import { Euler, Object3D, Quaternion, Scene, Vector3 } from "three"; import { type AssetReference } from "../engine/engine_addressables.js"; import { type IInstantiateOptions } from "../engine/engine_gameobject.js"; import { SyncInstantiateOptions } from "../engine/engine_networking_instantiate.js"; import { Context, FrameEvent } from "../engine/engine_setup.js"; import { $componentName, type Collision, type ComponentInit, type Constructor, type ConstructorConcrete, type GuidsMap, type ICollider, type IComponent, type IGameObject, type SourceIdentifier } from "../engine/engine_types.js"; import type { INeedleXRSessionEventReceiver, NeedleXRControllerEventArgs, NeedleXREventArgs } from "../engine/engine_xr.js"; import { type IPointerEventHandler, PointerEventData } from "./ui/PointerEvents.js"; /** * Base class for objects in Needle Engine. Extends {@link Object3D} from three.js. * GameObjects can have components attached to them, which can be used to add functionality to the object. * They manage their components and provide methods to add, remove and get components. * * All {@link Object3D} types loaded in Needle Engine have methods like {@link addComponent}. * These methods are available directly on the GameObject instance: * ```typescript * target.addComponent(MyComponent); * ``` * * And can be called statically on the GameObject class as well: * ```typescript * GameObject.setActive(target, true); * ``` */ export declare abstract class GameObject extends Object3D implements Object3D, IGameObject { /** * Indicates if the GameObject is currently active. Inactive GameObjects will not be rendered or updated. * When the activeSelf state changes, components will receive {@link Component.onEnable} or {@link Component.onDisable} callbacks. */ abstract activeSelf: boolean; /** @deprecated Use {@link addComponent} instead */ abstract addNewComponent(type: ConstructorConcrete, init?: ComponentInit): T; /** * Creates a new component on this gameObject or adds an existing component instance * @param comp Component type constructor or existing component instance * @param init Optional initialization values for the component * @returns The newly created or added component */ abstract addComponent(comp: T | ConstructorConcrete, init?: ComponentInit): T; /** * Removes a component from this GameObject * @param comp Component instance to remove * @returns The removed component */ abstract removeComponent(comp: T): T; /** * Gets an existing component of the specified type or adds a new one if it doesn't exist * @param typeName Constructor of the component type to get or add * @returns The existing or newly added component */ abstract getOrAddComponent(typeName: ConstructorConcrete | null): T; /** * Gets a component of the specified type attached to this GameObject * @param type Constructor of the component type to get * @returns The component if found, otherwise null */ abstract getComponent(type: Constructor): T | null; /** * Gets all components of the specified type attached to this GameObject * @param type Constructor of the component type to get * @param arr Optional array to populate with the components * @returns Array of components */ abstract getComponents(type: Constructor, arr?: T[]): Array; /** * Gets a component of the specified type in this GameObject's children hierarchy * @param type Constructor of the component type to get * @returns The first matching component if found, otherwise null */ abstract getComponentInChildren(type: Constructor): T | null; /** * Gets all components of the specified type in this GameObject's children hierarchy * @param type Constructor of the component type to get * @param arr Optional array to populate with the components * @returns Array of components */ abstract getComponentsInChildren(type: Constructor, arr?: T[]): Array; /** * Gets a component of the specified type in this GameObject's parent hierarchy * @param type Constructor of the component type to get * @returns The first matching component if found, otherwise null */ abstract getComponentInParent(type: Constructor): T | null; /** * Gets all components of the specified type in this GameObject's parent hierarchy * @param type Constructor of the component type to get * @param arr Optional array to populate with the components * @returns Array of components */ abstract getComponentsInParent(type: Constructor, arr?: T[]): Array; /** * The position of this GameObject in world space */ abstract get worldPosition(): Vector3; abstract set worldPosition(val: Vector3); /** * The rotation of this GameObject in world space as a quaternion */ abstract set worldQuaternion(val: Quaternion); abstract get worldQuaternion(): Quaternion; /** * The rotation of this GameObject in world space in euler angles (degrees) */ abstract set worldRotation(val: Vector3); abstract get worldRotation(): Vector3; /** * The scale of this GameObject in world space */ abstract set worldScale(val: Vector3); abstract get worldScale(): Vector3; /** * The forward direction vector of this GameObject in world space */ abstract get worldForward(): Vector3; abstract