void GameEntity::freeUp() { SV_UnlinkEntity( this ); // unlink from world //if( neverFree_ ) // return; //memset( ed, 0, sizeof(*ed) ); cleanAll(); classname_ = "freed"; freetime_ = theLevel.time_; inuse_ = false; }
/* ============= PhysicsEntitySetTransform ============= */ static void PhysicsEntitySetTransform ( const NewtonBody* body, const dFloat* matrix, int threadIndex ) { if(com_sv_running->integer) { sharedEntity_t *ent = (sharedEntity_t*)NewtonBodyGetUserData (body); vec3_t newPosition, angles, axis[3]; SV_UnlinkEntity (ent); newPosition[0] = matrix[12]; newPosition[1] = matrix[13]; newPosition[2] = matrix[14]; // update the origin. VectorScale (newPosition, METRES_PER_UNIT, newPosition); VectorCopy (newPosition, ent->s.pos.trBase); VectorCopy (newPosition, ent->r.currentOrigin); VectorCopy (newPosition, ent->s.origin); axis[0][0] = matrix[0]; axis[0][1] = matrix[1]; axis[0][2] = matrix[2]; axis[1][0] = matrix[4]; axis[1][1] = matrix[5]; axis[1][2] = matrix[6]; axis[2][0] = matrix[8]; axis[2][1] = matrix[9]; axis[2][2] = matrix[10]; AxisToAngles (axis, angles); VectorCopy (angles, ent->s.apos.trBase); VectorCopy (angles, ent->r.currentAngles); VectorCopy (angles, ent->s.angles); SV_LinkEntity (ent); #if defined(_DEBUG) Com_Printf ("PHYSICS: updating %d new position %s\n", ent->s.number, vtos (newPosition)); #endif } }
/* ==================== SV_GameSystemCalls The module is making a system call ==================== */ intptr_t SV_GameSystemCalls(intptr_t * args) { switch (args[0]) { case G_PRINT: Com_Printf("%s", (char *)VMA(1)); return 0; case G_ERROR: Com_Error(ERR_DROP, "%s", (char *)VMA(1)); return 0; case G_MILLISECONDS: return Sys_Milliseconds(); case G_CVAR_REGISTER: Cvar_Register((vmCvar_t*)VMA(1), (char*)VMA(2), (char*)VMA(3), args[4]); return 0; case G_CVAR_UPDATE: Cvar_Update((vmCvar_t*)VMA(1)); return 0; case G_CVAR_SET: Cvar_Set((const char *)VMA(1), (const char *)VMA(2)); return 0; case G_CVAR_VARIABLE_INTEGER_VALUE: return Cvar_VariableIntegerValue((const char *)VMA(1)); case G_CVAR_VARIABLE_STRING_BUFFER: Cvar_VariableStringBuffer((char *)VMA(1), (char*)VMA(2), args[3]); return 0; case G_CVAR_LATCHEDVARIABLESTRINGBUFFER: Cvar_LatchedVariableStringBuffer((char *)VMA(1), (char*)VMA(2), args[3]); return 0; case G_ARGC: return Cmd_Argc(); case G_ARGV: Cmd_ArgvBuffer(args[1], (char*)VMA(2), args[3]); return 0; case G_SEND_CONSOLE_COMMAND: Cbuf_ExecuteText(args[1], (char *)VMA(2)); return 0; case G_FS_FOPEN_FILE: return FS_FOpenFileByMode((char *)VMA(1), (fileHandle_t*)VMA(2), (fsMode_t)args[3]); case G_FS_READ: FS_Read2(VMA(1), args[2], args[3]); return 0; case G_FS_WRITE: return FS_Write(VMA(1), args[2], args[3]); case G_FS_RENAME: FS_Rename((char *)VMA(1), (char *)VMA(2)); return 0; case G_FS_FCLOSE_FILE: FS_FCloseFile(args[1]); return 0; case G_FS_GETFILELIST: return FS_GetFileList((char *)VMA(1), (char *)VMA(2), (char*)VMA(3), args[4]); case G_LOCATE_GAME_DATA: SV_LocateGameData((sharedEntity_t*)VMA(1), args[2], args[3], (playerState_t*)VMA(4), args[5]); return 0; case G_DROP_CLIENT: SV_GameDropClient(args[1], (char*)VMA(2), args[3]); return 0; case G_SEND_SERVER_COMMAND: SV_GameSendServerCommand(args[1], (char*)VMA(2)); return 0; case G_LINKENTITY: SV_LinkEntity((sharedEntity_t*)VMA(1)); return 0; case G_UNLINKENTITY: SV_UnlinkEntity((sharedEntity_t*)VMA(1)); return 0; case G_ENTITIES_IN_BOX: return SV_AreaEntities((float*)VMA(1), (float*)VMA(2), (int*)VMA(3), args[4]); case G_ENTITY_CONTACT: return SV_EntityContact((float*)VMA(1), (float*)VMA(2), (sharedEntity_t*)VMA(3), TT_AABB); case G_ENTITY_CONTACTCAPSULE: return SV_EntityContact((float*)VMA(1), (float*)VMA(2), (sharedEntity_t*)VMA(3), TT_CAPSULE); case G_TRACE: SV_Trace((trace_t*)VMA(1), (float*)VMA(2), (float*)VMA(3), (float*)VMA(4), (float*)VMA(5), args[6], args[7], TT_AABB); return 