/*
	_bot_utility
	Author: INeedGames
	Date: 09/26/2020
	The shared functions for bots

	Notes for engine
		obv the old bot behavior should be changed to use gsc built-ins to control bots
		bots using objects needs to be fixed
		setSpawnWeapon and switchToWeapon should be modified to work for testclients
*/

#include common_scripts\utility;
#include maps\mp\_utility;
#include maps\mp\gametypes\_hud_util;

/*
	Waits for the built-ins to be defined
*/
wait_for_builtins()
{
	for ( i = 0; i < 20; i++ )
	{
		if ( isDefined( level.bot_builtins ) )
		{
			return true;
		}

		if ( i < 18 )
		{
			waittillframeend;
		}
		else
		{
			wait 0.05;
		}
	}

	return false;
}

/*
	Prints to console without dev script on
*/
BotBuiltinPrintConsole( s )
{
	if ( isDefined( level.bot_builtins ) && isDefined( level.bot_builtins[ "printconsole" ] ) )
	{
		[[ level.bot_builtins[ "printconsole" ] ]]( s );
	}
}

/*
	Writes to the file, mode can be "append" or "write"
*/
BotBuiltinFileWrite( file, contents, mode )
{
	if ( isDefined( level.bot_builtins ) && isDefined( level.bot_builtins[ "filewrite" ] ) )
	{
		[[ level.bot_builtins[ "filewrite" ] ]]( file, contents, mode );
	}
}

/*
	Returns the whole file as a string
*/
BotBuiltinFileRead( file )
{
	if ( isDefined( level.bot_builtins ) && isDefined( level.bot_builtins[ "fileread" ] ) )
	{
		return [[ level.bot_builtins[ "fileread" ] ]]( file );
	}

	return undefined;
}

/*
	Test if a file exists
*/
BotBuiltinFileExists( file )
{
	if ( isDefined( level.bot_builtins ) && isDefined( level.bot_builtins[ "fileexists" ] ) )
	{
		return [[ level.bot_builtins[ "fileexists" ] ]]( file );
	}

	return false;
}

/*
	Bot action, does a bot action
	<client> botAction(<action string (+ or - then action like frag or smoke)>)
*/
BotBuiltinBotAction( action )
{
	if ( isDefined( level.bot_builtins ) && isDefined( level.bot_builtins[ "botaction" ] ) )
	{
		self [[ level.bot_builtins[ "botaction" ] ]]( action );
	}
}

/*
	Clears the bot from movement and actions
	<client> botStop()
*/
BotBuiltinBotStop()
{
	if ( isDefined( level.bot_builtins ) && isDefined( level.bot_builtins[ "botstop" ] ) )
	{
		self [[ level.bot_builtins[ "botstop" ] ]]();
	}
}

/*
	Sets the bot's movement
	<client> botMovement(<int forward>, <int right>)
*/
BotBuiltinBotMovement( forward, right )
{
	if ( isDefined( level.bot_builtins ) && isDefined( level.bot_builtins[ "botmovement" ] ) )
	{
		self [[ level.bot_builtins[ "botmovement" ] ]]( forward, right );
	}
}

/*
	Sets melee params
*/
BotBuiltinBotMeleeParams( yaw, dist )
{
	if ( isDefined( level.bot_builtins ) && isDefined( level.bot_builtins[ "botmeleeparams" ] ) )
	{
		self [[ level.bot_builtins[ "botmeleeparams" ] ]]( yaw, dist );
	}
}

/*
	Returns if player is the host
*/
is_host()
{
	return ( isDefined( self.pers[ "bot_host" ] ) && self.pers[ "bot_host" ] );
}

/*
	Setups the host variable on the player
*/
doHostCheck()
{
	self.pers[ "bot_host" ] = false;

	if ( self is_bot() )
	{
		return;
	}

	result = false;

	if ( getDvar( "bots_main_firstIsHost" ) != "0" )
	{
		BotBuiltinPrintConsole( "WARNING: bots_main_firstIsHost is enabled" );

		if ( getDvar( "bots_main_firstIsHost" ) == "1" )
		{
			setDvar( "bots_main_firstIsHost", self getguid() );
		}

		if ( getDvar( "bots_main_firstIsHost" ) == self getguid() + "" )
		{
			result = true;
		}
	}

	DvarGUID = getDvar( "bots_main_GUIDs" );

	if ( DvarGUID != "" )
	{
		guids = strtok( DvarGUID, "," );

		for ( i = 0; i < guids.size; i++ )
		{
			if ( self getguid() + "" == guids[ i ] )
			{
				result = true;
			}
		}
	}

	if ( !self isHost() && !result )
	{
		return;
	}

	self.pers[ "bot_host" ] = true;
}

/*
	Returns if the player is a bot.
*/
is_bot()
{
	assert( isDefined( self ) );
	assert( isPlayer( self ) );

	return ( ( isDefined( self.pers[ "isBot" ] ) && self.pers[ "isBot" ] ) || ( isDefined( self.pers[ "isBotWarfare" ] ) && self.pers[ "isBotWarfare" ] ) || isSubStr( self getguid() + "", "bot" ) );
}

/*
	Set the bot's stance
*/
BotSetStance( stance )
{
	switch ( stance )
	{
		case "stand":
			self maps\mp\bots\_bot_internal::stand();
			break;

		case "crouch":
			self maps\mp\bots\_bot_internal::crouch();
			break;

		case "prone":
			self maps\mp\bots\_bot_internal::prone();
			break;
	}
}

/*
	Bot presses the frag button for time.
*/
BotPressFrag( time )
{
	self maps\mp\bots\_bot_internal::frag( time );
}

/*
	Bot presses the smoke button for time.
*/
BotPressSmoke( time )
{
	self maps\mp\bots\_bot_internal::smoke( time );
}

/*
	Bot will press the ads button for the time
*/
BotPressADS( time )
{
	self maps\mp\bots\_bot_internal::pressAds( time );
}

/*
	Bot presses the use button for time.
*/
BotPressUse( time )
{
	self maps\mp\bots\_bot_internal::use( time );
}

/*
	Bots will press the attack button for a time
*/
BotPressAttack( time )
{
	self maps\mp\bots\_bot_internal::pressFire( time );
}

/*
	Returns a random number thats different everytime it changes target
*/
BotGetTargetRandom()
{
	if ( !isDefined( self.bot.target ) )
	{
		return undefined;
	}

	return self.bot.target.rand;
}

/*
	Returns the bot's random assigned number.
*/
BotGetRandom()
{
	return self.bot.rand;
}

/*
	Returns if the bot is pressing frag button.
*/
IsBotFragging()
{
	return self.bot.isfraggingafter;
}

/*
	Returns if the bot is pressing smoke button.
*/
IsBotSmoking()
{
	return self.bot.issmokingafter;
}

/*
	Returns if the bot is sprinting.
*/
IsBotSprinting()
{
	return self.bot.issprinting;
}

/*
	Returns if the bot is reloading.
*/
IsBotReloading()
{
	return self.bot.isreloading;
}

/*
	Is bot knifing
*/
IsBotKnifing()
{
	return self.bot.isknifingafter;
}

/*
	Freezes the bot's controls.
*/
BotFreezeControls( what )
{
	self.bot.isfrozen = what;

	if ( what )
	{
		self notify( "kill_goal" );
	}
}

/*
	Returns if the bot is script frozen.
*/
BotIsFrozen()
{
	return self.bot.isfrozen;
}

/*
	Bot will stop moving
*/
BotStopMoving( what )
{
	self.bot.stop_move = what;

	if ( what )
	{
		self notify( "kill_goal" );
	}
}

/*
	Notify the bot chat message
*/
BotNotifyBotEvent( msg, a, b, c, d, e, f, g )
{
	self notify( "bot_event", msg, a, b, c, d, e, f, g );
}

/*
	Returns if the bot has a script goal.
	(like t5 gsc bot)
*/
HasScriptGoal()
{
	return ( isDefined( self GetScriptGoal() ) );
}

/*
	Sets the bot's goal, will acheive it when dist away from it.
*/
SetScriptGoal( goal, dist )
{
	if ( !isDefined( dist ) )
	{
		dist = 16;
	}

	self.bot.script_goal = goal;
	self.bot.script_goal_dist = dist;
	waittillframeend;
	self notify( "new_goal_internal" );
	self notify( "new_goal" );
}

/*
	Returns the pos of the bot's goal
*/
GetScriptGoal()
{
	return self.bot.script_goal;
}

/*
	Clears the bot's goal.
*/
ClearScriptGoal()
{
	self SetScriptGoal( undefined, 0 );
}

/*
	Returns the location of the bot's javelin target
*/
HasBotJavelinLocation()
{
	return isDefined( self.bot.jav_loc );
}

/*
	Returns whether the bot has a priority objective
*/
HasPriorityObjective()
{
	return self.bot.prio_objective;
}

/*
	Sets the bot to prioritize the objective over targeting enemies
*/
SetPriorityObjective()
{
	self.bot.prio_objective = true;
	self notify( "kill_goal" );
}

/*
	Clears the bot's priority objective to allow the bot to target enemies automatically again
*/
ClearPriorityObjective()
{
	self.bot.prio_objective = false;
	self notify( "kill_goal" );
}

/*
	Sets the aim position of the bot
*/
SetScriptAimPos( pos )
{
	self.bot.script_aimpos = pos;
}

/*
	Clears the aim position of the bot
*/
ClearScriptAimPos()
{
	self SetScriptAimPos( undefined );
}

/*
	Returns the aim position of the bot
*/
GetScriptAimPos()
{
	return self.bot.script_aimpos;
}

/*
	Returns if the bot has a aim pos
*/
HasScriptAimPos()
{
	return isDefined( self GetScriptAimPos() );
}

/*
	Sets the bot's javelin target location
*/
SetBotJavelinLocation( loc )
{
	self.bot.jav_loc = loc;
	self notify( "new_enemy" );
}

/*
	Clears the bot's javelin location
*/
ClearBotJavelinLocation()
{
	self SetBotJavelinLocation( undefined );
}

/*
	Sets the bot's target to be this ent.
*/
SetAttacker( att )
{
	self.bot.target_this_frame = att;
}

/*
	Sets the script enemy for a bot.
*/
SetScriptEnemy( enemy, offset )
{
	self.bot.script_target = enemy;
	self.bot.script_target_offset = offset;
}

