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I'm looking for a fast, accurate implementation of RGB to HSB and HSB to RGB in pure C. Note that I'm specifically looking for Hue, Saturation, Brightness and not HSL (Luminosity).

Of course I have Googled this extensively, but speed is of the utmost importance here and I am looking for any specific recommendations for solid, fast, reliable code.

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Unless you're using HSB due to some outside requirement you can't change, drop it. HSB (along with HSL) is a fundamentally broken color model that has nothing to do with reality and leads to hideous things like colors changing intensity when you change their hue. (Mathematically speaking, conversion to grayscale does not commute with hue wheel rotations.) –  R.. Jul 7 '11 at 21:33

3 Answers 3

up vote 3 down vote accepted

First off

HSB and HLS were developed to specify numerical Hue, Saturation and Brightness (or Hue, Lightness and Saturation) in an age when users had to specify colors numerically. The usual formulations of HSB and HLS are flawed with respect to the properties of color vision. Now that users can choose colors visually, or choose colors related to other media (such as PANTONE), or use perceptually-based systems like L*u*v* and L*a*b*, HSB and HLS should be abandoned [source]

Look at the opensource Java implementation here

Boost library (I know, it's C++) seemed to contains conversion to HSB at one time but nowadays I can only find a luminance conversion (here)

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I converted the Java implementations (very very easy) and it works nicely. Thanks –  Cruachan Jul 21 '11 at 13:57
Cheers! Coincidentally, as you'd have noticed, I did exactly the same and posted it as the other answer exactly two weeks ago :) –  sehe Jul 21 '11 at 16:20

Here is a straightforward implementation in standard C.

This is - without further context - as good as it can get. Perhaps you care to shed some more light on

  • how you store your RGB samples (bits/pixel to begin with !?)
  • how you store your pixel data (do you want to efficiently transform larger buffers, if so, what is the organization)
  • how you want to represent the output (I assumed floats for now)

I could come up with a further optimized version (perhaps one that utilisze SSE4 instructions nicely...)

All that said, when compiled with optimizations, this doesn't work too badly:

#include <stdio.h>
#include <math.h>

typedef struct RGB_t { unsigned char red, green, blue; } RGB;
typedef struct HSB_t { float hue, saturation, brightness; } HSB;

 * Returns the hue, saturation, and brightness of the color.
void RgbToHsb(struct RGB_t rgb, struct HSB_t* outHsb)
    // TODO check arguments

    float r = rgb.red / 255.0f;
    float g = rgb.green / 255.0f;
    float b = rgb.blue / 255.0f;
    float max = fmaxf(fmaxf(r, g), b);
    float min = fminf(fminf(r, g), b);
    float delta = max - min;
    if (delta != 0)
        float hue;
        if (r == max)
            hue = (g - b) / delta;
            if (g == max)
                hue = 2 + (b - r) / delta;
                hue = 4 + (r - g) / delta;
        hue *= 60;
        if (hue < 0) hue += 360;
        outHsb->hue = hue;
        outHsb->hue = 0;
    outHsb->saturation = max == 0 ? 0 : (max - min) / max;
    outHsb->brightness = max;

Typical usage and test:

int main()
    struct RGB_t rgb = { 132, 34, 255 };
    struct HSB_t hsb;

    RgbToHsb(rgb, &hsb);

    printf("RGB(%u,%u,%u) -> HSB(%f,%f,%f)\n", rgb.red, rgb.green, rgb.blue,
           hsb.hue, hsb.saturation, hsb.brightness);
    // prints: RGB(132,34,255) -> HSB(266.606354,0.866667,1.000000)

    return 0;
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I would suggest using a lookup table to store the HSB and RGB values. First convert the RGB value (which is presumably 8 bits per component) to a 16-bit value (5 bits per component). The HSB values, also 16-bit values, can be converted in the same way, whereby here, the hue component should probably use more bits than the saturation and brightness, probably 8 bits per component, and the saturation and brightness 4 bits each. Of course, the reverse will apply when converting from HSB to RGB.

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Good hints on optimization strategies. However, the trade off being made cannot be argued; the OP's requirements are too vague (fast, accurate implementation) –  sehe Jul 7 '11 at 18:53

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