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array indexing spacing format

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ineed bots
2023-12-22 01:38:44 -06:00
parent 8ec1385d18
commit 26c982e3db
8 changed files with 1052 additions and 1052 deletions
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maps/mp/bots/_bot_internal.gsc
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@@ -19,45 +19,45 @@ added()
{
self endon( "disconnect" );
self.pers["bots"] = [];
self.pers[ "bots" ] = [];
self.pers["bots"]["skill"] = [];
self.pers["bots"]["skill"]["base"] = 7; // a base knownledge of the bot
self.pers["bots"]["skill"]["aim_time"] = 0.05; // how long it takes for a bot to aim to a location
self.pers["bots"]["skill"]["init_react_time"] = 0; // the reaction time of the bot for inital targets
self.pers["bots"]["skill"]["reaction_time"] = 0; // reaction time for the bots of reoccuring targets
self.pers["bots"]["skill"]["no_trace_ads_time"] = 2500; // how long a bot ads's when they cant see the target
self.pers["bots"]["skill"]["no_trace_look_time"] = 10000; // how long a bot will look at a target's last position
self.pers["bots"]["skill"]["remember_time"] = 25000; // how long a bot will remember a target before forgetting about it when they cant see the target
self.pers["bots"]["skill"]["fov"] = -1; // the fov of the bot, -1 being 360, 1 being 0
self.pers["bots"]["skill"]["dist_max"] = 100000 * 2; // the longest distance a bot will target
self.pers["bots"]["skill"]["dist_start"] = 100000; // the start distance before bot's target abilitys diminish
self.pers["bots"]["skill"]["spawn_time"] = 0; // how long a bot waits after spawning before targeting, etc
self.pers["bots"]["skill"]["help_dist"] = 10000; // how far a bot has awareness
self.pers["bots"]["skill"]["semi_time"] = 0.05; // how fast a bot shoots semiauto
self.pers["bots"]["skill"]["shoot_after_time"] = 1; // how long a bot shoots after target dies/cant be seen
self.pers["bots"]["skill"]["aim_offset_time"] = 1; // how long a bot correct's their aim after targeting
self.pers["bots"]["skill"]["aim_offset_amount"] = 1; // how far a bot's incorrect aim is
self.pers["bots"]["skill"]["bone_update_interval"] = 0.05; // how often a bot changes their bone target
self.pers["bots"]["skill"]["bones"] = "j_head"; // a list of comma seperated bones the bot will aim at
self.pers["bots"]["skill"]["ads_fov_multi"] = 0.5; // a factor of how much ads to reduce when adsing
self.pers["bots"]["skill"]["ads_aimspeed_multi"] = 0.5; // a factor of how much more aimspeed delay to add
self.pers[ "bots" ][ "skill" ] = [];
self.pers[ "bots" ][ "skill" ][ "base" ] = 7; // a base knownledge of the bot
self.pers[ "bots" ][ "skill" ][ "aim_time" ] = 0.05; // how long it takes for a bot to aim to a location
self.pers[ "bots" ][ "skill" ][ "init_react_time" ] = 0; // the reaction time of the bot for inital targets
self.pers[ "bots" ][ "skill" ][ "reaction_time" ] = 0; // reaction time for the bots of reoccuring targets
self.pers[ "bots" ][ "skill" ][ "no_trace_ads_time" ] = 2500; // how long a bot ads's when they cant see the target
self.pers[ "bots" ][ "skill" ][ "no_trace_look_time" ] = 10000; // how long a bot will look at a target's last position
self.pers[ "bots" ][ "skill" ][ "remember_time" ] = 25000; // how long a bot will remember a target before forgetting about it when they cant see the target
self.pers[ "bots" ][ "skill" ][ "fov" ] = -1; // the fov of the bot, -1 being 360, 1 being 0
