Sweden-Number/tools/specmaker/output.c

548 lines
16 KiB
C

/*
* Code generation functions
*
* Copyright 2000 Jon Griffiths
*/
#include "specmaker.h"
/* Output files */
static FILE *specfile = NULL;
static FILE *hfile = NULL;
static FILE *cfile = NULL;
static void output_spec_postamble (void);
static void output_header_postamble (void);
static void output_c_postamble (void);
static void output_c_banner (const parsed_symbol *sym);
static const char *get_format_str (int type);
static const char *get_in_or_out (const parsed_symbol *sym, size_t arg);
/*******************************************************************
* output_spec_preamble
*
* Write the first part of the .spec file
*/
void output_spec_preamble (void)
{
specfile = open_file (OUTPUT_DLL_NAME, ".spec", "w");
atexit (output_spec_postamble);
if (VERBOSE)
puts ("Creating .spec preamble");
fprintf (specfile,
"# Generated from %s.dll by specmaker\nname %s\n"
"type win32\ninit %s_Init\n\nimport kernel32.dll\n"
"import ntdll.dll\n", globals.input_name, OUTPUT_DLL_NAME,
OUTPUT_UC_DLL_NAME);
if (globals.forward_dll)
fprintf (specfile,"#import %s.dll\n", globals.forward_dll);
fprintf (specfile, "\n\ndebug_channels (%s)\n\n", OUTPUT_DLL_NAME);
}
/*******************************************************************
* output_spec_symbol
*
* Write a symbol to the .spec file
*/
void output_spec_symbol (const parsed_symbol *sym)
{
assert (specfile);
assert (sym && sym->symbol);
if (!globals.do_code || !sym->function_name)
{
if (globals.forward_dll)
fprintf (specfile, "@ forward %s %s.%s\n", sym->symbol,
globals.forward_dll, sym->symbol);
else
{
if (!symbol_is_valid_c (sym))
fputc ('#', specfile);
fprintf (specfile, "@ stub %s\n", sym->symbol);
}
}
else
{
unsigned int i;
fprintf (specfile, "@ %s %s(", sym->varargs ? "varargs" :
symbol_is_cdecl (sym) ? "cdecl" : "stdcall", sym->symbol);
for (i = 0; i < sym->argc; i++)
fprintf (specfile, " %s", symbol_get_spec_type(sym, i));
if (sym->argc)
fputc (' ', specfile);
fprintf (specfile, ") %s_%s\n", OUTPUT_UC_DLL_NAME, sym->function_name);
}
}
/*******************************************************************
* output_spec_postamble
*
* Write the last part of the .spec file
*/
static void output_spec_postamble (void)
{
if (specfile)
fclose (specfile);
specfile = NULL;
}
/*******************************************************************
* output_header_preamble
*
* Write the first part of the .h file
*/
void output_header_preamble (void)
{
hfile = open_file (OUTPUT_DLL_NAME, "_dll.h", "w");
atexit (output_header_postamble);
fprintf (hfile,
"/*\n * %s.dll\n *\n * Generated from %s.dll by specmaker.\n *\n"
" * DO NOT SEND GENERATED DLLS FOR INCLUSION INTO WINE !\n * \n */"
"\n#ifndef __WINE_%s_DLL_H\n#define __WINE_%s_DLL_H\n\n#include "
"\"config.h\"\n#include \"windef.h\"\n#include \"debugtools.h\"\n"
"#include \"winbase.h\"\n#include \"winnt.h\"\n\n\n",
OUTPUT_DLL_NAME, OUTPUT_DLL_NAME, OUTPUT_UC_DLL_NAME,
OUTPUT_UC_DLL_NAME);
}
/*******************************************************************
* output_header_symbol
*
* Write a symbol to the .h file
*/
void output_header_symbol (const parsed_symbol *sym)
{
assert (hfile);
assert (sym && sym->symbol);
if (!globals.do_code)
return;
if (!sym->function_name)
fprintf (hfile, "/* %s %s_%s(); */\n", CALLING_CONVENTION,
OUTPUT_UC_DLL_NAME, sym->symbol);
else
{
output_prototype (hfile, sym);
fputs (";\n", hfile);
}
}
/*******************************************************************
* output_header_postamble
*
* Write the last part of the .h file
