lemon: comparison lemon/min_cost

equal deleted inserted replaced

-:92f4e8a63dcc
+:4fbe5ce76d8b
 /// \brief Default traits class for MinCostArborescence class.
 ///
 /// Default traits class for MinCostArborescence class.
 /// \param GR Digraph type.
-/// \param CM Type of cost map.
+/// \param CM Type of the cost map.
 template <class GR, class CM>
 struct MinCostArborescenceDefaultTraits{
 /// \brief The digraph type the algorithm runs on.
 typedef GR Digraph;
 /// \brief The type of the map that stores the arc costs.
 ///
 /// The type of the map that stores the arc costs.
-/// It must meet the \ref concepts::ReadMap "ReadMap" concept.
+/// It must conform to the \ref concepts::ReadMap "ReadMap" concept.
 typedef CM CostMap;
 /// \brief The value type of the costs.
 ///
 /// The value type of the costs.
 /// \brief The type of the map that stores which arcs are in the
 /// arborescence.
 ///
 /// The type of the map that stores which arcs are in the
-/// arborescence.  It must meet the \ref concepts::WriteMap
+/// arborescence.  It must conform to the \ref concepts::WriteMap
-/// "WriteMap" concept.  Initially it will be set to false on each
+/// "WriteMap" concept, and its value type must be \c bool
-/// arc. After it will set all arborescence arcs once.
+/// (or convertible). Initially it will be set to \c false on each
+/// arc, then it will be set on each arborescence arc once.
 typedef typename Digraph::template ArcMap<bool> ArborescenceMap;
 /// \brief Instantiates a \c ArborescenceMap.
 ///
 /// This function instantiates a \c ArborescenceMap.
-/// \param digraph is the graph, to which we would like to
+/// \param digraph The digraph to which we would like to calculate
-/// calculate the \c ArborescenceMap.
+/// the \c ArborescenceMap.
 static ArborescenceMap *createArborescenceMap(const Digraph &digraph){
 return new ArborescenceMap(digraph);
 }
 /// \brief The type of the \c PredMap
 ///
-/// The type of the \c PredMap. It is a node map with an arc value type.
+/// The type of the \c PredMap. It must confrom to the
+/// \ref concepts::WriteMap "WriteMap" concept, and its value type
+/// must be the \c Arc type of the digraph.
 typedef typename Digraph::template NodeMap<typename Digraph::Arc> PredMap;
 /// \brief Instantiates a \c PredMap.
 ///
 /// This function instantiates a \c PredMap.
 /// \ingroup spantree
 ///
 /// \brief Minimum Cost Arborescence algorithm class.
 ///
-/// This class provides an efficient implementation of
+/// This class provides an efficient implementation of the
 /// Minimum Cost Arborescence algorithm. The arborescence is a tree
 /// which is directed from a given source node of the digraph. One or
-/// more sources should be given for the algorithm and it will calculate
+/// more sources should be given to the algorithm and it will calculate
-/// the minimum cost subgraph which are union of arborescences with the
+/// the minimum cost subgraph that is the union of arborescences with the
 /// given sources and spans all the nodes which are reachable from the
 /// sources. The time complexity of the algorithm is O(n<sup>2</sup>+e).
 ///
-/// The algorithm provides also an optimal dual solution, therefore
+/// The algorithm also provides an optimal dual solution, therefore
 /// the optimality of the solution can be checked.
 ///
-/// \param GR The digraph type the algorithm runs on. The default value
+/// \param GR The digraph type the algorithm runs on.
-/// is \ref ListDigraph.
+/// \param CM A read-only arc map storing the costs of the
-/// \param CM This read-only ArcMap determines the costs of the
 /// arcs. It is read once for each arc, so the map may involve in
-/// relatively time consuming process to compute the arc cost if
+/// relatively time consuming process to compute the arc costs if
 /// it is necessary. The default map type is \ref
 /// concepts::Digraph::ArcMap "Digraph::ArcMap<int>".
 /// \param TR Traits class to set various data types used
 /// by the algorithm. The default traits class is
 /// \ref MinCostArborescenceDefaultTraits
-/// "MinCostArborescenceDefaultTraits<GR, CM>".  See \ref
+/// "MinCostArborescenceDefaultTraits<GR, CM>".
-/// MinCostArborescenceDefaultTraits for the documentation of a
-/// MinCostArborescence traits class.
 #ifndef DOXYGEN
-template <typename GR = ListDigraph,
+template <typename GR,
 typename CM = typename GR::template ArcMap<int>,
 typename TR =
 MinCostArborescenceDefaultTraits<GR, CM> >
 #else
 template <typename GR, typename CM, typedef TR>
 #endif
 class MinCostArborescence {
 public:
-/// The traits.
