define LUAJIT_MODE_OFF		0x0000	/* Turn feature off. */
-#define LUAJIT_MODE_ON		0x0100	/* Turn feature on. */
-#define LUAJIT_MODE_FLUSH	0x0200	/* Flush JIT-compiled code. */
-
-/* LuaJIT public C API. */
-
-/* Control the JIT engine. */
-LUA_API int luaJIT_setmode(lua_State *L, int idx, int mode);
-
-/* Enforce (dynamic) linker error for version mismatches. Call from main. */
-LUA_API void LUAJIT_VERSION_SYM(void);
-
-#endif
diff --git a/luajit-2.0/src/lualib.h b/luajit-2.0/src/lualib.h
deleted file mode 100644
index 1c1e317..0000000
--- a/luajit-2.0/src/lualib.h
+++ /dev/null
@@ -1,43 +0,0 @@
-/*
-** Standard library header.
-** Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-*/
-
-#ifndef _LUALIB_H
-#define _LUALIB_H
-
-#include "lua.h"
-
-#define LUA_FILEHANDLE	"FILE*"
-
-#define LUA_COLIBNAME	"coroutine"
-#define LUA_MATHLIBNAME	"math"
-#define LUA_STRLIBNAME	"string"
-#define LUA_TABLIBNAME	"table"
-#define LUA_IOLIBNAME	"io"
-#define LUA_OSLIBNAME	"os"
-#define LUA_LOADLIBNAME	"package"
-#define LUA_DBLIBNAME	"debug"
-#define LUA_BITLIBNAME	"bit"
-#define LUA_JITLIBNAME	"jit"
-#define LUA_FFILIBNAME	"ffi"
-
-LUALIB_API int luaopen_base(lua_State *L);
-LUALIB_API int luaopen_math(lua_State *L);
-LUALIB_API int luaopen_string(lua_State *L);
-LUALIB_API int luaopen_table(lua_State *L);
-LUALIB_API int luaopen_io(lua_State *L);
-LUALIB_API int luaopen_os(lua_State *L);
-LUALIB_API int luaopen_package(lua_State *L);
-LUALIB_API int luaopen_debug(lua_State *L);
-LUALIB_API int luaopen_bit(lua_State *L);
-LUALIB_API int luaopen_jit(lua_State *L);
-LUALIB_API int luaopen_ffi(lua_State *L);
-
-LUALIB_API void luaL_openlibs(lua_State *L);
-
-#ifndef lua_assert
-#define lua_assert(x)	((void)0)
-#endif
-
-#endif
diff --git a/luajit-2.0/src/msvcbuild.bat b/luajit-2.0/src/msvcbuild.bat
deleted file mode 100644
index 9160e0f..0000000
--- a/luajit-2.0/src/msvcbuild.bat
+++ /dev/null
@@ -1,113 +0,0 @@
-@rem Script to build LuaJIT with MSVC.

-@rem Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h

-@rem

-@rem Either open a "Visual Studio .NET Command Prompt"

-@rem (Note that the Express Edition does not contain an x64 compiler)

-@rem -or-

-@rem Open a "Windows SDK Command Shell" and set the compiler environment:

-@rem     setenv /release /x86

-@rem   -or-

-@rem     setenv /release /x64

-@rem

-@rem Then cd to this directory and run this script.

-

-@if not defined INCLUDE goto :FAIL

-

-@setlocal

-@set LJCOMPILE=cl /nologo /c /O2 /W3 /D_CRT_SECURE_NO_DEPRECATE

-@set LJLINK=link /nologo

-@set LJMT=mt /nologo

-@set LJLIB=lib /nologo /nodefaultlib

-@set DASMDIR=..\dynasm

-@set DASM=%DASMDIR%\dynasm.lua

-@set LJDLLNAME=lua51.dll

-@set LJLIBNAME=lua51.lib

-@set ALL_LIB=lib_base.c lib_math.c lib_bit.c lib_string.c lib_table.c lib_io.c lib_os.c lib_package.c lib_debug.c lib_jit.c lib_ffi.c

-

-%LJCOMPILE% host\minilua.c

-@if errorlevel 1 goto :BAD

-%LJLINK% /out:minilua.exe minilua.obj

-@if errorlevel 1 goto :BAD

-if exist minilua.exe.manifest^

-  %LJMT% -manifest minilua.exe.manifest -outputresource:minilua.exe

-

-@set DASMFLAGS=-D WIN -D JIT -D FFI -D P64

-@set LJARCH=x64

-@minilua

-@if errorlevel 8 goto :X64

-@set DASMFLAGS=-D WIN -D JIT -D FFI

-@set LJARCH=x86

-:X64

-minilua %DASM% -LN %DASMFLAGS% -o host\buildvm_arch.h vm_x86.dasc

-@if errorlevel 1 goto :BAD

-

-%LJCOMPILE% /I "." /I %DASMDIR% host\buildvm*.c

-@if errorlevel 1 goto :BAD

-%LJLINK% /out:buildvm.exe buildvm*.obj

-@if errorlevel 1 goto :BAD

-if exist buildvm.exe.manifest^

-  %LJMT% -manifest buildvm.exe.manifest -outputresource:buildvm.exe

-

-buildvm -m peobj -o lj_vm.obj

-@if errorlevel 1 goto :BAD

-buildvm -m bcdef -o lj_bcdef.h %ALL_LIB%

-@if errorlevel 1 goto :BAD

-buildvm -m ffdef -o lj_ffdef.h %ALL_LIB%

-@if errorlevel 1 goto :BAD

-buildvm -m libdef -o lj_libdef.h %ALL_LIB%

-@if errorlevel 1 goto :BAD

-buildvm -m recdef -o lj_recdef.h %ALL_LIB%

-@if errorlevel 1 goto :BAD

-buildvm -m vmdef -o jit\vmdef.lua %ALL_LIB%

-@if errorlevel 1 goto :BAD

-buildvm -m folddef -o lj_folddef.h lj_opt_fold.c

-@if errorlevel 1 goto :BAD

-

-@if "%1" neq "debug" goto :NODEBUG

-@shift

-@set LJCOMPILE=%LJCOMPILE% /Zi

-@set LJLINK=%LJLINK% /debug

-:NODEBUG

-@if "%1"=="amalg" goto :AMALGDLL

-@if "%1"=="static" goto :STATIC

-%LJCOMPILE% /MD /DLUA_BUILD_AS_DLL lj_*.c lib_*.c

-@if errorlevel 1 goto :BAD

-%LJLINK% /DLL /out:%LJDLLNAME% lj_*.obj lib_*.obj

-@if errorlevel 1 goto :BAD

-@goto :MTDLL

-:STATIC

-%LJCOMPILE% lj_*.c lib_*.c

-@if errorlevel 1 goto :BAD

-%LJLIB% /OUT:%LJLIBNAME% lj_*.obj lib_*.obj

-@if errorlevel 1 goto :BAD

-@goto :MTDLL

-:AMALGDLL

-%LJCOMPILE% /MD /DLUA_BUILD_AS_DLL ljamalg.c

-@if errorlevel 1 goto :BAD

-%LJLINK% /DLL /out:%LJDLLNAME% ljamalg.obj lj_vm.obj

-@if errorlevel 1 goto :BAD

-:MTDLL

-if exist %LJDLLNAME%.manifest^

-  %LJMT% -manifest %LJDLLNAME%.manifest -outputresource:%LJDLLNAME%;2

-

-%LJCOMPILE% luajit.c

-@if errorlevel 1 goto :BAD

-%LJLINK% /out:luajit.exe luajit.obj %LJLIBNAME%

-@if errorlevel 1 goto :BAD

-if exist luajit.exe.manifest^

-  %LJMT% -manifest luajit.exe.manifest -outputresource:luajit.exe

-

-@del *.obj *.manifest minilua.exe buildvm.exe

-@echo.

-@echo === Successfully built LuaJIT for Windows/%LJARCH% ===

-

-@goto :END

-:BAD

-@echo.

-@echo *******************************************************

-@echo *** Build FAILED -- Please check the error messages ***

-@echo *******************************************************

-@goto :END

-:FAIL

-@echo You must open a "Visual Studio .NET Command Prompt" to run this script

-:END

diff --git a/luajit-2.0/src/ps4build.bat b/luajit-2.0/src/ps4build.bat
deleted file mode 100644
index 42fc9a6..0000000
--- a/luajit-2.0/src/ps4build.bat
+++ /dev/null
@@ -1,103 +0,0 @@
-@rem Script to build LuaJIT with the PS4 SDK.

-@rem Donated to the public domain.

-@rem

-@rem Open a "Visual Studio .NET Command Prompt" (64 bit host compiler)

-@rem Then cd to this directory and run this script.

-

-@if not defined INCLUDE goto :FAIL

-@if not defined SCE_ORBIS_SDK_DIR goto :FAIL

-

-@setlocal

-@rem ---- Host compiler ----

-@set LJCOMPILE=cl /nologo /c /MD /O2 /W3 /D_CRT_SECURE_NO_DEPRECATE

-@set LJLINK=link /nologo

-@set LJMT=mt /nologo

-@set DASMDIR=..\dynasm

-@set DASM=%DASMDIR%\dynasm.lua

-@set ALL_LIB=lib_base.c lib_math.c lib_bit.c lib_string.c lib_table.c lib_io.c lib_os.c lib_package.c lib_debug.c lib_jit.c lib_ffi.c

-

-%LJCOMPILE% host\minilua.c

-@if errorlevel 1 goto :BAD

-%LJLINK% /out:minilua.exe minilua.obj

-@if errorlevel 1 goto :BAD

-if exist minilua.exe.manifest^

-  %LJMT% -manifest minilua.exe.manifest -outputresource:minilua.exe

-

-@rem Check for 64 bit host compiler.

-@minilua

-@if not errorlevel 8 goto :FAIL

-

-@set DASMFLAGS=-D P64

-minilua %DASM% -LN %DASMFLAGS% -o host\buildvm_arch.h vm_x86.dasc

-@if errorlevel 1 goto :BAD

-

-%LJCOMPILE% /I "." /I %DASMDIR% -DLUAJIT_TARGET=LUAJIT_ARCH_X64 -DLUAJIT_OS=LUAJIT_OS_OTHER -DLUAJIT_DISABLE_JIT -DLUAJIT_DISABLE_FFI host\buildvm*.c

-@if errorlevel 1 goto :BAD

-%LJLINK% /out:buildvm.exe buildvm*.obj

-@if errorlevel 1 goto :BAD

-if exist buildvm.exe.manifest^

-  %LJMT% -manifest buildvm.exe.manifest -outputresource:buildvm.exe

-

-buildvm -m elfasm -o lj_vm.s

-@if errorlevel 1 goto :BAD

-buildvm -m bcdef -o lj_bcdef.h %ALL_LIB%

-@if errorlevel 1 goto :BAD

-buildvm -m ffdef -o lj_ffdef.h %ALL_LIB%

-@if errorlevel 1 goto :BAD

-buildvm -m libdef -o lj_libdef.h %ALL_LIB%

-@if errorlevel 1 goto :BAD

-buildvm -m recdef -o lj_recdef.h %ALL_LIB%

-@if errorlevel 1 goto :BAD

-buildvm -m vmdef -o jit\vmdef.lua %ALL_LIB%

-@if errorlevel 1 goto :BAD

-buildvm -m folddef -o lj_folddef.h lj_opt_fold.c

-@if errorlevel 1 goto :BAD

-

-@rem ---- Cross compiler ----

-@set LJCOMPILE="%SCE_ORBIS_SDK_DIR%\host_tools\bin\orbis-clang" -c -Wall -DLUAJIT_DISABLE_FFI

-@set LJLIB="%SCE_ORBIS_SDK_DIR%\host_tools\bin\orbis-ar" rcus

-@set INCLUDE=""

-

-orbis-as -o lj_vm.o lj_vm.s

-

-@if "%1" neq "debug" goto :NODEBUG

-@shift

-@set LJCOMPILE=%LJCOMPILE% -g -O0

-@set TARGETLIB=libluajitD.a

-goto :BUILD

-:NODEBUG

-@set LJCOMPILE=%LJCOMPILE% -O2

-@set TARGETLIB=libluajit.a

-:BUILD

-del %TARGETLIB%

-@if "%1"=="amalg" goto :AMALG

-for %%f in (lj_*.c lib_*.c) do (

-  %LJCOMPILE% %%f

-  @if errorlevel 1 goto :BAD

-)

-

-%LJLIB% %TARGETLIB% lj_*.o lib_*.o

-@if errorlevel 1 goto :BAD

-@goto :NOAMALG

-:AMALG

-%LJCOMPILE% ljamalg.c

-@if errorlevel 1 goto :BAD

-%LJLIB% %TARGETLIB% ljamalg.o lj_vm.o

-@if errorlevel 1 goto :BAD

-:NOAMALG

-

-@del *.o *.obj *.manifest minilua.exe buildvm.exe

-@echo.

-@echo === Successfully built LuaJIT for PS4 ===

-

-@goto :END

-:BAD

-@echo.

-@echo *******************************************************

-@echo *** Build FAILED -- Please check the error messages ***

-@echo *******************************************************

-@goto :END

-:FAIL

-@echo To run this script you must open a "Visual Studio .NET Command Prompt"

-@echo (64 bit host compiler). The PS4 Orbis SDK must be installed, too.

-:END

diff --git a/luajit-2.0/src/psvitabuild.bat b/luajit-2.0/src/psvitabuild.bat
deleted file mode 100644
index 3991dc6..0000000
--- a/luajit-2.0/src/psvitabuild.bat
+++ /dev/null
@@ -1,93 +0,0 @@
-@rem Script to build LuaJIT with the PS Vita SDK.

-@rem Donated to the public domain.

-@rem

-@rem Open a "Visual Studio .NET Command Prompt" (32 bit host compiler)

-@rem Then cd to this directory and run this script.

-

-@if not defined INCLUDE goto :FAIL

-@if not defined SCE_PSP2_SDK_DIR goto :FAIL

-

-@setlocal

-@rem ---- Host compiler ----

-@set LJCOMPILE=cl /nologo /c /MD /O2 /W3 /D_CRT_SECURE_NO_DEPRECATE

-@set LJLINK=link /nologo

-@set LJMT=mt /nologo

-@set DASMDIR=..\dynasm

-@set DASM=%DASMDIR%\dynasm.lua

-@set ALL_LIB=lib_base.c lib_math.c lib_bit.c lib_string.c lib_table.c lib_io.c lib_os.c lib_package.c lib_debug.c lib_jit.c lib_ffi.c

-

-%LJCOMPILE% host\minilua.c

-@if errorlevel 1 goto :BAD

-%LJLINK% /out:minilua.exe minilua.obj

-@if errorlevel 1 goto :BAD

-if exist minilua.exe.manifest^

-  %LJMT% -manifest minilua.exe.manifest -outputresource:minilua.exe

-

-@rem Check for 32 bit host compiler.

-@minilua

-@if errorlevel 8 goto :FAIL

-

-@set DASMFLAGS=-D FPU -D HFABI

-minilua %DASM% -LN %DASMFLAGS% -o host\buildvm_arch.h vm_arm.dasc

-@if errorlevel 1 goto :BAD

-

-%LJCOMPILE% /I "." /I %DASMDIR% -DLUAJIT_TARGET=LUAJIT_ARCH_ARM -DLUAJIT_OS=LUAJIT_OS_OTHER -DLUAJIT_DISABLE_JIT -DLUAJIT_DISABLE_FFI -DLJ_TARGET_PSVITA=1 host\buildvm*.c

-@if errorlevel 1 goto :BAD

-%LJLINK% /out:buildvm.exe buildvm*.obj

-@if errorlevel 1 goto :BAD

-if exist buildvm.exe.manifest^

-  %LJMT% -manifest buildvm.exe.manifest -outputresource:buildvm.exe

-

-buildvm -m elfasm -o lj_vm.s

-@if errorlevel 1 goto :BAD

-buildvm -m bcdef -o lj_bcdef.h %ALL_LIB%

-@if errorlevel 1 goto :BAD

-buildvm -m ffdef -o lj_ffdef.h %ALL_LIB%

-@if errorlevel 1 goto :BAD

-buildvm -m libdef -o lj_libdef.h %ALL_LIB%

-@if errorlevel 1 goto :BAD

-buildvm -m recdef -o lj_recdef.h %ALL_LIB%

-@if errorlevel 1 goto :BAD

-buildvm -m vmdef -o jit\vmdef.lua %ALL_LIB%

-@if errorlevel 1 goto :BAD

-buildvm -m folddef -o lj_folddef.h lj_opt_fold.c

-@if errorlevel 1 goto :BAD

-

-@rem ---- Cross compiler ----

-@set LJCOMPILE="%SCE_PSP2_SDK_DIR%\host_tools\build\bin\psp2snc" -c -w -DLUAJIT_DISABLE_FFI -DLUAJIT_USE_SYSMALLOC

-@set LJLIB="%SCE_PSP2_SDK_DIR%\host_tools\build\bin\psp2ld32" -r --output=

-@set INCLUDE=""

-

-"%SCE_PSP2_SDK_DIR%\host_tools\build\bin\psp2as" -o lj_vm.o lj_vm.s

-

-@if "%1" neq "debug" goto :NODEBUG

-@shift

-@set LJCOMPILE=%LJCOMPILE% -g -O0

-@set TARGETLIB=libluajitD.a

-goto :BUILD

-:NODEBUG

-@set LJCOMPILE=%LJCOMPILE% -O2

-@set TARGETLIB=libluajit.a

-:BUILD

-del %TARGETLIB%

-

-%LJCOMPILE% ljamalg.c

-@if errorlevel 1 goto :BAD

-%LJLIB%%TARGETLIB% ljamalg.o lj_vm.o

-@if errorlevel 1 goto :BAD

-

-@del *.o *.obj *.manifest minilua.exe buildvm.exe

-@echo.

-@echo === Successfully built LuaJIT for PS Vita ===

-

-@goto :END

-:BAD

-@echo.

-@echo *******************************************************

-@echo *** Build FAILED -- Please check the error messages ***

-@echo *******************************************************

-@goto :END

-:FAIL

-@echo To run this script you must open a "Visual Studio .NET Command Prompt"

-@echo (32 bit host compiler). The PS Vita SDK must be installed, too.

