Random color generator

Given this function, I want to replace the color with a random color generator.

document.overlay = GPolyline.fromEncoded({
color: "#0000FF",
weight: 10,
points: encoded_points,
zoomFactor: 32,
levels: encoded_levels,
numLevels: 4
});

How can I do it?

Use getRandomColor() in place of "#0000FF":

function getRandomColor() {
var letters = '0123456789ABCDEF';
var color = '#';
for (var i = 0; i < 6; i++) {
color += letters[Math.floor(Math.random() * 16)];
}
return color;
}

function setRandomColor() {
}

</div>
<button onclick="setRandomColor()">Random Color</button>

• Note that this has a bias towards quite dark and unsaturated colors because of the way RGB wraps the color space. Martin Ankerl has a nice article about generating colors from other spaces (like HSV) as well: martin.ankerl.com/2009/12/09/… Jan 10 '12 at 10:53
• The chances of hitting 0 or 15 when using Math.round(Math.random()*15) are only 1:30, while the other numbers' chances are 1:15. Jun 4 '12 at 15:32
• You can remove .split('') call. String already have Array indexer. Jul 27 '15 at 6:08
• You could also use a Generator Function as such
– Taku
Aug 26 '16 at 11:01
• @WebWanderer Yep, there are 16777216 possible RGB color variations. Doing toString(16) will provide you a hexadecimal value. This is way faster and is more accurate way of producing color variations. Note the difference 16777215 and 16777216 . That is because we start to count at 0. So you have 16777216 different colors. but the maximum value is 16777215 Feb 22 '19 at 14:05

I doubt anything will be faster or shorter than this one:

"#" + ((1<<24)*Math.random() | 0).toString(16)

Challenge!

• You forgot to pad with zeroes. May 1 '11 at 21:12
• '#'+(Math.random()*0xFFFFFF<<0).toString(16); May 6 '11 at 7:49
• @Mohsen, FYI every now and then your code produces invalid 5 digit number Nov 5 '11 at 18:05
• The result is not padded to 6 digits Mar 1 '12 at 9:03
• ('00000'+(Math.random()*(1<<24)|0).toString(16)).slice(-6) will always return a length of 6. though this method will still (rarely) return small numbers that give results like 000cf4 or 0000a7 which is a bit hacky i think. in these cases the red component does not contribute to the random color.
– bryc
Nov 27 '12 at 20:52

Here is another take on this problem.

My goal was to create vibrant and distinct colors. To ensure the colors are distinct I avoid using a random generator and select "evenly spaced" colors from the rainbow.

This is perfect for creating pop-out markers in Google Maps that have optimal "uniqueness" (that is, no two markers will have similar colors).

/**
* @param numOfSteps: Total number steps to get color, means total colors
* @param step: The step number, means the order of the color
*/
function rainbow(numOfSteps, step) {
// This function generates vibrant, "evenly spaced" colours (i.e. no clustering). This is ideal for creating easily distinguishable vibrant markers in Google Maps and other apps.
// HSV to RBG adapted from: http://mjijackson.com/2008/02/rgb-to-hsl-and-rgb-to-hsv-color-model-conversion-algorithms-in-javascript
var r, g, b;
var h = step / numOfSteps;
var i = ~~(h * 6);
var f = h * 6 - i;
var q = 1 - f;
switch(i % 6){
case 0: r = 1; g = f; b = 0; break;
case 1: r = q; g = 1; b = 0; break;
case 2: r = 0; g = 1; b = f; break;
case 3: r = 0; g = q; b = 1; break;
case 4: r = f; g = 0; b = 1; break;
case 5: r = 1; g = 0; b = q; break;
}
var c = "#" + ("00" + (~ ~(r * 255)).toString(16)).slice(-2) + ("00" + (~ ~(g * 255)).toString(16)).slice(-2) + ("00" + (~ ~(b * 255)).toString(16)).slice(-2);
return (c);
}

If you wish to see what this looks like in action see Simple JavaScript Rainbow Color Generator for Google Map Markers.

