diff options
Diffstat (limited to 'newlib/libc/sys/a29khif/sys/intrinsi.h')
-rw-r--r-- | newlib/libc/sys/a29khif/sys/intrinsi.h | 457 |
1 files changed, 0 insertions, 457 deletions
diff --git a/newlib/libc/sys/a29khif/sys/intrinsi.h b/newlib/libc/sys/a29khif/sys/intrinsi.h deleted file mode 100644 index 1ae3a8b5c..000000000 --- a/newlib/libc/sys/a29khif/sys/intrinsi.h +++ /dev/null @@ -1,457 +0,0 @@ -; @(#)intrinsi.h 1.4 90/10/14 20:56:06, Copyright 1988, 1989, 1990 AMD -; start of file intrinsi.h -;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; -; Copyright 1990 Advanced Micro Devices, Inc. -; -; This software is the property of Advanced Micro Devices, Inc (AMD) which -; specifically grants the user the right to modify, use and distribute this -; software provided this notice is not removed or altered. All other rights -; are reserved by AMD. -; -; AMD MAKES NO WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, WITH REGARD TO THIS -; SOFTWARE. IN NO EVENT SHALL AMD BE LIABLE FOR INCIDENTAL OR CONSEQUENTIAL -; DAMAGES IN CONNECTION WITH OR ARISING FROM THE FURNISHING, PERFORMANCE, OR -; USE OF THIS SOFTWARE. -; -; So that all may benefit from your experience, please report any problems -; or suggestions about this software to the 29K Technical Support Center at -; 800-29-29-AMD (800-292-9263) in the USA, or 0800-89-1131 in the UK, or -; 0031-11-1129 in Japan, toll free. The direct dial number is 512-462-4118. -; -; Advanced Micro Devices, Inc. -; 29K Support Products -; Mail Stop 573 -; 5900 E. Ben White Blvd. -; Austin, TX 78741 -; 800-292-9263 -;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; -; -; - .title "QTC Intrinsics Header file" -; -; Floating point library package for AMD 29000 family -; -; Copyright 1988 Advanced Micro Devices, Inc. -; -; All rights reserved -; -; Developed for AMD by Quantitative Technology Corporation -; 8700 SW Creekside Place Suite D -; Beaverton OR 97005 -; (503) 626-3081 -; -; Version information : -; -; Revision 1.6 89/06/29 16:08:51 jimh -; Fixed two bugs regarding compatiblility with the fpsymbol file. The -; definitions of ROUND_TO_PLUS/MINUS_INFINITY were reversed. Set_Rounding -; _Mode was fixed to set the local copy (29000 resident) of rounding mode -; in 29027 mode. -; -; -; Revision 1.5 89/04/17 11:20:49 jim -; replaced emfsr and emtsr macro calls with mfsr and mtsr instructions. -; -; Revision 1.4 89/02/24 15:18:04 jimh -; Added the definitions of FP_ENV_MODE_1_DEFAULT, FP_ENV_MODE_2_DEFAULT, -; FP_FLAGS_DEFAULT. -; Added macro clear_Flags. -; Changed the operation of set_Invalid_Op_flag, set_Reserved_Op_flag. -; -; Revision 1.3 89/02/01 18:30:12 jimh -; Changed the way set_Rounding_Mode, extract_Rounding_Mode, set_Invalid_Op_flag -; and set_Reserved_Op_flag are done. Changed save_FP_regs. -; -; Revision 1.2 89/01/31 10:01:54 jimh -; Updated to the new standard. This includes moving in register -; definitions, changing old symbols to reflect those in fpsymbol.h, -; and changing the include file to smartmac.h. -; -; - .include "../traps/fpenv.h" ; RPD 8/21/89 - .include "sys/smartmac.h" - - .equ DOUBLE_EXP_WIDTH, 11 - .equ DOUBLE_EXTENDED_WIDTH, 56 - - .equ SIGNED, 0 - .equ UNSIGNED, 1 - - .equ ROUND_TO_NEAREST, 