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//
// kart.js
//--------------------
// Entity type for karts.
// by RHY3756547
//
// includes: gl-matrix.js (glMatrix 2.0)
// /formats/kcl.js
//
window . Kart = function ( pos , angle , speed , kartN , charN , controller , scene ) {
var k = this ;
var minimumMove = 0.05 ;
var MAXSPEED = 24 ;
var BOOSTTIME = 90 ;
var kartSoundBase = 170 ;
var COLBOUNCE _TIME = 20 ;
var COLBOUNCE _STRENGTH = 1 ;
var params = scene . gameRes . kartPhys . karts [ kartN ] ;
var offsets = scene . gameRes . kartOff . karts [ kartN ] ;
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this . wheelClass = ( offsets . name [ 10 ] == "L" ) ? 2 : ( ( offsets . name [ 10 ] == "M" ) ? 1 : 0 ) ;
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this . local = controller . local ;
this . active = true ;
this . preboost = true ;
this . soundProps = { } ;
this . pos = pos ;
this . angle = angle ;
this . vel = vec3 . create ( ) ;
this . weight = params . weight ;
this . params = params ;
this . kartBounce = kartBounce ;
this . speed = speed ;
this . drifting = false ;
this . driftMode = 0 ; //1 left, 2 right, 0 undecided
this . driftLanded = false ; //if we haven't landed then apply a constant turn.
//powerslide info: to advance to the next mode you need to hold the same button for 10 or more frames. Mode 0 starts facing drift direction, 1 is other way, 2 is returning (mini spark), 3 is other way, 4 is returning (turbo spark)
this . driftPSTick = 0 ;
this . driftPSMode = 0 ;
this . kartTargetNormal = [ 0 , 1 , 0 ] ;
this . kartNormal = [ 0 , 1 , 0 ] ;
this . airTime = 0 ;
this . controller = controller ;
this . driftOff = 0 ;
this . physicalDir = angle ;
this . mat = mat4 . create ( ) ;
this . basis = mat4 . create ( ) ;
this . ylock = 0 ;
this . cannon = null ;
this . gravity = [ 0 , - 0.17 , 0 ] ; //100% confirmed by me messing around with the gravity value in mkds. for sticky surface and loop should modify to face plane until in air
this . update = update ;
this . sndUpdate = sndUpdate ;
this . draw = draw ;
this . drawKart = drawKart ;
this . drawWheels = drawWheels ;
this . drawChar = drawChar ;
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this . getPosition = getPosition ;
this . playCharacterSound = playCharacterSound ;
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this . trackAttach = null ; //a normal for the kart to attach to (loop)
this . boostMT = 0 ;
this . boostNorm = 0 ;
this . kartColVel = vec3 . create ( ) ;
this . kartColTimer = 0 ;
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this . kartWallTimer = 0 ;
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this . charSoundTimer = 0 ;
this . placement = 0 ;
this . lastPlacement = 0 ;
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var charRes = scene . gameRes . getChar ( charN ) ;
var kartRes = scene . gameRes . getKart ( kartN ) ;
var kartPolys = [ ] ;
var kObj = kartRes . bmd . modelData . objectData [ 0 ] ;
for ( var i = 0 ; i < kObj . polys . objectData . length ; i ++ ) {
if ( kObj . materials . names [ kObj . polys . objectData [ i ] . mat ] != "kart_tire\0\0\0\0\0\0\0" ) kartPolys . push ( i )
}
var tireRes = scene . gameRes . tireRes ;
this . anim = new nitroAnimator ( charRes . model . bmd , charRes . driveA ) ;
this . charRes = charRes ;
this . animMode = "drive" ;
this . driveAnimF = 14 ; //29 frames in total, 14 is mid
this . animFrame = 0 ; //only used for non drive anim
this . animMat = null ;
this . lastInput = null ;
//race statistics
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this . lapNumber = 1 ;
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this . passedKTP2 = false ;
this . checkPointNumber = 0 ;
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this . OOB = 0 ;
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this . wheelParticles = [
new NitroEmitter ( scene , k , - 1 , [ 1 , 1.5 , - 1 ] ) ,
new NitroEmitter ( scene , k , - 1 , [ - 1 , 1.5 , - 1 ] )
] ;
scene . particles . push ( this . wheelParticles [ 0 ] ) ;
scene . particles . push ( this . wheelParticles [ 1 ] ) ;
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var nkm = scene . nkm ;
var startLine = nkm . sections [ "KTPS" ] . entries [ 0 ] ;
var passLine = nkm . sections [ "KTP2" ] . entries [ 0 ] ;
var checkpoints = nkm . sections [ "CPOI" ] . entries ;
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var respawns = nkm . sections [ "KTPJ" ] . entries ;
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var futureChecks = [ 1 ] ;
var hitGroundAnim = [ //length 13, on y axis
1.070 ,
1.130 ,
1.170 ,
1.190 ,
1.2 ,
1.190 ,
1.170 ,
1.130 ,
1.070 ,
1 ,
0.950 ,
0.920 ,
0.950 ,
]
var charGroundAnim = [ //length 13, on y axis
1 ,
1 ,
1 ,
1 ,
1 ,
1.080 ,
1.140 ,
1.180 ,
1.140 ,
1.060 ,
0.970 ,
0.960 ,
0.980 ,
]
var lastCollided = - 1 ;
var lastBE = - 1 ;
var lastColSounds = { } ;
var ylvel = 0 ;
var wheelTurn = 0 ;
var onGround ;
var kartAnim = 0 ;
var groundAnim = - 1 ;
var stuckTo = null ;
var updateMat = true ;
var drawMat = {
kart : mat4 . create ( ) ,
wheels : [ mat4 . create ( ) , mat4 . create ( ) , mat4 . create ( ) , mat4 . create ( ) ] ,