0; case G_TRACECAPSULE: SV_Trace((trace_t*)VMA(1), (float*)VMA(2), (float*)VMA(3), (float*)VMA(4), (float*)VMA(5), args[6], args[7], TT_CAPSULE); return 0; case G_POINT_CONTENTS: return SV_PointContents((float*)VMA(1), args[2]); case G_SET_BRUSH_MODEL: SV_SetBrushModel((sharedEntity_t*)VMA(1), (char*)VMA(2)); return 0; case G_IN_PVS: return SV_inPVS((float*)VMA(1), (float*)VMA(2)); case G_IN_PVS_IGNORE_PORTALS: return SV_inPVSIgnorePortals((float*)VMA(1), (float*)VMA(2)); case G_SET_CONFIGSTRING: SV_SetConfigstring(args[1], (char*)VMA(2)); return 0; case G_GET_CONFIGSTRING: SV_GetConfigstring(args[1], (char*)VMA(2), args[3]); return 0; case G_SET_CONFIGSTRING_RESTRICTIONS: SV_SetConfigstringRestrictions( args[1], (clientList_t*)VMA(2) ); return 0; case G_SET_USERINFO: SV_SetUserinfo(args[1], (char*)VMA(2)); return 0; case G_GET_USERINFO: SV_GetUserinfo(args[1], (char*)VMA(2), args[3]); return 0; case G_GET_SERVERINFO: SV_GetServerinfo((char*)VMA(1), args[2]); return 0; case G_ADJUST_AREA_PORTAL_STATE: SV_AdjustAreaPortalState((sharedEntity_t*)VMA(1),(bool)args[2]); return 0; case G_AREAS_CONNECTED: return CM_AreasConnected(args[1], args[2]); case G_UPDATE_SHARED_CONFIG: SV_UpdateSharedConfig( args[1], (char*)VMA(2) ); return 0; case G_BOT_ALLOCATE_CLIENT: return SV_BotAllocateClient(args[1]); case G_BOT_FREE_CLIENT: SV_BotFreeClient(args[1]); return 0; case G_GET_USERCMD: SV_GetUsercmd(args[1], (usercmd_t*)VMA(2)); return 0; case G_GET_ENTITY_TOKEN: { const char *s; s = COM_Parse(&sv.entityParsePoint); Q_strncpyz((char*)VMA(1), s, args[2]); if(!sv.entityParsePoint && !s[0]) { return false; } else { return true; } } case G_DEBUG_POLYGON_CREATE: return BotImport_DebugPolygonCreate(args[1], args[2], (vec3_t*)VMA(3)); case G_DEBUG_POLYGON_DELETE: BotImport_DebugPolygonDelete(args[1]); return 0; case G_REAL_TIME: return Com_RealTime((qtime_t*)VMA(1)); case G_SNAPVECTOR: Q_SnapVector((float*)VMA(1)); return 0; case G_SEND_GAMESTAT: SV_MasterGameStat( (char*)VMA(1) ); return 0; case G_ADDCOMMAND: Cmd_AddCommand( (char*)VMA(1), NULL, (char*)VMA(3) ); return 0; case G_REMOVECOMMAND: Cmd_RemoveCommand( (char*)VMA(1) ); return 0; case G_GETTAG: return SV_GetTag(args[1], args[2], (char*)VMA(3), (orientation_t*)VMA(4)); case G_REGISTERTAG: return SV_LoadTag((char*)VMA(1)); case G_REGISTERSOUND: return S_RegisterSound((char*)VMA(1), (bool)args[2]); case G_GET_SOUND_LENGTH: return S_GetSoundLength(args[1]); case G_PARSE_ADD_GLOBAL_DEFINE: return Parse_AddGlobalDefine( (char*)VMA(1) ); case G_PARSE_LOAD_SOURCE: return Parse_LoadSourceHandle( (char*)VMA(1) ); case G_PARSE_FREE_SOURCE: return Parse_FreeSourceHandle( args[1] ); case G_PARSE_READ_TOKEN: return Parse_ReadTokenHandle( args[1], (pc_token_t*)VMA(2) ); case G_PARSE_SOURCE_FILE_AND_LINE: return Parse_SourceFileAndLine( args[1], (char*)VMA(2), (int*)VMA(3) ); case BOTLIB_SETUP: return SV_BotLibSetup(); case BOTLIB_SHUTDOWN: return SV_BotLibShutdown(); case BOTLIB_LIBVAR_SET: return botlib_export->BotLibVarSet((char*)VMA(1), (char*)VMA(2)); case BOTLIB_LIBVAR_GET: return botlib_export->BotLibVarGet((char*)VMA(1), (char*)VMA(2), args[3]); case BOTLIB_PC_ADD_GLOBAL_DEFINE: return Parse_AddGlobalDefine( (char*)VMA(1) ); case BOTLIB_PC_LOAD_SOURCE: return Parse_LoadSourceHandle((char*)VMA(1)); case BOTLIB_PC_FREE_SOURCE: return Parse_FreeSourceHandle(args[1]); case BOTLIB_PC_READ_TOKEN: return Parse_ReadTokenHandle(args[1], (pc_token_t*)VMA(2)); case BOTLIB_PC_SOURCE_FILE_AND_LINE: return Parse_SourceFileAndLine(args[1], (char*)VMA(2), (int*)VMA(3)); case BOTLIB_PC_UNREAD_TOKEN: Parse_UnreadLastTokenHandle(args[1]); return 0; case BOTLIB_START_FRAME: return botlib_export->BotLibStartFrame(VMF(1)); case BOTLIB_LOAD_MAP: return