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goma / wine / 0aab81fa0cd412950fe1de0e2d0863264c2f8a26 / . / tools / wrc / newstruc.c
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/*
* Create dynamic new structures of various types
* and some utils in that trend.
*
* Copyright 1998 Bertho A. Stultiens
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*/
#include "config.h"
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <assert.h>
#include <ctype.h>
#include "wrc.h"
#include "newstruc.h"
#include "utils.h"
#include "parser.h"
#include "wingdi.h" /* for BITMAPINFOHEADER */
#include <pshpack2.h>
typedef struct
{
DWORD biSize;
WORD biWidth;
WORD biHeight;
WORD biPlanes;
WORD biBitCount;
} BITMAPOS2HEADER;
#include <poppack.h>
/* Generate new_* functions that have no parameters (NOTE: no ';') */
__NEW_STRUCT_FUNC(dialog)
__NEW_STRUCT_FUNC(dialogex)
__NEW_STRUCT_FUNC(name_id)
__NEW_STRUCT_FUNC(menu)
__NEW_STRUCT_FUNC(menuex)
__NEW_STRUCT_FUNC(menu_item)
__NEW_STRUCT_FUNC(menuex_item)
__NEW_STRUCT_FUNC(control)
__NEW_STRUCT_FUNC(icon)
__NEW_STRUCT_FUNC(cursor)
__NEW_STRUCT_FUNC(versioninfo)
__NEW_STRUCT_FUNC(ver_value)
__NEW_STRUCT_FUNC(ver_block)
__NEW_STRUCT_FUNC(stt_entry)
__NEW_STRUCT_FUNC(accelerator)
__NEW_STRUCT_FUNC(event)
__NEW_STRUCT_FUNC(raw_data)
__NEW_STRUCT_FUNC(lvc)
__NEW_STRUCT_FUNC(res_count)
__NEW_STRUCT_FUNC(string)
__NEW_STRUCT_FUNC(toolbar_item)
__NEW_STRUCT_FUNC(ani_any)
/* New instances for all types of structures */
/* Very inefficient (in size), but very functional :-]
* Especially for type-checking.
*/
resource_t *new_resource(enum res_e t, void *res, int memopt, language_t *lan)
{
resource_t *r = (resource_t *)xmalloc(sizeof(resource_t));
r->type = t;
r->res.overlay = res;
r->memopt = memopt;
r->lan = lan;
return r;
}
version_t *new_version(DWORD v)
{
version_t *vp = (version_t *)xmalloc(sizeof(version_t));
*vp = v;
return vp;
}
characts_t *new_characts(DWORD c)
{
characts_t *cp = (characts_t *)xmalloc(sizeof(characts_t));
*cp = c;
return cp;
}
language_t *new_language(int id, int sub)
{
language_t *lan = (language_t *)xmalloc(sizeof(language_t));
lan->id = id;
lan->sub = sub;
return lan;
}
language_t *dup_language(language_t *l)
{
if(!l) return NULL;
return new_language(l->id, l->sub);
}
version_t *dup_version(version_t *v)
{
if(!v) return NULL;
return new_version(*v);
}
characts_t *dup_characts(characts_t *c)
{
if(!c) return NULL;
return new_characts(*c);
}
rcdata_t *new_rcdata(raw_data_t *rd, int *memopt)
{
rcdata_t *rc = (rcdata_t *)xmalloc(sizeof(rcdata_t));
rc->data = rd;
if(memopt)
{
rc->memopt = *memopt;
free(memopt);
}
else
rc->memopt = WRC_MO_MOVEABLE | WRC_MO_PURE;
return rc;
}
font_id_t *new_font_id(int size, string_t *face, int weight, int italic)
{
font_id_t *fid = (font_id_t *)xmalloc(sizeof(font_id_t));
fid->name = face;
fid->size = size;
fid->weight = weight;
fid->italic = italic;
return fid;
}
user_t *new_user(name_id_t *type, raw_data_t *rd, int *memopt)
{
user_t *usr = (user_t *)xmalloc(sizeof(user_t));
usr->data = rd;
if(memopt)
{
usr->memopt = *memopt;
free(memopt);
}
else
usr->memopt = WRC_MO_MOVEABLE | WRC_MO_PURE;
usr->type = type;
return usr;
}
font_t *new_font(raw_data_t *rd, int *memopt)
{
font_t *fnt = (font_t *)xmalloc(sizeof(font_t));
fnt->data = rd;
if(memopt)
{
fnt->memopt = *memopt;
free(memopt);
}
else
fnt->memopt = WRC_MO_MOVEABLE | WRC_MO_DISCARDABLE;
return fnt;
}
fontdir_t *new_fontdir(raw_data_t *rd, int *memopt)
{
fontdir_t *fnd = (fontdir_t *)xmalloc(sizeof(fontdir_t));
fnd->data = rd;
if(memopt)
{
fnd->memopt = *memopt;
free(memopt);