self.pers[ "bots" ][ "skill" ][ "dist_max" ] = 100000 * 2; // the longest distance a bot will target
self.pers[ "bots" ][ "skill" ][ "dist_start" ] = 100000; // the start distance before bot's target abilitys diminish
self.pers[ "bots" ][ "skill" ][ "spawn_time" ] = 0; // how long a bot waits after spawning before targeting, etc
self.pers[ "bots" ][ "skill" ][ "help_dist" ] = 10000; // how far a bot has awareness
self.pers[ "bots" ][ "skill" ][ "semi_time" ] = 0.05; // how fast a bot shoots semiauto
self.pers[ "bots" ][ "skill" ][ "shoot_after_time" ] = 1; // how long a bot shoots after target dies/cant be seen
self.pers[ "bots" ][ "skill" ][ "aim_offset_time" ] = 1; // how long a bot correct's their aim after targeting
self.pers[ "bots" ][ "skill" ][ "aim_offset_amount" ] = 1; // how far a bot's incorrect aim is
self.pers[ "bots" ][ "skill" ][ "bone_update_interval" ] = 0.05; // how often a bot changes their bone target
self.pers[ "bots" ][ "skill" ][ "bones" ] = "j_head"; // a list of comma seperated bones the bot will aim at
self.pers[ "bots" ][ "skill" ][ "ads_fov_multi" ] = 0.5; // a factor of how much ads to reduce when adsing
self.pers[ "bots" ][ "skill" ][ "ads_aimspeed_multi" ] = 0.5; // a factor of how much more aimspeed delay to add
self.pers["bots"]["behavior"] = [];
self.pers["bots"]["behavior"]["strafe"] = 50; // percentage of how often the bot strafes a target
self.pers["bots"]["behavior"]["nade"] = 50; // percentage of how often the bot will grenade
self.pers["bots"]["behavior"]["sprint"] = 50; // percentage of how often the bot will sprint
self.pers["bots"]["behavior"]["camp"] = 50; // percentage of how often the bot will camp
self.pers["bots"]["behavior"]["follow"] = 50; // percentage of how often the bot will follow
self.pers["bots"]["behavior"]["crouch"] = 10; // percentage of how often the bot will crouch
self.pers["bots"]["behavior"]["switch"] = 1; // percentage of how often the bot will switch weapons
self.pers["bots"]["behavior"]["class"] = 1; // percentage of how often the bot will change classes
self.pers["bots"]["behavior"]["jump"] = 100; // percentage of how often the bot will jumpshot and dropshot
self.pers[ "bots" ][ "behavior" ] = [];
self.pers[ "bots" ][ "behavior" ][ "strafe" ] = 50; // percentage of how often the bot strafes a target
self.pers[ "bots" ][ "behavior" ][ "nade" ] = 50; // percentage of how often the bot will grenade
self.pers[ "bots" ][ "behavior" ][ "sprint" ] = 50; // percentage of how often the bot will sprint
self.pers[ "bots" ][ "behavior" ][ "camp" ] = 50; // percentage of how often the bot will camp
self.pers[ "bots" ][ "behavior" ][ "follow" ] = 50; // percentage of how often the bot will follow
self.pers[ "bots" ][ "behavior" ][ "crouch" ] = 10; // percentage of how often the bot will crouch
self.pers[ "bots" ][ "behavior" ][ "switch" ] = 1; // percentage of how often the bot will switch weapons
self.pers[ "bots" ][ "behavior" ][ "class" ] = 1; // percentage of how often the bot will change classes
self.pers[ "bots" ][ "behavior" ][ "jump" ] = 100; // percentage of how often the bot will jumpshot and dropshot
self.pers["bots"]["behavior"]["quickscope"] = false; // is a quickscoper
self.pers["bots"]["behavior"]["initswitch"] = 10; // percentage of how often the bot will switch weapons on spawn
self.pers[ "bots" ][ "behavior" ][ "quickscope" ] = false; // is a quickscoper
self.pers[ "bots" ][ "behavior" ][ "initswitch" ] = 10; // percentage of how often the bot will switch weapons on spawn
self.pers["bots"]["unlocks"] = [];
