# Image colorization algorithm

I have an image whose pixel colors I want to change to match a particular color (though not completely).

As an example, I want to tint the image of a red car so that it appears blue. I can do this with the GIMP and with ImageMagick, but I would like to know which algorithm they are using to do this so I can implement it in my own program.

I have tried to do this with simple addition of the difference between the colors but it doesn't work very well.

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I think that the GIMP converts the image to HSV and tweaks the `v` component of every pixel. That's my guess, as I have no idea how it works also. –  Blender Sep 7 '11 at 4:31
What color model are you using? If you're in RGB space, I don't know how to do this. If you're using HSV or any of its variants, it really is just an addition (modulo MAX_VALUE). (And of course, you can convert between RGB and HSV/HSL/HSB/...) –  nobody Sep 7 '11 at 4:36
@Blender I think it actually changes the hue rather than the value. –  omouse Sep 9 '11 at 3:33
That's what I meant ;) –  Blender Sep 9 '11 at 16:14

As just a shot in the dark, untested suggestion from someone who's getting into image processing fairly recently... maybe you could just scale the channels?

For example:

``````RGB_Pixel.r = RGB_Pixel.r * 0.75;
RGB_Pixel.g = RGB_Pixel.g * 0.75;
RGB_Pixel.b = RGB_Pixel.b * 1.25;
``````

If you loop through your image pixel-by-pixel with those three changes, I'd expect you to see the image shift towards blue, and the numbers of course can be trial-and-error'd.

EDIT: Now if you want to ONLY change the color of pixels that are a certain color to begin with, say, you want to turn a blue car red without doing anything to the rest of the picture, you'll need to run a check on each pixel to see what color it looks like. One way to do this is to use a Euclidean distance:

``````int* R = RGB_Pixel.r;
int* G = RGB_Pixel.g;
int* B = RGB_Pixel.b;

// You are looking for Blue, which is [0 0 255];
// this variable D is the distance of your current pixel from the desired color.
float D = sqrt( (R-0)*(R-0) + (G-0)*(G-0) + (B-255)*(B-255) );

if(D < threshold)
{
R = R * 0.75;
G = G * 0.75;
B = B * 1.25;
}
``````

The threshold variable is a number between 1 and 255 that represents the maximum distance a color can be from the color you're looking for and still be considered "close enough". This is because you don't want to only look for [0 0 255], very rarely will you find perfect blue (or perfect anything) in an image.

You want to use the lowest threshold you can get away with so that you don't end up coloring other things that aren't part of the object you're looking for, but you want to make sure your threshold is high enough that it covers your entire image. One way to do this is to set up multiple D variables, each with a different target color, so you can capture a few separate types of "blue" without using a really high threshold. For instance, to the human eye, [102 102 200] looks like blue, but might require a pretty high threshold to catch if [0 0 255] is your target color.

I suggest playing with this calculator to get a feel for which colors you want to search for specifically.

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Also don't forget to put something in place to prevent your new Blue element from going above 255 (or whatever limit you're using). –  Andrew Sep 7 '11 at 4:32
That seems to work to some extent, not sure how I would get those scales from RGB values... –  omouse Sep 7 '11 at 4:44
What do you mean, "get those scales from RGB values"? I'm not sure exactly what your goal is here, are you wanting to scale your entire image or just an object within the image? If you're looking to change the color of a something specific inside your image, you'll need to do some color detection, which I can help you with since that's exactly what I'm working with on my current project. –  Andrew Sep 13 '11 at 22:26
by scale I meant the values that decimal values you gave in order to change the colours :p do you have a link to info about your project? –  omouse Sep 14 '11 at 3:34
I'm not calculating those decimal values from anything, they're just examples. The point is to slightly reduce the red and green elements and slightly increase the blue element in the pixel, shifting its overall color towards blue. The actual amount you shift it is up to you. –  Andrew Sep 14 '11 at 11:54