Interface LayerNode

Represents an object that can be painted by this layer. Nodes might be map tiles or anything else that matches the interface definition.

interface LayerNode {
    animations: AnimationClip[];
    castShadow: boolean;
    children: Object3D<Object3DEventMap>[];
    customDepthMaterial?: Material;
    customDistanceMaterial?: Material;
    disposed: boolean;
    frustumCulled: boolean;
    id: number;
    isObject3D: true;
    layers: Layers;
    level: number;
    material: LayerNodeMaterial;
    matrix: Matrix4;
    matrixAutoUpdate: boolean;
    matrixWorld: Matrix4;
    matrixWorldAutoUpdate: boolean;
    matrixWorldNeedsUpdate: boolean;
    modelViewMatrix: Matrix4;
    name: string;
    normalMatrix: Matrix3;
    parent: null | Object3D<Object3DEventMap>;
    position: Vector3;
    quaternion: Quaternion;
    receiveShadow: boolean;
    renderOrder: number;
    rotation: Euler;
    scale: Vector3;
    textureSize: Vector2;
    type: string;
    up: Vector3;
    userData: Record<string, any>;
    uuid: string;
    visible: boolean;
    add(...object: Object3D<Object3DEventMap>[]): this;
    addEventListener<T>(type: T, listener: EventListener<LayerNodeEventMap[T], T, LayerNode>): void;
    applyMatrix4(matrix: Matrix4): void;
    applyQuaternion(quaternion: Quaternion): this;
    attach(object: Object3D<Object3DEventMap>): this;
    canProcessColorLayer(): boolean;
    clear(): this;
    clone(recursive?: boolean): this;
    copy(object: Object3D<Object3DEventMap>, recursive?: boolean): this;
    dispatchEvent<T>(event: BaseEvent<T> & LayerNodeEventMap[T]): void;
    getExtent(): Extent;
    getObjectById(id: number): undefined | Object3D<Object3DEventMap>;
    getObjectByName(name: string): undefined | Object3D<Object3DEventMap>;
    getObjectByProperty(name: string, value: any): undefined | Object3D<Object3DEventMap>;
    getObjectsByProperty(name: string, value: any, optionalTarget?: Object3D<Object3DEventMap>[]): Object3D<Object3DEventMap>[];
    getWorldDirection(target: Vector3): Vector3;
    getWorldPosition(target: Vector3): Vector3;
    getWorldQuaternion(target: Quaternion): Quaternion;
    getWorldScale(target: Vector3): Vector3;
    hasEventListener<T>(type: T, listener: EventListener<LayerNodeEventMap[T], T, LayerNode>): boolean;
    localToWorld(vector: Vector3): Vector3;
    lookAt(vector: Vector3): void;
    lookAt(x: number, y: number, z: number): void;
    onAfterRender(renderer: WebGLRenderer, scene: Scene, camera: Camera, geometry: BufferGeometry<NormalBufferAttributes>, material: Material, group: Group<Object3DEventMap>): void;
    onAfterShadow(renderer: WebGLRenderer, scene: Scene, camera: Camera, shadowCamera: Camera, geometry: BufferGeometry<NormalBufferAttributes>, depthMaterial: Material, group: Group<Object3DEventMap>): void;
    onBeforeRender(renderer: WebGLRenderer, scene: Scene, camera: Camera, geometry: BufferGeometry<NormalBufferAttributes>, material: Material, group: Group<Object3DEventMap>): void;
    onBeforeShadow(renderer: WebGLRenderer, scene: Scene, camera: Camera, shadowCamera: Camera, geometry: BufferGeometry<NormalBufferAttributes>, depthMaterial: Material, group: Group<Object3DEventMap>): void;
    raycast(raycaster: Raycaster, intersects: Intersection<Object3D<Object3DEventMap>>[]): void;
    remove(...object: Object3D<Object3DEventMap>[]): this;
    removeEventListener<T>(type: T, listener: EventListener<LayerNodeEventMap[T], T, LayerNode>): void;
    removeFromParent(): this;
    rotateOnAxis(axis: Vector3, angle: number): this;
    rotateOnWorldAxis(axis: Vector3, angle: number): this;
    rotateX(angle: number): this;
    rotateY(angle: number): this;
    rotateZ(angle: number): this;
    setRotationFromAxisAngle(axis: Vector3, angle: number): void;
    setRotationFromEuler(euler: Euler): void;
    setRotationFromMatrix(m: Matrix4): void;
    setRotationFromQuaternion(q: Quaternion): void;
    toJSON(meta?: JSONMeta): Object3DJSON;
    translateOnAxis(axis: Vector3, distance: number): this;
    translateX(distance: number): this;
    translateY(distance: number): this;
    translateZ(distance: number): this;
    traverse(callback: ((object: Object3D<Object3DEventMap>) => any)): void;
    traverseAncestors(callback: ((object: Object3D<Object3DEventMap>) => any)): void;
    traverseVisible(callback: ((object: Object3D<Object3DEventMap>) => any)): void;
    updateMatrix(): void;
    updateMatrixWorld(force?: boolean): void;
    updateWorldMatrix(updateParents: boolean, updateChildren: boolean): void;
    worldToLocal(vector: Vector3): Vector3;
}