/*
	Removes the script enemy of the bot.
*/
ClearScriptEnemy()
{
	self SetScriptEnemy( undefined, undefined );
}

/*
	Returns the entity of the bot's target.
*/
GetThreat()
{
	if ( !isdefined( self.bot.target ) )
	{
		return undefined;
	}

	return self.bot.target.entity;
}

/*
	Returns if the bot has a script enemy.
*/
HasScriptEnemy()
{
	return ( isDefined( self.bot.script_target ) );
}

/*
	Returns if the bot has a threat.
*/
HasThreat()
{
	return ( isDefined( self GetThreat() ) );
}

/*
	If the player is defusing
*/
IsDefusing()
{
	return ( isDefined( self.isDefusing ) && self.isDefusing );
}

/*
	If the play is planting
*/
isPlanting()
{
	return ( isDefined( self.isPlanting ) && self.isPlanting );
}

/*
	If the player is carrying a bomb
*/
isBombCarrier()
{
	return ( isDefined( self.isBombCarrier ) && self.isBombCarrier );
}

/*
	If the site is in use
*/
isInUse()
{
	return ( isDefined( self.inUse ) && self.inUse );
}

/*
	If the player is in laststand
*/
inLastStand()
{
	return ( isDefined( self.lastStand ) && self.lastStand );
}

/*
	Is being revived
*/
isBeingRevived()
{
	return ( isDefined( self.beingRevived ) && self.beingRevived );
}

/*
	If the player is in final stand
*/
inFinalStand()
{
	return ( isDefined( self.inFinalStand ) && self.inFinalStand );
}

/*
	If the player is the flag carrier
*/
isFlagCarrier()
{
	return ( isDefined( self.carryFlag ) && self.carryFlag );
}

/*
	Returns if we are stunned.
*/
IsStunned()
{
	return ( isdefined( self.concussionEndTime ) && self.concussionEndTime > gettime() );
}

/*
	Returns if we are beingArtilleryShellshocked
*/
isArtShocked()
{
	return ( isDefined( self.beingArtilleryShellshocked ) && self.beingArtilleryShellshocked );
}

/*
	Returns a valid grenade launcher weapon
*/
getValidTube()
{
	weaps = self getweaponslistall();

	for ( i = 0; i < weaps.size; i++ )
	{
		weap = weaps[ i ];

		if ( !self getAmmoCount( weap ) )
		{
			continue;
		}

		if ( ( isSubStr( weap, "gl_" ) && !isSubStr( weap, "_gl_" ) ) || weap == "m79_mp" )
		{
			return weap;
		}
	}

	return undefined;
}

/*
	iw5
*/
allowClassChoiceUtil()
{
	entry = tableLookup( "mp/gametypesTable.csv", 0, level.gameType, 4 );

	if ( !isDefined( entry ) || entry == "" )
	{
		return true;
	}

	return int( entry );
}

/*
	iw5
*/
allowTeamChoiceUtil()
{
	entry = tableLookup( "mp/gametypesTable.csv", 0, level.gameType, 5 );

	if ( !isDefined( entry ) || entry == "" )
	{
		return true;
	}

	return int( entry );
}

/*
	helper
*/
waittill_either_return_( str1, str2 )
{
	self endon( str1 );
	self waittill( str2 );
	return true;
}

/*
	Returns which string gets notified first
*/
waittill_either_return( str1, str2 )
{
	if ( !isDefined( self waittill_either_return_( str1, str2 ) ) )
	{
		return str1;
	}

	return str2;
}

/*
	Returns a random grenade in the bot's inventory.
*/
getValidGrenade()
{
	grenadeTypes = [];
	grenadeTypes[ grenadeTypes.size ] = "frag_grenade_mp";
	grenadeTypes[ grenadeTypes.size ] = "smoke_grenade_mp";
	grenadeTypes[ grenadeTypes.size ] = "flash_grenade_mp";
	grenadeTypes[ grenadeTypes.size ] = "concussion_grenade_mp";
	grenadeTypes[ grenadeTypes.size ] = "semtex_mp";
	grenadeTypes[ grenadeTypes.size ] = "throwingknife_mp";

	possibles = [];

	for ( i = 0; i < grenadeTypes.size; i++ )
	{
		if ( !self hasWeapon( grenadeTypes[ i ] ) )
		{
			continue;
		}

		if ( !self getAmmoCount( grenadeTypes[ i ] ) )
		{
			continue;
		}

		possibles[ possibles.size ] = grenadeTypes[ i ];
	}

	return random( possibles );
}

/*
	If the weapon is not a script weapon (bomb, killstreak, etc, grenades)
*/
isWeaponPrimary( weap )
{
	return ( maps\mp\gametypes\_weapons::isPrimaryWeapon( weap ) || maps\mp\gametypes\_weapons::isAltModeWeapon( weap ) );
}

/*
	If the ent is a vehicle
*/
entIsVehicle( ent )
{
	return ( ent.classname == "script_vehicle" || ent.model == "vehicle_uav_static_mp" || ent.model == "vehicle_ac130_coop" );
}

/*
	Returns if the given weapon is full auto.
*/
WeaponIsFullAuto( weap )
{
	weaptoks = strtok( weap, "_" );

	assert( isDefined( weaptoks[ 0 ] ) );
	assert( isString( weaptoks[ 0 ] ) );

	return isDefined( level.bots_fullautoguns[ weaptoks[ 0 ] ] );
}

/*
	If weap is a secondary gnade
*/
isSecondaryGrenade( gnade )
{
	return ( gnade == "concussion_grenade_mp" || gnade == "flash_grenade_mp" || gnade == "smoke_grenade_mp" );
}

/*
	If the weapon  is allowed to be dropped
*/
isWeaponDroppable( weap )
{
	return ( maps\mp\gametypes\_weapons::mayDropWeapon( weap ) );
}

/*
	Does a notify after a delay
*/
notifyAfterDelay( delay, not )
{
	wait delay;
	self notify( not );
}

/*
	Returns a bot to be kicked
*/
getBotToKick()
{
	bots = getBotArray();

	if ( !isDefined( bots ) || !isDefined( bots.size ) || bots.size <= 0 || !isDefined( bots[ 0 ] ) )
	{
		return undefined;
	}

	tokick = undefined;
	axis = 0;
	allies = 0;
	team = getDvar( "bots_team" );

	// count teams
	for ( i = 0; i < bots.size; i++ )
	{
		bot = bots[ i ];

		if ( !isDefined( bot ) || !isDefined( bot.team ) )
		{
			continue;
		}

		if ( bot.team == "allies" )
		{
			allies++;
		}
		else if ( bot.team == "axis" )
		{
			axis++;
		}
		else // choose bots that are not on a team first
		{
			return bot;
		}
	}

	// search for a bot on the other team
	if ( team == "custom" || team == "axis" )
	{
		team = "allies";
	}
	else if ( team == "autoassign" )
	{
		// get the team with the most bots
		team = "allies";

		if ( axis > allies )
		{
			team = "axis";
		}
	}
	else
	{
		team = "axis";
	}

	// get the bot on this team with lowest skill
	for ( i = 0; i < bots.size; i++ )
	{
		bot = bots[ i ];

		if ( !isDefined( bot ) || !isDefined( bot.team ) )
		{
			continue;
		}

		if ( bot.team != team )
		{
			continue;
		}

		if ( !isDefined( bot.pers ) || !isDefined( bot.pers[ "bots" ] ) || !isDefined( bot.pers[ "bots" ][ "skill" ] ) || !isDefined( bot.pers[ "bots" ][ "skill" ][ "base" ] ) )
		{
			continue;
		}

		if ( isDefined( tokick ) && bot.pers[ "bots" ][ "skill" ][ "base" ] > tokick.pers[ "bots" ][ "skill" ][ "base" ] )
		{
			continue;
		}

		tokick = bot;
	}

	if ( isDefined( tokick ) )
	{
		return tokick;
	}

	// just kick lowest skill
	for ( i = 0; i < bots.size; i++ )
	{
		bot = bots[ i ];

		if ( !isDefined( bot ) || !isDefined( bot.team ) )
		{
			continue;
		}

		if ( !isDefined( bot.pers ) || !isDefined( bot.pers[ "bots" ] ) || !isDefined( bot.pers[ "bots" ][ "skill" ] ) || !isDefined( bot.pers[ "bots" ][ "skill" ][ "base" ] ) )
		{
			continue;
		}

		if ( isDefined( tokick ) && bot.pers[ "bots" ][ "skill" ][ "base" ] > tokick.pers[ "bots" ][ "skill" ][ "base" ] )
		{
			continue;
		}

		tokick = bot;
	}

	return tokick;
}

/*
	Gets a player who is host
*/
GetHostPlayer()
{
	for ( i = 0; i < level.players.size; i++ )
	{
		player = level.players[ i ];

		if ( !player is_host() )
		{
			continue;
		}

		return player;
	}

	return undefined;
}

/*
    Waits for a host player
*/
bot_wait_for_host()
{
	host = undefined;

	while ( !isDefined( level ) || !isDefined( level.players ) )
	{
		wait 0.05;
	}

	for ( i = getDvarFloat( "bots_main_waitForHostTime" ); i > 0; i -= 0.05 )
	{
		host = GetHostPlayer();

		if ( isDefined( host ) )
		{
			break;
		}

		wait 0.05;
	}

	if ( !isDefined( host ) )
	{
		return;
	}

	for ( i = getDvarFloat( "bots_main_waitForHostTime" ); i > 0; i -= 0.05 )
	{
		if ( IsDefined( host.pers[ "team" ] ) )
		{
			break;
		}

		wait 0.05;
	}

	if ( !IsDefined( host.pers[ "team" ] ) )
	{
		return;
	}

	for ( i = getDvarFloat( "bots_main_waitForHostTime" ); i > 0; i -= 0.05 )
	{
		if ( host.pers[ "team" ] == "allies" || host.pers[ "team" ] == "axis" )
		{
			break;
		}

		wait 0.05;
	}
}

/*
	Pezbot's line sphere intersection.
	http://paulbourke.net/geometry/circlesphere/raysphere.c
*/
RaySphereIntersect( start, end, spherePos, radius )
{
	// check if the start or end points are in the sphere
	r2 = radius * radius;

	if ( DistanceSquared( start, spherePos ) < r2 )
	{
		return true;
	}

	if ( DistanceSquared( end, spherePos ) < r2 )
	{
		return true;
	}

	// check if the line made by start and end intersect the sphere
	dp = end - start;
	a = dp[ 0 ] * dp[ 0 ] + dp[ 1 ] * dp[ 1 ] + dp[ 2 ] * dp[ 2 ];
	b = 2 * ( dp[ 0 ] * ( start[ 0 ] - spherePos[ 0 ] ) + dp[ 1 ] * ( start[ 1 ] - spherePos[ 1 ] ) + dp[ 2 ] * ( start[ 2 ] - spherePos[ 2 ] ) );
	c = spherePos[ 0 ] * spherePos[ 0 ] + spherePos[ 1 ] * spherePos[ 1 ] + spherePos[ 2 ] * spherePos[ 2 ];
	c += start[ 0 ] * start[ 0 ] + start[ 1 ] * start[ 1 ] + start[ 2 ] * start[ 2 ];
	c -= 2.0 * ( spherePos[ 0 ] * start[ 0 ] + spherePos[ 1 ] * start[ 1 ] + spherePos[ 2 ] * start[ 2 ] );
	c -= radius * radius;
	bb4ac = b * b - 4.0 * a * c;

	if ( abs( a ) < 0.0001 || bb4ac < 0 )
	{
		return false;
	}

	mu1 = ( 0 - b + sqrt( bb4ac ) ) / ( 2 * a );
	// mu2 = (0-b - sqrt(bb4ac)) / (2 * a);

