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three.d.ts
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three.d.ts
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// Type definitions for three.js r71
// Project: http://mrdoob.github.com/three.js/
// Definitions by: Kon <http://phyzkit.net/>, Satoru Kimura <https://github.com/gyohk>
// Definitions: https://github.com/borisyankov/DefinitelyTyped
interface WebGLRenderingContext {}
declare module THREE {
export var REVISION: string;
// https://developer.mozilla.org/en-US/docs/Web/API/MouseEvent.button
export enum MOUSE {LEFT, MIDDLE, RIGHT}
// GL STATE CONSTANTS
export enum CullFace { }
export var CullFaceNone: CullFace;
export var CullFaceBack: CullFace;
export var CullFaceFront: CullFace;
export var CullFaceFrontBack: CullFace;
export enum FrontFaceDirection { }
export var FrontFaceDirectionCW: FrontFaceDirection;
export var FrontFaceDirectionCCW: FrontFaceDirection;
// Shadowing Type
export enum ShadowMapType { }
export var BasicShadowMap: ShadowMapType;
export var PCFShadowMap: ShadowMapType;
export var PCFSoftShadowMap: ShadowMapType;
// MATERIAL CONSTANTS
// side
export enum Side { }
export var FrontSide: Side;
export var BackSide: Side;
export var DoubleSide: Side;
// shading
export enum Shading { }
export var NoShading: Shading;
export var FlatShading: Shading;
export var SmoothShading: Shading;
// colors
export enum Colors { }
export var NoColors: Colors;
export var FaceColors: Colors;
export var VertexColors: Colors;
// blending modes
export enum Blending { }
export var NoBlending: Blending;
export var NormalBlending: Blending;
export var AdditiveBlending: Blending;
export var SubtractiveBlending: Blending;
export var MultiplyBlending: Blending;
export var CustomBlending: Blending;
// custom blending equations
// (numbers start from 100 not to clash with other
// mappings to OpenGL constants defined in Texture.js)
export enum BlendingEquation { }
export var AddEquation: BlendingEquation;
export var SubtractEquation: BlendingEquation;
export var ReverseSubtractEquation: BlendingEquation;
export var MinEquation: BlendingEquation;
export var MaxEquation: BlendingEquation;
// custom blending destination factors
export enum BlendingDstFactor { }
export var ZeroFactor: BlendingDstFactor;
export var OneFactor: BlendingDstFactor;
export var SrcColorFactor: BlendingDstFactor;
export var OneMinusSrcColorFactor: BlendingDstFactor;
export var SrcAlphaFactor: BlendingDstFactor;
export var OneMinusSrcAlphaFactor: BlendingDstFactor;
export var DstAlphaFactor: BlendingDstFactor;
export var OneMinusDstAlphaFactor: BlendingDstFactor;
// custom blending src factors
export enum BlendingSrcFactor { }
export var DstColorFactor: BlendingSrcFactor;
export var OneMinusDstColorFactor: BlendingSrcFactor;
export var SrcAlphaSaturateFactor: BlendingSrcFactor;
// TEXTURE CONSTANTS
// Operations
export enum Combine { }
export var MultiplyOperation: Combine;
export var MixOperation: Combine;
export var AddOperation: Combine;
// Mapping modes
export enum Mapping { }
export var UVMapping: Mapping;
export var CubeReflectionMapping: Mapping;
export var CubeRefractionMapping: Mapping;
export var EquirectangularReflectionMapping: Mapping;
export var EquirectangularRefractionMapping: Mapping;
export var SphericalReflectionMapping: Mapping;
// Wrapping modes
export enum Wrapping { }
export var RepeatWrapping: Wrapping;
export var ClampToEdgeWrapping: Wrapping;
export var MirroredRepeatWrapping: Wrapping;
// Filters
export enum TextureFilter { }
export var NearestFilter: TextureFilter;
