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I was given a task to write an algorithm that finds the # of paths from s to t, formed by distinguished vertices.

exemple: consider directed graph G=(V,E): enter image description here

in the given exemple the answer is 2, one s,v,t or s,u,v,t and the other s,x,t

I saw the solution to this problem that goes by: make a flow network Graph G' as following: enter image description here

where capacity of arcs of the form (i,i') = 1 (i is some vertex) and capacity of arcs of the form (i',j) = infinity

they say running Edmonds Karp Algorithm on G' would output the wanted flow.

now i dont seem to catch how does this solve the problem, i mean what if in the first iteration edmonds karp would accidently improve the flow with the path s,u,u',v,v',x,x',t - in this case how would it get fixed?

thanks ahead.

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You might get more traction on the Theoretical Computer Science Stack Exchange site: cstheory.stackexchange.com –  sblom Jan 30 '12 at 8:10
ill try that too, thanks –  Ofek Ron Jan 30 '12 at 8:12
So, what is it you don't understand: how the translation to a network flow problem solves your original problem, or how finding the maximum flow works? –  pjotr Jan 30 '12 at 8:35
how the specific translation to network flow solves the problem, and part of the confusion is due to lack of understanding how finding the max flow works, espcially what goes on if the selection s,u,u',v,v',x,x',t comes first. –  Ofek Ron Jan 30 '12 at 8:42

1 Answer 1

up vote 1 down vote accepted

How the network flow is equivalent with the original problem:

=> if there's n paths, these will give a flow of n

<= if there's a flow of size n, the edges with non-zero flow form n paths, every vertex is used at most once, because the capacity of i->i' is 1 (and no edges leave i or end at i')

don't get distracted by the infinite capacity given to i->j edges, it may as well be 1 without changing anyting

For the description of the whole algorithm you should refer to some literature, like this one, but the path you're writing won't get selected first because of it's length. The Edmonds-Karp algorithm starts with shortest paths possible.

Now, (ignoring this fact), you're probably confused by the fact that such a path 'blocks' two other paths. If such a path (or combination of paths) is selected by previous iterations, there will still be an augmenting path that will use part of the previous path in backward direction (s-x-v'-t in your example).

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i got it, thanks a lot, great answer! –  Ofek Ron Jan 30 '12 at 9:30
I was wondering also, would it work if we didnt add the tagged vertices? like giving all of the edges capacity of 1 for exemple –  Ofek Ron Jan 30 '12 at 9:32
No, that would cause some vertices being used multiple times in some cases. Not in your case, but take for example a graph looking like an infinity sign with source on left, sink on right and all edges going left to right. The max flow would be 2, but there's only one vertex-exclusive path. –  pjotr Jan 30 '12 at 9:37
great, got ya, thanks! –  Ofek Ron Jan 30 '12 at 10:01

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