// SONIC ROBO BLAST 2 //----------------------------------------------------------------------------- // Copyright (C) 1993-1996 by id Software, Inc. // Copyright (C) 1998-2000 by DooM Legacy Team. // Copyright (C) 1999-2021 by Sonic Team Junior. // // This program is free software distributed under the // terms of the GNU General Public License, version 2. // See the 'LICENSE' file for more details. //----------------------------------------------------------------------------- /// \file p_setup.c /// \brief Do all the WAD I/O, get map description, set up initial state and misc. LUTs #include "doomdef.h" #include "d_main.h" #include "byteptr.h" #include "g_game.h" #include "p_local.h" #include "p_setup.h" #include "p_spec.h" #include "p_saveg.h" #include "i_sound.h" // for I_PlayCD().. #include "i_video.h" // for I_FinishUpdate().. #include "r_sky.h" #include "i_system.h" #include "r_data.h" #include "r_things.h" // for R_AddSpriteDefs #include "r_textures.h" #include "r_patch.h" #include "r_picformats.h" #include "r_sky.h" #include "r_draw.h" #include "s_sound.h" #include "st_stuff.h" #include "w_wad.h" #include "z_zone.h" #include "r_splats.h" #include "hu_stuff.h" #include "console.h" #include "m_misc.h" #include "m_fixed.h" #include "m_random.h" #include "dehacked.h" // for map headers #include "r_main.h" #include "m_cond.h" // for emblems #include "m_argv.h" #include "p_polyobj.h" #include "v_video.h" #include "filesrch.h" // refreshdirmenu #include "lua_hud.h" // level title #include "f_finale.h" // wipes #include "md5.h" // map MD5 // for MapLoad hook #include "lua_script.h" #include "lua_hook.h" #ifdef _WIN32 #include #include #endif #ifdef HWRENDER #include "hardware/hw_main.h" #include "hardware/hw_light.h" #include "hardware/hw_model.h" #endif #include "p_slopes.h" #include "fastcmp.h" // textmap parsing #include "taglist.h" // // Map MD5, calculated on level load. // Sent to clients in PT_SERVERINFO. // unsigned char mapmd5[16]; // // MAP related Lookup tables. // Store VERTEXES, LINEDEFS, SIDEDEFS, etc. // boolean udmf; size_t numvertexes, numsegs, numsectors, numsubsectors, numnodes, numlines, numsides, nummapthings; vertex_t *vertexes; seg_t *segs; sector_t *sectors; subsector_t *subsectors; node_t *nodes; line_t *lines; side_t *sides; mapthing_t *mapthings; sector_t *spawnsectors; line_t *spawnlines; side_t *spawnsides; INT32 numstarposts; UINT16 bossdisabled; boolean stoppedclock; boolean levelloading; UINT8 levelfadecol; // BLOCKMAP // Created from axis aligned bounding box // of the map, a rectangular array of // blocks of size ... // Used to speed up collision detection // by spatial subdivision in 2D. // // Blockmap size. INT32 bmapwidth, bmapheight; // size in mapblocks INT32 *blockmap; // INT32 for large maps // offsets in blockmap are from here INT32 *blockmaplump; // Big blockmap // origin of block map fixed_t bmaporgx, bmaporgy; // for thing chains mobj_t **blocklinks; // REJECT // For fast sight rejection. // Speeds up enemy AI by skipping detailed LineOf Sight calculation. // Without special effect, this could be used as a PVS lookup as well. // UINT8 *rejectmatrix; // Maintain single and multi player starting spots. INT32 numdmstarts, numcoopstarts, numredctfstarts, numbluectfstarts; mapthing_t *deathmatchstarts[MAX_DM_STARTS]; mapthing_t *playerstarts[MAXPLAYERS]; mapthing_t *bluectfstarts[MAXPLAYERS]; mapthing_t *redctfstarts[MAXPLAYERS]; // Maintain waypoints mobj_t *waypoints[NUMWAYPOINTSEQUENCES][WAYPOINTSEQUENCESIZE]; UINT16 numwaypoints[NUMWAYPOINTSEQUENCES]; void P_AddWaypoint(UINT8 sequence, UINT8 id, mobj_t *waypoint) { waypoints[sequence][id] = waypoint; if (id >= numwaypoints[sequence]) numwaypoints[sequence] = id + 1; } static void P_ResetWaypoints(void) { UINT16 sequence, id; for (sequence = 0; sequence < NUMWAYPOINTSEQUENCES; sequence++) { for (id = 0; id < numwaypoints[sequence]; id++) waypoints[sequence][id] = NULL; numwaypoints[sequence] = 0; } } mobj_t *P_GetFirstWaypoint(UINT8 sequence) { return waypoints[sequence][0]; } mobj_t *P_GetLastWaypoint(UINT8 sequence) { return waypoints[sequence][numwaypoints[sequence] - 1]; } mobj_t *P_GetPreviousWaypoint(mobj_t *current, boolean wrap) { UINT8 sequence = current->threshold; UINT8 id = current->health; if (id == 0) { if (!wrap) return NULL; id = numwaypoints[sequence] - 1; } else id--; return waypoints[sequence][id]; } mobj_t *P_GetNextWaypoint(mobj_t *current, boolean wrap) { UINT8 sequence = current->threshold; UINT8 id = current->health; if (id == numwaypoints[sequence] - 1) { if (!wrap) return NULL; id = 0; } else id++; return waypoints[sequence][id]; } mobj_t *P_GetClosestWaypoint(UINT8 sequence, mobj_t *mo) { UINT8 wp; mobj_t *mo2, *result = NULL; fixed_t bestdist = 0; fixed_t curdist; for (wp = 0; wp < numwaypoints[sequence]; wp++) { mo2 = waypoints[sequence][wp]; if (!mo2) continue; curdist = P_AproxDistance(P_AproxDistance(mo->x - mo2->x, mo->y - mo2->y), mo->z - mo2->z); if (result && curdist > bestdist) continue; result = mo2; bestdist = curdist; } return result; } // Return true if all waypoints are in the same location boolean P_IsDegeneratedWaypointSequence(UINT8 sequence) { mobj_t *first, *waypoint; UINT8 wp; if (numwaypoints[sequence] <= 1) return true; first = waypoints[sequence][0]; for (wp = 1; wp < numwaypoints[sequence]; wp++) { waypoint = waypoints[sequence][wp]; if (!waypoint) continue; if (waypoint->x != first->x) return false; if (waypoint->y != first->y) return false; if (waypoint->z != first->z) return false; } return true; } /** Logs an error about a map being corrupt, then terminate. * This allows reporting highly technical errors for usefulness, without * confusing a novice map designer who simply needs to run ZenNode. * * If logging is disabled in this compile, or the log file is not opened, the * full technical details are printed in the I_Error() message. * * \param msg The message to log. This message can safely result from a call * to va(), since that function is not used here. * \todo Fix the I_Error() message. On some implementations the logfile may * not be called log.txt. * \sa CON_LogMessage, I_Error */ FUNCNORETURN static ATTRNORETURN void CorruptMapError(const char *msg) { // don't use va() because the calling function probably uses it char mapnum[10]; sprintf(mapnum, "%hd", gamemap); CON_LogMessage("Map "); CON_LogMessage(mapnum); CON_LogMessage(" is corrupt: "); CON_LogMessage(msg); CON_LogMessage("\n"); I_Error("Invalid or corrupt map.\nLook in log file or text console for technical details."); } /** Sets a header's flickies to be equivalent to the original Freed Animals * * \param i The header to set flickies for */ void P_SetDemoFlickies(INT16 i) { mapheaderinfo[i]->numFlickies = 5; mapheaderinfo[i]->flickies = Z_Realloc(mapheaderinfo[i]->flickies, 5*sizeof(mobjtype_t), PU_STATIC, NULL); mapheaderinfo[i]->flickies[0] = MT_FLICKY_02/*MT_BUNNY*/; mapheaderinfo[i]->flickies[1] = MT_FLICKY_01/*MT_BIRD*/; mapheaderinfo[i]->flickies[2] = MT_FLICKY_12/*MT_MOUSE*/; mapheaderinfo[i]->flickies[3] = MT_FLICKY_11/*MT_COW*/; mapheaderinfo[i]->flickies[4] = MT_FLICKY_03/*MT_CHICKEN*/; } /** Clears a header's flickies * * \param i The header to clear flickies for */ void P_DeleteFlickies(INT16 i) { if (mapheaderinfo[i]->flickies) Z_Free(mapheaderinfo[i]->flickies); mapheaderinfo[i]->flickies = NULL; mapheaderinfo[i]->numFlickies = 0; } #define NUMLAPS_DEFAULT 4 /** Clears the data from a single map header. * * \param i Map number to clear header for. * \sa P_ClearMapHeaderInfo */ static void P_ClearSingleMapHeaderInfo(INT16 i) { const INT16 num = (INT16)(i-1); mapheaderinfo[num]->lvlttl[0] = '\0'; mapheaderinfo[num]->selectheading[0] = '\0'; mapheaderinfo[num]->subttl[0] = '\0'; mapheaderinfo[num]->ltzzpatch[0] = '\0'; mapheaderinfo[num]->ltzztext[0] = '\0'; mapheaderinfo[num]->ltactdiamond[0] = '\0'; mapheaderinfo[num]->actnum = 0; mapheaderinfo[num]->typeoflevel = 0; mapheaderinfo[num]->nextlevel = (INT16)(i + 1); mapheaderinfo[num]->marathonnext = 0; mapheaderinfo[num]->startrings = 0; mapheaderinfo[num]->sstimer = 90; mapheaderinfo[num]->ssspheres = 1; mapheaderinfo[num]->gravity = FRACUNIT/2; mapheaderinfo[num]->keywords[0] = '\0'; snprintf(mapheaderinfo[num]->musname, 7, "%sM", G_BuildMapName(i)); mapheaderinfo[num]->musname[6] = 0; mapheaderinfo[num]->mustrack = 0; mapheaderinfo[num]->muspos = 0; mapheaderinfo[num]->musinterfadeout = 0; mapheaderinfo[num]->musintername[0] = 0; mapheaderinfo[num]->muspostbossname[0] = 0; mapheaderinfo[num]->muspostbosstrack = 0; mapheaderinfo[num]->muspostbosspos = 0; mapheaderinfo[num]->muspostbossfadein = 0; mapheaderinfo[num]->musforcereset = -1; mapheaderinfo[num]->forcecharacter[0] = '\0'; mapheaderinfo[num]->weather = 0; mapheaderinfo[num]->skynum = 1; mapheaderinfo[num]->skybox_scalex = 16; mapheaderinfo[num]->skybox_scaley = 16; mapheaderinfo[num]->skybox_scalez = 16; mapheaderinfo[num]->interscreen[0] = '#'; mapheaderinfo[num]->runsoc[0] = '#'; mapheaderinfo[num]->scriptname[0] = '#'; mapheaderinfo[num]->precutscenenum = 0; mapheaderinfo[num]->cutscenenum = 0; mapheaderinfo[num]->countdown = 0; mapheaderinfo[num]->palette = UINT16_MAX; mapheaderinfo[num]->numlaps = NUMLAPS_DEFAULT; mapheaderinfo[num]->unlockrequired = -1; mapheaderinfo[num]->levelselect = 0; mapheaderinfo[num]->bonustype = 0; mapheaderinfo[num]->maxbonuslives = -1; mapheaderinfo[num]->levelflags = 0; mapheaderinfo[num]->menuflags = 0; #if 1 // equivalent to "FlickyList = DEMO" P_SetDemoFlickies(num); #else // equivalent to "FlickyList = NONE" P_DeleteFlickies(num); #endif P_DeleteGrades(num); mapheaderinfo[num]->customopts = NULL; mapheaderinfo[num]->numCustomOptions = 0; } /** Allocates a new map-header structure. * * \param i Index of header to allocate. */ void P_AllocMapHeader(INT16 i) { if (!mapheaderinfo[i]) { mapheaderinfo[i] = Z_Malloc(sizeof(mapheader_t), PU_STATIC, NULL); mapheaderinfo[i]->flickies = NULL; mapheaderinfo[i]->grades = NULL; } P_ClearSingleMapHeaderInfo(i + 1); } /** NiGHTS Grades are a special structure, * we initialize them here. * * \param i Index of header to allocate grades for * \param mare The mare we're adding grades for * \param grades the string from DeHackEd, we work with it ourselves */ void P_AddGradesForMare(INT16 i, UINT8 mare, char *gtext) { INT32 g; char *spos = gtext; CONS_Debug(DBG_SETUP, "Map %d Mare %d: ", i+1, (UINT16)mare+1); if (mapheaderinfo[i]->numGradedMares < mare+1) { mapheaderinfo[i]->numGradedMares = mare+1; mapheaderinfo[i]->grades = Z_Realloc(mapheaderinfo[i]->grades, sizeof(nightsgrades_t) * mapheaderinfo[i]->numGradedMares, PU_STATIC, NULL); } for (g = 0; g < 6; ++g) { // Allow "partial" grading systems if (spos != NULL) { mapheaderinfo[i]->grades[mare].grade[g] = atoi(spos); CONS_Debug(DBG_SETUP, "%u ", atoi(spos)); // Grab next comma spos = strchr(spos, ','); if (spos) ++spos; } else { // Grade not reachable mapheaderinfo[i]->grades[mare].grade[g] = UINT32_MAX; } } CONS_Debug(DBG_SETUP, "\n"); } /** And this removes the grades safely. * * \param i The header to remove grades from */ void P_DeleteGrades(INT16 i) { if (mapheaderinfo[i]->grades) Z_Free(mapheaderinfo[i]->grades); mapheaderinfo[i]->grades = NULL; mapheaderinfo[i]->numGradedMares = 0; } /** And this fetches the grades * * \param pscore The player's score. * \param map The game map. * \param mare The mare to test. */ UINT8 P_GetGrade(UINT32 pscore, INT16 map, UINT8 mare) { INT32 i; // Determining the grade if (mapheaderinfo[map-1] && mapheaderinfo[map-1]->grades && mapheaderinfo[map-1]->numGradedMares >= mare + 1) { INT32 pgrade = 0; for (i = 0; i < 6; ++i) { if (pscore >= mapheaderinfo[map-1]->grades[mare].grade[i]) ++pgrade; } return (UINT8)pgrade; } return 0; } UINT8 P_HasGrades(INT16 map, UINT8 mare) { // Determining the grade // Mare 0 is treated as overall and is true if ANY grades exist if (mapheaderinfo[map-1] && mapheaderinfo[map-1]->grades && (mare == 0 || mapheaderinfo[map-1]->numGradedMares >= mare)) return true; return false; } UINT32 P_GetScoreForGrade(INT16 map, UINT8 mare, UINT8 grade) { // Get the score for the grade... if it exists if (grade == GRADE_F || grade > GRADE_S || !P_HasGrades(map, mare)) return 0; return mapheaderinfo[map-1]->grades[mare].grade[grade-1]; } // // levelflats // #define MAXLEVELFLATS 256 size_t numlevelflats; levelflat_t *levelflats; levelflat_t *foundflats; //SoM: Other files want this info. size_t P_PrecacheLevelFlats(void) { lumpnum_t lump; size_t i; //SoM: 4/18/2000: New flat code to make use of levelflats. flatmemory = 0; for (i = 0; i < numlevelflats; i++) { if (levelflats[i].type == LEVELFLAT_FLAT) { lump = levelflats[i].u.flat.lumpnum; if (devparm) flatmemory += W_LumpLength(lump); R_GetFlat(lump); } } return flatmemory; } /* levelflat refers to an array of level flats, or NULL if we want to allocate it now. */ static INT32 Ploadflat (levelflat_t *levelflat, const char *flatname, boolean resize) { #ifndef NO_PNG_LUMPS UINT8 buffer[8]; #endif lumpnum_t flatnum; int texturenum; UINT8 *flatpatch; size_t lumplength; size_t i; // Scan through the already found flats, return if it matches. for (i = 0; i < numlevelflats; i++) { if (strnicmp(levelflat[i].name, flatname, 8) == 0) return i; } if (resize) { // allocate new flat memory levelflats = Z_Realloc(levelflats, (numlevelflats + 1) * sizeof(*levelflats), PU_LEVEL, NULL); levelflat = levelflats + numlevelflats; } else { if (numlevelflats >= MAXLEVELFLATS) I_Error("Too many flats in level\n"); levelflat += numlevelflats; } // Store the name. strlcpy(levelflat->name, flatname, sizeof (levelflat->name)); strupr(levelflat->name); /* If we can't find a flat, try looking for a texture! */ if (( flatnum = R_GetFlatNumForName(levelflat->name) ) == LUMPERROR) { if (( texturenum = R_CheckTextureNumForName(levelflat->name) ) == -1) { // check for REDWALL if (( texturenum = R_CheckTextureNumForName("REDWALL") ) != -1) goto texturefound; // check for REDFLR else if (( flatnum = R_GetFlatNumForName("REDFLR") ) != LUMPERROR) goto flatfound; // nevermind levelflat->type = LEVELFLAT_NONE; } else { texturefound: levelflat->type = LEVELFLAT_TEXTURE; levelflat->u.texture. num = texturenum; levelflat->u.texture.lastnum = texturenum; /* start out unanimated */ levelflat->u.texture.basenum = -1; } } else { flatfound: /* This could be a flat, patch, or PNG. */ flatpatch = W_CacheLumpNum(flatnum, PU_CACHE); lumplength = W_LumpLength(flatnum); if (Picture_CheckIfDoomPatch((softwarepatch_t *)flatpatch, lumplength)) levelflat->type = LEVELFLAT_PATCH; else { #ifndef NO_PNG_LUMPS /* Only need eight bytes for PNG headers. FIXME: Put this elsewhere. */ W_ReadLumpHeader(flatnum, buffer, 8, 0); if (Picture_IsLumpPNG(buffer, lumplength)) levelflat->type = LEVELFLAT_PNG; else #endif/*NO_PNG_LUMPS*/ levelflat->type = LEVELFLAT_FLAT;/* phew */ } if (flatpatch) Z_Free(flatpatch); levelflat->u.flat. lumpnum = flatnum; levelflat->u.flat.baselumpnum = LUMPERROR; } #ifndef ZDEBUG CONS_Debug(DBG_SETUP, "flat #%03d: %s\n", atoi(sizeu1(numlevelflats)), levelflat->name); #endif return ( numlevelflats++ ); } // Auxiliary function. Find a flat in the active wad files, // allocate an id for it, and set the levelflat (to speedup search) INT32 P_AddLevelFlat(const char *flatname, levelflat_t *levelflat) { return Ploadflat(levelflat, flatname, false); } // help function for Lua and $$$.sav reading // same as P_AddLevelFlat, except this is not setup so we must realloc levelflats to fit in the new flat // no longer a static func in lua_maplib.c because p_saveg.c also needs it // INT32 P_AddLevelFlatRuntime(const char *flatname) { return Ploadflat(levelflats, flatname, true); } // help function for $$$.sav checking // this simply returns the flat # for the name given // INT32 P_CheckLevelFlat(const char *flatname) { size_t i; levelflat_t *levelflat = levelflats; // // scan through the already found flats // for (i = 0; i < numlevelflats; i++, levelflat++) if (strnicmp(levelflat->name,flatname,8)==0) break; if (i == numlevelflats) return 0; // ??? flat was not found, this should not happen! // level flat id return (INT32)i; } // // P_ReloadRings // Used by NiGHTS, clears all ring/sphere/hoop/etc items and respawns them // void P_ReloadRings(void) { mobj_t *mo; thinker_t *th; size_t i, numHoops = 0; // Okay, if you have more than 4000 hoops in your map, // you're insane. mapthing_t *hoopsToRespawn[4096]; mapthing_t *mt = mapthings; // scan the thinkers to find rings/spheres/hoops to unset for (th = thlist[THINK_MOBJ].next; th != &thlist[THINK_MOBJ]; th = th->next) { if (th->function.acp1 == (actionf_p1)P_RemoveThinkerDelayed) continue; mo = (mobj_t *)th; if (mo->type == MT_HOOPCENTER) { // Hoops give me a headache if (mo->threshold == 4242) // Dead hoop { hoopsToRespawn[numHoops++] = mo->spawnpoint; P_RemoveMobj(mo); } continue; } if (!(mo->type == MT_RING || mo->type == MT_COIN || mo->type == MT_BLUESPHERE || mo->type == MT_BOMBSPHERE || mo->type == MT_NIGHTSCHIP || mo->type == MT_NIGHTSSTAR)) continue; // Don't auto-disintegrate things being pulled to us if (mo->flags2 & MF2_NIGHTSPULL) continue; P_RemoveMobj(mo); } // Reiterate through mapthings for (i = 0; i < nummapthings; i++, mt++) { // Notice an omission? We handle hoops differently. if (mt->type == mobjinfo[MT_RING].doomednum || mt->type == mobjinfo[MT_COIN].doomednum || mt->type == mobjinfo[MT_REDTEAMRING].doomednum || mt->type == mobjinfo[MT_BLUETEAMRING].doomednum || mt->type == mobjinfo[MT_BLUESPHERE].doomednum || mt->type == mobjinfo[MT_BOMBSPHERE].doomednum) { mt->mobj = NULL; P_SetBonusTime(P_SpawnMapThing(mt)); } else if (mt->type >= 600 && mt->type <= 609) // Item patterns { mt->mobj = NULL; P_SpawnItemPattern(mt, true); } } for (i = 0; i < numHoops; i++) { P_SpawnHoop(hoopsToRespawn[i]); } } void P_SwitchSpheresBonusMode(boolean bonustime) { mobj_t *mo; thinker_t *th; // scan the thinkers to find spheres to switch for (th = thlist[THINK_MOBJ].next; th != &thlist[THINK_MOBJ]; th = th->next) { if (th->function.acp1 == (actionf_p1)P_RemoveThinkerDelayed) continue; mo = (mobj_t *)th; if (mo->type != MT_BLUESPHERE && mo->type != MT_NIGHTSCHIP && mo->type != MT_FLINGBLUESPHERE && mo->type != MT_FLINGNIGHTSCHIP) continue; if (!mo->health) continue; P_SetMobjState(mo, ((bonustime) ? mo->info->raisestate : mo->info->spawnstate)); } } #ifdef SCANTHINGS void P_ScanThings(INT16 mapnum, INT16 wadnum, INT16 lumpnum) { size_t i, n; UINT8 *data, *datastart; UINT16 type, maprings; INT16 tol; UINT32 flags; tol = mapheaderinfo[mapnum-1]->typeoflevel; if (!(tol & TOL_SP)) return; flags = mapheaderinfo[mapnum-1]->levelflags; n = W_LumpLengthPwad(wadnum, lumpnum) / (5 * sizeof (INT16)); //CONS_Printf("%u map things found!\n", n); maprings = 0; data = datastart = W_CacheLumpNumPwad(wadnum, lumpnum, PU_STATIC); for (i = 0; i < n; i++) { data += 3 * sizeof (INT16); // skip x y position, angle type = READUINT16(data) & 4095; data += sizeof (INT16); // skip options switch (type) { case 300: // MT_RING case 1800: // MT_COIN case 308: // red team ring case 309: // blue team ring maprings++; break; case 400: // MT_SUPERRINGBOX case 414: // red ring box case 415: // blue ring box case 603: // 10 diagonal rings maprings += 10; break; case 600: // 5 vertical rings case 601: // 5 vertical rings case 602: // 5 diagonal rings maprings += 5; break; case 604: // 8 circle rings case 609: // 16 circle rings & wings maprings += 8; break; case 605: // 16 circle rings maprings += 16; break; case 608: // 8 circle rings & wings maprings += 4; break; } } Z_Free(datastart); if (maprings) CONS_Printf("%s has %u rings\n", G_BuildMapName(mapnum), maprings); } #endif static void P_SpawnEmeraldHunt(void) { INT32 emer[3], num[MAXHUNTEMERALDS], i, randomkey; fixed_t x, y, z; for (i = 0; i < numhuntemeralds; i++) num[i] = i; for (i = 0; i < 3; i++) { // generate random index, shuffle afterwards randomkey = P_RandomKey(numhuntemeralds--); emer[i] = num[randomkey]; num[randomkey] = num[numhuntemeralds]; num[numhuntemeralds] = emer[i]; // spawn emerald x = huntemeralds[emer[i]]->x<y<type) { case 1700: // MT_AXIS case 1701: // MT_AXISTRANSFER case 1702: // MT_AXISTRANSFERLINE mt->mobj = NULL; P_SpawnMapThing(mt); break; default: break; } } numhuntemeralds = 0; for (i = 0, mt = mapthings; i < nummapthings; i++, mt++) { if (mt->type == 1700 // MT_AXIS || mt->type == 1701 // MT_AXISTRANSFER || mt->type == 1702) // MT_AXISTRANSFERLINE continue; // These were already spawned if (!spawnemblems && mt->type == mobjinfo[MT_EMBLEM].doomednum) continue; mt->mobj = NULL; if (mt->type >= 600 && mt->type <= 609) // item patterns P_SpawnItemPattern(mt, false); else if (mt->type == 1705 || mt->type == 1713) // hoops P_SpawnHoop(mt); else // Everything else P_SpawnMapThing(mt); } // random emeralds for hunt if (numhuntemeralds) P_SpawnEmeraldHunt(); } // Experimental groovy write function! void P_WriteThings(void) { size_t i, length; mapthing_t *mt; UINT8 *savebuffer, *savebuf_p; INT16 temp; savebuf_p = savebuffer = (UINT8 *)malloc(nummapthings * sizeof (mapthing_t)); if (!savebuf_p) { CONS_Alert(CONS_ERROR, M_GetText("No more free memory for thing writing!