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Given the coordinates of N rectangles (N<=100.000) in the grid L*C (L and C can range from 0 to I want to know what is the maximum number of rectangle overlapping at any point in the grid.

So I figured I would use a sweeping algorithm, for each event (opening or ending of a rectangle) sorted by x value, I add or remove an interval to my structure.

I have to use a tree to maintain the maximum overlapping of the intervals, and be able to add and remove an interval.

I know how to do that when the values of the intervals (start and end) are ranging from 0 to 100.000, but it is impossible here since the dimensions of the plane are from 0 to How can I implement such a tree?

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Are L and C integers? – huseyin tugrul buyukisik Aug 30 '12 at 20:27
How fast do you need the lookup? It sounds like you want to sweep ahead of time in order to have an O(1) lookup. It's not acceptable to scan through the rectangle for each point you want to know about? – mprivat Aug 30 '12 at 20:37
Yes L and C integers – user1637030 Aug 31 '12 at 21:03
up vote 2 down vote accepted

If you know the coordinates of all the rectangles up-front, you can use "coordinate compression".

Since you only have 10^5 rectangles, that means you have at most 2*10^5 different x and y coordinates. You can therefore create a mapping from those coordinates to natural numbers from 1 to 2*10^5 (by simply sorting the coordinates). Then you can just use the normal tree that you already know for the new coordinates.

This would be enough to get the number of rectangles, but if you also need the point where they overlap, you should also maintain a reverse mapping so you can get back to the real coordinates of the rectangles. In the general case, the answer will be a rectangle, not just a single point.

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Ok I understand I will try to implement this but it seems to be very tricky to do the reverse mapping. But is a good solution. – user1637030 Aug 31 '12 at 21:10
Actually it should be pretty easy - for the mapping from normal to compressed use some kind of a dictionary (map, etc.), and for the reverse mapping you can just use an array that keeps information of the type "The 3rd non-compressed x-coordinate in increasing order is 198". If you're comfortable with implementing the tree, this should not be a huge burden. – Ivan Vergiliev Aug 31 '12 at 21:31

Use an interval tree. Your case is a bit more complicated because you really need a weighted interval tree, where the weight is the number of open rectangles for that interval.

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It looks like a very complicated tree. Never used something like this, I'm going to study this, but do you have a better tutorial than wikipedia? – user1637030 Aug 31 '12 at 21:05
Sorry, I don't. – Keith Randall Aug 31 '12 at 21:21

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