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I've been trying to get a visualisation going for a few days. I'm generating a diffraction image and want to color it depending on the wavelength of light.
The easiest way to get the right color was by using the HSV space with H varying with the wavelength and S,V set to 1.0
Alas, I can't find a formula/algorithm/way to mix different colors in the HSV space.

Is there a formula for mixing in HSV or maybe another comprehensible way?

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You might find this previous question informative: stackoverflow.com/questions/6130621/… – Mark Ransom Sep 12 '11 at 17:42
up vote 6 down vote accepted

Honestly, I'd convert the RGB, average the components and convert back to HSV.

It's not the most efficient way, but you'll presumably have or need RGB<->HSV code and the RGB calculation is likely to be much simpler.

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I've done as you suggested and it works. – Nox Sep 20 '11 at 16:10
It's more like 1. for every wavelength: calculate the intensity for each pixel. Normalize, add to the double Array (picture). 2. Before writing: Normalize the picture Array, scale by 255.0, cast into int 3. Finally store into File (raw PPM or with a bit more work PNG) The only thing remaining will be to check in some way whether the pictures are physically correct. – Nox Sep 20 '11 at 16:16
I don't fully understand, although it sounds interesting. If you are normalising RGB colours, you will be projecting them onto some curved region of colour space. Tbh for saving, these days I'd just write raw bytes and use ImageMagick on the command line to turn it into a PNG. – andrewmu Sep 20 '11 at 17:10

One of the standard references Computer Graphics: Principles and Practice by Foley et al. has this to say in section 13.3.7 "Interpolating in Color Space":

"When two images are blended [...] the colors may be quite distant, and an additive model, such as RGB, is appropriate. If, on the other hand, the objective is to interpolate between two colors of fixed hue (or saturation) and to maintain the fixed hue (or saturation) for all interpolated colors, then HSV or HLS is preferable. But note that fixed-saturation interpolation in HSV or HSL is not seen as having fixed saturation by the viewer [...]"

So they agree with the suggestion of @andrewmu, which seems like the best suggestion in general.

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What if you want to mix more than two colors in HSV space (brightness and saturation set to 1)? Can you just add up the color vectors on color wheel? If you add all the rainbow color this way (all the way around the wheel), you should get a white color, right? – pkout Apr 2 '13 at 15:48

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