# How to decide font color in white or black depending on background color?

I want to show some images like this example

The fill color is decided by a field in the data base with the color in hex (ex:ClassX -> Color: #66FFFF). Now, I want to show data above a fill with the selected color (like in the image above) but i need to know if the color is dark or light so i know if the words should be in white or black. Is there a way? tks

Building on my answer to a similar question.

You need to break the hex code into 3 pieces to get the individual red, green, and blue intensities. Each 2 digits of the code represent a value in hexadecimal (base-16) notation. I won't get into the details of the conversion here, they're easy to look up.

Once you have the intensities for the individual colors, you can determine the overall intensity of the color and choose the corresponding text.

``````if (red*0.299 + green*0.587 + blue*0.114) > 186 use #000000 else use #ffffff
``````

The threshold of 186 is based on theory, but can be adjusted to taste. Based on the comments below a threshold of 150 may work better for you.

Edit: The above is simple and works reasonably well, and seems to have good acceptance here at StackOverflow. However, one of the comments below shows it can lead to non-compliance with W3C guidelines in some circumstances. Herewith I derive a modified form that always chooses the highest contrast based on the guidelines. If you don't need to conform to W3C rules then I'd stick with the simpler formula above.

The formula given for contrast in the W3C Recommendations is `(L1 + 0.05) / (L2 + 0.05)`, where `L1` is the luminance of the lightest color and `L2` is the luminance of the darkest on a scale of 0.0-1.0. The luminance of black is 0.0 and white is 1.0, so substituting those values lets you determine the one with the highest contrast. If the contrast for black is greater than the contrast for white, use black, otherwise use white. Given the luminance of the color you're testing as `L` the test becomes:

``````if (L + 0.05) / (0.0 + 0.05) > (1.0 + 0.05) / (L + 0.05) use #000000 else use #ffffff
``````

This simplifies down algebraically to:

``````if L > sqrt(1.05 * 0.05) - 0.05
``````

Or approximately:

``````if L > 0.179 use #000000 else use #ffffff
``````

The only thing left is to compute `L`. That formula is also given in the guidelines and it looks like the conversion from sRGB to linear RGB followed by the ITU-R recommendation BT.709 for luminance.

``````for each c in r,g,b:
c = c / 255.0
if c <= 0.03928 then c = c/12.92 else c = ((c+0.055)/1.055) ^ 2.4
L = 0.2126 * r + 0.7152 * g + 0.0722 * b
``````

The threshold of 0.179 should not be changed since it is tied to the W3C guidelines. If you find the results not to your liking, try the simpler formula above.

• Tks Mark. Tryed a few changes: calculated red green and blue by the first digit only (less precise but is the digit with more weight) and instead of 186 used 9. works a little bit better for me, specially with greens. – DJPB Oct 15 '10 at 16:26
• This formula is wrong, by a lot. To take one example, it gives the yellow `#D6B508` a value of 171, hence a white contrast. The contrast should be black, however (confirmed here: webaim.org/resources/contrastchecker) – McGarnagle Jul 17 '14 at 20:36
• Here's another demo comparing the two formulas given in this answer. Using the color picker (in recent Firefox or Chrome) you can check the contrast against any color. – chetstone May 13 '16 at 5:58
• After playing with @chetstone's demo for a bit, I think the Simple formula works best for me, except that I disagree with the threshold recommendation. Based on the results of pure green, I tried setting the threshold to 149 and that works a lot better in my opinion. I made a really dumb fiddle to demonstrate this; you can try changing the threshold at the top back to see the original suggestion. – Miral Oct 20 '16 at 6:23
• The suggested formula fails very badly for green (or 'lime'), #00FF00. As Miral suggested, this can be fixed by lowering the threshold to 149 (0.587 * 0xFF = 149.685). – Andreas Rejbrand Jan 2 '18 at 21:48

I take no credit for this code as it's not mine, but I leave it here for others to find quickly in the future:

