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/* -*- C++ -*-
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*
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alpar@1956
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* This file is a part of LEMON, a generic C++ optimization library
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alpar@1956
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*
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alpar@1956
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* Copyright (C) 2003-2006
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alpar@1956
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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_FREDMAN_TARJAN_H
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#define LEMON_FREDMAN_TARJAN_H
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///\ingroup spantree
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///\file
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///\brief FredmanTarjan algorithm to compute minimum spanning forest.
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#include <limits>
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#include <vector>
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#include <lemon/list_graph.h>
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#include <lemon/smart_graph.h>
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#include <lemon/fib_heap.h>
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#include <lemon/radix_sort.h>
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deba@1993
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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/bits/traits.h>
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#include <lemon/graph_utils.h>
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alpar@2260
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#include <lemon/concepts/ugraph.h>
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namespace lemon {
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///Default traits class of FredmanTarjan class.
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///Default traits class of FredmanTarjan class.
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///\param GR Graph type.
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///\param CM Type of cost map.
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template<class GR, class CM>
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struct FredmanTarjanDefaultTraits{
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///The graph type the algorithm runs on.
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typedef GR UGraph;
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///The type of the map that stores the edge costs.
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///The type of the map that stores the edge costs.
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///It must meet the \ref concepts::ReadMap "ReadMap" concept.
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typedef CM CostMap;
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//The type of the cost of the edges.
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typedef typename CM::Value Value;
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///The type of the map that stores whether an edge is in the
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///spanning tree or not.
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///The type of the map that stores whether an edge is in the
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///spanning tree or not.
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///It must meet the \ref concepts::ReadWriteMap "ReadWriteMap" concept.
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///By default it is a BoolEdgeMap.
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typedef typename UGraph::template UEdgeMap<bool> TreeMap;
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///Instantiates a TreeMap.
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///This function instantiates a \ref TreeMap.
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///\param _graph is the graph, to which
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///we would like to define the \ref TreeMap
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static TreeMap *createTreeMap(const GR &_graph){
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return new TreeMap(_graph);
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}
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};
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///%FredmanTarjan algorithm class to find a minimum spanning tree.
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/// \ingroup spantree
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///
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///This class provides an efficient implementation of %FredmanTarjan
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///algorithm whitch is sometimes a bit quicker than the Prim
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///algorithm on larger graphs. Due to the structure of the
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///algorithm, it has less controll functions than Prim.
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///
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/// The running time is \f$ O(e\beta(e,n)) \f$ where
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/// \f$ \beta(e,n) = \min\{ i | \log^{i}(n) \le e/n\} \f$ and
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/// \f$ \log^{i+1}(n)=\log(\log^{i}(n)) \f$
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///
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///The edge costs are passed to the algorithm using a \ref
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alpar@2260
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///concepts::ReadMap "ReadMap", so it is easy to change it to any
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///kind of cost.
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///
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///The type of the cost is determined by the \ref
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///concepts::ReadMap::Value "Value" of the cost map.
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///
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///\param GR The graph type the algorithm runs on. The default value
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///is \ref ListUGraph. The value of GR is not used directly by
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///FredmanTarjan, it is only passed to \ref
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///FredmanTarjanDefaultTraits.
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///
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///\param CM This read-only UEdgeMap determines the costs of the
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///edges. It is read once for each edge, so the map may involve in
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///relatively time consuming process to compute the edge cost if it
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///is necessary. The default map type is \ref
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alpar@2260
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///concepts::UGraph::UEdgeMap "UGraph::UEdgeMap<int>". The value of
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///CM is not used directly by FredmanTarjan, it is only passed to
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///\ref FredmanTarjanDefaultTraits.
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///
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///\param TR Traits class to set various data types used by the
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///algorithm. The default traits class is \ref
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///FredmanTarjanDefaultTraits "FredmanTarjanDefaultTraits<GR,CM>".
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///See \ref FredmanTarjanDefaultTraits for the documentation of a
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///FredmanTarjan traits class.
