// Type definitions for PIXI 2.0.0 dev 2014-10-19 // Project: https://github.com/GoodBoyDigital/pixi.js/ declare module PIXI { export var WEBGL_RENDERER: number; export var CANVAS_RENDERER: number; export var VERSION: string; export enum blendModes { NORMAL, ADD, MULTIPLY, SCREEN, OVERLAY, DARKEN, LIGHTEN, COLOR_DODGE, COLOR_BURN, HARD_LIGHT, SOFT_LIGHT, DIFFERENCE, EXCLUSION, HUE, SATURATION, COLOR, LUMINOSITY } export enum scaleModes { DEFAULT, LINEAR, NEAREST } export var defaultRenderOptions: PixiRendererOptions; export var INTERACTION_REQUENCY: number; export var AUTO_PREVENT_DEFAULT: boolean; export var PI_2: number; export var RAD_TO_DEG: number; export var DEG_TO_RAD: number; export var RETINA_PREFIX: string; export var identityMatrix: Matrix; export var glContexts: WebGLRenderingContext[]; export var BaseTextureCache: { [key: string]: BaseTexture } export var TextureCache: { [key: string]: Texture } export function rgb2hex(rgb: number[]): string; export function hex2rgb(hex: string): number[]; export function autoDetectRenderer(width?: number, height?: number, options?: PixiRendererOptions): PixiRenderer; export function autoDetectRecommendedRenderer(width?: number, height?: number, options?: PixiRendererOptions): PixiRenderer; export function canUseNewCanvasBlendModes(): boolean; export function getNextPowerOfTwo(number: number): number; export function AjaxRequest(): XMLHttpRequest; export function CompileFragmentShader(gl: WebGLRenderingContext, shaderSrc: any): any; export function CompileProgram(gl: WebGLRenderingContext, vertexSrc: any[], fragmentSrc: any): any; export interface IEventCallback { (e?: IEvent): void } export interface IEvent { type: string; content: any; } export interface HitArea { contains(x: number, y: number): boolean; } export interface IInteractionDataCallback { (interactionData: InteractionData): void } export interface PixiRenderer { height: number; transparent: boolean; type: number; width: number; view: HTMLCanvasElement; render(stage: Stage): void; resize(width: number, height: number): void; } export interface PixiRendererOptions { antialias: boolean; clearBeforeRender: boolean; preserveDrawingBuffer: boolean; resolution: number; transparent: boolean; view: HTMLCanvasElement; } export interface BitmapTextStyle { font?: string; align?: string; tint?: string; } export interface TextStyle { align?: string; dropShadow?: boolean; dropShadowColor?: string; dropShadowAngle?: number; dropShadowDistance?: number; fill?: string; font?: string; stroke?: string; strokeThickness?: number; wordWrap?: boolean; wordWrapWidth?: number; } export interface Loader { load(): void; } export interface MaskData { alpha: number; worldTransform: number[]; } export interface RenderSession { context: CanvasRenderingContext2D; maskManager: CanvasMaskManager; scaleMode: scaleModes; smoothProperty: string; roundPixels: boolean; } export interface ShaderAttribute { // TODO: Find signature of shader attributes } export interface FilterBlock { visible: boolean; renderable: boolean; } export class AbstractFilter { constructor(fragmentSrc: any, uniforms: any); dirty: boolean; padding: number; apply(frameBuffer: WebGLFramebuffer): void; syncUniforms(): void; } export class AlphaMaskFilter extends AbstractFilter { constructor(texture: Texture); map: Texture; onTextureLoaded(): void; } export class AsciiFilter extends AbstractFilter { size: number; } export class AssetLoader implements Mixin { assetURLs: string[]; crossorigin: boolean; loadersByType: { [key: string]: Loader }; constructor(assetURLs: string[], crossorigin: boolean); listeners(eventName: string): Function[]; emit(eventName: string, data?: any): boolean; dispatchEvent(eventName: string, data?: any): boolean; on(eventName: string, fn: Function): Function; addEventListener(eventName: string, fn: Function): Function; once(eventName: string, fn: Function): Function; off(eventName: string, fn: Function): Function; removeAllEventListeners(eventName: string): void; load(): void; } export class AtlasLoader implements Mixin { url: string; baseUrl: string; crossorigin: boolean; loaded: boolean; constructor(url: string, crossorigin: boolean); listeners(eventName: string): Function[]; emit(eventName: string, data?: any): boolean; dispatchEvent(eventName: string, data?: any): boolean; on(eventName: string, fn: Function): Function; addEventListener(eventName: string, fn: Function): Function; once(eventName: string, fn: Function): Function; off(eventName: string, fn: Function): Function; removeAllEventListeners(eventName: string): void; load(): void; } export class BaseTexture implements Mixin { static fromImage(imageUrl: string, crossorigin?: boolean, scaleMode?: scaleModes): BaseTexture; static fromCanvas(canvas: HTMLCanvasElement, scaleMode?: scaleModes): BaseTexture; constructor(source: HTMLImageElement, scaleMode: scaleModes); constructor(source: HTMLCanvasElement, scaleMode: scaleModes); height: number; hasLoaded: boolean; premultipliedAlpha: boolean; resolution: number; scaleMode: scaleModes; source: HTMLImageElement; width: number; listeners(eventName: string): Function[]; emit(eventName: string, data?: any): boolean; dispatchEvent(eventName: string, data?: any): boolean; on(eventName: string, fn: Function): Function; addEventListener(eventName: string, fn: Function): Function; once(eventName: string, fn: Function): Function; off(eventName: string, fn: Function): Function; removeAllEventListeners(eventName: string): void; destroy(): void; dirty(): void; updateSourceImage(newSrc: string): void; } export class BitmapFontLoader implements Mixin { constructor(url: string, crossorigin: boolean); baseUrl: string; crossorigin: boolean; texture: Texture; url: string; listeners(eventName: string): Function[]; emit(eventName: string, data?: any): boolean; dispatchEvent(eventName: string, data?: any): boolean; on(eventName: string, fn: Function): Function; addEventListener(eventName: string, fn: Function): Function; once(eventName: string, fn: Function): Function; off(eventName: string, fn: Function): Function; removeAllEventListeners(eventName: string): void; load(): void; } export class BitmapText extends DisplayObjectContainer { static fonts: any; constructor(text: string, style: BitmapTextStyle); dirty: boolean; fontName: string; fontSize: number; textWidth: number; textHeight: number; tint: number; style: BitmapTextStyle; setText(text: string): void; setStyle(style: BitmapTextStyle): void; } export class BlurFilter extends AbstractFilter { blur: number; blurX: number; blurY: number; } export class BlurXFilter extends AbstractFilter { blur: number; } export class BlurYFilter extends AbstractFilter { blur: number; } export class CanvasBuffer { constructor(width: number, height: number); canvas: HTMLCanvasElement; context: CanvasRenderingContext2D; height: number; width: number; clear(): void; resize(width: number, height: number): void; } export class CanvasMaskManager { pushMask(maskData: MaskData, renderSession: RenderSession): void; popMask(renderSession: RenderSession): void; } export class CanvasRenderer implements PixiRenderer { constructor(width?: number, height?: number, options?: PixiRendererOptions); clearBeforeRender: boolean; context: CanvasRenderingContext2D; count: number; height: number; maskManager: CanvasMaskManager; refresh: boolean; renderSession: RenderSession; resolution: number; transparent: boolean; type: number; view: HTMLCanvasElement; width: number; render(stage: Stage): void; resize(width: number, height: number): void; } export class CanvasTinter { static getTintedTexture(sprite: Sprite, color: number): HTMLCanvasElement; static tintWithMultiply(texture: Texture, color: number, canvas: HTMLCanvasElement): void; static tintWithOverlay(texture: Texture, color: number, canvas: HTMLCanvasElement): void; static tintWithPerPixel(texture: Texture, color: number, canvas: HTMLCanvasElement): void; static roundColor(color: number): void; static cacheStepsPerColorChannel: number; static convertTintToImage: boolean; static canUseMultiply: boolean; static tintMethod: any; } export class Circle implements HitArea { constructor(x: number, y: number, radius: number); x: number; y: number; radius: number; clone(): Circle; contains(x: number, y: number): boolean; getBounds(): Rectangle; } export class ColorMatrixFilter extends AbstractFilter { matrix: Matrix; } export class ColorStepFilter extends AbstractFilter { step: number; } export class ConvolutionFilter extends AbstractFilter { constructor(matrix: number[], width: number, height: number); matrix: number[]; width: number; height: number; } export class CrossHatchFilter extends AbstractFilter { blur: number; } export class DisplacementFilter extends AbstractFilter { constructor(texture: Texture); map: Texture; offset: Point; scale: Point; } export class DotScreenFilter extends AbstractFilter { angle: number; scale: Point; } export class DisplayObject { alpha: number; buttonMode: boolean; cacheAsBitmap: boolean; defaultCursor: string; filterArea: Rectangle; filters: AbstractFilter[]; hitArea: HitArea; interactive: boolean; mask: Graphics; parent: DisplayObjectContainer; pivot: Point; position: Point; renderable: boolean; rotation: number; scale: Point; stage: Stage; visible: boolean; worldAlpha: number; worldVisible: boolean; x: number; y: number; click(e: InteractionData): void; getBounds(matrix?: Matrix): Rectangle; getLocalBounds(): Rectangle; generateTexture(resolution: number, scaleMode: scaleModes, renderer: PixiRenderer): RenderTexture; mousedown(e: InteractionData): void; mouseout(e: InteractionData): void; mouseover(e: InteractionData): void; mouseup(e: InteractionData): void; mouseupoutside(e: InteractionData): void; rightclick(e: InteractionData): void; rightdown(e: InteractionData): void; rightup(e: InteractionData): void; rightupoutside(e: InteractionData): void; setStageReference(stage: Stage): void; tap(e: InteractionData): void; toGlobal(pos: Point): Point; toLocal(pos: Point, from: DisplayObject): Point; touchend(e: InteractionData): void; touchendoutside(e: InteractionData): void; touchstart(e: InteractionData): void; } export class DisplayObjectContainer extends DisplayObject { constructor(); children: DisplayObject[]; height: number; width: number; addChild(child: DisplayObject): DisplayObject; addChildAt(child: DisplayObject, index: number): DisplayObject; getBounds(): Rectangle; getChildAt(index: number): DisplayObject; getChildIndex(child: DisplayObject): number; getLocalBounds(): Rectangle; removeChild(child: DisplayObject): DisplayObject; removeChildAt(index: number): DisplayObject; removeChildren(beginIndex?: number, endIndex?: number): DisplayObject[]; removeStageReference(): void; setChildIndex(child: DisplayObject, index: number): void; swapChildren(child: DisplayObject, child2: DisplayObject): void; } export class Ellipse implements HitArea { constructor(x: number, y: number, width: number, height: number); x: number; y: number; width: number; height: number; clone(): Ellipse; contains(x: number, y: number): boolean; getBounds(): Rectangle; } export class Event { constructor(target: any, name: string, data: any); target: any; type: string; data: any; timeStamp: number; stopPropagation(): void; stopImmediatePropagation(): void; } export class EventTarget { static mixin(obj: any): void; } export class FilterTexture { constructor(gl: WebGLRenderingContext, width: number, height: number, scaleMode: scaleModes); fragmentSrc: string[]; frameBuffer: WebGLFramebuffer; gl: WebGLRenderingContext; program: WebGLProgram; scaleMode: scaleModes; texture: any; clear(): void; resize(width: number, height: number): void; destroy(): void; } export class Graphics extends DisplayObjectContainer { blendMode: number; boundsPadding: number; fillAlpha: number; isMask: boolean; lineWidth: number; lineColor: string; tint: number; arc(cx: number, cy: number, radius: number, startAngle: number, endAngle: number, anticlockwise: boolean): Graphics; arcTo(x1: number, y1: number, x2: number, y2: number, radius: number): Graphics; beginFill(color: number, alpha?: number): void; bezierCurveTo(cpX: number, cpY: number, cpX2: number, cpY2: number, toX: number, toY: number): Graphics; clear(): void; destroyCachedSprite(): void; drawCircle(x: number, y: number, radius: number): void; drawEllipse(x: number, y: number, width: number, height: number): void; drawPolygon(path: any): void; drawRect(x: number, y: number, width: number, height: number): void; drawRoundedRect(x: number, y: number, width: number, height: number, radius: number): Graphics; drawShape(shape: Circle): any; //GraphicsData? drawShape(shape: Rectangle): any; //GraphicsData? drawShape(shape: Ellipse): any; //GraphicsData? drawShape(shape: Polygon): any; //GraphicsData? endFill(): void; lineStyle(lineWidth: number, color: number, alpha: number): void; lineTo(x: number, y: number): void; moveTo(x: number, y: number): void; quadraticCurveTo(cpX: number, cpY: number, toX: number, toY: number): Graphics; updateBounds(): void; } export class GrayFilter extends AbstractFilter { gray: number; } export class ImageLoader implements Mixin { constructor(url: string, crossorigin?: boolean); texture: Texture; listeners(eventName: string): Function[]; emit(eventName: string, data?: any): boolean; dispatchEvent(eventName: string, data?: any): boolean; on(eventName: string, fn: Function): Function; addEventListener(eventName: string, fn: Function): Function; once(eventName: string, fn: Function): Function; off(eventName: string, fn: Function): Function; removeAllEventListeners(eventName: string): void; load(): void; loadFramedSpriteSheet(frameWidth: number, frameHeight: number, textureName: string): void; } export class InteractionData { global: Point; target: Sprite; originalEvent: Event; getLocalPosition(displayObject: DisplayObject): Point; } export class InteractionManager { currentCursorStyle: string; last: number; mouse: InteractionData; mouseOut: boolean; mouseoverEnabled: boolean; onMouseMove: Function; onMouseDown: Function; onMouseOut: Function; onMouseUp: Function; onTouchStart: Function; onTouchEnd: Function; onTouchMove: Function; pool: InteractionData[]; resolution: number; stage: Stage; touches: { [id: string]: InteractionData }; constructor(stage: Stage); } export class InvertFilter extends AbstractFilter { invert: number; } export class JsonLoader implements Mixin { constructor(url: string, crossorigin?: boolean); baseUrl: string; crossorigin: boolean; loaded: boolean; url: string; listeners(eventName: string): Function[]; emit(eventName: string, data?: any): boolean; dispatchEvent(eventName: string, data?: any): boolean; on(eventName: string, fn: Function): Function; addEventListener(eventName: string, fn: Function): Function; once(eventName: string, fn: Function): Function; off(eventName: string, fn: Function): Function; removeAllEventListeners(eventName: string): void; load(): void; } export class Matrix { a: number; b: number; c: number; d: number; tx: number; ty: number; append(matrix: Matrix): Matrix; apply(pos: Point, newPos: Point): Point; applyInverse(pos: Point, newPos: Point): Point; determineMatrixArrayType(): number[]; identity(): Matrix; rotate(angle: number): Matrix; fromArray(array: number[]): void; translate(x: number, y: number): Matrix; toArray(transpose: boolean): number[]; scale(x: number, y: number): Matrix; } export interface Mixin { listeners(eventName: string): Function[]; emit(eventName: string, data?: any): boolean; dispatchEvent(eventName: string, data?: any): boolean; on(eventName: string, fn: Function): Function; addEventListener(eventName: string, fn: Function): Function; once(eventName: string, fn: Function): Function; off(eventName: string, fn: Function): Function; removeAllEventListeners(eventName: string): void; } export class MovieClip extends Sprite { static fromFrames(frames: string[]): MovieClip; static fromImages(images: HTMLImageElement[]): HTMLImageElement; constructor(textures: Texture[]); animationSpeed: number; currentFrame: number; loop: boolean; playing: boolean; textures: Texture[]; totalFrames: number; gotoAndPlay(frameNumber: number): void; gotoAndStop(frameNumber: number): void; onComplete(): void; play(): void; stop(): void; } export class NoiseFilter extends AbstractFilter { noise: number; } export class NormalMapFilter extends AbstractFilter { map: Texture; offset: Point; scale: Point; } export class PixelateFilter extends AbstractFilter { size: number; } export class PixiShader { constructor(gl: WebGLRenderingContext); defaultVertexSrc: string; dirty: boolean; fragmentSrc: string[]; firstRun: boolean; gl: WebGLRenderingContext; program: WebGLProgram; textureCount: number; attributes: ShaderAttribute[]; destroy(): void; init(): void; initSampler2D(): void; initUniforms(): void; syncUniforms(): void; } export class Point { constructor(x?: number, y?: number); x: number; y: number; clone(): Point; set(x: number, y: number): void; } export class Polygon implements HitArea { constructor(points: Point[]); constructor(points: number[]); constructor(...points: Point[]); constructor(...points: number[]); points: Point[]; clone(): Polygon; contains(x: number, y: number): boolean; } export class Rectangle implements HitArea { constructor(x?: number, y?: number, width?: number, height?: number); x: number; y: number; width: number; height: number; clone(): Rectangle; contains(x: number, y: number): boolean; } export class RGBSplitFilter extends AbstractFilter { angle: number; } export class Rope extends Strip { points: Point[]; constructor(texture: Texture, points: Point[]); refresh(): void; setTexture(texture: Texture): void; } export class SepiaFilter extends AbstractFilter { sepia: number; } export class SmartBlurFilter extends AbstractFilter { blur: number; } export class SpineLoader implements Mixin { url: string; crossorigin: boolean; loaded: boolean; constructor(url: string, crossOrigin: boolean); listeners(eventName: string): Function[]; emit(eventName: string, data?: any): boolean; dispatchEvent(eventName: string, data?: any): boolean; on(eventName: string, fn: Function): Function; addEventListener(eventName: string, fn: Function): Function; once(eventName: string, fn: Function): Function; off(eventName: string, fn: Function): Function; removeAllEventListeners(eventName: string): void; load(): void; } export class Spine extends DisplayObjectContainer { constructor(url: string); createSprite(slot: any, descriptior: any): void; } export class Sprite extends DisplayObjectContainer { static fromFrame(frameId: string): Sprite; static fromImage(url: string, crossorigin?: boolean, scaleMode?: scaleModes): Sprite; constructor(texture: Texture); anchor: Point; blendMode: blendModes; shader: AbstractFilter; texture: Texture; tint: number; setTexture(texture: Texture): void; } export class SpriteBatch extends DisplayObjectContainer { constructor(texture?: Texture); ready: boolean; textureThing: Texture; initWebGL(gl: WebGLRenderingContext): void; } export class SpriteSheetLoader implements Mixin { constructor(url: string, crossorigin?: boolean); baseUrl: string; crossorigin: boolean; frames: any; texture: Texture; url: string; listeners(eventName: string): Function[]; emit(eventName: string, data?: any): boolean; dispatchEvent(eventName: string, data?: any): boolean; on(eventName: string, fn: Function): Function; addEventListener(eventName: string, fn: Function): Function; once(eventName: string, fn: Function): Function; off(eventName: string, fn: Function): Function; removeAllEventListeners(eventName: string): void; load(): void; } export class Stage extends DisplayObjectContainer { constructor(backgroundColor: number); interactionManager: InteractionManager; getMousePosition(): Point; setBackgroundColor(backgroundColor: number): void; setInteractionDelegate(domElement: HTMLElement): void; } export class Strip extends DisplayObjectContainer { constructor(texture: Texture); colors: number[]; dirty: boolean; indices: number[]; padding: number; texture: Texture; uvs: number[]; vertices: number[]; } export class Text extends Sprite { constructor(text: string, style?: TextStyle); context: CanvasRenderingContext2D; resolution: number; destroy(destroyTexture: boolean): void; setStyle(style: TextStyle): void; setText(text: string): void; } export class Texture implements Mixin { static fromCanvas(canvas: HTMLCanvasElement, scaleMode?: scaleModes): Texture; static fromFrame(frameId: string): Texture; static fromImage(imageUrl: string, crossorigin?: boolean, scaleMode?: scaleModes): Texture; static addTextureToCache(texture: Texture, id: string): void; static removeTextureFromCache(id: string): Texture; constructor(baseTexture: BaseTexture, frame?: Rectangle, crop?: Rectangle, trim?: Rectangle); baseTexture: BaseTexture; crop: Rectangle; frame: Rectangle; height: number; noFrame: boolean; requiresUpdate: boolean; trim: Point; width: number; scope: any; valid: boolean; listeners(eventName: string): Function[]; emit(eventName: string, data?: any): boolean; dispatchEvent(eventName: string, data?: any): boolean; on(eventName: string, fn: Function): Function; addEventListener(eventName: string, fn: Function): Function; once(eventName: string, fn: Function): Function; off(eventName: string, fn: Function): Function; removeAllEventListeners(eventName: string): void; destroy(destroyBase: boolean): void; setFrame(frame: Rectangle): void; } export class TilingSprite extends Sprite { constructor(texture: Texture, width: number, height: number); blendMode: number; texture: Texture; tint: number; tilePosition: Point; tileScale: Point; tileScaleOffset: Point; generateTilingTexture(forcePowerOfTwo: boolean): void; setTexture(texture: Texture): void; } export class TiltShiftFilter extends AbstractFilter { blur: number; gradientBlur: number; start: number; end: number; } export class TiltShiftXFilter extends AbstractFilter { blur: number; gradientBlur: number; start: number; end: number; updateDelta(): void; } export class TiltShiftYFilter extends AbstractFilter { blur: number; gradientBlur: number; start: number; end: number; updateDelta(): void; } export class TwistFilter extends AbstractFilter { angle: number; offset: Point; radius: number; } export class WebGLBlendModeManager { currentBlendMode: number; destroy(): void; setBlendMode(blendMode: number): boolean; setContext(gl: WebGLRenderingContext): void; } export class WebGLFastSpriteBatch { constructor(); currentBatchSize: number; currentBaseTexture: any; currentBlendMode: number; renderSession: RenderSession; drawing: boolean; indexBuffer: any; indices: number[]; lastIndexCount: number; matrix: any; maxSize: number; shader: any; size: number; vertexBuffer: any; vertices: number[]; vertSize: number; end(): void; begin(spriteBatch: SpriteBatch, renderSession: RenderSession): void; flush(): void; render(spriteBatch: SpriteBatch): void; renderSprite(sprite: Sprite): void; setContext(gl: WebGLRenderingContext): void; start(): void; stop(): void; } export class WebGLFilterManager { filterStack: AbstractFilter[]; transparent: boolean; offsetX: number; offsetY: number; applyFilterPass(filter: AbstractFilter, filterArea: Texture, width: number, height: number): void; begin(renderSession: RenderSession, buffer: ArrayBuffer): void; destroy(): void; initShaderBuffers(): void; popFilter(): void; pushFilter(filterBlock: FilterBlock): void; setContext(gl: WebGLRenderingContext): void; } export class WebGLGraphics { } export class WebGLMaskManager { destroy(): void; popMask(renderSession: RenderSession): void; pushMask(maskData: any[], renderSession: RenderSession): void; setContext(gl: WebGLRenderingContext): void; } export class WebGLRenderer implements PixiRenderer { static createWebGLTexture(texture: Texture, gl: WebGLRenderingContext): void; constructor(width?: number, height?: number, options?: PixiRendererOptions); clearBeforeRender: boolean; contextLost: boolean; contextLostBound: Function; contextRestoreLost: boolean; contextRestoredBound: Function; height: number; gl: WebGLRenderingContext; offset: Point; preserveDrawingBuffer: boolean; projection: Point; resolution: number; renderSession: RenderSession; shaderManager: WebGLShaderManager; spriteBatch: WebGLSpriteBatch; maskManager: WebGLMaskManager; filterManager: WebGLFilterManager; stencilManager: WebGLStencilManager; blendModeManager: WebGLBlendModeManager; transparent: boolean; type: number; view: HTMLCanvasElement; width: number; destroy(): void; initContext(): void; mapBlendModes(): void; render(stage: Stage): void; renderDisplayObject(displayObject: DisplayObject, projection: Point, buffer: WebGLBuffer): void; resize(width: number, height: number): void; updateTexture(texture: Texture): void; } export class WebGLShaderManager { maxAttibs: number; attribState: any[]; stack: any[]; destroy(): void; setAttribs(attribs: ShaderAttribute[]): void; setContext(gl: WebGLRenderingContext): void; setShader(shader: WebGLShader): boolean; } export class WebGLStencilManager { stencilStack: any[]; reverse: boolean; count: number; bindGraphics(graphics: Graphics, webGLData: any[], renderSession: RenderSession): void; destroy(): void; popStencil(graphics: Graphics, webGLData: any[], renderSession: RenderSession): void; pushStencil(graphics: Graphics, webGLData: any[], renderSession: RenderSession): void; setContext(gl: WebGLRenderingContext): void; } export class WebGLSpriteBatch { blendModes: number[]; currentBatchSize: number; currentBaseTexture: Texture; defaultShader: AbstractFilter; dirty: boolean; drawing: boolean; indices: number[]; lastIndexCount: number; textures: Texture[]; shaders: AbstractFilter[]; //todo WebGLShader[] or PixiShader[]? size: number; sprites: any[]; //todo Sprite[]? vertices: number[]; vertSize: number; begin(renderSession: RenderSession): void; destroy(): void; end(): void; flush(shader?: PixiShader): void; render(sprite: Sprite): void; renderBatch(texture: Texture, size: number, startIndex: number): void; renderTilingSprite(sprite: TilingSprite): void; setBlendMode(blendMode: blendModes): void; setContext(gl: WebGLRenderingContext): void; start(): void; stop(): void; } export class RenderTexture extends Texture { constructor(width?: number, height?: number, renderer?: PixiRenderer, scaleMode?: scaleModes, resolution?: number); frame: Rectangle; baseTexture: BaseTexture; renderer: PixiRenderer; resolution: number; valid: boolean; clear(): void; getBase64(): string; getCanvas(): HTMLCanvasElement; resize(width: number, height: number, updateBase: boolean): void; render(displayObject: DisplayObject, position?: Point, clear?: boolean): void; } } declare function requestAnimFrame(): void; declare module PIXI.PolyK { export function Triangulate(p: number[]): number[]; } // Type definitions for Phaser 2.1.3 dev 2014-10-19 // Project: https://github.com/photonstorm/phaser declare class Phaser { static VERSION: string; static DEV_VERSION: string; static GAMES: Phaser.Game[]; static AUTO: number; static CANVAS: number; static WEBGL: number; static HEADLESS: number; static BITMAPDATA: number; static BITMAPTEXT: number; static BUTTON: number; static CANVAS_FILTER: number; static ELLIPSE: number; static EMITTER: number; static GRAPHICS: number; static GROUP: number; static IMAGE: number; static POINTER: number; static POLYGON: number; static RENDERTEXTURE: number; static RETROFONT: number; static SPRITE: number; static SPRITEBATCH: number; static TEXT: number; static TILEMAP: number; static TILEMAPLAYER: number; static TILESPRITE: number; static WEBGL_FILTER: number; static ROPE: number; static NONE: number; static LEFT: number; static RIGHT: number; static UP: number; static DOWN: number; } declare module Phaser { class Animation { constructor(game: Phaser.Game, parent: Phaser.Sprite, name: string, frameData: Phaser.FrameData, frames: any[], frameRate?: number, loop?: boolean); currentAnim: Phaser.Animation; currentFrame: Phaser.Frame; delay: number; enableUpdate: boolean; frame: number; frameTotal: number; game: Phaser.Game; isFinished: boolean; isPaused: boolean; isPlaying: boolean; killOnComplete: boolean; loop: boolean; loopCount: number; name: string; onComplete: Phaser.Signal; onLoop: Phaser.Signal; onStart: Phaser.Signal; onUpdate: Phaser.Signal; paused: boolean; speed: number; complete(): void; destroy(): void; static generateFrameNames(prefix: string, start: number, stop: number, suffix?: string, zeroPad?: number): string[]; next(quantity?: number): void; onPause(): void; onResume(): void; play(frameRate?: number, loop?: boolean, killOnComplete?: boolean): Phaser.Animation; previous(quantity?: number): void; restart(): void; setFrame(frameId?: any, useLocalFrameIndex?: boolean): void; stop(resetFrame?: boolean, dispatchComplete?: boolean): void; update(): boolean; updateFrameData(frameData: FrameData): void; } class AnimationManager { constructor(sprite: Phaser.Sprite); currentAnim: Phaser.Animation; currentFrame: Phaser.Frame; frame: number; frameData: Phaser.FrameData; frameName: string; frameTotal: number; game: Phaser.Game; isLoaded: boolean; name: string; paused: boolean; sprite: Phaser.Sprite; updateIfVisible: boolean; add(name: string, frames?: any[], frameRate?: number, loop?: boolean, useNumericIndex?: boolean): Phaser.Animation; copyFrameData(frameData: Phaser.FrameData, frame: any): boolean; destroy(): void; getAnimation(name: string): Phaser.Animation; next(quantity?: number): void; play(name: string, frameRate?: number, loop?: boolean, killOnComplete?: boolean): Phaser.Animation; previous(quantity?: number): void; refreshFrame(): void; stop(name?: string, resetFrame?: boolean): void; update(): boolean; validateFrames(frames: Phaser.Frame[], useNumericIndex?: boolean): boolean; } class AnimationParser { static JSONData(game: Phaser.Game, json: any, cacheKey: string): Phaser.FrameData; static JSONDataHash(game: Phaser.Game, json: any, cacheKey: string): Phaser.FrameData; static spriteSheet(game: Phaser.Game, key: string, frameWidth: number, frameHeight: number, frameMax?: number, margin?: number, spacing?: number): Phaser.FrameData; static XMLData(game: Phaser.Game, xml: any, cacheKey: string): Phaser.FrameData; } class AudioSprite { constructor(game: Phaser.Game, key: string); game: Phaser.Game; key: string; config: any; autoplayKey: string; autoplay: boolean; sounds: any; get(marker: string): Phaser.Sound; play(marker: string, volume?: number): Phaser.Sound; stop(marker: string): Phaser.Sound; } class ArrayList { first: any; list: any[]; next: any; position: number; total: number; add(child: any): any; callAll(callback: Function, ...parameters: any[]): void; exists(child: any): boolean; getIndex(child: any): number; remove(child: any): any; reset(): void; setAll(key: any, value: any): void; } class BitmapData { constructor(game: Phaser.Game, key: string, width?: number, height?: number); baseTexture: PIXI.BaseTexture; buffer: ArrayBuffer; canvas: HTMLCanvasElement; context: CanvasRenderingContext2D; ctx: CanvasRenderingContext2D; data: Uint8Array; dirty: boolean; disableTextureUpload: boolean; game: Phaser.Game; height: number; imageData: ImageData; key: string; pixels: Uint32Array; smoothed: boolean; texture: PIXI.Texture; textureFrame: Phaser.Frame; type: number; width: number; static getTransform(translateX: number, translateY: number, scaleX: number, scaleY: number, skewX: number, skewY: number): any; add(object: any): Phaser.BitmapData; addToWorld(x?: number, y?: number, anchorX?: number, anchorY?: number, scaleX?: number, scaleY?: number): Phaser.Image; alphaMask(source: any, mask: any, sourceRect?: Phaser.Rectangle, maskRect?: Phaser.Rectangle): Phaser.BitmapData; blendAdd(): Phaser.BitmapData; blendColor(): Phaser.BitmapData; blendColorBurn(): Phaser.BitmapData; blendColorDodge(): Phaser.BitmapData; blendDarken(): Phaser.BitmapData; blendDestinationAtop(): Phaser.BitmapData; blendDestinationIn(): Phaser.BitmapData; blendDestinationOut(): Phaser.BitmapData; blendDestinationOver(): Phaser.BitmapData; blendDifference(): Phaser.BitmapData; blendExclusion(): Phaser.BitmapData; blendHardLight(): Phaser.BitmapData; blendHue(): Phaser.BitmapData; blendLighten(): Phaser.BitmapData; blendLuminosity(): Phaser.BitmapData; blendMultiply(): Phaser.BitmapData; blendOverlay(): Phaser.BitmapData; blendReset(): Phaser.BitmapData; blendSaturation(): Phaser.BitmapData; blendScreen(): Phaser.BitmapData; blendSoftLight(): Phaser.BitmapData; blendSourceAtop(): Phaser.BitmapData; blendSourceIn(): Phaser.BitmapData; blendSourceOut(): Phaser.BitmapData; blendSourceOver(): Phaser.BitmapData; blendXor(): Phaser.BitmapData; circle(x: number, y: number, radius: number, fillStyle?: string): Phaser.BitmapData; clear(): Phaser.BitmapData; cls(): Phaser.BitmapData; copy(source?: any, x?: number, y?: number, width?: number, height?: number, tx?: number, ty?: number, newWidth?: number, newHeight?: number, rotate?: number, anchorX?: number, anchorY?: number, scaleX?: number, scaleY?: number, alpha?: number, blendMode?: string, roundPx?: boolean): Phaser.BitmapData; copyPixels(source: any, area: Phaser.Rectangle, x: number, y: number, alpha?: number): void; copyRect(source: any, area: Phaser.Rectangle, x?: number, y?: number, alpha?: number, blendMode?: string, roundPx?: boolean): Phaser.BitmapData; draw(source: any, x?: number, y?: number, width?: number, height?: number, blendMode?: string, roundPx?: boolean): Phaser.BitmapData; extract(destination: Phaser.BitmapData, r: number, g: number, b: number, a?: number, resize?: boolean, r2?: number, g2?: number, b2?: number): Phaser.BitmapData; fill(r: number, g: number, b: number, a?: number): Phaser.BitmapData; getPixel(x: number, y: number, out?: any): number; getPixelRGB(x: number, y: number, out?: any, hsl?: boolean, hsv?: boolean): any; getPixel32(x: number, y: number): number; getPixels(rect: Phaser.Rectangle): ImageData; getTransform(translateX: number, translateY: number, scaleX: number, scaleY: number, skewX: number, skewY: number): any; load(source: any): Phaser.BitmapData; processPixel(callback: Function, callbackContext: any, x?: number, y?: Number, width?: number, height?: number): Phaser.BitmapData; processPixelRGB(callback: Function, callbackContext: any, x?: number, y?: Number, width?: number, height?: number): Phaser.BitmapData; rect(x: number, y: number, width: number, height: number, fillStyle?: string): Phaser.BitmapData; render(): Phaser.BitmapData; replaceRGB(r1: number, g1: number, b1: number, a1: number, r2: number, g2: number, b2: number, a2: number, region: Phaser.Rectangle): Phaser.BitmapData; resize(width: number, height: number): Phaser.BitmapData; setHSL(h?: number, s?: number, l?: number, region?: Phaser.Rectangle): Phaser.BitmapData; setPixel(x: number, y: number, red: number, green: number, blue: number, immediate?: boolean): Phaser.BitmapData; setPixel32(x: number, y: number, red: number, green: number, blue: number, alpha: number, immediate?: boolean): Phaser.BitmapData; shadow(color: string, blur?: number, x?: number, y?: number): Phaser.BitmapData; shiftHSL(h?: number, s?: number, l?: number, region?: Phaser.Rectangle): Phaser.BitmapData; textureLine(line: Phaser.Line, key: string, repeat?: string): Phaser.BitmapData; update(x: number, y: number, width: number, height: number): Phaser.BitmapData; } class BitmapText extends PIXI.BitmapText { constructor(game: Phaser.Game, x: number, y: number, font: string, text?: string, size?: number); align: string; angle: number; cameraOffset: Phaser.Point; destroyPhase: boolean; events: Phaser.Events; exists: boolean; fixedToCamera: boolean; font: string; fontSize: number; game: Phaser.Game; input: Phaser.InputHandler; inputEnabled: boolean; name: string; position: Phaser.Point; text: string; tint: number; type: number; world: Phaser.Point; z: number; destroy(destroyChildren?: boolean): void; postUpdate(): void; preUpdate(): void; update(): void; updateText(): void; updateTransform(): void; } class Button extends Phaser.Image { constructor(game: Phaser.Game, x?: number, y?: number, key?: string, callback?: Function, callbackContext?: any, overFrame?: any, outFrame?: any, downFrame?: any, upFrame?: any); forceOut: boolean; freezeFrames: boolean; onDownSound: Phaser.Sound; onDownSoundMarker: string; onInputDown: Phaser.Signal; onInputOut: Phaser.Signal; onInputOver: Phaser.Signal; onInputUp: Phaser.Signal; onOutSound: Phaser.Sound; onOutSoundMarker: string; onOverSound: Phaser.Sound; onOverSoundMarker: string; onOverMouseOnly: boolean; onUpSound: Phaser.Sound; onUpSoundMaker: string; type: number; clearFrames(): void; setDownSound(sound: Phaser.Sound, marker?: string): void; setFrames(overFrame?: any, outFrame?: any, downFrame?: any, upFrame?: any): void; onInputDownHandler(sprite: Phaser.Button, pointer: Phaser.Pointer): void; onInputUpHandler(sprite: Phaser.Button, pointer: Phaser.Pointer, isOver: boolean): void; setOutSound(sound: Phaser.Sound, marker?: string): void; setOverSound(sound: Phaser.Sound, marker?: string): void; setSounds(overSound?: Phaser.Sound, overMarker?: string, downSound?: Phaser.Sound, downMarker?: string, outSound?: Phaser.Sound, outMarker?: string, upSound?: Phaser.Sound, upMarker?: string): void; setState(newState: number): void; setUpSound(sound: Phaser.Sound, marker?: string): void; } class Cache { constructor(game: Phaser.Game); static BINARY: number; static BITMAPDATA: number; static BITMAPFONT: number; static CANVAS: number; static IMAGE: number; static JSON: number; static PHYSICS: number; static SOUND: number; static TEXT: number; static TEXTURE: number; static TILEMAP: number; static XML: number; game: Phaser.Game; onSoundUnlock: Phaser.Signal; addBinary(key: string, binaryData: any): void; addBitmapData(key: string, bitmapData: Phaser.BitmapData, frameData?: Phaser.FrameData): Phaser.BitmapData; addBitmapFont(key: string, texture: Phaser.RetroFont): void; addBitmapFont(key: string, url: string, data: any, xmlData: any, xSpacing?: number, ySpacing?: number): void; addCanvas(key: string, canvas: HTMLCanvasElement, context: CanvasRenderingContext2D): void; addDefaultImage(): void; addImage(key: string, url: string, data: any): void; addJSON(key: string, urL: string, data: any): void; addMisingImage(): void; addPhysicsData(key: string, url: string, JSONData: any, format: number): void; addRenderTexture(key: string, texture: RenderTexture): void; addSound(key: string, url: string, data: any, webAudio: boolean, audioTag: boolean): void; addSpriteSheet(key: string, url: string, data: any, frameWidth: number, frameHeight: number, frameMax?: number, margin?: number, spacing?: number): void; addText(key: string, url: string, data: any): void; addTextureAtlas(key: string, url: string, data: any, atlasData: any, format: number): void; addTilemap(key: string, url: string, mapData: any, format: number): void; addXML(key: string, url: string, data: any): void; checkBinaryKey(key: string): boolean; checkBitmapDataKey(key: string): boolean; checkBitmapFontKey(key: string): boolean; checkCanvasKey(key: string): boolean; checkImageKey(key: string): boolean; checkJSONKey(key: string): boolean; checkKey(type: number, key: string): boolean; checkPhysicsKey(key: string): boolean; checkSoundKey(key: string): boolean; checkTextKey(key: string): boolean; checkTextureKey(key: string): boolean; checkTilemapKey(key: string): boolean; checkUrl(url: string): any; checkXMLKey(key: string): boolean; decodedSound(key: string, data: any): void; destroy(): void; getBinary(key: string): any; getBitmapData(key: string): Phaser.BitmapData; getBitmapFont(key: string): Phaser.RetroFont; getCanvas(key: string): any; getFrame(key: string): Phaser.Frame; getFrameByIndex(key: string, frame: string): Phaser.Frame; getFrameByName(key: string, frame: string): Phaser.Frame; getFrameCount(key: string): number; getFrameData(key: string, map?: string): Phaser.FrameData; getImage(key: string): any; getJSON(key: string): any; getKeys(array: string[]): string[]; getPhysicsData(key: string, object?: string, fixtureKey?: string): any[]; getSound(key: string): Phaser.Sound; getSoundData(key: string): any; getText(key: string): string; getTextKeys(): string[]; getTexture(key: string): Phaser.RenderTexture; getTextureFrame(key: string): Phaser.Frame; getTilemap(key: string): any; getTilemapData(key: string): any; getUrl(url: string): any; getXML(key: string): any; isSoundDecoded(key: string): boolean; isSoundReady(key: string): boolean; isSpriteSheet(key: string): boolean; reloadSound(key: string): void; reloadSoundComplete(key: string): void; removeBinary(key: string): void; removeBitmapData(key: string): void; removeBitmapFont(key: string): void; removeCanvas(key: string): void; removeImage(key: string, removeFromPixi?: boolean): void; removeJSON(key: string): void; removePhysics(key: string): void; removeSound(key: string): void; removeText(key: string): void; removeTilemap(key: string): void; removeXML(key: string): void; updateFrameData(key: string, frameData: any): void; updateSound(key: string, property: string, value: Phaser.Sound): void; } class Camera { constructor(game: Phaser.Game, id: number, x: number, y: number, width: number, height: number); static FOLLOW_LOCKON: number; static FOLLOW_PLATFORMER: number; static FOLLOW_TOPDOWN: number; static FOLLOW_TOPDOWN_TIGHT: number; atLimit: { x: boolean; y: boolean; }; bounds: Phaser.Rectangle; deadzone: Phaser.Rectangle; displayObject: PIXI.DisplayObject; id: number; game: Phaser.Game; height: number; position: Phaser.Point; roundPx: boolean; scale: Phaser.Point; screenView: Phaser.Rectangle; target: Phaser.Sprite; view: Phaser.Rectangle; visible: boolean; width: number; world: Phaser.World; x: number; y: number; checkBounds(): void; focusOn(displayObject: any): void; focusOnXY(x: number, y: number): void; follow(target: Phaser.Sprite, style?: number): void; reset(): void; setBoundsToWorld(): void; setPosition(x: number, y: number): void; setSize(width: number, height: number): void; update(): void; } class Canvas { static addToDOM(canvas: HTMLCanvasElement, parent: any, overflowHidden?: boolean): HTMLCanvasElement; static create(width?: number, height?: number, id?: string): HTMLCanvasElement; static getAspectRatio(canvas: HTMLCanvasElement): number; static getOffset(element: HTMLElement, point?: Phaser.Point): Phaser.Point; static getSmoothngEnabled(context: CanvasRenderingContext2D): boolean; static removeFromDOM(canvas: HTMLCanvasElement): void; static setBackgroundColor(canvas: HTMLCanvasElement, color: string): HTMLCanvasElement; static setImageRenderingBicubic(canvas: HTMLCanvasElement): HTMLCanvasElement; static setImageRenderingCrisp(canvas: HTMLCanvasElement): HTMLCanvasElement; static setSmoothingEnabled(context: CanvasRenderingContext2D, value: boolean): CanvasRenderingContext2D; static setTouchAction(canvas: HTMLCanvasElement, value: string): HTMLCanvasElement; static setTransform(context: CanvasRenderingContext2D, translateX: number, translateY: number, scaleX: number, scaleY: number, skewX: number, skewY: number): CanvasRenderingContext2D; static setUserSelect(canvas: HTMLCanvasElement, value?: string): HTMLCanvasElement; } class Circle { constructor(x?: number, y?: number, diameter?: number); area: number; bottom: number; diameter: number; empty: boolean; left: number; radius: number; right: number; top: number; x: number; y: number; static circumferencePoint(a: Phaser.Circle, angle: number, asDegrees: boolean, out?: Phaser.Point): Phaser.Point; static contains(a: Phaser.Circle, x: number, y: number): boolean; static equals(a: Phaser.Circle, b: Phaser.Circle): boolean; static intersects(a: Phaser.Circle, b: Phaser.Circle): boolean; static intersectsRectangle(c: Phaser.Circle, r: Phaser.Rectangle): boolean; circumference(): number; circumferencePoint(angle: number, asDegrees?: boolean, out?: Phaser.Point): Phaser.Point; clone(output: Phaser.Circle): Phaser.Circle; contains(x: number, y: number): boolean; copyFrom(source: any): Circle; copyTo(dest: any): any; distance(dest: any, round?: boolean): number; getBounds(): Phaser.Rectangle; offset(dx: number, dy: number): Phaser.Circle; offsetPoint(point: Phaser.Point): Phaser.Circle; setTo(x: number, y: number, diameter: number): Circle; toString(): string; } class Color { static componentToHex(color: number): string; static createColor(r?: number, g?: number, b?: number, a?: number, h?: number, s?: number, l?: number, v?: number): any; static fromRGBA(rgba: number, out?: any): any; static getAlpha(color: number): number; static getAlphaFloat(color: number): number; static getBlue(color: number): number; static getColor(red: number, green: number, blue: number): number; static getColor32(alpha: number, red: number, green: number, blue: number): number; static getGreen(color: number): number; static getRandomColor(min?: number, max?: number, alpha?: number): number; static getRed(color: number): number; static getRGB(color: number): any; static getWebRGB(color: any): string; static hexToRGB(h: string): number; static hexToColor(hex: string, out?: any): any; static HSLtoRGB(h: number, s: number, l: number, out?: any): any; static HSLColorWheel(s?: number, l?: number): any[]; static HSVtoRGB(h: number, s: number, v: number, out?: any): any; static HSVColorWheel(s?: number, v?: number): any[]; static hueToColor(p: number, q: number, t: number): number; static interpolateColor(color1: number, color2: number, steps: number, currentStep: number, alpha: number): number; static interpolateColorWithRGB(color: number, r: number, g: number, b: number, steps: number, currentStep: number): number; static interpolateRGB(r1: number, g1: number, b1: number, r2: number, g2: number, b2: number, steps: number, currentStep: number): number; static packPixel(r: number, g: number, b: number, a: number): number; static RGBtoHSL(r: number, g: number, b: number, out?: any): any; static RGBtoHSV(r: number, g: number, b: number, out?: any): any; static RGBtoString(r: number, g: number, b: number, a?: number, prefix?: string): string; static toRGBA(r: number, g: number, b: number, a: number): number; static unpackPixel(rgba: number, out?: any, hsl?: boolean, hsv?: boolean): any; static updateColor(out: any): number; static webToColor(web: string, out?: any): { r: number; g: number; b: number; }; } class ComplexPrimitiveShader { //where is WebGLContext in TypeScript? "any" is used constructor(gl: any); gl: any; program: any; fragmentSrc: any[]; vertexSrc: any[]; destroy(): void; init(): void; } interface CursorKeys { up: Phaser.Key; down: Phaser.Key; left: Phaser.Key; right: Phaser.Key; } class Device { static LITTLE_ENDIAN: boolean; constructor(game: Phaser.Game); android: boolean; arora: boolean; audioData: boolean; cancelFullScreen: string; canvas: boolean; chrome: boolean; chromeOS: boolean; cocoonJS: boolean; cocoonJSApp: boolean; cordova: boolean; crosswalk: boolean; css3D: boolean; desktop: boolean; ejecta: boolean; epiphany: boolean; file: boolean; fileSystem: boolean; firefox: boolean; fullScreen: boolean; fullScreenKeyboard: boolean; getUserMedia: boolean; game: Phaser.Game; ie: boolean; ieVersion: number; iOS: boolean; iPad: boolean; iPhone: boolean; iPhone4: boolean; kindle: boolean; linux: boolean; littleEndian: boolean; localStorage: boolean; m4a: boolean; macOS: boolean; midori: boolean; mobileSafari: boolean; mp3: boolean; mspointer: boolean; node: boolean; nodeWebkit: boolean; ogg: boolean; opera: boolean; opus: boolean; pixelRatio: number; pointerLock: boolean; quirksMode: boolean; requestFullScreen: string; safari: boolean; silk: boolean; support32bit: boolean; touch: boolean; trident: boolean; tridentVersion: number; typedArray: boolean; vibration: boolean; vita: boolean; wav: boolean; webApp: boolean; webAudio: boolean; webGL: boolean; webm: boolean; windows: boolean; windowsPhone: boolean; worker: boolean; checkFullScreenSupport(): void; canPlayAudio(type: string): boolean; isConsoleOpen(): boolean; isAndroidStockBrowser(): string; } class DOMSprite { //constructor constructor(game: Phaser.Game, id: string, x: number, y: number, text: string, style: any); //members alive: boolean; exists: boolean; game: Phaser.Game; group: Phaser.Group; name: string; type: number; visible: boolean; } module Easing { class Back { static In(k: number): number; static Out(k: number): number; static InOut(k: number): number; } class Bounce { static In(k: number): number; static Out(k: number): number; static InOut(k: number): number; } class Circular { static In(k: number): number; static Out(k: number): number; static InOut(k: number): number; } class Cubic { static In(k: number): number; static Out(k: number): number; static InOut(k: number): number; } class Elastic { static In(k: number): number; static Out(k: number): number; static InOut(k: number): number; } class Exponential { static In(k: number): number; static Out(k: number): number; static InOut(k: number): number; } class Linear { static None(k: number): number; } class Quadratic { static In(k: number): number; static Out(k: number): number; static InOut(k: number): number; } class Quartic { static In(k: number): number; static Out(k: number): number; static InOut(k: number): number; } class Quintic { static In(k: number): number; static Out(k: number): number; static InOut(k: number): number; } class Sinusoidal { static In(k: number): number; static Out(k: number): number; static InOut(k: number): number; } } class Ellipse { constructor(x?: number, y?: number, width?: number, height?: number); bottom: number; empty: boolean; height: number; left: number; right: number; top: number; width: number; x: number; y: number; static constains(a: Phaser.Ellipse, x: number, y: number): boolean; clone(output: Phaser.Ellipse): Phaser.Ellipse; contains(x: number, y: number): boolean; copyFrom(source: any): Phaser.Ellipse; copyTo(dest: any): any; getBounds(): Phaser.Rectangle; setTo(x: number, y: number, width: number, height: number): Phaser.Ellipse; toString(): string; } class Events { constructor(sprite: Phaser.Sprite); parent: Phaser.Sprite; onAddedToGroup: Phaser.Signal; onRemovedFromGroup: Phaser.Signal; onKilled: Phaser.Signal; onRevived: Phaser.Signal; onOutOfBounds: Phaser.Signal; onInputOver: Phaser.Signal; onInputOut: Phaser.Signal; onInputDown: Phaser.Signal; onInputUp: Phaser.Signal; onDestroy: Phaser.Signal; onDragStart: Phaser.Signal; onDragStop: Phaser.Signal; onAnimationStart: Phaser.Signal; onAnimationComplete: Phaser.Signal; onAnimationLoop: Phaser.Signal; } module Filter { class BinarySerpents extends Phaser.Filter { constructor(game: Phaser.Game, width: number, height: number, march?: number, maxDistance?: number); fog: number; } class BlurX extends Phaser.Filter { blur: number; } class BlurY extends Phaser.Filter { blur: number; } class CausticLight extends Phaser.Filter { constructor(game: Phaser.Game, width: number, height: number, divisor?: number); init(width: number, height: number, divisor?: number): void; } class CheckerWave extends Phaser.Filter { constructor(game: Phaser.Game, width: number, height: number); alpha: number; cameraX: number; cameraY: number; cameraZ: number; init(width: number, height: number): void; setColor1(red: number, green: number, blue: number): void; setColor2(red: number, green: number, blue: number): void; } class ColorBars extends Phaser.Filter { constructor(game: Phaser.Game, width: number, height: number); alpha: number; init(width: number, height: number): void; } class Fire extends Phaser.Filter { constructor(width: number, height: number, alpha?: number, shift?: number); alpha: number; shift: number; speed: number; init(width: number, height: number, alpha?: number, shift?: number): void; } class Gray extends Phaser.Filter { gray: number; } class HueRotate extends Phaser.Filter { constructor(game: Phaser.Game, width: number, height: number, texture: any); alpha: number; init(width: number, height: number, texture: any): void; } class LazerBeam extends Phaser.Filter { init(width: number, height: number, divisor?: number): void; } class LightBeam extends Phaser.Filter { constructor(game: Phaser.Game, width: number, height: number); alpha: number; blue: number; green: number; red: number; thickness: number; speed: number; init(width: number, height: number): void; } class Marble extends Phaser.Filter { constructor(game: Phaser.Game, width: number, height: number, speed?: number, intensity?: number); alpha: number; intensity: number; speed: number; init(width: number, height: number, speed?: number, intensity?: number): void; } class Pixelate extends Phaser.Filter { size: number; } class Plasma extends Phaser.Filter { constructor(game: Phaser.Game, width: number, height: number, alpha?: number, size?: number); alpha: number; blueShift: number; greenShift: number; redShift: number; size: number; init(width: number, height: number, alpha?: number, size?: number): void; } class SampleFilter extends Phaser.Filter { constructor(game: Phaser.Game, width: number, height: number, divisor?: number); init(width: number, height: number, divisor?: number): void; } class Tunnel extends Phaser.Filter { constructor(game: Phaser.Game, width: number, height: number, texture: any); alpha: number; origin: number; init(width: number, height: number, texture: any): void; } } class Filter implements PIXI.AbstractFilter { constructor(game: Phaser.Game, ...args: any[]); dirty: boolean; game: Phaser.Game; height: number; fragmentSrc: any[]; padding: number; prevPoint: Phaser.Point; type: number; uniforms: any; width: number; apply(frameBuffer: WebGLFramebuffer): void; destroy(): void; init(...args: any[]): void; setResolution(width: number, height: number): void; syncUniforms(): void; update(pointer?: Phaser.Pointer): void; } class FlexGrid { constructor(manager: Phaser.ScaleManager, width: number, height: number); game: Phaser.Game; manager: Phaser.ScaleManager; width: number; height: number; boundsCustom: Phaser.Rectangle; boundsFluid: Phaser.Rectangle; boundsFull: Phaser.Rectangle; boundsNone: Phaser.Rectangle; customWidth: number; customHeight: number; customOffsetX: number; customOffsetY: number; positionCustom: Phaser.Point; positionFluid: Phaser.Point; positionFull: Phaser.Point; positionNone: Phaser.Point; scaleCustom: Phaser.Point; scaleFluid: Phaser.Point; scaleFluidInversed: Phaser.Point; scaleFull: Phaser.Point; scaleNone: Phaser.Point; ratioH: number; ratioV: number; multiplier: number; createCustomLayer(width: number, height: number, children?: any[], addToWorld?: boolean): Phaser.FlexLayer; createFluidLayer(children: any[]): Phaser.FlexLayer; createFullLayer(children: any[]): Phaser.FlexLayer; createFixedLayer(children: any[]): Phaser.FlexLayer; debug(): void; onResize(width: number, height: number): void; refresh(): void; reset(): void; setSize(width: number, height: number): void; } class FlexLayer extends Phaser.Group { constructor(manager: Phaser.ScaleManager, position: Phaser.Point, bounds: Phaser.Rectangle, scale: Phaser.Point); grid: Phaser.FlexGrid; manager: Phaser.ScaleManager; bottomLeft: Phaser.Point; bottomMiddle: Phaser.Point; bottomRight: Phaser.Point; bounds: Phaser.Rectangle; position: Phaser.Point; scale: Phaser.Point; topLeft: Phaser.Point; topMiddle: Phaser.Point; topRight: Phaser.Point; debug(): void; resize(): void; } class Frame { constructor(index: number, x: number, y: number, width: number, height: number, name: string, uuid: string); bottom: number; centerX: number; centerY: number; distance: number; height: number; index: number; name: string; right: number; rotated: boolean; rotationDirection: string; sourceSizeH: number; sourceSizeW: number; spriteSourceSizeH: number; spriteSourceSizeW: number; spriteSourceSizeX: number; spriteSourceSizeY: number; trimmed: boolean; uuid: string; width: number; x: number; y: number; clone(): Phaser.Frame; getRect(out?: Phaser.Rectangle): Phaser.Rectangle; setTrim(trimmed: boolean, actualWidth: number, actualHeight: number, destX: number, destY: number, destWidth: number, destHeight: number): void; } class FrameData { total: number; addFrame(frame: Frame): Phaser.Frame; checkFrameName(name: string): boolean; clone(): Phaser.FrameData; getFrame(index: number): Phaser.Frame; getFrameByName(name: string): Phaser.Frame; getFrameIndexes(frames: number[], useNumericIndex?: boolean, output?: number[]): number[]; getFrameRange(start: number, end: number, output: Phaser.Frame[]): Phaser.Frame[]; getFrames(frames: number[], useNumericIndex?: boolean, output?: Phaser.Frame[]): Phaser.Frame[]; } interface IGameConfig { enableDebug?: boolean; } class Game { constructor(width?: number, height?: number, renderer?: number, parent?: any, state?: any, transparent?: boolean, antialias?: boolean, physicsConfig?: any); add: Phaser.GameObjectFactory; antialias: boolean; cache: Phaser.Cache; camera: Phaser.Camera; canvas: HTMLCanvasElement; config: IGameConfig; context: any; debug: Phaser.Utils.Debug; device: Phaser.Device; height: number; id: number; input: Phaser.Input; isBooted: boolean; isRunning: boolean; load: Phaser.Loader; make: Phaser.GameObjectCreator; math: Phaser.Math; net: Phaser.Net; onBlur: Phaser.Signal; onFocus: Phaser.Signal; onPause: Phaser.Signal; onResume: Phaser.Signal; parent: HTMLElement; particles: Phaser.Particles; paused: boolean; pendingStep: boolean; physics: Phaser.Physics; physicsConfig: any; preserveDrawingBuffer: Boolean; raf: Phaser.RequestAnimationFrame; renderer: number; renderType: number; rnd: Phaser.RandomDataGenerator; scale: Phaser.ScaleManager; scratch: Phaser.BitmapData; sound: Phaser.SoundManager; stage: Phaser.Stage; state: Phaser.StateManager; stepCount: number; stepping: boolean; time: Phaser.Time; transparent: boolean; tweens: Phaser.TweenManager; width: number; world: Phaser.World; boot(): void; destroy(): void; disableStep(): void; enableStep(): void; focusGain(event: any): void; focusLoss(event: any): void; gamePaused(event: any): void; gameResumed(event: any): void; parseConfig(config: any): void; removeFromDOM(canvas: HTMLCanvasElement): void; setUpRenderer(): void; showDebugHeader(): void; step(): void; update(time: number): void; } class GameObjectCreator { constructor(game: Phaser.Game); game: Phaser.Game; world: Phaser.World; audio(key: string, volume?: number, loop?: boolean, connect?: boolean): Phaser.Sound; audioSprite(key: string): Phaser.AudioSprite; bitmapData(width?: number, height?: number, key?: string, addToCache?: boolean): Phaser.BitmapData; bitmapText(x: number, y: number, font: string, text?: string, size?: number): Phaser.BitmapText; button(x?: number, y?: number, key?: string, callback?: Function, callbackContext?: any, overFrame?: any, outFrame?: any, downFrame?: any, upFrame?: any): Phaser.Button; emitter(x?: number, y?: number, maxParticles?: number): Phaser.Particles.Arcade.Emitter; filter(filter: any, ...args: any[]): Phaser.Filter; graphics(x: number, y: number): Phaser.Graphics; group(parent?: any, name?: string, addToStage?: boolean, enableBody?: boolean, physicsBodyType?: number): Phaser.Group; image(x: number, y: number, key: any, frame?: any): Phaser.Image; renderTexture(width?: number, height?: number, key?: any, addToCache?: boolean): Phaser.RenderTexture; retroFont(font: string, characterWidth: number, characterHeight: number, chars: string, charsPerRow: number, xSpacing?: number, ySpacing?: number, xOffset?: number, yOffset?: number): Phaser.RetroFont; rope(x: number, y: number, key: any, frame?: any, points?: Phaser.Point[]): Phaser.Rope; sound(key: string, volume?: number, loop?: boolean, connect?: boolean): Phaser.Sound; sprite(x: number, y: number, key?: any, frame?: any): Phaser.Sprite; spriteBatch(parent: any, name?: String, addToStage?: boolean): Phaser.Group; text(x: number, y: number, text?: string, style?: any): Phaser.Text; tileMap(key: string, tileWidth?: number, tileHeight?: number, width?: number, height?: number): Phaser.Tilemap; tileSprite(x: number, y: number, width: number, height: number, key: any, frame: any): Phaser.TileSprite; tween(obj: any): Phaser.Tween; } class GameObjectFactory { constructor(game: Phaser.Game); game: Phaser.Game; world: Phaser.World; audio(key: string, volume?: number, loop?: boolean, connect?: boolean): Phaser.Sound; audioSprite(key: string): Phaser.AudioSprite; bitmapData(width?: number, height?: number, key?: string, addToCache?: boolean): Phaser.BitmapData; bitmapText(x: number, y: number, font: string, text?: string, size?: number, group?: Phaser.Group): Phaser.BitmapText; button(x?: number, y?: number, key?: string, callback?: Function, callbackContext?: any, overFrame?: any, outFrame?: any, downFrame?: any, upFrame?: any, group?: Phaser.Group): Phaser.Button; emitter(x?: number, y?: number, maxParticles?: number): Phaser.Particles.Arcade.Emitter; existing(object: any): any; filter(filter: string, ...args: any[]): Phaser.Filter; graphics(x: number, y: number, group?: Phaser.Group): Phaser.Graphics; group(parent?: any, name?: string, addToStage?: boolean, enableBody?: boolean, physicsBodyType?: number): Phaser.Group; image(x: number, y: number, key: any, frame?: any, group?: Phaser.Group): Phaser.Image; physicsGroup(physicsBodyType: number, parent?: any, name?: string, addToStage?: boolean): Phaser.Group; plugin(plugin: Phaser.Plugin, ...parameter: any[]): Phaser.Plugin; renderTexture(width?: number, height?: number, key?: string, addToCache?: boolean): Phaser.RenderTexture; retroFont(font: string, characterWidth: number, characterHeight: number, chars: string, charsPerRow: number, xSpacing?: number, ySpacing?: number, xOffset?: number, yOffset?: number): Phaser.RetroFont; rope(x: number, y: number, key: any, frame?: any, points?: Phaser.Point[]): Phaser.Rope; sound(key: string, volume?: number, loop?: number, connect?: boolean): Phaser.Sound; sprite(x: number, y: number, key?: any, frame?: any, group?: Phaser.Group): Phaser.Sprite; spriteBatch(parent: any, name?: string, addToStage?: boolean): Phaser.Group; text(x: number, y: number, text: string, style: any, group?: Phaser.Group): Phaser.Text; tilemap(key?: string, tileWidth?: number, tileHeight?: number, width?: number, height?: number): Phaser.Tilemap; tileSprite(x: number, y: number, width: number, height: number, key?: any, frame?: any, group?: Phaser.Group): Phaser.TileSprite; tween(obj: any): Phaser.Tween; } class Gamepad { constructor(game: Phaser.Game); static BUTTON_0: number; static BUTTON_1: number; static BUTTON_2: number; static BUTTON_3: number; static BUTTON_4: number; static BUTTON_5: number; static BUTTON_6: number; static BUTTON_7: number; static BUTTON_8: number; static BUTTON_9: number; static BUTTON_10: number; static BUTTON_11: number; static BUTTON_12: number; static BUTTON_13: number; static BUTTON_14: number; static BUTTON_15: number; static AXIS_0: number; static AXIS_1: number; static AXIS_2: number; static AXIS_3: number; static AXIS_4: number; static AXIS_5: number; static AXIS_6: number; static AXIS_7: number; static AXIS_8: number; static AXIS_9: number; static XBOX360_A: number; static XBOX360_B: number; static XBOX360_X: number; static XBOX360_Y: number; static XBOX360_LEFT_BUMPER: number; static XBOX360_RIGHT_BUMPER: number; static XBOX360_LEFT_TRIGGER: number; static XBOX360_RIGHT_TRIGGER: number; static XBOX360_BACK: number; static XBOX360_START: number; static XBOX360_STICK_LEFT_BUTTON: number; static XBOX360_STICK_RIGHT_BUTTON: number; static XBOX360_DPAD_LEFT: number; static XBOX360_DPAD_RIGHT: number; static XBOX360_DPAD_UP: number; static XBOX360_DPAD_DOWN: number; static XBOX360_STICK_LEFT_X: number; static XBOX360_STICK_LEFT_Y: number; static XBOX360_STICK_RIGHT_X: number; static XBOX360_STICK_RIGHT_Y: number; static PS3XC_X: number; static PS3XC_CIRCLE: number; static PS3XC_SQUARE: number; static PS3XC_TRIANGLE: number; static PS3XC_L1: number; static PS3XC_R1: number; static PS3XC_L2: number; static PS3XC_R2: number; static PS3XC_SELECT: number; static PS3XC_START: number; static PS3XC_STICK_LEFT_BUTTON: number; static PS3XC_STICK_RIGHT_BUTTON: number; static PS3XC_DPAD_UP: number; static PS3XC_DPAD_DOWN: number; static PS3XC_DPAD_LEFT: number; static PS3XC_DPAD_RIGHT: number; static PS3XC_STICK_LEFT_X: number; static PS3XC_STICK_LEFT_Y: number; static PS3XC_STICK_RIGHT_X: number; static PS3XC_STICK_RIGHT_Y: number; active: boolean; callbackContext: any; disabled: boolean; game: Phaser.Game; onAxisCallBack: Function; onConnectCallback: Function; onDisconnectCallback: Function; onDownCallback: Function; onFloatCallback: Function; onUpCallback: Function; pad1: Phaser.SinglePad; pad2: Phaser.SinglePad; pad3: Phaser.SinglePad; pad4: Phaser.SinglePad; padsConnected: number; supported: boolean; addCallbacks(context: any, callbacks: any): void; isDown(buttonCode: number): boolean; justPressed(buttonCode: number, duration?: number): boolean; justReleased(buttonCode: number, duration?: number): boolean; reset(): void; setDeadZones(value: any): void; start(): void; stop(): void; update(): void; } class GamepadButton { constructor(pad: Phaser.SinglePad, buttonCode: number); buttonCode: number; duration: number; game: Phaser.Game; isDown: boolean; isUp: boolean; onDown: Phaser.Signal; onFloat: Phaser.Signal; onUp: Phaser.Signal; pad: Phaser.Gamepad; repeats: number; timeDown: number; timeUp: number; value: number; destroy(): void; justPressed(duration?: number): boolean; justReleased(duration?: number): boolean; processButtonDown(value: number): void; processButtonFloat(value: number): void; processButtonUp(value: number): void; reset(): void; } class Graphics extends PIXI.Graphics { constructor(game: Phaser.Game, x: number, y: number); angle: number; cameraOffset: Phaser.Point; destroyPhase: boolean; exists: boolean; fixedToCamera: boolean; game: Phaser.Game; height: number; name: string; position: Phaser.Point; type: number; world: Phaser.Point; z: number; destroy(): void; drawPolygon(poly: any): void; drawTriangle(points: Phaser.Point[], cull?: boolean): void; drawTriangles(vertices: any[], indices?: number[], cull?: boolean): void; postUpdate(): void; preUpdate(): void; update(): void; } class Group extends PIXI.DisplayObjectContainer { constructor(game: Phaser.Game, parent?: any, name?: string, addToStage?: boolean, enableBody?: boolean, physicsBodyType?: number); static RETURN_CHILD: number; static RETURN_NONE: number; static RETURN_TOTAL: number; static SORT_ASCENDING: number; static SORT_DESCENDING: number; angle: number; alive: boolean; cameraOffset: Phaser.Point; classType: any; cursor: any; enableBody: boolean; enableBodyDebug: boolean; exists: boolean; fixedToCamera: boolean; game: Phaser.Game; ignoreDestroy: boolean; length: number; name: string; onDestroy: Phaser.Signal; physicsBodyType: number; position: Phaser.Point; scale: Phaser.Point; total: number; type: number; z: number; add(child: any, silent?: boolean): any; addAll(property: string, amount: number, checkAlive: boolean, checkVisible: boolean): void; addAt(child: any, index: number, silent?: boolean): any; addMultiple(children: any[], silent?: boolean): any[]; bringToTop(child: any): any; callAll(method: string, context: any, ...parameters: any[]): void; callAllExists(callback: Function, existsValue: boolean, ...parameters: any[]): void; callbackFromArray(child: any, callback: Function, length: number): void; checkAll(key: string[], value: any, checkAlive?: boolean, checkVisible?: boolean, force?: boolean): boolean; checkProperty(child: any, key: string[], value: any, force?: boolean): boolean; countDead(): number; countLiving(): number; create(x: number, y: number, key: string, frame?: any, exists?: boolean): any; createMultiple(quantity: number, key: string, frame?: any, exists?: boolean): void; customSort(sortHandler: Function, context: any): void; destroy(destroyChildren?: boolean, soft?: boolean): void; divideAll(property: string, amount: number, checkAlive?: boolean, checkVisible?: boolean): void; forEach(callback: Function, callbackContext: any, checkExists?: boolean): void; forEachAlive(callback: Function, callbackContext: any): void; forEachDead(callback: Function, callbackContext: any): void; forEachExists(callback: Function, callbackContext: any): void; getAt(index: number): any; getBottom(): any; getFirstAlive(): any; getFirstDead(): any; getFirstExists(state: boolean): any; getIndex(child: any): number; getRandom(startIndex: number, length: number): any; getTop(): any; hasProperty(child: any, key: string[]): boolean; iterate(key: string, value: any, returnType: number, callback?: Function, callbackContext?: any, ...args: any[]): any; moveDown(child: any): any; moveUp(child: any): any; multiplyAll(property: string, amount: number, checkAlive: boolean, checkVisible: boolean): void; next(): void; postUpdate(): void; preUpdate(): void; previous(): void; remove(child: any, destroy?: boolean, silent?: boolean): boolean; removeAll(destroy?: boolean, silent?: boolean): void; removeBetween(startIndex: number, endIndex?: number, destroy?: boolean, silent?: boolean): void; replace(oldChild: any, newChild: any): any; reverse(): void; sendToBack(child: any): any; set(child: any, key: string[], value: any, operation?: number, force?: boolean): boolean; setAll(key: string, value: any, checkAlive?: boolean, checkVisible?: boolean, operation?: number, force?: boolean): boolean; setProperty(child: any, key: string[], value: any, operation?: number, force?: boolean): boolean; sort(index?: string, order?: number): void; subAll(property: string, amount: number, checkAlive: boolean, checkVisible: boolean): void; swap(child1: any, child2: any): boolean; update(): void; updateZ(): void; xy(index: number, x: number, y: number): void; } class Image extends PIXI.Sprite { constructor(game: Phaser.Game, x: number, y: number, key: any, frame: any); alive: boolean; angle: number; anchor: Phaser.Point; autoCull: boolean; cameraOffset: Phaser.Point; cropRect: Phaser.Rectangle; deltaX: number; deltaY: number; deltaZ: number; destroyPhase: boolean; events: Phaser.Events; exists: boolean; fixedToCamera: boolean; frame: any; frameName: string; game: Phaser.Game; inCamera: boolean; input: Phaser.InputHandler; inputEnabled: boolean; inWorld: boolean; key: any; name: string; position: Phaser.Point; renderOrderID: number; scale: Phaser.Point; smoothed: boolean; type: number; z: number; bringToTop(): Phaser.Image; crop(rect: Phaser.Rectangle, copy?: boolean): void; destroy(destroyChildren?: boolean): void; kill(): Phaser.Image; loadTexture(key: any, frame: any): void; postUpdate(): void; preUpdate(): void; reset(x: number, y: number): Phaser.Image; resetFrame(): void; revive(): Phaser.Image; setFrame(frame: Phaser.Frame): void; update(): void; updateCrop(): void; } class Input { constructor(game: Phaser.Game); static MOUSE_OVERRIDES_TOUCH: number; static MOUSE_TOUCH_COMBINE: number; static TOUCH_OVERRIDES_MOUSE: number; activePointer: Phaser.Pointer; circle: Phaser.Circle; currentPointers: number; disabled: boolean; doubleTapRate: number; game: Phaser.Game; gamepad: Phaser.Gamepad; hitCanvas: HTMLCanvasElement; hitContext: CanvasRenderingContext2D; holdRate: number; interactiveItems: Phaser.ArrayList; justPressedRate: number; justReleasedRate: number; keyboard: Phaser.Keyboard; maxPointers: number; minPriorityID: number; mouse: Phaser.Mouse; mousePointer: Phaser.Pointer; moveCallbacks: (pointer: Phaser.Pointer, x: number, y: number) => void[]; moveCallbackContext: any; mspointer: Phaser.MSPointer; multiInputOverride: number; onDown: Phaser.Signal; onHold: Phaser.Signal; onTap: Phaser.Signal; onUp: Phaser.Signal; pointer1: Phaser.Pointer; pointer2: Phaser.Pointer; pointer3: Phaser.Pointer; pointer4: Phaser.Pointer; pointer5: Phaser.Pointer; pointer6: Phaser.Pointer; pointer7: Phaser.Pointer; pointer8: Phaser.Pointer; pointer9: Phaser.Pointer; pointer10: Phaser.Pointer; pollLocked: boolean; pollRate: number; position: Phaser.Point; recordLimit: number; recordPointerHistory: boolean; recordRate: number; resetLocked: boolean; scale: Phaser.Point; speed: Phaser.Point; tapRate: number; totalActivePointers: number; totalInactivePointers: number; touch: Phaser.Touch; worldX: number; worldY: number; x: number; y: number; addPointer(): Phaser.Pointer; addMoveCallback(callback: Function, context: any): number; boot(): void; deleteMoveCallback(index: number): void; destroy(): void; getLocalPosition(displayObject: any, pointer: Phaser.Pointer): Phaser.Point; getPointer(state: boolean): Phaser.Pointer; getPointerFromId(pointerID: number): Phaser.Pointer; getPointerFromIdentifier(identifier: number): Phaser.Pointer; hitTest(displayObject: any, pointer: Phaser.Pointer, localPoint: Phaser.Point): void; reset(hard?: boolean): void; resetSpeed(x: number, y: number): void; startPointer(event: any): Phaser.Pointer; stopPointer(event: any): Phaser.Pointer; update(): void; updatePointer(event: any): Phaser.Pointer; } class InputHandler extends Phaser.LinkedListItem { constructor(sprite: Phaser.Sprite); allowHorizontalDrag: boolean; allowVerticalDrag: boolean; boundsRect: Phaser.Rectangle; boundsSprite: Phaser.Sprite; bringToTop: boolean; consumePointerEvent: boolean; draggable: boolean; enabled: boolean; game: Phaser.Game; globalToLocalX(x: number): number; globalToLocalY(y: number): number; isDragged: boolean; pixelPerfectAlpha: number; pixelPerfectClick: boolean; pixelPerfectOver: boolean; priorityID: number; scaleLayer: boolean; snapOffset: Phaser.Point; snapOffsetX: number; snapOffsetY: number; snapOnDrag: boolean; snapOnRelease: boolean; snapX: number; snapY: number; sprite: Phaser.Sprite; useHandCursor: boolean; checkBoundsRect(): void; checkBoundsSprite(): void; checkPixel(x: number, y: number, pointer?: Phaser.Pointer): boolean; checkPointerDown(pointer: Phaser.Pointer, fastTest?: boolean): boolean; checkPointerOver(pointer: Phaser.Pointer, fastTest?: boolean): boolean; destroy(): void; disableDrag(): void; disableSnap(): void; downDuration(pointer: Phaser.Pointer): number; enableDrag(lockCenter?: boolean, bringToTop?: boolean, pixelPerfect?: boolean, alphaThreshold?: number, boundsRect?: Phaser.Rectangle, boundsSprite?: Phaser.Rectangle): void; enableSnap(snapX: number, snapY: number, onDrag?: boolean, onRelease?: boolean, snapOffsetX?: number, snapOffsetY?: number): void; isPixelPerfect(): boolean; justOut(pointer: number, delay: number): boolean; justOver(pointer: number, delay: number): boolean; justPressed(pointer: number, delay: number): boolean; justReleased(pointer: number, delay: number): boolean; overDuration(pointer: Phaser.Pointer): number; pointerDown(pointer: number): boolean; pointerDragged(pointer: Phaser.Pointer): boolean; pointerOut(index: number): boolean; pointerOver(index: number): boolean; pointerTimeDown(pointer: Phaser.Pointer): number; pointerTimeOut(pointer: Phaser.Pointer): number; pointerTimeOver(pointer: number): number; pointerTimeUp(pointer: number): number; pointerUp(pointer: number): boolean; pointerX(pointer: number): number; pointerY(pointer: number): number; reset(): void; setDragLock(allowHorizontal?: boolean, allowVertical?: boolean): void; start(priority: number, useHandCursor: boolean): Phaser.Sprite; startDrag(pointer: Phaser.Pointer): void; stop(): void; stopDrag(pointer: Phaser.Pointer): void; update(pointer: Phaser.Pointer): void; updateDrag(pointer: Phaser.Pointer): boolean; validForInput(highestID: number, highestRenderID: number, includePixelPerfect?: boolean): boolean; } class Key { constructor(game: Phaser.Game, keycode: number); altKey: boolean; ctrlKey: boolean; duration: number; event: any; game: Phaser.Game; isDown: boolean; isUp: boolean; keyCode: number; onDown: Phaser.Signal; onHoldCallback: Function; onHoldContext: any; onUp: Phaser.Signal; repeats: number; shiftKey: boolean; timeDown: number; timeUp: number; justPressed(duration?: number): boolean; justReleased(duration?: number): boolean; processKeyDown(event: KeyboardEvent): void; processKeyUp(event: KeyboardEvent): void; reset(hard?: boolean): void; update(): void; } class Keyboard { constructor(game: Phaser.Game); static A: number; static B: number; static C: number; static D: number; static E: number; static F: number; static G: number; static H: number; static I: number; static J: number; static K: number; static L: number; static M: number; static N: number; static O: number; static P: number; static Q: number; static R: number; static S: number; static T: number; static U: number; static V: number; static W: number; static X: number; static Y: number; static Z: number; static ZERO: number; static ONE: number; static TWO: number; static THREE: number; static FOUR: number; static FIVE: number; static SIX: number; static SEVEN: number; static EIGHT: number; static NINE: number; static NUMPAD_0: number; static NUMPAD_1: number; static NUMPAD_2: number; static NUMPAD_3: number; static NUMPAD_4: number; static NUMPAD_5: number; static NUMPAD_6: number; static NUMPAD_7: number; static NUMPAD_8: number; static NUMPAD_9: number; static NUMPAD_MULTIPLY: number; static NUMPAD_ADD: number; static NUMPAD_ENTER: number; static NUMPAD_SUBTRACT: number; static NUMPAD_DECIMAL: number; static NUMPAD_DIVIDE: number; static F1: number; static F2: number; static F3: number; static F4: number; static F5: number; static F6: number; static F7: number; static F8: number; static F9: number; static F10: number; static F11: number; static F12: number; static F13: number; static F14: number; static F15: number; static COLON: number; static EQUALS: number; static UNDERSCORE: number; static QUESTION_MARK: number; static TILDE: number; static OPEN_BRACKET: number; static BACKWARD_SLASH: number; static CLOSED_BRACKET: number; static QUOTES: number; static BACKSPACE: number; static TAB: number; static CLEAR: number; static ENTER: number; static SHIFT: number; static CONTROL: number; static ALT: number; static CAPS_LOCK: number; static ESC: number; static SPACEBAR: number; static PAGE_UP: number; static PAGE_DOWN: number; static END: number; static HOME: number; static LEFT: number; static UP: number; static RIGHT: number; static DOWN: number; static INSERT: number; static DELETE: number; static HELP: number; static NUM_LOCK: number; callbackContext: any; disabled: boolean; event: any; game: Phaser.Game; lastChar: string; lastKey: Phaser.Key; onDownCallback: Function; onPressCallback: Function; onUpCallback: Function; pressEvent: any; addCallbacks(context: any, onDown?: Function, onUp?: Function, onPress?: Function): void; addKey(keycode: number): Phaser.Key; addKeyCapture(keycode: any): void; createCursorKeys(): Phaser.CursorKeys; clearCaptures(): void; destroy(): void; isDown(keycode: number): boolean; justPressed(keycode: number, duration?: number): boolean; justReleased(keycode: number, duration?: number): boolean; processKeyDown(event: KeyboardEvent): void; processKeyPress(event: KeyboardEvent): void; processKeyUp(event: KeyboardEvent): void; removeKey(keycode: number): void; removeKeyCapture(keycode: number): void; reset(hard?: boolean): void; start(): void; stop(): void; update(): void; } class Line { constructor(x1?: number, y1?: number, x2?: number, y2?: number); angle: number; end: Phaser.Point; height: number; left: number; length: number; perpSlope: number; right: number; slope: number; start: Phaser.Point; top: number; width: number; x: number; y: number; static intersectsPoints(a: Phaser.Point, b: Phaser.Point, e: Phaser.Point, f: Phaser.Point, asSegment?: boolean, result?: Phaser.Point): Phaser.Point; static intersects(a: Phaser.Line, b: Phaser.Line, asSegment?: boolean, result?: Phaser.Point): Phaser.Point; clone(output: Phaser.Line): Phaser.Line; coordinatesOnLine(stepRate: number, results: any[]): any[]; fromSprite(startSprite: Phaser.Sprite, endSprite: Phaser.Sprite, useCenter?: boolean): Phaser.Line; intersects(line: Phaser.Line, asSegment?: boolean, result?: Phaser.Point): Phaser.Point; pointOnLine(x: number, y: number): boolean; pointOnSegment(x: number, y: number): boolean; setTo(x1?: number, y1?: number, x2?: number, y2?: number): Phaser.Line; } class LinkedListItem { next: LinkedListItem; prev: LinkedListItem; first: LinkedListItem; last: LinkedListItem; } class LinkedList extends LinkedListItem { first: LinkedListItem; last: LinkedListItem; next: LinkedListItem; prev: LinkedListItem; total: number; add(child: LinkedListItem): LinkedListItem; callAll(callback: Function): void; remove(child: LinkedListItem): void; reset(): void; } class Loader { constructor(game: Phaser.Game); static PHYSICS_LIME_CORONA_JSON: number; static PHYSICS_PHASER_JSON: number; static TEXTURE_ATLAS_JSON_ARRAY: number; static TEXTURE_ATLAS_JSON_HASH: number; static TEXTURE_ATLAS_XML_STARLING: number; baseURL: string; crossOrigin: any; game: Phaser.Game; hasLoaded: boolean; isLoading: boolean; onFileStart: Phaser.Signal; onFileComplete: Phaser.Signal; onFileError: Phaser.Signal; onLoadComplete: Phaser.Signal; onLoadStart: Phaser.Signal; onPackComplete: Phaser.Signal; preloadSprite: any; progress: number; progressFloat: number; useXDomainRequest: boolean; addToFileList(type: string, key: string, url: string, properties: any): void; atlas(key: string, textureURL: string, atlasURL?: string, atlasData?: any, format?: number): Phaser.Loader; atlasJSONArray(key: string, textureURL: string, atlasURL?: string, atlasData?: any): Phaser.Loader; atlasJSONHash(key: string, textureURL: string, atlasURL?: string, atlasData?: any): Phaser.Loader; atlasXML(key: string, textureURL: string, atlasURL?: string, atlasData?: any): Phaser.Loader; audio(key: string, urls: any, autoDecode?: boolean): Phaser.Loader; audiosprite(key: string, urls: any, atlasurl: string): Phaser.Loader; binary(key: string, url: string, callback?: Function, callbackContext?: Function): Phaser.Loader; bitmapFont(key: string, textureURL: string, xmlURL?: string, xmlData?: any, xSpacing?: number, ySpacing?: number): Phaser.Loader; checkKeyExists(type: string, key: string): boolean; csvLoadComplete(index: number): void; dataLoadError(index: number): void; fileComplete(index: number): void; fileError(index: number): void; getAsset(type: string, key: string): any; getAssetIndex(type: string, key: string): number; image(key: string, url: string, overwrite?: boolean): Phaser.Loader; json(key: string, url: string, overwrite?: boolean): Phaser.Loader; jsonLoadComplete(index: number): void; pack(key: string, url?: string, data?: any, callbackContext?: any): Phaser.Loader; physics(key: string, url?: string, data?: any, format?: string): Phaser.Loader; removeAll(): void; removeFile(key: string, type: string): void; replaceInFileList(type: string, key: string, url: string, properties: any): void; reset(): void; script(key: string, url: String, callback?: Function, callbackContext?: any): Phaser.Loader; setPreloadSprite(sprite: Phaser.Sprite, direction?: number): void; spritesheet(key: string, url: string, frameWidth: number, frameHeight: number, frameMax?: number, margin?: number, spacing?: number): Phaser.Loader; start(): void; text(key: string, url: string, overwrite?: boolean): Phaser.Loader; tilemap(key: string, url?: string, data?: any, format?: number): Phaser.Loader; totalLoadedFiles(): number; totalLoadedPacks(): number; totalQueuedFiles(): number; totalQueuedPacks(): number; xml(key: string, url: string, overwrite?: boolean): Phaser.Loader; xmlLoadComplete(index: number): void; } class LoaderParser { static bitmapFont(game: Phaser.Game, xml: any, cacheKey: string, xSpacing: number, ySpacing: number): Phaser.FrameData; } class Math { static angleBetween(x1: number, y1: number, x2: number, y2: number): number; static angleBetweenPoints(point1: Phaser.Point, point2: Phaser.Point): number; static angleBetweenY(x1: number, y1: number, x2: number, y2: number): number; static angleBetweenPointsY(point1: Phaser.Point, point2: Phaser.Point): number; static angleLimit(angle: number, min: number, max: number): number; static average(...numbers: number[]): number; static bernstein(n: number, i: number): number; static bezierInterpolation(v: number[], k: number): number; static catmullRom(p0: number, p1: number, p2: number, p3: number, t: number): number; static catmullRomInterpolation(v: number[], k: number): number; static ceil(value: number): number; static ceilTo(value: number, place?: number, base?: number): number; static chanceRoll(chance: number): boolean; static clamp(x: number, a: number, b: number): number; static clampBottom(x: number, a: number): number; static degToRad(degrees: number): number; static difference(a: number, b: number): number; static distance(x1: number, y1: number, x2: number, y2: number): number; static distancePow(xy: number, y1: number, x2: number, y2: number, pow?: number): number; static distanceRounded(x1: number, y1: number, x2: number, y2: number): number; static factorial(value: number): number; static floor(value: number): number; static floorTo(value: number, place: number, base: number): number; static fuzzyCeil(val: number, epsilon?: number): boolean; static fuzzyEqual(a: number, b: number, epsilon?: number): boolean; static fuzzyLessThan(a: Number, b: number, epsilon?: number): boolean; static fuzzyFloor(val: number, epsilon?: number): boolean; static fuzzyGreaterThan(a: number, b: number, epsilon?: number): boolean; static fuzzyLessThan(a: number, b: number, epsilon?: number): boolean; static getRandom(objects: T[], startIndex?: number, length?: number): T; static interpolateAngles(a1: number, a2: number, weight: number, radians?: boolean, ease?: any): number; static interpolateFloat(a: number, b: number, weight: number): number; static isEven(n: number): boolean; static isOdd(n: number): boolean; static linear(p0: number, p1: number, t: number): number; static linearInterpolation(v: number[], k: number): number; static limitValue(value: number, min: number, max: number): number; static mapLinear(x: number, a1: number, a2: number, b1: number, b2: number): number; static max(...numbers: number[]): number; static maxAdd(value: number, amount: number, max: number): number; static maxProperty(...numbers: number[]): number; static min(...numbers: number[]): number; static minProperty(...numbers: number[]): number; static minSub(value: number, amount: number, min: number): number; static nearestAngleBetween(a1: number, a2: number, radians?: boolean): number; static normalizeAngle(angle: number, radians?: boolean): number; static normalizeLatitude(lat: number): number; static normalizeLongitude(lng: number): number; static numberArray(min: number, max: number): number[]; static numberArrayStep(start: number, end: number, step?: number): number[]; static percent(a: number, b: number, base?: number): number; static p2px(v: number): number; static PI2: number; static radToDeg(radians: number): number; static randomSign(): number; static reverseAngle(angleRed: number): number; static removeRandom(objects: T[], startIndex?: number, length?: number): T; static roundTo(value: number, place?: number, base?: number): number; static shear(n: number): number; static shift(stack: any[]): any; static shuffleArray(array: any[]): any[]; static sign(x: number): number; static sinCosGenerator(length: number, sinAmplitude?: number, cosAmplitude?: number, frequency?: number): { sin: number[]; cos: number[]; }; static smootherstep(x: number, min: number, max: number): number; static smoothstep(x: number, min: number, max: number): number; static snapTo(input: number, gap: number, start?: number): number; static snapToCeil(input: number, gap: number, start?: number): number; static snapToFloor(input: number, gap: number, start?: number): number; static snapToInArray(input: number, arr: number[], sort?: boolean): number; static truncate(n: number): number; static within(a: number, b: number, tolerance: number): boolean; static wrap(value: number, min: number, max: number): number; static wrapAngle(angle: number, radians?: boolean): number; static wrapValue(value: number, amount: number, max: number): number; } class Mouse { constructor(game: Phaser.Game); static LEFT_BUTTON: number; static MIDDLE_BUTTON: number; static NO_BUTTON: number; static RIGHT_BUTTON: number; static WHEEL_DOWN: number; static WHEEL_UP: number; button: number; callbackContext: any; capture: boolean; disabled: boolean; event: MouseEvent; game: Phaser.Game; locked: boolean; mouseDownCallback: Function; mouseMoveCallback: Function; mouseOutCallback: Function; mouseOverCallback: Function; mouseUpCallback: Function; mouseWheelCallback: Function; pointerLock: Phaser.Signal; stopOnGameOut: boolean; wheelDelta: number; onMouseDown(event: MouseEvent): void; onMouseMove(event: MouseEvent): void; onMouseOut(event: MouseEvent): void; onMouseOver(event: MouseEvent): void; onMouseUp(event: MouseEvent): void; onMouseUpGlobal(event: MouseEvent): void; onMouseWheel(event: MouseEvent): void; pointerLockChange(event: MouseEvent): void; releasePointerLock(): void; requestPointerLock(): void; start(): void; stop(): void; } class MSPointer { constructor(game: Phaser.Game); callbackContext: any; disabled: boolean; game: Phaser.Game; onPointerDown(event: MSPointerEvent): void; onPointerMove(event: MSPointerEvent): void; onPointerUp(event: MSPointerEvent): void; mouseDownCallback(event: MSPointerEvent): void; mouseMoveCallback(event: MSPointerEvent): void; mouseUpCallback(event: MSPointerEvent): void; start(): void; stop(): void; } class Net { constructor(game: Phaser.Game); game: Phaser.Game; checkDomainName(domain: string): boolean; decodeURI(value: string): string; getHostName(): string; getQueryString(parameter?: string): string; updateQueryString(key: string, value: any, redirect?: boolean, url?: string): string; } class Particle extends Phaser.Sprite { constructor(game: Phaser.Game, x: number, y: number, key?: any, frame?: any); onEmit(): void; reset(x: number, y: number, health?: number): Phaser.Particle; setAlphaData(data: any[]): void; setScaleData(data: any[]): void; update(): void; } class Particles { constructor(game: Phaser.Game); emitters: any; game: Phaser.Game; ID: number; add(emitter: Phaser.Particles.Arcade.Emitter): Phaser.Particles.Arcade.Emitter; remove(emitter: Phaser.Particles.Arcade.Emitter): void; update(): void; } module Particles { module Arcade { class Emitter extends Phaser.Group { constructor(game: Phaser.Game, x?: number, y?: number, maxParticles?: number); alphaData: any[]; autoAlpha: boolean; autoScale: boolean; angle: number; angularDrag: number; bottom: number; bounce: Phaser.Point; emitX: number; emitY: number; exists: boolean; frequency: number; gravity: number; group: Phaser.Group; height: number; left: number; lifespan: number; maxParticles: number; maxParticleScale: number; maxParticleSpeed: Phaser.Point; maxRotation: number; minParticleScale: number; minParticleSpeed: Phaser.Point; minRotation: number; name: string; on: boolean; particleBringToTop: boolean; particleSendToBack: boolean; particleClass: Phaser.Sprite; particleDrag: Phaser.Point; position: Phaser.Point; right: number; scaleData: any[]; top: number; type: number; width: number; x: number; y: number; at(object: any): void; emitParticle(): void; explode(lifespan?: number, quantity?: number): void; flow(lifespan?: number, frequency?: number, quantity?: number): void; kill(): void; makeParticles(keys: any, frames?: any, quantity?: number, collide?: boolean, collideWorldBounds?: boolean): Phaser.Particles.Arcade.Emitter; reset(x: number, y: number, health?: number): Phaser.Particles; setAlpha(min?: number, max?: number, rate?: number, ease?: number, yoyo?: boolean): void; setRotation(min?: number, max?: number): void; setScale(minX?: number, maxX?: number, minY?: number, maxY?: number, rate?: number, ease?: (k: number) => number, yoyo?: boolean): void; setSize(width: number, height: number): void; setXSpeed(min: number, max: number): void; setYSpeed(min: number, max: number): void; start(explode?: boolean, lifespan?: number, frequency?: number, quantity?: number, forceQuantity?: boolean): void; update(): void; revive(): void; } } } class Physics { constructor(game: Phaser.Game, config?: any); static ARCADE: number; static P2JS: number; static NINJA: number; static BOX2D: number; static CHIPMUNK: number; arcade: Phaser.Physics.Arcade; config: any; game: Phaser.Game; ninja: Phaser.Physics.Ninja; p2: Phaser.Physics.P2; clear(): void; destroy(): void; enable(object: any, system?: number, debug?: boolean): void; parseConfig(): void; preUpdate(): void; setBoundsToWorld(): void; startSystem(system: number): void; update(): void; } module Physics { class Arcade { static OVERLAP_BIAS: number; static TILE_BIAS: number; constructor(game: Phaser.Game); bounds: Phaser.Rectangle; checkCollision: { up?: boolean; down?: boolean; left?: boolean; right?: boolean; }; forceX: boolean; game: Phaser.Game; gravity: Phaser.Point; quadTree: Phaser.QuadTree; maxObjects: number; maxLevels: number; skipQuadTree: boolean; accelerationFromRotation(rotation: number, speed?: number, point?: Phaser.Point): Phaser.Point; accelerateToObject(displayObject: any, destination: any, speed?: number, xSpeedMax?: number, ySpeedMax?: number): number; accelerateToPointer(displayObject: any, pointer?: Phaser.Pointer, speed?: number, xSpeedMax?: number, ySpeedMax?: number): number; accelerateToXY(displayObject: any, x: number, y: number, speed?: number, xSpeedMax?: number, ySpeedMax?: number): number; angleBetween(source: any, target: any): number; angleToPointer(displayObject: any, pointer?: Phaser.Pointer): number; angleToXY(displayObject: any, x: number, y: number): number; collide(object1: any, object2: any, collideCallback?: Function, processCallback?: Function, callbackContext?: any): boolean; computeVelocity(axis: number, body: Phaser.Physics.Arcade.Body, velocity: number, acceleration: number, drag: number, max?: number): number; distanceBetween(source: any, target: any): number; distanceToPointer(displayObject: any, pointer?: Phaser.Pointer): number; distanceToXY(displayObject: any, x: number, y: number): number; enable(object: any, children?: Boolean): void; enableBody(object: any): void; intersects(body1: Phaser.Physics.Arcade.Body, body2: Phaser.Physics.Arcade.Body): boolean; moveToObject(displayObject: any, destination: any, speed?: number, maxTime?: number): number; moveToPointer(displayObject: any, speed?: number, pointer?: Phaser.Pointer, maxTime?: number): number; moveToXY(displayObject: any, x: number, y: number, speed?: number, maxTime?: number): number; overlap(object1: any, object2: any, overlapCallback?: Function, processCallback?: Function, callbackContext?: any): boolean; processTileSeparationX(body: Phaser.Physics.Arcade.Body, x: number): boolean; processTileSeparationY(body: Phaser.Physics.Arcade.Body, y: number): void; setBounds(x: number, y: number, width: number, height: number): void; setBoundsToWorld(): void; separate(body1: Phaser.Physics.Arcade.Body, body2: Phaser.Physics.Arcade.Body, processCallback?: Function, callbackContext?: any, overlapOnly?: boolean): boolean; separateX(body1: Phaser.Physics.Arcade.Body, body2: Phaser.Physics.Arcade.Body, overlapOnly: boolean): boolean; separateY(body1: Phaser.Physics.Arcade.Body, body2: Phaser.Physics.Arcade.Body, overlapOnly: boolean): boolean; separateTile(i: number, body: Phaser.Physics.Arcade.Body, tile: Phaser.Tile): boolean; tileCheckX(body: Phaser.Physics.Arcade.Body, tile: Phaser.Tile): number; tileCheckY(body: Phaser.Physics.Arcade.Body, tile: Phaser.Tile): number; updateMotion(body: Phaser.Physics.Arcade.Body): void; velocityFromAngle(angle: number, speed?: number, point?: Phaser.Point): Phaser.Point; velocityFromRotation(rotation: number, speed?: number, point?: Phaser.Point): Phaser.Point; } module Arcade { class Body { constructor(sprite: Phaser.Sprite); acceleration: Phaser.Point; allowGravity: boolean; allowRotation: boolean; angle: number; angularAcceleration: number; angularDrag: number; angularVelocity: number; blocked: FaceChoices; bottom: number; bounce: Phaser.Point; center: Phaser.Point; checkCollision: FaceChoices; collideWorldBounds: boolean; customSeparateX: boolean; customSeparateY: boolean; deltaMax: Phaser.Point; drag: Phaser.Point; embedded: boolean; enable: boolean; facing: number; game: Phaser.Game; gravity: Phaser.Point; halfWidth: number; halfHeight: number; immovable: boolean; mass: number; maxAngular: number; maxVelocity: Phaser.Point; moves: boolean; newVelocity: Phaser.Point; offset: Phaser.Point; overlapX: number; overlapY: number; phase: number; position: Phaser.Point; preRotation: number; prev: Phaser.Point; right: number; rotation: number; skipQuadTree: boolean; sourceWidth: number; sourceHeight: number; speed: number; sprite: Phaser.Sprite; tilePadding: Phaser.Point; touching: FaceChoices; type: number; wasTouching: FaceChoices; width: number; velocity: Phaser.Point; x: number; y: number; checkWorldBounds(): void; deltaX(): number; deltaY(): number; deltaZ(): number; deltaAbsX(): void; deltaAbsY(): void; destroy(): void; hitTest(x: number, y: number): boolean; onFloor(): void; onWall(): void; preUpdate(): void; postUpdate(): void; render(context: any, body: Phaser.Physics.Arcade.Body, color?: string, filled?: boolean): void; renderBodyInfo(debug: Phaser.Utils.Debug, body: Phaser.Physics.Arcade.Body): void; reset(x: number, y: number): void; setSize(width: number, height: number, offsetX?: number, offsetY?: number): void; updateBounds(): boolean; } class FaceChoices { none: boolean; any: boolean; up: boolean; down: boolean; left: boolean; right: boolean; } } class Ninja { constructor(game: Phaser.Game); game: Phaser.Game gravity: number; bounds: Phaser.Rectangle; maxObjects: number; maxLevels: number; quadTree: Phaser.QuadTree; time: Phaser.Time; clearTilemapLayerBodies(map: Phaser.Tilemap, layer: any): void; collide(object1: any, object2: any, collideCallback?: Function, processCallback?: Function, callbackContext?: any): boolean; convertTilemap(map: Phaser.Tilemap, layer?: any, slopeMap?: any): Phaser.Physics.Ninja.Tile[]; enableAABB(object: any, children?: boolean): void; enableCircle(object: any, radius: number, children?: boolean): void; enableTile(object: any, id: number, children?: boolean): void; enable(object: any, type?: number, id?: number, radius?: number, children?: boolean): void; enableBody(object: any, type?: number, id?: number, radius?: number): void; overlap(object1: any, object2: any, overlapCallback?: Function, processCallback?: Function, callbackContext?: any): boolean; separate(body1: Phaser.Physics.Ninja.Body, body2: Phaser.Physics.Ninja.Body, processCallback?: Function, callbackContext?: any, overlapOnly?: boolean): boolean; setBounds(x: number, y: number, width: number, height: number): void; setBoundsToWorld(): void; } module Ninja { class Body { constructor(system: Phaser.Physics.Ninja, sprite: Phaser.Sprite, type?: number, id?: number, radius?: number, x?: number, y?: number, width?: number, height?: number); aabb: Phaser.Physics.Ninja.AABB; angle: number; bottom: number; bounce: number; checkCollision: Phaser.Physics.Arcade.FaceChoices; circle: Phaser.Physics.Ninja.Circle; collideWorldBounds: boolean; drag: number; facing: number; friction: number; game: Phaser.Game; gravityScale: number; height: number; immovable: boolean; maxSpeed: number; right: number; sprite: Phaser.Sprite; system: Phaser.Physics.Ninja; tile: Phaser.Physics.Ninja.Tile; touching: Phaser.Physics.Arcade.FaceChoices; type: number; shape: any; speed: number; velocity: Phaser.Point; wasTouching: Phaser.Physics.Arcade.FaceChoices; width: number; x: number; y: number; deltaAbsX(): number; deltaAbsY(): number; deltaX(): number; deltaY(): number; destroy(): void; setZeroVelocity(): void; moveTo(speed: number, angle: number): void; moveFrom(speed: number, angle: number): void; moveLeft(speed: number): void; moveRight(speed: number): void; moveUp(speed: number): void; moveDown(speed: number): void; poseUpdate(): void; preUpdate(): void; render(context: any, body: Phaser.Physics.Ninja.Body, color?: string, filled?: boolean): void; reset(): void; } class AABB { constructor(body: Phaser.Physics.Ninja.Body, x: number, y: number, width: number, height: number); static COL_NONE: number; static COL_AXIS: number; static COL_OTHER: number; aabbTileProjections: any; body: Phaser.Physics.Ninja.Body; height: number; oldPos: Phaser.Point; pos: Phaser.Point; system: Phaser.Physics.Ninja; width: number; velocity: Phaser.Point; xw: number; yw: number; collideWorldBounds(): void; collideAABBVsAABB(aabb: Phaser.Physics.Ninja.AABB): boolean; collideAABBVsTile(tile: Phaser.Physics.Ninja.Tile): boolean; destroy(): void; integrate(): void; render(context: any, xOffset: number, yOffset: number, color: string, filled: boolean): void; reportCollisionVsWorld(px: number, py: number, dx: number, dy: number, obj: any): void; reportCollisionVsBody(px: number, py: number, dx: number, dy: number, obj: any): void; resolveTile(x: number, y: number, body: Phaser.Physics.Ninja.AABB, tile: Phaser.Physics.Ninja.Tile): boolean; reverse(): void; } class Circle { constructor(body: Phaser.Physics.Ninja.Body, x: number, y: number, radius: number); COL_NONE: number; COL_AXIS: number; COL_OTHER: number; body: Phaser.Physics.Ninja.Body; circleTileProjections: any; oldPos: Phaser.Point; height: number; pos: Phaser.Point; radius: number; system: Phaser.Physics.Ninja; velocity: Phaser.Point; width: number; xw: number; yw: number; collideCircleVsTile(tile: Phaser.Physics.Ninja.Tile): boolean; collideWorldBounds(): void; destroy(): void; integrate(): void; render(context: any, xOffset: number, yOffset: number, color: string, filled: boolean): void; reportCollisionVsWorld(px: number, py: number, dx: number, dy: number, obj: any): void; reportCollisionVsBody(px: number, py: number, dx: number, dy: number, obj: any): void; resolveCircleTile(x: number, y: number, oH: number, oV: number, obj: Phaser.Physics.Ninja.Circle, t: Phaser.Physics.Ninja.Tile): boolean; } class Tile { constructor(body: Phaser.Physics.Ninja.Body, x: number, y: number, width: number, height: number, type?: number); body: Phaser.Physics.Ninja.Body; bottom: number; height: number; id: number; oldpos: Phaser.Point; pos: Phaser.Point; right: number; system: Phaser.Physics.Ninja; type: number; velocity: Phaser.Point; width: number; xw: number; yw: number; x: number; y: number; clear(): void; collideWorldBounds(): void; destroy(): void; integrate(): void; reportCollisionVsWorld(px: number, py: number, dx: number, dy: number, obj: any): void; setType(id: number): number; } } class P2 { constructor(game: Phaser.Game, config?: any); applyDamping: boolean; applyGravity: boolean; applySpringForces: boolean; boundsCollidesWith: Phaser.Physics.P2.Body[]; boundsCollisionGroup: Phaser.Physics.P2.CollisionGroup; config: any; callbackContext: any; collisionGroups: Phaser.Physics.P2.CollisionGroup[]; contactMaterial: Phaser.Physics.P2.ContactMaterial; emitImpactEvent: boolean; everythingCollisionGroup: Phaser.Physics.P2.CollisionGroup; frameRate: number; friction: number; game: Phaser.Game; gravity: Phaser.Physics.P2.InversePointProxy; materials: Phaser.Physics.P2.Material[]; nothingCollisionGroup: Phaser.Physics.P2.CollisionGroup; onBodyAdded: Phaser.Signal; onBodyRemoved: Phaser.Signal; onBeginContact: Phaser.Signal; onConstraintAdded: Phaser.Signal; onConstraintRemoved: Phaser.Signal; onContactMaterialAdded: Phaser.Signal; onContactMaterialRemoved: Phaser.Signal; onEndContact: Phaser.Signal; onSpringAdded: Phaser.Signal; onSpringRemoved: Phaser.Signal; paused: boolean; postBroaddphaseCallback: Function; restitution: number; solveConstraints: boolean; time: any; total: number; useElapsedTime: boolean; walls: { left?: Phaser.Physics.P2.Body; right?: Phaser.Physics.P2.Body; top?: Phaser.Physics.P2.Body; bottom?: Phaser.Physics.P2.Body; }; world: p2.World; addBody(body: Phaser.Physics.P2.Body): boolean; addContactMaterial(material: Phaser.Physics.P2.ContactMaterial): Phaser.Physics.P2.ContactMaterial; addConstraint(constraint: T): T; addSpring(spring: Phaser.Physics.P2.Spring): Phaser.Physics.P2.Spring; beginContactHandler(event: any): void; clear(): void; clearTilemapLayerBodies(map: Phaser.Tilemap, layer?: any): void; convertCollisionObjects(map: Phaser.Tilemap, layer?: any, addToWorld?: boolean): Phaser.Physics.P2.Body[]; convertTilemap(map: Phaser.Tilemap, layer?: any, addToWorld?: Boolean, optimize?: boolean): Phaser.Physics.P2.Body[]; createBody(x: number, y: number, mass: number, addToWorld?: boolean, options?: p2.BodyOptions, data?: number[][]): Phaser.Physics.P2.Body; createBody(x: number, y: number, mass: number, addToWorld?: boolean, options?: p2.BodyOptions, data?: number[]): Phaser.Physics.P2.Body; createCollisionGroup(group?: Phaser.Group): Phaser.Physics.P2.CollisionGroup; createCollisionGroup(group?: Phaser.Sprite): Phaser.Physics.P2.CollisionGroup; createContactMaterial(materialA: Phaser.Physics.P2.Material, materialB: Phaser.Physics.P2.Material, options?: p2.ContactMaterialOptions): Phaser.Physics.P2.ContactMaterial; createDistanceConstraint(bodyA: any, bodyB: any, distance: number, localAnchorA?: number[], localAnchorB?: number[], maxForce?: number): Phaser.Physics.P2.DistanceConstraint; createGearConstraint(bodyA: any, bodyB: any, angle?: number, ratio?: number): Phaser.Physics.P2.GearConstraint; createLockConstraint(bodyA: any, bodyB: any, offset?: number[], angle?: number, maxForce?: number): Phaser.Physics.P2.LockConstraint; createMaterial(name?: string, body?: Phaser.Physics.P2.Body): Phaser.Physics.P2.Material; createParticle(x: number, y: number, mass: number, addToWorld?: boolean, options?: p2.BodyOptions, data?: number[][]): Phaser.Physics.P2.Body; createParticle(x: number, y: number, mass: number, addToWorld?: boolean, options?: p2.BodyOptions, data?: number[]): Phaser.Physics.P2.Body; createPrismaticConstraint(body: any, bodyB: any, lockRotation?: boolean, anchorA?: number[], anchorB?: number[], axis?: Float32Array, maxForce?: number): Phaser.Physics.P2.PrismaticConstraint; createRevoluteConstraint(bodyA: any, pivotA: number[], bodyB: any, pivotB: number[], maxForce?: number, worldPivot?: number[]): Phaser.Physics.P2.RevoluteContraint; createRotationalSpring(bodyA: any, bodyB: any, restAngle?: number, stiffness?: number, damping?: number): p2.RotationalSpring; createSpring(bodyA: any, bodyB: any, restLength?: number, stiffness?: number, damping?: number, worldA?: number[], worldB?: number[], localA?: number[], localB?: number[]): Phaser.Physics.P2.Spring; destroy(): void; enable(object: any, debug?: boolean, children?: boolean): void; enableBody(object: any, debug: boolean): void; endContactHandler(event: any): void; getBodies(): Phaser.Physics.P2.Body[]; getBody(object: any): Phaser.Physics.P2.Body; getConstraints(): p2.Constraint[]; getSprings(): Phaser.Physics.P2.Spring[]; getContactMaterial(materialA: Phaser.Physics.P2.Material, materialB: Phaser.Physics.P2.Material): Phaser.Physics.P2.ContactMaterial; hitTest(worldPoint: Phaser.Point, bodies?: any[], precision?: number, filterStatic?: boolean): Phaser.Physics.P2.Body[]; mpx(v: number): number; mpxi(v: number): number; pause(): void; preUpdate(): void; pxm(v: number): number; pxmi(v: number): number; removeBody(body: Phaser.Physics.P2.Body): Phaser.Physics.P2.Body; removeBodyNextStep(body: Phaser.Physics.P2.Body): void; removeConstraint(constraint: T): T; removeContactMaterial(material: Phaser.Physics.P2.ContactMaterial): Phaser.Physics.P2.ContactMaterial; removeSpring(spring: Phaser.Physics.P2.Spring): Phaser.Physics.P2.Spring; resume(): void; setBounds(x: number, y: number, width: number, height: number, left?: Boolean, right?: boolean, top?: boolean, bottom?: boolean, setCollisionGroup?: boolean): void; setBoundsToWorld(left?: boolean, right?: boolean, top?: boolean, bottom?: boolean, setCollisionGroup?: boolean): void; setCollisionGroup(object: any, group: Phaser.Physics.P2.CollisionGroup): void; setImpactEvents(state: boolean): void; setMaterial(material: Phaser.Physics.P2.Material, bodies?: Phaser.Physics.P2.Body[]): void; setPostBroadphaseCallback(callback: Function, context: any): void; setWorldMaterial(material: Phaser.Physics.P2.Material, left?: boolean, right?: boolean, top?: boolean, bottom?: boolean): void; toJSON(): any; update(): void; updateBoundsCollisionGroup(setCollisionGroup?: boolean): void; } module P2 { class Body { static DYNAMIC: number; static STATIC: number; static KINEMATIC: number; constructor(game: Phaser.Game, sprite?: Phaser.Sprite, x?: number, y?: number, mass?: number); allowSleep: boolean; angle: number; angularDamping: number; angularForce: number; angularVelocity: number; collidesWith: Phaser.Physics.P2.CollisionGroup[]; collideWorldBounds: boolean; damping: number; data: p2.Body; debug: boolean; debugBody: Phaser.Physics.P2.BodyDebug; dynamic: boolean; fixedRotation: boolean; force: Phaser.Physics.P2.InversePointProxy; kinematic: boolean; game: Phaser.Game; gravity: Phaser.Point; id: number; inertia: number; mass: number; motionState: number; offset: Phaser.Point; onBeginContact: Phaser.Signal; onEndContact: Phaser.Signal; rotation: number; removeNextStep: boolean; sprite: Phaser.Sprite; sleepSpeedLimit: number; static: boolean; type: number; velocity: Phaser.Physics.P2.InversePointProxy; world: Phaser.Physics.P2; x: number; y: number; addToWorld(): void; addCapsule(length: number, radius: number, offsetX?: number, offsetY?: number, rotation?: number): p2.Capsule; addCircle(radius: number, offsetX?: number, offsetY?: number, rotation?: number): p2.Circle; addFixture(fixtureData: string): p2.Shape[]; addLine(length: number, offsetX?: number, offsetY?: number, rotation?: number): p2.Line; addParticle(offsetX?: number, offsetY?: number, rotation?: number): p2.Particle; addPolygon(options: { optimalDecomp?: boolean; skipSimpleCheck?: boolean; removeCollinearPoints?: boolean; }, points: number[][]): boolean; addPhaserPolygon(key: string, object: string): Phaser.Physics.P2.FixtureList; addPlane(offsetX?: number, offsetY?: number, rotation?: number): p2.Plane; addRectangle(width: number, height: number, offsetX?: number, offsetY?: number, rotation?: number): p2.Rectangle; addShape(shape: p2.Shape, offsetX?: number, offsetY?: number, rotation?: number): p2.Shape; adjustCenterOfMass(): void; applyDamping(dt: number): void; applyForce(force: number[], worldX: number, worldY: number): void; clearCollision(clearGroup?: boolean, cleanMask?: boolean, shape?: p2.Shape): void; clearShapes(): void; collides(group: any, callback?: Function, callbackContext?: any, shape?: p2.Shape): void; createBodyCallback(object: any, callback: Function, callbackContext: any): void; createGroupCallback(group: Phaser.Physics.P2.CollisionGroup, callback: Function, callbackContext: any): void; destroy(): void; getCollisionMask(): number; loadPolygon(key: string, object: string): boolean; moveBackward(speed: number): void; moveDown(speed: number): void; moveForward(speed: number): void; moveLeft(speed: number): void; moveRight(speed: number): void; moveUp(speed: number): void; preUpdate(): void; postUpdate(): void; removeFromWorld(): void; removeShape(shape: p2.Shape): boolean; reverse(speed: number): void; rotateLeft(speed: number): void; rotateRight(speed: number): void; reset(x: number, y: number, resetDamping?: boolean, resetMass?: boolean): void; shapeChanged(): void; setCircle(radius: number, offsetX?: number, offsetY?: number, rotation?: number): p2.Circle; setCollisionGroup(group: Phaser.Physics.P2.CollisionGroup, shape?: p2.Shape): void; setRectangle(width?: number, height?: number, offsetX?: number, offsetY?: number, rotation?: number): p2.Rectangle; setRectangleFromSprite(sprite: any): p2.Rectangle; setMaterial(material: Phaser.Physics.P2.Material, shape?: p2.Shape): void; setZeroDamping(): void; setZeroForce(): void; setZeroRotation(): void; setZeroVelocity(): void; toLocalFrame(out: number[], worldPoint: number[]): void; thrust(speed: number): void; toWorldFrame(out: number[], localPoint: number[]): void; updateCollisionMask(shape?: p2.Shape): void; } class BodyDebug extends Phaser.Group { constructor(game: Phaser.Game, body: Phaser.Physics.P2.Body, settings: { pixelsPerLengthUnit?: number; debugPolygons?: boolean; lineWidth?: number; alpha?: number; }); body: Phaser.Physics.P2.Body; canvas: Phaser.Graphics; ppu: number; update(): void; updateSpriteTransform(): void; draw(): void; } class CollisionGroup { constructor(bitmask: number); mask: number; } class ContactMaterial extends p2.ContactMaterial { } class DistanceConstraint extends p2.DistanceConstraint { constructor(world: Phaser.Physics.P2, bodyA: Phaser.Physics.P2.Body, bodyB: Phaser.Physics.P2.Body, distance: number, maxForce: number); game: Phaser.Game; world: Phaser.Physics.P2; } class FixtureList { constructor(list: any[]); flatten(array: any[]): any[]; getFixtures(keys: string): any[]; getFixtureByKey(key: string): any[]; getGroup(groupID: number): any[]; init(): void; parse(): void; setCategory(bit: number, fictureKey: string): void; setMask(bit: number, fixtureKey: string): void; setMaterial(material: any, fixtureKey: string): void; setSensor(value: boolean, fixtureKey: string): void; } class GearConstraint extends p2.GearConstraint { constructor(world: Phaser.Physics.P2, bodyA: Phaser.Physics.P2.Body, bodyB: Phaser.Physics.P2.Body, angle?: number, ratio?: number); game: Phaser.Game; world: Phaser.Physics.P2; } class InversePointProxy { constructor(world: Phaser.Physics.P2, destination: any); x: number; y: number; mx: number; my: number; } class LockConstraint extends p2.LockConstraint { constructor(world: Phaser.Physics.P2, bodyA: Phaser.Physics.P2.Body, bodyB: Phaser.Physics.P2.Body, offset?: number[], angle?: number, maxForce?: number); game: Phaser.Game; world: Phaser.Physics.P2; } class Material extends p2.Material { constructor(name: string); name: string; } class PointProxy { constructor(world: Phaser.Physics.P2, destination: any); x: number; y: number; mx: number; my: number; } class PrismaticConstraint extends p2.PrismaticConstraint { constructor(world: Phaser.Physics.P2, bodyA?: Phaser.Physics.P2.Body, bodyB?: Phaser.Physics.P2.Body, lockRotation?: boolean, anchorA?: number[], anchorB?: number[], axis?: number[], maxForce?: number); game: Phaser.Game; world: Phaser.Physics.P2; } class RevoluteContraint extends p2.RevoluteConstraint { constructor(world: Phaser.Physics.P2, bodyA: Phaser.Physics.P2.Body, pivotA: number[], bodyB: Phaser.Physics.P2.Body, pivotB: number[], maxForce?: number); game: Phaser.Game; world: Phaser.Physics.P2; } class Spring { constructor(world: Phaser.Physics.P2, bodyA: Phaser.Physics.P2.Body, bodyB: Phaser.Physics.P2.Body, restLength?: number, stiffness?: number, damping?: number, worldA?: number[], worldB?: number[], localA?: number[], localB?: number[]); data: p2.LinearSpring; game: Phaser.Game; world: Phaser.Physics.P2; } } } class Plugin extends StateCycle { constructor(game: Phaser.Game, parent: any); active: boolean; game: Phaser.Game; hasPostRender: boolean; hasPostUpdate: boolean; hasPreUpdate: boolean; hasRender: boolean; hasUpdate: boolean; parent: any; visible: boolean; destroy(): void; postRender(): void; preUpdate(): void; render(): void; update(): void; } module Plugin { class AStar extends Phaser.Plugin { static VERSION: string; static COST_ORTHAGONAL: number; static COST_DIAGAONAL: number; static DISTANCE_MANHATTEN: string; static DISTANCE_EUCLIDIAN: string; constructor(parent: any); parent: any; version: string; findPath(startPoint: Phaser.Point, goalPoint: Phaser.Point): Phaser.Plugin.AStar.AStarPath; isWalkable(x: number, y: number): boolean; setAStarMap(map: Phaser.Tilemap, layerName: string, tilesetName: string): Phaser.Plugin.AStar; } module AStar { class AStarNode { constructor(x: number, y: number, isWalkable: boolean); x: number; y: number; g: number; h: number; f: number; parent: Phaser.Plugin.AStar.AStarNode; travelCost: number; walkable: boolean; } class AStarPath { constructor(nodes: Phaser.Plugin.AStar.AStarNode[], start: Phaser.Plugin.AStar.AStarNode, goal: Phaser.Plugin.AStar.AStarNode); nodes: Phaser.Plugin.AStar.AStarNode[]; start: Phaser.Plugin.AStar.AStarNode; goal: Phaser.Plugin.AStar.AStarNode; visited: Phaser.Plugin.AStar.AStarNode[]; } } class ColorHarmony extends Phaser.Plugin { getAnalogousHarmony(color: number, threshold?: number): any; getComplementHarmony(color: number): number; getSplitComplementHarmony(color: number, threshold: number): any; getTriadicHarmony(color: number): any; } class CSS3Filters extends Phaser.Plugin { constructor(parent: any); blur: number; brightness: number; contrast: number; grayscale: number; hueRotate: number; invert: number; opacity: number; saturate: number; sepia: number; } class TilemapWalker extends Phaser.Plugin { constructor(game: Phaser.Game, map: Phaser.Tilemap, layer?: any, x?: number, y?: number); collides: boolean; game: Phaser.Game; history: boolean; facing: number; map: Phaser.Tilemap; location: Phaser.Point; locationLayer: number; checkTile(x: number, y: number): boolean; getTileFromLocation(x: number, y: number): Phaser.Tile; getTiles(width: number, height: number, center?: boolean): any[]; getTileBehind(distance?: number): Phaser.Tile; getTileBehindLeft(distance?: number): Phaser.Tile; getTileBehindRight(distance?: number): Phaser.Tile; getTileAhead(distance?: number): Phaser.Tile; getTileAheadLeft(distance?: number): Phaser.Tile; getTileAheadRight(distance?: number): Phaser.Tile; getTileLeft(distance: number): Phaser.Tile; getTileRight(distance: number): Phaser.Tile; moveForward(): boolean; moveBackward(): boolean; moveLeft(): boolean; moveRight(): boolean; putTile(index: number): void; setLocation(x: number, y: number, layer?: any): boolean; turnLeft(): void; turnRight(): void; updateLocation(x: number, y: number): boolean; } class SamplePlugin extends Phaser.Plugin { constructor(game: Phaser.Game, parent: any); addSprite(sprite: Phaser.Sprite): void; update(): void; } class VirtualJoystick extends Phaser.Plugin { constructor(game: Phaser.Game, parent: any); angle: number; base: Phaser.Sprite; baseBMD: Phaser.BitmapData; baseCircle: Phaser.Circle; deltaX: number; deltaY: number; distance: number; force: number; isDragging: boolean; limit: number; limitPoint: Phaser.Point; location: Phaser.Point; nub: Phaser.Sprite; nubBMD: Phaser.BitmapData; speed: number; x: number; y: number; init(x: number, y: number, diameter?: number, limit?: number): void; move(pointer: Phaser.Pointer, x: number, y: number): void; render(): void; setVelocity(sprite: Phaser.Sprite, minSpeed?: number, maxSpeed?: number): Phaser.Sprite; startDrag(): void; stopDrag(nub: Phaser.Sprite, pointer: Phaser.Pointer): void; update(): void; } class Webcam extends Phaser.Plugin { constructor(game: Phaser.Game, parent: any); active: boolean; context: any; stream: any; video: HTMLVideoElement; connectCallback: (stream: any) => void; errorCallback: (e: any) => void; grab: (context: any, x: number, y: number) => void; start(width: number, height: number, context: any): void; stop(): void; update(): void; } } class PluginManager extends StateCycle { constructor(game: Phaser.Game, parent: any); game: Phaser.Game; plugins: Phaser.Plugin[]; add(plugin: Phaser.Plugin, ...parameter: any[]): Phaser.Plugin; destroy(): void; postRender(): void; postUpdate(): void; preUpdate(): void; remove(plugin: Phaser.Plugin): void; removeAll(): void; render(): void; update(): void; } class Point extends PIXI.Point { constructor(x?: number, y?: number); x: number; y: number; static add(a: Phaser.Point, b: Phaser.Point, out?: Phaser.Point): Phaser.Point; static subtract(a: Phaser.Point, b: Phaser.Point, out?: Phaser.Point): Phaser.Point; static multiply(a: Phaser.Point, b: Phaser.Point, out?: Phaser.Point): Phaser.Point; static divide(a: Phaser.Point, b: Phaser.Point, out?: Phaser.Point): Phaser.Point; static equals(a: Phaser.Point, b: Phaser.Point): boolean; static angle(a: Phaser.Point, b: Phaser.Point): number; static angleSq(a: Phaser.Point, b: Phaser.Point): number; static negative(a: Phaser.Point, out?: Phaser.Point): Phaser.Point; static multiplyAdd(a: Phaser.Point, b: Phaser.Point, scale: number, out?: Phaser.Point): Phaser.Point; static interpolate(a: Phaser.Point, b: Phaser.Point, alpha: number, out?: Phaser.Point): Phaser.Point; static parse(obj: any, xProp?: string, yProp?: string): Phaser.Point; static perp(a: Phaser.Point, out?: Phaser.Point): Phaser.Point; static rperp(a: Phaser.Point, out?: Phaser.Point): Phaser.Point; static distance(a: any, b: any, round?: boolean): number; static project(a: Phaser.Point, b: Phaser.Point, out?: Phaser.Point): Phaser.Point; static projectUnit(a: Phaser.Point, b: Phaser.Point, out?: Phaser.Point): Phaser.Point; static normalRightHand(a: Phaser.Point, out?: Phaser.Point): Phaser.Point; static normalize(a: Phaser.Point, out?: Phaser.Point): Phaser.Point; static rotate(a: Phaser.Point, x: number, y: number, angle: number, asDegrees?: boolean, distance?: number): Phaser.Point; static centroid(points: Phaser.Point[], out?: Phaser.Point): Phaser.Point; add(x: number, y: number): Phaser.Point; angle(a: Phaser.Point, asDegrees?: boolean): number; angleSq(a: Phaser.Point): number; clamp(min: number, max: number): Phaser.Point; clampX(min: number, max: number): Phaser.Point; clampY(min: number, max: number): Phaser.Point; clone(output?: Phaser.Point): Phaser.Point; copyFrom(source: Phaser.Point): Phaser.Point; copyTo(dest: Phaser.Point): any; cross(a: Phaser.Point): number; divide(x: number, y: number): Phaser.Point; distance(dest: Phaser.Point, round?: boolean): number; dot(a: Phaser.Point): number; equals(a: Phaser.Point): boolean; getMagnitude(): number; getMagnitudeSq(): number; invert(): Phaser.Point; isZero(): boolean; multiply(x: number, y: number): Phaser.Point; normalize(): Phaser.Point; normalRightHand(): Phaser.Point; perp(): Phaser.Point; rperp(): Phaser.Point; rotate(x: number, y: number, angle: number, asDegrees?: boolean, distance?: number): Phaser.Point; set(x: number, y?: number): Phaser.Point; setMagnitude(magnitude: number): Phaser.Point; setTo(x: number, y?: number): Phaser.Point; subtract(x: number, y: number): Phaser.Point; toString(): string; } class Pointer { constructor(game: Phaser.Game, id: number); active: boolean; button: any; circle: Phaser.Circle; clientX: number; clientY: number; dirty: boolean; duration: number; exists: boolean; game: Phaser.Game; id: number; identifier: number; isDown: boolean; isMouse: boolean; isUp: boolean; movementX: number; movementY: number; msSinceLastClick: number; pageX: number; pageY: number; pointerId: number; position: Phaser.Point; positionDown: Phaser.Point; positionUp: Phaser.Point; previousTapTime: number; rawMovementX: number; rawMovementY: number; screenX: number; screenY: number; target: any; targetObject: any; timeDown: number; timeUp: number; totalTouches: number; type: number; withinGame: boolean; worldX: number; worldY: number; x: number; y: number; justPressed(duration?: number): boolean; justReleased(duration?: number): boolean; leave(event: any): void; move(event: any, fromClick?: boolean): void; reset(): void; resetMovement(): void; start(event: any): void; stop(event: any): void; update(): void; } class Polygon { constructor(points: any[]); area: number; points: any[]; //number : point type: number; clone(output: Phaser.Polygon): Phaser.Polygon; contains(x: number, y: number): boolean; setTo(points: any[]): void; } class QuadTree { constructor(x: number, y: number, width: number, height: number, maxObject?: number, maxLevels?: number, level?: number); bounds: { x: number; y: number; width: number; height: number; subWidth: number; subHeight: number; right: number; bottom: number; }; level: number; maxObjects: number; maxLevels: number; objects: any[]; nodes: any[]; clear(): void; getIndex(rect: any): number; insert(body: any): void; populate(group: Phaser.Group): void; populateHandler(sprite: Phaser.Sprite): void; reset(x: number, y: number, width: number, height: number, maxObject?: number, maxLevels?: number, level?: number): void; retrieve(source: any): any[]; split(): void; } class RandomDataGenerator { constructor(seeds: number[]); angle(): number; between(min: number, max: number): number; frac(): number; integer(): number; integerInRange(min: number, max: number): number; normal(): number; pick(ary: T[]): T; real(): number; realInRange(min: number, max: number): number; sow(seeds: number[]): void; timestamp(min: number, max: number): number; uuid(): number; weightedPick(ary: T[]): T; } class Rectangle { constructor(x: number, y: number, width: number, height: number); bottom: number; bottomRight: Phaser.Point; centerX: number; centerY: number; empty: boolean; halfHeight: number; halfWidth: number; height: number; left: number; perimeter: number; randomX: number; randomY: number; right: number; top: number; topLeft: Phaser.Point; topRight: Phaser.Point; volume: number; width: number; x: number; y: number; static aabb(points: Phaser.Point[], out?: Phaser.Rectangle): Phaser.Rectangle; static clone(a: Phaser.Rectangle, output?: Phaser.Rectangle): Phaser.Rectangle; static contains(a: Phaser.Rectangle, x: number, y: number): boolean; static containsPoint(a: Phaser.Rectangle, point: Phaser.Point): boolean; static containsRaw(rx: number, ry: number, rw: number, rh: number, x: number, y: number): boolean; static containsRect(a: Phaser.Rectangle, b: Phaser.Rectangle): boolean; static equals(a: Phaser.Rectangle, b: Phaser.Rectangle): boolean; static inflate(a: Phaser.Rectangle, dx: number, dy: number): Phaser.Rectangle; static inflatePoint(a: Phaser.Rectangle, point: Phaser.Point): Phaser.Rectangle; static intersection(a: Phaser.Rectangle, b: Phaser.Rectangle, out?: Phaser.Rectangle): Phaser.Rectangle; static intersects(a: Phaser.Rectangle, b: Phaser.Rectangle): boolean; static intersectsRaw(left: number, right: number, top: number, bottom: number, tolerance: number): boolean; static size(a: Phaser.Rectangle, output?: Phaser.Point): Phaser.Point; static union(a: Phaser.Rectangle, b: Phaser.Rectangle, out?: Phaser.Rectangle): Phaser.Rectangle; centerOn(x: number, y: number): Phaser.Rectangle; clone(output: Phaser.Rectangle): Phaser.Rectangle; contains(x: number, y: number): boolean; containsRect(b: Phaser.Rectangle): boolean; copyFrom(source: any): Phaser.Rectangle; copyTo(dest: any): any; equals(b: Phaser.Rectangle): boolean; floor(): void; floorAll(): void; inflate(dx: number, dy: number): Phaser.Rectangle; intersection(b: Phaser.Rectangle, out: Phaser.Rectangle): Phaser.Rectangle; intersects(b: Phaser.Rectangle, tolerance: number): boolean; intersectsRaw(left: number, right: number, top: number, bottom: number, tolerance: number): boolean; offset(dx: number, dy: number): Phaser.Rectangle; offsetPoint(point: Phaser.Point): Phaser.Rectangle; setTo(x: number, y: number, width: number, height: number): Phaser.Rectangle; size(output?: Phaser.Point): Phaser.Point; toString(): string; union(b: Phaser.Rectangle, out?: Phaser.Rectangle): Phaser.Rectangle; } class RenderTexture extends PIXI.RenderTexture { constructor(game: Phaser.Game, width?: number, height?: number, key?: string, scaleMode?: number, resolution?: number); crop: PIXI.Rectangle; game: Phaser.Game; key: string; type: number; render(displayObject: PIXI.DisplayObject, position: Phaser.Point, clear?: boolean): void; renderXY(displayObject: PIXI.DisplayObject, x: number, y: number, clear?: boolean): void; } class RequestAnimationFrame { constructor(game: Phaser.Game, forceSetTimeOut?: boolean); game: Phaser.Game; isRunning: boolean; isRAF(): boolean; isSetTimeOut(): boolean; start(): boolean; stop(): void; updateRAF(): void; updateSetTimeout(): void; } class RetroFont extends Phaser.RenderTexture { constructor(game: Phaser.Game, key: string, characterWidth: number, characterHeight: number, chars: string, charsPerRow?: number, xSpacing?: number, ySpacing?: number, xOffset?: number, yOffset?: number); static ALIGN_CENTER: string; static ALIGN_LEFT: string; static ALIGN_RIGHT: string; static TEXT_SET1: string; static TEXT_SET2: string; static TEXT_SET3: string; static TEXT_SET4: string; static TEXT_SET5: string; static TEXT_SET6: string; static TEXT_SET7: string; static TEXT_SET8: string; static TEXT_SET9: string; static TEXT_SET10: string; static TEXT_SET11: string; align: string; autoUpperCase: boolean; characterHeight: number; characterPerRow: number; characterSpacingX: number; characterSpacingY: number; characterWidth: number; customSpacingX: number; customSpacingY: number; fixedWidth: number; fontSet: HTMLImageElement; frameData: Phaser.FrameData; multiLine: boolean; offsetX: number; offsetY: number; smoothed: string; stamp: Phaser.Image; text: string; buildRetroFontText(): void; getLongestLine(): number; pasteLine(line: string, x: number, y: number, customSpacingX: number): void; removeUnsupportedCharacters(stripCR?: boolean): string; setFixedWidth(width: number, lineAlignment?: string): void; setText(content: string, multiLine?: boolean, characterSpacing?: number, lineSpacing?: number, lineAlignment?: string, allowLowerCase?: boolean): void; updateOffset(x?: number, y?: number): void; } class Rope extends PIXI.Rope { constructor(game: Phaser.Game, x: number, y: number, key: any, frame?: any, points?: Phaser.Point[]); angle: number; animations: AnimationManager; autoCull: boolean; body: any; cameraOffset: Phaser.Point; checkWorldBounds: boolean; destroyPhase: boolean; exists: boolean; events: Phaser.Events; fixedToCamera: boolean; frame: number; frameName: string; game: Phaser.Game; input: Phaser.InputHandler; inputEnabled: boolean; key: any; name: string; points: Phaser.Point[]; position: Phaser.Point; segments: Phaser.Rectangle[]; type: number; world: Phaser.Point; x: number; y: number; z: number; destroy(destroyChildren?: boolean): void; loadTexture(key: any, frame?: any): void; play(): void; preUpdate(): void; postUpdate(): void; reset(x: number, y: number): void; setFrame(frame: Phaser.Frame): void; update(): void; updateAnimation(): void; } class Signal { active: boolean; memorize: boolean; add(listener: Function, listenerContext?: any, priority?: number): Phaser.SignalBinding; addOnce(listener: Function, listenerContext?: any, priority?: number): Phaser.SignalBinding; dispatch(...params: any[]): void; dispose(): void; forget(): void; getNumListeners(): number; halt(): void; has(listener: Function, context?: any): boolean; remove(listener: Function, context?: any): Function; removeAll(context?: any): void; toString(): string; validateListener(listener: Function, fnName: string): void; } class SignalBinding { constructor(signal: Phaser.Signal, listener: Function, isOnce: boolean, listenerContext?: any, priority?: number); active: boolean; context: any; params: any[]; execute(paramsArr?: any[]): void; detach(): Function; isBound(): boolean; isOnce(): boolean; getListener(): Function; getSignal(): Phaser.Signal; toString(): string; } class SinglePad { constructor(game: Phaser.Game, padParent: any); callbackContext: any; connected: boolean; deadZone: number; game: Phaser.Game; index: number; onAxisCallback: Function; onConnectCallback: Function; onDisconnectCallback: Function; onDownCallback: Function; onFloatCallback: Function; onUpCallback: Function; axis(axisCode: number): number; addCallbacks(context: any, callbacks: any): void; buttonValue(buttonCode: number): number; connect(rawPad: any): void; destroy(): void; disconnect(): void; getButton(buttonCode: number): Phaser.GamepadButton; isDown(buttonCode: number): boolean; isUp(buttonCode: number): boolean; justPressed(buttonCode: number, duration?: number): boolean; justReleased(buttonCode: number, duration?: number): boolean; pollStatus(): void; processAxisChange(axisState: any): void; processButtonDown(buttonCode: number, value: any): void; processButtonFloat(buttonCode: number, value: any): void; processButtonUp(buttonCode: number, value: any): void; reset(): void; } class Sound { constructor(game: Phaser.Game, key: string, volume?: number, loop?: boolean, connect?: boolean); autoplay: boolean; allowMultiple: boolean; context: any; currentMarker: string; currentTime: number; destroy(remove?: boolean): void; duration: number; durationMS: number; externalNode: any; game: Phaser.Game; gainNode: any; isDecoded: boolean; isDecoding: boolean; isPlaying: boolean; key: string; loop: boolean; markers: any; masterGainNode: any; mute: boolean; name: string; onDecoded: Phaser.Signal; onFadeComplete: Phaser.Signal; onLoop: Phaser.Signal; onMarkerComplete: Phaser.Signal; onMute: Phaser.Signal; onPause: Phaser.Signal; onPlay: Phaser.Signal; onResume: Phaser.Signal; onStop: Phaser.Signal; override: boolean; paused: boolean; pausedPosition: number; pausedTime: number; pendingPlayback: boolean; position: number; startTime: number; stopTime: number; totalDuration: number; usingAudioTag: boolean; usingWebAudio: boolean; volume: number; addMarker(name: string, start: number, duration: number, volume?: number, loop?: boolean): void; destroy(): void; fadeIn(duration?: number, loop?: boolean): void; fadeOut(duration?: number): void; fadeTo(duration?: number, volume?: number): void; pause(): void; play(marker?: string, position?: number, volume?: number, loop?: boolean, forceRestart?: boolean): Phaser.Sound; removeMarker(name: string): void; restart(marker: string, position: number, volume?: number, loop?: boolean): void; resume(): void; soundHasUnlocked(key: string): void; stop(): void; update(): void; } class SoundManager { constructor(game: Phaser.Game); channels: number; connectToMaster: boolean; context: any; game: Phaser.Game; mute: boolean; noAudio: boolean; onSoundDecode: Phaser.Signal; touchLocked: boolean; usingAudioTag: boolean; usingWebAudio: boolean; volume: number; add(key: string, volume?: number, loop?: boolean, connect?: boolean): Phaser.Sound; addSprite(key: string): Phaser.AudioSprite; boot(): void; decode(key: string, sound?: Phaser.Sound): void; destroy(): void; pauseAll(): void; play(key: string, volume?: number, loop?: boolean): Phaser.Sound; remove(sound: Phaser.Sound): boolean; removeByKey(key: string): number; resumeAll(): void; stopAll(): void; unlock(): void; update(): void; } class Sprite extends PIXI.Sprite { constructor(game: Phaser.Game, x: number, y: number, key?: any, frame?: any); alive: boolean; anchor: Phaser.Point; angle: number; animations: Phaser.AnimationManager; autoCull: boolean; body: any; cameraOffset: Phaser.Point; checkWorldBounds: boolean; cropRect: Phaser.Rectangle; debug: boolean; deltaX: number; deltaY: number; deltaZ: number; destroyPhase: boolean; events: Phaser.Events; exists: boolean; fixedToCamera: boolean; frame: number; frameName: string; game: Phaser.Game; health: number; inCamera: boolean; input: Phaser.InputHandler; inputEnabled: boolean; inWorld: boolean; key: any; lifespan: number; name: string; outOfBoundsKill: boolean; position: Phaser.Point; physicsEnabled: boolean; renderOrderID: number; scale: Phaser.Point; smoothed: boolean; type: number; world: Phaser.Point; x: number; y: number; z: number; bringToTop(): Phaser.Sprite; crop(rect: Phaser.Rectangle, copy: boolean): void; damage(amount: number): Phaser.Sprite; destroy(destroyChildren?: boolean): void; drawPolygon(): void; kill(): Phaser.Sprite; loadTexture(key: any, frame: any, stopAnimation?: boolean): void; overlap(displayObject: any): boolean; play(name: string, frameRate?: number, loop?: boolean, killOnComplete?: boolean): Phaser.Animation; postUpdate(): void; preUpdate(): void; reset(x: number, y: number, health?: number): Phaser.Sprite; resetFrame(): void; revive(health?: number): Phaser.Sprite; setFrame(frame: Phaser.Frame): void; update(): void; updateCrop(): void; } class SpriteBatch extends Phaser.Group { constructor(game: Phaser.Game, parent: any, name?: string, addedToStage?: boolean); type: number; } class Stage extends PIXI.Stage { constructor(game: Phaser.Game); backgroundColor: any; currentRenderOrderID: number; disableVisibilityChange: boolean; exists: boolean; game: Phaser.Game; name: string; smoothed: boolean; boot(): void; checkVisiblity(): void; destroy(): void; parseConfig(config: any): void; postUpdate(): void; preUpdate(): void; setBackgroundColor(backgroundColor: number): void; setBackgroundColor(backgroundColor: string): void; update(): void; visibilityChange(event: any): void; } interface ResizeCallback { (width: number, height: number): any; } class ScaleManager { constructor(game: Phaser.Game, width: any, height: any); static EXACT_FIT: number; static NO_SCALE: number; static SHOW_ALL: number; static RESIZE: number; aspectRatio: number; bounds: Phaser.Rectangle; enterFullScreen: Phaser.Signal; enterIncorrectOrientation: Phaser.Signal; enterLandscape: Phaser.Signal; enterPortrait: Phaser.Signal; event: any; height: number; forcePortrait: boolean; forceLandscape: boolean; fullScreenTarget: any; fullScreenScaleMode: number; game: Phaser.Game; grid: Phaser.FlexGrid; incorrectOrientation: boolean; leaveFullScreen: Phaser.Signal; leaveIncorrectOrientation: Phaser.Signal; isLandscape: boolean; isFullScreen: boolean; isPortrait: boolean; margin: Phaser.Point; maxHeight: number; maxIterations: number; maxWidth: number; minHeight: number; minWidth: number; offset: Phaser.Point; onResize: ResizeCallback; onResizeContext: any; orientation: number; pageAlignHorizontally: boolean; pageAlignVertically: boolean; parentIsWindow: boolean; parentNode: any; parentScaleFactor: Phaser.Point; scaleMode: number; scaleFactor: Phaser.Point; scaleFactorInversed: Phaser.Point; sourceAspectRatio: number; trackParentInterval: number; width: number; boot(width: number, height: number): void; checkOrientation(event: any): void; checkOrientationState(): void; checkResize(event: any): void; destroy(): void; forceOrientation(forceLandscape: boolean, forcePortrait?: boolean): void; fullScreenChange(event: any): void; parseConfig(config: any): void; preUpdate(): void; refresh(): void; reset(clearWorld?: boolean): void; setExactFit(): void; setMaximum(): void; setMinMax(minWidth: number, minHeight: number, maxWidth?: number, maxHeight?: number): void; setResizeCallback(callback: ResizeCallback, context: any): void; setScreenSize(force?: boolean): void; setShowAll(): void; setSize(): void; setupScale(width: number, height: number): void; startFullScreen(antialias?: boolean): void; stopFullScreen(): void; updateDimensions(width: number, height: number, resize: boolean): void; } class State { add: Phaser.GameObjectFactory; cache: Phaser.Cache; camera: Phaser.Camera; game: Phaser.Game; input: Phaser.Input; load: Phaser.Loader; make: Phaser.GameObjectCreator; math: Phaser.Math; particles: Phaser.Particles; physics: Phaser.Physics.Arcade; rnd: Phaser.RandomDataGenerator; scale: Phaser.ScaleManager; sound: Phaser.SoundManager; stage: Phaser.Stage; time: Phaser.Time; tweens: Phaser.TweenManager; world: Phaser.World; create(): void; loadRender(): void; loadUpdate(): void; paused(): void; preload(): void; render(): void; resize(): void; shutdown(): void; update(): void; } class StateCycle { preUpdate(): void; update(): void; render(): void; postRender(): void; destroy(): void; } class StateManager { constructor(game: Phaser.Game, pendingState?: Phaser.State); current: string; game: Phaser.Game; onCreateCallback: Function; onInitCallback: Function; onLoadRenderCallback: Function; onLoadUpdateCallback: Function; onPausedCallback: Function; onPauseUpdateCallback: Function; onPreloadCallback: Function; onPreRenderCallback: Function; onRenderCallback: Function; onResumedCallback: Function; onResizeCallback: Function; onShutDownCallback: Function; onUpdateCallback: Function; states: any; add(key: string, state: any, autoStart?: boolean): void; checkState(key: string): boolean; clearCurrentState(): void; destroy(): void; getCurrentState(): Phaser.State; link(key: string): void; loadComplete(): void; pause(): void; preRender(): void; preUpdate(): void; render(): void; remove(key: string): void; resume(): void; restart(clearWorld?: boolean, clearCache?: boolean): void; resize(width: number, height: number): void; start(key: string, clearWorld?: boolean, clearCache?: boolean, ...args: any[]): void; update(): void; unlink(key: string): void; } class Text extends PIXI.Text { constructor(game: Phaser.Game, x: number, y: number, text: string, style: any); align: string; angle: number; cameraOffset: Phaser.Point; colors: string[]; destroyPhase: boolean; events: Phaser.Events; exists: boolean; fill: any; fixedToCamera: boolean; font: string; fontSize: number; fontWeight: number; game: Phaser.Game; input: Phaser.InputHandler; inputEnabled: boolean; lineSpacing: number; name: string; position: Phaser.Point; shadowBlur: number; shadowColor: string; shadowOffsetX: number; shadowOffsetY: number; stroke: string; strokeThickness: number; scale: Phaser.Point; text: string; type: number; world: Phaser.Point; wordWrap: boolean; wordWrapWidth: number; z: number; addColor(color: string, position: number): void; clearColors(): void; destroy(destroyChildren?: boolean): void; postUpdate(): void; preUpdate(): void; setShadow(x?: number, y?: number, color?: any, blur?: number): void; setStyle(style?: { font?: string; fill?: any; align?: string; stroke?: string; strokeThickness?: number; wordWrap?: boolean; wordWrapWidth?: number; shadowOffsetX?: number; shadowOffsetY?: number; shadowColor?: string; shadowBlur?: number; }): void; update(): void; } class Tile { constructor(layer: any, index: number, x: number, y: Number, width: number, height: number);// alpha: number; bottom: number; callback: Function; callbackContext: any; centerX: number; centerY: number; canCollide: boolean; collideDown: boolean; collideLeft: boolean; collideNone: boolean; collideRight: boolean; collisionCallback: Function; collisionCallbackContext: any; collides: boolean; collideUp: boolean; faceBottom: boolean; faceLeft: boolean; faceRight: boolean; faceTop: boolean; game: Phaser.Game; height: number; index: number; layer: any; left: number; properties: any; right: number; scanned: boolean; top: number; width: number; worldX: number; worldY: number; x: number; y: number; copy(tile: Phaser.Tile): Phaser.Tile; containsPoint(x: number, y: number): boolean; destroy(): void; intersects(x: number, y: number, right: number, bottom: number): boolean; isInterested(collides: boolean, faces: boolean): boolean; resetCollision(): void; setCollision(left: boolean, right: boolean, up: boolean, down: boolean): void; setCollisionCallback(callback: Function, context: any): void; } class Tilemap { constructor(game: Phaser.Game, key?: string, tileWidth?: number, tileHeight?: number, width?: number, height?: number); static CSV: number; static TILED_JSON: number; static NORTH: number; static EAST: number; static SOUTH: number; static WEST: number; collision: any[]; collideIndexes: any[]; currentLayer: number; debugMap: any[]; format: number; game: Phaser.Game; height: number; heightInPixels: number; images: any[]; key: string; layer: Phaser.TilemapLayer[]; layers: any[]; objects: any[]; orientation: string; properties: any; tileHeight: number; tiles: Phaser.Tile[]; tilesets: Phaser.Tileset[]; tileWidth: number; version: number; width: number; widthInPixels: number; addTilesetImage(tileset: string, key?: string, tileWidth?: number, tileHeight?: number, tileMargin?: number, tileSpacing?: number, gid?: number): Phaser.Tileset; calculateFaces(layer: number): void; copy(x: number, y: number, width: number, height: number, layer?: any): Phaser.Tile[]; create(name: string, width: number, height: number, tileWidth: number, tileHeight: number, group?: Phaser.Group): Phaser.TilemapLayer; createBlankLayer(name: string, width: number, height: number, tileWidth: number, tileHeight: number, group?: Phaser.Group): Phaser.TilemapLayer; createFromObjects(name: string, gid: number, key: string, frame?: any, exists?: boolean, autoCull?: boolean, group?: Phaser.Group, CustomClass?: any, adjustY?: boolean): void; createLayer(layer: any, width?: number, height?: number, group?: Phaser.Group): Phaser.TilemapLayer; destroy(): void; dump(): void; fill(index: number, x: number, y: number, width: number, height: number, layer?: any): void; forEach(callback: Function, context: any, x: number, y: Number, width: number, height: number, layer?: any): void; getImageIndex(name: string): number; getIndex(location: any[], name: string): number; getLayer(layer: any): number; getLayerIndex(name: string): number; getObjectIndex(name: string): number; getTile(x: number, y: number, layer?: any, nonNull?: boolean): Phaser.Tile; getTileAbove(layer: number, x: number, y: number): Phaser.Tile; getTileBelow(layer: number, x: number, y: number): Phaser.Tile; getTileLeft(layer: number, x: number, y: number): Phaser.Tile; getTileRight(layer: number, x: number, y: number): Phaser.Tile; getTilesetIndex(name: string): number; getTileWorldXY(x: number, y: number, tileWidth?: number, tileHeight?: number, layer?: any): Phaser.Tile; hasTile(x: number, y: number, layer: Phaser.TilemapLayer): boolean; paste(x: number, y: number, tileblock: Phaser.Tile[], layer?: any): void; putTile(tile: any, x: number, y: number, layer?: any): Phaser.Tile; putTileWorldXY(tile: any, x: number, y: number, tileWidth: number, tileHeight: number, layer?: any): void; random(x: number, y: number, width: number, height: number, layer?: any): void; removeAllLayers(): void; removeTile(x: number, y: number, layer?: any): Phaser.Tile; removeTileWorldXY(x: number, y: number, tileWidth: number, tileHeight: number, layer?: any): Phaser.Tile; replace(source: number, dest: number, x: number, y: number, width: number, height: number, layer?: any): void; searchTileIndex(index: number, skip?: number, reverse?: boolean, layer?: any): Phaser.Tile; setCollision(indexes: any, collides?: boolean, layer?: any, recalculate?: boolean): void; setCollisionBetween(start: number, stop: number, collides?: boolean, layer?: any, recalculate?: boolean): void; setCollisionByExclusion(indexes: any[], collides?: boolean, layer?: any, recalculate?: boolean): void; setCollisionByIndex(index: number, collides?: boolean, layer?: number, recalculate?: boolean): void; setLayer(layer: any): void; setPreventRecalculate(value: boolean): void; setTileIndexCallback(indexes: any, callback: Function, callbackContext: any, layer?: any): void; setTileLocationCallback(x: number, y: number, width: number, height: number, callback: Function, callbackContext: any, layer?: any): void; setTileSize(tileWidth: number, tileHeight: number): void; shuffle(x: number, y: number, width: number, height: number, layer: any): void; swap(tileA: number, tileB: number, x: number, y: number, width: number, height: number, layer?: any): void; } class TilemapLayer extends Phaser.Image { constructor(game: Phaser.Game, tilemap: Phaser.Tilemap, index: number, width: number, height: number); baseTexture: PIXI.BaseTexture; cameraOffset: Phaser.Point; canvas: HTMLCanvasElement; collisionHeight: number; collisionWidth: number; context: CanvasRenderingContext2D; debug: boolean; debugAlpha: number; debugCallbackColor: string; debugColor: string; debugFill: boolean; debugFillColor: string; dirty: boolean; fixedToCamera: boolean; game: Phaser.Game; index: number; layer: any; map: Phaser.Tilemap; name: string; rayStepRate: number; scrollFactorX: number; scrollFactorY: number; scrollX: number; scrollY: number; texture: PIXI.Texture; textureFrame: Phaser.Frame; tileColor: string; type: number; wrap: boolean; getRayCastTiles(line: Phaser.Line, stepRate?: number, collides?: boolean, interestingFace?: boolean): Phaser.Tile[]; getTiles(x: number, y: number, width: number, height: number, collides?: boolean, interestingFace?: boolean): Phaser.Tile[]; getTileX(x: number): number; getTileXY(x: number, y: number, point: Phaser.Point): Phaser.Point; getTileY(y: number): number; postUpdate(): void; render(): void; renderDebug(): void; resizeWorld(): void; updateMax(): void; } class TilemapParser { static getEmptyData(tileWidth?: number, tileHeight?: number, width?: number, height?: number): any; static parse(game: Phaser.Game, key: string, tileWidth?: number, tileHeight?: number, width?: number, height?: number): any; static parseCSV(key: string, data: string, tileWidth?: number, tileHeight?: number): any; static parseJSON(json: any): any; } class Tileset { constructor(name: string, firstgid: number, width?: number, height?: number, margin?: number, spacing?: number, properties?: any); columns: number; firstgid: number; image: any; name: string; properties: any; rows: number; tileHeight: number; tileMargin: number; tileSpacing: number; tileWidth: number; total: number; draw(context: CanvasRenderingContext2D, x: number, y: number, index: number): void; setImage(image: any): void; setSpacing(margin?: number, spacing?: number): void; } class TileSprite extends PIXI.TilingSprite { constructor(game: Phaser.Game, x: number, y: number, width: number, height: number, key?: any, frame?: any); alive: boolean; angle: number; animations: Phaser.AnimationManager; autoCull: boolean; body: any; cameraOffset: Phaser.Point; checkWorldBounds: boolean; destroyPhase: boolean; events: Phaser.Events; exists: boolean; fixedToCamera: boolean; frame: number; frameName: string; game: Phaser.Game; input: Phaser.InputHandler; inputEnabled: boolean; key: any; name: string; position: Phaser.Point; type: number; world: Phaser.Point; z: number; autoScroll(x: number, y: number): void; destroy(destroyChildren: boolean): void; loadTexture(key: any, frame: any): void; play(name: string, frameRate?: number, loop?: boolean, killOnComplete?: boolean): Phaser.Animation; postUpdate(): void; preUpdate(): void; reset(x: number, y: number): Phaser.TileSprite; setFrame(frame: Phaser.Frame): void; stopScroll(): void; update(): void; } class Time { constructor(game: Phaser.Game); advancedTiming: boolean; deltaCap: number; elapsed: number; events: Phaser.Timer; fps: number; fpsMax: number; fpsMin: number; frames: number; game: Phaser.Game; lastTime: number; msMax: number; msMin: number; now: number; pausedTime: number; pauseDuration: number; physicsElapsed: number; prevTime: number; time: number; timeCap: number; timeToCall: number; add(timer: Phaser.Timer): Phaser.Timer; boot(): void; create(autoDestroy?: boolean): Phaser.Timer; elapsedSecondsSince(since: number): number; elapsedSince(since: number): number; removeAll(): void; reset(): void; totalElapsedSeconds(): number; update(time: number): void; } class Timer { constructor(game: Phaser.Game, autoDestroy?: boolean); static HALF: number; static MINUTE: number; static QUARTER: number; static SECOND: number; autoDestroy: boolean; duration: number; events: Phaser.TimerEvent[]; expired: boolean; game: Phaser.Game; length: number; ms: number; next: number; nextTick: number; onComplete: Phaser.Signal; running: boolean; paused: boolean; seconds: number; add(delay: number, callback: Function, callbackContext: any, ...args: any[]): Phaser.TimerEvent; clearPendingEvents(): void; destroy(): void; loop(delay: number, callback: Function, callbackContext: any, ...args: any[]): Phaser.TimerEvent; order(): void; pause(): void; remove(event: Phaser.TimerEvent): boolean; repeat(delay: number, repeatCount: number, callback: Function, callbackContext: any, ...args: any[]): Phaser.TimerEvent; resume(): void; sortHandler(a: any, b: any): number; start(startDelay?: number): void; stop(clearEvents?: boolean): void; update(time: number): boolean; } class TimerEvent { constructor(timer: Phaser.Timer, delay: number, tick: number, repeatCount: number, loop: boolean, callback: Function, callbackContext: any, ...args: any[]); args: any[]; callback: Function; callbackContext: any; delay: number; loop: boolean; pendingDelete: boolean; repeatCount: number; tick: number; timer: Phaser.Timer; } class Touch { constructor(game: Phaser.Game); callbackContext: any; disabled: boolean; event: any; game: Phaser.Game; preventDefault: boolean; touchCancelCallback: Function; touchEndCallback: Function; touchEnterCallback: Function; touchLeaveCallback: Function; touchMoveCallback: Function; touchStartCallback: Function; consumeTouchMove(): void; onTouchCancel(event: any): void; onTouchEnd(event: any): void; onTouchEnter(event: any): void; onTouchLeave(event: any): void; onTouchMove(event: any): void; onTouchStart(event: any): void; start(): void; stop(): void; } class Tween { constructor(object: any, game: Phaser.Game, manager: Phaser.TweenManager); game: Phaser.Game; isRunning: boolean; onComplete: Phaser.Signal; onLoop: Phaser.Signal; onStart: Phaser.Signal; pendingDelete: boolean; chain(): Phaser.Tween; delay(amount: number): Phaser.Tween; easing(easing: Function): Phaser.Tween; from(properties: any, duration?: number, ease?: Function, autoStart?: boolean, delay?: number, repeat?: number, yoyo?: boolean): Phaser.Tween; generateData(frameRate: number, data: any): any[]; interpolation(interpolation: Function): Phaser.Tween; loop(): Phaser.Tween; onUpdateCallback(callback: Function, callbackContext: any): Phaser.Tween; pause(): void; repeat(times: number): Phaser.Tween; resume(): void; start(): Phaser.Tween; stop(): Phaser.Tween; to(properties: any, duration?: number, ease?: Function, autoStart?: boolean, delay?: number, repeat?: number, yoyo?: boolean): Phaser.Tween; update(time: number): boolean; yoyo(yoyo: boolean): Phaser.Tween; } class TweenManager { constructor(game: Phaser.Game); game: Phaser.Game; add(tween: Phaser.Tween): Phaser.Tween; create(object: any): Phaser.Tween; getAll(): Phaser.Tween[]; isTweening(object: any): boolean; remove(tween: Phaser.Tween): Phaser.Tween; removeAll(): void; resumeAll(): void; update(): boolean; pauseAll(): void; } class Utils { static extend(deep: boolean, target: any): any; static getProperty(obj: any, prop: string): any; static isPlainObject(object: any): boolean; static mixin(from: any, to: any): any; static pad(str: string, len: number, pad: number, dir?: number): string; static parseDimension(size: any, dimension: number): number; static rotateArray(array: T[], direction: any): T; static setProperty(obj: any, prop: string, value: any): any; static shuffle(array: T[]): T; static transposeArray(array: T[]): T; } module Utils { class Debug { constructor(game: Phaser.Game); canvas: HTMLCanvasElement; columnWidth: number; context: CanvasRenderingContext2D; currentAlpha: number; currentX: number; currentY: number; dirty: boolean; font: string; game: Phaser.Game; lineHeight: number; renderShadow: boolean; sprite: Phaser.Image; AStar(astar: Phaser.Plugin.AStar, x: number, y: number, showVisited: boolean): void; boot(): void; body(sprite: Phaser.Sprite, color?: string, filled?: boolean): void; bodyInfo(sprite: Phaser.Sprite, x: number, y: Number, color?: string): void; box2dBody(body: Phaser.Sprite, color?: string): void; box2dWorld(): void; cameraInfo(camera: Phaser.Camera, x: number, y: number, color?: string): void; geom(object: any, color?: string, fiiled?: boolean, forceType?: number): void; inputInfo(x: number, y: number, color?: string): void; lineInfo(line: Phaser.Line, x: number, y: number, color?: string): void; key(key: Phaser.Key, x?: number, y?: number, color?: string): void; line(): void; preUpdate(): void; pixel(x: number, y: number, color?: string, size?: number): void; pointer(pointer: Phaser.Pointer, hideIfUp?: boolean, downColor?: string, upColor?: string, color?: string): void; quadTree(quadtree: Phaser.QuadTree, color?: string): void; rectangle(object: Phaser.Rectangle, color?: string, filled?: boolean): void; reset(): void; ropeSegments(rope: Phaser.Rope, color?: number, filled?: boolean): void; soundInfo(sound: Phaser.Sound, x: number, y: number, color?: string): void; spriteBounds(sprite: any, color?: string, filled?: boolean): void; spriteCoords(sprite: any, x: number, y: number, color?: string): void; spriteInfo(sprite: Phaser.Sprite, x: number, y: number, color?: string): void; spriteInputInfo(sprite: Phaser.Sprite, x: number, y: number, color?: string): void; start(x?: number, y?: number, color?: string, columnWidth?: number): void; stop(): void; text(text: string, x: number, y: number, color?: string, font?: string): void; timer(timer: Phaser.Timer, x: number, y: number, color?: string): void; } } class World extends Phaser.Group { constructor(game: Phaser.Game); bounds: Phaser.Rectangle; camera: Phaser.Camera; centerX: number; centerY: number; game: Phaser.Game; height: number; randomX: number; randomY: number; width: number; boot(): void; getObjectsUnderPointer(pointer: Phaser.Pointer, group: Phaser.Group, callback?: Function, callbackContext?: any): Phaser.Sprite; resize(width: number, height: number): void; setBounds(x: number, y: number, width: number, height: number): void; shutdown(): void; wrap(sprite: any, padding?: number, useBounds?: boolean, horizontal?: boolean, vertical?: boolean): void; } } // Type definitions for p2.js v0.6.0 // Project: https://github.com/schteppe/p2.js/ declare module p2 { export class AABB { constructor(options?: { upperBound?: number[]; lowerBound?: number[]; }); setFromPoints(points: number[][], position: number[], angle: number, skinSize: number): void; copy(aabb: AABB): void; extend(aabb: AABB): void; overlaps(aabb: AABB): boolean; } export class Broadphase { static AABB: number; static BOUNDING_CIRCLE: number; static NAIVE: number; static SAP: number; static boundingRadiusCheck(bodyA: Body, bodyB: Body): boolean; static aabbCheck(bodyA: Body, bodyB: Body): boolean; static canCollide(bodyA: Body, bodyB: Body): boolean; constructor(type: number); type: number; result: Body[]; world: World; boundingVolumeType: number; setWorld(world: World): void; getCollisionPairs(world: World): Body[]; boundingVolumeCheck(bodyA: Body, bodyB: Body): boolean; } export class GridBroadphase extends Broadphase { constructor(options?: { xmin?: number; xmax?: number; ymin?: number; ymax?: number; nx?: number; ny?: number; }); xmin: number; xmax: number; ymin: number; ymax: number; nx: number; ny: number; binsizeX: number; binsizeY: number; } export class NativeBroadphase extends Broadphase { } export class Narrowphase { contactEquations: ContactEquation[]; frictionEquations: FrictionEquation[]; enableFriction: boolean; slipForce: number; frictionCoefficient: number; surfaceVelocity: number; reuseObjects: boolean; resuableContactEquations: any[]; reusableFrictionEquations: any[]; restitution: number; stiffness: number; relaxation: number; frictionStiffness: number; frictionRelaxation: number; enableFrictionReduction: boolean; contactSkinSize: number; collidedLastStep(bodyA: Body, bodyB: Body): boolean; reset(): void; createContactEquation(bodyA: Body, bodyB: Body, shapeA: Shape, shapeB: Shape): ContactEquation; createFrictionFromContact(c: ContactEquation): FrictionEquation; } export class SAPBroadphase extends Broadphase { axisList: Body[]; axisIndex: number; } export class Constraint { static DISTANCE: number; static GEAR: number; static LOCK: number; static PRISMATIC: number; static REVOLUTE: number; constructor(bodyA: Body, bodyB: Body, type: number, options?: { collideConnected?: boolean; wakeUpBodies?: boolean; }); type: number; equeations: Equation[]; bodyA: Body; bodyB: Body; collideConnected: boolean; update(): void; setStiffness(stiffness: number): void; setRelaxation(relaxation: number): void; } export class DistanceConstraint extends Constraint { constructor(bodyA: Body, bodyB: Body, type: number, options?: { collideConnected?: boolean; wakeUpBodies?: boolean; distance?: number; localAnchorA?: number[]; localAnchorB?: number[]; maxForce?: number; }); localAnchorA: number[]; localAnchorB: number[]; distance: number; maxForce: number; upperLimitEnabled: boolean; upperLimit: number; lowerLimitEnabled: boolean; lowerLimit: number; position: number; setMaxForce(f: number): void; getMaxForce(): number; } export class GearConstraint extends Constraint { constructor(bodyA: Body, bodyB: Body, type: number, options?: { collideConnected?: boolean; wakeUpBodies?: boolean; angle?: number; ratio?: number; maxTorque?: number; }); ratio: number; angle: number; setMaxTorque(torque: number): void; getMaxTorque(): number; } export class LockConstraint extends Constraint { constructor(bodyA: Body, bodyB: Body, type: number, options?: { collideConnected?: boolean; wakeUpBodies?: boolean; localOffsetB?: number[]; localAngleB?: number; maxForce?: number; }); setMaxForce(force: number): void; getMaxForce(): number; } export class PrismaticConstraint extends Constraint { constructor(bodyA: Body, bodyB: Body, type: number, options?: { collideConnected?: boolean; wakeUpBodies?: boolean; maxForce?: number; localAnchorA?: number[]; localAnchorB?: number[]; localAxisA?: number[]; disableRotationalLock?: boolean; upperLimit?: number; lowerLimit?: number; }); localAnchorA: number[]; localAnchorB: number[]; localAxisA: number[]; position: number; velocity: number; lowerLimitEnabled: boolean; upperLimitEnabled: boolean; lowerLimit: number; upperLimit: number; upperLimitEquation: ContactEquation; lowerLimitEquation: ContactEquation; motorEquation: Equation; motorEnabled: boolean; motorSpeed: number; enableMotor(): void; disableMotor(): void; setLimits(lower: number, upper: number): void; } export class RevoluteConstraint extends Constraint { constructor(bodyA: Body, bodyB: Body, type: number, options?: { collideConnected?: boolean; wakeUpBodies?: boolean; worldPivot?: number[]; localPivotA?: number[]; localPivotB?: number[]; maxForce?: number; }); pivotA: number[]; pivotB: number[]; motorEquation: RotationalVelocityEquation; motorEnabled: boolean; angle: number; lowerLimitEnabled: boolean; upperLimitEnabled: boolean; lowerLimit: number; upperLimit: number; upperLimitEquation: ContactEquation; lowerLimitEquation: ContactEquation; enableMotor(): void; disableMotor(): void; motorIsEnabled(): boolean; setLimits(lower: number, upper: number): void; setMotorSpeed(speed: number): void; getMotorSpeed(): number; } export class AngleLockEquation extends Equation { constructor(bodyA: Body, bodyB: Body, options?: { angle?: number; ratio?: number; }); computeGq(): number; setRatio(ratio: number): number; setMaxTorque(torque: number): number; } export class ContactEquation extends Equation { constructor(bodyA: Body, bodyB: Body); contactPointA: number[]; penetrationVec: number[]; contactPointB: number[]; normalA: number[]; restitution: number; firstImpact: boolean; shapeA: Shape; shapeB: Shape; computeB(a: number, b: number, h: number): number; } export class Equation { static DEFAULT_STIFFNESS: number; static DEFAULT_RELAXATION: number; constructor(bodyA: Body, bodyB: Body, minForce?: number, maxForce?: number); minForce: number; maxForce: number; bodyA: Body; bodyB: Body; stiffness: number; relaxation: number; G: number[]; offset: number; a: number; b: number; epsilon: number; timeStep: number; needsUpdate: boolean; multiplier: number; relativeVelocity: number; enabled: boolean; gmult(G: number[], vi: number[], wi: number[], vj: number[], wj: number[]): number; computeB(a: number, b: number, h: number): number; computeGq(): number; computeGW(): number; computeGWlambda(): number; computeGiMf(): number; computeGiMGt(): number; addToWlambda(deltalambda: number): number; computeInvC(eps: number): number; } export class FrictionEquation extends Equation { constructor(bodyA: Body, bodyB: Body, slipForce: number); contactPointA: number[]; contactPointB: number[]; t: number[]; shapeA: Shape; shapeB: Shape; frictionCoefficient: number; setSlipForce(slipForce: number): number; getSlipForce(): number; computeB(a: number, b: number, h: number): number; } export class RotationalLockEquation extends Equation { constructor(bodyA: Body, bodyB: Body, options?: { angle?: number; }); angle: number; computeGq(): number; } export class RotationalVelocityEquation extends Equation { constructor(bodyA: Body, bodyB: Body); computeB(a: number, b: number, h: number): number; } export class EventEmitter { on(type: string, listener: Function, context: any): EventEmitter; has(type: string, listener: Function): boolean; off(type: string, listener: Function): EventEmitter; emit(event: any): EventEmitter; } export class ContactMaterialOptions { friction: number; restitution: number; stiffness: number; relaxation: number; frictionStiffness: number; frictionRelaxation: number; surfaceVelocity: number; } export class ContactMaterial { static idCounter: number; constructor(materialA: Material, materialB: Material, options?: ContactMaterialOptions); id: number; materialA: Material; materialB: Material; friction: number; restitution: number; stiffness: number; relaxation: number; frictionStuffness: number; frictionRelaxation: number; surfaceVelocity: number; contactSkinSize: number; } export class Material { static idCounter: number; constructor(id: number); id: number; } export class vec2 { static crossLength(a: number[], b: number[]): number; static crossVZ(out: number[], vec: number[], zcomp: number): number; static crossZV(out: number[], zcomp: number, vec: number[]): number; static rotate(out: number[], a: number[], angle: number): void; static rotate90cw(out: number[], a: number[]): number; static centroid(out: number[], a: number[], b: number[], c: number[]): number[]; static create(): number[]; static clone(a: number[]): number[]; static fromValues(x: number, y: number): number[]; static copy(out: number[], a: number[]): number[]; static set(out: number[], x: number, y: number): number[]; static toLocalFrame(out: number[], worldPoint: number[], framePosition: number[], frameAngle: number): void; static toGlobalFrame(out: number[], localPoint: number[], framePosition: number[], frameAngle: number): void; static add(out: number[], a: number[], b: number[]): number[]; static subtract(out: number[], a: number[], b: number[]): number[]; static sub(out: number[], a: number[], b: number[]): number[]; static multiply(out: number[], a: number[], b: number[]): number[]; static mul(out: number[], a: number[], b: number[]): number[]; static divide(out: number[], a: number[], b: number[]): number[]; static div(out: number[], a: number[], b: number[]): number[]; static scale(out: number[], a: number[], b: number): number[]; static distance(a: number[], b: number[]): number; static dist(a: number[], b: number[]): number; static squaredDistance(a: number[], b: number[]): number; static sqrDist(a: number[], b: number[]): number; static length(a: number[]): number; static len(a: number[]): number; static squaredLength(a: number[]): number; static sqrLen(a: number[]): number; static negate(out: number[], a: number[]): number[]; static normalize(out: number[], a: number[]): number[]; static dot(a: number[], b: number[]): number; static str(a: number[]): string; } export class BodyOptions { mass: number; position: number[]; velocity: number[]; angle: number; angularVelocity: number; force: number[]; angularForce: number; fixedRotation: number; } export class Body extends EventEmitter { sleepyEvent: { type: string; }; sleepEvent: { type: string; }; wakeUpEvent: { type: string; }; static DYNAMIC: number; static STATIC: number; static KINEMATIC: number; static AWAKE: number; static SLEEPY: number; static SLEEPING: number; constructor(options?: BodyOptions); id: number; world: World; shapes: Shape[]; shapeOffsets: number[][]; shapeAngles: number[]; mass: number; invMass: number; inertia: number; invInertia: number; invMassSolve: number; invInertiaSolve: number; fixedRotation: number; position: number[]; interpolatedPosition: number[]; interpolatedAngle: number; previousPosition: number[]; previousAngle: number; velocity: number[]; vlambda: number[]; wlambda: number[]; angle: number; angularVelocity: number; force: number[]; angularForce: number; damping: number; angularDamping: number; type: number; boundingRadius: number; aabb: AABB; aabbNeedsUpdate: boolean; allowSleep: boolean; wantsToSleep: boolean; sleepState: number; sleepSpeedLimit: number; sleepTimeLimit: number; gravityScale: number; updateSolveMassProperties(): void; setDensity(density: number): void; getArea(): number; getAABB(): AABB; updateAABB(): void; updateBoundingRadius(): void; addShape(shape: Shape, offset?: number[], angle?: number): void; removeShape(shape: Shape): boolean; updateMassProperties(): void; applyForce(force: number[], worldPoint: number[]): void; toLocalFrame(out: number[], worldPoint: number[]): void; toWorldFrame(out: number[], localPoint: number[]): void; fromPolygon(path: number[][], options?: { optimalDecomp?: boolean; skipSimpleCheck?: boolean; removeCollinearPoints?: any; //boolean | number }): boolean; adjustCenterOfMass(): void; setZeroForce(): void; resetConstraintVelocity(): void; applyDamping(dy: number): void; wakeUp(): void; sleep(): void; sleepTick(time: number, dontSleep: boolean, dt: number): void; getVelocityFromPosition(story: number[], dt: number): number[]; getAngularVelocityFromPosition(timeStep: number): number; overlaps(body: Body): boolean; } export class Spring { constructor(bodyA: Body, bodyB: Body, options?: { stiffness?: number; damping?: number; localAnchorA?: number[]; localAnchorB?: number[]; worldAnchorA?: number[]; worldAnchorB?: number[]; }); stiffness: number; damping: number; bodyA: Body; bodyB: Body; applyForce(): void; } export class LinearSpring extends Spring { localAnchorA: number[]; localAnchorB: number[]; restLength: number; setWorldAnchorA(worldAnchorA: number[]): void; setWorldAnchorB(worldAnchorB: number[]): void; getWorldAnchorA(result: number[]): number[]; getWorldAnchorB(result: number[]): number[]; applyForce(): void; } export class RotationalSpring extends Spring { constructor(bodyA: Body, bodyB: Body, options?: { restAngle?: number; stiffness?: number; damping?: number; }); restAngle: number; } export class Capsule extends Shape { constructor(length?: number, radius?: number); length: number; radius: number; } export class Circle extends Shape { constructor(radius: number); radius: number; } export class Convex extends Shape { static triangleArea(a: number[], b: number[], c: number[]): number; constructor(vertices: number[][], axes: number[]); vertices: number[][]; axes: number[]; centerOfMass: number[]; triangles: number[]; boundingRadius: number; projectOntoLocalAxis(localAxis: number[], result: number[]): void; projectOntoWorldAxis(localAxis: number[], shapeOffset: number[], shapeAngle: number, result: number[]): void; updateCenterOfMass(): void; } export class Heightfield extends Shape { constructor(data: number[], options?: { minValue?: number; maxValue?: number; elementWidth: number; }); data: number[]; maxValue: number; minValue: number; elementWidth: number; } export class Shape { static idCounter: number; static CIRCLE: number; static PARTICLE: number; static PLANE: number; static CONVEX: number; static LINE: number; static RECTANGLE: number; static CAPSULE: number; static HEIGHTFIELD: number; constructor(type: number); type: number; id: number; boundingRadius: number; collisionGroup: number; collisionMask: number; material: Material; area: number; sensor: boolean; computeMomentOfInertia(mass: number): number; updateBoundingRadius(): number; updateArea(): void; computeAABB(out: AABB, position: number[], angle: number): void; } export class Line extends Shape { constructor(length?: number); length: number; } export class Particle extends Shape { } export class Plane extends Shape { } export class Rectangle extends Shape { constructor(width?: number, height?: number); width: number; height: number; } export class Solver extends EventEmitter { static GS: number; static ISLAND: number; constructor(options?: {}, type?: number); type: number; equations: Equation[]; equationSortFunction: Equation; //Equation | boolean solve(dy: number, world: World): void; solveIsland(dy: number, island: Island): void; sortEquations(): void; addEquation(eq: Equation): void; addEquations(eqs: Equation[]): void; removeEquation(eq: Equation): void; removeAllEquations(): void; } export class GSSolver extends Solver { constructor(options?: { iterations?: number; tolerance?: number; }); iterations: number; tolerance: number; useZeroRHS: boolean; frictionIterations: number; usedIterations: number; solve(h: number, world: World): void; } export class OverlapKeeper { constructor(bodyA: Body, shapeA: Shape, bodyB: Body, shapeB: Shape); shapeA: Shape; shapeB: Shape; bodyA: Body; bodyB: Body; tick(): void; setOverlapping(bodyA: Body, shapeA: Shape, bodyB: Body, shapeB: Body): void; bodiesAreOverlapping(bodyA: Body, bodyB: Body): boolean; set(bodyA: Body, shapeA: Shape, bodyB: Body, shapeB: Shape): void; } export class TupleDictionary { data: number[]; keys: number[]; getKey(id1: number, id2: number): string; getByKey(key: number): number; get(i: number, j: number): number; set(i: number, j: number, value: number): number; reset(): void; copy(dict: TupleDictionary): void; } export class Utils { static appendArray(a: Array, b: Array): Array; static splice(array: Array, index: number, howMany: number): void; static extend(a: any, b: any): void; static defaults(options: any, defaults: any): any; } export class Island { equations: Equation[]; bodies: Body[]; reset(): void; getBodies(result: any): Body[]; wantsToSleep(): boolean; sleep(): boolean; } export class IslandManager extends Solver { static getUnvisitedNode(nodes: Node[]): IslandNode; // IslandNode | boolean equations: Equation[]; islands: Island[]; nodes: IslandNode[]; visit(node: IslandNode, bds: Body[], eqs: Equation[]): void; bfs(root: IslandNode, bds: Body[], eqs: Equation[]): void; split(world: World): Island[]; } export class IslandNode { constructor(body: Body); body: Body; neighbors: IslandNode[]; equations: Equation[]; visited: boolean; reset(): void; } export class World extends EventEmitter { postStepEvent: { type: string; }; addBodyEvent: { type: string; }; removeBodyEvent: { type: string; }; addSpringEvent: { type: string; }; impactEvent: { type: string; bodyA: Body; bodyB: Body; shapeA: Shape; shapeB: Shape; contactEquation: ContactEquation; }; postBroadphaseEvent: { type: string; pairs: Body[]; }; beginContactEvent: { type: string; shapeA: Shape; shapeB: Shape; bodyA: Body; bodyB: Body; contactEquations: ContactEquation[]; }; endContactEvent: { type: string; shapeA: Shape; shapeB: Shape; bodyA: Body; bodyB: Body; }; preSolveEvent: { type: string; contactEquations: ContactEquation[]; frictionEquations: FrictionEquation[]; }; static NO_SLEEPING: number; static BODY_SLEEPING: number; static ISLAND_SLEEPING: number; static integrateBody(body: Body, dy: number): void; constructor(options?: { solver?: Solver; gravity?: number[]; broadphase?: Broadphase; islandSplit?: boolean; doProfiling?: boolean; }); springs: Spring[]; bodies: Body[]; solver: Solver; narrowphase: Narrowphase; islandManager: IslandManager; gravity: number[]; frictionGravity: number; useWorldGravityAsFrictionGravity: boolean; useFrictionGravityOnZeroGravity: boolean; doProfiling: boolean; lastStepTime: number; broadphase: Broadphase; constraints: Constraint[]; defaultMaterial: Material; defaultContactMaterial: ContactMaterial; lastTimeStep: number; applySpringForces: boolean; applyDamping: boolean; applyGravity: boolean; solveConstraints: boolean; contactMaterials: ContactMaterial[]; time: number; stepping: boolean; islandSplit: boolean; emitImpactEvent: boolean; sleepMode: number; addConstraint(c: Constraint): void; addContactMaterial(contactMaterial: ContactMaterial): void; removeContactMaterial(cm: ContactMaterial): void; getContactMaterial(materialA: Material, materialB: Material): ContactMaterial; // ContactMaterial | boolean removeConstraint(c: Constraint): void; step(dy: number, timeSinceLastCalled?: number, maxSubSteps?: number): void; runNarrowphase(np: Narrowphase, bi: Body, si: Shape, xi: any[], ai: number, bj: Body, sj: Shape, xj: any[], aj: number, cm: number, glen: number): void; addSpring(s: Spring): void; removeSpring(s: Spring): void; addBody(body: Body): void; removeBody(body: Body): void; getBodyByID(id: number): Body; //Body | boolean disableBodyCollision(bodyA: Body, bodyB: Body): void; enableBodyCollision(bodyA: Body, bodyB: Body): void; clear(): void; clone(): World; hitTest(worldPoint: number[], bodies: Body[], precision: number): Body[]; setGlobalEquationParameters(parameters: { relaxation?: number; stiffness?: number; }): void; setGlobalStiffness(stiffness: number): void; setGlobalRelaxation(relaxation: number): void; } }