lemon/dag_shortest_path.h
author ladanyi
Sat, 13 Oct 2007 08:48:07 +0000
changeset 2495 e4f8367beb41
parent 2335 27aa03cd3121
child 2553 bfced05fa852
permissions -rw-r--r--
Added the function isFinite(), and replaced the calls to finite() with it.
This was necessary because finite() is not a standard function. Neither can
we use its standard counterpart isfinite(), because it was introduced only
in C99, and therefore it is not supplied by all C++ implementations.
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/* -*- C++ -*-
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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) 2003-2007
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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_DAG_SHORTEST_PATH_H
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#define LEMON_DAG_SHORTEST_PATH_H
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///\ingroup flowalgs
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/// \file
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/// \brief DagShortestPath algorithm.
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///
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#include <lemon/list_graph.h>
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#include <lemon/bits/invalid.h>
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#include <lemon/error.h>
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#include <lemon/maps.h>
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#include <lemon/topology.h>
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#include <limits>
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namespace lemon {
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  /// \brief Default OperationTraits for the DagShortestPath algorithm class.
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  ///  
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  /// It defines all computational operations and constants which are
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  /// used in the dag shortest path algorithm. The default implementation
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  /// is based on the numeric_limits class. If the numeric type does not
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  /// have infinity value then the maximum value is used as extremal
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  /// infinity value.
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  template <
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    typename Value, 
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    bool has_infinity = std::numeric_limits<Value>::has_infinity>
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  struct DagShortestPathDefaultOperationTraits {
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    /// \brief Gives back the zero value of the type.
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    static Value zero() {
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      return static_cast<Value>(0);
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    }
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    /// \brief Gives back the positive infinity value of the type.
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    static Value infinity() {
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      return std::numeric_limits<Value>::infinity();
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    }
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    /// \brief Gives back the sum of the given two elements.
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    static Value plus(const Value& left, const Value& right) {
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      return left + right;
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    }
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    /// \brief Gives back true only if the first value less than the second.
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    static bool less(const Value& left, const Value& right) {
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      return left < right;
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    }
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  };
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  template <typename Value>
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  struct DagShortestPathDefaultOperationTraits<Value, false> {
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    static Value zero() {
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      return static_cast<Value>(0);
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    }
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    static Value infinity() {
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      return std::numeric_limits<Value>::max();
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    }
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    static Value plus(const Value& left, const Value& right) {
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      if (left == infinity() || right == infinity()) return infinity();
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      return left + right;
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    }
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    static bool less(const Value& left, const Value& right) {
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      return left < right;
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    }
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  };
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  /// \brief Default traits class of DagShortestPath class.
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  ///
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  /// Default traits class of DagShortestPath class.
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  /// \param _Graph Graph type.
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  /// \param _LegthMap Type of length map.
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  template<class _Graph, class _LengthMap>
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  struct DagShortestPathDefaultTraits {
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    /// The graph type the algorithm runs on. 
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    typedef _Graph Graph;
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    /// \brief The type of the map that stores the edge lengths.
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    ///
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    /// The type of the map that stores the edge lengths.
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    /// It must meet the \ref concepts::ReadMap "ReadMap" concept.
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    typedef _LengthMap LengthMap;
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    // The type of the length of the edges.
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    typedef typename _LengthMap::Value Value;
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    /// \brief Operation traits for dag shortest path algorithm.
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    ///
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    /// It defines the infinity type on the given Value type
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    /// and the used operation.
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    /// \see DagShortestPathDefaultOperationTraits
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    typedef DagShortestPathDefaultOperationTraits<Value> OperationTraits;
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    /// \brief The type of the map that stores the last edges of the 
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    /// shortest paths.
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    /// 
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    /// The type of the map that stores the last
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    /// edges of the shortest paths.
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    /// It must meet the \ref concepts::WriteMap "WriteMap" concept.
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    ///
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    typedef typename Graph::template NodeMap<typename _Graph::Edge> PredMap;
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    /// \brief Instantiates a PredMap.
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    /// 
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    /// This function instantiates a \ref PredMap. 
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    /// \param graph is the graph, to which we would
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    /// like to define the PredMap.
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    /// \todo The graph alone may be insufficient for the initialization
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    static PredMap *createPredMap(const _Graph& graph) {
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      return new PredMap(graph);
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    }
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    /// \brief The type of the map that stores the dists of the nodes.
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    ///
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    /// The type of the map that stores the dists of the nodes.
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    /// It must meet the \ref concepts::WriteMap "WriteMap" concept.
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    ///
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    typedef typename Graph::template NodeMap<typename _LengthMap::Value> 
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    DistMap;
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    /// \brief Instantiates a DistMap.
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    ///
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    /// This function instantiates a \ref DistMap. 
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    /// \param graph is the graph, to which we would like to define the 
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    /// \ref DistMap
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    static DistMap *createDistMap(const _Graph& graph) {
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      return new DistMap(graph);
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    }
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  };
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  /// \brief Inverse OperationTraits for the DagShortestPath algorithm class.
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  /// 
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  /// It defines all computational operations and constants which are
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  /// used in the dag shortest path algorithm. It is the inverse of
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  /// \ref DagShortestPathDefaultOperationTraits, so it can be used to
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  /// calculate the longest path. The default implementation
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  /// is based on the numeric_limits class. If the numeric type does not
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  /// have infinity value then the minimum value is used as extremal
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  /// infinity value.
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  template <
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    typename Value, 
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    bool has_infinity = std::numeric_limits<Value>::has_infinity>
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  struct DagLongestPathOperationTraits {
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    /// \brief Gives back the zero value of the type.
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    static Value zero() {
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      return static_cast<Value>(0);
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    }
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    /// \brief Gives back the negative infinity value of the type.
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    static Value infinity() {
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      return -(std::numeric_limits<Value>::infinity());
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    }
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    /// \brief Gives back the sum of the given two elements.
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    static Value plus(const Value& left, const Value& right) {
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      return left + right;
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    }
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    /// \brief Gives back true only if the first value less than the second.
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    static bool less(const Value& left, const Value& right) {
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      return left > right;
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    }
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  };
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  template <typename Value>
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  struct DagLongestPathOperationTraits<Value, false> {
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    static Value zero() {
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      return static_cast<Value>(0);
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    }
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    static Value infinity() {
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      return std::numeric_limits<Value>::min();
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    }
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    static Value plus(const Value& left, const Value& right) {
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      if (left == infinity() || right == infinity()) return infinity();
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      return left + right;
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    }
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    static bool less(const Value& left, const Value& right) {
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      return left > right;
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    }
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  };
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  /// \brief Inverse traits class of DagShortestPath class.
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  ///
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  /// Inverse traits class of DagShortestPath class.
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  /// \param _Graph Graph type.
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  /// \param _LegthMap Type of length map.
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  template<class _Graph, class _LengthMap>
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  struct DagLongestPathTraits {
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    /// The graph type the algorithm runs on. 
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    typedef _Graph Graph;
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    /// \brief The type of the map that stores the edge lengths.
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    ///
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    /// The type of the map that stores the edge lengths.
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    /// It must meet the \ref concepts::ReadMap "ReadMap" concept.
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    typedef _LengthMap LengthMap;
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    // The type of the length of the edges.
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    typedef typename _LengthMap::Value Value;
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    /// \brief Inverse operation traits for dag shortest path algorithm.
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    ///
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    /// It defines the infinity type on the given Value type
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    /// and the used operation.
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    /// \see DagLongestPathOperationTraits
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    typedef DagLongestPathOperationTraits<Value> OperationTraits;
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    /// \brief The type of the map that stores the last edges of the 
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    /// longest paths.
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    /// 
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    /// The type of the map that stores the last
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    /// edges of the longest paths.
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    /// It must meet the \ref concepts::WriteMap "WriteMap" concept.
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    ///
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    typedef typename Graph::template NodeMap<typename _Graph::Edge> PredMap;
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    /// \brief Instantiates a PredMap.
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    /// 
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    /// This function instantiates a \ref PredMap. 
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    /// \param graph is the graph,
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    /// to which we would like to define the PredMap.
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    /// \todo The graph alone may be insufficient for the initialization
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    static PredMap *createPredMap(const _Graph& graph) {
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      return new PredMap(graph);
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    }
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    /// \brief The type of the map that stores the dists of the nodes.
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    ///
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    /// The type of the map that stores the dists of the nodes.
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    /// It must meet the \ref concepts::WriteMap "WriteMap" concept.
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    ///
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    typedef typename Graph::template NodeMap<typename _LengthMap::Value> 
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    DistMap;
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    /// \brief Instantiates a DistMap.
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    ///
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    /// This function instantiates a \ref DistMap. 
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    /// \param graph is the graph, to which we would like to define the 
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    /// \ref DistMap
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    static DistMap *createDistMap(const _Graph& graph) {
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      return new DistMap(graph);
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    }
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  };
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  /// \brief %DagShortestPath algorithm class.
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  ///
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  /// \ingroup flowalgs
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  /// This class provides an efficient implementation of a Dag sortest path
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  /// searching algorithm. The edge lengths are passed to the algorithm
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  /// using a \ref concepts::ReadMap "ReadMap", so it is easy to change it
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  /// to any kind of length.
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  ///
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  /// The complexity of the algorithm is O(n + e).
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  ///
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  /// The type of the length is determined by the
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  /// \ref concepts::ReadMap::Value "Value" of the length map.
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  ///
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  /// \param _Graph The graph type the algorithm runs on. The default value
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  /// is \ref ListGraph. The value of _Graph is not used directly by
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  /// DagShortestPath, it is only passed to \ref DagShortestPathDefaultTraits.
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  /// \param _LengthMap This read-only EdgeMap determines the lengths of the
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  /// edges. The default map type is \ref concepts::Graph::EdgeMap 
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  /// "Graph::EdgeMap<int>".  The value of _LengthMap is not used directly 
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  /// by DagShortestPath, it is only passed to \ref DagShortestPathDefaultTraits.  
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  /// \param _Traits Traits class to set various data types used by the 
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  /// algorithm.  The default traits class is \ref DagShortestPathDefaultTraits
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  /// "DagShortestPathDefaultTraits<_Graph,_LengthMap>".  See \ref
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  /// DagShortestPathDefaultTraits for the documentation of a DagShortestPath traits
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  /// class.
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  ///
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  /// \author Balazs Attila Mihaly (based on Balazs Dezso's work)
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#ifdef DOXYGEN
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  template <typename _Graph, typename _LengthMap, typename _Traits>
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#else
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  template <typename _Graph=ListGraph,
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	    typename _LengthMap=typename _Graph::template EdgeMap<int>,
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	    typename _Traits=DagShortestPathDefaultTraits<_Graph,_LengthMap> >
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#endif
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  class DagShortestPath {
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  public:
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    /// \brief \ref Exception for uninitialized parameters.
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    ///
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    /// This error represents problems in the initialization
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    /// of the parameters of the algorithms.
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    class UninitializedParameter : public lemon::UninitializedParameter {
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    public:
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      virtual const char* what() const throw() {
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	return "lemon::DagShortestPath::UninitializedParameter";
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      }
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    };
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    typedef _Traits Traits;
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    ///The type of the underlying graph.
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    typedef typename _Traits::Graph Graph;
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    typedef typename Graph::Node Node;
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    typedef typename Graph::NodeIt NodeIt;
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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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    /// \brief The type of the length of the edges.
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    typedef typename _Traits::LengthMap::Value Value;
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    /// \brief The type of the map that stores the edge lengths.
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    typedef typename _Traits::LengthMap LengthMap;
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    /// \brief The type of the map that stores the last
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    /// edges of the shortest paths.
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    typedef typename _Traits::PredMap PredMap;
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    /// \brief The type of the map that stores the dists of the nodes.
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    typedef typename _Traits::DistMap DistMap;
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    /// \brief The operation traits.
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    typedef typename _Traits::OperationTraits OperationTraits;
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    /// \brief The Node weight map.
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    typedef typename Graph::template NodeMap<Value> WeightMap;
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  private:
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    /// Pointer to the underlying graph
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    const Graph *graph;
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    /// Pointer to the length map
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    const LengthMap *length;
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    ///Pointer to the map of predecessors edges
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    PredMap *_pred;
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    ///Indicates if \ref _pred is locally allocated (\c true) or not
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    bool local_pred;
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    ///Pointer to the map of distances
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    DistMap *_dist;
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    ///Indicates if \ref _dist is locally allocated (\c true) or not
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    bool local_dist;
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    ///Process step counter
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    unsigned int _process_step;
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    std::vector<Node> _node_order;
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    /// Creates the maps if necessary.
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    void create_maps() {
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      if(!_pred) {
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	local_pred = true;
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	_pred = Traits::createPredMap(*graph);
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      }
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      if(!_dist) {
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	local_dist = true;
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	_dist = Traits::createDistMap(*graph);
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      }
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    }
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  public :
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    typedef DagShortestPath Create;
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    /// \name Named template parameters
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    ///@{
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    template <class T>
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    struct DefPredMapTraits : public Traits {
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      typedef T PredMap;
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      static PredMap *createPredMap(const Graph&) {
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	throw UninitializedParameter();
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      }
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    };
deba@1912
   378
deba@1912
   379
    /// \brief \ref named-templ-param "Named parameter" for setting PredMap 
deba@1912
   380
    /// type
deba@1912
   381
    /// \ref named-templ-param "Named parameter" for setting PredMap type
deba@1912
   382
    ///
deba@1912
   383
    template <class T>
deba@1912
   384
    struct DefPredMap {
deba@1912
   385
      typedef DagShortestPath< Graph, LengthMap, DefPredMapTraits<T> > Create;
deba@1912
   386
    };
deba@1912
   387
    