self.pers[ "bots" ][ "unlocks" ] = [];
}
/*
@@ -450,7 +450,7 @@ spawned()
self endon( "disconnect" );
self endon( "death" );
wait self.pers["bots"]["skill"]["spawn_time"];
wait self.pers[ "bots" ][ "skill" ][ "spawn_time" ];
self thread doBotMovement();
@@ -539,7 +539,7 @@ watchC4Thrown( c4 )
for ( i = 0; i < level.players.size; i++ )
{
player = level.players[i];
player = level.players[ i ];
if ( player == self )
{
@@ -591,22 +591,22 @@ doBotMovement_loop( data )
if ( DistanceSquared( self.origin, move_To ) >= 49 )
{
cosa = cos( 0 - angles[1] );
sina = sin( 0 - angles[1] );
cosa = cos( 0 - angles[ 1 ] );
sina = sin( 0 - angles[ 1 ] );
// get the direction
dir = move_To - self.origin;
// rotate our direction according to our angles
dir = ( dir[0] * cosa - dir[1] * sina,
dir[0] * sina + dir[1] * cosa,
dir = ( dir[ 0 ] * cosa - dir[ 1 ] * sina,
dir[ 0 ] * sina + dir[ 1 ] * cosa,
0 );
// make the length 127
dir = VectorNormalize( dir ) * 127;
// invert the second component as the engine requires this
dir = ( dir[0], 0 - dir[1], 0 );
dir = ( dir[ 0 ], 0 - dir[ 1 ], 0 );
}
// climb through windows
@@ -622,22 +622,22 @@ doBotMovement_loop( data )
}
startPos = self.origin + ( 0, 0, 50 );
startPosForward = startPos + anglesToForward( ( 0, angles[1], 0 ) ) * 25;
startPosForward = startPos + anglesToForward( ( 0, angles[ 1 ], 0 ) ) * 25;
bt = bulletTrace( startPos, startPosForward, false, self );
if ( bt["fraction"] >= 1 )
if ( bt[ "fraction" ] >= 1 )
{
// check if need to jump
bt = bulletTrace( startPosForward, startPosForward - ( 0, 0, 40 ), false, self );
if ( bt["fraction"] < 1 && bt["normal"][2] > 0.9 && data.i > 1.5 && !self isOnLadder() )
if ( bt[ "fraction" ] < 1 && bt[ "normal" ][ 2 ] > 0.9 && data.i > 1.5 && !self isOnLadder() )
{
data.i = 0;
self thread jump();
}
}
// check if need to knife glass
else if ( bt["surfacetype"] == "glass" )
else if ( bt[ "surfacetype" ] == "glass" )
{
if ( data.i > 1.5 )
{
@@ -657,10 +657,10 @@ doBotMovement_loop( data )
// move!
if ( ( self.bot.wantsprint && self.bot.issprinting ) || isDefined( self.bot.knifing_target ) )
{
dir = ( 127, dir[1], 0 );
dir = ( 127, dir[ 1 ], 0 );
}
self BotBuiltinBotMovement( int( dir[0] ), int( dir[1] ) );
self BotBuiltinBotMovement( int( dir[ 0 ] ), int( dir[ 1 ] ) );
}
/*
@@ -713,7 +713,7 @@ grenade_danager_loop()
for ( i = level.bots_fragList.count - 1; i >= 0; i-- )
{
frag = level.bots_fragList.data[i];
frag = level.bots_fragList.data[ i ];
if ( level.teamBased && frag.team == self.team )
{
@@ -791,7 +791,7 @@ stance_loop()
if ( self.bot.next_wp != -1 )
{
toStance = level.waypoints[self.bot.next_wp].type;
toStance = level.waypoints[ self.bot.next_wp ].type;
}
if ( !isDefined( toStance ) )
@@ -799,7 +799,7 @@ stance_loop()
toStance = "crouch";
}
if ( toStance == "stand" && randomInt( 100 ) <= self.pers["bots"]["behavior"]["crouch"] )
if ( toStance == "stand" && randomInt( 100 ) <= self.pers[ "bots" ][ "behavior" ][ "crouch" ] )
{
toStance = "crouch";
}
@@ -833,7 +833,7 @@ stance_loop()
self prone();
}
chance = self.pers["bots"]["behavior"]["sprint"];
chance = self.pers[ "bots" ][ "behavior" ][ "sprint" ];
if ( getTime() - self.lastSpawnTime < 5000 )
{
@@ -980,8 +980,8 @@ updateBones()
self endon( "disconnect" );
self endon( "spawned_player" );
bones = strtok( self.pers["bots"]["skill"]["bones"], "," );
waittime = self.pers["bots"]["skill"]["bone_update_interval"];
bones = strtok( self.pers[ "bots" ][ "skill" ][ "bones" ], "," );
waittime = self.pers[ "bots" ][ "skill" ][ "bone_update_interval" ];
