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My algorithm produces a list of (usually) several thousand line segments (all 2D) which I need to join up into large polylines. These resulting polylines might be closed or open, but they are never self-intersecting. The line segments are not directed, i.e. it might be needed to flip a line segment before it can be joined to its neighbour.

What would be an extremely fast way of finding these polylines? I have to do this in real-time, so anything that takes longer than -say- 10ms is not a solution.

I'm doing this in C#, but I'm looking for ideas, not source.

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2 Answers

up vote 8 down vote accepted

Would a hash of endpoints work?

If the endpoints match exactly then you can just store each object twice in a hash, once by each endpoint. Then, for each object, look up both its end points. You will get any other objects that need to be joined.

If the endpoints have any kind of imprecision, then you will need a spatial index, and probably one that uses an R-tree. You can get a similar effect by just making a 2d hash grid. The hash grid contains buckets of nearby endpoints. You will need to check neighboring cells.

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Agreed. Perhaps he's having difficulty linearizing the sequence of connected points. That's easy; just store each undirected segment twice (once for each endpoint) and visit the point you didn't come from. –  Jonathan Graehl Sep 17 '09 at 0:19
Oh, definitely, I wanted each object stored twice, once for each endpoint. Good point, I should have said that in so many words. –  DigitalRoss Sep 17 '09 at 0:27
It might work. I was just wondering if there are specialised algorithms that handle this particular problem very well. The endpoints match exactly, I luckily do not have to deal with tolerance issues. ps. I'll be sure to put them in twice :) –  David Rutten Sep 17 '09 at 0:39
It should be possible to go a lot faster than this if there are some helpful invariants. For example, is the ordering of joinable segments in any way constrained? –  DigitalRoss Sep 17 '09 at 1:02
My 2D space is divided into rectangular cells, and each cell contains 0, 1 or 2 segments. The end-points of each segment are on the cell border. –  David Rutten Sep 17 '09 at 2:41
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For people with this problem in Matlab, calling patch(xpoints, ypoints) may be a kludgy way to solve this with fast, native code.

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this just draws the lines in matlab, OP is asking for a way to find which lines needs to be connected imo –  Gunther Struyf Oct 4 '12 at 10:05
Correct, but it does plot them as a single patch object, which is much faster and more responsive than plotting all your original lines individually, so in that limited way it is helpful. –  Chinasaur Oct 5 '12 at 5:33
Of course it's helpful for plotting; but OP's asking for a way to get the joined segments, not necessarily for plotting. and he's doing it in C#. Thus the downvote. –  Gunther Struyf Oct 5 '12 at 6:34
Fair enough; I agree it's not a good answer to the OP, but since I found this page in a search and my answer solves what I needed to do at the time I thought I would post it. –  Chinasaur Oct 7 '12 at 21:44
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