# HSL to RGB color conversion [closed]

I am looking for an algorithm to convert between HSL color to RGB.

It seems to me that HSL is not very widely used so I am not having much luck searching for a converter.

Garry Tan posted a JavaScript solution on his blog (which he attributes to a now defunct mjijackson.com, but is archived here and the original author has a gist - thanks to user2441511).

The code is re-posted below (updated for post-ES5 conventions):

## HSL to RGB:

``````const { abs, min, max, round } = Math;

/**
* Converts an HSL color value to RGB. Conversion formula
* Assumes h, s, and l are contained in the set [0, 1] and
* returns r, g, and b in the set [0, 255].
*
* @param   {number}  h       The hue
* @param   {number}  s       The saturation
* @param   {number}  l       The lightness
* @return  {Array}           The RGB representation
*/
function hslToRgb(h, s, l) {
let r, g, b;

if (s === 0) {
r = g = b = l; // achromatic
} else {
const q = l < 0.5 ? l * (1 + s) : l + s - l * s;
const p = 2 * l - q;
r = hueToRgb(p, q, h + 1/3);
g = hueToRgb(p, q, h);
b = hueToRgb(p, q, h - 1/3);
}

return [round(r * 255), round(g * 255), round(b * 255)];
}

function hueToRgb(p, q, t) {
if (t < 0) t += 1;
if (t > 1) t -= 1;
if (t < 1/6) return p + (q - p) * 6 * t;
if (t < 1/2) return q;
if (t < 2/3) return p + (q - p) * (2/3 - t) * 6;
return p;
}
``````

##RGB to HSL:

``````/**
* Converts an RGB color value to HSL. Conversion formula
* Assumes r, g, and b are contained in the set [0, 255] and
* returns h, s, and l in the set [0, 1].
*
* @param   {number}  r       The red color value
* @param   {number}  g       The green color value
* @param   {number}  b       The blue color value
* @return  {Array}           The HSL representation
*/
function rgbToHsl(r, g, b) {
(r /= 255), (g /= 255), (b /= 255);
const vmax = max(r, g, b), vmin = min(r, g, b);
let h, s, l = (vmax + vmin) / 2;

if (vmax === vmin) {
return [0, 0, l]; // achromatic
}

const d = vmax - vmin;
s = l > 0.5 ? d / (2 - vmax - vmin) : d / (vmax + vmin);
if (vmax === r) h = (g - b) / d + (g < b ? 6 : 0);
if (vmax === g) h = (b - r) / d + 2;
if (vmax === b) h = (r - g) / d + 4;
h /= 6;

return [h, s, l];
}
``````
• I'm trying to use this for a project, but my results are only coming out as grayscale. Is this a limitation of HSL<->RGB? The wikipedia article seems to suggest that only a single value is set to all 3 channels.
– Bill
Jan 14, 2014 at 17:58
• I'd like to point out that using `Math.round` introduces small inaccuracies at the low and high ends (values of 0 and 255) of the scale. Values that arent on the ends of the range can round either up or down to reach their value, but values can only be rounded down to 0, or up to 255. This means that the range of values that map to 0 and 255 are exactly half of those for other values. To fix this, use this formula instead: `min(floor(val*256),255)`. This makes the mapping nearly perfect. Feb 12, 2016 at 1:51
• Also, if you are getting grayscale values, It's probably because of the lines that use `h + 1/3` and `h - 1/3`. In many languages, this uses integer division, where `1/3` is zero. to get correct results, use float literals instead, ie.: `h + 1.0/3.0`. Feb 12, 2016 at 2:27
• The RGB to HSL function does not work. Here is an example of it not working: jsfiddle.net/fs5L02k0/2 and here is the function, fixed jsfiddle.net/t5nq6jjc/1 -- Formula adopted from: nl.wikipedia.org/wiki/… Jul 11, 2016 at 14:44
• @SubJunk - Read the description in the code: The input `h`, `s` and `l` values should between 0 and 1. You need to call `hslToRgb(0.447 /*161/360*/, 0.55, 0.63)`. Jan 23, 2018 at 12:39

Found the easiest way, python to the rescue :D

`colorsys.hls_to_rgb(h, l, s)`

Convert the color from HLS coordinates to RGB coordinates.

• I cannot believe there is such a standard module in Python! This really rescues me. I've been struggled with the convertion algorithm in Wikipedia's HSL entry for 2 hours. Seems that algorithm can not get right output.
– Ray
Sep 22, 2012 at 15:29
• Ruby equivalent: rubydoc.info/gems/color/1.8/Color/RGB e.g. `Color::HSL.new(40,50,60).to_rgb` Apr 18, 2016 at 11:40
• I use brython to get a color picker in the browser, this is just what I needed! Aug 10, 2016 at 17:30
• `hls_to_rgb` vectorization Oct 20 at 13:36

# Java implementation of Mohsen's code

Note that all integer are declared as float (i.e 1f) and must be float, else you will optain grey colors.

## HSL to RGB

`````` /**
* Converts an HSL color value to RGB. Conversion formula
* Assumes h, s, and l are contained in the set [0, 1] and
* returns r, g, and b in the set [0, 255].
*
* @param h       The hue
* @param s       The saturation
* @param l       The lightness
* @return int array, the RGB representation
*/
public static int[] hslToRgb(float h, float s, float l){
float r, g, b;

if (s == 0f) {
r = g = b = l; // achromatic
} else {
float q = l < 0.5f ? l * (1 + s) : l + s - l * s;
float p = 2 * l - q;
r = hueToRgb(p, q, h + 1f/3f);
g = hueToRgb(p, q, h);
b = hueToRgb(p, q, h - 1f/3f);
}
int[] rgb = {to255(r), to255(g), to255(b)};
return rgb;
}
public static int to255(float v) { return (int)Math.min(255,256*v); }

/** Helper method that converts hue to rgb */
public static float hueToRgb(float p, float q, float t) {
if (t < 0f)
t += 1f;
if (t > 1f)
t -= 1f;
if (t < 1f/6f)
return p + (q - p) * 6f * t;
if (t < 1f/2f)
return q;
if (t < 2f/3f)
return p + (q - p) * (2f/3f - t) * 6f;
return p;
}
``````

