# How can I generate the opposite color according to current color?

I'm trying to create a color opposite of current color. I mean if current color is black, then I need to generate white.

Actually I have a text (the color of this text is dynamic, its color can be made at random). That text is into a `div` and I need to set the opposite color of that text for the `background-color` of `div`. I would like that text be clear in the `div` (color perspective).

The opposite color means: Dark / Bright

I have the current color of text and I can pass it to this function:

``````var TextColor = #F0F0F0;    // for example (it is a bright color)

function create_opp_color(current color) {

// create opposite color according to current color

}

create_opp_color(TextColor); // this should be something like "#202020" (or a dark color)
``````

Is there any idea to create `create_opp_color()` function?

• Possible duplicate of stackoverflow.com/questions/1664140/… Mar 13 '16 at 11:31
• Dark/Bright? So red (#FF0000) opposite is... Black (#000000)? For B/W "axis" is easy, but dealing with colors can be tricky if the desired goal is to get "contrast", and not the "complementary" color or something like that. Mar 13 '16 at 11:32
• @miguel-svq Good point .. My goal is make that text readable (color perspective), So if the color of text is red, then the color of background almost could be anything black, white, blue .. Mar 13 '16 at 11:34
• There are really good modules for manipulating colors out there. Take e.g. a look at tinycolor (github.com/bgrins/TinyColor) which has a `mostReadable` function. I think that's better than brewing one yourself. Apr 6 '20 at 8:50
• why should we add padding with zeros, and why should we remove... someone explain.. Oct 23 at 10:41

This is how I'd do it:

1. Convert HEX to RGB
2. Invert the R,G and B components
3. Convert each component back to HEX
4. Pad each component with zeros and output.
``````function invertColor(hex) {
if (hex.indexOf('#') === 0) {
hex = hex.slice(1);
}
// convert 3-digit hex to 6-digits.
if (hex.length === 3) {
hex = hex[0] + hex[0] + hex[1] + hex[1] + hex[2] + hex[2];
}
if (hex.length !== 6) {
throw new Error('Invalid HEX color.');
}
// invert color components
var r = (255 - parseInt(hex.slice(0, 2), 16)).toString(16),
g = (255 - parseInt(hex.slice(2, 4), 16)).toString(16),
b = (255 - parseInt(hex.slice(4, 6), 16)).toString(16);
// pad each with zeros and return
}

len = len || 2;
var zeros = new Array(len).join('0');
return (zeros + str).slice(-len);
}
``````

Example Output:

This has a `bw` option that will decide whether to invert to black or white; so you'll get more contrast which is generally better for the human eye.

``````function invertColor(hex, bw) {
if (hex.indexOf('#') === 0) {
hex = hex.slice(1);
}
// convert 3-digit hex to 6-digits.
if (hex.length === 3) {
hex = hex[0] + hex[0] + hex[1] + hex[1] + hex[2] + hex[2];
}
if (hex.length !== 6) {
throw new Error('Invalid HEX color.');
}
var r = parseInt(hex.slice(0, 2), 16),
g = parseInt(hex.slice(2, 4), 16),
b = parseInt(hex.slice(4, 6), 16);
if (bw) {
// https://stackoverflow.com/a/3943023/112731
return (r * 0.299 + g * 0.587 + b * 0.114) > 186
? '#000000'
: '#FFFFFF';
}
// invert color components
r = (255 - r).toString(16);
g = (255 - g).toString(16);
b = (255 - b).toString(16);
// pad each with zeros and return
}
``````

Example Output:

• This answer to the "opposite" question, setting color to foreground having a background color, wich is almost the same. Changing the fiddle accordingly to the original question can lead to low contrast color (without "bw") or to back and white backgrounds jsfiddle.net/cffcd5bj/5 . Hope @stack adapt it to avoid undesired low contrast color pairs. Mar 13 '16 at 13:01
• You made a library of a function and put it on github? `:-)` Cool Mar 4 '18 at 15:41
• Yes. That's called micro library. More maintainable, embraces SRP, etc.. Mar 4 '18 at 19:52
• Good .. Just one thing, I've created an editor which supports rtl direction as well and there isn't any similar editor like that. How can I make it like a library? In other word, how can I make it downloadable like this `npm install myEditor --save`? Where should I locate my codes to be accessible through the internet using `npm` ? Mar 9 '18 at 8:32
• @OnurYıldırım added credits. good reminder though. Oct 28 at 6:26

