lemon/lgf_writer.h
author Peter Kovacs <kpeter@inf.elte.hu>
Thu, 12 Nov 2009 23:26:13 +0100
changeset 806 fa6f37d7a25b
parent 598 a3402913cffe
parent 584 33c6b6e755cd
child 877 141f9c0db4a3
permissions -rw-r--r--
Entirely rework CapacityScaling (#180)

- Use the new interface similarly to NetworkSimplex.
- Rework the implementation using an efficient internal structure
for handling the residual network. This improvement made the
code much faster (up to 2-5 times faster on large graphs).
- Handle GEQ supply type (LEQ is not supported).
- Handle negative costs for arcs of finite capacity.
(Note that this algorithm cannot handle arcs of negative cost
and infinite upper bound, thus it returns UNBOUNDED if such
an arc exists.)
- Extend the documentation.
     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) 2003-2009
     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 lemon_io
    20 ///\file
    21 ///\brief \ref lgf-format "LEMON Graph Format" writer.
    22 
    23 
    24 #ifndef LEMON_LGF_WRITER_H
    25 #define LEMON_LGF_WRITER_H
    26 
    27 #include <iostream>
    28 #include <fstream>
    29 #include <sstream>
    30 
    31 #include <algorithm>
    32 
    33 #include <vector>
    34 #include <functional>
    35 
    36 #include <lemon/core.h>
    37 #include <lemon/maps.h>
    38 
    39 #include <lemon/concept_check.h>
    40 #include <lemon/concepts/maps.h>
    41 
    42 namespace lemon {
    43 
    44   namespace _writer_bits {
    45 
    46     template <typename Value>
    47     struct DefaultConverter {
    48       std::string operator()(const Value& value) {
    49         std::ostringstream os;
    50         os << value;
    51         return os.str();
    52       }
    53     };
    54 
    55     template <typename T>
    56     bool operator<(const T&, const T&) {
    57       throw FormatError("Label map is not comparable");
    58     }
    59 
    60     template <typename _Map>
    61     class MapLess {
    62     public:
    63       typedef _Map Map;
    64       typedef typename Map::Key Item;
    65 
    66     private:
    67       const Map& _map;
    68 
    69     public:
    70       MapLess(const Map& map) : _map(map) {}
    71 
    72       bool operator()(const Item& left, const Item& right) {
    73         return _map[left] < _map[right];
    74       }
    75     };
    76 
    77     template <typename _Graph, bool _dir, typename _Map>
    78     class GraphArcMapLess {
    79     public:
    80       typedef _Map Map;
    81       typedef _Graph Graph;
    82       typedef typename Graph::Edge Item;
    83 
    84     private:
    85       const Graph& _graph;
    86       const Map& _map;
    87 
    88     public:
    89       GraphArcMapLess(const Graph& graph, const Map& map)
    90         : _graph(graph), _map(map) {}
    91 
    92       bool operator()(const Item& left, const Item& right) {
    93         return _map[_graph.direct(left, _dir)] <
    94           _map[_graph.direct(right, _dir)];
    95       }
    96     };
    97 
    98     template <typename _Item>
    99     class MapStorageBase {
   100     public:
   101       typedef _Item Item;
   102 
   103     public:
   104       MapStorageBase() {}
   105       virtual ~MapStorageBase() {}
   106 
   107       virtual std::string get(const Item& item) = 0;
   108       virtual void sort(std::vector<Item>&) = 0;
   109     };
   110 
   111     template <typename _Item, typename _Map,
   112               typename _Converter = DefaultConverter<typename _Map::Value> >
   113     class MapStorage : public MapStorageBase<_Item> {
   114     public:
   115       typedef _Map Map;
   116       typedef _Converter Converter;
   117       typedef _Item Item;
   118 
   119     private:
   120       const Map& _map;
   121       Converter _converter;
   122 
   123     public:
   124       MapStorage(const Map& map, const Converter& converter = Converter())
   125         : _map(map), _converter(converter) {}
   126       virtual ~MapStorage() {}
   127 
   128       virtual std::string get(const Item& item) {
   129         return _converter(_map[item]);
   130       }
   131       virtual void sort(std::vector<Item>& items) {
   132         MapLess<Map> less(_map);
   133         std::sort(items.begin(), items.end(), less);
   134       }
   135     };
   136 
   137     template <typename _Graph, bool _dir, typename _Map,
   138               typename _Converter = DefaultConverter<typename _Map::Value> >
   139     class GraphArcMapStorage : public MapStorageBase<typename _Graph::Edge> {
   140     public:
   141       typedef _Map Map;
   142       typedef _Converter Converter;
   143       typedef _Graph Graph;
   144       typedef typename Graph::Edge Item;
   145       static const bool dir = _dir;
   146 
   147     private:
   148       const Graph& _graph;
   149       const Map& _map;
   150       Converter _converter;
   151 
   152     public:
   153       GraphArcMapStorage(const Graph& graph, const Map& map,
   154                          const Converter& converter = Converter())
   155         : _graph(graph), _map(map), _converter(converter) {}
   156       virtual ~GraphArcMapStorage() {}
   157 
   158       virtual std::string get(const Item& item) {
   159         return _converter(_map[_graph.direct(item, dir)]);
   160       }
   161       virtual void sort(std::vector<Item>& items) {
   162         GraphArcMapLess<Graph, dir, Map> less(_graph, _map);
   163         std::sort(items.begin(), items.end(), less);
   164       }
   165     };
   166 
   167     class ValueStorageBase {
   168     public:
   169       ValueStorageBase() {}
   170       virtual ~ValueStorageBase() {}
   171 
   172       virtual std::string get() = 0;
   173     };
   174 
   175     template <typename _Value, typename _Converter = DefaultConverter<_Value> >
   176     class ValueStorage : public ValueStorageBase {
   177     public:
   178       typedef _Value Value;
   179       typedef _Converter Converter;
   180 
   181     private:
   182       const Value& _value;
   183       Converter _converter;
   184 
   185     public:
   186       ValueStorage(const Value& value, const Converter& converter = Converter())
   187         : _value(value), _converter(converter) {}
   188 
   189       virtual std::string get() {
   190         return _converter(_value);
   191       }
   192     };
   193 
   194     template <typename Value>
   195     struct MapLookUpConverter {
   196       const std::map<Value, std::string>& _map;
   197 
   198       MapLookUpConverter(const std::map<Value, std::string>& map)
   199         : _map(map) {}
   200 
   201       std::string operator()(const Value& str) {
   202         typename std::map<Value, std::string>::const_iterator it =
   203           _map.find(str);
   204         if (it == _map.end()) {
   205           throw FormatError("Item not found");
   206         }
   207         return it->second;
   208       }
   209     };
   210 
   211     template <typename Graph>
   212     struct GraphArcLookUpConverter {
   213       const Graph& _graph;
   214       const std::map<typename Graph::Edge, std::string>& _map;
   215 
   216       GraphArcLookUpConverter(const Graph& graph,
   217                               const std::map<typename Graph::Edge,
   218                                              std::string>& map)
   219         : _graph(graph), _map(map) {}
   220 
   221       std::string operator()(const typename Graph::Arc& val) {
   222         typename std::map<typename Graph::Edge, std::string>
   223           ::const_iterator it = _map.find(val);
   224         if (it == _map.end()) {
   225           throw FormatError("Item not found");
   226         }
   227         return (_graph.direction(val) ? '+' : '-') + it->second;
   228       }
   229     };
   230 
   231     inline bool isWhiteSpace(char c) {
   232       return c == ' ' || c == '\t' || c == '\v' ||
   233         c == '\n' || c == '\r' || c == '\f';
   234     }
   235 
   236     inline bool isEscaped(char c) {
   237       return c == '\\' || c == '\"' || c == '\'' ||
   238         c == '\a' || c == '\b';
   239     }
   240 
   241     inline static void writeEscape(std::ostream& os, char c) {
   242       switch (c) {
   243       case '\\':
   244         os << "\\\\";
   245         return;
   246       case '\"':
   247         os << "\\\"";
   248         return;
   249       case '\a':
   250         os << "\\a";
   251         return;
   252       case '\b':
   253         os << "\\b";
   254         return;
   255       case '\f':
   256         os << "\\f";
   257         return;
   258       case '\r':
   259         os << "\\r";
   260         return;
   261       case '\n':
   262         os << "\\n";
   263         return;
   264       case '\t':
   265         os << "\\t";
   266         return;
   267       case '\v':
   268         os << "\\v";
   269         return;
   270       default:
   271         if (c < 0x20) {
   272           std::ios::fmtflags flags = os.flags();
   273           os << '\\' << std::oct << static_cast<int>(c);
   274           os.flags(flags);
   275         } else {
   276           os << c;
   277         }
   278         return;
   279       }
   280     }
   281 
   282     inline bool requireEscape(const std::string& str) {
   283       if (str.empty() || str[0] == '@') return true;