}
else
fnd->memopt = WRC_MO_MOVEABLE | WRC_MO_DISCARDABLE;
return fnd;
}
/*
* Convert bitmaps to proper endian
*/
static void convert_bitmap_swap_v3(BITMAPINFOHEADER *bih)
{
bih->biSize = BYTESWAP_DWORD(bih->biSize);
bih->biWidth = BYTESWAP_DWORD(bih->biWidth);
bih->biHeight = BYTESWAP_DWORD(bih->biHeight);
bih->biPlanes = BYTESWAP_WORD(bih->biPlanes);
bih->biBitCount = BYTESWAP_WORD(bih->biBitCount);
bih->biCompression = BYTESWAP_DWORD(bih->biCompression);
bih->biSizeImage = BYTESWAP_DWORD(bih->biSizeImage);
bih->biXPelsPerMeter = BYTESWAP_DWORD(bih->biXPelsPerMeter);
bih->biYPelsPerMeter = BYTESWAP_DWORD(bih->biYPelsPerMeter);
bih->biClrUsed = BYTESWAP_DWORD(bih->biClrUsed);
bih->biClrImportant = BYTESWAP_DWORD(bih->biClrImportant);
}
static void convert_bitmap_swap_v4(BITMAPV4HEADER *b4h)
{
convert_bitmap_swap_v3((BITMAPINFOHEADER *)b4h);
b4h->bV4RedMask = BYTESWAP_DWORD(b4h->bV4RedMask);
b4h->bV4GreenMask = BYTESWAP_DWORD(b4h->bV4GreenMask);
b4h->bV4BlueMask = BYTESWAP_DWORD(b4h->bV4BlueMask);
b4h->bV4AlphaMask = BYTESWAP_DWORD(b4h->bV4AlphaMask);
b4h->bV4CSType = BYTESWAP_DWORD(b4h->bV4CSType);
b4h->bV4Endpoints.ciexyzRed.ciexyzX = BYTESWAP_DWORD(b4h->bV4Endpoints.ciexyzRed.ciexyzX);
b4h->bV4Endpoints.ciexyzRed.ciexyzY = BYTESWAP_DWORD(b4h->bV4Endpoints.ciexyzRed.ciexyzY);
b4h->bV4Endpoints.ciexyzRed.ciexyzZ = BYTESWAP_DWORD(b4h->bV4Endpoints.ciexyzRed.ciexyzZ);
b4h->bV4Endpoints.ciexyzGreen.ciexyzX = BYTESWAP_DWORD(b4h->bV4Endpoints.ciexyzGreen.ciexyzX);
b4h->bV4Endpoints.ciexyzGreen.ciexyzY = BYTESWAP_DWORD(b4h->bV4Endpoints.ciexyzGreen.ciexyzY);
b4h->bV4Endpoints.ciexyzGreen.ciexyzZ = BYTESWAP_DWORD(b4h->bV4Endpoints.ciexyzGreen.ciexyzZ);
b4h->bV4Endpoints.ciexyzBlue.ciexyzX = BYTESWAP_DWORD(b4h->bV4Endpoints.ciexyzBlue.ciexyzX);
b4h->bV4Endpoints.ciexyzBlue.ciexyzY = BYTESWAP_DWORD(b4h->bV4Endpoints.ciexyzBlue.ciexyzY);
b4h->bV4Endpoints.ciexyzBlue.ciexyzZ = BYTESWAP_DWORD(b4h->bV4Endpoints.ciexyzBlue.ciexyzZ);
b4h->bV4GammaRed = BYTESWAP_DWORD(b4h->bV4GammaRed);
b4h->bV4GammaGreen = BYTESWAP_DWORD(b4h->bV4GammaGreen);
b4h->bV4GammaBlue = BYTESWAP_DWORD(b4h->bV4GammaBlue);
}
static void convert_bitmap_swap_os2(BITMAPOS2HEADER *boh)
{
boh->biSize = BYTESWAP_DWORD(boh->biSize);
boh->biWidth = BYTESWAP_WORD(boh->biWidth);
boh->biHeight = BYTESWAP_WORD(boh->biHeight);
boh->biPlanes = BYTESWAP_WORD(boh->biPlanes);
boh->biBitCount = BYTESWAP_WORD(boh->biBitCount);
}
#define FL_SIGBE 0x01
#define FL_SIZEBE 0x02
#define FL_V4 0x04
#define FL_OS2 0x08
static int convert_bitmap(char *data, int size)
{
BITMAPINFOHEADER *bih = (BITMAPINFOHEADER *)data;
BITMAPV4HEADER *b4h = (BITMAPV4HEADER *)data;
BITMAPOS2HEADER *boh = (BITMAPOS2HEADER *)data;
int type = 0;
int returnSize = 0; /* size to be returned */
#ifdef WORDS_BIGENDIAN
DWORD bisizel = BYTESWAP_DWORD(sizeof(BITMAPINFOHEADER));
DWORD b4sizel = BYTESWAP_DWORD(sizeof(BITMAPV4HEADER));
DWORD bosizel = BYTESWAP_DWORD(sizeof(BITMAPOS2HEADER));
DWORD bisizeb = sizeof(BITMAPINFOHEADER);
DWORD b4sizeb = sizeof(BITMAPV4HEADER);
DWORD bosizeb = sizeof(BITMAPOS2HEADER);
#else
DWORD bisizel = sizeof(BITMAPINFOHEADER);
DWORD b4sizel = sizeof(BITMAPV4HEADER);
DWORD bosizel = sizeof(BITMAPOS2HEADER);
DWORD bisizeb = BYTESWAP_DWORD(sizeof(BITMAPINFOHEADER));
DWORD b4sizeb = BYTESWAP_DWORD(sizeof(BITMAPV4HEADER));
DWORD bosizeb = BYTESWAP_DWORD(sizeof(BITMAPOS2HEADER));
#endif
/*
* Originally the bih and b4h pointers were simply incremented here,
* and memmoved at the end of the function. This causes alignment
* issues on solaris, so we do the memmove here rather than at the end.
