/* Copyright (C) 1996-1997 Id Software, Inc. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program 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 General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ // wad.c #include "quakedef.h" void *wadmutex; #ifndef PACKAGE_TEXWAD void Wads_Flush (void){} qboolean Wad_NextDownload (void){return true;} void *W_GetLumpName (const char *name, size_t *size, qbyte *type) {return NULL;} qbyte *W_GetTexture(const char *name, int *width, int *height, qboolean *usesalpha){return NULL;} void W_LoadWadFile (char *filename){} void W_Shutdown (void){} void CL_Skygroup_f(void){} #else int wad_numlumps; lumpinfo_t *wad_lumps; qbyte *wad_base; static char wads[4096]; void SwapPic (qpic_t *pic); /* ================== W_CleanupName Lowercases name and pads with spaces and a terminating 0 to the length of lumpinfo_t->name. Used so lumpname lookups can proceed rapidly by comparing 4 chars at a time Space padding is so names can be printed nicely in tables. Can safely be performed in place. ================== */ void W_CleanupName (const char *in, char *out) { int i; int c; if (!strncmp(in, "textures/", 9)) in += 9; for (i=0 ; i<16 ; i++ ) { c = in[i]; if (!c) break; if (c >= 'A' && c <= 'Z') c += ('a' - 'A'); if (c == '*') //not a valid filesystem char c = '#'; out[i] = c; } for ( ; i< 16 ; i++ ) out[i] = 0; } void W_Shutdown (void) { if (wad_base) Z_Free(wad_base); wad_base = NULL; } /* ==================== W_LoadWadFile ==================== */ void W_LoadWadFile (char *filename) { lumpinfo_t *lump_p; wadinfo_t *header; unsigned i; int infotableofs; if (wad_base) Z_Free(wad_base); wad_base = COM_LoadFile (filename, 0, NULL); if (!wad_base) { wad_numlumps = 0; Con_DPrintf ("W_LoadWadFile: couldn't load %s\n", filename); return; } header = (wadinfo_t *)wad_base; if (header->identification[0] != 'W' || header->identification[1] != 'A' || header->identification[2] != 'D' || (header->identification[3] != '2' && header->identification[3] != '3')) { Con_Printf ("W_LoadWadFile: Wad file %s doesn't have WAD2 id\n",filename); wad_numlumps = 0; Z_Free(wad_base); wad_base = NULL; return; } wad_numlumps = LittleLong(header->numlumps); infotableofs = LittleLong(header->infotableofs); wad_lumps = (lumpinfo_t *)(wad_base + infotableofs); for (i=0, lump_p = wad_lumps ; ifilepos = LittleLong(lump_p->filepos); lump_p->size = LittleLong(lump_p->size); W_CleanupName (lump_p->name, lump_p->name); if (lump_p->type == TYP_QPIC) SwapPic ( (qpic_t *)(wad_base + lump_p->filepos)); } } /* ============= W_GetLumpName ============= */ void *W_GetLumpName (const char *name, size_t *size, qbyte *type) { int i; lumpinfo_t *lump_p; char clean[16]; *type = 0; *size = 0; W_CleanupName (name, clean); for (lump_p=wad_lumps, i=0 ; iname)) { *type = lump_p->type; *size = lump_p->disksize; return (void *)(wad_base+lump_p->filepos); } } return NULL; } /* ============================================================================= automatic qbyte swapping ============================================================================= */ void SwapPic (qpic_t *pic) { pic->width = LittleLong(pic->width); pic->height = LittleLong(pic->height); } // based on original code by LordHavoc //FIXME: convert to linked list. is hunk possible? //hash tables? #define TEXWAD_MAXIMAGES 16384 typedef struct wadfile_s { vfsfile_t *file; struct wadfile_s *next; char name[1]; } wadfile_t; typedef struct { char name[16]; vfsfile_t *file; int position; int size; } texwadlump_t; int numwadtextures; static texwadlump_t texwadlump[TEXWAD_MAXIMAGES]; wadfile_t *openwadfiles; void Wads_Flush (void) { wadfile_t *wf; if (wadmutex) Sys_LockMutex(wadmutex); while(openwadfiles) { VFS_CLOSE(openwadfiles->file); wf = openwadfiles->next; Z_Free(openwadfiles); openwadfiles = wf; } numwadtextures=0; if (wadmutex) Sys_UnlockMutex(wadmutex); } /* ==================== W_LoadTextureWadFile ==================== */ void W_LoadTextureWadFile (char *filename, int complain) { lumpinfo_t *lumps, *lump_p; wadinfo_t header; int i, j; int infotableofs; vfsfile_t *file; int numlumps; wadfile_t *wf = openwadfiles; while(wf) { if (!strcmp(wf->name, filename)) //already loaded return; wf = wf->next; } file = FS_OpenVFS(filename, "rb", FS_GAME); if (!file) file = FS_OpenVFS(va("textures/halflife/%s", filename), "rb", FS_GAME); if (!file) { if (complain) Con_Printf ("W_LoadTextureWadFile: couldn't find %s", filename); return; } if (VFS_READ(file, &header, sizeof(wadinfo_t)) != sizeof(wadinfo_t)) {Con_Printf ("W_LoadTextureWadFile: unable to read wad header");return;} if (memcmp(header.identification, "WAD3", 4) && memcmp(header.identification, "WAD2", 4)) {Con_Printf ("W_LoadTextureWadFile: Wad file %s doesn't have WAD3 id\n",filename);return;} numlumps = LittleLong(header.numlumps); if (numlumps < 1 || numlumps > TEXWAD_MAXIMAGES) {Con_Printf ("W_LoadTextureWadFile: invalid number of lumps (%i)\n", numlumps);return;} infotableofs = LittleLong(header.infotableofs); if (!VFS_SEEK(file, infotableofs)) {Con_Printf ("W_LoadTextureWadFile: unable to seek to lump table");return;} if (!((lumps = Hunk_TempAlloc(sizeof(lumpinfo_t)*numlumps)))) {Con_Printf ("W_LoadTextureWadFile: unable to allocate temporary memory for lump table");return;} if (VFS_READ(file, lumps, sizeof(lumpinfo_t)*numlumps) != (int)sizeof(lumpinfo_t) * numlumps) {Con_Printf ("W_LoadTextureWadFile: unable to read lump table");return;} for (i=0, lump_p = lumps ; iname, lump_p->name); for (j = 0;j < numwadtextures;j++) { if (!strcmp(lump_p->name, texwadlump[j].name)) // name match, replace old one break; } if (j >= TEXWAD_MAXIMAGES) break; // abort loading if (j == numwadtextures) { W_CleanupName (lump_p->name, texwadlump[j].name); texwadlump[j].file = file; texwadlump[j].position = LittleLong(lump_p->filepos); texwadlump[j].size = LittleLong(lump_p->disksize); numwadtextures++; } } // leaves the file open wf = BZ_Malloc(sizeof(*wf) + strlen(filename)); strcpy(wf->name, filename); wf->file = file; wf->next = openwadfiles; openwadfiles = wf; } /* void W_ApplyGamma (qbyte *data, int len, int skipalpha) { int i, inf; qbyte gammatable[256]; if (v_gamma.value == 1.0) { for (i=0 ; i<256 ; i++) gammatable[i] = i; } else { for (i=0 ; i<256 ; i++) { inf = 255 * pow ( (i+0.5)/255.5 , v_gamma.value ) + 0.5; if (inf < 0) inf = 0; if (inf > 255) inf = 255; gammatable[i] = inf; } } } */ qbyte *W_ConvertWAD3Texture(miptex_t *tex, size_t lumpsize, int *width, int *height, qboolean *usesalpha) //returns rgba { qbyte *in, *data, *out, *pal; int d, p; int alpha = 0; if (tex->name[0] == '{') alpha = 1; else if (!strncmp(tex->name, "window", 6) || !strncmp(tex->name, "glass", 5)) alpha = 2; if (tex->width > 0x10000 || tex->height > 0x10000) return NULL; //use malloc here if you want, but you'll have to free it again... NUR! data = out = BZ_Malloc(tex->width * tex->height * 4); if (!data) return NULL; in = (qbyte *)tex + tex->offsets[0]; *width = tex->width; *height = tex->height; //halflife wads have palettes embedded in them. but make sure everything else is packed because some quake wads are weird. if (tex->offsets[0] == sizeof(*tex) && tex->offsets[1] == tex->offsets[0] + (tex->width)*(tex->height) && tex->offsets[2] == tex->offsets[1] + (tex->width>>1)*(tex->height>>1) && tex->offsets[3] == tex->offsets[2] + (tex->width>>2)*(tex->height>>2) && ((lumpsize+3)&~3) >= ((tex->offsets[3] + (tex->width>>3)*(tex->height>>3) + 2 + 768+3)&~3)) { short fl = *(short*)((qbyte *)tex + tex->offsets[3] + (tex->width>>3)*(tex->height>>3)); if (fl == 256) pal = (qbyte *)tex + tex->offsets[3] + (tex->width>>3)*(tex->height>>3) + 2; else pal = host_basepal; } else pal = host_basepal; if (tex->offsets[0] + tex->width * tex->height > lumpsize) { //fucked texture. for (d = 0;d < tex->width * tex->height;d++) { out[0] = 0; out[1] = 255; out[2] = 0; out[3] = 255; out += 4; } } else for (d = 0;d < tex->width * tex->height;d++) { p = *in++; if (alpha==1 && p == 255) //only allow alpha on '{' textures out[0] = out[1] = out[2] = out[3] = 0; else if (alpha == 2) { p *= 3; out[0] = pal[p]; out[1] = pal[p+1]; out[2] = pal[p+2]; out[3] = (out[0]+out[1]+out[2])/3; } else { p *= 3; out[0] = pal[p]; out[1] = pal[p+1]; out[2] = pal[p+2]; out[3] = 255; } out += 4; } if (!vid_hardwaregamma.value) BoostGamma(data, tex->width, tex->height); *usesalpha = !!alpha; return data; } qbyte *W_GetTexture(const char *name, int *width, int *height, qboolean *usesalpha)//returns rgba { char texname[17]; int i, j; vfsfile_t *file; miptex_t *tex; qbyte *data; if (!strncmp(name, "gfx/", 4) || !strncmp(name, "wad/", 4)) { qpic_t *p; size_t lumpsize; qbyte lumptype; p = W_GetLumpName(name+4, &lumpsize, &lumptype); if (p) { if (/*lumptype == TYP_QPIC && */!strcmp(name+4, "conchars") && lumpsize==128*128) { //conchars has no header. qbyte *lump = (qbyte*)p; extern cvar_t con_ocranaleds; if (con_ocranaleds.ival) { if (con_ocranaleds.ival != 2 || QCRC_Block(lump, 128*128) == 798) AddOcranaLEDsIndexed (lump, 128, 128); } *width = 128; *height = 128; *usesalpha = false; data = BZ_Malloc(128 * 128 * 4); for (i = 0; i < 128 * 128; i++) { qbyte b = lump[i]; if (b == 0) ((unsigned int*)data)[i] = 0; else ((unsigned int*)data)[i] = d_8to24rgbtable[lump[i]] | 0xff000000; } return data; } else if (lumptype == TYP_QPIC && lumpsize == 8+p->width*p->height) { *width = p->width; *height = p->height; *usesalpha = false; data = BZ_Malloc(p->width * p->height * 4); for (i = 0; i < p->width * p->height; i++) { ((unsigned int*)data)[i] = d_8to24rgbtable[p->data[i]]; } return data; } else if (lumptype == TYP_QPIC && lumpsize == 8+p->width*p->height+4+768) { //halflife, 24bit palette at end qbyte *pal = p->data+p->width*p->height+4; *width = p->width; *height = p->height; *usesalpha = true; data = BZ_Malloc(p->width * p->height * 4); for (i = 0; i < p->width * p->height; i++) { qbyte *rgb = pal + p->data[i]*3; data[i*4+0] = rgb[0]; data[i*4+1] = rgb[1]; data[i*4+2] = rgb[2]; data[i*4+3] = ((p->data[i]==255)?0:255); } return data; } else Con_Printf("W_GetTexture: unknown lump type\n"); } } texname[16] = 0; W_CleanupName (name, texname); Sys_LockMutex(wadmutex); for (i = 0;i < numwadtextures;i++) { if (!strcmp(texname, texwadlump[i].name)) // found it { file = texwadlump[i].file; if (VFS_SEEK(file, texwadlump[i].position)) { tex = BZ_Malloc(texwadlump[i].size); //temp buffer for disk info (was hunk_tempalloc, but that wiped loading maps and the like if (tex && VFS_READ(file, tex, texwadlump[i].size) == texwadlump[i].size) { Sys_UnlockMutex(wadmutex); tex->width = LittleLong(tex->width); tex->height = LittleLong(tex->height); for (j = 0;j < MIPLEVELS;j++) tex->offsets[j] = LittleLong(tex->offsets[j]); data = W_ConvertWAD3Texture(tex, texwadlump[i].size, width, height, usesalpha); BZ_Free(tex); return data; } } Con_Printf("W_GetTexture: corrupt WAD3 file\n"); break; } } Sys_UnlockMutex(wadmutex); return NULL; } miptex_t *W_GetMipTex(const char *name) { char texname[17]; int i, j; vfsfile_t *file; miptex_t *tex; texname[16] = 0; W_CleanupName (name, texname); Sys_LockMutex(wadmutex); for (i = 0;i < numwadtextures;i++) { if (!strcmp(texname, texwadlump[i].name)) // found it { file = texwadlump[i].file; if (VFS_SEEK(file, texwadlump[i].position)) { tex = BZ_Malloc(texwadlump[i].size); //temp buffer for disk info (was hunk_tempalloc, but that wiped loading maps and the like if (tex && VFS_READ(file, tex, texwadlump[i].size) == texwadlump[i].size) { Sys_UnlockMutex(wadmutex); tex->width = LittleLong(tex->width); tex->height = LittleLong(tex->height); for (j = 0;j < MIPLEVELS;j++) tex->offsets[j] = LittleLong(tex->offsets[j]); return tex; } } Con_Printf("W_GetTexture: corrupt WAD3 file\n"); break; } } Sys_UnlockMutex(wadmutex); return NULL; } typedef struct mapgroup_s { char *mapname; char *skyname; struct mapgroup_s *next; } mapskys_t; static mapskys_t *mapskies; void CL_Skygroup_f(void) { mapskys_t **link; mapskys_t *ms; char *skyname; char *mapname; int i; int remove; skyname = Cmd_Argv(1); if (!*skyname) { skyname = NULL; for (ms = mapskies; ms; ms = ms->next) { if (!skyname || strcmp(skyname, ms->skyname)) { Con_Printf("%s%s:", skyname?"