Fix a small issue with shadowGenerator.Parse

dist/preview release/babylon.d.ts

@@ -2611,188 +2611,6 @@ declare module BABYLON {
 }
 
 declare module BABYLON {
-    class Analyser {
-        SMOOTHING: number;
-        FFT_SIZE: number;
-        BARGRAPHAMPLITUDE: number;
-        DEBUGCANVASPOS: {
-            x: number;
-            y: number;
-        };
-        DEBUGCANVASSIZE: {
-            width: number;
-            height: number;
-        };
-        private _byteFreqs;
-        private _byteTime;
-        private _floatFreqs;
-        private _webAudioAnalyser;
-        private _debugCanvas;
-        private _debugCanvasContext;
-        private _scene;
-        private _registerFunc;
-        private _audioEngine;
-        constructor(scene: Scene);
-        getFrequencyBinCount(): number;
-        getByteFrequencyData(): Uint8Array;
-        getByteTimeDomainData(): Uint8Array;
-        getFloatFrequencyData(): Uint8Array;
-        drawDebugCanvas(): void;
-        stopDebugCanvas(): void;
-        connectAudioNodes(inputAudioNode: AudioNode, outputAudioNode: AudioNode): void;
-        dispose(): void;
-    }
-}
-
-declare module BABYLON {
-    class AudioEngine {
-        private _audioContext;
-        private _audioContextInitialized;
-        canUseWebAudio: boolean;
-        masterGain: GainNode;
-        private _connectedAnalyser;
-        WarnedWebAudioUnsupported: boolean;
-        unlocked: boolean;
-        onAudioUnlocked: () => any;
-        isMP3supported: boolean;
-        isOGGsupported: boolean;
-        readonly audioContext: AudioContext;
-        constructor();
-        private _unlockiOSaudio();
-        private _initializeAudioContext();
-        dispose(): void;
-        getGlobalVolume(): number;
-        setGlobalVolume(newVolume: number): void;
-        connectToAnalyser(analyser: Analyser): void;
-    }
-}
-
-declare module BABYLON {
-    class Sound {
-        name: string;
-        autoplay: boolean;
-        loop: boolean;
-        useCustomAttenuation: boolean;
-        soundTrackId: number;
-        spatialSound: boolean;
-        refDistance: number;
-        rolloffFactor: number;
-        maxDistance: number;
-        distanceModel: string;
-        private _panningModel;
-        onended: () => any;
-        private _playbackRate;
-        private _streaming;
-        private _startTime;
-        private _startOffset;
-        private _position;
-        private _localDirection;
-        private _volume;
-        private _isLoaded;
-        private _isReadyToPlay;
-        isPlaying: boolean;
-        isPaused: boolean;
-        private _isDirectional;
-        private _readyToPlayCallback;
-        private _audioBuffer;
-        private _soundSource;
-        private _streamingSource;
-        private _soundPanner;
-        private _soundGain;
-        private _inputAudioNode;
-        private _ouputAudioNode;
-        private _coneInnerAngle;
-        private _coneOuterAngle;
-        private _coneOuterGain;
-        private _scene;
-        private _connectedMesh;
-        private _customAttenuationFunction;
-        private _registerFunc;
-        private _isOutputConnected;
-        private _htmlAudioElement;
-        private _urlType;
-        /**
-        * Create a sound and attach it to a scene
-        * @param name Name of your sound
-        * @param urlOrArrayBuffer Url to the sound to load async or ArrayBuffer
-        * @param readyToPlayCallback Provide a callback function if you'd like to load your code once the sound is ready to be played
-        * @param options Objects to provide with the current available options: autoplay, loop, volume, spatialSound, maxDistance, rolloffFactor, refDistance, distanceModel, panningModel, streaming
-        */
-        constructor(name: string, urlOrArrayBuffer: any, scene: Scene, readyToPlayCallback?: () => void, options?: any);
-        dispose(): void;
-        isReady(): boolean;
-        private _soundLoaded(audioData);
-        setAudioBuffer(audioBuffer: AudioBuffer): void;
-        updateOptions(options: any): void;
-        private _createSpatialParameters();
-        private _updateSpatialParameters();
-        switchPanningModelToHRTF(): void;
-        switchPanningModelToEqualPower(): void;
-        private _switchPanningModel();
-        connectToSoundTrackAudioNode(soundTrackAudioNode: AudioNode): void;
-        /**
-        * Transform this sound into a directional source
-        * @param coneInnerAngle Size of the inner cone in degree
-        * @param coneOuterAngle Size of the outer cone in degree
-        * @param coneOuterGain Volume of the sound outside the outer cone (between 0.0 and 1.0)
-        */
-        setDirectionalCone(coneInnerAngle: number, coneOuterAngle: number, coneOuterGain: number): void;
-        setPosition(newPosition: Vector3): void;
-        setLocalDirectionToMesh(newLocalDirection: Vector3): void;
-        private _updateDirection();
-        updateDistanceFromListener(): void;
-        setAttenuationFunction(callback: (currentVolume: number, currentDistance: number, maxDistance: number, refDistance: number, rolloffFactor: number) => number): void;
-        /**
-        * Play the sound
-        * @param time (optional) Start the sound after X seconds. Start immediately (0) by default.
-        * @param offset (optional) Start the sound setting it at a specific time
-        */
-        play(time?: number, offset?: number): void;
-        private _onended();
-        /**
-        * Stop the sound
-        * @param time (optional) Stop the sound after X seconds. Stop immediately (0) by default.
-        */
-        stop(time?: number): void;
-        pause(): void;
-        setVolume(newVolume: number, time?: number): void;
-        setPlaybackRate(newPlaybackRate: number): void;
-        getVolume(): number;
-        attachToMesh(meshToConnectTo: AbstractMesh): void;
-        detachFromMesh(): void;
-        private _onRegisterAfterWorldMatrixUpdate(connectedMesh);
-        clone(): Sound;
-        getAudioBuffer(): AudioBuffer;
-        serialize(): any;
-        static Parse(parsedSound: any, scene: Scene, rootUrl: string, sourceSound?: Sound): Sound;
-    }
-}
-
-declare module BABYLON {
-    class SoundTrack {
-        private _outputAudioNode;
-        private _inputAudioNode;
-        private _trackConvolver;
-        private _scene;
-        id: number;
-        soundCollection: Array<Sound>;
-        private _isMainTrack;
-        private _connectedAnalyser;
-        private _options;
-        private _isInitialized;
-        constructor(scene: Scene, options?: any);
-        private _initializeSoundTrackAudioGraph();
-        dispose(): void;
-        AddSound(sound: Sound): void;
-        RemoveSound(sound: Sound): void;
-        setVolume(newVolume: number): void;
-        switchPanningModelToHRTF(): void;
-        switchPanningModelToEqualPower(): void;
-        connectToAnalyser(analyser: Analyser): void;
-    }
-}
-
-declare module BABYLON {
     class Animatable {
         target: any;
         fromFrame: number;
@@ -3068,6 +2886,188 @@ declare module BABYLON {
 }
 
 declare module BABYLON {
+    class Analyser {
+        SMOOTHING: number;
+        FFT_SIZE: number;
+        BARGRAPHAMPLITUDE: number;
+        DEBUGCANVASPOS: {
+            x: number;
+            y: number;
+        };
+        DEBUGCANVASSIZE: {
+            width: number;
+            height: number;
+        };
+        private _byteFreqs;
+        private _byteTime;
+        private _floatFreqs;
+        private _webAudioAnalyser;
+        private _debugCanvas;
+        private _debugCanvasContext;
+        private _scene;
+        private _registerFunc;
+        private _audioEngine;
+        constructor(scene: Scene);
+        getFrequencyBinCount(): number;
+        getByteFrequencyData(): Uint8Array;
+        getByteTimeDomainData(): Uint8Array;
+        getFloatFrequencyData(): Uint8Array;
+        drawDebugCanvas(): void;
+        stopDebugCanvas(): void;
+        connectAudioNodes(inputAudioNode: AudioNode, outputAudioNode: AudioNode): void;
+        dispose(): void;
+    }
+}
+
+declare module BABYLON {
+    class AudioEngine {
+        private _audioContext;
+        private _audioContextInitialized;
+        canUseWebAudio: boolean;
+        masterGain: GainNode;
+        private _connectedAnalyser;
+        WarnedWebAudioUnsupported: boolean;
+        unlocked: boolean;
+        onAudioUnlocked: () => any;
+        isMP3supported: boolean;
+        isOGGsupported: boolean;
+        readonly audioContext: AudioContext;
+        constructor();
+        private _unlockiOSaudio();
+        private _initializeAudioContext();
+        dispose(): void;
+        getGlobalVolume(): number;
+        setGlobalVolume(newVolume: number): void;
+        connectToAnalyser(analyser: Analyser): void;
+    }
+}
+
+declare module BABYLON {
+    class Sound {
+        name: string;
+        autoplay: boolean;
+        loop: boolean;
+        useCustomAttenuation: boolean;
+        soundTrackId: number;
+        spatialSound: boolean;
+        refDistance: number;
+        rolloffFactor: number;
+        maxDistance: number;
+        distanceModel: string;
+        private _panningModel;
+        onended: () => any;
+        private _playbackRate;
+        private _streaming;
+        private _startTime;
+        private _startOffset;
+        private _position;
+        private _localDirection;
+        private _volume;
+        private _isLoaded;
+        private _isReadyToPlay;
+        isPlaying: boolean;
+        isPaused: boolean;
+        private _isDirectional;
+        private _readyToPlayCallback;
+        private _audioBuffer;
+        private _soundSource;
+        private _streamingSource;
+        private _soundPanner;
+        private _soundGain;
+        private _inputAudioNode;
+        private _ouputAudioNode;
+        private _coneInnerAngle;
+        private _coneOuterAngle;
+        private _coneOuterGain;
+        private _scene;
+        private _connectedMesh;
+        private _customAttenuationFunction;
+        private _registerFunc;
+        private _isOutputConnected;
+        private _htmlAudioElement;
+        private _urlType;
+        /**
+        * Create a sound and attach it to a scene
+        * @param name Name of your sound
+        * @param urlOrArrayBuffer Url to the sound to load async or ArrayBuffer
+        * @param readyToPlayCallback Provide a callback function if you'd like to load your code once the sound is ready to be played
+        * @param options Objects to provide with the current available options: autoplay, loop, volume, spatialSound, maxDistance, rolloffFactor, refDistance, distanceModel, panningModel, streaming
+        */
+        constructor(name: string, urlOrArrayBuffer: any, scene: Scene, readyToPlayCallback?: () => void, options?: any);
+        dispose(): void;
+        isReady(): boolean;
+        private _soundLoaded(audioData);
+        setAudioBuffer(audioBuffer: AudioBuffer): void;
+        updateOptions(options: any): void;
+        private _createSpatialParameters();
+        private _updateSpatialParameters();
+        switchPanningModelToHRTF(): void;
+        switchPanningModelToEqualPower(): void;
+        private _switchPanningModel();
+        connectToSoundTrackAudioNode(soundTrackAudioNode: AudioNode): void;
+        /**
+        * Transform this sound into a directional source
+        * @param coneInnerAngle Size of the inner cone in degree
+        * @param coneOuterAngle Size of the outer cone in degree
+        * @param coneOuterGain Volume of the sound outside the outer cone (between 0.0 and 1.0)
+        */
+        setDirectionalCone(coneInnerAngle: number, coneOuterAngle: number, coneOuterGain: number): void;
+        setPosition(newPosition: Vector3): void;
+        setLocalDirectionToMesh(newLocalDirection: Vector3): void;
+        private _updateDirection();
+        updateDistanceFromListener(): void;
+        setAttenuationFunction(callback: (currentVolume: number, currentDistance: number, maxDistance: number, refDistance: number, rolloffFactor: number) => number): void;
+        /**
+        * Play the sound
+        * @param time (optional) Start the sound after X seconds. Start immediately (0) by default.
+        * @param offset (optional) Start the sound setting it at a specific time
+        */
+        play(time?: number, offset?: number): void;
+        private _onended();
+        /**
+        * Stop the sound
+        * @param time (optional) Stop the sound after X seconds. Stop immediately (0) by default.
+        */
+        stop(time?: number): void;
+        pause(): void;
+        setVolume(newVolume: number, time?: number): void;
+        setPlaybackRate(newPlaybackRate: number): void;
+        getVolume(): number;
+        attachToMesh(meshToConnectTo: AbstractMesh): void;
+        detachFromMesh(): void;
+        private _onRegisterAfterWorldMatrixUpdate(connectedMesh);
+        clone(): Sound;
+        getAudioBuffer(): AudioBuffer;
+        serialize(): any;
+        static Parse(parsedSound: any, scene: Scene, rootUrl: string, sourceSound?: Sound): Sound;
+    }
+}
+
+declare module BABYLON {
+    class SoundTrack {
+        private _outputAudioNode;
+        private _inputAudioNode;
+        private _trackConvolver;
+        private _scene;
+        id: number;
+        soundCollection: Array<Sound>;
+        private _isMainTrack;
+        private _connectedAnalyser;
+        private _options;
+        private _isInitialized;
+        constructor(scene: Scene, options?: any);
+        private _initializeSoundTrackAudioGraph();
+        dispose(): void;
+        AddSound(sound: Sound): void;
+        RemoveSound(sound: Sound): void;
+        setVolume(newVolume: number): void;
+        switchPanningModelToHRTF(): void;
+        switchPanningModelToEqualPower(): void;
+        connectToAnalyser(analyser: Analyser): void;
+    }
+}
+
+declare module BABYLON {
     interface Behavior<T extends Node> {
         name: string;
         attach(node: T): void;
@@ -9273,70 +9273,6 @@ declare module BABYLON {
 }
 
 declare module BABYLON {
-    class MorphTarget {
-        name: string;
-        animations: Animation[];
-        private _positions;
-        private _normals;
-        private _tangents;
-        private _influence;
-        onInfluenceChanged: Observable<boolean>;
-        influence: number;
-        constructor(name: string, influence?: number);
-        readonly hasNormals: boolean;
-        readonly hasTangents: boolean;
-        setPositions(data: Float32Array | number[]): void;
-        getPositions(): Float32Array;
-        setNormals(data: Float32Array | number[]): void;
-        getNormals(): Float32Array;
-        setTangents(data: Float32Array | number[]): void;
-        getTangents(): Float32Array;
-        /**
-         * Serializes the current target into a Serialization object.
-         * Returns the serialized object.
-         */
-        serialize(): any;
-        static Parse(serializationObject: any): MorphTarget;
-        static FromMesh(mesh: AbstractMesh, name?: string, influence?: number): MorphTarget;
-    }
-}
-
-declare module BABYLON {
-    class MorphTargetManager {
-        private _targets;
-        private _targetObservable;
-        private _activeTargets;
-        private _scene;
-        private _influences;
-        private _supportsNormals;
-        private _supportsTangents;
-        private _vertexCount;
-        private _uniqueId;
-        private _tempInfluences;
-        constructor(scene?: Scene);
-        readonly uniqueId: number;
-        readonly vertexCount: number;
-        readonly supportsNormals: boolean;
-        readonly supportsTangents: boolean;
-        readonly numTargets: number;
-        readonly numInfluencers: number;
-        readonly influences: Float32Array;
-        getActiveTarget(index: number): MorphTarget;
-        getTarget(index: number): MorphTarget;
-        addTarget(target: MorphTarget): void;
-        removeTarget(target: MorphTarget): void;
-        /**
-         * Serializes the current manager into a Serialization object.
-         * Returns the serialized object.
-         */
-        serialize(): any;
-        private _onInfluenceChanged(needUpdate);
-        private _syncActiveTargets(needUpdate);
-        static Parse(serializationObject: any, scene: Scene): MorphTargetManager;
-    }
-}
-
-declare module BABYLON {
     class AbstractMesh extends Node implements IDisposable, ICullable, IGetSetVerticesData {
         private static _BILLBOARDMODE_NONE;
         private static _BILLBOARDMODE_X;
@@ -12763,6 +12699,70 @@ declare module BABYLON {
 }
 
