benchmark/edge_lookup.cc
author kpeter
Tue, 05 Feb 2008 11:24:32 +0000
changeset 2563 5841132a89fd
parent 2539 c25f62a6452d
permissions -rw-r--r--
Small fixes in README.
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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) 2003-2008
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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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#include<lemon/smart_graph.h>
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#include<vector>
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#include<lemon/time_measure.h>
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#include<lemon/random.h>
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#include<lemon/graph_utils.h>
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#include<algorithm>
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using namespace lemon;
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  template<class G>
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  class EdgeLookUp2
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  {
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  public:
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    GRAPH_TYPEDEFS(typename G);
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    typedef G Graph;
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  private:
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    const Graph &_g;
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    typename Graph::template NodeMap<int> _start;
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    typename Graph::template NodeMap<int> _end;
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    std::vector<Edge> _edges;
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    class EdgeLess {
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      const Graph &g;
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    public:
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      EdgeLess(const Graph &_g) : g(_g) {}
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      bool operator()(Edge a,Edge b) const 
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      {
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	return g.target(a)<g.target(b);
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      }
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    };
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  public:
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    ///Constructor
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    EdgeLookUp2(const Graph &g) :_g(g),_start(g),_end(g) {refresh();}
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  public:
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    ///Refresh the data structure at a node.
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    void refresh(Node n) 
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    {
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      const int bi = _start[n] = _edges.size();
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      for(OutEdgeIt e(_g,n);e!=INVALID;++e) _edges.push_back(e);
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      const typename std::vector<Edge>::iterator ei=_edges.end();
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      _end[n]=_edges.size();
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      std::sort(_edges.begin()+bi,ei,EdgeLess(_g));
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    }
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    ///Refresh the full data structure.
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    void refresh() 
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    {
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      _edges.clear();
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      for(NodeIt n(_g);n!=INVALID;++n) refresh(n);
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    }
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    ///Find an edge between two nodes.
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    ///Find an edge between two nodes.
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    ///\param s The source node
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    ///\param t The target node
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    ///\return An edge from \c s to \c t if there exists,
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    ///\ref INVALID otherwise.
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    Edge operator()(Node s, Node t) 
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    {
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      int a=_start[s];
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      int b=_end[s];
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      while(a<b) 
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	{
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	  int n=(a+b)/2;
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	  Node tt = _g.target(_edges[n]);
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	  if(tt==t) return _edges[n];
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	  else if(tt<t) a=n+1;
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	  else b=n;
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	}
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      return INVALID;
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    }
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    ///Find the next edge
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      ///\warning This function is unimplemented.
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    Edge operator()(Node s, Node t, Edge prev) 
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    {
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      return prev==INVALID?(*this)(s,t):INVALID;
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    }
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  };
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  template<class G>
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  class EdgeLookUp3
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  {
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  public:
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    GRAPH_TYPEDEFS(typename G);
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    typedef G Graph;
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  private:
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    const Graph &_g;
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    typename Graph::template NodeMap<Edge*> _start;
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    typename Graph::template NodeMap<Edge*> _end;
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    std::vector<Edge> _edges;
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    class EdgeLess {
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      const Graph &g;
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    public:
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      EdgeLess(const Graph &_g) : g(_g) {}
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      bool operator()(Edge a,Edge b) const 
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      {
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	return g.target(a)<g.target(b);
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      }
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    };
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  public:
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    ///Constructor
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    EdgeLookUp3(const Graph &g) :_g(g),_start(g),_end(g) {refresh();}
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  public:
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    ///Refresh the data structure at a node.
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    void refresh(Node n) 
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    {
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      const int bi = _start[n] = _edges.size();
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      for(OutEdgeIt e(_g,n);e!=INVALID;++e) _edges.push_back(e);
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      const typename std::vector<Edge>::iterator ei=_edges.end();
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      _end[n]=_edges.size();
