Exemplo n.º 1
0
/*
 * BotTestAAS
 */
void
BotTestAAS(Vec3 origin)
{
	int areanum;
	aas_areainfo_t info;

	trap_cvarupdate(&bot_testsolid);
	trap_cvarupdate(&bot_testclusters);
	if(bot_testsolid.integer){
		if(!trap_AAS_Initialized()) return;
		areanum = BotPointAreaNum(origin);
		if(areanum) BotAI_Print(PRT_MESSAGE, "\remtpy area");
		else BotAI_Print(PRT_MESSAGE, "\r^1SOLID area");
	}else if(bot_testclusters.integer){
		if(!trap_AAS_Initialized()) return;
		areanum = BotPointAreaNum(origin);
		if(!areanum)
			BotAI_Print(PRT_MESSAGE,
				"\r^1Solid!                              ");
		else{
			trap_AAS_AreaInfo(areanum, &info);
			BotAI_Print(PRT_MESSAGE, "\rarea %d, cluster %d       ",
				areanum,
				info.cluster);
		}
	}
}
Exemplo n.º 2
0
/*
===============
Svcmd_AddBot_f
===============
*/
void Svcmd_AddBot_f( void ) {
	float			skill;
	int				delay;
	char			name[MAX_TOKEN_CHARS];
	char			altname[MAX_TOKEN_CHARS];
	char			string[MAX_TOKEN_CHARS];
	char			team[MAX_TOKEN_CHARS];

	// are bots enabled?
	if ( !trap_Cvar_VariableIntegerValue( "bot_enable" ) || !trap_AAS_Initialized() ) {
		return;
	}

	// name
	trap_Argv( 1, name, sizeof( name ) );
	if ( !name[0] ) {
		trap_Printf( "Usage: Addbot <botname> [skill 1-5] [team] [msec delay] [altname]\n" );
		return;
	}

	// skill
	trap_Argv( 2, string, sizeof( string ) );
	if ( !string[0] ) {
		skill = 4;
	}
	else {
		skill = atof( string );
	}

	// team
	trap_Argv( 3, team, sizeof( team ) );

	// delay
	trap_Argv( 4, string, sizeof( string ) );
	if ( !string[0] ) {
		delay = 0;
	}
	else {
		delay = atoi( string );
	}

	// alternative name
	trap_Argv( 5, altname, sizeof( altname ) );

	G_AddBot( name, skill, team, delay, altname );

	// if this was issued during gameplay and we are playing locally,
	// go ahead and load the bot's media immediately
	if ( level.time - level.startTime > 1000 &&
		trap_Cvar_VariableIntegerValue( "cl_running" ) ) {
		trap_SendServerCommand( -1, "loaddefered\n" );	// FIXME: spelled wrong, but not changing for demo
	}
}
Exemplo n.º 3
0
/*
===============
G_BotConnect
===============
*/
qboolean G_BotConnect( int clientNum, qboolean restart ) {
	bot_settings_t	settings;
	char			userinfo[MAX_INFO_STRING];

	trap_GetUserinfo( clientNum, userinfo, sizeof(userinfo) );

	Q_strncpyz( settings.characterfile, Info_ValueForKey( userinfo, "characterfile" ), sizeof(settings.characterfile) );
	settings.skill = atof( Info_ValueForKey( userinfo, "skill" ) );
	Q_strncpyz( settings.team, Info_ValueForKey( userinfo, "team" ), sizeof(settings.team) );

	if (!trap_AAS_Initialized() || !BotAISetupClient( clientNum, &settings, restart )) {
		trap_DropClient( clientNum, "BotAISetupClient failed" );
		return qfalse;
	}

	return qtrue;
}
Exemplo n.º 4
0
void AICast_Init (void)
{
	vmCvar_t	cvar;
	int	i;

	numSecrets = 0;
	numcast = 0;
	numSpawningCast = 0;
	saveGamePending = qtrue;

	trap_Cvar_Register( &aicast_debug, "aicast_debug", "0", 0 );
	trap_Cvar_Register( &aicast_debugname, "aicast_debugname", "", 0 );
	trap_Cvar_Register( &aicast_scripts, "aicast_scripts", "1", 0 );

	// (aicast_thinktime / sv_fps) * aicast_maxthink = number of cast's to think between each aicast frame
	// so..
	// (100 / 20) * 6 = 30
	//
	// so if the level has more than 30 AI cast's, they could start to bunch up, resulting in slower thinks

	trap_Cvar_Register( &cvar, "aicast_thinktime", "50", 0 );
	aicast_thinktime = trap_Cvar_VariableIntegerValue( "aicast_thinktime" );

	trap_Cvar_Register( &cvar, "aicast_maxthink", "12", 0 );
	aicast_maxthink = trap_Cvar_VariableIntegerValue( "aicast_maxthink" );

	aicast_maxclients = trap_Cvar_VariableIntegerValue( "sv_maxclients" );

	aicast_skillscale = (float)trap_Cvar_VariableIntegerValue( "g_gameSkill" ) / (float)GSKILL_MAX;

	caststates = G_Alloc( aicast_maxclients * sizeof(cast_state_t) );
	memset( caststates, 0, sizeof(caststates) );
	for (i=0; i<MAX_CLIENTS; i++) {
		caststates[i].entityNum = i;
	}

	// try and load in the AAS now, so we can interact with it during spawning of entities
	i = 0;
	trap_AAS_SetCurrentWorld(0);
	while (!trap_AAS_Initialized() && (i++ < 10)) {
		trap_BotLibStartFrame((float) level.time / 1000);
	}
}
Exemplo n.º 5
0
/*
==================
BotAIStartFrame
==================
*/
int BotAIStartFrame(int time) {
	int i;
	gentity_t	*ent;
	bot_entitystate_t state;
	int elapsed_time, thinktime;
	static int local_time;
	static int botlib_residual;
	static int lastbotthink_time;

	G_CheckBotSpawn();

	trap_Cvar_Update(&bot_rocketjump);
	trap_Cvar_Update(&bot_grapple);
	trap_Cvar_Update(&bot_fastchat);
	trap_Cvar_Update(&bot_nochat);
	trap_Cvar_Update(&bot_testrchat);
	trap_Cvar_Update(&bot_thinktime);
	trap_Cvar_Update(&bot_memorydump);
	trap_Cvar_Update(&bot_saveroutingcache);
	trap_Cvar_Update(&bot_pause);
	trap_Cvar_Update(&bot_report);
	trap_Cvar_Update(&bot_droppedweight);
	trap_Cvar_Update(&bot_offhandgrapple);
	trap_Cvar_Update(&bot_shownodechanges);
	trap_Cvar_Update(&bot_showteamgoals);
	trap_Cvar_Update(&bot_reloadcharacters);

