import type { Immutable, Nullable } from "../types.js"; import type { Vector2, Vector3, Matrix } from "../Maths/math.vector.js"; import type { Color3, Color4 } from "../Maths/math.color.js"; import type { BaseTexture } from "../Materials/Textures/baseTexture.js"; import type { BoxParticleEmitter, IParticleEmitterType, PointParticleEmitter, HemisphericParticleEmitter, SphereParticleEmitter, SphereDirectedParticleEmitter, CylinderParticleEmitter, CylinderDirectedParticleEmitter, ConeParticleEmitter, ConeDirectedParticleEmitter } from "../Particles/EmitterTypes/index.js"; import type { Scene } from "../scene.js"; import type { ColorGradient, FactorGradient, Color3Gradient } from "../Misc/gradients.js"; import type { Effect } from "../Materials/effect.js"; import type { Observable } from "../Misc/observable.js"; import type { VertexBuffer } from "../Buffers/buffer.js"; import type { DataBuffer } from "../Buffers/dataBuffer.js"; import type { Animation } from "../Animations/animation.js"; import type { AbstractMesh } from "../Meshes/abstractMesh.js"; /** * Interface representing a particle system in Babylon.js. * This groups the common functionalities that needs to be implemented in order to create a particle system. * A particle system represents a way to manage particles from their emission to their animation and rendering. */ export interface IParticleSystem { /** * List of animations used by the particle system. */ animations: Animation[]; /** * The id of the Particle system. */ id: string; /** * The name of the Particle system. */ name: string; /** * The emitter represents the Mesh or position we are attaching the particle system to. */ emitter: Nullable; /** * Gets or sets a boolean indicating if the particles must be rendered as billboard or aligned with the direction */ isBillboardBased: boolean; /** * The rendering group used by the Particle system to chose when to render. */ renderingGroupId: number; /** * The layer mask we are rendering the particles through. */ layerMask: number; /** * The overall motion speed (0.01 is default update speed, faster updates = faster animation) */ updateSpeed: number; /** * The amount of time the particle system is running (depends of the overall update speed). */ targetStopDuration: number; /** * The texture used to render each particle. (this can be a spritesheet) */ particleTexture: Nullable; /** * Blend mode use to render the particle. It can be any of the ParticleSystem.BLENDMODE_* constants */ blendMode: number; /** * Minimum life time of emitting particles. */ minLifeTime: number; /** * Maximum life time of emitting particles. */ maxLifeTime: number; /** * Minimum Size of emitting particles. */ minSize: number; /** * Maximum Size of emitting particles. */ maxSize: number; /** * Minimum scale of emitting particles on X axis. */ minScaleX: number; /** * Maximum scale of emitting particles on X axis. */ maxScaleX: number; /** * Minimum scale of emitting particles on Y axis. */ minScaleY: number; /** * Maximum scale of emitting particles on Y axis. */ maxScaleY: number; /** * Random color of each particle after it has been emitted, between color1 and color2 vectors. */ color1: Color4; /** * Random color of each particle after it has been emitted, between color1 and color2 vectors. */ color2: Color4; /** * Color the particle will have at the end of its lifetime. */ colorDead: Color4; /** * The maximum number of particles to emit per frame until we reach the activeParticleCount value */ emitRate: number; /** * You can use gravity if you want to give an orientation to your particles. */ gravity: Vector3; /** * Minimum power of emitting particles. */ minEmitPower: number; /** * Maximum power of emitting particles. */ maxEmitPower: number; /** * Minimum angular speed of emitting particles (Z-axis rotation for each particle). */ minAngularSpeed: number; /** * Maximum angular speed of emitting particles (Z-axis rotation for each particle). */ maxAngularSpeed: number; /** * Gets or sets the minimal initial rotation in radians. */ minInitialRotation: number; /** * Gets or sets the maximal initial rotation in radians. */ maxInitialRotation: number; /** * The particle emitter type defines the emitter used by the particle system. * It can be for example box, sphere, or cone... */ particleEmitterType: Nullable; /** * Defines the delay in milliseconds before starting the system (0 by default) */ startDelay: number; /** * Gets or sets a value indicating how many cycles (or frames) must be executed before first rendering (this value has to be set before starting the system). Default is 0 */ preWarmCycles: number; /** * Gets or sets a value indicating the time step multiplier to use in pre-warm mode (default is 1) */ preWarmStepOffset: number; /** * If using a spritesheet (isAnimationSheetEnabled) defines the speed of the sprite loop (default is 1 meaning the animation will play once during the entire particle lifetime) */ spriteCellChangeSpeed: number; /** * If using a spritesheet (isAnimationSheetEnabled) defines the first sprite cell to display */ startSpriteCellID: number; /** * If using a spritesheet (isAnimationSheetEnabled) defines the last sprite