Hierarchy (view full)

Properties

animations castShadow children customDepthMaterial? customDistanceMaterial? disposed frustumCulled id isObject3D layers level material matrix matrixAutoUpdate matrixWorld matrixWorldAutoUpdate matrixWorldNeedsUpdate modelViewMatrix name normalMatrix parent position quaternion receiveShadow renderOrder rotation scale textureSize type up userData uuid visible

Methods

add addEventListener applyMatrix4 applyQuaternion attach canProcessColorLayer clear clone copy dispatchEvent getExtent getObjectById getObjectByName getObjectByProperty getObjectsByProperty getWorldDirection getWorldPosition getWorldQuaternion getWorldScale hasEventListener localToWorld lookAt onAfterRender onAfterShadow onBeforeRender onBeforeShadow raycast remove removeEventListener removeFromParent rotateOnAxis rotateOnWorldAxis rotateX rotateY rotateZ setRotationFromAxisAngle setRotationFromEuler setRotationFromMatrix setRotationFromQuaternion toJSON translateOnAxis translateX translateY translateZ traverse traverseAncestors traverseVisible updateMatrix updateMatrixWorld updateWorldMatrix worldToLocal

Properties

animations

animations: AnimationClip[]

Array with object's animation clips.

Default Value

[]

castShadow

castShadow: boolean

Whether the object gets rendered into shadow map.

Default Value

false

children

children: Object3D<Object3DEventMap>[]

Array with object's children.

See

THREE.Object3DGroup | Group for info on manually grouping objects.

Default Value

[]

OptionalcustomDepthMaterial

customDepthMaterial?: Material

Custom depth material to be used when rendering to the depth map.

Remarks

Can only be used in context of meshes. When shadow-casting with a THREE.DirectionalLight | DirectionalLight or THREE.SpotLight | SpotLight, if you are modifying vertex positions in the vertex shader you must specify a customDepthMaterial for proper shadows.

Default Value

undefined

OptionalcustomDistanceMaterial

customDistanceMaterial?: Material

Same as customDepthMaterial, but used with THREE.Object3DPointLight | PointLight.

Default Value

undefined

disposed

disposed: boolean

Is this node disposed ?

frustumCulled

frustumCulled: boolean

When this is set, it checks every frame if the object is in the frustum of the camera before rendering the object. If set to false the object gets rendered every frame even if it is not in the frustum of the camera.

Default Value

true

Readonlyid

id: number

Unique number for this Object3D instance.

Remarks

Note that ids are assigned in chronological order: 1, 2, 3, ..., incrementing by one for each new object. Expects a Integer

ReadonlyisObject3D

isObject3D

Flag to check if a given object is of type Object3D.

Remarks

This is a constant value

Default Value

true

layers

layers: Layers

The layer membership of the object.

Remarks

The object is only visible if it has at least one layer in common with the THREE.Object3DCamera | Camera in use. This property can also be used to filter out unwanted objects in ray-intersection tests when using THREE.Raycaster | Raycaster.

