Sweden-Number/rc/winerc.c

971 lines
24 KiB
C

/*
*
* Copyright Martin von Loewis, 1994
*
*/
#include <ctype.h>
#include <stdio.h>
#include <stdlib.h>
#include <sys/stat.h>
#include <fcntl.h>
#include <sys/types.h>
#include <unistd.h>
#include <string.h>
#include "windows.h"
#include "parser.h"
char usage[]="winerc -bdvc -p prefix -o outfile < infile \n"
" -b Create a C array from a binary .res file\n"
" -c Add 'const' prefix to C constants\n"
" -d Output debugging information\n"
" -h Also generate a .h file\n"
" -p prefix Give a prefix for the generated names\n"
" -v Show each resource as it is processed\n"
" -o file Output to file.c and file.h\n"
" -w 16|32 Select win16 or win32 output\n";
/*might be overwritten by command line*/
char *prefix="_Resource";
int win32=1;
int verbose,constant;
gen_res* g_start;
static FILE *header = NULL, *code = NULL;
int transform_binary_file(void);
int yyparse(void);
static void *xmalloc (size_t size)
{
void *res;
res = malloc (size ? size : 1);
if (res == NULL)
{
fprintf (stderr, "Virtual memory exhausted.\n");
exit (1);
}
return res;
}
int main(int argc,char *argv[])
{
extern int yydebug;
extern char* optarg;
int optc,lose = 0, ret, binary = 0, output_header = 0;
char output_name[256];
while((optc=getopt(argc,argv,"bcdhp:vo:w:"))!=EOF)
switch(optc)
{
/* bison will print state transitions on stderr */
case 'b':binary=1;
break;
case 'd':yydebug=1;
setbuf(stdout,0);
setbuf(stderr,0);
break;
case 'h':output_header=1; break;
case 'p':prefix=strdup(optarg); break;
case 'c':constant=1;break;
case 'v':verbose=1;
setbuf(stderr,0);
break;
case 'o':sprintf(output_name,"%s.c",optarg); break;
case 'w':if(!strcmp(optarg,"16"))win32=0;
else if(!strcmp(optarg,"32"))win32=1;
else lose++;
break;
default: lose++;break;
}
if(lose)return fprintf(stderr,usage),1;
if (output_name[0])
{
code = fopen( output_name, "w" );
if (output_header)
{
output_name[strlen(output_name)-1] = 'h';
header = fopen( output_name, "w" );
}
}
if (!code) code = stdout;
if(binary)
ret=transform_binary_file();
else
ret=yyparse();
if (header) fclose(header);
fclose(code);
if (ret) /* There was an error */
{
if (header) unlink( output_name );
output_name[strlen(output_name)-1] = 'c';
unlink( output_name );
}
return ret;
}
int transform_binary_file()
{
int i,c;
if (header) fprintf(header,"#define APPLICATION_HAS_RESOURCES 1\n");
fprintf(code,"char _Application_resources[]={");
for(i=0;;i++)
{
c=getchar();
if(c==-1)break;
if(i%16==0)fputc('\n',code);
fprintf(code,"%3d,",c);
}
fprintf(code,"\n 0};\nint _Application_resources_size=%d;\n",i);
return 0;
}
/* SunOS' memcpy is wrong for overlapping arrays */
char *save_memcpy(char *d,char* s,int l)
{
if(d<s)
for(;l;l--)*d++=*s++;
else
for(d+=l-1,s+=l-1;l;l--)*d--=*s--;
return d;
}
/*allow unaligned access*/
void put_WORD(unsigned char* p,WORD w)
{
*p=w&0xFF;
*(p+1)=w>>8;
}
void put_DWORD(unsigned char* p,DWORD d)
{
put_WORD(p,d&0xFFFF);
put_WORD(p+2,d>>16);
}
WORD get_WORD(unsigned char* p)
{
return *p|(*(p+1)<<8);
}
DWORD get_DWORD(unsigned char* p)
{
return get_WORD(p)|(get_WORD(p+2)<<16);
}
/*create a new gen_res, initial size 100*/
gen_res *new_res()
{ gen_res* ret=xmalloc(sizeof(gen_res)+100);
