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Retrieve set of rectangles containing a specified point

I can't figure out how to implement this in a performing way, so I decided to ask you guys.

I have a list of rectangles - actually atm only squares, but I might have to migrate to rectangles later, so let's stick to them and keep it a bit more general - in a 2 dimensional space. Each rectangle is specified by two points, rectangles can overlap and I don't care all too much about setup time, because the rectangles are basicly static and there's some room for precalculate any setup stuff (like building trees, sorting, precalculating additional vectors, whatever etc). Oh I am developing in JavaScript if this is of any concern.

To my actual question: given a point, how do I get a set of all rectangles that include that point?

Linear approaches do not perform well enough. So I look for something that performs better than O(n). I read some stuff, like on Bounding Volume Hierarchies and similar things, but whatever I tried the fact that rectangles can overlap (and I actually want to get all of them, if the point lies within multiple rectangles) seems to always get into my way.

Are there any suggestions? Have I missed something obvious? Are BVH even applicable to possibly overlapping bounds? If so, how do I build such a possibly overlapping tree? If not, what else could I use? It is of no concern to me if borders are inside, outside or not determined.

If someone could come up with anything helpfull like a link or a rant on how stupid I am to use BVH and not Some_Super_Cool_Structure_Perfectly_Suited_For_My_Problem I'd really appreciate it!

Edit: Ok, I played around a bit with R-Trees and this is exactly what I was looking for. Infact I am currently using the RTree implementation http://stackulator.com/rtree/ as suggested by endy_c. It performs really well and fullfills my requirements entirely. Thanks alot for your support guys!

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I assume your rectangles are aligned with the cartesian axes? – peter.murray.rust Oct 31 '10 at 15:14
Yes, sorry forgot to mention that. The setup is basicly very simple except the fact rectangles can overlap. It is really trivial linearly but as soon as you (or I, for the fact) try to reduce complexity (what an irony) it gets out of hand and I don't get the grip on it. – Daniel Baulig Oct 31 '10 at 15:24
we can use persistent segment tree to optimize it to O(log n) per query. – Siqi Ouyang Jun 30 at 8:33

You could look at R-Trees

Java code

there's also a wiki, but can only post one link ;-)

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Another sample in javascript: stackulator.com/rtree – Endy Tjahjono Oct 31 '10 at 15:56

You can divide the space into grid, and for each grid cell have a list of rectangles (or rectangle identifiers) that exist at least partially in that grid. Search for rectangles only in corresponding grid's cell. The complexity should be O(sqrt(n)).

Another approach is to maintain four sorted arrays of x1,y1,x2,y2 values, and binary search your point within those 4 arrays. The result of each search is a set of rectangle candidates, and the final result is intersection of those 4 sets. Depending on how set intersection is implemented this should be efficient than O(n).

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+1 Nice approaches - But we still have to know what's `n` (points or rectangles). – Adam Matan Oct 31 '10 at 15:41
I really like your first approach, as simple it might be. I thought about using a "grid" and in fact it basicly is the BVH appraoch (but layed out linearly and not hierarchly) but to my shame never though about putting rectangles in multiple zones. I'll think a bit more about it. – Daniel Baulig Oct 31 '10 at 15:41