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I have a (not necessarily convex) polygon. I'd like to find a set of rectangles that take up all space in the world bounds ((0,0) to (100,100)) without taking up any space inside the polygon. What's the easiest way to find these polygons? Are there algorithms for this sort of thing?


For example, the polygon

 __    __
|  |__|  |

could be broken in to the following five rectangles:

aaa|  |cc|  |eee

or, alternatively, the following six rectangles:

eee|  |bb|  |ddd

Is there an easy way to break a polygon into the rectangles between the polygon and the world boundaries?

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You might want to look over this question and edit it a little-- right now it doesn't make much sense. –  Beta Feb 12 '11 at 22:22
It seems like this would be impossible in many situations. For example, if you have an equilateral triangle, no finite number of rectangles could take up all the space outside the triangle. –  templatetypedef Feb 12 '11 at 22:23
Could you post some images of what you want? –  Erno de Weerd Feb 12 '11 at 22:25
Your question makes it sound like you just want to be able to find if a point is in or out of the Poligon. Please make your intentions more clear. –  hugomg Feb 12 '11 at 22:48
@templatetypedef - It's possible with infinite rectangles. Then you discard all the ones smaller than some threshold and get a reasonable approximation, which is probably what he's looking for. –  aaz Feb 12 '11 at 23:06

1 Answer 1

up vote 0 down vote accepted

All that I can glean: It's possible but impractical (especially if your polygon has slanted lines). I don't need this answer any more, but I guess that the algorithm would look something like the following:

  • Use triangles to make all edges of the polygon either vertical or horizontal
  • Use four rectangles to cut out as much space as you can on the top/bottom/left/right
    • Now you're left with a polygon that has only vertical/horizontal edges and which extends to every border
  • Greedily place the biggest rectangle you can in the biggest holes in the shape
    • Look for the largest gaps between sides
  • Fill the triangles from step 1 up to a terminal precision
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