\n")); return; } mt = mapthings; for (i = 0; i < nummapthings; i++, mt++) { WRITEINT16(savebuf_p, mt->x); WRITEINT16(savebuf_p, mt->y); WRITEINT16(savebuf_p, mt->angle); temp = (INT16)(mt->type + ((INT16)mt->extrainfo << 12)); WRITEINT16(savebuf_p, temp); WRITEUINT16(savebuf_p, mt->options); } length = savebuf_p - savebuffer; FIL_WriteFile(va("newthings%d.lmp", gamemap), savebuffer, length); free(savebuffer); savebuf_p = NULL; CONS_Printf(M_GetText("newthings%d.lmp saved.\n"), gamemap); } // // MAP LOADING FUNCTIONS // static void P_LoadVertices(UINT8 *data) { mapvertex_t *mv = (mapvertex_t *)data; vertex_t *v = vertexes; size_t i; // Copy and convert vertex coordinates, internal representation as fixed. for (i = 0; i < numvertexes; i++, v++, mv++) { v->x = SHORT(mv->x)<y = SHORT(mv->y)<floorzset = v->ceilingzset = false; v->floorz = v->ceilingz = 0; } } static void P_InitializeSector(sector_t *ss) { memset(&ss->soundorg, 0, sizeof(ss->soundorg)); ss->validcount = 0; ss->thinglist = NULL; ss->floordata = NULL; ss->ceilingdata = NULL; ss->lightingdata = NULL; ss->fadecolormapdata = NULL; ss->heightsec = -1; ss->camsec = -1; ss->floorlightsec = ss->ceilinglightsec = -1; ss->crumblestate = CRUMBLE_NONE; ss->touching_thinglist = NULL; ss->linecount = 0; ss->lines = NULL; ss->ffloors = NULL; ss->attached = NULL; ss->attachedsolid = NULL; ss->numattached = 0; ss->maxattached = 1; ss->lightlist = NULL; ss->numlights = 0; ss->moved = true; ss->extra_colormap = NULL; ss->gravity = NULL; ss->verticalflip = false; ss->flags = SF_FLIPSPECIAL_FLOOR; ss->cullheight = NULL; ss->floorspeed = ss->ceilspeed = 0; ss->preciplist = NULL; ss->touching_preciplist = NULL; ss->f_slope = NULL; ss->c_slope = NULL; ss->hasslope = false; ss->spawn_lightlevel = ss->lightlevel; ss->spawn_extra_colormap = NULL; } static void P_LoadSectors(UINT8 *data) { mapsector_t *ms = (mapsector_t *)data; sector_t *ss = sectors; size_t i; // For each counted sector, copy the sector raw data from our cache pointer ms, to the global table pointer ss. for (i = 0; i < numsectors; i++, ss++, ms++) { ss->floorheight = SHORT(ms->floorheight)<ceilingheight = SHORT(ms->ceilingheight)<floorpic = P_AddLevelFlat(ms->floorpic, foundflats); ss->ceilingpic = P_AddLevelFlat(ms->ceilingpic, foundflats); ss->lightlevel = SHORT(ms->lightlevel); ss->special = SHORT(ms->special); Tag_FSet(&ss->tags, SHORT(ms->tag)); ss->floor_xoffs = ss->floor_yoffs = 0; ss->ceiling_xoffs = ss->ceiling_yoffs = 0; ss->floorpic_angle = ss->ceilingpic_angle = 0; ss->floorlightlevel = ss->ceilinglightlevel = 0; ss->floorlightabsolute = ss->ceilinglightabsolute = false; ss->colormap_protected = false; P_InitializeSector(ss); } } static void P_InitializeLinedef(line_t *ld) { vertex_t *v1 = ld->v1; vertex_t *v2 = ld->v2; UINT8 j; ld->dx = v2->x - v1->x; ld->dy = v2->y - v1->y; ld->bbox[BOXLEFT] = min(v1->x, v2->x); ld->bbox[BOXRIGHT] = max(v1->x, v2->x); ld->bbox[BOXBOTTOM] = min(v1->y, v2->y); ld->bbox[BOXTOP] = max(v1->y, v2->y); if (!ld->dx) ld->slopetype = ST_VERTICAL; else if (!ld->dy) ld->slopetype = ST_HORIZONTAL; else if ((ld->dy > 0) == (ld->dx > 0)) ld->slopetype = ST_POSITIVE; else ld->slopetype = ST_NEGATIVE; ld->frontsector = ld->backsector = NULL; ld->validcount = 0; ld->polyobj = NULL; ld->text = NULL; ld->callcount = 0; // cph 2006/09/30 - fix sidedef errors right away. // cph 2002/07/20 - these errors are fatal if not fixed, so apply them for (j = 0; j < 2; j++) if (ld->sidenum[j] != 0xffff && ld->sidenum[j] >= (UINT16)numsides) { ld->sidenum[j] = 0xffff; CONS_Debug(DBG_SETUP, "P_InitializeLinedef: Linedef %s has out-of-range sidedef number\n", sizeu1((size_t)(ld - lines))); } // killough 11/98: fix common wad errors (missing sidedefs): if (ld->sidenum[0] == 0xffff) { ld->sidenum[0] = 0; // Substitute dummy sidedef for missing right side // cph - print a warning about the bug CONS_Debug(DBG_SETUP, "P_InitializeLinedef: Linedef %s missing first sidedef\n", sizeu1((size_t)(ld - lines))); } if ((ld->sidenum[1] == 0xffff) && (ld->flags & ML_TWOSIDED)) { ld->flags &= ~ML_TWOSIDED; // Clear 2s flag for missing left side // cph - print a warning about the bug CONS_Debug(DBG_SETUP, "P_InitializeLinedef: Linedef %s has two-sided flag set, but no second sidedef\n", sizeu1((size_t)(ld - lines))); } if (ld->sidenum[0] != 0xffff) { sides[ld->sidenum[0]].special = ld->special; sides[ld->sidenum[0]].line = ld; } if (ld->sidenum[1] != 0xffff) { sides[ld->sidenum[1]].special = ld->special; sides[ld->sidenum[1]].line = ld; } } static void P_SetLinedefV1(size_t i, UINT16 vertex_num) { if (vertex_num >= numvertexes) { CONS_Debug(DBG_SETUP, "P_SetLinedefV1: linedef %s has out-of-range v1 num %u\n", sizeu1(i), vertex_num); vertex_num = 0; } lines[i].v1 = &vertexes[vertex_num]; } static void P_SetLinedefV2(size_t i, UINT16 vertex_num) { if (vertex_num >= numvertexes) { CONS_Debug(DBG_SETUP, "P_SetLinedefV2: linedef %s has out-of-range v2 num %u\n", sizeu1(i), vertex_num); vertex_num = 0; } lines[i].v2 = &vertexes[vertex_num]; } static void P_LoadLinedefs(UINT8 *data) { maplinedef_t *mld = (maplinedef_t *)data; line_t *ld = lines; size_t i; for (i = 0; i < numlines; i++, mld++, ld++) { ld->flags = SHORT(mld->flags); ld->special = SHORT(mld->special); Tag_FSet(&ld->tags, SHORT(mld->tag)); memset(ld->args, 0, NUMLINEARGS*sizeof(*ld->args)); memset(ld->stringargs, 0x00, NUMLINESTRINGARGS*sizeof(*ld->stringargs)); ld->alpha = FRACUNIT; ld->executordelay = 0; P_SetLinedefV1(i, SHORT(mld->v1)); P_SetLinedefV2(i, SHORT(mld->v2)); ld->sidenum[0] = SHORT(mld->sidenum[0]); ld->sidenum[1] = SHORT(mld->sidenum[1]); P_InitializeLinedef(ld); } } static void P_SetSidedefSector(size_t i, UINT16 sector_num) { // cph 2006/09/30 - catch out-of-range sector numbers; use sector 0 instead if (sector_num >= numsectors) { CONS_Debug(DBG_SETUP, "P_SetSidedefSector: sidedef %s has out-of-range sector num %u\n", sizeu1(i), sector_num); sector_num = 0; } sides[i].sector = §ors[sector_num]; } static void P_InitializeSidedef(side_t *sd) { if (!sd->line) { CONS_Debug(DBG_SETUP, "P_LoadSidedefs: Sidedef %s is not used by any linedef\n", sizeu1((size_t)(sd - sides))); sd->line = &lines[0]; sd->special = sd->line->special; } sd->text = NULL; sd->colormap_data = NULL; } static void P_LoadSidedefs(UINT8 *data) { mapsidedef_t *msd = (mapsidedef_t*)data; side_t *sd = sides; size_t i; for (i = 0; i < numsides; i++, sd++, msd++) { INT16 textureoffset = SHORT(msd->textureoffset); boolean isfrontside; P_InitializeSidedef(sd); isfrontside = sd->line->sidenum[0] == i; // Repeat count for midtexture if (((sd->line->flags & (ML_TWOSIDED|ML_EFFECT5)) == (ML_TWOSIDED|ML_EFFECT5)) && !(sd->special >= 300 && sd->special < 500)) // exempt linedef exec specials { sd->repeatcnt = (INT16)(((UINT16)textureoffset) >> 12); sd->textureoffset = (((UINT16)textureoffset) & 2047) << FRACBITS; } else { sd->repeatcnt = 0; sd->textureoffset = textureoffset << FRACBITS; } sd->rowoffset = SHORT(msd->rowoffset)<sector)); // Special info stored in texture fields! switch (sd->special) { case 606: //SoM: 4/4/2000: Just colormap transfer case 447: // Change colormap of tagged sectors! -- Monster Iestyn 14/06/18 case 455: // Fade colormaps! mazmazz 9/12/2018 (:flag_us:) // SoM: R_CreateColormap will only create a colormap in software mode... // Perhaps we should just call it instead of doing the calculations here. if (!udmf) { sd->colormap_data = R_CreateColormapFromLinedef(msd->toptexture, msd->midtexture, msd->bottomtexture); sd->toptexture = sd->midtexture = sd->bottomtexture = 0; } break; case 413: // Change music { char process[8+1]; sd->toptexture = sd->midtexture = sd->bottomtexture = 0; if (msd->bottomtexture[0] != '-' || msd->bottomtexture[1] != '\0') { M_Memcpy(process,msd->bottomtexture,8); process[8] = '\0'; sd->bottomtexture = get_number(process); } if (!(msd->midtexture[0] == '-' && msd->midtexture[1] == '\0') || msd->midtexture[1] != '\0') { M_Memcpy(process,msd->midtexture,8); process[8] = '\0'; sd->midtexture = get_number(process); } sd->text = Z_Malloc(7, PU_LEVEL, NULL); if (isfrontside && !(msd->toptexture[0] == '-' && msd->toptexture[1] == '\0')) { M_Memcpy(process,msd->toptexture,8); process[8] = '\0'; // If they type in O_ or D_ and their music name, just shrug, // then copy the rest instead. if ((process[0] == 'O' || process[0] == 'D') && process[7]) M_Memcpy(sd->text, process+2, 6); else // Assume it's a proper music name. M_Memcpy(sd->text, process, 6); sd->text[6] = 0; } else sd->text[0] = 0; break; } case 4: // Speed pad parameters { sd->toptexture = sd->midtexture = sd->bottomtexture = 0; if (msd->toptexture[0] != '-' || msd->toptexture[1] != '\0') { char process[8+1]; M_Memcpy(process,msd->toptexture,8); process[8] = '\0'; sd->toptexture = get_number(process); } break; } case 414: // Play SFX { sd->toptexture = sd->midtexture = sd->bottomtexture = 0; if (msd->toptexture[0] != '-' || msd->toptexture[1] != '\0') { char process[8 + 1]; M_Memcpy(process, msd->toptexture, 8); process[8] = '\0'; sd->text = Z_Malloc(strlen(process) + 1, PU_LEVEL, NULL); M_Memcpy(sd->text, process, strlen(process) + 1); } break; } case 9: // Mace parameters case 14: // Bustable block parameters case 15: // Fan particle spawner parameters case 334: // Trigger linedef executor: Object dye - Continuous case 335: // Trigger linedef executor: Object dye - Each time case 336: // Trigger linedef executor: Object dye - Once case 461: // Spawns an object on the map based on texture offsets { char process[8*3+1]; memset(process,0,8*3+1); sd->toptexture = sd->midtexture = sd->bottomtexture = 0; if (msd->toptexture[0] == '-' && msd->toptexture[1] == '\0') break; else M_Memcpy(process,msd->toptexture,8); if (msd->midtexture[0] != '-' || msd->midtexture[1] != '\0') M_Memcpy(process+strlen(process), msd->midtexture, 8); if (msd->bottomtexture[0] != '-' || msd->bottomtexture[1] != '\0') M_Memcpy(process+strlen(process), msd->bottomtexture, 8); sd->toptexture = get_number(process); break; } case 331: // Trigger linedef executor: Skin - Continuous case 332: // Trigger linedef executor: Skin - Each time case 333: // Trigger linedef executor: Skin - Once case 425: // Calls P_SetMobjState on calling mobj case 434: // Custom Power case 442: // Calls P_SetMobjState on mobjs of a given type in the tagged sectors case 443: // Calls a named Lua function case 459: // Control text prompt (named tag) case 463: // Colorizes an object { char process[8*3+1]; memset(process,0,8*3+1); sd->toptexture = sd->midtexture = sd->bottomtexture = 0; if (msd->toptexture[0] == '-' && msd->toptexture[1] == '\0') break; else M_Memcpy(process,msd->toptexture,8); if (msd->midtexture[0] != '-' || msd->midtexture[1] != '\0') M_Memcpy(process+strlen(process), msd->midtexture, 8); if (msd->bottomtexture[0] != '-' || msd->bottomtexture[1] != '\0') M_Memcpy(process+strlen(process), msd->bottomtexture, 8); sd->text = Z_Malloc(strlen(process)+1, PU_LEVEL, NULL); M_Memcpy(sd->text, process, strlen(process)+1); break; } case 259: // Custom FOF if (!isfrontside) { if ((msd->toptexture[0] >= '0' && msd->toptexture[0] <= '9') || (msd->toptexture[0] >= 'A' && msd->toptexture[0] <= 'F')) sd->toptexture = axtoi(msd->toptexture); else I_Error("Custom FOF (line id %s) needs a value in the linedef's back side upper texture field.", sizeu1(sd->line - lines)); sd->midtexture = R_TextureNumForName(msd->midtexture); sd->bottomtexture = R_TextureNumForName(msd->bottomtexture); break; } // FALLTHRU default: // normal cases if (msd->toptexture[0] == '#') { char *col = msd->toptexture; sd->toptexture = sd->bottomtexture = ((col[1]-'0')*100 + (col[2]-'0')*10 + col[3]-'0') + 1; sd->midtexture = R_TextureNumForName(msd->midtexture); } else { sd->midtexture = R_TextureNumForName(msd->midtexture); sd->toptexture = R_TextureNumForName(msd->toptexture); sd->bottomtexture = R_TextureNumForName(msd->bottomtexture); } break; } } } static void P_LoadThings(UINT8 *data) { mapthing_t *mt; size_t i; for (i = 0, mt = mapthings; i < nummapthings; i++, mt++) { mt->x = READINT16(data); mt->y = READINT16(data); mt->angle = READINT16(data); mt->type = READUINT16(data); mt->options = READUINT16(data); mt->extrainfo = (UINT8)(mt->type >> 12); Tag_FSet(&mt->tags, 0); mt->scale = FRACUNIT; memset(mt->args, 0, NUMMAPTHINGARGS*sizeof(*mt->args)); memset(mt->stringargs, 0x00, NUMMAPTHINGSTRINGARGS*sizeof(*mt->stringargs)); mt->pitch = mt->roll = 0; mt->type &= 4095; if (mt->type == 1705 || (mt->type == 750 && mt->extrainfo)) mt->z = mt->options; // NiGHTS Hoops use the full flags bits to set the height. else mt->z = mt->options >> ZSHIFT; mt->mobj = NULL; } } // Stores positions for relevant map data spread through a TEXTMAP. UINT32 mapthingsPos[UINT16_MAX]; UINT32 linesPos[UINT16_MAX]; UINT32 sidesPos[UINT16_MAX]; UINT32 vertexesPos[UINT16_MAX]; UINT32 sectorsPos[UINT16_MAX]; // Determine total amount of map data in TEXTMAP. static boolean TextmapCount(UINT8 *data, size_t size) { char *tkn = M_GetToken((char *)data); UINT8 brackets = 0; nummapthings = 0; numlines = 0; numsides = 0; numvertexes = 0; numsectors = 0; // Look for namespace at the beginning. if (!fastcmp(tkn, "namespace")) { Z_Free(tkn); CONS_Alert(CONS_ERROR, "No namespace at beginning of lump!\n"); return false; } Z_Free(tkn); // Check if namespace is valid. tkn = M_GetToken(NULL); if (!fastcmp(tkn, "srb2")) CONS_Alert(CONS_WARNING, "Invalid namespace '%s', only 'srb2' is supported.\n", tkn); Z_Free(tkn); tkn = M_GetToken(NULL); while (tkn && M_GetTokenPos() < size) { // Avoid anything inside bracketed stuff, only look for external keywords. if (brackets) { if (fastcmp(tkn, "}")) brackets--; } else if (fastcmp(tkn, "{")) brackets++; // Check for valid fields. else if (fastcmp(tkn, "thing")) mapthingsPos[nummapthings++] = M_GetTokenPos(); else if (fastcmp(tkn, "linedef")) linesPos[numlines++] = M_GetTokenPos(); else if (fastcmp(tkn, "sidedef")) sidesPos[numsides++] = M_GetTokenPos(); else if (fastcmp(tkn, "vertex")) vertexesPos[numvertexes++] = M_GetTokenPos(); else if (fastcmp(tkn, "sector")) sectorsPos[numsectors++] = M_GetTokenPos(); else CONS_Alert(CONS_NOTICE, "Unknown field '%s'.\n", tkn); Z_Free(tkn); tkn = M_GetToken(NULL); } Z_Free(tkn); if (brackets) { CONS_Alert(CONS_ERROR, "Unclosed brackets detected in textmap lump.\n"); return false; } return true; } static void ParseTextmapVertexParameter(UINT32 i, char *param, char *val) { if (fastcmp(param, "x")) vertexes[i].x = FLOAT_TO_FIXED(atof(val)); else if (fastcmp(param, "y")) vertexes[i].y = FLOAT_TO_FIXED(atof(val)); else if (fastcmp(param, "zfloor")) { vertexes[i].floorz = FLOAT_TO_FIXED(atof(val)); vertexes[i].floorzset = true; } else if (fastcmp(param, "zceiling")) { vertexes[i].ceilingz = FLOAT_TO_FIXED(atof(val)); vertexes[i].ceilingzset = true; } } typedef struct textmap_colormap_s { boolean used; INT32 lightcolor; UINT8 lightalpha; INT32 fadecolor; UINT8 fadealpha; UINT8 fadestart; UINT8 fadeend; UINT8 flags; } textmap_colormap_t; textmap_colormap_t textmap_colormap = { false, 0, 25, 0, 25, 0, 31, 0 }; typedef enum { PD_A = 1, PD_B = 1<<1, PD_C = 1<<2, PD_D = 1<<3, } planedef_t; typedef struct textmap_plane_s { UINT8 defined; fixed_t a, b, c, d; } textmap_plane_t; textmap_plane_t textmap_planefloor = {0, 0, 0, 0, 0}; textmap_plane_t textmap_planeceiling = {0, 0, 0, 0, 0}; static void ParseTextmapSectorParameter(UINT32 i, char *param, char *val) { if (fastcmp(param, "heightfloor")) sectors[i].floorheight = atol(val) << FRACBITS; else if (fastcmp(param, "heightceiling")) sectors[i].ceilingheight = atol(val) << FRACBITS; if (fastcmp(param, "texturefloor")) sectors[i].floorpic = P_AddLevelFlat(val, foundflats); else if (fastcmp(param, "textureceiling")) sectors[i].ceilingpic = P_AddLevelFlat(val, foundflats); else if (fastcmp(param, "lightlevel")) sectors[i].lightlevel = atol(val); else if (fastcmp(param, "lightfloor")) sectors[i].floorlightlevel = atol(val); else if (fastcmp(param, "lightfloorabsolute") && fastcmp("true", val)) sectors[i].floorlightabsolute = true; else if (fastcmp(param, "lightceiling")) sectors[i].ceilinglightlevel = atol(val); else if (fastcmp(param, "lightceilingabsolute") && fastcmp("true", val)) sectors[i].ceilinglightabsolute = true; else if (fastcmp(param, "special")) sectors[i].special = atol(val); else if (fastcmp(param, "id")) Tag_FSet(§ors[i].tags, atol(val)); else if (fastcmp(param, "moreids")) { char* id = val; while (id) { Tag_Add(§ors[i].tags, atol(id)); if ((id = strchr(id, ' '))) id++; } } else if (fastcmp(param, "xpanningfloor")) sectors[i].floor_xoffs = FLOAT_TO_FIXED(atof(val)); else if (fastcmp(param, "ypanningfloor")) sectors[i].floor_yoffs = FLOAT_TO_FIXED(atof(val)); else if (fastcmp(param, "xpanningceiling")) sectors[i].ceiling_xoffs = FLOAT_TO_FIXED(atof(val)); else if (fastcmp(param, "ypanningceiling")) sectors[i].ceiling_yoffs = FLOAT_TO_FIXED(atof(val)); else if (fastcmp(param, "rotationfloor")) sectors[i].floorpic_angle = FixedAngle(FLOAT_TO_FIXED(atof(val))); else if (fastcmp(param, "rotationceiling")) sectors[i].ceilingpic_angle = FixedAngle(FLOAT_TO_FIXED(atof(val))); else if (fastcmp(param, "floorplane_a")) { textmap_planefloor.defined |= PD_A; textmap_planefloor.a = FLOAT_TO_FIXED(atof(val)); } else if (fastcmp(param, "floorplane_b")) { textmap_planefloor.defined |= PD_B; textmap_planefloor.b = FLOAT_TO_FIXED(atof(val)); } else if (fastcmp(param, "floorplane_c")) { textmap_planefloor.defined |= PD_C; textmap_planefloor.c = FLOAT_TO_FIXED(atof(val)); } else if (fastcmp(param, "floorplane_d")) { textmap_planefloor.defined |= PD_D; textmap_planefloor.d = FLOAT_TO_FIXED(atof(val)); } else if (fastcmp(param, "ceilingplane_a")) { textmap_planeceiling.defined |= PD_A; textmap_planeceiling.a = FLOAT_TO_FIXED(atof(val)); } else if (fastcmp(param, "ceilingplane_b")) { textmap_planeceiling.defined |= PD_B; textmap_planeceiling.b = FLOAT_TO_FIXED(atof(val)); } else if (fastcmp(param, "ceilingplane_c")) { textmap_planeceiling.defined |= PD_C; textmap_planeceiling.c = FLOAT_TO_FIXED(atof(val)); } else if (fastcmp(param, "ceilingplane_d")) { textmap_planeceiling.defined |= PD_D; textmap_planeceiling.d = FLOAT_TO_FIXED(atof(val)); } else if (fastcmp(param, "lightcolor")) { textmap_colormap.used = true; textmap_colormap.lightcolor = atol(val); } else if (fastcmp(param, "lightalpha")) { textmap_colormap.used = true; textmap_colormap.lightalpha = atol(val); } else if (fastcmp(param, "fadecolor")) { textmap_colormap.used = true; textmap_colormap.fadecolor = atol(val); } else if (fastcmp(param, "fadealpha")) { textmap_colormap.used = true; textmap_colormap.fadealpha = atol(val); } else if (fastcmp(param, "fadestart")) { textmap_colormap.used = true; textmap_colormap.fadestart = atol(val); } else