deba@1912
   388
    template <class T>
deba@1912
   389
    struct DefDistMapTraits : public Traits {
deba@1912
   390
      typedef T DistMap;
deba@1912
   391
      static DistMap *createDistMap(const Graph& graph) {
deba@1912
   392
	throw UninitializedParameter();
deba@1912
   393
      }
deba@1912
   394
    };
deba@1912
   395
deba@1912
   396
    /// \brief \ref named-templ-param "Named parameter" for setting DistMap 
deba@1912
   397
    /// type
deba@1912
   398
    ///
deba@1912
   399
    /// \ref named-templ-param "Named parameter" for setting DistMap type
deba@1912
   400
    ///
deba@1912
   401
    template <class T>
deba@1912
   402
    struct DefDistMap 
deba@1912
   403
      : public DagShortestPath< Graph, LengthMap, DefDistMapTraits<T> > {
deba@1912
   404
      typedef DagShortestPath< Graph, LengthMap, DefDistMapTraits<T> > Create;
deba@1912
   405
    };
deba@1912
   406
    
deba@1912
   407
    template <class T>
deba@1912
   408
    struct DefOperationTraitsTraits : public Traits {
deba@1912
   409
      typedef T OperationTraits;
deba@1912
   410
    };
deba@1912
   411
    
deba@1912
   412
    /// \brief \ref named-templ-param "Named parameter" for setting 
deba@1912
   413
    /// OperationTraits type
deba@1912
   414
    ///
deba@1912
   415
    /// \ref named-templ-param "Named parameter" for setting OperationTraits
deba@1912
   416
    /// type
deba@1912
   417
    template <class T>
deba@1912
   418
    struct DefOperationTraits
deba@1912
   419
      : public DagShortestPath< Graph, LengthMap, DefOperationTraitsTraits<T> > {
deba@1912
   420
      typedef DagShortestPath< Graph, LengthMap, DefOperationTraitsTraits<T> >
deba@1912
   421
      Create;
deba@1912
   422
    };
deba@1912
   423
    
deba@1912
   424
    ///@}
deba@1912
   425
deba@1912
   426
  protected:
deba@1912
   427
    
deba@1912
   428
    DagShortestPath() {}
deba@1912
   429
deba@1912
   430
  public:      
deba@1912
   431
    
