/* * Generate .res format from a resource-tree * * 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., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA * * History: * 05-May-2000 BS - Added code to support endian conversions. The * extra functions also aid unaligned access, but * this is not yet implemented. * 25-May-1998 BS - Added simple unicode -> char conversion for resource * names in .s and .h files. */ #include "config.h" #include #include #include #include #include #include #include "../tools.h" #include "wrc.h" #include "genres.h" #include "utils.h" #include "windef.h" #include "winbase.h" #include "wingdi.h" #include "winuser.h" res_t *new_res(void) { res_t *r; r = xmalloc(sizeof(res_t)); r->allocsize = RES_BLOCKSIZE; r->size = 0; r->dataidx = 0; r->data = xmalloc(RES_BLOCKSIZE); return r; } res_t *grow_res(res_t *r, unsigned int add) { r->allocsize += add; r->data = xrealloc(r->data, r->allocsize); return r; } /* ***************************************************************************** * Function : put_byte * put_word * put_dword * Syntax : void put_byte(res_t *res, unsigned c) * void put_word(res_t *res, unsigned w) * void put_dword(res_t *res, unsigned d) * Input : * res - Binary resource to put the data in * c, w, d - Data to put * Output : nop * Description : Put primitives that put an item in the binary resource. * The data array grows automatically. * Remarks : ***************************************************************************** */ void put_byte(res_t *res, unsigned c) { if(res->allocsize - res->size < sizeof(char)) grow_res(res, RES_BLOCKSIZE); res->data[res->size] = (char)c; res->size += sizeof(char); } void put_word(res_t *res, unsigned w) { if(res->allocsize - res->size < sizeof(WORD)) grow_res(res, RES_BLOCKSIZE); res->data[res->size+0] = w; res->data[res->size+1] = w >> 8; res->size += sizeof(WORD); } void put_dword(res_t *res, unsigned d) { if(res->allocsize - res->size < sizeof(DWORD)) grow_res(res, RES_BLOCKSIZE); res->data[res->size+0] = d; res->data[res->size+1] = d >> 8; res->data[res->size+2] = d >> 16; res->data[res->size+3] = d >> 24; res->size += sizeof(DWORD); } static void put_pad(res_t *res) { while(res->size & 0x3) put_byte(res, 0); } /* ***************************************************************************** * Function : set_word * set_dword * Syntax : void set_word(res_t *res, int ofs, unsigned w) * void set_dword(res_t *res, int ofs, unsigned d) * Input : * res - Binary resource to put the data in * ofs - Byte offset in data-array * w, d - Data to put * Output : nop * Description : Set the value of a binary resource data array to a * specific value. * Remarks : ***************************************************************************** */ static void set_word(res_t *res, int ofs, unsigned w) { res->data[ofs+0] = w; res->data[ofs+1] = w >> 8; } static void set_dword(res_t *res, int ofs, unsigned d) { res->data[ofs+0] = d; res->data[ofs+1] = d >> 8; res->data[ofs+2] = d >> 16; res->data[ofs+3] = d >> 24; } /* ***************************************************************************** * Function : get_dword * Input : * res - Binary resource to put the data in * ofs - Byte offset in data-array * Output : The data in native endian * Description : Get the value of a binary resource data array in native * endian. * Remarks : ***************************************************************************** */ static DWORD get_dword(res_t *res, int ofs) { return (res->data[ofs+3] << 24) | (res->data[ofs+2] << 16) | (res->data[ofs+1] << 8) | res->data[ofs+0]; } static res_t *end_res(res_t *res, int ofs) { set_dword( res, ofs, res->size - get_dword( res, ofs )); if (win32) put_pad( res ); return res; } /* ***************************************************************************** * Function : string_to_upper * Syntax : void string_to_upper(string_t *str) * Input : * Output : * Description : * Remarks : FIXME: codepages... ***************************************************************************** */ static void string_to_upper(string_t *str) { int i; switch (str->type) { case str_char: for (i = 0; i < str->size; i++) if (str->str.cstr[i] >= 'a' && str->str.cstr[i] <= 'z') str->str.cstr[i] -= 32; break; case str_unicode: for (i = 0; i < str->size; i++) if (str->str.wstr[i] >= 'a' && str->str.wstr[i] <= 'z') str->str.wstr[i] -= 32; break; } } static int parse_accel_string( const string_t *key, int flags ) { int keycode = 0; switch (key->type) { case str_char: if (key->str.cstr[0] == '#') return 0; /* ignore message contexts */ if((flags & WRC_AF_VIRTKEY) && !((key->str.cstr[0] >= 'A' && key->str.cstr[0] <= 'Z') || (key->str.cstr[0] >= '0' && key->str.cstr[0] <= '9'))) { print_location( &key->loc ); error("VIRTKEY code is not equal to ascii value\n"); } if(key->str.cstr[0] == '^' && (flags & WRC_AF_CONTROL) != 0) { print_location( &key->loc ); error("Cannot use both '^' and CONTROL modifier\n"); } else if(key->str.cstr[0] == '^') { if (key->str.cstr[1] >= 'a' && key->str.cstr[1] <= 'z') keycode = key->str.cstr[1] - 'a' + 1; else if (key->str.cstr[1] >= 'A' && key->str.cstr[1] <= 'Z') keycode = key->str.cstr[1] - 'A' + 1; else { print_location( &key->loc ); error("Control-code out of range\n"); } } else keycode = key->str.cstr[0]; break; case str_unicode: if (key->str.wstr[0] == '#') return 0; /* ignore message contexts */ if((flags & WRC_AF_VIRTKEY) && !