character : mat4 . create ( )
}
controller . setKart ( k ) ;
var soundMode = - 1 ;
var sounds = { //sounds that can be simultaneous
kart : null ,
drift : null ,
lastTerrain : - 1 ,
lastBE : - 1 ,
drive : null ,
boost : null ,
powerslide : null ,
boostSoundTrig : true , //true if a new boost sound can be played
transpose : 0
}
updateKartSound ( 0 , { turn : 0 } ) ;
function recalcMat ( view ) {
var mat = mat4 . mul ( [ ] , view , k . mat ) ;
var xscale = 1 + Math . cos ( ( kartAnim / 4 ) * Math . PI ) * 0.015 ;
var yscale = 1 + Math . cos ( ( ( kartAnim + 4 ) / 4 ) * Math . PI ) * 0.015 ;
if ( groundAnim != - 1 ) yscale *= hitGroundAnim [ groundAnim ] ;
mat4 . translate ( mat , mat , [ 0 , - params . colRadius , 0 ] ) ; //main part
var kmat = mat4 . scale ( drawMat . kart , mat , [ 16 * xscale , 16 * yscale , 16 ] ) ;
//wheels
for ( var i = 0 ; i < 4 ; i ++ ) {
var scale = 16 * ( ( i < 2 ) ? offsets . frontTireSize : 1 ) ;
var wmat = mat4 . translate ( drawMat . wheels [ i ] , mat , [ 0 , 0 , 0 ] ) ;
if ( groundAnim != - 1 ) mat4 . scale ( wmat , wmat , [ 1 , hitGroundAnim [ groundAnim ] , 1 ] ) ;
mat4 . translate ( wmat , wmat , offsets . wheels [ i ] ) ;
mat4 . scale ( wmat , wmat , [ scale , scale , scale ] ) ;
if ( i < 2 ) mat4 . rotateY ( wmat , wmat , ( ( k . driveAnimF - 14 ) / 14 ) * Math . PI / 6 ) ;
mat4 . rotateX ( wmat , wmat , wheelTurn ) ;
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if ( i > 1 ) {
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k . wheelParticles [ i - 2 ] . offset = vec3 . scale ( k . wheelParticles [ i - 2 ] . offset , vec3 . add ( k . wheelParticles [ i - 2 ] . offset , offsets . wheels [ i ] , [ k . wheelClass * ( i - 2.5 ) * - 2 , ( - params . colRadius ) - k . wheelClass * 2 , 0 ] ) , 1 / 16 ) ;
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}
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}
var scale = 16 ;
var pos = vec3 . clone ( offsets . chars [ charN ] ) ;
if ( groundAnim != - 1 ) pos [ 1 ] *= charGroundAnim [ groundAnim ] ;
var cmat = mat4 . translate ( drawMat . character , mat , vec3 . scale ( [ ] , pos , 16 ) )
mat4 . scale ( cmat , cmat , [ scale , scale , scale ] ) ;
if ( k . animMode == "drive" ) k . animMat = k . anim . setFrame ( 0 , 0 , k . driveAnimF ) ;
else k . animMat = k . anim . setFrame ( 0 , 0 , k . animFrame ++ ) ;
updateMat = false ;
}
function drawChar ( view , pMatrix ) {
charRes . model . draw ( drawMat . character , pMatrix , k . animMat ) ;
}
function drawKart ( view , pMatrix , gl ) {
if ( updateMat ) recalcMat ( view ) ;
//if we're in simple shadows mode, draw the kart's stencil shadow.
if ( false ) {
//gl.enable(gl.CULL_FACE); //culling is fun!
gl . clear ( gl . STENCIL _BUFFER _BIT ) ;
//gl.cullFace(gl.FRONT);
gl . colorMask ( false , false , false , false ) ;
gl . depthMask ( false ) ;
gl . enable ( gl . STENCIL _TEST ) ;
gl . stencilMask ( 0xFF ) ;
gl . stencilFunc ( gl . ALWAYS , 1 , 0xFF ) ;
gl . stencilOp ( gl . KEEP , gl . INCR , gl . KEEP ) ;
kartRes . shadVol . draw ( drawMat . kart , pMatrix , simpleMatStack ) ;
gl . colorMask ( true , true , true , true )
//gl.cullFace(gl.BACK);
gl . stencilFunc ( gl . LESS , 0 , 0xFF ) ;
gl . stencilOp ( gl . KEEP , gl . KEEP , gl . KEEP ) ;
kartRes . shadVol . draw ( drawMat . kart , pMatrix , simpleMatStack ) ;
gl . disable ( gl . STENCIL _TEST ) ;
//gl.disable(gl.CULL_FACE);
gl . depthMask ( true ) ;
}
for ( var i = 0 ; i < kartPolys . length ; i ++ ) {
kartRes . drawPoly ( drawMat . kart , pMatrix , 0 , kartPolys [ i ] , simpleMatStack ) ;
}
}
function drawWheels ( view , pMatrix ) {
if ( updateMat ) recalcMat ( view ) ;
var wheelMod = tireRes [ offsets . name ] ;
for ( var i = 0 ; i < 4 ; i ++ ) {
wheelMod . draw ( drawMat . wheels [ i ] , pMatrix , simpleMatStack ) ;
}
}
function draw ( view , pMatrix ) {
drawWheels ( view , pMatrix ) ;
drawKart ( view , pMatrix ) ;
drawChar ( view , pMatrix ) ;
}
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k . lWheelParticle = null ;
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function update ( scene ) {
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if ( k . placement != k . lastPlacement ) {
if ( k . placement < k . lastPlacement ) {
if ( k . charSoundTimer == 0 ) {
playCharacterSound ( 5 ) ;
k . charSoundTimer = 60 ;
}
}
k . lastPlacement = k . placement ;
}
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var lastPos = vec3 . clone ( k . pos ) ;
updateMat = true ;
if ( groundAnim != - 1 ) {
if ( ++ groundAnim >= hitGroundAnim . length ) groundAnim = - 1 ;
}
onGround = ( k . airTime < 5 ) ;
kartAnim = ( kartAnim + 1 ) % 8 ;
var input = k . controller . fetchInput ( ) ;
k . lastInput = input ;
if ( input . turn > 0.3 ) {
if ( k . driveAnimF < 28 ) k . driveAnimF ++ ;
} else if ( input . turn < - 0.3 ) {
if ( k . driveAnimF > 0 ) k . driveAnimF -- ;
} else {
if ( k . driveAnimF > 14 ) k . driveAnimF -- ;
else if ( k . driveAnimF < 14 ) k . driveAnimF ++ ;
}
//update sounds
var newSoundMode = soundMode ;
if ( input . accel ) {
if ( soundMode == 0 || soundMode == 6 ) newSoundMode = 2 ;