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      std::sort(_edges.begin()+bi,ei,EdgeLess(_g));
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    }
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    ///Refresh the full data structure.
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    void refresh() 
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    {
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      _edges.resize(countEdges(_g));
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      int l=0;
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      for(NodeIt n(_g);n!=INVALID;++n)
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	{
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	  int ls = l;
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	  _start[n]=&(_edges[l]);	
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	  for(OutEdgeIt e(_g,n);e!=INVALID;++e) _edges[l++]=e;
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	  _end[n]=&(_edges[l]);
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	  std::sort(_edges.begin()+ls,_edges.begin()+l,EdgeLess(_g));
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	}
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    }
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    ///Find an edge between two nodes.
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    ///Find an edge between two nodes.
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    ///\param s The source node
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    ///\param t The target node
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    ///\return An edge from \c s to \c t if there exists,
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    ///\ref INVALID otherwise.
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    Edge operator()(Node s, Node t) 
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    {
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      Edge *a=_start[s];
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      Edge *b=_end[s];
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      while(a!=b) 
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	{
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 	  Edge *m=a+((b-a)/2);
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	  Node tt = _g.target(*m);
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	  if(tt==t) return *m;
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	  else if(tt<t) a=m+1;
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	  else b=m;
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	}
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      return INVALID;
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    }
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    ///Find the next edge
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      ///\warning This function is unimplemented.
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    Edge operator()(Node s, Node t, Edge prev) 
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    {
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      return prev==INVALID?(*this)(s,t):INVALID;
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    }
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  };
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//   template<class G>
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//   class EdgeLookUp4
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//   {
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//   public:
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//     GRAPH_TYPEDEFS(typename G);
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//     typedef G Graph;
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//   private:
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//     const Graph &_g;
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//     typename Graph::template NodeMap<Edge*> _start;
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//     typename Graph::template NodeMap<Edge*> _end;
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//     std::vector<Edge> _edges;
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//     class EdgeLess {
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//       const Graph &g;
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//     public:
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//       EdgeLess(const Graph &_g) : g(_g) {}
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//       bool operator()(Edge a,Edge b) const 
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//       {
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// 	return g.target(a)<g.target(b);
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//       }
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//     };
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//   public:
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//     ///Constructor
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//     EdgeLookUp4(const Graph &g) :_g(g),_start(g),_end(g) {refresh();}
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//   public:
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//     ///Refresh the data structure at a node.
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//     void refresh(Node n) 
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//     {
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//       const int bi = _start[n] = _edges.size();
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//       for(OutEdgeIt e(_g,n);e!=INVALID;++e) _edges.push_back(e);
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//       const typename std::vector<Edge>::iterator ei=_edges.end();
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//       _end[n]=_edges.size();
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//       std::sort(_edges.begin()+bi,ei,EdgeLess(_g));
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//     }
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//     ///Refresh the full data structure.
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//     void refresh() 
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//     {
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//       _edges.resize(countEdges(_g));
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//       int l=0;
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//       for(NodeIt n(_g);n!=INVALID;++n)
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// 	{
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// 	  int ls = l;
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// 	  _start[n]=&(_edges[l]);	
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// 	  for(OutEdgeIt e(_g,n);e!=INVALID;++e) _edges[l++]=e;
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// 	  _end[n]=&(_edges[l]);
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// 	  std::sort(_edges.begin()+ls,_edges.begin()+l,EdgeLess(_g));
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// 	}
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//     }
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//     ///Find an edge between two nodes.
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//     ///Find an edge between two nodes.
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//     ///\param s The source node
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//     ///\param t The target node
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//     ///\return An edge from \c s to \c t if there exists,
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//     ///\ref INVALID otherwise.
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//     Edge operator()(Node s, Node t) 
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//     {
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//       Edge *a=_start[s];
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//       Edge *b=_end[s];
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//       while(a!=b) 
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// 	{
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// // #ifdef X86
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//  	  Edge *m=(Edge*)(((unsigned int)a+(unsigned int)b)/2 & 0xfffffffc);
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// // #elif X86_64
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// // 	  Edge *m=(Edge*)(((unsigned long)a+(undigned long)b)/2 & 0xfffffffc);