	// intersection points of the sphere
	ip1 = start + mu1 * dp;
	// ip2 = start + mu2 * dp;

	myDist = DistanceSquared( start, end );

	// check if both intersection points far
	if ( DistanceSquared( start, ip1 ) > myDist/* && DistanceSquared(start, ip2) > myDist*/ )
	{
		return false;
	}

	dpAngles = VectorToAngles( dp );

	// check if the point is behind us
	if ( getConeDot( ip1, start, dpAngles ) < 0/* || getConeDot(ip2, start, dpAngles) < 0*/ )
	{
		return false;
	}

	return true;
}

/*
	Returns if a smoke grenade would intersect start to end line.
*/
SmokeTrace( start, end, rad )
{
	for ( i = level.bots_smokeList.count - 1; i >= 0; i-- )
	{
		nade = level.bots_smokeList.data[ i ];

		if ( nade.state != "smoking" )
		{
			continue;
		}

		if ( !RaySphereIntersect( start, end, nade.origin, rad ) )
		{
			continue;
		}

		return false;
	}

	return true;
}

/*
	Returns the cone dot (like fov, or distance from the center of our screen).
*/
getConeDot( to, from, dir )
{
	dirToTarget = VectorNormalize( to - from );
	forward = AnglesToForward( dir );
	return vectordot( dirToTarget, forward );
}

/*
	Returns the distance squared in a 2d space
*/
DistanceSquared2D( to, from )
{
	to = ( to[ 0 ], to[ 1 ], 0 );
	from = ( from[ 0 ], from[ 1 ], 0 );

	return DistanceSquared( to, from );
}

/*
	Rounds to the nearest whole number.
*/
Round( x )
{
	y = int( x );

	if ( abs( x ) - abs( y ) > 0.5 )
	{
		if ( x < 0 )
		{
			return y - 1;
		}
		else
		{
			return y + 1;
		}
	}
	else
	{
		return y;
	}
}

/*
	converts a string into a float
*/
float_old( num )
{
	setdvar( "temp_dvar_bot_util", num );

	return GetDvarFloat( "temp_dvar_bot_util" );
}

/*
	If the string starts with
*/
isStrStart( string1, subStr )
{
	return ( getSubStr( string1, 0, subStr.size ) == subStr );
}

/*
	Parses tokens into a waypoint obj
*/
parseTokensIntoWaypoint( tokens )
{
	waypoint = spawnStruct();

	orgStr = tokens[ 0 ];
	orgToks = strtok( orgStr, " " );
	waypoint.origin = ( float_old( orgToks[ 0 ] ), float_old( orgToks[ 1 ] ), float_old( orgToks[ 2 ] ) );

	childStr = tokens[ 1 ];
	childToks = strtok( childStr, " " );
	waypoint.children = [];

	for ( j = 0; j < childToks.size; j++ )
	{
		waypoint.children[ j ] = int( childToks[ j ] );
	}

	type = tokens[ 2 ];
	waypoint.type = type;

	anglesStr = tokens[ 3 ];

	if ( isDefined( anglesStr ) && anglesStr != "" )
	{
		anglesToks = strtok( anglesStr, " " );

		if ( anglesToks.size >= 3 )
		{
			waypoint.angles = ( float_old( anglesToks[ 0 ] ), float_old( anglesToks[ 1 ] ), float_old( anglesToks[ 2 ] ) );
		}
	}

	javStr = tokens[ 4 ];

	if ( isDefined( javStr ) && javStr != "" )
	{
		javToks = strtok( javStr, " " );

		if ( javToks.size >= 3 )
		{
			waypoint.jav_point = ( float_old( javToks[ 0 ] ), float_old( javToks[ 1 ] ), float_old( javToks[ 2 ] ) );
		}
	}

	return waypoint;
}

/*
	Function to extract lines from a file specified by 'filename' and store them in a result structure.
*/
getWaypointLinesFromFile( filename )
{
	// Create a structure to store the result, including an array to hold individual lines.
	result = spawnStruct();
	result.lines = [];

	// Read the entire content of the file into the 'waypointStr' variable.
	// Note: max string length in GSC is 65535.
	waypointStr = BotBuiltinFileRead( filename );

	// If the file is empty or not defined, return the empty result structure.
	if ( !isDefined( waypointStr ) )
	{
		return result;
	}

	// Variables to track the current line's character count and starting position.
	linecount = 0;
	linestart = 0;

	// Iterate through each character in the 'waypointStr'.
	for ( i = 0; i < waypointStr.size; i++ )
	{
		// Check for newline characters '\n' or '\r'.
		if ( waypointStr[ i ] == "\n" || waypointStr[ i ] == "\r" )
		{
			// Extract the current line using 'getSubStr' and store it in the result array.
			result.lines[ result.lines.size ] = getSubStr( waypointStr, linestart, linestart + linecount );

			// If the newline is '\r\n', skip the next character.
			if ( waypointStr[ i ] == "\r" && i < waypointStr.size - 1 && waypointStr[ i + 1 ] == "\n" )
			{
				i++;
			}

			// Reset linecount and update linestart for the next line.
			linecount = 0;
			linestart = i + 1;
			continue;
		}

		// Increment linecount for the current line.
		linecount++;
	}

	// Store the last line (or the only line if there are no newline characters) in the result array.
	result.lines[ result.lines.size ] = getSubStr( waypointStr, linestart, linestart + linecount );

	// Return the result structure containing the array of extracted lines.
	return result;
}

/*
	Loads waypoints from file
*/
readWpsFromFile( mapname )
{
	waypoints = [];
	filename = "waypoints/" + mapname + "_wp.csv";

	if ( !BotBuiltinFileExists( filename ) )
	{
		return waypoints;
	}

	res = getWaypointLinesFromFile( filename );

	if ( !res.lines.size )
	{
		return waypoints;
	}

	BotBuiltinPrintConsole( "Attempting to read waypoints from " + filename );

	waypointCount = int( res.lines[ 0 ] );

	for ( i = 1; i <= waypointCount; i++ )
	{
		tokens = strtok( res.lines[ i ], "," );

		waypoint = parseTokensIntoWaypoint( tokens );

		waypoints[ i - 1 ] = waypoint;
	}

	return waypoints;
}

/*
	Loads the waypoints. Populating everything needed for the waypoints.
*/
load_waypoints()
{
	level.waypointCount = 0;
	level.waypointUsage = [];
	level.waypointUsage[ "allies" ] = [];
	level.waypointUsage[ "axis" ] = [];

	if ( !isDefined( level.waypoints ) )
	{
		level.waypoints = [];
	}

	mapname = getDvar( "mapname" );

	wps = readWpsFromFile( mapname );

	if ( wps.size )
	{
		level.waypoints = wps;
		BotBuiltinPrintConsole( "Loaded " + wps.size + " waypoints from csv" );
	}
	else
	{
		switch ( mapname )
		{
			default:
				maps\mp\bots\waypoints\_custom_map::main( mapname );
				break;
		}

		if ( level.waypoints.size )
		{
			BotBuiltinPrintConsole( "Loaded " + level.waypoints.size + " waypoints from script" );
		}
	}

	if ( !level.waypoints.size )
	{
		BotBuiltinPrintConsole( "No waypoints loaded!" );
	}

	level.waypointCount = level.waypoints.size;

	for ( i = 0; i < level.waypointCount; i++ )
	{
		if ( !isDefined( level.waypoints[ i ].children ) || !isDefined( level.waypoints[ i ].children.size ) )
		{
			level.waypoints[ i ].children = [];
		}

		if ( !isDefined( level.waypoints[ i ].origin ) )
		{
			level.waypoints[ i ].origin = ( 0, 0, 0 );
		}

		if ( !isDefined( level.waypoints[ i ].type ) )
		{
			level.waypoints[ i ].type = "crouch";
		}

		level.waypoints[ i ].childCount = undefined;
	}
}

/*
	Is bot near any of the given waypoints
*/
nearAnyOfWaypoints( dist, waypoints )
{
	dist *= dist;

	for ( i = 0; i < waypoints.size; i++ )
	{
		waypoint = level.waypoints[ waypoints[ i ] ];

		if ( DistanceSquared( waypoint.origin, self.origin ) > dist )
		{
			continue;
		}

		return true;
	}

	return false;
}

/*
	Returns the waypoints that are near
*/
waypointsNear( waypoints, dist )
{
	dist *= dist;

	answer = [];

	for ( i = 0; i < waypoints.size; i++ )
	{
		wp = level.waypoints[ waypoints[ i ] ];

		if ( DistanceSquared( wp.origin, self.origin ) > dist )
		{
			continue;
		}

		answer[ answer.size ] = waypoints[ i ];
	}

	return answer;
}

/*
	Returns nearest waypoint of waypoints
*/
getNearestWaypointOfWaypoints( waypoints )
{
	answer = undefined;
	closestDist = 2147483647;

	for ( i = 0; i < waypoints.size; i++ )
	{
		waypoint = level.waypoints[ waypoints[ i ] ];
		thisDist = DistanceSquared( self.origin, waypoint.origin );