## RGB to HSL

``````/**
* Converts an RGB color value to HSL. Conversion formula
* Assumes pR, pG, and bpBare contained in the set [0, 255] and
* returns h, s, and l in the set [0, 1].
*
* @param pR       The red color value
* @param pG       The green color value
* @param pB       The blue color value
* @return float array, the HSL representation
*/
public static float[] rgbToHsl(int pR, int pG, int pB) {
float r = pR / 255f;
float g = pG / 255f;
float b = pB / 255f;

float max = (r > g && r > b) ? r : (g > b) ? g : b;
float min = (r < g && r < b) ? r : (g < b) ? g : b;

float h, s, l;
l = (max + min) / 2.0f;

if (max == min) {
h = s = 0.0f;
} else {
float d = max - min;
s = (l > 0.5f) ? d / (2.0f - max - min) : d / (max + min);

if (r > g && r > b)
h = (g - b) / d + (g < b ? 6.0f : 0.0f);

else if (g > b)
h = (b - r) / d + 2.0f;

else
h = (r - g) / d + 4.0f;

h /= 6.0f;
}

float[] hsl = {h, s, l};
return hsl;
}
``````

# Short but precise - JS

Use this JS code (more: rgb2hsl, hsv2rgb rgb2hsv and hsl2hsv) - php version here

``````// input: h as an angle in [0,360] and s,l in [0,1] - output: r,g,b in [0,1]
function hsl2rgb(h,s,l)
{
let a=s*Math.min(l,1-l);
let f= (n,k=(n+h/30)%12) => l - a*Math.max(Math.min(k-3,9-k,1),-1);
return [f(0),f(8),f(4)];
}
``````

``````// oneliner version
let hsl2rgb = (h,s,l, a=s*Math.min(l,1-l), f= (n,k=(n+h/30)%12) => l - a*Math.max(Math.min(k-3,9-k,1),-1)) => [f(0),f(8),f(4)];

// r,g,b are in [0-1], result e.g. #0812fa.
let rgb2hex = (r,g,b) => "#" + [r,g,b].map(x=>Math.round(x*255).toString(16).padStart(2,0) ).join('');

console.log(`hsl: (30,0.2,0.3) --> rgb: (\${hsl2rgb(30,0.2,0.3)}) --> hex: \${rgb2hex(...hsl2rgb(30,0.2,0.3))}`);

// ---------------
// UX
// ---------------

rgb= [0,0,0];
hs= [0,0,0];

let \$ = x => document.querySelector(x);

function changeRGB(i,e) {
rgb[i]=e.target.value/255;
hs = rgb2hsl(...rgb);
refresh();
}

function changeHS(i,e) {
hs[i]=e.target.value/(i?255:1);
rgb= hsl2rgb(...hs);
refresh();
}

function refresh() {
rr = rgb.map(x=>x*255|0).join(', ')
hh = rgb2hex(...rgb);
tr = `RGB: \${rr}`
th = `HSL: \${hs.map((x,i)=>i? (x*100).toFixed(2)+'%':x|0).join(', ')}`
thh= `HEX: \${hh}`
\$('.box').style.backgroundColor=`rgb(\${rr})`;
\$('.infoRGB').innerHTML=`\${tr}`;
\$('.infoHS').innerHTML =`\${th}\n\${thh}`;

\$('#r').value=rgb*255;
\$('#g').value=rgb*255;
\$('#b').value=rgb*255;

\$('#h').value=hs;
\$('#s').value=hs*255;
\$('#l').value=hs*255;
}

function rgb2hsl(r,g,b) {
let a=Math.max(r,g,b), n=a-Math.min(r,g,b), f=(1-Math.abs(a+a-n-1));
let h= n && ((a==r) ? (g-b)/n : ((a==g) ? 2+(b-r)/n : 4+(r-g)/n));
return [60*(h<0?h+6:h), f ? n/f : 0, (a+a-n)/2];
}

refresh();``````
``````.box {
width: 50px;
height: 50px;
margin: 20px;
}

body {
display: flex;
}``````
``````<div>
<input id="r" type="range" min="0" max="255" oninput="changeRGB(0,event)">R<br>
<input id="g" type="range" min="0" max="255" oninput="changeRGB(1,event)">G<br>
<input id="b" type="range" min="0" max="255" oninput="changeRGB(2,event)">B<br>
<pre class="infoRGB"></pre>
</div>

<div>
<div class="box hsl"></div>

</div>

<div>
<input id="h" type="range" min="0" max="360" oninput="changeHS(0,event)">H<br>
<input id="s" type="range" min="0" max="255" oninput="changeHS(1,event)">S<br>
<input id="l" type="range" min="0" max="255" oninput="changeHS(2,event)">L<br>
<pre class="infoHS"></pre><br>
</div>``````

Here is formula which I discover and precisely describe in wiki + error analysis, • Excellent answer. I translated it to Python for a small project and it worked beautifully. Oct 28, 2020 at 16:51

If you're looking for something that definitely conforms with the CSS semantics for HSL and RGB, you could use the algorithm specified in the CSS 3 specification, which reads:

``````HOW TO RETURN hsl.to.rgb(h, s, l):
SELECT:
l<=0.5: PUT l*(s+1) IN m2
ELSE: PUT l+s-l*s IN m2
PUT l*2-m2 IN m1
PUT hue.to.rgb(m1, m2, h+1/3) IN r
PUT hue.to.rgb(m1, m2, h    ) IN g
PUT hue.to.rgb(m1, m2, h-1/3) IN b
RETURN (r, g, b)

HOW TO RETURN hue.to.rgb(m1, m2, h):
IF h<0: PUT h+1 IN h
IF h>1: PUT h-1 IN h
IF h*6<1: RETURN m1+(m2-m1)*h*6
IF h*2<1: RETURN m2
IF h*3<2: RETURN m1+(m2-m1)*(2/3-h)*6
RETURN m1
``````

I believe this is the source for some of the other answers here.

# C# Code from Mohsen's answer.

Here is the code from Mohsen's answer in C# if anyone else wants it. Note: `Color` is a custom class and `Vector4` is from OpenTK. Both are easy to replace with something else of your choosing.

## Hsl To Rgba