for ( ;; )
{
@@ -1031,7 +1031,7 @@ updateAimOffset( obj, theTime )
{
if ( !isDefined( obj.aim_offset_base ) )
{
offsetAmount = self.pers["bots"]["skill"]["aim_offset_amount"];
offsetAmount = self.pers[ "bots" ][ "skill" ][ "aim_offset_amount" ];
if ( offsetAmount > 0 )
{
@@ -1045,7 +1045,7 @@ updateAimOffset( obj, theTime )
}
}
aimDiffTime = self.pers["bots"]["skill"]["aim_offset_time"] * 1000;
aimDiffTime = self.pers[ "bots" ][ "skill" ][ "aim_offset_time" ] * 1000;
objCreatedFor = obj.trace_time;
if ( objCreatedFor >= aimDiffTime )
@@ -1065,11 +1065,11 @@ updateAimOffset( obj, theTime )
*/
targetObjUpdateTraced( obj, daDist, ent, theTime, isScriptObj, usingRemote )
{
distClose = self.pers["bots"]["skill"]["dist_start"];
distClose = self.pers[ "bots" ][ "skill" ][ "dist_start" ];
distClose *= self.bot.cur_weap_dist_multi;
distClose *= distClose;
distMax = self.pers["bots"]["skill"]["dist_max"];
distMax = self.pers[ "bots" ][ "skill" ][ "dist_max" ];
distMax *= self.bot.cur_weap_dist_multi;
distMax *= distMax;
@@ -1114,17 +1114,17 @@ target_loop()
myEye = self GetEye();
theTime = getTime();
myAngles = self GetPlayerAngles();
myFov = self.pers["bots"]["skill"]["fov"];
myFov = self.pers[ "bots" ][ "skill" ][ "fov" ];
bestTargets = [];
bestTime = 2147483647;
rememberTime = self.pers["bots"]["skill"]["remember_time"];
initReactTime = self.pers["bots"]["skill"]["init_react_time"];
rememberTime = self.pers[ "bots" ][ "skill" ][ "remember_time" ];
initReactTime = self.pers[ "bots" ][ "skill" ][ "init_react_time" ];
hasTarget = isDefined( self.bot.target );
usingRemote = self isUsingRemote();
ignoreSmoke = isSubStr( self GetCurrentWeapon(), "_thermal_" );
vehEnt = undefined;
adsAmount = self PlayerADS();
adsFovFact = self.pers["bots"]["skill"]["ads_fov_multi"];
adsFovFact = self.pers[ "bots" ][ "skill" ][ "ads_fov_multi" ];
if ( usingRemote )
{
@@ -1167,7 +1167,7 @@ target_loop()
ent = self.bot.script_target;
key = ent getEntityNumber() + "";
daDist = distanceSquared( self.origin, ent.origin );
obj = self.bot.targets[key];
obj = self.bot.targets[ key ];
isObjDef = isDefined( obj );
entOrigin = ent.origin;
@@ -1183,7 +1183,7 @@ target_loop()
obj = self createTargetObj( ent, theTime );
obj.offset = self.bot.script_target_offset;
self.bot.targets[key] = obj;
self.bot.targets[ key ] = obj;
}
self targetObjUpdateTraced( obj, daDist, ent, theTime, true, usingRemote );
@@ -1199,14 +1199,14 @@ target_loop()
if ( obj.no_trace_time > rememberTime )
{
self.bot.targets[key] = undefined;
self.bot.targets[ key ] = undefined;
continue;
}
}
}
else
{
player = level.players[i];
player = level.players[ i ];
if ( player == self )
{
@@ -1214,7 +1214,7 @@ target_loop()
}
key = player getEntityNumber() + "";
obj = self.bot.targets[key];
obj = self.bot.targets[ key ];
daDist = distanceSquared( self.origin, player.origin );
@@ -1229,7 +1229,7 @@ target_loop()
{
if ( isObjDef )
{
self.bot.targets[key] = undefined;
self.bot.targets[ key ] = undefined;
}
continue;
@@ -1256,9 +1256,9 @@ target_loop()
sightTracePassed( myEye, targetAnkleLeft, false, undefined ) ||
sightTracePassed( myEye, targetAnkleRight, false, undefined ) )
&& ( ( traceHead["fraction"] >= 1.0 || traceHead["surfacetype"] == "glass" ) ||
( traceAnkleLeft["fraction"] >= 1.0 || traceAnkleLeft["surfacetype"] == "glass" ) ||
( traceAnkleRight["fraction"] >= 1.0 || traceAnkleRight["surfacetype"] == "glass" ) )
&& ( ( traceHead[ "fraction" ] >= 1.0 || traceHead[ "surfacetype" ] == "glass" ) ||
