src/work/marci/experiment/edmonds_karp_1.h
author athos
Wed, 23 Mar 2005 10:35:36 +0000
changeset 1246 925002e098e7
parent 921 818510fa3d99
permissions -rw-r--r--
Csak a te kedvedert.
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// -*- c++ -*-
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#ifndef LEMON_EDMONDS_KARP_H
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#define LEMON_EDMONDS_KARP_H
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#include <algorithm>
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#include <list>
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#include <iterator>
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#include <bfs_iterator_1.h>
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#include <invalid.h>
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#include <graph_wrapper_1.h>
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namespace lemon {
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  template<typename Graph, typename Number, typename FlowMap, typename CapacityMap>
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  class ResGraph {
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  public:
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    typedef typename Graph::Node Node;
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    typedef typename Graph::NodeIt NodeIt;
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  private:
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    typedef typename Graph::SymEdgeIt OldSymEdgeIt;
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    const Graph& G;
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    FlowMap& flow;
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    const CapacityMap& capacity;
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  public:
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    ResGraph(const Graph& _G, FlowMap& _flow, 
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	     const CapacityMap& _capacity) : 
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      G(_G), flow(_flow), capacity(_capacity) { }
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    class Edge; 
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    class OutEdgeIt; 
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    friend class Edge; 
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    friend class OutEdgeIt; 
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    class Edge {
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      friend class ResGraph<Graph, Number, FlowMap, CapacityMap>;
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    protected:
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      const ResGraph<Graph, Number, FlowMap, CapacityMap>* resG;
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      OldSymEdgeIt sym;
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    public:
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      Edge() { } 
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      //Edge(const Edge& e) : resG(e.resG), sym(e.sym) { }
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      Number free() const { 
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	if (resG->G.aNode(sym)==resG->G.source(sym)) { 
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	  return (resG->capacity.get(sym)-resG->flow.get(sym)); 
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	} else { 
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	  return (resG->flow.get(sym)); 
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	}
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      }
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      bool valid() const { return sym.valid(); }
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      void augment(Number a) const {
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	if (resG->G.aNode(sym)==resG->G.source(sym)) { 
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	  resG->flow.set(sym, resG->flow.get(sym)+a);
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	  //resG->flow[sym]+=a;
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	} else { 
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	  resG->flow.set(sym, resG->flow.get(sym)-a);
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	  //resG->flow[sym]-=a;
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	}
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      }
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    };
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    class OutEdgeIt : public Edge {
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      friend class ResGraph<Graph, Number, FlowMap, CapacityMap>;
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    public:
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      OutEdgeIt() { }
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      //OutEdgeIt(const OutEdgeIt& e) { resG=e.resG; sym=e.sym; }
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    private:
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      OutEdgeIt(const ResGraph<Graph, Number, FlowMap, CapacityMap>& _resG, Node v) { 
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      	resG=&_resG;
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	sym=resG->G.template first<OldSymEdgeIt>(v);
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	while( sym.valid() && !(free()>0) ) { ++sym; }
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      }
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    public:
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      OutEdgeIt& operator++() { 
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	++sym; 
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	while( sym.valid() && !(free()>0) ) { ++sym; }
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	return *this; 
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      }
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    };
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    void /*getF*/first(OutEdgeIt& e, Node v) const { 
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      e=OutEdgeIt(*this, v); 
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    }
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    void /*getF*/first(NodeIt& v) const { G./*getF*/first(v); }
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    template< typename It >
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    It first() const { 
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      It e;      
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      /*getF*/first(e);
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      return e; 
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    }
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    template< typename It >
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    It first(Node v) const { 
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      It e;
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      /*getF*/first(e, v);
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      return e; 
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    }
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    Node source(Edge e) const { return G.aNode(e.sym); }
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    Node target(Edge e) const { return G.bNode(e.sym); }
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    Node aNode(OutEdgeIt e) const { return G.aNode(e.sym); }
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    Node bNode(OutEdgeIt e) const { return G.bNode(e.sym); }
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    int id(Node v) const { return G.id(v); }
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    template <typename S>
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    class NodeMap {
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      typename Graph::NodeMap<S> node_map; 
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    public:
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      NodeMap(const ResGraph<Graph, Number, FlowMap, CapacityMap>& _G) : node_map(_G.G) { }
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      NodeMap(const ResGraph<Graph, Number, FlowMap, CapacityMap>& _G, S a) : node_map(_G.G, a) { }
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      void set(Node nit, S a) { node_map.set(nit, a); }
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      S get(Node nit) const { return node_map.get(nit); }
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      S& operator[](Node nit) { return node_map[nit]; } 
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      const S& operator[](Node nit) const { return node_map[nit]; } 
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    };
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  };
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  template<typename Graph, typename Number, typename FlowMap, typename CapacityMap>
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  class ResGraph2 {
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  public:
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    typedef typename Graph::Node Node;
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    typedef typename Graph::NodeIt NodeIt;
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  private:
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    //typedef typename Graph::SymEdgeIt OldSymEdgeIt;
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    typedef typename Graph::OutEdgeIt OldOutEdgeIt;
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    typedef typename Graph::InEdgeIt OldInEdgeIt;
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    const Graph& G;
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    FlowMap& flow;
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    const CapacityMap& capacity;
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  public:
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    ResGraph2(const Graph& _G, FlowMap& _flow, 
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	     const CapacityMap& _capacity) : 
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      G(_G), flow(_flow), capacity(_capacity) { }
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    class Edge; 
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    class OutEdgeIt; 
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    friend class Edge; 
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    friend class OutEdgeIt; 
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    class Edge {
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      friend class ResGraph2<Graph, Number, FlowMap, CapacityMap>;
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    protected:
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      const ResGraph2<Graph, Number, FlowMap, CapacityMap>* resG;
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      //OldSymEdgeIt sym;
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      OldOutEdgeIt out;
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      OldInEdgeIt in;
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      bool out_or_in; //true, iff out
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    public:
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      Edge() : out_or_in(true) { } 
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      Number free() const { 
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	if (out_or_in) { 
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	  return (resG->capacity.get(out)-resG->flow.get(out)); 
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	} else { 
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	  return (resG->flow.get(in)); 
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	}
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      }
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      bool valid() const { 
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	return out_or_in && out.valid() || in.valid(); }
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      void augment(Number a) const {
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	if (out_or_in) { 
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	  resG->flow.set(out, resG->flow.get(out)+a);
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	} else { 
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	  resG->flow.set(in, resG->flow.get(in)-a);
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	}
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      }
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    };
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    class OutEdgeIt : public Edge {
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      friend class ResGraph2<Graph, Number, FlowMap, CapacityMap>;
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    public:
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      OutEdgeIt() { }
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    private:
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      OutEdgeIt(const ResGraph2<Graph, Number, FlowMap, CapacityMap>& _resG, Node v) { 
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      	resG=&_resG;
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	out=resG->G.template first<OldOutEdgeIt>(v);
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	while( out.valid() && !(free()>0) ) { ++out; }
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	if (!out.valid()) {
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	  out_or_in=0;
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	  in=resG->G.template first<OldInEdgeIt>(v);
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	  while( in.valid() && !(free()>0) ) { ++in; }
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	}
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      }
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    public:
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      OutEdgeIt& operator++() { 
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	if (out_or_in) {
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	  Node v=resG->G.aNode(out);
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	  ++out;
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	  while( out.valid() && !(free()>0) ) { ++out; }
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	  if (!out.valid()) {
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	    out_or_in=0;