   284       std::istringstream is(str);
   285       char c;
   286       while (is.get(c)) {
   287         if (isWhiteSpace(c) || isEscaped(c)) {
   288           return true;
   289         }
   290       }
   291       return false;
   292     }
   293 
   294     inline std::ostream& writeToken(std::ostream& os, const std::string& str) {
   295 
   296       if (requireEscape(str)) {
   297         os << '\"';
   298         for (std::string::const_iterator it = str.begin();
   299              it != str.end(); ++it) {
   300           writeEscape(os, *it);
   301         }
   302         os << '\"';
   303       } else {
   304         os << str;
   305       }
   306       return os;
   307     }
   308 
   309     class Section {
   310     public:
   311       virtual ~Section() {}
   312       virtual void process(std::ostream& os) = 0;
   313     };
   314 
   315     template <typename Functor>
   316     class LineSection : public Section {
   317     private:
   318 
   319       Functor _functor;
   320 
   321     public:
   322 
   323       LineSection(const Functor& functor) : _functor(functor) {}
   324       virtual ~LineSection() {}
   325 
   326       virtual void process(std::ostream& os) {
   327         std::string line;
   328         while (!(line = _functor()).empty()) os << line << std::endl;
   329       }
   330     };
   331 
   332     template <typename Functor>
   333     class StreamSection : public Section {
   334     private:
   335 
   336       Functor _functor;
   337 
   338     public:
   339 
   340       StreamSection(const Functor& functor) : _functor(functor) {}
   341       virtual ~StreamSection() {}
   342 
   343       virtual void process(std::ostream& os) {
   344         _functor(os);
   345       }
   346     };
   347 
   348   }
   349 
   350   template <typename DGR>
   351   class DigraphWriter;
   352 
   353   template <typename TDGR>
   354   DigraphWriter<TDGR> digraphWriter(const TDGR& digraph, 
   355                                    std::ostream& os = std::cout);
   356   template <typename TDGR>
   357   DigraphWriter<TDGR> digraphWriter(const TDGR& digraph, const std::string& fn);
   358 
   359   template <typename TDGR>
   360   DigraphWriter<TDGR> digraphWriter(const TDGR& digraph, const char* fn);
   361 
   362 
   363   /// \ingroup lemon_io
   364   ///
   365   /// \brief \ref lgf-format "LGF" writer for directed graphs
   366   ///
   367   /// This utility writes an \ref lgf-format "LGF" file.
   368   ///
   369   /// The writing method does a batch processing. The user creates a
   370   /// writer object, then various writing rules can be added to the
   371   /// writer, and eventually the writing is executed with the \c run()
   372   /// member function. A map writing rule can be added to the writer
   373   /// with the \c nodeMap() or \c arcMap() members. An optional
   374   /// converter parameter can also be added as a standard functor
   375   /// converting from the value type of the map to \c std::string. If it
   376   /// is set, it will determine how the value type of the map is written to
   377   /// the output stream. If the functor is not set, then a default
   378   /// conversion will be used. The \c attribute(), \c node() and \c
   379   /// arc() functions are used to add attribute writing rules.
   380   ///
   381   ///\code
   382   /// DigraphWriter<DGR>(digraph, std::cout).
   383   ///   nodeMap("coordinates", coord_map).
   384   ///   nodeMap("size", size).
   385   ///   nodeMap("title", title).
   386   ///   arcMap("capacity", cap_map).
   387   ///   node("source", src).
   388   ///   node("target", trg).
   389   ///   attribute("caption", caption).
   390   ///   run();
   391   ///\endcode
   392   ///
   393   ///
   394   /// By default, the writer does not write additional captions to the
   395   /// sections, but they can be give as an optional parameter of
   396   /// the \c nodes(), \c arcs() or \c
   397   /// attributes() functions.
   398   ///
   399   /// The \c skipNodes() and \c skipArcs() functions forbid the
   400   /// writing of the sections. If two arc sections should be written
   401   /// to the output, it can be done in two passes, the first pass
   402   /// writes the node section and the first arc section, then the
   403   /// second pass skips the node section and writes just the arc
   404   /// section to the stream. The output stream can be retrieved with
   405   /// the \c ostream() function, hence the second pass can append its
   406   /// output to the output of the first pass.
   407   template <typename DGR>
   408   class DigraphWriter {
   409   public:
   410 
   411     typedef DGR Digraph;
   412     TEMPLATE_DIGRAPH_TYPEDEFS(DGR);
   413 
   414   private:
   415 
   416 
   417     std::ostream* _os;
   418     bool local_os;
   419 
   420     const DGR& _digraph;
   421 
   422     std::string _nodes_caption;
   423     std::string _arcs_caption;
   424     std::string _attributes_caption;
   425 
   426     typedef std::map<Node, std::string> NodeIndex;
   427     NodeIndex _node_index;
   428     typedef std::map<Arc, std::string> ArcIndex;
   429     ArcIndex _arc_index;
   430 
   431     typedef std::vector<std::pair<std::string,
   432       _writer_bits::MapStorageBase<Node>* > > NodeMaps;
   433     NodeMaps _node_maps;
   434 
   435     typedef std::vector<std::pair<std::string,
   436       _writer_bits::MapStorageBase<Arc>* > >ArcMaps;
   437     ArcMaps _arc_maps;
   438 
   439     typedef std::vector<std::pair<std::string,
   440       _writer_bits::ValueStorageBase*> > Attributes;
   441     Attributes _attributes;
   442 
   443     bool _skip_nodes;
   444     bool _skip_arcs;
   445 
   446   public:
   447 
   448     /// \brief Constructor
   449     ///
   450     /// Construct a directed graph writer, which writes to the given
   451     /// output stream.
   452     DigraphWriter(const DGR& digraph, std::ostream& os = std::cout)
   453       : _os(&os), local_os(false), _digraph(digraph),
   454         _skip_nodes(false), _skip_arcs(false) {}
   455 
   456     /// \brief Constructor
   457     ///
   458     /// Construct a directed graph writer, which writes to the given
   459     /// output file.
   460     DigraphWriter(const DGR& digraph, const std::string& fn)
   461       : _os(new std::ofstream(fn.c_str())), local_os(true), _digraph(digraph),
   462         _skip_nodes(false), _skip_arcs(false) {
   463       if (!(*_os)) {
   464         delete _os;
   465         throw IoError("Cannot write file", fn);
   466       }
   467     }
   468 
   469     /// \brief Constructor
   470     ///
   471     /// Construct a directed graph writer, which writes to the given
   472     /// output file.
   473     DigraphWriter(const DGR& digraph, const char* fn)
   474       : _os(new std::ofstream(fn)), local_os(true), _digraph(digraph),
   475         _skip_nodes(false), _skip_arcs(false) {
   476       if (!(*_os)) {
   477         delete _os;
   478         throw IoError("Cannot write file", fn);
   479       }
   480     }
   481 
   482     /// \brief Destructor
   483     ~DigraphWriter() {
   484       for (typename NodeMaps::iterator it = _node_maps.begin();
   485            it != _node_maps.end(); ++it) {
   486         delete it->second;
   487       }
   488 
   489       for (typename ArcMaps::iterator it = _arc_maps.begin();
   490            it != _arc_maps.end(); ++it) {
   491         delete it->second;
   492       }
   493 
   494       for (typename Attributes::iterator it = _attributes.begin();
   495            it != _attributes.end(); ++it) {
   496         delete it->second;
   497       }
   498 
   499       if (local_os) {
   500         delete _os;
   501       }
   502     }
   503 
   504   private:
   505 
   506     template <typename TDGR>
   507     friend DigraphWriter<TDGR> digraphWriter(const TDGR& digraph, 
   508                                              std::ostream& os);
   509     template <typename TDGR>
   510     friend DigraphWriter<TDGR> digraphWriter(const TDGR& digraph,
   511                                              const std::string& fn);
   512     template <typename TDGR>
   513     friend DigraphWriter<TDGR> digraphWriter(const TDGR& digraph,
   514                                              const char *fn);
   515 
   516     DigraphWriter(DigraphWriter& other)
   517       : _os(other._os), local_os(other.local_os), _digraph(other._digraph),
   518         _skip_nodes(other._skip_nodes), _skip_arcs(other._skip_arcs) {
   519 
   520       other._os = 0;
   521       other.local_os = false;
   522 
   523       _node_index.swap(other._node_index);
   524       _arc_index.swap(other._arc_index);
   525 
   526       _node_maps.swap(other._node_maps);
   527       _arc_maps.swap(other._arc_maps);
   528       _attributes.swap(other._attributes);
   529 
   530       _nodes_caption = other._nodes_caption;
   531       _arcs_caption = other._arcs_caption;
   532       _attributes_caption = other._attributes_caption;
   533     }
   534 
   535     DigraphWriter& operator=(const DigraphWriter&);
   536 
   537   public:
   538 
   539     /// \name Writing Rules
   540     /// @{
   541 
   542     /// \brief Node map writing rule
   543     ///
   544     /// Add a node map writing rule to the writer.