int i;
for(i=0;i<sizeof(gen_res)+100;i++)*((char*)ret+i)='\0';
ret->g_next=g_start;
ret->g_prev=0;
g_start=ret;
ret->space=100;
return ret;
}
/*double the space*/
gen_res* grow(gen_res* res)
{
res=realloc(res,sizeof(gen_res)+2*res->space);
if(!res)
fprintf(stderr,"Out of memory\n"),exit(1);
if(!res->g_prev)g_start=res;
else res->g_prev->g_next=res;
if(res->g_next)res->g_next->g_prev=res;
res->space=2*res->space;
return res;
}
/* insert bytes at offset 0, increase num_entries */
gen_res* insert_at_beginning(gen_res* res,char* entry,int size)
{
while(res->size+size>res->space)res=grow(res);
save_memcpy(res->res+size,res->res,res->size);
save_memcpy(res->res,entry,size);
res->size+=size;
res->num_entries++;
return res;
}
/* insert length characters from bytes into res, starting at start */
gen_res* insert_bytes(gen_res* res,char* bytes,int start,int length)
{
while(res->size+length>res->space)res=grow(res);
save_memcpy(res->res+start+length,res->res+start,res->size-start);
save_memcpy(res->res+start,bytes,length);
res->size+=length;
return res;
}
/* insert string into res, starting at start */
gen_res* insert_string(gen_res* res,unsigned char* string,int start,int terminating0)
{
unsigned char* p;
int lengthA = strlen(string) + (terminating0 ? 1 : 0);
int length = (win32 ? 2 : 1) * lengthA;
while(res->size+length>res->space)res=grow(res);
save_memcpy(res->res+start+length,res->res+start,res->size-start);
p=res->res+start;
while(lengthA--)
if (win32)
{
put_WORD(p, *string++);
p+=2;
}
else
*p++=*string++;
res->size+=length;
return res;
}
/* insert string at offset 0, increase num_entries */
gen_res* insert_string_at_beginning(gen_res* res,char* entry,int terminating0)
{
res=insert_string(res,entry,0,terminating0);
res->num_entries++;
return res;
}
/*delete len bytes from res, starting at start*/
gen_res* delete_bytes(gen_res* res,int start,int len)
{
save_memcpy(res->res+start,res->res+start+len,res->size-start-len);
res->size-=len;
return res;
}
/*create a new style*/
rc_style *new_style()
{
rc_style *ret=xmalloc(sizeof(rc_style));
/*initially, no bits have to be reset*/
ret->and=-1;
/*initially, no bits are set*/
ret->or=WS_CHILD | WS_VISIBLE;
return ret;
}
/* entries are inserted at the beginning, starting from the last one */
gen_res* add_accelerator(int ev, int id, int flags, gen_res* prev)
{
char accel_entry[5];
if(prev->num_entries==0)flags|=0x80; /* last entry */
accel_entry[0]=flags;
put_WORD(accel_entry+1,ev);
put_WORD(accel_entry+3,id);
return insert_at_beginning(prev,accel_entry,5);
}
/* create an integer from the event, taking things as "^c" into account
add this as new entry */
gen_res* add_string_accelerator(char *ev, int id, int flags, gen_res* prev)
{
int event;
if(*ev=='^')
event=ev[1]-'a';
else
event=ev[0];
return add_accelerator(event,id,flags,prev);
}
/*is there a difference between ASCII and VIRTKEY accelerators? */
gen_res* add_ascii_accelerator(int ev, int id, int flags, gen_res* prev)
{
return add_accelerator(ev,id,flags,prev);
}
gen_res* add_vk_accelerator(int ev, int id, int flags, gen_res* prev)
{
return add_accelerator(ev,id,flags,prev);
}
/* create a new dialog header, set all items to 0 */