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// // #else
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// //  	  Edge *m=a+((b-a)/2);
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// // #endif
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// 	  Node tt = _g.target(*m);
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// 	  if(tt==t) return *m;
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// 	  else if(tt<t) a=m+1;
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// 	  else b=m;
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// 	}
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//       return INVALID;
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//     }
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//     ///Find the next edge
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//       ///\warning This function is unimplemented.
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//     Edge operator()(Node s, Node t, Edge prev) 
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//     {
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//       return prev==INVALID?(*this)(s,t):INVALID;
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//     }
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//   };
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//   template<class G>
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//   class EdgeLookUp5
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//   {
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//   public:
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//     GRAPH_TYPEDEFS(typename G);
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//     typedef G Graph;
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//   private:
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//     const Graph &_g;
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//     typename Graph::template NodeMap<Edge*> _start;
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//     typename Graph::template NodeMap<Edge*> _end;
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//     std::vector<Edge> _edges;
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//     class EdgeLess {
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//       const Graph &g;
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//     public:
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//       EdgeLess(const Graph &_g) : g(_g) {}
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//       bool operator()(Edge a,Edge b) const 
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//       {
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// 	return g.target(a)<g.target(b);
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//       }
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//     };
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//   public:
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//     ///Constructor
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//     EdgeLookUp5(const Graph &g) :_g(g),_start(g),_end(g) {refresh();}
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//   public:
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//     ///Refresh the data structure at a node.
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//     void refresh(Node n) 
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//     {
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//       const int bi = _start[n] = _edges.size();
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//       for(OutEdgeIt e(_g,n);e!=INVALID;++e) _edges.push_back(e);
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//       const typename std::vector<Edge>::iterator ei=_edges.end();
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//       _end[n]=_edges.size();
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//       std::sort(_edges.begin()+bi,ei,EdgeLess(_g));
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//     }
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//     ///Refresh the full data structure.
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//     void refresh() 
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//     {
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//       _edges.resize(countEdges(_g));
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//       int l=0;
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//       for(NodeIt n(_g);n!=INVALID;++n)
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// 	{
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// 	  int ls = l;
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// 	  _start[n]=&(_edges[l]);	
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// 	  for(OutEdgeIt e(_g,n);e!=INVALID;++e) _edges[l++]=e;
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// 	  _end[n]=&(_edges[l]);
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// 	  std::sort(_edges.begin()+ls,_edges.begin()+l,EdgeLess(_g));
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// 	}
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//     }
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//     ///Find an edge between two nodes.
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//     ///Find an edge between two nodes.
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//     ///\param s The source node
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//     ///\param t The target node
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//     ///\return An edge from \c s to \c t if there exists,
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//     ///\ref INVALID otherwise.
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//     Edge operator()(Node s, Node t) 
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//     {
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//       Edge *a=_start[s];
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//       Edge *b=_end[s];
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//       while(a!=b) 
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// 	{
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// // #ifdef X86
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//  	  Edge *m=(Edge*)((((unsigned int)a>>1)+((unsigned int)b)>>1)
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// 			  & 0xfffffffc);
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// // #elif X86_64
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// // 	  Edge *m=(Edge*)(((unsigned long)a>>1+(undigned long)b)>>1)&0xfffffffc);
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// // #else
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// //  	  Edge *m=a+((b-a)/2);
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// // #endif
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// 	  Node tt = _g.target(*m);
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// 	  if(tt==t) return *m;
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// 	  else if(tt<t) a=m+1;
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// 	  else b=m;
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// 	}
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//       return INVALID;
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//     }
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//     ///Find the next edge
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//       ///\warning This function is unimplemented.
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//     Edge operator()(Node s, Node t, Edge prev) 
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//     {
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//       return prev==INVALID?(*this)(s,t):INVALID;
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//     }
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//   };
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GRAPH_TYPEDEFS(SmartGraph);
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typedef SmartGraph Graph;
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class FE 
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{
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public:
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  Graph &_g;
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   387
  FE(Graph &g) :_g(g) {}
alpar@2235
   388
  void operator()() 
alpar@2235
   389
  {
alpar@2235
   390
    Edge e;
alpar@2235
   391
    