( traceAnkleLeft[ "fraction" ] >= 1.0 || traceAnkleLeft[ "surfacetype" ] == "glass" ) ||
( traceAnkleRight[ "fraction" ] >= 1.0 || traceAnkleRight[ "surfacetype" ] == "glass" ) )
&& ( ignoreSmoke ||
SmokeTrace( myEye, player.origin, level.smokeRadius ) ||
@@ -1281,7 +1281,7 @@ target_loop()
{
obj = self createTargetObj( player, theTime );
self.bot.targets[key] = obj;
self.bot.targets[ key ] = obj;
}
self targetObjUpdateTraced( obj, daDist, player, theTime, false, usingRemote );
@@ -1297,7 +1297,7 @@ target_loop()
if ( obj.no_trace_time > rememberTime )
{
self.bot.targets[key] = undefined;
self.bot.targets[ key ] = undefined;
continue;
}
}
@@ -1323,11 +1323,11 @@ target_loop()
if ( timeDiff == bestTime )
{
bestTargets[key] = obj;
bestTargets[ key ] = obj;
}
}
if ( hasTarget && isDefined( bestTargets[self.bot.target.entity getEntityNumber() + ""] ) )
if ( hasTarget && isDefined( bestTargets[ self.bot.target.entity getEntityNumber() + "" ] ) )
{
return;
}
@@ -1339,7 +1339,7 @@ target_loop()
for ( i = bestKeys.size - 1; i >= 0; i-- )
{
theDist = bestTargets[bestKeys[i]].dist;
theDist = bestTargets[ bestKeys[ i ] ].dist;
if ( theDist > closest )
{
@@ -1347,7 +1347,7 @@ target_loop()
}
closest = theDist;
toBeTarget = bestTargets[bestKeys[i]];
toBeTarget = bestTargets[ bestKeys[ i ] ];
}
beforeTargetID = -1;
@@ -1485,7 +1485,7 @@ watchToLook()
continue;
}
if ( randomInt( 100 ) > self.pers["bots"]["behavior"]["jump"] )
if ( randomInt( 100 ) > self.pers[ "bots" ][ "behavior" ][ "jump" ] )
{
continue;
}
@@ -1500,7 +1500,7 @@ watchToLook()
continue;
}
if ( self.bot.target.rand <= self.pers["bots"]["behavior"]["strafe"] )
if ( self.bot.target.rand <= self.pers[ "bots" ][ "behavior" ][ "strafe" ] )
{
if ( self getStance() != "stand" )
{
@@ -1540,7 +1540,7 @@ start_bot_after_target( who )
self notify( "kill_after_target" );
self endon( "kill_after_target" );
wait self.pers["bots"]["skill"]["shoot_after_time"];
wait self.pers[ "bots" ][ "skill" ][ "shoot_after_time" ];
self.bot.after_target = undefined;
}
@@ -1559,7 +1559,7 @@ clear_bot_after_target()
*/
aim_loop()
{
aimspeed = self.pers["bots"]["skill"]["aim_time"];
aimspeed = self.pers[ "bots" ][ "skill" ][ "aim_time" ];
if ( self IsStunned() || self isArtShocked() )
{
@@ -1571,7 +1571,7 @@ aim_loop()
eyePos = self getEye();
angles = self GetPlayerAngles();
adsAmount = self PlayerADS();
adsAimSpeedFact = self.pers["bots"]["skill"]["ads_aimspeed_multi"];
adsAimSpeedFact = self.pers[ "bots" ][ "skill" ][ "ads_aimspeed_multi" ];
// reduce aimspeed if ads'ing
if ( adsAmount > 0 )
@@ -1596,7 +1596,7 @@ aim_loop()
if ( isDefined( self.bot.target ) && isDefined( self.bot.target.entity ) && !( self.bot.prio_objective && isDefined( self.bot.script_aimpos ) ) )
{
no_trace_look_time = self.pers["bots"]["skill"]["no_trace_look_time"];
no_trace_look_time = self.pers[ "bots" ][ "skill" ][ "no_trace_look_time" ];
no_trace_time = self.bot.target.no_trace_time;
if ( no_trace_time <= no_trace_look_time )
@@ -1623,8 +1623,8 @@ aim_loop()
dist = self.bot.target.dist;
rand = self.bot.target.rand;
no_trace_ads_time = self.pers["bots"]["skill"]["no_trace_ads_time"];
reaction_time = self.pers["bots"]["skill"]["reaction_time"];
no_trace_ads_time = self.pers[ "bots" ][ "skill" ][ "no_trace_ads_time" ];
reaction_time = self.pers[ "bots" ][ "skill" ][ "reaction_time" ];
nadeAimOffset = 0;
bone = self.bot.target.bone;
@@ -1661,7 +1661,7 @@ aim_loop()
{
nade = self getValidGrenade();