 declare module BABYLON {
+    class MorphTarget {
+        name: string;
+        animations: Animation[];
+        private _positions;
+        private _normals;
+        private _tangents;
+        private _influence;
+        onInfluenceChanged: Observable<boolean>;
+        influence: number;
+        constructor(name: string, influence?: number);
+        readonly hasNormals: boolean;
+        readonly hasTangents: boolean;
+        setPositions(data: Float32Array | number[]): void;
+        getPositions(): Float32Array;
+        setNormals(data: Float32Array | number[]): void;
+        getNormals(): Float32Array;
+        setTangents(data: Float32Array | number[]): void;
+        getTangents(): Float32Array;
+        /**
+         * Serializes the current target into a Serialization object.
+         * Returns the serialized object.
+         */
+        serialize(): any;
+        static Parse(serializationObject: any): MorphTarget;
+        static FromMesh(mesh: AbstractMesh, name?: string, influence?: number): MorphTarget;
+    }
+}
+
+declare module BABYLON {
+    class MorphTargetManager {
+        private _targets;
+        private _targetObservable;
+        private _activeTargets;
+        private _scene;
+        private _influences;
+        private _supportsNormals;
+        private _supportsTangents;
+        private _vertexCount;
+        private _uniqueId;
+        private _tempInfluences;
+        constructor(scene?: Scene);
+        readonly uniqueId: number;
+        readonly vertexCount: number;
+        readonly supportsNormals: boolean;
+        readonly supportsTangents: boolean;
+        readonly numTargets: number;
+        readonly numInfluencers: number;
+        readonly influences: Float32Array;
+        getActiveTarget(index: number): MorphTarget;
+        getTarget(index: number): MorphTarget;
+        addTarget(target: MorphTarget): void;
+        removeTarget(target: MorphTarget): void;
+        /**
+         * Serializes the current manager into a Serialization object.
+         * Returns the serialized object.
+         */
+        serialize(): any;
+        private _onInfluenceChanged(needUpdate);
+        private _syncActiveTargets(needUpdate);
+        static Parse(serializationObject: any, scene: Scene): MorphTargetManager;
+    }
+}
+
+declare module BABYLON {
     class GPUParticleSystem implements IDisposable, IParticleSystem {
         name: string;
         id: string;

dist/preview release/babylon.max.js

@@ -49008,7 +49008,7 @@ var BABYLON;
             else if (parsedShadowGenerator.useCloseExponentialShadowMap) {
                 shadowGenerator.useCloseExponentialShadowMap = true;
             }
-            else if (parsedShadowGenerator.useBlurExponentialShadowMap) {
+            else if (parsedShadowGenerator.useBlurCloseExponentialShadowMap) {
                 shadowGenerator.useBlurCloseExponentialShadowMap = true;
             }
             else if (parsedShadowGenerator.useVarianceShadowMap) {

dist/preview release/babylon.module.d.ts

@@ -2616,188 +2616,6 @@ declare module BABYLON {
 }
 
 declare module BABYLON {
-    class Analyser {
-        SMOOTHING: number;
-        FFT_SIZE: number;
-        BARGRAPHAMPLITUDE: number;
-        DEBUGCANVASPOS: {
-            x: number;
-            y: number;
-        };
-        DEBUGCANVASSIZE: {
-            width: number;
-            height: number;
-        };
-        private _byteFreqs;
-        private _byteTime;
-        private _floatFreqs;
-        private _webAudioAnalyser;
-        private _debugCanvas;
-        private _debugCanvasContext;
-        private _scene;
-        private _registerFunc;
-        private _audioEngine;
-        constructor(scene: Scene);
-        getFrequencyBinCount(): number;
-        getByteFrequencyData(): Uint8Array;
-        getByteTimeDomainData(): Uint8Array;
-        getFloatFrequencyData(): Uint8Array;
-        drawDebugCanvas(): void;
-        stopDebugCanvas(): void;
-        connectAudioNodes(inputAudioNode: AudioNode, outputAudioNode: AudioNode): void;
-        dispose(): void;
-    }
-}
-
-declare module BABYLON {
-    class AudioEngine {
-        private _audioContext;
-        private _audioContextInitialized;
-        canUseWebAudio: boolean;
-        masterGain: GainNode;
-        private _connectedAnalyser;
-        WarnedWebAudioUnsupported: boolean;
-        unlocked: boolean;
-        onAudioUnlocked: () => any;
-        isMP3supported: boolean;
-        isOGGsupported: boolean;
-        readonly audioContext: AudioContext;
-        constructor();
-        private _unlockiOSaudio();
-        private _initializeAudioContext();
-        dispose(): void;
-        getGlobalVolume(): number;
-        setGlobalVolume(newVolume: number): void;
-        connectToAnalyser(analyser: Analyser): void;
-    }
-}
-
-declare module BABYLON {
-    class Sound {
-        name: string;
-        autoplay: boolean;
-        loop: boolean;
-        useCustomAttenuation: boolean;
-        soundTrackId: number;
-        spatialSound: boolean;
-        refDistance: number;
-        rolloffFactor: number;
-        maxDistance: number;
-        distanceModel: string;
-        private _panningModel;
-        onended: () => any;
-        private _playbackRate;
-        private _streaming;
-        private _startTime;
-        private _startOffset;
-        private _position;
-        private _localDirection;
-        private _volume;
-        private _isLoaded;
-        private _isReadyToPlay;
-        isPlaying: boolean;
-        isPaused: boolean;
-        private _isDirectional;
-        private _readyToPlayCallback;
-        private _audioBuffer;
-        private _soundSource;
-        private _streamingSource;
-        private _soundPanner;
-        private _soundGain;
-        private _inputAudioNode;
-        private _ouputAudioNode;
-        private _coneInnerAngle;
-        private _coneOuterAngle;
-        private _coneOuterGain;
-        private _scene;
-        private _connectedMesh;
-        private _customAttenuationFunction;
-        private _registerFunc;
-        private _isOutputConnected;
-        private _htmlAudioElement;
-        private _urlType;
-        /**
-        * Create a sound and attach it to a scene
-        * @param name Name of your sound
-        * @param urlOrArrayBuffer Url to the sound to load async or ArrayBuffer
-        * @param readyToPlayCallback Provide a callback function if you'd like to load your code once the sound is ready to be played
-        * @param options Objects to provide with the current available options: autoplay, loop, volume, spatialSound, maxDistance, rolloffFactor, refDistance, distanceModel, panningModel, streaming
-        */
-        constructor(name: string, urlOrArrayBuffer: any, scene: Scene, readyToPlayCallback?: () => void, options?: any);
-        dispose(): void;
-        isReady(): boolean;
-        private _soundLoaded(audioData);
-        setAudioBuffer(audioBuffer: AudioBuffer): void;
-        updateOptions(options: any): void;
-        private _createSpatialParameters();
-        private _updateSpatialParameters();
-        switchPanningModelToHRTF(): void;
-        switchPanningModelToEqualPower(): void;
-        private _switchPanningModel();
-        connectToSoundTrackAudioNode(soundTrackAudioNode: AudioNode): void;
-        /**
-        * Transform this sound into a directional source
-        * @param coneInnerAngle Size of the inner cone in degree
-        * @param coneOuterAngle Size of the outer cone in degree
-        * @param coneOuterGain Volume of the sound outside the outer cone (between 0.0 and 1.0)
-        */
-        setDirectionalCone(coneInnerAngle: number, coneOuterAngle: number, coneOuterGain: number): void;
-        setPosition(newPosition: Vector3): void;
-        setLocalDirectionToMesh(newLocalDirection: Vector3): void;
-        private _updateDirection();
-        updateDistanceFromListener(): void;
-        setAttenuationFunction(callback: (currentVolume: number, currentDistance: number, maxDistance: number, refDistance: number, rolloffFactor: number) => number): void;
-        /**
-        * Play the sound
-        * @param time (optional) Start the sound after X seconds. Start immediately (0) by default.
-        * @param offset (optional) Start the sound setting it at a specific time
-        */
-        play(time?: number, offset?: number): void;
-        private _onended();
-        /**
-        * Stop the sound
-        * @param time (optional) Stop the sound after X seconds. Stop immediately (0) by default.
-        */
-        stop(time?: number): void;
-        pause(): void;
-        setVolume(newVolume: number, time?: number): void;
-        setPlaybackRate(newPlaybackRate: number): void;
-        getVolume(): number;
-        attachToMesh(meshToConnectTo: AbstractMesh): void;
-        detachFromMesh(): void;
-        private _onRegisterAfterWorldMatrixUpdate(connectedMesh);
-        clone(): Sound;
-        getAudioBuffer(): AudioBuffer;
-        serialize(): any;
-        static Parse(parsedSound: any, scene: Scene, rootUrl: string, sourceSound?: Sound): Sound;
-    }
-}
-
-declare module BABYLON {
-    class SoundTrack {
-        private _outputAudioNode;
-        private _inputAudioNode;
-        private _trackConvolver;
-        private _scene;
-        id: number;
-        soundCollection: Array<Sound>;
-        private _isMainTrack;
-        private _connectedAnalyser;
-        private _options;
-        private _isInitialized;
-        constructor(scene: Scene, options?: any);
-        private _initializeSoundTrackAudioGraph();
-        dispose(): void;
-        AddSound(sound: Sound): void;
-        RemoveSound(sound: Sound): void;
-        setVolume(newVolume: number): void;
-        switchPanningModelToHRTF(): void;
-        switchPanningModelToEqualPower(): void;
-        connectToAnalyser(analyser: Analyser): void;
-    }
-}
-
-declare module BABYLON {
     class Animatable {
         target: any;
         fromFrame: number;
@@ -3073,6 +2891,188 @@ declare module BABYLON {
 }
 
 declare module BABYLON {
+    class Analyser {
+        SMOOTHING: number;
+        FFT_SIZE: number;
+        BARGRAPHAMPLITUDE: number;
+        DEBUGCANVASPOS: {
+            x: number;
+            y: number;
+        };
+        DEBUGCANVASSIZE: {
+            width: number;
+            height: number;
+        };
+        private _byteFreqs;
+        private _byteTime;
+        private _floatFreqs;
+        private _webAudioAnalyser;
+        private _debugCanvas;
+        private _debugCanvasContext;
+        private _scene;
+        private _registerFunc;
+        private _audioEngine;
+        constructor(scene: Scene);
+        getFrequencyBinCount(): number;
+        getByteFrequencyData(): Uint8Array;
+        getByteTimeDomainData(): Uint8Array;
+        getFloatFrequencyData(): Uint8Array;
+        drawDebugCanvas(): void;
+        stopDebugCanvas(): void;
+        connectAudioNodes(inputAudioNode: AudioNode, outputAudioNode: AudioNode): void;
+        dispose(): void;
+    }
+}
+
+declare module BABYLON {
+    class AudioEngine {
+        private _audioContext;
+        private _audioContextInitialized;
+        canUseWebAudio: boolean;
+        masterGain: GainNode;
+        private _connectedAnalyser;
+        WarnedWebAudioUnsupported: boolean;
+        unlocked: boolean;
+        onAudioUnlocked: () => any;
+        isMP3supported: boolean;
+        isOGGsupported: boolean;
+        readonly audioContext: AudioContext;
+        constructor();
+        private _unlockiOSaudio();
+        private _initializeAudioContext();
+        dispose(): void;
+        getGlobalVolume(): number;
+        setGlobalVolume(newVolume: number): void;
+        connectToAnalyser(analyser: Analyser): void;
+    }
+}
+
+declare module BABYLON {
+    class Sound {
+        name: string;
+        autoplay: boolean;
+        loop: boolean;
+        useCustomAttenuation: boolean;
+        soundTrackId: number;
+        spatialSound: boolean;
+        refDistance: number;
+        rolloffFactor: number;
+        maxDistance: number;
+        distanceModel: string;
+        private _panningModel;
+        onended: () => any;
+        private _playbackRate;
+        private _streaming;
+        private _startTime;
+        private _startOffset;
+        private _position;
+        private _localDirection;
+        private _volume;
+        private _isLoaded;
+        private _isReadyToPlay;
+        isPlaying: boolean;
+        isPaused: boolean;
+        private _isDirectional;
+        private _readyToPlayCallback;
+        private _audioBuffer;
+        private _soundSource;
+        private _streamingSource;
+        private _soundPanner;
+        private _soundGain;
+        private _inputAudioNode;
+        private _ouputAudioNode;
+        private _coneInnerAngle;
+        private _coneOuterAngle;
+        private _coneOuterGain;
+        private _scene;
+        private _connectedMesh;
+        private _customAttenuationFunction;
+        private _registerFunc;
+        private _isOutputConnected;
+        private _htmlAudioElement;
+        private _urlType;
+        /**
+        * Create a sound and attach it to a scene
+        * @param name Name of your sound
+        * @param urlOrArrayBuffer Url to the sound to load async or ArrayBuffer
+        * @param readyToPlayCallback Provide a callback function if you'd like to load your code once the sound is ready to be played
+        * @param options Objects to provide with the current available options: autoplay, loop, volume, spatialSound, maxDistance, rolloffFactor, refDistance, distanceModel, panningModel, streaming
+        */
+        constructor(name: string, urlOrArrayBuffer: any, scene: Scene, readyToPlayCallback?: () => void, options?: any);
+        dispose(): void;
+        isReady(): boolean;
+        private _soundLoaded(audioData);
+        setAudioBuffer(audioBuffer: AudioBuffer): void;
+        updateOptions(options: any): void;
+        private _createSpatialParameters();
+        private _updateSpatialParameters();
+        switchPanningModelToHRTF(): void;
+        switchPanningModelToEqualPower(): void;
+        private _switchPanningModel();
+        connectToSoundTrackAudioNode(soundTrackAudioNode: AudioNode): void;
+        /**
+        * Transform this sound into a directional source
+        * @param coneInnerAngle Size of the inner cone in degree
+        * @param coneOuterAngle Size of the outer cone in degree
+        * @param coneOuterGain Volume of the sound outside the outer cone (between 0.0 and 1.0)
+        */
+        setDirectionalCone(coneInnerAngle: number, coneOuterAngle: number, coneOuterGain: number): void;
+        setPosition(newPosition: Vector3): void;
+        setLocalDirectionToMesh(newLocalDirection: Vector3): void;
+        private _updateDirection();
+        updateDistanceFromListener(): void;
+        setAttenuationFunction(callback: (currentVolume: number, currentDistance: number, maxDistance: number, refDistance: number, rolloffFactor: number) => number): void;
+        /**
+        * Play the sound
+        * @param time (optional) Start the sound after X seconds. Start immediately (0) by default.
+        * @param offset (optional) Start the sound setting it at a specific time
+        */
+        play(time?: number, offset?: number): void;
+        private _onended();
+        /**
+        * Stop the sound
+        * @param time (optional) Stop the sound after X seconds. Stop immediately (0) by default.
+        */
+        stop(time?: number): void;
+        pause(): void;
+        setVolume(newVolume: number, time?: number): void;
+        setPlaybackRate(newPlaybackRate: number): void;
+        getVolume(): number;
+        attachToMesh(meshToConnectTo: AbstractMesh): void;
+        detachFromMesh(): void;
+        private _onRegisterAfterWorldMatrixUpdate(connectedMesh);
+        clone(): Sound;
+        getAudioBuffer(): AudioBuffer;
+        serialize(): any;
+        static Parse(parsedSound: any, scene: Scene, rootUrl: string, sourceSound?: Sound): Sound;
+    }
+}
+
+declare module BABYLON {
+    class SoundTrack {
+        private _outputAudioNode;
+        private _inputAudioNode;
+        private _trackConvolver;
+        private _scene;
+        id: number;
+        soundCollection: Array<Sound>;
+        private _isMainTrack;
+        private _connectedAnalyser;
+        private _options;
+        private _isInitialized;
+        constructor(scene: Scene, options?: any);
+        private _initializeSoundTrackAudioGraph();
+        dispose(): void;
+        AddSound(sound: Sound): void;
+        RemoveSound(sound: Sound): void;
+        setVolume(newVolume: number): void;
+        switchPanningModelToHRTF(): void;
+        switchPanningModelToEqualPower(): void;
+        connectToAnalyser(analyser: Analyser): void;
+    }
+}
+
+declare module BABYLON {
     interface Behavior<T extends Node> {
         name: string;
         attach(node: T): void;
@@ -9278,70 +9278,6 @@ declare module BABYLON {
 }
 
