Changing the tint of a bitmap while preserving the overall brightness

I'm trying to write a function that will let me red-shift or blue-shift a bitmap while preserving the overall brightness of the image. Basically, a fully red-shifted bitmap would have the same brightness as the original but be thoroughly red-tinted (i.e. the G and B values would be equal for all pixels). Same for blue-tinting (but with R and G equal). The degree of spectrum shifting needs to vary from 0 to 1.

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Would changing the color space to HSV and then shifting the hue do what you're looking for? – M. Dudley Feb 27 '10 at 15:45
HSV would kind of work, but not exactly. – MusiGenesis Feb 27 '10 at 15:58
Sounds like what you want is a "grayscale" image in a particular color, is that correct? – M. Dudley Feb 27 '10 at 21:14
@emddudley: yes, that's exactly what I wanted, and your comment triggered my solution below. Thanks. – MusiGenesis Mar 3 '10 at 1:52

You'd use the ColorMatrix class for this. There's a good tutorial available in this project.

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Here is the effect I was looking for (crappy JPEG, sorry):

The image in the middle is the original, and the side images are fully red-shifted, partially red-shifted, partially blue-shifted and fully blue-shifted, respectively.

And here is the function that produces this effect:

``````public void RedBlueShift(Bitmap bmp, double factor)
{
byte R = 0;
byte G = 0;
byte B = 0;
byte Rmax = 0;
byte Gmax = 0;
byte Bmax = 0;
double avg = 0;
double normal = 0;
if (factor > 1)
{
factor = 1;
}
else if (factor < -1)
{
factor = -1;
}
for (int x = 0; x < bmp.Width; x++)
{
for (int y = 0; y < bmp.Height; y++)
{
Color color = bmp.GetPixel(x, y);
R = color.R;
G = color.G;
B = color.B;
avg = (double)(R + G + B) / 3;
normal = avg / 255.0; // to preserve overall intensity
if (factor < 0) // red-tinted:
{
if (normal < .5)
{
Rmax = (byte)((normal / .5) * 255);
Gmax = 0;
Bmax = 0;
}
else
{
Rmax = 255;
Gmax = (byte)(((normal - .5) * 2) * 255);
Bmax = Gmax;
}
R = (byte)((double)R - ((double)(R - Rmax) * -factor));
G = (byte)((double)G - ((double)(G - Gmax) * -factor));
B = (byte)((double)B - ((double)(B - Bmax) * -factor));
}
else if (factor > 0) // blue-tinted:
{
if (normal < .5)
{
Rmax = 0;
Gmax = 0;
Bmax = (byte)((normal / .5) * 255);
}
else
{
Rmax = (byte)(((normal - .5) * 2) * 255);
Gmax = Rmax;
Bmax = 255;
}
R = (byte)((double)R - ((double)(R - Rmax) * factor));
G = (byte)((double)G - ((double)(G - Gmax) * factor));
B = (byte)((double)B - ((double)(B - Bmax) * factor));
}
color = Color.FromArgb(R, G, B);
bmp.SetPixel(x, y, color);
}
}
}
``````
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Huh? Why would somebody down-vote this answer? – MusiGenesis Jun 12 '10 at 1:56
I could imagine this code to be very slow as it uses per-pixel operations. I would look into the ColorMatrix class as Hans Passant suggested. – Will Kru Jun 13 '11 at 14:02
@Will Kru: yes, my code as posted would be super-duper-slow thanks to `GetPixel` and `SetPixel`. However, ColorMatrix will not work for me as my "Bitmaps" are not really .NET bitmaps - they're 2D `int` arrays. My included function uses .NET bitmaps and GetPixel/SetPixel so that it's more useful to others. – MusiGenesis Jun 13 '11 at 19:33