\n":"", ms->skyname); skyname=ms->skyname; } Con_Printf(" %s", ms->mapname); } if (skyname) Con_Printf("\n"); else Con_Printf("No skygroups defined\n"); return; } if (!strcmp(skyname, "clear") && Cmd_Argc() == 2) { while (mapskies) { ms = mapskies->next; Z_Free(mapskies); mapskies = ms; } return; } if (*skyname == '-') { skyname++; for (link = &mapskies; *link; ) { if (!strcmp((*link)->mapname, skyname) || !strcmp((*link)->skyname, skyname)) { ms = *link; *link = ms->next; Z_Free(ms); } else link = &(*link)->next; } return; } for (i = 2; i < Cmd_Argc(); i++) { mapname = Cmd_Argv(i); remove = *mapname == '-'; mapname += remove; for (link = &mapskies; *link; link = &(*link)->next) { if (!strcmp((*link)->mapname, mapname)) { ms = *link; *link = ms->next; Z_Free(ms); break; } } if (remove) continue; ms = Z_Malloc(sizeof(*ms) + strlen(mapname) + strlen(skyname) + 2); ms->mapname = (char*)(ms+1); ms->skyname = ms->mapname + strlen(mapname)+1; ms->next = mapskies; strcpy(ms->mapname, mapname); strcpy(ms->skyname, skyname); mapskies = ms; } } //textures/fred.wad is the DP standard - I wanna go for that one. //textures/halfline/fred.wad is what fuhquake can use (yuck). //fred.wad is what half-life supports. //we only try one download, for textures/fred.wad //but we will load wads from the other two paths if we have them locally. qboolean Wad_NextDownload (void) { char wadname[4096+9]="textures/"; int i, j, k; model_t *wmodel = cl.worldmodel; if (wmodel && (wmodel->fromgame == fg_halflife || wmodel->type == mod_heightmap) && *wads) //now go about checking the wads { j = 0; wads[4095] = '\0'; for (i = 0;i < 4095;i++) if (wads[i] != ';' && wads[i] != '\\' && wads[i] != '/' && wads[i] != ':') break; if (wads[i]) { j=i; for (;i < 4095;i++) { // ignore path... if (wads[i] == '\\' || wads[i] == '/' || wads[i] == ':') j = i+1; else if (wads[i] == ';' || wads[i] == 0) { k = wads[i]; wads[i] = 0; strcpy(wadname+9, &wads[j]); if (wadname[9]) { if (!COM_FCheckExists(wadname+9)) //wad is in root dir, so we don't need to try textures. CL_CheckOrEnqueDownloadFile(wadname, wadname, DLLF_REQUIRED); //don't skip this one, or the world is white. } wads[i] = k; j = i+1; if (!k) break; } } } } Wads_Flush(); if (*wads) //now go about loading the wads, we are now safe from tempallocs { j = 0; wads[4095] = '\0'; for (i = 0;i < 4095;i++) if (wads[i] != ';' && wads[i] != '\\' && wads[i] != '/' && wads[i] != ':') break; if (wads[i]) { j=i; for (;i < 4095;i++) { // ignore path... if (wads[i] == '\\' || wads[i] == '/' || wads[i] == ':') j = i+1; else if (wads[i] == ';' || wads[i] == 0) { k = wads[i]; wads[i] = 0; Q_strncpyz(wadname+9, &wads[j], sizeof(wadname)-9); if (wadname[9]) { if (COM_FCheckExists(wadname+9)) W_LoadTextureWadFile (wadname+9, false); else W_LoadTextureWadFile (wadname, false); } j = i+1; if (!k) break; } } } } return true; } #endif void Mod_ParseInfoFromEntityLump(model_t *wmodel) //actually, this should be in the model code. { char token[4096]; char key[128]; char skyname[128]; const char *data = Mod_GetEntitiesString(wmodel); #ifdef PACKAGE_TEXWAD mapskys_t *msky; wads[0] = '\0'; #endif cl.skyrotate = 0; VectorClear(cl.skyaxis); #ifndef CLIENTONLY if (isDedicated) //don't bother return; #endif // this hack is necessary to ensure Quake 2 maps get their default skybox, without breaking q1 etc if (wmodel && wmodel->fromgame == fg_quake2) strcpy(skyname, "unit1_"); else skyname[0] = '\0'; if (data) if ((data=COM_ParseOut(data, token, sizeof(token)))) //read the map info. if (token[0] == '{') while (1) { if (!