if ( soundMode == 4 ) newSoundMode = 3 ;
} else {
if ( soundMode != 0 ) {
if ( soundMode == 2 || soundMode == 3 ) newSoundMode = 4 ;
if ( newSoundMode == 4 && k . speed < 0.5 ) newSoundMode = 0 ;
}
}
if ( k . boostMT + k . boostNorm > 0 ) {
if ( k . boostNorm == BOOSTTIME || k . boostMT == params . miniTurbo ) {
if ( sounds . boostSoundTrig ) {
if ( sounds . boost != null ) nitroAudio . instaKill ( sounds . boost ) ;
sounds . boost = nitroAudio . playSound ( 160 , { } , 0 , k ) ;
sounds . boost . gainN . gain . value = 2 ;
sounds . boostSoundTrig = false ;
}
} else {
sounds . boostSoundTrig = true ;
}
} else if ( sounds . boost != null ) {
nitroAudio . kill ( sounds . boost ) ;
sounds . boost = null ;
}
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var isMoving = onGround && k . speed > 0.5 ;
if ( isMoving ) {
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if ( lastCollided != sounds . lastTerrain || lastBE != sounds . lastBE || sounds . drive == null ) {
if ( sounds . drive != null ) nitroAudio . kill ( sounds . drive ) ;
if ( lastColSounds . drive != null ) {
sounds . drive = nitroAudio . playSound ( lastColSounds . drive , { } , 0 , k ) ;
sounds . drive . gainN . gain . value = 2 ;
}
}
if ( k . drifting && k . driftLanded ) {
if ( lastCollided != sounds . lastTerrain || lastBE != sounds . lastBE || sounds . drift == null ) {
if ( sounds . drift != null ) nitroAudio . kill ( sounds . drift ) ;
if ( lastColSounds . drift != null ) {
sounds . drift = nitroAudio . playSound ( lastColSounds . drift , { } , 0 , k ) ;
}
}
} else if ( sounds . drift != null ) { nitroAudio . kill ( sounds . drift ) ; sounds . drift = null ; }
sounds . lastTerrain = lastCollided ;
sounds . lastBE = lastBE ;
} else {
if ( sounds . drift != null ) { nitroAudio . kill ( sounds . drift ) ; sounds . drift = null ; }
if ( sounds . drive != null ) { nitroAudio . kill ( sounds . drive ) ; sounds . drive = null ; }
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}
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k . wheelParticles [ 0 ] . pause = ! isMoving ;
k . wheelParticles [ 1 ] . pause = ! isMoving ;
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//end sound update
if ( k . preboost ) {
} else if ( k . cannon != null ) { //when cannon is active, we fly forward at max move speed until we get to the cannon point.
var c = scene . nkm . sections [ "KTPC" ] . entries [ k . cannon ] ;
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if ( c . id2 != 0 ) {
var c2 = scene . nkm . sections [ "KTPC" ] . entries [ c . id2 ] ;
c = c2 ;
var mat = mat4 . create ( ) ;
mat4 . rotateY ( mat , mat , c . angle [ 1 ] * ( Math . PI / 180 ) ) ;
mat4 . rotateX ( mat , mat , c . angle [ 0 ] * ( - Math . PI / 180 ) ) ;
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k . pos = vec3 . clone ( c2 . pos ) ;
vec3 . add ( k . pos , k . pos , vec3 . transformMat4 ( [ ] , [ 0 , 16 , 16 ] , mat ) ) ;
k . physicalDir = ( 180 - c2 . angle [ 1 ] ) * ( Math . PI / 180 ) ;
k . angle = k . physicalDir ;
k . cannon = null ;
} else {
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var mat = mat4 . create ( ) ;
mat4 . rotateY ( mat , mat , c . angle [ 1 ] * ( Math . PI / 180 ) ) ;
mat4 . rotateX ( mat , mat , c . angle [ 0 ] * ( - Math . PI / 180 ) ) ;
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var forward = [ 0 , 0 , 1 ] ;
var up = [ 0 , 1 , 0 ] ;
k . vel = vec3 . scale ( [ ] , vec3 . transformMat4 ( forward , forward , mat ) , MAXSPEED ) ;
k . speed = Math . min ( k . speed + 1 , MAXSPEED ) ;
vec3 . add ( k . pos , k . pos , k . vel ) ;
k . physicalDir = ( 180 - c . angle [ 1 ] ) * ( Math . PI / 180 ) ;
k . angle = k . physicalDir ;
k . kartTargetNormal = vec3 . transformMat4 ( up , up , mat ) ;
var planeConst = - vec3 . dot ( c . pos , forward ) ;
var cannonDist = vec3 . dot ( k . pos , forward ) + planeConst ;
if ( cannonDist > 0 ) k . cannon = null ;
}
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} else { //default kart mode
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if ( k . OOB > 0 ) {
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playCharacterSound ( 0 ) ;
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var current = checkpoints [ k . checkPointNumber ] ;
var respawn = respawns [ current . respawn ] ;
k . physicalDir = ( 180 - respawn . angle [ 1 ] ) * ( Math . PI / 180 ) ;
k . angle = k . physicalDir ;
k . speed = 0 ;
k . vel = vec3 . create ( ) ;
k . pos = vec3 . clone ( respawn . pos ) ;
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vec3 . add ( k . pos , k . pos , [ 0 , 16 , 0 ] ) ;
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if ( k . controller . setRouteID != null ) k . controller . setRouteID ( respawn . id1 ) ;
k . OOB = 0 ;
}
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var groundEffect = 0 ;
if ( lastCollided != - 1 ) {
groundEffect = MKDS _COLTYPE . PHYS _MAP [ lastCollided ] ;
if ( groundEffect == null ) groundEffect = 0 ;
}
var effect = params . colParam [ groundEffect ] ;
var top = params . topSpeed * effect . topSpeedMul ; //if you let go of accel, drift ends anyway, so always accel in drift.