botlib_export->BotLibLoadMap((char*)VMA(1)); case BOTLIB_UPDATENTITY: return botlib_export->BotLibUpdateEntity(args[1], (bot_entitystate_t*)VMA(2)); case BOTLIB_TEST: return botlib_export->Test( args[1], (char*)VMA(2), (float*)VMA(3), (float*)VMA(4) ); case BOTLIB_GET_SNAPSHOT_ENTITY: return SV_BotGetSnapshotEntity(args[1], args[2]); case BOTLIB_GET_CONSOLE_MESSAGE: return SV_BotGetConsoleMessage(args[1], (char*)VMA(2), args[3]); case BOTLIB_USER_COMMAND: SV_ClientThink(&svs.clients[args[1]], (usercmd_t*)VMA(2)); return 0; case BOTLIB_AAS_ENTITY_INFO: botlib_export->aas.AAS_EntityInfo(args[1], (aas_entityinfo_s*)VMA(2)); return 0; case BOTLIB_AAS_INITIALIZED: return botlib_export->aas.AAS_Initialized(); case BOTLIB_AAS_PRESENCE_TYPE_BOUNDING_BOX: botlib_export->aas.AAS_PresenceTypeBoundingBox( args[1], (float*)VMA(2), (float*)VMA(3) ); return 0; case BOTLIB_AAS_TIME: return FloatAsInt(botlib_export->aas.AAS_Time()); case BOTLIB_AAS_SETCURRENTWORLD: botlib_export->aas.AAS_SetCurrentWorld(args[1]); return 0; case BOTLIB_AAS_POINT_AREA_NUM: return botlib_export->aas.AAS_PointAreaNum( (float*)VMA(1) ); case BOTLIB_AAS_TRACE_AREAS: return botlib_export->aas.AAS_TraceAreas( (float*)VMA(1), (float*)VMA(2), (int*)VMA(3), (vec3_t*)VMA(4), args[5] ); case BOTLIB_AAS_BBOX_AREAS: return botlib_export->aas.AAS_BBoxAreas( (float*)VMA(1), (float*)VMA(2), (int*)VMA(3), args[4] ); case BOTLIB_AAS_AREA_CENTER: botlib_export->aas.AAS_AreaCenter(args[1], (float*)VMA(2)); return 0; case BOTLIB_AAS_AREA_WAYPOINT: return botlib_export->aas.AAS_AreaWaypoint(args[1], (float*)VMA(2)); case BOTLIB_AAS_POINT_CONTENTS: return botlib_export->aas.AAS_PointContents((float*)VMA(1)); case BOTLIB_AAS_NEXT_BSP_ENTITY: return botlib_export->aas.AAS_NextBSPEntity(args[1]); case BOTLIB_AAS_VALUE_FOR_BSP_EPAIR_KEY: return botlib_export->aas.AAS_ValueForBSPEpairKey(args[1], (char*)VMA(2), (char*)VMA(3), args[4]); case BOTLIB_AAS_VECTOR_FOR_BSP_EPAIR_KEY: return botlib_export->aas.AAS_VectorForBSPEpairKey(args[1], (char*)VMA(2), (float*)VMA(3)); case BOTLIB_AAS_FLOAT_FOR_BSP_EPAIR_KEY: return botlib_export->aas.AAS_FloatForBSPEpairKey(args[1], (char*)VMA(2), (float*)VMA(3)); case BOTLIB_AAS_INT_FOR_BSP_EPAIR_KEY: return botlib_export->aas.AAS_IntForBSPEpairKey(args[1], (char*)VMA(2), (int*)VMA(3)); case BOTLIB_AAS_AREA_REACHABILITY: return botlib_export->aas.AAS_AreaReachability(args[1]); case BOTLIB_AAS_AREA_LADDER: return botlib_export->aas.AAS_AreaLadder(args[1]); case BOTLIB_AAS_AREA_TRAVEL_TIME_TO_GOAL_AREA: return botlib_export->aas.AAS_AreaTravelTimeToGoalArea(args[1], (float*)VMA(2), args[3], args[4]); case BOTLIB_AAS_SWIMMING: return botlib_export->aas.AAS_Swimming((float*)VMA(1)); case BOTLIB_AAS_PREDICT_CLIENT_MOVEMENT: return botlib_export->aas.AAS_PredictClientMovement((aas_clientmove_s*)VMA(1), args[2], (float*)VMA(3), args[4], args[5], (float*)VMA(6), (float*)VMA(7), args[8], args[9], VMF(10), args[11], args[12], args[13]); case BOTLIB_AAS_RT_SHOWROUTE: botlib_export->aas.AAS_RT_ShowRoute((float*)VMA(1), args[2], args[3]); return 0; case BOTLIB_AAS_NEARESTHIDEAREA: return botlib_export->aas.AAS_NearestHideArea(args[1], (float*)VMA(2), args[3], args[4], (float*)VMA(5), args[6], args[7], VMF(8), (float*)VMA(9)); case BOTLIB_AAS_LISTAREASINRANGE: return botlib_export->aas.AAS_ListAreasInRange((float*)VMA(1), args[2], VMF(3), args[4], (vec3_t*)VMA(5), args[6]); case BOTLIB_AAS_AVOIDDANGERAREA: return botlib_export->aas.AAS_AvoidDangerArea((float*)VMA(1), args[2], (float*)VMA(3), args[4], VMF(5), args[6]); case BOTLIB_AAS_RETREAT: return botlib_export->aas.AAS_Retreat((int*)VMA(1), args[2], (float*)VMA(3), args[4], (float*)VMA(5), args[6], VMF(7), VMF(8), args[9]); case BOTLIB_AAS_ALTROUTEGOALS: return botlib_export->aas.AAS_AlternativeRouteGoals((float*)VMA(1), (float*)VMA(2), args[3], (aas_altroutegoal_t*)VMA(4), args[5], args[6]); case