ref: f21a753a80c4034db22926835af88117e021eff0
dir: /code/game/g_spawn.c/
/* =========================================================================== Copyright (C) 1999-2005 Id Software, Inc. This file is part of Quake III Arena source code. Quake III Arena source code is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. Quake III Arena source code is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with Foobar; if not, write to the Free Software Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA =========================================================================== */ // #include "g_local.h" qboolean G_SpawnString( const char *key, const char *defaultString, char **out ) { int i; if ( !level.spawning ) { *out = (char *)defaultString; // G_Error( "G_SpawnString() called while not spawning" ); } for ( i = 0 ; i < level.numSpawnVars ; i++ ) { if ( !Q_stricmp( key, level.spawnVars[i][0] ) ) { *out = level.spawnVars[i][1]; return qtrue; } } *out = (char *)defaultString; return qfalse; } qboolean G_SpawnFloat( const char *key, const char *defaultString, float *out ) { char *s; qboolean present; present = G_SpawnString( key, defaultString, &s ); *out = atof( s ); return present; } qboolean G_SpawnInt( const char *key, const char *defaultString, int *out ) { char *s; qboolean present; present = G_SpawnString( key, defaultString, &s ); *out = atoi( s ); return present; } qboolean G_SpawnVector( const char *key, const char *defaultString, float *out ) { char *s; qboolean present; present = G_SpawnString( key, defaultString, &s ); sscanf( s, "%f %f %f", &out[0], &out[1], &out[2] ); return present; } // // fields are needed for spawning from the entity string // typedef enum { F_INT, F_FLOAT, F_LSTRING, // string on disk, pointer in memory, TAG_LEVEL F_GSTRING, // string on disk, pointer in memory, TAG_GAME F_VECTOR, F_ANGLEHACK, F_ENTITY, // index on disk, pointer in memory F_ITEM, // index on disk, pointer in memory F_CLIENT, // index on disk, pointer in memory F_IGNORE } fieldtype_t; typedef struct { char *name; int ofs; fieldtype_t type; int flags; } field_t; field_t fields[] = { {"classname", FOFS(classname), F_LSTRING}, {"origin", FOFS(s.origin), F_VECTOR}, {"model", FOFS(model), F_LSTRING}, {"model2", FOFS(model2), F_LSTRING}, {"spawnflags", FOFS(spawnflags), F_INT}, {"speed", FOFS(speed), F_FLOAT}, {"target", FOFS(target), F_LSTRING}, {"targetname", FOFS(targetname), F_LSTRING}, {"message", FOFS(message), F_LSTRING}, {"team", FOFS(team), F_LSTRING}, {"wait", FOFS(wait), F_FLOAT}, {"random", FOFS(random), F_FLOAT}, {"count", FOFS(count), F_INT}, {"health", FOFS(health), F_INT}, {"light", 0, F_IGNORE}, {"dmg", FOFS(damage), F_INT}, {"angles", FOFS(s.angles), F_VECTOR}, {"angle", FOFS(s.angles), F_ANGLEHACK}, {"targetShaderName", FOFS(targetShaderName), F_LSTRING}, {"targetShaderNewName", FOFS(targetShaderNewName), F_LSTRING}, {NULL} }; typedef struct { char *name; void (*spawn)(gentity_t *ent); } spawn_t; void SP_info_player_start (gentity_t *ent); void SP_info_player_deathmatch (gentity_t *ent); void SP_info_player_intermission (gentity_t *ent); void SP_info_firstplace(gentity_t *ent); void SP_info_secondplace(gentity_t *ent); void SP_info_thirdplace(gentity_t *ent); void SP_info_podium(gentity_t *ent); void SP_func_plat (gentity_t *ent); void SP_func_static (gentity_t *ent); void SP_func_rotating (gentity_t *ent); void SP_func_bobbing (gentity_t *ent); void SP_func_pendulum( gentity_t *ent ); void SP_func_button (gentity_t *ent); void SP_func_door (gentity_t *ent); void SP_func_train (gentity_t *ent); void SP_func_timer (gentity_t *self); void SP_trigger_always (gentity_t *ent); void SP_trigger_multiple (gentity_t *ent); void SP_trigger_push (gentity_t *ent); void SP_trigger_teleport (gentity_t *ent); void SP_trigger_hurt (gentity_t *ent); void SP_target_remove_powerups( gentity_t *ent ); void SP_target_give (gentity_t *ent); void SP_target_delay (gentity_t *ent); void SP_target_speaker (gentity_t *ent); void SP_target_print (gentity_t *ent); void SP_target_laser (gentity_t *self); void SP_target_character (gentity_t *ent); void SP_target_score( gentity_t *ent ); void SP_target_teleporter( gentity_t *ent ); void SP_target_relay (gentity_t *ent); void SP_target_kill (gentity_t *ent); void SP_target_position (gentity_t *ent); void SP_target_location (gentity_t *ent); void SP_target_push (gentity_t *ent); void SP_light (gentity_t *self); void SP_info_null (gentity_t *self); void SP_info_notnull (gentity_t *self); void SP_info_camp (gentity_t *self); void SP_path_corner (gentity_t *self); void SP_misc_teleporter_dest (gentity_t *self); void SP_misc_model(gentity_t *ent); void SP_misc_portal_camera(gentity_t *ent); void SP_misc_portal_surface(gentity_t *ent); void SP_shooter_rocket( gentity_t *ent ); void SP_shooter_plasma( gentity_t *ent ); void SP_shooter_grenade( gentity_t *ent ); void SP_team_CTF_redplayer( gentity_t *ent ); void SP_team_CTF_blueplayer( gentity_t *ent ); void SP_team_CTF_redspawn( gentity_t *ent ); void SP_team_CTF_bluespawn( gentity_t *ent ); #ifdef MISSIONPACK void SP_team_blueobelisk( gentity_t *ent ); void SP_team_redobelisk( gentity_t *ent ); void SP_team_neutralobelisk( gentity_t *ent ); #endif void SP_item_botroam( gentity_t *ent ) {}; spawn_t spawns[] = { // info entities don't do anything at all, but provide positional // information for things controlled by other processes {"info_player_start", SP_info_player_start}, {"info_player_deathmatch", SP_info_player_deathmatch}, {"info_player_intermission", SP_info_player_intermission}, {"info_null", SP_info_null}, {"info_notnull", SP_info_notnull}, // use target_position instead {"info_camp", SP_info_camp}, {"func_plat", SP_func_plat}, {"func_button", SP_func_button}, {"func_door", SP_func_door}, {"func_static", SP_func_static}, {"func_rotating", SP_func_rotating}, {"func_bobbing", SP_func_bobbing}, {"func_pendulum", SP_func_pendulum}, {"func_train", SP_func_train}, {"func_group", SP_info_null}, {"func_timer", SP_func_timer}, // rename trigger_timer? // Triggers are brush objects that cause an effect when contacted // by a living player, usually involving firing targets. // While almost everything could be done with // a single trigger class and different targets, triggered effects // could not be client side predicted (push and teleport). {"trigger_always", SP_trigger_always}, {"trigger_multiple", SP_trigger_multiple}, {"trigger_push", SP_trigger_push}, {"trigger_teleport", SP_trigger_teleport}, {"trigger_hurt", SP_trigger_hurt}, // targets perform no action by themselves, but must be triggered // by another entity {"target_give", SP_target_give}, {"target_remove_powerups", SP_target_remove_powerups}, {"target_delay", SP_target_delay}, {"target_speaker", SP_target_speaker}, {"target_print", SP_target_print}, {"target_laser", SP_target_laser}, {"target_score", SP_target_score}, {"target_teleporter", SP_target_teleporter}, {"target_relay", SP_target_relay}, {"target_kill", SP_target_kill}, {"target_position", SP_target_position}, {"target_location", SP_target_location}, {"target_push", SP_target_push}, {"light", SP_light}, {"path_corner", SP_path_corner}, {"misc_teleporter_dest", SP_misc_teleporter_dest}, {"misc_model", SP_misc_model}, {"misc_portal_surface", SP_misc_portal_surface}, {"misc_portal_camera", SP_misc_portal_camera}, {"shooter_rocket", SP_shooter_rocket}, {"shooter_grenade", SP_shooter_grenade}, {"shooter_plasma", SP_shooter_plasma}, {"team_CTF_redplayer", SP_team_CTF_redplayer}, {"team_CTF_blueplayer", SP_team_CTF_blueplayer}, {"team_CTF_redspawn", SP_team_CTF_redspawn}, {"team_CTF_bluespawn", SP_team_CTF_bluespawn}, #ifdef MISSIONPACK {"team_redobelisk", SP_team_redobelisk}, {"team_blueobelisk", SP_team_blueobelisk}, {"team_neutralobelisk", SP_team_neutralobelisk}, #endif {"item_botroam", SP_item_botroam}, {0, 0} }; /* =============== G_CallSpawn Finds the spawn function for the entity and calls it, returning qfalse if not found =============== */ qboolean G_CallSpawn( gentity_t *ent ) { spawn_t *s; gitem_t *item; if ( !ent->classname ) { G_Printf ("G_CallSpawn: NULL classname\n"); return qfalse; } // check item spawn functions for ( item=bg_itemlist+1 ; item->classname ; item++ ) { if ( !strcmp(item->classname, ent->classname) ) { G_SpawnItem( ent, item ); return qtrue; } } // check normal spawn functions for ( s=spawns ; s->name ; s++ ) { if ( !strcmp(s->name, ent->classname) ) { // found it s->spawn(ent); return qtrue; } } G_Printf ("%s doesn't have a spawn function\n", ent->classname); return qfalse; } /* ============= G_NewString Builds a copy of the string, translating \n to real linefeeds so message texts can be multi-line ============= */ char *G_NewString( const char *string ) { char *newb, *new_p; int i,l; l = strlen(string) + 1; newb = G_Alloc( l ); new_p = newb; // turn \n into a real linefeed for ( i=0 ; i< l ; i++ ) { if (string[i] == '\\' && i < l-1) { i++; if (string[i] == 'n') { *new_p++ = '\n'; } else { *new_p++ = '\\'; } } else { *new_p++ = string[i]; } } return newb; } /* =============== G_ParseField Takes a key/value pair and sets the binary values in a gentity =============== */ void G_ParseField( const char *key, const char *value, gentity_t *ent ) { field_t *f; byte *b; float v; vec3_t vec; for ( f=fields ; f->name ; f++ ) { if ( !Q_stricmp(f->name, key) ) { // found it b = (byte *)ent; switch( f->type ) { case F_LSTRING: *(char **)(b+f->ofs) = G_NewString (value); break; case F_VECTOR: sscanf (value, "%f %f %f", &vec[0], &vec[1], &vec[2]); ((float *)(b+f->ofs))[0] = vec[0]; ((float *)(b+f->ofs))[1] = vec[1]; ((float *)(b+f->ofs))[2] = vec[2]; break; case F_INT: *(int *)(b+f->ofs) = atoi(value); break; case F_FLOAT: *(float *)(b+f->ofs) = atof(value); break; case F_ANGLEHACK: v = atof(value); ((float *)(b+f->ofs))[0] = 0; ((float *)(b+f->ofs))[1] = v; ((float *)(b+f->ofs))[2] = 0; break; default: case F_IGNORE: break; } return; } } } /* =================== G_SpawnGEntityFromSpawnVars Spawn an entity and fill in all of the level fields from level.spawnVars[], then call the class specfic spawn function =================== */ void G_SpawnGEntityFromSpawnVars( void ) { int i; gentity_t *ent; char *s, *value, *gametypeName; static char *gametypeNames[] = {"ffa", "tournament", "single", "team", "ctf", "oneflag", "obelisk", "harvester", "teamtournament"}; // get the next free entity ent = G_Spawn(); for ( i = 0 ; i < level.numSpawnVars ; i++ ) { G_ParseField( level.spawnVars[i][0], level.spawnVars[i][1], ent ); } // check for "notsingle" flag if ( g_gametype.integer == GT_SINGLE_PLAYER ) { G_SpawnInt( "notsingle", "0", &i ); if ( i ) { G_FreeEntity( ent ); return; } } // check for "notteam" flag (GT_FFA, GT_TOURNAMENT, GT_SINGLE_PLAYER) if ( g_gametype.integer >= GT_TEAM ) { G_SpawnInt( "notteam", "0", &i ); if ( i ) { G_FreeEntity( ent ); return; } } else { G_SpawnInt( "notfree", "0", &i ); if ( i ) { G_FreeEntity( ent ); return; } } #ifdef MISSIONPACK G_SpawnInt( "notta", "0", &i ); if ( i ) { G_FreeEntity( ent ); return; } #else G_SpawnInt( "notq3a", "0", &i ); if ( i ) { G_FreeEntity( ent ); return; } #endif if( G_SpawnString( "gametype", NULL, &value ) ) { if( g_gametype.integer >= GT_FFA && g_gametype.integer < GT_MAX_GAME_TYPE ) { gametypeName = gametypeNames[g_gametype.integer]; s = strstr( value, gametypeName ); if( !s ) { G_FreeEntity( ent ); return; } } } // move editor origin to pos VectorCopy( ent->s.origin, ent->s.pos.trBase ); VectorCopy( ent->s.origin, ent->r.currentOrigin ); // if we didn't get a classname, don't bother spawning anything if ( !G_CallSpawn( ent ) ) { G_FreeEntity( ent ); } } /* ==================== G_AddSpawnVarToken ==================== */ char *G_AddSpawnVarToken( const char *string ) { int l; char *dest; l = strlen( string ); if ( level.numSpawnVarChars + l + 1 > MAX_SPAWN_VARS_CHARS ) { G_Error( "G_AddSpawnVarToken: MAX_SPAWN_CHARS" ); } dest = level.spawnVarChars + level.numSpawnVarChars; memcpy( dest, string, l+1 ); level.numSpawnVarChars += l + 1; return dest; } /* ==================== G_ParseSpawnVars Parses a brace bounded set of key / value pairs out of the level's entity strings into level.spawnVars[] This does not actually spawn an entity. ==================== */ qboolean G_ParseSpawnVars( void ) { char keyname[MAX_TOKEN_CHARS]; char com_token[MAX_TOKEN_CHARS]; level.numSpawnVars = 0; level.numSpawnVarChars = 0; // parse the opening brace if ( !trap_GetEntityToken( com_token, sizeof( com_token ) ) ) { // end of spawn string return qfalse; } if ( com_token[0] != '{' ) { G_Error( "G_ParseSpawnVars: found %s when expecting {",com_token ); } // go through all the key / value pairs while ( 1 ) { // parse key if ( !trap_GetEntityToken( keyname, sizeof( keyname ) ) ) { G_Error( "G_ParseSpawnVars: EOF without closing brace" ); } if ( keyname[0] == '}' ) { break; } // parse value if ( !trap_GetEntityToken( com_token, sizeof( com_token ) ) ) { G_Error( "G_ParseSpawnVars: EOF without closing brace" ); } if ( com_token[0] == '}' ) { G_Error( "G_ParseSpawnVars: closing brace without data" ); } if ( level.numSpawnVars == MAX_SPAWN_VARS ) { G_Error( "G_ParseSpawnVars: MAX_SPAWN_VARS" ); } level.spawnVars[ level.numSpawnVars ][0] = G_AddSpawnVarToken( keyname ); level.spawnVars[ level.numSpawnVars ][1] = G_AddSpawnVarToken( com_token ); level.numSpawnVars++; } return qtrue; } /*QUAKED worldspawn (0 0 0) ? Every map should have exactly one worldspawn. "music" music wav file "gravity" 800 is default gravity "message" Text to print during connection process */ void SP_worldspawn( void ) { char *s; G_SpawnString( "classname", "", &s ); if ( Q_stricmp( s, "worldspawn" ) ) { G_Error( "SP_worldspawn: The first entity isn't 'worldspawn'" ); } // make some data visible to connecting client trap_SetConfigstring( CS_GAME_VERSION, GAME_VERSION ); trap_SetConfigstring( CS_LEVEL_START_TIME, va("%i", level.startTime ) ); G_SpawnString( "music", "", &s ); trap_SetConfigstring( CS_MUSIC, s ); G_SpawnString( "message", "", &s ); trap_SetConfigstring( CS_MESSAGE, s ); // map specific message trap_SetConfigstring( CS_MOTD, g_motd.string ); // message of the day G_SpawnString( "gravity", "800", &s ); trap_Cvar_Set( "g_gravity", s ); G_SpawnString( "enableDust", "0", &s ); trap_Cvar_Set( "g_enableDust", s ); G_SpawnString( "enableBreath", "0", &s ); trap_Cvar_Set( "g_enableBreath", s ); g_entities[ENTITYNUM_WORLD].s.number = ENTITYNUM_WORLD; g_entities[ENTITYNUM_WORLD].classname = "worldspawn"; // see if we want a warmup time trap_SetConfigstring( CS_WARMUP, "" ); if ( g_restarted.integer ) { trap_Cvar_Set( "g_restarted", "0" ); level.warmupTime = 0; } else if ( g_doWarmup.integer ) { // Turn it on level.warmupTime = -1; trap_SetConfigstring( CS_WARMUP, va("%i", level.warmupTime) ); G_LogPrintf( "Warmup:\n" ); } } /* ============== G_SpawnEntitiesFromString Parses textual entity definitions out of an entstring and spawns gentities. ============== */ void G_SpawnEntitiesFromString( void ) { // allow calls to G_Spawn*() level.spawning = qtrue; level.numSpawnVars = 0; // the worldspawn is not an actual entity, but it still // has a "spawn" function to perform any global setup // needed by a level (setting configstrings or cvars, etc) if ( !G_ParseSpawnVars() ) { G_Error( "SpawnEntities: no entities" ); } SP_worldspawn(); // parse ents while( G_ParseSpawnVars() ) { G_SpawnGEntityFromSpawnVars(); } level.spawning = qfalse; // any future calls to G_Spawn*() will be errors }