-:END

diff --git a/luajit-2.0/src/vm_arm.dasc b/luajit-2.0/src/vm_arm.dasc
deleted file mode 100644
index 82cba90..0000000
--- a/luajit-2.0/src/vm_arm.dasc
+++ /dev/null
@@ -1,4487 +0,0 @@
-|// Low-level VM code for ARM CPUs.
-|// Bytecode interpreter, fast functions and helper functions.
-|// Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-|
-|.arch arm
-|.section code_op, code_sub
-|
-|.actionlist build_actionlist
-|.globals GLOB_
-|.globalnames globnames
-|.externnames extnames
-|
-|// Note: The ragged indentation of the instructions is intentional.
-|//       The starting columns indicate data dependencies.
-|
-|//-----------------------------------------------------------------------
-|
-|// Fixed register assignments for the interpreter.
-|
-|// The following must be C callee-save.
-|.define MASKR8,	r4	// 255*8 constant for fast bytecode decoding.
-|.define KBASE,		r5	// Constants of current Lua function.
-|.define PC,		r6	// Next PC.
-|.define DISPATCH,	r7	// Opcode dispatch table.
-|.define LREG,		r8	// Register holding lua_State (also in SAVE_L).
-|
-|// C callee-save in EABI, but often refetched. Temporary in iOS 3.0+.
-|.define BASE,		r9	// Base of current Lua stack frame.
-|
-|// The following temporaries are not saved across C calls, except for RA/RC.
-|.define RA,		r10	// Callee-save.
-|.define RC,		r11	// Callee-save.
-|.define RB,		r12
-|.define OP,		r12	// Overlaps RB, must not be lr.
-|.define INS,		lr
-|
-|// Calling conventions. Also used as temporaries.
-|.define CARG1,		r0
-|.define CARG2,		r1
-|.define CARG3,		r2
-|.define CARG4,		r3
-|.define CARG12,	r0	// For 1st soft-fp double.
-|.define CARG34,	r2	// For 2nd soft-fp double.
-|
-|.define CRET1,		r0
-|.define CRET2,		r1
-|
-|// Stack layout while in interpreter. Must match with lj_frame.h.
-|.define SAVE_R4,	[sp, #28]
-|.define CFRAME_SPACE,	#28
-|.define SAVE_ERRF,	[sp, #24]
-|.define SAVE_NRES,	[sp, #20]
-|.define SAVE_CFRAME,	[sp, #16]
-|.define SAVE_L,	[sp, #12]
-|.define SAVE_PC,	[sp, #8]
-|.define SAVE_MULTRES,	[sp, #4]
-|.define ARG5,		[sp]
-|
-|.define TMPDhi,	[sp, #4]
-|.define TMPDlo,	[sp]
-|.define TMPD,		[sp]
-|.define TMPDp,		sp
-|
-|.if FPU
-|.macro saveregs
-|  push {r5, r6, r7, r8, r9, r10, r11, lr}
-|  vpush {d8-d15}
-|  sub sp, sp, CFRAME_SPACE+4
-|  str r4, SAVE_R4
-|.endmacro
-|.macro restoreregs_ret
-|  ldr r4, SAVE_R4
-|  add sp, sp, CFRAME_SPACE+4
-|  vpop {d8-d15}
-|  pop {r5, r6, r7, r8, r9, r10, r11, pc}
-|.endmacro
-|.else
-|.macro saveregs
-|  push {r4, r5, r6, r7, r8, r9, r10, r11, lr}
-|  sub sp, sp, CFRAME_SPACE
-|.endmacro
-|.macro restoreregs_ret
-|  add sp, sp, CFRAME_SPACE
-|  pop {r4, r5, r6, r7, r8, r9, r10, r11, pc}
-|.endmacro
-|.endif
-|
-|// Type definitions. Some of these are only used for documentation.
-|.type L,		lua_State,	LREG
-|.type GL,		global_State
-|.type TVALUE,		TValue
-|.type GCOBJ,		GCobj
-|.type STR,		GCstr
-|.type TAB,		GCtab
-|.type LFUNC,		GCfuncL
-|.type CFUNC,		GCfuncC
-|.type PROTO,		GCproto
-|.type UPVAL,		GCupval
-|.type NODE,		Node
-|.type NARGS8,		int
-|.type TRACE,		GCtrace
-|
-|//-----------------------------------------------------------------------
-|
-|// Trap for not-yet-implemented parts.
-|.macro NYI; ud; .endmacro
-|
-|//-----------------------------------------------------------------------
-|
-|// Access to frame relative to BASE.
-|.define FRAME_FUNC,	#-8
-|.define FRAME_PC,	#-4
-|
-|.macro decode_RA8, dst, ins; and dst, MASKR8, ins, lsr #5; .endmacro
-|.macro decode_RB8, dst, ins; and dst, MASKR8, ins, lsr #21; .endmacro
-|.macro decode_RC8, dst, ins; and dst, MASKR8, ins, lsr #13; .endmacro
-|.macro decode_RD, dst, ins; lsr dst, ins, #16; .endmacro
-|.macro decode_OP, dst, ins; and dst, ins, #255; .endmacro
-|
-|// Instruction fetch.
-|.macro ins_NEXT1
-|  ldrb OP, [PC]
-|.endmacro
-|.macro ins_NEXT2
-|   ldr INS, [PC], #4
-|.endmacro
-|// Instruction decode+dispatch.
-|.macro ins_NEXT3
-|  ldr OP, [DISPATCH, OP, lsl #2]
-|   decode_RA8 RA, INS
-|   decode_RD RC, INS
-|  bx OP
-|.endmacro
-|.macro ins_NEXT
-|  ins_NEXT1
-|  ins_NEXT2
-|  ins_NEXT3
-|.endmacro
-|
-|// Instruction footer.
-|.if 1
-|  // Replicated dispatch. Less unpredictable branches, but higher I-Cache use.
-|  .define ins_next, ins_NEXT
-|  .define ins_next_, ins_NEXT
-|  .define ins_next1, ins_NEXT1
-|  .define ins_next2, ins_NEXT2
-|  .define ins_next3, ins_NEXT3
-|.else
-|  // Common dispatch. Lower I-Cache use, only one (very) unpredictable branch.
-|  // Affects only certain kinds of benchmarks (and only with -j off).
-|  .macro ins_next
-|    b ->ins_next
-|  .endmacro
-|  .macro ins_next1
-|  .endmacro
-|  .macro ins_next2
-|  .endmacro
-|  .macro ins_next3
-|    b ->ins_next
-|  .endmacro
-|  .macro ins_next_
-|  ->ins_next:
-|    ins_NEXT
-|  .endmacro
-|.endif
-|
-|// Avoid register name substitution for field name.
-#define field_pc	pc
-|
-|// Call decode and dispatch.
-|.macro ins_callt
-|  // BASE = new base, CARG3 = LFUNC/CFUNC, RC = nargs*8, FRAME_PC(BASE) = PC
-|  ldr PC, LFUNC:CARG3->field_pc
-|  ldrb OP, [PC]  // STALL: load PC. early PC.
-|   ldr INS, [PC], #4
-|  ldr OP, [DISPATCH, OP, lsl #2]  // STALL: load OP. early OP.
-|   decode_RA8 RA, INS
-|   add RA, RA, BASE
-|  bx OP
-|.endmacro
-|
-|.macro ins_call
-|  // BASE = new base, CARG3 = LFUNC/CFUNC, RC = nargs*8, PC = caller PC
-|  str PC, [BASE, FRAME_PC]
-|  ins_callt  // STALL: locked PC.
-|.endmacro
-|
-|//-----------------------------------------------------------------------
-|
-|// Macros to test operand types.
-|.macro checktp, reg, tp; cmn reg, #-tp; .endmacro
-|.macro checktpeq, reg, tp; cmneq reg, #-tp; .endmacro
-|.macro checktpne, reg, tp; cmnne reg, #-tp; .endmacro
-|.macro checkstr, reg, target; checktp reg, LJ_TSTR; bne target; .endmacro
-|.macro checktab, reg, target; checktp reg, LJ_TTAB; bne target; .endmacro
-|.macro checkfunc, reg, target; checktp reg, LJ_TFUNC; bne target; .endmacro
-|
-|// Assumes DISPATCH is relative to GL.
-#define DISPATCH_GL(field)	(GG_DISP2G + (int)offsetof(global_State, field))
-#define DISPATCH_J(field)	(GG_DISP2J + (int)offsetof(jit_State, field))
-|
-#define PC2PROTO(field)  ((int)offsetof(GCproto, field)-(int)sizeof(GCproto))
-|
-|.macro hotcheck, delta
-|  lsr CARG1, PC, #1
-|  and CARG1, CARG1, #126
-|  sub CARG1, CARG1, #-GG_DISP2HOT
-|  ldrh CARG2, [DISPATCH, CARG1]
-|  subs CARG2, CARG2, #delta
-|  strh CARG2, [DISPATCH, CARG1]
-|.endmacro
-|
-|.macro hotloop
-|  hotcheck HOTCOUNT_LOOP
-|  blo ->vm_hotloop
-|.endmacro
-|
-|.macro hotcall
-|  hotcheck HOTCOUNT_CALL
-|  blo ->vm_hotcall
-|.endmacro
-|
-|// Set current VM state.
-|.macro mv_vmstate, reg, st; mvn reg, #LJ_VMST_..st; .endmacro
-|.macro st_vmstate, reg; str reg, [DISPATCH, #DISPATCH_GL(vmstate)]; .endmacro
-|
-|// Move table write barrier back. Overwrites mark and tmp.
-|.macro barrierback, tab, mark, tmp
-|  ldr tmp, [DISPATCH, #DISPATCH_GL(gc.grayagain)]
-|   bic mark, mark, #LJ_GC_BLACK		// black2gray(tab)
-|  str tab, [DISPATCH, #DISPATCH_GL(gc.grayagain)]
-|   strb mark, tab->marked
-|  str tmp, tab->gclist
-|.endmacro
-|
-|.macro .IOS, a, b
-|.if IOS
-|  a, b
-|.endif
-|.endmacro
-|
-|//-----------------------------------------------------------------------
-
-#if !LJ_DUALNUM
-#error "Only dual-number mode supported for ARM target"
-#endif
-
-/* Generate subroutines used by opcodes and other parts of the VM. */
-/* The .code_sub section should be last to help static branch prediction. */
-static void build_subroutines(BuildCtx *ctx)
-{
-  |.code_sub
-  |
-  |//-----------------------------------------------------------------------
-  |//-- Return handling ----------------------------------------------------
-  |//-----------------------------------------------------------------------
-  |
-  |->vm_returnp:
-  |  // See vm_return. Also: RB = previous base.
-  |  tst PC, #FRAME_P
-  |  beq ->cont_dispatch
-  |
-  |  // Return from pcall or xpcall fast func.
-  |  ldr PC, [RB, FRAME_PC]		// Fetch PC of previous frame.
-  |   mvn CARG2, #~LJ_TTRUE
-  |  mov BASE, RB
-  |  // Prepending may overwrite the pcall frame, so do it at the end.
-  |   str CARG2, [RA, FRAME_PC]		// Prepend true to results.
-  |  sub RA, RA, #8
-  |
-  |->vm_returnc:
-  |  adds RC, RC, #8			// RC = (nresults+1)*8.
-  |  mov CRET1, #LUA_YIELD
-  |  beq ->vm_unwind_c_eh
-  |  str RC, SAVE_MULTRES
-  |  ands CARG1, PC, #FRAME_TYPE
-  |  beq ->BC_RET_Z			// Handle regular return to Lua.
-  |
-  |->vm_return:
-  |  // BASE = base, RA = resultptr, RC/MULTRES = (nresults+1)*8, PC = return
-  |  // CARG1 = PC & FRAME_TYPE
-  |  bic RB, PC, #FRAME_TYPEP
-  |   cmp CARG1, #FRAME_C
-  |  sub RB, BASE, RB			// RB = previous base.
-  |   bne ->vm_returnp
-  |
-  |  str RB, L->base
-  |   ldr KBASE, SAVE_NRES
-  |    mv_vmstate CARG4, C
-  |   sub BASE, BASE, #8
-  |  subs CARG3, RC, #8
-  |   lsl KBASE, KBASE, #3		// KBASE = (nresults_wanted+1)*8
-  |    st_vmstate CARG4
-  |  beq >2
-  |1:
-  |  subs CARG3, CARG3, #8
-  |   ldrd CARG12, [RA], #8
-  |   strd CARG12, [BASE], #8
-  |  bne <1
-  |2:
-  |  cmp KBASE, RC			// More/less results wanted?
-  |  bne >6
-  |3:
-  |  str BASE, L->top			// Store new top.
-  |
-  |->vm_leave_cp:
-  |  ldr RC, SAVE_CFRAME		// Restore previous C frame.
-  |   mov CRET1, #0			// Ok return status for vm_pcall.
-  |  str RC, L->cframe
-  |
-  |->vm_leave_unw:
-  |  restoreregs_ret
-  |
-  |6:
-  |  blt >7				// Less results wanted?
-  |  // More results wanted. Check stack size and fill up results with nil.
-  |  ldr CARG3, L->maxstack
-  |   mvn CARG2, #~LJ_TNIL
-  |  cmp BASE, CARG3
-  |  bhs >8
-  |   str CARG2, [BASE, #4]
-  |  add RC, RC, #8
-  |  add BASE, BASE, #8
-  |  b <2
-  |
-  |7:  // Less results wanted.
-  |  sub CARG1, RC, KBASE
-  |  cmp KBASE, #0			// LUA_MULTRET+1 case?
-  |  subne BASE, BASE, CARG1		// Either keep top or shrink it.
-  |  b <3
-  |
-  |8:  // Corner case: need to grow stack for filling up results.
-  |  // This can happen if:
-  |  // - A C function grows the stack (a lot).
-  |  // - The GC shrinks the stack in between.
-  |  // - A return back from a lua_call() with (high) nresults adjustment.
-  |  str BASE, L->top			// Save current top held in BASE (yes).
-  |  mov CARG2, KBASE
-  |  mov CARG1, L
-  |  bl extern lj_state_growstack	// (lua_State *L, int n)
-  |  ldr BASE, L->top			// Need the (realloced) L->top in BASE.
-  |  b <2
-  |
-  |->vm_unwind_c:			// Unwind C stack, return from vm_pcall.
-  |  // (void *cframe, int errcode)
-  |  mov sp, CARG1
-  |  mov CRET1, CARG2
-  |->vm_unwind_c_eh:			// Landing pad for external unwinder.
-  |  ldr L, SAVE_L
-  |   mv_vmstate CARG4, C
-  |  ldr GL:CARG3, L->glref
-  |   str CARG4, GL:CARG3->vmstate
-  |  b ->vm_leave_unw
-  |
-  |->vm_unwind_ff:			// Unwind C stack, return from ff pcall.
-  |  // (void *cframe)
-  |  bic CARG1, CARG1, #~CFRAME_RAWMASK	// Use two steps: bic sp is deprecated.
-  |  mov sp, CARG1
-  |->vm_unwind_ff_eh:			// Landing pad for external unwinder.
-  |  ldr L, SAVE_L
-  |   mov MASKR8, #255
-  |    mov RC, #16			// 2 results: false + error message.
-  |   lsl MASKR8, MASKR8, #3		// MASKR8 = 255*8.
-  |  ldr BASE, L->base
-  |   ldr DISPATCH, L->glref		// Setup pointer to dispatch table.
-  |    mvn CARG1, #~LJ_TFALSE
-  |  sub RA, BASE, #8			// Results start at BASE-8.
-  |  ldr PC, [BASE, FRAME_PC]		// Fetch PC of previous frame.
-  |   add DISPATCH, DISPATCH, #GG_G2DISP
-  |   mv_vmstate CARG2, INTERP
-  |    str CARG1, [BASE, #-4]		// Prepend false to error message.
-  |   st_vmstate CARG2
-  |  b ->vm_returnc
-  |
-  |//-----------------------------------------------------------------------
-  |//-- Grow stack for calls -----------------------------------------------
-  |//-----------------------------------------------------------------------
-  |
-  |->vm_growstack_c:			// Grow stack for C function.
-  |  // CARG1 = L
-  |  mov CARG2, #LUA_MINSTACK
-  |  b >2
-  |
-  |->vm_growstack_l:			// Grow stack for Lua function.
-  |  // BASE = new base, RA = BASE+framesize*8, RC = nargs*8, PC = first PC
-  |  add RC, BASE, RC
-  |   sub RA, RA, BASE
-  |    mov CARG1, L
-  |  str BASE, L->base
-  |   add PC, PC, #4			// Must point after first instruction.
-  |  str RC, L->top
-  |   lsr CARG3, RA, #3
-  |2:
-  |  // L->base = new base, L->top = top
-  |  str PC, SAVE_PC
-  |  bl extern lj_state_growstack	// (lua_State *L, int n)
-  |  ldr BASE, L->base
-  |   ldr RC, L->top
-  |  ldr LFUNC:CARG3, [BASE, FRAME_FUNC]
-  |   sub NARGS8:RC, RC, BASE
-  |  // BASE = new base, RB = LFUNC/CFUNC, RC = nargs*8, FRAME_PC(BASE) = PC
-  |  ins_callt				// Just retry the call.
-  |
-  |//-----------------------------------------------------------------------
-  |//-- Entry points into the assembler VM ---------------------------------
-  |//-----------------------------------------------------------------------
-  |
-  |->vm_resume:				// Setup C frame and resume thread.
-  |  // (lua_State *L, TValue *base, int nres1 = 0, ptrdiff_t ef = 0)
-  |  saveregs
-  |  mov L, CARG1
-  |    ldr DISPATCH, L:CARG1->glref	// Setup pointer to dispatch table.
-  |  mov BASE, CARG2
-  |    add DISPATCH, DISPATCH, #GG_G2DISP
-  |   str L, SAVE_L
-  |  mov PC, #FRAME_CP
-  |   str CARG3, SAVE_NRES
-  |    add CARG2, sp, #CFRAME_RESUME
-  |  ldrb CARG1, L->status
-  |   str CARG3, SAVE_ERRF
-  |    str CARG2, L->cframe
-  |   str CARG3, SAVE_CFRAME
-  |  cmp CARG1, #0
-  |   str L, SAVE_PC			// Any value outside of bytecode is ok.
-  |  beq >3
-  |
-  |  // Resume after yield (like a return).
-  |  mov RA, BASE
-  |   ldr BASE, L->base
-  |   ldr CARG1, L->top
-  |    mov MASKR8, #255
-  |     strb CARG3, L->status
-  |   sub RC, CARG1, BASE
-  |  ldr PC, [BASE, FRAME_PC]
-  |    lsl MASKR8, MASKR8, #3		// MASKR8 = 255*8.
-  |     mv_vmstate CARG2, INTERP
-  |   add RC, RC, #8
-  |  ands CARG1, PC, #FRAME_TYPE
-  |     st_vmstate CARG2
-  |   str RC, SAVE_MULTRES
-  |  beq ->BC_RET_Z
-  |  b ->vm_return
-  |
-  |->vm_pcall:				// Setup protected C frame and enter VM.
-  |  // (lua_State *L, TValue *base, int nres1, ptrdiff_t ef)
-  |  saveregs
-  |  mov PC, #FRAME_CP
-  |  str CARG4, SAVE_ERRF
-  |  b >1
-  |
-  |->vm_call:				// Setup C frame and enter VM.
-  |  // (lua_State *L, TValue *base, int nres1)
-  |  saveregs
-  |  mov PC, #FRAME_C
-  |
-  |1:  // Entry point for vm_pcall above (PC = ftype).
-  |  ldr RC, L:CARG1->cframe
-  |   str CARG3, SAVE_NRES
-  |    mov L, CARG1
-  |   str CARG1, SAVE_L
-  |    mov BASE, CARG2
-  |  str sp, L->cframe			// Add our C frame to cframe chain.
-  |    ldr DISPATCH, L->glref		// Setup pointer to dispatch table.
-  |   str CARG1, SAVE_PC		// Any value outside of bytecode is ok.
-  |  str RC, SAVE_CFRAME
-  |    add DISPATCH, DISPATCH, #GG_G2DISP
-  |
-  |3:  // Entry point for vm_cpcall/vm_resume (BASE = base, PC = ftype).
-  |  ldr RB, L->base			// RB = old base (for vmeta_call).
-  |   ldr CARG1, L->top
-  |    mov MASKR8, #255
-  |  add PC, PC, BASE
-  |    lsl MASKR8, MASKR8, #3		// MASKR8 = 255*8.
-  |  sub PC, PC, RB			// PC = frame delta + frame type
-  |    mv_vmstate CARG2, INTERP
-  |   sub NARGS8:RC, CARG1, BASE
-  |    st_vmstate CARG2
-  |
-  |->vm_call_dispatch:
-  |  // RB = old base, BASE = new base, RC = nargs*8, PC = caller PC
-  |  ldrd CARG34, [BASE, FRAME_FUNC]
-  |  checkfunc CARG4, ->vmeta_call
-  |
-  |->vm_call_dispatch_f:
-  |  ins_call
-  |  // BASE = new base, CARG3 = func, RC = nargs*8, PC = caller PC
-  |
-  |->vm_cpcall:				// Setup protected C frame, call C.
-  |  // (lua_State *L, lua_CFunction func, void *ud, lua_CPFunction cp)
-  |  saveregs
-  |  mov L, CARG1
-  |   ldr RA, L:CARG1->stack
-  |  str CARG1, SAVE_L
-  |   ldr RB, L->top
-  |  str CARG1, SAVE_PC			// Any value outside of bytecode is ok.
-  |  ldr RC, L->cframe
-  |   sub RA, RA, RB			// Compute -savestack(L, L->top).
-  |  str sp, L->cframe			// Add our C frame to cframe chain.
-  |  mov RB, #0
-  |   str RA, SAVE_NRES			// Neg. delta means cframe w/o frame.
-  |  str RB, SAVE_ERRF			// No error function.
-  |  str RC, SAVE_CFRAME
-  |  blx CARG4			// (lua_State *L, lua_CFunction func, void *ud)
-  |   ldr DISPATCH, L->glref		// Setup pointer to dispatch table.
-  |  movs BASE, CRET1
-  |    mov PC, #FRAME_CP
-  |   add DISPATCH, DISPATCH, #GG_G2DISP
-  |  bne <3				// Else continue with the call.
-  |  b ->vm_leave_cp			// No base? Just remove C frame.
-  |
-  |//-----------------------------------------------------------------------
-  |//-- Metamethod handling ------------------------------------------------
-  |//-----------------------------------------------------------------------
-  |
-  |//-- Continuation dispatch ----------------------------------------------
-  |
-  |->cont_dispatch:
-  |  // BASE = meta base, RA = resultptr, RC = (nresults+1)*8
-  |  ldr LFUNC:CARG3, [RB, FRAME_FUNC]
-  |    ldr CARG1, [BASE, #-16]		// Get continuation.
-  |   mov CARG4, BASE
-  |   mov BASE, RB			// Restore caller BASE.
-  |.if FFI
-  |    cmp CARG1, #1
-  |.endif
-  |   ldr PC, [CARG4, #-12]		// Restore PC from [cont|PC].
-  |  ldr CARG3, LFUNC:CARG3->field_pc
-  |    mvn INS, #~LJ_TNIL
-  |    add CARG2, RA, RC
-  |    str INS, [CARG2, #-4]		// Ensure one valid arg.
-  |.if FFI
-  |    bls >1
-  |.endif
-  |  ldr KBASE, [CARG3, #PC2PROTO(k)]
-  |  // BASE = base, RA = resultptr, CARG4 = meta base
-  |    bx CARG1
-  |
-  |.if FFI
-  |1:
-  |  beq ->cont_ffi_callback		// cont = 1: return from FFI callback.
-  |  // cont = 0: tailcall from C function.
-  |  ldr CARG3, [BASE, FRAME_FUNC]
-  |   sub CARG4, CARG4, #16
-  |   sub RC, CARG4, BASE
-  |  b ->vm_call_tail
-  |.endif
-  |
-  |->cont_cat:				// RA = resultptr, CARG4 = meta base
-  |  ldr INS, [PC, #-4]
-  |   sub CARG2, CARG4, #16
-  |   ldrd CARG34, [RA]
-  |     str BASE, L->base
-  |  decode_RB8 RC, INS
-  |   decode_RA8 RA, INS
-  |  add CARG1, BASE, RC
-  |  subs CARG1, CARG2, CARG1
-  |   strdne CARG34, [CARG2]
-  |   movne CARG3, CARG1
-  |  bne ->BC_CAT_Z
-  |   strd CARG34, [BASE, RA]
-  |  b ->cont_nop
-  |
-  |//-- Table indexing metamethods -----------------------------------------
-  |
-  |->vmeta_tgets1:
-  |  add CARG2, BASE, RB
-  |  b >2
-  |
-  |->vmeta_tgets:
-  |  sub CARG2, DISPATCH, #-DISPATCH_GL(tmptv)
-  |   mvn CARG4, #~LJ_TTAB
-  |  str TAB:RB, [CARG2]
-  |   str CARG4, [CARG2, #4]
-  |2:
-  |   mvn CARG4, #~LJ_TSTR
-  |  str STR:RC, TMPDlo
-  |   str CARG4, TMPDhi
-  |  mov CARG3, TMPDp
-  |  b >1
-  |
-  |->vmeta_tgetb:			// RC = index
-  |  decode_RB8 RB, INS
-  |   str RC, TMPDlo
-  |   mvn CARG4, #~LJ_TISNUM
-  |  add CARG2, BASE, RB
-  |   str CARG4, TMPDhi
-  |  mov CARG3, TMPDp
-  |  b >1
-  |
-  |->vmeta_tgetv:
-  |  add CARG2, BASE, RB
-  |   add CARG3, BASE, RC
-  |1:
-  |   str BASE, L->base
-  |  mov CARG1, L
-  |   str PC, SAVE_PC
-  |  bl extern lj_meta_tget		// (lua_State *L, TValue *o, TValue *k)
-  |  // Returns TValue * (finished) or NULL (metamethod).
-  |  .IOS ldr BASE, L->base
-  |  cmp CRET1, #0
-  |  beq >3
-  |  ldrd CARG34, [CRET1]
-  |   ins_next1
-  |   ins_next2
-  |  strd CARG34, [BASE, RA]
-  |   ins_next3
-  |
-  |3:  // Call __index metamethod.
-  |  // BASE = base, L->top = new base, stack = cont/func/t/k
-  |   rsb CARG1, BASE, #FRAME_CONT
-  |  ldr BASE, L->top
-  |    mov NARGS8:RC, #16		// 2 args for func(t, k).
-  |    str PC, [BASE, #-12]		// [cont|PC]
-  |   add PC, CARG1, BASE
-  |  ldr LFUNC:CARG3, [BASE, FRAME_FUNC]  // Guaranteed to be a function here.
-  |  b ->vm_call_dispatch_f
-  |
-  |//-----------------------------------------------------------------------
-  |
-  |->vmeta_tsets1:
-  |  add CARG2, BASE, RB
-  |  b >2
-  |
-  |->vmeta_tsets:
-  |  sub CARG2, DISPATCH, #-DISPATCH_GL(tmptv)
-  |   mvn CARG4, #~LJ_TTAB
-  |  str TAB:RB, [CARG2]
-  |   str CARG4, [CARG2, #4]
-  |2:
-  |   mvn CARG4, #~LJ_TSTR
-  |  str STR:RC, TMPDlo
-  |   str CARG4, TMPDhi
-  |  mov CARG3, TMPDp
-  |  b >1
-  |
-  |->vmeta_tsetb:			// RC = index
-  |  decode_RB8 RB, INS
-  |   str RC, TMPDlo
-  |   mvn CARG4, #~LJ_TISNUM
-  |  add CARG2, BASE, RB
-  |   str CARG4, TMPDhi
-  |  mov CARG3, TMPDp
-  |  b >1
-  |
-  |->vmeta_tsetv:
-  |  add CARG2, BASE, RB
-  |   add CARG3, BASE, RC
-  |1:
-  |   str BASE, L->base
-  |  mov CARG1, L
-  |   str PC, SAVE_PC
-  |  bl extern lj_meta_tset		// (lua_State *L, TValue *o, TValue *k)
-  |  // Returns TValue * (finished) or NULL (metamethod).
-  |  .IOS ldr BASE, L->base
-  |  cmp CRET1, #0
-  |   ldrd CARG34, [BASE, RA]
-  |  beq >3
-  |   ins_next1
-  |  // NOBARRIER: lj_meta_tset ensures the table is not black.
-  |  strd CARG34, [CRET1]
-  |   ins_next2
-  |   ins_next3
-  |
-  |3:  // Call __newindex metamethod.
-  |  // BASE = base, L->top = new base, stack = cont/func/t/k/(v)
-  |   rsb CARG1, BASE, #FRAME_CONT
-  |  ldr BASE, L->top
-  |    mov NARGS8:RC, #24		// 3 args for func(t, k, v).
-  |   strd CARG34, [BASE, #16]		// Copy value to third argument.
-  |    str PC, [BASE, #-12]		// [cont|PC]
-  |   add PC, CARG1, BASE
-  |  ldr LFUNC:CARG3, [BASE, FRAME_FUNC]  // Guaranteed to be a function here.
-  |  b ->vm_call_dispatch_f
-  |
-  |//-- Comparison metamethods ---------------------------------------------
-  |
-  |->vmeta_comp:
-  |  mov CARG1, L
-  |   sub PC, PC, #4
-  |  mov CARG2, RA
-  |   str BASE, L->base
-  |  mov CARG3, RC
-  |   str PC, SAVE_PC
-  |  decode_OP CARG4, INS
-  |  bl extern lj_meta_comp  // (lua_State *L, TValue *o1, *o2, int op)
-  |  // Returns 0/1 or TValue * (metamethod).
-  |3:
-  |  .IOS ldr BASE, L->base
-  |  cmp CRET1, #1
-  |  bhi ->vmeta_binop
-  |4:
-  |  ldrh RB, [PC, #2]
-  |   add PC, PC, #4
-  |  add RB, PC, RB, lsl #2
-  |  subhs PC, RB, #0x20000
-  |->cont_nop:
-  |  ins_next
-  |
-  |->cont_ra:				// RA = resultptr
-  |  ldr INS, [PC, #-4]
-  |   ldrd CARG12, [RA]
-  |  decode_RA8 CARG3, INS
-  |   strd CARG12, [BASE, CARG3]
-  |  b ->cont_nop
-  |
-  |->cont_condt:			// RA = resultptr
-  |  ldr CARG2, [RA, #4]
-  |   mvn CARG1, #~LJ_TTRUE
-  |  cmp CARG1, CARG2			// Branch if result is true.
-  |  b <4
-  |
-  |->cont_condf:			// RA = resultptr
-  |  ldr CARG2, [RA, #4]
-  |  checktp CARG2, LJ_TFALSE		// Branch if result is false.
-  |  b <4
-  |
-  |->vmeta_equal:
-  |  // CARG2, CARG3, CARG4 are already set by BC_ISEQV/BC_ISNEV.
-  |  sub PC, PC, #4
-  |   str BASE, L->base
-  |   mov CARG1, L
-  |  str PC, SAVE_PC
-  |  bl extern lj_meta_equal  // (lua_State *L, GCobj *o1, *o2, int ne)
-  |  // Returns 0/1 or TValue * (metamethod).
-  |  b <3
-  |
-  |->vmeta_equal_cd:
-  |.if FFI
-  |  sub PC, PC, #4
-  |   str BASE, L->base
-  |   mov CARG1, L
-  |   mov CARG2, INS
-  |  str PC, SAVE_PC
-  |  bl extern lj_meta_equal_cd		// (lua_State *L, BCIns op)
-  |  // Returns 0/1 or TValue * (metamethod).
-  |  b <3
-  |.endif
-  |
-  |//-- Arithmetic metamethods ---------------------------------------------
-  |
-  |->vmeta_arith_vn:
-  |  decode_RB8 RB, INS
-  |   decode_RC8 RC, INS
-  |  add CARG3, BASE, RB
-  |   add CARG4, KBASE, RC
-  |  b >1
-  |
-  |->vmeta_arith_nv:
-  |  decode_RB8 RB, INS
-  |   decode_RC8 RC, INS
-  |  add CARG4, BASE, RB
-  |   add CARG3, KBASE, RC
-  |  b >1
-  |
-  |->vmeta_unm:
-  |  ldr INS, [PC, #-8]
-  |   sub PC, PC, #4
-  |  add CARG3, BASE, RC
-  |  add CARG4, BASE, RC
-  |  b >1
-  |
-  |->vmeta_arith_vv:
-  |  decode_RB8 RB, INS
-  |   decode_RC8 RC, INS
-  |  add CARG3, BASE, RB
-  |   add CARG4, BASE, RC
-  |1:
-  |  decode_OP OP, INS
-  |   add CARG2, BASE, RA
-  |    str BASE, L->base
-  |   mov CARG1, L
-  |    str PC, SAVE_PC
-  |  str OP, ARG5
-  |  bl extern lj_meta_arith  // (lua_State *L, TValue *ra,*rb,*rc, BCReg op)
-  |  // Returns NULL (finished) or TValue * (metamethod).
-  |  .IOS ldr BASE, L->base
-  |  cmp CRET1, #0
-  |  beq ->cont_nop
-  |
-  |  // Call metamethod for binary op.
-  |->vmeta_binop:
-  |  // BASE = old base, CRET1 = new base, stack = cont/func/o1/o2
-  |  sub CARG2, CRET1, BASE
-  |   str PC, [CRET1, #-12]		// [cont|PC]
-  |  add PC, CARG2, #FRAME_CONT
-  |   mov BASE, CRET1
-  |    mov NARGS8:RC, #16		// 2 args for func(o1, o2).
-  |  b ->vm_call_dispatch
-  |
-  |->vmeta_len:
-  |  add CARG2, BASE, RC
-  |   str BASE, L->base
-  |  mov CARG1, L
-  |   str PC, SAVE_PC
-  |  bl extern lj_meta_len		// (lua_State *L, TValue *o)
-  |  // Returns NULL (retry) or TValue * (metamethod base).
-  |  .IOS ldr BASE, L->base
-#if LJ_52
-  |  cmp CRET1, #0
-  |  bne ->vmeta_binop			// Binop call for compatibility.
-  |  ldr TAB:CARG1, [BASE, RC]
-  |  b ->BC_LEN_Z
-#else
-  |  b ->vmeta_binop			// Binop call for compatibility.
-#endif
-  |
-  |//-- Call metamethod ----------------------------------------------------
-  |
-  |->vmeta_call:			// Resolve and call __call metamethod.
-  |  // RB = old base, BASE = new base, RC = nargs*8
-  |  mov CARG1, L
-  |   str RB, L->base			// This is the callers base!
-  |  sub CARG2, BASE, #8
-  |   str PC, SAVE_PC
-  |  add CARG3, BASE, NARGS8:RC
-  |  .IOS mov RA, BASE
-  |  bl extern lj_meta_call	// (lua_State *L, TValue *func, TValue *top)
-  |  .IOS mov BASE, RA
-  |  ldr LFUNC:CARG3, [BASE, FRAME_FUNC]  // Guaranteed to be a function here.
-  |   add NARGS8:RC, NARGS8:RC, #8	// Got one more argument now.
-  |  ins_call
-  |
-  |->vmeta_callt:			// Resolve __call for BC_CALLT.
-  |  // BASE = old base, RA = new base, RC = nargs*8
-  |  mov CARG1, L
-  |   str BASE, L->base
-  |  sub CARG2, RA, #8
-  |   str PC, SAVE_PC
-  |  add CARG3, RA, NARGS8:RC
-  |  bl extern lj_meta_call	// (lua_State *L, TValue *func, TValue *top)
-  |  .IOS ldr BASE, L->base
-  |  ldr LFUNC:CARG3, [RA, FRAME_FUNC]  // Guaranteed to be a function here.
-  |   ldr PC, [BASE, FRAME_PC]
-  |    add NARGS8:RC, NARGS8:RC, #8	// Got one more argument now.
-  |  b ->BC_CALLT2_Z
-  |
-  |//-- Argument coercion for 'for' statement ------------------------------
-  |
-  |->vmeta_for:
-  |  mov CARG1, L
-  |   str BASE, L->base
-  |  mov CARG2, RA
-  |   str PC, SAVE_PC
-  |  bl extern lj_meta_for	// (lua_State *L, TValue *base)
-  |  .IOS ldr BASE, L->base
-  |.if JIT
-  |   ldrb OP, [PC, #-4]
-  |.endif
-  |  ldr INS, [PC, #-4]
-  |.if JIT
-  |   cmp OP, #BC_JFORI
-  |.endif
-  |  decode_RA8 RA, INS
-  |  decode_RD RC, INS
-  |.if JIT
-  |   beq =>BC_JFORI
-  |.endif
-  |  b =>BC_FORI
-  |
-  |//-----------------------------------------------------------------------
-  |//-- Fast functions -----------------------------------------------------
-  |//-----------------------------------------------------------------------
-  |
-  |.macro .ffunc, name
-  |->ff_ .. name:
-  |.endmacro
-  |
-  |.macro .ffunc_1, name
-  |->ff_ .. name:
-  |  ldrd CARG12, [BASE]
-  |   cmp NARGS8:RC, #8
-  |   blo ->fff_fallback
-  |.endmacro
-  |
-  |.macro .ffunc_2, name
-  |->ff_ .. name:
-  |  ldrd CARG12, [BASE]
-  |   ldrd CARG34, [BASE, #8]
-  |    cmp NARGS8:RC, #16
-  |    blo ->fff_fallback
-  |.endmacro
-  |
-  |.macro .ffunc_n, name
-  |  .ffunc_1 name
-  |  checktp CARG2, LJ_TISNUM
-  |  bhs ->fff_fallback
-  |.endmacro
-  |
-  |.macro .ffunc_nn, name
-  |  .ffunc_2 name
-  |  checktp CARG2, LJ_TISNUM
-  |  cmnlo CARG4, #-LJ_TISNUM
-  |  bhs ->fff_fallback
-  |.endmacro
-  |
-  |.macro .ffunc_d, name
-  |  .ffunc name
-  |  ldr CARG2, [BASE, #4]
-  |   cmp NARGS8:RC, #8
-  |  vldr d0, [BASE]
-  |   blo ->fff_fallback
-  |  checktp CARG2, LJ_TISNUM
-  |  bhs ->fff_fallback
-  |.endmacro
-  |
-  |.macro .ffunc_dd, name
-  |  .ffunc name
-  |  ldr CARG2, [BASE, #4]
-  |  ldr CARG4, [BASE, #12]
-  |   cmp NARGS8:RC, #16
-  |  vldr d0, [BASE]
-  |  vldr d1, [BASE, #8]
-  |   blo ->fff_fallback
-  |  checktp CARG2, LJ_TISNUM
-  |  cmnlo CARG4, #-LJ_TISNUM
-  |  bhs ->fff_fallback
-  |.endmacro
-  |
-  |// Inlined GC threshold check. Caveat: uses CARG1 and CARG2.
-  |.macro ffgccheck
-  |  ldr CARG1, [DISPATCH, #DISPATCH_GL(gc.total)]
-  |  ldr CARG2, [DISPATCH, #DISPATCH_GL(gc.threshold)]
-  |  cmp CARG1, CARG2
-  |  blge ->fff_gcstep
-  |.endmacro
-  |
-  |//-- Base library: checks -----------------------------------------------
-  |
-  |.ffunc_1 assert
-  |  checktp CARG2, LJ_TTRUE
-  |  bhi ->fff_fallback
-  |   ldr PC, [BASE, FRAME_PC]
-  |  strd CARG12, [BASE, #-8]
-  |  mov RB, BASE
-  |  subs RA, NARGS8:RC, #8
-  |   add RC, NARGS8:RC, #8		// Compute (nresults+1)*8.
-  |  beq ->fff_res			// Done if exactly 1 argument.
-  |1:
-  |   ldrd CARG12, [RB, #8]
-  |  subs RA, RA, #8
-  |   strd CARG12, [RB], #8
-  |  bne <1
-  |  b ->fff_res
-  |
-  |.ffunc type
-  |  ldr CARG2, [BASE, #4]
-  |   cmp NARGS8:RC, #8
-  |   blo ->fff_fallback
-  |  checktp CARG2, LJ_TISNUM
-  |  mvnlo CARG2, #~LJ_TISNUM
-  |  rsb CARG4, CARG2, #(int)(offsetof(GCfuncC, upvalue)>>3)-1
-  |  lsl CARG4, CARG4, #3
-  |  ldrd CARG12, [CFUNC:CARG3, CARG4]
-  |  b ->fff_restv
-  |
-  |//-- Base library: getters and setters ---------------------------------
-  |
-  |.ffunc_1 getmetatable
-  |  checktp CARG2, LJ_TTAB
-  |  cmnne CARG2, #-LJ_TUDATA
-  |  bne >6
-  |1:  // Field metatable must be at same offset for GCtab and GCudata!
-  |  ldr TAB:RB, TAB:CARG1->metatable
-  |2:
-  |   mvn CARG2, #~LJ_TNIL
-  |   ldr STR:RC, [DISPATCH, #DISPATCH_GL(gcroot[GCROOT_MMNAME+MM_metatable])]
-  |  cmp TAB:RB, #0
-  |  beq ->fff_restv
-  |  ldr CARG3, TAB:RB->hmask
-  |   ldr CARG4, STR:RC->hash
-  |    ldr NODE:INS, TAB:RB->node
-  |  and CARG3, CARG3, CARG4		// idx = str->hash & tab->hmask
-  |  add CARG3, CARG3, CARG3, lsl #1
-  |    add NODE:INS, NODE:INS, CARG3, lsl #3	// node = tab->node + idx*3*8
-  |3:  // Rearranged logic, because we expect _not_ to find the key.
-  |  ldrd CARG34, NODE:INS->key  // STALL: early NODE:INS.
-  |   ldrd CARG12, NODE:INS->val
-  |    ldr NODE:INS, NODE:INS->next
-  |  checktp CARG4, LJ_TSTR
-  |  cmpeq CARG3, STR:RC
-  |  beq >5
-  |  cmp NODE:INS, #0
-  |  bne <3
-  |4:
-  |  mov CARG1, RB			// Use metatable as default result.
-  |  mvn CARG2, #~LJ_TTAB
-  |  b ->fff_restv
-  |5:
-  |  checktp CARG2, LJ_TNIL
-  |  bne ->fff_restv
-  |  b <4
-  |
-  |6:
-  |  checktp CARG2, LJ_TISNUM
-  |  mvnhs CARG2, CARG2
-  |  movlo CARG2, #~LJ_TISNUM
-  |  add CARG4, DISPATCH, CARG2, lsl #2
-  |  ldr TAB:RB, [CARG4, #DISPATCH_GL(gcroot[GCROOT_BASEMT])]
-  |  b <2
-  |
-  |.ffunc_2 setmetatable
-  |  // Fast path: no mt for table yet and not clearing the mt.
-  |  checktp CARG2, LJ_TTAB
-  |   ldreq TAB:RB, TAB:CARG1->metatable
-  |  checktpeq CARG4, LJ_TTAB
-  |    ldrbeq CARG4, TAB:CARG1->marked
-  |   cmpeq TAB:RB, #0
-  |  bne ->fff_fallback
-  |    tst CARG4, #LJ_GC_BLACK		// isblack(table)
-  |     str TAB:CARG3, TAB:CARG1->metatable
-  |    beq ->fff_restv
-  |  barrierback TAB:CARG1, CARG4, CARG3
-  |  b ->fff_restv
-  |
-  |.ffunc rawget
-  |  ldrd CARG34, [BASE]
-  |   cmp NARGS8:RC, #16
-  |   blo ->fff_fallback
-  |   mov CARG2, CARG3
-  |  checktab CARG4, ->fff_fallback
-  |   mov CARG1, L
-  |   add CARG3, BASE, #8
-  |  .IOS mov RA, BASE
-  |  bl extern lj_tab_get  // (lua_State *L, GCtab *t, cTValue *key)
-  |  // Returns cTValue *.
-  |  .IOS mov BASE, RA
-  |  ldrd CARG12, [CRET1]
-  |  b ->fff_restv
-  |
-  |//-- Base library: conversions ------------------------------------------
-  |
-  |.ffunc tonumber
-  |  // Only handles the number case inline (without a base argument).
-  |  ldrd CARG12, [BASE]
-  |   cmp NARGS8:RC, #8
-  |   bne ->fff_fallback
-  |  checktp CARG2, LJ_TISNUM
-  |  bls ->fff_restv
-  |  b ->fff_fallback
-  |
-  |.ffunc_1 tostring
-  |  // Only handles the string or number case inline.
-  |  checktp CARG2, LJ_TSTR
-  |  // A __tostring method in the string base metatable is ignored.
-  |  beq ->fff_restv
-  |  // Handle numbers inline, unless a number base metatable is present.
-  |  ldr CARG4, [DISPATCH, #DISPATCH_GL(gcroot[GCROOT_BASEMT_NUM])]
-  |   str BASE, L->base
-  |  checktp CARG2, LJ_TISNUM
-  |  cmpls CARG4, #0
-  |   str PC, SAVE_PC			// Redundant (but a defined value).
-  |  bhi ->fff_fallback
-  |  ffgccheck
-  |  mov CARG1, L
-  |  mov CARG2, BASE
-  |  bl extern lj_str_fromnumber	// (lua_State *L, cTValue *o)
-  |  // Returns GCstr *.
-  |  ldr BASE, L->base
-  |  mvn CARG2, #~LJ_TSTR
-  |  b ->fff_restv
-  |
-  |//-- Base library: iterators -------------------------------------------
-  |
-  |.ffunc_1 next
-  |   mvn CARG4, #~LJ_TNIL
-  |  checktab CARG2, ->fff_fallback
-  |   strd CARG34, [BASE, NARGS8:RC]	// Set missing 2nd arg to nil.
-  |   ldr PC, [BASE, FRAME_PC]
-  |  mov CARG2, CARG1
-  |    str BASE, L->base		// Add frame since C call can throw.
-  |  mov CARG1, L
-  |    str BASE, L->top			// Dummy frame length is ok.
-  |  add CARG3, BASE, #8
-  |   str PC, SAVE_PC
-  |  bl extern lj_tab_next	// (lua_State *L, GCtab *t, TValue *key)
-  |  // Returns 0 at end of traversal.
-  |  .IOS ldr BASE, L->base
-  |  cmp CRET1, #0
-  |  mvneq CRET2, #~LJ_TNIL
-  |  beq ->fff_restv			// End of traversal: return nil.
-  |  ldrd CARG12, [BASE, #8]		// Copy key and value to results.
-  |   ldrd CARG34, [BASE, #16]
-  |    mov RC, #(2+1)*8
-  |  strd CARG12, [BASE, #-8]
-  |   strd CARG34, [BASE]
-  |  b ->fff_res
-  |
-  |.ffunc_1 pairs
-  |  checktab CARG2, ->fff_fallback
-#if LJ_52
-  |  ldr TAB:RB, TAB:CARG1->metatable
-#endif
-  |   ldrd CFUNC:CARG34, CFUNC:CARG3->upvalue[0]
-  |    ldr PC, [BASE, FRAME_PC]
-#if LJ_52
-  |  cmp TAB:RB, #0
-  |  bne ->fff_fallback
-#endif
-  |  mvn CARG2, #~LJ_TNIL
-  |    mov RC, #(3+1)*8
-  |   strd CFUNC:CARG34, [BASE, #-8]
-  |  str CARG2, [BASE, #12]
-  |  b ->fff_res
-  |
-  |.ffunc_2 ipairs_aux
-  |  checktp CARG2, LJ_TTAB
-  |  checktpeq CARG4, LJ_TISNUM
-  |  bne ->fff_fallback
-  |  ldr RB, TAB:CARG1->asize
-  |   ldr RC, TAB:CARG1->array
-  |  add CARG3, CARG3, #1
-  |    ldr PC, [BASE, FRAME_PC]
-  |  cmp CARG3, RB
-  |   add RC, RC, CARG3, lsl #3
-  |  strd CARG34, [BASE, #-8]
-  |   ldrdlo CARG12, [RC]
-  |   mov RC, #(0+1)*8
-  |  bhs >2				// Not in array part?
-  |1:
-  |   checktp CARG2, LJ_TNIL
-  |   movne RC, #(2+1)*8
-  |   strdne CARG12, [BASE]
-  |  b ->fff_res
-  |2:  // Check for empty hash part first. Otherwise call C function.
-  |  ldr RB, TAB:CARG1->hmask
-  |   mov CARG2, CARG3
-  |  cmp RB, #0
-  |  beq ->fff_res
-  |  .IOS mov RA, BASE
-  |  bl extern lj_tab_getinth		// (GCtab *t, int32_t key)
-  |  // Returns cTValue * or NULL.
-  |  .IOS mov BASE, RA
-  |  cmp CRET1, #0
-  |  beq ->fff_res
-  |  ldrd CARG12, [CRET1]
-  |  b <1
-  |
-  |.ffunc_1 ipairs
-  |  checktab CARG2, ->fff_fallback
-#if LJ_52
-  |  ldr TAB:RB, TAB:CARG1->metatable
-#endif
-  |   ldrd CFUNC:CARG34, CFUNC:CARG3->upvalue[0]
-  |    ldr PC, [BASE, FRAME_PC]
-#if LJ_52
-  |  cmp TAB:RB, #0
-  |  bne ->fff_fallback
-#endif
-  |  mov CARG1, #0
-  |  mvn CARG2, #~LJ_TISNUM
-  |    mov RC, #(3+1)*8
-  |   strd CFUNC:CARG34, [BASE, #-8]
-  |  strd CARG12, [BASE, #8]
-  |  b ->fff_res
-  |
-  |//-- Base library: catch errors ----------------------------------------
-  |
-  |.ffunc pcall
-  |  ldrb RA, [DISPATCH, #DISPATCH_GL(hookmask)]
-  |   cmp NARGS8:RC, #8
-  |   blo ->fff_fallback
-  |  tst RA, #HOOK_ACTIVE		// Remember active hook before pcall.
-  |   mov RB, BASE
-  |   add BASE, BASE, #8
-  |  moveq PC, #8+FRAME_PCALL
-  |  movne PC, #8+FRAME_PCALLH
-  |   sub NARGS8:RC, NARGS8:RC, #8
-  |  b ->vm_call_dispatch
-  |
-  |.ffunc_2 xpcall
-  |  ldrb RA, [DISPATCH, #DISPATCH_GL(hookmask)]
-  |  checkfunc CARG4, ->fff_fallback	// Traceback must be a function.
-  |   mov RB, BASE
-  |  strd CARG12, [BASE, #8]		// Swap function and traceback.
-  |   strd CARG34, [BASE]
-  |  tst RA, #HOOK_ACTIVE		// Remember active hook before pcall.
-  |   add BASE, BASE, #16
-  |  moveq PC, #16+FRAME_PCALL
-  |  movne PC, #16+FRAME_PCALLH
-  |   sub NARGS8:RC, NARGS8:RC, #16
-  |  b ->vm_call_dispatch
-  |
-  |//-- Coroutine library --------------------------------------------------
-  |
-  |.macro coroutine_resume_wrap, resume
-  |.if resume
-  |.ffunc_1 coroutine_resume
-  |  checktp CARG2, LJ_TTHREAD
-  |  bne ->fff_fallback
-  |.else
-  |.ffunc coroutine_wrap_aux
-  |  ldr L:CARG1, CFUNC:CARG3->upvalue[0].gcr
-  |.endif
-  |   ldr PC, [BASE, FRAME_PC]
-  |     str BASE, L->base
-  |  ldr CARG2, L:CARG1->top
-  |   ldrb RA, L:CARG1->status
-  |    ldr RB, L:CARG1->base
-  |  add CARG3, CARG2, NARGS8:RC
-  |  add CARG4, CARG2, RA
-  |   str PC, SAVE_PC
-  |  cmp CARG4, RB
-  |  beq ->fff_fallback
-  |   ldr CARG4, L:CARG1->maxstack
-  |    ldr RB, L:CARG1->cframe
-  |   cmp RA, #LUA_YIELD
-  |   cmpls CARG3, CARG4
-  |    cmpls RB, #0
-  |    bhi ->fff_fallback
-  |1:
-  |.if resume
-  |  sub CARG3, CARG3, #8		// Keep resumed thread in stack for GC.
-  |  add BASE, BASE, #8
-  |  sub NARGS8:RC, NARGS8:RC, #8
-  |.endif
-  |  str CARG3, L:CARG1->top
-  |  str BASE, L->top
-  |2:  // Move args to coroutine.
-  |   ldrd CARG34, [BASE, RB]
-  |  cmp RB, NARGS8:RC
-  |   strdne CARG34, [CARG2, RB]
-  |  add RB, RB, #8
-  |  bne <2
-  |
-  |  mov CARG3, #0
-  |   mov L:RA, L:CARG1
-  |  mov CARG4, #0
-  |  bl ->vm_resume			// (lua_State *L, TValue *base, 0, 0)
-  |  // Returns thread status.
-  |4:
-  |  ldr CARG3, L:RA->base
-  |    mv_vmstate CARG2, INTERP
-  |  ldr CARG4, L:RA->top
-  |    st_vmstate CARG2
-  |   cmp CRET1, #LUA_YIELD
-  |  ldr BASE, L->base
-  |   bhi >8
-  |  subs RC, CARG4, CARG3
-  |   ldr CARG1, L->maxstack
-  |   add CARG2, BASE, RC
-  |  beq >6				// No results?
-  |  cmp CARG2, CARG1
-  |   mov RB, #0
-  |  bhi >9				// Need to grow stack?
-  |
-  |  sub CARG4, RC, #8
-  |   str CARG3, L:RA->top		// Clear coroutine stack.
-  |5:  // Move results from coroutine.
-  |   ldrd CARG12, [CARG3, RB]
-  |  cmp RB, CARG4
-  |   strd CARG12, [BASE, RB]
-  |  add RB, RB, #8
-  |  bne <5
-  |6:
-  |.if resume
-  |  mvn CARG3, #~LJ_TTRUE
-  |   add RC, RC, #16
-  |7:
-  |  str CARG3, [BASE, #-4]		// Prepend true/false to results.
-  |   sub RA, BASE, #8
-  |.else
-  |   mov RA, BASE
-  |   add RC, RC, #8
-  |.endif
-  |  ands CARG1, PC, #FRAME_TYPE
-  |   str PC, SAVE_PC
-  |   str RC, SAVE_MULTRES
-  |  beq ->BC_RET_Z
-  |  b ->vm_return
-  |
-  |8:  // Coroutine returned with error (at co->top-1).
-  |.if resume
-  |  ldrd CARG12, [CARG4, #-8]!
-  |   mvn CARG3, #~LJ_TFALSE
-  |    mov RC, #(2+1)*8
-  |  str CARG4, L:RA->top		// Remove error from coroutine stack.
-  |  strd CARG12, [BASE]		// Copy error message.
-  |  b <7
-  |.else
-  |  mov CARG1, L
-  |  mov CARG2, L:RA
-  |  bl extern lj_ffh_coroutine_wrap_err  // (lua_State *L, lua_State *co)
-  |  // Never returns.
-  |.endif
-  |
-  |9:  // Handle stack expansion on return from yield.
-  |  mov CARG1, L
-  |  lsr CARG2, RC, #3
-  |  bl extern lj_state_growstack	// (lua_State *L, int n)
-  |  mov CRET1, #0
-  |  b <4
-  |.endmacro
-  |
-  |  coroutine_resume_wrap 1		// coroutine.resume
-  |  coroutine_resume_wrap 0		// coroutine.wrap
-  |
-  |.ffunc coroutine_yield
-  |  ldr CARG1, L->cframe
-  |   add CARG2, BASE, NARGS8:RC
-  |   str BASE, L->base
-  |  tst CARG1, #CFRAME_RESUME
-  |   str CARG2, L->top
-  |    mov CRET1, #LUA_YIELD
-  |   mov CARG3, #0
-  |  beq ->fff_fallback
-  |   str CARG3, L->cframe
-  |    strb CRET1, L->status
-  |  b ->vm_leave_unw
-  |
-  |//-- Math library -------------------------------------------------------
-  |
-  |.macro math_round, func
-  |  .ffunc_1 math_ .. func
-  |  checktp CARG2, LJ_TISNUM
-  |  beq ->fff_restv
-  |  bhi ->fff_fallback
-  |  // Round FP value and normalize result.
-  |  lsl CARG3, CARG2, #1
-  |  adds RB, CARG3, #0x00200000
-  |  bpl >2				// |x| < 1?
-  |  mvn CARG4, #0x3e0
-  |    subs RB, CARG4, RB, asr #21
-  |  lsl CARG4, CARG2, #11
-  |   lsl CARG3, CARG1, #11
-  |  orr CARG4, CARG4, #0x80000000
-  |   rsb INS, RB, #32
-  |  orr CARG4, CARG4, CARG1, lsr #21
-  |    bls >3				// |x| >= 2^31?
-  |   orr CARG3, CARG3, CARG4, lsl INS
-  |  lsr CARG1, CARG4, RB
-  |.if "func" == "floor"
-  |   tst CARG3, CARG2, asr #31
-  |   addne CARG1, CARG1, #1
-  |.else
-  |   bics CARG3, CARG3, CARG2, asr #31
-  |   addsne CARG1, CARG1, #1
-  |   ldrdvs CARG12, >9
-  |   bvs ->fff_restv
-  |.endif
-  |    cmp CARG2, #0
-  |    rsblt CARG1, CARG1, #0
-  |1:
-  |   mvn CARG2, #~LJ_TISNUM
-  |  b ->fff_restv
-  |
-  |2:  // |x| < 1
-  |  bcs ->fff_restv			// |x| is not finite.
-  |  orr CARG3, CARG3, CARG1		// ztest = abs(hi) | lo
-  |.if "func" == "floor"
-  |  tst CARG3, CARG2, asr #31		// return (ztest & sign) == 0 ? 0 : -1
-  |  moveq CARG1, #0
-  |  mvnne CARG1, #0
-  |.else
-  |  bics CARG3, CARG3, CARG2, asr #31	// return (ztest & ~sign) == 0 ? 0 : 1
-  |  moveq CARG1, #0
-  |  movne CARG1, #1
-  |.endif
-  |  mvn CARG2, #~LJ_TISNUM
-  |  b ->fff_restv
-  |
-  |3:  // |x| >= 2^31. Check for x == -(2^31).
-  |  cmpeq CARG4, #0x80000000
-  |.if "func" == "floor"
-  |  cmpeq CARG3, #0
-  |.endif
-  |  bne >4
-  |  cmp CARG2, #0
-  |  movmi CARG1, #0x80000000
-  |  bmi <1
-  |4:
-  |  bl ->vm_..func.._sf
-  |  b ->fff_restv
-  |.endmacro
-  |
-  |  math_round floor
-  |  math_round ceil
-  |
-  |.align 8
-  |9:
-  |  .long 0x00000000, 0x41e00000	// 2^31.
-  |
-  |.ffunc_1 math_abs
-  |  checktp CARG2, LJ_TISNUM
-  |  bhi ->fff_fallback
-  |  bicne CARG2, CARG2, #0x80000000
-  |  bne ->fff_restv
-  |  cmp CARG1, #0
-  |  rsbslt CARG1, CARG1, #0
-  |  ldrdvs CARG12, <9
-  |  // Fallthrough.
-  |
-  |->fff_restv:
-  |  // CARG12 = TValue result.
-  |  ldr PC, [BASE, FRAME_PC]
-  |  strd CARG12, [BASE, #-8]
-  |->fff_res1:
-  |  // PC = return.
-  |  mov RC, #(1+1)*8
-  |->fff_res:
-  |  // RC = (nresults+1)*8, PC = return.
-  |  ands CARG1, PC, #FRAME_TYPE
-  |  ldreq INS, [PC, #-4]
-  |   str RC, SAVE_MULTRES
-  |  sub RA, BASE, #8
-  |  bne ->vm_return
-  |  decode_RB8 RB, INS
-  |5:
-  |  cmp RB, RC				// More results expected?
-  |  bhi >6
-  |  decode_RA8 CARG1, INS
-  |   ins_next1
-  |   ins_next2
-  |  // Adjust BASE. KBASE is assumed to be set for the calling frame.
-  |  sub BASE, RA, CARG1
-  |   ins_next3
-  |
-  |6:  // Fill up results with nil.
-  |  add CARG2, RA, RC
-  |  mvn CARG1, #~LJ_TNIL
-  |   add RC, RC, #8
-  |  str CARG1, [CARG2, #-4]
-  |  b <5
-  |
-  |.macro math_extern, func
-  |.if HFABI
-  |  .ffunc_d math_ .. func
-  |.else
-  |  .ffunc_n math_ .. func
-  |.endif
-  |  .IOS mov RA, BASE
-  |  bl extern func
-  |  .IOS mov BASE, RA
-  |.if HFABI
-  |  b ->fff_resd
-  |.else
-  |  b ->fff_restv
-  |.endif
-  |.endmacro
-  |
-  |.macro math_extern2, func
-  |.if HFABI
-  |  .ffunc_dd math_ .. func
-  |.else
-  |  .ffunc_nn math_ .. func
-  |.endif
-  |  .IOS mov RA, BASE
-  |  bl extern func
-  |  .IOS mov BASE, RA
-  |.if HFABI
-  |  b ->fff_resd
-  |.else
-  |  b ->fff_restv
-  |.endif
-  |.endmacro
-  |
-  |.if FPU
-  |  .ffunc_d math_sqrt
-  |  vsqrt.f64 d0, d0
-  |->fff_resd:
-  |  ldr PC, [BASE, FRAME_PC]
-  |  vstr d0, [BASE, #-8]
-  |  b ->fff_res1
-  |.else
-  |  math_extern sqrt
-  |.endif
-  |
-  |.ffunc math_log
-  |.if HFABI
-  |  ldr CARG2, [BASE, #4]
-  |   cmp NARGS8:RC, #8			// Need exactly 1 argument.
-  |  vldr d0, [BASE]
-  |   bne ->fff_fallback
-  |.else
-  |  ldrd CARG12, [BASE]
-  |   cmp NARGS8:RC, #8			// Need exactly 1 argument.
-  |   bne ->fff_fallback
-  |.endif
-  |  checktp CARG2, LJ_TISNUM
-  |  bhs ->fff_fallback
-  |  .IOS mov RA, BASE
-  |  bl extern log
-  |  .IOS mov BASE, RA
-  |.if HFABI
-  |  b ->fff_resd
-  |.else
-  |  b ->fff_restv
-  |.endif
-  |
-  |  math_extern log10
-  |  math_extern exp
-  |  math_extern sin
-  |  math_extern cos
-  |  math_extern tan
-  |  math_extern asin
-  |  math_extern acos
-  |  math_extern atan
-  |  math_extern sinh
-  |  math_extern cosh
-  |  math_extern tanh
-  |  math_extern2 pow
-  |  math_extern2 atan2
-  |  math_extern2 fmod
-  |
-  |->ff_math_deg:
-  |.if FPU
-  |  .ffunc_d math_rad
-  |  vldr d1, CFUNC:CARG3->upvalue[0]
-  |  vmul.f64 d0, d0, d1
-  |  b ->fff_resd
-  |.else
-  |  .ffunc_n math_rad
-  |  ldrd CARG34, CFUNC:CARG3->upvalue[0]
-  |  bl extern __aeabi_dmul
-  |  b ->fff_restv
-  |.endif
-  |
-  |.if HFABI
-  |  .ffunc math_ldexp
-  |  ldr CARG4, [BASE, #4]
-  |  ldrd CARG12, [BASE, #8]
-  |   cmp NARGS8:RC, #16
-  |   blo ->fff_fallback
-  |  vldr d0, [BASE]
-  |  checktp CARG4, LJ_TISNUM
-  |  bhs ->fff_fallback
-  |  checktp CARG2, LJ_TISNUM
-  |  bne ->fff_fallback
-  |  .IOS mov RA, BASE
-  |  bl extern ldexp			// (double x, int exp)
-  |  .IOS mov BASE, RA
-  |  b ->fff_resd
-  |.else
-  |.ffunc_2 math_ldexp
-  |  checktp CARG2, LJ_TISNUM
-  |  bhs ->fff_fallback
-  |  checktp CARG4, LJ_TISNUM
-  |  bne ->fff_fallback
-  |  .IOS mov RA, BASE
-  |  bl extern ldexp			// (double x, int exp)
-  |  .IOS mov BASE, RA
-  |  b ->fff_restv
-  |.endif
-  |
-  |.if HFABI
-  |.ffunc_d math_frexp
-  |  mov CARG1, sp
-  |  .IOS mov RA, BASE
-  |  bl extern frexp
-  |  .IOS mov BASE, RA
-  |   ldr CARG3, [sp]
-  |   mvn CARG4, #~LJ_TISNUM
-  |    ldr PC, [BASE, FRAME_PC]
-  |  vstr d0, [BASE, #-8]
-  |    mov RC, #(2+1)*8
-  |   strd CARG34, [BASE]
-  |  b ->fff_res
-  |.else
-  |.ffunc_n math_frexp
-  |  mov CARG3, sp
-  |  .IOS mov RA, BASE
-  |  bl extern frexp
-  |  .IOS mov BASE, RA
-  |   ldr CARG3, [sp]
-  |   mvn CARG4, #~LJ_TISNUM
-  |    ldr PC, [BASE, FRAME_PC]
-  |  strd CARG12, [BASE, #-8]
-  |    mov RC, #(2+1)*8
-  |   strd CARG34, [BASE]
-  |  b ->fff_res
-  |.endif
-  |
-  |.if HFABI
-  |.ffunc_d math_modf
-  |  sub CARG1, BASE, #8
-  |   ldr PC, [BASE, FRAME_PC]
-  |  .IOS mov RA, BASE
-  |  bl extern modf
-  |  .IOS mov BASE, RA
-  |   mov RC, #(2+1)*8
-  |  vstr d0, [BASE]
-  |  b ->fff_res
-  |.else
-  |.ffunc_n math_modf
-  |  sub CARG3, BASE, #8
-  |   ldr PC, [BASE, FRAME_PC]
-  |  .IOS mov RA, BASE
-  |  bl extern modf
-  |  .IOS mov BASE, RA
-  |   mov RC, #(2+1)*8
-  |  strd CARG12, [BASE]
-  |  b ->fff_res
-  |.endif
-  |
-  |.macro math_minmax, name, cond, fcond
-  |.if FPU
-  |  .ffunc_1 name
-  |   add RB, BASE, RC
-  |  checktp CARG2, LJ_TISNUM
-  |   add RA, BASE, #8
-  |  bne >4
-  |1:  // Handle integers.
-  |  ldrd CARG34, [RA]
-  |   cmp RA, RB
-  |   bhs ->fff_restv
-  |  checktp CARG4, LJ_TISNUM
-  |  bne >3
-  |  cmp CARG1, CARG3
-  |   add RA, RA, #8
-  |  mov..cond CARG1, CARG3
-  |  b <1
-  |3:  // Convert intermediate result to number and continue below.
-  |  vmov s4, CARG1
-  |  bhi ->fff_fallback
-  |  vldr d1, [RA]
-  |  vcvt.f64.s32 d0, s4
-  |  b >6
-  |
-  |4:
-  |  vldr d0, [BASE]
-  |  bhi ->fff_fallback
-  |5:  // Handle numbers.
-  |  ldrd CARG34, [RA]
-  |  vldr d1, [RA]
-  |   cmp RA, RB
-  |   bhs ->fff_resd
-  |  checktp CARG4, LJ_TISNUM
-  |  bhs >7
-  |6:
-  |  vcmp.f64 d0, d1
-  |  vmrs
-  |   add RA, RA, #8
-  |  vmov..fcond.f64 d0, d1
-  |  b <5
-  |7:  // Convert integer to number and continue above.
-  |  vmov s4, CARG3
-  |  bhi ->fff_fallback
-  |  vcvt.f64.s32 d1, s4
-  |  b <6
-  |
-  |.else
-  |
-  |  .ffunc_1 name
-  |  checktp CARG2, LJ_TISNUM
-  |   mov RA, #8
-  |  bne >4
-  |1:  // Handle integers.
-  |  ldrd CARG34, [BASE, RA]
-  |   cmp RA, RC
-  |   bhs ->fff_restv
-  |  checktp CARG4, LJ_TISNUM
-  |  bne >3
-  |  cmp CARG1, CARG3
-  |   add RA, RA, #8
-  |  mov..cond CARG1, CARG3
-  |  b <1
-  |3:  // Convert intermediate result to number and continue below.
-  |  bhi ->fff_fallback
-  |  bl extern __aeabi_i2d
-  |  ldrd CARG34, [BASE, RA]
-  |  b >6
-  |
-  |4:
-  |  bhi ->fff_fallback
-  |5:  // Handle numbers.
-  |  ldrd CARG34, [BASE, RA]
-  |   cmp RA, RC
-  |   bhs ->fff_restv
-  |  checktp CARG4, LJ_TISNUM
-  |  bhs >7
-  |6:
-  |  bl extern __aeabi_cdcmple
-  |   add RA, RA, #8
-  |  mov..fcond CARG1, CARG3
-  |  mov..fcond CARG2, CARG4
-  |  b <5
-  |7:  // Convert integer to number and continue above.
-  |  bhi ->fff_fallback
-  |  strd CARG12, TMPD
-  |  mov CARG1, CARG3
-  |  bl extern __aeabi_i2d
-  |  ldrd CARG34, TMPD
-  |  b <6
-  |.endif
-  |.endmacro
-  |
-  |  math_minmax math_min, gt, hi
-  |  math_minmax math_max, lt, lo
-  |
-  |//-- String library -----------------------------------------------------
-  |
-  |.ffunc_1 string_len
-  |  checkstr CARG2, ->fff_fallback
-  |  ldr CARG1, STR:CARG1->len
-  |  mvn CARG2, #~LJ_TISNUM
-  |  b ->fff_restv
-  |
-  |.ffunc string_byte			// Only handle the 1-arg case here.
-  |  ldrd CARG12, [BASE]
-  |    ldr PC, [BASE, FRAME_PC]
-  |   cmp NARGS8:RC, #8
-  |   checktpeq CARG2, LJ_TSTR		// Need exactly 1 argument.
-  |   bne ->fff_fallback
-  |  ldr CARG3, STR:CARG1->len
-  |   ldrb CARG1, STR:CARG1[1]		// Access is always ok (NUL at end).
-  |   mvn CARG2, #~LJ_TISNUM
-  |  cmp CARG3, #0
-  |  moveq RC, #(0+1)*8
-  |  movne RC, #(1+1)*8
-  |   strd CARG12, [BASE, #-8]
-  |  b ->fff_res
-  |
-  |.ffunc string_char			// Only handle the 1-arg case here.
-  |  ffgccheck
-  |  ldrd CARG12, [BASE]
-  |    ldr PC, [BASE, FRAME_PC]
-  |   cmp NARGS8:RC, #8			// Need exactly 1 argument.
-  |   checktpeq CARG2, LJ_TISNUM
-  |   bicseq CARG4, CARG1, #255
-  |  mov CARG3, #1
-  |   bne ->fff_fallback
-  |  str CARG1, TMPD
-  |  mov CARG2, TMPDp			// Points to stack. Little-endian.
-  |->fff_newstr:
-  |  // CARG2 = str, CARG3 = len.
-  |   str BASE, L->base
-  |  mov CARG1, L
-  |   str PC, SAVE_PC
-  |  bl extern lj_str_new		// (lua_State *L, char *str, size_t l)
-  |  // Returns GCstr *.
-  |  ldr BASE, L->base
-  |   mvn CARG2, #~LJ_TSTR
-  |  b ->fff_restv
-  |
-  |.ffunc string_sub
-  |  ffgccheck
-  |  ldrd CARG12, [BASE]
-  |   ldrd CARG34, [BASE, #16]
-  |    cmp NARGS8:RC, #16
-  |     mvn RB, #0
-  |    beq >1
-  |    blo ->fff_fallback
-  |   checktp CARG4, LJ_TISNUM
-  |    mov RB, CARG3
-  |   bne ->fff_fallback
-  |1:
-  |  ldrd CARG34, [BASE, #8]
-  |  checktp CARG2, LJ_TSTR
-  |   ldreq CARG2, STR:CARG1->len
-  |  checktpeq CARG4, LJ_TISNUM
-  |  bne ->fff_fallback
-  |  // CARG1 = str, CARG2 = str->len, CARG3 = start, RB = end
-  |  add CARG4, CARG2, #1
-  |  cmp CARG3, #0			// if (start < 0) start += len+1
-  |  addlt CARG3, CARG3, CARG4
-  |  cmp CARG3, #1			// if (start < 1) start = 1
-  |  movlt CARG3, #1
-  |  cmp RB, #0				// if (end < 0) end += len+1
-  |  addlt RB, RB, CARG4
-  |  bic RB, RB, RB, asr #31		// if (end < 0) end = 0
-  |  cmp RB, CARG2			// if (end > len) end = len
-  |   add CARG1, STR:CARG1, #sizeof(GCstr)-1
-  |  movgt RB, CARG2
-  |   add CARG2, CARG1, CARG3
-  |  subs CARG3, RB, CARG3		// len = end - start
-  |   add CARG3, CARG3, #1		// len += 1
-  |  bge ->fff_newstr
-  |->fff_emptystr:
-  |  sub STR:CARG1, DISPATCH, #-DISPATCH_GL(strempty)
-  |  mvn CARG2, #~LJ_TSTR
-  |  b ->fff_restv
-  |
-  |.ffunc string_rep			// Only handle the 1-char case inline.
-  |  ffgccheck
-  |  ldrd CARG12, [BASE]
-  |   ldrd CARG34, [BASE, #8]
-  |    cmp NARGS8:RC, #16
-  |    bne ->fff_fallback		// Exactly 2 arguments
-  |  checktp CARG2, LJ_TSTR
-  |   checktpeq CARG4, LJ_TISNUM
-  |   bne ->fff_fallback
-  |  subs CARG4, CARG3, #1
-  |   ldr CARG2, STR:CARG1->len
-  |  blt ->fff_emptystr			// Count <= 0?
-  |   cmp CARG2, #1
-  |   blo ->fff_emptystr		// Zero-length string?
-  |   bne ->fff_fallback		// Fallback for > 1-char strings.
-  |  ldr RB, [DISPATCH, #DISPATCH_GL(tmpbuf.sz)]
-  |   ldr CARG2, [DISPATCH, #DISPATCH_GL(tmpbuf.buf)]
-  |   ldr CARG1, STR:CARG1[1]
-  |  cmp RB, CARG3
-  |  blo ->fff_fallback
-  |1:  // Fill buffer with char.
-  |   strb CARG1, [CARG2, CARG4]
-  |  subs CARG4, CARG4, #1
-  |  bge <1
-  |  b ->fff_newstr
-  |
-  |.ffunc string_reverse
-  |  ffgccheck
-  |  ldrd CARG12, [BASE]
-  |   cmp NARGS8:RC, #8
-  |   blo ->fff_fallback
-  |  checkstr CARG2, ->fff_fallback
-  |  ldr CARG3, STR:CARG1->len
-  |   ldr RB, [DISPATCH, #DISPATCH_GL(tmpbuf.sz)]
-  |    ldr CARG2, [DISPATCH, #DISPATCH_GL(tmpbuf.buf)]
-  |  mov CARG4, CARG3
-  |  add CARG1, STR:CARG1, #sizeof(GCstr)
-  |   cmp RB, CARG3
-  |   blo ->fff_fallback
-  |1:  // Reverse string copy.
-  |  ldrb RB, [CARG1], #1
-  |   subs CARG4, CARG4, #1
-  |   blt ->fff_newstr
-  |  strb RB, [CARG2, CARG4]
-  |  b <1
-  |
-  |.macro ffstring_case, name, lo
-  |  .ffunc name
-  |  ffgccheck
-  |  ldrd CARG12, [BASE]
-  |   cmp NARGS8:RC, #8
-  |   blo ->fff_fallback
-  |  checkstr CARG2, ->fff_fallback
-  |  ldr CARG3, STR:CARG1->len
-  |   ldr RB, [DISPATCH, #DISPATCH_GL(tmpbuf.sz)]
-  |    ldr CARG2, [DISPATCH, #DISPATCH_GL(tmpbuf.buf)]
-  |  mov CARG4, #0
-  |  add CARG1, STR:CARG1, #sizeof(GCstr)
-  |   cmp RB, CARG3
-  |   blo ->fff_fallback
-  |1:  // ASCII case conversion.
-  |  ldrb RB, [CARG1, CARG4]
-  |   cmp CARG4, CARG3
-  |   bhs ->fff_newstr
-  |  sub RC, RB, #lo
-  |  cmp RC, #26
-  |  eorlo RB, RB, #0x20
-  |  strb RB, [CARG2, CARG4]
-  |   add CARG4, CARG4, #1
-  |  b <1
-  |.endmacro
-  |
-  |ffstring_case string_lower, 65
-  |ffstring_case string_upper, 97
-  |
-  |//-- Table library ------------------------------------------------------
-  |
-  |.ffunc_1 table_getn
-  |  checktab CARG2, ->fff_fallback
-  |  .IOS mov RA, BASE
-  |  bl extern lj_tab_len		// (GCtab *t)
-  |  // Returns uint32_t (but less than 2^31).
-  |  .IOS mov BASE, RA
-  |  mvn CARG2, #~LJ_TISNUM
-  |  b ->fff_restv
-  |
-  |//-- Bit library --------------------------------------------------------
-  |
-  |// FP number to bit conversion for soft-float. Clobbers r0-r3.
-  |->vm_tobit_fb:
-  |  bhi ->fff_fallback
-  |->vm_tobit:
-  |  lsl RB, CARG2, #1
-  |  adds RB, RB, #0x00200000
-  |  movpl CARG1, #0			// |x| < 1?
-  |  bxpl lr
-  |  mvn CARG4, #0x3e0
-  |  subs RB, CARG4, RB, asr #21
-  |  bmi >1				// |x| >= 2^32?
-  |  lsl CARG4, CARG2, #11
-  |  orr CARG4, CARG4, #0x80000000
-  |  orr CARG4, CARG4, CARG1, lsr #21
-  |   cmp CARG2, #0
-  |  lsr CARG1, CARG4, RB
-  |   rsblt CARG1, CARG1, #0
-  |  bx lr
-  |1:
-  |  add RB, RB, #21
-  |  lsr CARG4, CARG1, RB
-  |  rsb RB, RB, #20
-  |  lsl CARG1, CARG2, #12
-  |   cmp CARG2, #0
-  |  orr CARG1, CARG4, CARG1, lsl RB
-  |   rsblt CARG1, CARG1, #0
-  |  bx lr
-  |
-  |.macro .ffunc_bit, name
-  |  .ffunc_1 bit_..name
-  |  checktp CARG2, LJ_TISNUM
-  |  blne ->vm_tobit_fb
-  |.endmacro
-  |
-  |.ffunc_bit tobit
-  |  mvn CARG2, #~LJ_TISNUM
-  |  b ->fff_restv
-  |
-  |.macro .ffunc_bit_op, name, ins
-  |  .ffunc_bit name
-  |  mov CARG3, CARG1
-  |  mov RA, #8
-  |1:
-  |  ldrd CARG12, [BASE, RA]
-  |   cmp RA, NARGS8:RC
-  |    add RA, RA, #8
-  |   bge >2
-  |  checktp CARG2, LJ_TISNUM
-  |  blne ->vm_tobit_fb
-  |  ins CARG3, CARG3, CARG1
-  |  b <1
-  |.endmacro
-  |
-  |.ffunc_bit_op band, and
-  |.ffunc_bit_op bor, orr
-  |.ffunc_bit_op bxor, eor
-  |
-  |2:
-  |  mvn CARG4, #~LJ_TISNUM
-  |   ldr PC, [BASE, FRAME_PC]
-  |  strd CARG34, [BASE, #-8]
-  |  b ->fff_res1
-  |
-  |.ffunc_bit bswap
-  |  eor CARG3, CARG1, CARG1, ror #16
-  |  bic CARG3, CARG3, #0x00ff0000
-  |  ror CARG1, CARG1, #8
-  |   mvn CARG2, #~LJ_TISNUM
-  |  eor CARG1, CARG1, CARG3, lsr #8
-  |  b ->fff_restv
-  |
-  |.ffunc_bit bnot
-  |  mvn CARG1, CARG1
-  |  mvn CARG2, #~LJ_TISNUM
-  |  b ->fff_restv
-  |
-  |.macro .ffunc_bit_sh, name, ins, shmod
-  |  .ffunc bit_..name
-  |  ldrd CARG12, [BASE, #8]
-  |   cmp NARGS8:RC, #16
-  |   blo ->fff_fallback
-  |  checktp CARG2, LJ_TISNUM
-  |  blne ->vm_tobit_fb
-  |.if shmod == 0
-  |  and RA, CARG1, #31
-  |.else
-  |  rsb RA, CARG1, #0
-  |.endif
-  |  ldrd CARG12, [BASE]
-  |  checktp CARG2, LJ_TISNUM
-  |  blne ->vm_tobit_fb
-  |  ins CARG1, CARG1, RA
-  |  mvn CARG2, #~LJ_TISNUM
-  |  b ->fff_restv
-  |.endmacro
-  |
-  |.ffunc_bit_sh lshift, lsl, 0
-  |.ffunc_bit_sh rshift, lsr, 0
-  |.ffunc_bit_sh arshift, asr, 0
-  |.ffunc_bit_sh rol, ror, 1
-  |.ffunc_bit_sh ror, ror, 0
-  |
-  |//-----------------------------------------------------------------------
-  |
-  |->fff_fallback:			// Call fast function fallback handler.
-  |  // BASE = new base, RC = nargs*8
-  |   ldr CARG3, [BASE, FRAME_FUNC]
-  |  ldr CARG2, L->maxstack
-  |  add CARG1, BASE, NARGS8:RC
-  |    ldr PC, [BASE, FRAME_PC]		// Fallback may overwrite PC.
-  |  str CARG1, L->top
-  |   ldr CARG3, CFUNC:CARG3->f
-  |    str BASE, L->base
-  |  add CARG1, CARG1, #8*LUA_MINSTACK
-  |    str PC, SAVE_PC			// Redundant (but a defined value).
-  |  cmp CARG1, CARG2
-  |   mov CARG1, L
-  |  bhi >5				// Need to grow stack.
-  |   blx CARG3				// (lua_State *L)
-  |  // Either throws an error, or recovers and returns -1, 0 or nresults+1.
-  |   ldr BASE, L->base
-  |  cmp CRET1, #0
-  |   lsl RC, CRET1, #3
-  |   sub RA, BASE, #8
-  |  bgt ->fff_res			// Returned nresults+1?
-  |1:  // Returned 0 or -1: retry fast path.
-  |   ldr CARG1, L->top
-  |    ldr LFUNC:CARG3, [BASE, FRAME_FUNC]
-  |   sub NARGS8:RC, CARG1, BASE
-  |  bne ->vm_call_tail			// Returned -1?
-  |  ins_callt				// Returned 0: retry fast path.
-  |
-  |// Reconstruct previous base for vmeta_call during tailcall.
-  |->vm_call_tail:
-  |  ands CARG1, PC, #FRAME_TYPE
-  |   bic CARG2, PC, #FRAME_TYPEP
-  |  ldreq INS, [PC, #-4]
-  |  andeq CARG2, MASKR8, INS, lsr #5	// Conditional decode_RA8.
-  |  addeq CARG2, CARG2, #8
-  |  sub RB, BASE, CARG2
-  |  b ->vm_call_dispatch		// Resolve again for tailcall.
-  |
-  |5:  // Grow stack for fallback handler.
-  |  mov CARG2, #LUA_MINSTACK
-  |  bl extern lj_state_growstack	// (lua_State *L, int n)
-  |  ldr BASE, L->base
-  |  cmp CARG1, CARG1			// Set zero-flag to force retry.
-  |  b <1
-  |
-  |->fff_gcstep:			// Call GC step function.
-  |  // BASE = new base, RC = nargs*8
-  |  mov RA, lr
-  |   str BASE, L->base
-  |  add CARG2, BASE, NARGS8:RC
-  |   str PC, SAVE_PC			// Redundant (but a defined value).
-  |  str CARG2, L->top
-  |  mov CARG1, L
-  |  bl extern lj_gc_step		// (lua_State *L)
-  |   ldr BASE, L->base
-  |  mov lr, RA				// Help return address predictor.
-  |   ldr CFUNC:CARG3, [BASE, FRAME_FUNC]
-  |  bx lr
-  |
-  |//-----------------------------------------------------------------------
-  |//-- Special dispatch targets -------------------------------------------
-  |//-----------------------------------------------------------------------
-  |
-  |->vm_record:				// Dispatch target for recording phase.
-  |.if JIT
-  |  ldrb CARG1, [DISPATCH, #DISPATCH_GL(hookmask)]
-  |  tst CARG1, #HOOK_VMEVENT		// No recording while in vmevent.
-  |  bne >5
-  |  // Decrement the hookcount for consistency, but always do the call.
-  |   ldr CARG2, [DISPATCH, #DISPATCH_GL(hookcount)]
-  |  tst CARG1, #HOOK_ACTIVE
-  |  bne >1
-  |   sub CARG2, CARG2, #1
-  |  tst CARG1, #LUA_MASKLINE|LUA_MASKCOUNT
-  |   strne CARG2, [DISPATCH, #DISPATCH_GL(hookcount)]
-  |  b >1
-  |.endif
-  |
-  |->vm_rethook:			// Dispatch target for return hooks.
-  |  ldrb CARG1, [DISPATCH, #DISPATCH_GL(hookmask)]
-  |  tst CARG1, #HOOK_ACTIVE		// Hook already active?
-  |  beq >1
-  |5:  // Re-dispatch to static ins.
-  |  decode_OP OP, INS
-  |  add OP, DISPATCH, OP, lsl #2
-  |  ldr pc, [OP, #GG_DISP2STATIC]
-  |
-  |->vm_inshook:			// Dispatch target for instr/line hooks.
-  |  ldrb CARG1, [DISPATCH, #DISPATCH_GL(hookmask)]
-  |   ldr CARG2, [DISPATCH, #DISPATCH_GL(hookcount)]
-  |  tst CARG1, #HOOK_ACTIVE		// Hook already active?
-  |  bne <5
-  |  tst CARG1, #LUA_MASKLINE|LUA_MASKCOUNT
-  |  beq <5
-  |   subs CARG2, CARG2, #1
-  |   str CARG2, [DISPATCH, #DISPATCH_GL(hookcount)]
-  |   beq >1
-  |  tst CARG1, #LUA_MASKLINE
-  |  beq <5
-  |1:
-  |  mov CARG1, L
-  |   str BASE, L->base
-  |  mov CARG2, PC
-  |  // SAVE_PC must hold the _previous_ PC. The callee updates it with PC.
-  |  bl extern lj_dispatch_ins		// (lua_State *L, const BCIns *pc)
-  |3:
-  |  ldr BASE, L->base
-  |4:  // Re-dispatch to static ins.
-  |  ldrb OP, [PC, #-4]
-  |   ldr INS, [PC, #-4]
-  |  add OP, DISPATCH, OP, lsl #2
-  |  ldr OP, [OP, #GG_DISP2STATIC]
-  |   decode_RA8 RA, INS
-  |   decode_RD RC, INS
-  |  bx OP
-  |
-  |->cont_hook:				// Continue from hook yield.
-  |  ldr CARG1, [CARG4, #-24]
-  |   add PC, PC, #4
-  |  str CARG1, SAVE_MULTRES		// Restore MULTRES for *M ins.
-  |  b <4
-  |
-  |->vm_hotloop:			// Hot loop counter underflow.
-  |.if JIT
-  |  ldr LFUNC:CARG3, [BASE, FRAME_FUNC]  // Same as curr_topL(L).
-  |   sub CARG1, DISPATCH, #-GG_DISP2J
-  |   str PC, SAVE_PC
-  |  ldr CARG3, LFUNC:CARG3->field_pc
-  |   mov CARG2, PC
-  |   str L, [DISPATCH, #DISPATCH_J(L)]
-  |  ldrb CARG3, [CARG3, #PC2PROTO(framesize)]
-  |   str BASE, L->base
-  |  add CARG3, BASE, CARG3, lsl #3
-  |  str CARG3, L->top
-  |  bl extern lj_trace_hot		// (jit_State *J, const BCIns *pc)
-  |  b <3
-  |.endif
-  |
-  |->vm_callhook:			// Dispatch target for call hooks.
-  |  mov CARG2, PC
-  |.if JIT
-  |  b >1
-  |.endif
-  |
-  |->vm_hotcall:			// Hot call counter underflow.
-  |.if JIT
-  |  orr CARG2, PC, #1
-  |1:
-  |.endif
-  |  add CARG4, BASE, RC
-  |   str PC, SAVE_PC
-  |    mov CARG1, L
-  |   str BASE, L->base
-  |    sub RA, RA, BASE
-  |  str CARG4, L->top
-  |  bl extern lj_dispatch_call		// (lua_State *L, const BCIns *pc)
-  |  // Returns ASMFunction.
-  |  ldr BASE, L->base
-  |   ldr CARG4, L->top
-  |    mov CARG2, #0
-  |  add RA, BASE, RA
-  |   sub NARGS8:RC, CARG4, BASE
-  |    str CARG2, SAVE_PC		// Invalidate for subsequent line hook.
-  |  ldr LFUNC:CARG3, [BASE, FRAME_FUNC]
-  |   ldr INS, [PC, #-4]
-  |  bx CRET1
-  |
-  |//-----------------------------------------------------------------------
-  |//-- Trace exit handler -------------------------------------------------
-  |//-----------------------------------------------------------------------
-  |
-  |->vm_exit_handler:
-  |.if JIT
-  |  sub sp, sp, #12
-  |  push {r0,r1,r2,r3,r4,r5,r6,r7,r8,r9,r10,r11,r12}
-  |  ldr CARG1, [sp, #64]	// Load original value of lr.
-  |   ldr DISPATCH, [lr]	// Load DISPATCH.
-  |    add CARG3, sp, #64	// Recompute original value of sp.
-  |   mv_vmstate CARG4, EXIT
-  |    str CARG3, [sp, #52]	// Store sp in RID_SP
-  |   st_vmstate CARG4
-  |  ldr CARG2, [CARG1, #-4]!	// Get exit instruction.
-  |   str CARG1, [sp, #56]	// Store exit pc in RID_LR and RID_PC.
-  |   str CARG1, [sp, #60]
-  |.if FPU
-  |  vpush {d0-d15}
-  |.endif
-  |  lsl CARG2, CARG2, #8
-  |  add CARG1, CARG1, CARG2, asr #6
-  |   ldr CARG2, [lr, #4]	// Load exit stub group offset.
-  |   sub CARG1, CARG1, lr
-  |  ldr L, [DISPATCH, #DISPATCH_GL(jit_L)]
-  |   add CARG1, CARG2, CARG1, lsr #2	// Compute exit number.
-  |    ldr BASE, [DISPATCH, #DISPATCH_GL(jit_base)]
-  |   str CARG1, [DISPATCH, #DISPATCH_J(exitno)]
-  |   mov CARG4, #0
-  |  str L, [DISPATCH, #DISPATCH_J(L)]
-  |    str BASE, L->base
-  |   str CARG4, [DISPATCH, #DISPATCH_GL(jit_L)]
-  |  sub CARG1, DISPATCH, #-GG_DISP2J
-  |  mov CARG2, sp
-  |  bl extern lj_trace_exit		// (jit_State *J, ExitState *ex)
-  |  // Returns MULTRES (unscaled) or negated error code.
-  |  ldr CARG2, L->cframe
-  |   ldr BASE, L->base
-  |  bic CARG2, CARG2, #~CFRAME_RAWMASK	// Use two steps: bic sp is deprecated.
-  |  mov sp, CARG2
-  |   ldr PC, SAVE_PC			// Get SAVE_PC.
-  |  str L, SAVE_L			// Set SAVE_L (on-trace resume/yield).
-  |  b >1
-  |.endif
-  |->vm_exit_interp:
-  |  // CARG1 = MULTRES or negated error code, BASE, PC and DISPATCH set.
-  |.if JIT
-  |  ldr L, SAVE_L
-  |1:
-  |  cmp CARG1, #0
-  |  blt >3				// Check for error from exit.
-  |   lsl RC, CARG1, #3
-  |  ldr LFUNC:CARG2, [BASE, FRAME_FUNC]
-  |   str RC, SAVE_MULTRES
-  |   mov CARG3, #0
-  |  ldr CARG2, LFUNC:CARG2->field_pc
-  |   str CARG3, [DISPATCH, #DISPATCH_GL(jit_L)]
-  |    mv_vmstate CARG4, INTERP
-  |  ldr KBASE, [CARG2, #PC2PROTO(k)]
-  |  // Modified copy of ins_next which handles function header dispatch, too.
-  |  ldrb OP, [PC]
-  |     mov MASKR8, #255
-  |   ldr INS, [PC], #4
-  |     lsl MASKR8, MASKR8, #3		// MASKR8 = 255*8.
-  |    st_vmstate CARG4
-  |  cmp OP, #BC_FUNCF			// Function header?
-  |  ldr OP, [DISPATCH, OP, lsl #2]
-  |   decode_RA8 RA, INS
-  |   lsrlo RC, INS, #16	// No: Decode operands A*8 and D.
-  |   subhs RC, RC, #8
-  |   addhs RA, RA, BASE	// Yes: RA = BASE+framesize*8, RC = nargs*8
-  |  bx OP
-  |
-  |3:  // Rethrow error from the right C frame.
-  |  rsb CARG2, CARG1, #0
-  |  mov CARG1, L
-  |  bl extern lj_err_throw		// (lua_State *L, int errcode)
-  |.endif
-  |
-  |//-----------------------------------------------------------------------
-  |//-- Math helper functions ----------------------------------------------
-  |//-----------------------------------------------------------------------
-  |
-  |// FP value rounding. Called from JIT code.
-  |//
-  |// double lj_vm_floor/ceil/trunc(double x);
-  |.macro vm_round, func, hf
-  |.if hf == 1
-  |  vmov CARG1, CARG2, d0
-  |.endif
-  |  lsl CARG3, CARG2, #1
-  |  adds RB, CARG3, #0x00200000
-  |  bpl >2				// |x| < 1?
-  |  mvn CARG4, #0x3cc
-  |  subs RB, CARG4, RB, asr #21	// 2^0: RB = 51, 2^51: RB = 0.
-  |  bxlo lr				// |x| >= 2^52: done.
-  |  mvn CARG4, #1
-  |   bic CARG3, CARG1, CARG4, lsl RB	// ztest = lo & ~lomask
-  |  and CARG1, CARG1, CARG4, lsl RB	// lo &= lomask
-  |  subs RB, RB, #32
-  |   bicpl CARG4, CARG2, CARG4, lsl RB	// |x| <= 2^20: ztest |= hi & ~himask
-  |   orrpl CARG3, CARG3, CARG4
-  |   mvnpl CARG4, #1
-  |  andpl CARG2, CARG2, CARG4, lsl RB	// |x| <= 2^20: hi &= himask
-  |.if "func" == "floor"
-  |   tst CARG3, CARG2, asr #31		// iszero = ((ztest & signmask) == 0)
-  |.else
-  |   bics CARG3, CARG3, CARG2, asr #31	// iszero = ((ztest & ~signmask) == 0)
-  |.endif
-  |.if hf == 1
-  |  vmoveq d0, CARG1, CARG2
-  |.endif
-  |  bxeq lr				// iszero: done.
-  |  mvn CARG4, #1
-  |  cmp RB, #0
-  |  lslpl CARG3, CARG4, RB
-  |  mvnmi CARG3, #0
-  |  add RB, RB, #32
-  |  subs CARG1, CARG1, CARG4, lsl RB	// lo = lo-lomask
-  |  sbc CARG2, CARG2, CARG3		// hi = hi-himask+carry
-  |.if hf == 1
-  |  vmov d0, CARG1, CARG2
-  |.endif
-  |  bx lr
-  |
-  |2:  // |x| < 1:
-  |  bxcs lr				// |x| is not finite.
-  |  orr CARG3, CARG3, CARG1		// ztest = (2*hi) | lo
-  |.if "func" == "floor"
-  |  tst CARG3, CARG2, asr #31		// iszero = ((ztest & signmask) == 0)
-  |.else
-  |  bics CARG3, CARG3, CARG2, asr #31	// iszero = ((ztest & ~signmask) == 0)
-  |.endif
-  |  mov CARG1, #0			// lo = 0
-  |  and CARG2, CARG2, #0x80000000
-  |  ldrne CARG4, <9			// hi = sign(x) | (iszero ? 0.0 : 1.0)
-  |  orrne CARG2, CARG2, CARG4
-  |.if hf == 1
-  |  vmov d0, CARG1, CARG2
-  |.endif
-  |  bx lr
-  |.endmacro
-  |
-  |9:
-  |  .long 0x3ff00000			// hiword(+1.0)
-  |
-  |->vm_floor:
-  |.if HFABI
-  |  vm_round floor, 1
-  |.endif
-  |->vm_floor_sf:
-  |  vm_round floor, 0
-  |
-  |->vm_ceil:
-  |.if HFABI
-  |  vm_round ceil, 1
-  |.endif
-  |->vm_ceil_sf:
-  |  vm_round ceil, 0
-  |
-  |.macro vm_trunc, hf
-  |.if JIT
-  |.if hf == 1
-  |  vmov CARG1, CARG2, d0
-  |.endif
-  |  lsl CARG3, CARG2, #1
-  |  adds RB, CARG3, #0x00200000
-  |  andpl CARG2, CARG2, #0x80000000	// |x| < 1? hi = sign(x), lo = 0.
-  |  movpl CARG1, #0
-  |.if hf == 1
-  |  vmovpl d0, CARG1, CARG2
-  |.endif
-  |  bxpl lr
-  |  mvn CARG4, #0x3cc
-  |  subs RB, CARG4, RB, asr #21	// 2^0: RB = 51, 2^51: RB = 0.
-  |  bxlo lr				// |x| >= 2^52: already done.
-  |  mvn CARG4, #1
-  |  and CARG1, CARG1, CARG4, lsl RB	// lo &= lomask
-  |  subs RB, RB, #32
-  |  andpl CARG2, CARG2, CARG4, lsl RB	// |x| <= 2^20: hi &= himask
-  |.if hf == 1
-  |  vmov d0, CARG1, CARG2
-  |.endif
-  |  bx lr
-  |.endif
-  |.endmacro
-  |
-  |->vm_trunc:
-  |.if HFABI
-  |  vm_trunc 1
-  |.endif
-  |->vm_trunc_sf:
-  |  vm_trunc 0
-  |
-  |  // double lj_vm_mod(double dividend, double divisor);
-  |->vm_mod:
-  |.if FPU
-  |  // Special calling convention. Also, RC (r11) is not preserved.
-  |  vdiv.f64 d0, d6, d7
-  |   mov RC, lr
-  |  vmov CARG1, CARG2, d0
-  |  bl ->vm_floor_sf
-  |  vmov d0, CARG1, CARG2
-  |  vmul.f64 d0, d0, d7
-  |   mov lr, RC
-  |  vsub.f64 d6, d6, d0
-  |  bx lr
-  |.else
-  |  push {r0, r1, r2, r3, r4, lr}
-  |  bl extern __aeabi_ddiv
-  |  bl ->vm_floor_sf
-  |  ldrd CARG34, [sp, #8]
-  |  bl extern __aeabi_dmul
-  |  ldrd CARG34, [sp]
-  |  eor CARG2, CARG2, #0x80000000
-  |  bl extern __aeabi_dadd
-  |  add sp, sp, #20
-  |  pop {pc}
-  |.endif
-  |
-  |  // int lj_vm_modi(int dividend, int divisor);
-  |->vm_modi:
-  |  ands RB, CARG1, #0x80000000
-  |  rsbmi CARG1, CARG1, #0		// a = |dividend|
-  |  eor RB, RB, CARG2, asr #1		// Keep signdiff and sign(divisor).
-  |  cmp CARG2, #0
-  |  rsbmi CARG2, CARG2, #0		// b = |divisor|
-  |  subs CARG4, CARG2, #1
-  |  cmpne CARG1, CARG2
-  |  moveq CARG1, #0			// if (b == 1 || a == b) a = 0
-  |  tsthi CARG2, CARG4
-  |  andeq CARG1, CARG1, CARG4		// else if ((b & (b-1)) == 0) a &= b-1
-  |  bls >1
-  |  // Use repeated subtraction to get the remainder.
-  |  clz CARG3, CARG1
-  |  clz CARG4, CARG2
-  |  sub CARG4, CARG4, CARG3
-  |  rsbs CARG3, CARG4, #31		// entry = (31-(clz(b)-clz(a)))*8
-  |  addne pc, pc, CARG3, lsl #3	// Duff's device.
-  |  nop
-  {
-    int i;
-    for (i = 31; i >= 0; i--) {
-      |  cmp CARG1, CARG2, lsl #i
-      |  subhs CARG1, CARG1, CARG2, lsl #i
-    }
-  }
-  |1:
-  |  cmp CARG1, #0
-  |  cmpne RB, #0
-  |  submi CARG1, CARG1, CARG2		// if (y != 0 && signdiff) y = y - b
-  |  eors CARG2, CARG1, RB, lsl #1
-  |  rsbmi CARG1, CARG1, #0		// if (sign(divisor) != sign(y)) y = -y
-  |  bx lr
-  |
-  |//-----------------------------------------------------------------------
-  |//-- Miscellaneous functions --------------------------------------------
-  |//-----------------------------------------------------------------------
-  |
-  |//-----------------------------------------------------------------------
-  |//-- FFI helper functions -----------------------------------------------
-  |//-----------------------------------------------------------------------
-  |
-  |// Handler for callback functions.
-  |// Saveregs already performed. Callback slot number in [sp], g in r12.
-  |->vm_ffi_callback:
-  |.if FFI
-  |.type CTSTATE, CTState, PC
-  |  ldr CTSTATE, GL:r12->ctype_state
-  |   add DISPATCH, r12, #GG_G2DISP
-  |.if FPU
-  |  str r4, SAVE_R4
-  |  add r4, sp, CFRAME_SPACE+4+8*8
-  |  vstmdb r4!, {d8-d15}
-  |.endif
-  |.if HFABI
-  |  add r12, CTSTATE, #offsetof(CTState, cb.fpr[8])
-  |.endif
-  |  strd CARG34, CTSTATE->cb.gpr[2]
-  |  strd CARG12, CTSTATE->cb.gpr[0]
-  |.if HFABI
-  |  vstmdb r12!, {d0-d7}
-  |.endif
-  |  ldr CARG4, [sp]
-  |   add CARG3, sp, #CFRAME_SIZE
-  |    mov CARG1, CTSTATE
-  |  lsr CARG4, CARG4, #3
-  |   str CARG3, CTSTATE->cb.stack
-  |    mov CARG2, sp
-  |  str CARG4, CTSTATE->cb.slot
-  |  str CTSTATE, SAVE_PC		// Any value outside of bytecode is ok.
-  |  bl extern lj_ccallback_enter	// (CTState *cts, void *cf)
-  |  // Returns lua_State *.
-  |  ldr BASE, L:CRET1->base
-  |    mv_vmstate CARG2, INTERP
-  |  ldr RC, L:CRET1->top
-  |    mov MASKR8, #255
-  |   ldr LFUNC:CARG3, [BASE, FRAME_FUNC]
-  |    mov L, CRET1
-  |  sub RC, RC, BASE
-  |    lsl MASKR8, MASKR8, #3		// MASKR8 = 255*8.
-  |    st_vmstate CARG2
-  |  ins_callt
-  |.endif
-  |
-  |->cont_ffi_callback:			// Return from FFI callback.
-  |.if FFI
-  |  ldr CTSTATE, [DISPATCH, #DISPATCH_GL(ctype_state)]
-  |   str BASE, L->base
-  |   str CARG4, L->top
-  |  str L, CTSTATE->L
-  |  mov CARG1, CTSTATE
-  |  mov CARG2, RA
-  |  bl extern lj_ccallback_leave	// (CTState *cts, TValue *o)
-  |  ldrd CARG12, CTSTATE->cb.gpr[0]
-  |.if HFABI
-  |  vldr d0, CTSTATE->cb.fpr[0]
-  |.endif
-  |  b ->vm_leave_unw
-  |.endif
-  |
-  |->vm_ffi_call:			// Call C function via FFI.
-  |  // Caveat: needs special frame unwinding, see below.
-  |.if FFI
-  |  .type CCSTATE, CCallState, r4
-  |  push {CCSTATE, r5, r11, lr}
-  |  mov CCSTATE, CARG1
-  |  ldr CARG1, CCSTATE:CARG1->spadj
-  |   ldrb CARG2, CCSTATE->nsp
-  |    add CARG3, CCSTATE, #offsetof(CCallState, stack)
-  |.if HFABI
-  |  add RB, CCSTATE, #offsetof(CCallState, fpr[0])
-  |.endif
-  |  mov r11, sp
-  |  sub sp, sp, CARG1			// Readjust stack.
-  |   subs CARG2, CARG2, #1
-  |.if HFABI
-  |  vldm RB, {d0-d7}
-  |.endif
-  |    ldr RB, CCSTATE->func
-  |   bmi >2
-  |1:  // Copy stack slots.
-  |  ldr CARG4, [CARG3, CARG2, lsl #2]
-  |  str CARG4, [sp, CARG2, lsl #2]
-  |  subs CARG2, CARG2, #1
-  |  bpl <1
-  |2:
-  |  ldrd CARG12, CCSTATE->gpr[0]
-  |  ldrd CARG34, CCSTATE->gpr[2]
-  |  blx RB
-  |  mov sp, r11
-  |.if HFABI
-  |  add r12, CCSTATE, #offsetof(CCallState, fpr[4])
-  |.endif
-  |  strd CRET1, CCSTATE->gpr[0]
-  |.if HFABI
-  |  vstmdb r12!, {d0-d3}
-  |.endif
-  |  pop {CCSTATE, r5, r11, pc}
-  |.endif
-  |// Note: vm_ffi_call must be the last function in this object file!
-  |
-  |//-----------------------------------------------------------------------
-}
-
-/* Generate the code for a single instruction. */
-static void build_ins(BuildCtx *ctx, BCOp op, int defop)
-{
-  int vk = 0;
-  |=>defop:
-
-  switch (op) {
-
-  /* -- Comparison ops ---------------------------------------------------- */
-
-  /* Remember: all ops branch for a true comparison, fall through otherwise. */
-
-  case BC_ISLT: case BC_ISGE: case BC_ISLE: case BC_ISGT:
-    |  // RA = src1*8, RC = src2, JMP with RC = target
-    |   lsl RC, RC, #3
-    |  ldrd CARG12, [RA, BASE]!
-    |    ldrh RB, [PC, #2]
-    |   ldrd CARG34, [RC, BASE]!
-    |    add PC, PC, #4
-    |    add RB, PC, RB, lsl #2
-    |  checktp CARG2, LJ_TISNUM
-    |  bne >3
-    |  checktp CARG4, LJ_TISNUM
-    |  bne >4
-    |  cmp CARG1, CARG3
-    if (op == BC_ISLT) {
-      |  sublt PC, RB, #0x20000
-    } else if (op == BC_ISGE) {
-      |  subge PC, RB, #0x20000
-    } else if (op == BC_ISLE) {
-      |  suble PC, RB, #0x20000
-    } else {
-      |  subgt PC, RB, #0x20000
-    }
-    |1:
-    |  ins_next
-    |
-    |3: // CARG12 is not an integer.
-    |.if FPU
-    |   vldr d0, [RA]
-    |  bhi ->vmeta_comp
-    |  // d0 is a number.
-    |  checktp CARG4, LJ_TISNUM
-    |   vldr d1, [RC]
-    |  blo >5
-    |  bhi ->vmeta_comp
-    |  // d0 is a number, CARG3 is an integer.
-    |  vmov s4, CARG3
-    |  vcvt.f64.s32 d1, s4
-    |  b >5
-    |4:  // CARG1 is an integer, CARG34 is not an integer.
-    |   vldr d1, [RC]
-    |  bhi ->vmeta_comp
-    |  // CARG1 is an integer, d1 is a number.
-    |  vmov s4, CARG1
-    |  vcvt.f64.s32 d0, s4
-    |5:  // d0 and d1 are numbers.
-    |  vcmp.f64 d0, d1
-    |  vmrs
-    |  // To preserve NaN semantics GE/GT branch on unordered, but LT/LE don't.
-    if (op == BC_ISLT) {
-      |  sublo PC, RB, #0x20000
-    } else if (op == BC_ISGE) {
-      |  subhs PC, RB, #0x20000
-    } else if (op == BC_ISLE) {
-      |  subls PC, RB, #0x20000
-    } else {
-      |  subhi PC, RB, #0x20000
-    }
-    |  b <1
-    |.else
-    |  bhi ->vmeta_comp
-    |  // CARG12 is a number.
-    |  checktp CARG4, LJ_TISNUM
-    |  movlo RA, RB			// Save RB.
-    |  blo >5
-    |  bhi ->vmeta_comp
-    |  // CARG12 is a number, CARG3 is an integer.
-    |  mov CARG1, CARG3
-    |  mov RC, RA
-    |  mov RA, RB			// Save RB.
-    |  bl extern __aeabi_i2d
-    |  mov CARG3, CARG1
-    |  mov CARG4, CARG2
-    |  ldrd CARG12, [RC]		// Restore first operand.
-    |  b >5
-    |4:  // CARG1 is an integer, CARG34 is not an integer.
-    |  bhi ->vmeta_comp
-    |  // CARG1 is an integer, CARG34 is a number.
-    |  mov RA, RB			// Save RB.
-    |  bl extern __aeabi_i2d
-    |  ldrd CARG34, [RC]		// Restore second operand.
-    |5:  // CARG12 and CARG34 are numbers.
-    |  bl extern __aeabi_cdcmple
-    |  // To preserve NaN semantics GE/GT branch on unordered, but LT/LE don't.
-    if (op == BC_ISLT) {
-      |  sublo PC, RA, #0x20000
-    } else if (op == BC_ISGE) {
-      |  subhs PC, RA, #0x20000
-    } else if (op == BC_ISLE) {
-      |  subls PC, RA, #0x20000
-    } else {
-      |  subhi PC, RA, #0x20000
-    }
-    |  b <1
-    |.endif
-    break;
-
-  case BC_ISEQV: case BC_ISNEV:
-    vk = op == BC_ISEQV;
-    |  // RA = src1*8, RC = src2, JMP with RC = target
-    |   lsl RC, RC, #3
-    |  ldrd CARG12, [RA, BASE]!
-    |    ldrh RB, [PC, #2]
-    |   ldrd CARG34, [RC, BASE]!
-    |    add PC, PC, #4
-    |    add RB, PC, RB, lsl #2
-    |  checktp CARG2, LJ_TISNUM
-    |  cmnls CARG4, #-LJ_TISNUM
-    if (vk) {
-      |  bls ->BC_ISEQN_Z
-    } else {
-      |  bls ->BC_ISNEN_Z
-    }
-    |  // Either or both types are not numbers.
-    |.if FFI
-    |  checktp CARG2, LJ_TCDATA
-    |  checktpne CARG4, LJ_TCDATA
-    |  beq ->vmeta_equal_cd
-    |.endif
-    |  cmp CARG2, CARG4			// Compare types.
-    |  bne >2				// Not the same type?
-    |  checktp CARG2, LJ_TISPRI
-    |  bhs >1				// Same type and primitive type?
-    |
-    |  // Same types and not a primitive type. Compare GCobj or pvalue.
-    |  cmp CARG1, CARG3
-    if (vk) {
-      |  bne >3				// Different GCobjs or pvalues?
-      |1:  // Branch if same.
-      |  sub PC, RB, #0x20000
-      |2:  // Different.
-      |  ins_next
-      |3:
-      |  checktp CARG2, LJ_TISTABUD
-      |  bhi <2				// Different objects and not table/ud?
-    } else {
-      |  beq >1				// Same GCobjs or pvalues?
-      |  checktp CARG2, LJ_TISTABUD
-      |  bhi >2				// Different objects and not table/ud?
-    }
-    |  // Different tables or userdatas. Need to check __eq metamethod.
-    |  // Field metatable must be at same offset for GCtab and GCudata!
-    |  ldr TAB:RA, TAB:CARG1->metatable
-    |  cmp TAB:RA, #0
-    if (vk) {
-      |  beq <2			// No metatable?
-    } else {
-      |  beq >2			// No metatable?
-    }
-    |  ldrb RA, TAB:RA->nomm
-    |   mov CARG4, #1-vk		// ne = 0 or 1.
-    |   mov CARG2, CARG1
-    |  tst RA, #1<<MM_eq
-    |  beq ->vmeta_equal		// 'no __eq' flag not set?
-    if (vk) {
-      |  b <2
-    } else {
-      |2:  // Branch if different.
-      |  sub PC, RB, #0x20000
-      |1:  // Same.
-      |  ins_next
-    }
-    break;
-
-  case BC_ISEQS: case BC_ISNES:
-    vk = op == BC_ISEQS;
-    |  // RA = src*8, RC = str_const (~), JMP with RC = target
-    |   mvn RC, RC
-    |  ldrd CARG12, [BASE, RA]
-    |    ldrh RB, [PC, #2]
-    |   ldr STR:CARG3, [KBASE, RC, lsl #2]
-    |    add PC, PC, #4
-    |    add RB, PC, RB, lsl #2
-    |  checktp CARG2, LJ_TSTR
-    |.if FFI
-    |  bne >7
-    |  cmp CARG1, CARG3
-    |.else
-    |  cmpeq CARG1, CARG3
-    |.endif
-    if (vk) {
-      |  subeq PC, RB, #0x20000
-      |1:
-    } else {
-      |1:
-      |  subne PC, RB, #0x20000
-    }
-    |  ins_next
-    |
-    |.if FFI
-    |7:
-    |  checktp CARG2, LJ_TCDATA
-    |  bne <1
-    |  b ->vmeta_equal_cd
-    |.endif
-    break;
-
-  case BC_ISEQN: case BC_ISNEN:
-    vk = op == BC_ISEQN;
-    |  // RA = src*8, RC = num_const (~), JMP with RC = target
-    |   lsl RC, RC, #3
-    |  ldrd CARG12, [RA, BASE]!
-    |    ldrh RB, [PC, #2]
-    |   ldrd CARG34, [RC, KBASE]!
-    |    add PC, PC, #4
-    |    add RB, PC, RB, lsl #2
-    if (vk) {
-      |->BC_ISEQN_Z:
-    } else {
-      |->BC_ISNEN_Z:
-    }
-    |  checktp CARG2, LJ_TISNUM
-    |  bne >3
-    |  checktp CARG4, LJ_TISNUM
-    |  bne >4
-    |  cmp CARG1, CARG3
-    if (vk) {
-      |  subeq PC, RB, #0x20000
-      |1:
-    } else {
-      |1:
-      |  subne PC, RB, #0x20000
-    }
-    |2:
-    |  ins_next
-    |
-    |3:  // CARG12 is not an integer.
-    |.if FFI
-    |  bhi >7
-    |.else
-    if (!vk) {
-      |  subhi PC, RB, #0x20000
-    }
-    |  bhi <2
-    |.endif
-    |.if FPU
-    |  checktp CARG4, LJ_TISNUM
-    |  vmov s4, CARG3
-    |   vldr d0, [RA]
-    |  vldrlo d1, [RC]
-    |  vcvths.f64.s32 d1, s4
-    |  b >5
-    |4:  // CARG1 is an integer, d1 is a number.
-    |  vmov s4, CARG1
-    |   vldr d1, [RC]
-    |  vcvt.f64.s32 d0, s4
-    |5:  // d0 and d1 are numbers.
-    |  vcmp.f64 d0, d1
-    |  vmrs
-    if (vk) {
-      |  subeq PC, RB, #0x20000
-    } else {
-      |  subne PC, RB, #0x20000
-    }
-    |  b <2
-    |.else
-    |  // CARG12 is a number.
-    |  checktp CARG4, LJ_TISNUM
-    |  movlo RA, RB			// Save RB.
-    |  blo >5
-    |  // CARG12 is a number, CARG3 is an integer.
-    |  mov CARG1, CARG3
-    |  mov RC, RA
-    |4:  // CARG1 is an integer, CARG34 is a number.
-    |  mov RA, RB			// Save RB.
-    |  bl extern __aeabi_i2d
-    |  ldrd CARG34, [RC]		// Restore other operand.
-    |5:  // CARG12 and CARG34 are numbers.
-    |  bl extern __aeabi_cdcmpeq
-    if (vk) {
-      |  subeq PC, RA, #0x20000
-    } else {
-      |  subne PC, RA, #0x20000
-    }
-    |  b <2
-    |.endif
-    |
-    |.if FFI
-    |7:
-    |  checktp CARG2, LJ_TCDATA
-    |  bne <1
-    |  b ->vmeta_equal_cd
-    |.endif
-    break;
-
-  case BC_ISEQP: case BC_ISNEP:
-    vk = op == BC_ISEQP;
-    |  // RA = src*8, RC = primitive_type (~), JMP with RC = target
-    |  ldrd CARG12, [BASE, RA]
-    |   ldrh RB, [PC, #2]
-    |   add PC, PC, #4
-    |  mvn RC, RC
-    |   add RB, PC, RB, lsl #2
-    |.if FFI
-    |  checktp CARG2, LJ_TCDATA
-    |  beq ->vmeta_equal_cd
-    |.endif
-    |  cmp CARG2, RC
-    if (vk) {
-      |  subeq PC, RB, #0x20000
-    } else {
-      |  subne PC, RB, #0x20000
-    }
-    |  ins_next
-    break;
-
-  /* -- Unary test and copy ops ------------------------------------------- */
-
-  case BC_ISTC: case BC_ISFC: case BC_IST: case BC_ISF:
-    |  // RA = dst*8 or unused, RC = src, JMP with RC = target
-    |  add RC, BASE, RC, lsl #3
-    |   ldrh RB, [PC, #2]
-    |  ldrd CARG12, [RC]
-    |   add PC, PC, #4
-    |   add RB, PC, RB, lsl #2
-    |  checktp CARG2, LJ_TTRUE
-    if (op == BC_ISTC || op == BC_IST) {
-      |  subls PC, RB, #0x20000
-      if (op == BC_ISTC) {
-	|  strdls CARG12, [BASE, RA]
-      }
-    } else {
-      |  subhi PC, RB, #0x20000
-      if (op == BC_ISFC) {
-	|  strdhi CARG12, [BASE, RA]
-      }
-    }
-    |  ins_next
-    break;
-
-  /* -- Unary ops --------------------------------------------------------- */
-
-  case BC_MOV:
-    |  // RA = dst*8, RC = src
-    |  lsl RC, RC, #3
-    |   ins_next1
-    |  ldrd CARG12, [BASE, RC]
-    |   ins_next2
-    |  strd CARG12, [BASE, RA]
-    |   ins_next3
-    break;
-  case BC_NOT:
-    |  // RA = dst*8, RC = src
-    |  add RC, BASE, RC, lsl #3
-    |   ins_next1
-    |  ldr CARG1, [RC, #4]
-    |   add RA, BASE, RA
-    |   ins_next2
-    |  checktp CARG1, LJ_TTRUE
-    |  mvnls CARG2, #~LJ_TFALSE
-    |  mvnhi CARG2, #~LJ_TTRUE
-    |  str CARG2, [RA, #4]
-    |   ins_next3
-    break;
-  case BC_UNM:
-    |  // RA = dst*8, RC = src
-    |  lsl RC, RC, #3
-    |  ldrd CARG12, [BASE, RC]
-    |   ins_next1
-    |   ins_next2
-    |  checktp CARG2, LJ_TISNUM
-    |  bhi ->vmeta_unm
-    |  eorne CARG2, CARG2, #0x80000000
-    |  bne >5
-    |  rsbseq CARG1, CARG1, #0
-    |  ldrdvs CARG12, >9
-    |5:
-    |  strd CARG12, [BASE, RA]
-    |   ins_next3
-    |
-    |.align 8
-    |9:
-    |  .long 0x00000000, 0x41e00000	// 2^31.
-    break;
-  case BC_LEN:
-    |  // RA = dst*8, RC = src
-    |  lsl RC, RC, #3
-    |  ldrd CARG12, [BASE, RC]
-    |  checkstr CARG2, >2
-    |  ldr CARG1, STR:CARG1->len
-    |1:
-    |  mvn CARG2, #~LJ_TISNUM
-    |   ins_next1
-    |   ins_next2
-    |  strd CARG12, [BASE, RA]
-    |   ins_next3
-    |2:
-    |  checktab CARG2, ->vmeta_len
-#if LJ_52
-    |  ldr TAB:CARG3, TAB:CARG1->metatable
-    |  cmp TAB:CARG3, #0
-    |  bne >9
-    |3:
-#endif
-    |->BC_LEN_Z:
-    |  .IOS mov RC, BASE
-    |  bl extern lj_tab_len		// (GCtab *t)
-    |  // Returns uint32_t (but less than 2^31).
-    |  .IOS mov BASE, RC
-    |  b <1
-#if LJ_52
-    |9:
-    |  ldrb CARG4, TAB:CARG3->nomm
-    |  tst CARG4, #1<<MM_len
-    |  bne <3				// 'no __len' flag set: done.
-    |  b ->vmeta_len
-#endif
-    break;
-
-  /* -- Binary ops -------------------------------------------------------- */
-
-    |.macro ins_arithcheck, cond, ncond, target
-    ||if (vk == 1) {
-    |   cmn CARG4, #-LJ_TISNUM
-    |    cmn..cond CARG2, #-LJ_TISNUM
-    ||} else {
-    |   cmn CARG2, #-LJ_TISNUM
-    |    cmn..cond CARG4, #-LJ_TISNUM
-    ||}
-    |  b..ncond target
-    |.endmacro
-    |.macro ins_arithcheck_int, target
-    |  ins_arithcheck eq, ne, target
-    |.endmacro
-    |.macro ins_arithcheck_num, target
-    |  ins_arithcheck lo, hs, target
-    |.endmacro
-    |
-    |.macro ins_arithpre
-    |  decode_RB8 RB, INS
-    |   decode_RC8 RC, INS
-    |  // RA = dst*8, RB = src1*8, RC = src2*8 | num_const*8
-    ||vk = ((int)op - BC_ADDVN) / (BC_ADDNV-BC_ADDVN);
-    ||switch (vk) {
-    ||case 0:
-    |   .if FPU
-    |   ldrd CARG12, [RB, BASE]!
-    |    ldrd CARG34, [RC, KBASE]!
-    |   .else
-    |   ldrd CARG12, [BASE, RB]
-    |    ldrd CARG34, [KBASE, RC]
-    |   .endif
-    ||  break;
-    ||case 1:
-    |   .if FPU
-    |   ldrd CARG34, [RB, BASE]!
-    |    ldrd CARG12, [RC, KBASE]!
-    |   .else
-    |   ldrd CARG34, [BASE, RB]
-    |    ldrd CARG12, [KBASE, RC]
-    |   .endif
-    ||  break;
-    ||default:
-    |   .if FPU
-    |   ldrd CARG12, [RB, BASE]!
-    |    ldrd CARG34, [RC, BASE]!
-    |   .else
-    |   ldrd CARG12, [BASE, RB]
-    |    ldrd CARG34, [BASE, RC]
-    |   .endif
-    ||  break;
-    ||}
-    |.endmacro
-    |
-    |.macro ins_arithpre_fpu, reg1, reg2
-    |.if FPU
-    ||if (vk == 1) {
-    |  vldr reg2, [RB]
-    |  vldr reg1, [RC]
-    ||} else {
-    |  vldr reg1, [RB]
-    |  vldr reg2, [RC]
-    ||}
-    |.endif
-    |.endmacro
-    |
-    |.macro ins_arithpost_fpu, reg
-    |   ins_next1
-    |  add RA, BASE, RA
-    |   ins_next2
-    |  vstr reg, [RA]
-    |   ins_next3
-    |.endmacro
-    |
-    |.macro ins_arithfallback, ins
-    ||switch (vk) {
-    ||case 0:
-    |   ins ->vmeta_arith_vn
-    ||  break;
-    ||case 1:
-    |   ins ->vmeta_arith_nv
-    ||  break;
-    ||default:
-    |   ins ->vmeta_arith_vv
-    ||  break;
-    ||}
-    |.endmacro
-    |
-    |.macro ins_arithdn, intins, fpins, fpcall
-    |  ins_arithpre
-    |.if "intins" ~= "vm_modi" and not FPU
-    |   ins_next1
-    |.endif
-    |  ins_arithcheck_int >5
-    |.if "intins" == "smull"
-    |  smull CARG1, RC, CARG3, CARG1
-    |  cmp RC, CARG1, asr #31
-    |  ins_arithfallback bne
-    |.elif "intins" == "vm_modi"
-    |  movs CARG2, CARG3
-    |  ins_arithfallback beq
-    |  bl ->vm_modi
-    |  mvn CARG2, #~LJ_TISNUM
-    |.else
-    |  intins CARG1, CARG1, CARG3
-    |  ins_arithfallback bvs
-    |.endif
-    |4:
-    |.if "intins" == "vm_modi" or FPU
-    |   ins_next1
-    |.endif
-    |   ins_next2
-    |  strd CARG12, [BASE, RA]
-    |   ins_next3
-    |5:  // FP variant.
-    |  ins_arithpre_fpu d6, d7
-    |  ins_arithfallback ins_arithcheck_num
-    |.if FPU
-    |.if "intins" == "vm_modi"
-    |  bl fpcall
-    |.else
-    |  fpins d6, d6, d7
-    |.endif
-    |  ins_arithpost_fpu d6
-    |.else
-    |  bl fpcall
-    |.if "intins" ~= "vm_modi"
-    |  ins_next1
-    |.endif
-    |  b <4
-    |.endif
-    |.endmacro
-    |
-    |.macro ins_arithfp, fpins, fpcall
-    |  ins_arithpre
-    |.if "fpins" ~= "extern" or HFABI
-    |  ins_arithpre_fpu d0, d1
-    |.endif
-    |  ins_arithfallback ins_arithcheck_num
-    |.if "fpins" == "extern"
-    |  .IOS mov RC, BASE
-    |  bl fpcall
-    |  .IOS mov BASE, RC
-    |.elif FPU
-    |  fpins d0, d0, d1
-    |.else
-    |  bl fpcall
-    |.endif
-    |.if ("fpins" ~= "extern" or HFABI) and FPU
-    |  ins_arithpost_fpu d0
-    |.else
-    |   ins_next1
-    |   ins_next2
-    |  strd CARG12, [BASE, RA]
-    |   ins_next3
-    |.endif
-    |.endmacro
-
-  case BC_ADDVN: case BC_ADDNV: case BC_ADDVV:
-    |  ins_arithdn adds, vadd.f64, extern __aeabi_dadd
-    break;
-  case BC_SUBVN: case BC_SUBNV: case BC_SUBVV:
-    |  ins_arithdn subs, vsub.f64, extern __aeabi_dsub
-    break;
-  case BC_MULVN: case BC_MULNV: case BC_MULVV:
-    |  ins_arithdn smull, vmul.f64, extern __aeabi_dmul
-    break;
-  case BC_DIVVN: case BC_DIVNV: case BC_DIVVV:
-    |  ins_arithfp vdiv.f64, extern __aeabi_ddiv
-    break;
-  case BC_MODVN: case BC_MODNV: case BC_MODVV:
-    |  ins_arithdn vm_modi, vm_mod, ->vm_mod
-    break;
-  case BC_POW:
-    |  // NYI: (partial) integer arithmetic.
-    |  ins_arithfp extern, extern pow
-    break;
-
-  case BC_CAT:
-    |  decode_RB8 RC, INS
-    |   decode_RC8 RB, INS
-    |  // RA = dst*8, RC = src_start*8, RB = src_end*8  (note: RB/RC swapped!)
-    |  sub CARG3, RB, RC
-    |   str BASE, L->base
-    |  add CARG2, BASE, RB
-    |->BC_CAT_Z:
-    |  // RA = dst*8, RC = src_start*8, CARG2 = top-1
-    |  mov CARG1, L
-    |   str PC, SAVE_PC
-    |  lsr CARG3, CARG3, #3
-    |  bl extern lj_meta_cat		// (lua_State *L, TValue *top, int left)
-    |  // Returns NULL (finished) or TValue * (metamethod).
-    |  ldr BASE, L->base
-    |  cmp CRET1, #0
-    |  bne ->vmeta_binop
-    |  ldrd CARG34, [BASE, RC]
-    |   ins_next1
-    |   ins_next2
-    |  strd CARG34, [BASE, RA]		// Copy result to RA.
-    |   ins_next3
-    break;
-
-  /* -- Constant ops ------------------------------------------------------ */
-
-  case BC_KSTR:
-    |  // RA = dst*8, RC = str_const (~)
-    |  mvn RC, RC
-    |   ins_next1
-    |  ldr CARG1, [KBASE, RC, lsl #2]
-    |  mvn CARG2, #~LJ_TSTR
-    |   ins_next2
-    |  strd CARG12, [BASE, RA]
-    |   ins_next3
-    break;
-  case BC_KCDATA:
-    |.if FFI
-    |  // RA = dst*8, RC = cdata_const (~)
-    |  mvn RC, RC
-    |   ins_next1
-    |  ldr CARG1, [KBASE, RC, lsl #2]
-    |  mvn CARG2, #~LJ_TCDATA
-    |   ins_next2
-    |  strd CARG12, [BASE, RA]
-    |   ins_next3
-    |.endif
-    break;
-  case BC_KSHORT:
-    |  // RA = dst*8, (RC = int16_literal)
-    |  mov CARG1, INS, asr #16			// Refetch sign-extended reg.
-    |  mvn CARG2, #~LJ_TISNUM
-    |   ins_next1
-    |   ins_next2
-    |  strd CARG12, [BASE, RA]
-    |   ins_next3
-    break;
-  case BC_KNUM:
-    |  // RA = dst*8, RC = num_const
-    |  lsl RC, RC, #3
-    |   ins_next1
-    |  ldrd CARG12, [KBASE, RC]
-    |   ins_next2
-    |  strd CARG12, [BASE, RA]
-    |   ins_next3
-    break;
-  case BC_KPRI:
-    |  // RA = dst*8, RC = primitive_type (~)
-    |  add RA, BASE, RA
-    |  mvn RC, RC
-    |   ins_next1
-    |   ins_next2
-    |  str RC, [RA, #4]
-    |   ins_next3
-    break;
-  case BC_KNIL:
-    |  // RA = base*8, RC = end
-    |  add RA, BASE, RA
-    |   add RC, BASE, RC, lsl #3
-    |  mvn CARG1, #~LJ_TNIL
-    |  str CARG1, [RA, #4]
-    |   add RA, RA, #8
-    |1:
-    |  str CARG1, [RA, #4]
-    |  cmp RA, RC
-    |   add RA, RA, #8
-    |  blt <1
-    |  ins_next_
-    break;
-
-  /* -- Upvalue and function ops ------------------------------------------ */
-
-  case BC_UGET:
-    |  // RA = dst*8, RC = uvnum
-    |  ldr LFUNC:CARG2, [BASE, FRAME_FUNC]
-    |   lsl RC, RC, #2
-    |   add RC, RC, #offsetof(GCfuncL, uvptr)
-    |  ldr UPVAL:CARG2, [LFUNC:CARG2, RC]
-    |  ldr CARG2, UPVAL:CARG2->v
-    |  ldrd CARG34, [CARG2]
-    |   ins_next1
-    |   ins_next2
-    |  strd CARG34, [BASE, RA]
-    |   ins_next3
-    break;
-  case BC_USETV:
-    |  // RA = uvnum*8, RC = src
-    |  ldr LFUNC:CARG2, [BASE, FRAME_FUNC]
-    |   lsr RA, RA, #1
-    |   add RA, RA, #offsetof(GCfuncL, uvptr)
-    |    lsl RC, RC, #3
-    |  ldr UPVAL:CARG2, [LFUNC:CARG2, RA]
-    |    ldrd CARG34, [BASE, RC]
-    |  ldrb RB, UPVAL:CARG2->marked
-    |  ldrb RC, UPVAL:CARG2->closed
-    |    ldr CARG2, UPVAL:CARG2->v
-    |  tst RB, #LJ_GC_BLACK		// isblack(uv)
-    |   add RB, CARG4, #-LJ_TISGCV
-    |  cmpne RC, #0
-    |   strd CARG34, [CARG2]
-    |  bne >2				// Upvalue is closed and black?
-    |1:
-    |   ins_next
-    |
-    |2:  // Check if new value is collectable.
-    |  cmn RB, #-(LJ_TNUMX - LJ_TISGCV)
-    |   ldrbhi RC, GCOBJ:CARG3->gch.marked
-    |  bls <1				// tvisgcv(v)
-    |    sub CARG1, DISPATCH, #-GG_DISP2G
-    |   tst RC, #LJ_GC_WHITES
-    |  // Crossed a write barrier. Move the barrier forward.
-    |.if IOS
-    |  beq <1
-    |  mov RC, BASE
-    |  bl extern lj_gc_barrieruv	// (global_State *g, TValue *tv)
-    |  mov BASE, RC
-    |.else
-    |  blne extern lj_gc_barrieruv	// (global_State *g, TValue *tv)
-    |.endif
-    |  b <1
-    break;
-  case BC_USETS:
-    |  // RA = uvnum*8, RC = str_const (~)
-    |  ldr LFUNC:CARG2, [BASE, FRAME_FUNC]
-    |   lsr RA, RA, #1
-    |   add RA, RA, #offsetof(GCfuncL, uvptr)
-    |    mvn RC, RC
-    |  ldr UPVAL:CARG2, [LFUNC:CARG2, RA]
-    |    ldr STR:CARG3, [KBASE, RC, lsl #2]
-    |    mvn CARG4, #~LJ_TSTR
-    |  ldrb RB, UPVAL:CARG2->marked
-    |   ldr CARG2, UPVAL:CARG2->v
-    |     ldrb RC, UPVAL:CARG2->closed
-    |  tst RB, #LJ_GC_BLACK		// isblack(uv)
-    |    ldrb RB, STR:CARG3->marked
-    |   strd CARG34, [CARG2]
-    |  bne >2
-    |1:
-    |   ins_next
-    |
-    |2:  // Check if string is white and ensure upvalue is closed.
-    |  tst RB, #LJ_GC_WHITES		// iswhite(str)
-    |  cmpne RC, #0
-    |   sub CARG1, DISPATCH, #-GG_DISP2G
-    |  // Crossed a write barrier. Move the barrier forward.
-    |.if IOS
-    |  beq <1
-    |  mov RC, BASE
-    |  bl extern lj_gc_barrieruv	// (global_State *g, TValue *tv)
-    |  mov BASE, RC
-    |.else
-    |  blne extern lj_gc_barrieruv	// (global_State *g, TValue *tv)
-    |.endif
-    |  b <1
-    break;
-  case BC_USETN:
-    |  // RA = uvnum*8, RC = num_const
-    |  ldr LFUNC:CARG2, [BASE, FRAME_FUNC]
-    |   lsr RA, RA, #1
-    |   add RA, RA, #offsetof(GCfuncL, uvptr)
-    |    lsl RC, RC, #3
-    |  ldr UPVAL:CARG2, [LFUNC:CARG2, RA]
-    |    ldrd CARG34, [KBASE, RC]
-    |  ldr CARG2, UPVAL:CARG2->v
-    |   ins_next1
-    |   ins_next2
-    |  strd CARG34, [CARG2]
-    |   ins_next3
-    break;
-  case BC_USETP:
-    |  // RA = uvnum*8, RC = primitive_type (~)
-    |  ldr LFUNC:CARG2, [BASE, FRAME_FUNC]
-    |   lsr RA, RA, #1
-    |   add RA, RA, #offsetof(GCfuncL, uvptr)
-    |  ldr UPVAL:CARG2, [LFUNC:CARG2, RA]
-    |   mvn RC, RC
-    |  ldr CARG2, UPVAL:CARG2->v
-    |   ins_next1
-    |   ins_next2
-    |  str RC, [CARG2, #4]
-    |   ins_next3
-    break;
-
-  case BC_UCLO:
-    |  // RA = level*8, RC = target
-    |  ldr CARG3, L->openupval
-    |   add RC, PC, RC, lsl #2
-    |   str BASE, L->base
-    |  cmp CARG3, #0
-    |   sub PC, RC, #0x20000
-    |  beq >1
-    |   mov CARG1, L
-    |   add CARG2, BASE, RA
-    |  bl extern lj_func_closeuv	// (lua_State *L, TValue *level)
-    |  ldr BASE, L->base
-    |1:
-    |  ins_next
-    break;
-
-  case BC_FNEW:
-    |  // RA = dst*8, RC = proto_const (~) (holding function prototype)
-    |  mvn RC, RC
-    |   str BASE, L->base
-    |  ldr CARG2, [KBASE, RC, lsl #2]
-    |   str PC, SAVE_PC
-    |  ldr CARG3, [BASE, FRAME_FUNC]
-    |   mov CARG1, L
-    |  // (lua_State *L, GCproto *pt, GCfuncL *parent)
-    |  bl extern lj_func_newL_gc
-    |  // Returns GCfuncL *.
-    |  ldr BASE, L->base
-    |  mvn CARG2, #~LJ_TFUNC
-    |   ins_next1
-    |   ins_next2
-    |  strd CARG12, [BASE, RA]
-    |   ins_next3
-    break;
-
-  /* -- Table ops --------------------------------------------------------- */
-
-  case BC_TNEW:
-  case BC_TDUP:
-    |  // RA = dst*8, RC = (hbits|asize) | tab_const (~)
-    if (op == BC_TDUP) {
-      |  mvn RC, RC
-    }
-    |  ldr CARG3, [DISPATCH, #DISPATCH_GL(gc.total)]
-    |   ldr CARG4, [DISPATCH, #DISPATCH_GL(gc.threshold)]
-    |    str BASE, L->base
-    |    str PC, SAVE_PC
-    |  cmp CARG3, CARG4
-    |   mov CARG1, L
-    |  bhs >5
-    |1:
-    if (op == BC_TNEW) {
-      |  lsl CARG2, RC, #21
-      |   lsr CARG3, RC, #11
-      |  asr RC, CARG2, #21
-      |  lsr CARG2, CARG2, #21
-      |  cmn RC, #1
-      |  addeq CARG2, CARG2, #2
-      |  bl extern lj_tab_new  // (lua_State *L, int32_t asize, uint32_t hbits)
-      |  // Returns GCtab *.
-    } else {
-      |  ldr CARG2, [KBASE, RC, lsl #2]
-      |  bl extern lj_tab_dup  // (lua_State *L, Table *kt)
-      |  // Returns GCtab *.
-    }
-    |  ldr BASE, L->base
-    |  mvn CARG2, #~LJ_TTAB
-    |   ins_next1
-    |   ins_next2
-    |  strd CARG12, [BASE, RA]
-    |   ins_next3
-    |5:
-    |  bl extern lj_gc_step_fixtop  // (lua_State *L)
-    |  mov CARG1, L
-    |  b <1
-    break;
-
-  case BC_GGET:
-    |  // RA = dst*8, RC = str_const (~)
-  case BC_GSET:
-    |  // RA = dst*8, RC = str_const (~)
-    |  ldr LFUNC:CARG2, [BASE, FRAME_FUNC]
-    |   mvn RC, RC
-    |  ldr TAB:CARG1, LFUNC:CARG2->env
-    |   ldr STR:RC, [KBASE, RC, lsl #2]
-    if (op == BC_GGET) {
-      |  b ->BC_TGETS_Z
-    } else {
-      |  b ->BC_TSETS_Z
-    }
-    break;
-
-  case BC_TGETV:
-    |  decode_RB8 RB, INS
-    |   decode_RC8 RC, INS
-    |  // RA = dst*8, RB = table*8, RC = key*8
-    |  ldrd TAB:CARG12, [BASE, RB]
-    |   ldrd CARG34, [BASE, RC]
-    |  checktab CARG2, ->vmeta_tgetv  // STALL: load CARG12.
-    |   checktp CARG4, LJ_TISNUM	// Integer key?
-    |  ldreq CARG4, TAB:CARG1->array
-    |    ldreq CARG2, TAB:CARG1->asize
-    |   bne >9
-    |
-    |  add CARG4, CARG4, CARG3, lsl #3
-    |    cmp CARG3, CARG2		// In array part?
-    |  ldrdlo CARG34, [CARG4]
-    |    bhs ->vmeta_tgetv
-    |   ins_next1  // Overwrites RB!
-    |  checktp CARG4, LJ_TNIL
-    |  beq >5
-    |1:
-    |   ins_next2
-    |  strd CARG34, [BASE, RA]
-    |   ins_next3
-    |
-    |5:  // Check for __index if table value is nil.
-    |  ldr TAB:CARG2, TAB:CARG1->metatable
-    |  cmp TAB:CARG2, #0
-    |  beq <1				// No metatable: done.
-    |  ldrb CARG2, TAB:CARG2->nomm
-    |  tst CARG2, #1<<MM_index
-    |  bne <1				// 'no __index' flag set: done.
-    |  decode_RB8 RB, INS		// Restore RB.
-    |  b ->vmeta_tgetv
-    |
-    |9:
-    |  checktp CARG4, LJ_TSTR		// String key?
-    |   moveq STR:RC, CARG3
-    |  beq ->BC_TGETS_Z
-    |  b ->vmeta_tgetv
-    break;
-  case BC_TGETS:
-    |  decode_RB8 RB, INS
-    |   and RC, RC, #255
-    |  // RA = dst*8, RB = table*8, RC = str_const (~)
-    |  ldrd CARG12, [BASE, RB]
-    |   mvn RC, RC
-    |   ldr STR:RC, [KBASE, RC, lsl #2]  // STALL: early RC.
-    |  checktab CARG2, ->vmeta_tgets1
-    |->BC_TGETS_Z:
-    |  // (TAB:RB =) TAB:CARG1 = GCtab *, STR:RC = GCstr *, RA = dst*8
-    |  ldr CARG3, TAB:CARG1->hmask
-    |   ldr CARG4, STR:RC->hash
-    |    ldr NODE:INS, TAB:CARG1->node
-    |     mov TAB:RB, TAB:CARG1
-    |  and CARG3, CARG3, CARG4			// idx = str->hash & tab->hmask
-    |  add CARG3, CARG3, CARG3, lsl #1
-    |    add NODE:INS, NODE:INS, CARG3, lsl #3	// node = tab->node + idx*3*8
-    |1:
-    |  ldrd CARG12, NODE:INS->key  // STALL: early NODE:INS.
-    |   ldrd CARG34, NODE:INS->val
-    |    ldr NODE:INS, NODE:INS->next
-    |  checktp CARG2, LJ_TSTR
-    |  cmpeq CARG1, STR:RC
-    |  bne >4
-    |   checktp CARG4, LJ_TNIL
-    |   beq >5
-    |3:
-    |   ins_next1
-    |   ins_next2
-    |  strd CARG34, [BASE, RA]
-    |   ins_next3
-    |
-    |4:  // Follow hash chain.
-    |  cmp NODE:INS, #0
-    |  bne <1
-    |  // End of hash chain: key not found, nil result.
-    |
-    |5:  // Check for __index if table value is nil.
-    |  ldr TAB:CARG1, TAB:RB->metatable
-    |   mov CARG3, #0  // Optional clear of undef. value (during load stall).
-    |   mvn CARG4, #~LJ_TNIL
-    |  cmp TAB:CARG1, #0
-    |  beq <3				// No metatable: done.
-    |  ldrb CARG2, TAB:CARG1->nomm
-    |  tst CARG2, #1<<MM_index
-    |  bne <3				// 'no __index' flag set: done.
-    |  b ->vmeta_tgets
-    break;
-  case BC_TGETB:
-    |  decode_RB8 RB, INS
-    |   and RC, RC, #255
-    |  // RA = dst*8, RB = table*8, RC = index
-    |  ldrd CARG12, [BASE, RB]
-    |  checktab CARG2, ->vmeta_tgetb  // STALL: load CARG12.
-    |   ldr CARG3, TAB:CARG1->asize
-    |  ldr CARG4, TAB:CARG1->array
-    |  lsl CARG2, RC, #3
-    |   cmp RC, CARG3
-    |  ldrdlo CARG34, [CARG4, CARG2]
-    |   bhs ->vmeta_tgetb
-    |   ins_next1  // Overwrites RB!
-    |  checktp CARG4, LJ_TNIL
-    |  beq >5
-    |1:
-    |   ins_next2
-    |  strd CARG34, [BASE, RA]
-    |   ins_next3
-    |
-    |5:  // Check for __index if table value is nil.
-    |  ldr TAB:CARG2, TAB:CARG1->metatable
-    |  cmp TAB:CARG2, #0
-    |  beq <1				// No metatable: done.
-    |  ldrb CARG2, TAB:CARG2->nomm
-    |  tst CARG2, #1<<MM_index
-    |  bne <1				// 'no __index' flag set: done.
-    |  b ->vmeta_tgetb
-    break;
-
-  case BC_TSETV:
-    |  decode_RB8 RB, INS
-    |   decode_RC8 RC, INS
-    |  // RA = src*8, RB = table*8, RC = key*8
-    |  ldrd TAB:CARG12, [BASE, RB]
-    |   ldrd CARG34, [BASE, RC]
-    |  checktab CARG2, ->vmeta_tsetv  // STALL: load CARG12.
-    |   checktp CARG4, LJ_TISNUM	// Integer key?
-    |  ldreq CARG2, TAB:CARG1->array
-    |    ldreq CARG4, TAB:CARG1->asize
-    |   bne >9
-    |
-    |  add CARG2, CARG2, CARG3, lsl #3
-    |    cmp CARG3, CARG4		// In array part?
-    |  ldrlo INS, [CARG2, #4]
-    |    bhs ->vmeta_tsetv
-    |   ins_next1  // Overwrites RB!
-    |  checktp INS, LJ_TNIL
-    |  ldrb INS, TAB:CARG1->marked
-    |   ldrd CARG34, [BASE, RA]
-    |  beq >5
-    |1:
-    |  tst INS, #LJ_GC_BLACK		// isblack(table)
-    |   strd CARG34, [CARG2]
-    |  bne >7
-    |2:
-    |   ins_next2
-    |   ins_next3
-    |
-    |5:  // Check for __newindex if previous value is nil.
-    |  ldr TAB:RA, TAB:CARG1->metatable
-    |  cmp TAB:RA, #0
-    |  beq <1				// No metatable: done.
-    |  ldrb RA, TAB:RA->nomm
-    |  tst RA, #1<<MM_newindex
-    |  bne <1				// 'no __newindex' flag set: done.
-    |  ldr INS, [PC, #-4]		// Restore RA and RB.
-    |  decode_RB8 RB, INS
-    |  decode_RA8 RA, INS
-    |  b ->vmeta_tsetv
-    |
-    |7:  // Possible table write barrier for the value. Skip valiswhite check.
-    |  barrierback TAB:CARG1, INS, CARG3
-    |  b <2
-    |
-    |9:
-    |  checktp CARG4, LJ_TSTR		// String key?
-    |   moveq STR:RC, CARG3
-    |  beq ->BC_TSETS_Z
-    |  b ->vmeta_tsetv
-    break;
-  case BC_TSETS:
-    |  decode_RB8 RB, INS
-    |   and RC, RC, #255
-    |  // RA = src*8, RB = table*8, RC = str_const (~)
-    |  ldrd CARG12, [BASE, RB]
-    |   mvn RC, RC
-    |   ldr STR:RC, [KBASE, RC, lsl #2]  // STALL: early RC.
-    |  checktab CARG2, ->vmeta_tsets1
-    |->BC_TSETS_Z:
-    |  // (TAB:RB =) TAB:CARG1 = GCtab *, STR:RC = GCstr *, RA = dst*8
-    |  ldr CARG3, TAB:CARG1->hmask
-    |   ldr CARG4, STR:RC->hash
-    |    ldr NODE:INS, TAB:CARG1->node
-    |     mov TAB:RB, TAB:CARG1
-    |  and CARG3, CARG3, CARG4			// idx = str->hash & tab->hmask
-    |  add CARG3, CARG3, CARG3, lsl #1
-    |   mov CARG4, #0
-    |    add NODE:INS, NODE:INS, CARG3, lsl #3	// node = tab->node + idx*3*8
-    |   strb CARG4, TAB:RB->nomm		// Clear metamethod cache.
-    |1:
-    |  ldrd CARG12, NODE:INS->key
-    |   ldr CARG4, NODE:INS->val.it
-    |    ldr NODE:CARG3, NODE:INS->next
-    |  checktp CARG2, LJ_TSTR
-    |  cmpeq CARG1, STR:RC
-    |  bne >5
-    |  ldrb CARG2, TAB:RB->marked
-    |   checktp CARG4, LJ_TNIL		// Key found, but nil value?
-    |    ldrd CARG34, [BASE, RA]
-    |   beq >4
-    |2:
-    |  tst CARG2, #LJ_GC_BLACK		// isblack(table)
-    |    strd CARG34, NODE:INS->val
-    |  bne >7
-    |3:
-    |   ins_next
-    |
-    |4:  // Check for __newindex if previous value is nil.
-    |  ldr TAB:CARG1, TAB:RB->metatable
-    |  cmp TAB:CARG1, #0
-    |  beq <2				// No metatable: done.
-    |  ldrb CARG1, TAB:CARG1->nomm
-    |  tst CARG1, #1<<MM_newindex
-    |  bne <2				// 'no __newindex' flag set: done.
-    |  b ->vmeta_tsets
-    |
-    |5:  // Follow hash chain.
-    |  movs NODE:INS, NODE:CARG3
-    |  bne <1
-    |  // End of hash chain: key not found, add a new one.
-    |
-    |  // But check for __newindex first.
-    |  ldr TAB:CARG1, TAB:RB->metatable
-    |   mov CARG3, TMPDp
-    |   str PC, SAVE_PC
-    |  cmp TAB:CARG1, #0		// No metatable: continue.
-    |   str BASE, L->base
-    |  ldrbne CARG2, TAB:CARG1->nomm
-    |   mov CARG1, L
-    |  beq >6
-    |  tst CARG2, #1<<MM_newindex
-    |  beq ->vmeta_tsets		// 'no __newindex' flag NOT set: check.
-    |6:
-    |  mvn CARG4, #~LJ_TSTR
-    |   str STR:RC, TMPDlo
-    |   mov CARG2, TAB:RB
-    |  str CARG4, TMPDhi
-    |  bl extern lj_tab_newkey		// (lua_State *L, GCtab *t, TValue *k)
-    |  // Returns TValue *.
-    |  ldr BASE, L->base
-    |  ldrd CARG34, [BASE, RA]
-    |  strd CARG34, [CRET1]
-    |  b <3				// No 2nd write barrier needed.
-    |
-    |7:  // Possible table write barrier for the value. Skip valiswhite check.
-    |  barrierback TAB:RB, CARG2, CARG3
-    |  b <3
-    break;
-  case BC_TSETB:
-    |  decode_RB8 RB, INS
-    |   and RC, RC, #255
-    |  // RA = src*8, RB = table*8, RC = index
-    |  ldrd CARG12, [BASE, RB]
-    |  checktab CARG2, ->vmeta_tsetb  // STALL: load CARG12.
-    |   ldr CARG3, TAB:CARG1->asize
-    |  ldr RB, TAB:CARG1->array
-    |  lsl CARG2, RC, #3
-    |   cmp RC, CARG3
-    |  ldrdlo CARG34, [CARG2, RB]!
-    |   bhs ->vmeta_tsetb
-    |   ins_next1  // Overwrites RB!
-    |  checktp CARG4, LJ_TNIL
-    |  ldrb INS, TAB:CARG1->marked
-    |   ldrd CARG34, [BASE, RA]
-    |  beq >5
-    |1:
-    |  tst INS, #LJ_GC_BLACK		// isblack(table)
-    |    strd CARG34, [CARG2]
-    |  bne >7
-    |2:
-    |   ins_next2
-    |   ins_next3
-    |
-    |5:  // Check for __newindex if previous value is nil.
-    |  ldr TAB:RA, TAB:CARG1->metatable
-    |  cmp TAB:RA, #0
-    |  beq <1				// No metatable: done.
-    |  ldrb RA, TAB:RA->nomm
-    |  tst RA, #1<<MM_newindex
-    |  bne <1				// 'no __newindex' flag set: done.
-    |  ldr INS, [PC, #-4]		// Restore INS.
-    |  decode_RA8 RA, INS
-    |  b ->vmeta_tsetb
-    |
-    |7:  // Possible table write barrier for the value. Skip valiswhite check.
-    |  barrierback TAB:CARG1, INS, CARG3
-    |  b <2
-    break;
-
-  case BC_TSETM:
-    |  // RA = base*8 (table at base-1), RC = num_const (start index)
-    |  add RA, BASE, RA
-    |1:
-    |   ldr RB, SAVE_MULTRES
-    |  ldr TAB:CARG2, [RA, #-8]		// Guaranteed to be a table.
-    |  ldr CARG1, [KBASE, RC, lsl #3]	// Integer constant is in lo-word.
-    |   subs RB, RB, #8
-    |  ldr CARG4, TAB:CARG2->asize
-    |   beq >4				// Nothing to copy?
-    |  add CARG3, CARG1, RB, lsr #3
-    |  cmp CARG3, CARG4
-    |   ldr CARG4, TAB:CARG2->array
-    |    add RB, RA, RB
-    |  bhi >5
-    |   add INS, CARG4, CARG1, lsl #3
-    |    ldrb CARG1, TAB:CARG2->marked
-    |3:  // Copy result slots to table.
-    |   ldrd CARG34, [RA], #8
-    |   strd CARG34, [INS], #8
-    |  cmp RA, RB
-    |  blo <3
-    |    tst CARG1, #LJ_GC_BLACK	// isblack(table)
-    |    bne >7
-    |4:
-    |  ins_next
-    |
-    |5:  // Need to resize array part.
-    |   str BASE, L->base
-    |  mov CARG1, L
-    |   str PC, SAVE_PC
-    |  bl extern lj_tab_reasize		// (lua_State *L, GCtab *t, int nasize)
-    |  // Must not reallocate the stack.
-    |  .IOS ldr BASE, L->base
-    |  b <1
-    |
-    |7:  // Possible table write barrier for any value. Skip valiswhite check.
-    |  barrierback TAB:CARG2, CARG1, CARG3
-    |  b <4
-    break;
-
-  /* -- Calls and vararg handling ----------------------------------------- */
-
-  case BC_CALLM:
-    |  // RA = base*8, (RB = nresults+1,) RC = extra_nargs
-    |  ldr CARG1, SAVE_MULTRES
-    |  decode_RC8 NARGS8:RC, INS
-    |  add NARGS8:RC, NARGS8:RC, CARG1
-    |  b ->BC_CALL_Z
-    break;
-  case BC_CALL:
-    |  decode_RC8 NARGS8:RC, INS
-    |  // RA = base*8, (RB = nresults+1,) RC = (nargs+1)*8
-    |->BC_CALL_Z:
-    |  mov RB, BASE			// Save old BASE for vmeta_call.
-    |  ldrd CARG34, [BASE, RA]!
-    |   sub NARGS8:RC, NARGS8:RC, #8
-    |   add BASE, BASE, #8
-    |  checkfunc CARG4, ->vmeta_call
-    |  ins_call
-    break;
-
-  case BC_CALLMT:
-    |  // RA = base*8, (RB = 0,) RC = extra_nargs
-    |  ldr CARG1, SAVE_MULTRES
-    |  add NARGS8:RC, CARG1, RC, lsl #3
-    |  b ->BC_CALLT1_Z
-    break;
-  case BC_CALLT:
-    |  lsl NARGS8:RC, RC, #3
-    |  // RA = base*8, (RB = 0,) RC = (nargs+1)*8
-    |->BC_CALLT1_Z:
-    |  ldrd LFUNC:CARG34, [RA, BASE]!
-    |   sub NARGS8:RC, NARGS8:RC, #8
-    |   add RA, RA, #8
-    |  checkfunc CARG4, ->vmeta_callt
-    |  ldr PC, [BASE, FRAME_PC]
-    |->BC_CALLT2_Z:
-    |   mov RB, #0
-    |   ldrb CARG4, LFUNC:CARG3->ffid
-    |  tst PC, #FRAME_TYPE
-    |  bne >7
-    |1:
-    |  str LFUNC:CARG3, [BASE, FRAME_FUNC]  // Copy function down, but keep PC.
-    |  cmp NARGS8:RC, #0
-    |  beq >3
-    |2:
-    |  ldrd CARG12, [RA, RB]
-    |   add INS, RB, #8
-    |   cmp INS, NARGS8:RC
-    |  strd CARG12, [BASE, RB]
-    |    mov RB, INS
-    |   bne <2
-    |3:
-    |  cmp CARG4, #1			// (> FF_C) Calling a fast function?
-    |  bhi >5
-    |4:
-    |  ins_callt
-    |
-    |5:  // Tailcall to a fast function with a Lua frame below.
-    |  ldr INS, [PC, #-4]
-    |  decode_RA8 RA, INS
-    |  sub CARG1, BASE, RA
-    |  ldr LFUNC:CARG1, [CARG1, #-16]
-    |  ldr CARG1, LFUNC:CARG1->field_pc
-    |  ldr KBASE, [CARG1, #PC2PROTO(k)]
-    |  b <4
-    |
-    |7:  // Tailcall from a vararg function.
-    |  eor PC, PC, #FRAME_VARG
-    |  tst PC, #FRAME_TYPEP		// Vararg frame below?
-    |  movne CARG4, #0			// Clear ffid if no Lua function below.
-    |  bne <1
-    |  sub BASE, BASE, PC
-    |  ldr PC, [BASE, FRAME_PC]
-    |  tst PC, #FRAME_TYPE
-    |  movne CARG4, #0			// Clear ffid if no Lua function below.
-    |  b <1
-    break;
-
-  case BC_ITERC:
-    |  // RA = base*8, (RB = nresults+1, RC = nargs+1 (2+1))
-    |  add RA, BASE, RA
-    |   mov RB, BASE			// Save old BASE for vmeta_call.
-    |  ldrd CARG34, [RA, #-16]
-    |   ldrd CARG12, [RA, #-8]
-    |    add BASE, RA, #8
-    |  strd CARG34, [RA, #8]		// Copy state.
-    |   strd CARG12, [RA, #16]		// Copy control var.
-    |  // STALL: locked CARG34.
-    |  ldrd LFUNC:CARG34, [RA, #-24]
-    |    mov NARGS8:RC, #16		// Iterators get 2 arguments.
-    |  // STALL: load CARG34.
-    |  strd LFUNC:CARG34, [RA]		// Copy callable.
-    |  checkfunc CARG4, ->vmeta_call
-    |  ins_call
-    break;
-
-  case BC_ITERN:
-    |  // RA = base*8, (RB = nresults+1, RC = nargs+1 (2+1))
-    |.if JIT
-    |  // NYI: add hotloop, record BC_ITERN.
-    |.endif
-    |  add RA, BASE, RA
-    |  ldr TAB:RB, [RA, #-16]
-    |  ldr CARG1, [RA, #-8]		// Get index from control var.
-    |  ldr INS, TAB:RB->asize
-    |   ldr CARG2, TAB:RB->array
-    |    add PC, PC, #4
-    |1:  // Traverse array part.
-    |  subs RC, CARG1, INS
-    |   add CARG3, CARG2, CARG1, lsl #3
-    |  bhs >5				// Index points after array part?
-    |   ldrd CARG34, [CARG3]
-    |   checktp CARG4, LJ_TNIL
-    |   addeq CARG1, CARG1, #1		// Skip holes in array part.
-    |   beq <1
-    |  ldrh RC, [PC, #-2]
-    |   mvn CARG2, #~LJ_TISNUM
-    |    strd CARG34, [RA, #8]
-    |  add RC, PC, RC, lsl #2
-    |    add RB, CARG1, #1
-    |   strd CARG12, [RA]
-    |  sub PC, RC, #0x20000
-    |    str RB, [RA, #-8]		// Update control var.
-    |3:
-    |  ins_next
-    |
-    |5:  // Traverse hash part.
-    |  ldr CARG4, TAB:RB->hmask
-    |   ldr NODE:RB, TAB:RB->node
-    |6:
-    |   add CARG1, RC, RC, lsl #1
-    |  cmp RC, CARG4			// End of iteration? Branch to ITERL+1.
-    |   add NODE:CARG3, NODE:RB, CARG1, lsl #3  // node = tab->node + idx*3*8
-    |  bhi <3
-    |   ldrd CARG12, NODE:CARG3->val
-    |   checktp CARG2, LJ_TNIL
-    |   add RC, RC, #1
-    |   beq <6				// Skip holes in hash part.
-    |  ldrh RB, [PC, #-2]
-    |   add RC, RC, INS
-    |    ldrd CARG34, NODE:CARG3->key
-    |   str RC, [RA, #-8]		// Update control var.
-    |   strd CARG12, [RA, #8]
-    |  add RC, PC, RB, lsl #2
-    |  sub PC, RC, #0x20000
-    |    strd CARG34, [RA]
-    |  b <3
-    break;
-
-  case BC_ISNEXT:
-    |  // RA = base*8, RC = target (points to ITERN)
-    |  add RA, BASE, RA
-    |     add RC, PC, RC, lsl #2
-    |  ldrd CFUNC:CARG12, [RA, #-24]
-    |   ldr CARG3, [RA, #-12]
-    |    ldr CARG4, [RA, #-4]
-    |  checktp CARG2, LJ_TFUNC
-    |  ldrbeq CARG1, CFUNC:CARG1->ffid
-    |   checktpeq CARG3, LJ_TTAB
-    |    checktpeq CARG4, LJ_TNIL
-    |  cmpeq CARG1, #FF_next_N
-    |     subeq PC, RC, #0x20000
-    |  bne >5
-    |   ins_next1
-    |   ins_next2
-    |  mov CARG1, #0
-    |  mvn CARG2, #0x00018000
-    |  strd CARG1, [RA, #-8]		// Initialize control var.
-    |1:
-    |   ins_next3
-    |5:  // Despecialize bytecode if any of the checks fail.
-    |  mov CARG1, #BC_JMP
-    |   mov OP, #BC_ITERC
-    |  strb CARG1, [PC, #-4]
-    |   sub PC, RC, #0x20000
-    |   strb OP, [PC]			// Subsumes ins_next1.
-    |   ins_next2
-    |  b <1
-    break;
-
-  case BC_VARG:
-    |  decode_RB8 RB, INS
-    |   decode_RC8 RC, INS
-    |  // RA = base*8, RB = (nresults+1)*8, RC = numparams*8
-    |  ldr CARG1, [BASE, FRAME_PC]
-    |  add RC, BASE, RC
-    |   add RA, BASE, RA
-    |  add RC, RC, #FRAME_VARG
-    |   add CARG4, RA, RB
-    |  sub CARG3, BASE, #8		// CARG3 = vtop
-    |  sub RC, RC, CARG1		// RC = vbase
-    |  // Note: RC may now be even _above_ BASE if nargs was < numparams.
-    |  cmp RB, #0
-    |   sub CARG1, CARG3, RC
-    |  beq >5				// Copy all varargs?
-    |   sub CARG4, CARG4, #16
-    |1:  // Copy vararg slots to destination slots.
-    |  cmp RC, CARG3
-    |  ldrdlo CARG12, [RC], #8
-    |  mvnhs CARG2, #~LJ_TNIL
-    |   cmp RA, CARG4
-    |  strd CARG12, [RA], #8
-    |   blo <1
-    |2:
-    |  ins_next
-    |
-    |5:  // Copy all varargs.
-    |  ldr CARG4, L->maxstack
-    |   cmp CARG1, #0
-    |   movle RB, #8			// MULTRES = (0+1)*8
-    |   addgt RB, CARG1, #8
-    |  add CARG2, RA, CARG1
-    |   str RB, SAVE_MULTRES
-    |   ble <2
-    |  cmp CARG2, CARG4
-    |  bhi >7
-    |6:
