alpar@906
|
1 |
/* -*- C++ -*-
|
alpar@906
|
2 |
*
|
alpar@1956
|
3 |
* This file is a part of LEMON, a generic C++ optimization library
|
alpar@1956
|
4 |
*
|
alpar@2553
|
5 |
* Copyright (C) 2003-2008
|
alpar@1956
|
6 |
* Egervary Jeno Kombinatorikus Optimalizalasi Kutatocsoport
|
alpar@1359
|
7 |
* (Egervary Research Group on Combinatorial Optimization, EGRES).
|
alpar@906
|
8 |
*
|
alpar@906
|
9 |
* Permission to use, modify and distribute this software is granted
|
alpar@906
|
10 |
* provided that this copyright notice appears in all copies. For
|
alpar@906
|
11 |
* precise terms see the accompanying LICENSE file.
|
alpar@906
|
12 |
*
|
alpar@906
|
13 |
* This software is provided "AS IS" with no warranty of any kind,
|
alpar@906
|
14 |
* express or implied, and with no claim as to its suitability for any
|
alpar@906
|
15 |
* purpose.
|
alpar@906
|
16 |
*
|
alpar@906
|
17 |
*/
|
alpar@906
|
18 |
|
alpar@899
|
19 |
#include <iostream>
|
kpeter@2584
|
20 |
#include <fstream>
|
kpeter@2584
|
21 |
|
kpeter@2584
|
22 |
#include <lemon/list_graph.h>
|
kpeter@2584
|
23 |
#include <lemon/smart_graph.h>
|
kpeter@2584
|
24 |
#include <lemon/graph_reader.h>
|
kpeter@2584
|
25 |
#include <lemon/dimacs.h>
|
kpeter@2584
|
26 |
#include <lemon/time_measure.h>
|
kpeter@2584
|
27 |
|
kpeter@2584
|
28 |
#include <lemon/cycle_canceling.h>
|
kpeter@2584
|
29 |
#include <lemon/capacity_scaling.h>
|
kpeter@2584
|
30 |
#include <lemon/cost_scaling.h>
|
kpeter@2584
|
31 |
#include <lemon/network_simplex.h>
|
kpeter@2584
|
32 |
|
kpeter@2584
|
33 |
#include <lemon/min_cost_flow.h>
|
kpeter@2584
|
34 |
#include <lemon/min_cost_max_flow.h>
|
kpeter@2584
|
35 |
|
alpar@899
|
36 |
#include "test_tools.h"
|
alpar@899
|
37 |
|
alpar@921
|
38 |
using namespace lemon;
|
alpar@899
|
39 |
|
kpeter@2584
|
40 |
// Checks the feasibility of a flow
|
kpeter@2584
|
41 |
template < typename Graph, typename LowerMap, typename CapacityMap,
|
kpeter@2584
|
42 |
typename SupplyMap, typename FlowMap >
|
kpeter@2584
|
43 |
bool checkFlow( const Graph& gr,
|
kpeter@2584
|
44 |
const LowerMap& lower, const CapacityMap& upper,
|
kpeter@2584
|
45 |
const SupplyMap& supply, const FlowMap& flow )
|
kpeter@2584
|
46 |
{
|
kpeter@2584
|
47 |
GRAPH_TYPEDEFS(typename Graph);
|
kpeter@2584
|
48 |
for (EdgeIt e(gr); e != INVALID; ++e)
|
kpeter@2584
|
49 |
if (flow[e] < lower[e] || flow[e] > upper[e]) return false;
|
alpar@899
|
50 |
|
kpeter@2584
|
51 |
for (NodeIt n(gr); n != INVALID; ++n) {
|
kpeter@2584
|
52 |
typename SupplyMap::Value sum = 0;
|
kpeter@2584
|
53 |
for (OutEdgeIt e(gr, n); e != INVALID; ++e)
|
kpeter@2584
|
54 |
sum += flow[e];
|
kpeter@2584
|
55 |
for (InEdgeIt e(gr, n); e != INVALID; ++e)
|
kpeter@2584
|
56 |
sum -= flow[e];
|
kpeter@2584
|
57 |
if (sum != supply[n]) return false;
|
kpeter@2584
|
58 |
}
|
alpar@899
|
59 |
|
kpeter@2584
|
60 |
return true;
|
kpeter@2584
|
61 |
}
|
kpeter@2584
|
62 |
|
kpeter@2584
|
63 |
// Checks the optimalitiy of a flow
|
kpeter@2584
|
64 |
template < typename Graph, typename LowerMap, typename CapacityMap,
|
kpeter@2584
|
65 |
typename CostMap, typename FlowMap, typename PotentialMap >