• I've made a simplified implementation of the same idea as the answer to similar question stackoverflow.com/a/14187677/421010 Jan 6 '13 at 22:54
• Nov 10 '13 at 1:48
• So what will be parameter's value ? Apr 27 '15 at 12:02
• I also created something like this, but it is quite random and quite distinct. The pseudo-code is here. It uses hsv rather than rgb, because hsv has much more predictable behavior. If you care to see the Python implementation, I used it here and here. You'll have to search through the code for "color". Feb 9 '16 at 22:03
• @RobertMolina: Sorry, I moved my stuff to Gitlab. The pseudo-code is now here, with the projects here and here. Feb 20 '19 at 16:40

Who can beat it?

'#' + Math.random().toString(16).substr(-6);

It is guaranteed to work all the time: http://jsbin.com/OjELIfo/2/edit

Based on eterps's comment, the code above can still generate shorter strings if the hexadecimal representation of the random color is very short (0.730224609375 => 0.baf).

This code should work in all cases:

function makeRandomColor(){
var c = '';
while (c.length < 7) {
c += (Math.random()).toString(16).substr(-6).substr(-1)
}
return '#' + c;
}
• When Math.random() returns 0.022092682472568126 this code produces invalid '#5a7dd' string. crazy! Nov 5 '11 at 18:10
• Like this one since #ffffff don't appear too often. Dec 1 '14 at 16:06
• There are quite a few occurrences where this will not work. Check the following output for Math.random()... 0.730224609375, 0.43603515625, 0.957763671875, and the list goes on... Mar 27 '15 at 1:48
• The short version: when Math.random returns 0.125 the result is "#0.2" (invalid) Mar 19 '19 at 11:09
• Or even more basic: 0 is a valid return value of Math.random and '#' + (0).toString(16).substr(-6) is "#0". If you don't mind I'd strike-though the it is guaranteed to work all the time to avoid confusing others? Jun 17 '21 at 8:18

You can also use HSL available on every good browser (http://caniuse.com/#feat=css3-colors)

function randomHsl() {
return 'hsla(' + (Math.random() * 360) + ', 100%, 50%, 1)';
}

This will give you only bright colors, you can play around with the brightness, saturation and alpha.

// es6
const randomHsl = () => `hsla(\${Math.random() * 360}, 100%, 50%, 1)`
• Thanks! I managed to get perfect colors for backgrounds with: 'hsla(' + (Math.floor(Math.random()*360) + ', 100%, 70%, 1)'
– jj_
Oct 28 '14 at 18:23
• No prob, I was surprised to see no one using the power of hsl :) Oct 29 '14 at 12:47
• stackoverflow.com/a/23861752/1693593, hsla is not needed it alpha=1, just use hsl
– user1693593
Jun 17 '15 at 7:10
• You cannot generate 16M kolor this way (e.g. you will never get white-black grayscale) - however yes - if we use random to each component then we get all hsl corols Mar 21 '19 at 15:48
• +1 This makes it easier to use lightness and saturation to set random background colors while ensuring that the text is always readable Aug 24 '19 at 11:46

There is no need for a hash of hexadecimal letters. JavaScript can do this by itself:

function get_random_color() {
function c() {
var hex = Math.floor(Math.random()*256).toString(16);
return ("0"+String(hex)).substr(-2); // pad with zero
}
return "#"+c()+c()+c();
}

I like this one: '#' + (Math.random().toString(16) + "000000").substring(2,8)

• Or '#' + Math.floor(Math.random()*16777215).toString(16); Jun 9 '15 at 7:55
• @MohammadAnin that has a 1 in 16 chance of producing less than 6 digits Mar 24 '16 at 20:47
• This might generate invalid colours. For example'#' + (0.125).toString(16).substring(2, 8) === '#2'. It is dangerous because the probability is low (1 in 4096 I think) so a bug is likely to get through testing. You should ('#' + Math.random().toString(16) + "000000").substring(2, 8) Mar 24 '16 at 20:55
• Correction: should be '#' + (Math.random().toString(16) + "000000").substring(2,8) Mar 24 '16 at 21:06

Random color generation with brightness control:

function getRandColor(brightness){

// Six levels of brightness from 0 to 5, 0 being the darkest
var rgb = [Math.random() * 256, Math.random() * 256, Math.random() * 256];
var mix = [brightness*51, brightness*51, brightness*51]; //51 => 255/5
var mixedrgb = [rgb + mix, rgb + mix, rgb + mix].map(function(x){ return Math.round(x/2.0)})
return "rgb(" + mixedrgb.join(",") + ")";
}
• Very cool, though mostly generates 'pastels' rather than more vibrant colors that I was hoping when I saw brightness. Still going into my bag of tricks! Jun 25 '12 at 3:49
• I really like this one because you can customize it to be in harmony with your website color palette May 15 '15 at 18:30

The article written by Paul Irish, Random Hex Color Code Generator in JavaScript, is absolutely amazing. Use:

Thanks to Haytam for sharing the padStart to solve the hexadecimal code length issue.

