Haskell Hierarchical Libraries (fgl package)Source codeContentsIndex
Data.Graph.Inductive.Query.MaxFlow
Description

Maximum Flow algorithm We are given a flow network G=(V,E) with source s and sink t where each edge (u,v) in E has a nonnegative capacity c(u,v)>=0, and we wish to find a flow of maximum value from s to t.

A flow in G=(V,E) is a real-valued function f:VxV->R that satisfies:

 For all u,v in V, f(u,v)<=c(u,v)
 For all u,v in V, f(u,v)=-f(v,u)
 For all u in V-{s,t}, Sum{f(u,v):v in V } = 0
 

The value of a flow f is defined as |f|=Sum {f(s,v)|v in V}, i.e., the total net flow out of the source.

In this module we implement the Edmonds-Karp algorithm, which is the Ford-Fulkerson method but using the shortest path from s to t as the augmenting path along which the flow is incremented.

Synopsis
getRevEdges :: (Num b, Ord b) => [(Node, Node)] -> [(Node, Node, b)]
augmentGraph :: (DynGraph gr, Num b, Ord b) => gr a b -> gr a (b, b, b)
updAdjList :: (Num b, Ord b) => [((b, b, b), Node)] -> Node -> b -> Bool -> [((b, b, b), Node)]
updateFlow :: (DynGraph gr, Num b, Ord b) => Path -> b -> gr a (b, b, b) -> gr a (b, b, b)
mfmg :: (DynGraph gr, Num b, Ord b) => gr a (b, b, b) -> Node -> Node -> gr a (b, b, b)
mf :: (DynGraph gr, Num b, Ord b) => gr a b -> Node -> Node -> gr a (b, b, b)
maxFlowgraph :: (DynGraph gr, Num b, Ord b) => gr a b -> Node -> Node -> gr a (b, b)
maxFlow :: (DynGraph gr, Num b, Ord b) => gr a b -> Node -> Node -> b
Documentation
getRevEdges :: (Num b, Ord b) => [(Node, Node)] -> [(Node, Node, b)]
                 i                                 0
 For each edge a--->b this function returns edge b--->a .
          i
 Edges a<--->b are ignored
          j
 
augmentGraph :: (DynGraph gr, Num b, Ord b) => gr a b -> gr a (b, b, b)
                 i                                  0
 For each edge a--->b insert into graph the edge a<---b . Then change the
                            i         (i,0,i)
 label of every edge from a---->b to a------->b
 

where label (x,y,z)=(Max Capacity, Current flow, Residual capacity)

updAdjList :: (Num b, Ord b) => [((b, b, b), Node)] -> Node -> b -> Bool -> [((b, b, b), Node)]
Given a successor or predecessor list for node u and given node v, find the label corresponding to edge (u,v) and update the flow and residual capacity of that edge's label. Then return the updated list.
updateFlow :: (DynGraph gr, Num b, Ord b) => Path -> b -> gr a (b, b, b) -> gr a (b, b, b)
Update flow and residual capacity along augmenting path from s to t in graph G. For a path [u,v,w,...] find the node u in G and its successor and predecessor list, then update the corresponding edges (u,v) and (v,u) on those lists by using the minimum residual capacity of the path.
mfmg :: (DynGraph gr, Num b, Ord b) => gr a (b, b, b) -> Node -> Node -> gr a (b, b, b)
Compute the flow from s to t on a graph whose edges are labeled with (x,y,z)=(max capacity,current flow,residual capacity) and all edges are of the form a<---->b. First compute the residual graph, that is, delete those edges whose residual capacity is zero. Then compute the shortest augmenting path from s to t, and finally update the flow and residual capacity along that path by using the minimum capacity of that path. Repeat this process until no shortest path from s to t exist.
mf :: (DynGraph gr, Num b, Ord b) => gr a b -> Node -> Node -> gr a (b, b, b)
Compute the flow from s to t on a graph whose edges are labeled with x, which is the max capacity and where not all edges need to be of the form a<---->b. Return the flow as a grap whose edges are labeled with (x,y,z)=(max capacity,current flow,residual capacity) and all edges are of the form a<---->b
maxFlowgraph :: (DynGraph gr, Num b, Ord b) => gr a b -> Node -> Node -> gr a (b, b)
Compute the maximum flow from s to t on a graph whose edges are labeled with x, which is the max capacity and where not all edges need to be of the form a<---->b. Return the flow as a grap whose edges are labeled with (y,x) = (current flow, max capacity).
maxFlow :: (DynGraph gr, Num b, Ord b) => gr a b -> Node -> Node -> b
Compute the value of a maximumflow
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