cell to display */ endSpriteCellID: number; /** * If using a spritesheet (isAnimationSheetEnabled), defines whether the sprite animation is looping */ spriteCellLoop: boolean; /** * If using a spritesheet (isAnimationSheetEnabled), defines the sprite cell width to use */ spriteCellWidth: number; /** * If using a spritesheet (isAnimationSheetEnabled), defines the sprite cell height to use */ spriteCellHeight: number; /** * This allows the system to random pick the start cell ID between startSpriteCellID and endSpriteCellID */ spriteRandomStartCell: boolean; /** * Gets or sets a boolean indicating if a spritesheet is used to animate the particles texture */ isAnimationSheetEnabled: boolean; /** Gets or sets a Vector2 used to move the pivot (by default (0,0)) */ translationPivot: Vector2; /** * Gets or sets a texture used to add random noise to particle positions */ noiseTexture: Nullable; /** Gets or sets the strength to apply to the noise value (default is (10, 10, 10)) */ noiseStrength: Vector3; /** * Gets or sets the billboard mode to use when isBillboardBased = true. * Value can be: ParticleSystem.BILLBOARDMODE_ALL, ParticleSystem.BILLBOARDMODE_Y, ParticleSystem.BILLBOARDMODE_STRETCHED */ billboardMode: number; /** * Gets or sets a boolean enabling the use of logarithmic depth buffers, which is good for wide depth buffers. */ useLogarithmicDepth: boolean; /** Gets or sets a value indicating the damping to apply if the limit velocity factor is reached */ limitVelocityDamping: number; /** * Gets or sets a boolean indicating that hosted animations (in the system.animations array) must be started when system.start() is called */ beginAnimationOnStart: boolean; /** * Gets or sets the frame to start the animation from when beginAnimationOnStart is true */ beginAnimationFrom: number; /** * Gets or sets the frame to end the animation on when beginAnimationOnStart is true */ beginAnimationTo: number; /** * Gets or sets a boolean indicating if animations must loop when beginAnimationOnStart is true */ beginAnimationLoop: boolean; /** * Specifies whether the particle system will be disposed once it reaches the end of the animation. */ disposeOnStop: boolean; /** * If you want to launch only a few particles at once, that can be done, as well. */ manualEmitCount: number; /** * Specifies if the particles are updated in emitter local space or world space */ isLocal: boolean; /** Snippet ID if the particle system was created from the snippet server */ snippetId: string; /** Gets or sets a matrix to use to compute projection */ defaultProjectionMatrix: Matrix; /** Indicates that the update of particles is done in the animate function (and not in render) */ updateInAnimate: boolean; /** @internal */ _wasDispatched: boolean; /** * Gets the maximum number of particles active at the same time. * @returns The max number of active particles. */ getCapacity(): number; /** * Gets the number of particles active at the same time. * @returns The number of active particles. */ getActiveCount(): number; /** * Gets if the system has been started. (Note: this will still be true after stop is called) * @returns True if it has been started, otherwise false. */ isStarted(): boolean; /** * Animates the particle system for this frame. */ animate(): void; /** * Renders the particle system in its current state. * @returns the current number of particles */ render(): number; /** * Dispose the particle system and frees its associated resources. * @param disposeTexture defines if the particle texture must be disposed as well (true by default) * @param disposeAttachedSubEmitters defines if the attached sub-emitters must be disposed as well (false by default) * @param disposeEndSubEmitters defines if the end type sub-emitters must be disposed as well (false by default) */ dispose(disposeTexture?: boolean, disposeAttachedSubEmitters?: boolean, disposeEndSubEmitters?: boolean): void; /** * An event triggered when the system is disposed */ onDisposeObservable: Observable; /** * An event triggered when the system is stopped */ onStoppedObservable: Observable; /** * Clones the particle system. * @param name The name of the cloned object * @param newEmitter The new emitter to use * @returns the cloned particle system */ clone(name: string, newEmitter: any): Nullable; /** * Serializes the particle system to a JSON object * @param serializeTexture defines if the texture must be serialized as well * @returns the JSON object */ serialize(serializeTexture: boolean): any; /** * Rebuild the particle system */ rebuild(): void; /** Force the system to rebuild all gradients that need to be resync */ forceRefreshGradients(): void; /** * Starts the particle system and begins to emit * @param delay defines the delay in milliseconds before starting the system (0 by default) */ start(delay?: number): void; /** * Stops the particle system. */ stop(): void; /** * Remove all active particles */ reset(): void; /** * Gets a boolean indicating that the system is stopping * @returns true if the system is currently stopping */ isStopping(): boolean; /** * Is this system ready to be used/rendered * @returns true if the system is ready */ isReady(): boolean; /** * Returns the string "ParticleSystem" * @returns a string containing the class name */ getClassName(): string; /** * Gets the custom effect used to render the particles * @param blendMode Blend mode for which the effect should be retrieved * @returns The effect */ getCustomEffect(blendMode: number): Nullable; /** * Sets the custom effect used to render the particles * @param effect The effect to set * @param blendMode Blend mode for which the effect should be set */ setCustomEffect(effect: Nullable, blendMode: number): void; /** * Fill the defines array according to the current settings of the particle system * @param defines Array to be updated * @param blendMode blend mode to take into account when updating the array * @param fillImageProcessing fills the image processing defines */ fillDefines(defines: Array, blendMode: number, fillImageProcessing?: boolean): void; /** * Fill the uniforms, attributes and samplers arrays according to the current settings of the particle system * @param uniforms Uniforms array to fill * @param attributes Attributes array to fill * @param samplers Samplers array to fill */ fillUniformsAttributesAndSamplerNames(uniforms: Array, attributes: Array, samplers: Array): void; /** * Observable that will be called just before the particles are drawn */ onBeforeDrawParticlesObservable: Observable>; /** * Gets the name of the particle vertex shader */ vertexShaderName: string; /** * Gets the vertex buffers used by the particle system */ vertexBuffers: Immutable<{ [key: string]: VertexBuffer; }>; /** * Gets the index buffer used by the particle system (or null if no index buffer is used) */ indexBuffer: Nullable; /** * Adds a new color gradient * @param gradient defines the gradient to use (between 0 and 1) * @param color1 defines the color to affect to the specified gradient * @param color2 defines an additional color used to define a range ([color, color2]) with main color to pick the final color from * @returns the current particle system */ addColorGradient(gradient: number, color1: Color4, color2?: Color4): IParticleSystem; /** * Remove a specific color gradient * @param gradient defines the gradient to remove * @returns the current particle system */ removeColorGradient(gradient: number): IParticleSystem; /** * Adds a new size gradient * @param gradient defines the gradient to use (between 0 and 1) * @param factor defines the size factor to affect to the specified gradient * @param factor2 defines an additional factor used to define a range ([factor, factor2]) with main value to pick the final value from * @returns the current particle system */ addSizeGradient(gradient: number, factor: number, factor2?: number): IParticleSystem; /** * Remove a specific size gradient * @param gradient defines the gradient to remove * @returns the current particle system */ removeSizeGradient(gradient: number): IParticleSystem; /** * Gets the current list of color gradients. * You must use addColorGradient and removeColorGradient to update this list * @returns the list of color gradients */ getColorGradients(): Nullable>; /** * Gets the current list of size gradients. * You must use addSizeGradient and removeSizeGradient to update this list * @returns the list of size gradients */ getSizeGradients(): Nullable>; /** * Gets the current list of angular speed gradients. * You must use addAngularSpeedGradient and removeAngularSpeedGradient to update this list * @returns the list of angular speed gradients */ getAngularSpeedGradients(): Nullable>; /** * Adds a new angular speed gradient * @param gradient defines the gradient to use (between 0 and 1) * @param factor defines the angular speed to affect to the specified gradient * @param factor2 defines an additional factor used to define a range ([factor, factor2]) with main value to pick the final value from * @returns the current particle system */ addAngularSpeedGradient(gradient: number, factor: number, factor2?: number): IParticleSystem; /** * Remove a specific angular speed gradient * @param gradient defines the gradient to remove * @returns the current particle system */ removeAngularSpeedGradient(gradient: number): IParticleSystem; /** * Gets the current list of velocity gradients. * You must use addVelocityGradient and removeVelocityGradient to update this list * @returns the list of velocity gradients */ getVelocityGradients(): Nullable>; /** * Adds a new velocity gradient * @param gradient defines the gradient to use (between 0 and 1) * @param factor defines the velocity to affect to the specified gradient * @param factor2 defines an additional factor used to define a range ([factor, factor2]) with main value to pick the final value from * @returns the current particle system */ addVelocityGradient(gradient: number, factor: number, factor2?: number): IParticleSystem; /** * Remove a specific velocity gradient * @param gradient defines the gradient to remove * @returns the current particle system */ removeVelocityGradient(gradient: number): IParticleSystem; /** * Gets the current list of limit velocity gradients. * You must use addLimitVelocityGradient and removeLimitVelocityGradient to update