   545     template <typename Map>
   546     DigraphWriter& nodeMap(const std::string& caption, const Map& map) {
   547       checkConcept<concepts::ReadMap<Node, typename Map::Value>, Map>();
   548       _writer_bits::MapStorageBase<Node>* storage =
   549         new _writer_bits::MapStorage<Node, Map>(map);
   550       _node_maps.push_back(std::make_pair(caption, storage));
   551       return *this;
   552     }
   553 
   554     /// \brief Node map writing rule
   555     ///
   556     /// Add a node map writing rule with specialized converter to the
   557     /// writer.
   558     template <typename Map, typename Converter>
   559     DigraphWriter& nodeMap(const std::string& caption, const Map& map,
   560                            const Converter& converter = Converter()) {
   561       checkConcept<concepts::ReadMap<Node, typename Map::Value>, Map>();
   562       _writer_bits::MapStorageBase<Node>* storage =
   563         new _writer_bits::MapStorage<Node, Map, Converter>(map, converter);
   564       _node_maps.push_back(std::make_pair(caption, storage));
   565       return *this;
   566     }
   567 
   568     /// \brief Arc map writing rule
   569     ///
   570     /// Add an arc map writing rule to the writer.
   571     template <typename Map>
   572     DigraphWriter& arcMap(const std::string& caption, const Map& map) {
   573       checkConcept<concepts::ReadMap<Arc, typename Map::Value>, Map>();
   574       _writer_bits::MapStorageBase<Arc>* storage =
   575         new _writer_bits::MapStorage<Arc, Map>(map);
   576       _arc_maps.push_back(std::make_pair(caption, storage));
   577       return *this;
   578     }
   579 
   580     /// \brief Arc map writing rule
   581     ///
   582     /// Add an arc map writing rule with specialized converter to the
   583     /// writer.
   584     template <typename Map, typename Converter>
   585     DigraphWriter& arcMap(const std::string& caption, const Map& map,
   586                           const Converter& converter = Converter()) {
   587       checkConcept<concepts::ReadMap<Arc, typename Map::Value>, Map>();
   588       _writer_bits::MapStorageBase<Arc>* storage =
   589         new _writer_bits::MapStorage<Arc, Map, Converter>(map, converter);
   590       _arc_maps.push_back(std::make_pair(caption, storage));
   591       return *this;
   592     }
   593 
   594     /// \brief Attribute writing rule
   595     ///
   596     /// Add an attribute writing rule to the writer.
   597     template <typename Value>
   598     DigraphWriter& attribute(const std::string& caption, const Value& value) {
   599       _writer_bits::ValueStorageBase* storage =
   600         new _writer_bits::ValueStorage<Value>(value);
   601       _attributes.push_back(std::make_pair(caption, storage));
   602       return *this;
   603     }
   604 
   605     /// \brief Attribute writing rule
   606     ///
   607     /// Add an attribute writing rule with specialized converter to the
   608     /// writer.
   609     template <typename Value, typename Converter>
   610     DigraphWriter& attribute(const std::string& caption, const Value& value,
   611                              const Converter& converter = Converter()) {
   612       _writer_bits::ValueStorageBase* storage =
   613         new _writer_bits::ValueStorage<Value, Converter>(value, converter);
   614       _attributes.push_back(std::make_pair(caption, storage));
   615       return *this;
   616     }
   617 
   618     /// \brief Node writing rule
   619     ///
   620     /// Add a node writing rule to the writer.
   621     DigraphWriter& node(const std::string& caption, const Node& node) {
   622       typedef _writer_bits::MapLookUpConverter<Node> Converter;
   623       Converter converter(_node_index);
   624       _writer_bits::ValueStorageBase* storage =
   625         new _writer_bits::ValueStorage<Node, Converter>(node, converter);
   626       _attributes.push_back(std::make_pair(caption, storage));
   627       return *this;
   628     }
   629 
   630     /// \brief Arc writing rule
   631     ///
   632     /// Add an arc writing rule to writer.
   633     DigraphWriter& arc(const std::string& caption, const Arc& arc) {
   634       typedef _writer_bits::MapLookUpConverter<Arc> Converter;
   635       Converter converter(_arc_index);
   636       _writer_bits::ValueStorageBase* storage =
   637         new _writer_bits::ValueStorage<Arc, Converter>(arc, converter);
   638       _attributes.push_back(std::make_pair(caption, storage));
   639       return *this;
   640     }
   641 
   642     /// \name Section Captions
   643     /// @{
   644 
   645     /// \brief Add an additional caption to the \c \@nodes section
   646     ///
   647     /// Add an additional caption to the \c \@nodes section.
   648     DigraphWriter& nodes(const std::string& caption) {
   649       _nodes_caption = caption;
   650       return *this;
   651     }
   652 
   653     /// \brief Add an additional caption to the \c \@arcs section
   654     ///
   655     /// Add an additional caption to the \c \@arcs section.
   656     DigraphWriter& arcs(const std::string& caption) {
   657       _arcs_caption = caption;
   658       return *this;
   659     }
   660 
   661     /// \brief Add an additional caption to the \c \@attributes section
   662     ///
   663     /// Add an additional caption to the \c \@attributes section.
   664     DigraphWriter& attributes(const std::string& caption) {
   665       _attributes_caption = caption;
   666       return *this;
   667     }
   668 
   669     /// \name Skipping Section
   670     /// @{
   671 
   672     /// \brief Skip writing the node set
   673     ///
   674     /// The \c \@nodes section will not be written to the stream.
   675     DigraphWriter& skipNodes() {
   676       LEMON_ASSERT(!_skip_nodes, "Multiple usage of skipNodes() member");
   677       _skip_nodes = true;
   678       return *this;
   679     }
   680 
   681     /// \brief Skip writing arc set
   682     ///
   683     /// The \c \@arcs section will not be written to the stream.
