sharp-vibrant

Extract prominent colors from an image in nodejs using sharp for image loading/processing.

This is a fork of node-vibrant that reduces dependencies/complexity at the cost of absolutely no browser support. This fork was created for internal use and is not published to any package manager.

Usage

node.js

// ES5
var Vibrant = require('sharp-vibrant')
// ES6
import * as Vibrant from '@livechart/sharp-vibrant'
// TypeScript
import Vibrant = require('@livechart/sharp-vibrant')

// Using builder
Vibrant.from('path/to/image').getPalette((err, palette) => console.log(palette))
// Promise
Vibrant.from('path/to/image').getPalette()
  .then((palette) => console.log(palette))

// Using constructor
let v = new Vibrant('path/to/image', opts)
v.getPalette((err, palette) => console.log(palette))
// Promise
v.getPalette().then((palette) => console.log(palette))

Contribution Guidelines

Make changes
Write test specs if necessary
Pass tests
Commit source files only (without compiled files)

References

`Vibrant`

Main class of sharp-vibrant.

`Vibrant.from(src: ImageSource): Builder`

Make a Builder for an image. Returns a Builder instance.

`constructor(src: ImageSource, opts: Partial<Options>)`

Name	Description
`image`	Path to image file (support HTTP/HTTPs)
`opts`	Options (optional)

`ImageSource`

export type ImageSource = string | Buffer

`Options`

export interface Options {
    colorCount: number
    quality: number
    maxDimension: number
    filters: Array<Filter>
    ImageClass: ImageClass
    quantizer: Quantizer
    generator?: Generator
}

Field	Default	Description
`colorCount`	64	amount of colors in initial palette from which the swatches will be generated
`quality`	5	Scale down factor used in downsampling stage. `1` means no downsampling. If `maxDimension` is set, this value will not be used.
`maxDimension`	`undefined`	The max size of the image's longer side used in downsampling stage. This field will override `quality`.
`filters`	`[]`	An array of filters
`ImageClass`	`Image.Node`	An `Image` implementation class
`quantizer`	`Vibrant.Quantizer.MMCQ`	A `Quantizer` implementation class
`generator`	`Vibrant.Generator.Default`	An `Generator` instance

`Resolvable<T>`

export type Resolvable<T> = T | Promise<T>

`Quantizer`

export interface Quantizer {
    (pixels: Pixels, opts: Options): Resolvable<Array<Swatch>>
}

`Generator`

export interface Generator {
    (swatches: Array<Swatch>, opts?: Object): Resolvable<Palette>
}

`Filter`

Returns true if the color is to be kept.

export interface Filter {
    (red: number, green: number, blue: number, alpha: number): boolean
}

`getPalette(cb?: Callback<PaletteResult>): Promise<PaletteResult>`

Name	Description
`cb`	(Optional) callback function. Can be omitted when using `Promise`.

`Callback<T>`

export interface Callback<T> {
    (err?: Error, result?: T): void
}

`ImageDimensions`

interface ImageDimensions {
    readonly width: number
    readonly height: number
}

`PaletteResult`

interface PaletteResult {
    readonly pixelCount: number
    readonly imageDimensions: ImageDimensions
    readonly palette: Palette
}

`Vibrant.Builder`

Helper class for change configurations and create a Vibrant instance. Methods of a Builder instance can be chained like:

Vibrant.from(src)
  .quality(1)
  .clearFilters()
  // ...
  .getPalette()
  .then((paletteResult) => {})

`constructor(src: ImageSource, opts: Partial<Options>)`

Arguments are the same as Vibrant.constructor.

`quality(q: number): Builder`

Sets opts.quality to q. Returns this Builder instance.

`maxColorCount(n: number): Builder`

Sets opts.colorCount to n. Returns this Builder instance.

`maxDimension(d: number): Builder`

Sets opts.maxDimension to d. Returns this Builder instance.

`addFilter(f: Filter): Builder`

Adds a filter function. Returns this Builder instance.

`removeFilter(f: Filter): Builder`

Removes a filter function. Returns this Builder instance.

`clearFilters(): Builder`

Clear all filters. Returns this Builder instance.

`useImageClass(imageClass: ImageClass): Builder`

Specifies which Image implementation class to use. Returns this Builder instance.

`useQuantizer(quantizer: Quantizer): Builder`

Specifies which Quantizer implementation class to use. Returns this Builder instance.

`useGenerator(generator: Generator): Builder`

Sets opts.generator to generator. Returns this Builder instance.

`build(): Vibrant`

Builds and returns a Vibrant instance as configured.

`getPalette(cb?: Callback<PaletteResult>): Promise<PaletteResult>`

Builds a Vibrant instance as configured and calls its getPalette method.

`Vibrant.Swatch`

Represents a color swatch generated from an image's palette.

`Vec3`

export interface Vec3 extends Array<number> {
    0: number,
    1: number,
    2: number
}

`constructor(rgb: Vec3, population: number)`

Internal use.

Name	Description
`rgb`	`[r, g, b]`
`population`	Population of the color in an image

`getHsl(): Vec3`

`getPopulation(): number`

`getRgb(): Vec3`

`getHex(): string`

`getTitleTextColor(): string`

Returns an appropriate color to use for any 'title' text which is displayed over this Swatch's color.

`getBodyTextColor(): string`

Returns an appropriate color to use for any 'body' text which is displayed over this Swatch's color.

`Vibrant.Util`

Utility methods. Internal usage.

