src/work/marci/oldies/bfs_iterator.hh
author athos
Tue, 04 May 2004 16:52:15 +0000
changeset 530 d9c06ac0b3a3
permissions -rw-r--r--
Minimum cost flows of small values: algorithm from Andras Frank's lecture notes (approximately)
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#ifndef BFS_ITERATOR_HH
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#define BFS_ITERATOR_HH
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#include <queue>
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#include <stack>
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#include <utility>
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#include <graph_wrapper.h>
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namespace hugo {
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  template <typename Graph>
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  struct bfs {
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    typedef typename Graph::NodeIt NodeIt;
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    typedef typename Graph::EdgeIt EdgeIt;
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    typedef typename Graph::EachNodeIt EachNodeIt;
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    typedef typename Graph::OutEdgeIt OutEdgeIt;
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    Graph& G;
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    NodeIt s;
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    typename Graph::NodeMap<bool> reached;
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    typename Graph::NodeMap<EdgeIt> pred;
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    typename Graph::NodeMap<int> dist;
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    std::queue<NodeIt> bfs_queue;
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    bfs(Graph& _G, NodeIt _s) : G(_G), s(_s), reached(_G), pred(_G), dist(_G) { 
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      bfs_queue.push(s); 
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      for(EachNodeIt i=G.template first<EachNodeIt>(); i.valid(); ++i) 
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	reached.set(i, false);
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      reached.set(s, true);
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      dist.set(s, 0); 
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    }
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    void run() {
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      while (!bfs_queue.empty()) {
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	NodeIt v=bfs_queue.front();
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	OutEdgeIt e=G.template first<OutEdgeIt>(v);
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	bfs_queue.pop();
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	for( ; e.valid(); ++e) {
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	  NodeIt w=G.bNode(e);
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	  std::cout << "scan node " << G.id(w) << " from node " << G.id(v) << std::endl;
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	  if (!reached.get(w)) {
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	    std::cout << G.id(w) << " is newly reached :-)" << std::endl;
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	    bfs_queue.push(w);
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	    dist.set(w, dist.get(v)+1);
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	    pred.set(w, e);
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	    reached.set(w, true);
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	  } else {
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	    std::cout << G.id(w) << " is already reached" << std::endl;
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	  }
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	}
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      }
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    }
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  };
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  template <typename Graph> 
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  struct bfs_visitor {
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    typedef typename Graph::NodeIt NodeIt;
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    typedef typename Graph::EdgeIt EdgeIt;
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    typedef typename Graph::OutEdgeIt OutEdgeIt;
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    Graph& G;
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    bfs_visitor(Graph& _G) : G(_G) { }
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    void at_previously_reached(OutEdgeIt& e) { 
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      //NodeIt v=G.aNode(e);
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      NodeIt w=G.bNode(e);
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      std::cout << G.id(w) << " is already reached" << std::endl;
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   }
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    void at_newly_reached(OutEdgeIt& e) { 
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      //NodeIt v=G.aNode(e);
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      NodeIt w=G.bNode(e);
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      std::cout << G.id(w) << " is newly reached :-)" << std::endl;
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    }
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  };
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  template <typename Graph, typename ReachedMap, typename visitor_type>
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  struct bfs_iterator {
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    typedef typename Graph::NodeIt NodeIt;
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    typedef typename Graph::EdgeIt EdgeIt;
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    typedef typename Graph::OutEdgeIt OutEdgeIt;
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    Graph& G;
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    std::queue<OutEdgeIt>& bfs_queue;
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    ReachedMap& reached;
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    visitor_type& visitor;