Based on Mark Ransoms answer, here's a code snippet for the simple version:

``````function pickTextColorBasedOnBgColorSimple(bgColor, lightColor, darkColor) {
var color = (bgColor.charAt(0) === '#') ? bgColor.substring(1, 7) : bgColor;
var r = parseInt(color.substring(0, 2), 16); // hexToR
var g = parseInt(color.substring(2, 4), 16); // hexToG
var b = parseInt(color.substring(4, 6), 16); // hexToB
return (((r * 0.299) + (g * 0.587) + (b * 0.114)) > 186) ?
darkColor : lightColor;
}
``````

and here's the code snippet for the advanced version:

``````function pickTextColorBasedOnBgColorAdvanced(bgColor, lightColor, darkColor) {
var color = (bgColor.charAt(0) === '#') ? bgColor.substring(1, 7) : bgColor;
var r = parseInt(color.substring(0, 2), 16); // hexToR
var g = parseInt(color.substring(2, 4), 16); // hexToG
var b = parseInt(color.substring(4, 6), 16); // hexToB
var uicolors = [r / 255, g / 255, b / 255];
var c = uicolors.map((col) => {
if (col <= 0.03928) {
return col / 12.92;
}
return Math.pow((col + 0.055) / 1.055, 2.4);
});
var L = (0.2126 * c[0]) + (0.7152 * c[1]) + (0.0722 * c[2]);
return (L > 0.179) ? darkColor : lightColor;
}
``````

To use them just call:

``````var color = '#EEACAE' // this can be any color
pickTextColorBasedOnBgColorSimple(color, '#FFFFFF', '#000000');
``````

Also, thanks `Alx` and `chetstone`.

• I used the simple function, and stripped it down a bit more: dropped the 2 last parameters and renamed is simply `isDark(bgColor)` My usage is then just `'color': isDark(color)?'white':'black'` – diynevala Jun 21 '17 at 11:05
• Worked like a charm for me. Thank you very much! Did it in php though simply converting the syntax and functions. – CezarBastos Mar 23 '18 at 17:24
• Note that Mark's calculation of L>0.179 assumes we are choosing among white and black as the text color. Other color choices would require re-calculating this threshold, so it doesn't quite make sense to pass in arbitrary colors as `lightColor` and `darkColor`. – Aaron Dunigan AtLee Sep 23 '20 at 19:41

``````/**
* Get color (black/white) depending on bgColor so it would be clearly seen.
* @param bgColor
* @returns {string}
*/
getColorByBgColor(bgColor) {
if (!bgColor) { return ''; }
return (parseInt(bgColor.replace('#', ''), 16) > 0xffffff / 2) ? '#000' : '#fff';
}
``````
• This works most of the time but there are cases like i.imgur.com/3pOUDe5.jpg that look weird, background color is actually rgb(6, 247, 241); – madprops Dec 30 '16 at 11:54
• I appreciate this is a relatively cheap way to perform a contrast calculation in cases where you haven't already converted the colour to rgb values (not that that is too difficult, just extra math steps) – frumbert Mar 27 '17 at 5:03

Additionally to the arithmetic solutions, it's also possible to use an AI neural network. The advantage is that you can tailor it to your own taste and needs (ie. off-white text on bright saturated reds looks good and is just as readable as black).

Here's a neat Javascript demo that illustrates the concept. You can also generate your own JS formula right in the demo.

https://harthur.github.io/brain/

Below are some charts that helped me get my mind around the problem. In the first chart, lightness is a constant 128, while hue and saturation vary. In the second chart, saturation is a constant 255, while hue and lightness vary.

Here is my solution in Java for Android:

``````// Put this method in whichever class you deem appropriate
// static or non-static, up to you.
public static int getContrastColor(int colorIntValue) {
int red = Color.red(colorIntValue);
int green = Color.green(colorIntValue);
int blue = Color.blue(colorIntValue);
double lum = (((0.299 * red) + ((0.587 * green) + (0.114 * blue))));
return lum > 186 ? 0xFF000000 : 0xFFFFFFFF;
}

// Usage
// If Color is represented as HEX code:
String colorHex = "#484588";
int color = Color.parseColor(colorHex);

// Or if color is Integer:
int color = 0xFF484588;

// Get White (0xFFFFFFFF) or Black (0xFF000000)
int contrastColor = WhateverClass.getContrastColor(color);
``````
• Is it really 'perfect'? Try pure green background, #00FF00. – Andreas Rejbrand Jan 2 '18 at 21:55
• It's true this is not tested for all colors.... but who would use a pure green background for anything that wasn't designed to annoy users? – mwieczorek Jan 3 '18 at 11:00
• @mwieczorek people who rely on user-generated content or randomly selected colors do. – Marc Plano-Lesay Sep 15 '18 at 12:54