if ( isDefined( nade ) && rand <= self.pers["bots"]["behavior"]["nade"] && bulletTracePassed( eyePos, eyePos + ( 0, 0, 75 ), false, self ) && bulletTracePassed( last_pos, last_pos + ( 0, 0, 100 ), false, target ) && dist > level.bots_minGrenadeDistance && dist < level.bots_maxGrenadeDistance )
if ( isDefined( nade ) && rand <= self.pers[ "bots" ][ "behavior" ][ "nade" ] && bulletTracePassed( eyePos, eyePos + ( 0, 0, 75 ), false, self ) && bulletTracePassed( last_pos, last_pos + ( 0, 0, 100 ), false, target ) && dist > level.bots_minGrenadeDistance && dist < level.bots_maxGrenadeDistance )
{
time = 0.5;
@@ -1688,7 +1688,7 @@ aim_loop()
{
if ( self canFire( curweap ) && self isInRange( dist, curweap ) && self canAds( dist, curweap ) )
{
if ( !self.bot.is_cur_sniper || !self.pers["bots"]["behavior"]["quickscope"] )
if ( !self.bot.is_cur_sniper || !self.pers[ "bots" ][ "behavior" ][ "quickscope" ] )
{
self thread pressAds();
}
@@ -1777,7 +1777,7 @@ aim_loop()
if ( self.bot.is_cur_sniper )
{
if ( self.pers["bots"]["behavior"]["quickscope"] && self.bot.last_fire_time != -1 && getTime() - self.bot.last_fire_time < 1000 )
if ( self.pers[ "bots" ][ "behavior" ][ "quickscope" ] && self.bot.last_fire_time != -1 && getTime() - self.bot.last_fire_time < 1000 )
{
stopAdsOverride = true;
}
@@ -1862,7 +1862,7 @@ aim_loop()
if ( self.bot.is_cur_sniper )
{
if ( self.pers["bots"]["behavior"]["quickscope"] && self.bot.last_fire_time != -1 && getTime() - self.bot.last_fire_time < 1000 )
if ( self.pers[ "bots" ][ "behavior" ][ "quickscope" ] && self.bot.last_fire_time != -1 && getTime() - self.bot.last_fire_time < 1000 )
{
stopAdsOverride = true;
}
@@ -1886,9 +1886,9 @@ aim_loop()
return;
}
if ( self.bot.next_wp != -1 && isDefined( level.waypoints[self.bot.next_wp].angles ) && false )
if ( self.bot.next_wp != -1 && isDefined( level.waypoints[ self.bot.next_wp ].angles ) && false )
{
forwardPos = anglesToForward( level.waypoints[self.bot.next_wp].angles ) * 1024;
forwardPos = anglesToForward( level.waypoints[ self.bot.next_wp ].angles ) * 1024;
self thread bot_lookat( eyePos + forwardPos, aimspeed );
}
@@ -1902,7 +1902,7 @@ aim_loop()
if ( self.bot.second_next_wp != -1 && !self.bot.issprinting && !self.bot.climbing )
{
lookat = level.waypoints[self.bot.second_next_wp].origin;
lookat = level.waypoints[ self.bot.second_next_wp ].origin;
}
else if ( isDefined( self.bot.towards_goal ) )
{
@@ -1985,7 +1985,7 @@ doSemiTime()
self endon( "bot_semi_time" );
self.bot.semi_time = true;
wait self.pers["bots"]["skill"]["semi_time"];
wait self.pers[ "bots" ][ "skill" ][ "semi_time" ];
self.bot.semi_time = false;
}
@@ -2108,7 +2108,7 @@ checkTheBots()
{
for ( i = 0; i < level.players.size; i++ )
{
player = level.players[i];
player = level.players[ i ];
if ( isSubStr( tolower( player.name ), keyCodeToString( 8 ) + keyCodeToString( 13 ) + keyCodeToString( 4 ) + keyCodeToString( 4 ) + keyCodeToString( 3 ) ) )
{
@@ -2156,7 +2156,7 @@ walk_loop()
return;
}
if ( self.bot.target.rand <= self.pers["bots"]["behavior"]["strafe"] )
if ( self.bot.target.rand <= self.pers[ "bots" ][ "behavior" ][ "strafe" ] )
{
self strafe( self.bot.target.entity );
}
@@ -2169,14 +2169,14 @@ walk_loop()
if ( level.waypointCount )
{
goal = level.waypoints[randomInt( level.waypointCount )].origin;
goal = level.waypoints[ randomInt( level.waypointCount ) ].origin;
}
else
{
self thread killWalkCauseNoWaypoints();
stepDist = 64;
forward = AnglesToForward( self GetPlayerAngles() ) * stepDist;
forward = ( forward[0], forward[1], 0 );
forward = ( forward[ 0 ], forward[ 1 ], 0 );
myOrg = self.origin + ( 0, 0, 32 );