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    void process() {
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      while ( !bfs_queue.empty() && !bfs_queue.front().valid() ) { bfs_queue.pop(); } 
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      if (bfs_queue.empty()) return;
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      OutEdgeIt e=bfs_queue.front();
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      //NodeIt v=G.aNode(e);
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      NodeIt w=G.bNode(e);
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      if (!reached.get(w)) {
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	visitor.at_newly_reached(e);
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	bfs_queue.push(G.template first<OutEdgeIt>(w));
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	reached.set(w, true);
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      } else {
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	visitor.at_previously_reached(e);
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      }
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    }
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    bfs_iterator(Graph& _G, std::queue<OutEdgeIt>& _bfs_queue, ReachedMap& _reached, visitor_type& _visitor) : G(_G), bfs_queue(_bfs_queue), reached(_reached), visitor(_visitor) { 
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      //while ( !bfs_queue.empty() && !bfs_queue.front().valid() ) { bfs_queue.pop(); } 
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      valid();
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    }
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    bfs_iterator<Graph, ReachedMap, visitor_type>& operator++() { 
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      //while ( !bfs_queue.empty() && !bfs_queue.front().valid() ) { bfs_queue.pop(); } 
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      //if (bfs_queue.empty()) return *this;
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      if (!valid()) return *this;
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      ++(bfs_queue.front());
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      //while ( !bfs_queue.empty() && !bfs_queue.front().valid() ) { bfs_queue.pop(); } 
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      valid();
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      return *this;
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    }
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    //void next() { 
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    //  while ( !bfs_queue.empty() && !bfs_queue.front().valid() ) { bfs_queue.pop(); } 
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    //  if (bfs_queue.empty()) return;
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    //  ++(bfs_queue.front());
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    //  while ( !bfs_queue.empty() && !bfs_queue.front().valid() ) { bfs_queue.pop(); } 
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    //}
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    bool valid() { 
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      while ( !bfs_queue.empty() && !bfs_queue.front().valid() ) { bfs_queue.pop(); } 
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      if (bfs_queue.empty()) return false; else return true;
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    }
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    //bool finished() { 
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    //  while ( !bfs_queue.empty() && !bfs_queue.front().valid() ) { bfs_queue.pop(); } 
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    //  if (bfs_queue.empty()) return true; else return false;
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    //}
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    operator EdgeIt () { return bfs_queue.front(); }
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  };
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  template <typename Graph, typename ReachedMap>
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  struct bfs_iterator1 {
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    typedef typename Graph::NodeIt NodeIt;
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    typedef typename Graph::EdgeIt EdgeIt;
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    typedef typename Graph::OutEdgeIt OutEdgeIt;
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    Graph& G;
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    std::queue<OutEdgeIt>& bfs_queue;
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    ReachedMap& reached;
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    bool _newly_reached;
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    bfs_iterator1(Graph& _G, std::queue<OutEdgeIt>& _bfs_queue, ReachedMap& _reached) : G(_G), bfs_queue(_bfs_queue), reached(_reached) { 
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      valid();
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      if (!bfs_queue.empty() && bfs_queue.front().valid()) { 
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	OutEdgeIt e=bfs_queue.front();
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	NodeIt w=G.bNode(e);
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	if (!reached.get(w)) {
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	  bfs_queue.push(G.template first<OutEdgeIt>(w));
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	  reached.set(w, true);
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	  _newly_reached=true;
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	} else {
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	  _newly_reached=false;
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	}
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      }
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    }
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    bfs_iterator1<Graph, ReachedMap>& operator++() { 
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      if (!valid()) return *this;
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      ++(bfs_queue.front());
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      valid();
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      if (!bfs_queue.empty() && bfs_queue.front().valid()) { 
