changed behavior about 'Bad Surfaces Extents', now only a warning, and such surfaces...
[divverent/darkplaces.git] / model_brush.c
1 /*
2 Copyright (C) 1996-1997 Id Software, Inc.
3
4 This program is free software; you can redistribute it and/or
5 modify it under the terms of the GNU General Public License
6 as published by the Free Software Foundation; either version 2
7 of the License, or (at your option) any later version.
8
9 This program is distributed in the hope that it will be useful,
10 but WITHOUT ANY WARRANTY; without even the implied warranty of
11 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
12
13 See the GNU General Public License for more details.
14
15 You should have received a copy of the GNU General Public License
16 along with this program; if not, write to the Free Software
17 Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA  02111-1307, USA.
18
19 */
20
21 #include "quakedef.h"
22
23 byte mod_novis[(MAX_MAP_LEAFS + 7)/ 8];
24
25 cvar_t r_subdivide_size = {CVAR_SAVE, "r_subdivide_size", "128"};
26 cvar_t halflifebsp = {0, "halflifebsp", "0"};
27 cvar_t r_novis = {0, "r_novis", "0"};
28 cvar_t r_miplightmaps = {CVAR_SAVE, "r_miplightmaps", "0"};
29 cvar_t r_lightmaprgba = {0, "r_lightmaprgba", "1"};
30 cvar_t r_vertexsurfacesthreshold = {CVAR_SAVE, "r_vertexsurfacesthreshold", "48"};
31
32 /*
33 ===============
34 Mod_BrushInit
35 ===============
36 */
37 void Mod_BrushInit (void)
38 {
39         Cvar_RegisterVariable(&r_subdivide_size);
40         Cvar_RegisterVariable(&halflifebsp);
41         Cvar_RegisterVariable(&r_novis);
42         Cvar_RegisterVariable(&r_miplightmaps);
43         Cvar_RegisterVariable(&r_lightmaprgba);
44         Cvar_RegisterVariable(&r_vertexsurfacesthreshold);
45         memset(mod_novis, 0xff, sizeof(mod_novis));
46 }
47
48 void Mod_Brush_SERAddEntity(void)
49 {
50         R_Clip_AddBox(currentrenderentity->mins, currentrenderentity->maxs, R_Entity_Callback, currentrenderentity, NULL);
51 }
52
53 /*
54 ===============
55 Mod_PointInLeaf
56 ===============
57 */
58 mleaf_t *Mod_PointInLeaf (vec3_t p, model_t *model)
59 {
60         mnode_t         *node;
61
62         Mod_CheckLoaded(model);
63 //      if (!model || !model->nodes)
64 //              Sys_Error ("Mod_PointInLeaf: bad model");
65
66         // LordHavoc: modified to start at first clip node,
67         // in other words: first node of the (sub)model
68         node = model->nodes + model->hulls[0].firstclipnode;
69         while (node->contents == 0)
70                 node = node->children[(node->plane->type < 3 ? p[node->plane->type] : DotProduct (p,node->plane->normal)) < node->plane->dist];
71
72         return (mleaf_t *)node;
73 }
74
75 void Mod_FindNonSolidLocation(vec3_t pos, model_t *mod)
76 {
77         if (Mod_PointInLeaf(pos, mod)->contents != CONTENTS_SOLID) return;
78         pos[0]-=1;if (Mod_PointInLeaf(pos, mod)->contents != CONTENTS_SOLID) return;
79         pos[0]+=2;if (Mod_PointInLeaf(pos, mod)->contents != CONTENTS_SOLID) return;
80         pos[0]-=1;
81         pos[1]-=1;if (Mod_PointInLeaf(pos, mod)->contents != CONTENTS_SOLID) return;
82         pos[1]+=2;if (Mod_PointInLeaf(pos, mod)->contents != CONTENTS_SOLID) return;
83         pos[1]-=1;
84         pos[2]-=1;if (Mod_PointInLeaf(pos, mod)->contents != CONTENTS_SOLID) return;
85         pos[2]+=2;if (Mod_PointInLeaf(pos, mod)->contents != CONTENTS_SOLID) return;
86         pos[2]-=1;
87 }
88
89 /*
90 mleaf_t *Mod_PointInLeaf (vec3_t p, model_t *model)
91 {
92         mnode_t         *node;
93         float           d;
94         mplane_t        *plane;
95
96         if (!model || !model->nodes)
97                 Sys_Error ("Mod_PointInLeaf: bad model");
98
99         node = model->nodes;
100         while (1)
101         {
102                 if (node->contents < 0)
103                         return (mleaf_t *)node;
104                 plane = node->plane;
105                 d = DotProduct (p,plane->normal) - plane->dist;
106                 if (d > 0)
107                         node = node->children[0];
108                 else
109                         node = node->children[1];
110         }
111
112         return NULL;    // never reached
113 }
114 */
115
116 /*
117 ===================
118 Mod_DecompressVis
119 ===================
120 */
121 static byte *Mod_DecompressVis (byte *in, model_t *model)
122 {
123         static byte     decompressed[MAX_MAP_LEAFS/8];
124         int             c;
125         byte    *out;
126         int             row;
127
128         row = (model->numleafs+7)>>3;
129         out = decompressed;
130
131         /*
132         if (!in)
133         {       // no vis info, so make all visible
134                 while (row)
135                 {
136                         *out++ = 0xff;
137                         row--;
138                 }
139                 return decompressed;
140         }
141         */
142
143         do
144         {
145                 if (*in)
146                 {
147                         *out++ = *in++;
148                         continue;
149                 }
150
151                 c = in[1];
152                 in += 2;
153                 while (c)
154                 {
155                         *out++ = 0;
156                         c--;
157                 }
158         } while (out - decompressed < row);
159
160         return decompressed;
161 }
162
163 byte *Mod_LeafPVS (mleaf_t *leaf, model_t *model)
164 {
165         if (r_novis.integer || leaf == model->leafs || leaf->compressed_vis == NULL)
166                 return mod_novis;
167         return Mod_DecompressVis (leaf->compressed_vis, model);
168 }
169
170 void Mod_SetupNoTexture(void)
171 {
172         int             x, y;
173         byte    pix[16][16][4];
174
175         for (y = 0;y < 16;y++)
176         {
177                 for (x = 0;x < 16;x++)
178                 {
179                         if ((y < 8) ^ (x < 8))
180                         {
181                                 pix[y][x][0] = 128;
182                                 pix[y][x][1] = 128;
183                                 pix[y][x][2] = 128;
184                                 pix[y][x][3] = 255;
185                         }
186                         else
187                         {
188                                 pix[y][x][0] = 64;
189                                 pix[y][x][1] = 64;
190                                 pix[y][x][2] = 64;
191                                 pix[y][x][3] = 255;
192                         }
193                 }
194         }
195
196         memset(&loadmodel->notexture, 0, sizeof(texture_t));
197         strcpy(loadmodel->notexture.name, "notexture");
198         loadmodel->notexture.width = 16;
199         loadmodel->notexture.height = 16;
200         loadmodel->notexture.flags = 0;
201         loadmodel->notexture.texture = R_LoadTexture(loadmodel->texturepool, "notexture", 16, 16, &pix[0][0][0], TEXTYPE_RGBA, TEXF_MIPMAP);
202 }
203
204 /*
205 =================
206 Mod_LoadTextures
207 =================
208 */
209 static void Mod_LoadTextures (lump_t *l)
210 {
211         int                             i, j, k, num, max, altmax, mtwidth, mtheight, *dofs;
212         miptex_t                *dmiptex;
213         texture_t               *tx, *tx2, *anims[10], *altanims[10];
214         dmiptexlump_t   *m;
215         byte                    *data, *mtdata, *data2;
216         char                    name[256];
217
218         Mod_SetupNoTexture();
219
220         if (!l->filelen)
221         {
222                 loadmodel->textures = NULL;
223                 return;
224         }
225
226         m = (dmiptexlump_t *)(mod_base + l->fileofs);
227
228         m->nummiptex = LittleLong (m->nummiptex);
229
230         loadmodel->numtextures = m->nummiptex;
231         loadmodel->textures = Mem_Alloc(loadmodel->mempool, m->nummiptex * sizeof(*loadmodel->textures));
232
233         // just to work around bounds checking when debugging with it (array index out of bounds error thing)
234         dofs = m->dataofs;
235         for (i = 0;i < m->nummiptex;i++)
236         {
237                 dofs[i] = LittleLong(dofs[i]);
238                 if (dofs[i] == -1)
239                         continue;
240                 dmiptex = (miptex_t *)((byte *)m + dofs[i]);
241                 mtwidth = LittleLong (dmiptex->width);
242                 mtheight = LittleLong (dmiptex->height);
243                 mtdata = NULL;
244                 j = LittleLong (dmiptex->offsets[0]);
245                 if (j)
246                 {
247                         // texture included
248                         if (j < 40 || j + mtwidth * mtheight > l->filelen)
249                                 Host_Error ("Texture %s is corrupt or incomplete\n", dmiptex->name);
250                         mtdata = (byte *)dmiptex + j;
251                 }
252
253                 if ((mtwidth & 15) || (mtheight & 15))
254                         Host_Error ("Texture %s is not 16 aligned", dmiptex->name);
255                 // LordHavoc: rewriting the map texture loader for GLQuake
256                 tx = Mem_Alloc(loadmodel->mempool, sizeof(texture_t));
257                 memset(tx, 0, sizeof(texture_t));
258                 tx->anim_total = 0;
259                 tx->alternate_anims = NULL;
260                 loadmodel->textures[i] = tx;
261
262                 // LordHavoc: force all names to lowercase and make sure they are terminated while copying
263                 for (j = 0;dmiptex->name[j] && j < 15;j++)
264                 {
265                         if (dmiptex->name[j] >= 'A' && dmiptex->name[j] <= 'Z')
266                                 tx->name[j] = dmiptex->name[j] + ('a' - 'A');
267                         else
268                                 tx->name[j] = dmiptex->name[j];
269                 }
270                 for (;j < 16;j++)
271                         tx->name[j] = 0;
272
273                 if (!tx->name[0])
274                 {
275                         Con_Printf("warning: unnamed texture in %s\n", loadmodel->name);
276                         sprintf(tx->name, "unnamed%i", i);
277                 }
278
279                 tx->width = mtwidth;
280                 tx->height = mtheight;
281                 tx->texture = NULL;
282                 tx->glowtexture = NULL;
283                 tx->fogtexture = NULL;
284
285                 if (!loadmodel->ishlbsp && !strncmp(tx->name,"sky",3) && mtwidth == 256 && mtheight == 128) // LordHavoc: HL sky textures are entirely unrelated
286                 {
287                         data = loadimagepixels(tx->name, false, 0, 0);
288                         if (data)
289                         {
290                                 if (image_width == 256 && image_height == 128)
291                                 {
292                                         if (loadmodel->isworldmodel)
293                                                 R_InitSky (data, 4);
294                                         Mem_Free(data);
295                                 }
296                                 else
297                                 {
298                                         Mem_Free(data);
299                                         Host_Error("Mod_LoadTextures: replacement sky image must be 256x128 pixels\n");
300                                 }
301                         }
302                         else if (loadmodel->isworldmodel)
303                                 R_InitSky (mtdata, 1);
304                 }
305                 else if ((tx->texture = loadtextureimagewithmask(loadmodel->texturepool, tx->name, 0, 0, false, true, true)))
306                 {
307                         tx->fogtexture = image_masktex;
308                         strcpy(name, tx->name);
309                         strcat(name, "_glow");
310                         tx->glowtexture = loadtextureimage(loadmodel->texturepool, name, 0, 0, false, true, true);
311                 }
312                 else
313                 {
314                         if (loadmodel->ishlbsp)
315                         {
316                                 if (mtdata && (data = W_ConvertWAD3Texture(dmiptex)))
317                                 {
318                                         // texture included
319                                         tx->texture = R_LoadTexture (loadmodel->texturepool, tx->name, image_width, image_height, data, TEXTYPE_RGBA, TEXF_MIPMAP | TEXF_ALPHA | TEXF_PRECACHE);
320                                         if (R_TextureHasAlpha(tx->texture))
321                                         {
322                                                 // make mask texture
323                                                 for (j = 0;j < image_width * image_height;j++)
324                                                         data[j*4+0] = data[j*4+1] = data[j*4+2] = 255;
325                                                 strcpy(name, tx->name);
326                                                 strcat(name, "_fog");
327                                                 tx->fogtexture = R_LoadTexture (loadmodel->texturepool, name, image_width, image_height, data, TEXTYPE_RGBA, TEXF_MIPMAP | TEXF_ALPHA | TEXF_PRECACHE);
328                                         }
329                                         Mem_Free(data);
330                                 }
331                                 else if ((data = W_GetTexture(tx->name)))
332                                 {
333                                         // get the size from the wad texture
334                                         tx->width = image_width;
335                                         tx->height = image_height;