   684     DigraphWriter& skipArcs() {
   685       LEMON_ASSERT(!_skip_arcs, "Multiple usage of skipArcs() member");
   686       _skip_arcs = true;
   687       return *this;
   688     }
   689 
   690     /// @}
   691 
   692   private:
   693 
   694     void writeNodes() {
   695       _writer_bits::MapStorageBase<Node>* label = 0;
   696       for (typename NodeMaps::iterator it = _node_maps.begin();
   697            it != _node_maps.end(); ++it) {
   698         if (it->first == "label") {
   699           label = it->second;
   700           break;
   701         }
   702       }
   703 
   704       *_os << "@nodes";
   705       if (!_nodes_caption.empty()) {
   706         _writer_bits::writeToken(*_os << ' ', _nodes_caption);
   707       }
   708       *_os << std::endl;
   709 
   710       if (label == 0) {
   711         *_os << "label" << '\t';
   712       }
   713       for (typename NodeMaps::iterator it = _node_maps.begin();
   714            it != _node_maps.end(); ++it) {
   715         _writer_bits::writeToken(*_os, it->first) << '\t';
   716       }
   717       *_os << std::endl;
   718 
   719       std::vector<Node> nodes;
   720       for (NodeIt n(_digraph); n != INVALID; ++n) {
   721         nodes.push_back(n);
   722       }
   723 
   724       if (label == 0) {
   725         IdMap<DGR, Node> id_map(_digraph);
   726         _writer_bits::MapLess<IdMap<DGR, Node> > id_less(id_map);
   727         std::sort(nodes.begin(), nodes.end(), id_less);
   728       } else {
   729         label->sort(nodes);
   730       }
   731 
   732       for (int i = 0; i < static_cast<int>(nodes.size()); ++i) {
   733         Node n = nodes[i];
   734         if (label == 0) {
   735           std::ostringstream os;
   736           os << _digraph.id(n);
   737           _writer_bits::writeToken(*_os, os.str());
   738           *_os << '\t';
   739           _node_index.insert(std::make_pair(n, os.str()));
   740         }
   741         for (typename NodeMaps::iterator it = _node_maps.begin();
   742              it != _node_maps.end(); ++it) {
   743           std::string value = it->second->get(n);
   744           _writer_bits::writeToken(*_os, value);
   745           if (it->first == "label") {
   746             _node_index.insert(std::make_pair(n, value));
   747           }
   748           *_os << '\t';
   749         }
   750         *_os << std::endl;
   751       }
   752     }
   753 
   754     void createNodeIndex() {
   755       _writer_bits::MapStorageBase<Node>* label = 0;
   756       for (typename NodeMaps::iterator it = _node_maps.begin();
   757            it != _node_maps.end(); ++it) {
   758         if (it->first == "label") {
   759           label = it->second;
   760           break;
   761         }
   762       }
   763 
   764       if (label == 0) {
   765         for (NodeIt n(_digraph); n != INVALID; ++n) {
   766           std::ostringstream os;
   767           os << _digraph.id(n);
   768           _node_index.insert(std::make_pair(n, os.str()));
   769         }
   770       } else {
   771         for (NodeIt n(_digraph); n != INVALID; ++n) {
   772           std::string value = label->get(n);
   773           _node_index.insert(std::make_pair(n, value));
   774         }
   775       }
   776     }
   777 
   778     void writeArcs() {
   779       _writer_bits::MapStorageBase<Arc>* label = 0;
   780       for (typename ArcMaps::iterator it = _arc_maps.begin();
   781            it != _arc_maps.end(); ++it) {
   782         if (it->first == "label") {
   783           label = it->second;
   784           break;
   785         }
   786       }
   787 
   788       *_os << "@arcs";
   789       if (!_arcs_caption.empty()) {
   790         _writer_bits::writeToken(*_os << ' ', _arcs_caption);
   791       }
   792       *_os << std::endl;
   793 
   794       *_os << '\t' << '\t';
   795       if (label == 0) {
   796         *_os << "label" << '\t';
   797       }
   798       for (typename ArcMaps::iterator it = _arc_maps.begin();
   799            it != _arc_maps.end(); ++it) {
   800         _writer_bits::writeToken(*_os, it->first) << '\t';
   801       }
   802       *_os << std::endl;
   803 
   804       std::vector<Arc> arcs;
   805       for (ArcIt n(_digraph); n != INVALID; ++n) {
   806         arcs.push_back(n);
   807       }
   808 
   809       if (label == 0) {
   810         IdMap<DGR, Arc> id_map(_digraph);
   811         _writer_bits::MapLess<IdMap<DGR, Arc> > id_less(id_map);
   812         std::sort(arcs.begin(), arcs.end(), id_less);
   813       } else {
   814         label->sort(arcs);
   815       }
   816 
   817       for (int i = 0; i < static_cast<int>(arcs.size()); ++i) {
   818         Arc a = arcs[i];
   819         _writer_bits::writeToken(*_os, _node_index.
   820                                  find(_digraph.source(a))->second);
   821         *_os << '\t';
   822         _writer_bits::writeToken(*_os, _node_index.
   823                                  find(_digraph.target(a))->second);
   824         *_os << '\t';
   825         if (label == 0) {
   826           std::ostringstream os;
   827           os << _digraph.id(a);
   828           _writer_bits::writeToken(*_os, os.str());
   829           *_os << '\t';
   830           _arc_index.insert(std::make_pair(a, os.str()));
   831         }
   832         for (typename ArcMaps::iterator it = _arc_maps.begin();
   833              it != _arc_maps.end(); ++it) {
   834           std::string value = it->second->get(a);
   835           _writer_bits::writeToken(*_os, value);
   836           if (it->first == "label") {
   837             _arc_index.insert(std::make_pair(a, value));
   838           }
   839           *_os << '\t';
   840         }
   841         *_os << std::endl;
   842       }
   843     }
   844 
   845     void createArcIndex() {
   846       _writer_bits::MapStorageBase<Arc>* label = 0;
   847       for (typename ArcMaps::iterator it = _arc_maps.begin();
   848            it != _arc_maps.end(); ++it) {
   849         if (it->first == "label") {
   850           label = it->second;
   851           break;
   852         }
   853       }
   854 
   855       if (label == 0) {
   856         for (ArcIt a(_digraph); a != INVALID; ++a) {
   857           std::ostringstream os;
   858           os << _digraph.id(a);
   859           _arc_index.insert(std::make_pair(a, os.str()));
   860         }
   861       } else {
   862         for (ArcIt a(_digraph); a != INVALID; ++a) {
   863           std::string value = label->get(a);
   864           _arc_index.insert(std::make_pair(a, value));
   865         }
   866       }
   867     }
   868 
   869     void writeAttributes() {
   870       if (_attributes.empty()) return;
   871       *_os << "@attributes";
   872       if (!_attributes_caption.empty()) {
   873         _writer_bits::writeToken(*_os << ' ', _attributes_caption);
   874       }
   875       *_os << std::endl;
   876       for (typename Attributes::iterator it = _attributes.begin();
   877            it != _attributes.end(); ++it) {
   878         _writer_bits::writeToken(*_os, it->first) << ' ';
   879         _writer_bits::writeToken(*_os, it->second->get());
   880         *_os << std::endl;
   881       }
   882     }
   883 
   884   public:
   885 
   886     /// \name Execution of the Writer
   887     /// @{
   888 
   889     /// \brief Start the batch processing
   890     ///
   891     /// This function starts the batch processing.
   892     void run() {
   893       if (!_skip_nodes) {
   894         writeNodes();
   895       } else {
   896         createNodeIndex();
   897       }
   898       if (!_skip_arcs) {
   899         writeArcs();
   900       } else {
   901         createArcIndex();
   902       }
   903       writeAttributes();
   904     }
   905 
   906     /// \brief Give back the stream of the writer
   907     ///
   908     /// Give back the stream of the writer.
   909     std::ostream& ostream() {
   910       return *_os;
   911     }
   912 
   913     /// @}
   914   };
   915 
   916   /// \ingroup lemon_io
   917   ///
   918   /// \brief Return a \ref DigraphWriter class
   919   ///
   920   /// This function just returns a \ref DigraphWriter class. 
   921   ///
   922   /// With this function a digraph can be write to a file or output
   923   /// stream in \ref lgf-format "LGF" format with several maps and
   924   /// attributes. For example, with the following code a network flow
   925   /// problem can be written to the standard output, i.e. a digraph
   926   /// with a \e capacity map on the arcs and \e source and \e target
   927   /// nodes:
   928   ///
   929   ///\code
   930   ///ListDigraph digraph;
   931   ///ListDigraph::ArcMap<int> cap(digraph);
   932   ///ListDigraph::Node src, trg;
   933   ///  // Setting the capacity map and source and target nodes
   934   ///digraphWriter(digraph, std::cout).
   935   ///  arcMap("capacity", cap).
   936   ///  node("source", src).
   937   ///  node("target", trg).
   938   ///  run();
   939   ///\endcode
   940   ///
   941   /// For a complete documentation, please see the \ref DigraphWriter
   942   /// class documentation.
   943   /// \warning Don't forget to put the \ref DigraphWriter::run() "run()"
   944   /// to the end of the parameter list.
   945   /// \relates DigraphWriter
   946   /// \sa digraphWriter(const TDGR& digraph, const std::string& fn)
   947   /// \sa digraphWriter(const TDGR& digraph, const char* fn)
   948   template <typename TDGR>
   949   DigraphWriter<TDGR> digraphWriter(const TDGR& digraph, std::ostream& os) {
   950     DigraphWriter<TDGR> tmp(digraph, os);
   951     return tmp;
   952   }
   953 
   954   /// \brief Return a \ref DigraphWriter class
   955   ///
   956   /// This function just returns a \ref DigraphWriter class.