This is a swift version of Mark Ransom's answer as an extension of UIColor

``````extension UIColor {

// Get the rgba components in CGFloat
var rgba: (red: CGFloat, green: CGFloat, blue: CGFloat, alpha: CGFloat) {
var red: CGFloat = 0, green: CGFloat = 0, blue: CGFloat = 0, alpha: CGFloat = 0

getRed(&red, green: &green, blue: &blue, alpha: &alpha)

return (red, green, blue, alpha)
}

/// Return the better contrasting color, white or black
func contrastColor() -> UIColor {
let rgbArray = [rgba.red, rgba.green, rgba.blue]

let luminanceArray = rgbArray.map({ value -> (CGFloat) in
if value < 0.03928 {
return (value / 12.92)
} else {
return (pow( (value + 0.55) / 1.055, 2.4) )
}
})

let luminance = 0.2126 * luminanceArray[0] +
0.7152 * luminanceArray[1] +
0.0722 * luminanceArray[2]

return luminance > 0.179 ? UIColor.black : UIColor.white
} }
``````

If like me you were looking for a RGBA version that takes alpha into account, here is one that works really well to have high contrast.

``````function getContrastColor(R, G, B, A) {
const brightness = R * 0.299 + G * 0.587 + B * 0.114 + (1 - A) * 255;

return brightness > 186 ? "#000000" : "#FFFFFF";
}
``````
• logged in just to give you an upvote, couldnt find anyone taking tihs into account – robertjuh Aug 26 '20 at 10:19
• @robertjuh I rarely post on stackoverflow as well, so thanks for the effort :) – Germain Aug 27 '20 at 14:57

Based on the answer of @MarkRansom, I created a PHP script you can find here:

``````function calcC(\$c) {
if (\$c <= 0.03928) {
return \$c / 12.92;
}
else {
return pow((\$c + 0.055) / 1.055, 2.4);
}
}

function cutHex(\$h) {
return (\$h[0] == "#") ? substr(\$h, 1, 7) : \$h;
}

function hexToR(\$h) {
return hexdec(substr(cutHex(\$h), 0, 2));
}

function hexToG(\$h) {
return hexdec(substr(cutHex(\$h), 2, 2)); // Edited
}

function hexToB(\$h) {
return hexdec(substr(cutHex(\$h), 4, 2)); // Edited
}

function computeTextColor(\$color) {
\$r = hexToR(\$color);
\$g = hexToG(\$color);
\$b = hexToB(\$color);
\$uicolors = [\$r / 255, \$g / 255, \$b / 255];

\$c = array_map("calcC", \$uicolors);

\$l = 0.2126 * \$c[0] + 0.7152 * \$c[1] + 0.0722 * \$c[2];
return (\$l > 0.179) ? '#000000' : '#ffffff';
}
``````

This is just an example that will change the color of an SVG checkmark when clicking on an element. It will set the checkmark color to black or white based on the background-color of the clicked element.

``````checkmarkColor: function(el) {
var self = el;
var contrast = function checkContrast(rgb) {
// @TODO check for HEX value

// Get RGB value between parenthesis, and remove any whitespace
rgb = rgb.split(/\(([^)]+)\)/)[1].replace(/ /g, '');

// map RGB values to variables
var r = parseInt(rgb.split(',')[0], 10),
g = parseInt(rgb.split(',')[1], 10),
b = parseInt(rgb.split(',')[2], 10),
a;

// if RGBA, map alpha to variable (not currently in use)
if (rgb.split(',')[3] !== null) {
a = parseInt(rgb.split(',')[3], 10);
}

// calculate contrast of color (standard grayscale algorithmic formula)
var contrast = (Math.round(r * 299) + Math.round(g * 587) + Math.round(b * 114)) / 1000;

return (contrast >= 128) ? 'black' : 'white';
};

'fill': contrast(\$(self).css('background-color'))
});
}

onClickExtColor: function(evt) {
var self = this;

self.checkmarkColor(evt.currentTarget);
}
``````

https://gist.github.com/dcondrey/183971f17808e9277572

I use this JavaScript function to convert `rgb`/`rgba` to `'white'` or `'black'`.

``````function getTextColor(rgba) {
rgba = rgba.match(/\d+/g);
if ((rgba[0] * 0.299) + (rgba[1] * 0.587) + (rgba[2] * 0.114) > 186) {
return 'black';
} else {
return 'white';
}
}
``````