gen_res* new_dialog()
{ gen_res* ret=new_res();
ret->size=win32?24:16; /*all strings "\0", no font*/
return ret;
}
/* the STYLE option was specified */
gen_res* dialog_style(rc_style* style, gen_res* attr)
{
/* default dialog styles? Do we need style->and? */
/* DS_SETFONT might have been specified before */
put_DWORD(attr->res,get_DWORD(attr->res)|style->or);
return attr;
}
/* menu name is at offset 13 (win32: 18) */
int dialog_get_menu(gen_res* attr)
{
return win32?18:13;
}
/* the class is after the menu name */
int dialog_get_class(gen_res* attr)
{
int offs=dialog_get_menu(attr);
while(attr->res[offs]||(win32&&attr->res[offs+1]))offs+=win32?2:1;
offs+=win32?2:1;
return offs;
}
/* the caption is after the class */
int dialog_get_caption(gen_res* attr)
{
int offs=dialog_get_class(attr);
while(attr->res[offs]||(win32&&attr->res[offs+1]))offs+=win32?2:1;
offs+=win32?2:1;
return offs;
}
/* the fontsize, if present, is after the caption, followed by the font name */
int dialog_get_fontsize(gen_res* attr)
{
int offs=dialog_get_caption(attr);
while(attr->res[offs]||(win32&&attr->res[offs+1]))offs+=win32?2:1;
offs+=win32?2:1;
return offs;
}
/* the CAPTION option was specified */
gen_res* dialog_caption(char* cap, gen_res*attr)
{
/* we don't need the terminating 0 as it's already there */
return insert_string(attr,cap,dialog_get_caption(attr),0);
}
/* the FONT option was specified, set the DS_SETFONT flag */
gen_res* dialog_font(short size,char* font,gen_res *attr)
{
char c_size[2];
int offs=dialog_get_fontsize(attr);
put_DWORD(attr->res,get_DWORD(attr->res)|DS_SETFONT);
put_WORD(c_size,size);
attr=insert_bytes(attr,c_size,offs,2);
offs+=2;
/* as there is no font name by default, copy the '\0' */
return insert_string(attr,font,offs,1);
}
gen_res* dialog_class(char* cap, gen_res*attr)
{
return insert_string(attr,cap,dialog_get_class(attr),0);
}
gen_res* dialog_menu_id(short nr, gen_res*attr)
{
char c_nr[2];
int offs=dialog_get_menu(attr);
attr->res[offs] = 0xff;
if (win32) attr->res[offs+1] = 0xff;
put_WORD(c_nr,nr);
return insert_bytes(attr,c_nr,offs+(win32?2:1),2);
}
gen_res* dialog_menu_str(char* cap, gen_res*attr)
{
return insert_string(attr,cap,dialog_get_menu(attr),0);
}
/* set the dialogs id, position, extent, and style */
gen_res* create_control_desc(int id,int x,int y,int cx, int cy,rc_style *style)
{ gen_res* ret=new_res();
int s=WS_VISIBLE|WS_CHILD; /*defaults styles for any control*/
if(win32)
{
if(style)s=(s|style->or)&style->and;
put_DWORD(ret->res+0,s);
/* FIXME */
/* put_WORD(ret->res+4, exStyle); */
put_WORD(ret->res+8,x);
put_WORD(ret->res+10,y);
put_WORD(ret->res+12,cx);
put_WORD(ret->res+14,cy);
put_WORD(ret->res+16,id);
ret->size=24; /*empty strings, unused byte*/
}
else
{
put_WORD(ret->res+0,x);
put_WORD(ret->res+2,y);
put_WORD(ret->res+4,cx);
put_WORD(ret->res+6,cy);
put_WORD(ret->res+8,id);
if(style)s=(s|style->or)&style->and;
put_DWORD(ret->res+10,s);
ret->size=17; /*empty strings, unused byte*/
}
return ret;
}
/* insert the control's label */
gen_res* label_control_desc(char* label,gen_res* cd)
{
int offs;
if(win32) {
if(get_WORD(cd->res+18)==0xffff)offs=20; /* one-character class */