``````/// <summary>
/// Converts an HSL color value to RGB.
/// Input: Vector4 ( X: [0.0, 1.0], Y: [0.0, 1.0], Z: [0.0, 1.0], W: [0.0, 1.0] )
/// Output: Color ( R: [0, 255], G: [0, 255], B: [0, 255], A: [0, 255] )
/// </summary>
/// <param name="hsl">Vector4 defining X = h, Y = s, Z = l, W = a. Ranges [0, 1.0]</param>
/// <returns>RGBA Color. Ranges [0, 255]</returns>
public static Color HslToRgba(Vector4 hsl)
{
float r, g, b;

if (hsl.Y == 0.0f)
r = g = b = hsl.Z;

else
{
var q = hsl.Z < 0.5f ? hsl.Z * (1.0f + hsl.Y) : hsl.Z + hsl.Y - hsl.Z * hsl.Y;
var p = 2.0f * hsl.Z - q;
r = HueToRgb(p, q, hsl.X + 1.0f / 3.0f);
g = HueToRgb(p, q, hsl.X);
b = HueToRgb(p, q, hsl.X - 1.0f / 3.0f);
}

return new Color((int)(r * 255), (int)(g * 255), (int)(b * 255), (int)(hsl.W * 255));
}

// Helper for HslToRgba
private static float HueToRgb(float p, float q, float t)
{
if (t < 0.0f) t += 1.0f;
if (t > 1.0f) t -= 1.0f;
if (t < 1.0f / 6.0f) return p + (q - p) * 6.0f * t;
if (t < 1.0f / 2.0f) return q;
if (t < 2.0f / 3.0f) return p + (q - p) * (2.0f / 3.0f - t) * 6.0f;
return p;
}
``````

## Rgba To Hsl

``````/// <summary>
/// Converts an RGB color value to HSL.
/// Input: Color ( R: [0, 255], G: [0, 255], B: [0, 255], A: [0, 255] )
/// Output: Vector4 ( X: [0.0, 1.0], Y: [0.0, 1.0], Z: [0.0, 1.0], W: [0.0, 1.0] )
/// </summary>
/// <param name="rgba"></param>
/// <returns></returns>
public static Vector4 RgbaToHsl(Color rgba)
{
float r = rgba.R / 255.0f;
float g = rgba.G / 255.0f;
float b = rgba.B / 255.0f;

float max = (r > g && r > b) ? r : (g > b) ? g : b;
float min = (r < g && r < b) ? r : (g < b) ? g : b;

float h, s, l;
h = s = l = (max + min) / 2.0f;

if (max == min)
h = s = 0.0f;

else
{
float d = max - min;
s = (l > 0.5f) ? d / (2.0f - max - min) : d / (max + min);

if (r > g && r > b)
h = (g - b) / d + (g < b ? 6.0f : 0.0f);

else if (g > b)
h = (b - r) / d + 2.0f;

else
h = (r - g) / d + 4.0f;

h /= 6.0f;
}

return new Vector4(h, s, l, rgba.A / 255.0f);
}
``````

This is how I do it which is easy to remember is to think of RGB as three spokes on a wheel, 120 degrees apart.

``````H = hue (0-360)
S = saturation (0-1)
L = luminance (0-1)

R1 = SIN( H ) * L
G1 = SIN( H + 120 ) * L
B1 = SIN( H + 240 ) * L
``````

The tricky part is saturation, which is to a scale down to the average of those three.

``````AVERAGE = (R1 + G1 + B1) / 3

R2 = ((R1 - AVERAGE) * S) + AVERAGE
G2 = ((G1 - AVERAGE) * S) + AVERAGE
B2 = ((B1 - AVERAGE) * S) + AVERAGE

RED = R2 * 255
GREEN = G2 * 255
BLUE = B2 * 255
``````
• @JoelFan - It is simple but not correct. There is no way for pure rational expressions (with only `+`, `-`, `*`, and `/`) - as are used by definition for color conversions - to express them with the help of the `sine` functions with the same independent (input) variables. In spite of this it is nice for understanding the principle (but not for perform conversions). Dec 31, 2016 at 23:07
• The problem with this solution is that AVERAGE is allways equal ZERO: `(R1 + G1 + B1) = L*[ SIN(H) + SIN(H+120) + SIN(H+240) ]` - and now if we use formula `sin(a)+sin(b) = 2*sin((a+b)/2)*cos((a-b)/2)` for first two sin we get: `AVERAGE=L*( sin(h+60) + sin(h+240) )` and again `AVERAGE= L*2*sin(h+150)*cos(-180/2) = 0` (since cos(-180/2)=cos(90)=0). So calculation for saturation is wrong and in fact saturation works here as luminance. Dec 29, 2018 at 14:24
• @JoelFan The second problem with this solution is that we need to add 180 degree to H to have "compatible" version with en.wikipedia.org/wiki/HSL_and_HSV#Converting_to_RGB (test case: red color for H=0) but also it is still problem with number of colors - in above solution the yellow, magenta and cyan colors are ommit and/or mapped in wrong way. There is js fiddle with comparision: jsfiddle.net/Lamik/9s24uc1o/10 Jan 2, 2019 at 13:32

#Php Implementation of Chris's C# Code

Also from here, which explains the math of it very well.

This is basically a bunch of functions to convert to and from HSL (Hue Saturation Lightness)

Tested and working on PHP 5.6.15

TL;DR: The full code can be found here on Pastebin.

##Hex to HSL Input: Hex color in format: [#]0f4 or [#]00ff44 (pound sign optional)
Output: HSL in Degrees, Percent, Percent

``````/**
* Input: hex color
* Output: hsl(in ranges from 0-1)
*
* Takes the hex, converts it to RGB, and sends
* it to RGBToHsl.  Returns the output.
*
*/
function hexToHsl(\$hex) {
\$r = "";
\$g = "";
\$b = "";

\$hex = str_replace('#', '', \$hex);

if (strlen(\$hex) == 3) {
\$r = substr(\$hex, 0, 1);
\$r = \$r . \$r;
\$g = substr(\$hex, 1, 1);
\$g = \$g . \$g;
\$b = substr(\$hex, 2, 1);
\$b = \$b . \$b;
} elseif (strlen(\$hex) == 6) {
\$r = substr(\$hex, 0, 2);
\$g = substr(\$hex, 2, 2);
\$b = substr(\$hex, 4, 2);
} else {
return false;
}

\$r = hexdec(\$r);
\$g = hexdec(\$g);
\$b = hexdec(\$b);

\$hsl =  rgbToHsl(\$r,\$g,\$b);
return \$hsl;
}
``````

## RGB to HSL

Input: RGB in range 0-255 Output: HSL in Degrees, Percent, Percent.

