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I'm trying to determine a fast way of storing a set of objects, each of which have an x and y coordinate value, such that I can quickly retrieve all objects within a certain rectangle or circle. For small sets of objects (~100) the naive approach of simply storing them in a list, and iterating through it, is relatively quick. However, for much larger groups, that is expectedly slow. I've tried storing them in a pair of TreeMaps as well, one sorted on the x coordinate, and one sorted on the y coordinate, using this code:

xSubset = objectsByX.subSet( minX, maxX );
ySubset = objectsByY.subSet( minY, maxY );
result.addAll( xSubset );
result.retainAll( ySubset );

This also works, and is faster for larger sets of objects, but is still slower than I would like. Part of the problem is also that these objects move around, and need to be inserted back into this storage, which means removing them from and re-adding them to the trees/lists. I can't help but think there must be better solutions out there. I'm implementing this in Java, if it makes any difference, though I expect any solution will be more in the form of a useful pattern/algorithm.

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6 Answers 6

Simple QuadTree implementation in C# (easy to translate into java) http://www.codeproject.com/KB/recipes/QuadTree.aspx

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You could put all the x cords in a map, and the y cords in another map, and have the map values point to the object.

		TreeMap<Integer, TreeMap<Integer, Point>> xMap = new TreeMap<Integer, TreeMap<Integer, Point>>();
		for (int x = 1; x < 100; x += 2)
			for (int y = 0; y < 100; y += 2)
				{
					Point p = new Point(x, y);
					TreeMap<Integer, Point> tempx = xMap.get(x);
					if (tempx == null)
						{
							tempx = new TreeMap<Integer, Point>();
							xMap.put(x, tempx);
						}
					tempx.put(y, p);
				}
		SortedMap<Integer, TreeMap<Integer, Point>> tempq = xMap.subMap(5, 8);
		Collection<Point> result = new HashSet<Point>();
		for (TreeMap<Integer, Point> smaller : tempq.values())
			{
				SortedMap<Integer, Point> smallerYet = smaller.subMap(6, 12);
				result.addAll(smallerYet.values());
			}
		for (Point q : result)
			{
				System.out.println(q);
			}
	}
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If you're dealing with points on a contiguous plane instead of a few discrete points, you could improve this by using "buckets" of a particular size. Not as good as a quad tree, but simpler to implement. –  Paul Tomblin Nov 19 '08 at 20:49

Quadtrees seem to solve the specific problem I asked. Kd-Trees are a more general form, for any number of dimensions, rather than just two.

R-Trees may also be useful if the objects being stored have a bounding rectangle, rather than being just a simple point.

The general term for these type of structures is Spatial Index.

There is a Java implementation of Quadtree and R-Tree.

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The general term is a Spatial Index. I guess you should choose according to the existing implementations.

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Have a look at Kd-Trees.

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Oops, too slow... –  Torsten Marek Sep 25 '08 at 9:37

A quadtree is the structure which is usually used for that.

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