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On image map ( 500 x 500) I have only zeros and ones. Mostly everything is ones but I have couple clusters with zeros ( that represent obstacle so player cannot cross over, like hills). Obstacle can have arbitrary shape, so needing for simplification, I decided to find a way to surround every such obstacle with a polygon with no more than 8 vertexes ( surrounding polygon can have some 1s inside, but all 0s of the obstacle have to be inside that polygon). For every obstacle I need to generate one polygon. I can connect every 0 on the outer border of an obstacle, but it would produce polygon with n ( n >> 8 ) vertexes. I am seeking for any suggestion how to do this or a name of some similar algorithm.

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What are you going to use the polygons for? –  Gareth Rees Jan 21 '13 at 15:19
@GarethRees I need vertexes for kinda graph creation and path finding –  PaolaJ. Jan 21 '13 at 15:57
1. I have edited what I could decipher. But the sentence "I can connect every external 0 but it would produce polygon with n ( n >> 8 ) vertexes" is absulutely unreadable. Why do you think it is possible to create such polygons for every shape and placements of obstacles? I would agree only if the poligons can intersect. –  Gangnus Jan 21 '13 at 16:25
@Gangnus The naive polygon of many vertices the OP is referring to could be created by starting with set containing an initial pixel of the obstacle and then iteratively unioning all neighboring obstacle pixels to that set. From this set of adjacent pixel squares you would erase any interior lines and be left with the minimal (possibly concave) envelope where the segments are constrained to be only on the vertical and horizontal. –  A. Webb Jan 21 '13 at 17:00
@PaolaJ. The names you are looking for are alpha-shapes or concave hull. See gis.stackexchange.com/questions/1200/… for some possible answers and resources. –  A. Webb Jan 21 '13 at 17:02

2 Answers 2

You should initially build convex hull of your cluster. After this you can decrease amount of vertexes to 8 using following strategy: enter image description here

You find cross point for any pair of connected points. On provided image point 8 and 9 replaced by one 10, but increase polygon size.

Note: this approach not guarante that this polygon not overlap another cluster of "zeros". Sometimes maybe polygon with 8 vertexes can't cover a cluster without intersection of another clusters.

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A good start but this assumes the obstacles themselves are mostly convex. For example, a convex bounding polygon would prevent entry into the valley of a U-shaped mountain range. –  A. Webb Jan 21 '13 at 14:31
@Tolja Thanks for answer, but how to find polygon, my obstacles are not always convex ( I edited question to clarify) –  PaolaJ. Jan 21 '13 at 16:04
So what? Even if an obstacle is not convex, the polygon can be convex. Your task says not a word against it. –  Gangnus Jan 21 '13 at 16:28
The problem is that in the case of a too sharp angle in the point "10" you will have an extra long star-ray-like vertex. It is not against the formulation of the task, but it doesn't look good. –  Gangnus Jan 21 '13 at 16:38

You could take for an obstacle the S, SW, W, NW, N, NE, E and SE furthest points and create an octagon set by segments passing through these points in the perpendicular directions. I.e. appropriately: W-E, NW-SE, and so on. I think, that would be the fastest and easiest algorythm, and on the contrary to @Толя's solution, it will never give you extra long star-ray-like vertices.

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