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I am aware there are many algorithms to find Eulerian paths in undirected graphs; as far as I know they give a random (legitimate) path.

Given an Eulerian graph, I would like to find an Eulerian path that will pass through previously seen vertices as soon as possible; that is, while walking on the graph following that path, I'll visit previously visited vertices in my first steps. It can maybe be more formalized by saying that while walking on the graph the distribution of previously unvisited vertices is pretty much uniform on the path.

I am aware my request isn't very much formal (and I hope it is understood), therefore I understand it will be difficult to find a best solution, so I'm looking for heuristic methods to get better paths.

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After visiting every vertex you could perform breadth first search starting from this vertex and add the distance from this vertex to each vertex's weight. When choosing next vertex for Eulerian path, just get a vertex with least weight. – Evgeny Kluev Aug 29 '12 at 19:09
@EvgenyKluev: Thanks for the answer. The algorithms I know don't immediately choose the next vertex for the path; the one I am most familiar with chooses a neighbouring vertex and adds it to a stack. When I'm stuck (no neighbours), I add the current vertex to the Eulerian path, and use the top one in the stack as the next current vertex. – user1634045 Aug 29 '12 at 19:12
The algorithm you described looks like depth first search. I think it is not useful for Eulerian path. – Evgeny Kluev Aug 29 '12 at 19:20
I must have described it wrong then, sorry for that. Here it is: – user1634045 Aug 29 '12 at 19:23
I've no idea why it may be needed to use stack to get Eulerian path. It may be easily done without the stack. As for question in OP, there is one more possibility: after producing some Eulerian path, you can swap or reverse its pieces between visiting some vertex, like this abcadea -> adeabca -> aedabca. Choose one swap or reverse operation, which makes your path "the best" and apply it, then repeat this procedure until you get no more improvements. – Evgeny Kluev Aug 29 '12 at 20:09

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