lemon/edmonds_karp.h
author Alpar Juttner <alpar@cs.elte.hu>
Wed, 24 Jul 2013 01:08:34 +0200
changeset 1066 b208de044477
parent 1060 45befc97b1bc
child 1076 97d978243703
permissions -rw-r--r--
Fix #define indicating CPLEX availability (#446)
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/* -*- mode: C++; indent-tabs-mode: nil; -*-
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 *
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 * This file is a part of LEMON, a generic C++ optimization library.
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 *
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 * Copyright (C) 2003-2010
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 * Egervary Jeno Kombinatorikus Optimalizalasi Kutatocsoport
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 * (Egervary Research Group on Combinatorial Optimization, EGRES).
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 *
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 * Permission to use, modify and distribute this software is granted
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 * provided that this copyright notice appears in all copies. For
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 * precise terms see the accompanying LICENSE file.
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 *
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 * This software is provided "AS IS" with no warranty of any kind,
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 * express or implied, and with no claim as to its suitability for any
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 * purpose.
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 *
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 */
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#ifndef LEMON_EDMONDS_KARP_H
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#define LEMON_EDMONDS_KARP_H
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/// \file
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/// \ingroup max_flow
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/// \brief Implementation of the Edmonds-Karp algorithm.
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#include <lemon/tolerance.h>
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#include <vector>
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namespace lemon {
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  /// \brief Default traits class of EdmondsKarp class.
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  ///
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  /// Default traits class of EdmondsKarp class.
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  /// \param GR Digraph type.
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  /// \param CAP Type of capacity map.
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  template <typename GR, typename CAP>
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  struct EdmondsKarpDefaultTraits {
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    /// \brief The digraph type the algorithm runs on. 
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    typedef GR Digraph;
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    /// \brief The type of the map that stores the arc capacities.
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    ///
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    /// The type of the map that stores the arc capacities.
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    /// It must meet the \ref concepts::ReadMap "ReadMap" concept.
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    typedef CAP CapacityMap;
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    /// \brief The type of the flow values.
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    typedef typename CapacityMap::Value Value;
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    /// \brief The type of the map that stores the flow values.
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    ///
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    /// The type of the map that stores the flow values.
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    /// It must meet the \ref concepts::ReadWriteMap "ReadWriteMap" concept.
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#ifdef DOXYGEN
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    typedef GR::ArcMap<Value> FlowMap;
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#else
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    typedef typename Digraph::template ArcMap<Value> FlowMap;
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#endif
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    /// \brief Instantiates a FlowMap.
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    ///
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    /// This function instantiates a \ref FlowMap. 
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    /// \param digraph The digraph for which we would like to define
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    /// the flow map.
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    static FlowMap* createFlowMap(const Digraph& digraph) {
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      return new FlowMap(digraph);
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    }
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    /// \brief The tolerance used by the algorithm
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    ///
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    /// The tolerance used by the algorithm to handle inexact computation.
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    typedef lemon::Tolerance<Value> Tolerance;
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  };
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  /// \ingroup max_flow
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  ///
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  /// \brief Edmonds-Karp algorithms class.
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  ///
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  /// This class provides an implementation of the \e Edmonds-Karp \e
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  /// algorithm producing a \ref max_flow "flow of maximum value" in a
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  /// digraph \ref clrs01algorithms, \ref amo93networkflows,
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  /// \ref edmondskarp72theoretical.
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  /// The Edmonds-Karp algorithm is slower than the Preflow
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  /// algorithm, but it has an advantage of the step-by-step execution
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  /// control with feasible flow solutions. The \e source node, the \e
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  /// target node, the \e capacity of the arcs and the \e starting \e
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  /// flow value of the arcs should be passed to the algorithm
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  /// through the constructor.
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  ///
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  /// The time complexity of the algorithm is \f$ O(nm^2) \f$ in
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  /// worst case. Always try the Preflow algorithm instead of this if
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  /// you just want to compute the optimal flow.
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  ///
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  /// \tparam GR The type of the digraph the algorithm runs on.
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  /// \tparam CAP The type of the capacity map. The default map
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  /// type is \ref concepts::Digraph::ArcMap "GR::ArcMap<int>". 