*/
if(data[0] == 'B' && data[1] == 'M')
{
/* Little endian signature */
memmove(data, data+sizeof(BITMAPFILEHEADER), size - sizeof(BITMAPFILEHEADER));
returnSize = sizeof(BITMAPFILEHEADER);
}
else if(data[0] == 'M' && data[1] == 'B')
{
type |= FL_SIGBE; /* Big endian signature */
memmove(data, data+sizeof(BITMAPFILEHEADER), size - sizeof(BITMAPFILEHEADER));
returnSize = sizeof(BITMAPFILEHEADER);
}
if(bih->biSize == bisizel)
{
/* Little endian */
}
else if(bih->biSize == bisizeb)
{
type |= FL_SIZEBE;
}
else if(bih->biSize == b4sizel)
{
type |= FL_V4;
}
else if(bih->biSize == b4sizeb)
{
type |= FL_SIZEBE | FL_V4;
}
else if(!bih->biSize || bih->biSize == bosizel)
{
type |= FL_OS2;
}
else if(bih->biSize == bosizeb)
{
type |= FL_SIZEBE | FL_OS2;
}
else
yyerror("Invalid bitmap format, bih->biSize = %ld", bih->biSize);
switch(type)
{
default:
break;
case FL_SIZEBE:
case FL_SIZEBE | FL_V4:
case FL_SIZEBE | FL_OS2:
yywarning("Bitmap v%c signature little-endian, but size big-endian", type & FL_V4 ? '4' : '3');
break;
case FL_SIGBE:
case FL_SIGBE | FL_V4:
case FL_SIGBE | FL_OS2:
yywarning("Bitmap v%c signature big-endian, but size little-endian", type & FL_V4 ? '4' : '3');
break;
}
switch(byteorder)
{
#ifdef WORDS_BIGENDIAN
default:
#endif
case WRC_BO_BIG:
if(!(type & FL_SIZEBE))
{
if(type & FL_V4)
convert_bitmap_swap_v4(b4h);
else if(type & FL_OS2)
{
convert_bitmap_swap_os2(boh);
}
else
convert_bitmap_swap_v3(bih);
}
break;
#ifndef WORDS_BIGENDIAN
default:
#endif
case WRC_BO_LITTLE:
if(type & FL_SIZEBE)
{
if(type & FL_V4)
convert_bitmap_swap_v4(b4h);
else if(type & FL_OS2)
{
convert_bitmap_swap_os2(boh);
}
else
convert_bitmap_swap_v3(bih);
}
break;
}
if(size && (void *)data != (void *)bih)
{
/* We have the fileheader still attached, remove it */
memmove(data, data+sizeof(BITMAPFILEHEADER), size - sizeof(BITMAPFILEHEADER));
return sizeof(BITMAPFILEHEADER);
}
return returnSize;
}
#undef FL_SIGBE
#undef FL_SIZEBE
#undef FL_V4
/*
* Cursor and icon splitter functions used when allocating
* cursor- and icon-groups.
*/
typedef struct {
language_t lan;
int id;
} id_alloc_t;
static int get_new_id(id_alloc_t **list, int *n, language_t *lan)
{
int i;
assert(lan != NULL);
assert(list != NULL);
assert(n != NULL);
if(!*list)
{
*list = (id_alloc_t *)xmalloc(sizeof(id_alloc_t));
*n = 1;
(*list)[0].lan = *lan;
(*list)[0].id = 1;
return 1;
}
for(i = 0; i < *n; i++)
{
if((*list)[i].lan.id == lan->id && (*list)[i].lan.sub == lan->sub)
return ++((*list)[i].id);
}
*list = (id_alloc_t *)xrealloc(*list, sizeof(id_alloc_t) * (*n+1));
(*list)[*n].lan = *lan;
(*list)[*n].id = 1;
*n += 1;
return 1;
}
static int alloc_icon_id(language_t *lan)
{
static id_alloc_t *idlist = NULL;
static int nid = 0;
return get_new_id(&idlist, &nid, lan);
}
static int alloc_cursor_id(language_t *lan)
{
static id_alloc_t *idlist = NULL;
static int nid = 0;
return get_new_id(&idlist, &nid, lan);
}
static void split_icons(raw_data_t *rd, icon_group_t *icog, int *nico)
{
int cnt;
int i;
icon_t *ico;
icon_t *list = NULL;
icon_header_t *ih = (icon_header_t *)rd->data;
int swap = 0;
if(ih->type == 1)
swap = 0;
else if(BYTESWAP_WORD(ih->type) == 1)
swap = 1;
else
yyerror("Icon resource data has invalid type id %d", ih->type);
cnt = swap ? BYTESWAP_WORD(ih->count) : ih->count;
for(i = 0; i < cnt; i++)
{
icon_dir_entry_t ide;
BITMAPINFOHEADER info;
memcpy(&ide, rd->data + sizeof(icon_header_t)
+ i*sizeof(icon_dir_entry_t), sizeof(ide));
ico = new_icon();
ico->id = alloc_icon_id(icog->lvc.language);
ico->lvc = icog->lvc;
if(swap)
{
ide.offset = BYTESWAP_DWORD(ide.offset);
ide.ressize= BYTESWAP_DWORD(ide.ressize);
}
if(ide.offset > rd->size
|| ide.offset + ide.ressize > rd->size)
yyerror("Icon resource data corrupt");
ico->width = ide.width;
ico->height = ide.height;
ico->nclr = ide.nclr;
ico->planes = swap ? BYTESWAP_WORD(ide.planes) : ide.planes;
ico->bits = swap ? BYTESWAP_WORD(ide.bits) : ide.bits;
memcpy(&info, rd->data + ide.offset, sizeof(info));
convert_bitmap((char *) &info, 0);
memcpy(rd->data + ide.offset, &info, sizeof(info));
if(!ico->planes)
{
/* Argh! They did not fill out the resdir structure */