((key->str.wstr[0] >= 'A' && key->str.wstr[0] <= 'Z') || (key->str.wstr[0] >= '0' && key->str.wstr[0] <= '9'))) { print_location( &key->loc ); error("VIRTKEY code is not equal to ascii value\n"); } if(key->str.wstr[0] == '^' && (flags & WRC_AF_CONTROL) != 0) { print_location( &key->loc ); error("Cannot use both '^' and CONTROL modifier\n"); } else if(key->str.wstr[0] == '^') { if (key->str.wstr[1] >= 'a' && key->str.wstr[1] <= 'z') keycode = key->str.wstr[1] - 'a' + 1; else if (key->str.wstr[1] >= 'A' && key->str.wstr[1] <= 'Z') keycode = key->str.wstr[1] - 'A' + 1; else { print_location( &key->loc ); error("Control-code out of range\n"); } } else keycode = key->str.wstr[0]; break; } return keycode; } /* ***************************************************************************** * Function : put_string * Input : * res - Binary resource to put the data in * str - String to put * isterm - The string is '\0' terminated (disregard the string's * size member) ***************************************************************************** */ static void put_string(res_t *res, const string_t *str, int isterm, const language_t *lang) { int cnt, codepage; if (win32) { string_t *newstr; if (lang) codepage = get_language_codepage( lang->id, lang->sub ); else codepage = get_language_codepage( 0, 0 ); assert( codepage != -1 ); newstr = convert_string_unicode( str, codepage ); if (str->type == str_char && check_valid_utf8( str, codepage )) { print_location( &str->loc ); warning( "string \"%s\" seems to be UTF-8 but codepage %u is in use, maybe use --utf8?\n", str->str.cstr, codepage ); } if (!isterm) put_word(res, newstr->size); for(cnt = 0; cnt < newstr->size; cnt++) { WCHAR c = newstr->str.wstr[cnt]; if (isterm && !c) break; put_word(res, c); } if (isterm) put_word(res, 0); free_string(newstr); } else { assert( str->type == str_char ); if (!isterm) put_byte(res, str->size); for(cnt = 0; cnt < str->size; cnt++) { char c = str->str.cstr[cnt]; if (isterm && !c) break; put_byte(res, c); } if (isterm) put_byte(res, 0); } } /* ***************************************************************************** * Function : put_name_id * Syntax : void put_name_id(res_t *res, name_id_t *nid, int upcase, const language_t *lang) * Input : * Output : * Description : * Remarks : ***************************************************************************** */ static void put_name_id(res_t *res, name_id_t *nid, int upcase, const language_t *lang) { switch (nid->type) { case name_ord: if(win32) put_word(res, 0xffff); else put_byte(res, 0xff); put_word(res, (WORD)nid->name.i_name); break; case name_str: if(upcase) string_to_upper(nid->name.s_name); put_string(res, nid->name.s_name, TRUE, lang); break; } } /* ***************************************************************************** * Function : put_lvc * Syntax : void put_lvc(res_t *res, lvc_t *lvc) * Input : * Output : * Description : * Remarks : ***************************************************************************** */ static void put_lvc(res_t *res, lvc_t *lvc) { if(lvc && lvc->language) put_word(res, MAKELANGID(lvc->language->id, lvc->language->sub)); else put_word(res, 0); /* Neutral */ if(lvc && lvc->version) put_dword(res, *(lvc->version)); else put_dword(res, 0); if(lvc && lvc->characts) put_dword(res, *(lvc->characts)); else put_dword(res, 0); } /* ***************************************************************************** * Function : put_raw_data * Syntax : void put_raw_data(res_t *res, raw_data_t *raw, int offset) * Input : * Output : * Description : * Remarks : ***************************************************************************** */ static void put_raw_data(res_t *res, raw_data_t *raw, int offset) { unsigned int wsize = raw->size - offset; if(res->allocsize - res->size < wsize) grow_res(res, wsize); memcpy(&(res->data[res->size]), raw->data + offset, wsize); res->size += wsize; } /* ***************************************************************************** * Function : put_res_header * Syntax : input_res_header(res_t *res, int type, name_id_t *ntype, * name_id_t *name, DWORD memopt, lvc_t *lvc) * * Input : * res - Binary resource descriptor to write to * type - Resource identifier (if ntype == NULL) * ntype - Name id of type * name - Resource's name * memopt - Resource's memory options to write * lvc - Language, version and characteristics (win32 only) * Output : An index to the resource size field. The resource size field * contains the header size upon exit. * Description : * Remarks : ***************************************************************************** */ static int put_res_header(res_t *res, int type, name_id_t *ntype, name_id_t *name, DWORD memopt, lvc_t *lvc) { if(win32) { put_dword(res, 0); /* We will overwrite these later */ put_dword(res, 0); if(!ntype) { put_word(res, 0xffff); /* ResType */ put_word(res, type); } else put_name_id(res, ntype, TRUE, lvc->language); put_name_id(res, name, TRUE, lvc->language); /* ResName */ put_pad(res); put_dword(res, 0); /* DataVersion */ put_word(res, memopt); /* Memory options */ put_lvc(res, lvc); /* Language, version and characts */ set_dword(res, 0*sizeof(DWORD), res->size); /* Set preliminary resource */ set_dword(res, 1*sizeof(DWORD), res->size); /* Set HeaderSize */ res->dataidx = res->size; return 0; } else /* win16 */ { int tag; if(!ntype) { put_byte(res, 0xff); /* ResType */ put_word(res, type); } else