/* 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. */ // models.c -- model loading and caching // models are the only shared resource between a client and server running // on the same machine. #include "quakedef.h" #if 1//ndef SERVERONLY //FIXME #include "glquake.h" #include "com_mesh.h" extern cvar_t r_shadow_bumpscale_basetexture; extern cvar_t r_replacemodels; extern cvar_t r_lightmap_average; cvar_t mod_loadentfiles = CVAR("sv_loadentfiles", "1"); cvar_t mod_loadentfiles_dir = CVAR("sv_loadentfiles_dir", ""); cvar_t mod_external_vis = CVARD("mod_external_vis", "1", "Attempt to load .vis patches for quake maps, allowing transparent water to work properly."); cvar_t mod_warnmodels = CVARD("mod_warnmodels", "1", "Warn if any models failed to load. Set to 0 if your mod is likely to lack optional models (like its in development)."); //set to 0 for hexen2 and its otherwise-spammy-as-heck demo. cvar_t mod_litsprites_force = CVARD("mod_litsprites_force", "0", "If set to 1, sprites will be lit according to world lighting (including rtlights), like Tenebrae. Ideally use EF_ADDITIVE or EF_FULLBRIGHT to make emissive sprites instead."); cvar_t temp_lit2support = CVARD("temp_mod_lit2support", "0", "Set to 1 to enable lit2 support. This cvar will be removed once the format is finalised."); #ifdef SERVERONLY cvar_t gl_overbright, gl_specular, gl_load24bit, r_replacemodels, gl_miptexLevel, r_fb_bmodels; //all of these can/should default to 0 cvar_t r_noframegrouplerp = CVARF ("r_noframegrouplerp", "0", CVAR_ARCHIVE); cvar_t dpcompat_psa_ungroup = CVAR ("dpcompat_psa_ungroup", "0"); texture_t r_notexture_mip_real; texture_t *r_notexture_mip = &r_notexture_mip_real; #endif void CM_Init(void); void Mod_LoadSpriteShaders(model_t *spr); qboolean QDECL Mod_LoadSpriteModel (model_t *mod, void *buffer, size_t fsize); qboolean QDECL Mod_LoadSprite2Model (model_t *mod, void *buffer, size_t fsize); #ifdef Q1BSPS static qboolean QDECL Mod_LoadBrushModel (model_t *mod, void *buffer, size_t fsize); #endif #if defined(Q2BSPS) || defined(Q3BSPS) qboolean QDECL Mod_LoadQ2BrushModel (model_t *mod, void *buffer, size_t fsize); #endif model_t *Mod_LoadModel (model_t *mod, enum mlverbosity_e verbose); static void Mod_PrintFormats_f(void); static void Mod_ShowEnt_f(void); static void Mod_SaveEntFile_f(void); #ifdef MAP_DOOM qboolean QDECL Mod_LoadDoomLevel(model_t *mod, void *buffer, size_t fsize); #endif #ifdef DSPMODELS void Mod_LoadDoomSprite (model_t *mod); #endif #define MAX_MOD_KNOWN 8192 model_t *mod_known; int mod_numknown; extern cvar_t r_loadlits; #ifdef SPECULAR extern cvar_t gl_specular; #endif extern cvar_t r_fb_bmodels; void Mod_SortShaders(model_t *mod); void Mod_LoadAliasShaders(model_t *mod); #ifdef RUNTIMELIGHTING extern model_t *lightmodel; #endif static void Mod_MemList_f(void) { int m; model_t *mod; int total = 0; for (m=0 , mod=mod_known ; mmemgroup.totalbytes) Con_Printf("%s: %i bytes\n", mod->name, mod->memgroup.totalbytes); total += mod->memgroup.totalbytes; } Con_Printf("Total: %i bytes\n", total); } #ifndef SERVERONLY static void Mod_BatchList_f(void) { int m, i; model_t *mod; batch_t *batch; unsigned int count; for (m=0 , mod=mod_known ; mtype == mod_brush && mod->loadstate == MLS_LOADED) { Con_Printf("^1%s:\n", mod->name); count = 0; for (i = 0; i < SHADER_SORT_COUNT; i++) { for (batch = mod->batches[i]; batch; batch = batch->next) { char editname[MAX_QPATH]; char *body = Shader_GetShaderBody(batch->texture->shader, editname, sizeof(editname)); if (!body) body = "SHADER NOT KNOWN"; else { char *cr; while ((cr = strchr(body, '\r'))) *cr = ' '; } Con_Printf(" ^[%s\\tipimg\\%s\\tipimgtype\\%i\\tip\\{%s^]", batch->texture->shader->name, batch->texture->shader->name, batch->texture->shader->usageflags, body); #if MAXRLIGHTMAPS > 1 if (batch->lightmap[3] >= 0) Con_Printf("^2 lm=(%i:%i %i:%i %i:%i %i:%i)", batch->lightmap[0], batch->lmlightstyle[0], batch->lightmap[1], batch->lmlightstyle[1], batch->lightmap[2], batch->lmlightstyle[2], batch->lightmap[3], batch->lmlightstyle[3]); else if (batch->lightmap[2] >= 0) Con_Printf("^2 lm=(%i:%i %i:%i %i:%i)", batch->lightmap[0], batch->lmlightstyle[0], batch->lightmap[1], batch->lmlightstyle[1], batch->lightmap[2], batch->lmlightstyle[2]); else if (batch->lightmap[1] >= 0) Con_Printf("^2 lm=(%i:%i %i:%i)", batch->lightmap[0], batch->lmlightstyle[0], batch->lightmap[1], batch->lmlightstyle[1]); else #endif if (batch->lmlightstyle[0] != INVALID_LIGHTSTYLE) Con_Printf("^2 lm=(%i:%i)", batch->lightmap[0], batch->lmlightstyle[0]); else Con_Printf("^2 lm=%i", batch->lightmap[0]); count++; if (batch->envmap) Con_Printf("^3 envmap=%s", batch->envmap->ident); Con_Printf(" surfs=%u\n", batch->maxmeshes); } } Con_Printf("^h(%u batches, lm %i*%i, lux %s)\n", count, mod->lightmaps.width, mod->lightmaps.height, mod->lightmaps.deluxemapping?"true":"false"); } } } static void Mod_TextureList_f(void) { int m, i; texture_t *tx; model_t *mod; qboolean shownmodelname = false; int count = 0; char *body; char editname[MAX_OSPATH]; int preview = (Cmd_Argc()==1)?8:atoi(Cmd_Argv(1)); int s; batch_t *batch; unsigned int batchcount; for (m=0 , mod=mod_known ; mtype == mod_brush && mod->loadstate == MLS_LOADED) { if (*mod->name == '*') continue;// inlines don't count count = 0; for (i = 0; i < mod->numtextures; i++) { tx = mod->textures[i]; if (!tx) continue; //happens on e1m2 batchcount = 0; for (s = 0; s < SHADER_SORT_COUNT; s++) { for (batch = mod->batches[s]; batch; batch = batch->next) { if (batch->texture == tx) batchcount++; } } // if (!batchcount) // continue; //not actually used... if (!shownmodelname) { shownmodelname = true; Con_Printf("%s\n", mod->name); count = 0; } body = Shader_GetShaderBody(tx->shader, editname, sizeof(editname)); if (!body) body = "SHADER NOT KNOWN"; else { char *cr; while ((cr = strchr(body, '\r'))) *cr = ' '; } if (preview) { if (*editname) Con_Printf("^[\\edit\\%s\\img\\%s\\imgtype\\%i\\s\\%i\\tip\\{%s^]", editname, tx->name, tx->shader->usageflags, preview, body); else Con_Printf("^[\\img\\%s\\imgtype\\%i\\s\\%i\\tip\\{%s^]", tx->shader->name, tx->shader->usageflags, preview, body); } if (*editname) Con_Printf(" ^[%s\\edit\\%s\\tipimg\\%s\\tipimgtype\\%i\\tip\\{%s^] (%u batches)\n", tx->name, editname, tx->name, tx->shader->usageflags, body, batchcount); else Con_Printf(" ^[%s\\tipimg\\%s\\tipimgtype\\%i\\tip\\{%s^] (%u batches)\n", tx->name, tx->shader->name, tx->shader->usageflags, body, batchcount); count++; } } } if (shownmodelname) Con_Printf("(%u textures)\n", count); } static void Mod_BlockTextureColour_f (void) { char texname[64]; model_t *mod; texture_t *tx; // shader_t *s; char *match = Cmd_Argv(1); int i, m; // unsigned int colour[8*8]; unsigned int rgba; ((qbyte *)&rgba)[0] = atoi(Cmd_Argv(2)); ((qbyte *)&rgba)[1] = atoi(Cmd_Argv(3)); ((qbyte *)&rgba)[2] = atoi(Cmd_Argv(4)); ((qbyte *)&rgba)[3] = 255; sprintf(texname, "purergb_%i_%i_%i", (int)((char *)&rgba)[0], (int)((char *)&rgba)[1], (int)((char *)&rgba)[2]); /* s = R_RegisterCustom(Cmd_Argv(2), SUF_LIGHTMAP, NULL, NULL); if (!s) { s = R_RegisterCustom (texname, SUF_LIGHTMAP, Shader_DefaultBSPQ1, NULL); for (i = 0; i < sizeof(colour)/sizeof(colour[0]); i++) colour[i] = rgba; s->defaulttextures.base = GL_LoadTexture32(texname, 8, 8, colour, IF_NOMIPMAP); } */ for (m=0 , mod=mod_known ; mtype == mod_brush && mod->loadstate == MLS_LOADED) { for (i = 0; i < mod->numtextures; i++) { tx = mod->textures[i]; if (!tx) continue; //happens on e1m2 if (!stricmp(tx->name, match)) tx->shader->defaulttextures->base = Image_GetTexture(texname, NULL, IF_NOMIPMAP|IF_NEAREST, &rgba, NULL, 1, 1, TF_BGRA32); } } } } #endif void Mod_RebuildLightmaps (void) { int i, j; msurface_t *surf; model_t *mod; for (i=0 , mod=mod_known ; iloadstate != MLS_LOADED) continue; if (mod->type == mod_brush) { for (j=0, surf = mod->surfaces; jnumsurfaces ; j++, surf++) surf->cached_dlight=-1;//force it } } } void Mod_ResortShaders(void) { //called when some shader changed its sort key. //this means we have to hunt down all models and update their batches. //really its only bsps that need this. batch_t *oldlists[SHADER_SORT_COUNT], *b; int i, j, bs; model_t *mod; for (i=0, mod=mod_known ; iloadstate != MLS_LOADED) continue; memcpy(oldlists, mod->batches, sizeof(oldlists)); memset(mod->batches, 0, sizeof(oldlists)); mod->numbatches = 0; //this is a bit of a misnomer. clearing this will cause it to be recalculated, with everything renumbered as needed. for (j = 0; j < SHADER_SORT_COUNT; j++) { while((b=oldlists[j])) { oldlists[j] = b->next; bs = b->shader?b->shader->sort:j; b->next = mod->batches[bs]; mod->batches[bs] = b; } } } } const char *Mod_GetEntitiesString(model_t *mod) { size_t vl; size_t e; size_t sz; char *o; if (!mod) return NULL; if (mod->entities_raw) //still cached/correct return mod->entities_raw; if (!mod->numentityinfo) return NULL; //reform the entities back into a full string now that we apparently need it //find needed buffer size for (e = 0, sz = 0; e < mod->numentityinfo; e++) { if (!mod->entityinfo[e].keyvals) continue; sz += 2; sz += strlen(mod->entityinfo[e].keyvals); sz += 2; } sz+=1; o = BZ_Malloc(sz); //splurge it out for (e = 0, sz = 0; e < mod->numentityinfo; e++) { if (!mod->entityinfo[e].keyvals) continue; o[sz+0] = '{'; o[sz+1] = '\n'; sz += 2; vl = strlen(mod->entityinfo[e].keyvals); memcpy(&o[sz], mod->entityinfo[e].keyvals, vl); sz += vl; o[sz+0] = '}'; o[sz+1] = '\n'; sz += 2; } o[sz+0] = 0; mod->entities_raw = o; return mod->entities_raw; } void Mod_SetEntitiesString(model_t *mod, const char *str, qboolean docopy) { size_t j; for (j = 0; j < mod->numentityinfo; j++) Z_Free(mod->entityinfo[j].keyvals); mod->numentityinfo = 0; Z_Free(mod->entityinfo); mod->entityinfo = NULL; Z_Free((char*)mod->entities_raw); mod->entities_raw = NULL; if (str) { if (docopy) str = Z_StrDup(str); mod->entities_raw = str; } } void Mod_SetEntitiesStringLen(model_t *mod, const char *str, size_t strsize) { if (str) { char *cpy = BZ_Malloc(strsize+1); memcpy(cpy, str, strsize); cpy[strsize] = 0; Mod_SetEntitiesString(mod, cpy, false); } else Mod_SetEntitiesString(mod, str, false); } void Mod_ParseEntities(model_t *mod) { char key[1024]; char value[4096]; const char *entstart; const char *entend; const char *entdata; size_t c, m; c = 0; m = 0; while (mod->numentityinfo > 0) Z_Free(mod->entityinfo[--mod->numentityinfo].keyvals); Z_Free(mod->entityinfo); mod->entityinfo = NULL; entdata = mod->entities_raw; while(1) { if (!(entdata=COM_ParseOut(entdata, key, sizeof(key)))) break; if (strcmp(key, "{")) break; //skip whitespace to save space. while (*entdata == ' ' || *entdata == '\r' || *entdata == '\n' || *entdata == '\t') entdata++; entstart = entdata; while(1) { entend = entdata; entdata=COM_ParseOut(entdata, key, sizeof(key)); if (!strcmp(key, "}")) break; entdata=COM_ParseOut(entdata, value, sizeof(value)); } if (!entdata) break; //erk. eof if (c == m) { if (!m) m = 64; else m *= 2; mod->entityinfo = BZ_Realloc(mod->entityinfo, sizeof(*mod->entityinfo) * m); } mod->entityinfo[c].id = c+1; mod->entityinfo[c].keyvals = BZ_Malloc(entend-entstart + 1); memcpy(mod->entityinfo[c].keyvals, entstart, entend-entstart); mod->entityinfo[c].keyvals[entend-entstart] = 0; c++; } mod->numentityinfo = c; } /* =================== Mod_ClearAll =================== called before new content is loaded. */ static int mod_datasequence; void Mod_ClearAll (void) { #ifdef RUNTIMELIGHTING RelightTerminate(NULL); #endif mod_datasequence++; } qboolean Mod_PurgeModel(model_t *mod, enum mod_purge_e ptype) { if (mod->loadstate == MLS_LOADING) { if (ptype == MP_MAPCHANGED && !mod->submodelof) return false; //don't bother waiting for it on map changes. COM_WorkerPartialSync(mod, &mod->loadstate, MLS_LOADING); } #ifdef RUNTIMELIGHTING RelightTerminate(mod); #endif #ifdef TERRAIN //we can safely flush all terrain sections at any time if (mod->terrain && ptype != MP_MAPCHANGED) Terr_PurgeTerrainModel(mod, false, true); #endif //purge any vbos if (mod->type == mod_brush) { //brush models cannot be safely flushed. if (ptype != MP_RESET) return false; #ifndef SERVERONLY Surf_Clear(mod); #endif } #ifdef TERRAIN if (mod->type == mod_brush || mod->type == mod_heightmap) { //heightmap/terrain models cannot be safely flushed (brush models might have terrain embedded). if (ptype != MP_RESET) return false; Terr_FreeModel(mod); } #endif if (mod->type == mod_alias) { Mod_DestroyMesh(mod->meshinfo); mod->meshinfo = NULL; } Mod_SetEntitiesString(mod, NULL, false); #ifdef PSET_SCRIPT PScript_ClearSurfaceParticles(mod); #endif //and obliterate anything else remaining in memory. ZG_FreeGroup(&mod->memgroup); mod->meshinfo = NULL; mod->loadstate = MLS_NOTLOADED; mod->submodelof = NULL; mod->pvs = NULL; mod->phs = NULL; #ifndef CLIENTONLY sv.world.lastcheckpvs = NULL; //if the server has that cached, flush it just in case. #endif return true; } //can be called in one of two ways. //force=true: explicit flush. everything goes, even if its still in use. //force=false: map change. lots of stuff is no longer in use and can be freely flushed. //certain models cannot be safely flushed while still in use. such models will not be flushed even if forced (they may still be partially flushed). void Mod_Purge(enum mod_purge_e ptype) { int i; model_t *mod; qboolean unused; for (i=0 , mod=mod_known ; idatasequence != mod_datasequence; if (mod->loadstate == MLS_NOTLOADED) continue; //this model isn't active any more. if (unused || ptype != MP_MAPCHANGED) { if (unused) Con_DLPrintf(2, "model \"%s\" no longer needed\n", mod->name); Mod_PurgeModel(mod, (ptype==MP_FLUSH && unused)?MP_RESET:ptype); } } } #ifndef SERVERONLY void Mod_FindCubemaps_f(void); void Mod_Realign_f(void); void Mod_BSPX_List_f(void); void Mod_BSPX_Strip_f(void); #endif /* =============== Mod_Init =============== */ void Mod_Init (qboolean initial) { if (!mod_known) mod_known = malloc(MAX_MOD_KNOWN * sizeof(*mod_known)); if (!initial) { Mod_ClearAll(); //shouldn't be needed Mod_Purge(MP_RESET);//shouldn't be needed mod_numknown = 0; #ifdef Q1BSPS Q1BSP_Init(); #endif Cmd_AddCommand("mod_memlist", Mod_MemList_f); #ifndef SERVERONLY Cmd_AddCommand("mod_batchlist", Mod_BatchList_f); Cmd_AddCommand("mod_texturelist", Mod_TextureList_f); Cmd_AddCommand("mod_usetexture", Mod_BlockTextureColour_f); #endif } else { Cvar_Register(&mod_external_vis, "Graphical Nicaties"); Cvar_Register(&mod_warnmodels, "Graphical Nicaties"); Cvar_Register(&mod_litsprites_force, "Graphical Nicaties"); Cvar_Register(&mod_loadentfiles, NULL); Cvar_Register(&mod_loadentfiles_dir, NULL); Cvar_Register(&temp_lit2support, NULL); Cvar_Register (&r_meshpitch, "Gamecode"); Cmd_AddCommandD("sv_saveentfile", Mod_SaveEntFile_f, "Dumps a copy of the map's entities to disk, so that it can be edited and used as a replacement for slightly customised maps."); Cmd_AddCommandD("mod_showent", Mod_ShowEnt_f, "Allows you to quickly search through a map's entities."); Cmd_AddCommand("version_modelformats", Mod_PrintFormats_f); #ifndef SERVERONLY Cmd_AddCommandD("mod_findcubemaps", Mod_FindCubemaps_f, "Scans the entities of a map to find reflection envmap sites and determines the nearest one to each surface."); Cmd_AddCommandD("mod_realign", Mod_Realign_f, "Reads the named bsp and writes it back out with only alignment changes."); Cmd_AddCommandD("mod_bspx_list", Mod_BSPX_List_f, "Lists all lumps (and their sizes) in the specified bsp."); Cmd_AddCommandD("mod_bspx_strip", Mod_BSPX_Strip_f, "Strips a named extension lump from a bsp file."); #endif } if (initial) { Alias_Register(); #ifdef SPRMODELS Mod_RegisterModelFormatMagic(NULL, "Quake1 Sprite (spr)", IDSPRITEHEADER, Mod_LoadSpriteModel); #endif #ifdef SP2MODELS Mod_RegisterModelFormatMagic(NULL, "Quake2 Sprite (sp2)", IDSPRITE2HEADER, Mod_LoadSprite2Model); #endif //q2/q3bsps #if defined(Q2BSPS) || defined(Q3BSPS) #ifndef Q2BSPS Mod_RegisterModelFormatMagic(NULL, "Quake3 Map (bsp)", IDBSPHEADER, Mod_LoadQ2BrushModel); #elif !defined(Q3BSPS) Mod_RegisterModelFormatMagic(NULL, "Quake2 Map (bsp)", IDBSPHEADER, Mod_LoadQ2BrushModel); #else Mod_RegisterModelFormatMagic(NULL, "Quake2/Quake3 Map (bsp)", IDBSPHEADER, Mod_LoadQ2BrushModel); #endif #endif #ifdef RFBSPS Mod_RegisterModelFormatMagic(NULL, "Raven Map (bsp)", ('R'<<0)+('B'<<8)+('S'<<16)+('P'<<24), Mod_LoadQ2BrushModel); Mod_RegisterModelFormatMagic(NULL, "QFusion Map (bsp)", ('F'<<0)+('B'<<8)+('S'<<16)+('P'<<24), Mod_LoadQ2BrushModel); #endif //doom maps #ifdef MAP_DOOM Mod_RegisterModelFormatMagic(NULL, "Doom IWad Map", (('D'<<24)+('A'<<16)+('W'<<8)+'I'), Mod_LoadDoomLevel); Mod_RegisterModelFormatMagic(NULL, "Doom PWad Map", (('D'<<24)+('A'<<16)+('W'<<8)+'P'), Mod_LoadDoomLevel); #endif #ifdef MAP_PROC Mod_RegisterModelFormatText(NULL, "Doom3 (cm)", "CM", D3_LoadMap_CollisionMap); #endif #ifdef Q1BSPS //q1-based formats Mod_RegisterModelFormatMagic(NULL, "Quake1 2PSB Map (bsp)", BSPVERSION_LONG1, Mod_LoadBrushModel); Mod_RegisterModelFormatMagic(NULL, "Quake1 BSP2 Map (bsp)", BSPVERSION_LONG2, Mod_LoadBrushModel); Mod_RegisterModelFormatMagic(NULL, "Half-Life Map (bsp)", BSPVERSIONHL, Mod_LoadBrushModel); Mod_RegisterModelFormatMagic(NULL, "Quake1 Map (bsp)", BSPVERSION, Mod_LoadBrushModel); Mod_RegisterModelFormatMagic(NULL, "Quake1 Prerelease Map (bsp)", BSPVERSIONPREREL, Mod_LoadBrushModel); #endif } } void Mod_Shutdown (qboolean final) { if (final) { Mod_ClearAll(); Mod_Purge(MP_RESET); Mod_UnRegisterAllModelFormats(NULL); } else { Mod_ClearAll(); Mod_Purge(MP_RESET); Cmd_RemoveCommand("mod_memlist"); Cmd_RemoveCommand("mod_batchlist"); Cmd_RemoveCommand("mod_texturelist"); Cmd_RemoveCommand("mod_usetexture"); } free(mod_known); mod_known = NULL; mod_numknown = 0; #ifndef SERVERONLY r_worldentity.model = NULL; //just in case. cl_numvisedicts = 0; //make sure nothing gets cached. #endif } /* =============== Mod_Init Caches the data if needed =============== */ void *Mod_Extradata (model_t *mod) { void *r; r = mod->meshinfo; if (r) return r; Mod_LoadModel (mod, MLV_ERROR); if (!mod->meshinfo) Sys_Error ("Mod_Extradata: caching failed"); return mod->meshinfo; } /* =============== Mod_PointInLeaf =============== */ mleaf_t *Mod_PointInLeaf (model_t *model, vec3_t p) { mnode_t *node; float d; mplane_t *plane; if (!model) { Sys_Error ("Mod_PointInLeaf: bad model"); } if (!model->nodes) return NULL; #if defined(Q2BSPS) || defined(Q3BSPS) if (model->fromgame == fg_quake2 || model->fromgame == fg_quake3) { return model->leafs + CM_PointLeafnum(model, p); } #endif if (model->fromgame == fg_doom) { return NULL; } node = model->nodes; while (1) { if (node->contents < 0) return (mleaf_t *)node; plane = node->plane; d = DotProduct (p,plane->normal) - plane->dist; if (d > 0) node = node->children[0]; else node = node->children[1]; } return NULL; // never reached } const char *Mod_FixName(const char *modname, const char *worldname) { if (*modname == '*' && worldname && *worldname) { //make sure that the value is an inline value with no existing extra postfix or anything. char *e; if (strtoul(modname+1, &e, 10) != 0) if (!