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I have a set of (x, y) points and I would like to interpolate from those points the value of any points "inside" this set of point. (The yellow area in the picture bellow).

Image of the example

The problem is that I have not find any good way to:

  1. Find the polygon which would be the boundary of my interpolated points (green line)
  2. Test if the point is inside the polygon or not. I found the Point in Polygon algorithm but I'm not sure that taking all the point in a certain range and testing if they belong in the polygone is a good idea. I would like to find a way that let me test a fewer number of points than (max(x)-min(x))*(max(y)-min(y)), ideally a way to know on which points to do my iteration.

Edit: In the 2nd part I'm iterating on all the points (pixels) in the image, what I'd like to do is only iterate on the points in the yellow field.

Do you have any lead?

Ps: I'm coding in C++ if it's of any help.

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Regarding question 2: Are there any points that are outside of the green boundary? If so, what criteria are you using to determine the boundary of your polygon? If not, then once you know the points on the boundary, the rest of the points by definition are within the boundary. –  mbeckish Jun 18 '12 at 19:53
    
@mbeckish no there are no points outside of the green boundary. I edited the question to clarify the second part. –  Leo Jun 18 '12 at 19:56
    
Then you don't need a test at all. Just keep track of which points are on your boundary - if the point in question is not one of the boundary points, then it is within the polygon. –  mbeckish Jun 18 '12 at 19:57
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1 Answer

up vote 8 down vote accepted

The green line that you're looking at is called the convex hull of the set of points and there are many good, efficient algorithms for computing it. The best of them run in time O(n log h), where h is the number of points found on the hull and n is the total number of points. As a totally shameless self-promotion, I have a C++ implementation of one of these algorithms available on my personal site.

As to your second question - once you have the convex hull, it's very easy to determine which points are purely inside the polygon as opposed to on the hull. Just make a hash table of all the points, then iterate over the convex hull and remove all points contained in the hull. What remains in the hash table is the set of points contained within the polygon but not on the boundary.

Hope this helps!

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Well, this does help actually. You've answered all my questions and provided me with a working code. Thank you very much! –  Leo Jun 18 '12 at 19:52
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