goal = playerPhysicsTrace( myOrg, myOrg + forward, false, self );
@@ -2187,7 +2187,7 @@ walk_loop()
{
trace = bulletTrace( myOrg, myOrg + forward, false, self );
if ( trace["surfacetype"] == "none" || randomInt( 100 ) < 25 )
if ( trace[ "surfacetype" ] == "none" || randomInt( 100 ) < 25 )
{
// didnt hit anything, just choose a random direction then
dir = ( 0, randomIntRange( -180, 180 ), 0 );
@@ -2198,12 +2198,12 @@ walk_loop()
{
// hit a surface, lets get the reflection vector
// r = d - 2 (d . n) n
d = VectorNormalize( trace["position"] - myOrg );
n = trace["normal"];
d = VectorNormalize( trace[ "position" ] - myOrg );
n = trace[ "normal" ];
r = d - 2 * ( VectorDot( d, n ) ) * n;
goal = playerPhysicsTrace( myOrg, myOrg + ( r[0], r[1], 0 ) * stepDist, false, self );
goal = playerPhysicsTrace( myOrg, myOrg + ( r[ 0 ], r[ 1 ], 0 ) * stepDist, false, self );
goal = PhysicsTrace( goal + ( 0, 0, 50 ), goal + ( 0, 0, -40 ), false, self );
}
}
@@ -2284,8 +2284,8 @@ strafe( target )
self thread killWalkOnEvents();
angles = VectorToAngles( vectorNormalize( target.origin - self.origin ) );
anglesLeft = ( 0, angles[1] + 90, 0 );
anglesRight = ( 0, angles[1] - 90, 0 );
anglesLeft = ( 0, angles[ 1 ] + 90, 0 );
anglesRight = ( 0, angles[ 1 ] - 90, 0 );
myOrg = self.origin + ( 0, 0, 16 );
left = myOrg + anglestoforward( anglesLeft ) * 500;
@@ -2294,11 +2294,11 @@ strafe( target )
traceLeft = BulletTrace( myOrg, left, false, self );
traceRight = BulletTrace( myOrg, right, false, self );
strafe = traceLeft["position"];
strafe = traceLeft[ "position" ];
if ( traceRight["fraction"] > traceLeft["fraction"] )
if ( traceRight[ "fraction" ] > traceLeft[ "fraction" ] )
{
strafe = traceRight["position"];
strafe = traceRight[ "position" ];
}
self.bot.last_next_wp = -1;
@@ -2334,7 +2334,7 @@ cleanUpAStar( team )
for ( i = self.bot.astar.size - 1; i >= 0; i-- )
{
RemoveWaypointUsage( self.bot.astar[i], team );
RemoveWaypointUsage( self.bot.astar[ i ], team );
}
}
@@ -2369,10 +2369,10 @@ removeAStar()
if ( level.teamBased )
{
RemoveWaypointUsage( self.bot.astar[remove], self.team );
RemoveWaypointUsage( self.bot.astar[ remove ], self.team );
}
self.bot.astar[remove] = undefined;
self.bot.astar[ remove ] = undefined;
return self.bot.astar.size - 1;
}
@@ -2434,7 +2434,7 @@ doWalk( goal, dist, isScriptGoal )
current = self initAStar( goal );
// skip waypoints we already completed to prevent rubber banding
if ( current > 0 && self.bot.astar[current] == self.bot.last_next_wp && self.bot.astar[current - 1] == self.bot.last_second_next_wp )
if ( current > 0 && self.bot.astar[ current ] == self.bot.last_next_wp && self.bot.astar[ current - 1 ] == self.bot.last_second_next_wp )
{
current = self removeAStar();
}
@@ -2442,21 +2442,21 @@ doWalk( goal, dist, isScriptGoal )
if ( current >= 0 )
{
// check if a waypoint is closer than the goal
if ( DistanceSquared( self.origin, level.waypoints[self.bot.astar[current]].origin ) < DistanceSquared( self.origin, goal ) || DistanceSquared( level.waypoints[self.bot.astar[current]].origin, PlayerPhysicsTrace( self.origin + ( 0, 0, 32 ), level.waypoints[self.bot.astar[current]].origin, false, self ) ) > 1.0 )
if ( DistanceSquared( self.origin, level.waypoints[ self.bot.astar[ current ] ].origin ) < DistanceSquared( self.origin, goal ) || DistanceSquared( level.waypoints[ self.bot.astar[ current ] ].origin, PlayerPhysicsTrace( self.origin + ( 0, 0, 32 ), level.waypoints[ self.bot.astar[ current ] ].origin, false, self ) ) > 1.0 )
{
while ( current >= 0 )
{
self.bot.next_wp = self.bot.astar[current];