*e) return va("%s:%s", modname, worldname); } return modname; } //Called when the given file was (re)written. // void Mod_FileWritten (const char *filename) { int i; model_t *mod; for (i=0 , mod=mod_known ; ipublicname, filename) ) { if (mod->loadstate != MLS_NOTLOADED) Mod_PurgeModel(mod, MP_RESET); } } /* ================== Mod_FindName ================== */ model_t *Mod_FindName (const char *name) { int i; model_t *mod; // if (!name[0]) // Sys_Error ("Mod_ForName: NULL name"); // // search the currently loaded models // for (i=0 , mod=mod_known ; ipublicname, name) ) break; if (i == mod_numknown) { #ifdef LOADERTHREAD Sys_LockMutex(com_resourcemutex); for (i=0 , mod=mod_known ; ipublicname, name) ) break; if (i == mod_numknown) { #endif if (mod_numknown == MAX_MOD_KNOWN) Sys_Error ("mod_numknown == MAX_MOD_KNOWN"); if (strlen(name) >= sizeof(mod->publicname)) Sys_Error ("model name is too long: %s", name); memset(mod, 0, sizeof(model_t)); //clear the old model as the renderers use the same globals Q_strncpyz (mod->publicname, name, sizeof(mod->publicname)); Q_strncpyz (mod->name, name, sizeof(mod->name)); mod->loadstate = MLS_NOTLOADED; mod_numknown++; mod->particleeffect = -1; mod->particletrail = -1; #ifdef LOADERTHREAD } Sys_UnlockMutex(com_resourcemutex); #endif } // if (mod->loadstate == MLS_FAILED) // mod->loadstate = MLS_NOTLOADED; //mark it as active, so it doesn't get flushed prematurely mod->datasequence = mod_datasequence; return mod; } /* ================== Mod_TouchModel ================== */ void Mod_TouchModel (const char *name) { //findname does this anyway. Mod_FindName (name); } static struct { void *module; char *formatname; char *ident; unsigned int magic; qboolean (QDECL *load) (model_t *mod, void *buffer, size_t buffersize); } modelloaders[64]; static void Mod_PrintFormats_f(void) { int i; for (i = 0; i < sizeof(modelloaders)/sizeof(modelloaders[0]); i++) { if (modelloaders[i].load && modelloaders[i].formatname) Con_Printf("%s\n", modelloaders[i].formatname); } } int Mod_RegisterModelFormatText(void *module, const char *formatname, char *magictext, qboolean (QDECL *load) (model_t *mod, void *buffer, size_t fsize)) { int i, free = -1; for (i = 0; i < sizeof(modelloaders)/sizeof(modelloaders[0]); i++) { if (modelloaders[i].ident && !strcmp(modelloaders[i].ident, magictext)) { free = i; break; //extension match always replaces } else if (!modelloaders[i].load && free < 0) free = i; } if (free < 0) return 0; modelloaders[free].module = module; modelloaders[free].formatname = Z_StrDup(formatname); modelloaders[free].magic = 0; modelloaders[free].ident = Z_StrDup(magictext); modelloaders[free].load = load; return free+1; } int Mod_RegisterModelFormatMagic(void *module, const char *formatname, unsigned int magic, qboolean (QDECL *load) (model_t *mod, void *buffer, size_t fsize)) { int i, free = -1; for (i = 0; i < sizeof(modelloaders)/sizeof(modelloaders[0]); i++) { if (modelloaders[i].magic && modelloaders[i].magic == magic) { free = i; break; //extension match always replaces } else if (!modelloaders[i].load && free < 0) free = i; } if (free < 0) return 0; modelloaders[free].module = module; if (modelloaders[free].formatname) Z_Free(modelloaders[free].formatname); modelloaders[free].formatname = Z_StrDup(formatname); modelloaders[free].magic = magic; modelloaders[free].ident = NULL; modelloaders[free].load = load; return free+1; } void Mod_UnRegisterModelFormat(void *module, int idx) { idx--; if ((unsigned int)(idx) >= sizeof(modelloaders)/sizeof(modelloaders[0])) return; if (modelloaders[idx].module != module) return; COM_WorkerFullSync(); Z_Free(modelloaders[idx].ident); modelloaders[idx].ident = NULL; Z_Free(modelloaders[idx].formatname); modelloaders[idx].formatname = NULL; modelloaders[idx].magic = 0; modelloaders[idx].load = NULL; modelloaders[idx].module = NULL; //FS_Restart will be needed } void Mod_UnRegisterAllModelFormats(void *module) { int i; COM_WorkerFullSync(); for (i = 0; i < sizeof(modelloaders)/sizeof(modelloaders[0]); i++) { if (modelloaders[i].module == module) Mod_UnRegisterModelFormat(module, i+1); } } //main thread. :( void Mod_ModelLoaded(void *ctx, void *data, size_t a, size_t b) { qboolean previouslyfailed; model_t *mod = ctx; enum mlverbosity_e verbose = b; #ifndef SERVERONLY P_LoadedModel(mod); #endif previouslyfailed = mod->loadstate == MLS_FAILED; mod->loadstate = a; #ifdef TERRAIN if (mod->terrain) Terr_FinishTerrain(mod); #endif #ifndef SERVERONLY if (mod->type == mod_brush) { Surf_BuildModelLightmaps(mod); } if (mod->type == mod_sprite) { Mod_LoadSpriteShaders(mod); } if (mod->type == mod_alias) { if (qrenderer != QR_NONE) Mod_LoadAliasShaders(mod); #ifdef RAGDOLL { int numbones = Mod_GetNumBones(mod, false); if (numbones) { size_t filesize; char *buf; char dollname[MAX_QPATH]; Q_snprintfz(dollname, sizeof(dollname), "%s.doll", mod->name); buf = FS_LoadMallocFile(dollname, &filesize); if (buf) { mod->dollinfo = rag_createdollfromstring(mod, dollname, numbones, buf); BZ_Free(buf); } } } #endif } #endif switch(verbose) { default: case MLV_ERROR: Host_EndGame ("Mod_NumForName: %s not found or couldn't load", mod->name); break; case MLV_WARNSYNC: case MLV_WARN: if (*mod->name != '*' && strcmp(mod->name, "null") && mod_warnmodels.ival && !previouslyfailed) Con_Printf(CON_ERROR "Unable to load %s\n", mod->name); break; case MLV_SILENT: break; } } /* ================== Mod_LoadModel Loads a model into the cache ================== */ static void Mod_LoadModelWorker (void *ctx, void *data, size_t a, size_t b) { model_t *mod = ctx; enum mlverbosity_e verbose = a; unsigned *buf = NULL; char mdlbase[MAX_QPATH]; char *replstr; #ifdef DSPMODELS qboolean doomsprite = false; #endif unsigned int magic, i; size_t filesize; char ext[8]; if (!*mod->publicname) { mod->type = mod_dummy; mod->mins[0] = -16; mod->mins[1] = -16; mod->mins[2] = -16; mod->maxs[0] = 16; mod->maxs[1] = 16; mod->maxs[2] = 16; mod->engineflags = 0; COM_AddWork(WG_MAIN, Mod_ModelLoaded, mod, NULL, MLS_LOADED, 0); return; } #ifdef RAGDOLL if (mod->dollinfo) { rag_freedoll(mod->dollinfo); mod->dollinfo = NULL; } #endif if (mod->loadstate == MLS_FAILED) return; // // load the file // mod->maxlod = 0; // set necessary engine flags for loading purposes if (!strcmp(mod->publicname, "progs/player.mdl")) mod->engineflags |= MDLF_PLAYER | MDLF_DOCRC; else if (!strcmp(mod->publicname, "progs/flame.mdl") || !strcmp(mod->publicname, "progs/flame2.mdl") #ifdef HEXEN2 || !strcmp(mod->publicname, "models/flame1.mdl") //hexen2 small standing flame || !strcmp(mod->publicname, "models/flame2.mdl") //hexen2 large standing flame || !strcmp(mod->publicname, "models/cflmtrch.mdl") //hexen2 wall torch #endif ) mod->engineflags |= MDLF_FLAME; else if (!strcmp(mod->publicname, "progs/bolt.mdl") || !strcmp(mod->publicname, "progs/bolt2.mdl") || !strcmp(mod->publicname, "progs/bolt3.mdl") || !strcmp(mod->publicname, "progs/beam.mdl") #ifdef HEXEN2 || !strcmp(mod->publicname, "models/stsunsf2.mdl") || !strcmp(mod->publicname, "models/stsunsf1.mdl") || !strcmp(mod->publicname, "models/stice.mdl") #endif ) mod->engineflags |= MDLF_BOLT; else if (!strcmp(mod->publicname, "progs/backpack.mdl")) mod->engineflags |= MDLF_NOTREPLACEMENTS; else if (!strcmp(mod->publicname, "progs/eyes.mdl")) mod->engineflags |= MDLF_NOTREPLACEMENTS|MDLF_DOCRC; /*handle ezquake-originated cheats that would feck over fte users if fte didn't support these are the conditions required for r_fb_models on non-players*/ mod->engineflags |= MDLF_EZQUAKEFBCHEAT; if ((mod->engineflags & MDLF_DOCRC) || !strcmp(mod->publicname, "progs/backpack.mdl") || !strcmp(mod->publicname, "progs/gib1.mdl") || !strcmp(mod->publicname, "progs/gib2.mdl") || !strcmp(mod->publicname, "progs/gib3.mdl") || !strcmp(mod->publicname, "progs/h_player.mdl") || !strncmp(mod->publicname, "progs/v_", 8)) mod->engineflags &= ~MDLF_EZQUAKEFBCHEAT; mod->engineflags |= MDLF_RECALCULATERAIN; // get string used for replacement tokens COM_FileExtension(mod->publicname, ext, sizeof(ext)); if (!Q_strcasecmp(ext, "spr") || !Q_strcasecmp(ext, "sp2")) replstr = ""; // sprite #ifdef DSPMODELS else if (!Q_strcasecmp(ext, "dsp")) // doom sprite { replstr = ""; doomsprite = true; } #endif else // assume models replstr = r_replacemodels.string; // gl_load24bit 0 disables all replacements if (!gl_load24bit.value) replstr = ""; COM_StripExtension(mod->publicname, mdlbase, sizeof(mdlbase)); while (replstr) { char token[256]; replstr = COM_ParseStringSet(replstr, token, sizeof(token)); if (replstr) { char altname[MAX_QPATH]; Q_snprintfz(altname, sizeof(altname), "%s.%s", mdlbase, token); TRACE(("Mod_LoadModel: Trying to load (replacement) model \"%s\"\n", altname)); buf = (unsigned *)FS_LoadMallocFile (altname, &filesize); if (buf) Q_strncpyz(mod->name, altname, sizeof(mod->name)); } else { TRACE(("Mod_LoadModel: Trying to load model \"%s\"\n", mod->publicname)); buf = (unsigned *)FS_LoadMallocFile (mod->publicname, &filesize); if (buf) Q_strncpyz(mod->name, mod->publicname, sizeof(mod->name)); else if (!buf) { #ifdef DSPMODELS if (doomsprite) // special case needed for doom sprites { TRACE(("Mod_LoadModel: doomsprite: \"%s\"\n", mod->name)); Mod_LoadDoomSprite(mod); BZ_Free(buf); COM_AddWork(WG_MAIN, Mod_ModelLoaded, mod, NULL, MLS_LOADED, 0); return; } #endif #ifdef TERRAIN if (!Q_strcasecmp(ext, "map")) { const char *dummymap = "{\n" "classname worldspawn\n" "wad \"base.wad\"\n" //we ARE a quake engine after all, and default.wad is generally wrong "message \"Unnamed map\"\n" "{\n" "(-128 128 0) ( 128 128 0) ( 128 -128 0) \"WBRICK1_5\" 0 0 0 1 1\n" "( 128 -128 -16)( 128 128 -16) (-128 128 -16) \"WBRICK1_5\" 0 0 0 1 1\n" "( 128 128 0) (-128 128 0) (-128 128 -16) \"WBRICK1_5\" 0 0 0 1 1\n" "(-128 -128 0) ( 128 -128 0) ( 128 -128 -16) \"WBRICK1_5\" 0 0 0 1 1\n" "(-128 128 0) (-128 -128 0) (-128 -128 -16) \"WBRICK1_5\" 0 0 0 1 1\n" "( 128 -128 0) ( 128 128 0) ( 128 128 -16) \"WBRICK1_5\" 0 0 0 1 1\n" "}\n" "}\n" "{\n" "classname info_player_start\n" "origin \"0 0 24\"\n" "}\n" "{\n" "classname light\n" "origin \"0 0 64\"\n" "}\n"; buf = (unsigned*)Z_StrDup(dummymap); filesize = strlen(dummymap); } else #endif break; // failed to load unreplaced file and nothing left } } if (!buf) continue; if (filesize < 4) { BZ_Free(buf); continue; } // // fill it in // Mod_DoCRC(mod, (char*)buf, filesize); if (filesize < 4) magic = 0; else magic = LittleLong(*(unsigned *)buf); //look for known extensions first, to try to avoid issues with specific formats for(i = 0; i < countof(modelloaders); i++) { if (modelloaders[i].load && modelloaders[i].ident && *modelloaders[i].ident == '.' && !Q_strcasecmp(modelloaders[i].ident, COM_GetFileExtension(mod->name, NULL))) break; } //now look to see if we can find one with the right magic header if (i == countof(modelloaders)) { for(i = 0; i < countof(modelloaders); i++) { if (modelloaders[i].load && modelloaders[i].magic == magic && !modelloaders[i].ident) break; } } if (i < countof(modelloaders)) { if (!modelloaders[i].load(mod, buf, filesize)) { BZ_Free(buf); continue; } } else { COM_ParseOut((char*)buf, token, sizeof(token)); for(i = 0; i < sizeof(modelloaders) / sizeof(modelloaders[0]); i++) { if (modelloaders[i].load && modelloaders[i].ident && !strcmp(modelloaders[i].ident, token)) break; } if (i < sizeof(modelloaders) / sizeof(modelloaders[0])) { if (!modelloaders[i].load(mod, buf, filesize)) { BZ_Free(buf); continue; } } else { Con_Printf(CON_WARNING "Unrecognised model format 0x%x (%c%c%c%c)\n", magic, ((char*)buf)[0], ((char*)buf)[1], ((char*)buf)[2], ((char*)buf)[3]); BZ_Free(buf); continue; } } /* #ifdef MAP_PROC if (!strcmp(com_token, "CM")) //doom3 map. { TRACE(("Mod_LoadModel: doom3 CM\n")); if (!D3_LoadMap_CollisionMap (mod, (char*)buf)) continue; break; } #endif */ TRACE(("Mod_LoadModel: Loaded\n")); BZ_Free(buf); COM_AddWork(WG_MAIN, Mod_ModelLoaded, mod, NULL, MLS_LOADED, 0); return; } mod->type = mod_dummy; mod->mins[0] = -16; mod->mins[1] = -16; mod->mins[2] = -16; mod->maxs[0] = 16; mod->maxs[1] = 16; mod->maxs[2] = 16; mod->engineflags = 0; COM_AddWork(WG_MAIN, Mod_ModelLoaded, mod, NULL, MLS_FAILED, verbose); } model_t *Mod_LoadModel (model_t *mod, enum mlverbosity_e verbose) { if (mod->loadstate == MLS_NOTLOADED && *mod->name != '*') { mod->loadstate = MLS_LOADING; // if (verbose == MLV_ERROR) //if its fatal on failure (ie: world), do it on the main thread and block to wait for it. // Mod_LoadModelWorker(mod, MLV_WARN, 0); // else // if (verbose == MLV_ERROR || verbose == MLV_WARNSYNC) // Mod_LoadModelWorker(mod, NULL, verbose, 0); // COM_AddWork(WG_MAIN, Mod_LoadModelWorker, mod, NULL, verbose, 0); // else COM_AddWork(WG_LOADER, Mod_LoadModelWorker, mod, NULL, verbose, 0); //block until its loaded, if we care. if (verbose == MLV_ERROR || verbose == MLV_WARNSYNC) COM_WorkerPartialSync(mod, &mod->loadstate, MLS_LOADING); } if (verbose == MLV_ERROR) { //someone already tried to load it without caring if it failed or not. make sure its loaded. //fixme: this is a spinloop. if (mod->loadstate == MLS_LOADING) COM_WorkerPartialSync(mod, &mod->loadstate, MLS_LOADING); if (mod->loadstate != MLS_LOADED) Host_EndGame ("Mod_NumForName: %s not found or couldn't load", mod->name); } return mod; } /* ================== Mod_ForName Loads in a model for the given name ================== */ model_t *Mod_ForName (const char *name, enum mlverbosity_e verbosity) { model_t *mod; mod = Mod_FindName (name); return Mod_LoadModel (mod, verbosity); } /* =============================================================================== BRUSHMODEL LOADING =============================================================================== */ #if !defined(SERVERONLY) static const struct { const char *oldname; unsigned int chksum; //xor-compacted md4 const char *newname; } buggytextures[] = { //FIXME: we should load this table from disk or something. //old sum new {"metal5_2", 0x45d110ec, "metal5_2_arc"}, {"metal5_2", 0x0d275f87, "metal5_2_x"}, {"metal5_4", 0xf8e27da8, "metal5_4_arc"}, {"metal5_4", 0xa301c52e, "metal5_4_double"}, {"metal5_8", 0xfaa8bf77, "metal5_8_back"}, {"metal5_8", 0x88792923, "metal5_8_rune"}, {"plat_top1", 0xfe4f9f5a, "plat_top1_bolt"}, {"plat_top1", 0x9ac3fccf, "plat_top1_cable"}, {"sky4", 0xde688b77, "sky1"}, // {"sky4", 0x8a010dc0, "sky4"}, // {"window03", ?, "window03_?"}, // {"window03", ?, "window03_?"}, //FIXME: hexen2 has the same issue. }; static const char *Mod_RemapBuggyTexture(const char *name, const qbyte *data, unsigned int datalen) { unsigned int i; if (!data) return NULL; for (i = 0; i < sizeof(buggytextures)/sizeof(buggytextures[0]); i++) { if (!strcmp(name, buggytextures[i].oldname)) { unsigned int sum = Com_BlockChecksum(data, datalen); for (; i < sizeof(buggytextures)/sizeof(buggytextures[0]); i++) { if (strcmp(name, buggytextures[i].oldname)) break; if (sum == buggytextures[i].chksum) return buggytextures[i].newname; } break; } } return NULL; } static void Mod_FinishTexture(texture_t *tx, const char *loadname, qboolean safetoloadfromwads) { extern cvar_t gl_shadeq1_name; char altname[MAX_QPATH]; char *star; const char *origname = NULL; const char *shadername = tx->name; if (!safetoloadfromwads) { //remap to avoid bugging out on textures with the same name and different images (vanilla content sucks) shadername = Mod_RemapBuggyTexture(shadername, tx->srcdata, tx->srcwidth*tx->srcheight); if (shadername) origname = tx->name; else shadername = tx->name; //find the * if (!*gl_shadeq1_name.string || !strcmp(gl_shadeq1_name.string, "*")) ; else if (!(star = strchr(gl_shadeq1_name.string, '*')) || (strlen(gl_shadeq1_name.string)+strlen(tx->name)+1>=sizeof(altname))) //it's got to fit. shadername = gl_shadeq1_name.string; else { strncpy(altname, gl_shadeq1_name.string, star-gl_shadeq1_name.string); //copy the left altname[star-gl_shadeq1_name.string] = '\0'; strcat(altname, shadername); //insert the * strcat(altname, star+1); //add any final text. shadername = altname; } tx->shader = R_RegisterCustom (shadername, SUF_LIGHTMAP, Shader_DefaultBSPQ1, NULL); if (!tx->srcdata && !safetoloadfromwads) return; } else { //already loaded. don't waste time / crash (this will be a dead pointer). if (tx->srcdata) return; } if (!strncmp(tx->name, "sky", 3)) R_InitSky (tx->shader, shadername, tx->srcfmt, tx->srcdata, tx->srcwidth, tx->srcheight); else { unsigned int maps = 0; maps |= SHADER_HASPALETTED; maps |= SHADER_HASDIFFUSE; if (r_fb_bmodels.ival) maps |= SHADER_HASFULLBRIGHT; if (r_loadbumpmapping || ((r_waterstyle.ival > 1 || r_telestyle.ival > 1) && *tx->name == '*') || tx->shader->defaulttextures->reflectcube) maps |= SHADER_HASNORMALMAP; if (gl_specular.ival) maps |= SHADER_HASGLOSS; R_BuildLegacyTexnums(tx->shader, origname, loadname, maps, 0, tx->srcfmt, tx->srcwidth, tx->srcheight, tx->srcdata, tx->palette); } BZ_Free(tx->srcdata); tx->srcdata = NULL; } #endif void Mod_NowLoadExternal(model_t *loadmodel) { //for halflife bsps where wads are loaded after the map. #if !defined(SERVERONLY) int i; texture_t *tx; char loadname[32]; COM_FileBase (cl.worldmodel->name, loadname, sizeof(loadname)); if (!strncmp(loadname, "b_", 2)) Q_strncpyz(loadname, "bmodels", sizeof(loadname)); for (i=0 ; inumtextures ; i++) { tx = loadmodel->textures[i]; if (!tx) //e1m2, this happens continue; if (tx->srcdata) continue; Mod_FinishTexture(tx, loadname, true); } #endif } qbyte lmgamma[256]; void BuildLightMapGammaTable (float g, float c) { int i, inf; // g = bound (0.1, g, 3); // c = bound (1, c, 3); if (g == 1 && c == 1) { for (i = 0; i < 256; i++) lmgamma[i] = i; return; } for (i = 0; i < 256; i++) { inf = 255 * pow ((i + 0.5) / 255.5 * c, g) + 0.5; if (inf < 0) inf = 0; else if (inf > 255) inf = 255; lmgamma[i] = inf; } } typedef struct { unsigned int magic; //"QLIT" unsigned int version; //2 unsigned int numsurfs; unsigned int lmsize; //samples, not bytes (same size as vanilla lighting lump in a q1 bsp). //uint lmoffsets[numsurfs]; //completely overrides the bsp lightmap info //ushort lmextents[numsurfs*2]; //only to avoid precision issues. width+height pairs, actual lightmap sizes on disk (so +1). //byte lmstyles[numsurfs*4]; //completely overrides the bsp lightmap info //byte lmshifts[numsurfs]; //default is 4 (1<<4=16), for 1/16th lightmap-to-texel ratio //byte litdata[lmsize*3]; //rgb data //byte luxdata[lmsize*3]; //stn light dirs (unsigned bytes } qlit2_t; /* ================= Mod_LoadLighting ================= */ void Mod_LoadLighting (model_t *loadmodel, bspx_header_t *bspx, qbyte *mod_base, lump_t *l, qboolean interleaveddeluxe, lightmapoverrides_t *overrides) { qboolean luxtmp = true; qboolean exptmp = true; qboolean littmp = true; qbyte *luxdata = NULL; //rgb8 qbyte *expdata = NULL; //e5bgr9 (hdr!) qbyte *litdata = NULL; //xyz8 qbyte *lumdata = NULL; //l8 qbyte *out; unsigned int samples; #ifdef RUNTIMELIGHTING qboolean relighting = false; #endif extern cvar_t gl_overbright; loadmodel->lightmaps.fmt = LM_L8; //q3 maps have built in 4-fold overbright. //if we're not rendering with that, we need to brighten the lightmaps in order to keep the darker parts the same brightness. we loose the 2 upper bits. those bright areas become uniform and indistinct. if (loadmodel->fromgame == fg_quake3) { gl_overbright.flags |= CVAR_RENDERERLATCH; BuildLightMapGammaTable(1, (1<<(2-gl_overbright.ival))); } else //lit file light intensity is made to match the world's light intensity. BuildLightMapGammaTable(1, 1); loadmodel->lightdata = NULL; loadmodel->deluxdata = NULL; if (loadmodel->fromgame == fg_halflife || loadmodel->fromgame == fg_quake2 || loadmodel->fromgame == fg_quake3) { litdata = mod_base + l->fileofs; samples = l->filelen/3; } else { lumdata = mod_base + l->fileofs; samples = l->filelen; } if (interleaveddeluxe) samples >>= 1; if (!samples) { expdata = BSPX_FindLump(bspx, mod_base, "LIGHTING_E5BGR9", &samples); //expressed as a big-endian packed int - 0xEBGR type thing, except misaligned and 32bit. samples /= 4; if (!samples) { litdata = BSPX_FindLump(bspx, mod_base, "RGBLIGHTING", &samples); //RGB packed data samples /= 3; if (!samples) return; } } #ifndef SERVERONLY #if 0//def Q2BSPS //Q2XP's alternative to lit files, for higher res lightmaps (that seem to have light coming from the wrong directions...) if (loadmodel->fromgame == fg_quake2 && overrides && !interleaveddeluxe) { char litname[MAX_QPATH]; size_t litsize; qbyte *xplm; COM_StripExtension(loadmodel->name, litname, sizeof(litname)); Q_strncatz(litname, ".xplm", sizeof(litname)); xplm = FS_LoadMallocGroupFile(&loadmodel->memgroup, litname, &litsize); if (litdata) { int scale; size_t numsurfs = LittleLong(*(int *)&xplm[0]); unsigned int *offsets = (unsigned int*)(xplm+4); scale = xplm[(numsurfs+1)*4]; for (overrides->defaultshift=0; scale && !