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I am developing an iOS app in which the user can change a part of an image's color, say a Tea Cup, by touching it. I am using Floodfill algorithm to fill colors so that the user has to tap on the Tea Cup to change its color. That's working fine. But, the final color looks little different than the replacement color. I have some problem finding out a better logic to convert the object's(Tea Cup) color to the selected color considering its saturation & lightness.

I am using the following logic to get the result color. I am representing color as (hue, saturation, value).

touchedColor = (tchd_h, tchd_s, tchd_v); // I am not using this now 

pixelColor = (old_h, old_s, old_v); 
replacementColor = (new_h, new_s, new_v);
resultColor = (new_h, new_s, old_v);
pixelColor = resultColor;

The cup before painting (circled with red color).

enter image description here

The selected replacementColor.

enter image description here

Cup after painting the replacementColor (circled with red color).

enter image description here

See the final image above. As I am just changing only the hue & saturation, and not the value of the pixelColor, the applied color doesn't look similar to the selected replacementColor. The lightness of the image remains unaltered.

If I change the value along with hue & saturation like this,

resultColor = (new_h, new_s, new_v);
pixelColor = resultColor;

Then the cup becomes flat colored, missing the lights & shades like this,

enter image description here

I want some idea to tweak the above logic to change the pixel color into a matching replacement color. May be some formula to derive the saturation & value.

share|improve this question
Maybe show us an example of what you think is wrong? I can't see a problem with the basic premise. – Mark Ransom Jan 31 '12 at 4:41
@Mark Ransom, Yes, I've updated my question with the images. – EmptyStack Jan 31 '12 at 6:14

In your example, let's call the pink color the "Color To Replace," and let's call the brown color the "Replacement Color." For each pixel in the destination, find the corresponding pixel in the source. See how it varies from the "Color to Replace". Now make similar adjustments to the "Replacement Color" and use that as the color at the current output pixel.

As an example, if the current source pixel is darker than the color to replace by 5 "v" units, then set the output pixel to the replacement color made darker by 5 "v" units. (And you'd want to make the same adjustments in hue and saturation, as well.)

You'll probably need to limit the range of colors you adjust so you aren't turning other objects a different color.

share|improve this answer
Thanks for the response. I can understand what you are saying. I don't know how to implement it in real time. Can you show me some pseudo code or something? I am struggling to implement this for more than a month now. – EmptyStack Feb 1 '12 at 4:08
To do it in real-time, you might try writing an OpenGL shader in glsl. A basic pseudo-code algorithm would be something like this: pixelColor = (old_h, old_s, old_v); pixelDiff = (touched_h - old_h, touched_s - old_s, touched_v - old_v); resultColor = (new_h - pixelDiff.h, new_s - pixelDiff.s, new_v - pixelDiff.v); – user1118321 Feb 1 '12 at 17:58
Calculating the resultColor based on the touched color doesn't give a uniform output as the car color is not a solid color. For example if I touch a dark color in the car then it gives the output in one variant, and if I select a light color in the car then the output is in different variant. – EmptyStack Feb 6 '12 at 5:32
You could always take the touched color, and set the v component to 50%, or something like that. It's going to depend entirely on how you want the effect to work. You could do something more complicated, like search an area around the touched point and average it, or find connected pixels that are within a color range and average them. – user1118321 Feb 6 '12 at 5:42
I would use vector images for this kind of problem. – Claudio Ferraro Oct 11 '13 at 16:06

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