deba@1912
   432
    /// \brief Constructor.
deba@1912
   433
    ///
deba@1912
   434
    /// \param _graph the graph the algorithm will run on.
deba@1912
   435
    /// \param _length the length map used by the algorithm.
deba@1912
   436
    DagShortestPath(const Graph& _graph, const LengthMap& _length) :
deba@1912
   437
      graph(&_graph), length(&_length),
deba@1912
   438
      _pred(0), local_pred(false),
deba@1912
   439
      _dist(0), local_dist(false){}
deba@1912
   440
deba@1912
   441
    /// \brief Constructor with node weight map.
deba@1912
   442
    ///
deba@1912
   443
    /// \param _graph the graph the algorithm will run on.
deba@1912
   444
    /// \param _length the length map used by the algorithm.
deba@1912
   445
    /// The NodeMap _length will be used as the weight map.
deba@1912
   446
    /// Each edge will have the weight of its target node.
deba@1912
   447
    DagShortestPath(const Graph& _graph, const WeightMap& _length) :
deba@1912
   448
      graph(&_graph),
deba@1912
   449
      _pred(0), local_pred(false),
deba@1912
   450
      _dist(0), local_dist(false){
deba@1912
   451
      length=new LengthMap(_graph);
deba@1912
   452
      _dist=new DistMap(_graph);
deba@1912
   453
      for(EdgeIt eit(_graph);eit!=INVALID;++eit)
deba@1912
   454
	(const_cast<LengthMap*>(length))->set(eit,_length[_graph.target(eit)]);
deba@1912
   455
      }
deba@1912
   456
deba@1912
   457
    ///Destructor.
deba@1912
   458
    ~DagShortestPath() {
deba@1912
   459
      if(local_pred) delete _pred;
deba@1912
   460
      if(local_dist) delete _dist;
deba@1912
   461
    }
deba@1912
   462
deba@1912
   463
    /// \brief Sets the length map.
deba@1912
   464
    ///
deba@1912
   465
    /// Sets the length map.
deba@1912
   466
    /// \return \c (*this)
deba@1912
   467
    DagShortestPath &lengthMap(const LengthMap &m) {
deba@1912
   468
      length = &m;
deba@1912
   469
      return *this;
deba@1912
   470
    }
deba@1912
   471
deba@1912
   472
    /// \brief Sets the map storing the predecessor edges.
deba@1912
   473
    ///
deba@1912
   474
    /// Sets the map storing the predecessor edges.
deba@1912
   475
    /// If you don't use this function before calling \ref run(),
deba@1912
   476
    /// it will allocate one. The destuctor deallocates this
deba@1912
   477
    /// automatically allocated map, of course.
deba@1912
   478
    /// \return \c (*this)
deba@1912
   479
    DagShortestPath &predMap(PredMap &m) {
deba@1912
   480
      if(local_pred) {
deba@1912
   481
	delete _pred;
deba@1912
   482
	local_pred=false;
deba@1912
   483
      }
deba@1912
   484
      _pred = &m;
deba@1912
   485
      return *this;
deba@1912
   486
    }
deba@1912
   487
deba@1912
   488
    /// \brief Sets the map storing the distances calculated by the algorithm.
deba@1912
   489
    ///
deba@1912
   490
    /// Sets the map storing the distances calculated by the algorithm.
deba@1912
   491
    /// If you don't use this function before calling \ref run(),
deba@1912
   492
    /// it will allocate one. The destuctor deallocates this
deba@1912
   493
    /// automatically allocated map, of course.
deba@1912
   494
    /// \return \c (*this)
deba@1912
   495
    DagShortestPath &distMap(DistMap &m) {
deba@1912
   496
      if(local_dist) {
deba@1912
   497
	delete _dist;
deba@1912
   498
	local_dist=false;
deba@1912
   499
      }
deba@1912
   500
      _dist = &m;
deba@1912
   501
      return *this;
deba@1912
   502
    }
deba@1912
   503
deba@1912
   504
    /// \name Execution control
deba@1912
   505
    /// The simplest way to execute the algorithm is to use
deba@1912
   506
    /// one of the member functions called \c run(...)
deba@1912
   507
    /// \n
deba@1912
   508
    /// If you need more control on the execution,
deba@1912
   509
    /// first you must call \ref init(...), then you can add several source
deba@1912
   510
    /// nodes with \ref addSource().
deba@1912
   511
    /// Finally \ref start() will perform the actual path computation.
deba@1912
   512
    /// Some functions have an alternative form (\ref checkedInit(...),
deba@1912
   513
    /// \ref checkedRun(...)) which also verifies if the graph given in the
deba@1912
   514
    /// constructor is a dag.
deba@1912
   515
deba@1912
   516
    ///@{
deba@1912
   517
deba@1912
   518
    /// \brief Initializes the internal data structures.
deba@1912
   519
    ///
deba@1912
   520
    /// Initializes the internal data structures.
deba@1912
   521
    void init(const Value value = OperationTraits::infinity()) {
deba@1912
   522
      typedef typename Graph::template NodeMap<int> NodeOrderMap;
deba@1912
   523
      _process_step=0;
deba@1912
   524
      NodeOrderMap node_order(*graph);
deba@1912
   525
      topologicalSort(*graph,node_order);
deba@1912
   526
      _node_order.resize(countNodes(*graph),INVALID);
deba@1912
   527
      create_maps();
deba@1912
   528
      for (NodeIt it(*graph); it != INVALID; ++it) {
deba@1912
   529
        _node_order[node_order[it]]=it;
deba@1912
   530
        _pred->set(it, INVALID);
deba@1912
   531
        _dist->set(it, value);
deba@1912
   532
      }
deba@1912
   533
    }
deba@1912
   534
deba@1912
   535
    /// \brief Initializes the internal data structures
deba@1912
   536
    /// with a given topological sort (NodeMap).
deba@1912
   537
    ///
deba@1912
   538
    /// Initializes the internal data structures
deba@1912
   539
    /// with a given topological sort (NodeMap).
deba@1912
   540
    void init(const typename Graph::template NodeMap<int>& node_order,
deba@1912
   541
         const Value value = OperationTraits::infinity()) {
deba@1912
   542
      _process_step=0;
deba@1912
   543
      _node_order.resize(countNodes(*graph),INVALID);
deba@1912
   544
      create_maps();
deba@1912
   545
      for (NodeIt it(*graph); it != INVALID; ++it) {
deba@1912
   546
        _node_order[node_order[it]]=it;
deba@1912
   547
        _pred->set(it, INVALID);
deba@1912
   548
        _dist->set(it, value);
deba@1912
   549
      }
deba@1912
   550
    }
deba@1912
   551
deba@1912
   552
    /// \brief Initializes the internal data structures
deba@1912
   553
    /// with a given topological sort (std::vector).
deba@1912
   554
    ///
deba@1912
   555
    /// Initializes the internal data structures
deba@1912
   556
    /// with a given topological sort (std::vector).
deba@1912
   557
    void init(const std::vector<Node>& node_order,
deba@1912
   558
        const Value value = OperationTraits::infinity()) {
deba@1912
   559
      _process_step=0;
deba@1912
   560
      _node_order=node_order;
deba@1912
   561
      create_maps();
deba@1912
   562
      for (NodeIt it(*graph); it != INVALID; ++it) {
deba@1912
   563
        _pred->set(it, INVALID);
deba@1912
   564
        _dist->set(it, value);
deba@1912
   565
      }
deba@1912
   566
    }
deba@1912
   567
deba@1912
   568
    /// \brief Initializes the internal data structures. It also checks if the graph is dag.
deba@1912
   569
    ///
deba@1912
   570
    /// Initializes the internal data structures. It also checks if the graph is dag.
