# Find if one Polygon is inside another

I want to find out if one polygon is inside another by giving an array of points of each vertex. Is there any simple way to do that? Edit: it's not enough to check whether minimum point of inner is greater than outer and maximum point for outer is less then inner. It's not the sufficient condition. Proof:

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By inside you mean fully enclosed? I guess a not-so-accurate way is traversing the boundary of the enclosed polygon using a small step size and testing point-in-enclosing-polygon (paulbourke.net/geometry/insidepoly) for each point on the boundary. –  irrelephant Aug 23 '12 at 9:22
Yes, I mean fully enclosed. –  seeker Aug 23 '12 at 9:34
There's a fast way to do it (which i've outlined) but it's really tedious to code. Accurate though. –  airza Aug 24 '12 at 5:39

Once you've checked that the minimum bounding box for polygon A lies inside that for polygon B I think you're going to have to check each edge of A for non-intersection with all the edges of B.

This is, I think, a simple approach, but I suspect you really want a clever approach which is more efficient.

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Yes, as it turned out that's not so easy task, thank you. –  seeker Aug 23 '12 at 9:37
Also note that it's possible for the bounding box of polygon A to be entirely with that of polygon B, and yet the intersection of A and B is empty, if B is concave. You'll also need to check that a vertex of A (any of them) lies with B if the edge check finds no intersections to be sure that B encompasses A –  ryanm Aug 23 '12 at 10:09
@ryanm: good point. And it gets worse, imagine a square inside a hollowed out square. In one sense the inner square is entirely inside the outer, but they have no points in common at all. Its the edge cases that make it fun. –  High Performance Mark Aug 23 '12 at 10:12

I have done something very similar using Java2D particularly the Area class. The code for that class is freely available if you want to replicate the functionality. An easier option might be to look at this library: http://www.cs.man.ac.uk/~toby/alan/software/ It should allow you to do what you want or give you starting points anyway.

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1. some point of polygon1 lies inside of polygon2

you can use ray casting here

2. there are no edge-edge intersection between polygons

for large numbers of edges space-partition trees may increase speed, for small number of edges N*M enumeration is OK

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First, use axis-aligned boundary boxes to see if they're anywhere near one another. (Essentially, draw an X-Y aligned box around each one and see if they are intersecting. This is MUCH easier than the case for polygons and generally saves a lot of time.)

If the boxes intersect, you should now perform detailed intersection testing. You'll want to draw a line perpendicular to each side of the "outside" polygon and project all of the points from both of them onto the line. Then, check that the resulting points for the inside polygon are between the points projected from the outside polygon.

I understand that example is difficult to visualize at first- I recommend this tutorial about collision detection to people interested in this area:

http://www.wildbunny.co.uk/blog/2011/04/20/collision-detection-for-dummies/

However, your task is slightly different as mentioned because you are projecting onto the perpendicular line for each side and you need ALL of them to contain the segment. I also suggest boning up a bit on the notion of a projection and your linear algebra if you want to do a lot of this.

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Your question is underdetermined - just giving the coordinates of each vertex is not enough to specify a polygon. Example: draw a square and fill in the diagonals. Your five vertices are the square's corners and the point at the diagonals' intersection. From these vertices, it is possible to construct four different polygons: each one is constructed by using the edges of the original drawing, while removing one single edge from the square and limiting the diagonals (I hope this is clear enough).

EDIT: Apparently it wasn't clear enough. Let a1, a2, a3, a4 be vertices corresponding to the four points of a square (say, clockwise from top left), and let a5 be a vertex corresponding to the intersection of the square's diagonals. Just for the sake of the example, here are two polygons which fit the above vertices: 1. (a1,a2),(a2,a5),(a5,a3),(a3,a4),(a4,a1). This should look like a right-facing pacman. 2. (a1,a2),(a2,a3),(a3,a4),(a4,a5),(a5,a1). This should look like a left-facing pacman.

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Yes, it's correct. There are no diagonals or other lines inside polygon except the ones that form polygon. –  seeker Aug 23 '12 at 10:28
Edited for example. If anyone understands and can clarify better, that would be nice. –  user1619428 Aug 23 '12 at 11:11
This is a comment, not an answer. That it is true is neither here nor there. –  High Performance Mark Aug 23 '12 at 12:50