336                                         tx->texture = R_LoadTexture (loadmodel->texturepool, tx->name, image_width, image_height, data, TEXTYPE_RGBA, TEXF_MIPMAP | TEXF_ALPHA | TEXF_PRECACHE);
337                                         if (R_TextureHasAlpha(tx->texture))
338                                         {
339                                                 // make mask texture
340                                                 for (j = 0;j < image_width * image_height;j++)
341                                                         data[j*4+0] = data[j*4+1] = data[j*4+2] = 255;
342                                                 strcpy(name, tx->name);
343                                                 strcat(name, "_fog");
344                                                 tx->fogtexture = R_LoadTexture (loadmodel->texturepool, name, image_width, image_height, data, TEXTYPE_RGBA, TEXF_MIPMAP | TEXF_ALPHA | TEXF_PRECACHE);
345                                         }
346                                         Mem_Free(data);
347                                 }
348                                 else
349                                 {
350                                         tx->width = 16;
351                                         tx->height = 16;
352                                         tx->texture = loadmodel->notexture.texture;
353                                 }
354                         }
355                         else
356                         {
357                                 if (mtdata) // texture included
358                                 {
359                                         int fullbrights;
360                                         data = mtdata;
361                                         fullbrights = false;
362                                         if (r_fullbrights.value && tx->name[0] != '*')
363                                         {
364                                                 for (j = 0;j < tx->width*tx->height;j++)
365                                                 {
366                                                         if (data[j] >= 224) // fullbright
367                                                         {
368                                                                 fullbrights = true;
369                                                                 break;
370                                                         }
371                                                 }
372                                         }
373                                         if (fullbrights)
374                                         {
375                                                 data2 = Mem_Alloc(tempmempool, tx->width*tx->height);
376                                                 for (j = 0;j < tx->width*tx->height;j++)
377                                                         data2[j] = data[j] >= 224 ? 0 : data[j]; // no fullbrights
378                                                 tx->texture = R_LoadTexture (loadmodel->texturepool, tx->name, tx->width, tx->height, data2, TEXTYPE_QPALETTE, TEXF_MIPMAP | TEXF_PRECACHE);
379                                                 strcpy(name, tx->name);
380                                                 strcat(name, "_glow");
381                                                 for (j = 0;j < tx->width*tx->height;j++)
382                                                         data2[j] = data[j] >= 224 ? data[j] : 0; // only fullbrights
383                                                 tx->glowtexture = R_LoadTexture (loadmodel->texturepool, name, tx->width, tx->height, data2, TEXTYPE_QPALETTE, TEXF_MIPMAP | TEXF_PRECACHE);
384                                                 Mem_Free(data2);
385                                         }
386                                         else
387                                                 tx->texture = R_LoadTexture (loadmodel->texturepool, tx->name, tx->width, tx->height, data, TEXTYPE_QPALETTE, TEXF_MIPMAP | TEXF_PRECACHE);
388                                 }
389                                 else // no texture, and no external replacement texture was found
390                                 {
391                                         tx->width = 16;
392                                         tx->height = 16;
393                                         tx->texture = loadmodel->notexture.texture;
394                                 }
395                         }
396                 }
397
398                 if (tx->name[0] == '*')
399                 {
400                         tx->flags |= (SURF_DRAWTURB | SURF_LIGHTBOTHSIDES);
401                         // LordHavoc: some turbulent textures should be fullbright and solid
402                         if (!strncmp(tx->name,"*lava",5)
403                          || !strncmp(tx->name,"*teleport",9)
404                          || !strncmp(tx->name,"*rift",5)) // Scourge of Armagon texture
405                                 tx->flags |= (SURF_DRAWFULLBRIGHT | SURF_DRAWNOALPHA | SURF_CLIPSOLID);
406                 }
407                 else if (tx->name[0] == 's' && tx->name[1] == 'k' && tx->name[2] == 'y')
408                         tx->flags |= (SURF_DRAWSKY | SURF_CLIPSOLID);
409                 else
410                 {
411                         tx->flags |= SURF_LIGHTMAP;
412                         if (!R_TextureHasAlpha(tx->texture))
413                                 tx->flags |= SURF_CLIPSOLID;
414                 }
415         }
416
417 //
418 // sequence the animations
419 //
420         for (i = 0;i < m->nummiptex;i++)
421         {
422                 tx = loadmodel->textures[i];
423                 if (!tx || tx->name[0] != '+')
424                         continue;
425                 if (tx->anim_total)
426                         continue;       // already sequenced
427
428                 // find the number of frames in the animation
429                 memset (anims, 0, sizeof(anims));
430                 memset (altanims, 0, sizeof(altanims));
431                 max = altmax = 0;
432
433                 for (j = i;j < m->nummiptex;j++)
434                 {
435                         tx2 = loadmodel->textures[j];
436                         if (!tx2 || tx2->name[0] != '+' || strcmp (tx2->name+2, tx->name+2))
437                                 continue;
438
439                         num = tx2->name[1];
440                         if (num >= '0' && num <= '9')
441                                 anims[num - '0'] = tx2;
442                         else if (num >= 'a' && num <= 'j')
443                                 altanims[num - 'a'] = tx2;
444                         else
445                                 Host_Error ("Bad animating texture %s", tx->name);
446                 }
447
448                 for (j = 0;j < 10;j++)
449                 {
450                         if (anims[j] != NULL)
451                                 max = j + 1;
452                         if (altanims[j] != NULL)
453                                 altmax = j + 1;
454                 }
455
456                 // link them all together
457                 for (j = 0;j < max;j++)
458                 {
459                         tx2 = anims[j];
460                         if (!tx2)
461                                 Host_Error ("Missing frame %i of %s", j, tx->name);
462                         tx2->anim_total = max;
463                         tx2->alternate_anims = altanims[0]; // NULL if there is no alternate
464                         for (k = 0;k < 10;k++)
465                                 tx2->anim_frames[k] = anims[k];
466                 }
467
468                 for (j = 0;j < altmax;j++)
469                 {
470                         tx2 = altanims[j];
471                         if (!tx2)
472                                 Host_Error ("Missing frame %i of %s", j, tx->name);
473                         tx2->anim_total = altmax;
474                         tx2->alternate_anims = anims[0]; // NULL if there is no alternate
475                         for (k = 0;k < 10;k++)
476                                 tx2->anim_frames[k] = altanims[k];
477                 }
478         }
479 }
480
481 /*
482 =================
483 Mod_LoadLighting
484 =================
485 */
486 static void Mod_LoadLighting (lump_t *l)
487 {
488         int i;
489         byte *in, *out, *data;
490         byte d;
491         char litfilename[1024];
492         loadmodel->lightdata = NULL;
493         if (loadmodel->ishlbsp) // LordHavoc: load the colored lighting data straight
494         {
495                 loadmodel->lightdata = Mem_Alloc(loadmodel->mempool, l->filelen);
496                 memcpy (loadmodel->lightdata, mod_base + l->fileofs, l->filelen);
497         }
498         else // LordHavoc: bsp version 29 (normal white lighting)
499         {
500                 // LordHavoc: hope is not lost yet, check for a .lit file to load
501                 strcpy(litfilename, loadmodel->name);
502                 COM_StripExtension(litfilename, litfilename);
503                 strcat(litfilename, ".lit");
504                 data = (byte*) COM_LoadFile (litfilename, false);
505                 if (data)
506                 {
507                         if (loadsize > 8 && data[0] == 'Q' && data[1] == 'L' && data[2] == 'I' && data[3] == 'T')
508                         {
509                                 i = LittleLong(((int *)data)[1]);
510                                 if (i == 1)
511                                 {
512                                         Con_DPrintf("%s loaded", litfilename);
513                                         loadmodel->lightdata = Mem_Alloc(loadmodel->mempool, loadsize - 8);
514                                         memcpy(loadmodel->lightdata, data + 8, loadsize - 8);
515                                         Mem_Free(data);
516                                         return;
517                                 }
518                                 else
519                                 {
520                                         Con_Printf("Unknown .lit file version (%d)\n", i);
521                                         Mem_Free(data);
522                                 }
523                         }
524                         else
525                         {
526                                 if (loadsize == 8)
527                                         Con_Printf("Empty .lit file, ignoring\n");
528                                 else
529                                         Con_Printf("Corrupt .lit file (old version?), ignoring\n");
530                                 Mem_Free(data);
531                         }
532                 }
533                 // LordHavoc: oh well, expand the white lighting data
534                 if (!l->filelen)
535                         return;
536                 loadmodel->lightdata = Mem_Alloc(loadmodel->mempool, l->filelen*3);
537                 in = loadmodel->lightdata + l->filelen*2; // place the file at the end, so it will not be overwritten until the very last write
538                 out = loadmodel->lightdata;
539                 memcpy (in, mod_base + l->fileofs, l->filelen);
540                 for (i = 0;i < l->filelen;i++)
541                 {
542                         d = *in++;
543                         *out++ = d;
544                         *out++ = d;
545                         *out++ = d;
546                 }
547         }
548 }
549
550
551 /*
552 =================
553 Mod_LoadVisibility
554 =================
555 */
556 static void Mod_LoadVisibility (lump_t *l)
557 {
558         if (!l->filelen)
559         {
560                 loadmodel->visdata = NULL;
561                 return;
562         }
563         loadmodel->visdata = Mem_Alloc(loadmodel->mempool, l->filelen);
564         memcpy (loadmodel->visdata, mod_base + l->fileofs, l->filelen);
565 }
566
567 // used only for HalfLife maps
568 void Mod_ParseWadsFromEntityLump(char *data)
569 {
570         char key[128], value[4096];
571         char wadname[128];
572         int i, j, k;
573         if (!data)
574                 return;
575         data = COM_Parse(data);
576         if (!data)
577                 return; // error
578         if (com_token[0] != '{')
579                 return; // error
580         while (1)
581         {
582                 data = COM_Parse(data);
583                 if (!data)
584                         return; // error
585                 if (com_token[0] == '}')
586                         break; // end of worldspawn
587                 if (com_token[0] == '_')
588                         strcpy(key, com_token + 1);
589                 else
590                         strcpy(key, com_token);
591                 while (key[strlen(key)-1] == ' ') // remove trailing spaces
592                         key[strlen(key)-1] = 0;
593                 data = COM_Parse(data);
594                 if (!data)
595                         return; // error
596                 strcpy(value, com_token);
597                 if (!strcmp("wad", key)) // for HalfLife maps
598                 {
599                         if (loadmodel->ishlbsp)
600                         {
601                                 j = 0;
602                                 for (i = 0;i < 4096;i++)
603                                         if (value[i] != ';' && value[i] != '\\' && value[i] != '/' && value[i] != ':')
604                                                 break;
605                                 if (value[i])
606                                 {
607                                         for (;i < 4096;i++)
608                                         {
609                                                 // ignore path - the \\ check is for HalfLife... stupid windoze 'programmers'...