• this will sometime return non well-formed color values like "1fa4c" (need to be 3 or 6 characters)
– jj_
Oct 28 '14 at 18:05
• @jj_ is it? sorry I didn't noticed that. Thanks for sharing Oct 28 '14 at 18:51
• when random return 0.00001 then result is #a7 (invalid color) Mar 19 '19 at 11:29
• '#' + Math.floor(Math.random()*16777215).toString(16).padStart(6, '0') Jun 12 '19 at 12:28

If you're a noob like me, clueless about hexadecimals and such, this might be more intuitive.

function r() { return Math.floor(Math.random() * 255) }

var color = 'rgb(' + r() + "," + r() + "," + r() + ')';

You just need to end up with a string such as 'rgb(255, 123, 220)'

• You'd have to use 256 to get 0 though. Mar 11 '20 at 5:30
'#'+Math.random().toString(16).slice(-3) // three-numbers format aka #f3c
'#'+Math.random().toString(16).slice(-6) // six-number format aka #abc123
• I like this for it's legibility Apr 9 '18 at 8:26
• if Math.random() return 0.125 then result will be #0.2 (invalid color) (you need to add some padding instead slice) Mar 19 '19 at 11:03
• you are right! But in all my life I have not met the value of Math.random() less than seven characters =)
– jt3k
Jan 14 '21 at 14:53

Here's a twist on the solution provided by @Anatoliy.

I needed to generate only light colours (for backgrounds), so I went with three letter (#AAA) format:

function get_random_color() {
var letters = 'ABCDE'.split('');
var color = '#';
for (var i=0; i<3; i++ ) {
color += letters[Math.floor(Math.random() * letters.length)];
}
return color;
}
• I think this is likely to produce most often colors that are closely similar although light. For a more Sparse range of random colors, I think @Anatoli's response is better for the most part
– Akah
Aug 28 '19 at 20:40

Use:

function random_color(format)
{
var rint = Math.round(0xffffff * Math.random());
switch(format)
{
case 'hex':
return ('#0' + rint.toString(16)).replace(/^#0([0-9a-f]{6})\$/i, '#\$1');
break;

case 'rgb':
return 'rgb(' + (rint >> 16) + ',' + (rint >> 8 & 255) + ',' + (rint & 255) + ')';
break;

default:
return rint;
break;
}
}

Updated version:

function random_color( format ){
var rint = Math.floor( 0x100000000 * Math.random());
switch( format ){
case 'hex':
return '#' + ('00000'   + rint.toString(16)).slice(-6).toUpperCase();
case 'hexa':
return '#' + ('0000000' + rint.toString(16)).slice(-8).toUpperCase();
case 'rgb':
return 'rgb('  + (rint & 255) + ',' + (rint >> 8 & 255) + ',' + (rint >> 16 & 255) + ')';
case 'rgba':
return 'rgba(' + (rint & 255) + ',' + (rint >> 8 & 255) + ',' + (rint >> 16 & 255) + ',' + (rint >> 24 & 255)/255 + ')';
default:
return rint;
}
}
• Maybe so; but to which site would you prefer the possible Google Adwords-revenue went? =) Sep 27 '09 at 21:29
• whichever site gives you the answer? if they provide you the answer, they should get the hits. Sep 27 '09 at 23:17
• @FunkyDude now this result is the top one on google & the reason stackoverflow exists is to not use google too often ;) Dec 29 '13 at 16:20

map

always returns a valid RGB color:

`rgb(\${[1,2,3].map(x=>Math.random()*256|0)})`

let c= `rgb(\${[1,2,3].map(x=>Math.random()*256|0)})`

console.log(c);
document.body.style.background=c

There are so many ways you can accomplish this. Here's some I did:

Short one-liner, guaranteed valid colors

'#'+(Math.random().toString(16)+'00000').slice(2,8)

Generates six random hex digits (0-F)

function randColor() {
for (var i=0, col=''; i<6; i++) {
col += (Math.random()*16|0).toString(16);
}
return '#'+col;
}

// ES6 one-liner version
[..."000000"].map(()=>Math.random().toString(16)).join("")

Generates individual HEX components (00-FF)

function randColor2() {
var r = ('0'+(Math.random()*256|0).toString(16)).slice(-2),
g = ('0'+(Math.random()*256|0).toString(16)).slice(-2),
b = ('0'+(Math.random()*256|0).toString(16)).slice(-2);
return '#' +r+g+b;
}

Over-engineered hex string (XORs 3 outputs together to form color)

function randColor3() {
var str = Math.random().toString(16) + Math.random().toString(16),
sg = str.replace(/0./g,'').match(/.{1,6}/g),
col = parseInt(sg, 16) ^
parseInt(sg, 16) ^
parseInt(sg, 16);
return '#' + ("000000" + col.toString(16)).slice(-6);
}
• extremley shor one-liner: when random returns 0.125 then result is #0.2 (invalid color) Mar 19 '19 at 11:23
• @KamilKiełczewski 0.125 = 3FC0000000000000 in IEEE hex. 3 hex digits are exponent, 13 are mantissa. There's a 1 in 4.5 quadrillion chance that mantissa is completely empty like that. I tested 100m times in both Firefox/Chrome. You are just trying to break it ;). Math.random should never give you 0.125. And if it does, there is a problem with the PRNG, which is not my problem. Fractions like 0.5, 0.25, 0.0625 etc. are useless, they contain no randomness. Perhaps you have a solution to this extreme edge case, hm? ;)
– bryc
Mar 19 '19 at 16:02
• yes '#'+Math.random().toString(16).split('.').slice(-6).padStart(6,0) but I prefer this Mar 19 '19 at 21:48
• Can you prove that Math.random() never gives such numbers (which in hex representation have less digits than 6 after dot) ? Can you explain what do you mean that 0.5 is less random that any other number? You say It is not your problem - yes, you are right - the problem have programmes which use your code unless you can provide proof (however in that case this will mean that there is something wrong with Math.random() because it exclude some 'special' numbers...) Jun 18 '20 at 10:07
• @KamilKiełczewski can you prove it does? feel free to run some tests. You manually cherry pick 0.125; I can cherry pick numbers too. 0.4999961853027344 will produce #.7fffc. You can easily manipulate mantissa and exponent to find these. My previous estimate "1 in 4.5 quadrillion" likely is wrong. However I am confident the probability of encountering these invalid outputs are extremely unlikely and not a concern. For these issues to happen, all 34 lower mantissa bits must be 0, thus the raw random u64 int must resemble 0x3FEFFFFC00000000. If any bit there is set, bug wont occur.
– bryc
Jun 18 '20 at 13:00
var color = "#";
for (k = 0; k < 3; k++) {
color += ("0" + (Math.random()*256|0).toString(16)).substr(-2);
}

A breakdown of how this works:

Math.random()*256 gets a random (floating point) number from 0 to 256 (0 to 255 inclusive)
Example result: 116.15200161933899

Adding the |0 strips off everything after the decimal point.
Ex: 116.15200161933899 -> 116

Using .toString(16) converts this number to hexadecimal (base 16).
Ex: 116 -> 74
Another ex: 228 -> e4

Adding "0" pads it with a zero. This will be important when we get the substring, since our final result must have two characters for each color.
Ex: 74 -> 074
Another ex: 8 -> 08

.substr(-2) gets just the last two characters.
Ex: 074 -> 74
Another ex: 08 -> 08 (if we hadn't added the "0", this would have produced "8" instead of "08")

The for loop runs this loop three times, adding each result to the color string, producing something like this:
#7408e4

'#' + ((1<<24)*(Math.random()+1)|0).toString(16).substr(1)

The top voted comment of the top answer suggests that Martin Ankerl's approach is better than random hex numbers, and although I haven't improved on Ankerl's methodology, I have successfully translated it to JavaScript.

