string GotoMap(string m); float FullTraceFraction(vector a, vector mi, vector ma, vector b) { vector c; float white, black; white = 0.001; black = 0.001; c = a; //float n, m; //n = m = 0; while(vlen(c - b) > 1) { //++m; tracebox(c, mi, ma, b, MOVE_WORLDONLY, world); //++n; if(!trace_startsolid) { black += vlen(trace_endpos - c); c = trace_endpos; } //n += tracebox_inverted(c, mi, ma, b, MOVE_WORLDONLY, world); white += vlen(trace_endpos - c); c = trace_endpos; } //dprint("FullTraceFraction: ", ftos(n), " total traces, ", ftos(m), " iterations\n"); return white / (black + white); } float RadarMapAtPoint_Trace(float x, float y, float w, float h, float zmin, float zsize, float q) { vector a, b, mi, ma; mi = '0 0 0'; ma = '1 0 0' * w + '0 1 0' * h; a = '1 0 0' * x + '0 1 0' * y + '0 0 1' * zmin; b = '1 0 0' * x + '0 1 0' * y + '0 0 1' * (zsize + zmin); return FullTraceFraction(a, mi, ma, b); } float RadarMapAtPoint_Block(float x, float y, float w, float h, float zmin, float zsize, float q) { vector o, mi, ma; float i, r; vector dz; q = 256 * q - 1; // 256q-1 is the ideal sample count to map equal amount of sample values to one pixel value mi = '0 0 0'; dz = (zsize / q) * '0 0 1'; ma = '1 0 0' * w + '0 1 0' * h + dz; o = '1 0 0' * x + '0 1 0' * y + '0 0 1' * zmin; if(x < world.absmin_x - w) return 0; if(y < world.absmin_y - h) return 0; if(x > world.absmax_x) return 0; if(y > world.absmax_y) return 0; r = 0; for(i = 0; i < q; ++i) { tracebox(o + dz * i, mi, ma, o + dz * i, MOVE_WORLDONLY, world); if(trace_startsolid) ++r; } return r / q; } float RadarMapAtPoint_Sample(float x, float y, float w, float h, float zmin, float zsize, float q) { vector a, b, mi, ma; q *= 4; // choose q so it matches the regular algorithm in speed q = 256 * q - 1; // 256q-1 is the ideal sample count to map equal amount of sample values to one pixel value mi = '0 0 0'; ma = '1 0 0' * w + '0 1 0' * h; a = '1 0 0' * x + '0 1 0' * y + '0 0 1' * zmin; b = '1 0 0' * w + '0 1 0' * h + '0 0 1' * zsize; float c, i; c = 0; for(i = 0; i < q; ++i) { vector v; v_x = a_x + random() * b_x; v_y = a_y + random() * b_y; v_z = a_z + random() * b_z; traceline(v, v, MOVE_WORLDONLY, world); if(trace_startsolid) ++c; } return c / q; } // FF is contained twice, to map 256 to FF too // removes the need to bound() string doublehex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float RADAR_WIDTH_MAX = 2048; float RADAR_HEIGHT_MAX = 2048; float sharpen_buffer[RADAR_WIDTH_MAX * 3]; void sharpen_set(float x, float v) { sharpen_buffer[x + 2 * RADAR_WIDTH_MAX] = v; } float sharpen_getpixel(float x, float y) { if(x < 0) return 0; if(x >= RADAR_WIDTH_MAX) return 0; if(y < 0) return 0; if(y > 2) return 0; return sharpen_buffer[x + y * RADAR_WIDTH_MAX]; } float sharpen_get(float x, float a) { float sum; sum = sharpen_getpixel(x, 1); if(a == 0) return sum; sum *= (8 + 1/a); sum -= sharpen_getpixel(x - 1, 0); sum -= sharpen_getpixel(x - 1, 1); sum -= sharpen_getpixel(x - 1, 2); sum -= sharpen_getpixel(x + 1, 0); sum -= sharpen_getpixel(x + 1, 1); sum -= sharpen_getpixel(x + 1, 2); sum -= sharpen_getpixel(x, 0); sum -= sharpen_getpixel(x, 2); return bound(0, sum * a, 1); } void sharpen_shift(float w) { float i; for(i = 0; i < w; ++i) { sharpen_buffer[i] = sharpen_buffer[i + RADAR_WIDTH_MAX]; sharpen_buffer[i + RADAR_WIDTH_MAX] = sharpen_buffer[i + 2 * RADAR_WIDTH_MAX]; sharpen_buffer[i + 2 * RADAR_WIDTH_MAX] = 0; } } void sharpen_init(float w) { float i; for(i = 0; i < w; ++i) { sharpen_buffer[i] = 0; sharpen_buffer[i + RADAR_WIDTH_MAX] = 0; sharpen_buffer[i + 2 * RADAR_WIDTH_MAX] = 0; } } entity radarmapper; void RadarMap_Next() { if(radarmapper.count & 4) { localcmd("quit\n"); } else if(radarmapper.count & 2) { localcmd(strcat("defer 1 \"sv_cmd radarmap --flags ", ftos(radarmapper.count), strcat(" --res ", ftos(radarmapper.size_x), " ", ftos(radarmapper.size_y), " --sharpen ", ftos(radarmapper.ltime), " --qual ", ftos(radarmapper.size_z)), "\"\n")); GotoNextMap(); } remove(radarmapper); radarmapper = world; } // rough map entity // cnt: current line // size: pixel width/height // maxs: cell width/height // frame: counter void RadarMap_Think() { float i, x, l; string si; if(self.frame == 0) { // initialize get_mi_min_max_texcoords(1); self.mins = mi_picmin; self.maxs_x = (mi_picmax_x - mi_picmin_x) / self.size_x; self.maxs_y = (mi_picmax_y - mi_picmin_y) / self.size_y; self.maxs_z = mi_max_z - mi_min_z; print("Picture mins/maxs: ", ftos(self.maxs_x), " and ", ftos(self.maxs_y), " should match\n"); self.netname = strzone(strcat("gfx/", mi_shortname, "_radar.xpm")); if(!(self.count & 1)) { self.cnt = fopen(self.netname, FILE_READ); if(self.cnt < 0) self.cnt = fopen(strcat("gfx/", mi_shortname, "_radar.tga"), FILE_READ); if(self.cnt < 0) self.cnt = fopen(strcat("gfx/", mi_shortname, "_radar.png"), FILE_READ); if(self.cnt < 0) self.cnt = fopen(strcat("gfx/", mi_shortname, "_radar.jpg"), FILE_READ); if(self.cnt < 0) self.cnt = fopen(strcat("gfx/", mi_shortname, "_mini.tga"), FILE_READ); if(self.cnt < 0) self.cnt = fopen(strcat("gfx/", mi_shortname, "_mini.png"), FILE_READ); if(self.cnt < 0) self.cnt = fopen(strcat("gfx/", mi_shortname, "_mini.jpg"), FILE_READ); if(self.cnt >= 0) { fclose(self.cnt); print(self.netname, " already exists, aborting (you may want to specify --force)\n"); RadarMap_Next(); return; } } self.cnt = fopen(self.netname, FILE_WRITE); if(self.cnt < 0) { print("Error writing ", self.netname, "\n"); remove(self); radarmapper = world; return; } print("Writing to ", self.netname, "...\n"); fputs(self.cnt, "/* XPM */\n"); fputs(self.cnt, "static char *RadarMap[] = {\n"); fputs(self.cnt, "/* columns rows colors chars-per-pixel */\n"); fputs(self.cnt, strcat("\"", ftos(self.size_x), " ", ftos(self.size_y), " 256 2\",\n")); for(i = 0; i < 256; ++i) { si = substring(doublehex, i*2, 2); fputs(self.cnt, strcat("\"", si, " c #", si, si, si, "\",\n")); } self.frame += 1; self.nextthink = time; sharpen_init(self.size_x); } else if(self.frame <= self.size_y) { // fill the sharpen buffer with this line sharpen_shift(self.size_x); i = self.count & 24; switch(i) { case 0: default: for(x = 0; x < self.size_x; ++x) { l = RadarMapAtPoint_Block(self.mins_x + x * self.maxs_x, self.mins_y + (self.size_y - self.frame) * self.maxs_y, self.maxs_x, self.maxs_y, self.mins_z, self.maxs_z, self.size_z); sharpen_set(x, l); } break; case 8: for(x = 0; x < self.size_x; ++x) { l = RadarMapAtPoint_Trace(self.mins_x + x * self.maxs_x, self.mins_y + (self.size_y - self.frame) * self.maxs_y, self.maxs_x, self.maxs_y, self.mins_z, self.maxs_z, self.size_z); sharpen_set(x, l); } break; case 16: for(x = 0; x < self.size_x; ++x) { l = RadarMapAtPoint_Sample(self.mins_x + x * self.maxs_x, self.mins_y + (self.size_y - self.frame) * self.maxs_y, self.maxs_x, self.maxs_y, self.mins_z, self.maxs_z, self.size_z); sharpen_set(x, l); } break; } // do we have enough lines? if(self.frame >= 2) { // write a pixel line fputs(self.cnt, "\""); for(x = 0; x < self.size_x; ++x) { l = sharpen_get(x, self.ltime); fputs(self.cnt, substring(doublehex, 2 * floor(l * 256.0), 2)); } if(self.frame == self.size_y) fputs(self.cnt, "\"\n"); else { fputs(self.cnt, "\",\n"); print(ftos(self.size_y - self.frame), " lines left\n"); } } // is this the last line? then write back the missing line if(self.frame == self.size_y) { sharpen_shift(self.size_x); // write a pixel line fputs(self.cnt, "\""); for(x = 0; x < self.size_x; ++x) { l = sharpen_get(x, self.ltime); fputs(self.cnt, substring(doublehex, 2 * floor(l * 256.0), 2)); } if(self.frame == self.size_y) fputs(self.cnt, "\"\n"); else { fputs(self.cnt, "\",\n"); print(ftos(self.size_y - self.frame), " lines left\n"); } } self.frame += 1; self.nextthink = time; } else { // close the file fputs(self.cnt, "};\n"); fclose(self.cnt); print("Finished. Please edit data/", self.netname, " with an image editing application and place it in the TGA format in the gfx folder.\n"); RadarMap_Next(); } } void RadarMap(float argc) { if(radarmapper) return; float i; radarmapper = spawn(); radarmapper.classname = "radarmapper"; radarmapper.think = RadarMap_Think; radarmapper.nextthink = time; radarmapper.count = 0; radarmapper.ltime = 1; radarmapper.size_x = 512; radarmapper.size_y = 512; radarmapper.size_z = 1; for(i = 1; i < argc; ++i) { if(argv(i) == "--force") radarmapper.count |= 1; else if(argv(i) == "--loop") radarmapper.count |= 2; else if(argv(i) == "--quit") radarmapper.count |= 4; else if(argv(i) == "--block") { radarmapper.count &~= 24; } else if(argv(i) == "--trace") { radarmapper.count &~= 24; radarmapper.count |= 8; } else if(argv(i) == "--sample") { radarmapper.count &~= 24; radarmapper.count |= 16; } else if(argv(i) == "--flags") // for the recursive call { ++i; radarmapper.count = stof(argv(i)); } else if(argv(i) == "--sharpen") // for the recursive call { ++i; radarmapper.ltime = stof(argv(i)); } else if(argv(i) == "--res") // resolution { ++i; radarmapper.size_x = stof(argv(i)); ++i; radarmapper.size_y = stof(argv(i)); } else if(argv(i) == "--qual") // quality multiplier { ++i; radarmapper.size_z = stof(argv(i)); } else { remove(radarmapper); radarmapper = world; print("Usage: sv_cmd radarmap [--force] [--loop] [--quit] [--block | --trace | --sample] [--sharpen N] [--res W H] [--qual Q]\n"); print("The quality factor Q is roughly proportional to the time taken.