/* =========================================================================== Copyright (C) 1999-2005 Id Software, Inc. Copyright (C) 2000-2006 Tim Angus This file is part of Tremulous. Tremulous 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. Tremulous 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 Tremulous; if not, write to the Free Software Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA =========================================================================== */ // g_maprotation.c -- the map rotation system #include "g_local.h" static mapRotations_t mapRotations; /* =============== G_ParseCommandSection Parse a map rotation command section =============== */ static qboolean G_ParseMapCommandSection( mapRotationEntry_t *mre, char **text_p ) { char *token; // read optional parameters while( 1 ) { token = COM_Parse( text_p ); if( !token ) break; if( !Q_stricmp( token, "" ) ) return qfalse; if( !Q_stricmp( token, "}" ) ) return qtrue; //reached the end of this command section Q_strncpyz( mre->postCmds[ mre->numCmds ], token, sizeof( mre->postCmds[ 0 ] ) ); Q_strcat( mre->postCmds[ mre->numCmds ], sizeof( mre->postCmds[ 0 ] ), " " ); token = COM_ParseExt( text_p, qfalse ); while( token && token[ 0 ] != 0 ) { Q_strcat( mre->postCmds[ mre->numCmds ], sizeof( mre->postCmds[ 0 ] ), token ); Q_strcat( mre->postCmds[ mre->numCmds ], sizeof( mre->postCmds[ 0 ] ), " " ); token = COM_ParseExt( text_p, qfalse ); } if( mre->numCmds == MAX_MAP_COMMANDS ) { G_Printf( S_COLOR_RED "ERROR: maximum number of map commands (%d) reached\n", MAX_MAP_COMMANDS ); return qfalse; } else mre->numCmds++; } return qfalse; } /* =============== G_ParseMapRotation Parse a map rotation section =============== */ static qboolean G_ParseMapRotation( mapRotation_t *mr, char **text_p ) { char *token; qboolean mnSet = qfalse; mapRotationEntry_t *mre = NULL; mapRotationCondition_t *mrc; // read optional parameters while( 1 ) { token = COM_Parse( text_p ); if( !token ) break; if( !Q_stricmp( token, "" ) ) return qfalse; if( !Q_stricmp( token, "{" ) ) { if( !mnSet ) { G_Printf( S_COLOR_RED "ERROR: map settings section with no name\n" ); return qfalse; } if( !G_ParseMapCommandSection( mre, text_p ) ) { G_Printf( S_COLOR_RED "ERROR: failed to parse map command section\n" ); return qfalse; } mnSet = qfalse; continue; } else if( !Q_stricmp( token, "goto" ) ) { token = COM_Parse( text_p ); if( !token ) break; mrc = &mre->conditions[ mre->numConditions ]; mrc->unconditional = qtrue; Q_strncpyz( mrc->dest, token, sizeof( mrc->dest ) ); if( mre->numConditions == MAX_MAP_ROTATION_CONDS ) { G_Printf( S_COLOR_RED "ERROR: maximum number of conditions for one map (%d) reached\n", MAX_MAP_ROTATION_CONDS ); return qfalse; } else mre->numConditions++; continue; } else if( !Q_stricmp( token, "if" ) ) { token = COM_Parse( text_p ); if( !token ) break; mrc = &mre->conditions[ mre->numConditions ]; if( !Q_stricmp( token, "numClients" ) ) { mrc->lhs = MCV_NUMCLIENTS; token = COM_Parse( text_p ); if( !token ) break; if( !Q_stricmp( token, "<" ) ) mrc->op = MCO_LT; else if( !Q_stricmp( token, ">" ) ) mrc->op = MCO_GT; else if( !Q_stricmp( token, "=" ) ) mrc->op = MCO_EQ; else { G_Printf( S_COLOR_RED "ERROR: invalid operator in expression: %s\n", token ); return qfalse; } token = COM_Parse( text_p ); if( !token ) break; mrc->numClients = atoi( token ); } else if( !Q_stricmp( token, "lastWin" ) ) { mrc->lhs = MCV_LASTWIN; token = COM_Parse( text_p ); if( !token ) break; if( !Q_stricmp( token, "aliens" ) ) mrc->lastWin = PTE_ALIENS; else if( !Q_stricmp( token, "humans" ) ) mrc->lastWin = PTE_HUMANS; else { G_Printf( S_COLOR_RED "ERROR: invalid right hand side in expression: %s\n", token ); return qfalse; } } else if( !Q_stricmp( token, "random" ) ) mrc->lhs = MCV_RANDOM; else { G_Printf( S_COLOR_RED "ERROR: invalid left hand side in expression: %s\n", token ); return qfalse; } token = COM_Parse( text_p ); if( !token ) break; mrc->unconditional = qfalse; Q_strncpyz( mrc->dest, token, sizeof( mrc->dest ) ); if( mre->numConditions == MAX_MAP_ROTATION_CONDS ) { G_Printf( S_COLOR_RED "ERROR: maximum number of conditions for one map (%d) reached\n", MAX_MAP_ROTATION_CONDS ); return qfalse; } else mre->numConditions++; continue; } else if( !Q_stricmp( token, "}" ) ) return qtrue; //reached the end of this map rotation mre = &mr->maps[ mr->numMaps ]; if( mr->numMaps == MAX_MAP_ROTATION_MAPS ) { G_Printf( S_COLOR_RED "ERROR: maximum number of maps in one rotation (%d) reached\n", MAX_MAP_ROTATION_MAPS ); return qfalse; } else mr->numMaps++; Q_strncpyz( mre->name, token, sizeof( mre->name ) ); mnSet = qtrue; } return qfalse; } /* =============== G_ParseMapRotationFile Load the map rotations from a map rotation file =============== */ static qboolean G_ParseMapRotationFile( const char *fileName ) { char *text_p; int i; int len; char *token; char text[ 20000 ]; char mrName[ MAX_QPATH ]; qboolean mrNameSet = qfalse; fileHandle_t f; // load the file len = trap_FS_FOpenFile( fileName, &f, FS_READ ); if( len <= 0 ) return qfalse; if( len >= sizeof( text ) - 1 ) { G_Printf( S_COLOR_RED "ERROR: map rotation file %s too long\n", fileName ); return qfalse; } trap_FS_Read( text, len, f ); text[ len ] = 0; trap_FS_FCloseFile( f ); // parse the text text_p = text; // read optional parameters while( 1 ) { token = COM_Parse( &text_p ); if( !token ) break; if( !Q_stricmp( token, "" ) ) break; if( !Q_stricmp( token, "{" ) ) { if( mrNameSet ) { //check for name space clashes for( i = 0; i < mapRotations.numRotations; i++ ) { if( !Q_stricmp( mapRotations.rotations[ i ].name, mrName ) ) { G_Printf( S_COLOR_RED "ERROR: a map rotation is already named %s\n", mrName ); return qfalse; } } Q_strncpyz( mapRotations.rotations[ mapRotations.numRotations ].name, mrName, MAX_QPATH ); if( !G_ParseMapRotation( &mapRotations.rotations[ mapRotations.numRotations ], &text_p ) ) { G_Printf( S_COLOR_RED "ERROR: %s: failed to parse map rotation %s\n", fileName, mrName ); return qfalse; } //start parsing particle systems again mrNameSet = qfalse; if( mapRotations.numRotations == MAX_MAP_ROTATIONS ) { G_Printf( S_COLOR_RED "ERROR: maximum number of map rotations (%d) reached\n", MAX_MAP_ROTATIONS ); return qfalse; } else mapRotations.numRotations++; continue; } else { G_Printf( S_COLOR_RED "ERROR: unamed map rotation\n" ); return qfalse; } } if( !mrNameSet ) { Q_strncpyz( mrName, token, sizeof( mrName ) ); mrNameSet = qtrue; } else { G_Printf( S_COLOR_RED "ERROR: map rotation already named\n" ); return qfalse; } } return qtrue; } /* =============== G_PrintRotations Print the parsed map rotations =============== */ void G_PrintRotations( void ) { int