Default Value

new THREE.Layers()

level

level: number

The LOD or depth level of this node in the hierarchy (the root node is level zero).

material

material: LayerNodeMaterial

The node material.

matrix

matrix: Matrix4

The local transform matrix.

Default Value

new THREE.Matrix4()

matrixAutoUpdate

matrixAutoUpdate: boolean

When this is set, it calculates the matrix of position, (rotation or quaternion) and scale every frame and also recalculates the matrixWorld property.

Default Value

DEFAULT_MATRIX_AUTO_UPDATE - that is (true).

matrixWorld

matrixWorld: Matrix4

The global transform of the object.

Remarks

If the Object3D has no parent, then it's identical to the local transform THREE.Object3D.matrix | .matrix.

Default Value

new THREE.Matrix4()

matrixWorldAutoUpdate

matrixWorldAutoUpdate: boolean

If set, then the renderer checks every frame if the object and its children need matrix updates. When it isn't, then you have to maintain all matrices in the object and its children yourself.

Default Value

DEFAULT_MATRIX_WORLD_AUTO_UPDATE - that is (true).

matrixWorldNeedsUpdate

matrixWorldNeedsUpdate: boolean

When this is set, it calculates the matrixWorld in that frame and resets this property to false.

Default Value

false

ReadonlymodelViewMatrix

modelViewMatrix: Matrix4

Default Value

new THREE.Matrix4()

name

name: string

Optional name of the object

Remarks

(doesn't need to be unique).

Default Value

""

ReadonlynormalMatrix

normalMatrix: Matrix3

Default Value

new THREE.Matrix3()

parent

parent: null | Object3D<Object3DEventMap>

Object's parent in the scene graph.

Remarks

An object can have at most one parent.

Default Value

null

Readonlyposition

position: Vector3

Object's local position.

Default Value

new THREE.Vector3() - that is (0, 0, 0).

Readonlyquaternion

quaternion: Quaternion

Object's local rotation as a THREE.Quaternion | Quaternion.

Default Value

new THREE.Quaternion() - that is (0, 0, 0, 1).

receiveShadow

receiveShadow: boolean

Whether the material receives shadows.

Default Value

false

renderOrder

renderOrder: number

This value allows the default rendering order of scene graph objects to be overridden although opaque and transparent objects remain sorted independently.

Remarks

When this property is set for an instance of Group, all descendants objects will be sorted and rendered together. Sorting is from lowest to highest renderOrder.

Default Value

0

Readonlyrotation

rotation: Euler

Object's local rotation (Euler angles), in radians.

Default Value

new THREE.Euler() - that is (0, 0, 0, Euler.DEFAULT_ORDER).

Readonlyscale

scale: Vector3

The object's local scale.

Default Value

new THREE.Vector3( 1, 1, 1 )

textureSize

textureSize: Vector2

The node texture size, in pixels.

Readonlytype

type: string

A Read-only string to check this object type.

Remarks

This can be used to find a specific type of Object3D in a scene. Sub-classes will update this value.

Default Value

Object3D

up

up: Vector3

This is used by the lookAt method, for example, to determine the orientation of the result.

Default Value

Object3D.DEFAULT_UP - that is (0, 1, 0).

userData

userData: Record<string, any>

An object that can be used to store custom data about the Object3D.

Remarks

It should not hold references to functions as these will not be cloned.

Default

{}

uuid

uuid: string

UUID of this object instance.

Remarks

This gets automatically assigned and shouldn't be edited.

visible

visible: boolean

Object gets rendered if true.

Default Value

true

Methods

add

  • add(...object): this

  • Adds another Object3D as child of this Object3D.

    Parameters

    Returns this

    Remarks

    An arbitrary number of objects may be added Any current parent on an object passed in here will be removed, since an Object3D can have at most one parent.

    See

    • attach
    • THREE.Group | Group for info on manually grouping objects.

addEventListener

applyMatrix4

  • applyMatrix4(matrix): void

  • Applies the matrix transform to the object and updates the object's position, rotation and scale.

    Parameters

    Returns void

applyQuaternion

  • applyQuaternion(quaternion): this

  • Applies the rotation represented by the quaternion to the object.

    Parameters

    Returns this

attach

  • attach(object): this

  • Adds a Object3D as a child of this, while maintaining the object's world transform.

