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I'm trying to find an efficient, publically available algorithm, preferably with implementation, for solving maximum flow in a generalized (non-pure) network with gains. All multipliers, capacities and flow values are non-zero integers.

Does such an algorithm exist, or is this problem not solvable in polynomial time?

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What do you mean by "non-pure"? What is the lack of normal algorithms? – Saeed Amiri May 15 '12 at 13:28
Arcs can have gains, i.e. the amount of flow going into an arc can be smaller than the amount of flow coming out of it. A pure network would only have arcs with a multiplier of 1. – Wander Nauta May 15 '12 at 13:29
So each arc can have a different multiplier? or all of them will have a same multiplier? – Saeed Amiri May 15 '12 at 13:31
Each arc can have a different multiplier. – Wander Nauta May 15 '12 at 13:33
I think there is no problem to using normal flow algorithms, just when you want calculate augmenting path, select a path such that minimum multiplier along the path is maximized over all possible paths and add the flow as c*m (not just c), I think proof of correctness of this is not hard, I'll think about it later. – Saeed Amiri May 15 '12 at 13:47

Here are some links to some algorithms and some explication:


This is my solution for a maximum flow : sorry for the variables name i was young then :)
Hope it helped

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It seems these are all for non-generalized networks (i.e. 'normal' ones, where every multiplier is 1). – Wander Nauta Jun 16 '12 at 9:29

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