	BotUpdateInfoConfigStrings();

	if (bot_pause.integer) {
		// execute bot user commands every frame
		for( i = 0; i < level.maxplayers; i++ ) {
			if( !botstates[i] || !botstates[i]->inuse ) {
				continue;
			}
			if( g_entities[i].player->pers.connected != CON_CONNECTED ) {
				continue;
			}
			botstates[i]->lastucmd.forwardmove = 0;
			botstates[i]->lastucmd.rightmove = 0;
			botstates[i]->lastucmd.upmove = 0;
			botstates[i]->lastucmd.buttons = 0;
			botstates[i]->lastucmd.serverTime = time;
			trap_BotUserCommand(botstates[i]->playernum, &botstates[i]->lastucmd);
		}
		return qtrue;
	}

	if (bot_memorydump.integer) {
		trap_BotLibVarSet("memorydump", "1");
		trap_Cvar_SetValue("bot_memorydump", 0);
	}
	if (bot_saveroutingcache.integer) {
		trap_BotLibVarSet("saveroutingcache", "1");
		trap_Cvar_SetValue("bot_saveroutingcache", 0);
	}
	//check if bot interbreeding is activated
	BotInterbreeding();
	//cap the bot think time
	if (bot_thinktime.integer > 200) {
		trap_Cvar_SetValue("bot_thinktime", 200);
	}
	//if the bot think time changed we should reschedule the bots
	if (bot_thinktime.integer != lastbotthink_time) {
		lastbotthink_time = bot_thinktime.integer;
		BotScheduleBotThink();
	}

	elapsed_time = time - local_time;
	local_time = time;

	botlib_residual += elapsed_time;

	if (elapsed_time > bot_thinktime.integer) thinktime = elapsed_time;
	else thinktime = bot_thinktime.integer;

	// update the bot library
	if ( botlib_residual >= thinktime ) {
		botlib_residual -= thinktime;

		trap_BotLibStartFrame((float) time / 1000);

		if (!trap_AAS_Initialized()) return qfalse;

		//update entities in the botlib
		for (i = 0; i < MAX_GENTITIES; i++) {
			ent = &g_entities[i];
			ent->botvalid = qfalse;
			if (!ent->inuse) {
				trap_BotLibUpdateEntity(i, NULL);
				continue;
			}
			if (!ent->r.linked) {
				trap_BotLibUpdateEntity(i, NULL);
				continue;
			}
			if (ent->r.svFlags & SVF_NOCLIENT) {
				trap_BotLibUpdateEntity(i, NULL);
				continue;
			}
			// do not update missiles
			if (ent->s.eType == ET_MISSILE && ent->s.weapon != WP_GRAPPLING_HOOK) {
				trap_BotLibUpdateEntity(i, NULL);
				continue;
			}
			// do not update event only entities
			if (ent->s.eType > ET_EVENTS) {
				trap_BotLibUpdateEntity(i, NULL);
				continue;
			}
#ifdef MISSIONPACK
			// never link prox mine triggers
			if (ent->s.contents == CONTENTS_TRIGGER) {
				if (ent->touch == ProximityMine_Trigger) {
					trap_BotLibUpdateEntity(i, NULL);
					continue;
				}
			}
#endif
			//
			ent->botvalid = qtrue;
			ent->update_time = trap_AAS_Time() - ent->ltime;
			ent->ltime = trap_AAS_Time();
			//
			memset(&state, 0, sizeof(bot_entitystate_t));
			//
			VectorCopy(ent->r.currentOrigin, state.origin);
			if (i < MAX_CLIENTS) {
				VectorCopy(ent->s.apos.trBase, state.angles);
			} else {
				VectorCopy(ent->r.currentAngles, state.angles);
			}
			VectorCopy( ent->r.absmin, state.absmins );
			VectorCopy( ent->r.absmax, state.absmaxs );
			state.type = ent->s.eType;
			state.flags = ent->s.eFlags;
			//
			if (ent->s.collisionType == CT_SUBMODEL) {
				state.solid = SOLID_BSP;
				//if the angles of the model changed
				if ( !VectorCompare( state.angles, ent->lastAngles ) ) {
					VectorCopy(state.angles, ent->lastAngles);
					state.relink = qtrue;
				}
			} else {
				state.solid = SOLID_BBOX;
				VectorCopy(state.angles, ent->lastAngles);
			}
			//previous frame visorigin
			VectorCopy( ent->visorigin, ent->lastvisorigin );
			//if the origin changed
			if ( !VectorCompare( state.origin, ent->visorigin ) ) {
				VectorCopy( state.origin, ent->visorigin );
				state.relink = qtrue;
			}
			//if the bounding box size changed
			if (!VectorCompare(ent->s.mins, ent->lastMins) ||
					!VectorCompare(ent->s.maxs, ent->lastMaxs))
			{
				VectorCopy( ent->s.mins, ent->lastMins );
				VectorCopy( ent->s.maxs, ent->lastMaxs );
				state.relink = qtrue;
			}
			//
			trap_BotLibUpdateEntity(i, &state);
		}

		BotAIRegularUpdate();
	}

	floattime = trap_AAS_Time();

	// execute scheduled bot AI
	for( i = 0; i < MAX_CLIENTS; i++ ) {
		if( !botstates[i] || !botstates[i]->inuse ) {
			continue;
		}
		//
		botstates[i]->botthink_residual += elapsed_time;
		//
		if ( botstates[i]->botthink_residual >= thinktime ) {
			botstates[i]->botthink_residual -= thinktime;

			if (!trap_AAS_Initialized()) return qfalse;

			if (g_entities[i].player->pers.connected == CON_CONNECTED) {
				BotAI(i, (float) thinktime / 1000);
			}
		}
	}


	// execute bot user commands every frame
	for( i = 0; i < MAX_CLIENTS; i++ ) {
		if( !botstates[i] || !botstates[i]->inuse ) {
			continue;
		}
		if( g_entities[i].player->pers.connected != CON_CONNECTED ) {
			continue;
		}

		BotUpdateInput(botstates[i], time, elapsed_time);
		trap_BotUserCommand(botstates[i]->playernum, &botstates[i]->lastucmd);
	}

	return qtrue;
}
Exemplo n.º 6
0
/*
==============
BotAISetupPlayer
==============
*/
int BotAISetupPlayer(int playernum, struct bot_settings_s *settings, qboolean restart) {
	char filename[MAX_PATH], name[MAX_PATH], gender[MAX_PATH];
	bot_state_t *bs;
	int errnum;

	if (!botstates[playernum]) botstates[playernum] = trap_Alloc(sizeof(bot_state_t), NULL);
	bs = botstates[playernum];

	if (!bs) {
		return qfalse;
	}

	if (bs && bs->inuse) {
		BotAI_Print(PRT_FATAL, "BotAISetupPlayer: player %d already setup\n", playernum);
		return qfalse;
	}

	if (!trap_AAS_Initialized()) {
		BotAI_Print(PRT_FATAL, "AAS not initialized\n");
		return qfalse;
	}