610                                                 if (value[i] == '\\' || value[i] == '/' || value[i] == ':')
611                                                         j = i+1;
612                                                 else if (value[i] == ';' || value[i] == 0)
613                                                 {
614                                                         k = value[i];
615                                                         value[i] = 0;
616                                                         strcpy(wadname, "textures/");
617                                                         strcat(wadname, &value[j]);
618                                                         W_LoadTextureWadFile (wadname, false);
619                                                         j = i+1;
620                                                         if (!k)
621                                                                 break;
622                                                 }
623                                         }
624                                 }
625                         }
626                 }
627         }
628 }
629
630 /*
631 =================
632 Mod_LoadEntities
633 =================
634 */
635 static void Mod_LoadEntities (lump_t *l)
636 {
637         if (!l->filelen)
638         {
639                 loadmodel->entities = NULL;
640                 return;
641         }
642         loadmodel->entities = Mem_Alloc(loadmodel->mempool, l->filelen);
643         memcpy (loadmodel->entities, mod_base + l->fileofs, l->filelen);
644         if (loadmodel->ishlbsp)
645                 Mod_ParseWadsFromEntityLump(loadmodel->entities);
646 }
647
648
649 /*
650 =================
651 Mod_LoadVertexes
652 =================
653 */
654 static void Mod_LoadVertexes (lump_t *l)
655 {
656         dvertex_t       *in;
657         mvertex_t       *out;
658         int                     i, count;
659
660         in = (void *)(mod_base + l->fileofs);
661         if (l->filelen % sizeof(*in))
662                 Host_Error ("MOD_LoadBmodel: funny lump size in %s",loadmodel->name);
663         count = l->filelen / sizeof(*in);
664         out = Mem_Alloc(loadmodel->mempool, count*sizeof(*out));
665
666         loadmodel->vertexes = out;
667         loadmodel->numvertexes = count;
668
669         for ( i=0 ; i<count ; i++, in++, out++)
670         {
671                 out->position[0] = LittleFloat (in->point[0]);
672                 out->position[1] = LittleFloat (in->point[1]);
673                 out->position[2] = LittleFloat (in->point[2]);
674         }
675 }
676
677 /*
678 =================
679 Mod_LoadSubmodels
680 =================
681 */
682 static void Mod_LoadSubmodels (lump_t *l)
683 {
684         dmodel_t        *in;
685         dmodel_t        *out;
686         int                     i, j, count;
687
688         in = (void *)(mod_base + l->fileofs);
689         if (l->filelen % sizeof(*in))
690                 Host_Error ("MOD_LoadBmodel: funny lump size in %s",loadmodel->name);
691         count = l->filelen / sizeof(*in);
692         out = Mem_Alloc(loadmodel->mempool, count*sizeof(*out));
693
694         loadmodel->submodels = out;
695         loadmodel->numsubmodels = count;
696
697         for ( i=0 ; i<count ; i++, in++, out++)
698         {
699                 for (j=0 ; j<3 ; j++)
700                 {
701                         // spread the mins / maxs by a pixel
702                         out->mins[j] = LittleFloat (in->mins[j]) - 1;
703                         out->maxs[j] = LittleFloat (in->maxs[j]) + 1;
704                         out->origin[j] = LittleFloat (in->origin[j]);
705                 }
706                 for (j=0 ; j<MAX_MAP_HULLS ; j++)
707                         out->headnode[j] = LittleLong (in->headnode[j]);
708                 out->visleafs = LittleLong (in->visleafs);
709                 out->firstface = LittleLong (in->firstface);
710                 out->numfaces = LittleLong (in->numfaces);
711         }
712 }
713
714 /*
715 =================
716 Mod_LoadEdges
717 =================
718 */
719 static void Mod_LoadEdges (lump_t *l)
720 {
721         dedge_t *in;
722         medge_t *out;
723         int     i, count;
724
725         in = (void *)(mod_base + l->fileofs);
726         if (l->filelen % sizeof(*in))
727                 Host_Error ("MOD_LoadBmodel: funny lump size in %s",loadmodel->name);
728         count = l->filelen / sizeof(*in);
729         out = Mem_Alloc(loadmodel->mempool, count * sizeof(*out));
730
731         loadmodel->edges = out;
732         loadmodel->numedges = count;
733
734         for ( i=0 ; i<count ; i++, in++, out++)
735         {
736                 out->v[0] = (unsigned short)LittleShort(in->v[0]);
737                 out->v[1] = (unsigned short)LittleShort(in->v[1]);
738         }
739 }
740
741 /*
742 =================
743 Mod_LoadTexinfo
744 =================
745 */
746 static void Mod_LoadTexinfo (lump_t *l)
747 {
748         texinfo_t *in;
749         mtexinfo_t *out;
750         int     i, j, k, count;
751         int             miptex;
752
753         in = (void *)(mod_base + l->fileofs);
754         if (l->filelen % sizeof(*in))
755                 Host_Error ("MOD_LoadBmodel: funny lump size in %s",loadmodel->name);
756         count = l->filelen / sizeof(*in);
757         out = Mem_Alloc(loadmodel->mempool, count * sizeof(*out));
758
759         loadmodel->texinfo = out;
760         loadmodel->numtexinfo = count;
761
762         for (i = 0;i < count;i++, in++, out++)
763         {
764                 for (k = 0;k < 2;k++)
765                         for (j = 0;j < 4;j++)
766                                 out->vecs[k][j] = LittleFloat (in->vecs[k][j]);
767
768                 miptex = LittleLong (in->miptex);
769                 out->flags = LittleLong (in->flags);
770
771                 if (!loadmodel->textures)
772                         out->texture = &loadmodel->notexture;
773                 else
774                 {
775                         if (miptex < 0)
776                                 Host_Error ("miptex < 0");
777                         if (miptex >= loadmodel->numtextures)
778                                 Host_Error ("miptex >= loadmodel->numtextures");
779                         out->texture = loadmodel->textures[miptex];
780                 }
781                 if (!out->texture)
782                         out->texture = &loadmodel->notexture;
783         }
784 }
785
786 /*
787 ================
788 CalcSurfaceExtents
789
790 Fills in s->texturemins[] and s->extents[]
791 ================
792 */
793 static void CalcSurfaceExtents (msurface_t *s)
794 {
795         float   mins[2], maxs[2], val;
796         int             i,j, e;
797         mvertex_t       *v;
798         mtexinfo_t      *tex;
799         int             bmins[2], bmaxs[2];
800
801         mins[0] = mins[1] = 999999999;
802         maxs[0] = maxs[1] = -999999999;
803
804         tex = s->texinfo;
805
806         for (i=0 ; i<s->numedges ; i++)
807         {
808                 e = loadmodel->surfedges[s->firstedge+i];
809                 if (e >= 0)
810                         v = &loadmodel->vertexes[loadmodel->edges[e].v[0]];
811                 else
812                         v = &loadmodel->vertexes[loadmodel->edges[-e].v[1]];
813
814                 for (j=0 ; j<2 ; j++)
815                 {
816                         val = v->position[0] * tex->vecs[j][0] +
817                                 v->position[1] * tex->vecs[j][1] +
818                                 v->position[2] * tex->vecs[j][2] +
819                                 tex->vecs[j][3];
820                         if (val < mins[j])
821                                 mins[j] = val;
822                         if (val > maxs[j])
823                                 maxs[j] = val;
824                 }
825         }
826
827         for (i=0 ; i<2 ; i++)
828         {
829                 bmins[i] = floor(mins[i]/16);
830                 bmaxs[i] = ceil(maxs[i]/16);
831
832                 s->texturemins[i] = bmins[i] * 16;
833                 s->extents[i] = (bmaxs[i] - bmins[i]) * 16;
834         }
835 }
836
837
838 void BoundPoly (int numverts, float *verts, vec3_t mins, vec3_t maxs)
839 {
840         int             i, j;
841         float   *v;
842
843         mins[0] = mins[1] = mins[2] = 9999;
844         maxs[0] = maxs[1] = maxs[2] = -9999;
845         v = verts;
846         for (i = 0;i < numverts;i++)
847         {
848                 for (j = 0;j < 3;j++, v++)
849                 {
850                         if (*v < mins[j])
851                                 mins[j] = *v;
852                         if (*v > maxs[j])
853                                 maxs[j] = *v;
854                 }
855         }
856 }
857
858 #define MAX_SUBDIVPOLYTRIANGLES 4096
859 #define MAX_SUBDIVPOLYVERTS (MAX_SUBDIVPOLYTRIANGLES * 3)
860
861 static int subdivpolyverts, subdivpolytriangles;
862 static int subdivpolyindex[MAX_SUBDIVPOLYTRIANGLES][3];
863 static float subdivpolyvert[MAX_SUBDIVPOLYVERTS][3];
864
865 static int subdivpolylookupvert(vec3_t v)
866 {
867         int i;
868         for (i = 0;i < subdivpolyverts;i++)
869                 if (subdivpolyvert[i][0] == v[0]
870                  && subdivpolyvert[i][1] == v[1]
871                  && subdivpolyvert[i][2] == v[2])
872                         return i;
873         if (subdivpolyverts >= MAX_SUBDIVPOLYVERTS)
874                 Host_Error("SubDividePolygon: ran out of vertices in buffer, please increase your r_subdivide_size");
875         VectorCopy(v, subdivpolyvert[subdivpolyverts]);
876         return subdivpolyverts++;
877 }
878
879 static void SubdividePolygon (int numverts, float *verts)
880 {
881         int             i, i1, i2, i3, f, b, c, p;
882         vec3_t  mins, maxs, front[256], back[256];
883         float   m, *pv, *cv, dist[256], frac;
884
885         if (numverts > 250)
886                 Host_Error ("SubdividePolygon: ran out of verts in buffer");
887
888         BoundPoly (numverts, verts, mins, maxs);
889
890         for (i = 0;i < 3;i++)
891         {
892                 m = (mins[i] + maxs[i]) * 0.5;
893                 m = r_subdivide_size.value * floor (m/r_subdivide_size.value + 0.5);
894                 if (maxs[i] - m < 8)
895                         continue;
896                 if (m - mins[i] < 8)
897                         continue;
898
899                 // cut it
900                 for (cv = verts, c = 0;c < numverts;c++, cv += 3)
901                         dist[c] = cv[i] - m;
902
903                 f = b = 0;
904                 for (p = numverts - 1, c = 0, pv = verts + p * 3, cv = verts;c < numverts;p = c, c++, pv = cv, cv += 3)
905                 {
906                         if (dist[p] >= 0)
907                         {
908                                 VectorCopy (pv, front[f]);
909                                 f++;
910                         }
911                         if (dist[p] <= 0)
912                         {
913                                 VectorCopy (pv, back[b]);
914                                 b++;
915                         }
916                         if (dist[p] == 0 || dist[c] == 0)
917                                 continue;
918                         if ( (dist[p] > 0) != (dist[c] > 0) )
919                         {
920                                 // clip point
921                                 frac = dist[p] / (dist[p] - dist[c]);
922                                 front[f][0] = back[b][0] = pv[0] + frac * (cv[0] - pv[0]);
923                                 front[f][1] = back[b][1] = pv[1] + frac * (cv[1] - pv[1]);
924                                 front[f][2] = back[b][2] = pv[2] + frac * (cv[2] - pv[2]);
925                                 f++;
926                                 b++;
927                         }
928                 }
929
930                 SubdividePolygon (f, front[0]);
931                 SubdividePolygon (b, back[0]);
932                 return;
933         }
934
935         i1 = subdivpolylookupvert(verts);
936         i2 = subdivpolylookupvert(verts + 3);
937         for (i = 2;i < numverts;i++)
938         {
939                 if (subdivpolytriangles >= MAX_SUBDIVPOLYTRIANGLES)
940                 {
941                         Con_Printf("SubdividePolygon: ran out of triangles in buffer, please increase your r_subdivide_size\n");
942                         return;
943                 }
944
945                 i3 = subdivpolylookupvert(verts + i * 3);
946                 subdivpolyindex[subdivpolytriangles][0] = i1;
947                 subdivpolyindex[subdivpolytriangles][1] = i2;
948                 subdivpolyindex[subdivpolytriangles][2] = i3;
949                 i2 = i3;
950                 subdivpolytriangles++;
951         }
952 }
953
954 /*
955 ================
956 Mod_GenerateWarpMesh
957
958 Breaks a polygon up along axial 64 unit
959 boundaries so that turbulent and sky warps
960 can be done reasonably.