alpar@2235
   392
    for(NodeIt v(_g);v!=INVALID;++v)
alpar@2235
   393
      for(NodeIt u(_g);u!=INVALID;++u)
alpar@2235
   394
	e=findEdge(_g,u,v);
alpar@2235
   395
  }
alpar@2235
   396
  
alpar@2235
   397
};
alpar@2235
   398
alpar@2235
   399
class EL 
alpar@2235
   400
{
alpar@2235
   401
public:
alpar@2235
   402
  Graph &_g;
alpar@2235
   403
  EdgeLookUp<Graph> _el;
alpar@2235
   404
  EL(Graph &g) :_g(g), _el(g) {}
alpar@2235
   405
  void operator()() 
alpar@2235
   406
  {
alpar@2235
   407
    Edge e;
alpar@2235
   408
    
alpar@2235
   409
    for(NodeIt v(_g);v!=INVALID;++v)
alpar@2235
   410
      for(NodeIt u(_g);u!=INVALID;++u)
alpar@2235
   411
	e=_el(u,v);
alpar@2235
   412
  }
alpar@2235
   413
  
alpar@2235
   414
};
deba@2539
   415
deba@2539
   416
class DEL 
deba@2539
   417
{
deba@2539
   418
public:
deba@2539
   419
  Graph &_g;
deba@2539
   420
  DynEdgeLookUp<Graph> _el;
deba@2539
   421
  DEL(Graph &g) :_g(g), _el(g) {}
deba@2539
   422
  void operator()() 
deba@2539
   423
  {
deba@2539
   424
    Edge e;
deba@2539
   425
    
deba@2539
   426
    for(NodeIt v(_g);v!=INVALID;++v)
deba@2539
   427
      for(NodeIt u(_g);u!=INVALID;++u)
deba@2539
   428
	e=_el(u,v);
deba@2539
   429
  }
deba@2539
   430
  
deba@2539
   431
};
deba@2539
   432
alpar@2235
   433
class EL2
alpar@2235
   434
{
alpar@2235
   435
public:
alpar@2235
   436
  Graph &_g;
alpar@2235
   437
  EdgeLookUp2<Graph> _el;
alpar@2235
   438
  EL2(Graph &g) :_g(g), _el(g) {}
alpar@2235
   439
  void operator()() 
alpar@2235
   440
  {
alpar@2235
   441
    Edge e;
alpar@2235
   442
    
alpar@2235
   443
    for(NodeIt v(_g);v!=INVALID;++v)
alpar@2235
   444
      for(NodeIt u(_g);u!=INVALID;++u)
alpar@2235
   445
	e=_el(u,v);
alpar@2235
   446
  }
alpar@2235
   447
  
alpar@2235
   448
};
alpar@2235
   449
alpar@2235
   450
class EL3
alpar@2235
   451
{
alpar@2235
   452
public:
alpar@2235
   453
  Graph &_g;
alpar@2235
   454
  EdgeLookUp3<Graph> _el;
alpar@2235
   455
  EL3(Graph &g) :_g(g), _el(g) {}
alpar@2235
   456
  void operator()() 
alpar@2235
   457
  {
alpar@2235
   458
    Edge e;
alpar@2235
   459
    
alpar@2235
   460
    for(NodeIt v(_g);v!=INVALID;++v)
alpar@2235
   461
      for(NodeIt u(_g);u!=INVALID;++u)
alpar@2235
   462
	e=_el(u,v);
alpar@2235
   463
  }
alpar@2235
   464
  
alpar@2235
   465
};
alpar@2235
   466
alpar@2274
   467
// class EL4
alpar@2274
   468
// {
alpar@2274
   469
// public:
alpar@2274
   470
//   Graph &_g;
alpar@2274
   471
//   EdgeLookUp4<Graph> _el;
alpar@2274
   472
//   EL4(Graph &g) :_g(g), _el(g) {}
alpar@2274
   473
//   void operator()() 
alpar@2274
   474
//   {
alpar@2274
   475
//     Edge e;
alpar@2235
   476
    
alpar@2274
   477
//     for(NodeIt v(_g);v!=INVALID;++v)
alpar@2274
   478
//       for(NodeIt u(_g);u!=INVALID;++u)
alpar@2274
   479
// 	e=_el(u,v);
alpar@2274
   480
//   }
alpar@2235
   481
  