   957   /// \relates DigraphWriter
   958   /// \sa digraphWriter(const TDGR& digraph, std::ostream& os)
   959   template <typename TDGR>
   960   DigraphWriter<TDGR> digraphWriter(const TDGR& digraph, 
   961                                     const std::string& fn) {
   962     DigraphWriter<TDGR> tmp(digraph, fn);
   963     return tmp;
   964   }
   965 
   966   /// \brief Return a \ref DigraphWriter class
   967   ///
   968   /// This function just returns a \ref DigraphWriter class.
   969   /// \relates DigraphWriter
   970   /// \sa digraphWriter(const TDGR& digraph, std::ostream& os)
   971   template <typename TDGR>
   972   DigraphWriter<TDGR> digraphWriter(const TDGR& digraph, const char* fn) {
   973     DigraphWriter<TDGR> tmp(digraph, fn);
   974     return tmp;
   975   }
   976 
   977   template <typename GR>
   978   class GraphWriter;
   979 
   980   template <typename TGR>
   981   GraphWriter<TGR> graphWriter(const TGR& graph, std::ostream& os = std::cout);
   982   template <typename TGR>
   983   GraphWriter<TGR> graphWriter(const TGR& graph, const std::string& fn);
   984   template <typename TGR>
   985   GraphWriter<TGR> graphWriter(const TGR& graph, const char* fn);
   986 
   987   /// \ingroup lemon_io
   988   ///
   989   /// \brief \ref lgf-format "LGF" writer for directed graphs
   990   ///
   991   /// This utility writes an \ref lgf-format "LGF" file.
   992   ///
   993   /// It can be used almost the same way as \c DigraphWriter.
   994   /// The only difference is that this class can handle edges and
   995   /// edge maps as well as arcs and arc maps.
   996   ///
   997   /// The arc maps are written into the file as two columns, the
   998   /// caption of the columns are the name of the map prefixed with \c
   999   /// '+' and \c '-'. The arcs are written into the \c \@attributes
  1000   /// section as a \c '+' or a \c '-' prefix (depends on the direction
  1001   /// of the arc) and the label of corresponding edge.
  1002   template <typename GR>
  1003   class GraphWriter {
  1004   public:
  1005 
  1006     typedef GR Graph;
  1007     TEMPLATE_GRAPH_TYPEDEFS(GR);
  1008 
  1009   private:
  1010 
  1011 
  1012     std::ostream* _os;
  1013     bool local_os;
  1014 
  1015     const GR& _graph;
  1016 
  1017     std::string _nodes_caption;
  1018     std::string _edges_caption;
  1019     std::string _attributes_caption;
  1020 
  1021     typedef std::map<Node, std::string> NodeIndex;
  1022     NodeIndex _node_index;
  1023     typedef std::map<Edge, std::string> EdgeIndex;
  1024     EdgeIndex _edge_index;
  1025 
  1026     typedef std::vector<std::pair<std::string,
  1027       _writer_bits::MapStorageBase<Node>* > > NodeMaps;
  1028     NodeMaps _node_maps;
  1029 
  1030     typedef std::vector<std::pair<std::string,
  1031       _writer_bits::MapStorageBase<Edge>* > >EdgeMaps;
  1032     EdgeMaps _edge_maps;
  1033 
  1034     typedef std::vector<std::pair<std::string,
  1035       _writer_bits::ValueStorageBase*> > Attributes;
  1036     Attributes _attributes;
  1037 
  1038     bool _skip_nodes;
  1039     bool _skip_edges;
  1040 
  1041   public:
  1042 
  1043     /// \brief Constructor
  1044     ///
  1045     /// Construct a directed graph writer, which writes to the given
  1046     /// output stream.
  1047     GraphWriter(const GR& graph, std::ostream& os = std::cout)
  1048       : _os(&os), local_os(false), _graph(graph),
  1049         _skip_nodes(false), _skip_edges(false) {}
  1050 
  1051     /// \brief Constructor
  1052     ///
  1053     /// Construct a directed graph writer, which writes to the given
  1054     /// output file.
  1055     GraphWriter(const GR& graph, const std::string& fn)
  1056       : _os(new std::ofstream(fn.c_str())), local_os(true), _graph(graph),
  1057         _skip_nodes(false), _skip_edges(false) {
  1058       if (!(*_os)) {
  1059         delete _os;
  1060         throw IoError("Cannot write file", fn);
  1061       }
  1062     }
  1063 
  1064     /// \brief Constructor
  1065     ///
  1066     /// Construct a directed graph writer, which writes to the given
  1067     /// output file.
  1068     GraphWriter(const GR& graph, const char* fn)
  1069       : _os(new std::ofstream(fn)), local_os(true), _graph(graph),
  1070         _skip_nodes(false), _skip_edges(false) {
  1071       if (!(*_os)) {
  1072         delete _os;
  1073         throw IoError("Cannot write file", fn);
  1074       }
  1075     }
  1076 
  1077     /// \brief Destructor
  1078     ~GraphWriter() {
  1079       for (typename NodeMaps::iterator it = _node_maps.begin();
  1080            it != _node_maps.end(); ++it) {
  1081         delete it->second;
  1082       }
  1083 
  1084       for (typename EdgeMaps::iterator it = _edge_maps.begin();
  1085            it != _edge_maps.end(); ++it) {
  1086         delete it->second;
  1087       }
  1088 
  1089       for (typename Attributes::iterator it = _attributes.begin();
  1090            it != _attributes.end(); ++it) {
  1091         delete it->second;
  1092       }
  1093 
  1094       if (local_os) {
  1095         delete _os;
  1096       }
  1097     }
  1098 
  1099   private:
  1100 
  1101     template <typename TGR>
  1102     friend GraphWriter<TGR> graphWriter(const TGR& graph, std::ostream& os);
  1103     template <typename TGR>
  1104     friend GraphWriter<TGR> graphWriter(const TGR& graph, 
  1105                                         const std::string& fn);
  1106     template <typename TGR>
  1107     friend GraphWriter<TGR> graphWriter(const TGR& graph, const char *fn);
  1108     
  1109     GraphWriter(GraphWriter& other)
  1110       : _os(other._os), local_os(other.local_os), _graph(other._graph),
  1111         _skip_nodes(other._skip_nodes), _skip_edges(other._skip_edges) {
  1112 
  1113       other._os = 0;
  1114       other.local_os = false;
  1115 
  1116       _node_index.swap(other._node_index);
  1117       _edge_index.swap(other._edge_index);
  1118 
  1119       _node_maps.swap(other._node_maps);
  1120       _edge_maps.swap(other._edge_maps);
  1121       _attributes.swap(other._attributes);
  1122 
  1123       _nodes_caption = other._nodes_caption;
  1124       _edges_caption = other._edges_caption;
  1125       _attributes_caption = other._attributes_caption;
  1126     }
  1127 
  1128     GraphWriter& operator=(const GraphWriter&);
  1129 
  1130   public:
  1131 
  1132     /// \name Writing Rules
  1133     /// @{
  1134 
  1135     /// \brief Node map writing rule
  1136     ///
  1137     /// Add a node map writing rule to the writer.
  1138     template <typename Map>
  1139     GraphWriter& nodeMap(const std::string& caption, const Map& map) {
  1140       checkConcept<concepts::ReadMap<Node, typename Map::Value>, Map>();
  1141       _writer_bits::MapStorageBase<Node>* storage =
  1142         new _writer_bits::MapStorage<Node, Map>(map);
  1143       _node_maps.push_back(std::make_pair(caption, storage));
  1144       return *this;
  1145     }
  1146 
  1147     /// \brief Node map writing rule
  1148     ///
  1149     /// Add a node map writing rule with specialized converter to the
  1150     /// writer.
  1151     template <typename Map, typename Converter>
  1152     GraphWriter& nodeMap(const std::string& caption, const Map& map,
  1153                            const Converter& converter = Converter()) {
  1154       checkConcept<concepts::ReadMap<Node, typename Map::Value>, Map>();
  1155       _writer_bits::MapStorageBase<Node>* storage =
  1156         new _writer_bits::MapStorage<Node, Map, Converter>(map, converter);
  1157       _node_maps.push_back(std::make_pair(caption, storage));
  1158       return *this;
  1159     }
  1160 
  1161     /// \brief Edge map writing rule
  1162     ///
  1163     /// Add an edge map writing rule to the writer.