this list * @returns the list of limit velocity gradients */ getLimitVelocityGradients(): Nullable>; /** * Adds a new limit velocity gradient * @param gradient defines the gradient to use (between 0 and 1) * @param factor defines the limit velocity to affect to the specified gradient * @param factor2 defines an additional factor used to define a range ([factor, factor2]) with main value to pick the final value from * @returns the current particle system */ addLimitVelocityGradient(gradient: number, factor: number, factor2?: number): IParticleSystem; /** * Remove a specific limit velocity gradient * @param gradient defines the gradient to remove * @returns the current particle system */ removeLimitVelocityGradient(gradient: number): IParticleSystem; /** * Adds a new drag gradient * @param gradient defines the gradient to use (between 0 and 1) * @param factor defines the drag to affect to the specified gradient * @param factor2 defines an additional factor used to define a range ([factor, factor2]) with main value to pick the final value from * @returns the current particle system */ addDragGradient(gradient: number, factor: number, factor2?: number): IParticleSystem; /** * Remove a specific drag gradient * @param gradient defines the gradient to remove * @returns the current particle system */ removeDragGradient(gradient: number): IParticleSystem; /** * Gets the current list of drag gradients. * You must use addDragGradient and removeDragGradient to update this list * @returns the list of drag gradients */ getDragGradients(): Nullable>; /** * Adds a new emit rate gradient (please note that this will only work if you set the targetStopDuration property) * @param gradient defines the gradient to use (between 0 and 1) * @param factor defines the emit rate to affect to the specified gradient * @param factor2 defines an additional factor used to define a range ([factor, factor2]) with main value to pick the final value from * @returns the current particle system */ addEmitRateGradient(gradient: number, factor: number, factor2?: number): IParticleSystem; /** * Remove a specific emit rate gradient * @param gradient defines the gradient to remove * @returns the current particle system */ removeEmitRateGradient(gradient: number): IParticleSystem; /** * Gets the current list of emit rate gradients. * You must use addEmitRateGradient and removeEmitRateGradient to update this list * @returns the list of emit rate gradients */ getEmitRateGradients(): Nullable>; /** * Adds a new start size gradient (please note that this will only work if you set the targetStopDuration property) * @param gradient defines the gradient to use (between 0 and 1) * @param factor defines the start size to affect to the specified gradient * @param factor2 defines an additional factor used to define a range ([factor, factor2]) with main value to pick the final value from * @returns the current particle system */ addStartSizeGradient(gradient: number, factor: number, factor2?: number): IParticleSystem; /** * Remove a specific start size gradient * @param gradient defines the gradient to remove * @returns the current particle system */ removeStartSizeGradient(gradient: number): IParticleSystem; /** * Gets the current list of start size gradients. * You must use addStartSizeGradient and removeStartSizeGradient to update this list * @returns the list of start size gradients */ getStartSizeGradients(): Nullable>; /** * Adds a new life time gradient * @param gradient defines the gradient to use (between 0 and 1) * @param factor defines the life time factor to affect to the specified gradient * @param factor2 defines an additional factor used to define a range ([factor, factor2]) with main value to pick the final value from * @returns the current particle system */ addLifeTimeGradient(gradient: number, factor: number, factor2?: number): IParticleSystem; /** * Remove a specific life time gradient * @param gradient defines the gradient to remove * @returns the current particle system */ removeLifeTimeGradient(gradient: number): IParticleSystem; /** * Gets the current list of life time gradients. * You must use addLifeTimeGradient and removeLifeTimeGradient to update this list * @returns the list of life time gradients */ getLifeTimeGradients(): Nullable>; /** * Gets the current list of color gradients. * You must use addColorGradient and removeColorGradient to update this list * @returns the list of color gradients */ getColorGradients(): Nullable>; /** * Adds a new ramp gradient used to remap particle colors * @param gradient defines the gradient to use (between 0 and 1) * @param color defines the color to affect to the specified gradient * @returns the current particle system */ addRampGradient(gradient: number, color: Color3): IParticleSystem; /** * Gets the current list of ramp gradients. * You must use addRampGradient and removeRampGradient to update this list * @returns the list of ramp gradients */ getRampGradients(): Nullable>; /** Gets or sets a boolean indicating that ramp gradients must be used * @see https://doc.babylonjs.com/features/featuresDeepDive/particles/particle_system/ramps_and_blends */ useRampGradients: boolean; /** * Adds a new color remap gradient * @param gradient defines the gradient to use (between 0 and 1) * @param min defines the color remap minimal range * @param max defines the color remap maximal range * @returns the current particle system */ addColorRemapGradient(gradient: number, min: number, max: number): IParticleSystem; /** * Gets the current list of color remap gradients. * You must use addColorRemapGradient and removeColorRemapGradient to update this list * @returns the list of color remap gradients */ getColorRemapGradients(): Nullable>; /** * Adds a new alpha remap gradient * @param gradient defines the gradient to use (between 0 and 1) * @param min defines the alpha remap minimal range * @param max defines the alpha remap maximal range * @returns the current particle system */ addAlphaRemapGradient(gradient: number, min: number, max: number): IParticleSystem; /** * Gets the current list of alpha remap gradients. * You must use addAlphaRemapGradient and removeAlphaRemapGradient to update this list * @returns the list of alpha remap gradients */ getAlphaRemapGradients(): Nullable>; /** * Creates a Point Emitter for the particle system (emits directly from the emitter position) * @param direction1 Particles are emitted between the direction1 and direction2 from within the box * @param direction2 Particles are emitted between the direction1 and direction2 from within the box * @returns the emitter */ createPointEmitter(direction1: Vector3, direction2: Vector3): PointParticleEmitter; /** * Creates a Hemisphere Emitter for the particle system (emits along the hemisphere radius) * @param radius The radius of the hemisphere to emit from * @param radiusRange The range of the hemisphere to emit from [0-1] 0 Surface Only, 1 Entire Radius * @returns the emitter */ createHemisphericEmitter(radius: number, radiusRange: number): HemisphericParticleEmitter; /** * Creates a Sphere Emitter for the particle system (emits along the sphere radius) * @param radius The radius of the sphere to emit from * @param radiusRange The range of the sphere to emit from [0-1] 0 Surface Only, 1 Entire Radius * @returns the emitter */ createSphereEmitter(radius: number, radiusRange: number): SphereParticleEmitter; /** * Creates a Directed Sphere Emitter for the particle system (emits between direction1 and direction2) * @param radius The radius of the sphere to emit from * @param direction1 Particles are emitted between the direction1 and direction2 from within the sphere * @param direction2 Particles are emitted between the direction1 and direction2 from within the sphere * @returns the emitter */ createDirectedSphereEmitter(radius: number, direction1: Vector3, direction2: Vector3): SphereDirectedParticleEmitter; /** * Creates a Cylinder Emitter for the particle system (emits from the cylinder to the particle position) * @param radius The radius of the emission cylinder * @param height The height of the emission cylinder * @param radiusRange The range of emission [0-1] 0 Surface only, 1 Entire Radius * @param directionRandomizer How much to randomize the particle direction [0-1] * @returns the emitter */ createCylinderEmitter(radius: number, height: number, radiusRange: number, directionRandomizer: number): CylinderParticleEmitter; /** * Creates a Directed Cylinder Emitter for the particle system (emits between direction1 and direction2) * @param radius The radius of the cylinder to emit from * @param height The height of the emission cylinder * @param radiusRange the range of the emission cylinder [0-1] 0 Surface only, 1 Entire Radius (1 by default) * @param direction1 Particles are emitted between the direction1 and direction2 from within the cylinder * @param direction2 Particles are emitted between the direction1 and direction2 from within the cylinder * @returns the emitter */ createDirectedCylinderEmitter(radius: number, height: number, radiusRange: number, direction1: Vector3, direction2: Vector3): CylinderDirectedParticleEmitter; /** * Creates a Cone Emitter for the particle system (emits from the cone to the particle position) * @param radius The radius of the cone to emit from * @param angle The base angle of the cone * @returns the emitter */ createConeEmitter(radius: number, angle: number): ConeParticleEmitter; createDirectedConeEmitter(radius: number, angle: number, direction1: Vector3, direction2: Vector3): ConeDirectedParticleEmitter; /** * Creates a Box Emitter for the particle system. (emits between direction1 and direction2 from withing the box defined by minEmitBox and maxEmitBox) * @param direction1 Particles are emitted between the direction1 and direction2 from within the box * @param direction2 Particles are emitted between the direction1 and direction2 from within the box * @param minEmitBox Particles are emitted from the box between minEmitBox and maxEmitBox * @param maxEmitBox Particles are emitted from the box between minEmitBox and maxEmitBox * @returns the emitter */ createBoxEmitter(direction1: Vector3, direction2: Vector3, minEmitBox: Vector3, maxEmitBox: Vector3): BoxParticleEmitter; /** * Get hosting scene * @returns the scene */ getScene(): Nullable; }