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  /// \tparam TR The traits class that defines various types used by the
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  /// algorithm. By default, it is \ref EdmondsKarpDefaultTraits
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  /// "EdmondsKarpDefaultTraits<GR, CAP>".
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  /// In most cases, this parameter should not be set directly,
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  /// consider to use the named template parameters instead.
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#ifdef DOXYGEN
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  template <typename GR, typename CAP, typename TR>
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#else 
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  template <typename GR,
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	    typename CAP = typename GR::template ArcMap<int>,
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            typename TR = EdmondsKarpDefaultTraits<GR, CAP> >
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#endif
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  class EdmondsKarp {
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  public:
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    /// The \ref EdmondsKarpDefaultTraits "traits class" of the algorithm.
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    typedef TR Traits;
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    /// The type of the digraph the algorithm runs on.
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    typedef typename Traits::Digraph Digraph;
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    /// The type of the capacity map.
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    typedef typename Traits::CapacityMap CapacityMap;
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    /// The type of the flow values.
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    typedef typename Traits::Value Value; 
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    /// The type of the flow map.
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    typedef typename Traits::FlowMap FlowMap;
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    /// The type of the tolerance.
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    typedef typename Traits::Tolerance Tolerance;
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  private:
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    TEMPLATE_DIGRAPH_TYPEDEFS(Digraph);
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    typedef typename Digraph::template NodeMap<Arc> PredMap;
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    const Digraph& _graph;
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    const CapacityMap* _capacity;
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    Node _source, _target;
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    FlowMap* _flow;
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    bool _local_flow;
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    PredMap* _pred;
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    std::vector<Node> _queue;
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    Tolerance _tolerance;
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    Value _flow_value;
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    void createStructures() {
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      if (!_flow) {
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	_flow = Traits::createFlowMap(_graph);
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	_local_flow = true;
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      }
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      if (!_pred) {
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	_pred = new PredMap(_graph);
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      }
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      _queue.resize(countNodes(_graph));
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    }
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    void destroyStructures() {
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      if (_local_flow) {
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	delete _flow;
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      }
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      if (_pred) {
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	delete _pred;
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      }
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    }
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  public:
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    typedef EdmondsKarp Create;
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    ///\name Named template parameters
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    ///@{
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    template <typename T>
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    struct SetFlowMapTraits : public Traits {
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      typedef T FlowMap;
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      static FlowMap *createFlowMap(const Digraph&) {
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	LEMON_ASSERT(false, "FlowMap is not initialized");
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        return 0;
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      }
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    };
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    /// \brief \ref named-templ-param "Named parameter" for setting
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    /// FlowMap type
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    ///
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    /// \ref named-templ-param "Named parameter" for setting FlowMap
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    /// type
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    template <typename T>
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    struct SetFlowMap 
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      : public EdmondsKarp<Digraph, CapacityMap, SetFlowMapTraits<T> > {
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      typedef EdmondsKarp<Digraph, CapacityMap, SetFlowMapTraits<T> > Create;
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    };
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    /// @}
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  protected:
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    EdmondsKarp() {}
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  public:
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    /// \brief The constructor of the class.
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    ///
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    /// The constructor of the class. 
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    /// \param digraph The digraph the algorithm runs on. 
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    /// \param capacity The capacity of the arcs. 
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    /// \param source The source node.
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    /// \param target The target node.
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    EdmondsKarp(const Digraph& digraph, const CapacityMap& capacity,
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		Node source, Node target)
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      : _graph(digraph), _capacity(&capacity), _source(source), _target(target),
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	_flow(0), _local_flow(false), _pred(0), _tolerance(), _flow_value()
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    {
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      LEMON_ASSERT(_source != _target,
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                   "Flow source and target are the same nodes.");
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    }
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    /// \brief Destructor.
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    ///
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    /// Destructor.
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    ~EdmondsKarp() {
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      destroyStructures();
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    }
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    /// \brief Sets the capacity map.
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    ///
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    /// Sets the capacity map.
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    /// \return <tt>(*this)</tt>
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    EdmondsKarp& capacityMap(const CapacityMap& map) {
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      _capacity = &map;
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      return *this;
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    }
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    /// \brief Sets the flow map.
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    ///
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    /// Sets the flow map.
