diff options
Diffstat (limited to 'winsup/doc/gcc.xml')
-rw-r--r-- | winsup/doc/gcc.xml | 142 |
1 files changed, 0 insertions, 142 deletions
diff --git a/winsup/doc/gcc.xml b/winsup/doc/gcc.xml deleted file mode 100644 index 7edf89f79..000000000 --- a/winsup/doc/gcc.xml +++ /dev/null @@ -1,142 +0,0 @@ -<?xml version="1.0" encoding='UTF-8'?> -<!DOCTYPE sect1 PUBLIC "-//OASIS//DTD DocBook V4.5//EN" - "http://www.oasis-open.org/docbook/xml/4.5/docbookx.dtd"> - -<sect1 id="gcc"><title>Using GCC with Cygwin</title> - -<sect2 id="gcc-default"><title>Standard Usage</title> - -<para>Use gcc to compile, just like under UNIX. Refer to the GCC User's Guide -for information on standard usage and options. Here's a simple example:</para> - -<example id="gcc-hello-world"> -<title>Building Hello World with GCC</title> -<screen> -<prompt>bash$</prompt> <userinput>gcc hello.c -o hello.exe</userinput> -<prompt>bash$</prompt> <userinput>hello.exe</userinput> -Hello, World - -<prompt>bash$</prompt> -</screen> -</example> - -</sect2> - -<sect2 id="gcc-64"><title>Building applications for 64 bit Cygwin</title> - -<para>The 64 bit Cygwin toolchain uses the -<ulink url="http://en.wikipedia.org/wiki/X86_calling_convention#Microsoft_x64_calling_convention">Microsoft x64 calling convention</ulink> -by default, so you can create applications using the Win32 API just as with -the 32 bit Cygwin toolchain.</para> - -<para>There's just one important difference. The 64 bit Cygwin compilers use -a different data model than the Mingw and Microsoft compilers. For reference, -see the Wikipedia entry on -<ulink url="http://en.wikipedia.org/wiki/64-bit_computing#64-bit_data_models">64-bit computing</ulink>.</para> - -<para>While the Mingw and Microsoft compilers use the <literal>LLP64</literal> -data model, Cygwin compilers use the <literal>LP64</literal> data model, just -like Linux. This affects the size of the type <literal>long</literal>. In the -<literal>LLP64</literal> model preferred by Microsoft, -<function>sizeof(long)</function> is 4. This applies for the related Win32 -types like <literal>LONG</literal>, <literal>ULONG</literal>, -<literal>DWORD</literal>, etc., too.</para> - -<para>In the <literal>LP64</literal> model used by Cygwin, <function>sizeof(long)</function> is 8, -just like the size of pointers or the types <literal>size_t/ssize_t</literal>. -This simplifies porting Linux applications to 64 bit Cygwin, but it requires -due diligence when calling Windows functions taking LONG, ULONG, DWORD, or any -other equivalent type. This is especially important in conjunction with -pointers.</para> - -<para>Here's an example. The Win32 function <function>ReadFile</function> -returns the number of read bytes via a pointer to a DWORD variable:</para> - -<screen> -BOOL WINAPI ReadFile (HANDLE, PVOID, DWORD, PDWORD, LPOVERLAPPED); -</screen> - -<para>Note that the forth parameter is a pointer to a DWORD, thus it's a -pointer to a 4 byte type, on 32 as well as on 64 bit Windows. Now we write -our own <function>my_read</function> function using ReadFile:</para> - -<example id="gcc-64-ex1"> -<title>64bit-programming, Using ReadFile, 1st try</title> -<screen> -ssize_t -my_read (int fd, void *buffer, size_t bytes_to_read) -{ - HANDLE fh = _get_osfhandle (fd); - ssize_t bytes_read; - - if (ReadFile (fh, buffer, bytes_to_read, (PDWORD) &bytes_read, NULL)) - return bytes_read; - set_errno_from_get_last_error (); - return -1; -} -</screen> -</example> - -<para>While this example code works fine on 32 bit Windows, it has in fact -a bad bug. The assumption that the size of ssize_t is the same as the size -of DWORD is wrong for 64 bit. In fact, since -<function>sizeof(ssize_t)</function> is 8, <function>ReadFile</function> -will write the number of read bytes into the lower 4 bytes of the variable -<literal>bytes_read</literal>, while the upper 4 bytes will contain an -undefined value. <function>my_read</function> will very likely return the -wrong number of read bytes to the caller.</para> - -<para>Here's the fixed version of <function>my_read</function>:</para> - -<example id="gcc-64-ex2"> -<title>64bit-programming, Using ReadFile, 2nd try</title> -<screen> -ssize_t -my_read (int fd, void *buffer, size_t bytes_to_read) -{ - HANDLE fh = _get_osfhandle (fd); - DWORD bytes_read; - - if (ReadFile (fh, buffer, bytes_to_read, &bytes_read, NULL)) - return (ssize_t) bytes_read; - set_errno_from_get_last_error (); - return -1; -} -</screen> -</example> - -</sect2> - -<sect2 id="gcc-gui"><title>GUI Mode Applications</title> - -<para>Cygwin comes with an X server, so usually you should compile your -GUI applications as X applications to allow better interoperability with -other Cygwin GUI applications.</para> - -<para>Other than that, Cygwin allows you to build programs with full access -to the standard Windows API, including the GUI functions as defined in -any Microsoft or off-the-shelf publication.</para> - -<para>The build process is similar to any other build process. The only -difference is that you use <command>gcc -mwindows</command> to link your -program into a GUI application instead of a command-line application. -Here's an example Makefile:</para> - -<screen> -<![CDATA[ -myapp.exe : myapp.o myapp.res - gcc -mwindows myapp.o myapp.res -o $@ - -myapp.res : myapp.rc resource.h - windres $< -O coff -o $@ -]]> -</screen> - -<para>Note the use of <filename>windres</filename> to compile the -Windows resources into a COFF-format <filename>.res</filename> file. -That will include all the bitmaps, icons, and other resources you -need, into one handy object file. For more information on -<filename>windres</filename>, consult the Binutils manual. </para> - -</sect2> -</sect1> |