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I was wondering how (if at all) it would be possible to determine a shape given a set of X,Y coordinates of mouse clicks?

We're dealing with a number of issues here, there may be clicks (coords) which are irrelevant to the shape. Here is an example: http://tinypic.com/view.php?pic=286tlkx&s=6 The green dots represent mouse clicks, and the search is for a square at least x in height/width, at most y in height/width and compromised of four points, the red lines indicate the shape found. I'd like to be able to find a number of basic shapes, such as squares, rectangles, triangles and ideally circles too.

I've heard that Least Squares is something that would help me, but it's not clear to me how this would help me if at all. I'm using C# and examples are more than welcome :)

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Is there a restriction of the irrelevant points? E.g. there must only be one irrelevant point between two relevant? Otherwise, it is probably really hard and time consuming to detect all possible shapes. –  Nico Schertler Oct 24 '12 at 18:56
OK, how about no irrelevant points within x units (distance) of shape? So nothing inside and nothing outside within a certain distance? –  Vijay Oct 24 '12 at 19:20
ok, I was hoping for something regarding the sequence of clicks. Just to be clear: do you have the sequence of clicks or just the result? Do you want to calculate the shapes after each click or once at the end? –  Nico Schertler Oct 24 '12 at 19:26
@NicoSchertler We just have the clicks at the end, we just want to look for shapes at the end. –  Vijay Oct 24 '12 at 20:08
Well if you use the sequential clicks at the end, then it is similar to those gesture recognition system, like in Opera. If a gesture match the "square" gesture, then the shape is a square. –  Pierre-Alain Vigeant Oct 24 '12 at 21:21

1 Answer 1

You can create detectors for each shape you want to support. These detectors will tell, if a set of points form the shape.

So for example you would pass 4 points to the quad detector and it returns, if the 4 points are aligned in a quad or not. The quad detector could work like this:

  • for each point
    • find the closest neighbour point
    • compute the inner angle
    • compute the distance to the neighbours
  • if all inner angles are 90° +- some threshold -> ok
  • if all distances are equal +- some threshold (percentage) -> ok
  • otherwise it is no quad.

A naive way to use these detectors is to pass every subset of points to them. If you have enough time, then this is the easiest way. If you want to achieve some performance, you can select the points to pass a bit smarter.

E.g. if quads are always axis aligned, you can start at any point, go right until you hit another point (again with some thresold), go down, go left.

Those are just some thoughts that might help you further. I can imagine that there are algorithms in AI that can solve this problem in a more pragmatic way, maybe neural networks.

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