lemon/concepts/graph_components.h
author Alpar Juttner <alpar@cs.elte.hu>
Fri, 22 May 2015 17:38:17 +0200
changeset 1146 81f70097df81
parent 1008 d216e1c8b3fa
parent 1083 3e711ee55d31
child 1086 97f1760dcd13
permissions -rw-r--r--
Fix wrong iteration in ListGraph snapshot (#598)
     1 /* -*- mode: C++; indent-tabs-mode: nil; -*-
     2  *
     3  * This file is a part of LEMON, a generic C++ optimization library.
     4  *
     5  * Copyright (C) 2003-2010
     6  * Egervary Jeno Kombinatorikus Optimalizalasi Kutatocsoport
     7  * (Egervary Research Group on Combinatorial Optimization, EGRES).
     8  *
     9  * Permission to use, modify and distribute this software is granted
    10  * provided that this copyright notice appears in all copies. For
    11  * precise terms see the accompanying LICENSE file.
    12  *
    13  * This software is provided "AS IS" with no warranty of any kind,
    14  * express or implied, and with no claim as to its suitability for any
    15  * purpose.
    16  *
    17  */
    18 
    19 ///\ingroup graph_concepts
    20 ///\file
    21 ///\brief The concepts of graph components.
    22 
    23 #ifndef LEMON_CONCEPTS_GRAPH_COMPONENTS_H
    24 #define LEMON_CONCEPTS_GRAPH_COMPONENTS_H
    25 
    26 #include <lemon/core.h>
    27 #include <lemon/concepts/maps.h>
    28 
    29 #include <lemon/bits/alteration_notifier.h>
    30 
    31 namespace lemon {
    32   namespace concepts {
    33 
    34     /// \brief Concept class for \c Node, \c Arc and \c Edge types.
    35     ///
    36     /// This class describes the concept of \c Node, \c Arc and \c Edge
    37     /// subtypes of digraph and graph types.
    38     ///
    39     /// \note This class is a template class so that we can use it to
    40     /// create graph skeleton classes. The reason for this is that \c Node
    41     /// and \c Arc (or \c Edge) types should \e not derive from the same
    42     /// base class. For \c Node you should instantiate it with character
    43     /// \c 'n', for \c Arc with \c 'a' and for \c Edge with \c 'e'.
    44 #ifndef DOXYGEN
    45     template <char sel = '0'>
    46 #endif
    47     class GraphItem {
    48     public:
    49       /// \brief Default constructor.
    50       ///
    51       /// Default constructor.
    52       /// \warning The default constructor is not required to set
    53       /// the item to some well-defined value. So you should consider it
    54       /// as uninitialized.
    55       GraphItem() {}
    56 
    57       /// \brief Copy constructor.
    58       ///
    59       /// Copy constructor.
    60       GraphItem(const GraphItem &) {}
    61 
    62       /// \brief Constructor for conversion from \c INVALID.
    63       ///
    64       /// Constructor for conversion from \c INVALID.
    65       /// It initializes the item to be invalid.
    66       /// \sa Invalid for more details.
    67       GraphItem(Invalid) {}
    68 
    69       /// \brief Assignment operator.
    70       ///
    71       /// Assignment operator for the item.
    72       GraphItem& operator=(const GraphItem&) { return *this; }
    73 
    74       /// \brief Assignment operator for INVALID.
    75       ///
    76       /// This operator makes the item invalid.
    77       GraphItem& operator=(Invalid) { return *this; }
    78 
    79       /// \brief Equality operator.
    80       ///
    81       /// Equality operator.
    82       bool operator==(const GraphItem&) const { return false; }
    83 
    84       /// \brief Inequality operator.
    85       ///
    86       /// Inequality operator.
    87       bool operator!=(const GraphItem&) const { return false; }
    88 
    89       /// \brief Ordering operator.
    90       ///
    91       /// This operator defines an ordering of the items.
    92       /// It makes possible to use graph item types as key types in
    93       /// associative containers (e.g. \c std::map).
    94       ///
    95       /// \note This operator only has to define some strict ordering of
    96       /// the items; this order has nothing to do with the iteration
    97       /// ordering of the items.
    98       bool operator<(const GraphItem&) const { return false; }
    99 
   100       template<typename _GraphItem>
   101       struct Constraints {
   102         void constraints() {
   103           _GraphItem i1;
   104           i1=INVALID;
   105           _GraphItem i2 = i1;
   106           _GraphItem i3 = INVALID;
   107 
   108           i1 = i2 = i3;
   109 
   110           bool b;
   111           ::lemon::ignore_unused_variable_warning(b);
   112 
   113           b = (ia == ib) && (ia != ib);
   114           b = (ia == INVALID) && (ib != INVALID);
   115           b = (ia < ib);
   116         }
   117 
   118         const _GraphItem &ia;
   119         const _GraphItem &ib;
   120         Constraints() {}
   121       };
   122     };
   123 
   124     /// \brief Base skeleton class for directed graphs.
   125     ///
   126     /// This class describes the base interface of directed graph types.
   127     /// All digraph %concepts have to conform to this class.
   128     /// It just provides types for nodes and arcs and functions
   129     /// to get the source and the target nodes of arcs.
   130     class BaseDigraphComponent {
   131     public:
   132 
   133       typedef BaseDigraphComponent Digraph;
   134 
   135       /// \brief Node class of the digraph.
   136       ///
   137       /// This class represents the nodes of the digraph.
   138       typedef GraphItem<'n'> Node;
   139 
   140       /// \brief Arc class of the digraph.
   141       ///
   142       /// This class represents the arcs of the digraph.
   143       typedef GraphItem<'a'> Arc;
   144 
   145       /// \brief Return the source node of an arc.
   146       ///
   147       /// This function returns the source node of an arc.
   148       Node source(const Arc&) const { return INVALID; }
   149 
   150       /// \brief Return the target node of an arc.
   151       ///
   152       /// This function returns the target node of an arc.
   153       Node target(const Arc&) const { return INVALID; }
   154 
   155       /// \brief Return the opposite node on the given arc.
   156       ///
   157       /// This function returns the opposite node on the given arc.
   158       Node oppositeNode(const Node&, const Arc&) const {
   159         return INVALID;
   160       }
   161 
   162       template <typename _Digraph>
   163       struct Constraints {
   164         typedef typename _Digraph::Node Node;
   165         typedef typename _Digraph::Arc Arc;
   166 
   167         void constraints() {
   168           checkConcept<GraphItem<'n'>, Node>();
   169           checkConcept<GraphItem<'a'>, Arc>();
   170           {
   171             Node n;
   172             Arc e(INVALID);
   173             n = digraph.source(e);
   174             n = digraph.target(e);
   175             n = digraph.oppositeNode(n, e);
   176           }
   177         }
   178 
   179         const _Digraph& digraph;
   180         Constraints() {}
   181       };
   182     };
   183 
   184     /// \brief Base skeleton class for undirected graphs.
   185     ///
   186     /// This class describes the base interface of undirected graph types.
   187     /// All graph %concepts have to conform to this class.