/* The bitmap is in destination byteorder. We want native for our structures */
switch(byteorder)
{
#ifdef WORDS_BIGENDIAN
case WRC_BO_LITTLE:
#else
case WRC_BO_BIG:
#endif
ico->planes = BYTESWAP_WORD(info.biPlanes);
break;
default:
ico->planes = info.biPlanes;
}
}
if(!ico->bits)
{
/* Argh! They did not fill out the resdir structure */
/* The bitmap is in destination byteorder. We want native for our structures */
switch(byteorder)
{
#ifdef WORDS_BIGENDIAN
case WRC_BO_LITTLE:
#else
case WRC_BO_BIG:
#endif
ico->bits = BYTESWAP_WORD(info.biBitCount);
break;
default:
ico->bits = info.biBitCount;
}
}
ico->data = new_raw_data();
copy_raw_data(ico->data, rd, ide.offset, ide.ressize);
if(!list)
{
list = ico;
}
else
{
ico->next = list;
list->prev = ico;
list = ico;
}
}
icog->iconlist = list;
*nico = cnt;
}
static void split_cursors(raw_data_t *rd, cursor_group_t *curg, int *ncur)
{
int cnt;
int i;
cursor_t *cur;
cursor_t *list = NULL;
cursor_header_t *ch = (cursor_header_t *)rd->data;
int swap = 0;
if(ch->type == 2)
swap = 0;
else if(BYTESWAP_WORD(ch->type) == 2)
swap = 1;
else
yyerror("Cursor resource data has invalid type id %d", ch->type);
cnt = swap ? BYTESWAP_WORD(ch->count) : ch->count;
for(i = 0; i < cnt; i++)
{
cursor_dir_entry_t cde;
BITMAPINFOHEADER info;
memcpy(&cde, rd->data + sizeof(cursor_header_t)
+ i*sizeof(cursor_dir_entry_t), sizeof(cde));
cur = new_cursor();
cur->id = alloc_cursor_id(curg->lvc.language);
cur->lvc = curg->lvc;
if(swap)
{
cde.offset = BYTESWAP_DWORD(cde.offset);
cde.ressize= BYTESWAP_DWORD(cde.ressize);
}
if(cde.offset > rd->size
|| cde.offset + cde.ressize > rd->size)
yyerror("Cursor resource data corrupt");
cur->width = cde.width;
cur->height = cde.height;
cur->nclr = cde.nclr;
memcpy(&info, rd->data + cde.offset, sizeof(info));
convert_bitmap((char *)&info, 0);
memcpy(rd->data + cde.offset, &info, sizeof(info));
/* The bitmap is in destination byteorder. We want native for our structures */
switch(byteorder)
{
#ifdef WORDS_BIGENDIAN
case WRC_BO_LITTLE:
#else
case WRC_BO_BIG:
#endif
cur->planes = BYTESWAP_WORD(info.biPlanes);
cur->bits = BYTESWAP_WORD(info.biBitCount);
break;
default:
cur->planes = info.biPlanes;
cur->bits = info.biBitCount;
}
if(!win32 && (cur->planes != 1 || cur->bits != 1))
yywarning("Win16 cursor contains colors");
cur->xhot = swap ? BYTESWAP_WORD(cde.xhot) : cde.xhot;
cur->yhot = swap ? BYTESWAP_WORD(cde.yhot) : cde.yhot;
cur->data = new_raw_data();
copy_raw_data(cur->data, rd, cde.offset, cde.ressize);
if(!list)
{
list = cur;
}
else
{
cur->next = list;
list->prev = cur;
list = cur;
}
}
curg->cursorlist = list;
*ncur = cnt;
}
icon_group_t *new_icon_group(raw_data_t *rd, int *memopt)
{
icon_group_t *icog = (icon_group_t *)xmalloc(sizeof(icon_group_t));
if(memopt)
{
icog->memopt = *memopt;
free(memopt);
}
else
icog->memopt = WRC_MO_MOVEABLE | WRC_MO_PURE | WRC_MO_DISCARDABLE;
icog->lvc = rd->lvc;
split_icons(rd, icog, &(icog->nicon));
free(rd->data);
free(rd);
return icog;
}
cursor_group_t *new_cursor_group(raw_data_t *rd, int *memopt)
{
cursor_group_t *curg = (cursor_group_t *)xmalloc(sizeof(cursor_group_t));
if(memopt)
{
curg->memopt = *memopt;
free(memopt);
}
else
curg->memopt = WRC_MO_MOVEABLE | WRC_MO_PURE | WRC_MO_DISCARDABLE;
curg->lvc = rd->lvc;
split_cursors(rd, curg, &(curg->ncursor));
free(rd->data);
free(rd);
return curg;
}
/*
* Animated cursors and icons
*
* The format of animated cursors and icons is yet another example
* of bad design by "The Company". The entire RIFF structure is
* flawed by design because it is inconsistent and single minded:
* - some tags have lengths attached, others don't. The use of these
* non-length tags is absolutely unclear;
* - the content of "icon" tags can be both icons and cursors;
* - tags lack proper alignment constraints. It seems that everything
* is 16bit aligned, but I could not find that in any docu. Just be
* prepared to eat anything;
* - there are no strict constraints on tag-nesting and the organization
* is highly illogical;
*
* Anyhow, here is the basic structure:
* "RIFF" { dword taglength }
* "ACON" // What does it do?
