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I'm looking for a data structure that supports finding which of "n" regions contains a point "p". I was looking at Quadtree's and R-trees however I don't think they fit exactly what I'm looking for.

In essence I want to be able to add some number of 3 dimensional rectangular regions to this tree, and then be able to test a 3 dimensional point against this tree and return which region most tightly constrains the point. No regions will have overlapping borders.

The naive algorithm I'm currently using is to simply test the point "p" against each dimension of each rectangular region.

for(region in regionList):
    if(p.x > region.x1 && p.x < region.x2 && p.y > region.y1 && py < region.y2 && p.z > region.z1 && p.z < region.z2)
        return region

This runs in O(n) time where n is the number of regions. I'd like the search to take O(log n) as a point Quadtree does for finding 2d points.

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This looks promising. – RocketRoy Feb 6 '13 at 3:21
Since the regions cannot overlap, at most, only one can contain the point. This makes the question of "...return which region most tightly constrains the point." a logical impossibility. 1, and only 1 can constrain the point. – RocketRoy Feb 7 '13 at 2:46
This app might make very good use of the new SIMD Extensions, with 16 128 bit registers for 3D graphics apps. – RocketRoy Feb 9 '13 at 8:25
up vote 0 down vote accepted

I'd suggest a QuadTree which stores regions like a MX-CIF tree. It's essentially a QuadTree based on 2 dimensions (x,y). Once you find an appropriate Node which contains the point in terms of (x,y), you can check to see if it contains the point in all three (x,y,z) dimensions.

I've done something similar in Java.

You can also look into Octree which is a 3-dimensional QuadTree.

share|improve this answer
Just to make sure I'm understanding you correctly. Are you suggesting that I check to see if the point is in the xy region using the Quadtree and then just independently check to see if the point is also within that region's z boundaries? What happens if I have two regions, one above the other? What would the Quadtree return? – Rovert Renchirk Feb 5 '13 at 20:42
A point cannot exist in multiple regions, right? Wasn't that part of your problem statement? – Justin Feb 5 '13 at 21:02
Right, but since the MX-CIF tree tests if a point is within a 2d region. If I have 3d regions then a point could be within the projections of two 3d regions without being in both of those regions. Unless you meant that I adapt the MX-CIF tree to 3 dimensions, in which case that should work. – Rovert Renchirk Feb 6 '13 at 17:04
A point can only be in the same XY space of two non-overlapping boundary rectangles if they occupy different Z space. "Above the other" implies a different Y space, not Z space. I think you mean "behind the other" - in which case they would have the same XY space, but a different Z space, so Justin's suggest works fine. – RocketRoy Feb 7 '13 at 2:55
In any case, only one rectangle, if any, can contain the point, so the question of "which constrains the point most tightly" cannot be answered by your suggested construct. Perhaps you need to give your problem definition some closer scrutiny. – RocketRoy Feb 7 '13 at 2:58

Check out Segment Trees and KD Trees.

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