   188     /// It extends the interface of \ref BaseDigraphComponent with an
   189     /// \c Edge type and functions to get the end nodes of edges,
   190     /// to convert from arcs to edges and to get both direction of edges.
   191     class BaseGraphComponent : public BaseDigraphComponent {
   192     public:
   193 
   194       typedef BaseGraphComponent Graph;
   195 
   196       typedef BaseDigraphComponent::Node Node;
   197       typedef BaseDigraphComponent::Arc Arc;
   198 
   199       /// \brief Undirected edge class of the graph.
   200       ///
   201       /// This class represents the undirected edges of the graph.
   202       /// Undirected graphs can be used as directed graphs, each edge is
   203       /// represented by two opposite directed arcs.
   204       class Edge : public GraphItem<'e'> {
   205         typedef GraphItem<'e'> Parent;
   206 
   207       public:
   208         /// \brief Default constructor.
   209         ///
   210         /// Default constructor.
   211         /// \warning The default constructor is not required to set
   212         /// the item to some well-defined value. So you should consider it
   213         /// as uninitialized.
   214         Edge() {}
   215 
   216         /// \brief Copy constructor.
   217         ///
   218         /// Copy constructor.
   219         Edge(const Edge &) : Parent() {}
   220 
   221         /// \brief Constructor for conversion from \c INVALID.
   222         ///
   223         /// Constructor for conversion from \c INVALID.
   224         /// It initializes the item to be invalid.
   225         /// \sa Invalid for more details.
   226         Edge(Invalid) {}
   227 
   228         /// \brief Constructor for conversion from an arc.
   229         ///
   230         /// Constructor for conversion from an arc.
   231         /// Besides the core graph item functionality each arc should
   232         /// be convertible to the represented edge.
   233         Edge(const Arc&) {}
   234      };
   235 
   236       /// \brief Return one end node of an edge.
   237       ///
   238       /// This function returns one end node of an edge.
   239       Node u(const Edge&) const { return INVALID; }
   240 
   241       /// \brief Return the other end node of an edge.
   242       ///
   243       /// This function returns the other end node of an edge.
   244       Node v(const Edge&) const { return INVALID; }
   245 
   246       /// \brief Return a directed arc related to an edge.
   247       ///
   248       /// This function returns a directed arc from its direction and the
   249       /// represented edge.
   250       Arc direct(const Edge&, bool) const { return INVALID; }
   251 
   252       /// \brief Return a directed arc related to an edge.
   253       ///
   254       /// This function returns a directed arc from its source node and the
   255       /// represented edge.
   256       Arc direct(const Edge&, const Node&) const { return INVALID; }
   257 
   258       /// \brief Return the direction of the arc.
   259       ///
   260       /// Returns the direction of the arc. Each arc represents an
   261       /// edge with a direction. It gives back the
   262       /// direction.
   263       bool direction(const Arc&) const { return true; }
   264 
   265       /// \brief Return the opposite arc.
   266       ///
   267       /// This function returns the opposite arc, i.e. the arc representing
   268       /// the same edge and has opposite direction.
   269       Arc oppositeArc(const Arc&) const { return INVALID; }
   270 
   271       template <typename _Graph>
   272       struct Constraints {
   273         typedef typename _Graph::Node Node;
   274         typedef typename _Graph::Arc Arc;
   275         typedef typename _Graph::Edge Edge;
   276 
   277         void constraints() {
   278           checkConcept<BaseDigraphComponent, _Graph>();
   279           checkConcept<GraphItem<'e'>, Edge>();
   280           {
   281             Node n;
   282             Edge ue(INVALID);
   283             Arc e;
   284             n = graph.u(ue);
   285             n = graph.v(ue);
   286             e = graph.direct(ue, true);
   287             e = graph.direct(ue, false);
   288             e = graph.direct(ue, n);
   289             e = graph.oppositeArc(e);
   290             ue = e;
   291             bool d = graph.direction(e);
   292             ::lemon::ignore_unused_variable_warning(d);
   293           }
   294         }
   295 
   296         const _Graph& graph;
   297       Constraints() {}
   298       };
   299 
   300     };
   301 
   302     /// \brief Skeleton class for \e idable directed graphs.
   303     ///
   304     /// This class describes the interface of \e idable directed graphs.
   305     /// It extends \ref BaseDigraphComponent with the core ID functions.
   306     /// The ids of the items must be unique and immutable.
   307     /// This concept is part of the Digraph concept.
   308     template <typename BAS = BaseDigraphComponent>
   309     class IDableDigraphComponent : public BAS {
   310     public:
   311 
   312       typedef BAS Base;
   313       typedef typename Base::Node Node;
   314       typedef typename Base::Arc Arc;
   315 
   316       /// \brief Return a unique integer id for the given node.
   317       ///
   318       /// This function returns a unique integer id for the given node.
   319       int id(const Node&) const { return -1; }
   320 
   321       /// \brief Return the node by its unique id.
   322       ///
   323       /// This function returns the node by its unique id.
   324       /// If the digraph does not contain a node with the given id,
   325       /// then the result of the function is undefined.
   326       Node nodeFromId(int) const { return INVALID; }
   327 
   328       /// \brief Return a unique integer id for the given arc.
   329       ///
   330       /// This function returns a unique integer id for the given arc.
   331       int id(const Arc&) const { return -1; }
   332 
   333       /// \brief Return the arc by its unique id.
   334       ///
   335       /// This function returns the arc by its unique id.
   336       /// If the digraph does not contain an arc with the given id,
   337       /// then the result of the function is undefined.
   338       Arc arcFromId(int) const { return INVALID; }
   339 
   340       /// \brief Return an integer greater or equal to the maximum
   341       /// node id.
   342       ///
   343       /// This function returns an integer greater or equal to the
   344       /// maximum node id.
   345       int maxNodeId() const { return -1; }
   346 
   347       /// \brief Return an integer greater or equal to the maximum
   348       /// arc id.
   349       ///
   350       /// This function returns an integer greater or equal to the
   351       /// maximum arc id.
   352       int maxArcId() const { return -1; }
   353 
   354       template <typename _Digraph>
   355       struct Constraints {
   356 
   357         void constraints() {
   358           checkConcept<Base, _Digraph >();
   359           typename _Digraph::Node node;
   360           node=INVALID;
   361           int nid = digraph.id(node);
   362           nid = digraph.id(node);
   363           node = digraph.nodeFromId(nid);
   364           typename _Digraph::Arc arc;
   365           arc=INVALID;
   366           int eid = digraph.id(arc);
   367           eid = digraph.id(arc);
   368           arc = digraph.arcFromId(eid);
   369 
   370           nid = digraph.maxNodeId();
   371           ::lemon::ignore_unused_variable_warning(nid);
   372           eid = digraph.maxArcId();
   373           ::lemon::ignore_unused_variable_warning(eid);
   374         }
   375 
   376         const _Digraph& digraph;
   377         Constraints() {}
   378       };
   379     };
   380 
   381     /// \brief Skeleton class for \e idable undirected graphs.
   382     ///
   383     /// This class describes the interface of \e idable undirected
   384     /// graphs. It extends \ref IDableDigraphComponent with the core ID
   385     /// functions of undirected graphs.