|
kpeter@2584
|
66 |
bool checkOptimality( const Graph& gr, const LowerMap& lower,
|
kpeter@2584
|
67 |
const CapacityMap& upper, const CostMap& cost,
|
kpeter@2584
|
68 |
const FlowMap& flow, const PotentialMap& pi )
|
kpeter@2584
|
69 |
{
|
kpeter@2584
|
70 |
GRAPH_TYPEDEFS(typename Graph);
|
kpeter@2584
|
71 |
// Checking the Complementary Slackness optimality condition
|
kpeter@2584
|
72 |
bool opt = true;
|
kpeter@2584
|
73 |
for (EdgeIt e(gr); e != INVALID; ++e) {
|
kpeter@2584
|
74 |
typename CostMap::Value red_cost =
|
kpeter@2584
|
75 |
cost[e] + pi[gr.source(e)] - pi[gr.target(e)];
|
kpeter@2584
|
76 |
opt = red_cost == 0 ||
|
kpeter@2584
|
77 |
(red_cost > 0 && flow[e] == lower[e]) ||
|
kpeter@2584
|
78 |
(red_cost < 0 && flow[e] == upper[e]);
|
kpeter@2584
|
79 |
if (!opt) break;
|
kpeter@2584
|
80 |
}
|
kpeter@2584
|
81 |
return opt;
|
kpeter@2584
|
82 |
}
|
kpeter@2584
|
83 |
|
kpeter@2584
|
84 |
// Runs a minimum cost flow algorithm and checks the results
|
kpeter@2584
|
85 |
template < typename MinCostFlowImpl, typename Graph,
|
kpeter@2584
|
86 |
typename LowerMap, typename CapacityMap,
|
kpeter@2584
|
87 |
typename CostMap, typename SupplyMap >
|
kpeter@2584
|
88 |
void checkMcf( std::string test_id,
|
kpeter@2584
|
89 |
const MinCostFlowImpl& mcf, const Graph& gr,
|
kpeter@2584
|
90 |
const LowerMap& lower, const CapacityMap& upper,
|
kpeter@2584
|
91 |
const CostMap& cost, const SupplyMap& supply,
|
kpeter@2584
|
92 |
bool mcf_result, bool result,
|
kpeter@2584
|
93 |
typename CostMap::Value total )
|
kpeter@2584
|
94 |
{
|
kpeter@2584
|
95 |
check(mcf_result == result, "Wrong result " + test_id);
|
kpeter@2584
|
96 |
if (result) {
|
kpeter@2584
|
97 |
check(checkFlow(gr, lower, upper, supply, mcf.flowMap()),
|
kpeter@2584
|
98 |
"The flow is not feasible " + test_id);
|
kpeter@2584
|
99 |
check(mcf.totalCost() == total, "The flow is not optimal " + test_id);
|
kpeter@2584
|
100 |
check(checkOptimality(gr, lower, upper, cost, mcf.flowMap(), mcf.potentialMap()),
|
kpeter@2584
|
101 |
"Wrong potentials " + test_id);
|
alpar@899
|
102 |
}
|
alpar@899
|
103 |
}
|
alpar@899
|
104 |
|
alpar@899
|
105 |
int main()
|
alpar@899
|
106 |
{
|
kpeter@2584
|
107 |
// Various tests on a small graph
|
kpeter@2584
|
108 |
{
|
kpeter@2584
|
109 |
typedef ListGraph Graph;
|
kpeter@2584
|
110 |
GRAPH_TYPEDEFS(ListGraph);
|
alpar@899
|
111 |
|
kpeter@2584
|
112 |
// Reading the test graph
|
kpeter@2584
|
113 |
Graph gr;
|
kpeter@2584
|
114 |
Graph::EdgeMap<int> c(gr), l1(gr), l2(gr), u(gr);
|
kpeter@2584
|
115 |
Graph::NodeMap<int> s1(gr), s2(gr), s3(gr);
|
kpeter@2584
|
116 |
Node v, w;
|
alpar@899
|
117 |
|
kpeter@2584
|
118 |
std::string fname;
|
kpeter@2584
|
119 |
if(getenv("srcdir"))
|
kpeter@2584
|
120 |
fname = std::string(getenv("srcdir"));
|
kpeter@2584
|
121 |
else fname = ".";
|
kpeter@2584
|
122 |
fname += "/test/min_cost_flow_test.lgf";
|
alpar@899
|
123 |
|
kpeter@2584
|
124 |
std::ifstream input(fname.c_str());
|
kpeter@2584
|
125 |
check(input, "Input file '" << fname << "' not found");
|
kpeter@2584
|
126 |
GraphReader<Graph>(input, gr).
