RhodeCode

    # Suppressed warnings:

    # C4250: 'class1' : inherits 'class2::member' via dominance

    # C4355: 'this' : used in base member initializer list

    # C4503: 'function' : decorated name length exceeded, name was truncated

    # C4800: 'type' : forcing value to bool 'true' or 'false'

    #        (performance warning)

    # C4996: 'function': was declared deprecated

  ELSE()

  ENDIF()

ENDIF()

SET(LEMON_CXX_WARNING_FLAGS ${CXX_WARNING} CACHE STRING "LEMON warning flags.")

SET(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} ${LEMON_CXX_WARNING_FLAGS}")

    "Flags used by the C++ compiler during maintainer builds."

    FORCE )

    "Flags used by the C compiler during maintainer builds."

    FORCE )

SET( CMAKE_EXE_LINKER_FLAGS_MAINTAINER

    "-Wl,--warn-unresolved-symbols,--warn-once" CACHE STRING

    "Flags used for linking binaries during maintainer builds."

    FORCE )

SET( CMAKE_SHARED_LINKER_FLAGS_MAINTAINER

    "-Wl,--warn-unresolved-symbols,--warn-once" CACHE STRING

        Node node;

        visitor.start(node);

        visitor.reach(node);

        visitor.process(node);

        visitor.discover(arc);

        visitor.examine(arc);

      }

      _Visitor& visitor;

    };

  };

#endif

  /// \brief Default traits class of BfsVisit class.

  ///

  /// Default traits class of BfsVisit class.

  /// \tparam GR The type of the digraph the algorithm runs on.

          bool b;

          b = (ia == ib) && (ia != ib);

          b = (ia == INVALID) && (ib != INVALID);

          b = (ia < ib);

        }

        const _GraphItem &ia;

        const _GraphItem &ib;

      };

    };

    /// \brief Base skeleton class for directed graphs.

    ///

    /// This class describes the base interface of directed graph types.

    /// All digraph %concepts have to conform to this class.

    /// It just provides types for nodes and arcs and functions

            Arc e(INVALID);

            n = digraph.source(e);

            n = digraph.target(e);

            n = digraph.oppositeNode(n, e);

          }

        }

        const _Digraph& digraph;

      };

    };

    /// \brief Base skeleton class for undirected graphs.

    ///

    /// This class describes the base interface of undirected graph types.

    /// All graph %concepts have to conform to this class.

    /// It extends the interface of \ref BaseDigraphComponent with an

            e = graph.oppositeArc(e);

            ue = e;

            bool d = graph.direction(e);

            ignore_unused_variable_warning(d);

          }

        }

        const _Graph& graph;

      };

    };

    /// \brief Skeleton class for \e idable directed graphs.

    ///

    /// This class describes the interface of \e idable directed graphs.

    /// It extends \ref BaseDigraphComponent with the core ID functions.

          nid = digraph.maxNodeId();

          ignore_unused_variable_warning(nid);

          eid = digraph.maxArcId();

          ignore_unused_variable_warning(eid);

        }

        const _Digraph& digraph;

      };

    };

    /// \brief Skeleton class for \e idable undirected graphs.

    ///

    /// This class describes the interface of \e idable undirected

    /// graphs. It extends \ref IDableDigraphComponent with the core ID

    /// functions of undirected graphs.

          int ueid = graph.id(edge);

          ueid = graph.id(edge);

          edge = graph.edgeFromId(ueid);

          ueid = graph.maxEdgeId();

          ignore_unused_variable_warning(ueid);

        }

        const _Graph& graph;

      };

    };

    /// \brief Concept class for \c NodeIt, \c ArcIt and \c EdgeIt types.

    ///

    /// This class describes the concept of \c NodeIt, \c ArcIt and

    /// \c EdgeIt subtypes of digraph and graph types.

    template <typename GR, typename Item>

          it2 = ++it1;

          ++it2 = it1;

          ++(++it1);

          Item bi = it1;

          bi = it2;

        }

        const GR& g;

      };

    };

    /// \brief Concept class for \c InArcIt, \c OutArcIt and

    /// \c IncEdgeIt types.

    ///

    /// This class describes the concept of \c InArcIt, \c OutArcIt

    /// and \c IncEdgeIt subtypes of digraph and graph types.

          it2 = ++it1;

          ++it2 = it1;

          ++(++it1);

          Item e = it1;

          e = it2;

        }

        const Base& node;

        const GR& graph;

      };

    };

    /// \brief Skeleton class for iterable directed graphs.

    ///

    /// This class describes the interface of iterable directed

    /// graphs. It extends \ref BaseDigraphComponent with the core

    /// iterable interface.

            n = digraph.runningNode(iait);

            n = digraph.baseNode(oait);

            n = digraph.runningNode(oait);

            ignore_unused_variable_warning(n);

          }

        }

        const _Digraph& digraph;

      };

    };

    /// \brief Skeleton class for iterable undirected graphs.