deba@1912
   571
    /// \return true if the graph (given in the constructor) is dag, false otherwise.
deba@1912
   572
    bool checkedInit(const Value value = OperationTraits::infinity()) {
deba@1912
   573
      typedef typename Graph::template NodeMap<int> NodeOrderMap;
deba@1912
   574
      NodeOrderMap node_order(*graph);
deba@1912
   575
      if(!checkedTopologicalSort(*graph,node_order))return false;
deba@1912
   576
      init(node_order,value);
deba@1912
   577
      return true;
deba@1912
   578
    }
deba@1912
   579
deba@1912
   580
    /// \brief Initializes the internal data structures with a given
deba@1912
   581
    /// topological sort (NodeMap). It also checks if the graph is dag.
deba@1912
   582
    ///
deba@1912
   583
    /// Initializes the internal data structures with a given
deba@1912
   584
    /// topological sort (NodeMap). It also checks if the graph is dag.
deba@1912
   585
    /// \return true if the graph (given in the constructor) is dag, false otherwise.
deba@1912
   586
    bool checkedInit(const typename Graph::template NodeMap<int>& node_order, 
deba@1912
   587
                     const Value value = OperationTraits::infinity()) {
deba@1912
   588
      for(NodeIt it(*graph);it!=INVALID;++it){
deba@1912
   589
        for(OutEdgeIt oeit(*graph,it);oeit!=INVALID;++oeit){
deba@1912
   590
          if(node_order[graph->target(oeit)]<node_order[it])return false;
deba@1912
   591
        }
deba@1912
   592
      }
deba@1912
   593
      init(node_order,value);
deba@1912
   594
      return true;
deba@1912
   595
    }
deba@1912
   596
deba@1912
   597
    /// \brief Initializes the internal data structures with a given
deba@1912
   598
    /// topological sort (std::vector). It also checks if the graph is dag.
deba@1912
   599
    ///
deba@1912
   600
    /// Initializes the internal data structures with a given
deba@1912
   601
    /// topological sort (std::vector). It also checks if the graph is dag.
deba@1912
   602
    /// \return true if the graph (given in the constructor) is dag, false otherwise.
deba@1912
   603
    bool checkedInit(const std::vector<Node>& node_order, 
deba@1912
   604
                     const Value value = OperationTraits::infinity()) {
deba@1912
   605
      typedef typename Graph::template NodeMap<bool> BoolNodeMap;
deba@1912
   606
      BoolNodeMap _processed(*graph,false);
deba@1912
   607
      for(unsigned int i=0;i<_node_order.size();++i){
deba@1912
   608
        _processed[node_order[i]]=true;
deba@1912
   609
        for(OutEdgeIt oeit(*graph,node_order[i]);oeit!=INVALID;++oeit){
deba@1912
   610
          if(_processed[graph->target(oeit)])return false;
deba@1912
   611
        }
deba@1912
   612
      }
deba@1912
   613
      init(node_order,value);
deba@1912
   614
      return true;
deba@1912
   615
    }
deba@1912
   616
deba@1912
   617
    /// \brief Adds a new source node.
deba@1912
   618
    ///
deba@1912
   619
    /// The optional second parameter is the initial distance of the node.
deba@1912
   620
    /// It just sets the distance of the node to the given value.
deba@1912
   621
    void addSource(Node source, Value dst = OperationTraits::zero()) {
deba@1912
   622
      if((*_dist)[source] != dst){
deba@1912
   623
        _dist->set(source, dst);
deba@1912
   624
      }
deba@1912
   625
    }
deba@1912
   626
deba@1912
   627
    /// \brief Executes one step from the dag shortest path algorithm.
deba@1912
   628
    ///
deba@1912
   629
    /// If the algoritm calculated the distances in the previous step 
deba@1912
   630
    /// strictly for all at most k length paths then it will calculate the 
deba@1912
   631
    /// distances strictly for all at most k + 1 length paths. With k
deba@1912
   632
    /// iteration this function calculates the at most k length paths.
deba@1912
   633
    ///\pre the queue is not empty
deba@1912
   634
    ///\return the currently processed node
deba@1912
   635
    Node processNextNode() {
deba@1912
   636
      if(reached(_node_order[_process_step])){
deba@1912
   637
        for (OutEdgeIt it(*graph, _node_order[_process_step]); it != INVALID; ++it) {
deba@1912
   638
	  Node target = graph->target(it);
deba@1912
   639
	  Value relaxed =
deba@1912
   640
	    OperationTraits::plus((*_dist)[_node_order[_process_step]], (*length)[it]);
deba@1912
   641
	  if (OperationTraits::less(relaxed, (*_dist)[target])) {
deba@1912
   642
	    _pred->set(target, it);
deba@1912
   643
	    _dist->set(target, relaxed);
deba@1912
   644
	  }
deba@1912
   645
        }
deba@1912
   646
      }
deba@1912
   647
      ++_process_step;
deba@1912
   648
      return _node_order[_process_step-1];
deba@1912
   649
    }
deba@1912
   650
deba@1912
   651
    ///\brief Returns \c false if there are nodes
deba@1912
   652
    ///to be processed in the queue
deba@1912
   653
    ///
deba@1912
   654
    ///Returns \c false if there are nodes
deba@1912
   655
    ///to be processed in the queue
deba@1912
   656
    bool emptyQueue() { return _node_order.size()-1==_process_step; }
deba@1912
   657
deba@1912
   658
    ///\brief Returns the number of the nodes to be processed.
deba@1912
   659
    ///
deba@1912
   660
    ///Returns the number of the nodes to be processed in the queue.
deba@1912
   661
    int queueSize() { return _node_order.size()-1-_process_step; }
deba@1912
   662
deba@1912
   663
    /// \brief Executes the algorithm.
deba@1912
   664
    ///
deba@1912
   665
    /// \pre init() must be called and at least one node should be added
deba@1912
   666
    /// with addSource() before using this function.
deba@1912
   667
    ///
deba@1912
   668
    /// This method runs the %DagShortestPath algorithm from the root node(s)
deba@1912
   669
    /// in order to compute the shortest path to each node. The algorithm 
deba@1912
   670
    /// computes 
deba@1912
   671
    /// - The shortest path tree.
deba@1912
   672
    /// - The distance of each node from the root(s).
deba@1912
   673
    void start() {
deba@1912
   674
      while(!emptyQueue()) {
deba@1912
   675
	processNextNode();
deba@1912
   676
      }
deba@1912
   677
    }
deba@1912
   678
deba@1912
   679
    /// \brief Runs %DagShortestPath algorithm from node \c s.
deba@1912
   680
    ///    
deba@1912
   681
    /// This method runs the %DagShortestPath algorithm from a root node \c s
deba@1912
   682
    /// in order to compute the shortest path to each node. The algorithm 
deba@1912
   683
    /// computes
deba@1912
   684
    /// - The shortest path tree.
deba@1912
   685
    /// - The distance of each node from the root.
deba@1912
   686
    ///
deba@1912
   687
    /// \note d.run(s) is just a shortcut of the following code.
alpar@1946
   688
    ///\code
deba@1912
   689
    ///  d.init();
deba@1912
   690
    ///  d.addSource(s);
deba@1912
   691
    ///  d.start();
alpar@1946
   692
    ///\endcode
deba@1912
   693
    void run(Node s) {
deba@1912
   694
      init();
deba@1912
   695
      addSource(s);
deba@1912
   696
      start();
deba@1912
   697
    }
deba@1912
   698
    