 declare module BABYLON {
-    class MorphTarget {
-        name: string;
-        animations: Animation[];
-        private _positions;
-        private _normals;
-        private _tangents;
-        private _influence;
-        onInfluenceChanged: Observable<boolean>;
-        influence: number;
-        constructor(name: string, influence?: number);
-        readonly hasNormals: boolean;
-        readonly hasTangents: boolean;
-        setPositions(data: Float32Array | number[]): void;
-        getPositions(): Float32Array;
-        setNormals(data: Float32Array | number[]): void;
-        getNormals(): Float32Array;
-        setTangents(data: Float32Array | number[]): void;
-        getTangents(): Float32Array;
-        /**
-         * Serializes the current target into a Serialization object.
-         * Returns the serialized object.
-         */
-        serialize(): any;
-        static Parse(serializationObject: any): MorphTarget;
-        static FromMesh(mesh: AbstractMesh, name?: string, influence?: number): MorphTarget;
-    }
-}
-
-declare module BABYLON {
-    class MorphTargetManager {
-        private _targets;
-        private _targetObservable;
-        private _activeTargets;
-        private _scene;
-        private _influences;
-        private _supportsNormals;
-        private _supportsTangents;
-        private _vertexCount;
-        private _uniqueId;
-        private _tempInfluences;
-        constructor(scene?: Scene);
-        readonly uniqueId: number;
-        readonly vertexCount: number;
-        readonly supportsNormals: boolean;
-        readonly supportsTangents: boolean;
-        readonly numTargets: number;
-        readonly numInfluencers: number;
-        readonly influences: Float32Array;
-        getActiveTarget(index: number): MorphTarget;
-        getTarget(index: number): MorphTarget;
-        addTarget(target: MorphTarget): void;
-        removeTarget(target: MorphTarget): void;
-        /**
-         * Serializes the current manager into a Serialization object.
-         * Returns the serialized object.
-         */
-        serialize(): any;
-        private _onInfluenceChanged(needUpdate);
-        private _syncActiveTargets(needUpdate);
-        static Parse(serializationObject: any, scene: Scene): MorphTargetManager;
-    }
-}
-
-declare module BABYLON {
     class AbstractMesh extends Node implements IDisposable, ICullable, IGetSetVerticesData {
         private static _BILLBOARDMODE_NONE;
         private static _BILLBOARDMODE_X;
@@ -12768,6 +12704,70 @@ declare module BABYLON {
 }
 
 declare module BABYLON {
+    class MorphTarget {
+        name: string;
+        animations: Animation[];
+        private _positions;
+        private _normals;
+        private _tangents;
+        private _influence;
+        onInfluenceChanged: Observable<boolean>;
+        influence: number;
+        constructor(name: string, influence?: number);
+        readonly hasNormals: boolean;
+        readonly hasTangents: boolean;
+        setPositions(data: Float32Array | number[]): void;
+        getPositions(): Float32Array;
+        setNormals(data: Float32Array | number[]): void;
+        getNormals(): Float32Array;
+        setTangents(data: Float32Array | number[]): void;
+        getTangents(): Float32Array;
+        /**
+         * Serializes the current target into a Serialization object.
+         * Returns the serialized object.
+         */
+        serialize(): any;
+        static Parse(serializationObject: any): MorphTarget;
+        static FromMesh(mesh: AbstractMesh, name?: string, influence?: number): MorphTarget;
+    }
+}
+
+declare module BABYLON {
+    class MorphTargetManager {
+        private _targets;
+        private _targetObservable;
+        private _activeTargets;
+        private _scene;
+        private _influences;
+        private _supportsNormals;
+        private _supportsTangents;
+        private _vertexCount;
+        private _uniqueId;
+        private _tempInfluences;
+        constructor(scene?: Scene);
+        readonly uniqueId: number;
+        readonly vertexCount: number;
+        readonly supportsNormals: boolean;
+        readonly supportsTangents: boolean;
+        readonly numTargets: number;
+        readonly numInfluencers: number;
+        readonly influences: Float32Array;
+        getActiveTarget(index: number): MorphTarget;
+        getTarget(index: number): MorphTarget;
+        addTarget(target: MorphTarget): void;
+        removeTarget(target: MorphTarget): void;
+        /**
+         * Serializes the current manager into a Serialization object.
+         * Returns the serialized object.
+         */
+        serialize(): any;
+        private _onInfluenceChanged(needUpdate);
+        private _syncActiveTargets(needUpdate);
+        static Parse(serializationObject: any, scene: Scene): MorphTargetManager;
+    }
+}
+
+declare module BABYLON {
     class GPUParticleSystem implements IDisposable, IParticleSystem {
         name: string;
         id: string;

dist/preview release/customConfigurations/minimalGLTFViewer/babylon.d.ts

@@ -3557,249 +3557,6 @@ declare module BABYLON {
 }
 
 declare module BABYLON {
-    class Collider {
-        radius: Vector3;
-        retry: number;
-        velocity: Vector3;
-        basePoint: Vector3;
-        epsilon: number;
-        collisionFound: boolean;
-        velocityWorldLength: number;
-        basePointWorld: Vector3;
-        velocityWorld: Vector3;
-        normalizedVelocity: Vector3;
-        initialVelocity: Vector3;
-        initialPosition: Vector3;
-        nearestDistance: number;
-        intersectionPoint: Vector3;
-        collidedMesh: AbstractMesh;
-        private _collisionPoint;
-        private _planeIntersectionPoint;
-        private _tempVector;
-        private _tempVector2;
-        private _tempVector3;
-        private _tempVector4;
-        private _edge;
-        private _baseToVertex;
-        private _destinationPoint;
-        private _slidePlaneNormal;
-        private _displacementVector;
-        private _collisionMask;
-        collisionMask: number;
-        _initialize(source: Vector3, dir: Vector3, e: number): void;
-        _checkPointInTriangle(point: Vector3, pa: Vector3, pb: Vector3, pc: Vector3, n: Vector3): boolean;
-        _canDoCollision(sphereCenter: Vector3, sphereRadius: number, vecMin: Vector3, vecMax: Vector3): boolean;
-        _testTriangle(faceIndex: number, trianglePlaneArray: Array<Plane>, p1: Vector3, p2: Vector3, p3: Vector3, hasMaterial: boolean): void;
-        _collide(trianglePlaneArray: Array<Plane>, pts: Vector3[], indices: IndicesArray, indexStart: number, indexEnd: number, decal: number, hasMaterial: boolean): void;
-        _getResponse(pos: Vector3, vel: Vector3): void;
-    }
-}
-
-declare module BABYLON {
-    var CollisionWorker: string;
-    interface ICollisionCoordinator {
-        getNewPosition(position: Vector3, displacement: Vector3, collider: Collider, maximumRetry: number, excludedMesh: AbstractMesh, onNewPosition: (collisionIndex: number, newPosition: Vector3, collidedMesh?: AbstractMesh) => void, collisionIndex: number): void;
-        init(scene: Scene): void;
-        destroy(): void;
-        onMeshAdded(mesh: AbstractMesh): any;
-        onMeshUpdated(mesh: AbstractMesh): any;
-        onMeshRemoved(mesh: AbstractMesh): any;
-        onGeometryAdded(geometry: Geometry): any;
-        onGeometryUpdated(geometry: Geometry): any;
-        onGeometryDeleted(geometry: Geometry): any;
-    }
-    interface SerializedMesh {
-        id: string;
-        name: string;
-        uniqueId: number;
-        geometryId: string;
-        sphereCenter: Array<number>;
-        sphereRadius: number;
-        boxMinimum: Array<number>;
-        boxMaximum: Array<number>;
-        worldMatrixFromCache: any;
-        subMeshes: Array<SerializedSubMesh>;
-        checkCollisions: boolean;
-    }
-    interface SerializedSubMesh {
-        position: number;
-        verticesStart: number;
-        verticesCount: number;
-        indexStart: number;
-        indexCount: number;
-        hasMaterial: boolean;
-        sphereCenter: Array<number>;
-        sphereRadius: number;
-        boxMinimum: Array<number>;
-        boxMaximum: Array<number>;
-    }
-    interface SerializedGeometry {
-        id: string;
-        positions: Float32Array;
-        indices: Uint32Array;
-        normals: Float32Array;
-    }
-    interface BabylonMessage {
-        taskType: WorkerTaskType;
-        payload: InitPayload | CollidePayload | UpdatePayload;
-    }
-    interface SerializedColliderToWorker {
-        position: Array<number>;
-        velocity: Array<number>;
-        radius: Array<number>;
-    }
-    enum WorkerTaskType {
-        INIT = 0,
-        UPDATE = 1,
-        COLLIDE = 2,
-    }
-    interface WorkerReply {
-        error: WorkerReplyType;
-        taskType: WorkerTaskType;
-        payload?: any;
-    }
-    interface CollisionReplyPayload {
-        newPosition: Array<number>;
-        collisionId: number;
-        collidedMeshUniqueId: number;
-    }
-    interface InitPayload {
-    }
-    interface CollidePayload {
-        collisionId: number;
-        collider: SerializedColliderToWorker;
-        maximumRetry: number;
-        excludedMeshUniqueId?: number;
-    }
-    interface UpdatePayload {
-        updatedMeshes: {
-            [n: number]: SerializedMesh;
-        };
-        updatedGeometries: {
-            [s: string]: SerializedGeometry;
-        };
-        removedMeshes: Array<number>;
-        removedGeometries: Array<string>;
-    }
-    enum WorkerReplyType {
-        SUCCESS = 0,
-        UNKNOWN_ERROR = 1,
-    }
-    class CollisionCoordinatorWorker implements ICollisionCoordinator {
-        private _scene;
-        private _scaledPosition;
-        private _scaledVelocity;
-        private _collisionsCallbackArray;
-        private _init;
-        private _runningUpdated;
-        private _runningCollisionTask;
-        private _worker;
-        private _addUpdateMeshesList;
-        private _addUpdateGeometriesList;
-        private _toRemoveMeshesArray;
-        private _toRemoveGeometryArray;
-        constructor();
-        static SerializeMesh: (mesh: AbstractMesh) => SerializedMesh;
-        static SerializeGeometry: (geometry: Geometry) => SerializedGeometry;
-        getNewPosition(position: Vector3, displacement: Vector3, collider: Collider, maximumRetry: number, excludedMesh: AbstractMesh, onNewPosition: (collisionIndex: number, newPosition: Vector3, collidedMesh?: AbstractMesh) => void, collisionIndex: number): void;
-        init(scene: Scene): void;
-        destroy(): void;
-        onMeshAdded(mesh: AbstractMesh): void;
-        onMeshUpdated: (mesh: AbstractMesh) => void;
-        onMeshRemoved(mesh: AbstractMesh): void;
-        onGeometryAdded(geometry: Geometry): void;
-        onGeometryUpdated: (geometry: Geometry) => void;
-        onGeometryDeleted(geometry: Geometry): void;
-        private _afterRender;
-        private _onMessageFromWorker;
-    }
-    class CollisionCoordinatorLegacy implements ICollisionCoordinator {
-        private _scene;
-        private _scaledPosition;
-        private _scaledVelocity;
-        private _finalPosition;
-        getNewPosition(position: Vector3, displacement: Vector3, collider: Collider, maximumRetry: number, excludedMesh: AbstractMesh, onNewPosition: (collisionIndex: number, newPosition: Vector3, collidedMesh?: AbstractMesh) => void, collisionIndex: number): void;
-        init(scene: Scene): void;
-        destroy(): void;
-        onMeshAdded(mesh: AbstractMesh): void;
-        onMeshUpdated(mesh: AbstractMesh): void;
-        onMeshRemoved(mesh: AbstractMesh): void;
-        onGeometryAdded(geometry: Geometry): void;
-        onGeometryUpdated(geometry: Geometry): void;
-        onGeometryDeleted(geometry: Geometry): void;
-        private _collideWithWorld(position, velocity, collider, maximumRetry, finalPosition, excludedMesh?);
-    }
-}
-
-declare module BABYLON {
-    var WorkerIncluded: boolean;
-    class CollisionCache {
-        private _meshes;
-        private _geometries;
-        getMeshes(): {
-            [n: number]: SerializedMesh;
-        };
-        getGeometries(): {
-            [s: number]: SerializedGeometry;
-        };
-        getMesh(id: any): SerializedMesh;
-        addMesh(mesh: SerializedMesh): void;
-        removeMesh(uniqueId: number): void;
-        getGeometry(id: string): SerializedGeometry;
-        addGeometry(geometry: SerializedGeometry): void;
-        removeGeometry(id: string): void;
-    }
-    class CollideWorker {
-        collider: Collider;
-        private _collisionCache;
-        private finalPosition;
-        private collisionsScalingMatrix;
-        private collisionTranformationMatrix;
-        constructor(collider: Collider, _collisionCache: CollisionCache, finalPosition: Vector3);
-        collideWithWorld(position: Vector3, velocity: Vector3, maximumRetry: number, excludedMeshUniqueId?: number): void;
-        private checkCollision(mesh);
-        private processCollisionsForSubMeshes(transformMatrix, mesh);
-        private collideForSubMesh(subMesh, transformMatrix, meshGeometry);
-        private checkSubmeshCollision(subMesh);
-    }
-    interface ICollisionDetector {
-        onInit(payload: InitPayload): void;
-        onUpdate(payload: UpdatePayload): void;
-        onCollision(payload: CollidePayload): void;
-    }
-    class CollisionDetectorTransferable implements ICollisionDetector {
-        private _collisionCache;
-        onInit(payload: InitPayload): void;
-        onUpdate(payload: UpdatePayload): void;
-        onCollision(payload: CollidePayload): void;
-    }
-}
-
-declare module BABYLON {
-    class IntersectionInfo {
-        bu: number;
-        bv: number;
-        distance: number;
-        faceId: number;
-        subMeshId: number;
-        constructor(bu: number, bv: number, distance: number);
-    }
-    class PickingInfo {
-        hit: boolean;
-        distance: number;
-        pickedPoint: Vector3;
-        pickedMesh: AbstractMesh;
-        bu: number;
-        bv: number;
-        faceId: number;
-        subMeshId: number;
-        pickedSprite: Sprite;
-        getNormal(useWorldCoordinates?: boolean, useVerticesNormals?: boolean): Vector3;
-        getTextureCoordinates(): Vector2;
-    }
-}
-
-declare module BABYLON {
     class ArcRotateCamera extends TargetCamera {
         alpha: number;
         beta: number;
@@ -4326,65 +4083,120 @@ declare module BABYLON {
 }
 