``````/**
*
*Credits:
* https://stackoverflow.com/questions/4793729/rgb-to-hsl-and-back-calculation-problems
* http://www.niwa.nu/2013/05/math-behind-colorspace-conversions-rgb-hsl/
*
* Called by hexToHsl by default.
*
* Converts an RGB color value to HSL. Conversion formula
* Assumes r, g, and b are contained in the range [0 - 255] and
* returns h, s, and l in the format Degrees, Percent, Percent.
*
* @param   Number  r       The red color value
* @param   Number  g       The green color value
* @param   Number  b       The blue color value
* @return  Array           The HSL representation
*/
function rgbToHsl(\$r, \$g, \$b){
//For the calculation, rgb needs to be in the range from 0 to 1. To convert, divide by 255 (ff).
\$r /= 255;
\$g /= 255;
\$b /= 255;

\$myMax = max(\$r, \$g, \$b);
\$myMin = min(\$r, \$g, \$b);

\$maxSub = (\$myMax - \$myMin);

//luminence is (max + min)/2
\$h = 0;
\$s = 0;

//if all the numbers are equal, there is no saturation (greyscale).
if(\$myMin != \$myMax){
if (\$l < 0.5) {
} else {
\$s = (2.0 - \$myMax - \$myMin); //note order of opperations - can't use \$maxSub here
\$s = (\$maxSub / \$s);
}

//find hue
switch(\$myMax){
case \$r:
\$h = (\$g - \$b);
\$h = (\$h / \$maxSub);
break;
case \$g:
\$h = (\$b - \$r);
\$h = (\$h / \$maxSub);
\$h = (\$h + 2.0);
break;
case \$b:
\$h = (\$r - \$g);
\$h = (\$h / \$maxSub);
\$h = (\$h + 4.0);
break;
}
}

\$hsl = hslToDegPercPerc(\$h, \$s, \$l);
return \$hsl;
}
``````

##HSL (0-1 range) to Degrees, Percent, Percent format

For the math calculations, HSL is easier to deal with in the 0-1 range, but for human readability, it's easier in Degrees, Percent, Percent. This function takes HSL in the ranges 0-1, and returns HSL in Degrees, Percent, Percent.

``````/**
* Input: HSL in ranges 0-1.
* Output: HSL in format Deg, Perc, Perc.
*
* Note: rgbToHsl calls this function by default.
*
* Multiplies \$h by 60, and \$s and \$l by 100.
*/
function hslToDegPercPerc(\$h, \$s, \$l) {
//convert h to degrees
\$h *= 60;

if (\$h < 0) {
\$h += 360;
}

//convert s and l to percentage
\$s *= 100;
\$l *= 100;

\$hsl['h'] = \$h;
\$hsl['s'] = \$s;
\$hsl['l'] = \$l;
return \$hsl;
}
``````

##HSL (Degrees, Percent, Percent format) to HSL in range 0-1

This function converts HSL in the format Degrees, Percent, Percent, to the ranges 0-1 for easier computing.

``````/**
* Input: HSL in format Deg, Perc, Perc
* Output: An array containing HSL in ranges 0-1
*
* Divides \$h by 60, and \$s and \$l by 100.
*
* hslToRgb calls this by default.
*/
function degPercPercToHsl(\$h, \$s, \$l) {
//convert h, s, and l back to the 0-1 range

//convert the hue's 360 degrees in a circle to 1
\$h /= 360;

//convert the saturation and lightness to the 0-1
//range by multiplying by 100
\$s /= 100;
\$l /= 100;

\$hsl['h'] =  \$h;
\$hsl['s'] = \$s;
\$hsl['l'] = \$l;

return \$hsl;
}
``````

##HSL to RGB

Input: HSL in the format Degrees, Percent, Percent Output: RGB in the format `255, 255, 255`.

``````/**
* Converts an HSL color value to RGB. Conversion formula
* Assumes h, s, and l are in the format Degrees,
* Percent, Percent, and returns r, g, and b in
* the range [0 - 255].
*
* Called by hslToHex by default.
*
* Calls:
*   degPercPercToHsl
*   hueToRgb
*
* @param   Number  h       The hue value
* @param   Number  s       The saturation level
* @param   Number  l       The luminence
* @return  Array           The RGB representation
*/
function hslToRgb(\$h, \$s, \$l){
\$hsl = degPercPercToHsl(\$h, \$s, \$l);
\$h = \$hsl['h'];
\$s = \$hsl['s'];
\$l = \$hsl['l'];

//If there's no saturation, the color is a greyscale,
//so all three RGB values can be set to the lightness.
//(Hue doesn't matter, because it's grey, not color)
if (\$s == 0) {
\$r = \$l * 255;
\$g = \$l * 255;
\$b = \$l * 255;
}
else {
//calculate some temperary variables to make the
//calculation eaisier.
if (\$l < 0.5) {
\$temp2 = \$l * (1 + \$s);
} else {
\$temp2 = (\$l + \$s) - (\$s * \$l);
}
\$temp1 = 2 * \$l - \$temp2;

//run the calculated vars through hueToRgb to
//calculate the RGB value.  Note that for the Red
//the hue to the correct section of the circle for
//red.  Simalarly, for blue, we subtract 1/3.
\$r = 255 * hueToRgb(\$temp1, \$temp2, \$h + (1 / 3));
\$g = 255 * hueToRgb(\$temp1, \$temp2, \$h);
\$b = 255 * hueToRgb(\$temp1, \$temp2, \$h - (1 / 3));
}

\$rgb['r'] = \$r;
\$rgb['g'] = \$g;
\$rgb['b'] = \$b;

return \$rgb;
}
``````

###Hue to RGB

This function is called by hslToRgb to convert the hue into the separate RGB values.