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    /// If you don't use this function before calling \ref run() or
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    /// \ref init(), an instance will be allocated automatically.
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    /// The destructor deallocates this automatically allocated map,
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    /// of course.
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    /// \return <tt>(*this)</tt>
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    EdmondsKarp& flowMap(FlowMap& map) {
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      if (_local_flow) {
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	delete _flow;
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	_local_flow = false;
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      }
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      _flow = &map;
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      return *this;
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    }
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    /// \brief Sets the source node.
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    ///
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    /// Sets the source node.
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    /// \return <tt>(*this)</tt>
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    EdmondsKarp& source(const Node& node) {
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      _source = node;
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      return *this;
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    }
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    /// \brief Sets the target node.
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    ///
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    /// Sets the target node.
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    /// \return <tt>(*this)</tt>
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    EdmondsKarp& target(const Node& node) {
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      _target = node;
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      return *this;
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    }
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    /// \brief Sets the tolerance used by algorithm.
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    ///
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    /// Sets the tolerance used by algorithm.
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    /// \return <tt>(*this)</tt>
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    EdmondsKarp& tolerance(const Tolerance& tolerance) {
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      _tolerance = tolerance;
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      return *this;
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    } 
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    /// \brief Returns a const reference to the tolerance.
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    ///
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    /// Returns a const reference to the tolerance object used by
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    /// the algorithm.
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    const Tolerance& tolerance() const {
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      return _tolerance;
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    } 
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    /// \name Execution control
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    /// The simplest way to execute the algorithm is to use \ref run().\n
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    /// If you need better control on the initial solution or the execution,
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    /// you have to call one of the \ref init() functions first, then
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    /// \ref start() or multiple times the \ref augment() function.
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    ///@{
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    /// \brief Initializes the algorithm.
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    ///
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    /// Initializes the internal data structures and sets the initial
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    /// flow to zero on each arc.
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    void init() {
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      createStructures();
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      for (ArcIt it(_graph); it != INVALID; ++it) {
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        _flow->set(it, 0);
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      }
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      _flow_value = 0;
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    }
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    /// \brief Initializes the algorithm using the given flow map.
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    ///
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    /// Initializes the internal data structures and sets the initial
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    /// flow to the given \c flowMap. The \c flowMap should
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    /// contain a feasible flow, i.e. at each node excluding the source
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    /// and the target, the incoming flow should be equal to the
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    /// outgoing flow.
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    template <typename FlowMap>
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    void init(const FlowMap& flowMap) {
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      createStructures();
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      for (ArcIt e(_graph); e != INVALID; ++e) {
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	_flow->set(e, flowMap[e]);
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      }
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      _flow_value = 0;
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      for (OutArcIt jt(_graph, _source); jt != INVALID; ++jt) {
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        _flow_value += (*_flow)[jt];
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      }
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      for (InArcIt jt(_graph, _source); jt != INVALID; ++jt) {
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        _flow_value -= (*_flow)[jt];
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      }
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    }
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    /// \brief Initializes the algorithm using the given flow map.
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    ///
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    /// Initializes the internal data structures and sets the initial
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    /// flow to the given \c flowMap. The \c flowMap should
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    /// contain a feasible flow, i.e. at each node excluding the source
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    /// and the target, the incoming flow should be equal to the
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    /// outgoing flow. 
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    /// \return \c false when the given \c flowMap does not contain a
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    /// feasible flow.
