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pixijs-color

by @pixijsv
4.3(120)

This skill is used for creating, converting, and manipulating colors in PixiJS v8, supporting various input formats (e.g., hex, CSS names, RGB/HSL objects, arrays) and conversion methods (e.g., toHex, toNumber, toArray). It simplifies color management, ensuring consistent and efficient color representation for graphics and sprite tinting.

pixijscolorgraphicsgame-devfrontendGitHub
Installation
npx skills add https://github.com/pixijs/pixijs-skills --skill pixijs-color
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Before / After Comparison

1
Before

Before this skill, developers had to manually handle parsing, converting, and manipulating various color formats, leading to verbose and error-prone code. It was difficult to ensure consistent color representation across the application, especially when dealing with different color models and alpha values.

After

This skill provides a unified Color class to effortlessly create, convert, and manipulate colors. It standardizes color handling, reduces boilerplate code, and ensures accurate and consistent color representation throughout the application, significantly improving development efficiency and visual quality.

SKILL.md

The Color class creates and converts colors for tints, fills, strokes, and anywhere PixiJS accepts a ColorSource. Most APIs accept raw hex/strings directly, so explicit new Color(...) is only needed when converting formats or manipulating values.

Quick Start

const fillColor = new Color("#ff6600");
console.log(fillColor.toHex()); // '#ff6600'
console.log(fillColor.toNumber()); // 0xff6600
console.log(fillColor.toArray()); // [1, 0.4, 0, 1]

const g = new Graphics().rect(0, 0, 200, 100).fill(fillColor);
app.stage.addChild(g);

const sprite = Sprite.from("hero.png");
sprite.tint = "dodgerblue";
app.stage.addChild(sprite);

const t = Color.shared.setValue(0xffffff).multiply([1, 0.5, 0.5]).toNumber();
sprite.tint = t;

Related skills: pixijs-scene-graphics (fill/stroke colors), pixijs-scene-sprite (tint), pixijs-blend-modes (compositing).

Core Patterns

Accepted input formats

import { Color } from "pixi.js";

// Hex integer
new Color(0xff0000);

// Hex strings
new Color("#ff0000");
new Color("#f00");
new Color("ff0000");

// CSS color names
new Color("red");
new Color("dodgerblue");

// RGB/RGBA objects (components 0-255)
new Color({ r: 255, g: 0, b: 0 });
new Color({ r: 255, g: 0, b: 0, a: 0.5 });

// HSL/HSLA objects
new Color({ h: 0, s: 100, l: 50 });
new Color({ h: 0, s: 100, l: 50, a: 0.5 });

// HSV/HSVA objects
new Color({ h: 0, s: 100, v: 100 });

// CSS strings
new Color("rgb(255, 0, 0)");
new Color("rgba(255, 0, 0, 0.5)");
new Color("hsl(0, 100%, 50%)");

// Normalized 0-1 arrays (Float32Array or plain arrays)
new Color([1, 0, 0]); // RGB
new Color([1, 0, 0, 0.5]); // RGBA

// Uint8 arrays (components 0-255)
new Color(new Uint8Array([255, 0, 0]));
new Color(new Uint8ClampedArray([255, 0, 0, 128]));

// 8-digit hex with alpha
new Color("#ff0000ff");
new Color("#f00f");

// Copy from another Color instance
const red = new Color("red");
const copy = new Color(red);

Conversion methods

import { Color } from "pixi.js";

const color = new Color("#ff6600");

color.toHex(); // '#ff6600'
color.toHexa(); // '#ff6600ff' (hex with alpha)
color.toNumber(); // 0xff6600
color.toArray(); // [1, 0.4, 0, 1] (normalized RGBA)
color.toRgbArray(); // [1, 0.4, 0] (normalized RGB, no alpha)
color.toRgbaString(); // 'rgba(255,102,0,1)'
color.toRgba(); // { r: 1, g: 0.4, b: 0, a: 1 }
color.toRgb(); // { r: 1, g: 0.4, b: 0 }
color.toUint8RgbArray(); // [255, 102, 0]

// setValue() is the chainable way to change a color's value
color.setValue(0xff0000).toHex(); // '#ff0000'

Component access

import { Color } from "pixi.js";

const color = new Color("rgba(255, 128, 0, 0.8)");

color.red; // 1
color.green; // ~0.502
color.blue; // 0
color.alpha; // 0.8

All component getters return normalized 0-1 values.

Manipulation

import { Color } from "pixi.js";

const color = new Color("red");

// Set alpha (chainable)
color.setAlpha(0.5);

// Multiply with another color (destructive, modifies in place)
color.multiply(0x808080);

// Premultiply alpha (destructive, RGB channels multiplied by alpha)
color.premultiply(0.8);

// Premultiply alpha only (RGB unchanged)
color.premultiply(0.8, false);

// Chain operations
new Color("white").setAlpha(0.5).multiply([0.8, 0.2, 0.2]);

multiply() and premultiply() are destructive; they modify the color and set value to null (original format is lost).