alpar@2274
   482
// };
alpar@2235
   483
alpar@2274
   484
// class EL5
alpar@2274
   485
// {
alpar@2274
   486
// public:
alpar@2274
   487
//   Graph &_g;
alpar@2274
   488
//   EdgeLookUp5<Graph> _el;
alpar@2274
   489
//   EL5(Graph &g) :_g(g), _el(g) {}
alpar@2274
   490
//   void operator()() 
alpar@2274
   491
//   {
alpar@2274
   492
//     Edge e;
alpar@2271
   493
    
alpar@2274
   494
//     for(NodeIt v(_g);v!=INVALID;++v)
alpar@2274
   495
//       for(NodeIt u(_g);u!=INVALID;++u)
alpar@2274
   496
// 	e=_el(u,v);
alpar@2274
   497
//   }
alpar@2271
   498
  
alpar@2274
   499
// };
alpar@2271
   500
alpar@2238
   501
int main(int, char**argv)
alpar@2235
   502
{
alpar@2235
   503
  int N=atoi(argv[1]);
alpar@2235
   504
  int M=int(N*atof(argv[2]));
alpar@2235
   505
  
alpar@2235
   506
  Graph g;
alpar@2235
   507
  
alpar@2235
   508
  std::vector<Node> v;
alpar@2235
   509
  for(int i=0;i<N;i++) v.push_back(g.addNode());
deba@2242
   510
  for(int i=0;i<M;i++) g.addEdge(v[rnd[N]],v[rnd[N]]);
alpar@2235
   511
alpar@2235
   512
//   {
alpar@2235
   513
//     Edge e;
alpar@2235
   514
    
alpar@2235
   515
//     TimeReport t("findEdge: ");
alpar@2235
   516
//     for(NodeIt u(g);u!=INVALID;++u)
alpar@2235
   517
//       for(NodeIt v(g);v!=INVALID;++v)
alpar@2235
   518
// 	e=findEdge(g,u,v);
alpar@2235
   519
//   }
alpar@2235
   520
//   {
alpar@2235
   521
//     Edge e;
alpar@2235
   522
//     EdgeLookUp<Graph> el(g);
alpar@2235
   523
    
alpar@2235
   524
//     TimeReport t("EdgeLookUp: ");
alpar@2235
   525
//     for(NodeIt u(g);u!=INVALID;++u)
alpar@2235
   526
//       for(NodeIt v(g);v!=INVALID;++v)
alpar@2235
   527
// 	e=el(u,v);
alpar@2235
   528
//   }
alpar@2235
   529
alpar@2235
   530
alpar@2235
   531
  TimeStamp t1 = runningTimeTest(FE(g),1);
alpar@2235
   532
  TimeStamp t2 = runningTimeTest(EL(g),1);
deba@2539
   533
  TimeStamp t3 = runningTimeTest(DEL(g),1);
deba@2539
   534
  TimeStamp t4 = runningTimeTest(EL2(g),1);
deba@2539
   535
  TimeStamp t5 = runningTimeTest(EL3(g),1);
alpar@2272
   536
//   TimeStamp t5 = runningTimeTest(EL4(g),1);
alpar@2272
   537
//   TimeStamp t6 = runningTimeTest(EL5(g),1);
alpar@2235
   538
deba@2539
   539
  std::cout << t1.userTime() << ' ' 
deba@2539
   540
	    << t2.userTime() << ' '
deba@2539
   541
	    << t3.userTime() << ' '
deba@2539
   542
	    << t4.userTime() << ' '
deba@2539
   543
	    << t5.userTime() << ' '
deba@2539
   544
// 	    << t5.userTime() << ' '
deba@2539
   545
//  	    << t6.userTime()
deba@2539
   546
	    << std::endl;
alpar@2235
   547
  std::cout << t1.userTime()/N/N << ' ' 
alpar@2235
   548
	    << t2.userTime()/N/N << ' '
alpar@2235
   549
	    << t3.userTime()/N/N << ' '
alpar@2235
   550
	    << t4.userTime()/N/N << ' '
deba@2539
   551
	    << t5.userTime()/N/N << ' '
alpar@2272
   552
// 	    << t5.userTime()/N/N << ' '
alpar@2272
   553
//  	    << t6.userTime()/N/N
alpar@2240
   554
	    << std::endl;
alpar@2235
   555
}
alpar@2235
   556