export var NearestMipMapNearestFilter: TextureFilter;
export var NearestMipMapLinearFilter: TextureFilter;
export var LinearFilter: TextureFilter;
export var LinearMipMapNearestFilter: TextureFilter;
export var LinearMipMapLinearFilter: TextureFilter;
// Data types
export enum TextureDataType { }
export var UnsignedByteType: TextureDataType;
export var ByteType: TextureDataType;
export var ShortType: TextureDataType;
export var UnsignedShortType: TextureDataType;
export var IntType: TextureDataType;
export var UnsignedIntType: TextureDataType;
export var FloatType: TextureDataType;
export var HalfFloatType: TextureDataType;
// Pixel types
export enum PixelType { }
export var UnsignedShort4444Type: PixelType;
export var UnsignedShort5551Type: PixelType;
export var UnsignedShort565Type: PixelType;
// Pixel formats
export enum PixelFormat { }
export var AlphaFormat: PixelFormat;
export var RGBFormat: PixelFormat;
export var RGBAFormat: PixelFormat;
export var LuminanceFormat: PixelFormat;
export var LuminanceAlphaFormat: PixelFormat;
export var RGBEFormat: PixelFormat;
// Compressed texture formats
// DDS / ST3C Compressed texture formats
export enum CompressedPixelFormat { }
export var RGB_S3TC_DXT1_Format: CompressedPixelFormat;
export var RGBA_S3TC_DXT1_Format: CompressedPixelFormat;
export var RGBA_S3TC_DXT3_Format: CompressedPixelFormat;
export var RGBA_S3TC_DXT5_Format: CompressedPixelFormat;
// PVRTC compressed texture formats
export var RGB_PVRTC_4BPPV1_Format: CompressedPixelFormat;
export var RGB_PVRTC_2BPPV1_Format: CompressedPixelFormat;
export var RGBA_PVRTC_4BPPV1_Format: CompressedPixelFormat;
export var RGBA_PVRTC_2BPPV1_Format: CompressedPixelFormat;
// log handlers
export function warn(message?: any, ...optionalParams: any[]): void;
export function error(message?: any, ...optionalParams: any[]): void;
export function log(message?: any, ...optionalParams: any[]): void;
// Cameras ////////////////////////////////////////////////////////////////////////////////////////
/**
* Abstract base class for cameras. This class should always be inherited when you build a new camera.
*/
export class Camera extends Object3D {
/**
* This constructor sets following properties to the correct type: matrixWorldInverse, projectionMatrix and projectionMatrixInverse.
*/
constructor();
/**
* This is the inverse of matrixWorld. MatrixWorld contains the Matrix which has the world transform of the Camera.
*/
matrixWorldInverse: Matrix4;
/**
* This is the matrix which contains the projection.
*/
projectionMatrix: Matrix4;
getWorldDirection(optionalTarget?: Vector3): Vector3;
/**
* This make the camera look at the vector position in local space.
* @param vector point to look at
*/
lookAt(vector: Vector3): void;
clone(camera?: Camera): Camera;
}
export class CubeCamera extends Object3D {
constructor( near?: number, far?: number, cubeResolution?: number);
renderTarget: WebGLRenderTargetCube;
updateCubeMap( renderer: Renderer, scene: Scene ): void;
}
/**
* Camera with orthographic projection
*
* @example
* var camera = new THREE.OrthographicCamera( width / - 2, width / 2, height / 2, height / - 2, 1, 1000 );
* scene.add( camera );
*
* @see <a href="https://github.com/mrdoob/three.js/blob/master/src/cameras/OrthographicCamera.js">src/cameras/OrthographicCamera.js</a>
*/
export class OrthographicCamera extends Camera {
/**
* @param left Camera frustum left plane.
* @param right Camera frustum right plane.
* @param top Camera frustum top plane.
* @param bottom Camera frustum bottom plane.
* @param near Camera frustum near plane.