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	    in=resG->G.template first<OldInEdgeIt>(v);
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	    while( in.valid() && !(free()>0) ) { ++in; }
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	  }
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	} else {
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	  ++in;
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	  while( in.valid() && !(free()>0) ) { ++in; } 
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	}
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	return *this; 
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      }
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    };
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    void /*getF*/first(OutEdgeIt& e, Node v) const { 
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      e=OutEdgeIt(*this, v); 
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    }
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    void /*getF*/first(NodeIt& v) const { G./*getF*/first(v); }
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    template< typename It >
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    It first() const { 
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      It e;
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      /*getF*/first(e);
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      return e; 
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    }
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    template< typename It >
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    It first(Node v) const { 
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      It e;
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      /*getF*/first(e, v);
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      return e; 
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    }
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    Node source(Edge e) const { 
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      return ((e.out_or_in) ? G.aNode(e.out) : G.aNode(e.in)); }
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    Node target(Edge e) const { 
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      return ((e.out_or_in) ? G.bNode(e.out) : G.bNode(e.in)); }
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    Node aNode(OutEdgeIt e) const { 
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      return ((e.out_or_in) ? G.aNode(e.out) : G.aNode(e.in)); }
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    Node bNode(OutEdgeIt e) const { 
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      return ((e.out_or_in) ? G.bNode(e.out) : G.bNode(e.in)); }
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    int id(Node v) const { return G.id(v); }
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    template <typename S>
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    class NodeMap {
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      typename Graph::NodeMap<S> node_map; 
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    public:
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      NodeMap(const ResGraph2<Graph, Number, FlowMap, CapacityMap>& _G) : node_map(_G.G) { }
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      NodeMap(const ResGraph2<Graph, Number, FlowMap, CapacityMap>& _G, S a) : node_map(_G.G, a) { }
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      void set(Node nit, S a) { node_map.set(nit, a); }
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      S get(Node nit) const { return node_map.get(nit); }
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    };
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  };
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  template <typename Graph, typename Number, typename FlowMap, typename CapacityMap>
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  class MaxFlow {
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  protected:
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    typedef typename Graph::Node Node;
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    typedef typename Graph::Edge Edge;
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    typedef typename Graph::EdgeIt EdgeIt;
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    typedef typename Graph::OutEdgeIt OutEdgeIt;
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    typedef typename Graph::InEdgeIt InEdgeIt;
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    const Graph* g;
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    Node s;
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    Node t;
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    FlowMap* flow;
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    const CapacityMap* capacity;
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    typedef ResGraphWrapper<const Graph, Number, FlowMap, CapacityMap > ResGW;
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    typedef typename ResGW::OutEdgeIt ResGWOutEdgeIt;
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    typedef typename ResGW::Edge ResGWEdge;
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  public:
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    MaxFlow(const Graph& _g, Node _s, Node _t, FlowMap& _flow, const CapacityMap& _capacity) : 
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      g(&_g), s(_s), t(_t), flow(&_flow), capacity(&_capacity) { }
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    bool augmentOnShortestPath() {
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      ResGW res_graph(*g, *flow, *capacity);
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      bool _augment=false;
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      typedef typename ResGW::NodeMap<bool> ReachedMap;
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      BfsIterator5< ResGW, ReachedMap > bfs(res_graph);
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      bfs.pushAndSetReached(s);
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      typename ResGW::NodeMap<ResGWEdge> pred(res_graph); 
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      pred.set(s, INVALID);
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      typename ResGW::NodeMap<Number> free(res_graph);
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      //searching for augmenting path
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      while ( !bfs.finished() ) { 
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	ResGWOutEdgeIt e=bfs;
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	if (res_graph.valid(e) && bfs.isBNodeNewlyReached()) {
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	  Node v=res_graph.source(e);
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	  Node w=res_graph.target(e);
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	  pred.set(w, e);
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	  if (res_graph.valid(pred.get(v))) {
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	    free.set(w, std::min(free.get(v), res_graph.resCap(e)));
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	  } else {
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	    free.set(w, res_graph.resCap(e)); 
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	  }
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	  if (res_graph.target(e)==t) { _augment=true; break; }
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	}
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	++bfs;
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      } //end of searching augmenting path
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      if (_augment) {
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	Node n=t;
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	Number augment_value=free.get(t);
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	while (res_graph.valid(pred.get(n))) { 
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	  ResGWEdge e=pred.get(n);
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	  res_graph.augment(e, augment_value); 
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	  n=res_graph.source(e);
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	}
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      }
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      return _augment;
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    }
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    template<typename MapGraphWrapper> 
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    class DistanceMap {
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    protected:
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      const MapGraphWrapper* g;
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      typename MapGraphWrapper::NodeMap<int> dist; 
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    public:
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      DistanceMap(MapGraphWrapper& _g) : g(&_g), dist(*g, g->nodeNum()) { }
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      void set(const typename MapGraphWrapper::Node& n, int a) { dist[n]=a; }
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      int get(const typename MapGraphWrapper::Node& n) const { return dist[n]; }
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      bool get(const typename MapGraphWrapper::Edge& e) const { 
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	return (dist.get(g->source(e))<dist.get(g->target(e))); 
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      }
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    };
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    template<typename MutableGraph> bool augmentOnBlockingFlow() {      
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      typedef MutableGraph MG;
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      bool _augment=false;
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      ResGW res_graph(*g, *flow, *capacity);
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      typedef typename ResGW::NodeMap<bool> ReachedMap;
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      BfsIterator5< ResGW, ReachedMap > bfs(res_graph);
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      bfs.pushAndSetReached(s);
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      //typename ResGW::NodeMap<int> dist(res_graph); //filled up with 0's
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      DistanceMap<ResGW> dist(res_graph);
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      while ( !bfs.finished() ) { 
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	ResGWOutEdgeIt e=bfs;
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	if (res_graph.valid(e) && bfs.isBNodeNewlyReached()) {
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	  dist.set(res_graph.target(e), dist.get(res_graph.source(e))+1);
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	}
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	++bfs;
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      } //computing distances from s in the residual graph
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      MG F;
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      typedef SubGraphWrapper<ResGW, DistanceMap<ResGW> > FilterResGW;
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      FilterResGW filter_res_graph(res_graph, dist);
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      typename ResGW::NodeMap<typename MG::Node> res_graph_to_F(res_graph);
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      {
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	typename ResGW::NodeIt n;
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	for(res_graph.first(n); res_graph.valid(n); res_graph.next(n)) {
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	  res_graph_to_F.set(n, F.addNode());
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	}
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      }
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marci@281
   361
      typename MG::Node sF=res_graph_to_F.get(s);
marci@281
   362
      typename MG::Node tF=res_graph_to_F.get(t);
marci@281
   363
      typename MG::EdgeMap<ResGWEdge> original_edge(F);
marci@281
   364
      typename MG::EdgeMap<Number> residual_capacity(F);
marci@281
   365
marci@281
   366
      //Making F to the graph containing the edges of the residual graph 
marci@281
   367
      //which are in some shortest paths
marci@281
   368
      {
marci@281
   369
	typename FilterResGW::EdgeIt e;
marci@281
   370
	for(filter_res_graph.first(e); filter_res_graph.valid(e); filter_res_graph.next(e)) {
alpar@986
   371
	  //if (dist.get(res_graph.target(e))==dist.get(res_graph.source(e))+1) {
alpar@986
   372
	  typename MG::Edge f=F.addEdge(res_graph_to_F.get(res_graph.source(e)), res_graph_to_F.get(res_graph.target(e)));
marci@281
   373
	  original_edge.update();
marci@281
   374
	  original_edge.set(f, e);
marci@281
   375
	  residual_capacity.update();
marci@281
   376
	  residual_capacity.set(f, res_graph.resCap(e));
marci@281
   377
	  //} 
marci@281
   378
	}
marci@281
   379
      }
marci@281
   380
marci@281
   381
      bool __augment=true;
marci@281
   382
marci@281
   383
      while (__augment) {
marci@281
   384
	__augment=false;
marci@281
   385
	//computing blocking flow with dfs
marci@281
   386
	typedef typename TrivGraphWrapper<MG>::NodeMap<bool> BlockingReachedMap;
marci@281
   387
	DfsIterator5< TrivGraphWrapper<MG>, BlockingReachedMap > dfs(F);
marci@281
   388
	typename MG::NodeMap<typename MG::Edge> pred(F);
marci@281
   389
	pred.set(sF, INVALID);
marci@281
   390
	//invalid iterators for sources
marci@281
   391
marci@281
   392
	typename MG::NodeMap<Number> free(F);
marci@281
   393
marci@281
   394
	dfs.pushAndSetReached(sF);      
marci@281
   395
	while (!dfs.finished()) {
marci@281
   396
	  ++dfs;
marci@281
   397
	  if (F.valid(/*typename MG::OutEdgeIt*/(dfs))) {
marci@281
   398
	    if (dfs.isBNodeNewlyReached()) {
marci@281
   399
	      typename MG::Node v=F.aNode(dfs);
marci@281
   400
	      typename MG::Node w=F.bNode(dfs);
marci@281
   401
	      pred.set(w, dfs);
marci@281
   402
	      if (F.valid(pred.get(v))) {
marci@281
   403
		free.set(w, std::min(free.get(v), residual_capacity.get(dfs)));
marci@281
   404
	      } else {
marci@281
   405
		free.set(w, residual_capacity.get(dfs)); 
marci@281
   406
	      }
marci@281
   407
	      if (w==tF) { 
marci@281
   408
		__augment=true; 
marci@281
   409
		_augment=true;
marci@281
   410
		break; 
marci@281
   411
	      }
marci@281
   412
	      
