src/work/marci/experiment/bfs_iterator_1.h
changeset 808 9cabbdd73375
parent 281 3fefabfd00b7
child 921 818510fa3d99
equal deleted inserted replaced
0:688fff77177d 1:10b85dc1ca10
   628 //     const ReachedMap& getReachedMap() const { return reached; }
   628 //     const ReachedMap& getReachedMap() const { return reached; }
   629 //     const std::queue<Node>& getBfsQueue() const { return bfs_queue; }
   629 //     const std::queue<Node>& getBfsQueue() const { return bfs_queue; }
   630 //  };  
   630 //  };  
   631 
   631 
   632 
   632 
   633   template <typename GraphWrapper, /*typename OutEdgeIt,*/ 
   633   template <typename Graph, /*typename OutEdgeIt,*/ 
   634 	    typename ReachedMap/*=typename GraphWrapper::NodeMap<bool>*/ >
   634 	    typename ReachedMap/*=typename Graph::NodeMap<bool>*/ >
   635   class BfsIterator5 {
   635   class BfsIterator5 {
   636     typedef typename GraphWrapper::Node Node;
   636   protected:
   637     typedef typename GraphWrapper::OutEdgeIt OutEdgeIt;
   637     typedef typename Graph::Node Node;
   638     const GraphWrapper* g;
   638     typedef typename Graph::OutEdgeIt OutEdgeIt;
       
   639     const Graph* graph;
   639     std::queue<Node> bfs_queue;
   640     std::queue<Node> bfs_queue;
   640     ReachedMap& reached;
   641     ReachedMap& reached;
   641     bool b_node_newly_reached;
   642     bool b_node_newly_reached;
   642     OutEdgeIt actual_edge;
   643     OutEdgeIt actual_edge;
   643     bool own_reached_map;
   644     bool own_reached_map;
   644   public:
   645   public:
   645     BfsIterator5(const GraphWrapper& _g, ReachedMap& _reached) : 
   646     BfsIterator5(const Graph& _graph, ReachedMap& _reached) : 
   646       g(&_g), reached(_reached), 
   647       graph(&_graph), reached(_reached), 
   647       own_reached_map(false) { }
   648       own_reached_map(false) { }
   648     BfsIterator5(const GraphWrapper& _g) : 
   649     BfsIterator5(const Graph& _graph) : 
   649       g(&_g), reached(*(new ReachedMap(*g /*, false*/))), 
   650       graph(&_graph), reached(*(new ReachedMap(*graph /*, false*/))), 
   650       own_reached_map(true) { }
   651       own_reached_map(true) { }
   651 //     BfsIterator5(const typename GraphWrapper::BaseGraph& _G, 
       
   652 // 		 ReachedMap& _reached) : 
       
   653 //       G(_G), reached(_reached), 
       
   654 //       own_reached_map(false) { }
       
   655 //     BfsIterator5(const typename GraphWrapper::BaseGraph& _G) : 
       