BOTLIB_AAS_SETAASBLOCKINGENTITY: botlib_export->aas.AAS_SetAASBlockingEntity((float*)VMA(1), (float*)VMA(2), args[3]); return 0; case BOTLIB_AAS_RECORDTEAMDEATHAREA: botlib_export->aas.AAS_RecordTeamDeathArea((float*)VMA(1), args[2], args[3], args[4], args[5]); return 0; case BOTLIB_EA_SAY: botlib_export->ea.EA_Say(args[1], (char*)VMA(2)); return 0; case BOTLIB_EA_SAY_TEAM: botlib_export->ea.EA_SayTeam(args[1], (char*)VMA(2)); return 0; case BOTLIB_EA_USE_ITEM: botlib_export->ea.EA_UseItem(args[1], (char*)VMA(2)); return 0; case BOTLIB_EA_DROP_ITEM: botlib_export->ea.EA_DropItem(args[1], (char*)VMA(2)); return 0; case BOTLIB_EA_USE_INV: botlib_export->ea.EA_UseInv(args[1], (char*)VMA(2)); return 0; case BOTLIB_EA_DROP_INV: botlib_export->ea.EA_DropInv(args[1], (char*)VMA(2)); return 0; case BOTLIB_EA_GESTURE: botlib_export->ea.EA_Gesture(args[1]); return 0; case BOTLIB_EA_COMMAND: botlib_export->ea.EA_Command(args[1], (char*)VMA(2)); return 0; case BOTLIB_EA_SELECT_WEAPON: botlib_export->ea.EA_SelectWeapon(args[1], args[2]); return 0; case BOTLIB_EA_TALK: botlib_export->ea.EA_Talk(args[1]); return 0; case BOTLIB_EA_ATTACK: botlib_export->ea.EA_Attack(args[1]); return 0; case BOTLIB_EA_RELOAD: botlib_export->ea.EA_Reload(args[1]); return 0; case BOTLIB_EA_USE: botlib_export->ea.EA_Use(args[1]); return 0; case BOTLIB_EA_RESPAWN: botlib_export->ea.EA_Respawn(args[1]); return 0; case BOTLIB_EA_JUMP: botlib_export->ea.EA_Jump(args[1]); return 0; case BOTLIB_EA_DELAYED_JUMP: botlib_export->ea.EA_DelayedJump(args[1]); return 0; case BOTLIB_EA_CROUCH: botlib_export->ea.EA_Crouch(args[1]); return 0; case BOTLIB_EA_WALK: botlib_export->ea.EA_Walk(args[1]); return 0; case BOTLIB_EA_MOVE_UP: botlib_export->ea.EA_MoveUp(args[1]); return 0; case BOTLIB_EA_MOVE_DOWN: botlib_export->ea.EA_MoveDown(args[1]); return 0; case BOTLIB_EA_MOVE_FORWARD: botlib_export->ea.EA_MoveForward(args[1]); return 0; case BOTLIB_EA_MOVE_BACK: botlib_export->ea.EA_MoveBack(args[1]); return 0; case BOTLIB_EA_MOVE_LEFT: botlib_export->ea.EA_MoveLeft(args[1]); return 0; case BOTLIB_EA_MOVE_RIGHT: botlib_export->ea.EA_MoveRight(args[1]); return 0; case BOTLIB_EA_MOVE: botlib_export->ea.EA_Move(args[1], (float*)VMA(2), VMF(3)); return 0; case BOTLIB_EA_VIEW: botlib_export->ea.EA_View(args[1], (float*)VMA(2)); return 0; case BOTLIB_EA_PRONE: botlib_export->ea.EA_Prone(args[1]); return 0; case BOTLIB_EA_END_REGULAR: botlib_export->ea.EA_EndRegular(args[1], VMF(2)); return 0; case BOTLIB_EA_GET_INPUT: botlib_export->ea.EA_GetInput(args[1], VMF(2), (bot_input_t*)VMA(3)); return 0; case BOTLIB_EA_RESET_INPUT: botlib_export->ea.EA_ResetInput(args[1], (bot_input_t*)VMA(2)); return 0; case BOTLIB_AI_LOAD_CHARACTER: return botlib_export->ai.BotLoadCharacter((char*)VMA(1), args[2]); case BOTLIB_AI_FREE_CHARACTER: botlib_export->ai.BotFreeCharacter(args[1]); return 0; case BOTLIB_AI_CHARACTERISTIC_FLOAT: return FloatAsInt(botlib_export->ai.Characteristic_Float(args[1], args[2])); case BOTLIB_AI_CHARACTERISTIC_BFLOAT: return FloatAsInt(botlib_export->ai.Characteristic_BFloat(args[1], args[2], VMF(3), VMF(4))); case BOTLIB_AI_CHARACTERISTIC_INTEGER: return botlib_export->ai.Characteristic_Integer(args[1], args[2]); case BOTLIB_AI_CHARACTERISTIC_BINTEGER: return botlib_export->ai.Characteristic_BInteger(args[1], args[2], args[3], args[4]); case BOTLIB_AI_CHARACTERISTIC_STRING: botlib_export->ai.Characteristic_String(args[1], args[2], (char*)VMA(3), args[4]); return 0; case BOTLIB_AI_ALLOC_CHAT_STATE: return botlib_export->ai.BotAllocChatState(); case BOTLIB_AI_FREE_CHAT_STATE: botlib_export->ai.BotFreeChatState(args[1]); return 0; case BOTLIB_AI_QUEUE_CONSOLE_MESSAGE: botlib_export->ai.BotQueueConsoleMessage(args[1], args[2], (char*)VMA(3)); return 