if (fastcmp(param, "fadeend")) { textmap_colormap.used = true; textmap_colormap.fadeend = atol(val); } else if (fastcmp(param, "colormapfog") && fastcmp("true", val)) { textmap_colormap.used = true; textmap_colormap.flags |= CMF_FOG; } else if (fastcmp(param, "colormapfadesprites") && fastcmp("true", val)) { textmap_colormap.used = true; textmap_colormap.flags |= CMF_FADEFULLBRIGHTSPRITES; } else if (fastcmp(param, "colormapprotected") && fastcmp("true", val)) sectors[i].colormap_protected = true; } static void ParseTextmapSidedefParameter(UINT32 i, char *param, char *val) { if (fastcmp(param, "offsetx")) sides[i].textureoffset = atol(val)<= NUMLINESTRINGARGS) return; lines[i].stringargs[argnum] = Z_Malloc(strlen(val) + 1, PU_LEVEL, NULL); M_Memcpy(lines[i].stringargs[argnum], val, strlen(val) + 1); } else if (fastncmp(param, "arg", 3) && strlen(param) > 3) { size_t argnum = atol(param + 3); if (argnum >= NUMLINEARGS) return; lines[i].args[argnum] = atol(val); } else if (fastcmp(param, "sidefront")) lines[i].sidenum[0] = atol(val); else if (fastcmp(param, "sideback")) lines[i].sidenum[1] = atol(val); else if (fastcmp(param, "alpha")) lines[i].alpha = FLOAT_TO_FIXED(atof(val)); else if (fastcmp(param, "executordelay")) lines[i].executordelay = atol(val); // Flags else if (fastcmp(param, "blocking") && fastcmp("true", val)) lines[i].flags |= ML_IMPASSIBLE; else if (fastcmp(param, "blockmonsters") && fastcmp("true", val)) lines[i].flags |= ML_BLOCKMONSTERS; else if (fastcmp(param, "twosided") && fastcmp("true", val)) lines[i].flags |= ML_TWOSIDED; else if (fastcmp(param, "dontpegtop") && fastcmp("true", val)) lines[i].flags |= ML_DONTPEGTOP; else if (fastcmp(param, "dontpegbottom") && fastcmp("true", val)) lines[i].flags |= ML_DONTPEGBOTTOM; else if (fastcmp(param, "skewtd") && fastcmp("true", val)) lines[i].flags |= ML_EFFECT1; else if (fastcmp(param, "noclimb") && fastcmp("true", val)) lines[i].flags |= ML_NOCLIMB; else if (fastcmp(param, "noskew") && fastcmp("true", val)) lines[i].flags |= ML_EFFECT2; else if (fastcmp(param, "midpeg") && fastcmp("true", val)) lines[i].flags |= ML_EFFECT3; else if (fastcmp(param, "midsolid") && fastcmp("true", val)) lines[i].flags |= ML_EFFECT4; else if (fastcmp(param, "wrapmidtex") && fastcmp("true", val)) lines[i].flags |= ML_EFFECT5; else if (fastcmp(param, "effect6") && fastcmp("true", val)) lines[i].flags |= ML_EFFECT6; else if (fastcmp(param, "nonet") && fastcmp("true", val)) lines[i].flags |= ML_NONET; else if (fastcmp(param, "netonly") && fastcmp("true", val)) lines[i].flags |= ML_NETONLY; else if (fastcmp(param, "bouncy") && fastcmp("true", val)) lines[i].flags |= ML_BOUNCY; else if (fastcmp(param, "transfer") && fastcmp("true", val)) lines[i].flags |= ML_TFERLINE; } static void ParseTextmapThingParameter(UINT32 i, char *param, char *val) { if (fastcmp(param, "id")) Tag_FSet(&mapthings[i].tags, atol(val)); else if (fastcmp(param, "moreids")) { char* id = val; while (id) { Tag_Add(&mapthings[i].tags, atol(id)); if ((id = strchr(id, ' '))) id++; } } else if (fastcmp(param, "x")) mapthings[i].x = atol(val); else if (fastcmp(param, "y")) mapthings[i].y = atol(val); else if (fastcmp(param, "height")) mapthings[i].z = atol(val); else if (fastcmp(param, "angle")) mapthings[i].angle = atol(val); else if (fastcmp(param, "pitch")) mapthings[i].pitch = atol(val); else if (fastcmp(param, "roll")) mapthings[i].roll = atol(val); else if (fastcmp(param, "type")) mapthings[i].type = atol(val); else if (fastcmp(param, "scale") || fastcmp(param, "scalex") || fastcmp(param, "scaley")) mapthings[i].scale = FLOAT_TO_FIXED(atof(val)); // Flags else if (fastcmp(param, "extra") && fastcmp("true", val)) mapthings[i].options |= MTF_EXTRA; else if (fastcmp(param, "flip") && fastcmp("true", val)) mapthings[i].options |= MTF_OBJECTFLIP; else if (fastcmp(param, "objectspecial") && fastcmp("true", val)) mapthings[i].options |= MTF_OBJECTSPECIAL; else if (fastcmp(param, "ambush") && fastcmp("true", val)) mapthings[i].options |= MTF_AMBUSH; else if (strlen(param) == 7 && fastncmp(param, "arg", 3) && fastncmp(param + 4, "str", 3)) { size_t argnum = param[3] - '0'; if (argnum >= NUMMAPTHINGSTRINGARGS) return; mapthings[i].stringargs[argnum] = Z_Malloc(strlen(val) + 1, PU_LEVEL, NULL); M_Memcpy(mapthings[i].stringargs[argnum], val, strlen(val) + 1); } else if (fastncmp(param, "arg", 3) && strlen(param) > 3) { size_t argnum = atol(param + 3); if (argnum >= NUMMAPTHINGARGS) return; mapthings[i].args[argnum] = atol(val); } } /** From a given position table, run a specified parser function through a {}-encapsuled text. * * \param Position of the data to parse, in the textmap. * \param Structure number (mapthings, sectors, ...). * \param Parser function pointer. */ static void TextmapParse(UINT32 dataPos, size_t num, void (*parser)(UINT32, char *, char *)) { char *param, *val; M_SetTokenPos(dataPos); param = M_GetToken(NULL); if (!fastcmp(param, "{")) { Z_Free(param); CONS_Alert(CONS_WARNING, "Invalid UDMF data capsule!\n"); return; } Z_Free(param); while (true) { param = M_GetToken(NULL); if (fastcmp(param, "}")) { Z_Free(param); break; } val = M_GetToken(NULL); parser(num, param, val); Z_Free(param); Z_Free(val); } } /** Provides a fix to the flat alignment coordinate transform from standard Textmaps. */ static void TextmapFixFlatOffsets(sector_t *sec) { if (sec->floorpic_angle) { fixed_t pc = FINECOSINE(sec->floorpic_angle>>ANGLETOFINESHIFT); fixed_t ps = FINESINE (sec->floorpic_angle>>ANGLETOFINESHIFT); fixed_t xoffs = sec->floor_xoffs; fixed_t yoffs = sec->floor_yoffs; sec->floor_xoffs = (FixedMul(xoffs, pc) % MAXFLATSIZE) - (FixedMul(yoffs, ps) % MAXFLATSIZE); sec->floor_yoffs = (FixedMul(xoffs, ps) % MAXFLATSIZE) + (FixedMul(yoffs, pc) % MAXFLATSIZE); } if (sec->ceilingpic_angle) { fixed_t pc = FINECOSINE(sec->ceilingpic_angle>>ANGLETOFINESHIFT); fixed_t ps = FINESINE (sec->ceilingpic_angle>>ANGLETOFINESHIFT); fixed_t xoffs = sec->ceiling_xoffs; fixed_t yoffs = sec->ceiling_yoffs; sec->ceiling_xoffs = (FixedMul(xoffs, pc) % MAXFLATSIZE) - (FixedMul(yoffs, ps) % MAXFLATSIZE); sec->ceiling_yoffs = (FixedMul(xoffs, ps) % MAXFLATSIZE) + (FixedMul(yoffs, pc) % MAXFLATSIZE); } } static INT32 P_ColorToRGBA(INT32 color, UINT8 alpha) { UINT8 r = (color >> 16) & 0xFF; UINT8 g = (color >> 8) & 0xFF; UINT8 b = color & 0xFF; return R_PutRgbaRGBA(r, g, b, alpha); } /** Loads the textmap data, after obtaining the elements count and allocating their respective space. */ static void P_LoadTextmap(void) { UINT32 i; vertex_t *vt; sector_t *sc; line_t *ld; side_t *sd; mapthing_t *mt; CONS_Alert(CONS_NOTICE, "UDMF support is still a work-in-progress; its specs and features are prone to change until it is fully implemented.\n"); /// Given the UDMF specs, some fields are given a default value. /// If an element's field has a default value set, it is omitted /// from the textmap, and therefore we have to account for it by /// preemptively setting that value beforehand. for (i = 0, vt = vertexes; i < numvertexes; i++, vt++) { // Defaults. vt->x = vt->y = INT32_MAX; vt->floorzset = vt->ceilingzset = false; vt->floorz = vt->ceilingz = 0; TextmapParse(vertexesPos[i], i, ParseTextmapVertexParameter); if (vt->x == INT32_MAX) I_Error("P_LoadTextmap: vertex %s has no x value set!\n", sizeu1(i)); if (vt->y == INT32_MAX) I_Error("P_LoadTextmap: vertex %s has no y value set!\n", sizeu1(i)); } for (i = 0, sc = sectors; i < numsectors; i++, sc++) { // Defaults. sc->floorheight = 0; sc->ceilingheight = 0; sc->floorpic = 0; sc->ceilingpic = 0; sc->lightlevel = 255; sc->special = 0; Tag_FSet(&sc->tags, 0); sc->floor_xoffs = sc->floor_yoffs = 0; sc->ceiling_xoffs = sc->ceiling_yoffs = 0; sc->floorpic_angle = sc->ceilingpic_angle = 0; sc->floorlightlevel = sc->ceilinglightlevel = 0; sc->floorlightabsolute = sc->ceilinglightabsolute = false; sc->colormap_protected = false; textmap_colormap.used = false; textmap_colormap.lightcolor = 0; textmap_colormap.lightalpha = 25; textmap_colormap.fadecolor = 0; textmap_colormap.fadealpha = 25; textmap_colormap.fadestart = 0; textmap_colormap.fadeend = 31; textmap_colormap.flags = 0; textmap_planefloor.defined = 0; textmap_planeceiling.defined = 0; TextmapParse(sectorsPos[i], i, ParseTextmapSectorParameter); P_InitializeSector(sc); if (textmap_colormap.used) { INT32 rgba = P_ColorToRGBA(textmap_colormap.lightcolor, textmap_colormap.lightalpha); INT32 fadergba = P_ColorToRGBA(textmap_colormap.fadecolor, textmap_colormap.fadealpha); sc->extra_colormap = sc->spawn_extra_colormap = R_CreateColormap(rgba, fadergba, textmap_colormap.fadestart, textmap_colormap.fadeend, textmap_colormap.flags); } if (textmap_planefloor.defined == (PD_A|PD_B|PD_C|PD_D)) { sc->f_slope = MakeViaEquationConstants(textmap_planefloor.a, textmap_planefloor.b, textmap_planefloor.c, textmap_planefloor.d); sc->hasslope = true; } if (textmap_planeceiling.defined == (PD_A|PD_B|PD_C|PD_D)) { sc->c_slope = MakeViaEquationConstants(textmap_planeceiling.a, textmap_planeceiling.b, textmap_planeceiling.c, textmap_planeceiling.d); sc->hasslope = true; } TextmapFixFlatOffsets(sc); } for (i = 0, ld = lines; i < numlines; i++, ld++) { // Defaults. ld->v1 = ld->v2 = NULL; ld->flags = 0; ld->special = 0; Tag_FSet(&ld->tags, 0); memset(ld->args, 0, NUMLINEARGS*sizeof(*ld->args)); memset(ld->stringargs, 0x00, NUMLINESTRINGARGS*sizeof(*ld->stringargs)); ld->alpha = FRACUNIT; ld->executordelay = 0; ld->sidenum[0] = 0xffff; ld->sidenum[1] = 0xffff; TextmapParse(linesPos[i], i, ParseTextmapLinedefParameter); if (!ld->v1) I_Error("P_LoadTextmap: linedef %s has no v1 value set!\n", sizeu1(i)); if (!ld->v2) I_Error("P_LoadTextmap: linedef %s has no v2 value set!\n", sizeu1(i)); if (ld->sidenum[0] == 0xffff) I_Error("P_LoadTextmap: linedef %s has no sidefront value set!\n", sizeu1(i)); P_InitializeLinedef(ld); } for (i = 0, sd = sides; i < numsides; i++, sd++) { // Defaults. sd->textureoffset = 0; sd->rowoffset = 0; sd->toptexture = R_TextureNumForName("-"); sd->midtexture = R_TextureNumForName("-"); sd->bottomtexture = R_TextureNumForName("-"); sd->sector = NULL; sd->repeatcnt = 0; TextmapParse(sidesPos[i], i, ParseTextmapSidedefParameter); if (!sd->sector) I_Error("P_LoadTextmap: sidedef %s has no sector value set!\n", sizeu1(i)); P_InitializeSidedef(sd); } for (i = 0, mt = mapthings; i < nummapthings; i++, mt++) { // Defaults. mt->x = mt->y = 0; mt->angle = mt->pitch = mt->roll = 0; mt->type = 0; mt->options = 0; mt->z = 0; mt->extrainfo = 0; Tag_FSet(&mt->tags, 0); mt->scale = FRACUNIT; memset(mt->args, 0, NUMMAPTHINGARGS*sizeof(*mt->args)); memset(mt->stringargs, 0x00, NUMMAPTHINGSTRINGARGS*sizeof(*mt->stringargs)); mt->mobj = NULL; TextmapParse(mapthingsPos[i], i, ParseTextmapThingParameter); } } static void P_ProcessLinedefsAfterSidedefs(void) { size_t i = numlines; register line_t *ld = lines; for (; i--; ld++) { ld->frontsector = sides[ld->sidenum[0]].sector; //e6y: Can't be -1 here ld->backsector = ld->sidenum[1] != 0xffff ? sides[ld->sidenum[1]].sector : 0; switch (ld->special) { // Compile linedef 'text' from both sidedefs 'text' for appropriate specials. case 331: // Trigger linedef executor: Skin - Continuous case 332: // Trigger linedef executor: Skin - Each time case 333: // Trigger linedef executor: Skin - Once case 443: // Calls a named Lua function if (sides[ld->sidenum[0]].text) { size_t len = strlen(sides[ld->sidenum[0]].text) + 1; if (ld->sidenum[1] != 0xffff && sides[ld->sidenum[1]].text) len += strlen(sides[ld->sidenum[1]].text); ld->text = Z_Malloc(len, PU_LEVEL, NULL); M_Memcpy(ld->text, sides[ld->sidenum[0]].text, strlen(sides[ld->sidenum[0]].text) + 1); if (ld->sidenum[1] != 0xffff && sides[ld->sidenum[1]].text) M_Memcpy(ld->text + strlen(ld->text) + 1, sides[ld->sidenum[1]].text, strlen(sides[ld->sidenum[1]].text) + 1); } break; case 447: // Change colormap case 455: // Fade colormap if (udmf) break; if (ld->flags & ML_DONTPEGBOTTOM) // alternate alpha (by texture offsets) { extracolormap_t *exc = R_CopyColormap(sides[ld->sidenum[0]].colormap_data, false); INT16 alpha = max(min(sides[ld->sidenum[0]].textureoffset >> FRACBITS, 25), -25); INT16 fadealpha = max(min(sides[ld->sidenum[0]].rowoffset >> FRACBITS, 25), -25); // If alpha is negative, set "subtract alpha" flag and store absolute value if (alpha < 0) { alpha *= -1; ld->args[2] |= TMCF_SUBLIGHTA; } if (fadealpha < 0) { fadealpha *= -1; ld->args[2] |= TMCF_SUBFADEA; } exc->rgba = R_GetRgbaRGB(exc->rgba) + R_PutRgbaA(alpha); exc->fadergba = R_GetRgbaRGB(exc->fadergba) + R_PutRgbaA(fadealpha); if (!(sides[ld->sidenum[0]].colormap_data = R_GetColormapFromList(exc))) { exc->colormap = R_CreateLightTable(exc); R_AddColormapToList(exc); sides[ld->sidenum[0]].colormap_data = exc; } else Z_Free(exc); } break; } } } static boolean P_LoadMapData(const virtres_t *virt) { virtlump_t *virtvertexes = NULL, *virtsectors = NULL, *virtsidedefs = NULL, *virtlinedefs = NULL, *virtthings = NULL; // Count map data. if (udmf) // Count how many entries for each type we got in textmap. { virtlump_t *textmap = vres_Find(virt, "TEXTMAP"); if (!TextmapCount(textmap->data, textmap->size)) return false; } else { virtthings = vres_Find(virt, "THINGS"); virtvertexes = vres_Find(virt, "VERTEXES"); virtsectors = vres_Find(virt, "SECTORS"); virtsidedefs = vres_Find(virt, "SIDEDEFS"); virtlinedefs = vres_Find(virt, "LINEDEFS"); if (!virtthings) I_Error("THINGS lump not found"); if (!virtvertexes) I_Error("VERTEXES lump not found"); if (!virtsectors) I_Error("SECTORS lump not found"); if (!virtsidedefs) I_Error("SIDEDEFS lump not found"); if (!virtlinedefs) I_Error("LINEDEFS lump not found"); // Traditional doom map format just assumes the number of elements from the lump sizes. numvertexes = virtvertexes->size / sizeof (mapvertex_t); numsectors = virtsectors->size / sizeof (mapsector_t); numsides = virtsidedefs->size / sizeof (mapsidedef_t); numlines = virtlinedefs->size / sizeof (maplinedef_t); nummapthings = virtthings->size / (5 * sizeof (INT16)); } if (numvertexes <= 0) I_Error("Level has no vertices"); if (numsectors <= 0) I_Error("Level has no sectors"); if (numsides <= 0) I_Error("Level has no sidedefs"); if (numlines <= 0) I_Error("Level has no linedefs"); vertexes = Z_Calloc(numvertexes * sizeof (*vertexes), PU_LEVEL, NULL); sectors = Z_Calloc(numsectors * sizeof (*sectors), PU_LEVEL, NULL); sides = Z_Calloc(numsides * sizeof (*sides), PU_LEVEL, NULL); lines = Z_Calloc(numlines * sizeof (*lines), PU_LEVEL, NULL); mapthings = Z_Calloc(nummapthings * sizeof (*mapthings), PU_LEVEL, NULL); // Allocate a big chunk of memory as big as our MAXLEVELFLATS limit. //Fab : FIXME: allocate for whatever number of flats - 512 different flats per level should be plenty foundflats = calloc(MAXLEVELFLATS, sizeof (*foundflats)); if (foundflats == NULL) I_Error("Ran out of memory while loading sectors\n"); numlevelflats = 0; // Load map data. if (udmf) P_LoadTextmap(); else { P_LoadVertices(virtvertexes->data); P_LoadSectors(virtsectors->data); P_LoadLinedefs(virtlinedefs->data); P_LoadSidedefs(virtsidedefs->data); P_LoadThings(virtthings->data); } P_ProcessLinedefsAfterSidedefs(); R_ClearTextureNumCache(true); // set the sky flat num skyflatnum = P_AddLevelFlat(SKYFLATNAME, foundflats); // copy table for global usage levelflats = M_Memcpy(Z_Calloc(numlevelflats * sizeof (*levelflats), PU_LEVEL, NULL), foundflats, numlevelflats * sizeof (levelflat_t)); free(foundflats); // search for animated flats and set up P_SetupLevelFlatAnims(); return true; } static void P_InitializeSubsector(subsector_t *ss) { ss->sector = NULL; ss->validcount = 0; } static inline void P_LoadSubsectors(UINT8 *data) { mapsubsector_t *ms = (mapsubsector_t*)data; subsector_t *ss = subsectors; size_t i; for (i = 0; i < numsubsectors; i++, ss++, ms++) { ss->numlines = SHORT(ms->numsegs); ss->firstline = SHORT(ms->firstseg); P_InitializeSubsector(ss); } } static void P_LoadNodes(UINT8 *data) { UINT8 j, k; mapnode_t *mn = (mapnode_t*)data; node_t *no = nodes; size_t i; for (i = 0; i < numnodes; i++, no++, mn++) { no->x = SHORT(mn->x)<y = SHORT(mn->y)<dx = SHORT(mn->dx)<dy = SHORT(mn->dy)<children[j] = SHORT(mn->children[j]); for (k = 0; k < 4; k++) no->bbox[j][k] = SHORT(mn->bbox[j][k])<v2->x - seg->v1->x)>>1; INT64 dy = (seg->v2->y - seg->v1->y)>>1; return FixedHypot(dx, dy)<<1; } #ifdef HWRENDER /** Computes the length of a seg as a float. * This is needed for OpenGL. * * \param seg Seg to compute length for. * \return Length as a float. */ static inline float P_SegLengthFloat(seg_t *seg) { float dx, dy; // make a vector (start at origin) dx = FIXED_TO_FLOAT(seg->v2->x - seg->v1->x); dy = FIXED_TO_FLOAT(seg->v2->y - seg->v1->y); return (float)hypot(dx, dy); } #endif static void P_InitializeSeg(seg_t *seg) { if (seg->linedef) { UINT16 side = seg->linedef->sidenum[seg->side]; if (side == 0xffff) I_Error("P_InitializeSeg: Seg %s refers to side %d of linedef %s, which doesn't exist!\n", sizeu1((size_t)(seg - segs)), seg->side, sizeu1((size_t)(seg->linedef - lines))); seg->sidedef = &sides[side]; seg->frontsector = seg->sidedef->sector; seg->backsector = (seg->linedef->flags & ML_TWOSIDED) ? sides[seg->linedef->sidenum[seg->side ^ 1]].sector : NULL; } #ifdef HWRENDER seg->pv1 = seg->pv2 = NULL; //Hurdler: 04/12/2000: for now, only used in hardware mode seg->lightmaps = NULL; // list of static lightmap for this seg #endif seg->numlights = 0; seg->rlights = NULL; seg->polyseg = NULL; seg->dontrenderme = false; } static void P_LoadSegs(UINT8 *data) { mapseg_t *ms = (mapseg_t*)data; seg_t *seg = segs; size_t i; for (i = 0; i < numsegs; i++, seg++, ms++) { seg->v1 = &vertexes[SHORT(ms->v1)]; seg->v2 = &vertexes[SHORT(ms->v2)]; seg->side = SHORT(ms->side); seg->offset = (SHORT(ms->offset)) << FRACBITS; seg->angle = (SHORT(ms->angle)) << FRACBITS; seg->linedef = &lines[SHORT(ms->linedef)]; seg->length = P_SegLength(seg); #ifdef HWRENDER seg->flength = (rendermode == render_opengl) ? P_SegLengthFloat(seg) : 0; #endif seg->glseg = false; P_InitializeSeg(seg); } } typedef enum { NT_DOOM, NT_XNOD, NT_ZNOD, NT_XGLN, NT_ZGLN, NT_XGL2, NT_ZGL2, NT_XGL3, NT_ZGL3, NT_UNSUPPORTED, NUMNODETYPES } nodetype_t; // Find out the BSP format. static nodetype_t P_GetNodetype(const virtres_t *virt, UINT8 **nodedata) { boolean supported[NUMNODETYPES] = {0}; nodetype_t nodetype = NT_UNSUPPORTED; char signature[4 + 1]; if (udmf) { *nodedata = vres_Find(virt, "ZNODES")->data; supported[NT_XGLN] = supported[NT_XGL3] = true; } else { virtlump_t *virtsegs = vres_Find(virt, "SEGS"); virtlump_t *virtssectors; if (virtsegs && virtsegs->size) { *nodedata = vres_Find(virt, "NODES")->data; return NT_DOOM; // Traditional map format BSP tree. } virtssectors = vres_Find(virt, "SSECTORS"); if (virtssectors && virtssectors->size) { // Possibly GL nodes: NODES ignored, SSECTORS takes precedence as nodes lump, (It is confusing yeah) and has a signature. *nodedata = virtssectors->data; supported[NT_XGLN] = supported[NT_ZGLN] = supported[NT_XGL3] = true; } else { // Possibly ZDoom extended nodes: SSECTORS is empty, NODES has a signature. *nodedata = vres_Find(virt, "NODES")->data; supported[NT_XNOD] = supported[NT_ZNOD] = true; } } M_Memcpy(signature, *nodedata, 4); signature[4] = '\0'; (*nodedata) += 4; if (!strcmp(signature, "XNOD")) nodetype = NT_XNOD; else if (!strcmp(signature, "ZNOD")) nodetype = NT_ZNOD; else if (!strcmp(signature, "XGLN")) nodetype = NT_XGLN; else if (!strcmp(signature, "ZGLN")) nodetype = NT_ZGLN; else if (!strcmp(signature, "XGL3")) nodetype = NT_XGL3; return supported[nodetype] ? nodetype : NT_UNSUPPORTED; } // Extended node formats feature additional vertices; useful for OpenGL, but totally useless in gamelogic. static boolean P_LoadExtraVertices(UINT8 **data) { UINT32 origvrtx = READUINT32((*data)); UINT32 xtrvrtx = READUINT32((*data)); line_t* ld = lines; vertex_t *oldpos = vertexes; ssize_t offset; size_t i; if (numvertexes != origvrtx) // If native vertex count doesn't match node original vertex count, bail out (broken data?). { CONS_Alert(CONS_WARNING, "Vertex count in map data and nodes differ!