961 ================
962 */
963 void Mod_GenerateWarpMesh (msurface_t *surf)
964 {
965         int                             i, j;
966         surfvertex_t    *v;
967         surfmesh_t              *mesh;
968
969         subdivpolytriangles = 0;
970         subdivpolyverts = 0;
971         SubdividePolygon (surf->poly_numverts, surf->poly_verts);
972
973         mesh = &surf->mesh;
974         mesh->numverts = subdivpolyverts;
975         mesh->numtriangles = subdivpolytriangles;
976         if (mesh->numtriangles < 1)
977                 Host_Error("Mod_GenerateWarpMesh: no triangles?\n");
978         mesh->index = Mem_Alloc(loadmodel->mempool, mesh->numtriangles * sizeof(int[3]) + mesh->numverts * sizeof(surfvertex_t));
979         mesh->vertex = (surfvertex_t *)((long) mesh->index + mesh->numtriangles * sizeof(int[3]));
980         memset(mesh->vertex, 0, mesh->numverts * sizeof(surfvertex_t));
981
982         for (i = 0;i < mesh->numtriangles;i++)
983         {
984                 for (j = 0;j < 3;j++)
985                 {
986                         mesh->index[i*3+j] = subdivpolyindex[i][j];
987                         //if (mesh->index[i] < 0 || mesh->index[i] >= mesh->numverts)
988                         //      Host_Error("Mod_GenerateWarpMesh: invalid index generated\n");
989                 }
990         }
991
992         for (i = 0, v = mesh->vertex;i < subdivpolyverts;i++, v++)
993         {
994                 VectorCopy(subdivpolyvert[i], v->v);
995                 v->st[0] = DotProduct (v->v, surf->texinfo->vecs[0]);
996                 v->st[1] = DotProduct (v->v, surf->texinfo->vecs[1]);
997         }
998 }
999
1000 void Mod_GenerateVertexLitMesh (msurface_t *surf)
1001 {
1002         int                             i, is, it, *index, smax, tmax;
1003         float                   *in, s, t;
1004         surfvertex_t    *out;
1005         surfmesh_t              *mesh;
1006
1007         //surf->flags |= SURF_LIGHTMAP;
1008         smax = surf->extents[0] >> 4;
1009         tmax = surf->extents[1] >> 4;
1010         surf->lightmaptexturestride = 0;
1011         surf->lightmaptexture = NULL;
1012
1013         mesh = &surf->mesh;
1014         mesh->numverts = surf->poly_numverts;
1015         mesh->numtriangles = surf->poly_numverts - 2;
1016         mesh->index = Mem_Alloc(loadmodel->mempool, mesh->numtriangles * sizeof(int[3]) + mesh->numverts * sizeof(surfvertex_t));
1017         mesh->vertex = (surfvertex_t *)((long) mesh->index + mesh->numtriangles * sizeof(int[3]));
1018         memset(mesh->vertex, 0, mesh->numverts * sizeof(surfvertex_t));
1019
1020         index = mesh->index;
1021         for (i = 0;i < mesh->numtriangles;i++)
1022         {
1023                 *index++ = 0;
1024                 *index++ = i + 1;
1025                 *index++ = i + 2;
1026         }
1027
1028         for (i = 0, in = surf->poly_verts, out = mesh->vertex;i < mesh->numverts;i++, in += 3, out++)
1029         {
1030                 VectorCopy (in, out->v);
1031
1032                 s = DotProduct (out->v, surf->texinfo->vecs[0]) + surf->texinfo->vecs[0][3];
1033                 t = DotProduct (out->v, surf->texinfo->vecs[1]) + surf->texinfo->vecs[1][3];
1034
1035                 out->st[0] = s / surf->texinfo->texture->width;
1036                 out->st[1] = t / surf->texinfo->texture->height;
1037
1038                 s = (s + 8 - surf->texturemins[0]) * (1.0 / 16.0);
1039                 t = (t + 8 - surf->texturemins[1]) * (1.0 / 16.0);
1040
1041                 // lightmap coordinates
1042                 out->uv[0] = 0;
1043                 out->uv[1] = 0;
1044
1045                 // LordHavoc: calc lightmap data offset for vertex lighting to use
1046                 is = (int) s;
1047                 it = (int) t;
1048                 is = bound(0, is, smax);
1049                 it = bound(0, it, tmax);
1050                 out->lightmapoffset = ((it * (smax+1) + is) * 3);
1051         }
1052 }
1053
1054 void Mod_GenerateLightmappedMesh (msurface_t *surf)
1055 {
1056         int                             i, is, it, *index, smax, tmax;
1057         float                   *in, s, t, xbase, ybase, xscale, yscale;
1058         surfvertex_t    *out;
1059         surfmesh_t              *mesh;
1060
1061         surf->flags |= SURF_LIGHTMAP;
1062         smax = surf->extents[0] >> 4;
1063         tmax = surf->extents[1] >> 4;
1064         if (r_miplightmaps.integer)
1065         {
1066                 surf->lightmaptexturestride = (surf->extents[0]>>4)+1;
1067                 surf->lightmaptexture = R_ProceduralTexture(loadmodel->texturepool, NULL, surf->lightmaptexturestride, (surf->extents[1]>>4)+1, loadmodel->lightmaprgba ? TEXTYPE_RGBA : TEXTYPE_RGB, TEXF_MIPMAP/* | TEXF_PRECACHE*/, NULL, NULL, 0);
1068         }
1069         else
1070         {
1071                 surf->lightmaptexturestride = R_CompatibleFragmentWidth((surf->extents[0]>>4)+1, loadmodel->lightmaprgba ? TEXTYPE_RGBA : TEXTYPE_RGB, 0);
1072                 surf->lightmaptexture = R_ProceduralTexture(loadmodel->texturepool, NULL, surf->lightmaptexturestride, (surf->extents[1]>>4)+1, loadmodel->lightmaprgba ? TEXTYPE_RGBA : TEXTYPE_RGB, TEXF_FRAGMENT/* | TEXF_PRECACHE*/, NULL, NULL, 0);
1073         }
1074 //      surf->lightmaptexture = R_LoadTexture(loadmodel->texturepool, va("lightmap%08x", lightmapnum), surf->lightmaptexturestride, (surf->extents[1]>>4)+1, NULL, loadmodel->lightmaprgba ? TEXTYPE_RGBA : TEXTYPE_RGB, TEXF_FRAGMENT | TEXF_PRECACHE);
1075 //      surf->lightmaptexture = R_LoadTexture(loadmodel->texturepool, va("lightmap%08x", lightmapnum), surf->lightmaptexturestride, (surf->extents[1]>>4)+1, NULL, loadmodel->lightmaprgba ? TEXTYPE_RGBA : TEXTYPE_RGB, TEXF_PRECACHE);
1076         R_GetFragmentLocation(surf->lightmaptexture, NULL, NULL, &xbase, &ybase, &xscale, &yscale);
1077         xscale = (xscale - xbase) * 16.0 / ((surf->extents[0] & ~15) + 16);
1078         yscale = (yscale - ybase) * 16.0 / ((surf->extents[1] & ~15) + 16);
1079
1080         mesh = &surf->mesh;
1081         mesh->numverts = surf->poly_numverts;
1082         mesh->numtriangles = surf->poly_numverts - 2;
1083         mesh->index = Mem_Alloc(loadmodel->mempool, mesh->numtriangles * sizeof(int[3]) + mesh->numverts * sizeof(surfvertex_t));
1084         mesh->vertex = (surfvertex_t *)((long) mesh->index + mesh->numtriangles * sizeof(int[3]));
1085         memset(mesh->vertex, 0, mesh->numverts * sizeof(surfvertex_t));
1086
1087         index = mesh->index;
1088         for (i = 0;i < mesh->numtriangles;i++)
1089         {
1090                 *index++ = 0;
1091                 *index++ = i + 1;
1092                 *index++ = i + 2;
1093         }
1094
1095         for (i = 0, in = surf->poly_verts, out = mesh->vertex;i < mesh->numverts;i++, in += 3, out++)
1096         {
1097                 VectorCopy (in, out->v);
1098
1099                 s = DotProduct (out->v, surf->texinfo->vecs[0]) + surf->texinfo->vecs[0][3];
1100                 t = DotProduct (out->v, surf->texinfo->vecs[1]) + surf->texinfo->vecs[1][3];
1101
1102                 out->st[0] = s / surf->texinfo->texture->width;
1103                 out->st[1] = t / surf->texinfo->texture->height;
1104
1105                 s = (s + 8 - surf->texturemins[0]) * (1.0 / 16.0);
1106                 t = (t + 8 - surf->texturemins[1]) * (1.0 / 16.0);
1107
1108                 // lightmap coordinates
1109                 out->uv[0] = s * xscale + xbase;
1110                 out->uv[1] = t * yscale + ybase;
1111
1112                 // LordHavoc: calc lightmap data offset for vertex lighting to use
1113                 is = (int) s;
1114                 it = (int) t;
1115                 is = bound(0, is, smax);
1116                 it = bound(0, it, tmax);
1117                 out->lightmapoffset = ((it * (smax+1) + is) * 3);
1118         }
1119 }
1120
1121 void Mod_GenerateVertexMesh (msurface_t *surf)
1122 {
1123         int                             i, *index;
1124         float                   *in;
1125         surfvertex_t    *out;
1126         surfmesh_t              *mesh;
1127
1128         surf->lightmaptexturestride = 0;
1129         surf->lightmaptexture = NULL;
1130
1131         mesh = &surf->mesh;
1132         mesh->numverts = surf->poly_numverts;
1133         mesh->numtriangles = surf->poly_numverts - 2;
1134         mesh->index = Mem_Alloc(loadmodel->mempool, mesh->numtriangles * sizeof(int[3]) + mesh->numverts * sizeof(surfvertex_t));
1135         mesh->vertex = (surfvertex_t *)((long) mesh->index + mesh->numtriangles * sizeof(int[3]));
1136         memset(mesh->vertex, 0, mesh->numverts * sizeof(surfvertex_t));
1137
1138         index = mesh->index;
1139         for (i = 0;i < mesh->numtriangles;i++)
1140         {
1141                 *index++ = 0;
1142                 *index++ = i + 1;
1143                 *index++ = i + 2;
1144         }
1145
1146         for (i = 0, in = surf->poly_verts, out = mesh->vertex;i < mesh->numverts;i++, in += 3, out++)
1147         {
1148                 VectorCopy (in, out->v);
1149                 out->st[0] = (DotProduct (out->v, surf->texinfo->vecs[0]) + surf->texinfo->vecs[0][3]) / surf->texinfo->texture->width;
1150                 out->st[1] = (DotProduct (out->v, surf->texinfo->vecs[1]) + surf->texinfo->vecs[1][3]) / surf->texinfo->texture->height;
1151         }
1152 }
1153
1154 void Mod_GenerateSurfacePolygon (msurface_t *surf)
1155 {
1156         float           *vert;
1157         int                     i;
1158         int                     lindex;
1159         float           *vec;
1160
1161         // convert edges back to a normal polygon
1162         surf->poly_numverts = surf->numedges;
1163         vert = surf->poly_verts = Mem_Alloc(loadmodel->mempool, sizeof(float[3]) * surf->numedges);
1164         for (i = 0;i < surf->numedges;i++)
1165         {
1166                 lindex = loadmodel->surfedges[surf->firstedge + i];
1167                 if (lindex > 0)
1168                         vec = loadmodel->vertexes[loadmodel->edges[lindex].v[0]].position;
1169                 else
1170                         vec = loadmodel->vertexes[loadmodel->edges[-lindex].v[1]].position;
1171                 VectorCopy (vec, vert);
1172                 vert += 3;
1173         }
1174 }
1175
1176 /*
1177 =================
1178 Mod_LoadFaces
1179 =================
1180 */
1181 static void Mod_LoadFaces (lump_t *l)
1182 {
1183         dface_t         *in;
1184         msurface_t      *out;
1185         int                     i, count, surfnum;
1186         int                     planenum, side;
1187
1188         in = (void *)(mod_base + l->fileofs);
1189         if (l->filelen % sizeof(*in))
1190                 Host_Error ("MOD_LoadBmodel: funny lump size in %s",loadmodel->name);
1191         count = l->filelen / sizeof(*in);
1192         out = Mem_Alloc(loadmodel->mempool, count*sizeof(*out));
1193
1194         loadmodel->surfaces = out;
1195         loadmodel->numsurfaces = count;
1196
1197         for (surfnum = 0;surfnum < count;surfnum++, in++, out++)
1198         {
1199                 // FIXME: validate edges, texinfo, etc?