		if ( isDefined( answer ) && thisDist > closestDist )
		{
			continue;
		}

		answer = waypoints[ i ];
		closestDist = thisDist;
	}

	return answer;
}

/*
	Returns all waypoints of type
*/
getWaypointsOfType( type )
{
	answer = [];

	for ( i = 0; i < level.waypointCount; i++ )
	{
		wp = level.waypoints[ i ];

		if ( type == "camp" )
		{
			if ( wp.type != "crouch" )
			{
				continue;
			}

			if ( wp.children.size != 1 )
			{
				continue;
			}
		}
		else if ( type != wp.type )
		{
			continue;
		}

		answer[ answer.size ] = i;
	}

	return answer;
}

/*
	Returns the waypoint for index
*/
getWaypointForIndex( i )
{
	if ( !isDefined( i ) )
	{
		return undefined;
	}

	return level.waypoints[ i ];
}

/*
	Returns the friendly user name for a given map's codename
*/
getMapName( mapname )
{
	switch ( mapname )
	{
		case "mp_abandon":
			return "Carnival";

		case "mp_rundown":
			return "Rundown";

		case "mp_afghan":
			return "Afghan";

		case "mp_boneyard":
			return "Scrapyard";

		case "mp_brecourt":
			return "Wasteland";

		case "mp_cargoship":
			return "Wetwork";

		case "mp_checkpoint":
			return "Karachi";

		case "mp_compact":
			return "Salvage";

		case "mp_complex":
			return "Bailout";

		case "mp_crash":
			return "Crash";

		case "mp_cross_fire":
			return "Crossfire";

		case "mp_derail":
			return "Derail";

		case "mp_estate":
			return "Estate";

		case "mp_favela":
			return "Favela";

		case "mp_fuel2":
			return "Fuel";

		case "mp_highrise":
			return "Highrise";

		case "mp_invasion":
			return "Invasion";

		case "mp_killhouse":
			return "Killhouse";

		case "mp_nightshift":
			return "Skidrow";

		case "mp_nuked":
			return "Nuketown";

		case "oilrig":
			return "Oilrig";

		case "mp_quarry":
			return "Quarry";

		case "mp_rust":
			return "Rust";

		case "mp_storm":
			return "Storm";

		case "mp_strike":
			return "Strike";

		case "mp_subbase":
			return "Subbase";

		case "mp_terminal":
			return "Terminal";

		case "mp_trailerpark":
			return "Trailer Park";

		case "mp_overgrown":
			return "Overgrown";

		case "mp_underpass":
			return "Underpass";

		case "mp_vacant":
			return "Vacant";

		case "iw4_credits":
			return "IW4 Test Map";

		case "airport":
			return "Airport";

		case "co_hunted":
			return "Hunted";

		case "invasion":
			return "Burgertown";

		case "mp_bloc":
			return "Bloc";

		case "mp_bog_sh":
			return "Bog";

		case "contingency":
			return "Contingency";

		case "gulag":
			return "Gulag";

		case "so_ghillies":
			return "Pripyat";

		case "ending":
			return "Museum";

		case "af_chase":
			return "Afghan Chase";

		case "af_caves":
			return "Afghan Caves";

		case "arcadia":
			return "Arcadia";

		case "boneyard":
			return "Boneyard";

		case "cliffhanger":
			return "Cliffhanger";

		case "dcburning":
			return "DCBurning";

		case "dcemp":
			return "DCEMP";

		case "downtown":
			return "Downtown";

		case "estate":
			return "EstateSP";

		case "favela":
			return "FavelaSP";

		case "favela_escape":
			return "Favela Escape";

		case "roadkill":
			return "Roadkill";

		case "trainer":
			return "TH3 PIT";

		case "so_bridge":
			return "Bridge";

		case "dc_whitehouse":
			return "Whitehouse";

		case "mp_shipment_long":
			return "ShipmentLong";

		case "mp_shipment":
			return "Shipment";

		case "mp_firingrange":
			return "Firing Range";

		case "mp_rust_long":
			return "RustLong";

		case "mp_cargoship_sh":
			return "Freighter";

		case "mp_storm_spring":
			return "Chemical Plant";

		case "mp_crash_trop":
		case "mp_crash_tropical":
			return "Crash Tropical";

		case "mp_fav_tropical":
			return "Favela Tropical";

		case "mp_estate_trop":
		case "mp_estate_tropical":
			return "Estate Tropical";

		case "mp_bloc_sh":
			return "Forgotten City";

		default:
			return mapname;
	}
}

/*
	Returns a good amount of players.
*/
getGoodMapAmount()
{
	switch ( getdvar( "mapname" ) )
	{
		case "mp_rust":
		case "iw4_credits":
		case "mp_nuked":
		case "oilrig":
		case "mp_killhouse":
		case "invasion":
		case "mp_bog_sh":
		case "co_hunted":
		case "contingency":
		case "gulag":
		case "so_ghillies":
		case "ending":
		case "af_chase":
		case "af_caves":
		case "arcadia":
		case "boneyard":
		case "cliffhanger":
		case "dcburning":
		case "dcemp":
		case "downtown":
		case "estate":
		case "favela":
		case "favela_escape":
		case "roadkill":
		case "so_bridge":
		case "trainer":
		case "dc_whitehouse":
		case "mp_shipment":
			if ( level.teambased )
			{
				return 8;
			}
			else
			{
				return 4;
			}

		case "mp_vacant":
		case "mp_terminal":
		case "mp_nightshift":
		case "mp_favela":
		case "mp_highrise":
		case "mp_boneyard":
		case "mp_subbase":
		case "mp_firingrange":
		case "mp_fav_tropical":
		case "mp_shipment_long":
		case "mp_rust_long":
			if ( level.teambased )
			{
				return 12;
			}
			else
			{
				return 8;
			}

		case "mp_afghan":
		case "mp_crash":
		case "mp_brecourt":
		case "mp_cross_fire":
		case "mp_overgrown":
		case "mp_trailerpark":
		case "mp_underpass":
		case "mp_checkpoint":
		case "mp_quarry":
		case "mp_rundown":
		case "mp_cargoship":
		case "mp_estate":
		case "mp_bloc":
		case "mp_storm":
		case "mp_strike":
		case "mp_abandon":
		case "mp_complex":
		case "airport":
		case "mp_storm_spring":
		case "mp_crash_trop":
		case "mp_cargoship_sh":
		case "mp_estate_trop":
		case "mp_compact":
		case "mp_crash_tropical":
		case "mp_estate_tropical":
		case "mp_bloc_sh":
			if ( level.teambased )
			{
				return 14;
			}
			else
			{
				return 9;
			}

		case "mp_fuel2":
		case "mp_invasion":
		case "mp_derail":
			if ( level.teambased )
			{
				return 16;
			}
			else
			{
				return 10;
			}

		default:
			return 2;
	}
}

/*
	Matches a num to a char
*/
keyCodeToString( a )
{
	b = "";

	switch ( a )
	{
		case 0:
			b = "a";
			break;

		case 1:
			b = "b";
			break;

		case 2:
			b = "c";
			break;

		case 3:
			b = "d";
			break;

		case 4:
			b = "e";
			break;

		case 5:
			b = "f";
			break;

		case 6:
			b = "g";
			break;

		case 7:
			b = "h";
			break;

		case 8:
			b = "i";
			break;

		case 9:
			b = "j";
			break;

		case 10:
			b = "k";
			break;

		case 11:
			b = "l";
			break;

		case 12:
			b = "m";
			break;

		case 13:
			b = "n";
			break;

		case 14:
			b = "o";
			break;

		case 15:
			b = "p";
			break;

		case 16:
			b = "q";
			break;

		case 17:
			b = "r";
			break;

		case 18:
			b = "s";
			break;

		case 19:
			b = "t";
			break;

		case 20:
			b = "u";
			break;

		case 21:
			b = "v";
			break;

		case 22:
			b = "w";
			break;

		case 23:
			b = "x";
			break;

		case 24:
			b = "y";
			break;

		case 25:
			b = "z";
			break;

		case 26:
			b = ".";
			break;

		case 27:
			b = " ";
			break;
	}

	return b;
}

/*
	Returns an array of all the bots in the game.
*/
getBotArray()
{
	result = [];
	playercount = level.players.size;

	for ( i = 0; i < playercount; i++ )
	{
		player = level.players[ i ];

		if ( !player is_bot() )
		{
			continue;
		}

		result[ result.size ] = player;
	}

	return result;
}

/*
	We return a balanced KDTree from the waypoints.
*/
WaypointsToKDTree()
{
	kdTree = KDTree();

	kdTree _WaypointsToKDTree( level.waypoints, 0 );

	return kdTree;
}

/*
	Recurive function. We construct a balanced KD tree by sorting the waypoints using heap sort.
*/
_WaypointsToKDTree( waypoints, dem )
{
	if ( !waypoints.size )
	{
		return;
	}

	callbacksort = undefined;

	switch ( dem )
	{
		case 0:
			callbacksort = ::HeapSortCoordX;
			break;

		case 1:
			callbacksort = ::HeapSortCoordY;
			break;

		case 2:
			callbacksort = ::HeapSortCoordZ;
			break;
	}

	heap = NewHeap( callbacksort );

	for ( i = 0; i < waypoints.size; i++ )
	{
		heap HeapInsert( waypoints[ i ] );
	}

	sorted = [];

	while ( heap.data.size )
	{
		sorted[ sorted.size ] = heap.data[ 0 ];
		heap HeapRemove();
	}

	median = int( sorted.size / 2 ); // use divide and conq

	left = [];
	right = [];

	for ( i = 0; i < sorted.size; i++ )
	{
		if ( i < median )
		{
			right[ right.size ] = sorted[ i ];
		}
		else if ( i > median )
		{
			left[ left.size ] = sorted[ i ];
		}
	}

	self KDTreeInsert( sorted[ median ] );

	_WaypointsToKDTree( left, ( dem + 1 ) % 3 );