   386     /// The ids of the items must be unique and immutable.
   387     /// This concept is part of the Graph concept.
   388     template <typename BAS = BaseGraphComponent>
   389     class IDableGraphComponent : public IDableDigraphComponent<BAS> {
   390     public:
   391 
   392       typedef BAS Base;
   393       typedef typename Base::Edge Edge;
   394 
   395       using IDableDigraphComponent<Base>::id;
   396 
   397       /// \brief Return a unique integer id for the given edge.
   398       ///
   399       /// This function returns a unique integer id for the given edge.
   400       int id(const Edge&) const { return -1; }
   401 
   402       /// \brief Return the edge by its unique id.
   403       ///
   404       /// This function returns the edge by its unique id.
   405       /// If the graph does not contain an edge with the given id,
   406       /// then the result of the function is undefined.
   407       Edge edgeFromId(int) const { return INVALID; }
   408 
   409       /// \brief Return an integer greater or equal to the maximum
   410       /// edge id.
   411       ///
   412       /// This function returns an integer greater or equal to the
   413       /// maximum edge id.
   414       int maxEdgeId() const { return -1; }
   415 
   416       template <typename _Graph>
   417       struct Constraints {
   418 
   419         void constraints() {
   420           checkConcept<IDableDigraphComponent<Base>, _Graph >();
   421           typename _Graph::Edge edge;
   422           int ueid = graph.id(edge);
   423           ueid = graph.id(edge);
   424           edge = graph.edgeFromId(ueid);
   425           ueid = graph.maxEdgeId();
   426           ::lemon::ignore_unused_variable_warning(ueid);
   427         }
   428 
   429         const _Graph& graph;
   430         Constraints() {}
   431       };
   432     };
   433 
   434     /// \brief Concept class for \c NodeIt, \c ArcIt and \c EdgeIt types.
   435     ///
   436     /// This class describes the concept of \c NodeIt, \c ArcIt and
   437     /// \c EdgeIt subtypes of digraph and graph types.
   438     template <typename GR, typename Item>
   439     class GraphItemIt : public Item {
   440     public:
   441       /// \brief Default constructor.
   442       ///
   443       /// Default constructor.
   444       /// \warning The default constructor is not required to set
   445       /// the iterator to some well-defined value. So you should consider it
   446       /// as uninitialized.
   447       GraphItemIt() {}
   448 
   449       /// \brief Copy constructor.
   450       ///
   451       /// Copy constructor.
   452       GraphItemIt(const GraphItemIt& it) : Item(it) {}
   453 
   454       /// \brief Constructor that sets the iterator to the first item.
   455       ///
   456       /// Constructor that sets the iterator to the first item.
   457       explicit GraphItemIt(const GR&) {}
   458 
   459       /// \brief Constructor for conversion from \c INVALID.
   460       ///
   461       /// Constructor for conversion from \c INVALID.
   462       /// It initializes the iterator to be invalid.
   463       /// \sa Invalid for more details.
   464       GraphItemIt(Invalid) {}
   465 
   466       /// \brief Assignment operator.
   467       ///
   468       /// Assignment operator for the iterator.
   469       GraphItemIt& operator=(const GraphItemIt&) { return *this; }
   470 
   471       /// \brief Increment the iterator.
   472       ///
   473       /// This operator increments the iterator, i.e. assigns it to the
   474       /// next item.
   475       GraphItemIt& operator++() { return *this; }
   476 
   477       /// \brief Equality operator
   478       ///
   479       /// Equality operator.
   480       /// Two iterators are equal if and only if they point to the
   481       /// same object or both are invalid.
   482       bool operator==(const GraphItemIt&) const { return true;}
   483 
   484       /// \brief Inequality operator
   485       ///
   486       /// Inequality operator.
   487       /// Two iterators are equal if and only if they point to the
   488       /// same object or both are invalid.
   489       bool operator!=(const GraphItemIt&) const { return true;}
   490 
   491       template<typename _GraphItemIt>
   492       struct Constraints {
   493         void constraints() {
   494           checkConcept<GraphItem<>, _GraphItemIt>();
   495           _GraphItemIt it1(g);
   496           _GraphItemIt it2;
   497           _GraphItemIt it3 = it1;
   498           _GraphItemIt it4 = INVALID;
   499           ::lemon::ignore_unused_variable_warning(it3);
   500           ::lemon::ignore_unused_variable_warning(it4);
   501 
   502           it2 = ++it1;
   503           ++it2 = it1;
   504           ++(++it1);
   505 
   506           Item bi = it1;
   507           bi = it2;
   508         }
   509         const GR& g;
   510         Constraints() {}
   511       };
   512     };
   513 
   514     /// \brief Concept class for \c InArcIt, \c OutArcIt and
   515     /// \c IncEdgeIt types.
   516     ///
   517     /// This class describes the concept of \c InArcIt, \c OutArcIt
   518     /// and \c IncEdgeIt subtypes of digraph and graph types.
   519     ///
   520     /// \note Since these iterator classes do not inherit from the same
   521     /// base class, there is an additional template parameter (selector)
   522     /// \c sel. For \c InArcIt you should instantiate it with character
   523     /// \c 'i', for \c OutArcIt with \c 'o' and for \c IncEdgeIt with \c 'e'.
   524     template <typename GR,
   525               typename Item = typename GR::Arc,
   526               typename Base = typename GR::Node,
   527               char sel = '0'>
   528     class GraphIncIt : public Item {
   529     public:
   530       /// \brief Default constructor.
   531       ///
   532       /// Default constructor.
   533       /// \warning The default constructor is not required to set
   534       /// the iterator to some well-defined value. So you should consider it
   535       /// as uninitialized.
   536       GraphIncIt() {}
   537 
   538       /// \brief Copy constructor.
   539       ///
   540       /// Copy constructor.
   541       GraphIncIt(const GraphIncIt& it) : Item(it) {}
   542 
   543       /// \brief Constructor that sets the iterator to the first
   544       /// incoming or outgoing arc.
   545       ///
   546       /// Constructor that sets the iterator to the first arc
   547       /// incoming to or outgoing from the given node.
   548       explicit GraphIncIt(const GR&, const Base&) {}
   549 
   550       /// \brief Constructor for conversion from \c INVALID.
   551       ///
   552       /// Constructor for conversion from \c INVALID.
   553       /// It initializes the iterator to be invalid.
   554       /// \sa Invalid for more details.
   555       GraphIncIt(Invalid) {}
   556 
   557       /// \brief Assignment operator.
   558       ///
   559       /// Assignment operator for the iterator.
   560       GraphIncIt& operator=(const GraphIncIt&) { return *this; }
   561 
   562       /// \brief Increment the iterator.
   563       ///
   564       /// This operator increments the iterator, i.e. assigns it to the
   565       /// next arc incoming to or outgoing from the given node.
   566       GraphIncIt& operator++() { return *this; }
   567 
   568       /// \brief Equality operator
   569       ///
   570       /// Equality operator.
   571       /// Two iterators are equal if and only if they point to the
   572       /// same object or both are invalid.