* @param far Camera frustum far plane.
*/
constructor(left: number, right: number, top: number, bottom: number, near?: number, far?: number);
zoom: number;
/**
* Camera frustum left plane.
*/
left: number;
/**
* Camera frustum right plane.
*/
right: number;
/**
* Camera frustum top plane.
*/
top: number;
/**
* Camera frustum bottom plane.
*/
bottom: number;
/**
* Camera frustum near plane.
*/
near: number;
/**
* Camera frustum far plane.
*/
far: number;
/**
* Updates the camera projection matrix. Must be called after change of parameters.
*/
updateProjectionMatrix(): void;
clone(): OrthographicCamera;
}
/**
* Camera with perspective projection.
*
* # example
* var camera = new THREE.PerspectiveCamera( 45, width / height, 1, 1000 );
* scene.add( camera );
*
* @source https://github.com/mrdoob/three.js/blob/master/src/cameras/PerspectiveCamera.js
*/
export class PerspectiveCamera extends Camera {
/**
* @param fov Camera frustum vertical field of view. Default value is 50.
* @param aspect Camera frustum aspect ratio. Default value is 1.
* @param near Camera frustum near plane. Default value is 0.1.
* @param far Camera frustum far plane. Default value is 2000.
*/
constructor(fov?: number, aspect?: number, near?: number, far?: number);
zoom: number;
/**
* Camera frustum vertical field of view, from bottom to top of view, in degrees.
*/
fov: number;
/**
* Camera frustum aspect ratio, window width divided by window height.
*/
aspect: number;
/**
* Camera frustum near plane.
*/
near: number;
/**
* Camera frustum far plane.
*/
far: number;
/**
* Uses focal length (in mm) to estimate and set FOV 35mm (fullframe) camera is used if frame size is not specified.
* Formula based on http://www.bobatkins.com/photography/technical/field_of_view.html
* @param focalLength focal length
* @param frameHeight frame size. Default value is 24.
*/
setLens(focalLength: number, frameHeight?: number): void;
/**
* Sets an offset in a larger frustum. This is useful for multi-window or multi-monitor/multi-machine setups.
* For example, if you have 3x2 monitors and each monitor is 1920x1080 and the monitors are in grid like this:
*
* +---+---+---+
* | A | B | C |
* +---+---+---+
* | D | E | F |
* +---+---+---+
*
* then for each monitor you would call it like this:
*
* var w = 1920;
* var h = 1080;
* var fullWidth = w * 3;
* var fullHeight = h * 2;
*
* // A
* camera.setViewOffset( fullWidth, fullHeight, w * 0, h * 0, w, h );
* // B
* camera.setViewOffset( fullWidth, fullHeight, w * 1, h * 0, w, h );
* // C
* camera.setViewOffset( fullWidth, fullHeight, w * 2, h * 0, w, h );
* // D
* camera.setViewOffset( fullWidth, fullHeight, w * 0, h * 1, w, h );
* // E
* camera.setViewOffset( fullWidth, fullHeight, w * 1, h * 1, w, h );
* // F
* camera.setViewOffset( fullWidth, fullHeight, w * 2, h * 1, w, h ); Note there is no reason monitors have to be the same size or in a grid.
*
* @param fullWidth full width of multiview setup
* @param fullHeight full height of multiview setup
* @param x horizontal offset of subcamera
* @param y vertical offset of subcamera
* @param width width of subcamera
* @param height height of subcamera
*/
setViewOffset(fullWidth: number, fullHeight: number, x: number, y: number, width: number, height: number): void;
/**
* Updates the camera projection matrix. Must be called after change of parameters.