    ///

    /// This class describes the interface of iterable undirected

    /// graphs. It extends \ref IterableDigraphComponent with the core

    /// iterable interface of undirected graphs.

            typename _Graph::Node n;

            const typename _Graph::IncEdgeIt ieit(INVALID);

            n = graph.baseNode(ieit);

            n = graph.runningNode(ieit);

          }

        }

        const _Graph& graph;

      };

    };

    /// \brief Skeleton class for alterable directed graphs.

    ///

    /// This class describes the interface of alterable directed

    /// graphs. It extends \ref BaseDigraphComponent with the alteration

    /// notifier interface. It implements

          typename _Digraph::ArcNotifier& en

            = digraph.notifier(typename _Digraph::Arc());

          ignore_unused_variable_warning(nn);

          ignore_unused_variable_warning(en);

        }

        const _Digraph& digraph;

      };

    };

    /// \brief Skeleton class for alterable undirected graphs.

    ///

    /// This class describes the interface of alterable undirected

    /// graphs. It extends \ref AlterableDigraphComponent with the alteration

    /// notifier interface of undirected graphs. It implements

        void constraints() {

          checkConcept<AlterableDigraphComponent<Base>, _Graph>();

          typename _Graph::EdgeNotifier& uen

            = graph.notifier(typename _Graph::Edge());

          ignore_unused_variable_warning(uen);

        }

        const _Graph& graph;

      };

    };

    /// \brief Concept class for standard graph maps.

    ///

    /// This class describes the concept of standard graph maps, i.e.

    /// the \c NodeMap, \c ArcMap and \c EdgeMap subtypes of digraph and

    /// graph types, which can be used for associating data to graph items.

          ignore_unused_variable_warning(m1);

          ignore_unused_variable_warning(m2);

          // ignore_unused_variable_warning(m3);

        }

        const _Map &m;

        const GR &g;

        const typename GraphMap::Value &t;

      };

    };

    /// \brief Skeleton class for mappable directed graphs.

    ///

    /// This class describes the interface of mappable directed graphs.

    /// It extends \ref BaseDigraphComponent with the standard digraph

          } { // Dummy map test

            typedef typename _Digraph::template ArcMap<Dummy> DummyArcMap;

            checkConcept<GraphMap<_Digraph, typename _Digraph::Arc, Dummy>,

              DummyArcMap >();

          }

        }

        const _Digraph& digraph;

      };

    };

    /// \brief Skeleton class for mappable undirected graphs.

    ///

    /// This class describes the interface of mappable undirected graphs.

    /// It extends \ref MappableDigraphComponent with the standard graph

    /// map class for edges (\c EdgeMap).

          } { // Dummy map test

            typedef typename _Graph::template EdgeMap<Dummy> DummyEdgeMap;

            checkConcept<GraphMap<_Graph, typename _Graph::Edge, Dummy>,

              DummyEdgeMap >();

          }

        }

        const _Graph& graph;

      };

    };

    /// \brief Skeleton class for extendable directed graphs.

    ///

    /// This class describes the interface of extendable directed graphs.

    /// It extends \ref BaseDigraphComponent with functions for adding

    /// nodes and arcs to the digraph.

          typename _Digraph::Node node_a, node_b;

          node_a = digraph.addNode();

          node_b = digraph.addNode();

          typename _Digraph::Arc arc;

          arc = digraph.addArc(node_a, node_b);

        }

        _Digraph& digraph;

      };

    };

    /// \brief Skeleton class for extendable undirected graphs.

    ///

    /// This class describes the interface of extendable undirected graphs.

    /// It extends \ref BaseGraphComponent with functions for adding

    /// nodes and edges to the graph.

          typename _Graph::Node node_a, node_b;

          node_a = graph.addNode();

          node_b = graph.addNode();

          typename _Graph::Edge edge;

          edge = graph.addEdge(node_a, node_b);

        }

        _Graph& graph;

      };

    };

    /// \brief Skeleton class for erasable directed graphs.

    ///

    /// This class describes the interface of erasable directed graphs.

    /// It extends \ref BaseDigraphComponent with functions for removing

    /// nodes and arcs from the digraph.

          checkConcept<Base, _Digraph>();

          const typename _Digraph::Node node(INVALID);

          digraph.erase(node);

          const typename _Digraph::Arc arc(INVALID);

          digraph.erase(arc);

        }

        _Digraph& digraph;

      };

    };

    /// \brief Skeleton class for erasable undirected graphs.

    ///

    /// This class describes the interface of erasable undirected graphs.