*/
static void output_header_postamble (void)
{
if (hfile)
{
fprintf (hfile, "\n\n\n#endif\t/* __WINE_%s_DLL_H */\n",
OUTPUT_UC_DLL_NAME);
fclose (hfile);
hfile = NULL;
}
}
/*******************************************************************
* output_c_preamble
*
* Write the first part of the .c file
*/
void output_c_preamble (void)
{
cfile = open_file (OUTPUT_DLL_NAME, "_main.c", "w");
atexit (output_c_postamble);
fprintf (cfile,
"/*\n * %s.dll\n *\n * Generated from %s.dll by specmaker.\n *\n"
" * DO NOT SUBMIT GENERATED DLLS FOR INCLUSION INTO WINE!\n * \n */"
"\n\n#include \"%s_dll.h\"\n\nDEFAULT_DEBUG_CHANNEL(%s);\n\n",
OUTPUT_DLL_NAME, globals.input_name, OUTPUT_DLL_NAME,
OUTPUT_DLL_NAME);
if (globals.forward_dll)
{
if (VERBOSE)
puts ("Creating a forwarding DLL");
fputs ("\nHMODULE hDLL=0;\t/* DLL to call */\n\n\n", cfile);
}
fprintf (cfile,
"BOOL WINAPI %s_Init(HINSTANCE hinstDLL, DWORD fdwReason, LPVOID "
"lpvReserved)\n{\n\tTRACE(\"(0x%%08x, %%ld, %%p)\\n\",hinstDLL,"
"fdwReason,lpvReserved);\n\n\t"
"if (fdwReason == DLL_PROCESS_ATTACH)\n\t{\n\t\t",
OUTPUT_UC_DLL_NAME);
if (globals.forward_dll)
{
fprintf (cfile,
"hDLL = LoadLibraryA( \"%s\" );\n\t\t"
"TRACE(\":Forwarding DLL (%s) loaded (%%ld)\\n\",(LONG)hDLL);",
globals.forward_dll, globals.forward_dll);
}
else
fputs ("/* FIXME: Initialisation */", cfile);
fputs ("\n\t}\n\telse if (fdwReason == DLL_PROCESS_DETACH)\n\t{\n\t\t",
cfile);
if (globals.forward_dll)
{
fprintf (cfile,
"FreeLibrary( hDLL );\n\t\tTRACE(\":Forwarding DLL (%s)"
" freed\\n\");", globals.forward_dll);
}
else
fputs ("/* FIXME: Cleanup */", cfile);
fputs ("\n\t}\n\n\treturn TRUE;\n}\n\n\n", cfile);
}
/*******************************************************************
* output_c_symbol
*
* Write a symbol to the .c file
*/
void output_c_symbol (const parsed_symbol *sym)
{
unsigned int i;
int is_void;
assert (cfile);
assert (sym && sym->symbol);
if (!globals.do_code)
return;
output_c_banner(sym);
if (!sym->function_name)
{
/* #ifdef'd dummy */
fprintf (cfile, "#if 0\n%s %s_%s()\n{\n\t/* %s in .spec */\n}\n#endif\n\n\n",
CALLING_CONVENTION, OUTPUT_UC_DLL_NAME, sym->symbol,
globals.forward_dll ? "@forward" : "@stub");
return;
}
is_void = !strcmp (sym->return_text, "void");
output_prototype (cfile, sym);
fputs ("\n{\n", cfile);
if (!globals.do_trace)
{
fputs ("\tFIXME(\":stub\\n\");\n", cfile);
if (!is_void)
fprintf (cfile, "\treturn (%s) 0;\n", sym->return_text);
fputs ("}\n\n\n", cfile);
return;
}
/* Tracing, maybe forwarding as well */
if (globals.forward_dll)
{
/* Write variables for calling */
fprintf (cfile, "\t%s (%s *pFunc)(", sym->return_text,
sym->calling_convention);
for (i = 0; i < sym->argc; i++)
fprintf (cfile, "%s%s", i ? ", " : "", sym->arg_text [i]);
fprintf (cfile, "%s)=(void*)GetProcAddress(hDLL,\"%s\");\n%s",
sym->varargs ? ",..." : sym->argc ? "" : "void", sym->symbol,
sym->varargs ? "\tva_list valist;\n" : "");
if (!is_void)
fprintf (cfile, "\t%s retVal;\n", sym->return_text);
}
/* TRACE input arguments */
fprintf (cfile, "\tTRACE(\"(%s", !sym->argc ? "void" : "");
for (i = 0; i < sym->argc; i++)
fprintf (cfile, "%s(%s)%s", i ? "," : "", sym->arg_text [i],
get_format_str (sym->arg_type [i]));
fprintf (cfile, "%s): %s\\n\"", sym->varargs ? ",..." : "",
globals.forward_dll ? "forward" : "stub");
for (i = 0; i < sym->argc; i++)
if (sym->arg_type[i] != ARG_STRUCT)
fprintf(cfile, ",%s%s%s%s", sym->arg_type[i] == ARG_LONG ? "(LONG)" : "",
sym->arg_type[i] == ARG_WIDE_STRING ? "debugstr_w(" : "",
sym->arg_name[i],