|
kpeter@2584
|
127 |
readEdgeMap("cost", c).
|
kpeter@2584
|
128 |
readEdgeMap("capacity", u).
|
kpeter@2584
|
129 |
readEdgeMap("lower1", l1).
|
kpeter@2584
|
130 |
readEdgeMap("lower2", l2).
|
kpeter@2584
|
131 |
readNodeMap("supply1", s1).
|
kpeter@2584
|
132 |
readNodeMap("supply2", s2).
|
kpeter@2584
|
133 |
readNodeMap("supply3", s3).
|
kpeter@2584
|
134 |
readNode("source", v).
|
kpeter@2584
|
135 |
readNode("target", w).
|
kpeter@2584
|
136 |
run();
|
kpeter@2584
|
137 |
input.close();
|
alpar@899
|
138 |
|
kpeter@2584
|
139 |
// Testing CapacityScaling (scaling enabled)
|
kpeter@2584
|
140 |
{
|
kpeter@2584
|
141 |
CapacityScaling<Graph> mcf1(gr,u,c,s1); checkMcf("#A1",mcf1,gr,l1,u,c,s1,mcf1.run(),true, 0);
|
kpeter@2584
|
142 |
CapacityScaling<Graph> mcf2(gr,u,c,s2); checkMcf("#A2",mcf2,gr,l1,u,c,s2,mcf2.run(),true, 5240);
|
kpeter@2584
|
143 |
CapacityScaling<Graph> mcf3(gr,u,c,v,w,27); checkMcf("#A3",mcf3,gr,l1,u,c,s3,mcf3.run(),true, 7620);
|
kpeter@2584
|
144 |
CapacityScaling<Graph> mcf4(gr,l2,u,c,s1); checkMcf("#A4",mcf4,gr,l2,u,c,s1,mcf4.run(),false, 0);
|
kpeter@2584
|
145 |
CapacityScaling<Graph> mcf5(gr,l2,u,c,s2); checkMcf("#A5",mcf5,gr,l2,u,c,s2,mcf5.run(),true, 5970);
|
kpeter@2584
|
146 |
CapacityScaling<Graph> mcf6(gr,l2,u,c,v,w,27); checkMcf("#A6",mcf6,gr,l2,u,c,s3,mcf6.run(),true, 8010);
|
kpeter@2584
|
147 |
}
|
kpeter@2584
|
148 |
// Testing CapacityScaling (scaling disabled)
|
kpeter@2584
|
149 |
{
|
kpeter@2584
|
150 |
CapacityScaling<Graph> mcf1(gr,u,c,s1); checkMcf("#B1",mcf1,gr,l1,u,c,s1,mcf1.run(false),true, 0);
|
kpeter@2584
|
151 |
CapacityScaling<Graph> mcf2(gr,u,c,s2); checkMcf("#B2",mcf2,gr,l1,u,c,s2,mcf2.run(false),true, 5240);
|
kpeter@2584
|
152 |
CapacityScaling<Graph> mcf3(gr,u,c,v,w,27); checkMcf("#B3",mcf3,gr,l1,u,c,s3,mcf3.run(false),true, 7620);
|
kpeter@2584
|
153 |
CapacityScaling<Graph> mcf4(gr,l2,u,c,s1); checkMcf("#B4",mcf4,gr,l2,u,c,s1,mcf4.run(false),false, 0);
|
kpeter@2584
|
154 |
CapacityScaling<Graph> mcf5(gr,l2,u,c,s2); checkMcf("#B5",mcf5,gr,l2,u,c,s2,mcf5.run(false),true, 5970);
|
kpeter@2584
|
155 |
CapacityScaling<Graph> mcf6(gr,l2,u,c,v,w,27); checkMcf("#B6",mcf6,gr,l2,u,c,s3,mcf6.run(false),true, 8010);
|
kpeter@2584
|
156 |
}
|
alpar@899
|
157 |
|
kpeter@2584
|
158 |
// Testing CostScaling
|
kpeter@2584
|
159 |
{
|
kpeter@2584
|
160 |
CostScaling<Graph> mcf1(gr,u,c,s1); checkMcf("#C1",mcf1,gr,l1,u,c,s1,mcf1.run(),true, 0);
|
kpeter@2584
