The Hilbert curve Wikipedia article includes some C code that shows how to map coordinates to the curve but it only works for two-dimensions. I'm having trouble finding any examples that work for N-dimensions (curve examples are plentiful but not the mapping function). Does someone have any code or the description of an algorithm for doing so that they can share?

I'm currently blocked on the rotation function. I can guess, but since I can't find any sort of paper or other description using language that I can understand I can't be confident of what I end-up with.

Note that I'd love to see something that's as simple as the Wikipedia version. It seems like the mutation that I'm going for should also be very simple. I found the SO post at Mapping N-dimensional value to a point on Hilbert curve but it's so complex and such a foreign design to the one I started with (even though both are non-recursive so it seems like they should be more similar) that it looks totally opaque to me.

  • So you didn't find this: stackoverflow.com/questions/499166/… – Morrison Chang Jan 23 '17 at 4:40
  • Of course I did, but the algorithms are completely different with that one being considerably more complicated. Neither of them seems to be recursive (which I thought might be the only difference), but the Wikipedia version principally uses summing whereas that SO-post's version principally uses XORs. I'm assuming, as a lay-person, that the gray-encode at the end merely has to do with deterministic sorting and can be disposed of. Since the Wikipedia version is so simple, accounting for N-dimensions should also be simple. No need to introduce so much complexity (unless I'm driven to, anyway). – Dustin Oprea Jan 23 '17 at 4:50
  • I updated the post to cite that. – Dustin Oprea Jan 23 '17 at 4:55
  • I'm not sure what you mean by gray-encode at the end merely has to do with deterministic sorting and can be disposed of as that sounds like you are not getting the idea as stated in the Wikipedia article that Hilbert curves in higher dimensions are an instance of a generalization of Gray codes It may help to explain what you mean by 'rotation function'. – Morrison Chang Jan 23 '17 at 5:23
  • If you are trying to draw a Hilbert Curve in 3 dimensions (or more?) - have you looked at L-Systems math.stackexchange.com/questions/123642/… – Morrison Chang Jan 23 '17 at 5:38

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