    Parameters

    Returns this

    Remarks

    Note: This method does not support scene graphs having non-uniformly-scaled nodes(s).

    See

    add

canProcessColorLayer

  • canProcessColorLayer(): boolean

  • Gets whether this node can accept a color layer texture.

    Returns boolean

clear

  • clear(): this

  • Removes all child objects.

    Returns this

clone

  • clone(recursive?): this

  • Returns a clone of this object and optionally all descendants.

    Parameters

    • Optionalrecursive: boolean

      If true, descendants of the object are also cloned. Default true

    Returns this

copy

  • copy(object, recursive?): this

  • Copies the given object into this object.

    Parameters

    • object: Object3D<Object3DEventMap>
    • Optionalrecursive: boolean

      If set to true, descendants of the object are copied next to the existing ones. If set to false, descendants are left unchanged. Default is true.

    Returns this

    Remarks

    Event listeners and user-defined callbacks (.onAfterRender and .onBeforeRender) are not copied.

dispatchEvent

getExtent

getObjectById

  • getObjectById(id): undefined | Object3D<Object3DEventMap>

  • Searches through an object and its children, starting with the object itself, and returns the first with a matching id.

    Parameters

    • id: number

      Unique number of the object instance. Expects a Integer

    Returns undefined | Object3D<Object3DEventMap>

    Remarks

    Note that ids are assigned in chronological order: 1, 2, 3, ..., incrementing by one for each new object.

    See

    id

getObjectByName

  • getObjectByName(name): undefined | Object3D<Object3DEventMap>

  • Searches through an object and its children, starting with the object itself, and returns the first with a matching name.

    Parameters

    • name: string

      String to match to the children's Object3D.name property.

    Returns undefined | Object3D<Object3DEventMap>

    Remarks

    Note that for most objects the name is an empty string by default You will have to set it manually to make use of this method.

getObjectByProperty

  • getObjectByProperty(name, value): undefined | Object3D<Object3DEventMap>

  • Searches through an object and its children, starting with the object itself, and returns the first with a property that matches the value given.

    Parameters

    • name: string

      the property name to search for.

    • value: any

      value of the given property.

    Returns undefined | Object3D<Object3DEventMap>

getObjectsByProperty

  • getObjectsByProperty(name, value, optionalTarget?): Object3D<Object3DEventMap>[]

  • Searches through an object and its children, starting with the object itself, and returns the first with a property that matches the value given.

    Parameters

    • name: string

      The property name to search for.

    • value: any

      Value of the given property.

    • OptionaloptionalTarget: Object3D<Object3DEventMap>[]

      target to set the result. Otherwise a new Array is instantiated. If set, you must clear this array prior to each call (i.e., array.length = 0;).

    Returns Object3D<Object3DEventMap>[]

getWorldDirection

  • getWorldDirection(target): Vector3

  • Returns a vector representing the direction of object's positive z-axis in world space.

    Parameters

    • target: Vector3

      The result will be copied into this Vector3.

    Returns Vector3

getWorldPosition

  • getWorldPosition(target): Vector3

  • Returns a vector representing the position of the object in world space.

    Parameters

    • target: Vector3

      The result will be copied into this Vector3.

    Returns Vector3

getWorldQuaternion

  • getWorldQuaternion(target): Quaternion

  • Returns a quaternion representing the rotation of the object in world space.

    Parameters

    • target: Quaternion

      The result will be copied into this Quaternion.

    Returns Quaternion

getWorldScale

  • getWorldScale(target): Vector3

  • Returns a vector of the scaling factors applied to the object for each axis in world space.

    Parameters

    • target: Vector3

      The result will be copied into this Vector3.

    Returns Vector3

hasEventListener

  • hasEventListener<T>(type, listener): boolean

  • Checks if listener is added to an event type.

    Type Parameters

    Parameters

    Returns boolean

localToWorld

  • localToWorld(vector): Vector3

  • Converts the vector from this object's local space to world space.

    Parameters

    • vector: Vector3

      A vector representing a position in this object's local space.

    Returns Vector3

lookAt

  • lookAt(vector): void

  • Rotates the object to face a point in world space.