   573       bool operator==(const GraphIncIt&) const { return true;}
   574 
   575       /// \brief Inequality operator
   576       ///
   577       /// Inequality operator.
   578       /// Two iterators are equal if and only if they point to the
   579       /// same object or both are invalid.
   580       bool operator!=(const GraphIncIt&) const { return true;}
   581 
   582       template <typename _GraphIncIt>
   583       struct Constraints {
   584         void constraints() {
   585           checkConcept<GraphItem<sel>, _GraphIncIt>();
   586           _GraphIncIt it1(graph, node);
   587           _GraphIncIt it2;
   588           _GraphIncIt it3 = it1;
   589           _GraphIncIt it4 = INVALID;
   590           ::lemon::ignore_unused_variable_warning(it3);
   591           ::lemon::ignore_unused_variable_warning(it4);
   592 
   593           it2 = ++it1;
   594           ++it2 = it1;
   595           ++(++it1);
   596           Item e = it1;
   597           e = it2;
   598         }
   599         const Base& node;
   600         const GR& graph;
   601         Constraints() {}
   602       };
   603     };
   604 
   605     /// \brief Skeleton class for iterable directed graphs.
   606     ///
   607     /// This class describes the interface of iterable directed
   608     /// graphs. It extends \ref BaseDigraphComponent with the core
   609     /// iterable interface.
   610     /// This concept is part of the Digraph concept.
   611     template <typename BAS = BaseDigraphComponent>
   612     class IterableDigraphComponent : public BAS {
   613 
   614     public:
   615 
   616       typedef BAS Base;
   617       typedef typename Base::Node Node;
   618       typedef typename Base::Arc Arc;
   619 
   620       typedef IterableDigraphComponent Digraph;
   621 
   622       /// \name Base Iteration
   623       ///
   624       /// This interface provides functions for iteration on digraph items.
   625       ///
   626       /// @{
   627 
   628       /// \brief Return the first node.
   629       ///
   630       /// This function gives back the first node in the iteration order.
   631       void first(Node&) const {}
   632 
   633       /// \brief Return the next node.
   634       ///
   635       /// This function gives back the next node in the iteration order.
   636       void next(Node&) const {}
   637 
   638       /// \brief Return the first arc.
   639       ///
   640       /// This function gives back the first arc in the iteration order.
   641       void first(Arc&) const {}
   642 
   643       /// \brief Return the next arc.
   644       ///
   645       /// This function gives back the next arc in the iteration order.
   646       void next(Arc&) const {}
   647 
   648       /// \brief Return the first arc incomming to the given node.
   649       ///
   650       /// This function gives back the first arc incomming to the
   651       /// given node.
   652       void firstIn(Arc&, const Node&) const {}
   653 
   654       /// \brief Return the next arc incomming to the given node.
   655       ///
   656       /// This function gives back the next arc incomming to the
   657       /// given node.
   658       void nextIn(Arc&) const {}
   659 
   660       /// \brief Return the first arc outgoing form the given node.
   661       ///
   662       /// This function gives back the first arc outgoing form the
   663       /// given node.
   664       void firstOut(Arc&, const Node&) const {}
   665 
   666       /// \brief Return the next arc outgoing form the given node.
   667       ///
   668       /// This function gives back the next arc outgoing form the
   669       /// given node.
   670       void nextOut(Arc&) const {}
   671 
   672       /// @}
   673 
   674       /// \name Class Based Iteration
   675       ///
   676       /// This interface provides iterator classes for digraph items.
   677       ///
   678       /// @{
   679 
   680       /// \brief This iterator goes through each node.
   681       ///
   682       /// This iterator goes through each node.
   683       ///
   684       typedef GraphItemIt<Digraph, Node> NodeIt;
   685 
   686       /// \brief This iterator goes through each arc.
   687       ///
   688       /// This iterator goes through each arc.
   689       ///
   690       typedef GraphItemIt<Digraph, Arc> ArcIt;
   691 
   692       /// \brief This iterator goes trough the incoming arcs of a node.
   693       ///
   694       /// This iterator goes trough the \e incoming arcs of a certain node
   695       /// of a digraph.
   696       typedef GraphIncIt<Digraph, Arc, Node, 'i'> InArcIt;
   697 
   698       /// \brief This iterator goes trough the outgoing arcs of a node.
   699       ///
   700       /// This iterator goes trough the \e outgoing arcs of a certain node
   701       /// of a digraph.
   702       typedef GraphIncIt<Digraph, Arc, Node, 'o'> OutArcIt;
   703 
   704       /// \brief The base node of the iterator.
   705       ///
   706       /// This function gives back the base node of the iterator.
   707       /// It is always the target node of the pointed arc.
   708       Node baseNode(const InArcIt&) const { return INVALID; }
   709 
   710       /// \brief The running node of the iterator.
   711       ///
   712       /// This function gives back the running node of the iterator.
   713       /// It is always the source node of the pointed arc.
   714       Node runningNode(const InArcIt&) const { return INVALID; }
   715 
   716       /// \brief The base node of the iterator.
   717       ///
   718       /// This function gives back the base node of the iterator.
   719       /// It is always the source node of the pointed arc.
   720       Node baseNode(const OutArcIt&) const { return INVALID; }
   721 
   722       /// \brief The running node of the iterator.
   723       ///
   724       /// This function gives back the running node of the iterator.
   725       /// It is always the target node of the pointed arc.
   726       Node runningNode(const OutArcIt&) const { return INVALID; }
   727 
   728       /// @}
   729 
   730       template <typename _Digraph>
   731       struct Constraints {
   732         void constraints() {
   733           checkConcept<Base, _Digraph>();
   734 
   735           {
   736             typename _Digraph::Node node(INVALID);
   737             typename _Digraph::Arc arc(INVALID);
   738             {
   739               digraph.first(node);
   740               digraph.next(node);
   741             }
   742             {
   743               digraph.first(arc);
   744               digraph.next(arc);
   745             }
   746             {
   747               digraph.firstIn(arc, node);
   748               digraph.nextIn(arc);
   749             }
   750             {
   751               digraph.firstOut(arc, node);
   752               digraph.nextOut(arc);
   753             }
   754           }
   755 
   756           {
   757             checkConcept<GraphItemIt<_Digraph, typename _Digraph::Arc>,
   758               typename _Digraph::ArcIt >();
   759             checkConcept<GraphItemIt<_Digraph, typename _Digraph::Node>,
   760               typename _Digraph::NodeIt >();
   761             checkConcept<GraphIncIt<_Digraph, typename _Digraph::Arc,
   762               typename _Digraph::Node, 'i'>, typename _Digraph::InArcIt>();
   763             checkConcept<GraphIncIt<_Digraph, typename _Digraph::Arc,
   764               typename _Digraph::Node, 'o'>, typename _Digraph::OutArcIt>();
   765 
   766             typename _Digraph::Node n;
   767             const typename _Digraph::InArcIt iait(INVALID);
   768             const typename _Digraph::OutArcIt oait(INVALID);
   769             n = digraph.baseNode(iait);
   770             n = digraph.runningNode(iait);
   771             n = digraph.baseNode(oait);
   772             n = digraph.runningNode(oait);
   773             ::lemon::ignore_unused_variable_warning(n);
   774           }
   775         }
   776 
   777         const _Digraph& digraph;
   778         Constraints() {}
   779       };
   780     };
   781 
   782     /// \brief Skeleton class for iterable undirected graphs.