deba@1912
   699
    /// \brief Runs %DagShortestPath algorithm from node \c s.
deba@1912
   700
    /// It also checks if the graph is a dag.
deba@1912
   701
    ///    
deba@1912
   702
    /// This method runs the %DagShortestPath algorithm from a root node \c s
deba@1912
   703
    /// in order to compute the shortest path to each node. The algorithm 
deba@1912
   704
    /// computes
deba@1912
   705
    /// - The shortest path tree.
deba@1912
   706
    /// - The distance of each node from the root.
deba@1912
   707
    /// The algorithm checks if the graph given int the constructor is a dag.
deba@1912
   708
    bool checkedRun(Node s) {
deba@1912
   709
      if(!checkedInit())return false;
deba@1912
   710
      addSource(s);
deba@1912
   711
      start();
deba@1912
   712
      return true;
deba@1912
   713
    }
deba@1912
   714
    
deba@1912
   715
    ///@}
deba@1912
   716
deba@1912
   717
    /// \name Query Functions
deba@1912
   718
    /// The result of the %DagShortestPath algorithm can be obtained using these
deba@1912
   719
    /// functions.\n
deba@1912
   720
    /// Before the use of these functions,
deba@1912
   721
    /// either run() or start() must be called.
deba@1912
   722
    
deba@1912
   723
    ///@{
deba@1912
   724
deba@2335
   725
    typedef PredMapPath<Graph, PredMap> Path;
deba@2335
   726
deba@2335
   727
    ///Gives back the shortest path.
deba@2335
   728
    
deba@2335
   729
    ///Gives back the shortest path.
deba@2335
   730
    ///\pre The \c t should be reachable from the source.
deba@2335
   731
    Path path(Node t) 
deba@2335
   732
    {
deba@2335
   733
      return Path(*graph, *_pred, t);
deba@1912
   734
    }
deba@1912
   735
	  