marci@281
   413
	    } else {
marci@281
   414
	      F.erase(/*typename MG::OutEdgeIt*/(dfs));
marci@281
   415
	    }
marci@281
   416
	  } 
marci@281
   417
	}
marci@281
   418
marci@281
   419
	if (__augment) {
marci@281
   420
	  typename MG::Node n=tF;
marci@281
   421
	  Number augment_value=free.get(tF);
marci@281
   422
	  while (F.valid(pred.get(n))) { 
marci@281
   423
	    typename MG::Edge e=pred.get(n);
marci@281
   424
	    res_graph.augment(original_edge.get(e), augment_value); 
alpar@986
   425
	    n=F.source(e);
marci@281
   426
	    if (residual_capacity.get(e)==augment_value) 
marci@281
   427
	      F.erase(e); 
marci@281
   428
	    else 
marci@281
   429
	      residual_capacity.set(e, residual_capacity.get(e)-augment_value);
marci@281
   430
	  }
marci@281
   431
	}
marci@281
   432
	
marci@281
   433
      }
marci@281
   434
            
marci@281
   435
      return _augment;
marci@281
   436
    }
marci@281
   437
marci@281
   438
    template<typename MutableGraph> bool augmentOnBlockingFlow1() {      
marci@281
   439
      typedef MutableGraph MG;
marci@281
   440
      bool _augment=false;
marci@281
   441
marci@281
   442
      ResGW res_graph(*g, *flow, *capacity);
marci@281
   443
marci@281
   444
      //bfs for distances on the residual graph
marci@281
   445
      typedef typename ResGW::NodeMap<bool> ReachedMap;
marci@281
   446
      BfsIterator5< ResGW, ReachedMap > bfs(res_graph);
marci@281
   447
      bfs.pushAndSetReached(s);
marci@281
   448
      typename ResGW::NodeMap<int> dist(res_graph); //filled up with 0's
marci@281
   449
marci@281
   450
      //F will contain the physical copy of the residual graph
marci@281
   451
      //with the set of edges which are on shortest paths
marci@281
   452
      MG F;
marci@281
   453
      typename ResGW::NodeMap<typename MG::Node> res_graph_to_F(res_graph);
marci@281
   454
      {
marci@281
   455
	typename ResGW::NodeIt n;
marci@281
   456
	for(res_graph.first(n); res_graph.valid(n); res_graph.next(n)) {
marci@281
   457
	  res_graph_to_F.set(n, F.addNode());
marci@281
   458
	}
marci@281
   459
      }
marci@281
   460
marci@281
   461
      typename MG::Node sF=res_graph_to_F.get(s);
marci@281
   462
      typename MG::Node tF=res_graph_to_F.get(t);
marci@281
   463
      typename MG::EdgeMap<ResGWEdge> original_edge(F);
marci@281
   464
      typename MG::EdgeMap<Number> residual_capacity(F);
marci@281
   465
marci@281
   466
      while ( !bfs.finished() ) { 
marci@281
   467
	ResGWOutEdgeIt e=bfs;
marci@281
   468
	if (res_graph.valid(e)) {
marci@281
   469
	  if (bfs.isBNodeNewlyReached()) {
alpar@986
   470
	    dist.set(res_graph.target(e), dist.get(res_graph.source(e))+1);
alpar@986
   471
	    typename MG::Edge f=F.addEdge(res_graph_to_F.get(res_graph.source(e)), res_graph_to_F.get(res_graph.target(e)));
marci@281
   472
	    original_edge.update();
marci@281
   473
	    original_edge.set(f, e);
marci@281
   474
	    residual_capacity.update();
marci@281
   475
	    residual_capacity.set(f, res_graph.resCap(e));
marci@281
   476
	  } else {
alpar@986
   477
	    if (dist.get(res_graph.target(e))==(dist.get(res_graph.source(e))+1)) {
alpar@986
   478
	      typename MG::Edge f=F.addEdge(res_graph_to_F.get(res_graph.source(e)), res_graph_to_F.get(res_graph.target(e)));
marci@281
   479
	      original_edge.update();
marci@281
   480
	      original_edge.set(f, e);
marci@281
   481
	      residual_capacity.update();
marci@281
   482
	      residual_capacity.set(f, res_graph.resCap(e));
marci@281
   483
	    }
marci@281
   484
	  }
marci@281
   485
	}
marci@281
   486
	++bfs;
marci@281
   487
      } //computing distances from s in the residual graph
marci@281
   488
marci@281
   489
      bool __augment=true;
marci@281
   490
marci@281
   491
      while (__augment) {
marci@281
   492
	__augment=false;
marci@281
   493
	//computing blocking flow with dfs
marci@281
   494
	typedef typename TrivGraphWrapper<MG>::NodeMap<bool> BlockingReachedMap;
marci@281
   495
	DfsIterator5< TrivGraphWrapper<MG>, BlockingReachedMap > dfs(F);
marci@281
   496
	typename MG::NodeMap<typename MG::Edge> pred(F);
marci@281
   497
	pred.set(sF, INVALID);
marci@281
   498
	//invalid iterators for sources
marci@281
   499
marci@281
   500
	typename MG::NodeMap<Number> free(F);
marci@281
   501
marci@281
   502
	dfs.pushAndSetReached(sF);      
marci@281
   503
	while (!dfs.finished()) {
marci@281
   504
	  ++dfs;
marci@281
   505
	  if (F.valid(/*typename MG::OutEdgeIt*/(dfs))) {
marci@281
   506
	    if (dfs.isBNodeNewlyReached()) {
marci@281
   507
	      typename MG::Node v=F.aNode(dfs);
marci@281
   508
	      typename MG::Node w=F.bNode(dfs);
marci@281
   509
	      pred.set(w, dfs);
marci@281
   510
	      if (F.valid(pred.get(v))) {
marci@281
   511
		free.set(w, std::min(free.get(v), residual_capacity.get(dfs)));
marci@281
   512
	      } else {
marci@281
   513
		free.set(w, residual_capacity.get(dfs)); 
marci@281
   514
	      }
marci@281
   515
	      if (w==tF) { 
marci@281
   516
		__augment=true; 
marci@281
   517
		_augment=true;
marci@281
   518
		break; 
marci@281
   519
	      }
marci@281
   520
	      
