demo/lp_maxflow_demo.cc
author alpar
Mon, 29 Aug 2005 18:21:02 +0000
changeset 1663 f6741cfab647
parent 1610 893dacc1866c
child 1875 98698b69a902
permissions -rw-r--r--
Serious bugfix.
athos@1560
     1
/* -*- C++ -*-
athos@1560
     2
 * demo/lp_maxflow_demo.cc - Part of LEMON, a generic C++ optimization library
athos@1560
     3
 *
athos@1560
     4
 * Copyright (C) 2005 Egervary Jeno Kombinatorikus Optimalizalasi Kutatocsoport
athos@1560
     5
 * (Egervary Research Group on Combinatorial Optimization, EGRES).
athos@1560
     6
 *
athos@1560
     7
 * Permission to use, modify and distribute this software is granted
athos@1560
     8
 * provided that this copyright notice appears in all copies. For
athos@1560
     9
 * precise terms see the accompanying LICENSE file.
athos@1560
    10
 *
athos@1560
    11
 * This software is provided "AS IS" with no warranty of any kind,
athos@1560
    12
 * express or implied, and with no claim as to its suitability for any
athos@1560
    13
 * purpose.
athos@1560
    14
 *
athos@1560
    15
 */
athos@1560
    16
athos@1560
    17
///\ingroup demos
athos@1560
    18
///\file
athos@1560
    19
///\brief Max flow problem solved with an LP solver (demo).
athos@1560
    20
///
athos@1583
    21
/// This demo program shows how to solve a maximum (or maximal) flow
athos@1583
    22
/// problem using the LEMON LP solver interface. We would like to lay
athos@1583
    23
/// the emphasis on the simplicity of the way one can formulate LP
athos@1583
    24
/// constraints that arise in graph theory in our library LEMON .
alpar@1641
    25
///
alpar@1641
    26
/// \include lp_maxflow_demo.cc
athos@1560
    27
alpar@1361
    28
#include<lemon/graph_reader.h>
alpar@1361
    29
#include<lemon/list_graph.h>
alpar@1610
    30
#include <lemon/lp.h>
alpar@1361
    31
athos@1560
    32
#include <fstream>
athos@1560
    33
#include <iostream>
athos@1560
    34
alpar@1381
    35
alpar@1381
    36
alpar@1361
    37
using namespace lemon;
alpar@1361
    38
alpar@1361
    39
template<class G,class C>
alpar@1361
    40
double maxFlow(const G &g,const C &cap,typename G::Node s,typename G::Node t)
alpar@1361
    41
{
alpar@1610
    42
  Lp lp;
alpar@1361
    43
  
alpar@1361
    44
  typedef G Graph;
alpar@1361
    45
  typedef typename G::Node Node;
alpar@1361
    46
  typedef typename G::NodeIt NodeIt;
alpar@1361
    47
  typedef typename G::Edge Edge;
alpar@1361
    48
  typedef typename G::EdgeIt EdgeIt;
alpar@1361
    49
  typedef typename G::OutEdgeIt OutEdgeIt;
alpar@1361
    50
  typedef typename G::InEdgeIt InEdgeIt;
alpar@1361
    51
  
athos@1518
    52
  //Define a map on the edges for the variables of the LP problem
alpar@1610
    53
  typename G::template EdgeMap<Lp::Col> x(g);
alpar@1361
    54
  lp.addColSet(x);
alpar@1361
    55
  
athos@1518
    56
  //Nonnegativity and capacity constraints
alpar@1361
    57
  for(EdgeIt e(g);e!=INVALID;++e) {
alpar@1361
    58
    lp.colUpperBound(x[e],cap[e]);
alpar@1361
    59
    lp.colLowerBound(x[e],0);
alpar@1361
    60
  }
alpar@1361
    61
athos@1518
    62
athos@1518
    63
  //Flow conservation constraints for the nodes (except for 's' and 't')
alpar@1361
    64
  for(NodeIt n(g);n!=INVALID;++n) if(n!=s&&n!=t) {
alpar@1610
    65
    Lp::Expr ex;
alpar@1361
    66
    for(InEdgeIt  e(g,n);e!=INVALID;++e) ex+=x[e];
alpar@1361
    67
    for(OutEdgeIt e(g,n);e!=INVALID;++e) ex-=x[e];
alpar@1361
    68
    lp.addRow(ex==0);
alpar@1361
    69
  }
athos@1518
    70
  
athos@1518
    71
  //Objective function: the flow value entering 't'
alpar@1610
    72
  Lp::Expr obj;
alpar@1571
    73
  for(InEdgeIt  e(g,t);e!=INVALID;++e) obj+=x[e];
alpar@1571
    74
  for(OutEdgeIt e(g,t);e!=INVALID;++e) obj-=x[e];
alpar@1571
    75
  lp.setObj(obj);
alpar@1571
    76
athos@1518
    77
athos@1518
    78
  //Maximization
alpar@1361
    79
  lp.max();
alpar@1361
    80
alpar@1610
    81
#if DEFAULT_LP==GLPK
alpar@1361
    82
  lp.presolver(true);
alpar@1361
    83
  lp.messageLevel(3);
alpar@1381
    84
#endif
alpar@1361
    85
athos@1577
    86
  std::cout<<"Solver used: "<<default_solver_name<<std::endl;
athos@1577
    87
athos@1518
    88
  //Solve with the underlying solver
alpar@1361
    89
  lp.solve();
alpar@1361
    90
alpar@1361
    91
  return lp.primalValue();
alpar@1361
    92
}
alpar@1361
    93
athos@1560
    94
int main(int argc, char *argv[]) 
alpar@1361
    95
{
athos@1560
    96
  if(argc<2)
athos@1560
    97
  {
athos@1577
    98
      std::cerr << "  USAGE: lp_maxflow_demo input_file.lgf" << std::endl;
alpar@1561
    99
      std::cerr << "  The file 'input_file.lgf' has to contain a max "
alpar@1561
   100
		<< "flow instance in\n"
alpar@1561
   101
		<< "  LEMON format (e.g. sample.lgf is such a file)."
alpar@1561
   102
		<< std::endl;
athos@1560
   103
      return 0;
athos@1560
   104
  }
athos@1560
   105
athos@1560
   106
athos@1560
   107
  //input stream to read the graph from
athos@1560
   108
  std::ifstream is(argv[1]);
athos@1560
   109
athos@1560
   110
alpar@1361
   111
  ListGraph g;
alpar@1361
   112
  ListGraph::Node s;
alpar@1361
   113
  ListGraph::Node t;
alpar@1361
   114
  
alpar@1361
   115
  ListGraph::EdgeMap<double> cap(g);
alpar@1361
   116
  
athos@1560
   117
  GraphReader<ListGraph> reader(is,g);
deba@1394
   118
  reader.readNode("source",s).readNode("target",t)
deba@1394
   119
    .readEdgeMap("capacity",cap).run();
alpar@1361
   120
  
alpar@1361
   121
  std::cout << "Max flow value = " << maxFlow(g,cap,s,t) << std::endl;
alpar@1361
   122
alpar@1361
   123
}