	//load the bot character
	bs->character = BotLoadCharacter(settings->characterfile, settings->skill);
	if (!bs->character) {
		BotAI_Print(PRT_FATAL, "couldn't load skill %f from %s\n", settings->skill, settings->characterfile);
		return qfalse;
	}
	//copy the settings
	memcpy(&bs->settings, settings, sizeof(bot_settings_t));
	//allocate a goal state
	bs->gs = BotAllocGoalState(playernum);
	//load the item weights
	Characteristic_String(bs->character, CHARACTERISTIC_ITEMWEIGHTS, filename, MAX_PATH);
	errnum = BotLoadItemWeights(bs->gs, filename);
	if (errnum != BLERR_NOERROR) {
		BotFreeGoalState(bs->gs);
		BotAI_Print(PRT_FATAL, "BotLoadItemWeights failed\n");
		return qfalse;
	}
	//allocate a weapon state
	bs->ws = BotAllocWeaponState(playernum);
	//load the weapon weights
	Characteristic_String(bs->character, CHARACTERISTIC_WEAPONWEIGHTS, filename, MAX_PATH);
	errnum = BotLoadWeaponWeights(bs->ws, filename);
	if (errnum != BLERR_NOERROR) {
		BotFreeGoalState(bs->gs);
		BotFreeWeaponState(bs->ws);
		BotAI_Print(PRT_FATAL, "BotLoadWeaponWeights failed\n");
		return qfalse;
	}
	//allocate a chat state
	bs->cs = BotAllocChatState();
	//load the chat file
	Characteristic_String(bs->character, CHARACTERISTIC_CHAT_FILE, filename, MAX_PATH);
	Characteristic_String(bs->character, CHARACTERISTIC_CHAT_NAME, name, MAX_PATH);
	errnum = BotLoadChatFile(bs->cs, filename, name);
	if (errnum != BLERR_NOERROR) {
		BotFreeChatState(bs->cs);
		BotFreeGoalState(bs->gs);
		BotFreeWeaponState(bs->ws);
		BotAI_Print(PRT_FATAL, "BotLoadChatFile failed\n");
		return qfalse;
	}
	//get the gender characteristic
	Characteristic_String(bs->character, CHARACTERISTIC_GENDER, gender, MAX_PATH);
	//set the chat gender
	if (*gender == 'f' || *gender == 'F') BotSetChatGender(bs->cs, CHAT_GENDERFEMALE);
	else if (*gender == 'm' || *gender == 'M') BotSetChatGender(bs->cs, CHAT_GENDERMALE);
	else BotSetChatGender(bs->cs, CHAT_GENDERLESS);

	bs->inuse = qtrue;
	bs->playernum = playernum;
	bs->entitynum = playernum;
	bs->setupcount = 4;
	bs->entergame_time = FloatTime();
	bs->ms = BotAllocMoveState(playernum);
	bs->walker = Characteristic_BFloat(bs->character, CHARACTERISTIC_WALKER, 0, 1);
	bs->revenge_enemy = -1;
	numbots++;

	trap_Cvar_Update( &bot_testichat );
	if (bot_testichat.integer) {
		BotChatTest(bs);
	}
	//NOTE: reschedule the bot thinking
	BotScheduleBotThink();
	//if interbreeding start with a mutation
	if (bot_interbreed) {
		BotMutateGoalFuzzyLogic(bs->gs, 1);
	}
	// if we kept the bot state
	if (restart) {
		BotReadSessionData(bs);
	}
	//bot has been setup succesfully
	return qtrue;
}
Exemplo n.º 7
0
/*
===============
G_CheckMinimumPlayers
===============
*/
void G_CheckMinimumPlayers( void ) {
	int minplayers;
	int humanplayers, botplayers;
	static int checkminimumplayers_time;

	if (level.intermissiontime) return;
	//only check once each 10 seconds
	//if (checkminimumplayers_time > level.time - 10000) {
	if (checkminimumplayers_time > level.time - (1000 + (bot_minplayersTime.integer * 100))) { // leilei - faster time

		return;
	}
	checkminimumplayers_time = level.time;
	trap_Cvar_Update(&bot_minplayers);

	minplayers = bot_minplayers.integer;
	if (minplayers <= 0) return;

        if (!trap_AAS_Initialized())
        {
            minplayers = 0;
            checkminimumplayers_time = level.time+600*1000;
            return; //If no AAS then don't even try
        }

	if (g_gametype.integer >= GT_TEAM && g_ffa_gt!=1) {
		if (minplayers >= g_maxclients.integer / 2) {
			minplayers = (g_maxclients.integer / 2) -1;
		}

		humanplayers = G_CountHumanPlayers( TEAM_RED );
		botplayers = G_CountBotPlayers(	TEAM_RED );
		//
		if (humanplayers + botplayers < minplayers) {
			G_AddRandomBot( TEAM_RED );
		} else if (humanplayers + botplayers > minplayers && botplayers) {
			G_RemoveRandomBot( TEAM_RED );
		}
		//
		humanplayers = G_CountHumanPlayers( TEAM_BLUE );
		botplayers = G_CountBotPlayers( TEAM_BLUE );
		//
		if (humanplayers + botplayers < minplayers) {
			G_AddRandomBot( TEAM_BLUE );
		} else if (humanplayers + botplayers > minplayers && botplayers) {
			G_RemoveRandomBot( TEAM_BLUE );
		}
	}
	else if (g_gametype.integer == GT_TOURNAMENT ) {
		if (minplayers >= g_maxclients.integer) {
			minplayers = g_maxclients.integer-1;
		}
		humanplayers = G_CountHumanPlayers( -1 );
		botplayers = G_CountBotPlayers( -1 );
		//
		if (humanplayers + botplayers < minplayers) {
			G_AddRandomBot( TEAM_FREE );
		} else if (humanplayers + botplayers > minplayers && botplayers) {
			// try to remove spectators first
			if (!G_RemoveRandomBot( TEAM_SPECTATOR )) {
				// just remove the bot that is playing
				G_RemoveRandomBot( -1 );
			}
		}
	}
	else if (g_gametype.integer == GT_FFA || g_gametype.integer == GT_LMS) {
		if (minplayers >= g_maxclients.integer) {
			minplayers = g_maxclients.integer-1;
		}
		humanplayers = G_CountHumanPlayers( TEAM_FREE );
		botplayers = G_CountBotPlayers( TEAM_FREE );
		//
		if (humanplayers + botplayers < minplayers) {
			G_AddRandomBot( TEAM_FREE );
		} else if (humanplayers + botplayers > minplayers && botplayers) {
			G_RemoveRandomBot( TEAM_FREE );
		}
	}
}
Exemplo n.º 8
0
/*
===============
G_AddRandomBot
===============
*/
void G_AddRandomBot( int team ) {
	int		i, n, num;
	float	skill;
	char	*value, netname[36], *teamstr;
	gclient_t	*cl;