else {
for(offs=18;get_WORD(cd->res+offs);offs+=2);
offs+=2;
}
}
else {
if(cd->res[14]&0x80)offs=15; /* one-character class */
else {
for(offs=14;cd->res[offs];offs++);
offs++;
}
}
return insert_string(cd,label,offs,0);
}
/* a CONTROL was specified */
gen_res* create_generic_control(char* label,int id,char* class,
rc_style*style,int x,int y,int cx,int cy)
{ gen_res* ret=new_res();
int s=WS_VISIBLE|WS_CHILD; /*default styles for any control*/
if(style)s=(s|style->or)&style->and;
if(win32)
{
WORD cl;
put_DWORD(ret->res+0,s);
/* FIXME */
/* put_DWORD(ret->res+4,exstyle->or); */
put_WORD(ret->res+8,x);
put_WORD(ret->res+10,y);
put_WORD(ret->res+12,cx);
put_WORD(ret->res+14,cy);
put_WORD(ret->res+16,id);
ret->size=24;
ret=insert_string(ret,label,20,0);
/* is it a predefined class? */
cl=0;
if(!strcasecmp(class,"BUTTON"))cl=CT_BUTTON;
if(!strcasecmp(class,"EDIT"))cl=CT_EDIT;
if(!strcasecmp(class,"STATIC"))cl=CT_STATIC;
if(!strcasecmp(class,"LISTBOX"))cl=CT_LISTBOX;
if(!strcasecmp(class,"SCROLLBAR"))cl=CT_SCROLLBAR;
if(!strcasecmp(class,"COMBOBOX"))cl=CT_COMBOBOX;
if(cl) {
char ffff[2]={0xff, 0xff};
ret=insert_bytes(ret,ffff,18,2);
put_WORD(ret->res+20,cl);
}
else ret=insert_string(ret,class,18,0);
}
else
{
char cl;
put_WORD(ret->res+0,x);
put_WORD(ret->res+2,y);
put_WORD(ret->res+4,cx);
put_WORD(ret->res+6,cy);
put_WORD(ret->res+8,id);
put_DWORD(ret->res+10,s);
ret->size=17;
ret=insert_string(ret,label,15,0);
/* is it a predefined class? */
cl=0;
if(!strcasecmp(class,"BUTTON"))cl=CT_BUTTON;
if(!strcasecmp(class,"EDIT"))cl=CT_EDIT;
if(!strcasecmp(class,"STATIC"))cl=CT_STATIC;
if(!strcasecmp(class,"LISTBOX"))cl=CT_LISTBOX;
if(!strcasecmp(class,"SCROLLBAR"))cl=CT_SCROLLBAR;
if(!strcasecmp(class,"COMBOBOX"))cl=CT_COMBOBOX;
if(cl)ret->res[14]=cl;
else ret=insert_string(ret,class,14,0);
}
return ret;
}
/* insert cd into rest, set the type, add flags */
gen_res* add_control(int type,int flags,gen_res*cd,gen_res* rest)
{
char zeros[4]={0,0,0,0};
if(win32)
{
char ffff[2]={0xff, 0xff};
put_DWORD(cd->res+0,get_DWORD(cd->res+0)|flags);
cd=insert_bytes(cd,ffff,18,2);
put_WORD(cd->res+20,type);
}
else
{
put_DWORD(cd->res+10,get_DWORD(cd->res+10)|flags);
cd->res[14]=type;
}
/* WIN32: First control is on dword boundary */
if(win32 && cd->size%4)
cd=insert_bytes(cd,zeros,cd->size,4-cd->size%4);
return insert_at_beginning(rest,cd->res,cd->size);
}
/* an ICON control was specified, whf contains width, height, and flags */
gen_res* add_icon(char* name,int id,int x,int y,gen_res* whf,gen_res* rest)
{
if (win32)
{
put_WORD(whf->res+8,x);
put_WORD(whf->res+10,y);
put_WORD(whf->res+16,id);
}
else
{
put_WORD(whf->res+0,x);
put_WORD(whf->res+2,y);
put_WORD(whf->res+8,id);
}
whf=label_control_desc(name,whf);
return add_control(CT_STATIC,SS_ICON,whf,rest);
}
/* insert the generic control into rest */
gen_res* add_generic_control(gen_res* ctl, gen_res* rest)
{
char zeros[4]={0,0,0,0};
/* WIN32: Control is on dword boundary */
if(win32 && ctl->size%4)
ctl=insert_bytes(ctl,zeros,ctl->size,4-ctl->size%4);
return insert_at_beginning(rest,ctl->res,ctl->size);
}
/* create a dialog resource by inserting the header into the controls.