0 - .equ ROUND_TO_MINUS_INFINITY, 1 - .equ ROUND_TO_PLUS_INFINITY, 2 - .equ ROUND_TO_ZERO, 3 - .equ ROUNDING_MODE_POSITION, 14 - - .equ FORMAT_INTEGER, 0 - .equ FORMAT_SINGLE, 1 - .equ FORMAT_DOUBLE, 2 - - .equ DOUBLE_MSB_MASK,0x00080000 -; -; The following are definitions used in the smart macro package, defining -; the 29000 shadow registers for the floating-point register file, and -; some temporary registers used during the library routines -; - .reg FP0, gr96 - .reg FP1, gr98 - .reg FP2, gr100 - .reg FP3, gr102 - .reg FP4, gr104 - .reg FP5, gr106 - .reg FP6, gr108 - .reg FP7, gr110 -; -; GR60 through GR6F are used to return the value of a function -; - .reg rtn0, gr96 - .reg rtn1, gr97 - .reg rtn2, gr98 - .reg rtn3, gr99 - .reg rtn4, gr100 - .reg rtn5, gr101 - .reg rtn6, gr102 - .reg rtn7, gr103 - .reg rtn8, gr104 - .reg rtn9, gr105 - .reg rtn10, gr106 - .reg rtn11, gr107 - .reg rtn12, gr108 - .reg rtn13, gr109 - .reg rtn14, gr110 - .reg rtn15, gr111 -; -; GR74..GR78 (116-120) - temporaries -; - .reg t0, gr116 - .reg t1, gr117 - .reg t2, gr118 - .reg t3, gr119 - .reg t4, gr120 -; -; FP_ENV_MODE_1 and FP_ENV_MODE_2 are based on 64-bit 29027 Mode register, -; and thus the fpsymbol.h CP_ constants may be used directly. -; -; FP_ENV_MODE_1 (Bits 0-31) -; -; 0-3 - floating-point format select, always 0 -; 4 - Saturate enable -; 5 - IEEE Affine/Projective mode (ignored by traps code) -; 6 - IEEE Trap enable -; 7 - IEEE Sudden underflow / FP Environment Fast Float Select -; 8-10 - ignored -; 11 - Integer multiplication signed/unsigned select -; 12-13 - Integer multiplication format adjust -; 14-16 - Rounding mode select -; 17-19 - ignored -; 20 - Pipeline mode select -; 21 - ignored -; 22 - Invalid operation mask bit -; 23 - Reserved operand mask bit -; 24 - Overflow mask bit -; 25 - Underflow mask bit -; 26 - Inexact result mask bit -; 27 - Zero mask bit -; 28-31 - ignored -; -; FP_ENV_MODE_2 (Bits 32-63) [Hardware configuration register, rarely modified] -; -; 32-35 - Pipeline timer count -; 36-39 - Timer count for multiply-accumulate operation -; 40-43 - Timer count for save state transaction request -; 44-63 - ignored -; -; FP_ENV_MODE_1 definitions -; - .set FP_ENV_MODE_1_DEFAULT, CP_PFF_EQ_IEEE - .set FP_ENV_MODE_1_DEFAULT,FP_ENV_MODE_1_DEFAULT|CP_AFF_EQ_IEEE - .set FP_ENV_MODE_1_DEFAULT,FP_ENV_MODE_1_DEFAULT|CP_AFFINE_MODE - .set FP_ENV_MODE_1_DEFAULT,FP_ENV_MODE_1_DEFAULT|CP_IEEE_TRAPS_DISABLED - .set FP_ENV_MODE_1_DEFAULT,FP_ENV_MODE_1_DEFAULT|CP_IEEE_GRADUAL_UFLOW_MODE - .set FP_ENV_MODE_1_DEFAULT,FP_ENV_MODE_1_DEFAULT|CP_UNSIGNED_INT_MPY_MODE - .set FP_ENV_MODE_1_DEFAULT,FP_ENV_MODE_1_DEFAULT|CP_MF_EQ_LSBS - .set FP_ENV_MODE_1_DEFAULT,FP_ENV_MODE_1_DEFAULT|CP_RMS_EQ_NEAREST - .set FP_ENV_MODE_1_DEFAULT,FP_ENV_MODE_1_DEFAULT|CP_FLOWTHROUGH_MODE - .set FP_ENV_MODE_1_DEFAULT,FP_ENV_MODE_1_DEFAULT|CP_INVALID_OP_EXCP_MASK - .set FP_ENV_MODE_1_DEFAULT,FP_ENV_MODE_1_DEFAULT|CP_RESERVED_OP_EXCP_MASK - .set FP_ENV_MODE_1_DEFAULT,FP_ENV_MODE_1_DEFAULT|CP_OVERFLOW_EXCP_MASK - .set FP_ENV_MODE_1_DEFAULT,FP_ENV_MODE_1_DEFAULT|CP_UNDERFLOW_EXCP_MASK - .set FP_ENV_MODE_1_DEFAULT,FP_ENV_MODE_1_DEFAULT|CP_INEXACT_EXCP_MASK - .set FP_ENV_MODE_1_DEFAULT,FP_ENV_MODE_1_DEFAULT|CP_ZERO_EXCP_MASK -; -; FP_ENV_MODE_2 definitions -; - .set FP_ENV_MODE_2_DEFAULT, CP_PLTC_EQ_6 - .set FP_ENV_MODE_2_DEFAULT,FP_ENV_MODE_2_DEFAULT|CP_MATC_EQ_9 - .set FP_ENV_MODE_2_DEFAULT,FP_ENV_MODE_2_DEFAULT|CP_MVTC_EQ_3 - .set FP_ENV_MODE_2_DEFAULT,FP_ENV_MODE_2_DEFAULT|CP_NORMAL_DRDY_MODE - .set FP_ENV_MODE_2_DEFAULT,FP_ENV_MODE_2_DEFAULT|CP_HALT_ON_ERROR_DISABLED - .set FP_ENV_MODE_2_DEFAULT,FP_ENV_MODE_2_DEFAULT|CP_EXCP_DISABLED -; -; FP_FLAGS_DEFAULT definitions -; - .equ FP_FLAGS_DEFAULT, 0x00000000 ; No flags set -; -; The following macros are used by transcendentals to access the environment. -; -; MACRO NAME: clear_Flags -; -; FUNCTION: to clear the flags on entry to a transcendental routine. -; -; INPUT PARAMETERS: reg - temporary working register -; reg2 - temporary working register -; - .macro clear_Flags,reg,reg2 - .endm -; -; MACRO NAME: set_Invalid_Op_flag -; -; FUNCTION: to set the Invalid operation flag in the floating-point status -; register -; -; INPUT PARAMETERS: reg - temporary working register -; reg2 - 2nd temporary working register -; - .macro set_Invalid_Op_flag,reg,reg2 - .endm - -; -; MACRO NAME: set_Reserved_Op_flag -; -; FUNCTION: to set the Reserved Op flag in the floating-point status register -; -; INPUT PARAMETERS: reg - temporary working register -; reg2 - 2nd temporary working register -; - .macro set_Reserved_Op_flag,reg,reg2 - .endm - -; -; MACRO NAME: extract_Rounding_Mode -; -; FUNCTION: to extract the Rounding Mode portion of the floating-point -; invironment mode register, shift the value to the range of -; 0-7, and leave it in a register -; -; INPUT PARAMETERS: reg - destination for the mode -; - .macro extract_Rounding_Mode,reg - .ifdef _29027_MODE - .extern __29027Mode - const reg,__29027Mode - consth reg,__29027Mode - load 0,0,reg,reg - srl reg,reg,CP_RMS_POSITION - and reg,reg,CP_RMS_MASK >> CP_RMS_POSITION - .else - mfsr reg,FPE - and reg,reg,FPE_FPRND_MASK - srl reg,reg,FPE_FPRND_POSITION - .endif - .endm - -; -; MACRO NAME: set_Rounding_Mode -; -; FUNCTION: to set the 29027 Rounding Mode to a given value -; -; INPUT PARAMETERS: reg - working register -; reg2 - second working register -; rounding_mode - value of the rounding mode -; 0 - round to nearest -; 1 - round to minus infinity -; 2 - round to plus infinity -; 3 - round to zero -; -; NOTES: rounding_mode value is not checked -; 29027 Mode register is NOT written by this macro -; - .macro set_Rounding_Mode,reg,reg2,mode - .ifdef _29027_MODE - .extern __29027Mode - const reg2,__29027Mode - consth reg2,__29027Mode - load 0,0,reg,reg2 - const reg2,CP_RMS_MASK - consth reg2,CP_RMS_MASK - andn reg,reg,reg2 - const reg2,mode - sll reg2,reg2,CP_RMS_POSITION - or reg,reg,reg2 - const reg2,__29027Mode - consth reg2,__29027Mode - store 0,0,reg,reg2 - add reg2,reg2,4 - load 0,0,reg2,reg2 - cp_write_mode reg2,reg - .else - mfsr reg,FPE - andn reg,reg,FPE_FPRND_MASK - const reg2,mode - sll reg2,reg2,FPE_FPRND_POSITION - or reg,reg,reg2 - mtsr FPE,reg - .endif - .endm -; -; -; NOTE: The 29027 is the floating point coprocessor for the 29000. -; It contains 8 floating point registers FP0 to FP7. Three of -; these, FP0, FP1, and FP2, are currently designated as scratch, -; that