-    |   ldrd CARG12, [RC], #8
-    |   strd CARG12, [RA], #8
-    |  cmp RC, CARG3
-    |  blo <6
-    |  b <2
-    |
-    |7:  // Grow stack for varargs.
-    |  lsr CARG2, CARG1, #3
-    |   str RA, L->top
-    |  mov CARG1, L
-    |   str BASE, L->base
-    |  sub RC, RC, BASE			// Need delta, because BASE may change.
-    |   str PC, SAVE_PC
-    |  sub RA, RA, BASE
-    |  bl extern lj_state_growstack	// (lua_State *L, int n)
-    |  ldr BASE, L->base
-    |  add RA, BASE, RA
-    |  add RC, BASE, RC
-    |  sub CARG3, BASE, #8
-    |  b <6
-    break;
-
-  /* -- Returns ----------------------------------------------------------- */
-
-  case BC_RETM:
-    |  // RA = results*8, RC = extra results
-    |  ldr CARG1, SAVE_MULTRES
-    |   ldr PC, [BASE, FRAME_PC]
-    |    add RA, BASE, RA
-    |  add RC, CARG1, RC, lsl #3
-    |  b ->BC_RETM_Z
-    break;
-
-  case BC_RET:
-    |  // RA = results*8, RC = nresults+1
-    |  ldr PC, [BASE, FRAME_PC]
-    |   lsl RC, RC, #3
-    |    add RA, BASE, RA
-    |->BC_RETM_Z:
-    |   str RC, SAVE_MULTRES
-    |1:
-    |  ands CARG1, PC, #FRAME_TYPE
-    |   eor CARG2, PC, #FRAME_VARG
-    |  bne ->BC_RETV2_Z
-    |
-    |->BC_RET_Z:
-    |  // BASE = base, RA = resultptr, RC = (nresults+1)*8, PC = return
-    |  ldr INS, [PC, #-4]
-    |  subs CARG4, RC, #8
-    |   sub CARG3, BASE, #8
-    |  beq >3
-    |2:
-    |  ldrd CARG12, [RA], #8
-    |   add BASE, BASE, #8
-    |   subs CARG4, CARG4, #8
-    |  strd CARG12, [BASE, #-16]
-    |   bne <2
-    |3:
-    |  decode_RA8 RA, INS
-    |  sub CARG4, CARG3, RA
-    |   decode_RB8 RB, INS
-    |  ldr LFUNC:CARG1, [CARG4, FRAME_FUNC]
-    |5:
-    |  cmp RB, RC			// More results expected?
-    |  bhi >6
-    |  mov BASE, CARG4
-    |  ldr CARG2, LFUNC:CARG1->field_pc
-    |   ins_next1
-    |   ins_next2
-    |  ldr KBASE, [CARG2, #PC2PROTO(k)]
-    |   ins_next3
-    |
-    |6:  // Fill up results with nil.
-    |  mvn CARG2, #~LJ_TNIL
-    |  add BASE, BASE, #8
-    |   add RC, RC, #8
-    |  str CARG2, [BASE, #-12]
-    |  b <5
-    |
-    |->BC_RETV1_Z:  // Non-standard return case.
-    |  add RA, BASE, RA
-    |->BC_RETV2_Z:
-    |  tst CARG2, #FRAME_TYPEP
-    |  bne ->vm_return
-    |  // Return from vararg function: relocate BASE down.
-    |  sub BASE, BASE, CARG2
-    |  ldr PC, [BASE, FRAME_PC]
-    |  b <1
-    break;
-
-  case BC_RET0: case BC_RET1:
-    |  // RA = results*8, RC = nresults+1
-    |  ldr PC, [BASE, FRAME_PC]
-    |   lsl RC, RC, #3
-    |   str RC, SAVE_MULTRES
-    |  ands CARG1, PC, #FRAME_TYPE
-    |   eor CARG2, PC, #FRAME_VARG
-    |   ldreq INS, [PC, #-4]
-    |  bne ->BC_RETV1_Z
-    if (op == BC_RET1) {
-      |  ldrd CARG12, [BASE, RA]
-    }
-    |  sub CARG4, BASE, #8
-    |   decode_RA8 RA, INS
-    if (op == BC_RET1) {
-      |  strd CARG12, [CARG4]
-    }
-    |  sub BASE, CARG4, RA
-    |   decode_RB8 RB, INS
-    |  ldr LFUNC:CARG1, [BASE, FRAME_FUNC]
-    |5:
-    |  cmp RB, RC
-    |  bhi >6
-    |  ldr CARG2, LFUNC:CARG1->field_pc
-    |   ins_next1
-    |   ins_next2
-    |  ldr KBASE, [CARG2, #PC2PROTO(k)]
-    |   ins_next3
-    |
-    |6:  // Fill up results with nil.
-    |  sub CARG2, CARG4, #4
-    |  mvn CARG3, #~LJ_TNIL
-    |  str CARG3, [CARG2, RC]
-    |  add RC, RC, #8
-    |  b <5
-    break;
-
-  /* -- Loops and branches ------------------------------------------------ */
-
-  |.define FOR_IDX,  [RA];      .define FOR_TIDX,  [RA, #4]
-  |.define FOR_STOP, [RA, #8];  .define FOR_TSTOP, [RA, #12]
-  |.define FOR_STEP, [RA, #16]; .define FOR_TSTEP, [RA, #20]
-  |.define FOR_EXT,  [RA, #24]; .define FOR_TEXT,  [RA, #28]
-
-  case BC_FORL:
-    |.if JIT
-    |  hotloop
-    |.endif
-    |  // Fall through. Assumes BC_IFORL follows.
-    break;
-
-  case BC_JFORI:
-  case BC_JFORL:
-#if !LJ_HASJIT
-    break;
-#endif
-  case BC_FORI:
-  case BC_IFORL:
-    |  // RA = base*8, RC = target (after end of loop or start of loop)
-    vk = (op == BC_IFORL || op == BC_JFORL);
-    |  ldrd CARG12, [RA, BASE]!
-    if (op != BC_JFORL) {
-      |   add RC, PC, RC, lsl #2
-    }
-    if (!vk) {
-      |  ldrd CARG34, FOR_STOP
-      |   checktp CARG2, LJ_TISNUM
-      |  ldr RB, FOR_TSTEP
-      |   bne >5
-      |  checktp CARG4, LJ_TISNUM
-      |   ldr CARG4, FOR_STEP
-      |  checktpeq RB, LJ_TISNUM
-      |  bne ->vmeta_for
-      |  cmp CARG4, #0
-      |  blt >4
-      |  cmp CARG1, CARG3
-    } else {
-      |  ldrd CARG34, FOR_STEP
-      |   checktp CARG2, LJ_TISNUM
-      |   bne >5
-      |  adds CARG1, CARG1, CARG3
-      |   ldr CARG4, FOR_STOP
-      if (op == BC_IFORL) {
-	|  addvs RC, PC, #0x20000		// Overflow: prevent branch.
-      } else {
-	|  bvs >2				// Overflow: do not enter mcode.
-      }
-      |  cmp CARG3, #0
-      |  blt >4
-      |  cmp CARG1, CARG4
-    }
-    |1:
-    if (op == BC_FORI) {
-      |  subgt PC, RC, #0x20000
-    } else if (op == BC_JFORI) {
-      |  sub PC, RC, #0x20000
-      |  ldrhle RC, [PC, #-2]
-    } else if (op == BC_IFORL) {
-      |  suble PC, RC, #0x20000
-    }
-    if (vk) {
-      |  strd CARG12, FOR_IDX
-    }
-    |2:
-    |   ins_next1
-    |   ins_next2
-    |  strd CARG12, FOR_EXT
-    if (op == BC_JFORI || op == BC_JFORL) {
-      |  ble =>BC_JLOOP
-    }
-    |3:
-    |   ins_next3
-    |
-    |4:  // Invert check for negative step.
-    if (!vk) {
-      |  cmp CARG3, CARG1
-    } else {
-      |  cmp CARG4, CARG1
-    }
-    |  b <1
-    |
-    |5:  // FP loop.
-    if (!vk) {
-      |  cmnlo CARG4, #-LJ_TISNUM
-      |  cmnlo RB, #-LJ_TISNUM
-      |  bhs ->vmeta_for
-      |.if FPU
-      |  vldr d0, FOR_IDX
-      |  vldr d1, FOR_STOP
-      |  cmp RB, #0
-      |  vstr d0, FOR_EXT
-      |.else
-      |  cmp RB, #0
-      |   strd CARG12, FOR_EXT
-      |  blt >8
-      |.endif
-    } else {
-      |.if FPU
-      |  vldr d0, FOR_IDX
-      |  vldr d2, FOR_STEP
-      |  vldr d1, FOR_STOP
-      |  cmp CARG4, #0
-      |  vadd.f64 d0, d0, d2
-      |.else
-      |  cmp CARG4, #0
-      |  blt >8
-      |  bl extern __aeabi_dadd
-      |   strd CARG12, FOR_IDX
-      |  ldrd CARG34, FOR_STOP
-      |   strd CARG12, FOR_EXT
-      |.endif
-    }
-    |6:
-    |.if FPU
-    |  vcmpge.f64 d0, d1
-    |  vcmplt.f64 d1, d0
-    |  vmrs
-    |.else
-    |  bl extern __aeabi_cdcmple
-    |.endif
-    if (vk) {
-      |.if FPU
-      |  vstr d0, FOR_IDX
-      |  vstr d0, FOR_EXT
-      |.endif
-    }
-    if (op == BC_FORI) {
-      |  subhi PC, RC, #0x20000
-    } else if (op == BC_JFORI) {
-      |  sub PC, RC, #0x20000
-      |  ldrhls RC, [PC, #-2]
-      |  bls =>BC_JLOOP
-    } else if (op == BC_IFORL) {
-      |  subls PC, RC, #0x20000
-    } else {
-      |  bls =>BC_JLOOP
-    }
-    |  ins_next1
-    |  ins_next2
-    |  b <3
-    |
-    |.if not FPU
-    |8:  // Invert check for negative step.
-    if (vk) {
-      |  bl extern __aeabi_dadd
-      |  strd CARG12, FOR_IDX
-      |  strd CARG12, FOR_EXT
-    }
-    |  mov CARG3, CARG1
-    |  mov CARG4, CARG2
-    |  ldrd CARG12, FOR_STOP
-    |  b <6
-    |.endif
-    break;
-
-  case BC_ITERL:
-    |.if JIT
-    |  hotloop
-    |.endif
-    |  // Fall through. Assumes BC_IITERL follows.
-    break;
-
-  case BC_JITERL:
-#if !LJ_HASJIT
-    break;
-#endif
-  case BC_IITERL:
-    |  // RA = base*8, RC = target
-    |  ldrd CARG12, [RA, BASE]!
-    if (op == BC_JITERL) {
-      |  cmn CARG2, #-LJ_TNIL		// Stop if iterator returned nil.
-      |  strdne CARG12, [RA, #-8]
-      |  bne =>BC_JLOOP
-    } else {
-      |   add RC, PC, RC, lsl #2
-      |  // STALL: load CARG12.
-      |  cmn CARG2, #-LJ_TNIL		// Stop if iterator returned nil.
-      |  subne PC, RC, #0x20000		// Otherwise save control var + branch.
-      |  strdne CARG12, [RA, #-8]
-    }
-    |  ins_next
-    break;
-
-  case BC_LOOP:
-    |  // RA = base*8, RC = target (loop extent)
-    |  // Note: RA/RC is only used by trace recorder to determine scope/extent
-    |  // This opcode does NOT jump, it's only purpose is to detect a hot loop.
-    |.if JIT
-    |  hotloop
-    |.endif
-    |  // Fall through. Assumes BC_ILOOP follows.
-    break;
-
-  case BC_ILOOP:
-    |  // RA = base*8, RC = target (loop extent)
-    |  ins_next
-    break;
-
-  case BC_JLOOP:
-    |.if JIT
-    |  // RA = base (ignored), RC = traceno
-    |  ldr CARG1, [DISPATCH, #DISPATCH_J(trace)]
-    |   mov CARG2, #0  // Traces on ARM don't store the trace number, so use 0.
-    |  ldr TRACE:RC, [CARG1, RC, lsl #2]
-    |   st_vmstate CARG2
-    |  ldr RA, TRACE:RC->mcode
-    |   str BASE, [DISPATCH, #DISPATCH_GL(jit_base)]
-    |   str L, [DISPATCH, #DISPATCH_GL(jit_L)]
-    |  bx RA
-    |.endif
-    break;
-
-  case BC_JMP:
-    |  // RA = base*8 (only used by trace recorder), RC = target
-    |  add RC, PC, RC, lsl #2
-    |  sub PC, RC, #0x20000
-    |  ins_next
-    break;
-
-  /* -- Function headers -------------------------------------------------- */
-
-  case BC_FUNCF:
-    |.if JIT
-    |  hotcall
-    |.endif
-  case BC_FUNCV:  /* NYI: compiled vararg functions. */
-    |  // Fall through. Assumes BC_IFUNCF/BC_IFUNCV follow.
-    break;
-
-  case BC_JFUNCF:
-#if !LJ_HASJIT
-    break;
-#endif
-  case BC_IFUNCF:
-    |  // BASE = new base, RA = BASE+framesize*8, CARG3 = LFUNC, RC = nargs*8
-    |  ldr CARG1, L->maxstack
-    |   ldrb CARG2, [PC, #-4+PC2PROTO(numparams)]
-    |    ldr KBASE, [PC, #-4+PC2PROTO(k)]
-    |  cmp RA, CARG1
-    |  bhi ->vm_growstack_l
-    if (op != BC_JFUNCF) {
-      |  ins_next1
-      |  ins_next2
-    }
-    |2:
-    |  cmp NARGS8:RC, CARG2, lsl #3	// Check for missing parameters.
-    |   mvn CARG4, #~LJ_TNIL
-    |  blo >3
-    if (op == BC_JFUNCF) {
-      |  decode_RD RC, INS
-      |  b =>BC_JLOOP
-    } else {
-      |  ins_next3
-    }
-    |
-    |3:  // Clear missing parameters.
-    |  strd CARG34, [BASE, NARGS8:RC]
-    |  add NARGS8:RC, NARGS8:RC, #8
-    |  b <2
-    break;
-
-  case BC_JFUNCV:
-#if !LJ_HASJIT
-    break;
-#endif
-    |  NYI  // NYI: compiled vararg functions
-    break;  /* NYI: compiled vararg functions. */
-
-  case BC_IFUNCV:
-    |  // BASE = new base, RA = BASE+framesize*8, CARG3 = LFUNC, RC = nargs*8
-    |  ldr CARG1, L->maxstack
-    |   add CARG4, BASE, RC
-    |  add RA, RA, RC
-    |   str LFUNC:CARG3, [CARG4]	// Store copy of LFUNC.
-    |   add CARG2, RC, #8+FRAME_VARG
-    |    ldr KBASE, [PC, #-4+PC2PROTO(k)]
-    |  cmp RA, CARG1
-    |   str CARG2, [CARG4, #4]		// Store delta + FRAME_VARG.
-    |  bhs ->vm_growstack_l
-    |  ldrb RB, [PC, #-4+PC2PROTO(numparams)]
-    |   mov RA, BASE
-    |   mov RC, CARG4
-    |  cmp RB, #0
-    |   add BASE, CARG4, #8
-    |  beq >3
-    |  mvn CARG3, #~LJ_TNIL
-    |1:
-    |  cmp RA, RC			// Less args than parameters?
-    |   ldrdlo CARG12, [RA], #8
-    |   movhs CARG2, CARG3
-    |    strlo CARG3, [RA, #-4]		// Clear old fixarg slot (help the GC).
-    |2:
-    |  subs RB, RB, #1
-    |   strd CARG12, [CARG4, #8]!
-    |  bne <1
-    |3:
-    |  ins_next
-    break;
-
-  case BC_FUNCC:
-  case BC_FUNCCW:
-    |  // BASE = new base, RA = BASE+framesize*8, CARG3 = CFUNC, RC = nargs*8
-    if (op == BC_FUNCC) {
-      |  ldr CARG4, CFUNC:CARG3->f
-    } else {
-      |  ldr CARG4, [DISPATCH, #DISPATCH_GL(wrapf)]
-    }
-    |   add CARG2, RA, NARGS8:RC
-    |   ldr CARG1, L->maxstack
-    |  add RC, BASE, NARGS8:RC
-    |    str BASE, L->base
-    |   cmp CARG2, CARG1
-    |  str RC, L->top
-    if (op == BC_FUNCCW) {
-      |  ldr CARG2, CFUNC:CARG3->f
-    }
-    |    mv_vmstate CARG3, C
-    |  mov CARG1, L
-    |   bhi ->vm_growstack_c		// Need to grow stack.
-    |    st_vmstate CARG3
-    |  blx CARG4			// (lua_State *L [, lua_CFunction f])
-    |  // Returns nresults.
-    |  ldr BASE, L->base
-    |    mv_vmstate CARG3, INTERP
-    |   ldr CRET2, L->top
-    |   lsl RC, CRET1, #3
-    |    st_vmstate CARG3
-    |  ldr PC, [BASE, FRAME_PC]
-    |   sub RA, CRET2, RC		// RA = L->top - nresults*8
-    |  b ->vm_returnc
-    break;
-
-  /* ---------------------------------------------------------------------- */
-
-  default:
-    fprintf(stderr, "Error: undefined opcode BC_%s\n", bc_names[op]);
-    exit(2);
-    break;
-  }
-}
-
-static int build_backend(BuildCtx *ctx)
-{
-  int op;
-
-  dasm_growpc(Dst, BC__MAX);
-
-  build_subroutines(ctx);
-
-  |.code_op
-  for (op = 0; op < BC__MAX; op++)
-    build_ins(ctx, (BCOp)op, op);
-
-  return BC__MAX;
-}
-
-/* Emit pseudo frame-info for all assembler functions. */
-static void emit_asm_debug(BuildCtx *ctx)
-{
-  int fcofs = (int)((uint8_t *)ctx->glob[GLOB_vm_ffi_call] - ctx->code);
-  int i;
-  switch (ctx->mode) {
-  case BUILD_elfasm:
-    fprintf(ctx->fp, "\t.section .debug_frame,\"\",%%progbits\n");
-    fprintf(ctx->fp,
-	".Lframe0:\n"
-	"\t.long .LECIE0-.LSCIE0\n"
-	".LSCIE0:\n"
-	"\t.long 0xffffffff\n"
-	"\t.byte 0x1\n"
-	"\t.string \"\"\n"
-	"\t.uleb128 0x1\n"
-	"\t.sleb128 -4\n"
-	"\t.byte 0xe\n"				/* Return address is in lr. */
-	"\t.byte 0xc\n\t.uleb128 0xd\n\t.uleb128 0\n"	/* def_cfa sp */
-	"\t.align 2\n"
-	".LECIE0:\n\n");
-    fprintf(ctx->fp,
-	".LSFDE0:\n"
-	"\t.long .LEFDE0-.LASFDE0\n"
-	".LASFDE0:\n"
-	"\t.long .Lframe0\n"
-	"\t.long .Lbegin\n"
-	"\t.long %d\n"
-	"\t.byte 0xe\n\t.uleb128 %d\n"		/* def_cfa_offset */
-	"\t.byte 0x8e\n\t.uleb128 1\n",		/* offset lr */
-	fcofs, CFRAME_SIZE);
-    for (i = 11; i >= (LJ_ARCH_HASFPU ? 5 : 4); i--)  /* offset r4-r11 */
-      fprintf(ctx->fp, "\t.byte %d\n\t.uleb128 %d\n", 0x80+i, 2+(11-i));
-#if LJ_ARCH_HASFPU
-    for (i = 15; i >= 8; i--)  /* offset d8-d15 */
-      fprintf(ctx->fp, "\t.byte 5\n\t.uleb128 %d, %d\n",
-	64+2*i, 10+2*(15-i));
-    fprintf(ctx->fp, "\t.byte 0x84\n\t.uleb128 %d\n", 25);  /* offset r4 */
-#endif
-    fprintf(ctx->fp,
-	"\t.align 2\n"
-	".LEFDE0:\n\n");
-#if LJ_HASFFI
-    fprintf(ctx->fp,
-	".LSFDE1:\n"
-	"\t.long .LEFDE1-.LASFDE1\n"
-	".LASFDE1:\n"
-	"\t.long .Lframe0\n"
-	"\t.long lj_vm_ffi_call\n"
-	"\t.long %d\n"
-	"\t.byte 0xe\n\t.uleb128 16\n"		/* def_cfa_offset */
-	"\t.byte 0x8e\n\t.uleb128 1\n"		/* offset lr */
-	"\t.byte 0x8b\n\t.uleb128 2\n"		/* offset r11 */
-	"\t.byte 0x85\n\t.uleb128 3\n"		/* offset r5 */
-	"\t.byte 0x84\n\t.uleb128 4\n"		/* offset r4 */
-	"\t.byte 0xd\n\t.uleb128 0xb\n"		/* def_cfa_register r11 */
-	"\t.align 2\n"
-	".LEFDE1:\n\n", (int)ctx->codesz - fcofs);
-#endif
-    break;
-  default:
-    break;
-  }
-}
-
diff --git a/luajit-2.0/src/vm_mips.dasc b/luajit-2.0/src/vm_mips.dasc
deleted file mode 100644
index 0ec13e6..0000000
--- a/luajit-2.0/src/vm_mips.dasc
+++ /dev/null
@@ -1,4241 +0,0 @@
-|// Low-level VM code for MIPS CPUs.
-|// Bytecode interpreter, fast functions and helper functions.
-|// Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-|
-|.arch mips
-|.section code_op, code_sub
-|
-|.actionlist build_actionlist
-|.globals GLOB_
-|.globalnames globnames
-|.externnames extnames
-|
-|// Note: The ragged indentation of the instructions is intentional.
-|//       The starting columns indicate data dependencies.
-|
-|//-----------------------------------------------------------------------
-|
-|// Fixed register assignments for the interpreter.
-|// Don't use: r0 = 0, r26/r27 = reserved, r28 = gp, r29 = sp, r31 = ra
-|
-|// The following must be C callee-save (but BASE is often refetched).
-|.define BASE,		r16	// Base of current Lua stack frame.
-|.define KBASE,		r17	// Constants of current Lua function.
-|.define PC,		r18	// Next PC.
-|.define DISPATCH,	r19	// Opcode dispatch table.
-|.define LREG,		r20	// Register holding lua_State (also in SAVE_L).
-|.define MULTRES,	r21	// Size of multi-result: (nresults+1)*8.
-|// NYI: r22 currently unused.
-|
-|.define JGL,		r30	// On-trace: global_State + 32768.
-|
-|// Constants for type-comparisons, stores and conversions. C callee-save.
-|.define TISNIL,	r30
-|.define TOBIT,		f30	// 2^52 + 2^51.
-|
-|// The following temporaries are not saved across C calls, except for RA.
-|.define RA,		r23	// Callee-save.
-|.define RB,		r8
-|.define RC,		r9
-|.define RD,		r10
-|.define INS,		r11
-|
-|.define AT,		r1	// Assembler temporary.
-|.define TMP0,		r12
-|.define TMP1,		r13
-|.define TMP2,		r14
-|.define TMP3,		r15
-|
-|// Calling conventions.
-|.define CFUNCADDR,	r25
-|.define CARG1,		r4
-|.define CARG2,		r5
-|.define CARG3,		r6
-|.define CARG4,		r7
-|
-|.define CRET1,		r2
-|.define CRET2,		r3
-|
-|.define FARG1,		f12
-|.define FARG2,		f14
-|
-|.define FRET1,		f0
-|.define FRET2,		f2
-|
-|// Stack layout while in interpreter. Must match with lj_frame.h.
-|.define CFRAME_SPACE,	112	// Delta for sp.
-|
-|.define SAVE_ERRF,	124(sp)	// 32 bit C frame info.
-|.define SAVE_NRES,	120(sp)
-|.define SAVE_CFRAME,	116(sp)
-|.define SAVE_L,	112(sp)
-|//----- 8 byte aligned, ^^^^ 16 byte register save area, owned by interpreter.
-|.define SAVE_GPR_,	72	// .. 72+10*4: 32 bit GPR saves.
-|.define SAVE_FPR_,	24	// .. 24+6*8: 64 bit FPR saves.
-|.define SAVE_PC,	20(sp)
-|.define ARG5,		16(sp)
-|.define CSAVE_4,	12(sp)
-|.define CSAVE_3,	8(sp)
-|.define CSAVE_2,	4(sp)
-|.define CSAVE_1,	0(sp)
-|//----- 8 byte aligned, ^^^^ 16 byte register save area, owned by callee.
-|
-|.define ARG5_OFS,	16
-|.define SAVE_MULTRES,	ARG5
-|
-|.macro saveregs
-|  addiu sp, sp, -CFRAME_SPACE
-|  sw ra, SAVE_GPR_+9*4(sp)
-|  sw r30, SAVE_GPR_+8*4(sp)
-|   sdc1 f30, SAVE_FPR_+5*8(sp)
-|  sw r23, SAVE_GPR_+7*4(sp)
-|  sw r22, SAVE_GPR_+6*4(sp)
-|   sdc1 f28, SAVE_FPR_+4*8(sp)
-|  sw r21, SAVE_GPR_+5*4(sp)
-|  sw r20, SAVE_GPR_+4*4(sp)
-|   sdc1 f26, SAVE_FPR_+3*8(sp)
-|  sw r19, SAVE_GPR_+3*4(sp)
-|  sw r18, SAVE_GPR_+2*4(sp)
-|   sdc1 f24, SAVE_FPR_+2*8(sp)
-|  sw r17, SAVE_GPR_+1*4(sp)
-|  sw r16, SAVE_GPR_+0*4(sp)
-|   sdc1 f22, SAVE_FPR_+1*8(sp)
-|   sdc1 f20, SAVE_FPR_+0*8(sp)
-|.endmacro
-|
-|.macro restoreregs_ret
-|  lw ra, SAVE_GPR_+9*4(sp)
-|  lw r30, SAVE_GPR_+8*4(sp)
-|   ldc1 f30, SAVE_FPR_+5*8(sp)
-|  lw r23, SAVE_GPR_+7*4(sp)
-|  lw r22, SAVE_GPR_+6*4(sp)
-|   ldc1 f28, SAVE_FPR_+4*8(sp)
-|  lw r21, SAVE_GPR_+5*4(sp)
-|  lw r20, SAVE_GPR_+4*4(sp)
-|   ldc1 f26, SAVE_FPR_+3*8(sp)
-|  lw r19, SAVE_GPR_+3*4(sp)
-|  lw r18, SAVE_GPR_+2*4(sp)
-|   ldc1 f24, SAVE_FPR_+2*8(sp)
-|  lw r17, SAVE_GPR_+1*4(sp)
-|  lw r16, SAVE_GPR_+0*4(sp)
-|   ldc1 f22, SAVE_FPR_+1*8(sp)
-|   ldc1 f20, SAVE_FPR_+0*8(sp)
-|  jr ra
-|  addiu sp, sp, CFRAME_SPACE
-|.endmacro
-|
-|// Type definitions. Some of these are only used for documentation.
-|.type L,		lua_State,	LREG
-|.type GL,		global_State
-|.type TVALUE,		TValue
-|.type GCOBJ,		GCobj
-|.type STR,		GCstr
-|.type TAB,		GCtab
-|.type LFUNC,		GCfuncL
-|.type CFUNC,		GCfuncC
-|.type PROTO,		GCproto
-|.type UPVAL,		GCupval
-|.type NODE,		Node
-|.type NARGS8,		int
-|.type TRACE,		GCtrace
-|
-|//-----------------------------------------------------------------------
-|
-|// Trap for not-yet-implemented parts.
-|.macro NYI; .long 0xf0f0f0f0; .endmacro
-|
-|// Macros to mark delay slots.
-|.macro ., a; a; .endmacro
-|.macro ., a,b; a,b; .endmacro
-|.macro ., a,b,c; a,b,c; .endmacro
-|
-|//-----------------------------------------------------------------------
-|
-|// Endian-specific defines.
-|.define FRAME_PC,	LJ_ENDIAN_SELECT(-4,-8)
-|.define FRAME_FUNC,	LJ_ENDIAN_SELECT(-8,-4)
-|.define HI,		LJ_ENDIAN_SELECT(4,0)
-|.define LO,		LJ_ENDIAN_SELECT(0,4)
-|.define OFS_RD,	LJ_ENDIAN_SELECT(2,0)
-|.define OFS_RA,	LJ_ENDIAN_SELECT(1,2)
-|.define OFS_OP,	LJ_ENDIAN_SELECT(0,3)
-|
-|// Instruction decode.
-|.macro decode_OP1, dst, ins; andi dst, ins, 0xff; .endmacro
-|.macro decode_OP4a, dst, ins; andi dst, ins, 0xff; .endmacro
-|.macro decode_OP4b, dst; sll dst, dst, 2; .endmacro
-|.macro decode_RC4a, dst, ins; srl dst, ins, 14; .endmacro
-|.macro decode_RC4b, dst; andi dst, dst, 0x3fc; .endmacro
-|.macro decode_RD4b, dst; sll dst, dst, 2; .endmacro
-|.macro decode_RA8a, dst, ins; srl dst, ins, 5; .endmacro
-|.macro decode_RA8b, dst; andi dst, dst, 0x7f8; .endmacro
-|.macro decode_RB8a, dst, ins; srl dst, ins, 21; .endmacro
-|.macro decode_RB8b, dst; andi dst, dst, 0x7f8; .endmacro
-|.macro decode_RD8a, dst, ins; srl dst, ins, 16; .endmacro
-|.macro decode_RD8b, dst; sll dst, dst, 3; .endmacro
-|.macro decode_RDtoRC8, dst, src; andi dst, src, 0x7f8; .endmacro
-|
-|// Instruction fetch.
-|.macro ins_NEXT1
-|  lw INS, 0(PC)
-|   addiu PC, PC, 4
-|.endmacro
-|// Instruction decode+dispatch.
-|.macro ins_NEXT2
-|  decode_OP4a TMP1, INS
-|  decode_OP4b TMP1
-|  addu TMP0, DISPATCH, TMP1
-|   decode_RD8a RD, INS
-|  lw AT, 0(TMP0)
-|   decode_RA8a RA, INS
-|   decode_RD8b RD
-|  jr AT
-|   decode_RA8b RA
-|.endmacro
-|.macro ins_NEXT
-|  ins_NEXT1
-|  ins_NEXT2
-|.endmacro
-|
-|// Instruction footer.
-|.if 1
-|  // Replicated dispatch. Less unpredictable branches, but higher I-Cache use.
-|  .define ins_next, ins_NEXT
-|  .define ins_next_, ins_NEXT
-|  .define ins_next1, ins_NEXT1
-|  .define ins_next2, ins_NEXT2
-|.else
-|  // Common dispatch. Lower I-Cache use, only one (very) unpredictable branch.
-|  // Affects only certain kinds of benchmarks (and only with -j off).
-|  .macro ins_next
-|    b ->ins_next
-|  .endmacro
-|  .macro ins_next1
-|  .endmacro
-|  .macro ins_next2
-|    b ->ins_next
-|  .endmacro
-|  .macro ins_next_
-|  ->ins_next:
-|    ins_NEXT
-|  .endmacro
-|.endif
-|
-|// Call decode and dispatch.
-|.macro ins_callt
-|  // BASE = new base, RB = LFUNC/CFUNC, RC = nargs*8, FRAME_PC(BASE) = PC
-|  lw PC, LFUNC:RB->pc
-|  lw INS, 0(PC)
-|   addiu PC, PC, 4
-|  decode_OP4a TMP1, INS
-|   decode_RA8a RA, INS
-|  decode_OP4b TMP1
-|   decode_RA8b RA
-|  addu TMP0, DISPATCH, TMP1
-|  lw TMP0, 0(TMP0)
-|  jr TMP0
-|   addu RA, RA, BASE
-|.endmacro
-|
-|.macro ins_call
-|  // BASE = new base, RB = LFUNC/CFUNC, RC = nargs*8, PC = caller PC
-|  sw PC, FRAME_PC(BASE)
-|  ins_callt
-|.endmacro
-|
-|//-----------------------------------------------------------------------
-|
-|.macro branch_RD
-|  srl TMP0, RD, 1
-|  lui AT, (-(BCBIAS_J*4 >> 16) & 65535)
-|  addu TMP0, TMP0, AT
-|  addu PC, PC, TMP0
-|.endmacro
-|
-|// Assumes DISPATCH is relative to GL.
-#define DISPATCH_GL(field)	(GG_DISP2G + (int)offsetof(global_State, field))
-#define DISPATCH_J(field)	(GG_DISP2J + (int)offsetof(jit_State, field))
-#define GG_DISP2GOT		(GG_OFS(got) - GG_OFS(dispatch))
-#define DISPATCH_GOT(name)	(GG_DISP2GOT + 4*LJ_GOT_##name)
-|
-#define PC2PROTO(field)  ((int)offsetof(GCproto, field)-(int)sizeof(GCproto))
-|
-|.macro load_got, func
-|  lw CFUNCADDR, DISPATCH_GOT(func)(DISPATCH)
-|.endmacro
-|// Much faster. Sadly, there's no easy way to force the required code layout.
-|// .macro call_intern, func; bal extern func; .endmacro
-|.macro call_intern, func; jalr CFUNCADDR; .endmacro
-|.macro call_extern; jalr CFUNCADDR; .endmacro
-|.macro jmp_extern; jr CFUNCADDR; .endmacro
-|
-|.macro hotcheck, delta, target
-|  srl TMP1, PC, 1
-|  andi TMP1, TMP1, 126
-|  addu TMP1, TMP1, DISPATCH
-|  lhu TMP2, GG_DISP2HOT(TMP1)
-|  addiu TMP2, TMP2, -delta
-|  bltz TMP2, target
-|.  sh TMP2, GG_DISP2HOT(TMP1)
-|.endmacro
-|
-|.macro hotloop
-|  hotcheck HOTCOUNT_LOOP, ->vm_hotloop
-|.endmacro
-|
-|.macro hotcall
-|  hotcheck HOTCOUNT_CALL, ->vm_hotcall
-|.endmacro
-|
-|// Set current VM state. Uses TMP0.
-|.macro li_vmstate, st; li TMP0, ~LJ_VMST_..st; .endmacro
-|.macro st_vmstate; sw TMP0, DISPATCH_GL(vmstate)(DISPATCH); .endmacro
-|
-|// Move table write barrier back. Overwrites mark and tmp.
-|.macro barrierback, tab, mark, tmp, target
-|  lw tmp, DISPATCH_GL(gc.grayagain)(DISPATCH)
-|   andi mark, mark, ~LJ_GC_BLACK & 255		// black2gray(tab)
-|  sw tab, DISPATCH_GL(gc.grayagain)(DISPATCH)
-|   sb mark, tab->marked
-|  b target
-|.  sw tmp, tab->gclist
-|.endmacro
-|
-|//-----------------------------------------------------------------------
-
-/* Generate subroutines used by opcodes and other parts of the VM. */
-/* The .code_sub section should be last to help static branch prediction. */
-static void build_subroutines(BuildCtx *ctx)
-{
-  |.code_sub
-  |
-  |//-----------------------------------------------------------------------
-  |//-- Return handling ----------------------------------------------------
-  |//-----------------------------------------------------------------------
-  |
-  |->vm_returnp:
-  |  // See vm_return. Also: TMP2 = previous base.
-  |  andi AT, PC, FRAME_P
-  |  beqz AT, ->cont_dispatch
-  |.  li TMP1, LJ_TTRUE
-  |
-  |  // Return from pcall or xpcall fast func.
-  |  lw PC, FRAME_PC(TMP2)		// Fetch PC of previous frame.
-  |  move BASE, TMP2			// Restore caller base.
-  |  // Prepending may overwrite the pcall frame, so do it at the end.
-  |   sw TMP1, FRAME_PC(RA)		// Prepend true to results.
-  |   addiu RA, RA, -8
-  |
-  |->vm_returnc:
-  |   addiu RD, RD, 8			// RD = (nresults+1)*8.
-  |  andi TMP0, PC, FRAME_TYPE
-  |   beqz RD, ->vm_unwind_c_eh
-  |.   li CRET1, LUA_YIELD
-  |  beqz TMP0, ->BC_RET_Z		// Handle regular return to Lua.
-  |.  move MULTRES, RD
-  |
-  |->vm_return:
-  |  // BASE = base, RA = resultptr, RD/MULTRES = (nresults+1)*8, PC = return
-  |  // TMP0 = PC & FRAME_TYPE
-  |   li TMP2, -8
-  |  xori AT, TMP0, FRAME_C
-  |   and TMP2, PC, TMP2
-  |  bnez AT, ->vm_returnp
-  |   subu TMP2, BASE, TMP2		// TMP2 = previous base.
-  |
-  |  addiu TMP1, RD, -8
-  |   sw TMP2, L->base
-  |    li_vmstate C
-  |   lw TMP2, SAVE_NRES
-  |   addiu BASE, BASE, -8
-  |    st_vmstate
-  |  beqz TMP1, >2
-  |.   sll TMP2, TMP2, 3
-  |1:
-  |  addiu TMP1, TMP1, -8
-  |   ldc1 f0, 0(RA)
-  |    addiu RA, RA, 8
-  |   sdc1 f0, 0(BASE)
-  |  bnez TMP1, <1
-  |.  addiu BASE, BASE, 8
-  |
-  |2:
-  |  bne TMP2, RD, >6
-  |3:
-  |.  sw BASE, L->top			// Store new top.
-  |
-  |->vm_leave_cp:
-  |  lw TMP0, SAVE_CFRAME		// Restore previous C frame.
-  |   move CRET1, r0			// Ok return status for vm_pcall.
-  |  sw TMP0, L->cframe
-  |
-  |->vm_leave_unw:
-  |  restoreregs_ret
-  |
-  |6:
-  |  lw TMP1, L->maxstack
-  |  slt AT, TMP2, RD
-  |  bnez AT, >7			// Less results wanted?
-  |  // More results wanted. Check stack size and fill up results with nil.
-  |.  slt AT, BASE, TMP1
-  |  beqz AT, >8
-  |.  nop
-  |  sw TISNIL, HI(BASE)
-  |  addiu RD, RD, 8
-  |  b <2
-  |.  addiu BASE, BASE, 8
-  |
-  |7:  // Less results wanted.
-  |  subu TMP0, RD, TMP2
-  |  subu TMP0, BASE, TMP0		// Either keep top or shrink it.
-  |  b <3
-  |.  movn BASE, TMP0, TMP2		// LUA_MULTRET+1 case?
-  |
-  |8:  // Corner case: need to grow stack for filling up results.
-  |  // This can happen if:
-  |  // - A C function grows the stack (a lot).
-  |  // - The GC shrinks the stack in between.
-  |  // - A return back from a lua_call() with (high) nresults adjustment.
-  |  load_got lj_state_growstack
-  |   move MULTRES, RD
-  |  move CARG2, TMP2
-  |  call_intern lj_state_growstack	// (lua_State *L, int n)
-  |.  move CARG1, L
-  |    lw TMP2, SAVE_NRES
-  |  lw BASE, L->top			// Need the (realloced) L->top in BASE.
-  |   move RD, MULTRES
-  |  b <2
-  |.   sll TMP2, TMP2, 3
-  |
-  |->vm_unwind_c:			// Unwind C stack, return from vm_pcall.
-  |  // (void *cframe, int errcode)
-  |  move sp, CARG1
-  |  move CRET1, CARG2
-  |->vm_unwind_c_eh:			// Landing pad for external unwinder.
-  |  lw L, SAVE_L
-  |   li TMP0, ~LJ_VMST_C
-  |  lw GL:TMP1, L->glref
-  |  b ->vm_leave_unw
-  |.  sw TMP0, GL:TMP1->vmstate
-  |
-  |->vm_unwind_ff:			// Unwind C stack, return from ff pcall.
-  |  // (void *cframe)
-  |  li AT, -4
-  |  and sp, CARG1, AT
-  |->vm_unwind_ff_eh:			// Landing pad for external unwinder.
-  |  lw L, SAVE_L
-  |     lui TMP3, 0x59c0		// TOBIT = 2^52 + 2^51 (float).
-  |     li TISNIL, LJ_TNIL
-  |  lw BASE, L->base
-  |   lw DISPATCH, L->glref		// Setup pointer to dispatch table.
-  |     mtc1 TMP3, TOBIT
-  |  li TMP1, LJ_TFALSE
-  |    li_vmstate INTERP
-  |  lw PC, FRAME_PC(BASE)		// Fetch PC of previous frame.
-  |     cvt.d.s TOBIT, TOBIT
-  |  addiu RA, BASE, -8			// Results start at BASE-8.
-  |   addiu DISPATCH, DISPATCH, GG_G2DISP
-  |  sw TMP1, HI(RA)			// Prepend false to error message.
-  |    st_vmstate
-  |  b ->vm_returnc
-  |.  li RD, 16				// 2 results: false + error message.
-  |
-  |//-----------------------------------------------------------------------
-  |//-- Grow stack for calls -----------------------------------------------
-  |//-----------------------------------------------------------------------
-  |
-  |->vm_growstack_c:			// Grow stack for C function.
-  |  b >2
-  |.  li CARG2, LUA_MINSTACK
-  |
-  |->vm_growstack_l:			// Grow stack for Lua function.
-  |  // BASE = new base, RA = BASE+framesize*8, RC = nargs*8, PC = first PC
-  |  addu RC, BASE, RC
-  |   subu RA, RA, BASE
-  |  sw BASE, L->base
-  |   addiu PC, PC, 4			// Must point after first instruction.
-  |  sw RC, L->top
-  |   srl CARG2, RA, 3
-  |2:
-  |  // L->base = new base, L->top = top
-  |  load_got lj_state_growstack
-  |   sw PC, SAVE_PC
-  |  call_intern lj_state_growstack	// (lua_State *L, int n)
-  |.  move CARG1, L
-  |  lw BASE, L->base
-  |  lw RC, L->top
-  |  lw LFUNC:RB, FRAME_FUNC(BASE)
-  |  subu RC, RC, BASE
-  |  // BASE = new base, RB = LFUNC/CFUNC, RC = nargs*8, FRAME_PC(BASE) = PC
-  |  ins_callt				// Just retry the call.
-  |
-  |//-----------------------------------------------------------------------
-  |//-- Entry points into the assembler VM ---------------------------------
-  |//-----------------------------------------------------------------------
-  |
-  |->vm_resume:				// Setup C frame and resume thread.
-  |  // (lua_State *L, TValue *base, int nres1 = 0, ptrdiff_t ef = 0)
-  |  saveregs
-  |  move L, CARG1
-  |    lw DISPATCH, L->glref		// Setup pointer to dispatch table.
-  |  move BASE, CARG2
-  |    lbu TMP1, L->status
-  |   sw L, SAVE_L
-  |  li PC, FRAME_CP
-  |  addiu TMP0, sp, CFRAME_RESUME
-  |    addiu DISPATCH, DISPATCH, GG_G2DISP
-  |   sw r0, SAVE_NRES
-  |   sw r0, SAVE_ERRF
-  |  sw TMP0, L->cframe
-  |   sw r0, SAVE_CFRAME
-  |    beqz TMP1, >3
-  |.  sw CARG1, SAVE_PC		// Any value outside of bytecode is ok.
-  |
-  |  // Resume after yield (like a return).
-  |  move RA, BASE
-  |   lw BASE, L->base
-  |   lw TMP1, L->top
-  |  lw PC, FRAME_PC(BASE)
-  |     lui TMP3, 0x59c0		// TOBIT = 2^52 + 2^51 (float).
-  |   subu RD, TMP1, BASE
-  |     mtc1 TMP3, TOBIT
-  |    sb r0, L->status
-  |     cvt.d.s TOBIT, TOBIT
-  |    li_vmstate INTERP
-  |   addiu RD, RD, 8
-  |    st_vmstate
-  |   move MULTRES, RD
-  |  andi TMP0, PC, FRAME_TYPE
-  |  beqz TMP0, ->BC_RET_Z
-  |.    li TISNIL, LJ_TNIL
-  |  b ->vm_return
-  |.  nop
-  |
-  |->vm_pcall:				// Setup protected C frame and enter VM.
-  |  // (lua_State *L, TValue *base, int nres1, ptrdiff_t ef)
-  |  saveregs
-  |  sw CARG4, SAVE_ERRF
-  |  b >1
-  |.  li PC, FRAME_CP
-  |
-  |->vm_call:				// Setup C frame and enter VM.
-  |  // (lua_State *L, TValue *base, int nres1)
-  |  saveregs
-  |  li PC, FRAME_C
-  |
-  |1:  // Entry point for vm_pcall above (PC = ftype).
-  |  lw TMP1, L:CARG1->cframe
-  |   sw CARG3, SAVE_NRES
-  |    move L, CARG1
-  |   sw CARG1, SAVE_L
-  |    move BASE, CARG2
-  |  sw sp, L->cframe			// Add our C frame to cframe chain.
-  |    lw DISPATCH, L->glref		// Setup pointer to dispatch table.
-  |   sw CARG1, SAVE_PC		// Any value outside of bytecode is ok.
-  |  sw TMP1, SAVE_CFRAME
-  |    addiu DISPATCH, DISPATCH, GG_G2DISP
-  |
-  |3:  // Entry point for vm_cpcall/vm_resume (BASE = base, PC = ftype).
-  |  lw TMP2, L->base			// TMP2 = old base (used in vmeta_call).
-  |     lui TMP3, 0x59c0		// TOBIT = 2^52 + 2^51 (float).
-  |   lw TMP1, L->top
-  |     mtc1 TMP3, TOBIT
-  |  addu PC, PC, BASE
-  |   subu NARGS8:RC, TMP1, BASE
-  |  subu PC, PC, TMP2			// PC = frame delta + frame type
-  |     cvt.d.s TOBIT, TOBIT
-  |    li_vmstate INTERP
-  |     li TISNIL, LJ_TNIL
-  |    st_vmstate
-  |
-  |->vm_call_dispatch:
-  |  // TMP2 = old base, BASE = new base, RC = nargs*8, PC = caller PC
-  |  lw TMP0, FRAME_PC(BASE)
-  |  li AT, LJ_TFUNC
-  |  bne TMP0, AT, ->vmeta_call
-  |.  lw LFUNC:RB, FRAME_FUNC(BASE)
-  |
-  |->vm_call_dispatch_f:
-  |  ins_call
-  |  // BASE = new base, RB = func, RC = nargs*8, PC = caller PC
-  |
-  |->vm_cpcall:				// Setup protected C frame, call C.
-  |  // (lua_State *L, lua_CFunction func, void *ud, lua_CPFunction cp)
-  |  saveregs
-  |  move L, CARG1
-  |   lw TMP0, L:CARG1->stack
-  |  sw CARG1, SAVE_L
-  |   lw TMP1, L->top
-  |  sw CARG1, SAVE_PC			// Any value outside of bytecode is ok.
-  |   subu TMP0, TMP0, TMP1		// Compute -savestack(L, L->top).
-  |    lw TMP1, L->cframe
-  |    sw sp, L->cframe			// Add our C frame to cframe chain.
-  |   sw TMP0, SAVE_NRES		// Neg. delta means cframe w/o frame.
-  |  sw r0, SAVE_ERRF			// No error function.
-  |  move CFUNCADDR, CARG4
-  |  jalr CARG4			// (lua_State *L, lua_CFunction func, void *ud)
-  |.   sw TMP1, SAVE_CFRAME
-  |  move BASE, CRET1
-  |   lw DISPATCH, L->glref		// Setup pointer to dispatch table.
-  |    li PC, FRAME_CP
-  |  bnez CRET1, <3			// Else continue with the call.
-  |.  addiu DISPATCH, DISPATCH, GG_G2DISP
-  |  b ->vm_leave_cp			// No base? Just remove C frame.
-  |.  nop
-  |
-  |//-----------------------------------------------------------------------
-  |//-- Metamethod handling ------------------------------------------------
-  |//-----------------------------------------------------------------------
-  |
-  |// The lj_meta_* functions (except for lj_meta_cat) don't reallocate the
-  |// stack, so BASE doesn't need to be reloaded across these calls.
-  |
-  |//-- Continuation dispatch ----------------------------------------------
-  |
-  |->cont_dispatch:
-  |  // BASE = meta base, RA = resultptr, RD = (nresults+1)*8
-  |  lw TMP0, -16+LO(BASE)		// Continuation.
-  |   move RB, BASE
-  |   move BASE, TMP2			// Restore caller BASE.
-  |    lw LFUNC:TMP1, FRAME_FUNC(TMP2)
-  |.if FFI
-  |  sltiu AT, TMP0, 2
-  |.endif
-  |     lw PC, -16+HI(RB)		// Restore PC from [cont|PC].
-  |   addu TMP2, RA, RD
-  |    lw TMP1, LFUNC:TMP1->pc
-  |.if FFI
-  |  bnez AT, >1
-  |.endif
-  |.  sw TISNIL, -8+HI(TMP2)		// Ensure one valid arg.
-  |  // BASE = base, RA = resultptr, RB = meta base
-  |  jr TMP0				// Jump to continuation.
-  |.  lw KBASE, PC2PROTO(k)(TMP1)
-  |
-  |.if FFI
-  |1:
-  |  bnez TMP0, ->cont_ffi_callback	// cont = 1: return from FFI callback.
-  |  // cont = 0: tailcall from C function.
-  |.  addiu TMP1, RB, -16
-  |  b ->vm_call_tail
-  |.  subu RC, TMP1, BASE
-  |.endif
-  |
-  |->cont_cat:				// RA = resultptr, RB = meta base
-  |  lw INS, -4(PC)
-  |   addiu CARG2, RB, -16
-  |   ldc1 f0, 0(RA)
-  |  decode_RB8a MULTRES, INS
-  |   decode_RA8a RA, INS
-  |  decode_RB8b MULTRES
-  |   decode_RA8b RA
-  |  addu TMP1, BASE, MULTRES
-  |   sw BASE, L->base
-  |   subu CARG3, CARG2, TMP1
-  |  bne TMP1, CARG2, ->BC_CAT_Z
-  |.  sdc1 f0, 0(CARG2)
-  |  addu RA, BASE, RA
-  |  b ->cont_nop
-  |.  sdc1 f0, 0(RA)
-  |
-  |//-- Table indexing metamethods -----------------------------------------
-  |
-  |->vmeta_tgets1:
-  |  addiu CARG3, DISPATCH, DISPATCH_GL(tmptv)
-  |  li TMP0, LJ_TSTR
-  |  sw STR:RC, LO(CARG3)
-  |  b >1
-  |.  sw TMP0, HI(CARG3)
-  |
-  |->vmeta_tgets:
-  |  addiu CARG2, DISPATCH, DISPATCH_GL(tmptv)
-  |  li TMP0, LJ_TTAB
-  |  sw TAB:RB, LO(CARG2)
-  |   addiu CARG3, DISPATCH, DISPATCH_GL(tmptv2)
-  |  sw TMP0, HI(CARG2)
-  |   li TMP1, LJ_TSTR
-  |   sw STR:RC, LO(CARG3)
-  |  b >1
-  |.  sw TMP1, HI(CARG3)
-  |
-  |->vmeta_tgetb:			// TMP0 = index
-  |  mtc1 TMP0, f0
-  |  cvt.d.w f0, f0
-  |  addiu CARG3, DISPATCH, DISPATCH_GL(tmptv)
-  |  sdc1 f0, 0(CARG3)
-  |
-  |->vmeta_tgetv:
-  |1:
-  |  load_got lj_meta_tget
-  |  sw BASE, L->base
-  |  sw PC, SAVE_PC
-  |  call_intern lj_meta_tget		// (lua_State *L, TValue *o, TValue *k)
-  |.  move CARG1, L
-  |  // Returns TValue * (finished) or NULL (metamethod).
-  |  beqz CRET1, >3
-  |.  addiu TMP1, BASE, -FRAME_CONT
-  |  ldc1 f0, 0(CRET1)
-  |  ins_next1
-  |   sdc1 f0, 0(RA)
-  |  ins_next2
-  |
-  |3:  // Call __index metamethod.
-  |  // BASE = base, L->top = new base, stack = cont/func/t/k
-  |  lw BASE, L->top
-  |  sw PC, -16+HI(BASE)		// [cont|PC]
-  |   subu PC, BASE, TMP1
-  |  lw LFUNC:RB, FRAME_FUNC(BASE)	// Guaranteed to be a function here.
-  |  b ->vm_call_dispatch_f
-  |.  li NARGS8:RC, 16			// 2 args for func(t, k).
-  |
-  |//-----------------------------------------------------------------------
-  |
-  |->vmeta_tsets1:
-  |  addiu CARG3, DISPATCH, DISPATCH_GL(tmptv)
-  |  li TMP0, LJ_TSTR
-  |  sw STR:RC, LO(CARG3)
-  |  b >1
-  |.  sw TMP0, HI(CARG3)
-  |
-  |->vmeta_tsets:
-  |  addiu CARG2, DISPATCH, DISPATCH_GL(tmptv)
-  |  li TMP0, LJ_TTAB
-  |  sw TAB:RB, LO(CARG2)
-  |   addiu CARG3, DISPATCH, DISPATCH_GL(tmptv2)
-  |  sw TMP0, HI(CARG2)
-  |   li TMP1, LJ_TSTR
-  |   sw STR:RC, LO(CARG3)
-  |  b >1
-  |.  sw TMP1, HI(CARG3)
-  |
-  |->vmeta_tsetb:			// TMP0 = index
-  |  mtc1 TMP0, f0
-  |  cvt.d.w f0, f0
-  |  addiu CARG3, DISPATCH, DISPATCH_GL(tmptv)
-  |  sdc1 f0, 0(CARG3)
-  |
-  |->vmeta_tsetv:
-  |1:
-  |  load_got lj_meta_tset
-  |  sw BASE, L->base
-  |  sw PC, SAVE_PC
-  |  call_intern lj_meta_tset		// (lua_State *L, TValue *o, TValue *k)
-  |.  move CARG1, L
-  |  // Returns TValue * (finished) or NULL (metamethod).
-  |  beqz CRET1, >3
-  |.  ldc1 f0, 0(RA)
-  |  // NOBARRIER: lj_meta_tset ensures the table is not black.
-  |  ins_next1
-  |   sdc1 f0, 0(CRET1)
-  |  ins_next2
-  |
-  |3:  // Call __newindex metamethod.
-  |  // BASE = base, L->top = new base, stack = cont/func/t/k/(v)
-  |  addiu TMP1, BASE, -FRAME_CONT
-  |  lw BASE, L->top
-  |  sw PC, -16+HI(BASE)		// [cont|PC]
-  |   subu PC, BASE, TMP1
-  |  lw LFUNC:RB, FRAME_FUNC(BASE)	// Guaranteed to be a function here.
-  |  sdc1 f0, 16(BASE)			// Copy value to third argument.
-  |  b ->vm_call_dispatch_f
-  |.  li NARGS8:RC, 24			// 3 args for func(t, k, v)
-  |
-  |//-- Comparison metamethods ---------------------------------------------
-  |
-  |->vmeta_comp:
-  |  // CARG2, CARG3 are already set by BC_ISLT/BC_ISGE/BC_ISLE/BC_ISGT.
-  |  load_got lj_meta_comp
-  |  addiu PC, PC, -4
-  |  sw BASE, L->base
-  |  sw PC, SAVE_PC
-  |  decode_OP1 CARG4, INS
-  |  call_intern lj_meta_comp	// (lua_State *L, TValue *o1, *o2, int op)
-  |.  move CARG1, L
-  |  // Returns 0/1 or TValue * (metamethod).
-  |3:
-  |  sltiu AT, CRET1, 2
-  |  beqz AT, ->vmeta_binop
-  |   negu TMP2, CRET1
-  |4:
-  |  lhu RD, OFS_RD(PC)
-  |   addiu PC, PC, 4
-  |   lui TMP1, (-(BCBIAS_J*4 >> 16) & 65535)
-  |  sll RD, RD, 2
-  |  addu RD, RD, TMP1
-  |  and RD, RD, TMP2
-  |  addu PC, PC, RD
-  |->cont_nop:
-  |  ins_next
-  |
-  |->cont_ra:				// RA = resultptr
-  |  lbu TMP1, -4+OFS_RA(PC)
-  |   ldc1 f0, 0(RA)
-  |  sll TMP1, TMP1, 3
-  |  addu TMP1, BASE, TMP1
-  |  b ->cont_nop
-  |.  sdc1 f0, 0(TMP1)
-  |
-  |->cont_condt:			// RA = resultptr
-  |  lw TMP0, HI(RA)
-  |  sltiu AT, TMP0, LJ_TISTRUECOND
-  |  b <4
-  |.  negu TMP2, AT			// Branch if result is true.
-  |
-  |->cont_condf:			// RA = resultptr
-  |  lw TMP0, HI(RA)
-  |  sltiu AT, TMP0, LJ_TISTRUECOND
-  |  b <4
-  |.  addiu TMP2, AT, -1		// Branch if result is false.
-  |
-  |->vmeta_equal:
-  |  // CARG2, CARG3, CARG4 are already set by BC_ISEQV/BC_ISNEV.
-  |  load_got lj_meta_equal
-  |  addiu PC, PC, -4
-  |   sw BASE, L->base
-  |   sw PC, SAVE_PC
-  |  call_intern lj_meta_equal  // (lua_State *L, GCobj *o1, *o2, int ne)
-  |.  move CARG1, L
-  |  // Returns 0/1 or TValue * (metamethod).
-  |  b <3
-  |.  nop
-  |
-  |->vmeta_equal_cd:
-  |.if FFI
-  |  load_got lj_meta_equal_cd
-  |  move CARG2, INS
-  |  addiu PC, PC, -4
-  |   sw BASE, L->base
-  |   sw PC, SAVE_PC
-  |  call_intern lj_meta_equal_cd	// (lua_State *L, BCIns op)
-  |.  move CARG1, L
-  |  // Returns 0/1 or TValue * (metamethod).
-  |  b <3
-  |.  nop
-  |.endif
-  |
-  |//-- Arithmetic metamethods ---------------------------------------------
-  |
-  |->vmeta_unm:
-  |  move CARG4, CARG3
-  |
-  |->vmeta_arith:
-  |  load_got lj_meta_arith
-  |  decode_OP1 TMP0, INS
-  |   sw BASE, L->base
-  |   sw PC, SAVE_PC
-  |  move CARG2, RA
-  |  sw TMP0, ARG5
-  |  call_intern lj_meta_arith  // (lua_State *L, TValue *ra,*rb,*rc, BCReg op)
-  |.  move CARG1, L
-  |  // Returns NULL (finished) or TValue * (metamethod).
-  |  beqz CRET1, ->cont_nop
-  |.  nop
-  |
-  |  // Call metamethod for binary op.
-  |->vmeta_binop:
-  |  // BASE = old base, CRET1 = new base, stack = cont/func/o1/o2
-  |  subu TMP1, CRET1, BASE
-  |   sw PC, -16+HI(CRET1)		// [cont|PC]
-  |   move TMP2, BASE
-  |  addiu PC, TMP1, FRAME_CONT
-  |   move BASE, CRET1
-  |  b ->vm_call_dispatch
-  |.  li NARGS8:RC, 16			// 2 args for func(o1, o2).
-  |
-  |->vmeta_len:
-  |  // CARG2 already set by BC_LEN.
-#if LJ_52
-  |  move MULTRES, CARG1
-#endif
-  |  load_got lj_meta_len
-  |   sw BASE, L->base
-  |   sw PC, SAVE_PC
-  |  call_intern lj_meta_len		// (lua_State *L, TValue *o)
-  |.  move CARG1, L
-  |  // Returns NULL (retry) or TValue * (metamethod base).
-#if LJ_52
-  |  bnez CRET1, ->vmeta_binop		// Binop call for compatibility.
-  |.  nop
-  |  b ->BC_LEN_Z
-  |.  move CARG1, MULTRES
-#else
-  |  b ->vmeta_binop			// Binop call for compatibility.
-  |.  nop
-#endif
-  |
-  |//-- Call metamethod ----------------------------------------------------
-  |
-  |->vmeta_call:			// Resolve and call __call metamethod.
-  |  // TMP2 = old base, BASE = new base, RC = nargs*8
-  |  load_got lj_meta_call
-  |   sw TMP2, L->base			// This is the callers base!
-  |  addiu CARG2, BASE, -8
-  |   sw PC, SAVE_PC
-  |  addu CARG3, BASE, RC
-  |   move MULTRES, NARGS8:RC
-  |  call_intern lj_meta_call	// (lua_State *L, TValue *func, TValue *top)
-  |.  move CARG1, L
-  |  lw LFUNC:RB, FRAME_FUNC(BASE)	// Guaranteed to be a function here.
-  |   addiu NARGS8:RC, MULTRES, 8	// Got one more argument now.
-  |  ins_call
-  |
-  |->vmeta_callt:			// Resolve __call for BC_CALLT.
-  |  // BASE = old base, RA = new base, RC = nargs*8
-  |  load_got lj_meta_call
-  |   sw BASE, L->base
-  |  addiu CARG2, RA, -8
-  |   sw PC, SAVE_PC
-  |  addu CARG3, RA, RC
-  |   move MULTRES, NARGS8:RC
-  |  call_intern lj_meta_call	// (lua_State *L, TValue *func, TValue *top)
-  |.  move CARG1, L
-  |  lw TMP1, FRAME_PC(BASE)
-  |   lw LFUNC:RB, FRAME_FUNC(RA)	// Guaranteed to be a function here.
-  |  b ->BC_CALLT_Z
-  |.  addiu NARGS8:RC, MULTRES, 8	// Got one more argument now.
-  |
-  |//-- Argument coercion for 'for' statement ------------------------------
-  |
-  |->vmeta_for:
-  |  load_got lj_meta_for
-  |   sw BASE, L->base
-  |  move CARG2, RA
-  |   sw PC, SAVE_PC
-  |  move MULTRES, INS
-  |  call_intern lj_meta_for	// (lua_State *L, TValue *base)
-  |.  move CARG1, L
-  |.if JIT
-  |  decode_OP1 TMP0, MULTRES
-  |  li AT, BC_JFORI
-  |.endif
-  |  decode_RA8a RA, MULTRES
-  |   decode_RD8a RD, MULTRES
-  |  decode_RA8b RA
-  |.if JIT
-  |  beq TMP0, AT, =>BC_JFORI
-  |.  decode_RD8b RD
-  |  b =>BC_FORI
-  |.  nop
-  |.else
-  |  b =>BC_FORI
-  |.  decode_RD8b RD
-  |.endif
-  |
-  |//-----------------------------------------------------------------------
-  |//-- Fast functions -----------------------------------------------------
-  |//-----------------------------------------------------------------------
-  |
-  |.macro .ffunc, name
-  |->ff_ .. name:
-  |.endmacro
-  |
-  |.macro .ffunc_1, name
-  |->ff_ .. name:
-  |  beqz NARGS8:RC, ->fff_fallback
-  |.  lw CARG3, HI(BASE)
-  |    lw CARG1, LO(BASE)
-  |.endmacro
-  |
-  |.macro .ffunc_2, name
-  |->ff_ .. name:
-  |  sltiu AT, NARGS8:RC, 16
-  |   lw CARG3, HI(BASE)
-  |  bnez AT, ->fff_fallback
-  |.   lw CARG4, 8+HI(BASE)
-  |   lw CARG1, LO(BASE)
-  |    lw CARG2, 8+LO(BASE)
-  |.endmacro
-  |
-  |.macro .ffunc_n, name	// Caveat: has delay slot!
-  |->ff_ .. name:
-  |  lw CARG3, HI(BASE)
-  |  beqz NARGS8:RC, ->fff_fallback
-  |.  ldc1 FARG1, 0(BASE)
-  |  sltiu AT, CARG3, LJ_TISNUM
-  |  beqz AT, ->fff_fallback
-  |.endmacro
-  |
-  |.macro .ffunc_nn, name	// Caveat: has delay slot!
-  |->ff_ .. name:
-  |  sltiu AT, NARGS8:RC, 16
-  |   lw CARG3, HI(BASE)
-  |  bnez AT, ->fff_fallback
-  |.  lw CARG4, 8+HI(BASE)
-  |  ldc1 FARG1, 0(BASE)
-  |  ldc1 FARG2, 8(BASE)
-  |  sltiu TMP0, CARG3, LJ_TISNUM
-  |  sltiu TMP1, CARG4, LJ_TISNUM
-  |  and TMP0, TMP0, TMP1
-  |  beqz TMP0, ->fff_fallback
-  |.endmacro
-  |
-  |// Inlined GC threshold check. Caveat: uses TMP0 and TMP1 and has delay slot!
-  |.macro ffgccheck
-  |  lw TMP0, DISPATCH_GL(gc.total)(DISPATCH)
-  |  lw TMP1, DISPATCH_GL(gc.threshold)(DISPATCH)
-  |  subu AT, TMP0, TMP1
-  |  bgezal AT, ->fff_gcstep
-  |.endmacro
-  |
-  |//-- Base library: checks -----------------------------------------------
-  |
-  |.ffunc_1 assert
-  |  sltiu AT, CARG3, LJ_TISTRUECOND
-  |  beqz AT, ->fff_fallback
-  |.  addiu RA, BASE, -8
-  |  lw PC, FRAME_PC(BASE)
-  |  addiu RD, NARGS8:RC, 8		// Compute (nresults+1)*8.
-  |  addu TMP2, RA, NARGS8:RC
-  |   sw CARG3, HI(RA)
-  |  addiu TMP1, BASE, 8
-  |  beq BASE, TMP2, ->fff_res		// Done if exactly 1 argument.
-  |.  sw CARG1, LO(RA)
-  |1:
-  |  ldc1 f0, 0(TMP1)
-  |  sdc1 f0, -8(TMP1)
-  |  bne TMP1, TMP2, <1
-  |.  addiu TMP1, TMP1, 8
-  |  b ->fff_res
-  |.  nop
-  |
-  |.ffunc type
-  |  lw CARG3, HI(BASE)
-  |  li TMP1, LJ_TISNUM
-  |  beqz NARGS8:RC, ->fff_fallback
-  |.  sltiu TMP0, CARG3, LJ_TISNUM
-  |  movz TMP1, CARG3, TMP0
-  |  not TMP1, TMP1
-  |  sll TMP1, TMP1, 3
-  |  addu TMP1, CFUNC:RB, TMP1
-  |  b ->fff_resn
-  |.  ldc1 FRET1, CFUNC:TMP1->upvalue
-  |
-  |//-- Base library: getters and setters ---------------------------------
-  |
-  |.ffunc_1 getmetatable
-  |  li AT, LJ_TTAB
-  |  bne CARG3, AT, >6
-  |.  li AT, LJ_TUDATA
-  |1:  // Field metatable must be at same offset for GCtab and GCudata!
-  |  lw TAB:CARG1, TAB:CARG1->metatable
-  |2:
-  |  lw STR:RC, DISPATCH_GL(gcroot[GCROOT_MMNAME+MM_metatable])(DISPATCH)
-  |  beqz TAB:CARG1, ->fff_restv
-  |.  li CARG3, LJ_TNIL
-  |  lw TMP0, TAB:CARG1->hmask
-  |   li CARG3, LJ_TTAB			// Use metatable as default result.
-  |  lw TMP1, STR:RC->hash
-  |  lw NODE:TMP2, TAB:CARG1->node
-  |  and TMP1, TMP1, TMP0		// idx = str->hash & tab->hmask
-  |  sll TMP0, TMP1, 5
-  |  sll TMP1, TMP1, 3
-  |  subu TMP1, TMP0, TMP1
-  |  addu NODE:TMP2, NODE:TMP2, TMP1	// node = tab->node + (idx*32-idx*8)
-  |  li AT, LJ_TSTR
-  |3:  // Rearranged logic, because we expect _not_ to find the key.
-  |  lw CARG4, offsetof(Node, key)+HI(NODE:TMP2)
-  |   lw TMP0, offsetof(Node, key)+LO(NODE:TMP2)
-  |    lw NODE:TMP3, NODE:TMP2->next
-  |  bne CARG4, AT, >4
-  |.    lw CARG2, offsetof(Node, val)+HI(NODE:TMP2)
-  |  beq TMP0, STR:RC, >5
-  |.    lw TMP1, offsetof(Node, val)+LO(NODE:TMP2)
-  |4:
-  |  beqz NODE:TMP3, ->fff_restv	// Not found, keep default result.
-  |.  move NODE:TMP2, NODE:TMP3
-  |  b <3
-  |.  nop
-  |5:
-  |  beq CARG2, TISNIL, ->fff_restv	// Ditto for nil value.
-  |.  nop
-  |  move CARG3, CARG2			// Return value of mt.__metatable.
-  |  b ->fff_restv
-  |.  move CARG1, TMP1
-  |
-  |6:
-  |  beq CARG3, AT, <1
-  |.  sltiu TMP0, CARG3, LJ_TISNUM
-  |  li TMP1, LJ_TISNUM
-  |  movz TMP1, CARG3, TMP0
-  |  not TMP1, TMP1
-  |  sll TMP1, TMP1, 2
-  |  addu TMP1, DISPATCH, TMP1
-  |  b <2
-  |.  lw TAB:CARG1, DISPATCH_GL(gcroot[GCROOT_BASEMT])(TMP1)
-  |
-  |.ffunc_2 setmetatable
-  |  // Fast path: no mt for table yet and not clearing the mt.
-  |  li AT, LJ_TTAB
-  |  bne CARG3, AT, ->fff_fallback
-  |.  addiu CARG4, CARG4, -LJ_TTAB
-  |  lw TAB:TMP1, TAB:CARG1->metatable
-  |   lbu TMP3, TAB:CARG1->marked
-  |  or AT, CARG4, TAB:TMP1
-  |  bnez AT, ->fff_fallback
-  |.  andi AT, TMP3, LJ_GC_BLACK	// isblack(table)
-  |  beqz AT, ->fff_restv
-  |.  sw TAB:CARG2, TAB:CARG1->metatable
-  |  barrierback TAB:CARG1, TMP3, TMP0, ->fff_restv
-  |
-  |.ffunc rawget
-  |  lw CARG4, HI(BASE)
-  |   sltiu AT, NARGS8:RC, 16
-  |    lw TAB:CARG2, LO(BASE)
-  |  load_got lj_tab_get
-  |  addiu CARG4, CARG4, -LJ_TTAB
-  |  or AT, AT, CARG4
-  |  bnez AT, ->fff_fallback
-  |   addiu CARG3, BASE, 8
-  |  call_intern lj_tab_get	// (lua_State *L, GCtab *t, cTValue *key)
-  |.  move CARG1, L
-  |  // Returns cTValue *.
-  |  b ->fff_resn
-  |.  ldc1 FRET1, 0(CRET1)
-  |
-  |//-- Base library: conversions ------------------------------------------
-  |
-  |.ffunc tonumber
-  |  // Only handles the number case inline (without a base argument).
-  |  lw CARG1, HI(BASE)
-  |  xori AT, NARGS8:RC, 8
-  |  sltiu CARG1, CARG1, LJ_TISNUM
-  |  movn CARG1, r0, AT
-  |  beqz CARG1, ->fff_fallback		// Exactly one number argument.
-  |.  ldc1 FRET1, 0(BASE)
-  |  b ->fff_resn
-  |.  nop
-  |
-  |.ffunc_1 tostring
-  |  // Only handles the string or number case inline.
-  |  li AT, LJ_TSTR
-  |  // A __tostring method in the string base metatable is ignored.
-  |  beq CARG3, AT, ->fff_restv			// String key?
-  |  // Handle numbers inline, unless a number base metatable is present.
-  |.  lw TMP1, DISPATCH_GL(gcroot[GCROOT_BASEMT_NUM])(DISPATCH)
-  |  sltiu TMP0, CARG3, LJ_TISNUM
-  |  sltiu TMP1, TMP1, 1
-  |  and TMP0, TMP0, TMP1
-  |  beqz TMP0, ->fff_fallback
-  |.  sw BASE, L->base			// Add frame since C call can throw.
-  |  ffgccheck
-  |.  sw PC, SAVE_PC			// Redundant (but a defined value).
-  |  load_got lj_str_fromnum
-  |  move CARG1, L
-  |  call_intern lj_str_fromnum		// (lua_State *L, lua_Number *np)
-  |.  move CARG2, BASE
-  |  // Returns GCstr *.
-  |  li CARG3, LJ_TSTR
-  |  b ->fff_restv
-  |.  move CARG1, CRET1
-  |
-  |//-- Base library: iterators -------------------------------------------
-  |
-  |.ffunc next
-  |  lw CARG1, HI(BASE)
-  |   lw TAB:CARG2, LO(BASE)
-  |  beqz NARGS8:RC, ->fff_fallback
-  |.  addu TMP2, BASE, NARGS8:RC
-  |  li AT, LJ_TTAB
-  |   sw TISNIL, HI(TMP2)		// Set missing 2nd arg to nil.
-  |  bne CARG1, AT, ->fff_fallback
-  |.  lw PC, FRAME_PC(BASE)
-  |  load_got lj_tab_next
-  |   sw BASE, L->base			// Add frame since C call can throw.
-  |   sw BASE, L->top			// Dummy frame length is ok.
-  |  addiu CARG3, BASE, 8
-  |   sw PC, SAVE_PC
-  |  call_intern lj_tab_next		// (lua_State *L, GCtab *t, TValue *key)
-  |.  move CARG1, L
-  |  // Returns 0 at end of traversal.
-  |  beqz CRET1, ->fff_restv		// End of traversal: return nil.
-  |.  li CARG3, LJ_TNIL
-  |  ldc1 f0, 8(BASE)			// Copy key and value to results.
-  |    addiu RA, BASE, -8
-  |   ldc1 f2, 16(BASE)
-  |    li RD, (2+1)*8
-  |  sdc1 f0, 0(RA)
-  |  b ->fff_res
-  |.  sdc1 f2, 8(RA)
-  |
-  |.ffunc_1 pairs
-  |  li AT, LJ_TTAB
-  |  bne CARG3, AT, ->fff_fallback
-  |.  lw PC, FRAME_PC(BASE)
-#if LJ_52
-  |  lw TAB:TMP2, TAB:CARG1->metatable
-  |   ldc1 f0, CFUNC:RB->upvalue[0]
-  |  bnez TAB:TMP2, ->fff_fallback
-#else
-  |  ldc1 f0, CFUNC:RB->upvalue[0]
-#endif
-  |.  addiu RA, BASE, -8
-  |   sw TISNIL, 8+HI(BASE)
-  |  li RD, (3+1)*8
-  |  b ->fff_res
-  |.  sdc1 f0, 0(RA)
-  |
-  |.ffunc ipairs_aux
-  |  sltiu AT, NARGS8:RC, 16
-  |   lw CARG3, HI(BASE)
-  |    lw TAB:CARG1, LO(BASE)
-  |   lw CARG4, 8+HI(BASE)
-  |  bnez AT, ->fff_fallback
-  |.  ldc1 FARG2, 8(BASE)
-  |   addiu CARG3, CARG3, -LJ_TTAB
-  |  sltiu AT, CARG4, LJ_TISNUM
-  |   li TMP0, 1
-  |  movn AT, r0, CARG3
-  |   mtc1 TMP0, FARG1
-  |  beqz AT, ->fff_fallback
-  |.  lw PC, FRAME_PC(BASE)
-  |   cvt.w.d FRET1, FARG2
-  |  cvt.d.w FARG1, FARG1
-  |   lw TMP0, TAB:CARG1->asize
-  |   lw TMP1, TAB:CARG1->array
-  |  mfc1 TMP2, FRET1
-  |   addiu RA, BASE, -8
-  |  add.d FARG2, FARG2, FARG1
-  |  addiu TMP2, TMP2, 1
-  |  sltu AT, TMP2, TMP0
-  |   sll TMP3, TMP2, 3
-  |   addu TMP3, TMP1, TMP3
-  |  beqz AT, >2			// Not in array part?
-  |.  sdc1 FARG2, 0(RA)
-  |  lw TMP2, HI(TMP3)
-  |  ldc1 f0, 0(TMP3)
-  |1:
-  |  beq TMP2, TISNIL, ->fff_res	// End of iteration, return 0 results.
-  |.  li RD, (0+1)*8
-  |   li RD, (2+1)*8
-  |  b ->fff_res
-  |.  sdc1 f0, 8(RA)
-  |2:  // Check for empty hash part first. Otherwise call C function.
-  |  lw TMP0, TAB:CARG1->hmask
-  |  load_got lj_tab_getinth
-  |  beqz TMP0, ->fff_res
-  |.  li RD, (0+1)*8
-  |  call_intern lj_tab_getinth		// (GCtab *t, int32_t key)
-  |.  move CARG2, TMP2
-  |  // Returns cTValue * or NULL.
-  |  beqz CRET1, ->fff_res
-  |.  li RD, (0+1)*8
-  |  lw TMP2, HI(CRET1)
-  |  b <1
-  |.  ldc1 f0, 0(CRET1)
-  |
-  |.ffunc_1 ipairs
-  |  li AT, LJ_TTAB
-  |  bne CARG3, AT, ->fff_fallback
-  |.  lw PC, FRAME_PC(BASE)
-#if LJ_52
-  |  lw TAB:TMP2, TAB:CARG1->metatable
-  |   ldc1 f0, CFUNC:RB->upvalue[0]
-  |  bnez TAB:TMP2, ->fff_fallback
-#else
-  |  ldc1 f0, CFUNC:RB->upvalue[0]
-#endif
-  |.  addiu RA, BASE, -8
-  |   sw r0, 8+HI(BASE)
-  |   sw r0, 8+LO(BASE)
-  |  li RD, (3+1)*8
-  |  b ->fff_res
-  |.  sdc1 f0, 0(RA)
-  |
-  |//-- Base library: catch errors ----------------------------------------
-  |
-  |.ffunc pcall
-  |  lbu TMP3, DISPATCH_GL(hookmask)(DISPATCH)
-  |  beqz NARGS8:RC, ->fff_fallback
-  |   move TMP2, BASE
-  |   addiu BASE, BASE, 8
-  |  // Remember active hook before pcall.
-  |  srl TMP3, TMP3, HOOK_ACTIVE_SHIFT
-  |  andi TMP3, TMP3, 1
-  |  addiu PC, TMP3, 8+FRAME_PCALL
-  |  b ->vm_call_dispatch
-  |.  addiu NARGS8:RC, NARGS8:RC, -8
-  |
-  |.ffunc xpcall
-  |    sltiu AT, NARGS8:RC, 16
-  |  lw CARG4, 8+HI(BASE)
-  |    bnez AT, ->fff_fallback
-  |.  ldc1 FARG2, 8(BASE)
-  |   ldc1 FARG1, 0(BASE)
-  |    lbu TMP1, DISPATCH_GL(hookmask)(DISPATCH)
-  |  li AT, LJ_TFUNC
-  |   move TMP2, BASE
-  |  bne CARG4, AT, ->fff_fallback  // Traceback must be a function.
-  |   addiu BASE, BASE, 16
-  |  // Remember active hook before pcall.
-  |  srl TMP3, TMP3, HOOK_ACTIVE_SHIFT
-  |   sdc1 FARG2, 0(TMP2)		// Swap function and traceback.
-  |  andi TMP3, TMP3, 1
-  |   sdc1 FARG1, 8(TMP2)
-  |  addiu PC, TMP3, 16+FRAME_PCALL
-  |  b ->vm_call_dispatch
-  |.  addiu NARGS8:RC, NARGS8:RC, -16
-  |
-  |//-- Coroutine library --------------------------------------------------
-  |
-  |.macro coroutine_resume_wrap, resume
-  |.if resume
-  |.ffunc_1 coroutine_resume
-  |  li AT, LJ_TTHREAD
-  |  bne CARG3, AT, ->fff_fallback
-  |.else
-  |.ffunc coroutine_wrap_aux
-  |  lw L:CARG1, CFUNC:RB->upvalue[0].gcr
-  |.endif
-  |  lbu TMP0, L:CARG1->status
-  |   lw TMP1, L:CARG1->cframe
-  |    lw CARG2, L:CARG1->top
-  |    lw TMP2, L:CARG1->base
-  |  addiu TMP3, TMP0, -LUA_YIELD
-  |  bgtz TMP3, ->fff_fallback		// st > LUA_YIELD?
-  |.   xor TMP2, TMP2, CARG2
-  |  bnez TMP1, ->fff_fallback		// cframe != 0?
-  |.  or AT, TMP2, TMP0
-  |  lw TMP0, L:CARG1->maxstack
-  |  beqz AT, ->fff_fallback		// base == top && st == 0?
-  |.  lw PC, FRAME_PC(BASE)
-  |  addu TMP2, CARG2, NARGS8:RC
-  |  sltu AT, TMP0, TMP2
-  |  bnez AT, ->fff_fallback		// Stack overflow?
-  |.  sw PC, SAVE_PC
-  |   sw BASE, L->base
-  |1:
-  |.if resume
-  |  addiu BASE, BASE, 8		// Keep resumed thread in stack for GC.
-  |  addiu NARGS8:RC, NARGS8:RC, -8
-  |  addiu TMP2, TMP2, -8
-  |.endif
-  |  sw TMP2, L:CARG1->top
-  |  addu TMP1, BASE, NARGS8:RC
-  |  move CARG3, CARG2
-  |  sw BASE, L->top
-  |2:  // Move args to coroutine.
-  |   ldc1 f0, 0(BASE)
-  |  sltu AT, BASE, TMP1
-  |  beqz AT, >3
-  |.  addiu BASE, BASE, 8
-  |   sdc1 f0, 0(CARG3)
-  |  b <2
-  |.  addiu CARG3, CARG3, 8
-  |3:
-  |  bal ->vm_resume			// (lua_State *L, TValue *base, 0, 0)
-  |.  move L:RA, L:CARG1
-  |  // Returns thread status.
-  |4:
-  |  lw TMP2, L:RA->base
-  |   sltiu AT, CRET1, LUA_YIELD+1
-  |  lw TMP3, L:RA->top
-  |    li_vmstate INTERP
-  |  lw BASE, L->base
-  |    st_vmstate
-  |   beqz AT, >8
-  |. subu RD, TMP3, TMP2
-  |   lw TMP0, L->maxstack
-  |  beqz RD, >6			// No results?
-  |.  addu TMP1, BASE, RD
-  |  sltu AT, TMP0, TMP1
-  |  bnez AT, >9			// Need to grow stack?
-  |.  addu TMP3, TMP2, RD
-  |  sw TMP2, L:RA->top			// Clear coroutine stack.
-  |  move TMP1, BASE
-  |5:  // Move results from coroutine.
-  |   ldc1 f0, 0(TMP2)
-  |  addiu TMP2, TMP2, 8
-  |  sltu AT, TMP2, TMP3
-  |   sdc1 f0, 0(TMP1)
-  |  bnez AT, <5
-  |.  addiu TMP1, TMP1, 8
-  |6:
-  |  andi TMP0, PC, FRAME_TYPE
-  |.if resume
-  |  li TMP1, LJ_TTRUE
-  |   addiu RA, BASE, -8
-  |  sw TMP1, -8+HI(BASE)		// Prepend true to results.
-  |  addiu RD, RD, 16
-  |.else
-  |  move RA, BASE
-  |  addiu RD, RD, 8
-  |.endif
-  |7:
-  |  sw PC, SAVE_PC
-  |  beqz TMP0, ->BC_RET_Z
-  |.  move MULTRES, RD
-  |  b ->vm_return
-  |.  nop
-  |
-  |8:  // Coroutine returned with error (at co->top-1).
-  |.if resume
-  |  addiu TMP3, TMP3, -8
-  |   li TMP1, LJ_TFALSE
-  |  ldc1 f0, 0(TMP3)
-  |   sw TMP3, L:RA->top		// Remove error from coroutine stack.
-  |    li RD, (2+1)*8
-  |   sw TMP1, -8+HI(BASE)		// Prepend false to results.
-  |    addiu RA, BASE, -8
-  |  sdc1 f0, 0(BASE)			// Copy error message.
-  |  b <7
-  |.  andi TMP0, PC, FRAME_TYPE
-  |.else
-  |  load_got lj_ffh_coroutine_wrap_err
-  |  move CARG2, L:RA
-  |  call_intern lj_ffh_coroutine_wrap_err  // (lua_State *L, lua_State *co)
-  |.  move CARG1, L
-  |.endif
-  |
-  |9:  // Handle stack expansion on return from yield.
-  |  load_got lj_state_growstack
-  |  srl CARG2, RD, 3
-  |  call_intern lj_state_growstack	// (lua_State *L, int n)
-  |.  move CARG1, L
-  |  b <4
-  |.  li CRET1, 0
-  |.endmacro
-  |
-  |  coroutine_resume_wrap 1		// coroutine.resume
-  |  coroutine_resume_wrap 0		// coroutine.wrap
-  |
-  |.ffunc coroutine_yield
-  |  lw TMP0, L->cframe
-  |   addu TMP1, BASE, NARGS8:RC
-  |   sw BASE, L->base
-  |  andi TMP0, TMP0, CFRAME_RESUME
-  |   sw TMP1, L->top
-  |  beqz TMP0, ->fff_fallback
-  |.   li CRET1, LUA_YIELD
-  |  sw r0, L->cframe
-  |  b ->vm_leave_unw
-  |.   sb CRET1, L->status
-  |
-  |//-- Math library -------------------------------------------------------
-  |
-  |.ffunc_n math_abs
-  |.  abs.d FRET1, FARG1
-  |->fff_resn:
-  |  lw PC, FRAME_PC(BASE)
-  |  addiu RA, BASE, -8
-  |  b ->fff_res1
-  |.  sdc1 FRET1, -8(BASE)
-  |
-  |->fff_restv:
-  |  // CARG3/CARG1 = TValue result.
-  |  lw PC, FRAME_PC(BASE)
-  |   sw CARG3, -8+HI(BASE)
-  |  addiu RA, BASE, -8
-  |   sw CARG1, -8+LO(BASE)
-  |->fff_res1:
-  |  // RA = results, PC = return.
-  |  li RD, (1+1)*8
-  |->fff_res:
-  |  // RA = results, RD = (nresults+1)*8, PC = return.
-  |  andi TMP0, PC, FRAME_TYPE
-  |  bnez TMP0, ->vm_return
-  |.  move MULTRES, RD
-  |  lw INS, -4(PC)
-  |  decode_RB8a RB, INS
-  |  decode_RB8b RB
-  |5:
-  |  sltu AT, RD, RB
-  |  bnez AT, >6			// More results expected?
-  |.  decode_RA8a TMP0, INS
-  |  decode_RA8b TMP0
-  |  ins_next1
-  |  // Adjust BASE. KBASE is assumed to be set for the calling frame.
-  |   subu BASE, RA, TMP0
-  |  ins_next2
-  |
-  |6:  // Fill up results with nil.
-  |  addu TMP1, RA, RD
-  |   addiu RD, RD, 8
-  |  b <5
-  |.  sw TISNIL, -8+HI(TMP1)
-  |
-  |.macro math_extern, func
-  |->ff_math_ .. func:
-  |  lw CARG3, HI(BASE)
-  |  beqz NARGS8:RC, ->fff_fallback
-  |.  load_got func
-  |  sltiu AT, CARG3, LJ_TISNUM
-  |  beqz AT, ->fff_fallback
-  |.  nop
-  |  call_extern
-  |.  ldc1 FARG1, 0(BASE)
-  |  b ->fff_resn
-  |.  nop
-  |.endmacro
-  |
-  |.macro math_extern2, func
-  |  .ffunc_nn math_ .. func
-  |.  load_got func
-  |  call_extern
-  |.  nop
-  |  b ->fff_resn
-  |.  nop
-  |.endmacro
-  |
-  |.macro math_round, func
-  |  .ffunc_n math_ .. func
-  |.  nop
-  |  bal ->vm_ .. func
-  |.  nop
-  |  b ->fff_resn
-  |.  nop
-  |.endmacro
-  |
-  |  math_round floor
-  |  math_round ceil
-  |
-  |.ffunc math_log
-  |  lw CARG3, HI(BASE)
-  |  li AT, 8
-  |  bne NARGS8:RC, AT, ->fff_fallback	// Exactly 1 argument.
-  |.  load_got log
-  |  sltiu AT, CARG3, LJ_TISNUM
-  |  beqz AT, ->fff_fallback
-  |.  nop
-  |  call_extern
-  |.  ldc1 FARG1, 0(BASE)
-  |  b ->fff_resn
-  |.  nop
-  |
-  |  math_extern log10
-  |  math_extern exp
-  |  math_extern sin
-  |  math_extern cos
-  |  math_extern tan
-  |  math_extern asin
-  |  math_extern acos
-  |  math_extern atan
-  |  math_extern sinh
-  |  math_extern cosh
-  |  math_extern tanh
-  |  math_extern2 pow
-  |  math_extern2 atan2
-  |  math_extern2 fmod
-  |
-  |.ffunc_n math_sqrt
-  |.  sqrt.d FRET1, FARG1
-  |  b ->fff_resn
-  |.  nop
-  |
-  |->ff_math_deg:
-  |.ffunc_n math_rad
-  |.  ldc1 FARG2, CFUNC:RB->upvalue[0]
-  |  b ->fff_resn
-  |.  mul.d FRET1, FARG1, FARG2
-  |
-  |.ffunc_nn math_ldexp
-  |  cvt.w.d FARG2, FARG2
-  |  load_got ldexp
-  |  mfc1 CARG3, FARG2
-  |  call_extern
-  |.  nop
-  |  b ->fff_resn
-  |.  nop
-  |
-  |.ffunc_n math_frexp
-  |  load_got frexp
-  |   lw PC, FRAME_PC(BASE)
-  |  call_extern
-  |.  addiu CARG3, DISPATCH, DISPATCH_GL(tmptv)
-  |   lw TMP1, DISPATCH_GL(tmptv)(DISPATCH)
-  |  addiu RA, BASE, -8
-  |   mtc1 TMP1, FARG2
-  |  sdc1 FRET1, 0(RA)
-  |   cvt.d.w FARG2, FARG2
-  |   sdc1 FARG2, 8(RA)
-  |  b ->fff_res
-  |.  li RD, (2+1)*8
-  |
-  |.ffunc_n math_modf
-  |  load_got modf
-  |   lw PC, FRAME_PC(BASE)
-  |  call_extern
-  |.  addiu CARG3, BASE, -8
-  |  addiu RA, BASE, -8
-  |  sdc1 FRET1, 0(BASE)
-  |  b ->fff_res
-  |.  li RD, (2+1)*8
-  |
-  |.macro math_minmax, name, ismax
-  |->ff_ .. name:
-  |  lw CARG3, HI(BASE)
-  |  beqz NARGS8:RC, ->fff_fallback
-  |.  ldc1 FRET1, 0(BASE)
-  |  sltiu AT, CARG3, LJ_TISNUM
-  |  beqz AT, ->fff_fallback
-  |.  addu TMP2, BASE, NARGS8:RC
-  |  addiu TMP1, BASE, 8
-  |  beq TMP1, TMP2, ->fff_resn
-  |1:
-  |.  lw CARG3, HI(TMP1)
-  |  ldc1 FARG1, 0(TMP1)
-  |   addiu TMP1, TMP1, 8
-  |  sltiu AT, CARG3, LJ_TISNUM
-  |  beqz AT, ->fff_fallback
-  |.if ismax
-  |.  c.olt.d FARG1, FRET1
-  |.else
-  |.  c.olt.d FRET1, FARG1
-  |.endif
-  |  bne TMP1, TMP2, <1
-  |.  movf.d FRET1, FARG1
-  |  b ->fff_resn
-  |.  nop
-  |.endmacro
-  |
-  |  math_minmax math_min, 0
-  |  math_minmax math_max, 1
-  |
-  |//-- String library -----------------------------------------------------
-  |
-  |.ffunc_1 string_len
-  |  li AT, LJ_TSTR
-  |  bne CARG3, AT, ->fff_fallback
-  |.  nop
-  |  b ->fff_resi
-  |.  lw CRET1, STR:CARG1->len
-  |
-  |.ffunc string_byte			// Only handle the 1-arg case here.
-  |  lw CARG3, HI(BASE)
-  |   lw STR:CARG1, LO(BASE)
-  |  xori AT, NARGS8:RC, 8
-  |  addiu CARG3, CARG3, -LJ_TSTR
-  |  or AT, AT, CARG3
-  |  bnez AT, ->fff_fallback		// Need exactly 1 string argument.
-  |.  nop
-  |  lw TMP0, STR:CARG1->len
-  |   lbu TMP1, STR:CARG1[1]		// Access is always ok (NUL at end).
-  |    addiu RA, BASE, -8
-  |  sltu RD, r0, TMP0
-  |   mtc1 TMP1, f0
-  |  addiu RD, RD, 1
-  |   cvt.d.w f0, f0
-  |  lw PC, FRAME_PC(BASE)
-  |  sll RD, RD, 3			// RD = ((str->len != 0)+1)*8
-  |  b ->fff_res
-  |.  sdc1 f0, 0(RA)
-  |
-  |.ffunc string_char			// Only handle the 1-arg case here.
-  |  ffgccheck
-  |  lw CARG3, HI(BASE)
-  |   ldc1 FARG1, 0(BASE)
-  |  li AT, 8
-  |  bne NARGS8:RC, AT, ->fff_fallback	// Exactly 1 argument.
-  |.  sltiu AT, CARG3, LJ_TISNUM
-  |  beqz AT, ->fff_fallback
-  |.  li CARG3, 1
-  |   cvt.w.d FARG1, FARG1
-  |  addiu CARG2, sp, ARG5_OFS
-  |  sltiu AT, TMP0, 256
-  |   mfc1 TMP0, FARG1
-  |  beqz AT, ->fff_fallback
-  |.  sw TMP0, ARG5
-  |->fff_newstr:
-  |  load_got lj_str_new
-  |   sw BASE, L->base
-  |   sw PC, SAVE_PC
-  |  call_intern lj_str_new		// (lua_State *L, char *str, size_t l)
-  |.  move CARG1, L
-  |  // Returns GCstr *.
-  |  lw BASE, L->base
-  |  move CARG1, CRET1
-  |  b ->fff_restv
-  |.  li CARG3, LJ_TSTR
-  |
-  |.ffunc string_sub
-  |  ffgccheck
-  |  addiu AT, NARGS8:RC, -16
-  |   lw CARG3, 16+HI(BASE)
-  |    ldc1 f0, 16(BASE)
-  |   lw TMP0, HI(BASE)
-  |    lw STR:CARG1, LO(BASE)
-  |  bltz AT, ->fff_fallback
-  |   lw CARG2, 8+HI(BASE)
-  |    ldc1 f2, 8(BASE)
-  |  beqz AT, >1
-  |.  li CARG4, -1
-  |   cvt.w.d f0, f0
-  |  sltiu AT, CARG3, LJ_TISNUM
-  |  beqz AT, ->fff_fallback
-  |.  mfc1 CARG4, f0
-  |1:
-  |  sltiu AT, CARG2, LJ_TISNUM
-  |  beqz AT, ->fff_fallback
-  |.  li AT, LJ_TSTR
-  |  cvt.w.d f2, f2
-  |  bne TMP0, AT, ->fff_fallback
-  |.  lw CARG2, STR:CARG1->len
-  |  mfc1 CARG3, f2
-  |  // STR:CARG1 = str, CARG2 = str->len, CARG3 = start, CARG4 = end
-  |  slt AT, CARG4, r0
-  |  addiu TMP0, CARG2, 1
-  |  addu TMP1, CARG4, TMP0
-  |   slt TMP3, CARG3, r0
-  |  movn CARG4, TMP1, AT		// if (end < 0) end += len+1
-  |   addu TMP1, CARG3, TMP0
-  |   movn CARG3, TMP1, TMP3		// if (start < 0) start += len+1
-  |   li TMP2, 1
-  |  slt AT, CARG4, r0
-  |   slt TMP3, r0, CARG3
-  |  movn CARG4, r0, AT			// if (end < 0) end = 0
-  |   movz CARG3, TMP2, TMP3		// if (start < 1) start = 1
-  |  slt AT, CARG2, CARG4
-  |  movn CARG4, CARG2, AT		// if (end > len) end = len
-  |   addu CARG2, STR:CARG1, CARG3
-  |  subu CARG3, CARG4, CARG3		// len = end - start
-  |   addiu CARG2, CARG2, sizeof(GCstr)-1
-  |  bgez CARG3, ->fff_newstr
-  |.  addiu CARG3, CARG3, 1		// len++
-  |->fff_emptystr:  // Return empty string.
-  |  addiu STR:CARG1, DISPATCH, DISPATCH_GL(strempty)
-  |  b ->fff_restv
-  |.  li CARG3, LJ_TSTR
-  |
-  |.ffunc string_rep			// Only handle the 1-char case inline.
-  |  ffgccheck
-  |  lw TMP0, HI(BASE)
-  |   addiu AT, NARGS8:RC, -16		// Exactly 2 arguments.
-  |  lw CARG4, 8+HI(BASE)
-  |   lw STR:CARG1, LO(BASE)
-  |  addiu TMP0, TMP0, -LJ_TSTR
-  |   ldc1 f0, 8(BASE)
-  |  or AT, AT, TMP0
-  |  bnez AT, ->fff_fallback
-  |.  sltiu AT, CARG4, LJ_TISNUM
-  |   cvt.w.d f0, f0
-  |  beqz AT, ->fff_fallback
-  |.  lw TMP0, STR:CARG1->len
-  |   mfc1 CARG3, f0
-  |  lw TMP1, DISPATCH_GL(tmpbuf.sz)(DISPATCH)
-  |  li AT, 1
-  |   blez CARG3, ->fff_emptystr	// Count <= 0?
-  |.   sltu AT, AT, TMP0
-  |  beqz TMP0, ->fff_emptystr		// Zero length string?
-  |.  sltu TMP0, TMP1, CARG3
-  |  or AT, AT, TMP0
-  |   lw CARG2, DISPATCH_GL(tmpbuf.buf)(DISPATCH)
-  |  bnez AT, ->fff_fallback		// Fallback for > 1-char strings.
-  |.  lbu TMP0, STR:CARG1[1]
-  |  addu TMP2, CARG2, CARG3
-  |1:  // Fill buffer with char. Yes, this is suboptimal code (do you care?).
-  |  addiu TMP2, TMP2, -1
-  |  sltu AT, CARG2, TMP2
-  |  bnez AT, <1
-  |.  sb TMP0, 0(TMP2)
-  |  b ->fff_newstr
-  |.  nop
-  |
-  |.ffunc string_reverse
-  |  ffgccheck
-  |  lw CARG3, HI(BASE)
-  |   lw STR:CARG1, LO(BASE)
-  |  beqz NARGS8:RC, ->fff_fallback
-  |.  li AT, LJ_TSTR
-  |  bne CARG3, AT, ->fff_fallback
-  |.  lw TMP1, DISPATCH_GL(tmpbuf.sz)(DISPATCH)
-  |  lw CARG3, STR:CARG1->len
-  |   addiu CARG1, STR:CARG1, #STR
-  |   lw CARG2, DISPATCH_GL(tmpbuf.buf)(DISPATCH)
-  |  sltu AT, TMP1, CARG3
-  |  bnez AT, ->fff_fallback
-  |.  addu TMP3, CARG1, CARG3
-  |  addu CARG4, CARG2, CARG3
-  |1:  // Reverse string copy.
-  |   lbu TMP1, 0(CARG1)
-  |  sltu AT, CARG1, TMP3
-  |  beqz AT, ->fff_newstr
-  |.  addiu CARG1, CARG1, 1
-  |  addiu CARG4, CARG4, -1
-  |  b <1
-  |   sb TMP1, 0(CARG4)
-  |
-  |.macro ffstring_case, name, lo
-  |  .ffunc name
-  |  ffgccheck
-  |  lw CARG3, HI(BASE)
-  |   lw STR:CARG1, LO(BASE)
-  |  beqz NARGS8:RC, ->fff_fallback
-  |.  li AT, LJ_TSTR
-  |  bne CARG3, AT, ->fff_fallback
-  |.  lw TMP1, DISPATCH_GL(tmpbuf.sz)(DISPATCH)
-  |  lw CARG3, STR:CARG1->len
-  |   addiu CARG1, STR:CARG1, #STR
-  |   lw CARG2, DISPATCH_GL(tmpbuf.buf)(DISPATCH)
-  |  sltu AT, TMP1, CARG3
-  |  bnez AT, ->fff_fallback
-  |.  addu TMP3, CARG1, CARG3
-  |  move CARG4, CARG2
-  |1:  // ASCII case conversion.
-  |   lbu TMP1, 0(CARG1)
-  |  sltu AT, CARG1, TMP3
-  |  beqz AT, ->fff_newstr
-  |.  addiu TMP0, TMP1, -lo
-  |   xori TMP2, TMP1, 0x20
-  |   sltiu AT, TMP0, 26
-  |   movn TMP1, TMP2, AT
-  |  addiu CARG1, CARG1, 1
-  |   sb TMP1, 0(CARG4)
-  |  b <1
-  |.  addiu CARG4, CARG4, 1
-  |.endmacro
-  |
-  |ffstring_case string_lower, 65
-  |ffstring_case string_upper, 97
-  |
-  |//-- Table library ------------------------------------------------------
-  |
-  |.ffunc_1 table_getn
-  |  li AT, LJ_TTAB
-  |  bne CARG3, AT, ->fff_fallback
-  |.  load_got lj_tab_len
-  |  call_intern lj_tab_len		// (GCtab *t)
-  |.  nop
-  |  // Returns uint32_t (but less than 2^31).
-  |  b ->fff_resi
-  |.  nop
-  |
-  |//-- Bit library --------------------------------------------------------
-  |
-  |.macro .ffunc_bit, name
-  |  .ffunc_n bit_..name
-  |.  add.d FARG1, FARG1, TOBIT
-  |  mfc1 CRET1, FARG1
-  |.endmacro
-  |
-  |.macro .ffunc_bit_op, name, ins
-  |  .ffunc_bit name
-  |  addiu TMP1, BASE, 8
-  |  addu TMP2, BASE, NARGS8:RC
-  |1:
-  |  lw CARG4, HI(TMP1)
-  |  beq TMP1, TMP2, ->fff_resi
-  |.  ldc1 FARG1, 0(TMP1)
-  |  sltiu AT, CARG4, LJ_TISNUM
-  |  beqz AT, ->fff_fallback
-  |  add.d FARG1, FARG1, TOBIT
-  |  mfc1 CARG2, FARG1
-  |  ins CRET1, CRET1, CARG2
-  |  b <1
-  |.  addiu TMP1, TMP1, 8
-  |.endmacro
-  |
-  |.ffunc_bit_op band, and
-  |.ffunc_bit_op bor, or
-  |.ffunc_bit_op bxor, xor
-  |
-  |.ffunc_bit bswap
-  |  srl TMP0, CRET1, 24
-  |   srl TMP2, CRET1, 8
-  |  sll TMP1, CRET1, 24
-  |   andi TMP2, TMP2, 0xff00
-  |  or TMP0, TMP0, TMP1
-  |   andi CRET1, CRET1, 0xff00
-  |  or TMP0, TMP0, TMP2
-  |   sll CRET1, CRET1, 8
-  |  b ->fff_resi
-  |.  or CRET1, TMP0, CRET1
-  |
-  |.ffunc_bit bnot
-  |  b ->fff_resi
-  |.  not CRET1, CRET1
-  |
-  |.macro .ffunc_bit_sh, name, ins, shmod
-  |  .ffunc_nn bit_..name
-  |.  add.d FARG1, FARG1, TOBIT
-  |  add.d FARG2, FARG2, TOBIT
-  |  mfc1 CARG1, FARG1
-  |  mfc1 CARG2, FARG2
-  |.if shmod == 1
-  |  li AT, 32
-  |  subu TMP0, AT, CARG2
-  |  sllv CARG2, CARG1, CARG2
-  |  srlv CARG1, CARG1, TMP0
-  |.elif shmod == 2
-  |  li AT, 32
-  |  subu TMP0, AT, CARG2
-  |  srlv CARG2, CARG1, CARG2
-  |  sllv CARG1, CARG1, TMP0
-  |.endif
-  |  b ->fff_resi
-  |.  ins CRET1, CARG1, CARG2
-  |.endmacro
-  |
-  |.ffunc_bit_sh lshift, sllv, 0
-  |.ffunc_bit_sh rshift, srlv, 0
-  |.ffunc_bit_sh arshift, srav, 0
-  |// Can't use rotrv, since it's only in MIPS32R2.
-  |.ffunc_bit_sh rol, or, 1
-  |.ffunc_bit_sh ror, or, 2
-  |
-  |.ffunc_bit tobit
-  |->fff_resi:
-  |  mtc1 CRET1, FRET1
-  |  b ->fff_resn
-  |.  cvt.d.w FRET1, FRET1
-  |
-  |//-----------------------------------------------------------------------
-  |
-  |->fff_fallback:			// Call fast function fallback handler.
-  |  // BASE = new base, RB = CFUNC, RC = nargs*8
-  |  lw TMP3, CFUNC:RB->f
-  |    addu TMP1, BASE, NARGS8:RC
-  |   lw PC, FRAME_PC(BASE)		// Fallback may overwrite PC.
-  |    addiu TMP0, TMP1, 8*LUA_MINSTACK
-  |     lw TMP2, L->maxstack
-  |   sw PC, SAVE_PC			// Redundant (but a defined value).
-  |  sltu AT, TMP2, TMP0
-  |     sw BASE, L->base
-  |    sw TMP1, L->top
-  |  bnez AT, >5			// Need to grow stack.
-  |.  move CFUNCADDR, TMP3
-  |  jalr TMP3				// (lua_State *L)
-  |.  move CARG1, L
-  |  // Either throws an error, or recovers and returns -1, 0 or nresults+1.
-  |  lw BASE, L->base
-  |   sll RD, CRET1, 3
-  |  bgtz CRET1, ->fff_res		// Returned nresults+1?
-  |.  addiu RA, BASE, -8
-  |1:  // Returned 0 or -1: retry fast path.
-  |  lw TMP0, L->top
-  |   lw LFUNC:RB, FRAME_FUNC(BASE)
-  |  bnez CRET1, ->vm_call_tail		// Returned -1?
-  |.  subu NARGS8:RC, TMP0, BASE
-  |  ins_callt				// Returned 0: retry fast path.
-  |
-  |// Reconstruct previous base for vmeta_call during tailcall.
-  |->vm_call_tail:
-  |  andi TMP0, PC, FRAME_TYPE
-  |   li AT, -4
-  |  bnez TMP0, >3
-  |.  and TMP1, PC, AT
-  |  lbu TMP1, OFS_RA(PC)
-  |  sll TMP1, TMP1, 3
-  |  addiu TMP1, TMP1, 8
-  |3:
-  |  b ->vm_call_dispatch		// Resolve again for tailcall.
-  |.  subu TMP2, BASE, TMP1
-  |
-  |5:  // Grow stack for fallback handler.
-  |  load_got lj_state_growstack
-  |  li CARG2, LUA_MINSTACK
-  |  call_intern lj_state_growstack	// (lua_State *L, int n)
-  |.  move CARG1, L
-  |  lw BASE, L->base
-  |  b <1
-  |.  li CRET1, 0			// Force retry.
-  |
-  |->fff_gcstep:			// Call GC step function.
-  |  // BASE = new base, RC = nargs*8
-  |  move MULTRES, ra
-  |  load_got lj_gc_step
-  |   sw BASE, L->base
-  |  addu TMP0, BASE, NARGS8:RC
-  |   sw PC, SAVE_PC			// Redundant (but a defined value).
-  |  sw TMP0, L->top
-  |  call_intern lj_gc_step		// (lua_State *L)
-  |.  move CARG1, L
-  |   lw BASE, L->base
-  |  move ra, MULTRES
-  |    lw TMP0, L->top
-  |  lw CFUNC:RB, FRAME_FUNC(BASE)
-  |  jr ra
-  |.  subu NARGS8:RC, TMP0, BASE
-  |
-  |//-----------------------------------------------------------------------
-  |//-- Special dispatch targets -------------------------------------------
-  |//-----------------------------------------------------------------------
-  |
-  |->vm_record:				// Dispatch target for recording phase.
-  |.if JIT
-  |  lbu TMP3, DISPATCH_GL(hookmask)(DISPATCH)
-  |  andi AT, TMP3, HOOK_VMEVENT	// No recording while in vmevent.
-  |  bnez AT, >5
-  |  // Decrement the hookcount for consistency, but always do the call.
-  |.  lw TMP2, DISPATCH_GL(hookcount)(DISPATCH)
-  |  andi AT, TMP3, HOOK_ACTIVE
-  |  bnez AT, >1
-  |.  addiu TMP2, TMP2, -1
-  |  andi AT, TMP3, LUA_MASKLINE|LUA_MASKCOUNT
-  |  beqz AT, >1
-  |.  nop
-  |  b >1
-  |.  sw TMP2, DISPATCH_GL(hookcount)(DISPATCH)
-  |.endif
-  |
-  |->vm_rethook:			// Dispatch target for return hooks.
-  |  lbu TMP3, DISPATCH_GL(hookmask)(DISPATCH)
-  |  andi AT, TMP3, HOOK_ACTIVE		// Hook already active?
-  |  beqz AT, >1
-  |5:  // Re-dispatch to static ins.
-  |.  lw AT, GG_DISP2STATIC(TMP0)	// Assumes TMP0 holds DISPATCH+OP*4.
-  |  jr AT
-  |.  nop
-  |
-  |->vm_inshook:			// Dispatch target for instr/line hooks.
-  |  lbu TMP3, DISPATCH_GL(hookmask)(DISPATCH)
-  |  lw TMP2, DISPATCH_GL(hookcount)(DISPATCH)
-  |  andi AT, TMP3, HOOK_ACTIVE		// Hook already active?
-  |  bnez AT, <5
-  |.  andi AT, TMP3, LUA_MASKLINE|LUA_MASKCOUNT
-  |  beqz AT, <5
-  |.  addiu TMP2, TMP2, -1
-  |  beqz TMP2, >1
-  |.  sw TMP2, DISPATCH_GL(hookcount)(DISPATCH)
-  |  andi AT, TMP3, LUA_MASKLINE
-  |  beqz AT, <5
-  |1:
-  |.  load_got lj_dispatch_ins
-  |   sw MULTRES, SAVE_MULTRES
-  |  move CARG2, PC
-  |   sw BASE, L->base
-  |  // SAVE_PC must hold the _previous_ PC. The callee updates it with PC.
-  |  call_intern lj_dispatch_ins	// (lua_State *L, const BCIns *pc)
-  |.  move CARG1, L
-  |3:
-  |  lw BASE, L->base
-  |4:  // Re-dispatch to static ins.
-  |  lw INS, -4(PC)
-  |  decode_OP4a TMP1, INS
-  |  decode_OP4b TMP1
-  |  addu TMP0, DISPATCH, TMP1
-  |   decode_RD8a RD, INS
-  |  lw AT, GG_DISP2STATIC(TMP0)
-  |   decode_RA8a RA, INS
-  |   decode_RD8b RD
-  |  jr AT
-  |   decode_RA8b RA
-  |
-  |->cont_hook:				// Continue from hook yield.
-  |  addiu PC, PC, 4
-  |  b <4
-  |.  lw MULTRES, -24+LO(RB)		// Restore MULTRES for *M ins.
-  |
-  |->vm_hotloop:			// Hot loop counter underflow.
-  |.if JIT
-  |  lw LFUNC:TMP1, FRAME_FUNC(BASE)
-  |   addiu CARG1, DISPATCH, GG_DISP2J
-  |   sw PC, SAVE_PC
-  |  lw TMP1, LFUNC:TMP1->pc
-  |   move CARG2, PC
-  |   sw L, DISPATCH_J(L)(DISPATCH)
-  |  lbu TMP1, PC2PROTO(framesize)(TMP1)
-  |  load_got lj_trace_hot
-  |   sw BASE, L->base
-  |  sll TMP1, TMP1, 3
-  |  addu TMP1, BASE, TMP1
-  |  call_intern lj_trace_hot		// (jit_State *J, const BCIns *pc)
-  |.  sw TMP1, L->top
-  |  b <3
-  |.  nop
-  |.endif
-  |
-  |->vm_callhook:			// Dispatch target for call hooks.
-  |.if JIT
-  |  b >1
-  |.endif
-  |.  move CARG2, PC
-  |
-  |->vm_hotcall:			// Hot call counter underflow.
-  |.if JIT
-  |  ori CARG2, PC, 1
-  |1:
-  |.endif
-  |  load_got lj_dispatch_call
-  |  addu TMP0, BASE, RC
-  |   sw PC, SAVE_PC
-  |   sw BASE, L->base
-  |  subu RA, RA, BASE
-  |   sw TMP0, L->top
-  |  call_intern lj_dispatch_call	// (lua_State *L, const BCIns *pc)
-  |.  move CARG1, L
-  |  // Returns ASMFunction.
-  |  lw BASE, L->base
-  |   lw TMP0, L->top
-  |   sw r0, SAVE_PC			// Invalidate for subsequent line hook.
-  |  subu NARGS8:RC, TMP0, BASE
-  |  addu RA, BASE, RA
-  |  lw LFUNC:RB, FRAME_FUNC(BASE)
-  |  jr CRET1
-  |.  lw INS, -4(PC)
-  |
-  |//-----------------------------------------------------------------------
-  |//-- Trace exit handler -------------------------------------------------
-  |//-----------------------------------------------------------------------
-  |
-  |.macro savex_, a, b
-  |  sdc1 f..a, 16+a*8(sp)
-  |  sw r..a, 16+32*8+a*4(sp)
-  |  sw r..b, 16+32*8+b*4(sp)
-  |.endmacro
-  |
-  |->vm_exit_handler:
-  |.if JIT
-  |  addiu sp, sp, -(16+32*8+32*4)
-  |  savex_ 0, 1
-  |  savex_ 2, 3
-  |  savex_ 4, 5
-  |  savex_ 6, 7
-  |  savex_ 8, 9
-  |  savex_ 10, 11
-  |  savex_ 12, 13
-  |  savex_ 14, 15
-  |  savex_ 16, 17
-  |  savex_ 18, 19
-  |  savex_ 20, 21
-  |  savex_ 22, 23
-  |  savex_ 24, 25
-  |  savex_ 26, 27
-  |  sdc1 f28, 16+28*8(sp)
-  |  sw r28, 16+32*8+28*4(sp)
-  |  sdc1 f30, 16+30*8(sp)
-  |  sw r30, 16+32*8+30*4(sp)
-  |  sw r0, 16+32*8+31*4(sp)		// Clear RID_TMP.
-  |  li_vmstate EXIT
-  |   addiu TMP2, sp, 16+32*8+32*4	// Recompute original value of sp.
-  |  addiu DISPATCH, JGL, -GG_DISP2G-32768
-  |  lw TMP1, 0(TMP2)			// Load exit number.
-  |  st_vmstate
-  |   sw TMP2, 16+32*8+29*4(sp)		// Store sp in RID_SP.
-  |  lw L, DISPATCH_GL(jit_L)(DISPATCH)
-  |  lw BASE, DISPATCH_GL(jit_base)(DISPATCH)
-  |  load_got lj_trace_exit
-  |  sw L, DISPATCH_J(L)(DISPATCH)
-  |  sw ra, DISPATCH_J(parent)(DISPATCH)  // Store trace number.
-  |  sw TMP1, DISPATCH_J(exitno)(DISPATCH)  // Store exit number.
-  |  addiu CARG1, DISPATCH, GG_DISP2J
-  |  sw BASE, L->base
-  |  call_intern lj_trace_exit		// (jit_State *J, ExitState *ex)
-  |.  addiu CARG2, sp, 16
-  |  // Returns MULTRES (unscaled) or negated error code.
-  |  lw TMP1, L->cframe
-  |  li AT, -4
-  |   lw BASE, L->base
-  |  and sp, TMP1, AT
-  |   lw PC, SAVE_PC			// Get SAVE_PC.
-  |  b >1
-  |.  sw L, SAVE_L			// Set SAVE_L (on-trace resume/yield).
-  |.endif
-  |->vm_exit_interp:
-  |.if JIT
-  |  // CRET1 = MULTRES or negated error code, BASE, PC and JGL set.
-  |  lw L, SAVE_L
-  |  addiu DISPATCH, JGL, -GG_DISP2G-32768
-  |1:
-  |  bltz CRET1, >3			// Check for error from exit.
-  |.  lw LFUNC:TMP1, FRAME_FUNC(BASE)
-  |    lui TMP3, 0x59c0			// TOBIT = 2^52 + 2^51 (float).
-  |  sll MULTRES, CRET1, 3
-  |    li TISNIL, LJ_TNIL
-  |  sw MULTRES, SAVE_MULTRES
-  |    mtc1 TMP3, TOBIT
-  |  lw TMP1, LFUNC:TMP1->pc
-  |   sw r0, DISPATCH_GL(jit_L)(DISPATCH)
-  |  lw KBASE, PC2PROTO(k)(TMP1)
-  |    cvt.d.s TOBIT, TOBIT
-  |  // Modified copy of ins_next which handles function header dispatch, too.
-  |  lw INS, 0(PC)
-  |   addiu PC, PC, 4
-  |    // Assumes TISNIL == ~LJ_VMST_INTERP == -1
-  |    sw TISNIL, DISPATCH_GL(vmstate)(DISPATCH)
-  |  decode_OP4a TMP1, INS
-  |  decode_OP4b TMP1
-  |    sltiu TMP2, TMP1, BC_FUNCF*4	// Function header?
-  |  addu TMP0, DISPATCH, TMP1
-  |   decode_RD8a RD, INS
-  |  lw AT, 0(TMP0)
-  |   decode_RA8a RA, INS
-  |    beqz TMP2, >2
-  |.  decode_RA8b RA
-  |  jr AT
-  |.  decode_RD8b RD
-  |2:
-  |  addiu RC, MULTRES, -8
-  |  jr AT
-  |.  addu RA, RA, BASE
-  |
-  |3:  // Rethrow error from the right C frame.
-  |  load_got lj_err_throw
-  |  negu CARG2, CRET1
-  |  call_intern lj_err_throw		// (lua_State *L, int errcode)
-  |.  move CARG1, L
-  |.endif
-  |
-  |//-----------------------------------------------------------------------
-  |//-- Math helper functions ----------------------------------------------
-  |//-----------------------------------------------------------------------
-  |
-  |// Modifies AT, TMP0, FRET1, FRET2, f4. Keeps all others incl. FARG1.
-  |.macro vm_round, func
-  |  lui TMP0, 0x4330			// Hiword of 2^52 (double).
-  |  mtc1 r0, f4
-  |  mtc1 TMP0, f5
-  |  abs.d FRET2, FARG1			// |x|
-  |    mfc1 AT, f13
-  |  c.olt.d 0, FRET2, f4
-  |   add.d FRET1, FRET2, f4		// (|x| + 2^52) - 2^52
-  |  bc1f 0, >1				// Truncate only if |x| < 2^52.
-  |.  sub.d FRET1, FRET1, f4
-  |    slt AT, AT, r0
-  |.if "func" == "ceil"
-  |   lui TMP0, 0xbff0			// Hiword of -1 (double). Preserves -0.
-  |.else
-  |   lui TMP0, 0x3ff0			// Hiword of +1 (double).
-  |.endif
-  |.if "func" == "trunc"
-  |   mtc1 TMP0, f5
-  |  c.olt.d 0, FRET2, FRET1		// |x| < result?
-  |   sub.d FRET2, FRET1, f4
-  |  movt.d FRET1, FRET2, 0		// If yes, subtract +1.
-  |  neg.d FRET2, FRET1
-  |  jr ra
-  |.  movn.d FRET1, FRET2, AT		// Merge sign bit back in.
-  |.else
-  |  neg.d FRET2, FRET1
-  |   mtc1 TMP0, f5
-  |  movn.d FRET1, FRET2, AT		// Merge sign bit back in.
-  |.if "func" == "ceil"
-  |  c.olt.d 0, FRET1, FARG1		// x > result?
-  |.else
-  |  c.olt.d 0, FARG1, FRET1		// x < result?
-  |.endif
-  |   sub.d FRET2, FRET1, f4		// If yes, subtract +-1.
-  |  jr ra
-  |.  movt.d FRET1, FRET2, 0
-  |.endif
-  |1:
-  |  jr ra
-  |.  mov.d FRET1, FARG1
-  |.endmacro
-  |
-  |->vm_floor:
-  |  vm_round floor
-  |->vm_ceil:
-  |  vm_round ceil
-  |->vm_trunc:
-  |.if JIT
-  |  vm_round trunc
-  |.endif
-  |
-  |//-----------------------------------------------------------------------
-  |//-- Miscellaneous functions --------------------------------------------
-  |//-----------------------------------------------------------------------
-  |
-  |//-----------------------------------------------------------------------
-  |//-- FFI helper functions -----------------------------------------------
-  |//-----------------------------------------------------------------------
-  |
-  |// Handler for callback functions. Callback slot number in r1, g in r2.
-  |->vm_ffi_callback:
-  |.if FFI
-  |.type CTSTATE, CTState, PC
-  |  saveregs
-  |  lw CTSTATE, GL:r2->ctype_state
-  |   addiu DISPATCH, r2, GG_G2DISP
-  |  load_got lj_ccallback_enter
-  |  sw r1, CTSTATE->cb.slot
-  |  sw CARG1, CTSTATE->cb.gpr[0]
-  |  sw CARG2, CTSTATE->cb.gpr[1]
-  |   sdc1 FARG1, CTSTATE->cb.fpr[0]
-  |  sw CARG3, CTSTATE->cb.gpr[2]
-  |  sw CARG4, CTSTATE->cb.gpr[3]
-  |   sdc1 FARG2, CTSTATE->cb.fpr[1]
-  |  addiu TMP0, sp, CFRAME_SPACE+16
-  |  sw TMP0, CTSTATE->cb.stack
-  |  sw r0, SAVE_PC			// Any value outside of bytecode is ok.
-  |   move CARG2, sp
-  |  call_intern lj_ccallback_enter	// (CTState *cts, void *cf)
-  |.  move CARG1, CTSTATE
-  |  // Returns lua_State *.
-  |  lw BASE, L:CRET1->base
-  |  lw RC, L:CRET1->top
-  |   move L, CRET1
-  |     lui TMP3, 0x59c0		// TOBIT = 2^52 + 2^51 (float).
-  |  lw LFUNC:RB, FRAME_FUNC(BASE)
-  |     mtc1 TMP3, TOBIT
-  |    li_vmstate INTERP
-  |     li TISNIL, LJ_TNIL
-  |  subu RC, RC, BASE
-  |    st_vmstate
-  |     cvt.d.s TOBIT, TOBIT
-  |  ins_callt
-  |.endif
-  |
-  |->cont_ffi_callback:			// Return from FFI callback.
-  |.if FFI
-  |  load_got lj_ccallback_leave
-  |  lw CTSTATE, DISPATCH_GL(ctype_state)(DISPATCH)
-  |   sw BASE, L->base
-  |   sw RB, L->top
-  |  sw L, CTSTATE->L
-  |  move CARG2, RA
-  |  call_intern lj_ccallback_leave	// (CTState *cts, TValue *o)
-  |.  move CARG1, CTSTATE
-  |  lw CRET1, CTSTATE->cb.gpr[0]
-  |   ldc1 FRET1, CTSTATE->cb.fpr[0]
-  |  lw CRET2, CTSTATE->cb.gpr[1]
-  |  b ->vm_leave_unw
-  |.  ldc1 FRET2, CTSTATE->cb.fpr[1]
-  |.endif
-  |
-  |->vm_ffi_call:			// Call C function via FFI.
-  |  // Caveat: needs special frame unwinding, see below.
-  |.if FFI
-  |  .type CCSTATE, CCallState, CARG1
-  |  lw TMP1, CCSTATE->spadj
-  |   lbu CARG2, CCSTATE->nsp
-  |  move TMP2, sp
-  |  subu sp, sp, TMP1
-  |  sw ra, -4(TMP2)
-  |   sll CARG2, CARG2, 2
-  |  sw r16, -8(TMP2)
-  |  sw CCSTATE, -12(TMP2)
-  |  move r16, TMP2
-  |  addiu TMP1, CCSTATE, offsetof(CCallState, stack)
-  |  addiu TMP2, sp, 16
-  |  beqz CARG2, >2
-  |.  addu TMP3, TMP1, CARG2
-  |1:
-  |   lw TMP0, 0(TMP1)
-  |  addiu TMP1, TMP1, 4
-  |  sltu AT, TMP1, TMP3
-  |   sw TMP0, 0(TMP2)
-  |  bnez AT, <1
-  |.  addiu TMP2, TMP2, 4
-  |2:
-  |  lw CFUNCADDR, CCSTATE->func
-  |  lw CARG2, CCSTATE->gpr[1]
-  |  lw CARG3, CCSTATE->gpr[2]
-  |  lw CARG4, CCSTATE->gpr[3]
-  |  ldc1 FARG1, CCSTATE->fpr[0]
-  |  ldc1 FARG2, CCSTATE->fpr[1]
-  |  jalr CFUNCADDR
-  |.  lw CARG1, CCSTATE->gpr[0]		// Do this last, since CCSTATE is CARG1.
-  |  lw CCSTATE:TMP1, -12(r16)
-  |  lw TMP2, -8(r16)
-  |  lw ra, -4(r16)
-  |  sw CRET1, CCSTATE:TMP1->gpr[0]
-  |  sw CRET2, CCSTATE:TMP1->gpr[1]
-  |  sdc1 FRET1, CCSTATE:TMP1->fpr[0]
-  |  sdc1 FRET2, CCSTATE:TMP1->fpr[1]
-  |  move sp, r16
-  |  jr ra
-  |.  move r16, TMP2
-  |.endif
-  |// Note: vm_ffi_call must be the last function in this object file!
-  |
-  |//-----------------------------------------------------------------------
-}
-
-/* Generate the code for a single instruction. */
-static void build_ins(BuildCtx *ctx, BCOp op, int defop)
-{
-  int vk = 0;
-  |=>defop:
-
-  switch (op) {
-
-  /* -- Comparison ops ---------------------------------------------------- */
-
-  /* Remember: all ops branch for a true comparison, fall through otherwise. */
-
-  case BC_ISLT: case BC_ISGE: case BC_ISLE: case BC_ISGT:
-    |  // RA = src1*8, RD = src2*8, JMP with RD = target
-    |  addu CARG2, BASE, RA
-    |   addu CARG3, BASE, RD
-    |  lw TMP0, HI(CARG2)
-    |   lw TMP1, HI(CARG3)
-    |   ldc1 f0, 0(CARG2)
-    |   ldc1 f2, 0(CARG3)
-    |  sltiu TMP0, TMP0, LJ_TISNUM
-    |   sltiu TMP1, TMP1, LJ_TISNUM
-    |    lhu TMP2, OFS_RD(PC)
-    |  and TMP0, TMP0, TMP1
-    |    addiu PC, PC, 4
-    |  beqz TMP0, ->vmeta_comp
-    |.   lui TMP1, (-(BCBIAS_J*4 >> 16) & 65535)
-    |    decode_RD4b TMP2
-    |    addu TMP2, TMP2, TMP1
-    if (op == BC_ISLT || op == BC_ISGE) {
-      |  c.olt.d f0, f2
-    } else {
-      |  c.ole.d f0, f2
-    }
-    if (op == BC_ISLT || op == BC_ISLE) {
-      |  movf TMP2, r0
-    } else {
-      |  movt TMP2, r0
-    }
-    |  addu PC, PC, TMP2
-    |1:
-    |  ins_next
-    break;
-
-  case BC_ISEQV: case BC_ISNEV:
-    vk = op == BC_ISEQV;
-    |  // RA = src1*8, RD = src2*8, JMP with RD = target
-    |  addu RA, BASE, RA
-    |   addiu PC, PC, 4
-    |  lw TMP0, HI(RA)
-    |   ldc1 f0, 0(RA)
-    |  addu RD, BASE, RD
-    |    lhu TMP2, -4+OFS_RD(PC)
-    |   lw TMP1, HI(RD)
-    |   ldc1 f2, 0(RD)
-    |    lui TMP3, (-(BCBIAS_J*4 >> 16) & 65535)
-    |  sltiu AT, TMP0, LJ_TISNUM
-    |  sltiu CARG1, TMP1, LJ_TISNUM
-    |    decode_RD4b TMP2
-    |  and AT, AT, CARG1
-    |  beqz AT, >5
-    |.   addu TMP2, TMP2, TMP3
-    |  c.eq.d f0, f2
-    if (vk) {
-      |  movf TMP2, r0
-    } else {
-      |  movt TMP2, r0
-    }
-    |1:
-    |  addu PC, PC, TMP2
-    |  ins_next
-    |5:  // Either or both types are not numbers.
-    |  lw CARG2, LO(RA)
-    |  lw CARG3, LO(RD)
-    |.if FFI
-    |  li TMP3, LJ_TCDATA
-    |  beq TMP0, TMP3, ->vmeta_equal_cd
-    |.endif
-    |.  sltiu AT, TMP0, LJ_TISPRI		// Not a primitive?
-    |.if FFI
-    |  beq TMP1, TMP3, ->vmeta_equal_cd
-    |.endif
-    |.  xor TMP3, CARG2, CARG3			// Same tv?
-    |  xor TMP1, TMP1, TMP0			// Same type?
-    |  sltiu CARG1, TMP0, LJ_TISTABUD+1		// Table or userdata?
-    |  movz TMP3, r0, AT			// Ignore tv if primitive.
-    |  movn CARG1, r0, TMP1			// Tab/ud and same type?
-    |  or AT, TMP1, TMP3			// Same type && (pri||same tv).
-    |  movz CARG1, r0, AT
-    |  beqz CARG1, <1	// Done if not tab/ud or not same type or same tv.
-    if (vk) {
-      |.  movn TMP2, r0, AT
-    } else {
-      |.  movz TMP2, r0, AT
-    }
-    |  // Different tables or userdatas. Need to check __eq metamethod.
-    |  // Field metatable must be at same offset for GCtab and GCudata!
-    |  lw TAB:TMP1, TAB:CARG2->metatable
-    |  beqz TAB:TMP1, <1		// No metatable?
-    |.  nop
-    |  lbu TMP1, TAB:TMP1->nomm
-    |  andi TMP1, TMP1, 1<<MM_eq
-    |  bnez TMP1, <1			// Or 'no __eq' flag set?
-    |.  nop
-    |  b ->vmeta_equal			// Handle __eq metamethod.
-    |.  li CARG4, 1-vk			// ne = 0 or 1.
-    break;
-
-  case BC_ISEQS: case BC_ISNES:
-    vk = op == BC_ISEQS;
-    |  // RA = src*8, RD = str_const*8 (~), JMP with RD = target
-    |  addu RA, BASE, RA
-    |   addiu PC, PC, 4
-    |  lw TMP0, HI(RA)
-    |   srl RD, RD, 1
-    |  lw STR:TMP3, LO(RA)
-    |   subu RD, KBASE, RD
-    |    lhu TMP2, -4+OFS_RD(PC)
-    |.if FFI
-    |  li AT, LJ_TCDATA
-    |  beq TMP0, AT, ->vmeta_equal_cd
-    |.endif
-    |.  lw STR:TMP1, -4(RD)		// KBASE-4-str_const*4
-    |  addiu TMP0, TMP0, -LJ_TSTR
-    |   decode_RD4b TMP2
-    |  xor TMP1, STR:TMP1, STR:TMP3
-    |  or TMP0, TMP0, TMP1
-    |   lui TMP3, (-(BCBIAS_J*4 >> 16) & 65535)
-    |   addu TMP2, TMP2, TMP3
-    if (vk) {
-      |  movn TMP2, r0, TMP0
-    } else {
-      |  movz TMP2, r0, TMP0
-    }
-    |  addu PC, PC, TMP2
-    |  ins_next
-    break;
-
-  case BC_ISEQN: case BC_ISNEN:
-    vk = op == BC_ISEQN;
-    |  // RA = src*8, RD = num_const*8, JMP with RD = target
-    |  addu RA, BASE, RA
-    |   addiu PC, PC, 4
-    |  lw TMP0, HI(RA)
-    |   ldc1 f0, 0(RA)
-    |  addu RD, KBASE, RD
-    |    lhu TMP2, -4+OFS_RD(PC)
-    |   ldc1 f2, 0(RD)
-    |    lui TMP3, (-(BCBIAS_J*4 >> 16) & 65535)
-    |  sltiu AT, TMP0, LJ_TISNUM
-    |    decode_RD4b TMP2
-    |.if FFI
-    |  beqz AT, >5
-    |.else
-    |  beqz AT, >1
-    |.endif
-    |.   addu TMP2, TMP2, TMP3
-    |   c.eq.d f0, f2
-    if (vk) {
-      |  movf TMP2, r0
-      |  addu PC, PC, TMP2
-      |1:
-    } else {
-      |  movt TMP2, r0
-      |1:
-      |  addu PC, PC, TMP2
-    }
-    |  ins_next
-    |.if FFI
-    |5:
-    |  li AT, LJ_TCDATA
-    |  beq TMP0, AT, ->vmeta_equal_cd
-    |.  nop
-    |  b <1
-    |.  nop
-    |.endif
-    break;
-
-  case BC_ISEQP: case BC_ISNEP:
-    vk = op == BC_ISEQP;
-    |  // RA = src*8, RD = primitive_type*8 (~), JMP with RD = target
-    |  addu RA, BASE, RA
-    |   srl TMP1, RD, 3
-    |  lw TMP0, HI(RA)
-    |    lhu TMP2, OFS_RD(PC)
-    |   not TMP1, TMP1
-    |    addiu PC, PC, 4
-    |.if FFI
-    |  li AT, LJ_TCDATA
-    |  beq TMP0, AT, ->vmeta_equal_cd
-    |.endif
-    |.  xor TMP0, TMP0, TMP1
-    |  decode_RD4b TMP2
-    |  lui TMP3, (-(BCBIAS_J*4 >> 16) & 65535)
-    |  addu TMP2, TMP2, TMP3
-    if (vk) {
-      |  movn TMP2, r0, TMP0
-    } else {
-      |  movz TMP2, r0, TMP0
-    }
-    |  addu PC, PC, TMP2
-    |  ins_next
-    break;
-
-  /* -- Unary test and copy ops ------------------------------------------- */
-
-  case BC_ISTC: case BC_ISFC: case BC_IST: case BC_ISF:
-    |  // RA = dst*8 or unused, RD = src*8, JMP with RD = target
-    |  addu RD, BASE, RD
-    |   lhu TMP2, OFS_RD(PC)
-    |  lw TMP0, HI(RD)
-    |   addiu PC, PC, 4
-    if (op == BC_IST || op == BC_ISF) {
-      |  sltiu TMP0, TMP0, LJ_TISTRUECOND
-      |   decode_RD4b TMP2
-      |   lui TMP3, (-(BCBIAS_J*4 >> 16) & 65535)
-      |   addu TMP2, TMP2, TMP3
-      if (op == BC_IST) {
-	|  movz TMP2, r0, TMP0
-      } else {
-	|  movn TMP2, r0, TMP0
-      }
-      |  addu PC, PC, TMP2
-    } else {
-      |  sltiu TMP0, TMP0, LJ_TISTRUECOND
-      |  ldc1 f0, 0(RD)
-      if (op == BC_ISTC) {
-	|  beqz TMP0, >1
-      } else {
-	|  bnez TMP0, >1
-      }
-      |.  addu RA, BASE, RA
-      |   decode_RD4b TMP2
-      |   lui TMP3, (-(BCBIAS_J*4 >> 16) & 65535)
-      |   addu TMP2, TMP2, TMP3
-      |  sdc1 f0, 0(RA)
-      |   addu PC, PC, TMP2
-      |1:
-    }
-    |  ins_next
-    break;
-
-  /* -- Unary ops --------------------------------------------------------- */
-
-  case BC_MOV:
-    |  // RA = dst*8, RD = src*8
-    |  addu RD, BASE, RD
-    |  addu RA, BASE, RA
-    |  ldc1 f0, 0(RD)
-    |  ins_next1
-    |  sdc1 f0, 0(RA)
-    |  ins_next2
-    break;
-  case BC_NOT:
-    |  // RA = dst*8, RD = src*8
-    |  addu RD, BASE, RD
-    |   addu RA, BASE, RA
-    |  lw TMP0, HI(RD)
-    |   li TMP1, LJ_TFALSE
-    |  sltiu TMP0, TMP0, LJ_TISTRUECOND
-    |  addiu TMP1, TMP0, LJ_TTRUE
-    |  ins_next1
-    |  sw TMP1, HI(RA)
-    |  ins_next2
-    break;
-  case BC_UNM:
-    |  // RA = dst*8, RD = src*8
-    |  addu CARG3, BASE, RD
-    |   addu RA, BASE, RA
-    |  lw TMP0, HI(CARG3)
-    |   ldc1 f0, 0(CARG3)
-    |  sltiu AT, TMP0, LJ_TISNUM
-    |  beqz AT, ->vmeta_unm
-    |.  neg.d f0, f0
-    |  ins_next1
-    |   sdc1 f0, 0(RA)
-    |  ins_next2
-    break;
-  case BC_LEN:
-    |  // RA = dst*8, RD = src*8
-    |  addu CARG2, BASE, RD
-    |   addu RA, BASE, RA
-    |  lw TMP0, HI(CARG2)
-    |   lw CARG1, LO(CARG2)
-    |  li AT, LJ_TSTR
-    |  bne TMP0, AT, >2
-    |.  li AT, LJ_TTAB
-    |  lw CRET1, STR:CARG1->len
-    |1:
-    |  mtc1 CRET1, f0
-    |  cvt.d.w f0, f0
-    |  ins_next1
-    |  sdc1 f0, 0(RA)
-    |  ins_next2
-    |2:
-    |  bne TMP0, AT, ->vmeta_len
-    |.  nop
-#if LJ_52
-    |  lw TAB:TMP2, TAB:CARG1->metatable
-    |  bnez TAB:TMP2, >9
-    |.  nop
-    |3:
-#endif
-    |->BC_LEN_Z:
-    |  load_got lj_tab_len
-    |  call_intern lj_tab_len		// (GCtab *t)
-    |.  nop
-    |  // Returns uint32_t (but less than 2^31).
-    |  b <1
-    |.  nop
-#if LJ_52
-    |9:
-    |  lbu TMP0, TAB:TMP2->nomm
-    |  andi TMP0, TMP0, 1<<MM_len
-    |  bnez TMP0, <3			// 'no __len' flag set: done.
-    |.  nop
-    |  b ->vmeta_len
-    |.  nop
-#endif
-    break;
-
-  /* -- Binary ops -------------------------------------------------------- */
-
-    |.macro ins_arithpre
-    ||vk = ((int)op - BC_ADDVN) / (BC_ADDNV-BC_ADDVN);
-    |  decode_RB8a RB, INS
-    |  decode_RB8b RB
-    |   decode_RDtoRC8 RC, RD
-    |  // RA = dst*8, RB = src1*8, RC = src2*8 | num_const*8
-    ||switch (vk) {
-    ||case 0:
-    |   addu CARG3, BASE, RB
-    |    addu CARG4, KBASE, RC
-    |   lw TMP1, HI(CARG3)
-    |   ldc1 f20, 0(CARG3)
-    |    ldc1 f22, 0(CARG4)
-    |   sltiu AT, TMP1, LJ_TISNUM
-    ||  break;
-    ||case 1:
-    |   addu CARG4, BASE, RB
-    |    addu CARG3, KBASE, RC
-    |   lw TMP1, HI(CARG4)
-    |   ldc1 f22, 0(CARG4)
-    |    ldc1 f20, 0(CARG3)
-    |   sltiu AT, TMP1, LJ_TISNUM
-    ||  break;
-    ||default:
-    |   addu CARG3, BASE, RB
-    |    addu CARG4, BASE, RC
-    |   lw TMP1, HI(CARG3)
-    |    lw TMP2, HI(CARG4)
-    |   ldc1 f20, 0(CARG3)
-    |    ldc1 f22, 0(CARG4)
-    |   sltiu AT, TMP1, LJ_TISNUM
-    |   sltiu TMP0, TMP2, LJ_TISNUM
-    |   and AT, AT, TMP0
-    ||  break;
-    ||}
-    |  beqz AT, ->vmeta_arith
-    |.  addu RA, BASE, RA
-    |.endmacro
-    |
-    |.macro fpmod, a, b, c
-    |->BC_MODVN_Z:
-    |  bal ->vm_floor			// floor(b/c)
-    |.  div.d FARG1, b, c
-    |  mul.d a, FRET1, c
-    |  sub.d a, b, a			// b - floor(b/c)*c
-    |.endmacro
-    |
-    |.macro ins_arith, ins
-    |  ins_arithpre
-    |.if "ins" == "fpmod_"
-    |  b ->BC_MODVN_Z			// Avoid 3 copies. It's slow anyway.
-    |.  nop
-    |.else
-    |  ins f0, f20, f22
-    |  ins_next1
-    |  sdc1 f0, 0(RA)
-    |  ins_next2
-    |.endif
-    |.endmacro
-
-  case BC_ADDVN: case BC_ADDNV: case BC_ADDVV:
-    |  ins_arith add.d
-    break;
-  case BC_SUBVN: case BC_SUBNV: case BC_SUBVV:
-    |  ins_arith sub.d
-    break;
-  case BC_MULVN: case BC_MULNV: case BC_MULVV:
-    |  ins_arith mul.d
-    break;
-  case BC_DIVVN: case BC_DIVNV: case BC_DIVVV:
-    |  ins_arith div.d
-    break;
-  case BC_MODVN:
-    |  ins_arith fpmod
-    break;
-  case BC_MODNV: case BC_MODVV:
-    |  ins_arith fpmod_
-    break;
-  case BC_POW:
-    |  decode_RB8a RB, INS
-    |  decode_RB8b RB
-    |   decode_RDtoRC8 RC, RD
-    |  addu CARG3, BASE, RB
-    |   addu CARG4, BASE, RC
-    |  lw TMP1, HI(CARG3)
-    |   lw TMP2, HI(CARG4)
-    |  ldc1 FARG1, 0(CARG3)
-    |   ldc1 FARG2, 0(CARG4)
-    |  sltiu AT, TMP1, LJ_TISNUM
-    |  sltiu TMP0, TMP2, LJ_TISNUM
-    |  and AT, AT, TMP0
-    |  load_got pow
-    |  beqz AT, ->vmeta_arith
-    |.  addu RA, BASE, RA
-    |  call_extern
-    |.  nop
-    |  ins_next1
-    |  sdc1 FRET1, 0(RA)
-    |  ins_next2
-    break;
-
-  case BC_CAT:
-    |  // RA = dst*8, RB = src_start*8, RC = src_end*8
-    |  decode_RB8a RB, INS
-    |  decode_RB8b RB
-    |   decode_RDtoRC8 RC, RD
-    |  subu CARG3, RC, RB
-    |   sw BASE, L->base
-    |  addu CARG2, BASE, RC
-    |  move MULTRES, RB
-    |->BC_CAT_Z:
-    |  load_got lj_meta_cat
-    |  srl CARG3, CARG3, 3
-    |   sw PC, SAVE_PC
-    |  call_intern lj_meta_cat		// (lua_State *L, TValue *top, int left)
-    |.  move CARG1, L
-    |  // Returns NULL (finished) or TValue * (metamethod).
-    |  bnez CRET1, ->vmeta_binop
-    |.  lw BASE, L->base
-    |  addu RB, BASE, MULTRES
-    |  ldc1 f0, 0(RB)
-    |   addu RA, BASE, RA
-    |  ins_next1
-    |   sdc1 f0, 0(RA)			// Copy result from RB to RA.
-    |  ins_next2
-    break;
-
-  /* -- Constant ops ------------------------------------------------------ */
-
-  case BC_KSTR:
-    |  // RA = dst*8, RD = str_const*8 (~)
-    |  srl TMP1, RD, 1
-    |  subu TMP1, KBASE, TMP1
-    |  ins_next1
-    |  lw TMP0, -4(TMP1)		// KBASE-4-str_const*4
-    |  addu RA, BASE, RA
-    |   li TMP2, LJ_TSTR
-    |  sw TMP0, LO(RA)
-    |   sw TMP2, HI(RA)
-    |  ins_next2
-    break;
-  case BC_KCDATA:
-    |.if FFI
-    |  // RA = dst*8, RD = cdata_const*8 (~)
-    |  srl TMP1, RD, 1
-    |  subu TMP1, KBASE, TMP1
-    |  ins_next1
-    |  lw TMP0, -4(TMP1)		// KBASE-4-cdata_const*4
-    |  addu RA, BASE, RA
-    |   li TMP2, LJ_TCDATA
-    |  sw TMP0, LO(RA)
-    |   sw TMP2, HI(RA)
-    |  ins_next2
-    |.endif
-    break;
-  case BC_KSHORT:
-    |  // RA = dst*8, RD = int16_literal*8
-    |  sra RD, INS, 16
-    |  mtc1 RD, f0
-    |  addu RA, BASE, RA
-    |  cvt.d.w f0, f0
-    |  ins_next1
-    |  sdc1 f0, 0(RA)
-    |  ins_next2
-    break;
-  case BC_KNUM:
-    |  // RA = dst*8, RD = num_const*8
-    |  addu RD, KBASE, RD
-    |   addu RA, BASE, RA
-    |  ldc1 f0, 0(RD)
-    |  ins_next1
-    |   sdc1 f0, 0(RA)
-    |  ins_next2
-    break;
-  case BC_KPRI:
-    |  // RA = dst*8, RD = primitive_type*8 (~)
-    |  srl TMP1, RD, 3
-    |   addu RA, BASE, RA
-    |  not TMP0, TMP1
-    |  ins_next1
-    |   sw TMP0, HI(RA)
-    |  ins_next2
-    break;
-  case BC_KNIL:
-    |  // RA = base*8, RD = end*8
-    |  addu RA, BASE, RA
-    |  sw TISNIL, HI(RA)
-    |   addiu RA, RA, 8
-    |  addu RD, BASE, RD
-    |1:
-    |  sw TISNIL, HI(RA)
-    |  slt AT, RA, RD
-    |  bnez AT, <1
-    |.  addiu RA, RA, 8
-    |  ins_next_
-    break;
-
-  /* -- Upvalue and function ops ------------------------------------------ */
-
-  case BC_UGET:
-    |  // RA = dst*8, RD = uvnum*8
-    |  lw LFUNC:RB, FRAME_FUNC(BASE)
-    |   srl RD, RD, 1
-    |   addu RD, RD, LFUNC:RB
-    |  lw UPVAL:RB, LFUNC:RD->uvptr
-    |  ins_next1
-    |  lw TMP1, UPVAL:RB->v
-    |  ldc1 f0, 0(TMP1)
-    |  addu RA, BASE, RA
-    |  sdc1 f0, 0(RA)
-    |  ins_next2
-    break;
-  case BC_USETV:
-    |  // RA = uvnum*8, RD = src*8
-    |  lw LFUNC:RB, FRAME_FUNC(BASE)
-    |    srl RA, RA, 1
-    |   addu RD, BASE, RD
-    |    addu RA, RA, LFUNC:RB
-    |   ldc1 f0, 0(RD)
-    |  lw UPVAL:RB, LFUNC:RA->uvptr
-    |  lbu TMP3, UPVAL:RB->marked
-    |   lw CARG2, UPVAL:RB->v
-    |  andi TMP3, TMP3, LJ_GC_BLACK	// isblack(uv)
-    |  lbu TMP0, UPVAL:RB->closed
-    |   lw TMP2, HI(RD)
-    |   sdc1 f0, 0(CARG2)
-    |  li AT, LJ_GC_BLACK|1
-    |  or TMP3, TMP3, TMP0
-    |  beq TMP3, AT, >2			// Upvalue is closed and black?
-    |.  addiu TMP2, TMP2, -(LJ_TNUMX+1)
-    |1:
-    |  ins_next
-    |
-    |2:  // Check if new value is collectable.
-    |  sltiu AT, TMP2, LJ_TISGCV - (LJ_TNUMX+1)
-    |  beqz AT, <1			// tvisgcv(v)
-    |.  lw TMP1, LO(RD)
-    |  lbu TMP3, GCOBJ:TMP1->gch.marked
-    |  andi TMP3, TMP3, LJ_GC_WHITES	// iswhite(v)
-    |  beqz TMP3, <1
-    |.  load_got lj_gc_barrieruv
-    |  // Crossed a write barrier. Move the barrier forward.
-    |  call_intern lj_gc_barrieruv	// (global_State *g, TValue *tv)
-    |.  addiu CARG1, DISPATCH, GG_DISP2G
-    |  b <1
-    |.  nop
-    break;
-  case BC_USETS:
-    |  // RA = uvnum*8, RD = str_const*8 (~)
-    |  lw LFUNC:RB, FRAME_FUNC(BASE)
-    |    srl RA, RA, 1
-    |   srl TMP1, RD, 1
-    |    addu RA, RA, LFUNC:RB
-    |   subu TMP1, KBASE, TMP1
-    |  lw UPVAL:RB, LFUNC:RA->uvptr
-    |   lw STR:TMP1, -4(TMP1)		// KBASE-4-str_const*4
-    |  lbu TMP2, UPVAL:RB->marked
-    |   lw CARG2, UPVAL:RB->v
-    |   lbu TMP3, STR:TMP1->marked
-    |  andi AT, TMP2, LJ_GC_BLACK	// isblack(uv)
-    |   lbu TMP2, UPVAL:RB->closed
-    |   li TMP0, LJ_TSTR
-    |   sw STR:TMP1, LO(CARG2)
-    |  bnez AT, >2
-    |.  sw TMP0, HI(CARG2)
-    |1:
-    |  ins_next
-    |
-    |2:  // Check if string is white and ensure upvalue is closed.
-    |  beqz TMP2, <1
-    |.  andi AT, TMP3, LJ_GC_WHITES	// iswhite(str)
-    |  beqz AT, <1
-    |.  load_got lj_gc_barrieruv
-    |  // Crossed a write barrier. Move the barrier forward.
-    |  call_intern lj_gc_barrieruv	// (global_State *g, TValue *tv)
-    |.  addiu CARG1, DISPATCH, GG_DISP2G
-    |  b <1
-    |.  nop
-    break;
-  case BC_USETN:
-    |  // RA = uvnum*8, RD = num_const*8
-    |  lw LFUNC:RB, FRAME_FUNC(BASE)
-    |   srl RA, RA, 1
-    |    addu RD, KBASE, RD
-    |   addu RA, RA, LFUNC:RB
-    |    ldc1 f0, 0(RD)
-    |  lw UPVAL:RB, LFUNC:RA->uvptr
-    |  ins_next1
-    |  lw TMP1, UPVAL:RB->v
-    |  sdc1 f0, 0(TMP1)
-    |  ins_next2
-    break;
-  case BC_USETP:
-    |  // RA = uvnum*8, RD = primitive_type*8 (~)
-    |  lw LFUNC:RB, FRAME_FUNC(BASE)
-    |   srl RA, RA, 1
-    |    srl TMP0, RD, 3
-    |   addu RA, RA, LFUNC:RB
-    |    not TMP0, TMP0
-    |  lw UPVAL:RB, LFUNC:RA->uvptr
-    |  ins_next1
-    |  lw TMP1, UPVAL:RB->v
-    |  sw TMP0, HI(TMP1)
-    |  ins_next2
-    break;
-
-  case BC_UCLO:
-    |  // RA = level*8, RD = target
-    |  lw TMP2, L->openupval
-    |  branch_RD			// Do this first since RD is not saved.
-    |  load_got lj_func_closeuv
-    |   sw BASE, L->base
-    |  beqz TMP2, >1
-    |.  move CARG1, L
-    |  call_intern lj_func_closeuv	// (lua_State *L, TValue *level)
-    |.  addu CARG2, BASE, RA
-    |  lw BASE, L->base
-    |1:
-    |  ins_next
-    break;
-
-  case BC_FNEW:
-    |  // RA = dst*8, RD = proto_const*8 (~) (holding function prototype)
-    |  srl TMP1, RD, 1
-    |  load_got lj_func_newL_gc
-    |  subu TMP1, KBASE, TMP1
-    |  lw CARG3, FRAME_FUNC(BASE)
-    |  lw CARG2, -4(TMP1)		// KBASE-4-tab_const*4
-    |   sw BASE, L->base
-    |   sw PC, SAVE_PC
-    |  // (lua_State *L, GCproto *pt, GCfuncL *parent)
-    |  call_intern lj_func_newL_gc
-    |.  move CARG1, L
-    |  // Returns GCfuncL *.
-    |  lw BASE, L->base
-    |   li TMP0, LJ_TFUNC
-    |  ins_next1
-    |  addu RA, BASE, RA
-    |  sw TMP0, HI(RA)
-    |  sw LFUNC:CRET1, LO(RA)
-    |  ins_next2
-    break;
-
-  /* -- Table ops --------------------------------------------------------- */
-
-  case BC_TNEW:
-  case BC_TDUP:
-    |  // RA = dst*8, RD = (hbits|asize)*8 | tab_const*8 (~)
-    |  lw TMP0, DISPATCH_GL(gc.total)(DISPATCH)
-    |  lw TMP1, DISPATCH_GL(gc.threshold)(DISPATCH)
-    |   sw BASE, L->base
-    |   sw PC, SAVE_PC
-    |  sltu AT, TMP0, TMP1
-    |  beqz AT, >5
-    |1:
-    if (op == BC_TNEW) {
-      |  load_got lj_tab_new
-      |  srl CARG2, RD, 3
-      |  andi CARG2, CARG2, 0x7ff
-      |  li TMP0, 0x801
-      |  addiu AT, CARG2, -0x7ff
-      |   srl CARG3, RD, 14
-      |  movz CARG2, TMP0, AT
-      |  // (lua_State *L, int32_t asize, uint32_t hbits)
-      |  call_intern lj_tab_new
-      |.  move CARG1, L
-      |  // Returns Table *.
-    } else {
-      |  load_got lj_tab_dup
-      |  srl TMP1, RD, 1
-      |  subu TMP1, KBASE, TMP1
-      |  move CARG1, L
-      |  call_intern lj_tab_dup		// (lua_State *L, Table *kt)
-      |.  lw CARG2, -4(TMP1)		// KBASE-4-str_const*4
-      |  // Returns Table *.
-    }
-    |  lw BASE, L->base
-    |  ins_next1
-    |  addu RA, BASE, RA
-    |   li TMP0, LJ_TTAB
-    |  sw TAB:CRET1, LO(RA)
-    |   sw TMP0, HI(RA)
-    |  ins_next2
-    |5:
-    |  load_got lj_gc_step_fixtop
-    |  move MULTRES, RD
-    |  call_intern lj_gc_step_fixtop	// (lua_State *L)
-    |.  move CARG1, L
-    |  b <1
-    |.  move RD, MULTRES
-    break;
-
-  case BC_GGET:
-    |  // RA = dst*8, RD = str_const*8 (~)
-  case BC_GSET:
-    |  // RA = src*8, RD = str_const*8 (~)
-    |  lw LFUNC:TMP2, FRAME_FUNC(BASE)
-    |   srl TMP1, RD, 1
-    |   subu TMP1, KBASE, TMP1
-    |  lw TAB:RB, LFUNC:TMP2->env
-    |  lw STR:RC, -4(TMP1)		// KBASE-4-str_const*4
-    if (op == BC_GGET) {
-      |  b ->BC_TGETS_Z
-    } else {
-      |  b ->BC_TSETS_Z
-    }
-    |.  addu RA, BASE, RA
-    break;
-
-  case BC_TGETV:
-    |  // RA = dst*8, RB = table*8, RC = key*8
-    |  decode_RB8a RB, INS
-    |  decode_RB8b RB
-    |   decode_RDtoRC8 RC, RD
-    |  addu CARG2, BASE, RB
-    |   addu CARG3, BASE, RC
-    |  lw TMP1, HI(CARG2)
-    |   lw TMP2, HI(CARG3)
-    |    lw TAB:RB, LO(CARG2)
-    |  li AT, LJ_TTAB
-    |   ldc1 f0, 0(CARG3)
-    |  bne TMP1, AT, ->vmeta_tgetv
-    |.  addu RA, BASE, RA
-    |  sltiu AT, TMP2, LJ_TISNUM
-    |  beqz AT, >5
-    |.  li AT, LJ_TSTR
-    |
-    |  // Convert number key to integer, check for integerness and range.
-    |  cvt.w.d f2, f0
-    |   lw TMP0, TAB:RB->asize
-    |  mfc1 TMP2, f2
-    |  cvt.d.w f4, f2
-    |   lw TMP1, TAB:RB->array
-    |  c.eq.d f0, f4
-    |  sltu AT, TMP2, TMP0
-    |  movf AT, r0
-    |   sll TMP2, TMP2, 3
-    |  beqz AT, ->vmeta_tgetv		// Integer key and in array part?
-    |.  addu TMP2, TMP1, TMP2
-    |  lw TMP0, HI(TMP2)
-    |  beq TMP0, TISNIL, >2
-    |.  ldc1 f0, 0(TMP2)
-    |1:
-    |  ins_next1
-    |   sdc1 f0, 0(RA)
-    |  ins_next2
-    |
-    |2:  // Check for __index if table value is nil.
-    |  lw TAB:TMP2, TAB:RB->metatable
-    |  beqz TAB:TMP2, <1		// No metatable: done.
-    |.  nop
-    |  lbu TMP0, TAB:TMP2->nomm
-    |  andi TMP0, TMP0, 1<<MM_index
-    |  bnez TMP0, <1			// 'no __index' flag set: done.
-    |.  nop
-    |  b ->vmeta_tgetv
-    |.  nop
-    |
-    |5:
-    |  bne TMP2, AT, ->vmeta_tgetv
-    |.  lw STR:RC, LO(CARG3)
-    |  b ->BC_TGETS_Z			// String key?
-    |.  nop
-    break;
-  case BC_TGETS:
-    |  // RA = dst*8, RB = table*8, RC = str_const*4 (~)
-    |  decode_RB8a RB, INS
-    |  decode_RB8b RB
-    |  addu CARG2, BASE, RB
-    |   decode_RC4a RC, INS
-    |  lw TMP0, HI(CARG2)
-    |   decode_RC4b RC
-    |  li AT, LJ_TTAB
-    |   lw TAB:RB, LO(CARG2)
-    |   subu CARG3, KBASE, RC
-    |   lw STR:RC, -4(CARG3)		// KBASE-4-str_const*4
-    |  bne TMP0, AT, ->vmeta_tgets1
-    |.  addu RA, BASE, RA
-    |->BC_TGETS_Z:
-    |  // TAB:RB = GCtab *, STR:RC = GCstr *, RA = dst*8
-    |  lw TMP0, TAB:RB->hmask
-    |  lw TMP1, STR:RC->hash
-    |  lw NODE:TMP2, TAB:RB->node
-    |  and TMP1, TMP1, TMP0		// idx = str->hash & tab->hmask
-    |  sll TMP0, TMP1, 5
-    |  sll TMP1, TMP1, 3
-    |  subu TMP1, TMP0, TMP1
-    |  addu NODE:TMP2, NODE:TMP2, TMP1	// node = tab->node + (idx*32-idx*8)
-    |1:
-    |  lw CARG1, offsetof(Node, key)+HI(NODE:TMP2)
-    |   lw TMP0, offsetof(Node, key)+LO(NODE:TMP2)
-    |    lw NODE:TMP1, NODE:TMP2->next
-    |    lw CARG2, offsetof(Node, val)+HI(NODE:TMP2)
-    |  addiu CARG1, CARG1, -LJ_TSTR
-    |   xor TMP0, TMP0, STR:RC
-    |  or AT, CARG1, TMP0
-    |  bnez AT, >4
-    |.  lw TAB:TMP3, TAB:RB->metatable
-    |    beq CARG2, TISNIL, >5		// Key found, but nil value?
-    |.    lw CARG1, offsetof(Node, val)+LO(NODE:TMP2)
-    |3:
-    |  ins_next1
-    |    sw CARG2, HI(RA)
-    |     sw CARG1, LO(RA)
-    |  ins_next2
-    |
-    |4:  // Follow hash chain.
-    |  bnez NODE:TMP1, <1
-    |.  move NODE:TMP2, NODE:TMP1
-    |  // End of hash chain: key not found, nil result.
-    |
-    |5:  // Check for __index if table value is nil.
-    |  beqz TAB:TMP3, <3		// No metatable: done.
-    |.  li CARG2, LJ_TNIL
-    |  lbu TMP0, TAB:TMP3->nomm
-    |  andi TMP0, TMP0, 1<<MM_index
-    |  bnez TMP0, <3			// 'no __index' flag set: done.
-    |.  nop
-    |  b ->vmeta_tgets
-    |.  nop
-    break;
-  case BC_TGETB:
-    |  // RA = dst*8, RB = table*8, RC = index*8
-    |  decode_RB8a RB, INS
-    |  decode_RB8b RB
-    |  addu CARG2, BASE, RB
-    |   decode_RDtoRC8 RC, RD
-    |  lw CARG1, HI(CARG2)
-    |  li AT, LJ_TTAB
-    |   lw TAB:RB, LO(CARG2)
-    |   addu RA, BASE, RA
-    |  bne CARG1, AT, ->vmeta_tgetb
-    |.  srl TMP0, RC, 3
-    |  lw TMP1, TAB:RB->asize
-    |   lw TMP2, TAB:RB->array
-    |  sltu AT, TMP0, TMP1
-    |  beqz AT, ->vmeta_tgetb
-    |.  addu RC, TMP2, RC
-    |  lw TMP1, HI(RC)
-    |  beq TMP1, TISNIL, >5
-    |.  ldc1 f0, 0(RC)
-    |1:
-    |  ins_next1
-    |   sdc1 f0, 0(RA)
-    |  ins_next2
-    |
-    |5:  // Check for __index if table value is nil.
-    |  lw TAB:TMP2, TAB:RB->metatable
-    |  beqz TAB:TMP2, <1		// No metatable: done.
-    |.  nop
-    |  lbu TMP1, TAB:TMP2->nomm
-    |  andi TMP1, TMP1, 1<<MM_index
-    |  bnez TMP1, <1			// 'no __index' flag set: done.
-    |.  nop
-    |  b ->vmeta_tgetb			// Caveat: preserve TMP0!
-    |.  nop
-    break;
-
-  case BC_TSETV:
-    |  // RA = src*8, RB = table*8, RC = key*8
-    |  decode_RB8a RB, INS
-    |  decode_RB8b RB
-    |   decode_RDtoRC8 RC, RD
-    |  addu CARG2, BASE, RB
-    |   addu CARG3, BASE, RC
-    |  lw TMP1, HI(CARG2)
-    |   lw TMP2, HI(CARG3)
-    |    lw TAB:RB, LO(CARG2)
-    |  li AT, LJ_TTAB
-    |   ldc1 f0, 0(CARG3)
-    |  bne TMP1, AT, ->vmeta_tsetv
-    |.  addu RA, BASE, RA
-    |  sltiu AT, TMP2, LJ_TISNUM
-    |  beqz AT, >5
-    |.  li AT, LJ_TSTR
-    |
-    |  // Convert number key to integer, check for integerness and range.
-    |  cvt.w.d f2, f0
-    |   lw TMP0, TAB:RB->asize
-    |  mfc1 TMP2, f2
-    |  cvt.d.w f4, f2
-    |   lw TMP1, TAB:RB->array
-    |  c.eq.d f0, f4
-    |  sltu AT, TMP2, TMP0
-    |  movf AT, r0
-    |   sll TMP2, TMP2, 3
-    |  beqz AT, ->vmeta_tsetv		// Integer key and in array part?
-    |.  addu TMP1, TMP1, TMP2
-    |   lbu TMP3, TAB:RB->marked
-    |  lw TMP0, HI(TMP1)
-    |  beq TMP0, TISNIL, >3
-    |.  ldc1 f0, 0(RA)
-    |1:
-    |   andi AT, TMP3, LJ_GC_BLACK	// isblack(table)
-    |   bnez AT, >7
-    |.  sdc1 f0, 0(TMP1)
-    |2:
-    |  ins_next
-    |
-    |3:  // Check for __newindex if previous value is nil.
-    |  lw TAB:TMP2, TAB:RB->metatable
-    |  beqz TAB:TMP2, <1		// No metatable: done.
-    |.  nop
-    |  lbu TMP2, TAB:TMP2->nomm
-    |  andi TMP2, TMP2, 1<<MM_newindex
-    |  bnez TMP2, <1			// 'no __newindex' flag set: done.
-    |.  nop
-    |  b ->vmeta_tsetv
-    |.  nop
-    |
-    |5:
-    |  bne TMP2, AT, ->vmeta_tsetv
-    |.  lw STR:RC, LO(CARG3)
-    |  b ->BC_TSETS_Z			// String key?
-    |.  nop
-    |
-    |7:  // Possible table write barrier for the value. Skip valiswhite check.
-    |  barrierback TAB:RB, TMP3, TMP0, <2
-    break;
-  case BC_TSETS:
-    |  // RA = src*8, RB = table*8, RC = str_const*8 (~)
-    |  decode_RB8a RB, INS
-    |  decode_RB8b RB
-    |  addu CARG2, BASE, RB
-    |   decode_RC4a RC, INS
-    |  lw TMP0, HI(CARG2)
-    |   decode_RC4b RC
-    |  li AT, LJ_TTAB
-    |   subu CARG3, KBASE, RC
-    |    lw TAB:RB, LO(CARG2)
-    |   lw STR:RC, -4(CARG3)		// KBASE-4-str_const*4
-    |  bne TMP0, AT, ->vmeta_tsets1
-    |.  addu RA, BASE, RA
-    |->BC_TSETS_Z:
-    |  // TAB:RB = GCtab *, STR:RC = GCstr *, RA = BASE+src*8
-    |  lw TMP0, TAB:RB->hmask
-    |  lw TMP1, STR:RC->hash
-    |  lw NODE:TMP2, TAB:RB->node
-    |   sb r0, TAB:RB->nomm		// Clear metamethod cache.
-    |  and TMP1, TMP1, TMP0		// idx = str->hash & tab->hmask
-    |  sll TMP0, TMP1, 5
-    |  sll TMP1, TMP1, 3
-    |  subu TMP1, TMP0, TMP1
-    |  addu NODE:TMP2, NODE:TMP2, TMP1	// node = tab->node + (idx*32-idx*8)
-    |   ldc1 f20, 0(RA)
-    |1:
-    |  lw CARG1, offsetof(Node, key)+HI(NODE:TMP2)
-    |   lw TMP0, offsetof(Node, key)+LO(NODE:TMP2)
-    |  li AT, LJ_TSTR
-    |    lw NODE:TMP1, NODE:TMP2->next
-    |  bne CARG1, AT, >5
-    |.   lw CARG2, offsetof(Node, val)+HI(NODE:TMP2)
-    |   bne TMP0, STR:RC, >5
-    |.    lbu TMP3, TAB:RB->marked
-    |    beq CARG2, TISNIL, >4		// Key found, but nil value?
-    |.    lw TAB:TMP0, TAB:RB->metatable
-    |2:
-    |  andi AT, TMP3, LJ_GC_BLACK	// isblack(table)
-    |  bnez AT, >7
-    |.  sdc1 f20, NODE:TMP2->val
-    |3:
-    |  ins_next
-    |
-    |4:  // Check for __newindex if previous value is nil.
-    |  beqz TAB:TMP0, <2		// No metatable: done.
-    |.  nop
-    |  lbu TMP0, TAB:TMP0->nomm
-    |  andi TMP0, TMP0, 1<<MM_newindex
-    |  bnez TMP0, <2			// 'no __newindex' flag set: done.
-    |.  nop
-    |  b ->vmeta_tsets
-    |.  nop
-    |
-    |5:  // Follow hash chain.
-    |  bnez NODE:TMP1, <1
-    |.  move NODE:TMP2, NODE:TMP1
-    |  // End of hash chain: key not found, add a new one
-    |
-    |  // But check for __newindex first.
-    |  lw TAB:TMP2, TAB:RB->metatable
-    |  beqz TAB:TMP2, >6		// No metatable: continue.
-    |.  addiu CARG3, DISPATCH, DISPATCH_GL(tmptv)
-    |  lbu TMP0, TAB:TMP2->nomm
-    |  andi TMP0, TMP0, 1<<MM_newindex
-    |  beqz TMP0, ->vmeta_tsets		// 'no __newindex' flag NOT set: check.
-    |.  li AT, LJ_TSTR
-    |6:
-    |  load_got lj_tab_newkey
-    |  sw STR:RC, LO(CARG3)
-    |  sw AT, HI(CARG3)
-    |   sw BASE, L->base
-    |  move CARG2, TAB:RB
-    |   sw PC, SAVE_PC
-    |  call_intern lj_tab_newkey	// (lua_State *L, GCtab *t, TValue *k
-    |.  move CARG1, L
-    |  // Returns TValue *.
-    |  lw BASE, L->base
-    |  b <3				// No 2nd write barrier needed.
-    |.  sdc1 f20, 0(CRET1)
-    |
-    |7:  // Possible table write barrier for the value. Skip valiswhite check.
-    |  barrierback TAB:RB, TMP3, TMP0, <3
-    break;
-  case BC_TSETB:
-    |  // RA = src*8, RB = table*8, RC = index*8
-    |  decode_RB8a RB, INS
-    |  decode_RB8b RB
-    |  addu CARG2, BASE, RB
-    |   decode_RDtoRC8 RC, RD
-    |  lw CARG1, HI(CARG2)
-    |  li AT, LJ_TTAB
-    |   lw TAB:RB, LO(CARG2)
-    |   addu RA, BASE, RA