+/// \brief The \ref MinCostArborescenceDefaultTraits "traits class"
+/// of the algorithm.
 typedef TR Traits;
 /// The type of the underlying digraph.
 typedef typename Traits::Digraph Digraph;
 /// The type of the map that stores the arc costs.
 typedef typename Traits::CostMap CostMap;
 /// \name Named Template Parameters
 /// @{
 template <class T>
-struct DefArborescenceMapTraits : public Traits {
+struct SetArborescenceMapTraits : public Traits {
 typedef T ArborescenceMap;
 static ArborescenceMap *createArborescenceMap(const Digraph &)
 {
 LEMON_ASSERT(false, "ArborescenceMap is not initialized");
 return 0; // ignore warnings
 }
 };
 /// \brief \ref named-templ-param "Named parameter" for
-/// setting ArborescenceMap type
+/// setting \c ArborescenceMap type
 ///
 /// \ref named-templ-param "Named parameter" for setting
-/// ArborescenceMap type
+/// \c ArborescenceMap type.
+/// It must conform to the \ref concepts::WriteMap "WriteMap" concept,
+/// and its value type must be \c bool (or convertible).
+/// Initially it will be set to \c false on each arc,
+/// then it will be set on each arborescence arc once.
 template <class T>
-struct DefArborescenceMap
+struct SetArborescenceMap
 : public MinCostArborescence<Digraph, CostMap,
-DefArborescenceMapTraits<T> > {
+SetArborescenceMapTraits<T> > {
 };
 template <class T>
-struct DefPredMapTraits : public Traits {
+struct SetPredMapTraits : public Traits {
 typedef T PredMap;
 static PredMap *createPredMap(const Digraph &)
 {
 LEMON_ASSERT(false, "PredMap is not initialized");
+return 0; // ignore warnings
 }
 };
 /// \brief \ref named-templ-param "Named parameter" for
-/// setting PredMap type
+/// setting \c PredMap type
 ///
 /// \ref named-templ-param "Named parameter" for setting
-/// PredMap type
+/// \c PredMap type.
+/// It must meet the \ref concepts::WriteMap "WriteMap" concept,
+/// and its value type must be the \c Arc type of the digraph.
 template <class T>
-struct DefPredMap
+struct SetPredMap
-: public MinCostArborescence<Digraph, CostMap, DefPredMapTraits<T> > {
+: public MinCostArborescence<Digraph, CostMap, SetPredMapTraits<T> > {
 };
 /// @}
 /// \brief Constructor.
 local_arborescence = false;
 _arborescence = &m;
 return *this;
 }
-/// \brief Sets the arborescence map.
+/// \brief Sets the predecessor map.
 ///
-/// Sets the arborescence map.
+/// Sets the predecessor map.
 /// \return <tt>(*this)</tt>
 MinCostArborescence& predMap(PredMap& m) {
 if (local_pred) {
 delete _pred;
 }
 local_pred = false;
 _pred = &m;
 return *this;
 }
-/// \name Query Functions
-/// The result of the %MinCostArborescence algorithm can be obtained
-/// using these functions.\n
-/// Before the use of these functions,
-/// either run() or start() must be called.
-/// @{
-/// \brief Returns a reference to the arborescence map.
-///
-/// Returns a reference to the arborescence map.
-const ArborescenceMap& arborescenceMap() const {
-return *_arborescence;
-}
-/// \brief Returns true if the arc is in the arborescence.
-///
-/// Returns true if the arc is in the arborescence.
-/// \param arc The arc of the digraph.
-/// \pre \ref run() must be called before using this function.
-bool arborescence(Arc arc) const {
-return (*_pred)[_digraph->target(arc)] == arc;
-}
-/// \brief Returns a reference to the pred map.
-///
-/// Returns a reference to the pred map.
-const PredMap& predMap() const {
-return *_pred;
-}
-/// \brief Returns the predecessor arc of the given node.
-///
-/// Returns the predecessor arc of the given node.
-Arc pred(Node node) const {
-return (*_pred)[node];
-}
-/// \brief Returns the cost of the arborescence.
-///
-/// Returns the cost of the arborescence.
-Value arborescenceValue() const {
-Value sum = 0;
-for (ArcIt it(*_digraph); it != INVALID; ++it) {
-if (arborescence(it)) {
-sum += (*_cost)[it];
-}
-}
-return sum;
-}
-/// \brief Indicates that a node is reachable from the sources.
-///
-/// Indicates that a node is reachable from the sources.