(scale&1); scale>>=1) overrides->defaultshift++; if (scale == 1) { //its a supported shift litdata = xplm+(numsurfs+1)*4+1; samples = (litsize-(numsurfs+1)*4+1)/3; overrides->offsets = offsets; } } } #endif if (!expdata && !litdata && r_loadlits.value) { struct { char *pattern; int type; } litnames[] = { {"%s.lit2",2}, {"%s.hdr",1}, {"%s.lit",0}, {"lits/%s.lit2",2}, {"lits/%s.lit",0}, }; char litbasep[MAX_QPATH]; char litbase[MAX_QPATH]; int depth; int bestdepth = 0x7fffffff; int best = -1; int i; char litname[MAX_QPATH]; size_t litsize; qboolean inhibitvalidation = false; COM_StripExtension(loadmodel->name, litbasep, sizeof(litbasep)); COM_FileBase(loadmodel->name, litbase, sizeof(litbase)); for (i = 0; i < countof(litnames); i++) { if (!temp_lit2support.ival && litnames[i].type==2) continue; if (strchr(litnames[i].pattern, '/')) Q_snprintfz(litname, sizeof(litname), litnames[i].pattern, litbase); else Q_snprintfz(litname, sizeof(litname), litnames[i].pattern, litbasep); depth = COM_FDepthFile(litname, false); if (depth < bestdepth) { bestdepth = depth; best = i; } } if (best >= 0) { if (strchr(litnames[best].pattern, '/')) Q_snprintfz(litname, sizeof(litname), litnames[best].pattern, litbase); else Q_snprintfz(litname, sizeof(litname), litnames[best].pattern, litbasep); litdata = FS_LoadMallocGroupFile(&loadmodel->memgroup, litname, &litsize); } else { litdata = NULL; litsize = 0; } if (litdata) { //validate it, if we loaded one. int litver = LittleLong(*(int *)&litdata[4]); if (litsize < 8 || litdata[0] != 'Q' || litdata[1] != 'L' || litdata[2] != 'I' || litdata[3] != 'T') { litdata = NULL; Con_Printf("lit \"%s\" isn't a lit\n", litname); } else if (litver == 1) { if (l->filelen && samples*3 != (litsize-8)) { litdata = NULL; Con_Printf("lit \"%s\" doesn't match level. Ignored.\n", litname); } else litdata += 8; //header+version } else if (litver == 0x10001) { //hdr lighting, e5bgr9 format if (l->filelen && samples*4 != (litsize-8)) Con_Printf("lit \"%s\" doesn't match level. Ignored.\n", litname); else expdata = litdata+8; //header+version litdata = NULL; } else if (litver == 2 && overrides && litsize > sizeof(qlit2_t)) { qlit2_t *ql2 = (qlit2_t*)litdata; unsigned int *offsets = (unsigned int*)(ql2+1); unsigned short *extents = (unsigned short*)(offsets+ql2->numsurfs); unsigned char *styles = (unsigned char*)(extents+ql2->numsurfs*2); unsigned char *shifts = (unsigned char*)(styles+ql2->numsurfs*4); if (!temp_lit2support.ival) { litdata = NULL; Con_Printf("lit2 support is disabled, pending format finalisation (%s).\n", litname); } else if (loadmodel->numsurfaces != ql2->numsurfs) { litdata = NULL; Con_Printf("lit \"%s\" doesn't match level. Ignored.\n", litname); } else if (litsize != sizeof(qlit2_t)+ql2->numsurfs*4+ql2->lmsize*6) { litdata = NULL; Con_Printf("lit \"%s\" is truncated. Ignored.\n", litname); } else { inhibitvalidation = true; //surface code needs to know the overrides. overrides->offsets = offsets; overrides->extents = extents; overrides->styles8 = styles; overrides->stylesperface = 4; overrides->shifts = shifts; //we're now using this amount of data. samples = ql2->lmsize; litdata = shifts+ql2->numsurfs; if (r_deluxemapping) luxdata = litdata+samples*3; } } else { Con_Printf("lit \"%s\" isn't version 1 or 2.\n", litname); litdata = NULL; } } exptmp = littmp = false; if (!litdata && !expdata) { int size; /*FIXME: bspx support for extents+lmscale, may require style+offset lumps too, not sure what to do here*/ expdata = BSPX_FindLump(bspx, mod_base, "LIGHTING_E5BGR9", &size); exptmp = true; if (size != samples*4) { expdata = NULL; litdata = BSPX_FindLump(bspx, mod_base, "RGBLIGHTING", &size); littmp = true; if (size != samples*3) litdata = NULL; } } else if (!inhibitvalidation) { if (lumdata && litdata) { float prop; int i; qbyte *lum; qbyte *lit; //now some cheat protection. lum = lumdata; lit = litdata; for (i = 0; i < samples; i++) //force it to the same intensity. (or less, depending on how you see it...) { #define m(a, b, c) (a>(b>c?b:c)?a:(b>c?b:c)) prop = (float)m(lit[0], lit[1], lit[2]); if (!prop) { lit[0] = *lum; lit[1] = *lum; lit[2] = *lum; } else { prop = *lum / prop; lit[0] *= prop; lit[1] *= prop; lit[2] *= prop; } lum++; lit+=3; } //end anti-cheat } } } if (!luxdata && r_loadlits.ival && r_deluxemapping) { //the map util has a '-scalecos X' parameter. use 0 if you're going to use only just lux. without lux scalecos 0 is hideous. char luxname[MAX_QPATH]; size_t luxsz = 0; *luxname = 0; if (!luxdata) { Q_strncpyz(luxname, loadmodel->name, sizeof(luxname)); COM_StripExtension(loadmodel->name, luxname, sizeof(luxname)); COM_DefaultExtension(luxname, ".lux", sizeof(luxname)); luxdata = FS_LoadMallocGroupFile(&loadmodel->memgroup, luxname, &luxsz); luxtmp = false; } if (!luxdata) { Q_strncpyz(luxname, "luxs/", sizeof(luxname)); COM_StripExtension(COM_SkipPath(loadmodel->name), luxname+5, sizeof(luxname)-5); Q_strncatz(luxname, ".lux", sizeof(luxname)); luxdata = FS_LoadMallocGroupFile(&loadmodel->memgroup, luxname, &luxsz); luxtmp = false; } if (!luxdata) //dp... { COM_StripExtension(loadmodel->name, luxname, sizeof(luxname)); COM_DefaultExtension(luxname, ".dlit", sizeof(luxname)); luxdata = FS_LoadMallocGroupFile(&loadmodel->memgroup, luxname, &luxsz); luxtmp = false; } //make sure the .lux has the correct size if (luxdata && l->filelen && l->filelen != (luxsz-8)/3) { Con_Printf("deluxmap \"%s\" doesn't match level. Ignored.\n", luxname); luxdata=NULL; } if (!luxdata) { int size; luxdata = BSPX_FindLump(bspx, mod_base, "LIGHTINGDIR", &size); if (size != samples*3) luxdata = NULL; luxtmp = true; } else { if (luxsz < 8 || (luxdata[0] == 'Q' && luxdata[1] == 'L' && luxdata[2] == 'I' && luxdata[3] == 'T')) { if (LittleLong(*(int *)&luxdata[4]) == 1) luxdata+=8; else { Con_Printf("\"%s\" isn't a version 1 deluxmap\n", luxname); luxdata=NULL; } } else { Con_Printf("lit \"%s\" isn't a deluxmap\n", luxname); luxdata=NULL; } } } #endif #ifdef RUNTIMELIGHTING if ((loadmodel->type == mod_brush && loadmodel->fromgame == fg_quake) || loadmodel->type == mod_heightmap) { //we only support a couple of formats. :( if (r_loadlits.value >= 2 && ((!litdata&&!expdata) || (!luxdata && r_deluxemapping))) { relighting = RelightSetup(loadmodel, l->filelen, !litdata&&!expdata); } else if (r_deluxemapping_cvar.value>1 && r_deluxemapping && !luxdata #ifdef RTLIGHTS && !(r_shadow_realtime_world.ival && r_shadow_realtime_world_lightmaps.value<=0) #endif ) { //if deluxemapping is on, generate missing lux files a little more often, but don't bother if we have rtlights on anyway. relighting = RelightSetup(loadmodel, l->filelen, false); } } /*if we're relighting, make sure there's the proper lit data to be updated*/ if (relighting && !litdata && !expdata) { int i; unsigned int *ergb; if (r_loadlits.ival >= 3) { ergb = ZG_Malloc(&loadmodel->memgroup, samples*4); expdata = (qbyte*)ergb; littmp = false; if (lumdata) { for (i = 0; i < samples; i++) ergb[i] = 15<<27 | lumdata[i]<<18 | lumdata[i]<<9 << lumdata[i]<<0; lumdata = NULL; } } else { litdata = ZG_Malloc(&loadmodel->memgroup, samples*3); littmp = false; if (lumdata) { for (i = 0; i < samples; i++) { litdata[i*3+0] = lumdata[i]; litdata[i*3+1] = lumdata[i]; litdata[i*3+2] = lumdata[i]; } lumdata = NULL; } } } /*if we're relighting, make sure there's the proper lux data to be updated*/ if (relighting && r_deluxemapping && !luxdata) { int i; luxdata = ZG_Malloc(&loadmodel->memgroup, samples*3); for (i = 0; i < samples; i++) { luxdata[i*3+0] = 0.5f*255; luxdata[i*3+1] = 0.5f*255; luxdata[i*3+2] = 255; } } #endif if (overrides && !overrides->shifts) { int size; overrides->shifts = BSPX_FindLump(bspx, mod_base, "LMSHIFT", &size); if (size != loadmodel->numsurfaces) overrides->shifts = NULL; //if we have shifts, then we probably also have legacy data in the surfaces that we want to override if (!overrides->offsets) { int size; overrides->offsets = BSPX_FindLump(bspx, mod_base, "LMOFFSET", &size); if (size != loadmodel->numsurfaces * sizeof(int)) overrides->offsets = NULL; } if (!overrides->styles8 && !overrides->styles16) { //16bit per-face lightmap styles index int size; overrides->styles16 = BSPX_FindLump(bspx, mod_base, "LMSTYLE16", &size); overrides->stylesperface = size / (sizeof(*overrides->styles16)*loadmodel->numsurfaces); //rounding issues will be caught on the next line... if (!overrides->stylesperface || size != loadmodel->numsurfaces * sizeof(*overrides->styles16)*overrides->stylesperface) overrides->styles16 = NULL; else if (overrides->stylesperface > MAXQ1LIGHTMAPS) Con_Printf(CON_WARNING "LMSTYLE16 lump provides %i styles, only the first %i will be used.\n", overrides->stylesperface, MAXQ1LIGHTMAPS); } if (!overrides->styles8 && !overrides->styles16) { //16bit per-face lightmap styles index int size; overrides->styles8 = BSPX_FindLump(bspx, mod_base, "LMSTYLE", &size); overrides->stylesperface = size / (sizeof(*overrides->styles8)*loadmodel->numsurfaces); //rounding issues will be caught on the next line... if (!overrides->stylesperface || size != loadmodel->numsurfaces * sizeof(*overrides->styles8)*overrides->stylesperface) overrides->styles8 = NULL; else if (overrides->stylesperface > MAXQ1LIGHTMAPS) Con_Printf(CON_WARNING "LMSTYLE lump provides %i styles, only the first %i will be used.\n", overrides->stylesperface, MAXQ1LIGHTMAPS); } } if (luxdata && luxtmp) { loadmodel->deluxdata = ZG_Malloc(&loadmodel->memgroup, samples*3); memcpy(loadmodel->deluxdata, luxdata, samples*3); } else if (luxdata) loadmodel->deluxdata = luxdata; else if (interleaveddeluxe) loadmodel->deluxdata = ZG_Malloc(&loadmodel->memgroup, samples*3); if (expdata) { loadmodel->lightmaps.fmt = LM_E5BGR9; loadmodel->lightdatasize = samples*4; if (exptmp) { loadmodel->lightdata = ZG_Malloc(&loadmodel->memgroup, samples*4); memcpy(loadmodel->lightdata, expdata, samples*4); } else loadmodel->lightdata = expdata; //FIXME: no desaturation/gamma logic. return; } else if (litdata) { loadmodel->lightmaps.fmt = LM_RGB8; if (littmp) loadmodel->lightdata = ZG_Malloc(&loadmodel->memgroup, samples*3); /*the memcpy is below*/ else loadmodel->lightdata = litdata; samples*=3; } else if (lumdata) { loadmodel->lightmaps.fmt = LM_L8; loadmodel->lightdata = ZG_Malloc(&loadmodel->memgroup, samples); litdata = lumdata; } /*apply lightmap gamma to the entire lightmap*/ loadmodel->lightdatasize = samples; out = loadmodel->lightdata; if (interleaveddeluxe) { qbyte *luxout = loadmodel->deluxdata; samples /= 3; while(samples-- > 0) { *out++ = lmgamma[*litdata++]; *out++ = lmgamma[*litdata++]; *out++ = lmgamma[*litdata++]; *luxout++ = *litdata++; *luxout++ = *litdata++; *luxout++ = *litdata++; } } else { while(samples-- > 0) { *out++ = lmgamma[*litdata++]; } } #ifndef SERVERONLY if ((loadmodel->lightmaps.fmt == LM_RGB8) && r_lightmap_saturation.value != 1.0f) SaturateR8G8B8(loadmodel->lightdata, l->filelen, r_lightmap_saturation.value); #endif } //scans through the worldspawn for a single specific key. const char *Mod_ParseWorldspawnKey(model_t *mod, const char *key, char *buffer, size_t sizeofbuffer) { char keyname[64]; char value[1024]; const char *ents = Mod_GetEntitiesString(mod); while(ents && *ents) { ents = COM_ParseOut(ents, keyname, sizeof(keyname)); if (*keyname == '{') //an entity { while (ents && *ents) { ents = COM_ParseOut(ents, keyname, sizeof(keyname)); if (*keyname == '}') break; ents = COM_ParseOut(ents, value, sizeof(value)); if (!strcmp(keyname, key) || (*keyname == '_' && !strcmp(keyname+1, key))) { Q_strncpyz(buffer, value, sizeofbuffer); return buffer; } } return ""; //worldspawn only. } } return ""; //err... } static void Mod_ShowEnt_f(void) { model_t *mod = NULL; size_t idx = atoi(Cmd_Argv(1)); char *n = Cmd_Argv(2); if (*n) mod = Mod_ForName(n, MLV_WARN); #ifndef CLIENTONLY if (sv.state && !mod) mod = sv.world.worldmodel; #endif #ifndef SERVERONLY if (cls.state && !mod) mod = cl.worldmodel; #endif if (mod && mod->loadstate == MLS_LOADING) COM_WorkerPartialSync(mod, &mod->loadstate, MLS_LOADING); if (!mod || mod->loadstate != MLS_LOADED) { Con_Printf("Map not loaded\n"); return; } if (!mod->numentityinfo) Mod_ParseEntities(mod); if (!idx && strcmp(Cmd_Argv(1), "0")) { char *match = Cmd_Argv(1); unsigned count = 0; for (idx = 0; idx < mod->numentityinfo; idx++) { if (strstr(mod->entityinfo[idx].keyvals, match)) { Con_Printf("{\t//%u\n%s\n}\n", (unsigned)idx, mod->entityinfo[idx].keyvals); count++; } } Con_Printf("%u of %u ents match\n", (unsigned)count, (unsigned)mod->numentityinfo); } else if (idx >= mod->numentityinfo) Con_Printf("Invalid entity index (max %u).\n", (unsigned)mod->numentityinfo); else if (!mod->entityinfo[idx].keyvals) Con_Printf("Entity index was cleared...\n"); else Con_Printf("{\n%s\n}\n", mod->entityinfo[idx].keyvals); } static void Mod_SaveEntFile_f(void) { char fname[MAX_QPATH]; char nname[MAX_OSPATH]; model_t *mod = NULL; char *n = Cmd_Argv(1); const char *ents; if (*n) mod = Mod_ForName(n, MLV_WARN); #ifndef CLIENTONLY if (sv.state && !mod) mod = sv.world.worldmodel; #endif #ifndef SERVERONLY if (cls.state && !mod) mod = cl.worldmodel; #endif if (mod && mod->loadstate == MLS_LOADING) COM_WorkerPartialSync(mod, &mod->loadstate, MLS_LOADING); if (!mod || mod->loadstate != MLS_LOADED) { Con_Printf("Map not loaded\n"); return; } ents = Mod_GetEntitiesString(mod); if (!ents) { Con_Printf("Map is not a map, and has no entities\n"); return; } if (*mod_loadentfiles_dir.string && !strncmp(mod->name, "maps/", 5)) { Q_snprintfz(fname, sizeof(fname), "maps/%s/%s", mod_loadentfiles_dir.string, mod->name+5); COM_StripExtension(fname, fname, sizeof(fname)); Q_strncatz(fname, ".ent", sizeof(fname)); } else { COM_StripExtension(mod->name, fname, sizeof(fname)); Q_strncatz(fname, ".ent", sizeof(fname)); } if (COM_WriteFile(fname, FS_GAMEONLY, ents, strlen(ents))) { if (FS_NativePath(fname, FS_GAMEONLY, nname, sizeof(nname))) Con_Printf("Wrote %s\n", nname); } else Con_Printf("Write failed\n"); } /* ================= Mod_LoadEntities ================= */ void Mod_LoadEntities (model_t *loadmodel, qbyte *mod_base, lump_t *l) { char fname[MAX_QPATH]; size_t sz; char keyname[64]; char value[1024]; char *ents = NULL, *k; int t; Mod_SetEntitiesString(loadmodel, NULL, false); if (!l->filelen) return; if (mod_loadentfiles.value && !ents && *mod_loadentfiles_dir.string) { if (!strncmp(loadmodel->name, "maps/", 5)) { Q_snprintfz(fname, sizeof(fname), "maps/%s/%s", mod_loadentfiles_dir.string, loadmodel->name+5); COM_StripExtension(fname, fname, sizeof(fname)); Q_strncatz(fname, ".ent", sizeof(fname)); ents = FS_LoadMallocFile(fname, &sz); } } if (mod_loadentfiles.value && !ents) { COM_StripExtension(loadmodel->name, fname, sizeof(fname)); Q_strncatz(fname, ".ent", sizeof(fname)); ents = FS_LoadMallocFile(fname, &sz); } if (mod_loadentfiles.value && !ents) { //tenebrae compat COM_StripExtension(loadmodel->name, fname, sizeof(fname)); Q_strncatz(fname, ".edo", sizeof(fname)); ents = FS_LoadMallocFile(fname, &sz); } if (!ents) { ents = Z_Malloc(l->filelen + 1); memcpy (ents, mod_base + l->fileofs, l->filelen); ents[l->filelen] = 0; } else loadmodel->entitiescrc = QCRC_Block(ents, strlen(ents)); Mod_SetEntitiesString(loadmodel, ents, false); while(ents && *ents) { ents = COM_ParseOut(ents, keyname, sizeof(keyname)); if (*keyname == '{') //an entity { while (ents && *ents) { ents = COM_ParseOut(ents, keyname, sizeof(keyname)); if (*keyname == '}') break; ents = COM_ParseOut(ents, value, sizeof(value)); if (!strncmp(keyname, "_texpart_", 9) || !strncmp(keyname, "texpart_", 8)) { k = keyname + ((*keyname=='_')?9:8); for (t = 0; t < loadmodel->numtextures; t++) { if (!strcmp(k, loadmodel->textures[t]->name)) { loadmodel->textures[t]->partname = ZG_Malloc(&loadmodel->memgroup, strlen(value)+1); strcpy(loadmodel->textures[t]->partname, value); break; } } if (t == loadmodel->numtextures) Con_Printf("\"%s\" is not valid for %s\n", keyname, loadmodel->name); } } } } } /* ================= Mod_LoadVertexes ================= */ qboolean Mod_LoadVertexes (model_t *loadmodel, qbyte *mod_base, lump_t *l) { dvertex_t *in; mvertex_t *out; int i, count; in = (void *)(mod_base + l->fileofs); count = l->filelen / sizeof(*in); if (l->filelen % sizeof(*in) || count > SANITY_LIMIT(*out)) { Con_Printf (CON_ERROR "MOD_LoadBmodel: funny lump size in %s\n", loadmodel->name); return false; } out = ZG_Malloc(&loadmodel->memgroup, count*sizeof(*out)); loadmodel->vertexes = out; loadmodel->numvertexes = count; for ( i=0 ; iposition[0] = LittleFloat (in->point[0]); out->position[1] = LittleFloat (in->point[1]); out->position[2] = LittleFloat (in->point[2]); } return true; } qboolean Mod_LoadVertexNormals (model_t *loadmodel, bspx_header_t *bspx, qbyte *mod_base, lump_t *l) { float *in; float *out; int i, count; if (l) { in = (void *)(mod_base + l->fileofs); count = l->filelen / sizeof(vec3_t); if (l->filelen % sizeof(*in) || count > SANITY_LIMIT(vec3_t)) { Con_Printf (CON_ERROR "MOD_LoadBmodel: funny lump size in %s\n", loadmodel->name); return false; } } else { in = BSPX_FindLump(bspx, mod_base, "VERTEXNORMALS", &count); if (in) count /= sizeof(vec3_t); else count = 0; } if (count != loadmodel->numvertexes) return false; //invalid number of verts there, can't use this. out = ZG_Malloc(&loadmodel->memgroup, count*sizeof(vec3_t)); loadmodel->normals = (vec3_t*)out; for ( i=0 ; imesh; float *vec; float s, t, d; int sty; // int w,h; if (!mesh) { mesh = surf->mesh = ZG_Malloc(&mod->memgroup, sizeof(mesh_t) + (sizeof(vecV_t)+sizeof(vec2_t)*(1+1)+sizeof(vec3_t)*3+sizeof(vec4_t)*1)* surf->numedges + sizeof(index_t)*(surf->numedges-2)*3); mesh->numvertexes = surf->numedges; mesh->numindexes = (mesh->numvertexes-2)*3; mesh->xyz_array = (vecV_t*)(mesh+1); mesh->st_array = (vec2_t*)(mesh->xyz_array+mesh->numvertexes); mesh->lmst_array[0] = (vec2_t*)(mesh->st_array+mesh->numvertexes); mesh->normals_array = (vec3_t*)(mesh->lmst_array[0]+mesh->numvertexes); mesh->snormals_array = (vec3_t*)(mesh->normals_array+mesh->numvertexes); mesh->tnormals_array = (vec3_t*)(mesh->snormals_array+mesh->numvertexes); mesh->colors4f_array[0] = (vec4_t*)(mesh->tnormals_array+mesh->numvertexes); mesh->indexes = (index_t*)(mesh->colors4f_array[0]+mesh->numvertexes); } mesh->istrifan = true; //output the mesh's indicies for (i=0 ; inumvertexes-2 ; i++) { mesh->indexes[i*3] = 0; mesh->indexes[i*3+1] = i+1; mesh->indexes[i*3+2] = i+2; } //output the renderable verticies for (i=0 ; inumvertexes ; i++) { lindex = mod->surfedges[surf->firstedge + i]; edgevert = lindex <= 0; if (edgevert) lindex = -lindex; if (lindex < 0 || lindex >= mod->numedges) vertidx = 0; else vertidx = mod->edges[lindex].v[edgevert]; vec = mod->vertexes[vertidx].position; s = DotProduct (vec, surf->texinfo->vecs[0]) + surf->texinfo->vecs[0][3]; t = DotProduct (vec, surf->texinfo->vecs[1]) + surf->texinfo->vecs[1][3]; VectorCopy (vec, mesh->xyz_array[i]); /* if (R_GetShaderSizes(surf->texinfo->texture->shader, &w, &h, false) > 0) { mesh->st_array[i][0] = s/w; mesh->st_array[i][1] = t/h; } else */ { mesh->st_array[i][0] = s; mesh->st_array[i][1] = t; if (surf->texinfo->texture->vwidth) mesh->st_array[i][0] /= surf->texinfo->texture->vwidth; if (surf->texinfo->texture->vheight) mesh->st_array[i][1] /= surf->texinfo->texture->vheight; } #ifndef SERVERONLY if (r_lightmap_average.ival) { for (sty = 0; sty < 1; sty++) { mesh->lmst_array[sty][i][0] = (surf->extents[0]*0.5 + (surf->light_s[sty]<lmshift) + (1<lmshift)*0.5) / (mod->lightmaps.width<lmshift); mesh->lmst_array[sty][i][1] = (surf->extents[1]*0.5 + (surf->light_t[sty]<lmshift) + (1<lmshift)*0.5) / (mod->lightmaps.height<lmshift); } } else #endif { for (sty = 0; sty < 1; sty++) { mesh->lmst_array[sty][i][0] = (s - surf->texturemins[0] + (surf->light_s[sty]<lmshift) + (1<lmshift)*0.5) / (mod->lightmaps.width<lmshift); mesh->lmst_array[sty][i][1] = (t - surf->texturemins[1] + (surf->light_t[sty]<lmshift) + (1<lmshift)*0.5) / (mod->lightmaps.height<lmshift); } } //figure out the texture directions, for bumpmapping and stuff if (mod->normals && (surf->texinfo->flags & 0x800) && (mod->normals[vertidx][0] || mod->normals[vertidx][1] || mod->normals[vertidx][2])) { //per-vertex normals - used for smoothing groups and stuff. VectorCopy(mod->normals[vertidx], mesh->normals_array[i]); } else { if (surf->flags & SURF_PLANEBACK) VectorNegate(surf->plane->normal, mesh->normals_array[i]); else VectorCopy(surf->plane->normal, mesh->normals_array[i]); } VectorCopy(surf->texinfo->vecs[0], mesh->snormals_array[i]); VectorNegate(surf->texinfo->vecs[1], mesh->tnormals_array[i]); //the s+t vectors are axis-aligned, so fiddle them so they're normal aligned instead d = -DotProduct(mesh->normals_array[i], mesh->snormals_array[i]); VectorMA(mesh->snormals_array[i], d, mesh->normals_array[i], mesh->snormals_array[i]); d = -DotProduct(mesh->normals_array[i], mesh->tnormals_array[i]); VectorMA(mesh->tnormals_array[i], d, mesh->normals_array[i], mesh->tnormals_array[i]); VectorNormalize(mesh->snormals_array[i]); VectorNormalize(mesh->tnormals_array[i]); //q1bsp has no colour information (fixme: sample from the lightmap?) for (sty = 0; sty < 1; sty++) { mesh->colors4f_array[sty][i][0] = 1; mesh->colors4f_array[sty][i][1] = 1; mesh->colors4f_array[sty][i][2] = 1; mesh->colors4f_array[sty][i][3] = 1; } } } #endif #ifndef SERVERONLY static void Mod_Batches_BuildModelMeshes(model_t *mod, int maxverts, int maxindicies, void (*build)(model_t *mod, msurface_t *surf, builddata_t *bd), builddata_t *bd, int lmmerge) { batch_t *batch; msurface_t *surf; mesh_t *mesh; int numverts = 0; int numindicies = 0; int j, i; int sortid; int sty; vbo_t vbo; int styles = mod->lightmaps.surfstyles; char *ptr; memset(&vbo, 0, sizeof(vbo)); vbo.indicies.sysptr = ZG_Malloc(&mod->memgroup, sizeof(index_t) * maxindicies); ptr = ZG_Malloc(&mod->memgroup, (sizeof(vecV_t)+sizeof(vec2_t)*(1+styles)+sizeof(vec3_t)*3+sizeof(vec4_t)*styles)* maxverts); vbo.coord.sysptr = ptr; ptr += sizeof(vecV_t)*maxverts; for (sty = 0; sty < styles; sty++) { vbo.colours[sty].sysptr = ptr; ptr += sizeof(vec4_t)*maxverts; } for (; sty < MAXRLIGHTMAPS; sty++) vbo.colours[sty].sysptr = NULL; vbo.texcoord.sysptr = ptr; ptr += sizeof(vec2_t)*maxverts; sty = 0; for (; sty < styles; sty++) { vbo.lmcoord[sty].sysptr = ptr; ptr += sizeof(vec2_t)*maxverts; } for (; sty < MAXRLIGHTMAPS; sty++) vbo.lmcoord[sty].sysptr = NULL; vbo.normals.sysptr = ptr; ptr += sizeof(vec3_t)*maxverts; vbo.svector.sysptr = ptr; ptr += sizeof(vec3_t)*maxverts; vbo.tvector.sysptr = ptr; ptr += sizeof(vec3_t)*maxverts; numindicies = 0; numverts = 0; //build each mesh for (sortid=0; sortidbatches[sortid]; batch; batch = batch->next) { for (j = 0; j < batch->maxmeshes; j++) { surf = (msurface_t*)batch->mesh[j]; mesh = surf->mesh; batch->mesh[j] = mesh; mesh->vbofirstvert = numverts; mesh->vbofirstelement = numindicies; numverts += mesh->numvertexes; numindicies += mesh->numindexes; //set up the arrays. the arrangement is required for the backend to optimise vbos mesh->xyz_array = (vecV_t*)vbo.coord.sysptr + mesh->vbofirstvert; mesh->st_array = (vec2_t*)vbo.texcoord.sysptr + mesh->vbofirstvert; for (sty = 0; sty < MAXRLIGHTMAPS; sty++) { if (vbo.lmcoord[sty].sysptr) mesh->lmst_array[sty] = (vec2_t*)vbo.lmcoord[sty].sysptr + mesh->vbofirstvert; else mesh->lmst_array[sty] = NULL; if (vbo.colours[sty].sysptr) mesh->colors4f_array[sty] = (vec4_t*)vbo.colours[sty].sysptr + mesh->vbofirstvert; else mesh->colors4f_array[sty] = NULL; } mesh->normals_array = (vec3_t*)vbo.normals.sysptr + mesh->vbofirstvert; mesh->snormals_array = (vec3_t*)vbo.svector.sysptr + mesh->vbofirstvert; mesh->tnormals_array = (vec3_t*)vbo.tvector.sysptr + mesh->vbofirstvert; mesh->indexes = (index_t*)vbo.indicies.sysptr + mesh->vbofirstelement; mesh->vbofirstvert = 0; mesh->vbofirstelement = 0; build(mod, surf, bd); if (lmmerge != 1) { for (sty = 0; sty < MAXRLIGHTMAPS; sty++) { if (surf->lightmaptexturenums[sty] >= 0) { if (mod->lightmaps.deluxemapping) surf->lightmaptexturenums[sty] /= 2; if (mesh->lmst_array[sty]) { int soffset = surf->lightmaptexturenums[sty] % mod->lightmaps.mergew; int toffset = surf->lightmaptexturenums[sty] / mod->lightmaps.mergew; float smul = 1.0/mod->lightmaps.mergew; float tmul = 1.0/mod->lightmaps.mergeh; for (i = 0; i < mesh->numvertexes; i++) { mesh->lmst_array[sty][i][0] += soffset; mesh->lmst_array[sty][i][0] *= smul; mesh->lmst_array[sty][i][1] += toffset; mesh->lmst_array[sty][i][1] *= tmul; } } surf->lightmaptexturenums[sty] /= lmmerge; if (mod->lightmaps.deluxemapping) surf->lightmaptexturenums[sty] *= 2; } } } } batch->meshes = 0; batch->firstmesh = 0; } } } #ifdef Q1BSPS //q1 autoanimates. if the frame is set, it uses the alternate animation. static void Mod_UpdateBatchShader_Q1 (struct batch_s *batch) { texture_t *base = batch->texture; unsigned int relative; int count; if (batch->ent->framestate.g[FS_REG].frame[0]) { if (base->alternate_anims) base = base->alternate_anims; } if (base->anim_total) { relative = (unsigned int)(cl.time*10) % base->anim_total; count = 0; while (base->anim_min > relative || base->anim_max <= relative) { base = base->anim_next; if (!base) Sys_Error ("R_TextureAnimation: broken cycle"); if (++count > 100) Sys_Error ("R_TextureAnimation: infinite cycle"); } } batch->shader = base->shader; } #endif #ifdef Q2BSPS //q2 has direct control over the texture frames used, but typically has the client generate the frame (different flags autogenerate different ranges). static void Mod_UpdateBatchShader_Q2 (struct batch_s *batch) { texture_t *base = batch->texture; int reletive; int frame = batch->ent->framestate.g[FS_REG].frame[0]; if (batch->ent == &r_worldentity) frame = cl.time*2; if (base->anim_total) { reletive = frame % base->anim_total; while (reletive --> 0) { base = base->anim_next; if (!base) Sys_Error ("R_TextureAnimation: broken cycle"); } } batch->shader = base->shader; } #endif #define lmmerge(i) ((i>=0)?i/merge:i) /* batch->firstmesh is set only in and for this function, its cleared out elsewhere */ static int Mod_Batches_Generate(model_t *mod) { int i; msurface_t *surf; shader_t *shader; int sortid; batch_t *batch, *lbatch = NULL; vec4_t plane; image_t *envmap; int merge = mod->lightmaps.mergew*mod->lightmaps.mergeh; if (!merge) merge = mod->lightmaps.mergew = mod->lightmaps.mergeh = 1; //no division by 0 please... if (mod->lightmaps.deluxemapping) { mod->lightmaps.count = ((mod->lightmaps.count+1)/2+merge-1) & ~(merge-1); mod->lightmaps.count /= merge; mod->lightmaps.count *= 2; } else { mod->lightmaps.count = (mod->lightmaps.count+merge-1) & ~(merge-1); mod->lightmaps.count /= merge; } mod->lightmaps.width *= mod->lightmaps.mergew; mod->lightmaps.height *= mod->lightmaps.mergeh; mod->numbatches = 0; //for each surface, find a suitable batch to insert it into. //we use 'firstmesh' to avoid chucking out too many verts in a single vbo (gl2 hardware tends to have a 16bit limit) for (i=0; inummodelsurfaces; i++) { surf = mod->surfaces + mod->firstmodelsurface + i; shader = surf->texinfo->texture->shader; envmap = surf->envmap; if (surf->flags & SURF_NODRAW) { shader = R_RegisterShader("nodraw", SUF_NONE, "{\nsurfaceparm nodraw\n}"); sortid = shader->sort; VectorClear(plane); plane[3] = 0; envmap = NULL; } else if (shader) { sortid = shader->sort; //shaders that are portals need to be split into separate batches to have the same surface planes if (sortid == SHADER_SORT_PORTAL || (shader->flags & (SHADER_HASREFLECT | SHADER_HASREFRACT))) { if (surf->flags & SURF_PLANEBACK) { VectorNegate(surf->plane->normal, plane); plane[3] = -surf->plane->dist; } else { VectorCopy(surf->plane->normal, plane); plane[3] = surf->plane->dist; } } else { VectorClear(plane); plane[3] = 0; } if (!(shader->flags & SHADER_HASREFLECTCUBE)) envmap = NULL; } else { sortid = SHADER_SORT_OPAQUE; VectorClear(plane); plane[3] = 0; } if (lbatch && ( lbatch->texture == surf->texinfo->texture && lbatch->shader == shader && lbatch->lightmap[0] == lmmerge(surf->lightmaptexturenums[0]) && Vector4Compare(plane, lbatch->plane) && lbatch->firstmesh + surf->mesh->numvertexes <= MAX_INDICIES && #if MAXRLIGHTMAPS > 1 lbatch->lightmap[1] == lmmerge(surf->lightmaptexturenums[1]) && lbatch->lightmap[2] == lmmerge(surf->lightmaptexturenums[2]) && lbatch->lightmap[3] == lmmerge(surf->lightmaptexturenums[3]) && #endif lbatch->fog == surf->fog && lbatch->envmap == envmap)) batch = lbatch; else { for (batch = mod->batches[sortid]; batch; batch = batch->next) { if ( batch->texture == surf->texinfo->texture && batch->shader == shader && batch->lightmap[0] == lmmerge(surf->lightmaptexturenums[0]) && Vector4Compare(plane, batch->plane) && batch->firstmesh + surf->mesh->numvertexes <= MAX_INDICIES && #if MAXRLIGHTMAPS > 1 batch->lightmap[1] == lmmerge(surf->lightmaptexturenums[1]) && batch->lightmap[2] == lmmerge(surf->lightmaptexturenums[2]) && batch->lightmap[3] == lmmerge(surf->lightmaptexturenums[3]) && #endif batch->fog == surf->fog && batch->envmap == envmap) break; } } if (!batch) { batch = ZG_Malloc(&mod->memgroup, sizeof(*batch)); batch->lightmap[0] = lmmerge(surf->lightmaptexturenums[0]); #if MAXRLIGHTMAPS > 1 batch->lightmap[1] = lmmerge(surf->lightmaptexturenums[1]); batch->lightmap[2] = lmmerge(surf->lightmaptexturenums[2]); batch->lightmap[3] = lmmerge(surf->lightmaptexturenums[3]); #endif batch->texture = surf->texinfo->texture; batch->shader = shader; if (surf->texinfo->texture->alternate_anims || surf->texinfo->texture->anim_total) { switch (mod->fromgame) { #ifdef Q2BSPS case fg_quake2: batch->buildmeshes = Mod_UpdateBatchShader_Q2; break; #endif #ifdef Q1BSPS case fg_quake: case fg_halflife: batch->buildmeshes = Mod_UpdateBatchShader_Q1; break; #endif default: break; } } batch->next = mod->batches[sortid]; batch->ent = &r_worldentity; batch->fog = surf->fog; batch->envmap = envmap; Vector4Copy(plane, batch->plane); mod->batches[sortid] = batch; } surf->sbatch = batch; //let the surface know which batch its in batch->maxmeshes++; batch->firstmesh += surf->mesh->numvertexes; lbatch = batch; } return merge; #undef lmmerge } void Mod_LightmapAllocInit(lmalloc_t *lmallocator, qboolean hasdeluxe, unsigned int width, unsigned int height, int firstlm) { memset(lmallocator, 0, sizeof(*lmallocator)); lmallocator->deluxe = hasdeluxe; lmallocator->lmnum = firstlm; lmallocator->firstlm = firstlm; lmallocator->width = width; lmallocator->height = height; } void Mod_LightmapAllocDone(lmalloc_t *lmallocator, model_t *mod) { mod->lightmaps.first = lmallocator->firstlm; mod->lightmaps.count = (lmallocator->lmnum - lmallocator->firstlm); if (lmallocator->allocated[0]) //lmnum was only *COMPLETE* lightmaps that we allocated, and does not include the one we're currently building. mod->lightmaps.count++; if (lmallocator->deluxe) { mod->lightmaps.first*=2; mod->lightmaps.count*=2; mod->lightmaps.deluxemapping = true; } else mod->lightmaps.deluxemapping = false; } void Mod_LightmapAllocBlock(lmalloc_t *lmallocator, int w, int h, unsigned short *x, unsigned short *y, int *tnum) { int best, best2; int i, j; for(;;) { best = lmallocator->height; for (i = 0; i <= lmallocator->width - w; i++) { best2 = 0; for (j=0; j < w; j++) { if (lmallocator->allocated[i+j] >= best) break; if (lmallocator->allocated[i+j] > best2) best2 = lmallocator->allocated[i+j]; } if (j == w) { // this is a valid spot *x = i; *y = best = best2; } } if (best + h > lmallocator->height) { memset(lmallocator->allocated, 0, sizeof(lmallocator->allocated)); lmallocator->lmnum++; continue; } for (i=0; i < w; i++) lmallocator->allocated[*x + i] = best + h; if (lmallocator->deluxe) *tnum = lmallocator->lmnum*2; else *tnum = lmallocator->lmnum; break; } } #ifdef Q3BSPS static void Mod_Batches_SplitLightmaps(model_t *mod, int lmmerge) { batch_t *batch; batch_t *nb; int i, j, sortid; msurface_t *surf; int sty; int lmscale = 1; if (mod->lightmaps.deluxemapping) { lmmerge *= 2; lmscale *= 2; } for (sortid = 0; sortid < SHADER_SORT_COUNT; sortid++) for (batch = mod->batches[sortid]; batch != NULL; batch = batch->next) { surf = (msurface_t*)batch->mesh[0]; for (sty = 0; sty < MAXRLIGHTMAPS; sty++) { batch->lightmap[sty] = (surf->lightmaptexturenums[sty]>=0)?lmscale*(surf->lightmaptexturenums[sty]/lmmerge):surf->lightmaptexturenums[sty]; batch->lmlightstyle[sty] = surf->styles[sty]; batch->vtlightstyle[sty] = surf->vlstyles[sty]; } for (j = 1; j < batch->maxmeshes; j++) { surf = (msurface_t*)batch->mesh[j]; for (sty = 0; sty < MAXRLIGHTMAPS; sty++) { int lm = (surf->lightmaptexturenums[sty]>=0)?lmscale*(surf->lightmaptexturenums[sty]/lmmerge):surf->lightmaptexturenums[sty]; if (lm != batch->lightmap[sty] || //fixme: we should merge later (reverted matching) surfaces into the prior batch surf->styles[sty] != batch->lmlightstyle[sty] || surf->vlstyles[sty] != batch->vtlightstyle[sty]) break; } if (sty < MAXRLIGHTMAPS) { nb = ZG_Malloc(&mod->memgroup, sizeof(*batch)); *nb = *batch; batch->next = nb; nb->mesh = batch->mesh + j*2; nb->maxmeshes = batch->maxmeshes - j; batch->maxmeshes = j; for (sty = 0; sty < MAXRLIGHTMAPS; sty++) { int lm = (surf->lightmaptexturenums[sty]>=0)?lmscale*(surf->lightmaptexturenums[sty]/lmmerge):surf->lightmaptexturenums[sty]; nb->lightmap[sty] = lm; nb->lmlightstyle[sty] = surf->styles[sty]; nb->vtlightstyle[sty] = surf->vlstyles[sty]; } memmove(nb->mesh, batch->mesh+j, sizeof(msurface_t*)*nb->maxmeshes); for (i = 0; i < nb->maxmeshes; i++) { surf = (msurface_t*)nb->mesh[i]; surf->sbatch = nb; } batch = nb; j = 1; } } } } #endif #if defined(Q1BSPS) || defined(Q2BSPS) static void Mod_LightmapAllocSurf(lmalloc_t *lmallocator, msurface_t *surf, int surfstyle) { int smax, tmax; smax = (surf->extents[0]>>surf->lmshift)+1; tmax = (surf->extents[1]>>surf->lmshift)+1; if (isDedicated || (surf->texinfo->texture->shader && !(surf->texinfo->texture->shader->flags & SHADER_HASLIGHTMAP)) || //fte (surf->flags & (SURF_DRAWSKY|SURF_DRAWTILED)) || //q1 (surf->texinfo->flags & TEX_SPECIAL) || //the original 'no lightmap' (surf->texinfo->flags & (TI_SKY|TI_TRANS33|TI_TRANS66|TI_WARP)) || //q2 surfaces smax > lmallocator->width || tmax > lmallocator->height || smax < 0 || tmax < 0) //bugs/bounds/etc { surf->lightmaptexturenums[surfstyle] = -1; return; } Mod_LightmapAllocBlock (lmallocator, smax, tmax, &surf->light_s[surfstyle], &surf->light_t[surfstyle], &surf->lightmaptexturenums[surfstyle]); } /* allocates lightmaps and splits batches upon lightmap boundaries */ static void Mod_Batches_AllocLightmaps(model_t *mod) { batch_t *batch; batch_t *nb; lmalloc_t lmallocator; int i, j, sortid; msurface_t *surf; int sty; size_t samps = 0; //small models don't have many surfaces, don't allocate a smegging huge lightmap that simply won't be used. for (i=0, j=0; inummodelsurfaces; i++) { surf = mod->surfaces + mod->firstmodelsurface + i; if (surf->texinfo->flags & TEX_SPECIAL) continue; //surfaces with no lightmap should not count torwards anything. samps += ((surf->extents[0]>>surf->lmshift)+1) * ((surf->extents[1]>>surf->lmshift)+1); if (j < (surf->extents[0]>>surf->lmshift)+1) j = (surf->extents[0]>>surf->lmshift)+1; if (j < (surf->extents[1]>>surf->lmshift)+1) j = (surf->extents[1]>>surf->lmshift)+1; } samps /= 4; samps = sqrt(samps); if (j > 128 || r_dynamic.ival <= 0) samps *= 2; mod->lightmaps.width = bound(j, samps, LMBLOCK_SIZE_MAX); mod->lightmaps.height = bound(j, samps, LMBLOCK_SIZE_MAX); for (i = 0; (1<lightmaps.width; i++); mod->lightmaps.width = 1<lightmaps.height; i++); mod->lightmaps.height = 1<lightmaps.width = bound(64, mod->lightmaps.width, sh_config.texture2d_maxsize); mod->lightmaps.height = bound(64, mod->lightmaps.height, sh_config.texture2d_maxsize); Mod_LightmapAllocInit(&lmallocator, mod->deluxdata != NULL, mod->lightmaps.width, mod->lightmaps.height, 0x50); for (sortid = 0; sortid < SHADER_SORT_COUNT; sortid++) for (batch = mod->batches[sortid]; batch != NULL; batch = batch->next) { surf = (msurface_t*)batch->mesh[0]; Mod_LightmapAllocSurf (&lmallocator, surf, 0); for (sty = 1; sty < MAXRLIGHTMAPS; sty++) surf->lightmaptexturenums[sty] = -1; for (sty = 0; sty < MAXRLIGHTMAPS; sty++) { batch->lightmap[sty] = surf->lightmaptexturenums[sty]; batch->lmlightstyle[sty] = INVALID_LIGHTSTYLE;//don't do special backend rendering of lightstyles. batch->vtlightstyle[sty] = 255;//don't do special backend rendering of lightstyles. } for (j = 1; j < batch->maxmeshes; j++) { surf = (msurface_t*)batch->mesh[j]; Mod_LightmapAllocSurf (&lmallocator, surf, 0); for (sty = 1; sty < MAXRLIGHTMAPS; sty++) surf->lightmaptexturenums[sty] = -1; if (surf->lightmaptexturenums[0] != batch->lightmap[0]) { nb = ZG_Malloc(&mod->memgroup, sizeof(*batch)); *nb = *batch; batch->next = nb; nb->mesh = batch->mesh + j*2; nb->maxmeshes = batch->maxmeshes - j; batch->maxmeshes = j; for (sty = 0; sty < MAXRLIGHTMAPS; sty++) nb->lightmap[sty] = surf->lightmaptexturenums[sty]; memmove(nb->mesh, batch->mesh+j, sizeof(msurface_t*)*nb->maxmeshes); for (i = 0; i < nb->maxmeshes; i++) { surf = (msurface_t*)nb->mesh[i]; surf->sbatch = nb; } batch = nb; j = 0; } } } Mod_LightmapAllocDone(&lmallocator, mod); } #endif