# Algorithm for finding the color between two others - in the colorspace of painted colors

When mixing blue and yellow paint, the result is some sort of green.

I have two rgb colors:

blue = (0, 0, 255)

and yellow = (255, 255, 0)

What is the algorithm for finding the rgb color that is the result of mixing the two colors, as they would appear when using paint? The resulting colors from the algorithm does not have to be terribly exact. For the example above it would only have to look like some sort of green.

Edit: This function, written in Go, worked for me, based on the answer from LaC.

``````func paintMix(c1, c2 image.RGBAColor) image.RGBAColor {
r := 255 - ((255 - c1.R) + (255 - c2.R))
g := 255 - ((255 - c1.G) + (255 - c2.G))
b := 255 - ((255 - c1.B) + (255 - c2.B))
return image.RGBAColor{r, g, b, 255}
}
``````

Edit #2 Allthought this manages to mix cyan and yellow, the mix between blue and yellow becomes black, which doesn't seem right. I'm still looking for a working algorithm.

Edit #3 Here's a complete working example in Go, using the HLS colorspace: http://go.pastie.org/1976031. Thanks Mark Ransom.

Edit #4 It seems like the way forward for even better color mixing would be to use the Kubelka-Munk equation

-
This is a good one. If someone figures it out they could get a job at Wolfram. wolframalpha.com/input/?i=yellow+%2B+blue – Seth Moore May 25 '11 at 21:01
Already answered for the most part here: stackoverflow.com/questions/4235072/… – colinross May 25 '11 at 21:11
Another duplicate: stackoverflow.com/questions/1351442/… – tylerl Jun 29 '11 at 5:32
colinross and tylerl, I disagree that those are duplicates, as I specify that it does not have to be exact, thus ruling out CMYK and the discussions about correctness that comes with it. – Alexander Jun 29 '11 at 14:04
Hi @Alexander - great question. Did you find or make code similar to Krita? I've been searching but I can't find any open source code or formulae. – glenstorey Apr 20 '12 at 21:32

Paint works by absorption. You start with white light (255,255,255) and multiply it by the absorption factors.

Blue paint absorbs all red and green light that hits it.

Yellow paint absorbs all blue light that hits it.

In a perfect world, that means that combining yellow and blue paint would result in black paint, or at best a muddy gray. In practice the "blue" paint has a bias towards green, so you get a muddy green. I've never seen an example of mixing yellow and blue that produces a satisfactory green. Wikipedia goes into some of the complexities of this process: http://en.wikipedia.org/wiki/Primary_color#Subtractive_primaries

I think what you are really asking is how to interpolate colors along a color wheel. This should be independent of whether the colors are absorptive as in paint, or emissive as in RGB displays.

Edit: By working in the HSL color space you can get the kind of results you're looking for. Here's some code in Python that implements the algorithm; averaging hues is tricky, and is based on a previous answer of mine for averaging angles.

``````from colorsys import rgb_to_hls,hls_to_rgb
from math import sin,cos,atan2,pi

def average_colors(rgb1, rgb2):
h1, l1, s1 = rgb_to_hls(rgb1[0]/255., rgb1[1]/255., rgb1[2]/255.)
h2, l2, s2 = rgb_to_hls(rgb2[0]/255., rgb2[1]/255., rgb2[2]/255.)
s = 0.5 * (s1 + s2)
l = 0.5 * (l1 + l2)
x = cos(2*pi*h1) + cos(2*pi*h2)
y = sin(2*pi*h1) + sin(2*pi*h2)
if x != 0.0 or y != 0.0:
h = atan2(y, x) / (2*pi)
else:
h = 0.0
s = 0.0
r, g, b = hls_to_rgb(h, l, s)
return (int(r*255.), int(g*255.), int(b*255.))

>>> average_colors((255,255,0),(0,0,255))
(0, 255, 111)
>>> average_colors((255,255,0),(0,255,255))
(0, 255, 0)
``````

Note that this answer does not emulate paint mixing, for the reasons stated above. Rather it gives an intuitive mixing of colors that is not grounded in any physical world reality.

-
Using HSL seems to me the good answer. I use HSL for a few problems (like producing random sets of constrasted colors) and it gives results that are very coherent with the human eye experience. – Denys Séguret May 26 '11 at 12:17
@Mark How would you adjust this if you had uneven amounts of colour - say 30% red + 70% blue? – glenstorey Apr 21 '12 at 0:36
I try to emulate real world color in my UIColor+Mixing category. It mixes in RGB (computer style), RYB (real world, additive), and CMYK (real world, subtractive). The algorithms are pretty simple and you can adjust the divisor (based on the number of colors) to get more of what you like. No limitations - have fun with it - github.com/ddelruss/UIColor-Mixing Enjoy. – Damien Del Russo May 3 '12 at 20:32
@glenstorey, did you try it? If you do `average_colors((.3*255,0,0),(0,0,.7*255))` you get `(127, 0, 127)` which is a purple. I also have a completely different take on this problem at stackoverflow.com/a/14659056/5987 which returns `(48, 0, 255)`, a blue with just a touch of purple. – Mark Ransom Feb 5 '13 at 5:21
@MarkRansom to be honest I gave up, and changed the project paradigm a bit. There's a really good article about the complexity inherit in this problem here: fastcompany.com/3002676/… – glenstorey Feb 5 '13 at 23:04

Actually, you get green from mixing (subtractively) yellow and cyan. Yellow is red + green (255, 255, 0), cyan is green + blue (0, 255, 255). Now make their opposite colors: blue (0, 0, 255) and red (255, 0, 0). Mix them additively and you get purple (255, 0, 255). Make its opposite and you get green (0, 255, 0).

