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What is the fastest algorithm to get the max. distance of an 2d outer contour to an 2d inner contour?

(Distance is defined by by drawing radial straight lines from one contour to another, the length of the lines defines the distance)

The two contours are not intersecting and the inner contour lies complett in the outer contour.

Currently the countours are build up from linesegments and circlesegments (but if possible (2d-)splines should also be possible in future). (Something like

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define distance here. Is the cross a central point you want to use to calculate the distance between the 2 contours (by drawing radial straight lines)? If so, maybe the way to go is to find the max of the function defined on [0, 2*pi[ that gives the distance for each of these lines. –  Joffrey Apr 8 '14 at 9:40
@Joffrey I think a distance for a point on the inner contour is the shortest distance to any point on the outer counter, and vice-versa (you shouldn't prefer any direction really). So the naive approach would be, for every point on inner/outer countour, find closest point from the other once. Return highest of those values. –  luk32 Apr 8 '14 at 10:00
The definition of distance between two figures is MINIMAL distance between all pairs of points taken from both of these figures. So, your sentence about MAXIMAL distance is absolutely non understandable. Define it, please. –  Gangnus Apr 8 '14 at 10:03
@Gangnus What do you not like about my definition? –  luk32 Apr 8 '14 at 10:05
@luk32 comment without address is addressed to the post owner. I have nothing against your definition. But it is YOUR definition, not one of the question's author. That is the problem. –  Gangnus Apr 8 '14 at 10:08

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