    /// It extends \ref BaseGraphComponent with functions for removing

    /// nodes and edges from the graph.

          checkConcept<Base, _Graph>();

          const typename _Graph::Node node(INVALID);

          graph.erase(node);

          const typename _Graph::Edge edge(INVALID);

          graph.erase(edge);

        }

        _Graph& graph;

      };

    };

    /// \brief Skeleton class for clearable directed graphs.

    ///

    /// This class describes the interface of clearable directed graphs.

    /// It extends \ref BaseDigraphComponent with a function for clearing

    /// the digraph.

      template <typename _Digraph>

      struct Constraints {

        void constraints() {

          checkConcept<Base, _Digraph>();

          digraph.clear();

        }

        _Digraph& digraph;

      };

    };

    /// \brief Skeleton class for clearable undirected graphs.

    ///

    /// This class describes the interface of clearable undirected graphs.

    /// It extends \ref BaseGraphComponent with a function for clearing

    /// the graph.

      template <typename _Graph>

      struct Constraints {

        void constraints() {

          checkConcept<Base, _Graph>();

          graph.clear();

        }

        _Graph& graph;

      };

    };

  }

}

#endif

          own_state = _Heap::PRE_HEAP;

          own_state = _Heap::IN_HEAP;

          own_state = _Heap::POST_HEAP;

        }

        _Heap& heap;

        ItemIntMap& map;

      };

    };

    /// @}

  } // namespace lemon

}

#endif

          ignore_unused_variable_warning(key);

          ignore_unused_variable_warning(val);

          ignore_unused_variable_warning(own_key);

          ignore_unused_variable_warning(own_val);

        }

        const Key& key;

        const typename _ReadMap::Key& own_key;

        const _ReadMap& m;

      };

    };

    /// Writable map concept

    /// Writable map concept.

          ignore_unused_variable_warning(own_key);

          ignore_unused_variable_warning(own_val);

        }

        const Key& key;

        const Value& val;

        const typename _WriteMap::Key& own_key;

        const typename _WriteMap::Value& own_val;

        _WriteMap& m;

      };

    };

    /// Read/writable map concept

    /// Read/writable map concept.

    ///

    template<typename K, typename T>

      /// The key type of the map.

      typedef K Key;

      /// \brief The value type of the map.

      /// (The type of objects associated with the keys).

      typedef T Value;

      /// Returns the value associated with the given key.

      Value operator[](const Key &) const {

      }

      /// Sets the value associated with the given key.

      void set(const Key &, const Value &) {}

      template<typename _ReadWriteMap>

      struct Constraints {

        void constraints() {

      typedef R Reference;

      /// The const reference type of the map.

      typedef CR ConstReference;

    public:

      /// Returns a reference to the value associated with the given key.

      Reference operator[](const Key &) {

      }

      /// Returns a const reference to the value associated with the given key.

      ConstReference operator[](const Key &) const {

      }

      /// Sets the value associated with the given key.

      void set(const Key &k,const Value &t) { operator[](k)=t; }

      template<typename _ReferenceMap>

      struct Constraints {

        typename enable_if<typename _ReferenceMap::ReferenceMapTag, void>::type

        Value& val;

        Reference ref;

        ConstReference cref;

        const typename _ReferenceMap::Key& own_key;

        typename _ReferenceMap::Value& own_val;

        typename _ReferenceMap::Reference own_ref;

        typename _ReferenceMap::ConstReference own_cref;

        _ReferenceMap& m;

      };

    };

    // @}

  } //namespace concepts

} //namespace lemon

          e = (i != INVALID);

          ignore_unused_variable_warning(l);

          ignore_unused_variable_warning(e);

          ignore_unused_variable_warning(id);

          ignore_unused_variable_warning(ed);

        }

        _Path& p;

      };

      template <typename _Digraph, typename _Path>

      struct PathDumperConstraints<

        _Digraph, _Path,

        typename enable_if<typename _Path::RevPathTag, void>::type

      > {

        void constraints() {

          e = (i != INVALID);

          ignore_unused_variable_warning(l);

          ignore_unused_variable_warning(e);

          ignore_unused_variable_warning(id);

          ignore_unused_variable_warning(ed);

        }

        _Path& p;

      };

    }

    /// \brief A skeleton structure for path dumpers.

    ///

    /// A skeleton structure for path dumpers. The path dumpers are

        visitor.stop(arc);

        visitor.reach(node);

        visitor.discover(arc);

        visitor.examine(arc);

        visitor.leave(node);

        visitor.backtrack(arc);

      }

      _Visitor& visitor;

    };

  };

#endif

  /// \brief Default traits class of DfsVisit class.

  ///

  /// Default traits class of DfsVisit class.

  /// \tparam _Digraph The type of the digraph the algorithm runs on.