is, they will not be preserved across calls. The other -; five contain values that must be saved whenever they are used -; in code, and restored before the exit of the routine. The 29027 -; registers are tagged with a single bit indicating the precision -; of the current value. When numbers are read into the 29027, -; they are always stored in double precision, so that single -; precision values are converted on input. Only the MOVE instruction -; fails to do this automatic widening. If the result from calculations -; in the 29027 ALU (determined by the result precision bit in the -; instruction word) is to be single precision and the result saved in -; an FP reg, the result precision bit from the instruction gets copied -; into the precision bit for the register. If a single precision -; SNaN is saved from the 29027, it will be converted to a double -; precision QNaN. Along the way it will cause an unmasked exception -; when read off the chip and cause changes to the status register. -; So the preservation routine will need to modify the mode register to -; mask off the exceptions, save the state of the status register before -; saving the FP regs, and restore the status and mode registers to their -; original settings when the save is complete. -; -; REFERENCE: The instructions to drive the Am29027 are described in the -; Am29027 manual beginning on page 17. Table 4 describes the -; operation codes and table 3 the multiplexer codes. Communication -; with the 29000 is described on pages 11 and 12 of the Am29027 -; manual and chapters 6 and 8 of the Am29000 User's Manual -; -; MACRO NAME: save_FP_regs -; -; FUNCTION: to save the AMD 29027 floating point register values in the -; 29000 general purpose registers -; -; INPUT PARAMETERS: fp_register, one of the 29027 registers FP3 - FP7 -; -; REGISTER USAGE: the following registers are used in save_FP_regs -; -; rtn0 this register is used in setting the mode and status registers -; rtn1 this register is used in setting the mode and status registers -; rtn6 this register is used to store the MSW when FP3 is saved -; rtn7 this register is used to store the LSW when FP3 is saved -; rtn8 this register is used to store the MSW when FP4 is saved -; rtn9 this register is used to store the LSW when FP4 is saved -; - - .macro save_FP_regs,fp_register - .ifdef _29027_MODE - ; - ; For 29027 mode, expand the macro into 29027 code to preserve FP register - ; - .ifeqs "@fp_register@","FP3" - const rtn6,__29027Mode ; Load the address of FP mode - consth rtn6,__29027Mode - load 0,0,rtn0,rtn6 ; Load MSW of FP mode into rtn0 - add rtn6,rtn6,4 ; Increment rtn6 + 4 - load 0,0,rtn1,rtn6 ; Load LSW of FP mode into rtn1 - const rtn6,CP_RESERVED_OP_EXCP_MASK ; Load mask to disable exception - consth rtn6,CP_RESERVED_OP_EXCP_MASK - or rtn0,rtn0,rtn6 ; OR in disable of exception mask - cp_write_mode rtn1, rtn0 ; Reset mode w/exception disabled - cp_read_status rtn0 ; Read status and save in rtn1 - const rtn6,CP_PASS_P | CP_P_EQ_RF3 ; Instruction is PASS_P from RF3 - consth rtn6,CP_PASS_P | CP_P_EQ_RF3 - ; Load & execute the instruction - ; - store 1,CP_WRITE_INST | CP_START,rtn6,rtn6 - load 1,CP_READ_MSBS,rtn6,rtn6 ; Read the MSW to first