 declare module BABYLON {
-    class KeyboardEventTypes {
-        static _KEYDOWN: number;
-        static _KEYUP: number;
-        static readonly KEYDOWN: number;
-        static readonly KEYUP: number;
-    }
-    class KeyboardInfo {
-        type: number;
-        event: KeyboardEvent;
-        constructor(type: number, event: KeyboardEvent);
-    }
-    /**
-     * This class is used to store keyboard related info for the onPreKeyboardObservable event.
-     * Set the skipOnKeyboardObservable property to true if you want the engine to stop any process after this event is triggered, even not calling onKeyboardObservable
-     */
-    class KeyboardInfoPre extends KeyboardInfo {
-        constructor(type: number, event: KeyboardEvent);
-        skipOnPointerObservable: boolean;
+    class BoundingBox implements ICullable {
+        minimum: Vector3;
+        maximum: Vector3;
+        vectors: Vector3[];
+        center: Vector3;
+        centerWorld: Vector3;
+        extendSize: Vector3;
+        extendSizeWorld: Vector3;
+        directions: Vector3[];
+        vectorsWorld: Vector3[];
+        minimumWorld: Vector3;
+        maximumWorld: Vector3;
+        private _worldMatrix;
+        constructor(minimum: Vector3, maximum: Vector3);
+        getWorldMatrix(): Matrix;
+        setWorldMatrix(matrix: Matrix): BoundingBox;
+        _update(world: Matrix): void;
+        isInFrustum(frustumPlanes: Plane[]): boolean;
+        isCompletelyInFrustum(frustumPlanes: Plane[]): boolean;
+        intersectsPoint(point: Vector3): boolean;
+        intersectsSphere(sphere: BoundingSphere): boolean;
+        intersectsMinMax(min: Vector3, max: Vector3): boolean;
+        static Intersects(box0: BoundingBox, box1: BoundingBox): boolean;
+        static IntersectsSphere(minPoint: Vector3, maxPoint: Vector3, sphereCenter: Vector3, sphereRadius: number): boolean;
+        static IsCompletelyInFrustum(boundingVectors: Vector3[], frustumPlanes: Plane[]): boolean;
+        static IsInFrustum(boundingVectors: Vector3[], frustumPlanes: Plane[]): boolean;
     }
 }
 
 declare module BABYLON {
-    class PointerEventTypes {
-        static _POINTERDOWN: number;
-        static _POINTERUP: number;
-        static _POINTERMOVE: number;
-        static _POINTERWHEEL: number;
-        static _POINTERPICK: number;
-        static _POINTERTAP: number;
-        static _POINTERDOUBLETAP: number;
-        static readonly POINTERDOWN: number;
-        static readonly POINTERUP: number;
-        static readonly POINTERMOVE: number;
-        static readonly POINTERWHEEL: number;
-        static readonly POINTERPICK: number;
-        static readonly POINTERTAP: number;
-        static readonly POINTERDOUBLETAP: number;
+    interface ICullable {
+        isInFrustum(frustumPlanes: Plane[]): boolean;
+        isCompletelyInFrustum(frustumPlanes: Plane[]): boolean;
     }
-    class PointerInfoBase {
-        type: number;
-        event: PointerEvent | MouseWheelEvent;
-        constructor(type: number, event: PointerEvent | MouseWheelEvent);
+    class BoundingInfo implements ICullable {
+        minimum: Vector3;
+        maximum: Vector3;
+        boundingBox: BoundingBox;
+        boundingSphere: BoundingSphere;
+        private _isLocked;
+        constructor(minimum: Vector3, maximum: Vector3);
+        isLocked: boolean;
+        update(world: Matrix): void;
+        isInFrustum(frustumPlanes: Plane[]): boolean;
+        /**
+         * Gets the world distance between the min and max points of the bounding box
+         */
+        readonly diagonalLength: number;
+        isCompletelyInFrustum(frustumPlanes: Plane[]): boolean;
+        _checkCollision(collider: Collider): boolean;
+        intersectsPoint(point: Vector3): boolean;
+        intersects(boundingInfo: BoundingInfo, precise: boolean): boolean;
     }
-    /**
-     * This class is used to store pointer related info for the onPrePointerObservable event.
-     * Set the skipOnPointerObservable property to true if you want the engine to stop any process after this event is triggered, even not calling onPointerObservable
-     */
-    class PointerInfoPre extends PointerInfoBase {
-        constructor(type: number, event: PointerEvent | MouseWheelEvent, localX: any, localY: any);
-        localPosition: Vector2;
-        skipOnPointerObservable: boolean;
+}
+
+declare module BABYLON {
+    class BoundingSphere {
+        minimum: Vector3;
+        maximum: Vector3;
+        center: Vector3;
+        radius: number;
+        centerWorld: Vector3;
+        radiusWorld: number;
+        private _tempRadiusVector;
+        constructor(minimum: Vector3, maximum: Vector3);
+        _update(world: Matrix): void;
+        isInFrustum(frustumPlanes: Plane[]): boolean;
+        intersectsPoint(point: Vector3): boolean;
+        static Intersects(sphere0: BoundingSphere, sphere1: BoundingSphere): boolean;
     }
-    /**
-     * This type contains all the data related to a pointer event in Babylon.js.
-     * The event member is an instance of PointerEvent for all types except PointerWheel and is of type MouseWheelEvent when type equals PointerWheel. The different event types can be found in the PointerEventTypes class.
-     */
-    class PointerInfo extends PointerInfoBase {
-        pickInfo: PickingInfo;
-        constructor(type: number, event: PointerEvent | MouseWheelEvent, pickInfo: PickingInfo);
+}
+
+declare module BABYLON {
+    class Ray {
+        origin: Vector3;
+        direction: Vector3;
+        length: number;
+        private _edge1;
+        private _edge2;
+        private _pvec;
+        private _tvec;
+        private _qvec;
+        private _tmpRay;
+        private _rayHelper;
+        constructor(origin: Vector3, direction: Vector3, length?: number);
+        intersectsBoxMinMax(minimum: Vector3, maximum: Vector3): boolean;
+        intersectsBox(box: BoundingBox): boolean;
+        intersectsSphere(sphere: BoundingSphere): boolean;
+        intersectsTriangle(vertex0: Vector3, vertex1: Vector3, vertex2: Vector3): IntersectionInfo;
+        intersectsPlane(plane: Plane): number;
+        intersectsMesh(mesh: AbstractMesh, fastCheck?: boolean): PickingInfo;
+        intersectsMeshes(meshes: Array<AbstractMesh>, fastCheck?: boolean, results?: Array<PickingInfo>): Array<PickingInfo>;
+        private _comparePickingInfo(pickingInfoA, pickingInfoB);
+        private static smallnum;
+        private static rayl;
+        /**
+         * Intersection test between the ray and a given segment whithin a given tolerance (threshold)
+         * @param sega the first point of the segment to test the intersection against
+         * @param segb the second point of the segment to test the intersection against
+         * @param threshold the tolerance margin, if the ray doesn't intersect the segment but is close to the given threshold, the intersection is successful
+         * @return the distance from the ray origin to the intersection point if there's intersection, or -1 if there's no intersection
+         */
+        intersectionSegment(sega: Vector3, segb: Vector3, threshold: number): number;
+        static CreateNew(x: number, y: number, viewportWidth: number, viewportHeight: number, world: Matrix, view: Matrix, projection: Matrix): Ray;
+        /**
+        * Function will create a new transformed ray starting from origin and ending at the end point. Ray's length will be set, and ray will be
+        * transformed to the given world matrix.
+        * @param origin The origin point
+        * @param end The end point
+        * @param world a matrix to transform the ray to. Default is the identity matrix.
+        */
+        static CreateNewFromTo(origin: Vector3, end: Vector3, world?: Matrix): Ray;
+        static Transform(ray: Ray, matrix: Matrix): Ray;
+        static TransformToRef(ray: Ray, matrix: Matrix, result: Ray): void;
     }
 }
 
@@ -4502,135 +4314,323 @@ declare module BABYLON.Debug {
         renderingGroupId: number;
         color: Color3;
         private _scene;
-        private _debugLines;
-        private _debugMesh;
-        private _isEnabled;
-        private _renderFunction;
-        constructor(skeleton: Skeleton, mesh: AbstractMesh, scene: Scene, autoUpdateBonesMatrices?: boolean, renderingGroupId?: number);
-        isEnabled: boolean;
-        private _getBonePosition(position, bone, meshMat, x?, y?, z?);
-        private _getLinesForBonesWithLength(bones, meshMat);
-        private _getLinesForBonesNoLength(bones, meshMat);
-        update(): void;
-        dispose(): void;
+        private _debugLines;
+        private _debugMesh;
+        private _isEnabled;
+        private _renderFunction;
+        constructor(skeleton: Skeleton, mesh: AbstractMesh, scene: Scene, autoUpdateBonesMatrices?: boolean, renderingGroupId?: number);
+        isEnabled: boolean;
+        private _getBonePosition(position, bone, meshMat, x?, y?, z?);
+        private _getLinesForBonesWithLength(bones, meshMat);
+        private _getLinesForBonesNoLength(bones, meshMat);
+        update(): void;
+        dispose(): void;
+    }
+}
+
+declare module BABYLON {
+    class KeyboardEventTypes {
+        static _KEYDOWN: number;
+        static _KEYUP: number;
+        static readonly KEYDOWN: number;
+        static readonly KEYUP: number;
+    }
+    class KeyboardInfo {
+        type: number;
+        event: KeyboardEvent;
+        constructor(type: number, event: KeyboardEvent);
+    }
+    /**
+     * This class is used to store keyboard related info for the onPreKeyboardObservable event.
+     * Set the skipOnKeyboardObservable property to true if you want the engine to stop any process after this event is triggered, even not calling onKeyboardObservable
+     */
+    class KeyboardInfoPre extends KeyboardInfo {
+        constructor(type: number, event: KeyboardEvent);
+        skipOnPointerObservable: boolean;
+    }
+}
+
+declare module BABYLON {
+    class PointerEventTypes {
+        static _POINTERDOWN: number;
+        static _POINTERUP: number;
+        static _POINTERMOVE: number;
+        static _POINTERWHEEL: number;
+        static _POINTERPICK: number;
+        static _POINTERTAP: number;
+        static _POINTERDOUBLETAP: number;
+        static readonly POINTERDOWN: number;
+        static readonly POINTERUP: number;
+        static readonly POINTERMOVE: number;
+        static readonly POINTERWHEEL: number;
+        static readonly POINTERPICK: number;
+        static readonly POINTERTAP: number;
+        static readonly POINTERDOUBLETAP: number;
+    }
+    class PointerInfoBase {
+        type: number;
+        event: PointerEvent | MouseWheelEvent;
+        constructor(type: number, event: PointerEvent | MouseWheelEvent);
+    }
+    /**
+     * This class is used to store pointer related info for the onPrePointerObservable event.
+     * Set the skipOnPointerObservable property to true if you want the engine to stop any process after this event is triggered, even not calling onPointerObservable
+     */
+    class PointerInfoPre extends PointerInfoBase {
+        constructor(type: number, event: PointerEvent | MouseWheelEvent, localX: any, localY: any);
+        localPosition: Vector2;
+        skipOnPointerObservable: boolean;
+    }
+    /**
+     * This type contains all the data related to a pointer event in Babylon.js.
+     * The event member is an instance of PointerEvent for all types except PointerWheel and is of type MouseWheelEvent when type equals PointerWheel. The different event types can be found in the PointerEventTypes class.
+     */
+    class PointerInfo extends PointerInfoBase {
+        pickInfo: PickingInfo;
+        constructor(type: number, event: PointerEvent | MouseWheelEvent, pickInfo: PickingInfo);
+    }
+}
+
+declare module BABYLON {
+    class Collider {
+        radius: Vector3;
+        retry: number;
+        velocity: Vector3;
+        basePoint: Vector3;
+        epsilon: number;
+        collisionFound: boolean;
+        velocityWorldLength: number;
+        basePointWorld: Vector3;
+        velocityWorld: Vector3;
+        normalizedVelocity: Vector3;
+        initialVelocity: Vector3;
+        initialPosition: Vector3;
+        nearestDistance: number;
+        intersectionPoint: Vector3;
+        collidedMesh: AbstractMesh;
+        private _collisionPoint;
+        private _planeIntersectionPoint;
+        private _tempVector;
+        private _tempVector2;
+        private _tempVector3;
+        private _tempVector4;
+        private _edge;
+        private _baseToVertex;
+        private _destinationPoint;
+        private _slidePlaneNormal;
+        private _displacementVector;
+        private _collisionMask;
+        collisionMask: number;
+        _initialize(source: Vector3, dir: Vector3, e: number): void;
+        _checkPointInTriangle(point: Vector3, pa: Vector3, pb: Vector3, pc: Vector3, n: Vector3): boolean;
+        _canDoCollision(sphereCenter: Vector3, sphereRadius: number, vecMin: Vector3, vecMax: Vector3): boolean;
+        _testTriangle(faceIndex: number, trianglePlaneArray: Array<Plane>, p1: Vector3, p2: Vector3, p3: Vector3, hasMaterial: boolean): void;
+        _collide(trianglePlaneArray: Array<Plane>, pts: Vector3[], indices: IndicesArray, indexStart: number, indexEnd: number, decal: number, hasMaterial: boolean): void;
+        _getResponse(pos: Vector3, vel: Vector3): void;
+    }
+}
+
+declare module BABYLON {
+    var CollisionWorker: string;
+    interface ICollisionCoordinator {
+        getNewPosition(position: Vector3, displacement: Vector3, collider: Collider, maximumRetry: number, excludedMesh: AbstractMesh, onNewPosition: (collisionIndex: number, newPosition: Vector3, collidedMesh?: AbstractMesh) => void, collisionIndex: number): void;
+        init(scene: Scene): void;
+        destroy(): void;
+        onMeshAdded(mesh: AbstractMesh): any;
+        onMeshUpdated(mesh: AbstractMesh): any;
+        onMeshRemoved(mesh: AbstractMesh): any;
+        onGeometryAdded(geometry: Geometry): any;
+        onGeometryUpdated(geometry: Geometry): any;
+        onGeometryDeleted(geometry: Geometry): any;
+    }
+    interface SerializedMesh {
+        id: string;
+        name: string;
+        uniqueId: number;
+        geometryId: string;
+        sphereCenter: Array<number>;
+        sphereRadius: number;
+        boxMinimum: Array<number>;
+        boxMaximum: Array<number>;
+        worldMatrixFromCache: any;
+        subMeshes: Array<SerializedSubMesh>;
+        checkCollisions: boolean;
+    }
+    interface SerializedSubMesh {
+        position: number;
+        verticesStart: number;
+        verticesCount: number;
+        indexStart: number;
+        indexCount: number;
+        hasMaterial: boolean;
+        sphereCenter: Array<number>;
+        sphereRadius: number;
+        boxMinimum: Array<number>;
+        boxMaximum: Array<number>;
+    }
+    interface SerializedGeometry {
+        id: string;
+        positions: Float32Array;
+        indices: Uint32Array;
+        normals: Float32Array;
+    }
+    interface BabylonMessage {
+        taskType: WorkerTaskType;
+        payload: InitPayload | CollidePayload | UpdatePayload;
+    }
+    interface SerializedColliderToWorker {
+        position: Array<number>;
+        velocity: Array<number>;
+        radius: Array<number>;
+    }
+    enum WorkerTaskType {
+        INIT = 0,
+        UPDATE = 1,
+        COLLIDE = 2,
+    }
+    interface WorkerReply {
+        error: WorkerReplyType;
+        taskType: WorkerTaskType;
+        payload?: any;
+    }
+    interface CollisionReplyPayload {
+        newPosition: Array<number>;
+        collisionId: number;
+        collidedMeshUniqueId: number;
+    }
+    interface InitPayload {
+    }
+    interface CollidePayload {
+        collisionId: number;
+        collider: SerializedColliderToWorker;
+        maximumRetry: number;
+        excludedMeshUniqueId?: number;
+    }
+    interface UpdatePayload {
+        updatedMeshes: {
+            [n: number]: SerializedMesh;
+        };
+        updatedGeometries: {
+            [s: string]: SerializedGeometry;
+        };
+        removedMeshes: Array<number>;
+        removedGeometries: Array<string>;
+    }
+    enum WorkerReplyType {
+        SUCCESS = 0,
+        UNKNOWN_ERROR = 1,
+    }
+    class CollisionCoordinatorWorker implements ICollisionCoordinator {
+        private _scene;
+        private _scaledPosition;
+        private _scaledVelocity;
+        private _collisionsCallbackArray;
+        private _init;
+        private _runningUpdated;
+        private _runningCollisionTask;
+        private _worker;
+        private _addUpdateMeshesList;
+        private _addUpdateGeometriesList;
+        private _toRemoveMeshesArray;
+        private _toRemoveGeometryArray;
+        constructor();
+        static SerializeMesh: (mesh: AbstractMesh) => SerializedMesh;
+        static SerializeGeometry: (geometry: Geometry) => SerializedGeometry;
+        getNewPosition(position: Vector3, displacement: Vector3, collider: Collider, maximumRetry: number, excludedMesh: AbstractMesh, onNewPosition: (collisionIndex: number, newPosition: Vector3, collidedMesh?: AbstractMesh) => void, collisionIndex: number): void;
+        init(scene: Scene): void;
+        destroy(): void;
+        onMeshAdded(mesh: AbstractMesh): void;
+        onMeshUpdated: (mesh: AbstractMesh) => void;
+        onMeshRemoved(mesh: AbstractMesh): void;
+        onGeometryAdded(geometry: Geometry): void;
+        onGeometryUpdated: (geometry: Geometry) => void;
+        onGeometryDeleted(geometry: Geometry): void;
+        private _afterRender;
+        private _onMessageFromWorker;
+    }
+    class CollisionCoordinatorLegacy implements ICollisionCoordinator {
+        private _scene;
+        private _scaledPosition;
+        private _scaledVelocity;
+        private _finalPosition;
+        getNewPosition(position: Vector3, displacement: Vector3, collider: Collider, maximumRetry: number, excludedMesh: AbstractMesh, onNewPosition: (collisionIndex: number, newPosition: Vector3, collidedMesh?: AbstractMesh) => void, collisionIndex: number): void;
+        init(scene: Scene): void;
+        destroy(): void;
+        onMeshAdded(mesh: AbstractMesh): void;
+        onMeshUpdated(mesh: AbstractMesh): void;
+        onMeshRemoved(mesh: AbstractMesh): void;
+        onGeometryAdded(geometry: Geometry): void;
+        onGeometryUpdated(geometry: Geometry): void;
+        onGeometryDeleted(geometry: Geometry): void;
+        private _collideWithWorld(position, velocity, collider, maximumRetry, finalPosition, excludedMesh?);
     }
 }
 