I figured I'd post an additional answer to this already mega-sized Stack Overflow question because the top answer has another comment linking to a Gist with the JavaScript implementation of Ankerl's logic and that link is broken (404). If I had the reputation, I would have simply commented the jsbin link I created.

// http://jsfiddle.net/Mottie/xcqpF/1/light/
const rgb2hex = (rgb) => {
return (rgb && rgb.length === 3) ? "#" +
("0" + parseInt(rgb,10).toString(16)).slice(-2) +
("0" + parseInt(rgb,10).toString(16)).slice(-2) +
("0" + parseInt(rgb,10).toString(16)).slice(-2) : '';
}

// The next two methods are converted from Ruby to JavaScript.
// It is sourced from http://martin.ankerl.com/2009/12/09/how-to-create-random-colors-programmatically/

// # HSV values in [0..1[
// # returns [r, g, b] values from 0 to 255
const hsv_to_rgb = (h, s, v) => {
const h_i = Math.floor(h*6)
const f = h*6 - h_i
const p = v * (1 - s)
const q = v * (1 - (f * s))
const t = v * (1 - (1 - f) * s)
let r, g, b
switch(h_i) {
case(0):
[r, g, b] = [v, t, p]
break
case(1):
[r, g, b] = [q, v, p]
break
case(2):
[r, g, b] = [p, v, t]
break
case(3):
[r, g, b] = [p, q, v]
break
case(4):
[r, g, b] = [t, p, v]
break
case(5):
[r, g, b] = [v, p, q]
break
}
return [Math.floor(r * 256), Math.floor(g * 256), Math.floor(b * 256)]
}

// # Use the golden ratio
const golden_ratio_conjugate = 0.618033988749895
let h = Math.random() // # Use a random start value
const gen_hex = (numberOfColors) => {
const colorArray = []
while (numberOfColors > 0) {
h += golden_ratio_conjugate
h %= 1
colorArray.push(rgb2hex(hsv_to_rgb(h, 0.99, 0.99)))
numberOfColors -= 1
}
console.log(colorArray)
return colorArray
}

gen_hex(100)

https://jsbin.com/qeyevoj/edit?js,console

regexp

always returns a valid hex 6-digit color

"#xxxxxx".replace(/x/g, y=>(Math.random()*16|0).toString(16))

let c= "#xxxxxx".replace(/x/g, y=>(Math.random()*16|0).toString(16));

console.log(c);
document.body.style.background=c

So whilst all the answers here are good I wanted a bit more control over the output. For instance I'd like to prevent any near white shades, whilst ensuring I get bright vibrant colours not washed out shades.

function generateColor(ranges) {
if (!ranges) {
ranges = [
[150,256],
[0, 190],
[0, 30]
];
}
var g = function() {
//select random range and remove
var range = ranges.splice(Math.floor(Math.random()*ranges.length), 1);
//pick a random number from within the range
return Math.floor(Math.random() * (range - range)) + range;
}
return "rgb(" + g() + "," + g() + "," + g() +")";
};

So now I can specify 3 arbitrary ranges to pick rgb values from. You can call it with no arguments and get my default set which will usually generate a quite vibrant colour with once obvious dominant shade, or you can supply your own array of ranges.

• Google Map API supports only hexadecimal HTML color in the "#FFFFFF" format. Jul 2 '10 at 14:34
• Sure, pretty straightforward to convert a number to hex n.toString(16) only snag is you'll need to zero pad to make sure you get a two character return value from the inner g function. Jul 9 '10 at 10:57

You could use this simple function

function getRandomColor(){
var color =  "#" + (Math.random() * 0xFFFFFF << 0).toString(16);
return color;
}
• when random returns 0.001 the result is "#4189" (invalid color 4 digits) Mar 19 '19 at 11:35

For decent randomness.

Random alpha, random color.

Yet another random color generator:

var randomColor;
randomColor = Math.random() * 0x1000000; // 0 < randomColor < 0x1000000 (randomColor is a float)
randomColor = Math.floor(randomColor); // 0 < randomColor <= 0xFFFFFF (randomColor is an integer)
randomColor = randomColor.toString(16); // hex representation randomColor
randomColor = "#" + randomColor; // # added

Use distinct-colors.