put_name_id(res, ntype, TRUE, NULL); put_name_id(res, name, TRUE, NULL); /* ResName */ put_word(res, memopt); /* Memory options */ tag = res->size; put_dword(res, 0); /* ResSize overwritten later*/ set_dword(res, tag, res->size); res->dataidx = res->size; return tag; } } /* ***************************************************************************** * Function : accelerator2res * Syntax : res_t *accelerator2res(name_id_t *name, accelerator_t *acc) * Input : * name - Name/ordinal of the resource * acc - The accelerator descriptor * Output : New .res format structure * Description : * Remarks : ***************************************************************************** */ static res_t *accelerator2res(name_id_t *name, accelerator_t *acc) { int restag; res_t *res; event_t *ev; assert(name != NULL); assert(acc != NULL); ev = acc->events; res = new_res(); if(win32) { restag = put_res_header(res, WRC_RT_ACCELERATOR, NULL, name, acc->memopt, &(acc->lvc)); while(ev) { int key = ev->key; if (ev->str) key = parse_accel_string( ev->str, ev->flags ); put_word(res, ev->flags | (ev->next ? 0 : 0x80)); put_word(res, key); put_word(res, ev->id); put_word(res, 0); /* Padding */ ev = ev->next; } put_pad(res); } else /* win16 */ { restag = put_res_header(res, WRC_RT_ACCELERATOR, NULL, name, acc->memopt, NULL); while(ev) { int key = ev->key; if (ev->str) key = parse_accel_string( ev->str, ev->flags ); put_byte(res, ev->flags | (ev->next ? 0 : 0x80)); put_word(res, key); put_word(res, ev->id); ev = ev->next; } } return end_res(res, restag); } /* ***************************************************************************** * Function : dialog2res * Syntax : res_t *dialog2res(name_id_t *name, dialog_t *dlg) * Input : * name - Name/ordinal of the resource * dlg - The dialog descriptor * Output : New .res format structure * Description : * Remarks : ***************************************************************************** */ static res_t *dialog2res(name_id_t *name, dialog_t *dlg) { int restag; res_t *res; control_t *ctrl; int tag_nctrl; int nctrl = 0; assert(name != NULL); assert(dlg != NULL); ctrl = dlg->controls; res = new_res(); if(win32) { restag = put_res_header(res, WRC_RT_DIALOG, NULL, name, dlg->memopt, &(dlg->lvc)); if (dlg->is_ex) { /* FIXME: MS doc says that the first word must contain 0xffff * and the second 0x0001 to signal a DLGTEMPLATEEX. Borland's * compiler reverses the two words. * I don't know which one to choose, but I write it as Mr. B * writes it. */ put_word(res, 1); /* Signature */ put_word(res, 0xffff); /* DlgVer */ put_dword(res, dlg->gothelpid ? dlg->helpid : 0); put_dword(res, dlg->gotexstyle ? dlg->exstyle->or_mask : 0); put_dword(res, dlg->gotstyle ? dlg->style->or_mask : WS_POPUPWINDOW); } else { put_dword(res, dlg->style->or_mask); put_dword(res, dlg->gotexstyle ? dlg->exstyle->or_mask : 0); } tag_nctrl = res->size; put_word(res, 0); /* Number of controls */ put_word(res, dlg->x); put_word(res, dlg->y); put_word(res, dlg->width); put_word(res, dlg->height); if(dlg->menu) put_name_id(res, dlg->menu, FALSE, dlg->lvc.language); else put_word(res, 0); if(dlg->dlgclass) put_name_id(res, dlg->dlgclass, FALSE, dlg->lvc.language); else put_word(res, 0); if(dlg->title) put_string(res, dlg->title, TRUE, dlg->lvc.language); else put_word(res, 0); if(dlg->font) { put_word(res, dlg->font->size); if (dlg->is_ex) { put_word(res, dlg->font->weight); /* FIXME: ? TRUE should be sufficient to say that it's * italic, but Borland's compiler says it's 0x0101. * I just copy it here, and hope for the best. */ put_word(res, dlg->font->italic ? 0x0101 : 0); } put_string(res, dlg->font->name, TRUE, dlg->lvc.language); } else if (dlg->style->or_mask & DS_SETFONT) put_word( res, 0x7fff ); put_pad(res); while(ctrl) { if (dlg->is_ex) { put_dword(res, ctrl->gothelpid ? ctrl->helpid : 0); put_dword(res, ctrl->gotexstyle ? ctrl->exstyle->or_mask : 0); /* FIXME: what is default control style? */ put_dword(res, ctrl->gotstyle ? ctrl->style->or_mask : WS_CHILD | WS_VISIBLE); } else { /* FIXME: what is default control style? */ put_dword(res, ctrl->gotstyle ? ctrl->style->or_mask: WS_CHILD); put_dword(res, ctrl->gotexstyle ? ctrl->exstyle->or_mask : 0); } put_word(res, ctrl->x); put_word(res, ctrl->y); put_word(res, ctrl->width); put_word(res, ctrl->height); if (dlg->is_ex) put_dword(res, ctrl->id); else put_word(res, ctrl->id); put_name_id(res, ctrl->ctlclass, FALSE, dlg->lvc.language); if(ctrl->title) put_name_id(res, ctrl->title, FALSE, dlg->lvc.language); else put_word(res, 0); if(ctrl->extra) { put_word(res, ctrl->extra->size); put_raw_data(res, ctrl->extra, 0); } else put_word(res, 0); if(ctrl->next) put_pad(res); nctrl++; ctrl = ctrl->next; } /* Set number of controls */ set_word(res, tag_nctrl, (WORD)nctrl); } else /* win16 */ { restag = put_res_header(res, WRC_RT_DIALOG, NULL, name, dlg->memopt, NULL); put_dword(res, dlg->gotstyle ? dlg->style->or_mask : WS_POPUPWINDOW); tag_nctrl = res->size; put_byte(res, 0); /* Number of controls */ put_word(res, dlg->x); put_word(res, dlg->y); put_word(res, dlg->width); put_word(res, dlg->height); if(dlg->menu) put_name_id(res, dlg->menu, TRUE, NULL); else put_byte(res, 0); if(dlg->dlgclass) put_name_id(res, dlg->dlgclass, TRUE, NULL); else put_byte(res, 0); if(dlg->title) put_string(res, dlg->title, TRUE, NULL); else put_byte(res, 