-    |  bne CARG1, AT, ->vmeta_tsetb
-    |.  srl TMP0, RC, 3
-    |  lw TMP1, TAB:RB->asize
-    |   lw TMP2, TAB:RB->array
-    |  sltu AT, TMP0, TMP1
-    |  beqz AT, ->vmeta_tsetb
-    |.  addu RC, TMP2, RC
-    |  lw TMP1, HI(RC)
-    |   lbu TMP3, TAB:RB->marked
-    |  beq TMP1, TISNIL, >5
-    |.  ldc1 f0, 0(RA)
-    |1:
-    |  andi AT, TMP3, LJ_GC_BLACK	// isblack(table)
-    |  bnez AT, >7
-    |.  sdc1 f0, 0(RC)
-    |2:
-    |  ins_next
-    |
-    |5:  // Check for __newindex if previous value is nil.
-    |  lw TAB:TMP2, TAB:RB->metatable
-    |  beqz TAB:TMP2, <1		// No metatable: done.
-    |.  nop
-    |  lbu TMP1, TAB:TMP2->nomm
-    |  andi TMP1, TMP1, 1<<MM_newindex
-    |  bnez TMP1, <1			// 'no __newindex' flag set: done.
-    |.  nop
-    |  b ->vmeta_tsetb			// Caveat: preserve TMP0!
-    |.  nop
-    |
-    |7:  // Possible table write barrier for the value. Skip valiswhite check.
-    |  barrierback TAB:RB, TMP3, TMP0, <2
-    break;
-
-  case BC_TSETM:
-    |  // RA = base*8 (table at base-1), RD = num_const*8 (start index)
-    |  addu RA, BASE, RA
-    |1:
-    |   addu TMP3, KBASE, RD
-    |  lw TAB:CARG2, -8+LO(RA)		// Guaranteed to be a table.
-    |    addiu TMP0, MULTRES, -8
-    |   lw TMP3, LO(TMP3)		// Integer constant is in lo-word.
-    |    beqz TMP0, >4			// Nothing to copy?
-    |.    srl CARG3, TMP0, 3
-    |  addu CARG3, CARG3, TMP3
-    |  lw TMP2, TAB:CARG2->asize
-    |   sll TMP1, TMP3, 3
-    |    lbu TMP3, TAB:CARG2->marked
-    |   lw CARG1, TAB:CARG2->array
-    |  sltu AT, TMP2, CARG3
-    |  bnez AT, >5
-    |.  addu TMP2, RA, TMP0
-    |   addu TMP1, TMP1, CARG1
-    |  andi TMP0, TMP3, LJ_GC_BLACK	// isblack(table)
-    |3:  // Copy result slots to table.
-    |   ldc1 f0, 0(RA)
-    |    addiu RA, RA, 8
-    |  sltu AT, RA, TMP2
-    |   sdc1 f0, 0(TMP1)
-    |  bnez AT, <3
-    |.   addiu TMP1, TMP1, 8
-    |  bnez TMP0, >7
-    |. nop
-    |4:
-    |  ins_next
-    |
-    |5:  // Need to resize array part.
-    |  load_got lj_tab_reasize
-    |   sw BASE, L->base
-    |   sw PC, SAVE_PC
-    |  move BASE, RD
-    |  call_intern lj_tab_reasize	// (lua_State *L, GCtab *t, int nasize)
-    |.  move CARG1, L
-    |  // Must not reallocate the stack.
-    |  move RD, BASE
-    |  b <1
-    |.  lw BASE, L->base	// Reload BASE for lack of a saved register.
-    |
-    |7:  // Possible table write barrier for any value. Skip valiswhite check.
-    |  barrierback TAB:CARG2, TMP3, TMP0, <4
-    break;
-
-  /* -- Calls and vararg handling ----------------------------------------- */
-
-  case BC_CALLM:
-    |  // RA = base*8, (RB = (nresults+1)*8,) RC = extra_nargs*8
-    |  decode_RDtoRC8 NARGS8:RC, RD
-    |  b ->BC_CALL_Z
-    |.  addu NARGS8:RC, NARGS8:RC, MULTRES
-    break;
-  case BC_CALL:
-    |  // RA = base*8, (RB = (nresults+1)*8,) RC = (nargs+1)*8
-    |  decode_RDtoRC8 NARGS8:RC, RD
-    |->BC_CALL_Z:
-    |  move TMP2, BASE
-    |  addu BASE, BASE, RA
-    |   li AT, LJ_TFUNC
-    |  lw TMP0, HI(BASE)
-    |   lw LFUNC:RB, LO(BASE)
-    |   addiu BASE, BASE, 8
-    |  bne TMP0, AT, ->vmeta_call
-    |.  addiu NARGS8:RC, NARGS8:RC, -8
-    |  ins_call
-    break;
-
-  case BC_CALLMT:
-    |  // RA = base*8, (RB = 0,) RC = extra_nargs*8
-    |  addu NARGS8:RD, NARGS8:RD, MULTRES	// BC_CALLT gets RC from RD.
-    |  // Fall through. Assumes BC_CALLT follows.
-    break;
-  case BC_CALLT:
-    |  // RA = base*8, (RB = 0,) RC = (nargs+1)*8
-    |  addu RA, BASE, RA
-    |   li AT, LJ_TFUNC
-    |  lw TMP0, HI(RA)
-    |   lw LFUNC:RB, LO(RA)
-    |   move NARGS8:RC, RD
-    |    lw TMP1, FRAME_PC(BASE)
-    |   addiu RA, RA, 8
-    |  bne TMP0, AT, ->vmeta_callt
-    |.  addiu NARGS8:RC, NARGS8:RC, -8
-    |->BC_CALLT_Z:
-    |  andi TMP0, TMP1, FRAME_TYPE	// Caveat: preserve TMP0 until the 'or'.
-    |   lbu TMP3, LFUNC:RB->ffid
-    |  bnez TMP0, >7
-    |.  xori TMP2, TMP1, FRAME_VARG
-    |1:
-    |  sw LFUNC:RB, FRAME_FUNC(BASE)	// Copy function down, but keep PC.
-    |  sltiu AT, TMP3, 2		// (> FF_C) Calling a fast function?
-    |  move TMP2, BASE
-    |  beqz NARGS8:RC, >3
-    |.  move TMP3, NARGS8:RC
-    |2:
-    |   ldc1 f0, 0(RA)
-    |    addiu RA, RA, 8
-    |  addiu TMP3, TMP3, -8
-    |   sdc1 f0, 0(TMP2)
-    |  bnez TMP3, <2
-    |.   addiu TMP2, TMP2, 8
-    |3:
-    |  or TMP0, TMP0, AT
-    |  beqz TMP0, >5
-    |.  nop
-    |4:
-    |  ins_callt
-    |
-    |5:  // Tailcall to a fast function with a Lua frame below.
-    |  lw INS, -4(TMP1)
-    |  decode_RA8a RA, INS
-    |  decode_RA8b RA
-    |  subu TMP1, BASE, RA
-    |  lw LFUNC:TMP1, -8+FRAME_FUNC(TMP1)
-    |  lw TMP1, LFUNC:TMP1->pc
-    |  b <4
-    |.  lw KBASE, PC2PROTO(k)(TMP1)	// Need to prepare KBASE.
-    |
-    |7:  // Tailcall from a vararg function.
-    |  andi AT, TMP2, FRAME_TYPEP
-    |  bnez AT, <1			// Vararg frame below?
-    |.  subu TMP2, BASE, TMP2		// Relocate BASE down.
-    |  move BASE, TMP2
-    |  lw TMP1, FRAME_PC(TMP2)
-    |  b <1
-    |.  andi TMP0, TMP1, FRAME_TYPE
-    break;
-
-  case BC_ITERC:
-    |  // RA = base*8, (RB = (nresults+1)*8, RC = (nargs+1)*8 ((2+1)*8))
-    |  move TMP2, BASE
-    |  addu BASE, BASE, RA
-    |   li AT, LJ_TFUNC
-    |  lw TMP1, -24+HI(BASE)
-    |   lw LFUNC:RB, -24+LO(BASE)
-    |    ldc1 f2, -8(BASE)
-    |    ldc1 f0, -16(BASE)
-    |  sw TMP1, HI(BASE)		// Copy callable.
-    |   sw LFUNC:RB, LO(BASE)
-    |    sdc1 f2, 16(BASE)		// Copy control var.
-    |    sdc1 f0, 8(BASE)		// Copy state.
-    |   addiu BASE, BASE, 8
-    |  bne TMP1, AT, ->vmeta_call
-    |.  li NARGS8:RC, 16		// Iterators get 2 arguments.
-    |  ins_call
-    break;
-
-  case BC_ITERN:
-    |  // RA = base*8, (RB = (nresults+1)*8, RC = (nargs+1)*8 (2+1)*8)
-    |.if JIT
-    |  // NYI: add hotloop, record BC_ITERN.
-    |.endif
-    |  addu RA, BASE, RA
-    |  lw TAB:RB, -16+LO(RA)
-    |  lw RC, -8+LO(RA)			// Get index from control var.
-    |  lw TMP0, TAB:RB->asize
-    |  lw TMP1, TAB:RB->array
-    |   addiu PC, PC, 4
-    |1:  // Traverse array part.
-    |  sltu AT, RC, TMP0
-    |  beqz AT, >5			// Index points after array part?
-    |.  sll TMP3, RC, 3
-    |  addu TMP3, TMP1, TMP3
-    |  lw TMP2, HI(TMP3)
-    |   ldc1 f0, 0(TMP3)
-    |    mtc1 RC, f2
-    |     lhu RD, -4+OFS_RD(PC)
-    |  beq TMP2, TISNIL, <1		// Skip holes in array part.
-    |.  addiu RC, RC, 1
-    |    cvt.d.w f2, f2
-    |     lui TMP3, (-(BCBIAS_J*4 >> 16) & 65535)
-    |   sdc1 f0, 8(RA)
-    |     decode_RD4b RD
-    |     addu RD, RD, TMP3
-    |   sw RC, -8+LO(RA)		// Update control var.
-    |     addu PC, PC, RD
-    |    sdc1 f2, 0(RA)
-    |3:
-    |  ins_next
-    |
-    |5:  // Traverse hash part.
-    |  lw TMP1, TAB:RB->hmask
-    |  subu RC, RC, TMP0
-    |   lw TMP2, TAB:RB->node
-    |6:
-    |  sltu AT, TMP1, RC		// End of iteration? Branch to ITERL+1.
-    |  bnez AT, <3
-    |.  sll TMP3, RC, 5
-    |   sll RB, RC, 3
-    |   subu TMP3, TMP3, RB
-    |  addu NODE:TMP3, TMP3, TMP2
-    |  lw RB, HI(NODE:TMP3)
-    |  ldc1 f0, 0(NODE:TMP3)
-    |     lhu RD, -4+OFS_RD(PC)
-    |  beq RB, TISNIL, <6		// Skip holes in hash part.
-    |.  addiu RC, RC, 1
-    |   ldc1 f2, NODE:TMP3->key
-    |     lui TMP3, (-(BCBIAS_J*4 >> 16) & 65535)
-    |  sdc1 f0, 8(RA)
-    |    addu RC, RC, TMP0
-    |     decode_RD4b RD
-    |     addu RD, RD, TMP3
-    |   sdc1 f2, 0(RA)
-    |     addu PC, PC, RD
-    |  b <3
-    |.  sw RC, -8+LO(RA)		// Update control var.
-    break;
-
-  case BC_ISNEXT:
-    |  // RA = base*8, RD = target (points to ITERN)
-    |  addu RA, BASE, RA
-    |  lw TMP0, -24+HI(RA)
-    |  lw CFUNC:TMP1, -24+LO(RA)
-    |   lw TMP2, -16+HI(RA)
-    |    lw TMP3, -8+HI(RA)
-    |  li AT, LJ_TFUNC
-    |  bne TMP0, AT, >5
-    |.  addiu TMP2, TMP2, -LJ_TTAB
-    |  lbu TMP1, CFUNC:TMP1->ffid
-    |  addiu TMP3, TMP3, -LJ_TNIL
-    |   srl TMP0, RD, 1
-    |  or TMP2, TMP2, TMP3
-    |  addiu TMP1, TMP1, -FF_next_N
-    |   addu TMP0, PC, TMP0
-    |  or TMP1, TMP1, TMP2
-    |  bnez TMP1, >5
-    |.  lui TMP2, (-(BCBIAS_J*4 >> 16) & 65535)
-    |  addu PC, TMP0, TMP2
-    |  lui TMP1, 0xfffe
-    |  ori TMP1, TMP1, 0x7fff
-    |  sw r0, -8+LO(RA)			// Initialize control var.
-    |  sw TMP1, -8+HI(RA)
-    |1:
-    |  ins_next
-    |5:  // Despecialize bytecode if any of the checks fail.
-    |  li TMP3, BC_JMP
-    |   li TMP1, BC_ITERC
-    |  sb TMP3, -4+OFS_OP(PC)
-    |   addu PC, TMP0, TMP2
-    |  b <1
-    |.  sb TMP1, OFS_OP(PC)
-    break;
-
-  case BC_VARG:
-    |  // RA = base*8, RB = (nresults+1)*8, RC = numparams*8
-    |  lw TMP0, FRAME_PC(BASE)
-    |  decode_RDtoRC8 RC, RD
-    |   decode_RB8a RB, INS
-    |  addu RC, BASE, RC
-    |   decode_RB8b RB
-    |   addu RA, BASE, RA
-    |  addiu RC, RC, FRAME_VARG
-    |   addu TMP2, RA, RB
-    |  addiu TMP3, BASE, -8		// TMP3 = vtop
-    |  subu RC, RC, TMP0		// RC = vbase
-    |  // Note: RC may now be even _above_ BASE if nargs was < numparams.
-    |  beqz RB, >5			// Copy all varargs?
-    |.  subu TMP1, TMP3, RC
-    |  addiu TMP2, TMP2, -16
-    |1:  // Copy vararg slots to destination slots.
-    |  lw CARG1, HI(RC)
-    |  sltu AT, RC, TMP3
-    |   lw CARG2, LO(RC)
-    |    addiu RC, RC, 8
-    |  movz CARG1, TISNIL, AT
-    |  sw CARG1, HI(RA)
-    |   sw CARG2, LO(RA)
-    |  sltu AT, RA, TMP2
-    |  bnez AT, <1
-    |.   addiu RA, RA, 8
-    |3:
-    |  ins_next
-    |
-    |5:  // Copy all varargs.
-    |  lw TMP0, L->maxstack
-    |  blez TMP1, <3			// No vararg slots?
-    |.  li MULTRES, 8			// MULTRES = (0+1)*8
-    |  addu TMP2, RA, TMP1
-    |  sltu AT, TMP0, TMP2
-    |  bnez AT, >7
-    |.  addiu MULTRES, TMP1, 8
-    |6:
-    |  ldc1 f0, 0(RC)
-    |   addiu RC, RC, 8
-    |  sdc1 f0, 0(RA)
-    |  sltu AT, RC, TMP3
-    |  bnez AT, <6			// More vararg slots?
-    |.  addiu RA, RA, 8
-    |  b <3
-    |.  nop
-    |
-    |7:  // Grow stack for varargs.
-    |  load_got lj_state_growstack
-    |   sw RA, L->top
-    |  subu RA, RA, BASE
-    |   sw BASE, L->base
-    |  subu BASE, RC, BASE		// Need delta, because BASE may change.
-    |   sw PC, SAVE_PC
-    |  srl CARG2, TMP1, 3
-    |  call_intern lj_state_growstack	// (lua_State *L, int n)
-    |.  move CARG1, L
-    |  move RC, BASE
-    |  lw BASE, L->base
-    |  addu RA, BASE, RA
-    |  addu RC, BASE, RC
-    |  b <6
-    |.  addiu TMP3, BASE, -8
-    break;
-
-  /* -- Returns ----------------------------------------------------------- */
-
-  case BC_RETM:
-    |  // RA = results*8, RD = extra_nresults*8
-    |  addu RD, RD, MULTRES		// MULTRES >= 8, so RD >= 8.
-    |  // Fall through. Assumes BC_RET follows.
-    break;
-
-  case BC_RET:
-    |  // RA = results*8, RD = (nresults+1)*8
-    |  lw PC, FRAME_PC(BASE)
-    |   addu RA, BASE, RA
-    |    move MULTRES, RD
-    |1:
-    |  andi TMP0, PC, FRAME_TYPE
-    |  bnez TMP0, ->BC_RETV_Z
-    |.  xori TMP1, PC, FRAME_VARG
-    |
-    |->BC_RET_Z:
-    |  // BASE = base, RA = resultptr, RD = (nresults+1)*8, PC = return
-    |   lw INS, -4(PC)
-    |    addiu TMP2, BASE, -8
-    |    addiu RC, RD, -8
-    |  decode_RA8a TMP0, INS
-    |   decode_RB8a RB, INS
-    |  decode_RA8b TMP0
-    |   decode_RB8b RB
-    |   addu TMP3, TMP2, RB
-    |  beqz RC, >3
-    |.  subu BASE, TMP2, TMP0
-    |2:
-    |   ldc1 f0, 0(RA)
-    |    addiu RA, RA, 8
-    |  addiu RC, RC, -8
-    |   sdc1 f0, 0(TMP2)
-    |  bnez RC, <2
-    |.   addiu TMP2, TMP2, 8
-    |3:
-    |  addiu TMP3, TMP3, -8
-    |5:
-    |  sltu AT, TMP2, TMP3
-    |  bnez AT, >6
-    |.  lw LFUNC:TMP1, FRAME_FUNC(BASE)
-    |  ins_next1
-    |  lw TMP1, LFUNC:TMP1->pc
-    |  lw KBASE, PC2PROTO(k)(TMP1)
-    |  ins_next2
-    |
-    |6:  // Fill up results with nil.
-    |  sw TISNIL, HI(TMP2)
-    |  b <5
-    |.  addiu TMP2, TMP2, 8
-    |
-    |->BC_RETV_Z:  // Non-standard return case.
-    |  andi TMP2, TMP1, FRAME_TYPEP
-    |  bnez TMP2, ->vm_return
-    |.  nop
-    |  // Return from vararg function: relocate BASE down.
-    |  subu BASE, BASE, TMP1
-    |  b <1
-    |.  lw PC, FRAME_PC(BASE)
-    break;
-
-  case BC_RET0: case BC_RET1:
-    |  // RA = results*8, RD = (nresults+1)*8
-    |  lw PC, FRAME_PC(BASE)
-    |   addu RA, BASE, RA
-    |    move MULTRES, RD
-    |  andi TMP0, PC, FRAME_TYPE
-    |  bnez TMP0, ->BC_RETV_Z
-    |.  xori TMP1, PC, FRAME_VARG
-    |
-    |  lw INS, -4(PC)
-    |   addiu TMP2, BASE, -8
-    if (op == BC_RET1) {
-      |  ldc1 f0, 0(RA)
-    }
-    |  decode_RB8a RB, INS
-    |   decode_RA8a RA, INS
-    |  decode_RB8b RB
-    |   decode_RA8b RA
-    if (op == BC_RET1) {
-      |  sdc1 f0, 0(TMP2)
-    }
-    |   subu BASE, TMP2, RA
-    |5:
-    |  sltu AT, RD, RB
-    |  bnez AT, >6
-    |.  lw LFUNC:TMP1, FRAME_FUNC(BASE)
-    |  ins_next1
-    |  lw TMP1, LFUNC:TMP1->pc
-    |  lw KBASE, PC2PROTO(k)(TMP1)
-    |  ins_next2
-    |
-    |6:  // Fill up results with nil.
-    |  addiu TMP2, TMP2, 8
-    |  addiu RD, RD, 8
-    |  b <5
-    if (op == BC_RET1) {
-      |.  sw TISNIL, HI(TMP2)
-    } else {
-      |.  sw TISNIL, -8+HI(TMP2)
-    }
-    break;
-
-  /* -- Loops and branches ------------------------------------------------ */
-
-  case BC_FORL:
-    |.if JIT
-    |  hotloop
-    |.endif
-    |  // Fall through. Assumes BC_IFORL follows.
-    break;
-
-  case BC_JFORI:
-  case BC_JFORL:
-#if !LJ_HASJIT
-    break;
-#endif
-  case BC_FORI:
-  case BC_IFORL:
-    |  // RA = base*8, RD = target (after end of loop or start of loop)
-    vk = (op == BC_IFORL || op == BC_JFORL);
-    |  addu RA, BASE, RA
-    if (vk) {
-      |  ldc1 f0, FORL_IDX*8(RA)
-      |  ldc1 f4, FORL_STEP*8(RA)
-      |  ldc1 f2, FORL_STOP*8(RA)
-      |   lw TMP3, FORL_STEP*8+HI(RA)
-      |  add.d f0, f0, f4
-      |  sdc1 f0, FORL_IDX*8(RA)
-    } else {
-      |  lw TMP1, FORL_IDX*8+HI(RA)
-      |  lw TMP3, FORL_STEP*8+HI(RA)
-      |  lw TMP2, FORL_STOP*8+HI(RA)
-      |  sltiu TMP1, TMP1, LJ_TISNUM
-      |  sltiu TMP0, TMP3, LJ_TISNUM
-      |  sltiu TMP2, TMP2, LJ_TISNUM
-      |  and TMP1, TMP1, TMP0
-      |  and TMP1, TMP1, TMP2
-      |   ldc1 f0, FORL_IDX*8(RA)
-      |  beqz TMP1, ->vmeta_for
-      |.  ldc1 f2, FORL_STOP*8(RA)
-    }
-    if (op != BC_JFORL) {
-      |  srl RD, RD, 1
-      |  lui TMP0, (-(BCBIAS_J*4 >> 16) & 65535)
-    }
-    |  c.le.d 0, f0, f2
-    |  c.le.d 1, f2, f0
-    |  sdc1 f0, FORL_EXT*8(RA)
-    if (op == BC_JFORI) {
-      |  li TMP1, 1
-      |  li TMP2, 1
-      |   addu TMP0, RD, TMP0
-      |  slt TMP3, TMP3, r0
-      |  movf TMP1, r0, 0
-      |   addu PC, PC, TMP0
-      |  movf TMP2, r0, 1
-      |   lhu RD, -4+OFS_RD(PC)
-      |  movn TMP1, TMP2, TMP3
-      |  bnez TMP1, =>BC_JLOOP
-      |.  decode_RD8b RD
-    } else if (op == BC_JFORL) {
-      |  li TMP1, 1
-      |  li TMP2, 1
-      |  slt TMP3, TMP3, r0
-      |  movf TMP1, r0, 0
-      |  movf TMP2, r0, 1
-      |  movn TMP1, TMP2, TMP3
-      |  bnez TMP1, =>BC_JLOOP
-      |.  nop
-    } else {
-      |  addu TMP1, RD, TMP0
-      |  slt TMP3, TMP3, r0
-      |  move TMP2, TMP1
-      if (op == BC_FORI) {
-	|  movt TMP1, r0, 0
-	|  movt TMP2, r0, 1
-      } else {
-	|  movf TMP1, r0, 0
-	|  movf TMP2, r0, 1
-      }
-      |  movn TMP1, TMP2, TMP3
-      |  addu PC, PC, TMP1
-    }
-    |  ins_next
-    break;
-
-  case BC_ITERL:
-    |.if JIT
-    |  hotloop
-    |.endif
-    |  // Fall through. Assumes BC_IITERL follows.
-    break;
-
-  case BC_JITERL:
-#if !LJ_HASJIT
-    break;
-#endif
-  case BC_IITERL:
-    |  // RA = base*8, RD = target
-    |  addu RA, BASE, RA
-    |  lw TMP1, HI(RA)
-    |  beq TMP1, TISNIL, >1		// Stop if iterator returned nil.
-    |.  lw TMP2, LO(RA)
-    if (op == BC_JITERL) {
-      |  sw TMP1, -8+HI(RA)
-      |  b =>BC_JLOOP
-      |.  sw TMP2, -8+LO(RA)
-    } else {
-      |  branch_RD			// Otherwise save control var + branch.
-      |  sw TMP1, -8+HI(RA)
-      |   sw TMP2, -8+LO(RA)
-    }
-    |1:
-    |  ins_next
-    break;
-
-  case BC_LOOP:
-    |  // RA = base*8, RD = target (loop extent)
-    |  // Note: RA/RD is only used by trace recorder to determine scope/extent
-    |  // This opcode does NOT jump, it's only purpose is to detect a hot loop.
-    |.if JIT
-    |  hotloop
-    |.endif
-    |  // Fall through. Assumes BC_ILOOP follows.
-    break;
-
-  case BC_ILOOP:
-    |  // RA = base*8, RD = target (loop extent)
-    |  ins_next
-    break;
-
-  case BC_JLOOP:
-    |.if JIT
-    |  // RA = base*8 (ignored), RD = traceno*8
-    |  lw TMP1, DISPATCH_J(trace)(DISPATCH)
-    |  srl RD, RD, 1
-    |   li AT, 0
-    |  addu TMP1, TMP1, RD
-    |  // Traces on MIPS don't store the trace number, so use 0.
-    |   sw AT, DISPATCH_GL(vmstate)(DISPATCH)
-    |  lw TRACE:TMP2, 0(TMP1)
-    |   sw BASE, DISPATCH_GL(jit_base)(DISPATCH)
-    |   sw L, DISPATCH_GL(jit_L)(DISPATCH)
-    |  lw TMP2, TRACE:TMP2->mcode
-    |  jr TMP2
-    |.  addiu JGL, DISPATCH, GG_DISP2G+32768
-    |.endif
-    break;
-
-  case BC_JMP:
-    |  // RA = base*8 (only used by trace recorder), RD = target
-    |  branch_RD
-    |  ins_next
-    break;
-
-  /* -- Function headers -------------------------------------------------- */
-
-  case BC_FUNCF:
-    |.if JIT
-    |  hotcall
-    |.endif
-  case BC_FUNCV:  /* NYI: compiled vararg functions. */
-    |  // Fall through. Assumes BC_IFUNCF/BC_IFUNCV follow.
-    break;
-
-  case BC_JFUNCF:
-#if !LJ_HASJIT
-    break;
-#endif
-  case BC_IFUNCF:
-    |  // BASE = new base, RA = BASE+framesize*8, RB = LFUNC, RC = nargs*8
-    |  lw TMP2, L->maxstack
-    |   lbu TMP1, -4+PC2PROTO(numparams)(PC)
-    |    lw KBASE, -4+PC2PROTO(k)(PC)
-    |  sltu AT, TMP2, RA
-    |  bnez AT, ->vm_growstack_l
-    |.  sll TMP1, TMP1, 3
-    if (op != BC_JFUNCF) {
-      |  ins_next1
-    }
-    |2:
-    |  sltu AT, NARGS8:RC, TMP1		// Check for missing parameters.
-    |  bnez AT, >3
-    |.  addu AT, BASE, NARGS8:RC
-    if (op == BC_JFUNCF) {
-      |  decode_RD8a RD, INS
-      |  b =>BC_JLOOP
-      |.  decode_RD8b RD
-    } else {
-      |  ins_next2
-    }
-    |
-    |3:  // Clear missing parameters.
-    |  sw TISNIL, HI(AT)
-    |  b <2
-    |.  addiu NARGS8:RC, NARGS8:RC, 8
-    break;
-
-  case BC_JFUNCV:
-#if !LJ_HASJIT
-    break;
-#endif
-    |  NYI  // NYI: compiled vararg functions
-    break;  /* NYI: compiled vararg functions. */
-
-  case BC_IFUNCV:
-    |  // BASE = new base, RA = BASE+framesize*8, RB = LFUNC, RC = nargs*8
-    |   addu TMP1, BASE, RC
-    |  lw TMP2, L->maxstack
-    |  addu TMP0, RA, RC
-    |   sw LFUNC:RB, LO(TMP1)		// Store copy of LFUNC.
-    |   addiu TMP3, RC, 8+FRAME_VARG
-    |  sltu AT, TMP0, TMP2
-    |    lw KBASE, -4+PC2PROTO(k)(PC)
-    |  beqz AT, ->vm_growstack_l
-    |.  sw TMP3, HI(TMP1)		// Store delta + FRAME_VARG.
-    |  lbu TMP2, -4+PC2PROTO(numparams)(PC)
-    |   move RA, BASE
-    |   move RC, TMP1
-    |  ins_next1
-    |  beqz TMP2, >3
-    |.  addiu BASE, TMP1, 8
-    |1:
-    |  lw TMP0, HI(RA)
-    |   lw TMP3, LO(RA)
-    |  sltu AT, RA, RC			// Less args than parameters?
-    |  move CARG1, TMP0
-    |  movz TMP0, TISNIL, AT		// Clear missing parameters.
-    |  movn CARG1, TISNIL, AT		// Clear old fixarg slot (help the GC).
-    |   sw TMP3, 8+LO(TMP1)
-    |    addiu TMP2, TMP2, -1
-    |  sw TMP0, 8+HI(TMP1)
-    |    addiu TMP1, TMP1, 8
-    |  sw CARG1, HI(RA)
-    |  bnez TMP2, <1
-    |.   addiu RA, RA, 8
-    |3:
-    |  ins_next2
-    break;
-
-  case BC_FUNCC:
-  case BC_FUNCCW:
-    |  // BASE = new base, RA = BASE+framesize*8, RB = CFUNC, RC = nargs*8
-    if (op == BC_FUNCC) {
-      |  lw CFUNCADDR, CFUNC:RB->f
-    } else {
-      |  lw CFUNCADDR, DISPATCH_GL(wrapf)(DISPATCH)
-    }
-    |  addu TMP1, RA, NARGS8:RC
-    |  lw TMP2, L->maxstack
-    |   addu RC, BASE, NARGS8:RC
-    |  sw BASE, L->base
-    |  sltu AT, TMP2, TMP1
-    |   sw RC, L->top
-    |    li_vmstate C
-    if (op == BC_FUNCCW) {
-      |  lw CARG2, CFUNC:RB->f
-    }
-    |  bnez AT, ->vm_growstack_c	// Need to grow stack.
-    |.  move CARG1, L
-    |  jalr CFUNCADDR			// (lua_State *L [, lua_CFunction f])
-    |.   st_vmstate
-    |  // Returns nresults.
-    |  lw BASE, L->base
-    |   sll RD, CRET1, 3
-    |  lw TMP1, L->top
-    |    li_vmstate INTERP
-    |  lw PC, FRAME_PC(BASE)		// Fetch PC of caller.
-    |   subu RA, TMP1, RD		// RA = L->top - nresults*8
-    |  b ->vm_returnc
-    |.   st_vmstate
-    break;
-
-  /* ---------------------------------------------------------------------- */
-
-  default:
-    fprintf(stderr, "Error: undefined opcode BC_%s\n", bc_names[op]);
-    exit(2);
-    break;
-  }
-}
-
-static int build_backend(BuildCtx *ctx)
-{
-  int op;
-
-  dasm_growpc(Dst, BC__MAX);
-
-  build_subroutines(ctx);
-
-  |.code_op
-  for (op = 0; op < BC__MAX; op++)
-    build_ins(ctx, (BCOp)op, op);
-
-  return BC__MAX;
-}
-
-/* Emit pseudo frame-info for all assembler functions. */
-static void emit_asm_debug(BuildCtx *ctx)
-{
-  int fcofs = (int)((uint8_t *)ctx->glob[GLOB_vm_ffi_call] - ctx->code);
-  int i;
-  switch (ctx->mode) {
-  case BUILD_elfasm:
-    fprintf(ctx->fp, "\t.section .debug_frame,\"\",@progbits\n");
-    fprintf(ctx->fp,
-	".Lframe0:\n"
-	"\t.4byte .LECIE0-.LSCIE0\n"
-	".LSCIE0:\n"
-	"\t.4byte 0xffffffff\n"
-	"\t.byte 0x1\n"
-	"\t.string \"\"\n"
-	"\t.uleb128 0x1\n"
-	"\t.sleb128 -4\n"
-	"\t.byte 31\n"
-	"\t.byte 0xc\n\t.uleb128 29\n\t.uleb128 0\n"
-	"\t.align 2\n"
-	".LECIE0:\n\n");
-    fprintf(ctx->fp,
-	".LSFDE0:\n"
-	"\t.4byte .LEFDE0-.LASFDE0\n"
-	".LASFDE0:\n"
-	"\t.4byte .Lframe0\n"
-	"\t.4byte .Lbegin\n"
-	"\t.4byte %d\n"
-	"\t.byte 0xe\n\t.uleb128 %d\n"
-	"\t.byte 0x9f\n\t.sleb128 1\n"
-	"\t.byte 0x9e\n\t.sleb128 2\n",
-	fcofs, CFRAME_SIZE);
-    for (i = 23; i >= 16; i--)
-      fprintf(ctx->fp, "\t.byte %d\n\t.uleb128 %d\n", 0x80+i, 26-i);
-    for (i = 30; i >= 20; i -= 2)
-      fprintf(ctx->fp, "\t.byte %d\n\t.uleb128 %d\n", 0x80+32+i, 42-i);
-    fprintf(ctx->fp,
-	"\t.align 2\n"
-	".LEFDE0:\n\n");
-#if LJ_HASFFI
-    fprintf(ctx->fp,
-	".LSFDE1:\n"
-	"\t.4byte .LEFDE1-.LASFDE1\n"
-	".LASFDE1:\n"
-	"\t.4byte .Lframe0\n"
-	"\t.4byte lj_vm_ffi_call\n"
-	"\t.4byte %d\n"
-	"\t.byte 0x9f\n\t.uleb128 1\n"
-	"\t.byte 0x90\n\t.uleb128 2\n"
-	"\t.byte 0xd\n\t.uleb128 0x10\n"
-	"\t.align 2\n"
-	".LEFDE1:\n\n", (int)ctx->codesz - fcofs);
-#endif
-    fprintf(ctx->fp, "\t.section .eh_frame,\"aw\",@progbits\n");
-    fprintf(ctx->fp,
-	"\t.globl lj_err_unwind_dwarf\n"
-	".Lframe1:\n"
-	"\t.4byte .LECIE1-.LSCIE1\n"
-	".LSCIE1:\n"
-	"\t.4byte 0\n"
-	"\t.byte 0x1\n"
-	"\t.string \"zPR\"\n"
-	"\t.uleb128 0x1\n"
-	"\t.sleb128 -4\n"
-	"\t.byte 31\n"
-	"\t.uleb128 6\n"			/* augmentation length */
-	"\t.byte 0\n"
-	"\t.4byte lj_err_unwind_dwarf\n"
-	"\t.byte 0\n"
-	"\t.byte 0xc\n\t.uleb128 29\n\t.uleb128 0\n"
-	"\t.align 2\n"
-	".LECIE1:\n\n");
-    fprintf(ctx->fp,
-	".LSFDE2:\n"
-	"\t.4byte .LEFDE2-.LASFDE2\n"
-	".LASFDE2:\n"
-	"\t.4byte .LASFDE2-.Lframe1\n"
-	"\t.4byte .Lbegin\n"
-	"\t.4byte %d\n"
-	"\t.uleb128 0\n"			/* augmentation length */
-	"\t.byte 0xe\n\t.uleb128 %d\n"
-	"\t.byte 0x9f\n\t.sleb128 1\n"
-	"\t.byte 0x9e\n\t.sleb128 2\n",
-	fcofs, CFRAME_SIZE);
-    for (i = 23; i >= 16; i--)
-      fprintf(ctx->fp, "\t.byte %d\n\t.uleb128 %d\n", 0x80+i, 26-i);
-    for (i = 30; i >= 20; i -= 2)
-      fprintf(ctx->fp, "\t.byte %d\n\t.uleb128 %d\n", 0x80+32+i, 42-i);
-    fprintf(ctx->fp,
-	"\t.align 2\n"
-	".LEFDE2:\n\n");
-#if LJ_HASFFI
-    fprintf(ctx->fp,
-	".Lframe2:\n"
-	"\t.4byte .LECIE2-.LSCIE2\n"
-	".LSCIE2:\n"
-	"\t.4byte 0\n"
-	"\t.byte 0x1\n"
-	"\t.string \"zR\"\n"
-	"\t.uleb128 0x1\n"
-	"\t.sleb128 -4\n"
-	"\t.byte 31\n"
-	"\t.uleb128 1\n"			/* augmentation length */
-	"\t.byte 0\n"
-	"\t.byte 0xc\n\t.uleb128 29\n\t.uleb128 0\n"
-	"\t.align 2\n"
-	".LECIE2:\n\n");
-    fprintf(ctx->fp,
-	".LSFDE3:\n"
-	"\t.4byte .LEFDE3-.LASFDE3\n"
-	".LASFDE3:\n"
-	"\t.4byte .LASFDE3-.Lframe2\n"
-	"\t.4byte lj_vm_ffi_call\n"
-	"\t.4byte %d\n"
-	"\t.uleb128 0\n"			/* augmentation length */
-	"\t.byte 0x9f\n\t.uleb128 1\n"
-	"\t.byte 0x90\n\t.uleb128 2\n"
-	"\t.byte 0xd\n\t.uleb128 0x10\n"
-	"\t.align 2\n"
-	".LEFDE3:\n\n", (int)ctx->codesz - fcofs);
-#endif
-    break;
-  default:
-    break;
-  }
-}
-
diff --git a/luajit-2.0/src/vm_ppc.dasc b/luajit-2.0/src/vm_ppc.dasc
deleted file mode 100644
index 7ae40ec..0000000
--- a/luajit-2.0/src/vm_ppc.dasc
+++ /dev/null
@@ -1,5160 +0,0 @@
-|// Low-level VM code for PowerPC CPUs.
-|// Bytecode interpreter, fast functions and helper functions.
-|// Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-|
-|.arch ppc
-|.section code_op, code_sub
-|
-|.actionlist build_actionlist
-|.globals GLOB_
-|.globalnames globnames
-|.externnames extnames
-|
-|// Note: The ragged indentation of the instructions is intentional.
-|//       The starting columns indicate data dependencies.
-|
-|//-----------------------------------------------------------------------
-|
-|// DynASM defines used by the PPC port:
-|//
-|// P64     64 bit pointers (only for GPR64 testing).
-|//         Note: a full PPC64 _LP64 port is not planned.
-|// GPR64   64 bit registers (but possibly 32 bit pointers, e.g. PS3).
-|//         Affects reg saves, stack layout, carry/overflow/dot flags etc.
-|// FRAME32 Use 32 bit frame layout, even with GPR64 (Xbox 360).
-|// TOC     Need table of contents (64 bit or 32 bit variant, e.g. PS3).
-|//         Function pointers are really a struct: code, TOC, env (optional).
-|// TOCENV  Function pointers have an environment pointer, too (not on PS3).
-|// PPE     Power Processor Element of Cell (PS3) or Xenon (Xbox 360).
-|//         Must avoid (slow) micro-coded instructions.
-|
-|.if P64
-|.define TOC, 1
-|.define TOCENV, 1
-|.macro lpx, a, b, c; ldx a, b, c; .endmacro
-|.macro lp, a, b; ld a, b; .endmacro
-|.macro stp, a, b; std a, b; .endmacro
-|.define decode_OPP, decode_OP8
-|.if FFI
-|// Missing: Calling conventions, 64 bit regs, TOC.
-|.error lib_ffi not yet implemented for PPC64
-|.endif
-|.else
-|.macro lpx, a, b, c; lwzx a, b, c; .endmacro
-|.macro lp, a, b; lwz a, b; .endmacro
-|.macro stp, a, b; stw a, b; .endmacro
-|.define decode_OPP, decode_OP4
-|.endif
-|
-|// Convenience macros for TOC handling.
-|.if TOC
-|// Linker needs a TOC patch area for every external call relocation.
-|.macro blex, target; bl extern target@plt; nop; .endmacro
-|.macro .toc, a, b; a, b; .endmacro
-|.if P64
-|.define TOC_OFS,	 8
-|.define ENV_OFS,	16
-|.else
-|.define TOC_OFS,	4
-|.define ENV_OFS,	8
-|.endif
-|.else  // No TOC.
-|.macro blex, target; bl extern target@plt; .endmacro
-|.macro .toc, a, b; .endmacro
-|.endif
-|.macro .tocenv, a, b; .if TOCENV; a, b; .endif; .endmacro
-|
-|.macro .gpr64, a, b; .if GPR64; a, b; .endif; .endmacro
-|
-|.macro andix., y, a, i
-|.if PPE
-|  rlwinm y, a, 0, 31-lj_fls(i), 31-lj_ffs(i)
-|  cmpwi y, 0
-|.else
-|  andi. y, a, i
-|.endif
-|.endmacro
-|
-|.macro clrso, reg
-|.if PPE
-|  li reg, 0
-|  mtxer reg
-|.else
-|  mcrxr cr0
-|.endif
-|.endmacro
-|
-|.macro checkov, reg, noov
-|.if PPE
-|  mfxer reg
-|  add reg, reg, reg
-|  cmpwi reg, 0
-|   li reg, 0
-|   mtxer reg
-|  bgey noov
-|.else
-|  mcrxr cr0
-|  bley noov
-|.endif
-|.endmacro
-|
-|//-----------------------------------------------------------------------
-|
-|// Fixed register assignments for the interpreter.
-|// Don't use: r1 = sp, r2 and r13 = reserved (TOC, TLS or SDATA)
-|
-|// The following must be C callee-save (but BASE is often refetched).
-|.define BASE,		r14	// Base of current Lua stack frame.
-|.define KBASE,		r15	// Constants of current Lua function.
-|.define PC,		r16	// Next PC.
-|.define DISPATCH,	r17	// Opcode dispatch table.
-|.define LREG,		r18	// Register holding lua_State (also in SAVE_L).
-|.define MULTRES,	r19	// Size of multi-result: (nresults+1)*8.
-|.define JGL,		r31	// On-trace: global_State + 32768.
-|
-|// Constants for type-comparisons, stores and conversions. C callee-save.
-|.define TISNUM,	r22
-|.define TISNIL,	r23
-|.define ZERO,		r24
-|.define TOBIT,		f30	// 2^52 + 2^51.
-|.define TONUM,		f31	// 2^52 + 2^51 + 2^31.
-|
-|// The following temporaries are not saved across C calls, except for RA.
-|.define RA,		r20	// Callee-save.
-|.define RB,		r10
-|.define RC,		r11
-|.define RD,		r12
-|.define INS,		r7	// Overlaps CARG5.
-|
-|.define TMP0,		r0
-|.define TMP1,		r8
-|.define TMP2,		r9
-|.define TMP3,		r6	// Overlaps CARG4.
-|
-|// Saved temporaries.
-|.define SAVE0,		r21
-|
-|// Calling conventions.
-|.define CARG1,		r3
-|.define CARG2,		r4
-|.define CARG3,		r5
-|.define CARG4,		r6	// Overlaps TMP3.
-|.define CARG5,		r7	// Overlaps INS.
-|
-|.define FARG1,		f1
-|.define FARG2,		f2
-|
-|.define CRET1,		r3
-|.define CRET2,		r4
-|
-|.define TOCREG,	r2	// TOC register (only used by C code).
-|.define ENVREG,	r11	// Environment pointer (nested C functions).
-|
-|// Stack layout while in interpreter. Must match with lj_frame.h.
-|.if GPR64
-|.if FRAME32
-|
-|//			456(sp) // \ 32/64 bit C frame info
-|.define TONUM_LO,	452(sp) // |
-|.define TONUM_HI,	448(sp) // |
-|.define TMPD_LO,	444(sp) // |
-|.define TMPD_HI,	440(sp) // |
-|.define SAVE_CR,	432(sp) // | 64 bit CR save.
-|.define SAVE_ERRF,	424(sp) //  > Parameter save area.
-|.define SAVE_NRES,	420(sp) // |
-|.define SAVE_L,	416(sp) // |
-|.define SAVE_PC,	412(sp) // |
-|.define SAVE_MULTRES,	408(sp) // |
-|.define SAVE_CFRAME,	400(sp) // / 64 bit C frame chain.
-|//			392(sp) // Reserved.
-|.define CFRAME_SPACE,	384     // Delta for sp.
-|// Back chain for sp:	384(sp) <-- sp entering interpreter
-|.define SAVE_LR,	376(sp) // 32 bit LR stored in hi-part.
-|.define SAVE_GPR_,	232     // .. 232+18*8: 64 bit GPR saves.
-|.define SAVE_FPR_,	88      // .. 88+18*8: 64 bit FPR saves.
-|//			80(sp) // Needed for 16 byte stack frame alignment.
-|//			16(sp)  // Callee parameter save area (ABI mandated).
-|//			8(sp)   // Reserved
-|// Back chain for sp:	0(sp)   <-- sp while in interpreter
-|// 32 bit sp stored in hi-part of 0(sp).
-|
-|.define TMPD_BLO,	447(sp)
-|.define TMPD,		TMPD_HI
-|.define TONUM_D,	TONUM_HI
-|
-|.else
-|
-|//			508(sp) // \ 32 bit C frame info.
-|.define SAVE_ERRF,	472(sp) // |
-|.define SAVE_NRES,	468(sp) // |
-|.define SAVE_L,	464(sp) //  > Parameter save area.
-|.define SAVE_PC,	460(sp) // |
-|.define SAVE_MULTRES,	456(sp) // |
-|.define SAVE_CFRAME,	448(sp) // / 64 bit C frame chain.
-|.define SAVE_LR,	416(sp)
-|.define CFRAME_SPACE,	400     // Delta for sp.
-|// Back chain for sp:	400(sp) <-- sp entering interpreter
-|.define SAVE_FPR_,	256     // .. 256+18*8: 64 bit FPR saves.
-|.define SAVE_GPR_,	112     // .. 112+18*8: 64 bit GPR saves.
-|//			48(sp)  // Callee parameter save area (ABI mandated).
-|.define SAVE_TOC,	40(sp)  // TOC save area.
-|.define TMPD_LO,	36(sp)  // \ Link editor temp (ABI mandated).
-|.define TMPD_HI,	32(sp)  // /
-|.define TONUM_LO,	28(sp)  // \ Compiler temp (ABI mandated).
-|.define TONUM_HI,	24(sp)  // /
-|// Next frame lr:	16(sp)
-|.define SAVE_CR,	8(sp)  // 64 bit CR save.
-|// Back chain for sp:	0(sp)	<-- sp while in interpreter
-|
-|.define TMPD_BLO,	39(sp)
-|.define TMPD,		TMPD_HI
-|.define TONUM_D,	TONUM_HI
-|
-|.endif
-|.else
-|
-|.define SAVE_LR,	276(sp)
-|.define CFRAME_SPACE,	272     // Delta for sp.
-|// Back chain for sp:	272(sp) <-- sp entering interpreter
-|.define SAVE_FPR_,	128     // .. 128+18*8: 64 bit FPR saves.
-|.define SAVE_GPR_,	56      // .. 56+18*4: 32 bit GPR saves.
-|.define SAVE_CR,	52(sp)  // 32 bit CR save.
-|.define SAVE_ERRF,	48(sp)  // 32 bit C frame info.
-|.define SAVE_NRES,	44(sp)
-|.define SAVE_CFRAME,	40(sp)
-|.define SAVE_L,	36(sp)
-|.define SAVE_PC,	32(sp)
-|.define SAVE_MULTRES,	28(sp)
-|.define UNUSED1,	24(sp)
-|.define TMPD_LO,	20(sp)
-|.define TMPD_HI,	16(sp)
-|.define TONUM_LO,	12(sp)
-|.define TONUM_HI,	8(sp)
-|// Next frame lr:	4(sp)
-|// Back chain for sp:	0(sp)	<-- sp while in interpreter
-|
-|.define TMPD_BLO,	23(sp)
-|.define TMPD,		TMPD_HI
-|.define TONUM_D,	TONUM_HI
-|
-|.endif
-|
-|.macro save_, reg
-|.if GPR64
-|  std r..reg, SAVE_GPR_+(reg-14)*8(sp)
-|.else
-|  stw r..reg, SAVE_GPR_+(reg-14)*4(sp)
-|.endif
-|  stfd f..reg, SAVE_FPR_+(reg-14)*8(sp)
-|.endmacro
-|.macro rest_, reg
-|.if GPR64
-|  ld r..reg, SAVE_GPR_+(reg-14)*8(sp)
-|.else
-|  lwz r..reg, SAVE_GPR_+(reg-14)*4(sp)
-|.endif
-|  lfd f..reg, SAVE_FPR_+(reg-14)*8(sp)
-|.endmacro
-|
-|.macro saveregs
-|.if GPR64 and not FRAME32
-|  stdu sp, -CFRAME_SPACE(sp)
-|.else
-|  stwu sp, -CFRAME_SPACE(sp)
-|.endif
-|  save_ 14; save_ 15; save_ 16
-|  mflr r0
-|  save_ 17; save_ 18; save_ 19; save_ 20; save_ 21; save_ 22
-|.if GPR64 and not FRAME32
-|  std r0, SAVE_LR
-|.else
-|  stw r0, SAVE_LR
-|.endif
-|  save_ 23; save_ 24; save_ 25
-|  mfcr r0
-|  save_ 26; save_ 27; save_ 28; save_ 29; save_ 30; save_ 31
-|.if GPR64
-|  std r0, SAVE_CR
-|.else
-|  stw r0, SAVE_CR
-|.endif
-|  .toc std TOCREG, SAVE_TOC
-|.endmacro
-|
-|.macro restoreregs
-|.if GPR64 and not FRAME32
-|  ld r0, SAVE_LR
-|.else
-|  lwz r0, SAVE_LR
-|.endif
-|.if GPR64
-|  ld r12, SAVE_CR
-|.else
-|  lwz r12, SAVE_CR
-|.endif
-|  rest_ 14; rest_ 15; rest_ 16; rest_ 17; rest_ 18; rest_ 19
-|  mtlr r0;
-|.if PPE; mtocrf 0x20, r12; .else; mtcrf 0x38, r12; .endif
-|  rest_ 20; rest_ 21; rest_ 22; rest_ 23; rest_ 24; rest_ 25
-|.if PPE; mtocrf 0x10, r12; .endif
-|  rest_ 26; rest_ 27; rest_ 28; rest_ 29; rest_ 30; rest_ 31
-|.if PPE; mtocrf 0x08, r12; .endif
-|  addi sp, sp, CFRAME_SPACE
-|.endmacro
-|
-|// Type definitions. Some of these are only used for documentation.
-|.type L,		lua_State,	LREG
-|.type GL,		global_State
-|.type TVALUE,		TValue
-|.type GCOBJ,		GCobj
-|.type STR,		GCstr
-|.type TAB,		GCtab
-|.type LFUNC,		GCfuncL
-|.type CFUNC,		GCfuncC
-|.type PROTO,		GCproto
-|.type UPVAL,		GCupval
-|.type NODE,		Node
-|.type NARGS8,		int
-|.type TRACE,		GCtrace
-|
-|//-----------------------------------------------------------------------
-|
-|// These basic macros should really be part of DynASM.
-|.macro srwi, rx, ry, n; rlwinm rx, ry, 32-n, n, 31; .endmacro
-|.macro slwi, rx, ry, n; rlwinm rx, ry, n, 0, 31-n; .endmacro
-|.macro rotlwi, rx, ry, n; rlwinm rx, ry, n, 0, 31; .endmacro
-|.macro rotlw, rx, ry, rn; rlwnm rx, ry, rn, 0, 31; .endmacro
-|.macro subi, rx, ry, i; addi rx, ry, -i; .endmacro
-|
-|// Trap for not-yet-implemented parts.
-|.macro NYI; tw 4, sp, sp; .endmacro
-|
-|// int/FP conversions.
-|.macro tonum_i, freg, reg
-|  xoris reg, reg, 0x8000
-|  stw reg, TONUM_LO
-|  lfd freg, TONUM_D
-|  fsub freg, freg, TONUM
-|.endmacro
-|
-|.macro tonum_u, freg, reg
-|  stw reg, TONUM_LO
-|  lfd freg, TONUM_D
-|  fsub freg, freg, TOBIT
-|.endmacro
-|
-|.macro toint, reg, freg, tmpfreg
-|  fctiwz tmpfreg, freg
-|  stfd tmpfreg, TMPD
-|  lwz reg, TMPD_LO
-|.endmacro
-|
-|.macro toint, reg, freg
-|  toint reg, freg, freg
-|.endmacro
-|
-|//-----------------------------------------------------------------------
-|
-|// Access to frame relative to BASE.
-|.define FRAME_PC,	-8
-|.define FRAME_FUNC,	-4
-|
-|// Instruction decode.
-|.macro decode_OP4, dst, ins; rlwinm dst, ins, 2, 22, 29; .endmacro
-|.macro decode_OP8, dst, ins; rlwinm dst, ins, 3, 21, 28; .endmacro
-|.macro decode_RA8, dst, ins; rlwinm dst, ins, 27, 21, 28; .endmacro
-|.macro decode_RB8, dst, ins; rlwinm dst, ins, 11, 21, 28; .endmacro
-|.macro decode_RC8, dst, ins; rlwinm dst, ins, 19, 21, 28; .endmacro
-|.macro decode_RD8, dst, ins; rlwinm dst, ins, 19, 13, 28; .endmacro
-|
-|.macro decode_OP1, dst, ins; rlwinm dst, ins, 0, 24, 31; .endmacro
-|.macro decode_RD4, dst, ins; rlwinm dst, ins, 18, 14, 29; .endmacro
-|
-|// Instruction fetch.
-|.macro ins_NEXT1
-|  lwz INS, 0(PC)
-|   addi PC, PC, 4
-|.endmacro
-|// Instruction decode+dispatch. Note: optimized for e300!
-|.macro ins_NEXT2
-|  decode_OPP TMP1, INS
-|  lpx TMP0, DISPATCH, TMP1
-|  mtctr TMP0
-|   decode_RB8 RB, INS
-|   decode_RD8 RD, INS
-|   decode_RA8 RA, INS
-|   decode_RC8 RC, INS
-|  bctr
-|.endmacro
-|.macro ins_NEXT
-|  ins_NEXT1
-|  ins_NEXT2
-|.endmacro
-|
-|// Instruction footer.
-|.if 1
-|  // Replicated dispatch. Less unpredictable branches, but higher I-Cache use.
-|  .define ins_next, ins_NEXT
-|  .define ins_next_, ins_NEXT
-|  .define ins_next1, ins_NEXT1
-|  .define ins_next2, ins_NEXT2
-|.else
-|  // Common dispatch. Lower I-Cache use, only one (very) unpredictable branch.
-|  // Affects only certain kinds of benchmarks (and only with -j off).
-|  .macro ins_next
-|    b ->ins_next
-|  .endmacro
-|  .macro ins_next1
-|  .endmacro
-|  .macro ins_next2
-|    b ->ins_next
-|  .endmacro
-|  .macro ins_next_
-|  ->ins_next:
-|    ins_NEXT
-|  .endmacro
-|.endif
-|
-|// Call decode and dispatch.
-|.macro ins_callt
-|  // BASE = new base, RB = LFUNC/CFUNC, RC = nargs*8, FRAME_PC(BASE) = PC
-|  lwz PC, LFUNC:RB->pc
-|  lwz INS, 0(PC)
-|   addi PC, PC, 4
-|  decode_OPP TMP1, INS
-|   decode_RA8 RA, INS
-|  lpx TMP0, DISPATCH, TMP1
-|   add RA, RA, BASE
-|  mtctr TMP0
-|  bctr
-|.endmacro
-|
-|.macro ins_call
-|  // BASE = new base, RB = LFUNC/CFUNC, RC = nargs*8, PC = caller PC
-|  stw PC, FRAME_PC(BASE)
-|  ins_callt
-|.endmacro
-|
-|//-----------------------------------------------------------------------
-|
-|// Macros to test operand types.
-|.macro checknum, reg; cmplw reg, TISNUM; .endmacro
-|.macro checknum, cr, reg; cmplw cr, reg, TISNUM; .endmacro
-|.macro checkstr, reg; cmpwi reg, LJ_TSTR; .endmacro
-|.macro checktab, reg; cmpwi reg, LJ_TTAB; .endmacro
-|.macro checkfunc, reg; cmpwi reg, LJ_TFUNC; .endmacro
-|.macro checknil, reg; cmpwi reg, LJ_TNIL; .endmacro
-|
-|.macro branch_RD
-|  srwi TMP0, RD, 1
-|  addis PC, PC, -(BCBIAS_J*4 >> 16)
-|  add PC, PC, TMP0
-|.endmacro
-|
-|// Assumes DISPATCH is relative to GL.
-#define DISPATCH_GL(field)	(GG_DISP2G + (int)offsetof(global_State, field))
-#define DISPATCH_J(field)	(GG_DISP2J + (int)offsetof(jit_State, field))
-|
-#define PC2PROTO(field)  ((int)offsetof(GCproto, field)-(int)sizeof(GCproto))
-|
-|.macro hotcheck, delta, target
-|  rlwinm TMP1, PC, 31, 25, 30
-|  addi TMP1, TMP1, GG_DISP2HOT
-|  lhzx TMP2, DISPATCH, TMP1
-|  addic. TMP2, TMP2, -delta
-|  sthx TMP2, DISPATCH, TMP1
-|  blt target
-|.endmacro
-|
-|.macro hotloop
-|  hotcheck HOTCOUNT_LOOP, ->vm_hotloop
-|.endmacro
-|
-|.macro hotcall
-|  hotcheck HOTCOUNT_CALL, ->vm_hotcall
-|.endmacro
-|
-|// Set current VM state. Uses TMP0.
-|.macro li_vmstate, st; li TMP0, ~LJ_VMST_..st; .endmacro
-|.macro st_vmstate; stw TMP0, DISPATCH_GL(vmstate)(DISPATCH); .endmacro
-|
-|// Move table write barrier back. Overwrites mark and tmp.
-|.macro barrierback, tab, mark, tmp
-|  lwz tmp, DISPATCH_GL(gc.grayagain)(DISPATCH)
-|  // Assumes LJ_GC_BLACK is 0x04.
-|   rlwinm mark, mark, 0, 30, 28		// black2gray(tab)
-|  stw tab, DISPATCH_GL(gc.grayagain)(DISPATCH)
-|   stb mark, tab->marked
-|  stw tmp, tab->gclist
-|.endmacro
-|
-|//-----------------------------------------------------------------------
-
-/* Generate subroutines used by opcodes and other parts of the VM. */
-/* The .code_sub section should be last to help static branch prediction. */
-static void build_subroutines(BuildCtx *ctx)
-{
-  |.code_sub
-  |
-  |//-----------------------------------------------------------------------
-  |//-- Return handling ----------------------------------------------------
-  |//-----------------------------------------------------------------------
-  |
-  |->vm_returnp:
-  |  // See vm_return. Also: TMP2 = previous base.
-  |  andix. TMP0, PC, FRAME_P
-  |   li TMP1, LJ_TTRUE
-  |  beq ->cont_dispatch
-  |
-  |  // Return from pcall or xpcall fast func.
-  |  lwz PC, FRAME_PC(TMP2)		// Fetch PC of previous frame.
-  |  mr BASE, TMP2			// Restore caller base.
-  |  // Prepending may overwrite the pcall frame, so do it at the end.
-  |   stwu TMP1, FRAME_PC(RA)		// Prepend true to results.
-  |
-  |->vm_returnc:
-  |  addi RD, RD, 8			// RD = (nresults+1)*8.
-  |   andix. TMP0, PC, FRAME_TYPE
-  |  cmpwi cr1, RD, 0
-  |  li CRET1, LUA_YIELD
-  |  beq cr1, ->vm_unwind_c_eh
-  |  mr MULTRES, RD
-  |   beq ->BC_RET_Z			// Handle regular return to Lua.
-  |
-  |->vm_return:
-  |  // BASE = base, RA = resultptr, RD/MULTRES = (nresults+1)*8, PC = return
-  |  // TMP0 = PC & FRAME_TYPE
-  |  cmpwi TMP0, FRAME_C
-  |   rlwinm TMP2, PC, 0, 0, 28
-  |    li_vmstate C
-  |   sub TMP2, BASE, TMP2		// TMP2 = previous base.
-  |  bney ->vm_returnp
-  |
-  |  addic. TMP1, RD, -8
-  |   stp TMP2, L->base
-  |   lwz TMP2, SAVE_NRES
-  |    subi BASE, BASE, 8
-  |    st_vmstate
-  |   slwi TMP2, TMP2, 3
-  |  beq >2
-  |1:
-  |  addic. TMP1, TMP1, -8
-  |   lfd f0, 0(RA)
-  |    addi RA, RA, 8
-  |   stfd f0, 0(BASE)
-  |    addi BASE, BASE, 8
-  |  bney <1
-  |
-  |2:
-  |  cmpw TMP2, RD			// More/less results wanted?
-  |  bne >6
-  |3:
-  |  stp BASE, L->top			// Store new top.
-  |
-  |->vm_leave_cp:
-  |  lp TMP0, SAVE_CFRAME		// Restore previous C frame.
-  |   li CRET1, 0			// Ok return status for vm_pcall.
-  |  stp TMP0, L->cframe
-  |
-  |->vm_leave_unw:
-  |  restoreregs
-  |  blr
-  |
-  |6:
-  |  ble >7				// Less results wanted?
-  |  // More results wanted. Check stack size and fill up results with nil.
-  |  lwz TMP1, L->maxstack
-  |  cmplw BASE, TMP1
-  |  bge >8
-  |  stw TISNIL, 0(BASE)
-  |  addi RD, RD, 8
-  |  addi BASE, BASE, 8
-  |  b <2
-  |
-  |7:  // Less results wanted.
-  |  subfic TMP3, TMP2, 0		// LUA_MULTRET+1 case?
-  |   sub TMP0, RD, TMP2
-  |  subfe TMP1, TMP1, TMP1		// TMP1 = TMP2 == 0 ? 0 : -1
-  |   and TMP0, TMP0, TMP1
-  |  sub BASE, BASE, TMP0		// Either keep top or shrink it.
-  |  b <3
-  |
-  |8:  // Corner case: need to grow stack for filling up results.
-  |  // This can happen if:
-  |  // - A C function grows the stack (a lot).
-  |  // - The GC shrinks the stack in between.
-  |  // - A return back from a lua_call() with (high) nresults adjustment.
-  |  stp BASE, L->top			// Save current top held in BASE (yes).
-  |   mr SAVE0, RD
-  |  mr CARG2, TMP2
-  |  mr CARG1, L
-  |  bl extern lj_state_growstack	// (lua_State *L, int n)
-  |    lwz TMP2, SAVE_NRES
-  |   mr RD, SAVE0
-  |    slwi TMP2, TMP2, 3
-  |  lp BASE, L->top			// Need the (realloced) L->top in BASE.
-  |  b <2
-  |
-  |->vm_unwind_c:			// Unwind C stack, return from vm_pcall.
-  |  // (void *cframe, int errcode)
-  |  mr sp, CARG1
-  |  mr CRET1, CARG2
-  |->vm_unwind_c_eh:			// Landing pad for external unwinder.
-  |  lwz L, SAVE_L
-  |  .toc ld TOCREG, SAVE_TOC
-  |   li TMP0, ~LJ_VMST_C
-  |  lwz GL:TMP1, L->glref
-  |   stw TMP0, GL:TMP1->vmstate
-  |  b ->vm_leave_unw
-  |
-  |->vm_unwind_ff:			// Unwind C stack, return from ff pcall.
-  |  // (void *cframe)
-  |.if GPR64
-  |  rldicr sp, CARG1, 0, 61
-  |.else
-  |  rlwinm sp, CARG1, 0, 0, 29
-  |.endif
-  |->vm_unwind_ff_eh:			// Landing pad for external unwinder.
-  |  lwz L, SAVE_L
-  |  .toc ld TOCREG, SAVE_TOC
-  |     li TISNUM, LJ_TISNUM		// Setup type comparison constants.
-  |  lp BASE, L->base
-  |     lus TMP3, 0x59c0		// TOBIT = 2^52 + 2^51 (float).
-  |   lwz DISPATCH, L->glref		// Setup pointer to dispatch table.
-  |     li ZERO, 0
-  |     stw TMP3, TMPD
-  |  li TMP1, LJ_TFALSE
-  |     ori TMP3, TMP3, 0x0004		// TONUM = 2^52 + 2^51 + 2^31 (float).
-  |     li TISNIL, LJ_TNIL
-  |    li_vmstate INTERP
-  |     lfs TOBIT, TMPD
-  |  lwz PC, FRAME_PC(BASE)		// Fetch PC of previous frame.
-  |  la RA, -8(BASE)			// Results start at BASE-8.
-  |     stw TMP3, TMPD
-  |   addi DISPATCH, DISPATCH, GG_G2DISP
-  |  stw TMP1, 0(RA)			// Prepend false to error message.
-  |  li RD, 16				// 2 results: false + error message.
-  |    st_vmstate
-  |     lfs TONUM, TMPD
-  |  b ->vm_returnc
-  |
-  |//-----------------------------------------------------------------------
-  |//-- Grow stack for calls -----------------------------------------------
-  |//-----------------------------------------------------------------------
-  |
-  |->vm_growstack_c:			// Grow stack for C function.
-  |  li CARG2, LUA_MINSTACK
-  |  b >2
-  |
-  |->vm_growstack_l:			// Grow stack for Lua function.
-  |  // BASE = new base, RA = BASE+framesize*8, RC = nargs*8, PC = first PC
-  |  add RC, BASE, RC
-  |   sub RA, RA, BASE
-  |  stp BASE, L->base
-  |   addi PC, PC, 4			// Must point after first instruction.
-  |  stp RC, L->top
-  |   srwi CARG2, RA, 3
-  |2:
-  |  // L->base = new base, L->top = top
-  |   stw PC, SAVE_PC
-  |  mr CARG1, L
-  |  bl extern lj_state_growstack	// (lua_State *L, int n)
-  |  lp BASE, L->base
-  |  lp RC, L->top
-  |  lwz LFUNC:RB, FRAME_FUNC(BASE)
-  |  sub RC, RC, BASE
-  |  // BASE = new base, RB = LFUNC/CFUNC, RC = nargs*8, FRAME_PC(BASE) = PC
-  |  ins_callt				// Just retry the call.
-  |
-  |//-----------------------------------------------------------------------
-  |//-- Entry points into the assembler VM ---------------------------------
-  |//-----------------------------------------------------------------------
-  |
-  |->vm_resume:				// Setup C frame and resume thread.
-  |  // (lua_State *L, TValue *base, int nres1 = 0, ptrdiff_t ef = 0)
-  |  saveregs
-  |  mr L, CARG1
-  |    lwz DISPATCH, L->glref		// Setup pointer to dispatch table.
-  |  mr BASE, CARG2
-  |    lbz TMP1, L->status
-  |   stw L, SAVE_L
-  |  li PC, FRAME_CP
-  |  addi TMP0, sp, CFRAME_RESUME
-  |    addi DISPATCH, DISPATCH, GG_G2DISP
-  |   stw CARG3, SAVE_NRES
-  |    cmplwi TMP1, 0
-  |   stw CARG3, SAVE_ERRF
-  |  stp TMP0, L->cframe
-  |   stp CARG3, SAVE_CFRAME
-  |   stw CARG1, SAVE_PC		// Any value outside of bytecode is ok.
-  |    beq >3
-  |
-  |  // Resume after yield (like a return).
-  |  mr RA, BASE
-  |   lp BASE, L->base
-  |     li TISNUM, LJ_TISNUM		// Setup type comparison constants.
-  |   lp TMP1, L->top
-  |  lwz PC, FRAME_PC(BASE)
-  |     lus TMP3, 0x59c0		// TOBIT = 2^52 + 2^51 (float).
-  |    stb CARG3, L->status
-  |     stw TMP3, TMPD
-  |     ori TMP3, TMP3, 0x0004		// TONUM = 2^52 + 2^51 + 2^31 (float).
-  |     lfs TOBIT, TMPD
-  |   sub RD, TMP1, BASE
-  |     stw TMP3, TMPD
-  |     lus TMP0, 0x4338		// Hiword of 2^52 + 2^51 (double)
-  |   addi RD, RD, 8
-  |     stw TMP0, TONUM_HI
-  |    li_vmstate INTERP
-  |     li ZERO, 0
-  |    st_vmstate
-  |  andix. TMP0, PC, FRAME_TYPE
-  |   mr MULTRES, RD
-  |     lfs TONUM, TMPD
-  |     li TISNIL, LJ_TNIL
-  |  beq ->BC_RET_Z
-  |  b ->vm_return
-  |
-  |->vm_pcall:				// Setup protected C frame and enter VM.
-  |  // (lua_State *L, TValue *base, int nres1, ptrdiff_t ef)
-  |  saveregs
-  |  li PC, FRAME_CP
-  |  stw CARG4, SAVE_ERRF
-  |  b >1
-  |
-  |->vm_call:				// Setup C frame and enter VM.
-  |  // (lua_State *L, TValue *base, int nres1)
-  |  saveregs
-  |  li PC, FRAME_C
-  |
-  |1:  // Entry point for vm_pcall above (PC = ftype).
-  |  lp TMP1, L:CARG1->cframe
-  |   stw CARG3, SAVE_NRES
-  |    mr L, CARG1
-  |   stw CARG1, SAVE_L
-  |    mr BASE, CARG2
-  |  stp sp, L->cframe			// Add our C frame to cframe chain.
-  |    lwz DISPATCH, L->glref		// Setup pointer to dispatch table.
-  |   stw CARG1, SAVE_PC		// Any value outside of bytecode is ok.
-  |  stp TMP1, SAVE_CFRAME
-  |    addi DISPATCH, DISPATCH, GG_G2DISP
-  |
-  |3:  // Entry point for vm_cpcall/vm_resume (BASE = base, PC = ftype).
-  |  lp TMP2, L->base			// TMP2 = old base (used in vmeta_call).
-  |     li TISNUM, LJ_TISNUM		// Setup type comparison constants.
-  |   lp TMP1, L->top
-  |     lus TMP3, 0x59c0		// TOBIT = 2^52 + 2^51 (float).
-  |  add PC, PC, BASE
-  |     stw TMP3, TMPD
-  |     li ZERO, 0
-  |     ori TMP3, TMP3, 0x0004		// TONUM = 2^52 + 2^51 + 2^31 (float).
-  |     lfs TOBIT, TMPD
-  |  sub PC, PC, TMP2			// PC = frame delta + frame type
-  |     stw TMP3, TMPD
-  |     lus TMP0, 0x4338		// Hiword of 2^52 + 2^51 (double)
-  |   sub NARGS8:RC, TMP1, BASE
-  |     stw TMP0, TONUM_HI
-  |    li_vmstate INTERP
-  |     lfs TONUM, TMPD
-  |     li TISNIL, LJ_TNIL
-  |    st_vmstate
-  |
-  |->vm_call_dispatch:
-  |  // TMP2 = old base, BASE = new base, RC = nargs*8, PC = caller PC
-  |  lwz TMP0, FRAME_PC(BASE)
-  |   lwz LFUNC:RB, FRAME_FUNC(BASE)
-  |  checkfunc TMP0; bne ->vmeta_call
-  |
-  |->vm_call_dispatch_f:
-  |  ins_call
-  |  // BASE = new base, RB = func, RC = nargs*8, PC = caller PC
-  |
-  |->vm_cpcall:				// Setup protected C frame, call C.
-  |  // (lua_State *L, lua_CFunction func, void *ud, lua_CPFunction cp)
-  |  saveregs
-  |  mr L, CARG1
-  |   lwz TMP0, L:CARG1->stack
-  |  stw CARG1, SAVE_L
-  |   lp TMP1, L->top
-  |  stw CARG1, SAVE_PC			// Any value outside of bytecode is ok.
-  |   sub TMP0, TMP0, TMP1		// Compute -savestack(L, L->top).
-  |    lp TMP1, L->cframe
-  |    stp sp, L->cframe		// Add our C frame to cframe chain.
-  |  .toc lp CARG4, 0(CARG4)
-  |  li TMP2, 0
-  |   stw TMP0, SAVE_NRES		// Neg. delta means cframe w/o frame.
-  |  stw TMP2, SAVE_ERRF		// No error function.
-  |    stp TMP1, SAVE_CFRAME
-  |  mtctr CARG4
-  |  bctrl			// (lua_State *L, lua_CFunction func, void *ud)
-  |.if PPE
-  |  mr BASE, CRET1
-  |  cmpwi CRET1, 0
-  |.else
-  |  mr. BASE, CRET1
-  |.endif
-  |   lwz DISPATCH, L->glref		// Setup pointer to dispatch table.
-  |    li PC, FRAME_CP
-  |   addi DISPATCH, DISPATCH, GG_G2DISP
-  |  bne <3				// Else continue with the call.
-  |  b ->vm_leave_cp			// No base? Just remove C frame.
-  |
-  |//-----------------------------------------------------------------------
-  |//-- Metamethod handling ------------------------------------------------
-  |//-----------------------------------------------------------------------
-  |
-  |// The lj_meta_* functions (except for lj_meta_cat) don't reallocate the
-  |// stack, so BASE doesn't need to be reloaded across these calls.
-  |
-  |//-- Continuation dispatch ----------------------------------------------
-  |
-  |->cont_dispatch:
-  |  // BASE = meta base, RA = resultptr, RD = (nresults+1)*8
-  |  lwz TMP0, -12(BASE)		// Continuation.
-  |   mr RB, BASE
-  |   mr BASE, TMP2			// Restore caller BASE.
-  |    lwz LFUNC:TMP1, FRAME_FUNC(TMP2)
-  |.if FFI
-  |  cmplwi TMP0, 1
-  |.endif
-  |     lwz PC, -16(RB)			// Restore PC from [cont|PC].
-  |   subi TMP2, RD, 8
-  |    lwz TMP1, LFUNC:TMP1->pc
-  |   stwx TISNIL, RA, TMP2		// Ensure one valid arg.
-  |.if FFI
-  |  ble >1
-  |.endif
-  |    lwz KBASE, PC2PROTO(k)(TMP1)
-  |  // BASE = base, RA = resultptr, RB = meta base
-  |  mtctr TMP0
-  |  bctr				// Jump to continuation.
-  |
-  |.if FFI
-  |1:
-  |  beq ->cont_ffi_callback		// cont = 1: return from FFI callback.
-  |  // cont = 0: tailcall from C function.
-  |  subi TMP1, RB, 16
-  |  sub RC, TMP1, BASE
-  |  b ->vm_call_tail
-  |.endif
-  |
-  |->cont_cat:				// RA = resultptr, RB = meta base
-  |  lwz INS, -4(PC)
-  |   subi CARG2, RB, 16
-  |  decode_RB8 SAVE0, INS
-  |   lfd f0, 0(RA)
-  |  add TMP1, BASE, SAVE0
-  |   stp BASE, L->base
-  |  cmplw TMP1, CARG2
-  |   sub CARG3, CARG2, TMP1
-  |  decode_RA8 RA, INS
-  |   stfd f0, 0(CARG2)
-  |  bney ->BC_CAT_Z
-  |   stfdx f0, BASE, RA
-  |  b ->cont_nop
-  |
-  |//-- Table indexing metamethods -----------------------------------------
-  |
-  |->vmeta_tgets1:
-  |  la CARG3, DISPATCH_GL(tmptv)(DISPATCH)
-  |  li TMP0, LJ_TSTR
-  |   decode_RB8 RB, INS
-  |  stw STR:RC, 4(CARG3)
-  |   add CARG2, BASE, RB
-  |  stw TMP0, 0(CARG3)
-  |  b >1
-  |
-  |->vmeta_tgets:
-  |  la CARG2, DISPATCH_GL(tmptv)(DISPATCH)
-  |  li TMP0, LJ_TTAB
-  |  stw TAB:RB, 4(CARG2)
-  |   la CARG3, DISPATCH_GL(tmptv2)(DISPATCH)
-  |  stw TMP0, 0(CARG2)
-  |   li TMP1, LJ_TSTR
-  |   stw STR:RC, 4(CARG3)
-  |   stw TMP1, 0(CARG3)
-  |  b >1
-  |
-  |->vmeta_tgetb:			// TMP0 = index
-  |.if not DUALNUM
-  |  tonum_u f0, TMP0
-  |.endif
-  |   decode_RB8 RB, INS
-  |  la CARG3, DISPATCH_GL(tmptv)(DISPATCH)
-  |   add CARG2, BASE, RB
-  |.if DUALNUM
-  |  stw TISNUM, 0(CARG3)
-  |  stw TMP0, 4(CARG3)
-  |.else
-  |  stfd f0, 0(CARG3)
-  |.endif
-  |  b >1
-  |
-  |->vmeta_tgetv:
-  |  decode_RB8 RB, INS
-  |   decode_RC8 RC, INS
-  |  add CARG2, BASE, RB
-  |   add CARG3, BASE, RC
-  |1:
-  |  stp BASE, L->base
-  |  mr CARG1, L
-  |  stw PC, SAVE_PC
-  |  bl extern lj_meta_tget		// (lua_State *L, TValue *o, TValue *k)
-  |  // Returns TValue * (finished) or NULL (metamethod).
-  |  cmplwi CRET1, 0
-  |  beq >3
-  |   lfd f0, 0(CRET1)
-  |  ins_next1
-  |   stfdx f0, BASE, RA
-  |  ins_next2
-  |
-  |3:  // Call __index metamethod.
-  |  // BASE = base, L->top = new base, stack = cont/func/t/k
-  |  subfic TMP1, BASE, FRAME_CONT
-  |  lp BASE, L->top
-  |  stw PC, -16(BASE)			// [cont|PC]
-  |   add PC, TMP1, BASE
-  |  lwz LFUNC:RB, FRAME_FUNC(BASE)	// Guaranteed to be a function here.
-  |   li NARGS8:RC, 16			// 2 args for func(t, k).
-  |  b ->vm_call_dispatch_f
-  |
-  |//-----------------------------------------------------------------------
-  |
-  |->vmeta_tsets1:
-  |  la CARG3, DISPATCH_GL(tmptv)(DISPATCH)
-  |  li TMP0, LJ_TSTR
-  |   decode_RB8 RB, INS
-  |  stw STR:RC, 4(CARG3)
-  |   add CARG2, BASE, RB
-  |  stw TMP0, 0(CARG3)
-  |  b >1
-  |
-  |->vmeta_tsets:
-  |  la CARG2, DISPATCH_GL(tmptv)(DISPATCH)
-  |  li TMP0, LJ_TTAB
-  |  stw TAB:RB, 4(CARG2)
-  |   la CARG3, DISPATCH_GL(tmptv2)(DISPATCH)
-  |  stw TMP0, 0(CARG2)
-  |   li TMP1, LJ_TSTR
-  |   stw STR:RC, 4(CARG3)
-  |   stw TMP1, 0(CARG3)
-  |  b >1
-  |
-  |->vmeta_tsetb:			// TMP0 = index
-  |.if not DUALNUM
-  |  tonum_u f0, TMP0
-  |.endif
-  |   decode_RB8 RB, INS
-  |  la CARG3, DISPATCH_GL(tmptv)(DISPATCH)
-  |   add CARG2, BASE, RB
-  |.if DUALNUM
-  |  stw TISNUM, 0(CARG3)
-  |  stw TMP0, 4(CARG3)
-  |.else
-  |  stfd f0, 0(CARG3)
-  |.endif
-  |  b >1
-  |
-  |->vmeta_tsetv:
-  |  decode_RB8 RB, INS
-  |   decode_RC8 RC, INS
-  |  add CARG2, BASE, RB
-  |   add CARG3, BASE, RC
-  |1:
-  |  stp BASE, L->base
-  |  mr CARG1, L
-  |  stw PC, SAVE_PC
-  |  bl extern lj_meta_tset		// (lua_State *L, TValue *o, TValue *k)
-  |  // Returns TValue * (finished) or NULL (metamethod).
-  |  cmplwi CRET1, 0
-  |   lfdx f0, BASE, RA
-  |  beq >3
-  |  // NOBARRIER: lj_meta_tset ensures the table is not black.
-  |  ins_next1
-  |   stfd f0, 0(CRET1)
-  |  ins_next2
-  |
-  |3:  // Call __newindex metamethod.
-  |  // BASE = base, L->top = new base, stack = cont/func/t/k/(v)
-  |  subfic TMP1, BASE, FRAME_CONT
-  |  lp BASE, L->top
-  |  stw PC, -16(BASE)			// [cont|PC]
-  |   add PC, TMP1, BASE
-  |  lwz LFUNC:RB, FRAME_FUNC(BASE)	// Guaranteed to be a function here.
-  |   li NARGS8:RC, 24			// 3 args for func(t, k, v)
-  |  stfd f0, 16(BASE)			// Copy value to third argument.
-  |  b ->vm_call_dispatch_f
-  |
-  |//-- Comparison metamethods ---------------------------------------------
-  |
-  |->vmeta_comp:
-  |  mr CARG1, L
-  |   subi PC, PC, 4
-  |.if DUALNUM
-  |  mr CARG2, RA
-  |.else
-  |  add CARG2, BASE, RA
-  |.endif
-  |   stw PC, SAVE_PC
-  |.if DUALNUM
-  |  mr CARG3, RD
-  |.else
-  |  add CARG3, BASE, RD
-  |.endif
-  |   stp BASE, L->base
-  |  decode_OP1 CARG4, INS
-  |  bl extern lj_meta_comp  // (lua_State *L, TValue *o1, *o2, int op)
-  |  // Returns 0/1 or TValue * (metamethod).
-  |3:
-  |  cmplwi CRET1, 1
-  |  bgt ->vmeta_binop
-  |  subfic CRET1, CRET1, 0
-  |4:
-  |  lwz INS, 0(PC)
-  |   addi PC, PC, 4
-  |  decode_RD4 TMP2, INS
-  |  addis TMP2, TMP2, -(BCBIAS_J*4 >> 16)
-  |  and TMP2, TMP2, CRET1
-  |  add PC, PC, TMP2
-  |->cont_nop:
-  |  ins_next
-  |
-  |->cont_ra:				// RA = resultptr
-  |  lwz INS, -4(PC)
-  |   lfd f0, 0(RA)
-  |  decode_RA8 TMP1, INS
-  |   stfdx f0, BASE, TMP1
-  |  b ->cont_nop
-  |
-  |->cont_condt:			// RA = resultptr
-  |  lwz TMP0, 0(RA)
-  |  .gpr64 extsw TMP0, TMP0
-  |  subfic TMP0, TMP0, LJ_TTRUE	// Branch if result is true.
-  |  subfe CRET1, CRET1, CRET1
-  |  not CRET1, CRET1
-  |  b <4
-  |
-  |->cont_condf:			// RA = resultptr
-  |  lwz TMP0, 0(RA)
-  |  .gpr64 extsw TMP0, TMP0
-  |  subfic TMP0, TMP0, LJ_TTRUE	// Branch if result is false.
-  |  subfe CRET1, CRET1, CRET1
-  |  b <4
-  |
-  |->vmeta_equal:
-  |  // CARG2, CARG3, CARG4 are already set by BC_ISEQV/BC_ISNEV.
-  |  subi PC, PC, 4
-  |   stp BASE, L->base
-  |  mr CARG1, L
-  |   stw PC, SAVE_PC
-  |  bl extern lj_meta_equal  // (lua_State *L, GCobj *o1, *o2, int ne)
-  |  // Returns 0/1 or TValue * (metamethod).
-  |  b <3
-  |
-  |->vmeta_equal_cd:
-  |.if FFI
-  |  mr CARG2, INS
-  |  subi PC, PC, 4
-  |   stp BASE, L->base
-  |  mr CARG1, L
-  |   stw PC, SAVE_PC
-  |  bl extern lj_meta_equal_cd		// (lua_State *L, BCIns op)
-  |  // Returns 0/1 or TValue * (metamethod).
-  |  b <3
-  |.endif
-  |
-  |//-- Arithmetic metamethods ---------------------------------------------
-  |
-  |->vmeta_arith_nv:
-  |  add CARG3, KBASE, RC
-  |  add CARG4, BASE, RB
-  |  b >1
-  |->vmeta_arith_nv2:
-  |.if DUALNUM
-  |  mr CARG3, RC
-  |  mr CARG4, RB
-  |  b >1
-  |.endif
-  |
-  |->vmeta_unm:
-  |  mr CARG3, RD
-  |  mr CARG4, RD
-  |  b >1
-  |
-  |->vmeta_arith_vn:
-  |  add CARG3, BASE, RB
-  |  add CARG4, KBASE, RC
-  |  b >1
-  |
-  |->vmeta_arith_vv:
-  |  add CARG3, BASE, RB
-  |  add CARG4, BASE, RC
-  |.if DUALNUM
-  |  b >1
-  |.endif
-  |->vmeta_arith_vn2:
-  |->vmeta_arith_vv2:
-  |.if DUALNUM
-  |  mr CARG3, RB
-  |  mr CARG4, RC
-  |.endif
-  |1:
-  |  add CARG2, BASE, RA
-  |   stp BASE, L->base
-  |  mr CARG1, L
-  |   stw PC, SAVE_PC
-  |  decode_OP1 CARG5, INS		// Caveat: CARG5 overlaps INS.
-  |  bl extern lj_meta_arith  // (lua_State *L, TValue *ra,*rb,*rc, BCReg op)
-  |  // Returns NULL (finished) or TValue * (metamethod).
-  |  cmplwi CRET1, 0
-  |  beq ->cont_nop
-  |
-  |  // Call metamethod for binary op.
-  |->vmeta_binop:
-  |  // BASE = old base, CRET1 = new base, stack = cont/func/o1/o2
-  |  sub TMP1, CRET1, BASE
-  |   stw PC, -16(CRET1)		// [cont|PC]
-  |   mr TMP2, BASE
-  |  addi PC, TMP1, FRAME_CONT
-  |   mr BASE, CRET1
-  |  li NARGS8:RC, 16			// 2 args for func(o1, o2).
-  |  b ->vm_call_dispatch
-  |
-  |->vmeta_len:
-#if LJ_52
-  |  mr SAVE0, CARG1
-#endif
-  |  mr CARG2, RD
-  |   stp BASE, L->base
-  |  mr CARG1, L
-  |   stw PC, SAVE_PC
-  |  bl extern lj_meta_len		// (lua_State *L, TValue *o)
-  |  // Returns NULL (retry) or TValue * (metamethod base).
-#if LJ_52
-  |  cmplwi CRET1, 0
-  |  bne ->vmeta_binop			// Binop call for compatibility.
-  |  mr CARG1, SAVE0
-  |  b ->BC_LEN_Z
-#else
-  |  b ->vmeta_binop			// Binop call for compatibility.
-#endif
-  |
-  |//-- Call metamethod ----------------------------------------------------
-  |
-  |->vmeta_call:			// Resolve and call __call metamethod.
-  |  // TMP2 = old base, BASE = new base, RC = nargs*8
-  |  mr CARG1, L
-  |   stp TMP2, L->base			// This is the callers base!
-  |  subi CARG2, BASE, 8
-  |   stw PC, SAVE_PC
-  |  add CARG3, BASE, RC
-  |   mr SAVE0, NARGS8:RC
-  |  bl extern lj_meta_call	// (lua_State *L, TValue *func, TValue *top)
-  |  lwz LFUNC:RB, FRAME_FUNC(BASE)	// Guaranteed to be a function here.
-  |   addi NARGS8:RC, SAVE0, 8		// Got one more argument now.
-  |  ins_call
-  |
-  |->vmeta_callt:			// Resolve __call for BC_CALLT.
-  |  // BASE = old base, RA = new base, RC = nargs*8
-  |  mr CARG1, L
-  |   stp BASE, L->base
-  |  subi CARG2, RA, 8
-  |   stw PC, SAVE_PC
-  |  add CARG3, RA, RC
-  |   mr SAVE0, NARGS8:RC
-  |  bl extern lj_meta_call	// (lua_State *L, TValue *func, TValue *top)
-  |  lwz TMP1, FRAME_PC(BASE)
-  |   addi NARGS8:RC, SAVE0, 8		// Got one more argument now.
-  |   lwz LFUNC:RB, FRAME_FUNC(RA)	// Guaranteed to be a function here.
-  |  b ->BC_CALLT_Z
-  |
-  |//-- Argument coercion for 'for' statement ------------------------------
-  |
-  |->vmeta_for:
-  |  mr CARG1, L
-  |   stp BASE, L->base
-  |  mr CARG2, RA
-  |   stw PC, SAVE_PC
-  |  mr SAVE0, INS
-  |  bl extern lj_meta_for	// (lua_State *L, TValue *base)
-  |.if JIT
-  |   decode_OP1 TMP0, SAVE0
-  |.endif
-  |  decode_RA8 RA, SAVE0
-  |.if JIT
-  |   cmpwi TMP0, BC_JFORI
-  |.endif
-  |  decode_RD8 RD, SAVE0
-  |.if JIT
-  |   beqy =>BC_JFORI
-  |.endif
-  |  b =>BC_FORI
-  |
-  |//-----------------------------------------------------------------------
-  |//-- Fast functions -----------------------------------------------------
-  |//-----------------------------------------------------------------------
-  |
-  |.macro .ffunc, name
-  |->ff_ .. name:
-  |.endmacro
-  |
-  |.macro .ffunc_1, name
-  |->ff_ .. name:
-  |  cmplwi NARGS8:RC, 8
-  |   lwz CARG3, 0(BASE)
-  |    lwz CARG1, 4(BASE)
-  |  blt ->fff_fallback
-  |.endmacro
-  |
-  |.macro .ffunc_2, name
-  |->ff_ .. name:
-  |  cmplwi NARGS8:RC, 16
-  |   lwz CARG3, 0(BASE)
-  |    lwz CARG4, 8(BASE)
-  |   lwz CARG1, 4(BASE)
-  |    lwz CARG2, 12(BASE)
-  |  blt ->fff_fallback
-  |.endmacro
-  |
-  |.macro .ffunc_n, name
-  |->ff_ .. name:
-  |  cmplwi NARGS8:RC, 8
-  |   lwz CARG3, 0(BASE)
-  |    lfd FARG1, 0(BASE)
-  |  blt ->fff_fallback
-  |  checknum CARG3; bge ->fff_fallback
-  |.endmacro
-  |
-  |.macro .ffunc_nn, name
-  |->ff_ .. name:
-  |  cmplwi NARGS8:RC, 16
-  |   lwz CARG3, 0(BASE)
-  |    lfd FARG1, 0(BASE)
-  |   lwz CARG4, 8(BASE)
-  |    lfd FARG2, 8(BASE)
-  |  blt ->fff_fallback
-  |  checknum CARG3; bge ->fff_fallback
-  |  checknum CARG4; bge ->fff_fallback
-  |.endmacro
-  |
-  |// Inlined GC threshold check. Caveat: uses TMP0 and TMP1.
-  |.macro ffgccheck
-  |  lwz TMP0, DISPATCH_GL(gc.total)(DISPATCH)
-  |  lwz TMP1, DISPATCH_GL(gc.threshold)(DISPATCH)
-  |  cmplw TMP0, TMP1
-  |  bgel ->fff_gcstep
-  |.endmacro
-  |
-  |//-- Base library: checks -----------------------------------------------
-  |
-  |.ffunc_1 assert
-  |  li TMP1, LJ_TFALSE
-  |   la RA, -8(BASE)
-  |  cmplw cr1, CARG3, TMP1
-  |    lwz PC, FRAME_PC(BASE)
-  |  bge cr1, ->fff_fallback
-  |   stw CARG3, 0(RA)
-  |  addi RD, NARGS8:RC, 8		// Compute (nresults+1)*8.
-  |   stw CARG1, 4(RA)
-  |  beq ->fff_res			// Done if exactly 1 argument.
-  |  li TMP1, 8
-  |  subi RC, RC, 8
-  |1:
-  |  cmplw TMP1, RC
-  |   lfdx f0, BASE, TMP1
-  |   stfdx f0, RA, TMP1
-  |    addi TMP1, TMP1, 8
-  |  bney <1
-  |  b ->fff_res
-  |
-  |.ffunc type
-  |  cmplwi NARGS8:RC, 8
-  |   lwz CARG1, 0(BASE)
-  |  blt ->fff_fallback
-  |  .gpr64 extsw CARG1, CARG1
-  |  subfc TMP0, TISNUM, CARG1
-  |  subfe TMP2, CARG1, CARG1
-  |  orc TMP1, TMP2, TMP0
-  |  addi TMP1, TMP1, ~LJ_TISNUM+1
-  |  slwi TMP1, TMP1, 3
-  |   la TMP2, CFUNC:RB->upvalue
-  |  lfdx FARG1, TMP2, TMP1
-  |  b ->fff_resn
-  |
-  |//-- Base library: getters and setters ---------------------------------
-  |
-  |.ffunc_1 getmetatable
-  |  checktab CARG3; bne >6
-  |1:  // Field metatable must be at same offset for GCtab and GCudata!
-  |  lwz TAB:CARG1, TAB:CARG1->metatable
-  |2:
-  |  li CARG3, LJ_TNIL
-  |   cmplwi TAB:CARG1, 0
-  |  lwz STR:RC, DISPATCH_GL(gcroot[GCROOT_MMNAME+MM_metatable])(DISPATCH)
-  |   beq ->fff_restv
-  |  lwz TMP0, TAB:CARG1->hmask
-  |   li CARG3, LJ_TTAB			// Use metatable as default result.
-  |  lwz TMP1, STR:RC->hash
-  |  lwz NODE:TMP2, TAB:CARG1->node
-  |  and TMP1, TMP1, TMP0		// idx = str->hash & tab->hmask
-  |  slwi TMP0, TMP1, 5
-  |  slwi TMP1, TMP1, 3
-  |  sub TMP1, TMP0, TMP1
-  |  add NODE:TMP2, NODE:TMP2, TMP1	// node = tab->node + (idx*32-idx*8)
-  |3:  // Rearranged logic, because we expect _not_ to find the key.
-  |  lwz CARG4, NODE:TMP2->key
-  |   lwz TMP0, 4+offsetof(Node, key)(NODE:TMP2)
-  |    lwz CARG2, NODE:TMP2->val
-  |     lwz TMP1, 4+offsetof(Node, val)(NODE:TMP2)
-  |  checkstr CARG4; bne >4
-  |   cmpw TMP0, STR:RC; beq >5
-  |4:
-  |  lwz NODE:TMP2, NODE:TMP2->next
-  |  cmplwi NODE:TMP2, 0
-  |  beq ->fff_restv			// Not found, keep default result.
-  |  b <3
-  |5:
-  |  checknil CARG2
-  |  beq ->fff_restv			// Ditto for nil value.
-  |  mr CARG3, CARG2			// Return value of mt.__metatable.
-  |  mr CARG1, TMP1
-  |  b ->fff_restv
-  |
-  |6:
-  |  cmpwi CARG3, LJ_TUDATA; beq <1
-  |  .gpr64 extsw CARG3, CARG3
-  |  subfc TMP0, TISNUM, CARG3
-  |  subfe TMP2, CARG3, CARG3
-  |  orc TMP1, TMP2, TMP0
-  |  addi TMP1, TMP1, ~LJ_TISNUM+1
-  |  slwi TMP1, TMP1, 2
-  |   la TMP2, DISPATCH_GL(gcroot[GCROOT_BASEMT])(DISPATCH)
-  |  lwzx TAB:CARG1, TMP2, TMP1
-  |  b <2
-  |
-  |.ffunc_2 setmetatable
-  |  // Fast path: no mt for table yet and not clearing the mt.
-  |   checktab CARG3; bne ->fff_fallback
-  |  lwz TAB:TMP1, TAB:CARG1->metatable
-  |   checktab CARG4; bne ->fff_fallback
-  |  cmplwi TAB:TMP1, 0
-  |   lbz TMP3, TAB:CARG1->marked
-  |  bne ->fff_fallback
-  |   andix. TMP0, TMP3, LJ_GC_BLACK	// isblack(table)
-  |    stw TAB:CARG2, TAB:CARG1->metatable
-  |   beq ->fff_restv
-  |  barrierback TAB:CARG1, TMP3, TMP0
-  |  b ->fff_restv
-  |
-  |.ffunc rawget
-  |  cmplwi NARGS8:RC, 16
-  |   lwz CARG4, 0(BASE)
-  |    lwz TAB:CARG2, 4(BASE)
-  |  blt ->fff_fallback
-  |  checktab CARG4; bne ->fff_fallback
-  |   la CARG3, 8(BASE)
-  |   mr CARG1, L
-  |  bl extern lj_tab_get  // (lua_State *L, GCtab *t, cTValue *key)
-  |  // Returns cTValue *.
-  |  lfd FARG1, 0(CRET1)
-  |  b ->fff_resn
-  |
-  |//-- Base library: conversions ------------------------------------------
-  |
-  |.ffunc tonumber
-  |  // Only handles the number case inline (without a base argument).
-  |  cmplwi NARGS8:RC, 8
-  |   lwz CARG1, 0(BASE)
-  |    lfd FARG1, 0(BASE)
-  |  bne ->fff_fallback			// Exactly one argument.
-  |   checknum CARG1; bgt ->fff_fallback
-  |  b ->fff_resn
-  |
-  |.ffunc_1 tostring
-  |  // Only handles the string or number case inline.
-  |  checkstr CARG3
-  |  // A __tostring method in the string base metatable is ignored.
-  |  beq ->fff_restv			// String key?
-  |  // Handle numbers inline, unless a number base metatable is present.
-  |  lwz TMP0, DISPATCH_GL(gcroot[GCROOT_BASEMT_NUM])(DISPATCH)
-  |  checknum CARG3
-  |  cmplwi cr1, TMP0, 0
-  |   stp BASE, L->base			// Add frame since C call can throw.
-  |  crorc 4*cr0+eq, 4*cr0+gt, 4*cr1+eq
-  |   stw PC, SAVE_PC			// Redundant (but a defined value).
-  |  beq ->fff_fallback
-  |  ffgccheck
-  |  mr CARG1, L
-  |  mr CARG2, BASE
-  |.if DUALNUM
-  |  bl extern lj_str_fromnumber	// (lua_State *L, cTValue *o)
-  |.else
-  |  bl extern lj_str_fromnum		// (lua_State *L, lua_Number *np)
-  |.endif
-  |  // Returns GCstr *.
-  |  li CARG3, LJ_TSTR
-  |  b ->fff_restv
-  |
-  |//-- Base library: iterators -------------------------------------------
-  |
-  |.ffunc next
-  |  cmplwi NARGS8:RC, 8
-  |   lwz CARG1, 0(BASE)
-  |    lwz TAB:CARG2, 4(BASE)
-  |  blt ->fff_fallback
-  |   stwx TISNIL, BASE, NARGS8:RC	// Set missing 2nd arg to nil.
-  |  checktab CARG1
-  |   lwz PC, FRAME_PC(BASE)
-  |  bne ->fff_fallback
-  |   stp BASE, L->base			// Add frame since C call can throw.
-  |  mr CARG1, L
-  |   stp BASE, L->top			// Dummy frame length is ok.
-  |  la CARG3, 8(BASE)
-  |   stw PC, SAVE_PC
-  |  bl extern lj_tab_next	// (lua_State *L, GCtab *t, TValue *key)
-  |  // Returns 0 at end of traversal.
-  |  cmplwi CRET1, 0
-  |   li CARG3, LJ_TNIL
-  |  beq ->fff_restv			// End of traversal: return nil.
-  |  lfd f0, 8(BASE)			// Copy key and value to results.
-  |   la RA, -8(BASE)
-  |  lfd f1, 16(BASE)
-  |  stfd f0, 0(RA)
-  |   li RD, (2+1)*8
-  |  stfd f1, 8(RA)
-  |  b ->fff_res
-  |
-  |.ffunc_1 pairs
-  |  checktab CARG3
-  |   lwz PC, FRAME_PC(BASE)
-  |  bne ->fff_fallback
-#if LJ_52
-  |   lwz TAB:TMP2, TAB:CARG1->metatable
-  |  lfd f0, CFUNC:RB->upvalue[0]
-  |   cmplwi TAB:TMP2, 0
-  |  la RA, -8(BASE)
-  |   bne ->fff_fallback
-#else
-  |  lfd f0, CFUNC:RB->upvalue[0]
-  |  la RA, -8(BASE)
-#endif
-  |   stw TISNIL, 8(BASE)
-  |  li RD, (3+1)*8
-  |  stfd f0, 0(RA)
-  |  b ->fff_res
-  |
-  |.ffunc ipairs_aux
-  |  cmplwi NARGS8:RC, 16
-  |   lwz CARG3, 0(BASE)
-  |    lwz TAB:CARG1, 4(BASE)
-  |   lwz CARG4, 8(BASE)
-  |.if DUALNUM
-  |    lwz TMP2, 12(BASE)
-  |.else
-  |    lfd FARG2, 8(BASE)
-  |.endif
-  |  blt ->fff_fallback
-  |  checktab CARG3
-  |  checknum cr1, CARG4
-  |   lwz PC, FRAME_PC(BASE)
-  |.if DUALNUM
-  |  bne ->fff_fallback
-  |  bne cr1, ->fff_fallback
-  |.else
-  |    lus TMP0, 0x3ff0
-  |    stw ZERO, TMPD_LO
-  |  bne ->fff_fallback
-  |    stw TMP0, TMPD_HI
-  |  bge cr1, ->fff_fallback
-  |    lfd FARG1, TMPD
-  |  toint TMP2, FARG2, f0
-  |.endif
-  |   lwz TMP0, TAB:CARG1->asize
-  |   lwz TMP1, TAB:CARG1->array
-  |.if not DUALNUM
-  |  fadd FARG2, FARG2, FARG1
-  |.endif
-  |  addi TMP2, TMP2, 1
-  |   la RA, -8(BASE)
-  |  cmplw TMP0, TMP2
-  |.if DUALNUM
-  |  stw TISNUM, 0(RA)
-  |   slwi TMP3, TMP2, 3
-  |  stw TMP2, 4(RA)
-  |.else
-  |   slwi TMP3, TMP2, 3
-  |  stfd FARG2, 0(RA)
-  |.endif
-  |  ble >2				// Not in array part?
-  |  lwzx TMP2, TMP1, TMP3
-  |  lfdx f0, TMP1, TMP3
-  |1:
-  |  checknil TMP2
-  |   li RD, (0+1)*8
-  |  beq ->fff_res			// End of iteration, return 0 results.
-  |   li RD, (2+1)*8
-  |  stfd f0, 8(RA)
-  |  b ->fff_res
-  |2:  // Check for empty hash part first. Otherwise call C function.
-  |  lwz TMP0, TAB:CARG1->hmask
-  |  cmplwi TMP0, 0
-  |   li RD, (0+1)*8
-  |  beq ->fff_res
-  |   mr CARG2, TMP2
-  |  bl extern lj_tab_getinth		// (GCtab *t, int32_t key)
-  |  // Returns cTValue * or NULL.
-  |  cmplwi CRET1, 0
-  |   li RD, (0+1)*8
-  |  beq ->fff_res
-  |  lwz TMP2, 0(CRET1)
-  |  lfd f0, 0(CRET1)
-  |  b <1
-  |
-  |.ffunc_1 ipairs
-  |  checktab CARG3
-  |   lwz PC, FRAME_PC(BASE)
-  |  bne ->fff_fallback
-#if LJ_52
-  |   lwz TAB:TMP2, TAB:CARG1->metatable
-  |  lfd f0, CFUNC:RB->upvalue[0]
-  |   cmplwi TAB:TMP2, 0
-  |  la RA, -8(BASE)
-  |   bne ->fff_fallback
-#else
-  |  lfd f0, CFUNC:RB->upvalue[0]
-  |  la RA, -8(BASE)
-#endif
-  |.if DUALNUM
-  |  stw TISNUM, 8(BASE)
-  |.else
-  |  stw ZERO, 8(BASE)
-  |.endif
-  |   stw ZERO, 12(BASE)
-  |  li RD, (3+1)*8
-  |  stfd f0, 0(RA)
-  |  b ->fff_res
-  |
-  |//-- Base library: catch errors ----------------------------------------
-  |
-  |.ffunc pcall
-  |  cmplwi NARGS8:RC, 8
-  |   lbz TMP3, DISPATCH_GL(hookmask)(DISPATCH)
-  |  blt ->fff_fallback
-  |   mr TMP2, BASE
-  |   la BASE, 8(BASE)
-  |  // Remember active hook before pcall.
-  |  rlwinm TMP3, TMP3, 32-HOOK_ACTIVE_SHIFT, 31, 31
-  |   subi NARGS8:RC, NARGS8:RC, 8
-  |  addi PC, TMP3, 8+FRAME_PCALL
-  |  b ->vm_call_dispatch
-  |
-  |.ffunc xpcall
-  |  cmplwi NARGS8:RC, 16
-  |   lwz CARG4, 8(BASE)
-  |    lfd FARG2, 8(BASE)
-  |    lfd FARG1, 0(BASE)
-  |  blt ->fff_fallback
-  |  lbz TMP1, DISPATCH_GL(hookmask)(DISPATCH)
-  |   mr TMP2, BASE
-  |  checkfunc CARG4; bne ->fff_fallback  // Traceback must be a function.
-  |   la BASE, 16(BASE)
-  |  // Remember active hook before pcall.
-  |  rlwinm TMP1, TMP1, 32-HOOK_ACTIVE_SHIFT, 31, 31
-  |    stfd FARG2, 0(TMP2)		// Swap function and traceback.
-  |  subi NARGS8:RC, NARGS8:RC, 16
-  |    stfd FARG1, 8(TMP2)
-  |  addi PC, TMP1, 16+FRAME_PCALL
-  |  b ->vm_call_dispatch
-  |
-  |//-- Coroutine library --------------------------------------------------
-  |
-  |.macro coroutine_resume_wrap, resume
-  |.if resume
-  |.ffunc_1 coroutine_resume
-  |  cmpwi CARG3, LJ_TTHREAD; bne ->fff_fallback
-  |.else
-  |.ffunc coroutine_wrap_aux
-  |  lwz L:CARG1, CFUNC:RB->upvalue[0].gcr
-  |.endif
-  |  lbz TMP0, L:CARG1->status
-  |   lp TMP1, L:CARG1->cframe
-  |    lp CARG2, L:CARG1->top
-  |  cmplwi cr0, TMP0, LUA_YIELD
-  |    lp TMP2, L:CARG1->base
-  |   cmplwi cr1, TMP1, 0
-  |   lwz TMP0, L:CARG1->maxstack
-  |    cmplw cr7, CARG2, TMP2
-  |   lwz PC, FRAME_PC(BASE)
-  |  crorc 4*cr6+lt, 4*cr0+gt, 4*cr1+eq		// st>LUA_YIELD || cframe!=0
-  |   add TMP2, CARG2, NARGS8:RC
-  |  crandc 4*cr6+gt, 4*cr7+eq, 4*cr0+eq	// base==top && st!=LUA_YIELD
-  |   cmplw cr1, TMP2, TMP0
-  |  cror 4*cr6+lt, 4*cr6+lt, 4*cr6+gt
-  |   stw PC, SAVE_PC
-  |  cror 4*cr6+lt, 4*cr6+lt, 4*cr1+gt		// cond1 || cond2 || stackov
-  |   stp BASE, L->base
-  |  blt cr6, ->fff_fallback
-  |1:
-  |.if resume
-  |  addi BASE, BASE, 8			// Keep resumed thread in stack for GC.
-  |  subi NARGS8:RC, NARGS8:RC, 8
-  |  subi TMP2, TMP2, 8
-  |.endif
-  |  stp TMP2, L:CARG1->top
-  |  li TMP1, 0
-  |  stp BASE, L->top
-  |2:  // Move args to coroutine.
-  |  cmpw TMP1, NARGS8:RC
-  |   lfdx f0, BASE, TMP1
-  |  beq >3
-  |   stfdx f0, CARG2, TMP1
-  |  addi TMP1, TMP1, 8
-  |  b <2
-  |3:
-  |  li CARG3, 0
-  |   mr L:SAVE0, L:CARG1
-  |  li CARG4, 0
-  |  bl ->vm_resume			// (lua_State *L, TValue *base, 0, 0)
-  |  // Returns thread status.
-  |4:
-  |  lp TMP2, L:SAVE0->base
-  |   cmplwi CRET1, LUA_YIELD
-  |  lp TMP3, L:SAVE0->top
-  |    li_vmstate INTERP
-  |  lp BASE, L->base
-  |    st_vmstate
-  |   bgt >8
-  |  sub RD, TMP3, TMP2
-  |   lwz TMP0, L->maxstack
-  |  cmplwi RD, 0
-  |   add TMP1, BASE, RD
-  |  beq >6				// No results?
-  |  cmplw TMP1, TMP0
-  |   li TMP1, 0
-  |  bgt >9				// Need to grow stack?
-  |
-  |  subi TMP3, RD, 8
-  |   stp TMP2, L:SAVE0->top		// Clear coroutine stack.
-  |5:  // Move results from coroutine.
-  |  cmplw TMP1, TMP3
-  |   lfdx f0, TMP2, TMP1
-  |   stfdx f0, BASE, TMP1
-  |    addi TMP1, TMP1, 8
-  |  bne <5
-  |6:
-  |  andix. TMP0, PC, FRAME_TYPE
-  |.if resume
-  |  li TMP1, LJ_TTRUE
-  |   la RA, -8(BASE)
-  |  stw TMP1, -8(BASE)			// Prepend true to results.
-  |  addi RD, RD, 16
-  |.else
-  |  mr RA, BASE
-  |  addi RD, RD, 8
-  |.endif
-  |7:
-  |    stw PC, SAVE_PC
-  |   mr MULTRES, RD
-  |  beq ->BC_RET_Z
-  |  b ->vm_return
-  |
-  |8:  // Coroutine returned with error (at co->top-1).
-  |.if resume
-  |  andix. TMP0, PC, FRAME_TYPE
-  |  la TMP3, -8(TMP3)
-  |   li TMP1, LJ_TFALSE
-  |  lfd f0, 0(TMP3)
-  |   stp TMP3, L:SAVE0->top		// Remove error from coroutine stack.
-  |    li RD, (2+1)*8
-  |   stw TMP1, -8(BASE)		// Prepend false to results.
-  |    la RA, -8(BASE)
-  |  stfd f0, 0(BASE)			// Copy error message.
-  |  b <7
-  |.else
-  |  mr CARG1, L
-  |  mr CARG2, L:SAVE0
-  |  bl extern lj_ffh_coroutine_wrap_err  // (lua_State *L, lua_State *co)
-  |.endif
-  |
-  |9:  // Handle stack expansion on return from yield.
-  |  mr CARG1, L
-  |  srwi CARG2, RD, 3
-  |  bl extern lj_state_growstack	// (lua_State *L, int n)
-  |  li CRET1, 0
-  |  b <4
-  |.endmacro
-  |
-  |  coroutine_resume_wrap 1		// coroutine.resume
-  |  coroutine_resume_wrap 0		// coroutine.wrap
-  |
-  |.ffunc coroutine_yield
-  |  lp TMP0, L->cframe
-  |   add TMP1, BASE, NARGS8:RC
-  |   stp BASE, L->base
-  |  andix. TMP0, TMP0, CFRAME_RESUME
-  |   stp TMP1, L->top
-  |    li CRET1, LUA_YIELD
-  |  beq ->fff_fallback
-  |   stp ZERO, L->cframe
-  |    stb CRET1, L->status
-  |  b ->vm_leave_unw
-  |
-  |//-- Math library -------------------------------------------------------
-  |
-  |.ffunc_1 math_abs
-  |  checknum CARG3
-  |.if DUALNUM
-  |  bne >2
-  |  srawi TMP1, CARG1, 31
-  |  xor TMP2, TMP1, CARG1
-  |.if GPR64
-  |  lus TMP0, 0x8000
-  |  sub CARG1, TMP2, TMP1
-  |  cmplw CARG1, TMP0
-  |  beq >1
-  |.else
-  |  sub. CARG1, TMP2, TMP1
-  |  blt >1
-  |.endif
-  |->fff_resi:
-  |  lwz PC, FRAME_PC(BASE)
-  |  la RA, -8(BASE)
-  |  stw TISNUM, -8(BASE)
-  |  stw CRET1, -4(BASE)
-  |  b ->fff_res1
-  |1:
-  |  lus CARG3, 0x41e0	// 2^31.
-  |  li CARG1, 0
-  |  b ->fff_restv
-  |2:
-  |.endif
-  |  bge ->fff_fallback
-  |  rlwinm CARG3, CARG3, 0, 1, 31
-  |  // Fallthrough.
-  |
-  |->fff_restv:
-  |  // CARG3/CARG1 = TValue result.
-  |  lwz PC, FRAME_PC(BASE)
-  |   stw CARG3, -8(BASE)
-  |  la RA, -8(BASE)
-  |   stw CARG1, -4(BASE)
-  |->fff_res1:
-  |  // RA = results, PC = return.
-  |  li RD, (1+1)*8
-  |->fff_res:
-  |  // RA = results, RD = (nresults+1)*8, PC = return.
-  |  andix. TMP0, PC, FRAME_TYPE
-  |   mr MULTRES, RD
-  |  bney ->vm_return
-  |  lwz INS, -4(PC)
-  |  decode_RB8 RB, INS
-  |5:
-  |  cmplw RB, RD			// More results expected?
-  |   decode_RA8 TMP0, INS
-  |  bgt >6
-  |  ins_next1
-  |  // Adjust BASE. KBASE is assumed to be set for the calling frame.
-  |   sub BASE, RA, TMP0
-  |  ins_next2
-  |
-  |6:  // Fill up results with nil.
-  |  subi TMP1, RD, 8
-  |   addi RD, RD, 8
-  |  stwx TISNIL, RA, TMP1
-  |  b <5
-  |
-  |.macro math_extern, func
-  |  .ffunc_n math_ .. func
-  |  blex func
-  |  b ->fff_resn
-  |.endmacro
-  |
-  |.macro math_extern2, func
-  |  .ffunc_nn math_ .. func
-  |  blex func
-  |  b ->fff_resn
-  |.endmacro
-  |
-  |.macro math_round, func
-  |  .ffunc_1 math_ .. func
-  |   checknum CARG3; beqy ->fff_restv
-  |  rlwinm TMP2, CARG3, 12, 21, 31
-  |   bge ->fff_fallback
-  |  addic. TMP2, TMP2, -1023		// exp = exponent(x) - 1023
-  |  cmplwi cr1, TMP2, 31		// 0 <= exp < 31?
-  |   subfic TMP0, TMP2, 31
-  |  blt >3
-  |  slwi TMP1, CARG3, 11
-  |   srwi TMP3, CARG1, 21
-  |  oris TMP1, TMP1, 0x8000
-  |   addi TMP2, TMP2, 1
-  |  or TMP1, TMP1, TMP3
-  |   slwi CARG2, CARG1, 11
-  |  bge cr1, >4
-  |   slw TMP3, TMP1, TMP2
-  |  srw RD, TMP1, TMP0
-  |   or TMP3, TMP3, CARG2
-  |  srawi TMP2, CARG3, 31
-  |.if "func" == "floor"
-  |  and TMP1, TMP3, TMP2
-  |  addic TMP0, TMP1, -1
-  |  subfe TMP1, TMP0, TMP1
-  |  add CARG1, RD, TMP1
-  |  xor CARG1, CARG1, TMP2
-  |  sub CARG1, CARG1, TMP2
-  |  b ->fff_resi
-  |.else
-  |  andc TMP1, TMP3, TMP2
-  |  addic TMP0, TMP1, -1
-  |  subfe TMP1, TMP0, TMP1
-  |  add CARG1, RD, TMP1
-  |  cmpw CARG1, RD
-  |  xor CARG1, CARG1, TMP2
-  |  sub CARG1, CARG1, TMP2
-  |  bge ->fff_resi
-  |  // Overflow to 2^31.
-  |  lus CARG3, 0x41e0			// 2^31.
-  |  li CARG1, 0
-  |  b ->fff_restv
-  |.endif
-  |3:  // |x| < 1
-  |  slwi TMP2, CARG3, 1
-  |   srawi TMP1, CARG3, 31
-  |  or TMP2, CARG1, TMP2		// ztest = (hi+hi) | lo
-  |.if "func" == "floor"
-  |  and TMP1, TMP2, TMP1		// (ztest & sign) == 0 ? 0 : -1
-  |  subfic TMP2, TMP1, 0
-  |  subfe CARG1, CARG1, CARG1
-  |.else
-  |  andc TMP1, TMP2, TMP1		// (ztest & ~sign) == 0 ? 0 : 1
-  |  addic TMP2, TMP1, -1
-  |  subfe CARG1, TMP2, TMP1
-  |.endif
-  |  b ->fff_resi
-  |4:  // exp >= 31. Check for -(2^31).
-  |  xoris TMP1, TMP1, 0x8000
-  |  srawi TMP2, CARG3, 31
-  |.if "func" == "floor"
-  |  or TMP1, TMP1, CARG2
-  |.endif
-  |.if PPE
-  |  orc TMP1, TMP1, TMP2
-  |  cmpwi TMP1, 0
-  |.else
-  |  orc. TMP1, TMP1, TMP2
-  |.endif
-  |  crand 4*cr0+eq, 4*cr0+eq, 4*cr1+eq
-  |  lus CARG1, 0x8000			// -(2^31).
-  |  beqy ->fff_resi
-  |5:
-  |  lfd FARG1, 0(BASE)
-  |  blex func
-  |  b ->fff_resn
-  |.endmacro
-  |
-  |.if DUALNUM
-  |  math_round floor
-  |  math_round ceil
-  |.else
-  |  // NYI: use internal implementation.
-  |  math_extern floor
-  |  math_extern ceil
-  |.endif
-  |
-  |.if SQRT
-  |.ffunc_n math_sqrt
-  |  fsqrt FARG1, FARG1
-  |  b ->fff_resn
-  |.else
-  |  math_extern sqrt
-  |.endif
-  |
-  |.ffunc math_log
-  |  cmplwi NARGS8:RC, 8
-  |   lwz CARG3, 0(BASE)
-  |    lfd FARG1, 0(BASE)
-  |  bne ->fff_fallback			// Need exactly 1 argument.
-  |  checknum CARG3; bge ->fff_fallback
-  |  blex log
-  |  b ->fff_resn
-  |
-  |  math_extern log10
-  |  math_extern exp
-  |  math_extern sin
-  |  math_extern cos
-  |  math_extern tan
-  |  math_extern asin
-  |  math_extern acos
-  |  math_extern atan
-  |  math_extern sinh
-  |  math_extern cosh
-  |  math_extern tanh
-  |  math_extern2 pow
-  |  math_extern2 atan2
-  |  math_extern2 fmod
-  |
-  |->ff_math_deg:
-  |.ffunc_n math_rad
-  |  lfd FARG2, CFUNC:RB->upvalue[0]
-  |  fmul FARG1, FARG1, FARG2
-  |  b ->fff_resn
-  |
-  |.if DUALNUM
-  |.ffunc math_ldexp
-  |  cmplwi NARGS8:RC, 16
-  |   lwz CARG3, 0(BASE)
-  |    lfd FARG1, 0(BASE)
-  |   lwz CARG4, 8(BASE)
-  |.if GPR64
-  |    lwz CARG2, 12(BASE)
-  |.else
-  |    lwz CARG1, 12(BASE)
-  |.endif
-  |  blt ->fff_fallback
-  |  checknum CARG3; bge ->fff_fallback
-  |  checknum CARG4; bne ->fff_fallback
-  |.else
-  |.ffunc_nn math_ldexp
-  |.if GPR64
-  |  toint CARG2, FARG2
-  |.else
-  |  toint CARG1, FARG2
-  |.endif
-  |.endif
-  |  blex ldexp
-  |  b ->fff_resn
-  |
-  |.ffunc_n math_frexp
-  |.if GPR64
-  |  la CARG2, DISPATCH_GL(tmptv)(DISPATCH)
-  |.else
-  |  la CARG1, DISPATCH_GL(tmptv)(DISPATCH)
-  |.endif
-  |   lwz PC, FRAME_PC(BASE)
-  |  blex frexp
-  |   lwz TMP1, DISPATCH_GL(tmptv)(DISPATCH)
-  |   la RA, -8(BASE)
-  |.if not DUALNUM
-  |   tonum_i FARG2, TMP1
-  |.endif
-  |  stfd FARG1, 0(RA)
-  |  li RD, (2+1)*8
-  |.if DUALNUM
-  |   stw TISNUM, 8(RA)
-  |   stw TMP1, 12(RA)
-  |.else
-  |   stfd FARG2, 8(RA)
-  |.endif
-  |  b ->fff_res
-  |
-  |.ffunc_n math_modf
-  |.if GPR64
-  |  la CARG2, -8(BASE)
-  |.else
-  |  la CARG1, -8(BASE)
-  |.endif
-  |   lwz PC, FRAME_PC(BASE)
-  |  blex modf
-  |   la RA, -8(BASE)
-  |  stfd FARG1, 0(BASE)
-  |  li RD, (2+1)*8
-  |  b ->fff_res
-  |
-  |.macro math_minmax, name, ismax
-  |.if DUALNUM
-  |  .ffunc_1 name
-  |  checknum CARG3
-  |   addi TMP1, BASE, 8
-  |   add TMP2, BASE, NARGS8:RC
-  |  bne >4
-  |1:  // Handle integers.
-  |  lwz CARG4, 0(TMP1)
-  |   cmplw cr1, TMP1, TMP2
-  |  lwz CARG2, 4(TMP1)
-  |   bge cr1, ->fff_resi
-  |  checknum CARG4
-  |   xoris TMP0, CARG1, 0x8000
-  |   xoris TMP3, CARG2, 0x8000
-  |  bne >3
-  |  subfc TMP3, TMP3, TMP0
-  |  subfe TMP0, TMP0, TMP0
-  |.if ismax
-  |  andc TMP3, TMP3, TMP0
-  |.else
-  |  and TMP3, TMP3, TMP0
-  |.endif
-  |  add CARG1, TMP3, CARG2
-  |.if GPR64
-  |  rldicl CARG1, CARG1, 0, 32
-  |.endif
-  |   addi TMP1, TMP1, 8
-  |  b <1
-  |3:
-  |  bge ->fff_fallback
-  |  // Convert intermediate result to number and continue below.
-  |  tonum_i FARG1, CARG1
-  |  lfd FARG2, 0(TMP1)
-  |  b >6
-  |4:
-  |   lfd FARG1, 0(BASE)
-  |  bge ->fff_fallback
-  |5:  // Handle numbers.
-  |  lwz CARG4, 0(TMP1)
-  |   cmplw cr1, TMP1, TMP2
-  |  lfd FARG2, 0(TMP1)
-  |   bge cr1, ->fff_resn
-  |  checknum CARG4; bge >7
-  |6:
-  |  fsub f0, FARG1, FARG2
-  |   addi TMP1, TMP1, 8
-  |.if ismax
-  |  fsel FARG1, f0, FARG1, FARG2
-  |.else
-  |  fsel FARG1, f0, FARG2, FARG1
-  |.endif
-  |  b <5
-  |7:  // Convert integer to number and continue above.
-  |   lwz CARG2, 4(TMP1)
-  |  bne ->fff_fallback
-  |  tonum_i FARG2, CARG2
-  |  b <6
-  |.else
-  |  .ffunc_n name
-  |  li TMP1, 8
-  |1:
-  |   lwzx CARG2, BASE, TMP1
-  |   lfdx FARG2, BASE, TMP1
-  |  cmplw cr1, TMP1, NARGS8:RC
-  |   checknum CARG2
-  |  bge cr1, ->fff_resn
-  |   bge ->fff_fallback
-  |  fsub f0, FARG1, FARG2
-  |   addi TMP1, TMP1, 8
-  |.if ismax
-  |  fsel FARG1, f0, FARG1, FARG2
-  |.else
-  |  fsel FARG1, f0, FARG2, FARG1
-  |.endif
-  |  b <1
-  |.endif
-  |.endmacro
-  |
-  |  math_minmax math_min, 0
-  |  math_minmax math_max, 1
-  |
-  |//-- String library -----------------------------------------------------
-  |
-  |.ffunc_1 string_len
-  |  checkstr CARG3; bne ->fff_fallback
-  |  lwz CRET1, STR:CARG1->len
-  |  b ->fff_resi
-  |
-  |.ffunc string_byte			// Only handle the 1-arg case here.
-  |  cmplwi NARGS8:RC, 8
-  |   lwz CARG3, 0(BASE)
-  |    lwz STR:CARG1, 4(BASE)
-  |  bne ->fff_fallback			// Need exactly 1 argument.
-  |   checkstr CARG3
-  |   bne ->fff_fallback
-  |  lwz TMP0, STR:CARG1->len
-  |.if DUALNUM
-  |   lbz CARG1, STR:CARG1[1]		// Access is always ok (NUL at end).
-  |   li RD, (0+1)*8
-  |   lwz PC, FRAME_PC(BASE)
-  |  cmplwi TMP0, 0
-  |   la RA, -8(BASE)
-  |  beqy ->fff_res
-  |  b ->fff_resi
-  |.else
-  |   lbz TMP1, STR:CARG1[1]		// Access is always ok (NUL at end).
-  |  addic TMP3, TMP0, -1		// RD = ((str->len != 0)+1)*8
-  |  subfe RD, TMP3, TMP0
-  |   stw TMP1, TONUM_LO		// Inlined tonum_u f0, TMP1.
-  |  addi RD, RD, 1
-  |   lfd f0, TONUM_D
-  |  la RA, -8(BASE)
-  |  lwz PC, FRAME_PC(BASE)
-  |   fsub f0, f0, TOBIT
-  |  slwi RD, RD, 3
-  |   stfd f0, 0(RA)
-  |  b ->fff_res
-  |.endif
-  |
-  |.ffunc string_char			// Only handle the 1-arg case here.
-  |  ffgccheck
-  |  cmplwi NARGS8:RC, 8
-  |   lwz CARG3, 0(BASE)
-  |.if DUALNUM
-  |    lwz TMP0, 4(BASE)
-  |  bne ->fff_fallback			// Exactly 1 argument.
-  |  checknum CARG3; bne ->fff_fallback
-  |   la CARG2, 7(BASE)
-  |.else
-  |    lfd FARG1, 0(BASE)
-  |  bne ->fff_fallback			// Exactly 1 argument.
-  |  checknum CARG3; bge ->fff_fallback
-  |  toint TMP0, FARG1
-  |   la CARG2, TMPD_BLO
-  |.endif
-  |   li CARG3, 1
-  |  cmplwi TMP0, 255; bgt ->fff_fallback
-  |->fff_newstr:
-  |  mr CARG1, L
-  |  stp BASE, L->base
-  |  stw PC, SAVE_PC
-  |  bl extern lj_str_new		// (lua_State *L, char *str, size_t l)
-  |  // Returns GCstr *.
-  |  lp BASE, L->base
-  |  li CARG3, LJ_TSTR
-  |  b ->fff_restv
-  |
-  |.ffunc string_sub
-  |  ffgccheck
-  |  cmplwi NARGS8:RC, 16
-  |   lwz CARG3, 16(BASE)
-  |.if not DUALNUM
-  |    lfd f0, 16(BASE)
-  |.endif
-  |   lwz TMP0, 0(BASE)
-  |    lwz STR:CARG1, 4(BASE)
-  |  blt ->fff_fallback
-  |   lwz CARG2, 8(BASE)
-  |.if DUALNUM
-  |    lwz TMP1, 12(BASE)
-  |.else
-  |    lfd f1, 8(BASE)
-  |.endif
-  |   li TMP2, -1
-  |  beq >1
-  |.if DUALNUM
-  |  checknum CARG3
-  |   lwz TMP2, 20(BASE)
-  |  bne ->fff_fallback
-  |1:
-  |  checknum CARG2; bne ->fff_fallback
-  |.else
-  |  checknum CARG3; bge ->fff_fallback
-  |  toint TMP2, f0
-  |1:
-  |  checknum CARG2; bge ->fff_fallback
-  |.endif
-  |  checkstr TMP0; bne ->fff_fallback
-  |.if not DUALNUM
-  |   toint TMP1, f1
-  |.endif
-  |   lwz TMP0, STR:CARG1->len
-  |  cmplw TMP0, TMP2			// len < end? (unsigned compare)
-  |   addi TMP3, TMP2, 1
-  |  blt >5
-  |2:
-  |  cmpwi TMP1, 0			// start <= 0?
-  |   add TMP3, TMP1, TMP0
-  |  ble >7
-  |3:
-  |  sub CARG3, TMP2, TMP1
-  |    addi CARG2, STR:CARG1, #STR-1
-  |  srawi TMP0, CARG3, 31
-  |   addi CARG3, CARG3, 1
-  |    add CARG2, CARG2, TMP1
-  |  andc CARG3, CARG3, TMP0
-  |.if GPR64
-  |  rldicl CARG2, CARG2, 0, 32
-  |  rldicl CARG3, CARG3, 0, 32
-  |.endif
-  |  b ->fff_newstr
-  |
-  |5:  // Negative end or overflow.
-  |  cmpw TMP0, TMP2			// len >= end? (signed compare)
-  |   add TMP2, TMP0, TMP3		// Negative end: end = end+len+1.
-  |  bge <2
-  |   mr TMP2, TMP0			// Overflow: end = len.
-  |  b <2
-  |
-  |7:  // Negative start or underflow.
-  |  .gpr64 extsw TMP1, TMP1
-  |  addic CARG3, TMP1, -1
-  |  subfe CARG3, CARG3, CARG3
-  |   srawi CARG2, TMP3, 31		// Note: modifies carry.
-  |  andc TMP3, TMP3, CARG3
-  |   andc TMP1, TMP3, CARG2
-  |  addi TMP1, TMP1, 1			// start = 1 + (start ? start+len : 0)
-  |  b <3
-  |
-  |.ffunc string_rep			// Only handle the 1-char case inline.
-  |  ffgccheck
-  |  cmplwi NARGS8:RC, 16
-  |   lwz TMP0, 0(BASE)
-  |    lwz STR:CARG1, 4(BASE)
-  |   lwz CARG4, 8(BASE)
-  |.if DUALNUM
-  |    lwz CARG3, 12(BASE)
-  |.else
-  |    lfd FARG2, 8(BASE)
-  |.endif
-  |  bne ->fff_fallback			// Exactly 2 arguments.
-  |  checkstr TMP0; bne ->fff_fallback
-  |.if DUALNUM
-  |  checknum CARG4; bne ->fff_fallback
-  |.else
-  |  checknum CARG4; bge ->fff_fallback
-  |    toint CARG3, FARG2
-  |.endif
-  |   lwz TMP0, STR:CARG1->len
-  |  cmpwi CARG3, 0
-  |   lwz TMP1, DISPATCH_GL(tmpbuf.sz)(DISPATCH)
-  |  ble >2				// Count <= 0? (or non-int)
-  |   cmplwi TMP0, 1
-  |  subi TMP2, CARG3, 1
-  |   blt >2				// Zero length string?
-  |  cmplw cr1, TMP1, CARG3
-  |   bne ->fff_fallback		// Fallback for > 1-char strings.
-  |   lbz TMP0, STR:CARG1[1]
-  |   lp CARG2, DISPATCH_GL(tmpbuf.buf)(DISPATCH)
-  |  blt cr1, ->fff_fallback
-  |1:  // Fill buffer with char. Yes, this is suboptimal code (do you care?).
-  |  cmplwi TMP2, 0
-  |   stbx TMP0, CARG2, TMP2
-  |   subi TMP2, TMP2, 1
-  |  bne <1
-  |  b ->fff_newstr
-  |2:  // Return empty string.
-  |  la STR:CARG1, DISPATCH_GL(strempty)(DISPATCH)
-  |  li CARG3, LJ_TSTR
-  |  b ->fff_restv
-  |
-  |.ffunc string_reverse
-  |  ffgccheck
-  |  cmplwi NARGS8:RC, 8
-  |   lwz CARG3, 0(BASE)
-  |    lwz STR:CARG1, 4(BASE)
-  |  blt ->fff_fallback
-  |  checkstr CARG3
-  |   lwz TMP1, DISPATCH_GL(tmpbuf.sz)(DISPATCH)
-  |  bne ->fff_fallback
-  |  lwz CARG3, STR:CARG1->len
-  |   la CARG1, #STR(STR:CARG1)
-  |   lp CARG2, DISPATCH_GL(tmpbuf.buf)(DISPATCH)
-  |   li TMP2, 0
-  |  cmplw TMP1, CARG3
-  |   subi TMP3, CARG3, 1
-  |  blt ->fff_fallback
-  |1:  // Reverse string copy.
-  |  cmpwi TMP3, 0
-  |   lbzx TMP1, CARG1, TMP2
-  |  blty ->fff_newstr
-  |   stbx TMP1, CARG2, TMP3
-  |  subi TMP3, TMP3, 1
-  |  addi TMP2, TMP2, 1
-  |  b <1
-  |
-  |.macro ffstring_case, name, lo
-  |  .ffunc name
-  |  ffgccheck
-  |  cmplwi NARGS8:RC, 8
-  |   lwz CARG3, 0(BASE)
-  |    lwz STR:CARG1, 4(BASE)
-  |  blt ->fff_fallback
-  |  checkstr CARG3
-  |   lwz TMP1, DISPATCH_GL(tmpbuf.sz)(DISPATCH)
-  |  bne ->fff_fallback
-  |  lwz CARG3, STR:CARG1->len
-  |   la CARG1, #STR(STR:CARG1)
-  |   lp CARG2, DISPATCH_GL(tmpbuf.buf)(DISPATCH)
-  |  cmplw TMP1, CARG3
-  |   li TMP2, 0
-  |  blt ->fff_fallback
-  |1:  // ASCII case conversion.
-  |  cmplw TMP2, CARG3
-  |   lbzx TMP1, CARG1, TMP2
-  |  bgey ->fff_newstr
-  |   subi TMP0, TMP1, lo
-  |    xori TMP3, TMP1, 0x20
-  |   addic TMP0, TMP0, -26
-  |   subfe TMP3, TMP3, TMP3
-  |   rlwinm TMP3, TMP3, 0, 26, 26	// x &= 0x20.
-  |   xor TMP1, TMP1, TMP3
-  |   stbx TMP1, CARG2, TMP2
-  |  addi TMP2, TMP2, 1
-  |  b <1
-  |.endmacro
-  |
-  |ffstring_case string_lower, 65
-  |ffstring_case string_upper, 97
-  |
-  |//-- Table library ------------------------------------------------------
-  |
-  |.ffunc_1 table_getn
-  |  checktab CARG3; bne ->fff_fallback
-  |  bl extern lj_tab_len		// (GCtab *t)
-  |  // Returns uint32_t (but less than 2^31).
-  |  b ->fff_resi
-  |
-  |//-- Bit library --------------------------------------------------------
-  |
-  |.macro .ffunc_bit, name
-  |.if DUALNUM
-  |  .ffunc_1 bit_..name
-  |  checknum CARG3; bnel ->fff_tobit_fb
-  |.else
-  |  .ffunc_n bit_..name
-  |  fadd FARG1, FARG1, TOBIT
-  |  stfd FARG1, TMPD
-  |  lwz CARG1, TMPD_LO
-  |.endif
-  |.endmacro
-  |
-  |.macro .ffunc_bit_op, name, ins
-  |  .ffunc_bit name
-  |  addi TMP1, BASE, 8
-  |  add TMP2, BASE, NARGS8:RC
-  |1:
-  |  lwz CARG4, 0(TMP1)
-  |   cmplw cr1, TMP1, TMP2
-  |.if DUALNUM
-  |  lwz CARG2, 4(TMP1)
-  |.else
-  |  lfd FARG1, 0(TMP1)
-  |.endif
-  |   bgey cr1, ->fff_resi
-  |  checknum CARG4
-  |.if DUALNUM
-  |  bnel ->fff_bitop_fb
-  |.else
-  |  fadd FARG1, FARG1, TOBIT
-  |  bge ->fff_fallback
-  |  stfd FARG1, TMPD
-  |  lwz CARG2, TMPD_LO
-  |.endif
-  |  ins CARG1, CARG1, CARG2
-  |   addi TMP1, TMP1, 8
-  |  b <1
-  |.endmacro
-  |
-  |.ffunc_bit_op band, and
-  |.ffunc_bit_op bor, or
-  |.ffunc_bit_op bxor, xor
-  |
-  |.ffunc_bit bswap
-  |  rotlwi TMP0, CARG1, 8
-  |  rlwimi TMP0, CARG1, 24, 0, 7
-  |  rlwimi TMP0, CARG1, 24, 16, 23
-  |  mr CRET1, TMP0
-  |  b ->fff_resi
-  |
-  |.ffunc_bit bnot
-  |  not CRET1, CARG1
-  |  b ->fff_resi
-  |
-  |.macro .ffunc_bit_sh, name, ins, shmod
-  |.if DUALNUM
-  |  .ffunc_2 bit_..name
-  |  checknum CARG3; bnel ->fff_tobit_fb
-  |  // Note: no inline conversion from number for 2nd argument!
-  |  checknum CARG4; bne ->fff_fallback
-  |.else
-  |  .ffunc_nn bit_..name
-  |  fadd FARG1, FARG1, TOBIT
-  |  fadd FARG2, FARG2, TOBIT
-  |  stfd FARG1, TMPD
-  |  lwz CARG1, TMPD_LO
-  |  stfd FARG2, TMPD
-  |  lwz CARG2, TMPD_LO
-  |.endif
-  |.if shmod == 1
-  |  rlwinm CARG2, CARG2, 0, 27, 31
-  |.elif shmod == 2
-  |  neg CARG2, CARG2
-  |.endif
-  |  ins CRET1, CARG1, CARG2
-  |  b ->fff_resi
-  |.endmacro
-  |
-  |.ffunc_bit_sh lshift, slw, 1
-  |.ffunc_bit_sh rshift, srw, 1
-  |.ffunc_bit_sh arshift, sraw, 1
-  |.ffunc_bit_sh rol, rotlw, 0
-  |.ffunc_bit_sh ror, rotlw, 2
-  |
-  |.ffunc_bit tobit
-  |.if DUALNUM
-  |  b ->fff_resi
-  |.else
-  |->fff_resi:
-  |  tonum_i FARG1, CRET1
-  |.endif
-  |->fff_resn:
-  |  lwz PC, FRAME_PC(BASE)
-  |  la RA, -8(BASE)
-  |  stfd FARG1, -8(BASE)
-  |  b ->fff_res1
-  |
-  |// Fallback FP number to bit conversion.
-  |->fff_tobit_fb:
-  |.if DUALNUM
-  |  lfd FARG1, 0(BASE)
-  |  bgt ->fff_fallback
-  |  fadd FARG1, FARG1, TOBIT
-  |  stfd FARG1, TMPD
-  |  lwz CARG1, TMPD_LO
-  |  blr
-  |.endif
-  |->fff_bitop_fb:
-  |.if DUALNUM
-  |  lfd FARG1, 0(TMP1)
-  |  bgt ->fff_fallback
-  |  fadd FARG1, FARG1, TOBIT
-  |  stfd FARG1, TMPD
-  |  lwz CARG2, TMPD_LO
-  |  blr
-  |.endif
-  |
-  |//-----------------------------------------------------------------------
-  |
-  |->fff_fallback:			// Call fast function fallback handler.
-  |  // BASE = new base, RB = CFUNC, RC = nargs*8
-  |  lp TMP3, CFUNC:RB->f
-  |    add TMP1, BASE, NARGS8:RC
-  |   lwz PC, FRAME_PC(BASE)		// Fallback may overwrite PC.
-  |    addi TMP0, TMP1, 8*LUA_MINSTACK
-  |     lwz TMP2, L->maxstack
-  |   stw PC, SAVE_PC			// Redundant (but a defined value).
-  |  .toc lp TMP3, 0(TMP3)
-  |  cmplw TMP0, TMP2
-  |     stp BASE, L->base
-  |    stp TMP1, L->top
-  |   mr CARG1, L
-  |  bgt >5				// Need to grow stack.
-  |  mtctr TMP3
-  |  bctrl				// (lua_State *L)
-  |  // Either throws an error, or recovers and returns -1, 0 or nresults+1.
-  |  lp BASE, L->base
-  |  cmpwi CRET1, 0
-  |   slwi RD, CRET1, 3
-  |   la RA, -8(BASE)
-  |  bgt ->fff_res			// Returned nresults+1?
-  |1:  // Returned 0 or -1: retry fast path.
-  |  lp TMP0, L->top
-  |   lwz LFUNC:RB, FRAME_FUNC(BASE)
-  |  sub NARGS8:RC, TMP0, BASE
-  |  bne ->vm_call_tail			// Returned -1?
-  |  ins_callt				// Returned 0: retry fast path.
-  |
-  |// Reconstruct previous base for vmeta_call during tailcall.
-  |->vm_call_tail:
-  |  andix. TMP0, PC, FRAME_TYPE
-  |   rlwinm TMP1, PC, 0, 0, 28
-  |  bne >3
-  |  lwz INS, -4(PC)
-  |  decode_RA8 TMP1, INS
-  |  addi TMP1, TMP1, 8
-  |3:
-  |  sub TMP2, BASE, TMP1
-  |  b ->vm_call_dispatch		// Resolve again for tailcall.
-  |
-  |5:  // Grow stack for fallback handler.
-  |  li CARG2, LUA_MINSTACK
-  |  bl extern lj_state_growstack	// (lua_State *L, int n)
-  |  lp BASE, L->base
-  |  cmpw TMP0, TMP0			// Set 4*cr0+eq to force retry.
-  |  b <1
-  |
-  |->fff_gcstep:			// Call GC step function.
-  |  // BASE = new base, RC = nargs*8
-  |  mflr SAVE0
-  |   stp BASE, L->base
-  |  add TMP0, BASE, NARGS8:RC
-  |   stw PC, SAVE_PC			// Redundant (but a defined value).
-  |  stp TMP0, L->top
-  |  mr CARG1, L
-  |  bl extern lj_gc_step		// (lua_State *L)
-  |   lp BASE, L->base
-  |  mtlr SAVE0
-  |    lp TMP0, L->top
-  |   sub NARGS8:RC, TMP0, BASE
-  |   lwz CFUNC:RB, FRAME_FUNC(BASE)
-  |  blr
-  |
-  |//-----------------------------------------------------------------------
-  |//-- Special dispatch targets -------------------------------------------
-  |//-----------------------------------------------------------------------
-  |
-  |->vm_record:				// Dispatch target for recording phase.
-  |.if JIT
-  |  lbz TMP3, DISPATCH_GL(hookmask)(DISPATCH)
-  |  andix. TMP0, TMP3, HOOK_VMEVENT	// No recording while in vmevent.
-  |  bne >5
-  |  // Decrement the hookcount for consistency, but always do the call.
-  |   lwz TMP2, DISPATCH_GL(hookcount)(DISPATCH)
-  |  andix. TMP0, TMP3, HOOK_ACTIVE
-  |  bne >1
-  |   subi TMP2, TMP2, 1
-  |  andi. TMP0, TMP3, LUA_MASKLINE|LUA_MASKCOUNT
-  |  beqy >1
-  |   stw TMP2, DISPATCH_GL(hookcount)(DISPATCH)
-  |  b >1
-  |.endif
-  |
-  |->vm_rethook:			// Dispatch target for return hooks.
-  |  lbz TMP3, DISPATCH_GL(hookmask)(DISPATCH)
-  |  andix. TMP0, TMP3, HOOK_ACTIVE	// Hook already active?
-  |  beq >1
-  |5:  // Re-dispatch to static ins.
-  |  addi TMP1, TMP1, GG_DISP2STATIC	// Assumes decode_OPP TMP1, INS.
-  |  lpx TMP0, DISPATCH, TMP1
-  |  mtctr TMP0
-  |  bctr
-  |
-  |->vm_inshook:			// Dispatch target for instr/line hooks.
-  |  lbz TMP3, DISPATCH_GL(hookmask)(DISPATCH)
-  |  lwz TMP2, DISPATCH_GL(hookcount)(DISPATCH)
-  |  andix. TMP0, TMP3, HOOK_ACTIVE	// Hook already active?
-  |   rlwinm TMP0, TMP3, 31-LUA_HOOKLINE, 31, 0
-  |  bne <5
-  |
-  |   cmpwi cr1, TMP0, 0
-  |  addic. TMP2, TMP2, -1
-  |   beq cr1, <5
-  |  stw TMP2, DISPATCH_GL(hookcount)(DISPATCH)
-  |  beq >1
-  |   bge cr1, <5
-  |1:
-  |  mr CARG1, L
-  |   stw MULTRES, SAVE_MULTRES
-  |  mr CARG2, PC
-  |   stp BASE, L->base
-  |  // SAVE_PC must hold the _previous_ PC. The callee updates it with PC.
-  |  bl extern lj_dispatch_ins		// (lua_State *L, const BCIns *pc)
-  |3:
-  |  lp BASE, L->base
-  |4:  // Re-dispatch to static ins.
-  |  lwz INS, -4(PC)
-  |  decode_OPP TMP1, INS
-  |   decode_RB8 RB, INS
-  |  addi TMP1, TMP1, GG_DISP2STATIC
-  |   decode_RD8 RD, INS
-  |  lpx TMP0, DISPATCH, TMP1
-  |   decode_RA8 RA, INS
-  |   decode_RC8 RC, INS
-  |  mtctr TMP0
-  |  bctr
-  |
-  |->cont_hook:				// Continue from hook yield.
-  |  addi PC, PC, 4
-  |  lwz MULTRES, -20(RB)		// Restore MULTRES for *M ins.
-  |  b <4
-  |
-  |->vm_hotloop:			// Hot loop counter underflow.
-  |.if JIT
-  |  lwz LFUNC:TMP1, FRAME_FUNC(BASE)
-  |   addi CARG1, DISPATCH, GG_DISP2J
-  |   stw PC, SAVE_PC
-  |  lwz TMP1, LFUNC:TMP1->pc
-  |   mr CARG2, PC
-  |   stw L, DISPATCH_J(L)(DISPATCH)
-  |  lbz TMP1, PC2PROTO(framesize)(TMP1)
-  |   stp BASE, L->base
-  |  slwi TMP1, TMP1, 3
-  |  add TMP1, BASE, TMP1
-  |  stp TMP1, L->top
-  |  bl extern lj_trace_hot		// (jit_State *J, const BCIns *pc)
-  |  b <3
-  |.endif
-  |
-  |->vm_callhook:			// Dispatch target for call hooks.
-  |  mr CARG2, PC
-  |.if JIT
-  |  b >1
-  |.endif
-  |
-  |->vm_hotcall:			// Hot call counter underflow.
-  |.if JIT
-  |  ori CARG2, PC, 1
-  |1:
-  |.endif
-  |  add TMP0, BASE, RC
-  |   stw PC, SAVE_PC
-  |  mr CARG1, L
-  |   stp BASE, L->base
-  |  sub RA, RA, BASE
-  |   stp TMP0, L->top
-  |  bl extern lj_dispatch_call		// (lua_State *L, const BCIns *pc)
-  |  // Returns ASMFunction.
-  |  lp BASE, L->base
-  |   lp TMP0, L->top
-  |   stw ZERO, SAVE_PC			// Invalidate for subsequent line hook.
-  |  sub NARGS8:RC, TMP0, BASE
-  |  add RA, BASE, RA
-  |  lwz LFUNC:RB, FRAME_FUNC(BASE)
-  |  lwz INS, -4(PC)
-  |  mtctr CRET1
-  |  bctr
-  |
-  |//-----------------------------------------------------------------------
-  |//-- Trace exit handler -------------------------------------------------
-  |//-----------------------------------------------------------------------
-  |
-  |.macro savex_, a, b, c, d
-  |  stfd f..a, 16+a*8(sp)
-  |  stfd f..b, 16+b*8(sp)
-  |  stfd f..c, 16+c*8(sp)
-  |  stfd f..d, 16+d*8(sp)
-  |.endmacro
-  |
-  |->vm_exit_handler:
-  |.if JIT
-  |  addi sp, sp, -(16+32*8+32*4)
-  |  stmw r2, 16+32*8+2*4(sp)
-  |    addi DISPATCH, JGL, -GG_DISP2G-32768
-  |    li CARG2, ~LJ_VMST_EXIT
-  |   lwz CARG1, 16+32*8+32*4(sp)	// Get stack chain.
-  |    stw CARG2, DISPATCH_GL(vmstate)(DISPATCH)
-  |  savex_ 0,1,2,3
-  |   stw CARG1, 0(sp)			// Store extended stack chain.
-  |   clrso TMP1
-  |  savex_ 4,5,6,7
-  |   addi CARG2, sp, 16+32*8+32*4	// Recompute original value of sp.
-  |  savex_ 8,9,10,11
-  |   stw CARG2, 16+32*8+1*4(sp)	// Store sp in RID_SP.
-  |  savex_ 12,13,14,15
-  |   mflr CARG3
-  |   li TMP1, 0
-  |  savex_ 16,17,18,19
-  |   stw TMP1, 16+32*8+0*4(sp)		// Clear RID_TMP.
-  |  savex_ 20,21,22,23
-  |   lhz CARG4, 2(CARG3)		// Load trace number.
-  |  savex_ 24,25,26,27
-  |  lwz L, DISPATCH_GL(jit_L)(DISPATCH)
-  |  savex_ 28,29,30,31
-  |   sub CARG3, TMP0, CARG3		// Compute exit number.
-  |  lp BASE, DISPATCH_GL(jit_base)(DISPATCH)
-  |   srwi CARG3, CARG3, 2
-  |  stw L, DISPATCH_J(L)(DISPATCH)
-  |   subi CARG3, CARG3, 2
-  |  stw TMP1, DISPATCH_GL(jit_L)(DISPATCH)
-  |   stw CARG4, DISPATCH_J(parent)(DISPATCH)
-  |  stp BASE, L->base
-  |  addi CARG1, DISPATCH, GG_DISP2J
-  |   stw CARG3, DISPATCH_J(exitno)(DISPATCH)
-  |  addi CARG2, sp, 16
-  |  bl extern lj_trace_exit		// (jit_State *J, ExitState *ex)
-  |  // Returns MULTRES (unscaled) or negated error code.
-  |  lp TMP1, L->cframe
-  |  lwz TMP2, 0(sp)
-  |   lp BASE, L->base
-  |.if GPR64
-  |  rldicr sp, TMP1, 0, 61
-  |.else
-  |  rlwinm sp, TMP1, 0, 0, 29
-  |.endif
-  |   lwz PC, SAVE_PC			// Get SAVE_PC.
-  |  stw TMP2, 0(sp)
-  |  stw L, SAVE_L			// Set SAVE_L (on-trace resume/yield).
-  |  b >1
-  |.endif
-  |->vm_exit_interp:
-  |.if JIT
-  |  // CARG1 = MULTRES or negated error code, BASE, PC and JGL set.
-  |  lwz L, SAVE_L
-  |  addi DISPATCH, JGL, -GG_DISP2G-32768
-  |1:
-  |  cmpwi CARG1, 0
-  |  blt >3				// Check for error from exit.
-  |  lwz LFUNC:TMP1, FRAME_FUNC(BASE)
-  |   slwi MULTRES, CARG1, 3
-  |    li TMP2, 0
-  |   stw MULTRES, SAVE_MULTRES
-  |  lwz TMP1, LFUNC:TMP1->pc
-  |    stw TMP2, DISPATCH_GL(jit_L)(DISPATCH)
-  |  lwz KBASE, PC2PROTO(k)(TMP1)
-  |  // Setup type comparison constants.
-  |  li TISNUM, LJ_TISNUM
-  |  lus TMP3, 0x59c0			// TOBIT = 2^52 + 2^51 (float).
-  |  stw TMP3, TMPD
-  |  li ZERO, 0
-  |  ori TMP3, TMP3, 0x0004		// TONUM = 2^52 + 2^51 + 2^31 (float).
-  |  lfs TOBIT, TMPD
-  |  stw TMP3, TMPD
-  |  lus TMP0, 0x4338			// Hiword of 2^52 + 2^51 (double)
-  |    li TISNIL, LJ_TNIL
-  |  stw TMP0, TONUM_HI
-  |  lfs TONUM, TMPD
-  |  // Modified copy of ins_next which handles function header dispatch, too.
-  |  lwz INS, 0(PC)
-  |   addi PC, PC, 4
-  |    // Assumes TISNIL == ~LJ_VMST_INTERP == -1.
-  |    stw TISNIL, DISPATCH_GL(vmstate)(DISPATCH)
-  |  decode_OPP TMP1, INS
-  |   decode_RA8 RA, INS
-  |  lpx TMP0, DISPATCH, TMP1
-  |  mtctr TMP0
-  |  cmplwi TMP1, BC_FUNCF*4		// Function header?
-  |  bge >2
-  |   decode_RB8 RB, INS
-  |   decode_RD8 RD, INS
-  |   decode_RC8 RC, INS
-  |  bctr
-  |2:
-  |   subi RC, MULTRES, 8
-  |   add RA, RA, BASE
-  |  bctr
-  |
-  |3:  // Rethrow error from the right C frame.
-  |  neg CARG2, CARG1
-  |  mr CARG1, L
-  |  bl extern lj_err_throw		// (lua_State *L, int errcode)
-  |.endif
-  |
-  |//-----------------------------------------------------------------------
-  |//-- Math helper functions ----------------------------------------------
-  |//-----------------------------------------------------------------------
-  |
-  |// NYI: Use internal implementations of floor, ceil, trunc.
-  |
-  |->vm_modi:
-  |  divwo. TMP0, CARG1, CARG2
-  |  bso >1
-  |.if GPR64
-  |   xor CARG3, CARG1, CARG2
-  |   cmpwi CARG3, 0
-  |.else
-  |   xor. CARG3, CARG1, CARG2
-  |.endif
-  |  mullw TMP0, TMP0, CARG2
-  |  sub CARG1, CARG1, TMP0
-  |   bgelr
-  |  cmpwi CARG1, 0; beqlr
-  |  add CARG1, CARG1, CARG2
-  |  blr
-  |1:
-  |  cmpwi CARG2, 0
-  |   li CARG1, 0
-  |  beqlr
-  |  clrso TMP0			// Clear SO for -2147483648 % -1 and return 0.
-  |  blr
-  |
-  |//-----------------------------------------------------------------------
-  |//-- Miscellaneous functions --------------------------------------------
-  |//-----------------------------------------------------------------------
-  |
-  |// void lj_vm_cachesync(void *start, void *end)
-  |// Flush D-Cache and invalidate I-Cache. Assumes 32 byte cache line size.
-  |// This is a good lower bound, except for very ancient PPC models.
-  |->vm_cachesync:
-  |.if JIT or FFI
-  |  // Compute start of first cache line and number of cache lines.
-  |  rlwinm CARG1, CARG1, 0, 0, 26
-  |  sub CARG2, CARG2, CARG1
-  |  addi CARG2, CARG2, 31
-  |  rlwinm. CARG2, CARG2, 27, 5, 31
-  |  beqlr
-  |  mtctr CARG2
-  |  mr CARG3, CARG1
-  |1:  // Flush D-Cache.
-  |  dcbst r0, CARG1
-  |  addi CARG1, CARG1, 32
-  |  bdnz <1
-  |  sync
-  |  mtctr CARG2
-  |1:  // Invalidate I-Cache.
-  |  icbi r0, CARG3
-  |  addi CARG3, CARG3, 32
-  |  bdnz <1
-  |  isync
-  |  blr
-  |.endif
-  |
-  |//-----------------------------------------------------------------------
-  |//-- FFI helper functions -----------------------------------------------
-  |//-----------------------------------------------------------------------
-  |
-  |// Handler for callback functions. Callback slot number in r11, g in r12.
-  |->vm_ffi_callback:
-  |.if FFI
-  |.type CTSTATE, CTState, PC
-  |  saveregs
-  |  lwz CTSTATE, GL:r12->ctype_state
-  |   addi DISPATCH, r12, GG_G2DISP
-  |  stw r11, CTSTATE->cb.slot
-  |  stw r3, CTSTATE->cb.gpr[0]
-  |   stfd f1, CTSTATE->cb.fpr[0]
-  |  stw r4, CTSTATE->cb.gpr[1]
-  |   stfd f2, CTSTATE->cb.fpr[1]
-  |  stw r5, CTSTATE->cb.gpr[2]
-  |   stfd f3, CTSTATE->cb.fpr[2]
-  |  stw r6, CTSTATE->cb.gpr[3]
-  |   stfd f4, CTSTATE->cb.fpr[3]
-  |  stw r7, CTSTATE->cb.gpr[4]
-  |   stfd f5, CTSTATE->cb.fpr[4]
-  |  stw r8, CTSTATE->cb.gpr[5]
-  |   stfd f6, CTSTATE->cb.fpr[5]
-  |  stw r9, CTSTATE->cb.gpr[6]
-  |   stfd f7, CTSTATE->cb.fpr[6]
-  |  stw r10, CTSTATE->cb.gpr[7]
-  |   stfd f8, CTSTATE->cb.fpr[7]
-  |  addi TMP0, sp, CFRAME_SPACE+8
-  |  stw TMP0, CTSTATE->cb.stack
-  |   mr CARG1, CTSTATE
-  |  stw CTSTATE, SAVE_PC		// Any value outside of bytecode is ok.
-  |   mr CARG2, sp
-  |  bl extern lj_ccallback_enter	// (CTState *cts, void *cf)
-  |  // Returns lua_State *.
-  |  lp BASE, L:CRET1->base
-  |     li TISNUM, LJ_TISNUM		// Setup type comparison constants.
-  |  lp RC, L:CRET1->top
-  |     lus TMP3, 0x59c0		// TOBIT = 2^52 + 2^51 (float).
-  |     li ZERO, 0
-  |   mr L, CRET1
-  |     stw TMP3, TMPD
-  |     lus TMP0, 0x4338		// Hiword of 2^52 + 2^51 (double)
-  |  lwz LFUNC:RB, FRAME_FUNC(BASE)
-  |     ori TMP3, TMP3, 0x0004		// TONUM = 2^52 + 2^51 + 2^31 (float).
-  |     stw TMP0, TONUM_HI
-  |     li TISNIL, LJ_TNIL
-  |    li_vmstate INTERP
-  |     lfs TOBIT, TMPD
-  |     stw TMP3, TMPD
-  |  sub RC, RC, BASE
-  |    st_vmstate
-  |     lfs TONUM, TMPD
-  |  ins_callt
-  |.endif
-  |
-  |->cont_ffi_callback:			// Return from FFI callback.
-  |.if FFI
-  |  lwz CTSTATE, DISPATCH_GL(ctype_state)(DISPATCH)
-  |   stp BASE, L->base
-  |   stp RB, L->top
-  |  stp L, CTSTATE->L
-  |  mr CARG1, CTSTATE
-  |  mr CARG2, RA
-  |  bl extern lj_ccallback_leave	// (CTState *cts, TValue *o)
-  |  lwz CRET1, CTSTATE->cb.gpr[0]
-  |  lfd FARG1, CTSTATE->cb.fpr[0]
-  |  lwz CRET2, CTSTATE->cb.gpr[1]
-  |  b ->vm_leave_unw
-  |.endif
-  |
-  |->vm_ffi_call:			// Call C function via FFI.
-  |  // Caveat: needs special frame unwinding, see below.
-  |.if FFI
-  |  .type CCSTATE, CCallState, CARG1
-  |  lwz TMP1, CCSTATE->spadj
-  |    mflr TMP0
-  |   lbz CARG2, CCSTATE->nsp
-  |   lbz CARG3, CCSTATE->nfpr
-  |  neg TMP1, TMP1
-  |    stw TMP0, 4(sp)
-  |   cmpwi cr1, CARG3, 0
-  |  mr TMP2, sp
-  |   addic. CARG2, CARG2, -1
-  |  stwux sp, sp, TMP1
-  |   crnot 4*cr1+eq, 4*cr1+eq		// For vararg calls.
-  |  stw r14, -4(TMP2)
-  |  stw CCSTATE, -8(TMP2)
-  |  mr r14, TMP2
-  |  la TMP1, CCSTATE->stack
-  |   slwi CARG2, CARG2, 2
-  |   blty >2
-  |  la TMP2, 8(sp)
-  |1:
-  |  lwzx TMP0, TMP1, CARG2
-  |  stwx TMP0, TMP2, CARG2
-  |   addic. CARG2, CARG2, -4
-  |  bge <1
-  |2:
-  |  bney cr1, >3
-  |  lfd f1, CCSTATE->fpr[0]
-  |  lfd f2, CCSTATE->fpr[1]
-  |  lfd f3, CCSTATE->fpr[2]
-  |  lfd f4, CCSTATE->fpr[3]
-  |  lfd f5, CCSTATE->fpr[4]
-  |  lfd f6, CCSTATE->fpr[5]
-  |  lfd f7, CCSTATE->fpr[6]
-  |  lfd f8, CCSTATE->fpr[7]
-  |3:
-  |   lp TMP0, CCSTATE->func
-  |  lwz CARG2, CCSTATE->gpr[1]
-  |  lwz CARG3, CCSTATE->gpr[2]
-  |  lwz CARG4, CCSTATE->gpr[3]
-  |  lwz CARG5, CCSTATE->gpr[4]
-  |   mtctr TMP0
-  |  lwz r8, CCSTATE->gpr[5]
-  |  lwz r9, CCSTATE->gpr[6]
-  |  lwz r10, CCSTATE->gpr[7]
-  |  lwz CARG1, CCSTATE->gpr[0]		// Do this last, since CCSTATE is CARG1.
-  |   bctrl
-  |  lwz CCSTATE:TMP1, -8(r14)
-  |  lwz TMP2, -4(r14)
-  |   lwz TMP0, 4(r14)
-  |  stw CARG1, CCSTATE:TMP1->gpr[0]
-  |  stfd FARG1, CCSTATE:TMP1->fpr[0]
-  |  stw CARG2, CCSTATE:TMP1->gpr[1]
-  |   mtlr TMP0
-  |  stw CARG3, CCSTATE:TMP1->gpr[2]
-  |   mr sp, r14
-  |  stw CARG4, CCSTATE:TMP1->gpr[3]
-  |   mr r14, TMP2
-  |  blr
-  |.endif
-  |// Note: vm_ffi_call must be the last function in this object file!
-  |
-  |//-----------------------------------------------------------------------
-}
-
-/* Generate the code for a single instruction. */
-static void build_ins(BuildCtx *ctx, BCOp op, int defop)
-{
-  int vk = 0;
-  |=>defop:
-
-  switch (op) {
-
-  /* -- Comparison ops ---------------------------------------------------- */
-
-  /* Remember: all ops branch for a true comparison, fall through otherwise. */
-
-  case BC_ISLT: case BC_ISGE: case BC_ISLE: case BC_ISGT:
-    |  // RA = src1*8, RD = src2*8, JMP with RD = target
-    |.if DUALNUM
-    |  lwzux TMP0, RA, BASE
-    |    addi PC, PC, 4
-    |   lwz CARG2, 4(RA)
-    |  lwzux TMP1, RD, BASE
-    |    lwz TMP2, -4(PC)
-    |  checknum cr0, TMP0
-    |   lwz CARG3, 4(RD)
-    |    decode_RD4 TMP2, TMP2
-    |  checknum cr1, TMP1
-    |    addis TMP2, TMP2, -(BCBIAS_J*4 >> 16)
-    |  bne cr0, >7
-    |  bne cr1, >8
-    |   cmpw CARG2, CARG3
-    if (op == BC_ISLT) {
-      |  bge >2
-    } else if (op == BC_ISGE) {
-      |  blt >2
-    } else if (op == BC_ISLE) {
-      |  bgt >2
-    } else {
-      |  ble >2
-    }
-    |1:
-    |  add PC, PC, TMP2
-    |2:
-    |  ins_next
-    |
-    |7:  // RA is not an integer.
-    |  bgt cr0, ->vmeta_comp
-    |  // RA is a number.
-    |   lfd f0, 0(RA)
-    |  bgt cr1, ->vmeta_comp
-    |  blt cr1, >4
-    |  // RA is a number, RD is an integer.
-    |  tonum_i f1, CARG3
-    |  b >5
-    |
-    |8: // RA is an integer, RD is not an integer.
-    |  bgt cr1, ->vmeta_comp
-    |  // RA is an integer, RD is a number.
-    |  tonum_i f0, CARG2
-    |4:
-    |  lfd f1, 0(RD)
-    |5:
-    |  fcmpu cr0, f0, f1
-    if (op == BC_ISLT) {
-      |  bge <2
-    } else if (op == BC_ISGE) {
-      |  blt <2
-    } else if (op == BC_ISLE) {
-      |  cror 4*cr0+lt, 4*cr0+lt, 4*cr0+eq
-      |  bge <2
-    } else {
-      |  cror 4*cr0+lt, 4*cr0+lt, 4*cr0+eq
-      |  blt <2
-    }
-    |  b <1
-    |.else
-    |  lwzx TMP0, BASE, RA
-    |    addi PC, PC, 4
-    |   lfdx f0, BASE, RA
-    |  lwzx TMP1, BASE, RD
-    |  checknum cr0, TMP0
-    |    lwz TMP2, -4(PC)
-    |   lfdx f1, BASE, RD
-    |  checknum cr1, TMP1
-    |    decode_RD4 TMP2, TMP2
-    |  bge cr0, ->vmeta_comp
-    |    addis TMP2, TMP2, -(BCBIAS_J*4 >> 16)
-    |  bge cr1, ->vmeta_comp
-    |  fcmpu cr0, f0, f1
-    if (op == BC_ISLT) {
-      |  bge >1
-    } else if (op == BC_ISGE) {
-      |  blt >1
-    } else if (op == BC_ISLE) {
-      |  cror 4*cr0+lt, 4*cr0+lt, 4*cr0+eq
-      |  bge >1
-    } else {
-      |  cror 4*cr0+lt, 4*cr0+lt, 4*cr0+eq
-      |  blt >1
-    }
-    |  add PC, PC, TMP2
-    |1:
-    |  ins_next
-    |.endif
-    break;
-
-  case BC_ISEQV: case BC_ISNEV:
-    vk = op == BC_ISEQV;
-    |  // RA = src1*8, RD = src2*8, JMP with RD = target
-    |.if DUALNUM
-    |  lwzux TMP0, RA, BASE
-    |    addi PC, PC, 4
-    |   lwz CARG2, 4(RA)
-    |  lwzux TMP1, RD, BASE
-    |  checknum cr0, TMP0
-    |    lwz TMP2, -4(PC)
-    |  checknum cr1, TMP1
-    |    decode_RD4 TMP2, TMP2
-    |   lwz CARG3, 4(RD)
-    |  cror 4*cr7+gt, 4*cr0+gt, 4*cr1+gt
-    |    addis TMP2, TMP2, -(BCBIAS_J*4 >> 16)
-    if (vk) {
-      |  ble cr7, ->BC_ISEQN_Z
-    } else {
-      |  ble cr7, ->BC_ISNEN_Z
-    }
-    |.else
-    |  lwzux TMP0, RA, BASE
-    |   lwz TMP2, 0(PC)
-    |    lfd f0, 0(RA)
-    |   addi PC, PC, 4
-    |  lwzux TMP1, RD, BASE
-    |  checknum cr0, TMP0
-    |   decode_RD4 TMP2, TMP2
-    |    lfd f1, 0(RD)
-    |  checknum cr1, TMP1
-    |   addis TMP2, TMP2, -(BCBIAS_J*4 >> 16)
-    |  bge cr0, >5
-    |  bge cr1, >5
-    |  fcmpu cr0, f0, f1
-    if (vk) {
-      |  bne >1
-      |  add PC, PC, TMP2
-    } else {
-      |  beq >1
-      |  add PC, PC, TMP2
-    }
-    |1:
-    |  ins_next
-    |.endif
-    |5:  // Either or both types are not numbers.
-    |.if not DUALNUM
-    |    lwz CARG2, 4(RA)
-    |    lwz CARG3, 4(RD)
-    |.endif
-    |.if FFI
-    |  cmpwi cr7, TMP0, LJ_TCDATA
-    |  cmpwi cr5, TMP1, LJ_TCDATA
-    |.endif
-    |   not TMP3, TMP0
-    |  cmplw TMP0, TMP1
-    |   cmplwi cr1, TMP3, ~LJ_TISPRI		// Primitive?
-    |.if FFI
-    |  cror 4*cr7+eq, 4*cr7+eq, 4*cr5+eq
-    |.endif
-    |   cmplwi cr6, TMP3, ~LJ_TISTABUD		// Table or userdata?
-    |.if FFI
-    |  beq cr7, ->vmeta_equal_cd
-    |.endif
-    |    cmplw cr5, CARG2, CARG3
-    |  crandc 4*cr0+gt, 4*cr0+eq, 4*cr1+gt	// 2: Same type and primitive.
-    |  crorc 4*cr0+lt, 4*cr5+eq, 4*cr0+eq	// 1: Same tv or different type.
-    |  crand 4*cr0+eq, 4*cr0+eq, 4*cr5+eq	// 0: Same type and same tv.
-    |   mr SAVE0, PC
-    |  cror 4*cr0+eq, 4*cr0+eq, 4*cr0+gt	// 0 or 2.
-    |  cror 4*cr0+lt, 4*cr0+lt, 4*cr0+gt	// 1 or 2.
-    if (vk) {
-      |  bne cr0, >6
-      |  add PC, PC, TMP2
-      |6:
-    } else {
-      |  beq cr0, >6
-      |  add PC, PC, TMP2
-      |6:
-    }
-    |.if DUALNUM
-    |  bge cr0, >2			// Done if 1 or 2.
-    |1:
-    |  ins_next
-    |2:
-    |.else
-    |  blt cr0, <1			// Done if 1 or 2.
-    |.endif
-    |  blt cr6, <1			// Done if not tab/ud.
-    |
-    |  // Different tables or userdatas. Need to check __eq metamethod.
-    |  // Field metatable must be at same offset for GCtab and GCudata!
-    |  lwz TAB:TMP2, TAB:CARG2->metatable
-    |   li CARG4, 1-vk			// ne = 0 or 1.
-    |  cmplwi TAB:TMP2, 0
-    |  beq <1				// No metatable?
-    |  lbz TMP2, TAB:TMP2->nomm
-    |  andix. TMP2, TMP2, 1<<MM_eq
-    |  bne <1				// Or 'no __eq' flag set?
-    |  mr PC, SAVE0			// Restore old PC.
-    |  b ->vmeta_equal			// Handle __eq metamethod.
-    break;
-
-  case BC_ISEQS: case BC_ISNES:
-    vk = op == BC_ISEQS;
-    |  // RA = src*8, RD = str_const*8 (~), JMP with RD = target
-    |  lwzux TMP0, RA, BASE
-    |   srwi RD, RD, 1
-    |  lwz STR:TMP3, 4(RA)
-    |    lwz TMP2, 0(PC)
-    |   subfic RD, RD, -4
-    |    addi PC, PC, 4
-    |.if FFI
-    |  cmpwi TMP0, LJ_TCDATA
-    |.endif
-    |   lwzx STR:TMP1, KBASE, RD	// KBASE-4-str_const*4
-    |  .gpr64 extsw TMP0, TMP0
-    |  subfic TMP0, TMP0, LJ_TSTR
-    |.if FFI
-    |  beq ->vmeta_equal_cd
-    |.endif
-    |  sub TMP1, STR:TMP1, STR:TMP3
-    |  or TMP0, TMP0, TMP1