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///
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///\author Balazs Attila Mihaly
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#ifdef DOXYGEN
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template <typename GR,
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typename CM,
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typename TR>
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#else
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template <typename GR=ListUGraph,
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typename CM=typename GR::template UEdgeMap<int>,
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typename TR=FredmanTarjanDefaultTraits<GR,CM> >
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#endif
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class FredmanTarjan {
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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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alpar@2151
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virtual const char* what() const throw() {
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deba@1912
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return "lemon::FredmanTarjan::UninitializedParameter";
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}
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};
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typedef GR Graph;
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deba@1912
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typedef TR Traits;
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///The type of the underlying graph.
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typedef typename TR::UGraph UGraph;
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///\e
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typedef typename UGraph::Node Node;
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///\e
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typedef typename UGraph::NodeIt NodeIt;
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///\e
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typedef typename UGraph::UEdge UEdge;
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///\e
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typedef typename UGraph::UEdgeIt UEdgeIt;
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///\e
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typedef typename UGraph::IncEdgeIt IncEdgeIt;
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///The type of the cost of the edges.
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typedef typename TR::CostMap::Value Value;
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///The type of the map that stores the edge costs.
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typedef typename TR::CostMap CostMap;
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///Edges of the spanning tree.
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typedef typename TR::TreeMap TreeMap;
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private:
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deba@1912
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///Pointer to the underlying graph.
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deba@1912
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const UGraph *graph;
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deba@1912
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///Pointer to the cost map
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deba@1912
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const CostMap *cost;
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deba@1912
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///Pointer to the map of tree edges.
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deba@1912
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TreeMap *_tree;
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deba@1912
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///Indicates if \ref _tree is locally allocated (\c true) or not.
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deba@1912
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bool local_tree;
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deba@1912
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deba@1912
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///Creates the maps if necessary.
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deba@1912
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deba@1912
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void create_maps(){
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deba@1912
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if(!_tree){
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deba@1912
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local_tree=true;
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deba@1912
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_tree=Traits::createTreeMap(*graph);
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deba@1912
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}
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deba@1912
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}
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public :
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typedef FredmanTarjan Create;
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deba@1912
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deba@1912
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///\name Named template parameters
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deba@1912
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deba@1912
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///@{
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deba@1912
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deba@1912
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template <class TM>
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deba@1912
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struct DefTreeMapTraits : public Traits {
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deba@1912
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typedef TM TreeMap;
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deba@1912
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static TreeMap *createTreeMap(const UGraph &) {
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deba@1912
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throw UninitializedParameter();
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deba@1912
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}
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deba@1912
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};
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deba@1912
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///\ref named-templ-param "Named parameter" for setting TreeMap
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deba@1912
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deba@1912
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///\ref named-templ-param "Named parameter" for setting TreeMap
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deba@1912
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///
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deba@1912
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template <class TM>
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deba@1912
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struct DefTreeMap
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deba@1912
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: public FredmanTarjan< UGraph, CostMap, DefTreeMapTraits<TM> > {
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deba@1912
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typedef FredmanTarjan< UGraph, CostMap, DefTreeMapTraits<TM> > Create;
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deba@1912
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};
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deba@1912
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deba@1912
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///@}
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deba@1912
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deba@1912
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deba@1912
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protected:
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deba@1912
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deba@1912
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FredmanTarjan() {}
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deba@1912
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deba@1912
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private:
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deba@1912
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deba@2050
