lemon/belmann_ford.h
changeset 1830 ffd6d50fb155
parent 1783 474666e89a2a
child 1857 2e3a4481901e
equal deleted inserted replaced
9:78399c7c41a4 10:5ebb83858e08
   417     }
   417     }
   418 
   418 
   419     /// \brief Executes one round from the belmann ford algorithm.
   419     /// \brief Executes one round from the belmann ford algorithm.
   420     ///
   420     ///
   421     /// If the algoritm calculated the distances in the previous round 
   421     /// If the algoritm calculated the distances in the previous round 
   422     /// strictly for all at most k length pathes then it will calculate the 
   422     /// strictly for all at most k length paths then it will calculate the 
   423     /// distances strictly for all at most k + 1 length pathes. With k
   423     /// distances strictly for all at most k + 1 length paths. With k
   424     /// iteration this function calculates the at most k length pathes. 
   424     /// iteration this function calculates the at most k length paths.
       
   425     ///\todo what is the return value?
   425     bool processNextRound() {
   426     bool processNextRound() {
   426       for (int i = 0; i < (int)_process.size(); ++i) {
   427       for (int i = 0; i < (int)_process.size(); ++i) {
   427 	_mask->set(_process[i], false);
   428 	_mask->set(_process[i], false);
   428       }
   429       }
   429       std::vector<Node> nextProcess;
   430       std::vector<Node> nextProcess;
   450     }
   451     }
   451 
   452 
   452     /// \brief Executes one weak round from the belmann ford algorithm.
   453     /// \brief Executes one weak round from the belmann ford algorithm.
   453     ///
   454     ///
   454     /// If the algorithm calculated the distances in the
   455     /// If the algorithm calculated the distances in the
   455     /// previous round at least for all at most k length pathes then it will
   456     /// previous round at least for all at most k length paths then it will
   456     /// calculate the distances at least for all at most k + 1 length pathes.
   457     /// calculate the distances at least for all at most k + 1 length paths.
   457     /// This function does not make possible to calculate strictly the
   458     /// This function does not make it possible to calculate strictly the
   458     /// at most k length minimal pathes, this way it called just weak round.
   459     /// at most k length minimal paths, this is why it is
       
   460     /// called just weak round.
       
   461     ///\todo what is the return value?
   459     bool processNextWeakRound() {
   462     bool processNextWeakRound() {
   460       for (int i = 0; i < (int)_process.size(); ++i) {
   463       for (int i = 0; i < (int)_process.size(); ++i) {
   461 	_mask->set(_process[i], false);
   464 	_mask->set(_process[i], false);
   462       }
   465       }
   463       std::vector<Node> nextProcess;
   466       std::vector<Node> nextProcess;
   521     /// \pre init() must be called and at least one node should be added
   524     /// \pre init() must be called and at least one node should be added
   522     /// with addSource() before using this function.
   525     /// with addSource() before using this function.
   523     ///
   526     ///
   524     /// This method runs the %BelmannFord algorithm from the root node(s)
   527     /// This method runs the %BelmannFord algorithm from the root node(s)
   525     /// in order to compute the shortest path with at most \c length edge 
   528     /// in order to compute the shortest path with at most \c length edge 
   526     /// long pathes to each node. The algorithm computes 
   529     /// long paths to each node. The algorithm computes 
   527     /// - The shortest path tree.
   530     /// - The shortest path tree.
   528     /// - The limited distance of each node from the root(s).
   531     /// - The limited distance of each node from the root(s).
   529     void limitedStart(int length) {
   532     void limitedStart(int length) {
   530       for (int i = 0; i < length; ++i) {
   533       for (int i = 0; i < length; ++i) {
   531 	if (processNextRound()) break;
   534 	if (processNextRound()) break;