|
161 |
CostScaling<Graph> mcf2(gr,u,c,s2); checkMcf("#C2",mcf2,gr,l1,u,c,s2,mcf2.run(),true, 5240);
|
kpeter@2584
|
162 |
CostScaling<Graph> mcf3(gr,u,c,v,w,27); checkMcf("#C3",mcf3,gr,l1,u,c,s3,mcf3.run(),true, 7620);
|
kpeter@2584
|
163 |
CostScaling<Graph> mcf4(gr,l2,u,c,s1); checkMcf("#C4",mcf4,gr,l2,u,c,s1,mcf4.run(),false, 0);
|
kpeter@2584
|
164 |
CostScaling<Graph> mcf5(gr,l2,u,c,s2); checkMcf("#C5",mcf5,gr,l2,u,c,s2,mcf5.run(),true, 5970);
|
kpeter@2584
|
165 |
CostScaling<Graph> mcf6(gr,l2,u,c,v,w,27); checkMcf("#C6",mcf6,gr,l2,u,c,s3,mcf6.run(),true, 8010);
|
kpeter@2584
|
166 |
}
|
alpar@899
|
167 |
|
kpeter@2584
|
168 |
// Testing NetworkSimplex (with the default pivot rule)
|
kpeter@2584
|
169 |
{
|
kpeter@2584
|
170 |
NetworkSimplex<Graph> mcf1(gr,u,c,s1); checkMcf("#D1",mcf1,gr,l1,u,c,s1,mcf1.run(),true, 0);
|
kpeter@2584
|
171 |
NetworkSimplex<Graph> mcf2(gr,u,c,s2); checkMcf("#D2",mcf2,gr,l1,u,c,s2,mcf2.run(),true, 5240);
|
kpeter@2584
|
172 |
NetworkSimplex<Graph> mcf3(gr,u,c,v,w,27); checkMcf("#D3",mcf3,gr,l1,u,c,s3,mcf3.run(),true, 7620);
|
kpeter@2584
|
173 |
NetworkSimplex<Graph> mcf4(gr,l2,u,c,s1); checkMcf("#D4",mcf4,gr,l2,u,c,s1,mcf4.run(),false, 0);
|
kpeter@2584
|
174 |
NetworkSimplex<Graph> mcf5(gr,l2,u,c,s2); checkMcf("#D5",mcf5,gr,l2,u,c,s2,mcf5.run(),true, 5970);
|
kpeter@2584
|
175 |
NetworkSimplex<Graph> mcf6(gr,l2,u,c,v,w,27); checkMcf("#D6",mcf6,gr,l2,u,c,s3,mcf6.run(),true, 8010);
|
kpeter@2584
|
176 |
}
|
kpeter@2584
|
177 |
// Testing NetworkSimplex (with FIRST_ELIGIBLE_PIVOT)
|
kpeter@2584
|
178 |
{
|
kpeter@2584
|
179 |
NetworkSimplex<Graph>::PivotRuleEnum pr = NetworkSimplex<Graph>::FIRST_ELIGIBLE_PIVOT;
|
kpeter@2584
|
180 |
NetworkSimplex<Graph> mcf1(gr,u,c,s1); checkMcf("#E1",mcf1,gr,l1,u,c,s1,mcf1.run(pr),true, 0);
|
kpeter@2584
|
181 |
NetworkSimplex<Graph> mcf2(gr,u,c,s2); checkMcf("#E2",mcf2,gr,l1,u,c,s2,mcf2.run(pr),true, 5240);
|
kpeter@2584
|
182 |
NetworkSimplex<Graph> mcf3(gr,u,c,v,w,27); checkMcf("#E3",mcf3,gr,l1,u,c,s3,mcf3.run(pr),true, 7620);
|
kpeter@2584
|
183 |
NetworkSimplex<Graph> mcf4(gr,l2,u,c,s1); checkMcf("#E4",mcf4,gr,l2,u,c,s1,mcf4.run(pr),false, 0);
|
kpeter@2584
|
184 |
NetworkSimplex<Graph> mcf5(gr,l2,u,c,s2); checkMcf("#E5",mcf5,gr,l2,u,c,s2,mcf5.run(pr),true, 5970);
|
kpeter@2584
|
185 |
NetworkSimplex<Graph> mcf6(gr,l2,u,c,v,w,27); checkMcf("#E6",mcf6,gr,l2,u,c,s3,mcf6.run(pr),true, 8010);
|
kpeter@2584
|
186 |
}
|
kpeter@2584