   656 //       G(_G), reached(*(new ReachedMap(G /*, false*/))), 
       
   657 //       own_reached_map(true) { }
       
   658     ~BfsIterator5() { if (own_reached_map) delete &reached; }
   652     ~BfsIterator5() { if (own_reached_map) delete &reached; }
   659     void pushAndSetReached(Node s) { 
   653     void pushAndSetReached(Node s) { 
   660       reached.set(s, true);
   654       reached.set(s, true);
   661       if (bfs_queue.empty()) {
   655       if (bfs_queue.empty()) {
   662 	bfs_queue.push(s);
   656 	bfs_queue.push(s);
   663 	g->first(actual_edge, s);
   657 	graph->first(actual_edge, s);
   664 	if (g->valid(actual_edge)) { 
   658 	if (graph->valid(actual_edge)) { 
   665 	  Node w=g->bNode(actual_edge);
   659 	  Node w=graph->bNode(actual_edge);
   666 	  if (!reached.get(w)) {
   660 	  if (!reached.get(w)) {
   667 	    bfs_queue.push(w);
   661 	    bfs_queue.push(w);
   668 	    reached.set(w, true);
   662 	    reached.set(w, true);
   669 	    b_node_newly_reached=true;
   663 	    b_node_newly_reached=true;
   670 	  } else {
   664 	  } else {
   673 	} 
   667 	} 
   674       } else {
   668       } else {
   675 	bfs_queue.push(s);
   669 	bfs_queue.push(s);
   676       }
   670       }
   677     }
   671     }
   678     BfsIterator5<GraphWrapper, /*OutEdgeIt,*/ ReachedMap>& 
   672     BfsIterator5<Graph, /*OutEdgeIt,*/ ReachedMap>& 
   679     operator++() { 
   673     operator++() { 
   680       if (g->valid(actual_edge)) { 
   674       if (graph->valid(actual_edge)) { 
   681 	g->next(actual_edge);
   675 	graph->next(actual_edge);
   682 	if (g->valid(actual_edge)) {
   676 	if (graph->valid(actual_edge)) {
   683 	  Node w=g->bNode(actual_edge);
   677 	  Node w=graph->bNode(actual_edge);
   684 	  if (!reached.get(w)) {
   678 	  if (!reached.get(w)) {
   685 	    bfs_queue.push(w);
   679 	    bfs_queue.push(w);
   686 	    reached.set(w, true);
   680 	    reached.set(w, true);
   687 	    b_node_newly_reached=true;
   681 	    b_node_newly_reached=true;
   688 	  } else {
   682 	  } else {
   690 	  }
   684 	  }
   691 	}
   685 	}
   692       } else {
   686       } else {
   693 	bfs_queue.pop(); 
   687 	bfs_queue.pop(); 
   694 	if (!bfs_queue.empty()) {
   688 	if (!bfs_queue.empty()) {
   695 	  g->first(actual_edge, bfs_queue.front());
   689 	  graph->first(actual_edge, bfs_queue.front());
   696 	  if (g->valid(actual_edge)) {
   690 	  if (graph->valid(actual_edge)) {
   697 	    Node w=g->bNode(actual_edge);
   691 	    Node w=graph->bNode(actual_edge);
   698 	    if (!reached.get(w)) {
   692 	    if (!reached.get(w)) {
   699 	      bfs_queue.push(w);
   693 	      bfs_queue.push(w);
   700 	      reached.set(w, true);
   694 	      reached.set(w, true);
   701 	      b_node_newly_reached=true;
   695 	      b_node_newly_reached=true;
   702 	    } else {
   696 	    } else {
   708       return *this;
   702       return *this;
   709     }
   703     }
   710     bool finished() const { return bfs_queue.empty(); }
   704     bool finished() const { return bfs_queue.empty(); }
   711     operator OutEdgeIt () const { return actual_edge; }
   705     operator OutEdgeIt () const { return actual_edge; }
   712     bool isBNodeNewlyReached() const { return b_node_newly_reached; }
   706     bool isBNodeNewlyReached() const { return b_node_newly_reached; }
   713     bool isANodeExamined() const { return !(g->valid(actual_edge)); }
   707     bool isANodeExamined() const { return !(graph->valid(actual_edge)); }
   714     Node aNode() const { return bfs_queue.front(); }
   708     Node aNode() const { return bfs_queue.front(); }
   715     Node bNode() const { return g->bNode(actual_edge); }
   709     Node bNode() const { return graph->bNode(actual_edge); }
   716     const ReachedMap& getReachedMap() const { return reached; }
   710     const ReachedMap& getReachedMap() const { return reached; }
   717     const std::queue<Node>& getBfsQueue() const { return bfs_queue; }
   711     const std::queue<Node>& getBfsQueue() const { return bfs_queue; }
   718   };  
   712   };  
   719 
   713 
   720 //   template <typename Graph, typename OutEdgeIt, 
   714 //   template <typename Graph, typename OutEdgeIt, 
   771 //     Node bNode() const { return G.bNode(actual_edge); }
   765 //     Node bNode() const { return G.bNode(actual_edge); }
   772 //     const ReachedMap& getReachedMap() const { return reached; }
   766 //     const ReachedMap& getReachedMap() const { return reached; }
   773 //     const std::stack<OutEdgeIt>& getDfsStack() const { return dfs_stack; }
   767 //     const std::stack<OutEdgeIt>& getDfsStack() const { return dfs_stack; }
   774 //   };
   768 //   };
   775 
   769 
   776   template <typename GraphWrapper, /*typename OutEdgeIt,*/ 
   770   template <typename Graph, /*typename OutEdgeIt,*/ 
   777 	    typename ReachedMap/*=typename GraphWrapper::NodeMap<bool>*/ >
   771 	    typename ReachedMap/*=typename Graph::NodeMap<bool>*/ >
   778   class DfsIterator5 {
   772   class DfsIterator5 {
   779     typedef typename GraphWrapper::Node Node;
   773   protected:
   780     typedef typename GraphWrapper::OutEdgeIt OutEdgeIt;
   774     typedef typename Graph::Node Node;
   781     const GraphWrapper* g;
   775     typedef typename Graph::OutEdgeIt OutEdgeIt;
       