        if (!trap_AAS_Initialized())
            return; //If no AAS then don't even try

	num = 0;
	for ( n = 0; n < g_numBots ; n++ ) {
		value = Info_ValueForKey( g_botInfos[n], "name" );
		//
		for ( i=0 ; i< g_maxclients.integer ; i++ ) {
			cl = level.clients + i;
			if ( cl->pers.connected != CON_CONNECTED ) {
				continue;
			}
			if ( !(g_entities[cl->ps.clientNum].r.svFlags & SVF_BOT) ) {
				continue;
			}
			if ( team >= 0 && cl->sess.sessionTeam != team ) {
				continue;
			}
			if ( !Q_stricmp( value, cl->pers.netname ) ) {
				break;
			}
		}
		if (i >= g_maxclients.integer) {
			num++;
		}
	}
	num = random() * num;
	for ( n = 0; n < g_numBots ; n++ ) {
		value = Info_ValueForKey( g_botInfos[n], "name" );
		//
		for ( i=0 ; i< g_maxclients.integer ; i++ ) {
			cl = level.clients + i;
			if ( cl->pers.connected != CON_CONNECTED ) {
				continue;
			}
			if ( !(g_entities[cl->ps.clientNum].r.svFlags & SVF_BOT) ) {
				continue;
			}
			if ( team >= 0 && cl->sess.sessionTeam != team ) {
				continue;
			}
			if ( !Q_stricmp( value, cl->pers.netname ) ) {
				break;
			}
		}
		if (i >= g_maxclients.integer) {
			num--;
			if (num <= 0) {
				skill = trap_Cvar_VariableValue( "g_spSkill" );
				if (team == TEAM_RED) teamstr = "red";
				else if (team == TEAM_BLUE) teamstr = "blue";
				else teamstr = "";
				strncpy(netname, value, sizeof(netname)-1);
				netname[sizeof(netname)-1] = '\0';
				Q_CleanStr(netname);
				trap_SendConsoleCommand( EXEC_INSERT, va("addbot %s %f %s %i\n", netname, skill, teamstr, 0) );
				return;
			}
		}
	}
}
Exemplo n.º 9
0
/*
==================
BotAIStartFrame
==================
*/
int BotAIStartFrame( int time ) {
	int i;
	gentity_t   *ent;
	bot_entitystate_t state;
	//entityState_t entitystate;
	//vec3_t mins = {-15, -15, -24}, maxs = {15, 15, 32};
	int elapsed_time, thinktime;
	static int local_time;
	static int botlib_residual;
	static int lastbotthink_time;

	if ( g_gametype.integer != GT_SINGLE_PLAYER ) {
		G_CheckBotSpawn();
	}

	trap_Cvar_Update( &bot_rocketjump );
	trap_Cvar_Update( &bot_grapple );
	trap_Cvar_Update( &bot_fastchat );
	trap_Cvar_Update( &bot_nochat );
	trap_Cvar_Update( &bot_testrchat );
	trap_Cvar_Update( &bot_thinktime );
	// Ridah, set the default AAS world
	trap_AAS_SetCurrentWorld( 0 );
	trap_Cvar_Update( &memorydump );

	if ( memorydump.integer ) {
		trap_BotLibVarSet( "memorydump", "1" );
		trap_Cvar_Set( "memorydump", "0" );
	}

	//if the bot think time changed we should reschedule the bots
	if ( bot_thinktime.integer != lastbotthink_time ) {
		lastbotthink_time = bot_thinktime.integer;
		BotScheduleBotThink();
	}

	elapsed_time = time - local_time;
	local_time = time;

	botlib_residual += elapsed_time;

	if ( elapsed_time > bot_thinktime.integer ) {
		thinktime = elapsed_time;
	} else { thinktime = bot_thinktime.integer;}

	// update the bot library
	if ( botlib_residual >= thinktime ) {
		botlib_residual -= thinktime;

		trap_BotLibStartFrame( (float) time / 1000 );

		// Ridah, only check the default world
		trap_AAS_SetCurrentWorld( 0 );

		if ( !trap_AAS_Initialized() ) {
			return BLERR_NOERROR;
		}

		//update entities in the botlib
		for ( i = 0; i < MAX_GENTITIES; i++ ) {

			// Ridah, in single player, we only need client entity information
			if ( g_gametype.integer == GT_SINGLE_PLAYER && i > level.maxclients ) {
				break;
			}

			ent = &g_entities[i];
			if ( !ent->inuse ) {
				continue;
			}
			if ( !ent->r.linked ) {
				continue;
			}
			if ( ent->r.svFlags & SVF_NOCLIENT ) {
				continue;
			}
			//
			memset( &state, 0, sizeof( bot_entitystate_t ) );
			//
			VectorCopy( ent->r.currentOrigin, state.origin );
			VectorCopy( ent->r.currentAngles, state.angles );
			VectorCopy( ent->s.origin2, state.old_origin );
			VectorCopy( ent->r.mins, state.mins );
			VectorCopy( ent->r.maxs, state.maxs );
			state.type = ent->s.eType;
			state.flags = ent->s.eFlags;
			if ( ent->r.bmodel ) {
				state.solid = SOLID_BSP;
			} else { state.solid = SOLID_BBOX;}
			state.groundent = ent->s.groundEntityNum;
			state.modelindex = ent->s.modelindex;
			state.modelindex2 = ent->s.modelindex2;
			state.frame = ent->s.frame;
			//state.event = ent->s.event;
			//state.eventParm = ent->s.eventParm;
			state.powerups = ent->s.powerups;
			state.legsAnim = ent->s.legsAnim;
			state.torsoAnim = ent->s.torsoAnim;
//			state.weapAnim = ent->s.weapAnim;	//----(SA)
//----(SA)	didn't want to comment in as I wasn't sure of any implications of changing the aas_entityinfo_t and bot_entitystate_t structures.
			state.weapon = ent->s.weapon;
			/*
			if (!BotAI_GetEntityState(i, &entitystate)) continue;
			//
			memset(&state, 0, sizeof(bot_entitystate_t));
			//
			VectorCopy(entitystate.pos.trBase, state.origin);
			VectorCopy(entitystate.angles, state.angles);
			VectorCopy(ent->s.origin2, state.old_origin);
			//VectorCopy(ent->r.mins, state.mins);
			//VectorCopy(ent->r.maxs, state.maxs);
			state.type = entitystate.eType;
			state.flags = entitystate.eFlags;
			if (ent->r.bmodel) state.solid = SOLID_BSP;
			else state.solid = SOLID_BBOX;
			state.modelindex = entitystate.modelindex;
			state.modelindex2 = entitystate.modelindex2;
			state.frame = entitystate.frame;
			state.event = entitystate.event;
			state.eventParm = entitystate.eventParm;
			state.powerups = entitystate.powerups;
			state.legsAnim = entitystate.legsAnim;
			state.torsoAnim = entitystate.torsoAnim;
			state.weapon = entitystate.weapon;
			*/
			//
			trap_BotLibUpdateEntity( i, &state );
		}

		BotAIRegularUpdate();

	}

	// Ridah, in single player, don't need bot's thinking
	if ( g_gametype.integer == GT_SINGLE_PLAYER ) {
		return BLERR_NOERROR;
	}

	// execute scheduled bot AI
	for ( i = 0; i < MAX_CLIENTS; i++ ) {
		if ( !botstates[i] || !botstates[i]->inuse ) {
			continue;
		}
		// Ridah
		if ( g_entities[i].r.svFlags & SVF_CASTAI ) {
			continue;
		}
		// done.
		//
		botstates[i]->botthink_residual += elapsed_time;
		//
		if ( botstates[i]->botthink_residual >= thinktime ) {
			botstates[i]->botthink_residual -= thinktime;

			if ( !trap_AAS_Initialized() ) {
				return BLERR_NOERROR;
			}

			if ( g_entities[i].client->pers.connected == CON_CONNECTED ) {
				BotAI( i, (float) thinktime / 1000 );
			}
		}
	}


	// execute bot user commands every frame
	for ( i = 0; i < MAX_CLIENTS; i++ ) {
		if ( !botstates[i] || !botstates[i]->inuse ) {
			continue;
		}
		// Ridah
		if ( g_entities[i].r.svFlags & SVF_CASTAI ) {
			continue;
		}
		// done.
		if ( g_entities[i].client->pers.connected != CON_CONNECTED ) {
			continue;
		}