  1164     template <typename Map>
  1165     GraphWriter& edgeMap(const std::string& caption, const Map& map) {
  1166       checkConcept<concepts::ReadMap<Edge, typename Map::Value>, Map>();
  1167       _writer_bits::MapStorageBase<Edge>* storage =
  1168         new _writer_bits::MapStorage<Edge, Map>(map);
  1169       _edge_maps.push_back(std::make_pair(caption, storage));
  1170       return *this;
  1171     }
  1172 
  1173     /// \brief Edge map writing rule
  1174     ///
  1175     /// Add an edge map writing rule with specialized converter to the
  1176     /// writer.
  1177     template <typename Map, typename Converter>
  1178     GraphWriter& edgeMap(const std::string& caption, const Map& map,
  1179                           const Converter& converter = Converter()) {
  1180       checkConcept<concepts::ReadMap<Edge, typename Map::Value>, Map>();
  1181       _writer_bits::MapStorageBase<Edge>* storage =
  1182         new _writer_bits::MapStorage<Edge, Map, Converter>(map, converter);
  1183       _edge_maps.push_back(std::make_pair(caption, storage));
  1184       return *this;
  1185     }
  1186 
  1187     /// \brief Arc map writing rule
  1188     ///
  1189     /// Add an arc map writing rule to the writer.
  1190     template <typename Map>
  1191     GraphWriter& arcMap(const std::string& caption, const Map& map) {
  1192       checkConcept<concepts::ReadMap<Arc, typename Map::Value>, Map>();
  1193       _writer_bits::MapStorageBase<Edge>* forward_storage =
  1194         new _writer_bits::GraphArcMapStorage<GR, true, Map>(_graph, map);
  1195       _edge_maps.push_back(std::make_pair('+' + caption, forward_storage));
  1196       _writer_bits::MapStorageBase<Edge>* backward_storage =
  1197         new _writer_bits::GraphArcMapStorage<GR, false, Map>(_graph, map);
  1198       _edge_maps.push_back(std::make_pair('-' + caption, backward_storage));
  1199       return *this;
  1200     }
  1201 
  1202     /// \brief Arc map writing rule
  1203     ///
  1204     /// Add an arc map writing rule with specialized converter to the
  1205     /// writer.
  1206     template <typename Map, typename Converter>
  1207     GraphWriter& arcMap(const std::string& caption, const Map& map,
  1208                           const Converter& converter = Converter()) {
  1209       checkConcept<concepts::ReadMap<Arc, typename Map::Value>, Map>();
  1210       _writer_bits::MapStorageBase<Edge>* forward_storage =
  1211         new _writer_bits::GraphArcMapStorage<GR, true, Map, Converter>
  1212         (_graph, map, converter);
  1213       _edge_maps.push_back(std::make_pair('+' + caption, forward_storage));
  1214       _writer_bits::MapStorageBase<Edge>* backward_storage =
  1215         new _writer_bits::GraphArcMapStorage<GR, false, Map, Converter>
  1216         (_graph, map, converter);
  1217       _edge_maps.push_back(std::make_pair('-' + caption, backward_storage));
  1218       return *this;
  1219     }
  1220 
  1221     /// \brief Attribute writing rule
  1222     ///
  1223     /// Add an attribute writing rule to the writer.
  1224     template <typename Value>
  1225     GraphWriter& attribute(const std::string& caption, const Value& value) {
  1226       _writer_bits::ValueStorageBase* storage =
  1227         new _writer_bits::ValueStorage<Value>(value);
  1228       _attributes.push_back(std::make_pair(caption, storage));
  1229       return *this;
  1230     }
  1231 
  1232     /// \brief Attribute writing rule
  1233     ///
  1234     /// Add an attribute writing rule with specialized converter to the
  1235     /// writer.
  1236     template <typename Value, typename Converter>
  1237     GraphWriter& attribute(const std::string& caption, const Value& value,
  1238                              const Converter& converter = Converter()) {
  1239       _writer_bits::ValueStorageBase* storage =
  1240         new _writer_bits::ValueStorage<Value, Converter>(value, converter);
  1241       _attributes.push_back(std::make_pair(caption, storage));
  1242       return *this;
  1243     }
  1244 
  1245     /// \brief Node writing rule
  1246     ///
  1247     /// Add a node writing rule to the writer.
  1248     GraphWriter& node(const std::string& caption, const Node& node) {
  1249       typedef _writer_bits::MapLookUpConverter<Node> Converter;
  1250       Converter converter(_node_index);
  1251       _writer_bits::ValueStorageBase* storage =
  1252         new _writer_bits::ValueStorage<Node, Converter>(node, converter);
  1253       _attributes.push_back(std::make_pair(caption, storage));
  1254       return *this;
  1255     }
  1256 
  1257     /// \brief Edge writing rule
  1258     ///
  1259     /// Add an edge writing rule to writer.
  1260     GraphWriter& edge(const std::string& caption, const Edge& edge) {
  1261       typedef _writer_bits::MapLookUpConverter<Edge> Converter;
  1262       Converter converter(_edge_index);
  1263       _writer_bits::ValueStorageBase* storage =
  1264         new _writer_bits::ValueStorage<Edge, Converter>(edge, converter);
  1265       _attributes.push_back(std::make_pair(caption, storage));
  1266       return *this;
  1267     }
  1268 
  1269     /// \brief Arc writing rule
  1270     ///
  1271     /// Add an arc writing rule to writer.
  1272     GraphWriter& arc(const std::string& caption, const Arc& arc) {
  1273       typedef _writer_bits::GraphArcLookUpConverter<GR> Converter;
  1274       Converter converter(_graph, _edge_index);
  1275       _writer_bits::ValueStorageBase* storage =
  1276         new _writer_bits::ValueStorage<Arc, Converter>(arc, converter);
  1277       _attributes.push_back(std::make_pair(caption, storage));
  1278       return *this;
  1279     }
  1280 
  1281     /// \name Section Captions
  1282     /// @{
  1283 
  1284     /// \brief Add an additional caption to the \c \@nodes section
  1285     ///
  1286     /// Add an additional caption to the \c \@nodes section.
  1287     GraphWriter& nodes(const std::string& caption) {
  1288       _nodes_caption = caption;
  1289       return *this;
  1290     }
  1291 
  1292     /// \brief Add an additional caption to the \c \@arcs section
  1293     ///
  1294     /// Add an additional caption to the \c \@arcs section.
  1295     GraphWriter& edges(const std::string& caption) {
  1296       _edges_caption = caption;
  1297       return *this;
  1298     }
  1299 
  1300     /// \brief Add an additional caption to the \c \@attributes section
  1301     ///
  1302     /// Add an additional caption to the \c \@attributes section.
  1303     GraphWriter& attributes(const std::string& caption) {
  1304       _attributes_caption = caption;
  1305       return *this;
  1306     }
  1307 
  1308     /// \name Skipping Section
  1309     /// @{
  1310 
  1311     /// \brief Skip writing the node set
  1312     ///
  1313     /// The \c \@nodes section will not be written to the stream.
  1314     GraphWriter& skipNodes() {
  1315       LEMON_ASSERT(!_skip_nodes, "Multiple usage of skipNodes() member");
  1316       _skip_nodes = true;
  1317       return *this;
  1318     }
  1319 
  1320     /// \brief Skip writing edge set
  1321     ///
  1322     /// The \c \@edges section will not be written to the stream.