\n"); return false; } if (!xtrvrtx) return true; // If extra vertexes were generated, reallocate the vertex array and fix the pointers. numvertexes += xtrvrtx; vertexes = Z_Realloc(vertexes, numvertexes*sizeof(*vertexes), PU_LEVEL, NULL); offset = (size_t)(vertexes - oldpos); for (i = 0, ld = lines; i < numlines; i++, ld++) { ld->v1 += offset; ld->v2 += offset; } // Read extra vertex data. for (i = origvrtx; i < numvertexes; i++) { vertexes[i].x = READFIXED((*data)); vertexes[i].y = READFIXED((*data)); } return true; } static boolean P_LoadExtendedSubsectorsAndSegs(UINT8 **data, nodetype_t nodetype) { size_t i, k; INT16 m; seg_t *seg; // Subsectors numsubsectors = READUINT32((*data)); subsectors = Z_Calloc(numsubsectors*sizeof(*subsectors), PU_LEVEL, NULL); for (i = 0; i < numsubsectors; i++) subsectors[i].numlines = READUINT32((*data)); // Segs numsegs = READUINT32((*data)); segs = Z_Calloc(numsegs*sizeof(*segs), PU_LEVEL, NULL); for (i = 0, k = 0; i < numsubsectors; i++) { subsectors[i].firstline = k; P_InitializeSubsector(&subsectors[i]); switch (nodetype) { case NT_XGLN: case NT_XGL3: for (m = 0; m < subsectors[i].numlines; m++, k++) { UINT32 vertexnum = READUINT32((*data)); UINT16 linenum; if (vertexnum >= numvertexes) I_Error("P_LoadExtendedSubsectorsAndSegs: Seg %s in subsector %d has invalid vertex %d!\n", sizeu1(k), m, vertexnum); segs[k - 1 + ((m == 0) ? subsectors[i].numlines : 0)].v2 = segs[k].v1 = &vertexes[vertexnum]; READUINT32((*data)); // partner, can be ignored by software renderer linenum = (nodetype == NT_XGL3) ? READUINT32((*data)) : READUINT16((*data)); if (linenum != 0xFFFF && linenum >= numlines) I_Error("P_LoadExtendedSubsectorsAndSegs: Seg %s in subsector %d has invalid linedef %d!\n", sizeu1(k), m, linenum); segs[k].glseg = (linenum == 0xFFFF); segs[k].linedef = (linenum == 0xFFFF) ? NULL : &lines[linenum]; segs[k].side = READUINT8((*data)); } break; case NT_XNOD: for (m = 0; m < subsectors[i].numlines; m++, k++) { UINT32 v1num = READUINT32((*data)); UINT32 v2num = READUINT32((*data)); UINT16 linenum = READUINT16((*data)); if (v1num >= numvertexes) I_Error("P_LoadExtendedSubsectorsAndSegs: Seg %s in subsector %d has invalid v1 %d!\n", sizeu1(k), m, v1num); if (v2num >= numvertexes) I_Error("P_LoadExtendedSubsectorsAndSegs: Seg %s in subsector %d has invalid v2 %d!\n", sizeu1(k), m, v2num); if (linenum >= numlines) I_Error("P_LoadExtendedSubsectorsAndSegs: Seg %s in subsector %d has invalid linedef %d!\n", sizeu1(k), m, linenum); segs[k].v1 = &vertexes[v1num]; segs[k].v2 = &vertexes[v2num]; segs[k].linedef = &lines[linenum]; segs[k].side = READUINT8((*data)); segs[k].glseg = false; } break; default: return false; } } for (i = 0, seg = segs; i < numsegs; i++, seg++) { vertex_t *v1 = seg->v1; vertex_t *v2 = seg->v2; P_InitializeSeg(seg); seg->angle = R_PointToAngle2(v1->x, v1->y, v2->x, v2->y); if (seg->linedef) segs[i].offset = FixedHypot(v1->x - seg->linedef->v1->x, v1->y - seg->linedef->v1->y); seg->length = P_SegLength(seg); #ifdef HWRENDER seg->flength = (rendermode == render_opengl) ? P_SegLengthFloat(seg) : 0; #endif } return true; } // Auxiliary function: Shrink node ID from 32-bit to 16-bit. static UINT16 ShrinkNodeID(UINT32 x) { UINT16 mask = (x >> 16) & 0xC000; UINT16 result = x; return result | mask; } static void P_LoadExtendedNodes(UINT8 **data, nodetype_t nodetype) { node_t *mn; size_t i, j, k; boolean xgl3 = (nodetype == NT_XGL3); numnodes = READINT32((*data)); nodes = Z_Calloc(numnodes*sizeof(*nodes), PU_LEVEL, NULL); for (i = 0, mn = nodes; i < numnodes; i++, mn++) { // Splitter mn->x = xgl3 ? READINT32((*data)) : (READINT16((*data)) << FRACBITS); mn->y = xgl3 ? READINT32((*data)) : (READINT16((*data)) << FRACBITS); mn->dx = xgl3 ? READINT32((*data)) : (READINT16((*data)) << FRACBITS); mn->dy = xgl3 ? READINT32((*data)) : (READINT16((*data)) << FRACBITS); // Bounding boxes for (j = 0; j < 2; j++) for (k = 0; k < 4; k++) mn->bbox[j][k] = READINT16((*data)) << FRACBITS; //Children mn->children[0] = ShrinkNodeID(READUINT32((*data))); /// \todo Use UINT32 for node children in a future, instead? mn->children[1] = ShrinkNodeID(READUINT32((*data))); } } static void P_LoadMapBSP(const virtres_t *virt) { UINT8 *nodedata = NULL; nodetype_t nodetype = P_GetNodetype(virt, &nodedata); switch (nodetype) { case NT_DOOM: { virtlump_t *virtssectors = vres_Find(virt, "SSECTORS"); virtlump_t* virtnodes = vres_Find(virt, "NODES"); virtlump_t *virtsegs = vres_Find(virt, "SEGS"); numsubsectors = virtssectors->size / sizeof(mapsubsector_t); numnodes = virtnodes->size / sizeof(mapnode_t); numsegs = virtsegs->size / sizeof(mapseg_t); if (numsubsectors <= 0) I_Error("Level has no subsectors (did you forget to run it through a nodesbuilder?)"); if (numnodes <= 0) I_Error("Level has no nodes (does your map have at least 2 sectors?)"); if (numsegs <= 0) I_Error("Level has no segs"); subsectors = Z_Calloc(numsubsectors * sizeof(*subsectors), PU_LEVEL, NULL); nodes = Z_Calloc(numnodes * sizeof(*nodes), PU_LEVEL, NULL); segs = Z_Calloc(numsegs * sizeof(*segs), PU_LEVEL, NULL); P_LoadSubsectors(virtssectors->data); P_LoadNodes(virtnodes->data); P_LoadSegs(virtsegs->data); break; } case NT_XNOD: case NT_XGLN: case NT_XGL3: if (!P_LoadExtraVertices(&nodedata)) return; if (!P_LoadExtendedSubsectorsAndSegs(&nodedata, nodetype)) return; P_LoadExtendedNodes(&nodedata, nodetype); break; default: CONS_Alert(CONS_WARNING, "Unsupported BSP format detected.\n"); return; } return; } // Split from P_LoadBlockMap for convenience // -- Monster Iestyn 08/01/18 static void P_ReadBlockMapLump(INT16 *wadblockmaplump, size_t count) { size_t i; blockmaplump = Z_Calloc(sizeof (*blockmaplump) * count, PU_LEVEL, NULL); // killough 3/1/98: Expand wad blockmap into larger internal one, // by treating all offsets except -1 as unsigned and zero-extending // them. This potentially doubles the size of blockmaps allowed, // because Doom originally considered the offsets as always signed. blockmaplump[0] = SHORT(wadblockmaplump[0]); blockmaplump[1] = SHORT(wadblockmaplump[1]); blockmaplump[2] = (INT32)(SHORT(wadblockmaplump[2])) & 0xffff; blockmaplump[3] = (INT32)(SHORT(wadblockmaplump[3])) & 0xffff; for (i = 4; i < count; i++) { INT16 t = SHORT(wadblockmaplump[i]); // killough 3/1/98 blockmaplump[i] = t == -1 ? (INT32)-1 : (INT32) t & 0xffff; } } // This needs to be a separate function // because making both the WAD and PK3 loading code use // the same functions is trickier than it looks for blockmap // -- Monster Iestyn 09/01/18 static boolean P_LoadBlockMap(UINT8 *data, size_t count) { if (!count || count >= 0x20000) return false; //CONS_Printf("Reading blockmap lump for pk3...\n"); // no need to malloc anything, assume the data is uncompressed for now count /= 2; P_ReadBlockMapLump((INT16 *)data, count); bmaporgx = blockmaplump[0]< bbox[BOXRIGHT] && cx2 > bbox[BOXRIGHT]) return false; if (cy1 < bbox[BOXBOTTOM] && cy2 < bbox[BOXBOTTOM]) return false; if (cy1 > bbox[BOXTOP] && cy2 > bbox[BOXTOP]) return false; // Rats, guess we gotta check // if the line intersects // any sides of the block. cx1 <<= FRACBITS; cy1 <<= FRACBITS; cx2 <<= FRACBITS; cy2 <<= FRACBITS; bbox[BOXTOP] <<= FRACBITS; bbox[BOXBOTTOM] <<= FRACBITS; bbox[BOXLEFT] <<= FRACBITS; bbox[BOXRIGHT] <<= FRACBITS; testline.v1 = &vtest; testline.v1->x = cx1; testline.v1->y = cy1; testline.dx = cx2 - cx1; testline.dy = cy2 - cy1; if ((testline.dx > 0) ^ (testline.dy > 0)) testline.slopetype = ST_NEGATIVE; else testline.slopetype = ST_POSITIVE; return P_BoxOnLineSide(bbox, &testline) == -1; } // // killough 10/98: // // Rewritten to use faster algorithm. // // SSN Edit: Killough's wasn't accurate enough, sometimes excluding // blocks that the line did in fact exist in, so now we use // a fail-safe approach that puts a 'box' around each line. // // Please note: This section of code is not interchangable with TeamTNT's // code which attempts to fix the same problem. static void P_CreateBlockMap(void) { register size_t i; fixed_t minx = INT32_MAX, miny = INT32_MAX, maxx = INT32_MIN, maxy = INT32_MIN; // First find limits of map for (i = 0; i < numvertexes; i++) { if (vertexes[i].x>>FRACBITS < minx) minx = vertexes[i].x>>FRACBITS; else if (vertexes[i].x>>FRACBITS > maxx) maxx = vertexes[i].x>>FRACBITS; if (vertexes[i].y>>FRACBITS < miny) miny = vertexes[i].y>>FRACBITS; else if (vertexes[i].y>>FRACBITS > maxy) maxy = vertexes[i].y>>FRACBITS; } // Save blockmap parameters bmaporgx = minx << FRACBITS; bmaporgy = miny << FRACBITS; bmapwidth = ((maxx-minx) >> MAPBTOFRAC) + 1; bmapheight = ((maxy-miny) >> MAPBTOFRAC)+ 1; // Compute blockmap, which is stored as a 2d array of variable-sized lists. // // Pseudocode: // // For each linedef: // // Map the starting and ending vertices to blocks. // // Starting in the starting vertex's block, do: // // Add linedef to current block's list, dynamically resizing it. // // If current block is the same as the ending vertex's block, exit loop. // // Move to an adjacent block by moving towards the ending block in // either the x or y direction, to the block which contains the linedef. { typedef struct { INT32 n, nalloc; INT32 *list; } bmap_t; // blocklist structure size_t tot = bmapwidth * bmapheight; // size of blockmap bmap_t *bmap = calloc(tot, sizeof (*bmap)); // array of blocklists boolean straight; if (bmap == NULL) I_Error("%s: Out of memory making blockmap", "P_CreateBlockMap"); for (i = 0; i < numlines; i++) { // starting coordinates INT32 x = (lines[i].v1->x>>FRACBITS) - minx; INT32 y = (lines[i].v1->y>>FRACBITS) - miny; INT32 bxstart, bxend, bystart, byend, v2x, v2y, curblockx, curblocky; v2x = lines[i].v2->x>>FRACBITS; v2y = lines[i].v2->y>>FRACBITS; // Draw a "box" around the line. bxstart = (x >> MAPBTOFRAC); bystart = (y >> MAPBTOFRAC); v2x -= minx; v2y -= miny; bxend = ((v2x) >> MAPBTOFRAC); byend = ((v2y) >> MAPBTOFRAC); if (bxend < bxstart) { INT32 temp = bxstart; bxstart = bxend; bxend = temp; } if (byend < bystart) { INT32 temp = bystart; bystart = byend; byend = temp; } // Catch straight lines // This fixes the error where straight lines // directly on a blockmap boundary would not // be included in the proper blocks. if (lines[i].v1->y == lines[i].v2->y) { straight = true; bystart--; byend++; } else if (lines[i].v1->x == lines[i].v2->x) { straight = true; bxstart--; bxend++; } else straight = false; // Now we simply iterate block-by-block until we reach the end block. for (curblockx = bxstart; curblockx <= bxend; curblockx++) for (curblocky = bystart; curblocky <= byend; curblocky++) { size_t b = curblocky * bmapwidth + curblockx; if (b >= tot) continue; if (!straight && !(LineInBlock((fixed_t)x, (fixed_t)y, (fixed_t)v2x, (fixed_t)v2y, (fixed_t)(curblockx << MAPBTOFRAC), (fixed_t)(curblocky << MAPBTOFRAC)))) continue; // Increase size of allocated list if necessary if (bmap[b].n >= bmap[b].nalloc) { // Graue 02-29-2004: make code more readable, don't realloc a null pointer // (because it crashes for me, and because the comp.lang.c FAQ says so) if (bmap[b].nalloc == 0) bmap[b].nalloc = 8; else bmap[b].nalloc *= 2; bmap[b].list = Z_Realloc(bmap[b].list, bmap[b].nalloc * sizeof (*bmap->list), PU_CACHE, &bmap[b].list); if (!bmap[b].list) I_Error("Out of Memory in P_CreateBlockMap"); } // Add linedef to end of list bmap[b].list[bmap[b].n++] = (INT32)i; } } // Compute the total size of the blockmap. // // Compression of empty blocks is performed by reserving two offset words // at tot and tot+1. // // 4 words, unused if this routine is called, are reserved at the start. { size_t count = tot + 6; // we need at least 1 word per block, plus reserved's for (i = 0; i < tot; i++) if (bmap[i].n) count += bmap[i].n + 2; // 1 header word + 1 trailer word + blocklist // Allocate blockmap lump with computed count blockmaplump = Z_Calloc(sizeof (*blockmaplump) * count, PU_LEVEL, NULL); } // Now compress the blockmap. { size_t ndx = tot += 4; // Advance index to start of linedef lists bmap_t *bp = bmap; // Start of uncompressed blockmap blockmaplump[ndx++] = 0; // Store an empty blockmap list at start blockmaplump[ndx++] = -1; // (Used for compression) for (i = 4; i < tot; i++, bp++) if (bp->n) // Non-empty blocklist { blockmaplump[blockmaplump[i] = (INT32)(ndx++)] = 0; // Store index & header do blockmaplump[ndx++] = bp->list[--bp->n]; // Copy linedef list while (bp->n); blockmaplump[ndx++] = -1; // Store trailer Z_Free(bp->list); // Free linedef list } else // Empty blocklist: point to reserved empty blocklist blockmaplump[i] = (INT32)tot; free(bmap); // Free uncompressed blockmap } } { size_t count = sizeof (*blocklinks) * bmapwidth * bmapheight; // clear out mobj chains (copied from from P_LoadBlockMap) blocklinks = Z_Calloc(count, PU_LEVEL, NULL); blockmap = blockmaplump + 4; // haleyjd 2/22/06: setup polyobject blockmap count = sizeof(*polyblocklinks) * bmapwidth * bmapheight; polyblocklinks = Z_Calloc(count, PU_LEVEL, NULL); } } // PK3 version // -- Monster Iestyn 09/01/18 static void P_LoadReject(UINT8 *data, size_t count) { if (!count) // zero length, someone probably used ZDBSP { rejectmatrix = NULL; CONS_Debug(DBG_SETUP, "P_LoadReject: REJECT lump has size 0, will not be loaded\n"); } else { rejectmatrix = Z_Malloc(count, PU_LEVEL, NULL); // allocate memory for the reject matrix M_Memcpy(rejectmatrix, data, count); // copy the data into it } } static void P_LoadMapLUT(const virtres_t *virt) { virtlump_t* virtblockmap = vres_Find(virt, "BLOCKMAP"); virtlump_t* virtreject = vres_Find(virt, "REJECT"); // Lookup tables if (virtreject) P_LoadReject(virtreject->data, virtreject->size); else rejectmatrix = NULL; if (!(virtblockmap && P_LoadBlockMap(virtblockmap->data, virtblockmap->size))) P_CreateBlockMap(); } // // P_LinkMapData // Builds sector line lists and subsector sector numbers. // Finds block bounding boxes for sectors. // static void P_LinkMapData(void) { size_t i, j; line_t *li; sector_t *sector; subsector_t *ss = subsectors; size_t sidei; seg_t *seg; fixed_t bbox[4]; // look up sector number for each subsector for (i = 0; i < numsubsectors; i++, ss++) { if (ss->firstline >= numsegs) CorruptMapError(va("P_LinkMapData: ss->firstline invalid " "(subsector %s, firstline refers to %d of %s)", sizeu1(i), ss->firstline, sizeu2(numsegs))); seg = &segs[ss->firstline]; sidei = (size_t)(seg->sidedef - sides); if (!seg->sidedef) CorruptMapError(va("P_LinkMapData: seg->sidedef is NULL " "(subsector %s, firstline is %d)", sizeu1(i), ss->firstline)); if (seg->sidedef - sides < 0 || seg->sidedef - sides > (UINT16)numsides) CorruptMapError(va("P_LinkMapData: seg->sidedef refers to sidedef %s of %s " "(subsector %s, firstline is %d)", sizeu1(sidei), sizeu2(numsides), sizeu3(i), ss->firstline)); if (!seg->sidedef->sector) CorruptMapError(va("P_LinkMapData: seg->sidedef->sector is NULL " "(subsector %s, firstline is %d, sidedef is %s)", sizeu1(i), ss->firstline, sizeu1(sidei))); ss->sector = seg->sidedef->sector; } // count number of lines in each sector for (i = 0, li = lines; i < numlines; i++, li++) { li->frontsector->linecount++; if (li->backsector && li->backsector != li->frontsector) li->backsector->linecount++; } // allocate linebuffers for each sector for (i = 0, sector = sectors; i < numsectors; i++, sector++) { if (sector->linecount == 0) // no lines found? { sector->lines = NULL; CONS_Debug(DBG_SETUP, "P_LinkMapData: sector %s has no lines\n", sizeu1(i)); } else { sector->lines = Z_Calloc(sector->linecount * sizeof(line_t*), PU_LEVEL, NULL); // zero the count, since we'll later use this to track how many we've recorded sector->linecount = 0; } } // iterate through lines, assigning them to sectors' linebuffers, // and recalculate the counts in the process for (i = 0, li = lines; i < numlines; i++, li++) { li->frontsector->lines[li->frontsector->linecount++] = li; if (li->backsector && li->backsector != li->frontsector) li->backsector->lines[li->backsector->linecount++] = li; } // set soundorg's position for each sector for (i = 0, sector = sectors; i < numsectors; i++, sector++) { M_ClearBox(bbox); if (sector->linecount != 0) { for (j = 0; j < sector->linecount; j++) { li = sector->lines[j]; M_AddToBox(bbox, li->v1->x, li->v1->y); M_AddToBox(bbox, li->v2->x, li->v2->y); } } // set the degenmobj_t to the middle of the bounding box sector->soundorg.x = (((bbox[BOXRIGHT]>>FRACBITS) + (bbox[BOXLEFT]>>FRACBITS))/2)<soundorg.y = (((bbox[BOXTOP]>>FRACBITS) + (bbox[BOXBOTTOM]>>FRACBITS))/2)<soundorg.z = sector->floorheight; // default to sector's floor height } } // For maps in binary format, add multi-tags from linedef specials. This must be done // before any linedef specials have been processed. static void P_AddBinaryMapTagsFromLine(sector_t *sector, line_t *line) { Tag_Add(§or->tags, Tag_FGet(&line->tags)); if (line->flags & ML_EFFECT6) { if (sides[line->sidenum[0]].textureoffset) Tag_Add(§or->tags, (INT32)sides[line->sidenum[0]].textureoffset / FRACUNIT); if (sides[line->sidenum[0]].rowoffset) Tag_Add(§or->tags, (INT32)sides[line->sidenum[0]].rowoffset / FRACUNIT); } if (line->flags & ML_TFERLINE) { if (sides[line->sidenum[1]].textureoffset) Tag_Add(§or->tags, (INT32)sides[line->sidenum[1]].textureoffset / FRACUNIT); if (sides[line->sidenum[1]].rowoffset) Tag_Add(§or->tags, (INT32)sides[line->sidenum[1]].rowoffset / FRACUNIT); } } static void P_AddBinaryMapTags(void) { size_t i; for (i = 0; i < numlines; i++) { // 96: Apply Tag to Tagged Sectors // 97: Apply Tag to Front Sector // 98: Apply Tag to Back Sector // 99: Apply Tag to Front and Back Sectors if (lines[i].special == 96) { size_t j; mtag_t tag = Tag_FGet(&lines[i].frontsector->tags); mtag_t target_tag = Tag_FGet(&lines[i].tags); mtag_t offset_tags[4]; memset(offset_tags, 0, sizeof(mtag_t)*4); if (lines[i].flags & ML_EFFECT6) { offset_tags[0] = (INT32)sides[lines[i].sidenum[0]].textureoffset / FRACUNIT; offset_tags[1] = (INT32)sides[lines[i].sidenum[0]].rowoffset / FRACUNIT; } if (lines[i].flags & ML_TFERLINE) { offset_tags[2] = (INT32)sides[lines[i].sidenum[1]].textureoffset / FRACUNIT; offset_tags[3] = (INT32)sides[lines[i].sidenum[1]].rowoffset / FRACUNIT; } for (j = 0; j < numsectors; j++) { boolean matches_target_tag = target_tag && Tag_Find(§ors[j].tags, target_tag); size_t k; for (k = 0; k < 4; k++) { if (lines[i].flags & ML_EFFECT5) { if (matches_target_tag || (offset_tags[k] && Tag_Find(§ors[j].tags, offset_tags[k]))) { Tag_Add(§ors[j].tags, tag); break; } } else if (matches_target_tag) { if (k == 0) Tag_Add(§ors[j].tags, tag); if (offset_tags[k]) Tag_Add(§ors[j].tags, offset_tags[k]); } } } } else { if (lines[i].special == 97 || lines[i].special == 99) P_AddBinaryMapTagsFromLine(lines[i].frontsector, &lines[i]); if (lines[i].special == 98 || lines[i].special == 99) P_AddBinaryMapTagsFromLine(lines[i].backsector, &lines[i]); } } for (i = 0; i < nummapthings; i++) { switch (mapthings[i].type) { case 291: case 750: case 760: case 761: case 762: Tag_FSet(&mapthings[i].tags, mapthings[i].angle); break; case 780: Tag_FSet(&mapthings[i].tags, mapthings[i].extrainfo); break; default: break; } } } //For maps in binary format, converts setup of specials to UDMF format. static void P_ConvertBinaryMap(void) { size_t i; for (i = 0; i < numlines; i++) { mtag_t tag = Tag_FGet(&lines[i].tags); switch (lines[i].special) { case 20: //PolyObject first line { INT32 check = -1; INT32 paramline = -1; TAG_ITER_LINES(tag, check) { if (lines[check].special == 22) { paramline = check; break; } } //PolyObject ID lines[i].args[0] = tag; //Default: Invisible planes lines[i].args[3] |= TMPF_INVISIBLEPLANES; //Linedef executor tag lines[i].args[4] = 32000 + lines[i].args[0]; if (paramline == -1) break; // no extra settings to apply, let's leave it //Parent ID lines[i].args[1] = lines[paramline].frontsector->special; //Translucency lines[i].args[2] = (lines[paramline].flags & ML_DONTPEGTOP) ? (sides[lines[paramline].sidenum[0]].textureoffset >> FRACBITS) : ((lines[paramline].frontsector->floorheight >> FRACBITS) / 100); //Flags if (lines[paramline].flags & ML_EFFECT1) lines[i].args[3] |= TMPF_NOINSIDES; if (lines[paramline].flags & ML_EFFECT2) lines[i].args[3] |= TMPF_INTANGIBLE; if (lines[paramline].flags & ML_EFFECT3) lines[i].args[3] |= TMPF_PUSHABLESTOP; if (lines[paramline].flags & ML_EFFECT4) lines[i].args[3] &= ~TMPF_INVISIBLEPLANES; /*if (lines[paramline].flags & ML_EFFECT5) lines[i].args[3] |= TMPF_DONTCLIPPLANES;*/ if (lines[paramline].flags & ML_EFFECT6) lines[i].args[3] |= TMPF_SPLAT; if (lines[paramline].flags & ML_NOCLIMB) lines[i].args[3] |= TMPF_EXECUTOR; break; } case 30: //Polyobject - waving flag lines[i].args[0] = tag; lines[i].args[1] = P_AproxDistance(lines[i].dx, lines[i].dy) >> FRACBITS; lines[i].args[2] = sides[lines[i].sidenum[0]].textureoffset >> FRACBITS; break; case 31: //Polyobject - displacement by front sector lines[i].args[0] = tag; lines[i].args[1] = R_PointToDist2(lines[i].v2->x, lines[i].v2->y, lines[i].v1->x, lines[i].v1->y) >> FRACBITS; break; case 32: //Polyobject - angular displacement by front sector lines[i].args[0] = tag; lines[i].args[1] = sides[lines[i].sidenum[0]].textureoffset ? sides[lines[i].sidenum[0]].textureoffset >> FRACBITS : 128; lines[i].args[2] = sides[lines[i].sidenum[0]].rowoffset ? sides[lines[i].sidenum[0]].rowoffset >> FRACBITS : 90; if (lines[i].flags & ML_NOCLIMB) lines[i].args[3] |= TMPR_DONTROTATEOTHERS; else if (lines[i].flags & ML_EFFECT4) lines[i].args[3] |= TMPR_ROTATEPLAYERS; break; case 50: //Instantly lower floor on level load case 51: //Instantly raise ceiling on level load lines[i].args[0] = tag; break; case 52: //Continuously falling sector lines[i].args[0] = P_AproxDistance(lines[i].dx, lines[i].dy) >> FRACBITS; lines[i].args[1] = !!