   783     ///
   784     /// This class describes the interface of iterable undirected
   785     /// graphs. It extends \ref IterableDigraphComponent with the core
   786     /// iterable interface of undirected graphs.
   787     /// This concept is part of the Graph concept.
   788     template <typename BAS = BaseGraphComponent>
   789     class IterableGraphComponent : public IterableDigraphComponent<BAS> {
   790     public:
   791 
   792       typedef BAS Base;
   793       typedef typename Base::Node Node;
   794       typedef typename Base::Arc Arc;
   795       typedef typename Base::Edge Edge;
   796 
   797 
   798       typedef IterableGraphComponent Graph;
   799 
   800       /// \name Base Iteration
   801       ///
   802       /// This interface provides functions for iteration on edges.
   803       ///
   804       /// @{
   805 
   806       using IterableDigraphComponent<Base>::first;
   807       using IterableDigraphComponent<Base>::next;
   808 
   809       /// \brief Return the first edge.
   810       ///
   811       /// This function gives back the first edge in the iteration order.
   812       void first(Edge&) const {}
   813 
   814       /// \brief Return the next edge.
   815       ///
   816       /// This function gives back the next edge in the iteration order.
   817       void next(Edge&) const {}
   818 
   819       /// \brief Return the first edge incident to the given node.
   820       ///
   821       /// This function gives back the first edge incident to the given
   822       /// node. The bool parameter gives back the direction for which the
   823       /// source node of the directed arc representing the edge is the
   824       /// given node.
   825       void firstInc(Edge&, bool&, const Node&) const {}
   826 
   827       /// \brief Gives back the next of the edges from the
   828       /// given node.
   829       ///
   830       /// This function gives back the next edge incident to the given
   831       /// node. The bool parameter should be used as \c firstInc() use it.
   832       void nextInc(Edge&, bool&) const {}
   833 
   834       using IterableDigraphComponent<Base>::baseNode;
   835       using IterableDigraphComponent<Base>::runningNode;
   836 
   837       /// @}
   838 
   839       /// \name Class Based Iteration
   840       ///
   841       /// This interface provides iterator classes for edges.
   842       ///
   843       /// @{
   844 
   845       /// \brief This iterator goes through each edge.
   846       ///
   847       /// This iterator goes through each edge.
   848       typedef GraphItemIt<Graph, Edge> EdgeIt;
   849 
   850       /// \brief This iterator goes trough the incident edges of a
   851       /// node.
   852       ///
   853       /// This iterator goes trough the incident edges of a certain
   854       /// node of a graph.
   855       typedef GraphIncIt<Graph, Edge, Node, 'e'> IncEdgeIt;
   856 
   857       /// \brief The base node of the iterator.
   858       ///
   859       /// This function gives back the base node of the iterator.
   860       Node baseNode(const IncEdgeIt&) const { return INVALID; }
   861 
   862       /// \brief The running node of the iterator.
   863       ///
   864       /// This function gives back the running node of the iterator.
   865       Node runningNode(const IncEdgeIt&) const { return INVALID; }
   866 
   867       /// @}
   868 
   869       template <typename _Graph>
   870       struct Constraints {
   871         void constraints() {
   872           checkConcept<IterableDigraphComponent<Base>, _Graph>();
   873 
   874           {
   875             typename _Graph::Node node(INVALID);
   876             typename _Graph::Edge edge(INVALID);
   877             bool dir;
   878             {
   879               graph.first(edge);
   880               graph.next(edge);
   881             }
   882             {
   883               graph.firstInc(edge, dir, node);
   884               graph.nextInc(edge, dir);
   885             }
   886 
   887           }
   888 
   889           {
   890             checkConcept<GraphItemIt<_Graph, typename _Graph::Edge>,
   891               typename _Graph::EdgeIt >();
   892             checkConcept<GraphIncIt<_Graph, typename _Graph::Edge,
   893               typename _Graph::Node, 'e'>, typename _Graph::IncEdgeIt>();
   894 
   895             typename _Graph::Node n;
   896             const typename _Graph::IncEdgeIt ieit(INVALID);
   897             n = graph.baseNode(ieit);
   898             n = graph.runningNode(ieit);
   899           }
   900         }
   901 
   902         const _Graph& graph;
   903         Constraints() {}
   904       };
   905     };
   906 
   907     /// \brief Skeleton class for alterable directed graphs.
   908     ///
   909     /// This class describes the interface of alterable directed
   910     /// graphs. It extends \ref BaseDigraphComponent with the alteration
   911     /// notifier interface. It implements
   912     /// an observer-notifier pattern for each digraph item. More
   913     /// obsevers can be registered into the notifier and whenever an
   914     /// alteration occured in the digraph all the observers will be
   915     /// notified about it.
   916     template <typename BAS = BaseDigraphComponent>
   917     class AlterableDigraphComponent : public BAS {
   918     public:
   919 
   920       typedef BAS Base;
   921       typedef typename Base::Node Node;
   922       typedef typename Base::Arc Arc;
   923 
   924 
   925       /// Node alteration notifier class.
   926       typedef AlterationNotifier<AlterableDigraphComponent, Node>
   927       NodeNotifier;
   928       /// Arc alteration notifier class.
   929       typedef AlterationNotifier<AlterableDigraphComponent, Arc>
   930       ArcNotifier;
   931 
   932       /// \brief Return the node alteration notifier.
   933       ///
   934       /// This function gives back the node alteration notifier.
   935       NodeNotifier& notifier(Node) const {
   936          return NodeNotifier();
   937       }
   938 
   939       /// \brief Return the arc alteration notifier.
   940       ///
   941       /// This function gives back the arc alteration notifier.
   942       ArcNotifier& notifier(Arc) const {
   943         return ArcNotifier();
   944       }
   945 
   946       template <typename _Digraph>
   947       struct Constraints {
   948         void constraints() {
   949           checkConcept<Base, _Digraph>();
   950           typename _Digraph::NodeNotifier& nn
   951             = digraph.notifier(typename _Digraph::Node());
   952 
   953           typename _Digraph::ArcNotifier& en
   954             = digraph.notifier(typename _Digraph::Arc());
   955 
   956           ::lemon::ignore_unused_variable_warning(nn);
   957           ::lemon::ignore_unused_variable_warning(en);
   958         }
   959 
   960         const _Digraph& digraph;
   961         Constraints() {}
   962       };
   963     };
   964 
   965     /// \brief Skeleton class for alterable undirected graphs.
   966     ///
   967     /// This class describes the interface of alterable undirected
   968     /// graphs. It extends \ref AlterableDigraphComponent with the alteration
   969     /// notifier interface of undirected graphs. It implements
   970     /// an observer-notifier pattern for the edges. More
   971     /// obsevers can be registered into the notifier and whenever an
   972     /// alteration occured in the graph all the observers will be
   973     /// notified about it.