It generates a palette of visually distinct colors.

distinct-colors is highly configurable:

• Choose how many colors are in the palette
• Restrict the hue to a specific range
• Restrict the chroma (saturation) to a specific range
• Restrict the lightness to a specific range
• Configure general quality of the palette
• 3541 lines of code..where other answers here are ~6-10 lines...i'm impressed how did somebody wrote so many lines of code just to pick distinct colors.. Feb 10 '16 at 17:25
• Picking truly visually distinct colors requires a lot more math than just a random color generator. Feb 10 '16 at 17:38
• I just did it in 2 lines.. modified this function: stackoverflow.com/a/20129594/104380 Feb 10 '16 at 17:39
• It's not that simple. suggested reading Feb 10 '16 at 17:42
• Thanks, very interesting article. my method always provides the same colors, and results are consistent and distinctive. I guess in some situations you might need really random, well distributed colors which are pretty to the human eye. Feb 10 '16 at 18:03

Array.prototype.reduce makes it very clean.

["r", "g", "b"].reduce(function(res) {
return res + ("0" + ~~(Math.random()*256).toString(16)).slice(-2)
}, "#")

It needs a shim for old browsers.

• in chrome console allways return #000000 Mar 19 '19 at 11:11
function get_random_color() {
return "#" + (Math.round(Math.random() * 0XFFFFFF)).toString(16);
}

http://jsfiddle.net/XmqDz/1/

I wanted to create very distinctive and vibrant colors (for graphing). For anything serious, hsl is a better method than rgb. If necessary, you can convert hsl to rgb as already mentioned by others.

Simple way:

• Create a random Hue from 0 to 360
• Create a random Saturation from 0.5 to 1 (or 50 to 100) for vividness
• Fix Lightness to 50% for best visibility.
color_generator = () => hsl (360*Math.random(), 0.5 + Math.random()/2, 0.5)

modified way

It creates a very nice spectrum of bright and vivid colors but the problem is that in usual color spectrum red, green, blue shades are way more dominant than yellow, cyan, and purple. So, I transformed the hue through acos function. The technical reason is very boring, so I skip it but you can dig in wiki.

color_generator = () => {
let color_section = Math.floor(Math.random()/0.33) // there are three section in full spectrum
let transformed_hue = Math.acos(2*Math.random() - 1)/3.14 // transform so secondary colors would be as dominant as the primary colors
let hue = 120*color_section + 120*transformed_hue
return hsl(hue, 0.5 + Math.random()/2, 0.5)
}

The result is the best color spectrum I had after experimenting with many other methods.

References:

My version:

function RandomColor() {
var hex = (Math.round(Math.random()*0xffffff)).toString(16);
while (hex.length < 6) hex = "0" + hex;
return hex;
}
• I think the not-random 0 makes the color not random enough XD May 22 '15 at 4:00
• We randonly generate a hexadecinal number from 0 to ffffff. Which is a perfect uniform distribution. That zero is only to complete string, because of browser usage considerations. I suggest you look more careful at this solution. May 22 '15 at 19:40
• I did make a few adjustments though, not linked to your comment :) May 22 '15 at 19:42
• Thanks Prostakov. :D May 23 '15 at 9:11

A bit enhanced one-liner to make the approach more vivid

'#' + Math.round((0x1000000 + 0xffffff * Math.random())).toString(16).slice(1)

Almost all of the previous short hand methods are generating invalid hex codes (five digits). I came across a similar technique only without that issue here:

"#"+(((1+Math.random())*(1<<24)|0).toString(16)).substr(-6)

Test

Try this in the console:

for(i = 0; i < 200; i++) {
console.log("#"+(((1+Math.random())*(1<<24)|0).toString(16)).substr(-6));
}
• I made a for-loop that ran this code 20000 times and only printed to the console if the length was less than 7, and I did find a case where the string was less than 6 characters. Also, one problem with this code is that it only pads the entire 6-digit string, not the individual 2-digit color codes, which means you're more likely to have zeroes in the red value than in the green or blue values. Mar 26 '13 at 3:46
• when random returns 0.00001 the result is "#000a7" (invalid color - 5 digits) Mar 19 '19 at 11:33