var boosting = ( k . boostNorm + k . boostMT ) > 0 ;
if ( boosting ) {
var top2
if ( k . boostNorm > 0 ) {
top2 = params . topSpeed * 1.3 ;
k . boostNorm -- ;
} else {
top2 = params . topSpeed * ( ( effect . topSpeedMul >= 1 ) ? 1.3 : effect . topSpeedMul ) ;
}
if ( k . boostMT > 0 ) {
k . boostMT -- ;
}
if ( k . speed <= top2 ) {
k . speed += 1 ;
if ( k . speed > top2 ) k . speed = top2 ;
} else {
k . speed *= 0.95 ;
}
}
//kart controls
if ( k . drifting ) {
if ( ( onGround ) && ! ( input . accel && input . drift && ( k . speed > 2 || ! k . driftLanded ) ) ) {
//end drift, execute miniturbo
k . drifting = false ;
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clearWheelParticles ( ) ;
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if ( sounds . powerslide != null ) {
nitroAudio . instaKill ( sounds . powerslide ) ;
sounds . powerslide = null ;
}
if ( k . driftPSMode == 3 ) {
k . boostMT = params . miniTurbo ;
}
k . driftPSMode = 0 ;
k . driftPSTick = 0 ;
}
if ( k . driftMode == 0 ) {
if ( input . turn > 0.30 ) {
k . driftMode = 2 ;
} else if ( input . turn < - 0.30 ) {
k . driftMode = 1 ;
}
} else {
if ( k . driftLanded ) {
var change = ( ( ( k . driftMode - 1.5 ) * Math . PI / 1.5 ) - k . driftOff ) * 0.05 ;
k . driftOff += change ;
k . physicalDir -= change ;
}
//if we're above the initial y position, add a constant turn with a period of 180 frames.
if ( ! k . driftLanded && k . ylock >= 0 ) {
k . physicalDir += ( Math . PI * 2 / 180 ) * ( k . driftMode * 2 - 3 ) ;
}
}
if ( onGround ) {
if ( ! k . driftLanded ) {
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if ( k . driftMode == 0 ) {
k . drifting = false ;
clearWheelParticles ( ) ;
}
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else {
k . driftPSMode = 0 ;
k . driftPSTick = 0 ;
k . driftLanded = true ;
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if ( k . drifting ) setWheelParticles ( 20 , 1 ) ; //20 = smoke, 1 = drift priority
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}
}
if ( k . drifting ) {
if ( ! boosting ) {
if ( k . speed <= top ) {
k . speed += ( k . speed / top > params . driftAccelSwitch ) ? params . driftAccel2 : params . driftAccel1 ;
if ( k . speed > top ) k . speed = top ;
} else {
k . speed *= 0.95 ;
}
}
var turn = ( ( k . driftMode == 1 ) ? ( input . turn - 1 ) : ( input . turn + 1 ) ) / 2 ;
k . physicalDir += params . driftTurnRate * turn + ( ( k . driftMode == 1 ) ? - 1 : 1 ) * ( 50 / 32768 ) * Math . PI ; //what is this mystery number i hear you ask? well my friend, this is the turn rate for outward drift.
//miniturbo code
if ( input . turn != 0 ) {
var inward = ( ( input . turn > 0 ) == k . driftMode - 1 ) ; //if we're turning
switch ( k . driftPSMode ) {
case 0 : //dpad away from direction for 10 frames
if ( ! inward ) k . driftPSTick ++ ;
else if ( k . driftPSTick > 9 ) {
k . driftPSMode ++ ;
k . driftPSTick = 1 ;
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//play blue spark sound, flare
setWheelParticles ( 126 , 2 ) ; //126 = blue flare, 2 = flare priority
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var blue = nitroAudio . playSound ( 210 , { } , 0 , k ) ;
blue . gainN . gain . value = 2 ;
} else k . driftPSTick = 0 ;
break ;
case 1 : //dpad toward direction for 10 frames
if ( inward ) k . driftPSTick ++ ;
else if ( k . driftPSTick > 9 ) {
k . driftPSMode ++ ;
k . driftPSTick = 1 ;
} else k . driftPSTick = 0 ;
break ;
case 2 : //dpad away from direction for 10 frames
if ( ! inward ) k . driftPSTick ++ ;
else if ( k . driftPSTick > 9 ) {
k . driftPSMode ++ ;
k . driftPSTick = 1 ;
//play red sparks sound, full MT!
