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Here's a question which annoyed me through the night.

Given a set of points, say:

1 1 1 1
1 1 1 1
1 1 1 1
1 1 1 1

the largest polygon is a 4x4 square. For this:

0 0 1 1 1 
0 1 1 1 1
1 1 1 1 1  

the largest is the trapezoid, but there will be irregular, and other variations...

How to determine the largest possible? (The largest means the one cannot be enclosed by any other polygon) What kind of algorithm should I use?

Also they need other attributes, like area, perimeter, convex(t/f), and number of invariant rotations...


This is provided in the instruction but I don't really understand what exactly it is about...

Call encoding any 2-dimensional array of size between between 2x2 and 50x50 (both dimensions can be different), all of whose elements are either 0 or 1. Call neighbour of a member m of an encoding any of the at most eight members of the array whose value is 1, and each of both indexes differs from m's corresponding index by at most 1. Given a particular encoding, we inductively determine for all natural numbers d the set of polygons of depth d (for this encoding) as follows:

Let a natural number d be given, and suppose that for all d0 < d, the set of polygons of depth d0 has been determined. Change in the encoding all 1's that determine those polygons to 0. Then the set of polygons of depth d is determined as the set of polygons which can be obtained from that encoding by connecting 1's with some of their neighbours in such a way that we obtain a maximal polygon (that is, a polygon which is not included in any other polygon obtained from that encoding by connecting 1's with some of their neighbours).

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1  
Show your code. – Gangadhar Oct 5 '13 at 22:31
2  
Interesting question. Find the "island" which contains the most ones. Sounds like a recursive search. – Charlie Burns Oct 5 '13 at 22:31
    
Will they always be filled? By "largest", do you mean the largest area or the largest perimeter? Also, have you attempted to solve this problem yourself? – Blender Oct 5 '13 at 22:33
    
Is it a math puzzle or you are asking for a code? In both cases I am going to vote for close. – haccks Oct 5 '13 at 22:34
    
yup its morning in Aus, this one bothered me the whole night – Liduo Oct 5 '13 at 22:37
up vote 0 down vote accepted

I just came up with this, but it should work just fine.

Create some integer B, set it to zero.

For every point p:
    If p has not been marked as "been":
        Mark p as "been"
        BFS/DFS from p and count the number of adjacent reachable points. Also mark each of these points as "been".
        If the number of reachable points + 1 is greater than B:
            B = the number of reachable points + 1

At the end, B = the maximum size of the polygon (in points "covered").

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Maybe I'm too impatient, but I found the instructions you were given about clumsy and I can see why you found them difficult to understand.

You've already designated an answer, but here are some related topics you may wish to explore.

The convex hull may be want you want. The convex hull is often described as though the points in 2D space were all pegs in a pegboard. The shape of a rubber band around the outside of the pegs is the convex hull.

http://en.m.wikipedia.org/wiki/Convex_hull_algorithms

Also, the operation to shrink (or grow) the 1s and replace them with 0s sounds like a morphological "erode" operation.

http://en.m.wikipedia.org/wiki/Erosion_(morphology)

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