   974     template <typename BAS = BaseGraphComponent>
   975     class AlterableGraphComponent : public AlterableDigraphComponent<BAS> {
   976     public:
   977 
   978       typedef BAS Base;
   979       typedef typename Base::Edge Edge;
   980 
   981 
   982       /// Edge alteration notifier class.
   983       typedef AlterationNotifier<AlterableGraphComponent, Edge>
   984       EdgeNotifier;
   985 
   986       /// \brief Return the edge alteration notifier.
   987       ///
   988       /// This function gives back the edge alteration notifier.
   989       EdgeNotifier& notifier(Edge) const {
   990         return EdgeNotifier();
   991       }
   992 
   993       template <typename _Graph>
   994       struct Constraints {
   995         void constraints() {
   996           checkConcept<AlterableDigraphComponent<Base>, _Graph>();
   997           typename _Graph::EdgeNotifier& uen
   998             = graph.notifier(typename _Graph::Edge());
   999           ::lemon::ignore_unused_variable_warning(uen);
  1000         }
  1001 
  1002         const _Graph& graph;
  1003         Constraints() {}
  1004       };
  1005     };
  1006 
  1007     /// \brief Concept class for standard graph maps.
  1008     ///
  1009     /// This class describes the concept of standard graph maps, i.e.
  1010     /// the \c NodeMap, \c ArcMap and \c EdgeMap subtypes of digraph and
  1011     /// graph types, which can be used for associating data to graph items.
  1012     /// The standard graph maps must conform to the ReferenceMap concept.
  1013     template <typename GR, typename K, typename V>
  1014     class GraphMap : public ReferenceMap<K, V, V&, const V&> {
  1015       typedef ReferenceMap<K, V, V&, const V&> Parent;
  1016 
  1017     public:
  1018 
  1019       /// The key type of the map.
  1020       typedef K Key;
  1021       /// The value type of the map.
  1022       typedef V Value;
  1023       /// The reference type of the map.
  1024       typedef Value& Reference;
  1025       /// The const reference type of the map.
  1026       typedef const Value& ConstReference;
  1027 
  1028       // The reference map tag.
  1029       typedef True ReferenceMapTag;
  1030 
  1031       /// \brief Construct a new map.
  1032       ///
  1033       /// Construct a new map for the graph.
  1034       explicit GraphMap(const GR&) {}
  1035       /// \brief Construct a new map with default value.
  1036       ///
  1037       /// Construct a new map for the graph and initalize the values.
  1038       GraphMap(const GR&, const Value&) {}
  1039 
  1040     private:
  1041       /// \brief Copy constructor.
  1042       ///
  1043       /// Copy Constructor.
  1044       GraphMap(const GraphMap&) : Parent() {}
  1045 
  1046       /// \brief Assignment operator.
  1047       ///
  1048       /// Assignment operator. It does not mofify the underlying graph,
  1049       /// it just iterates on the current item set and set the  map
  1050       /// with the value returned by the assigned map.
  1051       template <typename CMap>
  1052       GraphMap& operator=(const CMap&) {
  1053         checkConcept<ReadMap<Key, Value>, CMap>();
  1054         return *this;
  1055       }
  1056 
  1057     public:
  1058       template<typename _Map>
  1059       struct Constraints {
  1060         void constraints() {
  1061           checkConcept
  1062             <ReferenceMap<Key, Value, Value&, const Value&>, _Map>();
  1063           _Map m1(g);
  1064           _Map m2(g,t);
  1065 
  1066           // Copy constructor
  1067           // _Map m3(m);
  1068 
  1069           // Assignment operator
  1070           // ReadMap<Key, Value> cmap;
  1071           // m3 = cmap;
  1072 
  1073           ::lemon::ignore_unused_variable_warning(m1);
  1074           ::lemon::ignore_unused_variable_warning(m2);
  1075           // ::lemon::ignore_unused_variable_warning(m3);
  1076         }
  1077 
  1078         const _Map &m;
  1079         const GR &g;
  1080         const typename GraphMap::Value &t;
  1081         Constraints() {}
  1082       };
  1083 
  1084     };
  1085 
  1086     /// \brief Skeleton class for mappable directed graphs.
  1087     ///
  1088     /// This class describes the interface of mappable directed graphs.
  1089     /// It extends \ref BaseDigraphComponent with the standard digraph
  1090     /// map classes, namely \c NodeMap and \c ArcMap.
  1091     /// This concept is part of the Digraph concept.
  1092     template <typename BAS = BaseDigraphComponent>
  1093     class MappableDigraphComponent : public BAS  {
  1094     public:
  1095 
  1096       typedef BAS Base;
  1097       typedef typename Base::Node Node;
  1098       typedef typename Base::Arc Arc;
  1099 
  1100       typedef MappableDigraphComponent Digraph;
  1101 
  1102       /// \brief Standard graph map for the nodes.
  1103       ///
  1104       /// Standard graph map for the nodes.
  1105       /// It conforms to the ReferenceMap concept.
  1106       template <typename V>
  1107       class NodeMap : public GraphMap<MappableDigraphComponent, Node, V> {
  1108         typedef GraphMap<MappableDigraphComponent, Node, V> Parent;
  1109 
  1110       public:
  1111         /// \brief Construct a new map.
  1112         ///
  1113         /// Construct a new map for the digraph.
  1114         explicit NodeMap(const MappableDigraphComponent& digraph)
  1115           : Parent(digraph) {}
  1116 
  1117         /// \brief Construct a new map with default value.
  1118         ///
  1119         /// Construct a new map for the digraph and initalize the values.
  1120         NodeMap(const MappableDigraphComponent& digraph, const V& value)
  1121           : Parent(digraph, value) {}
  1122 
  1123       private:
  1124         /// \brief Copy constructor.
  1125         ///
  1126         /// Copy Constructor.
  1127         NodeMap(const NodeMap& nm) : Parent(nm) {}
  1128 
  1129         /// \brief Assignment operator.
  1130         ///
  1131         /// Assignment operator.
  1132         template <typename CMap>
  1133         NodeMap& operator=(const CMap&) {
  1134           checkConcept<ReadMap<Node, V>, CMap>();
  1135           return *this;
  1136         }
  1137 
  1138       };
  1139 
  1140       /// \brief Standard graph map for the arcs.
  1141       ///
  1142       /// Standard graph map for the arcs.
  1143       /// It conforms to the ReferenceMap concept.
  1144       template <typename V>
  1145       class ArcMap : public GraphMap<MappableDigraphComponent, Arc, V> {
  1146         typedef GraphMap<MappableDigraphComponent, Arc, V> Parent;
  1147 
  1148       public:
  1149         /// \brief Construct a new map.
  1150         ///
  1151         /// Construct a new map for the digraph.
  1152         explicit ArcMap(const MappableDigraphComponent& digraph)
  1153           : Parent(digraph) {}
  1154 
  1155         /// \brief Construct a new map with default value.
  1156         ///
  1157         /// Construct a new map for the digraph and initalize the values.
  1158         ArcMap(const MappableDigraphComponent& digraph, const V& value)
  1159           : Parent(digraph, value) {}
  1160 
  1161       private:
  1162         /// \brief Copy constructor.