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template<class SrcGraph,class OrigMap,class Heap,class HeapCrossRef,
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deba@2050
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class ProcessedMap,class PredMap>
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deba@2050
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void processNextTree(const SrcGraph& graph,const OrigMap& orig,
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deba@2050
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Heap &heap, HeapCrossRef& crossref,
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deba@2050
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ProcessedMap& processed,PredMap& pred,
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deba@2050
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int& tree_counter,const int limit){
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deba@1912
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std::vector<typename SrcGraph::Node> tree_nodes;
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deba@1912
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int tree_index=tree_counter;
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deba@1912
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bool stop=false;
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deba@1912
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while(!heap.empty() && !stop){
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deba@1912
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typename SrcGraph::Node v=heap.top();
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deba@1912
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heap.pop();
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deba@1912
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if(processed[v]!=-1){
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deba@1912
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heap.state(v,Heap::PRE_HEAP);
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deba@1912
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tree_index=processed[v];
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deba@1912
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_tree->set(orig[pred[v]],true);
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deba@1912
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stop=true;
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deba@1912
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231 |
break;
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deba@1912
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232 |
}
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deba@1912
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tree_nodes.push_back(v);
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deba@1912
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for(typename SrcGraph::IncEdgeIt e(graph,v);e!=INVALID;++e){
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deba@1912
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typename SrcGraph::Node w=graph.oppositeNode(v,e);
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deba@1912
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236 |
switch(heap.state(w)){
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deba@1912
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237 |
case Heap::PRE_HEAP:
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deba@1912
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238 |
if(heap.size()>=limit){
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deba@1912
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239 |
stop=true;
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deba@1912
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240 |
}
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deba@1912
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else{
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deba@1912
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242 |
heap.push(w,(*cost)[orig[e]]);
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deba@1912
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243 |
pred.set(w,e);
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deba@1912
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244 |
}
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deba@1912
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245 |
break;
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deba@1912
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246 |
case Heap::IN_HEAP:
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deba@1912
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247 |
if ((*cost)[orig[e]]<heap[w]){
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deba@1912
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248 |
heap.decrease(w,(*cost)[orig[e]]);
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deba@1912
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249 |
pred.set(w,e);
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deba@1912
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250 |
}
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deba@1912
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251 |
break;
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deba@1912
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252 |
case Heap::POST_HEAP:
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deba@1912
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253 |
break;
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deba@1912
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254 |
}
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deba@1912
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255 |
}
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deba@1912
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256 |
}
|
deba@1912
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257 |
for(int i=1;i<(int)tree_nodes.size();++i){
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deba@1912
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258 |
_tree->set(orig[pred[tree_nodes[i]]],true);
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deba@1912
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259 |
processed.set(tree_nodes[i],tree_index);
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deba@2050
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260 |
crossref[tree_nodes[i]] = Heap::PRE_HEAP;
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deba@1912
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261 |
}
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deba@1912
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262 |
processed.set(tree_nodes[0],tree_index);
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deba@2050
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263 |
crossref[tree_nodes[0]] = Heap::PRE_HEAP;
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deba@1912
|
264 |
while (!heap.empty()) {
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deba@1912
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265 |
typename SrcGraph::Node v=heap.top();
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deba@1912
|
266 |
heap.pop();
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deba@2050
|
267 |
crossref[v] = Heap::PRE_HEAP;
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deba@1912
|
268 |
}
|
deba@2050
|
269 |
heap.clear();
|
deba@1912
|
270 |
if(!stop)++tree_counter;
|
deba@1912
|
271 |
}
|
deba@1912
|
272 |
|
deba@1912
|
273 |
template<class SrcGraph,class OrigMap,class ProcessedMap>
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deba@2050
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274 |
void createTrees(const SrcGraph& graph, const OrigMap& orig,
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deba@2050
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275 |
ProcessedMap& processed,
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deba@2050
|
276 |
int edgenum,int& tree_counter){
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deba@1912
|
277 |
typedef typename SrcGraph::Node Node;
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deba@1912
|
278 |
typedef typename SrcGraph::UEdge UEdge;
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deba@1912
|
279 |
typedef typename SrcGraph::NodeIt NodeIt;
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deba@1912
|
280 |
typedef typename SrcGraph::template NodeMap<int> HeapCrossRef;
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deba@1912
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281 |
typedef typename SrcGraph::template NodeMap<UEdge> PredMap;
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deba@1912
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282 |
HeapCrossRef crossref(graph,-1);
|
mqrelly@2263
|
283 |
FibHeap<Value,HeapCrossRef> heap(crossref);
|
deba@1912
|
284 |
PredMap pred(graph,INVALID);
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deba@1912
|
285 |
int rate=2*edgenum/countNodes(graph);
|
deba@2050
|
286 |
int limit=(rate>std::numeric_limits<int>::digits)?