-bool reached(Node node) const {
-return (*_node_order)[node] != -3;
-}
-/// \brief Indicates that a node is processed.
-///
-/// Indicates that a node is processed. The arborescence path exists
-/// from the source to the given node.
-bool processed(Node node) const {
-return (*_node_order)[node] == -1;
-}
-/// \brief Returns the number of the dual variables in basis.
-///
-/// Returns the number of the dual variables in basis.
-int dualNum() const {
-return _dual_variables.size();
-}
-/// \brief Returns the value of the dual solution.
-///
-/// Returns the value of the dual solution. It should be
-/// equal to the arborescence value.
-Value dualValue() const {
-Value sum = 0;
-for (int i = 0; i < int(_dual_variables.size()); ++i) {
-sum += _dual_variables[i].value;
-}
-return sum;
-}
-/// \brief Returns the number of the nodes in the dual variable.
-///
-/// Returns the number of the nodes in the dual variable.
-int dualSize(int k) const {
-return _dual_variables[k].end - _dual_variables[k].begin;
-}
-/// \brief Returns the value of the dual variable.
-///
-/// Returns the the value of the dual variable.
-const Value& dualValue(int k) const {
-return _dual_variables[k].value;
-}
-/// \brief Lemon iterator for get a dual variable.
-///
-/// Lemon iterator for get a dual variable. This class provides
-/// a common style lemon iterator which gives back a subset of
-/// the nodes.
-class DualIt {
-public:
-/// \brief Constructor.
-///
-/// Constructor for get the nodeset of the variable.
-DualIt(const MinCostArborescence& algorithm, int variable)
-: _algorithm(&algorithm)
-{
-_index = _algorithm->_dual_variables[variable].begin;
-_last = _algorithm->_dual_variables[variable].end;
-}
-/// \brief Conversion to node.
-///
-/// Conversion to node.
-operator Node() const {
-return _algorithm->_dual_node_list[_index];
-}
-/// \brief Increment operator.
-///
-/// Increment operator.
-DualIt& operator++() {
-++_index;
-return *this;
-}
-/// \brief Validity checking
-///
-/// Checks whether the iterator is invalid.
-bool operator==(Invalid) const {
-return _index == _last;
-}
-/// \brief Validity checking
-///
-/// Checks whether the iterator is valid.
-bool operator!=(Invalid) const {
-return _index != _last;
-}
-private:
-const MinCostArborescence* _algorithm;
-int _index, _last;
-};
-/// @}
 /// \name Execution Control
 /// The simplest way to execute the algorithm is to use
 /// one of the member functions called \c run(...). \n
 /// If you need more control on the execution,
 ///
 /// Processes the next node in the priority queue.
 ///
 /// \return The processed node.
 ///
-/// \warning The queue must not be empty!
+/// \warning The queue must not be empty.
 Node processNextNode() {
 Node node = queue.back();
 queue.pop_back();
 if ((*_node_order)[node] == -2) {
 Arc arc = prepare(node);
 return node;
 }
 /// \brief Returns the number of the nodes to be processed.
 ///
-/// Returns the number of the nodes to be processed.
+/// Returns the number of the nodes to be processed in the priority
+/// queue.
 int queueSize() const {
 return queue.size();
 }
 /// \brief Returns \c false if there are nodes to be processed.
 /// \code
 /// mca.init();
 /// mca.addSource(s);
 /// mca.start();
 /// \endcode
-void run(Node node) {
+void run(Node s) {
 init();
-addSource(node);
+addSource(s);
 start();
 }
 ///@}
+/// \name Query Functions
+/// The result of the %MinCostArborescence algorithm can be obtained
+/// using these functions.\n
+/// Either run() or start() must be called before using them.
+/// @{
+/// \brief Returns the cost of the arborescence.
+///
+/// Returns the cost of the arborescence.
+Value arborescenceCost() const {
+Value sum = 0;
+for (ArcIt it(*_digraph); it != INVALID; ++it) {
+if (arborescence(it)) {
+sum += (*_cost)[it];
+}
+}
+return sum;
+}
+/// \brief Returns \c true if the arc is in the arborescence.
+///
+/// Returns \c true if the given arc is in the arborescence.
+/// \param arc An arc of the digraph.
+/// \pre \ref run() must be called before using this function.
+bool arborescence(Arc arc) const {
+return (*_pred)[_digraph->target(arc)] == arc;
+}
+/// \brief Returns a const reference to the arborescence map.
+///
+/// Returns a const reference to the arborescence map.
+/// \pre \ref run() must be called before using this function.
+const ArborescenceMap& arborescenceMap() const {
+return *_arborescence;
+}
+/// \brief Returns the predecessor arc of the given node.