Simple and elegant.

``````function invertHex(hex) {
return (Number(`0x1\${hex}`) ^ 0xFFFFFF).toString(16).substr(1).toUpperCase()
}

invertHex('00FF00'); // Returns FF00FF
``````
• No idea what it does or how it works, but it's indeed simple and elegant :) Feb 14 '19 at 14:19
• I would be really happy if someone would explain how it works. Jun 16 '19 at 2:31
• @Ar2 `Number(`0x1\${hex}`)` First it takes the given hex (string) value and converts it to HEX `^ 0xFFFFFF` it then does a bit-wise execution on that value with `0xFFFFFF` which I can only explain now like this, if you wanted to invert a number as quickly as possible eg. 3 > 7, 8 > 2, 1 > 9 etc. simply subtract with number with 10 and absolute it. That is what that part does except for HEX values. The rest is basically formatting and dropping the first value which is an overflow of the equation. Jun 16 '19 at 17:21
• Really nice and simple, but note that it "mirrors over the middle of the color", so colors close to the middle get a color very close to it. e.g. invertHex('808080'); produces '7F7F7F' which is almost the same color. Nov 9 '20 at 17:21
• Impressive! Explanation: Bitwise `^` Sets each bit to 1 if only one of two bits is 1; `toString(16)` The number will show as an hexadecimal value; `substr(1)` Returns the result string, but skips the first item; `toUpperCase()` This is very obvious. Sep 18 at 19:50

Simple way to achieve this with CSS:

``````mix-blend-mode: difference;
color:white;
``````
• A note of caution: mix-blend-mode is currently unsupported by !E or Microsoft Edge, among others, and depending on your use case, may be unlikely to fail gracefully. Aug 26 '18 at 11:49

Pure CSS implementation of @Onur's answer bw part.

``````  <input type="color" oninput="['--r','--g','--b'].forEach((k,i)=>this.nextElementSibling.style.setProperty(k,parseInt(event.target.value.slice(1+i*2,3+i*2),16)))" />

<div style="--r: 0; --g: 0; --b: 0; --c: calc(-1 * ((var(--r) * 0.299 + var(--g) * 0.587 + var(--b) * 0.114) - 186) * 255)">
<div style="background-color: rgb(var(--r), var(--g), var(--b)); color: rgb(var(--c), var(--c), var(--c))">Test</div>
</div>``````

Watch out Accesibility (AA/AAA). Colour contrast by itself is useless. Really different colors can have no contrast at all for colour blind people. IMHO a calculation for such a color could go like this:

(Use "HLS" for simplicity)

• Rotate Hue 180º to get the (maybe useless) maximal color contrast
• Calculate Brightness Difference.
• ( Calculate Colour Difference... unnecesary, it's maximal or almost )
• Calculate Contrast Ratio.
• If the resulting color complies the requirements calculation ends, if not, loop:
• If Brightness Difference is not enought increase or decrese calculated color luminosity (L) by a certain amount or ratio (up or down depending on the original colour brightness: > or < than the mid value)
• Check if it complies your requirements, if it does calculation ends.
• if luminosity can be increased (or decrased) any more there is no valid color to comply the requirements, just try black and white, take "the best one" of those (probably the one with bigger contrast ratio) and end.

In my understanding of your question, by opposite color you mean inverted color.