|
deba@2050
|
287 |
std::numeric_limits<int>::max() : (1<<rate);
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deba@1912
|
288 |
for(NodeIt i(graph);i!=INVALID;++i){
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deba@1912
|
289 |
if(processed[i]==-1){
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deba@1912
|
290 |
heap.push(i, Value());
|
deba@2050
|
291 |
processNextTree(graph,orig,heap,crossref,
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deba@2050
|
292 |
processed,pred,tree_counter,limit);
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deba@1912
|
293 |
}
|
deba@1912
|
294 |
}
|
deba@1912
|
295 |
}
|
deba@1912
|
296 |
|
deba@2050
|
297 |
template<class SrcGraph,class DestGraph,class SrcOrigMap,
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deba@2050
|
298 |
class DestOrigMap,class ProcessedMap>
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deba@2050
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299 |
void collect(const SrcGraph& srcgraph,const SrcOrigMap& srcorig,
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deba@2050
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300 |
DestGraph& destgraph,DestOrigMap& destorig,
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deba@2050
|
301 |
const ProcessedMap& processed,const int tree_counter){
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deba@1912
|
302 |
typedef typename SrcGraph::Node Node;
|
deba@1912
|
303 |
typedef typename DestGraph::Node DNode;
|
deba@1912
|
304 |
typedef typename SrcGraph::UEdge UEdge;
|
deba@1912
|
305 |
typedef typename DestGraph::UEdge DUEdge;
|
deba@1912
|
306 |
typedef typename SrcGraph::Edge Edge;
|
deba@1912
|
307 |
typedef typename SrcGraph::EdgeIt EdgeIt;
|
deba@1912
|
308 |
std::vector<Edge> edges;
|
deba@1912
|
309 |
std::vector<DNode> nodes(tree_counter, INVALID);
|
deba@1912
|
310 |
for(EdgeIt i(srcgraph);i!=INVALID;++i){
|
deba@1912
|
311 |
if(processed[srcgraph.source(i)]<processed[srcgraph.target(i)]){
|
deba@1912
|
312 |
edges.push_back(i);
|
deba@1912
|
313 |
if(nodes[processed[srcgraph.source(i)]]==INVALID) {
|
deba@1912
|
314 |
nodes[processed[srcgraph.source(i)]]=destgraph.addNode();
|
deba@1912
|
315 |
}
|
deba@1912
|
316 |
if(nodes[processed[srcgraph.target(i)]]==INVALID) {
|
deba@1912
|
317 |
nodes[processed[srcgraph.target(i)]]=destgraph.addNode();
|
deba@1912
|
318 |
}
|
deba@1912
|
319 |
}
|
deba@1912
|
320 |
}
|
deba@1912
|
321 |
|
deba@2050
|
322 |
radixSort(edges.begin(),edges.end(),
|
deba@2050
|
323 |
mapFunctor(composeMap(processed,sourceMap(srcgraph))));
|
deba@2050
|
324 |
counterSort(edges.begin(),edges.end(),
|
deba@2050
|
325 |
mapFunctor(composeMap(processed,targetMap(srcgraph))));
|
deba@1912
|
326 |
for(int i=0;i!=(int)edges.size();++i){
|
deba@1912
|
327 |
int srcproc=processed[srcgraph.source(edges[i])];
|
deba@1912
|
328 |
int trgproc=processed[srcgraph.target(edges[i])];