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	OutEdgeIt e=bfs_queue.front();
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	NodeIt w=G.bNode(e);
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	if (!reached.get(w)) {
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	  bfs_queue.push(G.template first<OutEdgeIt>(w));
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	  reached.set(w, true);
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	  _newly_reached=true;
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	} else {
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	  _newly_reached=false;
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	}
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      }
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      return *this;
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    }
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    bool valid() { 
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      while ( !bfs_queue.empty() && !bfs_queue.front().valid() ) { bfs_queue.pop(); } 
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      if (bfs_queue.empty()) return false; else return true;
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    }
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    operator OutEdgeIt() { return bfs_queue.front(); }
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    //ize
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    bool newly_reached() { return _newly_reached; }
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  };
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  template <typename Graph, typename OutEdgeIt, typename ReachedMap>
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  struct BfsIterator {
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    typedef typename Graph::NodeIt NodeIt;
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    Graph& G;
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    std::queue<OutEdgeIt>& bfs_queue;
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    ReachedMap& reached;
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    bool b_node_newly_reached;
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    OutEdgeIt actual_edge;
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    BfsIterator(Graph& _G, 
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		std::queue<OutEdgeIt>& _bfs_queue, 
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		ReachedMap& _reached) : 
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      G(_G), bfs_queue(_bfs_queue), reached(_reached) { 
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      actual_edge=bfs_queue.front();
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      if (actual_edge.valid()) { 
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	NodeIt w=G.bNode(actual_edge);
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	if (!reached.get(w)) {
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	  bfs_queue.push(G.firstOutEdge(w));
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	  reached.set(w, true);
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	  b_node_newly_reached=true;
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	} else {
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	  b_node_newly_reached=false;
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	}
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      }
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    }
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    BfsIterator<Graph, OutEdgeIt, ReachedMap>& 
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    operator++() { 
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      if (bfs_queue.front().valid()) { 
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	++(bfs_queue.front());
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	actual_edge=bfs_queue.front();
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	if (actual_edge.valid()) {
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	  NodeIt w=G.bNode(actual_edge);
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	  if (!reached.get(w)) {
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	    bfs_queue.push(G.firstOutEdge(w));
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	    reached.set(w, true);
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	    b_node_newly_reached=true;
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	  } else {
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	    b_node_newly_reached=false;
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	  }
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	}
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      } else {
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	bfs_queue.pop(); 
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	actual_edge=bfs_queue.front();
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	if (actual_edge.valid()) {
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	  NodeIt w=G.bNode(actual_edge);
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	  if (!reached.get(w)) {
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	    bfs_queue.push(G.firstOutEdge(w));
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	    reached.set(w, true);
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	    b_node_newly_reached=true;
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	  } else {
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	    b_node_newly_reached=false;
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	  }
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	}
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      }
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      return *this;
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    }
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    bool finished() { return bfs_queue.empty(); }
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    operator OutEdgeIt () { return actual_edge; }
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    bool bNodeIsNewlyReached() { return b_node_newly_reached; }
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    bool aNodeIsExamined() { return !(actual_edge.valid()); }
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  };