*/
updateProjectionMatrix(): void;
clone(): PerspectiveCamera;
}
// Core ///////////////////////////////////////////////////////////////////////////////////////////////
export class BufferAttribute {
constructor(array: any, itemSize: number); // array parameter should be TypedArray.
array: number[];
itemSize: number;
needsUpdate: boolean;
length: number;
copyAt(index1: number, attribute: BufferAttribute, index2: number): void;
set(value: number, offset?: number): BufferAttribute;
setX(index: number, x: number): BufferAttribute;
setY(index: number, y: number): BufferAttribute;
setZ(index: number, z: number): BufferAttribute;
setXY(index: number, x: number, y: number): BufferAttribute;
setXYZ(index: number, x: number, y: number, z: number): BufferAttribute;
setXYZW(index: number, x: number, y: number, z: number, w: number): BufferAttribute;
clone(): BufferAttribute;
}
// deprecated
export class Int8Attribute extends BufferAttribute{
constructor(data: any, itemSize: number);
}
// deprecated
export class Uint8Attribute extends BufferAttribute {
constructor(data: any, itemSize: number);
}
// deprecated
export class Uint8ClampedAttribute extends BufferAttribute {
constructor(data: any, itemSize: number);
}
// deprecated
export class Int16Attribute extends BufferAttribute {
constructor(data: any, itemSize: number);
}
// deprecated
export class Uint16Attribute extends BufferAttribute {
constructor(data: any, itemSize: number);
}
// deprecated
export class Int32Attribute extends BufferAttribute {
constructor(data: any, itemSize: number);
}
// deprecated
export class Uint32Attribute extends BufferAttribute {
constructor(data: any, itemSize: number);
}
// deprecated
export class Float32Attribute extends BufferAttribute {
constructor(data: any, itemSize: number);
}
// deprecated
export class Float64Attribute extends BufferAttribute {
constructor(data: any, itemSize: number);
}
/**
* This is a superefficent class for geometries because it saves all data in buffers.
* It reduces memory costs and cpu cycles. But it is not as easy to work with because of all the nessecary buffer calculations.
* It is mainly interesting when working with static objects.
*
* @see <a href="https://github.com/mrdoob/three.js/blob/master/src/core/BufferGeometry.js">src/core/BufferGeometry.js</a>
*/
export class BufferGeometry {
/**
* This creates a new BufferGeometry. It also sets several properties to an default value.
*/
constructor();
/**
* Unique number of this buffergeometry instance
*/
id: number;
uuid: string;
name: string;
type: string;
attributes: BufferAttribute[];
attributesKeys: string[];
drawcalls: { start: number; count: number; index: number; }[];
offsets: { start: number; count: number; index: number; }[];
boundingBox: Box3;
boundingSphere: BoundingSphere;
addAttribute(name: string, attribute: BufferAttribute): any;
addAttribute(name: string, array: any, itemSize: number): any;
getAttribute(name: string): any;
addDrawCall(start: number, count: number, index: number): void;
/**
* Bakes matrix transform directly into vertex coordinates.
*/
applyMatrix(matrix: Matrix4): void;
center(): Vector3;
fromGeometry( geometry: Geometry, settings?: any ): BufferGeometry;
/**
* Computes bounding box of the geometry, updating Geometry.boundingBox attribute.
* Bounding boxes aren't computed by default. They need to be explicitly computed, otherwise they are null.
*/
computeBoundingBox(): void;
/**
* Computes bounding sphere of the geometry, updating Geometry.boundingSphere attribute.
* Bounding spheres aren't' computed by default. They need to be explicitly computed, otherwise they are null.
*/
computeBoundingSphere(): void;
// deprecated
computeFaceNormals(): void;
/**
* Computes vertex normals by averaging face normals.
*/
computeVertexNormals(): void;
/**
* Computes vertex tangents.
* Based on http://www.terathon.com/code/tangent.html
* Geometry must have vertex UVs (layer 0 will be used).
*/
computeTangents(): void;
computeOffsets(size: number): void;
merge(geometry: BufferGeometry, offset: number): BufferGeometry;
normalizeNormals(): void;
reorderBuffers(indexBuffer: number, indexMap: number[], vertexCount: number): void;
toJSON(): any;
clone(): BufferGeometry;
/**
* Disposes the object from memory.