  1163         ///
  1164         /// Copy Constructor.
  1165         ArcMap(const ArcMap& nm) : Parent(nm) {}
  1166 
  1167         /// \brief Assignment operator.
  1168         ///
  1169         /// Assignment operator.
  1170         template <typename CMap>
  1171         ArcMap& operator=(const CMap&) {
  1172           checkConcept<ReadMap<Arc, V>, CMap>();
  1173           return *this;
  1174         }
  1175 
  1176       };
  1177 
  1178 
  1179       template <typename _Digraph>
  1180       struct Constraints {
  1181 
  1182         struct Dummy {
  1183           int value;
  1184           Dummy() : value(0) {}
  1185           Dummy(int _v) : value(_v) {}
  1186         };
  1187 
  1188         void constraints() {
  1189           checkConcept<Base, _Digraph>();
  1190           { // int map test
  1191             typedef typename _Digraph::template NodeMap<int> IntNodeMap;
  1192             checkConcept<GraphMap<_Digraph, typename _Digraph::Node, int>,
  1193               IntNodeMap >();
  1194           } { // bool map test
  1195             typedef typename _Digraph::template NodeMap<bool> BoolNodeMap;
  1196             checkConcept<GraphMap<_Digraph, typename _Digraph::Node, bool>,
  1197               BoolNodeMap >();
  1198           } { // Dummy map test
  1199             typedef typename _Digraph::template NodeMap<Dummy> DummyNodeMap;
  1200             checkConcept<GraphMap<_Digraph, typename _Digraph::Node, Dummy>,
  1201               DummyNodeMap >();
  1202           }
  1203 
  1204           { // int map test
  1205             typedef typename _Digraph::template ArcMap<int> IntArcMap;
  1206             checkConcept<GraphMap<_Digraph, typename _Digraph::Arc, int>,
  1207               IntArcMap >();
  1208           } { // bool map test
  1209             typedef typename _Digraph::template ArcMap<bool> BoolArcMap;
  1210             checkConcept<GraphMap<_Digraph, typename _Digraph::Arc, bool>,
  1211               BoolArcMap >();
  1212           } { // Dummy map test
  1213             typedef typename _Digraph::template ArcMap<Dummy> DummyArcMap;
  1214             checkConcept<GraphMap<_Digraph, typename _Digraph::Arc, Dummy>,
  1215               DummyArcMap >();
  1216           }
  1217         }
  1218 
  1219         const _Digraph& digraph;
  1220         Constraints() {}
  1221       };
  1222     };
  1223 
  1224     /// \brief Skeleton class for mappable undirected graphs.
  1225     ///
  1226     /// This class describes the interface of mappable undirected graphs.
  1227     /// It extends \ref MappableDigraphComponent with the standard graph
  1228     /// map class for edges (\c EdgeMap).
  1229     /// This concept is part of the Graph concept.
  1230     template <typename BAS = BaseGraphComponent>
  1231     class MappableGraphComponent : public MappableDigraphComponent<BAS>  {
  1232     public:
  1233 
  1234       typedef BAS Base;
  1235       typedef typename Base::Edge Edge;
  1236 
  1237       typedef MappableGraphComponent Graph;
  1238 
  1239       /// \brief Standard graph map for the edges.
  1240       ///
  1241       /// Standard graph map for the edges.
  1242       /// It conforms to the ReferenceMap concept.
  1243       template <typename V>
  1244       class EdgeMap : public GraphMap<MappableGraphComponent, Edge, V> {
  1245         typedef GraphMap<MappableGraphComponent, Edge, V> Parent;
  1246 
  1247       public:
  1248         /// \brief Construct a new map.
  1249         ///
  1250         /// Construct a new map for the graph.
  1251         explicit EdgeMap(const MappableGraphComponent& graph)
  1252           : Parent(graph) {}
  1253 
  1254         /// \brief Construct a new map with default value.
  1255         ///
  1256         /// Construct a new map for the graph and initalize the values.
  1257         EdgeMap(const MappableGraphComponent& graph, const V& value)
  1258           : Parent(graph, value) {}
  1259 
  1260       private:
  1261         /// \brief Copy constructor.
  1262         ///
  1263         /// Copy Constructor.
  1264         EdgeMap(const EdgeMap& nm) : Parent(nm) {}
  1265 
  1266         /// \brief Assignment operator.
  1267         ///
  1268         /// Assignment operator.
  1269         template <typename CMap>
  1270         EdgeMap& operator=(const CMap&) {
  1271           checkConcept<ReadMap<Edge, V>, CMap>();
  1272           return *this;
  1273         }
  1274 
  1275       };
  1276 
  1277 
  1278       template <typename _Graph>
  1279       struct Constraints {
  1280 
  1281         struct Dummy {
  1282           int value;
  1283           Dummy() : value(0) {}
  1284           Dummy(int _v) : value(_v) {}
  1285         };
  1286 
  1287         void constraints() {
  1288           checkConcept<MappableDigraphComponent<Base>, _Graph>();
  1289 
  1290           { // int map test
  1291             typedef typename _Graph::template EdgeMap<int> IntEdgeMap;
  1292             checkConcept<GraphMap<_Graph, typename _Graph::Edge, int>,
  1293               IntEdgeMap >();
  1294           } { // bool map test
  1295             typedef typename _Graph::template EdgeMap<bool> BoolEdgeMap;
  1296             checkConcept<GraphMap<_Graph, typename _Graph::Edge, bool>,
  1297               BoolEdgeMap >();
  1298           } { // Dummy map test
  1299             typedef typename _Graph::template EdgeMap<Dummy> DummyEdgeMap;
  1300             checkConcept<GraphMap<_Graph, typename _Graph::Edge, Dummy>,
  1301               DummyEdgeMap >();
  1302           }
  1303         }
  1304 
  1305         const _Graph& graph;
  1306         Constraints() {}
  1307       };
  1308     };
  1309 
  1310     /// \brief Skeleton class for extendable directed graphs.
  1311     ///
  1312     /// This class describes the interface of extendable directed graphs.
  1313     /// It extends \ref BaseDigraphComponent with functions for adding
  1314     /// nodes and arcs to the digraph.
  1315     /// This concept requires \ref AlterableDigraphComponent.
  1316     template <typename BAS = BaseDigraphComponent>
  1317     class ExtendableDigraphComponent : public BAS {
  1318     public:
  1319       typedef BAS Base;
  1320 
  1321       typedef typename Base::Node Node;
  1322       typedef typename Base::Arc Arc;
  1323 
  1324       /// \brief Add a new node to the digraph.
  1325       ///
  1326       /// This function adds a new node to the digraph.
  1327       Node addNode() {
  1328         return INVALID;
  1329       }
  1330 
  1331       /// \brief Add a new arc connecting the given two nodes.
  1332       ///
  1333       /// This function adds a new arc connecting the given two nodes
  1334       /// of the digraph.