|
deba@1912
|
329 |
Value minval=(*cost)[srcorig[edges[i]]];
|
deba@1912
|
330 |
UEdge minpos=edges[i];
|
deba@2050
|
331 |
while (i+1!=(int)edges.size() &&
|
deba@2050
|
332 |
srcproc==processed[srcgraph.source(edges[i+1])] &&
|
deba@1912
|
333 |
trgproc==processed[srcgraph.target(edges[i+1])]) {
|
deba@1912
|
334 |
if (minval>(*cost)[srcorig[edges[i+1]]]) {
|
deba@1912
|
335 |
minval=(*cost)[srcorig[edges[i+1]]];
|
deba@1912
|
336 |
minpos=edges[i+1];
|
deba@1912
|
337 |
}
|
deba@1912
|
338 |
++i;
|
deba@1912
|
339 |
}
|
deba@2050
|
340 |
destorig[destgraph.addEdge(nodes[srcproc],nodes[trgproc])]=
|
deba@2050
|
341 |
srcorig[minpos];
|
deba@1912
|
342 |
}
|
deba@1912
|
343 |
}
|
deba@1912
|
344 |
|
deba@1912
|
345 |
template<class SrcGraph,class OrigMap>
|
deba@1912
|
346 |
void phase(const SrcGraph& graph,const OrigMap& orig,int edgenum){
|
deba@1912
|
347 |
int tree_counter = 0;
|
deba@1912
|
348 |
typename SrcGraph::template NodeMap<int> processed(graph,-1);
|
deba@1912
|
349 |
SmartUGraph destgraph;
|
deba@1912
|
350 |
SmartUGraph::UEdgeMap<typename OrigMap::Value> destorig(destgraph);
|
deba@1912
|
351 |
createTrees(graph,orig,processed,edgenum,tree_counter);
|
deba@1912
|
352 |
collect(graph,orig,destgraph,destorig,processed,tree_counter);
|
deba@1912
|
353 |
if (countNodes(destgraph)>1) {
|
deba@1912
|
354 |
phase(destgraph,destorig,edgenum);
|
deba@1912
|
355 |
}
|
deba@1912
|
356 |
}
|
deba@1912
|
357 |
|
deba@1912
|
358 |
public:
|
deba@1912
|
359 |
|
deba@1912
|
360 |
///Constructor.
|
deba@1912
|
361 |
|
deba@1912
|
362 |
///\param _graph the graph the algorithm will run on.
|
deba@1912
|
363 |
///\param _cost the cost map used by the algorithm.
|
deba@1912
|
364 |
FredmanTarjan(const UGraph& _graph, const CostMap& _cost) :
|
deba@1912
|
365 |
graph(&_graph), cost(&_cost),
|
deba@1912
|
366 |
_tree(0), local_tree(false)
|
deba@1912
|
367 |
{
|
alpar@2260
|
368 |
checkConcept<concepts::UGraph, UGraph>();
|
deba@1912
|
369 |
}
|
deba@1912
|
370 |
|
deba@1912
|
371 |
///Destructor.
|
deba@1912
|
372 |
~FredmanTarjan(){
|
deba@1912
|
373 |
if(local_tree) delete _tree;
|
deba@1912
|
374 |
}
|
deba@1912
|
375 |
|
deba@1912
|
376 |
///Sets the cost map.
|
deba@1912
|
377 |
|
deba@1912
|
378 |
///Sets the cost map.
|
deba@1912
|
379 |
///\return <tt> (*this) </tt>
|
deba@1912
|
380 |
FredmanTarjan &costMap(const CostMap &m){
|
deba@1912
|
381 |
cost = &m;
|
deba@1912
|
382 |
return *this;
|
deba@1912
|
383 |
}
|
deba@1912
|
384 |
|
deba@1912
|
385 |
///Sets the map storing the tree edges.
|
deba@1912
|
386 |
|
deba@1912
|
387 |
///Sets the map storing the tree edges.
|
deba@1912
|
388 |
///If you don't use this function before calling \ref run(),
|
deba@1912
|
389 |
///it will allocate one. The destuctor deallocates this
|
deba@1912
|
390 |
///automatically allocated map, of course.
|
deba@1912
|
391 |
///By default this is a BoolEdgeMap.
