--- name: particles description: "Use this skill when creating particle effects in Phaser 4. Covers ParticleEmitter, emission zones, death zones, particle properties, textures, gravity wells, and particle movement. Triggers on: particles, emitter, particle effect, explosion, fire, smoke." --- # Particle System > Creating and controlling particle effects in Phaser 4 -- ParticleEmitter creation and configuration, emitter ops (value formats), gravity wells, emission and death zones, flow vs burst modes, following game objects, and particle callbacks. **Key source paths:** `src/gameobjects/particles/` **Related skills:** ../sprites-and-images/SKILL.md, ../loading-assets/SKILL.md ## Quick Start ```js // In a Scene's create() method: // Basic continuous emitter (flow mode) const emitter = this.add.particles(400, 300, 'flares', { frame: 'red', speed: 200, lifespan: 2000, scale: { start: 1, end: 0 }, alpha: { start: 1, end: 0 }, gravityY: 150 }); // One-shot burst (explode mode) const burst = this.add.particles(400, 300, 'flares', { frame: 'blue', speed: { min: 100, max: 300 }, lifespan: 1000, scale: { start: 0.5, end: 0 }, emitting: false // don't auto-start }); burst.explode(20); // emit 20 particles at once ``` ## Core Concepts ### ParticleEmitter `ParticleEmitter` extends `GameObject` and is added directly to the display list. It is both a game object (positionable, scalable, maskable) and the emitter itself. There is no separate manager -- `this.add.particles()` returns a `ParticleEmitter` instance. **Factory signature:** ```js this.add.particles(x, y, texture, config); // x, y: world position (both optional, default 0) // texture: string key or Texture instance // config: ParticleEmitterConfig object (optional, can call setConfig later) ``` **Mixins:** AlphaSingle, BlendMode, Depth, Lighting, Mask, RenderNodes, ScrollFactor, Texture, Transform, Visible. So you can call `setPosition()`, `setScale()`, `setDepth()`, `setBlendMode()`, `setMask()`, `setScrollFactor()`, etc. ### Particle A lightweight object owned by its emitter. Key properties: `x`, `y`, `velocityX/Y`, `accelerationX/Y`, `scaleX/Y`, `alpha`, `angle`, `rotation`, `tint`, `life` (total ms), `lifeCurrent` (remaining ms), `lifeT` (0-1 normalized), `bounce`, `delayCurrent`, `holdCurrent`. Particles are pooled internally -- you never create them manually. ### EmitterOp Value Formats Most config properties (speed, scale, alpha, angle, x, y, etc.) accept flexible value formats: ```js x: 400 // static value x: [100, 200, 300, 400] // random pick from array x: { min: 100, max: 700 } // random float in range x: { min: 100, max: 700, int: true } // random integer x: { random: [100, 700] } // random integer shorthand scale: { start: 0, end: 1 } // ease over lifetime (default linear) scale: { start: 0, end: 1, ease: 'bounce.out' } // custom ease scale: { start: 4, end: 0.5, random: true } // random start, ease to end x: { values: [50, 500, 200, 800], interpolation: 'catmull' } // interpolation x: { steps: 32, start: 0, end: 576 } // stepped sequential x: { steps: 32, start: 0, end: 576, yoyo: true } // stepped with yoyo x: { // custom callbacks onEmit: (particle, key, t, value) => value, onUpdate: (particle, key, t, value) => value } x: (particle, key, t, value) => value + 50 // emit-time callback shorthand ``` **Emit-only** (no onUpdate): `angle`, `delay`, `hold`, `lifespan`, `quantity`, `speedX`, `speedY`. **Emit + Update** (support start/end, onUpdate): `accelerationX/Y`, `alpha`, `bounce`, `maxVelocityX/Y`, `moveToX/Y`, `rotate`, `scaleX/Y`, `tint`, `x`, `y`. ### Flow vs Explode (Burst) **Flow mode** (`frequency >= 0`): emits `quantity` particles every `frequency` ms. Default is `frequency: 0` (every frame) with `emitting: true`. **Explode mode** (`frequency = -1`): emits a batch all at once, then stops. ```js emitter.flow(100, 5); // 5 particles every 100ms emitter.flow(100, 5, 50); // auto-stop after 50 total emitter.explode(30, 200, 400); // burst 30 at position