# Find out if point is inside one of N (possibly overlapping) rectangles in less than O(N)

I have an image, and I want to show tooltips when mouse moves over certain rectangular areas. The rectangular areas can be up to 1000. However, just checking each rectangle if the point is in it, which is O(N), makes the interface unresponsive when moving the mouse.

Is there a way to do it in less than O(N)? I can sort the rectangles beforehand (I'm assuming it would be needed). The rectangles might be (very rarely) overlapping, but no more than 4-5 rectangles can overlap the same area. In that case I might need to get a list of all the rectangles, but even just any of them would still be good enough.

But I'm assuming that this problem has already been solved by window managers, etc.

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You need a 2-D tree. – Egor Skriptunoff May 16 '13 at 9:51
While this is an algorithm question, the interface / context being involved can help to provide better suggestions - e.g. a web page / Javascript environment solution would be different compared to a C++ drawing application – ringø May 16 '13 at 9:52
@ring0 Fair enough, I'm using C++ and Qt, and I'm visualizing the output of an OCR, which is bounding boxes + recognized symbol + other data. – sashoalm May 16 '13 at 12:41
Thanks for the information. I don't know Qt well, but as you suggested, it's likely to handle windows (widgets) based on their "depth" and location - thus it should be possible, at least, to get immediately the "top" rectangle "under" the mouse (like does a browser via a core algorithm) and this seems to be a hint. As for getting the list of all rects (ie from all depths), that needs more research. – ringø May 16 '13 at 13:12

It sounds like you want to be storing your rectangles within an R-Tree and then querying that. There are a few implementations available:

Check out their STRtree classes.

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A faster and simpler (though less memory efficient) method than a tree for images (and web pages that can be rendered onto reasonably small images) is to use a stencil. i.e. if you have an image of x by y pixels, create a two dimensional array of size x by y and populate it with your tool tip IDs. This has a search speed from pixel position to ID of O(1) (my favourite O)

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That's a good solution :) Actually that's what I did immediately after confronting the problem, but it feels more like a workaround than a solution, that's why I wanted to know if there is a more elegant solution. – sashoalm May 16 '13 at 12:50

If the rectangle are axis-aligned, you can avoid specialised data structures.

First subdivide the space in one dimension, e.g. subdividing the screen horizontally into vertical strips. Each rectangle may be in multiple strips. Then you subdivide each strip depending on the rectangles that overlap that strip. The search then involves two O(log n) binary searches or binary trees - one to identify the strip, one to identify which rectangle.

This is a recognised spatial data structure, but to me it doesn't really count - it's just using normal binary trees. You could even do it with an `std::map<int, std::map<int, int>>`.

But there's actually an option supporting O(1) searches, which is called "pixel picking". Basically, draw the rectangles in an off-screen bitmap, each rectangle in a different colour, and frontmost rectangles last as you would for normal drawing (painters algorithm). You can identify which rectangle is frontmost at any point by simply reading that pixel.

Extra bonus - your graphics card may even accelerate drawing the rectangles, so you don't need to worry too much about redrawing when the set of rectangles changes (which obviously isn't included in that O(1)). It's a bit expensive in memory but, on a modern machine, you may not care about that.

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Use a spatial search data structure such as the quad-tree.

You will need to add your rectangles to the tree beforehand, but the average search will be fast. In the worst case you may still have O(N) though.

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Any link that provides interesting and visual information about a quad tree and how it helps within this question / context? – ringø May 16 '13 at 10:00
@ring0: the usual suspect, wikipedia. – n.m. May 16 '13 at 10:02
Thanks. Some people include links in their solution that allow lazy other people (like me) to just click instead of search. – ringø May 16 '13 at 10:04
@ring0: i normally include links unless i'm typing on my phone (i'm lazy too). – n.m. May 16 '13 at 10:41