``````InvertedColorComponent = 0xFF - ColorComponent
``````

So for the color red (#FF0000) this means: R = 0xFF or 255 G = 0x00 or 0 B = 0x00 or 0

inverted color red (#00FFFF) is:

``````R = 0xFF - 0xFF = 0x00 or 255 - 255 = 0
G = 0xFF - 0x00 = 0xFF or 255 - 0 = 255
B = 0xFF - 0x00 = 0xFF or 255 - 0 = 255
``````

Another examples:

Black (#000000) becomes White (#FFFFFF).

Orange (#FFA500) becomes #005AFF

• I would have used "inverse" too, but remember that "opposite" can also mean "opposite on the colour wheel". Jul 11 '19 at 6:28

This is a simple function that invert an hexadecimal color

``````const invertColor = (col) => {
col = col.toLowerCase();
const colors = ['0','1','2','3','4','5','6','7','8','9','a','b','c','d','e','f']
let inverseColor = '#'
col.replace('#','').split('').forEach(i => {
const index = colors.indexOf(i)
inverseColor += colors.reverse()[index]
})
return inverseColor
}

``````

Codepen example

Simply flipping background color to text color won't work with some middle range values, e.g. `0x808080`. I had tried with shifting the color values instead - `(v + 0x80) % 0x100`. See a demo here.

Agreeing with the comment from miguel-svq - although expecting to see more detailed algorithms for each calculation step.

Function to Invert Color of Element. Gets the luminosity of each and if they are close, inverts text color.

``````function adjustColor(element) {
var style = window.getComputedStyle(element);
var background = new Color(style['background-color']);
var text = new Color(style['color']);
if (Math.abs(background.luma - text.luma) < 100) {
element.style.color = text.inverted.toString();
}
}
``````

The Color "Class" below. Accepts hex, rgb, rgba (even with percents), and can output to either one as well. Explorer will need polyfills for String.padStart and String.startsWith and the interpolated string in the toString() method will need to be modified using concat instead.

``````const Color = (function () {
function parsePart(value) {
var perc = value.lastIndexOf('%');
return perc < 0 ? value : value.substr(0, perc);
}
function Color(data) {
if (arguments.length > 1) {
this[0] = arguments[0];
this[1] = arguments[1];
this[2] = arguments[2];
if (arguments.length > 3) { this[3] = arguments[3]; }
} else if (data instanceof Color || Array.isArray(data)) {
this[0] = data[0];
this[1] = data[1];
this[2] = data[2];
this[3] = data[3];
} else if (typeof data === 'string') {
data = data.trim();
if (data[0] === "#") {
switch (data.length) {
case 4:
this[0] = parseInt(data[1], 16); this[0] = (this[0] << 4) | this[0];
this[1] = parseInt(data[2], 16); this[1] = (this[1] << 4) | this[1];
this[2] = parseInt(data[3], 16); this[2] = (this[2] << 4) | this[2];
break;
case 9:
this[3] = parseInt(data.substr(7, 2), 16);
//Fall Through
case 7:
this[0] = parseInt(data.substr(1, 2), 16);
this[1] = parseInt(data.substr(3, 2), 16);
this[2] = parseInt(data.substr(5, 2), 16);
break;
}
} else if (data.startsWith("rgb")) {
var parts = data.substr(data[3] === "a" ? 5 : 4, data.length - (data[3] === "a" ? 6 : 5)).split(',');
this.r = parsePart(parts[0]);
this.g = parsePart(parts[1]);
this.b = parsePart(parts[2]);
if (parts.length > 3) { this.a = parsePart(parts[3]); }
}
}
}
Color.prototype = {
constructor: Color,
0: 255,
1: 255,
2: 255,
3: 255,
get r() { return this[0]; },
set r(value) { this[0] = value == null ? 0 : Math.max(Math.min(parseInt(value), 255), 0); },
get g() { return this[1]; },
set g(value) { this[1] = value == null ? 0 : Math.max(Math.min(parseInt(value), 255), 0); },
get b() { return this[2]; },
set b(value) { this[2] = value == null ? 0 : Math.max(Math.min(parseInt(value), 255), 0); },
get a() { return this[3] / 255; },
set a(value) { this[3] = value == null ? 255 : Math.max(Math.min(value > 1 ? value : parseFloat(value) * 255, 255), 0); },
get luma() { return .299 * this.r + .587 * this.g + .114 * this.b; },
get inverted() { return new Color(255 - this[0], 255 - this[1], 255 - this[2], this[3]); },
toString: function (option) {
if (option === 16) {
return '#' + toHex(this.r) + toHex(this.g) + toHex(this.b) + (this[3] === 255 ? '' : toHex(this[3]));
} else if (option === '%') {
if (this.a !== 1) {
return `rgba(\${this.r / 255 * 100}%, \${this.b / 255 * 100}%, \${this.g / 255 * 100}%, \${this.a / 255})`;
} else {
return `rgb(\${this.r / 255 * 100}%, \${this.b / 255 * 100}%, \${this.g / 255 * 100})%`;
}
} else {
if (this.a !== 1) {
return `rgba(\${this.r}, \${this.b}, \${this.g}, \${this.a})`;
} else {
return `rgb(\${this.r}, \${this.b}, \${this.g})`;
}
}
}
};