In other words, you can get a subtractive mix as the opposite of the additive mix of the opposites of your two colors.

-

The colour space RBG is based on light emission, the colour space of dyes and pigments is based on light absorption.

e.g. Plant's don't look green because they emit green light, but because they absorb all the other colours of light, reflecting only green.

Based on this, you should be able to get pretty close by doing a conversion from RGB to an absorptive colour space, doing the "mix" and then back again.

-
CMYK is the standard absorptive colour space. – blueberryfields May 25 '11 at 21:10
CMYK is one of the commonly used absorptive colour spaces, perhaps the most common. It's certainly enough to solve the OP problem. – Bevan May 26 '11 at 0:53

You wanna use subtractive CMY-colors (Cyan, Magenta, Yellow) (as LaC is doing, whithout using the term)

The conversion back and forth is simple: (C,M,Y) = (-R,-G,-B).
So CMY(0,0,0) is white and CMY(FF,FF,FF) is black.

When you add two CMY colors, there are different ways to calculate the new values. You can take the average, max or something in between for each color value.
Eg. for light-filters you always use the max value. For paint you properly want to use, something closer to the average value.

As LaC points out, you don't get green from mixing yellow and blue, but from mixing yellow and cyan. Yellow and blue actually gives black, when mixing by max value (eg. light filters). This is why, you might want to use something closer to the average value for paint mixing.

You don't wanna use CMYK, unless you want to print something. The black "K" color is primarily used in printers to save ink, but it's not needed to represent colors.

-

Use Convert::Color to produce this sort of output:

``````mauve        is 0xE0B0FF  sRGB=[224,176,255]  HSV=[276, 31,100]
vermilion    is 0xE34234  sRGB=[227, 66, 52]  HSV=[  5, 77, 89]
mix          is 0xE2799A  sRGB=[226,121,154]  HSV=[341, 46, 89]

red          is 0xFF0000  sRGB=[255,  0,  0]  HSV=[  0,100,100]
blue         is 0x0000FF  sRGB=[  0,  0,255]  HSV=[240,100,100]
red+blue     is 0x800080  sRGB=[128,  0,128]  HSV=[300,100, 50]

black        is 0xFFFFFF  sRGB=[255,255,255]  HSV=[  0,  0,100]
white        is 0x000000  sRGB=[  0,  0,  0]  HSV=[  0,  0,  0]
grey         is 0x808080  sRGB=[128,128,128]  HSV=[  0,  0, 50]

dark red     is 0xFF8080  sRGB=[255,128,128]  HSV=[  0, 50,100]
light red    is 0x800000  sRGB=[128,  0,  0]  HSV=[  0,100, 50]

pink         is 0x800080  sRGB=[128,  0,128]  HSV=[300,100, 50]
deep purple  is 0xBF80FF  sRGB=[191,128,255]  HSV=[270, 50,100]
``````

When running this sort of code:

``````#!/usr/bin/env perl
use strict;
use warnings;

use Convert::Color;

main();
exit;

sub rgb(\$\$\$) {
my(\$r, \$g, \$b) = @_;
return new Convert::Color:: "rgb8:\$r,\$g,\$b";
}

sub show(\$\$) {
my (\$name, \$color) = @_;
printf "%-12s is 0x%6s", \$name,  uc \$color->hex;
printf "  sRGB=[%3d,%3d,%3d] ",     \$color->rgb8;

my (\$h,\$s,\$v) = \$color->as_hsv->hsv;
for (\$s, \$v) { \$_ *= 100 }
printf " HSV=[%3.0f,%3.0f,%3.0f] ",  \$h, \$s, \$v;
print "\n";
}

sub main {
my \$vermilion = rgb 227,  66,  52;
my \$mauve     = rgb 224, 176, 255;
show mauve      => \$mauve;
show vermilion  => \$vermilion;

my \$mix = alpha_blend \$mauve \$vermilion;
show mix => \$mix;
print "\n";

my \$red   = rgb 255,   0,   0;
my \$blue  = rgb   0,   0, 255;
show red  => \$red;
show blue => \$blue;

\$mix = alpha_blend \$red \$blue;
show "red+blue" => \$mix;
print "\n";

my \$black = rgb 255, 255, 255;
my \$white = rgb 0,     0,   0;
show black => \$black;
show white => \$white;

my \$grey  = alpha_blend \$black \$white;
show grey  => \$grey;
print "\n";

my \$dark_red  = alpha_blend \$red \$black;
my \$light_red = alpha_blend \$red \$white;

show "dark red"  => \$dark_red;
show "light red" => \$light_red;
print "\n";

my \$magenta = rgb 255, 0, 255;
my \$violet  = rgb 127, 0, 255;

my \$pink        = alpha_blend \$magenta \$white;
my \$deep_purple = alpha_blend \$violet  \$black;

show pink          => \$pink;
show "deep purple" => \$deep_purple;;
}
``````
-
After installing Convert::Color from search.cpan.org/src/PEVANS/List-UtilsBy-0.07/lib/List/… and List::UtilsBy from search.cpan.org/src/PEVANS/List-UtilsBy-0.07/lib/List/…, this is what I get when I run the above perl script (added the missing "}" at the end): Unrecognised color space name 'rgb8' at ./color.pl line 12 – Alexander May 26 '11 at 10:12
Well, that's the program I ran. Oh I see, I'm running version 0.08 of Convert::Color. Check your version number. – tchrist May 26 '11 at 13:02
An answer that forces you to deal with Perl instead of dealing with the problem at hand isn't what I was looking for... – Alexander May 2 '12 at 12:33