src/include/dijkstra.h
author jacint
Wed, 05 May 2004 17:51:56 +0000
changeset 537 acd69f60b9c7
parent 491 4804c967543d
permissions -rw-r--r--
Contains Edmonds' matching algorithm in a plain and in a heuristical form.
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// -*- C++ -*-
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#ifndef HUGO_DIJKSTRA_H
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#define HUGO_DIJKSTRA_H
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///\ingroup galgs
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///\file
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///\brief Dijkstra algorithm.
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#include <bin_heap.h>
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#include <invalid.h>
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namespace hugo {
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/// \addtogroup galgs
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/// @{
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  ///%Dijkstra algorithm class.
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  ///This class provides an efficient implementation of %Dijkstra algorithm.
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  ///The edge lengths are passed to the algorithm using a
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  ///\ref ReadMapSkeleton "readable map",
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  ///so it is easy to change it to any kind of length.
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  ///
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  ///The type of the length is determined by the \c ValueType of the length map.
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  ///
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  ///It is also possible to change the underlying priority heap.
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  ///
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  ///\param Graph The graph type the algorithm runs on.
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  ///\param LengthMap This read-only
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  ///EdgeMap
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  ///determines the
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  ///lengths of the edges. It is read once for each edge, so the map
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  ///may involve in relatively time consuming process to compute the edge
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  ///length if it is necessary. The default map type is
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  ///\ref GraphSkeleton::EdgeMap "Graph::EdgeMap<int>"
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  ///\param Heap The heap type used by the %Dijkstra
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  ///algorithm. The default
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  ///is using \ref BinHeap "binary heap".
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  ///
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  ///\author Jacint Szabo
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#ifdef DOXYGEN
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  template <typename Graph,
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	    typename LengthMap,
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	    typename Heap>
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#else
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  template <typename Graph,
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	    typename LengthMap=typename Graph::template EdgeMap<int>,
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	    template <class,class,class,class> class Heap = BinHeap >
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#endif
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  class Dijkstra{
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  public:
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    typedef typename Graph::Node Node;
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    typedef typename Graph::NodeIt NodeIt;
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    typedef typename Graph::Edge Edge;
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    typedef typename Graph::OutEdgeIt OutEdgeIt;
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    typedef typename LengthMap::ValueType ValueType;
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    typedef typename Graph::template NodeMap<Edge> PredMap;
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    typedef typename Graph::template NodeMap<Node> PredNodeMap;
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    typedef typename Graph::template NodeMap<ValueType> DistMap;
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  private:
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    const Graph& G;
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    const LengthMap& length;
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    PredMap predecessor;
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    PredNodeMap pred_node;
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    DistMap distance;
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  public :
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    Dijkstra(const Graph& _G, const LengthMap& _length) :
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      G(_G), length(_length), predecessor(_G), pred_node(_G), distance(_G) { }
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    void run(Node s);
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    ///The distance of a node from the root.
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    ///Returns the distance of a node from the root.
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    ///\pre \ref run() must be called before using this function.
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    ///\warning If node \c v in unreachable from the root the return value
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    ///of this funcion is undefined.
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    ValueType dist(Node v) const { return distance[v]; }
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    ///Returns the previous edge of the shortest path tree.
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    ///For a node \c v it returns the previous edge of the shortest path tree,
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    ///i.e. it returns the last edge from a shortest path from the root to \c
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    ///v. It is INVALID if \c v is unreachable from the root or if \c v=s. The
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    ///shortest path tree used here is equal to the shortest path tree used in
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    ///\ref predNode(Node v).  \pre \ref run() must be called before using
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    ///this function.
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    Edge pred(Node v) const { return predecessor[v]; }
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    ///Returns the previous node of the shortest path tree.
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    ///For a node \c v it returns the previous node of the shortest path tree,
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    ///i.e. it returns the last but one node from a shortest path from the
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    ///root to \c /v. It is INVALID if \c v is unreachable from the root or if
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    ///\c v=s. The shortest path tree used here is equal to the shortest path
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    ///tree used in \ref pred(Node v).  \pre \ref run() must be called before
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    ///using this function.
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    Node predNode(Node v) const { return pred_node[v]; }
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    ///Returns a reference to the NodeMap of distances.
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    ///Returns a reference to the NodeMap of distances. \pre \ref run() must
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    ///be called before using this function.
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    const DistMap &distMap() const { return distance;}
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    ///Returns a reference to the shortest path tree map.
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    ///Returns a reference to the NodeMap of the edges of the
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    ///shortest path tree.
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    ///\pre \ref run() must be called before using this function.
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    const PredMap &predMap() const { return predecessor;}
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    ///Returns a reference to the map of nodes of shortest paths.
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    ///Returns a reference to the NodeMap of the last but one nodes of the
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    ///shortest path tree.
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    ///\pre \ref run() must be called before using this function.
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    const PredNodeMap &predNodeMap() const { return pred_node;}
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    ///Checks if a node is reachable from the root.
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    ///Returns \c true if \c v is reachable from the root.
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    ///\warning the root node is reported to be unreached!
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    ///\todo Is this what we want?
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    ///\pre \ref run() must be called before using this function.
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    ///
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    bool reached(Node v) { return G.valid(predecessor[v]); }
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  };
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  // **********************************************************************
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  //  IMPLEMENTATIONS
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  // **********************************************************************
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  ///Runs %Dijkstra algorithm from node the root.
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  ///This method runs the %Dijkstra algorithm from a root node \c s
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  ///in order to
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  ///compute the
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  ///shortest path to each node. The algorithm computes
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  ///- The shortest path tree.
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  ///- The distance of each node from the root.
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  template <typename Graph, typename LengthMap,
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	    template<class,class,class,class> class Heap >
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  void Dijkstra<Graph,LengthMap,Heap>::run(Node s) {
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    NodeIt u;
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    for ( G.first(u) ; G.valid(u) ; G.next(u) ) {
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      predecessor.set(u,INVALID);
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      pred_node.set(u,INVALID);
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    }
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    typename Graph::template NodeMap<int> heap_map(G,-1);
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    typedef Heap<Node, ValueType, typename Graph::template NodeMap<int>,
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      std::less<ValueType> > 
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      HeapType;
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    HeapType heap(heap_map);
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    heap.push(s,0); 
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      while ( !heap.empty() ) {
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	Node v=heap.top(); 
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	ValueType oldvalue=heap[v];
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	heap.pop();
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	distance.set(v, oldvalue);
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	{ //FIXME this bracket is for e to be local
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	  OutEdgeIt e;
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	for(G.first(e, v);
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	    G.valid(e); G.next(e)) {
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	  Node w=G.bNode(e); 
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	  switch(heap.state(w)) {
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	  case HeapType::PRE_HEAP:
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	    heap.push(w,oldvalue+length[e]); 
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	    predecessor.set(w,e);
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	    pred_node.set(w,v);
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	    break;
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	  case HeapType::IN_HEAP:
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	    if ( oldvalue+length[e] < heap[w] ) {
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	      heap.decrease(w, oldvalue+length[e]); 
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	      predecessor.set(w,e);
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	      pred_node.set(w,v);
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	    }
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	    break;
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	  case HeapType::POST_HEAP:
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	    break;
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	  }
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	}
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      } //FIXME tis bracket
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      }
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  }
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/// @}
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} //END OF NAMESPACE HUGO
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#endif
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