emitter.explode(30); // burst at emitter position ``` ## Common Patterns ### Scale, Alpha, and Color Over Lifetime ```js // Scale and alpha with custom easing this.add.particles(400, 300, 'spark', { lifespan: 2000, speed: 100, scale: { start: 1, end: 0, ease: 'power2' }, alpha: { start: 1, end: 0, ease: 'cubic.in' } }); ``` ### Color Interpolation The `color` property interpolates through an array of colors over particle lifetime (overrides `tint`): ```js this.add.particles(400, 300, 'spark', { lifespan: 2000, speed: 100, scale: { start: 0.5, end: 0 }, color: [0xfacc22, 0xf89800, 0xf83600, 0x9f0404], colorEase: 'quad.out' }); ``` ### Tinting Particles ```js this.add.particles(400, 300, 'spark', { tint: 0xff0000 }); // static this.add.particles(400, 300, 'spark', { tint: { start: 0xffffff, end: 0xff0000 } }); // over lifetime ``` ### Gravity Wells A `GravityWell` applies inverse-square gravitational force, pulling (or repelling with negative `power`) particles toward a point. ```js const emitter = this.add.particles(400, 300, 'spark', { speed: 100, lifespan: 4000, scale: { start: 0.4, end: 0 }, quantity: 2 }); const well = emitter.createGravityWell({ x: 400, y: 300, power: 2, epsilon: 100, gravity: 50 }); // Update at runtime well.x = 300; well.power = -1; // negative = repel // Or create manually and add const well2 = new Phaser.GameObjects.Particles.GravityWell(500, 200, 3, 100, 50); emitter.addParticleProcessor(well2); emitter.removeParticleProcessor(well2); ``` ### Emission Zones (Random) A `RandomZone` spawns particles at random positions within a shape. The source must have a `getRandomPoint(point)` method -- all Phaser geometry classes (Circle, Ellipse, Rectangle, Triangle, Polygon, Line) support this, or provide a custom source: ```js // Using built-in geometry this.add.particles(400, 300, 'spark', { speed: 50, lifespan: 2000, emitZone: { type: 'random', source: new Phaser.Geom.Circle(0, 0, 100) } }); // Custom source object (any object with getRandomPoint) emitter.addEmitZone({ type: 'random', source: { getRandomPoint: (point) => { const a = Math.random() * Math.PI * 2; point.x = Math.cos(a) * 100; point.y = Math.sin(a) * 50; return point; } } }); ``` ### Emission Zones (Edge) An `EdgeZone` places particles sequentially along shape edges. The source must have a `getPoints(quantity, stepRate)` method. Curves, Paths, and all geometry shapes support this: ```js this.add.particles(400, 300, 'spark', { lifespan: 1500, speed: 20, emitZone: { type: 'edge', source: new Phaser.Geom.Circle(0, 0, 150), quantity: 48, // number of points on edge (use 0 with stepRate instead) yoyo: false, // reverse direction at ends seamless: true // remove duplicate endpoint } }); // Or add post-creation with any source that has getPoints emitter.addEmitZone({ type: 'edge', source: geom, quantity: 50, yoyo: false, seamless: true }); ``` **Multiple emission zones:** Pass an array to `emitZone` or call `addEmitZone()` multiple times. Zones iterate in sequence. The `total` property controls how many particles emit before rotating to the next zone (-1 = never rotate). ```js this.add.particles(400, 300, 'spark', { emitZone: [ { type: 'random', source: new Phaser.Geom.Circle(0, 0, 50) }, { type: 'random', source: new Phaser.Geom.Circle(200, 0, 50) } ] }); ``` ### Death Zones A `DeathZone` kills particles when they enter (or leave) a region. The source must have a `contains(x, y)` method. ```js // Kill particles entering a rectangle this.add.particles(400, 100, 'spark', { speed: 200, lifespan: 5000, gravityY: 100, deathZone: { type: 'onEnter', source: new Phaser.Geom.Rectangle(300, 400, 200, 50) } }); // Kill particles leaving a circle (confine to area) this.add.particles(400, 300, 'spark', { speed: 100, lifespan: 5000, deathZone: { type: 'onLeave', source: new Phaser.Geom.Circle(400, 300, 150) } }); // Custom death zone source (any object with contains) emitter.addDeathZone({ type: 'onEnter', source: { contains: (x, y) => x > 600 && y > 400 } }); ``` ### Following a Game Object ```js const player = this.add.sprite(100, 100, 'player'); const emitter = this.add.particles(0, 0, 'spark', { speed: 50, lifespan: 800, scale: { start: 0.5, end: 0 } }); emitter.startFollow(player); // follow position emitter.startFollow(player, 10, -20); // with offset emitter.startFollow(player, 0, 0, true); // track visibility too emitter.stopFollow(); // Or via config: this.add.particles(0, 0, 'spark', { follow: player, followOffset: { x: 0, y: -20 } }); ``` ### Particle Callbacks ```js // Via config const emitter = this.add.particles(400, 300, 'spark', { speed: 100, lifespan: 2000, emitCallback: (particle, emitter) => { /* on emit */ }, deathCallback: (particle) => { /* on death */ } }); // Or set after creation emitter.onParticleEmit((particle, emitter) => { /* ... */ }); emitter.onParticleDeath((particle) => { /* ... */ }); // Iterate alive/dead particles emitter.forEachAlive((particle, emitter) => { /* particle.x, particle.lifeT */ }); ``` ### Duration, StopAfter, and Advance ```js // Auto-stop after 3 seconds (alive particles continue until they expire) this.add.particles(400, 300, 'spark', { speed: 100, duration: 3000 }); // Emit exactly 50 particles then stop this.add.particles(400, 300, 'spark', { speed: 100, stopAfter: 50 }); // Pre-warm: fast-forward 2 seconds so particles visible on first frame this.add.particles(400, 300, 'spark', { speed: 100, lifespan: 2000, advance: 2000 }); // Or manually: emitter.fastForward(2000, 50); ``` ### Particle Bounds (Bounce) ```js this.add.particles(400, 300, 'spark', { speed: 200, lifespan: 5000, bounce: 0.8, bounds: { x: 100, y: 100, width: 600, height: 400 }, collideLeft: true, collideRight: true, collideTop: true, collideBottom: true }); // Or: emitter.addParticleBounds(100, 100, 600, 400); ``` ### Texture Frames and Animations ```js // Random frame per particle this.add.particles(400, 300, 'flares', { frame: ['red', 'green', 'blue'] }); // Sequential frames cycling through with quantity per frame this.add.particles(400, 300, 'flares', { frame: { frames: ['red', 'green', 'blue'], cycle: true, quantity: 4 } }); // Particle animation (plays anim over particle lifetime) this.add.particles(400, 300, 'explosion', { anim: 'explode_anim', lifespan: 1000 }); // Multiple anims, randomly assigned this.add.particles(400, 300, 'sheet', { anim: { anims: ['fire', 'smoke'], cycle: false, quantity: 1 } }); ``` ### Sorting Particles ```js this.add.particles(400, 300, 'spark', { sortProperty: 'y', sortOrderAsc: true }); // Or: sortCallback: (a, b) => a.y - b.y ``` ### Custom Particle Processor Extend `ParticleProcessor` to apply custom per-particle logic each frame. Implement `update(particle, delta, step, t)`: ```js class WindProcessor extends Phaser.GameObjects.Particles.ParticleProcessor { constructor (windX, windY) { super(0, 0); this.windX = windX; this.windY = windY; } update (particle, delta, step, t) { particle.velocityX += this.windX * step; particle.velocityY += this.windY * step; } } emitter.addParticleProcessor(new WindProcessor(0.5, 0)); ``` ### Custom Particle Class Extend `Particle` and override `update` for per-particle behavior. Set via `particleClass` in config: ```js class TrailParticle extends Phaser.GameObjects.Particles.Particle { update (delta, step, processors) { const result = super.update(delta, step, processors); this.alpha = this.lifeT; // custom: alpha matches life progress return result; // must return true if particle is still alive } } this.add.particles(400, 300, 'spark', { particleClass: TrailParticle, speed: 100, lifespan: 2000 }); ``` ## Configuration Reference ### ParticleEmitterConfig -- Simple Properties | Property | Type | Default | Description | |---|---|---|---| | `active` | boolean | `true` | False = emitter does not update at all | | `emitting` | boolean | `true` | False = no new particles (alive ones still update) | | `blendMode` | string/number | `0` | Blend mode for rendering | | `frequency` | number | `0` | ms between flow cycles; 0 = every frame; -1 = explode | | `gravityX`, `gravityY` | number | `0` | Gravity in px/s^2 | | `maxParticles` | number | `0` | Hard limit on total particle objects (0 = unlimited) | | `maxAliveParticles` | number | `0` | Max alive particles at once (0 = unlimited) | | `duration` | number | `0` | Auto-stop after ms (0 = forever) | | `stopAfter` | number | `0` | Auto-stop after N particles emitted (0 = unlimited) | | `advance` | number | `0` | Fast-forward on creation (ms) | | `radial` | boolean | `true` | True = speed+angle; false = speedX/speedY | | `particleBringToTop` | boolean | `true` | New particles render on top | | `timeScale` | number | `1` | Time multiplier for updates | | `follow` | Vector2Like | `null` | Object to follow | | `followOffset` | Vector2Like | | Offset from follow target | | `trackVisible` | boolean | `false` | Match follow target's visibility | | `reserve` | number | | Pre-allocate particle objects | | `particleClass` | function | `Particle` | Custom particle class | | `sortProperty` | string | | Particle property to sort by | | `sortOrderAsc` | boolean | | Sort ascending if true | ### ParticleEmitterConfig -- EmitterOp Properties All accept the flexible value formats described above. | Property | Default | E/U | Description | |---|---|---|---| | `x`, `y` | `0` | E+U | Particle offset from emitter | | `speed` | `0` | E | Radial speed (sets speedX, deactivates speedY) | | `speedX`, `speedY` | `0` | E | Directional speed (sets radial=false) | | `angle` | `{min:0,max:360}` | E | Emission angle in degrees | | `scale` | `1` | E+U | Uniform scale (sets scaleX, deactivates scaleY) | | `scaleX`, `scaleY` | `1` | E+U | Non-uniform scale | | `alpha` | `1` | E+U | Alpha transparency | | `rotate` | `0` | E+U | Rotation in degrees | | `tint` | `0xffffff` | E+U | Tint color (WebGL) | | `color` | | E+U | Color array to interpolate (overrides tint) | | `colorEase` | | | Ease for color interpolation | | `lifespan` | `1000` | E | Lifetime in ms | | `delay` | `0` | E | Delay before visible (ms) | | `hold` | `0` | E | Hold at end of life before dying (ms) | | `quantity` | `1` | E | Particles per flow cycle | | `accelerationX/Y` | `0` | E+U | Acceleration (px/s^2) | | `maxVelocityX/Y` | `10000` | E+U | Max velocity | | `bounce` | `0` | E+U | Bounce restitution (0-1) | | `moveToX`, `moveToY` | `0` | E+U | Target position (overrides angle/speed) | *E = emit-only, E+U = emit + update (supports start/end, onUpdate)* ### Zone Config Properties | Config Key | Type | Properties | |---|---|---| | `emitZone` | object or array | `{ type: 'random', source: }` | | | | `{ type: 'edge', source: , quantity, stepRate, yoyo, seamless, total }` | | `deathZone` | object or array | `{ type: 'onEnter'\|'onLeave', source: }` | | `bounds` | object | `{ x, y, width, height }` or `{ x, y, w, h }` | ## Events All events are emitted on the `ParticleEmitter` instance itself. | Event | String | Callback Args | When | |---|---|---|---| | `START` | `'start'` | `(emitter)` | `start()` is called and emitter begins emitting | | `STOP` | `'stop'` | `(emitter)` | `stop()` is called, or duration/stopAfter limit reached | | `COMPLETE` | `'complete'` | `(emitter)` | Final alive particle dies after emitter has stopped | | `EXPLODE` | `'explode'` | `(emitter, particle)` | `explode()` is called | | `DEATH_ZONE` | `'deathzone'` | `(emitter, particle, zone)` | A death zone kills a particle | ```js emitter.on('stop', (emitter) => { /* stopped emitting */ }); emitter.on('complete', (emitter) => { /* all particles dead */ }); emitter.on('deathzone', (emitter, particle, zone) => { /* ... */ }); ``` ## API Quick Reference ### ParticleEmitter Key Methods **Lifecycle:** `start(advance?, duration?)`, `stop(kill?)`, `pause()`, `resume()`, `flow(frequency, count?, stopAfter?)`, `explode(count?, x?, y?)`, `emitParticleAt(x?, y?, count?)`, `emitParticle(count?, x?, y?)`, `fastForward(time, delta?)