Set position and extent */
gen_res* make_dialog(gen_res* header,int x,int y,int cx,int cy,gen_res* ctls)
{
char zeros[4]={0,0,0,0};
if(win32)
{
put_WORD(header->res+8, ctls->num_entries);
header->type=dlg;
put_WORD(header->res+10,x);
put_WORD(header->res+12,y);
put_WORD(header->res+14,cx);
put_WORD(header->res+16,cy);
}
else
{
header->res[4]=ctls->num_entries;
header->type=dlg;
put_WORD(header->res+5,x);
put_WORD(header->res+7,y);
put_WORD(header->res+9,cx);
put_WORD(header->res+11,cy);
}
/* WIN32: First control is on dword boundary */
if(win32 && header->size%4)
header=insert_bytes(header,zeros,header->size,4-header->size%4);
return insert_bytes(header,ctls->res,header->size,ctls->size);
}
/* create {0x15,0x16,0xFF} from '15 16 FF' */
gen_res *hex_to_raw(char *hex, gen_res*rest)
{
char r2[16];
int i;
for(i=0;*hex!='\'';i++)r2[i]=strtoul(hex,&hex,16);
return insert_bytes(rest,r2,0,i);
}
/* create a bitmap resource */
gen_res *make_bitmap(gen_res* res)
{
res=delete_bytes(res,0,14); /* skip bitmap file header*/
res->type=bmp;
return res;
}
gen_res *make_icon(gen_res* res)
{
res->type=ico;
return res;
}
gen_res *make_cursor(gen_res* res)
{
res->type=cur;
return res;
}
/* load resource bytes from the file name */
gen_res *load_file(char* name)
{
gen_res *res;
struct stat st;
int f=open(name,O_RDONLY);
if(f<0)
{
perror(name);
exit(1);
}
fstat(f,&st);
res=new_res();
while(res->space<st.st_size)res=grow(res);
read(f,res->res,st.st_size);
res->size=st.st_size;
close(f);
return res;
}
/* insert a normal menu item into res, starting from the last item */
gen_res *add_menuitem(char* name,int id,int flags,gen_res *res)
{
char item[4];
if(res->num_entries==0)flags|=MF_END;
put_WORD(item,flags);
put_WORD(item+2,id);
res=insert_string_at_beginning(res,name,1);
res=insert_bytes(res,item,0,4);
return res;
}
/* insert a popup item into res */
gen_res *add_popup(char *name,short flags, gen_res* body, gen_res*res)
{
char c_flags[2];
flags|=MF_POPUP;
if(res->num_entries==0)flags|=MF_END;
put_WORD(c_flags,flags);
res=insert_at_beginning(res,body->res,body->size);
res=insert_string(res,name,0,1);
res=insert_bytes(res,c_flags,0,2);
return res;
}
/* prefix the menu header into res */
gen_res *make_menu(gen_res* res)
{
static char header[4]={0,0,0,0};
res=insert_at_beginning(res,header,4);
res->type=men;
return res;
}
/* link top-level resources */
gen_res *add_resource(gen_res* first,gen_res *rest)
{
if(first)
{
first->next=rest;
return first;
}
else
return rest;
}
typedef struct str_tbl_elm{
int group;
struct str_tbl_elm *next;
char* strings[16];
} str_tbl_elm;
str_tbl_elm* string_table=NULL; /* sorted by group */
void add_str_tbl_elm(int id,char* str)
{
int group=(id>>4)+1;
int idx=id & 0x000f;
str_tbl_elm** elm=&string_table;
while(*elm && (*elm)->group<group) elm=&(*elm)->next;
if(!*elm || (*elm)->group!=group)
{
int i;
str_tbl_elm* new=xmalloc(sizeof(str_tbl_elm));
for(i=0; i<16; i++) new->strings[i] = NULL;
new->group=group;
new->next=*elm;
*elm=new;
}
(*elm)->strings[idx]=str;
}