* "LIST" { dword taglength }
* "INFO" // And what does this do?
* "INAM" { dword taglength } // Icon/cursor name
* {inam data}
* "IART" { dword taglength } // The artist
* {iart data}
* "fram" // Is followed by "icon"s
* "icon" { dword taglength } // First frame
* { icon/cursor data }
* "icon" { dword taglength } // Second frame
* { icon/cursor data }
* ... // ...
* "anih" { dword taglength } // Header structure
* { aniheader_t structure }
* "rate" { dword taglength } // The rate for each frame
* { `steps' dwords }
* "seq " { dword taglength } // The frame blit-order
* { `steps' dwords }
*
* Tag length are bytelength without the header and length field (i.e. -8).
* The "LIST" tag may occur several times and may encapsulate different
* tags. The `steps' is the number of "icon" tags found (actually the
* number of steps specified in the aniheader_t structure). The "seq "uence
* tag can be ommitted, in which case the sequence is equal to the sequence
* of "icon"s found in the file. Also "rate" may be ommitted, in which case
* the default from the aniheader_t structure is used.
*
* An animated cursor puts `.cur' formatted files into each "icon" tag,
* whereas animated icons contain `.ico' formatted files.
*
* Note about the code: Yes, it can be shorter/compressed. Some tags can be
* dealt with in the same code. However, this version shows what is going on
* and is better debug-able.
*/
static const char riff[4] = "RIFF";
static const char acon[4] = "ACON";
static const char list[4] = "LIST";
static const char info[4] = "INFO";
static const char inam[4] = "INAM";
static const char iart[4] = "IART";
static const char fram[4] = "fram";
static const char icon[4] = "icon";
static const char anih[4] = "anih";
static const char rate[4] = "rate";
static const char seq[4] = "seq ";
#define NEXT_TAG(p) ((riff_tag_t *)(((char *)p) + (isswapped ? BYTESWAP_DWORD(p->size) : p->size) + sizeof(*p)))
static void handle_ani_icon(riff_tag_t *rtp, enum res_e type, int isswapped)
{
cursor_dir_entry_t *cdp;
cursor_header_t *chp;
int count;
int ctype;
int i;
static int once = 0; /* This will trigger only once per file! */
const char *anistr = type == res_aniico ? "icon" : "cursor";
/* Notes:
* Both cursor and icon directories are similar
* Both cursor and icon headers are similar
*/
chp = (cursor_header_t *)(rtp+1);
cdp = (cursor_dir_entry_t *)(chp+1);
count = isswapped ? BYTESWAP_WORD(chp->count) : chp->count;
ctype = isswapped ? BYTESWAP_WORD(chp->type) : chp->type;
chp->reserved = BYTESWAP_WORD(chp->reserved);
chp->type = BYTESWAP_WORD(chp->type);
chp->count = BYTESWAP_WORD(chp->count);
if(type == res_anicur && ctype != 2 && !once)
{
yywarning("Animated cursor contains invalid \"icon\" tag cursor-file (%d->%s)",
ctype,
ctype == 1 ? "icontype" : "?");
once++;
}
else if(type == res_aniico && ctype != 1 && !once)
{
yywarning("Animated icon contains invalid \"icon\" tag icon-file (%d->%s)",
ctype,
ctype == 2 ? "cursortype" : "?");
once++;
}
else if(ctype != 1 && ctype != 2 && !once)
{
yywarning("Animated %s contains invalid \"icon\" tag file-type (%d; neither icon nor cursor)", anistr, ctype);
once++;
}
for(i = 0; i < count; i++)
{
DWORD ofs = isswapped ? BYTESWAP_DWORD(cdp[i].offset) : cdp[i].offset;
DWORD sze = isswapped ? BYTESWAP_DWORD(cdp[i].ressize) : cdp[i].ressize;
if(ofs > rtp->size || ofs+sze > rtp->size)
yyerror("Animated %s's data corrupt", anistr);
convert_bitmap((char *)chp + ofs, 0);
cdp[i].xhot = BYTESWAP_WORD(cdp->xhot);
cdp[i].yhot = BYTESWAP_WORD(cdp->yhot);
cdp[i].ressize = BYTESWAP_DWORD(cdp->ressize);
cdp[i].offset = BYTESWAP_DWORD(cdp->offset);
}
}
static void handle_ani_list(riff_tag_t *lst, enum res_e type, int isswapped)
{
riff_tag_t *rtp = lst+1; /* Skip the "LIST" tag */
while((char *)rtp < (char *)lst + lst->size + sizeof(*lst))
{
if(!memcmp(rtp->tag, info, sizeof(info)))
{
rtp = (riff_tag_t *)(((char *)rtp) + 4);
}
else if(!memcmp(rtp->tag, inam, sizeof(inam)))
{
/* Ignore the icon/cursor name; its a string */
rtp = NEXT_TAG(rtp);
}
else if(!memcmp(rtp->tag, iart, sizeof(iart)))
{
/* Ignore the author's name; its a string */
rtp = NEXT_TAG(rtp);
}
else if(!memcmp(rtp->tag, fram, sizeof(fram)))
{
/* This should be followed by "icon"s, but we
* simply ignore this because it is pure
* non-information.