		BotUpdateInput( botstates[i], time );
		trap_BotUserCommand( botstates[i]->client, &botstates[i]->lastucmd );
	}

	return BLERR_NOERROR;
}
Exemplo n.º 10
0
/*
==============
BotAISetupClient
==============
*/
int BotAISetupClient( int client, struct bot_settings_s *settings ) {
	char filename[MAX_PATH], name[MAX_PATH], gender[MAX_PATH];
	bot_state_t *bs;
	int errnum;

	if ( !botstates[client] ) {
		botstates[client] = G_Alloc( sizeof( bot_state_t ) );
	}
	bs = botstates[client];

	if ( bs && bs->inuse ) {
		BotAI_Print( PRT_FATAL, "client %d already setup\n", client );
		return qfalse;
	}

	if ( !trap_AAS_Initialized() ) {
		BotAI_Print( PRT_FATAL, "AAS not initialized\n" );
		return qfalse;
	}

	//load the bot character
	bs->character = trap_BotLoadCharacter( settings->characterfile, settings->skill );
	if ( !bs->character ) {
		BotAI_Print( PRT_FATAL, "couldn't load skill %f from %s\n", settings->skill, settings->characterfile );
		return qfalse;
	}
	//copy the settings
	memcpy( &bs->settings, settings, sizeof( bot_settings_t ) );
	//allocate a goal state
	bs->gs = trap_BotAllocGoalState( client );
	//load the item weights
	trap_Characteristic_String( bs->character, CHARACTERISTIC_ITEMWEIGHTS, filename, MAX_PATH );
	errnum = trap_BotLoadItemWeights( bs->gs, filename );
	if ( errnum != BLERR_NOERROR ) {
		trap_BotFreeGoalState( bs->gs );
		return qfalse;
	}
	//allocate a weapon state
	bs->ws = trap_BotAllocWeaponState();
	//load the weapon weights
	trap_Characteristic_String( bs->character, CHARACTERISTIC_WEAPONWEIGHTS, filename, MAX_PATH );
	errnum = trap_BotLoadWeaponWeights( bs->ws, filename );
	if ( errnum != BLERR_NOERROR ) {
		trap_BotFreeGoalState( bs->gs );
		trap_BotFreeWeaponState( bs->ws );
		return qfalse;
	}
	//allocate a chat state
	bs->cs = trap_BotAllocChatState();
	//load the chat file
	trap_Characteristic_String( bs->character, CHARACTERISTIC_CHAT_FILE, filename, MAX_PATH );
	trap_Characteristic_String( bs->character, CHARACTERISTIC_CHAT_NAME, name, MAX_PATH );
	errnum = trap_BotLoadChatFile( bs->cs, filename, name );
	if ( errnum != BLERR_NOERROR ) {
		trap_BotFreeChatState( bs->cs );
		trap_BotFreeGoalState( bs->gs );
		trap_BotFreeWeaponState( bs->ws );
		return qfalse;
	}
	//get the gender characteristic
	trap_Characteristic_String( bs->character, CHARACTERISTIC_GENDER, gender, MAX_PATH );
	//set the chat gender
	if ( *gender == 'f' || *gender == 'F' ) {
		trap_BotSetChatGender( bs->cs, CHAT_GENDERFEMALE );
	} else if ( *gender == 'm' || *gender == 'M' )  {
		trap_BotSetChatGender( bs->cs, CHAT_GENDERMALE );
	} else { trap_BotSetChatGender( bs->cs, CHAT_GENDERLESS );}

	bs->inuse = qtrue;
	bs->client = client;
	bs->entitynum = client;
	bs->setupcount = 4;
	bs->entergame_time = trap_AAS_Time();
	bs->ms = trap_BotAllocMoveState();
	bs->walker = trap_Characteristic_BFloat( bs->character, CHARACTERISTIC_WALKER, 0, 1 );
	numbots++;

	if ( trap_Cvar_VariableIntegerValue( "bot_testichat" ) ) {
		trap_BotLibVarSet( "bot_testichat", "1" );
		BotChatTest( bs );
	}
	//NOTE: reschedule the bot thinking
	BotScheduleBotThink();
	//
	return qtrue;
}
Exemplo n.º 11
0
/*
==================
BotAIStartFrame
==================
*/
int BotAIStartFrame(int time) {
	int i;
	gentity_t	*ent;
	bot_entitystate_t state;
	int elapsed_time, thinktime;
	static int local_time;
	static int botlib_residual;
	static int lastbotthink_time;

	G_CheckBotSpawn();

	trap_Cvar_Update(&bot_rocketjump);
	trap_Cvar_Update(&bot_grapple);
	trap_Cvar_Update(&bot_fastchat);
	trap_Cvar_Update(&bot_nochat);
	trap_Cvar_Update(&bot_testrchat);
	trap_Cvar_Update(&bot_thinktime);
	trap_Cvar_Update(&bot_memorydump);
	trap_Cvar_Update(&bot_saveroutingcache);
	trap_Cvar_Update(&bot_pause);
	trap_Cvar_Update(&bot_report);

	if (bot_report.integer) {
//		BotTeamplayReport();
//		trap_Cvar_Set("bot_report", "0");
		BotUpdateInfoConfigStrings();
	}

	if (bot_pause.integer) {
		// execute bot user commands every frame
		for( i = 0; i < MAX_CLIENTS; i++ ) {
			if( !botstates[i] || !botstates[i]->inuse ) {
				continue;
			}
			if( g_entities[i].client->pers.connected != CON_CONNECTED ) {
				continue;
			}
			botstates[i]->lastucmd.forwardmove = 0;
			botstates[i]->lastucmd.rightmove = 0;
			botstates[i]->lastucmd.upmove = 0;
			botstates[i]->lastucmd.buttons = 0;
			botstates[i]->lastucmd.serverTime = time;
			trap_BotUserCommand(botstates[i]->client, &botstates[i]->lastucmd);
		}
		return qtrue;
	}

	if (bot_memorydump.integer) {
		trap_BotLibVarSet("memorydump", "1");
		trap_Cvar_Set("bot_memorydump", "0");
	}
	if (bot_saveroutingcache.integer) {
		trap_BotLibVarSet("saveroutingcache", "1");
		trap_Cvar_Set("bot_saveroutingcache", "0");
	}
	//check if bot interbreeding is activated
	BotInterbreeding();
	//cap the bot think time
	if (bot_thinktime.integer > 200) {
		trap_Cvar_Set("bot_thinktime", "200");
	}
	//if the bot think time changed we should reschedule the bots
	if (bot_thinktime.integer != lastbotthink_time) {
		lastbotthink_time = bot_thinktime.integer;
		BotScheduleBotThink();
	}

	elapsed_time = time - local_time;
	local_time = time;

	botlib_residual += elapsed_time;

	if (elapsed_time > bot_thinktime.integer) thinktime = elapsed_time;
	else thinktime = bot_thinktime.integer;

	// update the bot library
	if ( botlib_residual >= thinktime ) {
		botlib_residual -= thinktime;

		trap_BotLibStartFrame((float) time / 1000);

		if (!trap_AAS_Initialized()) return qfalse;