``````/**
* Converts an HSL hue to it's RGB value.
*
* Input: \$temp1 and \$temp2 - temperary vars based on
* whether the lumanence is less than 0.5, and
* calculated using the saturation and luminence
* values.
*  \$hue - the hue (to be converted to an RGB
* value)  For red, add 1/3 to the hue, green
* leave it alone, and blue you subtract 1/3
* from the hue.
*
* Output: One RGB value.
*
* Thanks to Easy RGB for this function (Hue_2_RGB).
* http://www.easyrgb.com/index.php?X=MATH&\$h=19#text19
*
*/
function hueToRgb(\$temp1, \$temp2, \$hue) {
if (\$hue < 0) {
\$hue += 1;
}
if (\$hue > 1) {
\$hue -= 1;
}

if ((6 * \$hue) < 1 ) {
return (\$temp1 + (\$temp2 - \$temp1) * 6 * \$hue);
} elseif ((2 * \$hue) < 1 ) {
return \$temp2;
} elseif ((3 * \$hue) < 2 ) {
return (\$temp1 + (\$temp2 - \$temp1) * ((2 / 3) - \$hue) * 6);
}
return \$temp1;
}
``````

##HSL to Hex

Input: HSL in format Degrees, Percent, Percent Output: Hex in format `00ff22` (no pound sign).

Converts to RGB, then converts separately to hex.

``````/**
* Converts HSL to Hex by converting it to
* RGB, then converting that to hex.
*
* string hslToHex(\$h, \$s, \$l[, \$prependPound = true]
*
* \$h is the Degrees value of the Hue
* \$s is the Percentage value of the Saturation
* \$l is the Percentage value of the Lightness
* \$prependPound is a bool, whether you want a pound
*  sign prepended. (optional - default=true)
*
* Calls:
*   hslToRgb
*
* Output: Hex in the format: #00ff88 (with
* pound sign).  Rounded to the nearest whole
* number.
*/
function hslToHex(\$h, \$s, \$l, \$prependPound = true) {
//convert hsl to rgb
\$rgb = hslToRgb(\$h,\$s,\$l);

//convert rgb to hex
\$hexR = \$rgb['r'];
\$hexG = \$rgb['g'];
\$hexB = \$rgb['b'];

//round to the nearest whole number
\$hexR = round(\$hexR);
\$hexG = round(\$hexG);
\$hexB = round(\$hexB);

//convert to hex
\$hexR = dechex(\$hexR);
\$hexG = dechex(\$hexG);
\$hexB = dechex(\$hexB);

//check for a non-two string length
//if it's 1, we can just prepend a
//0, but if it is anything else non-2,
//it must return false, as we don't
//know what format it is in.
if (strlen(\$hexR) != 2) {
if (strlen(\$hexR) == 1) {
//probably in format #0f4, etc.
\$hexR = "0" . \$hexR;
} else {
//unknown format
return false;
}
}
if (strlen(\$hexG) != 2) {
if (strlen(\$hexG) == 1) {
\$hexG = "0" . \$hexG;
} else {
return false;
}
}
if (strlen(\$hexB) != 2) {
if (strlen(\$hexB) == 1) {
\$hexB = "0" . \$hexB;
} else {
return false;
}
}

//if prependPound is set, will prepend a
//# sign to the beginning of the hex code.
//(default = true)
\$hex = "";
if (\$prependPound) {
\$hex = "#";
}

\$hex = \$hex . \$hexR . \$hexG . \$hexB;

return \$hex;
}
``````
• I made an edit to `rgbToHsl`, you may want to update your php code. There was/is a bug in the code. In rgbToHsl() `s = maxSub / (2 - maxSub)` should be `s = maxSub / (2 - maxAdd)`
– Lex
Dec 18, 2016 at 2:57
• @Lex According to here and here, my code actually is correct. I think you might be confusing the `if l < 0.5` with the `else`. Could you explain your thinking? Thanks for taking the time to give feedback though! Dec 19, 2016 at 17:10
• sorry, you're right, but there is still an order of operations issue. #8cd08c to HSL using this calc `(2 - maxSub) = 1.7333333333333334` when it should be as in the second link example `( 2 - max - min ) = 0.6352941176470588`. Using `2 - maxAdd` got me consistently closer to photoshops output so I assumed it was correct.
– Lex
Dec 20, 2016 at 23:39
• Oh, ok. Thanks for pointing that out! I fixed it now. Hope this is helpful! Dec 21, 2016 at 17:10
• Its really helpful, I've been in the process of converting it to JS github.com/bambii7/glow
– Lex
Dec 21, 2016 at 21:01

Here's a fast, super-simple, branchless version in GLSL:

``````vec3 hsl2rgb( vec3 c ) {
vec3 rgb = clamp(abs(mod(c.x*6.0 + vec3(0.0, 4.0, 2.0), 6.0)-3.0)-1.0, 0.0, 1.0);
return c.z + c.y * (rgb-0.5)*(1.0-abs(2.0*c.z-1.0));
}
``````

Doesn't get much shorter than that ~

(Disclaimer: not my code!)

Here is the modified javascript function, it outputs Hue in set 0-360 degrees.

``````function rgbToHsl(r, g, b) {
r /= 255, g /= 255, b /= 255;
var max = Math.max(r, g, b), min = Math.min(r, g, b);
var h, s, l = (max + min) / 2;

if(max == min){
h = s = 0; // achromatic
} else {
var d = max - min;
s = l > 0.5 ? d / (2 - max - min) : d / (max + min);
switch(max){
case r: h = (g - b) / d ; break;
case g: h = 2 + ( (b - r) / d); break;
case b: h = 4 + ( (r - g) / d); break;
}
h*=60;
if (h < 0) h +=360;
}
return([h, s, l]);
}
``````

I got this from Brandon Mathis' HSL Picker source code.

It was originally written in CoffeeScript. I converted it to JavaScript using an online converter, and took out the mechanism to verify the user input was a valid RGB value. This answer worked for my usecase, as the most up-voted answer on this post I found to not produce a valid HSL value.

Note that it returns an `hsla` value, with `a` representing opacity/transparency. `0` is completely transparent, and `1` fully opaque.