	_WaypointsToKDTree( right, ( dem + 1 ) % 3 );
}

/*
	Returns a new list.
*/
List()
{
	list = spawnStruct();
	list.count = 0;
	list.data = [];

	return list;
}

/*
	Adds a new thing to the list.
*/
ListAdd( thing )
{
	self.data[ self.count ] = thing;

	self.count++;
}

/*
	Adds to the start of the list.
*/
ListAddFirst( thing )
{
	for ( i = self.count - 1; i >= 0; i-- )
	{
		self.data[ i + 1 ] = self.data[ i ];
	}

	self.data[ 0 ] = thing;
	self.count++;
}

/*
	Removes the thing from the list.
*/
ListRemove( thing )
{
	for ( i = 0; i < self.count; i++ )
	{
		if ( self.data[ i ] == thing )
		{
			while ( i < self.count - 1 )
			{
				self.data[ i ] = self.data[ i + 1 ];
				i++;
			}

			self.data[ i ] = undefined;
			self.count--;
			break;
		}
	}
}

/*
	Returns a new KDTree.
*/
KDTree()
{
	kdTree = spawnStruct();
	kdTree.root = undefined;
	kdTree.count = 0;

	return kdTree;
}

/*
	Called on a KDTree. Will insert the object into the KDTree.
*/
KDTreeInsert( data ) // as long as what you insert has a .origin attru, it will work.
{
	self.root = self _KDTreeInsert( self.root, data, 0, -2147483647, -2147483647, -2147483647, 2147483647, 2147483647, 2147483647 );
}

/*
	Recurive function that insert the object into the KDTree.
*/
_KDTreeInsert( node, data, dem, x0, y0, z0, x1, y1, z1 )
{
	if ( !isDefined( node ) )
	{
		r = spawnStruct();
		r.data = data;
		r.left = undefined;
		r.right = undefined;
		r.x0 = x0;
		r.x1 = x1;
		r.y0 = y0;
		r.y1 = y1;
		r.z0 = z0;
		r.z1 = z1;

		self.count++;

		return r;
	}

	switch ( dem )
	{
		case 0:
			if ( data.origin[ 0 ] < node.data.origin[ 0 ] )
			{
				node.left = self _KDTreeInsert( node.left, data, 1, x0, y0, z0, node.data.origin[ 0 ], y1, z1 );
			}
			else
			{
				node.right = self _KDTreeInsert( node.right, data, 1, node.data.origin[ 0 ], y0, z0, x1, y1, z1 );
			}

			break;

		case 1:
			if ( data.origin[ 1 ] < node.data.origin[ 1 ] )
			{
				node.left = self _KDTreeInsert( node.left, data, 2, x0, y0, z0, x1, node.data.origin[ 1 ], z1 );
			}
			else
			{
				node.right = self _KDTreeInsert( node.right, data, 2, x0, node.data.origin[ 1 ], z0, x1, y1, z1 );
			}

			break;

		case 2:
			if ( data.origin[ 2 ] < node.data.origin[ 2 ] )
			{
				node.left = self _KDTreeInsert( node.left, data, 0, x0, y0, z0, x1, y1, node.data.origin[ 2 ] );
			}
			else
			{
				node.right = self _KDTreeInsert( node.right, data, 0, x0, y0, node.data.origin[ 2 ], x1, y1, z1 );
			}

			break;
	}

	return node;
}

/*
	Called on a KDTree, will return the nearest object to the given origin.
*/
KDTreeNearest( origin )
{
	if ( !isDefined( self.root ) )
	{
		return undefined;
	}

	return self _KDTreeNearest( self.root, origin, self.root.data, DistanceSquared( self.root.data.origin, origin ), 0 );
}

/*
	Recurive function that will retrieve the closest object to the query.
*/
_KDTreeNearest( node, point, closest, closestdist, dem )
{
	if ( !isDefined( node ) )
	{
		return closest;
	}

	thisDis = DistanceSquared( node.data.origin, point );

	if ( thisDis < closestdist )
	{
		closestdist = thisDis;
		closest = node.data;
	}

	if ( node RectDistanceSquared( point ) < closestdist )
	{
		near = node.left;
		far = node.right;

		if ( point[ dem ] > node.data.origin[ dem ] )
		{
			near = node.right;
			far = node.left;
		}

		closest = self _KDTreeNearest( near, point, closest, closestdist, ( dem + 1 ) % 3 );

		closest = self _KDTreeNearest( far, point, closest, DistanceSquared( closest.origin, point ), ( dem + 1 ) % 3 );
	}

	return closest;
}

/*
	Called on a rectangle, returns the distance from origin to the rectangle.
*/
RectDistanceSquared( origin )
{
	dx = 0;
	dy = 0;
	dz = 0;

	if ( origin[ 0 ] < self.x0 )
	{
		dx = origin[ 0 ] - self.x0;
	}
	else if ( origin[ 0 ] > self.x1 )
	{
		dx = origin[ 0 ] - self.x1;
	}

	if ( origin[ 1 ] < self.y0 )
	{
		dy = origin[ 1 ] - self.y0;
	}
	else if ( origin[ 1 ] > self.y1 )
	{
		dy = origin[ 1 ] - self.y1;
	}


	if ( origin[ 2 ] < self.z0 )
	{
		dz = origin[ 2 ] - self.z0;
	}
	else if ( origin[ 2 ] > self.z1 )
	{
		dz = origin[ 2 ] - self.z1;
	}

	return dx * dx + dy * dy + dz * dz;
}

/*
	Does the extra check when adding bots
*/
doExtraCheck()
{
	maps\mp\bots\_bot_internal::checkTheBots();
}

/*
	A heap invarient comparitor, used for objects, objects with a higher X coord will be first in the heap.
*/
HeapSortCoordX( item, item2 )
{
	return item.origin[ 0 ] > item2.origin[ 0 ];
}

/*
	A heap invarient comparitor, used for objects, objects with a higher Y coord will be first in the heap.
*/
HeapSortCoordY( item, item2 )
{
	return item.origin[ 1 ] > item2.origin[ 1 ];
}

/*
	A heap invarient comparitor, used for objects, objects with a higher Z coord will be first in the heap.
*/
HeapSortCoordZ( item, item2 )
{
	return item.origin[ 2 ] > item2.origin[ 2 ];
}

/*
	A heap invarient comparitor, used for numbers, numbers with the highest number will be first in the heap.
*/
Heap( item, item2 )
{
	return item > item2;
}

/*
	A heap invarient comparitor, used for numbers, numbers with the lowest number will be first in the heap.
*/
ReverseHeap( item, item2 )
{
	return item < item2;
}

/*
	A heap invarient comparitor, used for traces. Wanting the trace with the largest length first in the heap.
*/
HeapTraceFraction( item, item2 )
{
	return item[ "fraction" ] > item2[ "fraction" ];
}

/*
	Returns a new heap.
*/
NewHeap( compare )
{
	heap_node = spawnStruct();
	heap_node.data = [];
	heap_node.compare = compare;

	return heap_node;
}

/*
	Inserts the item into the heap. Called on a heap.
*/
HeapInsert( item )
{
	insert = self.data.size;
	self.data[ insert ] = item;

	current = insert + 1;

	while ( current > 1 )
	{
		last = current;
		current = int( current / 2 );

		if ( ![[ self.compare ]]( item, self.data[ current - 1 ] ) )
		{
			break;
		}

		self.data[ last - 1 ] = self.data[ current - 1 ];
		self.data[ current - 1 ] = item;
	}
}

/*
	Helper function to determine what is the next child of the bst.
*/
_HeapNextChild( node, hsize )
{
	left = node * 2;
	right = left + 1;

	if ( left > hsize )
	{
		return -1;
	}

	if ( right > hsize )
	{
		return left;
	}

	if ( [[ self.compare ]]( self.data[ left - 1 ], self.data[ right - 1 ] ) )
	{
		return left;
	}
	else
	{
		return right;
	}
}

/*
	Removes an item from the heap. Called on a heap.
*/
HeapRemove()
{
	remove = self.data.size;

	if ( !remove )
	{
		return remove;
	}

	move = self.data[ remove - 1 ];
	self.data[ 0 ] = move;
	self.data[ remove - 1 ] = undefined;
	remove--;

	if ( !remove )
	{
		return remove;
	}

	last = 1;
	next = self _HeapNextChild( 1, remove );

	while ( next != -1 )
	{
		if ( [[ self.compare ]]( move, self.data[ next - 1 ] ) )
		{
			break;
		}

		self.data[ last - 1 ] = self.data[ next - 1 ];
		self.data[ next - 1 ] = move;

		last = next;
		next = self _HeapNextChild( next, remove );
	}

	return remove;
}

/*
	A heap invarient comparitor, used for the astar's nodes, wanting the node with the lowest f to be first in the heap.
*/
ReverseHeapAStar( item, item2 )
{
	return item.f < item2.f;
}

/*
	Removes the waypoint usage
*/
RemoveWaypointUsage( wp, team )
{
	if ( !isDefined( level.waypointUsage ) )
	{
		return;
	}

	if ( !isDefined( level.waypointUsage[ team ][ wp + "" ] ) )
	{
		return;
	}

	level.waypointUsage[ team ][ wp + "" ]--;

	if ( level.waypointUsage[ team ][ wp + "" ] <= 0 )
	{
		level.waypointUsage[ team ][ wp + "" ] = undefined;
	}
}

/*
	Will linearly search for the nearest waypoint to pos that has a direct line of sight.
*/
GetNearestWaypointWithSight( pos )
{
	candidate = undefined;
	dist = 2147483647;

	for ( i = 0; i < level.waypointCount; i++ )
	{
		if ( !bulletTracePassed( pos + ( 0, 0, 15 ), level.waypoints[ i ].origin + ( 0, 0, 15 ), false, undefined ) )
		{
			continue;
		}

		curdis = DistanceSquared( level.waypoints[ i ].origin, pos );

		if ( curdis > dist )
		{
			continue;
		}

		dist = curdis;
		candidate = i;
	}

	return candidate;
}

/*
	Will linearly search for the nearest waypoint
*/
GetNearestWaypoint( pos )
{
	candidate = undefined;
	dist = 2147483647;

	for ( i = 0; i < level.waypointCount; i++ )
	{
		curdis = DistanceSquared( level.waypoints[ i ].origin, pos );

		if ( curdis > dist )
		{
			continue;
		}

		dist = curdis;
		candidate = i;
	}

	return candidate;
}

/*
	Modified Pezbot astar search.
	This makes use of sets for quick look up and a heap for a priority queue instead of simple lists which require to linearly search for elements everytime.
	It is also modified to make paths with bots already on more expensive and will try a less congested path first. Thus spliting up the bots onto more paths instead of just one (the smallest).
*/
AStarSearch( start, goal, team, greedy_path )
{
	open = NewHeap( ::ReverseHeapAStar ); // heap
	openset = []; // set for quick lookup
	closed = []; // set for quick lookup


	startWp = getNearestWaypoint( start );

	if ( !isDefined( startWp ) )
	{
		return [];
	}

	_startwp = undefined;

	if ( !bulletTracePassed( start + ( 0, 0, 15 ), level.waypoints[ startWp ].origin + ( 0, 0, 15 ), false, undefined ) )
	{
		_startwp = GetNearestWaypointWithSight( start );
	}

	if ( isDefined( _startwp ) )
	{
		startWp = _startwp;
	}


	goalWp = getNearestWaypoint( goal );

	if ( !isDefined( goalWp ) )
	{
		return [];
	}

	_goalWp = undefined;

	if ( !bulletTracePassed( goal + ( 0, 0, 15 ), level.waypoints[ goalWp ].origin + ( 0, 0, 15 ), false, undefined ) )
	{
		_goalwp = GetNearestWaypointWithSight( goal );
	}

	if ( isDefined( _goalwp ) )
	{
		goalWp = _goalwp;
	}


	node = spawnStruct();
	node.g = 0; // path dist so far
	node.h = DistanceSquared( level.waypoints[ startWp ].origin, level.waypoints[ goalWp ].origin ); // herustic, distance to goal for path finding
	node.f = node.h + node.g; // combine path dist and heru, use reverse heap to sort the priority queue by this attru
	node.index = startWp;
	node.parent = undefined; // we are start, so we have no parent