1200                 out->firstedge = LittleLong(in->firstedge);
1201                 out->numedges = LittleShort(in->numedges);
1202
1203                 out->texinfo = loadmodel->texinfo + LittleShort (in->texinfo);
1204                 out->flags = out->texinfo->texture->flags;
1205
1206                 planenum = LittleShort(in->planenum);
1207                 side = LittleShort(in->side);
1208                 if (side)
1209                         out->flags |= SURF_PLANEBACK;
1210
1211                 out->plane = loadmodel->planes + planenum;
1212
1213                 // clear lightmap (filled in later)
1214                 out->lightmaptexture = NULL;
1215
1216                 // force lightmap upload on first time seeing the surface
1217                 out->cached_dlight = true;
1218                 out->cached_ambient = -1000;
1219                 out->cached_lightscalebit = -1000;
1220                 out->cached_light[0] = -1000;
1221                 out->cached_light[1] = -1000;
1222                 out->cached_light[2] = -1000;
1223                 out->cached_light[3] = -1000;
1224
1225                 CalcSurfaceExtents (out);
1226
1227                 // lighting info
1228                 for (i = 0;i < MAXLIGHTMAPS;i++)
1229                         out->styles[i] = in->styles[i];
1230                 i = LittleLong(in->lightofs);
1231                 if (i == -1)
1232                         out->samples = NULL;
1233                 else if (loadmodel->ishlbsp) // LordHavoc: HalfLife map (bsp version 30)
1234                         out->samples = loadmodel->lightdata + i;
1235                 else // LordHavoc: white lighting (bsp version 29)
1236                         out->samples = loadmodel->lightdata + (i * 3);
1237
1238                 Mod_GenerateSurfacePolygon(out);
1239
1240                 if (out->texinfo->texture->flags & SURF_DRAWSKY)
1241                 {
1242                         out->shader = &Cshader_sky;
1243                         out->samples = NULL;
1244                         Mod_GenerateWarpMesh (out);
1245                         continue;
1246                 }
1247
1248                 if (out->texinfo->texture->flags & SURF_DRAWTURB)
1249                 {
1250                         out->shader = &Cshader_water;
1251                         /*
1252                         for (i=0 ; i<2 ; i++)
1253                         {
1254                                 out->extents[i] = 16384*1024;
1255                                 out->texturemins[i] = -8192*1024;
1256                         }
1257                         */
1258                         out->samples = NULL;
1259                         Mod_GenerateWarpMesh (out);
1260                         continue;
1261                 }
1262
1263                 if (!R_TextureHasAlpha(out->texinfo->texture->texture))
1264                         out->flags |= SURF_CLIPSOLID;
1265                 if (out->texinfo->flags & TEX_SPECIAL)
1266                 {
1267                         // qbsp couldn't find the texture for this surface, but it was either turb or sky...  assume turb
1268                         out->shader = &Cshader_water;
1269                         out->samples = NULL;
1270                         Mod_GenerateWarpMesh (out);
1271                 }
1272                 else if ((out->extents[0]+1) > (256*16) || (out->extents[1]+1) > (256*16))
1273                 {
1274                         Con_Printf ("Bad surface extents, converting to fullbright polygon");
1275                         out->shader = &Cshader_wall_fullbright;
1276                         out->samples = NULL;
1277                         Mod_GenerateVertexMesh(out);
1278                 }
1279                 else if (out->extents[0] < r_vertexsurfacesthreshold.integer && out->extents[1] < r_vertexsurfacesthreshold.integer)
1280                 {
1281                         out->shader = &Cshader_wall_vertex;
1282                         Mod_GenerateVertexLitMesh(out);
1283                 }
1284                 else
1285                 {
1286                         out->shader = &Cshader_wall_lightmap;
1287                         Mod_GenerateLightmappedMesh(out);
1288                 }
1289         }
1290 }
1291
1292 static model_t *sortmodel;
1293
1294 static int Mod_SurfaceQSortCompare(const void *voida, const void *voidb)
1295 {
1296         const msurface_t *a, *b;
1297         a = *((const msurface_t **)voida);
1298         b = *((const msurface_t **)voidb);
1299         if (a->shader != b->shader)
1300                 return (long) a->shader - (long) b->shader;
1301         if (a->texinfo->texture != b->texinfo->texture);
1302                 return a->texinfo->texture - b->texinfo->texture;
1303         return 0;
1304 }
1305
1306 static void Mod_BrushSortedSurfaces(model_t *model, mempool_t *pool)
1307 {
1308         int surfnum;
1309         sortmodel = model;
1310         sortmodel->modelsortedsurfaces = Mem_Alloc(pool, sortmodel->nummodelsurfaces * sizeof(msurface_t *));
1311         for (surfnum = 0;surfnum < sortmodel->nummodelsurfaces;surfnum++)
1312                 sortmodel->modelsortedsurfaces[surfnum] = &sortmodel->surfaces[surfnum + sortmodel->firstmodelsurface];
1313
1314         qsort(sortmodel->modelsortedsurfaces, sortmodel->nummodelsurfaces, sizeof(msurface_t *), Mod_SurfaceQSortCompare);
1315 }
1316
1317
1318 /*
1319 =================
1320 Mod_SetParent
1321 =================
1322 */
1323 static void Mod_SetParent (mnode_t *node, mnode_t *parent)
1324 {
1325         node->parent = parent;
1326         if (node->contents < 0)
1327                 return;
1328         Mod_SetParent (node->children[0], node);
1329         Mod_SetParent (node->children[1], node);
1330 }
1331
1332 /*
1333 =================
1334 Mod_LoadNodes
1335 =================
1336 */
1337 static void Mod_LoadNodes (lump_t *l)
1338 {
1339         int                     i, j, count, p;
1340         dnode_t         *in;
1341         mnode_t         *out;
1342
1343         in = (void *)(mod_base + l->fileofs);
1344         if (l->filelen % sizeof(*in))
1345                 Host_Error ("MOD_LoadBmodel: funny lump size in %s",loadmodel->name);
1346         count = l->filelen / sizeof(*in);
1347         out = Mem_Alloc(loadmodel->mempool, count*sizeof(*out));
1348
1349         loadmodel->nodes = out;
1350         loadmodel->numnodes = count;
1351
1352         for ( i=0 ; i<count ; i++, in++, out++)
1353         {
1354                 for (j=0 ; j<3 ; j++)
1355                 {
1356                         out->mins[j] = LittleShort (in->mins[j]);
1357                         out->maxs[j] = LittleShort (in->maxs[j]);
1358                 }
1359
1360                 p = LittleLong(in->planenum);
1361                 out->plane = loadmodel->planes + p;
1362
1363                 out->firstsurface = LittleShort (in->firstface);
1364                 out->numsurfaces = LittleShort (in->numfaces);
1365
1366                 for (j=0 ; j<2 ; j++)
1367                 {
1368                         p = LittleShort (in->children[j]);
1369                         if (p >= 0)
1370                                 out->children[j] = loadmodel->nodes + p;
1371                         else
1372                                 out->children[j] = (mnode_t *)(loadmodel->leafs + (-1 - p));
1373                 }
1374         }
1375
1376         Mod_SetParent (loadmodel->nodes, NULL); // sets nodes and leafs
1377 }
1378
1379 /*
1380 =================
1381 Mod_LoadLeafs
1382 =================
1383 */
1384 static void Mod_LoadLeafs (lump_t *l)
1385 {
1386         dleaf_t         *in;
1387         mleaf_t         *out;
1388         int                     i, j, count, p;
1389
1390         in = (void *)(mod_base + l->fileofs);
1391         if (l->filelen % sizeof(*in))
1392                 Host_Error ("MOD_LoadBmodel: funny lump size in %s",loadmodel->name);
1393         count = l->filelen / sizeof(*in);
1394         out = Mem_Alloc(loadmodel->mempool, count*sizeof(*out));
1395
1396         loadmodel->leafs = out;
1397         loadmodel->numleafs = count;
1398
1399         for ( i=0 ; i<count ; i++, in++, out++)
1400         {
1401                 for (j=0 ; j<3 ; j++)
1402                 {
1403                         out->mins[j] = LittleShort (in->mins[j]);
1404                         out->maxs[j] = LittleShort (in->maxs[j]);
1405                 }
1406
1407                 p = LittleLong(in->contents);
1408                 out->contents = p;
1409
1410                 out->firstmarksurface = loadmodel->marksurfaces +
1411                         LittleShort(in->firstmarksurface);
1412                 out->nummarksurfaces = LittleShort(in->nummarksurfaces);
1413
1414                 p = LittleLong(in->visofs);
1415                 if (p == -1)
1416                         out->compressed_vis = NULL;
1417                 else
1418                         out->compressed_vis = loadmodel->visdata + p;
1419
1420                 for (j=0 ; j<4 ; j++)
1421                         out->ambient_sound_level[j] = in->ambient_level[j];
1422
1423                 // gl underwater warp
1424                 // LordHavoc: disabled underwater warping
1425                 /*
1426                 if (out->contents != CONTENTS_EMPTY)
1427                 {
1428                         for (j=0 ; j<out->nummarksurfaces ; j++)
1429                                 out->firstmarksurface[j]->flags |= SURF_UNDERWATER;
1430                 }
1431                 */
1432         }
1433 }
1434
1435 /*
1436 =================
1437 Mod_LoadClipnodes
1438 =================
1439 */
1440 static void Mod_LoadClipnodes (lump_t *l)
1441 {
1442         dclipnode_t *in, *out;
1443         int                     i, count;
1444         hull_t          *hull;
1445
1446         in = (void *)(mod_base + l->fileofs);
1447         if (l->filelen % sizeof(*in))
1448                 Host_Error ("MOD_LoadBmodel: funny lump size in %s",loadmodel->name);
1449         count = l->filelen / sizeof(*in);
1450         out = Mem_Alloc(loadmodel->mempool, count*sizeof(*out));
1451
1452         loadmodel->clipnodes = out;
1453         loadmodel->numclipnodes = count;
1454
1455         if (loadmodel->ishlbsp)
1456         {
1457                 hull = &loadmodel->hulls[1];
1458                 hull->clipnodes = out;
1459                 hull->firstclipnode = 0;
1460                 hull->lastclipnode = count-1;
1461                 hull->planes = loadmodel->planes;
1462                 hull->clip_mins[0] = -16;
1463                 hull->clip_mins[1] = -16;
1464                 hull->clip_mins[2] = -36;
1465                 hull->clip_maxs[0] = 16;
1466                 hull->clip_maxs[1] = 16;
1467                 hull->clip_maxs[2] = 36;
1468
1469                 hull = &loadmodel->hulls[2];
1470                 hull->clipnodes = out;
1471                 hull->firstclipnode = 0;
1472                 hull->lastclipnode = count-1;
1473                 hull->planes = loadmodel->planes;
1474                 hull->clip_mins[0] = -32;
1475                 hull->clip_mins[1] = -32;
1476                 hull->clip_mins[2] = -32;
1477                 hull->clip_maxs[0] = 32;
1478                 hull->clip_maxs[1] = 32;
1479                 hull->clip_maxs[2] = 32;
1480
1481                 hull = &loadmodel->hulls[3];
1482                 hull->clipnodes = out;
1483                 hull->firstclipnode = 0;
1484                 hull->lastclipnode = count-1;
1485                 hull->planes = loadmodel->planes;
1486                 hull->clip_mins[0] = -16;
1487                 hull->clip_mins[1] = -16;
1488                 hull->clip_mins[2] = -18;
1489                 hull->clip_maxs[0] = 16;
1490                 hull->clip_maxs[1] = 16;
1491                 hull->clip_maxs[2] = 18;
1492         }
1493         else
1494         {
1495                 hull = &loadmodel->hulls[1];
1496                 hull->clipnodes = out;
1497                 hull->firstclipnode = 0;
1498                 hull->lastclipnode = count-1;
1499                 hull->planes = loadmodel->planes;
1500                 hull->clip_mins[0] = -16;
1501                 hull->clip_mins[1] = -16;
1502                 hull->clip_mins[2] = -24;
1503                 hull->clip_maxs[0] = 16;
1504                 hull->clip_maxs[1] = 16;
1505                 hull->clip_maxs[2] = 32;
1506
1507                 hull = &loadmodel->hulls[2];
1508                 hull->clipnodes = out;
1509                 hull->firstclipnode = 0;
1510                 hull->lastclipnode = count-1;
1511                 hull->planes = loadmodel->planes;
1512                 hull->clip_mins[0] = -32;
1513                 hull->clip_mins[1] = -32;
1514                 hull->clip_mins[2] = -24;
1515                 hull->clip_maxs[0] = 32;
1516                 hull->clip_maxs[1] = 32;
1517                 hull->clip_maxs[2] = 64;
1518         }
1519
1520         for (i=0 ; i<count ; i++, out++, in++)
1521         {
1522                 out->planenum = LittleLong(in->planenum);
1523                 out->children[0] = LittleShort(in->children[0]);
1524                 out->children[1] = LittleShort(in->children[1]);
1525                 if (out->children[0] >= count || out->children[1] >= count)
1526                         Host_Error("Corrupt clipping hull (out of range child)\n");
1527         }
1528 }
1529
1530 /*
1531 =================
1532 Mod_MakeHull0
1533
1534 Duplicate the drawing hull structure as a clipping hull
1535 =================
1536 */
1537 static void Mod_MakeHull0 (void)
1538 {
1539         mnode_t         *in;
1540         dclipnode_t *out;
1541         int                     i;
1542         hull_t          *hull;
1543
1544         hull = &loadmodel->hulls[0];
1545
1546         in = loadmodel->nodes;
1547         out = Mem_Alloc(loadmodel->mempool, loadmodel->numnodes * sizeof(dclipnode_t));
1548
1549         hull->clipnodes = out;
1550         hull->firstclipnode = 0;
1551         hull->lastclipnode = loadmodel->numnodes - 1;
1552         hull->planes = loadmodel->planes;
1553
1554         for (i = 0;i < loadmodel->numnodes;i++, out++, in++)
1555         {
1556                 out->planenum = in->plane - loadmodel->planes;
1557                 out->children[0] = in->children[0]->contents < 0 ? in->children[0]->contents : in->children[0] - loadmodel->nodes;
1558                 out->children[1] = in->children[1]->contents < 0 ? in->children[1]->contents : in->children[1] - loadmodel->nodes;
1559         }
1560 }
1561
1562 /*
1563 =================
1564 Mod_LoadMarksurfaces
1565 =================
1566 */
1567 static void Mod_LoadMarksurfaces (lump_t *l)
1568 {
1569         int             i, j;
1570         short   *in;
1571
1572         in = (void *)(mod_base + l->fileofs);
1573         if (l->filelen % sizeof(*in))
1574                 Host_Error ("MOD_LoadBmodel: funny lump size in %s",loadmodel->name);
1575         loadmodel->nummarksurfaces = l->filelen / sizeof(*in);
1576         loadmodel->marksurfaces = Mem_Alloc(loadmodel->mempool, loadmodel->nummarksurfaces * sizeof(msurface_t *));
1577
1578         for (i = 0;i < loadmodel->nummarksurfaces;i++)
1579         {
1580                 j = (unsigned) LittleShort(in[i]);
1581                 if (j >= loadmodel->numsurfaces)
1582                         Host_Error ("Mod_ParseMarksurfaces: bad surface number");
1583                 loadmodel->marksurfaces[i] = loadmodel->surfaces + j;
1584         }
1585 }
1586
1587 /*
1588 =================
1589 Mod_LoadSurfedges
1590 =================
1591 */
1592 static void Mod_LoadSurfedges (lump_t *l)
1593 {
1594         int             i;
1595         int             *in;
1596
1597         in = (void *)(mod_base + l->fileofs);
1598         if (l->filelen % sizeof(*in))
1599                 Host_Error ("MOD_LoadBmodel: funny lump size in %s",loadmodel->name);
1600         loadmodel->numsurfedges = l->filelen / sizeof(*in);
1601         loadmodel->surfedges = Mem_Alloc(loadmodel->mempool, loadmodel->numsurfedges * sizeof(int));
1602
1603         for (i = 0;i < loadmodel->numsurfedges;i++)
1604                 loadmodel->surfedges[i] = LittleLong (in[i]);
1605 }
1606
1607
1608 /*
1609 =================
1610 Mod_LoadPlanes
1611 =================
1612 */
1613 static void Mod_LoadPlanes (lump_t *l)
1614 {
1615         int                     i;
1616         mplane_t        *out;
1617         dplane_t        *in;
1618
1619         in = (void *)(mod_base + l->fileofs);
1620         if (l->filelen % sizeof(*in))
1621                 Host_Error ("MOD_LoadBmodel: funny lump size in %s", loadmodel->name);
1622
1623         loadmodel->numplanes = l->filelen / sizeof(*in);
1624         loadmodel->planes = out = Mem_Alloc(loadmodel->mempool, loadmodel->numplanes * sizeof(*out));
1625
1626         for (i = 0;i < loadmodel->numplanes;i++, in++, out++)
1627         {
1628                 out->normal[0] = LittleFloat (in->normal[0]);
1629                 out->normal[1] = LittleFloat (in->normal[1]);
1630                 out->normal[2] = LittleFloat (in->normal[2]);
1631                 out->dist = LittleFloat (in->dist);
1632
1633                 // LordHavoc: recalculated by PlaneClassify, FIXME: validate type and report error if type does not match normal?
