demo/sub_graph_adaptor_demo.cc
author hegyi
Fri, 06 Jan 2006 13:58:49 +0000
changeset 1881 f40cdc2057c2
parent 1641 77f6ab7ad66f
child 1956 a055123339d5
permissions -rw-r--r--
Result of KruskalGUIAlgo is refreshed if displayed, but no more setin a forced way.
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/* -*- C++ -*-
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 * demo/sub_graph_adaptor_demo.cc - Part of LEMON, a generic C++ optimization
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 * library
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 *
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 * Copyright (C) 2006 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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///\ingroup demos
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///\file
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///\brief Computing maximum number of edge-disjoint shortest paths
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///
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/// This program computes a maximum number of edge-disjoint shortest paths
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/// between nodes \c s and \c t.
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///
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/// \include sub_graph_adaptor_demo.cc
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// Use a DIMACS max flow file as input.
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// sub_graph_adaptor_demo < dimacs_max_flow_file
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// Modified to eat lemon graph format! 
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#include <iostream>
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#include <fstream>
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#include <lemon/smart_graph.h>
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#include <lemon/dijkstra.h>
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#include <lemon/maps.h>
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#include <lemon/graph_adaptor.h>
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#include <lemon/dimacs.h>
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#include <lemon/preflow.h>
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#include <tight_edge_filter_map.h>
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#include <lemon/graph_reader.h>
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using namespace lemon;
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using std::cout;
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using std::endl;
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int main(int argc, char *argv[]) 
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{
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  if(argc<2)
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  {
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      std::cerr << "USAGE: sub_graph_adaptor_demo input_file.lgf" << std::endl;
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      std::cerr << "The file 'input_file.lgf' has to contain a max flow "
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		<< "instance in \n LEMON format "
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		<< "(e.g. sub_gad_input.lgf is such a file)." 
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		<< std::endl;
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      return 0;
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  }
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  //input stream to read the graph from
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  std::ifstream is(argv[1]);
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  typedef SmartGraph Graph;
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  typedef Graph::Edge Edge;
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  typedef Graph::Node Node;
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  typedef Graph::EdgeIt EdgeIt;
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  typedef Graph::NodeIt NodeIt;
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  typedef Graph::EdgeMap<int> LengthMap;
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  Graph g;
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  Node s, t;
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  LengthMap length(g);
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  //readDimacs(is, g, length, s, t);
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  GraphReader<SmartGraph> reader(is,g);
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  reader.readNode("source",s).readNode("target",t)
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    .readEdgeMap("length",length).run();
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  cout << "edges with lengths (of form id, source--length->target): " << endl;
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  for(EdgeIt e(g); e!=INVALID; ++e) 
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    cout << " " << g.id(e) << ", " << g.id(g.source(e)) << "--" 
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	 << length[e] << "->" << g.id(g.target(e)) << endl;
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  cout << "s: " << g.id(s) << " t: " << g.id(t) << endl;
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  typedef Dijkstra<Graph, LengthMap> Dijkstra;
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  Dijkstra dijkstra(g, length);
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  dijkstra.run(s);
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  // This map returns true exactly for those edges which are 
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  // tight w.r.t the length funcion and the potential 
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  // given by the dijkstra algorithm.
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  typedef TightEdgeFilterMap<Graph, const Dijkstra::DistMap, LengthMap> 
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    TightEdgeFilter;
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  TightEdgeFilter tight_edge_filter(g, dijkstra.distMap(), length);
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//  ConstMap<Node, bool> const_true_map(true);
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  // This graph contains exaclty the tight edges.
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// typedef SubGraphAdaptor<Graph, ConstMap<Node, bool>, TightEdgeFilter> SubGW;
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  typedef EdgeSubGraphAdaptor<Graph, TightEdgeFilter> SubGW;
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  SubGW gw(g, tight_edge_filter);
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  ConstMap<Edge, int> const_1_map(1);
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  Graph::EdgeMap<int> flow(g, 0);
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  // Max flow between s and t in the graph of tight edges.
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  Preflow<SubGW, int, ConstMap<Edge, int>, Graph::EdgeMap<int> > 
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    preflow(gw, s, t, const_1_map, flow);
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  preflow.run();
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  cout << "maximum number of edge-disjoint shortest paths: " 
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       << preflow.flowValue() << endl;
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  cout << "edges of the maximum number of edge-disjoint shortest s-t paths: " 
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       << endl;
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  for(EdgeIt e(g); e!=INVALID; ++e) 
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    if (flow[e])
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      cout << " " << g.id(e) << ", "
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	   << g.id(g.source(e)) << "--" 
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	   << length[e] << "->" << g.id(g.target(e)) << endl;
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}