-    |    decode_RD4 TMP2, TMP2
-    |  subfic TMP0, TMP0, 0
-    |    addis TMP2, TMP2, -(BCBIAS_J*4 >> 16)
-    |  subfe TMP1, TMP1, TMP1
-    if (vk) {
-      |  andc TMP2, TMP2, TMP1
-    } else {
-      |  and TMP2, TMP2, TMP1
-    }
-    |  add PC, PC, TMP2
-    |  ins_next
-    break;
-
-  case BC_ISEQN: case BC_ISNEN:
-    vk = op == BC_ISEQN;
-    |  // RA = src*8, RD = num_const*8, JMP with RD = target
-    |.if DUALNUM
-    |  lwzux TMP0, RA, BASE
-    |    addi PC, PC, 4
-    |   lwz CARG2, 4(RA)
-    |  lwzux TMP1, RD, KBASE
-    |  checknum cr0, TMP0
-    |    lwz TMP2, -4(PC)
-    |  checknum cr1, TMP1
-    |    decode_RD4 TMP2, TMP2
-    |   lwz CARG3, 4(RD)
-    |    addis TMP2, TMP2, -(BCBIAS_J*4 >> 16)
-    if (vk) {
-      |->BC_ISEQN_Z:
-    } else {
-      |->BC_ISNEN_Z:
-    }
-    |  bne cr0, >7
-    |  bne cr1, >8
-    |   cmpw CARG2, CARG3
-    |4:
-    |.else
-    if (vk) {
-      |->BC_ISEQN_Z:  // Dummy label.
-    } else {
-      |->BC_ISNEN_Z:  // Dummy label.
-    }
-    |  lwzx TMP0, BASE, RA
-    |    addi PC, PC, 4
-    |   lfdx f0, BASE, RA
-    |    lwz TMP2, -4(PC)
-    |  lfdx f1, KBASE, RD
-    |    decode_RD4 TMP2, TMP2
-    |  checknum TMP0
-    |    addis TMP2, TMP2, -(BCBIAS_J*4 >> 16)
-    |  bge >3
-    |  fcmpu cr0, f0, f1
-    |.endif
-    if (vk) {
-      |  bne >1
-      |  add PC, PC, TMP2
-      |1:
-      |.if not FFI
-      |3:
-      |.endif
-    } else {
-      |  beq >2
-      |1:
-      |.if not FFI
-      |3:
-      |.endif
-      |  add PC, PC, TMP2
-      |2:
-    }
-    |  ins_next
-    |.if FFI
-    |3:
-    |  cmpwi TMP0, LJ_TCDATA
-    |  beq ->vmeta_equal_cd
-    |  b <1
-    |.endif
-    |.if DUALNUM
-    |7:  // RA is not an integer.
-    |  bge cr0, <3
-    |  // RA is a number.
-    |   lfd f0, 0(RA)
-    |  blt cr1, >1
-    |  // RA is a number, RD is an integer.
-    |  tonum_i f1, CARG3
-    |  b >2
-    |
-    |8: // RA is an integer, RD is a number.
-    |  tonum_i f0, CARG2
-    |1:
-    |  lfd f1, 0(RD)
-    |2:
-    |  fcmpu cr0, f0, f1
-    |  b <4
-    |.endif
-    break;
-
-  case BC_ISEQP: case BC_ISNEP:
-    vk = op == BC_ISEQP;
-    |  // RA = src*8, RD = primitive_type*8 (~), JMP with RD = target
-    |  lwzx TMP0, BASE, RA
-    |   srwi TMP1, RD, 3
-    |    lwz TMP2, 0(PC)
-    |   not TMP1, TMP1
-    |    addi PC, PC, 4
-    |.if FFI
-    |  cmpwi TMP0, LJ_TCDATA
-    |.endif
-    |  sub TMP0, TMP0, TMP1
-    |.if FFI
-    |  beq ->vmeta_equal_cd
-    |.endif
-    |    decode_RD4 TMP2, TMP2
-    |  .gpr64 extsw TMP0, TMP0
-    |  addic TMP0, TMP0, -1
-    |    addis TMP2, TMP2, -(BCBIAS_J*4 >> 16)
-    |  subfe TMP1, TMP1, TMP1
-    if (vk) {
-      |  and TMP2, TMP2, TMP1
-    } else {
-      |  andc TMP2, TMP2, TMP1
-    }
-    |  add PC, PC, TMP2
-    |  ins_next
-    break;
-
-  /* -- Unary test and copy ops ------------------------------------------- */
-
-  case BC_ISTC: case BC_ISFC: case BC_IST: case BC_ISF:
-    |  // RA = dst*8 or unused, RD = src*8, JMP with RD = target
-    |  lwzx TMP0, BASE, RD
-    |   lwz INS, 0(PC)
-    |   addi PC, PC, 4
-    if (op == BC_IST || op == BC_ISF) {
-      |  .gpr64 extsw TMP0, TMP0
-      |  subfic TMP0, TMP0, LJ_TTRUE
-      |   decode_RD4 TMP2, INS
-      |  subfe TMP1, TMP1, TMP1
-      |   addis TMP2, TMP2, -(BCBIAS_J*4 >> 16)
-      if (op == BC_IST) {
-	|  andc TMP2, TMP2, TMP1
-      } else {
-	|  and TMP2, TMP2, TMP1
-      }
-      |  add PC, PC, TMP2
-    } else {
-      |  li TMP1, LJ_TFALSE
-      |   lfdx f0, BASE, RD
-      |  cmplw TMP0, TMP1
-      if (op == BC_ISTC) {
-	|  bge >1
-      } else {
-	|  blt >1
-      }
-      |  addis PC, PC, -(BCBIAS_J*4 >> 16)
-      |  decode_RD4 TMP2, INS
-      |   stfdx f0, BASE, RA
-      |  add PC, PC, TMP2
-      |1:
-    }
-    |  ins_next
-    break;
-
-  /* -- Unary ops --------------------------------------------------------- */
-
-  case BC_MOV:
-    |  // RA = dst*8, RD = src*8
-    |  ins_next1
-    |  lfdx f0, BASE, RD
-    |  stfdx f0, BASE, RA
-    |  ins_next2
-    break;
-  case BC_NOT:
-    |  // RA = dst*8, RD = src*8
-    |  ins_next1
-    |  lwzx TMP0, BASE, RD
-    |  .gpr64 extsw TMP0, TMP0
-    |  subfic TMP1, TMP0, LJ_TTRUE
-    |  adde TMP0, TMP0, TMP1
-    |  stwx TMP0, BASE, RA
-    |  ins_next2
-    break;
-  case BC_UNM:
-    |  // RA = dst*8, RD = src*8
-    |  lwzux TMP1, RD, BASE
-    |   lwz TMP0, 4(RD)
-    |  checknum TMP1
-    |.if DUALNUM
-    |  bne >5
-    |.if GPR64
-    |  lus TMP2, 0x8000
-    |  neg TMP0, TMP0
-    |  cmplw TMP0, TMP2
-    |  beq >4
-    |.else
-    |  nego. TMP0, TMP0
-    |  bso >4
-    |1:
-    |.endif
-    |  ins_next1
-    |  stwux TISNUM, RA, BASE
-    |   stw TMP0, 4(RA)
-    |3:
-    |  ins_next2
-    |4:
-    |.if not GPR64
-    |  // Potential overflow.
-    |  checkov TMP1, <1			// Ignore unrelated overflow.
-    |.endif
-    |  lus TMP1, 0x41e0			// 2^31.
-    |  li TMP0, 0
-    |  b >7
-    |.endif
-    |5:
-    |  bge ->vmeta_unm
-    |  xoris TMP1, TMP1, 0x8000
-    |7:
-    |  ins_next1
-    |  stwux TMP1, RA, BASE
-    |   stw TMP0, 4(RA)
-    |.if DUALNUM
-    |  b <3
-    |.else
-    |  ins_next2
-    |.endif
-    break;
-  case BC_LEN:
-    |  // RA = dst*8, RD = src*8
-    |  lwzux TMP0, RD, BASE
-    |   lwz CARG1, 4(RD)
-    |  checkstr TMP0; bne >2
-    |  lwz CRET1, STR:CARG1->len
-    |1:
-    |.if DUALNUM
-    |  ins_next1
-    |  stwux TISNUM, RA, BASE
-    |   stw CRET1, 4(RA)
-    |.else
-    |  tonum_u f0, CRET1		// Result is a non-negative integer.
-    |  ins_next1
-    |  stfdx f0, BASE, RA
-    |.endif
-    |  ins_next2
-    |2:
-    |  checktab TMP0; bne ->vmeta_len
-#if LJ_52
-    |  lwz TAB:TMP2, TAB:CARG1->metatable
-    |  cmplwi TAB:TMP2, 0
-    |  bne >9
-    |3:
-#endif
-    |->BC_LEN_Z:
-    |  bl extern lj_tab_len		// (GCtab *t)
-    |  // Returns uint32_t (but less than 2^31).
-    |  b <1
-#if LJ_52
-    |9:
-    |  lbz TMP0, TAB:TMP2->nomm
-    |  andix. TMP0, TMP0, 1<<MM_len
-    |  bne <3				// 'no __len' flag set: done.
-    |  b ->vmeta_len
-#endif
-    break;
-
-  /* -- Binary ops -------------------------------------------------------- */
-
-    |.macro ins_arithpre
-    |  // RA = dst*8, RB = src1*8, RC = src2*8 | num_const*8
-    ||vk = ((int)op - BC_ADDVN) / (BC_ADDNV-BC_ADDVN);
-    ||switch (vk) {
-    ||case 0:
-    |   lwzx TMP1, BASE, RB
-    |   .if DUALNUM
-    |     lwzx TMP2, KBASE, RC
-    |   .endif
-    |    lfdx f14, BASE, RB
-    |    lfdx f15, KBASE, RC
-    |   .if DUALNUM
-    |     checknum cr0, TMP1
-    |     checknum cr1, TMP2
-    |     crand 4*cr0+lt, 4*cr0+lt, 4*cr1+lt
-    |     bge ->vmeta_arith_vn
-    |   .else
-    |     checknum TMP1; bge ->vmeta_arith_vn
-    |   .endif
-    ||  break;
-    ||case 1:
-    |   lwzx TMP1, BASE, RB
-    |   .if DUALNUM
-    |     lwzx TMP2, KBASE, RC
-    |   .endif
-    |    lfdx f15, BASE, RB
-    |    lfdx f14, KBASE, RC
-    |   .if DUALNUM
-    |     checknum cr0, TMP1
-    |     checknum cr1, TMP2
-    |     crand 4*cr0+lt, 4*cr0+lt, 4*cr1+lt
-    |     bge ->vmeta_arith_nv
-    |   .else
-    |     checknum TMP1; bge ->vmeta_arith_nv
-    |   .endif
-    ||  break;
-    ||default:
-    |   lwzx TMP1, BASE, RB
-    |   lwzx TMP2, BASE, RC
-    |    lfdx f14, BASE, RB
-    |    lfdx f15, BASE, RC
-    |   checknum cr0, TMP1
-    |   checknum cr1, TMP2
-    |   crand 4*cr0+lt, 4*cr0+lt, 4*cr1+lt
-    |   bge ->vmeta_arith_vv
-    ||  break;
-    ||}
-    |.endmacro
-    |
-    |.macro ins_arithfallback, ins
-    ||switch (vk) {
-    ||case 0:
-    |   ins ->vmeta_arith_vn2
-    ||  break;
-    ||case 1:
-    |   ins ->vmeta_arith_nv2
-    ||  break;
-    ||default:
-    |   ins ->vmeta_arith_vv2
-    ||  break;
-    ||}
-    |.endmacro
-    |
-    |.macro intmod, a, b, c
-    |  bl ->vm_modi
-    |.endmacro
-    |
-    |.macro fpmod, a, b, c
-    |->BC_MODVN_Z:
-    |  fdiv FARG1, b, c
-    |  // NYI: Use internal implementation of floor.
-    |  blex floor			// floor(b/c)
-    |  fmul a, FARG1, c
-    |  fsub a, b, a			// b - floor(b/c)*c
-    |.endmacro
-    |
-    |.macro ins_arithfp, fpins
-    |  ins_arithpre
-    |.if "fpins" == "fpmod_"
-    |  b ->BC_MODVN_Z			// Avoid 3 copies. It's slow anyway.
-    |.else
-    |  fpins f0, f14, f15
-    |  ins_next1
-    |  stfdx f0, BASE, RA
-    |  ins_next2
-    |.endif
-    |.endmacro
-    |
-    |.macro ins_arithdn, intins, fpins
-    |  // RA = dst*8, RB = src1*8, RC = src2*8 | num_const*8
-    ||vk = ((int)op - BC_ADDVN) / (BC_ADDNV-BC_ADDVN);
-    ||switch (vk) {
-    ||case 0:
-    |   lwzux TMP1, RB, BASE
-    |   lwzux TMP2, RC, KBASE
-    |    lwz CARG1, 4(RB)
-    |   checknum cr0, TMP1
-    |    lwz CARG2, 4(RC)
-    ||  break;
-    ||case 1:
-    |   lwzux TMP1, RB, BASE
-    |   lwzux TMP2, RC, KBASE
-    |    lwz CARG2, 4(RB)
-    |   checknum cr0, TMP1
-    |    lwz CARG1, 4(RC)
-    ||  break;
-    ||default:
-    |   lwzux TMP1, RB, BASE
-    |   lwzux TMP2, RC, BASE
-    |    lwz CARG1, 4(RB)
-    |   checknum cr0, TMP1
-    |    lwz CARG2, 4(RC)
-    ||  break;
-    ||}
-    |  checknum cr1, TMP2
-    |  bne >5
-    |  bne cr1, >5
-    |  intins CARG1, CARG1, CARG2
-    |  bso >4
-    |1:
-    |  ins_next1
-    |  stwux TISNUM, RA, BASE
-    |  stw CARG1, 4(RA)
-    |2:
-    |  ins_next2
-    |4:  // Overflow.
-    |  checkov TMP0, <1			// Ignore unrelated overflow.
-    |  ins_arithfallback b
-    |5:  // FP variant.
-    ||if (vk == 1) {
-    |  lfd f15, 0(RB)
-    |   crand 4*cr0+lt, 4*cr0+lt, 4*cr1+lt
-    |  lfd f14, 0(RC)
-    ||} else {
-    |  lfd f14, 0(RB)
-    |   crand 4*cr0+lt, 4*cr0+lt, 4*cr1+lt
-    |  lfd f15, 0(RC)
-    ||}
-    |   ins_arithfallback bge
-    |.if "fpins" == "fpmod_"
-    |  b ->BC_MODVN_Z			// Avoid 3 copies. It's slow anyway.
-    |.else
-    |  fpins f0, f14, f15
-    |  ins_next1
-    |  stfdx f0, BASE, RA
-    |  b <2
-    |.endif
-    |.endmacro
-    |
-    |.macro ins_arith, intins, fpins
-    |.if DUALNUM
-    |  ins_arithdn intins, fpins
-    |.else
-    |  ins_arithfp fpins
-    |.endif
-    |.endmacro
-
-  case BC_ADDVN: case BC_ADDNV: case BC_ADDVV:
-    |.if GPR64
-    |.macro addo32., y, a, b
-    |  // Need to check overflow for (a<<32) + (b<<32).
-    |  rldicr TMP0, a, 32, 31
-    |  rldicr TMP3, b, 32, 31
-    |  addo. TMP0, TMP0, TMP3
-    |  add y, a, b
-    |.endmacro
-    |  ins_arith addo32., fadd
-    |.else
-    |  ins_arith addo., fadd
-    |.endif
-    break;
-  case BC_SUBVN: case BC_SUBNV: case BC_SUBVV:
-    |.if GPR64
-    |.macro subo32., y, a, b
-    |  // Need to check overflow for (a<<32) - (b<<32).
-    |  rldicr TMP0, a, 32, 31
-    |  rldicr TMP3, b, 32, 31
-    |  subo. TMP0, TMP0, TMP3
-    |  sub y, a, b
-    |.endmacro
-    |  ins_arith subo32., fsub
-    |.else
-    |  ins_arith subo., fsub
-    |.endif
-    break;
-  case BC_MULVN: case BC_MULNV: case BC_MULVV:
-    |  ins_arith mullwo., fmul
-    break;
-  case BC_DIVVN: case BC_DIVNV: case BC_DIVVV:
-    |  ins_arithfp fdiv
-    break;
-  case BC_MODVN:
-    |  ins_arith intmod, fpmod
-    break;
-  case BC_MODNV: case BC_MODVV:
-    |  ins_arith intmod, fpmod_
-    break;
-  case BC_POW:
-    |  // NYI: (partial) integer arithmetic.
-    |  lwzx TMP1, BASE, RB
-    |   lfdx FARG1, BASE, RB
-    |  lwzx TMP2, BASE, RC
-    |   lfdx FARG2, BASE, RC
-    |  checknum cr0, TMP1
-    |  checknum cr1, TMP2
-    |  crand 4*cr0+lt, 4*cr0+lt, 4*cr1+lt
-    |  bge ->vmeta_arith_vv
-    |  blex pow
-    |  ins_next1
-    |  stfdx FARG1, BASE, RA
-    |  ins_next2
-    break;
-
-  case BC_CAT:
-    |  // RA = dst*8, RB = src_start*8, RC = src_end*8
-    |  sub CARG3, RC, RB
-    |   stp BASE, L->base
-    |  add CARG2, BASE, RC
-    |  mr SAVE0, RB
-    |->BC_CAT_Z:
-    |   stw PC, SAVE_PC
-    |  mr CARG1, L
-    |  srwi CARG3, CARG3, 3
-    |  bl extern lj_meta_cat		// (lua_State *L, TValue *top, int left)
-    |  // Returns NULL (finished) or TValue * (metamethod).
-    |  cmplwi CRET1, 0
-    |   lp BASE, L->base
-    |  bne ->vmeta_binop
-    |  ins_next1
-    |  lfdx f0, BASE, SAVE0		// Copy result from RB to RA.
-    |  stfdx f0, BASE, RA
-    |  ins_next2
-    break;
-
-  /* -- Constant ops ------------------------------------------------------ */
-
-  case BC_KSTR:
-    |  // RA = dst*8, RD = str_const*8 (~)
-    |  srwi TMP1, RD, 1
-    |  subfic TMP1, TMP1, -4
-    |  ins_next1
-    |  lwzx TMP0, KBASE, TMP1		// KBASE-4-str_const*4
-    |  li TMP2, LJ_TSTR
-    |  stwux TMP2, RA, BASE
-    |  stw TMP0, 4(RA)
-    |  ins_next2
-    break;
-  case BC_KCDATA:
-    |.if FFI
-    |  // RA = dst*8, RD = cdata_const*8 (~)
-    |  srwi TMP1, RD, 1
-    |  subfic TMP1, TMP1, -4
-    |  ins_next1
-    |  lwzx TMP0, KBASE, TMP1		// KBASE-4-cdata_const*4
-    |  li TMP2, LJ_TCDATA
-    |  stwux TMP2, RA, BASE
-    |  stw TMP0, 4(RA)
-    |  ins_next2
-    |.endif
-    break;
-  case BC_KSHORT:
-    |  // RA = dst*8, RD = int16_literal*8
-    |.if DUALNUM
-    |  slwi RD, RD, 13
-    |  srawi RD, RD, 16
-    |  ins_next1
-    |   stwux TISNUM, RA, BASE
-    |   stw RD, 4(RA)
-    |  ins_next2
-    |.else
-    |  // The soft-float approach is faster.
-    |  slwi RD, RD, 13
-    |  srawi TMP1, RD, 31
-    |  xor TMP2, TMP1, RD
-    |  sub TMP2, TMP2, TMP1		// TMP2 = abs(x)
-    |  cntlzw TMP3, TMP2
-    |  subfic TMP1, TMP3, 0x40d		// TMP1 = exponent-1
-    |   slw TMP2, TMP2, TMP3		// TMP2 = left aligned mantissa
-    |    subfic TMP3, RD, 0
-    |  slwi TMP1, TMP1, 20
-    |   rlwimi RD, TMP2, 21, 1, 31	// hi = sign(x) | (mantissa>>11)
-    |    subfe TMP0, TMP0, TMP0
-    |   add RD, RD, TMP1		// hi = hi + exponent-1
-    |    and RD, RD, TMP0		// hi = x == 0 ? 0 : hi
-    |  ins_next1
-    |    stwux RD, RA, BASE
-    |    stw ZERO, 4(RA)
-    |  ins_next2
-    |.endif
-    break;
-  case BC_KNUM:
-    |  // RA = dst*8, RD = num_const*8
-    |  ins_next1
-    |  lfdx f0, KBASE, RD
-    |  stfdx f0, BASE, RA
-    |  ins_next2
-    break;
-  case BC_KPRI:
-    |  // RA = dst*8, RD = primitive_type*8 (~)
-    |  srwi TMP1, RD, 3
-    |  not TMP0, TMP1
-    |  ins_next1
-    |  stwx TMP0, BASE, RA
-    |  ins_next2
-    break;
-  case BC_KNIL:
-    |  // RA = base*8, RD = end*8
-    |  stwx TISNIL, BASE, RA
-    |   addi RA, RA, 8
-    |1:
-    |  stwx TISNIL, BASE, RA
-    |  cmpw RA, RD
-    |   addi RA, RA, 8
-    |  blt <1
-    |  ins_next_
-    break;
-
-  /* -- Upvalue and function ops ------------------------------------------ */
-
-  case BC_UGET:
-    |  // RA = dst*8, RD = uvnum*8
-    |  lwz LFUNC:RB, FRAME_FUNC(BASE)
-    |   srwi RD, RD, 1
-    |   addi RD, RD, offsetof(GCfuncL, uvptr)
-    |  lwzx UPVAL:RB, LFUNC:RB, RD
-    |  ins_next1
-    |  lwz TMP1, UPVAL:RB->v
-    |  lfd f0, 0(TMP1)
-    |  stfdx f0, BASE, RA
-    |  ins_next2
-    break;
-  case BC_USETV:
-    |  // RA = uvnum*8, RD = src*8
-    |  lwz LFUNC:RB, FRAME_FUNC(BASE)
-    |    srwi RA, RA, 1
-    |    addi RA, RA, offsetof(GCfuncL, uvptr)
-    |   lfdux f0, RD, BASE
-    |  lwzx UPVAL:RB, LFUNC:RB, RA
-    |  lbz TMP3, UPVAL:RB->marked
-    |   lwz CARG2, UPVAL:RB->v
-    |  andix. TMP3, TMP3, LJ_GC_BLACK	// isblack(uv)
-    |    lbz TMP0, UPVAL:RB->closed
-    |   lwz TMP2, 0(RD)
-    |   stfd f0, 0(CARG2)
-    |    cmplwi cr1, TMP0, 0
-    |   lwz TMP1, 4(RD)
-    |  cror 4*cr0+eq, 4*cr0+eq, 4*cr1+eq
-    |   subi TMP2, TMP2, (LJ_TNUMX+1)
-    |  bne >2				// Upvalue is closed and black?
-    |1:
-    |  ins_next
-    |
-    |2:  // Check if new value is collectable.
-    |  cmplwi TMP2, LJ_TISGCV - (LJ_TNUMX+1)
-    |  bge <1				// tvisgcv(v)
-    |  lbz TMP3, GCOBJ:TMP1->gch.marked
-    |  andix. TMP3, TMP3, LJ_GC_WHITES	// iswhite(v)
-    |   la CARG1, GG_DISP2G(DISPATCH)
-    |  // Crossed a write barrier. Move the barrier forward.
-    |  beq <1
-    |  bl extern lj_gc_barrieruv	// (global_State *g, TValue *tv)
-    |  b <1
-    break;
-  case BC_USETS:
-    |  // RA = uvnum*8, RD = str_const*8 (~)
-    |  lwz LFUNC:RB, FRAME_FUNC(BASE)
-    |   srwi TMP1, RD, 1
-    |    srwi RA, RA, 1
-    |   subfic TMP1, TMP1, -4
-    |    addi RA, RA, offsetof(GCfuncL, uvptr)
-    |   lwzx STR:TMP1, KBASE, TMP1	// KBASE-4-str_const*4
-    |  lwzx UPVAL:RB, LFUNC:RB, RA
-    |  lbz TMP3, UPVAL:RB->marked
-    |   lwz CARG2, UPVAL:RB->v
-    |  andix. TMP3, TMP3, LJ_GC_BLACK	// isblack(uv)
-    |   lbz TMP3, STR:TMP1->marked
-    |   lbz TMP2, UPVAL:RB->closed
-    |   li TMP0, LJ_TSTR
-    |   stw STR:TMP1, 4(CARG2)
-    |   stw TMP0, 0(CARG2)
-    |  bne >2
-    |1:
-    |  ins_next
-    |
-    |2:  // Check if string is white and ensure upvalue is closed.
-    |  andix. TMP3, TMP3, LJ_GC_WHITES	// iswhite(str)
-    |   cmplwi cr1, TMP2, 0
-    |  cror 4*cr0+eq, 4*cr0+eq, 4*cr1+eq
-    |   la CARG1, GG_DISP2G(DISPATCH)
-    |  // Crossed a write barrier. Move the barrier forward.
-    |  beq <1
-    |  bl extern lj_gc_barrieruv	// (global_State *g, TValue *tv)
-    |  b <1
-    break;
-  case BC_USETN:
-    |  // RA = uvnum*8, RD = num_const*8
-    |  lwz LFUNC:RB, FRAME_FUNC(BASE)
-    |   srwi RA, RA, 1
-    |   addi RA, RA, offsetof(GCfuncL, uvptr)
-    |    lfdx f0, KBASE, RD
-    |  lwzx UPVAL:RB, LFUNC:RB, RA
-    |  ins_next1
-    |  lwz TMP1, UPVAL:RB->v
-    |  stfd f0, 0(TMP1)
-    |  ins_next2
-    break;
-  case BC_USETP:
-    |  // RA = uvnum*8, RD = primitive_type*8 (~)
-    |  lwz LFUNC:RB, FRAME_FUNC(BASE)
-    |   srwi RA, RA, 1
-    |    srwi TMP0, RD, 3
-    |   addi RA, RA, offsetof(GCfuncL, uvptr)
-    |    not TMP0, TMP0
-    |  lwzx UPVAL:RB, LFUNC:RB, RA
-    |  ins_next1
-    |  lwz TMP1, UPVAL:RB->v
-    |  stw TMP0, 0(TMP1)
-    |  ins_next2
-    break;
-
-  case BC_UCLO:
-    |  // RA = level*8, RD = target
-    |  lwz TMP1, L->openupval
-    |  branch_RD			// Do this first since RD is not saved.
-    |   stp BASE, L->base
-    |  cmplwi TMP1, 0
-    |   mr CARG1, L
-    |  beq >1
-    |   add CARG2, BASE, RA
-    |  bl extern lj_func_closeuv	// (lua_State *L, TValue *level)
-    |  lp BASE, L->base
-    |1:
-    |  ins_next
-    break;
-
-  case BC_FNEW:
-    |  // RA = dst*8, RD = proto_const*8 (~) (holding function prototype)
-    |  srwi TMP1, RD, 1
-    |   stp BASE, L->base
-    |  subfic TMP1, TMP1, -4
-    |   stw PC, SAVE_PC
-    |  lwzx CARG2, KBASE, TMP1		// KBASE-4-tab_const*4
-    |   mr CARG1, L
-    |  lwz CARG3, FRAME_FUNC(BASE)
-    |  // (lua_State *L, GCproto *pt, GCfuncL *parent)
-    |  bl extern lj_func_newL_gc
-    |  // Returns GCfuncL *.
-    |  lp BASE, L->base
-    |   li TMP0, LJ_TFUNC
-    |  stwux TMP0, RA, BASE
-    |  stw LFUNC:CRET1, 4(RA)
-    |  ins_next
-    break;
-
-  /* -- Table ops --------------------------------------------------------- */
-
-  case BC_TNEW:
-  case BC_TDUP:
-    |  // RA = dst*8, RD = (hbits|asize)*8 | tab_const*8 (~)
-    |  lwz TMP0, DISPATCH_GL(gc.total)(DISPATCH)
-    |   mr CARG1, L
-    |  lwz TMP1, DISPATCH_GL(gc.threshold)(DISPATCH)
-    |   stp BASE, L->base
-    |  cmplw TMP0, TMP1
-    |   stw PC, SAVE_PC
-    |  bge >5
-    |1:
-    if (op == BC_TNEW) {
-      |  rlwinm CARG2, RD, 29, 21, 31
-      |  rlwinm CARG3, RD, 18, 27, 31
-      |  cmpwi CARG2, 0x7ff; beq >3
-      |2:
-      |  bl extern lj_tab_new  // (lua_State *L, int32_t asize, uint32_t hbits)
-      |  // Returns Table *.
-    } else {
-      |  srwi TMP1, RD, 1
-      |  subfic TMP1, TMP1, -4
-      |  lwzx CARG2, KBASE, TMP1		// KBASE-4-tab_const*4
-      |  bl extern lj_tab_dup  // (lua_State *L, Table *kt)
-      |  // Returns Table *.
-    }
-    |  lp BASE, L->base
-    |   li TMP0, LJ_TTAB
-    |  stwux TMP0, RA, BASE
-    |  stw TAB:CRET1, 4(RA)
-    |  ins_next
-    if (op == BC_TNEW) {
-      |3:
-      |  li CARG2, 0x801
-      |  b <2
-    }
-    |5:
-    |  mr SAVE0, RD
-    |  bl extern lj_gc_step_fixtop  // (lua_State *L)
-    |  mr RD, SAVE0
-    |  mr CARG1, L
-    |  b <1
-    break;
-
-  case BC_GGET:
-    |  // RA = dst*8, RD = str_const*8 (~)
-  case BC_GSET:
-    |  // RA = src*8, RD = str_const*8 (~)
-    |  lwz LFUNC:TMP2, FRAME_FUNC(BASE)
-    |   srwi TMP1, RD, 1
-    |  lwz TAB:RB, LFUNC:TMP2->env
-    |   subfic TMP1, TMP1, -4
-    |   lwzx STR:RC, KBASE, TMP1	// KBASE-4-str_const*4
-    if (op == BC_GGET) {
-      |  b ->BC_TGETS_Z
-    } else {
-      |  b ->BC_TSETS_Z
-    }
-    break;
-
-  case BC_TGETV:
-    |  // RA = dst*8, RB = table*8, RC = key*8
-    |  lwzux CARG1, RB, BASE
-    |  lwzux CARG2, RC, BASE
-    |   lwz TAB:RB, 4(RB)
-    |.if DUALNUM
-    |   lwz RC, 4(RC)
-    |.else
-    |   lfd f0, 0(RC)
-    |.endif
-    |  checktab CARG1
-    |   checknum cr1, CARG2
-    |  bne ->vmeta_tgetv
-    |.if DUALNUM
-    |  lwz TMP0, TAB:RB->asize
-    |   bne cr1, >5
-    |   lwz TMP1, TAB:RB->array
-    |  cmplw TMP0, RC
-    |   slwi TMP2, RC, 3
-    |.else
-    |   bge cr1, >5
-    |  // Convert number key to integer, check for integerness and range.
-    |  fctiwz f1, f0
-    |    fadd f2, f0, TOBIT
-    |  stfd f1, TMPD
-    |   lwz TMP0, TAB:RB->asize
-    |    fsub f2, f2, TOBIT
-    |  lwz TMP2, TMPD_LO
-    |   lwz TMP1, TAB:RB->array
-    |    fcmpu cr1, f0, f2
-    |  cmplw cr0, TMP0, TMP2
-    |  crand 4*cr0+gt, 4*cr0+gt, 4*cr1+eq
-    |   slwi TMP2, TMP2, 3
-    |.endif
-    |  ble ->vmeta_tgetv		// Integer key and in array part?
-    |  lwzx TMP0, TMP1, TMP2
-    |   lfdx f14, TMP1, TMP2
-    |  checknil TMP0; beq >2
-    |1:
-    |  ins_next1
-    |   stfdx f14, BASE, RA
-    |  ins_next2
-    |
-    |2:  // Check for __index if table value is nil.
-    |  lwz TAB:TMP2, TAB:RB->metatable
-    |  cmplwi TAB:TMP2, 0
-    |  beq <1				// No metatable: done.
-    |  lbz TMP0, TAB:TMP2->nomm
-    |  andix. TMP0, TMP0, 1<<MM_index
-    |  bne <1				// 'no __index' flag set: done.
-    |  b ->vmeta_tgetv
-    |
-    |5:
-    |  checkstr CARG2; bne ->vmeta_tgetv
-    |.if not DUALNUM
-    |  lwz STR:RC, 4(RC)
-    |.endif
-    |  b ->BC_TGETS_Z			// String key?
-    break;
-  case BC_TGETS:
-    |  // RA = dst*8, RB = table*8, RC = str_const*8 (~)
-    |  lwzux CARG1, RB, BASE
-    |   srwi TMP1, RC, 1
-    |    lwz TAB:RB, 4(RB)
-    |   subfic TMP1, TMP1, -4
-    |  checktab CARG1
-    |   lwzx STR:RC, KBASE, TMP1	// KBASE-4-str_const*4
-    |  bne ->vmeta_tgets1
-    |->BC_TGETS_Z:
-    |  // TAB:RB = GCtab *, STR:RC = GCstr *, RA = dst*8
-    |  lwz TMP0, TAB:RB->hmask
-    |  lwz TMP1, STR:RC->hash
-    |  lwz NODE:TMP2, TAB:RB->node
-    |  and TMP1, TMP1, TMP0		// idx = str->hash & tab->hmask
-    |  slwi TMP0, TMP1, 5
-    |  slwi TMP1, TMP1, 3
-    |  sub TMP1, TMP0, TMP1
-    |  add NODE:TMP2, NODE:TMP2, TMP1	// node = tab->node + (idx*32-idx*8)
-    |1:
-    |  lwz CARG1, NODE:TMP2->key
-    |   lwz TMP0, 4+offsetof(Node, key)(NODE:TMP2)
-    |    lwz CARG2, NODE:TMP2->val
-    |     lwz TMP1, 4+offsetof(Node, val)(NODE:TMP2)
-    |  checkstr CARG1; bne >4
-    |   cmpw TMP0, STR:RC; bne >4
-    |    checknil CARG2; beq >5		// Key found, but nil value?
-    |3:
-    |    stwux CARG2, RA, BASE
-    |     stw TMP1, 4(RA)
-    |  ins_next
-    |
-    |4:  // Follow hash chain.
-    |  lwz NODE:TMP2, NODE:TMP2->next
-    |  cmplwi NODE:TMP2, 0
-    |  bne <1
-    |  // End of hash chain: key not found, nil result.
-    |   li CARG2, LJ_TNIL
-    |
-    |5:  // Check for __index if table value is nil.
-    |  lwz TAB:TMP2, TAB:RB->metatable
-    |  cmplwi TAB:TMP2, 0
-    |  beq <3				// No metatable: done.
-    |  lbz TMP0, TAB:TMP2->nomm
-    |  andix. TMP0, TMP0, 1<<MM_index
-    |  bne <3				// 'no __index' flag set: done.
-    |  b ->vmeta_tgets
-    break;
-  case BC_TGETB:
-    |  // RA = dst*8, RB = table*8, RC = index*8
-    |  lwzux CARG1, RB, BASE
-    |   srwi TMP0, RC, 3
-    |   lwz TAB:RB, 4(RB)
-    |  checktab CARG1; bne ->vmeta_tgetb
-    |  lwz TMP1, TAB:RB->asize
-    |   lwz TMP2, TAB:RB->array
-    |  cmplw TMP0, TMP1; bge ->vmeta_tgetb
-    |  lwzx TMP1, TMP2, RC
-    |   lfdx f0, TMP2, RC
-    |  checknil TMP1; beq >5
-    |1:
-    |  ins_next1
-    |   stfdx f0, BASE, RA
-    |  ins_next2
-    |
-    |5:  // Check for __index if table value is nil.
-    |  lwz TAB:TMP2, TAB:RB->metatable
-    |  cmplwi TAB:TMP2, 0
-    |  beq <1				// No metatable: done.
-    |  lbz TMP2, TAB:TMP2->nomm
-    |  andix. TMP2, TMP2, 1<<MM_index
-    |  bne <1				// 'no __index' flag set: done.
-    |  b ->vmeta_tgetb			// Caveat: preserve TMP0!
-    break;
-
-  case BC_TSETV:
-    |  // RA = src*8, RB = table*8, RC = key*8
-    |  lwzux CARG1, RB, BASE
-    |  lwzux CARG2, RC, BASE
-    |   lwz TAB:RB, 4(RB)
-    |.if DUALNUM
-    |   lwz RC, 4(RC)
-    |.else
-    |   lfd f0, 0(RC)
-    |.endif
-    |  checktab CARG1
-    |   checknum cr1, CARG2
-    |  bne ->vmeta_tsetv
-    |.if DUALNUM
-    |  lwz TMP0, TAB:RB->asize
-    |   bne cr1, >5
-    |   lwz TMP1, TAB:RB->array
-    |  cmplw TMP0, RC
-    |   slwi TMP0, RC, 3
-    |.else
-    |   bge cr1, >5
-    |  // Convert number key to integer, check for integerness and range.
-    |  fctiwz f1, f0
-    |    fadd f2, f0, TOBIT
-    |  stfd f1, TMPD
-    |   lwz TMP0, TAB:RB->asize
-    |    fsub f2, f2, TOBIT
-    |  lwz TMP2, TMPD_LO
-    |   lwz TMP1, TAB:RB->array
-    |    fcmpu cr1, f0, f2
-    |  cmplw cr0, TMP0, TMP2
-    |  crand 4*cr0+gt, 4*cr0+gt, 4*cr1+eq
-    |   slwi TMP0, TMP2, 3
-    |.endif
-    |  ble ->vmeta_tsetv		// Integer key and in array part?
-    |   lwzx TMP2, TMP1, TMP0
-    |  lbz TMP3, TAB:RB->marked
-    |    lfdx f14, BASE, RA
-    |   checknil TMP2; beq >3
-    |1:
-    |  andix. TMP2, TMP3, LJ_GC_BLACK	// isblack(table)
-    |    stfdx f14, TMP1, TMP0
-    |  bne >7
-    |2:
-    |  ins_next
-    |
-    |3:  // Check for __newindex if previous value is nil.
-    |  lwz TAB:TMP2, TAB:RB->metatable
-    |  cmplwi TAB:TMP2, 0
-    |  beq <1				// No metatable: done.
-    |  lbz TMP2, TAB:TMP2->nomm
-    |  andix. TMP2, TMP2, 1<<MM_newindex
-    |  bne <1				// 'no __newindex' flag set: done.
-    |  b ->vmeta_tsetv
-    |
-    |5:
-    |  checkstr CARG2; bne ->vmeta_tsetv
-    |.if not DUALNUM
-    |  lwz STR:RC, 4(RC)
-    |.endif
-    |  b ->BC_TSETS_Z			// String key?
-    |
-    |7:  // Possible table write barrier for the value. Skip valiswhite check.
-    |  barrierback TAB:RB, TMP3, TMP0
-    |  b <2
-    break;
-  case BC_TSETS:
-    |  // RA = src*8, RB = table*8, RC = str_const*8 (~)
-    |  lwzux CARG1, RB, BASE
-    |   srwi TMP1, RC, 1
-    |    lwz TAB:RB, 4(RB)
-    |   subfic TMP1, TMP1, -4
-    |  checktab CARG1
-    |   lwzx STR:RC, KBASE, TMP1	// KBASE-4-str_const*4
-    |  bne ->vmeta_tsets1
-    |->BC_TSETS_Z:
-    |  // TAB:RB = GCtab *, STR:RC = GCstr *, RA = src*8
-    |  lwz TMP0, TAB:RB->hmask
-    |  lwz TMP1, STR:RC->hash
-    |  lwz NODE:TMP2, TAB:RB->node
-    |    stb ZERO, TAB:RB->nomm		// Clear metamethod cache.
-    |  and TMP1, TMP1, TMP0		// idx = str->hash & tab->hmask
-    |    lfdx f14, BASE, RA
-    |  slwi TMP0, TMP1, 5
-    |  slwi TMP1, TMP1, 3
-    |  sub TMP1, TMP0, TMP1
-    |    lbz TMP3, TAB:RB->marked
-    |  add NODE:TMP2, NODE:TMP2, TMP1	// node = tab->node + (idx*32-idx*8)
-    |1:
-    |  lwz CARG1, NODE:TMP2->key
-    |   lwz TMP0, 4+offsetof(Node, key)(NODE:TMP2)
-    |    lwz CARG2, NODE:TMP2->val
-    |     lwz NODE:TMP1, NODE:TMP2->next
-    |  checkstr CARG1; bne >5
-    |   cmpw TMP0, STR:RC; bne >5
-    |    checknil CARG2; beq >4		// Key found, but nil value?
-    |2:
-    |  andix. TMP0, TMP3, LJ_GC_BLACK	// isblack(table)
-    |    stfd f14, NODE:TMP2->val
-    |  bne >7
-    |3:
-    |  ins_next
-    |
-    |4:  // Check for __newindex if previous value is nil.
-    |  lwz TAB:TMP1, TAB:RB->metatable
-    |  cmplwi TAB:TMP1, 0
-    |  beq <2				// No metatable: done.
-    |  lbz TMP0, TAB:TMP1->nomm
-    |  andix. TMP0, TMP0, 1<<MM_newindex
-    |  bne <2				// 'no __newindex' flag set: done.
-    |  b ->vmeta_tsets
-    |
-    |5:  // Follow hash chain.
-    |  cmplwi NODE:TMP1, 0
-    |   mr NODE:TMP2, NODE:TMP1
-    |  bne <1
-    |  // End of hash chain: key not found, add a new one.
-    |
-    |  // But check for __newindex first.
-    |  lwz TAB:TMP1, TAB:RB->metatable
-    |   la CARG3, DISPATCH_GL(tmptv)(DISPATCH)
-    |   stw PC, SAVE_PC
-    |   mr CARG1, L
-    |  cmplwi TAB:TMP1, 0
-    |   stp BASE, L->base
-    |  beq >6				// No metatable: continue.
-    |  lbz TMP0, TAB:TMP1->nomm
-    |  andix. TMP0, TMP0, 1<<MM_newindex
-    |  beq ->vmeta_tsets		// 'no __newindex' flag NOT set: check.
-    |6:
-    |  li TMP0, LJ_TSTR
-    |   stw STR:RC, 4(CARG3)
-    |   mr CARG2, TAB:RB
-    |  stw TMP0, 0(CARG3)
-    |  bl extern lj_tab_newkey		// (lua_State *L, GCtab *t, TValue *k)
-    |  // Returns TValue *.
-    |  lp BASE, L->base
-    |  stfd f14, 0(CRET1)
-    |  b <3				// No 2nd write barrier needed.
-    |
-    |7:  // Possible table write barrier for the value. Skip valiswhite check.
-    |  barrierback TAB:RB, TMP3, TMP0
-    |  b <3
-    break;
-  case BC_TSETB:
-    |  // RA = src*8, RB = table*8, RC = index*8
-    |  lwzux CARG1, RB, BASE
-    |   srwi TMP0, RC, 3
-    |   lwz TAB:RB, 4(RB)
-    |  checktab CARG1; bne ->vmeta_tsetb
-    |  lwz TMP1, TAB:RB->asize
-    |   lwz TMP2, TAB:RB->array
-    |    lbz TMP3, TAB:RB->marked
-    |  cmplw TMP0, TMP1
-    |   lfdx f14, BASE, RA
-    |  bge ->vmeta_tsetb
-    |  lwzx TMP1, TMP2, RC
-    |  checknil TMP1; beq >5
-    |1:
-    |  andix. TMP0, TMP3, LJ_GC_BLACK	// isblack(table)
-    |   stfdx f14, TMP2, RC
-    |  bne >7
-    |2:
-    |  ins_next
-    |
-    |5:  // Check for __newindex if previous value is nil.
-    |  lwz TAB:TMP1, TAB:RB->metatable
-    |  cmplwi TAB:TMP1, 0
-    |  beq <1				// No metatable: done.
-    |  lbz TMP1, TAB:TMP1->nomm
-    |  andix. TMP1, TMP1, 1<<MM_newindex
-    |  bne <1				// 'no __newindex' flag set: done.
-    |  b ->vmeta_tsetb			// Caveat: preserve TMP0!
-    |
-    |7:  // Possible table write barrier for the value. Skip valiswhite check.
-    |  barrierback TAB:RB, TMP3, TMP0
-    |  b <2
-    break;
-
-  case BC_TSETM:
-    |  // RA = base*8 (table at base-1), RD = num_const*8 (start index)
-    |  add RA, BASE, RA
-    |1:
-    |   add TMP3, KBASE, RD
-    |  lwz TAB:CARG2, -4(RA)		// Guaranteed to be a table.
-    |    addic. TMP0, MULTRES, -8
-    |   lwz TMP3, 4(TMP3)		// Integer constant is in lo-word.
-    |    srwi CARG3, TMP0, 3
-    |    beq >4				// Nothing to copy?
-    |  add CARG3, CARG3, TMP3
-    |  lwz TMP2, TAB:CARG2->asize
-    |   slwi TMP1, TMP3, 3
-    |    lbz TMP3, TAB:CARG2->marked
-    |  cmplw CARG3, TMP2
-    |   add TMP2, RA, TMP0
-    |   lwz TMP0, TAB:CARG2->array
-    |  bgt >5
-    |   add TMP1, TMP1, TMP0
-    |    andix. TMP0, TMP3, LJ_GC_BLACK	// isblack(table)
-    |3:  // Copy result slots to table.
-    |   lfd f0, 0(RA)
-    |  addi RA, RA, 8
-    |  cmpw cr1, RA, TMP2
-    |   stfd f0, 0(TMP1)
-    |    addi TMP1, TMP1, 8
-    |  blt cr1, <3
-    |  bne >7
-    |4:
-    |  ins_next
-    |
-    |5:  // Need to resize array part.
-    |   stp BASE, L->base
-    |  mr CARG1, L
-    |   stw PC, SAVE_PC
-    |  mr SAVE0, RD
-    |  bl extern lj_tab_reasize		// (lua_State *L, GCtab *t, int nasize)
-    |  // Must not reallocate the stack.
-    |  mr RD, SAVE0
-    |  b <1
-    |
-    |7:  // Possible table write barrier for any value. Skip valiswhite check.
-    |  barrierback TAB:CARG2, TMP3, TMP0
-    |  b <4
-    break;
-
-  /* -- Calls and vararg handling ----------------------------------------- */
-
-  case BC_CALLM:
-    |  // RA = base*8, (RB = (nresults+1)*8,) RC = extra_nargs*8
-    |  add NARGS8:RC, NARGS8:RC, MULTRES
-    |  // Fall through. Assumes BC_CALL follows.
-    break;
-  case BC_CALL:
-    |  // RA = base*8, (RB = (nresults+1)*8,) RC = (nargs+1)*8
-    |  mr TMP2, BASE
-    |  lwzux TMP0, BASE, RA
-    |   lwz LFUNC:RB, 4(BASE)
-    |    subi NARGS8:RC, NARGS8:RC, 8
-    |   addi BASE, BASE, 8
-    |  checkfunc TMP0; bne ->vmeta_call
-    |  ins_call
-    break;
-
-  case BC_CALLMT:
-    |  // RA = base*8, (RB = 0,) RC = extra_nargs*8
-    |  add NARGS8:RC, NARGS8:RC, MULTRES
-    |  // Fall through. Assumes BC_CALLT follows.
-    break;
-  case BC_CALLT:
-    |  // RA = base*8, (RB = 0,) RC = (nargs+1)*8
-    |  lwzux TMP0, RA, BASE
-    |   lwz LFUNC:RB, 4(RA)
-    |    subi NARGS8:RC, NARGS8:RC, 8
-    |    lwz TMP1, FRAME_PC(BASE)
-    |  checkfunc TMP0
-    |   addi RA, RA, 8
-    |  bne ->vmeta_callt
-    |->BC_CALLT_Z:
-    |  andix. TMP0, TMP1, FRAME_TYPE	// Caveat: preserve cr0 until the crand.
-    |   lbz TMP3, LFUNC:RB->ffid
-    |    xori TMP2, TMP1, FRAME_VARG
-    |    cmplwi cr1, NARGS8:RC, 0
-    |  bne >7
-    |1:
-    |  stw LFUNC:RB, FRAME_FUNC(BASE)	// Copy function down, but keep PC.
-    |  li TMP2, 0
-    |   cmplwi cr7, TMP3, 1		// (> FF_C) Calling a fast function?
-    |    beq cr1, >3
-    |2:
-    |  addi TMP3, TMP2, 8
-    |   lfdx f0, RA, TMP2
-    |  cmplw cr1, TMP3, NARGS8:RC
-    |   stfdx f0, BASE, TMP2
-    |  mr TMP2, TMP3
-    |  bne cr1, <2
-    |3:
-    |  crand 4*cr0+eq, 4*cr0+eq, 4*cr7+gt
-    |  beq >5
-    |4:
-    |  ins_callt
-    |
-    |5:  // Tailcall to a fast function with a Lua frame below.
-    |  lwz INS, -4(TMP1)
-    |  decode_RA8 RA, INS
-    |  sub TMP1, BASE, RA
-    |  lwz LFUNC:TMP1, FRAME_FUNC-8(TMP1)
-    |  lwz TMP1, LFUNC:TMP1->pc
-    |  lwz KBASE, PC2PROTO(k)(TMP1)	// Need to prepare KBASE.
-    |  b <4
-    |
-    |7:  // Tailcall from a vararg function.
-    |  andix. TMP0, TMP2, FRAME_TYPEP
-    |  bne <1				// Vararg frame below?
-    |  sub BASE, BASE, TMP2		// Relocate BASE down.
-    |  lwz TMP1, FRAME_PC(BASE)
-    |  andix. TMP0, TMP1, FRAME_TYPE
-    |  b <1
-    break;
-
-  case BC_ITERC:
-    |  // RA = base*8, (RB = (nresults+1)*8, RC = (nargs+1)*8 ((2+1)*8))
-    |  mr TMP2, BASE
-    |  add BASE, BASE, RA
-    |  lwz TMP1, -24(BASE)
-    |   lwz LFUNC:RB, -20(BASE)
-    |    lfd f1, -8(BASE)
-    |    lfd f0, -16(BASE)
-    |  stw TMP1, 0(BASE)		// Copy callable.
-    |   stw LFUNC:RB, 4(BASE)
-    |  checkfunc TMP1
-    |    stfd f1, 16(BASE)		// Copy control var.
-    |     li NARGS8:RC, 16		// Iterators get 2 arguments.
-    |    stfdu f0, 8(BASE)		// Copy state.
-    |  bne ->vmeta_call
-    |  ins_call
-    break;
-
-  case BC_ITERN:
-    |  // RA = base*8, (RB = (nresults+1)*8, RC = (nargs+1)*8 (2+1)*8)
-    |.if JIT
-    |  // NYI: add hotloop, record BC_ITERN.
-    |.endif
-    |  add RA, BASE, RA
-    |  lwz TAB:RB, -12(RA)
-    |  lwz RC, -4(RA)			// Get index from control var.
-    |  lwz TMP0, TAB:RB->asize
-    |  lwz TMP1, TAB:RB->array
-    |   addi PC, PC, 4
-    |1:  // Traverse array part.
-    |  cmplw RC, TMP0
-    |   slwi TMP3, RC, 3
-    |  bge >5				// Index points after array part?
-    |  lwzx TMP2, TMP1, TMP3
-    |   lfdx f0, TMP1, TMP3
-    |  checknil TMP2
-    |     lwz INS, -4(PC)
-    |  beq >4
-    |.if DUALNUM
-    |   stw RC, 4(RA)
-    |   stw TISNUM, 0(RA)
-    |.else
-    |   tonum_u f1, RC
-    |.endif
-    |    addi RC, RC, 1
-    |     addis TMP3, PC, -(BCBIAS_J*4 >> 16)
-    |  stfd f0, 8(RA)
-    |     decode_RD4 TMP1, INS
-    |    stw RC, -4(RA)			// Update control var.
-    |     add PC, TMP1, TMP3
-    |.if not DUALNUM
-    |   stfd f1, 0(RA)
-    |.endif
-    |3:
-    |  ins_next
-    |
-    |4:  // Skip holes in array part.
-    |  addi RC, RC, 1
-    |  b <1
-    |
-    |5:  // Traverse hash part.
-    |  lwz TMP1, TAB:RB->hmask
-    |  sub RC, RC, TMP0
-    |   lwz TMP2, TAB:RB->node
-    |6:
-    |  cmplw RC, TMP1			// End of iteration? Branch to ITERL+1.
-    |   slwi TMP3, RC, 5
-    |  bgty <3
-    |   slwi RB, RC, 3
-    |   sub TMP3, TMP3, RB
-    |  lwzx RB, TMP2, TMP3
-    |  lfdx f0, TMP2, TMP3
-    |   add NODE:TMP3, TMP2, TMP3
-    |  checknil RB
-    |     lwz INS, -4(PC)
-    |  beq >7
-    |   lfd f1, NODE:TMP3->key
-    |     addis TMP2, PC, -(BCBIAS_J*4 >> 16)
-    |  stfd f0, 8(RA)
-    |    add RC, RC, TMP0
-    |     decode_RD4 TMP1, INS
-    |   stfd f1, 0(RA)
-    |    addi RC, RC, 1
-    |     add PC, TMP1, TMP2
-    |    stw RC, -4(RA)			// Update control var.
-    |  b <3
-    |
-    |7:  // Skip holes in hash part.
-    |  addi RC, RC, 1
-    |  b <6
-    break;
-
-  case BC_ISNEXT:
-    |  // RA = base*8, RD = target (points to ITERN)
-    |  add RA, BASE, RA
-    |  lwz TMP0, -24(RA)
-    |  lwz CFUNC:TMP1, -20(RA)
-    |   lwz TMP2, -16(RA)
-    |    lwz TMP3, -8(RA)
-    |   cmpwi cr0, TMP2, LJ_TTAB
-    |  cmpwi cr1, TMP0, LJ_TFUNC
-    |    cmpwi cr6, TMP3, LJ_TNIL
-    |  bne cr1, >5
-    |  lbz TMP1, CFUNC:TMP1->ffid
-    |   crand 4*cr0+eq, 4*cr0+eq, 4*cr6+eq
-    |  cmpwi cr7, TMP1, FF_next_N
-    |    srwi TMP0, RD, 1
-    |  crand 4*cr0+eq, 4*cr0+eq, 4*cr7+eq
-    |    add TMP3, PC, TMP0
-    |  bne cr0, >5
-    |  lus TMP1, 0xfffe
-    |  ori TMP1, TMP1, 0x7fff
-    |  stw ZERO, -4(RA)			// Initialize control var.
-    |  stw TMP1, -8(RA)
-    |    addis PC, TMP3, -(BCBIAS_J*4 >> 16)
-    |1:
-    |  ins_next
-    |5:  // Despecialize bytecode if any of the checks fail.
-    |  li TMP0, BC_JMP
-    |   li TMP1, BC_ITERC
-    |  stb TMP0, -1(PC)
-    |    addis PC, TMP3, -(BCBIAS_J*4 >> 16)
-    |   stb TMP1, 3(PC)
-    |  b <1
-    break;
-
-  case BC_VARG:
-    |  // RA = base*8, RB = (nresults+1)*8, RC = numparams*8
-    |  lwz TMP0, FRAME_PC(BASE)
-    |  add RC, BASE, RC
-    |   add RA, BASE, RA
-    |  addi RC, RC, FRAME_VARG
-    |   add TMP2, RA, RB
-    |  subi TMP3, BASE, 8		// TMP3 = vtop
-    |  sub RC, RC, TMP0			// RC = vbase
-    |  // Note: RC may now be even _above_ BASE if nargs was < numparams.
-    |  cmplwi cr1, RB, 0
-    |.if PPE
-    |   sub TMP1, TMP3, RC
-    |   cmpwi TMP1, 0
-    |.else
-    |   sub. TMP1, TMP3, RC
-    |.endif
-    |  beq cr1, >5			// Copy all varargs?
-    |   subi TMP2, TMP2, 16
-    |   ble >2				// No vararg slots?
-    |1:  // Copy vararg slots to destination slots.
-    |  lfd f0, 0(RC)
-    |   addi RC, RC, 8
-    |  stfd f0, 0(RA)
-    |  cmplw RA, TMP2
-    |   cmplw cr1, RC, TMP3
-    |  bge >3				// All destination slots filled?
-    |    addi RA, RA, 8
-    |   blt cr1, <1			// More vararg slots?
-    |2:  // Fill up remainder with nil.
-    |  stw TISNIL, 0(RA)
-    |  cmplw RA, TMP2
-    |   addi RA, RA, 8
-    |  blt <2
-    |3:
-    |  ins_next
-    |
-    |5:  // Copy all varargs.
-    |  lwz TMP0, L->maxstack
-    |   li MULTRES, 8			// MULTRES = (0+1)*8
-    |  bley <3				// No vararg slots?
-    |  add TMP2, RA, TMP1
-    |  cmplw TMP2, TMP0
-    |   addi MULTRES, TMP1, 8
-    |  bgt >7
-    |6:
-    |  lfd f0, 0(RC)
-    |   addi RC, RC, 8
-    |  stfd f0, 0(RA)
-    |  cmplw RC, TMP3
-    |   addi RA, RA, 8
-    |  blt <6				// More vararg slots?
-    |  b <3
-    |
-    |7:  // Grow stack for varargs.
-    |  mr CARG1, L
-    |   stp RA, L->top
-    |  sub SAVE0, RC, BASE		// Need delta, because BASE may change.
-    |   stp BASE, L->base
-    |  sub RA, RA, BASE
-    |   stw PC, SAVE_PC
-    |  srwi CARG2, TMP1, 3
-    |  bl extern lj_state_growstack	// (lua_State *L, int n)
-    |  lp BASE, L->base
-    |  add RA, BASE, RA
-    |  add RC, BASE, SAVE0
-    |  subi TMP3, BASE, 8
-    |  b <6
-    break;
-
-  /* -- Returns ----------------------------------------------------------- */
-
-  case BC_RETM:
-    |  // RA = results*8, RD = extra_nresults*8
-    |  add RD, RD, MULTRES		// MULTRES >= 8, so RD >= 8.
-    |  // Fall through. Assumes BC_RET follows.
-    break;
-
-  case BC_RET:
-    |  // RA = results*8, RD = (nresults+1)*8
-    |  lwz PC, FRAME_PC(BASE)
-    |   add RA, BASE, RA
-    |    mr MULTRES, RD
-    |1:
-    |  andix. TMP0, PC, FRAME_TYPE
-    |   xori TMP1, PC, FRAME_VARG
-    |  bne ->BC_RETV_Z
-    |
-    |->BC_RET_Z:
-    |  // BASE = base, RA = resultptr, RD = (nresults+1)*8, PC = return
-    |   lwz INS, -4(PC)
-    |  cmpwi RD, 8
-    |   subi TMP2, BASE, 8
-    |   subi RC, RD, 8
-    |   decode_RB8 RB, INS
-    |  beq >3
-    |   li TMP1, 0
-    |2:
-    |  addi TMP3, TMP1, 8
-    |   lfdx f0, RA, TMP1
-    |  cmpw TMP3, RC
-    |   stfdx f0, TMP2, TMP1
-    |  beq >3
-    |  addi TMP1, TMP3, 8
-    |   lfdx f1, RA, TMP3
-    |  cmpw TMP1, RC
-    |   stfdx f1, TMP2, TMP3
-    |  bne <2
-    |3:
-    |5:
-    |  cmplw RB, RD
-    |   decode_RA8 RA, INS
-    |  bgt >6
-    |   sub BASE, TMP2, RA
-    |  lwz LFUNC:TMP1, FRAME_FUNC(BASE)
-    |  ins_next1
-    |  lwz TMP1, LFUNC:TMP1->pc
-    |  lwz KBASE, PC2PROTO(k)(TMP1)
-    |  ins_next2
-    |
-    |6:  // Fill up results with nil.
-    |  subi TMP1, RD, 8
-    |   addi RD, RD, 8
-    |  stwx TISNIL, TMP2, TMP1
-    |  b <5
-    |
-    |->BC_RETV_Z:  // Non-standard return case.
-    |  andix. TMP2, TMP1, FRAME_TYPEP
-    |  bne ->vm_return
-    |  // Return from vararg function: relocate BASE down.
-    |  sub BASE, BASE, TMP1
-    |  lwz PC, FRAME_PC(BASE)
-    |  b <1
-    break;
-
-  case BC_RET0: case BC_RET1:
-    |  // RA = results*8, RD = (nresults+1)*8
-    |  lwz PC, FRAME_PC(BASE)
-    |   add RA, BASE, RA
-    |    mr MULTRES, RD
-    |  andix. TMP0, PC, FRAME_TYPE
-    |   xori TMP1, PC, FRAME_VARG
-    |  bney ->BC_RETV_Z
-    |
-    |  lwz INS, -4(PC)
-    |   subi TMP2, BASE, 8
-    |  decode_RB8 RB, INS
-    if (op == BC_RET1) {
-      |  lfd f0, 0(RA)
-      |  stfd f0, 0(TMP2)
-    }
-    |5:
-    |  cmplw RB, RD
-    |   decode_RA8 RA, INS
-    |  bgt >6
-    |   sub BASE, TMP2, RA
-    |  lwz LFUNC:TMP1, FRAME_FUNC(BASE)
-    |  ins_next1
-    |  lwz TMP1, LFUNC:TMP1->pc
-    |  lwz KBASE, PC2PROTO(k)(TMP1)
-    |  ins_next2
-    |
-    |6:  // Fill up results with nil.
-    |  subi TMP1, RD, 8
-    |   addi RD, RD, 8
-    |  stwx TISNIL, TMP2, TMP1
-    |  b <5
-    break;
-
-  /* -- Loops and branches ------------------------------------------------ */
-
-  case BC_FORL:
-    |.if JIT
-    |  hotloop
-    |.endif
-    |  // Fall through. Assumes BC_IFORL follows.
-    break;
-
-  case BC_JFORI:
-  case BC_JFORL:
-#if !LJ_HASJIT
-    break;
-#endif
-  case BC_FORI:
-  case BC_IFORL:
-    |  // RA = base*8, RD = target (after end of loop or start of loop)
-    vk = (op == BC_IFORL || op == BC_JFORL);
-    |.if DUALNUM
-    |  // Integer loop.
-    |  lwzux TMP1, RA, BASE
-    |   lwz CARG1, FORL_IDX*8+4(RA)
-    |  cmplw cr0, TMP1, TISNUM
-    if (vk) {
-      |   lwz CARG3, FORL_STEP*8+4(RA)
-      |  bne >9
-      |.if GPR64
-      |  // Need to check overflow for (a<<32) + (b<<32).
-      |  rldicr TMP0, CARG1, 32, 31
-      |  rldicr TMP2, CARG3, 32, 31
-      |  add CARG1, CARG1, CARG3
-      |  addo. TMP0, TMP0, TMP2
-      |.else
-      |  addo. CARG1, CARG1, CARG3
-      |.endif
-      |    cmpwi cr6, CARG3, 0
-      |   lwz CARG2, FORL_STOP*8+4(RA)
-      |  bso >6
-      |4:
-      |  stw CARG1, FORL_IDX*8+4(RA)
-    } else {
-      |  lwz TMP3, FORL_STEP*8(RA)
-      |   lwz CARG3, FORL_STEP*8+4(RA)
-      |  lwz TMP2, FORL_STOP*8(RA)
-      |   lwz CARG2, FORL_STOP*8+4(RA)
-      |  cmplw cr7, TMP3, TISNUM
-      |  cmplw cr1, TMP2, TISNUM
-      |  crand 4*cr0+eq, 4*cr0+eq, 4*cr7+eq
-      |  crand 4*cr0+eq, 4*cr0+eq, 4*cr1+eq
-      |    cmpwi cr6, CARG3, 0
-      |  bne >9
-    }
-    |    blt cr6, >5
-    |  cmpw CARG1, CARG2
-    |1:
-    |   stw TISNUM, FORL_EXT*8(RA)
-    if (op != BC_JFORL) {
-      |  srwi RD, RD, 1
-    }
-    |   stw CARG1, FORL_EXT*8+4(RA)
-    if (op != BC_JFORL) {
-      |  add RD, PC, RD
-    }
-    if (op == BC_FORI) {
-      |  bgt >3  // See FP loop below.
-    } else if (op == BC_JFORI) {
-      |  addis PC, RD, -(BCBIAS_J*4 >> 16)
-      |  bley >7
-    } else if (op == BC_IFORL) {
-      |  bgt >2
-      |  addis PC, RD, -(BCBIAS_J*4 >> 16)
-    } else {
-      |  bley =>BC_JLOOP
-    }
-    |2:
-    |  ins_next
-    |5:  // Invert check for negative step.
-    |  cmpw CARG2, CARG1
-    |  b <1
-    if (vk) {
-      |6:  // Potential overflow.
-      |  checkov TMP0, <4		// Ignore unrelated overflow.
-      |  b <2
-    }
-    |.endif
-    if (vk) {
-      |.if DUALNUM
-      |9:  // FP loop.
-      |  lfd f1, FORL_IDX*8(RA)
-      |.else
-      |  lfdux f1, RA, BASE
-      |.endif
-      |  lfd f3, FORL_STEP*8(RA)
-      |  lfd f2, FORL_STOP*8(RA)
-      |   lwz TMP3, FORL_STEP*8(RA)
-      |  fadd f1, f1, f3
-      |  stfd f1, FORL_IDX*8(RA)
-    } else {
-      |.if DUALNUM
-      |9:  // FP loop.
-      |.else
-      |  lwzux TMP1, RA, BASE
-      |  lwz TMP3, FORL_STEP*8(RA)
-      |  lwz TMP2, FORL_STOP*8(RA)
-      |  cmplw cr0, TMP1, TISNUM
-      |  cmplw cr7, TMP3, TISNUM
-      |  cmplw cr1, TMP2, TISNUM
-      |.endif
-      |   lfd f1, FORL_IDX*8(RA)
-      |  crand 4*cr0+lt, 4*cr0+lt, 4*cr7+lt
-      |  crand 4*cr0+lt, 4*cr0+lt, 4*cr1+lt
-      |   lfd f2, FORL_STOP*8(RA)
-      |  bge ->vmeta_for
-    }
-    |  cmpwi cr6, TMP3, 0
-    if (op != BC_JFORL) {
-      |  srwi RD, RD, 1
-    }
-    |   stfd f1, FORL_EXT*8(RA)
-    if (op != BC_JFORL) {
-      |  add RD, PC, RD
-    }
-    |  fcmpu cr0, f1, f2
-    if (op == BC_JFORI) {
-      |  addis PC, RD, -(BCBIAS_J*4 >> 16)
-    }
-    |  blt cr6, >5
-    if (op == BC_FORI) {
-      |  bgt >3
-    } else if (op == BC_IFORL) {
-      |.if DUALNUM
-      |  bgty <2
-      |.else
-      |  bgt >2
-      |.endif
-      |1:
-      |  addis PC, RD, -(BCBIAS_J*4 >> 16)
-    } else if (op == BC_JFORI) {
-      |  bley >7
-    } else {
-      |  bley =>BC_JLOOP
-    }
-    |.if DUALNUM
-    |  b <2
-    |.else
-    |2:
-    |  ins_next
-    |.endif
-    |5:  // Negative step.
-    if (op == BC_FORI) {
-      |  bge <2
-      |3:  // Used by integer loop, too.
-      |  addis PC, RD, -(BCBIAS_J*4 >> 16)
-    } else if (op == BC_IFORL) {
-      |  bgey <1
-    } else if (op == BC_JFORI) {
-      |  bgey >7
-    } else {
-      |  bgey =>BC_JLOOP
-    }
-    |  b <2
-    if (op == BC_JFORI) {
-      |7:
-      |  lwz INS, -4(PC)
-      |  decode_RD8 RD, INS
-      |  b =>BC_JLOOP
-    }
-    break;
-
-  case BC_ITERL:
-    |.if JIT
-    |  hotloop
-    |.endif
-    |  // Fall through. Assumes BC_IITERL follows.
-    break;
-
-  case BC_JITERL:
-#if !LJ_HASJIT
-    break;
-#endif
-  case BC_IITERL:
-    |  // RA = base*8, RD = target
-    |  lwzux TMP1, RA, BASE
-    |   lwz TMP2, 4(RA)
-    |  checknil TMP1; beq >1		// Stop if iterator returned nil.
-    if (op == BC_JITERL) {
-      |  stw TMP1, -8(RA)
-      |   stw TMP2, -4(RA)
-      |  b =>BC_JLOOP
-    } else {
-      |  branch_RD			// Otherwise save control var + branch.
-      |  stw TMP1, -8(RA)
-      |   stw TMP2, -4(RA)
-    }
-    |1:
-    |  ins_next
-    break;
-
-  case BC_LOOP:
-    |  // RA = base*8, RD = target (loop extent)
-    |  // Note: RA/RD is only used by trace recorder to determine scope/extent
-    |  // This opcode does NOT jump, it's only purpose is to detect a hot loop.
-    |.if JIT
-    |  hotloop
-    |.endif
-    |  // Fall through. Assumes BC_ILOOP follows.
-    break;
-
-  case BC_ILOOP:
-    |  // RA = base*8, RD = target (loop extent)
-    |  ins_next
-    break;
-
-  case BC_JLOOP:
-    |.if JIT
-    |  // RA = base*8 (ignored), RD = traceno*8
-    |  lwz TMP1, DISPATCH_J(trace)(DISPATCH)
-    |  srwi RD, RD, 1
-    |  // Traces on PPC don't store the trace number, so use 0.
-    |   stw ZERO, DISPATCH_GL(vmstate)(DISPATCH)
-    |  lwzx TRACE:TMP2, TMP1, RD
-    |  clrso TMP1
-    |  lp TMP2, TRACE:TMP2->mcode
-    |   stw BASE, DISPATCH_GL(jit_base)(DISPATCH)
-    |  mtctr TMP2
-    |   stw L, DISPATCH_GL(jit_L)(DISPATCH)
-    |   addi JGL, DISPATCH, GG_DISP2G+32768
-    |  bctr
-    |.endif
-    break;
-
-  case BC_JMP:
-    |  // RA = base*8 (only used by trace recorder), RD = target
-    |  branch_RD
-    |  ins_next
-    break;
-
-  /* -- Function headers -------------------------------------------------- */
-
-  case BC_FUNCF:
-    |.if JIT
-    |  hotcall
-    |.endif
-  case BC_FUNCV:  /* NYI: compiled vararg functions. */
-    |  // Fall through. Assumes BC_IFUNCF/BC_IFUNCV follow.
-    break;
-
-  case BC_JFUNCF:
-#if !LJ_HASJIT
-    break;
-#endif
-  case BC_IFUNCF:
-    |  // BASE = new base, RA = BASE+framesize*8, RB = LFUNC, RC = nargs*8
-    |  lwz TMP2, L->maxstack
-    |   lbz TMP1, -4+PC2PROTO(numparams)(PC)
-    |    lwz KBASE, -4+PC2PROTO(k)(PC)
-    |  cmplw RA, TMP2
-    |   slwi TMP1, TMP1, 3
-    |  bgt ->vm_growstack_l
-    if (op != BC_JFUNCF) {
-      |  ins_next1
-    }
-    |2:
-    |  cmplw NARGS8:RC, TMP1		// Check for missing parameters.
-    |  blt >3
-    if (op == BC_JFUNCF) {
-      |  decode_RD8 RD, INS
-      |  b =>BC_JLOOP
-    } else {
-      |  ins_next2
-    }
-    |
-    |3:  // Clear missing parameters.
-    |  stwx TISNIL, BASE, NARGS8:RC
-    |  addi NARGS8:RC, NARGS8:RC, 8
-    |  b <2
-    break;
-
-  case BC_JFUNCV:
-#if !LJ_HASJIT
-    break;
-#endif
-    |  NYI  // NYI: compiled vararg functions
-    break;  /* NYI: compiled vararg functions. */
-
-  case BC_IFUNCV:
-    |  // BASE = new base, RA = BASE+framesize*8, RB = LFUNC, RC = nargs*8
-    |  lwz TMP2, L->maxstack
-    |   add TMP1, BASE, RC
-    |  add TMP0, RA, RC
-    |   stw LFUNC:RB, 4(TMP1)		// Store copy of LFUNC.
-    |   addi TMP3, RC, 8+FRAME_VARG
-    |    lwz KBASE, -4+PC2PROTO(k)(PC)
-    |  cmplw TMP0, TMP2
-    |   stw TMP3, 0(TMP1)		// Store delta + FRAME_VARG.
-    |  bge ->vm_growstack_l
-    |  lbz TMP2, -4+PC2PROTO(numparams)(PC)
-    |   mr RA, BASE
-    |   mr RC, TMP1
-    |  ins_next1
-    |  cmpwi TMP2, 0
-    |   addi BASE, TMP1, 8
-    |  beq >3
-    |1:
-    |  cmplw RA, RC			// Less args than parameters?
-    |   lwz TMP0, 0(RA)
-    |   lwz TMP3, 4(RA)
-    |  bge >4
-    |    stw TISNIL, 0(RA)		// Clear old fixarg slot (help the GC).
-    |    addi RA, RA, 8
-    |2:
-    |  addic. TMP2, TMP2, -1
-    |   stw TMP0, 8(TMP1)
-    |   stw TMP3, 12(TMP1)
-    |    addi TMP1, TMP1, 8
-    |  bne <1
-    |3:
-    |  ins_next2
-    |
-    |4:  // Clear missing parameters.
-    |  li TMP0, LJ_TNIL
-    |  b <2
-    break;
-
-  case BC_FUNCC:
-  case BC_FUNCCW:
-    |  // BASE = new base, RA = BASE+framesize*8, RB = CFUNC, RC = nargs*8
-    if (op == BC_FUNCC) {
-      |  lp RD, CFUNC:RB->f
-    } else {
-      |  lp RD, DISPATCH_GL(wrapf)(DISPATCH)
-    }
-    |   add TMP1, RA, NARGS8:RC
-    |   lwz TMP2, L->maxstack
-    |  .toc lp TMP3, 0(RD)
-    |    add RC, BASE, NARGS8:RC
-    |   stp BASE, L->base
-    |   cmplw TMP1, TMP2
-    |    stp RC, L->top
-    |     li_vmstate C
-    |.if TOC
-    |  mtctr TMP3
-    |.else
-    |  mtctr RD
-    |.endif
-    if (op == BC_FUNCCW) {
-      |  lp CARG2, CFUNC:RB->f
-    }
-    |  mr CARG1, L
-    |   bgt ->vm_growstack_c		// Need to grow stack.
-    |  .toc lp TOCREG, TOC_OFS(RD)
-    |  .tocenv lp ENVREG, ENV_OFS(RD)
-    |     st_vmstate
-    |  bctrl				// (lua_State *L [, lua_CFunction f])
-    |  // Returns nresults.
-    |  lp BASE, L->base
-    |  .toc ld TOCREG, SAVE_TOC
-    |   slwi RD, CRET1, 3
-    |  lp TMP1, L->top
-    |    li_vmstate INTERP
-    |  lwz PC, FRAME_PC(BASE)		// Fetch PC of caller.
-    |   sub RA, TMP1, RD		// RA = L->top - nresults*8
-    |    st_vmstate
-    |  b ->vm_returnc
-    break;
-
-  /* ---------------------------------------------------------------------- */
-
-  default:
-    fprintf(stderr, "Error: undefined opcode BC_%s\n", bc_names[op]);
-    exit(2);
-    break;
-  }
-}
-
-static int build_backend(BuildCtx *ctx)
-{
-  int op;
-
-  dasm_growpc(Dst, BC__MAX);
-
-  build_subroutines(ctx);
-
-  |.code_op
-  for (op = 0; op < BC__MAX; op++)
-    build_ins(ctx, (BCOp)op, op);
-
-  return BC__MAX;
-}
-
-/* Emit pseudo frame-info for all assembler functions. */
-static void emit_asm_debug(BuildCtx *ctx)
-{
-  int fcofs = (int)((uint8_t *)ctx->glob[GLOB_vm_ffi_call] - ctx->code);
-  int i;
-  switch (ctx->mode) {
-  case BUILD_elfasm:
-    fprintf(ctx->fp, "\t.section .debug_frame,\"\",@progbits\n");
-    fprintf(ctx->fp,
-	".Lframe0:\n"
-	"\t.long .LECIE0-.LSCIE0\n"
-	".LSCIE0:\n"
-	"\t.long 0xffffffff\n"
-	"\t.byte 0x1\n"
-	"\t.string \"\"\n"
-	"\t.uleb128 0x1\n"
-	"\t.sleb128 -4\n"
-	"\t.byte 65\n"
-	"\t.byte 0xc\n\t.uleb128 1\n\t.uleb128 0\n"
-	"\t.align 2\n"
-	".LECIE0:\n\n");
-    fprintf(ctx->fp,
-	".LSFDE0:\n"
-	"\t.long .LEFDE0-.LASFDE0\n"
-	".LASFDE0:\n"
-	"\t.long .Lframe0\n"
-	"\t.long .Lbegin\n"
-	"\t.long %d\n"
-	"\t.byte 0xe\n\t.uleb128 %d\n"
-	"\t.byte 0x11\n\t.uleb128 65\n\t.sleb128 -1\n"
-	"\t.byte 0x5\n\t.uleb128 70\n\t.uleb128 55\n",
-	fcofs, CFRAME_SIZE);
-    for (i = 14; i <= 31; i++)
-      fprintf(ctx->fp,
-	"\t.byte %d\n\t.uleb128 %d\n"
-	"\t.byte %d\n\t.uleb128 %d\n",
-	0x80+i, 37+(31-i), 0x80+32+i, 2+2*(31-i));
-    fprintf(ctx->fp,
-	"\t.align 2\n"
-	".LEFDE0:\n\n");
-#if LJ_HASFFI
-    fprintf(ctx->fp,
-	".LSFDE1:\n"
-	"\t.long .LEFDE1-.LASFDE1\n"
-	".LASFDE1:\n"
-	"\t.long .Lframe0\n"
-#if LJ_TARGET_PS3
-	"\t.long .lj_vm_ffi_call\n"
-#else
-	"\t.long lj_vm_ffi_call\n"
-#endif
-	"\t.long %d\n"
-	"\t.byte 0x11\n\t.uleb128 65\n\t.sleb128 -1\n"
-	"\t.byte 0x8e\n\t.uleb128 2\n"
-	"\t.byte 0xd\n\t.uleb128 0xe\n"
-	"\t.align 2\n"
-	".LEFDE1:\n\n", (int)ctx->codesz - fcofs);
-#endif
-#if !LJ_NO_UNWIND
-    fprintf(ctx->fp, "\t.section .eh_frame,\"a\",@progbits\n");
-    fprintf(ctx->fp,
-	".Lframe1:\n"
-	"\t.long .LECIE1-.LSCIE1\n"
-	".LSCIE1:\n"
-	"\t.long 0\n"
-	"\t.byte 0x1\n"
-	"\t.string \"zPR\"\n"
-	"\t.uleb128 0x1\n"
-	"\t.sleb128 -4\n"
-	"\t.byte 65\n"
-	"\t.uleb128 6\n"			/* augmentation length */
-	"\t.byte 0x1b\n"			/* pcrel|sdata4 */
-	"\t.long lj_err_unwind_dwarf-.\n"
-	"\t.byte 0x1b\n"			/* pcrel|sdata4 */
-	"\t.byte 0xc\n\t.uleb128 1\n\t.uleb128 0\n"
-	"\t.align 2\n"
-	".LECIE1:\n\n");
-    fprintf(ctx->fp,
-	".LSFDE2:\n"
-	"\t.long .LEFDE2-.LASFDE2\n"
-	".LASFDE2:\n"
-	"\t.long .LASFDE2-.Lframe1\n"
-	"\t.long .Lbegin-.\n"
-	"\t.long %d\n"
-	"\t.uleb128 0\n"			/* augmentation length */
-	"\t.byte 0xe\n\t.uleb128 %d\n"
-	"\t.byte 0x11\n\t.uleb128 65\n\t.sleb128 -1\n"
-	"\t.byte 0x5\n\t.uleb128 70\n\t.uleb128 55\n",
-	fcofs, CFRAME_SIZE);
-    for (i = 14; i <= 31; i++)
-      fprintf(ctx->fp,
-	"\t.byte %d\n\t.uleb128 %d\n"
-	"\t.byte %d\n\t.uleb128 %d\n",
-	0x80+i, 37+(31-i), 0x80+32+i, 2+2*(31-i));
-    fprintf(ctx->fp,
-	"\t.align 2\n"
-	".LEFDE2:\n\n");
-#if LJ_HASFFI
-    fprintf(ctx->fp,
-	".Lframe2:\n"
-	"\t.long .LECIE2-.LSCIE2\n"
-	".LSCIE2:\n"
-	"\t.long 0\n"
-	"\t.byte 0x1\n"
-	"\t.string \"zR\"\n"
-	"\t.uleb128 0x1\n"
-	"\t.sleb128 -4\n"
-	"\t.byte 65\n"
-	"\t.uleb128 1\n"			/* augmentation length */
-	"\t.byte 0x1b\n"			/* pcrel|sdata4 */
-	"\t.byte 0xc\n\t.uleb128 1\n\t.uleb128 0\n"
-	"\t.align 2\n"
-	".LECIE2:\n\n");
-    fprintf(ctx->fp,
-	".LSFDE3:\n"
-	"\t.long .LEFDE3-.LASFDE3\n"
-	".LASFDE3:\n"
-	"\t.long .LASFDE3-.Lframe2\n"
-	"\t.long lj_vm_ffi_call-.\n"
-	"\t.long %d\n"
-	"\t.uleb128 0\n"			/* augmentation length */
-	"\t.byte 0x11\n\t.uleb128 65\n\t.sleb128 -1\n"
-	"\t.byte 0x8e\n\t.uleb128 2\n"
-	"\t.byte 0xd\n\t.uleb128 0xe\n"
-	"\t.align 2\n"
-	".LEFDE3:\n\n", (int)ctx->codesz - fcofs);
-#endif
-#endif
-    break;
-  default:
-    break;
-  }
-}
-
diff --git a/luajit-2.0/src/vm_ppcspe.dasc b/luajit-2.0/src/vm_ppcspe.dasc
deleted file mode 100644
index adcec24..0000000
--- a/luajit-2.0/src/vm_ppcspe.dasc
+++ /dev/null
@@ -1,3691 +0,0 @@
-|// Low-level VM code for PowerPC/e500 CPUs.
-|// Bytecode interpreter, fast functions and helper functions.
-|// Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-|
-|.arch ppc
-|.section code_op, code_sub
-|
-|.actionlist build_actionlist
-|.globals GLOB_
-|.globalnames globnames
-|.externnames extnames
-|
-|// Note: The ragged indentation of the instructions is intentional.
-|//       The starting columns indicate data dependencies.
-|
-|//-----------------------------------------------------------------------
-|
-|// Fixed register assignments for the interpreter.
-|// Don't use: r1 = sp, r2 and r13 = reserved and/or small data area ptr
-|
-|// The following must be C callee-save (but BASE is often refetched).
-|.define BASE,		r14	// Base of current Lua stack frame.
-|.define KBASE,		r15	// Constants of current Lua function.
-|.define PC,		r16	// Next PC.
-|.define DISPATCH,	r17	// Opcode dispatch table.
-|.define LREG,		r18	// Register holding lua_State (also in SAVE_L).
-|.define MULTRES,	r19	// Size of multi-result: (nresults+1)*8.
-|
-|// Constants for vectorized type-comparisons (hi+low GPR). C callee-save.
-|.define TISNUM,	r22
-|.define TISSTR,	r23
-|.define TISTAB,	r24
-|.define TISFUNC,	r25
-|.define TISNIL,	r26
-|.define TOBIT,		r27
-|.define ZERO,		TOBIT	// Zero in lo word.
-|
-|// The following temporaries are not saved across C calls, except for RA.
-|.define RA,		r20	// Callee-save.
-|.define RB,		r10
-|.define RC,		r11
-|.define RD,		r12
-|.define INS,		r7	// Overlaps CARG5.
-|
-|.define TMP0,		r0
-|.define TMP1,		r8
-|.define TMP2,		r9
-|.define TMP3,		r6	// Overlaps CARG4.
-|
-|// Saved temporaries.
-|.define SAVE0,		r21
-|
-|// Calling conventions.
-|.define CARG1,		r3
-|.define CARG2,		r4
-|.define CARG3,		r5
-|.define CARG4,		r6	// Overlaps TMP3.
-|.define CARG5,		r7	// Overlaps INS.
-|
-|.define CRET1,		r3
-|.define CRET2,		r4
-|
-|// Stack layout while in interpreter. Must match with lj_frame.h.
-|.define SAVE_LR,	188(sp)
-|.define CFRAME_SPACE,	184	// Delta for sp.
-|// Back chain for sp:	184(sp)	<-- sp entering interpreter
-|.define SAVE_r31,	176(sp)	// 64 bit register saves.
-|.define SAVE_r30,	168(sp)
-|.define SAVE_r29,	160(sp)
-|.define SAVE_r28,	152(sp)
-|.define SAVE_r27,	144(sp)
-|.define SAVE_r26,	136(sp)
-|.define SAVE_r25,	128(sp)
-|.define SAVE_r24,	120(sp)
-|.define SAVE_r23,	112(sp)
-|.define SAVE_r22,	104(sp)
-|.define SAVE_r21,	96(sp)
-|.define SAVE_r20,	88(sp)
-|.define SAVE_r19,	80(sp)
-|.define SAVE_r18,	72(sp)
-|.define SAVE_r17,	64(sp)
-|.define SAVE_r16,	56(sp)
-|.define SAVE_r15,	48(sp)
-|.define SAVE_r14,	40(sp)
-|.define SAVE_CR,	36(sp)
-|.define UNUSED1,	32(sp)
-|.define SAVE_ERRF,	28(sp)	// 32 bit C frame info.
-|.define SAVE_NRES,	24(sp)
-|.define SAVE_CFRAME,	20(sp)
-|.define SAVE_L,	16(sp)
-|.define SAVE_PC,	12(sp)
-|.define SAVE_MULTRES,	8(sp)
-|// Next frame lr:	4(sp)
-|// Back chain for sp:	0(sp)	<-- sp while in interpreter
-|
-|.macro save_, reg; evstdd reg, SAVE_..reg; .endmacro
-|.macro rest_, reg; evldd reg, SAVE_..reg; .endmacro
-|
-|.macro saveregs
-|  stwu sp, -CFRAME_SPACE(sp)
-|  save_ r14; save_ r15; save_ r16; save_ r17; save_ r18; save_ r19
-|  mflr r0; mfcr r12
-|  save_ r20; save_ r21; save_ r22; save_ r23; save_ r24; save_ r25
-|  stw  r0, SAVE_LR; stw r12, SAVE_CR
-|  save_ r26; save_ r27; save_ r28; save_ r29; save_ r30; save_ r31
-|.endmacro
-|
-|.macro restoreregs
-|  lwz r0, SAVE_LR; lwz r12, SAVE_CR
-|  rest_ r14; rest_ r15; rest_ r16; rest_ r17; rest_ r18; rest_ r19
-|  mtlr r0; mtcrf 0x38, r12
-|  rest_ r20; rest_ r21; rest_ r22; rest_ r23; rest_ r24; rest_ r25
-|  rest_ r26; rest_ r27; rest_ r28; rest_ r29; rest_ r30; rest_ r31
-|  addi sp, sp, CFRAME_SPACE
-|.endmacro
-|
-|// Type definitions. Some of these are only used for documentation.
-|.type L,		lua_State,	LREG
-|.type GL,		global_State
-|.type TVALUE,		TValue
-|.type GCOBJ,		GCobj
-|.type STR,		GCstr
-|.type TAB,		GCtab
-|.type LFUNC,		GCfuncL
-|.type CFUNC,		GCfuncC
-|.type PROTO,		GCproto
-|.type UPVAL,		GCupval
-|.type NODE,		Node
-|.type NARGS8,		int
-|.type TRACE,		GCtrace
-|
-|//-----------------------------------------------------------------------
-|
-|// These basic macros should really be part of DynASM.
-|.macro srwi, rx, ry, n; rlwinm rx, ry, 32-n, n, 31; .endmacro
-|.macro slwi, rx, ry, n; rlwinm rx, ry, n, 0, 31-n; .endmacro
-|.macro rotlwi, rx, ry, n; rlwinm rx, ry, n, 0, 31; .endmacro
-|.macro rotlw, rx, ry, rn; rlwnm rx, ry, rn, 0, 31; .endmacro
-|.macro subi, rx, ry, i; addi rx, ry, -i; .endmacro
-|
-|// Trap for not-yet-implemented parts.
-|.macro NYI; tw 4, sp, sp; .endmacro
-|
-|//-----------------------------------------------------------------------
-|
-|// Access to frame relative to BASE.
-|.define FRAME_PC,	-8
-|.define FRAME_FUNC,	-4
-|
-|// Instruction decode.
-|.macro decode_OP4, dst, ins; rlwinm dst, ins, 2, 22, 29; .endmacro
-|.macro decode_RA8, dst, ins; rlwinm dst, ins, 27, 21, 28; .endmacro
-|.macro decode_RB8, dst, ins; rlwinm dst, ins, 11, 21, 28; .endmacro
-|.macro decode_RC8, dst, ins; rlwinm dst, ins, 19, 21, 28; .endmacro
-|.macro decode_RD8, dst, ins; rlwinm dst, ins, 19, 13, 28; .endmacro
-|
-|.macro decode_OP1, dst, ins; rlwinm dst, ins, 0, 24, 31; .endmacro
-|.macro decode_RD4, dst, ins; rlwinm dst, ins, 18, 14, 29; .endmacro
-|
-|// Instruction fetch.
-|.macro ins_NEXT1
-|  lwz INS, 0(PC)
-|   addi PC, PC, 4
-|.endmacro
-|// Instruction decode+dispatch.
-|.macro ins_NEXT2
-|  decode_OP4 TMP1, INS
-|   decode_RB8 RB, INS
-|   decode_RD8 RD, INS
-|  lwzx TMP0, DISPATCH, TMP1
-|   decode_RA8 RA, INS
-|   decode_RC8 RC, INS
-|  mtctr TMP0
-|  bctr
-|.endmacro
-|.macro ins_NEXT
-|  ins_NEXT1
-|  ins_NEXT2
-|.endmacro
-|
-|// Instruction footer.
-|.if 1
-|  // Replicated dispatch. Less unpredictable branches, but higher I-Cache use.
-|  .define ins_next, ins_NEXT
-|  .define ins_next_, ins_NEXT
-|  .define ins_next1, ins_NEXT1
-|  .define ins_next2, ins_NEXT2
-|.else
-|  // Common dispatch. Lower I-Cache use, only one (very) unpredictable branch.
-|  // Affects only certain kinds of benchmarks (and only with -j off).
-|  .macro ins_next
-|    b ->ins_next
-|  .endmacro
-|  .macro ins_next1
-|  .endmacro
-|  .macro ins_next2
-|    b ->ins_next
-|  .endmacro
-|  .macro ins_next_
-|  ->ins_next:
-|    ins_NEXT
-|  .endmacro
-|.endif
-|
-|// Call decode and dispatch.
-|.macro ins_callt
-|  // BASE = new base, RB = LFUNC/CFUNC, RC = nargs*8, FRAME_PC(BASE) = PC
-|  lwz PC, LFUNC:RB->pc
-|  lwz INS, 0(PC)
-|   addi PC, PC, 4
-|  decode_OP4 TMP1, INS
-|   decode_RA8 RA, INS
-|  lwzx TMP0, DISPATCH, TMP1
-|   add RA, RA, BASE
-|  mtctr TMP0
-|  bctr
-|.endmacro
-|
-|.macro ins_call
-|  // BASE = new base, RB = LFUNC/CFUNC, RC = nargs*8, PC = caller PC
-|  stw PC, FRAME_PC(BASE)
-|  ins_callt
-|.endmacro
-|
-|//-----------------------------------------------------------------------
-|
-|// Macros to test operand types.
-|.macro checknum, reg; evcmpltu reg, TISNUM; .endmacro
-|.macro checkstr, reg; evcmpeq reg, TISSTR; .endmacro
-|.macro checktab, reg; evcmpeq reg, TISTAB; .endmacro
-|.macro checkfunc, reg; evcmpeq reg, TISFUNC; .endmacro
-|.macro checknil, reg; evcmpeq reg, TISNIL; .endmacro
-|.macro checkok, label; blt label; .endmacro
-|.macro checkfail, label; bge label; .endmacro
-|.macro checkanyfail, label; bns label; .endmacro
-|.macro checkallok, label; bso label; .endmacro
-|
-|.macro branch_RD
-|  srwi TMP0, RD, 1
-|  add PC, PC, TMP0
-|  addis PC, PC, -(BCBIAS_J*4 >> 16)
-|.endmacro
-|
-|// Assumes DISPATCH is relative to GL.
-#define DISPATCH_GL(field)	(GG_DISP2G + (int)offsetof(global_State, field))
-#define DISPATCH_J(field)	(GG_DISP2J + (int)offsetof(jit_State, field))
-|
-#define PC2PROTO(field)  ((int)offsetof(GCproto, field)-(int)sizeof(GCproto))
-|
-|.macro hotloop
-|  NYI
-|.endmacro
-|
-|.macro hotcall
-|  NYI
-|.endmacro
-|
-|// Set current VM state. Uses TMP0.
-|.macro li_vmstate, st; li TMP0, ~LJ_VMST_..st; .endmacro
-|.macro st_vmstate; stw TMP0, DISPATCH_GL(vmstate)(DISPATCH); .endmacro
-|
-|// Move table write barrier back. Overwrites mark and tmp.
-|.macro barrierback, tab, mark, tmp
-|  lwz tmp, DISPATCH_GL(gc.grayagain)(DISPATCH)
-|  // Assumes LJ_GC_BLACK is 0x04.
-|   rlwinm mark, mark, 0, 30, 28		// black2gray(tab)
-|  stw tab, DISPATCH_GL(gc.grayagain)(DISPATCH)
-|   stb mark, tab->marked
-|  stw tmp, tab->gclist
-|.endmacro
-|
-|//-----------------------------------------------------------------------
-
-/* Generate subroutines used by opcodes and other parts of the VM. */
-/* The .code_sub section should be last to help static branch prediction. */
-static void build_subroutines(BuildCtx *ctx)
-{
-  |.code_sub
-  |
-  |//-----------------------------------------------------------------------
-  |//-- Return handling ----------------------------------------------------
-  |//-----------------------------------------------------------------------
-  |
-  |->vm_returnp:
-  |  // See vm_return. Also: TMP2 = previous base.
-  |  andi. TMP0, PC, FRAME_P
-  |   evsplati TMP1, LJ_TTRUE
-  |  beq ->cont_dispatch
-  |
-  |  // Return from pcall or xpcall fast func.
-  |  lwz PC, FRAME_PC(TMP2)		// Fetch PC of previous frame.
-  |  mr BASE, TMP2			// Restore caller base.
-  |  // Prepending may overwrite the pcall frame, so do it at the end.
-  |   stwu TMP1, FRAME_PC(RA)		// Prepend true to results.
-  |
-  |->vm_returnc:
-  |  addi RD, RD, 8			// RD = (nresults+1)*8.
-  |   andi. TMP0, PC, FRAME_TYPE
-  |  cmpwi cr1, RD, 0
-  |  li CRET1, LUA_YIELD
-  |  beq cr1, ->vm_unwind_c_eh
-  |  mr MULTRES, RD
-  |   beq ->BC_RET_Z			// Handle regular return to Lua.
-  |
-  |->vm_return:
-  |  // BASE = base, RA = resultptr, RD/MULTRES = (nresults+1)*8, PC = return
-  |  // TMP0 = PC & FRAME_TYPE
-  |  cmpwi TMP0, FRAME_C
-  |   rlwinm TMP2, PC, 0, 0, 28
-  |    li_vmstate C
-  |   sub TMP2, BASE, TMP2		// TMP2 = previous base.
-  |  bne ->vm_returnp
-  |
-  |  addic. TMP1, RD, -8
-  |   stw TMP2, L->base
-  |   lwz TMP2, SAVE_NRES
-  |    subi BASE, BASE, 8
-  |    st_vmstate
-  |   slwi TMP2, TMP2, 3
-  |  beq >2
-  |1:
-  |  addic. TMP1, TMP1, -8
-  |   evldd TMP0, 0(RA)
-  |    addi RA, RA, 8
-  |   evstdd TMP0, 0(BASE)
-  |    addi BASE, BASE, 8
-  |  bne <1
-  |
-  |2:
-  |  cmpw TMP2, RD			// More/less results wanted?
-  |  bne >6
-  |3:
-  |  stw BASE, L->top			// Store new top.
-  |
-  |->vm_leave_cp:
-  |  lwz TMP0, SAVE_CFRAME		// Restore previous C frame.
-  |   li CRET1, 0			// Ok return status for vm_pcall.
-  |  stw TMP0, L->cframe
-  |
-  |->vm_leave_unw:
-  |  restoreregs
-  |  blr
-  |
-  |6:
-  |  ble >7				// Less results wanted?
-  |  // More results wanted. Check stack size and fill up results with nil.
-  |  lwz TMP1, L->maxstack
-  |  cmplw BASE, TMP1
-  |  bge >8
-  |  evstdd TISNIL, 0(BASE)
-  |  addi RD, RD, 8
-  |  addi BASE, BASE, 8
-  |  b <2
-  |
-  |7:  // Less results wanted.
-  |   sub TMP0, RD, TMP2
-  |  cmpwi TMP2, 0			// LUA_MULTRET+1 case?
-  |   sub TMP0, BASE, TMP0		// Subtract the difference.
-  |  iseleq BASE, BASE, TMP0		// Either keep top or shrink it.
-  |  b <3
-  |
-  |8:  // Corner case: need to grow stack for filling up results.
-  |  // This can happen if:
-  |  // - A C function grows the stack (a lot).
-  |  // - The GC shrinks the stack in between.
-  |  // - A return back from a lua_call() with (high) nresults adjustment.
-  |  stw BASE, L->top			// Save current top held in BASE (yes).
-  |   mr SAVE0, RD
-  |  mr CARG2, TMP2
-  |  mr CARG1, L
-  |  bl extern lj_state_growstack	// (lua_State *L, int n)
-  |    lwz TMP2, SAVE_NRES
-  |   mr RD, SAVE0
-  |    slwi TMP2, TMP2, 3
-  |  lwz BASE, L->top			// Need the (realloced) L->top in BASE.
-  |  b <2
-  |
-  |->vm_unwind_c:			// Unwind C stack, return from vm_pcall.
-  |  // (void *cframe, int errcode)
-  |  mr sp, CARG1
-  |  mr CRET1, CARG2
-  |->vm_unwind_c_eh:			// Landing pad for external unwinder.
-  |  lwz L, SAVE_L
-  |   li TMP0, ~LJ_VMST_C
-  |  lwz GL:TMP1, L->glref
-  |   stw TMP0, GL:TMP1->vmstate
-  |  b ->vm_leave_unw
-  |
-  |->vm_unwind_ff:			// Unwind C stack, return from ff pcall.
-  |  // (void *cframe)
-  |  rlwinm sp, CARG1, 0, 0, 29
-  |->vm_unwind_ff_eh:			// Landing pad for external unwinder.
-  |  lwz L, SAVE_L
-  |     evsplati TISNUM, LJ_TISNUM+1	// Setup type comparison constants.
-  |     evsplati TISFUNC, LJ_TFUNC
-  |     lus TOBIT, 0x4338
-  |     evsplati TISTAB, LJ_TTAB
-  |     li TMP0, 0
-  |  lwz BASE, L->base
-  |     evmergelo TOBIT, TOBIT, TMP0
-  |   lwz DISPATCH, L->glref		// Setup pointer to dispatch table.
-  |     evsplati TISSTR, LJ_TSTR
-  |  li TMP1, LJ_TFALSE
-  |     evsplati TISNIL, LJ_TNIL
-  |    li_vmstate INTERP
-  |  lwz PC, FRAME_PC(BASE)		// Fetch PC of previous frame.
-  |  la RA, -8(BASE)			// Results start at BASE-8.
-  |   addi DISPATCH, DISPATCH, GG_G2DISP
-  |  stw TMP1, 0(RA)			// Prepend false to error message.
-  |  li RD, 16				// 2 results: false + error message.
-  |    st_vmstate
-  |  b ->vm_returnc
-  |
-  |//-----------------------------------------------------------------------
-  |//-- Grow stack for calls -----------------------------------------------
-  |//-----------------------------------------------------------------------
-  |
-  |->vm_growstack_c:			// Grow stack for C function.
-  |  li CARG2, LUA_MINSTACK
-  |  b >2
-  |
-  |->vm_growstack_l:			// Grow stack for Lua function.
-  |  // BASE = new base, RA = BASE+framesize*8, RC = nargs*8, PC = first PC
-  |  add RC, BASE, RC
-  |   sub RA, RA, BASE
-  |  stw BASE, L->base
-  |   addi PC, PC, 4			// Must point after first instruction.
-  |  stw RC, L->top
-  |   srwi CARG2, RA, 3
-  |2:
-  |  // L->base = new base, L->top = top
-  |   stw PC, SAVE_PC
-  |  mr CARG1, L
-  |  bl extern lj_state_growstack	// (lua_State *L, int n)
-  |  lwz BASE, L->base
-  |  lwz RC, L->top
-  |  lwz LFUNC:RB, FRAME_FUNC(BASE)
-  |  sub RC, RC, BASE
-  |  // BASE = new base, RB = LFUNC/CFUNC, RC = nargs*8, FRAME_PC(BASE) = PC
-  |  ins_callt				// Just retry the call.
-  |
-  |//-----------------------------------------------------------------------
-  |//-- Entry points into the assembler VM ---------------------------------
-  |//-----------------------------------------------------------------------
-  |
-  |->vm_resume:				// Setup C frame and resume thread.
-  |  // (lua_State *L, TValue *base, int nres1 = 0, ptrdiff_t ef = 0)
-  |  saveregs
-  |  mr L, CARG1
-  |    lwz DISPATCH, L->glref		// Setup pointer to dispatch table.
-  |  mr BASE, CARG2
-  |    lbz TMP1, L->status
-  |   stw L, SAVE_L
-  |  li PC, FRAME_CP
-  |  addi TMP0, sp, CFRAME_RESUME
-  |    addi DISPATCH, DISPATCH, GG_G2DISP
-  |   stw CARG3, SAVE_NRES
-  |    cmplwi TMP1, 0
-  |   stw CARG3, SAVE_ERRF
-  |  stw TMP0, L->cframe
-  |   stw CARG3, SAVE_CFRAME
-  |   stw CARG1, SAVE_PC		// Any value outside of bytecode is ok.
-  |    beq >3
-  |
-  |  // Resume after yield (like a return).
-  |  mr RA, BASE
-  |   lwz BASE, L->base
-  |    evsplati TISNUM, LJ_TISNUM+1	// Setup type comparison constants.
-  |   lwz TMP1, L->top
-  |    evsplati TISFUNC, LJ_TFUNC
-  |    lus TOBIT, 0x4338
-  |    evsplati TISTAB, LJ_TTAB
-  |  lwz PC, FRAME_PC(BASE)
-  |    li TMP2, 0
-  |    evsplati TISSTR, LJ_TSTR
-  |   sub RD, TMP1, BASE
-  |    evmergelo TOBIT, TOBIT, TMP2
-  |    stb CARG3, L->status
-  |  andi. TMP0, PC, FRAME_TYPE
-  |    li_vmstate INTERP
-  |   addi RD, RD, 8
-  |    evsplati TISNIL, LJ_TNIL
-  |   mr MULTRES, RD
-  |    st_vmstate
-  |  beq ->BC_RET_Z
-  |  b ->vm_return
-  |
-  |->vm_pcall:				// Setup protected C frame and enter VM.
-  |  // (lua_State *L, TValue *base, int nres1, ptrdiff_t ef)
-  |  saveregs
-  |  li PC, FRAME_CP
-  |  stw CARG4, SAVE_ERRF
-  |  b >1
-  |
-  |->vm_call:				// Setup C frame and enter VM.
-  |  // (lua_State *L, TValue *base, int nres1)
-  |  saveregs
-  |  li PC, FRAME_C
-  |
-  |1:  // Entry point for vm_pcall above (PC = ftype).
-  |  lwz TMP1, L:CARG1->cframe
-  |   stw CARG3, SAVE_NRES
-  |    mr L, CARG1
-  |   stw CARG1, SAVE_L
-  |    mr BASE, CARG2
-  |  stw sp, L->cframe			// Add our C frame to cframe chain.
-  |    lwz DISPATCH, L->glref		// Setup pointer to dispatch table.
-  |   stw CARG1, SAVE_PC		// Any value outside of bytecode is ok.
-  |  stw TMP1, SAVE_CFRAME
-  |    addi DISPATCH, DISPATCH, GG_G2DISP
-  |
-  |3:  // Entry point for vm_cpcall/vm_resume (BASE = base, PC = ftype).
-  |  lwz TMP2, L->base			// TMP2 = old base (used in vmeta_call).
-  |    evsplati TISNUM, LJ_TISNUM+1	// Setup type comparison constants.
-  |   lwz TMP1, L->top
-  |    evsplati TISFUNC, LJ_TFUNC
-  |  add PC, PC, BASE
-  |    evsplati TISTAB, LJ_TTAB
-  |    lus TOBIT, 0x4338
-  |    li TMP0, 0
-  |  sub PC, PC, TMP2			// PC = frame delta + frame type
-  |    evsplati TISSTR, LJ_TSTR
-  |   sub NARGS8:RC, TMP1, BASE
-  |    evmergelo TOBIT, TOBIT, TMP0
-  |    li_vmstate INTERP
-  |    evsplati TISNIL, LJ_TNIL
-  |    st_vmstate
-  |
-  |->vm_call_dispatch:
-  |  // TMP2 = old base, BASE = new base, RC = nargs*8, PC = caller PC
-  |  li TMP0, -8
-  |  evlddx LFUNC:RB, BASE, TMP0
-  |  checkfunc LFUNC:RB
-  |  checkfail ->vmeta_call
-  |
-  |->vm_call_dispatch_f:
-  |  ins_call
-  |  // BASE = new base, RB = func, RC = nargs*8, PC = caller PC
-  |
-  |->vm_cpcall:				// Setup protected C frame, call C.
-  |  // (lua_State *L, lua_CFunction func, void *ud, lua_CPFunction cp)
-  |  saveregs
-  |  mr L, CARG1
-  |   lwz TMP0, L:CARG1->stack
-  |  stw CARG1, SAVE_L
-  |   lwz TMP1, L->top
-  |  stw CARG1, SAVE_PC			// Any value outside of bytecode is ok.
-  |   sub TMP0, TMP0, TMP1		// Compute -savestack(L, L->top).
-  |    lwz TMP1, L->cframe
-  |    stw sp, L->cframe		// Add our C frame to cframe chain.
-  |  li TMP2, 0
-  |   stw TMP0, SAVE_NRES		// Neg. delta means cframe w/o frame.
-  |  stw TMP2, SAVE_ERRF		// No error function.
-  |    stw TMP1, SAVE_CFRAME
-  |  mtctr CARG4
-  |  bctrl			// (lua_State *L, lua_CFunction func, void *ud)
-  |  mr. BASE, CRET1
-  |   lwz DISPATCH, L->glref		// Setup pointer to dispatch table.
-  |    li PC, FRAME_CP
-  |   addi DISPATCH, DISPATCH, GG_G2DISP
-  |  bne <3				// Else continue with the call.
-  |  b ->vm_leave_cp			// No base? Just remove C frame.
-  |
-  |//-----------------------------------------------------------------------
-  |//-- Metamethod handling ------------------------------------------------
-  |//-----------------------------------------------------------------------
-  |
-  |// The lj_meta_* functions (except for lj_meta_cat) don't reallocate the
-  |// stack, so BASE doesn't need to be reloaded across these calls.
-  |
-  |//-- Continuation dispatch ----------------------------------------------
-  |
-  |->cont_dispatch:
-  |  // BASE = meta base, RA = resultptr, RD = (nresults+1)*8
-  |  lwz TMP0, -12(BASE)		// Continuation.
-  |   mr RB, BASE
-  |   mr BASE, TMP2			// Restore caller BASE.
-  |    lwz LFUNC:TMP1, FRAME_FUNC(TMP2)
-  |  cmplwi TMP0, 0
-  |     lwz PC, -16(RB)			// Restore PC from [cont|PC].
-  |  beq >1
-  |   subi TMP2, RD, 8
-  |    lwz TMP1, LFUNC:TMP1->pc
-  |   evstddx TISNIL, RA, TMP2		// Ensure one valid arg.
-  |    lwz KBASE, PC2PROTO(k)(TMP1)
-  |  // BASE = base, RA = resultptr, RB = meta base
-  |  mtctr TMP0
-  |  bctr				// Jump to continuation.
-  |
-  |1:  // Tail call from C function.
-  |  subi TMP1, RB, 16
-  |  sub RC, TMP1, BASE
-  |  b ->vm_call_tail
-  |
-  |->cont_cat:				// RA = resultptr, RB = meta base
-  |  lwz INS, -4(PC)
-  |   subi CARG2, RB, 16
-  |  decode_RB8 SAVE0, INS
-  |   evldd TMP0, 0(RA)
-  |  add TMP1, BASE, SAVE0
-  |   stw BASE, L->base
-  |  cmplw TMP1, CARG2
-  |   sub CARG3, CARG2, TMP1
-  |  decode_RA8 RA, INS
-  |   evstdd TMP0, 0(CARG2)
-  |  bne ->BC_CAT_Z
-  |   evstddx TMP0, BASE, RA
-  |  b ->cont_nop
-  |
-  |//-- Table indexing metamethods -----------------------------------------
-  |
-  |->vmeta_tgets1:
-  |  evmergelo STR:RC, TISSTR, STR:RC
-  |  la CARG3, DISPATCH_GL(tmptv)(DISPATCH)
-  |   decode_RB8 RB, INS
-  |  evstdd STR:RC, 0(CARG3)
-  |   add CARG2, BASE, RB
-  |  b >1
-  |
-  |->vmeta_tgets:
-  |  evmergelo TAB:RB, TISTAB, TAB:RB
-  |  la CARG2, DISPATCH_GL(tmptv)(DISPATCH)
-  |   evmergelo STR:RC, TISSTR, STR:RC
-  |  evstdd TAB:RB, 0(CARG2)
-  |   la CARG3, DISPATCH_GL(tmptv2)(DISPATCH)
-  |   evstdd STR:RC, 0(CARG3)
-  |  b >1
-  |
-  |->vmeta_tgetb:			// TMP0 = index
-  |  efdcfsi TMP0, TMP0
-  |   decode_RB8 RB, INS
-  |  la CARG3, DISPATCH_GL(tmptv)(DISPATCH)
-  |   add CARG2, BASE, RB
-  |  evstdd TMP0, 0(CARG3)
-  |  b >1
-  |
-  |->vmeta_tgetv:
-  |  decode_RB8 RB, INS
-  |   decode_RC8 RC, INS
-  |  add CARG2, BASE, RB
-  |   add CARG3, BASE, RC
-  |1:
-  |  stw BASE, L->base
-  |  mr CARG1, L
-  |  stw PC, SAVE_PC
-  |  bl extern lj_meta_tget		// (lua_State *L, TValue *o, TValue *k)
-  |  // Returns TValue * (finished) or NULL (metamethod).
-  |  cmplwi CRET1, 0
-  |  beq >3
-  |  evldd TMP0, 0(CRET1)
-  |  evstddx TMP0, BASE, RA
-  |  ins_next
-  |
-  |3:  // Call __index metamethod.
-  |  // BASE = base, L->top = new base, stack = cont/func/t/k
-  |  subfic TMP1, BASE, FRAME_CONT
-  |  lwz BASE, L->top
-  |  stw PC, -16(BASE)			// [cont|PC]
-  |   add PC, TMP1, BASE
-  |  lwz LFUNC:RB, FRAME_FUNC(BASE)	// Guaranteed to be a function here.
-  |   li NARGS8:RC, 16			// 2 args for func(t, k).
-  |  b ->vm_call_dispatch_f
-  |
-  |//-----------------------------------------------------------------------
-  |
-  |->vmeta_tsets1:
-  |  evmergelo STR:RC, TISSTR, STR:RC
-  |  la CARG3, DISPATCH_GL(tmptv)(DISPATCH)
-  |   decode_RB8 RB, INS
-  |  evstdd STR:RC, 0(CARG3)
-  |   add CARG2, BASE, RB
-  |  b >1
-  |
-  |->vmeta_tsets:
-  |  evmergelo TAB:RB, TISTAB, TAB:RB
-  |  la CARG2, DISPATCH_GL(tmptv)(DISPATCH)
-  |   evmergelo STR:RC, TISSTR, STR:RC
-  |  evstdd TAB:RB, 0(CARG2)
-  |   la CARG3, DISPATCH_GL(tmptv2)(DISPATCH)
-  |   evstdd STR:RC, 0(CARG3)
-  |  b >1
-  |
-  |->vmeta_tsetb:			// TMP0 = index
-  |  efdcfsi TMP0, TMP0
-  |   decode_RB8 RB, INS
-  |  la CARG3, DISPATCH_GL(tmptv)(DISPATCH)
-  |   add CARG2, BASE, RB
-  |  evstdd TMP0, 0(CARG3)
-  |  b >1
-  |
-  |->vmeta_tsetv:
-  |  decode_RB8 RB, INS
-  |   decode_RC8 RC, INS
-  |  add CARG2, BASE, RB
-  |   add CARG3, BASE, RC
-  |1:
-  |  stw BASE, L->base
-  |  mr CARG1, L
-  |  stw PC, SAVE_PC
-  |  bl extern lj_meta_tset		// (lua_State *L, TValue *o, TValue *k)
-  |  // Returns TValue * (finished) or NULL (metamethod).
-  |  cmplwi CRET1, 0
-  |   evlddx TMP0, BASE, RA
-  |  beq >3
-  |  // NOBARRIER: lj_meta_tset ensures the table is not black.
-  |   evstdd TMP0, 0(CRET1)
-  |  ins_next
-  |
-  |3:  // Call __newindex metamethod.
-  |  // BASE = base, L->top = new base, stack = cont/func/t/k/(v)
-  |  subfic TMP1, BASE, FRAME_CONT
-  |  lwz BASE, L->top
-  |  stw PC, -16(BASE)			// [cont|PC]
-  |   add PC, TMP1, BASE
-  |  lwz LFUNC:RB, FRAME_FUNC(BASE)	// Guaranteed to be a function here.
-  |   li NARGS8:RC, 24			// 3 args for func(t, k, v)
-  |  evstdd TMP0, 16(BASE)		// Copy value to third argument.
-  |  b ->vm_call_dispatch_f
-  |
-  |//-- Comparison metamethods ---------------------------------------------
-  |
-  |->vmeta_comp:
-  |  mr CARG1, L
-  |   subi PC, PC, 4
-  |  add CARG2, BASE, RA
-  |   stw PC, SAVE_PC
-  |  add CARG3, BASE, RD
-  |   stw BASE, L->base
-  |  decode_OP1 CARG4, INS
-  |  bl extern lj_meta_comp  // (lua_State *L, TValue *o1, *o2, int op)
-  |  // Returns 0/1 or TValue * (metamethod).
-  |3:
-  |  cmplwi CRET1, 1
-  |  bgt ->vmeta_binop
-  |4:
-  |  lwz INS, 0(PC)
-  |   addi PC, PC, 4
-  |  decode_RD4 TMP2, INS
-  |  addis TMP3, PC, -(BCBIAS_J*4 >> 16)
-  |  add TMP2, TMP2, TMP3
-  |  isellt PC, PC, TMP2
-  |->cont_nop:
-  |  ins_next
-  |
-  |->cont_ra:				// RA = resultptr
-  |  lwz INS, -4(PC)
-  |   evldd TMP0, 0(RA)
-  |  decode_RA8 TMP1, INS
-  |   evstddx TMP0, BASE, TMP1
-  |  b ->cont_nop
-  |
-  |->cont_condt:			// RA = resultptr
-  |  lwz TMP0, 0(RA)
-  |   li TMP1, LJ_TTRUE
-  |  cmplw TMP1, TMP0			// Branch if result is true.
-  |  b <4
-  |
-  |->cont_condf:			// RA = resultptr
-  |  lwz TMP0, 0(RA)
-  |   li TMP1, LJ_TFALSE
-  |  cmplw TMP0, TMP1			// Branch if result is false.
-  |  b <4
-  |
-  |->vmeta_equal:
-  |  // CARG2, CARG3, CARG4 are already set by BC_ISEQV/BC_ISNEV.
-  |  subi PC, PC, 4
-  |   stw BASE, L->base
-  |  mr CARG1, L
-  |   stw PC, SAVE_PC
-  |  bl extern lj_meta_equal  // (lua_State *L, GCobj *o1, *o2, int ne)
-  |  // Returns 0/1 or TValue * (metamethod).
-  |  b <3
-  |
-  |//-- Arithmetic metamethods ---------------------------------------------
-  |
-  |->vmeta_arith_vn:
-  |  add CARG3, BASE, RB
-  |  add CARG4, KBASE, RC
-  |  b >1
-  |
-  |->vmeta_arith_nv:
-  |  add CARG3, KBASE, RC
-  |  add CARG4, BASE, RB
-  |  b >1
-  |
-  |->vmeta_unm:
-  |  add CARG3, BASE, RD
-  |  mr CARG4, CARG3
-  |  b >1
-  |
-  |->vmeta_arith_vv:
-  |  add CARG3, BASE, RB
-  |  add CARG4, BASE, RC
-  |1:
-  |  add CARG2, BASE, RA
-  |   stw BASE, L->base
-  |  mr CARG1, L
-  |   stw PC, SAVE_PC
-  |  decode_OP1 CARG5, INS		// Caveat: CARG5 overlaps INS.
-  |  bl extern lj_meta_arith  // (lua_State *L, TValue *ra,*rb,*rc, BCReg op)
-  |  // Returns NULL (finished) or TValue * (metamethod).
-  |  cmplwi CRET1, 0
-  |  beq ->cont_nop
-  |
-  |  // Call metamethod for binary op.
-  |->vmeta_binop:
-  |  // BASE = old base, CRET1 = new base, stack = cont/func/o1/o2
-  |  sub TMP1, CRET1, BASE
-  |   stw PC, -16(CRET1)		// [cont|PC]
-  |   mr TMP2, BASE
-  |  addi PC, TMP1, FRAME_CONT
-  |   mr BASE, CRET1
-  |  li NARGS8:RC, 16			// 2 args for func(o1, o2).
-  |  b ->vm_call_dispatch
-  |
-  |->vmeta_len:
-#if LJ_52
-  |  mr SAVE0, CARG1
-#endif
-  |  add CARG2, BASE, RD
-  |   stw BASE, L->base
-  |  mr CARG1, L
-  |   stw PC, SAVE_PC
-  |  bl extern lj_meta_len		// (lua_State *L, TValue *o)
-  |  // Returns NULL (retry) or TValue * (metamethod base).
-#if LJ_52
-  |  cmplwi CRET1, 0
-  |  bne ->vmeta_binop			// Binop call for compatibility.
-  |  mr CARG1, SAVE0
-  |  b ->BC_LEN_Z
-#else
-  |  b ->vmeta_binop			// Binop call for compatibility.
-#endif
-  |
-  |//-- Call metamethod ----------------------------------------------------
-  |
-  |->vmeta_call:			// Resolve and call __call metamethod.
-  |  // TMP2 = old base, BASE = new base, RC = nargs*8
-  |  mr CARG1, L
-  |   stw TMP2, L->base			// This is the callers base!
-  |  subi CARG2, BASE, 8
-  |   stw PC, SAVE_PC
-  |  add CARG3, BASE, RC
-  |   mr SAVE0, NARGS8:RC
-  |  bl extern lj_meta_call	// (lua_State *L, TValue *func, TValue *top)
-  |  lwz LFUNC:RB, FRAME_FUNC(BASE)	// Guaranteed to be a function here.
-  |   addi NARGS8:RC, SAVE0, 8		// Got one more argument now.
-  |  ins_call
-  |
-  |->vmeta_callt:			// Resolve __call for BC_CALLT.
-  |  // BASE = old base, RA = new base, RC = nargs*8
-  |  mr CARG1, L
-  |   stw BASE, L->base
-  |  subi CARG2, RA, 8
-  |   stw PC, SAVE_PC
-  |  add CARG3, RA, RC
-  |   mr SAVE0, NARGS8:RC
-  |  bl extern lj_meta_call	// (lua_State *L, TValue *func, TValue *top)
-  |  lwz TMP1, FRAME_PC(BASE)
-  |   addi NARGS8:RC, SAVE0, 8		// Got one more argument now.
-  |   lwz LFUNC:RB, FRAME_FUNC(RA)	// Guaranteed to be a function here.
-  |  b ->BC_CALLT_Z
-  |
-  |//-- Argument coercion for 'for' statement ------------------------------
-  |
-  |->vmeta_for:
-  |  mr CARG1, L
-  |   stw BASE, L->base
-  |  mr CARG2, RA
-  |   stw PC, SAVE_PC
-  |  mr SAVE0, INS
-  |  bl extern lj_meta_for	// (lua_State *L, TValue *base)
-  |.if JIT
-  |   decode_OP1 TMP0, SAVE0
-  |.endif
-  |  decode_RA8 RA, SAVE0
-  |.if JIT
-  |   cmpwi TMP0, BC_JFORI
-  |.endif
-  |  decode_RD8 RD, SAVE0
-  |.if JIT
-  |   beq =>BC_JFORI
-  |.endif
-  |  b =>BC_FORI
-  |
-  |//-----------------------------------------------------------------------
-  |//-- Fast functions -----------------------------------------------------
-  |//-----------------------------------------------------------------------
-  |
-  |.macro .ffunc, name
-  |->ff_ .. name:
-  |.endmacro
-  |
-  |.macro .ffunc_1, name
-  |->ff_ .. name:
-  |  cmplwi NARGS8:RC, 8
-  |   evldd CARG1, 0(BASE)
-  |  blt ->fff_fallback
-  |.endmacro
-  |
-  |.macro .ffunc_2, name
-  |->ff_ .. name:
-  |  cmplwi NARGS8:RC, 16
-  |   evldd CARG1, 0(BASE)
-  |   evldd CARG2, 8(BASE)
-  |  blt ->fff_fallback
-  |.endmacro
-  |
-  |.macro .ffunc_n, name
-  |  .ffunc_1 name
-  |  checknum CARG1
-  |  checkfail ->fff_fallback
-  |.endmacro
-  |
-  |.macro .ffunc_nn, name
-  |  .ffunc_2 name
-  |  evmergehi TMP0, CARG1, CARG2
-  |  checknum TMP0
-  |  checkanyfail ->fff_fallback
-  |.endmacro
-  |
-  |// Inlined GC threshold check. Caveat: uses TMP0 and TMP1.
-  |.macro ffgccheck
-  |  lwz TMP0, DISPATCH_GL(gc.total)(DISPATCH)
-  |  lwz TMP1, DISPATCH_GL(gc.threshold)(DISPATCH)
-  |  cmplw TMP0, TMP1
-  |  bgel ->fff_gcstep
-  |.endmacro
-  |
-  |//-- Base library: checks -----------------------------------------------
-  |
-  |.ffunc assert
-  |  cmplwi NARGS8:RC, 8
-  |   evldd TMP0, 0(BASE)
-  |  blt ->fff_fallback
-  |  evaddw TMP1, TISNIL, TISNIL	// Synthesize LJ_TFALSE.
-  |  la RA, -8(BASE)
-  |   evcmpltu cr1, TMP0, TMP1
-  |    lwz PC, FRAME_PC(BASE)
-  |  bge cr1, ->fff_fallback
-  |   evstdd TMP0, 0(RA)
-  |  addi RD, NARGS8:RC, 8		// Compute (nresults+1)*8.
-  |   beq ->fff_res			// Done if exactly 1 argument.
-  |  li TMP1, 8
-  |  subi RC, RC, 8
-  |1:
-  |  cmplw TMP1, RC
-  |   evlddx TMP0, BASE, TMP1
-  |   evstddx TMP0, RA, TMP1
-  |    addi TMP1, TMP1, 8
-  |  bne <1
-  |  b ->fff_res
-  |
-  |.ffunc type
-  |  cmplwi NARGS8:RC, 8
-  |   lwz CARG1, 0(BASE)
-  |  blt ->fff_fallback
-  |    li TMP2, ~LJ_TNUMX
-  |  cmplw CARG1, TISNUM
-  |  not TMP1, CARG1
-  |  isellt TMP1, TMP2, TMP1
-  |  slwi TMP1, TMP1, 3
-  |   la TMP2, CFUNC:RB->upvalue
-  |  evlddx STR:CRET1, TMP2, TMP1
-  |  b ->fff_restv
-  |
-  |//-- Base library: getters and setters ---------------------------------
-  |
-  |.ffunc_1 getmetatable
-  |  checktab CARG1
-  |   evmergehi TMP1, CARG1, CARG1
-  |  checkfail >6
-  |1:  // Field metatable must be at same offset for GCtab and GCudata!
-  |  lwz TAB:RB, TAB:CARG1->metatable
-  |2:
-  |  evmr CRET1, TISNIL
-  |   cmplwi TAB:RB, 0
-  |  lwz STR:RC, DISPATCH_GL(gcroot[GCROOT_MMNAME+MM_metatable])(DISPATCH)
-  |   beq ->fff_restv
-  |  lwz TMP0, TAB:RB->hmask
-  |   evmergelo CRET1, TISTAB, TAB:RB	// Use metatable as default result.
-  |  lwz TMP1, STR:RC->hash
-  |  lwz NODE:TMP2, TAB:RB->node
-  |   evmergelo STR:RC, TISSTR, STR:RC
-  |  and TMP1, TMP1, TMP0		// idx = str->hash & tab->hmask
-  |  slwi TMP0, TMP1, 5
-  |  slwi TMP1, TMP1, 3
-  |  sub TMP1, TMP0, TMP1
-  |  add NODE:TMP2, NODE:TMP2, TMP1	// node = tab->node + (idx*32-idx*8)
-  |3:  // Rearranged logic, because we expect _not_ to find the key.
-  |  evldd TMP0, NODE:TMP2->key
-  |   evldd TMP1, NODE:TMP2->val
-  |  evcmpeq TMP0, STR:RC
-  |   lwz NODE:TMP2, NODE:TMP2->next
-  |  checkallok >5
-  |   cmplwi NODE:TMP2, 0
-  |   beq ->fff_restv			// Not found, keep default result.
-  |   b <3
-  |5:
-  |  checknil TMP1
-  |  checkok ->fff_restv		// Ditto for nil value.
-  |  evmr CRET1, TMP1			// Return value of mt.__metatable.
-  |  b ->fff_restv
-  |
-  |6:
-  |  cmpwi TMP1, LJ_TUDATA
-  |   not TMP1, TMP1
-  |  beq <1
-  |  checknum CARG1
-  |   slwi TMP1, TMP1, 2
-  |   li TMP2, 4*~LJ_TNUMX
-  |  isellt TMP1, TMP2, TMP1
-  |   la TMP2, DISPATCH_GL(gcroot[GCROOT_BASEMT])(DISPATCH)
-  |  lwzx TAB:RB, TMP2, TMP1
-  |  b <2
-  |
-  |.ffunc_2 setmetatable
-  |  // Fast path: no mt for table yet and not clearing the mt.
-  |  evmergehi TMP0, TAB:CARG1, TAB:CARG2
-  |  checktab TMP0
-  |  checkanyfail ->fff_fallback
-  |  lwz TAB:TMP1, TAB:CARG1->metatable
-  |  cmplwi TAB:TMP1, 0
-  |   lbz TMP3, TAB:CARG1->marked
-  |  bne ->fff_fallback
-  |   andi. TMP0, TMP3, LJ_GC_BLACK	// isblack(table)
-  |    stw TAB:CARG2, TAB:CARG1->metatable
-  |   beq ->fff_restv
-  |  barrierback TAB:CARG1, TMP3, TMP0
-  |  b ->fff_restv
-  |
-  |.ffunc rawget
-  |  cmplwi NARGS8:RC, 16
-  |   evldd CARG2, 0(BASE)
-  |  blt ->fff_fallback
-  |  checktab CARG2
-  |   la CARG3, 8(BASE)
-  |  checkfail ->fff_fallback
-  |   mr CARG1, L
-  |  bl extern lj_tab_get  // (lua_State *L, GCtab *t, cTValue *key)
-  |  // Returns cTValue *.
-  |  evldd CRET1, 0(CRET1)
-  |  b ->fff_restv
-  |
-  |//-- Base library: conversions ------------------------------------------
-  |
-  |.ffunc tonumber
-  |  // Only handles the number case inline (without a base argument).
-  |  cmplwi NARGS8:RC, 8
-  |   evldd CARG1, 0(BASE)
-  |  bne ->fff_fallback			// Exactly one argument.
-  |  checknum CARG1
-  |  checkok ->fff_restv
-  |  b ->fff_fallback
-  |
-  |.ffunc_1 tostring
-  |  // Only handles the string or number case inline.
-  |  checkstr CARG1
-  |  // A __tostring method in the string base metatable is ignored.
-  |  checkok ->fff_restv		// String key?
-  |  // Handle numbers inline, unless a number base metatable is present.
-  |  lwz TMP0, DISPATCH_GL(gcroot[GCROOT_BASEMT_NUM])(DISPATCH)
-  |  checknum CARG1
-  |  cmplwi cr1, TMP0, 0
-  |   stw BASE, L->base			// Add frame since C call can throw.
-  |  crand 4*cr0+eq, 4*cr0+lt, 4*cr1+eq
-  |   stw PC, SAVE_PC			// Redundant (but a defined value).
-  |  bne ->fff_fallback
-  |  ffgccheck
-  |  mr CARG1, L
-  |  mr CARG2, BASE
-  |  bl extern lj_str_fromnum		// (lua_State *L, lua_Number *np)
-  |  // Returns GCstr *.
-  |  evmergelo STR:CRET1, TISSTR, STR:CRET1
-  |  b ->fff_restv
-  |
-  |//-- Base library: iterators -------------------------------------------
-  |
-  |.ffunc next
-  |  cmplwi NARGS8:RC, 8
-  |   evldd CARG2, 0(BASE)
-  |  blt ->fff_fallback
-  |   evstddx TISNIL, BASE, NARGS8:RC	// Set missing 2nd arg to nil.
-  |  checktab TAB:CARG2
-  |   lwz PC, FRAME_PC(BASE)
-  |  checkfail ->fff_fallback
-  |   stw BASE, L->base			// Add frame since C call can throw.
-  |  mr CARG1, L
-  |   stw BASE, L->top			// Dummy frame length is ok.
-  |  la CARG3, 8(BASE)
-  |   stw PC, SAVE_PC
-  |  bl extern lj_tab_next	// (lua_State *L, GCtab *t, TValue *key)
-  |  // Returns 0 at end of traversal.
-  |  cmplwi CRET1, 0
-  |   evmr CRET1, TISNIL
-  |  beq ->fff_restv			// End of traversal: return nil.
-  |  evldd TMP0, 8(BASE)		// Copy key and value to results.
-  |   la RA, -8(BASE)
-  |  evldd TMP1, 16(BASE)
-  |  evstdd TMP0, 0(RA)
-  |   li RD, (2+1)*8
-  |  evstdd TMP1, 8(RA)
-  |  b ->fff_res
-  |
-  |.ffunc_1 pairs
-  |  checktab TAB:CARG1
-  |   lwz PC, FRAME_PC(BASE)
-  |  checkfail ->fff_fallback
-#if LJ_52
-  |   lwz TAB:TMP2, TAB:CARG1->metatable
-  |  evldd CFUNC:TMP0, CFUNC:RB->upvalue[0]
-  |   cmplwi TAB:TMP2, 0
-  |  la RA, -8(BASE)
-  |   bne ->fff_fallback
-#else
-  |  evldd CFUNC:TMP0, CFUNC:RB->upvalue[0]
-  |  la RA, -8(BASE)
-#endif
-  |   evstdd TISNIL, 8(BASE)
-  |  li RD, (3+1)*8
-  |  evstdd CFUNC:TMP0, 0(RA)
-  |  b ->fff_res
-  |
-  |.ffunc_2 ipairs_aux
-  |  checktab TAB:CARG1
-  |   lwz PC, FRAME_PC(BASE)
-  |  checkfail ->fff_fallback
-  |  checknum CARG2
-  |    lus TMP3, 0x3ff0
-  |  checkfail ->fff_fallback
-  |  efdctsi TMP2, CARG2
-  |   lwz TMP0, TAB:CARG1->asize
-  |    evmergelo TMP3, TMP3, ZERO
-  |   lwz TMP1, TAB:CARG1->array
-  |  efdadd CARG2, CARG2, TMP3
-  |  addi TMP2, TMP2, 1
-  |   la RA, -8(BASE)
-  |  cmplw TMP0, TMP2
-  |   slwi TMP3, TMP2, 3
-  |  evstdd CARG2, 0(RA)
-  |  ble >2				// Not in array part?
-  |  evlddx TMP1, TMP1, TMP3
-  |1:
-  |  checknil TMP1
-  |   li RD, (0+1)*8
-  |  checkok ->fff_res			// End of iteration, return 0 results.
-  |   li RD, (2+1)*8
-  |  evstdd TMP1, 8(RA)
-  |  b ->fff_res
-  |2:  // Check for empty hash part first. Otherwise call C function.
-  |  lwz TMP0, TAB:CARG1->hmask
-  |  cmplwi TMP0, 0
-  |   li RD, (0+1)*8
-  |  beq ->fff_res
-  |   mr CARG2, TMP2
-  |  bl extern lj_tab_getinth		// (GCtab *t, int32_t key)
-  |  // Returns cTValue * or NULL.
-  |  cmplwi CRET1, 0
-  |   li RD, (0+1)*8
-  |  beq ->fff_res
-  |  evldd TMP1, 0(CRET1)
-  |  b <1
-  |
-  |.ffunc_1 ipairs
-  |  checktab TAB:CARG1
-  |   lwz PC, FRAME_PC(BASE)
-  |  checkfail ->fff_fallback
-#if LJ_52
-  |   lwz TAB:TMP2, TAB:CARG1->metatable
-  |  evldd CFUNC:TMP0, CFUNC:RB->upvalue[0]
-  |   cmplwi TAB:TMP2, 0
-  |  la RA, -8(BASE)
-  |   bne ->fff_fallback
-#else
-  |  evldd CFUNC:TMP0, CFUNC:RB->upvalue[0]
-  |  la RA, -8(BASE)
-#endif
-  |    evsplati TMP1, 0
-  |  li RD, (3+1)*8
-  |    evstdd TMP1, 8(BASE)
-  |  evstdd CFUNC:TMP0, 0(RA)
-  |  b ->fff_res
-  |
-  |//-- Base library: catch errors ----------------------------------------
-  |
-  |.ffunc pcall
-  |  cmplwi NARGS8:RC, 8
-  |   lbz TMP3, DISPATCH_GL(hookmask)(DISPATCH)
-  |  blt ->fff_fallback
-  |   mr TMP2, BASE
-  |   la BASE, 8(BASE)
-  |  // Remember active hook before pcall.
-  |  rlwinm TMP3, TMP3, 32-HOOK_ACTIVE_SHIFT, 31, 31
-  |   subi NARGS8:RC, NARGS8:RC, 8
-  |  addi PC, TMP3, 8+FRAME_PCALL
-  |  b ->vm_call_dispatch
-  |
-  |.ffunc_2 xpcall
-  |  lbz TMP3, DISPATCH_GL(hookmask)(DISPATCH)
-  |   mr TMP2, BASE
-  |  checkfunc CARG2			// Traceback must be a function.
-  |  checkfail ->fff_fallback
-  |   la BASE, 16(BASE)
-  |  // Remember active hook before pcall.
-  |  rlwinm TMP3, TMP3, 32-HOOK_ACTIVE_SHIFT, 31, 31
-  |   evstdd CARG2, 0(TMP2)		// Swap function and traceback.
-  |  subi NARGS8:RC, NARGS8:RC, 16
-  |   evstdd CARG1, 8(TMP2)
-  |  addi PC, TMP3, 16+FRAME_PCALL
-  |  b ->vm_call_dispatch
-  |
-  |//-- Coroutine library --------------------------------------------------
-  |
-  |.macro coroutine_resume_wrap, resume
-  |.if resume
-  |.ffunc_1 coroutine_resume
-  |  evmergehi TMP0, L:CARG1, L:CARG1
-  |.else
-  |.ffunc coroutine_wrap_aux
-  |  lwz L:CARG1, CFUNC:RB->upvalue[0].gcr
-  |.endif
-  |.if resume
-  |  cmpwi TMP0, LJ_TTHREAD
-  |  bne ->fff_fallback
-  |.endif
-  |  lbz TMP0, L:CARG1->status
-  |   lwz TMP1, L:CARG1->cframe
-  |    lwz CARG2, L:CARG1->top
-  |  cmplwi cr0, TMP0, LUA_YIELD
-  |    lwz TMP2, L:CARG1->base
-  |   cmplwi cr1, TMP1, 0
-  |   lwz TMP0, L:CARG1->maxstack
-  |    cmplw cr7, CARG2, TMP2
-  |   lwz PC, FRAME_PC(BASE)
-  |  crorc 4*cr6+lt, 4*cr0+gt, 4*cr1+eq		// st>LUA_YIELD || cframe!=0
-  |   add TMP2, CARG2, NARGS8:RC
-  |  crandc 4*cr6+gt, 4*cr7+eq, 4*cr0+eq	// base==top && st!=LUA_YIELD
-  |   cmplw cr1, TMP2, TMP0
-  |  cror 4*cr6+lt, 4*cr6+lt, 4*cr6+gt
-  |   stw PC, SAVE_PC
-  |  cror 4*cr6+lt, 4*cr6+lt, 4*cr1+gt		// cond1 || cond2 || stackov
-  |   stw BASE, L->base
-  |  blt cr6, ->fff_fallback
-  |1:
-  |.if resume
-  |  addi BASE, BASE, 8			// Keep resumed thread in stack for GC.
-  |  subi NARGS8:RC, NARGS8:RC, 8
-  |  subi TMP2, TMP2, 8
-  |.endif
-  |  stw TMP2, L:CARG1->top
-  |  li TMP1, 0
-  |  stw BASE, L->top
-  |2:  // Move args to coroutine.
-  |  cmpw TMP1, NARGS8:RC
-  |   evlddx TMP0, BASE, TMP1
-  |  beq >3
-  |   evstddx TMP0, CARG2, TMP1
-  |  addi TMP1, TMP1, 8
-  |  b <2
-  |3:
-  |  li CARG3, 0
-  |   mr L:SAVE0, L:CARG1
-  |  li CARG4, 0
-  |  bl ->vm_resume			// (lua_State *L, TValue *base, 0, 0)
-  |  // Returns thread status.
-  |4:
-  |  lwz TMP2, L:SAVE0->base
-  |   cmplwi CRET1, LUA_YIELD
-  |  lwz TMP3, L:SAVE0->top
-  |    li_vmstate INTERP
-  |  lwz BASE, L->base
-  |    st_vmstate
-  |   bgt >8
-  |  sub RD, TMP3, TMP2
-  |   lwz TMP0, L->maxstack
-  |  cmplwi RD, 0
-  |   add TMP1, BASE, RD
-  |  beq >6				// No results?
-  |  cmplw TMP1, TMP0
-  |   li TMP1, 0
-  |  bgt >9				// Need to grow stack?
-  |
-  |  subi TMP3, RD, 8
-  |   stw TMP2, L:SAVE0->top		// Clear coroutine stack.
-  |5:  // Move results from coroutine.
-  |  cmplw TMP1, TMP3
-  |   evlddx TMP0, TMP2, TMP1
-  |   evstddx TMP0, BASE, TMP1
-  |    addi TMP1, TMP1, 8
-  |  bne <5
-  |6:
-  |  andi. TMP0, PC, FRAME_TYPE
-  |.if resume
-  |  li TMP1, LJ_TTRUE
-  |   la RA, -8(BASE)
-  |  stw TMP1, -8(BASE)			// Prepend true to results.
-  |  addi RD, RD, 16
-  |.else
-  |  mr RA, BASE
-  |  addi RD, RD, 8
-  |.endif
-  |7:
-  |    stw PC, SAVE_PC
-  |   mr MULTRES, RD
-  |  beq ->BC_RET_Z
-  |  b ->vm_return
-  |
-  |8:  // Coroutine returned with error (at co->top-1).
-  |.if resume
-  |  andi. TMP0, PC, FRAME_TYPE
-  |  la TMP3, -8(TMP3)
-  |   li TMP1, LJ_TFALSE
-  |  evldd TMP0, 0(TMP3)
-  |   stw TMP3, L:SAVE0->top		// Remove error from coroutine stack.
-  |    li RD, (2+1)*8
-  |   stw TMP1, -8(BASE)		// Prepend false to results.
-  |    la RA, -8(BASE)
-  |  evstdd TMP0, 0(BASE)		// Copy error message.
-  |  b <7
-  |.else
-  |  mr CARG1, L
-  |  mr CARG2, L:SAVE0
-  |  bl extern lj_ffh_coroutine_wrap_err  // (lua_State *L, lua_State *co)
-  |.endif
-  |
-  |9:  // Handle stack expansion on return from yield.
-  |  mr CARG1, L
-  |  srwi CARG2, RD, 3
-  |  bl extern lj_state_growstack	// (lua_State *L, int n)
-  |  li CRET1, 0
-  |  b <4
-  |.endmacro
-  |
-  |  coroutine_resume_wrap 1		// coroutine.resume
-  |  coroutine_resume_wrap 0		// coroutine.wrap
-  |
-  |.ffunc coroutine_yield
-  |  lwz TMP0, L->cframe
-  |   add TMP1, BASE, NARGS8:RC
-  |   stw BASE, L->base
-  |  andi. TMP0, TMP0, CFRAME_RESUME
-  |   stw TMP1, L->top
-  |    li CRET1, LUA_YIELD
-  |  beq ->fff_fallback
-  |   stw ZERO, L->cframe
-  |    stb CRET1, L->status
-  |  b ->vm_leave_unw
-  |
-  |//-- Math library -------------------------------------------------------
-  |
-  |.ffunc_n math_abs
-  |  efdabs CRET1, CARG1
-  |  // Fallthrough.
-  |
-  |->fff_restv:
-  |  // CRET1 = TValue result.
-  |  lwz PC, FRAME_PC(BASE)
-  |   la RA, -8(BASE)
-  |  evstdd CRET1, 0(RA)
-  |->fff_res1:
-  |  // RA = results, PC = return.
-  |  li RD, (1+1)*8
-  |->fff_res:
-  |  // RA = results, RD = (nresults+1)*8, PC = return.
-  |  andi. TMP0, PC, FRAME_TYPE
-  |   mr MULTRES, RD
-  |  bne ->vm_return
-  |  lwz INS, -4(PC)
-  |  decode_RB8 RB, INS
-  |5:
-  |  cmplw RB, RD			// More results expected?
-  |   decode_RA8 TMP0, INS
-  |  bgt >6
-  |  ins_next1
-  |  // Adjust BASE. KBASE is assumed to be set for the calling frame.
-  |   sub BASE, RA, TMP0
-  |  ins_next2
-  |
-  |6:  // Fill up results with nil.
-  |  subi TMP1, RD, 8
-  |   addi RD, RD, 8
-  |  evstddx TISNIL, RA, TMP1
-  |  b <5
-  |
-  |.macro math_extern, func
-  |  .ffunc math_ .. func
-  |  cmplwi NARGS8:RC, 8
-  |   evldd CARG2, 0(BASE)
-  |  blt ->fff_fallback
-  |  checknum CARG2
-  |   evmergehi CARG1, CARG2, CARG2
-  |  checkfail ->fff_fallback
-  |  bl extern func@plt
-  |  evmergelo CRET1, CRET1, CRET2
-  |  b ->fff_restv
-  |.endmacro
-  |
-  |.macro math_extern2, func
-  |  .ffunc math_ .. func
-  |  cmplwi NARGS8:RC, 16
-  |   evldd CARG2, 0(BASE)
-  |   evldd CARG4, 8(BASE)
-  |  blt ->fff_fallback
-  |  evmergehi CARG1, CARG4, CARG2
-  |  checknum CARG1
-  |   evmergehi CARG3, CARG4, CARG4
-  |  checkanyfail ->fff_fallback
-  |  bl extern func@plt
-  |  evmergelo CRET1, CRET1, CRET2
-  |  b ->fff_restv
-  |.endmacro
-  |
-  |.macro math_round, func
-  |  .ffunc math_ .. func
-  |  cmplwi NARGS8:RC, 8
-  |   evldd CARG2, 0(BASE)
-  |  blt ->fff_fallback
-  |  checknum CARG2
-  |   evmergehi CARG1, CARG2, CARG2
-  |  checkfail ->fff_fallback
-  |   lwz PC, FRAME_PC(BASE)
-  |  bl ->vm_..func.._hilo;
-  |  la RA, -8(BASE)
-  |  evstdd CRET2, 0(RA)
-  |  b ->fff_res1
-  |.endmacro
-  |
-  |  math_round floor
-  |  math_round ceil
-  |
-  |  math_extern sqrt
-  |
-  |.ffunc math_log
-  |  cmplwi NARGS8:RC, 8
-  |   evldd CARG2, 0(BASE)
-  |  bne ->fff_fallback                 // Need exactly 1 argument.
-  |  checknum CARG2
-  |   evmergehi CARG1, CARG2, CARG2
-  |  checkfail ->fff_fallback
-  |  bl extern log@plt
-  |  evmergelo CRET1, CRET1, CRET2
-  |  b ->fff_restv
-  |
-  |  math_extern log10
-  |  math_extern exp
-  |  math_extern sin
-  |  math_extern cos
-  |  math_extern tan
-  |  math_extern asin
-  |  math_extern acos
-  |  math_extern atan
-  |  math_extern sinh
-  |  math_extern cosh
-  |  math_extern tanh
-  |  math_extern2 pow
-  |  math_extern2 atan2
-  |  math_extern2 fmod
-  |
-  |->ff_math_deg:
-  |.ffunc_n math_rad
-  |  evldd CARG2, CFUNC:RB->upvalue[0]
-  |  efdmul CRET1, CARG1, CARG2
-  |  b ->fff_restv
-  |
-  |.ffunc math_ldexp
-  |  cmplwi NARGS8:RC, 16
-  |   evldd CARG2, 0(BASE)
-  |   evldd CARG4, 8(BASE)
-  |  blt ->fff_fallback
-  |  evmergehi CARG1, CARG4, CARG2
-  |  checknum CARG1
-  |  checkanyfail ->fff_fallback
-  |  efdctsi CARG3, CARG4
-  |  bl extern ldexp@plt
-  |  evmergelo CRET1, CRET1, CRET2
-  |  b ->fff_restv
-  |
-  |.ffunc math_frexp
-  |  cmplwi NARGS8:RC, 8
-  |   evldd CARG2, 0(BASE)
-  |  blt ->fff_fallback
-  |  checknum CARG2
-  |   evmergehi CARG1, CARG2, CARG2
-  |  checkfail ->fff_fallback
-  |  la CARG3, DISPATCH_GL(tmptv)(DISPATCH)
-  |   lwz PC, FRAME_PC(BASE)
-  |  bl extern frexp@plt
-  |   lwz TMP1, DISPATCH_GL(tmptv)(DISPATCH)
-  |  evmergelo CRET1, CRET1, CRET2
-  |   efdcfsi CRET2, TMP1
-  |   la RA, -8(BASE)
-  |  evstdd CRET1, 0(RA)
-  |  li RD, (2+1)*8
-  |   evstdd CRET2, 8(RA)
-  |  b ->fff_res
-  |
-  |.ffunc math_modf
-  |  cmplwi NARGS8:RC, 8
-  |   evldd CARG2, 0(BASE)
-  |  blt ->fff_fallback
-  |  checknum CARG2
-  |   evmergehi CARG1, CARG2, CARG2
-  |  checkfail ->fff_fallback
-  |  la CARG3, -8(BASE)
-  |   lwz PC, FRAME_PC(BASE)
-  |  bl extern modf@plt
-  |  evmergelo CRET1, CRET1, CRET2
-  |   la RA, -8(BASE)
-  |  evstdd CRET1, 0(BASE)
-  |  li RD, (2+1)*8
-  |  b ->fff_res
-  |
-  |.macro math_minmax, name, cmpop
-  |  .ffunc_1 name
-  |  checknum CARG1
-  |   li TMP1, 8
-  |  checkfail ->fff_fallback
-  |1:
-  |  evlddx CARG2, BASE, TMP1
-  |  cmplw cr1, TMP1, NARGS8:RC
-  |   checknum CARG2
-  |  bge cr1, ->fff_restv		// Ok, since CRET1 = CARG1.
-  |   checkfail ->fff_fallback
-  |  cmpop CARG2, CARG1
-  |   addi TMP1, TMP1, 8
-  |  crmove 4*cr0+lt, 4*cr0+gt
-  |  evsel CARG1, CARG2, CARG1
-  |  b <1
-  |.endmacro
-  |
-  |  math_minmax math_min, efdtstlt
-  |  math_minmax math_max, efdtstgt
-  |
-  |//-- String library -----------------------------------------------------
-  |
-  |.ffunc_1 string_len
-  |  checkstr STR:CARG1
-  |  checkfail ->fff_fallback
-  |  lwz TMP0, STR:CARG1->len
-  |  efdcfsi CRET1, TMP0
-  |  b ->fff_restv
-  |
-  |.ffunc string_byte			// Only handle the 1-arg case here.
-  |  cmplwi NARGS8:RC, 8
-  |   evldd STR:CARG1, 0(BASE)
-  |  bne ->fff_fallback			// Need exactly 1 argument.
-  |  checkstr STR:CARG1
-  |   la RA, -8(BASE)
-  |  checkfail ->fff_fallback
-  |  lwz TMP0, STR:CARG1->len
-  |   li RD, (0+1)*8
-  |    lbz TMP1, STR:CARG1[1]		// Access is always ok (NUL at end).
-  |   li TMP2, (1+1)*8
-  |  cmplwi TMP0, 0
-  |   lwz PC, FRAME_PC(BASE)
-  |    efdcfsi CRET1, TMP1
-  |  iseleq RD, RD, TMP2
-  |    evstdd CRET1, 0(RA)
-  |  b ->fff_res
-  |
-  |.ffunc string_char			// Only handle the 1-arg case here.
-  |  ffgccheck
-  |  cmplwi NARGS8:RC, 8
-  |   evldd CARG1, 0(BASE)
-  |  bne ->fff_fallback			// Exactly 1 argument.
-  |  checknum CARG1
-  |   la CARG2, DISPATCH_GL(tmptv)(DISPATCH)
-  |  checkfail ->fff_fallback
-  |  efdctsiz TMP0, CARG1
-  |   li CARG3, 1
-  |  cmplwi TMP0, 255
-  |   stb TMP0, 0(CARG2)
-  |  bgt ->fff_fallback
-  |->fff_newstr:
-  |  mr CARG1, L
-  |  stw BASE, L->base
-  |  stw PC, SAVE_PC
-  |  bl extern lj_str_new		// (lua_State *L, char *str, size_t l)
-  |  // Returns GCstr *.
-  |  lwz BASE, L->base
-  |   evmergelo STR:CRET1, TISSTR, STR:CRET1
-  |  b ->fff_restv
-  |
-  |.ffunc string_sub
-  |  ffgccheck
-  |  cmplwi NARGS8:RC, 16
-  |   evldd CARG3, 16(BASE)
-  |   evldd STR:CARG1, 0(BASE)
-  |  blt ->fff_fallback
-  |   evldd CARG2, 8(BASE)
-  |   li TMP2, -1
-  |  beq >1
-  |  checknum CARG3
-  |  checkfail ->fff_fallback
-  |  efdctsiz TMP2, CARG3
-  |1:
-  |  checknum CARG2
-  |  checkfail ->fff_fallback
-  |  checkstr STR:CARG1
-  |   efdctsiz TMP1, CARG2
-  |  checkfail ->fff_fallback
-  |   lwz TMP0, STR:CARG1->len
-  |  cmplw TMP0, TMP2			// len < end? (unsigned compare)
-  |   add TMP3, TMP2, TMP0
-  |  blt >5
-  |2:
-  |  cmpwi TMP1, 0			// start <= 0?
-  |   add TMP3, TMP1, TMP0
-  |  ble >7
-  |3:
-  |  sub. CARG3, TMP2, TMP1
-  |    addi CARG2, STR:CARG1, #STR-1
-  |   addi CARG3, CARG3, 1
-  |    add CARG2, CARG2, TMP1
-  |  isellt CARG3, r0, CARG3
-  |  b ->fff_newstr
-  |
-  |5:  // Negative end or overflow.
-  |  cmpw TMP0, TMP2
-  |   addi TMP3, TMP3, 1
-  |  iselgt TMP2, TMP3, TMP0		// end = end > len ? len : end+len+1
-  |  b <2
-  |
-  |7:  // Negative start or underflow.
-  |   cmpwi cr1, TMP3, 0
-  |  iseleq TMP1, r0, TMP3
-  |   isel TMP1, r0, TMP1, 4*cr1+lt
-  |  addi TMP1, TMP1, 1			// start = 1 + (start ? start+len : 0)
-  |  b <3
-  |
-  |.ffunc string_rep			// Only handle the 1-char case inline.
-  |  ffgccheck
-  |  cmplwi NARGS8:RC, 16
-  |   evldd CARG1, 0(BASE)
-  |   evldd CARG2, 8(BASE)
-  |  bne ->fff_fallback			// Exactly 2 arguments.
-  |  checknum CARG2
-  |  checkfail ->fff_fallback
-  |  checkstr STR:CARG1
-  |   efdctsiz CARG3, CARG2
-  |  checkfail ->fff_fallback
-  |   lwz TMP0, STR:CARG1->len
-  |  cmpwi CARG3, 0
-  |   lwz TMP1, DISPATCH_GL(tmpbuf.sz)(DISPATCH)
-  |  ble >2				// Count <= 0? (or non-int)
-  |   cmplwi TMP0, 1
-  |  subi TMP2, CARG3, 1
-  |   blt >2				// Zero length string?
-  |  cmplw cr1, TMP1, CARG3
-  |   bne ->fff_fallback		// Fallback for > 1-char strings.
-  |   lbz TMP0, STR:CARG1[1]
-  |   lwz CARG2, DISPATCH_GL(tmpbuf.buf)(DISPATCH)
-  |  blt cr1, ->fff_fallback
-  |1:  // Fill buffer with char. Yes, this is suboptimal code (do you care?).
-  |  cmplwi TMP2, 0
-  |   stbx TMP0, CARG2, TMP2
-  |   subi TMP2, TMP2, 1
-  |  bne <1
-  |  b ->fff_newstr
-  |2:  // Return empty string.
-  |  la STR:CRET1, DISPATCH_GL(strempty)(DISPATCH)
-  |  evmergelo CRET1, TISSTR, STR:CRET1
-  |  b ->fff_restv
-  |
-  |.ffunc string_reverse
-  |  ffgccheck
-  |  cmplwi NARGS8:RC, 8
-  |   evldd CARG1, 0(BASE)
-  |  blt ->fff_fallback
-  |  checkstr STR:CARG1
-  |   lwz TMP1, DISPATCH_GL(tmpbuf.sz)(DISPATCH)
-  |  checkfail ->fff_fallback
-  |  lwz CARG3, STR:CARG1->len
-  |   la CARG1, #STR(STR:CARG1)
-  |   lwz CARG2, DISPATCH_GL(tmpbuf.buf)(DISPATCH)
-  |   li TMP2, 0
-  |  cmplw TMP1, CARG3
-  |   subi TMP3, CARG3, 1
-  |  blt ->fff_fallback
-  |1:  // Reverse string copy.
-  |  cmpwi TMP3, 0
-  |   lbzx TMP1, CARG1, TMP2
-  |  blt ->fff_newstr
-  |   stbx TMP1, CARG2, TMP3
-  |  subi TMP3, TMP3, 1
-  |  addi TMP2, TMP2, 1
-  |  b <1
-  |
-  |.macro ffstring_case, name, lo
-  |  .ffunc name
-  |  ffgccheck
-  |  cmplwi NARGS8:RC, 8
-  |   evldd CARG1, 0(BASE)
-  |  blt ->fff_fallback
-  |  checkstr STR:CARG1
-  |   lwz TMP1, DISPATCH_GL(tmpbuf.sz)(DISPATCH)
-  |  checkfail ->fff_fallback
-  |  lwz CARG3, STR:CARG1->len
-  |   la CARG1, #STR(STR:CARG1)
-  |   lwz CARG2, DISPATCH_GL(tmpbuf.buf)(DISPATCH)
-  |  cmplw TMP1, CARG3
-  |   li TMP2, 0
-  |  blt ->fff_fallback
-  |1:  // ASCII case conversion.
-  |  cmplw TMP2, CARG3
-  |   lbzx TMP1, CARG1, TMP2
-  |  bge ->fff_newstr
-  |   subi TMP0, TMP1, lo
-  |    xori TMP3, TMP1, 0x20
-  |   cmplwi TMP0, 26
-  |   isellt TMP1, TMP3, TMP1
-  |   stbx TMP1, CARG2, TMP2
-  |  addi TMP2, TMP2, 1
-  |  b <1
-  |.endmacro
-  |
-  |ffstring_case string_lower, 65
-  |ffstring_case string_upper, 97
-  |
-  |//-- Table library ------------------------------------------------------
-  |
-  |.ffunc_1 table_getn
-  |  checktab CARG1
-  |  checkfail ->fff_fallback
-  |  bl extern lj_tab_len		// (GCtab *t)
-  |  // Returns uint32_t (but less than 2^31).
-  |  efdcfsi CRET1, CRET1
-  |  b ->fff_restv
-  |
-  |//-- Bit library --------------------------------------------------------
-  |
-  |.macro .ffunc_bit, name
-  |  .ffunc_n bit_..name
-  |  efdadd CARG1, CARG1, TOBIT
-  |.endmacro
-  |
-  |.ffunc_bit tobit
-  |->fff_resbit:
-  |  efdcfsi CRET1, CARG1
-  |  b ->fff_restv
-  |
-  |.macro .ffunc_bit_op, name, ins
-  |  .ffunc_bit name
-  |   li TMP1, 8
-  |1:
-  |  evlddx CARG2, BASE, TMP1
-  |  cmplw cr1, TMP1, NARGS8:RC
-  |   checknum CARG2
-  |  bge cr1, ->fff_resbit
-  |   checkfail ->fff_fallback
-  |  efdadd CARG2, CARG2, TOBIT
-  |  ins CARG1, CARG1, CARG2
-  |   addi TMP1, TMP1, 8
-  |  b <1
-  |.endmacro
-  |
-  |.ffunc_bit_op band, and
-  |.ffunc_bit_op bor, or
-  |.ffunc_bit_op bxor, xor
-  |
-  |.ffunc_bit bswap
-  |  rotlwi TMP0, CARG1, 8
-  |  rlwimi TMP0, CARG1, 24, 0, 7
-  |  rlwimi TMP0, CARG1, 24, 16, 23
-  |  efdcfsi CRET1, TMP0
-  |  b ->fff_restv
-  |
-  |.ffunc_bit bnot
-  |  not TMP0, CARG1
-  |  efdcfsi CRET1, TMP0
-  |  b ->fff_restv
-  |
-  |.macro .ffunc_bit_sh, name, ins, shmod
-  |  .ffunc_nn bit_..name
-  |  efdadd CARG2, CARG2, TOBIT
-  |   efdadd CARG1, CARG1, TOBIT
-  |.if shmod == 1
-  |  rlwinm CARG2, CARG2, 0, 27, 31
-  |.elif shmod == 2
-  |  neg CARG2, CARG2
-  |.endif
-  |  ins TMP0, CARG1, CARG2
-  |  efdcfsi CRET1, TMP0
-  |  b ->fff_restv
-  |.endmacro
-  |
-  |.ffunc_bit_sh lshift, slw, 1
-  |.ffunc_bit_sh rshift, srw, 1
-  |.ffunc_bit_sh arshift, sraw, 1
-  |.ffunc_bit_sh rol, rotlw, 0
-  |.ffunc_bit_sh ror, rotlw, 2
-  |
-  |//-----------------------------------------------------------------------
-  |
-  |->fff_fallback:			// Call fast function fallback handler.
-  |  // BASE = new base, RB = CFUNC, RC = nargs*8
-  |  lwz TMP3, CFUNC:RB->f
-  |    add TMP1, BASE, NARGS8:RC
-  |   lwz PC, FRAME_PC(BASE)		// Fallback may overwrite PC.
-  |    addi TMP0, TMP1, 8*LUA_MINSTACK
-  |     lwz TMP2, L->maxstack
-  |   stw PC, SAVE_PC			// Redundant (but a defined value).
-  |  cmplw TMP0, TMP2
-  |     stw BASE, L->base
-  |    stw TMP1, L->top
-  |   mr CARG1, L
-  |  bgt >5				// Need to grow stack.
-  |  mtctr TMP3
-  |  bctrl				// (lua_State *L)
-  |  // Either throws an error, or recovers and returns -1, 0 or nresults+1.
-  |  lwz BASE, L->base
-  |  cmpwi CRET1, 0
-  |   slwi RD, CRET1, 3
-  |   la RA, -8(BASE)
-  |  bgt ->fff_res			// Returned nresults+1?
-  |1:  // Returned 0 or -1: retry fast path.
-  |  lwz TMP0, L->top
-  |   lwz LFUNC:RB, FRAME_FUNC(BASE)
-  |  sub NARGS8:RC, TMP0, BASE
-  |  bne ->vm_call_tail			// Returned -1?
-  |  ins_callt				// Returned 0: retry fast path.
-  |
-  |// Reconstruct previous base for vmeta_call during tailcall.
-  |->vm_call_tail:
-  |  andi. TMP0, PC, FRAME_TYPE
-  |   rlwinm TMP1, PC, 0, 0, 28
-  |  bne >3
-  |  lwz INS, -4(PC)
-  |  decode_RA8 TMP1, INS
-  |  addi TMP1, TMP1, 8
-  |3:
-  |  sub TMP2, BASE, TMP1
-  |  b ->vm_call_dispatch		// Resolve again for tailcall.
-  |
-  |5:  // Grow stack for fallback handler.
-  |  li CARG2, LUA_MINSTACK
-  |  bl extern lj_state_growstack	// (lua_State *L, int n)
-  |  lwz BASE, L->base
-  |  cmpw TMP0, TMP0			// Set 4*cr0+eq to force retry.
-  |  b <1
-  |
-  |->fff_gcstep:			// Call GC step function.
-  |  // BASE = new base, RC = nargs*8
-  |  mflr SAVE0
-  |   stw BASE, L->base
-  |  add TMP0, BASE, NARGS8:RC
-  |   stw PC, SAVE_PC			// Redundant (but a defined value).
-  |  stw TMP0, L->top
-  |  mr CARG1, L
-  |  bl extern lj_gc_step		// (lua_State *L)
-  |   lwz BASE, L->base
-  |  mtlr SAVE0
-  |    lwz TMP0, L->top
-  |   sub NARGS8:RC, TMP0, BASE
-  |   lwz CFUNC:RB, FRAME_FUNC(BASE)
-  |  blr
-  |
-  |//-----------------------------------------------------------------------
-  |//-- Special dispatch targets -------------------------------------------
-  |//-----------------------------------------------------------------------
-  |
-  |->vm_record:				// Dispatch target for recording phase.
-  |.if JIT
-  |  NYI
-  |.endif
-  |
-  |->vm_rethook:			// Dispatch target for return hooks.
-  |  lbz TMP3, DISPATCH_GL(hookmask)(DISPATCH)
-  |  andi. TMP0, TMP3, HOOK_ACTIVE	// Hook already active?
-  |  beq >1
-  |5:  // Re-dispatch to static ins.
-  |  addi TMP1, TMP1, GG_DISP2STATIC	// Assumes decode_OP4 TMP1, INS.
-  |  lwzx TMP0, DISPATCH, TMP1
-  |  mtctr TMP0
-  |  bctr
-  |
-  |->vm_inshook:			// Dispatch target for instr/line hooks.
-  |  lbz TMP3, DISPATCH_GL(hookmask)(DISPATCH)
-  |  lwz TMP2, DISPATCH_GL(hookcount)(DISPATCH)
-  |  andi. TMP0, TMP3, HOOK_ACTIVE	// Hook already active?
-  |   rlwinm TMP0, TMP3, 31-LUA_HOOKLINE, 31, 0
-  |  bne <5
-  |
-  |   cmpwi cr1, TMP0, 0
-  |  addic. TMP2, TMP2, -1
-  |   beq cr1, <5
-  |  stw TMP2, DISPATCH_GL(hookcount)(DISPATCH)
-  |  beq >1
-  |   bge cr1, <5
-  |1:
-  |  mr CARG1, L
-  |   stw MULTRES, SAVE_MULTRES
-  |  mr CARG2, PC
-  |   stw BASE, L->base
-  |  // SAVE_PC must hold the _previous_ PC. The callee updates it with PC.
-  |  bl extern lj_dispatch_ins		// (lua_State *L, const BCIns *pc)
-  |3:
-  |  lwz BASE, L->base
-  |4:  // Re-dispatch to static ins.
-  |  lwz INS, -4(PC)
-  |  decode_OP4 TMP1, INS
-  |   decode_RB8 RB, INS
-  |  addi TMP1, TMP1, GG_DISP2STATIC
-  |   decode_RD8 RD, INS
-  |  lwzx TMP0, DISPATCH, TMP1
-  |   decode_RA8 RA, INS
-  |   decode_RC8 RC, INS
-  |  mtctr TMP0
-  |  bctr
-  |
-  |->cont_hook:				// Continue from hook yield.
-  |  addi PC, PC, 4
-  |  lwz MULTRES, -20(RB)		// Restore MULTRES for *M ins.
-  |  b <4
-  |
-  |->vm_hotloop:			// Hot loop counter underflow.
-  |.if JIT
-  |  NYI
-  |.endif
-  |
-  |->vm_callhook:			// Dispatch target for call hooks.
-  |  mr CARG2, PC
-  |.if JIT
-  |  b >1
-  |.endif
-  |
-  |->vm_hotcall:			// Hot call counter underflow.
-  |.if JIT
-  |  ori CARG2, PC, 1
-  |1:
-  |.endif
-  |  add TMP0, BASE, RC
-  |   stw PC, SAVE_PC
-  |  mr CARG1, L
-  |   stw BASE, L->base
-  |  sub RA, RA, BASE
-  |   stw TMP0, L->top
-  |  bl extern lj_dispatch_call		// (lua_State *L, const BCIns *pc)
-  |  // Returns ASMFunction.
-  |  lwz BASE, L->base
-  |   lwz TMP0, L->top
-  |   stw ZERO, SAVE_PC			// Invalidate for subsequent line hook.
-  |  sub NARGS8:RC, TMP0, BASE
-  |  add RA, BASE, RA
-  |  lwz LFUNC:RB, FRAME_FUNC(BASE)
-  |  mtctr CRET1
-  |  bctr
-  |
-  |//-----------------------------------------------------------------------
-  |//-- Trace exit handler -------------------------------------------------
-  |//-----------------------------------------------------------------------
-  |
-  |->vm_exit_handler:
-  |.if JIT
-  |  NYI
-  |.endif
-  |->vm_exit_interp:
-  |.if JIT
-  |  NYI
-  |.endif
-  |
-  |//-----------------------------------------------------------------------
-  |//-- Math helper functions ----------------------------------------------
-  |//-----------------------------------------------------------------------
-  |
-  |// FP value rounding. Called by math.floor/math.ceil fast functions
-  |// and from JIT code.
-  |//
-  |// This can be inlined if the CPU has the frin/friz/frip/frim instructions.
-  |// The alternative hard-float approaches have a deep dependency chain.
-  |// The resulting latency is at least 3x-7x the double-precision FP latency
-  |// (e500v2: 6cy, e600: 5cy, Cell: 10cy) or around 20-70 cycles.
-  |//
-  |// The soft-float approach is tedious, but much faster (e500v2: ~11cy/~6cy).
-  |// However it relies on a fast way to transfer the FP value to GPRs
-  |// (e500v2: 0cy for lo-word, 1cy for hi-word).
-  |//
-  |.macro vm_round, name, mode
-  |  // Used temporaries: TMP0, TMP1, TMP2, TMP3.
-  |->name.._efd:			// Input: CARG2, output: CRET2
-  |  evmergehi CARG1, CARG2, CARG2
-  |->name.._hilo:
-  |  // Input: CARG1 (hi), CARG2 (hi, lo), output: CRET2
-  |  rlwinm TMP2, CARG1, 12, 21, 31
-  |  addic. TMP2, TMP2, -1023		// exp = exponent(x) - 1023
-  |   li TMP1, -1
-  |  cmplwi cr1, TMP2, 51		// 0 <= exp <= 51?
-  |   subfic TMP0, TMP2, 52
-  |  bgt cr1, >1
-  |   lus TMP3, 0xfff0
-  |  slw TMP0, TMP1, TMP0		// lomask = -1 << (52-exp)
-  |   sraw TMP1, TMP3, TMP2		// himask = (int32_t)0xfff00000 >> exp
-  |.if mode == 2		// trunc(x):
-  |  evmergelo TMP0, TMP1, TMP0
-  |  evand CRET2, CARG2, TMP0		// hi &= himask, lo &= lomask
-  |.else
-  |  andc TMP2, CARG2, TMP0
-  |   andc TMP3, CARG1, TMP1
-  |  or TMP2, TMP2, TMP3		// ztest = (hi&~himask) | (lo&~lomask)
-  |   srawi TMP3, CARG1, 31		// signmask = (int32_t)hi >> 31
-  |.if mode == 0		// floor(x):
-  |  and. TMP2, TMP2, TMP3		// iszero = ((ztest & signmask) == 0)
-  |.else			// ceil(x):
-  |  andc. TMP2, TMP2, TMP3		// iszero = ((ztest & ~signmask) == 0)
-  |.endif
-  |  and CARG2, CARG2, TMP0		// lo &= lomask
-  |  and CARG1, CARG1, TMP1		// hi &= himask
-  |   subc TMP0, CARG2, TMP0
-  |  iseleq TMP0, CARG2, TMP0		// lo = iszero ? lo : lo-lomask
-  |   sube TMP1, CARG1, TMP1
-  |  iseleq TMP1, CARG1, TMP1		// hi = iszero ? hi : hi-himask+carry
-  |  evmergelo CRET2, TMP1, TMP0
-  |.endif
-  |  blr
-  |1:
-  |  bgtlr				// Already done if >=2^52, +-inf or nan.
-  |.if mode == 2		// trunc(x):
-  |  rlwinm TMP1, CARG1, 0, 0, 0	// hi = sign(x)
-  |  li TMP0, 0
-  |  evmergelo CRET2, TMP1, TMP0
-  |.else
-  |  rlwinm TMP2, CARG1, 0, 1, 31
-  |  srawi TMP0, CARG1, 31		// signmask = (int32_t)hi >> 31
-  |  or TMP2, TMP2, CARG2		// ztest = abs(hi) | lo
-  |   lus TMP1, 0x3ff0
-  |.if mode == 0		// floor(x):
-  |  and. TMP2, TMP2, TMP0		// iszero = ((ztest & signmask) == 0)
-  |.else			// ceil(x):
-  |  andc. TMP2, TMP2, TMP0		// iszero = ((ztest & ~signmask) == 0)
-  |.endif
-  |   li TMP0, 0
-  |  iseleq TMP1, r0, TMP1
-  |  rlwimi CARG1, TMP1, 0, 1, 31	// hi = sign(x) | (iszero ? 0.0 : 1.0)
-  |  evmergelo CRET2, CARG1, TMP0
-  |.endif
-  |  blr
-  |.endmacro
-  |
-  |->vm_floor:
-  |  mflr CARG3
-  |  evmergelo CARG2, CARG1, CARG2
-  |  bl ->vm_floor_hilo
-  |  mtlr CARG3
-  |  evmergehi CRET1, CRET2, CRET2
-  |  blr
-  |
-  |  vm_round vm_floor, 0
-  |  vm_round vm_ceil,  1
-  |.if JIT
-  |  vm_round vm_trunc, 2
-  |.else
-  |->vm_trunc_efd:
-  |->vm_trunc_hilo:
-  |.endif
-  |
-  |//-----------------------------------------------------------------------
-  |//-- Miscellaneous functions --------------------------------------------
-  |//-----------------------------------------------------------------------
-  |
-  |//-----------------------------------------------------------------------
-  |//-- FFI helper functions -----------------------------------------------
-  |//-----------------------------------------------------------------------
-  |
-  |->vm_ffi_call:
-  |.if FFI
-  |  NYI
-  |.endif
-  |
-  |//-----------------------------------------------------------------------
-}
-
-/* Generate the code for a single instruction. */
-static void build_ins(BuildCtx *ctx, BCOp op, int defop)
-{
-  int vk = 0;
-  |=>defop:
-
-  switch (op) {
-
-  /* -- Comparison ops ---------------------------------------------------- */
-
-  /* Remember: all ops branch for a true comparison, fall through otherwise. */
-
-  case BC_ISLT: case BC_ISGE: case BC_ISLE: case BC_ISGT:
-    |  // RA = src1*8, RD = src2*8, JMP with RD = target
-    |  evlddx TMP0, BASE, RA
-    |   addi PC, PC, 4
-    |  evlddx TMP1, BASE, RD
-    |   addis TMP3, PC, -(BCBIAS_J*4 >> 16)
-    |   lwz TMP2, -4(PC)
-    |  evmergehi RB, TMP0, TMP1
-    |   decode_RD4 TMP2, TMP2
-    |  checknum RB
-    |   add TMP2, TMP2, TMP3
-    |  checkanyfail ->vmeta_comp
-    |  efdcmplt TMP0, TMP1
-    if (op == BC_ISLE || op == BC_ISGT) {
-      |  efdcmpeq cr1, TMP0, TMP1
-      |  cror 4*cr0+gt, 4*cr0+gt, 4*cr1+gt
-    }
-    if (op == BC_ISLT || op == BC_ISLE) {
-      |  iselgt PC, TMP2, PC
-    } else {
-      |  iselgt PC, PC, TMP2
-    }
-    |  ins_next
-    break;
-
-  case BC_ISEQV: case BC_ISNEV:
-    vk = op == BC_ISEQV;
-    |  // RA = src1*8, RD = src2*8, JMP with RD = target
-    |  evlddx CARG2, BASE, RA
-    |   addi PC, PC, 4
-    |  evlddx CARG3, BASE, RD
-    |   addis TMP3, PC, -(BCBIAS_J*4 >> 16)
-    |   lwz TMP2, -4(PC)
-    |  evmergehi RB, CARG2, CARG3
-    |   decode_RD4 TMP2, TMP2
-    |  checknum RB
-    |   add TMP2, TMP2, TMP3
-    |  checkanyfail >5
-    |  efdcmpeq CARG2, CARG3
-    if (vk) {
-      |  iselgt PC, TMP2, PC
-    } else {
-      |  iselgt PC, PC, TMP2
-    }
-    |1:
-    |  ins_next
-    |
-    |5:  // Either or both types are not numbers.
-    |  evcmpeq CARG2, CARG3
-    |   not TMP3, RB
-    |   cmplwi cr1, TMP3, ~LJ_TISPRI		// Primitive?
-    |  crorc 4*cr7+lt, 4*cr0+so, 4*cr0+lt	// 1: Same tv or different type.
-    |   cmplwi cr6, TMP3, ~LJ_TISTABUD		// Table or userdata?
-    |  crandc 4*cr7+gt, 4*cr0+lt, 4*cr1+gt	// 2: Same type and primitive.
-    |   mr SAVE0, PC
-    if (vk) {
-      |  isel PC, TMP2, PC, 4*cr7+gt
-    } else {
-      |  isel TMP2, PC, TMP2, 4*cr7+gt
-    }
-    |  cror 4*cr7+lt, 4*cr7+lt, 4*cr7+gt	// 1 or 2.
-    if (vk) {
-      |  isel PC, TMP2, PC, 4*cr0+so
-    } else {
-      |  isel PC, PC, TMP2, 4*cr0+so
-    }
-    |  blt cr7, <1			// Done if 1 or 2.
-    |  blt cr6, <1			// Done if not tab/ud.
-    |
-    |  // Different tables or userdatas. Need to check __eq metamethod.
-    |  // Field metatable must be at same offset for GCtab and GCudata!
-    |  lwz TAB:TMP2, TAB:CARG2->metatable
-    |   li CARG4, 1-vk			// ne = 0 or 1.
-    |  cmplwi TAB:TMP2, 0
-    |  beq <1				// No metatable?
-    |  lbz TMP2, TAB:TMP2->nomm
-    |  andi. TMP2, TMP2, 1<<MM_eq
-    |  bne <1				// Or 'no __eq' flag set?
-    |  mr PC, SAVE0			// Restore old PC.
-    |  b ->vmeta_equal			// Handle __eq metamethod.
-    break;
-
-  case BC_ISEQS: case BC_ISNES:
-    vk = op == BC_ISEQS;
-    |  // RA = src*8, RD = str_const*8 (~), JMP with RD = target
-    |  evlddx TMP0, BASE, RA
-    |   srwi RD, RD, 1
-    |    lwz INS, 0(PC)
-    |   subfic RD, RD, -4
-    |    addi PC, PC, 4
-    |   lwzx STR:TMP1, KBASE, RD	// KBASE-4-str_const*4
-    |    addis TMP3, PC, -(BCBIAS_J*4 >> 16)
-    |    decode_RD4 TMP2, INS
-    |   evmergelo STR:TMP1, TISSTR, STR:TMP1
-    |    add TMP2, TMP2, TMP3
-    |  evcmpeq TMP0, STR:TMP1
-    if (vk) {
-      |  isel PC, TMP2, PC, 4*cr0+so
-    } else {
-      |  isel PC, PC, TMP2, 4*cr0+so
-    }
-    |  ins_next
-    break;
-
-  case BC_ISEQN: case BC_ISNEN:
-    vk = op == BC_ISEQN;
-    |  // RA = src*8, RD = num_const*8, JMP with RD = target
-    |  evlddx TMP0, BASE, RA
-    |   addi PC, PC, 4
-    |  evlddx TMP1, KBASE, RD
-    |   addis TMP3, PC, -(BCBIAS_J*4 >> 16)
-    |   lwz INS, -4(PC)
-    |  checknum TMP0
-    |  checkfail >5
-    |  efdcmpeq TMP0, TMP1
-    |1:
-    |   decode_RD4 TMP2, INS
-    |   add TMP2, TMP2, TMP3
-    if (vk) {
-      |  iselgt PC, TMP2, PC
-      |5:
-    } else {
-      |  iselgt PC, PC, TMP2
-    }
-    |3:
-    |  ins_next
-    if (!vk) {
-      |5:
-      |  decode_RD4 TMP2, INS
-      |  add PC, TMP2, TMP3
-      |  b <3
-    }
-    break;
-
-  case BC_ISEQP: case BC_ISNEP:
-    vk = op == BC_ISEQP;
-    |  // RA = src*8, RD = primitive_type*8 (~), JMP with RD = target
-    |  lwzx TMP0, BASE, RA
-    |   srwi TMP1, RD, 3
-    |    lwz INS, 0(PC)
-    |    addi PC, PC, 4
-    |   not TMP1, TMP1
-    |    addis TMP3, PC, -(BCBIAS_J*4 >> 16)
-    |  cmplw TMP0, TMP1
-    |    decode_RD4 TMP2, INS
-    |    add TMP2, TMP2, TMP3
-    if (vk) {
-      |  iseleq PC, TMP2, PC
-    } else {
-      |  iseleq PC, PC, TMP2
-    }
-    |  ins_next
-    break;
-
-  /* -- Unary test and copy ops ------------------------------------------- */
-
-  case BC_ISTC: case BC_ISFC: case BC_IST: case BC_ISF:
-    |  // RA = dst*8 or unused, RD = src*8, JMP with RD = target
-    |  evlddx TMP0, BASE, RD
-    |   evaddw TMP1, TISNIL, TISNIL	// Synthesize LJ_TFALSE.
-    |   lwz INS, 0(PC)
-    |  evcmpltu TMP0, TMP1
-    |   addi PC, PC, 4
-    if (op == BC_IST || op == BC_ISF) {
-      |  addis TMP3, PC, -(BCBIAS_J*4 >> 16)
-      |  decode_RD4 TMP2, INS
-      |  add TMP2, TMP2, TMP3
-      if (op == BC_IST) {
-	|  isellt PC, TMP2, PC
-      } else {
-	|  isellt PC, PC, TMP2
-      }
-    } else {
-      if (op == BC_ISTC) {
-	|  checkfail >1
-      } else {
-	|  checkok >1
-      }
-      |  addis PC, PC, -(BCBIAS_J*4 >> 16)
-      |  decode_RD4 TMP2, INS
-      |   evstddx TMP0, BASE, RA
-      |  add PC, PC, TMP2
-      |1:
-    }
-    |  ins_next
-    break;
-
-  /* -- Unary ops --------------------------------------------------------- */
-
-  case BC_MOV:
-    |  // RA = dst*8, RD = src*8
-    |  ins_next1
-    |  evlddx TMP0, BASE, RD
-    |  evstddx TMP0, BASE, RA
-    |  ins_next2
-    break;
-  case BC_NOT:
-    |  // RA = dst*8, RD = src*8
-    |  ins_next1
-    |  lwzx TMP0, BASE, RD
-    |  subfic TMP1, TMP0, LJ_TTRUE
-    |  adde TMP0, TMP0, TMP1
-    |  stwx TMP0, BASE, RA
-    |  ins_next2
-    break;
-  case BC_UNM:
-    |  // RA = dst*8, RD = src*8
-    |  evlddx TMP0, BASE, RD
-    |  checknum TMP0
-    |  checkfail ->vmeta_unm
-    |  efdneg TMP0, TMP0
-    |  ins_next1
-    |  evstddx TMP0, BASE, RA
-    |  ins_next2
-    break;
-  case BC_LEN:
-    |  // RA = dst*8, RD = src*8
-    |  evlddx CARG1, BASE, RD
-    |  checkstr CARG1
-    |  checkfail >2
-    |  lwz CRET1, STR:CARG1->len
-    |1:
-    |  ins_next1
-    |  efdcfsi TMP0, CRET1
-    |  evstddx TMP0, BASE, RA
-    |  ins_next2
-    |2:
-    |  checktab CARG1
-    |  checkfail ->vmeta_len
-#if LJ_52
-    |  lwz TAB:TMP2, TAB:CARG1->metatable
-    |  cmplwi TAB:TMP2, 0
-    |  bne >9
-    |3:
-#endif
-    |->BC_LEN_Z:
-    |  bl extern lj_tab_len		// (GCtab *t)
-    |  // Returns uint32_t (but less than 2^31).
-    |  b <1
-#if LJ_52
-    |9:
-    |  lbz TMP0, TAB:TMP2->nomm
-    |  andi. TMP0, TMP0, 1<<MM_len
-    |  bne <3				// 'no __len' flag set: done.
-    |  b ->vmeta_len
-#endif
-    break;
-
-  /* -- Binary ops -------------------------------------------------------- */
-
-    |.macro ins_arithpre, t0, t1
-    |  // RA = dst*8, RB = src1*8, RC = src2*8 | num_const*8
-    ||vk = ((int)op - BC_ADDVN) / (BC_ADDNV-BC_ADDVN);
-    ||switch (vk) {
-    ||case 0:
-    |   evlddx t0, BASE, RB
-    |    checknum t0
-    |   evlddx t1, KBASE, RC
-    |    checkfail ->vmeta_arith_vn
-    ||  break;
-    ||case 1:
-    |   evlddx t1, BASE, RB
-    |    checknum t1
-    |   evlddx t0, KBASE, RC
-    |    checkfail ->vmeta_arith_nv
-    ||  break;
-    ||default:
-    |   evlddx t0, BASE, RB
-    |   evlddx t1, BASE, RC
-    |    evmergehi TMP2, t0, t1
-    |    checknum TMP2
-    |    checkanyfail ->vmeta_arith_vv
-    ||  break;
-    ||}
-    |.endmacro
-    |
-    |.macro ins_arith, ins
-    |  ins_arithpre TMP0, TMP1
-    |  ins_next1
-    |  ins TMP0, TMP0, TMP1
-    |  evstddx TMP0, BASE, RA
-    |  ins_next2
-    |.endmacro
-
-  case BC_ADDVN: case BC_ADDNV: case BC_ADDVV:
-    |  ins_arith efdadd
-    break;
-  case BC_SUBVN: case BC_SUBNV: case BC_SUBVV:
-    |  ins_arith efdsub
-    break;
-  case BC_MULVN: case BC_MULNV: case BC_MULVV:
-    |  ins_arith efdmul
-    break;
-  case BC_DIVVN: case BC_DIVNV: case BC_DIVVV:
-    |  ins_arith efddiv
-    break;
-  case BC_MODVN:
-    |  ins_arithpre RD, SAVE0
-    |->BC_MODVN_Z:
-    |  efddiv CARG2, RD, SAVE0
-    |  bl ->vm_floor_efd		// floor(b/c)
-    |  efdmul TMP0, CRET2, SAVE0
-    |  ins_next1
-    |  efdsub TMP0, RD, TMP0		// b - floor(b/c)*c
-    |  evstddx TMP0, BASE, RA
-    |  ins_next2
-    break;
-  case BC_MODNV: case BC_MODVV:
-    |  ins_arithpre RD, SAVE0
-    |  b ->BC_MODVN_Z			// Avoid 3 copies. It's slow anyway.
-    break;
-  case BC_POW:
-    |  evlddx CARG2, BASE, RB
-    |  evlddx CARG4, BASE, RC
-    |  evmergehi CARG1, CARG4, CARG2
-    |  checknum CARG1
-    |   evmergehi CARG3, CARG4, CARG4
-    |  checkanyfail ->vmeta_arith_vv
-    |  bl extern pow@plt
-    |  evmergelo CRET2, CRET1, CRET2
-    |  evstddx CRET2, BASE, RA
-    |  ins_next
-    break;
-
-  case BC_CAT:
-    |  // RA = dst*8, RB = src_start*8, RC = src_end*8
-    |  sub CARG3, RC, RB
-    |   stw BASE, L->base
-    |  add CARG2, BASE, RC
-    |  mr SAVE0, RB
-    |->BC_CAT_Z:
-    |   stw PC, SAVE_PC
-    |  mr CARG1, L
-    |  srwi CARG3, CARG3, 3
-    |  bl extern lj_meta_cat		// (lua_State *L, TValue *top, int left)
-    |  // Returns NULL (finished) or TValue * (metamethod).
-    |  cmplwi CRET1, 0
-    |   lwz BASE, L->base
-    |  bne ->vmeta_binop
-    |  evlddx TMP0, BASE, SAVE0		// Copy result from RB to RA.
-    |  evstddx TMP0, BASE, RA
-    |  ins_next
-    break;
-
-  /* -- Constant ops ------------------------------------------------------ */
-
-  case BC_KSTR:
-    |  // RA = dst*8, RD = str_const*8 (~)
-    |  ins_next1
-    |  srwi TMP1, RD, 1
-    |  subfic TMP1, TMP1, -4
-    |  lwzx TMP0, KBASE, TMP1		// KBASE-4-str_const*4
-    |  evmergelo TMP0, TISSTR, TMP0
-    |  evstddx TMP0, BASE, RA
-    |  ins_next2
-    break;
-  case BC_KCDATA:
-    |.if FFI
-    |  // RA = dst*8, RD = cdata_const*8 (~)
-    |  ins_next1
-    |  srwi TMP1, RD, 1
-    |  subfic TMP1, TMP1, -4
-    |  lwzx TMP0, KBASE, TMP1		// KBASE-4-cdata_const*4
-    |  li TMP2, LJ_TCDATA
-    |  evmergelo TMP0, TMP2, TMP0
-    |  evstddx TMP0, BASE, RA
-    |  ins_next2
-    |.endif
-    break;
-  case BC_KSHORT:
-    |  // RA = dst*8, RD = int16_literal*8
-    |  srwi TMP1, RD, 3
-    |  extsh TMP1, TMP1
-    |  ins_next1
-    |  efdcfsi TMP0, TMP1
-    |  evstddx TMP0, BASE, RA
-    |  ins_next2
-    break;
-  case BC_KNUM:
-    |  // RA = dst*8, RD = num_const*8
-    |  evlddx TMP0, KBASE, RD
-    |  ins_next1
-    |  evstddx TMP0, BASE, RA
-    |  ins_next2
-    break;
-  case BC_KPRI:
-    |  // RA = dst*8, RD = primitive_type*8 (~)
-    |  srwi TMP1, RD, 3
-    |  not TMP0, TMP1
-    |  ins_next1
-    |  stwx TMP0, BASE, RA
-    |  ins_next2
-    break;
-  case BC_KNIL:
-    |  // RA = base*8, RD = end*8
-    |  evstddx TISNIL, BASE, RA
-    |   addi RA, RA, 8
-    |1:
-    |  evstddx TISNIL, BASE, RA
-    |  cmpw RA, RD
-    |   addi RA, RA, 8
-    |  blt <1
-    |  ins_next_
-    break;
-
-  /* -- Upvalue and function ops ------------------------------------------ */
-
-  case BC_UGET:
-    |  // RA = dst*8, RD = uvnum*8
-    |  ins_next1
-    |  lwz LFUNC:RB, FRAME_FUNC(BASE)
-    |   srwi RD, RD, 1
-    |   addi RD, RD, offsetof(GCfuncL, uvptr)
-    |  lwzx UPVAL:RB, LFUNC:RB, RD
-    |  lwz TMP1, UPVAL:RB->v
-    |  evldd TMP0, 0(TMP1)
-    |  evstddx TMP0, BASE, RA
-    |  ins_next2
-    break;
-  case BC_USETV:
-    |  // RA = uvnum*8, RD = src*8
-    |  lwz LFUNC:RB, FRAME_FUNC(BASE)
-    |    srwi RA, RA, 1
-    |    addi RA, RA, offsetof(GCfuncL, uvptr)
-    |   evlddx TMP1, BASE, RD
-    |  lwzx UPVAL:RB, LFUNC:RB, RA
-    |  lbz TMP3, UPVAL:RB->marked
-    |   lwz CARG2, UPVAL:RB->v
-    |  andi. TMP3, TMP3, LJ_GC_BLACK	// isblack(uv)
-    |    lbz TMP0, UPVAL:RB->closed
-    |   evmergehi TMP2, TMP1, TMP1
-    |   evstdd TMP1, 0(CARG2)
-    |    cmplwi cr1, TMP0, 0
-    |  cror 4*cr0+eq, 4*cr0+eq, 4*cr1+eq
-    |   subi TMP2, TMP2, (LJ_TISNUM+1)
-    |  bne >2				// Upvalue is closed and black?
-    |1:
-    |  ins_next
-    |
-    |2:  // Check if new value is collectable.
-    |  cmplwi TMP2, LJ_TISGCV - (LJ_TISNUM+1)
-    |  bge <1				// tvisgcv(v)
-    |  lbz TMP3, GCOBJ:TMP1->gch.marked
-    |  andi. TMP3, TMP3, LJ_GC_WHITES	// iswhite(v)
-    |   la CARG1, GG_DISP2G(DISPATCH)
-    |  // Crossed a write barrier. Move the barrier forward.
-    |  beq <1
-    |  bl extern lj_gc_barrieruv	// (global_State *g, TValue *tv)
-    |  b <1
-    break;
-  case BC_USETS:
-    |  // RA = uvnum*8, RD = str_const*8 (~)
-    |  lwz LFUNC:RB, FRAME_FUNC(BASE)
-    |   srwi TMP1, RD, 1
-    |    srwi RA, RA, 1
-    |   subfic TMP1, TMP1, -4
-    |    addi RA, RA, offsetof(GCfuncL, uvptr)
-    |   lwzx STR:TMP1, KBASE, TMP1	// KBASE-4-str_const*4
-    |  lwzx UPVAL:RB, LFUNC:RB, RA
-    |   evmergelo STR:TMP1, TISSTR, STR:TMP1
-    |  lbz TMP3, UPVAL:RB->marked
-    |   lwz CARG2, UPVAL:RB->v
-    |  andi. TMP3, TMP3, LJ_GC_BLACK	// isblack(uv)
-    |   lbz TMP3, STR:TMP1->marked
-    |   lbz TMP2, UPVAL:RB->closed
-    |   evstdd STR:TMP1, 0(CARG2)
-    |  bne >2
-    |1:
-    |  ins_next
-    |
-    |2:  // Check if string is white and ensure upvalue is closed.
-    |  andi. TMP3, TMP3, LJ_GC_WHITES	// iswhite(str)
-    |   cmplwi cr1, TMP2, 0
-    |  cror 4*cr0+eq, 4*cr0+eq, 4*cr1+eq
-    |   la CARG1, GG_DISP2G(DISPATCH)
-    |  // Crossed a write barrier. Move the barrier forward.
-    |  beq <1
-    |  bl extern lj_gc_barrieruv	// (global_State *g, TValue *tv)
-    |  b <1
-    break;
-  case BC_USETN:
-    |  // RA = uvnum*8, RD = num_const*8
-    |  ins_next1
-    |  lwz LFUNC:RB, FRAME_FUNC(BASE)
-    |   srwi RA, RA, 1
-    |   addi RA, RA, offsetof(GCfuncL, uvptr)
-    |    evlddx TMP0, KBASE, RD
-    |  lwzx UPVAL:RB, LFUNC:RB, RA
-    |  lwz TMP1, UPVAL:RB->v
-    |  evstdd TMP0, 0(TMP1)
-    |  ins_next2
-    break;
-  case BC_USETP:
-    |  // RA = uvnum*8, RD = primitive_type*8 (~)
-    |  ins_next1
-    |  lwz LFUNC:RB, FRAME_FUNC(BASE)
-    |   srwi RA, RA, 1
-    |   addi RA, RA, offsetof(GCfuncL, uvptr)
-    |    srwi TMP0, RD, 3
-    |  lwzx UPVAL:RB, LFUNC:RB, RA
-    |    not TMP0, TMP0
-    |  lwz TMP1, UPVAL:RB->v
-    |  stw TMP0, 0(TMP1)
-    |  ins_next2
-    break;
-
-  case BC_UCLO:
-    |  // RA = level*8, RD = target
-    |  lwz TMP1, L->openupval
-    |  branch_RD			// Do this first since RD is not saved.
-    |   stw BASE, L->base
-    |  cmplwi TMP1, 0
-    |   mr CARG1, L
-    |  beq >1
-    |   add CARG2, BASE, RA
-    |  bl extern lj_func_closeuv	// (lua_State *L, TValue *level)
-    |  lwz BASE, L->base
-    |1:
-    |  ins_next
-    break;
-
-  case BC_FNEW:
-    |  // RA = dst*8, RD = proto_const*8 (~) (holding function prototype)
-    |  srwi TMP1, RD, 1
-    |   stw BASE, L->base
-    |  subfic TMP1, TMP1, -4
-    |   stw PC, SAVE_PC
-    |  lwzx CARG2, KBASE, TMP1		// KBASE-4-tab_const*4
-    |   mr CARG1, L
-    |  lwz CARG3, FRAME_FUNC(BASE)
-    |  // (lua_State *L, GCproto *pt, GCfuncL *parent)
-    |  bl extern lj_func_newL_gc
-    |  // Returns GCfuncL *.
-    |  lwz BASE, L->base
-    |  evmergelo LFUNC:CRET1, TISFUNC, LFUNC:CRET1
-    |  evstddx LFUNC:CRET1, BASE, RA
-    |  ins_next
-    break;
-
-  /* -- Table ops --------------------------------------------------------- */
-
-  case BC_TNEW:
-  case BC_TDUP:
-    |  // RA = dst*8, RD = (hbits|asize)*8 | tab_const*8 (~)
-    |  lwz TMP0, DISPATCH_GL(gc.total)(DISPATCH)
-    |   mr CARG1, L
-    |  lwz TMP1, DISPATCH_GL(gc.threshold)(DISPATCH)
-    |   stw BASE, L->base
-    |  cmplw TMP0, TMP1
-    |   stw PC, SAVE_PC
-    |  bge >5
-    |1:
-    if (op == BC_TNEW) {
-      |  rlwinm CARG2, RD, 29, 21, 31
-      |  rlwinm CARG3, RD, 18, 27, 31
-      |  cmpwi CARG2, 0x7ff
-      |   li TMP1, 0x801
-      |  iseleq CARG2, TMP1, CARG2
-      |  bl extern lj_tab_new  // (lua_State *L, int32_t asize, uint32_t hbits)
-      |  // Returns Table *.
-    } else {
-      |  srwi TMP1, RD, 1
-      |  subfic TMP1, TMP1, -4
-      |  lwzx CARG2, KBASE, TMP1		// KBASE-4-tab_const*4
-      |  bl extern lj_tab_dup  // (lua_State *L, Table *kt)
-      |  // Returns Table *.
-    }
-    |  lwz BASE, L->base
-    |  evmergelo TAB:CRET1, TISTAB, TAB:CRET1
-    |  evstddx TAB:CRET1, BASE, RA
-    |  ins_next
-    |5:
-    |  mr SAVE0, RD
-    |  bl extern lj_gc_step_fixtop  // (lua_State *L)
-    |  mr RD, SAVE0
-    |  mr CARG1, L
-    |  b <1
-    break;
-
-  case BC_GGET:
-    |  // RA = dst*8, RD = str_const*8 (~)
-  case BC_GSET:
-    |  // RA = src*8, RD = str_const*8 (~)
-    |  lwz LFUNC:TMP2, FRAME_FUNC(BASE)
-    |   srwi TMP1, RD, 1
-    |  lwz TAB:RB, LFUNC:TMP2->env
-    |   subfic TMP1, TMP1, -4
-    |   lwzx STR:RC, KBASE, TMP1	// KBASE-4-str_const*4
-    if (op == BC_GGET) {
-      |  b ->BC_TGETS_Z
-    } else {
-      |  b ->BC_TSETS_Z
-    }
-    break;
-
-  case BC_TGETV:
-    |  // RA = dst*8, RB = table*8, RC = key*8
-    |  evlddx TAB:RB, BASE, RB
-    |   evlddx RC, BASE, RC
-    |  checktab TAB:RB
-    |  checkfail ->vmeta_tgetv
-    |  checknum RC
-    |  checkfail >5
-    |  // Convert number key to integer
-    |  efdctsi TMP2, RC
-    |   lwz TMP0, TAB:RB->asize
-    |  efdcfsi TMP1, TMP2
-    |   cmplw cr0, TMP0, TMP2
-    |  efdcmpeq cr1, RC, TMP1
-    |   lwz TMP1, TAB:RB->array
-    |  crand 4*cr0+gt, 4*cr0+gt, 4*cr1+gt
-    |   slwi TMP2, TMP2, 3
-    |  ble ->vmeta_tgetv		// Integer key and in array part?
-    |  evlddx TMP1, TMP1, TMP2
-    |  checknil TMP1
-    |  checkok >2
-    |1:
-    |  evstddx TMP1, BASE, RA
-    |  ins_next
-    |
-    |2:  // Check for __index if table value is nil.
-    |  lwz TAB:TMP2, TAB:RB->metatable
-    |  cmplwi TAB:TMP2, 0
-    |  beq <1				// No metatable: done.
-    |  lbz TMP0, TAB:TMP2->nomm
-    |  andi. TMP0, TMP0, 1<<MM_index
-    |  bne <1				// 'no __index' flag set: done.
-    |  b ->vmeta_tgetv
-    |
-    |5:
-    |  checkstr STR:RC			// String key?
-    |  checkok ->BC_TGETS_Z
-    |  b ->vmeta_tgetv
-    break;
-  case BC_TGETS:
-    |  // RA = dst*8, RB = table*8, RC = str_const*8 (~)
-    |  evlddx TAB:RB, BASE, RB
-    |   srwi TMP1, RC, 1
-    |  checktab TAB:RB
-    |   subfic TMP1, TMP1, -4
-    |   lwzx STR:RC, KBASE, TMP1	// KBASE-4-str_const*4
-    |  checkfail ->vmeta_tgets1
-    |->BC_TGETS_Z:
-    |  // TAB:RB = GCtab *, STR:RC = GCstr *, RA = dst*8
-    |  lwz TMP0, TAB:RB->hmask
-    |  lwz TMP1, STR:RC->hash
-    |  lwz NODE:TMP2, TAB:RB->node
-    |   evmergelo STR:RC, TISSTR, STR:RC
-    |  and TMP1, TMP1, TMP0		// idx = str->hash & tab->hmask
-    |  slwi TMP0, TMP1, 5
-    |  slwi TMP1, TMP1, 3
-    |  sub TMP1, TMP0, TMP1
-    |  add NODE:TMP2, NODE:TMP2, TMP1	// node = tab->node + (idx*32-idx*8)
-    |1:
-    |  evldd TMP0, NODE:TMP2->key
-    |   evldd TMP1, NODE:TMP2->val
-    |  evcmpeq TMP0, STR:RC
-    |  checkanyfail >4
-    |   checknil TMP1
-    |   checkok >5			// Key found, but nil value?
-    |3:
-    |   evstddx TMP1, BASE, RA
-    |  ins_next
-    |
-    |4:  // Follow hash chain.
-    |  lwz NODE:TMP2, NODE:TMP2->next
-    |  cmplwi NODE:TMP2, 0
-    |  bne <1
-    |  // End of hash chain: key not found, nil result.
-    |   evmr TMP1, TISNIL
-    |
-    |5:  // Check for __index if table value is nil.
-    |  lwz TAB:TMP2, TAB:RB->metatable
-    |  cmplwi TAB:TMP2, 0
-    |  beq <3				// No metatable: done.
-    |  lbz TMP0, TAB:TMP2->nomm
-    |  andi. TMP0, TMP0, 1<<MM_index
-    |  bne <3				// 'no __index' flag set: done.
-    |  b ->vmeta_tgets
-    break;
-  case BC_TGETB:
-    |  // RA = dst*8, RB = table*8, RC = index*8
-    |  evlddx TAB:RB, BASE, RB
-    |   srwi TMP0, RC, 3
-    |  checktab TAB:RB
-    |  checkfail ->vmeta_tgetb
-    |  lwz TMP1, TAB:RB->asize
-    |   lwz TMP2, TAB:RB->array
-    |  cmplw TMP0, TMP1
-    |  bge ->vmeta_tgetb
-    |  evlddx TMP1, TMP2, RC
-    |  checknil TMP1
-    |  checkok >5
-    |1:
-    |  ins_next1
-    |  evstddx TMP1, BASE, RA
-    |  ins_next2
-    |
-    |5:  // Check for __index if table value is nil.
-    |  lwz TAB:TMP2, TAB:RB->metatable
-    |  cmplwi TAB:TMP2, 0
-    |  beq <1				// No metatable: done.
-    |  lbz TMP2, TAB:TMP2->nomm
-    |  andi. TMP2, TMP2, 1<<MM_index
-    |  bne <1				// 'no __index' flag set: done.
-    |  b ->vmeta_tgetb			// Caveat: preserve TMP0!
-    break;
-
-  case BC_TSETV:
-    |  // RA = src*8, RB = table*8, RC = key*8
-    |  evlddx TAB:RB, BASE, RB
-    |   evlddx RC, BASE, RC
-    |  checktab TAB:RB
-    |  checkfail ->vmeta_tsetv
-    |  checknum RC
-    |  checkfail >5
-    |  // Convert number key to integer
-    |  efdctsi TMP2, RC
-    |    evlddx SAVE0, BASE, RA
-    |   lwz TMP0, TAB:RB->asize
-    |  efdcfsi TMP1, TMP2
-    |   cmplw cr0, TMP0, TMP2
-    |  efdcmpeq cr1, RC, TMP1
-    |   lwz TMP1, TAB:RB->array
-    |  crand 4*cr0+gt, 4*cr0+gt, 4*cr1+gt
-    |   slwi TMP0, TMP2, 3
-    |  ble ->vmeta_tsetv		// Integer key and in array part?
-    |   lbz TMP3, TAB:RB->marked
-    |  evlddx TMP2, TMP1, TMP0
-    |  checknil TMP2
-    |  checkok >3
-    |1:
-    |  andi. TMP2, TMP3, LJ_GC_BLACK	// isblack(table)
-    |   evstddx SAVE0, TMP1, TMP0
-    |  bne >7
-    |2:
-    |  ins_next
-    |
-    |3:  // Check for __newindex if previous value is nil.
-    |  lwz TAB:TMP2, TAB:RB->metatable
-    |  cmplwi TAB:TMP2, 0
-    |  beq <1				// No metatable: done.
-    |  lbz TMP2, TAB:TMP2->nomm
-    |  andi. TMP2, TMP2, 1<<MM_newindex
-    |  bne <1				// 'no __newindex' flag set: done.
-    |  b ->vmeta_tsetv
-    |
-    |5:
-    |  checkstr STR:RC			// String key?
-    |  checkok ->BC_TSETS_Z
-    |  b ->vmeta_tsetv
-    |
-    |7:  // Possible table write barrier for the value. Skip valiswhite check.
-    |  barrierback TAB:RB, TMP3, TMP0
-    |  b <2
-    break;
-  case BC_TSETS:
-    |  // RA = src*8, RB = table*8, RC = str_const*8 (~)
-    |  evlddx TAB:RB, BASE, RB
-    |   srwi TMP1, RC, 1
-    |  checktab TAB:RB
-    |   subfic TMP1, TMP1, -4
-    |   lwzx STR:RC, KBASE, TMP1	// KBASE-4-str_const*4
-    |  checkfail ->vmeta_tsets1
-    |->BC_TSETS_Z:
-    |  // TAB:RB = GCtab *, STR:RC = GCstr *, RA = src*8
-    |  lwz TMP0, TAB:RB->hmask
-    |  lwz TMP1, STR:RC->hash
-    |  lwz NODE:TMP2, TAB:RB->node
-    |   evmergelo STR:RC, TISSTR, STR:RC
-    |    stb ZERO, TAB:RB->nomm		// Clear metamethod cache.
-    |  and TMP1, TMP1, TMP0		// idx = str->hash & tab->hmask
-    |    evlddx SAVE0, BASE, RA
-    |  slwi TMP0, TMP1, 5
-    |  slwi TMP1, TMP1, 3
-    |  sub TMP1, TMP0, TMP1
-    |    lbz TMP3, TAB:RB->marked
-    |  add NODE:TMP2, NODE:TMP2, TMP1	// node = tab->node + (idx*32-idx*8)
-    |1:
-    |  evldd TMP0, NODE:TMP2->key
-    |   evldd TMP1, NODE:TMP2->val
-    |  evcmpeq TMP0, STR:RC
-    |  checkanyfail >5
-    |   checknil TMP1
-    |   checkok >4			// Key found, but nil value?
-    |2:
-    |  andi. TMP0, TMP3, LJ_GC_BLACK	// isblack(table)
-    |    evstdd SAVE0, NODE:TMP2->val
-    |  bne >7
-    |3:
-    |  ins_next
-    |
-    |4:  // Check for __newindex if previous value is nil.
-    |  lwz TAB:TMP1, TAB:RB->metatable
-    |  cmplwi TAB:TMP1, 0
-    |  beq <2				// No metatable: done.
-    |  lbz TMP0, TAB:TMP1->nomm
-    |  andi. TMP0, TMP0, 1<<MM_newindex
-    |  bne <2				// 'no __newindex' flag set: done.
-    |  b ->vmeta_tsets
-    |
-    |5:  // Follow hash chain.
-    |  lwz NODE:TMP2, NODE:TMP2->next
-    |  cmplwi NODE:TMP2, 0
-    |  bne <1
-    |  // End of hash chain: key not found, add a new one.
-    |
-    |  // But check for __newindex first.
-    |  lwz TAB:TMP1, TAB:RB->metatable
-    |   la CARG3, DISPATCH_GL(tmptv)(DISPATCH)
-    |   stw PC, SAVE_PC
-    |   mr CARG1, L
-    |  cmplwi TAB:TMP1, 0
-    |   stw BASE, L->base
-    |  beq >6				// No metatable: continue.
-    |  lbz TMP0, TAB:TMP1->nomm
-    |  andi. TMP0, TMP0, 1<<MM_newindex
-    |  beq ->vmeta_tsets		// 'no __newindex' flag NOT set: check.
-    |6:
-    |  mr CARG2, TAB:RB
-    |  evstdd STR:RC, 0(CARG3)
-    |  bl extern lj_tab_newkey		// (lua_State *L, GCtab *t, TValue *k)
-    |  // Returns TValue *.
-    |  lwz BASE, L->base
-    |  evstdd SAVE0, 0(CRET1)
-    |  b <3				// No 2nd write barrier needed.
-    |
-    |7:  // Possible table write barrier for the value. Skip valiswhite check.
-    |  barrierback TAB:RB, TMP3, TMP0
-    |  b <3
-    break;
-  case BC_TSETB:
-    |  // RA = src*8, RB = table*8, RC = index*8
-    |  evlddx TAB:RB, BASE, RB
-    |   srwi TMP0, RC, 3
-    |  checktab TAB:RB
-    |  checkfail ->vmeta_tsetb
-    |  lwz TMP1, TAB:RB->asize
-    |   lwz TMP2, TAB:RB->array
-    |    lbz TMP3, TAB:RB->marked
-    |  cmplw TMP0, TMP1
-    |   evlddx SAVE0, BASE, RA
-    |  bge ->vmeta_tsetb
-    |  evlddx TMP1, TMP2, RC
-    |  checknil TMP1
-    |  checkok >5
-    |1:
-    |  andi. TMP0, TMP3, LJ_GC_BLACK	// isblack(table)
-    |   evstddx SAVE0, TMP2, RC
-    |  bne >7
-    |2:
-    |  ins_next
-    |
-    |5:  // Check for __newindex if previous value is nil.
-    |  lwz TAB:TMP1, TAB:RB->metatable
-    |  cmplwi TAB:TMP1, 0
-    |  beq <1				// No metatable: done.
-    |  lbz TMP1, TAB:TMP1->nomm
-    |  andi. TMP1, TMP1, 1<<MM_newindex
-    |  bne <1				// 'no __newindex' flag set: done.
-    |  b ->vmeta_tsetb			// Caveat: preserve TMP0!
-    |
-    |7:  // Possible table write barrier for the value. Skip valiswhite check.
-    |  barrierback TAB:RB, TMP3, TMP0
-    |  b <2
-    break;
-
-  case BC_TSETM:
-    |  // RA = base*8 (table at base-1), RD = num_const*8 (start index)
-    |  add RA, BASE, RA
-    |1:
-    |   add TMP3, KBASE, RD
-    |  lwz TAB:CARG2, -4(RA)		// Guaranteed to be a table.
-    |    addic. TMP0, MULTRES, -8
-    |   lwz TMP3, 4(TMP3)		// Integer constant is in lo-word.
-    |    srwi CARG3, TMP0, 3
-    |    beq >4				// Nothing to copy?
-    |  add CARG3, CARG3, TMP3
-    |  lwz TMP2, TAB:CARG2->asize
-    |   slwi TMP1, TMP3, 3
-    |    lbz TMP3, TAB:CARG2->marked
-    |  cmplw CARG3, TMP2
-    |   add TMP2, RA, TMP0
-    |   lwz TMP0, TAB:CARG2->array
-    |  bgt >5
-    |   add TMP1, TMP1, TMP0
-    |    andi. TMP0, TMP3, LJ_GC_BLACK	// isblack(table)
-    |3:  // Copy result slots to table.
-    |   evldd TMP0, 0(RA)
-    |  addi RA, RA, 8
-    |  cmpw cr1, RA, TMP2
-    |   evstdd TMP0, 0(TMP1)
-    |    addi TMP1, TMP1, 8
-    |  blt cr1, <3
-    |  bne >7
-    |4:
-    |  ins_next
-    |
-    |5:  // Need to resize array part.
-    |   stw BASE, L->base
-    |  mr CARG1, L
-    |   stw PC, SAVE_PC
-    |  mr SAVE0, RD
-    |  bl extern lj_tab_reasize		// (lua_State *L, GCtab *t, int nasize)
-    |  // Must not reallocate the stack.
-    |  mr RD, SAVE0
-    |  b <1
-    |
-    |7:  // Possible table write barrier for any value. Skip valiswhite check.
-    |  barrierback TAB:CARG2, TMP3, TMP0
-    |  b <4
-    break;
-
-  /* -- Calls and vararg handling ----------------------------------------- */
-
-  case BC_CALLM:
-    |  // RA = base*8, (RB = (nresults+1)*8,) RC = extra_nargs*8
-    |  add NARGS8:RC, NARGS8:RC, MULTRES
-    |  // Fall through. Assumes BC_CALL follows.
-    break;
-  case BC_CALL:
-    |  // RA = base*8, (RB = (nresults+1)*8,) RC = (nargs+1)*8
-    |  evlddx LFUNC:RB, BASE, RA
-    |   mr TMP2, BASE
-    |   add BASE, BASE, RA
-    |    subi NARGS8:RC, NARGS8:RC, 8
-    |  checkfunc LFUNC:RB
-    |   addi BASE, BASE, 8
-    |  checkfail ->vmeta_call
-    |  ins_call
-    break;
-
-  case BC_CALLMT:
-    |  // RA = base*8, (RB = 0,) RC = extra_nargs*8
-    |  add NARGS8:RC, NARGS8:RC, MULTRES
-    |  // Fall through. Assumes BC_CALLT follows.
-    break;
-  case BC_CALLT:
-    |  // RA = base*8, (RB = 0,) RC = (nargs+1)*8
-    |  evlddx LFUNC:RB, BASE, RA
-    |   add RA, BASE, RA
-    |    lwz TMP1, FRAME_PC(BASE)
-    |    subi NARGS8:RC, NARGS8:RC, 8
-    |  checkfunc LFUNC:RB
-    |   addi RA, RA, 8
-    |  checkfail ->vmeta_callt
-    |->BC_CALLT_Z:
-    |  andi. TMP0, TMP1, FRAME_TYPE	// Caveat: preserve cr0 until the crand.
-    |   lbz TMP3, LFUNC:RB->ffid
-    |    xori TMP2, TMP1, FRAME_VARG
-    |    cmplwi cr1, NARGS8:RC, 0
-    |  bne >7
-    |1:
-    |  stw LFUNC:RB, FRAME_FUNC(BASE)	// Copy function down, but keep PC.
-    |  li TMP2, 0
-    |   cmplwi cr7, TMP3, 1		// (> FF_C) Calling a fast function?
-    |    beq cr1, >3
-    |2:
-    |  addi TMP3, TMP2, 8
-    |   evlddx TMP0, RA, TMP2
-    |  cmplw cr1, TMP3, NARGS8:RC
-    |   evstddx TMP0, BASE, TMP2
-    |  mr TMP2, TMP3
-    |  bne cr1, <2
-    |3:
-    |  crand 4*cr0+eq, 4*cr0+eq, 4*cr7+gt
-    |  beq >5
-    |4:
-    |  ins_callt
-    |
-    |5:  // Tailcall to a fast function with a Lua frame below.
-    |  lwz INS, -4(TMP1)
-    |  decode_RA8 RA, INS
-    |  sub TMP1, BASE, RA
-    |  lwz LFUNC:TMP1, FRAME_FUNC-8(TMP1)
-    |  lwz TMP1, LFUNC:TMP1->pc
-    |  lwz KBASE, PC2PROTO(k)(TMP1)	// Need to prepare KBASE.
-    |  b <4
-    |
-    |7:  // Tailcall from a vararg function.
-    |  andi. TMP0, TMP2, FRAME_TYPEP
-    |  bne <1				// Vararg frame below?
-    |  sub BASE, BASE, TMP2		// Relocate BASE down.
-    |  lwz TMP1, FRAME_PC(BASE)
-    |  andi. TMP0, TMP1, FRAME_TYPE
-    |  b <1
-    break;
-
-  case BC_ITERC:
-    |  // RA = base*8, (RB = (nresults+1)*8, RC = (nargs+1)*8 ((2+1)*8))
-    |  subi RA, RA, 24			// evldd doesn't support neg. offsets.
-    |   mr TMP2, BASE
-    |  evlddx LFUNC:RB, BASE, RA
-    |   add BASE, BASE, RA
-    |   evldd TMP0, 8(BASE)
-    |    evldd TMP1, 16(BASE)
-    |  evstdd LFUNC:RB, 24(BASE)	// Copy callable.
-    |  checkfunc LFUNC:RB
-    |   evstdd TMP0, 32(BASE)		// Copy state.
-    |     li NARGS8:RC, 16		// Iterators get 2 arguments.
-    |    evstdd TMP1, 40(BASE)		// Copy control var.
-    |     addi BASE, BASE, 32
-    |  checkfail ->vmeta_call
-    |  ins_call
-    break;
-
-  case BC_ITERN:
-    |  // RA = base*8, (RB = (nresults+1)*8, RC = (nargs+1)*8 (2+1)*8)
-    |.if JIT
-    |  // NYI: add hotloop, record BC_ITERN.
-    |.endif
-    |  add RA, BASE, RA
-    |  lwz TAB:RB, -12(RA)
-    |  lwz RC, -4(RA)			// Get index from control var.
-    |  lwz TMP0, TAB:RB->asize
-    |  lwz TMP1, TAB:RB->array
-    |   addi PC, PC, 4
-    |1:  // Traverse array part.
-    |  cmplw RC, TMP0
-    |   slwi TMP3, RC, 3
-    |  bge >5				// Index points after array part?
-    |  evlddx TMP2, TMP1, TMP3
-    |  checknil TMP2
-    |     lwz INS, -4(PC)
-    |  checkok >4
-    |   efdcfsi TMP0, RC
-    |    addi RC, RC, 1
-    |     addis TMP3, PC, -(BCBIAS_J*4 >> 16)
-    |  evstdd TMP2, 8(RA)
-    |     decode_RD4 TMP1, INS
-    |    stw RC, -4(RA)			// Update control var.
-    |     add PC, TMP1, TMP3
-    |   evstdd TMP0, 0(RA)
-    |3:
-    |  ins_next
-    |
-    |4:  // Skip holes in array part.
-    |  addi RC, RC, 1
-    |  b <1
-    |
-    |5:  // Traverse hash part.
-    |  lwz TMP1, TAB:RB->hmask
-    |  sub RC, RC, TMP0
-    |   lwz TMP2, TAB:RB->node
-    |6:
-    |  cmplw RC, TMP1			// End of iteration? Branch to ITERL+1.
-    |   slwi TMP3, RC, 5
-    |  bgt <3
-    |   slwi RB, RC, 3
-    |   sub TMP3, TMP3, RB
-    |  evlddx RB, TMP2, TMP3
-    |   add NODE:TMP3, TMP2, TMP3
-    |  checknil RB
-    |     lwz INS, -4(PC)
-    |  checkok >7
-    |   evldd TMP3, NODE:TMP3->key
-    |     addis TMP2, PC, -(BCBIAS_J*4 >> 16)
-    |  evstdd RB, 8(RA)
-    |    add RC, RC, TMP0
-    |     decode_RD4 TMP1, INS
-    |   evstdd TMP3, 0(RA)
-    |    addi RC, RC, 1
-    |     add PC, TMP1, TMP2
-    |    stw RC, -4(RA)			// Update control var.
-    |  b <3
-    |
-    |7:  // Skip holes in hash part.
-    |  addi RC, RC, 1
-    |  b <6
-    break;
-
-  case BC_ISNEXT:
-    |  // RA = base*8, RD = target (points to ITERN)
-    |  add RA, BASE, RA
-    |   li TMP2, -24
-    |  evlddx CFUNC:TMP1, RA, TMP2
-    |   lwz TMP2, -16(RA)
-    |    lwz TMP3, -8(RA)
-    |  evmergehi TMP0, CFUNC:TMP1, CFUNC:TMP1
-    |   cmpwi cr0, TMP2, LJ_TTAB
-    |  cmpwi cr1, TMP0, LJ_TFUNC
-    |    cmpwi cr6, TMP3, LJ_TNIL
-    |  bne cr1, >5
-    |  lbz TMP1, CFUNC:TMP1->ffid
-    |   crand 4*cr0+eq, 4*cr0+eq, 4*cr6+eq
-    |  cmpwi cr7, TMP1, FF_next_N
-    |    srwi TMP0, RD, 1
-    |  crand 4*cr0+eq, 4*cr0+eq, 4*cr7+eq
-    |    add TMP3, PC, TMP0
-    |  bne cr0, >5
-    |  lus TMP1, 0xfffe
-    |  ori TMP1, TMP1, 0x7fff
-    |  stw ZERO, -4(RA)			// Initialize control var.
-    |  stw TMP1, -8(RA)
-    |    addis PC, TMP3, -(BCBIAS_J*4 >> 16)
-    |1:
-    |  ins_next
-    |5:  // Despecialize bytecode if any of the checks fail.
-    |  li TMP0, BC_JMP
-    |   li TMP1, BC_ITERC
-    |  stb TMP0, -1(PC)
-    |    addis PC, TMP3, -(BCBIAS_J*4 >> 16)
-    |   stb TMP1, 3(PC)
-    |  b <1
-    break;
-
-  case BC_VARG:
-    |  // RA = base*8, RB = (nresults+1)*8, RC = numparams*8
-    |  lwz TMP0, FRAME_PC(BASE)
-    |  add RC, BASE, RC
-    |   add RA, BASE, RA
-    |  addi RC, RC, FRAME_VARG
-    |   add TMP2, RA, RB
-    |  subi TMP3, BASE, 8		// TMP3 = vtop
-    |  sub RC, RC, TMP0			// RC = vbase
-    |  // Note: RC may now be even _above_ BASE if nargs was < numparams.
-    |  cmplwi cr1, RB, 0
-    |   sub. TMP1, TMP3, RC
-    |  beq cr1, >5			// Copy all varargs?
-    |   subi TMP2, TMP2, 16
-    |   ble >2				// No vararg slots?
-    |1:  // Copy vararg slots to destination slots.
-    |  evldd TMP0, 0(RC)
-    |   addi RC, RC, 8
-    |  evstdd TMP0, 0(RA)
-    |  cmplw RA, TMP2
-    |   cmplw cr1, RC, TMP3
-    |  bge >3				// All destination slots filled?
-    |    addi RA, RA, 8
-    |   blt cr1, <1			// More vararg slots?
-    |2:  // Fill up remainder with nil.
-    |  evstdd TISNIL, 0(RA)
-    |  cmplw RA, TMP2
-    |   addi RA, RA, 8
-    |  blt <2
-    |3:
-    |  ins_next
-    |
-    |5:  // Copy all varargs.
-    |  lwz TMP0, L->maxstack
-    |   li MULTRES, 8			// MULTRES = (0+1)*8
-    |  ble <3				// No vararg slots?
-    |  add TMP2, RA, TMP1
-    |  cmplw TMP2, TMP0
-    |   addi MULTRES, TMP1, 8
-    |  bgt >7
-    |6:
-    |  evldd TMP0, 0(RC)
-    |   addi RC, RC, 8
-    |  evstdd TMP0, 0(RA)
-    |  cmplw RC, TMP3
-    |   addi RA, RA, 8
-    |  blt <6				// More vararg slots?
-    |  b <3
-    |
-    |7:  // Grow stack for varargs.
-    |  mr CARG1, L
-    |   stw RA, L->top
-    |  sub SAVE0, RC, BASE		// Need delta, because BASE may change.
-    |   stw BASE, L->base
-    |  sub RA, RA, BASE
-    |   stw PC, SAVE_PC
-    |  srwi CARG2, TMP1, 3
-    |  bl extern lj_state_growstack	// (lua_State *L, int n)
-    |  lwz BASE, L->base
-    |  add RA, BASE, RA
-    |  add RC, BASE, SAVE0
-    |  subi TMP3, BASE, 8
-    |  b <6
-    break;
-
-  /* -- Returns ----------------------------------------------------------- */
-
-  case BC_RETM:
-    |  // RA = results*8, RD = extra_nresults*8
-    |  add RD, RD, MULTRES		// MULTRES >= 8, so RD >= 8.
-    |  // Fall through. Assumes BC_RET follows.
-    break;
-
-  case BC_RET:
-    |  // RA = results*8, RD = (nresults+1)*8
-    |  lwz PC, FRAME_PC(BASE)
-    |   add RA, BASE, RA
-    |    mr MULTRES, RD
-    |1:
-    |  andi. TMP0, PC, FRAME_TYPE
-    |   xori TMP1, PC, FRAME_VARG
-    |  bne ->BC_RETV_Z
-    |
-    |->BC_RET_Z:
-    |  // BASE = base, RA = resultptr, RD = (nresults+1)*8, PC = return
-    |   lwz INS, -4(PC)
-    |  cmpwi RD, 8
-    |   subi TMP2, BASE, 8
-    |   subi RC, RD, 8
-    |   decode_RB8 RB, INS
-    |  beq >3
-    |   li TMP1, 0
-    |2:
-    |  addi TMP3, TMP1, 8
-    |   evlddx TMP0, RA, TMP1
-    |  cmpw TMP3, RC
-    |   evstddx TMP0, TMP2, TMP1
-    |  beq >3
-    |  addi TMP1, TMP3, 8
-    |   evlddx TMP0, RA, TMP3
-    |  cmpw TMP1, RC
-    |   evstddx TMP0, TMP2, TMP3
-    |  bne <2
-    |3:
-    |5:
-    |  cmplw RB, RD
-    |   decode_RA8 RA, INS
-    |  bgt >6
-    |   sub BASE, TMP2, RA
-    |  lwz LFUNC:TMP1, FRAME_FUNC(BASE)
-    |  ins_next1
-    |  lwz TMP1, LFUNC:TMP1->pc
-    |  lwz KBASE, PC2PROTO(k)(TMP1)
-    |  ins_next2
-    |
-    |6:  // Fill up results with nil.
-    |  subi TMP1, RD, 8
-    |   addi RD, RD, 8
-    |  evstddx TISNIL, TMP2, TMP1
-    |  b <5
-    |
-    |->BC_RETV_Z:  // Non-standard return case.
-    |  andi. TMP2, TMP1, FRAME_TYPEP
-    |  bne ->vm_return
-    |  // Return from vararg function: relocate BASE down.
-    |  sub BASE, BASE, TMP1
-    |  lwz PC, FRAME_PC(BASE)
-    |  b <1
-    break;
-
-  case BC_RET0: case BC_RET1:
-    |  // RA = results*8, RD = (nresults+1)*8
-    |  lwz PC, FRAME_PC(BASE)
-    |   add RA, BASE, RA
-    |    mr MULTRES, RD
-    |  andi. TMP0, PC, FRAME_TYPE
-    |   xori TMP1, PC, FRAME_VARG
-    |  bne ->BC_RETV_Z
-    |
-    |  lwz INS, -4(PC)
-    |   subi TMP2, BASE, 8
-    |  decode_RB8 RB, INS
-    if (op == BC_RET1) {
-      |  evldd TMP0, 0(RA)
-      |  evstdd TMP0, 0(TMP2)
-    }
-    |5:
-    |  cmplw RB, RD
-    |   decode_RA8 RA, INS
-    |  bgt >6
-    |   sub BASE, TMP2, RA
-    |  lwz LFUNC:TMP1, FRAME_FUNC(BASE)
-    |  ins_next1
-    |  lwz TMP1, LFUNC:TMP1->pc
-    |  lwz KBASE, PC2PROTO(k)(TMP1)
-    |  ins_next2
-    |
-    |6:  // Fill up results with nil.
-    |  subi TMP1, RD, 8
-    |   addi RD, RD, 8
-    |  evstddx TISNIL, TMP2, TMP1
-    |  b <5
-    break;
-
-  /* -- Loops and branches ------------------------------------------------ */
-
-  case BC_FORL:
-    |.if JIT
-    |  hotloop
-    |.endif
-    |  // Fall through. Assumes BC_IFORL follows.
-    break;
-
-  case BC_JFORI:
-  case BC_JFORL:
-#if !LJ_HASJIT
-    break;
-#endif
-  case BC_FORI:
-  case BC_IFORL:
-    |  // RA = base*8, RD = target (after end of loop or start of loop)
-    vk = (op == BC_IFORL || op == BC_JFORL);
-    |  add RA, BASE, RA
-    |  evldd TMP1, FORL_IDX*8(RA)
-    |  evldd TMP3, FORL_STEP*8(RA)
-    |  evldd TMP2, FORL_STOP*8(RA)
-    if (!vk) {
-      |  evcmpgtu cr0, TMP1, TISNUM
-      |  evcmpgtu cr7, TMP3, TISNUM
-      |  evcmpgtu cr1, TMP2, TISNUM
-      |  cror 4*cr0+lt, 4*cr0+lt, 4*cr7+lt
-      |  cror 4*cr0+lt, 4*cr0+lt, 4*cr1+lt
-      |  blt ->vmeta_for
-    }
-    if (vk) {
-      |  efdadd TMP1, TMP1, TMP3
-      |  evstdd TMP1, FORL_IDX*8(RA)
-    }
-    |   evcmpgts TMP3, TISNIL
-    |  evstdd TMP1, FORL_EXT*8(RA)
-    |   bge >2
-    |  efdcmpgt TMP1, TMP2
-    |1:
-    if (op != BC_JFORL) {
-      |  srwi RD, RD, 1
-      |  add RD, PC, RD
-      if (op == BC_JFORI) {
-	|  addis PC, RD, -(BCBIAS_J*4 >> 16)
-      } else {
-	|  addis RD, RD, -(BCBIAS_J*4 >> 16)
-      }
-    }
-    if (op == BC_FORI) {
-      |  iselgt PC, RD, PC
-    } else if (op == BC_IFORL) {
-      |  iselgt PC, PC, RD
-    } else {
-      |  ble =>BC_JLOOP
-    }
-    |  ins_next
-    |2:
-    |  efdcmpgt TMP2, TMP1
-    |  b <1
-    break;
-
-  case BC_ITERL:
-    |.if JIT
-    |  hotloop
-    |.endif
-    |  // Fall through. Assumes BC_IITERL follows.
-    break;
-
-  case BC_JITERL:
-#if !LJ_HASJIT
-    break;
-#endif
-  case BC_IITERL:
-    |  // RA = base*8, RD = target
-    |  evlddx TMP1, BASE, RA
-    |   subi RA, RA, 8
-    |  checknil TMP1
-    |  checkok >1			// Stop if iterator returned nil.
-    if (op == BC_JITERL) {
-      |  NYI
-    } else {
-      |  branch_RD			// Otherwise save control var + branch.
-      |  evstddx TMP1, BASE, RA
-    }
-    |1:
-    |  ins_next
-    break;
-
-  case BC_LOOP:
-    |  // RA = base*8, RD = target (loop extent)
-    |  // Note: RA/RD is only used by trace recorder to determine scope/extent
-    |  // This opcode does NOT jump, it's only purpose is to detect a hot loop.
-    |.if JIT
-    |  hotloop
-    |.endif
-    |  // Fall through. Assumes BC_ILOOP follows.
-    break;
-
-  case BC_ILOOP:
-    |  // RA = base*8, RD = target (loop extent)
-    |  ins_next
-    break;
-
-  case BC_JLOOP:
-    |.if JIT
-    |  NYI
-    |.endif
-    break;
-
-  case BC_JMP:
-    |  // RA = base*8 (only used by trace recorder), RD = target
-    |  branch_RD
-    |  ins_next
-    break;
-
-  /* -- Function headers -------------------------------------------------- */
-
-  case BC_FUNCF:
-    |.if JIT
-    |  hotcall
-    |.endif
-  case BC_FUNCV:  /* NYI: compiled vararg functions. */
-    |  // Fall through. Assumes BC_IFUNCF/BC_IFUNCV follow.
-    break;
-
-  case BC_JFUNCF:
-#if !LJ_HASJIT
-    break;
-#endif
-  case BC_IFUNCF:
-    |  // BASE = new base, RA = BASE+framesize*8, RB = LFUNC, RC = nargs*8
-    |  lwz TMP2, L->maxstack
-    |   lbz TMP1, -4+PC2PROTO(numparams)(PC)
-    |    lwz KBASE, -4+PC2PROTO(k)(PC)
-    |  cmplw RA, TMP2
-    |   slwi TMP1, TMP1, 3
-    |  bgt ->vm_growstack_l
-    |  ins_next1
-    |2:
-    |  cmplw NARGS8:RC, TMP1		// Check for missing parameters.
-    |  ble >3
-    if (op == BC_JFUNCF) {
-      |  NYI
-    } else {
-      |  ins_next2
-    }
-    |
-    |3:  // Clear missing parameters.
-    |  evstddx TISNIL, BASE, NARGS8:RC
-    |  addi NARGS8:RC, NARGS8:RC, 8
-    |  b <2
-    break;
-
-  case BC_JFUNCV:
-#if !LJ_HASJIT
-    break;
-#endif
-    |  NYI  // NYI: compiled vararg functions
-    break;  /* NYI: compiled vararg functions. */
-
-  case BC_IFUNCV:
-    |  // BASE = new base, RA = BASE+framesize*8, RB = LFUNC, RC = nargs*8
-    |  lwz TMP2, L->maxstack
-    |   add TMP1, BASE, RC
-    |  add TMP0, RA, RC
-    |   stw LFUNC:RB, 4(TMP1)		// Store copy of LFUNC.
-    |   addi TMP3, RC, 8+FRAME_VARG
-    |    lwz KBASE, -4+PC2PROTO(k)(PC)
-    |  cmplw TMP0, TMP2
-    |   stw TMP3, 0(TMP1)		// Store delta + FRAME_VARG.
-    |  bge ->vm_growstack_l
-    |  lbz TMP2, -4+PC2PROTO(numparams)(PC)
-    |   mr RA, BASE
-    |   mr RC, TMP1
-    |  ins_next1
-    |  cmpwi TMP2, 0
-    |   addi BASE, TMP1, 8
-    |  beq >3
-    |1:
-    |  cmplw RA, RC			// Less args than parameters?
-    |   evldd TMP0, 0(RA)
-    |  bge >4
-    |    evstdd TISNIL, 0(RA)		// Clear old fixarg slot (help the GC).
-    |    addi RA, RA, 8
-    |2:
-    |  addic. TMP2, TMP2, -1
-    |   evstdd TMP0, 8(TMP1)
-    |    addi TMP1, TMP1, 8
-    |  bne <1
-    |3:
-    |  ins_next2
-    |
-    |4:  // Clear missing parameters.
-    |  evmr TMP0, TISNIL
-    |  b <2
-    break;
-
-  case BC_FUNCC:
-  case BC_FUNCCW:
-    |  // BASE = new base, RA = BASE+framesize*8, RB = CFUNC, RC = nargs*8
-    if (op == BC_FUNCC) {
-      |  lwz TMP3, CFUNC:RB->f
-    } else {
-      |  lwz TMP3, DISPATCH_GL(wrapf)(DISPATCH)
-    }
-    |   add TMP1, RA, NARGS8:RC
-    |   lwz TMP2, L->maxstack
-    |    add RC, BASE, NARGS8:RC
-    |   stw BASE, L->base
-    |   cmplw TMP1, TMP2
-    |    stw RC, L->top
-    |     li_vmstate C
-    |  mtctr TMP3
-    if (op == BC_FUNCCW) {
-      |  lwz CARG2, CFUNC:RB->f
-    }
-    |  mr CARG1, L
-    |   bgt ->vm_growstack_c		// Need to grow stack.
-    |     st_vmstate
-    |  bctrl				// (lua_State *L [, lua_CFunction f])
-    |  // Returns nresults.
-    |  lwz TMP1, L->top
-    |   slwi RD, CRET1, 3
-    |  lwz BASE, L->base
-    |    li_vmstate INTERP
-    |  lwz PC, FRAME_PC(BASE)		// Fetch PC of caller.
-    |   sub RA, TMP1, RD		// RA = L->top - nresults*8
-    |    st_vmstate
-    |  b ->vm_returnc
-    break;
-
-  /* ---------------------------------------------------------------------- */
-
-  default:
-    fprintf(stderr, "Error: undefined opcode BC_%s\n", bc_names[op]);
-    exit(2);
-    break;
-  }
-}
-
-static int build_backend(BuildCtx *ctx)
-{
-  int op;
-
-  dasm_growpc(Dst, BC__MAX);
-
-  build_subroutines(ctx);
-
-  |.code_op
-  for (op = 0; op < BC__MAX; op++)
-    build_ins(ctx, (BCOp)op, op);
-
-  return BC__MAX;
-}
-
-/* Emit pseudo frame-info for all assembler functions. */
-static void emit_asm_debug(BuildCtx *ctx)
-{
-  int i;
-  switch (ctx->mode) {
-  case BUILD_elfasm:
-    fprintf(ctx->fp, "\t.section .debug_frame,\"\",@progbits\n");
-    fprintf(ctx->fp,
-	".Lframe0:\n"
-	"\t.long .LECIE0-.LSCIE0\n"
-	".LSCIE0:\n"
-	"\t.long 0xffffffff\n"
-	"\t.byte 0x1\n"
-	"\t.string \"\"\n"
-	"\t.uleb128 0x1\n"
-	"\t.sleb128 -4\n"
-	"\t.byte 65\n"
-	"\t.byte 0xc\n\t.uleb128 1\n\t.uleb128 0\n"
-	"\t.align 2\n"
-	".LECIE0:\n\n");
-    fprintf(ctx->fp,
-	".LSFDE0:\n"
-	"\t.long .LEFDE0-.LASFDE0\n"
-	".LASFDE0:\n"
-	"\t.long .Lframe0\n"
-	"\t.long .Lbegin\n"
-	"\t.long %d\n"
-	"\t.byte 0xe\n\t.uleb128 %d\n"
-	"\t.byte 0x11\n\t.uleb128 65\n\t.sleb128 -1\n"
-	"\t.byte 0x5\n\t.uleb128 70\n\t.sleb128 37\n",
-	(int)ctx->codesz, CFRAME_SIZE);
-    for (i = 14; i <= 31; i++)
-      fprintf(ctx->fp,
-	"\t.byte %d\n\t.uleb128 %d\n"
-	"\t.byte 5\n\t.uleb128 %d\n\t.uleb128 %d\n",
-	0x80+i, 1+2*(31-i), 1200+i, 2+2*(31-i));
-    fprintf(ctx->fp,
-	"\t.align 2\n"
-	".LEFDE0:\n\n");
-    fprintf(ctx->fp, "\t.section .eh_frame,\"a\",@progbits\n");
-    fprintf(ctx->fp,
-	".Lframe1:\n"
-	"\t.long .LECIE1-.LSCIE1\n"
-	".LSCIE1:\n"
-	"\t.long 0\n"
-	"\t.byte 0x1\n"
-	"\t.string \"zPR\"\n"
-	"\t.uleb128 0x1\n"
-	"\t.sleb128 -4\n"
-	"\t.byte 65\n"
-	"\t.uleb128 6\n"			/* augmentation length */
-	"\t.byte 0x1b\n"			/* pcrel|sdata4 */
-	"\t.long lj_err_unwind_dwarf-.\n"
-	"\t.byte 0x1b\n"			/* pcrel|sdata4 */
-	"\t.byte 0xc\n\t.uleb128 1\n\t.uleb128 0\n"
-	"\t.align 2\n"
-	".LECIE1:\n\n");
-    fprintf(ctx->fp,
-	".LSFDE1:\n"
-	"\t.long .LEFDE1-.LASFDE1\n"
-	".LASFDE1:\n"
-	"\t.long .LASFDE1-.Lframe1\n"
-	"\t.long .Lbegin-.\n"
-	"\t.long %d\n"
-	"\t.uleb128 0\n"			/* augmentation length */
-	"\t.byte 0xe\n\t.uleb128 %d\n"
-	"\t.byte 0x11\n\t.uleb128 65\n\t.sleb128 -1\n"
-	"\t.byte 0x5\n\t.uleb128 70\n\t.sleb128 37\n",
-	(int)ctx->codesz, CFRAME_SIZE);
-    for (i = 14; i <= 31; i++)
-      fprintf(ctx->fp,
-	"\t.byte %d\n\t.uleb128 %d\n"
-	"\t.byte 5\n\t.uleb128 %d\n\t.uleb128 %d\n",
-	0x80+i, 1+2*(31-i), 1200+i, 2+2*(31-i));
-    fprintf(ctx->fp,
-	"\t.align 2\n"
-	".LEFDE1:\n\n");
-    break;
-  default:
-    break;
-  }
-}
-
diff --git a/luajit-2.0/src/vm_x86.dasc b/luajit-2.0/src/vm_x86.dasc
deleted file mode 100644
index bd7056f..0000000
--- a/luajit-2.0/src/vm_x86.dasc
+++ /dev/null
@@ -1,6374 +0,0 @@
-|// Low-level VM code for x86 CPUs.
-|// Bytecode interpreter, fast functions and helper functions.
-|// Copyright (C) 2005-2014 Mike Pall. See Copyright Notice in luajit.h
-|
-|.if P64
-|.arch x64
-|.else
-|.arch x86
-|.endif
-|.section code_op, code_sub
-|
-|.actionlist build_actionlist
-|.globals GLOB_
-|.globalnames globnames
-|.externnames extnames
-|
-|//-----------------------------------------------------------------------
-|
-|.if P64
-|.define X64, 1
-|.define SSE, 1
-|.if WIN
-|.define X64WIN, 1
-|.endif
-|.endif
-|
-|// Fixed register assignments for the interpreter.
-|// This is very fragile and has many dependencies. Caveat emptor.
-|.define BASE,		edx		// Not C callee-save, refetched anyway.
-|.if not X64
-|.define KBASE,		edi		// Must be C callee-save.
-|.define KBASEa,	KBASE
-|.define PC,		esi		// Must be C callee-save.
-|.define PCa,		PC
-|.define DISPATCH,	ebx		// Must be C callee-save.
-|.elif X64WIN
-|.define KBASE,		edi		// Must be C callee-save.
-|.define KBASEa,	rdi
-|.define PC,		esi		// Must be C callee-save.
-|.define PCa,		rsi
-|.define DISPATCH,	ebx		// Must be C callee-save.
-|.else
-|.define KBASE,		r15d		// Must be C callee-save.
-|.define KBASEa,	r15
-|.define PC,		ebx		// Must be C callee-save.
-|.define PCa,		rbx
-|.define DISPATCH,	r14d		// Must be C callee-save.
-|.endif
-|
-|.define RA,		ecx
-|.define RAH,		ch
-|.define RAL,		cl
-|.define RB,		ebp		// Must be ebp (C callee-save).
-|.define RC,		eax		// Must be eax.
-|.define RCW,		ax
-|.define RCH,		ah
-|.define RCL,		al
-|.define OP,		RB
-|.define RD,		RC
-|.define RDW,		RCW
-|.define RDL,		RCL
-|.if X64
-|.define RAa, rcx
-|.define RBa, rbp
-|.define RCa, rax
-|.define RDa, rax
-|.else
-|.define RAa, RA
-|.define RBa, RB
-|.define RCa, RC
-|.define RDa, RD
-|.endif
-|
-|.if not X64
-|.define FCARG1,	ecx		// x86 fastcall arguments.
-|.define FCARG2,	edx
-|.elif X64WIN
-|.define CARG1,		rcx		// x64/WIN64 C call arguments.
-|.define CARG2,		rdx
-|.define CARG3,		r8
-|.define CARG4,		r9
-|.define CARG1d,	ecx
-|.define CARG2d,	edx
-|.define CARG3d,	r8d
-|.define CARG4d,	r9d
-|.define FCARG1,	CARG1d		// Upwards compatible to x86 fastcall.
-|.define FCARG2,	CARG2d
-|.else
-|.define CARG1,		rdi		// x64/POSIX C call arguments.
-|.define CARG2,		rsi
-|.define CARG3,		rdx
-|.define CARG4,		rcx
-|.define CARG5,		r8
-|.define CARG6,		r9
-|.define CARG1d,	edi
-|.define CARG2d,	esi
-|.define CARG3d,	edx
-|.define CARG4d,	ecx
-|.define CARG5d,	r8d
-|.define CARG6d,	r9d
-|.define FCARG1,	CARG1d		// Simulate x86 fastcall.
-|.define FCARG2,	CARG2d
-|.endif
-|
-|// Type definitions. Some of these are only used for documentation.
-|.type L,		lua_State
-|.type GL,		global_State
-|.type TVALUE,		TValue
-|.type GCOBJ,		GCobj
-|.type STR,		GCstr
-|.type TAB,		GCtab
-|.type LFUNC,		GCfuncL
-|.type CFUNC,		GCfuncC
-|.type PROTO,		GCproto
-|.type UPVAL,		GCupval
-|.type NODE,		Node
-|.type NARGS,		int
-|.type TRACE,		GCtrace
-|
-|// Stack layout while in interpreter. Must match with lj_frame.h.
-|//-----------------------------------------------------------------------
-|.if not X64		// x86 stack layout.
-|
-|.define CFRAME_SPACE,	aword*7			// Delta for esp (see <--).
-|.macro saveregs_
-|  push edi; push esi; push ebx
-|  sub esp, CFRAME_SPACE
-|.endmacro
-|.macro saveregs
-|  push ebp; saveregs_
-|.endmacro
-|.macro restoreregs
-|  add esp, CFRAME_SPACE
-|  pop ebx; pop esi; pop edi; pop ebp
-|.endmacro
-|
-|.define SAVE_ERRF,	aword [esp+aword*15]	// vm_pcall/vm_cpcall only.
-|.define SAVE_NRES,	aword [esp+aword*14]
-|.define SAVE_CFRAME,	aword [esp+aword*13]
-|.define SAVE_L,	aword [esp+aword*12]
-|//----- 16 byte aligned, ^^^ arguments from C caller
-|.define SAVE_RET,	aword [esp+aword*11]	//<-- esp entering interpreter.
-|.define SAVE_R4,	aword [esp+aword*10]
-|.define SAVE_R3,	aword [esp+aword*9]
-|.define SAVE_R2,	aword [esp+aword*8]
-|//----- 16 byte aligned
-|.define SAVE_R1,	aword [esp+aword*7]	//<-- esp after register saves.
-|.define SAVE_PC,	aword [esp+aword*6]
-|.define TMP2,		aword [esp+aword*5]
-|.define TMP1,		aword [esp+aword*4]
-|//----- 16 byte aligned
-|.define ARG4,		aword [esp+aword*3]
-|.define ARG3,		aword [esp+aword*2]
-|.define ARG2,		aword [esp+aword*1]
-|.define ARG1,		aword [esp]		//<-- esp while in interpreter.
-|//----- 16 byte aligned, ^^^ arguments for C callee
-|
-|// FPARGx overlaps ARGx and ARG(x+1) on x86.
-|.define FPARG3,	qword [esp+qword*1]
-|.define FPARG1,	qword [esp]
-|// TMPQ overlaps TMP1/TMP2. ARG5/MULTRES overlap TMP1/TMP2 (and TMPQ).
-|.define TMPQ,		qword [esp+aword*4]
-|.define TMP3,		ARG4
-|.define ARG5,		TMP1
-|.define TMPa,		TMP1
-|.define MULTRES,	TMP2
-|
-|// Arguments for vm_call and vm_pcall.
-|.define INARG_BASE,	SAVE_CFRAME		// Overwritten by SAVE_CFRAME!
-|
-|// Arguments for vm_cpcall.
-|.define INARG_CP_CALL,	SAVE_ERRF
-|.define INARG_CP_UD,	SAVE_NRES
-|.define INARG_CP_FUNC,	SAVE_CFRAME
-|
-|//-----------------------------------------------------------------------
-|.elif X64WIN		// x64/Windows stack layout
-|
-|.define CFRAME_SPACE,	aword*5			// Delta for rsp (see <--).
-|.macro saveregs_
-|  push rdi; push rsi; push rbx
-|  sub rsp, CFRAME_SPACE
-|.endmacro
-|.macro saveregs
-|  push rbp; saveregs_
-|.endmacro
-|.macro restoreregs
-|  add rsp, CFRAME_SPACE
-|  pop rbx; pop rsi; pop rdi; pop rbp
-|.endmacro
-|
-|.define SAVE_CFRAME,	aword [rsp+aword*13]
-|.define SAVE_PC,	dword [rsp+dword*25]
-|.define SAVE_L,	dword [rsp+dword*24]
-|.define SAVE_ERRF,	dword [rsp+dword*23]
-|.define SAVE_NRES,	dword [rsp+dword*22]
-|.define TMP2,		dword [rsp+dword*21]
-|.define TMP1,		dword [rsp+dword*20]
-|//----- 16 byte aligned, ^^^ 32 byte register save area, owned by interpreter
-|.define SAVE_RET,	aword [rsp+aword*9]	//<-- rsp entering interpreter.
-|.define SAVE_R4,	aword [rsp+aword*8]
-|.define SAVE_R3,	aword [rsp+aword*7]
-|.define SAVE_R2,	aword [rsp+aword*6]
-|.define SAVE_R1,	aword [rsp+aword*5]	//<-- rsp after register saves.
-|.define ARG5,		aword [rsp+aword*4]
-|.define CSAVE_4,	aword [rsp+aword*3]
-|.define CSAVE_3,	aword [rsp+aword*2]
-|.define CSAVE_2,	aword [rsp+aword*1]
-|.define CSAVE_1,	aword [rsp]		//<-- rsp while in interpreter.
-|//----- 16 byte aligned, ^^^ 32 byte register save area, owned by callee
-|
-|// TMPQ overlaps TMP1/TMP2. MULTRES overlaps TMP2 (and TMPQ).
-|.define TMPQ,		qword [rsp+aword*10]
-|.define MULTRES,	TMP2
-|.define TMPa,		ARG5
-|.define ARG5d,		dword [rsp+aword*4]
-|.define TMP3,		ARG5d
-|
-|//-----------------------------------------------------------------------
-|.else			// x64/POSIX stack layout
-|
-|.define CFRAME_SPACE,	aword*5			// Delta for rsp (see <--).
-|.macro saveregs_
-|  push rbx; push r15; push r14
-|  sub rsp, CFRAME_SPACE
-|.endmacro
-|.macro saveregs
-|  push rbp; saveregs_
-|.endmacro
-|.macro restoreregs
-|  add rsp, CFRAME_SPACE
-|  pop r14; pop r15; pop rbx; pop rbp
-|.endmacro
-|
-|//----- 16 byte aligned,
-|.define SAVE_RET,	aword [rsp+aword*9]	//<-- rsp entering interpreter.
-|.define SAVE_R4,	aword [rsp+aword*8]
-|.define SAVE_R3,	aword [rsp+aword*7]
-|.define SAVE_R2,	aword [rsp+aword*6]
-|.define SAVE_R1,	aword [rsp+aword*5]	//<-- rsp after register saves.
-|.define SAVE_CFRAME,	aword [rsp+aword*4]
-|.define SAVE_PC,	dword [rsp+dword*7]
-|.define SAVE_L,	dword [rsp+dword*6]
-|.define SAVE_ERRF,	dword [rsp+dword*5]
-|.define SAVE_NRES,	dword [rsp+dword*4]
-|.define TMPa,		aword [rsp+aword*1]
-|.define TMP2,		dword [rsp+dword*1]
-|.define TMP1,		dword [rsp]		//<-- rsp while in interpreter.
-|//----- 16 byte aligned
-|
-|// TMPQ overlaps TMP1/TMP2. MULTRES overlaps TMP2 (and TMPQ).
-|.define TMPQ,		qword [rsp]
-|.define TMP3,		dword [rsp+aword*1]
-|.define MULTRES,	TMP2
-|
-|.endif
-|
-|//-----------------------------------------------------------------------
-|
-|// Instruction headers.
-|.macro ins_A; .endmacro
-|.macro ins_AD; .endmacro
-|.macro ins_AJ; .endmacro
-|.macro ins_ABC; movzx RB, RCH; movzx RC, RCL; .endmacro
-|.macro ins_AB_; movzx RB, RCH; .endmacro
-|.macro ins_A_C; movzx RC, RCL; .endmacro
-|.macro ins_AND; not RDa; .endmacro
-|
-|// Instruction decode+dispatch. Carefully tuned (nope, lodsd is not faster).
-|.macro ins_NEXT
-|  mov RC, [PC]
-|  movzx RA, RCH
-|  movzx OP, RCL
-|  add PC, 4
-|  shr RC, 16
-|.if X64
-|  jmp aword [DISPATCH+OP*8]
-|.else
-|  jmp aword [DISPATCH+OP*4]
-|.endif
-|.endmacro
-|
-|// Instruction footer.
-|.if 1
-|  // Replicated dispatch. Less unpredictable branches, but higher I-Cache use.
-|  .define ins_next, ins_NEXT
-|  .define ins_next_, ins_NEXT
-|.else
-|  // Common dispatch. Lower I-Cache use, only one (very) unpredictable branch.
-|  // Affects only certain kinds of benchmarks (and only with -j off).
-|  // Around 10%-30% slower on Core2, a lot more slower on P4.
-|  .macro ins_next
-|    jmp ->ins_next
-|  .endmacro
-|  .macro ins_next_
-|  ->ins_next:
-|    ins_NEXT
-|  .endmacro
-|.endif
-|
-|// Call decode and dispatch.
-|.macro ins_callt
-|  // BASE = new base, RB = LFUNC, RD = nargs+1, [BASE-4] = PC
-|  mov PC, LFUNC:RB->pc
-|  mov RA, [PC]
-|  movzx OP, RAL
-|  movzx RA, RAH
-|  add PC, 4
-|.if X64
-|  jmp aword [DISPATCH+OP*8]
-|.else
-|  jmp aword [DISPATCH+OP*4]
-|.endif
-|.endmacro
-|
-|.macro ins_call
-|  // BASE = new base, RB = LFUNC, RD = nargs+1
-|  mov [BASE-4], PC
-|  ins_callt
-|.endmacro
-|
-|//-----------------------------------------------------------------------
-|
-|// Macros to test operand types.
-|.macro checktp, reg, tp;  cmp dword [BASE+reg*8+4], tp; .endmacro
-|.macro checknum, reg, target; checktp reg, LJ_TISNUM; jae target; .endmacro
-|.macro checkint, reg, target; checktp reg, LJ_TISNUM; jne target; .endmacro
-|.macro checkstr, reg, target; checktp reg, LJ_TSTR; jne target; .endmacro
-|.macro checktab, reg, target; checktp reg, LJ_TTAB; jne target; .endmacro
-|
-|// These operands must be used with movzx.
-|.define PC_OP, byte [PC-4]
-|.define PC_RA, byte [PC-3]
-|.define PC_RB, byte [PC-1]
-|.define PC_RC, byte [PC-2]
-|.define PC_RD, word [PC-2]
-|
-|.macro branchPC, reg
-|  lea PC, [PC+reg*4-BCBIAS_J*4]
-|.endmacro
-|
-|// Assumes DISPATCH is relative to GL.
-#define DISPATCH_GL(field)	(GG_DISP2G + (int)offsetof(global_State, field))
-#define DISPATCH_J(field)	(GG_DISP2J + (int)offsetof(jit_State, field))
-|
-#define PC2PROTO(field)  ((int)offsetof(GCproto, field)-(int)sizeof(GCproto))
-|
-|// Decrement hashed hotcount and trigger trace recorder if zero.
-|.macro hotloop, reg
-|  mov reg, PC
-|  shr reg, 1
-|  and reg, HOTCOUNT_PCMASK
-|  sub word [DISPATCH+reg+GG_DISP2HOT], HOTCOUNT_LOOP
-|  jb ->vm_hotloop
-|.endmacro
-|
-|.macro hotcall, reg
-|  mov reg, PC
-|  shr reg, 1
-|  and reg, HOTCOUNT_PCMASK
-|  sub word [DISPATCH+reg+GG_DISP2HOT], HOTCOUNT_CALL
-|  jb ->vm_hotcall
-|.endmacro
-|
-|// Set current VM state.
-|.macro set_vmstate, st
-|  mov dword [DISPATCH+DISPATCH_GL(vmstate)], ~LJ_VMST_..st
-|.endmacro
-|
-|// x87 compares.
-|.macro fcomparepp			// Compare and pop st0 >< st1.
-|  fucomip st1
-|  fpop
-|.endmacro
-|
-|.macro fdup; fld st0; .endmacro
-|.macro fpop1; fstp st1; .endmacro
-|
-|// Synthesize SSE FP constants.
-|.macro sseconst_abs, reg, tmp		// Synthesize abs mask.
-|.if X64
-|  mov64 tmp, U64x(7fffffff,ffffffff); movd reg, tmp
-|.else
-|  pxor reg, reg; pcmpeqd reg, reg; psrlq reg, 1
-|.endif
-|.endmacro
-|
-|.macro sseconst_hi, reg, tmp, val	// Synthesize hi-32 bit const.
-|.if X64
-|  mov64 tmp, U64x(val,00000000); movd reg, tmp
-|.else
-|  mov tmp, 0x .. val; movd reg, tmp; pshufd reg, reg, 0x51
-|.endif
-|.endmacro
-|
-|.macro sseconst_sign, reg, tmp		// Synthesize sign mask.
-|  sseconst_hi reg, tmp, 80000000
-|.endmacro
-|.macro sseconst_1, reg, tmp		// Synthesize 1.0.
-|  sseconst_hi reg, tmp, 3ff00000
-|.endmacro
-|.macro sseconst_m1, reg, tmp		// Synthesize -1.0.
-|  sseconst_hi reg, tmp, bff00000
-|.endmacro
-|.macro sseconst_2p52, reg, tmp		// Synthesize 2^52.
-|  sseconst_hi reg, tmp, 43300000
-|.endmacro
-|.macro sseconst_tobit, reg, tmp	// Synthesize 2^52 + 2^51.
-|  sseconst_hi reg, tmp, 43380000
-|.endmacro
-|
-|// Move table write barrier back. Overwrites reg.
-|.macro barrierback, tab, reg
-|  and byte tab->marked, (uint8_t)~LJ_GC_BLACK	// black2gray(tab)
-|  mov reg, [DISPATCH+DISPATCH_GL(gc.grayagain)]
-|  mov [DISPATCH+DISPATCH_GL(gc.grayagain)], tab
-|  mov tab->gclist, reg
-|.endmacro
-|
-|//-----------------------------------------------------------------------
-
-/* Generate subroutines used by opcodes and other parts of the VM. */
-/* The .code_sub section should be last to help static branch prediction. */
-static void build_subroutines(BuildCtx *ctx)
-{
-  |.code_sub
-  |
-  |//-----------------------------------------------------------------------
-  |//-- Return handling ----------------------------------------------------
-  |//-----------------------------------------------------------------------
-  |
-  |->vm_returnp:
-  |  test PC, FRAME_P
-  |  jz ->cont_dispatch
-  |
-  |  // Return from pcall or xpcall fast func.
-  |  and PC, -8
-  |  sub BASE, PC			// Restore caller base.
-  |  lea RAa, [RA+PC-8]			// Rebase RA and prepend one result.
-  |  mov PC, [BASE-4]			// Fetch PC of previous frame.
-  |  // Prepending may overwrite the pcall frame, so do it at the end.
-  |  mov dword [BASE+RA+4], LJ_TTRUE	// Prepend true to results.
-  |
-  |->vm_returnc:
-  |  add RD, 1				// RD = nresults+1
-  |  jz ->vm_unwind_yield
-  |  mov MULTRES, RD
-  |  test PC, FRAME_TYPE
-  |  jz ->BC_RET_Z			// Handle regular return to Lua.
-  |
-  |->vm_return:
-  |  // BASE = base, RA = resultofs, RD = nresults+1 (= MULTRES), PC = return
-  |  xor PC, FRAME_C
-  |  test PC, FRAME_TYPE
-  |  jnz ->vm_returnp
-  |
-  |  // Return to C.
-  |  set_vmstate C
-  |  and PC, -8
-  |  sub PC, BASE
-  |  neg PC				// Previous base = BASE - delta.
-  |
-  |  sub RD, 1
-  |  jz >2
-  |1:  // Move results down.
-  |.if X64
-  |  mov RBa, [BASE+RA]
-  |  mov [BASE-8], RBa
-  |.else
-  |  mov RB, [BASE+RA]
-  |  mov [BASE-8], RB
-  |  mov RB, [BASE+RA+4]
-  |  mov [BASE-4], RB
-  |.endif
-  |  add BASE, 8
-  |  sub RD, 1
-  |  jnz <1
-  |2:
-  |  mov L:RB, SAVE_L
-  |  mov L:RB->base, PC
-  |3:
-  |  mov RD, MULTRES
-  |  mov RA, SAVE_NRES			// RA = wanted nresults+1
-  |4:
-  |  cmp RA, RD
-  |  jne >6				// More/less results wanted?
-  |5:
-  |  sub BASE, 8
-  |  mov L:RB->top, BASE
-  |
-  |->vm_leave_cp:
-  |  mov RAa, SAVE_CFRAME		// Restore previous C frame.
-  |  mov L:RB->cframe, RAa
-  |  xor eax, eax			// Ok return status for vm_pcall.
-  |
-  |->vm_leave_unw:
-  |  restoreregs
-  |  ret
-  |
-  |6:
-  |  jb >7				// Less results wanted?
-  |  // More results wanted. Check stack size and fill up results with nil.
-  |  cmp BASE, L:RB->maxstack
-  |  ja >8
-  |  mov dword [BASE-4], LJ_TNIL
-  |  add BASE, 8
-  |  add RD, 1
-  |  jmp <4
-  |
-  |7:  // Less results wanted.
-  |  test RA, RA
-  |  jz <5				// But check for LUA_MULTRET+1.
-  |  sub RA, RD				// Negative result!
-  |  lea BASE, [BASE+RA*8]		// Correct top.
-  |  jmp <5
-  |
-  |8:  // Corner case: need to grow stack for filling up results.
-  |  // This can happen if:
-  |  // - A C function grows the stack (a lot).
-  |  // - The GC shrinks the stack in between.
-  |  // - A return back from a lua_call() with (high) nresults adjustment.
-  |  mov L:RB->top, BASE		// Save current top held in BASE (yes).
-  |  mov MULTRES, RD			// Need to fill only remainder with nil.
-  |  mov FCARG2, RA
-  |  mov FCARG1, L:RB
-  |  call extern lj_state_growstack@8	// (lua_State *L, int n)
-  |  mov BASE, L:RB->top		// Need the (realloced) L->top in BASE.
-  |  jmp <3
-  |
-  |->vm_unwind_yield:
-  |  mov al, LUA_YIELD
-  |  jmp ->vm_unwind_c_eh
-  |
-  |->vm_unwind_c@8:			// Unwind C stack, return from vm_pcall.
-  |  // (void *cframe, int errcode)
-  |.if X64
-  |  mov eax, CARG2d			// Error return status for vm_pcall.
-  |  mov rsp, CARG1
-  |.else
-  |  mov eax, FCARG2			// Error return status for vm_pcall.
-  |  mov esp, FCARG1
-  |.endif
-  |->vm_unwind_c_eh:			// Landing pad for external unwinder.
-  |  mov L:RB, SAVE_L
-  |  mov GL:RB, L:RB->glref
-  |  mov dword GL:RB->vmstate, ~LJ_VMST_C
-  |  jmp ->vm_leave_unw
-  |
-  |->vm_unwind_rethrow:
-  |.if X64 and not X64WIN
-  |  mov FCARG1, SAVE_L
-  |  mov FCARG2, eax
-  |  restoreregs
-  |  jmp extern lj_err_throw@8		// (lua_State *L, int errcode)
-  |.endif
-  |
-  |->vm_unwind_ff@4:			// Unwind C stack, return from ff pcall.
-  |  // (void *cframe)
-  |.if X64
-  |  and CARG1, CFRAME_RAWMASK
-  |  mov rsp, CARG1
-  |.else
-  |  and FCARG1, CFRAME_RAWMASK
-  |  mov esp, FCARG1
-  |.endif
-  |->vm_unwind_ff_eh:			// Landing pad for external unwinder.
-  |  mov L:RB, SAVE_L
-  |  mov RAa, -8			// Results start at BASE+RA = BASE-8.
-  |  mov RD, 1+1			// Really 1+2 results, incr. later.
-  |  mov BASE, L:RB->base
-  |  mov DISPATCH, L:RB->glref		// Setup pointer to dispatch table.
-  |  add DISPATCH, GG_G2DISP
-  |  mov PC, [BASE-4]			// Fetch PC of previous frame.
-  |  mov dword [BASE-4], LJ_TFALSE	// Prepend false to error message.
-  |  set_vmstate INTERP
-  |  jmp ->vm_returnc			// Increments RD/MULTRES and returns.
-  |
-  |//-----------------------------------------------------------------------
-  |//-- Grow stack for calls -----------------------------------------------
-  |//-----------------------------------------------------------------------
-  |
-  |->vm_growstack_c:			// Grow stack for C function.
-  |  mov FCARG2, LUA_MINSTACK
-  |  jmp >2
-  |
-  |->vm_growstack_v:			// Grow stack for vararg Lua function.
-  |  sub RD, 8
-  |  jmp >1
-  |
-  |->vm_growstack_f:			// Grow stack for fixarg Lua function.
-  |  // BASE = new base, RD = nargs+1, RB = L, PC = first PC
-  |  lea RD, [BASE+NARGS:RD*8-8]
-  |1:
-  |  movzx RA, byte [PC-4+PC2PROTO(framesize)]
-  |  add PC, 4				// Must point after first instruction.
-  |  mov L:RB->base, BASE
-  |  mov L:RB->top, RD
-  |  mov SAVE_PC, PC
-  |  mov FCARG2, RA
-  |2:
-  |  // RB = L, L->base = new base, L->top = top
-  |  mov FCARG1, L:RB
-  |  call extern lj_state_growstack@8	// (lua_State *L, int n)
-  |  mov BASE, L:RB->base
-  |  mov RD, L:RB->top
-  |  mov LFUNC:RB, [BASE-8]
-  |  sub RD, BASE
-  |  shr RD, 3
-  |  add NARGS:RD, 1
-  |  // BASE = new base, RB = LFUNC, RD = nargs+1
-  |  ins_callt				// Just retry the call.
-  |
-  |//-----------------------------------------------------------------------
-  |//-- Entry points into the assembler VM ---------------------------------
-  |//-----------------------------------------------------------------------
-  |
-  |->vm_resume:				// Setup C frame and resume thread.
-  |  // (lua_State *L, TValue *base, int nres1 = 0, ptrdiff_t ef = 0)
-  |  saveregs
-  |.if X64
-  |  mov L:RB, CARG1d			// Caveat: CARG1d may be RA.
-  |  mov SAVE_L, CARG1d
-  |  mov RA, CARG2d
-  |.else
-  |  mov L:RB, SAVE_L
-  |  mov RA, INARG_BASE			// Caveat: overlaps SAVE_CFRAME!
-  |.endif
-  |  mov PC, FRAME_CP
-  |  xor RD, RD
-  |  lea KBASEa, [esp+CFRAME_RESUME]
-  |  mov DISPATCH, L:RB->glref		// Setup pointer to dispatch table.
-  |  add DISPATCH, GG_G2DISP
-  |  mov L:RB->cframe, KBASEa
-  |  mov SAVE_PC, RD			// Any value outside of bytecode is ok.
-  |  mov SAVE_CFRAME, RDa
-  |.if X64
-  |  mov SAVE_NRES, RD
-  |  mov SAVE_ERRF, RD
-  |.endif
-  |  cmp byte L:RB->status, RDL
-  |  je >3				// Initial resume (like a call).
-  |
-  |  // Resume after yield (like a return).
-  |  set_vmstate INTERP
-  |  mov byte L:RB->status, RDL
-  |  mov BASE, L:RB->base
-  |  mov RD, L:RB->top
-  |  sub RD, RA
-  |  shr RD, 3
-  |  add RD, 1				// RD = nresults+1
-  |  sub RA, BASE			// RA = resultofs
-  |  mov PC, [BASE-4]
-  |  mov MULTRES, RD
-  |  test PC, FRAME_TYPE
-  |  jz ->BC_RET_Z
-  |  jmp ->vm_return
-  |
-  |->vm_pcall:				// Setup protected C frame and enter VM.
-  |  // (lua_State *L, TValue *base, int nres1, ptrdiff_t ef)
-  |  saveregs
-  |  mov PC, FRAME_CP
-  |.if X64
-  |  mov SAVE_ERRF, CARG4d
-  |.endif
-  |  jmp >1
-  |
-  |->vm_call:				// Setup C frame and enter VM.
-  |  // (lua_State *L, TValue *base, int nres1)
-  |  saveregs
-  |  mov PC, FRAME_C
-  |
-  |1:  // Entry point for vm_pcall above (PC = ftype).
-  |.if X64
-  |  mov SAVE_NRES, CARG3d
-  |  mov L:RB, CARG1d			// Caveat: CARG1d may be RA.
-  |  mov SAVE_L, CARG1d
-  |  mov RA, CARG2d
-  |.else
-  |  mov L:RB, SAVE_L
-  |  mov RA, INARG_BASE			// Caveat: overlaps SAVE_CFRAME!
-  |.endif
-  |
-  |  mov KBASEa, L:RB->cframe		// Add our C frame to cframe chain.
-  |  mov SAVE_CFRAME, KBASEa
-  |  mov SAVE_PC, L:RB			// Any value outside of bytecode is ok.
-  |.if X64
-  |  mov L:RB->cframe, rsp
-  |.else
-  |  mov L:RB->cframe, esp
-  |.endif
-  |
-  |2:  // Entry point for vm_cpcall below (RA = base, RB = L, PC = ftype).
-  |  mov DISPATCH, L:RB->glref		// Setup pointer to dispatch table.
-  |  add DISPATCH, GG_G2DISP
-  |
-  |3:  // Entry point for vm_resume above (RA = base, RB = L, PC = ftype).
-  |  set_vmstate INTERP
-  |  mov BASE, L:RB->base		// BASE = old base (used in vmeta_call).
-  |  add PC, RA
-  |  sub PC, BASE			// PC = frame delta + frame type
-  |
-  |  mov RD, L:RB->top
-  |  sub RD, RA
-  |  shr NARGS:RD, 3
-  |  add NARGS:RD, 1			// RD = nargs+1
-  |
-  |->vm_call_dispatch:
-  |  mov LFUNC:RB, [RA-8]
-  |  cmp dword [RA-4], LJ_TFUNC
-  |  jne ->vmeta_call			// Ensure KBASE defined and != BASE.
-  |
-  |->vm_call_dispatch_f:
-  |  mov BASE, RA
-  |  ins_call
-  |  // BASE = new base, RB = func, RD = nargs+1, PC = caller PC
-  |
-  |->vm_cpcall:				// Setup protected C frame, call C.
-  |  // (lua_State *L, lua_CFunction func, void *ud, lua_CPFunction cp)
-  |  saveregs
-  |.if X64
-  |  mov L:RB, CARG1d			// Caveat: CARG1d may be RA.
-  |  mov SAVE_L, CARG1d
-  |.else
-  |  mov L:RB, SAVE_L
-  |  // Caveat: INARG_CP_* and SAVE_CFRAME/SAVE_NRES/SAVE_ERRF overlap!
-  |  mov RC, INARG_CP_UD		// Get args before they are overwritten.
-  |  mov RA, INARG_CP_FUNC
-  |  mov BASE, INARG_CP_CALL
-  |.endif
-  |  mov SAVE_PC, L:RB			// Any value outside of bytecode is ok.
-  |
-  |  mov KBASE, L:RB->stack		// Compute -savestack(L, L->top).
-  |  sub KBASE, L:RB->top
-  |  mov SAVE_ERRF, 0			// No error function.
-  |  mov SAVE_NRES, KBASE		// Neg. delta means cframe w/o frame.
-  |  // Handler may change cframe_nres(L->cframe) or cframe_errfunc(L->cframe).
-  |
-  |.if X64
-  |  mov KBASEa, L:RB->cframe		// Add our C frame to cframe chain.
-  |  mov SAVE_CFRAME, KBASEa
-  |  mov L:RB->cframe, rsp
-  |
-  |  call CARG4			// (lua_State *L, lua_CFunction func, void *ud)
-  |.else
-  |  mov ARG3, RC			// Have to copy args downwards.
-  |  mov ARG2, RA
-  |  mov ARG1, L:RB
-  |
-  |  mov KBASE, L:RB->cframe		// Add our C frame to cframe chain.
-  |  mov SAVE_CFRAME, KBASE
-  |  mov L:RB->cframe, esp
-  |
-  |  call BASE			// (lua_State *L, lua_CFunction func, void *ud)
-  |.endif
-  |  // TValue * (new base) or NULL returned in eax (RC).
-  |  test RC, RC
-  |  jz ->vm_leave_cp			// No base? Just remove C frame.
-  |  mov RA, RC
-  |  mov PC, FRAME_CP
-  |  jmp <2				// Else continue with the call.
-  |
-  |//-----------------------------------------------------------------------
-  |//-- Metamethod handling ------------------------------------------------
-  |//-----------------------------------------------------------------------
-  |
-  |//-- Continuation dispatch ----------------------------------------------
-  |
-  |->cont_dispatch:
-  |  // BASE = meta base, RA = resultofs, RD = nresults+1 (also in MULTRES)
-  |  add RA, BASE
-  |  and PC, -8
-  |  mov RB, BASE
-  |  sub BASE, PC			// Restore caller BASE.
-  |  mov dword [RA+RD*8-4], LJ_TNIL	// Ensure one valid arg.
-  |  mov RC, RA				// ... in [RC]
-  |  mov PC, [RB-12]			// Restore PC from [cont|PC].
-  |.if X64
-  |  movsxd RAa, dword [RB-16]		// May be negative on WIN64 with debug.
-  |.if FFI
-  |  cmp RA, 1
-  |  jbe >1
-  |.endif
-  |  lea KBASEa, qword [=>0]
-  |  add RAa, KBASEa
-  |.else
-  |  mov RA, dword [RB-16]
-  |.if FFI
-  |  cmp RA, 1
-  |  jbe >1
-  |.endif
-  |.endif
-  |  mov LFUNC:KBASE, [BASE-8]
-  |  mov KBASE, LFUNC:KBASE->pc
-  |  mov KBASE, [KBASE+PC2PROTO(k)]
-  |  // BASE = base, RC = result, RB = meta base
-  |  jmp RAa				// Jump to continuation.
-  |
-  |.if FFI
-  |1:
-  |  je ->cont_ffi_callback		// cont = 1: return from FFI callback.
-  |  // cont = 0: Tail call from C function.
-  |  sub RB, BASE
-  |  shr RB, 3
-  |  lea RD, [RB-1]
-  |  jmp ->vm_call_tail
-  |.endif
-  |
-  |->cont_cat:				// BASE = base, RC = result, RB = mbase
-  |  movzx RA, PC_RB
-  |  sub RB, 16
-  |  lea RA, [BASE+RA*8]
-  |  sub RA, RB
-  |  je ->cont_ra
-  |  neg RA
-  |  shr RA, 3
-  |.if X64WIN
-  |  mov CARG3d, RA
-  |  mov L:CARG1d, SAVE_L
-  |  mov L:CARG1d->base, BASE
-  |  mov RCa, [RC]
-  |  mov [RB], RCa
-  |  mov CARG2d, RB
-  |.elif X64
-  |  mov L:CARG1d, SAVE_L
-  |  mov L:CARG1d->base, BASE
-  |  mov CARG3d, RA
-  |  mov RAa, [RC]
-  |  mov [RB], RAa
-  |  mov CARG2d, RB
-  |.else
-  |  mov ARG3, RA
-  |  mov RA, [RC+4]
-  |  mov RC, [RC]
-  |  mov [RB+4], RA
-  |  mov [RB], RC
-  |  mov ARG2, RB
-  |.endif
-  |  jmp ->BC_CAT_Z
-  |
-  |//-- Table indexing metamethods -----------------------------------------
-  |
-  |->vmeta_tgets:
-  |  mov TMP1, RC			// RC = GCstr *
-  |  mov TMP2, LJ_TSTR
-  |  lea RCa, TMP1			// Store temp. TValue in TMP1/TMP2.
-  |  cmp PC_OP, BC_GGET
-  |  jne >1
-  |  lea RA, [DISPATCH+DISPATCH_GL(tmptv)]  // Store fn->l.env in g->tmptv.
-  |  mov [RA], TAB:RB			// RB = GCtab *
-  |  mov dword [RA+4], LJ_TTAB
-  |  mov RB, RA
-  |  jmp >2
-  |
-  |->vmeta_tgetb:
-  |  movzx RC, PC_RC
-  |.if DUALNUM
-  |  mov TMP2, LJ_TISNUM
-  |  mov TMP1, RC
-  |.elif SSE
-  |  cvtsi2sd xmm0, RC
-  |  movsd TMPQ, xmm0
-  |.else
-  |  mov ARG4, RC
-  |  fild ARG4
-  |  fstp TMPQ
-  |.endif
-  |  lea RCa, TMPQ			// Store temp. TValue in TMPQ.
-  |  jmp >1
-  |
-  |->vmeta_tgetv:
-  |  movzx RC, PC_RC			// Reload TValue *k from RC.
-  |  lea RC, [BASE+RC*8]
-  |1:
-  |  movzx RB, PC_RB			// Reload TValue *t from RB.
-  |  lea RB, [BASE+RB*8]
-  |2:
-  |.if X64
-  |  mov L:CARG1d, SAVE_L
-  |  mov L:CARG1d->base, BASE		// Caveat: CARG2d/CARG3d may be BASE.
-  |  mov CARG2d, RB
-  |  mov CARG3, RCa			// May be 64 bit ptr to stack.
-  |  mov L:RB, L:CARG1d
-  |.else
-  |  mov ARG2, RB
-  |  mov L:RB, SAVE_L
-  |  mov ARG3, RC
-  |  mov ARG1, L:RB
-  |  mov L:RB->base, BASE
-  |.endif
-  |  mov SAVE_PC, PC
-  |  call extern lj_meta_tget		// (lua_State *L, TValue *o, TValue *k)
-  |  // TValue * (finished) or NULL (metamethod) returned in eax (RC).
-  |  mov BASE, L:RB->base
-  |  test RC, RC
-  |  jz >3
-  |->cont_ra:				// BASE = base, RC = result
-  |  movzx RA, PC_RA
-  |.if X64
-  |  mov RBa, [RC]
-  |  mov [BASE+RA*8], RBa
-  |.else
-  |  mov RB, [RC+4]
-  |  mov RC, [RC]
-  |  mov [BASE+RA*8+4], RB
-  |  mov [BASE+RA*8], RC
-  |.endif
-  |  ins_next
-  |
-  |3:  // Call __index metamethod.
-  |  // BASE = base, L->top = new base, stack = cont/func/t/k
-  |  mov RA, L:RB->top
-  |  mov [RA-12], PC			// [cont|PC]
-  |  lea PC, [RA+FRAME_CONT]
-  |  sub PC, BASE
-  |  mov LFUNC:RB, [RA-8]		// Guaranteed to be a function here.
-  |  mov NARGS:RD, 2+1			// 2 args for func(t, k).
-  |  jmp ->vm_call_dispatch_f
-  |
-  |//-----------------------------------------------------------------------
-  |
-  |->vmeta_tsets:
-  |  mov TMP1, RC			// RC = GCstr *
-  |  mov TMP2, LJ_TSTR
-  |  lea RCa, TMP1			// Store temp. TValue in TMP1/TMP2.
-  |  cmp PC_OP, BC_GSET
-  |  jne >1
-  |  lea RA, [DISPATCH+DISPATCH_GL(tmptv)]  // Store fn->l.env in g->tmptv.
-  |  mov [RA], TAB:RB			// RB = GCtab *
-  |  mov dword [RA+4], LJ_TTAB
-  |  mov RB, RA
-  |  jmp >2
-  |
-  |->vmeta_tsetb:
-  |  movzx RC, PC_RC
-  |.if DUALNUM
-  |  mov TMP2, LJ_TISNUM
-  |  mov TMP1, RC
-  |.elif SSE
-  |  cvtsi2sd xmm0, RC
-  |  movsd TMPQ, xmm0
-  |.else
-  |  mov ARG4, RC
-  |  fild ARG4
-  |  fstp TMPQ
-  |.endif
-  |  lea RCa, TMPQ			// Store temp. TValue in TMPQ.
-  |  jmp >1
-  |
-  |->vmeta_tsetv:
-  |  movzx RC, PC_RC			// Reload TValue *k from RC.
-  |  lea RC, [BASE+RC*8]
-  |1:
-  |  movzx RB, PC_RB			// Reload TValue *t from RB.
-  |  lea RB, [BASE+RB*8]
-  |2:
-  |.if X64
-  |  mov L:CARG1d, SAVE_L
-  |  mov L:CARG1d->base, BASE		// Caveat: CARG2d/CARG3d may be BASE.
-  |  mov CARG2d, RB
-  |  mov CARG3, RCa			// May be 64 bit ptr to stack.
-  |  mov L:RB, L:CARG1d
-  |.else
-  |  mov ARG2, RB
-  |  mov L:RB, SAVE_L
-  |  mov ARG3, RC
-  |  mov ARG1, L:RB
-  |  mov L:RB->base, BASE
-  |.endif
-  |  mov SAVE_PC, PC
-  |  call extern lj_meta_tset		// (lua_State *L, TValue *o, TValue *k)
-  |  // TValue * (finished) or NULL (metamethod) returned in eax (RC).
-  |  mov BASE, L:RB->base
-  |  test RC, RC
-  |  jz >3
-  |  // NOBARRIER: lj_meta_tset ensures the table is not black.
-  |  movzx RA, PC_RA
-  |.if X64
-  |  mov RBa, [BASE+RA*8]
-  |  mov [RC], RBa
-  |.else
-  |  mov RB, [BASE+RA*8+4]
-  |  mov RA, [BASE+RA*8]
-  |  mov [RC+4], RB
-  |  mov [RC], RA
-  |.endif
-  |->cont_nop:				// BASE = base, (RC = result)
-  |  ins_next
-  |
-  |3:  // Call __newindex metamethod.
-  |  // BASE = base, L->top = new base, stack = cont/func/t/k/(v)
-  |  mov RA, L:RB->top
-  |  mov [RA-12], PC			// [cont|PC]
-  |  movzx RC, PC_RA
-  |  // Copy value to third argument.
-  |.if X64
-  |  mov RBa, [BASE+RC*8]
-  |  mov [RA+16], RBa
-  |.else
-  |  mov RB, [BASE+RC*8+4]
-  |  mov RC, [BASE+RC*8]
-  |  mov [RA+20], RB
-  |  mov [RA+16], RC
-  |.endif
-  |  lea PC, [RA+FRAME_CONT]
-  |  sub PC, BASE
-  |  mov LFUNC:RB, [RA-8]		// Guaranteed to be a function here.
-  |  mov NARGS:RD, 3+1			// 3 args for func(t, k, v).
-  |  jmp ->vm_call_dispatch_f
-  |
-  |//-- Comparison metamethods ---------------------------------------------
-  |
-  |->vmeta_comp:
-  |.if X64
-  |  mov L:RB, SAVE_L
-  |  mov L:RB->base, BASE		// Caveat: CARG2d/CARG3d == BASE.
-  |.if X64WIN
-  |  lea CARG3d, [BASE+RD*8]
-  |  lea CARG2d, [BASE+RA*8]
-  |.else
-  |  lea CARG2d, [BASE+RA*8]
-  |  lea CARG3d, [BASE+RD*8]
-  |.endif
-  |  mov CARG1d, L:RB			// Caveat: CARG1d/CARG4d == RA.
-  |  movzx CARG4d, PC_OP
-  |.else
-  |  movzx RB, PC_OP
-  |  lea RD, [BASE+RD*8]
-  |  lea RA, [BASE+RA*8]
-  |  mov ARG4, RB
-  |  mov L:RB, SAVE_L
-  |  mov ARG3, RD
-  |  mov ARG2, RA
-  |  mov ARG1, L:RB
-  |  mov L:RB->base, BASE
-  |.endif
-  |  mov SAVE_PC, PC
-  |  call extern lj_meta_comp	// (lua_State *L, TValue *o1, *o2, int op)
-  |  // 0/1 or TValue * (metamethod) returned in eax (RC).
-  |3:
-  |  mov BASE, L:RB->base
-  |  cmp RC, 1
-  |  ja ->vmeta_binop
-  |4:
-  |  lea PC, [PC+4]
-  |  jb >6
-  |5:
-  |  movzx RD, PC_RD
-  |  branchPC RD
-  |6:
-  |  ins_next
-  |
-  |->cont_condt:			// BASE = base, RC = result
-  |  add PC, 4
-  |  cmp dword [RC+4], LJ_TISTRUECOND	// Branch if result is true.
-  |  jb <5
-  |  jmp <6
-  |
-  |->cont_condf:			// BASE = base, RC = result
-  |  cmp dword [RC+4], LJ_TISTRUECOND	// Branch if result is false.
-  |  jmp <4
-  |
-  |->vmeta_equal:
-  |  sub PC, 4
-  |.if X64WIN
-  |  mov CARG3d, RD
-  |  mov CARG4d, RB
-  |  mov L:RB, SAVE_L
-  |  mov L:RB->base, BASE		// Caveat: CARG2d == BASE.
-  |  mov CARG2d, RA
-  |  mov CARG1d, L:RB			// Caveat: CARG1d == RA.
-  |.elif X64
-  |  mov CARG2d, RA
-  |  mov CARG4d, RB			// Caveat: CARG4d == RA.
-  |  mov L:RB, SAVE_L
-  |  mov L:RB->base, BASE		// Caveat: CARG3d == BASE.
-  |  mov CARG3d, RD
-  |  mov CARG1d, L:RB
-  |.else
-  |  mov ARG4, RB
-  |  mov L:RB, SAVE_L
-  |  mov ARG3, RD
-  |  mov ARG2, RA
-  |  mov ARG1, L:RB
-  |  mov L:RB->base, BASE
-  |.endif
-  |  mov SAVE_PC, PC
-  |  call extern lj_meta_equal	// (lua_State *L, GCobj *o1, *o2, int ne)
-  |  // 0/1 or TValue * (metamethod) returned in eax (RC).
-  |  jmp <3
-  |
-  |->vmeta_equal_cd:
-  |.if FFI
-  |  sub PC, 4
-  |  mov L:RB, SAVE_L
-  |  mov L:RB->base, BASE
-  |  mov FCARG1, L:RB
-  |  mov FCARG2, dword [PC-4]
-  |  mov SAVE_PC, PC
-  |  call extern lj_meta_equal_cd@8	// (lua_State *L, BCIns ins)
-  |  // 0/1 or TValue * (metamethod) returned in eax (RC).
-  |  jmp <3
-  |.endif
-  |
-  |//-- Arithmetic metamethods ---------------------------------------------
-  |
-  |->vmeta_arith_vno:
-  |.if DUALNUM
-  |  movzx RB, PC_RB
-  |.endif
-  |->vmeta_arith_vn:
-  |  lea RC, [KBASE+RC*8]
-  |  jmp >1
-  |
-  |->vmeta_arith_nvo:
-  |.if DUALNUM
-  |  movzx RC, PC_RC
-  |.endif
-  |->vmeta_arith_nv:
-  |  lea RC, [KBASE+RC*8]
-  |  lea RB, [BASE+RB*8]
-  |  xchg RB, RC
-  |  jmp >2
-  |
-  |->vmeta_unm:
-  |  lea RC, [BASE+RD*8]
-  |  mov RB, RC
-  |  jmp >2
-  |
-  |->vmeta_arith_vvo:
-  |.if DUALNUM
-  |  movzx RB, PC_RB
-  |.endif
-  |->vmeta_arith_vv:
-  |  lea RC, [BASE+RC*8]
-  |1:
-  |  lea RB, [BASE+RB*8]
-  |2:
-  |  lea RA, [BASE+RA*8]
-  |.if X64WIN
-  |  mov CARG3d, RB
-  |  mov CARG4d, RC
-  |  movzx RC, PC_OP
-  |  mov ARG5d, RC
-  |  mov L:RB, SAVE_L
-  |  mov L:RB->base, BASE		// Caveat: CARG2d == BASE.
-  |  mov CARG2d, RA
-  |  mov CARG1d, L:RB			// Caveat: CARG1d == RA.
-  |.elif X64
-  |  movzx CARG5d, PC_OP
-  |  mov CARG2d, RA
-  |  mov CARG4d, RC			// Caveat: CARG4d == RA.
-  |  mov L:CARG1d, SAVE_L
-  |  mov L:CARG1d->base, BASE		// Caveat: CARG3d == BASE.
-  |  mov CARG3d, RB
-  |  mov L:RB, L:CARG1d
-  |.else
-  |  mov ARG3, RB
-  |  mov L:RB, SAVE_L
-  |  mov ARG4, RC
-  |  movzx RC, PC_OP
-  |  mov ARG2, RA
-  |  mov ARG5, RC
-  |  mov ARG1, L:RB
-  |  mov L:RB->base, BASE
-  |.endif
-  |  mov SAVE_PC, PC
-  |  call extern lj_meta_arith	// (lua_State *L, TValue *ra,*rb,*rc, BCReg op)
-  |  // NULL (finished) or TValue * (metamethod) returned in eax (RC).
-  |  mov BASE, L:RB->base
-  |  test RC, RC
-  |  jz ->cont_nop
-  |
-  |  // Call metamethod for binary op.
-  |->vmeta_binop:
-  |  // BASE = base, RC = new base, stack = cont/func/o1/o2
-  |  mov RA, RC
-  |  sub RC, BASE
-  |  mov [RA-12], PC			// [cont|PC]
-  |  lea PC, [RC+FRAME_CONT]
-  |  mov NARGS:RD, 2+1			// 2 args for func(o1, o2).
-  |  jmp ->vm_call_dispatch
-  |
-  |->vmeta_len:
-  |  mov L:RB, SAVE_L
-  |  mov L:RB->base, BASE
-  |  lea FCARG2, [BASE+RD*8]		// Caveat: FCARG2 == BASE
-  |  mov L:FCARG1, L:RB
-  |  mov SAVE_PC, PC
-  |  call extern lj_meta_len@8		// (lua_State *L, TValue *o)
-  |  // NULL (retry) or TValue * (metamethod) returned in eax (RC).
-  |  mov BASE, L:RB->base
-#if LJ_52
-  |  test RC, RC
-  |  jne ->vmeta_binop			// Binop call for compatibility.
-  |  movzx RD, PC_RD
-  |  mov TAB:FCARG1, [BASE+RD*8]
-  |  jmp ->BC_LEN_Z
-#else
-  |  jmp ->vmeta_binop			// Binop call for compatibility.
-#endif
-  |
-  |//-- Call metamethod ----------------------------------------------------
-  |
-  |->vmeta_call_ra:
-  |  lea RA, [BASE+RA*8+8]
-  |->vmeta_call:			// Resolve and call __call metamethod.
-  |  // BASE = old base, RA = new base, RC = nargs+1, PC = return
-  |  mov TMP2, RA			// Save RA, RC for us.
-  |  mov TMP1, NARGS:RD
-  |  sub RA, 8
-  |.if X64
-  |  mov L:RB, SAVE_L
-  |  mov L:RB->base, BASE		// Caveat: CARG2d/CARG3d may be BASE.
-  |  mov CARG2d, RA
-  |  lea CARG3d, [RA+NARGS:RD*8]
-  |  mov CARG1d, L:RB			// Caveat: CARG1d may be RA.
-  |.else
-  |  lea RC, [RA+NARGS:RD*8]
-  |  mov L:RB, SAVE_L
-  |  mov ARG2, RA
-  |  mov ARG3, RC
-  |  mov ARG1, L:RB
-  |  mov L:RB->base, BASE		// This is the callers base!
-  |.endif
-  |  mov SAVE_PC, PC
-  |  call extern lj_meta_call	// (lua_State *L, TValue *func, TValue *top)
-  |  mov BASE, L:RB->base
-  |  mov RA, TMP2
-  |  mov NARGS:RD, TMP1
-  |  mov LFUNC:RB, [RA-8]
-  |  add NARGS:RD, 1
-  |  // This is fragile. L->base must not move, KBASE must always be defined.
-  |  cmp KBASE, BASE			// Continue with CALLT if flag set.
-  |  je ->BC_CALLT_Z
-  |  mov BASE, RA
-  |  ins_call				// Otherwise call resolved metamethod.
-  |
-  |//-- Argument coercion for 'for' statement ------------------------------
-  |
-  |->vmeta_for:
-  |  mov L:RB, SAVE_L
-  |  mov L:RB->base, BASE
-  |  mov FCARG2, RA			// Caveat: FCARG2 == BASE
-  |  mov L:FCARG1, L:RB			// Caveat: FCARG1 == RA
-  |  mov SAVE_PC, PC
-  |  call extern lj_meta_for@8	// (lua_State *L, TValue *base)
-  |  mov BASE, L:RB->base
-  |  mov RC, [PC-4]
-  |  movzx RA, RCH
-  |  movzx OP, RCL
-  |  shr RC, 16
-  |.if X64
-  |  jmp aword [DISPATCH+OP*8+GG_DISP2STATIC]	// Retry FORI or JFORI.
-  |.else
-  |  jmp aword [DISPATCH+OP*4+GG_DISP2STATIC]	// Retry FORI or JFORI.
-  |.endif
-  |
-  |//-----------------------------------------------------------------------
-  |//-- Fast functions -----------------------------------------------------
-  |//-----------------------------------------------------------------------
-  |
-  |.macro .ffunc, name
-  |->ff_ .. name:
-  |.endmacro
-  |
-  |.macro .ffunc_1, name
-  |->ff_ .. name:
-  |  cmp NARGS:RD, 1+1;  jb ->fff_fallback
-  |.endmacro
-  |
-  |.macro .ffunc_2, name
-  |->ff_ .. name:
-  |  cmp NARGS:RD, 2+1;  jb ->fff_fallback
-  |.endmacro
-  |
-  |.macro .ffunc_n, name
-  |  .ffunc_1 name
-  |  cmp dword [BASE+4], LJ_TISNUM;  jae ->fff_fallback
-  |  fld qword [BASE]
-  |.endmacro
-  |
-  |.macro .ffunc_n, name, op
-  |  .ffunc_1 name
-  |  cmp dword [BASE+4], LJ_TISNUM;  jae ->fff_fallback
-  |  op
-  |  fld qword [BASE]
-  |.endmacro
-  |
-  |.macro .ffunc_nsse, name, op
-  |  .ffunc_1 name
-  |  cmp dword [BASE+4], LJ_TISNUM;  jae ->fff_fallback
-  |  op xmm0, qword [BASE]
-  |.endmacro
-  |
-  |.macro .ffunc_nsse, name
-  |  .ffunc_nsse name, movsd
-  |.endmacro
-  |
-  |.macro .ffunc_nn, name
-  |  .ffunc_2 name
-  |  cmp dword [BASE+4], LJ_TISNUM;  jae ->fff_fallback
-  |  cmp dword [BASE+12], LJ_TISNUM;  jae ->fff_fallback
-  |  fld qword [BASE]
-  |  fld qword [BASE+8]
-  |.endmacro
-  |
-  |.macro .ffunc_nnsse, name
-  |  .ffunc_2 name
-  |  cmp dword [BASE+4], LJ_TISNUM;  jae ->fff_fallback
-  |  cmp dword [BASE+12], LJ_TISNUM;  jae ->fff_fallback
-  |  movsd xmm0, qword [BASE]
-  |  movsd xmm1, qword [BASE+8]
-  |.endmacro
-  |
-  |.macro .ffunc_nnr, name
-  |  .ffunc_2 name
-  |  cmp dword [BASE+4], LJ_TISNUM;  jae ->fff_fallback
-  |  cmp dword [BASE+12], LJ_TISNUM;  jae ->fff_fallback
-  |  fld qword [BASE+8]
-  |  fld qword [BASE]
-  |.endmacro
-  |
-  |// Inlined GC threshold check. Caveat: uses label 1.
-  |.macro ffgccheck
-  |  mov RB, [DISPATCH+DISPATCH_GL(gc.total)]
-  |  cmp RB, [DISPATCH+DISPATCH_GL(gc.threshold)]
-  |  jb >1
-  |  call ->fff_gcstep
-  |1:
-  |.endmacro
-  |
-  |//-- Base library: checks -----------------------------------------------
-  |
-  |.ffunc_1 assert
-  |  mov RB, [BASE+4]
-  |  cmp RB, LJ_TISTRUECOND;  jae ->fff_fallback
-  |  mov PC, [BASE-4]
-  |  mov MULTRES, RD
-  |  mov [BASE-4], RB
-  |  mov RB, [BASE]
-  |  mov [BASE-8], RB
-  |  sub RD, 2
-  |  jz >2
-  |  mov RA, BASE
-  |1:
-  |  add RA, 8
-  |.if X64
-  |  mov RBa, [RA]
-  |  mov [RA-8], RBa
-  |.else
-  |  mov RB, [RA+4]
-  |  mov [RA-4], RB
-  |  mov RB, [RA]
-  |  mov [RA-8], RB
-  |.endif
-  |  sub RD, 1
-  |  jnz <1
-  |2:
-  |  mov RD, MULTRES
-  |  jmp ->fff_res_
-  |
-  |.ffunc_1 type
-  |  mov RB, [BASE+4]
-  |.if X64
-  |  mov RA, RB
-  |  sar RA, 15
-  |  cmp RA, -2
-  |  je >3
-  |.endif
-  |  mov RC, ~LJ_TNUMX
-  |  not RB
-  |  cmp RC, RB
-  |  cmova RC, RB
-  |2:
-  |  mov CFUNC:RB, [BASE-8]
-  |  mov STR:RC, [CFUNC:RB+RC*8+((char *)(&((GCfuncC *)0)->upvalue))]
-  |  mov PC, [BASE-4]
-  |  mov dword [BASE-4], LJ_TSTR
-  |  mov [BASE-8], STR:RC
-  |  jmp ->fff_res1
-  |.if X64
-  |3:
-  |  mov RC, ~LJ_TLIGHTUD
-  |  jmp <2
-  |.endif
-  |
-  |//-- Base library: getters and setters ---------------------------------
-  |
-  |.ffunc_1 getmetatable
-  |  mov RB, [BASE+4]
-  |  mov PC, [BASE-4]
-  |  cmp RB, LJ_TTAB;  jne >6
-  |1:  // Field metatable must be at same offset for GCtab and GCudata!
-  |  mov TAB:RB, [BASE]
-  |  mov TAB:RB, TAB:RB->metatable
-  |2:
-  |  test TAB:RB, TAB:RB
-  |  mov dword [BASE-4], LJ_TNIL
-  |  jz ->fff_res1
-  |  mov STR:RC, [DISPATCH+DISPATCH_GL(gcroot)+4*(GCROOT_MMNAME+MM_metatable)]
-  |  mov dword [BASE-4], LJ_TTAB	// Store metatable as default result.
-  |  mov [BASE-8], TAB:RB
-  |  mov RA, TAB:RB->hmask
-  |  and RA, STR:RC->hash
-  |  imul RA, #NODE
-  |  add NODE:RA, TAB:RB->node
-  |3:  // Rearranged logic, because we expect _not_ to find the key.
-  |  cmp dword NODE:RA->key.it, LJ_TSTR
-  |  jne >4
-  |  cmp dword NODE:RA->key.gcr, STR:RC
-  |  je >5
-  |4:
-  |  mov NODE:RA, NODE:RA->next
-  |  test NODE:RA, NODE:RA
-  |  jnz <3
-  |  jmp ->fff_res1			// Not found, keep default result.
-  |5:
-  |  mov RB, [RA+4]
-  |  cmp RB, LJ_TNIL;  je ->fff_res1	// Ditto for nil value.
-  |  mov RC, [RA]
-  |  mov [BASE-4], RB			// Return value of mt.__metatable.
-  |  mov [BASE-8], RC
-  |  jmp ->fff_res1
-  |
-  |6:
-  |  cmp RB, LJ_TUDATA;  je <1
-  |.if X64
-  |  cmp RB, LJ_TNUMX;  ja >8
-  |  cmp RB, LJ_TISNUM;  jbe >7
-  |  mov RB, LJ_TLIGHTUD
-  |  jmp >8
-  |7:
-  |.else
-  |  cmp RB, LJ_TISNUM;  ja >8
-  |.endif
-  |  mov RB, LJ_TNUMX
-  |8:
-  |  not RB
-  |  mov TAB:RB, [DISPATCH+RB*4+DISPATCH_GL(gcroot[GCROOT_BASEMT])]
-  |  jmp <2
-  |
-  |.ffunc_2 setmetatable
-  |  cmp dword [BASE+4], LJ_TTAB;  jne ->fff_fallback
-  |  // Fast path: no mt for table yet and not clearing the mt.
-  |  mov TAB:RB, [BASE]
-  |  cmp dword TAB:RB->metatable, 0;  jne ->fff_fallback
-  |  cmp dword [BASE+12], LJ_TTAB;  jne ->fff_fallback
-  |  mov TAB:RC, [BASE+8]
-  |  mov TAB:RB->metatable, TAB:RC
-  |  mov PC, [BASE-4]
-  |  mov dword [BASE-4], LJ_TTAB		// Return original table.
-  |  mov [BASE-8], TAB:RB
-  |  test byte TAB:RB->marked, LJ_GC_BLACK	// isblack(table)
-  |  jz >1
-  |  // Possible write barrier. Table is black, but skip iswhite(mt) check.
-  |  barrierback TAB:RB, RC
-  |1:
-  |  jmp ->fff_res1
-  |
-  |.ffunc_2 rawget
-  |  cmp dword [BASE+4], LJ_TTAB;  jne ->fff_fallback
-  |.if X64WIN
-  |  mov RB, BASE			// Save BASE.
-  |  lea CARG3d, [BASE+8]
-  |  mov CARG2d, [BASE]			// Caveat: CARG2d == BASE.
-  |  mov CARG1d, SAVE_L
-  |.elif X64
-  |  mov RB, BASE			// Save BASE.
-  |  mov CARG2d, [BASE]
-  |  lea CARG3d, [BASE+8]		// Caveat: CARG3d == BASE.
-  |  mov CARG1d, SAVE_L
-  |.else
-  |  mov TAB:RD, [BASE]
-  |  mov L:RB, SAVE_L
-  |  mov ARG2, TAB:RD
-  |  mov ARG1, L:RB
-  |  mov RB, BASE			// Save BASE.
-  |  add BASE, 8
-  |  mov ARG3, BASE
-  |.endif
-  |  call extern lj_tab_get	// (lua_State *L, GCtab *t, cTValue *key)
-  |  // cTValue * returned in eax (RD).
-  |  mov BASE, RB			// Restore BASE.
-  |  // Copy table slot.
-  |.if X64
-  |  mov RBa, [RD]
-  |  mov PC, [BASE-4]
-  |  mov [BASE-8], RBa
-  |.else
-  |  mov RB, [RD]
-  |  mov RD, [RD+4]
-  |  mov PC, [BASE-4]
-  |  mov [BASE-8], RB
-  |  mov [BASE-4], RD
-  |.endif
-  |  jmp ->fff_res1
-  |
-  |//-- Base library: conversions ------------------------------------------
-  |
-  |.ffunc tonumber
-  |  // Only handles the number case inline (without a base argument).
-  |  cmp NARGS:RD, 1+1;  jne ->fff_fallback	// Exactly one argument.
-  |  cmp dword [BASE+4], LJ_TISNUM
-  |.if DUALNUM
-  |  jne >1
-  |  mov RB, dword [BASE]; jmp ->fff_resi
-  |1:
-  |  ja ->fff_fallback
-  |.else
-  |  jae ->fff_fallback
-  |.endif
-  |.if SSE
-  |  movsd xmm0, qword [BASE]; jmp ->fff_resxmm0
-  |.else
-  |  fld qword [BASE]; jmp ->fff_resn
-  |.endif
-  |
-  |.ffunc_1 tostring
-  |  // Only handles the string or number case inline.
-  |  mov PC, [BASE-4]
-  |  cmp dword [BASE+4], LJ_TSTR;  jne >3
-  |  // A __tostring method in the string base metatable is ignored.
-  |  mov STR:RD, [BASE]
-  |2:
-  |  mov dword [BASE-4], LJ_TSTR
-  |  mov [BASE-8], STR:RD
-  |  jmp ->fff_res1
-  |3:  // Handle numbers inline, unless a number base metatable is present.
-  |  cmp dword [BASE+4], LJ_TISNUM;  ja ->fff_fallback
-  |  cmp dword [DISPATCH+DISPATCH_GL(gcroot[GCROOT_BASEMT_NUM])], 0
-  |  jne ->fff_fallback
-  |  ffgccheck				// Caveat: uses label 1.
-  |  mov L:RB, SAVE_L
-  |  mov L:RB->base, BASE		// Add frame since C call can throw.
-  |  mov SAVE_PC, PC			// Redundant (but a defined value).
-  |.if X64 and not X64WIN
-  |  mov FCARG2, BASE			// Otherwise: FCARG2 == BASE
-  |.endif
-  |  mov L:FCARG1, L:RB
-  |.if DUALNUM
-  |  call extern lj_str_fromnumber@8	// (lua_State *L, cTValue *o)
-  |.else
-  |  call extern lj_str_fromnum@8	// (lua_State *L, lua_Number *np)
-  |.endif
-  |  // GCstr returned in eax (RD).
-  |  mov BASE, L:RB->base
-  |  jmp <2
-  |
-  |//-- Base library: iterators -------------------------------------------
-  |
-  |.ffunc_1 next
-  |  je >2				// Missing 2nd arg?
-  |1:
-  |  cmp dword [BASE+4], LJ_TTAB;  jne ->fff_fallback
-  |  mov L:RB, SAVE_L
-  |  mov L:RB->base, BASE		// Add frame since C call can throw.
-  |  mov L:RB->top, BASE		// Dummy frame length is ok.
-  |  mov PC, [BASE-4]
-  |.if X64WIN
-  |  lea CARG3d, [BASE+8]
-  |  mov CARG2d, [BASE]			// Caveat: CARG2d == BASE.
-  |  mov CARG1d, L:RB
-  |.elif X64
-  |  mov CARG2d, [BASE]
-  |  lea CARG3d, [BASE+8]		// Caveat: CARG3d == BASE.
-  |  mov CARG1d, L:RB
-  |.else
-  |  mov TAB:RD, [BASE]
-  |  mov ARG2, TAB:RD
-  |  mov ARG1, L:RB
-  |  add BASE, 8
-  |  mov ARG3, BASE
-  |.endif
-  |  mov SAVE_PC, PC			// Needed for ITERN fallback.
-  |  call extern lj_tab_next	// (lua_State *L, GCtab *t, TValue *key)
-  |  // Flag returned in eax (RD).
-  |  mov BASE, L:RB->base
-  |  test RD, RD;  jz >3		// End of traversal?
-  |  // Copy key and value to results.
-  |.if X64
-  |  mov RBa, [BASE+8]
-  |  mov RDa, [BASE+16]
-  |  mov [BASE-8], RBa
-  |  mov [BASE], RDa
-  |.else
-  |  mov RB, [BASE+8]
-  |  mov RD, [BASE+12]
-  |  mov [BASE-8], RB
-  |  mov [BASE-4], RD
-  |  mov RB, [BASE+16]
-  |  mov RD, [BASE+20]
-  |  mov [BASE], RB
-  |  mov [BASE+4], RD
-  |.endif
-  |->fff_res2:
-  |  mov RD, 1+2
-  |  jmp ->fff_res
-  |2:  // Set missing 2nd arg to nil.
-  |  mov dword [BASE+12], LJ_TNIL
-  |  jmp <1
-  |3:  // End of traversal: return nil.
-  |  mov dword [BASE-4], LJ_TNIL
-  |  jmp ->fff_res1
-  |
-  |.ffunc_1 pairs
-  |  mov TAB:RB, [BASE]
-  |  cmp dword [BASE+4], LJ_TTAB;  jne ->fff_fallback
-#if LJ_52
-  |  cmp dword TAB:RB->metatable, 0; jne ->fff_fallback
-#endif
-  |  mov CFUNC:RB, [BASE-8]
-  |  mov CFUNC:RD, CFUNC:RB->upvalue[0]
-  |  mov PC, [BASE-4]
-  |  mov dword [BASE-4], LJ_TFUNC
-  |  mov [BASE-8], CFUNC:RD
-  |  mov dword [BASE+12], LJ_TNIL
-  |  mov RD, 1+3
-  |  jmp ->fff_res
-  |
-  |.ffunc_1 ipairs_aux
-  |  cmp dword [BASE+4], LJ_TTAB;  jne ->fff_fallback
-  |  cmp dword [BASE+12], LJ_TISNUM
-  |.if DUALNUM
-  |  jne ->fff_fallback
-  |.else
-  |  jae ->fff_fallback
-  |.endif
-  |  mov PC, [BASE-4]
-  |.if DUALNUM
-  |  mov RD, dword [BASE+8]
-  |  add RD, 1
-  |  mov dword [BASE-4], LJ_TISNUM
-  |  mov dword [BASE-8], RD
-  |.elif SSE
-  |  movsd xmm0, qword [BASE+8]
-  |  sseconst_1 xmm1, RBa
-  |  addsd xmm0, xmm1
-  |  cvtsd2si RD, xmm0
-  |  movsd qword [BASE-8], xmm0
-  |.else
-  |  fld qword [BASE+8]
-  |  fld1
-  |  faddp st1
-  |  fist ARG1
-  |  fstp qword [BASE-8]
-  |  mov RD, ARG1
-  |.endif
-  |  mov TAB:RB, [BASE]
-  |  cmp RD, TAB:RB->asize;  jae >2	// Not in array part?
-  |  shl RD, 3
-  |  add RD, TAB:RB->array
-  |1:
-  |  cmp dword [RD+4], LJ_TNIL;  je ->fff_res0
-  |  // Copy array slot.
-  |.if X64
-  |  mov RBa, [RD]
-  |  mov [BASE], RBa
-  |.else
-  |  mov RB, [RD]
-  |  mov RD, [RD+4]
-  |  mov [BASE], RB
-  |  mov [BASE+4], RD
-  |.endif
-  |  jmp ->fff_res2
-  |2:  // Check for empty hash part first. Otherwise call C function.
-  |  cmp dword TAB:RB->hmask, 0; je ->fff_res0
-  |  mov FCARG1, TAB:RB
-  |  mov RB, BASE			// Save BASE.
-  |  mov FCARG2, RD			// Caveat: FCARG2 == BASE
-  |  call extern lj_tab_getinth@8	// (GCtab *t, int32_t key)
-  |  // cTValue * or NULL returned in eax (RD).
-  |  mov BASE, RB
-  |  test RD, RD
-  |  jnz <1
-  |->fff_res0:
-  |  mov RD, 1+0
-  |  jmp ->fff_res
-  |
-  |.ffunc_1 ipairs
-  |  mov TAB:RB, [BASE]
-  |  cmp dword [BASE+4], LJ_TTAB;  jne ->fff_fallback
-#if LJ_52
-  |  cmp dword TAB:RB->metatable, 0; jne ->fff_fallback
-#endif
-  |  mov CFUNC:RB, [BASE-8]
-  |  mov CFUNC:RD, CFUNC:RB->upvalue[0]
-  |  mov PC, [BASE-4]
-  |  mov dword [BASE-4], LJ_TFUNC
-  |  mov [BASE-8], CFUNC:RD
-  |.if DUALNUM
-  |  mov dword [BASE+12], LJ_TISNUM
-  |  mov dword [BASE+8], 0
-  |.elif SSE
-  |  xorps xmm0, xmm0
-  |  movsd qword [BASE+8], xmm0
-  |.else
-  |  fldz
-  |  fstp qword [BASE+8]
-  |.endif
-  |  mov RD, 1+3
-  |  jmp ->fff_res
-  |
-  |//-- Base library: catch errors ----------------------------------------
-  |
-  |.ffunc_1 pcall
-  |  lea RA, [BASE+8]
-  |  sub NARGS:RD, 1
-  |  mov PC, 8+FRAME_PCALL
-  |1:
-  |  movzx RB, byte [DISPATCH+DISPATCH_GL(hookmask)]
-  |  shr RB, HOOK_ACTIVE_SHIFT
-  |  and RB, 1
-  |  add PC, RB				// Remember active hook before pcall.
-  |  jmp ->vm_call_dispatch
-  |
-  |.ffunc_2 xpcall
-  |  cmp dword [BASE+12], LJ_TFUNC;  jne ->fff_fallback
-  |  mov RB, [BASE+4]			// Swap function and traceback.
-  |  mov [BASE+12], RB
-  |  mov dword [BASE+4], LJ_TFUNC
-  |  mov LFUNC:RB, [BASE]
-  |  mov PC, [BASE+8]
-  |  mov [BASE+8], LFUNC:RB
-  |  mov [BASE], PC
-  |  lea RA, [BASE+16]
-  |  sub NARGS:RD, 2
-  |  mov PC, 16+FRAME_PCALL
-  |  jmp <1
-  |
-  |//-- Coroutine library --------------------------------------------------
-  |
-  |.macro coroutine_resume_wrap, resume
-  |.if resume
-  |.ffunc_1 coroutine_resume
-  |  mov L:RB, [BASE]
-  |.else
-  |.ffunc coroutine_wrap_aux
-  |  mov CFUNC:RB, [BASE-8]
-  |  mov L:RB, CFUNC:RB->upvalue[0].gcr
-  |.endif
-  |  mov PC, [BASE-4]
-  |  mov SAVE_PC, PC
-  |.if X64
-  |  mov TMP1, L:RB
-  |.else
-  |  mov ARG1, L:RB
-  |.endif
-  |.if resume
-  |  cmp dword [BASE+4], LJ_TTHREAD;  jne ->fff_fallback
-  |.endif
-  |  cmp aword L:RB->cframe, 0; jne ->fff_fallback
-  |  cmp byte L:RB->status, LUA_YIELD;  ja ->fff_fallback
-  |  mov RA, L:RB->top
-  |  je >1				// Status != LUA_YIELD (i.e. 0)?
-  |  cmp RA, L:RB->base			// Check for presence of initial func.
-  |  je ->fff_fallback
-  |1:
-  |.if resume
-  |  lea PC, [RA+NARGS:RD*8-16]		// Check stack space (-1-thread).
-  |.else
-  |  lea PC, [RA+NARGS:RD*8-8]		// Check stack space (-1).
-  |.endif
-  |  cmp PC, L:RB->maxstack; ja ->fff_fallback
-  |  mov L:RB->top, PC
-  |
-  |  mov L:RB, SAVE_L
-  |  mov L:RB->base, BASE
-  |.if resume
-  |  add BASE, 8			// Keep resumed thread in stack for GC.
-  |.endif
-  |  mov L:RB->top, BASE
-  |.if resume
-  |  lea RB, [BASE+NARGS:RD*8-24]	// RB = end of source for stack move.
-  |.else
-  |  lea RB, [BASE+NARGS:RD*8-16]	// RB = end of source for stack move.
-  |.endif
-  |  sub RBa, PCa			// Relative to PC.
-  |
-  |  cmp PC, RA
-  |  je >3
-  |2:  // Move args to coroutine.
-  |.if X64
-  |  mov RCa, [PC+RB]
-  |  mov [PC-8], RCa
-  |.else
-  |  mov RC, [PC+RB+4]
-  |  mov [PC-4], RC
-  |  mov RC, [PC+RB]
-  |  mov [PC-8], RC
-  |.endif
-  |  sub PC, 8
-  |  cmp PC, RA
-  |  jne <2
-  |3:
-  |.if X64
-  |  mov CARG2d, RA
-  |  mov CARG1d, TMP1
-  |.else
-  |  mov ARG2, RA
-  |  xor RA, RA
-  |  mov ARG4, RA
-  |  mov ARG3, RA
-  |.endif
-  |  call ->vm_resume			// (lua_State *L, TValue *base, 0, 0)
-  |  set_vmstate INTERP
-  |
-  |  mov L:RB, SAVE_L
-  |.if X64
-  |  mov L:PC, TMP1
-  |.else
-  |  mov L:PC, ARG1			// The callee doesn't modify SAVE_L.
-  |.endif
-  |  mov BASE, L:RB->base
-  |  cmp eax, LUA_YIELD
-  |  ja >8
-  |4:
-  |  mov RA, L:PC->base
-  |  mov KBASE, L:PC->top
-  |  mov L:PC->top, RA			// Clear coroutine stack.
-  |  mov PC, KBASE
-  |  sub PC, RA
-  |  je >6				// No results?
-  |  lea RD, [BASE+PC]
-  |  shr PC, 3
-  |  cmp RD, L:RB->maxstack
-  |  ja >9				// Need to grow stack?
-  |
-  |  mov RB, BASE
-  |  sub RBa, RAa
-  |5:  // Move results from coroutine.
-  |.if X64
-  |  mov RDa, [RA]
-  |  mov [RA+RB], RDa
-  |.else
-  |  mov RD, [RA]
-  |  mov [RA+RB], RD
-  |  mov RD, [RA+4]
-  |  mov [RA+RB+4], RD
-  |.endif
-  |  add RA, 8
-  |  cmp RA, KBASE
-  |  jne <5
-  |6:
-  |.if resume
-  |  lea RD, [PC+2]			// nresults+1 = 1 + true + results.
-  |  mov dword [BASE-4], LJ_TTRUE	// Prepend true to results.
-  |.else
-  |  lea RD, [PC+1]			// nresults+1 = 1 + results.
-  |.endif
-  |7:
-  |  mov PC, SAVE_PC
-  |  mov MULTRES, RD
-  |.if resume
-  |  mov RAa, -8
-  |.else
-  |  xor RA, RA
-  |.endif
-  |  test PC, FRAME_TYPE
-  |  jz ->BC_RET_Z
-  |  jmp ->vm_return
-  |
-  |8:  // Coroutine returned with error (at co->top-1).
-  |.if resume
-  |  mov dword [BASE-4], LJ_TFALSE	// Prepend false to results.
-  |  mov RA, L:PC->top
-  |  sub RA, 8
-  |  mov L:PC->top, RA			// Clear error from coroutine stack.
-  |  // Copy error message.
-  |.if X64
-  |  mov RDa, [RA]
-  |  mov [BASE], RDa
-  |.else
-  |  mov RD, [RA]
-  |  mov [BASE], RD
-  |  mov RD, [RA+4]
-  |  mov [BASE+4], RD
-  |.endif
-  |  mov RD, 1+2			// nresults+1 = 1 + false + error.
-  |  jmp <7
-  |.else
-  |  mov FCARG2, L:PC
-  |  mov FCARG1, L:RB
-  |  call extern lj_ffh_coroutine_wrap_err@8  // (lua_State *L, lua_State *co)
-  |  // Error function does not return.
-  |.endif
-  |
-  |9:  // Handle stack expansion on return from yield.
-  |.if X64
-  |  mov L:RA, TMP1
-  |.else
-  |  mov L:RA, ARG1			// The callee doesn't modify SAVE_L.
-  |.endif
-  |  mov L:RA->top, KBASE		// Undo coroutine stack clearing.
-  |  mov FCARG2, PC
-  |  mov FCARG1, L:RB
-  |  call extern lj_state_growstack@8	// (lua_State *L, int n)
-  |.if X64
-  |  mov L:PC, TMP1
-  |.else
-  |  mov L:PC, ARG1
-  |.endif
-  |  mov BASE, L:RB->base
-  |  jmp <4				// Retry the stack move.
-  |.endmacro
-  |
-  |  coroutine_resume_wrap 1		// coroutine.resume
-  |  coroutine_resume_wrap 0		// coroutine.wrap
-  |
-  |.ffunc coroutine_yield
-  |  mov L:RB, SAVE_L
-  |  test aword L:RB->cframe, CFRAME_RESUME
-  |  jz ->fff_fallback
-  |  mov L:RB->base, BASE
-  |  lea RD, [BASE+NARGS:RD*8-8]
-  |  mov L:RB->top, RD
-  |  xor RD, RD
-  |  mov aword L:RB->cframe, RDa
-  |  mov al, LUA_YIELD
-  |  mov byte L:RB->status, al
-  |  jmp ->vm_leave_unw
-  |
-  |//-- Math library -------------------------------------------------------
-  |
-  |.if not DUALNUM
-  |->fff_resi:  // Dummy.
-  |.endif
-  |
-  |.if SSE
-  |->fff_resn:
-  |  mov PC, [BASE-4]
-  |  fstp qword [BASE-8]
-  |  jmp ->fff_res1
-  |.endif
-  |
-  |  .ffunc_1 math_abs
-  |.if DUALNUM
-  |  cmp dword [BASE+4], LJ_TISNUM; jne >2
-  |  mov RB, dword [BASE]
-  |  cmp RB, 0; jns ->fff_resi
-  |  neg RB; js >1
-  |->fff_resbit:
-  |->fff_resi:
-  |  mov PC, [BASE-4]
-  |  mov dword [BASE-4], LJ_TISNUM
-  |  mov dword [BASE-8], RB
-  |  jmp ->fff_res1
-  |1:
-  |  mov PC, [BASE-4]
-  |  mov dword [BASE-4], 0x41e00000  // 2^31.
-  |  mov dword [BASE-8], 0
-  |  jmp ->fff_res1
-  |2:
-  |  ja ->fff_fallback
-  |.else
-  |  cmp dword [BASE+4], LJ_TISNUM; jae ->fff_fallback
-  |.endif
-  |
-  |.if SSE
-  |  movsd xmm0, qword [BASE]
-  |  sseconst_abs xmm1, RDa
-  |  andps xmm0, xmm1
-  |->fff_resxmm0:
-  |  mov PC, [BASE-4]
-  |  movsd qword [BASE-8], xmm0
-  |  // fallthrough
-  |.else
-  |  fld qword [BASE]
-  |  fabs
-  |  // fallthrough
-  |->fff_resxmm0:  // Dummy.
-  |->fff_resn:
-  |  mov PC, [BASE-4]
-  |  fstp qword [BASE-8]
-  |.endif
-  |
-  |->fff_res1:
-  |  mov RD, 1+1
-  |->fff_res:
-  |  mov MULTRES, RD
-  |->fff_res_:
-  |  test PC, FRAME_TYPE
-  |  jnz >7
-  |5:
-  |  cmp PC_RB, RDL			// More results expected?
-  |  ja >6
-  |  // Adjust BASE. KBASE is assumed to be set for the calling frame.
-  |  movzx RA, PC_RA
-  |  not RAa				// Note: ~RA = -(RA+1)
-  |  lea BASE, [BASE+RA*8]		// base = base - (RA+1)*8
-  |  ins_next
-  |
-  |6:  // Fill up results with nil.
-  |  mov dword [BASE+RD*8-12], LJ_TNIL
-  |  add RD, 1
-  |  jmp <5
-  |
-  |7:  // Non-standard return case.
-  |  mov RAa, -8			// Results start at BASE+RA = BASE-8.
-  |  jmp ->vm_return
-  |
-  |.macro math_round, func
-  |  .ffunc math_ .. func
-  |.if DUALNUM
-  |  cmp dword [BASE+4], LJ_TISNUM; jne >1
-  |  mov RB, dword [BASE]; jmp ->fff_resi
-  |1:
-  |  ja ->fff_fallback
-  |.else
-  |  cmp dword [BASE+4], LJ_TISNUM; jae ->fff_fallback
-  |.endif
-  |.if SSE
-  |  movsd xmm0, qword [BASE]
-  |  call ->vm_ .. func
-  |  .if DUALNUM
-  |    cvtsd2si RB, xmm0
-  |    cmp RB, 0x80000000
-  |    jne ->fff_resi
-  |    cvtsi2sd xmm1, RB
-  |    ucomisd xmm0, xmm1
-  |    jp ->fff_resxmm0
-  |    je ->fff_resi
-  |  .endif
-  |  jmp ->fff_resxmm0
-  |.else
-  |  fld qword [BASE]
-  |  call ->vm_ .. func
-  |  .if DUALNUM
-  |    fist ARG1
-  |    mov RB, ARG1
-  |    cmp RB, 0x80000000; jne >2
-  |    fdup
-  |    fild ARG1
-  |    fcomparepp
-  |    jp ->fff_resn
-  |    jne ->fff_resn
-  |2:
-  |    fpop
-  |    jmp ->fff_resi
-  | .else
-  |    jmp ->fff_resn
-  | .endif
-  |.endif
-  |.endmacro
-  |
-  |  math_round floor
-  |  math_round ceil
-  |
-  |.if SSE
-  |.ffunc_nsse math_sqrt, sqrtsd; jmp ->fff_resxmm0
-  |.else
-  |.ffunc_n math_sqrt; fsqrt; jmp ->fff_resn
-  |.endif
-  |
-  |.ffunc math_log
-  |  cmp NARGS:RD, 1+1; jne ->fff_fallback	// Exactly one argument.
-  |  cmp dword [BASE+4], LJ_TISNUM; jae ->fff_fallback
-  |  fldln2; fld qword [BASE]; fyl2x; jmp ->fff_resn
-  |
-  |.ffunc_n math_log10, fldlg2;	fyl2x;		jmp ->fff_resn
-  |.ffunc_n math_exp;	call ->vm_exp_x87;	jmp ->fff_resn
-  |
-  |.ffunc_n math_sin;	fsin;			jmp ->fff_resn
-  |.ffunc_n math_cos;	fcos;			jmp ->fff_resn
-  |.ffunc_n math_tan;	fptan; fpop;		jmp ->fff_resn
-  |
-  |.ffunc_n math_asin
-  |  fdup; fmul st0; fld1; fsubrp st1; fsqrt; fpatan
-  |  jmp ->fff_resn
-  |.ffunc_n math_acos
-  |  fdup; fmul st0; fld1; fsubrp st1; fsqrt; fxch; fpatan
-  |  jmp ->fff_resn
-  |.ffunc_n math_atan;	fld1; fpatan;		jmp ->fff_resn
-  |
-  |.macro math_extern, func
-  |.if SSE
-  |  .ffunc_nsse math_ .. func
-  |  .if not X64
-  |    movsd FPARG1, xmm0
-  |  .endif
-  |.else
-  |  .ffunc_n math_ .. func
-  |  fstp FPARG1
-  |.endif
-  |  mov RB, BASE
-  |  call extern lj_vm_ .. func
-  |  mov BASE, RB
-  |  .if X64
-  |    jmp ->fff_resxmm0
-  |  .else
-  |    jmp ->fff_resn
-  |  .endif
-  |.endmacro
-  |
-  |  math_extern sinh
-  |  math_extern cosh
-  |  math_extern tanh
-  |
-  |->ff_math_deg:
-  |.if SSE
-  |.ffunc_nsse math_rad
-  |  mov CFUNC:RB, [BASE-8]
-  |  mulsd xmm0, qword CFUNC:RB->upvalue[0]
-  |  jmp ->fff_resxmm0
-  |.else
-  |.ffunc_n math_rad
-  |  mov CFUNC:RB, [BASE-8]
-  |  fmul qword CFUNC:RB->upvalue[0]
-  |  jmp ->fff_resn
-  |.endif
-  |
-  |.ffunc_nn math_atan2;	fpatan;		jmp ->fff_resn
-  |.ffunc_nnr math_ldexp;	fscale; fpop1;	jmp ->fff_resn
-  |
-  |.ffunc_1 math_frexp
-  |  mov RB, [BASE+4]
-  |  cmp RB, LJ_TISNUM;  jae ->fff_fallback
-  |  mov PC, [BASE-4]
-  |  mov RC, [BASE]
-  |  mov [BASE-4], RB; mov [BASE-8], RC
-  |  shl RB, 1; cmp RB, 0xffe00000; jae >3
-  |  or RC, RB; jz >3
-  |  mov RC, 1022
-  |  cmp RB, 0x00200000; jb >4
-  |1:
-  |  shr RB, 21; sub RB, RC		// Extract and unbias exponent.
-  |.if SSE
-  |  cvtsi2sd xmm0, RB
-  |.else
-  |  mov TMP1, RB; fild TMP1
-  |.endif
-  |  mov RB, [BASE-4]
-  |  and RB, 0x800fffff			// Mask off exponent.
-  |  or RB, 0x3fe00000			// Put mantissa in range [0.5,1) or 0.
-  |  mov [BASE-4], RB
-  |2:
-  |.if SSE
-  |  movsd qword [BASE], xmm0
-  |.else
-  |  fstp qword [BASE]
-  |.endif
-  |  mov RD, 1+2
-  |  jmp ->fff_res
-  |3:  // Return +-0, +-Inf, NaN unmodified and an exponent of 0.
-  |.if SSE
-  |  xorps xmm0, xmm0; jmp <2
-  |.else
-  |  fldz; jmp <2
-  |.endif
-  |4:  // Handle denormals by multiplying with 2^54 and adjusting the bias.
-  |.if SSE
-  |  movsd xmm0, qword [BASE]
-  |  sseconst_hi xmm1, RBa, 43500000  // 2^54.
-  |  mulsd xmm0, xmm1
-  |  movsd qword [BASE-8], xmm0
-  |.else
-  |  fld qword [BASE]
-  |  mov TMP1, 0x5a800000; fmul TMP1	// x = x*2^54
-  |  fstp qword [BASE-8]
-  |.endif
-  |  mov RB, [BASE-4]; mov RC, 1076; shl RB, 1; jmp <1
-  |
-  |.if SSE
-  |.ffunc_nsse math_modf
-  |.else
-  |.ffunc_n math_modf
-  |.endif
-  |  mov RB, [BASE+4]
-  |  mov PC, [BASE-4]
-  |  shl RB, 1; cmp RB, 0xffe00000; je >4	// +-Inf?
-  |.if SSE
-  |  movaps xmm4, xmm0
-  |  call ->vm_trunc
-  |  subsd xmm4, xmm0
-  |1:
-  |  movsd qword [BASE-8], xmm0
-  |  movsd qword [BASE], xmm4
-  |.else
-  |  fdup
-  |  call ->vm_trunc
-  |  fsub st1, st0
-  |1:
-  |  fstp qword [BASE-8]
-  |  fstp qword [BASE]
-  |.endif
-  |  mov RC, [BASE-4]; mov RB, [BASE+4]
-  |  xor RC, RB; js >3				// Need to adjust sign?
-  |2:
-  |  mov RD, 1+2
-  |  jmp ->fff_res
-  |3:
-  |  xor RB, 0x80000000; mov [BASE+4], RB	// Flip sign of fraction.
-  |  jmp <2
-  |4:
-  |.if SSE
-  |  xorps xmm4, xmm4; jmp <1			// Return +-Inf and +-0.
-  |.else
-  |  fldz; fxch; jmp <1				// Return +-Inf and +-0.
-  |.endif
-  |
-  |.ffunc_nnr math_fmod
-  |1: ; fprem; fnstsw ax; and ax, 0x400; jnz <1
-  |  fpop1
-  |  jmp ->fff_resn
-  |
-  |.if SSE
-  |.ffunc_nnsse math_pow;	call ->vm_pow;	jmp ->fff_resxmm0
-  |.else
-  |.ffunc_nn math_pow;		call ->vm_pow;	jmp ->fff_resn
-  |.endif
-  |
-  |.macro math_minmax, name, cmovop, fcmovop, sseop
-  |  .ffunc name
-  |  mov RA, 2
-  |  cmp dword [BASE+4], LJ_TISNUM
-  |.if DUALNUM
-  |  jne >4
-  |  mov RB, dword [BASE]
-  |1:  // Handle integers.
-  |  cmp RA, RD; jae ->fff_resi
-  |  cmp dword [BASE+RA*8-4], LJ_TISNUM; jne >3
-  |  cmp RB, dword [BASE+RA*8-8]
-  |  cmovop RB, dword [BASE+RA*8-8]
-  |  add RA, 1
-  |  jmp <1
-  |3:
-  |  ja ->fff_fallback
-  |  // Convert intermediate result to number and continue below.
-  |.if SSE
-  |  cvtsi2sd xmm0, RB
-  |.else
-  |  mov TMP1, RB
-  |  fild TMP1
-  |.endif
-  |  jmp >6
-  |4:
-  |  ja ->fff_fallback
-  |.else
-  |  jae ->fff_fallback
-  |.endif
-  |
-  |.if SSE
-  |  movsd xmm0, qword [BASE]
-  |5:  // Handle numbers or integers.
-  |  cmp RA, RD; jae ->fff_resxmm0
-  |  cmp dword [BASE+RA*8-4], LJ_TISNUM
-  |.if DUALNUM
-  |  jb >6
-  |  ja ->fff_fallback
-  |  cvtsi2sd xmm1, dword [BASE+RA*8-8]
-  |  jmp >7
-  |.else
-  |  jae ->fff_fallback
-  |.endif
-  |6:
-  |  movsd xmm1, qword [BASE+RA*8-8]
-  |7:
-  |  sseop xmm0, xmm1
-  |  add RA, 1
-  |  jmp <5
-  |.else
-  |  fld qword [BASE]
-  |5:  // Handle numbers or integers.
-  |  cmp RA, RD; jae ->fff_resn
-  |  cmp dword [BASE+RA*8-4], LJ_TISNUM
-  |.if DUALNUM
-  |  jb >6
-  |  ja >9
-  |  fild dword [BASE+RA*8-8]
-  |  jmp >7
-  |.else
-  |  jae >9
-  |.endif
-  |6:
-  |  fld qword [BASE+RA*8-8]
-  |7:
-  |  fucomi st1; fcmovop st1; fpop1
-  |  add RA, 1
-  |  jmp <5
-  |.endif
-  |.endmacro
-  |
-  |  math_minmax math_min, cmovg, fcmovnbe, minsd
-  |  math_minmax math_max, cmovl, fcmovbe, maxsd
-  |.if not SSE
-  |9:
-  |  fpop; jmp ->fff_fallback
-  |.endif
-  |
-  |//-- String library -----------------------------------------------------
-  |
-  |.ffunc_1 string_len
-  |  cmp dword [BASE+4], LJ_TSTR;  jne ->fff_fallback
-  |  mov STR:RB, [BASE]
-  |.if DUALNUM
-  |  mov RB, dword STR:RB->len; jmp ->fff_resi
-  |.elif SSE
-  |  cvtsi2sd xmm0, dword STR:RB->len; jmp ->fff_resxmm0
-  |.else
-  |  fild dword STR:RB->len; jmp ->fff_resn
-  |.endif
-  |
-  |.ffunc string_byte			// Only handle the 1-arg case here.
-  |  cmp NARGS:RD, 1+1;  jne ->fff_fallback
