I got a XYZ to RGB converter from here and wrote it into C# but, I've been having some problems.

```
public static XYZColor RGBtoXYZ(RGBColor rgb)
{
XYZColor xyz = new XYZColor();
float r, g, b;
r = rgb.R;
g = rgb.G;
b = rgb.B;
if (r > 0.04045f) r = (float)Math.Pow((r + 0.055)/1.055, 2.4);
else r = r / 12.92f;
if (g > 0.04045) g =(float)Math.Pow((g + 0.055f)/1.055f , 2.4f);
else g = g/12.92f;
if (b > 0.04045f) b = (float)Math.Pow((b + 0.055f)/1.055f , 2.4f);
else b = b/12.92f;
r *= 100;
g *= 100;
b *= 100;
xyz.X = r*0.4124f + g*0.3576f + b*0.1805f;
xyz.Y = r*0.2126f + g*0.7152f + b*0.0722f;
xyz.Z = r*0.0193f + g*0.1192f + b*0.9505f;
xyz.A = rgb.A;
return xyz;
}
public static RGBColor XYZtoRGB(XYZColor xyz)
{
RGBColor rgb = new RGBColor();
float x, y, z;
x = xyz.X;
y = xyz.Y;
z = xyz.Z;
x = x/100; //X from 0 to 95.047 (Observer = 2°, Illuminant = D65)
y = y/100; //Y from 0 to 100.000
z = z/100; //Z from 0 to 108.883
rgb.R = x*3.2406f + y*-1.5372f + z*-0.4986f;
rgb.G = x*-0.9689f + y*1.8758f + z*0.0415f;
rgb.B = x*0.0557f + y*-0.2040f + z*1.0570f;
if (rgb.R > 0.0031308f) rgb.R = 1.055f*(float)Math.Pow(rgb.R, (1/2.4f)) - 0.055f;
else rgb.R = 12.92f*rgb.R;
if (rgb.G > 0.0031308f) rgb.G = 1.055f*(float)Math.Pow(rgb.G ,(1/2.4f)) - 0.055f;
else rgb.G = 12.92f*rgb.G;
if (rgb.B > 0.0031308f) rgb.B = 1.055f*(float)Math.Pow(rgb.B, (1/2.4f)) - 0.055f;
else rgb.B = 12.92f*rgb.B;
rgb.A = xyz.A;
return rgb;
}
```

On my testing application, I make a tilemap, each with it's own color, then give it a hue through HSV and cycle them so it shows the full spectrum. Then, every update it gets the hue added to so it moves through the spectrum.

However, when I convert the color to and from XYZ it shows up like this.

Here's the code in case you were interested. The `HSVtoRGB`

method works as expected.

```
Hue += HUEINCREASE;
RGBColor c = ColorMath.HSVtoRGB(Hue, 1, 1, 1);
//Convert to XYZ and back
XYZColor xyz = ColorMath.RGBtoXYZ(c);
c = ColorMath.XYZtoRGB(xyz);
Render.Color = c;
```

Both XYZColor and RGBColor are structs. RGBColor holds floats, and if it's value is greater than 1, it wraps the color around. So if it had a red value of 1.1f, it would wrap it to .1f;

`Blue (0,0,255)`

and ended up with a value that was roughly 1.0000002 in the blue channel. This would wrap around to 0.0000002 as you described and result in black (which is what your result shows). You probably need to clamp your values to the range of 0 to 1 after each calculation. – lukegravitt Aug 13 '13 at 23:47