|
187 |
// Testing NetworkSimplex (with BEST_ELIGIBLE_PIVOT)
|
kpeter@2584
|
188 |
{
|
kpeter@2584
|
189 |
NetworkSimplex<Graph>::PivotRuleEnum pr = NetworkSimplex<Graph>::BEST_ELIGIBLE_PIVOT;
|
kpeter@2584
|
190 |
NetworkSimplex<Graph> mcf1(gr,u,c,s1); checkMcf("#F1",mcf1,gr,l1,u,c,s1,mcf1.run(pr),true, 0);
|
kpeter@2584
|
191 |
NetworkSimplex<Graph> mcf2(gr,u,c,s2); checkMcf("#F2",mcf2,gr,l1,u,c,s2,mcf2.run(pr),true, 5240);
|
kpeter@2584
|
192 |
NetworkSimplex<Graph> mcf3(gr,u,c,v,w,27); checkMcf("#F3",mcf3,gr,l1,u,c,s3,mcf3.run(pr),true, 7620);
|
kpeter@2584
|
193 |
NetworkSimplex<Graph> mcf4(gr,l2,u,c,s1); checkMcf("#F4",mcf4,gr,l2,u,c,s1,mcf4.run(pr),false, 0);
|
kpeter@2584
|
194 |
NetworkSimplex<Graph> mcf5(gr,l2,u,c,s2); checkMcf("#F5",mcf5,gr,l2,u,c,s2,mcf5.run(pr),true, 5970);
|
kpeter@2584
|
195 |
NetworkSimplex<Graph> mcf6(gr,l2,u,c,v,w,27); checkMcf("#F6",mcf6,gr,l2,u,c,s3,mcf6.run(pr),true, 8010);
|
kpeter@2584
|
196 |
}
|
kpeter@2584
|
197 |
// Testing NetworkSimplex (with BLOCK_SEARCH_PIVOT)
|
kpeter@2584
|
198 |
{
|
kpeter@2584
|
199 |
NetworkSimplex<Graph>::PivotRuleEnum pr = NetworkSimplex<Graph>::BLOCK_SEARCH_PIVOT;
|
kpeter@2584
|
200 |
NetworkSimplex<Graph> mcf1(gr,u,c,s1); checkMcf("#G1",mcf1,gr,l1,u,c,s1,mcf1.run(pr),true, 0);
|
kpeter@2584
|
201 |
NetworkSimplex<Graph> mcf2(gr,u,c,s2); checkMcf("#G2",mcf2,gr,l1,u,c,s2,mcf2.run(pr),true, 5240);
|
kpeter@2584
|
202 |
NetworkSimplex<Graph> mcf3(gr,u,c,v,w,27); checkMcf("#G3",mcf3,gr,l1,u,c,s3,mcf3.run(pr),true, 7620);
|
kpeter@2584
|
203 |
NetworkSimplex<Graph> mcf4(gr,l2,u,c,s1); checkMcf("#G4",mcf4,gr,l2,u,c,s1,mcf4.run(pr),false, 0);
|
kpeter@2584
|
204 |
NetworkSimplex<Graph> mcf5(gr,l2,u,c,s2); checkMcf("#G5",mcf5,gr,l2,u,c,s2,mcf5.run(pr),true, 5970);
|
kpeter@2584
|
205 |
NetworkSimplex<Graph> mcf6(gr,l2,u,c,v,w,27); checkMcf("#G6",mcf6,gr,l2,u,c,s3,mcf6.run(pr),true, 8010);
|
kpeter@2584
|
206 |
}
|
kpeter@2584
|
207 |
// Testing NetworkSimplex (with CANDIDATE_LIST_PIVOT)
|
kpeter@2584
|
208 |
{
|
kpeter@2584
|
209 |
NetworkSimplex<Graph>::PivotRuleEnum pr = NetworkSimplex<Graph>::CANDIDATE_LIST_PIVOT;
|
kpeter@2584
|
210 |
NetworkSimplex<Graph> mcf1(gr,u,c,s1); checkMcf("#I1",mcf1,gr,l1,u,c,s1,mcf1.run(pr),true, 0);
|
kpeter@2584
|
211 |
NetworkSimplex<Graph> mcf2(gr,u,c,s2); checkMcf("#I2",mcf2,gr,l1,u,c,s2,mcf2.run(pr),true, 5240);
|
kpeter@2584
|
212 |
NetworkSimplex<Graph> mcf3(gr,u,c,v,w,27); checkMcf("#I3",mcf3,gr,l1,u,c,s3,mcf3.run(pr),true, 7620);