* You need to call this when you want the bufferGeometry removed while the application is running.
*/
dispose(): void;
// EventDispatcher mixins
addEventListener(type: string, listener: (event: any) => void ): void;
hasEventListener(type: string, listener: (event: any) => void): void;
removeEventListener(type: string, listener: (event: any) => void): void;
dispatchEvent(event: { type: string; target: any; }): void;
}
/**
* Object for keeping track of time.
*
* @see <a href="https://github.com/mrdoob/three.js/blob/master/src/core/Clock.js">src/core/Clock.js</a>
*/
export class Clock {
/**
* @param autoStart Automatically start the clock.
*/
constructor(autoStart?: boolean);
/**
* If set, starts the clock automatically when the first update is called.
*/
autoStart: boolean;
/**
* When the clock is running, It holds the starttime of the clock.
* This counted from the number of milliseconds elapsed since 1 January 1970 00:00:00 UTC.
*/
startTime: number;
/**
* When the clock is running, It holds the previous time from a update.
* This counted from the number of milliseconds elapsed since 1 January 1970 00:00:00 UTC.
*/
oldTime: number;
/**
* When the clock is running, It holds the time elapsed between the start of the clock to the previous update.
* This parameter is in seconds of three decimal places.
*/
elapsedTime: number;
/**
* This property keeps track whether the clock is running or not.
*/
running: boolean;
/**
* Starts clock.
*/
start(): void;
/**
* Stops clock.
*/
stop(): void;
/**
* Get the seconds passed since the clock started.
*/
getElapsedTime(): number;
/**
* Get the seconds passed since the last call to this method.
*/
getDelta(): number;
}
export class DynamicBufferAttribute extends BufferAttribute{
constructor(array: any, itemSize: number);
updateRange: {
offset: number;
count: number;
}
clone(): DynamicBufferAttribute;
}
/**
* JavaScript events for custom objects
*
* # Example
* var Car = function () {
*
* EventDispatcher.call( this );
* this.start = function () {
*
* this.dispatchEvent( { type: 'start', message: 'vroom vroom!' } );
*
* };
*
* };
*
* var car = new Car();
* car.addEventListener( 'start', function ( event ) {
*
* alert( event.message );
*
* } );
* car.start();
*
* @source src/core/EventDispatcher.js
*/
export class EventDispatcher {
/**
* Creates eventDispatcher object. It needs to be call with '.call' to add the functionality to an object.
*/
constructor();
/**
* Adds a listener to an event type.
* @param type The type of the listener that gets removed.
* @param listener The listener function that gets removed.
*/
addEventListener(type: string, listener: (event: any) => void ): void;
/**
* Adds a listener to an event type.
* @param type The type of the listener that gets removed.
* @param listener The listener function that gets removed.
*/
hasEventListener(type: string, listener: (event: any) => void): void;
/**
* Removes a listener from an event type.
* @param type The type of the listener that gets removed.
* @param listener The listener function that gets removed.
*/
removeEventListener(type: string, listener: (event: any) => void): void;
/**
* Fire an event type.
* @param type The type of event that gets fired.
*/
dispatchEvent(event: { type: string; target: any; }): void;
}
/**
* Triangle face.
*
* # Example
* var normal = new THREE.Vector3( 0, 1, 0 );
* var color = new THREE.Color( 0xffaa00 );
* var face = new THREE.Face3( 0, 1, 2, normal, color, 0 );
*
* @source https://github.com/mrdoob/three.js/blob/master/src/core/Face3.js
*/
export class Face3 {
/**
* @param a Vertex A index.
* @param b Vertex B index.
* @param c Vertex C index.
* @param normal Face normal or array of vertex normals.
* @param color Face color or array of vertex colors.