    Parameters

    • vector: Vector3

      A vector representing a position in world space to look at.

    Returns void

    Remarks

    This method does not support objects having non-uniformly-scaled parent(s).

  • lookAt(x, y, z): void

  • Rotates the object to face a point in world space.

    Parameters

    • x: number

      Expects a Float

    • y: number

      Expects a Float

    • z: number

      Expects a Float

    Returns void

    Remarks

    This method does not support objects having non-uniformly-scaled parent(s).

onAfterRender

  • onAfterRender(renderer, scene, camera, geometry, material, group): void

  • An optional callback that is executed immediately after a 3D object is rendered.

    Parameters

    Returns void

    Remarks

    This function is called with the following parameters: renderer, scene, camera, geometry, material, group. Please notice that this callback is only executed for renderable 3D objects. Meaning 3D objects which define their visual appearance with geometries and materials like instances of Mesh, Line, Points or Sprite. Instances of Object3D, Group or Bone are not renderable and thus this callback is not executed for such objects.

onAfterShadow

  • onAfterShadow(renderer, scene, camera, shadowCamera, geometry, depthMaterial, group): void

  • An optional callback that is executed immediately after a 3D object is rendered to a shadow map.

    Parameters

    Returns void

    Remarks

    This function is called with the following parameters: renderer, scene, camera, shadowCamera, geometry, depthMaterial, group. Please notice that this callback is only executed for renderable 3D objects. Meaning 3D objects which define their visual appearance with geometries and materials like instances of Mesh, Line, Points or Sprite. Instances of Object3D, Group or Bone are not renderable and thus this callback is not executed for such objects.

onBeforeRender

  • onBeforeRender(renderer, scene, camera, geometry, material, group): void

  • An optional callback that is executed immediately before a 3D object is rendered.

    Parameters

    Returns void

    Remarks

    This function is called with the following parameters: renderer, scene, camera, geometry, material, group. Please notice that this callback is only executed for renderable 3D objects. Meaning 3D objects which define their visual appearance with geometries and materials like instances of Mesh, Line, Points or Sprite. Instances of Object3D, Group or Bone are not renderable and thus this callback is not executed for such objects.

onBeforeShadow

  • onBeforeShadow(renderer, scene, camera, shadowCamera, geometry, depthMaterial, group): void

  • An optional callback that is executed immediately before a 3D object is rendered to a shadow map.

    Parameters

    Returns void

    Remarks

    This function is called with the following parameters: renderer, scene, camera, shadowCamera, geometry, depthMaterial, group. Please notice that this callback is only executed for renderable 3D objects. Meaning 3D objects which define their visual appearance with geometries and materials like instances of Mesh, Line, Points or Sprite. Instances of Object3D, Group or Bone are not renderable and thus this callback is not executed for such objects.

raycast

  • raycast(raycaster, intersects): void

  • Abstract (empty) method to get intersections between a casted ray and this object

    Parameters

    Returns void

    Remarks

    Subclasses such as THREE.Mesh | Mesh, THREE.Line | Line, and THREE.Points | Points implement this method in order to use raycasting.

    See

    THREE.Raycaster | Raycaster

    Default Value

    () => {}

remove

  • remove(...object): this

  • Removes a Object3D as child of this Object3D.

    Parameters

    Returns this

    Remarks

    An arbitrary number of objects may be removed.

    See

    THREE.Group | Group for info on manually grouping objects.

removeEventListener

removeFromParent

  • removeFromParent(): this

  • Removes this object from its current parent.

    Returns this

rotateOnAxis

  • rotateOnAxis(axis, angle): this

  • Rotate an object along an axis in object space.

    Parameters

    • axis: Vector3

      A normalized vector in object space.

    • angle: number

      The angle in radians. Expects a Float

    Returns this

    Remarks

    The axis is assumed to be normalized.

rotateOnWorldAxis

  • rotateOnWorldAxis(axis, angle): this

  • Rotate an object along an axis in world space.

    Parameters

    • axis: Vector3

      A normalized vector in world space.

    • angle: number

      The angle in radians. Expects a Float

    Returns this

    Remarks

    The axis is assumed to be normalized Method Assumes no rotated parent.

rotateX

  • rotateX(angle): this

  • Rotates the object around x axis in local space.