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setWheelParticles ( 22 , 2 ) ; //22 = red flare, 2 = flare priority
setWheelParticles ( 17 , 1 ) ; //17 = red mt, 1 = drift priority
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sounds . powerslide = nitroAudio . playSound ( 209 , { } , 0 , k ) ;
sounds . powerslide . gainN . gain . value = 2 ;
} else k . driftPSTick = 0 ;
break ;
case 3 : //turbo charged
break ;
}
}
}
}
}
if ( ! k . drifting ) {
if ( onGround ) {
var effect = params . colParam [ groundEffect ] ;
if ( ! boosting ) {
if ( input . accel ) {
if ( k . speed <= top ) {
k . speed += ( k . speed / top > params . accelSwitch ) ? params . accel2 : params . accel1 ;
if ( k . speed > top ) k . speed = top ;
} else {
k . speed *= 0.95 ;
}
} else {
k . speed *= params . decel ;
}
}
if ( ( input . accel && k . speed >= 0 ) || ( k . speed > 0.1 ) ) {
k . physicalDir += params . turnRate * input . turn ;
} else if ( k . speed < - 0.1 ) {
k . physicalDir -= params . turnRate * input . turn ;
}
if ( input . drift ) {
ylvel = 1.25 ;
k . vel [ 1 ] += 1.25 ;
k . airTime = 4 ;
k . drifting = true ;
k . driftLanded = false ;
k . driftMode = 0 ;
k . ylock = 0 ;
var boing = nitroAudio . playSound ( 207 , { transpose : - 4 } , 0 , k ) ;
boing . gainN . gain . value = 2 ;
}
} else {
if ( input . drift ) {
ylvel = 0 ;
k . drifting = true ;
k . driftLanded = false ;
k . driftMode = 0 ;
k . ylock = - 0.001 ;
}
}
}
k . physicalDir = fixDir ( k . physicalDir ) ;
if ( k . driftOff != 0 && ( ! k . drifting || ! k . driftLanded ) ) {
if ( k . driftOff > 0 ) {
k . physicalDir += params . driftOffRestore ;
k . driftOff -= params . driftOffRestore ;
if ( k . driftOff < 0 ) k . driftOff = 0 ;
} else {
k . physicalDir -= params . driftOffRestore ;
k . driftOff += params . driftOffRestore ;
if ( k . driftOff > 0 ) k . driftOff = 0 ;
}
}
checkKartCollision ( scene ) ;
if ( ! onGround ) {
this . kartTargetNormal = [ 0 , 1 , 0 ] ;
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if ( k . physBasis != null ) vec3 . transformMat4 ( this . kartTargetNormal , this . kartTargetNormal , k . physBasis . mat ) ;
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vec3 . add ( k . vel , k . vel , k . gravity )
if ( k . ylock >= 0 ) {
ylvel += k . gravity [ 1 ] ;
k . ylock += ylvel ;
}
if ( k . kartColTimer == COLBOUNCE _TIME ) {
vec3 . add ( k . vel , k . vel , k . kartColVel ) ;
}
} else {
k . angle += dirDiff ( k . physicalDir , k . angle ) * effect . handling / 2 ;
k . angle = fixDir ( k . physicalDir ) ;
k . vel [ 1 ] += k . gravity [ 1 ] ;
k . vel = [ Math . sin ( k . angle ) * k . speed , k . vel [ 1 ] , - Math . cos ( k . angle ) * k . speed ]
if ( k . kartColTimer > 0 ) {
vec3 . add ( k . vel , k . vel , vec3 . scale ( [ ] , k . kartColVel , k . kartColTimer / 10 ) )
}
}
if ( k . kartColTimer > 0 ) k . kartColTimer -- ;
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if ( k . kartWallTimer > 0 ) k . kartWallTimer -- ;
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if ( k . charSoundTimer > 0 ) k . charSoundTimer -- ;
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wheelTurn += k . speed / 16 ;
wheelTurn = fixDir ( wheelTurn ) ;
k . airTime ++ ;
//end kart controls
//move kart on moving platforms (no collision, will be corrected by next step)
if ( stuckTo != null ) {
if ( stuckTo . moveWith != null ) stuckTo . moveWith ( k ) ;
stuckTo = null ;
}
//move kart.
var steps = 0 ;
var remainingT = 1 ;
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var baseVel = k . vel ;
if ( k . physBasis != null ) {
if ( k . physBasis . time -- < 0 ) exitBasis ( ) ;
else {
baseVel = vec3 . transformMat4 ( [ ] , baseVel , k . physBasis . mat ) ;
k . vel [ 1 ] = - 1 ;
}
}
var velSeg = vec3 . clone ( baseVel ) ;
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var posSeg = vec3 . clone ( k . pos ) ;
var ignoreList = [ ] ;
while ( steps ++ < 10 && remainingT > 0.01 ) {
var result = lsc . sweepEllipse ( posSeg , velSeg , scene , [ params . colRadius , params . colRadius , params . colRadius ] , ignoreList ) ;
if ( result != null ) {
colResponse ( posSeg , velSeg , result , ignoreList )
remainingT -= result . t ;
if ( remainingT > 0.01 ) {
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if ( k . physBasis != null ) {
baseVel = vec3 . transformMat4 ( [ ] , k . vel , k . physBasis . mat ) ;
}
velSeg = vec3 . scale ( vec3 . create ( ) , baseVel , remainingT ) ;
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}
} else {
vec3 . add ( posSeg , posSeg , velSeg ) ;
remainingT = 0 ;
}
}
k . pos = posSeg ;
}
//interpolate visual normal roughly to target
var rate = onGround ? 0.15 : 0.025 ;
k . kartNormal [ 0 ] += ( k . kartTargetNormal [ 0 ] - k . kartNormal [ 0 ] ) * rate ;
k . kartNormal [ 1 ] += ( k . kartTargetNormal [ 1 ] - k . kartNormal [ 1 ] ) * rate ;
k . kartNormal [ 2 ] += ( k . kartTargetNormal [ 2 ] - k . kartNormal [ 2 ] ) * rate ;
vec3 . normalize ( k . kartNormal , k . kartNormal ) ;
k . basis = buildBasis ( ) ;
var mat = mat4 . create ( ) ;
mat4 . translate ( mat , mat , k . pos ) ;
k . mat = mat4 . mul ( mat , mat , k . basis ) ;
if ( input . item ) {
scene . items . addItem ( 0 , scene . karts . indexOf ( k ) , { } )
}
updateKartSound ( newSoundMode , input ) ;
positionChanged ( lastPos , k . pos ) ;
}
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function playCharacterSound ( sound , volume ) {
//0 - hit
//1 - hit spin
//2 - hit ?? hit grnd
//3 - hit banana? race start?
//4 - hit spin?
//5 - good pass?
//6 - good OK!
//7 - use item
//8 - hit someone?