i, j, k; G_Printf( "Map rotations as parsed:\n\n" ); for( i = 0; i < mapRotations.numRotations; i++ ) { G_Printf( "rotation: %s\n{\n", mapRotations.rotations[ i ].name ); for( j = 0; j < mapRotations.rotations[ i ].numMaps; j++ ) { G_Printf( " map: %s\n {\n", mapRotations.rotations[ i ].maps[ j ].name ); for( k = 0; k < mapRotations.rotations[ i ].maps[ j ].numCmds; k++ ) { G_Printf( " command: %s\n", mapRotations.rotations[ i ].maps[ j ].postCmds[ k ] ); } G_Printf( " }\n" ); for( k = 0; k < mapRotations.rotations[ i ].maps[ j ].numConditions; k++ ) { G_Printf( " conditional: %s\n", mapRotations.rotations[ i ].maps[ j ].conditions[ k ].dest ); } } G_Printf( "}\n" ); } G_Printf( "Total memory used: %d bytes\n", sizeof( mapRotations ) ); } /* =============== G_GetCurrentMapArray Fill a static array with the current map of each rotation =============== */ static int *G_GetCurrentMapArray( void ) { static int currentMap[ MAX_MAP_ROTATIONS ]; int i = 0; char text[ MAX_MAP_ROTATIONS * 2 ]; char *text_p, *token; Q_strncpyz( text, g_currentMap.string, sizeof( text ) ); text_p = text; while( 1 ) { token = COM_Parse( &text_p ); if( !token ) break; if( !Q_stricmp( token, "" ) ) break; currentMap[ i++ ] = atoi( token ); } return currentMap; } /* =============== G_SetCurrentMap Set the current map in some rotation =============== */ static void G_SetCurrentMap( int currentMap, int rotation ) { char text[ MAX_MAP_ROTATIONS * 2 ] = { 0 }; int *p = G_GetCurrentMapArray( ); int i; p[ rotation ] = currentMap; for( i = 0; i < mapRotations.numRotations; i++ ) Q_strcat( text, sizeof( text ), va( "%d ", p[ i ] ) ); trap_Cvar_Set( "g_currentMap", text ); trap_Cvar_Update( &g_currentMap ); } /* =============== G_GetCurrentMap Return the current map in some rotation =============== */ static int G_GetCurrentMap( int rotation ) { int *p = G_GetCurrentMapArray( ); return p[ rotation ]; } /* =============== G_IssueMapChange Send commands to the server to actually change the map =============== */ static void G_IssueMapChange( int rotation ) { int i; int map = G_GetCurrentMap( rotation ); char cmd[ MAX_TOKEN_CHARS ]; trap_SendConsoleCommand( EXEC_APPEND, va( "map %s\n", mapRotations.rotations[ rotation ].maps[ map ].name ) ); // load up map defaults if g_mapConfigs is set G_MapConfigs( ); for( i = 0; i < mapRotations.rotations[ rotation ].maps[ map ].numCmds; i++ ) { Q_strncpyz( cmd, mapRotations.rotations[ rotation ].maps[ map ].postCmds[ i ], sizeof( cmd ) ); Q_strcat( cmd, sizeof( cmd ), "\n" ); trap_SendConsoleCommand( EXEC_APPEND, cmd ); } } /* =============== G_ResolveConditionDestination Resolve the destination of some condition =============== */ static mapConditionType_t G_ResolveConditionDestination( int *n, char *name ) { int i; //search the current rotation first... for( i = 0; i < mapRotations.rotations[ g_currentMapRotation.integer ].numMaps; i++ ) { if( !Q_stricmp( mapRotations.rotations[ g_currentMapRotation.integer ].maps[ i ].name, name ) ) { *n = i; return MCT_MAP; } } //...then search the rotation names for( i = 0; i < mapRotations.numRotations; i++ ) { if( !Q_stricmp( mapRotations.rotations[ i ].name, name ) ) { *n = i; return MCT_ROTATION; } } //this should probably be prevented by a 2nd pass at compile time //but i'm lazy (FIXME) return MCT_ERR; } /* =============== G_EvaluateMapCondition Evaluate a