extern void Surf_CreateSurfaceLightmap (msurface_t *surf, int shift); //if build is NULL, uses q1/q2 surf generation, and allocates lightmaps static void Mod_Batches_Build(model_t *mod, builddata_t *bd) { int i; int numverts = 0, numindicies=0; msurface_t *surf; mesh_t *mesh; mesh_t **bmeshes; int sortid; batch_t *batch; mesh_t *meshlist; int merge = 1; currentmodel = mod; if (!mod->textures) return; if (mod->firstmodelsurface + mod->nummodelsurfaces > mod->numsurfaces) Sys_Error("submodel %s surface range is out of bounds\n", mod->name); if (bd) meshlist = NULL; else meshlist = ZG_Malloc(&mod->memgroup, sizeof(mesh_t) * mod->nummodelsurfaces); for (i=0; inummodelsurfaces; i++) { surf = mod->surfaces + i + mod->firstmodelsurface; if (meshlist) { mesh = surf->mesh = &meshlist[i]; mesh->numvertexes = surf->numedges; mesh->numindexes = (surf->numedges-2)*3; } else mesh = surf->mesh; numverts += mesh->numvertexes; numindicies += mesh->numindexes; // surf->lightmaptexturenum = -1; } /*assign each mesh to a batch, generating as needed*/ merge = Mod_Batches_Generate(mod); bmeshes = ZG_Malloc(&mod->memgroup, sizeof(*bmeshes)*mod->nummodelsurfaces*R_MAX_RECURSE); //we now know which batch each surface is in, and how many meshes there are in each batch. //allocate the mesh-pointer-lists for each batch. *2 for recursion. for (i = 0, sortid = 0; sortid < SHADER_SORT_COUNT; sortid++) for (batch = mod->batches[sortid]; batch != NULL; batch = batch->next) { batch->mesh = bmeshes + i; i += batch->maxmeshes*R_MAX_RECURSE; } //store the *surface* into the batch's mesh list (yes, this is an evil cast hack, but at least both are pointers) for (i=0; inummodelsurfaces; i++) { surf = mod->surfaces + mod->firstmodelsurface + i; surf->sbatch->mesh[surf->sbatch->meshes++] = (mesh_t*)surf; } #if defined(Q1BSPS) || defined(Q2BSPS) if (!bd) { Mod_Batches_AllocLightmaps(mod); mod->lightmaps.surfstyles = 1; Mod_Batches_BuildModelMeshes(mod, numverts, numindicies, ModQ1_Batches_BuildQ1Q2Poly, bd, merge); } #endif #if defined(Q3BSPS) if (bd) { Mod_Batches_SplitLightmaps(mod, merge); Mod_Batches_BuildModelMeshes(mod, numverts, numindicies, bd->buildfunc, bd, merge); } #endif if (BE_GenBrushModelVBO) BE_GenBrushModelVBO(mod); } #endif /* ================= Mod_SetParent ================= */ void Mod_SetParent (mnode_t *node, mnode_t *parent) { if (!node) return; node->parent = parent; if (node->contents < 0) return; Mod_SetParent (node->children[0], node); Mod_SetParent (node->children[1], node); } #if defined(Q1BSPS) || defined(Q2BSPS) /* ================= Mod_LoadEdges ================= */ qboolean Mod_LoadEdges (model_t *loadmodel, qbyte *mod_base, lump_t *l, qboolean lm) { medge_t *out; int i, count; if (lm) { dledge_t *in = (void *)(mod_base + l->fileofs); count = l->filelen / sizeof(*in); if (l->filelen % sizeof(*in) || count > SANITY_LIMIT(*out)) { Con_Printf ("MOD_LoadBmodel: funny lump size in %s\n", loadmodel->name); return false; } out = ZG_Malloc(&loadmodel->memgroup, (count + 1) * sizeof(*out)); loadmodel->edges = out; loadmodel->numedges = count; for ( i=0 ; iv[0] = LittleLong(in->v[0]); out->v[1] = LittleLong(in->v[1]); } } else { dsedge_t *in = (void *)(mod_base + l->fileofs); count = l->filelen / sizeof(*in); if (l->filelen % sizeof(*in) || count > SANITY_LIMIT(*out)) { Con_Printf ("MOD_LoadBmodel: funny lump size in %s\n", loadmodel->name); return false; } out = ZG_Malloc(&loadmodel->memgroup, (count + 1) * sizeof(*out)); loadmodel->edges = out; loadmodel->numedges = count; for ( i=0 ; iv[0] = (unsigned short)LittleShort(in->v[0]); out->v[1] = (unsigned short)LittleShort(in->v[1]); } } return true; } /* ================= Mod_LoadMarksurfaces ================= */ qboolean Mod_LoadMarksurfaces (model_t *loadmodel, qbyte *mod_base, lump_t *l, qboolean lm) { int i, j, count; msurface_t **out; if (lm) { int *inl; inl = (void *)(mod_base + l->fileofs); count = l->filelen / sizeof(*inl); if (l->filelen % sizeof(*inl) || count > SANITY_LIMIT(*out)) { Con_Printf (CON_ERROR "MOD_LoadBmodel: funny lump size in %s\n",loadmodel->name); return false; } out = ZG_Malloc(&loadmodel->memgroup, count*sizeof(*out)); loadmodel->marksurfaces = out; loadmodel->nummarksurfaces = count; for ( i=0 ; i= loadmodel->numsurfaces) { Con_Printf (CON_ERROR "Mod_ParseMarksurfaces: bad surface number\n"); return false; } out[i] = loadmodel->surfaces + j; } } else { short *ins; ins = (void *)(mod_base + l->fileofs); count = l->filelen / sizeof(*ins); if (l->filelen % sizeof(*ins) || count > SANITY_LIMIT(*out)) { Con_Printf (CON_ERROR "MOD_LoadBmodel: funny lump size in %s\n",loadmodel->name); return false; } out = ZG_Malloc(&loadmodel->memgroup, count*sizeof(*out)); loadmodel->marksurfaces = out; loadmodel->nummarksurfaces = count; for ( i=0 ; i= loadmodel->numsurfaces) { Con_Printf (CON_ERROR "Mod_ParseMarksurfaces: bad surface number\n"); return false; } out[i] = loadmodel->surfaces + j; } } return true; } /* ================= Mod_LoadSurfedges ================= */ qboolean Mod_LoadSurfedges (model_t *loadmodel, qbyte *mod_base, lump_t *l) { int i, count; int *in, *out; in = (void *)(mod_base + l->fileofs); count = l->filelen / sizeof(*in); if (l->filelen % sizeof(*in) || count > SANITY_LIMIT(*out)) { Con_Printf (CON_ERROR "MOD_LoadBmodel: funny lump size in %s\n",loadmodel->name); return false; } out = ZG_Malloc(&loadmodel->memgroup, count*sizeof(*out)); loadmodel->surfedges = out; loadmodel->numsurfedges = count; for ( i=0 ; ifileofs; len = l->filelen; } if (!len) { loadmodel->visdata = NULL; return; } loadmodel->visdata = ZG_Malloc(&loadmodel->memgroup, len); memcpy (loadmodel->visdata, ptr, len); } #ifndef SERVERONLY static void Mod_LoadMiptex(model_t *loadmodel, texture_t *tx, miptex_t *mt, size_t miptexsize) { unsigned int legacysize = (mt->width>>0)*(mt->height>>0) + (mt->width>>1)*(mt->height>>1) + (mt->width>>2)*(mt->height>>2) + (mt->width>>3)*(mt->height>>3); uploadfmt_t newfmt = PTI_INVALID; size_t neww=0, newh=0; qbyte *newdata=NULL; qbyte *pal = NULL; //bug: vanilla quake ignored offsets and just made assumptions. //this means we can't just play with offsets to hide stuff, we have to postfix it (which requires guessing lump sizes) //issue: halflife textures have (leshort)256,(byte)pal[256*3] stuck on the end //we signal the presence of our extended data using 0x00,0xfb,0x2b,0xaf (this should be uncommon as the next mip's name shouldn't normally be empty, nor a weird char (which should hopefully also not come from random stack junk in the wad tool) //each extended block of data then has a size value, followed by a block name. //compressed formats then contain a width+height value, and then a FULL (round-down) mip chain. //if the gpu doesn't support npot, or its too big, or can't use the pixelformat then the engine will simply have to fall back on the paletted data. lets hope it was present. size_t extofs; if (!mt->offsets[0]) extofs = sizeof(miptex_t); else if (mt->offsets[0] == sizeof(miptex_t) && mt->offsets[1] == mt->offsets[0]+(mt->width>>0)*(mt->height>>0) && mt->offsets[2] == mt->offsets[1]+(mt->width>>1)*(mt->height>>1) && mt->offsets[3] == mt->offsets[2]+(mt->width>>2)*(mt->height>>2)) { extofs = mt->offsets[3]+(mt->width>>3)*(mt->height>>3); if (loadmodel->fromgame == fg_halflife && *(short*)((qbyte *)mt + mt->offsets[3] + (mt->width>>3)*(mt->height>>3)) == 256) { pal = (qbyte*)mt + extofs+2; extofs += 2+256*3; } } else extofs = miptexsize; //the numbers don't match what we expect... something weird is going on here... don't misinterpret it. if (extofs+4 <= miptexsize && ((qbyte*)mt)[extofs+0] == 0 && ((qbyte*)mt)[extofs+1]==0xfb && ((qbyte*)mt)[extofs+2]==0x2b && ((qbyte*)mt)[extofs+3]==0xaf) { unsigned int extsize; extofs += 4; for (; extofs < miptexsize; extofs += extsize) { size_t sz, w, h; unsigned int bb,bw,bh; int mip; qbyte *extdata = (void*)((qbyte*)mt+extofs); char *extfmt = (char*)(extdata+4); extsize = (extdata[0]<<0)|(extdata[1]<<8)|(extdata[2]<<16)|(extdata[3]<<24); if (extsize<8 || extofs+extsize>miptexsize) break; //not a valid entry... something weird is happening here else if (!strncmp(extfmt, "NAME", 4)) { //replacement name, for longer shader/external names size_t sz = extsize-8; if (sz >= sizeof(tx->name)) continue; memcpy(tx->name, (qbyte*)extdata+8, sz); tx->name[sz] = 0; } else if (!strncmp(extfmt, "LPAL", 4) && extsize == 8+256*3) { //replacement palette for the 8bit data, for feature parity with halflife, but with extra markup so we know its actually meant to be a replacement palette. pal = extdata+8; continue; } else if (extsize <= 16) continue; //too small for an altformat lump else if (newdata != PTI_INVALID) continue; //only accept the first accepted format (allowing for eg astc+bc1 fallbacks) else if (!strncmp(extfmt, "RGBA", 4)) newfmt = PTI_RGBA8; //32bpp, we don't normally need this alpha precision (padding can be handy though, for the lazy). else if (!strncmp(extfmt, "RGB", 4)) newfmt = PTI_RGB8; //24bpp else if (!strncmp(extfmt, "565", 4)) newfmt = PTI_RGB565; //16bpp else if (!strncmp(extfmt, "5551", 4)) newfmt = PTI_RGBA5551; //16bpp else if (!strncmp(extfmt, "EXP5", 4)) newfmt = PTI_E5BGR9; //32bpp, we don't normally need this alpha precision... else if (!strncmp(extfmt, "BC1", 4)) newfmt = PTI_BC1_RGBA; //4bpp else if (!strncmp(extfmt, "BC2", 4)) newfmt = PTI_BC2_RGBA; //8bpp, we don't normally need this alpha precision... else if (!strncmp(extfmt, "BC3", 4)) newfmt = PTI_BC3_RGBA; //8bpp, we don't normally need this alpha precision... else if (!strncmp(extfmt, "BC4", 4)) newfmt = PTI_BC4_R; //4bpp, wtf else if (!strncmp(extfmt, "BC5", 4)) newfmt = PTI_BC5_RG; //8bpp, wtf else if (!strncmp(extfmt, "BC6", 4)) newfmt = PTI_BC6_RGB_UFLOAT; //8bpp, weird else if (!strncmp(extfmt, "BC7", 4)) newfmt = PTI_BC7_RGBA; //8bpp else if (!strncmp(extfmt, "AST4", 4)) newfmt = PTI_ASTC_4X4_LDR; //8 bpp else if (!strncmp(extfmt, "AS54", 4)) newfmt = PTI_ASTC_5X4_LDR; //6.40bpp else if (!strncmp(extfmt, "AST5", 4)) newfmt = PTI_ASTC_5X5_LDR; //5.12bpp else if (!strncmp(extfmt, "AS65", 4)) newfmt = PTI_ASTC_6X5_LDR; //4.17bpp else if (!strncmp(extfmt, "AST6", 4)) newfmt = PTI_ASTC_6X6_LDR; //3.56bpp else if (!strncmp(extfmt, "AS85", 4)) newfmt = PTI_ASTC_8X5_LDR; //3.20bpp else if (!strncmp(extfmt, "AS86", 4)) newfmt = PTI_ASTC_8X6_LDR; //2.67bpp else if (!strncmp(extfmt, "AS05", 4)) newfmt = PTI_ASTC_10X5_LDR; //2.56bpp else if (!strncmp(extfmt, "AS06", 4)) newfmt = PTI_ASTC_10X6_LDR; //2.13bpp else if (!strncmp(extfmt, "AST8", 4)) newfmt = PTI_ASTC_8X8_LDR; //2 bpp else if (!strncmp(extfmt, "AS08", 4)) newfmt = PTI_ASTC_10X8_LDR; //1.60bpp else if (!strncmp(extfmt, "AS00", 4)) newfmt = PTI_ASTC_10X10_LDR; //1.28bpp else if (!strncmp(extfmt, "AS20", 4)) newfmt = PTI_ASTC_12X10_LDR; //1.07bpp else if (!strncmp(extfmt, "AST2", 4)) newfmt = PTI_ASTC_12X12_LDR; //0.89bpp else if (!strncmp(extfmt, "ETC1", 4)) newfmt = PTI_ETC1_RGB8; //4bpp else if (!strncmp(extfmt, "ETC2", 4)) newfmt = PTI_ETC2_RGB8; //4bpp else if (!strncmp(extfmt, "ETCP", 4)) newfmt = PTI_ETC2_RGB8A1; //4bpp else if (!strncmp(extfmt, "ETCA", 4)) newfmt = PTI_ETC2_RGB8A8; //8bpp, we don't normally need this alpha precision... else continue; //dunno what that is, ignore it //alternative textures are usually compressed //this means we insist on a FULL mip chain //npot mips are explicitly round-down (but don't drop to 0 with non-square). Image_BlockSizeForEncoding(newfmt, &bb, &bw, &bh); neww = (extdata[8]<<0)|(extdata[9]<<8)|(extdata[10]<<16)|(extdata[11]<<24); newh = (extdata[12]<<0)|(extdata[13]<<8)|(extdata[14]<<16)|(extdata[15]<<24); for (mip = 0, w=neww, h=newh, sz=0; w || h; mip++, w>>=1,h>>=1) { w = max(1, w); h = max(1, h); sz += bb * ((w+bw-1)/bw) * ((h+bh-1)/bh); //Support truncation to top-mip only? tempting... } if (extsize != 16+sz) { Con_Printf("miptex %s has incomplete mipchain\n", Image_FormatName(newfmt)); continue; } //make sure we're not going to need to rescale compressed formats. //gles<3 or gl<2 requires npot inputs for this to work. I guess that means dx9.3+ gpus, so all astc+bc7 but not necessarily all bc1+etc2. oh well. if (!sh_config.texture_non_power_of_two) { if (neww & (neww - 1)) continue; if (newh & (newh - 1)) continue; } //make sure its within our limits if (!neww || !newh || neww > sh_config.texture2d_maxsize || newh > sh_config.texture2d_maxsize) continue; //that our hardware supports it... (Note: FTE can soft-decompress all of the above so this doesn't make too much sense if there's only one) //if (!sh_config.texfmt[newfmt]) // continue; //that we can actually use non-paletted data... if (r_softwarebanding && mt->offsets[0]) continue; newdata = BZ_Malloc(sz); memcpy(newdata, extdata+16, sz); } } if (newdata) { tx->srcfmt = newfmt|PTI_FULLMIPCHAIN; tx->srcwidth = neww; tx->srcheight = newh; tx->srcdata = newdata; tx->palette = NULL; return; } if (pal) { //mostly identical, just a specific palette hidden at the end. handle fences elsewhere. tx->srcdata = BZ_Malloc(legacysize + 768); tx->palette = tx->srcdata + legacysize; memcpy(tx->palette, pal, 768); } else { tx->srcdata = BZ_Malloc(legacysize); tx->palette = NULL; } if (tx->palette) { //halflife, probably... if (*tx->name == '{') tx->srcfmt = TF_MIP4_8PAL24_T255; else tx->srcfmt = TF_MIP4_8PAL24; } else { if (*tx->name == '{') tx->srcfmt = TF_TRANS8; else tx->srcfmt = TF_MIP4_SOLID8; } tx->srcwidth = mt->width; tx->srcheight = mt->height; legacysize = 0; memcpy(tx->srcdata+legacysize, (qbyte *)mt + mt->offsets[0], (mt->width>>0)*(mt->height>>0)); legacysize += (mt->width>>0)*(mt->height>>0); memcpy(tx->srcdata+legacysize, (qbyte *)mt + mt->offsets[1], (mt->width>>1)*(mt->height>>1)); legacysize += (mt->width>>1)*(mt->height>>1); memcpy(tx->srcdata+legacysize, (qbyte *)mt + mt->offsets[2], (mt->width>>2)*(mt->height>>2)); legacysize += (mt->width>>2)*(mt->height>>2); memcpy(tx->srcdata+legacysize, (qbyte *)mt + mt->offsets[3], (mt->width>>3)*(mt->height>>3)); // legacysize += (mt->width>>3)*(mt->height>>3); } #endif /* ================= Mod_LoadTextures ================= */ static qboolean Mod_LoadTextures (model_t *loadmodel, qbyte *mod_base, lump_t *l) { int i, j, num, max, altmax; miptex_t *mt; texture_t *tx, *tx2; texture_t *anims[10]; texture_t *altanims[10]; dmiptexlump_t *m; unsigned int *sizes; unsigned int e, o; TRACE(("dbg: Mod_LoadTextures: inittexturedescs\n")); // Mod_InitTextureDescs(loadname); if (!l->filelen) { Con_Printf(CON_WARNING "warning: %s contains no texture data\n", loadmodel->name); loadmodel->numtextures = 1; loadmodel->textures = ZG_Malloc(&loadmodel->memgroup, 1 * sizeof(*loadmodel->textures)); i = 0; tx = ZG_Malloc(&loadmodel->memgroup, sizeof(texture_t)); memcpy(tx, r_notexture_mip, sizeof(texture_t)); sprintf(tx->name, "unnamed%i", i); loadmodel->textures[i] = tx; return true; } m = (dmiptexlump_t *)(mod_base + l->fileofs); m->nummiptex = LittleLong (m->nummiptex); loadmodel->numtextures = m->nummiptex; loadmodel->textures = ZG_Malloc(&loadmodel->memgroup, m->nummiptex * sizeof(*loadmodel->textures)); sizes = alloca(sizeof(*sizes)*m->nummiptex); for (i=m->nummiptex, e = l->filelen; i-->0; ) { o = LittleLong(m->dataofs[i]); if (o >= l->filelen) //e1m2, this happens { tx = ZG_Malloc(&loadmodel->memgroup, sizeof(texture_t)); memcpy(tx, r_notexture_mip, sizeof(texture_t)); sprintf(tx->name, "unnamed%i", i); loadmodel->textures[i] = tx; continue; } if (o >= e) e = l->filelen; //something doesn't make sense. try to avoid making too many assumptions. mt = (miptex_t *)((qbyte *)m + o); TRACE(("dbg: Mod_LoadTextures: texture %s\n", mt->name)); if (!*mt->name) //I HATE MAPPERS! { Q_snprintfz(mt->name, sizeof(mt->name), "unnamed%i", i); Con_DPrintf(CON_WARNING "warning: unnamed texture in %s, renaming to %s\n", loadmodel->name, mt->name); } mt->width = LittleLong (mt->width); mt->height = LittleLong (mt->height); for (j=0 ; joffsets[j] = LittleLong (mt->offsets[j]); if ( (mt->width & 15) || (mt->height & 15) ) Con_Printf (CON_WARNING "Warning: Texture %s is not 16 aligned", mt->name); if (mt->width < 1 || mt->height < 1) Con_Printf (CON_WARNING "Warning: Texture %s has no size", mt->name); tx = ZG_Malloc(&loadmodel->memgroup, sizeof(texture_t)); loadmodel->textures[i] = tx; Q_strncpyz(tx->name, mt->name, min(sizeof(mt->name)+1, sizeof(tx->name))); tx->vwidth = mt->width; tx->vheight = mt->height; #ifndef SERVERONLY Mod_LoadMiptex(loadmodel, tx, mt, e-o); #else (void)e; #endif e = o; } // // sequence the animations // for (i=0 ; inummiptex ; i++) { tx = loadmodel->textures[i]; if (!tx || tx->name[0] != '+') continue; if (tx->anim_next) continue; // already sequenced // find the number of frames in the animation memset (anims, 0, sizeof(anims)); memset (altanims, 0, sizeof(altanims)); max = tx->name[1]; altmax = 0; if (max >= 'a' && max <= 'z') max -= 'a' - 'A'; if (max >= '0' && max <= '9') { max -= '0'; altmax = 0; anims[max] = tx; max++; } else if (max >= 'A' && max <= 'J') { altmax = max - 'A'; max = 0; altanims[altmax] = tx; altmax++; } else { Con_Printf (CON_ERROR "Bad animating texture %s\n", tx->name); return false; } for (j=i+1 ; jnummiptex ; j++) { tx2 = loadmodel->textures[j]; if (!tx2 || tx2->name[0] != '+') continue; if (strcmp (tx2->name+2, tx->name+2)) continue; num = tx2->name[1]; if (num >= 'a' && num <= 'z') num -= 'a' - 'A'; if (num >= '0' && num <= '9') { num -= '0'; anims[num] = tx2; if (num+1 > max) max = num + 1; } else if (num >= 'A' && num <= 'J') { num = num - 'A'; altanims[num] = tx2; if (num+1 > altmax) altmax = num+1; } else { Con_Printf (CON_ERROR "Bad animating texture %s\n", tx->name); return false; } } #define ANIM_CYCLE 2 // link them all together for (j=0 ; jname); return false; } tx2->anim_total = max * ANIM_CYCLE; tx2->anim_min = j * ANIM_CYCLE; tx2->anim_max = (j+1) * ANIM_CYCLE; tx2->anim_next = anims[ (j+1)%max ]; if (altmax) tx2->alternate_anims = altanims[0]; } for (j=0 ; jname); return false; } tx2->anim_total = altmax * ANIM_CYCLE; tx2->anim_min = j * ANIM_CYCLE; tx2->anim_max = (j+1) * ANIM_CYCLE; tx2->anim_next = altanims[ (j+1)%altmax ]; if (max) tx2->alternate_anims = anims[0]; } } return true; } /* ================= Mod_LoadSubmodels ================= */ static qboolean Mod_LoadSubmodels (model_t *loadmodel, qbyte *mod_base, lump_t *l, qboolean *hexen2map) { dq1model_t *inq; dh2model_t *inh; mmodel_t *out; int i, j, count; //this is crazy! inq = (void *)(mod_base + l->fileofs); inh = (void *)(mod_base + l->fileofs); if (!inq->numfaces) { *hexen2map = true; count = l->filelen / sizeof(*inh); if (l->filelen % sizeof(*inh) || count > SANITY_LIMIT(*out)) { Con_Printf (CON_ERROR "MOD_LoadBmodel: funny lump size in %s\n",loadmodel->name); return false; } out = ZG_Malloc(&loadmodel->memgroup, count*sizeof(*out)); loadmodel->submodels = out; loadmodel->numsubmodels = count; for ( i=0 ; imins[j] = LittleFloat (inh->mins[j]) - 1; out->maxs[j] = LittleFloat (inh->maxs[j]) + 1; out->origin[j] = LittleFloat (inh->origin[j]); } for (j=0 ; jheadnode[j] = LittleLong (inh->headnode[j]); } for ( ; jheadnode[j] = 0; for (j=0 ; jhullavailable[j] = true; for ( ; jhullavailable[j] = false; out->visleafs = LittleLong (inh->visleafs); out->firstface = LittleLong (inh->firstface); out->numfaces = LittleLong (inh->numfaces); } } else { *hexen2map = false; count = l->filelen / sizeof(*inq); if (l->filelen % sizeof(*inq) || count > SANITY_LIMIT(*out)) { Con_Printf (CON_ERROR "MOD_LoadBmodel: funny lump size in %s\n",loadmodel->name); return false; } out = ZG_Malloc(&loadmodel->memgroup, count*sizeof(*out)); loadmodel->submodels = out; loadmodel->numsubmodels = count; for ( i=0 ; imins[j] = LittleFloat (inq->mins[j]) - 1; out->maxs[j] = LittleFloat (inq->maxs[j]) + 1; out->origin[j] = LittleFloat (inq->origin[j]); } for (j=0 ; jheadnode[j] = LittleLong (inq->headnode[j]); } for ( ; jheadnode[j] = 0; for (j=0 ; j<4 ; j++) out->hullavailable[j] = true; for ( ; jhullavailable[j] = false; out->visleafs = LittleLong (inq->visleafs); out->firstface = LittleLong (inq->firstface); out->numfaces = LittleLong (inq->numfaces); } } return true; } /* ================= Mod_LoadTexinfo ================= */ static qboolean Mod_LoadTexinfo (model_t *loadmodel, qbyte *mod_base, lump_t *l) { texinfo_t *in; mtexinfo_t *out; int i, j, count; int miptex; in = (void *)(mod_base + l->fileofs); count = l->filelen / sizeof(*in); if (l->filelen % sizeof(*in) || count > SANITY_LIMIT(*out)) { Con_Printf (CON_ERROR "MOD_LoadBmodel: funny lump size in %s\n",loadmodel->name); return false; } out = ZG_Malloc(&loadmodel->memgroup, count*sizeof(*out)); loadmodel->texinfo = out; loadmodel->numtexinfo = count; for ( i=0 ; ivecs[0][j] = LittleFloat (in->vecs[0][j]); out->vecs[1][j] = LittleFloat (in->vecs[1][j]); } out->vecscale[0] = 1.0/Length (out->vecs[0]); out->vecscale[1] = 1.0/Length (out->vecs[1]); miptex = LittleLong (in->miptex); out->flags = LittleLong (in->flags); if (loadmodel->numtextures) out->texture = loadmodel->textures[miptex % loadmodel->numtextures]; else out->texture = NULL; if (!out->texture) { out->texture = r_notexture_mip; // texture not found out->flags = 0; } else { if (*out->texture->name == '*' || (*out->texture->name == '!' && loadmodel->fromgame == fg_halflife)) // turbulent { if (!