0; case BOTLIB_AI_REMOVE_CONSOLE_MESSAGE: botlib_export->ai.BotRemoveConsoleMessage(args[1], args[2]); return 0; case BOTLIB_AI_NEXT_CONSOLE_MESSAGE: return botlib_export->ai.BotNextConsoleMessage(args[1], (bot_consolemessage_s*)VMA(2)); case BOTLIB_AI_NUM_CONSOLE_MESSAGE: return botlib_export->ai.BotNumConsoleMessages(args[1]); case BOTLIB_AI_INITIAL_CHAT: botlib_export->ai.BotInitialChat(args[1], (char*)VMA(2), args[3], (char*)VMA(4), (char*)VMA(5), (char*)VMA(6), (char*)VMA(7), (char*)VMA(8), (char*)VMA(9), (char*)VMA(10), (char*)VMA(11)); return 0; case BOTLIB_AI_NUM_INITIAL_CHATS: return botlib_export->ai.BotNumInitialChats(args[1], (char*)VMA(2)); case BOTLIB_AI_REPLY_CHAT: return botlib_export->ai.BotReplyChat(args[1], (char*)VMA(2), args[3], args[4], (char*)VMA(5), (char*)VMA(6), (char*)VMA(7), (char*)VMA(8), (char*)VMA(9), (char*)VMA(10), (char*)VMA(11), (char*)VMA(12)); case BOTLIB_AI_CHAT_LENGTH: return botlib_export->ai.BotChatLength(args[1]); case BOTLIB_AI_ENTER_CHAT: botlib_export->ai.BotEnterChat(args[1], args[2], args[3]); return 0; case BOTLIB_AI_GET_CHAT_MESSAGE: botlib_export->ai.BotGetChatMessage(args[1], (char*)VMA(2), args[3]); return 0; case BOTLIB_AI_STRING_CONTAINS: return botlib_export->ai.StringContains((char*)VMA(1), (char*)VMA(2), args[3]); case BOTLIB_AI_FIND_MATCH: return botlib_export->ai.BotFindMatch((char*)VMA(1), (bot_match_s*)VMA(2), args[3]); case BOTLIB_AI_MATCH_VARIABLE: botlib_export->ai.BotMatchVariable((bot_match_s*)VMA(1), args[2], (char*)VMA(3), args[4]); return 0; case BOTLIB_AI_UNIFY_WHITE_SPACES: botlib_export->ai.UnifyWhiteSpaces((char*)VMA(1)); return 0; case BOTLIB_AI_REPLACE_SYNONYMS: botlib_export->ai.BotReplaceSynonyms((char*)VMA(1), args[2]); return 0; case BOTLIB_AI_LOAD_CHAT_FILE: return botlib_export->ai.BotLoadChatFile(args[1], (char*)VMA(2), (char*)VMA(3)); case BOTLIB_AI_SET_CHAT_GENDER: botlib_export->ai.BotSetChatGender(args[1], args[2]); return 0; case BOTLIB_AI_SET_CHAT_NAME: botlib_export->ai.BotSetChatName(args[1], (char*)VMA(2)); return 0; case BOTLIB_AI_RESET_GOAL_STATE: botlib_export->ai.BotResetGoalState(args[1]); return 0; case BOTLIB_AI_RESET_AVOID_GOALS: botlib_export->ai.BotResetAvoidGoals(args[1]); return 0; case BOTLIB_AI_REMOVE_FROM_AVOID_GOALS: botlib_export->ai.BotRemoveFromAvoidGoals(args[1], args[2]); return 0; case BOTLIB_AI_PUSH_GOAL: botlib_export->ai.BotPushGoal(args[1], (bot_goal_s*)VMA(2)); return 0; case BOTLIB_AI_POP_GOAL: botlib_export->ai.BotPopGoal(args[1]); return 0; case BOTLIB_AI_EMPTY_GOAL_STACK: botlib_export->ai.BotEmptyGoalStack(args[1]); return 0; case BOTLIB_AI_DUMP_AVOID_GOALS: botlib_export->ai.BotDumpAvoidGoals(args[1]); return 0; case BOTLIB_AI_DUMP_GOAL_STACK: botlib_export->ai.BotDumpGoalStack(args[1]); return 0; case BOTLIB_AI_GOAL_NAME: botlib_export->ai.BotGoalName(args[1], (char*)VMA(2), args[3]); return 0; case BOTLIB_AI_GET_TOP_GOAL: return botlib_export->ai.BotGetTopGoal(args[1], (bot_goal_s*)VMA(2)); case BOTLIB_AI_GET_SECOND_GOAL: return botlib_export->ai.BotGetSecondGoal(args[1], (bot_goal_s*)VMA(2)); case BOTLIB_AI_CHOOSE_LTG_ITEM: return botlib_export->ai.BotChooseLTGItem(args[1], (float*)VMA(2), (int*)VMA(3), args[4]); case BOTLIB_AI_CHOOSE_NBG_ITEM: return botlib_export->ai.BotChooseNBGItem(args[1], (float*)VMA(2), (int*)VMA(3), args[4], (bot_goal_s*)VMA(5), VMF(6)); case BOTLIB_AI_TOUCHING_GOAL: return botlib_export->ai.BotTouchingGoal((float*)VMA(1), (bot_goal_s*)VMA(2)); case BOTLIB_AI_ITEM_GOAL_IN_VIS_BUT_NOT_VISIBLE: return botlib_export->ai.BotItemGoalInVisButNotVisible(args[1], (float*)VMA(2), (float*)VMA(3), (bot_goal_s*)VMA(4)); case BOTLIB_AI_GET_LEVEL_ITEM_GOAL: return botlib_export->ai.BotGetLevelItemGoal(args[1], (char*)VMA(2), (bot_goal_s*)VMA(3)); case