-  |  cmp dword [BASE+4], LJ_TSTR;  jne ->fff_fallback
-  |  mov STR:RB, [BASE]
-  |  mov PC, [BASE-4]
-  |  cmp dword STR:RB->len, 1
-  |  jb ->fff_res0			// Return no results for empty string.
-  |  movzx RB, byte STR:RB[1]
-  |.if DUALNUM
-  |  jmp ->fff_resi
-  |.elif SSE
-  |  cvtsi2sd xmm0, RB; jmp ->fff_resxmm0
-  |.else
-  |  mov TMP1, RB; fild TMP1; jmp ->fff_resn
-  |.endif
-  |
-  |.ffunc string_char			// Only handle the 1-arg case here.
-  |  ffgccheck
-  |  cmp NARGS:RD, 1+1;  jne ->fff_fallback	// *Exactly* 1 arg.
-  |  cmp dword [BASE+4], LJ_TISNUM
-  |.if DUALNUM
-  |  jne ->fff_fallback
-  |  mov RB, dword [BASE]
-  |  cmp RB, 255;  ja ->fff_fallback
-  |  mov TMP2, RB
-  |.elif SSE
-  |  jae ->fff_fallback
-  |  cvttsd2si RB, qword [BASE]
-  |  cmp RB, 255;  ja ->fff_fallback
-  |  mov TMP2, RB
-  |.else
-  |  jae ->fff_fallback
-  |  fld qword [BASE]
-  |  fistp TMP2
-  |  cmp TMP2, 255;  ja ->fff_fallback
-  |.endif
-  |.if X64
-  |  mov TMP3, 1
-  |.else
-  |  mov ARG3, 1
-  |.endif
-  |  lea RDa, TMP2			// Points to stack. Little-endian.
-  |->fff_newstr:
-  |  mov L:RB, SAVE_L
-  |  mov L:RB->base, BASE
-  |.if X64
-  |  mov CARG3d, TMP3			// Zero-extended to size_t.
-  |  mov CARG2, RDa			// May be 64 bit ptr to stack.
-  |  mov CARG1d, L:RB
-  |.else
-  |  mov ARG2, RD
-  |  mov ARG1, L:RB
-  |.endif
-  |  mov SAVE_PC, PC
-  |  call extern lj_str_new		// (lua_State *L, char *str, size_t l)
-  |  // GCstr * returned in eax (RD).
-  |  mov BASE, L:RB->base
-  |  mov PC, [BASE-4]
-  |  mov dword [BASE-4], LJ_TSTR
-  |  mov [BASE-8], STR:RD
-  |  jmp ->fff_res1
-  |
-  |.ffunc string_sub
-  |  ffgccheck
-  |  mov TMP2, -1
-  |  cmp NARGS:RD, 1+2;  jb ->fff_fallback
-  |  jna >1
-  |  cmp dword [BASE+20], LJ_TISNUM
-  |.if DUALNUM
-  |  jne ->fff_fallback
-  |  mov RB, dword [BASE+16]
-  |  mov TMP2, RB
-  |.elif SSE
-  |  jae ->fff_fallback
-  |  cvttsd2si RB, qword [BASE+16]
-  |  mov TMP2, RB
-  |.else
-  |  jae ->fff_fallback
-  |  fld qword [BASE+16]
-  |  fistp TMP2
-  |.endif
-  |1:
-  |  cmp dword [BASE+4], LJ_TSTR;  jne ->fff_fallback
-  |  cmp dword [BASE+12], LJ_TISNUM
-  |.if DUALNUM
-  |  jne ->fff_fallback
-  |.else
-  |  jae ->fff_fallback
-  |.endif
-  |  mov STR:RB, [BASE]
-  |  mov TMP3, STR:RB
-  |  mov RB, STR:RB->len
-  |.if DUALNUM
-  |  mov RA, dword [BASE+8]
-  |.elif SSE
-  |  cvttsd2si RA, qword [BASE+8]
-  |.else
-  |  fld qword [BASE+8]
-  |  fistp ARG3
-  |  mov RA, ARG3
-  |.endif
-  |  mov RC, TMP2
-  |  cmp RB, RC				// len < end? (unsigned compare)
-  |  jb >5
-  |2:
-  |  test RA, RA			// start <= 0?
-  |  jle >7
-  |3:
-  |  mov STR:RB, TMP3
-  |  sub RC, RA				// start > end?
-  |  jl ->fff_emptystr
-  |  lea RB, [STR:RB+RA+#STR-1]
-  |  add RC, 1
-  |4:
-  |.if X64
-  |  mov TMP3, RC
-  |.else
-  |  mov ARG3, RC
-  |.endif
-  |  mov RD, RB
-  |  jmp ->fff_newstr
-  |
-  |5:  // Negative end or overflow.
-  |  jl >6
-  |  lea RC, [RC+RB+1]			// end = end+(len+1)
-  |  jmp <2
-  |6:  // Overflow.
-  |  mov RC, RB				// end = len
-  |  jmp <2
-  |
-  |7:  // Negative start or underflow.
-  |  je >8
-  |  add RA, RB				// start = start+(len+1)
-  |  add RA, 1
-  |  jg <3				// start > 0?
-  |8:  // Underflow.
-  |  mov RA, 1				// start = 1
-  |  jmp <3
-  |
-  |->fff_emptystr:  // Range underflow.
-  |  xor RC, RC				// Zero length. Any ptr in RB is ok.
-  |  jmp <4
-  |
-  |.ffunc string_rep			// Only handle the 1-char case inline.
-  |  ffgccheck
-  |  cmp NARGS:RD, 2+1; jne ->fff_fallback	// Exactly 2 arguments.
-  |  cmp dword [BASE+4], LJ_TSTR;  jne ->fff_fallback
-  |  cmp dword [BASE+12], LJ_TISNUM
-  |  mov STR:RB, [BASE]
-  |.if DUALNUM
-  |  jne ->fff_fallback
-  |  mov RC, dword [BASE+8]
-  |.elif SSE
-  |  jae ->fff_fallback
-  |  cvttsd2si RC, qword [BASE+8]
-  |.else
-  |  jae ->fff_fallback
-  |  fld qword [BASE+8]
-  |  fistp TMP2
-  |  mov RC, TMP2
-  |.endif
-  |  test RC, RC
-  |  jle ->fff_emptystr			// Count <= 0? (or non-int)
-  |  cmp dword STR:RB->len, 1
-  |  jb ->fff_emptystr			// Zero length string?
-  |  jne ->fff_fallback_2		// Fallback for > 1-char strings.
-  |  cmp [DISPATCH+DISPATCH_GL(tmpbuf.sz)], RC;  jb ->fff_fallback_2
-  |  movzx RA, byte STR:RB[1]
-  |  mov RB, [DISPATCH+DISPATCH_GL(tmpbuf.buf)]
-  |.if X64
-  |  mov TMP3, RC
-  |.else
-  |  mov ARG3, RC
-  |.endif
-  |1:  // Fill buffer with char. Yes, this is suboptimal code (do you care?).
-  |  mov [RB], RAL
-  |  add RB, 1
-  |  sub RC, 1
-  |  jnz <1
-  |  mov RD, [DISPATCH+DISPATCH_GL(tmpbuf.buf)]
-  |  jmp ->fff_newstr
-  |
-  |.ffunc_1 string_reverse
-  |  ffgccheck
-  |  cmp dword [BASE+4], LJ_TSTR;  jne ->fff_fallback
-  |  mov STR:RB, [BASE]
-  |  mov RC, STR:RB->len
-  |  test RC, RC
-  |  jz ->fff_emptystr			// Zero length string?
-  |  cmp [DISPATCH+DISPATCH_GL(tmpbuf.sz)], RC;  jb ->fff_fallback_1
-  |  add RB, #STR
-  |  mov TMP2, PC			// Need another temp register.
-  |.if X64
-  |  mov TMP3, RC
-  |.else
-  |  mov ARG3, RC
-  |.endif
-  |  mov PC, [DISPATCH+DISPATCH_GL(tmpbuf.buf)]
-  |1:
-  |  movzx RA, byte [RB]
-  |  add RB, 1
-  |  sub RC, 1
-  |  mov [PC+RC], RAL
-  |  jnz <1
-  |  mov RD, PC
-  |  mov PC, TMP2
-  |  jmp ->fff_newstr
-  |
-  |.macro ffstring_case, name, lo, hi
-  |  .ffunc_1 name
-  |  ffgccheck
-  |  cmp dword [BASE+4], LJ_TSTR;  jne ->fff_fallback
-  |  mov STR:RB, [BASE]
-  |  mov RC, STR:RB->len
-  |  cmp [DISPATCH+DISPATCH_GL(tmpbuf.sz)], RC;  jb ->fff_fallback_1
-  |  add RB, #STR
-  |  mov TMP2, PC			// Need another temp register.
-  |.if X64
-  |  mov TMP3, RC
-  |.else
-  |  mov ARG3, RC
-  |.endif
-  |  mov PC, [DISPATCH+DISPATCH_GL(tmpbuf.buf)]
-  |  jmp >3
-  |1:  // ASCII case conversion. Yes, this is suboptimal code (do you care?).
-  |  movzx RA, byte [RB+RC]
-  |  cmp RA, lo
-  |  jb >2
-  |  cmp RA, hi
-  |  ja >2
-  |  xor RA, 0x20
-  |2:
-  |  mov [PC+RC], RAL
-  |3:
-  |  sub RC, 1
-  |  jns <1
-  |  mov RD, PC
-  |  mov PC, TMP2
-  |  jmp ->fff_newstr
-  |.endmacro
-  |
-  |ffstring_case string_lower, 0x41, 0x5a
-  |ffstring_case string_upper, 0x61, 0x7a
-  |
-  |//-- Table library ------------------------------------------------------
-  |
-  |.ffunc_1 table_getn
-  |  cmp dword [BASE+4], LJ_TTAB;  jne ->fff_fallback
-  |  mov RB, BASE			// Save BASE.
-  |  mov TAB:FCARG1, [BASE]
-  |  call extern lj_tab_len@4		// LJ_FASTCALL (GCtab *t)
-  |  // Length of table returned in eax (RD).
-  |  mov BASE, RB			// Restore BASE.
-  |.if DUALNUM
-  |  mov RB, RD; jmp ->fff_resi
-  |.elif SSE
-  |  cvtsi2sd xmm0, RD; jmp ->fff_resxmm0
-  |.else
-  |  mov ARG1, RD; fild ARG1; jmp ->fff_resn
-  |.endif
-  |
-  |//-- Bit library --------------------------------------------------------
-  |
-  |.define TOBIT_BIAS, 0x59c00000	// 2^52 + 2^51 (float, not double!).
-  |
-  |.macro .ffunc_bit, name, kind
-  |  .ffunc_1 name
-  |.if kind == 2
-  |.if SSE
-  |  sseconst_tobit xmm1, RBa
-  |.else
-  |  mov TMP1, TOBIT_BIAS
-  |.endif
-  |.endif
-  |  cmp dword [BASE+4], LJ_TISNUM
-  |.if DUALNUM
-  |  jne >1
-  |  mov RB, dword [BASE]
-  |.if kind > 0
-  |  jmp >2
-  |.else
-  |  jmp ->fff_resbit
-  |.endif
-  |1:
-  |  ja ->fff_fallback
-  |.else
-  |  jae ->fff_fallback
-  |.endif
-  |.if SSE
-  |  movsd xmm0, qword [BASE]
-  |.if kind < 2
-  |  sseconst_tobit xmm1, RBa
-  |.endif
-  |  addsd xmm0, xmm1
-  |  movd RB, xmm0
-  |.else
-  |  fld qword [BASE]
-  |.if kind < 2
-  |  mov TMP1, TOBIT_BIAS
-  |.endif
-  |  fadd TMP1
-  |  fstp FPARG1
-  |.if kind > 0
-  |  mov RB, ARG1
-  |.endif
-  |.endif
-  |2:
-  |.endmacro
-  |
-  |.ffunc_bit bit_tobit, 0
-  |.if DUALNUM or SSE
-  |.if not SSE
-  |  mov RB, ARG1
-  |.endif
-  |  jmp ->fff_resbit
-  |.else
-  |  fild ARG1
-  |  jmp ->fff_resn
-  |.endif
-  |
-  |.macro .ffunc_bit_op, name, ins
-  |  .ffunc_bit name, 2
-  |  mov TMP2, NARGS:RD			// Save for fallback.
-  |  lea RD, [BASE+NARGS:RD*8-16]
-  |1:
-  |  cmp RD, BASE
-  |  jbe ->fff_resbit
-  |  cmp dword [RD+4], LJ_TISNUM
-  |.if DUALNUM
-  |  jne >2
-  |  ins RB, dword [RD]
-  |  sub RD, 8
-  |  jmp <1
-  |2:
-  |  ja ->fff_fallback_bit_op
-  |.else
-  |  jae ->fff_fallback_bit_op
-  |.endif
-  |.if SSE
-  |  movsd xmm0, qword [RD]
-  |  addsd xmm0, xmm1
-  |  movd RA, xmm0
-  |  ins RB, RA
-  |.else
-  |  fld qword [RD]
-  |  fadd TMP1
-  |  fstp FPARG1
-  |  ins RB, ARG1
-  |.endif
-  |  sub RD, 8
-  |  jmp <1
-  |.endmacro
-  |
-  |.ffunc_bit_op bit_band, and
-  |.ffunc_bit_op bit_bor, or
-  |.ffunc_bit_op bit_bxor, xor
-  |
-  |.ffunc_bit bit_bswap, 1
-  |  bswap RB
-  |  jmp ->fff_resbit
-  |
-  |.ffunc_bit bit_bnot, 1
-  |  not RB
-  |.if DUALNUM
-  |  jmp ->fff_resbit
-  |.elif SSE
-  |->fff_resbit:
-  |  cvtsi2sd xmm0, RB
-  |  jmp ->fff_resxmm0
-  |.else
-  |->fff_resbit:
-  |  mov ARG1, RB
-  |  fild ARG1
-  |  jmp ->fff_resn
-  |.endif
-  |
-  |->fff_fallback_bit_op:
-  |  mov NARGS:RD, TMP2			// Restore for fallback
-  |  jmp ->fff_fallback
-  |
-  |.macro .ffunc_bit_sh, name, ins
-  |.if DUALNUM
-  |  .ffunc_bit name, 1
-  |  // Note: no inline conversion from number for 2nd argument!
-  |  cmp dword [BASE+12], LJ_TISNUM; jne ->fff_fallback
-  |  mov RA, dword [BASE+8]
-  |.elif SSE
-  |  .ffunc_nnsse name
-  |  sseconst_tobit xmm2, RBa
-  |  addsd xmm0, xmm2
-  |  addsd xmm1, xmm2
-  |  movd RB, xmm0
-  |  movd RA, xmm1
-  |.else
-  |  .ffunc_nn name
-  |  mov TMP1, TOBIT_BIAS
-  |  fadd TMP1
-  |  fstp FPARG3
-  |  fadd TMP1
-  |  fstp FPARG1
-  |  mov RA, ARG3
-  |  mov RB, ARG1
-  |.endif
-  |  ins RB, cl				// Assumes RA is ecx.
-  |  jmp ->fff_resbit
-  |.endmacro
-  |
-  |.ffunc_bit_sh bit_lshift, shl
-  |.ffunc_bit_sh bit_rshift, shr
-  |.ffunc_bit_sh bit_arshift, sar
-  |.ffunc_bit_sh bit_rol, rol
-  |.ffunc_bit_sh bit_ror, ror
-  |
-  |//-----------------------------------------------------------------------
-  |
-  |->fff_fallback_2:
-  |  mov NARGS:RD, 1+2			// Other args are ignored, anyway.
-  |  jmp ->fff_fallback
-  |->fff_fallback_1:
-  |  mov NARGS:RD, 1+1			// Other args are ignored, anyway.
-  |->fff_fallback:			// Call fast function fallback handler.
-  |  // BASE = new base, RD = nargs+1
-  |  mov L:RB, SAVE_L
-  |  mov PC, [BASE-4]			// Fallback may overwrite PC.
-  |  mov SAVE_PC, PC			// Redundant (but a defined value).
-  |  mov L:RB->base, BASE
-  |  lea RD, [BASE+NARGS:RD*8-8]
-  |  lea RA, [RD+8*LUA_MINSTACK]	// Ensure enough space for handler.
-  |  mov L:RB->top, RD
-  |  mov CFUNC:RD, [BASE-8]
-  |  cmp RA, L:RB->maxstack
-  |  ja >5				// Need to grow stack.
-  |.if X64
-  |  mov CARG1d, L:RB
-  |.else
-  |  mov ARG1, L:RB
-  |.endif
-  |  call aword CFUNC:RD->f		// (lua_State *L)
-  |  mov BASE, L:RB->base
-  |  // Either throws an error, or recovers and returns -1, 0 or nresults+1.
-  |  test RD, RD;  jg ->fff_res		// Returned nresults+1?
-  |1:
-  |  mov RA, L:RB->top
-  |  sub RA, BASE
-  |  shr RA, 3
-  |  test RD, RD
-  |  lea NARGS:RD, [RA+1]
-  |  mov LFUNC:RB, [BASE-8]
-  |  jne ->vm_call_tail			// Returned -1?
-  |  ins_callt				// Returned 0: retry fast path.
-  |
-  |// Reconstruct previous base for vmeta_call during tailcall.
-  |->vm_call_tail:
-  |  mov RA, BASE
-  |  test PC, FRAME_TYPE
-  |  jnz >3
-  |  movzx RB, PC_RA
-  |  not RBa				// Note: ~RB = -(RB+1)
-  |  lea BASE, [BASE+RB*8]		// base = base - (RB+1)*8
-  |  jmp ->vm_call_dispatch		// Resolve again for tailcall.
-  |3:
-  |  mov RB, PC
-  |  and RB, -8
-  |  sub BASE, RB
-  |  jmp ->vm_call_dispatch		// Resolve again for tailcall.
-  |
-  |5:  // Grow stack for fallback handler.
-  |  mov FCARG2, LUA_MINSTACK
-  |  mov FCARG1, L:RB
-  |  call extern lj_state_growstack@8	// (lua_State *L, int n)
-  |  mov BASE, L:RB->base
-  |  xor RD, RD				// Simulate a return 0.
-  |  jmp <1				// Dumb retry (goes through ff first).
-  |
-  |->fff_gcstep:			// Call GC step function.
-  |  // BASE = new base, RD = nargs+1
-  |  pop RBa				// Must keep stack at same level.
-  |  mov TMPa, RBa			// Save return address
-  |  mov L:RB, SAVE_L
-  |  mov SAVE_PC, PC			// Redundant (but a defined value).
-  |  mov L:RB->base, BASE
-  |  lea RD, [BASE+NARGS:RD*8-8]
-  |  mov FCARG1, L:RB
-  |  mov L:RB->top, RD
-  |  call extern lj_gc_step@4		// (lua_State *L)
-  |  mov BASE, L:RB->base
-  |  mov RD, L:RB->top
-  |  sub RD, BASE
-  |  shr RD, 3
-  |  add NARGS:RD, 1
-  |  mov RBa, TMPa
-  |  push RBa				// Restore return address.
-  |  ret
-  |
-  |//-----------------------------------------------------------------------
-  |//-- Special dispatch targets -------------------------------------------
-  |//-----------------------------------------------------------------------
-  |
-  |->vm_record:				// Dispatch target for recording phase.
-  |.if JIT
-  |  movzx RD, byte [DISPATCH+DISPATCH_GL(hookmask)]
-  |  test RDL, HOOK_VMEVENT		// No recording while in vmevent.
-  |  jnz >5
-  |  // Decrement the hookcount for consistency, but always do the call.
-  |  test RDL, HOOK_ACTIVE
-  |  jnz >1
-  |  test RDL, LUA_MASKLINE|LUA_MASKCOUNT
-  |  jz >1
-  |  dec dword [DISPATCH+DISPATCH_GL(hookcount)]
-  |  jmp >1
-  |.endif
-  |
-  |->vm_rethook:			// Dispatch target for return hooks.
-  |  movzx RD, byte [DISPATCH+DISPATCH_GL(hookmask)]
-  |  test RDL, HOOK_ACTIVE		// Hook already active?
-  |  jnz >5
-  |  jmp >1
-  |
-  |->vm_inshook:			// Dispatch target for instr/line hooks.
-  |  movzx RD, byte [DISPATCH+DISPATCH_GL(hookmask)]
-  |  test RDL, HOOK_ACTIVE		// Hook already active?
-  |  jnz >5
-  |
-  |  test RDL, LUA_MASKLINE|LUA_MASKCOUNT
-  |  jz >5
-  |  dec dword [DISPATCH+DISPATCH_GL(hookcount)]
-  |  jz >1
-  |  test RDL, LUA_MASKLINE
-  |  jz >5
-  |1:
-  |  mov L:RB, SAVE_L
-  |  mov L:RB->base, BASE
-  |  mov FCARG2, PC			// Caveat: FCARG2 == BASE
-  |  mov FCARG1, L:RB
-  |  // SAVE_PC must hold the _previous_ PC. The callee updates it with PC.
-  |  call extern lj_dispatch_ins@8	// (lua_State *L, BCIns *pc)
-  |3:
-  |  mov BASE, L:RB->base
-  |4:
-  |  movzx RA, PC_RA
-  |5:
-  |  movzx OP, PC_OP
-  |  movzx RD, PC_RD
-  |.if X64
-  |  jmp aword [DISPATCH+OP*8+GG_DISP2STATIC]	// Re-dispatch to static ins.
-  |.else
-  |  jmp aword [DISPATCH+OP*4+GG_DISP2STATIC]	// Re-dispatch to static ins.
-  |.endif
-  |
-  |->cont_hook:				// Continue from hook yield.
-  |  add PC, 4
-  |  mov RA, [RB-24]
-  |  mov MULTRES, RA			// Restore MULTRES for *M ins.
-  |  jmp <4
-  |
-  |->vm_hotloop:			// Hot loop counter underflow.
-  |.if JIT
-  |  mov LFUNC:RB, [BASE-8]		// Same as curr_topL(L).
-  |  mov RB, LFUNC:RB->pc
-  |  movzx RD, byte [RB+PC2PROTO(framesize)]
-  |  lea RD, [BASE+RD*8]
-  |  mov L:RB, SAVE_L
-  |  mov L:RB->base, BASE
-  |  mov L:RB->top, RD
-  |  mov FCARG2, PC
-  |  lea FCARG1, [DISPATCH+GG_DISP2J]
-  |  mov aword [DISPATCH+DISPATCH_J(L)], L:RBa
-  |  mov SAVE_PC, PC
-  |  call extern lj_trace_hot@8		// (jit_State *J, const BCIns *pc)
-  |  jmp <3
-  |.endif
-  |
-  |->vm_callhook:			// Dispatch target for call hooks.
-  |  mov SAVE_PC, PC
-  |.if JIT
-  |  jmp >1
-  |.endif
-  |
-  |->vm_hotcall:			// Hot call counter underflow.
-  |.if JIT
-  |  mov SAVE_PC, PC
-  |  or PC, 1				// Marker for hot call.
-  |1:
-  |.endif
-  |  lea RD, [BASE+NARGS:RD*8-8]
-  |  mov L:RB, SAVE_L
-  |  mov L:RB->base, BASE
-  |  mov L:RB->top, RD
-  |  mov FCARG2, PC
-  |  mov FCARG1, L:RB
-  |  call extern lj_dispatch_call@8	// (lua_State *L, const BCIns *pc)
-  |  // ASMFunction returned in eax/rax (RDa).
-  |  mov SAVE_PC, 0			// Invalidate for subsequent line hook.
-  |.if JIT
-  |  and PC, -2
-  |.endif
-  |  mov BASE, L:RB->base
-  |  mov RAa, RDa
-  |  mov RD, L:RB->top
-  |  sub RD, BASE
-  |  mov RBa, RAa
-  |  movzx RA, PC_RA
-  |  shr RD, 3
-  |  add NARGS:RD, 1
-  |  jmp RBa
-  |
-  |//-----------------------------------------------------------------------
-  |//-- Trace exit handler -------------------------------------------------
-  |//-----------------------------------------------------------------------
-  |
-  |// Called from an exit stub with the exit number on the stack.
-  |// The 16 bit exit number is stored with two (sign-extended) push imm8.
-  |->vm_exit_handler:
-  |.if JIT
-  |.if X64
-  |  push r13; push r12
-  |  push r11; push r10; push r9; push r8
-  |  push rdi; push rsi; push rbp; lea rbp, [rsp+88]; push rbp
-  |  push rbx; push rdx; push rcx; push rax
-  |  movzx RC, byte [rbp-8]		// Reconstruct exit number.
-  |  mov RCH, byte [rbp-16]
-  |  mov [rbp-8], r15; mov [rbp-16], r14
-  |.else
-  |  push ebp; lea ebp, [esp+12]; push ebp
-  |  push ebx; push edx; push ecx; push eax
-  |  movzx RC, byte [ebp-4]		// Reconstruct exit number.
-  |  mov RCH, byte [ebp-8]
-  |  mov [ebp-4], edi; mov [ebp-8], esi
-  |.endif
-  |  // Caveat: DISPATCH is ebx.
-  |  mov DISPATCH, [ebp]
-  |  mov RA, [DISPATCH+DISPATCH_GL(vmstate)]	// Get trace number.
-  |  set_vmstate EXIT
-  |  mov [DISPATCH+DISPATCH_J(exitno)], RC
-  |  mov [DISPATCH+DISPATCH_J(parent)], RA
-  |.if X64
-  |.if X64WIN
-  |  sub rsp, 16*8+4*8			// Room for SSE regs + save area.
-  |.else
-  |  sub rsp, 16*8			// Room for SSE regs.
-  |.endif
-  |  add rbp, -128
-  |  movsd qword [rbp-8],   xmm15; movsd qword [rbp-16],  xmm14
-  |  movsd qword [rbp-24],  xmm13; movsd qword [rbp-32],  xmm12
-  |  movsd qword [rbp-40],  xmm11; movsd qword [rbp-48],  xmm10
-  |  movsd qword [rbp-56],  xmm9;  movsd qword [rbp-64],  xmm8
-  |  movsd qword [rbp-72],  xmm7;  movsd qword [rbp-80],  xmm6
-  |  movsd qword [rbp-88],  xmm5;  movsd qword [rbp-96],  xmm4
-  |  movsd qword [rbp-104], xmm3;  movsd qword [rbp-112], xmm2
-  |  movsd qword [rbp-120], xmm1;  movsd qword [rbp-128], xmm0
-  |.else
-  |  sub esp, 8*8+16			// Room for SSE regs + args.
-  |  movsd qword [ebp-40], xmm7; movsd qword [ebp-48], xmm6
-  |  movsd qword [ebp-56], xmm5; movsd qword [ebp-64], xmm4
-  |  movsd qword [ebp-72], xmm3; movsd qword [ebp-80], xmm2
-  |  movsd qword [ebp-88], xmm1; movsd qword [ebp-96], xmm0
-  |.endif
-  |  // Caveat: RB is ebp.
-  |  mov L:RB, [DISPATCH+DISPATCH_GL(jit_L)]
-  |  mov BASE, [DISPATCH+DISPATCH_GL(jit_base)]
-  |  mov aword [DISPATCH+DISPATCH_J(L)], L:RBa
-  |  mov dword [DISPATCH+DISPATCH_GL(jit_L)], 0
-  |  mov L:RB->base, BASE
-  |.if X64WIN
-  |  lea CARG2, [rsp+4*8]
-  |.elif X64
-  |  mov CARG2, rsp
-  |.else
-  |  lea FCARG2, [esp+16]
-  |.endif
-  |  lea FCARG1, [DISPATCH+GG_DISP2J]
-  |  call extern lj_trace_exit@8	// (jit_State *J, ExitState *ex)
-  |  // MULTRES or negated error code returned in eax (RD).
-  |  mov RAa, L:RB->cframe
-  |  and RAa, CFRAME_RAWMASK
-  |.if X64WIN
-  |  // Reposition stack later.
-  |.elif X64
-  |  mov rsp, RAa			// Reposition stack to C frame.
-  |.else
-  |  mov esp, RAa			// Reposition stack to C frame.
-  |.endif
-  |  mov [RAa+CFRAME_OFS_L], L:RB	// Set SAVE_L (on-trace resume/yield).
-  |  mov BASE, L:RB->base
-  |  mov PC, [RAa+CFRAME_OFS_PC]	// Get SAVE_PC.
-  |.if X64
-  |  jmp >1
-  |.endif
-  |.endif
-  |->vm_exit_interp:
-  |  // RD = MULTRES or negated error code, BASE, PC and DISPATCH set.
-  |.if JIT
-  |.if X64
-  |  // Restore additional callee-save registers only used in compiled code.
-  |.if X64WIN
-  |  lea RAa, [rsp+9*16+4*8]
-  |1:
-  |  movdqa xmm15, [RAa-9*16]
-  |  movdqa xmm14, [RAa-8*16]
-  |  movdqa xmm13, [RAa-7*16]
-  |  movdqa xmm12, [RAa-6*16]
-  |  movdqa xmm11, [RAa-5*16]
-  |  movdqa xmm10, [RAa-4*16]
-  |  movdqa xmm9, [RAa-3*16]
-  |  movdqa xmm8, [RAa-2*16]
-  |  movdqa xmm7, [RAa-1*16]
-  |  mov rsp, RAa			// Reposition stack to C frame.
-  |  movdqa xmm6, [RAa]
-  |  mov r15, CSAVE_3
-  |  mov r14, CSAVE_4
-  |.else
-  |  add rsp, 16			// Reposition stack to C frame.
-  |1:
-  |.endif
-  |  mov r13, TMPa
-  |  mov r12, TMPQ
-  |.endif
-  |  test RD, RD; js >3			// Check for error from exit.
-  |  mov MULTRES, RD
-  |  mov LFUNC:KBASE, [BASE-8]
-  |  mov KBASE, LFUNC:KBASE->pc
-  |  mov KBASE, [KBASE+PC2PROTO(k)]
-  |  mov dword [DISPATCH+DISPATCH_GL(jit_L)], 0
-  |  set_vmstate INTERP
-  |  // Modified copy of ins_next which handles function header dispatch, too.
-  |  mov RC, [PC]
-  |  movzx RA, RCH
-  |  movzx OP, RCL
-  |  add PC, 4
-  |  shr RC, 16
-  |  cmp OP, BC_FUNCF			// Function header?
-  |  jb >2
-  |  mov RC, MULTRES			// RC/RD holds nres+1.
-  |2:
-  |.if X64
-  |  jmp aword [DISPATCH+OP*8]
-  |.else
-  |  jmp aword [DISPATCH+OP*4]
-  |.endif
-  |
-  |3:  // Rethrow error from the right C frame.
-  |  neg RD
-  |  mov FCARG1, L:RB
-  |  mov FCARG2, RD
-  |  call extern lj_err_throw@8		// (lua_State *L, int errcode)
-  |.endif
-  |
-  |//-----------------------------------------------------------------------
-  |//-- Math helper functions ----------------------------------------------
-  |//-----------------------------------------------------------------------
-  |
-  |// FP value rounding. Called by math.floor/math.ceil fast functions
-  |// and from JIT code.
-  |
-  |// x87 variant: Arg/ret on x87 stack. No int/xmm registers modified.
-  |.macro vm_round_x87, mode1, mode2
-  |  fnstcw word [esp+4]		// Caveat: overwrites ARG1 and ARG2.
-  |  mov [esp+8], eax
-  |  mov ax, mode1
-  |  or ax, [esp+4]
-  |.if mode2 ~= 0xffff
-  |  and ax, mode2
-  |.endif
-  |  mov [esp+6], ax
-  |  fldcw word [esp+6]
-  |  frndint
-  |  fldcw word [esp+4]
-  |  mov eax, [esp+8]
-  |  ret
-  |.endmacro
-  |
-  |// SSE variant: arg/ret is xmm0. xmm0-xmm3 and RD (eax) modified.
-  |.macro vm_round_sse, mode
-  |  sseconst_abs xmm2, RDa
-  |  sseconst_2p52 xmm3, RDa
-  |  movaps xmm1, xmm0
-  |  andpd xmm1, xmm2			// |x|
-  |  ucomisd xmm3, xmm1			// No truncation if 2^52 <= |x|.
-  |  jbe >1
-  |  andnpd xmm2, xmm0			// Isolate sign bit.
-  |.if mode == 2		// trunc(x)?
-  |  movaps xmm0, xmm1
-  |  addsd xmm1, xmm3			// (|x| + 2^52) - 2^52
-  |  subsd xmm1, xmm3
-  |  sseconst_1 xmm3, RDa
-  |  cmpsd xmm0, xmm1, 1		// |x| < result?
-  |  andpd xmm0, xmm3
-  |  subsd xmm1, xmm0			// If yes, subtract -1.
-  |  orpd xmm1, xmm2			// Merge sign bit back in.
-  |.else
-  |  addsd xmm1, xmm3			// (|x| + 2^52) - 2^52
-  |  subsd xmm1, xmm3
-  |  orpd xmm1, xmm2			// Merge sign bit back in.
-  |  .if mode == 1		// ceil(x)?
-  |    sseconst_m1 xmm2, RDa		// Must subtract -1 to preserve -0.
-  |    cmpsd xmm0, xmm1, 6		// x > result?
-  |  .else			// floor(x)?
-  |    sseconst_1 xmm2, RDa
-  |    cmpsd xmm0, xmm1, 1		// x < result?
-  |  .endif
-  |  andpd xmm0, xmm2
-  |  subsd xmm1, xmm0			// If yes, subtract +-1.
-  |.endif
-  |  movaps xmm0, xmm1
-  |1:
-  |  ret
-  |.endmacro
-  |
-  |.macro vm_round, name, ssemode, mode1, mode2
-  |->name:
-  |.if not SSE
-  |  vm_round_x87 mode1, mode2
-  |.endif
-  |->name .. _sse:
-  |  vm_round_sse ssemode
-  |.endmacro
-  |
-  |  vm_round vm_floor, 0, 0x0400, 0xf7ff
-  |  vm_round vm_ceil,  1, 0x0800, 0xfbff
-  |  vm_round vm_trunc, 2, 0x0c00, 0xffff
-  |
-  |// FP modulo x%y. Called by BC_MOD* and vm_arith.
-  |->vm_mod:
-  |.if SSE
-  |// Args in xmm0/xmm1, return value in xmm0.
-  |// Caveat: xmm0-xmm5 and RC (eax) modified!
-  |  movaps xmm5, xmm0
-  |  divsd xmm0, xmm1
-  |  sseconst_abs xmm2, RDa
-  |  sseconst_2p52 xmm3, RDa
-  |  movaps xmm4, xmm0
-  |  andpd xmm4, xmm2			// |x/y|
-  |  ucomisd xmm3, xmm4			// No truncation if 2^52 <= |x/y|.
-  |  jbe >1
-  |  andnpd xmm2, xmm0			// Isolate sign bit.
-  |  addsd xmm4, xmm3			// (|x/y| + 2^52) - 2^52
-  |  subsd xmm4, xmm3
-  |  orpd xmm4, xmm2			// Merge sign bit back in.
-  |  sseconst_1 xmm2, RDa
-  |  cmpsd xmm0, xmm4, 1		// x/y < result?
-  |  andpd xmm0, xmm2
-  |  subsd xmm4, xmm0			// If yes, subtract 1.0.
-  |  movaps xmm0, xmm5
-  |  mulsd xmm1, xmm4
-  |  subsd xmm0, xmm1
-  |  ret
-  |1:
-  |  mulsd xmm1, xmm0
-  |  movaps xmm0, xmm5
-  |  subsd xmm0, xmm1
-  |  ret
-  |.else
-  |// Args/ret on x87 stack (y on top). No xmm registers modified.
-  |// Caveat: needs 3 slots on x87 stack! RC (eax) modified!
-  |  fld st1
-  |  fdiv st1
-  |  fnstcw word [esp+4]
-  |  mov ax, 0x0400
-  |  or ax, [esp+4]
-  |  and ax, 0xf7ff
-  |  mov [esp+6], ax
-  |  fldcw word [esp+6]
-  |  frndint
-  |  fldcw word [esp+4]
-  |  fmulp st1
-  |  fsubp st1
-  |  ret
-  |.endif
-  |
-  |// FP log2(x). Called by math.log(x, base).
-  |->vm_log2:
-  |.if X64WIN
-  |  movsd qword [rsp+8], xmm0		// Use scratch area.
-  |  fld1
-  |  fld qword [rsp+8]
-  |  fyl2x
-  |  fstp qword [rsp+8]
-  |  movsd xmm0, qword [rsp+8]
-  |.elif X64
-  |  movsd qword [rsp-8], xmm0		// Use red zone.
-  |  fld1
-  |  fld qword [rsp-8]
-  |  fyl2x
-  |  fstp qword [rsp-8]
-  |  movsd xmm0, qword [rsp-8]
-  |.else
-  |  fld1
-  |  fld qword [esp+4]
-  |  fyl2x
-  |.endif
-  |  ret
-  |
-  |// FP exponentiation e^x and 2^x. Called by math.exp fast function and
-  |// from JIT code. Arg/ret on x87 stack. No int/xmm regs modified.
-  |// Caveat: needs 3 slots on x87 stack!
-  |->vm_exp_x87:
-  |  fldl2e; fmulp st1				// e^x ==> 2^(x*log2(e))
-  |->vm_exp2_x87:
-  |  .if X64WIN
-  |    .define expscratch, dword [rsp+8]	// Use scratch area.
-  |  .elif X64
-  |    .define expscratch, dword [rsp-8]	// Use red zone.
-  |  .else
-  |    .define expscratch, dword [esp+4]	// Needs 4 byte scratch area.
-  |  .endif
-  |  fst expscratch				// Caveat: overwrites ARG1.
-  |  cmp expscratch, 0x7f800000; je >1		// Special case: e^+Inf = +Inf
-  |  cmp expscratch, 0xff800000; je >2		// Special case: e^-Inf = 0
-  |->vm_exp2raw:  // Entry point for vm_pow. Without +-Inf check.
-  |  fdup; frndint; fsub st1, st0; fxch		// Split into frac/int part.
-  |  f2xm1; fld1; faddp st1; fscale; fpop1	// ==> (2^frac-1 +1) << int
-  |1:
-  |  ret
-  |2:
-  |  fpop; fldz; ret
-  |
-  |// Generic power function x^y. Called by BC_POW, math.pow fast function,
-  |// and vm_arith.
-  |// Args/ret on x87 stack (y on top). RC (eax) modified.
-  |// Caveat: needs 3 slots on x87 stack!
-  |->vm_pow:
-  |.if not SSE
-  |  fist dword [esp+4]			// Store/reload int before comparison.
-  |  fild dword [esp+4]			// Integral exponent used in vm_powi.
-  |  fucomip st1
-  |  jnz >8				// Branch for FP exponents.
-  |  jp >9				// Branch for NaN exponent.
-  |  fpop				// Pop y and fallthrough to vm_powi.
-  |
-  |// FP/int power function x^i. Arg1/ret on x87 stack.
-  |// Arg2 (int) on C stack. RC (eax) modified.
-  |// Caveat: needs 2 slots on x87 stack!
-  |  mov eax, [esp+4]
-  |  cmp eax, 1; jle >6			// i<=1?
-  |  // Now 1 < (unsigned)i <= 0x80000000.
-  |1:  // Handle leading zeros.
-  |  test eax, 1; jnz >2
-  |  fmul st0
-  |  shr eax, 1
-  |  jmp <1
-  |2:
-  |  shr eax, 1; jz >5
-  |  fdup
-  |3:  // Handle trailing bits.
-  |  fmul st0
-  |  shr eax, 1; jz >4
-  |  jnc <3
-  |  fmul st1, st0
-  |  jmp <3
-  |4:
-  |  fmulp st1
-  |5:
-  |  ret
-  |6:
-  |  je <5				// x^1 ==> x
-  |  jb >7
-  |  fld1; fdivrp st1
-  |  neg eax
-  |  cmp eax, 1; je <5			// x^-1 ==> 1/x
-  |  jmp <1				// x^-i ==> (1/x)^i
-  |7:
-  |  fpop; fld1				// x^0 ==> 1
-  |  ret
-  |
-  |8:  // FP/FP power function x^y.
-  |  fst dword [esp+4]
-  |  fxch
-  |  fst dword [esp+8]
-  |  mov eax, [esp+4]; shl eax, 1
-  |  cmp eax, 0xff000000; je >2			// x^+-Inf?
-  |  mov eax, [esp+8]; shl eax, 1; je >4	// +-0^y?
-  |  cmp eax, 0xff000000; je >4			// +-Inf^y?
-  |  fyl2x
-  |  jmp ->vm_exp2raw
-  |
-  |9:  // Handle x^NaN.
-  |  fld1
-  |  fucomip st2
-  |  je >1				// 1^NaN ==> 1
-  |  fxch				// x^NaN ==> NaN
-  |1:
-  |  fpop
-  |  ret
-  |
-  |2:  // Handle x^+-Inf.
-  |  fabs
-  |  fld1
-  |  fucomip st1
-  |  je >3					// +-1^+-Inf ==> 1
-  |  fpop; fabs; fldz; mov eax, 0; setc al
-  |  ror eax, 1; xor eax, [esp+4]; jns >3	// |x|<>1, x^+-Inf ==> +Inf/0
-  |  fxch
-  |3:
-  |  fpop1; fabs
-  |  ret
-  |
-  |4:  // Handle +-0^y or +-Inf^y.
-  |  cmp dword [esp+4], 0; jge <3		// y >= 0, x^y ==> |x|
-  |  fpop; fpop
-  |  test eax, eax; jz >5			// y < 0, +-0^y ==> +Inf
-  |  fldz					// y < 0, +-Inf^y ==> 0
-  |  ret
-  |5:
-  |  mov dword [esp+4], 0x7f800000		// Return +Inf.
-  |  fld dword [esp+4]
-  |  ret
-  |.endif
-  |
-  |// Args in xmm0/xmm1. Ret in xmm0. xmm0-xmm2 and RC (eax) modified.
-  |// Needs 16 byte scratch area for x86. Also called from JIT code.
-  |->vm_pow_sse:
-  |  cvtsd2si eax, xmm1
-  |  cvtsi2sd xmm2, eax
-  |  ucomisd xmm1, xmm2
-  |  jnz >8				// Branch for FP exponents.
-  |  jp >9				// Branch for NaN exponent.
-  |  // Fallthrough to vm_powi_sse.
-  |
-  |// Args in xmm0/eax. Ret in xmm0. xmm0-xmm1 and eax modified.
-  |->vm_powi_sse:
-  |  cmp eax, 1; jle >6			// i<=1?
-  |  // Now 1 < (unsigned)i <= 0x80000000.
-  |1:  // Handle leading zeros.
-  |  test eax, 1; jnz >2
-  |  mulsd xmm0, xmm0
-  |  shr eax, 1
-  |  jmp <1
-  |2:
-  |  shr eax, 1; jz >5
-  |  movaps xmm1, xmm0
-  |3:  // Handle trailing bits.
-  |  mulsd xmm0, xmm0
-  |  shr eax, 1; jz >4
-  |  jnc <3
-  |  mulsd xmm1, xmm0
-  |  jmp <3
-  |4:
-  |  mulsd xmm0, xmm1
-  |5:
-  |  ret
-  |6:
-  |  je <5				// x^1 ==> x
-  |  jb >7				// x^0 ==> 1
-  |  neg eax
-  |  call <1
-  |  sseconst_1 xmm1, RDa
-  |  divsd xmm1, xmm0
-  |  movaps xmm0, xmm1
-  |  ret
-  |7:
-  |  sseconst_1 xmm0, RDa
-  |  ret
-  |
-  |8:  // FP/FP power function x^y.
-  |.if X64
-  |  movd rax, xmm1; shl rax, 1
-  |  rol rax, 12; cmp rax, 0xffe; je >2		// x^+-Inf?
-  |  movd rax, xmm0; shl rax, 1; je >4		// +-0^y?
-  |  rol rax, 12; cmp rax, 0xffe; je >5		// +-Inf^y?
-  |  .if X64WIN
-  |    movsd qword [rsp+16], xmm1		// Use scratch area.
-  |    movsd qword [rsp+8], xmm0
-  |    fld qword [rsp+16]
-  |    fld qword [rsp+8]
-  |  .else
-  |    movsd qword [rsp-16], xmm1		// Use red zone.
-  |    movsd qword [rsp-8], xmm0
-  |    fld qword [rsp-16]
-  |    fld qword [rsp-8]
-  |  .endif
-  |.else
-  |  movsd qword [esp+12], xmm1			// Needs 16 byte scratch area.
-  |  movsd qword [esp+4], xmm0
-  |  cmp dword [esp+12], 0; jne >1
-  |  mov eax, [esp+16]; shl eax, 1
-  |  cmp eax, 0xffe00000; je >2			// x^+-Inf?
-  |1:
-  |  cmp dword [esp+4], 0; jne >1
-  |  mov eax, [esp+8]; shl eax, 1; je >4	// +-0^y?
-  |  cmp eax, 0xffe00000; je >5			// +-Inf^y?
-  |1:
-  |  fld qword [esp+12]
-  |  fld qword [esp+4]
-  |.endif
-  |  fyl2x					// y*log2(x)
-  |  fdup; frndint; fsub st1, st0; fxch		// Split into frac/int part.
-  |  f2xm1; fld1; faddp st1; fscale; fpop1	// ==> (2^frac-1 +1) << int
-  |.if X64WIN
-  |  fstp qword [rsp+8]				// Use scratch area.
-  |  movsd xmm0, qword [rsp+8]
-  |.elif X64
-  |  fstp qword [rsp-8]				// Use red zone.
-  |  movsd xmm0, qword [rsp-8]
-  |.else
-  |  fstp qword [esp+4]				// Needs 8 byte scratch area.
-  |  movsd xmm0, qword [esp+4]
-  |.endif
-  |  ret
-  |
-  |9:  // Handle x^NaN.
-  |  sseconst_1 xmm2, RDa
-  |  ucomisd xmm0, xmm2; je >1			// 1^NaN ==> 1
-  |  movaps xmm0, xmm1				// x^NaN ==> NaN
-  |1:
-  |  ret
-  |
-  |2:  // Handle x^+-Inf.
-  |  sseconst_abs xmm2, RDa
-  |  andpd xmm0, xmm2				// |x|
-  |  sseconst_1 xmm2, RDa
-  |  ucomisd xmm0, xmm2; je <1			// +-1^+-Inf ==> 1
-  |  movmskpd eax, xmm1
-  |  xorps xmm0, xmm0
-  |  mov ah, al; setc al; xor al, ah; jne <1	// |x|<>1, x^+-Inf ==> +Inf/0
-  |3:
-  |  sseconst_hi xmm0, RDa, 7ff00000  // +Inf
-  |  ret
-  |
-  |4:  // Handle +-0^y.
-  |  movmskpd eax, xmm1; test eax, eax; jnz <3	// y < 0, +-0^y ==> +Inf
-  |  xorps xmm0, xmm0				// y >= 0, +-0^y ==> 0
-  |  ret
-  |
-  |5:  // Handle +-Inf^y.
-  |  movmskpd eax, xmm1; test eax, eax; jz <3	// y >= 0, +-Inf^y ==> +Inf
-  |  xorps xmm0, xmm0				// y < 0, +-Inf^y ==> 0
-  |  ret
-  |
-  |// Callable from C: double lj_vm_foldfpm(double x, int fpm)
-  |// Computes fpm(x) for extended math functions. ORDER FPM.
-  |->vm_foldfpm:
-  |.if JIT
-  |.if X64
-  |  .if X64WIN
-  |    .define fpmop, CARG2d
-  |  .else
-  |    .define fpmop, CARG1d
-  |  .endif
-  |  cmp fpmop, 1; jb ->vm_floor; je ->vm_ceil
-  |  cmp fpmop, 3; jb ->vm_trunc; ja >2
-  |  sqrtsd xmm0, xmm0; ret
-  |2:
-  |  .if X64WIN
-  |    movsd qword [rsp+8], xmm0	// Use scratch area.
-  |    fld qword [rsp+8]
-  |  .else
-  |    movsd qword [rsp-8], xmm0	// Use red zone.
-  |    fld qword [rsp-8]
-  |  .endif
-  |  cmp fpmop, 5; ja >2
-  |  .if X64WIN; pop rax; .endif
-  |  je >1
-  |  call ->vm_exp_x87
-  |  .if X64WIN; push rax; .endif
-  |  jmp >7
-  |1:
-  |  call ->vm_exp2_x87
-  |  .if X64WIN; push rax; .endif
-  |  jmp >7
-  |2: ; cmp fpmop, 7; je >1; ja >2
-  |  fldln2; fxch; fyl2x; jmp >7
-  |1: ; fld1; fxch; fyl2x; jmp >7
-  |2: ; cmp fpmop, 9; je >1; ja >2
-  |  fldlg2; fxch; fyl2x; jmp >7
-  |1: ; fsin; jmp >7
-  |2: ; cmp fpmop, 11; je >1; ja >9
-  |   fcos; jmp >7
-  |1: ; fptan; fpop
-  |7:
-  |  .if X64WIN
-  |    fstp qword [rsp+8]		// Use scratch area.
-  |    movsd xmm0, qword [rsp+8]
-  |  .else
-  |    fstp qword [rsp-8]		// Use red zone.
-  |    movsd xmm0, qword [rsp-8]
-  |  .endif
-  |  ret
-  |.else  // x86 calling convention.
-  |  .define fpmop, eax
-  |.if SSE
-  |  mov fpmop, [esp+12]
-  |  movsd xmm0, qword [esp+4]
-  |  cmp fpmop, 1; je >1; ja >2
-  |  call ->vm_floor; jmp >7
-  |1: ; call ->vm_ceil; jmp >7
-  |2: ; cmp fpmop, 3; je >1; ja >2
-  |  call ->vm_trunc; jmp >7
-  |1:
-  |  sqrtsd xmm0, xmm0
-  |7:
-  |  movsd qword [esp+4], xmm0	// Overwrite callee-owned args.
-  |  fld qword [esp+4]
-  |  ret
-  |2: ; fld qword [esp+4]
-  |  cmp fpmop, 5; jb ->vm_exp_x87; je ->vm_exp2_x87
-  |2: ; cmp fpmop, 7; je >1; ja >2
-  |  fldln2; fxch; fyl2x; ret
-  |1: ; fld1; fxch; fyl2x; ret
-  |2: ; cmp fpmop, 9; je >1; ja >2
-  |  fldlg2; fxch; fyl2x; ret
-  |1: ; fsin; ret
-  |2: ; cmp fpmop, 11; je >1; ja >9
-  |   fcos; ret
-  |1: ; fptan; fpop; ret
-  |.else
-  |  mov fpmop, [esp+12]
-  |  fld qword [esp+4]
-  |  cmp fpmop, 1; jb ->vm_floor; je ->vm_ceil
-  |  cmp fpmop, 3; jb ->vm_trunc; ja >2
-  |  fsqrt; ret
-  |2: ; cmp fpmop, 5; jb ->vm_exp_x87; je ->vm_exp2_x87
-  |  cmp fpmop, 7; je >1; ja >2
-  |  fldln2; fxch; fyl2x; ret
-  |1: ; fld1; fxch; fyl2x; ret
-  |2: ; cmp fpmop, 9; je >1; ja >2
-  |  fldlg2; fxch; fyl2x; ret
-  |1: ; fsin; ret
-  |2: ; cmp fpmop, 11; je >1; ja >9
-  |   fcos; ret
-  |1: ; fptan; fpop; ret
-  |.endif
-  |.endif
-  |9: ; int3					// Bad fpm.
-  |.endif
-  |
-  |// Callable from C: double lj_vm_foldarith(double x, double y, int op)
-  |// Compute x op y for basic arithmetic operators (+ - * / % ^ and unary -)
-  |// and basic math functions. ORDER ARITH
-  |->vm_foldarith:
-  |.if X64
-  |
-  |  .if X64WIN
-  |    .define foldop, CARG3d
-  |  .else
-  |    .define foldop, CARG1d
-  |  .endif
-  |  cmp foldop, 1; je >1; ja >2
-  |  addsd xmm0, xmm1; ret
-  |1: ; subsd xmm0, xmm1; ret
-  |2: ; cmp foldop, 3; je >1; ja >2
-  |  mulsd xmm0, xmm1; ret
-  |1: ; divsd xmm0, xmm1; ret
-  |2: ; cmp foldop, 5; jb ->vm_mod; je ->vm_pow
-  |  cmp foldop, 7; je >1; ja >2
-  |  sseconst_sign xmm1, RDa; xorps xmm0, xmm1; ret
-  |1: ; sseconst_abs xmm1, RDa; andps xmm0, xmm1; ret
-  |2: ; cmp foldop, 9; ja >2
-  |.if X64WIN
-  |  movsd qword [rsp+8], xmm0	// Use scratch area.
-  |  movsd qword [rsp+16], xmm1
-  |  fld qword [rsp+8]
-  |  fld qword [rsp+16]
-  |.else
-  |  movsd qword [rsp-8], xmm0	// Use red zone.
-  |  movsd qword [rsp-16], xmm1
-  |  fld qword [rsp-8]
-  |  fld qword [rsp-16]
-  |.endif
-  |  je >1
-  |  fpatan
-  |7:
-  |.if X64WIN
-  |  fstp qword [rsp+8]		// Use scratch area.
-  |  movsd xmm0, qword [rsp+8]
-  |.else
-  |  fstp qword [rsp-8]		// Use red zone.
-  |  movsd xmm0, qword [rsp-8]
-  |.endif
-  |  ret
-  |1: ; fxch; fscale; fpop1; jmp <7
-  |2: ; cmp foldop, 11; je >1; ja >9
-  |  minsd xmm0, xmm1; ret
-  |1: ; maxsd xmm0, xmm1; ret
-  |9: ; int3				// Bad op.
-  |
-  |.elif SSE  // x86 calling convention with SSE ops.
-  |
-  |  .define foldop, eax
-  |  mov foldop, [esp+20]
-  |  movsd xmm0, qword [esp+4]
-  |  movsd xmm1, qword [esp+12]
-  |  cmp foldop, 1; je >1; ja >2
-  |  addsd xmm0, xmm1
-  |7:
-  |  movsd qword [esp+4], xmm0	// Overwrite callee-owned args.
-  |  fld qword [esp+4]
-  |  ret
-  |1: ; subsd xmm0, xmm1; jmp <7
-  |2: ; cmp foldop, 3; je >1; ja >2
-  |  mulsd xmm0, xmm1; jmp <7
-  |1: ; divsd xmm0, xmm1; jmp <7
-  |2: ; cmp foldop, 5
-  |  je >1; ja >2
-  |  call ->vm_mod; jmp <7
-  |1: ; pop edx; call ->vm_pow; push edx; jmp <7  // Writes to scratch area.
-  |2: ; cmp foldop, 7; je >1; ja >2
-  |  sseconst_sign xmm1, RDa; xorps xmm0, xmm1; jmp <7
-  |1: ; sseconst_abs xmm1, RDa; andps xmm0, xmm1; jmp <7
-  |2: ; cmp foldop, 9; ja >2
-  |  fld qword [esp+4]		// Reload from stack
-  |  fld qword [esp+12]
-  |  je >1
-  |  fpatan; ret
-  |1: ; fxch; fscale; fpop1; ret
-  |2: ; cmp foldop, 11; je >1; ja >9
-  |  minsd xmm0, xmm1; jmp <7
-  |1: ; maxsd xmm0, xmm1; jmp <7
-  |9: ; int3				// Bad op.
-  |
-  |.else  // x86 calling convention with x87 ops.
-  |
-  |  mov eax, [esp+20]
-  |  fld qword [esp+4]
-  |  fld qword [esp+12]
-  |  cmp eax, 1; je >1; ja >2
-  |  faddp st1; ret
-  |1: ; fsubp st1; ret
-  |2: ; cmp eax, 3; je >1; ja >2
-  |  fmulp st1; ret
-  |1: ; fdivp st1; ret
-  |2: ; cmp eax, 5; jb ->vm_mod; je ->vm_pow
-  |  cmp eax, 7; je >1; ja >2
-  |  fpop; fchs; ret
-  |1: ; fpop; fabs; ret
-  |2: ; cmp eax, 9; je >1; ja >2
-  |  fpatan; ret
-  |1: ; fxch; fscale; fpop1; ret
-  |2: ; cmp eax, 11; je >1; ja >9
-  |  fucomi st1; fcmovnbe st1; fpop1; ret
-  |1: ; fucomi st1; fcmovbe st1; fpop1; ret
-  |9: ; int3				// Bad op.
-  |
-  |.endif
-  |
-  |//-----------------------------------------------------------------------
-  |//-- Miscellaneous functions --------------------------------------------
-  |//-----------------------------------------------------------------------
-  |
-  |// int lj_vm_cpuid(uint32_t f, uint32_t res[4])
-  |->vm_cpuid:
-  |.if X64
-  |  mov eax, CARG1d
-  |  .if X64WIN; push rsi; mov rsi, CARG2; .endif
-  |  push rbx
-  |  cpuid
-  |  mov [rsi], eax
-  |  mov [rsi+4], ebx
-  |  mov [rsi+8], ecx
-  |  mov [rsi+12], edx
-  |  pop rbx
-  |  .if X64WIN; pop rsi; .endif
-  |  ret
-  |.else
-  |  pushfd
-  |  pop edx
-  |  mov ecx, edx
-  |  xor edx, 0x00200000		// Toggle ID bit in flags.
-  |  push edx
-  |  popfd
-  |  pushfd
-  |  pop edx
-  |  xor eax, eax			// Zero means no features supported.
-  |  cmp ecx, edx
-  |  jz >1				// No ID toggle means no CPUID support.
-  |  mov eax, [esp+4]			// Argument 1 is function number.
-  |  push edi
-  |  push ebx
-  |  cpuid
-  |  mov edi, [esp+16]			// Argument 2 is result area.
-  |  mov [edi], eax
-  |  mov [edi+4], ebx
-  |  mov [edi+8], ecx
-  |  mov [edi+12], edx
-  |  pop ebx
-  |  pop edi
-  |1:
-  |  ret
-  |.endif
-  |
-  |//-----------------------------------------------------------------------
-  |//-- Assertions ---------------------------------------------------------
-  |//-----------------------------------------------------------------------
-  |
-  |->assert_bad_for_arg_type:
-#ifdef LUA_USE_ASSERT
-  |  int3
-#endif
-  |  int3
-  |
-  |//-----------------------------------------------------------------------
-  |//-- FFI helper functions -----------------------------------------------
-  |//-----------------------------------------------------------------------
-  |
-  |// Handler for callback functions. Callback slot number in ah/al.
-  |->vm_ffi_callback:
-  |.if FFI
-  |.type CTSTATE, CTState, PC
-  |.if not X64
-  |  sub esp, 16			// Leave room for SAVE_ERRF etc.
-  |.endif
-  |  saveregs_	// ebp/rbp already saved. ebp now holds global_State *.
-  |  lea DISPATCH, [ebp+GG_G2DISP]
-  |  mov CTSTATE, GL:ebp->ctype_state
-  |  movzx eax, ax
-  |  mov CTSTATE->cb.slot, eax
-  |.if X64
-  |  mov CTSTATE->cb.gpr[0], CARG1
-  |  mov CTSTATE->cb.gpr[1], CARG2
-  |  mov CTSTATE->cb.gpr[2], CARG3
-  |  mov CTSTATE->cb.gpr[3], CARG4
-  |  movsd qword CTSTATE->cb.fpr[0], xmm0
-  |  movsd qword CTSTATE->cb.fpr[1], xmm1
-  |  movsd qword CTSTATE->cb.fpr[2], xmm2
-  |  movsd qword CTSTATE->cb.fpr[3], xmm3
-  |.if X64WIN
-  |  lea rax, [rsp+CFRAME_SIZE+4*8]
-  |.else
-  |  lea rax, [rsp+CFRAME_SIZE]
-  |  mov CTSTATE->cb.gpr[4], CARG5
-  |  mov CTSTATE->cb.gpr[5], CARG6
-  |  movsd qword CTSTATE->cb.fpr[4], xmm4
-  |  movsd qword CTSTATE->cb.fpr[5], xmm5
-  |  movsd qword CTSTATE->cb.fpr[6], xmm6
-  |  movsd qword CTSTATE->cb.fpr[7], xmm7
-  |.endif
-  |  mov CTSTATE->cb.stack, rax
-  |  mov CARG2, rsp
-  |.else
-  |  lea eax, [esp+CFRAME_SIZE+16]
-  |  mov CTSTATE->cb.gpr[0], FCARG1
-  |  mov CTSTATE->cb.gpr[1], FCARG2
-  |  mov CTSTATE->cb.stack, eax
-  |  mov FCARG1, [esp+CFRAME_SIZE+12]	// Move around misplaced retaddr/ebp.
-  |  mov FCARG2, [esp+CFRAME_SIZE+8]
-  |  mov SAVE_RET, FCARG1
-  |  mov SAVE_R4, FCARG2
-  |  mov FCARG2, esp
-  |.endif
-  |  mov SAVE_PC, CTSTATE		// Any value outside of bytecode is ok.
-  |  mov FCARG1, CTSTATE
-  |  call extern lj_ccallback_enter@8	// (CTState *cts, void *cf)
-  |  // lua_State * returned in eax (RD).
-  |  set_vmstate INTERP
-  |  mov BASE, L:RD->base
-  |  mov RD, L:RD->top
-  |  sub RD, BASE
-  |  mov LFUNC:RB, [BASE-8]
-  |  shr RD, 3
-  |  add RD, 1
-  |  ins_callt
-  |.endif
-  |
-  |->cont_ffi_callback:			// Return from FFI callback.
-  |.if FFI
-  |  mov L:RA, SAVE_L
-  |  mov CTSTATE, [DISPATCH+DISPATCH_GL(ctype_state)]
-  |  mov aword CTSTATE->L, L:RAa
-  |  mov L:RA->base, BASE
-  |  mov L:RA->top, RB
-  |  mov FCARG1, CTSTATE
-  |  mov FCARG2, RC
-  |  call extern lj_ccallback_leave@8	// (CTState *cts, TValue *o)
-  |.if X64
-  |  mov rax, CTSTATE->cb.gpr[0]
-  |  movsd xmm0, qword CTSTATE->cb.fpr[0]
-  |  jmp ->vm_leave_unw
-  |.else
-  |  mov L:RB, SAVE_L
-  |  mov eax, CTSTATE->cb.gpr[0]
-  |  mov edx, CTSTATE->cb.gpr[1]
-  |  cmp dword CTSTATE->cb.gpr[2], 1
-  |  jb >7
-  |  je >6
-  |  fld qword CTSTATE->cb.fpr[0].d
-  |  jmp >7
-  |6:
-  |  fld dword CTSTATE->cb.fpr[0].f
-  |7:
-  |  mov ecx, L:RB->top
-  |  movzx ecx, word [ecx+6]		// Get stack adjustment and copy up.
-  |  mov SAVE_L, ecx			// Must be one slot above SAVE_RET
-  |  restoreregs
-  |  pop ecx				// Move return addr from SAVE_RET.
-  |  add esp, [esp]			// Adjust stack.
-  |  add esp, 16
-  |  push ecx
-  |  ret
-  |.endif
-  |.endif
-  |
-  |->vm_ffi_call@4:			// Call C function via FFI.
-  |  // Caveat: needs special frame unwinding, see below.
-  |.if FFI
-  |.if X64
-  |  .type CCSTATE, CCallState, rbx
-  |  push rbp; mov rbp, rsp; push rbx; mov CCSTATE, CARG1
-  |.else
-  |  .type CCSTATE, CCallState, ebx
-  |  push ebp; mov ebp, esp; push ebx; mov CCSTATE, FCARG1
-  |.endif
-  |
-  |  // Readjust stack.
-  |.if X64
-  |  mov eax, CCSTATE->spadj
-  |  sub rsp, rax
-  |.else
-  |  sub esp, CCSTATE->spadj
-  |.if WIN
-  |  mov CCSTATE->spadj, esp
-  |.endif
-  |.endif
-  |
-  |  // Copy stack slots.
-  |  movzx ecx, byte CCSTATE->nsp
-  |  sub ecx, 1
-  |  js >2
-  |1:
-  |.if X64
-  |  mov rax, [CCSTATE+rcx*8+offsetof(CCallState, stack)]
-  |  mov [rsp+rcx*8+CCALL_SPS_EXTRA*8], rax
-  |.else
-  |  mov eax, [CCSTATE+ecx*4+offsetof(CCallState, stack)]
-  |  mov [esp+ecx*4], eax
-  |.endif
-  |  sub ecx, 1
-  |  jns <1
-  |2:
-  |
-  |.if X64
-  |  movzx eax, byte CCSTATE->nfpr
-  |  mov CARG1, CCSTATE->gpr[0]
-  |  mov CARG2, CCSTATE->gpr[1]
-  |  mov CARG3, CCSTATE->gpr[2]
-  |  mov CARG4, CCSTATE->gpr[3]
-  |.if not X64WIN
-  |  mov CARG5, CCSTATE->gpr[4]
-  |  mov CARG6, CCSTATE->gpr[5]
-  |.endif
-  |  test eax, eax; jz >5
-  |  movaps xmm0, CCSTATE->fpr[0]
-  |  movaps xmm1, CCSTATE->fpr[1]
-  |  movaps xmm2, CCSTATE->fpr[2]
-  |  movaps xmm3, CCSTATE->fpr[3]
-  |.if not X64WIN
-  |  cmp eax, 4; jbe >5
-  |  movaps xmm4, CCSTATE->fpr[4]
-  |  movaps xmm5, CCSTATE->fpr[5]
-  |  movaps xmm6, CCSTATE->fpr[6]
-  |  movaps xmm7, CCSTATE->fpr[7]
-  |.endif
-  |5:
-  |.else
-  |  mov FCARG1, CCSTATE->gpr[0]
-  |  mov FCARG2, CCSTATE->gpr[1]
-  |.endif
-  |
-  |  call aword CCSTATE->func
-  |
-  |.if X64
-  |  mov CCSTATE->gpr[0], rax
-  |  movaps CCSTATE->fpr[0], xmm0
-  |.if not X64WIN
-  |  mov CCSTATE->gpr[1], rdx
-  |  movaps CCSTATE->fpr[1], xmm1
-  |.endif
-  |.else
-  |  mov CCSTATE->gpr[0], eax
-  |  mov CCSTATE->gpr[1], edx
-  |  cmp byte CCSTATE->resx87, 1
-  |  jb >7
-  |  je >6
-  |  fstp qword CCSTATE->fpr[0].d[0]
-  |  jmp >7
-  |6:
-  |  fstp dword CCSTATE->fpr[0].f[0]
-  |7:
-  |.if WIN
-  |  sub CCSTATE->spadj, esp
-  |.endif
-  |.endif
-  |
-  |.if X64
-  |  mov rbx, [rbp-8]; leave; ret
-  |.else
-  |  mov ebx, [ebp-4]; leave; ret
-  |.endif
-  |.endif
-  |// Note: vm_ffi_call must be the last function in this object file!
-  |
-  |//-----------------------------------------------------------------------
-}
-
-/* Generate the code for a single instruction. */
-static void build_ins(BuildCtx *ctx, BCOp op, int defop)
-{
-  int vk = 0;
-  |// Note: aligning all instructions does not pay off.
-  |=>defop:
-
-  switch (op) {
-
-  /* -- Comparison ops ---------------------------------------------------- */
-
-  /* Remember: all ops branch for a true comparison, fall through otherwise. */
-
-  |.macro jmp_comp, lt, ge, le, gt, target
-  ||switch (op) {
-  ||case BC_ISLT:
-  |   lt target
-  ||break;
-  ||case BC_ISGE:
-  |   ge target
-  ||break;
-  ||case BC_ISLE:
-  |   le target
-  ||break;
-  ||case BC_ISGT:
-  |   gt target
-  ||break;
-  ||default: break;  /* Shut up GCC. */
-  ||}
-  |.endmacro
-
-  case BC_ISLT: case BC_ISGE: case BC_ISLE: case BC_ISGT:
-    |  // RA = src1, RD = src2, JMP with RD = target
-    |  ins_AD
-    |.if DUALNUM
-    |  checkint RA, >7
-    |  checkint RD, >8
-    |  mov RB, dword [BASE+RA*8]
-    |  add PC, 4
-    |  cmp RB, dword [BASE+RD*8]
-    |  jmp_comp jge, jl, jg, jle, >9
-    |6:
-    |  movzx RD, PC_RD
-    |  branchPC RD
-    |9:
-    |  ins_next
-    |
-    |7:  // RA is not an integer.
-    |  ja ->vmeta_comp
-    |  // RA is a number.
-    |  cmp dword [BASE+RD*8+4], LJ_TISNUM; jb >1; jne ->vmeta_comp
-    |  // RA is a number, RD is an integer.
-    |.if SSE
-    |  cvtsi2sd xmm0, dword [BASE+RD*8]
-    |  jmp >2
-    |.else
-    |  fld qword [BASE+RA*8]
-    |  fild dword [BASE+RD*8]
-    |  jmp >3
-    |.endif
-    |
-    |8:  // RA is an integer, RD is not an integer.
-    |  ja ->vmeta_comp
-    |  // RA is an integer, RD is a number.
-    |.if SSE
-    |  cvtsi2sd xmm1, dword [BASE+RA*8]
-    |  movsd xmm0, qword [BASE+RD*8]
-    |  add PC, 4
-    |  ucomisd xmm0, xmm1
-    |  jmp_comp jbe, ja, jb, jae, <9
-    |  jmp <6
-    |.else
-    |  fild dword [BASE+RA*8]
-    |  jmp >2
-    |.endif
-    |.else
-    |  checknum RA, ->vmeta_comp
-    |  checknum RD, ->vmeta_comp
-    |.endif
-    |.if SSE
-    |1:
-    |  movsd xmm0, qword [BASE+RD*8]
-    |2:
-    |  add PC, 4
-    |  ucomisd xmm0, qword [BASE+RA*8]
-    |3:
-    |.else
-    |1:
-    |  fld qword [BASE+RA*8]		// Reverse order, i.e like cmp D, A.
-    |2:
-    |  fld qword [BASE+RD*8]
-    |3:
-    |  add PC, 4
-    |  fcomparepp
-    |.endif
-    |  // Unordered: all of ZF CF PF set, ordered: PF clear.
-    |  // To preserve NaN semantics GE/GT branch on unordered, but LT/LE don't.
-    |.if DUALNUM
-    |  jmp_comp jbe, ja, jb, jae, <9
-    |  jmp <6
-    |.else
-    |  jmp_comp jbe, ja, jb, jae, >1
-    |  movzx RD, PC_RD
-    |  branchPC RD
-    |1:
-    |  ins_next
-    |.endif
-    break;
-
-  case BC_ISEQV: case BC_ISNEV:
-    vk = op == BC_ISEQV;
-    |  ins_AD	// RA = src1, RD = src2, JMP with RD = target
-    |  mov RB, [BASE+RD*8+4]
-    |  add PC, 4
-    |.if DUALNUM
-    |  cmp RB, LJ_TISNUM; jne >7
-    |  checkint RA, >8
-    |  mov RB, dword [BASE+RD*8]
-    |  cmp RB, dword [BASE+RA*8]
-    if (vk) {
-      |  jne >9
-    } else {
-      |  je >9
-    }
-    |  movzx RD, PC_RD
-    |  branchPC RD
-    |9:
-    |  ins_next
-    |
-    |7:  // RD is not an integer.
-    |  ja >5
-    |  // RD is a number.
-    |  cmp dword [BASE+RA*8+4], LJ_TISNUM; jb >1; jne >5
-    |  // RD is a number, RA is an integer.
-    |.if SSE
-    |  cvtsi2sd xmm0, dword [BASE+RA*8]
-    |.else
-    |  fild dword [BASE+RA*8]
-    |.endif
-    |  jmp >2
-    |
-    |8:  // RD is an integer, RA is not an integer.
-    |  ja >5
-    |  // RD is an integer, RA is a number.
-    |.if SSE
-    |  cvtsi2sd xmm0, dword [BASE+RD*8]
-    |  ucomisd xmm0, qword [BASE+RA*8]
-    |.else
-    |  fild dword [BASE+RD*8]
-    |  fld qword [BASE+RA*8]
-    |.endif
-    |  jmp >4
-    |
-    |.else
-    |  cmp RB, LJ_TISNUM; jae >5
-    |  checknum RA, >5
-    |.endif
-    |.if SSE
-    |1:
-    |  movsd xmm0, qword [BASE+RA*8]
-    |2:
-    |  ucomisd xmm0, qword [BASE+RD*8]
-    |4:
-    |.else
-    |1:
-    |  fld qword [BASE+RA*8]
-    |2:
-    |  fld qword [BASE+RD*8]
-    |4:
-    |  fcomparepp
-    |.endif
-  iseqne_fp:
-    if (vk) {
-      |  jp >2				// Unordered means not equal.
-      |  jne >2
-    } else {
-      |  jp >2				// Unordered means not equal.
-      |  je >1
-    }
-  iseqne_end:
-    if (vk) {
-      |1:				// EQ: Branch to the target.
-      |  movzx RD, PC_RD
-      |  branchPC RD
-      |2:				// NE: Fallthrough to next instruction.
-      |.if not FFI
-      |3:
-      |.endif
-    } else {
-      |.if not FFI
-      |3:
-      |.endif
-      |2:				// NE: Branch to the target.
-      |  movzx RD, PC_RD
-      |  branchPC RD
-      |1:				// EQ: Fallthrough to next instruction.
-    }
-    if (LJ_DUALNUM && (op == BC_ISEQV || op == BC_ISNEV ||
-		       op == BC_ISEQN || op == BC_ISNEN)) {
-      |  jmp <9
-    } else {
-      |  ins_next
-    }
-    |
-    if (op == BC_ISEQV || op == BC_ISNEV) {
-      |5:  // Either or both types are not numbers.
-      |.if FFI
-      |  cmp RB, LJ_TCDATA; je ->vmeta_equal_cd
-      |  checktp RA, LJ_TCDATA; je ->vmeta_equal_cd
-      |.endif
-      |  checktp RA, RB			// Compare types.
-      |  jne <2				// Not the same type?
-      |  cmp RB, LJ_TISPRI
-      |  jae <1				// Same type and primitive type?
-      |
-      |  // Same types and not a primitive type. Compare GCobj or pvalue.
-      |  mov RA, [BASE+RA*8]
-      |  mov RD, [BASE+RD*8]
-      |  cmp RA, RD
-      |  je <1				// Same GCobjs or pvalues?
-      |  cmp RB, LJ_TISTABUD
-      |  ja <2				// Different objects and not table/ud?
-      |.if X64
-      |  cmp RB, LJ_TUDATA		// And not 64 bit lightuserdata.
-      |  jb <2
-      |.endif
-      |
-      |  // Different tables or userdatas. Need to check __eq metamethod.
-      |  // Field metatable must be at same offset for GCtab and GCudata!
-      |  mov TAB:RB, TAB:RA->metatable
-      |  test TAB:RB, TAB:RB
-      |  jz <2				// No metatable?
-      |  test byte TAB:RB->nomm, 1<<MM_eq
-      |  jnz <2				// Or 'no __eq' flag set?
-      if (vk) {
-	|  xor RB, RB			// ne = 0
-      } else {
-	|  mov RB, 1			// ne = 1
-      }
-      |  jmp ->vmeta_equal		// Handle __eq metamethod.
-    } else {
-      |.if FFI
-      |3:
-      |  cmp RB, LJ_TCDATA
-      if (LJ_DUALNUM && vk) {
-	|  jne <9
-      } else {
-	|  jne <2
-      }
-      |  jmp ->vmeta_equal_cd
-      |.endif
-    }
-    break;
-  case BC_ISEQS: case BC_ISNES:
-    vk = op == BC_ISEQS;
-    |  ins_AND	// RA = src, RD = str const, JMP with RD = target
-    |  mov RB, [BASE+RA*8+4]
-    |  add PC, 4
-    |  cmp RB, LJ_TSTR; jne >3
-    |  mov RA, [BASE+RA*8]
-    |  cmp RA, [KBASE+RD*4]
-  iseqne_test:
-    if (vk) {
-      |  jne >2
-    } else {
-      |  je >1
-    }
-    goto iseqne_end;
-  case BC_ISEQN: case BC_ISNEN:
-    vk = op == BC_ISEQN;
-    |  ins_AD	// RA = src, RD = num const, JMP with RD = target
-    |  mov RB, [BASE+RA*8+4]
-    |  add PC, 4
-    |.if DUALNUM
-    |  cmp RB, LJ_TISNUM; jne >7
-    |  cmp dword [KBASE+RD*8+4], LJ_TISNUM; jne >8
-    |  mov RB, dword [KBASE+RD*8]
-    |  cmp RB, dword [BASE+RA*8]
-    if (vk) {
-      |  jne >9
-    } else {
-      |  je >9
-    }
-    |  movzx RD, PC_RD
-    |  branchPC RD
-    |9:
-    |  ins_next
-    |
-    |7:  // RA is not an integer.
-    |  ja >3
-    |  // RA is a number.
-    |  cmp dword [KBASE+RD*8+4], LJ_TISNUM; jb >1
-    |  // RA is a number, RD is an integer.
-    |.if SSE
-    |  cvtsi2sd xmm0, dword [KBASE+RD*8]
-    |.else
-    |  fild dword [KBASE+RD*8]
-    |.endif
-    |  jmp >2
-    |
-    |8:  // RA is an integer, RD is a number.
-    |.if SSE
-    |  cvtsi2sd xmm0, dword [BASE+RA*8]
-    |  ucomisd xmm0, qword [KBASE+RD*8]
-    |.else
-    |  fild dword [BASE+RA*8]
-    |  fld qword [KBASE+RD*8]
-    |.endif
-    |  jmp >4
-    |.else
-    |  cmp RB, LJ_TISNUM; jae >3
-    |.endif
-    |.if SSE
-    |1:
-    |  movsd xmm0, qword [KBASE+RD*8]
-    |2:
-    |  ucomisd xmm0, qword [BASE+RA*8]
-    |4:
-    |.else
-    |1:
-    |  fld qword [KBASE+RD*8]
-    |2:
-    |  fld qword [BASE+RA*8]
-    |4:
-    |  fcomparepp
-    |.endif
-    goto iseqne_fp;
-  case BC_ISEQP: case BC_ISNEP:
-    vk = op == BC_ISEQP;
-    |  ins_AND	// RA = src, RD = primitive type (~), JMP with RD = target
-    |  mov RB, [BASE+RA*8+4]
-    |  add PC, 4
-    |  cmp RB, RD
-    if (!LJ_HASFFI) goto iseqne_test;
-    if (vk) {
-      |  jne >3
-      |  movzx RD, PC_RD
-      |  branchPC RD
-      |2:
-      |  ins_next
-      |3:
-      |  cmp RB, LJ_TCDATA; jne <2
-      |  jmp ->vmeta_equal_cd
-    } else {
-      |  je >2
-      |  cmp RB, LJ_TCDATA; je ->vmeta_equal_cd
-      |  movzx RD, PC_RD
-      |  branchPC RD
-      |2:
-      |  ins_next
-    }
-    break;
-
-  /* -- Unary test and copy ops ------------------------------------------- */
-
-  case BC_ISTC: case BC_ISFC: case BC_IST: case BC_ISF:
-    |  ins_AD	// RA = dst or unused, RD = src, JMP with RD = target
-    |  mov RB, [BASE+RD*8+4]
-    |  add PC, 4
-    |  cmp RB, LJ_TISTRUECOND
-    if (op == BC_IST || op == BC_ISTC) {
-      |  jae >1
-    } else {
-      |  jb >1
-    }
-    if (op == BC_ISTC || op == BC_ISFC) {
-      |  mov [BASE+RA*8+4], RB
-      |  mov RB, [BASE+RD*8]
-      |  mov [BASE+RA*8], RB
-    }
-    |  movzx RD, PC_RD
-    |  branchPC RD
-    |1:					// Fallthrough to the next instruction.
-    |  ins_next
-    break;
-
-  /* -- Unary ops --------------------------------------------------------- */
-
-  case BC_MOV:
-    |  ins_AD	// RA = dst, RD = src
-    |.if X64
-    |  mov RBa, [BASE+RD*8]
-    |  mov [BASE+RA*8], RBa
-    |.else
-    |  mov RB, [BASE+RD*8+4]
-    |  mov RD, [BASE+RD*8]
-    |  mov [BASE+RA*8+4], RB
-    |  mov [BASE+RA*8], RD
-    |.endif
-    |  ins_next_
-    break;
-  case BC_NOT:
-    |  ins_AD	// RA = dst, RD = src
-    |  xor RB, RB
-    |  checktp RD, LJ_TISTRUECOND
-    |  adc RB, LJ_TTRUE
-    |  mov [BASE+RA*8+4], RB
-    |  ins_next
-    break;
-  case BC_UNM:
-    |  ins_AD	// RA = dst, RD = src
-    |.if DUALNUM
-    |  checkint RD, >5
-    |  mov RB, [BASE+RD*8]
-    |  neg RB
-    |  jo >4
-    |  mov dword [BASE+RA*8+4], LJ_TISNUM
-    |  mov dword [BASE+RA*8], RB
-    |9:
-    |  ins_next
-    |4:
-    |  mov dword [BASE+RA*8+4], 0x41e00000  // 2^31.
-    |  mov dword [BASE+RA*8], 0
-    |  jmp <9
-    |5:
-    |  ja ->vmeta_unm
-    |.else
-    |  checknum RD, ->vmeta_unm
-    |.endif
-    |.if SSE
-    |  movsd xmm0, qword [BASE+RD*8]
-    |  sseconst_sign xmm1, RDa
-    |  xorps xmm0, xmm1
-    |  movsd qword [BASE+RA*8], xmm0
-    |.else
-    |  fld qword [BASE+RD*8]
-    |  fchs
-    |  fstp qword [BASE+RA*8]
-    |.endif
-    |.if DUALNUM
-    |  jmp <9
-    |.else
-    |  ins_next
-    |.endif
-    break;
-  case BC_LEN:
-    |  ins_AD	// RA = dst, RD = src
-    |  checkstr RD, >2
-    |  mov STR:RD, [BASE+RD*8]
-    |.if DUALNUM
-    |  mov RD, dword STR:RD->len
-    |1:
-    |  mov dword [BASE+RA*8+4], LJ_TISNUM
-    |  mov dword [BASE+RA*8], RD
-    |.elif SSE
-    |  xorps xmm0, xmm0
-    |  cvtsi2sd xmm0, dword STR:RD->len
-    |1:
-    |  movsd qword [BASE+RA*8], xmm0
-    |.else
-    |  fild dword STR:RD->len
-    |1:
-    |  fstp qword [BASE+RA*8]
-    |.endif
-    |  ins_next
-    |2:
-    |  checktab RD, ->vmeta_len
-    |  mov TAB:FCARG1, [BASE+RD*8]
-#if LJ_52
-    |  mov TAB:RB, TAB:FCARG1->metatable
-    |  cmp TAB:RB, 0
-    |  jnz >9
-    |3:
-#endif
-    |->BC_LEN_Z:
-    |  mov RB, BASE			// Save BASE.
-    |  call extern lj_tab_len@4		// (GCtab *t)
-    |  // Length of table returned in eax (RD).
-    |.if DUALNUM
-    |  // Nothing to do.
-    |.elif SSE
-    |  cvtsi2sd xmm0, RD
-    |.else
-    |  mov ARG1, RD
-    |  fild ARG1
-    |.endif
-    |  mov BASE, RB			// Restore BASE.
-    |  movzx RA, PC_RA
-    |  jmp <1
-#if LJ_52
-    |9:  // Check for __len.
-    |  test byte TAB:RB->nomm, 1<<MM_len
-    |  jnz <3
-    |  jmp ->vmeta_len			// 'no __len' flag NOT set: check.
-#endif
-    break;
-
-  /* -- Binary ops -------------------------------------------------------- */
-
-    |.macro ins_arithpre, x87ins, sseins, ssereg
-    |  ins_ABC
-    ||vk = ((int)op - BC_ADDVN) / (BC_ADDNV-BC_ADDVN);
-    ||switch (vk) {
-    ||case 0:
-    |   checknum RB, ->vmeta_arith_vn
-    |   .if DUALNUM
-    |     cmp dword [KBASE+RC*8+4], LJ_TISNUM; jae ->vmeta_arith_vn
-    |   .endif
-    |   .if SSE
-    |     movsd xmm0, qword [BASE+RB*8]
-    |     sseins ssereg, qword [KBASE+RC*8]
-    |   .else
-    |     fld qword [BASE+RB*8]
-    |     x87ins qword [KBASE+RC*8]
-    |   .endif
-    ||  break;
-    ||case 1:
-    |   checknum RB, ->vmeta_arith_nv
-    |   .if DUALNUM
-    |     cmp dword [KBASE+RC*8+4], LJ_TISNUM; jae ->vmeta_arith_nv
-    |   .endif
-    |   .if SSE
-    |     movsd xmm0, qword [KBASE+RC*8]
-    |     sseins ssereg, qword [BASE+RB*8]
-    |   .else
-    |     fld qword [KBASE+RC*8]
-    |     x87ins qword [BASE+RB*8]
-    |   .endif
-    ||  break;
-    ||default:
-    |   checknum RB, ->vmeta_arith_vv
-    |   checknum RC, ->vmeta_arith_vv
-    |   .if SSE
-    |     movsd xmm0, qword [BASE+RB*8]
-    |     sseins ssereg, qword [BASE+RC*8]
-    |   .else
-    |     fld qword [BASE+RB*8]
-    |     x87ins qword [BASE+RC*8]
-    |   .endif
-    ||  break;
-    ||}
-    |.endmacro
-    |
-    |.macro ins_arithdn, intins
-    |  ins_ABC
-    ||vk = ((int)op - BC_ADDVN) / (BC_ADDNV-BC_ADDVN);
-    ||switch (vk) {
-    ||case 0:
-    |   checkint RB, ->vmeta_arith_vn
-    |   cmp dword [KBASE+RC*8+4], LJ_TISNUM; jne ->vmeta_arith_vn
-    |   mov RB, [BASE+RB*8]
-    |   intins RB, [KBASE+RC*8]; jo ->vmeta_arith_vno
-    ||  break;
-    ||case 1:
-    |   checkint RB, ->vmeta_arith_nv
-    |   cmp dword [KBASE+RC*8+4], LJ_TISNUM; jne ->vmeta_arith_nv
-    |   mov RC, [KBASE+RC*8]
-    |   intins RC, [BASE+RB*8]; jo ->vmeta_arith_nvo
-    ||  break;
-    ||default:
-    |   checkint RB, ->vmeta_arith_vv
-    |   checkint RC, ->vmeta_arith_vv
-    |   mov RB, [BASE+RB*8]
-    |   intins RB, [BASE+RC*8]; jo ->vmeta_arith_vvo
-    ||  break;
-    ||}
-    |  mov dword [BASE+RA*8+4], LJ_TISNUM
-    ||if (vk == 1) {
-    |   mov dword [BASE+RA*8], RC
-    ||} else {
-    |   mov dword [BASE+RA*8], RB
-    ||}
-    |  ins_next
-    |.endmacro
-    |
-    |.macro ins_arithpost
-    |.if SSE
-    |  movsd qword [BASE+RA*8], xmm0
-    |.else
-    |  fstp qword [BASE+RA*8]
-    |.endif
-    |.endmacro
-    |
-    |.macro ins_arith, x87ins, sseins
-    |  ins_arithpre x87ins, sseins, xmm0
-    |  ins_arithpost
-    |  ins_next
-    |.endmacro
-    |
-    |.macro ins_arith, intins, x87ins, sseins
-    |.if DUALNUM
-    |  ins_arithdn intins
-    |.else
-    |  ins_arith, x87ins, sseins
-    |.endif
-    |.endmacro
-
-    |  // RA = dst, RB = src1 or num const, RC = src2 or num const
-  case BC_ADDVN: case BC_ADDNV: case BC_ADDVV:
-    |  ins_arith add, fadd, addsd
-    break;
-  case BC_SUBVN: case BC_SUBNV: case BC_SUBVV:
-    |  ins_arith sub, fsub, subsd
-    break;
-  case BC_MULVN: case BC_MULNV: case BC_MULVV:
-    |  ins_arith imul, fmul, mulsd
-    break;
-  case BC_DIVVN: case BC_DIVNV: case BC_DIVVV:
-    |  ins_arith fdiv, divsd
-    break;
-  case BC_MODVN:
-    |  ins_arithpre fld, movsd, xmm1
-    |->BC_MODVN_Z:
-    |  call ->vm_mod
-    |  ins_arithpost
-    |  ins_next
-    break;
-  case BC_MODNV: case BC_MODVV:
-    |  ins_arithpre fld, movsd, xmm1
-    |  jmp ->BC_MODVN_Z			// Avoid 3 copies. It's slow anyway.
-    break;
-  case BC_POW:
-    |  ins_arithpre fld, movsd, xmm1
-    |  call ->vm_pow
-    |  ins_arithpost
-    |  ins_next
-    break;
-
-  case BC_CAT:
-    |  ins_ABC	// RA = dst, RB = src_start, RC = src_end
-    |.if X64
-    |  mov L:CARG1d, SAVE_L
-    |  mov L:CARG1d->base, BASE
-    |  lea CARG2d, [BASE+RC*8]
-    |  mov CARG3d, RC
-    |  sub CARG3d, RB
-    |->BC_CAT_Z:
-    |  mov L:RB, L:CARG1d
-    |.else
-    |  lea RA, [BASE+RC*8]
-    |  sub RC, RB
-    |  mov ARG2, RA
-    |  mov ARG3, RC
-    |->BC_CAT_Z:
-    |  mov L:RB, SAVE_L
-    |  mov ARG1, L:RB
-    |  mov L:RB->base, BASE
-    |.endif
-    |  mov SAVE_PC, PC
-    |  call extern lj_meta_cat		// (lua_State *L, TValue *top, int left)
-    |  // NULL (finished) or TValue * (metamethod) returned in eax (RC).
-    |  mov BASE, L:RB->base
-    |  test RC, RC
-    |  jnz ->vmeta_binop
-    |  movzx RB, PC_RB			// Copy result to Stk[RA] from Stk[RB].
-    |  movzx RA, PC_RA
-    |.if X64
-    |  mov RCa, [BASE+RB*8]
-    |  mov [BASE+RA*8], RCa
-    |.else
-    |  mov RC, [BASE+RB*8+4]
-    |  mov RB, [BASE+RB*8]
-    |  mov [BASE+RA*8+4], RC
-    |  mov [BASE+RA*8], RB
-    |.endif
-    |  ins_next
-    break;
-
-  /* -- Constant ops ------------------------------------------------------ */
-
-  case BC_KSTR:
-    |  ins_AND	// RA = dst, RD = str const (~)
-    |  mov RD, [KBASE+RD*4]
-    |  mov dword [BASE+RA*8+4], LJ_TSTR
-    |  mov [BASE+RA*8], RD
-    |  ins_next
-    break;
-  case BC_KCDATA:
-    |.if FFI
-    |  ins_AND	// RA = dst, RD = cdata const (~)
-    |  mov RD, [KBASE+RD*4]
-    |  mov dword [BASE+RA*8+4], LJ_TCDATA
-    |  mov [BASE+RA*8], RD
-    |  ins_next
-    |.endif
-    break;
-  case BC_KSHORT:
-    |  ins_AD	// RA = dst, RD = signed int16 literal
-    |.if DUALNUM
-    |  movsx RD, RDW
-    |  mov dword [BASE+RA*8+4], LJ_TISNUM
-    |  mov dword [BASE+RA*8], RD
-    |.elif SSE
-    |  movsx RD, RDW			// Sign-extend literal.
-    |  cvtsi2sd xmm0, RD
-    |  movsd qword [BASE+RA*8], xmm0
-    |.else
-    |  fild PC_RD			// Refetch signed RD from instruction.
-    |  fstp qword [BASE+RA*8]
-    |.endif
-    |  ins_next
-    break;
-  case BC_KNUM:
-    |  ins_AD	// RA = dst, RD = num const
-    |.if SSE
-    |  movsd xmm0, qword [KBASE+RD*8]
-    |  movsd qword [BASE+RA*8], xmm0
-    |.else
-    |  fld qword [KBASE+RD*8]
-    |  fstp qword [BASE+RA*8]
-    |.endif
-    |  ins_next
-    break;
-  case BC_KPRI:
-    |  ins_AND	// RA = dst, RD = primitive type (~)
-    |  mov [BASE+RA*8+4], RD
-    |  ins_next
-    break;
-  case BC_KNIL:
-    |  ins_AD	// RA = dst_start, RD = dst_end
-    |  lea RA, [BASE+RA*8+12]
-    |  lea RD, [BASE+RD*8+4]
-    |  mov RB, LJ_TNIL
-    |  mov [RA-8], RB			// Sets minimum 2 slots.
-    |1:
-    |  mov [RA], RB
-    |  add RA, 8
-    |  cmp RA, RD
-    |  jbe <1
-    |  ins_next
-    break;
-
-  /* -- Upvalue and function ops ------------------------------------------ */
-
-  case BC_UGET:
-    |  ins_AD	// RA = dst, RD = upvalue #
-    |  mov LFUNC:RB, [BASE-8]
-    |  mov UPVAL:RB, [LFUNC:RB+RD*4+offsetof(GCfuncL, uvptr)]
-    |  mov RB, UPVAL:RB->v
-    |.if X64
-    |  mov RDa, [RB]
-    |  mov [BASE+RA*8], RDa
-    |.else
-    |  mov RD, [RB+4]
-    |  mov RB, [RB]
-    |  mov [BASE+RA*8+4], RD
-    |  mov [BASE+RA*8], RB
-    |.endif
-    |  ins_next
-    break;
-  case BC_USETV:
-#define TV2MARKOFS \
- ((int32_t)offsetof(GCupval, marked)-(int32_t)offsetof(GCupval, tv))
-    |  ins_AD	// RA = upvalue #, RD = src
-    |  mov LFUNC:RB, [BASE-8]
-    |  mov UPVAL:RB, [LFUNC:RB+RA*4+offsetof(GCfuncL, uvptr)]
-    |  cmp byte UPVAL:RB->closed, 0
-    |  mov RB, UPVAL:RB->v
-    |  mov RA, [BASE+RD*8]
-    |  mov RD, [BASE+RD*8+4]
-    |  mov [RB], RA
-    |  mov [RB+4], RD
-    |  jz >1
-    |  // Check barrier for closed upvalue.
-    |  test byte [RB+TV2MARKOFS], LJ_GC_BLACK		// isblack(uv)
-    |  jnz >2
-    |1:
-    |  ins_next
-    |
-    |2:  // Upvalue is black. Check if new value is collectable and white.
-    |  sub RD, LJ_TISGCV
-    |  cmp RD, LJ_TNUMX - LJ_TISGCV			// tvisgcv(v)
-    |  jbe <1
-    |  test byte GCOBJ:RA->gch.marked, LJ_GC_WHITES	// iswhite(v)
-    |  jz <1
-    |  // Crossed a write barrier. Move the barrier forward.
-    |.if X64 and not X64WIN
-    |  mov FCARG2, RB
-    |  mov RB, BASE			// Save BASE.
-    |.else
-    |  xchg FCARG2, RB			// Save BASE (FCARG2 == BASE).
-    |.endif
-    |  lea GL:FCARG1, [DISPATCH+GG_DISP2G]
-    |  call extern lj_gc_barrieruv@8	// (global_State *g, TValue *tv)
-    |  mov BASE, RB			// Restore BASE.
-    |  jmp <1
-    break;
-#undef TV2MARKOFS
-  case BC_USETS:
-    |  ins_AND	// RA = upvalue #, RD = str const (~)
-    |  mov LFUNC:RB, [BASE-8]
-    |  mov UPVAL:RB, [LFUNC:RB+RA*4+offsetof(GCfuncL, uvptr)]
-    |  mov GCOBJ:RA, [KBASE+RD*4]
-    |  mov RD, UPVAL:RB->v
-    |  mov [RD], GCOBJ:RA
-    |  mov dword [RD+4], LJ_TSTR
-    |  test byte UPVAL:RB->marked, LJ_GC_BLACK		// isblack(uv)
-    |  jnz >2
-    |1:
-    |  ins_next
-    |
-    |2:  // Check if string is white and ensure upvalue is closed.
-    |  test byte GCOBJ:RA->gch.marked, LJ_GC_WHITES	// iswhite(str)
-    |  jz <1
-    |  cmp byte UPVAL:RB->closed, 0
-    |  jz <1
-    |  // Crossed a write barrier. Move the barrier forward.
-    |  mov RB, BASE			// Save BASE (FCARG2 == BASE).
-    |  mov FCARG2, RD
-    |  lea GL:FCARG1, [DISPATCH+GG_DISP2G]
-    |  call extern lj_gc_barrieruv@8	// (global_State *g, TValue *tv)
-    |  mov BASE, RB			// Restore BASE.
-    |  jmp <1
-    break;
-  case BC_USETN:
-    |  ins_AD	// RA = upvalue #, RD = num const
-    |  mov LFUNC:RB, [BASE-8]
-    |.if SSE
-    |  movsd xmm0, qword [KBASE+RD*8]
-    |.else
-    |  fld qword [KBASE+RD*8]
-    |.endif
-    |  mov UPVAL:RB, [LFUNC:RB+RA*4+offsetof(GCfuncL, uvptr)]
-    |  mov RA, UPVAL:RB->v
-    |.if SSE
-    |  movsd qword [RA], xmm0
-    |.else
-    |  fstp qword [RA]
-    |.endif
-    |  ins_next
-    break;
-  case BC_USETP:
-    |  ins_AND	// RA = upvalue #, RD = primitive type (~)
-    |  mov LFUNC:RB, [BASE-8]
-    |  mov UPVAL:RB, [LFUNC:RB+RA*4+offsetof(GCfuncL, uvptr)]
-    |  mov RA, UPVAL:RB->v
-    |  mov [RA+4], RD
-    |  ins_next
-    break;
-  case BC_UCLO:
-    |  ins_AD	// RA = level, RD = target
-    |  branchPC RD			// Do this first to free RD.
-    |  mov L:RB, SAVE_L
-    |  cmp dword L:RB->openupval, 0
-    |  je >1
-    |  mov L:RB->base, BASE
-    |  lea FCARG2, [BASE+RA*8]		// Caveat: FCARG2 == BASE
-    |  mov L:FCARG1, L:RB		// Caveat: FCARG1 == RA
-    |  call extern lj_func_closeuv@8	// (lua_State *L, TValue *level)
-    |  mov BASE, L:RB->base
-    |1:
-    |  ins_next
-    break;
-
-  case BC_FNEW:
-    |  ins_AND	// RA = dst, RD = proto const (~) (holding function prototype)
-    |.if X64
-    |  mov L:RB, SAVE_L
-    |  mov L:RB->base, BASE		// Caveat: CARG2d/CARG3d may be BASE.
-    |  mov CARG3d, [BASE-8]
-    |  mov CARG2d, [KBASE+RD*4]		// Fetch GCproto *.
-    |  mov CARG1d, L:RB
-    |.else
-    |  mov LFUNC:RA, [BASE-8]
-    |  mov PROTO:RD, [KBASE+RD*4]	// Fetch GCproto *.
-    |  mov L:RB, SAVE_L
-    |  mov ARG3, LFUNC:RA
-    |  mov ARG2, PROTO:RD
-    |  mov ARG1, L:RB
-    |  mov L:RB->base, BASE
-    |.endif
-    |  mov SAVE_PC, PC
-    |  // (lua_State *L, GCproto *pt, GCfuncL *parent)
-    |  call extern lj_func_newL_gc
-    |  // GCfuncL * returned in eax (RC).
-    |  mov BASE, L:RB->base
-    |  movzx RA, PC_RA
-    |  mov [BASE+RA*8], LFUNC:RC
-    |  mov dword [BASE+RA*8+4], LJ_TFUNC
-    |  ins_next
-    break;
-
-  /* -- Table ops --------------------------------------------------------- */
-
-  case BC_TNEW:
-    |  ins_AD	// RA = dst, RD = hbits|asize
-    |  mov L:RB, SAVE_L
-    |  mov L:RB->base, BASE
-    |  mov RA, [DISPATCH+DISPATCH_GL(gc.total)]
-    |  cmp RA, [DISPATCH+DISPATCH_GL(gc.threshold)]
-    |  mov SAVE_PC, PC
-    |  jae >5
-    |1:
-    |.if X64
-    |  mov CARG3d, RD
-    |  and RD, 0x7ff
-    |  shr CARG3d, 11
-    |.else
-    |  mov RA, RD
-    |  and RD, 0x7ff
-    |  shr RA, 11
-    |  mov ARG3, RA
-    |.endif
-    |  cmp RD, 0x7ff
-    |  je >3
-    |2:
-    |.if X64
-    |  mov L:CARG1d, L:RB
-    |  mov CARG2d, RD
-    |.else
-    |  mov ARG1, L:RB
-    |  mov ARG2, RD
-    |.endif
-    |  call extern lj_tab_new  // (lua_State *L, int32_t asize, uint32_t hbits)
-    |  // Table * returned in eax (RC).
-    |  mov BASE, L:RB->base
-    |  movzx RA, PC_RA
-    |  mov [BASE+RA*8], TAB:RC
-    |  mov dword [BASE+RA*8+4], LJ_TTAB
-    |  ins_next
-    |3:  // Turn 0x7ff into 0x801.
-    |  mov RD, 0x801
-    |  jmp <2
-    |5:
-    |  mov L:FCARG1, L:RB
-    |  call extern lj_gc_step_fixtop@4	// (lua_State *L)
-    |  movzx RD, PC_RD
-    |  jmp <1
-    break;
-  case BC_TDUP:
-    |  ins_AND	// RA = dst, RD = table const (~) (holding template table)
-    |  mov L:RB, SAVE_L
-    |  mov RA, [DISPATCH+DISPATCH_GL(gc.total)]
-    |  mov SAVE_PC, PC
-    |  cmp RA, [DISPATCH+DISPATCH_GL(gc.threshold)]
-    |  mov L:RB->base, BASE
-    |  jae >3
-    |2:
-    |  mov TAB:FCARG2, [KBASE+RD*4]	// Caveat: FCARG2 == BASE
-    |  mov L:FCARG1, L:RB		// Caveat: FCARG1 == RA
-    |  call extern lj_tab_dup@8		// (lua_State *L, Table *kt)
-    |  // Table * returned in eax (RC).
-    |  mov BASE, L:RB->base
-    |  movzx RA, PC_RA
-    |  mov [BASE+RA*8], TAB:RC
-    |  mov dword [BASE+RA*8+4], LJ_TTAB
-    |  ins_next
-    |3:
-    |  mov L:FCARG1, L:RB
-    |  call extern lj_gc_step_fixtop@4	// (lua_State *L)
-    |  movzx RD, PC_RD			// Need to reload RD.
-    |  not RDa
-    |  jmp <2
-    break;
-
-  case BC_GGET:
-    |  ins_AND	// RA = dst, RD = str const (~)
-    |  mov LFUNC:RB, [BASE-8]
-    |  mov TAB:RB, LFUNC:RB->env
-    |  mov STR:RC, [KBASE+RD*4]
-    |  jmp ->BC_TGETS_Z
-    break;
-  case BC_GSET:
-    |  ins_AND	// RA = src, RD = str const (~)
-    |  mov LFUNC:RB, [BASE-8]
-    |  mov TAB:RB, LFUNC:RB->env
-    |  mov STR:RC, [KBASE+RD*4]
-    |  jmp ->BC_TSETS_Z
-    break;
-
-  case BC_TGETV:
-    |  ins_ABC	// RA = dst, RB = table, RC = key
-    |  checktab RB, ->vmeta_tgetv
-    |  mov TAB:RB, [BASE+RB*8]
-    |
-    |  // Integer key?
-    |.if DUALNUM
-    |  checkint RC, >5
-    |  mov RC, dword [BASE+RC*8]
-    |.else
-    |  // Convert number to int and back and compare.
-    |  checknum RC, >5
-    |.if SSE
-    |  movsd xmm0, qword [BASE+RC*8]
-    |  cvtsd2si RC, xmm0
-    |  cvtsi2sd xmm1, RC
-    |  ucomisd xmm0, xmm1
-    |.else
-    |  fld qword [BASE+RC*8]
-    |  fist ARG1
-    |  fild ARG1
-    |  fcomparepp
-    |  mov RC, ARG1
-    |.endif
-    |  jne ->vmeta_tgetv		// Generic numeric key? Use fallback.
-    |.endif
-    |  cmp RC, TAB:RB->asize	// Takes care of unordered, too.
-    |  jae ->vmeta_tgetv		// Not in array part? Use fallback.
-    |  shl RC, 3
-    |  add RC, TAB:RB->array
-    |  cmp dword [RC+4], LJ_TNIL	// Avoid overwriting RB in fastpath.
-    |  je >2
-    |  // Get array slot.
-    |.if X64
-    |  mov RBa, [RC]
-    |  mov [BASE+RA*8], RBa
-    |.else
-    |  mov RB, [RC]
-    |  mov RC, [RC+4]
-    |  mov [BASE+RA*8], RB
-    |  mov [BASE+RA*8+4], RC
-    |.endif
-    |1:
-    |  ins_next
-    |
-    |2:  // Check for __index if table value is nil.
-    |  cmp dword TAB:RB->metatable, 0	// Shouldn't overwrite RA for fastpath.
-    |  jz >3
-    |  mov TAB:RA, TAB:RB->metatable
-    |  test byte TAB:RA->nomm, 1<<MM_index
-    |  jz ->vmeta_tgetv			// 'no __index' flag NOT set: check.
-    |  movzx RA, PC_RA			// Restore RA.
-    |3:
-    |  mov dword [BASE+RA*8+4], LJ_TNIL
-    |  jmp <1
-    |
-    |5:  // String key?
-    |  checkstr RC, ->vmeta_tgetv
-    |  mov STR:RC, [BASE+RC*8]
-    |  jmp ->BC_TGETS_Z
-    break;
-  case BC_TGETS:
-    |  ins_ABC	// RA = dst, RB = table, RC = str const (~)
-    |  not RCa
-    |  mov STR:RC, [KBASE+RC*4]
-    |  checktab RB, ->vmeta_tgets
-    |  mov TAB:RB, [BASE+RB*8]
-    |->BC_TGETS_Z:	// RB = GCtab *, RC = GCstr *, refetches PC_RA.
-    |  mov RA, TAB:RB->hmask
-    |  and RA, STR:RC->hash
-    |  imul RA, #NODE
-    |  add NODE:RA, TAB:RB->node
-    |1:
-    |  cmp dword NODE:RA->key.it, LJ_TSTR
-    |  jne >4
-    |  cmp dword NODE:RA->key.gcr, STR:RC
-    |  jne >4
-    |  // Ok, key found. Assumes: offsetof(Node, val) == 0
-    |  cmp dword [RA+4], LJ_TNIL	// Avoid overwriting RB in fastpath.
-    |  je >5				// Key found, but nil value?
-    |  movzx RC, PC_RA
-    |  // Get node value.
-    |.if X64
-    |  mov RBa, [RA]
-    |  mov [BASE+RC*8], RBa
-    |.else
-    |  mov RB, [RA]
-    |  mov RA, [RA+4]
-    |  mov [BASE+RC*8], RB
-    |  mov [BASE+RC*8+4], RA
-    |.endif
-    |2:
-    |  ins_next
-    |
-    |3:
-    |  movzx RC, PC_RA
-    |  mov dword [BASE+RC*8+4], LJ_TNIL
-    |  jmp <2
-    |
-    |4:  // Follow hash chain.
-    |  mov NODE:RA, NODE:RA->next
-    |  test NODE:RA, NODE:RA
-    |  jnz <1
-    |  // End of hash chain: key not found, nil result.
-    |
-    |5:  // Check for __index if table value is nil.
-    |  mov TAB:RA, TAB:RB->metatable
-    |  test TAB:RA, TAB:RA
-    |  jz <3				// No metatable: done.
-    |  test byte TAB:RA->nomm, 1<<MM_index
-    |  jnz <3				// 'no __index' flag set: done.
-    |  jmp ->vmeta_tgets		// Caveat: preserve STR:RC.
-    break;
-  case BC_TGETB:
-    |  ins_ABC	// RA = dst, RB = table, RC = byte literal
-    |  checktab RB, ->vmeta_tgetb
-    |  mov TAB:RB, [BASE+RB*8]
-    |  cmp RC, TAB:RB->asize
-    |  jae ->vmeta_tgetb
-    |  shl RC, 3
-    |  add RC, TAB:RB->array
-    |  cmp dword [RC+4], LJ_TNIL	// Avoid overwriting RB in fastpath.
-    |  je >2
-    |  // Get array slot.
-    |.if X64
-    |  mov RBa, [RC]
-    |  mov [BASE+RA*8], RBa
-    |.else
-    |  mov RB, [RC]
-    |  mov RC, [RC+4]
-    |  mov [BASE+RA*8], RB
-    |  mov [BASE+RA*8+4], RC
-    |.endif
-    |1:
-    |  ins_next
-    |
-    |2:  // Check for __index if table value is nil.
-    |  cmp dword TAB:RB->metatable, 0	// Shouldn't overwrite RA for fastpath.
-    |  jz >3
-    |  mov TAB:RA, TAB:RB->metatable
-    |  test byte TAB:RA->nomm, 1<<MM_index
-    |  jz ->vmeta_tgetb			// 'no __index' flag NOT set: check.
-    |  movzx RA, PC_RA			// Restore RA.
-    |3:
-    |  mov dword [BASE+RA*8+4], LJ_TNIL
-    |  jmp <1
-    break;
-
-  case BC_TSETV:
-    |  ins_ABC	// RA = src, RB = table, RC = key
-    |  checktab RB, ->vmeta_tsetv
-    |  mov TAB:RB, [BASE+RB*8]
-    |
-    |  // Integer key?
-    |.if DUALNUM
-    |  checkint RC, >5
-    |  mov RC, dword [BASE+RC*8]
-    |.else
-    |  // Convert number to int and back and compare.
-    |  checknum RC, >5
-    |.if SSE
-    |  movsd xmm0, qword [BASE+RC*8]
-    |  cvtsd2si RC, xmm0
-    |  cvtsi2sd xmm1, RC
-    |  ucomisd xmm0, xmm1
-    |.else
-    |  fld qword [BASE+RC*8]
-    |  fist ARG1
-    |  fild ARG1
-    |  fcomparepp
-    |  mov RC, ARG1
-    |.endif
-    |  jne ->vmeta_tsetv		// Generic numeric key? Use fallback.
-    |.endif
-    |  cmp RC, TAB:RB->asize		// Takes care of unordered, too.
-    |  jae ->vmeta_tsetv
-    |  shl RC, 3
-    |  add RC, TAB:RB->array
-    |  cmp dword [RC+4], LJ_TNIL
-    |  je >3				// Previous value is nil?
-    |1:
-    |  test byte TAB:RB->marked, LJ_GC_BLACK	// isblack(table)
-    |  jnz >7
-    |2:  // Set array slot.
-    |.if X64
-    |  mov RBa, [BASE+RA*8]
-    |  mov [RC], RBa
-    |.else
-    |  mov RB, [BASE+RA*8+4]
-    |  mov RA, [BASE+RA*8]
-    |  mov [RC+4], RB
-    |  mov [RC], RA
-    |.endif
-    |  ins_next
-    |
-    |3:  // Check for __newindex if previous value is nil.
-    |  cmp dword TAB:RB->metatable, 0	// Shouldn't overwrite RA for fastpath.
-    |  jz <1
-    |  mov TAB:RA, TAB:RB->metatable
-    |  test byte TAB:RA->nomm, 1<<MM_newindex
-    |  jz ->vmeta_tsetv			// 'no __newindex' flag NOT set: check.
-    |  movzx RA, PC_RA			// Restore RA.
-    |  jmp <1
-    |
-    |5:  // String key?
-    |  checkstr RC, ->vmeta_tsetv
-    |  mov STR:RC, [BASE+RC*8]
-    |  jmp ->BC_TSETS_Z
-    |
-    |7:  // Possible table write barrier for the value. Skip valiswhite check.
-    |  barrierback TAB:RB, RA
-    |  movzx RA, PC_RA			// Restore RA.
-    |  jmp <2
-    break;
-  case BC_TSETS:
-    |  ins_ABC	// RA = src, RB = table, RC = str const (~)
-    |  not RCa
-    |  mov STR:RC, [KBASE+RC*4]
-    |  checktab RB, ->vmeta_tsets
-    |  mov TAB:RB, [BASE+RB*8]
-    |->BC_TSETS_Z:	// RB = GCtab *, RC = GCstr *, refetches PC_RA.
-    |  mov RA, TAB:RB->hmask
-    |  and RA, STR:RC->hash
-    |  imul RA, #NODE
-    |  mov byte TAB:RB->nomm, 0		// Clear metamethod cache.
-    |  add NODE:RA, TAB:RB->node
-    |1:
-    |  cmp dword NODE:RA->key.it, LJ_TSTR
-    |  jne >5
-    |  cmp dword NODE:RA->key.gcr, STR:RC
-    |  jne >5
-    |  // Ok, key found. Assumes: offsetof(Node, val) == 0
-    |  cmp dword [RA+4], LJ_TNIL
-    |  je >4				// Previous value is nil?
-    |2:
-    |  test byte TAB:RB->marked, LJ_GC_BLACK	// isblack(table)
-    |  jnz >7
-    |3:  // Set node value.
-    |  movzx RC, PC_RA
-    |.if X64
-    |  mov RBa, [BASE+RC*8]
-    |  mov [RA], RBa
-    |.else
-    |  mov RB, [BASE+RC*8+4]
-    |  mov RC, [BASE+RC*8]
-    |  mov [RA+4], RB
-    |  mov [RA], RC
-    |.endif
-    |  ins_next
-    |
-    |4:  // Check for __newindex if previous value is nil.
-    |  cmp dword TAB:RB->metatable, 0	// Shouldn't overwrite RA for fastpath.
-    |  jz <2
-    |  mov TMP1, RA			// Save RA.
-    |  mov TAB:RA, TAB:RB->metatable
-    |  test byte TAB:RA->nomm, 1<<MM_newindex
-    |  jz ->vmeta_tsets			// 'no __newindex' flag NOT set: check.
-    |  mov RA, TMP1			// Restore RA.
-    |  jmp <2
-    |
-    |5:  // Follow hash chain.
-    |  mov NODE:RA, NODE:RA->next
-    |  test NODE:RA, NODE:RA
-    |  jnz <1
-    |  // End of hash chain: key not found, add a new one.
-    |
-    |  // But check for __newindex first.
-    |  mov TAB:RA, TAB:RB->metatable
-    |  test TAB:RA, TAB:RA
-    |  jz >6				// No metatable: continue.
-    |  test byte TAB:RA->nomm, 1<<MM_newindex
-    |  jz ->vmeta_tsets			// 'no __newindex' flag NOT set: check.
-    |6:
-    |  mov TMP1, STR:RC
-    |  mov TMP2, LJ_TSTR
-    |  mov TMP3, TAB:RB			// Save TAB:RB for us.
-    |.if X64
-    |  mov L:CARG1d, SAVE_L
-    |  mov L:CARG1d->base, BASE
-    |  lea CARG3, TMP1
-    |  mov CARG2d, TAB:RB
-    |  mov L:RB, L:CARG1d
-    |.else
-    |  lea RC, TMP1			// Store temp. TValue in TMP1/TMP2.
-    |  mov ARG2, TAB:RB
-    |  mov L:RB, SAVE_L
-    |  mov ARG3, RC
-    |  mov ARG1, L:RB
-    |  mov L:RB->base, BASE
-    |.endif
-    |  mov SAVE_PC, PC
-    |  call extern lj_tab_newkey	// (lua_State *L, GCtab *t, TValue *k)
-    |  // Handles write barrier for the new key. TValue * returned in eax (RC).
-    |  mov BASE, L:RB->base
-    |  mov TAB:RB, TMP3			// Need TAB:RB for barrier.
-    |  mov RA, eax
-    |  jmp <2				// Must check write barrier for value.
-    |
-    |7:  // Possible table write barrier for the value. Skip valiswhite check.
-    |  barrierback TAB:RB, RC		// Destroys STR:RC.
-    |  jmp <3
-    break;
-  case BC_TSETB:
-    |  ins_ABC	// RA = src, RB = table, RC = byte literal
-    |  checktab RB, ->vmeta_tsetb
-    |  mov TAB:RB, [BASE+RB*8]
-    |  cmp RC, TAB:RB->asize
-    |  jae ->vmeta_tsetb
-    |  shl RC, 3
-    |  add RC, TAB:RB->array
-    |  cmp dword [RC+4], LJ_TNIL
-    |  je >3				// Previous value is nil?
-    |1:
-    |  test byte TAB:RB->marked, LJ_GC_BLACK	// isblack(table)
-    |  jnz >7
-    |2:	 // Set array slot.
-    |.if X64
-    |  mov RAa, [BASE+RA*8]
-    |  mov [RC], RAa
-    |.else
-    |  mov RB, [BASE+RA*8+4]
-    |  mov RA, [BASE+RA*8]
-    |  mov [RC+4], RB
-    |  mov [RC], RA
-    |.endif
-    |  ins_next
-    |
-    |3:  // Check for __newindex if previous value is nil.
-    |  cmp dword TAB:RB->metatable, 0	// Shouldn't overwrite RA for fastpath.
-    |  jz <1
-    |  mov TAB:RA, TAB:RB->metatable
-    |  test byte TAB:RA->nomm, 1<<MM_newindex
-    |  jz ->vmeta_tsetb			// 'no __newindex' flag NOT set: check.
-    |  movzx RA, PC_RA			// Restore RA.
-    |  jmp <1
-    |
-    |7:  // Possible table write barrier for the value. Skip valiswhite check.
-    |  barrierback TAB:RB, RA
-    |  movzx RA, PC_RA			// Restore RA.
-    |  jmp <2
-    break;
-
-  case BC_TSETM:
-    |  ins_AD	// RA = base (table at base-1), RD = num const (start index)
-    |  mov TMP1, KBASE			// Need one more free register.
-    |  mov KBASE, dword [KBASE+RD*8]	// Integer constant is in lo-word.
-    |1:
-    |  lea RA, [BASE+RA*8]
-    |  mov TAB:RB, [RA-8]		// Guaranteed to be a table.
-    |  test byte TAB:RB->marked, LJ_GC_BLACK	// isblack(table)
-    |  jnz >7
-    |2:
-    |  mov RD, MULTRES
-    |  sub RD, 1
-    |  jz >4				// Nothing to copy?
-    |  add RD, KBASE			// Compute needed size.
-    |  cmp RD, TAB:RB->asize
-    |  ja >5				// Doesn't fit into array part?
-    |  sub RD, KBASE
-    |  shl KBASE, 3
-    |  add KBASE, TAB:RB->array
-    |3:  // Copy result slots to table.
-    |.if X64
-    |  mov RBa, [RA]
-    |  add RA, 8
-    |  mov [KBASE], RBa
-    |.else
-    |  mov RB, [RA]
-    |  mov [KBASE], RB
-    |  mov RB, [RA+4]
-    |  add RA, 8
-    |  mov [KBASE+4], RB
-    |.endif
-    |  add KBASE, 8
-    |  sub RD, 1
-    |  jnz <3
-    |4:
-    |  mov KBASE, TMP1
-    |  ins_next
-    |
-    |5:  // Need to resize array part.
-    |.if X64
-    |  mov L:CARG1d, SAVE_L
-    |  mov L:CARG1d->base, BASE		// Caveat: CARG2d/CARG3d may be BASE.
-    |  mov CARG2d, TAB:RB
-    |  mov CARG3d, RD
-    |  mov L:RB, L:CARG1d
-    |.else
-    |  mov ARG2, TAB:RB
-    |  mov L:RB, SAVE_L
-    |  mov L:RB->base, BASE
-    |  mov ARG3, RD
-    |  mov ARG1, L:RB
-    |.endif
-    |  mov SAVE_PC, PC
-    |  call extern lj_tab_reasize	// (lua_State *L, GCtab *t, int nasize)
-    |  mov BASE, L:RB->base
-    |  movzx RA, PC_RA			// Restore RA.
-    |  jmp <1				// Retry.
-    |
-    |7:  // Possible table write barrier for any value. Skip valiswhite check.
-    |  barrierback TAB:RB, RD
-    |  jmp <2
-    break;
-
-  /* -- Calls and vararg handling ----------------------------------------- */
-
-  case BC_CALL: case BC_CALLM:
-    |  ins_A_C	// RA = base, (RB = nresults+1,) RC = nargs+1 | extra_nargs
-    if (op == BC_CALLM) {
-      |  add NARGS:RD, MULTRES
-    }
-    |  cmp dword [BASE+RA*8+4], LJ_TFUNC
-    |  mov LFUNC:RB, [BASE+RA*8]
-    |  jne ->vmeta_call_ra
-    |  lea BASE, [BASE+RA*8+8]
-    |  ins_call
-    break;
-
-  case BC_CALLMT:
-    |  ins_AD	// RA = base, RD = extra_nargs
-    |  add NARGS:RD, MULTRES
-    |  // Fall through. Assumes BC_CALLT follows and ins_AD is a no-op.
-    break;
-  case BC_CALLT:
-    |  ins_AD	// RA = base, RD = nargs+1
-    |  lea RA, [BASE+RA*8+8]
-    |  mov KBASE, BASE			// Use KBASE for move + vmeta_call hint.
-    |  mov LFUNC:RB, [RA-8]
-    |  cmp dword [RA-4], LJ_TFUNC
-    |  jne ->vmeta_call
-    |->BC_CALLT_Z:
-    |  mov PC, [BASE-4]
-    |  test PC, FRAME_TYPE
-    |  jnz >7
-    |1:
-    |  mov [BASE-8], LFUNC:RB		// Copy function down, reloaded below.
-    |  mov MULTRES, NARGS:RD
-    |  sub NARGS:RD, 1
-    |  jz >3
-    |2:  // Move args down.
-    |.if X64
-    |  mov RBa, [RA]
-    |  add RA, 8
-    |  mov [KBASE], RBa
-    |.else
-    |  mov RB, [RA]
-    |  mov [KBASE], RB
-    |  mov RB, [RA+4]
-    |  add RA, 8
-    |  mov [KBASE+4], RB
-    |.endif
-    |  add KBASE, 8
-    |  sub NARGS:RD, 1
-    |  jnz <2
-    |
-    |  mov LFUNC:RB, [BASE-8]
-    |3:
-    |  mov NARGS:RD, MULTRES
-    |  cmp byte LFUNC:RB->ffid, 1	// (> FF_C) Calling a fast function?
-    |  ja >5
-    |4:
-    |  ins_callt
-    |
-    |5:  // Tailcall to a fast function.
-    |  test PC, FRAME_TYPE		// Lua frame below?
-    |  jnz <4
-    |  movzx RA, PC_RA
-    |  not RAa
-    |  lea RA, [BASE+RA*8]
-    |  mov LFUNC:KBASE, [RA-8]		// Need to prepare KBASE.
-    |  mov KBASE, LFUNC:KBASE->pc
-    |  mov KBASE, [KBASE+PC2PROTO(k)]
-    |  jmp <4
-    |
-    |7:  // Tailcall from a vararg function.
-    |  sub PC, FRAME_VARG
-    |  test PC, FRAME_TYPEP
-    |  jnz >8				// Vararg frame below?
-    |  sub BASE, PC			// Need to relocate BASE/KBASE down.
-    |  mov KBASE, BASE
-    |  mov PC, [BASE-4]
-    |  jmp <1
-    |8:
-    |  add PC, FRAME_VARG
-    |  jmp <1
-    break;
-
-  case BC_ITERC:
-    |  ins_A	// RA = base, (RB = nresults+1,) RC = nargs+1 (2+1)
-    |  lea RA, [BASE+RA*8+8]		// fb = base+1
-    |.if X64
-    |  mov RBa, [RA-24]			// Copy state. fb[0] = fb[-3].
-    |  mov RCa, [RA-16]			// Copy control var. fb[1] = fb[-2].
-    |  mov [RA], RBa
-    |  mov [RA+8], RCa
-    |.else
-    |  mov RB, [RA-24]			// Copy state. fb[0] = fb[-3].
-    |  mov RC, [RA-20]
-    |  mov [RA], RB
-    |  mov [RA+4], RC
-    |  mov RB, [RA-16]			// Copy control var. fb[1] = fb[-2].
-    |  mov RC, [RA-12]
-    |  mov [RA+8], RB
-    |  mov [RA+12], RC
-    |.endif
-    |  mov LFUNC:RB, [RA-32]		// Copy callable. fb[-1] = fb[-4]
-    |  mov RC, [RA-28]
-    |  mov [RA-8], LFUNC:RB
-    |  mov [RA-4], RC
-    |  cmp RC, LJ_TFUNC			// Handle like a regular 2-arg call.
-    |  mov NARGS:RD, 2+1
-    |  jne ->vmeta_call
-    |  mov BASE, RA
-    |  ins_call
-    break;
-
-  case BC_ITERN:
-    |  ins_A	// RA = base, (RB = nresults+1, RC = nargs+1 (2+1))
-    |.if JIT
-    |  // NYI: add hotloop, record BC_ITERN.
-    |.endif
-    |  mov TMP1, KBASE			// Need two more free registers.
-    |  mov TMP2, DISPATCH
-    |  mov TAB:RB, [BASE+RA*8-16]
-    |  mov RC, [BASE+RA*8-8]		// Get index from control var.
-    |  mov DISPATCH, TAB:RB->asize
-    |  add PC, 4
-    |  mov KBASE, TAB:RB->array
-    |1:  // Traverse array part.
-    |  cmp RC, DISPATCH; jae >5		// Index points after array part?
-    |  cmp dword [KBASE+RC*8+4], LJ_TNIL; je >4
-    |.if DUALNUM
-    |  mov dword [BASE+RA*8+4], LJ_TISNUM
-    |  mov dword [BASE+RA*8], RC
-    |.elif SSE
-    |  cvtsi2sd xmm0, RC
-    |.else
-    |  fild dword [BASE+RA*8-8]
-    |.endif
-    |  // Copy array slot to returned value.
-    |.if X64
-    |  mov RBa, [KBASE+RC*8]
-    |  mov [BASE+RA*8+8], RBa
-    |.else
-    |  mov RB, [KBASE+RC*8+4]
-    |  mov [BASE+RA*8+12], RB
-    |  mov RB, [KBASE+RC*8]
-    |  mov [BASE+RA*8+8], RB
-    |.endif
-    |  add RC, 1
-    |  // Return array index as a numeric key.
-    |.if DUALNUM
-    |  // See above.
-    |.elif SSE
-    |  movsd qword [BASE+RA*8], xmm0
-    |.else
-    |  fstp qword [BASE+RA*8]
-    |.endif
-    |  mov [BASE+RA*8-8], RC		// Update control var.
-    |2:
-    |  movzx RD, PC_RD			// Get target from ITERL.
-    |  branchPC RD
-    |3:
-    |  mov DISPATCH, TMP2
-    |  mov KBASE, TMP1
-    |  ins_next
-    |
-    |4:  // Skip holes in array part.
-    |  add RC, 1
-    |.if not (DUALNUM or SSE)
-    |  mov [BASE+RA*8-8], RC
-    |.endif
-    |  jmp <1
-    |
-    |5:  // Traverse hash part.
-    |  sub RC, DISPATCH
-    |6:
-    |  cmp RC, TAB:RB->hmask; ja <3	// End of iteration? Branch to ITERL+1.
-    |  imul KBASE, RC, #NODE
-    |  add NODE:KBASE, TAB:RB->node
-    |  cmp dword NODE:KBASE->val.it, LJ_TNIL; je >7
-    |  lea DISPATCH, [RC+DISPATCH+1]
-    |  // Copy key and value from hash slot.
-    |.if X64
-    |  mov RBa, NODE:KBASE->key
-    |  mov RCa, NODE:KBASE->val
-    |  mov [BASE+RA*8], RBa
-    |  mov [BASE+RA*8+8], RCa
-    |.else
-    |  mov RB, NODE:KBASE->key.gcr
-    |  mov RC, NODE:KBASE->key.it
-    |  mov [BASE+RA*8], RB
-    |  mov [BASE+RA*8+4], RC
-    |  mov RB, NODE:KBASE->val.gcr
-    |  mov RC, NODE:KBASE->val.it
-    |  mov [BASE+RA*8+8], RB
-    |  mov [BASE+RA*8+12], RC
-    |.endif
-    |  mov [BASE+RA*8-8], DISPATCH
-    |  jmp <2
-    |
-    |7:  // Skip holes in hash part.
-    |  add RC, 1
-    |  jmp <6
-    break;
-
-  case BC_ISNEXT:
-    |  ins_AD	// RA = base, RD = target (points to ITERN)
-    |  cmp dword [BASE+RA*8-20], LJ_TFUNC; jne >5
-    |  mov CFUNC:RB, [BASE+RA*8-24]
-    |  cmp dword [BASE+RA*8-12], LJ_TTAB; jne >5
-    |  cmp dword [BASE+RA*8-4], LJ_TNIL; jne >5
-    |  cmp byte CFUNC:RB->ffid, FF_next_N; jne >5
-    |  branchPC RD
-    |  mov dword [BASE+RA*8-8], 0	// Initialize control var.
-    |  mov dword [BASE+RA*8-4], 0xfffe7fff
-    |1:
-    |  ins_next
-    |5:  // Despecialize bytecode if any of the checks fail.
-    |  mov PC_OP, BC_JMP
-    |  branchPC RD
-    |  mov byte [PC], BC_ITERC
-    |  jmp <1
-    break;
-
-  case BC_VARG:
-    |  ins_ABC	// RA = base, RB = nresults+1, RC = numparams
-    |  mov TMP1, KBASE			// Need one more free register.
-    |  lea KBASE, [BASE+RC*8+(8+FRAME_VARG)]
-    |  lea RA, [BASE+RA*8]
-    |  sub KBASE, [BASE-4]
-    |  // Note: KBASE may now be even _above_ BASE if nargs was < numparams.
-    |  test RB, RB
-    |  jz >5				// Copy all varargs?
-    |  lea RB, [RA+RB*8-8]
-    |  cmp KBASE, BASE			// No vararg slots?
-    |  jnb >2
-    |1:  // Copy vararg slots to destination slots.
-    |.if X64
-    |  mov RCa, [KBASE-8]
-    |  add KBASE, 8
-    |  mov [RA], RCa
-    |.else
-    |  mov RC, [KBASE-8]
-    |  mov [RA], RC
-    |  mov RC, [KBASE-4]
-    |  add KBASE, 8
-    |  mov [RA+4], RC
-    |.endif
-    |  add RA, 8
-    |  cmp RA, RB			// All destination slots filled?
-    |  jnb >3
-    |  cmp KBASE, BASE			// No more vararg slots?
-    |  jb <1
-    |2:  // Fill up remainder with nil.
-    |  mov dword [RA+4], LJ_TNIL
-    |  add RA, 8
-    |  cmp RA, RB
-    |  jb <2
-    |3:
-    |  mov KBASE, TMP1
-    |  ins_next
-    |
-    |5:  // Copy all varargs.
-    |  mov MULTRES, 1			// MULTRES = 0+1
-    |  mov RC, BASE
-    |  sub RC, KBASE
-    |  jbe <3				// No vararg slots?
-    |  mov RB, RC
-    |  shr RB, 3
-    |  add RB, 1
-    |  mov MULTRES, RB			// MULTRES = #varargs+1
-    |  mov L:RB, SAVE_L
-    |  add RC, RA
-    |  cmp RC, L:RB->maxstack
-    |  ja >7				// Need to grow stack?
-    |6:  // Copy all vararg slots.
-    |.if X64
-    |  mov RCa, [KBASE-8]
-    |  add KBASE, 8
-    |  mov [RA], RCa
-    |.else
-    |  mov RC, [KBASE-8]
-    |  mov [RA], RC
-    |  mov RC, [KBASE-4]
-    |  add KBASE, 8
-    |  mov [RA+4], RC
-    |.endif
-    |  add RA, 8
-    |  cmp KBASE, BASE			// No more vararg slots?
-    |  jb <6
-    |  jmp <3
-    |
-    |7:  // Grow stack for varargs.
-    |  mov L:RB->base, BASE
-    |  mov L:RB->top, RA
-    |  mov SAVE_PC, PC
-    |  sub KBASE, BASE			// Need delta, because BASE may change.
-    |  mov FCARG2, MULTRES
-    |  sub FCARG2, 1
-    |  mov FCARG1, L:RB
-    |  call extern lj_state_growstack@8	// (lua_State *L, int n)
-    |  mov BASE, L:RB->base
-    |  mov RA, L:RB->top
-    |  add KBASE, BASE
-    |  jmp <6
-    break;
-
-  /* -- Returns ----------------------------------------------------------- */
-
-  case BC_RETM:
-    |  ins_AD	// RA = results, RD = extra_nresults
-    |  add RD, MULTRES			// MULTRES >=1, so RD >=1.
-    |  // Fall through. Assumes BC_RET follows and ins_AD is a no-op.
-    break;
-
-  case BC_RET: case BC_RET0: case BC_RET1:
-    |  ins_AD	// RA = results, RD = nresults+1
-    if (op != BC_RET0) {
-      |  shl RA, 3
-    }
-    |1:
-    |  mov PC, [BASE-4]
-    |  mov MULTRES, RD			// Save nresults+1.
-    |  test PC, FRAME_TYPE		// Check frame type marker.
-    |  jnz >7				// Not returning to a fixarg Lua func?
-    switch (op) {
-    case BC_RET:
-      |->BC_RET_Z:
-      |  mov KBASE, BASE		// Use KBASE for result move.
-      |  sub RD, 1
-      |  jz >3
-      |2:  // Move results down.
-      |.if X64
-      |  mov RBa, [KBASE+RA]
-      |  mov [KBASE-8], RBa
-      |.else
-      |  mov RB, [KBASE+RA]
-      |  mov [KBASE-8], RB
-      |  mov RB, [KBASE+RA+4]
-      |  mov [KBASE-4], RB
-      |.endif
-      |  add KBASE, 8
-      |  sub RD, 1
-      |  jnz <2
-      |3:
-      |  mov RD, MULTRES		// Note: MULTRES may be >255.
-      |  movzx RB, PC_RB		// So cannot compare with RDL!
-      |5:
-      |  cmp RB, RD			// More results expected?
-      |  ja >6
-      break;
-    case BC_RET1:
-      |.if X64
-      |  mov RBa, [BASE+RA]
-      |  mov [BASE-8], RBa
-      |.else
-      |  mov RB, [BASE+RA+4]
-      |  mov [BASE-4], RB
-      |  mov RB, [BASE+RA]
-      |  mov [BASE-8], RB
-      |.endif
-      /* fallthrough */
-    case BC_RET0:
-      |5:
-      |  cmp PC_RB, RDL			// More results expected?
-      |  ja >6
-    default:
-      break;
-    }
-    |  movzx RA, PC_RA
-    |  not RAa				// Note: ~RA = -(RA+1)
-    |  lea BASE, [BASE+RA*8]		// base = base - (RA+1)*8
-    |  mov LFUNC:KBASE, [BASE-8]
-    |  mov KBASE, LFUNC:KBASE->pc
-    |  mov KBASE, [KBASE+PC2PROTO(k)]
-    |  ins_next
-    |
-    |6:  // Fill up results with nil.
-    if (op == BC_RET) {
-      |  mov dword [KBASE-4], LJ_TNIL	// Note: relies on shifted base.
-      |  add KBASE, 8
-    } else {
-      |  mov dword [BASE+RD*8-12], LJ_TNIL
-    }
-    |  add RD, 1
-    |  jmp <5
-    |
-    |7:  // Non-standard return case.
-    |  lea RB, [PC-FRAME_VARG]
-    |  test RB, FRAME_TYPEP
-    |  jnz ->vm_return
-    |  // Return from vararg function: relocate BASE down and RA up.
-    |  sub BASE, RB
-    if (op != BC_RET0) {
-      |  add RA, RB
-    }
-    |  jmp <1
-    break;
-
-  /* -- Loops and branches ------------------------------------------------ */
-
-  |.define FOR_IDX,  [RA];    .define FOR_TIDX,  dword [RA+4]
-  |.define FOR_STOP, [RA+8];  .define FOR_TSTOP, dword [RA+12]
-  |.define FOR_STEP, [RA+16]; .define FOR_TSTEP, dword [RA+20]
-  |.define FOR_EXT,  [RA+24]; .define FOR_TEXT,  dword [RA+28]
-
-  case BC_FORL:
-    |.if JIT
-    |  hotloop RB
-    |.endif
-    | // Fall through. Assumes BC_IFORL follows and ins_AJ is a no-op.
-    break;
-
-  case BC_JFORI:
-  case BC_JFORL:
-#if !LJ_HASJIT
-    break;
-#endif
-  case BC_FORI:
-  case BC_IFORL:
-    vk = (op == BC_IFORL || op == BC_JFORL);
-    |  ins_AJ	// RA = base, RD = target (after end of loop or start of loop)
-    |  lea RA, [BASE+RA*8]
-    if (LJ_DUALNUM) {
-      |  cmp FOR_TIDX, LJ_TISNUM; jne >9
-      if (!vk) {
-	|  cmp FOR_TSTOP, LJ_TISNUM; jne ->vmeta_for
-	|  cmp FOR_TSTEP, LJ_TISNUM; jne ->vmeta_for
-	|  mov RB, dword FOR_IDX
-	|  cmp dword FOR_STEP, 0; jl >5
-      } else {
-#ifdef LUA_USE_ASSERT
-	|  cmp FOR_TSTOP, LJ_TISNUM; jne ->assert_bad_for_arg_type
-	|  cmp FOR_TSTEP, LJ_TISNUM; jne ->assert_bad_for_arg_type
-#endif
-	|  mov RB, dword FOR_STEP
-	|  test RB, RB; js >5
-	|  add RB, dword FOR_IDX; jo >1
-	|  mov dword FOR_IDX, RB
-      }
-      |  cmp RB, dword FOR_STOP
-      |  mov FOR_TEXT, LJ_TISNUM
-      |  mov dword FOR_EXT, RB
-      if (op == BC_FORI) {
-	|  jle >7
-	|1:
-	|6:
-	|  branchPC RD
-      } else if (op == BC_JFORI) {
-	|  branchPC RD
-	|  movzx RD, PC_RD
-	|  jle =>BC_JLOOP
-	|1:
-	|6:
-      } else if (op == BC_IFORL) {
-	|  jg >7
-	|6:
-	|  branchPC RD
-	|1:
-      } else {
-	|  jle =>BC_JLOOP
-	|1:
-	|6:
-      }
-      |7:
-      |  ins_next
-      |
-      |5:  // Invert check for negative step.
-      if (vk) {
-	|  add RB, dword FOR_IDX; jo <1
-	|  mov dword FOR_IDX, RB
-      }
-      |  cmp RB, dword FOR_STOP
-      |  mov FOR_TEXT, LJ_TISNUM
-      |  mov dword FOR_EXT, RB
-      if (op == BC_FORI) {
-	|  jge <7
-      } else if (op == BC_JFORI) {
-	|  branchPC RD
-	|  movzx RD, PC_RD
-	|  jge =>BC_JLOOP
-      } else if (op == BC_IFORL) {
-	|  jl <7
-      } else {
-	|  jge =>BC_JLOOP
-      }
-      |  jmp <6
-      |9:  // Fallback to FP variant.
-    } else if (!vk) {
-      |  cmp FOR_TIDX, LJ_TISNUM
-    }
-    if (!vk) {
-      |  jae ->vmeta_for
-      |  cmp FOR_TSTOP, LJ_TISNUM; jae ->vmeta_for
-    } else {
-#ifdef LUA_USE_ASSERT
-      |  cmp FOR_TSTOP, LJ_TISNUM; jae ->assert_bad_for_arg_type
-      |  cmp FOR_TSTEP, LJ_TISNUM; jae ->assert_bad_for_arg_type
-#endif
-    }
-    |  mov RB, FOR_TSTEP		// Load type/hiword of for step.
-    if (!vk) {
-      |  cmp RB, LJ_TISNUM; jae ->vmeta_for
-    }
-    |.if SSE
-    |  movsd xmm0, qword FOR_IDX
-    |  movsd xmm1, qword FOR_STOP
-    if (vk) {
-      |  addsd xmm0, qword FOR_STEP
-      |  movsd qword FOR_IDX, xmm0
-      |  test RB, RB; js >3
-    } else {
-      |  jl >3
-    }
-    |  ucomisd xmm1, xmm0
-    |1:
-    |  movsd qword FOR_EXT, xmm0
-    |.else
-    |  fld qword FOR_STOP
-    |  fld qword FOR_IDX
-    if (vk) {
-      |  fadd qword FOR_STEP		// nidx = idx + step
-      |  fst qword FOR_IDX
-      |  fst qword FOR_EXT
-      |  test RB, RB; js >1
-    } else {
-      |  fst qword FOR_EXT
-      |  jl >1
-    }
-    |  fxch				// Swap lim/(n)idx if step non-negative.
-    |1:
-    |  fcomparepp
-    |.endif
-    if (op == BC_FORI) {
-      |.if DUALNUM
-      |  jnb <7
-      |.else
-      |  jnb >2
-      |  branchPC RD
-      |.endif
-    } else if (op == BC_JFORI) {
-      |  branchPC RD
-      |  movzx RD, PC_RD
-      |  jnb =>BC_JLOOP
-    } else if (op == BC_IFORL) {
-      |.if DUALNUM
-      |  jb <7
-      |.else
-      |  jb >2
-      |  branchPC RD
-      |.endif
-    } else {
-      |  jnb =>BC_JLOOP
-    }
-    |.if DUALNUM
-    |  jmp <6
-    |.else
-    |2:
-    |  ins_next
-    |.endif
-    |.if SSE
-    |3:  // Invert comparison if step is negative.
-    |  ucomisd xmm0, xmm1
-    |  jmp <1
-    |.endif
-    break;
-
-  case BC_ITERL:
-    |.if JIT
-    |  hotloop RB
-    |.endif
-    | // Fall through. Assumes BC_IITERL follows and ins_AJ is a no-op.
-    break;
-
-  case BC_JITERL:
-#if !LJ_HASJIT
-    break;
-#endif
-  case BC_IITERL:
-    |  ins_AJ	// RA = base, RD = target
-    |  lea RA, [BASE+RA*8]
-    |  mov RB, [RA+4]
-    |  cmp RB, LJ_TNIL; je >1		// Stop if iterator returned nil.
-    if (op == BC_JITERL) {
-      |  mov [RA-4], RB
-      |  mov RB, [RA]
-      |  mov [RA-8], RB
-      |  jmp =>BC_JLOOP
-    } else {
-      |  branchPC RD			// Otherwise save control var + branch.
-      |  mov RD, [RA]
-      |  mov [RA-4], RB
-      |  mov [RA-8], RD
-    }
-    |1:
-    |  ins_next
-    break;
-
-  case BC_LOOP:
-    |  ins_A	// RA = base, RD = target (loop extent)
-    |  // Note: RA/RD is only used by trace recorder to determine scope/extent
-    |  // This opcode does NOT jump, it's only purpose is to detect a hot loop.
-  |.if JIT
-    |  hotloop RB
-    |.endif
-    | // Fall through. Assumes BC_ILOOP follows and ins_A is a no-op.
-    break;
-
-  case BC_ILOOP:
-    |  ins_A	// RA = base, RD = target (loop extent)
-    |  ins_next
-    break;
-
-  case BC_JLOOP:
-    |.if JIT
-    |  ins_AD	// RA = base (ignored), RD = traceno
-    |  mov RA, [DISPATCH+DISPATCH_J(trace)]
-    |  mov TRACE:RD, [RA+RD*4]
-    |  mov RDa, TRACE:RD->mcode
-    |  mov L:RB, SAVE_L
-    |  mov [DISPATCH+DISPATCH_GL(jit_base)], BASE
-    |  mov [DISPATCH+DISPATCH_GL(jit_L)], L:RB
-    |  // Save additional callee-save registers only used in compiled code.
-    |.if X64WIN
-    |  mov TMPQ, r12
-    |  mov TMPa, r13
-    |  mov CSAVE_4, r14
-    |  mov CSAVE_3, r15
-    |  mov RAa, rsp
-    |  sub rsp, 9*16+4*8
-    |  movdqa [RAa], xmm6
-    |  movdqa [RAa-1*16], xmm7
-    |  movdqa [RAa-2*16], xmm8
-    |  movdqa [RAa-3*16], xmm9
-    |  movdqa [RAa-4*16], xmm10
-    |  movdqa [RAa-5*16], xmm11
-    |  movdqa [RAa-6*16], xmm12
-    |  movdqa [RAa-7*16], xmm13
-    |  movdqa [RAa-8*16], xmm14
-    |  movdqa [RAa-9*16], xmm15
-    |.elif X64
-    |  mov TMPQ, r12
-    |  mov TMPa, r13
-    |  sub rsp, 16
-    |.endif
-    |  jmp RDa
-    |.endif
-    break;
-
-  case BC_JMP:
-    |  ins_AJ	// RA = unused, RD = target
-    |  branchPC RD
-    |  ins_next
-    break;
-
-  /* -- Function headers -------------------------------------------------- */
-
-   /*
-   ** Reminder: A function may be called with func/args above L->maxstack,
-   ** i.e. occupying EXTRA_STACK slots. And vmeta_call may add one extra slot,
-   ** too. This means all FUNC* ops (including fast functions) must check
-   ** for stack overflow _before_ adding more slots!
-   */
-
-  case BC_FUNCF:
-    |.if JIT
-    |  hotcall RB
-    |.endif
-  case BC_FUNCV:  /* NYI: compiled vararg functions. */
-    | // Fall through. Assumes BC_IFUNCF/BC_IFUNCV follow and ins_AD is a no-op.
-    break;
-
-  case BC_JFUNCF:
-#if !LJ_HASJIT
-    break;
-#endif
-  case BC_IFUNCF:
-    |  ins_AD  // BASE = new base, RA = framesize, RD = nargs+1
-    |  mov KBASE, [PC-4+PC2PROTO(k)]
-    |  mov L:RB, SAVE_L
-    |  lea RA, [BASE+RA*8]		// Top of frame.
-    |  cmp RA, L:RB->maxstack
-    |  ja ->vm_growstack_f
-    |  movzx RA, byte [PC-4+PC2PROTO(numparams)]
-    |  cmp NARGS:RD, RA			// Check for missing parameters.
-    |  jbe >3
-    |2:
-    if (op == BC_JFUNCF) {
-      |  movzx RD, PC_RD
-      |  jmp =>BC_JLOOP
-    } else {
-      |  ins_next
-    }
-    |
-    |3:  // Clear missing parameters.
-    |  mov dword [BASE+NARGS:RD*8-4], LJ_TNIL
-    |  add NARGS:RD, 1
-    |  cmp NARGS:RD, RA
-    |  jbe <3
-    |  jmp <2
-    break;
-
-  case BC_JFUNCV:
-#if !LJ_HASJIT
-    break;
-#endif
-    | int3  // NYI: compiled vararg functions
-    break;  /* NYI: compiled vararg functions. */
-
-  case BC_IFUNCV:
-    |  ins_AD  // BASE = new base, RA = framesize, RD = nargs+1
-    |  lea RB, [NARGS:RD*8+FRAME_VARG]
-    |  lea RD, [BASE+NARGS:RD*8]
-    |  mov LFUNC:KBASE, [BASE-8]
-    |  mov [RD-4], RB			// Store delta + FRAME_VARG.
-    |  mov [RD-8], LFUNC:KBASE		// Store copy of LFUNC.
-    |  mov L:RB, SAVE_L
-    |  lea RA, [RD+RA*8]
-    |  cmp RA, L:RB->maxstack
-    |  ja ->vm_growstack_v		// Need to grow stack.
-    |  mov RA, BASE
-    |  mov BASE, RD
-    |  movzx RB, byte [PC-4+PC2PROTO(numparams)]
-    |  test RB, RB
-    |  jz >2
-    |1:  // Copy fixarg slots up to new frame.
-    |  add RA, 8
-    |  cmp RA, BASE
-    |  jnb >3				// Less args than parameters?
-    |  mov KBASE, [RA-8]
-    |  mov [RD], KBASE
-    |  mov KBASE, [RA-4]
-    |  mov [RD+4], KBASE
-    |  add RD, 8
-    |  mov dword [RA-4], LJ_TNIL	// Clear old fixarg slot (help the GC).
-    |  sub RB, 1
-    |  jnz <1
-    |2:
-    if (op == BC_JFUNCV) {
-      |  movzx RD, PC_RD
-      |  jmp =>BC_JLOOP
-    } else {
-      |  mov KBASE, [PC-4+PC2PROTO(k)]
-      |  ins_next
-    }
-    |
-    |3:  // Clear missing parameters.
-    |  mov dword [RD+4], LJ_TNIL
-    |  add RD, 8
-    |  sub RB, 1
-    |  jnz <3
-    |  jmp <2
-    break;
-
-  case BC_FUNCC:
-  case BC_FUNCCW:
-    |  ins_AD  // BASE = new base, RA = ins RA|RD (unused), RD = nargs+1
-    |  mov CFUNC:RB, [BASE-8]
-    |  mov KBASEa, CFUNC:RB->f
-    |  mov L:RB, SAVE_L
-    |  lea RD, [BASE+NARGS:RD*8-8]
-    |  mov L:RB->base, BASE
-    |  lea RA, [RD+8*LUA_MINSTACK]
-    |  cmp RA, L:RB->maxstack
-    |  mov L:RB->top, RD
-    if (op == BC_FUNCC) {
-      |.if X64
-      |  mov CARG1d, L:RB			// Caveat: CARG1d may be RA.
-      |.else
-      |  mov ARG1, L:RB
-      |.endif
-    } else {
-      |.if X64
-      |  mov CARG2, KBASEa
-      |  mov CARG1d, L:RB			// Caveat: CARG1d may be RA.
-      |.else
-      |  mov ARG2, KBASEa
-      |  mov ARG1, L:RB
-      |.endif
-    }
-    |  ja ->vm_growstack_c		// Need to grow stack.
-    |  set_vmstate C
-    if (op == BC_FUNCC) {
-      |  call KBASEa			// (lua_State *L)
-    } else {
-      |  // (lua_State *L, lua_CFunction f)
-      |  call aword [DISPATCH+DISPATCH_GL(wrapf)]
-    }
-    |  set_vmstate INTERP
-    |  // nresults returned in eax (RD).
-    |  mov BASE, L:RB->base
-    |  lea RA, [BASE+RD*8]
-    |  neg RA
-    |  add RA, L:RB->top		// RA = (L->top-(L->base+nresults))*8
-    |  mov PC, [BASE-4]			// Fetch PC of caller.
-    |  jmp ->vm_returnc
-    break;
-
-  /* ---------------------------------------------------------------------- */
-
-  default:
-    fprintf(stderr, "Error: undefined opcode BC_%s\n", bc_names[op]);
-    exit(2);
-    break;
-  }
-}
-
-static int build_backend(BuildCtx *ctx)
-{
-  int op;
-  dasm_growpc(Dst, BC__MAX);
-  build_subroutines(ctx);
-  |.code_op
-  for (op = 0; op < BC__MAX; op++)
-    build_ins(ctx, (BCOp)op, op);
-  return BC__MAX;
-}
-
-/* Emit pseudo frame-info for all assembler functions. */
-static void emit_asm_debug(BuildCtx *ctx)
-{
-  int fcofs = (int)((uint8_t *)ctx->glob[GLOB_vm_ffi_call] - ctx->code);
-#if LJ_64
-#define SZPTR	"8"
-#define BSZPTR	"3"
-#define REG_SP	"0x7"
-#define REG_RA	"0x10"
-#else
-#define SZPTR	"4"
-#define BSZPTR	"2"
-#define REG_SP	"0x4"
-#define REG_RA	"0x8"
-#endif
-  switch (ctx->mode) {
-  case BUILD_elfasm:
-    fprintf(ctx->fp, "\t.section .debug_frame,\"\",@progbits\n");
-    fprintf(ctx->fp,
-	".Lframe0:\n"
-	"\t.long .LECIE0-.LSCIE0\n"
-	".LSCIE0:\n"
-	"\t.long 0xffffffff\n"
-	"\t.byte 0x1\n"
-	"\t.string \"\"\n"
-	"\t.uleb128 0x1\n"
-	"\t.sleb128 -" SZPTR "\n"
-	"\t.byte " REG_RA "\n"
-	"\t.byte 0xc\n\t.uleb128 " REG_SP "\n\t.uleb128 " SZPTR "\n"
-	"\t.byte 0x80+" REG_RA "\n\t.uleb128 0x1\n"
-	"\t.align " SZPTR "\n"
-	".LECIE0:\n\n");
-    fprintf(ctx->fp,
-	".LSFDE0:\n"
-	"\t.long .LEFDE0-.LASFDE0\n"
-	".LASFDE0:\n"
-	"\t.long .Lframe0\n"
-#if LJ_64
-	"\t.quad .Lbegin\n"
-	"\t.quad %d\n"
-	"\t.byte 0xe\n\t.uleb128 %d\n"		/* def_cfa_offset */
-	"\t.byte 0x86\n\t.uleb128 0x2\n"	/* offset rbp */
-	"\t.byte 0x83\n\t.uleb128 0x3\n"	/* offset rbx */
-	"\t.byte 0x8f\n\t.uleb128 0x4\n"	/* offset r15 */
-	"\t.byte 0x8e\n\t.uleb128 0x5\n"	/* offset r14 */
-#else
-	"\t.long .Lbegin\n"
-	"\t.long %d\n"
-	"\t.byte 0xe\n\t.uleb128 %d\n"		/* def_cfa_offset */
-	"\t.byte 0x85\n\t.uleb128 0x2\n"	/* offset ebp */
-	"\t.byte 0x87\n\t.uleb128 0x3\n"	/* offset edi */
-	"\t.byte 0x86\n\t.uleb128 0x4\n"	/* offset esi */
-	"\t.byte 0x83\n\t.uleb128 0x5\n"	/* offset ebx */
-#endif
-	"\t.align " SZPTR "\n"
-	".LEFDE0:\n\n", fcofs, CFRAME_SIZE);
-#if LJ_HASFFI
-    fprintf(ctx->fp,
-	".LSFDE1:\n"
-	"\t.long .LEFDE1-.LASFDE1\n"
-	".LASFDE1:\n"
-	"\t.long .Lframe0\n"
-#if LJ_64
-	"\t.quad lj_vm_ffi_call\n"
-	"\t.quad %d\n"
-	"\t.byte 0xe\n\t.uleb128 16\n"		/* def_cfa_offset */
-	"\t.byte 0x86\n\t.uleb128 0x2\n"	/* offset rbp */
-	"\t.byte 0xd\n\t.uleb128 0x6\n"		/* def_cfa_register rbp */
-	"\t.byte 0x83\n\t.uleb128 0x3\n"	/* offset rbx */
-#else
-	"\t.long lj_vm_ffi_call\n"
-	"\t.long %d\n"
-	"\t.byte 0xe\n\t.uleb128 8\n"		/* def_cfa_offset */
-	"\t.byte 0x85\n\t.uleb128 0x2\n"	/* offset ebp */
-	"\t.byte 0xd\n\t.uleb128 0x5\n"		/* def_cfa_register ebp */
-	"\t.byte 0x83\n\t.uleb128 0x3\n"	/* offset ebx */
-#endif
-	"\t.align " SZPTR "\n"
-	".LEFDE1:\n\n", (int)ctx->codesz - fcofs);
-#endif
-#if (defined(__sun__) && defined(__svr4__))
-#if LJ_64
-    fprintf(ctx->fp, "\t.section .eh_frame,\"a\",@unwind\n");
-#else
-    fprintf(ctx->fp, "\t.section .eh_frame,\"aw\",@progbits\n");
-#endif
-#else
-    fprintf(ctx->fp, "\t.section .eh_frame,\"a\",@progbits\n");
-#endif
-    fprintf(ctx->fp,
-	".Lframe1:\n"
-	"\t.long .LECIE1-.LSCIE1\n"
-	".LSCIE1:\n"
-	"\t.long 0\n"
-	"\t.byte 0x1\n"
-	"\t.string \"zPR\"\n"
-	"\t.uleb128 0x1\n"
-	"\t.sleb128 -" SZPTR "\n"
-	"\t.byte " REG_RA "\n"
-	"\t.uleb128 6\n"			/* augmentation length */
-	"\t.byte 0x1b\n"			/* pcrel|sdata4 */
-	"\t.long lj_err_unwind_dwarf-.\n"
-	"\t.byte 0x1b\n"			/* pcrel|sdata4 */
-	"\t.byte 0xc\n\t.uleb128 " REG_SP "\n\t.uleb128 " SZPTR "\n"
-	"\t.byte 0x80+" REG_RA "\n\t.uleb128 0x1\n"
-	"\t.align " SZPTR "\n"
-	".LECIE1:\n\n");
-    fprintf(ctx->fp,
-	".LSFDE2:\n"
-	"\t.long .LEFDE2-.LASFDE2\n"
-	".LASFDE2:\n"
-	"\t.long .LASFDE2-.Lframe1\n"
-	"\t.long .Lbegin-.\n"
-	"\t.long %d\n"
-	"\t.uleb128 0\n"			/* augmentation length */
-	"\t.byte 0xe\n\t.uleb128 %d\n"		/* def_cfa_offset */
-#if LJ_64
-	"\t.byte 0x86\n\t.uleb128 0x2\n"	/* offset rbp */
-	"\t.byte 0x83\n\t.uleb128 0x3\n"	/* offset rbx */
-	"\t.byte 0x8f\n\t.uleb128 0x4\n"	/* offset r15 */
-	"\t.byte 0x8e\n\t.uleb128 0x5\n"	/* offset r14 */
-#else
-	"\t.byte 0x85\n\t.uleb128 0x2\n"	/* offset ebp */
-	"\t.byte 0x87\n\t.uleb128 0x3\n"	/* offset edi */
-	"\t.byte 0x86\n\t.uleb128 0x4\n"	/* offset esi */
-	"\t.byte 0x83\n\t.uleb128 0x5\n"	/* offset ebx */
-#endif
-	"\t.align " SZPTR "\n"
-	".LEFDE2:\n\n", fcofs, CFRAME_SIZE);
-#if LJ_HASFFI
-    fprintf(ctx->fp,
-	".Lframe2:\n"
-	"\t.long .LECIE2-.LSCIE2\n"
-	".LSCIE2:\n"
-	"\t.long 0\n"
-	"\t.byte 0x1\n"
-	"\t.string \"zR\"\n"
-	"\t.uleb128 0x1\n"
-	"\t.sleb128 -" SZPTR "\n"
-	"\t.byte " REG_RA "\n"
-	"\t.uleb128 1\n"			/* augmentation length */
-	"\t.byte 0x1b\n"			/* pcrel|sdata4 */
-	"\t.byte 0xc\n\t.uleb128 " REG_SP "\n\t.uleb128 " SZPTR "\n"
-	"\t.byte 0x80+" REG_RA "\n\t.uleb128 0x1\n"
-	"\t.align " SZPTR "\n"
-	".LECIE2:\n\n");
-    fprintf(ctx->fp,
-	".LSFDE3:\n"
-	"\t.long .LEFDE3-.LASFDE3\n"
-	".LASFDE3:\n"
-	"\t.long .LASFDE3-.Lframe2\n"
-	"\t.long lj_vm_ffi_call-.\n"
-	"\t.long %d\n"
-	"\t.uleb128 0\n"			/* augmentation length */
-#if LJ_64
-	"\t.byte 0xe\n\t.uleb128 16\n"		/* def_cfa_offset */
-	"\t.byte 0x86\n\t.uleb128 0x2\n"	/* offset rbp */
-	"\t.byte 0xd\n\t.uleb128 0x6\n"		/* def_cfa_register rbp */
-	"\t.byte 0x83\n\t.uleb128 0x3\n"	/* offset rbx */
-#else
-	"\t.byte 0xe\n\t.uleb128 8\n"		/* def_cfa_offset */
-	"\t.byte 0x85\n\t.uleb128 0x2\n"	/* offset ebp */
-	"\t.byte 0xd\n\t.uleb128 0x5\n"		/* def_cfa_register ebp */
-	"\t.byte 0x83\n\t.uleb128 0x3\n"	/* offset ebx */
-#endif
-	"\t.align " SZPTR "\n"
-	".LEFDE3:\n\n", (int)ctx->codesz - fcofs);
-#endif
-    break;
-  /* Mental note: never let Apple design an assembler.
-  ** Or a linker. Or a plastic case. But I digress.
-  */
-  case BUILD_machasm: {
-#if LJ_HASFFI
-    int fcsize = 0;
-#endif
-    int i;
-    fprintf(ctx->fp, "\t.section __TEXT,__eh_frame,coalesced,no_toc+strip_static_syms+live_support\n");
-    fprintf(ctx->fp,
-	"EH_frame1:\n"
-	"\t.set L$set$x,LECIEX-LSCIEX\n"
-	"\t.long L$set$x\n"
-	"LSCIEX:\n"
-	"\t.long 0\n"
-	"\t.byte 0x1\n"
-	"\t.ascii \"zPR\\0\"\n"
-	"\t.byte 0x1\n"
-	"\t.byte 128-" SZPTR "\n"
-	"\t.byte " REG_RA "\n"
-	"\t.byte 6\n"				/* augmentation length */
-	"\t.byte 0x9b\n"			/* indirect|pcrel|sdata4 */
-#if LJ_64
-	"\t.long _lj_err_unwind_dwarf+4@GOTPCREL\n"
-	"\t.byte 0x1b\n"			/* pcrel|sdata4 */
-	"\t.byte 0xc\n\t.byte " REG_SP "\n\t.byte " SZPTR "\n"
-#else
-	"\t.long L_lj_err_unwind_dwarf$non_lazy_ptr-.\n"
-	"\t.byte 0x1b\n"			/* pcrel|sdata4 */
-	"\t.byte 0xc\n\t.byte 0x5\n\t.byte 0x4\n"  /* esp=5 on 32 bit MACH-O. */
-#endif
-	"\t.byte 0x80+" REG_RA "\n\t.byte 0x1\n"
-	"\t.align " BSZPTR "\n"
-	"LECIEX:\n\n");
-    for (i = 0; i < ctx->nsym; i++) {
-      const char *name = ctx->sym[i].name;
-      int32_t size = ctx->sym[i+1].ofs - ctx->sym[i].ofs;
-      if (size == 0) continue;
-#if LJ_HASFFI
-      if (!strcmp(name, "_lj_vm_ffi_call")) { fcsize = size; continue; }
-#endif
-      fprintf(ctx->fp,
-	  "%s.eh:\n"
-	  "LSFDE%d:\n"
-	  "\t.set L$set$%d,LEFDE%d-LASFDE%d\n"
-	  "\t.long L$set$%d\n"
-	  "LASFDE%d:\n"
-	  "\t.long LASFDE%d-EH_frame1\n"
-	  "\t.long %s-.\n"
-	  "\t.long %d\n"
-	  "\t.byte 0\n"				/* augmentation length */
-	  "\t.byte 0xe\n\t.byte %d\n"		/* def_cfa_offset */
-#if LJ_64
-	  "\t.byte 0x86\n\t.byte 0x2\n"		/* offset rbp */
-	  "\t.byte 0x83\n\t.byte 0x3\n"		/* offset rbx */
-	  "\t.byte 0x8f\n\t.byte 0x4\n"		/* offset r15 */
-	  "\t.byte 0x8e\n\t.byte 0x5\n"		/* offset r14 */
-#else
-	  "\t.byte 0x84\n\t.byte 0x2\n"		/* offset ebp (4 for MACH-O)*/
-	  "\t.byte 0x87\n\t.byte 0x3\n"		/* offset edi */
-	  "\t.byte 0x86\n\t.byte 0x4\n"		/* offset esi */
-	  "\t.byte 0x83\n\t.byte 0x5\n"		/* offset ebx */
-#endif
-	  "\t.align " BSZPTR "\n"
-	  "LEFDE%d:\n\n",
-	  name, i, i, i, i, i, i, i, name, size, CFRAME_SIZE, i);
-    }
-#if LJ_HASFFI
-    if (fcsize) {
-      fprintf(ctx->fp,
-	  "EH_frame2:\n"
-	  "\t.set L$set$y,LECIEY-LSCIEY\n"
-	  "\t.long L$set$y\n"
-	  "LSCIEY:\n"
-	  "\t.long 0\n"
-	  "\t.byte 0x1\n"
-	  "\t.ascii \"zR\\0\"\n"
-	  "\t.byte 0x1\n"
-	  "\t.byte 128-" SZPTR "\n"
-	  "\t.byte " REG_RA "\n"
-	  "\t.byte 1\n"				/* augmentation length */
-#if LJ_64
-	  "\t.byte 0x1b\n"			/* pcrel|sdata4 */
-	  "\t.byte 0xc\n\t.byte " REG_SP "\n\t.byte " SZPTR "\n"
-#else
-	  "\t.byte 0x1b\n"			/* pcrel|sdata4 */
-	  "\t.byte 0xc\n\t.byte 0x5\n\t.byte 0x4\n"  /* esp=5 on 32 bit MACH. */
-#endif
-	  "\t.byte 0x80+" REG_RA "\n\t.byte 0x1\n"
-	  "\t.align " BSZPTR "\n"
-	  "LECIEY:\n\n");
-      fprintf(ctx->fp,
-	  "_lj_vm_ffi_call.eh:\n"
-	  "LSFDEY:\n"
-	  "\t.set L$set$yy,LEFDEY-LASFDEY\n"
-	  "\t.long L$set$yy\n"
-	  "LASFDEY:\n"
-	  "\t.long LASFDEY-EH_frame2\n"
-	  "\t.long _lj_vm_ffi_call-.\n"
-	  "\t.long %d\n"
-	  "\t.byte 0\n"				/* augmentation length */
-#if LJ_64
-	  "\t.byte 0xe\n\t.byte 16\n"		/* def_cfa_offset */
-	  "\t.byte 0x86\n\t.byte 0x2\n"		/* offset rbp */
-	  "\t.byte 0xd\n\t.byte 0x6\n"		/* def_cfa_register rbp */
-	  "\t.byte 0x83\n\t.byte 0x3\n"		/* offset rbx */
-#else
-	  "\t.byte 0xe\n\t.byte 8\n"		/* def_cfa_offset */
-	  "\t.byte 0x84\n\t.byte 0x2\n"		/* offset ebp (4 for MACH-O)*/
-	  "\t.byte 0xd\n\t.byte 0x4\n"		/* def_cfa_register ebp */
-	  "\t.byte 0x83\n\t.byte 0x3\n"		/* offset ebx */
-#endif
-	  "\t.align " BSZPTR "\n"
-	  "LEFDEY:\n\n", fcsize);
-    }
-#endif
-#if LJ_64
-    fprintf(ctx->fp, "\t.subsections_via_symbols\n");
-#else
-    fprintf(ctx->fp,
-      "\t.non_lazy_symbol_pointer\n"
-      "L_lj_err_unwind_dwarf$non_lazy_ptr:\n"
-      ".indirect_symbol _lj_err_unwind_dwarf\n"
-      ".long 0\n");
-#endif
-    }
-    break;
-  default:  /* Difficult for other modes. */
-    break;
-  }
-}
-
diff --git a/luajit-2.0/src/xedkbuild.bat b/luajit-2.0/src/xedkbuild.bat
deleted file mode 100644
index 240ec87..0000000
--- a/luajit-2.0/src/xedkbuild.bat
+++ /dev/null
@@ -1,92 +0,0 @@
-@rem Script to build LuaJIT with the Xbox 360 SDK.