marci@281
   521
	    } else {
marci@281
   522
	      F.erase(/*typename MG::OutEdgeIt*/(dfs));
marci@281
   523
	    }
marci@281
   524
	  } 
marci@281
   525
	}
marci@281
   526
marci@281
   527
	if (__augment) {
marci@281
   528
	  typename MG::Node n=tF;
marci@281
   529
	  Number augment_value=free.get(tF);
marci@281
   530
	  while (F.valid(pred.get(n))) { 
marci@281
   531
	    typename MG::Edge e=pred.get(n);
marci@281
   532
	    res_graph.augment(original_edge.get(e), augment_value); 
alpar@986
   533
	    n=F.source(e);
marci@281
   534
	    if (residual_capacity.get(e)==augment_value) 
marci@281
   535
	      F.erase(e); 
marci@281
   536
	    else 
marci@281
   537
	      residual_capacity.set(e, residual_capacity.get(e)-augment_value);
marci@281
   538
	  }
marci@281
   539
	}
marci@281
   540
	
marci@281
   541
      }
marci@281
   542
            
marci@281
   543
      return _augment;
marci@281
   544
    }
marci@281
   545
marci@281
   546
    bool augmentOnBlockingFlow2() {
marci@281
   547
      bool _augment=false;
marci@281
   548
marci@281
   549
      ResGW res_graph(*g, *flow, *capacity);
marci@281
   550
marci@281
   551
      typedef typename ResGW::NodeMap<bool> ReachedMap;
marci@281
   552
      BfsIterator5< ResGW, ReachedMap > bfs(res_graph);
marci@281
   553
marci@281
   554
      bfs.pushAndSetReached(s);
marci@281
   555
      DistanceMap<ResGW> dist(res_graph);
marci@281
   556
      while ( !bfs.finished() ) { 
marci@281
   557
 	ResGWOutEdgeIt e=bfs;
marci@281
   558
 	if (res_graph.valid(e) && bfs.isBNodeNewlyReached()) {
alpar@986
   559
 	  dist.set(res_graph.target(e), dist.get(res_graph.source(e))+1);
marci@281
   560
 	}
marci@281
   561
	++bfs;
marci@281
   562
      } //computing distances from s in the residual graph
marci@281
   563
marci@281
   564
      //Subgraph containing the edges on some shortest paths
marci@281
   565
      typedef SubGraphWrapper<ResGW, DistanceMap<ResGW> > FilterResGW;
marci@281
   566
      FilterResGW filter_res_graph(res_graph, dist);
marci@281
   567
marci@281
   568
      //Subgraph, which is able to delete edges which are already 
marci@281
   569
      //met by the dfs
marci@281
   570
      typename FilterResGW::NodeMap<typename FilterResGW::OutEdgeIt> 
marci@281
   571
 	first_out_edges(filter_res_graph);
marci@281
   572
      typename FilterResGW::NodeIt v;
marci@281
   573
      for(filter_res_graph.first(v); filter_res_graph.valid(v); 
marci@281
   574
 	  filter_res_graph.next(v)) 
marci@281
   575
      {
marci@281
   576
 	typename FilterResGW::OutEdgeIt e;
marci@281
   577
 	filter_res_graph.first(e, v);
marci@281
   578
 	first_out_edges.set(v, e);
marci@281
   579
      }
marci@281
   580
      typedef ErasingFirstGraphWrapper<FilterResGW, typename FilterResGW::
marci@281
   581
	NodeMap<typename FilterResGW::OutEdgeIt> > ErasingResGW;
marci@281
   582
      ErasingResGW erasing_res_graph(filter_res_graph, first_out_edges);
marci@281
   583
marci@281
   584
      bool __augment=true;
marci@281
   585
marci@281
   586
      while (__augment) {
marci@281
   587
marci@281
   588
 	__augment=false;
marci@281
   589
 	//computing blocking flow with dfs
marci@281
   590
	typedef typename ErasingResGW::NodeMap<bool> BlockingReachedMap;
marci@281
   591
 	DfsIterator5< ErasingResGW, BlockingReachedMap > 
marci@281
   592
 	  dfs(erasing_res_graph);
marci@281
   593
 	typename ErasingResGW::NodeMap<typename ErasingResGW::OutEdgeIt> 
marci@281
   594
 	  pred(erasing_res_graph); 
marci@281
   595
 	pred.set(s, INVALID);
marci@281
   596
 	//invalid iterators for sources
marci@281
   597
marci@281
   598
 	typename ErasingResGW::NodeMap<Number> free(erasing_res_graph);
marci@281
   599
marci@281
   600
 	dfs.pushAndSetReached(s);
marci@281
   601
 	while (!dfs.finished()) {
marci@281
   602
 	  ++dfs;
marci@281
   603
 	  if (erasing_res_graph.valid(
marci@281
   604
 		/*typename ErasingResGW::OutEdgeIt*/(dfs))) 
marci@281
   605
 	  { 
marci@281
   606
 	    if (dfs.isBNodeNewlyReached()) {
marci@281
   607
	  
marci@281
   608
 	      typename ErasingResGW::Node v=erasing_res_graph.aNode(dfs);
marci@281
   609
 	      typename ErasingResGW::Node w=erasing_res_graph.bNode(dfs);
marci@281
   610
marci@281
   611
 	      pred.set(w, /*typename ErasingResGW::OutEdgeIt*/(dfs));
marci@281
   612
 	      if (erasing_res_graph.valid(pred.get(v))) {
marci@281
   613
 		free.set(w, std::min(free.get(v), res_graph.resCap(dfs)));
marci@281
   614
 	      } else {
marci@281
   615
 		free.set(w, res_graph.resCap(dfs)); 
marci@281
   616
 	      }
marci@281
   617
	      
marci@281
   618
 	      if (w==t) { 
marci@281
   619
 		__augment=true; 
marci@281
   620
 		_augment=true;
marci@281
   621
 		break; 
marci@281
   622
 	      }
marci@281
   623
	    } else {
marci@281
   624
	      erasing_res_graph.erase(dfs);
marci@281
   625
	    }
marci@281
   626
	  }
marci@281
   627
	}	
marci@281
   628
marci@281
   629
 	if (__augment) {
marci@281
   630
 	  typename ErasingResGW::Node n=t;
marci@281
   631
 	  Number augment_value=free.get(n);
marci@281
   632
 	  while (erasing_res_graph.valid(pred.get(n))) { 
marci@281
   633
 	    typename ErasingResGW::OutEdgeIt e=pred.get(n);
marci@281
   634
 	    res_graph.augment(e, augment_value);
alpar@986
   635
 	    n=erasing_res_graph.source(e);
marci@281
   636
 	    if (res_graph.resCap(e)==0)
marci@281
   637
 	      erasing_res_graph.erase(e);
marci@281
   638
 	  }
marci@281
   639
 	}
marci@281
   640
      