``````function rgbToHsl(rgb) {
var a, add, b, diff, g, h, hue, l, lum, max, min, r, s, sat;
r = parseFloat(rgb) / 255;
g = parseFloat(rgb) / 255;
b = parseFloat(rgb) / 255;
max = Math.max(r, g, b);
min = Math.min(r, g, b);
diff = max - min;
hue = min === max ? 0 : r === max ? ((60 * (g - b) / diff) + 360) % 360 : g === max ? (60 * (b - r) / diff) + 120 : (60 * (r - g) / diff) + 240;
sat = lum === 0 ? 0 : lum === 1 ? 1 : lum <= 0.5 ? diff / add : diff / (2 - add);
h = Math.round(hue);
s = Math.round(sat * 100);
l = Math.round(lum * 100);
a = parseFloat(rgb) || 1;
return [h, s, l, a];
}
``````
• I used this as a basis for a Python method. Thanks. Mar 27, 2019 at 3:20
• this is not HSL to RGB as the poster asks
– bryc
Feb 28, 2020 at 9:00

An hsl|a color value, set in javascript, will be instantly converted to rgb|a All you need to do then is access the computed style value

``````document.body.style.color = 'hsla(44, 100%, 50%, 0.8)';

console.log(window.getComputedStyle(document.body).color);

// displays: rgba(255, 187, 0, 0.8)
``````

Technically, I guess, this isn't even any lines of code - it's just done automatically. So, depending on your environment, you might be able to get away with just this. Not that there aren't a lot of very thoughtful responses here. I don't know what your goal is.

Now, what if you want to convert from rbg|a to hsl|a?

# HSL to RGB in Typescript

All the options above didn't work on my code in TS.

I tweak one of those and now it works as a charm:

``````type HslType = { h: number; s: number; l: number }

const hslToRgb = (hsl: HslType): RgbType => {
let { h, s, l } = hsl

// IMPORTANT if s and l between 0,1 remove the next two lines:
s /= 100
l /= 100

const k = (n: number) => (n + h / 30) % 12
const a = s * Math.min(l, 1 - l)
const f = (n: number) =>
l - a * Math.max(-1, Math.min(k(n) - 3, Math.min(9 - k(n), 1)))
return {
r: Math.round(255 * f(0)),
g: Math.round(255 * f(8)),
b: Math.round(255 * f(4)),
}
}
``````

With H, S,and L in [0,1] range:

``````ConvertHslToRgb: function (iHsl)
{
var min, sv, sextant, fract, vsf;

var v = (iHsl.l <= 0.5) ? (iHsl.l * (1 + iHsl.s)) : (iHsl.l + iHsl.s - iHsl.l * iHsl.s);
if (v === 0)
return { Red: 0, Green: 0, Blue: 0 };

min = 2 * iHsl.l - v;
sv = (v - min) / v;
var h = (6 * iHsl.h) % 6;
sextant = Math.floor(h);
fract = h - sextant;
vsf = v * sv * fract;

switch (sextant)
{
case 0: return { r: v, g: min + vsf, b: min };
case 1: return { r: v - vsf, g: v, b: min };
case 2: return { r: min, g: v, b: min + vsf };
case 3: return { r: min, g: v - vsf, b: v };
case 4: return { r: min + vsf, g: min, b: v };
case 5: return { r: v, g: min, b: v - vsf };
}
}
``````

For when you need RGB to HSV and vice versa instead:

``````function rgbToHsv(r, g, b)
{
r /= 255, g /= 255, b /= 255;

var min = Math.min(r, g, b),
max = Math.max(r, g, b),
delta = max - min,
h = 0, s = 0, v = max;

if (min != max)
{
s = (delta / max);

switch (max)
{
case r: h = (g - b) / delta + (g < b ? 6 : 0); break;
case g: h = (b - r) / delta + 2; break;
case b: h = (r - g) / delta + 4; break;
}

h /= 6;
}

return [h, s, v];
}

function hsvToRgb(h, s, v)
{
var step = h / (1 / 6),
pos = step - Math.floor(step), // the hue position within the current step
m = (Math.floor(step) % 2) ? (1 - pos) * v : pos * v, // mix color value adjusted to the brightness(v)
max = 1 * v,
min = (1 - s) * v,
med = m + ((1 - s) * (v - m)),
r, g, b;

switch (Math.floor(step))
{
case 0:
r = max;
g = med;
b = min;
break;
case 1:
r = med;
g = max;
b = min;
break;
case 2:
r = min;
g = max;
b = med;
break;
case 3:
r = min;
g = med;
b = max;
break;
case 4:
r = med;
g = min;
b = max;
break;
case 5:
r = max;
g = min;
b = med;
break;
}

return [Math.round(r * 255), Math.round(g * 255), Math.round(b * 255)];
}
``````

Unity3D C# Code from Mohsen's answer.

Here is the code from Mohsen's answer in C# targeted specifically for Unity3D. It was adapted from the C# answer given by Alec Thilenius above.

``````using UnityEngine;
using System.Collections;

public class ColorTools {

/// <summary>
/// Converts an HSL color value to RGB.
/// Input: Vector4 ( X: [0.0, 1.0], Y: [0.0, 1.0], Z: [0.0, 1.0], W: [0.0, 1.0] )**strong text**
/// Output: Color ( R: [0.0, 1.0], G: [0.0, 1.0], B: [0.0, 1.0], A: [0.0, 1.0] )
/// </summary>
/// <param name="hsl">Vector4 defining X = h, Y = s, Z = l, W = a. Ranges [0, 1.0]</param>
/// <returns>RGBA Color. Ranges [0.0, 1.0]</returns>
public static Color HslToRgba(Vector4 hsl)
{
float r, g, b;

if (hsl.y == 0.0f)
r = g = b = hsl.z;
else
{
var q = hsl.z < 0.5f ? hsl.z * (1.0f + hsl.y) : hsl.z + hsl.y - hsl.z * hsl.y;
var p = 2.0f * hsl.z - q;
r = HueToRgb(p, q, hsl.x + 1.0f / 3.0f);
g = HueToRgb(p, q, hsl.x);
b = HueToRgb(p, q, hsl.x - 1.0f / 3.0f);
}

return new Color(r, g, b, hsl.w);
}

// Helper for HslToRgba
private static float HueToRgb(float p, float q, float t)
{
if (t < 0.0f) t += 1.0f;
if (t > 1.0f) t -= 1.0f;
if (t < 1.0f / 6.0f) return p + (q - p) * 6.0f * t;
if (t < 1.0f / 2.0f) return q;
if (t < 2.0f / 3.0f) return p + (q - p) * (2.0f / 3.0f - t) * 6.0f;
return p;
}