* @param materialIndex Material index.
*/
constructor(a: number, b: number, c: number, normal?: Vector3, color?: Color, materialIndex?: number);
constructor(a: number, b: number, c: number, normal?: Vector3, vertexColors?: Color[], materialIndex?: number);
constructor(a: number, b: number, c: number, vertexNormals?: Vector3[], color?: Color, materialIndex?: number);
constructor(a: number, b: number, c: number, vertexNormals?: Vector3[], vertexColors?: Color[], materialIndex?: number);
/**
* Vertex A index.
*/
a: number;
/**
* Vertex B index.
*/
b: number;
/**
* Vertex C index.
*/
c: number;
/**
* Face normal.
*/
normal: Vector3;
/**
* Array of 4 vertex normals.
*/
vertexNormals: Vector3[];
/**
* Face color.
*/
color: Color;
/**
* Array of 4 vertex normals.
*/
vertexColors: Color[];
/**
* Array of 4 vertex tangets.
*/
vertexTangents: number[];
/**
* Material index (points to {@link Geometry.materials}).
*/
materialIndex: number;
clone(): Face3;
}
export interface MorphTarget {
name: string;
vertices: Vector3[];
}
export interface MorphColor {
name: string;
colors: Color[];
}
export interface MorphNormals {
name: string;
normals: Vector3[];
}
export interface BoundingSphere {
radius: number;
}
/**
* Base class for geometries
*
* # Example
* var geometry = new THREE.Geometry();
* geometry.vertices.push( new THREE.Vector3( -10, 10, 0 ) );
* geometry.vertices.push( new THREE.Vector3( -10, -10, 0 ) );
* geometry.vertices.push( new THREE.Vector3( 10, -10, 0 ) );
* geometry.faces.push( new THREE.Face3( 0, 1, 2 ) );
* geometry.computeBoundingSphere();
*
* @see https://github.com/mrdoob/three.js/blob/master/src/core/Geometry.js
*/
export class Geometry {
constructor();
/**
* Unique number of this geometry instance
*/
id: number;
uuid: string;
/**
* Name for this geometry. Default is an empty string.
*/
name: string;
type: string;
/**
* The array of vertices hold every position of points of the model.
* To signal an update in this array, Geometry.verticesNeedUpdate needs to be set to true.
*/
vertices: Vector3[];
/**
* Array of vertex colors, matching number and order of vertices.
* Used in ParticleSystem, Line and Ribbon.
* Meshes use per-face-use-of-vertex colors embedded directly in faces.
* To signal an update in this array, Geometry.colorsNeedUpdate needs to be set to true.
*/
colors: Color[];
/**
* Array of triangles or/and quads.
* The array of faces describe how each vertex in the model is connected with each other.
* To signal an update in this array, Geometry.elementsNeedUpdate needs to be set to true.
*/
faces: Face3[];
/**
* Array of face UV layers.
* Each UV layer is an array of UV matching order and number of vertices in faces.
* To signal an update in this array, Geometry.uvsNeedUpdate needs to be set to true.
*/
faceVertexUvs: Vector2[][][];
/**
* Array of morph targets. Each morph target is a Javascript object:
*
* { name: "targetName", vertices: [ new THREE.Vector3(), ... ] }
*
* Morph vertices match number and order of primary vertices.
*/
morphTargets: MorphTarget[];
/**
* Array of morph colors. Morph colors have similar structure as morph targets, each color set is a Javascript object:
*
* morphColor = { name: "colorName", colors: [ new THREE.Color(), ... ] }
*/
morphColors: MorphColor[];
/**
* Array of morph normals. Morph normals have similar structure as morph targets, each normal set is a Javascript object:
*
* morphNormal = { name: "NormalName", normals: [ new THREE.Vector3(), ... ] }
*/
morphNormals: MorphNormals[];
/**
* Array of skinning weights, matching number and order of vertices.