marci@281
   641
      } //while (__augment) 
marci@281
   642
            
marci@281
   643
      return _augment;
marci@281
   644
    }
marci@281
   645
marci@281
   646
    void run() {
marci@281
   647
      //int num_of_augmentations=0;
marci@281
   648
      while (augmentOnShortestPath()) { 
marci@281
   649
	//while (augmentOnBlockingFlow<MutableGraph>()) { 
marci@281
   650
	//std::cout << ++num_of_augmentations << " ";
marci@281
   651
	//std::cout<<std::endl;
marci@281
   652
      } 
marci@281
   653
    }
marci@281
   654
marci@281
   655
    template<typename MutableGraph> void run() {
marci@281
   656
      //int num_of_augmentations=0;
marci@281
   657
      //while (augmentOnShortestPath()) { 
marci@281
   658
	while (augmentOnBlockingFlow<MutableGraph>()) { 
marci@281
   659
	//std::cout << ++num_of_augmentations << " ";
marci@281
   660
	//std::cout<<std::endl;
marci@281
   661
      } 
marci@281
   662
    }
marci@281
   663
marci@281
   664
    Number flowValue() { 
marci@281
   665
      Number a=0;
marci@281
   666
      OutEdgeIt e;
marci@281
   667
      for(g->first(e, s); g->valid(e); g->next(e)) {
marci@281
   668
	a+=flow->get(e);
marci@281
   669
      }
marci@281
   670
      return a;
marci@281
   671
    }
marci@281
   672
marci@281
   673
  };
marci@281
   674
marci@281
   675
marci@281
   676
//   template <typename Graph, typename Number, typename FlowMap, typename CapacityMap>
marci@281
   677
//   class MaxMatching {
marci@281
   678
//   public:
marci@281
   679
//     typedef typename Graph::Node Node;
marci@281
   680
//     typedef typename Graph::NodeIt NodeIt;
marci@281
   681
//     typedef typename Graph::Edge Edge;
marci@281
   682
//     typedef typename Graph::EdgeIt EdgeIt;
marci@281
   683
//     typedef typename Graph::OutEdgeIt OutEdgeIt;
marci@281
   684
//     typedef typename Graph::InEdgeIt InEdgeIt;
marci@281
   685
marci@281
   686
//     typedef typename Graph::NodeMap<bool> SMap;
marci@281
   687
//     typedef typename Graph::NodeMap<bool> TMap;
marci@281
   688
//   private:
marci@281
   689
//     const Graph* G;
marci@281
   690
//     SMap* S;
marci@281
   691
//     TMap* T;
marci@281
   692
//     //Node s;
marci@281
   693
//     //Node t;
marci@281
   694
//     FlowMap* flow;
marci@281
   695
//     const CapacityMap* capacity;
marci@281
   696
//     typedef ResGraphWrapper<Graph, Number, FlowMap, CapacityMap > AugGraph;
marci@281
   697
//     typedef typename AugGraph::OutEdgeIt AugOutEdgeIt;
marci@281
   698
//     typedef typename AugGraph::Edge AugEdge;
marci@281
   699
//     typename Graph::NodeMap<int> used; //0
marci@281
   700
marci@281
   701
//   public:
marci@281
   702
//     MaxMatching(const Graph& _G, SMap& _S, TMap& _T, FlowMap& _flow, const CapacityMap& _capacity) : 
marci@281
   703
//       G(&_G), S(&_S), T(&_T), flow(&_flow), capacity(&_capacity), used(_G) { }
marci@281
   704
//     bool augmentOnShortestPath() {
marci@281
   705
//       AugGraph res_graph(*G, *flow, *capacity);
marci@281
   706
//       bool _augment=false;
marci@281
   707
      
marci@281
   708
//       typedef typename AugGraph::NodeMap<bool> ReachedMap;
marci@281
   709
//       BfsIterator5< AugGraph, /*AugOutEdgeIt,*/ ReachedMap > bfs(res_graph);
marci@281
   710
//       typename AugGraph::NodeMap<AugEdge> pred(res_graph); 
marci@281
   711
//       for(NodeIt s=G->template first<NodeIt>(); G->valid(s); G->next(s)) {
marci@281
   712
// 	if ((S->get(s)) && (used.get(s)<1) ) {
marci@281
   713
// 	  //Number u=0;
marci@281
   714
// 	  //for(OutEdgeIt e=G->template first<OutEdgeIt>(s); G->valid(e); G->next(e))
marci@281
   715
// 	  //u+=flow->get(e);
marci@281
   716
// 	  //if (u<1) {
marci@281
   717
// 	    bfs.pushAndSetReached(s);
marci@281
   718
// 	    pred.set(s, AugEdge(INVALID));
marci@281
   719
// 	    //}
marci@281
   720
// 	}
marci@281
   721
//       }
marci@281
   722
      
marci@281
   723
//       typename AugGraph::NodeMap<Number> free(res_graph);
marci@281
   724
	
marci@281
   725
//       Node n;
marci@281
   726
//       //searching for augmenting path
marci@281
   727
//       while ( !bfs.finished() ) { 
marci@281
   728
// 	AugOutEdgeIt e=bfs;
marci@281
   729
// 	if (res_graph.valid(e) && bfs.isBNodeNewlyReached()) {
alpar@986
   730
// 	  Node v=res_graph.source(e);
alpar@986
   731
// 	  Node w=res_graph.target(e);
marci@281
   732
// 	  pred.set(w, e);
marci@281
   733
// 	  if (res_graph.valid(pred.get(v))) {
marci@281
   734
// 	    free.set(w, std::min(free.get(v), res_graph.free(e)));
marci@281
   735
// 	  } else {
marci@281
   736
// 	    free.set(w, res_graph.free(e)); 
marci@281
   737
// 	  }
alpar@986
   738
// 	  n=res_graph.target(e);
marci@281
   739
// 	  if (T->get(n) && (used.get(n)<1) ) { 
marci@281
   740
// 	    //Number u=0;
marci@281
   741
// 	    //for(InEdgeIt f=G->template first<InEdgeIt>(n); G->valid(f); G->next(f))
marci@281
   742
// 	    //u+=flow->get(f);
marci@281
   743
// 	    //if (u<1) {
marci@281
   744
// 	      _augment=true; 
marci@281
   745
// 	      break; 
marci@281
   746
// 	      //}
marci@281
   747
// 	  }
marci@281
   748
// 	}
marci@281
   749
	
marci@281
   750
// 	++bfs;
marci@281
   751
//       } //end of searching augmenting path
marci@281
   752
marci@281
   753
//       if (_augment) {
marci@281
   754
// 	//Node n=t;
marci@281
   755
// 	used.set(n, 1); //mind2 vegen jav
marci@281
   756
// 	Number augment_value=free.get(n);
marci@281
   757
// 	while (res_graph.valid(pred.get(n))) { 
marci@281
   758
// 	  AugEdge e=pred.get(n);
marci@281
   759
// 	  res_graph.augment(e, augment_value); 
alpar@986
   760
// 	  n=res_graph.source(e);
marci@281
   761
// 	}
marci@281
   762
// 	used.set(n, 1); //mind2 vegen jav
marci@281
   763
//       }
marci@281
   764
marci@281
   765
//       return _augment;
marci@281
   766
//     }
marci@281
   767
marci@281
   768
// //     template<typename MutableGraph> bool augmentOnBlockingFlow() {      
marci@281
   769
// //       bool _augment=false;
marci@281
   770
marci@281
   771
// //       AugGraph res_graph(*G, *flow, *capacity);
marci@281
   772
marci@281
   773
// //       typedef typename AugGraph::NodeMap<bool> ReachedMap;
marci@281
   774
// //       BfsIterator4< AugGraph, AugOutEdgeIt, ReachedMap > bfs(res_graph);
marci@281
   775
marci@281
   776
marci@281
   777
marci@281
   778
marci@281
   779
marci@281
   780
// //       //typename AugGraph::NodeMap<AugEdge> pred(res_graph); 
marci@281
   781
// //       for(NodeIt s=G->template first<NodeIt>(); G->valid(s); G->next(s)) {
marci@281
   782
// // 	if (S->get(s)) {
marci@281
   783
// // 	  Number u=0;
marci@281
   784
// // 	  for(OutEdgeIt e=G->template first<OutEdgeIt>(s); G->valid(e); G->next(e))
marci@281
   785
// // 	    u+=flow->get(e);
marci@281
   786
// // 	  if (u<1) {
marci@281
   787
// // 	    bfs.pushAndSetReached(s);
marci@281
   788
// // 	    //pred.set(s, AugEdge(INVALID));
marci@281
   789
// // 	  }
marci@281
   790
// // 	}
marci@281
   791
// //       }
marci@281
   792
marci@281
   793
marci@281
   794
marci@281
   795
marci@281
   796
// //       //bfs.pushAndSetReached(s);
marci@281
   797
// //       typename AugGraph::NodeMap<int> dist(res_graph); //filled up with 0's
marci@281
   798
// //       while ( !bfs.finished() ) { 
marci@281
   799
// // 	AugOutEdgeIt e=bfs;
marci@281
   800
// // 	if (res_graph.valid(e) && bfs.isBNodeNewlyReached()) {
alpar@986
   801
// // 	  dist.set(res_graph.target(e), dist.get(res_graph.source(e))+1);
marci@281
   802
// // 	}
marci@281
   803
	