(lines[i].flags & ML_NOCLIMB); break; case 53: //Continuous floor/ceiling mover case 54: //Continuous floor mover case 55: //Continuous ceiling mover lines[i].args[0] = tag; lines[i].args[1] = (lines[i].special == 53) ? TMP_BOTH : lines[i].special - 54; lines[i].args[2] = P_AproxDistance(lines[i].dx, lines[i].dy) >> FRACBITS; lines[i].args[3] = lines[i].args[2]; lines[i].args[4] = sides[lines[i].sidenum[0]].rowoffset >> FRACBITS; lines[i].args[5] = sides[lines[i].sidenum[0]].textureoffset >> FRACBITS; lines[i].special = 53; break; case 56: //Continuous two-speed floor/ceiling mover case 57: //Continuous two-speed floor mover case 58: //Continuous two-speed ceiling mover lines[i].args[0] = tag; lines[i].args[1] = (lines[i].special == 56) ? TMP_BOTH : lines[i].special - 57; lines[i].args[2] = abs(lines[i].dx) >> FRACBITS; lines[i].args[3] = abs(lines[i].dy) >> FRACBITS; lines[i].args[4] = sides[lines[i].sidenum[0]].rowoffset >> FRACBITS; lines[i].args[5] = sides[lines[i].sidenum[0]].textureoffset >> FRACBITS; lines[i].special = 56; break; case 59: //Activate moving platform case 60: //Activate moving platform (adjustable speed) lines[i].args[0] = tag; lines[i].args[1] = (lines[i].special == 60) ? P_AproxDistance(lines[i].dx, lines[i].dy) >> FRACBITS : 8; lines[i].args[2] = sides[lines[i].sidenum[0]].rowoffset >> FRACBITS; lines[i].args[3] = sides[lines[i].sidenum[0]].textureoffset >> FRACBITS; lines[i].args[4] = (lines[i].flags & ML_NOCLIMB) ? 1 : 0; lines[i].special = 60; break; case 61: //Crusher (Ceiling to floor) case 62: //Crusher (Floor to ceiling) lines[i].args[0] = tag; lines[i].args[1] = lines[i].special - 61; if (lines[i].flags & ML_EFFECT4) { lines[i].args[2] = abs(lines[i].dx) >> FRACBITS; lines[i].args[3] = lines[i].args[2]; } else { lines[i].args[2] = R_PointToDist2(lines[i].v2->x, lines[i].v2->y, lines[i].v1->x, lines[i].v1->y) >> (FRACBITS + 1); lines[i].args[3] = lines[i].args[2] / 4; } lines[i].special = 61; break; case 66: //Move floor by displacement case 67: //Move ceiling by displacement case 68: //Move floor and ceiling by displacement lines[i].args[0] = tag; lines[i].args[1] = lines[i].special - 66; lines[i].args[2] = P_AproxDistance(lines[i].dx, lines[i].dy) >> FRACBITS; lines[i].special = 66; break; case 76: //Make FOF bouncy lines[i].args[0] = tag; lines[i].args[1] = P_AproxDistance(lines[i].dx, lines[i].dy) >> FRACBITS; if (lines[i].flags & ML_BOUNCY) lines[i].args[2] = 1; break; case 100: //FOF: solid, opaque, shadowcasting case 101: //FOF: solid, opaque, non-shadowcasting case 102: //FOF: solid, translucent case 103: //FOF: solid, sides only case 104: //FOF: solid, no sides case 105: //FOF: solid, invisible lines[i].args[0] = tag; //Alpha if (lines[i].special == 102) { if (lines[i].flags & ML_NOCLIMB) lines[i].args[2] |= TMFA_INSIDES; if (sides[lines[i].sidenum[0]].toptexture > 0) lines[i].args[1] = sides[lines[i].sidenum[0]].toptexture; else lines[i].args[1] = 128; } else lines[i].args[1] = 255; //Appearance if (lines[i].special == 105) lines[i].args[2] = TMFA_NOPLANES|TMFA_NOSIDES; else if (lines[i].special == 104) lines[i].args[2] = TMFA_NOSIDES; else if (lines[i].special == 103) lines[i].args[2] = TMFA_NOPLANES; if (lines[i].special != 100 && (lines[i].special != 104 || !(lines[i].flags & ML_NOCLIMB))) lines[i].args[2] |= TMFA_NOSHADE; if (lines[i].flags & ML_EFFECT6) lines[i].args[2] |= TMFA_SPLAT; //Tangibility if (lines[i].flags & ML_EFFECT1) lines[i].args[3] |= TMFT_DONTBLOCKOTHERS; if (lines[i].flags & ML_EFFECT2) lines[i].args[3] |= TMFT_DONTBLOCKPLAYER; lines[i].special = 100; break; case 120: //FOF: water, opaque case 121: //FOF: water, translucent case 122: //FOF: water, opaque, no sides case 123: //FOF: water, translucent, no sides case 124: //FOF: goo water, translucent case 125: //FOF: goo water, translucent, no sides lines[i].args[0] = tag; //Alpha if (lines[i].special == 120 || lines[i].special == 122) lines[i].args[1] = 255; else { if (sides[lines[i].sidenum[0]].toptexture > 0) lines[i].args[1] = sides[lines[i].sidenum[0]].toptexture; else lines[i].args[1] = 128; } //No sides? if (lines[i].special == 122 || lines[i].special == 123 || lines[i].special == 125) lines[i].args[2] |= TMFW_NOSIDES; //Flags if (lines[i].flags & ML_NOCLIMB) lines[i].args[2] |= TMFW_DOUBLESHADOW; if (lines[i].flags & ML_EFFECT4) lines[i].args[2] |= TMFW_COLORMAPONLY; if (!(lines[i].flags & ML_EFFECT5)) lines[i].args[2] |= TMFW_NORIPPLE; //Goo? if (lines[i].special >= 124) lines[i].args[2] |= TMFW_GOOWATER; //Splat rendering? if (lines[i].flags & ML_EFFECT6) lines[i].args[2] |= TMFW_SPLAT; lines[i].special = 120; break; case 140: //FOF: intangible from bottom, opaque case 141: //FOF: intangible from bottom, translucent case 142: //FOF: intangible from bottom, translucent, no sides case 143: //FOF: intangible from top, opaque case 144: //FOF: intangible from top, translucent case 145: //FOF: intangible from top, translucent, no sides case 146: //FOF: only tangible from sides lines[i].args[0] = tag; //Alpha if (lines[i].special == 141 || lines[i].special == 142 || lines[i].special == 144 || lines[i].special == 145) { if (lines[i].flags & ML_NOCLIMB) lines[i].args[2] |= TMFA_INSIDES; if (sides[lines[i].sidenum[0]].toptexture > 0) lines[i].args[1] = sides[lines[i].sidenum[0]].toptexture; else lines[i].args[1] = 128; } else lines[i].args[1] = 255; //Appearance if (lines[i].special == 142 || lines[i].special == 145) lines[i].args[2] = TMFA_NOSIDES; else if (lines[i].special == 146) lines[i].args[2] = TMFA_NOPLANES; if (lines[i].special != 146 && (lines[i].flags & ML_NOCLIMB)) lines[i].args[2] |= TMFA_NOSHADE; if (lines[i].flags & ML_EFFECT6) lines[i].args[2] |= TMFA_SPLAT; //Tangibility if (lines[i].special <= 142) lines[i].args[3] |= TMFT_INTANGIBLEBOTTOM; else if (lines[i].special <= 145) lines[i].args[3] |= TMFT_INTANGIBLETOP; else lines[i].args[3] |= TMFT_INTANGIBLEBOTTOM|TMFT_INTANGIBLETOP; if (lines[i].flags & ML_EFFECT1) lines[i].args[3] |= TMFT_DONTBLOCKOTHERS; if (lines[i].flags & ML_EFFECT2) lines[i].args[3] |= TMFT_DONTBLOCKPLAYER; lines[i].special = 100; break; case 150: //FOF: Air bobbing case 151: //FOF: Air bobbing (adjustable) case 152: //FOF: Reverse air bobbing (adjustable) case 153: //FOF: Dynamically sinking platform lines[i].args[0] = tag; lines[i].args[1] = (lines[i].special == 150) ? 16 : (P_AproxDistance(lines[i].dx, lines[i].dy) >> FRACBITS); //Flags if (lines[i].special == 152) lines[i].args[2] |= TMFB_REVERSE; if (lines[i].flags & ML_NOCLIMB) lines[i].args[2] |= TMFB_SPINDASH; if (lines[i].special == 153) lines[i].args[2] |= TMFB_DYNAMIC; lines[i].special = 150; break; case 160: //FOF: Water bobbing lines[i].args[0] = tag; break; case 170: //FOF: Crumbling, respawn case 171: //FOF: Crumbling, no respawn case 172: //FOF: Crumbling, respawn, intangible from bottom case 173: //FOF: Crumbling, no respawn, intangible from bottom case 174: //FOF: Crumbling, respawn, intangible from bottom, translucent case 175: //FOF: Crumbling, no respawn, intangible from bottom, translucent case 176: //FOF: Crumbling, respawn, floating, bobbing case 177: //FOF: Crumbling, no respawn, floating, bobbing case 178: //FOF: Crumbling, respawn, floating case 179: //FOF: Crumbling, no respawn, floating case 180: //FOF: Crumbling, respawn, air bobbing lines[i].args[0] = tag; //Alpha if (lines[i].special >= 174 && lines[i].special <= 175) { if (sides[lines[i].sidenum[0]].toptexture > 0) lines[i].args[1] = sides[lines[i].sidenum[0]].toptexture; else lines[i].args[1] = 128; } else lines[i].args[1] = 255; if (lines[i].special >= 172 && lines[i].special <= 175) { lines[i].args[2] |= TMFT_INTANGIBLEBOTTOM; if (lines[i].flags & ML_NOCLIMB) lines[i].args[3] |= TMFC_NOSHADE; } if (lines[i].special % 2 == 1) lines[i].args[3] |= TMFC_NORETURN; if (lines[i].special == 176 || lines[i].special == 177 || lines[i].special == 180) lines[i].args[3] |= TMFC_AIRBOB; if (lines[i].special >= 176 && lines[i].special <= 179) lines[i].args[3] |= TMFC_FLOATBOB; if (lines[i].flags & ML_EFFECT6) lines[i].args[3] |= TMFC_SPLAT; if (lines[i].flags & ML_EFFECT1) lines[i].args[2] |= TMFT_DONTBLOCKOTHERS; if (lines[i].flags & ML_EFFECT2) lines[i].args[2] |= TMFT_DONTBLOCKPLAYER; lines[i].special = 170; break; case 190: // FOF: Rising, solid, opaque, shadowcasting case 191: // FOF: Rising, solid, opaque, non-shadowcasting case 192: // FOF: Rising, solid, translucent case 193: // FOF: Rising, solid, invisible case 194: // FOF: Rising, intangible from bottom, opaque case 195: // FOF: Rising, intangible from bottom, translucent lines[i].args[0] = tag; //Translucency if (lines[i].special == 192 || lines[i].special == 195) { if (sides[lines[i].sidenum[0]].toptexture > 0) lines[i].args[1] = sides[lines[i].sidenum[0]].toptexture; else lines[i].args[1] = 128; } else lines[i].args[1] = 255; //Appearance if (lines[i].special == 193) lines[i].args[2] = TMFA_NOPLANES|TMFA_NOSIDES; if (lines[i].special >= 194) lines[i].args[2] = TMFA_INSIDES; if (lines[i].special != 190 && (lines[i].special <= 193 || lines[i].flags & ML_NOCLIMB)) lines[i].args[2] |= TMFA_NOSHADE; if (lines[i].flags & ML_EFFECT6) lines[i].args[2] |= TMFA_SPLAT; //Tangibility if (lines[i].flags & ML_EFFECT1) lines[i].args[3] |= TMFT_DONTBLOCKOTHERS; if (lines[i].flags & ML_EFFECT2) lines[i].args[3] |= TMFT_DONTBLOCKPLAYER; if (lines[i].special >= 194) lines[i].args[3] |= TMFT_INTANGIBLEBOTTOM; //Speed lines[i].args[4] = P_AproxDistance(lines[i].dx, lines[i].dy) >> FRACBITS; //Flags if (lines[i].flags & ML_BLOCKMONSTERS) lines[i].args[5] |= TMFR_REVERSE; if (lines[i].flags & ML_BLOCKMONSTERS) lines[i].args[5] |= TMFR_SPINDASH; lines[i].special = 190; break; case 200: //FOF: Light block case 201: //FOF: Half light block lines[i].args[0] = tag; if (lines[i].special == 201) lines[i].args[1] = 1; lines[i].special = 200; break; case 202: //FOF: Fog block case 223: //FOF: Intangible, invisible lines[i].args[0] = tag; break; case 220: //FOF: Intangible, opaque case 221: //FOF: Intangible, translucent case 222: //FOF: Intangible, sides only lines[i].args[0] = tag; //Alpha if (lines[i].special == 221) { if (sides[lines[i].sidenum[0]].toptexture > 0) lines[i].args[1] = sides[lines[i].sidenum[0]].toptexture; else lines[i].args[1] = 128; } else lines[i].args[1] = 255; //Appearance if (lines[i].special == 222) lines[i].args[2] |= TMFA_NOPLANES; if (lines[i].special != 221) lines[i].args[2] |= TMFA_INSIDES; if (lines[i].special != 220 && !(lines[i].flags & ML_NOCLIMB)) lines[i].args[2] |= TMFA_NOSHADE; if (lines[i].flags & ML_EFFECT6) lines[i].args[2] |= TMFA_SPLAT; lines[i].special = 220; break; case 250: //FOF: Mario block lines[i].args[0] = tag; if (lines[i].flags & ML_NOCLIMB) lines[i].args[1] |= TMFM_BRICK; if (lines[i].flags & ML_EFFECT1) lines[i].args[1] |= TMFM_INVISIBLE; break; case 251: //FOF: Thwomp block lines[i].args[0] = tag; if (lines[i].flags & ML_EFFECT5) //Custom speeds { lines[i].args[1] = lines[i].dy >> FRACBITS; lines[i].args[2] = lines[i].dx >> FRACBITS; } else { lines[i].args[1] = 80; lines[i].args[2] = 16; } if (lines[i].flags & ML_EFFECT4) { char buffer[6]; sprintf(buffer, "%d", sides[lines[i].sidenum[0]].textureoffset >> FRACBITS); lines[i].stringargs[0] = Z_Malloc(strlen(buffer) + 1, PU_LEVEL, NULL); M_Memcpy(lines[i].stringargs[0], buffer, strlen(buffer) + 1); } break; case 252: //FOF: Shatter block case 253: //FOF: Shatter block, translucent case 254: //FOF: Bustable block case 255: //FOF: Spin-bustable block case 256: //FOF: Spin-bustable block, translucent lines[i].args[0] = tag; //Alpha if (lines[i].special == 253 || lines[i].special == 256) { if (sides[lines[i].sidenum[0]].toptexture > 0) lines[i].args[1] = sides[lines[i].sidenum[0]].toptexture; else lines[i].args[1] = 128; } else lines[i].args[1] = 255; //Bustable type if (lines[i].special <= 253) lines[i].args[2] = TMFB_TOUCH; else if (lines[i].special >= 255) lines[i].args[2] = TMFB_SPIN; else if (lines[i].flags & ML_NOCLIMB) lines[i].args[2] = TMFB_STRONG; else lines[i].args[2] = TMFB_REGULAR; //Flags if (lines[i].flags & ML_EFFECT4) lines[i].args[3] |= TMFB_PUSHABLES; if (lines[i].flags & ML_EFFECT5) { lines[i].args[3] |= TMFB_EXECUTOR; lines[i].args[4] = P_AproxDistance(lines[i].dx, lines[i].dy) >> FRACBITS; } if (lines[i].special == 252 && lines[i].flags & ML_NOCLIMB) lines[i].args[3] |= TMFB_ONLYBOTTOM; if (lines[i].flags & ML_EFFECT6) lines[i].args[3] |= TMFB_SPLAT; lines[i].special = 254; break; case 257: //FOF: Quicksand lines[i].args[0] = tag; if (!(lines[i].flags & ML_EFFECT5)) lines[i].args[1] = 1; //No ripple effect lines[i].args[2] = lines[i].dx >> FRACBITS; //Sinking speed lines[i].args[3] = lines[i].dy >> FRACBITS; //Friction break; case 258: //FOF: Laser lines[i].args[0] = tag; //Alpha if (sides[lines[i].sidenum[0]].toptexture > 0) lines[i].args[1] = sides[lines[i].sidenum[0]].toptexture; else lines[i].args[1] = 128; //Flags if (lines[i].flags & ML_EFFECT1) lines[i].args[2] = TMFL_NOBOSSES; if (lines[i].flags & ML_EFFECT6) lines[i].args[2] = TMFL_SPLAT; break; case 259: //Custom FOF if (lines[i].sidenum[1] == 0xffff) I_Error("Custom FOF (tag %d) found without a linedef back side!", tag); lines[i].args[0] = tag; lines[i].args[2] = sides[lines[i].sidenum[1]].toptexture; if (lines[i].flags & ML_EFFECT6) lines[i].args[2] |= FF_SPLAT; lines[i].args[3] = sides[lines[i].sidenum[1]].midtexture; if (lines[i].args[2] & FF_TRANSLUCENT) { if (sides[lines[i].sidenum[0]].toptexture > 0) lines[i].args[1] = sides[lines[i].sidenum[0]].toptexture; else lines[i].args[1] = 128; } else lines[i].args[1] = 255; break; case 400: //Set tagged sector's floor height/texture case 401: //Set tagged sector's ceiling height/texture lines[i].args[0] = tag; lines[i].args[1] = lines[i].special - 400; lines[i].args[2] = !!(lines[i].flags & ML_NOCLIMB); lines[i].special = 400; break; case 402: //Copy light level lines[i].args[0] = tag; lines[i].args[1] = 0; break; case 403: //Move tagged sector's floor case 404: //Move tagged sector's ceiling lines[i].args[0] = tag; lines[i].args[1] = lines[i].special - 403; lines[i].args[2] = P_AproxDistance(lines[i].dx, lines[i].dy) >> FRACBITS; lines[i].args[3] = (lines[i].flags & ML_BLOCKMONSTERS) ? sides[lines[i].sidenum[0]].textureoffset >> FRACBITS : 0; lines[i].args[4] = !!(lines[i].flags & ML_NOCLIMB); lines[i].special = 403; break; case 405: //Move floor according to front texture offsets case 407: //Move ceiling according to front texture offsets lines[i].args[0] = tag; lines[i].args[1] = (lines[i].special == 405) ? TMP_FLOOR : TMP_CEILING; lines[i].args[2] = sides[lines[i].sidenum[0]].rowoffset >> FRACBITS; lines[i].args[3] = sides[lines[i].sidenum[0]].textureoffset >> FRACBITS; lines[i].args[4] = !!(lines[i].flags & ML_NOCLIMB); lines[i].special = 405; break; case 408: //Set flats lines[i].args[0] = tag; if ((lines[i].flags & (ML_NOCLIMB|ML_EFFECT4)) == (ML_NOCLIMB|ML_EFFECT4)) { CONS_Alert(CONS_WARNING, M_GetText("Set flats linedef (tag %d) doesn't have anything to do.\nConsider changing the linedef's flag configuration or removing it entirely.\n"), tag); lines[i].special = 0; } else if (lines[i].flags & ML_NOCLIMB) lines[i].args[1] = TMP_CEILING; else if (lines[i].flags & ML_EFFECT4) lines[i].args[1] = TMP_FLOOR; else lines[i].args[1] = TMP_BOTH; break; case 409: //Change tagged sector's tag lines[i].args[0] = tag; lines[i].args[1] = sides[lines[i].sidenum[0]].textureoffset >> FRACBITS; if (lines[i].flags & ML_NOCLIMB) lines[i].args[2] = TMT_ADD; else if (lines[i].flags & ML_BLOCKMONSTERS) lines[i].args[2] = TMT_REMOVE; else lines[i].args[2] = TMT_REPLACEFIRST; break; case 410: //Change front sector's tag lines[i].args[0] = sides[lines[i].sidenum[0]].textureoffset >> FRACBITS; if (lines[i].flags & ML_NOCLIMB) lines[i].args[1] = TMT_ADD; else if (lines[i].flags & ML_BLOCKMONSTERS) lines[i].args[1] = TMT_REMOVE; else lines[i].args[1] = TMT_REPLACEFIRST; break; case 411: //Stop plane movement lines[i].args[0] = tag; break; case 414: //Play sound effect lines[i].args[2] = tag; if (tag != 0) { if (lines[i].flags & ML_EFFECT5) { lines[i].args[0] = TMSS_TAGGEDSECTOR; lines[i].args[1] = TMSL_EVERYONE; } else { lines[i].args[0] = TMSS_NOWHERE; lines[i].args[1] = TMSL_TAGGEDSECTOR; } } else { if (lines[i].flags & ML_NOCLIMB) { lines[i].args[0] = TMSS_NOWHERE; lines[i].args[1] = TMSL_TRIGGERER; } else if (lines[i].flags & ML_EFFECT4) { lines[i].args[0] = TMSS_NOWHERE; lines[i].args[1] = TMSL_EVERYONE; } else if (lines[i].flags & ML_BLOCKMONSTERS) { lines[i].args[0] = TMSS_TRIGGERSECTOR; lines[i].args[1] = TMSL_EVERYONE; } else { lines[i].args[0] = TMSS_TRIGGERMOBJ; lines[i].args[1] = TMSL_EVERYONE; } } if (sides[lines[i].sidenum[0]].text) { lines[i].stringargs[0] = Z_Malloc(strlen(sides[lines[i].sidenum[0]].text) + 1, PU_LEVEL, NULL); M_Memcpy(lines[i].stringargs[0], sides[lines[i].sidenum[0]].text, strlen(sides[lines[i].sidenum[0]].text) + 1); } break; case 415: //Run script { INT32 scrnum; lines[i].stringargs[0] = Z_Malloc(9, PU_LEVEL, NULL); strcpy(lines[i].stringargs[0], G_BuildMapName(gamemap)); lines[i].stringargs[0][0] = 'S'; lines[i].stringargs[0][1] = 'C'; lines[i].stringargs[0][2] = 'R'; scrnum = sides[lines[i].sidenum[0]].textureoffset >> FRACBITS; if (scrnum < 0 || scrnum > 999) { scrnum = 0; lines[i].stringargs[0][5] = lines[i].stringargs[0][6] = lines[i].stringargs[0][7] = '0'; } else { lines[i].stringargs[0][5] = (char)('0' + (char)((scrnum / 100))); lines[i].stringargs[0][6] = (char)('0' + (char)((scrnum % 100) / 10)); lines[i].stringargs[0][7] = (char)('0' + (char)(scrnum % 10)); } lines[i].stringargs[0][8] = '\0'; break; } case 416: //Start adjustable flickering light case 417: //Start adjustable pulsating light case 602: //Adjustable pulsating light case 603: //Adjustable flickering light lines[i].args[0] = tag; lines[i].args[1] = P_AproxDistance(lines[i].dx, lines[i].dy) >> FRACBITS; lines[i].args[2] = lines[i].frontsector->lightlevel; if ((lines[i].flags & ML_NOCLIMB) && lines[i].backsector) lines[i].args[4] = lines[i].backsector->lightlevel; else lines[i].args[3] = 1; break; case 418: //Start adjustable blinking light (unsynchronized) case 419: //Start adjustable blinking light (synchronized) case 604: //Adjustable blinking light (unsynchronized) case 605: //Adjustable blinking light (synchronized) lines[i].args[0] = tag; lines[i].args[1] = abs(lines[i].dx) >> FRACBITS; lines[i].args[2] = abs(lines[i].dy) >> FRACBITS; lines[i].args[3] = lines[i].frontsector->lightlevel; if ((lines[i].flags & ML_NOCLIMB) && lines[i].backsector) lines[i].args[5] = lines[i].backsector->lightlevel; else lines[i].args[4] |= TMB_USETARGET; if (lines[i].special % 2 == 1) { lines[i].args[4] |= TMB_SYNC; lines[i].special--; } break; case 420: //Fade light level lines[i].args[0] = tag; if (lines[i].flags & ML_DONTPEGBOTTOM) { lines[i].args[1] = max(sides[lines[i].sidenum[0]].textureoffset >> FRACBITS, 0); // failsafe: if user specifies Back Y Offset and NOT Front Y Offset, use the Back Offset // to be consistent with other light and fade specials lines[i].args[2] = ((lines[i].sidenum[1] != 0xFFFF && !