|
deba@1912
|
392 |
///\return <tt> (*this) </tt>
|
deba@1912
|
393 |
FredmanTarjan &treeMap(TreeMap &m){
|
deba@1912
|
394 |
if(local_tree) {
|
deba@1912
|
395 |
delete _tree;
|
deba@1912
|
396 |
local_tree=false;
|
deba@1912
|
397 |
}
|
deba@1912
|
398 |
_tree = &m;
|
deba@1912
|
399 |
return *this;
|
deba@1912
|
400 |
}
|
deba@1912
|
401 |
|
deba@1912
|
402 |
public:
|
deba@1912
|
403 |
///\name Execution control
|
deba@1912
|
404 |
///The simplest way to execute the algorithm is to use
|
deba@1912
|
405 |
///one of the member functions called \c run(...).
|
deba@1912
|
406 |
|
deba@1912
|
407 |
///@{
|
deba@1912
|
408 |
|
deba@1912
|
409 |
///Initializes the internal data structures.
|
deba@1912
|
410 |
|
deba@1912
|
411 |
///Initializes the internal data structures.
|
deba@1912
|
412 |
///
|
deba@1912
|
413 |
void init(){
|
deba@1912
|
414 |
create_maps();
|
deba@1912
|
415 |
for(typename Graph::UEdgeIt i(*graph);i!=INVALID;++i){
|
deba@1912
|
416 |
_tree->set(i,false);
|
deba@1912
|
417 |
}
|
deba@1912
|
418 |
}
|
deba@1912
|
419 |
|
deba@1912
|
420 |
///Executes the algorithm.
|
deba@1912
|
421 |
|
deba@1912
|
422 |
///Executes the algorithm.
|
deba@1912
|
423 |
///
|
deba@1912
|
424 |
///\pre init() must be called and at least one node should be added
|
deba@1912
|
425 |
///with addSource() before using this function.
|
deba@1912
|
426 |
///
|
deba@1912
|
427 |
///This method runs the %FredmanTarjan algorithm from the node(s)
|
deba@1912
|
428 |
///in order to compute the
|
deba@1912
|
429 |
///minimum spanning tree.
|
deba@1912
|
430 |
void start(){
|
deba@1912
|
431 |
phase(*graph,identityMap<UEdge>(),countEdges(*graph));
|
deba@1912
|
432 |
}
|
deba@1912
|
433 |
|
deba@1912
|
434 |
///Runs %FredmanTarjan algorithm.
|
deba@1912
|
435 |
|
deba@1912
|
436 |
///This method runs the %FredmanTarjan algorithm
|
deba@1912
|
437 |
///in order to compute the minimum spanning forest.
|
deba@1912
|
438 |
///
|
deba@1912
|
439 |
///\note ft.run() is just a shortcut of the following code.
|
deba@1912
|
440 |
///\code
|
deba@1912
|
441 |
/// ft.init();
|
deba@1912
|
442 |
/// ft.start();
|
deba@1912
|
443 |
///\endcode
|
deba@1912
|
444 |
void run() {
|
deba@1912
|
445 |
init();
|
deba@1912
|
446 |
start();
|
deba@1912
|
447 |
}
|
deba@1912
|
448 |
|
deba@1912
|
449 |
///@}
|
deba@1912
|
450 |
|
deba@1912
|
451 |
///\name Query Functions
|
deba@1912
|
452 |
///The result of the %FredmanTarjan algorithm can be obtained using these
|
deba@1912
|
453 |
///functions.\n
|
deba@1912
|
454 |
///Before the use of these functions,
|
deba@1912
|
455 |
///either run() or start() must be called.
|
deba@1912
|
456 |
|
deba@1912
|
457 |
///@{
|
deba@1912
|
458 |
|
deba@1912
|
459 |
///Returns a reference to the tree edges map.
|
deba@1912
|
460 |
|
deba@1912
|
461 |
///Returns a reference to the TreeEdgeMap of the edges of the
|
deba@1912
|
462 |
///minimum spanning tree. The value of the map is \c true only if the
|
deba@1912
|
463 |
///edge is in the minimum spanning tree.