/// <summary>
/// Converts an RGB color value to HSL.
/// Input: Color ( R: [0.0, 1.0], G: [0.0, 1.0], B: [0.0, 1.0], A: [0.0, 1.0] )
/// Output: Vector4 ( X: [0.0, 1.0], Y: [0.0, 1.0], Z: [0.0, 1.0], W: [0.0, 1.0] )
/// </summary>
/// <param name="rgba"></param>
/// <returns></returns>
public static Vector4 RgbaToHsl(Color rgba)
{

float max = (rgba.r > rgba.g && rgba.r > rgba.b) ? rgba.r :
(rgba.g > rgba.b) ? rgba.g : rgba.b;
float min = (rgba.r < rgba.g && rgba.r < rgba.b) ? rgba.r :
(rgba.g < rgba.b) ? rgba.g : rgba.b;

float h, s, l;
h = s = l = (max + min) / 2.0f;

if (max == min)
h = s = 0.0f;
else
{
float d = max - min;
s = (l > 0.5f) ? d / (2.0f - max - min) : d / (max + min);

if (rgba.r > rgba.g && rgba.r > rgba.b)
h = (rgba.g - rgba.b) / d + (rgba.g < rgba.b ? 6.0f : 0.0f);

else if (rgba.g > rgba.b)
h = (rgba.b - rgba.r) / d + 2.0f;

else
h = (rgba.r - rgba.g) / d + 4.0f;

h /= 6.0f;
}

return new Vector4(h, s, l, rgba.a);
}

}
``````

For all who said that Garry Tan solution converting incorrect from RGB to HSL and back. It because he left out fraction part of number in his code. I corrected his code (javascript). Sorry for link on russian languadge, but on english absent - HSL-wiki

``````function toHsl(r, g, b)
{
r /= 255.0;
g /= 255.0;
b /= 255.0;
var max = Math.max(r, g, b);
var min = Math.min(r, g, b);
var h, s, l = (max + min) / 2.0;

if(max == min)
{
h = s = 0;
}
else
{
var d = max - min;
s = (l > 0.5 ? d / (2.0 - max - min) : d / (max + min));

if(max == r && g >= b)
{
h = 1.0472 * (g - b) / d ;
}
else if(max == r && g < b)
{
h = 1.0472 * (g - b) / d + 6.2832;
}
else if(max == g)
{
h = 1.0472 * (b - r) / d + 2.0944;
}
else if(max == b)
{
h = 1.0472 * (r - g) / d + 4.1888;
}
}
return {
str: 'hsl(' + parseInt(h / 6.2832 * 360.0 + 0.5) + ',' + parseInt(s * 100.0 + 0.5) + '%,' + parseInt(l * 100.0 + 0.5) + '%)',
obj: { h: parseInt(h / 6.2832 * 360.0 + 0.5), s: parseInt(s * 100.0 + 0.5), l: parseInt(l * 100.0 + 0.5) }
};
};
``````

# PHP implementation of @Mohsen's code (including Test!)

Sorry to re-post this. But I really haven't seen any other implementation that gives the quality I needed.

``````/**
* Converts an HSL color value to RGB. Conversion formula
* Assumes h, s, and l are contained in the set [0, 1] and
* returns r, g, and b in the set [0, 255].
*
* @param   {number}  h       The hue
* @param   {number}  s       The saturation
* @param   {number}  l       The lightness
* @return  {Array}           The RGB representation
*/

function hue2rgb(\$p, \$q, \$t){
if(\$t < 0) \$t += 1;
if(\$t > 1) \$t -= 1;
if(\$t < 1/6) return \$p + (\$q - \$p) * 6 * \$t;
if(\$t < 1/2) return \$q;
if(\$t < 2/3) return \$p + (\$q - \$p) * (2/3 - \$t) * 6;
return \$p;
}
function hslToRgb(\$h, \$s, \$l){
if(\$s == 0){
\$r = \$l;
\$g = \$l;
\$b = \$l; // achromatic
}else{
\$q = \$l < 0.5 ? \$l * (1 + \$s) : \$l + \$s - \$l * \$s;
\$p = 2 * \$l - \$q;
\$r = hue2rgb(\$p, \$q, \$h + 1/3);
\$g = hue2rgb(\$p, \$q, \$h);
\$b = hue2rgb(\$p, \$q, \$h - 1/3);
}

return array(round(\$r * 255), round(\$g * 255), round(\$b * 255));
}

/* Uncomment to test * /
for (\$i=0;\$i<360;\$i++) {
\$rgb=hslToRgb(\$i/360, 1, .9);
echo '<div style="background-color:rgb(' .\$rgb . ', ' . \$rgb . ', ' . \$rgb . ');padding:2px;"></div>';
}
/* End Test */
``````

C++ implementation with probably better performance than @Mohsen code. It uses a [0-6] range for the hue, avoiding the division and multiplication by 6. S and L range is [0,1]