\n"); print("--trace supports no quality factor; its result should look like --block with infinite quality factor.\n"); print("--block \n"); return; } } print("Radarmap entity spawned.\n"); } void BBox() { print("Original size: ", ftos(world.absmin_x), " ", ftos(world.absmin_y), " ", ftos(world.absmin_z)); print(" ", ftos(world.absmax_x), " ", ftos(world.absmax_y), " ", ftos(world.absmax_z), "\n"); print("Currently set size: ", ftos(world.mins_x), " ", ftos(world.mins_y), " ", ftos(world.mins_z)); print(" ", ftos(world.maxs_x), " ", ftos(world.maxs_y), " ", ftos(world.maxs_z), "\n"); print("Solid bounding box size:"); tracebox('1 0 0' * world.absmin_x, '0 1 0' * world.absmin_y + '0 0 1' * world.absmin_z, '0 1 0' * world.absmax_y + '0 0 1' * world.absmax_z, '1 0 0' * world.absmax_x, MOVE_WORLDONLY, world); if(trace_startsolid) print(" ", ftos(world.absmin_x)); else print(" ", ftos(trace_endpos_x)); tracebox('0 1 0' * world.absmin_y, '1 0 0' * world.absmin_x + '0 0 1' * world.absmin_z, '1 0 0' * world.absmax_x + '0 0 1' * world.absmax_z, '0 1 0' * world.absmax_y, MOVE_WORLDONLY, world); if(trace_startsolid) print(" ", ftos(world.absmin_y)); else print(" ", ftos(trace_endpos_y)); tracebox('0 0 1' * world.absmin_z, '1 0 0' * world.absmin_x + '0 1 0' * world.absmin_y, '1 0 0' * world.absmax_x + '0 1 0' * world.absmax_y, '0 0 1' * world.absmax_z, MOVE_WORLDONLY, world); if(trace_startsolid) print(" ", ftos(world.absmin_z)); else print(" ", ftos(trace_endpos_z)); tracebox('1 0 0' * world.absmax_x, '0 1 0' * world.absmin_y + '0 0 1' * world.absmin_z, '0 1 0' * world.absmax_y + '0 0 1' * world.absmax_z, '1 0 0' * world.absmin_x, MOVE_WORLDONLY, world); if(trace_startsolid) print(" ", ftos(world.absmax_x)); else print(" ", ftos(trace_endpos_x)); tracebox('0 1 0' * world.absmax_y, '1 0 0' * world.absmin_x + '0 0 1' * world.absmin_z, '1 0 0' * world.absmax_x + '0 0 1' * world.absmax_z, '0 1 0' * world.absmin_y, MOVE_WORLDONLY, world); if(trace_startsolid) print(" ", ftos(world.absmax_y)); else print(" ", ftos(trace_endpos_y)); tracebox('0 0 1' * world.absmax_z, '1 0 0' * world.absmin_x + '0 1 0' * world.absmin_y, '1 0 0' * world.absmax_x + '0 1 0' * world.absmax_y, '0 0 1' * world.absmin_z, MOVE_WORLDONLY, world); if(trace_startsolid) print(" ", ftos(world.absmax_z)); else print(" ", ftos(trace_endpos_z)); print("\n"); } void EffectIndexDump() { float d; float fh; string s; d = db_create(); print("begin of effects list\n"); db_put(d, "TE_GUNSHOT", "1"); print("effect TE_GUNSHOT is ", ftos(particleeffectnum("TE_GUNSHOT")), "\n"); db_put(d, "TE_GUNSHOTQUAD", "1"); print("effect TE_GUNSHOTQUAD is ", ftos(particleeffectnum("TE_GUNSHOTQUAD")), "\n"); db_put(d, "TE_SPIKE", "1"); print("effect TE_SPIKE is ", ftos(particleeffectnum("TE_SPIKE")), "\n"); db_put(d, "TE_SPIKEQUAD", "1"); print("effect TE_SPIKEQUAD is ", ftos(particleeffectnum("TE_SPIKEQUAD")), "\n"); db_put(d, "TE_SUPERSPIKE", "1"); print("effect TE_SUPERSPIKE is ", ftos(particleeffectnum("TE_SUPERSPIKE")), "\n"); db_put(d, "TE_SUPERSPIKEQUAD", "1"); print("effect TE_SUPERSPIKEQUAD is ", ftos(particleeffectnum("TE_SUPERSPIKEQUAD")), "\n"); db_put(d, "TE_WIZSPIKE", "1"); print("effect TE_WIZSPIKE is ", ftos(particleeffectnum("TE_WIZSPIKE")), "\n"); db_put(d, "TE_KNIGHTSPIKE", "1"); print("effect TE_KNIGHTSPIKE is ", ftos(particleeffectnum("TE_KNIGHTSPIKE")), "\n"); db_put(d, "TE_EXPLOSION", "1"); print("effect TE_EXPLOSION is ", ftos(particleeffectnum("TE_EXPLOSION")), "\n"); db_put(d, "TE_EXPLOSIONQUAD", "1"); print("effect TE_EXPLOSIONQUAD is ", ftos(particleeffectnum("TE_EXPLOSIONQUAD")), "\n"); db_put(d, "TE_TAREXPLOSION", "1"); print("effect TE_TAREXPLOSION is ", ftos(particleeffectnum("TE_TAREXPLOSION")), "\n"); db_put(d, "TE_TELEPORT", "1"); print("effect TE_TELEPORT is ", ftos(particleeffectnum("TE_TELEPORT")), "\n"); db_put(d, "TE_LAVASPLASH", "1"); print("effect TE_LAVASPLASH is ", ftos(particleeffectnum("TE_LAVASPLASH")), "\n"); db_put(d, "TE_SMALLFLASH", "1"); print("effect TE_SMALLFLASH is ", ftos(particleeffectnum("TE_SMALLFLASH")), "\n"); db_put(d, "TE_FLAMEJET", "1"); print("effect TE_FLAMEJET is ", ftos(particleeffectnum("TE_FLAMEJET")), "\n"); db_put(d, "EF_FLAME", "1"); print("effect EF_FLAME is ", ftos(particleeffectnum("EF_FLAME")), "\n"); db_put(d, "TE_BLOOD", "1"); print("effect TE_BLOOD is ", ftos(particleeffectnum("TE_BLOOD")), "\n"); db_put(d, "TE_SPARK", "1"); print("effect TE_SPARK is ", ftos(particleeffectnum("TE_SPARK")), "\n"); db_put(d, "TE_PLASMABURN", "1"); print("effect TE_PLASMABURN is ", ftos(particleeffectnum("TE_PLASMABURN")), "\n"); db_put(d, "TE_TEI_G3", "1"); print("effect TE_TEI_G3 is ", ftos(particleeffectnum("TE_TEI_G3")), "\n"); db_put(d, "TE_TEI_SMOKE", "1"); print("effect TE_TEI_SMOKE is ", ftos(particleeffectnum("TE_TEI_SMOKE")), "\n"); db_put(d, "TE_TEI_BIGEXPLOSION", "1"); print("effect TE_TEI_BIGEXPLOSION is ", ftos(particleeffectnum("TE_TEI_BIGEXPLOSION")), "\n"); db_put(d, "TE_TEI_PLASMAHIT", "1"); print("effect TE_TEI_PLASMAHIT is ", ftos(particleeffectnum("TE_TEI_PLASMAHIT")), "\n"); db_put(d, "EF_STARDUST", "1"); print("effect EF_STARDUST is ", ftos(particleeffectnum("EF_STARDUST")), "\n"); db_put(d, "TR_ROCKET", "1"); print("effect TR_ROCKET is ", ftos(particleeffectnum("TR_ROCKET")), "\n"); db_put(d, "TR_GRENADE", "1"); print("effect TR_GRENADE is ", ftos(particleeffectnum("TR_GRENADE")), "\n"); db_put(d, "TR_BLOOD", "1"); print("effect TR_BLOOD is ", ftos(particleeffectnum("TR_BLOOD")), "\n"); db_put(d, "TR_WIZSPIKE", "1"); print("effect TR_WIZSPIKE is ", ftos(particleeffectnum("TR_WIZSPIKE")), "\n"); db_put(d, "TR_SLIGHTBLOOD", "1"); print("effect TR_SLIGHTBLOOD is ", ftos(particleeffectnum("TR_SLIGHTBLOOD")), "\n"); db_put(d, "TR_KNIGHTSPIKE", "1"); print("effect TR_KNIGHTSPIKE is ", ftos(particleeffectnum("TR_KNIGHTSPIKE")), "\n"); db_put(d, "TR_VORESPIKE", "1"); print("effect TR_VORESPIKE is ", ftos(particleeffectnum("TR_VORESPIKE")), "\n"); db_put(d, "TR_NEHAHRASMOKE", "1"); print("effect TR_NEHAHRASMOKE is ", ftos(particleeffectnum("TR_NEHAHRASMOKE")), "\n"); db_put(d, "TR_NEXUIZPLASMA", "1"); print("effect TR_NEXUIZPLASMA is ", ftos(particleeffectnum("TR_NEXUIZPLASMA")), "\n"); db_put(d, "TR_GLOWTRAIL", "1"); print("effect TR_GLOWTRAIL is ", ftos(particleeffectnum("TR_GLOWTRAIL")), "\n"); db_put(d, "SVC_PARTICLE", "1"); print("effect SVC_PARTICLE is ", ftos(particleeffectnum("SVC_PARTICLE")), "\n"); fh = fopen("effectinfo.txt", FILE_READ); while((s = fgets(fh))) { tokenize_insane(s); // tokenize_sane would hit the loop counter :( if(argv(0) == "effect") { if(db_get(d, argv(1)) != "1") { if(particleeffectnum(argv(1)) >= 0) print("effect ", argv(1), " is ", ftos(particleeffectnum(argv(1))), "\n"); db_put(d, argv(1), "1"); } } } print("end of effects list\n"); db_close(d); } void make_mapinfo_Think() { if(MapInfo_FilterGametype(MAPINFO_TYPE_ALL, 0, 0, 0, 1)) { print("Done rebuiling mapinfos.\n"); MapInfo_FilterGametype(MapInfo_CurrentGametype(), MapInfo_CurrentFeatures(), 0, (g_maplist_allow_hidden ? MAPINFO_FLAG_HIDDEN : 0), 0); remove(self); } else { self.think = make_mapinfo_Think; self.nextthink = time; } } void GameCommand(string command) { float argc; entity client; float entno; argc = tokenize_sane(command); if(argv(0) == "help" || argc == 0) { print("Usage: sv_cmd COMMAND..., where possible commands are:\n"); print(" adminmsg clientnumber \"message\"\n"); print(" teamstatus\n"); print(" printstats\n"); print(" make_mapinfo\n"); print(" gametype dm|ctf|...\n"); print(" savedb filename\n"); print(" dumpdb filename\n"); print(" loaddb filename\n"); print(" allready\n"); print(" effectindexdump\n"); print(" radarmap [--force] [--quit | --loop] [sharpness]\n"); print(" bbox\n"); print(" cvar_changes\n"); print(" find classname\n"); GameCommand_Vote("help", world); GameCommand_Ban("help"); GameCommand_Generic("help"); return; } if(GameCommand_Vote(command, world)) return; if(GameCommand_Ban(command)) return; if(GameCommand_Generic(command)) return; if(argv(0) == "printstats") { DumpStats(FALSE); return; } if(argv(0) == "make_mapinfo") { entity e; e = spawn(); e.classname = "make_mapinfo"; e.think = make_mapinfo_Think; e.nextthink = time; MapInfo_Enumerate(); return; } if(argv(0) == "warp") if(argc == 2) if(cvar("g_campaign")) { CampaignLevelWarp(stof(argv(1))); return; } if(argv(0) == "gotomap") if(argc == 2) { print(GotoMap(argv(1)), "\n"); return; } if(argv(0) == "gametype") if(argc == 2) { float t, tsave; string s; s = argv(1); t = MapInfo_Type_FromString(s); tsave = MapInfo_CurrentGametype(); if(t) { MapInfo_SwitchGameType(t); MapInfo_FilterGametype(MapInfo_CurrentGametype(), MapInfo_CurrentFeatures(), 0, MAPINFO_FLAG_HIDDEN, 0); if(MapInfo_count > 0) { bprint("Game type successfully switched to ", s, "\n"); MapInfo_FilterGametype(MapInfo_CurrentGametype(), MapInfo_CurrentFeatures(), 0, (g_maplist_allow_hidden ? MAPINFO_FLAG_HIDDEN : 0), 0); } else { bprint("Cannot use this game type: no map for it found\n"); MapInfo_SwitchGameType(tsave); MapInfo_FilterGametype(MapInfo_CurrentGametype(), MapInfo_CurrentFeatures(), 0, (g_maplist_allow_hidden ? MAPINFO_FLAG_HIDDEN : 0), 0); } } else bprint("Game type switch to ", s, " failed: this type does not exist!