(sides[lines[i].sidenum[0]].rowoffset >> FRACBITS)) ? max(min(sides[lines[i].sidenum[1]].rowoffset >> FRACBITS, 255), 0) : max(min(sides[lines[i].sidenum[0]].rowoffset >> FRACBITS, 255), 0)); } else { lines[i].args[1] = lines[i].frontsector->lightlevel; lines[i].args[2] = abs(P_AproxDistance(lines[i].dx, lines[i].dy)) >> FRACBITS; } if (lines[i].flags & ML_EFFECT4) lines[i].args[3] |= TMF_TICBASED; if (lines[i].flags & ML_EFFECT5) lines[i].args[3] |= TMF_OVERRIDE; break; case 421: //Stop lighting effect lines[i].args[0] = tag; break; case 422: //Switch to cut-away view lines[i].args[0] = tag; lines[i].args[1] = P_AproxDistance(lines[i].dx, lines[i].dy) >> FRACBITS; lines[i].args[2] = (lines[i].flags & ML_NOCLIMB) ? sides[lines[i].sidenum[0]].textureoffset >> FRACBITS : 0; break; case 423: //Change sky case 424: //Change weather lines[i].args[0] = sides[lines[i].sidenum[0]].textureoffset >> FRACBITS; lines[i].args[1] = !!(lines[i].flags & ML_NOCLIMB); break; case 425: //Change object state if (sides[lines[i].sidenum[0]].text) { lines[i].stringargs[0] = Z_Malloc(strlen(sides[lines[i].sidenum[0]].text) + 1, PU_LEVEL, NULL); M_Memcpy(lines[i].stringargs[0], sides[lines[i].sidenum[0]].text, strlen(sides[lines[i].sidenum[0]].text) + 1); } break; case 426: //Stop object lines[i].args[0] = !!(lines[i].flags & ML_NOCLIMB); break; case 427: //Award score lines[i].args[0] = sides[lines[i].sidenum[0]].textureoffset >> FRACBITS; break; case 428: //Start platform movement lines[i].args[0] = tag; lines[i].args[1] = P_AproxDistance(lines[i].dx, lines[i].dy) >> FRACBITS; lines[i].args[2] = sides[lines[i].sidenum[0]].rowoffset >> FRACBITS; lines[i].args[3] = sides[lines[i].sidenum[0]].textureoffset >> FRACBITS; lines[i].args[4] = (lines[i].flags & ML_NOCLIMB) ? 1 : 0; break; case 429: //Crush ceiling once case 430: //Crush floor once case 431: //Crush floor and ceiling once lines[i].args[0] = tag; lines[i].args[1] = (lines[i].special == 429) ? TMP_CEILING : ((lines[i].special == 430) ? TMP_FLOOR : TMP_BOTH); if (lines[i].special == 430 || lines[i].flags & ML_EFFECT4) { lines[i].args[2] = abs(lines[i].dx) >> FRACBITS; lines[i].args[3] = lines[i].args[2]; } else { lines[i].args[2] = R_PointToDist2(lines[i].v2->x, lines[i].v2->y, lines[i].v1->x, lines[i].v1->y) >> (FRACBITS + 1); lines[i].args[3] = lines[i].args[2] / 4; } lines[i].special = 429; break; case 432: //Enable/disable 2D mode lines[i].args[0] = !!(lines[i].flags & ML_NOCLIMB); break; case 433: //Enable/disable gravity flip lines[i].args[0] = !!(lines[i].flags & ML_NOCLIMB); break; case 434: //Award power-up if (sides[lines[i].sidenum[0]].text) { lines[i].stringargs[0] = Z_Malloc(strlen(sides[lines[i].sidenum[0]].text) + 1, PU_LEVEL, NULL); M_Memcpy(lines[i].stringargs[0], sides[lines[i].sidenum[0]].text, strlen(sides[lines[i].sidenum[0]].text) + 1); } if (lines[i].sidenum[1] != 0xffff && lines[i].flags & ML_BLOCKMONSTERS) // read power from back sidedef { lines[i].stringargs[1] = Z_Malloc(strlen(sides[lines[i].sidenum[1]].text) + 1, PU_LEVEL, NULL); M_Memcpy(lines[i].stringargs[1], sides[lines[i].sidenum[1]].text, strlen(sides[lines[i].sidenum[1]].text) + 1); } else if (lines[i].flags & ML_NOCLIMB) // 'Infinite' { lines[i].stringargs[1] = Z_Malloc(3, PU_LEVEL, NULL); M_Memcpy(lines[i].stringargs[1], "-1", 3); } else { lines[i].stringargs[1] = Z_Malloc(7, PU_LEVEL, NULL); snprintf(lines[i].stringargs[1], 7, "%d", sides[lines[i].sidenum[0]].textureoffset >> FRACBITS); } break; case 435: //Change plane scroller direction lines[i].args[0] = tag; lines[i].args[1] = R_PointToDist2(lines[i].v2->x, lines[i].v2->y, lines[i].v1->x, lines[i].v1->y) >> FRACBITS; break; case 437: //Disable player control lines[i].args[0] = sides[lines[i].sidenum[0]].textureoffset >> FRACBITS; lines[i].args[1] = !!(lines[i].flags & ML_NOCLIMB); break; case 438: //Change object size lines[i].args[0] = P_AproxDistance(lines[i].dx, lines[i].dy) >> FRACBITS; break; case 439: //Change tagged linedef's textures lines[i].args[0] = tag; lines[i].args[1] = TMSD_FRONTBACK; lines[i].args[2] = !!(lines[i].flags & ML_NOCLIMB); break; case 441: //Condition set trigger lines[i].args[0] = sides[lines[i].sidenum[0]].textureoffset >> FRACBITS; break; case 442: //Change object type state lines[i].args[0] = tag; if (sides[lines[i].sidenum[0]].text) { lines[i].stringargs[0] = Z_Malloc(strlen(sides[lines[i].sidenum[0]].text) + 1, PU_LEVEL, NULL); M_Memcpy(lines[i].stringargs[0], sides[lines[i].sidenum[0]].text, strlen(sides[lines[i].sidenum[0]].text) + 1); } if (lines[i].sidenum[1] == 0xffff) lines[i].args[1] = 1; else { lines[i].args[1] = 0; if (sides[lines[i].sidenum[1]].text) { lines[i].stringargs[1] = Z_Malloc(strlen(sides[lines[i].sidenum[1]].text) + 1, PU_LEVEL, NULL); M_Memcpy(lines[i].stringargs[1], sides[lines[i].sidenum[1]].text, strlen(sides[lines[i].sidenum[1]].text) + 1); } } break; case 443: //Call Lua function if (lines[i].text) { lines[i].stringargs[0] = Z_Malloc(strlen(lines[i].text) + 1, PU_LEVEL, NULL); M_Memcpy(lines[i].stringargs[0], lines[i].text, strlen(lines[i].text) + 1); } else CONS_Alert(CONS_WARNING, "Linedef %s is missing the hook name of the Lua function to call! (This should be given in the front texture fields)\n", sizeu1(i)); break; case 444: //Earthquake lines[i].args[0] = P_AproxDistance(lines[i].dx, lines[i].dy) >> FRACBITS; lines[i].args[1] = sides[lines[i].sidenum[0]].textureoffset >> FRACBITS; lines[i].args[2] = sides[lines[i].sidenum[0]].rowoffset >> FRACBITS; break; case 447: //Change colormap lines[i].args[0] = Tag_FGet(&lines[i].tags); if (lines[i].flags & ML_EFFECT3) lines[i].args[2] |= TMCF_RELATIVE; if (lines[i].flags & ML_EFFECT1) lines[i].args[2] |= TMCF_SUBLIGHTR|TMCF_SUBFADER; if (lines[i].flags & ML_NOCLIMB) lines[i].args[2] |= TMCF_SUBLIGHTG|TMCF_SUBFADEG; if (lines[i].flags & ML_EFFECT2) lines[i].args[2] |= TMCF_SUBLIGHTB|TMCF_SUBFADEB; break; case 448: //Change skybox lines[i].args[0] = sides[lines[i].sidenum[0]].textureoffset >> FRACBITS; lines[i].args[1] = sides[lines[i].sidenum[0]].rowoffset >> FRACBITS; if ((lines[i].flags & (ML_EFFECT4|ML_BLOCKMONSTERS)) == ML_EFFECT4) // Solid Midtexture is on but Block Enemies is off? { CONS_Alert(CONS_WARNING, M_GetText("Skybox switch linedef (tag %d) doesn't have anything to do.\nConsider changing the linedef's flag configuration or removing it entirely.\n"), tag); lines[i].special = 0; break; } else if ((lines[i].flags & (ML_EFFECT4|ML_BLOCKMONSTERS)) == (ML_EFFECT4|ML_BLOCKMONSTERS)) lines[i].args[2] = TMS_CENTERPOINT; else if (lines[i].flags & ML_BLOCKMONSTERS) lines[i].args[2] = TMS_BOTH; else lines[i].args[2] = TMS_VIEWPOINT; lines[i].args[3] = !!(lines[i].flags & ML_NOCLIMB); break; case 449: //Enable bosses with parameters lines[i].args[0] = sides[lines[i].sidenum[0]].textureoffset >> FRACBITS; lines[i].args[1] = !!(lines[i].flags & ML_NOCLIMB); break; case 450: //Execute linedef executor (specific tag) lines[i].args[0] = tag; break; case 451: //Execute linedef executor (random tag in range) lines[i].args[0] = sides[lines[i].sidenum[0]].textureoffset >> FRACBITS; lines[i].args[1] = sides[lines[i].sidenum[0]].rowoffset >> FRACBITS; break; case 455: //Fade colormap { INT32 speed = (INT32)((((lines[i].flags & ML_DONTPEGBOTTOM) || !sides[lines[i].sidenum[0]].rowoffset) && lines[i].sidenum[1] != 0xFFFF) ? abs(sides[lines[i].sidenum[1]].rowoffset >> FRACBITS) : abs(sides[lines[i].sidenum[0]].rowoffset >> FRACBITS)); lines[i].args[0] = Tag_FGet(&lines[i].tags); if (lines[i].flags & ML_EFFECT4) lines[i].args[2] = speed; else lines[i].args[2] = (256 + speed - 1)/speed; if (lines[i].flags & ML_EFFECT3) lines[i].args[3] |= TMCF_RELATIVE; if (lines[i].flags & ML_EFFECT1) lines[i].args[3] |= TMCF_SUBLIGHTR|TMCF_SUBFADER; if (lines[i].flags & ML_NOCLIMB) lines[i].args[3] |= TMCF_SUBLIGHTG|TMCF_SUBFADEG; if (lines[i].flags & ML_EFFECT2) lines[i].args[3] |= TMCF_SUBLIGHTB|TMCF_SUBFADEB; if (lines[i].flags & ML_BOUNCY) lines[i].args[3] |= TMCF_FROMBLACK; if (lines[i].flags & ML_EFFECT5) lines[i].args[3] |= TMCF_OVERRIDE; break; } case 456: //Stop fading colormap lines[i].args[0] = Tag_FGet(&lines[i].tags); break; case 459: //Control text prompt lines[i].args[0] = sides[lines[i].sidenum[0]].textureoffset >> FRACBITS; lines[i].args[1] = sides[lines[i].sidenum[0]].rowoffset >> FRACBITS; if (lines[i].flags & ML_BLOCKMONSTERS) lines[i].args[2] |= TMP_CLOSE; if (lines[i].flags & ML_EFFECT1) lines[i].args[2] |= TMP_RUNPOSTEXEC; if (lines[i].flags & ML_TFERLINE) lines[i].args[2] |= TMP_CALLBYNAME; if (lines[i].flags & ML_EFFECT2) lines[i].args[2] |= TMP_KEEPCONTROLS; if (lines[i].flags & ML_EFFECT3) lines[i].args[2] |= TMP_KEEPREALTIME; /*if (lines[i].flags & ML_NOCLIMB) lines[i].args[2] |= TMP_ALLPLAYERS; if (lines[i].flags & ML_EFFECT4) lines[i].args[2] |= ML_EFFECT4;*/ lines[i].args[3] = (lines[i].sidenum[1] != 0xFFFF) ? sides[lines[i].sidenum[1]].textureoffset >> FRACBITS : tag; if (sides[lines[i].sidenum[0]].text) { lines[i].stringargs[0] = Z_Malloc(strlen(sides[lines[i].sidenum[0]].text) + 1, PU_LEVEL, NULL); M_Memcpy(lines[i].stringargs[0], sides[lines[i].sidenum[0]].text, strlen(sides[lines[i].sidenum[0]].text) + 1); } break; case 460: //Award rings lines[i].args[0] = sides[lines[i].sidenum[0]].textureoffset >> FRACBITS; lines[i].args[1] = sides[lines[i].sidenum[0]].rowoffset >> FRACBITS; break; case 463: //Dye object if (sides[lines[i].sidenum[0]].text) { lines[i].stringargs[0] = Z_Malloc(strlen(sides[lines[i].sidenum[0]].text) + 1, PU_LEVEL, NULL); M_Memcpy(lines[i].stringargs[0], sides[lines[i].sidenum[0]].text, strlen(sides[lines[i].sidenum[0]].text) + 1); } break; case 464: //Trigger egg capsule lines[i].args[0] = tag; lines[i].args[1] = !!(lines[i].flags & ML_NOCLIMB); break; case 466: //Set level failure state lines[i].args[0] = !!(lines[i].flags & ML_NOCLIMB); break; case 467: //Set light level lines[i].args[0] = tag; lines[i].args[1] = sides[lines[i].sidenum[0]].textureoffset >> FRACBITS; lines[i].args[2] = TML_SECTOR; lines[i].args[3] = !!(lines[i].flags & ML_EFFECT3); break; case 480: //Polyobject - door slide case 481: //Polyobject - door move lines[i].args[0] = tag; lines[i].args[1] = sides[lines[i].sidenum[0]].textureoffset >> FRACBITS; lines[i].args[2] = sides[lines[i].sidenum[0]].rowoffset >> FRACBITS; if (lines[i].sidenum[1] != 0xffff) lines[i].args[3] = sides[lines[i].sidenum[1]].textureoffset >> FRACBITS; break; case 482: //Polyobject - move case 483: //Polyobject - move, override lines[i].args[0] = tag; lines[i].args[1] = sides[lines[i].sidenum[0]].textureoffset >> FRACBITS; lines[i].args[2] = sides[lines[i].sidenum[0]].rowoffset >> FRACBITS; lines[i].args[3] = lines[i].special == 483; lines[i].special = 482; break; case 484: //Polyobject - rotate right case 485: //Polyobject - rotate right, override case 486: //Polyobject - rotate left case 487: //Polyobject - rotate left, override lines[i].args[0] = tag; lines[i].args[1] = sides[lines[i].sidenum[0]].textureoffset >> FRACBITS; lines[i].args[2] = sides[lines[i].sidenum[0]].rowoffset >> FRACBITS; if (lines[i].args[2] == 360) lines[i].args[3] |= TMPR_CONTINUOUS; else if (lines[i].args[2] == 0) lines[i].args[2] = 360; if (lines[i].special < 486) lines[i].args[2] *= -1; if (lines[i].flags & ML_NOCLIMB) lines[i].args[3] |= TMPR_DONTROTATEOTHERS; else if (lines[i].flags & ML_EFFECT4) lines[i].args[3] |= TMPR_ROTATEPLAYERS; if (lines[i].special % 2 == 1) lines[i].args[3] |= TMPR_OVERRIDE; lines[i].special = 484; break; case 488: //Polyobject - move by waypoints lines[i].args[0] = tag; lines[i].args[1] = sides[lines[i].sidenum[0]].textureoffset >> FRACBITS; lines[i].args[2] = sides[lines[i].sidenum[0]].rowoffset >> FRACBITS; if (lines[i].flags & ML_EFFECT3) lines[i].args[3] = PWR_WRAP; else if (lines[i].flags & ML_EFFECT2) lines[i].args[3] = PWR_COMEBACK; else lines[i].args[3] = PWR_STOP; if (lines[i].flags & ML_EFFECT1) lines[i].args[4] |= PWF_REVERSE; if (lines[i].flags & ML_EFFECT4) lines[i].args[4] |= PWF_LOOP; break; case 489: //Polyobject - turn invisible, intangible case 490: //Polyobject - turn visible, tangible lines[i].args[0] = tag; lines[i].args[1] = 491 - lines[i].special; if (!(lines[i].flags & ML_NOCLIMB)) lines[i].args[2] = lines[i].args[1]; lines[i].special = 489; break; case 491: //Polyobject - set translucency lines[i].args[0] = tag; // If Front X Offset is specified, use that. Else, use floorheight. lines[i].args[1] = (sides[lines[i].sidenum[0]].textureoffset ? sides[lines[i].sidenum[0]].textureoffset : lines[i].frontsector->floorheight) >> FRACBITS; // If DONTPEGBOTTOM, specify raw translucency value. Else, take it out of 1000. if (!(lines[i].flags & ML_DONTPEGBOTTOM)) lines[i].args[1] /= 100; lines[i].args[2] = !!(lines[i].flags & ML_EFFECT3); break; case 492: //Polyobject - fade translucency lines[i].args[0] = tag; // If Front X Offset is specified, use that. Else, use floorheight. lines[i].args[1] = (sides[lines[i].sidenum[0]].textureoffset ? sides[lines[i].sidenum[0]].textureoffset : lines[i].frontsector->floorheight) >> FRACBITS; // If DONTPEGBOTTOM, specify raw translucency value. Else, take it out of 1000. if (!(lines[i].flags & ML_DONTPEGBOTTOM)) lines[i].args[1] /= 100; // allow Back Y Offset to be consistent with other fade specials lines[i].args[2] = (lines[i].sidenum[1] != 0xffff && !sides[lines[i].sidenum[0]].rowoffset) ? abs(sides[lines[i].sidenum[1]].rowoffset >> FRACBITS) : abs(sides[lines[i].sidenum[0]].rowoffset >> FRACBITS); if (lines[i].flags & ML_EFFECT3) lines[i].args[3] |= TMPF_RELATIVE; if (lines[i].flags & ML_EFFECT5) lines[i].args[3] |= TMPF_OVERRIDE; if (lines[i].flags & ML_EFFECT4) lines[i].args[3] |= TMPF_TICBASED; if (lines[i].flags & ML_BOUNCY) lines[i].args[3] |= TMPF_IGNORECOLLISION; if (lines[i].flags & ML_EFFECT1) lines[i].args[3] |= TMPF_GHOSTFADE; break; case 500: //Scroll front wall left case 501: //Scroll front wall right lines[i].args[0] = 0; lines[i].args[1] = (lines[i].special == 500) ? -1 : 1; lines[i].args[2] = 0; lines[i].special = 500; break; case 502: //Scroll tagged wall case 503: //Scroll tagged wall (accelerative) case 504: //Scroll tagged wall (displacement) lines[i].args[0] = tag; if (lines[i].flags & ML_EFFECT3) { if (lines[i].sidenum[1] == 0xffff) { CONS_Debug(DBG_GAMELOGIC, "Line special %d (line #%s) missing back side!\n", lines[i].special, sizeu1(i)); lines[i].special = 0; break; } lines[i].args[1] = 1; } else lines[i].args[1] = 0; if (lines[i].flags & ML_EFFECT2) { lines[i].args[2] = lines[i].dx >> (FRACBITS + SCROLL_SHIFT); lines[i].args[3] = lines[i].dy >> (FRACBITS + SCROLL_SHIFT); } else { lines[i].args[2] = sides[lines[i].sidenum[0]].textureoffset >> FRACBITS; lines[i].args[3] = sides[lines[i].sidenum[0]].rowoffset >> FRACBITS; } lines[i].args[4] = lines[i].special - 502; lines[i].special = 502; break; case 505: //Scroll front wall by front side offsets case 506: //Scroll front wall by back side offsets case 507: //Scroll back wall by front side offsets case 508: //Scroll back wall by back side offsets lines[i].args[0] = lines[i].special >= 507; if (lines[i].special % 2 == 0) { if (lines[i].sidenum[1] == 0xffff) { CONS_Debug(DBG_GAMELOGIC, "Line special %d (line #%s) missing back side!\n", lines[i].special, sizeu1(i)); lines[i].special = 0; break; } lines[i].args[1] = sides[lines[i].sidenum[1]].rowoffset >> FRACBITS; lines[i].args[2] = sides[lines[i].sidenum[1]].textureoffset >> FRACBITS; } else { lines[i].args[1] = sides[lines[i].sidenum[0]].rowoffset >> FRACBITS; lines[i].args[2] = sides[lines[i].sidenum[0]].textureoffset >> FRACBITS; } lines[i].special = 500; break; case 510: //Scroll floor texture case 511: //Scroll floor texture (accelerative) case 512: //Scroll floor texture (displacement) case 513: //Scroll ceiling texture case 514: //Scroll ceiling texture (accelerative) case 515: //Scroll ceiling texture (displacement) case 520: //Carry objects on floor case 521: //Carry objects on floor (accelerative) case 522: //Carry objects on floor (displacement) case 523: //Carry objects on ceiling case 524: //Carry objects on ceiling (accelerative) case 525: //Carry objects on ceiling (displacement) case 530: //Scroll floor texture and carry objects case 531: //Scroll floor texture and carry objects (accelerative) case 532: //Scroll floor texture and carry objects (displacement) case 533: //Scroll ceiling texture and carry objects case 534: //Scroll ceiling texture and carry objects (accelerative) case 535: //Scroll ceiling texture and carry objects (displacement) lines[i].args[0] = tag; lines[i].args[1] = ((lines[i].special % 10) < 3) ? TMP_FLOOR : TMP_CEILING; lines[i].args[2] = ((lines[i].special - 510)/10 + 1) % 3; lines[i].args[3] = R_PointToDist2(lines[i].v2->x, lines[i].v2->y, lines[i].v1->x, lines[i].v1->y) >> FRACBITS; lines[i].args[4] = (lines[i].special % 10) % 3; if (lines[i].args[2] != TMS_SCROLLONLY && !(lines[i].flags & ML_NOCLIMB)) lines[i].args[4] |= TMST_NONEXCLUSIVE; lines[i].special = 510; break; case 541: //Wind case 542: //Upwards wind case 543: //Downwards wind case 544: //Current case 545: //Upwards current case 546: //Downwards current lines[i].args[0] = tag; switch ((lines[i].special - 541) % 3) { case 0: lines[i].args[1] = R_PointToDist2(lines[i].v2->x, lines[i].v2->y, lines[i].v1->x, lines[i].v1->y) >> FRACBITS; break; case 1: lines[i].args[2] = R_PointToDist2(lines[i].v2->x, lines[i].v2->y, lines[i].v1->x, lines[i].v1->y) >> FRACBITS; break; case 2: lines[i].args[2] = -R_PointToDist2(lines[i].v2->x, lines[i].v2->y, lines[i].v1->x, lines[i].v1->y) >> FRACBITS; break; } lines[i].args[3] = (lines[i].special >= 544) ? p_current : p_wind; if (lines[i].flags & ML_EFFECT4) lines[i].args[4] |= TMPF_SLIDE; if (!