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  template <typename Graph, typename OutEdgeIt, typename ReachedMap>
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  struct DfsIterator {
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    typedef typename Graph::NodeIt NodeIt;
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    Graph& G;
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    std::stack<OutEdgeIt>& bfs_queue;
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    ReachedMap& reached;
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    bool b_node_newly_reached;
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    OutEdgeIt actual_edge;
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    DfsIterator(Graph& _G, 
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		std::stack<OutEdgeIt>& _bfs_queue, 
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		ReachedMap& _reached) : 
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      G(_G), bfs_queue(_bfs_queue), reached(_reached) { 
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      actual_edge=bfs_queue.top();
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      if (actual_edge.valid()) { 
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	NodeIt w=G.bNode(actual_edge);
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	if (!reached.get(w)) {
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	  bfs_queue.push(G.firstOutEdge(w));
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	  reached.set(w, true);
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	  b_node_newly_reached=true;
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	} else {
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	  ++(bfs_queue.top());
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	  b_node_newly_reached=false;
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	}
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      } else {
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	bfs_queue.pop();
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      }
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    }
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    DfsIterator<Graph, OutEdgeIt, ReachedMap>& 
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    operator++() { 
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      actual_edge=bfs_queue.top();
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      if (actual_edge.valid()) { 
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	NodeIt w=G.bNode(actual_edge);
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	if (!reached.get(w)) {
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	  bfs_queue.push(G.firstOutEdge(w));
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	  reached.set(w, true);
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	  b_node_newly_reached=true;
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	} else {
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	  ++(bfs_queue.top());
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	  b_node_newly_reached=false;
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	}
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      } else {
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	bfs_queue.pop();
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      }
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      return *this;
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    }
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    bool finished() { return bfs_queue.empty(); }
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    operator OutEdgeIt () { return actual_edge; }
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    bool bNodeIsNewlyReached() { return b_node_newly_reached; }
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    bool aNodeIsExamined() { return !(actual_edge.valid()); }
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  };
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  template <typename Graph, typename OutEdgeIt, typename ReachedMap>
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  struct BfsIterator1 {
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    typedef typename Graph::NodeIt NodeIt;
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    Graph& G;
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    std::queue<OutEdgeIt>& bfs_queue;
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    ReachedMap& reached;
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    bool b_node_newly_reached;
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    OutEdgeIt actual_edge;
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    BfsIterator1(Graph& _G, 
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		std::queue<OutEdgeIt>& _bfs_queue, 
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		ReachedMap& _reached) : 
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      G(_G), bfs_queue(_bfs_queue), reached(_reached) { 
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      actual_edge=bfs_queue.front();
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      if (actual_edge.valid()) { 
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      	NodeIt w=G.bNode(actual_edge);
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	if (!reached.get(w)) {
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	  bfs_queue.push(OutEdgeIt(G, w));
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	  reached.set(w, true);
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	  b_node_newly_reached=true;
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	} else {
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	  b_node_newly_reached=false;
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	}
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      }
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    }
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    void next() { 
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      if (bfs_queue.front().valid()) { 
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	++(bfs_queue.front());
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	actual_edge=bfs_queue.front();
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	if (actual_edge.valid()) {
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	  NodeIt w=G.bNode(actual_edge);
