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// -*- mode:C++ -*-
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#include <lemon/smart_graph.h>
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#include <lemon/maps.h>
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#include <vector>
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#include <iostream>
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using namespace lemon;
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struct _BFS_DEFAULT_VIS {};
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struct _BFS_CUSTOM_VIS {};
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template<class GT,class VT,class DVT,class PNT,class PET,class PT >
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class _BFS
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{
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public:
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typedef GT Graph;
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typedef VT Visited;
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typedef PNT PredNode;
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typedef PET PredEdge;
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typedef PT Priority;
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// typedef QDT QueueData;
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typedef typename Graph::Node Node;
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typedef typename Graph::OutEdgeIt OutEdgeIt;
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typedef DVT DefaultVisitedTag;
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const Graph &_graph;
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Node _source;
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Visited *_visited;
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PredNode _predNode;
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PredEdge _predEdge;
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Priority _priority;
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_BFS(const Graph &g,
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Node s,
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Visited *v,
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PredNode &pn,
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PredEdge &pe,
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Priority &pr) :_graph(g), _source(s),
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_visited(v),
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_predNode(pn), _predEdge(pe), _priority(pr) { }
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int run(const _BFS_CUSTOM_VIS &)
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{
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using namespace std;
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int N=_graph.nodeNum();
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vector<Node> Q(N);
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int Qh=0;
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int Qt=0;
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for(typename Graph::NodeIt n(_graph);n!=INVALID;++n)
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_visited->set(n,false);
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Q[Qh++]=_source;
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_visited->set(_source,true);
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do {
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Node m;
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Node n=Q[Qt++];
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for(OutEdgeIt e(_graph,n);e!=INVALID;++e)
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if(!(*_visited)[m=_graph.head(e)]) {
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Q[Qh++]=m;
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_visited->set(m,true);
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_predNode.set(m,n);
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_predEdge.set(m,e);
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}
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} while(Qt!=Qh);
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return 1; //Why return 1?
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}
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int run(const _BFS_DEFAULT_VIS &)
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{
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_visited= new Visited(_graph);
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int r = run(_BFS_CUSTOM_VIS());
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delete _visited;
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return r;
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}
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int run() { return run(DefaultVisitedTag());}
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template<class T> _BFS<Graph,T,_BFS_CUSTOM_VIS,PredNode,PredEdge,Priority>
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setVisitMap(T &t)
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{
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return _BFS<Graph,T,_BFS_CUSTOM_VIS,PredNode,PredEdge,Priority>
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(_graph,_source,&t,_predNode,_predEdge,_priority);
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}
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template<class T>
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_BFS<Graph,Visited,DefaultVisitedTag,T,PredEdge,Priority>
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setPredNodeMap(T &t)
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{
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return _BFS<Graph,Visited,DefaultVisitedTag,T,PredEdge,Priority>
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(_graph,_source,
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_visited,
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t,_predEdge,_priority);
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}
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template<class T>
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_BFS<Graph,Visited,DefaultVisitedTag,PredNode,T,Priority>
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setPredEdgeMap(T &t)
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{
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return _BFS<Graph,Visited,DefaultVisitedTag,PredNode,T,Priority>
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(_graph,_source,
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_visited,
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_predNode,t,_priority);
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}
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_BFS<Graph,Visited,DefaultVisitedTag,PredNode,PredEdge,Priority>
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setNothing()
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{
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return _BFS<Graph,Visited,DefaultVisitedTag,PredNode,PredEdge,Priority>
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(_graph,_source,
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_visited,
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_predNode,_predEdge,_priority);
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}
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};
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template<class G>
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_BFS<G,
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typename G::template NodeMap<bool>,
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_BFS_DEFAULT_VIS,
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NullMap<typename G::Node,typename G::Node>,
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NullMap<typename G::Node,typename G::Edge>,
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NullMap<typename G::Node,int> >
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bfs(const G &g,typename G::Node s)
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{
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// typename G::template NodeMap<bool> v(g);
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return _BFS < G,
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typename G::template NodeMap<bool>,
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_BFS_DEFAULT_VIS,
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NullMap<typename G::Node,typename G::Node>,
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NullMap<typename G::Node,typename G::Edge>,
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NullMap<typename G::Node,int> >
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(g,s,
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(typename G::template NodeMap<bool>*)(NULL),
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*((NullMap<typename G::Node,typename G::Node>*)(NULL)),
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*((NullMap<typename G::Node,typename G::Edge> *)(NULL)),
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*((NullMap<typename G::Node,int> *)(NULL))
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);
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}
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class MyVisitedMap : public SmartGraph::NodeMap<bool>
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{
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const SmartGraph &_G;
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public:
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MyVisitedMap(const SmartGraph &G) : SmartGraph::NodeMap<bool>(G), _G(G) {}
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void set(SmartGraph::Node n,bool b)
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{
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SmartGraph::NodeMap<bool>::set(n,b);
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if(b) std::cout << _G.id(n) << std::endl;
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}
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};
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int main()
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{
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SmartGraph G;
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SmartGraph::Node s=G.addNode();
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SmartGraph::Node n1=G.addNode();
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SmartGraph::Node n2=G.addNode();
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SmartGraph::Node n3=G.addNode();
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SmartGraph::Node n4=G.addNode();
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SmartGraph::Node n5=G.addNode();
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SmartGraph::Node n6=G.addNode();
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SmartGraph::Node n7=G.addNode();
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G.addEdge(s,n1);G.addEdge(s,n3);G.addEdge(n1,n2);G.addEdge(n1,n3);
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G.addEdge(s,n4);G.addEdge(n4,n7);G.addEdge(n7,n6);G.addEdge(n4,n5);
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G.addEdge(n7,n2);G.addEdge(n6,n3);G.addEdge(n4,s);G.addEdge(n1,s);
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SmartGraph::NodeMap<SmartGraph::Node> m(G);
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SmartGraph::NodeMap<SmartGraph::Edge> em(G);
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MyVisitedMap vm(G);
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//Runs BFS on graph 'G' from node 's'.
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//(It practically does nothing, for it throws away its result.)
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bfs(G,s).run();
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//Runs BFS on graph 'G' from node 's'. Puts the predessor nodes to 'm'.
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bfs(G,s).setPredNodeMap(m).run();
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//Runs BFS on graph 'G' from node 's'.
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//Puts the predessor nodes to 'm' and the edges of the bfs tree to 'em'.
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bfs(G,s).setPredNodeMap(m).setPredEdgeMap(em).run();
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//Runs BFS on graph 'G' from node 's'.
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//It uses a scpecial 'visited map' that prints out the reached nodes.
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bfs(G,s).setVisitMap(vm).run();
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}
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