set worldForward(val: Vector3); /** * The right direction vector of this GameObject in world space */ abstract get worldRight(): Vector3; /** * The up direction vector of this GameObject in world space */ abstract get worldUp(): Vector3; /** * Unique identifier for this GameObject */ guid: string | undefined; /** * Destroys this GameObject and all its components. * Internally, this is added to the three.js {@link Object3D} prototype. */ abstract destroy(): any; /** * Checks if a GameObject has been destroyed * @param go The GameObject to check * @returns True if the GameObject has been destroyed */ static isDestroyed(go: Object3D): boolean; /** * Sets the active state of a GameObject * @param go The GameObject to modify * @param active Whether the GameObject should be active * @param processStart Whether to process the start callbacks if being activated */ static setActive(go: Object3D, active: boolean, processStart?: boolean): void; /** * Checks if the GameObject itself is active (same as go.visible) * @param go The GameObject to check * @returns True if the GameObject is active */ static isActiveSelf(go: Object3D): boolean; /** * Checks if the GameObject is active in the hierarchy (e.g. if any parent is invisible or not in the scene it will be false) * @param go The GameObject to check * @returns True if the GameObject is active in the hierarchy */ static isActiveInHierarchy(go: Object3D): boolean; /** * Marks a GameObject to be rendered using instancing * @param go The GameObject to mark * @param instanced Whether the GameObject should use instanced rendering */ static markAsInstancedRendered(go: Object3D, instanced: boolean): void; /** * Checks if a GameObject is using instanced rendering * @param instance The GameObject to check * @returns True if the GameObject is using instanced rendering */ static isUsingInstancing(instance: Object3D): boolean; /** * Executes a callback for all components of the provided type on the provided object and its children * @param instance Object to run the method on * @param cb Callback to run on each component, "return undefined;" to continue and "return ;" to break the loop * @param recursive If true, the method will be run on all children as well * @returns The last return value of the callback */ static foreachComponent(instance: Object3D, cb: (comp: Component) => any, recursive?: boolean): any; /** * Creates a new instance of the provided object that will be replicated to all connected clients * @param instance Object to instantiate * @param opts Options for the instantiation * @returns The newly created instance or null if creation failed */ static instantiateSynced(instance: GameObject | Object3D | null, opts: SyncInstantiateOptions): GameObject | null; /** * Creates a new instance of the provided object (like cloning it including all components and children) * @param instance Object to instantiate * @param opts Options for the instantiation (e.g. with what parent, position, etc.) * @returns The newly created instance */ static instantiate(instance: AssetReference, opts?: IInstantiateOptions | null | undefined): Promise; static instantiate(instance: GameObject | Object3D, opts?: IInstantiateOptions | null | undefined): GameObject; /** * Destroys an object on all connected clients (if in a networked session) * @param instance Object to destroy * @param context Optional context to use * @param recursive If true, all children will be destroyed as well */ static destroySynced(instance: Object3D | Component, context?: Context, recursive?: boolean): void; /** * Destroys an object * @param instance Object to destroy * @param recursive If true, all children will be destroyed as well. Default: true */ static destroy(instance: Object3D | Component, recursive?: boolean): void; /** * Adds an object to parent and ensures all components are properly registered * @param instance Object to add * @param parent Parent to add the object to * @param context Optional context to use */ static add(instance: Object3D | null | undefined, parent: Object3D, context?: Context): void; /** * Removes the object from its parent and deactivates all of its components * @param instance Object to remove */ static remove(instance: Object3D | null | undefined): void; /** * Invokes a method on all components including children (if a method with that name exists) * @param go GameObject to invoke the method on * @param functionName Name of the method to invoke * @param args Arguments to pass to the method */ static invokeOnChildren(go: Object3D | null | undefined, functionName: string, ...args: any): void; /** * Invokes a method on all components that have a method matching the provided name * @param go GameObject to invoke the method on * @param functionName Name of the method to invoke * @param children Whether to invoke on children as well * @param args Arguments to pass to the method */ static invoke(go: Object3D | null | undefined, functionName: string, children?: boolean, ...args: any): void; /** @deprecated use `addComponent` */ static addNewComponent(go: IGameObject | Object3D, type: T | ConstructorConcrete, init?: ComponentInit, callAwake?: boolean): T; /** * Adds a new component (or moves an existing component) to the provided object * @param go Object to add the component to * @param instanceOrType If an instance is provided it will be moved to the new object, if a type is provided a new instance will be created * @param init Optional init object to initialize the component with * @param opts Optional options for adding the component * @returns The added or moved component */ static addComponent(go: IGameObject | Object3D, instanceOrType: T | ConstructorConcrete, init?: ComponentInit, opts?: { callAwake: boolean; }): T; /** * Moves a component to a new object * @param go GameObject to move the component to * @param instance Component to move * @returns The moved component */ static moveComponent(go: IGameObject | Object3D, instance: T | ConstructorConcrete): T; /** * Removes a component from its object * @param instance Component to remove * @returns The removed component */ static removeComponent(instance: T): T; /** * Gets or adds a component of the specified type * @param go GameObject to get or add the component to * @param typeName Constructor of the component type * @returns The existing or newly added component */ static getOrAddComponent(go: IGameObject | Object3D, typeName: ConstructorConcrete): T; /** * Gets a component on the provided object * @param go GameObject to get the component from * @param typeName Constructor of the component type * @returns The component if found, otherwise null */ static getComponent(go: IGameObject | Object3D | null, typeName: Constructor | null): T | null; /** * Gets all components of the specified type on the provided object * @param go GameObject to get the components from * @param typeName Constructor of the component type * @param arr Optional array to populate with the components * @returns Array of components */ static getComponents(go: IGameObject | Object3D | null, typeName: Constructor, arr?: T[] | null): T[]; /** * Finds an object or component by its unique identifier * @param guid Unique identifier to search for * @param hierarchy Root object to search in * @returns The found GameObject or Component, or null/undefined if not found */ static findByGuid(guid: string, hierarchy: Object3D): GameObject | Component | null | undefined; /** * Finds the first object of the specified component type in the scene * @param typeName Constructor of the component type * @param context Context or root object to search in * @param includeInactive Whether to include inactive objects in the search * @returns The first matching component if found, otherwise null */ static findObjectOfType(typeName: Constructor, context?: Context | Object3D, includeInactive?: boolean): T | null; /** * Finds all objects of the specified component type in the scene * @param typeName Constructor of the component type * @param context Context or root object to search in * @returns Array of matching components */ static findObjectsOfType(typeName: Constructor, context?: Context | Object3D): Array; /** * Gets a component of the specified type in the gameObject's children hierarchy * @param go GameObject to search in * @param typeName Constructor of the component type * @param includeInactive Whether to include inactive objects in the search * @returns The first matching component if found, otherwise null */ static getComponentInChildren(go: IGameObject | Object3D, typeName: Constructor, includeInactive?: boolean): T | null; /** * Gets all components of the specified type in the gameObject's children hierarchy * @param go GameObject to search in * @param typeName Constructor of the component type * @param arr Optional array to populate with the components * @returns Array of components */ static getComponentsInChildren(go: IGameObject | Object3D, typeName: Constructor, arr?: T[] | null): Array; /** * Gets a component of the specified type in the gameObject's parent hierarchy * @param go GameObject to search in * @param typeName Constructor of the component type * @returns The first matching component if found, otherwise null */ static getComponentInParent(go: IGameObject | Object3D, typeName: Constructor): T | null; /** * Gets all components of the specified type in the gameObject's parent hierarchy * @param go GameObject to search in * @param typeName Constructor of the component type * @param arr Optional array to populate with the components * @returns Array of components */ static getComponentsInParent(go: IGameObject | Object3D, typeName: Constructor, arr?: Array | null): Array; /** * Gets all components on the gameObject * @param go GameObject to get components from * @returns Array of all components */ static getAllComponents(go: IGameObject | Object3D): Component[]; /** * Iterates through all components on the gameObject * @param go GameObject to iterate components on * @returns Generator yielding each component */ static iterateComponents(go: IGameObject | Object3D): Generator; } /** * Needle Engine component's are the main building blocks of the