0); if(dlg->font) { put_word(res, dlg->font->size); put_string(res, dlg->font->name, TRUE, NULL); } while(ctrl) { put_word(res, ctrl->x); put_word(res, ctrl->y); put_word(res, ctrl->width); put_word(res, ctrl->height); put_word(res, ctrl->id); put_dword(res, ctrl->gotstyle ? ctrl->style->or_mask: WS_CHILD); if(ctrl->ctlclass->type == name_ord && ctrl->ctlclass->name.i_name >= 0x80 && ctrl->ctlclass->name.i_name <= 0x85) put_byte(res, ctrl->ctlclass->name.i_name); else if(ctrl->ctlclass->type == name_str) put_name_id(res, ctrl->ctlclass, FALSE, NULL); else error("Unknown control-class %04x\n", ctrl->ctlclass->name.i_name); if(ctrl->title) put_name_id(res, ctrl->title, FALSE, NULL); else put_byte(res, 0); /* FIXME: What is this extra byte doing here? */ put_byte(res, 0); nctrl++; ctrl = ctrl->next; } /* Set number of controls */ ((char *)res->data)[tag_nctrl] = (char)nctrl; } return end_res(res, restag); } /* ***************************************************************************** * Function : menuitem2res * Syntax : void menuitem2res(res_t *res, menu_item_t *item) * Input : * Output : * Description : * Remarks : Self recursive ***************************************************************************** */ static void menuitem2res(res_t *res, menu_item_t *menitem, const language_t *lang) { menu_item_t *itm = menitem; while(itm) { put_word(res, itm->state | (itm->popup ? MF_POPUP : 0) | (!itm->next ? MF_END : 0)); if(!itm->popup) put_word(res, itm->id); if(itm->name) put_string(res, itm->name, TRUE, lang); else { if (win32) put_word(res, 0); else put_byte(res, 0); } if(itm->popup) menuitem2res(res, itm->popup, lang); itm = itm->next; } } /* ***************************************************************************** * Function : menuexitem2res * Syntax : void menuexitem2res(res_t *res, menuex_item_t *item) * Input : * Output : nop * Description : * Remarks : Self recursive ***************************************************************************** */ static void menuexitem2res(res_t *res, menu_item_t *menitem, const language_t *lang) { menu_item_t *itm = menitem; assert(win32 != 0); while(itm) { put_dword(res, itm->gottype ? itm->type : 0); put_dword(res, itm->gotstate ? itm->state : 0); put_dword(res, itm->gotid ? itm->id : 0); put_word(res, (itm->popup ? 0x01 : 0) | (!itm->next ? MF_END : 0)); if(itm->name) put_string(res, itm->name, TRUE, lang); else put_word(res, 0); put_pad(res); if(itm->popup) { put_dword(res, itm->gothelpid ? itm->helpid : 0); menuexitem2res(res, itm->popup, lang); } itm = itm->next; } } /* ***************************************************************************** * Function : menu2res * Syntax : res_t *menu2res(name_id_t *name, menu_t *men) * Input : * name - Name/ordinal of the resource * menex - The menuex descriptor * Output : New .res format structure * Description : * Remarks : ***************************************************************************** */ static res_t *menu2res(name_id_t *name, menu_t *men) { int restag; res_t *res; assert(name != NULL); assert(men != NULL); res = new_res(); restag = put_res_header(res, WRC_RT_MENU, NULL, name, men->memopt, &men->lvc); if(win32) { if (men->is_ex) { put_word(res, 1); /* Menuheader: Version */ put_word(res, 4); /* Offset */ put_dword(res, 0); /* HelpId */ put_pad(res); menuexitem2res(res, men->items, men->lvc.language); } else { put_dword(res, 0); /* Menuheader: Version and HeaderSize */ menuitem2res(res, men->items, men->lvc.language); } } else /* win16 */ { put_dword(res, 0); /* Menuheader: Version and HeaderSize */ menuitem2res(res, men->items, NULL); } return end_res(res, restag); } /* ***************************************************************************** * Function : cursorgroup2res * Syntax : res_t *cursorgroup2res(name_id_t *name, cursor_group_t *curg) * Input : * name - Name/ordinal of the resource * curg - The cursor descriptor * Output : New .res format structure * Description : * Remarks : ***************************************************************************** */ static res_t *cursorgroup2res(name_id_t *name, cursor_group_t *curg) { int restag; res_t *res; cursor_t *cur; assert(name != NULL); assert(curg != NULL); res = new_res(); restag = put_res_header(res, WRC_RT_GROUP_CURSOR, NULL, name, curg->memopt, &(curg->lvc)); put_word(res, 0); /* Reserved */ /* FIXME: The ResType in the NEWHEADER structure should * contain 14 according to the MS win32 doc. This is * not the case with the BRC compiler and I really doubt * the latter. Putting one here is compliant to win16 spec, * but who knows the true value? */ put_word(res, 2); /* ResType */ put_word(res, curg->ncursor); #if 0 for(cur = curg->cursorlist; cur; cur = cur->next) #else cur = curg->cursorlist; while(cur->next) cur = cur->next; for(; cur; cur = cur->prev) #endif { put_word(res, cur->width); /* FIXME: The height of a cursor is half the size of * the bitmap's height. BRC puts the height from the * BITMAPINFOHEADER here instead of the cursorfile's * height. MS doesn't seem to care... */ put_word(res, cur->height); /* FIXME: The next two are reversed in BRC and I don't * know why. Probably a bug. But, we can safely ignore * it because win16 does not support color cursors. * A warning should have been generated by the parser. */ put_word(res, cur->planes); put_word(res, cur->bits); /* FIXME: The +4 is the hotspot in the cursor resource. * However, I could not find this in the documentation. * The hotspot bytes must either be included or MS * doesn't care. */ put_dword(res, cur->data->size +4); put_word(res, cur->id); } return end_res(res, restag); } /* ***************************************************************************** * Function : cursor2res * Syntax : res_t *cursor2res(cursor_t *cur) * Input : * cur - The cursor descriptor * Output : New .res format structure * Description : * Remarks : ***************************************************************************** */ static res_t *cursor2res(cursor_t *cur) { int restag; res_t *res; name_id_t name; assert(cur != NULL); res = new_res(); name.type = name_ord; name.name.i_name = cur->id; restag = put_res_header(res, WRC_RT_CURSOR, NULL, &name, WRC_MO_MOVEABLE | WRC_MO_DISCARDABLE, &(cur->lvc)); put_word(res, cur->xhot); put_word(res, cur->yhot); put_raw_data(res, cur->data, 0); return end_res(res, restag); } /* ***************************************************************************** * Function : icongroup2res * Syntax : res_t *icongroup2res(name_id_t *name, icon_group_t *icog) * Input : * name - Name/ordinal of the resource * icog - The icon group descriptor * Output : New .res format structure * Description : * Remarks : ***************************************************************************** */ static res_t *icongroup2res(name_id_t *name, icon_group_t *icog) { int restag; res_t *res; icon_t *ico; assert(name != NULL); assert(icog != NULL); res = new_res(); restag = put_res_header(res, WRC_RT_GROUP_ICON, NULL, name, icog->memopt, &(icog->lvc)); put_word(res, 0); /* Reserved */ /* FIXME: The ResType in the NEWHEADER structure should * contain 14 according to the MS win32 doc. This is * not the case with the BRC compiler and I really doubt * the latter. Putting one here is compliant to win16 spec, * but who knows the true value? */ put_word(res, 1); /* ResType */ put_word(res, icog->nicon); for(ico = icog->iconlist; ico; ico = ico->next) { put_byte(res, ico->width); put_byte(res, ico->height); put_byte(res, ico->nclr); put_byte(res, 0); /* Reserved */ put_word(res, ico->planes); put_word(res, ico->bits); put_dword(res, ico->data->size); put_word(res, ico->id); } return end_res(res, restag); } /* ***************************************************************************** * Function : icon2res * Syntax : res_t *icon2res(icon_t *ico) * Input : * ico - The icon descriptor * Output : New .res format structure * Description : * Remarks : ***************************************************************************** */ static res_t *icon2res(icon_t *ico) { int restag; res_t *res; name_id_t name; assert(ico != NULL); res = new_res(); name.type = name_ord; name.name.i_name = ico->id; restag = put_res_header(res, WRC_RT_ICON, NULL, &name, WRC_MO_MOVEABLE | WRC_MO_DISCARDABLE, &(ico->lvc)); put_raw_data(res, ico->data, 0); return end_res(res, restag); } /* ***************************************************************************** * Function : anicurico2res * Syntax : res_t *anicurico2res(name_id_t *name, ani_curico_t *ani) * Input : * name - Name/ordinal of the resource * ani - The animated object descriptor * Output : New .res format structure * Description : * Remarks : The endian of the object's structures have been converted * by the loader. * There are rumors that win311 could handle animated stuff. * That is why they are generated for both win16 and win32 * compile. ***************************************************************************** */ static res_t *anicurico2res(name_id_t *name, ani_curico_t *ani, enum res_e type) { int restag; res_t *res; assert(name != NULL); assert(ani != NULL); res = new_res(); restag = put_res_header(res, type == res_anicur ? WRC_RT_ANICURSOR : WRC_RT_ANIICON, NULL, name, ani->memopt, NULL); put_raw_data(res, ani->data, 0); return end_res(res, restag); } /* ***************************************************************************** * Function : bitmap2res * Syntax : res_t *bitmap2res(name_id_t *name, bitmap_t *bmp) * Input : * name - Name/ordinal of the resource * bmp - The bitmap descriptor * Output : New .res format structure * Description : * Remarks : The endian of the bitmap structures have been converted * by the loader. ***************************************************************************** */ static res_t *bitmap2res(name_id_t *name, bitmap_t *bmp) { int restag; res_t *res; assert(name != NULL); assert(bmp != NULL); res = new_res(); restag = put_res_header(res, WRC_RT_BITMAP, NULL, name, bmp->memopt, &(bmp->data->lvc)); if(bmp->data->data[0] == 'B' && bmp->data->data[1] == 'M' && ((BITMAPFILEHEADER *)bmp->data->data)->bfSize == bmp->data->size && bmp->data->size >= sizeof(BITMAPFILEHEADER)) { /* The File header is still attached, don't write it */ put_raw_data(res, bmp->data, sizeof(BITMAPFILEHEADER)); } else { put_raw_data(res, bmp->data, 0); } return end_res(res, restag); } /* ***************************************************************************** * Function : font2res * Syntax : res_t *font2res(name_id_t *name, font_t *fnt) * Input : * name - Name/ordinal of the resource * fnt - The font descriptor * Output : New .res format structure * Description : * Remarks : The data has been prepared just after parsing. ***************************************************************************** */ static res_t *font2res(name_id_t *name, font_t *fnt) { int restag; res_t *res; assert(name != NULL); assert(fnt != NULL); res = new_res(); restag = put_res_header(res, WRC_RT_FONT, NULL, name, fnt->memopt, &(fnt->data->lvc)); put_raw_data(res, fnt->data, 0); return end_res(res, restag); } /* ***************************************************************************** * Function : fontdir2res * Syntax : res_t *fontdir2res(name_id_t *name, fontdir_t *fnd) * Input : * name - Name/ordinal of the resource * fntdir - The fontdir descriptor * Output : New .res format structure * Description : * Remarks : The data has been prepared just after parsing. ***************************************************************************** */ static res_t *fontdir2res(name_id_t *name, fontdir_t *fnd) { int restag; res_t *res; assert(name != NULL); assert(fnd != NULL); res = new_res(); restag = put_res_header(res, WRC_RT_FONTDIR, NULL, name, fnd->memopt, &(fnd->data->lvc)); put_raw_data(res, fnd->data, 0); return end_res(res, restag); } /* ***************************************************************************** * Function : html2res * Syntax : res_t *html2res(name_id_t *name, html_t *html) * Input : * name - Name/ordinal of the resource * rdt - The html descriptor * Output : New .res format structure * Description : * Remarks : ***************************************************************************** */ static res_t *html2res(name_id_t *name, html_t *html) { int restag; res_t *res; assert(name != NULL); assert(html != NULL); res = new_res(); restag = put_res_header(res, WRC_RT_HTML, NULL, name, html->memopt, &(html->data->lvc)); put_raw_data(res, html->data, 0); return end_res(res, restag); } /* ***************************************************************************** * Function : rcdata2res * Syntax : res_t *rcdata2res(name_id_t *name, rcdata_t *rdt) * Input : * name - Name/ordinal of the resource * rdt - The rcdata descriptor * Output : New .res format structure * Description : * Remarks : ***************************************************************************** */ static res_t *rcdata2res(name_id_t *name, rcdata_t *rdt) { int restag; res_t *res; assert(name != NULL); assert(rdt != NULL); res = new_res(); restag = put_res_header(res, WRC_RT_RCDATA, NULL, name, rdt->memopt, &(rdt->data->lvc)); put_raw_data(res, rdt->data, 0); return end_res(res, restag); } /* ***************************************************************************** * Function : messagetable2res * Syntax : res_t *messagetable2res(name_id_t *name, messagetable_t *msg) * Input : * name - Name/ordinal of the resource * msg - The messagetable descriptor * Output : New .res format structure * Description : * Remarks : The data has been converted to the appropriate endian * after it was parsed. ***************************************************************************** */ static res_t *messagetable2res(name_id_t *name, messagetable_t *msg) { int restag; res_t *res; assert(name != NULL); assert(msg != NULL); res = new_res(); restag = put_res_header(res, WRC_RT_MESSAGETABLE, NULL, name, msg->memopt, &(msg->data->lvc)); put_raw_data(res, msg->data, 0); return end_res(res, restag); } /* ***************************************************************************** * Function : stringtable2res * Syntax : res_t *stringtable2res(stringtable_t *stt) * Input : * stt - The stringtable descriptor * Output : New .res format structure * Description : * Remarks : ***************************************************************************** */ static res_t *stringtable2res(stringtable_t *stt) { res_t *res; name_id_t name; int i; int restag; DWORD lastsize = 0; assert(stt != NULL); res = new_res(); for(; stt; stt = stt->next) { if(!stt->nentries) { warning("Empty internal stringtable\n"); continue; } name.type = name_ord; name.name.i_name = (stt->idbase >> 4) + 1; restag = put_res_header(res, WRC_RT_STRING, NULL, &name, stt->memopt, win32 ? &(stt->lvc) : NULL); for(i = 0; i < stt->nentries; i++) { if(stt->entries[i].str && stt->entries[i].str->size) { put_string(res, stt->entries[i].str, FALSE, stt->lvc.language); } else { if (win32) put_word(res, 0); else put_byte(res, 0); } } end_res(res, restag - lastsize); lastsize = res->size; } return res; } /* ***************************************************************************** * Function : user2res * Syntax : res_t *user2res(name_id_t *name, user_t *usr) * Input : * name - Name/ordinal of the resource * usr - The userresource descriptor * Output : New .res format structure * Description : * Remarks : ***************************************************************************** */ static res_t *user2res(name_id_t *name, user_t *usr) { int restag; res_t *res; assert(name != NULL); assert(usr != NULL); res = new_res(); restag = put_res_header(res, 0, usr->type, name, usr->memopt, &(usr->data->lvc)); put_raw_data(res, usr->data, 0); return end_res(res, restag); } /* ***************************************************************************** * Function : versionblock2res * Syntax : void versionblock2res(res_t *res, ver_block_t *blk) * Input : * res - Binary resource to write to * blk - The version block to be written * Output : * Description : * Remarks : Self recursive ***************************************************************************** */ static void versionblock2res(res_t *res, ver_block_t *blk, int level, const language_t *lang) { ver_value_t *val; int blksizetag; int valblksizetag; int valvalsizetag; int tag; int i; blksizetag = res->size; put_word(res, 0); /* Will