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#include <iostream>
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#include <graph.h>
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#include <bfs.h>
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using namespace NEGRO;
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using namespace std;
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class IGraph
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{
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public:
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// struct NodeType {bfs_node_data<TestGraph> bfs;};
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struct NodeType {bool isVis;};
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vector<NodeType> nodes;
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class NodeIterator
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{
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public:
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IGraph *G;
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int n;
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NodeIterator &operator ++() { n++; return *this;}
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NodeType &operator *() const { return G->nodes[n];}
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NodeType *operator ->() const { return &(G->nodes[n]);}
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bool isValid() const {return n<=5000;}
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int Index() {return n;} //csak a kiirashoz kell
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NodeIterator() {}
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NodeIterator(IGraph &Gr) {G=&Gr;n=1;} //Bfs class prefer this.
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};
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void GetFirst(NodeIterator &i) {i.G=this;i.n=1;}
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class OutEdgeIterator
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{
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public:
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IGraph *G;
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int f,t;
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int gcd() { int a=f;int b=t;int c;while((c=a%b)) {a=b;b=c;} ; return b;}
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OutEdgeIterator &operator ++() {while(++t<=5000&&gcd()==1);return *this;}
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bool isValid() const {return t<=5000;}
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NodeIterator From() const {NodeIterator i; i.G=G;i.n=f;return i;}
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NodeIterator To() const {NodeIterator i; i.G=G;i.n=t;return i;}
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NodeIterator Anode() const {return From();}
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NodeIterator Bnode() const {return To();}
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OutEdgeIterator() {}
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OutEdgeIterator(IGraph &Gr,NodeIterator &n) //Bfs class prefer this.
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{G=&Gr;f=n.n;t=0;operator++();}
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};
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typedef OutEdgeIterator EdgeIterator;
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void GetFirst(OutEdgeIterator &i,const NodeIterator &n)
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{i.G=this;i.f=n.n;i.t=0;++i;}
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IGraph() : nodes(5001) {}
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};
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class IMaps_t
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{
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public:
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// class_element_map<IGraph::NodeIterator,
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// IGraph::NodeType,
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// bool,
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// &IGraph::NodeType::isVis> visited;
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struct _visited_map_t {
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typedef bool value_type;
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void Put(const IGraph::NodeIterator &n,const value_type &t) { n->isVis=t; }
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value_type Get(const IGraph::NodeIterator &n) const { return n->isVis; }
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void SetG(IGraph &G) {}
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} visited;
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struct _tree_map_t {
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typedef IGraph::EdgeIterator value_type;
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void Put(const IGraph::NodeIterator &n,const value_type &t)
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{ cout << t.From().Index() << "->" << t.To().Index() << '\n'; }
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void SetG(IGraph &G) {}
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} tree;
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do_nothing_map dist; //node->int (W)
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do_nothing_map priority; //node->int (W)
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};
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// New style bfs traits
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class BFS_T
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{
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public:
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typedef IGraph Graph;
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typedef IGraph::OutEdgeIterator SearchEdgeIterator;
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struct visited_map_t {
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typedef bool value_type;
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void Put(const IGraph::NodeIterator &n,const value_type &t) { n->isVis=t; }
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value_type Get(const IGraph::NodeIterator &n) const { return n->isVis; }
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void SetG(IGraph &G) {}
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};
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struct tree_map_t {
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typedef IGraph::EdgeIterator value_type;
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void Put(const IGraph::NodeIterator &n,const value_type &t)
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{ cout << t.From().Index() << "->" << t.To().Index() << '\n'; }
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void SetG(IGraph &G) {}
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};
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typedef do_nothing_map dist_map_t; //node->int (W)
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typedef do_nothing_map priority_map_t; //node->int (W)
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};
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int main()
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{
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IGraph IG;
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// //Function-syte calling
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// IMaps_t IMaps;
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// IGraph::NodeIterator in;
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// IG.GetFirst(in);
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// ++in;
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// bfs_fn(IG,in,IMaps);
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//Class-style calling:
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IGraph::NodeIterator in;
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IG.GetFirst(in);
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++in;
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Bfs<BFS_T> bfs;
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bfs.SetG(IG);
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bfs.Init(in);
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bfs.Run();
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}
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