BOTLIB_AI_GET_NEXT_CAMP_SPOT_GOAL: return botlib_export->ai.BotGetNextCampSpotGoal(args[1], (bot_goal_s*)VMA(2)); case BOTLIB_AI_GET_MAP_LOCATION_GOAL: return botlib_export->ai.BotGetMapLocationGoal((char*)VMA(1), (bot_goal_s*)VMA(2)); case BOTLIB_AI_AVOID_GOAL_TIME: return FloatAsInt(botlib_export->ai.BotAvoidGoalTime(args[1], args[2])); case BOTLIB_AI_INIT_LEVEL_ITEMS: botlib_export->ai.BotInitLevelItems(); return 0; case BOTLIB_AI_UPDATE_ENTITY_ITEMS: botlib_export->ai.BotUpdateEntityItems(); return 0; case BOTLIB_AI_LOAD_ITEM_WEIGHTS: return botlib_export->ai.BotLoadItemWeights(args[1], (char*)VMA(2)); case BOTLIB_AI_FREE_ITEM_WEIGHTS: botlib_export->ai.BotFreeItemWeights(args[1]); return 0; case BOTLIB_AI_INTERBREED_GOAL_FUZZY_LOGIC: botlib_export->ai.BotInterbreedGoalFuzzyLogic(args[1], args[2], args[3]); return 0; case BOTLIB_AI_SAVE_GOAL_FUZZY_LOGIC: botlib_export->ai.BotSaveGoalFuzzyLogic(args[1], (char*)VMA(2)); return 0; case BOTLIB_AI_MUTATE_GOAL_FUZZY_LOGIC: botlib_export->ai.BotMutateGoalFuzzyLogic(args[1], VMF(2)); return 0; case BOTLIB_AI_ALLOC_GOAL_STATE: return botlib_export->ai.BotAllocGoalState(args[1]); case BOTLIB_AI_FREE_GOAL_STATE: botlib_export->ai.BotFreeGoalState(args[1]); return 0; case BOTLIB_AI_RESET_MOVE_STATE: botlib_export->ai.BotResetMoveState(args[1]); return 0; case BOTLIB_AI_MOVE_TO_GOAL: botlib_export->ai.BotMoveToGoal((bot_moveresult_s*)VMA(1), args[2], (bot_goal_s*)VMA(3), args[4]); return 0; case BOTLIB_AI_MOVE_IN_DIRECTION: return botlib_export->ai.BotMoveInDirection(args[1], (float*)VMA(2), VMF(3), args[4]); case BOTLIB_AI_RESET_AVOID_REACH: botlib_export->ai.BotResetAvoidReach(args[1]); return 0; case BOTLIB_AI_RESET_LAST_AVOID_REACH: botlib_export->ai.BotResetLastAvoidReach(args[1]); return 0; case BOTLIB_AI_REACHABILITY_AREA: return botlib_export->ai.BotReachabilityArea((float*)VMA(1), args[2]); case BOTLIB_AI_MOVEMENT_VIEW_TARGET: return botlib_export->ai.BotMovementViewTarget(args[1], (bot_goal_s*)VMA(2), args[3], VMF(4), (float*)VMA(5)); case BOTLIB_AI_PREDICT_VISIBLE_POSITION: return botlib_export->ai.BotPredictVisiblePosition((float*)VMA(1), args[2], (bot_goal_s*)VMA(3), args[4], (vec_t*)VMA(5)); case BOTLIB_AI_ALLOC_MOVE_STATE: return botlib_export->ai.BotAllocMoveState(); case BOTLIB_AI_FREE_MOVE_STATE: botlib_export->ai.BotFreeMoveState(args[1]); return 0; case BOTLIB_AI_INIT_MOVE_STATE: botlib_export->ai.BotInitMoveState(args[1], (bot_initmove_s*)VMA(2)); return 0; case BOTLIB_AI_INIT_AVOID_REACH: botlib_export->ai.BotInitAvoidReach(args[1]); return 0; case BOTLIB_AI_CHOOSE_BEST_FIGHT_WEAPON: return botlib_export->ai.BotChooseBestFightWeapon(args[1], (int*)VMA(2)); case BOTLIB_AI_GET_WEAPON_INFO: botlib_export->ai.BotGetWeaponInfo(args[1], args[2], (weaponinfo_s*)VMA(3)); return 0; case BOTLIB_AI_LOAD_WEAPON_WEIGHTS: return botlib_export->ai.BotLoadWeaponWeights(args[1], (char*)VMA(2)); case BOTLIB_AI_ALLOC_WEAPON_STATE: return botlib_export->ai.BotAllocWeaponState(); case BOTLIB_AI_FREE_WEAPON_STATE: botlib_export->ai.BotFreeWeaponState(args[1]); return 0; case BOTLIB_AI_RESET_WEAPON_STATE: botlib_export->ai.BotResetWeaponState(args[1]); return 0; case BOTLIB_AI_GENETIC_PARENTS_AND_CHILD_SELECTION: return botlib_export->ai.GeneticParentsAndChildSelection(args[1], (float*)VMA(2), (int*)VMA(3), (int*)VMA(4), (int*)VMA(5)); case G_ADD_PHYSICS_ENTITY: #ifdef USE_PHYSICS CMod_PhysicsAddEntity((sharedEntity_t*)VMA(1)); #endif return 0; case G_ADD_PHYSICS_STATIC: #ifdef USE_PHYSICS CMod_PhysicsAddStatic((sharedEntity_t*)VMA(1)); #endif return 0; case TRAP_MEMSET: memset(VMA(1), args[2], args[3]); return 0; case TRAP_MEMCPY: memcpy(VMA(1), VMA(2), args[3]); return 0; case TRAP_STRNCPY: return (intptr_t)strncpy( (char*)VMA( 1 ), (char*)VMA( 2 ), args[3] ); case TRAP_SIN: return