be overwritten later */ put_word(res, 0); if(win32) put_word(res, 0); /* level ? */ put_string(res, blk->name, TRUE, NULL); put_pad(res); for(val = blk->values; val; val = val->next) { switch(val->type) { case val_str: valblksizetag = res->size; put_word(res, 0); /* Will be overwritten later */ valvalsizetag = res->size; put_word(res, 0); /* Will be overwritten later */ if(win32) { put_word(res, level); } put_string(res, val->key, TRUE, NULL); put_pad(res); tag = res->size; put_string(res, val->value.str, TRUE, lang); if(win32) set_word(res, valvalsizetag, (WORD)((res->size - tag) >> 1)); else set_word(res, valvalsizetag, (WORD)(res->size - tag)); set_word(res, valblksizetag, (WORD)(res->size - valblksizetag)); put_pad(res); break; case val_words: valblksizetag = res->size; put_word(res, 0); /* Will be overwritten later */ valvalsizetag = res->size; put_word(res, 0); /* Will be overwritten later */ if(win32) { put_word(res, level); } put_string(res, val->key, TRUE, NULL); put_pad(res); tag = res->size; for(i = 0; i < val->value.words->nwords; i++) { put_word(res, val->value.words->words[i]); } set_word(res, valvalsizetag, (WORD)(res->size - tag)); set_word(res, valblksizetag, (WORD)(res->size - valblksizetag)); put_pad(res); break; case val_block: versionblock2res(res, val->value.block, level+1, lang); break; } } /* Set blocksize */ set_word(res, blksizetag, (WORD)(res->size - blksizetag)); } /* ***************************************************************************** * Function : versioninfo2res * Syntax : res_t *versioninfo2res(name_id_t *name, versioninfo_t *ver) * Input : * name - Name/ordinal of the resource * ver - The versioninfo descriptor * Output : New .res format structure * Description : * Remarks : ***************************************************************************** */ static res_t *versioninfo2res(name_id_t *name, versioninfo_t *ver) { static const char info[] = "VS_VERSION_INFO"; unsigned int i; int restag, rootblocksizetag, valsizetag, tag; res_t *res; ver_block_t *blk; assert(name != NULL); assert(ver != NULL); res = new_res(); restag = put_res_header(res, WRC_RT_VERSION, NULL, name, ver->memopt, &(ver->lvc)); rootblocksizetag = res->size; put_word(res, 0); /* BlockSize filled in later */ valsizetag = res->size; put_word(res, 0); /* ValueSize filled in later*/ if(win32) { put_word(res, 0); /* Tree-level ? */ for (i = 0; i < sizeof(info); i++) put_word(res, info[i]); put_pad(res); } else { for (i = 0; i < sizeof(info); i++) put_byte(res, info[i]); } tag = res->size; put_dword(res, VS_FFI_SIGNATURE); put_dword(res, VS_FFI_STRUCVERSION); put_dword(res, (ver->filever_maj1 << 16) + (ver->filever_maj2 & 0xffff)); put_dword(res, (ver->filever_min1 << 16) + (ver->filever_min2 & 0xffff)); put_dword(res, (ver->prodver_maj1 << 16) + (ver->prodver_maj2 & 0xffff)); put_dword(res, (ver->prodver_min1 << 16) + (ver->prodver_min2 & 0xffff)); put_dword(res, ver->fileflagsmask); put_dword(res, ver->fileflags); put_dword(res, ver->fileos); put_dword(res, ver->filetype); put_dword(res, ver->filesubtype); put_dword(res, 0); /* FileDateMS */ put_dword(res, 0); /* FileDateLS */ /* Set ValueSize */ set_word(res, valsizetag, (WORD)(res->size - tag)); /* Descend into the blocks */ for(blk = ver->blocks; blk; blk = blk->next) versionblock2res(res, blk, 0, win32 ? ver->lvc.language : NULL); /* Set root block's size */ set_word(res, rootblocksizetag, (WORD)(res->size - rootblocksizetag)); return end_res(res, restag); } /* ***************************************************************************** * Function : toolbaritem2res * Syntax : void toolbaritem2res(res_t *res, toolbar_item_t *tbitem) * Input : * Output : nop * Description : * Remarks : Self recursive ***************************************************************************** */ static void toolbaritem2res(res_t *res, toolbar_item_t *tbitem) { toolbar_item_t *itm = tbitem; assert(win32 != 0); while(itm) { put_word(res, itm->id); itm = itm->next; } } /* ***************************************************************************** * Function : toolbar2res * Syntax : res_t *toolbar2res(name_id_t *name, toolbar_t *toolbar) * Input : * name - Name/ordinal of the resource * toolbar - The toolbar descriptor * Output : New .res format structure * Description : * Remarks : ***************************************************************************** */ static res_t *toolbar2res(name_id_t *name, toolbar_t *toolbar) { int restag; res_t *res; assert(name != NULL); assert(toolbar != NULL); if (!win32) return NULL; res = new_res(); restag = put_res_header(res, WRC_RT_TOOLBAR, NULL, name, toolbar->memopt, &(toolbar->lvc)); put_word(res, 1); /* Menuheader: Version */ put_word(res, toolbar->button_width); /* (in pixels?) */ put_word(res, toolbar->button_height); /* (in pixels?) */ put_word(res, toolbar->nitems); put_pad(res); toolbaritem2res(res, toolbar->items); return end_res(res, restag); } /* ***************************************************************************** * Function : dlginit2res * Syntax : res_t *dlginit2res(name_id_t *name, dlginit_t *dit) * Input : * name - Name/ordinal of the resource * rdt - The dlginit descriptor * Output : New .res format structure * Description : * Remarks : ***************************************************************************** */ static res_t *dlginit2res(name_id_t *name, dlginit_t *dit) { int restag; res_t *res; assert(name != NULL); assert(dit != NULL); res = new_res(); restag = put_res_header(res, WRC_RT_DLGINIT, NULL, name, dit->memopt, &(dit->data->lvc)); put_raw_data(res, dit->data, 0); return end_res(res, restag); } /* ***************************************************************************** * Function : prep_nid_for_label * Syntax : char *prep_nid_for_label(const name_id_t *nid) * Input : * Output : * Description : Converts a resource name into the first 32 (or less) * characters of the name with conversions. * Remarks : ***************************************************************************** */ #define MAXNAMELEN 32 char *prep_nid_for_label(const name_id_t *nid) { static char buf[MAXNAMELEN+1]; switch (nid->type) { case name_str: if(nid->name.s_name->type == str_unicode) { WCHAR *sptr; int i; sptr = nid->name.s_name->str.wstr; buf[0] = '\0'; for(i = 0; *sptr && i < MAXNAMELEN; i++) { if((unsigned)*sptr < 0x80 && isprint(*sptr & 0xff)) buf[i] = *sptr++; else warning("Resourcename (str_unicode) contain unprintable characters or invalid translation, ignored\n"); } buf[i] = '\0'; } else { char *cptr; int i; cptr = nid->name.s_name->str.cstr; buf[0] = '\0'; for(i = 0; *cptr && i < MAXNAMELEN; i++) { if((unsigned)*cptr < 0x80 && isprint(*cptr & 0xff)) buf[i] = *cptr++; else warning("Resourcename (str_char) contain unprintable characters, ignored\n"); } buf[i] = '\0'; } break; case name_ord: sprintf(buf, "%u", nid->name.i_name); break; } return buf; } #undef MAXNAMELEN /* ***************************************************************************** * Function : make_c_name * Syntax : char *make_c_name(const char *base, const name_id_t *nid, const language_t *lan) * Input : * Output : * Description : Converts a resource name into a valid c-identifier in the * form "_base_nid". * Remarks : ***************************************************************************** */ char *make_c_name(const char *base, const name_id_t *nid, const language_t *lan) { char *buf = prep_nid_for_label(nid); return strmake( "_%s_%s_%d", base, buf, lan ? MAKELANGID(lan->id, lan->sub) : 0); } /* ***************************************************************************** * Function : get_c_typename * Syntax : const char *get_c_typename(enum res_e type) * Input : * Output : * Description : Convert resource enum to char string to be used in c-name * creation. * Remarks : ***************************************************************************** */ const char *get_c_typename(enum res_e type) { switch(type) { case res_acc: return "Acc"; case res_anicur:return "AniCur"; case res_aniico:return "AniIco"; case res_bmp: return "Bmp"; case res_cur: return "Cur"; case res_curg: return "CurGrp"; case res_dlg: return "Dlg"; case res_fnt: return "Fnt"; case res_fntdir:return "FntDir"; case res_ico: return "Ico"; case res_icog: return "IcoGrp"; case res_men: return "Men"; case res_rdt: return "RCDat"; case res_stt: return "StrTab"; case res_usr: return "Usr"; case res_msg: return "MsgTab"; case res_ver: return "VerInf"; case res_toolbar: return "TlBr"; case res_dlginit: return "DlgInit"; default: return "Oops"; } } /* ***************************************************************************** * Function : resources2res * Syntax : void resources2res(resource_t *top) * Input : * top - The resource-tree to convert * Output : * Description : Convert logical resource descriptors into binary data * Remarks : ***************************************************************************** */ void resources2res(resource_t *top) { while(top) { switch(top->type) { case res_acc: if(!top->binres) top->binres = accelerator2res(top->name, top->res.acc); break; case res_bmp: if(!top->binres) top->binres = bitmap2res(top->name, top->res.bmp); break; case res_cur: if(!top->binres) top->binres = cursor2res(top->res.cur); break; case res_curg: if(!top->binres) top->binres = cursorgroup2res(top->name, top->res.curg); break; case res_dlg: if(!top->binres) top->binres = dialog2res(top->name, top->res.dlg); break; case res_fnt: if(!top->binres) top->binres = font2res(top->name, top->res.fnt); break; case res_fntdir: if(!top->binres) top->binres = fontdir2res(top->name, top->res.fnd); break; case res_ico: if(!top->binres) top->binres = icon2res(top->res.ico); break; case res_icog: if(!top->binres) top->binres = icongroup2res(top->name, top->res.icog); break; case res_men: if(!top->binres) top->binres = menu2res(top->name, top->res.men); break; case res_html: if(!top->binres) top->binres = html2res(top->name, top->res.html); break; case res_rdt: if(!top->binres) top->binres = rcdata2res(top->name, top->res.rdt); break; case res_stt: if(!top->binres) top->binres = stringtable2res(top->res.stt); break; case res_usr: if(!top->binres) top->binres = user2res(top->name, top->res.usr); break; case res_msg: if(!top->binres) top->binres = messagetable2res(top->name, top->res.msg); break; case res_ver: if(!top->binres) top->binres = versioninfo2res(top->name, top->res.ver); break; case res_toolbar: if(!top->binres) top->binres = toolbar2res(top->name, top->res.tbt); break; case res_dlginit: if(!top->binres) top->binres = dlginit2res(top->name, top->res.dlgi); break; case res_anicur: case res_aniico: if(!top->binres) top->binres = anicurico2res(top->name, top->res.ani, top->type); break; default: assert(0); } top->c_name = make_c_name(get_c_typename(top->type), top->name, top->lan); top = top->next; } }