    Parameters

    • angle: number

    Returns this

rotateY

  • rotateY(angle): this

  • Rotates the object around y axis in local space.

    Parameters

    • angle: number

    Returns this

rotateZ

  • rotateZ(angle): this

  • Rotates the object around z axis in local space.

    Parameters

    • angle: number

    Returns this

setRotationFromAxisAngle

  • setRotationFromAxisAngle(axis, angle): void

  • Calls THREE.Quaternion.setFromAxisAngle | setFromAxisAngle(axis, angle) on the .quaternion.

    Parameters

    • axis: Vector3

      A normalized vector in object space.

    • angle: number

      Angle in radians. Expects a Float

    Returns void

setRotationFromEuler

  • setRotationFromEuler(euler): void

  • Calls THREE.Quaternion.setFromEuler | setFromEuler(euler) on the .quaternion.

    Parameters

    • euler: Euler

      Euler angle specifying rotation amount.

    Returns void

setRotationFromMatrix

  • setRotationFromMatrix(m): void

  • Calls THREE.Quaternion.setFromRotationMatrix | setFromRotationMatrix(m) on the .quaternion.

    Parameters

    • m: Matrix4

      Rotate the quaternion by the rotation component of the matrix.

    Returns void

    Remarks

    Note that this assumes that the upper 3x3 of m is a pure rotation matrix (i.e, unscaled).

setRotationFromQuaternion

  • setRotationFromQuaternion(q): void

  • Copy the given THREE.Quaternion | Quaternion into .quaternion.

    Parameters

    Returns void

toJSON

translateOnAxis

  • translateOnAxis(axis, distance): this

  • Translate an object by distance along an axis in object space

    Parameters

    • axis: Vector3

      A normalized vector in object space.

    • distance: number

      The distance to translate. Expects a Float

    Returns this

    Remarks

    The axis is assumed to be normalized.

translateX

  • translateX(distance): this

  • Translates object along x axis in object space by distance units.

    Parameters

    • distance: number

      Expects a Float

    Returns this

translateY

  • translateY(distance): this

  • Translates object along y axis in object space by distance units.

    Parameters

    • distance: number

      Expects a Float

    Returns this

translateZ

  • translateZ(distance): this

  • Translates object along z axis in object space by distance units.

    Parameters

    • distance: number

      Expects a Float

    Returns this

traverse

  • traverse(callback): void

  • Executes the callback on this object and all descendants.

    Parameters

    Returns void

    Remarks

    Note: Modifying the scene graph inside the callback is discouraged.

traverseAncestors

  • traverseAncestors(callback): void

  • Executes the callback on all ancestors.

    Parameters

    Returns void

    Remarks

    Note: Modifying the scene graph inside the callback is discouraged.

traverseVisible

  • traverseVisible(callback): void

  • Like traverse, but the callback will only be executed for visible objects

    Parameters

    Returns void

    Remarks

    Descendants of invisible objects are not traversed. Note: Modifying the scene graph inside the callback is discouraged.

updateMatrix

  • updateMatrix(): void

  • Updates local transform.

    Returns void

updateMatrixWorld

  • updateMatrixWorld(force?): void

  • Updates the global transform of the object. And will update the object descendants if .matrixWorldNeedsUpdate is set to true or if the force parameter is set to true.

    Parameters

    • Optionalforce: boolean

      A boolean that can be used to bypass .matrixWorldAutoUpdate, to recalculate the world matrix of the object and descendants on the current frame. Useful if you cannot wait for the renderer to update it on the next frame, assuming .matrixWorldAutoUpdate set to true.

    Returns void

updateWorldMatrix

  • updateWorldMatrix(updateParents, updateChildren): void

  • Updates the global transform of the object.

    Parameters

    • updateParents: boolean

      Recursively updates global transform of ancestors.

    • updateChildren: boolean

      Recursively updates global transform of descendants.

    Returns void

worldToLocal

  • worldToLocal(vector): Vector3

  • Converts the vector from world space to this object's local space.

    Parameters

    • vector: Vector3

      A vector representing a position in world space.

    Returns Vector3

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