	// push node onto queue
	openset[ node.index + "" ] = node;
	open HeapInsert( node );

	// while the queue is not empty
	while ( open.data.size )
	{
		// pop bestnode from queue
		bestNode = open.data[ 0 ];
		open HeapRemove();
		openset[ bestNode.index + "" ] = undefined;
		wp = level.waypoints[ bestNode.index ];

		// check if we made it to the goal
		if ( bestNode.index == goalWp )
		{
			path = [];

			while ( isDefined( bestNode ) )
			{
				if ( isdefined( team ) && isDefined( level.waypointUsage ) )
				{
					if ( !isDefined( level.waypointUsage[ team ][ bestNode.index + "" ] ) )
					{
						level.waypointUsage[ team ][ bestNode.index + "" ] = 0;
					}

					level.waypointUsage[ team ][ bestNode.index + "" ]++;
				}

				// construct path
				path[ path.size ] = bestNode.index;

				bestNode = bestNode.parent;
			}

			return path;
		}

		// for each child of bestnode
		for ( i = wp.children.size - 1; i >= 0; i-- )
		{
			child = wp.children[ i ];
			childWp = level.waypoints[ child ];

			penalty = 1;

			if ( !greedy_path && isdefined( team ) && isDefined( level.waypointUsage ) )
			{
				temppen = 1;

				if ( isDefined( level.waypointUsage[ team ][ child + "" ] ) )
				{
					temppen = level.waypointUsage[ team ][ child + "" ]; // consider how many bots are taking this path
				}

				if ( temppen > 1 )
				{
					penalty = temppen;
				}
			}

			// have certain types of nodes more expensive
			if ( childWp.type == "climb" || childWp.type == "prone" )
			{
				penalty += 4;
			}

			// calc the total path we have took
			newg = bestNode.g + DistanceSquared( wp.origin, childWp.origin ) * penalty; // bots on same team's path are more expensive

			// check if this child is in open or close with a g value less than newg
			inopen = isDefined( openset[ child + "" ] );

			if ( inopen && openset[ child + "" ].g <= newg )
			{
				continue;
			}

			inclosed = isDefined( closed[ child + "" ] );

			if ( inclosed && closed[ child + "" ].g <= newg )
			{
				continue;
			}

			node = undefined;

			if ( inopen )
			{
				node = openset[ child + "" ];
			}
			else if ( inclosed )
			{
				node = closed[ child + "" ];
			}
			else
			{
				node = spawnStruct();
			}

			node.parent = bestNode;
			node.g = newg;
			node.h = DistanceSquared( childWp.origin, level.waypoints[ goalWp ].origin );
			node.f = node.g + node.h;
			node.index = child;

			// check if in closed, remove it
			if ( inclosed )
			{
				closed[ child + "" ] = undefined;
			}

			// check if not in open, add it
			if ( !inopen )
			{
				open HeapInsert( node );
				openset[ child + "" ] = node;
			}
		}

		// done with children, push onto closed
		closed[ bestNode.index + "" ] = bestNode;
	}

	return [];
}

/*
	Taken from t5 gsc.
	Returns an array of number's average.
*/
array_average( array )
{
	assert( array.size > 0 );
	total = 0;

	for ( i = 0; i < array.size; i++ )
	{
		total += array[ i ];
	}

	return ( total / array.size );
}

/*
	Taken from t5 gsc.
	Returns an array of number's standard deviation.
*/
array_std_deviation( array, mean )
{
	assert( array.size > 0 );
	tmp = [];

	for ( i = 0; i < array.size; i++ )
	{
		tmp[ i ] = ( array[ i ] - mean ) * ( array[ i ] - mean );
	}

	total = 0;

	for ( i = 0; i < tmp.size; i++ )
	{
		total = total + tmp[ i ];
	}

	return Sqrt( total / array.size );
}

/*
	Taken from t5 gsc.
	Will produce a random number between lower_bound and upper_bound but with a bell curve distribution (more likely to be close to the mean).
*/
random_normal_distribution( mean, std_deviation, lower_bound, upper_bound )
{
	x1 = 0;
	x2 = 0;
	w = 1;
	y1 = 0;

	while ( w >= 1 )
	{
		x1 = 2 * RandomFloatRange( 0, 1 ) - 1;
		x2 = 2 * RandomFloatRange( 0, 1 ) - 1;
		w = x1 * x1 + x2 * x2;
	}

	w = Sqrt( ( -2.0 * Log( w ) ) / w );
	y1 = x1 * w;
	number = mean + y1 * std_deviation;

	if ( IsDefined( lower_bound ) && number < lower_bound )
	{
		number = lower_bound;
	}

	if ( IsDefined( upper_bound ) && number > upper_bound )
	{
		number = upper_bound;
	}

	return ( number );
}

/*
	Patches the plant sites so it exposes the defuseObject
*/
onUsePlantObjectFix( player )
{
	// planted the bomb
	if ( !self maps\mp\gametypes\_gameobjects::isFriendlyTeam( player.pers[ "team" ] ) )
	{
		level thread bombPlantedFix( self, player );
		// player logString( "bomb planted: " + self.label );

		// disable all bomb zones except this one
		for ( index = 0; index < level.bombZones.size; index++ )
		{
			if ( level.bombZones[ index ] == self )
			{
				continue;
			}

			level.bombZones[ index ] maps\mp\gametypes\_gameobjects::disableObject();
		}

		player playSound( "mp_bomb_plant" );
		player notify ( "bomb_planted" );

		// if ( !level.hardcoreMode )
		//	iPrintLn( &"MP_EXPLOSIVES_PLANTED_BY", player );

		leaderDialog( "bomb_planted" );

		level thread teamPlayerCardSplash( "callout_bombplanted", player );

		level.bombOwner = player;
		player thread maps\mp\gametypes\_hud_message::SplashNotify( "plant", maps\mp\gametypes\_rank::getScoreInfoValue( "plant" ) );
		player thread maps\mp\gametypes\_rank::giveRankXP( "plant" );
		player.bombPlantedTime = getTime();
		maps\mp\gametypes\_gamescore::givePlayerScore( "plant", player );
		player incPlayerStat( "bombsplanted", 1 );
		player thread maps\mp\_matchdata::logGameEvent( "plant", player.origin );
	}
}

/*
	Patches the plant sites so it exposes the defuseObject
*/
bombPlantedFix( destroyedObj, player )
{
	maps\mp\gametypes\_gamelogic::pauseTimer();
	level.bombPlanted = true;

	destroyedObj.visuals[ 0 ] thread maps\mp\gametypes\_gamelogic::playTickingSound();
	level.tickingObject = destroyedObj.visuals[ 0 ];

	level.timeLimitOverride = true;
	setGameEndTime( int( gettime() + ( level.bombTimer * 1000 ) ) );
	setDvar( "ui_bomb_timer", 1 );

	if ( !level.multiBomb )
	{
		level.sdBomb maps\mp\gametypes\_gameobjects::allowCarry( "none" );
		level.sdBomb maps\mp\gametypes\_gameobjects::setVisibleTeam( "none" );
		level.sdBomb maps\mp\gametypes\_gameobjects::setDropped();
		level.sdBombModel = level.sdBomb.visuals[ 0 ];
	}
	else
	{

		for ( index = 0; index < level.players.size; index++ )
		{
			if ( isDefined( level.players[ index ].carryIcon ) )
			{
				level.players[ index ].carryIcon destroyElem();
			}
		}

		trace = bulletTrace( player.origin + ( 0, 0, 20 ), player.origin - ( 0, 0, 2000 ), false, player );

		tempAngle = randomfloat( 360 );
		forward = ( cos( tempAngle ), sin( tempAngle ), 0 );
		forward = vectornormalize( forward - common_scripts\utility::vector_multiply( trace[ "normal" ], vectordot( forward, trace[ "normal" ] ) ) );
		dropAngles = vectortoangles( forward );

		level.sdBombModel = spawn( "script_model", trace[ "position" ] );
		level.sdBombModel.angles = dropAngles;
		level.sdBombModel setModel( "prop_suitcase_bomb" );
	}

	destroyedObj maps\mp\gametypes\_gameobjects::allowUse( "none" );
	destroyedObj maps\mp\gametypes\_gameobjects::setVisibleTeam( "none" );
	/*
	    destroyedObj maps\mp\gametypes\_gameobjects::set2DIcon( "friendly", undefined );
	    destroyedObj maps\mp\gametypes\_gameobjects::set2DIcon( "enemy", undefined );
	    destroyedObj maps\mp\gametypes\_gameobjects::set3DIcon( "friendly", undefined );
	    destroyedObj maps\mp\gametypes\_gameobjects::set3DIcon( "enemy", undefined );
	*/
	label = destroyedObj maps\mp\gametypes\_gameobjects::getLabel();