1634 //              out->type = LittleLong (in->type);
1635                 PlaneClassify(out);
1636         }
1637 }
1638
1639 #define MAX_POINTS_ON_WINDING 64
1640
1641 typedef struct
1642 {
1643         int numpoints;
1644         double points[8][3]; // variable sized
1645 }
1646 winding_t;
1647
1648 typedef struct
1649 {
1650         int numpoints;
1651 }
1652 windingsizeof_t;
1653
1654 /*
1655 ==================
1656 NewWinding
1657 ==================
1658 */
1659 static winding_t *NewWinding (int points)
1660 {
1661         winding_t *w;
1662         int size;
1663
1664         if (points > MAX_POINTS_ON_WINDING)
1665                 Host_Error("NewWinding: too many points\n");
1666
1667         size = sizeof(windingsizeof_t) + sizeof(double[3]) * points;
1668         w = Mem_Alloc(tempmempool, size);
1669         memset (w, 0, size);
1670
1671         return w;
1672 }
1673
1674 static void FreeWinding (winding_t *w)
1675 {
1676         Mem_Free(w);
1677 }
1678
1679 /*
1680 =================
1681 BaseWindingForPlane
1682 =================
1683 */
1684 static winding_t *BaseWindingForPlane (mplane_t *p)
1685 {
1686         double org[3], vright[3], vup[3], normal[3];
1687         winding_t *w;
1688
1689         VectorCopy(p->normal, normal);
1690         VectorVectorsDouble(normal, vright, vup);
1691
1692         VectorScale (vup, 1024.0*1024.0*1024.0, vup);
1693         VectorScale (vright, 1024.0*1024.0*1024.0, vright);
1694
1695         // project a really big axis aligned box onto the plane
1696         w = NewWinding (4);
1697
1698         VectorScale (p->normal, p->dist, org);
1699
1700         VectorSubtract (org, vright, w->points[0]);
1701         VectorAdd (w->points[0], vup, w->points[0]);
1702
1703         VectorAdd (org, vright, w->points[1]);
1704         VectorAdd (w->points[1], vup, w->points[1]);
1705
1706         VectorAdd (org, vright, w->points[2]);
1707         VectorSubtract (w->points[2], vup, w->points[2]);
1708
1709         VectorSubtract (org, vright, w->points[3]);
1710         VectorSubtract (w->points[3], vup, w->points[3]);
1711
1712         w->numpoints = 4;
1713
1714         return w;
1715 }
1716
1717 /*
1718 ==================
1719 ClipWinding
1720
1721 Clips the winding to the plane, returning the new winding on the positive side
1722 Frees the input winding.
1723 If keepon is true, an exactly on-plane winding will be saved, otherwise
1724 it will be clipped away.
1725 ==================
1726 */
1727 static winding_t *ClipWinding (winding_t *in, mplane_t *split, int keepon)
1728 {
1729         double  dists[MAX_POINTS_ON_WINDING + 1];
1730         int             sides[MAX_POINTS_ON_WINDING + 1];
1731         int             counts[3];
1732         double  dot;
1733         int             i, j;
1734         double  *p1, *p2;
1735         double  mid[3];
1736         winding_t       *neww;
1737         int             maxpts;
1738
1739         counts[SIDE_FRONT] = counts[SIDE_BACK] = counts[SIDE_ON] = 0;
1740
1741         // determine sides for each point
1742         for (i = 0;i < in->numpoints;i++)
1743         {
1744                 dists[i] = dot = DotProduct (in->points[i], split->normal) - split->dist;
1745                 if (dot > ON_EPSILON)
1746                         sides[i] = SIDE_FRONT;
1747                 else if (dot < -ON_EPSILON)
1748                         sides[i] = SIDE_BACK;
1749                 else
1750                         sides[i] = SIDE_ON;
1751                 counts[sides[i]]++;
1752         }
1753         sides[i] = sides[0];
1754         dists[i] = dists[0];
1755
1756         if (keepon && !counts[0] && !counts[1])
1757                 return in;
1758
1759         if (!counts[0])
1760         {
1761                 FreeWinding (in);
1762                 return NULL;
1763         }
1764         if (!counts[1])
1765                 return in;
1766
1767         maxpts = in->numpoints+4;       // can't use counts[0]+2 because of fp grouping errors
1768         neww = NewWinding (maxpts);
1769
1770         for (i = 0;i < in->numpoints;i++)
1771         {
1772                 p1 = in->points[i];
1773
1774                 if (sides[i] == SIDE_ON)
1775                 {
1776                         VectorCopy (p1, neww->points[neww->numpoints]);
1777                         neww->numpoints++;
1778                         continue;
1779                 }
1780
1781                 if (sides[i] == SIDE_FRONT)
1782                 {
1783                         VectorCopy (p1, neww->points[neww->numpoints]);
1784                         neww->numpoints++;
1785                 }
1786
1787                 if (sides[i+1] == SIDE_ON || sides[i+1] == sides[i])
1788                         continue;
1789
1790                 // generate a split point
1791                 p2 = in->points[(i+1)%in->numpoints];
1792
1793                 dot = dists[i] / (dists[i]-dists[i+1]);
1794                 for (j = 0;j < 3;j++)
1795                 {       // avoid round off error when possible
1796                         if (split->normal[j] == 1)
1797                                 mid[j] = split->dist;
1798                         else if (split->normal[j] == -1)
1799                                 mid[j] = -split->dist;
1800                         else
1801                                 mid[j] = p1[j] + dot*(p2[j]-p1[j]);
1802                 }
1803
1804                 VectorCopy (mid, neww->points[neww->numpoints]);
1805                 neww->numpoints++;
1806         }
1807
1808         if (neww->numpoints > maxpts)
1809                 Host_Error ("ClipWinding: points exceeded estimate");
1810
1811         // free the original winding
1812         FreeWinding (in);
1813
1814         return neww;
1815 }
1816
1817
1818 /*
1819 ==================
1820 DivideWinding
1821
1822 Divides a winding by a plane, producing one or two windings.  The
1823 original winding is not damaged or freed.  If only on one side, the
1824 returned winding will be the input winding.  If on both sides, two
1825 new windings will be created.
1826 ==================
1827 */
1828 static void DivideWinding (winding_t *in, mplane_t *split, winding_t **front, winding_t **back)
1829 {
1830         double  dists[MAX_POINTS_ON_WINDING + 1];
1831         int             sides[MAX_POINTS_ON_WINDING + 1];
1832         int             counts[3];
1833         double  dot;
1834         int             i, j;
1835         double  *p1, *p2;
1836         double  mid[3];
1837         winding_t       *f, *b;
1838         int             maxpts;
1839
1840         counts[SIDE_FRONT] = counts[SIDE_BACK] = counts[SIDE_ON] = 0;
1841
1842         // determine sides for each point
1843         for (i = 0;i < in->numpoints;i++)
1844         {
1845                 dot = DotProduct (in->points[i], split->normal);
1846                 dot -= split->dist;
1847                 dists[i] = dot;
1848                 if (dot > ON_EPSILON) sides[i] = SIDE_FRONT;
1849                 else if (dot < -ON_EPSILON) sides[i] = SIDE_BACK;
1850                 else sides[i] = SIDE_ON;
1851                 counts[sides[i]]++;
1852         }
1853         sides[i] = sides[0];
1854         dists[i] = dists[0];
1855
1856         *front = *back = NULL;
1857
1858         if (!counts[0])
1859         {
1860                 *back = in;
1861                 return;
1862         }
1863         if (!counts[1])
1864         {
1865                 *front = in;
1866                 return;
1867         }
1868
1869         maxpts = in->numpoints+4;       // can't use counts[0]+2 because of fp grouping errors
1870
1871         *front = f = NewWinding (maxpts);
1872         *back = b = NewWinding (maxpts);
1873
1874         for (i = 0;i < in->numpoints;i++)
1875         {
1876                 p1 = in->points[i];
1877
1878                 if (sides[i] == SIDE_ON)
1879                 {
1880                         VectorCopy (p1, f->points[f->numpoints]);
1881                         f->numpoints++;
1882                         VectorCopy (p1, b->points[b->numpoints]);
1883                         b->numpoints++;
1884                         continue;
1885                 }
1886
1887                 if (sides[i] == SIDE_FRONT)
1888                 {
1889                         VectorCopy (p1, f->points[f->numpoints]);
1890                         f->numpoints++;
1891                 }
1892                 else if (sides[i] == SIDE_BACK)
1893                 {
1894                         VectorCopy (p1, b->points[b->numpoints]);
1895                         b->numpoints++;
1896                 }
1897
1898                 if (sides[i+1] == SIDE_ON || sides[i+1] == sides[i])
1899                         continue;
1900
1901                 // generate a split point
1902                 p2 = in->points[(i+1)%in->numpoints];
1903
1904                 dot = dists[i] / (dists[i]-dists[i+1]);
1905                 for (j = 0;j < 3;j++)
1906                 {       // avoid round off error when possible
1907                         if (split->normal[j] == 1)
1908                                 mid[j] = split->dist;
1909                         else if (split->normal[j] == -1)
1910                                 mid[j] = -split->dist;
1911                         else
1912                                 mid[j] = p1[j] + dot*(p2[j]-p1[j]);
1913                 }
1914
1915                 VectorCopy (mid, f->points[f->numpoints]);
1916                 f->numpoints++;
1917                 VectorCopy (mid, b->points[b->numpoints]);
1918                 b->numpoints++;
1919         }
1920
1921         if (f->numpoints > maxpts || b->numpoints > maxpts)
1922                 Host_Error ("DivideWinding: points exceeded estimate");
1923 }
1924
1925 typedef struct portal_s
1926 {
1927         mplane_t plane;
1928         mnode_t *nodes[2];              // [0] = front side of plane
1929         struct portal_s *next[2];
1930         winding_t *winding;
1931         struct portal_s *chain; // all portals are linked into a list
1932 }
1933 portal_t;
1934
1935 static portal_t *portalchain;
1936
1937 /*
1938 ===========
1939 AllocPortal
1940 ===========
1941 */
1942 static portal_t *AllocPortal (void)
1943 {
1944         portal_t *p;
1945         p = Mem_Alloc(tempmempool, sizeof(portal_t));
1946         //memset(p, 0, sizeof(portal_t));
1947         p->chain = portalchain;
1948         portalchain = p;
1949         return p;
1950 }
1951
1952 static void FreePortal(portal_t *p)
1953 {
1954         Mem_Free(p);
1955 }
1956
1957 static void Mod_RecursiveRecalcNodeBBox(mnode_t *node)
1958 {
1959         // calculate children first
1960         if (node->children[0]->contents >= 0)
1961                 Mod_RecursiveRecalcNodeBBox(node->children[0]);
1962         if (node->children[1]->contents >= 0)
1963                 Mod_RecursiveRecalcNodeBBox(node->children[1]);
1964
1965         // make combined bounding box from children
1966         node->mins[0] = min(node->children[0]->mins[0], node->children[1]->mins[0]);
1967         node->mins[1] = min(node->children[0]->mins[1], node->children[1]->mins[1]);
1968         node->mins[2] = min(node->children[0]->mins[2], node->children[1]->mins[2]);
1969         node->maxs[0] = max(node->children[0]->maxs[0], node->children[1]->maxs[0]);
1970         node->maxs[1] = max(node->children[0]->maxs[1], node->children[1]->maxs[1]);
1971         node->maxs[2] = max(node->children[0]->maxs[2], node->children[1]->maxs[2]);
1972 }
1973
1974 static void Mod_FinalizePortals(void)
1975 {
1976         int i, j, numportals, numpoints;
1977         portal_t *p, *pnext;
1978         mportal_t *portal;
1979         mvertex_t *point;
1980         mleaf_t *leaf, *endleaf;
1981         winding_t *w;
1982
1983         // recalculate bounding boxes for all leafs (because qbsp is very sloppy)
1984         leaf = loadmodel->leafs;
1985         endleaf = leaf + loadmodel->numleafs;
1986         for (;leaf < endleaf;leaf++)
1987         {
1988                 VectorSet( 2000000000,  2000000000,  2000000000, leaf->mins);
1989                 VectorSet(-2000000000, -2000000000, -2000000000, leaf->maxs);
1990         }
1991         p = portalchain;
1992         while(p)
1993         {
1994                 if (p->winding)
1995                 {
1996                         for (i = 0;i < 2;i++)
1997                         {