marci@281
   804
// // 	++bfs;
marci@281
   805
// //       } //computing distances from s in the residual graph
marci@281
   806
marci@281
   807
// //       MutableGraph F;
marci@281
   808
// //       typename AugGraph::NodeMap<typename MutableGraph::Node> 
marci@281
   809
// // 	res_graph_to_F(res_graph);
marci@281
   810
// //       for(typename AugGraph::NodeIt n=res_graph.template first<typename AugGraph::NodeIt>(); res_graph.valid(n); res_graph.next(n)) {
marci@281
   811
// // 	res_graph_to_F.set(n, F.addNode());
marci@281
   812
// //       }
marci@281
   813
      
marci@281
   814
// //       typename MutableGraph::Node sF=res_graph_to_F.get(s);
marci@281
   815
// //       typename MutableGraph::Node tF=res_graph_to_F.get(t);
marci@281
   816
marci@281
   817
// //       typename MutableGraph::EdgeMap<AugEdge> original_edge(F);
marci@281
   818
// //       typename MutableGraph::EdgeMap<Number> residual_capacity(F);
marci@281
   819
marci@281
   820
// //       //Making F to the graph containing the edges of the residual graph 
marci@281
   821
// //       //which are in some shortest paths
marci@281
   822
// //       for(typename AugGraph::EdgeIt e=res_graph.template first<typename AugGraph::EdgeIt>(); res_graph.valid(e); res_graph.next(e)) {
alpar@986
   823
// // 	if (dist.get(res_graph.target(e))==dist.get(res_graph.source(e))+1) {
alpar@986
   824
// // 	  typename MutableGraph::Edge f=F.addEdge(res_graph_to_F.get(res_graph.source(e)), res_graph_to_F.get(res_graph.target(e)));
marci@281
   825
// // 	  original_edge.update();
marci@281
   826
// // 	  original_edge.set(f, e);
marci@281
   827
// // 	  residual_capacity.update();
marci@281
   828
// // 	  residual_capacity.set(f, res_graph.free(e));
marci@281
   829
// // 	} 
marci@281
   830
// //       }
marci@281
   831
marci@281
   832
// //       bool __augment=true;
marci@281
   833
marci@281
   834
// //       while (__augment) {
marci@281
   835
// // 	__augment=false;
marci@281
   836
// // 	//computing blocking flow with dfs
marci@281
   837
// // 	typedef typename MutableGraph::NodeMap<bool> BlockingReachedMap;
marci@281
   838
// // 	DfsIterator4< MutableGraph, typename MutableGraph::OutEdgeIt, BlockingReachedMap > dfs(F);
marci@281
   839
// // 	typename MutableGraph::NodeMap<typename MutableGraph::Edge> pred(F);
marci@281
   840
// // 	pred.set(sF, typename MutableGraph::Edge(INVALID));
marci@281
   841
// // 	//invalid iterators for sources
marci@281
   842
marci@281
   843
// // 	typename MutableGraph::NodeMap<Number> free(F);
marci@281
   844
marci@281
   845
// // 	dfs.pushAndSetReached(sF);      
marci@281
   846
// // 	while (!dfs.finished()) {
marci@281
   847
// // 	  ++dfs;
marci@281
   848
// // 	  if (F.valid(typename MutableGraph::OutEdgeIt(dfs))) {
marci@281
   849
// // 	    if (dfs.isBNodeNewlyReached()) {
marci@281
   850
// // 	      typename MutableGraph::Node v=F.aNode(dfs);
marci@281
   851
// // 	      typename MutableGraph::Node w=F.bNode(dfs);
marci@281
   852
// // 	      pred.set(w, dfs);
marci@281
   853
// // 	      if (F.valid(pred.get(v))) {
marci@281
   854
// // 		free.set(w, std::min(free.get(v), residual_capacity.get(dfs)));
marci@281
   855
// // 	      } else {
marci@281
   856
// // 		free.set(w, residual_capacity.get(dfs)); 
marci@281
   857
// // 	      }
marci@281
   858
// // 	      if (w==tF) { 
marci@281
   859
// // 		__augment=true; 
marci@281
   860
// // 		_augment=true;
marci@281
   861
// // 		break; 
marci@281
   862
// // 	      }
marci@281
   863
	      
marci@281
   864
// // 	    } else {
marci@281
   865
// // 	      F.erase(typename MutableGraph::OutEdgeIt(dfs));
marci@281
   866
// // 	    }
marci@281
   867
// // 	  } 
marci@281
   868
// // 	}
marci@281
   869
marci@281
   870
// // 	if (__augment) {
marci@281
   871
// // 	  typename MutableGraph::Node n=tF;
marci@281
   872
// // 	  Number augment_value=free.get(tF);
marci@281
   873
// // 	  while (F.valid(pred.get(n))) { 
marci@281
   874
// // 	    typename MutableGraph::Edge e=pred.get(n);
marci@281
   875
// // 	    res_graph.augment(original_edge.get(e), augment_value); 
alpar@986
   876
// // 	    n=F.source(e);
marci@281
   877
// // 	    if (residual_capacity.get(e)==augment_value) 
marci@281
   878
// // 	      F.erase(e); 
marci@281
   879
// // 	    else 
marci@281
   880
// // 	      residual_capacity.set(e, residual_capacity.get(e)-augment_value);
marci@281
   881
// // 	  }
marci@281
   882
// // 	}
marci@281
   883
	