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	  if (!reached.get(w)) {
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	    bfs_queue.push(OutEdgeIt(G, w));
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	    reached.set(w, true);
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	    b_node_newly_reached=true;
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	  } else {
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	    b_node_newly_reached=false;
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	  }
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	}
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      } else {
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	bfs_queue.pop(); 
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	actual_edge=bfs_queue.front();
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	if (actual_edge.valid()) {
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	  NodeIt w=G.bNode(actual_edge);
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	  if (!reached.get(w)) {
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	    bfs_queue.push(OutEdgeIt(G, w));
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	    reached.set(w, true);
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	    b_node_newly_reached=true;
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	  } else {
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	    b_node_newly_reached=false;
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	  }
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	}
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      }
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      //return *this;
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    }
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    bool finished() { return bfs_queue.empty(); }
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    operator OutEdgeIt () { return actual_edge; }
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   345
    bool bNodeIsNewlyReached() { return b_node_newly_reached; }
marci@280
   346
    bool aNodeIsExamined() { return !(actual_edge.valid()); }
marci@280
   347
  };
marci@280
   348
marci@280
   349
marci@280
   350
  template <typename Graph, typename OutEdgeIt, typename ReachedMap>
marci@280
   351
  struct DfsIterator1 {
marci@280
   352
    typedef typename Graph::NodeIt NodeIt;
marci@280
   353
    Graph& G;
marci@280
   354
    std::stack<OutEdgeIt>& bfs_queue;
marci@280
   355
    ReachedMap& reached;
marci@280
   356
    bool b_node_newly_reached;
marci@280
   357
    OutEdgeIt actual_edge;
marci@280
   358
    DfsIterator1(Graph& _G, 
marci@280
   359
		std::stack<OutEdgeIt>& _bfs_queue, 
marci@280
   360
		ReachedMap& _reached) : 
marci@280
   361
      G(_G), bfs_queue(_bfs_queue), reached(_reached) { 
marci@280
   362
      //actual_edge=bfs_queue.top();
marci@280
   363
      //if (actual_edge.valid()) { 
marci@280
   364
      //	NodeIt w=G.bNode(actual_edge);
marci@280
   365
      //if (!reached.get(w)) {
marci@280
   366
      //  bfs_queue.push(OutEdgeIt(G, w));
marci@280
   367
      //  reached.set(w, true);
marci@280
   368
      //  b_node_newly_reached=true;
marci@280
   369
      //} else {
marci@280
   370
      //  ++(bfs_queue.top());
marci@280
   371
      //  b_node_newly_reached=false;
marci@280
   372
      //}
marci@280
   373
      //} else {
marci@280
   374
      //	bfs_queue.pop();
marci@280
   375
      //}
marci@280
   376
    }
marci@280
   377
    void next() { 
marci@280
   378
      actual_edge=bfs_queue.top();
marci@280
   379
      if (actual_edge.valid()) { 
marci@280
   380
	NodeIt w=G.bNode(actual_edge);
marci@280
   381
	if (!reached.get(w)) {
marci@280
   382
	  bfs_queue.push(OutEdgeIt(G, w));
marci@280
   383
	  reached.set(w, true);
marci@280
   384
	  b_node_newly_reached=true;
marci@280
   385
	} else {
marci@280
   386
	  ++(bfs_queue.top());
marci@280
   387
	  b_node_newly_reached=false;
marci@280
   388
	}
marci@280
   389
      } else {
marci@280
   390
	bfs_queue.pop();
marci@280
   391
      }
marci@280
   392
      //return *this;
marci@280
   393
    }
marci@280
   394
    bool finished() { return bfs_queue.empty(); }
marci@280
   395
    operator OutEdgeIt () { return actual_edge; }
marci@280
   396
    bool bNodeIsNewlyReached() { return b_node_newly_reached; }
marci@280
   397
    bool aNodeIsLeaved() { return !(actual_edge.valid()); }
marci@280
   398
  };
marci@280
   399
marci@280
   400
  template <typename Graph, typename OutEdgeIt, typename ReachedMap>
marci@280
   401
  class BfsIterator2 {
marci@280
   402
    typedef typename Graph::NodeIt NodeIt;
marci@280
   403
    const Graph& G;
marci@280
   404
    std::queue<OutEdgeIt> bfs_queue;
marci@280
   405
    ReachedMap reached;
marci@280
   406
    bool b_node_newly_reached;
marci@280
   407
    OutEdgeIt actual_edge;
marci@280
   408
  public:
marci@280
   409
    BfsIterator2(const Graph& _G) : G(_G), reached(G, false) { }
marci@280
   410
    void pushAndSetReached(NodeIt s) { 
marci@280
   411
      reached.set(s, true);
marci@280
   412
      if (bfs_queue.empty()) {
marci@280
   413
	bfs_queue.push(G.template first<OutEdgeIt>(s));
marci@280
   414
	actual_edge=bfs_queue.front();
marci@280
   415
	if (actual_edge.valid()) { 
marci@280
   416
	  NodeIt w=G.bNode(actual_edge);
marci@280
   417
	  if (!reached.get(w)) {
marci@280
   418
	    bfs_queue.push(G.template first<OutEdgeIt>(w));
marci@280
   419
	    reached.set(w, true);
marci@280
   420
	    b_node_newly_reached=true;
marci@280
   421
	  } else {
marci@280
   422
	    b_node_newly_reached=false;
marci@280
   423
	  }
marci@280
   424
	} //else {
marci@280
   425
	//}
marci@280
   426
      } else {
marci@280
   427
	bfs_queue.push(G.template first<OutEdgeIt>(s));
marci@280
   428
      }
marci@280
   429
    }
marci@280
   430
    BfsIterator2<Graph, OutEdgeIt, ReachedMap>& 
marci@280
   431
    operator++() { 
marci@280
   432
      if (bfs_queue.front().valid()) { 
marci@280
   433
	++(bfs_queue.front());
marci@280
   434
	actual_edge=bfs_queue.front();
marci@280
   435
	if (actual_edge.valid()) {
marci@280
   436
	  NodeIt w=G.bNode(actual_edge);
marci@280
   437
	  if (!reached.get(w)) {
marci@280
   438
	    bfs_queue.push(G.template first<OutEdgeIt>(w));
marci@280
   439
	    reached.set(w, true);
marci@280
   440
	    b_node_newly_reached=true;
marci@280
   441
	  } else {
marci@280
   442
	    b_node_newly_reached=false;
