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I'm writing a web app that takes a user-submitted image, gets the pixel data via a canvas element, does some processing, and then renders the image using vector shapes (using Protovis). It's working well, but I end up with several thousand colors, and I'd like to let the user pick a target palette size and reduce the color palette to that size.

At the point where I want to reduce the color space, I'm working with an array of RGB pixel data, like this:

[[190,197,190], [202,204,200], [207,214,210], [211,214,211], [205,207,207], ...]

I tried the naive option of just removing least-significant bits from the colors, but the results were pretty bad. I've done some research on color quantization algorithms, but have yet to find a clear description of how to implement one. I could probably work out a cludgy way to send this to the server, run it though an image processing program, and send the resulting palette back, but I'd prefer to do it in Javascript on the client side.

Does anyone have an example of a clearly explained algorithm (or better yet, an actual Javascript implementation) that would work here? The goal is to reduce a palette of several thousand colors to a smaller palette optimized for this specific image.

Edit (7/25/11): I took @Pointy's suggestion and implemented (most of) Leptonica's MMCQ (modified median cut quantization) in Javascript. If you're interested, you can see the code here.

Edit (8/5/11): The clusterfck library looks like another great option for this (though I think it's a bit slower than my implementation).

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Instead of just lopping off some bits and leaving it at that, perhaps you could use the 6-bit or 4-bit values for grouping the actual colors. Once you identify the groups, you can then compute an average (or median or whatever) for all the actual members of each group. (Note that I know almost nothing about image processing theory :-) – Pointy Jun 1 '11 at 18:35
... ha ha, what I typed is what that first paragraph under "Algorithms" says, pretty much :-) – Pointy Jun 1 '11 at 18:37
@Pointy - yup :). I'm hoping someone can provide a good algorithm for this - I get that the basic idea is "cluster, then take the mean of each cluster", but I'm a bit at sea about how to do the clustering. – nrabinowitz Jun 1 '11 at 19:10
I clicked through some of the links from the Wikipedia page and found that the "MMCQ" (the "modified median cut quantization") algorithm is available (in C) from Leptonica. It doesn't look trivial, but the code is quite nicely commented and the basic ideas seem pretty understandable (i.e., there's no esoteric moon math or anything). – Pointy Jun 1 '11 at 19:16
I don't know C, so I'm worried that this might take quite a lot of digging. Still, feel free to repost as an answer, so I can at least give you a +1 for it - looks like a good option to investigate. – nrabinowitz Jun 1 '11 at 19:24
up vote 8 down vote accepted

With the caveat that I don't claim any expertise at all in any field of image processing: I read over the Wikipedia article you linked, and from there found Dan Bloomberg's Leptonica. From there you can download the sources for the algorithms discussed and explained.

The source code is in C, which hopefully is close enough to JavaScript (at least in the core "formula" parts) to be understandable. The basic ideas behind the "MMCQ" algorithm don't seem super-complicated. It's really just some heuristic tricks for splitting up the 3-dimensional color space into sub-cubes based on the way colors in an image clump together.

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Well, I was hoping for something in pseudo-code or a language I knew - but it looks like now I have a weekend coding project :). – nrabinowitz Jun 4 '11 at 20:08
Did anything ever come from this? I'm looking for something similar. – asbjornenge Feb 18 '13 at 6:45

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