   776     const Graph* graph;
   782     std::stack<OutEdgeIt> dfs_stack;
   777     std::stack<OutEdgeIt> dfs_stack;
   783     bool b_node_newly_reached;
   778     bool b_node_newly_reached;
   784     OutEdgeIt actual_edge;
   779     OutEdgeIt actual_edge;
   785     Node actual_node;
   780     Node actual_node;
   786     ReachedMap& reached;
   781     ReachedMap& reached;
   787     bool own_reached_map;
   782     bool own_reached_map;
   788   public:
   783   public:
   789     DfsIterator5(const GraphWrapper& _g, ReachedMap& _reached) : 
   784     DfsIterator5(const Graph& _graph, ReachedMap& _reached) : 
   790       g(&_g), reached(_reached), 
   785       graph(&_graph), reached(_reached), 
   791       own_reached_map(false) { }
   786       own_reached_map(false) { }
   792     DfsIterator5(const GraphWrapper& _g) : 
   787     DfsIterator5(const Graph& _graph) : 
   793       g(&_g), reached(*(new ReachedMap(*g /*, false*/))), 
   788       graph(&_graph), reached(*(new ReachedMap(*graph /*, false*/))), 
   794       own_reached_map(true) { }
   789       own_reached_map(true) { }
   795     ~DfsIterator5() { if (own_reached_map) delete &reached; }
   790     ~DfsIterator5() { if (own_reached_map) delete &reached; }
   796     void pushAndSetReached(Node s) { 
   791     void pushAndSetReached(Node s) { 
   797       actual_node=s;
   792       actual_node=s;
   798       reached.set(s, true);
   793       reached.set(s, true);
   799       OutEdgeIt e;
   794       OutEdgeIt e;
   800       g->first(e, s);
   795       graph->first(e, s);
   801       dfs_stack.push(e); 
   796       dfs_stack.push(e); 
   802     }
   797     }
   803     DfsIterator5<GraphWrapper, /*OutEdgeIt,*/ ReachedMap>& 
   798     DfsIterator5<Graph, /*OutEdgeIt,*/ ReachedMap>& 
   804     operator++() { 
   799     operator++() { 
   805       actual_edge=dfs_stack.top();
   800       actual_edge=dfs_stack.top();
   806       //actual_node=G.aNode(actual_edge);
   801       //actual_node=G.aNode(actual_edge);
   807       if (g->valid(actual_edge)/*.valid()*/) { 
   802       if (graph->valid(actual_edge)/*.valid()*/) { 
   808 	Node w=g->bNode(actual_edge);
   803 	Node w=graph->bNode(actual_edge);
   809 	actual_node=w;
   804 	actual_node=w;
   810 	if (!reached.get(w)) {
   805 	if (!reached.get(w)) {
   811 	  OutEdgeIt e;
   806 	  OutEdgeIt e;
   812 	  g->first(e, w);
   807 	  graph->first(e, w);
   813 	  dfs_stack.push(e);
   808 	  dfs_stack.push(e);
   814 	  reached.set(w, true);
   809 	  reached.set(w, true);
   815 	  b_node_newly_reached=true;
   810 	  b_node_newly_reached=true;
   816 	} else {
   811 	} else {
   817 	  actual_node=g->aNode(actual_edge);
   812 	  actual_node=graph->aNode(actual_edge);
   818 	  g->next(dfs_stack.top());
   813 	  graph->next(dfs_stack.top());
   819 	  b_node_newly_reached=false;
   814 	  b_node_newly_reached=false;
   820 	}
   815 	}
   821       } else {
   816       } else {
   822 	//actual_node=G.aNode(dfs_stack.top());
   817 	//actual_node=G.aNode(dfs_stack.top());
   823 	dfs_stack.pop();
   818 	dfs_stack.pop();
   825       return *this;
   820       return *this;
   826     }
   821     }
   827     bool finished() const { return dfs_stack.empty(); }
   822     bool finished() const { return dfs_stack.empty(); }
   828     operator OutEdgeIt () const { return actual_edge; }
   823     operator OutEdgeIt () const { return actual_edge; }
   829     bool isBNodeNewlyReached() const { return b_node_newly_reached; }
   824     bool isBNodeNewlyReached() const { return b_node_newly_reached; }
   830     bool isANodeExamined() const { return !(g->valid(actual_edge)); }
   825     bool isANodeExamined() const { return !(graph->valid(actual_edge)); }
   831     Node aNode() const { return actual_node; /*FIXME*/}
   826     Node aNode() const { return actual_node; /*FIXME*/}
   832     Node bNode() const { return G.bNode(actual_edge); }
   827     Node bNode() const { return G.bNode(actual_edge); }
   833     const ReachedMap& getReachedMap() const { return reached; }
   828     const ReachedMap& getReachedMap() const { return reached; }
   834     const std::stack<OutEdgeIt>& getDfsStack() const { return dfs_stack; }
   829     const std::stack<OutEdgeIt>& getDfsStack() const { return dfs_stack; }
   835   };
   830   };