//9 = win
//10 = alright
//11 = bad
//12 = good record
//13 = bad record
if ( volume == null ) volume = 1 ;
nitroAudio . playSound ( sound + charRes . sndOff , { volume : 2 * volume } , 2 , k ) ;
}
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function clearWheelParticles ( prio ) {
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for ( var i = 0 ; i < 2 ; i ++ ) {
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if ( prio == null ) {
//clear all specials
k . wheelParticles [ i ] . clearEmitter ( 1 ) ; //drift mode
//k.wheelParticles[i].clearEmitter(2); //drift flare (blue mt, red big flash)
} else {
k . wheelParticles [ i ] . clearEmitter ( 0 ) ;
}
}
}
function setWheelParticles ( id , prio ) {
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for ( var i = 0 ; i < 2 ; i ++ ) {
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k . wheelParticles [ i ] . setEmitter ( id , prio ) ;
}
}
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function genFutureChecks ( ) {
//all future points that
var chosen = { }
var current = checkpoints [ k . checkPointNumber ] ;
var expectedSection = current . nextSection ;
futureChecks = [ ] ;
for ( var i = k . checkPointNumber + 1 ; i < checkpoints . length ; i ++ ) {
var check = checkpoints [ i ] ;
if ( expectedSection != - 1 && check . currentSection != expectedSection ) continue ;
if ( chosen [ check . currentSection ] != true ) {
futureChecks . push ( i ) ;
chosen [ check . currentSection ] = true ;
}
}
}
function positionChanged ( oldPos , pos ) {
//crossed into new checkpoint?
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if ( checkpoints . length == 0 ) return ;
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for ( var i = 0 ; i < futureChecks . length ; i ++ ) {
var check = checkpoints [ futureChecks [ i ] ] ;
var distOld = vec2 . sub ( [ ] , [ check . x1 , check . z1 ] , [ oldPos [ 0 ] , oldPos [ 2 ] ] ) ;
var dist = vec2 . sub ( [ ] , [ check . x1 , check . z1 ] , [ pos [ 0 ] , pos [ 2 ] ] ) ;
var dot = vec2 . dot ( dist , [ check . sinus , check . cosinus ] ) ;
var dotOld = vec2 . dot ( distOld , [ check . sinus , check . cosinus ] ) ;
var lineCheck = vec2 . sub ( [ ] , [ check . x1 , check . z1 ] , [ check . x2 , check . z2 ] ) ;
var lineDot = vec2 . dot ( dist , lineCheck ) ;
if ( lineDot > 0 && lineDot < vec2 . sqrLen ( lineCheck ) && dot < 0 && dotOld >= 0 ) {
k . checkPointNumber = futureChecks [ i ] ;
genFutureChecks ( ) ;
break ;
}
}
if ( ! k . passedKTP2 && forwardCrossedKTP ( passLine , oldPos , pos ) ) k . passedKTP2 = true ;
if ( k . passedKTP2 && futureChecks . length == 0 ) {
//we can finish the lap
if ( forwardCrossedKTP ( startLine , oldPos , pos ) ) {
k . lapNumber ++ ;
k . checkPointNumber = 0 ;
k . passedKTP2 = 0 ;
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futureChecks = [ 1 ] ;
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scene . lapAdvance ( k ) ;
}
}
}
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function getPosition ( ) {
if ( futureChecks . length == 0 ) return 0 ;
var check = checkpoints [ futureChecks [ 0 ] ] ;
var dist = vec2 . sub ( [ ] , [ check . x1 , check . z1 ] , [ k . pos [ 0 ] , k . pos [ 2 ] ] ) ;
var dot = vec2 . dot ( dist , [ check . sinus , check . cosinus ] ) ;
return k . checkPointNumber + ( 1 - ( Math . abs ( dot ) / ( 0xFFFF ) ) ) + k . lapNumber * checkpoints . length ;
}
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function forwardCrossedKTP ( ktp , oldPos , pos ) {
var distOld = vec2 . sub ( [ ] , [ ktp . pos [ 0 ] , ktp . pos [ 2 ] ] , [ oldPos [ 0 ] , oldPos [ 2 ] ] ) ;
var dist = vec2 . sub ( [ ] , [ ktp . pos [ 0 ] , ktp . pos [ 2 ] ] , [ pos [ 0 ] , pos [ 2 ] ] ) ;
var ang = ( ktp . angle [ 1 ] / 180 ) * Math . PI ;
var sinus = Math . sin ( ang ) ;
var cosinus = Math . cos ( ang ) ;
var dot = vec2 . dot ( dist , [ sinus , cosinus ] ) ;
var dotOld = vec2 . dot ( distOld , [ sinus , cosinus ] ) ;
return ( dot < 0 && dotOld >= 0 ) ;
}
function checkKartCollision ( scene ) { //check collision with other karts. Really simple.
for ( var i = 0 ; i < scene . karts . length ; i ++ ) {
var ok = scene . karts [ i ] ;
if ( ! ok . active ) continue ;
if ( k != ok ) {
var dist = vec3 . dist ( k . pos , ok . pos ) ;
if ( dist < 16 ) {
kartBounce ( ok ) ;
ok . kartBounce ( k ) ;
}
}
}
}
function kartBounce ( ok ) {
k . kartColTimer = COLBOUNCE _TIME ;
var weightMul = COLBOUNCE _STRENGTH * ( 1 + ( ok . weight - k . weight ) ) * ( ( ok . boostNorm > 0 || ok . boostMT > 0 ) ? 2 : 1 ) * ( ( k . boostNorm > 0 || k . boostMT > 0 ) ? 0.5 : 1 ) ;
//as well as side bounce also add velocity difference if other vel > mine.