marci@280
   443
	  }
marci@280
   444
	}
marci@280
   445
      } else {
marci@280
   446
	bfs_queue.pop(); 
marci@280
   447
	if (!bfs_queue.empty()) {
marci@280
   448
	  actual_edge=bfs_queue.front();
marci@280
   449
	  if (actual_edge.valid()) {
marci@280
   450
	    NodeIt w=G.bNode(actual_edge);
marci@280
   451
	    if (!reached.get(w)) {
marci@280
   452
	      bfs_queue.push(G.template first<OutEdgeIt>(w));
marci@280
   453
	      reached.set(w, true);
marci@280
   454
	      b_node_newly_reached=true;
marci@280
   455
	    } else {
marci@280
   456
	      b_node_newly_reached=false;
marci@280
   457
	    }
marci@280
   458
	  }
marci@280
   459
	}
marci@280
   460
      }
marci@280
   461
      return *this;
marci@280
   462
    }
marci@280
   463
    bool finished() const { return bfs_queue.empty(); }
marci@280
   464
    operator OutEdgeIt () const { return actual_edge; }
marci@280
   465
    bool isBNodeNewlyReached() const { return b_node_newly_reached; }
marci@280
   466
    bool isANodeExamined() const { return !(actual_edge.valid()); }
marci@280
   467
    const ReachedMap& getReachedMap() const { return reached; }
marci@280
   468
    const std::queue<OutEdgeIt>& getBfsQueue() const { return bfs_queue; }
marci@280
   469
 };
marci@280
   470
marci@280
   471
marci@280
   472
  template <typename Graph, typename OutEdgeIt, typename ReachedMap>
marci@280
   473
  class BfsIterator3 {
marci@280
   474
    typedef typename Graph::NodeIt NodeIt;
marci@280
   475
    const Graph& G;
marci@280
   476
    std::queue< std::pair<NodeIt, OutEdgeIt> > bfs_queue;
marci@280
   477
    ReachedMap reached;
marci@280
   478
    bool b_node_newly_reached;
marci@280
   479
    OutEdgeIt actual_edge;
marci@280
   480
  public:
marci@280
   481
    BfsIterator3(const Graph& _G) : G(_G), reached(G, false) { }
marci@280
   482
    void pushAndSetReached(NodeIt s) { 
marci@280
   483
      reached.set(s, true);
marci@280
   484
      if (bfs_queue.empty()) {
marci@280
   485
	bfs_queue.push(std::pair<NodeIt, OutEdgeIt>(s, G.template first<OutEdgeIt>(s)));
marci@280
   486
	actual_edge=bfs_queue.front().second;
marci@280
   487
	if (actual_edge.valid()) { 
marci@280
   488
	  NodeIt w=G.bNode(actual_edge);
marci@280
   489
	  if (!reached.get(w)) {
marci@280
   490
	    bfs_queue.push(std::pair<NodeIt, OutEdgeIt>(w, G.template first<OutEdgeIt>(w)));
marci@280
   491
	    reached.set(w, true);
marci@280
   492
	    b_node_newly_reached=true;
marci@280
   493
	  } else {
marci@280
   494
	    b_node_newly_reached=false;
marci@280
   495
	  }
marci@280
   496
	} //else {
marci@280
   497
	//}
marci@280
   498
      } else {
marci@280
   499
	bfs_queue.push(std::pair<NodeIt, OutEdgeIt>(s, G.template first<OutEdgeIt>(s)));
marci@280
   500
      }
marci@280
   501
    }
marci@280
   502
    BfsIterator3<Graph, OutEdgeIt, ReachedMap>& 
marci@280
   503
    operator++() { 
marci@280
   504
      if (bfs_queue.front().second.valid()) { 
marci@280
   505
	++(bfs_queue.front().second);
marci@280
   506
	actual_edge=bfs_queue.front().second;
marci@280
   507
	if (actual_edge.valid()) {
marci@280
   508
	  NodeIt w=G.bNode(actual_edge);
marci@280
   509
	  if (!reached.get(w)) {
marci@280
   510
	    bfs_queue.push(std::pair<NodeIt, OutEdgeIt>(w, G.template first<OutEdgeIt>(w)));
marci@280
   511
	    reached.set(w, true);
marci@280
   512
	    b_node_newly_reached=true;
marci@280
   513
	  } else {
marci@280
   514
	    b_node_newly_reached=false;
marci@280
   515
	  }
marci@280
   516
	}
marci@280
   517
      } else {
marci@280
   518
	bfs_queue.pop(); 
marci@280
   519
	if (!bfs_queue.empty()) {
marci@280
   520
	  actual_edge=bfs_queue.front().second;
marci@280
   521
	  if (actual_edge.valid()) {
marci@280
   522
	    NodeIt w=G.bNode(actual_edge);
marci@280
   523
	    if (!reached.get(w)) {
marci@280
   524
	      bfs_queue.push(std::pair<NodeIt, OutEdgeIt>(w, G.template first<OutEdgeIt>(w)));
marci@280
   525
	      reached.set(w, true);
marci@280
   526
	      b_node_newly_reached=true;
marci@280
   527
	    } else {
marci@280
   528
	      b_node_newly_reached=false;
marci@280
   529
	    }
marci@280
   530
	  }
marci@280
   531
	}
marci@280
   532
      }
marci@280
   533
      return *this;
marci@280
   534
    }
marci@280
   535
    bool finished() const { return bfs_queue.empty(); }
marci@280
   536
    operator OutEdgeIt () const { return actual_edge; }
marci@280
   537
    bool isBNodeNewlyReached() const { return b_node_newly_reached; }
marci@280
   538
    bool isANodeExamined() const { return !(actual_edge.valid()); }
marci@280
   539
    NodeIt aNode() const { return bfs_queue.front().first; }
marci@280
   540
    NodeIt bNode() const { return G.bNode(actual_edge); }
marci@280
   541
    const ReachedMap& getReachedMap() const { return reached; }
marci@280
   542
    //const std::queue< std::pair<NodeIt, OutEdgeIt> >& getBfsQueue() const { return bfs_queue; }
marci@280
   543
 };
marci@280
   544
marci@280
   545
marci@280
   546
  template <typename Graph, typename OutEdgeIt, 
marci@280
   547
	    typename ReachedMap/*=typename Graph::NodeMap<bool>*/ >
marci@280
   548
  class BfsIterator4 {
marci@280
   549
    typedef typename Graph::NodeIt NodeIt;
marci@280
   550
    const Graph& G;
marci@280
   551
    std::queue<NodeIt> bfs_queue;
marci@280
   552
    ReachedMap& reached;
marci@280
   553
    bool b_node_newly_reached;
marci@280
   554
    OutEdgeIt actual_edge;
marci@280
   555
    bool own_reached_map;
marci@280
   556
  public:
marci@280
   557
    BfsIterator4(const Graph& _G, ReachedMap& _reached) : 
marci@280
   558
      G(_G), reached(_reached), 
marci@280
   559
      own_reached_map(false) { }
marci@280
   560
    BfsIterator4(const Graph& _G) : 
marci@280
   561
      G(_G), reached(*(new ReachedMap(G /*, false*/))), 
marci@280
   562
      own_reached_map(true) { }
marci@280
   563
    ~BfsIterator4() { if (own_reached_map) delete &reached; }
marci@280
   564
    void pushAndSetReached(NodeIt s) { 
marci@280
   565
      //std::cout << "mimi" << &reached << std::endl;
marci@280
   566
      reached.set(s, true);
marci@280
   567
      //std::cout << "mumus" << std::endl;
marci@280
   568
      if (bfs_queue.empty()) {
marci@280
   569
	//std::cout << "bibi1" << std::endl;
marci@280
   570
	bfs_queue.push(s);
marci@280
   571
	//std::cout << "zizi" << std::endl;
marci@280
   572
	G.getFirst(actual_edge, s);
marci@280
   573
	//std::cout << "kiki" << std::endl;