	// create a new object to defuse with.
	trigger = destroyedObj.bombDefuseTrig;
	trigger.origin = level.sdBombModel.origin;
	visuals = [];
	defuseObject = maps\mp\gametypes\_gameobjects::createUseObject( game[ "defenders" ], trigger, visuals, ( 0, 0, 32 ) );
	defuseObject maps\mp\gametypes\_gameobjects::allowUse( "friendly" );
	defuseObject maps\mp\gametypes\_gameobjects::setUseTime( level.defuseTime );
	defuseObject maps\mp\gametypes\_gameobjects::setUseText( &"MP_DEFUSING_EXPLOSIVE" );
	defuseObject maps\mp\gametypes\_gameobjects::setUseHintText( &"PLATFORM_HOLD_TO_DEFUSE_EXPLOSIVES" );
	defuseObject maps\mp\gametypes\_gameobjects::setVisibleTeam( "any" );
	defuseObject maps\mp\gametypes\_gameobjects::set2DIcon( "friendly", "waypoint_defuse" + label );
	defuseObject maps\mp\gametypes\_gameobjects::set2DIcon( "enemy", "waypoint_defend" + label );
	defuseObject maps\mp\gametypes\_gameobjects::set3DIcon( "friendly", "waypoint_defuse" + label );
	defuseObject maps\mp\gametypes\_gameobjects::set3DIcon( "enemy", "waypoint_defend" + label );
	defuseObject.label = label;
	defuseObject.onBeginUse = maps\mp\gametypes\sd::onBeginUse;
	defuseObject.onEndUse = maps\mp\gametypes\sd::onEndUse;
	defuseObject.onUse = maps\mp\gametypes\sd::onUseDefuseObject;
	defuseObject.useWeapon = "briefcase_bomb_defuse_mp";

	level.defuseObject = defuseObject;

	maps\mp\gametypes\sd::BombTimerWait();
	setDvar( "ui_bomb_timer", 0 );

	destroyedObj.visuals[ 0 ] maps\mp\gametypes\_gamelogic::stopTickingSound();

	if ( level.gameEnded || level.bombDefused )
	{
		return;
	}

	level.bombExploded = true;

	explosionOrigin = level.sdBombModel.origin;
	level.sdBombModel hide();

	if ( isdefined( player ) )
	{
		destroyedObj.visuals[ 0 ] radiusDamage( explosionOrigin, 512, 200, 20, player );
		player incPlayerStat( "targetsdestroyed", 1 );
	}
	else
	{
		destroyedObj.visuals[ 0 ] radiusDamage( explosionOrigin, 512, 200, 20 );
	}

	rot = randomfloat( 360 );
	explosionEffect = spawnFx( level._effect[ "bombexplosion" ], explosionOrigin + ( 0, 0, 50 ), ( 0, 0, 1 ), ( cos( rot ), sin( rot ), 0 ) );
	triggerFx( explosionEffect );

	PlayRumbleOnPosition( "grenade_rumble", explosionOrigin );
	earthquake( 0.75, 2.0, explosionOrigin, 2000 );

	thread playSoundinSpace( "exp_suitcase_bomb_main", explosionOrigin );

	if ( isDefined( destroyedObj.exploderIndex ) )
	{
		exploder( destroyedObj.exploderIndex );
	}

	for ( index = 0; index < level.bombZones.size; index++ )
	{
		level.bombZones[ index ] maps\mp\gametypes\_gameobjects::disableObject();
	}

	defuseObject maps\mp\gametypes\_gameobjects::disableObject();

	setGameEndTime( 0 );

	wait 3;

	maps\mp\gametypes\sd::sd_endGame( game[ "attackers" ], game[ "strings" ][ "target_destroyed" ] );
}


/*
	Patches giveLoadout so that it doesn't use IsItemUnlocked
*/
botGiveLoadout( team, class, allowCopycat )
{
	self endon( "death" );

	self takeAllWeapons();

	primaryIndex = 0;

	// initialize specialty array
	self.specialty = [];

	if ( !isDefined( allowCopycat ) )
	{
		allowCopycat = true;
	}

	primaryWeapon = undefined;

	if ( isDefined( self.pers[ "copyCatLoadout" ] ) && self.pers[ "copyCatLoadout" ][ "inUse" ] && allowCopycat )
	{
		self maps\mp\gametypes\_class::setClass( "copycat" );
		self.class_num = maps\mp\gametypes\_class::getClassIndex( "copycat" );

		clonedLoadout = self.pers[ "copyCatLoadout" ];

		loadoutPrimary = clonedLoadout[ "loadoutPrimary" ];
		loadoutPrimaryAttachment = clonedLoadout[ "loadoutPrimaryAttachment" ];
		loadoutPrimaryAttachment2 = clonedLoadout[ "loadoutPrimaryAttachment2" ] ;
		loadoutPrimaryCamo = clonedLoadout[ "loadoutPrimaryCamo" ];
		loadoutSecondary = clonedLoadout[ "loadoutSecondary" ];
		loadoutSecondaryAttachment = clonedLoadout[ "loadoutSecondaryAttachment" ];
		loadoutSecondaryAttachment2 = clonedLoadout[ "loadoutSecondaryAttachment2" ];
		loadoutSecondaryCamo = clonedLoadout[ "loadoutSecondaryCamo" ];
		loadoutEquipment = clonedLoadout[ "loadoutEquipment" ];
		loadoutPerk1 = clonedLoadout[ "loadoutPerk1" ];
		loadoutPerk2 = clonedLoadout[ "loadoutPerk2" ];
		loadoutPerk3 = clonedLoadout[ "loadoutPerk3" ];
		loadoutOffhand = clonedLoadout[ "loadoutOffhand" ];
		loadoutDeathStreak = "specialty_copycat";
	}
	else if ( isSubstr( class, "custom" ) )
	{
		class_num = maps\mp\gametypes\_class::getClassIndex( class );
		self.class_num = class_num;

		loadoutPrimary = maps\mp\gametypes\_class::cac_getWeapon( class_num, 0 );
		loadoutPrimaryAttachment = maps\mp\gametypes\_class::cac_getWeaponAttachment( class_num, 0 );
		loadoutPrimaryAttachment2 = maps\mp\gametypes\_class::cac_getWeaponAttachmentTwo( class_num, 0 );
		loadoutPrimaryCamo = maps\mp\gametypes\_class::cac_getWeaponCamo( class_num, 0 );
		loadoutSecondaryCamo = maps\mp\gametypes\_class::cac_getWeaponCamo( class_num, 1 );
		loadoutSecondary = maps\mp\gametypes\_class::cac_getWeapon( class_num, 1 );
		loadoutSecondaryAttachment = maps\mp\gametypes\_class::cac_getWeaponAttachment( class_num, 1 );
		loadoutSecondaryAttachment2 = maps\mp\gametypes\_class::cac_getWeaponAttachmentTwo( class_num, 1 );
		loadoutSecondaryCamo = maps\mp\gametypes\_class::cac_getWeaponCamo( class_num, 1 );
		loadoutEquipment = maps\mp\gametypes\_class::cac_getPerk( class_num, 0 );
		loadoutPerk1 = maps\mp\gametypes\_class::cac_getPerk( class_num, 1 );
		loadoutPerk2 = maps\mp\gametypes\_class::cac_getPerk( class_num, 2 );
		loadoutPerk3 = maps\mp\gametypes\_class::cac_getPerk( class_num, 3 );
		loadoutOffhand = maps\mp\gametypes\_class::cac_getOffhand( class_num );
		loadoutDeathStreak = maps\mp\gametypes\_class::cac_getDeathstreak( class_num );
	}
	else
	{
		class_num = maps\mp\gametypes\_class::getClassIndex( class );
		self.class_num = class_num;

		loadoutPrimary = maps\mp\gametypes\_class::table_getWeapon( level.classTableName, class_num, 0 );
		loadoutPrimaryAttachment = maps\mp\gametypes\_class::table_getWeaponAttachment( level.classTableName, class_num, 0, 0 );
		loadoutPrimaryAttachment2 = maps\mp\gametypes\_class::table_getWeaponAttachment( level.classTableName, class_num, 0, 1 );
		loadoutPrimaryCamo = maps\mp\gametypes\_class::table_getWeaponCamo( level.classTableName, class_num, 0 );
		loadoutSecondaryCamo = maps\mp\gametypes\_class::table_getWeaponCamo( level.classTableName, class_num, 1 );
		loadoutSecondary = maps\mp\gametypes\_class::table_getWeapon( level.classTableName, class_num, 1 );
		loadoutSecondaryAttachment = maps\mp\gametypes\_class::table_getWeaponAttachment( level.classTableName, class_num, 1, 0 );
		loadoutSecondaryAttachment2 = maps\mp\gametypes\_class::table_getWeaponAttachment( level.classTableName, class_num, 1, 1 );;
		loadoutSecondaryCamo = maps\mp\gametypes\_class::table_getWeaponCamo( level.classTableName, class_num, 1 );
		loadoutEquipment = maps\mp\gametypes\_class::table_getEquipment( level.classTableName, class_num, 0 );
		loadoutPerk1 = maps\mp\gametypes\_class::table_getPerk( level.classTableName, class_num, 1 );
		loadoutPerk2 = maps\mp\gametypes\_class::table_getPerk( level.classTableName, class_num, 2 );
		loadoutPerk3 = maps\mp\gametypes\_class::table_getPerk( level.classTableName, class_num, 3 );
		loadoutOffhand = maps\mp\gametypes\_class::table_getOffhand( level.classTableName, class_num );
		loadoutDeathstreak = maps\mp\gametypes\_class::table_getDeathstreak( level.classTableName, class_num );
	}

	if ( loadoutPerk1 != "specialty_bling" )
	{
		loadoutPrimaryAttachment2 = "none";
		loadoutSecondaryAttachment2 = "none";
	}

	if ( loadoutPerk1 != "specialty_onemanarmy" && loadoutSecondary == "onemanarmy" )
	{
		loadoutSecondary = maps\mp\gametypes\_class::table_getWeapon( level.classTableName, 10, 1 );
	}

	// loadoutSecondaryCamo = "none";

