FlowVue/src/utils/color.ts

154 lines
4.8 KiB
TypeScript
Raw Normal View History

/**
* .
* #fff000 #f00
*
* @param String color
* @return Boolean
*/
export const isHexColor = (color: string) => {
const reg = /^#([0-9a-fA-F]{3}|[0-9a-fA-f]{6})$/
return reg.test(color)
}
/**
* RGB .
* r, g, b [0, 255]
*
* @return String #ff00ff
* @param r
* @param g
* @param b
*/
export const rgbToHex = (r: number, g: number, b: number) => {
// tslint:disable-next-line:no-bitwise
const hex = ((r << 16) | (g << 8) | b).toString(16)
return '#' + new Array(Math.abs(hex.length - 7)).join('0') + hex
}
/**
* Transform a HEX color to its RGB representation
* @param {string} hex The color to transform
* @returns The RGB representation of the passed color
*/
export const hexToRGB = (hex: string, opacity?: number) => {
let sHex = hex.toLowerCase()
if (isHexColor(hex)) {
if (sHex.length === 4) {
let sColorNew = '#'
for (let i = 1; i < 4; i += 1) {
sColorNew += sHex.slice(i, i + 1).concat(sHex.slice(i, i + 1))
}
sHex = sColorNew
}
const sColorChange: number[] = []
for (let i = 1; i < 7; i += 2) {
sColorChange.push(parseInt('0x' + sHex.slice(i, i + 2)))
}
return opacity
? 'RGBA(' + sColorChange.join(',') + ',' + opacity + ')'
: 'RGB(' + sColorChange.join(',') + ')'
}
return sHex
}
export const colorIsDark = (color: string) => {
if (!isHexColor(color)) return
const [r, g, b] = hexToRGB(color)
.replace(/(?:\(|\)|rgb|RGB)*/g, '')
.split(',')
.map((item) => Number(item))
return r * 0.299 + g * 0.578 + b * 0.114 < 192
}
/**
* Darkens a HEX color given the passed percentage
* @param {string} color The color to process
* @param {number} amount The amount to change the color by
* @returns {string} The HEX representation of the processed color
*/
export const darken = (color: string, amount: number) => {
color = color.indexOf('#') >= 0 ? color.substring(1, color.length) : color
amount = Math.trunc((255 * amount) / 100)
return `#${subtractLight(color.substring(0, 2), amount)}${subtractLight(
color.substring(2, 4),
amount
)}${subtractLight(color.substring(4, 6), amount)}`
}
/**
* Lightens a 6 char HEX color according to the passed percentage
* @param {string} color The color to change
* @param {number} amount The amount to change the color by
* @returns {string} The processed color represented as HEX
*/
export const lighten = (color: string, amount: number) => {
color = color.indexOf('#') >= 0 ? color.substring(1, color.length) : color
amount = Math.trunc((255 * amount) / 100)
return `#${addLight(color.substring(0, 2), amount)}${addLight(
color.substring(2, 4),
amount
)}${addLight(color.substring(4, 6), amount)}`
}
/* Suma el porcentaje indicado a un color (RR, GG o BB) hexadecimal para aclararlo */
/**
* Sums the passed percentage to the R, G or B of a HEX color
* @param {string} color The color to change
* @param {number} amount The amount to change the color by
* @returns {string} The processed part of the color
*/
const addLight = (color: string, amount: number) => {
const cc = parseInt(color, 16) + amount
const c = cc > 255 ? 255 : cc
return c.toString(16).length > 1 ? c.toString(16) : `0${c.toString(16)}`
}
/**
* Calculates luminance of an rgb color
* @param {number} r red
* @param {number} g green
* @param {number} b blue
*/
const luminanace = (r: number, g: number, b: number) => {
const a = [r, g, b].map((v) => {
v /= 255
return v <= 0.03928 ? v / 12.92 : Math.pow((v + 0.055) / 1.055, 2.4)
})
return a[0] * 0.2126 + a[1] * 0.7152 + a[2] * 0.0722
}
/**
* Calculates contrast between two rgb colors
* @param {string} rgb1 rgb color 1
* @param {string} rgb2 rgb color 2
*/
const contrast = (rgb1: string[], rgb2: number[]) => {
return (
(luminanace(~~rgb1[0], ~~rgb1[1], ~~rgb1[2]) + 0.05) /
(luminanace(rgb2[0], rgb2[1], rgb2[2]) + 0.05)
)
}
/**
* Determines what the best text color is (black or white) based con the contrast with the background
* @param hexColor - Last selected color by the user
*/
export const calculateBestTextColor = (hexColor: string) => {
const rgbColor = hexToRGB(hexColor.substring(1))
const contrastWithBlack = contrast(rgbColor.split(','), [0, 0, 0])
return contrastWithBlack >= 12 ? '#000000' : '#FFFFFF'
}
/**
* Subtracts the indicated percentage to the R, G or B of a HEX color
* @param {string} color The color to change
* @param {number} amount The amount to change the color by
* @returns {string} The processed part of the color
*/
const subtractLight = (color: string, amount: number) => {
const cc = parseInt(color, 16) - amount
const c = cc < 0 ? 0 : cc
return c.toString(16).length > 1 ? c.toString(16) : `0${c.toString(16)}`
}