|
kpeter@2584
|
213 |
NetworkSimplex<Graph> mcf4(gr,l2,u,c,s1); checkMcf("#I4",mcf4,gr,l2,u,c,s1,mcf4.run(pr),false, 0);
|
kpeter@2584
|
214 |
NetworkSimplex<Graph> mcf5(gr,l2,u,c,s2); checkMcf("#I5",mcf5,gr,l2,u,c,s2,mcf5.run(pr),true, 5970);
|
kpeter@2584
|
215 |
NetworkSimplex<Graph> mcf6(gr,l2,u,c,v,w,27); checkMcf("#I6",mcf6,gr,l2,u,c,s3,mcf6.run(pr),true, 8010);
|
kpeter@2584
|
216 |
}
|
kpeter@2621
|
217 |
// Testing NetworkSimplex (with ALTERING_LIST_PIVOT)
|
kpeter@2621
|
218 |
{
|
kpeter@2621
|
219 |
NetworkSimplex<Graph>::PivotRuleEnum pr = NetworkSimplex<Graph>::ALTERING_LIST_PIVOT;
|
kpeter@2621
|
220 |
NetworkSimplex<Graph> mcf1(gr,u,c,s1); checkMcf("#H1",mcf1,gr,l1,u,c,s1,mcf1.run(pr),true, 0);
|
kpeter@2621
|
221 |
NetworkSimplex<Graph> mcf2(gr,u,c,s2); checkMcf("#H2",mcf2,gr,l1,u,c,s2,mcf2.run(pr),true, 5240);
|
kpeter@2621
|
222 |
NetworkSimplex<Graph> mcf3(gr,u,c,v,w,27); checkMcf("#H3",mcf3,gr,l1,u,c,s3,mcf3.run(pr),true, 7620);
|
kpeter@2621
|
223 |
NetworkSimplex<Graph> mcf4(gr,l2,u,c,s1); checkMcf("#H4",mcf4,gr,l2,u,c,s1,mcf4.run(pr),false, 0);
|
kpeter@2621
|
224 |
NetworkSimplex<Graph> mcf5(gr,l2,u,c,s2); checkMcf("#H5",mcf5,gr,l2,u,c,s2,mcf5.run(pr),true, 5970);
|
kpeter@2621
|
225 |
NetworkSimplex<Graph> mcf6(gr,l2,u,c,v,w,27); checkMcf("#H6",mcf6,gr,l2,u,c,s3,mcf6.run(pr),true, 8010);
|
kpeter@2621
|
226 |
}
|
alpar@899
|
227 |
|
kpeter@2584
|
228 |
// Testing CycleCanceling (with BellmanFord)
|
kpeter@2584
|
229 |
{
|
kpeter@2584
|
230 |
CycleCanceling<Graph> mcf1(gr,u,c,s1); checkMcf("#J1",mcf1,gr,l1,u,c,s1,mcf1.run(),true, 0);
|
kpeter@2584
|
231 |
CycleCanceling<Graph> mcf2(gr,u,c,s2); checkMcf("#J2",mcf2,gr,l1,u,c,s2,mcf2.run(),true, 5240);
|
kpeter@2584
|
232 |
CycleCanceling<Graph> mcf3(gr,u,c,v,w,27); checkMcf("#J3",mcf3,gr,l1,u,c,s3,mcf3.run(),true, 7620);
|
kpeter@2584
|
233 |
CycleCanceling<Graph> mcf4(gr,l2,u,c,s1); checkMcf("#J4",mcf4,gr,l2,u,c,s1,mcf4.run(),false, 0);
|
kpeter@2584
|
234 |
CycleCanceling<Graph> mcf5(gr,l2,u,c,s2); checkMcf("#J5",mcf5,gr,l2,u,c,s2,mcf5.run(),true, 5970);
|
kpeter@2584
|
235 |
CycleCanceling<Graph> mcf6(gr,l2,u,c,v,w,27); checkMcf("#J6",mcf6,gr,l2,u,c,s3,mcf6.run(),true, 8010);
|
kpeter@2584
|
236 |
}
|
kpeter@2584
|
237 |
// Testing CycleCanceling (with MinMeanCycle)
|
kpeter@2584
|
238 |
{
|
kpeter@2584
|
239 |
CycleCanceling<Graph> mcf1(gr,u,c,s1); checkMcf("#K1",mcf1,gr,l1,u,c,s1,mcf1.run(true),true, 0);
