Return a maximum flow for a single-commodity flow problem.
Parameters : | G : NetworkX graph
s : node
t : node
capacity: string :
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Returns : | flowDict : dictionary
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Raises : | NetworkXError :
NetworkXUnbounded :
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Examples
>>> import networkx as nx
>>> G = nx.DiGraph()
>>> G.add_edge('x','a', capacity = 3.0)
>>> G.add_edge('x','b', capacity = 1.0)
>>> G.add_edge('a','c', capacity = 3.0)
>>> G.add_edge('b','c', capacity = 5.0)
>>> G.add_edge('b','d', capacity = 4.0)
>>> G.add_edge('d','e', capacity = 2.0)
>>> G.add_edge('c','y', capacity = 2.0)
>>> G.add_edge('e','y', capacity = 3.0)
>>> F=nx.ford_fulkerson_flow(G, 'x', 'y')
>>> for u, v in G.edges_iter():
... print('(%s, %s) %.2f' % (u, v, F[u][v]))
...
(a, c) 2.00
(c, y) 2.00
(b, c) 0.00
(b, d) 1.00
(e, y) 1.00
(d, e) 1.00
(x, a) 2.00
(x, b) 1.00