sym->arg_type[i] == ARG_WIDE_STRING ? ")" : "");
fputs (");\n", cfile);
if (!globals.forward_dll)
{
if (!is_void)
fprintf (cfile, "\treturn (%s) 0;\n", sym->return_text);
fputs ("}\n\n\n", cfile);
return;
}
/* Call the DLL */
if (sym->varargs)
fprintf (cfile, "\tva_start(valist,%s);\n", sym->arg_name[sym->argc-1]);
fprintf (cfile, "\t%spFunc(", !is_void ? "retVal = " : "");
for (i = 0; i < sym->argc; i++)
fprintf (cfile, "%s%s", i ? "," : "", sym->arg_name [i]);
fputs (sym->varargs ? ",valist);\n\tva_end(valist);" : ");", cfile);
/* TRACE return value */
fprintf (cfile, "\n\tTRACE(\"Returned (%s)\\n\"",
get_format_str (sym->return_type));
if (!is_void)
{
if (sym->return_type == ARG_WIDE_STRING)
fputs (",debugstr_w(retVal)", cfile);
else
fprintf (cfile, ",%s%s", sym->return_type == ARG_LONG ? "(LONG)" : "",
sym->return_type == ARG_STRUCT ? "" : "retVal");
fputs (");\n\treturn retVal;\n", cfile);
}
else
fputs (");\n", cfile);
fputs ("}\n\n\n", cfile);
}
/*******************************************************************
* output_c_postamble
*
* Write the last part of the .c file
*/
static void output_c_postamble (void)
{
if (cfile)
fclose (cfile);
cfile = NULL;
}
/*******************************************************************
* output_makefile
*
* Write a Wine compatible makefile.in
*/
void output_makefile (void)
{
FILE *makefile = open_file ("Makefile", ".in", "w");
if (VERBOSE)
puts ("Creating makefile");
fprintf (makefile,
"# Generated from %s.dll by specmaker.\nTOPSRCDIR = @top_srcdir@\n"
"TOPOBJDIR = ../..\nSRCDIR = @srcdir@\nVPATH = @srcdir@\n"
"MODULE = %s\nEXTRALIBS = $(LIBUNICODE)\n\n"
"LDDLLFLAGS = @LDDLLFLAGS@\nSYMBOLFILE = $(MODULE).tmp.o\n\n"
"C_SRCS = \\\n\t%s_main.c\n\n@MAKE_DLL_RULES@\n\n### Dependencies:",
globals.input_name, OUTPUT_DLL_NAME, OUTPUT_DLL_NAME);
fclose (makefile);
}
/*******************************************************************
* output_install_script
*
* Write a script to insert the DLL into Wine
*
* Rather than using diff/patch, several sed calls are generated
* so the script can be re-run at any time without breaking.
*/
void output_install_script (void)
{
char cmd[128];
FILE *install_file = open_file (OUTPUT_DLL_NAME, "_install", "w");
if (VERBOSE)
puts ("Creating install script");
fprintf (install_file,
"#!/bin/bash\n# Generated from %s.dll by specmaker.\n\n"
"if [ $# -ne 1 ] || [ ! -d $1 ] || [ ! -f"
" $1/AUTHORS ]; then\n\t[ $# -eq 1 ] && echo \"Invalid path\"\n"
"\techo \"Usage: $0 wine-base-dir\"\n\texit 1\nfi\n\n"
"if [ -d $1/dlls/%s ]; then\n\techo \"DLL is already present\"\n"
"\texit 1\nfi\n\necho Adding DLL %s to Wine build tree...\n"
"echo\n\nmkdir $1/dlls/%s\ncp %s.spec $1/dlls/%s\n"
"cp %s_main.c $1/dlls/%s\ncp %s_dll.h $1/dlls/%s\n"
"cp Makefile.in $1/dlls/%s\necho Copied DLL files\n\n"
"cd $1\n\nsed '/dlls\\/"
"x11drv\\/Makefile/{G;s/$/dlls\\/%s\\/Makefile/;}' configure.in"
" >t.tmp\nmv -f t.tmp configure.in\necho Patched configure.in\n\n"
"sed '/ws2_32/{G;s/$/\\^%s \\\\/;}' Make.rules.in | tr ^ \\\\t"
" >t.tmp\nmv -f t.tmp Make.rules.in\necho Patched Make.rules.in"
"\n\nsed '/DLLFILES =/{G;s/$/\\^%s\\/lib%s.so \\\\/;}'"
" dlls/Makefile.in| tr ^ \\\\t >t.tmp\n"
"sed '/SUBDIRS =/{G;s/$/\\^%s \\\\/;}' t.tmp | tr ^ \\\\t >t.tmp2"
"\nsed '/Map library name /{G;s/$/^\\$(RM) \\$\\@ \\&\\& \\$\\"
"(LN_S\\) %s\\/lib%s.\\@LIBEXT\\@ \\$\\@/;}' t.tmp2 | tr ^ \\\\t"
" > t.tmp\nsed '/Map library name /{G;s/$/lib%s.\\@LIBEXT\\@: "
"%s\\/lib%s.\\@LIBEXT\\@/;}' t.tmp > t.tmp2\nsed '/dll "
"dependencies /{G;s/$/%s\\/lib%s.\\@LIBEXT\\@\\: libkernel32."