vec3 . sub ( k . kartColVel , k . pos , ok . pos ) ;
k . kartColVel [ 1 ] = 0 ;
vec3 . normalize ( k . kartColVel , k . kartColVel ) ;
vec3 . scale ( k . kartColVel , k . kartColVel , weightMul ) ;
if ( vec3 . length ( k . vel ) < vec3 . length ( ok . vel ) ) vec3 . add ( k . kartColVel , k . kartColVel , vec3 . sub ( [ ] , ok . vel , k . vel ) ) ;
k . kartColVel [ 1 ] = 0 ;
}
function fixDir ( dir ) {
return posMod ( dir , Math . PI * 2 ) ;
}
function dirDiff ( dir1 , dir2 ) {
var d = fixDir ( dir1 - dir2 ) ;
return ( d > Math . PI ) ? ( - 2 * Math . PI + d ) : d ;
}
function posMod ( i , n ) {
return ( i % n + n ) % n ;
}
function updateKartSound ( mode , input ) {
var turn = ( onGround && ! k . drifting ) ? ( 1 - Math . abs ( input . turn ) / 11 ) : 1 ;
var transpose = ( mode == 0 ) ? 0 : ( 22 * turn * k . speed / params . topSpeed ) ;
sounds . transpose += ( transpose - sounds . transpose ) / 15 ;
if ( mode != soundMode ) {
soundMode = mode ;
if ( sounds . kart != null ) nitroAudio . instaKill ( sounds . kart ) ;
sounds . kart = nitroAudio . playSound ( kartSoundBase + soundMode , { transpose : sounds . transpose , volume : 1 } , 0 , k ) ;
//if (mode == 3) sounds.kart.gainN.gain.value = 0.5;
} else {
sounds . kart . seq . setTranspose ( sounds . transpose ) ;
}
}
function buildBasis ( ) {
//order y, x, z
var dir = k . physicalDir + k . driftOff + ( Math . sin ( ( COLBOUNCE _TIME - k . kartColTimer ) / 3 ) * ( Math . PI / 6 ) * ( k . kartColTimer / COLBOUNCE _TIME ) ) ;
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var forward = [ Math . sin ( dir ) , 0 , - Math . cos ( dir ) ] ;
var side = [ Math . cos ( dir ) , 0 , Math . sin ( dir ) ] ;
if ( k . physBasis != null ) {
vec3 . transformMat4 ( forward , forward , k . physBasis . mat ) ;
vec3 . transformMat4 ( side , side , k . physBasis . mat ) ;
}
var basis = gramShmidt ( k . kartNormal , side , forward ) ;
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var temp = basis [ 0 ] ;
basis [ 0 ] = basis [ 1 ] ;
basis [ 1 ] = temp ; //todo: cleanup
return [
basis [ 0 ] [ 0 ] , basis [ 0 ] [ 1 ] , basis [ 0 ] [ 2 ] , 0 ,
basis [ 1 ] [ 0 ] , basis [ 1 ] [ 1 ] , basis [ 1 ] [ 2 ] , 0 ,
basis [ 2 ] [ 0 ] , basis [ 2 ] [ 1 ] , basis [ 2 ] [ 2 ] , 0 ,
0 , 0 , 0 , 1
]
}
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function enterBasis ( normal ) {
//establish a new basis for the kart velocity based on this normal.
//used by looping and sticky track surface types.
//first let's get the forward direction in our current basis
var dir = k . angle ;
var forward , side ;
if ( k . physBasis != null ) {
forward = vec3 . transformMat4 ( [ ] , [ - Math . sin ( dir ) , 0 , Math . cos ( dir ) ] , k . physBasis . mat ) ;
side = vec3 . transformMat4 ( [ ] , [ Math . cos ( dir ) , 0 , Math . sin ( dir ) ] , k . physBasis . mat ) ;
} else {
forward = [ - Math . sin ( dir ) , 0 , Math . cos ( dir ) ] ;
side = [ Math . cos ( dir ) , 0 , Math . sin ( dir ) ] ;
}
var basis = gramShmidt ( normal , side , forward ) ;
var temp = basis [ 0 ] ;
basis [ 0 ] = basis [ 1 ] ;
basis [ 1 ] = temp ; //todo: cleanup
var m4 = [
basis [ 0 ] [ 0 ] , basis [ 0 ] [ 1 ] , basis [ 0 ] [ 2 ] , 0 ,
basis [ 1 ] [ 0 ] , basis [ 1 ] [ 1 ] , basis [ 1 ] [ 2 ] , 0 ,
basis [ 2 ] [ 0 ] , basis [ 2 ] [ 1 ] , basis [ 2 ] [ 2 ] , 0 ,
0 , 0 , 0 , 1
] ;
k . physicalDir = dirDiff ( k . physicalDir , k . angle ) ;
k . angle = 0 ; //our front direction is now aligned with z.
k . vel = [ Math . sin ( k . angle ) * k . speed , k . vel [ 1 ] , - Math . cos ( k . angle ) * k . speed ] ;
k . physBasis = {
mat : m4 ,
inv : mat4 . invert ( [ ] , m4 ) ,
time : 15 ,
loop : false
} ;
}
function exitBasis ( ) {
//return to a normal y up, z forward basis.
var v = vec3 . transformMat4 ( [ ] , k . vel , k . physBasis . mat ) ;
k . physicalDir = dirDiff ( k . physicalDir , k . angle ) ;
k . angle = Math . atan2 ( v [ 0 ] , - v [ 2 ] ) ;
k . physicalDir += k . angle ;
k . vel = v ;
k . physBasis = null ;
}
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function sndUpdate ( view ) {
k . soundProps . pos = vec3 . transformMat4 ( [ ] , k . pos , view ) ;
if ( k . soundProps . lastPos != null ) k . soundProps . vel = vec3 . sub ( [ ] , k . soundProps . pos , k . soundProps . lastPos ) ;
else k . soundProps . vel = [ 0 , 0 , 0 ] ;
k . soundProps . lastPos = k . soundProps . pos ;
k . soundProps . refDistance = 192 / 1024 ;
k . soundProps . rolloffFactor = 1 ;
var calcVol = ( k . soundProps . refDistance / ( k . soundProps . refDistance + k . soundProps . rolloffFactor * ( Math . sqrt ( vec3 . dot ( k . soundProps . pos , k . soundProps . pos ) ) - k . soundProps . refDistance ) ) ) ;
}
function gramShmidt ( v1 , v2 , v3 ) {
var u1 = v1 ;
var u2 = vec3 . sub ( [ 0 , 0 , 0 ] , v2 , project ( u1 , v2 ) ) ;
var u3 = vec3 . sub ( [ 0 , 0 , 0 ] , vec3 . sub ( [ 0 , 0 , 0 ] , v3 , project ( u1 , v3 ) ) , project ( u2 , v3 ) ) ;
return [ vec3 . normalize ( u1 , u1 ) , vec3 . normalize ( u2 , u2 ) , vec3 . normalize ( u3 , u3 ) ]
}
function colSound ( collision , effect ) {
if ( MKDS _COLTYPE . SOUNDMAP [ collision ] == null ) return { } ;
return MKDS _COLTYPE . SOUNDMAP [ collision ] [ effect ] || { } ;
}