gen_res* add_string_table(gen_res* t)
{
str_tbl_elm* ste;
int size,i;
gen_res* res;
unsigned char* p;
unsigned char* q;
if(!string_table) return t;
for(ste=string_table; ste; ste=ste->next)
{
for(size=0,i=0; i<16; i++)
size += (win32 ? 2 : 1) * (ste->strings[i] ? strlen(ste->strings[i])+1 : 1);
res=new_res();
while(res->space<size)res=grow(res);
res->type=str;
res->n.i_name=ste->group;
res->n_type=0;
res->size=size;
if (win32)
for(p=res->res,i=0; i<16; i++)
if((q=ste->strings[i])==NULL)
{
put_WORD(p, 0);
p+=2;
}
else
{
put_WORD(p, strlen(q));
p+=2;
while(*q)
{
put_WORD(p, *q++);
p+=2;
}
}
else
for(p=res->res,i=0; i<16; i++)
if((q=ste->strings[i])==NULL)
*p++ = 0;
else
{
*p++ = strlen(q);
while(*q) *p++ = *q++;
}
t=add_resource(res,t);
}
return t;
}
char *get_typename(gen_res* t)
{
switch(t->type){
case acc:return "ACCELERATOR";
case bmp:return "BITMAP";
case cur:return "CURSOR";
case dlg:return "DIALOG";
case fnt:return "FONT";
case ico:return "ICON";
case men:return "MENU";
case rdt:return "RCDATA";
case str:return "STRINGTABLE";
default: return "UNKNOWN";
}
}
/* create strings like _Sysres_DIALOG_2 */
char *get_resource_name(gen_res*it)
{
static char buf[1000];
if(it->n_type)
sprintf(buf,"%s_%s_%s",prefix,get_typename(it),it->n.s_name);
else
sprintf(buf,"%s_%s_%d",prefix,get_typename(it),it->n.i_name);
return buf;
}
#define ISCONSTANT (constant ? "const " : "")
/* create the final output */
void create_output(gen_res* top)
{
gen_res *it;
top=add_string_table(top);
/* Generate the header */
if (header)
{
fprintf( header,
"/*\n"
" * This file is automatically generated. Do not edit!\n"
" */\n\n"
"#ifndef __%s_H\n"
"#define __%s_H\n\n"
"struct resource;\n\n",
prefix, prefix );
/* Declare the resources */
for (it=top;it;it=it->next)
fprintf( header,"extern %sstruct resource %s;\n",
ISCONSTANT, get_resource_name(it) );
fprintf( header,"\nextern %sstruct resource * %s%s_Table[];\n\n",
ISCONSTANT, ISCONSTANT, prefix );
fprintf( header, "#endif /* __%s_H */\n", prefix );
}
/* Print the resources bytes */
fprintf( code, "/*\n"
" * This file is automatically generated. Do not edit!\n"
" */\n\n"
"struct resource {\n"
"\tint id;\n"
"\tint type;\n"
"\tconst char *name;\n"
"\tconst unsigned char* bytes;\n"
"\tunsigned size;\n"
"};\n\n" );
for(it=top;it;it=it->next)
{
int i;
fprintf( code, "static %sunsigned char %s__bytes[]%s = {\n",
ISCONSTANT, get_resource_name(it),
win32?"\n__attribute__ ((aligned (4)))":"");
for (i=0;i<it->size-1;i++)
{
fprintf(code,"0x%02x, ",it->res[i]);
if ((i&7)==7)fputc('\n',code);
}
fprintf(code,"0x%02x };\n\n",it->res[i]);
}
/* Print the resources names */
if (win32)
for(it=top;it;it=it->next)
{
int i;
char s_buffer[20], *s_name=s_buffer;
if(it->n_type) s_name=it->n.s_name;
else sprintf(s_name,"@%d",it->n.i_name);
fprintf( code, "static %sunsigned char %s__name[] = {\n",
ISCONSTANT, get_resource_name(it) );
for (i=0;*s_name;i++,s_name++)
{
fprintf(code,"0x%02x, 0x00, ",*s_name);
if ((i&3)==3)fputc('\n',code);
}
fprintf(code,"0x00, 0x00};\n\n");
}
/* Print the resources */