(out->flags & TEX_SPECIAL) && !strchr(out->texture->name, '#')) Q_strncatz(out->texture->name, "#LIT", sizeof(out->texture->name)); } if (!strncmp(out->texture->name, "scroll", 6) || ((*out->texture->name == '*' || *out->texture->name == '{' || *out->texture->name == '!') && !strncmp(out->texture->name+1, "scroll", 6))) out->flags |= TI_FLOWING; } } return true; } /* ================ CalcSurfaceExtents Fills in s->texturemins[] and s->extents[] ================ */ void CalcSurfaceExtents (model_t *mod, msurface_t *s); /* { float mins[2], maxs[2], val; int i,j, e; mvertex_t *v; mtexinfo_t *tex; int bmins[2], bmaxs[2]; mins[0] = mins[1] = 999999; maxs[0] = maxs[1] = -99999; tex = s->texinfo; for (i=0 ; inumedges ; i++) { e = loadmodel->surfedges[s->firstedge+i]; if (e >= 0) v = &loadmodel->vertexes[loadmodel->edges[e].v[0]]; else v = &loadmodel->vertexes[loadmodel->edges[-e].v[1]]; for (j=0 ; j<2 ; j++) { val = v->position[0] * tex->vecs[j][0] + v->position[1] * tex->vecs[j][1] + v->position[2] * tex->vecs[j][2] + tex->vecs[j][3]; if (val < mins[j]) mins[j] = val; if (val > maxs[j]) maxs[j] = val; } } for (i=0 ; i<2 ; i++) { bmins[i] = floor(mins[i]/16); bmaxs[i] = ceil(maxs[i]/16); s->texturemins[i] = bmins[i]; s->extents[i] = (bmaxs[i] - bmins[i]); // if ( !(tex->flags & TEX_SPECIAL) && s->extents[i] > 512 ) //q2 uses 512. // Sys_Error ("Bad surface extents"); } } */ /* ================= Mod_LoadFaces ================= */ static qboolean Mod_LoadFaces (model_t *loadmodel, bspx_header_t *bspx, qbyte *mod_base, lump_t *l, lump_t *lightlump, qboolean lm) { dsface_t *ins; dlface_t *inl; msurface_t *out; int count, surfnum; int i, planenum, side; int tn; unsigned int lofs, lend; unsigned short lmshift, lmscale; char buf[64]; lightmapoverrides_t overrides; int lofsscale = 1; memset(&overrides, 0, sizeof(overrides)); lmscale = atoi(Mod_ParseWorldspawnKey(loadmodel, "lightmap_scale", buf, sizeof(buf))); if (!lmscale) lmshift = LMSHIFT_DEFAULT; else { for(lmshift = 0; lmscale > 1; lmshift++) lmscale >>= 1; } if (lm) { ins = NULL; inl = (void *)(mod_base + l->fileofs); count = l->filelen / sizeof(*inl); if (l->filelen % sizeof(*inl) || count > SANITY_LIMIT(*out)) { Con_Printf (CON_ERROR "MOD_LoadBmodel: funny lump size in %s\n",loadmodel->name); return false; } } else { ins = (void *)(mod_base + l->fileofs); inl = NULL; count = l->filelen / sizeof(*ins); if (l->filelen % sizeof(*ins) || count > SANITY_LIMIT(*out)) { Con_Printf (CON_ERROR "MOD_LoadBmodel: funny lump size in %s\n",loadmodel->name); return false; } } out = ZG_Malloc(&loadmodel->memgroup, count*sizeof(*out)); // *meshlist = ZG_Malloc(&loadmodel->memgroup, count*sizeof(**meshlist)); loadmodel->surfaces = out; loadmodel->numsurfaces = count; Mod_LoadLighting (loadmodel, bspx, mod_base, lightlump, false, &overrides); switch(loadmodel->lightmaps.fmt) { case LM_E5BGR9: lofsscale = 4; break; case LM_RGB8: lofsscale = 3; break; default: case LM_L8: lofsscale = 1; break; } if (loadmodel->fromgame == fg_halflife) lofsscale /= 3; //halflife has rgb offsets already (this should drop to 1, preserving any misaligned offsets... for ( surfnum=0 ; surfnumplanenum); side = LittleLong(inl->side); out->firstedge = LittleLong(inl->firstedge); out->numedges = LittleLong(inl->numedges); tn = LittleLong (inl->texinfo); for (i=0 ; istyles) ; i++) out->styles[i] = (i >= countof(inl->styles) || (lightstyleindex_t)inl->styles[i]>=INVALID_LIGHTSTYLE|| inl->styles[i]==255)?INVALID_LIGHTSTYLE:inl->styles[i]; lofs = LittleLong(inl->lightofs); inl++; } else { planenum = LittleShort(ins->planenum); side = LittleShort(ins->side); out->firstedge = LittleLong(ins->firstedge); out->numedges = LittleShort(ins->numedges); tn = LittleShort (ins->texinfo); for (i=0 ; istyles) ; i++) out->styles[i] = (i >= countof(ins->styles) || (lightstyleindex_t)ins->styles[i]>=INVALID_LIGHTSTYLE || ins->styles[i]==255)?INVALID_LIGHTSTYLE:ins->styles[i]; lofs = LittleLong(ins->lightofs); ins++; } // (*meshlist)[surfnum].vbofirstvert = out->firstedge; // (*meshlist)[surfnum].numvertexes = out->numedges; out->flags = 0; if (side) out->flags |= SURF_PLANEBACK; out->plane = loadmodel->planes + planenum; if (tn < 0 || tn >= loadmodel->numtexinfo) { Con_Printf("texinfo 0 <= %i < %i\n", tn, loadmodel->numtexinfo); return false; } out->texinfo = loadmodel->texinfo + tn; if (overrides.shifts) out->lmshift = overrides.shifts[surfnum]; else out->lmshift = lmshift; if (overrides.offsets) lofs = overrides.offsets[surfnum]; if (overrides.styles16) { for (i=0 ; istyles) ; i++) out->styles[i] = (i>=overrides.stylesperface)?INVALID_LIGHTSTYLE:overrides.styles16[surfnum*overrides.stylesperface+i]; } else if (overrides.styles8) { for (i=0 ; istyles) ; i++) out->styles[i] = (i>=overrides.stylesperface)?INVALID_LIGHTSTYLE:((overrides.styles8[surfnum*overrides.stylesperface+i]==255)?INVALID_LIGHTSTYLE:overrides.styles8[surfnum*overrides.stylesperface+i]); } for (i=0 ; istyles) && out->styles[i] != INVALID_LIGHTSTYLE; i++) if (loadmodel->lightmaps.maxstyle < out->styles[i]) loadmodel->lightmaps.maxstyle = out->styles[i]; CalcSurfaceExtents (loadmodel, out); if (lofs != (unsigned int)-1) lofs *= lofsscale; lend = lofs+(out->extents[0]+1)*(out->extents[1]+1); if (lofs > loadmodel->lightdatasize || lend < lofs) out->samples = NULL; //should includes -1 else out->samples = loadmodel->lightdata + lofs; if (!out->texinfo->texture) continue; // set the drawing flags flag if (!Q_strncmp(out->texinfo->texture->name,"sky",3)) // sky { out->flags |= (SURF_DRAWSKY | SURF_DRAWTILED); continue; } if (*out->texinfo->texture->name == '*' || (*out->texinfo->texture->name == '!' && loadmodel->fromgame == fg_halflife)) // turbulent { out->flags |= SURF_DRAWTURB; if (out->texinfo->flags & TEX_SPECIAL) { out->flags |= SURF_DRAWTILED; for (i=0 ; i<2 ; i++) { out->extents[i] = 16384; out->texturemins[i] = -8192; } } continue; } /*if (*out->texinfo->texture->name == '~') { out->texinfo->flags |= SURF_BLENDED; continue; }*/ if (!Q_strncmp(out->texinfo->texture->name,"{",1)) // alpha { out->flags |= (SURF_DRAWALPHA); continue; } if (!Q_strncmp(out->texinfo->texture->name,"glass",5)) // alpha { out->flags |= (SURF_DRAWALPHA); continue; } if (out->flags & SURF_DRAWALPHA) out->flags &= ~SURF_DRAWALPHA; } return true; } /* ================= Mod_LoadNodes ================= */ static qboolean Mod_LoadNodes (model_t *loadmodel, qbyte *mod_base, lump_t *l, int lm) { int i, j, count, p; mnode_t *out; if (lm == 2) { dl2node_t *in; in = (void *)(mod_base + l->fileofs); count = l->filelen / sizeof(*in); if (l->filelen % sizeof(*in) || count > SANITY_LIMIT(*out)) { Con_Printf (CON_ERROR "MOD_LoadBmodel: funny lump size in %s\n",loadmodel->name); return false; } out = ZG_Malloc(&loadmodel->memgroup, count*sizeof(*out)); loadmodel->nodes = out; loadmodel->numnodes = count; for ( i=0 ; iminmaxs[j] = LittleFloat (in->mins[j]); out->minmaxs[3+j] = LittleFloat (in->maxs[j]); } p = LittleLong(in->planenum); out->plane = loadmodel->planes + p; out->firstsurface = LittleLong (in->firstface); out->numsurfaces = LittleLong (in->numfaces); for (j=0 ; j<2 ; j++) { p = LittleLong (in->children[j]); if (p >= 0) out->children[j] = loadmodel->nodes + p; else out->children[j] = (mnode_t *)(loadmodel->leafs + (-1 - p)); } } } else if (lm) { dl1node_t *in; in = (void *)(mod_base + l->fileofs); count = l->filelen / sizeof(*in); if (l->filelen % sizeof(*in) || count > SANITY_LIMIT(*out)) { Con_Printf (CON_ERROR "MOD_LoadBmodel: funny lump size in %s\n",loadmodel->name); return false; } out = ZG_Malloc(&loadmodel->memgroup, count*sizeof(*out)); loadmodel->nodes = out; loadmodel->numnodes = count; for ( i=0 ; iminmaxs[j] = LittleShort (in->mins[j]); out->minmaxs[3+j] = LittleShort (in->maxs[j]); } p = LittleLong(in->planenum); out->plane = loadmodel->planes + p; out->firstsurface = LittleLong (in->firstface); out->numsurfaces = LittleLong (in->numfaces); for (j=0 ; j<2 ; j++) { p = LittleLong (in->children[j]); if (p >= 0) out->children[j] = loadmodel->nodes + p; else out->children[j] = (mnode_t *)(loadmodel->leafs + (-1 - p)); } } } else { dsnode_t *in; in = (void *)(mod_base + l->fileofs); count = l->filelen / sizeof(*in); if (l->filelen % sizeof(*in) || count > SANITY_LIMIT(*out)) { Con_Printf (CON_ERROR "MOD_LoadBmodel: funny lump size in %s\n",loadmodel->name); return false; } out = ZG_Malloc(&loadmodel->memgroup, count*sizeof(*out)); loadmodel->nodes = out; loadmodel->numnodes = count; for ( i=0 ; iminmaxs[j] = LittleShort (in->mins[j]); out->minmaxs[3+j] = LittleShort (in->maxs[j]); } p = LittleLong(in->planenum); out->plane = loadmodel->planes + p; out->firstsurface = (unsigned short)LittleShort (in->firstface); out->numsurfaces = (unsigned short)LittleShort (in->numfaces); for (j=0 ; j<2 ; j++) { p = (unsigned short)LittleShort (in->children[j]); if (p >= 0 && p < loadmodel->numnodes) out->children[j] = loadmodel->nodes + p; else { p = (-1 - (signed)(0xffff0000|p)); if (p >= 0 && p < loadmodel->numleafs) out->children[j] = (mnode_t *)(loadmodel->leafs + p); else { Con_Printf (CON_ERROR "MOD_LoadBmodel: invalid node child %i in %s\n", LittleShort (in->children[j]), loadmodel->name); return false; } } } } } Mod_SetParent (loadmodel->nodes, NULL); // sets nodes and leafs return true; } /* ================= Mod_LoadLeafs ================= */ static qboolean Mod_LoadLeafs (model_t *loadmodel, qbyte *mod_base, lump_t *l, int lm, qboolean isnotmap, qbyte *ptr, size_t len) { mleaf_t *out; int i, j, count, p; if (!ptr) { ptr = mod_base + l->fileofs; len = l->filelen; } if (lm==2) { dl2leaf_t *in; in = (void *)ptr; count = len / sizeof(*in); if (len % sizeof(*in) || count > SANITY_LIMIT(*out)) { Con_Printf (CON_ERROR "MOD_LoadBmodel: funny lump size in %s\n",loadmodel->name); return false; } out = ZG_Malloc(&loadmodel->memgroup, count*sizeof(*out)); loadmodel->leafs = out; loadmodel->numleafs = count; loadmodel->numclusters = count-1; loadmodel->pvsbytes = ((loadmodel->numclusters+31)>>3)&~3; for ( i=0 ; iminmaxs[j] = LittleFloat (in->mins[j]); out->minmaxs[3+j] = LittleFloat (in->maxs[j]); } p = LittleLong(in->contents); out->contents = p; out->firstmarksurface = loadmodel->marksurfaces + LittleLong(in->firstmarksurface); out->nummarksurfaces = LittleLong(in->nummarksurfaces); p = LittleLong(in->visofs); if (p == -1) out->compressed_vis = NULL; else out->compressed_vis = loadmodel->visdata + p; for (j=0 ; j<4 ; j++) out->ambient_sound_level[j] = in->ambient_level[j]; #ifndef CLIENTONLY if (!isDedicated) #endif { // gl underwater warp if (out->contents != Q1CONTENTS_EMPTY) { for (j=0 ; jnummarksurfaces ; j++) out->firstmarksurface[j]->flags |= SURF_UNDERWATER; } if (isnotmap) { for (j=0 ; jnummarksurfaces ; j++) out->firstmarksurface[j]->flags |= SURF_DONTWARP; } } } } else if (lm) { dl1leaf_t *in; in = (void *)(ptr); count = len / sizeof(*in); if (len % sizeof(*in) || count > SANITY_LIMIT(*out)) { Con_Printf (CON_ERROR "MOD_LoadBmodel: funny lump size in %s\n",loadmodel->name); return false; } out = ZG_Malloc(&loadmodel->memgroup, count*sizeof(*out)); loadmodel->leafs = out; loadmodel->numleafs = count; loadmodel->numclusters = count-1; loadmodel->pvsbytes = ((loadmodel->numclusters+31)>>3)&~3; for ( i=0 ; iminmaxs[j] = LittleShort (in->mins[j]); out->minmaxs[3+j] = LittleShort (in->maxs[j]); } p = LittleLong(in->contents); out->contents = p; out->firstmarksurface = loadmodel->marksurfaces + LittleLong(in->firstmarksurface); out->nummarksurfaces = LittleLong(in->nummarksurfaces); p = LittleLong(in->visofs); if (p == -1) out->compressed_vis = NULL; else out->compressed_vis = loadmodel->visdata + p; for (j=0 ; j<4 ; j++) out->ambient_sound_level[j] = in->ambient_level[j]; #ifndef CLIENTONLY if (!isDedicated) #endif { // gl underwater warp if (out->contents != Q1CONTENTS_EMPTY) { for (j=0 ; jnummarksurfaces ; j++) out->firstmarksurface[j]->flags |= SURF_UNDERWATER; } if (isnotmap) { for (j=0 ; jnummarksurfaces ; j++) out->firstmarksurface[j]->flags |= SURF_DONTWARP; } } } } else { dsleaf_t *in; in = (void *)(ptr); count = len / sizeof(*in); if (len % sizeof(*in) || count > SANITY_LIMIT(*out)) { Con_Printf (CON_ERROR "MOD_LoadBmodel: funny lump size in %s\n",loadmodel->name); return false; } out = ZG_Malloc(&loadmodel->memgroup, count*sizeof(*out)); loadmodel->leafs = out; loadmodel->numleafs = count; loadmodel->numclusters = count-1; loadmodel->pvsbytes = ((loadmodel->numclusters+31)>>3)&~3; for ( i=0 ; iminmaxs[j] = LittleShort (in->mins[j]); out->minmaxs[3+j] = LittleShort (in->maxs[j]); } p = LittleLong(in->contents); out->contents = p; out->firstmarksurface = loadmodel->marksurfaces + (unsigned short)LittleShort(in->firstmarksurface); out->nummarksurfaces = (unsigned short)LittleShort(in->nummarksurfaces); p = LittleLong(in->visofs); if (p == -1) out->compressed_vis = NULL; else out->compressed_vis = loadmodel->visdata + p; for (j=0 ; j<4 ; j++) out->ambient_sound_level[j] = in->ambient_level[j]; #ifndef CLIENTONLY if (!isDedicated) #endif { // gl underwater warp if (out->contents != Q1CONTENTS_EMPTY) { for (j=0 ; jnummarksurfaces ; j++) out->firstmarksurface[j]->flags |= SURF_UNDERWATER; } if (isnotmap) { for (j=0 ; jnummarksurfaces ; j++) out->firstmarksurface[j]->flags |= SURF_DONTWARP; } } } } return true; } //these are used to boost other info sizes static int numsuplementryplanes; static int numsuplementryclipnodes; static void *suplementryclipnodes; static void *suplementryplanes; static void *crouchhullfile; static void Mod_LoadCrouchHull(model_t *loadmodel) { int i, h; int numsm; char crouchhullname[MAX_QPATH]; int *data; int hulls; // dclipnode_t *cn; memset(loadmodel->hulls, 0, sizeof(loadmodel->hulls)); //ensure all the sizes are 0 (this is how we check for the existance of a hull numsuplementryplanes = numsuplementryclipnodes = 0; //find a name for a ccn and try to load it. strcpy(crouchhullname, loadmodel->name); COM_StripExtension(loadmodel->name, crouchhullname, sizeof(crouchhullname)); COM_DefaultExtension(crouchhullname, ".crh",sizeof(crouchhullname)); //crouch hull FS_LoadFile(crouchhullname, &crouchhullfile); if (!crouchhullfile) return; data = crouchhullfile; if (LittleLong(*data++) != ('S') + ('C'<<8) + ('N'<<16) + ('P'<<24)) //make sure it's the right version return; if (LittleLong(*data) == 2) { data++; hulls = LittleLong(*data++); } else return; if (hulls > MAX_MAP_HULLSM - MAX_MAP_HULLSDQ1) { return; } numsm = LittleLong(*data++); if (numsm != loadmodel->numsubmodels) //not compatible return; numsuplementryplanes = LittleLong(*data++); numsuplementryclipnodes = LittleLong(*data++); for (h = 0; h < hulls; h++) { for (i = 0; i < 3; i++) loadmodel->hulls[3+h].clip_mins[i] = LittleLong(*data++); for (i = 0; i < 3; i++) loadmodel->hulls[3+h].clip_maxs[i] = LittleLong(*data++); for (i = 0; i < numsm; i++) //load headnode references { loadmodel->submodels[i].headnode[3+h] = LittleLong(*data)+1; data++; } } suplementryplanes = data; suplementryclipnodes = (qbyte*)data + sizeof(dplane_t)*numsuplementryplanes; } /* ================= Mod_LoadClipnodes ================= */ static qboolean Mod_LoadClipnodes (model_t *loadmodel, qbyte *mod_base, lump_t *l, qboolean lm, qboolean hexen2map) { dsclipnode_t *ins; dlclipnode_t *inl; mclipnode_t *out; int i, count; hull_t *hull; if (lm) { ins = NULL; inl = (void *)(mod_base + l->fileofs); count = l->filelen / sizeof(*inl); if (l->filelen % sizeof(*inl) || count > SANITY_LIMIT(*out)) { Con_Printf (CON_ERROR "MOD_LoadBmodel: funny lump size in %s\n",loadmodel->name); return false; } } else { ins = (void *)(mod_base + l->fileofs); inl = NULL; count = l->filelen / sizeof(*ins); if (l->filelen % sizeof(*ins) || count > SANITY_LIMIT(*out)) { Con_Printf (CON_ERROR "MOD_LoadBmodel: funny lump size in %s\n",loadmodel->name); return false; } } out = ZG_Malloc(&loadmodel->memgroup, (count+numsuplementryclipnodes)*sizeof(*out));//space for both loadmodel->clipnodes = out; loadmodel->numclipnodes = count+numsuplementryclipnodes; if (hexen2map) { //hexen2. //compatible with Q1. hull = &loadmodel->hulls[1]; hull->clipnodes = out; hull->firstclipnode = 0; hull->lastclipnode = count-1; hull->planes = loadmodel->planes; hull->clip_mins[0] = -16; hull->clip_mins[1] = -16; hull->clip_mins[2] = -24; hull->clip_maxs[0] = 16; hull->clip_maxs[1] = 16; hull->clip_maxs[2] = 32; hull->available = true; //NOT compatible with Q1 hull = &loadmodel->hulls[2]; hull->clipnodes = out; hull->firstclipnode = 0; hull->lastclipnode = count-1; hull->planes = loadmodel->planes; hull->clip_mins[0] = -24; hull->clip_mins[1] = -24; hull->clip_mins[2] = -20; hull->clip_maxs[0] = 24; hull->clip_maxs[1] = 24; hull->clip_maxs[2] = 20; hull->available = true; hull = &loadmodel->hulls[3]; hull->clipnodes = out; hull->firstclipnode = 0; hull->lastclipnode = count-1; hull->planes = loadmodel->planes; hull->clip_mins[0] = -16; hull->clip_mins[1] = -16; hull->clip_mins[2] = -12; hull->clip_maxs[0] = 16; hull->clip_maxs[1] = 16; hull->clip_maxs[2] = 16; hull->available = true; /* There is some mission-pack weirdness here in the missionpack, hull 4 is meant to be '-8 -8 -8' '8 8 8' in the original game, hull 4 is '-40 -40 -42' '40 40 42' */ hull = &loadmodel->hulls[4]; hull->clipnodes = out; hull->firstclipnode = 0; hull->lastclipnode = count-1; hull->planes = loadmodel->planes; hull->clip_mins[0] = -8; hull->clip_mins[1] = -8; hull->clip_mins[2] = -8; hull->clip_maxs[0] = 8; hull->clip_maxs[1] = 8; hull->clip_maxs[2] = 8; hull->available = true; hull = &loadmodel->hulls[5]; hull->clipnodes = out; hull->firstclipnode = 0; hull->lastclipnode = count-1; hull->planes = loadmodel->planes; hull->clip_mins[0] = -48; hull->clip_mins[1] = -48; hull->clip_mins[2] = -50; hull->clip_maxs[0] = 48; hull->clip_maxs[1] = 48; hull->clip_maxs[2] = 50; hull->available = true; //6 isn't used. //7 isn't used. } else if (loadmodel->fromgame == fg_halflife) { hull = &loadmodel->hulls[1]; hull->clipnodes = out; hull->firstclipnode = 0; hull->lastclipnode = count-1; hull->planes = loadmodel->planes; hull->clip_mins[0] = -16; hull->clip_mins[1] = -16; hull->clip_mins[2] = -36;//-36 is correct here, but mvdsv uses -32 instead. This breaks prediction between the two hull->clip_maxs[0] = 16; hull->clip_maxs[1] = 16; hull->clip_maxs[2] = hull->clip_mins[2]+72; hull->available = true; hull = &loadmodel->hulls[2]; hull->clipnodes = out; hull->firstclipnode = 0; hull->lastclipnode = count-1; hull->planes = loadmodel->planes; hull->clip_mins[0] = -32; hull->clip_mins[1] = -32; hull->clip_mins[2] = -32; hull->clip_maxs[0] = 32; hull->clip_maxs[1] = 32; hull->clip_maxs[2] = hull->clip_mins[2]+64; hull->available = true; hull = &loadmodel->hulls[3]; hull->clipnodes = out; hull->firstclipnode = 0; hull->lastclipnode = count-1; hull->planes = loadmodel->planes; hull->clip_mins[0] = -16; hull->clip_mins[1] = -16; hull->clip_mins[2] = -18; hull->clip_maxs[0] = 16; hull->clip_maxs[1] = 16; hull->clip_maxs[2] = hull->clip_mins[2]+36; hull->available = true; } else { hull = &loadmodel->hulls[1]; hull->clipnodes = out; hull->firstclipnode = 0; hull->lastclipnode = count-1; hull->planes = loadmodel->planes; hull->clip_mins[0] = -16; hull->clip_mins[1] = -16; hull->clip_mins[2] = -24; hull->clip_maxs[0] = 16; hull->clip_maxs[1] = 16; hull->clip_maxs[2] = 32; hull->available = true; hull = &loadmodel->hulls[2]; hull->clipnodes = out; hull->firstclipnode = 0; hull->lastclipnode = count-1; hull->planes = loadmodel->planes; hull->clip_mins[0] = -32; hull->clip_mins[1] = -32; hull->clip_mins[2] = -24; hull->clip_maxs[0] = 32; hull->clip_maxs[1] = 32; hull->clip_maxs[2] = 64; hull->available = true; hull = &loadmodel->hulls[3]; hull->clipnodes = out; hull->firstclipnode = 0; hull->lastclipnode = count-1; hull->planes = loadmodel->planes; hull->clip_mins[0] = -16; hull->clip_mins[1] = -16; hull->clip_mins[2] = -6; hull->clip_maxs[0] = 16; hull->clip_maxs[1] = 16; hull->clip_maxs[2] = 30; hull->available = false; } if (lm) { for (i=0 ; iplanenum = LittleLong(inl->planenum); out->children[0] = LittleLong(inl->children[0]); out->children[1] = LittleLong(inl->children[1]); } } else { for (i=0 ; iplanenum = LittleLong(ins->planenum); out->children[0] = (unsigned short)LittleShort(ins->children[0]); out->children[1] = (unsigned short)LittleShort(ins->children[1]); //if these 'overflow', then they're meant to refer to contents instead, and should be negative if (out->children[0] >= count) out->children[0] -= 0x10000; if (out->children[1] >= count) out->children[1] -= 0x10000; } } if (numsuplementryclipnodes) //now load the crouch ones. { /*This looks buggy*/ for (i = 3; i < MAX_MAP_HULLSM; i++) { hull = &loadmodel->hulls[i]; hull->planes = suplementryplanes; hull->clipnodes = out-1; hull->firstclipnode = 0; hull->lastclipnode = numsuplementryclipnodes; hull->available = true; } ins = suplementryclipnodes; for (i=0 ; iplanenum = LittleLong(ins->planenum); out->children[0] = LittleShort(ins->children[0]); out->children[0] += out->children[0]>=0?1:0; out->children[1] = LittleShort(ins->children[1]); out->children[1] += out->children[1]>=0?1:0; } } return true; } /* ================= Mod_MakeHull0 Deplicate the drawing hull structure as a clipping hull ================= */ static void Mod_MakeHull0 (model_t *loadmodel) { mnode_t *in, *child; mclipnode_t *out; int i, j, count; hull_t *hull; hull = &loadmodel->hulls[0]; in = loadmodel->nodes; count = loadmodel->numnodes; out = ZG_Malloc(&loadmodel->memgroup, count*sizeof(*out)); hull->clipnodes = out; hull->firstclipnode = 0; hull->lastclipnode = count-1; hull->planes = loadmodel->planes; for (i=0 ; iplanenum = in->plane - loadmodel->planes; for (j=0 ; j<2 ; j++) { child = in->children[j]; if (child->contents < 0) out->children[j] = child->contents; else out->children[j] = child - loadmodel->nodes; } } } /* ================= Mod_LoadPlanes ================= */ static qboolean Mod_LoadPlanes (model_t *loadmodel, qbyte *mod_base, lump_t *l) { int i, j; mplane_t *out; dplane_t *in; int count; int bits; in = (void *)(mod_base + l->fileofs); count = l->filelen / sizeof(*in); if (l->filelen % sizeof(*in) || count > SANITY_LIMIT(*out)) { Con_Printf (CON_ERROR "MOD_LoadBmodel: funny lump size in %s\n",loadmodel->name); return false; } out = ZG_Malloc(&loadmodel->memgroup, (count+numsuplementryplanes)*2*sizeof(*out)); loadmodel->planes = out; loadmodel->numplanes = count+numsuplementryplanes; for ( i=0 ; inormal[j] = LittleFloat (in->normal[j]); if (out->normal[j] < 0) bits |= 1<dist = LittleFloat (in->dist); out->type = LittleLong (in->type); out->signbits = bits; } if (numsuplementryplanes) { in = suplementryplanes; suplementryplanes = out; for ( i=0 ; inormal[j] = LittleFloat (in->normal[j]); if (out->normal[j] < 0) bits |= 1<dist = LittleFloat (in->dist); out->type = LittleLong (in->type); out->signbits = bits; } } return true; } #ifndef SERVERONLY //combination of R_AddDynamicLights and R_MarkLights static void Q1BSP_StainNode (mnode_t *node, float *parms) { mplane_t *splitplane; float dist; msurface_t *surf; int i; if (node->contents < 0) return; splitplane = node->plane; dist = DotProduct ((parms+1), splitplane->normal) - splitplane->dist; if (dist > (*parms)) { Q1BSP_StainNode (node->children[0], parms); return; } if (dist < (-*parms)) { Q1BSP_StainNode (node->children[1], parms); return; } // mark the polygons surf = cl.worldmodel->surfaces + node->firstsurface; for (i=0 ; inumsurfaces ; i++, surf++) { if (surf->flags&~(SURF_DRAWALPHA|SURF_DONTWARP|SURF_PLANEBACK)) continue; Surf_StainSurf(surf, parms); } Q1BSP_StainNode (node->children[0], parms); Q1BSP_StainNode (node->children[1], parms); } #endif static void Mod_FixupNodeMinsMaxs (mnode_t *node, mnode_t *parent) { if (!node) return; if (node->contents >= 0) { Mod_FixupNodeMinsMaxs (node->children[0], node); Mod_FixupNodeMinsMaxs (node->children[1], node); } if (parent) { if (parent->minmaxs[0] > node->minmaxs[0]) parent->minmaxs[0] = node->minmaxs[0]; if (parent->minmaxs[1] > node->minmaxs[1]) parent->minmaxs[1] = node->minmaxs[1]; if (parent->minmaxs[2] > node->minmaxs[2]) parent->minmaxs[2] = node->minmaxs[2]; if (parent->minmaxs[3] < node->minmaxs[3]) parent->minmaxs[3] = node->minmaxs[3]; if (parent->minmaxs[4] < node->minmaxs[4]) parent->minmaxs[4] = node->minmaxs[4]; if (parent->minmaxs[5] < node->minmaxs[5]) parent->minmaxs[5] = node->minmaxs[5]; } } static void Mod_FixupMinsMaxs(model_t *loadmodel) { //q1 bsps are capped to +/- 32767 by the nodes/leafs //verts arn't though //so if the map is too big, let's figure out what they should be float *v; msurface_t **mark, *surf; mleaf_t *pleaf; medge_t *e, *pedges; int en, lindex; int i, c, lnumverts; qboolean needsfixup = false; if (loadmodel->mins[0] < -32768) needsfixup = true; if (loadmodel->mins[1] < -32768) needsfixup = true; if (loadmodel->mins[2] < -32768) needsfixup = true; if (loadmodel->maxs[0] > 32767) needsfixup = true; if (loadmodel->maxs[1] > 32767) needsfixup = true; if (loadmodel->maxs[2] > 32767) needsfixup = true; if (!needsfixup) return; //this is insane. //why am I writing this? //by the time the world actually gets this large, the floating point errors are going to be so immensly crazy that it's just not worth it. pedges = loadmodel->edges; for (i = 0; i < loadmodel->numleafs; i++) { pleaf = &loadmodel->leafs[i]; mark = pleaf->firstmarksurface; c = pleaf->nummarksurfaces; if (c) { do { surf = (*mark++); lnumverts = surf->numedges; for (en=0 ; ensurfedges[surf->firstedge + en]; if (lindex > 0) { e = &pedges[lindex]; v = loadmodel->vertexes[e->v[0]].position; } else { e = &pedges[-lindex]; v = loadmodel->vertexes[e->v[1]].position; } if (pleaf->minmaxs[0] > v[0]) pleaf->minmaxs[0] = v[0]; if (pleaf->minmaxs[1] > v[1]) pleaf->minmaxs[1] = v[1]; if (pleaf->minmaxs[2] > v[2]) pleaf->minmaxs[2] = v[2]; if (pleaf->minmaxs[3] < v[0]) pleaf->minmaxs[3] = v[0]; if (pleaf->minmaxs[4] < v[1]) pleaf->minmaxs[4] = v[1]; if (pleaf->minmaxs[5] < v[2]) pleaf->minmaxs[5] = v[2]; } } while (--c); } } Mod_FixupNodeMinsMaxs (loadmodel->nodes, NULL); // sets nodes and leafs } #endif void ModBrush_LoadGLStuff(void *ctx, void *data, size_t a, size_t b) { #ifndef SERVERONLY model_t *mod = ctx; char loadname[MAX_QPATH]; if (!a) { //submodels share textures, so only do this if 'a' is 0 (inline index, 0 = world). for (a = 0; a < mod->numfogs; a++) { mod->fogs[a].shader = R_RegisterShader_Lightmap(mod->fogs[a].shadername); R_BuildDefaultTexnums(NULL, mod->fogs[a].shader, IF_WORLDTEX); if (!mod->fogs[a].shader->fog_dist) { //invalid fog shader, don't use. mod->fogs[a].shader = NULL; mod->fogs[a].numplanes = 0; } } #if defined(Q3BSPS) || defined(RFBSPS) if (mod->fromgame == fg_quake3) { if (mod->lightmaps.deluxemapping && mod->lightmaps.deluxemapping_modelspace) { for(a = 0; a < mod->numtexinfo; a++) { mod->textures[a]->shader = R_RegisterShader_Lightmap(va("%s#BUMPMODELSPACE", mod->textures[a]->name)); R_BuildDefaultTexnums(NULL, mod->textures[a]->shader, IF_WORLDTEX); mod->textures[a+mod->numtexinfo]->shader = R_RegisterShader_Vertex (va("%s#VERTEXLIT", mod->textures[a+mod->numtexinfo]->name)); R_BuildDefaultTexnums(NULL, mod->textures[a+mod->numtexinfo]->shader, IF_WORLDTEX); } } else { for(a = 0; a < mod->numtexinfo; a++) { mod->textures[a]->shader = R_RegisterShader_Lightmap(mod->textures[a]->name); R_BuildDefaultTexnums(NULL, mod->textures[a]->shader, IF_WORLDTEX); mod->textures[a+mod->numtexinfo]->shader = R_RegisterShader_Vertex (va("%s#VERTEXLIT", mod->textures[a+mod->numtexinfo]->name)); R_BuildDefaultTexnums(NULL, mod->textures[a+mod->numtexinfo]->shader, IF_WORLDTEX); } } mod->textures[2*mod->numtexinfo]->shader = R_RegisterShader_Flare("noshader"); } else #endif #ifdef Q2BSPS if (mod->fromgame == fg_quake2) { COM_FileBase (mod->name, loadname, sizeof(loadname)); for(a = 0; a < mod->numtextures; a++) { unsigned int maps = 0; mod->textures[a]->shader = R_RegisterCustom (mod->textures[a]->name, SUF_LIGHTMAP, Shader_DefaultBSPQ2, NULL); maps |= SHADER_HASPALETTED; maps |= SHADER_HASDIFFUSE; if (r_fb_bmodels.ival) maps |= SHADER_HASFULLBRIGHT; // if (r_loadbumpmapping || (r_waterstyle.ival > 1 && *tx->name == '*')) // maps |= SHADER_HASNORMALMAP; if (gl_specular.ival) maps |= SHADER_HASGLOSS; R_BuildLegacyTexnums(mod->textures[a]->shader, mod->textures[a]->name, loadname, maps, IF_WORLDTEX, TF_MIP4_8PAL24_T255, mod->textures[a]->srcwidth, mod->textures[a]->srcheight, mod->textures[a]->srcdata, mod->textures[a]->palette); BZ_Free(mod->textures[a]->srcdata); mod->textures[a]->srcdata = NULL; } } else #endif { COM_FileBase (mod->name, loadname, sizeof(loadname)); if (!strncmp(loadname, "b_", 2)) Q_strncpyz(loadname, "bmodels", sizeof(loadname)); for(a = 0; a < mod->numtextures; a++) Mod_FinishTexture(mod->textures[a], loadname, false); } } Mod_Batches_Build(mod, data); if (data) BZ_Free(data); #endif } #ifdef Q1BSPS struct vispatch_s { void *fileptr; size_t filelen; void *visptr; int vislen; void *leafptr; int leaflen; }; static void Mod_FindVisPatch(struct vispatch_s *patch, model_t *mod, size_t leaflumpsize) { char patchname[MAX_QPATH]; int *lenptr, len; int ofs; qbyte *file; char *mapname; memset(patch, 0, sizeof(*patch)); if (!mod_external_vis.ival) return; mapname = COM_SkipPath(mod->name); COM_StripExtension(mod->name, patchname, sizeof(patchname)); Q_strncatz(patchname, ".vis", sizeof(patchname)); //ignore the patch file if its in a different gamedir. //this file format sucks too much for other verification. if (FS_FLocateFile(mod->name,FSLF_DEEPONFAILURE, NULL) != FS_FLocateFile(patchname,FSLF_DEEPONFAILURE, NULL)) return; patch->filelen = FS_LoadFile(patchname, &patch->fileptr); if (!patch->fileptr) return; ofs = 0; while (ofs+36 <= patch->filelen) { file = patch->fileptr; file += ofs; memcpy(patchname, file, 32); patchname[32] = 0; file += 32; lenptr = (int*)file; file += sizeof(int); len = LittleLong(*lenptr); if (ofs+36+len > patch->filelen) break; if (!Q_strcasecmp(patchname, mapname)) { lenptr = (int*)file; patch->vislen = LittleLong(*lenptr); file += sizeof(int); patch->visptr = file; file += patch->vislen; lenptr = (int*)file; patch->leaflen = LittleLong(*lenptr); file += sizeof(int); patch->leafptr = file; file += patch->leaflen; if (sizeof(int)*2 + patch->vislen + patch->leaflen != len || patch->leaflen != leaflumpsize) { patch->visptr = NULL; patch->leafptr = NULL; } else break; } ofs += 36+len; } } /* ================= Mod_LoadBrushModel ================= */ static qboolean QDECL Mod_LoadBrushModel (model_t *mod, void *buffer, size_t fsize) { struct vispatch_s vispatch; int i, j; dheader_t header; mmodel_t *bm; model_t *submod; unsigned int chksum; qboolean noerrors; int longm = false; char loadname[32]; qbyte *mod_base = buffer; qboolean hexen2map = false; qboolean isnotmap; qboolean using_rbe = true; qboolean misaligned = false; bspx_header_t *bspx; COM_FileBase (mod->name, loadname, sizeof(loadname)); mod->type = mod_brush; if (fsize < sizeof(header)) return false; mod_base = (qbyte *)buffer; memcpy(&header, mod_base, sizeof(header)); header.version = LittleLong(header.version); for (i=0 ; i=ca_connected) #ifndef CLIENTONLY || (!sv.world.worldmodel && sv.state) #endif ) isnotmap = false; else isnotmap = true; #endif switch(header.version) { case BSPVERSION: case BSPVERSIONPREREL: mod->fromgame = fg_quake; mod->engineflags |= MDLF_NEEDOVERBRIGHT; break; case BSPVERSION_LONG1: longm = true; mod->fromgame = fg_quake; mod->engineflags |= MDLF_NEEDOVERBRIGHT; break; case BSPVERSION_LONG2: longm = 2; mod->fromgame = fg_quake; mod->engineflags |= MDLF_NEEDOVERBRIGHT; break; case BSPVERSIONHL: //halflife support mod->fromgame = fg_halflife; break; default: Con_Printf (CON_ERROR "Mod_LoadBrushModel: %s has wrong version number (%i should be %i)\n", mod->name, i, BSPVERSION); return false; } mod->lightmaps.width = 128;//LMBLOCK_WIDTH; mod->lightmaps.height = 128;//LMBLOCK_HEIGHT; // checksum all of the map, except for entities mod->checksum = 0; mod->checksum2 = 0; for (i = 0; i < HEADER_LUMPS; i++) { if ((header.lumps[i].fileofs & 3) && header.lumps[i].filelen) misaligned = true; if ((unsigned)header.lumps[i].fileofs + (unsigned)header.lumps[i].filelen > fsize) { Con_Printf (CON_ERROR "Mod_LoadBrushModel: %s appears truncated\n", mod->name); return false; } if (i == LUMP_ENTITIES) continue; chksum = Com_BlockChecksum(mod_base + header.lumps[i].fileofs, header.lumps[i].filelen); mod->checksum ^= chksum; if (i == LUMP_VISIBILITY || i == LUMP_LEAFS || i == LUMP_NODES) continue; mod->checksum2 ^= chksum; } if (misaligned) { //pre-phong versions of tyrutils wrote misaligned lumps. These crash on arm/etc. char *tmp; int ofs = 0; Con_DPrintf(CON_WARNING"%s: Misaligned lumps detected\n", mod->name); tmp = BZ_Malloc(fsize); memcpy(tmp, mod_base, fsize); for (i = 0; i < HEADER_LUMPS; i++) { if (ofs + header.lumps[i].filelen > fsize) { //can happen if two lumps overlap... otherwise impossible. Con_Printf(CON_ERROR"%s: Realignment failed\n", mod->name); BZ_Free(tmp); return false; } memcpy(mod_base + ofs, tmp+header.lumps[i].fileofs, header.lumps[i].filelen); header.lumps[i].fileofs = ofs; ofs += header.lumps[i].filelen; } BZ_Free(tmp); bspx = NULL; } else { bspx = BSPX_Setup(mod, mod_base, fsize, header.lumps, HEADER_LUMPS); /*if (1)//mod_ebfs.value) { char *id; id = (char *)mod_base + sizeof(dheader_t); if (id[0]=='P' && id[1]=='A' && id[2]=='C' && id[3]=='K') { //EBFS detected. COM_LoadMapPackFile(mod->name, sizeof(dheader_t)); } }*/ } noerrors = true; crouchhullfile = NULL; Mod_FindVisPatch(&vispatch, mod, header.lumps[LUMP_LEAFS].filelen); // load into heap if (!isDedicated || using_rbe) { TRACE(("Loading verts\n")); noerrors = noerrors && Mod_LoadVertexes (mod, mod_base, &header.lumps[LUMP_VERTEXES]); TRACE(("Loading edges\n")); noerrors = noerrors && Mod_LoadEdges (mod, mod_base, &header.lumps[LUMP_EDGES], longm); TRACE(("Loading Surfedges\n")); noerrors = noerrors && Mod_LoadSurfedges (mod, mod_base, &header.lumps[LUMP_SURFEDGES]); } if (!isDedicated) { TRACE(("Loading Textures\n")); noerrors = noerrors && Mod_LoadTextures (mod, mod_base, &header.lumps[LUMP_TEXTURES]); } TRACE(("Loading Submodels\n")); noerrors = noerrors && Mod_LoadSubmodels (mod, mod_base, &header.lumps[LUMP_MODELS], &hexen2map); if (noerrors) { TRACE(("Loading CH\n")); Mod_LoadCrouchHull(mod); } TRACE(("Loading Planes\n")); noerrors = noerrors && Mod_LoadPlanes (mod, mod_base, &header.lumps[LUMP_PLANES]); TRACE(("Loading Entities\n")); Mod_LoadEntities (mod, mod_base, &header.lumps[LUMP_ENTITIES]); if (!isDedicated || using_rbe) { TRACE(("Loading Texinfo\n")); noerrors = noerrors && Mod_LoadTexinfo (mod, mod_base, &header.lumps[LUMP_TEXINFO]); TRACE(("Loading Faces\n")); noerrors = noerrors && Mod_LoadFaces (mod, bspx, mod_base, &header.lumps[LUMP_FACES], &header.lumps[LUMP_LIGHTING], longm); } if (!isDedicated) { TRACE(("Loading MarkSurfaces\n")); noerrors = noerrors && Mod_LoadMarksurfaces (mod, mod_base, &header.lumps[LUMP_MARKSURFACES], longm); } if (noerrors) { TRACE(("Loading Vis\n")); Mod_LoadVisibility (mod, mod_base, &header.lumps[LUMP_VISIBILITY], vispatch.visptr, vispatch.vislen); } noerrors = noerrors && Mod_LoadLeafs (mod, mod_base, &header.lumps[LUMP_LEAFS], longm, isnotmap, vispatch.leafptr, vispatch.leaflen); TRACE(("Loading Nodes\n")); noerrors = noerrors && Mod_LoadNodes (mod, mod_base, &header.lumps[LUMP_NODES], longm); TRACE(("Loading Clipnodes\n")); noerrors = noerrors && Mod_LoadClipnodes (mod, mod_base, &header.lumps[LUMP_CLIPNODES], longm, hexen2map); if (noerrors) { TRACE(("Loading hull 0\n")); Mod_MakeHull0 (mod); } TRACE(("sorting shaders\n")); if (!isDedicated && noerrors) Mod_SortShaders(mod); if (crouchhullfile) { FS_FreeFile(crouchhullfile); crouchhullfile=NULL; } BZ_Free(vispatch.fileptr); if (!noerrors) { return false; } TRACE(("LoadBrushModel %i\n", __LINE__)); Q1BSP_LoadBrushes(mod, bspx, mod_base); TRACE(("LoadBrushModel %i\n", __LINE__)); Q1BSP_SetModelFuncs(mod); TRACE(("LoadBrushModel %i\n", __LINE__)); #ifndef SERVERONLY mod->funcs.LightPointValues = GLQ1BSP_LightPointValues; mod->funcs.MarkLights = Q1BSP_MarkLights; mod->funcs.StainNode = Q1BSP_StainNode; #endif mod->numframes = 2; // regular and alternate animation // // set up the submodels (FIXME: this is confusing) // for (i=0, submod = mod; inumsubmodels ; i++) { bm = &mod->submodels[i]; submod->rootnode = submod->nodes + bm->headnode[0]; submod->hulls[0].firstclipnode = bm->headnode[0]; submod->hulls[0].available = true; Q1BSP_CheckHullNodes(&submod->hulls[0]); TRACE(("LoadBrushModel %i\n", __LINE__)); for (j=1 ; jhulls[j].firstclipnode = bm->headnode[j]; submod->hulls[j].lastclipnode = submod->numclipnodes-1; submod->hulls[j].available &= bm->hullavailable[j]; if (submod->hulls[j].firstclipnode > submod->hulls[j].lastclipnode) submod->hulls[j].available = false; if (submod->hulls[j].available) Q1BSP_CheckHullNodes(&submod->hulls[j]); } if (mod->fromgame == fg_halflife && i) { for (j=bm->firstface ; jfirstface+bm->numfaces ; j++) { if (mod->surfaces[j].flags & SURF_DRAWTURB) { if (mod->surfaces[j].plane->type == PLANE_Z && mod->surfaces[j].plane->dist == bm->maxs[2]-1) continue; mod->surfaces[j].flags |= SURF_NODRAW; } } } submod->firstmodelsurface = bm->firstface; submod->nummodelsurfaces = bm->numfaces; VectorCopy (bm->maxs, submod->maxs); VectorCopy (bm->mins, submod->mins); submod->radius = RadiusFromBounds (submod->mins, submod->maxs); submod->numclusters = (i==0)?bm->visleafs:0; submod->pvsbytes = ((submod->numclusters+31)>>3)&~3; if (i) submod->entities_raw = NULL; memset(&submod->batches, 0, sizeof(submod->batches)); submod->vbos = NULL; TRACE(("LoadBrushModel %i\n", __LINE__)); if (!isDedicated || using_rbe) { COM_AddWork(WG_MAIN, ModBrush_LoadGLStuff, submod, NULL, i, 0); } TRACE(("LoadBrushModel %i\n", __LINE__)); if (i) COM_AddWork(WG_MAIN, Mod_ModelLoaded, submod, NULL, MLS_LOADED, 0); if (i < submod->numsubmodels-1) { // duplicate the basic information char name[MAX_QPATH]; model_t *nextmod; Q_snprintfz (name, sizeof(name), "*%i:%s", i+1, mod->publicname); nextmod = Mod_FindName (name); *nextmod = *submod; nextmod->submodelof = mod; Q_strncpyz(nextmod->publicname, name, sizeof(nextmod->publicname)); Q_snprintfz (nextmod->name, sizeof(nextmod->publicname), "*%i:%s", i+1, mod->publicname); submod = nextmod; memset(&submod->memgroup, 0, sizeof(submod->memgroup)); } TRACE(("LoadBrushModel %i\n", __LINE__)); } TRACE(("LoadBrushModel %i\n", __LINE__)); if (!isDedicated) Mod_FixupMinsMaxs(mod); TRACE(("LoadBrushModel %i\n", __LINE__)); #ifdef TERRAIN mod->terrain = Mod_LoadTerrainInfo(mod, loadname, false); #endif return true; } #endif /* ============================================================================== SPRITES ============================================================================== */ //========================================================= #ifdef SERVERONLY //dedicated servers should not need to load sprites. //dedicated servers need *.bsp to be loaded for setmodel to get the correct size (or all model types with sv_gameplayfix_setmodelrealbox). //otherwise other model types(actually: names) only need to be loaded once reflection or hitmodel is used. //for sprites we don't really care ever. qboolean QDECL Mod_LoadSpriteModel (model_t *mod, void *buffer, size_t fsize) { mod->type = mod_dummy; return true; } qboolean QDECL Mod_LoadSprite2Model (model_t *mod, void *buffer, size_t fsize) { return Mod_LoadSpriteModel(mod, buffer, fsize); } void Mod_LoadDoomSprite (model_t *mod) { mod->type = mod_dummy; } #else //we need to override the rtlight shader for sprites so they get lit properly ignoring n+s+t dirs //so lets split the shader into parts to avoid too many dupes #define SPRITE_SHADER_MAIN \ "{\n" \ "if gl_blendsprites\n" \ "program defaultsprite\n" \ "else\n" \ "program defaultsprite#MASK=0.666\n" \ "endif\n" \ "{\n" \ "map $diffuse\n" \ "if gl_blendsprites\n" \ "blendfunc GL_ONE GL_ONE_MINUS_SRC_ALPHA\n" \ "else\n" \ "alphafunc ge128\n" \ "depthwrite\n" \ "endif\n" \ "rgbgen vertex\n" \ "alphagen vertex\n" \ "}\n" \ "surfaceparm noshadows\n" #define SPRITE_SHADER_UNLIT "surfaceparm nodlight\n" #define SPRITE_SHADER_LIT \ "sort seethrough\n" \ "bemode rtlight\n" \ "{\n" \ "program rtlight#NOBUMP\n" \ "{\n" \ "map $diffuse\n" \ "blendfunc add\n" \ "}\n" \ "}\n" #define SPRITE_SHADER_FOOTER "}\n" void Mod_LoadSpriteFrameShader(model_t *spr, int frame, int subframe, mspriteframe_t *frameinfo) { #ifndef SERVERONLY char *shadertext; char name[MAX_QPATH]; qboolean litsprite = false; if (qrenderer == QR_NONE) return; if (subframe == -1) Q_snprintfz(name, sizeof(name), "%s_%i.tga", spr->name, frame); else Q_snprintfz(name, sizeof(name), "%s_%i_%i.tga", spr->name, frame, subframe); if (mod_litsprites_force.ival || strchr(spr->publicname, '!')) litsprite = true; #ifdef HAVE_LEGACY else { int i; /* A quick note on tenebrae and sprites: In tenebrae, sprites are always lit, unless the light_lev field is set (which makes it fullbright). While its generally preferable and more consistent to assume lit sprites, this is incompatible with vanilla quake and thus unacceptable to us, but you can set the mod_assumelitsprites cvar if you want it. So for better compatibility, we have a whitelist of 'well-known' sprites that tenebrae uses in this way, which we do lighting on. You should still be able to use EF_FULLBRIGHT on these, but light_lev is an imprecise setting and will result in issues. Just be specific about fullbright or additive. DP on the other hand, supports lit sprites only when the sprite contains a ! in its name. We support that too. */ static char *forcelitsprites[] = { "progs/smokepuff.spr", NULL }; for (i = 0; forcelitsprites[i]; i++) if (!strcmp(spr->publicname, forcelitsprites[i])) { litsprite = true; break; } } #endif if (litsprite) // a ! in the filename makes it non-fullbright (and can also be lit by rtlights too). { shadertext = "{\n" "program defaultsprite\n" "{\n" "map $diffuse\n" "blendfunc GL_ONE GL_ONE\n" //lit sprites are actually additive... "rgbgen vertex\n" "alphagen vertex\n" "}\n" "surfaceparm noshadows\n" "sort seethrough\n" "bemode rtlight\n" "{\n" "program rtlight#NOBUMP\n" "{\n" "map $diffuse\n" "blendfunc add\n" "}\n" "}\n" "}\n" ; } else shadertext = SPRITE_SHADER_MAIN SPRITE_SHADER_UNLIT SPRITE_SHADER_FOOTER; frameinfo->shader = R_RegisterShader(name, SUF_NONE, shadertext); frameinfo->shader->defaulttextures->base = frameinfo->image; frameinfo->shader->width = frameinfo->right-frameinfo->left; frameinfo->shader->height = frameinfo->up-frameinfo->down; #endif } void Mod_LoadSpriteShaders(model_t *spr) { msprite_t *psprite = spr->meshinfo; int i, j; mspritegroup_t *group; for (i = 0; i < psprite->numframes; i++) { switch (psprite->frames[i].type) { case SPR_SINGLE: Mod_LoadSpriteFrameShader(spr, i, -1, psprite->frames[i].frameptr); break; case SPR_ANGLED: case SPR_GROUP: group = (mspritegroup_t *)psprite->frames[i].frameptr; for (j = 0; j < group->numframes; j++) Mod_LoadSpriteFrameShader(spr, i, j, group->frames[j]); break; } } } #ifdef SPRMODELS /* ================= Mod_LoadSpriteFrame ================= */ static void * Mod_LoadSpriteFrame (model_t *mod, void *pin, void *pend, mspriteframe_t **ppframe, int framenum, int version, unsigned char *palette) { dspriteframe_t *pinframe; mspriteframe_t *pspriteframe; int width, height, size, origin[2]; char name[64]; uploadfmt_t lowresfmt; void *dataptr; pinframe = (dspriteframe_t *)pin; width = LittleLong (pinframe->width); height = LittleLong (pinframe->height); size = width * height; pspriteframe = ZG_Malloc(&mod->memgroup, sizeof (mspriteframe_t)); Q_memset (pspriteframe, 0, sizeof (mspriteframe_t)); *ppframe = pspriteframe; origin[0] = LittleLong (pinframe->origin[0]); origin[1] = LittleLong (pinframe->origin[1]); pspriteframe->up = origin[1]; pspriteframe->down = origin[1] - height; pspriteframe->left = origin[0]; pspriteframe->right = width + origin[0]; pspriteframe->xmirror = false; dataptr = (pinframe + 1); if (version == SPRITE32_VERSION) { size *= 4; lowresfmt = TF_RGBA32; } else if (version == SPRITEHL_VERSION) lowresfmt = TF_8PAL32; else lowresfmt = TF_TRANS8; if ((qbyte*)dataptr + size > (qbyte*)pend) { //tenebrae has a couple of dodgy truncated sprites. yay for replacement textures. dataptr = NULL; lowresfmt = TF_INVALID; } Q_snprintfz(name, sizeof(name), "%s_%i.tga", mod->name, framenum); pspriteframe->image = Image_GetTexture(name, "sprites", IF_NOMIPMAP|IF_NOGAMMA|IF_CLAMP|IF_PREMULTIPLYALPHA, dataptr, palette, width, height, lowresfmt); return (void *)((qbyte *)(pinframe+1) + size); } /* ================= Mod_LoadSpriteGroup ================= */ static void * Mod_LoadSpriteGroup (model_t *mod, void * pin, void *pend, mspriteframe_t **ppframe, int framenum, int version, unsigned char *palette) { dspritegroup_t *pingroup; mspritegroup_t *pspritegroup; int i, numframes; dspriteinterval_t *pin_intervals; float *poutintervals; void *ptemp; float prevtime; pingroup = (dspritegroup_t *)pin; numframes = LittleLong (pingroup->numframes); pspritegroup = ZG_Malloc(&mod->memgroup, sizeof (mspritegroup_t) + (numframes - 1) * sizeof (pspritegroup->frames[0])); pspritegroup->numframes = numframes; *ppframe = (mspriteframe_t *)pspritegroup; pin_intervals = (dspriteinterval_t *)(pingroup + 1); poutintervals = ZG_Malloc(&mod->memgroup, numframes * sizeof (float)); pspritegroup->intervals = poutintervals; for (i=0, prevtime=0 ; iinterval); if (*poutintervals <= 0.0) { Con_Printf (CON_ERROR "Mod_LoadSpriteGroup: interval<=0\n"); return NULL; } prevtime = *poutintervals = prevtime+*poutintervals; poutintervals++; pin_intervals++; } ptemp = (void *)pin_intervals; for (i=0 ; iframes[i], framenum * 100 + i, version, palette); } return ptemp; } /* ================= Mod_LoadSpriteModel ================= */ qboolean QDECL Mod_LoadSpriteModel (model_t *mod, void *buffer, size_t fsize) { int i; int version; dsprite_t *pin; msprite_t *psprite; int numframes; int size; dspriteframetype_t *pframetype; int rendertype=SPRHL_ALPHATEST; unsigned char pal[256*4]; int sptype; pin = (dsprite_t *)buffer; version = LittleLong (pin->version); if (version != SPRITE_VERSION) if (version != SPRITE32_VERSION) if (version != SPRITEHL_VERSION) { Con_Printf (CON_ERROR "%s has wrong version number " "(%i should be %i)\n", mod->name, version, SPRITE_VERSION); return false; } sptype = LittleLong (pin->type); if (LittleLong(pin->version) == SPRITEHL_VERSION) { pin = (dsprite_t*)((char*)pin + 4); rendertype = LittleLong (pin->type); //not sure what the values mean. } numframes = LittleLong (pin->numframes); size = sizeof (msprite_t) + (numframes - 1) * sizeof (psprite->frames); psprite = ZG_Malloc(&mod->memgroup, size); mod->meshinfo = psprite; switch(sptype) { case SPR_VP_PARALLEL_UPRIGHT: case SPR_FACING_UPRIGHT: case SPR_VP_PARALLEL: case SPR_ORIENTED: // case SPR_VP_PARALLEL_ORIENTED: // case SPRDP_LABEL: // case SPRDP_LABEL_SCALE: // case SPRDP_OVERHEAD: break; default: Con_DPrintf(CON_ERROR "%s has unsupported sprite type %i\n", mod->name, sptype); sptype = SPR_VP_PARALLEL; break; } psprite->type = sptype; psprite->maxwidth = LittleLong (pin->width); psprite->maxheight = LittleLong (pin->height); psprite->beamlength = LittleFloat (pin->beamlength); mod->synctype = LittleLong (pin->synctype); psprite->numframes = numframes; mod->mins[0] = mod->mins[1] = -psprite->maxwidth/2; mod->maxs[0] = mod->maxs[1] = psprite->maxwidth/2; mod->mins[2] = -psprite->maxheight/2; mod->maxs[2] = psprite->maxheight/2; if (qrenderer == QR_NONE) { mod->type = mod_dummy; return true; } if (version == SPRITEHL_VERSION) { int i; short *numi = (short*)(pin+1); unsigned char *src = (unsigned char *)(numi+1); if (LittleShort(*numi) != 256) { Con_Printf(CON_ERROR "%s has wrong number of palette indexes (we only support 256)\n", mod->name); return false; } if (rendertype == SPRHL_INDEXALPHA) { Con_Printf(CON_ERROR "%s: SPRHL_INDEXALPHA sprites are not supported\n", mod->name); return false; } else { for (i = 0; i < 256; i++) {//FIXME: bgr? pal[i*4+0] = *src++; pal[i*4+1] = *src++; pal[i*4+2] = *src++; pal[i*4+3] = 255; } if (rendertype == SPRHL_ALPHATEST) { pal[255*4+0] = 0; pal[255*4+1] = 0; pal[255*4+2] = 0; pal[255*4+3] = 0; } } pframetype = (dspriteframetype_t *)(src); } else pframetype = (dspriteframetype_t *)(pin + 1); // // load the frames // if (numframes < 1) { Con_Printf (CON_ERROR "Mod_LoadSpriteModel: Invalid # of frames: %d\n", numframes); return false; } mod->numframes = numframes; for (i=0 ; itype); psprite->frames[i].type = frametype; if (frametype == SPR_SINGLE) { pframetype = (dspriteframetype_t *) Mod_LoadSpriteFrame (mod, pframetype + 1, (qbyte*)buffer + fsize, &psprite->frames[i].frameptr, i, version, pal); } else { pframetype = (dspriteframetype_t *) Mod_LoadSpriteGroup (mod, pframetype + 1, (qbyte*)buffer + fsize, &psprite->frames[i].frameptr, i, version, pal); } if (pframetype == NULL) { return false; } } mod->type = mod_sprite; return true; } #endif #ifdef SP2MODELS qboolean QDECL Mod_LoadSprite2Model (model_t *mod, void *buffer, size_t fsize) { int i; int version; dmd2sprite_t *pin; msprite_t *psprite; int numframes; int size; dmd2sprframe_t *pframetype; mspriteframe_t *frame; int w, h; float origin[2]; pin = (dmd2sprite_t *)buffer; version = LittleLong (pin->version); if (version != SPRITE2_VERSION) { Con_Printf (CON_ERROR "%s has wrong version number " "(%i should be %i)", mod->name, version, SPRITE2_VERSION); return false; } numframes = LittleLong (pin->numframes); size = sizeof (msprite_t) + (numframes - 1) * sizeof (psprite->frames); psprite = ZG_Malloc(&mod->memgroup, size); mod->meshinfo = psprite; psprite->type = SPR_VP_PARALLEL; psprite->maxwidth = 1; psprite->maxheight = 1; psprite->beamlength = 1; mod->synctype = 0; psprite->numframes = numframes; mod->mins[0] = mod->mins[1] = -psprite->maxwidth/2; mod->maxs[0] = mod->maxs[1] = psprite->maxwidth/2; mod->mins[2] = -psprite->maxheight/2; mod->maxs[2] = psprite->maxheight/2; // // load the frames // if (numframes < 1) { Con_Printf (CON_ERROR "Mod_LoadSpriteModel: Invalid # of frames: %d\n", numframes); return false; } mod->numframes = numframes; pframetype = pin->frames; for (i=0 ; iframes[i].type = frametype; frame = psprite->frames[i].frameptr = ZG_Malloc(&mod->memgroup, sizeof(mspriteframe_t)); frame->image = Image_GetTexture(pframetype->name, NULL, IF_NOMIPMAP|IF_NOGAMMA|IF_CLAMP, NULL, NULL, 0, 0, TF_INVALID); w = LittleLong(pframetype->width); h = LittleLong(pframetype->height); origin[0] = LittleLong (pframetype->origin_x); origin[1] = LittleLong (pframetype->origin_y); frame->down = -origin[1]; frame->up = h - origin[1]; frame->left = -origin[0]; frame->right = w - origin[0]; frame->xmirror = false; pframetype++; } mod->type = mod_sprite; return true; } #endif #ifdef DSPMODELS typedef struct { short width; short height; short xpos; short ypos; } doomimage_t; static int QDECL FindDoomSprites(const char *name, qofs_t size, time_t mtime, void *param, searchpathfuncs_t *spath) { if (*(int *)param + strlen(name)+1 > 16000) Sys_Error("Too many doom sprites\n"); strcpy((char *)param + *(int *)param, name); *(int *)param += strlen(name)+1; return true; } static void LoadDoomSpriteFrame(model_t *mod, mspriteframe_t frame, mspriteframedesc_t *pdesc, int anglenum) { mspriteframe_t *pframe; if (!anglenum) { pdesc->type = SPR_SINGLE; pdesc->frameptr = pframe = ZG_Malloc(&mod->memgroup, sizeof(*pframe)); } else { mspritegroup_t *group; if (!pdesc->frameptr || pdesc->type != SPR_ANGLED) { pdesc->type = SPR_ANGLED; group = ZG_Malloc(&mod->memgroup, sizeof(*group)+sizeof(mspriteframe_t *)*(8-1)); pdesc->frameptr = (mspriteframe_t *)group; group->numframes = 8; } else group = (mspritegroup_t *)pdesc->frameptr; pframe = ZG_Malloc(&mod->memgroup, sizeof(*pframe)); group->frames[anglenum-1] = pframe; } *pframe = frame; } /* ================= Doom Sprites ================= */ void Mod_LoadDoomSprite (model_t *mod) { char files[16384]; char basename[MAX_QPATH]; int baselen; char *name; int numframes=0; int ofs; int size; int elements=0; int framenum; int anglenum; msprite_t *psprite; unsigned int image[256*256]; size_t fsize; qbyte palette[256*4]; doomimage_t *header; qbyte *coldata, fr, rc; mspriteframe_t frame; size_t c; unsigned int *colpointers; vec3_t t; mod->type = mod_dummy; COM_StripExtension(mod->name, basename, sizeof(basename)); baselen = strlen(basename); strcat(basename, "*"); *(int *)files=4; COM_EnumerateFiles(basename, FindDoomSprites, files); //find maxframes and validate the rest. for (ofs = 4; ofs < *(int*)files; ofs+=strlen(files+ofs)+1) { name = files+ofs+baselen; if (!*name) Host_Error("Doom sprite componant lacks frame name"); if (*name - 'a'+1 > numframes) numframes = *name - 'a'+1; if (name[1] < '0' || name[1] > '8') Host_Error("Doom sprite componant has bad angle number"); if (name[1] == '0') elements+=8; else elements++; if (name[2]) //is there a second element? { if (name[2] - 'a'+1 > numframes) numframes = name[2] - 'a'+1; if (name[3] < '0' || name[3] > '8') Host_Error("Doom sprite componant has bad angle number"); if (name[3] == '0') elements+=8; else elements++; } } if (elements != numframes*8) Con_Printf("Doom sprite %s has wrong componant count", mod->name); else if (numframes) { size = sizeof (msprite_t) + (elements - 1) * sizeof (psprite->frames); psprite = ZG_Malloc(&mod->memgroup, size); psprite->numframes = numframes; memset(&frame, 0, sizeof(frame)); coldata = FS_LoadMallocFile("wad/playpal", &fsize); if (coldata && fsize >= 256*3) { //expand to 32bit. for (ofs = 0; ofs < 256; ofs++) { palette[ofs*4+0] = coldata[ofs*3+0]; palette[ofs*4+1] = coldata[ofs*3+1]; palette[ofs*4+2] = coldata[ofs*3+2]; palette[ofs*4+3] = 255; } } Z_Free(coldata); ClearBounds(mod->mins, mod->maxs); //do the actual loading. for (ofs = 4; ofs < *(int*)files; ofs+=strlen(files+ofs)+1) { name = files+ofs; header = (doomimage_t *)FS_LoadMallocFile(name, &fsize); //the 5 is because doom likes drawing sprites slightly downwards, in the floor. frame.up = header->ypos + 5; frame.down = header->ypos-header->height + 5; frame.left = -header->xpos; frame.right = header->width - header->xpos; t[0] = t[1] = max(fabs(frame.left),fabs(frame.right)); t[2] = frame.up; AddPointToBounds(t, mod->mins, mod->maxs); t[0] *= -1; t[1] *= -1; t[2] = frame.down; if (header->width*header->height <= sizeof(image)) { //anything not written will be transparent. memset(image, 0, header->width*header->height*4); colpointers = (unsigned int*)(header+1); for (c = 0; c < header->width; c++) { coldata = (qbyte *)header + colpointers[c]; while(1) { fr = *coldata++; if (fr == 255) break; rc = *coldata++; coldata++; if ((fr+rc) > header->height) break; while(rc) { image[c + fr*header->width] = ((unsigned int*)palette)[*coldata++]; fr++; rc--; } coldata++; } } frame.image = Image_GetTexture(name, NULL, IF_CLAMP|IF_NOREPLACE, image, palette, header->width, header->height, TF_RGBA32); Z_Free(header); } framenum = name[baselen+0] - 'a'; anglenum = name[baselen+1] - '0'; frame.xmirror = false; LoadDoomSpriteFrame(mod, frame, &psprite->frames[framenum], anglenum); if (name[baselen+2]) //is there a second element? { framenum = name[baselen+2] - 'a'; anglenum = name[baselen+3] - '0'; frame.xmirror = true; LoadDoomSpriteFrame(mod, frame, &psprite->frames[framenum], anglenum); } } psprite->type = SPR_FACING_UPRIGHT; mod->numframes = numframes; mod->type = mod_sprite; mod->meshinfo = psprite; } } #endif #endif //============================================================================= /* ================ Mod_Print ================ */ void Mod_Print (void) { int i; model_t *mod; Con_Printf ("Cached models:\n"); for (i=0, mod=mod_known ; i < mod_numknown ; i++, mod++) { Con_Printf ("%8p : %s\n", mod->meshinfo, mod->name); } } #endif