  1335       Arc addArc(const Node&, const Node&) {
  1336         return INVALID;
  1337       }
  1338 
  1339       template <typename _Digraph>
  1340       struct Constraints {
  1341         void constraints() {
  1342           checkConcept<Base, _Digraph>();
  1343           typename _Digraph::Node node_a, node_b;
  1344           node_a = digraph.addNode();
  1345           node_b = digraph.addNode();
  1346           typename _Digraph::Arc arc;
  1347           arc = digraph.addArc(node_a, node_b);
  1348         }
  1349 
  1350         _Digraph& digraph;
  1351         Constraints() {}
  1352       };
  1353     };
  1354 
  1355     /// \brief Skeleton class for extendable undirected graphs.
  1356     ///
  1357     /// This class describes the interface of extendable undirected graphs.
  1358     /// It extends \ref BaseGraphComponent with functions for adding
  1359     /// nodes and edges to the graph.
  1360     /// This concept requires \ref AlterableGraphComponent.
  1361     template <typename BAS = BaseGraphComponent>
  1362     class ExtendableGraphComponent : public BAS {
  1363     public:
  1364 
  1365       typedef BAS Base;
  1366       typedef typename Base::Node Node;
  1367       typedef typename Base::Edge Edge;
  1368 
  1369       /// \brief Add a new node to the digraph.
  1370       ///
  1371       /// This function adds a new node to the digraph.
  1372       Node addNode() {
  1373         return INVALID;
  1374       }
  1375 
  1376       /// \brief Add a new edge connecting the given two nodes.
  1377       ///
  1378       /// This function adds a new edge connecting the given two nodes
  1379       /// of the graph.
  1380       Edge addEdge(const Node&, const Node&) {
  1381         return INVALID;
  1382       }
  1383 
  1384       template <typename _Graph>
  1385       struct Constraints {
  1386         void constraints() {
  1387           checkConcept<Base, _Graph>();
  1388           typename _Graph::Node node_a, node_b;
  1389           node_a = graph.addNode();
  1390           node_b = graph.addNode();
  1391           typename _Graph::Edge edge;
  1392           edge = graph.addEdge(node_a, node_b);
  1393         }
  1394 
  1395         _Graph& graph;
  1396         Constraints() {}
  1397       };
  1398     };
  1399 
  1400     /// \brief Skeleton class for erasable directed graphs.
  1401     ///
  1402     /// This class describes the interface of erasable directed graphs.
  1403     /// It extends \ref BaseDigraphComponent with functions for removing
  1404     /// nodes and arcs from the digraph.
  1405     /// This concept requires \ref AlterableDigraphComponent.
  1406     template <typename BAS = BaseDigraphComponent>
  1407     class ErasableDigraphComponent : public BAS {
  1408     public:
  1409 
  1410       typedef BAS Base;
  1411       typedef typename Base::Node Node;
  1412       typedef typename Base::Arc Arc;
  1413 
  1414       /// \brief Erase a node from the digraph.
  1415       ///
  1416       /// This function erases the given node from the digraph and all arcs
  1417       /// connected to the node.
  1418       void erase(const Node&) {}
  1419 
  1420       /// \brief Erase an arc from the digraph.
  1421       ///
  1422       /// This function erases the given arc from the digraph.
  1423       void erase(const Arc&) {}
  1424 
  1425       template <typename _Digraph>
  1426       struct Constraints {
  1427         void constraints() {
  1428           checkConcept<Base, _Digraph>();
  1429           const typename _Digraph::Node node(INVALID);
  1430           digraph.erase(node);
  1431           const typename _Digraph::Arc arc(INVALID);
  1432           digraph.erase(arc);
  1433         }
  1434 
  1435         _Digraph& digraph;
  1436         Constraints() {}
  1437       };
  1438     };
  1439 
  1440     /// \brief Skeleton class for erasable undirected graphs.
  1441     ///
  1442     /// This class describes the interface of erasable undirected graphs.
  1443     /// It extends \ref BaseGraphComponent with functions for removing
  1444     /// nodes and edges from the graph.
  1445     /// This concept requires \ref AlterableGraphComponent.
  1446     template <typename BAS = BaseGraphComponent>
  1447     class ErasableGraphComponent : public BAS {
  1448     public:
  1449 
  1450       typedef BAS Base;
  1451       typedef typename Base::Node Node;
  1452       typedef typename Base::Edge Edge;
  1453 
  1454       /// \brief Erase a node from the graph.
  1455       ///
  1456       /// This function erases the given node from the graph and all edges
  1457       /// connected to the node.
  1458       void erase(const Node&) {}
  1459 
  1460       /// \brief Erase an edge from the digraph.
  1461       ///
  1462       /// This function erases the given edge from the digraph.
  1463       void erase(const Edge&) {}
  1464 
  1465       template <typename _Graph>
  1466       struct Constraints {
  1467         void constraints() {
  1468           checkConcept<Base, _Graph>();
  1469           const typename _Graph::Node node(INVALID);
  1470           graph.erase(node);
  1471           const typename _Graph::Edge edge(INVALID);
  1472           graph.erase(edge);
  1473         }
  1474 
  1475         _Graph& graph;
  1476         Constraints() {}
  1477       };
  1478     };
  1479 
  1480     /// \brief Skeleton class for clearable directed graphs.
  1481     ///
  1482     /// This class describes the interface of clearable directed graphs.
  1483     /// It extends \ref BaseDigraphComponent with a function for clearing
  1484     /// the digraph.
  1485     /// This concept requires \ref AlterableDigraphComponent.
  1486     template <typename BAS = BaseDigraphComponent>
  1487     class ClearableDigraphComponent : public BAS {
  1488     public:
  1489 
  1490       typedef BAS Base;
  1491 
  1492       /// \brief Erase all nodes and arcs from the digraph.
  1493       ///
  1494       /// This function erases all nodes and arcs from the digraph.
  1495       void clear() {}
  1496 
  1497       template <typename _Digraph>
  1498       struct Constraints {
  1499         void constraints() {
  1500           checkConcept<Base, _Digraph>();
  1501           digraph.clear();
  1502         }
  1503 
  1504         _Digraph& digraph;
  1505         Constraints() {}
  1506       };
  1507     };
  1508 
  1509     /// \brief Skeleton class for clearable undirected graphs.
  1510     ///
  1511     /// This class describes the interface of clearable undirected graphs.
  1512     /// It extends \ref BaseGraphComponent with a function for clearing
  1513     /// the graph.
  1514     /// This concept requires \ref AlterableGraphComponent.
  1515     template <typename BAS = BaseGraphComponent>
  1516     class ClearableGraphComponent : public ClearableDigraphComponent<BAS> {
  1517     public:
  1518 
  1519       typedef BAS Base;
  1520 
  1521       /// \brief Erase all nodes and edges from the graph.
  1522       ///
  1523       /// This function erases all nodes and edges from the graph.
  1524       void clear() {}
  1525 
  1526       template <typename _Graph>
  1527       struct Constraints {
  1528         void constraints() {
  1529           checkConcept<Base, _Graph>();
  1530           graph.clear();
  1531         }
  1532 
  1533         _Graph& graph;
  1534         Constraints() {}
  1535       };
  1536     };
  1537 
  1538   }
  1539 
  1540 }
  1541 
  1542 #endif