lemon/euler.h
changeset 1917 87d3518d73d8
parent 1875 98698b69a902
child 1956 a055123339d5
equal deleted inserted replaced
5:f6e5e41efa9d 6:91624b8c9731
   122   ///if the given graph if Euler (i.e it has only one nontrivial component
   122   ///if the given graph if Euler (i.e it has only one nontrivial component
   123   ///and the degree of each node is even),
   123   ///and the degree of each node is even),
   124   ///the following code will print the edge IDs according to an
   124   ///the following code will print the edge IDs according to an
   125   ///Euler tour of \c g.
   125   ///Euler tour of \c g.
   126   ///\code
   126   ///\code
   127   ///  for(UndirEulerIt<UndirListGraph> e(g),e!=INVALID;++e) {
   127   ///  for(UEulerIt<ListUGraph> e(g),e!=INVALID;++e) {
   128   ///    std::cout << g.id(UndirEdge(e)) << std::eol;
   128   ///    std::cout << g.id(UEdge(e)) << std::eol;
   129   ///  }
   129   ///  }
   130   ///\endcode
   130   ///\endcode
   131   ///Although the iterator provides an Euler tour of an undirected graph,
   131   ///Although the iterator provides an Euler tour of an undirected graph,
   132   ///in order to indicate the direction of the tour, UndirEulerIt
   132   ///in order to indicate the direction of the tour, UEulerIt
   133   ///returns directed edges (that convert to the undirected ones, of course).
   133   ///returns directed edges (that convert to the undirected ones, of course).
   134   ///
   134   ///
   135   ///If \c g is not Euler then the resulted tour will not be full or closed.
   135   ///If \c g is not Euler then the resulted tour will not be full or closed.
   136   ///\todo Test required
   136   ///\todo Test required
   137   template<class Graph>
   137   template<class Graph>
   138   class UndirEulerIt
   138   class UEulerIt
   139   {
   139   {
   140     typedef typename Graph::Node Node;
   140     typedef typename Graph::Node Node;
   141     typedef typename Graph::NodeIt NodeIt;
   141     typedef typename Graph::NodeIt NodeIt;
   142     typedef typename Graph::Edge Edge;
   142     typedef typename Graph::Edge Edge;
   143     typedef typename Graph::EdgeIt EdgeIt;
   143     typedef typename Graph::EdgeIt EdgeIt;
   144     typedef typename Graph::OutEdgeIt OutEdgeIt;
   144     typedef typename Graph::OutEdgeIt OutEdgeIt;
   145     typedef typename Graph::InEdgeIt InEdgeIt;
   145     typedef typename Graph::InEdgeIt InEdgeIt;
   146     
   146     
   147     const Graph &g;
   147     const Graph &g;
   148     typename Graph::NodeMap<OutEdgeIt> nedge;
   148     typename Graph::NodeMap<OutEdgeIt> nedge;
   149     typename Graph::UndirEdgeMap<bool> visited;
   149     typename Graph::UEdgeMap<bool> visited;
   150     std::list<Edge> euler;
   150     std::list<Edge> euler;
   151 
   151 
   152   public:
   152   public:
   153     
   153     
   154     ///Constructor
   154     ///Constructor
   155 
   155 
   156     ///\param _g An undirected graph.
   156     ///\param _g An undirected graph.
   157     ///\param start The starting point of the tour. If it is not given
   157     ///\param start The starting point of the tour. If it is not given
   158     ///       the tour will start from the first node.
   158     ///       the tour will start from the first node.
   159     UndirEulerIt(const Graph &_g,typename Graph::Node start=INVALID)
   159     UEulerIt(const Graph &_g,typename Graph::Node start=INVALID)
   160       : g(_g), nedge(g), visited(g,false)
   160       : g(_g), nedge(g), visited(g,false)
   161     {
   161     {
   162       if(start==INVALID) start=NodeIt(g);
   162       if(start==INVALID) start=NodeIt(g);
   163       for(NodeIt n(g);n!=INVALID;++n) nedge[n]=OutEdgeIt(g,n);
   163       for(NodeIt n(g);n!=INVALID;++n) nedge[n]=OutEdgeIt(g,n);
   164       while(nedge[start]!=INVALID) {
   164       while(nedge[start]!=INVALID) {
   173     operator Edge() { return euler.empty()?INVALID:euler.front(); }
   173     operator Edge() { return euler.empty()?INVALID:euler.front(); }
   174     bool operator==(Invalid) { return euler.empty(); }
   174     bool operator==(Invalid) { return euler.empty(); }
   175     bool operator!=(Invalid) { return !euler.empty(); }
   175     bool operator!=(Invalid) { return !euler.empty(); }
   176     
   176     
   177     ///Next edge of the tour
   177     ///Next edge of the tour
   178     UndirEulerIt &operator++() {
   178     UEulerIt &operator++() {
   179       Node s=g.target(euler.front());
   179       Node s=g.target(euler.front());
   180       euler.pop_front();
   180       euler.pop_front();
   181       typename std::list<Edge>::iterator next=euler.begin();
   181       typename std::list<Edge>::iterator next=euler.begin();
   182 
   182 
   183       while(nedge[s]!=INVALID) {
   183       while(nedge[s]!=INVALID) {
   194     }
   194     }
   195     
   195     
   196     ///Postfix incrementation
   196     ///Postfix incrementation
   197     
   197     
   198     ///\warning This incrementation
   198     ///\warning This incrementation
   199     ///returns an \c Edge, not an \ref UndirEulerIt, as one may
   199     ///returns an \c Edge, not an \ref UEulerIt, as one may
   200     ///expect.
   200     ///expect.
   201     Edge operator++(int) 
   201     Edge operator++(int) 
   202     {
   202     {
   203       Edge e=*this;
   203       Edge e=*this;
   204       ++(*this);
   204       ++(*this);
   222   ///\todo Test required
   222   ///\todo Test required
   223   template<class Graph>
   223   template<class Graph>
   224 #ifdef DOXYGEN
   224 #ifdef DOXYGEN
   225   bool
   225   bool
   226 #else
   226 #else
   227   typename enable_if<typename Graph::UndirTag,bool>::type
   227   typename enable_if<typename Graph::UTag,bool>::type
   228   euler(const Graph &g) 
   228   euler(const Graph &g) 
   229   {
   229   {
   230     for(typename Graph::NodeIt n(g);n!=INVALID;++n)
   230     for(typename Graph::NodeIt n(g);n!=INVALID;++n)
   231       if(countIncEdges(g,n)%2) return false;
   231       if(countIncEdges(g,n)%2) return false;
   232     return connected(g);
   232     return connected(g);
   233   }
   233   }
   234   template<class Graph>
   234   template<class Graph>
   235   typename disable_if<typename Graph::UndirTag,bool>::type
   235   typename disable_if<typename Graph::UTag,bool>::type
   236 #endif
   236 #endif
   237   euler(const Graph &g) 
   237   euler(const Graph &g) 
   238   {
   238   {
   239     for(typename Graph::NodeIt n(g);n!=INVALID;++n)
   239     for(typename Graph::NodeIt n(g);n!=INVALID;++n)
   240       if(countInEdges(g,n)!=countOutEdges(g,n)) return false;
   240       if(countInEdges(g,n)!=countOutEdges(g,n)) return false;