		//update entities in the botlib
		for (i = 0; i < MAX_GENTITIES; i++) {
			ent = &g_entities[i];
			if (!ent->inuse) {
				trap_BotLibUpdateEntity(i, NULL);
				continue;
			}
			if (!ent->r.linked) {
				trap_BotLibUpdateEntity(i, NULL);
				continue;
			}
			if (ent->r.svFlags & SVF_NOCLIENT) {
				trap_BotLibUpdateEntity(i, NULL);
				continue;
			}
			// do not update missiles
			if (ent->s.eType == ET_MISSILE && ent->s.weapon != WP_GRAPPLING_HOOK) {
				trap_BotLibUpdateEntity(i, NULL);
				continue;
			}
			// do not update event only entities
			if (ent->s.eType > ET_EVENTS) {
				trap_BotLibUpdateEntity(i, NULL);
				continue;
			}
#if 1  //def MPACK
			// never link prox mine triggers
			if (ent->r.contents == CONTENTS_TRIGGER) {
				if (ent->touch == ProximityMine_Trigger) {
					trap_BotLibUpdateEntity(i, NULL);
					continue;
				}
			}
#endif
			//
			memset(&state, 0, sizeof(bot_entitystate_t));
			//
			VectorCopy(ent->r.currentOrigin, state.origin);
			if (i < MAX_CLIENTS) {
				VectorCopy(ent->s.apos.trBase, state.angles);
			} else {
				VectorCopy(ent->r.currentAngles, state.angles);
			}
			VectorCopy(ent->s.origin2, state.old_origin);
			VectorCopy(ent->r.mins, state.mins);
			VectorCopy(ent->r.maxs, state.maxs);
			state.type = ent->s.eType;
			state.flags = ent->s.eFlags;
			if (ent->r.bmodel) state.solid = SOLID_BSP;
			else state.solid = SOLID_BBOX;
			state.groundent = ent->s.groundEntityNum;
			state.modelindex = ent->s.modelindex;
			state.modelindex2 = ent->s.modelindex2;
			state.frame = ent->s.frame;
			state.event = ent->s.event;
			state.eventParm = ent->s.eventParm;
			state.powerups = ent->s.powerups;
			state.legsAnim = ent->s.legsAnim;
			state.torsoAnim = ent->s.torsoAnim;
			state.weapon = ent->s.weapon;
			//
			trap_BotLibUpdateEntity(i, &state);
		}

		BotAIRegularUpdate();
	}

	floattime = trap_AAS_Time();

	// execute scheduled bot AI
	for( i = 0; i < MAX_CLIENTS; i++ ) {
		if( !botstates[i] || !botstates[i]->inuse ) {
			continue;
		}
		//
		botstates[i]->botthink_residual += elapsed_time;
		//
		if ( botstates[i]->botthink_residual >= thinktime ) {
			botstates[i]->botthink_residual -= thinktime;

			if (!trap_AAS_Initialized()) return qfalse;

			if (g_entities[i].client->pers.connected == CON_CONNECTED) {
				BotAI(i, (float) thinktime / 1000);
			}
		}
	}


	// execute bot user commands every frame
	for( i = 0; i < MAX_CLIENTS; i++ ) {
		if( !botstates[i] || !botstates[i]->inuse ) {
			continue;
		}
		if( g_entities[i].client->pers.connected != CON_CONNECTED ) {
			continue;
		}

		BotUpdateInput(botstates[i], time, elapsed_time);
		trap_BotUserCommand(botstates[i]->client, &botstates[i]->lastucmd);
	}

	return qtrue;
}
Exemplo n.º 12
0
/*
============
AICast_Think

  entry point for all cast AI
============
*/
void AICast_Think( int client, float thinktime ) {
	gentity_t       *ent;
	cast_state_t    *cs;
	int i;
	int animIndex;
	animation_t     *anim;

//	if (saveGamePending || (strlen( g_missionStats.string ) > 2 )) {
//		return;
//	}

	//
	// get the cast ready for processing
	//
	cs = AICast_GetCastState( client );
	ent = &g_entities[client];
	//
	// make sure we are using the right AAS data for this entity (one's that don't get set will default to the player's AAS data)
	trap_AAS_SetCurrentWorld( cs->aasWorldIndex );
	//
	// make sure we have a valid navigation system
	//
	if ( !trap_AAS_Initialized() ) {
		return;
	}
	//
	trap_EA_ResetInput( client, NULL );
	cs->aiFlags &= ~AIFL_VIEWLOCKED;
	//cs->bs->weaponnum = ent->client->ps.weapon;
	//
	// turn off flags that are set each frame if needed
	ent->client->ps.eFlags &= ~( EF_NOSWINGANGLES | EF_MONSTER_EFFECT | EF_MONSTER_EFFECT2 | EF_MONSTER_EFFECT3 );
	// conditional flags
	if ( ent->aiCharacter == AICHAR_ZOMBIE ) {
		if ( COM_BitCheck( ent->client->ps.weapons, WP_MONSTER_ATTACK1 ) ) {
			cs->aiFlags |= AIFL_NO_FLAME_DAMAGE;
			SET_FLAMING_ZOMBIE( ent->s, 1 );
		} else {
			SET_FLAMING_ZOMBIE( ent->s, 0 );
		}
	}
	//
	// if we're dead, do special stuff only
	if ( ent->health <= 0 || cs->revivingTime || cs->rebirthTime ) {
		//
		if ( cs->revivingTime && cs->revivingTime < level.time ) {
			// start us thinking again
			ent->client->ps.pm_type = PM_NORMAL;
			cs->revivingTime = 0;
		}
		//
		if ( cs->rebirthTime && cs->rebirthTime < level.time ) {
			vec3_t mins, maxs;
			int touch[10], numTouch;
			float oldmaxZ;

			oldmaxZ = ent->r.maxs[2];

			// make sure the area is clear
			AIChar_SetBBox( ent, cs );

			VectorAdd( ent->r.currentOrigin, ent->r.mins, mins );
			VectorAdd( ent->r.currentOrigin, ent->r.maxs, maxs );
			trap_UnlinkEntity( ent );

			numTouch = trap_EntitiesInBox( mins, maxs, touch, 10 );

			if ( numTouch ) {
				for ( i = 0; i < numTouch; i++ ) {
					//if (!g_entities[touch[i]].client || g_entities[touch[i]].r.contents == CONTENTS_BODY)
					if ( g_entities[touch[i]].r.contents & MASK_PLAYERSOLID ) {
						break;
					}
				}
				if ( i == numTouch ) {
					numTouch = 0;
				}
			}

			if ( numTouch == 0 ) {    // ok to spawn

				// give them health when they start reviving, so we won't gib after
				// just a couple shots while reviving
				ent->health =
					ent->client->ps.stats[STAT_HEALTH] =
						ent->client->ps.stats[STAT_MAX_HEALTH] =
							( ( cs->attributes[STARTING_HEALTH] - 50 ) > 30 ? ( cs->attributes[STARTING_HEALTH] - 50 ) : 30 );

				ent->r.contents = CONTENTS_BODY;
				ent->clipmask = MASK_PLAYERSOLID;
				ent->takedamage = qtrue;
				ent->waterlevel = 0;
				ent->watertype = 0;
				ent->flags = 0;
				ent->die = AICast_Die;
				ent->client->ps.eFlags &= ~EF_DEAD;
				ent->s.eFlags &= ~EF_DEAD;

				cs->rebirthTime = 0;
				cs->deathTime = 0;