1998                                 leaf = (mleaf_t *)p->nodes[i];
1999                                 w = p->winding;
2000                                 for (j = 0;j < w->numpoints;j++)
2001                                 {
2002                                         if (leaf->mins[0] > w->points[j][0]) leaf->mins[0] = w->points[j][0];
2003                                         if (leaf->mins[1] > w->points[j][1]) leaf->mins[1] = w->points[j][1];
2004                                         if (leaf->mins[2] > w->points[j][2]) leaf->mins[2] = w->points[j][2];
2005                                         if (leaf->maxs[0] < w->points[j][0]) leaf->maxs[0] = w->points[j][0];
2006                                         if (leaf->maxs[1] < w->points[j][1]) leaf->maxs[1] = w->points[j][1];
2007                                         if (leaf->maxs[2] < w->points[j][2]) leaf->maxs[2] = w->points[j][2];
2008                                 }
2009                         }
2010                 }
2011                 p = p->chain;
2012         }
2013
2014         Mod_RecursiveRecalcNodeBBox(loadmodel->nodes);
2015
2016         // tally up portal and point counts
2017         p = portalchain;
2018         numportals = 0;
2019         numpoints = 0;
2020         while(p)
2021         {
2022                 // note: this check must match the one below or it will usually corrupt memory
2023                 // the nodes[0] != nodes[1] check is because leaf 0 is the shared solid leaf, it can have many portals inside with leaf 0 on both sides
2024                 if (p->winding && p->nodes[0] != p->nodes[1]
2025                  && p->nodes[0]->contents != CONTENTS_SOLID && p->nodes[1]->contents != CONTENTS_SOLID
2026                  && p->nodes[0]->contents != CONTENTS_SKY && p->nodes[1]->contents != CONTENTS_SKY)
2027                 {
2028                         numportals += 2;
2029                         numpoints += p->winding->numpoints * 2;
2030                 }
2031                 p = p->chain;
2032         }
2033         loadmodel->portals = Mem_Alloc(loadmodel->mempool, numportals * sizeof(mportal_t) + numpoints * sizeof(mvertex_t));
2034         loadmodel->numportals = numportals;
2035         loadmodel->portalpoints = (void *) ((long) loadmodel->portals + numportals * sizeof(mportal_t));
2036         loadmodel->numportalpoints = numpoints;
2037         // clear all leaf portal chains
2038         for (i = 0;i < loadmodel->numleafs;i++)
2039                 loadmodel->leafs[i].portals = NULL;
2040         // process all portals in the global portal chain, while freeing them
2041         portal = loadmodel->portals;
2042         point = loadmodel->portalpoints;
2043         p = portalchain;
2044         portalchain = NULL;
2045         while (p)
2046         {
2047                 pnext = p->chain;
2048
2049                 if (p->winding)
2050                 {
2051                         // note: this check must match the one above or it will usually corrupt memory
2052                         // the nodes[0] != nodes[1] check is because leaf 0 is the shared solid leaf, it can have many portals inside with leaf 0 on both sides
2053                         if (p->nodes[0] != p->nodes[1]
2054                          && p->nodes[0]->contents != CONTENTS_SOLID && p->nodes[1]->contents != CONTENTS_SOLID
2055                          && p->nodes[0]->contents != CONTENTS_SKY && p->nodes[1]->contents != CONTENTS_SKY)
2056                         {
2057                                 // first make the back to front portal (forward portal)
2058                                 portal->points = point;
2059                                 portal->numpoints = p->winding->numpoints;
2060                                 portal->plane.dist = p->plane.dist;
2061                                 VectorCopy(p->plane.normal, portal->plane.normal);
2062                                 portal->here = (mleaf_t *)p->nodes[1];
2063                                 portal->past = (mleaf_t *)p->nodes[0];
2064                                 // copy points
2065                                 for (j = 0;j < portal->numpoints;j++)
2066                                 {
2067                                         VectorCopy(p->winding->points[j], point->position);
2068                                         point++;
2069                                 }
2070                                 PlaneClassify(&portal->plane);
2071
2072                                 // link into leaf's portal chain
2073                                 portal->next = portal->here->portals;
2074                                 portal->here->portals = portal;
2075
2076                                 // advance to next portal
2077                                 portal++;
2078
2079                                 // then make the front to back portal (backward portal)
2080                                 portal->points = point;
2081                                 portal->numpoints = p->winding->numpoints;
2082                                 portal->plane.dist = -p->plane.dist;
2083                                 VectorNegate(p->plane.normal, portal->plane.normal);
2084                                 portal->here = (mleaf_t *)p->nodes[0];
2085                                 portal->past = (mleaf_t *)p->nodes[1];
2086                                 // copy points
2087                                 for (j = portal->numpoints - 1;j >= 0;j--)
2088                                 {
2089                                         VectorCopy(p->winding->points[j], point->position);
2090                                         point++;
2091                                 }
2092                                 PlaneClassify(&portal->plane);
2093
2094                                 // link into leaf's portal chain
2095                                 portal->next = portal->here->portals;
2096                                 portal->here->portals = portal;
2097
2098                                 // advance to next portal
2099                                 portal++;
2100                         }
2101                         FreeWinding(p->winding);
2102                 }
2103                 FreePortal(p);
2104                 p = pnext;
2105         }
2106 }
2107
2108 /*
2109 =============
2110 AddPortalToNodes
2111 =============
2112 */
2113 static void AddPortalToNodes (portal_t *p, mnode_t *front, mnode_t *back)
2114 {
2115         if (!front)
2116                 Host_Error ("AddPortalToNodes: NULL front node");
2117         if (!back)
2118                 Host_Error ("AddPortalToNodes: NULL back node");
2119         if (p->nodes[0] || p->nodes[1])
2120                 Host_Error ("AddPortalToNodes: already included");
2121         // note: front == back is handled gracefully, because leaf 0 is the shared solid leaf, it can often have portals with the same leaf on both sides
2122
2123         p->nodes[0] = front;
2124         p->next[0] = (portal_t *)front->portals;
2125         front->portals = (mportal_t *)p;
2126
2127         p->nodes[1] = back;
2128         p->next[1] = (portal_t *)back->portals;
2129         back->portals = (mportal_t *)p;
2130 }
2131
2132 /*
2133 =============
2134 RemovePortalFromNode
2135 =============
2136 */
2137 static void RemovePortalFromNodes(portal_t *portal)
2138 {
2139         int i;
2140         mnode_t *node;
2141         void **portalpointer;
2142         portal_t *t;
2143         for (i = 0;i < 2;i++)
2144         {
2145                 node = portal->nodes[i];
2146
2147                 portalpointer = (void **) &node->portals;
2148                 while (1)
2149                 {
2150                         t = *portalpointer;
2151                         if (!t)
2152                                 Host_Error ("RemovePortalFromNodes: portal not in leaf");
2153
2154                         if (t == portal)
2155                         {
2156                                 if (portal->nodes[0] == node)
2157                                 {
2158                                         *portalpointer = portal->next[0];
2159                                         portal->nodes[0] = NULL;
2160                                 }
2161                                 else if (portal->nodes[1] == node)
2162                                 {
2163                                         *portalpointer = portal->next[1];
2164                                         portal->nodes[1] = NULL;
2165                                 }
2166                                 else
2167                                         Host_Error ("RemovePortalFromNodes: portal not bounding leaf");
2168                                 break;
2169                         }
2170
2171                         if (t->nodes[0] == node)
2172                                 portalpointer = (void **) &t->next[0];
2173                         else if (t->nodes[1] == node)
2174                                 portalpointer = (void **) &t->next[1];
2175                         else
2176                                 Host_Error ("RemovePortalFromNodes: portal not bounding leaf");
2177                 }
2178         }
2179 }
2180
2181 static void Mod_RecursiveNodePortals (mnode_t *node)
2182 {
2183         int side;
2184         mnode_t *front, *back, *other_node;
2185         mplane_t clipplane, *plane;
2186         portal_t *portal, *nextportal, *nodeportal, *splitportal, *temp;
2187         winding_t *nodeportalwinding, *frontwinding, *backwinding;
2188
2189         //      CheckLeafPortalConsistancy (node);
2190
2191         // if a leaf, we're done
2192         if (node->contents)
2193                 return;
2194
2195         plane = node->plane;
2196
2197         front = node->children[0];
2198         back = node->children[1];
2199         if (front == back)
2200                 Host_Error("Mod_RecursiveNodePortals: corrupt node hierarchy");
2201
2202         // create the new portal by generating a polygon for the node plane,
2203         // and clipping it by all of the other portals (which came from nodes above this one)
2204         nodeportal = AllocPortal ();
2205         nodeportal->plane = *node->plane;
2206
2207         nodeportalwinding = BaseWindingForPlane (node->plane);
2208         side = 0;       // shut up compiler warning
2209         for (portal = (portal_t *)node->portals;portal;portal = portal->next[side])
2210         {
2211                 clipplane = portal->plane;
2212                 if (portal->nodes[0] == portal->nodes[1])
2213                         Host_Error("Mod_RecursiveNodePortals: portal has same node on both sides (1)");
2214                 if (portal->nodes[0] == node)
2215                         side = 0;
2216                 else if (portal->nodes[1] == node)
2217                 {
2218                         clipplane.dist = -clipplane.dist;
2219                         VectorNegate (clipplane.normal, clipplane.normal);
2220                         side = 1;
2221                 }
2222                 else
2223                         Host_Error ("Mod_RecursiveNodePortals: mislinked portal");
2224
2225                 nodeportalwinding = ClipWinding (nodeportalwinding, &clipplane, true);
2226                 if (!nodeportalwinding)
2227                 {
2228                         printf ("Mod_RecursiveNodePortals: WARNING: new portal was clipped away\n");
2229                         break;
2230                 }
2231         }
2232
2233         if (nodeportalwinding)
2234         {
2235                 // if the plane was not clipped on all sides, there was an error
2236                 nodeportal->winding = nodeportalwinding;
2237                 AddPortalToNodes (nodeportal, front, back);
2238         }
2239
2240         // split the portals of this node along this node's plane and assign them to the children of this node
2241         // (migrating the portals downward through the tree)
2242         for (portal = (portal_t *)node->portals;portal;portal = nextportal)
2243         {
2244                 if (portal->nodes[0] == portal->nodes[1])
2245                         Host_Error("Mod_RecursiveNodePortals: portal has same node on both sides (2)");
2246                 if (portal->nodes[0] == node)
2247                         side = 0;
2248                 else if (portal->nodes[1] == node)