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    template <typename FlowMap>
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    bool checkedInit(const FlowMap& flowMap) {
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      createStructures();
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      for (ArcIt e(_graph); e != INVALID; ++e) {
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	_flow->set(e, flowMap[e]);
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      }
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      for (NodeIt it(_graph); it != INVALID; ++it) {
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        if (it == _source || it == _target) continue;
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        Value outFlow = 0;
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        for (OutArcIt jt(_graph, it); jt != INVALID; ++jt) {
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          outFlow += (*_flow)[jt];
thoneyvazul@1056
   350
        }
thoneyvazul@1056
   351
        Value inFlow = 0;
thoneyvazul@1056
   352
        for (InArcIt jt(_graph, it); jt != INVALID; ++jt) {
thoneyvazul@1056
   353
          inFlow += (*_flow)[jt];
thoneyvazul@1056
   354
        }
thoneyvazul@1056
   355
        if (_tolerance.different(outFlow, inFlow)) {
thoneyvazul@1056
   356
          return false;
thoneyvazul@1056
   357
        }
thoneyvazul@1056
   358
      }
thoneyvazul@1056
   359
      for (ArcIt it(_graph); it != INVALID; ++it) {
thoneyvazul@1056
   360
        if (_tolerance.less((*_flow)[it], 0)) return false;
thoneyvazul@1056
   361
        if (_tolerance.less((*_capacity)[it], (*_flow)[it])) return false;
thoneyvazul@1056
   362
      }
thoneyvazul@1056
   363
      _flow_value = 0;
thoneyvazul@1056
   364
      for (OutArcIt jt(_graph, _source); jt != INVALID; ++jt) {
thoneyvazul@1056
   365
        _flow_value += (*_flow)[jt];
thoneyvazul@1056
   366
      }
thoneyvazul@1056
   367
      for (InArcIt jt(_graph, _source); jt != INVALID; ++jt) {
thoneyvazul@1056
   368
        _flow_value -= (*_flow)[jt];
thoneyvazul@1056
   369
      }
thoneyvazul@1056
   370
      return true;
thoneyvazul@1056
   371
    }
thoneyvazul@1056
   372
kpeter@1057
   373
    /// \brief Augments the solution along a shortest path.
thoneyvazul@1056
   374
    /// 
kpeter@1057
   375
    /// Augments the solution along a shortest path. This function searches a
kpeter@1057
   376
    /// shortest path between the source and the target
kpeter@1057
   377
    /// in the residual digraph by the Bfs algoritm.
thoneyvazul@1056
   378
    /// Then it increases the flow on this path with the minimal residual
kpeter@1057
   379
    /// capacity on the path. If there is no such path, it gives back
thoneyvazul@1056
   380
    /// false.
kpeter@1057
   381
    /// \return \c false when the augmenting did not success, i.e. the
thoneyvazul@1056
   382
    /// current flow is a feasible and optimal solution.
thoneyvazul@1056
   383
    bool augment() {
thoneyvazul@1056
   384
      for (NodeIt n(_graph); n != INVALID; ++n) {
thoneyvazul@1056
   385
	_pred->set(n, INVALID);
thoneyvazul@1056
   386
      }
thoneyvazul@1056
   387
      
thoneyvazul@1056
   388
      int first = 0, last = 1;
thoneyvazul@1056
   389
      
thoneyvazul@1056
   390
      _queue[0] = _source;
thoneyvazul@1056
   391
      _pred->set(_source, OutArcIt(_graph, _source));
thoneyvazul@1056
   392
thoneyvazul@1056
   393
      while (first != last && (*_pred)[_target] == INVALID) {
thoneyvazul@1056
   394
	Node n = _queue[first++];
thoneyvazul@1056
   395
	
thoneyvazul@1056
   396
	for (OutArcIt e(_graph, n); e != INVALID; ++e) {
thoneyvazul@1056
   397
	  Value rem = (*_capacity)[e] - (*_flow)[e];
thoneyvazul@1056
   398
	  Node t = _graph.target(e);
thoneyvazul@1056
   399
	  if (_tolerance.positive(rem) && (*_pred)[t] == INVALID) {
thoneyvazul@1056