 declare module BABYLON {
-    class BoundingBox implements ICullable {
-        minimum: Vector3;
-        maximum: Vector3;
-        vectors: Vector3[];
-        center: Vector3;
-        centerWorld: Vector3;
-        extendSize: Vector3;
-        extendSizeWorld: Vector3;
-        directions: Vector3[];
-        vectorsWorld: Vector3[];
-        minimumWorld: Vector3;
-        maximumWorld: Vector3;
-        private _worldMatrix;
-        constructor(minimum: Vector3, maximum: Vector3);
-        getWorldMatrix(): Matrix;
-        setWorldMatrix(matrix: Matrix): BoundingBox;
-        _update(world: Matrix): void;
-        isInFrustum(frustumPlanes: Plane[]): boolean;
-        isCompletelyInFrustum(frustumPlanes: Plane[]): boolean;
-        intersectsPoint(point: Vector3): boolean;
-        intersectsSphere(sphere: BoundingSphere): boolean;
-        intersectsMinMax(min: Vector3, max: Vector3): boolean;
-        static Intersects(box0: BoundingBox, box1: BoundingBox): boolean;
-        static IntersectsSphere(minPoint: Vector3, maxPoint: Vector3, sphereCenter: Vector3, sphereRadius: number): boolean;
-        static IsCompletelyInFrustum(boundingVectors: Vector3[], frustumPlanes: Plane[]): boolean;
-        static IsInFrustum(boundingVectors: Vector3[], frustumPlanes: Plane[]): boolean;
+    var WorkerIncluded: boolean;
+    class CollisionCache {
+        private _meshes;
+        private _geometries;
+        getMeshes(): {
+            [n: number]: SerializedMesh;
+        };
+        getGeometries(): {
+            [s: number]: SerializedGeometry;
+        };
+        getMesh(id: any): SerializedMesh;
+        addMesh(mesh: SerializedMesh): void;
+        removeMesh(uniqueId: number): void;
+        getGeometry(id: string): SerializedGeometry;
+        addGeometry(geometry: SerializedGeometry): void;
+        removeGeometry(id: string): void;
     }
-}
-
-declare module BABYLON {
-    interface ICullable {
-        isInFrustum(frustumPlanes: Plane[]): boolean;
-        isCompletelyInFrustum(frustumPlanes: Plane[]): boolean;
+    class CollideWorker {
+        collider: Collider;
+        private _collisionCache;
+        private finalPosition;
+        private collisionsScalingMatrix;
+        private collisionTranformationMatrix;
+        constructor(collider: Collider, _collisionCache: CollisionCache, finalPosition: Vector3);
+        collideWithWorld(position: Vector3, velocity: Vector3, maximumRetry: number, excludedMeshUniqueId?: number): void;
+        private checkCollision(mesh);
+        private processCollisionsForSubMeshes(transformMatrix, mesh);
+        private collideForSubMesh(subMesh, transformMatrix, meshGeometry);
+        private checkSubmeshCollision(subMesh);
     }
-    class BoundingInfo implements ICullable {
-        minimum: Vector3;
-        maximum: Vector3;
-        boundingBox: BoundingBox;
-        boundingSphere: BoundingSphere;
-        private _isLocked;
-        constructor(minimum: Vector3, maximum: Vector3);
-        isLocked: boolean;
-        update(world: Matrix): void;
-        isInFrustum(frustumPlanes: Plane[]): boolean;
-        /**
-         * Gets the world distance between the min and max points of the bounding box
-         */
-        readonly diagonalLength: number;
-        isCompletelyInFrustum(frustumPlanes: Plane[]): boolean;
-        _checkCollision(collider: Collider): boolean;
-        intersectsPoint(point: Vector3): boolean;
-        intersects(boundingInfo: BoundingInfo, precise: boolean): boolean;
+    interface ICollisionDetector {
+        onInit(payload: InitPayload): void;
+        onUpdate(payload: UpdatePayload): void;
+        onCollision(payload: CollidePayload): void;
     }
-}
-
-declare module BABYLON {
-    class BoundingSphere {
-        minimum: Vector3;
-        maximum: Vector3;
-        center: Vector3;
-        radius: number;
-        centerWorld: Vector3;
-        radiusWorld: number;
-        private _tempRadiusVector;
-        constructor(minimum: Vector3, maximum: Vector3);
-        _update(world: Matrix): void;
-        isInFrustum(frustumPlanes: Plane[]): boolean;
-        intersectsPoint(point: Vector3): boolean;
-        static Intersects(sphere0: BoundingSphere, sphere1: BoundingSphere): boolean;
+    class CollisionDetectorTransferable implements ICollisionDetector {
+        private _collisionCache;
+        onInit(payload: InitPayload): void;
+        onUpdate(payload: UpdatePayload): void;
+        onCollision(payload: CollidePayload): void;
     }
 }
 
 declare module BABYLON {
-    class Ray {
-        origin: Vector3;
-        direction: Vector3;
-        length: number;
-        private _edge1;
-        private _edge2;
-        private _pvec;
-        private _tvec;
-        private _qvec;
-        private _tmpRay;
-        private _rayHelper;
-        constructor(origin: Vector3, direction: Vector3, length?: number);
-        intersectsBoxMinMax(minimum: Vector3, maximum: Vector3): boolean;
-        intersectsBox(box: BoundingBox): boolean;
-        intersectsSphere(sphere: BoundingSphere): boolean;
-        intersectsTriangle(vertex0: Vector3, vertex1: Vector3, vertex2: Vector3): IntersectionInfo;
-        intersectsPlane(plane: Plane): number;
-        intersectsMesh(mesh: AbstractMesh, fastCheck?: boolean): PickingInfo;
-        intersectsMeshes(meshes: Array<AbstractMesh>, fastCheck?: boolean, results?: Array<PickingInfo>): Array<PickingInfo>;
-        private _comparePickingInfo(pickingInfoA, pickingInfoB);
-        private static smallnum;
-        private static rayl;
-        /**
-         * Intersection test between the ray and a given segment whithin a given tolerance (threshold)
-         * @param sega the first point of the segment to test the intersection against
-         * @param segb the second point of the segment to test the intersection against
-         * @param threshold the tolerance margin, if the ray doesn't intersect the segment but is close to the given threshold, the intersection is successful
-         * @return the distance from the ray origin to the intersection point if there's intersection, or -1 if there's no intersection
-         */
-        intersectionSegment(sega: Vector3, segb: Vector3, threshold: number): number;
-        static CreateNew(x: number, y: number, viewportWidth: number, viewportHeight: number, world: Matrix, view: Matrix, projection: Matrix): Ray;
-        /**
-        * Function will create a new transformed ray starting from origin and ending at the end point. Ray's length will be set, and ray will be
-        * transformed to the given world matrix.
-        * @param origin The origin point
-        * @param end The end point
-        * @param world a matrix to transform the ray to. Default is the identity matrix.
-        */
-        static CreateNewFromTo(origin: Vector3, end: Vector3, world?: Matrix): Ray;
-        static Transform(ray: Ray, matrix: Matrix): Ray;
-        static TransformToRef(ray: Ray, matrix: Matrix, result: Ray): void;
+    class IntersectionInfo {
+        bu: number;
+        bv: number;
+        distance: number;
+        faceId: number;
+        subMeshId: number;
+        constructor(bu: number, bv: number, distance: number);
+    }
+    class PickingInfo {
+        hit: boolean;
+        distance: number;
+        pickedPoint: Vector3;
+        pickedMesh: AbstractMesh;
+        bu: number;
+        bv: number;
+        faceId: number;
+        subMeshId: number;
+        pickedSprite: Sprite;
+        getNormal(useWorldCoordinates?: boolean, useVerticesNormals?: boolean): Vector3;
+        getTextureCoordinates(): Vector2;
     }
 }
 
@@ -13684,6 +13684,36 @@ declare module BABYLON {
 }
 
 declare module BABYLON {
+    class ReflectionProbe {
+        name: string;
+        private _scene;
+        private _renderTargetTexture;
+        private _projectionMatrix;
+        private _viewMatrix;
+        private _target;
+        private _add;
+        private _attachedMesh;
+        invertYAxis: boolean;
+        position: Vector3;
+        constructor(name: string, size: number, scene: Scene, generateMipMaps?: boolean);
+        samples: number;
+        refreshRate: number;
+        getScene(): Scene;
+        readonly cubeTexture: RenderTargetTexture;
+        readonly renderList: AbstractMesh[];
+        attachToMesh(mesh: AbstractMesh): void;
+        /**
+         * Specifies whether or not the stencil and depth buffer are cleared between two rendering groups.
+         *
+         * @param renderingGroupId The rendering group id corresponding to its index
+         * @param autoClearDepthStencil Automatically clears depth and stencil between groups if true.
+         */
+        setRenderingAutoClearDepthStencil(renderingGroupId: number, autoClearDepthStencil: boolean): void;
+        dispose(): void;
+    }
+}
+
+declare module BABYLON {
     class AnaglyphPostProcess extends PostProcess {
         private _passedProcess;
         constructor(name: string, options: number | PostProcessOptions, rigCameras: Camera[], samplingMode?: number, engine?: Engine, reusable?: boolean);
@@ -14210,36 +14240,6 @@ declare module BABYLON {
 }
 
 declare module BABYLON {
-    class ReflectionProbe {
-        name: string;
-        private _scene;
-        private _renderTargetTexture;
-        private _projectionMatrix;
-        private _viewMatrix;
-        private _target;
-        private _add;
-        private _attachedMesh;
-        invertYAxis: boolean;
-        position: Vector3;
-        constructor(name: string, size: number, scene: Scene, generateMipMaps?: boolean);
-        samples: number;
-        refreshRate: number;
-        getScene(): Scene;
-        readonly cubeTexture: RenderTargetTexture;
-        readonly renderList: AbstractMesh[];
-        attachToMesh(mesh: AbstractMesh): void;
-        /**
-         * Specifies whether or not the stencil and depth buffer are cleared between two rendering groups.
-         *
-         * @param renderingGroupId The rendering group id corresponding to its index
-         * @param autoClearDepthStencil Automatically clears depth and stencil between groups if true.
-         */
-        setRenderingAutoClearDepthStencil(renderingGroupId: number, autoClearDepthStencil: boolean): void;
-        dispose(): void;
-    }
-}
-
-declare module BABYLON {
     class BoundingBoxRenderer {
         frontColor: Color3;
         backColor: Color3;