*/
rtp = (riff_tag_t *)(((char *)rtp) + 4);
}
else if(!memcmp(rtp->tag, icon, sizeof(icon)))
{
handle_ani_icon(rtp, type, isswapped);
rtp = NEXT_TAG(rtp);
}
else
internal_error(__FILE__, __LINE__, "Unknown tag \"%c%c%c%c\" in RIFF file",
isprint(rtp->tag[0]) ? rtp->tag[0] : '.',
isprint(rtp->tag[1]) ? rtp->tag[1] : '.',
isprint(rtp->tag[2]) ? rtp->tag[2] : '.',
isprint(rtp->tag[3]) ? rtp->tag[3] : '.');
/* FIXME: This relies in sizeof(DWORD) == sizeof(pointer_type) */
if((DWORD)rtp & 1)
((char *)rtp)++;
}
}
ani_curico_t *new_ani_curico(enum res_e type, raw_data_t *rd, int *memopt)
{
ani_curico_t *ani = (ani_curico_t *)xmalloc(sizeof(ani_curico_t));
riff_tag_t *rtp;
int isswapped = 0;
int doswap;
const char *anistr = type == res_aniico ? "icon" : "cursor";
assert(!memcmp(rd->data, riff, sizeof(riff)));
assert(type == res_anicur || type == res_aniico);
rtp = (riff_tag_t *)rd->data;
if(BYTESWAP_DWORD(rtp->size) + 2*sizeof(DWORD) == rd->size)
isswapped = 1;
else if(rtp->size + 2*sizeof(DWORD) == rd->size)
isswapped = 0;
else
yyerror("Animated %s has an invalid RIFF length", anistr);
switch(byteorder)
{
#ifdef WORDS_BIGENDIAN
case WRC_BO_LITTLE:
#else
case WRC_BO_BIG:
#endif
doswap = !isswapped;
break;
default:
doswap = isswapped;
}
/*
* When to swap what:
* isswapped | doswap |
* ----------+--------+---------------------------------
* 0 | 0 | read native; don't convert
* 1 | 0 | read swapped size; don't convert
* 0 | 1 | read native; convert
* 1 | 1 | read swapped size; convert
* Reading swapped size if necessary to calculate in native
* format. E.g. a little-endian source on a big-endian
* processor.
*/
if(doswap)
{
/* We only go through the RIFF file if we need to swap
* bytes in words/dwords. Else we couldn't care less
* what the file contains. This is consistent with
* MS' rc.exe, which doesn't complain at all, eventhough
* the fileformat might not be entirely correct.