map condition =============== */ static qboolean G_EvaluateMapCondition( mapRotationCondition_t *mrc ) { switch( mrc->lhs ) { case MCV_RANDOM: return rand( ) & 1; break; case MCV_NUMCLIENTS: switch( mrc->op ) { case MCO_LT: return level.numConnectedClients < mrc->numClients; break; case MCO_GT: return level.numConnectedClients > mrc->numClients; break; case MCO_EQ: return level.numConnectedClients == mrc->numClients; break; } break; case MCV_LASTWIN: return level.lastWin == mrc->lastWin; break; default: case MCV_ERR: G_Printf( S_COLOR_RED "ERROR: malformed map switch condition\n" ); break; } return qfalse; } /* =============== G_AdvanceMapRotation Increment the current map rotation =============== */ qboolean G_AdvanceMapRotation( void ) { mapRotation_t *mr; mapRotationEntry_t *mre; mapRotationCondition_t *mrc; int currentRotation, currentMap, nextMap; int i, n; mapConditionType_t mct; if( ( currentRotation = g_currentMapRotation.integer ) == NOT_ROTATING ) return qfalse; currentMap = G_GetCurrentMap( currentRotation ); mr = &mapRotations.rotations[ currentRotation ]; mre = &mr->maps[ currentMap ]; nextMap = ( currentMap + 1 ) % mr->numMaps; for( i = 0; i < mre->numConditions; i++ ) { mrc = &mre->conditions[ i ]; if( mrc->unconditional || G_EvaluateMapCondition( mrc ) ) { mct = G_ResolveConditionDestination( &n, mrc->dest ); switch( mct ) { case MCT_MAP: nextMap = n; break; case MCT_ROTATION: G_StartMapRotation( mrc->dest, qtrue ); return qtrue; break; default: case MCT_ERR: G_Printf( S_COLOR_YELLOW "WARNING: map switch destination could not be resolved: %s\n", mrc->dest ); break; } } } G_SetCurrentMap( nextMap, currentRotation ); G_IssueMapChange( currentRotation ); return qtrue; } /* =============== G_StartMapRotation Switch to a new map rotation =============== */ qboolean G_StartMapRotation( char *name, qboolean changeMap ) { int i; for( i = 0; i < mapRotations.numRotations; i++ ) { if( !Q_stricmp( mapRotations.rotations[ i ].name, name ) ) { trap_Cvar_Set( "g_currentMapRotation", va( "%d", i ) ); trap_Cvar_Update( &g_currentMapRotation ); if( changeMap ) G_IssueMapChange( i ); break; } } if( i == mapRotations.numRotations ) return qfalse; else return qtrue; } /* =============== G_StopMapRotation Stop the current map rotation =============== */ void G_StopMapRotation( void ) { trap_Cvar_Set( "g_currentMapRotation", va( "%d", NOT_ROTATING ) ); trap_Cvar_Update( &g_currentMapRotation ); } /* =============== G_MapRotationActive Test if any map rotation is currently active =============== */ qboolean G_MapRotationActive( void ) { return ( g_currentMapRotation.integer != NOT_ROTATING ); } /* =============== G_InitMapRotations Load and intialise the map rotations =============== */ void G_InitMapRotations( void ) { const char *fileName = "maprotation.cfg"; fileHandle_t f; //load the file if it exists if( trap_FS_FOpenFile( fileName, &f, FS_READ ) > 0 ) { trap_FS_FCloseFile( f ); if( !G_ParseMapRotationFile( fileName ) ) G_Printf( S_COLOR_RED "ERROR: failed to parse %s file\n", fileName ); } else G_Printf( "%s file not found.\n", fileName ); if( g_currentMapRotation.integer == NOT_ROTATING ) { if( g_initialMapRotation.string[ 0 ] != 0 ) { G_StartMapRotation( g_initialMapRotation.string, qfalse ); trap_Cvar_Set( "g_initialMapRotation", "" ); trap_Cvar_Update( &g_initialMapRotation ); } } }