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///\file |
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///\brief Demonstrating graph input and output |
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/// |
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/// This simple demo program gives an example of how to read and write |
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/// a graph and additional maps (on the nodes or the edges) from/to a |
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/// |
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/// This program gives an example of how to load a directed graph from |
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/// an \ref lgf-format "LGF" file with the \ref lemon::DigraphReader |
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/// "DigraphReader" class. |
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/// |
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/// \ |
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/// The \c "digraph.lgf" file: |
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/// \include digraph.lgf |
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/// |
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/// And the program which reads it: |
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/// \include lgf_demo.cc |
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#include <iostream> |
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#include <lemon/smart_graph.h> |
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@@ -35,119 +39,28 @@ |
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using namespace lemon; |
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int main(int argc, const char *argv[]) { |
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const int n = argc > 1 ? std::atoi(argv[1]) : 20; |
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const int e = argc > 2 ? std::atoi(argv[2]) : static_cast<int>(n * std::log(double(n))); |
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const int m = argc > 3 ? std::atoi(argv[3]) : 100; |
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int main() { |
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SmartDigraph g; |
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SmartDigraph::ArcMap<int> cap(g); |
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SmartDigraph::Node s, t; |
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digraphReader("digraph.lgf", g). // read the directeg graph into g |
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arcMap("capacity", cap). // read the 'capacity' arc map into cap |
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node("source", s). // read 'source' node to s |
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node("target", t). // read 'target' node to t |
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run(); |
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std:: |
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std::cout << "Digraph read from 'digraph.lgf'" << std::endl; |
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std::cout << "Number of nodes: " << countNodes(g) << std::endl; |
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std::cout << "Number of arcs: " << countArcs(g) << std::endl; |
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std::cout << "We can write it to the standard output:" << std::endl; |
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typedef SmartDigraph Digraph; |
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typedef Digraph::Node Node; |
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typedef Digraph::Arc Arc; |
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typedef Digraph::ArcIt ArcIt; |
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typedef Digraph::NodeMap<int> PotentialMap; |
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typedef Digraph::ArcMap<int> CapacityMap; |
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typedef Digraph::ArcMap<std::string> NameMap; |
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Digraph digraph; |
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PotentialMap potential(digraph); |
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CapacityMap capacity(digraph); |
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NameMap name(digraph); |
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std::vector<Node> nodes; |
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for (int i = 0; i < n; ++i) { |
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Node node = digraph.addNode(); |
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potential[node] = rnd[m]; |
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nodes.push_back(node); |
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} |
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std::vector<Arc> arcs; |
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for (int i = 0; i < e; ++i) { |
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int s = rnd[n]; |
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int t = rnd[n]; |
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int c = rnd[m]; |
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Arc arc = digraph.addArc(nodes[s], nodes[t]); |
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capacity[arc] = c; |
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std::ostringstream os; |
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os << "arc \t" << i << std::endl; |
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name[arc] = os.str(); |
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arcs.push_back(arc); |
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} |
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DigraphWriter<Digraph>(ss, digraph). |
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nodeMap("potential", potential). |
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arcMap("capacity", capacity). |
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arcMap("name", name). |
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node("source", nodes[0]). |
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node("target", nodes[1]). |
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arc("bottleneck", arcs[e / 2]). |
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attribute("creator", "lemon library"). |
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run(); |
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} catch (DataFormatError& error) { |
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std::cerr << error.what() << std::endl; |
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} |
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try { |
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typedef SmartDigraph Digraph; |
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typedef Digraph::Node Node; |
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typedef Digraph::Arc Arc; |
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typedef Digraph::ArcIt ArcIt; |
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typedef Digraph::NodeMap<int> LabelMap; |
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typedef Digraph::NodeMap<int> PotentialMap; |
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typedef Digraph::ArcMap<int> CapacityMap; |
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typedef Digraph::ArcMap<std::string> NameMap; |
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Digraph digraph; |
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LabelMap label(digraph); |
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PotentialMap potential(digraph); |
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CapacityMap capacity(digraph); |
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NameMap name(digraph); |
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Node s, t; |
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Arc a; |
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std::string creator; |
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for (int i = 0; i < n; ++i) { |
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Node node = digraph.addNode(); |
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label[node] = i; |
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} |
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DigraphReader<Digraph>(ss, digraph). |
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useNodes(label). |
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nodeMap("potential", potential). |
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arcMap("capacity", capacity). |
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arcMap("name", name). |
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node("source", s). |
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node("target", t). |
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arc("bottleneck", a). |
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attribute("creator", creator). |
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run(); |
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DigraphWriter<Digraph>(std::cout, digraph). |
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nodeMap("potential", potential). |
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arcMap("capacity", capacity). |
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arcMap("name", name). |
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node("source", s). |
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node("target", t). |
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arc("bottleneck", a). |
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attribute("creator", creator). |
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run(); |
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} catch (DataFormatError& error) { |
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std::cerr << error.what() << std::endl; |
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} |
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digraphWriter(std::cout, g). // write g to the standard output |
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arcMap("capacity", cap). // write cap into 'capacity' |
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node("source", s). // write s to 'source' |
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node("target", t). // write t to 'target' |
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run(); |
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return 0; |
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} |
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