return Color;
}());
``````

``````def hex_to_rgb(value):
value = value.lstrip('#')
lv = len(value)
return tuple(int(value[i:i + lv // 3], 16) for i in range(0, lv, lv // 3))

def invertColor(color, bw=False):
# strip the # from the beginning
color = color.lstrip('#')

# convert the string into hex
color = int(color, 16)

# invert the three bytes
# as good as substracting each of RGB component by 255(FF)
comp_color = 0xFFFFFF ^ color

# convert the color back to hex by prefixing a #
comp_color = "#%06X" % comp_color

rgb_color = hex_to_rgb(comp_color)

if (bw):
# http://stackoverflow.com/a/3943023/112731
bw_value = rgb_color[0]*0.299 + rgb_color[0]*0.587 + rgb_color[0]*0.114
if (bw_value>186):
comp_color = "#FFFFFF"
else:
comp_color = "#000000"

# return the result
return comp_color

color = "#fffff1"

print invertColor(color, bw=True)
``````
• This does not answer OP's question as it was tagged HTML and Javascript Oct 2 at 1:07

How about, CSS `filter: invert(1)`, it has a decent cross-browser compatibility and it work with text and images or whatever your content is.

For a black and white inverted color add some more filters `filter: saturate(0) grayscale(1) brightness(.7) contrast(1000%) invert(1)`

``````const i = document.querySelector("i");
const b = document.querySelector("b");
const input = document.querySelector("input");

input.oninput = (e) => {
const color = e.target.value;
i.style.background = color;
b.style.color = color;
b.innerText = color;
}``````
``````body {
font-family: Arial;
background: #333;
}

div {
position: relative;
}

i {
display: inline-flex;
justify-content: center;
align-items: center;
min-width: 100px;
border: 2px solid #FFF;
font-style: normal;
}

b {
/* Inverting the color */
/* ᐯᐯᐯᐯᐯᐯᐯᐯᐯᐯᐯᐯ */
filter: saturate(0) grayscale(1) brightness(.7) contrast(1000%) invert(1);
}

input {
position: absolute;
top: 0;
left: 0;
width: 100%;
height: 100%;
opacity: 0;
cursor: pointer;
}``````
``````<div>
</div>``````

• This solution is optimal on the front side. Sep 6 at 21:39
• This I have been looking for a very long time. Your solution of `saturate(0) grayscale(1) brightness(.7) contrast(1000%) invert(1)` was amazing. Oct 11 at 16:22

For Typescript lovers, here what I use:

``````invertHex(hex: string) {
if (hex.indexOf('#') === 0) {
hex = hex.slice(1);
}

if (hex.length != 6) {
console.warn('Hex color must be six hex numbers in length.');
return '#' + hex;
}

hex = hex.toUpperCase();
const splitNum = hex.split('');
let resultNum = '';
const simpleNum = 'FEDCBA9876'.split('');
const complexNum = {
A: '5', B: '4', C: '3', D: '2', E: '1', F: '0'
};

for (let i = 0; i < 6; i++) {
if (!isNaN(Number(splitNum[i]))) {
resultNum += simpleNum[splitNum[i]];
} else if (complexNum[splitNum[i]]) {
resultNum += complexNum[splitNum[i]];
} else {
console.warn('Hex colors must only include hex numbers 0-9, and A-F');
return '#' + hex;
}
}

return '#' + resultNum;
}
``````

It is possible to convert a HEX color using the snippets

``````function invertColor(color) {
return '#' + ("000000" + (0xFFFFFF ^ parseInt(color.substring(1),16)).toString(16)).slice(-6);
}
``````