*/
rtp++; /* Skip the "RIFF" tag */
while((char *)rtp < (char *)rd->data + rd->size)
{
if(!memcmp(rtp->tag, acon, sizeof(acon)))
{
rtp = (riff_tag_t *)(((char *)rtp) + 4);
}
else if(!memcmp(rtp->tag, list, sizeof(list)))
{
handle_ani_list(rtp, type, isswapped);
rtp = NEXT_TAG(rtp);
}
else if(!memcmp(rtp->tag, anih, sizeof(anih)))
{
aniheader_t *ahp = (aniheader_t *)((char *)(rtp+1));
ahp->structsize = BYTESWAP_DWORD(ahp->structsize);
ahp->frames = BYTESWAP_DWORD(ahp->frames);
ahp->steps = BYTESWAP_DWORD(ahp->steps);
ahp->cx = BYTESWAP_DWORD(ahp->cx);
ahp->cy = BYTESWAP_DWORD(ahp->cy);
ahp->bitcount = BYTESWAP_DWORD(ahp->bitcount);
ahp->planes = BYTESWAP_DWORD(ahp->planes);
ahp->rate = BYTESWAP_DWORD(ahp->rate);
ahp->flags = BYTESWAP_DWORD(ahp->flags);
rtp = NEXT_TAG(rtp);
}
else if(!memcmp(rtp->tag, rate, sizeof(rate)))
{
int cnt = rtp->size / sizeof(DWORD);
DWORD *dwp = (DWORD *)(rtp+1);
int i;
for(i = 0; i < cnt; i++)
dwp[i] = BYTESWAP_DWORD(dwp[i]);
rtp = NEXT_TAG(rtp);
}
else if(!memcmp(rtp->tag, seq, sizeof(seq)))
{
int cnt = rtp->size / sizeof(DWORD);
DWORD *dwp = (DWORD *)(rtp+1);
int i;
for(i = 0; i < cnt; i++)
dwp[i] = BYTESWAP_DWORD(dwp[i]);
rtp = NEXT_TAG(rtp);
}
else
internal_error(__FILE__, __LINE__, "Unknown tag \"%c%c%c%c\" in RIFF file",
isprint(rtp->tag[0]) ? rtp->tag[0] : '.',
isprint(rtp->tag[1]) ? rtp->tag[1] : '.',
isprint(rtp->tag[2]) ? rtp->tag[2] : '.',
isprint(rtp->tag[3]) ? rtp->tag[3] : '.');
/* FIXME: This relies in sizeof(DWORD) == sizeof(pointer_type) */
if((DWORD)rtp & 1)
((char *)rtp)++;
}
/* We must end correctly here */
if((char *)rtp != (char *)rd->data + rd->size)
yyerror("Animated %s contains invalid field size(s)", anistr);
}
ani->data = rd;
if(memopt)
{
ani->memopt = *memopt;
free(memopt);
}
else
ani->memopt = WRC_MO_MOVEABLE | WRC_MO_DISCARDABLE;
return ani;
}
#undef NEXT_TAG
/* Bitmaps */
bitmap_t *new_bitmap(raw_data_t *rd, int *memopt)
{
bitmap_t *bmp = (bitmap_t *)xmalloc(sizeof(bitmap_t));
bmp->data = rd;
if(memopt)
{
bmp->memopt = *memopt;
free(memopt);
}
else
bmp->memopt = WRC_MO_MOVEABLE | WRC_MO_PURE;
rd->size -= convert_bitmap(rd->data, rd->size);
return bmp;
}
ver_words_t *new_ver_words(int i)
{
ver_words_t *w = (ver_words_t *)xmalloc(sizeof(ver_words_t));
w->words = (WORD *)xmalloc(sizeof(WORD));
w->words[0] = (WORD)i;
w->nwords = 1;
return w;
}
ver_words_t *add_ver_words(ver_words_t *w, int i)
{
w->words = (WORD *)xrealloc(w->words, (w->nwords+1) * sizeof(WORD));
w->words[w->nwords] = (WORD)i;
w->nwords++;
return w;
}
#define MSGTAB_BAD_PTR(p, b, l, r) (((l) - ((char *)(p) - (char *)(b))) > (r))
messagetable_t *new_messagetable(raw_data_t *rd, int *memopt)
{
messagetable_t *msg = (messagetable_t *)xmalloc(sizeof(messagetable_t));
msgtab_block_t *mbp;
DWORD nblk;
DWORD i;
WORD lo;
WORD hi;
msg->data = rd;
if(memopt)
{
msg->memopt = *memopt;
free(memopt);
}
else
msg->memopt = WRC_MO_MOVEABLE | WRC_MO_PURE;
if(rd->size < sizeof(DWORD))
yyerror("Invalid messagetable, size too small");
nblk = *(DWORD *)rd->data;
lo = WRC_LOWORD(nblk);
hi = WRC_HIWORD(nblk);
/* FIXME:
* This test will fail for all n*2^16 blocks in the messagetable.
* However, no sane person would want to have so many blocks
* and have a table of megabytes attached.
* So, I will assume that we have less than 2^16 blocks in the table
* and all will just work out fine. Otherwise, we would need to test
* the ID, offset and length (and flag) fields to be very sure.
