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opengl - How to change hue of a texture with GLSL?

Is there a way to efficiently change hue of a 2D OpenGL texture using GLSL (fragment shader)?

Do someone have some code for it?

UPDATE: This is the code resulting from user1118321 suggestion:

uniform sampler2DRect texture;
const mat3 rgb2yiq = mat3(0.299, 0.587, 0.114, 0.595716, -0.274453, -0.321263, 0.211456, -0.522591, 0.311135);
const mat3 yiq2rgb = mat3(1.0, 0.9563, 0.6210, 1.0, -0.2721, -0.6474, 1.0, -1.1070, 1.7046);
uniform float hue;

void main() {

vec3 yColor = rgb2yiq * texture2DRect(texture, gl_TexCoord[0].st).rgb; 

float originalHue = atan(yColor.b, yColor.g);
float finalHue = originalHue + hue;

float chroma = sqrt(yColor.b*yColor.b+yColor.g*yColor.g);

vec3 yFinalColor = vec3(yColor.r, chroma * cos(finalHue), chroma * sin(finalHue));
gl_FragColor    = vec4(yiq2rgb*yFinalColor, 1.0);
}

And this is the result compared with a reference:

enter image description here

I have tried to switch I with Q inside atan but the result is wrong even around 0°

Have you got any hint?

If needed for comparison, this is the original unmodified image: enter image description here

See Question&Answers more detail:os

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While what @awoodland says is correct, that method may cause issues with changes in luminance, I believe.

HSV and HLS color systems are problematic for a number of reasons. I talked with a color scientist about this recently, and his recommendation was to convert to YIQ or YCbCr space and adjust the the chroma channels (I&Q, or Cb&Cr) accordingly. (You can learn how to do that here and here.)

Once in one of those spaces, you can get the hue from the angle formed by the chroma channels, by doing hue = atan(cr/cb) (watching for cb == 0). This gives you a value in radians. Simply rotate it by adding the hue rotation amount. Once you've done that, you can calculate the magnitude of the chroma with chroma = sqrt(cr*cr+cb*cb). To get back to RGB, calculate the new Cb and Cr (or I & Q) using Cr = chroma * sin (hue), Cb = chroma * cos (hue). Then convert back to RGB as described on the above web pages.

EDIT: Here's a solution that I've tested and seems to give me the same results as your reference. You can probably collapse some of the dot products into matrix multiplies:

uniform sampler2DRect inputTexture;
uniform float   hueAdjust;
void main ()
{
    const vec4  kRGBToYPrime = vec4 (0.299, 0.587, 0.114, 0.0);
    const vec4  kRGBToI     = vec4 (0.596, -0.275, -0.321, 0.0);
    const vec4  kRGBToQ     = vec4 (0.212, -0.523, 0.311, 0.0);

    const vec4  kYIQToR   = vec4 (1.0, 0.956, 0.621, 0.0);
    const vec4  kYIQToG   = vec4 (1.0, -0.272, -0.647, 0.0);
    const vec4  kYIQToB   = vec4 (1.0, -1.107, 1.704, 0.0);

    // Sample the input pixel
    vec4    color   = texture2DRect (inputTexture, gl_TexCoord [ 0 ].xy);

    // Convert to YIQ
    float   YPrime  = dot (color, kRGBToYPrime);
    float   I      = dot (color, kRGBToI);
    float   Q      = dot (color, kRGBToQ);

    // Calculate the hue and chroma
    float   hue     = atan (Q, I);
    float   chroma  = sqrt (I * I + Q * Q);

    // Make the user's adjustments
    hue += hueAdjust;

    // Convert back to YIQ
    Q = chroma * sin (hue);
    I = chroma * cos (hue);

    // Convert back to RGB
    vec4    yIQ   = vec4 (YPrime, I, Q, 0.0);
    color.r = dot (yIQ, kYIQToR);
    color.g = dot (yIQ, kYIQToG);
    color.b = dot (yIQ, kYIQToB);

    // Save the result
    gl_FragColor    = color;
}

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