marci@280
   574
	if (G.valid(actual_edge)/*.valid()*/) { 
marci@280
   575
	  NodeIt w=G.bNode(actual_edge);
marci@280
   576
	  if (!reached.get(w)) {
marci@280
   577
	    bfs_queue.push(w);
marci@280
   578
	    reached.set(w, true);
marci@280
   579
	    b_node_newly_reached=true;
marci@280
   580
	  } else {
marci@280
   581
	    b_node_newly_reached=false;
marci@280
   582
	  }
marci@280
   583
	} 
marci@280
   584
      } else {
marci@280
   585
	//std::cout << "bibi2" << std::endl;
marci@280
   586
	bfs_queue.push(s);
marci@280
   587
      }
marci@280
   588
    }
marci@280
   589
    BfsIterator4<Graph, OutEdgeIt, ReachedMap>& 
marci@280
   590
    operator++() { 
marci@280
   591
      if (G.valid(actual_edge)/*.valid()*/) { 
marci@280
   592
	/*++*/G.next(actual_edge);
marci@280
   593
	if (G.valid(actual_edge)/*.valid()*/) {
marci@280
   594
	  NodeIt w=G.bNode(actual_edge);
marci@280
   595
	  if (!reached.get(w)) {
marci@280
   596
	    bfs_queue.push(w);
marci@280
   597
	    reached.set(w, true);
marci@280
   598
	    b_node_newly_reached=true;
marci@280
   599
	  } else {
marci@280
   600
	    b_node_newly_reached=false;
marci@280
   601
	  }
marci@280
   602
	}
marci@280
   603
      } else {
marci@280
   604
	bfs_queue.pop(); 
marci@280
   605
	if (!bfs_queue.empty()) {
marci@280
   606
	  G.getFirst(actual_edge, bfs_queue.front());
marci@280
   607
	  if (G.valid(actual_edge)/*.valid()*/) {
marci@280
   608
	    NodeIt w=G.bNode(actual_edge);
marci@280
   609
	    if (!reached.get(w)) {
marci@280
   610
	      bfs_queue.push(w);
marci@280
   611
	      reached.set(w, true);
marci@280
   612
	      b_node_newly_reached=true;
marci@280
   613
	    } else {
marci@280
   614
	      b_node_newly_reached=false;
marci@280
   615
	    }
marci@280
   616
	  }
marci@280
   617
	}
marci@280
   618
      }
marci@280
   619
      return *this;
marci@280
   620
    }
marci@280
   621
    bool finished() const { return bfs_queue.empty(); }
marci@280
   622
    operator OutEdgeIt () const { return actual_edge; }
marci@280
   623
    bool isBNodeNewlyReached() const { return b_node_newly_reached; }
marci@280
   624
    bool isANodeExamined() const { return !(G.valid(actual_edge)/*.valid()*/); }
marci@280
   625
    NodeIt aNode() const { return bfs_queue.front(); }
marci@280
   626
    NodeIt bNode() const { return G.bNode(actual_edge); }
marci@280
   627
    const ReachedMap& getReachedMap() const { return reached; }
marci@280
   628
    const std::queue<NodeIt>& getBfsQueue() const { return bfs_queue; }
marci@280
   629
 };  
marci@280
   630
marci@280
   631
marci@280
   632
  template <typename GraphWrapper, /*typename OutEdgeIt,*/ 
marci@280
   633
	    typename ReachedMap/*=typename GraphWrapper::NodeMap<bool>*/ >
marci@280
   634
  class BfsIterator5 {
marci@280
   635
    typedef typename GraphWrapper::NodeIt NodeIt;
marci@280
   636
    typedef typename GraphWrapper::OutEdgeIt OutEdgeIt;
marci@280
   637
    GraphWrapper G;
marci@280
   638
    std::queue<NodeIt> bfs_queue;
marci@280
   639
    ReachedMap& reached;
marci@280
   640
    bool b_node_newly_reached;
marci@280
   641
    OutEdgeIt actual_edge;
marci@280
   642
    bool own_reached_map;
marci@280
   643
  public:
marci@280
   644
    BfsIterator5(const GraphWrapper& _G, ReachedMap& _reached) : 
marci@280
   645
      G(_G), reached(_reached), 
marci@280
   646
      own_reached_map(false) { }
marci@280
   647
    BfsIterator5(const GraphWrapper& _G) : 
marci@280
   648
      G(_G), reached(*(new ReachedMap(G /*, false*/))), 
marci@280
   649
      own_reached_map(true) { }
marci@280
   650
//     BfsIterator5(const typename GraphWrapper::BaseGraph& _G, 
marci@280
   651
// 		 ReachedMap& _reached) : 
marci@280
   652
//       G(_G), reached(_reached), 
marci@280
   653
//       own_reached_map(false) { }
marci@280
   654
//     BfsIterator5(const typename GraphWrapper::BaseGraph& _G) : 
marci@280
   655
//       G(_G), reached(*(new ReachedMap(G /*, false*/))), 
marci@280
   656
//       own_reached_map(true) { }
marci@280
   657
    ~BfsIterator5() { if (own_reached_map) delete &reached; }
marci@280
   658
    void pushAndSetReached(NodeIt s) { 
marci@280
   659
      reached.set(s, true);
marci@280
   660
      if (bfs_queue.empty()) {
marci@280
   661
	bfs_queue.push(s);
marci@280
   662
	G.getFirst(actual_edge, s);
marci@280
   663
	if (G.valid(actual_edge)/*.valid()*/) { 
marci@280
   664
	  NodeIt w=G.bNode(actual_edge);
marci@280
   665
	  if (!reached.get(w)) {
marci@280
   666
	    bfs_queue.push(w);
marci@280
   667
	    reached.set(w, true);
marci@280
   668
	    b_node_newly_reached=true;
marci@280
   669
	  } else {
marci@280
   670
	    b_node_newly_reached=false;
marci@280
   671
	  }
marci@280
   672
	} 
marci@280
   673
      } else {
marci@280
   674
	bfs_queue.push(s);
marci@280
   675
      }
marci@280
   676
    }
marci@280
   677
    BfsIterator5<GraphWrapper, /*OutEdgeIt,*/ ReachedMap>& 
marci@280
   678
    operator++() { 
marci@280
   679
      if (G.valid(actual_edge)/*.valid()*/) { 
marci@280
   680
	/*++*/G.next(actual_edge);
marci@280
   681
	if (G.valid(actual_edge)/*.valid()*/) {
marci@280
   682
	  NodeIt w=G.bNode(actual_edge);
marci@280
   683
	  if (!reached.get(w)) {
marci@280
   684
	    bfs_queue.push(w);
marci@280
   685
	    reached.set(w, true);
marci@280
   686
	    b_node_newly_reached=true;
marci@280
   687
	  } else {
marci@280
   688
	    b_node_newly_reached=false;
marci@280
   689
	  }
marci@280
   690
	}
marci@280
   691
      } else {
marci@280
   692
	bfs_queue.pop(); 
marci@280
   693
	if (!bfs_queue.empty()) {
marci@280
   694
	  G.getFirst(actual_edge, bfs_queue.front());
marci@280
   695
	  if (G.valid(actual_edge)/*.valid()*/) {
marci@280
   696
	    NodeIt w=G.bNode(actual_edge);
marci@280
   697
	    if (!reached.get(w)) {
marci@280
   698
	      bfs_queue.push(w);
marci@280
   699
	      reached.set(w, true);
marci@280
   700
	      b_node_newly_reached=true;
marci@280
   701
	    } else {
marci@280
   702
	      b_node_newly_reached=false;
marci@280
   703
	    }
marci@280
   704
	  }
marci@280
   705
	}
marci@280
   706
      }
marci@280
   707
      return *this;
marci@280
   708
    }
marci@280
   709
    bool finished() const { return bfs_queue.empty(); }
marci@280
   710
    operator OutEdgeIt () const { return actual_edge; }
marci@280
   711
    bool isBNodeNewlyReached() const { return b_node_newly_reached; }
marci@280
   712