\n"); return; } if(argv(0) == "adminmsg") if(argc == 3) { entno = stof(argv(1)); client = world; if(entno <= maxclients) client = edict_num(entno); if(client.flags & FL_CLIENT) { centerprint_atprio(client, CENTERPRIO_ADMIN, strcat("^3SERVER ADMIN:\n\n^7", argv(2))); sprint(client, strcat("\{1}\{13}^3SERVER ADMIN^7: ", argv(2), "\n")); print("Message sent to ", client.netname, "\n"); } else print("Client not found\n"); return; } if(argv(0) == "savedb") if(argc == 2) { db_save(ServerProgsDB, argv(1)); print("DB saved.\n"); return; } if(argv(0) == "dumpdb") if(argc == 2) { db_dump(ServerProgsDB, argv(1)); print("DB dumped.\n"); return; } if(argv(0) == "loaddb") if(argc == 2) { db_close(ServerProgsDB); ServerProgsDB = db_load(argv(1)); print("DB loaded.\n"); return; } if (argv(0) == "nospectators") { blockSpectators = 1; local entity plr; FOR_EACH_CLIENT(plr) //give every spectator seconds time to become a player { if(plr.classname == "spectator" || plr.classname == "observer") { plr.spectatortime = time; sprint(plr, strcat("^7You have to become a player within the next ", ftos(cvar("g_maxplayers_spectator_blocktime")), " seconds, otherwise you will be kicked, because spectators aren't allowed at this time!\n")); } } bprint(strcat("^7All spectators will be automatically kicked when not joining the game after ", ftos(cvar("g_maxplayers_spectator_blocktime")), " seconds!\n")); return; } if (argv(0) == "lockteams") { if(teamplay) { lockteams = 1; bprint("^1The teams are now locked.\n"); } else bprint("That command can only be used in a team-based gamemode.\n"); return; } if (argv(0) == "unlockteams") { if(teamplay) { lockteams = 0; bprint("^1The teams are now unlocked.\n"); } else bprint("That command can only be used in a team-based gamemode.\n"); return; } if (argv(0) == "movetoteam") if(argc == 3) { entno = stof(argv(1)); client = world; if(entno <= maxclients) client = edict_num(entno); if(client.flags & FL_CLIENT) { float lt; lt = lockteams; lockteams = 0; self = client; SV_ParseClientCommand(strcat("selectteam ", argv(2))); lockteams = lt; } else print("Client not found\n"); return; } if (argv(0) == "teamstatus") { Score_NicePrint(world); return; } if (argv(0) == "allready") { ReadyRestart(); return; } if (argv(0) == "effectindexdump") { EffectIndexDump(); return; } if (argv(0) == "radarmap") { RadarMap(argc); return; } if (argv(0) == "bbox") { BBox(); return; } if (argv(0) == "cvar_changes") { print(cvar_changes); return; } if (argv(0) == "find") if(argc == 2) { for(client = world; (client = find(client, classname, argv(1))); ) print(etos(client), "\n"); return; } if (argv(0) == "records") { strunzone(records_reply); records_reply = strzone(getrecords()); print(records_reply); return; } print("Invalid command. For a list of supported commands, try sv_cmd help.\n"); }