Non-destructive premultiplied output

import { Color } from "pixi.js";

const color = new Color("red").setAlpha(0.5);

const packed = color.toPremultiplied(color.alpha); // 0x7F7F0000
const alphaOnly = color.toPremultiplied(color.alpha, false); // 0x7FFF0000

toPremultiplied(alpha, applyToRGB?) returns a 32-bit 0xAARRGGBB integer without mutating this. Use it in batchers and tint math where the source color must be reused. When applyToRGB is false, only the alpha byte is packed; the RGB stays at its full value.

Reusing output buffers

import { Color } from "pixi.js";

const rgba = new Float32Array(4);
const rgb = new Float32Array(3);
const rgb8 = new Uint8Array(3);

app.ticker.add(() => {
  Color.shared.setValue(sprite.tint).toArray(rgba).toRgbArray(rgb);

  Color.shared.toUint8RgbArray(rgb8);
});

toArray(out?), toRgbArray(out?), and toUint8RgbArray(out?) accept a reusable number[], Float32Array, Uint8Array, or Uint8ClampedArray and write into it. Pass your own buffer in hot paths to avoid allocating per frame; omit the argument and the Color instance returns its internal cache array.

Packing for GPU buffers

MethodReturns
toBgrNumber()24-bit 0xBBGGRR integer with R/B swapped
toLittleEndianNumber()Same 24-bit swap, convenient for little-endian vertex writes

Both are cheap and useful when emitting colors straight into packed vertex attributes.

Color.shared for temporary operations

import { Color } from "pixi.js";

// One-off conversion without allocating a new Color
const hex = Color.shared.setValue("#ff6600").toNumber();
const arr = Color.shared.setValue(0xff0000).toArray();

Color.shared is a singleton that avoids allocating a new Color on every call. This matters in hot paths like render loops or per-frame tint calculations where repeated new Color() creates GC pressure. Do not store references to it; other code may mutate it.

import { Color } from "pixi.js";

// Good: reuse shared instance in a per-frame callback
app.ticker.add(() => {
  const t = performance.now() / 1000;
  sprite.tint = Color.shared
    .setValue("white")
    .multiply([Math.sin(t) * 0.5 + 0.5, 0.2, 0.8])
    .toNumber();
});

Validating input

import { Color } from "pixi.js";

Color.isColorLike("red"); // true
Color.isColorLike("#ff0000"); // true
Color.isColorLike(0xff0000); // true
Color.isColorLike([1, 0, 0]); // true
Color.isColorLike({ r: 1, g: 0, b: 0 }); // true
Color.isColorLike({ foo: 1 }); // false
Color.isColorLike(null); // false

Color.isColorLike() checks the structural shape (string, number, array, or recognized object). It doesn't validate that a string is a real CSS color name, nor that array values fall in range. Use it as a type guard before passing user input to new Color() or setValue().

Common Mistakes

[MEDIUM] Expecting toRgba() to return 0-255 values

Wrong:

import { Color } from "pixi.js";

const { r, g, b } = new Color({ r: 255, g: 128, b: 0 }).toRgba();
// r = 1, g = ~0.502, b = 0 (NOT 255, 128, 0)

Correct:

import { Color } from "pixi.js";

// Use toUint8RgbArray() for 0-255 output
const [r, g, b] = new Color({ r: 255, g: 128, b: 0 }).toUint8RgbArray();
// r = 255, g = 128, b = 0

RGB object inputs use 0-255 range ({ r: 255, g: 0, b: 0 }), but all output methods (toRgba(), toRgb(), toArray(), toRgbArray()) normalize to 0-1. Use toUint8RgbArray() when you need 0-255 integers for CSS or external APIs.

[MEDIUM] Using 0-255 range in color arrays

Wrong:

import { Color } from "pixi.js";

new Color([255, 0, 0]); // NOT red; values are interpreted as 0-1

Correct:

import { Color } from "pixi.js";

new Color([1, 0, 0]); // red via normalized array
new Color(0xff0000); // red via hex
new Color("red"); // red via CSS name
new Color(new Uint8Array([255, 0, 0])); // red via Uint8Array (0-255)

Plain number arrays (number[] and Float32Array) use normalized 0-1 range. [255, 0, 0] clamps to [1, 0, 0] because values are clamped, but [200, 100, 50] does not produce the expected color. Use Uint8Array or Uint8ClampedArray for 0-255 input.

[MEDIUM] Using utils.string2hex or utils.hex2string

Wrong:

import { utils } from "pixi.js";

const hex = utils.string2hex("#ff0000");

Correct:

import { Color } from "pixi.js";

const hex = new Color("#ff0000").toNumber();
const str = new Color(0xff0000).toHex();

The utils namespace was removed in v8. Use the Color class for all color conversions.

API Reference

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Statistics

Installs2.4K
Rating4.3 / 5.0
Version
Updated2026年7月8日
Comparisons1

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4.3(120)
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Compatible Platforms

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Timeline

Created2026年6月13日
Last Updated2026年7月8日
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