2249                         side = 1;
2250                 else
2251                         Host_Error ("Mod_RecursiveNodePortals: mislinked portal");
2252                 nextportal = portal->next[side];
2253
2254                 other_node = portal->nodes[!side];
2255                 RemovePortalFromNodes (portal);
2256
2257                 // cut the portal into two portals, one on each side of the node plane
2258                 DivideWinding (portal->winding, plane, &frontwinding, &backwinding);
2259
2260                 if (!frontwinding)
2261                 {
2262                         if (side == 0)
2263                                 AddPortalToNodes (portal, back, other_node);
2264                         else
2265                                 AddPortalToNodes (portal, other_node, back);
2266                         continue;
2267                 }
2268                 if (!backwinding)
2269                 {
2270                         if (side == 0)
2271                                 AddPortalToNodes (portal, front, other_node);
2272                         else
2273                                 AddPortalToNodes (portal, other_node, front);
2274                         continue;
2275                 }
2276
2277                 // the winding is split
2278                 splitportal = AllocPortal ();
2279                 temp = splitportal->chain;
2280                 *splitportal = *portal;
2281                 splitportal->chain = temp;
2282                 splitportal->winding = backwinding;
2283                 FreeWinding (portal->winding);
2284                 portal->winding = frontwinding;
2285
2286                 if (side == 0)
2287                 {
2288                         AddPortalToNodes (portal, front, other_node);
2289                         AddPortalToNodes (splitportal, back, other_node);
2290                 }
2291                 else
2292                 {
2293                         AddPortalToNodes (portal, other_node, front);
2294                         AddPortalToNodes (splitportal, other_node, back);
2295                 }
2296         }
2297
2298         Mod_RecursiveNodePortals(front);
2299         Mod_RecursiveNodePortals(back);
2300 }
2301
2302 /*
2303 void Mod_MakeOutsidePortals(mnode_t *node)
2304 {
2305         int                     i, j;
2306         portal_t        *p, *portals[6];
2307         mnode_t         *outside_node;
2308
2309         outside_node = Mem_Alloc(loadmodel->mempool, sizeof(mnode_t));
2310         outside_node->contents = CONTENTS_SOLID;
2311         outside_node->portals = NULL;
2312
2313         for (i = 0;i < 3;i++)
2314         {
2315                 for (j = 0;j < 2;j++)
2316                 {
2317                         portals[j*3 + i] = p = AllocPortal ();
2318                         memset (&p->plane, 0, sizeof(mplane_t));
2319                         p->plane.normal[i] = j ? -1 : 1;
2320                         p->plane.dist = -65536;
2321                         p->winding = BaseWindingForPlane (&p->plane);
2322                         if (j)
2323                                 AddPortalToNodes (p, outside_node, node);
2324                         else
2325                                 AddPortalToNodes (p, node, outside_node);
2326                 }
2327         }
2328
2329         // clip the basewindings by all the other planes
2330         for (i = 0;i < 6;i++)
2331         {
2332                 for (j = 0;j < 6;j++)
2333                 {
2334                         if (j == i)
2335                                 continue;
2336                         portals[i]->winding = ClipWinding (portals[i]->winding, &portals[j]->plane, true);
2337                 }
2338         }
2339 }
2340 */
2341
2342 static void Mod_MakePortals(void)
2343 {
2344 //      Con_Printf("building portals for %s\n", loadmodel->name);
2345
2346         portalchain = NULL;
2347 //      Mod_MakeOutsidePortals (loadmodel->nodes);
2348         Mod_RecursiveNodePortals (loadmodel->nodes);
2349         Mod_FinalizePortals();
2350 }
2351
2352 /*
2353 =================
2354 Mod_LoadBrushModel
2355 =================
2356 */
2357 void Mod_LoadBrushModel (model_t *mod, void *buffer)
2358 {
2359         int                     i, j;
2360         dheader_t       *header;
2361         dmodel_t        *bm;
2362         mempool_t       *mainmempool;
2363
2364         mod->type = mod_brush;
2365
2366         header = (dheader_t *)buffer;
2367
2368         i = LittleLong (header->version);
2369         if (i != BSPVERSION && i != 30)
2370                 Host_Error ("Mod_LoadBrushModel: %s has wrong version number (%i should be %i or 30 (HalfLife))", mod->name, i, BSPVERSION);
2371         mod->ishlbsp = i == 30;
2372         if (loadmodel->isworldmodel)
2373                 Cvar_SetValue("halflifebsp", mod->ishlbsp);
2374
2375 // swap all the lumps
2376         mod_base = (byte *)header;
2377
2378         for (i=0 ; i<sizeof(dheader_t)/4 ; i++)
2379                 ((int *)header)[i] = LittleLong ( ((int *)header)[i]);
2380
2381 // load into heap
2382
2383         // store which lightmap format to use
2384         mod->lightmaprgba = r_lightmaprgba.integer;
2385
2386 //      Mem_CheckSentinelsGlobal();
2387         // LordHavoc: had to move entity loading above everything to allow parsing various settings from worldspawn
2388         Mod_LoadEntities (&header->lumps[LUMP_ENTITIES]);
2389 //      Mem_CheckSentinelsGlobal();
2390         Mod_LoadVertexes (&header->lumps[LUMP_VERTEXES]);
2391 //      Mem_CheckSentinelsGlobal();
2392         Mod_LoadEdges (&header->lumps[LUMP_EDGES]);
2393 //      Mem_CheckSentinelsGlobal();
2394         Mod_LoadSurfedges (&header->lumps[LUMP_SURFEDGES]);
2395 //      Mem_CheckSentinelsGlobal();
2396         Mod_LoadTextures (&header->lumps[LUMP_TEXTURES]);
2397 //      Mem_CheckSentinelsGlobal();
2398         Mod_LoadLighting (&header->lumps[LUMP_LIGHTING]);
2399 //      Mem_CheckSentinelsGlobal();
2400         Mod_LoadPlanes (&header->lumps[LUMP_PLANES]);
2401 //      Mem_CheckSentinelsGlobal();
2402         Mod_LoadTexinfo (&header->lumps[LUMP_TEXINFO]);
2403 //      Mem_CheckSentinelsGlobal();
2404         Mod_LoadFaces (&header->lumps[LUMP_FACES]);
2405 //      Mem_CheckSentinelsGlobal();
2406         Mod_LoadMarksurfaces (&header->lumps[LUMP_MARKSURFACES]);
2407 //      Mem_CheckSentinelsGlobal();
2408         Mod_LoadVisibility (&header->lumps[LUMP_VISIBILITY]);
2409 //      Mem_CheckSentinelsGlobal();
2410         Mod_LoadLeafs (&header->lumps[LUMP_LEAFS]);
2411 //      Mem_CheckSentinelsGlobal();
2412         Mod_LoadNodes (&header->lumps[LUMP_NODES]);
2413 //      Mem_CheckSentinelsGlobal();
2414         Mod_LoadClipnodes (&header->lumps[LUMP_CLIPNODES]);
2415 //      Mem_CheckSentinelsGlobal();
2416 //      Mod_LoadEntities (&header->lumps[LUMP_ENTITIES]);
2417         Mod_LoadSubmodels (&header->lumps[LUMP_MODELS]);
2418 //      Mem_CheckSentinelsGlobal();
2419
2420         Mod_MakeHull0 ();
2421 //      Mem_CheckSentinelsGlobal();
2422         Mod_MakePortals();
2423 //      Mem_CheckSentinelsGlobal();
2424
2425         mod->numframes = 2;             // regular and alternate animation
2426
2427         mainmempool = mod->mempool;
2428
2429 //
2430 // set up the submodels (FIXME: this is confusing)
2431 //
2432         for (i = 0;i < mod->numsubmodels;i++)
2433         {
2434                 int k, l;
2435                 float dist, modelyawradius, modelradius, *vec;
2436                 msurface_t *surf;
2437
2438                 mod->normalmins[0] = mod->normalmins[1] = mod->normalmins[2] = 1000000000.0f;
2439                 mod->normalmaxs[0] = mod->normalmaxs[1] = mod->normalmaxs[2] = -1000000000.0f;
2440                 modelyawradius = 0;
2441                 modelradius = 0;
2442
2443                 bm = &mod->submodels[i];
2444
2445                 mod->hulls[0].firstclipnode = bm->headnode[0];
2446                 for (j=1 ; j<MAX_MAP_HULLS ; j++)
2447                 {
2448                         mod->hulls[j].firstclipnode = bm->headnode[j];
2449                         mod->hulls[j].lastclipnode = mod->numclipnodes - 1;
2450                 }
2451
2452                 mod->firstmodelsurface = bm->firstface;
2453                 mod->nummodelsurfaces = bm->numfaces;
2454
2455                 mod->DrawSky = NULL;
2456                 // LordHavoc: calculate bmodel bounding box rather than trusting what it says
2457                 for (j = 0, surf = &mod->surfaces[mod->firstmodelsurface];j < mod->nummodelsurfaces;j++, surf++)
2458                 {
2459                         // we only need to have a drawsky function if it is used (usually only on world model)
2460                         if (surf->shader == &Cshader_sky)
2461                                 mod->DrawSky = R_DrawBrushModelSky;
2462                         for (k = 0;k < surf->numedges;k++)
2463                         {
2464                                 l = mod->surfedges[k + surf->firstedge];
2465                                 if (l > 0)
2466                                         vec = mod->vertexes[mod->edges[l].v[0]].position;
2467                                 else
2468                                         vec = mod->vertexes[mod->edges[-l].v[1]].position;
2469                                 if (mod->normalmins[0] > vec[0]) mod->normalmins[0] = vec[0];
2470                                 if (mod->normalmins[1] > vec[1]) mod->normalmins[1] = vec[1];
2471                                 if (mod->normalmins[2] > vec[2]) mod->normalmins[2] = vec[2];
2472                                 if (mod->normalmaxs[0] < vec[0]) mod->normalmaxs[0] = vec[0];
2473                                 if (mod->normalmaxs[1] < vec[1]) mod->normalmaxs[1] = vec[1];
2474                                 if (mod->normalmaxs[2] < vec[2]) mod->normalmaxs[2] = vec[2];
2475                                 dist = vec[0]*vec[0]+vec[1]*vec[1];
2476                                 if (modelyawradius < dist)
2477                                         modelyawradius = dist;
2478                                 dist += vec[2]*vec[2];
2479                                 if (modelradius < dist)
2480                                         modelradius = dist;
2481                         }
2482                 }
2483                 modelyawradius = sqrt(modelyawradius);
2484                 modelradius = sqrt(modelradius);
2485                 mod->yawmins[0] = mod->yawmins[1] = -(mod->yawmaxs[0] = mod->yawmaxs[1] = modelyawradius);
2486                 mod->yawmins[2] = mod->normalmins[2];
2487                 mod->yawmaxs[2] = mod->normalmaxs[2];
2488                 mod->rotatedmins[0] = mod->rotatedmins[1] = mod->rotatedmins[2] = -modelradius;
2489                 mod->rotatedmaxs[0] = mod->rotatedmaxs[1] = mod->rotatedmaxs[2] = modelradius;
2490 //              mod->modelradius = modelradius;
2491
2492 //              VectorCopy (bm->maxs, mod->maxs);
2493 //              VectorCopy (bm->mins, mod->mins);
2494
2495 //              mod->radius = RadiusFromBounds (mod->mins, mod->maxs);
2496
2497                 mod->numleafs = bm->visleafs;
2498
2499                 mod->SERAddEntity = Mod_Brush_SERAddEntity;
2500                 mod->Draw = R_DrawBrushModelNormal;
2501                 mod->DrawShadow = NULL;
2502
2503                 Mod_BrushSortedSurfaces(mod, mainmempool);
2504
2505                 // LordHavoc: only register submodels if it is the world
2506                 // (prevents bsp models from replacing world submodels)
2507                 if (loadmodel->isworldmodel && i < (mod->numsubmodels - 1))
2508                 {
2509                         char    name[10];
2510                         // duplicate the basic information
2511                         sprintf (name, "*%i", i+1);
2512                         loadmodel = Mod_FindName (name);
2513                         *loadmodel = *mod;
2514                         strcpy (loadmodel->name, name);
2515                         // textures and memory belong to the main model
2516                         loadmodel->texturepool = NULL;
2517                         loadmodel->mempool = NULL;
2518                         mod = loadmodel;
2519                 }
2520         }
2521 //      Mem_CheckSentinelsGlobal();
2522 }