for (it=top;it;it=it->next)
{
int type;
switch(it->type)
{
case acc:type=(int)RT_ACCELERATOR16;break;
case bmp:type=(int)RT_BITMAP16;break;
case cur:type=(int)RT_CURSOR16;break;
case dlg:type=(int)RT_DIALOG16;break;
case fnt:type=(int)RT_FONT16;break;
case ico:type=(int)RT_ICON16;break;
case men:type=(int)RT_MENU16;break;
case rdt:type=(int)RT_RCDATA16;break;
case str:type=(int)RT_STRING16;break;
default:fprintf(stderr,"Unknown restype\n");type=-1;break;
}
if(win32)
{
if(it->n_type)
fprintf(code,"%sstruct resource %s = {0,%d,%s__name,%s__bytes,%d};\n",
ISCONSTANT, get_resource_name(it), type, get_resource_name(it),
get_resource_name(it), it->size );
else
fprintf(code,"%sstruct resource %s = {%d,%d,%s__name,%s__bytes,%d};\n",
ISCONSTANT, get_resource_name(it), it->n.i_name, type,
get_resource_name(it), get_resource_name(it), it->size );
}
else
{
if(it->n_type)
fprintf(code,"%sstruct resource %s = {0,%d,\"%s\",%s__bytes,%d};\n",
ISCONSTANT, get_resource_name(it), type, it->n.s_name,
get_resource_name(it), it->size );
else
fprintf(code,"%sstruct resource %s = {%d,%d,\"@%d\",%s__bytes,%d};\n",
ISCONSTANT, get_resource_name(it), it->n.i_name, type,
it->n.i_name, get_resource_name(it), it->size );
}
}
/* Print the resource table (NULL terminated) */
fprintf(code,"\n%sstruct resource * %s%s_Table[] = {\n",
ISCONSTANT, ISCONSTANT, prefix);
for (it=top;it;it=it->next)
fprintf( code, " &%s,\n", get_resource_name(it) );
fprintf( code, " 0\n};\n\n\n" );
/* Perform autoregistration */
fprintf( code,
"#ifndef __WINE__\n"
"#if defined(__GNUC__) && (__GNUC__ == 2) && (__GNUC_MINOR__ >= 7)\n"
"static void DoIt(void) __attribute__((constructor));\n"
"#else\n"
"static void DoIt(void);\n"
"void LIBWINE_Register_%s(void) { DoIt(); }\n"
"#endif\n"
"static void DoIt(void)\n"
"{\n"
"\textern void LIBRES_RegisterResources(const struct resource* const * Res);\n"
"\tLIBRES_RegisterResources(%s_Table);\n"
"}\n\n"
"#endif /* __WINE__ */\n"
,prefix,prefix);
}
gen_res* make_font(gen_res* res)
{
fprintf(stderr,"Fonts not supported\n");
return NULL;
}
gen_res* make_raw(gen_res* res)
{
fprintf(stderr,"RCData not supported\n");
return NULL;
}
gen_res* int_to_raw(int i,gen_res* res)
{
fprintf(stderr,"IntToRaw not supported\n");
return NULL;
}
/* translate "Hello,\\tworld!\\10" to "Hello,\tworld!\n" */
char *parse_c_string(char *in)
{
char *out=xmalloc(strlen(in)-1);
char *it;
char tmp[5],*tend;
for(it=out,in++;*in;in++)
if(*in=='\\')
switch(*++in)
{case 't':*it++='\t';break;
case 'r':*it++='\r';break;
case 'n':*it++='\n';break;
case 'a':*it++='\a';break;
case '0':
memset(tmp,0,5);/*make sure it doesn't use more than 4 chars*/
memcpy(tmp,in,4);
*it++=strtoul(tmp,&tend,0);
in+=tend-tmp-1;
break;
case '1':case '2':case '3':case '4':case '5':
case '6':case '7':case '8':case '9':
memset(tmp,0,5);
memcpy(tmp,in,3);
*it++=strtoul(tmp,&tend,10);
in+=tend-tmp-1;
break;
case 'x':
memset(tmp,0,5);
memcpy(tmp,++in,2);
*it++=strtoul(tmp,&tend,16);
in+=tend-tmp-1;
break;
default:*it++=*in;
}
else
*it++=*in;
*(it-1)='\0';
return out;
}