*/
if(hi && lo)
internal_error(__FILE__, __LINE__, "Messagetable contains more than 65535 blocks; cannot determine endian");
if(!hi && !lo)
yyerror("Invalid messagetable block count 0");
if(!hi && lo) /* Messagetable byteorder == native byteorder */
{
#ifdef WORDS_BIGENDIAN
if(byteorder != WRC_BO_LITTLE) goto out;
#else
if(byteorder != WRC_BO_BIG) goto out;
#endif
/* Resource byteorder != native byteorder */
mbp = (msgtab_block_t *)&(((DWORD *)rd->data)[1]);
if(MSGTAB_BAD_PTR(mbp, rd->data, rd->size, nblk * sizeof(*mbp)))
yyerror("Messagetable's blocks are outside of defined data");
for(i = 0; i < nblk; i++)
{
msgtab_entry_t *mep, *next_mep;
DWORD id;
mep = (msgtab_entry_t *)(((char *)rd->data) + mbp[i].offset);
for(id = mbp[i].idlo; id <= mbp[i].idhi; id++)
{
if(MSGTAB_BAD_PTR(mep, rd->data, rd->size, mep->length))
yyerror("Messagetable's data for block %d, ID 0x%08lx is outside of defined data", (int)i, id);
if(mep->flags == 1) /* Docu says 'flags == 0x0001' for unicode */
{
WORD *wp = (WORD *)&mep[1];
int l = mep->length/2 - 2; /* Length included header */
int n;
if(mep->length & 1)
yyerror("Message 0x%08lx is unicode (block %d), but has odd length (%d)", id, (int)i, mep->length);
for(n = 0; n < l; n++)
wp[n] = BYTESWAP_WORD(wp[n]);
}
next_mep = (msgtab_entry_t *)(((char *)mep) + mep->length);
mep->length = BYTESWAP_WORD(mep->length);
mep->flags = BYTESWAP_WORD(mep->flags);
mep = next_mep;
}
mbp[i].idlo = BYTESWAP_DWORD(mbp[i].idlo);
mbp[i].idhi = BYTESWAP_DWORD(mbp[i].idhi);
mbp[i].offset = BYTESWAP_DWORD(mbp[i].offset);
}
}
if(hi && !lo) /* Messagetable byteorder != native byteorder */
{
#ifdef WORDS_BIGENDIAN
if(byteorder == WRC_BO_LITTLE) goto out;
#else
if(byteorder == WRC_BO_BIG) goto out;
#endif
/* Resource byteorder == native byteorder */
mbp = (msgtab_block_t *)&(((DWORD *)rd->data)[1]);
nblk = BYTESWAP_DWORD(nblk);
if(MSGTAB_BAD_PTR(mbp, rd->data, rd->size, nblk * sizeof(*mbp)))
yyerror("Messagetable's blocks are outside of defined data");
for(i = 0; i < nblk; i++)
{
msgtab_entry_t *mep;
DWORD id;
mbp[i].idlo = BYTESWAP_DWORD(mbp[i].idlo);
mbp[i].idhi = BYTESWAP_DWORD(mbp[i].idhi);
mbp[i].offset = BYTESWAP_DWORD(mbp[i].offset);
mep = (msgtab_entry_t *)(((char *)rd->data) + mbp[i].offset);
for(id = mbp[i].idlo; id <= mbp[i].idhi; id++)
{
mep->length = BYTESWAP_WORD(mep->length);
mep->flags = BYTESWAP_WORD(mep->flags);
if(MSGTAB_BAD_PTR(mep, rd->data, rd->size, mep->length))
yyerror("Messagetable's data for block %d, ID 0x%08lx is outside of defined data", (int)i, id);
if(mep->flags == 1) /* Docu says 'flags == 0x0001' for unicode */
{
WORD *wp = (WORD *)&mep[1];
int l = mep->length/2 - 2; /* Length included header */
int n;
if(mep->length & 1)
yyerror("Message 0x%08lx is unicode (block %d), but has odd length (%d)", id, (int)i, mep->length);
for(n = 0; n < l; n++)
wp[n] = BYTESWAP_WORD(wp[n]);
}
mep = (msgtab_entry_t *)(((char *)mep) + mep->length);
}
}
}
out:
return msg;
}
#undef MSGTAB_BAD_PTR
void copy_raw_data(raw_data_t *dst, raw_data_t *src, unsigned int offs, int len)
{
assert(offs <= src->size);
assert(offs + len <= src->size);
if(!dst->data)
{
dst->data = (char *)xmalloc(len);
dst->size = 0;
}
else
dst->data = (char *)xrealloc(dst->data, dst->size + len);
/* dst->size holds the offset to copy to */
memcpy(dst->data + dst->size, src->data + offs, len);
dst->size += len;
}
int *new_int(int i)
{
int *ip = (int *)xmalloc(sizeof(int));
*ip = i;
return ip;
}
stringtable_t *new_stringtable(lvc_t *lvc)
{
stringtable_t *stt = (stringtable_t *)xmalloc(sizeof(stringtable_t));
if(lvc)
stt->lvc = *lvc;
return stt;
}
toolbar_t *new_toolbar(int button_width, int button_height, toolbar_item_t *items, int nitems)
{
toolbar_t *tb = (toolbar_t *)xmalloc(sizeof(toolbar_t));
tb->button_width = button_width;
tb->button_height = button_height;
tb->nitems = nitems;
tb->items = items;
return tb;
}
dlginit_t *new_dlginit(raw_data_t *rd, int *memopt)
{
dlginit_t *di = (dlginit_t *)xmalloc(sizeof(dlginit_t));
di->data = rd;
if(memopt)
{
di->memopt = *memopt;
free(memopt);
}
else
di->memopt = WRC_MO_MOVEABLE | WRC_MO_PURE | WRC_MO_DISCARDABLE;
return di;
}
style_pair_t *new_style_pair(style_t *style, style_t *exstyle)
{
style_pair_t *sp = (style_pair_t *)xmalloc(sizeof(style_pair_t));
sp->style = style;
sp->exstyle = exstyle;
return sp;
}
style_t *new_style(DWORD or_mask, DWORD and_mask)
{
style_t *st = (style_t *)xmalloc(sizeof(style_t));
st->or_mask = or_mask;
st->and_mask = and_mask;
return st;
}