+///
+/// Returns the predecessor arc of the given node.
+/// \pre \ref run() must be called before using this function.
+Arc pred(Node node) const {
+return (*_pred)[node];
+}
+/// \brief Returns a const reference to the pred map.
+///
+/// Returns a const reference to the pred map.
+/// \pre \ref run() must be called before using this function.
+const PredMap& predMap() const {
+return *_pred;
+}
+/// \brief Indicates that a node is reachable from the sources.
+///
+/// Indicates that a node is reachable from the sources.
+bool reached(Node node) const {
+return (*_node_order)[node] != -3;
+}
+/// \brief Indicates that a node is processed.
+///
+/// Indicates that a node is processed. The arborescence path exists
+/// from the source to the given node.
+bool processed(Node node) const {
+return (*_node_order)[node] == -1;
+}
+/// \brief Returns the number of the dual variables in basis.
+///
+/// Returns the number of the dual variables in basis.
+int dualNum() const {
+return _dual_variables.size();
+}
+/// \brief Returns the value of the dual solution.
+///
+/// Returns the value of the dual solution. It should be
+/// equal to the arborescence value.
+Value dualValue() const {
+Value sum = 0;
+for (int i = 0; i < int(_dual_variables.size()); ++i) {
+sum += _dual_variables[i].value;
+}
+return sum;
+}
+/// \brief Returns the number of the nodes in the dual variable.
+///
+/// Returns the number of the nodes in the dual variable.
+int dualSize(int k) const {
+return _dual_variables[k].end - _dual_variables[k].begin;
+}
+/// \brief Returns the value of the dual variable.
+///
+/// Returns the the value of the dual variable.
+Value dualValue(int k) const {
+return _dual_variables[k].value;
+}
+/// \brief LEMON iterator for getting a dual variable.
+///
+/// This class provides a common style LEMON iterator for getting a
+/// dual variable of \ref MinCostArborescence algorithm.
+/// It iterates over a subset of the nodes.
+class DualIt {
+public:
+/// \brief Constructor.
+///
+/// Constructor for getting the nodeset of the dual variable
+/// of \ref MinCostArborescence algorithm.
+DualIt(const MinCostArborescence& algorithm, int variable)
+: _algorithm(&algorithm)
+{
+_index = _algorithm->_dual_variables[variable].begin;
+_last = _algorithm->_dual_variables[variable].end;
+}
+/// \brief Conversion to \c Node.
+///
+/// Conversion to \c Node.
+operator Node() const {
+return _algorithm->_dual_node_list[_index];
+}
+/// \brief Increment operator.
+///
+/// Increment operator.
+DualIt& operator++() {
+++_index;
+return *this;
+}
+/// \brief Validity checking
+///
+/// Checks whether the iterator is invalid.
+bool operator==(Invalid) const {
+return _index == _last;
+}
+/// \brief Validity checking
+///
+/// Checks whether the iterator is valid.
+bool operator!=(Invalid) const {
+return _index != _last;
+}
+private:
+const MinCostArborescence* _algorithm;
+int _index, _last;
+};
+/// @}
 };
 /// \ingroup spantree
 ///
 /// \brief Function type interface for MinCostArborescence algorithm.
 ///
 /// Function type interface for MinCostArborescence algorithm.
-/// \param digraph The Digraph that the algorithm runs on.
+/// \param digraph The digraph the algorithm runs on.
-/// \param cost The CostMap of the arcs.
+/// \param cost An arc map storing the costs.
-/// \param source The source of the arborescence.
+/// \param source The source node of the arborescence.
-/// \retval arborescence The bool ArcMap which stores the arborescence.
+/// \retval arborescence An arc map with \c bool (or convertible) value
-/// \return The cost of the arborescence.
+/// type that stores the arborescence.
+/// \return The total cost of the arborescence.
 ///
 /// \sa MinCostArborescence
 template <typename Digraph, typename CostMap, typename ArborescenceMap>
 typename CostMap::Value minCostArborescence(const Digraph& digraph,
 const CostMap& cost,
 typename Digraph::Node source,
 ArborescenceMap& arborescence) {
 typename MinCostArborescence<Digraph, CostMap>
-::template DefArborescenceMap<ArborescenceMap>
+::template SetArborescenceMap<ArborescenceMap>
 ::Create mca(digraph, cost);
 mca.arborescenceMap(arborescence);
 mca.run(source);
-return mca.arborescenceValue();
+return mca.arborescenceCost();
 }
 }
 #endif

changeset 951	41d7ac528c3a
parent 631	33c6b6e755cd
child 760	4ac30454f1c1
child 1081	f1398882a928