|
kpeter@2584
|
240 |
CycleCanceling<Graph> mcf2(gr,u,c,s2); checkMcf("#K2",mcf2,gr,l1,u,c,s2,mcf2.run(true),true, 5240);
|
kpeter@2584
|
241 |
CycleCanceling<Graph> mcf3(gr,u,c,v,w,27); checkMcf("#K3",mcf3,gr,l1,u,c,s3,mcf3.run(true),true, 7620);
|
kpeter@2584
|
242 |
CycleCanceling<Graph> mcf4(gr,l2,u,c,s1); checkMcf("#K4",mcf4,gr,l2,u,c,s1,mcf4.run(true),false, 0);
|
kpeter@2584
|
243 |
CycleCanceling<Graph> mcf5(gr,l2,u,c,s2); checkMcf("#K5",mcf5,gr,l2,u,c,s2,mcf5.run(true),true, 5970);
|
kpeter@2584
|
244 |
CycleCanceling<Graph> mcf6(gr,l2,u,c,v,w,27); checkMcf("#K6",mcf6,gr,l2,u,c,s3,mcf6.run(true),true, 8010);
|
kpeter@2584
|
245 |
}
|
alpar@899
|
246 |
|
kpeter@2584
|
247 |
// Testing MinCostFlow
|
kpeter@2584
|
248 |
{
|
kpeter@2584
|
249 |
MinCostFlow<Graph> mcf1(gr,u,c,s1); checkMcf("#L1",mcf1,gr,l1,u,c,s1,mcf1.run(),true, 0);
|
kpeter@2584
|
250 |
MinCostFlow<Graph> mcf2(gr,u,c,s2); checkMcf("#L2",mcf2,gr,l1,u,c,s2,mcf2.run(),true, 5240);
|
kpeter@2584
|
251 |
MinCostFlow<Graph> mcf3(gr,u,c,v,w,27); checkMcf("#L3",mcf3,gr,l1,u,c,s3,mcf3.run(),true, 7620);
|
kpeter@2584
|
252 |
MinCostFlow<Graph> mcf4(gr,l2,u,c,s1); checkMcf("#L4",mcf4,gr,l2,u,c,s1,mcf4.run(),false, 0);
|
kpeter@2584
|
253 |
MinCostFlow<Graph> mcf5(gr,l2,u,c,s2); checkMcf("#L5",mcf5,gr,l2,u,c,s2,mcf5.run(),true, 5970);
|
kpeter@2584
|
254 |
MinCostFlow<Graph> mcf6(gr,l2,u,c,v,w,27); checkMcf("#L6",mcf6,gr,l2,u,c,s3,mcf6.run(),true, 8010);
|
kpeter@2584
|
255 |
}
|
alpar@899
|
256 |
|
kpeter@2584
|
257 |
// Testing MinCostMaxFlow
|
kpeter@2584
|
258 |
{
|
kpeter@2584
|
259 |
MinCostMaxFlow<Graph> mcmf(gr,u,c,v,w);
|
kpeter@2584
|
260 |
mcmf.run();
|
kpeter@2584
|
261 |
checkMcf("#M1",mcmf,gr,l1,u,c,s3,true,true,7620);
|
kpeter@2584
|
262 |
}
|
kpeter@2584
|
263 |
}
|
alpar@899
|
264 |
|
kpeter@2584
|
265 |
// Benchmark test on a DIMACS network
|
kpeter@2584
|
266 |
{
|
kpeter@2584
|
267 |
typedef SmartGraph Graph;
|
kpeter@2584
|
268 |
GRAPH_TYPEDEFS(SmartGraph);
|
alpar@899
|
269 |
|
kpeter@2584
|
270 |
// Reading the test graph
|
kpeter@2584
|
271 |
Graph graph;
|
kpeter@2584
|
272 |
Graph::EdgeMap<int> lower(graph), capacity(graph), cost(graph);
|
kpeter@2584
|
273 |
Graph::NodeMap<int> supply(graph);
|
alpar@899
|
274 |
|
kpeter@2584
|
275 |
std::string fname;
|
kpeter@2584
|
276 |
if(getenv("srcdir"))
|
kpeter@2584
|
277 |
fname = std::string(getenv("srcdir"));
|
kpeter@2584
|
278 |
else fname = ".";
|
kpeter@2584
