COIN-OR::LEMON - Graph Library

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source: lemon-0.x/src/test/min_cost_flow_test.cc @ 1392:b87aa8f0feb8

Last change on this file since 1392:b87aa8f0feb8 was 1359:1581f961cfaa, checked in by Alpar Juttner, 21 years ago

Correct the english name of EGRES.
File size: 3.2 KB
Line 
1/* -*- C++ -*-
2 * src/test/min_cost_flow_test.cc - Part of LEMON, a generic C++ optimization library
3 *
4 * Copyright (C) 2005 Egervary Jeno Kombinatorikus Optimalizalasi Kutatocsoport
5 * (Egervary Research Group on Combinatorial Optimization, EGRES).
6 *
7 * Permission to use, modify and distribute this software is granted
8 * provided that this copyright notice appears in all copies. For
9 * precise terms see the accompanying LICENSE file.
10 *
11 * This software is provided "AS IS" with no warranty of any kind,
12 * express or implied, and with no claim as to its suitability for any
13 * purpose.
14 *
15 */
16
17#include <iostream>
18#include "test_tools.h"
19#include <lemon/list_graph.h>
20#include <lemon/min_cost_flow.h>
21//#include <path.h>
22//#include <maps.h>
23
24using namespace lemon;
25
26
27bool passed = true;
28/*
29void check(bool rc, char *msg="") {
30  passed = passed && rc;
31  if(!rc) {
32    std::cerr << "Test failed! ("<< msg << ")" << std::endl; \
33 
34
35  }
36}
37*/
38
39
40int main()
41{
42  typedef ListGraph Graph;
43  typedef Graph::Node Node;
44  typedef Graph::Edge Edge;
45
46  Graph graph;
47
48  //Ahuja könyv példája
49
50  Node s=graph.addNode();
51  Node v1=graph.addNode(); 
52  Node v2=graph.addNode();
53  Node v3=graph.addNode();
54  Node v4=graph.addNode();
55  Node v5=graph.addNode();
56  Node t=graph.addNode();
57
58  Edge s_v1=graph.addEdge(s, v1);
59  Edge v1_v2=graph.addEdge(v1, v2);
60  Edge s_v3=graph.addEdge(s, v3);
61  Edge v2_v4=graph.addEdge(v2, v4);
62  Edge v2_v5=graph.addEdge(v2, v5);
63  Edge v3_v5=graph.addEdge(v3, v5);
64  Edge v4_t=graph.addEdge(v4, t);
65  Edge v5_t=graph.addEdge(v5, t);
66 
67
68  Graph::EdgeMap<int> length(graph);
69
70  length.set(s_v1, 6);
71  length.set(v1_v2, 4);
72  length.set(s_v3, 10);
73  length.set(v2_v4, 5);
74  length.set(v2_v5, 1);
75  length.set(v3_v5, 4);
76  length.set(v4_t, 8);
77  length.set(v5_t, 8);
78
79  Graph::EdgeMap<int> capacity(graph);
80
81  capacity.set(s_v1, 2);
82  capacity.set(v1_v2, 2);
83  capacity.set(s_v3, 1);
84  capacity.set(v2_v4, 1);
85  capacity.set(v2_v5, 1);
86  capacity.set(v3_v5, 1);
87  capacity.set(v4_t, 1);
88  capacity.set(v5_t, 2);
89
90  //  ConstMap<Edge, int> const1map(1);
91  std::cout << "Mincostflows algorithm test..." << std::endl;
92
93  MinCostFlow< Graph, Graph::EdgeMap<int>, Graph::EdgeMap<int> >
94    surb_test(graph, length, capacity, s, t);
95
96  int k=1;
97
98  surb_test.augment();
99  check(  surb_test.flowValue() == 1 && surb_test.totalLength() == 19,"One path, total length should be 19");
100
101  check(  surb_test.run(k) == 1 && surb_test.totalLength() == 19,"One path, total length should be 19");
102
103  check(surb_test.checkComplementarySlackness(), "Is the primal-dual solution pair really optimal?");
104 
105  k=2;
106 
107  check(  surb_test.run(k) == 2 && surb_test.totalLength() == 41,"Two paths, total length should be 41");
108
109  check(surb_test.checkComplementarySlackness(), "Is the primal-dual solution pair really optimal?");
110 
111  surb_test.augment();
112  surb_test.augment();
113  surb_test.augment();
114  k=4;
115
116  check(  surb_test.run(k) == 3 && surb_test.totalLength() == 64,"Three paths, total length should be 64");
117
118  check(surb_test.checkComplementarySlackness(), "Is the primal-dual solution pair really optimal?");
119
120
121  std::cout << (passed ? "All tests passed." : "Some of the tests failed!!!")
122            << std::endl;
123
124  return passed ? 0 : 1;
125
126}
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