(data=COM_ParseOut(data, token, sizeof(token)))) break; // error if (token[0] == '}') break; // end of worldspawn if (token[0] == '_') Q_strncpyz(key, token + 1, sizeof(key)); //_ vars are for comments/utility stuff that arn't visible to progs. Ignore them. else Q_strncpyz(key, token, sizeof(key)); if (!((data=COM_ParseOut(data, token, sizeof(token))))) break; // error if (!strcmp("wad", key)) // for HalfLife maps { #ifdef PACKAGE_TEXWAD Q_strncatz(wads, ";", sizeof(wads)); //cache it for later (so that we don't play with any temp memory yet) Q_strncatz(wads, token, sizeof(wads)); //cache it for later (so that we don't play with any temp memory yet) #endif } else if (!strcmp("fog", key)) //q1 extension. FIXME: should be made temporary. { key[0] = 'f'; key[1] = 'o'; key[2] = 'g'; key[3] = ' '; Q_strncpyz(key+4, token, sizeof(key)-4); Cbuf_AddText(key, RESTRICT_INSECURE); Cbuf_AddText("\n", RESTRICT_INSECURE); } else if (!strcmp("waterfog", key)) //q1 extension. FIXME: should be made temporary. { memcpy(key, "waterfog ", 9); Q_strncpyz(key+9, token, sizeof(key)-9); Cbuf_AddText(key, RESTRICT_INSECURE); Cbuf_AddText("\n", RESTRICT_INSECURE); } else if (!strncmp("cvar_", key, 5)) //override cvars so mappers don't end up hacking cvars and fucking over configs (at least in other engines). { cvar_t *var = Cvar_FindVar(key+5); if (var && !(var->flags & CVAR_NOTFROMSERVER)) Cvar_LockFromServer(var, com_token); } else if (!strcmp("wateralpha", key)) //override cvars so mappers don't end up hacking cvars and fucking over configs (at least in other engines). { Cvar_LockFromServer(&r_wateralpha, com_token); Cvar_LockFromServer(&r_waterstyle, "1"); //force vanilla-style water too. } else if (!strcmp("slimealpha", key)) { Cvar_LockFromServer(&r_slimealpha, com_token); Cvar_LockFromServer(&r_slimestyle, "1"); } else if (!strcmp("lavaalpha", key)) { Cvar_LockFromServer(&r_lavaalpha, com_token); Cvar_LockFromServer(&r_lavastyle, "1"); } else if (!strcmp("telealpha", key)) { Cvar_LockFromServer(&r_telealpha, com_token); Cvar_LockFromServer(&r_telestyle, "1"); } else if (!strcmp("skyname", key)) // for HalfLife maps { Q_strncpyz(skyname, token, sizeof(skyname)); } else if (!strcmp("sky", key)) // for Quake2 maps { Q_strncpyz(skyname, token, sizeof(skyname)); } else if (!strcmp("skyrotate", key)) //q2 feature { cl.skyrotate = atof(token); } else if (!strcmp("skyaxis", key)) //q2 feature { char *s; Q_strncpyz(key, token, sizeof(key)); s = COM_ParseOut(key, token, sizeof(token)); if (s) { cl.skyaxis[0] = atof(s); s = COM_ParseOut(s, token, sizeof(token)); if (s) { cl.skyaxis[1] = atof(s); COM_ParseOut(s, token, sizeof(token)); if (s) cl.skyaxis[2] = atof(s); } } } } if (wmodel) { COM_FileBase (wmodel->name, token, sizeof(token)); #ifdef PACKAGE_TEXWAD //map-specific sky override feature for (msky = mapskies; msky; msky = msky->next) { if (!strcmp(msky->mapname, token)) { Q_strncpyz(skyname, msky->skyname, sizeof(skyname)); break; } } #endif } R_SetSky(skyname); }