				// play the revive animation
				cs->revivingTime = level.time + BG_AnimScriptEvent( &ent->client->ps, ANIM_ET_REVIVE, qfalse, qtrue );;
			} else {
				// can't spawn yet, so set bbox back, and wait
				ent->r.maxs[2] = oldmaxZ;
				ent->client->ps.maxs[2] = ent->r.maxs[2];
			}
			trap_LinkEntity( ent );
		}
		// ZOMBIE should set effect flag if really dead
		if ( cs->aiCharacter == AICHAR_ZOMBIE && !ent->r.contents ) {
			ent->client->ps.eFlags |= EF_MONSTER_EFFECT2;
		}
		//
		if ( ent->health > GIB_HEALTH && cs->deathTime && cs->deathTime < ( level.time - 3000 ) ) {
/*
			// been dead for long enough, set our animation to the end frame
			switch ( ent->s.legsAnim & ~ANIM_TOGGLEBIT ) {
			case BOTH_DEATH1:
			case BOTH_DEAD1:
				anim = BOTH_DEAD1;
				break;
			case BOTH_DEATH2:
			case BOTH_DEAD2:
				anim = BOTH_DEAD2;
				break;
			case BOTH_DEATH3:
			case BOTH_DEAD3:
				anim = BOTH_DEAD3;
				break;
			default:
				G_Error( "%s has unknown death animation\n", ent->classname);
			}
			ent->client->ps.torsoAnim = ( ( ent->client->ps.torsoAnim & ANIM_TOGGLEBIT ) ^ ANIM_TOGGLEBIT ) | anim;
			ent->client->ps.legsAnim = ( ( ent->client->ps.legsAnim & ANIM_TOGGLEBIT ) ^ ANIM_TOGGLEBIT ) | anim;
*/
			cs->deathTime = 0;
			ent->r.svFlags &= ~SVF_BROADCAST;
		}
		//
		// no more thinking required
		return;
	}
	//
	// set some anim conditions
	if ( cs->secondDeadTime ) {
		BG_UpdateConditionValue( cs->entityNum, ANIM_COND_SECONDLIFE, qtrue, qfalse );
	} else {
		BG_UpdateConditionValue( cs->entityNum, ANIM_COND_SECONDLIFE, qfalse, qfalse );
	}
	// set health value
	if ( ent->health <= 0.25 * cs->attributes[STARTING_HEALTH] ) {
		BG_UpdateConditionValue( cs->entityNum, ANIM_COND_HEALTH_LEVEL, 3, qfalse );
	} else if ( ent->health <= 0.5 * cs->attributes[STARTING_HEALTH] ) {
		BG_UpdateConditionValue( cs->entityNum, ANIM_COND_HEALTH_LEVEL, 2, qfalse );
	} else {
		BG_UpdateConditionValue( cs->entityNum, ANIM_COND_HEALTH_LEVEL, 1, qfalse );
	}
	//
	cs->speedScale = 1.0;           // reset each frame, set if required
	cs->actionFlags = 0;            // FIXME: move this to a Cast AI movement init function!
	//retrieve the current client state
	BotAI_GetClientState( client, &( cs->bs->cur_ps ) );
	//
	// setup movement speeds for the given state
	// walking
	animIndex = BG_GetAnimScriptAnimation( cs->entityNum, ent->client->ps.aiState, ANIM_MT_WALK );
	if ( animIndex >= 0 ) {
		anim = BG_GetAnimationForIndex( cs->entityNum, animIndex );
		cs->attributes[WALKING_SPEED] = anim->moveSpeed;
	}
	// crouching
	animIndex = BG_GetAnimScriptAnimation( cs->entityNum, ent->client->ps.aiState, ANIM_MT_WALKCR );
	if ( animIndex >= 0 ) {
		anim = BG_GetAnimationForIndex( cs->entityNum, animIndex );
		cs->attributes[CROUCHING_SPEED] = anim->moveSpeed;
	}
	// running
	animIndex = BG_GetAnimScriptAnimation( cs->entityNum, ent->client->ps.aiState, ANIM_MT_RUN );
	if ( animIndex >= 0 ) {
		anim = BG_GetAnimationForIndex( cs->entityNum, animIndex );
		cs->attributes[RUNNING_SPEED] = anim->moveSpeed;
	}
	// update crouch speed scale
	ent->client->ps.crouchSpeedScale = cs->attributes[CROUCHING_SPEED] / cs->attributes[RUNNING_SPEED];
	//
	// only enable headlook if we want to this frame
	ent->client->ps.eFlags &= ~EF_HEADLOOK;
	if ( cs->bs->enemy >= 0 ) {
		ent->client->ps.eFlags &= ~EF_STAND_IDLE2;  // never use alt idle if fighting
	}
	//
	// check for dead leader
	if ( cs->leaderNum >= 0 && g_entities[cs->leaderNum].health <= 0 ) {
		cs->leaderNum = -1;
	}
	//
#if 0
	// HACK for village2, if they are stuck, find a good position (there is a friendly guy placed inside a table)
	{
		trace_t tr;
		vec3_t org;
		trap_Trace( &tr, cs->bs->cur_ps.origin, cs->bs->cur_ps.mins, cs->bs->cur_ps.maxs, cs->bs->cur_ps.origin, cs->entityNum, CONTENTS_SOLID );
		while ( tr.startsolid ) {
			VectorCopy( cs->bs->cur_ps.origin, org );
			org[0] += 96 * crandom();
			org[1] += 96 * crandom();
			org[2] += 16 * crandom();
			trap_Trace( &tr, org, cs->bs->cur_ps.mins, cs->bs->cur_ps.maxs, org, cs->entityNum, CONTENTS_SOLID );
			G_SetOrigin( &g_entities[cs->entityNum], org );
			VectorCopy( org, g_entities[cs->entityNum].client->ps.origin );
		}
	}
#endif
	//add the delta angles to the cast's current view angles
	for ( i = 0; i < 3; i++ ) {
		cs->bs->viewangles[i] = AngleMod( cs->bs->viewangles[i] + SHORT2ANGLE( cs->bs->cur_ps.delta_angles[i] ) );
	}
	//
	//increase the local time of the cast
	cs->bs->ltime += thinktime;
	//
	cs->bs->thinktime = thinktime;
	//origin of the cast
	VectorCopy( cs->bs->cur_ps.origin, cs->bs->origin );
	//eye coordinates of the cast
	VectorCopy( cs->bs->cur_ps.origin, cs->bs->eye );
	cs->bs->eye[2] += cs->bs->cur_ps.viewheight;
	//get the area the cast is in
	cs->bs->areanum = BotPointAreaNum( cs->bs->origin );
	// clear flags each frame
	cs->bs->flags = 0;
	//
	// check enemy health
	if ( cs->bs->enemy >= 0 && g_entities[cs->bs->enemy].health <= 0 ) {
		cs->bs->enemy = -1;
	}
	//
	// if the previous movetype was temporary, set it back
	if ( cs->movestateType == MSTYPE_TEMPORARY ) {
		cs->movestate = MS_DEFAULT;
		cs->movestateType = MSTYPE_NONE;
	}
	// crouching?
	if (    ( cs->bs->attackcrouch_time > trap_AAS_Time() ) &&
			( ( cs->lastAttackCrouch > level.time - 500 ) || ( cs->thinkFuncChangeTime < level.time - 1000 ) ) ) {
		// if we are not moving, and we are firing, always stand, unless we are allowed to crouch + fire
		if ( VectorLength( cs->bs->cur_ps.velocity ) || ( cs->lastWeaponFired < level.time - 2000 ) || ( cs->aiFlags & AIFL_ATTACK_CROUCH ) ) {
			cs->lastAttackCrouch = level.time;
			trap_EA_Crouch( cs->bs->client );
		}
	}
	//
	//if (cs->bs->enemy >= 0) {
	//update the attack inventory values
	AICast_UpdateBattleInventory( cs, cs->bs->enemy );
	//}
	//
	// if we don't have ammo for the current weapon, get rid of it
	if ( !( COM_BitCheck( cs->bs->cur_ps.weapons, cs->bs->weaponnum ) ) || !AICast_GotEnoughAmmoForWeapon( cs, cs->bs->weaponnum ) ) {
		// select a weapon
		AICast_ChooseWeapon( cs, qfalse );
		// if still no ammo, select a blank weapon
		//if (!AICast_GotEnoughAmmoForWeapon( cs, cs->bs->weaponnum )) {
		//	cs->bs->weaponnum = WP_NONE;
		//}
	}
	//
	// in query mode, we do special handling (pause scripting, check for transition to alert/combat, etc)
	if ( cs->aiState == AISTATE_QUERY ) {
		AICast_QueryThink( cs );
	} else if ( cs->pauseTime < level.time )     {
		// do the thinking
		AICast_ProcessAIFunctions( cs, thinktime );
		//
		// make sure the correct weapon is selected
		trap_EA_SelectWeapon( cs->bs->client, cs->bs->weaponnum );
		//
		// process current script if it exists
		cs->castScriptStatusCurrent = cs->castScriptStatus;
		AICast_ScriptRun( cs, qfalse );
	}
	//
	// set special movestate if necessary
	if ( cs->movestateType != MSTYPE_NONE ) {
		switch ( cs->movestate ) {
		case MS_WALK:
			cs->actionFlags |= CASTACTION_WALK;
			break;
		case MS_CROUCH:
			trap_EA_Crouch( cs->entityNum );
			break;
		default:
			break; // TTimo gcc: MS_DEFAULT MS_RUN not handled in switch
		}
	}
	//
	//subtract the delta angles
	for ( i = 0; i < 3; i++ ) {
		cs->bs->viewangles[i] = AngleMod( cs->bs->viewangles[i] - SHORT2ANGLE( cs->bs->cur_ps.delta_angles[i] ) );
	}
}
Exemplo n.º 13
0
/*
 * BotAISetupClient
 */
int
BotAISetupClient(int client, struct bot_settings_s *settings, qbool restart)
{
	char	filename[MAX_PATH], name[MAX_PATH], gender[MAX_PATH];
	bot_state_t *bs;
	int	errnum;