dist/preview release/customConfigurations/minimalGLTFViewer/babylon.max.js

@@ -49008,7 +49008,7 @@ var BABYLON;
             else if (parsedShadowGenerator.useCloseExponentialShadowMap) {
                 shadowGenerator.useCloseExponentialShadowMap = true;
             }
-            else if (parsedShadowGenerator.useBlurExponentialShadowMap) {
+            else if (parsedShadowGenerator.useBlurCloseExponentialShadowMap) {
                 shadowGenerator.useBlurCloseExponentialShadowMap = true;
             }
             else if (parsedShadowGenerator.useVarianceShadowMap) {

dist/preview release/customConfigurations/minimalGLTFViewer/babylon.module.d.ts

@@ -3562,249 +3562,6 @@ declare module BABYLON {
 }
 
 declare module BABYLON {
-    class Collider {
-        radius: Vector3;
-        retry: number;
-        velocity: Vector3;
-        basePoint: Vector3;
-        epsilon: number;
-        collisionFound: boolean;
-        velocityWorldLength: number;
-        basePointWorld: Vector3;
-        velocityWorld: Vector3;
-        normalizedVelocity: Vector3;
-        initialVelocity: Vector3;
-        initialPosition: Vector3;
-        nearestDistance: number;
-        intersectionPoint: Vector3;
-        collidedMesh: AbstractMesh;
-        private _collisionPoint;
-        private _planeIntersectionPoint;
-        private _tempVector;
-        private _tempVector2;
-        private _tempVector3;
-        private _tempVector4;
-        private _edge;
-        private _baseToVertex;
-        private _destinationPoint;
-        private _slidePlaneNormal;
-        private _displacementVector;
-        private _collisionMask;
-        collisionMask: number;
-        _initialize(source: Vector3, dir: Vector3, e: number): void;
-        _checkPointInTriangle(point: Vector3, pa: Vector3, pb: Vector3, pc: Vector3, n: Vector3): boolean;
-        _canDoCollision(sphereCenter: Vector3, sphereRadius: number, vecMin: Vector3, vecMax: Vector3): boolean;
-        _testTriangle(faceIndex: number, trianglePlaneArray: Array<Plane>, p1: Vector3, p2: Vector3, p3: Vector3, hasMaterial: boolean): void;
-        _collide(trianglePlaneArray: Array<Plane>, pts: Vector3[], indices: IndicesArray, indexStart: number, indexEnd: number, decal: number, hasMaterial: boolean): void;
-        _getResponse(pos: Vector3, vel: Vector3): void;
-    }
-}
-
-declare module BABYLON {
-    var CollisionWorker: string;
-    interface ICollisionCoordinator {
-        getNewPosition(position: Vector3, displacement: Vector3, collider: Collider, maximumRetry: number, excludedMesh: AbstractMesh, onNewPosition: (collisionIndex: number, newPosition: Vector3, collidedMesh?: AbstractMesh) => void, collisionIndex: number): void;
-        init(scene: Scene): void;
-        destroy(): void;
-        onMeshAdded(mesh: AbstractMesh): any;
-        onMeshUpdated(mesh: AbstractMesh): any;
-        onMeshRemoved(mesh: AbstractMesh): any;
-        onGeometryAdded(geometry: Geometry): any;
-        onGeometryUpdated(geometry: Geometry): any;
-        onGeometryDeleted(geometry: Geometry): any;
-    }
-    interface SerializedMesh {
-        id: string;
-        name: string;
-        uniqueId: number;
-        geometryId: string;
-        sphereCenter: Array<number>;
-        sphereRadius: number;
-        boxMinimum: Array<number>;
-        boxMaximum: Array<number>;
-        worldMatrixFromCache: any;
-        subMeshes: Array<SerializedSubMesh>;
-        checkCollisions: boolean;
-    }
-    interface SerializedSubMesh {
-        position: number;
-        verticesStart: number;
-        verticesCount: number;
-        indexStart: number;
-        indexCount: number;
-        hasMaterial: boolean;
-        sphereCenter: Array<number>;
-        sphereRadius: number;
-        boxMinimum: Array<number>;
-        boxMaximum: Array<number>;
-    }
-    interface SerializedGeometry {
-        id: string;
-        positions: Float32Array;
-        indices: Uint32Array;
-        normals: Float32Array;
-    }
-    interface BabylonMessage {
-        taskType: WorkerTaskType;
-        payload: InitPayload | CollidePayload | UpdatePayload;
-    }
-    interface SerializedColliderToWorker {
-        position: Array<number>;
-        velocity: Array<number>;
-        radius: Array<number>;
-    }
-    enum WorkerTaskType {
-        INIT = 0,
-        UPDATE = 1,
-        COLLIDE = 2,
-    }
-    interface WorkerReply {
-        error: WorkerReplyType;
-        taskType: WorkerTaskType;
-        payload?: any;
-    }
-    interface CollisionReplyPayload {
-        newPosition: Array<number>;
-        collisionId: number;
-        collidedMeshUniqueId: number;
-    }
-    interface InitPayload {
-    }
-    interface CollidePayload {
-        collisionId: number;
-        collider: SerializedColliderToWorker;
-        maximumRetry: number;
-        excludedMeshUniqueId?: number;
-    }
-    interface UpdatePayload {
-        updatedMeshes: {
-            [n: number]: SerializedMesh;
-        };
-        updatedGeometries: {
-            [s: string]: SerializedGeometry;
-        };
-        removedMeshes: Array<number>;
-        removedGeometries: Array<string>;
-    }
-    enum WorkerReplyType {
-        SUCCESS = 0,
-        UNKNOWN_ERROR = 1,
-    }
-    class CollisionCoordinatorWorker implements ICollisionCoordinator {
-        private _scene;
-        private _scaledPosition;
-        private _scaledVelocity;
-        private _collisionsCallbackArray;
-        private _init;
-        private _runningUpdated;
-        private _runningCollisionTask;
-        private _worker;
-        private _addUpdateMeshesList;
-        private _addUpdateGeometriesList;
-        private _toRemoveMeshesArray;
-        private _toRemoveGeometryArray;
-        constructor();
-        static SerializeMesh: (mesh: AbstractMesh) => SerializedMesh;
-        static SerializeGeometry: (geometry: Geometry) => SerializedGeometry;
-        getNewPosition(position: Vector3, displacement: Vector3, collider: Collider, maximumRetry: number, excludedMesh: AbstractMesh, onNewPosition: (collisionIndex: number, newPosition: Vector3, collidedMesh?: AbstractMesh) => void, collisionIndex: number): void;
-        init(scene: Scene): void;
-        destroy(): void;
-        onMeshAdded(mesh: AbstractMesh): void;
-        onMeshUpdated: (mesh: AbstractMesh) => void;
-        onMeshRemoved(mesh: AbstractMesh): void;
-        onGeometryAdded(geometry: Geometry): void;
-        onGeometryUpdated: (geometry: Geometry) => void;
-        onGeometryDeleted(geometry: Geometry): void;
-        private _afterRender;
-        private _onMessageFromWorker;
-    }
-    class CollisionCoordinatorLegacy implements ICollisionCoordinator {
-        private _scene;
-        private _scaledPosition;
-        private _scaledVelocity;
-        private _finalPosition;
-        getNewPosition(position: Vector3, displacement: Vector3, collider: Collider, maximumRetry: number, excludedMesh: AbstractMesh, onNewPosition: (collisionIndex: number, newPosition: Vector3, collidedMesh?: AbstractMesh) => void, collisionIndex: number): void;
-        init(scene: Scene): void;
-        destroy(): void;
-        onMeshAdded(mesh: AbstractMesh): void;
-        onMeshUpdated(mesh: AbstractMesh): void;
-        onMeshRemoved(mesh: AbstractMesh): void;
-        onGeometryAdded(geometry: Geometry): void;
-        onGeometryUpdated(geometry: Geometry): void;
-        onGeometryDeleted(geometry: Geometry): void;
-        private _collideWithWorld(position, velocity, collider, maximumRetry, finalPosition, excludedMesh?);
-    }
-}
-
-declare module BABYLON {
-    var WorkerIncluded: boolean;
-    class CollisionCache {
-        private _meshes;
-        private _geometries;
-        getMeshes(): {
-            [n: number]: SerializedMesh;
-        };
-        getGeometries(): {
-            [s: number]: SerializedGeometry;
-        };
-        getMesh(id: any): SerializedMesh;
-        addMesh(mesh: SerializedMesh): void;
-        removeMesh(uniqueId: number): void;
-        getGeometry(id: string): SerializedGeometry;
-        addGeometry(geometry: SerializedGeometry): void;
-        removeGeometry(id: string): void;
-    }
-    class CollideWorker {
-        collider: Collider;
-        private _collisionCache;
-        private finalPosition;
-        private collisionsScalingMatrix;
-        private collisionTranformationMatrix;
-        constructor(collider: Collider, _collisionCache: CollisionCache, finalPosition: Vector3);
-        collideWithWorld(position: Vector3, velocity: Vector3, maximumRetry: number, excludedMeshUniqueId?: number): void;
-        private checkCollision(mesh);
-        private processCollisionsForSubMeshes(transformMatrix, mesh);
-        private collideForSubMesh(subMesh, transformMatrix, meshGeometry);
-        private checkSubmeshCollision(subMesh);
-    }
-    interface ICollisionDetector {
-        onInit(payload: InitPayload): void;
-        onUpdate(payload: UpdatePayload): void;
-        onCollision(payload: CollidePayload): void;
-    }
-    class CollisionDetectorTransferable implements ICollisionDetector {
-        private _collisionCache;
-        onInit(payload: InitPayload): void;
-        onUpdate(payload: UpdatePayload): void;
-        onCollision(payload: CollidePayload): void;
-    }
-}
-
-declare module BABYLON {
-    class IntersectionInfo {
-        bu: number;
-        bv: number;
-        distance: number;
-        faceId: number;
-        subMeshId: number;
-        constructor(bu: number, bv: number, distance: number);
-    }
-    class PickingInfo {
-        hit: boolean;
-        distance: number;
-        pickedPoint: Vector3;
-        pickedMesh: AbstractMesh;
-        bu: number;
-        bv: number;
-        faceId: number;
-        subMeshId: number;
-        pickedSprite: Sprite;
-        getNormal(useWorldCoordinates?: boolean, useVerticesNormals?: boolean): Vector3;
-        getTextureCoordinates(): Vector2;
-    }
-}
-
-declare module BABYLON {
     class ArcRotateCamera extends TargetCamera {
         alpha: number;
         beta: number;
@@ -4331,65 +4088,120 @@ declare module BABYLON {
 }
 
 declare module BABYLON {
-    class KeyboardEventTypes {
-        static _KEYDOWN: number;
-        static _KEYUP: number;
-        static readonly KEYDOWN: number;
-        static readonly KEYUP: number;
-    }
-    class KeyboardInfo {
-        type: number;
-        event: KeyboardEvent;
-        constructor(type: number, event: KeyboardEvent);
-    }
-    /**
-     * This class is used to store keyboard related info for the onPreKeyboardObservable event.
-     * Set the skipOnKeyboardObservable property to true if you want the engine to stop any process after this event is triggered, even not calling onKeyboardObservable
-     */
-    class KeyboardInfoPre extends KeyboardInfo {
-        constructor(type: number, event: KeyboardEvent);
-        skipOnPointerObservable: boolean;
+    class BoundingBox implements ICullable {
+        minimum: Vector3;
+        maximum: Vector3;
+        vectors: Vector3[];
+        center: Vector3;
+        centerWorld: Vector3;
+        extendSize: Vector3;
+        extendSizeWorld: Vector3;
+        directions: Vector3[];
+        vectorsWorld: Vector3[];
+        minimumWorld: Vector3;
+        maximumWorld: Vector3;
+        private _worldMatrix;
+        constructor(minimum: Vector3, maximum: Vector3);
+        getWorldMatrix(): Matrix;
+        setWorldMatrix(matrix: Matrix): BoundingBox;
+        _update(world: Matrix): void;
+        isInFrustum(frustumPlanes: Plane[]): boolean;
+        isCompletelyInFrustum(frustumPlanes: Plane[]): boolean;
+        intersectsPoint(point: Vector3): boolean;
+        intersectsSphere(sphere: BoundingSphere): boolean;
+        intersectsMinMax(min: Vector3, max: Vector3): boolean;
+        static Intersects(box0: BoundingBox, box1: BoundingBox): boolean;
+        static IntersectsSphere(minPoint: Vector3, maxPoint: Vector3, sphereCenter: Vector3, sphereRadius: number): boolean;
+        static IsCompletelyInFrustum(boundingVectors: Vector3[], frustumPlanes: Plane[]): boolean;
+        static IsInFrustum(boundingVectors: Vector3[], frustumPlanes: Plane[]): boolean;
     }
 }
 