Needle Engine. * Derive from {@link Behaviour} to implement your own using the provided lifecycle methods. * Components can be added to any {@link Object3D} using {@link addComponent} or {@link GameObject.addComponent}. * * **Component lifecycle event methods:** * {@link awake}, {@link start}, {@link onEnable}, {@link onDisable}, {@link onDestroy}, {@link earlyUpdate}, {@link update}, {@link lateUpdate}, {@link onBeforeRender}, {@link onAfterRender}. * * **XR event methods:** * {@link onEnterXR}, {@link onLeaveXR}, {@link onUpdateXR}, {@link onXRControllerAdded} and {@link onXRControllerRemoved}. * * **Input event methods:** * {@link onPointerDown}, {@link onPointerUp}, {@link onPointerEnter}, {@link onPointerExit} and {@link onPointerMove}. * * @example * ```typescript * import { Behaviour } from "@needle-tools/engine"; * export class MyComponent extends Behaviour { * start() { * console.log("Hello World", this.gameObject.name); * } * update() { * console.log("Frame", this.context.time.frame); * } * } * ``` * * @group Components */ export declare abstract class Component implements IComponent, EventTarget, Partial, Partial { /** * Indicates whether this object is a component * @internal */ get isComponent(): boolean; /** * Get the original component type name before minification (available if the component is registered in the TypeStore) */ get [$componentName](): string | undefined; private __context; /** * The context this component belongs to, providing access to the runtime environment * including physics, timing utilities, camera, and scene */ get context(): Context; set context(context: Context); /** * Shorthand accessor for the current scene from the context * @returns The scene this component belongs to */ get scene(): Scene; /** * The layer value of the GameObject this component is attached to * Used for visibility and physics filtering */ get layer(): number; /** * The name of the GameObject this component is attached to * Used for debugging and finding objects */ get name(): string; private __name?; set name(str: string); /** * The tag of the GameObject this component is attached to * Used for categorizing objects and efficient lookup */ get tag(): string; set tag(str: string); /** * Indicates whether the GameObject is marked as static * Static objects typically don't move and can be optimized by the engine */ get static(): boolean; set static(value: boolean); /** * Checks if this component is currently active (enabled and part of an active GameObject hierarchy) * Components that are inactive won't receive lifecycle method calls * @returns True if the component is enabled and all parent GameObjects are active */ get activeAndEnabled(): boolean; private get __isActive(); private get __isActiveInHierarchy(); private set __isActiveInHierarchy(value); /** * Reference to the GameObject this component is attached to * This is a three.js Object3D with additional GameObject functionality */ gameObject: GameObject; /** * Unique identifier for this component instance, * used for finding and tracking components */ guid: string; /** * Identifier for the source asset that created this component. * For example, URL to the glTF file this component was loaded from */ sourceId?: SourceIdentifier; /** * Called when this component needs to remap guids after an instantiate operation. * @param guidsMap Mapping from old guids to newly generated guids */ resolveGuids?(guidsMap: GuidsMap): void; /** * Called once when the component becomes active for the first time. * This is the first lifecycle callback to be invoked */ awake(): void; /** * Called every time the component becomes enabled or active in the hierarchy. * Invoked after {@link awake} and before {@link start}. */ onEnable(): void; /** * Called every time the component becomes disabled or inactive in the hierarchy. * Invoked when the component or any parent GameObject becomes invisible */ onDisable(): void; /** * Called when the component is destroyed. * Use for cleanup operations like removing event listeners */ onDestroy(): void; /** * Called when a field decorated with @validate() is modified. * @param prop The name of the field that was changed */ onValidate?(prop?: string): void; /** * Called when the context's pause state changes. * @param isPaused Whether the context is currently paused * @param wasPaused The previous pause state */ onPausedChanged?(isPaused: boolean, wasPaused: boolean): void; /** * Called once at the beginning of the first frame after the component is enabled. * Use for initialization that requires other components to be awake. */ start?(): void; /** * Called at the beginning of each frame before regular updates. * Use for logic that needs to run before standard update callbacks. */ earlyUpdate?(): void; /** * Called once per frame during the main update loop. * The primary location for frame-based game logic. */ update?(): void; /** * Called after all update functions have been called. * Use for calculations that depend on other components being updated first. */ lateUpdate?