``````void fromRGBtoHSL(float rgb[], float hsl[])
{
const float maxRGB = max(rgb, max(rgb, rgb));
const float minRGB = min(rgb, min(rgb, rgb));
const float delta2 = maxRGB + minRGB;
hsl = delta2 * 0.5f;

const float delta = maxRGB - minRGB;
if (delta < FLT_MIN)
hsl = hsl = 0.0f;
else
{
hsl = delta / (hsl > 0.5f ? 2.0f - delta2 : delta2);
if (rgb >= maxRGB)
{
hsl = (rgb - rgb) / delta;
if (hsl < 0.0f)
hsl += 6.0f;
}
else if (rgb >= maxRGB)
hsl = 2.0f + (rgb - rgb) / delta;
else
hsl = 4.0f + (rgb - rgb) / delta;
}
}

void fromHSLtoRGB(const float hsl[], float rgb[])
{
if(hsl < FLT_MIN)
rgb = rgb = rgb = hsl;
else if(hsl < FLT_MIN)
rgb = rgb = rgb = 0.0f;
else
{
const float q = hsl < 0.5f ? hsl * (1.0f + hsl) : hsl + hsl - hsl * hsl;
const float p = 2.0f * hsl - q;
float t[] = {hsl + 2.0f, hsl, hsl - 2.0f};

for(int i=0; i<3; ++i)
{
if(t[i] < 0.0f)
t[i] += 6.0f;
else if(t[i] > 6.0f)
t[i] -= 6.0f;

if(t[i] < 1.0f)
rgb[i] = p + (q - p) * t[i];
else if(t[i] < 3.0f)
rgb[i] = q;
else if(t[i] < 4.0f)
rgb[i] = p + (q - p) * (4.0f - t[i]);
else
rgb[i] = p;
}
}
}
``````

Java version:

``````/*
Converts color from HSL/A format to RGB/A format
0 <= h <= 360
0 <= s, l, a <= 1
Based on: https://en.wikipedia.org/wiki/HSL_and_HSV#:~:text=%5Bedit%5D-,HSL%20to%20RGB%5Bedit%5D,-Given%20a%20color
*/
public RGB toRGB(double h, double s, double l, Double a) {
double c = (1 - Math.abs(2 * l - 1)) * s;
double x = c * (1 - Math.abs((h / 60) % 2 - 1));
double m = l - c / 2;
int[] RGBTag = Arrays.stream(getRGBTag(c, x)).mapToInt(e -> (int)Math.round((e + m) * 255)).toArray();
return RGB(RGBTag, RGBTag, RGBTag, a);
}

private double[] getRGBTag(double c, double x) {
if (h < 60) {
return new double[] {c, x, 0};
} else if (h < 120) {
return new double[] {x, c, 0};
} else if (h < 180) {
return new double[] {0, c, x};
} else if (h < 240) {
return new double[] {0, x, c};
} else if (h < 300) {
return new double[] {x, 0, c};
}
return new double[] {c, 0, x};
}
``````

I modified @moshen's answer to use numpy vectorization in python. Ends up a couple hundred times faster than two for loops over the image with colorsys.hsl_to_rgb.

``````
import time

def hue_to_rgb(p, q, t):
t = t % 1.0
condlist = [t < 1/6, t < 1/2, t < 2/3]
choicelist = [p + (q - p) * 6 * t, q, p + (q - p) * (2/3 - t) * 6]
return np.select(condlist, choicelist, p)

def fast_hls_to_rgb(hls):
h = hls[..., 0]
l = hls[..., 1]
s = hls[..., 2]
q = np.where(l < 0.5, l * (1 + s), l + s - l * s)
p = 2 * l - q
return np.stack((hue_to_rgb(p, q, h + 1/3), hue_to_rgb(p, q, h), hue_to_rgb(p, q, h - 1/3)), axis=-1)

hls = np.empty((image_shape, 3))
hls[..., 0] = hue
hls[..., 1] = lightness
hls[..., 2] = saturation

# compute the rgb using colorssys and report the time required
start = time.perf_counter()
rgb = np.empty((*image_shape, 3))
for i in range(image_shape):
for j in range(image_shape):
rgb[i, j] = colorsys.hls_to_rgb(hls[i, j, 0], hls[i, j, 1], hls[i, j, 2])
end = time.perf_counter()
print(end - start)
# compute the rgb using fast_hsl_to_rgb and report the time required
start = time.perf_counter()
rgb = fast_hls_to_rgb(hls)
end = time.perf_counter()
print(end - start)

plt.figure(figsize=(18, 18))
plt.imshow(rgb)
plt.axis('off')
plt.show()
``````

which gives the output (for an 815 x 1024 size image):

``````1.1594520434737206 # time taken to convert with for loops
0.06863640993833542 # time taken to convert with np vectorized
``````

I needed a really light weight one, Its not 100%, but it gets close enough for some usecases.

``````float3 Hue(float h, float s, float l)
{
float r = max(cos(h * 2 * UNITY_PI) * 0.5 + 0.5, 0);
float g = max(cos((h + 0.666666) * 2 * UNITY_PI) * 0.5 + 0.5, 0);
float b = max(cos((h + 0.333333) * 2 * UNITY_PI) * 0.5 + 0.5, 0);
float gray = 0.2989 * r + 0.5870 * g + 0.1140 * b;
return lerp(gray, float3(r, g, b), s) * smoothstep(0, 0.5, l) + 1 * smoothstep(0.5, 1, l);
}
``````

# PHP - shortest but precise

Here I rewrite my JS answer (math details are there) to PHP - you can run it here

``````function hsl2rgb(\$h,\$s,\$l)
{
\$a = \$s * min(\$l, 1-\$l);
\$k = function(\$n,\$h) { return (\$n+\$h/30)%12;};
\$f = function(\$n) use (\$h,\$s,\$l,\$a,\$k) {
return \$l - \$a * max( min(\$k(\$n,\$h)-3, 9-\$k(\$n,\$h), 1),-1);
};
return [ \$f(0), \$f(8), \$f(4) ];
}
``````

Since colorsys isn't supported in (or currently ported to) circuitpython, if you're trying to handle this conversion on Raspberry Pi, the following works (subject to the rounding limitation to accuracy mentioned elsewhere in this thread):

``````def hslToRgb (h, s, l): #in range 0-1 for h,s,l
if s == 0:
r = g = b = l #achromatic
else:
def hue2rgb(p, q, t):
if t < 0: t += 1
if t > 1: t -= 1
if t < 1.0 / 6.0: return p + (q - p) * 6 * t
if t < 1.0 / 2.0: return q
if t < 2.0 / 3.0: return p + (q - p) * ((2.0 / 3.0) - t) * 6
return p
if l < 0.5:
q = l * (1 + s)
else:
q = l + s - l * s
p = 2 * l - q
r = hue2rgb(p, q, h + 1.0/3.0)
g = hue2rgb(p, q, h)
b = hue2rgb(p, q, h - 1.0/3.0)
return [round(r * 255), round(g * 255), round(b * 255)]
``````