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// -*- c++ -*-
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#ifndef HUGO_DIMACS_H
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#define HUGO_DIMACS_H
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#include <iostream>
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#include <string>
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#include <vector>
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#include <hugo/maps.h>
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/// \ingroup misc
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/// \file
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/// \brief Dimacs file format reader.
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namespace hugo {
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/// \addtogroup misc
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/// @{
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/// Dimacs min cost flow reader function.
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/// This function reads a min cost flow instance from dimacs format,
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/// i.e. from dimacs files having a line starting with \c p \c "min".
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/// At the beginning \c g is cleared by \c g.clear(). The edge
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/// capacities are written to \c capacity, \c s and \c t are set to
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/// the source and the target nodes resp. and the cost of the edges
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/// are written to \c cost.
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///
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/// \author Marton Makai
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template<typename Graph, typename CapacityMap, typename CostMap>
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void readDimacs(std::istream& is, Graph &g, CapacityMap& capacity,
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typename Graph::Node &s, typename Graph::Node &t,
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CostMap& cost) {
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g.clear();
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typename CapacityMap::ValueType _cap;
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typename CostMap::ValueType _cost;
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char d;
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std::string problem;
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char c;
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int i, j;
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std::string str;
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int n, m;
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typename Graph::Edge e;
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std::vector<typename Graph::Node> nodes;
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while (is>>c) {
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switch (c) {
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case 'c': //comment
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getline(is, str);
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break;
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case 'p': //problem definition
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is >> problem >> n >> m;
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getline(is, str);
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nodes.resize(n+1);
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for (int k=1; k<=n; ++k) nodes[k]=g.addNode();
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break;
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case 'n': //node definition
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if (problem=="sp") { //shortest path problem
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is >> i;
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getline(is, str);
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s=nodes[i];
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}
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if (problem=="max" || problem=="min") { //((max) or (min cost)) flow problem
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is >> i >> d;
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getline(is, str);
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if (d=='s') s=nodes[i];
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if (d=='t') t=nodes[i];
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}
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break;
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case 'a':
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if ( problem == "max" || problem == "sp") {
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is >> i >> j >> _cap;
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getline(is, str);
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e=g.addEdge(nodes[i], nodes[j]);
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capacity.update();
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capacity.set(e, _cap);
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} else {
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if ( problem == "min" ) {
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is >> i >> j >> _cap >> _cost;
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getline(is, str);
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e=g.addEdge(nodes[i], nodes[j]);
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capacity.update();
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capacity.set(e, _cap);
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cost.update();
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cost.set(e, _cost);
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} else {
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is >> i >> j;
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getline(is, str);
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g.addEdge(nodes[i], nodes[j]);
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}
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}
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break;
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}
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}
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}
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/// Dimacs max flow reader function.
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/// This function reads a max flow instance from dimacs format,
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/// i.e. from dimacs files having a line starting with \c p \c
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/// "max". At the beginning \c g is cleared by \c g.clear(). The
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/// edge capacities are written to \c capacity and \c s and \c t are
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/// set to the source and the target nodes.
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///
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/// \author Marton Makai
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template<typename Graph, typename CapacityMap>
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void readDimacs(std::istream& is, Graph &g, CapacityMap& capacity,
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typename Graph::Node &s, typename Graph::Node &t) {
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NullMap<typename Graph::Edge, int> n;
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readDimacs(is, g, capacity, s, t, n);
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}
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/// Dimacs shortest path reader function.
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/// This function reads a shortest path instance from dimacs format,
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/// i.e. from dimacs files having a line starting with \c p \c "sp".
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/// At the beginning \c g is cleared by \c g.clear(). The edge
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/// capacities are written to \c capacity and \c s is set to the
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/// source node.
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///
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/// \author Marton Makai
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template<typename Graph, typename CapacityMap>
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void readDimacs(std::istream& is, Graph &g, CapacityMap& capacity,
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typename Graph::Node &s) {
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NullMap<typename Graph::Edge, int> n;
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readDimacs(is, g, capacity, s, s, n);
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}
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/// Dimacs capacitated graph reader function.
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/// This function reads an edge capacitated graph instance from
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/// dimacs format. At the beginning \c g is cleared by \c g.clear()
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/// and the edge capacities are written to \c capacity.
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///
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/// \author Marton Makai
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template<typename Graph, typename CapacityMap>
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void readDimacs(std::istream& is, Graph &g, CapacityMap& capacity) {
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typename Graph::Node u;
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NullMap<typename Graph::Edge, int> n;
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readDimacs(is, g, capacity, u, u, n);
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}
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/// Dimacs plain graph reader function.
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/// This function reads a graph without any designated nodes and
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/// maps from dimacs format, i.e. from dimacs files having a line
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/// starting with \c p \c "mat". At the beginning \c g is cleared
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/// by \c g.clear().
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///
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/// \author Marton Makai
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template<typename Graph>
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void readDimacs(std::istream& is, Graph &g) {
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typename Graph::Node u;
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NullMap<typename Graph::Edge, int> n;
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readDimacs(is, g, n, u, u, n);
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}
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/// write matching problem
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template<typename Graph>
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void writeDimacs(std::ostream& os, const Graph &g) {
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typedef typename Graph::NodeIt NodeIt;
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typedef typename Graph::EdgeIt EdgeIt;
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typename Graph::template NodeMap<int> nodes(g);
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os << "c matching problem" << std::endl;
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int i=1;
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NodeIt v;
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for(g.first(v); g.valid(v); g.next(v)) {
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nodes.set(v, i);
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++i;
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}
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os << "p mat " << g.nodeNum() << " " << g.edgeNum() << std::endl;
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EdgeIt e;
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for(g.first(e); g.valid(e); g.next(e)) {
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os << "a " << nodes[g.tail(e)] << " " << nodes[g.head(e)] << std::endl;
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}
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}
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/// @}
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} //namespace hugo
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#endif //HUGO_DIMACS_H
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// template<typename Graph, typename CapacityMap>
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// void readDimacsMaxFlow(std::istream& is, Graph &g,
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// typename Graph::Node &s, typename Graph::Node &t, CapacityMap& capacity) {
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// g.clear();
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// int cap;
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// char d;
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// std::string problem;
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// char c;
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// int i, j;
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// std::string str;
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// int n, m;
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// typename Graph::Edge e;
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// std::vector<typename Graph::Node> nodes;
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// while (is>>c) {
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// switch (c) {
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// case 'c': //comment
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// getline(is, str);
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// break;
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// case 'p': //problem definition
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// is >> problem >> n >> m;
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// getline(is, str);
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// nodes.resize(n+1);
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// for (int k=1; k<=n; ++k) nodes[k]=g.addNode();
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// break;
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// case 'n': //node definition
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// if (problem=="sp") { //shortest path problem
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// is >> i;
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// getline(is, str);
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// s=nodes[i];
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// }
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// if (problem=="max") { //max flow problem
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// is >> i >> d;
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// getline(is, str);
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// if (d=='s') s=nodes[i];
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// if (d=='t') t=nodes[i];
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// }
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// break;
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// case 'a':
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// is >> i >> j >> cap;
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// getline(is, str);
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// e=g.addEdge(nodes[i], nodes[j]);
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// capacity.update();
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// capacity.set(e, cap);
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// break;
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// }
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// }
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// }
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