deba@1912
   736
    /// \brief The distance of a node from the root.
deba@1912
   737
    ///
deba@1912
   738
    /// Returns the distance of a node from the root.
deba@1912
   739
    /// \pre \ref run() must be called before using this function.
deba@1912
   740
    /// \warning If node \c v in unreachable from the root the return value
deba@1912
   741
    /// of this funcion is undefined.
deba@1912
   742
    Value dist(Node v) const { return (*_dist)[v]; }
deba@1912
   743
deba@1912
   744
    /// \brief Returns the 'previous edge' of the shortest path tree.
deba@1912
   745
    ///
deba@1912
   746
    /// For a node \c v it returns the 'previous edge' of the shortest path 
deba@1912
   747
    /// tree, i.e. it returns the last edge of a shortest path from the root 
deba@1912
   748
    /// to \c v. It is \ref INVALID if \c v is unreachable from the root or 
deba@1912
   749
    /// if \c v=s. The shortest path tree used here is equal to the shortest 
deba@1912
   750
    /// path tree used in \ref predNode(). 
deba@1912
   751
    /// \pre \ref run() must be called before using
deba@1912
   752
    /// this function.
deba@1912
   753
    Edge predEdge(Node v) const { return (*_pred)[v]; }
deba@1912
   754
deba@1912
   755
    /// \brief Returns the 'previous node' of the shortest path tree.
deba@1912
   756
    ///
deba@1912
   757
    /// For a node \c v it returns the 'previous node' of the shortest path 
deba@1912
   758
    /// tree, i.e. it returns the last but one node from a shortest path from 
deba@1912
   759
    /// the root to \c /v. It is INVALID if \c v is unreachable from the root 
deba@1912
   760
    /// or if \c v=s. The shortest path tree used here is equal to the 
deba@1912
   761
    /// shortest path tree used in \ref predEdge().  \pre \ref run() must be 
deba@1912
   762
    /// called before using this function.
deba@1912
   763
    Node predNode(Node v) const { 
deba@1912
   764
      return (*_pred)[v] == INVALID ? INVALID : graph->source((*_pred)[v]); 
deba@1912
   765
    }
deba@1912
   766
    
deba@1912
   767
    /// \brief Returns a reference to the NodeMap of distances.
deba@1912
   768
    ///
deba@1912
   769
    /// Returns a reference to the NodeMap of distances. \pre \ref run() must
deba@1912
   770
    /// be called before using this function.
deba@1912
   771
    const DistMap &distMap() const { return *_dist;}
deba@1912
   772
 
deba@1912
   773
    /// \brief Returns a reference to the shortest path tree map.
deba@1912
   774
    ///
deba@1912
   775
    /// Returns a reference to the NodeMap of the edges of the
deba@1912
   776
    /// shortest path tree.
deba@1912
   777
    /// \pre \ref run() must be called before using this function.
deba@1912
   778
    const PredMap &predMap() const { return *_pred; }
deba@1912
   779
 
deba@1912
   780
    /// \brief Checks if a node is reachable from the root.
deba@1912
   781
    ///
deba@1912
   782
    /// Returns \c true if \c v is reachable from the root.
deba@1912
   783
    /// \pre \ref run() must be called before using this function.
deba@1912
   784
    ///
deba@1912
   785
    bool reached(Node v) { return (*_dist)[v] != OperationTraits::infinity(); }
deba@1912
   786
    
deba@1912
   787
    ///@}
deba@1912
   788
  };
deba@1912
   789
 
deba@1912
   790
  /// \brief Default traits class of DagShortestPath function.
deba@1912
   791
  ///
deba@1912
   792
  /// Default traits class of DagShortestPath function.
deba@1912
   793
  /// \param _Graph Graph type.
deba@1912
   794
  /// \param _LengthMap Type of length map.
deba@1912
   795
  template <typename _Graph, typename _LengthMap>
deba@1912
   796
  struct DagShortestPathWizardDefaultTraits {
deba@1912
   797
    /// \brief The graph type the algorithm runs on. 
deba@1912
   798
    typedef _Graph Graph;
deba@1912
   799
deba@1912
   800
    /// \brief The type of the map that stores the edge lengths.
deba@1912
   801
    ///
deba@1912
   802
    /// The type of the map that stores the edge lengths.
alpar@2260
   803
    /// It must meet the \ref concepts::ReadMap "ReadMap" concept.
deba@1912
   804
    typedef _LengthMap LengthMap;
deba@1912
   805
deba@1912
   806
    /// \brief The value type of the length map.
deba@1912
   807
    typedef typename _LengthMap::Value Value;
deba@1912
   808
deba@1912
   809
    /// \brief Operation traits for dag shortest path algorithm.
deba@1912
   810
    ///
deba@1912
   811
    /// It defines the infinity type on the given Value type
deba@1912
   812
    /// and the used operation.
deba@1912
   813
    /// \see DagShortestPathDefaultOperationTraits
deba@1912
   814
    typedef DagShortestPathDefaultOperationTraits<Value> OperationTraits;
deba@1912
   815
deba@1912
   816
    /// \brief The type of the map that stores the last
deba@1912
   817
    /// edges of the shortest paths.
deba@1912
   818
    /// 
deba@1912
   819
    /// The type of the map that stores the last
deba@1912
   820
    /// edges of the shortest paths.
alpar@2260
   821
    /// It must meet the \ref concepts::WriteMap "WriteMap" concept.
deba@1912
   822
    typedef NullMap <typename _Graph::Node,typename _Graph::Edge> PredMap;
deba@1912
   823
deba@1912
   824
    /// \brief Instantiates a PredMap.
deba@1912
   825
    /// 
deba@1912
   826
    /// This function instantiates a \ref PredMap. 
deba@1912
   827
    static PredMap *createPredMap(const _Graph &) {
deba@1912
   828
      return new PredMap();
deba@1912
   829
    }
deba@1912
   830
    /// \brief The type of the map that stores the dists of the nodes.
deba@1912
   831
    ///
deba@1912
   832
    /// The type of the map that stores the dists of the nodes.
alpar@2260
   833
    /// It must meet the \ref concepts::WriteMap "WriteMap" concept.
deba@1912
   834
    typedef NullMap<typename Graph::Node, Value> DistMap;
deba@1912
   835
    /// \brief Instantiates a DistMap.
deba@1912
   836
    ///
deba@1912
   837
    /// This function instantiates a \ref DistMap. 
deba@1912
   838
    static DistMap *createDistMap(const _Graph &) {
deba@1912
   839
      return new DistMap();
deba@1912
   840
    }
deba@1912
   841
  };
deba@1912
   842
  