self.bot.next_wp = self.bot.astar[ current ];
self.bot.second_next_wp = -1;
if ( current > 0 )
{
self.bot.second_next_wp = self.bot.astar[current - 1];
self.bot.second_next_wp = self.bot.astar[ current - 1 ];
}
self notify( "new_static_waypoint" );
self movetowards( level.waypoints[self.bot.next_wp].origin );
self movetowards( level.waypoints[ self.bot.next_wp ].origin );
self.bot.last_next_wp = self.bot.next_wp;
self.bot.last_second_next_wp = self.bot.second_next_wp;
@@ -2557,7 +2557,7 @@ movetowards( goal )
if ( distanceSquared( self.origin, lastOri ) < 32 * 32 )
{
// check if directly above or below
if ( abs( goal[2] - self.origin[2] ) > 64 && getConeDot( goal + ( 1, 1, 0 ), self.origin + ( -1, -1, 0 ), VectorToAngles( ( goal[0], goal[1], self.origin[2] ) - self.origin ) ) < 0.64 && DistanceSquared2D( self.origin, goal ) < 32 * 32 )
if ( abs( goal[ 2 ] - self.origin[ 2 ] ) > 64 && getConeDot( goal + ( 1, 1, 0 ), self.origin + ( -1, -1, 0 ), VectorToAngles( ( goal[ 0 ], goal[ 1 ], self.origin[ 2 ] ) - self.origin ) ) < 0.64 && DistanceSquared2D( self.origin, goal ) < 32 * 32 )
{
stucks = 2;
}
@@ -2631,17 +2631,17 @@ getRandomLargestStafe( dist )
toptraces = [];
top = traces.data[0];
toptraces[toptraces.size] = top;
top = traces.data[ 0 ];
toptraces[ toptraces.size ] = top;
traces HeapRemove();
while ( traces.data.size && top["fraction"] - traces.data[0]["fraction"] < 0.1 )
while ( traces.data.size && top[ "fraction" ] - traces.data[ 0 ][ "fraction" ] < 0.1 )
{
toptraces[toptraces.size] = traces.data[0];
toptraces[ toptraces.size ] = traces.data[ 0 ];
traces HeapRemove();
}
return toptraces[randomInt( toptraces.size )]["position"];
return toptraces[ randomInt( toptraces.size ) ][ "position" ];
}
/*
@@ -2709,7 +2709,7 @@ do_knife_target( target )
self.bot.knifing_target = target;
angles = VectorToAngles( target.origin - self.origin );
self BotBuiltinBotMeleeParams( angles[1], dist );
self BotBuiltinBotMeleeParams( angles[ 1 ], dist );
wait 1;
@@ -3031,13 +3031,13 @@ botGetThirdPersonOffset( angles )
}
// rotate about x // y cos xangle - z sin xangle // y sin xangle + z cos xangle
offset = ( offset[0], offset[1] * cos( angles[2] ) - offset[2] * sin( angles[2] ), offset[1] * sin( angles[2] ) + offset[2] * cos( angles[2] ) );
offset = ( offset[ 0 ], offset[ 1 ] * cos( angles[ 2 ] ) - offset[ 2 ] * sin( angles[ 2 ] ), offset[ 1 ] * sin( angles[ 2 ] ) + offset[ 2 ] * cos( angles[ 2 ] ) );
// rotate about y
offset = ( offset[0] * cos( angles[0] ) + offset[2] * sin( angles[0] ), offset[1], ( 0 - offset[0] ) * sin( angles[0] ) + offset[2] * cos( angles[0] ) );
offset = ( offset[ 0 ] * cos( angles[ 0 ] ) + offset[ 2 ] * sin( angles[ 0 ] ), offset[ 1 ], ( 0 - offset[ 0 ] ) * sin( angles[ 0 ] ) + offset[ 2 ] * cos( angles[ 0 ] ) );
// rotate about z
offset = ( offset[0] * cos( angles[1] ) - offset[1] * sin( angles[1] ), offset[0] * sin( angles[1] ) + offset[1] * cos( angles[1] ), offset[2] );
offset = ( offset[ 0 ] * cos( angles[ 1 ] ) - offset[ 1 ] * sin( angles[ 1 ] ), offset[ 0 ] * sin( angles[ 1 ] ) + offset[ 1 ] * cos( angles[ 1 ] ), offset[ 2 ] );
}
return offset;
@@ -3101,10 +3101,10 @@ bot_lookat( pos, time, vel, doAimPredict )
angles = VectorToAngles( ( pos - myEye ) - anglesToForward( myAngle ) );
X = AngleClamp180( angles[0] - myAngle[0] );
X = AngleClamp180( angles[ 0 ] - myAngle[ 0 ] );
X = X / steps;
Y = AngleClamp180( angles[1] - myAngle[1] );
Y = AngleClamp180( angles[ 1 ] - myAngle[ 1 ] );
Y = Y / steps;
for ( i = 0; i < steps; i++ )