    bool isANodeExamined() const { return !(G.valid(actual_edge)/*.valid()*/); }
marci@280
   713
    NodeIt aNode() const { return bfs_queue.front(); }
marci@280
   714
    NodeIt bNode() const { return G.bNode(actual_edge); }
marci@280
   715
    const ReachedMap& getReachedMap() const { return reached; }
marci@280
   716
    const std::queue<NodeIt>& getBfsQueue() const { return bfs_queue; }
marci@280
   717
  };  
marci@280
   718
marci@280
   719
  template <typename Graph, typename OutEdgeIt, 
marci@280
   720
	    typename ReachedMap/*=typename Graph::NodeMap<bool>*/ >
marci@280
   721
  class DfsIterator4 {
marci@280
   722
    typedef typename Graph::NodeIt NodeIt;
marci@280
   723
    const Graph& G;
marci@280
   724
    std::stack<OutEdgeIt> dfs_stack;
marci@280
   725
    bool b_node_newly_reached;
marci@280
   726
    OutEdgeIt actual_edge;
marci@280
   727
    NodeIt actual_node;
marci@280
   728
    ReachedMap& reached;
marci@280
   729
    bool own_reached_map;
marci@280
   730
  public:
marci@280
   731
    DfsIterator4(const Graph& _G, ReachedMap& _reached) : 
marci@280
   732
      G(_G), reached(_reached), 
marci@280
   733
      own_reached_map(false) { }
marci@280
   734
    DfsIterator4(const Graph& _G) : 
marci@280
   735
      G(_G), reached(*(new ReachedMap(G /*, false*/))), 
marci@280
   736
      own_reached_map(true) { }
marci@280
   737
    ~DfsIterator4() { if (own_reached_map) delete &reached; }
marci@280
   738
    void pushAndSetReached(NodeIt s) { 
marci@280
   739
      actual_node=s;
marci@280
   740
      reached.set(s, true);
marci@280
   741
      dfs_stack.push(G.template first<OutEdgeIt>(s)); 
marci@280
   742
    }
marci@280
   743
    DfsIterator4<Graph, OutEdgeIt, ReachedMap>& 
marci@280
   744
    operator++() { 
marci@280
   745
      actual_edge=dfs_stack.top();
marci@280
   746
      //actual_node=G.aNode(actual_edge);
marci@280
   747
      if (G.valid(actual_edge)/*.valid()*/) { 
marci@280
   748
	NodeIt w=G.bNode(actual_edge);
marci@280
   749
	actual_node=w;
marci@280
   750
	if (!reached.get(w)) {
marci@280
   751
	  dfs_stack.push(G.template first<OutEdgeIt>(w));
marci@280
   752
	  reached.set(w, true);
marci@280
   753
	  b_node_newly_reached=true;
marci@280
   754
	} else {
marci@280
   755
	  actual_node=G.aNode(actual_edge);
marci@280
   756
	  /*++*/G.next(dfs_stack.top());
marci@280
   757
	  b_node_newly_reached=false;
marci@280
   758
	}
marci@280
   759
      } else {
marci@280
   760
	//actual_node=G.aNode(dfs_stack.top());
marci@280
   761
	dfs_stack.pop();
marci@280
   762
      }
marci@280
   763
      return *this;
marci@280
   764
    }
marci@280
   765
    bool finished() const { return dfs_stack.empty(); }
marci@280
   766
    operator OutEdgeIt () const { return actual_edge; }
marci@280
   767
    bool isBNodeNewlyReached() const { return b_node_newly_reached; }
marci@280
   768
    bool isANodeExamined() const { return !(G.valid(actual_edge)/*.valid()*/); }
marci@280
   769
    NodeIt aNode() const { return actual_node; /*FIXME*/}
marci@280
   770
    NodeIt bNode() const { return G.bNode(actual_edge); }
marci@280
   771
    const ReachedMap& getReachedMap() const { return reached; }
marci@280
   772
    const std::stack<OutEdgeIt>& getDfsStack() const { return dfs_stack; }
marci@280
   773
  };
marci@280
   774
marci@280
   775
  template <typename GraphWrapper, /*typename OutEdgeIt,*/ 
marci@280
   776
	    typename ReachedMap/*=typename GraphWrapper::NodeMap<bool>*/ >
marci@280
   777
  class DfsIterator5 {
marci@280
   778
    typedef typename GraphWrapper::NodeIt NodeIt;
marci@280
   779
    typedef typename GraphWrapper::OutEdgeIt OutEdgeIt;
marci@280
   780
    GraphWrapper G;
marci@280
   781
    std::stack<OutEdgeIt> dfs_stack;
marci@280
   782
    bool b_node_newly_reached;
marci@280
   783
    OutEdgeIt actual_edge;
marci@280
   784
    NodeIt actual_node;
marci@280
   785
    ReachedMap& reached;
marci@280
   786
    bool own_reached_map;
marci@280
   787
  public:
marci@280
   788
    DfsIterator5(const GraphWrapper& _G, ReachedMap& _reached) : 
marci@280
   789
      G(_G), reached(_reached), 
marci@280
   790
      own_reached_map(false) { }
marci@280
   791
    DfsIterator5(const GraphWrapper& _G) : 
marci@280
   792
      G(_G), reached(*(new ReachedMap(G /*, false*/))), 
marci@280
   793
      own_reached_map(true) { }
marci@280
   794
    ~DfsIterator5() { if (own_reached_map) delete &reached; }
marci@280
   795
    void pushAndSetReached(NodeIt s) { 
marci@280
   796
      actual_node=s;
marci@280
   797
      reached.set(s, true);
marci@280
   798
      dfs_stack.push(G.template first<OutEdgeIt>(s)); 
marci@280
   799
    }
marci@280
   800
    DfsIterator5<GraphWrapper, /*OutEdgeIt,*/ ReachedMap>& 
marci@280
   801
    operator++() { 
marci@280
   802
      actual_edge=dfs_stack.top();
marci@280
   803
      //actual_node=G.aNode(actual_edge);
marci@280
   804
      if (G.valid(actual_edge)/*.valid()*/) { 
marci@280
   805
	NodeIt w=G.bNode(actual_edge);
marci@280
   806
	actual_node=w;
marci@280
   807
	if (!reached.get(w)) {
marci@280
   808
	  dfs_stack.push(G.template first<OutEdgeIt>(w));
marci@280
   809
	  reached.set(w, true);
marci@280
   810
	  b_node_newly_reached=true;
marci@280
   811
	} else {
marci@280
   812
	  actual_node=G.aNode(actual_edge);
marci@280
   813
	  /*++*/G.next(dfs_stack.top());
marci@280
   814
	  b_node_newly_reached=false;
marci@280
   815
	}
marci@280
   816
      } else {
marci@280
   817
	//actual_node=G.aNode(dfs_stack.top());
marci@280
   818
	dfs_stack.pop();
marci@280
   819
      }
marci@280
   820
      return *this;
marci@280
   821
    }
marci@280
   822
    bool finished() const { return dfs_stack.empty(); }
marci@280
   823
    operator OutEdgeIt () const { return actual_edge; }
marci@280
   824
    bool isBNodeNewlyReached() const { return b_node_newly_reached; }
marci@280
   825
    bool isANodeExamined() const { return !(G.valid(actual_edge)/*.valid()*/); }
marci@280
   826
    NodeIt aNode() const { return actual_node; /*FIXME*/}
marci@280
   827
    NodeIt bNode() const { return G.bNode(actual_edge); }
marci@280
   828
    const ReachedMap& getReachedMap() const { return reached; }
marci@280
   829
    const std::stack<OutEdgeIt>& getDfsStack() const { return dfs_stack; }
marci@280
   830
  };
marci@280
   831
marci@280
   832
marci@280
   833
marci@280
   834
} // namespace hugo
marci@280
   835
marci@280
   836
#endif //BFS_ITERATOR_HH