`hexToRgb(hex: string): Vec3`

`rgbToHex(r: number, g: number, b: number): string`

`hslToRgb(h: number, s: number, l: number): Vec3`

`rgbToHsl(r: number, g: number, b: number): Vec3`

`xyzToRgb(x: number, y: number, z: number): Vec3`

`rgbToXyz(r: number, g: number, b: number): Vec3`

`xyzToCIELab(x: number, y: number, z: number): Vec3`

`rgbToCIELab(l: number, a: number, b: number): Vec3`

`deltaE94(lab1: number, lab2: number): number`

Computes CIE delta E 1994 diff between lab1 and lab2. The 2 colors are in CIE-Lab color space. Used in tests to compare 2 colors' perceptual similarity.

`rgbDiff(rgb1: Vec3, rgb2: Vec3): number`

Compute CIE delta E 1994 diff between rgb1 and rgb2.

`hexDiff(hex1: string, hex2: string): number`

Compute CIE delta E 1994 diff between hex1 and hex2.

`getColorDiffStatus(d: number): string`

Gets a string to describe the meaning of the color diff. Used in tests.

Delta E	Perception	Returns
<= 1.0	Not perceptible by human eyes.	`"Perfect"`
1 - 2	Perceptible through close observation.	`"Close"`
2 - 10	Perceptible at a glance.	`"Good"`
11 - 49	Colors are more similar than opposite	`"Similar"`
50 - 100	Colors are exact opposite	`Wrong`

NPM Tasks

Task	Description
`build:node`	Build node.js target
`build`	Build all targets
`clean:node`	Clean node.js build
`clean`	Clean all builds
`test:node`	Run node.js specs (mocha)
`test`	Run all specs

@livechart/sharp-vibrant

sharp-vibrant

Usage

node.js

Contribution Guidelines

References

Vibrant

Vibrant.from(src: ImageSource): Builder

constructor(src: ImageSource, opts: Partial<Options>)

ImageSource

Options

Resolvable<T>

Quantizer

Generator

Filter

getPalette(cb?: Callback<PaletteResult>): Promise<PaletteResult>

Callback<T>

ImageDimensions

PaletteResult

Vibrant.Builder

constructor(src: ImageSource, opts: Partial<Options>)

quality(q: number): Builder

maxColorCount(n: number): Builder

maxDimension(d: number): Builder

addFilter(f: Filter): Builder

removeFilter(f: Filter): Builder

clearFilters(): Builder

useImageClass(imageClass: ImageClass): Builder

useQuantizer(quantizer: Quantizer): Builder

useGenerator(generator: Generator): Builder

build(): Vibrant

getPalette(cb?: Callback<PaletteResult>): Promise<PaletteResult>

Vibrant.Swatch

Vec3

constructor(rgb: Vec3, population: number)

getHsl(): Vec3

getPopulation(): number

getRgb(): Vec3

getHex(): string

getTitleTextColor(): string

getBodyTextColor(): string

Vibrant.Util

hexToRgb(hex: string): Vec3

rgbToHex(r: number, g: number, b: number): string

hslToRgb(h: number, s: number, l: number): Vec3

rgbToHsl(r: number, g: number, b: number): Vec3

xyzToRgb(x: number, y: number, z: number): Vec3

rgbToXyz(r: number, g: number, b: number): Vec3

xyzToCIELab(x: number, y: number, z: number): Vec3

rgbToCIELab(l: number, a: number, b: number): Vec3

deltaE94(lab1: number, lab2: number): number

rgbDiff(rgb1: Vec3, rgb2: Vec3): number

hexDiff(hex1: string, hex2: string): number

getColorDiffStatus(d: number): string

NPM Tasks

Readme

Keywords

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Collaborators

`Vibrant`

`Vibrant.from(src: ImageSource): Builder`

`constructor(src: ImageSource, opts: Partial<Options>)`

`ImageSource`

`Options`

`Resolvable<T>`

`Quantizer`

`Generator`

`Filter`

`getPalette(cb?: Callback<PaletteResult>): Promise<PaletteResult>`

`Callback<T>`

`ImageDimensions`

`PaletteResult`

`Vibrant.Builder`

`constructor(src: ImageSource, opts: Partial<Options>)`

`quality(q: number): Builder`

`maxColorCount(n: number): Builder`

`maxDimension(d: number): Builder`

`addFilter(f: Filter): Builder`

`removeFilter(f: Filter): Builder`

`clearFilters(): Builder`

`useImageClass(imageClass: ImageClass): Builder`

`useQuantizer(quantizer: Quantizer): Builder`

`useGenerator(generator: Generator): Builder`

`build(): Vibrant`

`getPalette(cb?: Callback<PaletteResult>): Promise<PaletteResult>`

`Vibrant.Swatch`

`Vec3`

`constructor(rgb: Vec3, population: number)`

`getHsl(): Vec3`

`getPopulation(): number`

`getRgb(): Vec3`

`getHex(): string`

`getTitleTextColor(): string`

`getBodyTextColor(): string`

`Vibrant.Util`

`hexToRgb(hex: string): Vec3`

`rgbToHex(r: number, g: number, b: number): string`

`hslToRgb(h: number, s: number, l: number): Vec3`

`rgbToHsl(r: number, g: number, b: number): Vec3`

`xyzToRgb(x: number, y: number, z: number): Vec3`

`rgbToXyz(r: number, g: number, b: number): Vec3`

`xyzToCIELab(x: number, y: number, z: number): Vec3`

`rgbToCIELab(l: number, a: number, b: number): Vec3`

`deltaE94(lab1: number, lab2: number): number`

`rgbDiff(rgb1: Vec3, rgb2: Vec3): number`

`hexDiff(hex1: string, hex2: string): number`

`getColorDiffStatus(d: number): string`

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