|
279 |
fname += "/test/min_cost_flow_test.net";
|
marci@941
|
280 |
|
kpeter@2584
|
281 |
std::ifstream input(fname.c_str());
|
kpeter@2584
|
282 |
check(input, "Input file '" << fname << "' not found");
|
kpeter@2584
|
283 |
readDimacs(input, graph, lower, capacity, cost, supply);
|
kpeter@2584
|
284 |
input.close();
|
alpar@899
|
285 |
|
kpeter@2584
|
286 |
// NetworkSimplex
|
kpeter@2584
|
287 |
{
|
kpeter@2584
|
288 |
Timer t;
|
kpeter@2584
|
289 |
NetworkSimplex<Graph> mcf(graph, lower, capacity, cost, supply);
|
kpeter@2584
|
290 |
bool res = mcf.run();
|
kpeter@2584
|
291 |
t.stop();
|
kpeter@2584
|
292 |
checkMcf("#T3", mcf, graph, lower, capacity, cost, supply, res, true, 196587626);
|
kpeter@2584
|
293 |
std::cout << "NetworkSimplex";
|
kpeter@2584
|
294 |
std::cout << std::endl << t << std::endl;
|
kpeter@2584
|
295 |
}
|
kpeter@2584
|
296 |
// CapacityScaling
|
kpeter@2584
|
297 |
{
|
kpeter@2584
|
298 |
Timer t;
|
kpeter@2584
|
299 |
CapacityScaling<Graph> mcf(graph, lower, capacity, cost, supply);
|
kpeter@2584
|
300 |
bool res = mcf.run();
|
kpeter@2584
|
301 |
t.stop();
|
kpeter@2584
|
302 |
checkMcf("#T1", mcf, graph, lower, capacity, cost, supply, res, true, 196587626);
|
kpeter@2584
|
303 |
std::cout << "CapacityScaling";
|
kpeter@2584
|
304 |
std::cout << std::endl << t << std::endl;
|
kpeter@2584
|
305 |
}
|
kpeter@2584
|
306 |
// CostScaling
|
kpeter@2584
|
307 |
{
|
kpeter@2584
|
308 |
Timer t;
|
kpeter@2584
|
309 |
CostScaling<Graph> mcf(graph, lower, capacity, cost, supply);
|
kpeter@2584
|
310 |
bool res = mcf.run();
|
kpeter@2584
|
311 |
t.stop();
|
kpeter@2584
|
312 |
checkMcf("#T2", mcf, graph, lower, capacity, cost, supply, res, true, 196587626);
|
kpeter@2584
|
313 |
std::cout << "CostScaling";
|
kpeter@2584
|
314 |
std::cout << std::endl << t << std::endl;
|
kpeter@2584
|
315 |
}
|
kpeter@2584
|
316 |
// CycleCanceling
|
kpeter@2584
|
317 |
{
|
kpeter@2584
|
318 |
Timer t;
|
kpeter@2584
|
319 |
CycleCanceling<Graph> mcf(graph, lower, capacity, cost, supply);
|
kpeter@2584
|
320 |
bool res = mcf.run();
|
kpeter@2584
|
321 |
t.stop();
|
kpeter@2584
|
322 |
checkMcf("#T4", mcf, graph, lower, capacity, cost, supply, res, true, 196587626);
|
kpeter@2584
|
323 |
std::cout << "CycleCanceling";
|
kpeter@2584
|
324 |
std::cout << std::endl << t << std::endl;
|
kpeter@2584
|
325 |
}
|
kpeter@2584
|
326 |
}
|
alpar@899
|
327 |
|
kpeter@2584
|
328 |
return 0;
|
alpar@899
|
329 |
}
|