marci@423
|
1 |
// -*- c++ -*-
|
marci@423
|
2 |
#ifndef HUGO_DIMACS_H
|
marci@423
|
3 |
#define HUGO_DIMACS_H
|
marci@423
|
4 |
|
marci@423
|
5 |
#include <iostream>
|
marci@423
|
6 |
#include <string>
|
marci@423
|
7 |
#include <vector>
|
marci@423
|
8 |
|
klao@442
|
9 |
/// \file
|
klao@442
|
10 |
/// \brief Dimacs file format reader.
|
klao@427
|
11 |
|
marci@423
|
12 |
namespace hugo {
|
marci@423
|
13 |
|
klao@427
|
14 |
/// Dimacs flow file format reader function.
|
marci@423
|
15 |
|
marci@423
|
16 |
/// This function reads a flow instance from dimacs flow format.
|
klao@427
|
17 |
/// At the beginning \c g is cleared by \c g.clear().
|
klao@427
|
18 |
/// If the data coming from \c is is a max flow problem instance, then
|
klao@427
|
19 |
/// \c s and \c t will be respectively the source and target nodes
|
marci@423
|
20 |
/// and \c capacity will contain the edge capacities.
|
klao@427
|
21 |
/// If the data is a shortest path problem instance then \c s will be the
|
klao@427
|
22 |
/// source node and \c capacity will contain the edge lengths.
|
marci@465
|
23 |
///
|
marci@465
|
24 |
///\author Marton Makai
|
marci@423
|
25 |
template<typename Graph, typename CapacityMap>
|
marci@423
|
26 |
void readDimacsMaxFlow(std::istream& is, Graph &g, typename Graph::Node &s, typename Graph::Node &t, CapacityMap& capacity) {
|
marci@423
|
27 |
g.clear();
|
marci@423
|
28 |
int cap;
|
marci@423
|
29 |
char d;
|
marci@423
|
30 |
std::string problem;
|
marci@423
|
31 |
char c;
|
marci@423
|
32 |
int i, j;
|
marci@423
|
33 |
std::string str;
|
marci@423
|
34 |
int n, m;
|
marci@423
|
35 |
typename Graph::Edge e;
|
marci@423
|
36 |
std::vector<typename Graph::Node> nodes;
|
marci@423
|
37 |
while (is>>c) {
|
marci@423
|
38 |
switch (c) {
|
marci@423
|
39 |
case 'c': //comment
|
marci@423
|
40 |
getline(is, str);
|
marci@423
|
41 |
break;
|
marci@423
|
42 |
case 'p': //problem definition
|
marci@423
|
43 |
is >> problem >> n >> m;
|
marci@423
|
44 |
getline(is, str);
|
marci@423
|
45 |
nodes.resize(n+1);
|
marci@423
|
46 |
for (int k=1; k<=n; ++k) nodes[k]=g.addNode();
|
marci@423
|
47 |
break;
|
marci@423
|
48 |
case 'n': //node definition
|
marci@423
|
49 |
if (problem=="sp") { //shortest path problem
|
marci@423
|
50 |
is >> i;
|
marci@423
|
51 |
getline(is, str);
|
marci@423
|
52 |
s=nodes[i];
|
marci@423
|
53 |
}
|
marci@423
|
54 |
if (problem=="max") { //max flow problem
|
marci@423
|
55 |
is >> i >> d;
|
marci@423
|
56 |
getline(is, str);
|
marci@423
|
57 |
if (d=='s') s=nodes[i];
|
marci@423
|
58 |
if (d=='t') t=nodes[i];
|
marci@423
|
59 |
}
|
marci@423
|
60 |
break;
|
marci@423
|
61 |
case 'a':
|
marci@423
|
62 |
is >> i >> j >> cap;
|
marci@423
|
63 |
getline(is, str);
|
marci@423
|
64 |
e=g.addEdge(nodes[i], nodes[j]);
|
marci@423
|
65 |
capacity.update();
|
marci@423
|
66 |
capacity.set(e, cap);
|
marci@423
|
67 |
break;
|
marci@423
|
68 |
}
|
marci@423
|
69 |
}
|
marci@423
|
70 |
}
|
marci@423
|
71 |
|
marci@423
|
72 |
} //namespace hugo
|
marci@423
|
73 |
|
marci@423
|
74 |
#endif //HUGO_DIMACS_H
|