   400
	    _pred->set(t, e);
thoneyvazul@1056
   401
	    _queue[last++] = t;
thoneyvazul@1056
   402
	  }
thoneyvazul@1056
   403
	}
thoneyvazul@1056
   404
	for (InArcIt e(_graph, n); e != INVALID; ++e) {
thoneyvazul@1056
   405
	  Value rem = (*_flow)[e];
thoneyvazul@1056
   406
	  Node t = _graph.source(e);
thoneyvazul@1056
   407
	  if (_tolerance.positive(rem) && (*_pred)[t] == INVALID) {
thoneyvazul@1056
   408
	    _pred->set(t, e);
thoneyvazul@1056
   409
	    _queue[last++] = t;
thoneyvazul@1056
   410
	  }
thoneyvazul@1056
   411
	}
thoneyvazul@1056
   412
      }
thoneyvazul@1056
   413
thoneyvazul@1056
   414
      if ((*_pred)[_target] != INVALID) {
thoneyvazul@1056
   415
	Node n = _target;
thoneyvazul@1056
   416
	Arc e = (*_pred)[n];
thoneyvazul@1056
   417
thoneyvazul@1056
   418
	Value prem = (*_capacity)[e] - (*_flow)[e];
thoneyvazul@1056
   419
	n = _graph.source(e);
thoneyvazul@1056
   420
	while (n != _source) {
thoneyvazul@1056
   421
	  e = (*_pred)[n];
thoneyvazul@1056
   422
	  if (_graph.target(e) == n) {
thoneyvazul@1056
   423
	    Value rem = (*_capacity)[e] - (*_flow)[e];
thoneyvazul@1056
   424
	    if (rem < prem) prem = rem;
thoneyvazul@1056
   425
	    n = _graph.source(e);
thoneyvazul@1056
   426
	  } else {
thoneyvazul@1056
   427
	    Value rem = (*_flow)[e];
thoneyvazul@1056
   428
	    if (rem < prem) prem = rem;
thoneyvazul@1056
   429
	    n = _graph.target(e);   
thoneyvazul@1056
   430
	  } 
thoneyvazul@1056
   431
	}
thoneyvazul@1056
   432
thoneyvazul@1056
   433
	n = _target;
thoneyvazul@1056
   434
	e = (*_pred)[n];
thoneyvazul@1056
   435
thoneyvazul@1056
   436
	_flow->set(e, (*_flow)[e] + prem);
thoneyvazul@1056
   437
	n = _graph.source(e);
thoneyvazul@1056
   438
	while (n != _source) {
thoneyvazul@1056
   439
	  e = (*_pred)[n];
thoneyvazul@1056
   440
	  if (_graph.target(e) == n) {
thoneyvazul@1056
   441
	    _flow->set(e, (*_flow)[e] + prem);
thoneyvazul@1056
   442
	    n = _graph.source(e);
thoneyvazul@1056
   443
	  } else {
thoneyvazul@1056
   444
	    _flow->set(e, (*_flow)[e] - prem);
thoneyvazul@1056
   445
	    n = _graph.target(e);   
thoneyvazul@1056
   446
	  } 
thoneyvazul@1056
   447
	}
thoneyvazul@1056
   448
thoneyvazul@1056
   449
	_flow_value += prem;	
thoneyvazul@1056
   450
	return true;
thoneyvazul@1056
   451
      } else {
thoneyvazul@1056
   452
	return false;
thoneyvazul@1056
   453
      }
thoneyvazul@1056
   454
    }
thoneyvazul@1056
   455
thoneyvazul@1056
   456
    /// \brief Executes the algorithm
thoneyvazul@1056
   457
    ///
kpeter@1057
   458
    /// Executes the algorithm by performing augmenting phases until the
kpeter@1057
   459
    /// optimal solution is reached. 
kpeter@1057
   460
    /// \pre One of the \ref init() functions must be called before
kpeter@1057
   461
    /// using this function.
thoneyvazul@1056
   462
    void start() {
thoneyvazul@1056
   463
      while (augment()) {}
thoneyvazul@1056
   464
    }
thoneyvazul@1056
   465
thoneyvazul@1056
   466
    /// \brief Runs the algorithm.
thoneyvazul@1056
   467
    /// 
kpeter@1057
   468
    /// Runs the Edmonds-Karp algorithm.
kpeter@1057
   469
    /// \note ek.run() is just a shortcut of the following code.
thoneyvazul@1056
   470
    ///\code 
thoneyvazul@1056
   471
    /// ek.init();
thoneyvazul@1056
   472
    /// ek.start();
thoneyvazul@1056
   473
    ///\endcode
thoneyvazul@1056
   474
    void run() {
thoneyvazul@1056
   475
      init();
thoneyvazul@1056
   476
      start();
thoneyvazul@1056
   477
    }
thoneyvazul@1056
   478
thoneyvazul@1056
   479
    /// @}
thoneyvazul@1056
   480
thoneyvazul@1056
   481
    /// \name Query Functions
thoneyvazul@1056
   482
    /// The result of the Edmonds-Karp algorithm can be obtained using these
thoneyvazul@1056
   483
    /// functions.\n
kpeter@1057
   484
    /// Either \ref run() or \ref start() should be called before using them.