(): void; /** * Called immediately before the scene is rendered. * @param frame Current XRFrame if in an XR session, null otherwise */ onBeforeRender?(frame: XRFrame | null): void; /** * Called after the scene has been rendered. * Use for post-processing or UI updates that should happen after rendering */ onAfterRender?(): void; /** * Called when this component's collider begins colliding with another collider. * @param col Information about the collision that occurred */ onCollisionEnter?(col: Collision): any; /** * Called when this component's collider stops colliding with another collider. * @param col Information about the collision that ended */ onCollisionExit?(col: Collision): any; /** * Called each frame while this component's collider is colliding with another collider * @param col Information about the ongoing collision */ onCollisionStay?(col: Collision): any; /** * Called when this component's trigger collider is entered by another collider * @param col The collider that entered this trigger */ onTriggerEnter?(col: ICollider): any; /** * Called each frame while another collider is inside this component's trigger collider * @param col The collider that is inside this trigger */ onTriggerStay?(col: ICollider): any; /** * Called when another collider exits this component's trigger collider * @param col The collider that exited this trigger */ onTriggerExit?(col: ICollider): any; /** * Determines if this component supports a specific XR mode * @param mode The XR session mode to check support for * @returns True if the component supports the specified mode */ supportsXR?(mode: XRSessionMode): boolean; /** * Called before an XR session is requested * Use to modify session initialization parameters * @param mode The XR session mode being requested * @param args The session initialization parameters that can be modified */ onBeforeXR?(mode: XRSessionMode, args: XRSessionInit): void; /** * Called when this component joins an XR session or becomes active in a running session * @param args Event data for the XR session */ onEnterXR?(args: NeedleXREventArgs): void; /** * Called each frame while this component is active in an XR session * @param args Event data for the current XR frame */ onUpdateXR?(args: NeedleXREventArgs): void; /** * Called when this component exits an XR session or becomes inactive during a session * @param args Event data for the XR session */ onLeaveXR?(args: NeedleXREventArgs): void; /** * Called when an XR controller is connected or when this component becomes active * in a session with existing controllers * @param args Event data for the controller that was added */ onXRControllerAdded?(args: NeedleXRControllerEventArgs): void; /** * Called when an XR controller is disconnected or when this component becomes inactive * during a session with controllers * @param args Event data for the controller that was removed */ onXRControllerRemoved?(args: NeedleXRControllerEventArgs): void; /** * Called when a pointer enters this component's GameObject * @param args Data about the pointer event */ onPointerEnter?(args: PointerEventData): any; /** * Called when a pointer moves while over this component's GameObject * @param args Data about the pointer event */ onPointerMove?(args: PointerEventData): any; /** * Called when a pointer exits this component's GameObject * @param args Data about the pointer event */ onPointerExit?(args: PointerEventData): any; /** * Called when a pointer button is pressed while over this component's GameObject * @param args Data about the pointer event */ onPointerDown?(args: PointerEventData): any; /** * Called when a pointer button is released while over this component's GameObject * @param args Data about the pointer event */ onPointerUp?(args: PointerEventData): any; /** * Called when a pointer completes a click interaction with this component's GameObject * @param args Data about the pointer event */ onPointerClick?(args: PointerEventData): any; /** * Starts a coroutine that can yield to wait for events. * Coroutines allow for time-based sequencing of operations without blocking. * Coroutines are based on generator functions, a JavaScript language feature. * * @param routine Generator function to start * @param evt Event to register the coroutine for (default: FrameEvent.Update) * @returns The generator function that can be used to stop the coroutine * @example * Time-based sequencing of operations * ```ts * *myCoroutine() { * yield WaitForSeconds(1); // wait for 1 second * yield WaitForFrames(10); // wait for 10 frames * yield new Promise(resolve => setTimeout(resolve, 1000)); // wait for a promise to resolve * } * ``` * @example * Coroutine that logs a message every 5 frames * ```ts * onEnable() { * this.startCoroutine(this.myCoroutine()); * } * private *myCoroutine() { * while(this.activeAndEnabled) { * console.log("Hello World", this.context.time.frame); * // wait for 5 frames * for(let i = 0; i < 5; i++) yield; * } * } * ``` */ startCoroutine(routine: Generator, evt?: FrameEvent): Generator; /** * Stops a coroutine that was previously started with startCoroutine * @param routine The routine to be