marci@281
   884
// //       }
marci@281
   885
            
marci@281
   886
// //       return _augment;
marci@281
   887
// //     }
marci@281
   888
//     bool augmentOnBlockingFlow2() {
marci@281
   889
//       bool _augment=false;
marci@281
   890
marci@281
   891
//       //typedef ErasingResGraphWrapper<Graph, Number, FlowMap, CapacityMap> EAugGraph;
marci@281
   892
//       typedef FilterGraphWrapper< ErasingResGraphWrapper<Graph, Number, FlowMap, CapacityMap> > EAugGraph;
marci@281
   893
//       typedef typename EAugGraph::OutEdgeIt EAugOutEdgeIt;
marci@281
   894
//       typedef typename EAugGraph::Edge EAugEdge;
marci@281
   895
marci@281
   896
//       EAugGraph res_graph(*G, *flow, *capacity);
marci@281
   897
marci@281
   898
//       //typedef typename EAugGraph::NodeMap<bool> ReachedMap;
marci@281
   899
//       BfsIterator5< 
marci@281
   900
// 	ErasingResGraphWrapper<Graph, Number, FlowMap, CapacityMap>, 
marci@281
   901
// 	/*typename ErasingResGraphWrapper<Graph, Number, FlowMap, CapacityMap>::OutEdgeIt,*/ 
marci@281
   902
// 	ErasingResGraphWrapper<Graph, Number, FlowMap, CapacityMap>::NodeMap<bool> > bfs(res_graph);
marci@281
   903
marci@281
   904
marci@281
   905
//       //typename AugGraph::NodeMap<AugEdge> pred(res_graph); 
marci@281
   906
//       for(NodeIt s=G->template first<NodeIt>(); G->valid(s); G->next(s)) {
marci@281
   907
// 	if (S->get(s)) {
marci@281
   908
// 	  Number u=0;
marci@281
   909
// 	  for(OutEdgeIt e=G->template first<OutEdgeIt>(s); G->valid(e); G->next(e))
marci@281
   910
// 	    u+=flow->get(e);
marci@281
   911
// 	  if (u<1) {
marci@281
   912
// 	    bfs.pushAndSetReached(s);
marci@281
   913
// 	    //pred.set(s, AugEdge(INVALID));
marci@281
   914
// 	  }
marci@281
   915
// 	}
marci@281
   916
//       }
marci@281
   917
marci@281
   918
      
marci@281
   919
//       //bfs.pushAndSetReached(s);
marci@281
   920
marci@281
   921
//       typename ErasingResGraphWrapper<Graph, Number, FlowMap, CapacityMap>::
marci@281
   922
// 	NodeMap<int>& dist=res_graph.dist;
marci@281
   923
marci@281
   924
//       while ( !bfs.finished() ) {
marci@281
   925
// 	typename ErasingResGraphWrapper<Graph, Number, FlowMap, CapacityMap>::OutEdgeIt e=bfs;
marci@281
   926
// 	if (res_graph.valid(e) && bfs.isBNodeNewlyReached()) {
alpar@986
   927
// 	  dist.set(res_graph.target(e), dist.get(res_graph.source(e))+1);
marci@281
   928
// 	}
marci@281
   929
// 	++bfs;	
marci@281
   930
//       } //computing distances from s in the residual graph
marci@281
   931
marci@281
   932
//       bool __augment=true;
marci@281
   933
marci@281
   934
//       while (__augment) {
marci@281
   935
marci@281
   936
// 	__augment=false;
marci@281
   937
// 	//computing blocking flow with dfs
marci@281
   938
// 	typedef typename EAugGraph::NodeMap<bool> BlockingReachedMap;
marci@281
   939
// 	DfsIterator5< EAugGraph/*, EAugOutEdgeIt*/, BlockingReachedMap > 
marci@281
   940
// 	  dfs(res_graph);
marci@281
   941
// 	typename EAugGraph::NodeMap<EAugEdge> pred(res_graph, INVALID); 
marci@281
   942
// 	//pred.set(s, EAugEdge(INVALID));
marci@281
   943
// 	//invalid iterators for sources
marci@281
   944
marci@281
   945
// 	typename EAugGraph::NodeMap<Number> free(res_graph);
marci@281
   946
marci@281
   947
marci@281
   948
// 	//typename AugGraph::NodeMap<AugEdge> pred(res_graph); 
marci@281
   949
//       for(NodeIt s=G->template first<NodeIt>(); G->valid(s); G->next(s)) {
marci@281
   950
// 	if (S->get(s)) {
marci@281
   951
// 	  Number u=0;
marci@281
   952
// 	  for(OutEdgeIt e=G->template first<OutEdgeIt>(s); G->valid(e); G->next(e))
marci@281
   953
// 	    u+=flow->get(e);
marci@281
   954
// 	  if (u<1) {
marci@281
   955
// 	    dfs.pushAndSetReached(s);
marci@281
   956
// 	    //pred.set(s, AugEdge(INVALID));
marci@281
   957
// 	  }
marci@281
   958
// 	}
marci@281
   959
//       }
marci@281
   960
marci@281
   961
marci@281
   962
marci@281
   963
//       //dfs.pushAndSetReached(s);
marci@281
   964
//       typename EAugGraph::Node n;
marci@281
   965
// 	while (!dfs.finished()) {
marci@281
   966
// 	  ++dfs;
marci@281
   967
// 	  if (res_graph.valid(EAugOutEdgeIt(dfs))) { 
marci@281
   968
// 	    if (dfs.isBNodeNewlyReached()) {
marci@281
   969
	  
marci@281
   970
// 	      typename EAugGraph::Node v=res_graph.aNode(dfs);
marci@281
   971
// 	      typename EAugGraph::Node w=res_graph.bNode(dfs);
marci@281
   972
marci@281
   973
// 	      pred.set(w, EAugOutEdgeIt(dfs));
marci@281
   974
// 	      if (res_graph.valid(pred.get(v))) {
marci@281
   975
// 		free.set(w, std::min(free.get(v), res_graph.free(dfs)));
marci@281
   976
// 	      } else {
marci@281
   977
// 		free.set(w, res_graph.free(dfs)); 
marci@281
   978
// 	      }
marci@281
   979
	     
marci@281
   980
// 	      n=w;
marci@281
   981
// 	      if (T->get(w)) {
marci@281
   982
// 		Number u=0;
marci@281
   983
// 		for(InEdgeIt f=G->template first<InEdgeIt>(n); G->valid(f); G->next(f))
marci@281
   984
// 		  u+=flow->get(f);
marci@281
   985
// 		if (u<1) {
marci@281
   986
// 		  __augment=true; 
marci@281
   987
// 		  _augment=true;
marci@281
   988
// 		  break; 
marci@281
   989
// 		}
marci@281
   990
// 	      }
marci@281
   991
// 	    } else {
marci@281
   992
// 	      res_graph.erase(dfs);
marci@281
   993
// 	    }
marci@281
   994
// 	  } 
marci@281
   995
marci@281
   996
// 	}
marci@281
   997
marci@281
   998
// 	if (__augment) {
marci@281
   999
// 	  // typename EAugGraph::Node n=t;
marci@281
  1000
// 	  Number augment_value=free.get(n);
marci@281
  1001
// 	  while (res_graph.valid(pred.get(n))) { 
marci@281
  1002
// 	    EAugEdge e=pred.get(n);
marci@281
  1003
// 	    res_graph.augment(e, augment_value);
alpar@986
  1004
// 	    n=res_graph.source(e);
marci@281
  1005
// 	    if (res_graph.free(e)==0)
marci@281
  1006
// 	      res_graph.erase(e);
marci@281
  1007
// 	  }
marci@281
  1008
// 	}
marci@281
  1009
      