`. **Config:** `setConfig(config)`, `updateConfig(config)`. **Following:** `startFollow(target, offX?, offY?, trackVisible?)`, `stopFollow()`. **Zones:** `addEmitZone(config)`, `removeEmitZone(zone)`, `clearEmitZones()`, `addDeathZone(config)`, `removeDeathZone(zone)`, `clearDeathZones()`. **Processors:** `createGravityWell(config)`, `addParticleProcessor(processor)`, `removeParticleProcessor(processor)`, `getProcessors()`. **Bounds:** `addParticleBounds(x, y, w, h, collideL?, collideR?, collideT?, collideB?)`. **Callbacks/Iteration:** `onParticleEmit(cb, ctx?)`, `onParticleDeath(cb, ctx?)`, `killAll()`, `forEachAlive(cb, ctx?)`, `forEachDead(cb, ctx?)`. **Counts:** `getAliveParticleCount()`, `getDeadParticleCount()`, `getParticleCount()`, `atLimit()`, `reserve(count)`. **Property setters:** `setParticleSpeed(x, y?)`, `setParticleScale(x, y?)`, `setParticleGravity(x, y)`, `setParticleAlpha(value)`, `setParticleTint(value)`, `setParticleLifespan(value)`, `setEmitterAngle(value)`, `setQuantity(qty)`, `setFrequency(freq, qty?)`, `setRadial(value)`, `setEmitterFrame(frames, random?, qty?)`, `setAnim(anims, random?, qty?)`. **Sorting:** `setSortProperty(property, ascending?)`, `setSortCallback(callback)`, `depthSort()`. **Utility:** `getBounds(padding?, advance?, delta?, output?)`, `overlap(target)`. ### GravityWell | Property/Method | Description | |---|---| | `x`, `y` | World position of the well | | `power` | Force strength (negative to repel) | | `epsilon` | Min distance for force calc (default 100) | | `gravity` | Gravitational constant (default 50) | | `active` | Enable/disable processing (inherited from ParticleProcessor) | **Constructor:** `new GravityWell(x, y, power, epsilon, gravity)` or `new GravityWell(config)` where config is `{ x, y, power, epsilon, gravity }`. ## Gotchas - **No ParticleEmitterManager:** Removed in v3.60. `this.add.particles()` returns a `ParticleEmitter` directly. - **`speed` vs `speedX`/`speedY`:** `speed` sets speedX and deactivates speedY (radial). `speedX`/`speedY` switches to point mode (`radial: false`). - **`scale` vs `scaleX`/`scaleY`:** `scale` applies to scaleX and deactivates scaleY. Use both for non-uniform scaling. - **`color` overrides `tint`:** They are mutually exclusive; `color` (array) takes priority. - **`moveToX`/`moveToY`:** Both must be set to activate. Overrides `angle` and `speed`. - **`emitting` vs `active`:** `emitting: false` = no new particles but alive ones update. `active: false` = entire emitter frozen. - **`stop` vs `complete`:** `'stop'` fires when emission stops. `'complete'` fires when the last alive particle dies. - **`frequency: 0`:** Means emit every frame (max rate), not "never." Use `emitting: false` to prevent emission. - **`frequency: -1`:** Puts the emitter in explode mode -- it will not flow automatically. Use `explode()` to emit bursts. - **`hold` freezes particle:** After lifespan expires, `hold` keeps the particle visible and frozen for the specified ms before it dies. Useful for trail/lingering effects. - **`advance` fast-forwards:** Pre-warms the emitter by simulating the given ms on creation, so particles are already visible on the first frame. - **`reserve(count)` pre-allocates:** Call `reserve()` or set `reserve` in config to pre-create particle objects upfront, avoiding GC spikes during gameplay from on-demand allocation. - **Zone source methods:** RandomZone needs `getRandomPoint(point)`. EdgeZone needs `getPoints(quantity, stepRate)`. DeathZone needs `contains(x, y)`. - **Particle pool:** `maxParticles` limits total objects (not alive count). Use `maxAliveParticles` for visible limit. - **Texture required:** The emitter needs a valid texture key. Use `frame` config for multi-frame textures. ## Source Files See `references/REFERENCE.md` for the full source file map. Key entry points: `src/gameobjects/particles/ParticleEmitter.js` (main class), `src/gameobjects/particles/Particle.js` (individual particle), `src/gameobjects/particles/zones/` (zone classes).