deba@1912
   843
  /// \brief Default traits used by \ref DagShortestPathWizard
deba@1912
   844
  ///
deba@1912
   845
  /// To make it easier to use DagShortestPath algorithm
deba@1912
   846
  /// we have created a wizard class.
deba@1912
   847
  /// This \ref DagShortestPathWizard class needs default traits,
deba@1912
   848
  /// as well as the \ref DagShortestPath class.
deba@1912
   849
  /// The \ref DagShortestPathWizardBase is a class to be the default traits of the
deba@1912
   850
  /// \ref DagShortestPathWizard class.
deba@1912
   851
  /// \todo More named parameters are required...
deba@1912
   852
  template<class _Graph,class _LengthMap>
deba@1912
   853
  class DagShortestPathWizardBase 
deba@1912
   854
    : public DagShortestPathWizardDefaultTraits<_Graph,_LengthMap> {
deba@1912
   855
deba@1912
   856
    typedef DagShortestPathWizardDefaultTraits<_Graph,_LengthMap> Base;
deba@1912
   857
  protected:
deba@1912
   858
    /// Type of the nodes in the graph.
deba@1912
   859
    typedef typename Base::Graph::Node Node;
deba@1912
   860
deba@1912
   861
    /// Pointer to the underlying graph.
deba@1912
   862
    void *_graph;
deba@1912
   863
    /// Pointer to the length map
deba@1912
   864
    void *_length;
deba@1912
   865
    ///Pointer to the map of predecessors edges.
deba@1912
   866
    void *_pred;
deba@1912
   867
    ///Pointer to the map of distances.
deba@1912
   868
    void *_dist;
deba@1912
   869
    ///Pointer to the source node.
deba@1912
   870
    Node _source;
deba@1912
   871
deba@1912
   872
    public:
deba@1912
   873
    /// Constructor.
deba@1912
   874
    
deba@1912
   875
    /// This constructor does not require parameters, therefore it initiates
deba@1912
   876
    /// all of the attributes to default values (0, INVALID).
deba@1912
   877
    DagShortestPathWizardBase() : _graph(0), _length(0), _pred(0),
deba@1912
   878
			   _dist(0), _source(INVALID) {}
deba@1912
   879
deba@1912
   880
    /// Constructor.
deba@1912
   881
    
deba@1912
   882
    /// This constructor requires some parameters,
deba@1912
   883
    /// listed in the parameters list.
deba@1912
   884
    /// Others are initiated to 0.
deba@1912
   885
    /// \param graph is the initial value of  \ref _graph
deba@1912
   886
    /// \param length is the initial value of  \ref _length
deba@1912
   887
    /// \param source is the initial value of  \ref _source
deba@1912
   888
    DagShortestPathWizardBase(const _Graph& graph, 
deba@1912
   889
			  const _LengthMap& length, 
deba@1912
   890
			  Node source = INVALID) :
deba@1912
   891
      _graph((void *)&graph), _length((void *)&length), _pred(0),
deba@1912
   892
      _dist(0), _source(source) {}
deba@1912
   893
deba@1912
   894
  };
deba@1912
   895
  
deba@1912
   896
  /// A class to make the usage of DagShortestPath algorithm easier
deba@1912
   897
deba@1912
   898
  /// This class is created to make it easier to use DagShortestPath algorithm.
deba@1912
   899
  /// It uses the functions and features of the plain \ref DagShortestPath,
deba@1912
   900
  /// but it is much simpler to use it.
deba@1912
   901
  ///
deba@1912
   902
  /// Simplicity means that the way to change the types defined
deba@1912
   903
  /// in the traits class is based on functions that returns the new class
deba@1912
   904
  /// and not on templatable built-in classes.
deba@1912
   905
  /// When using the plain \ref DagShortestPath
deba@1912
   906
  /// the new class with the modified type comes from
deba@1912
   907
  /// the original class by using the ::
deba@1912
   908
  /// operator. In the case of \ref DagShortestPathWizard only
deba@1912
   909
  /// a function have to be called and it will
deba@1912
   910
  /// return the needed class.
deba@1912
   911
  ///
deba@1912
   912
  /// It does not have own \ref run method. When its \ref run method is called
deba@1912
   913
  /// it initiates a plain \ref DagShortestPath class, and calls the \ref 
deba@1912
   914
  /// DagShortestPath::run() method of it.
deba@1912
   915
  template<class _Traits>
deba@1912
   916
  class DagShortestPathWizard : public _Traits {
deba@1912
   917
    typedef _Traits Base;
deba@1912
   918
deba@1912
   919
    ///The type of the underlying graph.
deba@1912
   920
    typedef typename _Traits::Graph Graph;
deba@1912
   921
deba@1912
   922
    typedef typename Graph::Node Node;
deba@1912
   923
    typedef typename Graph::NodeIt NodeIt;
deba@1912
   924
    typedef typename Graph::Edge Edge;
deba@1912
   925
    typedef typename Graph::OutEdgeIt EdgeIt;
deba@1912
   926
    
deba@1912
   927
    ///The type of the map that stores the edge lengths.
deba@1912
   928
    typedef typename _Traits::LengthMap LengthMap;
deba@1912
   929
deba@1912
   930
    ///The type of the length of the edges.
deba@1912
   931
    typedef typename LengthMap::Value Value;
deba@1912
   932
deba@1912
   933
    ///\brief The type of the map that stores the last
deba@1912
   934
    ///edges of the shortest paths.
deba@1912
   935
    typedef typename _Traits::PredMap PredMap;
deba@1912
   936
deba@1912
   937
    ///The type of the map that stores the dists of the nodes.
deba@1912
   938
    typedef typename _Traits::DistMap DistMap;
deba@1912
   939
deba@1912
   940
  public:
deba@1912
   941
    /// Constructor.
deba@1912
   942
    DagShortestPathWizard() : _Traits() {}
deba@1912
   943
deba@1912
   944
    /// \brief Constructor that requires parameters.
deba@1912
   945
    ///
deba@1912
   946
    /// Constructor that requires parameters.
deba@1912
   947
    /// These parameters will be the default values for the traits class.
deba@1912
   948
    DagShortestPathWizard(const Graph& graph, const LengthMap& length, 
deba@1912
   949
		      Node source = INVALID) 
deba@1912
   950
      : _Traits(graph, length, source) {}
deba@1912
   951
deba@1912
   952
    /// \brief Copy constructor
deba@1912
   953
    DagShortestPathWizard(const _Traits &b) : _Traits(b) {}
deba@1912
   954
deba@1912
   955
    ~DagShortestPathWizard() {}
deba@1912
   956
deba@1912
   957
    /// \brief Runs DagShortestPath algorithm from a given node.
deba@1912
   958
    ///    
deba@1912
   959
    /// Runs DagShortestPath algorithm from a given node.
deba@1912
   960
    /// The node can be given by the \ref source function.
deba@1912
   961
    void run() {
deba@1912
   962
      if(Base::_source == INVALID) throw UninitializedParameter();
deba@1912
   963
      DagShortestPath<Graph,LengthMap,_Traits> 
deba@1912
   964
	bf(*(Graph*)Base::_graph, *(LengthMap*)Base::_length);
deba@1912
   965
      if (Base::_pred) bf.predMap(*(PredMap*)Base::_pred);
deba@1912
   966
      if (Base::_dist) bf.distMap(*(DistMap*)Base::_dist);
deba@1912
   967
      bf.run(Base::_source);
deba@1912
   968
    }
deba@1912
   969
deba@1912
   970
    /// \brief Runs DagShortestPath algorithm from the given node.
deba@1912
   971
    ///
deba@1912
   972
    /// Runs DagShortestPath algorithm from the given node.
alpar@1946
   973
    /// \param source is the given source.
deba@1912
   974
    void run(Node source) {
deba@1912
   975
      Base::_source = source;
deba@1912
   976
      run();
deba@1912
   977
    }
deba@1912
   978
deba@1912
   979
    template<class T>
deba@1912
   980
    struct DefPredMapBase : public Base {
deba@1912
   981
      typedef T PredMap;
deba@1912
   982
      static PredMap *createPredMap(const Graph &) { return 0; };
deba@1912
   983
      DefPredMapBase(const _Traits &b) : _Traits(b) {}
deba@1912
   984
    };
deba@1912
   985
    