marci@281
  1010
//       }
marci@281
  1011
            
marci@281
  1012
//       return _augment;
marci@281
  1013
//     }
marci@281
  1014
//     void run() {
marci@281
  1015
//       //int num_of_augmentations=0;
marci@281
  1016
//       while (augmentOnShortestPath()) { 
marci@281
  1017
// 	//while (augmentOnBlockingFlow<MutableGraph>()) { 
marci@281
  1018
// 	//std::cout << ++num_of_augmentations << " ";
marci@281
  1019
// 	//std::cout<<std::endl;
marci@281
  1020
//       } 
marci@281
  1021
//     }
marci@281
  1022
// //     template<typename MutableGraph> void run() {
marci@281
  1023
// //       //int num_of_augmentations=0;
marci@281
  1024
// //       //while (augmentOnShortestPath()) { 
marci@281
  1025
// // 	while (augmentOnBlockingFlow<MutableGraph>()) { 
marci@281
  1026
// // 	//std::cout << ++num_of_augmentations << " ";
marci@281
  1027
// // 	//std::cout<<std::endl;
marci@281
  1028
// //       } 
marci@281
  1029
// //     } 
marci@281
  1030
//     Number flowValue() { 
marci@281
  1031
//       Number a=0;
marci@281
  1032
//       EdgeIt e;
marci@281
  1033
//       for(G->/*getF*/first(e); G->valid(e); G->next(e)) {
marci@281
  1034
// 	a+=flow->get(e);
marci@281
  1035
//       }
marci@281
  1036
//       return a;
marci@281
  1037
//     }
marci@281
  1038
//   };
marci@281
  1039
marci@281
  1040
marci@281
  1041
marci@281
  1042
marci@281
  1043
marci@281
  1044
  
marci@281
  1045
// //   template <typename Graph, typename Number, typename FlowMap, typename CapacityMap>
marci@281
  1046
// //   class MaxFlow2 {
marci@281
  1047
// //   public:
marci@281
  1048
// //     typedef typename Graph::Node Node;
marci@281
  1049
// //     typedef typename Graph::Edge Edge;
marci@281
  1050
// //     typedef typename Graph::EdgeIt EdgeIt;
marci@281
  1051
// //     typedef typename Graph::OutEdgeIt OutEdgeIt;
marci@281
  1052
// //     typedef typename Graph::InEdgeIt InEdgeIt;
marci@281
  1053
// //   private:
marci@281
  1054
// //     const Graph& G;
marci@281
  1055
// //     std::list<Node>& S;
marci@281
  1056
// //     std::list<Node>& T;
marci@281
  1057
// //     FlowMap& flow;
marci@281
  1058
// //     const CapacityMap& capacity;
marci@281
  1059
// //     typedef ResGraphWrapper<Graph, Number, FlowMap, CapacityMap > AugGraph;
marci@281
  1060
// //     typedef typename AugGraph::OutEdgeIt AugOutEdgeIt;
marci@281
  1061
// //     typedef typename AugGraph::Edge AugEdge;
marci@281
  1062
// //     typename Graph::NodeMap<bool> SMap;
marci@281
  1063
// //     typename Graph::NodeMap<bool> TMap;
marci@281
  1064
// //   public:
marci@281
  1065
// //     MaxFlow2(const Graph& _G, std::list<Node>& _S, std::list<Node>& _T, FlowMap& _flow, const CapacityMap& _capacity) : G(_G), S(_S), T(_T), flow(_flow), capacity(_capacity), SMap(_G), TMap(_G) { 
marci@281
  1066
// //       for(typename std::list<Node>::const_iterator i=S.begin(); 
marci@281
  1067
// // 	  i!=S.end(); ++i) { 
marci@281
  1068
// // 	SMap.set(*i, true); 
marci@281
  1069
// //       }
marci@281
  1070
// //       for (typename std::list<Node>::const_iterator i=T.begin(); 
marci@281
  1071
// // 	   i!=T.end(); ++i) { 
marci@281
  1072
// // 	TMap.set(*i, true); 
marci@281
  1073
// //       }
marci@281
  1074
// //     }
marci@281
  1075
// //     bool augment() {
marci@281
  1076
// //       AugGraph res_graph(G, flow, capacity);
marci@281
  1077
// //       bool _augment=false;
marci@281
  1078
// //       Node reached_t_node;
marci@281
  1079
      
marci@281
  1080
// //       typedef typename AugGraph::NodeMap<bool> ReachedMap;
marci@281
  1081
// //       BfsIterator4< AugGraph, AugOutEdgeIt, ReachedMap > bfs(res_graph);
marci@281
  1082
// //       for(typename std::list<Node>::const_iterator i=S.begin(); 
marci@281
  1083
// // 	  i!=S.end(); ++i) {
marci@281
  1084
// // 	bfs.pushAndSetReached(*i);
marci@281
  1085
// //       }
marci@281
  1086
// //       //bfs.pushAndSetReached(s);
marci@281
  1087
	
marci@281
  1088
// //       typename AugGraph::NodeMap<AugEdge> pred(res_graph); 
marci@281
  1089
// //       //filled up with invalid iterators
marci@281
  1090
      
marci@281
  1091
// //       typename AugGraph::NodeMap<Number> free(res_graph);
marci@281
  1092
	
marci@281
  1093
// //       //searching for augmenting path
marci@281
  1094
// //       while ( !bfs.finished() ) { 
marci@281
  1095
// // 	AugOutEdgeIt e=/*AugOutEdgeIt*/(bfs);
marci@281
  1096
// // 	if (e.valid() && bfs.isBNodeNewlyReached()) {
alpar@986
  1097
// // 	  Node v=res_graph.source(e);
alpar@986
  1098
// // 	  Node w=res_graph.target(e);
marci@281
  1099
// // 	  pred.set(w, e);
marci@281
  1100
// // 	  if (pred.get(v).valid()) {
marci@281
  1101
// // 	    free.set(w, std::min(free.get(v), e.free()));
marci@281
  1102
// // 	  } else {
marci@281
  1103
// // 	    free.set(w, e.free()); 
marci@281
  1104
// // 	  }
alpar@986
  1105
// // 	  if (TMap.get(res_graph.target(e))) { 
marci@281
  1106
// // 	    _augment=true; 
alpar@986
  1107
// // 	    reached_t_node=res_graph.target(e);
marci@281
  1108
// // 	    break; 
marci@281
  1109
// // 	  }
marci@281
  1110
// // 	}
marci@281
  1111
	
marci@281
  1112
// // 	++bfs;
marci@281
  1113
// //       } //end of searching augmenting path
marci@281
  1114
marci@281
  1115
// //       if (_augment) {
marci@281
  1116
// // 	Node n=reached_t_node;
marci@281
  1117
// // 	Number augment_value=free.get(reached_t_node);
marci@281
  1118
// // 	while (pred.get(n).valid()) { 
marci@281
  1119
// // 	  AugEdge e=pred.get(n);
marci@281
  1120
// // 	  e.augment(augment_value); 
alpar@986
  1121
// // 	  n=res_graph.source(e);
marci@281
  1122
// // 	}
marci@281
  1123
// //       }
marci@281
  1124
marci@281
  1125
// //       return _augment;
marci@281
  1126
// //     }
marci@281
  1127
// //     void run() {
marci@281
  1128
// //       while (augment()) { } 
marci@281
  1129
// //     }
marci@281
  1130
// //     Number flowValue() { 
marci@281
  1131
// //       Number a=0;
marci@281
  1132
// //       for(typename std::list<Node>::const_iterator i=S.begin(); 
marci@281
  1133
// // 	  i!=S.end(); ++i) { 
marci@281
  1134
// // 	for(OutEdgeIt e=G.template first<OutEdgeIt>(*i); e.valid(); ++e) {
marci@281
  1135
// // 	  a+=flow.get(e);
marci@281
  1136
// // 	}
marci@281
  1137
// // 	for(InEdgeIt e=G.template first<InEdgeIt>(*i); e.valid(); ++e) {
marci@281
  1138
// // 	  a-=flow.get(e);
marci@281
  1139
// // 	}
marci@281
  1140
// //       }
marci@281
  1141
// //       return a;
marci@281
  1142
// //     }
marci@281
  1143
// //   };
marci@281
  1144
marci@281
  1145
alpar@921
  1146
} // namespace lemon
marci@281
  1147
alpar@921
  1148
#endif //LEMON_EDMONDS_KARP_H