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function colParticle ( collision , effect ) {
if ( MKDS _COLTYPE . SOUNDMAP [ collision ] == null ) return null
return MKDS _COLTYPE . SOUNDMAP [ collision ] [ effect ] . particle || null ;
}
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function project ( u , v ) {
return vec3 . scale ( [ ] , u , ( vec3 . dot ( u , v ) / vec3 . dot ( u , u ) ) )
}
function colResponse ( pos , pvel , dat , ignoreList ) {
var plane = dat . plane ;
var colType = ( plane . CollisionType >> 8 ) & 31 ;
var colBE = ( plane . CollisionType >> 5 ) & 7 ;
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var change = ( colType != lastCollided ) ;
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lastCollided = colType ;
lastBE = colBE ;
lastColSounds = colSound ( lastCollided , colBE ) ;
var n = vec3 . normalize ( [ ] , dat . normal ) ;
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var an = n ;
if ( k . physBasis != null ) {
an = vec3 . transformMat4 ( [ ] , n , k . physBasis . inv ) ;
}
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var gravS = Math . sqrt ( vec3 . dot ( k . gravity , k . gravity ) ) ;
var angle = Math . acos ( vec3 . dot ( vec3 . scale ( vec3 . create ( ) , k . gravity , - 1 / gravS ) , n ) ) ;
var adjustPos = true ;
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if ( colType == MKDS _COLTYPE . OOB || colType == MKDS _COLTYPE . FALL ) {
k . OOB = 1 ;
}
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if ( MKDS _COLTYPE . GROUP _WALL . indexOf ( colType ) != - 1 ) { //wall
//sliding plane, except normal is transformed to be entirely on the xz plane (cannot ride on top of wall, treated as vertical)
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var xz = Math . sqrt ( an [ 0 ] * an [ 0 ] + an [ 2 ] * an [ 2 ] )
var adjN = [ an [ 0 ] / xz , 0 , an [ 2 ] / xz ]
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var proj = vec3 . dot ( k . vel , adjN ) ;
if ( proj < - 1 ) {
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if ( k . kartWallTimer == 0 ) {
if ( lastColSounds . hit != null ) nitroAudio . playSound ( lastColSounds . hit , { volume : 1 } , 0 , k )
var colObj = { pos : pos , vel : [ 0 , 0 , 0 ] , mat : mat4 . fromTranslation ( [ ] , pos ) } ;
scene . particles . push ( new NitroEmitter ( scene , colObj , 13 ) ) ;
scene . particles . push ( new NitroEmitter ( scene , colObj , 14 ) ) ;
}
k . kartWallTimer = 15 ;
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}
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vec3 . sub ( k . vel , k . vel , vec3 . scale ( vec3 . create ( ) , adjN , proj ) ) ;
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//convert back to angle + speed to keep change to kart vel
var v = k . vel ;
k . speed = Math . sqrt ( v [ 0 ] * v [ 0 ] + v [ 2 ] * v [ 2 ] ) ;
k . angle = Math . atan2 ( v [ 0 ] , - v [ 2 ] ) ;
} else if ( MKDS _COLTYPE . GROUP _ROAD . indexOf ( colType ) != - 1 ) {
//sliding plane
if ( MKDS _COLTYPE . GROUP _BOOST . indexOf ( colType ) != - 1 ) {
k . boostNorm = BOOSTTIME ;
}
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var stick = ( colType == MKDS _COLTYPE . STICKY || colType == MKDS _COLTYPE . LOOP ) ;
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if ( k . vel [ 1 ] > 0 ) k . vel [ 1 ] = 0 ;
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var proj = vec3 . dot ( k . vel , an ) ;
if ( ! stick && proj < - 4 && k . vel [ 1 ] < - 2 ) { proj -= 1.5 ; }
vec3 . sub ( k . vel , k . vel , vec3 . scale ( vec3 . create ( ) , an , proj ) ) ;
if ( stick ) {
enterBasis ( dat . pNormal ) ;
k . physBasis . loop = colType == MKDS _COLTYPE . LOOP ;
} else {
if ( k . physBasis != null )
exitBasis ( ) ;
}
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k . kartTargetNormal = dat . pNormal ;
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if ( change ) {
var particle = colParticle ( lastCollided , colBE ) ;
if ( particle == null )
clearWheelParticles ( 0 ) ;
else
setWheelParticles ( particle , 0 ) ;
}
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if ( ! onGround && ! stick ) {
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groundAnim = 0 ;
if ( lastColSounds . land != null ) nitroAudio . playSound ( lastColSounds . land , { volume : 1 } , 0 , k )
}
k . airTime = 0 ;
stuckTo = dat . object ;
} else if ( colType == MKDS _COLTYPE . CANNON ) {
//cannon!!
k . cannon = colBE ;
} else {
adjustPos = false ;
ignoreList . push ( plane ) ;
}
//vec3.add(pos, pos, vec3.scale(vec3.create(), n, minimumMove)); //move away from plane slightly
if ( adjustPos ) { //move back from plane slightly
//vec3.add(pos, pos, vec3.scale(vec3.create(), n, minimumMove));
vec3 . add ( pos , pos , vec3 . scale ( vec3 . create ( ) , pvel , dat . t ) ) ;
vec3 . add ( pos , vec3 . scale ( [ ] , n , params . colRadius + minimumMove ) , dat . colPoint ) ;
/ * i f ( d a t . e m b e d d e d ) {
} else {
var velMag = Math . sqrt ( vec3 . dot ( pvel , pvel ) ) ;
if ( velMag * dat . t > minimumMove ) {
vec3 . add ( pos , pos , vec3 . scale ( vec3 . create ( ) , pvel , dat . t - ( minimumMove / velMag ) ) ) ;
} else {
//do not move, too close
}
} * /
} else {
vec3 . add ( pos , pos , vec3 . scale ( vec3 . create ( ) , pvel , dat . t ) ) ;
}
}
}