|
deba@1912
|
464 |
///
|
deba@1912
|
465 |
///\pre \ref run() or \ref start() must be called before using this
|
deba@1912
|
466 |
///function.
|
deba@1912
|
467 |
const TreeMap &treeMap() const { return *_tree;}
|
deba@1912
|
468 |
|
deba@1912
|
469 |
///Sets the tree edges map.
|
deba@1912
|
470 |
|
deba@1912
|
471 |
///Sets the TreeMap of the edges of the minimum spanning tree.
|
deba@1912
|
472 |
///The map values belonging to the edges of the minimum
|
alpar@1953
|
473 |
///spanning tree are set to \c tree_edge_value or \c true by default
|
deba@1912
|
474 |
///while the edge values not belonging to the minimum spanning tree are
|
deba@1912
|
475 |
///set to
|
alpar@1953
|
476 |
///\c tree_default_value or \c false by default.
|
deba@1912
|
477 |
///
|
deba@1912
|
478 |
///\pre \ref run() or \ref start() must be called before using this
|
deba@1912
|
479 |
///function.
|
deba@1912
|
480 |
|
deba@1912
|
481 |
template<class TreeMap>
|
deba@1912
|
482 |
void treeEdges(
|
deba@1912
|
483 |
TreeMap& tree,
|
deba@1912
|
484 |
const typename TreeMap::Value& tree_edge_value=true,
|
deba@1912
|
485 |
const typename TreeMap::Value& tree_default_value=false) const {
|
deba@1912
|
486 |
for(typename UGraph::UEdgeIt i(*graph);i!=INVALID;++i){
|
deba@1912
|
487 |
(*_tree)[i]?tree.set(i,tree_edge_value):tree.set(i,tree_default_value);
|
deba@1912
|
488 |
}
|
deba@1912
|
489 |
}
|
deba@1912
|
490 |
|
deba@1912
|
491 |
///\brief Checks if an edge is in the spanning tree or not.
|
deba@1912
|
492 |
|
deba@1912
|
493 |
///Checks if an edge is in the spanning tree or not.
|
deba@1912
|
494 |
///\param e is the edge that will be checked
|
deba@1912
|
495 |
///\return \c true if e is in the spanning tree, \c false otherwise
|
deba@1912
|
496 |
bool tree(UEdge e){
|
deba@1912
|
497 |
return (*_tree)[e];
|
deba@1912
|
498 |
}
|
deba@1912
|
499 |
///@}
|
deba@1912
|
500 |
};
|
deba@1912
|
501 |
|
deba@1912
|
502 |
/// \ingroup spantree
|
deba@1912
|
503 |
///
|
deba@1912
|
504 |
/// \brief Function type interface for FredmanTarjan algorithm.
|
deba@1912
|
505 |
///
|
deba@1912
|
506 |
/// Function type interface for FredmanTarjan algorithm.
|
deba@1912
|
507 |
/// \param graph the UGraph that the algorithm runs on
|
deba@1912
|
508 |
/// \param cost the CostMap of the edges
|
deba@1912
|
509 |
/// \retval tree the EdgeMap that contains whether an edge is in the
|
deba@1912
|
510 |
/// spanning tree or not
|
deba@1912
|
511 |
///
|
deba@1912
|
512 |
/// \sa Prim
|
deba@1912
|
513 |
template<class Graph,class CostMap,class TreeMap>
|
deba@1912
|
514 |
void fredmanTarjan(const Graph& graph, const CostMap& cost,TreeMap& tree){
|
deba@1912
|
515 |
typename FredmanTarjan<Graph,CostMap>::template DefTreeMap<TreeMap>::
|
deba@1912
|
516 |
Create ft(graph,cost);
|
deba@1912
|
517 |
ft.treeMap(tree);
|
deba@1912
|
518 |
ft.run();
|
deba@1979
|
519 |
}
|
deba@1912
|
520 |
|
deba@1912
|
521 |
} //END OF NAMESPACE LEMON
|
deba@1912
|
522 |
|
deba@1912
|
523 |
#endif
|