	// stop default class op'ness
	allowOp = ( getDvarInt( "bots_loadout_allow_op" ) >= 1 );

	if ( !allowOp )
	{
		loadoutDeathstreak = "specialty_null";

		if ( loadoutPrimary == "riotshield" )
		{
			loadoutPrimary = "m4";
		}

		if ( loadoutSecondary == "at4" )
		{
			loadoutSecondary = "usp";
		}

		if ( loadoutPrimaryAttachment == "gl" )
		{
			loadoutPrimaryAttachment = "none";
		}

		if ( loadoutPerk2 == "specialty_coldblooded" )
		{
			loadoutPerk2 = "specialty_null";
		}

		if ( loadoutPerk3 == "specialty_localjammer" )
		{
			loadoutPerk3 = "specialty_null";
		}
	}


	if ( level.killstreakRewards )
	{
		if ( getDvarInt( "scr_classic" ) == 1 )
		{
			loadoutKillstreak1 = "uav";
			loadoutKillstreak2 = "precision_airstrike";
			loadoutKillstreak3 = "helicopter";
		}
		else
		{
			loadoutKillstreak1 = self getPlayerData( "killstreaks", 0 );
			loadoutKillstreak2 = self getPlayerData( "killstreaks", 1 );
			loadoutKillstreak3 = self getPlayerData( "killstreaks", 2 );
		}
	}
	else
	{
		loadoutKillstreak1 = "none";
		loadoutKillstreak2 = "none";
		loadoutKillstreak3 = "none";
	}

	secondaryName = maps\mp\gametypes\_class::buildWeaponName( loadoutSecondary, loadoutSecondaryAttachment, loadoutSecondaryAttachment2 );
	self _giveWeapon( secondaryName, int( tableLookup( "mp/camoTable.csv", 1, loadoutSecondaryCamo, 0 ) ) );

	self.loadoutPrimaryCamo = int( tableLookup( "mp/camoTable.csv", 1, loadoutPrimaryCamo, 0 ) );
	self.loadoutPrimary = loadoutPrimary;
	self.loadoutSecondary = loadoutSecondary;
	self.loadoutSecondaryCamo = int( tableLookup( "mp/camoTable.csv", 1, loadoutSecondaryCamo, 0 ) );

	self SetOffhandPrimaryClass( "other" );

	// Action Slots
	// self _SetActionSlot( 1, "" );
	self _SetActionSlot( 1, "nightvision" );
	self _SetActionSlot( 3, "altMode" );
	self _SetActionSlot( 4, "" );

	// Perks
	self _clearPerks();
	self maps\mp\gametypes\_class::_detachAll();

	// these special case giving pistol death have to come before
	// perk loadout to ensure player perk icons arent overwritten
	if ( level.dieHardMode )
	{
		self maps\mp\perks\_perks::givePerk( "specialty_pistoldeath" );
	}

	// only give the deathstreak for the initial spawn for this life.
	if ( loadoutDeathStreak != "specialty_null" && ( getTime() - self.spawnTime ) < 0.1 )
	{
		deathVal = int( tableLookup( "mp/perkTable.csv", 1, loadoutDeathStreak, 6 ) );

		if ( self botGetPerkUpgrade( loadoutPerk1 ) == "specialty_rollover" || self botGetPerkUpgrade( loadoutPerk2 ) == "specialty_rollover" || self botGetPerkUpgrade( loadoutPerk3 ) == "specialty_rollover" )
		{
			deathVal -= 1;
		}

		if ( self.pers[ "cur_death_streak" ] == deathVal )
		{
			self thread maps\mp\perks\_perks::givePerk( loadoutDeathStreak );
			self thread maps\mp\gametypes\_hud_message::splashNotify( loadoutDeathStreak );
		}
		else if ( self.pers[ "cur_death_streak" ] > deathVal )
		{
			self thread maps\mp\perks\_perks::givePerk( loadoutDeathStreak );
		}
	}

	self botLoadoutAllPerks( loadoutEquipment, loadoutPerk1, loadoutPerk2, loadoutPerk3 );

	self maps\mp\gametypes\_class::setKillstreaks( loadoutKillstreak1, loadoutKillstreak2, loadoutKillstreak3 );

	if ( self hasPerk( "specialty_extraammo", true ) && getWeaponClass( secondaryName ) != "weapon_projectile" )
	{
		self giveMaxAmmo( secondaryName );
	}

	// Primary Weapon
	primaryName = maps\mp\gametypes\_class::buildWeaponName( loadoutPrimary, loadoutPrimaryAttachment, loadoutPrimaryAttachment2 );
	self _giveWeapon( primaryName, self.loadoutPrimaryCamo );

	// fix changing from a riotshield class to a riotshield class during grace period not giving a shield
	if ( primaryName == "riotshield_mp" && level.inGracePeriod )
	{
		self notify ( "weapon_change", "riotshield_mp" );
	}

	if ( self hasPerk( "specialty_extraammo", true ) )
	{
		self giveMaxAmmo( primaryName );
	}

	self setSpawnWeapon( primaryName );

	primaryTokens = strtok( primaryName, "_" );
	self.pers[ "primaryWeapon" ] = primaryTokens[ 0 ];

	// Primary Offhand was given by givePerk (it's your perk1)

	// Secondary Offhand
	offhandSecondaryWeapon = loadoutOffhand + "_mp";

	if ( loadoutOffhand == "flash_grenade" )
	{
		self SetOffhandSecondaryClass( "flash" );
	}
	else
	{
		self SetOffhandSecondaryClass( "smoke" );
	}

	self giveWeapon( offhandSecondaryWeapon );

	if ( loadOutOffhand == "smoke_grenade" )
	{
		self setWeaponAmmoClip( offhandSecondaryWeapon, 1 );
	}
	else if ( loadOutOffhand == "flash_grenade" )
	{
		self setWeaponAmmoClip( offhandSecondaryWeapon, 2 );
	}
	else if ( loadOutOffhand == "concussion_grenade" )
	{
		self setWeaponAmmoClip( offhandSecondaryWeapon, 2 );
	}
	else
	{
		self setWeaponAmmoClip( offhandSecondaryWeapon, 1 );
	}

	primaryWeapon = primaryName;
	self.primaryWeapon = primaryWeapon;
	self.secondaryWeapon = secondaryName;

	self botPlayerModelForWeapon( self.pers[ "primaryWeapon" ], getBaseWeaponName( secondaryName ) );

	self.isSniper = ( weaponClass( self.primaryWeapon ) == "sniper" );

	self maps\mp\gametypes\_weapons::updateMoveSpeedScale( "primary" );

	// cac specialties that require loop threads
	self maps\mp\perks\_perks::cac_selector();

	self notify ( "changed_kit" );
	self notify( "bot_giveLoadout", allowCopycat );
}

/*
	Patches giveLoadout so that it doesn't use IsItemUnlocked
*/
botGetPerkUpgrade( perkName )
{
	perkUpgrade = tablelookup( "mp/perktable.csv", 1, perkName, 8 );

	if ( perkUpgrade == "" || perkUpgrade == "specialty_null" )
	{
		return "specialty_null";
	}

	if ( !isDefined( self.pers[ "bots" ][ "unlocks" ][ "upgraded_" + perkName ] ) || !self.pers[ "bots" ][ "unlocks" ][ "upgraded_" + perkName ] )
	{
		return "specialty_null";
	}

	return ( perkUpgrade );
}

/*
	Patches giveLoadout so that it doesn't use IsItemUnlocked
*/
botLoadoutAllPerks( loadoutEquipment, loadoutPerk1, loadoutPerk2, loadoutPerk3 )
{
	loadoutEquipment = maps\mp\perks\_perks::validatePerk( 1, loadoutEquipment );
	loadoutPerk1 = maps\mp\perks\_perks::validatePerk( 1, loadoutPerk1 );
	loadoutPerk2 = maps\mp\perks\_perks::validatePerk( 2, loadoutPerk2 );
	loadoutPerk3 = maps\mp\perks\_perks::validatePerk( 3, loadoutPerk3 );

	self maps\mp\perks\_perks::givePerk( loadoutEquipment );
	self maps\mp\perks\_perks::givePerk( loadoutPerk1 );
	self maps\mp\perks\_perks::givePerk( loadoutPerk2 );
	self maps\mp\perks\_perks::givePerk( loadoutPerk3 );

	perks[ 0 ] = loadoutPerk1;
	perks[ 1 ] = loadoutPerk2;
	perks[ 2 ] = loadoutPerk3;

	perkUpgrd[ 0 ] = tablelookup( "mp/perktable.csv", 1, loadoutPerk1, 8 );
	perkUpgrd[ 1 ] = tablelookup( "mp/perktable.csv", 1, loadoutPerk2, 8 );
	perkUpgrd[ 2 ] = tablelookup( "mp/perktable.csv", 1, loadoutPerk3, 8 );

	for ( i = 0; i < perkUpgrd.size; i++ )
	{
		upgrade = perkUpgrd[ i ];
		perk = perks[ i ];

		if ( upgrade == "" || upgrade == "specialty_null" )
		{
			continue;
		}

		if ( isDefined( self.pers[ "bots" ][ "unlocks" ][ "upgraded_" + perk ] ) && self.pers[ "bots" ][ "unlocks" ][ "upgraded_" + perk ] )
		{
			self maps\mp\perks\_perks::givePerk( upgrade );
		}
	}

}

/*
	Patches giveLoadout so that it doesn't use IsItemUnlocked
*/
botPlayerModelForWeapon( weapon, secondary )
{
	team = self.team;


	if ( isDefined( game[ team + "_model" ][ weapon ] ) )
	{
		[[ game[ team + "_model" ][ weapon ] ]]();
		return;
	}


	weaponClass = tablelookup( "mp/statstable.csv", 4, weapon, 2 );

	switch ( weaponClass )
	{
		case "weapon_smg":
			[[ game[ team + "_model" ][ "SMG" ] ]]();
			break;

		case "weapon_assault":
			weaponClass = tablelookup( "mp/statstable.csv", 4, secondary, 2 );

			if ( weaponClass == "weapon_shotgun" )
			{
				[[ game[ team + "_model" ][ "SHOTGUN" ] ]]();
			}
			else
			{
				[[ game[ team + "_model" ][ "ASSAULT" ] ]]();
			}

			break;

		case "weapon_sniper":
			if ( level.environment != "" && isDefined( self.pers[ "bots" ][ "unlocks" ][ "ghillie" ] ) && self.pers[ "bots" ][ "unlocks" ][ "ghillie" ] )
			{
				[[ game[ team + "_model" ][ "GHILLIE" ] ]]();
			}
			else
			{
				[[ game[ team + "_model" ][ "SNIPER" ] ]]();
			}

			break;

		case "weapon_lmg":
			[[ game[ team + "_model" ][ "LMG" ] ]]();
			break;

		case "weapon_riot":
			[[ game[ team + "_model" ][ "RIOT" ] ]]();
			break;

		default:
			[[ game[ team + "_model" ][ "ASSAULT" ] ]]();
			break;
	}
}