(lines[i].flags & ML_NOCLIMB)) lines[i].args[4] |= TMPF_NONEXCLUSIVE; lines[i].special = 541; break; case 600: //Floor lighting case 601: //Ceiling lighting lines[i].args[0] = tag; lines[i].args[1] = (lines[i].special == 601) ? TMP_CEILING : TMP_FLOOR; lines[i].special = 600; break; case 606: //Colormap lines[i].args[0] = Tag_FGet(&lines[i].tags); break; case 700: //Slope front sector floor case 701: //Slope front sector ceiling case 702: //Slope front sector floor and ceiling case 703: //Slope front sector floor and back sector ceiling case 710: //Slope back sector floor case 711: //Slope back sector ceiling case 712: //Slope back sector floor and ceiling case 713: //Slope back sector floor and front sector ceiling { boolean frontfloor = (lines[i].special == 700 || lines[i].special == 702 || lines[i].special == 703); boolean backfloor = (lines[i].special == 710 || lines[i].special == 712 || lines[i].special == 713); boolean frontceil = (lines[i].special == 701 || lines[i].special == 702 || lines[i].special == 713); boolean backceil = (lines[i].special == 711 || lines[i].special == 712 || lines[i].special == 703); lines[i].args[0] = backfloor ? TMS_BACK : (frontfloor ? TMS_FRONT : TMS_NONE); lines[i].args[1] = backceil ? TMS_BACK : (frontceil ? TMS_FRONT : TMS_NONE); if (lines[i].flags & ML_NETONLY) lines[i].args[2] |= TMSL_NOPHYSICS; if (lines[i].flags & ML_NONET) lines[i].args[2] |= TMSL_DYNAMIC; if (lines[i].flags & ML_TFERLINE) { lines[i].args[4] |= backfloor ? TMSC_BACKTOFRONTFLOOR : (frontfloor ? TMSC_FRONTTOBACKFLOOR : 0); lines[i].args[4] |= backceil ? TMSC_BACKTOFRONTCEILING : (frontceil ? TMSC_FRONTTOBACKCEILING : 0); } lines[i].special = 700; break; } case 704: //Slope front sector floor by 3 tagged vertices case 705: //Slope front sector ceiling by 3 tagged vertices case 714: //Slope back sector floor by 3 tagged vertices case 715: //Slope back sector ceiling by 3 tagged vertices { if (lines[i].special == 704) lines[i].args[0] = TMSP_FRONTFLOOR; else if (lines[i].special == 705) lines[i].args[0] = TMSP_FRONTCEILING; else if (lines[i].special == 714) lines[i].args[0] = TMSP_BACKFLOOR; else if (lines[i].special == 715) lines[i].args[0] = TMSP_BACKCEILING; lines[i].args[1] = tag; if (lines[i].flags & ML_EFFECT6) { UINT8 side = lines[i].special >= 714; if (side == 1 && lines[i].sidenum[1] == 0xffff) CONS_Debug(DBG_GAMELOGIC, "P_ConvertBinaryMap: Line special %d (line #%s) missing 2nd side!\n", lines[i].special, sizeu1(i)); else { lines[i].args[2] = sides[lines[i].sidenum[side]].textureoffset >> FRACBITS; lines[i].args[3] = sides[lines[i].sidenum[side]].rowoffset >> FRACBITS; } } else { lines[i].args[2] = lines[i].args[1]; lines[i].args[3] = lines[i].args[1]; } if (lines[i].flags & ML_NETONLY) lines[i].args[4] |= TMSL_NOPHYSICS; if (lines[i].flags & ML_NONET) lines[i].args[4] |= TMSL_DYNAMIC; lines[i].special = 704; break; } case 720: //Copy front side floor slope case 721: //Copy front side ceiling slope case 722: //Copy front side floor and ceiling slope if (lines[i].special != 721) lines[i].args[0] = tag; if (lines[i].special != 720) lines[i].args[1] = tag; lines[i].special = 720; break; case 723: //Copy back side floor slope case 724: //Copy back side ceiling slope case 725: //Copy back side floor and ceiling slope if (lines[i].special != 724) lines[i].args[2] = tag; if (lines[i].special != 723) lines[i].args[3] = tag; lines[i].special = 720; break; case 730: //Copy front side floor slope to back side case 731: //Copy front side ceiling slope to back side case 732: //Copy front side floor and ceiling slope to back side if (lines[i].special != 731) lines[i].args[4] |= TMSC_FRONTTOBACKFLOOR; if (lines[i].special != 730) lines[i].args[4] |= TMSC_FRONTTOBACKCEILING; lines[i].special = 720; break; case 733: //Copy back side floor slope to front side case 734: //Copy back side ceiling slope to front side case 735: //Copy back side floor and ceiling slope to front side if (lines[i].special != 734) lines[i].args[4] |= TMSC_BACKTOFRONTFLOOR; if (lines[i].special != 733) lines[i].args[4] |= TMSC_BACKTOFRONTCEILING; lines[i].special = 720; break; case 900: //Translucent wall (10%) case 901: //Translucent wall (20%) case 902: //Translucent wall (30%) case 903: //Translucent wall (40%) case 904: //Translucent wall (50%) case 905: //Translucent wall (60%) case 906: //Translucent wall (70%) case 907: //Translucent wall (80%) case 908: //Translucent wall (90%) lines[i].alpha = ((909 - lines[i].special) << FRACBITS)/10; break; } //Linedef executor delay if (lines[i].special >= 400 && lines[i].special < 500) { //Dummy value to indicate that this executor is delayed. //The real value is taken from the back sector at runtime. if (lines[i].flags & ML_DONTPEGTOP) lines[i].executordelay = 1; } } for (i = 0; i < nummapthings; i++) { switch (mapthings[i].type) { case 762: { INT32 check = -1; INT32 firstline = -1; mtag_t tag = Tag_FGet(&mapthings[i].tags); TAG_ITER_LINES(tag, check) { if (lines[check].special == 20) { firstline = check; break; } } if (firstline != -1) lines[firstline].args[3] |= TMPF_CRUSH; mapthings[i].type = 761; break; } default: break; } } } /** Compute MD5 message digest for bytes read from memory source * * The resulting message digest number will be written into the 16 bytes * beginning at RESBLOCK. * * \param filename path of file * \param resblock resulting MD5 checksum * \return 0 if MD5 checksum was made, and is at resblock, 1 if error was found */ static INT32 P_MakeBufferMD5(const char *buffer, size_t len, void *resblock) { #ifdef NOMD5 (void)buffer; (void)len; memset(resblock, 0x00, 16); return 1; #else tic_t t = I_GetTime(); CONS_Debug(DBG_SETUP, "Making MD5\n"); if (md5_buffer(buffer, len, resblock) == NULL) return 1; CONS_Debug(DBG_SETUP, "MD5 calc took %f seconds\n", (float)(I_GetTime() - t)/NEWTICRATE); return 0; #endif } static void P_MakeMapMD5(virtres_t *virt, void *dest) { unsigned char resmd5[16]; if (udmf) { virtlump_t *textmap = vres_Find(virt, "TEXTMAP"); P_MakeBufferMD5((char*)textmap->data, textmap->size, resmd5); } else { unsigned char linemd5[16]; unsigned char sectormd5[16]; unsigned char thingmd5[16]; unsigned char sidedefmd5[16]; UINT8 i; // Create a hash for the current map // get the actual lumps! virtlump_t* virtlines = vres_Find(virt, "LINEDEFS"); virtlump_t* virtsectors = vres_Find(virt, "SECTORS"); virtlump_t* virtmthings = vres_Find(virt, "THINGS"); virtlump_t* virtsides = vres_Find(virt, "SIDEDEFS"); P_MakeBufferMD5((char*)virtlines->data, virtlines->size, linemd5); P_MakeBufferMD5((char*)virtsectors->data, virtsectors->size, sectormd5); P_MakeBufferMD5((char*)virtmthings->data, virtmthings->size, thingmd5); P_MakeBufferMD5((char*)virtsides->data, virtsides->size, sidedefmd5); for (i = 0; i < 16; i++) resmd5[i] = (linemd5[i] + sectormd5[i] + thingmd5[i] + sidedefmd5[i]) & 0xFF; } M_Memcpy(dest, &resmd5, 16); } static boolean P_LoadMapFromFile(void) { virtres_t *virt = vres_GetMap(lastloadedmaplumpnum); virtlump_t *textmap = vres_Find(virt, "TEXTMAP"); size_t i; udmf = textmap != NULL; if (!P_LoadMapData(virt)) return false; P_LoadMapBSP(virt); P_LoadMapLUT(virt); P_LinkMapData(); if (!udmf) P_AddBinaryMapTags(); Taglist_InitGlobalTables(); if (!udmf) P_ConvertBinaryMap(); // Copy relevant map data for NetArchive purposes. spawnsectors = Z_Calloc(numsectors * sizeof(*sectors), PU_LEVEL, NULL); spawnlines = Z_Calloc(numlines * sizeof(*lines), PU_LEVEL, NULL); spawnsides = Z_Calloc(numsides * sizeof(*sides), PU_LEVEL, NULL); memcpy(spawnsectors, sectors, numsectors * sizeof(*sectors)); memcpy(spawnlines, lines, numlines * sizeof(*lines)); memcpy(spawnsides, sides, numsides * sizeof(*sides)); for (i = 0; i < numsectors; i++) if (sectors[i].tags.count) spawnsectors[i].tags.tags = memcpy(Z_Malloc(sectors[i].tags.count*sizeof(mtag_t), PU_LEVEL, NULL), sectors[i].tags.tags, sectors[i].tags.count*sizeof(mtag_t)); P_MakeMapMD5(virt, &mapmd5); vres_Free(virt); return true; } // // LEVEL INITIALIZATION FUNCTIONS // /** Sets up a sky texture to use for the level. * The sky texture is used instead of F_SKY1. */ void P_SetupLevelSky(INT32 skynum, boolean global) { char skytexname[12]; sprintf(skytexname, "SKY%d", skynum); skytexture = R_TextureNumForName(skytexname); levelskynum = skynum; // Global change if (global) globallevelskynum = levelskynum; // Don't go beyond for dedicated servers if (dedicated) return; // scale up the old skies, if needed R_SetupSkyDraw(); } static const char *maplumpname; lumpnum_t lastloadedmaplumpnum; // for comparative savegame // // P_LevelInitStuff // // Some player initialization for map start. // static void P_InitLevelSettings(void) { INT32 i; boolean canresetlives = true; leveltime = 0; modulothing = 0; // special stage tokens, emeralds, and ring total tokenbits = 0; runemeraldmanager = false; emeraldspawndelay = 60*TICRATE; if ((netgame || multiplayer) && !G_IsSpecialStage(gamemap)) nummaprings = -1; else nummaprings = mapheaderinfo[gamemap-1]->startrings; // emerald hunt hunt1 = hunt2 = hunt3 = NULL; // map time limit if (mapheaderinfo[gamemap-1]->countdown) { tic_t maxtime = 0; countdowntimer = mapheaderinfo[gamemap-1]->countdown * TICRATE; for (i = 0; i < MAXPLAYERS; i++) { if (!playeringame[i]) continue; if (players[i].starposttime > maxtime) maxtime = players[i].starposttime; } countdowntimer -= maxtime; } else countdowntimer = 0; countdowntimeup = false; // clear ctf pointers redflag = blueflag = NULL; rflagpoint = bflagpoint = NULL; // circuit, race and competition stuff circuitmap = false; numstarposts = 0; ssspheres = timeinmap = 0; // Assume Special Stages were failed in unless proven otherwise - via P_GiveEmerald or emerald touchspecial // Normal stages will default to be OK, until a Lua script / linedef executor says otherwise. stagefailed = G_IsSpecialStage(gamemap); // Reset temporary record data memset(&ntemprecords, 0, sizeof(nightsdata_t)); // earthquake camera memset(&quake,0,sizeof(struct quake)); if ((netgame || multiplayer) && G_GametypeUsesCoopStarposts() && cv_coopstarposts.value == 2) { for (i = 0; i < MAXPLAYERS; i++) { if (playeringame[i] && players[i].lives > 0) { canresetlives = false; break; } } } countdown = countdown2 = exitfadestarted = 0; for (i = 0; i < MAXPLAYERS; i++) { G_PlayerReborn(i, true); if (canresetlives && (netgame || multiplayer) && playeringame[i] && (G_CompetitionGametype() || players[i].lives <= 0)) { // In Co-Op, replenish a user's lives if they are depleted. players[i].lives = cv_startinglives.value; } // obliteration station... players[i].numboxes = players[i].totalring =\ players[i].laps = players[i].marescore = players[i].lastmarescore =\ players[i].mare = players[i].exiting = 0; players[i].drillmeter = 40*20; // hit these too players[i].pflags &= ~(PF_GAMETYPEOVER); } if (botingame) CV_SetValue(&cv_analog[1], true); } // Respawns all the mapthings and mobjs in the map from the already loaded map data. void P_RespawnThings(void) { // Search through all the thinkers. thinker_t *think; INT32 i, viewid = -1, centerid = -1; // for skyboxes // check if these are any of the normal viewpoint/centerpoint mobjs in the level or not if (skyboxmo[0] || skyboxmo[1]) for (i = 0; i < 16; i++) { if (skyboxmo[0] && skyboxmo[0] == skyboxviewpnts[i]) viewid = i; // save id just in case if (skyboxmo[1] && skyboxmo[1] == skyboxcenterpnts[i]) centerid = i; // save id just in case } for (think = thlist[THINK_MOBJ].next; think != &thlist[THINK_MOBJ]; think = think->next) { if (think->function.acp1 == (actionf_p1)P_RemoveThinkerDelayed) continue; P_RemoveMobj((mobj_t *)think); } P_InitLevelSettings(); localaiming = 0; localaiming2 = 0; P_SpawnMapThings(true); // restore skybox viewpoint/centerpoint if necessary, set them to defaults if we can't do that skyboxmo[0] = skyboxviewpnts[(viewid >= 0) ? viewid : 0]; skyboxmo[1] = skyboxcenterpnts[(centerid >= 0) ? centerid : 0]; } static void P_RunLevelScript(const char *scriptname) { if (!(mapheaderinfo[gamemap-1]->levelflags & LF_SCRIPTISFILE)) { lumpnum_t lumpnum; char newname[9]; strncpy(newname, scriptname, 8); newname[8] = '\0'; lumpnum = W_CheckNumForName(newname); if (lumpnum == LUMPERROR || W_LumpLength(lumpnum) == 0) { CONS_Debug(DBG_SETUP, "SOC Error: script lump %s not found/not valid.\n", newname); return; } COM_BufInsertText(W_CacheLumpNum(lumpnum, PU_CACHE)); } else { COM_BufAddText(va("exec %s\n", scriptname)); } COM_BufExecute(); // Run it! } static void P_ForceCharacter(const char *forcecharskin) { if (netgame) { char skincmd[33]; if (splitscreen) { sprintf(skincmd, "skin2 %s\n", forcecharskin); CV_Set(&cv_skin2, forcecharskin); } sprintf(skincmd, "skin %s\n", forcecharskin); COM_BufAddText(skincmd); } else { if (splitscreen) { SetPlayerSkin(secondarydisplayplayer, forcecharskin); if ((unsigned)cv_playercolor2.value != skins[players[secondarydisplayplayer].skin].prefcolor) { CV_StealthSetValue(&cv_playercolor2, skins[players[secondarydisplayplayer].skin].prefcolor); players[secondarydisplayplayer].skincolor = skins[players[secondarydisplayplayer].skin].prefcolor; } } SetPlayerSkin(consoleplayer, forcecharskin); // normal player colors in single player if ((unsigned)cv_playercolor.value != skins[players[consoleplayer].skin].prefcolor) { CV_StealthSetValue(&cv_playercolor, skins[players[consoleplayer].skin].prefcolor); players[consoleplayer].skincolor = skins[players[consoleplayer].skin].prefcolor; } } } static void P_ResetSpawnpoints(void) { UINT8 i; numdmstarts = numredctfstarts = numbluectfstarts = 0; // reset the player starts for (i = 0; i < MAXPLAYERS; i++) playerstarts[i] = bluectfstarts[i] = redctfstarts[i] = NULL; for (i = 0; i < MAX_DM_STARTS; i++) deathmatchstarts[i] = NULL; for (i = 0; i < 2; i++) skyboxmo[i] = NULL; for (i = 0; i < 16; i++) skyboxviewpnts[i] = skyboxcenterpnts[i] = NULL; } static void P_LoadRecordGhosts(void) { const size_t glen = strlen(srb2home)+1+strlen("replay")+1+strlen(timeattackfolder)+1+strlen("MAPXX")+1; char *gpath = malloc(glen); INT32 i; if (!gpath) return; sprintf(gpath,"%s"PATHSEP"replay"PATHSEP"%s"PATHSEP"%s", srb2home, timeattackfolder, G_BuildMapName(gamemap)); // Best Score ghost if (cv_ghost_bestscore.value) { for (i = 0; i < numskins; ++i) { if (cv_ghost_bestscore.value == 1 && players[consoleplayer].skin != i) continue; if (FIL_FileExists(va("%s-%s-score-best.lmp", gpath, skins[i].name))) G_AddGhost(va("%s-%s-score-best.lmp", gpath, skins[i].name)); } } // Best Time ghost if (cv_ghost_besttime.value) { for (i = 0; i < numskins; ++i) { if (cv_ghost_besttime.value == 1 && players[consoleplayer].skin != i) continue; if (FIL_FileExists(va("%s-%s-time-best.lmp", gpath, skins[i].name))) G_AddGhost(va("%s-%s-time-best.lmp", gpath, skins[i].name)); } } // Best Rings ghost if (cv_ghost_bestrings.value) { for (i = 0; i < numskins; ++i) { if (cv_ghost_bestrings.value == 1 && players[consoleplayer].skin != i) continue; if (FIL_FileExists(va("%s-%s-rings-best.lmp", gpath, skins[i].name))) G_AddGhost(va("%s-%s-rings-best.lmp", gpath, skins[i].name)); } } // Last ghost if (cv_ghost_last.value) { for (i = 0; i < numskins; ++i) { if (cv_ghost_last.value == 1 && players[consoleplayer].skin != i) continue; if (FIL_FileExists(va("%s-%s-last.lmp", gpath, skins[i].name))) G_AddGhost(va("%s-%s-last.lmp", gpath, skins[i].name)); } } // Guest ghost if (cv_ghost_guest.value && FIL_FileExists(va("%s-guest.lmp", gpath))) G_AddGhost(va("%s-guest.lmp", gpath)); free(gpath); } static void P_LoadNightsGhosts(void) { const size_t glen = strlen(srb2home)+1+strlen("replay")+1+strlen(timeattackfolder)+1+strlen("MAPXX")+1; char *gpath = malloc(glen); INT32 i; if (!gpath) return; sprintf(gpath,"%s"PATHSEP"replay"PATHSEP"%s"PATHSEP"%s", srb2home, timeattackfolder, G_BuildMapName(gamemap)); // Best Score ghost if (cv_ghost_bestscore.value) { for (i = 0; i < numskins; ++i) { if (cv_ghost_bestscore.value == 1 && players[consoleplayer].skin != i) continue; if (FIL_FileExists(va("%s-%s-score-best.lmp", gpath, skins[i].name))) G_AddGhost(va("%s-%s-score-best.lmp", gpath, skins[i].name)); } } // Best Time ghost if (cv_ghost_besttime.value) { for (i = 0; i < numskins; ++i) { if (cv_ghost_besttime.value == 1 && players[consoleplayer].skin != i) continue; if (FIL_FileExists(va("%s-%s-time-best.lmp", gpath, skins[i].name))) G_AddGhost(va("%s-%s-time-best.lmp", gpath, skins[i].name)); } } // Last ghost if (cv_ghost_last.value) { for (i = 0; i < numskins; ++i) { if (cv_ghost_last.value == 1 && players[consoleplayer].skin != i) continue; if (FIL_FileExists(va("%s-%s-last.lmp", gpath, skins[i].name))) G_AddGhost(va("%s-%s-last.lmp", gpath, skins[i].name)); } } // Guest ghost if (cv_ghost_guest.value && FIL_FileExists(va("%s-guest.lmp", gpath))) G_AddGhost(va("%s-guest.lmp", gpath)); free(gpath); } static void P_InitTagGametype(void) { UINT8 i; INT32 realnumplayers = 0; INT32 playersactive[MAXPLAYERS]; //I just realized how problematic this code can be. //D_NumPlayers() will not always cover the scope of the netgame. //What if one player is node 0 and the other node 31? //The solution? Make a temp array of all players that are currently playing and pick from them. //Future todo? When a player leaves, shift all nodes down so D_NumPlayers() can be used as intended? //Also, you'd never have to loop through all 32 players slots to find anything ever again. for (i = 0; i < MAXPLAYERS; i++) { if (playeringame[i] && !(players[i].spectator || players[i].quittime)) { playersactive[realnumplayers] = i; //stores the player's node in the array. realnumplayers++; } } if (!realnumplayers) //this should also fix the dedicated crash bug. You only pick a player if one exists to be picked. { CONS_Printf(M_GetText("No player currently available to become IT. Awaiting available players.\n")); return; } i = P_RandomKey(realnumplayers); players[playersactive[i]].pflags |= PF_TAGIT; //choose our initial tagger before map starts. // Taken and modified from G_DoReborn() // Remove the player so he can respawn elsewhere. // first disassociate the corpse if (players[playersactive[i]].mo) P_RemoveMobj(players[playersactive[i]].mo); G_SpawnPlayer(playersactive[i]); //respawn the lucky player in his dedicated spawn location. } static void P_SetupCamera(void) { if (players[displayplayer].mo && (server || addedtogame)) { camera.x = players[displayplayer].mo->x; camera.y = players[displayplayer].mo->y; camera.z = players[displayplayer].mo->z; camera.angle = players[displayplayer].mo->angle; camera.subsector = R_PointInSubsector(camera.x, camera.y); // make sure camera has a subsector set -- Monster Iestyn (12/11/18) } else { mapthing_t *thing; if (gametyperules & GTR_DEATHMATCHSTARTS) thing = deathmatchstarts[0]; else thing = playerstarts[0]; if (thing) { camera.x = thing->x; camera.y = thing->y; camera.z = thing->z; camera.angle = FixedAngle((fixed_t)thing->angle << FRACBITS); camera.subsector = R_PointInSubsector(camera.x, camera.y); // make sure camera has a subsector set -- Monster Iestyn (12/11/18) } } } static void P_InitCamera(void) { if (!dedicated) { P_SetupCamera(); // Salt: CV_ClearChangedFlags() messes with your settings :( /*if (!cv_cam_height.changed) CV_Set(&cv_cam_height, cv_cam_height.defaultvalue); if (!cv_cam2_height.changed) CV_Set(&cv_cam2_height, cv_cam2_height.defaultvalue); if (!cv_cam_dist.changed) CV_Set(&cv_cam_dist, cv_cam_dist.defaultvalue); if (!cv_cam2_dist.changed) CV_Set(&cv_cam2_dist, cv_cam2_dist.defaultvalue);*/ // Though, I don't think anyone would care about cam_rotate being reset back to the only value that makes sense :P if (!cv_cam_rotate.changed) CV_Set(&cv_cam_rotate, cv_cam_rotate.defaultvalue); if (!cv_cam2_rotate.changed) CV_Set(&cv_cam2_rotate, cv_cam2_rotate.defaultvalue); if (!cv_analog[0].changed) CV_SetValue(&cv_analog[0], 0); if (!cv_analog[1].changed) CV_SetValue(&cv_analog[1], 0); displayplayer = consoleplayer; // Start with your OWN view, please! } if (twodlevel) { CV_SetValue(&cv_analog[0], false); CV_SetValue(&cv_analog[1], false); } else { if (cv_useranalog[0].value) CV_SetValue(&cv_analog[0], true); if ((splitscreen && cv_useranalog[1].value) || botingame) CV_SetValue(&cv_analog[1], true); } } static void P_RunSpecialStageWipe(void) { tic_t starttime = I_GetTime(); tic_t endtime = starttime + (3*TICRATE)/2; tic_t nowtime; S_StartSound(NULL, sfx_s3kaf); // Fade music! Time it to S3KAF: 0.25 seconds is snappy. if (RESETMUSIC || strnicmp(S_MusicName(), (mapmusflags & MUSIC_RELOADRESET) ? mapheaderinfo[gamemap - 1]->musname : mapmusname, 7)) S_FadeOutStopMusic(MUSICRATE/4); //FixedMul(FixedDiv(F_GetWipeLength(wipedefs[wipe_speclevel_towhite])*NEWTICRATERATIO, NEWTICRATE), MUSICRATE) F_WipeStartScreen(); wipestyleflags |= (WSF_FADEOUT|WSF_TOWHITE); #ifdef HWRENDER // uh.......... if (rendermode == render_opengl) F_WipeColorFill(0); #endif F_WipeEndScreen(); F_RunWipe(wipedefs[wipe_speclevel_towhite], false); I_OsPolling(); I_FinishUpdate(); // page flip or blit buffer if (moviemode) M_SaveFrame(); nowtime = lastwipetic; // Hold on white for extra effect. while (nowtime < endtime) { // wait loop while (!