stopped * @param evt The frame event the routine was registered with */ stopCoroutine(routine: Generator, evt?: FrameEvent): void; /** * Checks if this component has been destroyed * @returns True if the component or its GameObject has been destroyed */ get destroyed(): boolean; /** * Destroys this component and removes it from its GameObject * After destruction, the component will no longer receive lifecycle callbacks */ destroy(): void; /** @internal */ protected __didAwake: boolean; /** @internal */ private __didStart; /** @internal */ protected __didEnable: boolean; /** @internal */ protected __isEnabled: boolean | undefined; /** @internal */ private __destroyed; /** @internal */ get __internalDidAwakeAndStart(): boolean; /** @internal */ constructor(init?: ComponentInit); /** @internal */ __internalNewInstanceCreated(init?: ComponentInit): this; /** * Initializes component properties from an initialization object * @param init Object with properties to copy to this component * @internal */ _internalInit(init?: ComponentInit): void; /** @internal */ __internalAwake(): void; /** @internal */ __internalStart(): void; /** @internal */ __internalEnable(isAddingToScene?: boolean): boolean; /** @internal */ __internalDisable(isRemovingFromScene?: boolean): void; /** @internal */ __internalDestroy(): void; /** * Controls whether this component is enabled * Disabled components don't receive lifecycle callbacks */ get enabled(): boolean; set enabled(val: boolean); /** * Gets the position of this component's GameObject in world space. * Note: This is equivalent to calling `this.gameObject.worldPosition` */ get worldPosition(): Vector3; /** * Sets the position of this component's GameObject in world space * @param val The world position vector to set */ set worldPosition(val: Vector3); /** * Sets the position of this component's GameObject in world space using individual coordinates * @param x X-coordinate in world space * @param y Y-coordinate in world space * @param z Z-coordinate in world space */ setWorldPosition(x: number, y: number, z: number): void; /** * Gets the rotation of this component's GameObject in world space as a quaternion * Note: This is equivalent to calling `this.gameObject.worldQuaternion` */ get worldQuaternion(): Quaternion; /** * Sets the rotation of this component's GameObject in world space using a quaternion * @param val The world rotation quaternion to set */ set worldQuaternion(val: Quaternion); /** * Sets the rotation of this component's GameObject in world space using quaternion components * @param x X component of the quaternion * @param y Y component of the quaternion * @param z Z component of the quaternion * @param w W component of the quaternion */ setWorldQuaternion(x: number, y: number, z: number, w: number): void; /** * Gets the rotation of this component's GameObject in world space as Euler angles (in radians) */ get worldEuler(): Euler; /** * Sets the rotation of this component's GameObject in world space using Euler angles (in radians) * @param val The world rotation Euler angles to set */ set worldEuler(val: Euler); /** * Gets the rotation of this component's GameObject in world space as Euler angles (in degrees) * Note: This is equivalent to calling `this.gameObject.worldRotation` */ get worldRotation(): Vector3; /** * Sets the rotation of this component's GameObject in world space using Euler angles (in degrees) * @param val The world rotation vector to set (in degrees) */ set worldRotation(val: Vector3); /** * Sets the rotation of this component's GameObject in world space using individual Euler angles * @param x X-axis rotation * @param y Y-axis rotation * @param z Z-axis rotation * @param degrees Whether the values are in degrees (true) or radians (false) */ setWorldRotation(x: number, y: number, z: number, degrees?: boolean): void; private static _forward; /** * Gets the forward direction vector (0,0,-1) of this component's GameObject in world space */ get forward(): Vector3; private static _right; /** * Gets the right direction vector (1,0,0) of this component's GameObject in world space */ get right(): Vector3; private static _up; /** * Gets the up direction vector (0,1,0) of this component's GameObject in world space */ get up(): Vector3; /** * Storage for event listeners registered to this component * @private */ private _eventListeners; /** * Registers an event listener for the specified event type * @param type The event type to listen for * @param listener The callback function to execute when the event occurs */ addEventListener(type: string, listener: (evt: T) => any): void; /** * Removes a previously registered event listener * @param type The event type the listener was registered for * @param listener The callback function to remove */ removeEventListener(type: string, listener: (arg: T) => any): void; /** * Dispatches an event to all registered listeners * @param evt The event object to dispatch * @returns Always returns false (standard implementation of EventTarget) */ dispatchEvent(evt: Event): boolean; } export { Component as Behaviour };