  1323     GraphWriter& skipEdges() {
  1324       LEMON_ASSERT(!_skip_edges, "Multiple usage of skipEdges() member");
  1325       _skip_edges = true;
  1326       return *this;
  1327     }
  1328 
  1329     /// @}
  1330 
  1331   private:
  1332 
  1333     void writeNodes() {
  1334       _writer_bits::MapStorageBase<Node>* label = 0;
  1335       for (typename NodeMaps::iterator it = _node_maps.begin();
  1336            it != _node_maps.end(); ++it) {
  1337         if (it->first == "label") {
  1338           label = it->second;
  1339           break;
  1340         }
  1341       }
  1342 
  1343       *_os << "@nodes";
  1344       if (!_nodes_caption.empty()) {
  1345         _writer_bits::writeToken(*_os << ' ', _nodes_caption);
  1346       }
  1347       *_os << std::endl;
  1348 
  1349       if (label == 0) {
  1350         *_os << "label" << '\t';
  1351       }
  1352       for (typename NodeMaps::iterator it = _node_maps.begin();
  1353            it != _node_maps.end(); ++it) {
  1354         _writer_bits::writeToken(*_os, it->first) << '\t';
  1355       }
  1356       *_os << std::endl;
  1357 
  1358       std::vector<Node> nodes;
  1359       for (NodeIt n(_graph); n != INVALID; ++n) {
  1360         nodes.push_back(n);
  1361       }
  1362 
  1363       if (label == 0) {
  1364         IdMap<GR, Node> id_map(_graph);
  1365         _writer_bits::MapLess<IdMap<GR, Node> > id_less(id_map);
  1366         std::sort(nodes.begin(), nodes.end(), id_less);
  1367       } else {
  1368         label->sort(nodes);
  1369       }
  1370 
  1371       for (int i = 0; i < static_cast<int>(nodes.size()); ++i) {
  1372         Node n = nodes[i];
  1373         if (label == 0) {
  1374           std::ostringstream os;
  1375           os << _graph.id(n);
  1376           _writer_bits::writeToken(*_os, os.str());
  1377           *_os << '\t';
  1378           _node_index.insert(std::make_pair(n, os.str()));
  1379         }
  1380         for (typename NodeMaps::iterator it = _node_maps.begin();
  1381              it != _node_maps.end(); ++it) {
  1382           std::string value = it->second->get(n);
  1383           _writer_bits::writeToken(*_os, value);
  1384           if (it->first == "label") {
  1385             _node_index.insert(std::make_pair(n, value));
  1386           }
  1387           *_os << '\t';
  1388         }
  1389         *_os << std::endl;
  1390       }
  1391     }
  1392 
  1393     void createNodeIndex() {
  1394       _writer_bits::MapStorageBase<Node>* label = 0;
  1395       for (typename NodeMaps::iterator it = _node_maps.begin();
  1396            it != _node_maps.end(); ++it) {
  1397         if (it->first == "label") {
  1398           label = it->second;
  1399           break;
  1400         }
  1401       }
  1402 
  1403       if (label == 0) {
  1404         for (NodeIt n(_graph); n != INVALID; ++n) {
  1405           std::ostringstream os;
  1406           os << _graph.id(n);
  1407           _node_index.insert(std::make_pair(n, os.str()));
  1408         }
  1409       } else {
  1410         for (NodeIt n(_graph); n != INVALID; ++n) {
  1411           std::string value = label->get(n);
  1412           _node_index.insert(std::make_pair(n, value));
  1413         }
  1414       }
  1415     }
  1416 
  1417     void writeEdges() {
  1418       _writer_bits::MapStorageBase<Edge>* label = 0;
  1419       for (typename EdgeMaps::iterator it = _edge_maps.begin();
  1420            it != _edge_maps.end(); ++it) {
  1421         if (it->first == "label") {
  1422           label = it->second;
  1423           break;
  1424         }
  1425       }
  1426 
  1427       *_os << "@edges";
  1428       if (!_edges_caption.empty()) {
  1429         _writer_bits::writeToken(*_os << ' ', _edges_caption);
  1430       }
  1431       *_os << std::endl;
  1432 
  1433       *_os << '\t' << '\t';
  1434       if (label == 0) {
  1435         *_os << "label" << '\t';
  1436       }
  1437       for (typename EdgeMaps::iterator it = _edge_maps.begin();
  1438            it != _edge_maps.end(); ++it) {
  1439         _writer_bits::writeToken(*_os, it->first) << '\t';
  1440       }
  1441       *_os << std::endl;
  1442 
  1443       std::vector<Edge> edges;
  1444       for (EdgeIt n(_graph); n != INVALID; ++n) {
  1445         edges.push_back(n);
  1446       }
  1447 
  1448       if (label == 0) {
  1449         IdMap<GR, Edge> id_map(_graph);
  1450         _writer_bits::MapLess<IdMap<GR, Edge> > id_less(id_map);
  1451         std::sort(edges.begin(), edges.end(), id_less);
  1452       } else {
  1453         label->sort(edges);
  1454       }
  1455 
  1456       for (int i = 0; i < static_cast<int>(edges.size()); ++i) {
  1457         Edge e = edges[i];
  1458         _writer_bits::writeToken(*_os, _node_index.
  1459                                  find(_graph.u(e))->second);
  1460         *_os << '\t';
  1461         _writer_bits::writeToken(*_os, _node_index.
  1462                                  find(_graph.v(e))->second);
  1463         *_os << '\t';
  1464         if (label == 0) {
  1465           std::ostringstream os;
  1466           os << _graph.id(e);
  1467           _writer_bits::writeToken(*_os, os.str());
  1468           *_os << '\t';
  1469           _edge_index.insert(std::make_pair(e, os.str()));
  1470         }
  1471         for (typename EdgeMaps::iterator it = _edge_maps.begin();
  1472              it != _edge_maps.end(); ++it) {
  1473           std::string value = it->second->get(e);
  1474           _writer_bits::writeToken(*_os, value);
  1475           if (it->first == "label") {
  1476             _edge_index.insert(std::make_pair(e, value));
  1477           }
  1478           *_os << '\t';
  1479         }
  1480         *_os << std::endl;
  1481       }
  1482     }
  1483 
  1484     void createEdgeIndex() {
  1485       _writer_bits::MapStorageBase<Edge>* label = 0;
  1486       for (typename EdgeMaps::iterator it = _edge_maps.begin();
  1487            it != _edge_maps.end(); ++it) {
  1488         if (it->first == "label") {
  1489           label = it->second;
  1490           break;
  1491         }
  1492       }
  1493 
  1494       if (label == 0) {
  1495         for (EdgeIt e(_graph); e != INVALID; ++e) {
  1496           std::ostringstream os;
  1497           os << _graph.id(e);
  1498           _edge_index.insert(std::make_pair(e, os.str()));
  1499         }
  1500       } else {
  1501         for (EdgeIt e(_graph); e != INVALID; ++e) {
  1502           std::string value = label->get(e);
  1503           _edge_index.insert(std::make_pair(e, value));
  1504         }
  1505       }
  1506     }
  1507 
  1508     void writeAttributes() {
  1509       if (_attributes.empty()) return;
  1510       *_os << "@attributes";
  1511       if (!_attributes_caption.empty()) {
  1512         _writer_bits::writeToken(*_os << ' ', _attributes_caption);
  1513       }
  1514       *_os << std::endl;
  1515       for (typename Attributes::iterator it = _attributes.begin();
  1516            it != _attributes.end(); ++it) {
  1517         _writer_bits::writeToken(*_os, it->first) << ' ';
  1518         _writer_bits::writeToken(*_os, it->second->get());
  1519         *_os << std::endl;
  1520       }
  1521     }
  1522 
  1523   public:
  1524 
  1525     /// \name Execution of the Writer
  1526     /// @{
  1527 
  1528     /// \brief Start the batch processing
  1529     ///
  1530     /// This function starts the batch processing.
  1531     void run() {
  1532       if (!_skip_nodes) {
  1533         writeNodes();
  1534       } else {
  1535         createNodeIndex();
  1536       }
  1537       if (!_skip_edges) {
  1538         writeEdges();
  1539       } else {
  1540         createEdgeIndex();
  1541       }
  1542       writeAttributes();
  1543     }
  1544 
  1545     /// \brief Give back the stream of the writer
  1546     ///
  1547     /// Give back the stream of the writer
  1548     std::ostream& ostream() {
  1549       return *_os;
  1550     }
  1551 
  1552     /// @}
  1553   };
  1554 
  1555   /// \ingroup lemon_io
  1556   ///
  1557   /// \brief Return a \ref GraphWriter class
  1558   ///
  1559   /// This function just returns a \ref GraphWriter class. 
  1560   ///
  1561   /// With this function a graph can be write to a file or output
  1562   /// stream in \ref lgf-format "LGF" format with several maps and
  1563   /// attributes. For example, with the following code a weighted
  1564   /// matching problem can be written to the standard output, i.e. a
  1565   /// graph with a \e weight map on the edges:
  1566   ///
  1567   ///\code
  1568   ///ListGraph graph;
  1569   ///ListGraph::EdgeMap<int> weight(graph);
  1570   ///  // Setting the weight map
  1571   ///graphWriter(graph, std::cout).
  1572   ///  edgeMap("weight", weight).
  1573   ///  run();
  1574   ///\endcode
  1575   ///
  1576   /// For a complete documentation, please see the \ref GraphWriter
  1577   /// class documentation.
