Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I'm builing a fractal application and need to generate a smooth color scheme, and I found a nice algorithm at Smooth spectrum for Mandelbrot Set rendering.

But that required me to call Color.HSBtoRGB and that method is not available in WinRT / Windows Store apps.

Is there some other built-in method to do this conversion? Other tips on how to convert HSB to RGB?

share|improve this question

1 Answer 1

up vote 1 down vote accepted

I ended up using the HSB to RGB conversion algorithm found at http://www.adafruit.com/blog/2012/03/14/constant-brightness-hsb-to-rgb-algorithm/, I adopted the inital (long) version. Perhaps this can be further optimized but for my purpose this was perfect!

As the hsb2rgb method is in C and I needed C#, I'm sharing my version here:

    private byte[] hsb2rgb(int index, byte sat, byte bright)
    {
        int r_temp, g_temp, b_temp;
        byte index_mod;
        byte inverse_sat = (byte)(sat ^ 255);

        index = index % 768;
        index_mod = (byte)(index % 256);

        if (index < 256)
        {
            r_temp = index_mod ^ 255;
            g_temp = index_mod;
            b_temp = 0;
        }
        else if (index < 512)
        {
            r_temp = 0;
            g_temp = index_mod ^ 255;
            b_temp = index_mod;
        }

        else if ( index < 768)
        {
            r_temp = index_mod;
            g_temp = 0;
            b_temp = index_mod ^ 255;
        }

        else
        {
            r_temp = 0;
            g_temp = 0;
            b_temp = 0;
        }

        r_temp = ((r_temp * sat) / 255) + inverse_sat;
        g_temp = ((g_temp * sat) / 255) + inverse_sat;
        b_temp = ((b_temp * sat) / 255) + inverse_sat;

        r_temp = (r_temp * bright) / 255;
        g_temp = (g_temp * bright) / 255;
        b_temp = (b_temp * bright) / 255;

        byte[] color = new byte[3];
        color[0]    = (byte)r_temp;
        color[1]    = (byte)g_temp;
        color[2]    = (byte)b_temp;

        return color;
    }

To call it based on the code linked in the original post I needed to make some minor modifications:

    private byte[] SmoothColors1(int maxIterationCount, ref Complex z, int iteration)
    {
        double smoothcolor = iteration + 1 - Math.Log(Math.Log(z.Magnitude)) / Math.Log(2);
        byte[] color = hsb2rgb((int)(10 * smoothcolor), (byte)(255 * 0.6f), (byte)(255 * 1.0f));

        if (iteration >= maxIterationCount)
        {
            // Make sure the core is black
            color[0] = 0;
            color[1] = 0;
            color[2] = 0;
        }
        return color;
    }
share|improve this answer

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.