"\\@LIBEXT\\@ libntdll.\\@LIBEXT\\@/;}' t.tmp2 > t.tmp\n"
"mv -f t.tmp dlls/Makefile.in\nrm -f t.tmp2\necho Patched dlls/"
"Makefile.in\n\necho\necho ...done.\necho Run \\'autoconf\\', "
"\\'./configure\\' then \\'make\\' to rebuild Wine\n\n",
OUTPUT_DLL_NAME, OUTPUT_DLL_NAME, OUTPUT_DLL_NAME, OUTPUT_DLL_NAME,
OUTPUT_DLL_NAME, OUTPUT_DLL_NAME, OUTPUT_DLL_NAME, OUTPUT_DLL_NAME,
OUTPUT_DLL_NAME, OUTPUT_DLL_NAME, OUTPUT_DLL_NAME, OUTPUT_DLL_NAME,
OUTPUT_DLL_NAME, OUTPUT_DLL_NAME, OUTPUT_DLL_NAME, OUTPUT_DLL_NAME,
OUTPUT_DLL_NAME, OUTPUT_DLL_NAME, OUTPUT_DLL_NAME, OUTPUT_DLL_NAME,
OUTPUT_DLL_NAME, OUTPUT_DLL_NAME, OUTPUT_DLL_NAME);
fclose (install_file);
snprintf (cmd, sizeof (cmd), "chmod a+x %s_install", OUTPUT_DLL_NAME);
system (cmd);
}
/*******************************************************************
* output_prototype
*
* Write a C prototype for a parsed symbol
*/
void output_prototype (FILE *file, const parsed_symbol *sym)
{
unsigned int i;
fprintf (file, "%s %s %s_%s(", sym->return_text, sym->calling_convention,
OUTPUT_UC_DLL_NAME, sym->function_name);
if (!sym->argc)
fputs ("void", file);
else
for (i = 0; i < sym->argc; i++)
fprintf (file, "%s%s %s", i ? ", " : "", sym->arg_text [i],
sym->arg_name [i]);
if (sym->varargs)
fputs (", ...", file);
fputc (')', file);
}
/*******************************************************************
* output_c_banner
*
* Write a function banner to the .c file
*/
void output_c_banner (const parsed_symbol *sym)
{
size_t i;
fprintf (cfile, "/*********************************************************"
"*********\n *\t\t%s (%s.@)\n *\n", sym->symbol,
OUTPUT_UC_DLL_NAME);
if (globals.do_documentation && sym->function_name)
{
fputs (" *\n * PARAMS\n *\n", cfile);
if (!sym->argc)
fputs (" * None.\n *\n", cfile);
else
{
for (i = 0; i < sym->argc; i++)
fprintf (cfile, " * %s [%s]%s\n", sym->arg_name [i],
get_in_or_out(sym, i),
strcmp (sym->arg_name [i], "_this") ? "" :
" Pointer to the class object");
if (sym->varargs)
fputs (" * ...[I]\n", cfile);
fputs (" *\n", cfile);
}
fputs (" * RETURNS\n *\n", cfile);
if (sym->return_text && !strcmp (sym->return_text, "void"))
fputs (" * Nothing.\n", cfile);
else
fprintf (cfile, " * %s\n", sym->return_text);
}
fputs (" *\n */\n", cfile);
}
/*******************************************************************
* get_format_str
*
* Get a string containing the correct format string for a type
*/
static const char *get_format_str (int type)
{
switch (type)
{
case ARG_VOID: return "void";
case ARG_FLOAT: return "%f";
case ARG_DOUBLE: return "%g";
case ARG_POINTER: return "%p";
case ARG_WIDE_STRING:
case ARG_STRING: return "%s";
case ARG_LONG: return "%ld";
case ARG_STRUCT: return "struct";
}
assert (0);
return "";
}
/*******************************************************************
* get_in_or_out
*
* Determin if a parameter is In or In/Out
*/
static const char *get_in_or_out (const parsed_symbol *sym, size_t arg)
{
assert (sym && arg < sym->argc);
assert (globals.do_documentation);
if (sym->arg_flag [arg] & CT_CONST)
return "In";
switch (sym->arg_type [arg])
{
case ARG_FLOAT:
case ARG_DOUBLE:
case ARG_LONG:
case ARG_STRUCT: return "In";
case ARG_POINTER:
case ARG_WIDE_STRING:
case ARG_STRING: return "In/Out";
}
assert (0);
return "";
}