You can enter any of these formats and it will output `'black'` or `'white'`

• `rgb(255,255,255)`
• `rgba(255,255,255,0.1)`
• `color:rgba(255,255,255,0.1)`
• `255,255,255,0.1`
• Now try this with a pure green background: #00FF00. – Andreas Rejbrand Jan 2 '18 at 22:15
• Thank you for this! Translated into swift and used it in my ios app! – Lucas P. Jun 14 '18 at 10:43

Mark's detailed answer works great. Here is an implementation in javascript:

``````function lum(rgb) {
var lrgb = [];
rgb.forEach(function(c) {
c = c / 255.0;
if (c <= 0.03928) {
c = c / 12.92;
} else {
c = Math.pow((c + 0.055) / 1.055, 2.4);
}
lrgb.push(c);
});
var lum = 0.2126 * lrgb[0] + 0.7152 * lrgb[1] + 0.0722 * lrgb[2];
return (lum > 0.179) ? '#000000' : '#ffffff';
}
``````

Then can call this function `lum([111, 22, 255])` to get white or black.

This is an R version of Mark Ransom's answer, using base R only.

``````hex_bw <- function(hex_code) {

myrgb <- as.integer(col2rgb(hex_code))

rgb_conv <- lapply(myrgb, function(x) {
i <- x / 255
if (i <= 0.03928) {
i <- i / 12.92
} else {
i <- ((i + 0.055) / 1.055) ^ 2.4
}
return(i)
})

rgb_calc <- (0.2126*rgb_conv[[1]]) + (0.7152*rgb_conv[[2]]) + (0.0722*rgb_conv[[3]])

if (rgb_calc > 0.179) return("#000000") else return("#ffffff")

}

> hex_bw("#8FBC8F")
[1] "#000000"
> hex_bw("#7fa5e3")
[1] "#000000"
> hex_bw("#0054de")
[1] "#ffffff"
> hex_bw("#2064d4")
[1] "#ffffff"
> hex_bw("#5387db")
[1] "#000000"
``````

I've never done anything like this, but what about writing a function to check the values of each of the colors against the median color of Hex 7F (FF / 2). If two of the three colors are greater than 7F, then you're working with a darker color.

LESS has a nice `contrast()` function that worked nicely for me, see http://lesscss.org/functions/#color-operations-contrast

"Choose which of two colors provides the greatest contrast with another. This is useful for ensuring that a color is readable against a background, which is also useful for accessibility compliance. This function works the same way as the contrast function in Compass for SASS. In accordance with WCAG 2.0, colors are compared using their gamma-corrected luma value, not their lightness."

Example:

``````p {
a: contrast(#bbbbbb);
b: contrast(#222222, #101010);
c: contrast(#222222, #101010, #dddddd);
d: contrast(hsl(90, 100%, 50%), #000000, #ffffff, 30%);
e: contrast(hsl(90, 100%, 50%), #000000, #ffffff, 80%);
}
``````

Output:

``````p {
a: #000000 // black
b: #ffffff // white
c: #dddddd
d: #000000 // black
e: #ffffff // white
}
``````

Based on different inputs from the link Make foregroundcolor black or white depending on background and this thread, I made an extension class for Color that gives you required contrast colors.

The code goes as below:

`````` public static class ColorExtension
{
public static int PerceivedBrightness(this Color c)
{
return (int)Math.Sqrt(
c.R * c.R * .299 +
c.G * c.G * .587 +
c.B * c.B * .114);
}
public static Color ContrastColor(this Color iColor, Color darkColor,Color lightColor)
{
//  Counting the perceptive luminance (aka luma) - human eye favors green color...
double luma = (iColor.PerceivedBrightness() / 255);

// Return black for bright colors, white for dark colors
return luma > 0.5 ? darkColor : lightColor;
}
public static Color ContrastColor(this Color iColor) => iColor.ContrastColor(Color.Black);
public static Color ContrastColor(this Color iColor, Color darkColor) => iColor.ContrastColor(darkColor, Color.White);
// Converts a given Color to gray
public static Color ToGray(this Color input)
{
int g = (int)(input.R * .299) + (int)(input.G * .587) + (int)(input.B * .114);
return Color.FromArgb(input.A, g, g, g);
}
}
``````

I'm using the tinyColor library which can also do the job.

``````import { TinyColor } from '@ctrl/tinycolor'

// ...

getColorContrast(color = '#66FFFF'): string {
if(new TinyColor(color).getLuminance() > 0.179) { // 0.179 -> Mark Ransom answer
return '#000'
} else {
return '#fff'
}
}
``````