 declare module BABYLON {
-    class PointerEventTypes {
-        static _POINTERDOWN: number;
-        static _POINTERUP: number;
-        static _POINTERMOVE: number;
-        static _POINTERWHEEL: number;
-        static _POINTERPICK: number;
-        static _POINTERTAP: number;
-        static _POINTERDOUBLETAP: number;
-        static readonly POINTERDOWN: number;
-        static readonly POINTERUP: number;
-        static readonly POINTERMOVE: number;
-        static readonly POINTERWHEEL: number;
-        static readonly POINTERPICK: number;
-        static readonly POINTERTAP: number;
-        static readonly POINTERDOUBLETAP: number;
+    interface ICullable {
+        isInFrustum(frustumPlanes: Plane[]): boolean;
+        isCompletelyInFrustum(frustumPlanes: Plane[]): boolean;
     }
-    class PointerInfoBase {
-        type: number;
-        event: PointerEvent | MouseWheelEvent;
-        constructor(type: number, event: PointerEvent | MouseWheelEvent);
+    class BoundingInfo implements ICullable {
+        minimum: Vector3;
+        maximum: Vector3;
+        boundingBox: BoundingBox;
+        boundingSphere: BoundingSphere;
+        private _isLocked;
+        constructor(minimum: Vector3, maximum: Vector3);
+        isLocked: boolean;
+        update(world: Matrix): void;
+        isInFrustum(frustumPlanes: Plane[]): boolean;
+        /**
+         * Gets the world distance between the min and max points of the bounding box
+         */
+        readonly diagonalLength: number;
+        isCompletelyInFrustum(frustumPlanes: Plane[]): boolean;
+        _checkCollision(collider: Collider): boolean;
+        intersectsPoint(point: Vector3): boolean;
+        intersects(boundingInfo: BoundingInfo, precise: boolean): boolean;
     }
-    /**
-     * This class is used to store pointer related info for the onPrePointerObservable event.
-     * Set the skipOnPointerObservable property to true if you want the engine to stop any process after this event is triggered, even not calling onPointerObservable
-     */
-    class PointerInfoPre extends PointerInfoBase {
-        constructor(type: number, event: PointerEvent | MouseWheelEvent, localX: any, localY: any);
-        localPosition: Vector2;
-        skipOnPointerObservable: boolean;
+}
+
+declare module BABYLON {
+    class BoundingSphere {
+        minimum: Vector3;
+        maximum: Vector3;
+        center: Vector3;
+        radius: number;
+        centerWorld: Vector3;
+        radiusWorld: number;
+        private _tempRadiusVector;
+        constructor(minimum: Vector3, maximum: Vector3);
+        _update(world: Matrix): void;
+        isInFrustum(frustumPlanes: Plane[]): boolean;
+        intersectsPoint(point: Vector3): boolean;
+        static Intersects(sphere0: BoundingSphere, sphere1: BoundingSphere): boolean;
     }
-    /**
-     * This type contains all the data related to a pointer event in Babylon.js.
-     * The event member is an instance of PointerEvent for all types except PointerWheel and is of type MouseWheelEvent when type equals PointerWheel. The different event types can be found in the PointerEventTypes class.
-     */
-    class PointerInfo extends PointerInfoBase {
-        pickInfo: PickingInfo;
-        constructor(type: number, event: PointerEvent | MouseWheelEvent, pickInfo: PickingInfo);
+}
+
+declare module BABYLON {
+    class Ray {
+        origin: Vector3;
+        direction: Vector3;
+        length: number;
+        private _edge1;
+        private _edge2;
+        private _pvec;
+        private _tvec;
+        private _qvec;
+        private _tmpRay;
+        private _rayHelper;
+        constructor(origin: Vector3, direction: Vector3, length?: number);
+        intersectsBoxMinMax(minimum: Vector3, maximum: Vector3): boolean;
+        intersectsBox(box: BoundingBox): boolean;
+        intersectsSphere(sphere: BoundingSphere): boolean;
+        intersectsTriangle(vertex0: Vector3, vertex1: Vector3, vertex2: Vector3): IntersectionInfo;
+        intersectsPlane(plane: Plane): number;
+        intersectsMesh(mesh: AbstractMesh, fastCheck?: boolean): PickingInfo;
+        intersectsMeshes(meshes: Array<AbstractMesh>, fastCheck?: boolean, results?: Array<PickingInfo>): Array<PickingInfo>;
+        private _comparePickingInfo(pickingInfoA, pickingInfoB);
+        private static smallnum;
+        private static rayl;
+        /**
+         * Intersection test between the ray and a given segment whithin a given tolerance (threshold)
+         * @param sega the first point of the segment to test the intersection against
+         * @param segb the second point of the segment to test the intersection against
+         * @param threshold the tolerance margin, if the ray doesn't intersect the segment but is close to the given threshold, the intersection is successful
+         * @return the distance from the ray origin to the intersection point if there's intersection, or -1 if there's no intersection
+         */
+        intersectionSegment(sega: Vector3, segb: Vector3, threshold: number): number;
+        static CreateNew(x: number, y: number, viewportWidth: number, viewportHeight: number, world: Matrix, view: Matrix, projection: Matrix): Ray;
+        /**
+        * Function will create a new transformed ray starting from origin and ending at the end point. Ray's length will be set, and ray will be
+        * transformed to the given world matrix.
+        * @param origin The origin point
+        * @param end The end point
+        * @param world a matrix to transform the ray to. Default is the identity matrix.
+        */
+        static CreateNewFromTo(origin: Vector3, end: Vector3, world?: Matrix): Ray;
+        static Transform(ray: Ray, matrix: Matrix): Ray;
+        static TransformToRef(ray: Ray, matrix: Matrix, result: Ray): void;
     }
 }
 
@@ -4507,135 +4319,323 @@ declare module BABYLON.Debug {
         renderingGroupId: number;
         color: Color3;
         private _scene;
-        private _debugLines;
-        private _debugMesh;
-        private _isEnabled;
-        private _renderFunction;
-        constructor(skeleton: Skeleton, mesh: AbstractMesh, scene: Scene, autoUpdateBonesMatrices?: boolean, renderingGroupId?: number);
-        isEnabled: boolean;
-        private _getBonePosition(position, bone, meshMat, x?, y?, z?);
-        private _getLinesForBonesWithLength(bones, meshMat);
-        private _getLinesForBonesNoLength(bones, meshMat);
-        update(): void;
-        dispose(): void;
+        private _debugLines;
+        private _debugMesh;
+        private _isEnabled;
+        private _renderFunction;
+        constructor(skeleton: Skeleton, mesh: AbstractMesh, scene: Scene, autoUpdateBonesMatrices?: boolean, renderingGroupId?: number);
+        isEnabled: boolean;
+        private _getBonePosition(position, bone, meshMat, x?, y?, z?);
+        private _getLinesForBonesWithLength(bones, meshMat);
+        private _getLinesForBonesNoLength(bones, meshMat);
+        update(): void;
+        dispose(): void;
+    }
+}
+
+declare module BABYLON {
+    class KeyboardEventTypes {
+        static _KEYDOWN: number;
+        static _KEYUP: number;
+        static readonly KEYDOWN: number;
+        static readonly KEYUP: number;
+    }
+    class KeyboardInfo {
+        type: number;
+        event: KeyboardEvent;
+        constructor(type: number, event: KeyboardEvent);
+    }
+    /**
+     * This class is used to store keyboard related info for the onPreKeyboardObservable event.
+     * Set the skipOnKeyboardObservable property to true if you want the engine to stop any process after this event is triggered, even not calling onKeyboardObservable
+     */
+    class KeyboardInfoPre extends KeyboardInfo {
+        constructor(type: number, event: KeyboardEvent);
+        skipOnPointerObservable: boolean;
+    }
+}
+
+declare module BABYLON {
+    class PointerEventTypes {
+        static _POINTERDOWN: number;
+        static _POINTERUP: number;
+        static _POINTERMOVE: number;
+        static _POINTERWHEEL: number;
+        static _POINTERPICK: number;
+        static _POINTERTAP: number;
+        static _POINTERDOUBLETAP: number;
+        static readonly POINTERDOWN: number;
+        static readonly POINTERUP: number;
+        static readonly POINTERMOVE: number;
+        static readonly POINTERWHEEL: number;
+        static readonly POINTERPICK: number;
+        static readonly POINTERTAP: number;
+        static readonly POINTERDOUBLETAP: number;
+    }
+    class PointerInfoBase {
+        type: number;
+        event: PointerEvent | MouseWheelEvent;
+        constructor(type: number, event: PointerEvent | MouseWheelEvent);
+    }
+    /**
+     * This class is used to store pointer related info for the onPrePointerObservable event.
+     * Set the skipOnPointerObservable property to true if you want the engine to stop any process after this event is triggered, even not calling onPointerObservable
+     */
+    class PointerInfoPre extends PointerInfoBase {
+        constructor(type: number, event: PointerEvent | MouseWheelEvent, localX: any, localY: any);
+        localPosition: Vector2;
+        skipOnPointerObservable: boolean;
+    }
+    /**
+     * This type contains all the data related to a pointer event in Babylon.js.
+     * The event member is an instance of PointerEvent for all types except PointerWheel and is of type MouseWheelEvent when type equals PointerWheel. The different event types can be found in the PointerEventTypes class.
+     */
+    class PointerInfo extends PointerInfoBase {
+        pickInfo: PickingInfo;
+        constructor(type: number, event: PointerEvent | MouseWheelEvent, pickInfo: PickingInfo);
+    }
+}
+
+declare module BABYLON {
+    class Collider {
+        radius: Vector3;
+        retry: number;
+        velocity: Vector3;
+        basePoint: Vector3;
+        epsilon: number;
+        collisionFound: boolean;
+        velocityWorldLength: number;
+        basePointWorld: Vector3;
+        velocityWorld: Vector3;
+        normalizedVelocity: Vector3;
+        initialVelocity: Vector3;
+        initialPosition: Vector3;
+        nearestDistance: number;
+        intersectionPoint: Vector3;
+        collidedMesh: AbstractMesh;
+        private _collisionPoint;
+        private _planeIntersectionPoint;
+        private _tempVector;
+        private _tempVector2;
+        private _tempVector3;
+        private _tempVector4;
+        private _edge;
+        private _baseToVertex;
+        private _destinationPoint;
+        private _slidePlaneNormal;
+        private _displacementVector;
+        private _collisionMask;
+        collisionMask: number;
+        _initialize(source: Vector3, dir: Vector3, e: number): void;
+        _checkPointInTriangle(point: Vector3, pa: Vector3, pb: Vector3, pc: Vector3, n: Vector3): boolean;
+        _canDoCollision(sphereCenter: Vector3, sphereRadius: number, vecMin: Vector3, vecMax: Vector3): boolean;
+        _testTriangle(faceIndex: number, trianglePlaneArray: Array<Plane>, p1: Vector3, p2: Vector3, p3: Vector3, hasMaterial: boolean): void;
+        _collide(trianglePlaneArray: Array<Plane>, pts: Vector3[], indices: IndicesArray, indexStart: number, indexEnd: number, decal: number, hasMaterial: boolean): void;
+        _getResponse(pos: Vector3, vel: Vector3): void;
+    }
+}
+
+declare module BABYLON {
+    var CollisionWorker: string;
+    interface ICollisionCoordinator {
+        getNewPosition(position: Vector3, displacement: Vector3, collider: Collider, maximumRetry: number, excludedMesh: AbstractMesh, onNewPosition: (collisionIndex: number, newPosition: Vector3, collidedMesh?: AbstractMesh) => void, collisionIndex: number): void;
+        init(scene: Scene): void;
+        destroy(): void;
+        onMeshAdded(mesh: AbstractMesh): any;
+        onMeshUpdated(mesh: AbstractMesh): any;
+        onMeshRemoved(mesh: AbstractMesh): any;
+        onGeometryAdded(geometry: Geometry): any;
+        onGeometryUpdated(geometry: Geometry): any;
+        onGeometryDeleted(geometry: Geometry): any;
+    }
+    interface SerializedMesh {
+        id: string;
+        name: string;
+        uniqueId: number;
+        geometryId: string;
+        sphereCenter: Array<number>;
+        sphereRadius: number;
+        boxMinimum: Array<number>;
+        boxMaximum: Array<number>;
+        worldMatrixFromCache: any;
+        subMeshes: Array<SerializedSubMesh>;
+        checkCollisions: boolean;
+    }
+    interface SerializedSubMesh {
+        position: number;
+        verticesStart: number;
+        verticesCount: number;
+        indexStart: number;
+        indexCount: number;
+        hasMaterial: boolean;
+        sphereCenter: Array<number>;
+        sphereRadius: number;
+        boxMinimum: Array<number>;
+        boxMaximum: Array<number>;
+    }
+    interface SerializedGeometry {
+        id: string;
+        positions: Float32Array;
+        indices: Uint32Array;
+        normals: Float32Array;
+    }
+    interface BabylonMessage {
+        taskType: WorkerTaskType;
+        payload: InitPayload | CollidePayload | UpdatePayload;
+    }
+    interface SerializedColliderToWorker {
+        position: Array<number>;
+        velocity: Array<number>;
+        radius: Array<number>;
+    }
+    enum WorkerTaskType {
+        INIT = 0,
+        UPDATE = 1,
+        COLLIDE = 2,
+    }
+    interface WorkerReply {
+        error: WorkerReplyType;
+        taskType: WorkerTaskType;
+        payload?: any;
+    }
+    interface CollisionReplyPayload {
+        newPosition: Array<number>;
+        collisionId: number;
+        collidedMeshUniqueId: number;
+    }
+    interface InitPayload {
+    }
+    interface CollidePayload {
+        collisionId: number;
+        collider: SerializedColliderToWorker;
+        maximumRetry: number;
+        excludedMeshUniqueId?: number;
+    }
+    interface UpdatePayload {
+        updatedMeshes: {
+            [n: number]: SerializedMesh;
+        };
+        updatedGeometries: {
+            [s: string]: SerializedGeometry;
+        };
+        removedMeshes: Array<number>;
+        removedGeometries: Array<string>;
+    }
+    enum WorkerReplyType {
+        SUCCESS = 0,
+        UNKNOWN_ERROR = 1,
+    }
+    class CollisionCoordinatorWorker implements ICollisionCoordinator {
+        private _scene;
+        private _scaledPosition;
+        private _scaledVelocity;
+        private _collisionsCallbackArray;
+        private _init;
+        private _runningUpdated;
+        private _runningCollisionTask;
+        private _worker;
+        private _addUpdateMeshesList;
+        private _addUpdateGeometriesList;
+        private _toRemoveMeshesArray;
+        private _toRemoveGeometryArray;
+        constructor();
+        static SerializeMesh: (mesh: AbstractMesh) => SerializedMesh;
+        static SerializeGeometry: (geometry: Geometry) => SerializedGeometry;
+        getNewPosition(position: Vector3, displacement: Vector3, collider: Collider, maximumRetry: number, excludedMesh: AbstractMesh, onNewPosition: (collisionIndex: number, newPosition: Vector3, collidedMesh?: AbstractMesh) => void, collisionIndex: number): void;
+        init(scene: Scene): void;
+        destroy(): void;
+        onMeshAdded(mesh: AbstractMesh): void;
+        onMeshUpdated: (mesh: AbstractMesh) => void;
+        onMeshRemoved(mesh: AbstractMesh): void;
+        onGeometryAdded(geometry: Geometry): void;
+        onGeometryUpdated: (geometry: Geometry) => void;
+        onGeometryDeleted(geometry: Geometry): void;
+        private _afterRender;
+        private _onMessageFromWorker;
+    }
+    class CollisionCoordinatorLegacy implements ICollisionCoordinator {
+        private _scene;
+        private _scaledPosition;
+        private _scaledVelocity;
+        private _finalPosition;
+        getNewPosition(position: Vector3, displacement: Vector3, collider: Collider, maximumRetry: number, excludedMesh: AbstractMesh, onNewPosition: (collisionIndex: number, newPosition: Vector3, collidedMesh?: AbstractMesh) => void, collisionIndex: number): void;
+        init(scene: Scene): void;
+        destroy(): void;
+        onMeshAdded(mesh: AbstractMesh): void;
+        onMeshUpdated(mesh: AbstractMesh): void;
+        onMeshRemoved(mesh: AbstractMesh): void;
+        onGeometryAdded(geometry: Geometry): void;
+        onGeometryUpdated(geometry: Geometry): void;
+        onGeometryDeleted(geometry: Geometry): void;
+        private _collideWithWorld(position, velocity, collider, maximumRetry, finalPosition, excludedMesh?);
     }
 }
 
