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today I heard something about optimal semi-eulerization and it interested me. But I can't find much information on the INTERNET. I want to implement it for example in c++. Let me specify the problem:

For a given (by the set of edges) graph find the minimal number of edges that we need to add to it, to satisfy the condition for existence of Eulerian trail (which is weaker than for cycle - maybe sometimes optimal steps satisfy also this condition?). We can add edges only to adjacent vertices - in fact we can only add copies of already existing edges.

So let the input be: n, m - number of vertices, number of edges respectively and then m edges of given (undirected) graph, for example:

5 4
1 2
2 3
2 4 
5 2

and then the output is (I think): 2, because we can add edges: (2; 3) and (4; 2) to make Eulerian trail: 1-2-3-2-4-2-5 and 2 is the minimal number of edges.

I was trying to come up with the solution for several hours and then gave up. Is it very hard? Can somebody help?

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Take a look here –  Ted Hopp Nov 25 '12 at 22:29
    
If your graph is a tree, then look at stackoverflow.com/questions/13553399 –  Peter de Rivaz Nov 25 '12 at 22:35
    
It might be a tree as well. But I don't know Python. I don't understand the idea, your algorithm. –  xan Nov 25 '12 at 22:54
    
Could you explain briefly your algorithm? I'm trying to understand it, but don't know for example how should I call it for a given graph. Is it always min( min_odd(root,2,0,0),min_odd(root,0,0,0) )? Why? And what does "an odd number of edges into this node from already considered edges" exactly mean? Root is (in your example) an odd vertex, so why do we call min_odd(root,2,0,0) and min_odd(root,0,0,0)? –  xan Nov 26 '12 at 13:15

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