	if(!botstates[client]) botstates[client] = G_Alloc(sizeof(bot_state_t));
	bs = botstates[client];

	if(bs && bs->inuse){
		BotAI_Print(PRT_FATAL,
			"BotAISetupClient: client %d already setup\n",
			client);
		return qfalse;
	}

	if(!trap_AAS_Initialized()){
		BotAI_Print(PRT_FATAL, "AAS not initialized\n");
		return qfalse;
	}

	/* load the bot character */
	bs->character = trap_BotLoadCharacter(settings->characterfile,
		settings->skill);
	if(!bs->character){
		BotAI_Print(PRT_FATAL, "couldn't load skill %f from %s\n",
			settings->skill,
			settings->characterfile);
		return qfalse;
	}
	/* copy the settings */
	memcpy(&bs->settings, settings, sizeof(bot_settings_t));
	/* allocate a goal state */
	bs->gs = trap_BotAllocGoalState(client);
	/* load the item weights */
	trap_Characteristic_String(bs->character, CHARACTERISTIC_ITEMWEIGHTS,
		filename,
		MAX_PATH);
	errnum = trap_BotLoadItemWeights(bs->gs, filename);
	if(errnum != BLERR_NOERROR){
		trap_BotFreeGoalState(bs->gs);
		return qfalse;
	}
	/* allocate a weapon state */
	bs->ws = trap_BotAllocWeaponState();
	/* load the weapon weights */
	trap_Characteristic_String(bs->character, CHARACTERISTIC_WEAPONWEIGHTS,
		filename,
		MAX_PATH);
	errnum = trap_BotLoadWeaponWeights(bs->ws, filename);
	if(errnum != BLERR_NOERROR){
		trap_BotFreeGoalState(bs->gs);
		trap_BotFreeWeaponState(bs->ws);
		return qfalse;
	}
	/* allocate a chat state */
	bs->cs = trap_BotAllocChatState();
	/* load the chat file */
	trap_Characteristic_String(bs->character, CHARACTERISTIC_CHAT_FILE,
		filename,
		MAX_PATH);
	trap_Characteristic_String(bs->character, CHARACTERISTIC_CHAT_NAME, name,
		MAX_PATH);
	errnum = trap_BotLoadChatFile(bs->cs, filename, name);
	if(errnum != BLERR_NOERROR){
		trap_BotFreeChatState(bs->cs);
		trap_BotFreeGoalState(bs->gs);
		trap_BotFreeWeaponState(bs->ws);
		return qfalse;
	}
	/* get the gender characteristic */
	trap_Characteristic_String(bs->character, CHARACTERISTIC_GENDER, gender,
		MAX_PATH);
	/* set the chat gender */
	if(*gender == 'f' || *gender == 'F') trap_BotSetChatGender(
			bs->cs, CHAT_GENDERFEMALE);
	else if(*gender == 'm' || *gender == 'M') trap_BotSetChatGender(
			bs->cs, CHAT_GENDERMALE);
	else trap_BotSetChatGender(bs->cs, CHAT_GENDERLESS);

	bs->inuse = qtrue;
	bs->client = client;
	bs->entitynum	= client;
	bs->setupcount	= 4;
	bs->entergame_time = FloatTime();
	bs->ms = trap_BotAllocMoveState();
	bs->walker =
		trap_Characteristic_BFloat(bs->character, CHARACTERISTIC_WALKER,
			0,
			1);
	numbots++;

	if(trap_cvargeti("bot_testichat")){
		trap_BotLibVarSet("bot_testichat", "1");
		BotChatTest(bs);
	}
	/* NOTE: reschedule the bot thinking */
	BotScheduleBotThink();
	/* if interbreeding start with a mutation */
	if(bot_interbreed)
		trap_BotMutateGoalFuzzyLogic(bs->gs, 1);
	/* if we kept the bot client */
	if(restart)
		BotReadSessionData(bs);
	/* bot has been setup succesfully */
	return qtrue;
}