Easy input-output function for common graphs.
Modified Exception handling in graph_reader.
2 #ifndef LEMON_MIN_COST_GEN_FLOW_H
3 #define LEMON_MIN_COST_GEN_FLOW_H
7 #include <lemon/smart_graph.h>
8 #include <lemon/list_graph.h>
9 //#include <lemon/dimacs.h>
10 //#include <lemon/time_measure.h>
11 //#include <graph_wrapper.h>
12 #include <lemon/preflow.h>
13 #include <lemon/min_cost_flow.h>
14 //#include <augmenting_flow.h>
15 //#include <preflow_res.h>
16 #include <work/marci/merge_node_graph_wrapper.h>
17 #include <work/marci/lp/lp_solver_wrapper_3.h>
21 template<typename Edge, typename EdgeIndexMap>
25 EdgeIndexMap* edge_index_map;
27 PrimalMap(LPGLPK& _lp, EdgeIndexMap& _edge_index_map) :
28 lp(&_lp), edge_index_map(&_edge_index_map) { }
29 double operator[](Edge e) const {
30 return lp->getPrimal((*edge_index_map)[e]);
34 // excess: rho-delta egyelore csak =0-ra.
35 template <typename Graph, typename Num,
36 typename Excess=typename Graph::template NodeMap<Num>,
37 typename LCapMap=typename Graph::template EdgeMap<Num>,
38 typename CapMap=typename Graph::template EdgeMap<Num>,
39 typename FlowMap=typename Graph::template EdgeMap<Num>,
40 typename CostMap=typename Graph::template EdgeMap<Num> >
41 class MinCostGenFlow {
45 const LCapMap& lcapacity;
46 const CapMap& capacity;
50 MinCostGenFlow(const Graph& _g, const Excess& _excess,
51 const LCapMap& _lcapacity, const CapMap& _capacity,
53 const CostMap& _cost) :
54 g(_g), excess(_excess), lcapacity(_lcapacity),
55 capacity(_capacity), flow(_flow), cost(_cost) { }
57 // std::cout << "making new vertices..." << std::endl;
58 typedef ListGraph Graph2;
60 typedef MergeEdgeGraphWrapper<const Graph, Graph2> GW;
61 // std::cout << "merging..." << std::endl;
63 typename GW::Node s(INVALID, g2.addNode(), true);
64 typename GW::Node t(INVALID, g2.addNode(), true);
65 typedef SmartGraph Graph3;
66 // std::cout << "making extender graph..." << std::endl;
67 typedef NewEdgeSetGraphWrapper2<GW, Graph3> GWW;
69 // checkConcept<StaticGraph, GWW>();
72 typedef AugmentingGraphWrapper<GW, GWW> GWWW;
75 // std::cout << "making new edges..." << std::endl;
76 typename GWWW::template EdgeMap<Num> translated_cap(gwww);
78 for (typename GW::EdgeIt e(gw); e!=INVALID; ++e) {
79 translated_cap.set(typename GWWW::Edge(e,INVALID,false),
80 capacity[e]-lcapacity[e]);
81 // cout << "t_cap " << gw.id(e) << " "
82 // << translated_cap[typename GWWW::Edge(e,INVALID,false)] << endl;
87 // std::cout << "making new edges 2..." << std::endl;
88 for (typename Graph::NodeIt n(g); n!=INVALID; ++n) {
90 for (typename Graph::InEdgeIt e(g, n); e!=INVALID; ++e)
92 for (typename Graph::OutEdgeIt e(g, n); e!=INVALID; ++e)
96 gww.addEdge(typename GW::Node(n,INVALID,false), t);
97 translated_cap.set(typename GWWW::Edge(INVALID, e, true),
99 // std::cout << g.id(n) << "->t " << excess[n]-a << std::endl;
102 typename GWW::Edge e=
103 gww.addEdge(s, typename GW::Node(n,INVALID,false));
104 translated_cap.set(typename GWWW::Edge(INVALID, e, true),
106 expected+=a-excess[n];
107 // std::cout << "s->" << g.id(n) << " "<< a-excess[n] <<std:: endl;
111 // std::cout << "preflow..." << std::endl;
112 typename GWWW::template EdgeMap<Num> translated_flow(gwww, 0);
113 Preflow<GWWW, Num> preflow(gwww, s, t,
114 translated_cap, translated_flow);
116 // std::cout << "fv: " << preflow.flowValue() << std::endl;
117 // std::cout << "expected: " << expected << std::endl;
119 for (typename Graph::EdgeIt e(g); e!=INVALID; ++e) {
120 typename GW::Edge ew(e, INVALID, false);
121 typename GWWW::Edge ewww(ew, INVALID, false);
122 flow.set(e, translated_flow[ewww]+lcapacity[e]);
124 return (preflow.flowValue()>=expected);
126 // for nonnegative costs
128 // std::cout << "making new vertices..." << std::endl;
129 typedef ListGraph Graph2;
131 typedef MergeEdgeGraphWrapper<const Graph, Graph2> GW;
132 // std::cout << "merging..." << std::endl;
134 typename GW::Node s(INVALID, g2.addNode(), true);
135 typename GW::Node t(INVALID, g2.addNode(), true);
136 typedef SmartGraph Graph3;
137 // std::cout << "making extender graph..." << std::endl;
138 typedef NewEdgeSetGraphWrapper2<GW, Graph3> GWW;
140 // checkConcept<StaticGraph, GWW>();
143 typedef AugmentingGraphWrapper<GW, GWW> GWWW;
