/* Copyright (C) 1996-1997 Id Software, Inc. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA See file, 'COPYING', for details. */ #ifdef HAVE_CONFIG_H # include "config.h" #endif static __attribute__ ((unused)) const char rcsid[] = "$Id$"; #ifdef HAVE_STRING_H # include #endif #ifdef HAVE_STRINGS_H # include #endif #include #include #include #include "QF/dstring.h" #include "QF/qendian.h" #include "QF/sys.h" #include "QF/va.h" #include "QF/wad.h" #include "bsp5.h" #include "options.h" int headclipnode; int firstface; /* FindFinalPlane Used to find plane index numbers for clip nodes read from child processes */ int FindFinalPlane (dplane_t *p) { dplane_t *dplane; int i; for (i = 0, dplane = bsp->planes; i < bsp->numplanes; i++, dplane++) { if (p->type != dplane->type) continue; if (p->dist != dplane->dist) continue; if (p->normal[0] != dplane->normal[0]) continue; if (p->normal[1] != dplane->normal[1]) continue; if (p->normal[2] != dplane->normal[2]) continue; return i; } // new plane if (bsp->numplanes == MAX_MAP_PLANES) Sys_Error ("numplanes == MAX_MAP_PLANES"); BSP_AddPlane (bsp, p); return bsp->numplanes - 1; } int planemapping[MAX_MAP_PLANES]; static void WriteNodePlanes_r (node_t *node) { dplane_t dplane; plane_t *plane; if (node->planenum == -1) return; if (planemapping[node->planenum] == -1) { // a new plane planemapping[node->planenum] = bsp->numplanes; plane = &planes[node->planenum]; dplane.normal[0] = plane->normal[0]; dplane.normal[1] = plane->normal[1]; dplane.normal[2] = plane->normal[2]; dplane.dist = plane->dist; dplane.type = plane->type; BSP_AddPlane (bsp, &dplane); } node->outputplanenum = planemapping[node->planenum]; WriteNodePlanes_r (node->children[0]); WriteNodePlanes_r (node->children[1]); } void WriteNodePlanes (node_t *nodes) { memset (planemapping, -1, sizeof (planemapping)); WriteNodePlanes_r (nodes); } static int WriteClipNodes_r (node_t *node) { dclipnode_t cn; int num, c, i; // FIXME: free more stuff? if (node->planenum == -1) { num = node->contents; free (node); return num; } // emit a clipnode c = bsp->numclipnodes; BSP_AddClipnode (bsp, &cn); cn.planenum = node->outputplanenum; for (i = 0; i < 2; i++) cn.children[i] = WriteClipNodes_r (node->children[i]); bsp->clipnodes[c] = cn; free (node); return c; } /* WriteClipNodes Called after the clipping hull is completed. Generates a disk format representation and frees the original memory. */ void WriteClipNodes (node_t *nodes) { headclipnode = bsp->numclipnodes; WriteClipNodes_r (nodes); } static void WriteLeaf (node_t *node) { dleaf_t leaf_p; face_t **fp, *f; // emit a leaf leaf_p.contents = node->contents; // write bounding box info VectorCopy (node->mins, leaf_p.mins); VectorCopy (node->maxs, leaf_p.maxs); leaf_p.visofs = -1; // no vis info yet // write the marksurfaces leaf_p.firstmarksurface = bsp->nummarksurfaces; for (fp = node->markfaces; *fp; fp++) { // emit a marksurface if (bsp->nummarksurfaces == MAX_MAP_MARKSURFACES) Sys_Error ("nummarksurfaces == MAX_MAP_MARKSURFACES"); f = *fp; if (f->texturenum < 0) continue; do { BSP_AddMarkSurface (bsp, f->outputnumber); f = f->original; // grab tjunction split faces } while (f); } leaf_p.nummarksurfaces = bsp->nummarksurfaces - leaf_p.firstmarksurface; BSP_AddLeaf (bsp, &leaf_p); } static void WriteDrawNodes_r (node_t *node) { static dnode_t dummy; dnode_t *n; int i; int nodenum = bsp->numnodes; // emit a node if (bsp->numnodes == MAX_MAP_NODES) Sys_Error ("numnodes == MAX_MAP_NODES"); BSP_AddNode (bsp, &dummy); n = &bsp->nodes[nodenum]; VectorCopy (node->mins, n->mins); VectorCopy (node->maxs, n->maxs); n->planenum = node->outputplanenum; n->firstface = node->firstface; n->numfaces = node->numfaces; // recursively output the other nodes for (i = 0; i < 2; i++) { n = &bsp->nodes[nodenum]; if (node->children[i]->planenum == -1) { if (node->children[i]->contents == CONTENTS_SOLID) n->children[i] = -1; else { n->children[i] = -(bsp->numleafs + 1); WriteLeaf (node->children[i]); } } else { n->children[i] = bsp->numnodes; WriteDrawNodes_r (node->children[i]); } } } void WriteDrawNodes (node_t *headnode) { dmodel_t bm; int start, i; #if 0 if (headnode->contents < 0) Sys_Error ("FinishBSPModel: empty model"); #endif // emit a model if (bsp->nummodels == MAX_MAP_MODELS) Sys_Error ("nummodels == MAX_MAP_MODELS"); bm.headnode[0] = bsp->numnodes; bm.firstface = firstface; bm.numfaces = bsp->numfaces - firstface; firstface = bsp->numfaces; start = bsp->numleafs; if (headnode->contents < 0) WriteLeaf (headnode); else WriteDrawNodes_r (headnode); bm.visleafs = bsp->numleafs - start; for (i = 0; i < 3; i++) { bm.mins[i] = headnode->mins[i] + SIDESPACE + 1; // remove the padding bm.maxs[i] = headnode->maxs[i] - SIDESPACE - 1; } BSP_AddModel (bsp, &bm); // FIXME: are all the children decendant of padded nodes? } /* BumpModel Used by the clipping hull processes that only need to store headclipnode */ void BumpModel (int hullnum) { static dmodel_t bm; // emit a model bm.headnode[hullnum] = headclipnode; BSP_AddModel (bsp, &bm); } typedef struct wadlist_s { struct wadlist_s *next; const char *path; wad_t *wad; } wadlist_t; wadlist_t *wadlist; static int TEX_InitFromWad (char *path) { wadlist_t *wl; wad_t *wad; wad = wad_open (path); #ifdef HAVE_ZLIB if (!wad) wad = wad_open (path = va ("%s.gz", path)); #endif if (!wad) return -1; printf ("wadfile: %s\n", path); wl = calloc (1, sizeof (wadlist_t)); wl->path = strdup (path); wl->wad = wad; wl->next = wadlist; wadlist = wl; return 0; } static int LoadLump (char *name, dstring_t *dest) { int r; int ofs = dest->size; wadlist_t *wl; lumpinfo_t *lump; QFile *texfile; for (wl = wadlist; wl; wl = wl->next) { if ((lump = wad_find_lump (wl->wad, name))) { dest->size += lump->disksize; dstring_adjust (dest); texfile = Qopen (wl->path, "rbz"); if (!texfile) { printf ("couldn't open %s\n", wl->path); continue; } r = Qseek (texfile, lump->filepos, SEEK_SET); if (r == -1) { printf ("seek error: %s:%s %d\n", wl->path, lump->name, lump->filepos); Qclose (texfile); continue; } r = Qread (texfile, dest->str + ofs, lump->disksize); Qclose (texfile); if (r != lump->disksize) { printf ("seek error: %s:%s %d\n", wl->path, lump->name, lump->disksize); continue; } return lump->disksize; } } printf ("WARNING: texture %s not found\n", name); return 0; } static void AddAnimatingTextures (void) { int base, i, j; char name[32]; wadlist_t *wl; base = nummiptex; name[sizeof (name) - 1] = 0; for (i = 0; i < base; i++) { if (miptex[i][0] != '+') continue; strncpy (name, miptex[i], sizeof (name) - 1); for (j = 0; j < 20; j++) { if (j < 10) name[1] = '0' + j; else name[1] = 'A' + j - 10; // alternate animation // see if this name exists in the wadfile for (wl = wadlist; wl; wl = wl->next) { if (wad_find_lump (wl->wad, name)) { FindMiptex (name); // add to the miptex list break; } } } } if (nummiptex - base) printf ("added %i texture frames\n", nummiptex - base); } static void WriteMiptex (void) { dstring_t *data; char *wad_list, *wad, *w; char *path_list, *path, *p; dstring_t *fullpath; dmiptexlump_t *l; int i, len, res = -1; wad_list = (char *) ValueForKey (&entities[0], "_wad"); if (!wad_list || !wad_list[0]) { wad_list = (char *) ValueForKey (&entities[0], "wad"); if (!wad_list || !wad_list[0]) { printf ("WARNING: no wadfile specified\n"); bsp->texdatasize = 0; return; } } fullpath = dstring_new (); wad = wad_list = strdup (wad_list); w = strchr (wad, ';'); if (w) *w++ = 0; while (1) { path = path_list = strdup (options.wadpath); p = strchr (path, ';'); if (p) *p++ = 0; while (1) { dsprintf (fullpath, "%s%s%s", path, path[0] ? "/" : "", wad); res = TEX_InitFromWad (fullpath->str); if (!res) break; path = p; if (!path || !*path) break; p = strchr (path, ';'); if (p) *p++ = 0; } free (path_list); if (res == -1) Sys_Error ("couldn't open %s[.gz]", wad); AddAnimatingTextures (); wad = w; if (!wad || !*wad) break; w = strchr (wad, ';'); if (w) *w++ = 0; } free (wad_list); dstring_delete (fullpath); data = dstring_new (); data->size = sizeof (dmiptexlump_t); dstring_adjust (data); l = (dmiptexlump_t *) data->str; l->nummiptex = nummiptex; data->size = (char *) &l->dataofs[nummiptex] - data->str; dstring_adjust (data); for (i = 0; i < nummiptex; i++) { l = (dmiptexlump_t *) data->str; l->dataofs[i] = data->size; len = LoadLump (miptex[i], data); l = (dmiptexlump_t *) data->str; if (!len) l->dataofs[i] = -1; // didn't find the texture } BSP_AddTextures (bsp, (byte *) data->str, data->size); } void BeginBSPFile (void) { static dedge_t edge; static dleaf_t leaf; // edge 0 is not used, because 0 can't be negated BSP_AddEdge (bsp, &edge); // leaf 0 is common solid with no faces leaf.contents = CONTENTS_SOLID; leaf.visofs = -1; BSP_AddLeaf (bsp, &leaf); firstface = 0; } void FinishBSPFile (void) { QFile *f; printf ("--- FinishBSPFile ---\n"); WriteMiptex (); // XXX PrintBSPFileSizes (); printf ("WriteBSPFile: %s\n", options.bspfile); f = Qopen (options.bspfile, "wb"); if (!f) Sys_Error ("couldn't open %s. %s", options.bspfile, strerror(errno)); WriteBSPFile (bsp, f); Qclose (f); }