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i have this request: i have a list of points and for each of these i have X, Y coordinate.

my goal is to find the optimal path between these points (I have to use all the points). for example:

A (xa, ya), B (xb, yb), C (xc, yc), D (xd, yd), E (x, y) I use the calculation of the Euclidean distance between two points

My optimal path is for example: D, E, A, C, B

How can i make this?

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You are describing an NP-Hard problem which is known as the Traveling Salesman Problem.

There is no known polynomial solution to this problem, but there are some heuristics to it, that are running in polynomial time, but are not guaranteed to find the optimal path.

If you want optimal - a brute force search might be needed.

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It's worth pointing out as well that while TSP is NP-hard, and thus probably impossible to guarantee that an optimal solution is found, it is also one of the easier NP-hard problems to solve very well in practice. There are good heuristics (google "iterated lin-kernighan", for example) that can usually find solutions within a percent or so of optimality very quickly, even with tens of thousands of points. – deong Apr 15 '12 at 11:15

The problem is indeed NP-Hard, but for the special case where you have points in Euclidean space and you use a Euclidean metric to measure distance, there are polynomial time approximation schemes that can get arbitrarily close to the optimal solution. Check out this paper (a relatively famous approximation algorithm for Euclidean Traveling Salesman Problem).

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