deba@1912
   986
    ///\brief \ref named-templ-param "Named parameter"
deba@1912
   987
    ///function for setting PredMap type
deba@1912
   988
    ///
deba@1912
   989
    /// \ref named-templ-param "Named parameter"
deba@1912
   990
    ///function for setting PredMap type
deba@1912
   991
    ///
deba@1912
   992
    template<class T>
deba@1912
   993
    DagShortestPathWizard<DefPredMapBase<T> > predMap(const T &t) 
deba@1912
   994
    {
deba@1912
   995
      Base::_pred=(void *)&t;
deba@1912
   996
      return DagShortestPathWizard<DefPredMapBase<T> >(*this);
deba@1912
   997
    }
deba@1912
   998
    
deba@1912
   999
    template<class T>
deba@1912
  1000
    struct DefDistMapBase : public Base {
deba@1912
  1001
      typedef T DistMap;
deba@1912
  1002
      static DistMap *createDistMap(const Graph &) { return 0; };
deba@1912
  1003
      DefDistMapBase(const _Traits &b) : _Traits(b) {}
deba@1912
  1004
    };
deba@1912
  1005
    
deba@1912
  1006
    ///\brief \ref named-templ-param "Named parameter"
deba@1912
  1007
    ///function for setting DistMap type
deba@1912
  1008
    ///
deba@1912
  1009
    /// \ref named-templ-param "Named parameter"
deba@1912
  1010
    ///function for setting DistMap type
deba@1912
  1011
    ///
deba@1912
  1012
    template<class T>
deba@1912
  1013
    DagShortestPathWizard<DefDistMapBase<T> > distMap(const T &t) {
deba@1912
  1014
      Base::_dist=(void *)&t;
deba@1912
  1015
      return DagShortestPathWizard<DefDistMapBase<T> >(*this);
deba@1912
  1016
    }
deba@1912
  1017
deba@1912
  1018
    template<class T>
deba@1912
  1019
    struct DefOperationTraitsBase : public Base {
deba@1912
  1020
      typedef T OperationTraits;
deba@1912
  1021
      DefOperationTraitsBase(const _Traits &b) : _Traits(b) {}
deba@1912
  1022
    };
deba@1912
  1023
    
deba@1912
  1024
    ///\brief \ref named-templ-param "Named parameter"
deba@1912
  1025
    ///function for setting OperationTraits type
deba@1912
  1026
    ///
deba@1912
  1027
    /// \ref named-templ-param "Named parameter"
deba@1912
  1028
    ///function for setting OperationTraits type
deba@1912
  1029
    ///
deba@1912
  1030
    template<class T>
deba@1912
  1031
    DagShortestPathWizard<DefOperationTraitsBase<T> > distMap() {
deba@1912
  1032
      return DagShortestPathWizard<DefDistMapBase<T> >(*this);
deba@1912
  1033
    }
deba@1912
  1034
    
deba@1912
  1035
    /// \brief Sets the source node, from which the DagShortestPath algorithm runs.
deba@1912
  1036
    ///
deba@1912
  1037
    /// Sets the source node, from which the DagShortestPath algorithm runs.
alpar@1946
  1038
    /// \param source is the source node.
deba@1912
  1039
    DagShortestPathWizard<_Traits>& source(Node source) {
deba@1912
  1040
      Base::_source = source;
deba@1912
  1041
      return *this;
deba@1912
  1042
    }
deba@1912
  1043
    
deba@1912
  1044
  };
deba@1912
  1045
  
deba@1912
  1046
  /// \brief Function type interface for DagShortestPath algorithm.
deba@1912
  1047
  ///
deba@1912
  1048
  /// \ingroup flowalgs
deba@1912
  1049
  /// Function type interface for DagShortestPath algorithm.
deba@1912
  1050
  ///
deba@1912
  1051
  /// This function also has several \ref named-templ-func-param 
deba@1912
  1052
  /// "named parameters", they are declared as the members of class 
deba@1912
  1053
  /// \ref DagShortestPathWizard.
deba@1912
  1054
  /// The following
deba@1912
  1055
  /// example shows how to use these parameters.
alpar@1946
  1056
  ///\code
deba@1912
  1057
  /// dagShortestPath(g,length,source).predMap(preds).run();
alpar@1946
  1058
  ///\endcode
deba@1912
  1059
  /// \warning Don't forget to put the \ref DagShortestPathWizard::run() "run()"
deba@1912
  1060
  /// to the end of the parameter list.
deba@1912
  1061
  /// \sa DagShortestPathWizard
deba@1912
  1062
  /// \sa DagShortestPath
deba@1912
  1063
  template<class _Graph, class _LengthMap>
deba@1912
  1064
  DagShortestPathWizard<DagShortestPathWizardBase<_Graph,_LengthMap> >
deba@1912
  1065
  dagShortestPath(const _Graph& graph,
deba@1912
  1066
	      const _LengthMap& length, 
deba@1912
  1067
	      typename _Graph::Node source = INVALID) {
deba@1912
  1068
    return DagShortestPathWizard<DagShortestPathWizardBase<_Graph,_LengthMap> >
deba@1912
  1069
      (graph, length, source);
deba@1912
  1070
  }
deba@1912
  1071
deba@1912
  1072
} //END OF NAMESPACE LEMON
deba@1912
  1073
deba@1912
  1074
#endif
deba@1912
  1075