This method would also accept rgb color like `rgb(102,255,255)`

@SoBiT, I was looking at your answer, which looks good, but there is a small mistake in it. Your function hexToG, and hextoB need a minor edit. The last number in substr is the length of the string, and so in this case itshould be "2", rather than 4 or 6.

``````function hexToR(\$h) {
return hexdec(substr(cutHex(\$h), 0, 2));
}
function hexToG(\$h) {
return hexdec(substr(cutHex(\$h), 2, 2));
}
function hexToB(\$h) {
return hexdec(substr(cutHex(\$h), 4, 2));
}
``````

From hex to black or white:

``````function hexToRgb(hex) {
var result = /^#?([a-f\d]{2})([a-f\d]{2})([a-f\d]{2})\$/i.exec(hex);
return result
? [
parseInt(result[1], 16),
parseInt(result[2], 16),
parseInt(result[3], 16)
]
: [0, 0, 0];
}

function lum(hex) {
var rgb = hexToRgb(hex)
var lrgb = [];
rgb.forEach(function(c) {
c = c / 255.0;
if (c <= 0.03928) {
c = c / 12.92;
} else {
c = Math.pow((c + 0.055) / 1.055, 2.4);
}
lrgb.push(c);
});
var lum = 0.2126 * lrgb[0] + 0.7152 * lrgb[1] + 0.0722 * lrgb[2];
return lum > 0.179 ? "#000000" : "#ffffff";
}
``````

Objective-c version code for iOS based on Mark's answer:

``````- (UIColor *)contrastForegroundColor {
CGFloat red = 0, green = 0, blue = 0, alpha = 0;
[self getRed:&red green:&green blue:&blue alpha:&alpha];
NSArray<NSNumber *> *rgbArray = @[@(red), @(green), @(blue)];
NSMutableArray<NSNumber *> *parsedRGBArray = [NSMutableArray arrayWithCapacity:rgbArray.count];
for (NSNumber *item in rgbArray) {
if (item.doubleValue <= 0.03928) {
} else {
double newValue = pow((item.doubleValue + 0.055) / 1.055, 2.4);
}
}

double luminance = 0.2126 * parsedRGBArray[0].doubleValue + 0.7152 * parsedRGBArray[1].doubleValue + 0.0722 * parsedRGBArray[2].doubleValue;

return luminance > 0.179 ? UIColor.blackColor : UIColor.whiteColor;
}
``````

What about testing with all 24 bits colors ?

Be aware that YIQ method will return a minimum contrast ratio of 1.9:1, that doesn't pass AA and AAA WCAG2.0 tests, assuming a 128 threshold.

For W3C method, it will return a minimum contrast ratio of 4.58:1, that pass AA and AAA tests for large text, and AA test for small text, it won't pass AAA test for small text for every colors.

Here's my own method that I've been using and haven't had a problem with so far 😄

``````const hexCode = value.charAt(0) === '#'
? value.substr(1, 6)
: value;

const hexR = parseInt(hexCode.substr(0, 2), 16);
const hexG = parseInt(hexCode.substr(2, 2), 16);
const hexB = parseInt(hexCode.substr(4, 2), 16);
// Gets the average value of the colors
const contrastRatio = (hexR + hexG + hexB) / (255 * 3);

contrastRatio >= 0.5
? 'black'
: 'white';
``````

Here is my code for Java Swing based on Mark's amazing answer:

``````public static Color getColorBasedOnBackground(Color background, Color darkColor, Color lightColor) {
// Calculate foreground color based on background (based on https://stackoverflow.com/a/3943023/)
Color color;
double[] cL = new double[3];
double[] colorRGB = new double[] {background.getRed(), background.getGreen(), background.getBlue()};

for (int i = 0; i < colorRGB.length; i++)
cL[i] = (colorRGB[i] / 255.0 <= 0.03928) ? colorRGB[i] / 255.0 / 12.92 :
Math.pow(((colorRGB[i] / 255.0 + 0.055) / 1.055), 2.4);

double L = 0.2126 * cL[0] + 0.7152 * cL[1] + 0.0722 * cL[2];
color = (L > Math.sqrt(1.05 * 0.05) - 0.05) ? darkColor : lightColor;

return color;
}
``````