FloatAsInt(sin(VMF(1))); case TRAP_COS: return FloatAsInt(cos(VMF(1))); case TRAP_ATAN2: return FloatAsInt(atan2(VMF(1), VMF(2))); case TRAP_SQRT: return FloatAsInt(sqrt(VMF(1))); case TRAP_MATRIXMULTIPLY: AxisMultiply((vec3_t*)VMA(1), (vec3_t*)VMA(2), (vec3_t*)VMA(3)); return 0; case TRAP_ANGLEVECTORS: AngleVectors((vec_t*)VMA(1), (vec_t*)VMA(2), (vec_t*)VMA(3), (vec_t*)VMA(4)); return 0; case TRAP_PERPENDICULARVECTOR: PerpendicularVector((vec_t*)VMA(1), (vec_t*)VMA(2)); return 0; case TRAP_FLOOR: return FloatAsInt(floor(VMF(1))); case TRAP_CEIL: return FloatAsInt(ceil(VMF(1))); case G_SENDMESSAGE: SV_SendBinaryMessage(args[1], (char*)VMA(2), args[3]); return 0; case G_MESSAGESTATUS: return SV_BinaryMessageStatus(args[1]); #if defined(ET_MYSQL) case G_SQL_RUNQUERY: return OW_RunQuery( (char*)VMA(1) ); case G_SQL_FINISHQUERY: OW_FinishQuery( args[1] ); return 0; case G_SQL_NEXTROW: return OW_NextRow( args[1] ); case G_SQL_ROWCOUNT: return OW_RowCount( args[1] ); case G_SQL_GETFIELDBYID: OW_GetFieldByID( args[1], args[2], (char*)VMA(3), args[4] ); return 0; case G_SQL_GETFIELDBYNAME: OW_GetFieldByName( args[1], (char*)VMA(2), (char*)VMA(3), args[4] ); return 0; case G_SQL_GETFIELDBYID_INT: return OW_GetFieldByID_int( args[1], args[2] ); case G_SQL_GETFIELDBYNAME_INT: return OW_GetFieldByName_int( args[1], (char*)VMA(2) ); case G_SQL_FIELDCOUNT: return OW_FieldCount( args[1] ); case G_SQL_CLEANSTRING: OW_CleanString( (char*)VMA(1), (char*)VMA(2), args[3] ); return 0; #endif case G_RSA_GENMSG: return SV_RSAGenMsg( (char*)VMA(1), (char*)VMA(2), (char*)VMA(3) ); default: Com_Error( ERR_DROP, "Bad game system trap: %ld", (long int) args[0] ); } return -1; }
void SV_LinkEntity( sharedEntity_t *gEnt ) { worldSector_t *node; int leafs[MAX_TOTAL_ENT_LEAFS]; int cluster; int num_leafs; int i, j, k; int area; int lastLeaf; float *origin, *angles; svEntity_t *ent; ent = SV_SvEntityForGentity( gEnt ); if ( ent->worldSector ) { SV_UnlinkEntity( gEnt ); // unlink from old position } // encode the size into the entityState_t for client prediction if ( gEnt->r.bmodel ) { gEnt->s.solid = SOLID_BMODEL; // a solid_box will never create this value } else if ( gEnt->r.contents & ( CONTENTS_SOLID | CONTENTS_BODY ) ) { // assume that x/y are equal and symetric i = gEnt->r.maxs[0]; if (i<1) i = 1; if (i>255) i = 255; // z is not symetric j = (-gEnt->r.mins[2]); if (j<1) j = 1; if (j>255) j = 255; // and z maxs can be negative... k = (gEnt->r.maxs[2]+32); if (k<1) k = 1; if (k>255) k = 255; gEnt->s.solid = (k<<16) | (j<<8) | i; } else { gEnt->s.solid = 0; } // get the position origin = gEnt->r.currentOrigin; angles = gEnt->r.currentAngles; // set the abs box if ( gEnt->r.bmodel && (angles[0] || angles[1] || angles[2]) ) { // expand for rotation float max; int i; max = RadiusFromBounds( gEnt->r.mins, gEnt->r.maxs ); for (i=0 ; i<3 ; i++) { gEnt->r.absmin[i] = origin[i] - max; gEnt->r.absmax[i] = origin[i] + max; } } else { // normal VectorAdd (origin, gEnt->r.mins, gEnt->r.absmin); VectorAdd (origin, gEnt->r.maxs, gEnt->r.absmax); } // because movement is clipped an epsilon away from an actual edge, // we must fully check even when bounding boxes don't quite touch gEnt->r.absmin[0] -= 1; gEnt->r.absmin[1] -= 1; gEnt->r.absmin[2] -= 1; gEnt->r.absmax[0] += 1; gEnt->r.absmax[1] += 1; gEnt->r.absmax[2] += 1; // link to PVS leafs ent->numClusters = 0; ent->lastCluster = 0; ent->areanum = -1; ent->areanum2 = -1; //get all leafs, including solids num_leafs = CM_BoxLeafnums( gEnt->r.absmin, gEnt->r.absmax, leafs, MAX_TOTAL_ENT_LEAFS, &lastLeaf ); // if none of the leafs were inside the map, the // entity is outside the world and can be considered unlinked if ( !num_leafs ) { return; } // set areas, even from clusters that don't fit in the entity array for (i=0 ; i<num_leafs ; i++) { area = CM_LeafArea (leafs[i]); if (area != -1) { // doors may legally straggle two areas, // but nothing should evern need more than that if (ent->areanum != -1 && ent->areanum != area) { if (ent->areanum2 != -1 && ent->areanum2 != area && sv.state == SS_LOADING) { Com_DPrintf ("Object %i touching 3 areas at %f %f %f\n", gEnt->s.number, gEnt->r.absmin[0], gEnt->r.absmin[1], gEnt->r.absmin[2]); } ent->areanum2 = area; } else { ent->areanum = area; } } } // store as many explicit clusters as we can ent->numClusters = 0; for (i=0 ; i < num_leafs ; i++) { cluster = CM_LeafCluster( leafs[i] ); if ( cluster != -1 ) { ent->clusternums[ent->numClusters++] = cluster; if ( ent->numClusters == MAX_ENT_CLUSTERS ) { break; } } } // store off a last cluster if we need to if ( i != num_leafs ) { ent->lastCluster = CM_LeafCluster( lastLeaf ); } gEnt->r.linkcount++; // find the first world sector node that the ent's box crosses node = sv_worldSectors; while (1) { if (node->axis == -1) break; if ( gEnt->r.absmin[node->axis] > node->dist) node = node->children[0]; else if ( gEnt->r.absmax[node->axis] < node->dist) node = node->children[1]; else break; // crosses the node } // link it in ent->worldSector = node; ent->nextEntityInWorldSector = node->entities; node->entities = ent; gEnt->r.linked = qtrue; }
/* ================ G_RunFrame Advances the non-player objects in the world ================ */ void G_RunFrame( int levelTime ) { int i; // if we are waiting for the level to restart, do nothing if( theLevel.restarted_ ) return; theLevel.framenum_++; theLevel.previousTime_ = theLevel.time_; theLevel.time_ = levelTime; int msec = theLevel.time_ - theLevel.previousTime_; // get any cvar changes G_UpdateCvars(); // // go through all allocated objects // int start = Sys_Milliseconds(); GameEntity* ent = 0;//&g_entities[0]; for( i=0 ; i<theLevel.num_entities_ ; i++ ) { ent = theLevel.getEntity(i); if( !ent || !ent->inuse_ ) continue; // clear events that are too old if( theLevel.time_ - ent->eventTime_ > EVENT_VALID_MSEC ) { if( ent->s.event ) { ent->s.event = 0; // &= EV_EVENT_BITS; if( ent->client_ ) { ent->client_->ps_.externalEvent = 0; // predicted events should never be set to zero //ent->client->ps.events[0] = 0; //ent->client->ps.events[1] = 0; } } if( ent->freeAfterEvent_ ) { // tempEntities or dropped items completely go away after their event ent->freeUp();// former G_FreeEntity continue; } else if( ent->unlinkAfterEvent_ ) { // items that will respawn will hide themselves after their pickup event ent->unlinkAfterEvent_ = false; SV_UnlinkEntity( ent ); } } // temporary entities don't think if( ent->freeAfterEvent_ ) continue; if( ent->s.eType == ET_MISSILE || ent->s.eType == ET_BULLET ) { G_RunMissile( ent ); continue; } if( ent->s.eType == ET_ITEM || ent->physicsObject_ ) { G_RunItem( ent ); continue; } if( ent->s.eType == ET_MOVER ) { G_RunMover( ent ); continue; } if( ent->client_ ) { G_RunClient( ent ); continue; } G_RunThink( ent ); } int end = Sys_Milliseconds(); start = Sys_Milliseconds(); // perform final fixups on the players //ent = &g_entities[0]; for( i=1 ; i <= theLevel.maxclients_ ; i++ ) { ent = theLevel.getEntity(i); if( ent && ent->inuse_ ) ClientEndFrame( ent ); } end = Sys_Milliseconds(); // see if it is time to do a tournement restart CheckTournament(); // see if it is time to end the level CheckExitRules(); // update to team status? CheckTeamStatus(); // cancel vote if timed out CheckVote(); // check team votes CheckTeamVote( ClientBase::TEAM_RED ); CheckTeamVote( ClientBase::TEAM_BLUE ); // for tracking changes CheckCvars(); if( g_listEntity.integer ) { for( i = 0; i < MAX_GENTITIES; i++ ) { ent = theLevel.getEntity(i); Com_Printf("%4i: %s\n", i, ent->classname_); } Cvar_Set("g_listEntity", "0"); } }