register - load 1,CP_READ_LSBS,rtn7,rtn7 ; Read the LSW to second register - cp_write_status rtn0 ; Restore the original status - const rtn1,__29027Mode ; Load the address of FP mode - consth rtn1,__29027Mode - load 0,0,rtn0,rtn1 ; Load MSW of FP mode into rtn0 - add rtn1,rtn1,4 ; Increment rtn6 to __29027Mode+4 - load 0,0,rtn1,rtn1 ; Load LSW of FP mode into rtn1 - cp_write_mode rtn1, rtn0 ; Restore the original write mode - .endif - .ifeqs "@fp_register@","FP4" - const rtn8,__29027Mode ; Load the address of FP mode - consth rtn8,__29027Mode - load 0,0,rtn0,rtn8 ; Load MSW of FP mode into rtn0 - add rtn8,rtn8,4 ; Increment rtn6 + 4 - load 0,0,rtn1,rtn8 ; Load LSW of FP mode into rtn1 - const rtn8,CP_RESERVED_OP_EXCP_MASK ; Load mask to disable exception - consth rtn8,CP_RESERVED_OP_EXCP_MASK - or rtn0,rtn0,rtn8 ; OR in disable of exception mask - cp_write_mode rtn1, rtn0 ; Reset mode w/exception disabled - cp_read_status rtn0 ; Read status and save in rtn1 - const rtn8,CP_PASS_P | CP_P_EQ_RF4 ; Instruction is PASS_P from RF4 - consth rtn8,CP_PASS_P | CP_P_EQ_RF4 - ; Load & execute the instruction - ; - store 1,CP_WRITE_INST | CP_START,rtn8,rtn8 - load 1,CP_READ_MSBS,rtn8,rtn8 ; Read the MSW to first register - load 1,CP_READ_LSBS,rtn9,rtn9 ; Read the LSW to second register - cp_write_status rtn0 ; Restore the original status - const rtn1,__29027Mode ; Load the address of FP mode - consth rtn1,__29027Mode - load 0,0,rtn0,rtn1 ; Load MSW of FP mode into rtn0 - add rtn1,rtn1,4 ; Increment rtn6 + 4 - load 0,0,rtn1,rtn1 ; Load LSW of FP mode into rtn1 - cp_write_mode rtn1, rtn0 ; Restore the original write mode - .endif - .else - ; - ; For 29000 mode, do nothing - ; - .endif - .endm -; -; MACRO NAME: restore_FP_regs -; -; FUNCTION: to restore the AMD 29027 floating point register values from the -; 29000 general purpose registers -; -; INPUT PARAMETERS: fp_register, one of the 29027 registers FP3 - FP7 -; -; REGISTER USAGE: the following registers are used in restore_FP_regs -; -; rtn0 this register is used in setting the mode and status registers -; rtn6 the value in this register is stored as the MSW of FP3 -; rtn7 the value in this register is stored as the LSW of FP3 -; rtn8 the value in this register is stored as the MSW of FP4 -; rtn9 the value in this register is stored as the LSW of FP4 -; - .macro restore_FP_regs,fp_register - .ifdef _29027_MODE - ; - ; For 29027 mode, move data from return registers to the correct FP register - ; - .ifeqs "@fp_register@","FP3" - store 1,CP_WRITE_R ,rtn6,rtn7 ; Move the data to the R register - ; Then create the instruction - ; - const rtn0,CP_MOVE_P|CP_D_D|CP_P_EQ_R|CP_DEST_EQ_RF3 - consth rtn0,CP_MOVE_P|CP_D_D|CP_P_EQ_R|CP_DEST_EQ_RF3 - ; - ; Perform the write - ; - store 1,(CP_WRITE_INST | CP_START),rtn0,0 - .endif - .ifeqs "@fp_register@","FP4" - store 1,CP_WRITE_R ,rtn8,rtn9 ; Move the data to the R register - ; Then create the instruction - ; - const rtn0,CP_MOVE_P|CP_D_D|CP_P_EQ_R|CP_DEST_EQ_RF4 - consth rtn0,CP_MOVE_P|CP_D_D|CP_P_EQ_R|CP_DEST_EQ_RF4 - ; - ; Perform the write - ; - store 1,(CP_WRITE_INST | CP_START),rtn0,0 - .endif - .else - ; - ; For 29000 mode, do nothing. - ; - .endif - .endm -; -; end of file intrinsi.h |