146 // std::cout << "making new edges..." << std::endl;
147 typename GWWW::template EdgeMap<Num> translated_cap(gwww);
149 for (typename Graph::EdgeIt e(g); e!=INVALID; ++e) {
150 typename GW::Edge ew(e, INVALID, false);
151 typename GWWW::Edge ewww(ew, INVALID, false);
152 translated_cap.set(ewww, capacity[e]-lcapacity[e]);
153 // cout << "t_cap " << g.id(e) << " "
154 // << translated_cap[ewww] << endl;
159 // std::cout << "making new edges 2..." << std::endl;
160 for (typename Graph::NodeIt n(g); n!=INVALID; ++n) {
161 // std::cout << "node: " << g.id(n) << std::endl;
163 for (typename Graph::InEdgeIt e(g, n); e!=INVALID; ++e) {
165 // std::cout << "bee: " << g.id(e) << " " << lcapacity[e] << std::endl;
167 for (typename Graph::OutEdgeIt e(g, n); e!=INVALID; ++e) {
169 // std::cout << "kie: " << g.id(e) << " " << lcapacity[e] << std::endl;
171 // std::cout << "excess " << g.id(n) << ": " << a << std::endl;
173 typename GWW::Edge e=
174 gww.addEdge(typename GW::Node(n,INVALID,false), t);
175 translated_cap.set(typename GWWW::Edge(INVALID, e, true),
177 // std::cout << g.id(n) << "->t " << -a << std::endl;
180 typename GWW::Edge e=
181 gww.addEdge(s, typename GW::Node(n,INVALID,false));
182 translated_cap.set(typename GWWW::Edge(INVALID, e, true),
185 // std::cout << "s->" << g.id(n) << " "<< a <<std:: endl;
189 // std::cout << "preflow..." << std::endl;
190 typename GWWW::template EdgeMap<Num> translated_cost(gwww, 0);
191 for (typename Graph::EdgeIt e(g); e!=INVALID; ++e) {
192 translated_cost.set(typename GWWW::Edge(
193 typename GW::Edge(e, INVALID, false), INVALID, false), cost[e]);
195 // typename GWWW::template EdgeMap<Num> translated_flow(gwww, 0);
196 MinCostFlow<GWWW, typename GWWW::template EdgeMap<Num>,
197 typename GWWW::template EdgeMap<Num> >
198 min_cost_flow(gwww, translated_cost, translated_cap,
200 while (min_cost_flow.augment()) { }
201 std::cout << "fv: " << min_cost_flow.flowValue() << std::endl;
202 std::cout << "expected: " << expected << std::endl;
204 for (typename Graph::EdgeIt e(g); e!=INVALID; ++e) {
205 typename GW::Edge ew(e, INVALID, false);
206 typename GWWW::Edge ewww(ew, INVALID, false);
207 // std::cout << g.id(e) << " " << flow[e] << std::endl;
208 flow.set(e, lcapacity[e]+
209 min_cost_flow.getFlow()[ewww]);
211 return (min_cost_flow.flowValue()>=expected);
214 typedef LPGLPK LPSolver;
217 typedef LPSolver::ColIt ColIt;
218 typedef LPSolver::RowIt RowIt;
219 typedef typename Graph::template EdgeMap<ColIt> EdgeIndexMap;
220 EdgeIndexMap edge_index_map(g);
221 PrimalMap<typename Graph::Edge, EdgeIndexMap> lp_flow(lp, edge_index_map);
222 for (typename Graph::EdgeIt e(g); e!=INVALID; ++e) {
223 ColIt col_it=lp.addCol();
224 edge_index_map.set(e, col_it);
225 if (lcapacity[e]==capacity[e])
226 lp.setColBounds(col_it, LPSolver::FIXED, lcapacity[e], capacity[e]);
228 lp.setColBounds(col_it, LPSolver::DOUBLE, lcapacity[e], capacity[e]);
229 lp.setObjCoef(col_it, cost[e]);
231 LPSolver::ColIt col_it;
232 for (lp.col_iter_map.first(col_it, lp.VALID_CLASS);
233 lp.col_iter_map.valid(col_it);
234 lp.col_iter_map.next(col_it)) {
235 // std::cout << "ize " << lp.col_iter_map[col_it] << std::endl;
237 for (typename Graph::NodeIt n(g); n!=INVALID; ++n) {
238 typename Graph::template EdgeMap<Num> coeffs(g, 0);
239 for (typename Graph::InEdgeIt e(g, n); e!=INVALID; ++e)
240 coeffs.set(e, coeffs[e]+1);
241 for (typename Graph::OutEdgeIt e(g, n); e!=INVALID; ++e)
242 coeffs.set(e, coeffs[e]-1);
243 RowIt row_it=lp.addRow();
244 typename std::vector< std::pair<ColIt, double> > row;
245 //std::cout << "node:" <<g.id(n)<<std::endl;
246 for (typename Graph::EdgeIt e(g); e!=INVALID; ++e) {
248 //std::cout << " edge:" <<g.id(e)<<" "<<coeffs[e];
249 row.push_back(std::make_pair(edge_index_map[e], coeffs[e]));
252 //std::cout << std::endl;
253 //std::cout << " " << g.id(n) << " " << row.size() << std::endl;
254 lp.setRowCoeffs(row_it, row.begin(), row.end());
255 lp.setRowBounds(row_it, LPSolver::FIXED, 0.0, 0.0);
258 //std::cout << lp.colNum() << std::endl;
259 //std::cout << lp.rowNum() << std::endl;
260 //std::cout << "flow value: "<< lp.getObjVal() << std::endl;
261 for (typename Graph::EdgeIt e(g); e!=INVALID; ++e)
262 flow.set(e, lp_flow[e]);
268 #endif //LEMON_MIN_COST_GEN_FLOW_H