-@rem Donated to the public domain.

-@rem

-@rem Open a "Visual Studio .NET Command Prompt" (32 bit host compiler)

-@rem Then cd to this directory and run this script.

-

-@if not defined INCLUDE goto :FAIL

-@if not defined XEDK goto :FAIL

-

-@setlocal

-@rem ---- Host compiler ----

-@set LJCOMPILE=cl /nologo /c /MD /O2 /W3 /D_CRT_SECURE_NO_DEPRECATE

-@set LJLINK=link /nologo

-@set LJMT=mt /nologo

-@set DASMDIR=..\dynasm

-@set DASM=%DASMDIR%\dynasm.lua

-@set ALL_LIB=lib_base.c lib_math.c lib_bit.c lib_string.c lib_table.c lib_io.c lib_os.c lib_package.c lib_debug.c lib_jit.c lib_ffi.c

-

-%LJCOMPILE% host\minilua.c

-@if errorlevel 1 goto :BAD

-%LJLINK% /out:minilua.exe minilua.obj

-@if errorlevel 1 goto :BAD

-if exist minilua.exe.manifest^

-  %LJMT% -manifest minilua.exe.manifest -outputresource:minilua.exe

-

-@rem Error out for 64 bit host compiler

-@minilua

-@if errorlevel 8 goto :FAIL

-

-@set DASMFLAGS=-D GPR64 -D FRAME32 -D PPE -D SQRT -D DUALNUM

-minilua %DASM% -LN %DASMFLAGS% -o host\buildvm_arch.h vm_ppc.dasc

-@if errorlevel 1 goto :BAD

-

-%LJCOMPILE% /I "." /I %DASMDIR% /D_XBOX_VER=200 /DLUAJIT_TARGET=LUAJIT_ARCH_PPC  host\buildvm*.c

-@if errorlevel 1 goto :BAD

-%LJLINK% /out:buildvm.exe buildvm*.obj

-@if errorlevel 1 goto :BAD

-if exist buildvm.exe.manifest^

-  %LJMT% -manifest buildvm.exe.manifest -outputresource:buildvm.exe

-

-buildvm -m peobj -o lj_vm.obj

-@if errorlevel 1 goto :BAD

-buildvm -m bcdef -o lj_bcdef.h %ALL_LIB%

-@if errorlevel 1 goto :BAD

-buildvm -m ffdef -o lj_ffdef.h %ALL_LIB%

-@if errorlevel 1 goto :BAD

-buildvm -m libdef -o lj_libdef.h %ALL_LIB%

-@if errorlevel 1 goto :BAD

-buildvm -m recdef -o lj_recdef.h %ALL_LIB%

-@if errorlevel 1 goto :BAD

-buildvm -m vmdef -o jit\vmdef.lua %ALL_LIB%

-@if errorlevel 1 goto :BAD

-buildvm -m folddef -o lj_folddef.h lj_opt_fold.c

-@if errorlevel 1 goto :BAD

-

-@rem ---- Cross compiler ----

-@set LJCOMPILE="%XEDK%\bin\win32\cl" /nologo /c /MT /O2 /W3 /GF /Gm- /GR- /GS- /Gy /openmp- /D_CRT_SECURE_NO_DEPRECATE /DNDEBUG /D_XBOX /D_LIB /DLUAJIT_USE_SYSMALLOC

-@set LJLIB="%XEDK%\bin\win32\lib" /nologo

-@set "INCLUDE=%XEDK%\include\xbox"

-

-@if "%1" neq "debug" goto :NODEBUG

-@shift

-@set "LJCOMPILE=%LJCOMPILE% /Zi"

-:NODEBUG

-@if "%1"=="amalg" goto :AMALG

-%LJCOMPILE% /DLUA_BUILD_AS_DLL lj_*.c lib_*.c

-@if errorlevel 1 goto :BAD

-%LJLIB% /OUT:luajit20.lib lj_*.obj lib_*.obj

-@if errorlevel 1 goto :BAD

-@goto :NOAMALG

-:AMALG

-%LJCOMPILE% /DLUA_BUILD_AS_DLL ljamalg.c

-@if errorlevel 1 goto :BAD

-%LJLIB% /OUT:luajit20.lib ljamalg.obj lj_vm.obj

-@if errorlevel 1 goto :BAD

-:NOAMALG

-

-@del *.obj *.manifest minilua.exe buildvm.exe

-@echo.

-@echo === Successfully built LuaJIT for Xbox 360 ===

-

-@goto :END

-:BAD

-@echo.

-@echo *******************************************************

-@echo *** Build FAILED -- Please check the error messages ***

-@echo *******************************************************

-@goto :END

-:FAIL

-@echo To run this script you must open a "Visual Studio .NET Command Prompt"

-@echo (32 bit host compiler). The Xbox 360 SDK must be installed, too.

-:END