*/
skinWeights: number[];
/**
* Array of skinning indices, matching number and order of vertices.
*/
skinIndices: number[];
/**
*
*/
lineDistances: number[];
/**
* Bounding box.
*/
boundingBox: Box3;
/**
* Bounding sphere.
*/
boundingSphere: BoundingSphere;
/**
* True if geometry has tangents. Set in Geometry.computeTangents.
*/
hasTangents: boolean;
/**
* Set to true if attribute buffers will need to change in runtime (using "dirty" flags).
* Unless set to true internal typed arrays corresponding to buffers will be deleted once sent to GPU.
* Defaults to true.
*/
dynamic: boolean;
/**
* Set to true if the vertices array has been updated.
*/
verticesNeedUpdate: boolean;
/**
* Set to true if the faces array has been updated.
*/
elementsNeedUpdate: boolean;
/**
* Set to true if the uvs array has been updated.
*/
uvsNeedUpdate: boolean;
/**
* Set to true if the normals array has been updated.
*/
normalsNeedUpdate: boolean;
/**
* Set to true if the tangents in the faces has been updated.
*/
tangentsNeedUpdate: boolean;
/**
* Set to true if the colors array has been updated.
*/
colorsNeedUpdate: boolean;
/**
* Set to true if the linedistances array has been updated.
*/
lineDistancesNeedUpdate: boolean;
/**
*
*/
groupsNeedUpdate: boolean;
/**
* Bakes matrix transform directly into vertex coordinates.
*/
applyMatrix(matrix: Matrix4): void;
fromBufferGeometry(geometry: BufferGeometry): Geometry;
/**
*
*/
center(): Vector3;
/**
* Computes face normals.
*/
computeFaceNormals(): void;
/**
* Computes vertex normals by averaging face normals.
* Face normals must be existing / computed beforehand.
*/
computeVertexNormals(areaWeighted?: boolean): void;
/**
* Computes morph normals.
*/
computeMorphNormals(): void;
/**
* Computes vertex tangents.
* Based on <a href="http://www.terathon.com/code/tangent.html">http://www.terathon.com/code/tangent.html</a>
* Geometry must have vertex UVs (layer 0 will be used).
*/
computeTangents(): void;
computeLineDistances(): void;
/**
* Computes bounding box of the geometry, updating {@link Geometry.boundingBox} attribute.
*/
computeBoundingBox(): void;
/**
* Computes bounding sphere of the geometry, updating Geometry.boundingSphere attribute.
* Neither bounding boxes or bounding spheres are computed by default. They need to be explicitly computed, otherwise they are null.
*/
computeBoundingSphere(): void;
merge( geometry: Geometry, matrix: Matrix, materialIndexOffset: number): void;
mergeMesh( mesh: Mesh ): void;
/**
* Checks for duplicate vertices using hashmap.
* Duplicated vertices are removed and faces' vertices are updated.
*/
mergeVertices(): number;
toJSON(): any;
/**
* Creates a new clone of the Geometry.
*/
clone(): Geometry;
/**
* Removes The object from memory.
* Don't forget to call this method when you remove an geometry because it can cuase meomory leaks.
*/
dispose(): void;
//These properties do not exist in a normal Geometry class, but if you use the instance that was passed by JSONLoader, it will be added.
bones: Bone[];
animation: AnimationData;
animations: AnimationData[];
// EventDispatcher mixins
addEventListener(type: string, listener: (event: any) => void ): void;
hasEventListener(type: string, listener: (event: any) => void): void;
removeEventListener(type: string, listener: (event: any) => void): void;
dispatchEvent(event: { type: string; target: any; }): void;
}
/**
* Base class for scene graph objects
*/
export class Object3D {
constructor();
/**
* Unique number of this object instance.
*/
id: number;
/**
*
*/
uuid: string;
/**
* Optional name of the object (doesn't need to be unique).
*/
name: string;
type: string;
/**