 declare module BABYLON {
-    class BoundingBox implements ICullable {
-        minimum: Vector3;
-        maximum: Vector3;
-        vectors: Vector3[];
-        center: Vector3;
-        centerWorld: Vector3;
-        extendSize: Vector3;
-        extendSizeWorld: Vector3;
-        directions: Vector3[];
-        vectorsWorld: Vector3[];
-        minimumWorld: Vector3;
-        maximumWorld: Vector3;
-        private _worldMatrix;
-        constructor(minimum: Vector3, maximum: Vector3);
-        getWorldMatrix(): Matrix;
-        setWorldMatrix(matrix: Matrix): BoundingBox;
-        _update(world: Matrix): void;
-        isInFrustum(frustumPlanes: Plane[]): boolean;
-        isCompletelyInFrustum(frustumPlanes: Plane[]): boolean;
-        intersectsPoint(point: Vector3): boolean;
-        intersectsSphere(sphere: BoundingSphere): boolean;
-        intersectsMinMax(min: Vector3, max: Vector3): boolean;
-        static Intersects(box0: BoundingBox, box1: BoundingBox): boolean;
-        static IntersectsSphere(minPoint: Vector3, maxPoint: Vector3, sphereCenter: Vector3, sphereRadius: number): boolean;
-        static IsCompletelyInFrustum(boundingVectors: Vector3[], frustumPlanes: Plane[]): boolean;
-        static IsInFrustum(boundingVectors: Vector3[], frustumPlanes: Plane[]): boolean;
+    var WorkerIncluded: boolean;
+    class CollisionCache {
+        private _meshes;
+        private _geometries;
+        getMeshes(): {
+            [n: number]: SerializedMesh;
+        };
+        getGeometries(): {
+            [s: number]: SerializedGeometry;
+        };
+        getMesh(id: any): SerializedMesh;
+        addMesh(mesh: SerializedMesh): void;
+        removeMesh(uniqueId: number): void;
+        getGeometry(id: string): SerializedGeometry;
+        addGeometry(geometry: SerializedGeometry): void;
+        removeGeometry(id: string): void;
     }
-}
-
-declare module BABYLON {
-    interface ICullable {
-        isInFrustum(frustumPlanes: Plane[]): boolean;
-        isCompletelyInFrustum(frustumPlanes: Plane[]): boolean;
+    class CollideWorker {
+        collider: Collider;
+        private _collisionCache;
+        private finalPosition;
+        private collisionsScalingMatrix;
+        private collisionTranformationMatrix;
+        constructor(collider: Collider, _collisionCache: CollisionCache, finalPosition: Vector3);
+        collideWithWorld(position: Vector3, velocity: Vector3, maximumRetry: number, excludedMeshUniqueId?: number): void;
+        private checkCollision(mesh);
+        private processCollisionsForSubMeshes(transformMatrix, mesh);
+        private collideForSubMesh(subMesh, transformMatrix, meshGeometry);
+        private checkSubmeshCollision(subMesh);
     }
-    class BoundingInfo implements ICullable {
-        minimum: Vector3;
-        maximum: Vector3;
-        boundingBox: BoundingBox;
-        boundingSphere: BoundingSphere;
-        private _isLocked;
-        constructor(minimum: Vector3, maximum: Vector3);
-        isLocked: boolean;
-        update(world: Matrix): void;
-        isInFrustum(frustumPlanes: Plane[]): boolean;
-        /**
-         * Gets the world distance between the min and max points of the bounding box
-         */
-        readonly diagonalLength: number;
-        isCompletelyInFrustum(frustumPlanes: Plane[]): boolean;
-        _checkCollision(collider: Collider): boolean;
-        intersectsPoint(point: Vector3): boolean;
-        intersects(boundingInfo: BoundingInfo, precise: boolean): boolean;
+    interface ICollisionDetector {
+        onInit(payload: InitPayload): void;
+        onUpdate(payload: UpdatePayload): void;
+        onCollision(payload: CollidePayload): void;
     }
-}
-
-declare module BABYLON {
-    class BoundingSphere {
-        minimum: Vector3;
-        maximum: Vector3;
-        center: Vector3;
-        radius: number;
-        centerWorld: Vector3;
-        radiusWorld: number;
-        private _tempRadiusVector;
-        constructor(minimum: Vector3, maximum: Vector3);
-        _update(world: Matrix): void;
-        isInFrustum(frustumPlanes: Plane[]): boolean;
-        intersectsPoint(point: Vector3): boolean;
-        static Intersects(sphere0: BoundingSphere, sphere1: BoundingSphere): boolean;
+    class CollisionDetectorTransferable implements ICollisionDetector {
+        private _collisionCache;
+        onInit(payload: InitPayload): void;
+        onUpdate(payload: UpdatePayload): void;
+        onCollision(payload: CollidePayload): void;
     }
 }
 
 declare module BABYLON {
-    class Ray {
-        origin: Vector3;
-        direction: Vector3;
-        length: number;
-        private _edge1;
-        private _edge2;
-        private _pvec;
-        private _tvec;
-        private _qvec;
-        private _tmpRay;
-        private _rayHelper;
-        constructor(origin: Vector3, direction: Vector3, length?: number);
-        intersectsBoxMinMax(minimum: Vector3, maximum: Vector3): boolean;
-        intersectsBox(box: BoundingBox): boolean;
-        intersectsSphere(sphere: BoundingSphere): boolean;
-        intersectsTriangle(vertex0: Vector3, vertex1: Vector3, vertex2: Vector3): IntersectionInfo;
-        intersectsPlane(plane: Plane): number;
-        intersectsMesh(mesh: AbstractMesh, fastCheck?: boolean): PickingInfo;
-        intersectsMeshes(meshes: Array<AbstractMesh>, fastCheck?: boolean, results?: Array<PickingInfo>): Array<PickingInfo>;
-        private _comparePickingInfo(pickingInfoA, pickingInfoB);
-        private static smallnum;
-        private static rayl;
-        /**
-         * Intersection test between the ray and a given segment whithin a given tolerance (threshold)
-         * @param sega the first point of the segment to test the intersection against
-         * @param segb the second point of the segment to test the intersection against
-         * @param threshold the tolerance margin, if the ray doesn't intersect the segment but is close to the given threshold, the intersection is successful
-         * @return the distance from the ray origin to the intersection point if there's intersection, or -1 if there's no intersection
-         */
-        intersectionSegment(sega: Vector3, segb: Vector3, threshold: number): number;
-        static CreateNew(x: number, y: number, viewportWidth: number, viewportHeight: number, world: Matrix, view: Matrix, projection: Matrix): Ray;
-        /**
-        * Function will create a new transformed ray starting from origin and ending at the end point. Ray's length will be set, and ray will be
-        * transformed to the given world matrix.
-        * @param origin The origin point
-        * @param end The end point
-        * @param world a matrix to transform the ray to. Default is the identity matrix.
-        */
-        static CreateNewFromTo(origin: Vector3, end: Vector3, world?: Matrix): Ray;
-        static Transform(ray: Ray, matrix: Matrix): Ray;
-        static TransformToRef(ray: Ray, matrix: Matrix, result: Ray): void;
+    class IntersectionInfo {
+        bu: number;
+        bv: number;
+        distance: number;
+        faceId: number;
+        subMeshId: number;
+        constructor(bu: number, bv: number, distance: number);
+    }
+    class PickingInfo {
+        hit: boolean;
+        distance: number;
+        pickedPoint: Vector3;
+        pickedMesh: AbstractMesh;
+        bu: number;
+        bv: number;
+        faceId: number;
+        subMeshId: number;
+        pickedSprite: Sprite;
+        getNormal(useWorldCoordinates?: boolean, useVerticesNormals?: boolean): Vector3;
+        getTextureCoordinates(): Vector2;
     }
 }
 
@@ -13689,6 +13689,36 @@ declare module BABYLON {
 }
 
 declare module BABYLON {
+    class ReflectionProbe {
+        name: string;
+        private _scene;
+        private _renderTargetTexture;
+        private _projectionMatrix;
+        private _viewMatrix;
+        private _target;
+        private _add;
+        private _attachedMesh;
+        invertYAxis: boolean;
+        position: Vector3;
+        constructor(name: string, size: number, scene: Scene, generateMipMaps?: boolean);
+        samples: number;
+        refreshRate: number;
+        getScene(): Scene;
+        readonly cubeTexture: RenderTargetTexture;
+        readonly renderList: AbstractMesh[];
+        attachToMesh(mesh: AbstractMesh): void;
+        /**
+         * Specifies whether or not the stencil and depth buffer are cleared between two rendering groups.
+         *
+         * @param renderingGroupId The rendering group id corresponding to its index
+         * @param autoClearDepthStencil Automatically clears depth and stencil between groups if true.
+         */
+        setRenderingAutoClearDepthStencil(renderingGroupId: number, autoClearDepthStencil: boolean): void;
+        dispose(): void;
+    }
+}
+
+declare module BABYLON {
     class AnaglyphPostProcess extends PostProcess {
         private _passedProcess;
         constructor(name: string, options: number | PostProcessOptions, rigCameras: Camera[], samplingMode?: number, engine?: Engine, reusable?: boolean);
@@ -14215,36 +14245,6 @@ declare module BABYLON {
 }
 
 declare module BABYLON {
-    class ReflectionProbe {
-        name: string;
-        private _scene;
-        private _renderTargetTexture;
-        private _projectionMatrix;
-        private _viewMatrix;
-        private _target;
-        private _add;
-        private _attachedMesh;
-        invertYAxis: boolean;
-        position: Vector3;
-        constructor(name: string, size: number, scene: Scene, generateMipMaps?: boolean);
-        samples: number;
-        refreshRate: number;
-        getScene(): Scene;
-        readonly cubeTexture: RenderTargetTexture;
-        readonly renderList: AbstractMesh[];
-        attachToMesh(mesh: AbstractMesh): void;
-        /**
-         * Specifies whether or not the stencil and depth buffer are cleared between two rendering groups.
-         *
-         * @param renderingGroupId The rendering group id corresponding to its index
-         * @param autoClearDepthStencil Automatically clears depth and stencil between groups if true.
-         */
-        setRenderingAutoClearDepthStencil(renderingGroupId: number, autoClearDepthStencil: boolean): void;
-        dispose(): void;
-    }
-}
-
-declare module BABYLON {
     class BoundingBoxRenderer {
         frontColor: Color3;
         backColor: Color3;

dist/preview release/gui/babylon.gui.d.ts

@@ -210,6 +210,11 @@ declare module BABYLON.GUI {
         * @type {BABYLON.Observable}
         */
         onDirtyObservable: Observable<Control>;
+        /**
+       * An event triggered after the control is drawn
+       * @type {BABYLON.Observable}
+       */
+        onAfterDrawObservable: Observable<Control>;
         alpha: number;
         scaleX: number;
         scaleY: number;

dist/preview release/gui/babylon.gui.js

@@ -799,6 +799,11 @@ var BABYLON;
                 * @type {BABYLON.Observable}
                 */
                 this.onDirtyObservable = new BABYLON.Observable();
+                /**
+               * An event triggered after the control is drawn
+               * @type {BABYLON.Observable}
+               */
+                this.onAfterDrawObservable = new BABYLON.Observable();
             }
             Object.defineProperty(Control.prototype, "typeName", {
                 // Properties
@@ -1888,10 +1893,16 @@ var BABYLON;
                         var child = _a[_i];
                         if (child.isVisible && !child.notRenderable) {
                             child._draw(this._measureForChildren, context);
+                            if (child.onAfterDrawObservable.hasObservers()) {
+                                child.onAfterDrawObservable.notifyObservers(child);
+                            }
                         }
                     }
                 }
                 context.restore();
+                if (this.onAfterDrawObservable.hasObservers()) {
+                    this.onAfterDrawObservable.notifyObservers(this);
+                }
             };
             Container.prototype._processPicking = function (x, y, type, buttonIndex) {
                 if (!this.isHitTestVisible || !this.isVisible || this.notRenderable) {

dist/preview release/gui/babylon.gui.module.d.ts

@@ -215,6 +215,11 @@ declare module BABYLON.GUI {
         * @type {BABYLON.Observable}
         */
         onDirtyObservable: Observable<Control>;
+        /**
+       * An event triggered after the control is drawn
+       * @type {BABYLON.Observable}
+       */
+        onAfterDrawObservable: Observable<Control>;
         alpha: number;
         scaleX: number;
         scaleY: number;

dist/preview release/inspector/babylon.inspector.d.ts

@@ -513,7 +513,7 @@ declare module INSPECTOR {
 declare module INSPECTOR {
     class MeshAdapter extends Adapter implements IToolVisible, IToolDebug, IToolBoundingBox, IToolInfo {
         /** Keep track of the axis of the actual object */
-        private _axis;
+        private _axesViewer;
         constructor(obj: BABYLON.AbstractMesh);
         /** Returns the name displayed in the tree */
         id(): string;

dist/preview release/inspector/babylon.inspector.js

@@ -1338,10 +1338,7 @@ var INSPECTOR;
     var MeshAdapter = (function (_super) {
         __extends(MeshAdapter, _super);
         function MeshAdapter(obj) {
-            var _this = _super.call(this, obj) || this;
-            /** Keep track of the axis of the actual object */
-            _this._axis = [];
-            return _this;
+            return _super.call(this, obj) || this;
         }
         /** Returns the name displayed in the tree */
         MeshAdapter.prototype.id = function () {
@@ -1384,13 +1381,13 @@ var INSPECTOR;
         };
         MeshAdapter.prototype.debug = function (b) {
             // Draw axis the first time
-            if (this._axis.length == 0) {
+            if (!this._axesViewer) {
                 this._drawAxis();
             }
             // Display or hide axis
-            for (var _i = 0, _a = this._axis; _i < _a.length; _i++) {
-                var ax = _a[_i];
-                ax.setEnabled(b);
+            if (!b && this._axesViewer) {
+                this._axesViewer.dispose();
+                this._axesViewer = null;
             }
         };
         /** Returns some information about this mesh */
@@ -1401,35 +1398,14 @@ var INSPECTOR;
          * Should be called only one time as it will fill this._axis
          */
         MeshAdapter.prototype._drawAxis = function () {
-            var _this = this;
             this._obj.computeWorldMatrix();
             var m = this._obj.getWorldMatrix();
             // Axis
             var x = new BABYLON.Vector3(8 / this._obj.scaling.x, 0, 0);
             var y = new BABYLON.Vector3(0, 8 / this._obj.scaling.y, 0);
             var z = new BABYLON.Vector3(0, 0, 8 / this._obj.scaling.z);
-            // Draw an axis of the given color
-            var _drawAxis = function (color, start, end) {
-                var axis = BABYLON.Mesh.CreateLines("###axis###", [
-                    start,
-                    end
-                ], _this._obj.getScene());
-                axis.color = color;
-                axis.renderingGroupId = 1;
-                return axis;
-            };
-            // X axis
-            var xAxis = _drawAxis(BABYLON.Color3.Red(), BABYLON.Vector3.Zero(), x);
-            xAxis.parent = this._obj;
-            this._axis.push(xAxis);
-            // Y axis        
-            var yAxis = _drawAxis(BABYLON.Color3.Green(), BABYLON.Vector3.Zero(), y);
-            yAxis.parent = this._obj;
-            this._axis.push(yAxis);
-            // Z axis
-            var zAxis = _drawAxis(BABYLON.Color3.Blue(), BABYLON.Vector3.Zero(), z);
-            zAxis.parent = this._obj;
-            this._axis.push(zAxis);
+            this._axesViewer = new BABYLON.Debug.AxesViewer(this._obj.getScene());
+            this._axesViewer.update(this._obj.position, x, y, z);
         };
         return MeshAdapter;
     }(INSPECTOR.Adapter));

src/Lights/Shadows/babylon.shadowGenerator.ts

@@ -893,7 +893,7 @@
             else if (parsedShadowGenerator.useCloseExponentialShadowMap) {
                 shadowGenerator.useCloseExponentialShadowMap = true;
             }
-            else if (parsedShadowGenerator.useBlurExponentialShadowMap) {
+            else if (parsedShadowGenerator.useBlurCloseExponentialShadowMap) {
                 shadowGenerator.useBlurCloseExponentialShadowMap = true;
             }