((nowtime = I_GetTime()) - lastwipetic)) I_Sleep(); lastwipetic = nowtime; if (moviemode) // make sure we save frames for the white hold too M_SaveFrame(); } } static void P_RunLevelWipe(void) { F_WipeStartScreen(); wipestyleflags |= WSF_FADEOUT; #ifdef HWRENDER // uh.......... if (rendermode == render_opengl) F_WipeColorFill(31); #endif F_WipeEndScreen(); // for titlemap: run a specific wipe if specified // needed for exiting time attack if (wipetypepre != INT16_MAX) F_RunWipe( (wipetypepre >= 0 && F_WipeExists(wipetypepre)) ? wipetypepre : wipedefs[wipe_level_toblack], false); wipetypepre = -1; } static void P_InitPlayers(void) { UINT8 i; for (i = 0; i < MAXPLAYERS; i++) { if (!playeringame[i]) continue; // Start players with pity shields if possible players[i].pity = -1; players[i].mo = NULL; if (!G_PlatformGametype()) G_DoReborn(i); else // gametype is GT_COOP or GT_RACE { G_SpawnPlayer(i); if (players[i].starposttime) P_ClearStarPost(players[i].starpostnum); } } } static void P_WriteLetter(void) { char *buf, *b; if (!unlockables[27].unlocked) // pandora's box return; if (modeattacking) return; #ifndef DEVELOP if (modifiedgame) return; #endif if (netgame || multiplayer) return; if (gamemap != 0x1d35 - 016464) return; P_SpawnMobj(0640370000, 0x11000000, 0x3180000, MT_LETTER)->angle = ANGLE_90; if (textprompts[199]->page[1].backcolor == 259) return; buf = W_CacheLumpName("WATERMAP", PU_STATIC); b = buf; while ((*b != 65) && (b - buf < 256)) { *b = (*b - 65) & 255; b++; } *b = '\0'; Z_Free(textprompts[199]->page[1].text); textprompts[199]->page[1].text = Z_StrDup(buf); textprompts[199]->page[1].lines = 4; textprompts[199]->page[1].backcolor = 259; Z_Free(buf); } static void P_InitGametype(void) { UINT8 i; P_InitPlayers(); // restore time in netgame (see also g_game.c) if ((netgame || multiplayer) && G_GametypeUsesCoopStarposts() && cv_coopstarposts.value == 2) { // is this a hack? maybe tic_t maxstarposttime = 0; for (i = 0; i < MAXPLAYERS; i++) { if (playeringame[i] && players[i].starposttime > maxstarposttime) maxstarposttime = players[i].starposttime; } leveltime = maxstarposttime; } P_WriteLetter(); if (modeattacking == ATTACKING_RECORD && !demoplayback) P_LoadRecordGhosts(); else if (modeattacking == ATTACKING_NIGHTS && !demoplayback) P_LoadNightsGhosts(); if (G_TagGametype()) P_InitTagGametype(); else if (((gametyperules & (GTR_RACE|GTR_LIVES)) == GTR_RACE) && server) CV_StealthSetValue(&cv_numlaps, (cv_basenumlaps.value) ? cv_basenumlaps.value : mapheaderinfo[gamemap - 1]->numlaps); } /** Loads a level from a lump or external wad. * * \param fromnetsave If true, skip some stuff because we're loading a netgame snapshot. * \todo Clean up, refactor, split up; get rid of the bloat. */ boolean P_LoadLevel(boolean fromnetsave, boolean reloadinggamestate) { // use gamemap to get map number. // 99% of the things already did, so. // Map header should always be in place at this point INT32 i, ranspecialwipe = 0; sector_t *ss; levelloading = true; // This is needed. Don't touch. maptol = mapheaderinfo[gamemap-1]->typeoflevel; gametyperules = gametypedefaultrules[gametype]; CON_Drawer(); // let the user know what we are going to do I_FinishUpdate(); // page flip or blit buffer // Reset the palette if (rendermode != render_none) V_SetPaletteLump("PLAYPAL"); // Initialize sector node list. P_Initsecnode(); if (netgame || multiplayer) cv_debug = botskin = 0; if (metalplayback) G_StopMetalDemo(); // Clear CECHO messages HU_ClearCEcho(); if (mapheaderinfo[gamemap-1]->runsoc[0] != '#') P_RunSOC(mapheaderinfo[gamemap-1]->runsoc); if (cv_runscripts.value && mapheaderinfo[gamemap-1]->scriptname[0] != '#') P_RunLevelScript(mapheaderinfo[gamemap-1]->scriptname); P_InitLevelSettings(); postimgtype = postimgtype2 = postimg_none; if (mapheaderinfo[gamemap-1]->forcecharacter[0] != '\0') P_ForceCharacter(mapheaderinfo[gamemap-1]->forcecharacter); if (!dedicated) { // chasecam on in first-person gametypes and 2D boolean chase = (!(gametyperules & GTR_FIRSTPERSON)) || (maptol & TOL_2D); // Salt: CV_ClearChangedFlags() messes with your settings :( /*if (!cv_cam_speed.changed) CV_Set(&cv_cam_speed, cv_cam_speed.defaultvalue);*/ CV_UpdateCamDist(); CV_UpdateCam2Dist(); if (!cv_chasecam.changed) CV_SetValue(&cv_chasecam, chase); // same for second player if (!cv_chasecam2.changed) CV_SetValue(&cv_chasecam2, chase); } // Initial height of PointOfView // will be set by player think. players[consoleplayer].viewz = 1; // Cancel all d_main.c fadeouts (keep fade in though). if (reloadinggamestate) wipegamestate = gamestate; // Don't fade if reloading the gamestate else wipegamestate = FORCEWIPEOFF; wipestyleflags = 0; // Special stage & record attack retry fade to white // This is handled BEFORE sounds are stopped. if (G_GetModeAttackRetryFlag()) { if (modeattacking && !demoplayback) { ranspecialwipe = 2; wipestyleflags |= (WSF_FADEOUT|WSF_TOWHITE); } G_ClearModeAttackRetryFlag(); } else if (rendermode != render_none && G_IsSpecialStage(gamemap)) { P_RunSpecialStageWipe(); ranspecialwipe = 1; } // Make sure all sounds are stopped before Z_FreeTags. S_StopSounds(); S_ClearSfx(); // Fade out music here. Deduct 2 tics so the fade volume actually reaches 0. // But don't halt the music! S_Start will take care of that. This dodges a MIDI crash bug. if (!(reloadinggamestate || titlemapinaction) && (RESETMUSIC || strnicmp(S_MusicName(), (mapmusflags & MUSIC_RELOADRESET) ? mapheaderinfo[gamemap-1]->musname : mapmusname, 7))) { S_FadeMusic(0, FixedMul( FixedDiv((F_GetWipeLength(wipedefs[wipe_level_toblack])-2)*NEWTICRATERATIO, NEWTICRATE), MUSICRATE)); } // Let's fade to black here // But only if we didn't do the special stage wipe if (rendermode != render_none && !(ranspecialwipe || reloadinggamestate)) P_RunLevelWipe(); if (!(reloadinggamestate || titlemapinaction)) { if (ranspecialwipe == 2) { pausedelay = -3; // preticker plus one S_StartSound(NULL, sfx_s3k73); } // Print "SPEEDING OFF TO [ZONE] [ACT 1]..." if (rendermode != render_none) { // Don't include these in the fade! char tx[64]; V_DrawSmallString(1, 191, V_ALLOWLOWERCASE|V_TRANSLUCENT|V_SNAPTOLEFT|V_SNAPTOBOTTOM, M_GetText("Speeding off to...")); snprintf(tx, 63, "%s%s%s", mapheaderinfo[gamemap-1]->lvlttl, (mapheaderinfo[gamemap-1]->levelflags & LF_NOZONE) ? "" : " Zone", (mapheaderinfo[gamemap-1]->actnum > 0) ? va(" %d",mapheaderinfo[gamemap-1]->actnum) : ""); V_DrawSmallString(1, 195, V_ALLOWLOWERCASE|V_TRANSLUCENT|V_SNAPTOLEFT|V_SNAPTOBOTTOM, tx); I_UpdateNoVsync(); } // As oddly named as this is, this handles music only. // We should be fine starting it here. // Don't do this during titlemap, because the menu code handles music by itself. S_Start(); } levelfadecol = (ranspecialwipe) ? 0 : 31; // Close text prompt before freeing the old level F_EndTextPrompt(false, true); LUA_InvalidateLevel(); for (ss = sectors; sectors+numsectors != ss; ss++) { Z_Free(ss->attached); Z_Free(ss->attachedsolid); } // Clear pointers that would be left dangling by the purge R_FlushTranslationColormapCache(); #ifdef HWRENDER // Free GPU textures before freeing patches. if (rendermode == render_opengl && (vid.glstate == VID_GL_LIBRARY_LOADED)) HWR_ClearAllTextures(); #endif Patch_FreeTag(PU_PATCH_LOWPRIORITY); Patch_FreeTag(PU_PATCH_ROTATED); Z_FreeTags(PU_LEVEL, PU_PURGELEVEL - 1); P_InitThinkers(); P_InitCachedActions(); if (!fromnetsave && savedata.lives > 0) { numgameovers = savedata.numgameovers; players[consoleplayer].continues = savedata.continues; players[consoleplayer].lives = savedata.lives; players[consoleplayer].score = savedata.score; if ((botingame = ((botskin = savedata.botskin) != 0))) botcolor = skins[botskin-1].prefcolor; emeralds = savedata.emeralds; savedata.lives = 0; } // internal game map maplumpname = G_BuildMapName(gamemap); lastloadedmaplumpnum = W_CheckNumForName(maplumpname); if (lastloadedmaplumpnum == LUMPERROR) I_Error("Map %s not found.\n", maplumpname); R_ReInitColormaps(mapheaderinfo[gamemap-1]->palette); CON_SetupBackColormap(); // SRB2 determines the sky texture to be used depending on the map header. P_SetupLevelSky(mapheaderinfo[gamemap-1]->skynum, true); P_ResetSpawnpoints(); P_ResetWaypoints(); P_MapStart(); // tmthing can be used starting from this point P_InitSlopes(); if (!P_LoadMapFromFile()) return false; // init anything that P_SpawnSlopes/P_LoadThings needs to know P_InitSpecials(); P_SpawnSlopes(fromnetsave); P_SpawnMapThings(!fromnetsave); skyboxmo[0] = skyboxviewpnts[0]; skyboxmo[1] = skyboxcenterpnts[0]; for (numcoopstarts = 0; numcoopstarts < MAXPLAYERS; numcoopstarts++) if (!playerstarts[numcoopstarts]) break; // set up world state P_SpawnSpecials(fromnetsave); if (!fromnetsave) // ugly hack for P_NetUnArchiveMisc (and P_LoadNetGame) P_SpawnPrecipitation(); #ifdef HWRENDER // not win32 only 19990829 by Kin gl_maploaded = false; // Lactozilla: Free extrasubsectors regardless of renderer. HWR_FreeExtraSubsectors(); // Create plane polygons. if (rendermode == render_opengl) HWR_LoadLevel(); #endif // oh god I hope this helps // (addendum: apparently it does! // none of this needs to be done because it's not the beginning of the map when // a netgame save is being loaded, and could actively be harmful by messing with // the client's view of the data.) if (!fromnetsave) P_InitGametype(); if (!reloadinggamestate) { P_InitCamera(); localaiming = 0; localaiming2 = 0; } // clear special respawning que iquehead = iquetail = 0; // Remove the loading shit from the screen if (rendermode != render_none && !(titlemapinaction || reloadinggamestate)) F_WipeColorFill(levelfadecol); if (precache || dedicated) R_PrecacheLevel(); nextmapoverride = 0; skipstats = 0; if (!(netgame || multiplayer || demoplayback) && (!modifiedgame || savemoddata)) mapvisited[gamemap-1] |= MV_VISITED; else if (netgame || multiplayer) mapvisited[gamemap-1] |= MV_MP; // you want to record that you've been there this session, but not permanently levelloading = false; P_RunCachedActions(); P_MapEnd(); // tmthing is no longer needed from this point onwards // Took me 3 hours to figure out why my progression kept on getting overwritten with the titlemap... if (!titlemapinaction) { if (!lastmaploaded) // Start a new game? { // I'd love to do this in the menu code instead of here, but everything's a mess and I can't guarantee saving proper player struct info before the first act's started. You could probably refactor it, but it'd be a lot of effort. Easier to just work off known good code. ~toast 22/06/2020 if (!(ultimatemode || netgame || multiplayer || demoplayback || demorecording || metalrecording || modeattacking || marathonmode) && (!modifiedgame || savemoddata) && cursaveslot > 0) G_SaveGame((UINT32)cursaveslot, gamemap); // If you're looking for saving sp file progression (distinct from G_SaveGameOver), check G_DoCompleted. } lastmaploaded = gamemap; // HAS to be set after saving!! } if (!fromnetsave) // uglier hack { // to make a newly loaded level start on the second frame. INT32 buf = gametic % BACKUPTICS; for (i = 0; i < MAXPLAYERS; i++) { if (playeringame[i]) G_CopyTiccmd(&players[i].cmd, &netcmds[buf][i], 1); } P_PreTicker(2); P_MapStart(); // just in case MapLoad modifies tmthing LUA_HookInt(gamemap, HOOK(MapLoad)); P_MapEnd(); // just in case MapLoad modifies tmthing } // No render mode or reloading gamestate, stop here. if (rendermode == render_none || reloadinggamestate) return true; // Title card! G_StartTitleCard(); // Can the title card actually run, though? if (!WipeStageTitle) return true; if (ranspecialwipe == 2) return true; // If so... G_PreLevelTitleCard(); return true; } // // P_RunSOC // // Runs a SOC file or a lump, depending on if ".SOC" exists in the filename // boolean P_RunSOC(const char *socfilename) { lumpnum_t lump; if (strstr(socfilename, ".soc") != NULL) return P_AddWadFile(socfilename); lump = W_CheckNumForName(socfilename); if (lump == LUMPERROR) return false; CONS_Printf(M_GetText("Loading SOC lump: %s\n"), socfilename); DEH_LoadDehackedLump(lump); return true; } // Auxiliary function for PK3 loading - looks for sound replacements. // NOTE: it does not really add any new sound entry or anything. void P_LoadSoundsRange(UINT16 wadnum, UINT16 first, UINT16 num) { size_t j; lumpinfo_t *lumpinfo = wadfiles[wadnum]->lumpinfo + first; for (; num > 0; num--, lumpinfo++) { // Let's check whether it's replacing an existing sound or it's a brand new one. for (j = 1; j < NUMSFX; j++) { if (S_sfx[j].name && !strnicmp(S_sfx[j].name, lumpinfo->name + 2, 6)) { // the sound will be reloaded when needed, // since sfx->data will be NULL CONS_Debug(DBG_SETUP, "Sound %.8s replaced\n", lumpinfo->name); I_FreeSfx(&S_sfx[j]); break; // there shouldn't be two sounds with the same name, so stop looking } } } } // Auxiliary function for PK3 loading - looks for music and music replacements. // NOTE: does nothing but print debug messages. The code is handled somewhere else. void P_LoadMusicsRange(UINT16 wadnum, UINT16 first, UINT16 num) { lumpinfo_t *lumpinfo = wadfiles[wadnum]->lumpinfo + first; char *name; for (; num > 0; num--, lumpinfo++) { name = lumpinfo->name; if (name[0] == 'O' && name[1] == '_') { CONS_Debug(DBG_SETUP, "Music %.8s replaced\n", name); } else if (name[0] == 'D' && name[1] == '_') { CONS_Debug(DBG_SETUP, "Music %.8s replaced\n", name); } } return; } // Auxiliary function - input a folder name and gives us the resource markers positions. static lumpinfo_t* FindFolder(const char *folName, UINT16 *start, UINT16 *end, lumpinfo_t *lumpinfo, UINT16 *pnumlumps, size_t *pi) { UINT16 numlumps = *pnumlumps; size_t i = *pi; if (!stricmp(lumpinfo->fullname, folName)) { lumpinfo++; *start = ++i; for (; i < numlumps; i++, lumpinfo++) if (strnicmp(lumpinfo->fullname, folName, strlen(folName))) break; lumpinfo--; *end = i-- - *start; *pi = i; *pnumlumps = numlumps; return lumpinfo; } return lumpinfo; } // // Add a wadfile to the active wad files, // replace sounds, musics, patches, textures, sprites and maps // static boolean P_LoadAddon(UINT16 wadnum, UINT16 numlumps) { size_t i, j, sreplaces = 0, mreplaces = 0, digmreplaces = 0; char *name; lumpinfo_t *lumpinfo; //boolean texturechange = false; ///\todo Useless; broken when back-frontporting PK3 changes? boolean mapsadded = false; boolean replacedcurrentmap = false; // Vars to help us with the position start and amount of each resource type. // Useful for PK3s since they use folders. // WADs use markers for some resources, but others such as sounds are checked lump-by-lump anyway. // UINT16 luaPos, luaNum = 0; // UINT16 socPos, socNum = 0; UINT16 sfxPos = 0, sfxNum = 0; UINT16 musPos = 0, musNum = 0; // UINT16 sprPos, sprNum = 0; UINT16 texPos = 0, texNum = 0; // UINT16 patPos, patNum = 0; // UINT16 flaPos, flaNum = 0; // UINT16 mapPos, mapNum = 0; switch(wadfiles[wadnum]->type) { case RET_PK3: case RET_FOLDER: // Look for the lumps that act as resource delimitation markers. lumpinfo = wadfiles[wadnum]->lumpinfo; for (i = 0; i < numlumps; i++, lumpinfo++) { // lumpinfo = FindFolder("Lua/", &luaPos, &luaNum, lumpinfo, &numlumps, &i); // lumpinfo = FindFolder("SOC/", &socPos, &socNum, lumpinfo, &numlumps, &i); lumpinfo = FindFolder("Sounds/", &sfxPos, &sfxNum, lumpinfo, &numlumps, &i); lumpinfo = FindFolder("Music/", &musPos, &musNum, lumpinfo, &numlumps, &i); // lumpinfo = FindFolder("Sprites/", &sprPos, &sprNum, lumpinfo, &numlumps, &i); lumpinfo = FindFolder("Textures/", &texPos, &texNum, lumpinfo, &numlumps, &i); // lumpinfo = FindFolder("Patches/", &patPos, &patNum, lumpinfo, &numlumps, &i); // lumpinfo = FindFolder("Flats/", &flaPos, &flaNum, lumpinfo, &numlumps, &i); // lumpinfo = FindFolder("Maps/", &mapPos, &mapNum, lumpinfo, &numlumps, &i); } // Update the detected resources. // Note: ALWAYS load Lua scripts first, SOCs right after, and the remaining resources afterwards. // if (luaNum) // Lua scripts. // P_LoadLuaScrRange(wadnum, luaPos, luaNum); // if (socNum) // SOCs. // P_LoadDehackRange(wadnum, socPos, socNum); if (sfxNum) // Sounds. TODO: Function currently only updates already existing sounds, the rest is handled somewhere else. P_LoadSoundsRange(wadnum, sfxPos, sfxNum); if (musNum) // Music. TODO: Useless function right now. P_LoadMusicsRange(wadnum, musPos, musNum); // if (sprNum) // Sprites. // R_LoadSpritsRange(wadnum, sprPos, sprNum); // if (texNum) // Textures. TODO: R_LoadTextures() does the folder positioning once again. New function maybe? // R_LoadTextures(); // if (mapNum) // Maps. TODO: Actually implement the map WAD loading code, lulz. // P_LoadWadMapRange(wadnum, mapPos, mapNum); break; default: lumpinfo = wadfiles[wadnum]->lumpinfo; for (i = 0; i < numlumps; i++, lumpinfo++) { name = lumpinfo->name; if (name[0] == 'D') { if (name[1] == 'S') { for (j = 1; j < NUMSFX; j++) { if (S_sfx[j].name && !strnicmp(S_sfx[j].name, name + 2, 6)) { // the sound will be reloaded when needed, // since sfx->data will be NULL CONS_Debug(DBG_SETUP, "Sound %.8s replaced\n", name); I_FreeSfx(&S_sfx[j]); sreplaces++; break; // there shouldn't be two sounds with the same name, so stop looking } } } else if (name[1] == '_') { CONS_Debug(DBG_SETUP, "Music %.8s replaced\n", name); mreplaces++; } } else if (name[0] == 'O' && name[1] == '_') { CONS_Debug(DBG_SETUP, "Music %.8s replaced\n", name); digmreplaces++; } } break; } if (!devparm && sreplaces) CONS_Printf(M_GetText("%s sounds replaced\n"), sizeu1(sreplaces)); if (!devparm && mreplaces) CONS_Printf(M_GetText("%s midi musics replaced\n"), sizeu1(mreplaces)); if (!devparm && digmreplaces) CONS_Printf(M_GetText("%s digital musics replaced\n"), sizeu1(digmreplaces)); #ifdef HWRENDER // Free GPU textures before freeing patches. if (rendermode == render_opengl && (vid.glstate == VID_GL_LIBRARY_LOADED)) HWR_ClearAllTextures(); #endif // // search for sprite replacements // Patch_FreeTag(PU_SPRITE); Patch_FreeTag(PU_PATCH_ROTATED); R_AddSpriteDefs(wadnum); // Reload it all anyway, just in case they // added some textures but didn't insert a // TEXTURES/etc. list. R_LoadTextures(); // numtexture changes // Reload ANIMDEFS P_InitPicAnims(); // Flush and reload HUD graphics ST_UnloadGraphics(); HU_LoadGraphics(); ST_LoadGraphics(); // // look for skins // R_AddSkins(wadnum, false); // faB: wadfile index in wadfiles[] R_PatchSkins(wadnum, false); // toast: PATCH PATCH ST_ReloadSkinFaceGraphics(); // // edit music defs // S_LoadMusicDefs(wadnum); // // search for maps // lumpinfo = wadfiles[wadnum]->lumpinfo; for (i = 0; i < numlumps; i++, lumpinfo++) { name = lumpinfo->name; if (name[0] == 'M' && name[1] == 'A' && name[2] == 'P') // Ignore the headers { INT16 num; if (name[5]!='\0') continue; num = (INT16)M_MapNumber(name[3], name[4]); //If you replaced the map you're on, end the level when done. if (num == gamemap) replacedcurrentmap = true; CONS_Printf("%s\n", name); mapsadded = true; } } if (!mapsadded) CONS_Printf(M_GetText("No maps added\n")); R_LoadSpriteInfoLumps(wadnum, numlumps); #ifdef HWRENDER HWR_ReloadModels(); #endif // reload status bar (warning should have valid player!) if (gamestate == GS_LEVEL) ST_Start(); // Prevent savefile cheating if (cursaveslot > 0) cursaveslot = 0; if (replacedcurrentmap && gamestate == GS_LEVEL && (netgame || multiplayer)) { CONS_Printf(M_GetText("Current map %d replaced by added file, ending the level to ensure consistency.\n"), gamemap); if (server) SendNetXCmd(XD_EXITLEVEL, NULL, 0); } return true; } boolean P_AddWadFile(const char *wadfilename) { UINT16 numlumps, wadnum; // Init file. if ((numlumps = W_InitFile(wadfilename, false, false)) == INT16_MAX) { refreshdirmenu |= REFRESHDIR_NOTLOADED; return false; } else wadnum = (UINT16)(numwadfiles-1); return P_LoadAddon(wadnum, numlumps); } boolean P_AddFolder(const char *folderpath) { UINT16 numlumps, wadnum; // Init file. if ((numlumps = W_InitFolder(folderpath, false, false)) == INT16_MAX) { refreshdirmenu |= REFRESHDIR_NOTLOADED; return false; } else wadnum = (UINT16)(numwadfiles-1); return P_LoadAddon(wadnum, numlumps); }