thoneyvazul@1056
   485
    
thoneyvazul@1056
   486
    ///@{
thoneyvazul@1056
   487
thoneyvazul@1056
   488
    /// \brief Returns the value of the maximum flow.
thoneyvazul@1056
   489
    ///
kpeter@1057
   490
    /// Returns the value of the maximum flow found by the algorithm.
kpeter@1057
   491
    ///
kpeter@1057
   492
    /// \pre Either \ref run() or \ref init() must be called before
kpeter@1057
   493
    /// using this function.
thoneyvazul@1056
   494
    Value flowValue() const {
thoneyvazul@1056
   495
      return _flow_value;
thoneyvazul@1056
   496
    }
thoneyvazul@1056
   497
kpeter@1057
   498
    /// \brief Returns the flow value on the given arc.
thoneyvazul@1056
   499
    ///
kpeter@1057
   500
    /// Returns the flow value on the given arc.
kpeter@1057
   501
    ///
kpeter@1057
   502
    /// \pre Either \ref run() or \ref init() must be called before
kpeter@1057
   503
    /// using this function.
thoneyvazul@1056
   504
    Value flow(const Arc& arc) const {
thoneyvazul@1056
   505
      return (*_flow)[arc];
thoneyvazul@1056
   506
    }
thoneyvazul@1056
   507
kpeter@1057
   508
    /// \brief Returns a const reference to the flow map.
thoneyvazul@1056
   509
    ///
kpeter@1057
   510
    /// Returns a const reference to the arc map storing the found flow.
kpeter@1057
   511
    ///
kpeter@1057
   512
    /// \pre Either \ref run() or \ref init() must be called before
kpeter@1057
   513
    /// using this function.
kpeter@1057
   514
    const FlowMap& flowMap() const {
kpeter@1057
   515
      return *_flow;
kpeter@1057
   516
    }
thoneyvazul@1056
   517
kpeter@1057
   518
    /// \brief Returns \c true when the node is on the source side of the
kpeter@1057
   519
    /// minimum cut.
kpeter@1057
   520
    ///
kpeter@1057
   521
    /// Returns true when the node is on the source side of the found
kpeter@1057
   522
    /// minimum cut.
kpeter@1057
   523
    ///
kpeter@1057
   524
    /// \pre Either \ref run() or \ref init() must be called before
kpeter@1057
   525
    /// using this function.
thoneyvazul@1056
   526
    bool minCut(const Node& node) const {
kpeter@1061
   527
      return ((*_pred)[node] != INVALID) || node == _source;
thoneyvazul@1056
   528
    }
thoneyvazul@1056
   529
kpeter@1057
   530
    /// \brief Gives back a minimum value cut.
thoneyvazul@1056
   531
    ///
kpeter@1057
   532
    /// Sets \c cutMap to the characteristic vector of a minimum value
kpeter@1057
   533
    /// cut. \c cutMap should be a \ref concepts::WriteMap "writable"
kpeter@1057
   534
    /// node map with \c bool (or convertible) value type.
kpeter@1057
   535
    ///
kpeter@1057
   536
    /// \note This function calls \ref minCut() for each node, so it runs in
kpeter@1057
   537
    /// O(n) time.
kpeter@1057
   538
    ///
kpeter@1057
   539
    /// \pre Either \ref run() or \ref init() must be called before
kpeter@1057
   540
    /// using this function.
thoneyvazul@1056
   541
    template <typename CutMap>
thoneyvazul@1056
   542
    void minCutMap(CutMap& cutMap) const {
thoneyvazul@1056
   543
      for (NodeIt n(_graph); n != INVALID; ++n) {
thoneyvazul@1056
   544
	cutMap.set(n, (*_pred)[n] != INVALID);
thoneyvazul@1056
   545
      }
thoneyvazul@1056
   546
      cutMap.set(_source, true);
thoneyvazul@1056
   547
    }    
thoneyvazul@1056
   548
thoneyvazul@1056
   549
    /// @}
thoneyvazul@1056
   550
thoneyvazul@1056
   551
  };
thoneyvazul@1056
   552
thoneyvazul@1056
   553
}
thoneyvazul@1056
   554
thoneyvazul@1056
   555
#endif