  1578   /// \warning Don't forget to put the \ref GraphWriter::run() "run()"
  1579   /// to the end of the parameter list.
  1580   /// \relates GraphWriter
  1581   /// \sa graphWriter(const TGR& graph, const std::string& fn)
  1582   /// \sa graphWriter(const TGR& graph, const char* fn)
  1583   template <typename TGR>
  1584   GraphWriter<TGR> graphWriter(const TGR& graph, std::ostream& os) {
  1585     GraphWriter<TGR> tmp(graph, os);
  1586     return tmp;
  1587   }
  1588 
  1589   /// \brief Return a \ref GraphWriter class
  1590   ///
  1591   /// This function just returns a \ref GraphWriter class.
  1592   /// \relates GraphWriter
  1593   /// \sa graphWriter(const TGR& graph, std::ostream& os)
  1594   template <typename TGR>
  1595   GraphWriter<TGR> graphWriter(const TGR& graph, const std::string& fn) {
  1596     GraphWriter<TGR> tmp(graph, fn);
  1597     return tmp;
  1598   }
  1599 
  1600   /// \brief Return a \ref GraphWriter class
  1601   ///
  1602   /// This function just returns a \ref GraphWriter class.
  1603   /// \relates GraphWriter
  1604   /// \sa graphWriter(const TGR& graph, std::ostream& os)
  1605   template <typename TGR>
  1606   GraphWriter<TGR> graphWriter(const TGR& graph, const char* fn) {
  1607     GraphWriter<TGR> tmp(graph, fn);
  1608     return tmp;
  1609   }
  1610 
  1611   class SectionWriter;
  1612 
  1613   SectionWriter sectionWriter(std::istream& is);
  1614   SectionWriter sectionWriter(const std::string& fn);
  1615   SectionWriter sectionWriter(const char* fn);
  1616 
  1617   /// \ingroup lemon_io
  1618   ///
  1619   /// \brief Section writer class
  1620   ///
  1621   /// In the \ref lgf-format "LGF" file extra sections can be placed,
  1622   /// which contain any data in arbitrary format. Such sections can be
  1623   /// written with this class. A writing rule can be added to the
  1624   /// class with two different functions. With the \c sectionLines()
  1625   /// function a generator can write the section line-by-line, while
  1626   /// with the \c sectionStream() member the section can be written to
  1627   /// an output stream.
  1628   class SectionWriter {
  1629   private:
  1630 
  1631     std::ostream* _os;
  1632     bool local_os;
  1633 
  1634     typedef std::vector<std::pair<std::string, _writer_bits::Section*> >
  1635     Sections;
  1636 
  1637     Sections _sections;
  1638 
  1639   public:
  1640 
  1641     /// \brief Constructor
  1642     ///
  1643     /// Construct a section writer, which writes to the given output
  1644     /// stream.
  1645     SectionWriter(std::ostream& os)
  1646       : _os(&os), local_os(false) {}
  1647 
  1648     /// \brief Constructor
  1649     ///
  1650     /// Construct a section writer, which writes into the given file.
  1651     SectionWriter(const std::string& fn)
  1652       : _os(new std::ofstream(fn.c_str())), local_os(true) {
  1653       if (!(*_os)) {
  1654         delete _os;
  1655         throw IoError("Cannot write file", fn);
  1656       }
  1657     }
  1658 
  1659     /// \brief Constructor
  1660     ///
  1661     /// Construct a section writer, which writes into the given file.
  1662     SectionWriter(const char* fn)
  1663       : _os(new std::ofstream(fn)), local_os(true) {
  1664       if (!(*_os)) {
  1665         delete _os;
  1666         throw IoError("Cannot write file", fn);
  1667       }
  1668     }
  1669 
  1670     /// \brief Destructor
  1671     ~SectionWriter() {
  1672       for (Sections::iterator it = _sections.begin();
  1673            it != _sections.end(); ++it) {
  1674         delete it->second;
  1675       }
  1676 
  1677       if (local_os) {
  1678         delete _os;
  1679       }
  1680 
  1681     }
  1682 
  1683   private:
  1684 
  1685     friend SectionWriter sectionWriter(std::ostream& os);
  1686     friend SectionWriter sectionWriter(const std::string& fn);
  1687     friend SectionWriter sectionWriter(const char* fn);
  1688 
  1689     SectionWriter(SectionWriter& other)
  1690       : _os(other._os), local_os(other.local_os) {
  1691 
  1692       other._os = 0;
  1693       other.local_os = false;
  1694 
  1695       _sections.swap(other._sections);
  1696     }
  1697 
  1698     SectionWriter& operator=(const SectionWriter&);
  1699 
  1700   public:
  1701 
  1702     /// \name Section Writers
  1703     /// @{
  1704 
  1705     /// \brief Add a section writer with line oriented writing
  1706     ///
  1707     /// The first parameter is the type descriptor of the section, the
  1708     /// second is a generator with std::string values. At the writing
  1709     /// process, the returned \c std::string will be written into the
  1710     /// output file until it is an empty string.
  1711     ///
  1712     /// For example, an integer vector is written into a section.
  1713     ///\code
  1714     ///  @numbers
  1715     ///  12 45 23 78
  1716     ///  4 28 38 28
  1717     ///  23 6 16
  1718     ///\endcode
  1719     ///
  1720     /// The generator is implemented as a struct.
  1721     ///\code
  1722     ///  struct NumberSection {
  1723     ///    std::vector<int>::const_iterator _it, _end;
  1724     ///    NumberSection(const std::vector<int>& data)
  1725     ///      : _it(data.begin()), _end(data.end()) {}
  1726     ///    std::string operator()() {
  1727     ///      int rem_in_line = 4;
  1728     ///      std::ostringstream ls;
  1729     ///      while (rem_in_line > 0 && _it != _end) {
  1730     ///        ls << *(_it++) << ' ';
  1731     ///        --rem_in_line;
  1732     ///      }
  1733     ///      return ls.str();
  1734     ///    }
  1735     ///  };
  1736     ///
  1737     ///  // ...
  1738     ///
  1739     ///  writer.sectionLines("numbers", NumberSection(vec));
  1740     ///\endcode
  1741     template <typename Functor>
  1742     SectionWriter& sectionLines(const std::string& type, Functor functor) {
  1743       LEMON_ASSERT(!type.empty(), "Type is empty.");
  1744       _sections.push_back(std::make_pair(type,
  1745         new _writer_bits::LineSection<Functor>(functor)));
  1746       return *this;
  1747     }
  1748 
  1749 
  1750     /// \brief Add a section writer with stream oriented writing
  1751     ///
  1752     /// The first parameter is the type of the section, the second is
  1753     /// a functor, which takes a \c std::ostream& parameter. The
  1754     /// functor writes the section to the output stream.
  1755     /// \warning The last line must be closed with end-line character.
  1756     template <typename Functor>
  1757     SectionWriter& sectionStream(const std::string& type, Functor functor) {
  1758       LEMON_ASSERT(!type.empty(), "Type is empty.");
  1759       _sections.push_back(std::make_pair(type,
  1760          new _writer_bits::StreamSection<Functor>(functor)));
  1761       return *this;
  1762     }
  1763 
  1764     /// @}
  1765 
  1766   public:
  1767 
  1768 
  1769     /// \name Execution of the Writer
  1770     /// @{
  1771 
  1772     /// \brief Start the batch processing
  1773     ///
  1774     /// This function starts the batch processing.
  1775     void run() {
  1776 
  1777       LEMON_ASSERT(_os != 0, "This writer is assigned to an other writer");
  1778 
  1779       for (Sections::iterator it = _sections.begin();
  1780            it != _sections.end(); ++it) {
  1781         (*_os) << '@' << it->first << std::endl;
  1782         it->second->process(*_os);
  1783       }
  1784     }
  1785 
  1786     /// \brief Give back the stream of the writer
  1787     ///
  1788     /// Returns the stream of the writer
  1789     std::ostream& ostream() {
  1790       return *_os;
  1791     }
  1792 
  1793     /// @}
  1794 
  1795   };
  1796 
  1797   /// \ingroup lemon_io
  1798   ///
  1799   /// \brief Return a \ref SectionWriter class
  1800   ///
  1801   /// This function just returns a \ref SectionWriter class.
  1802   ///
  1803   /// Please see SectionWriter documentation about the custom section
  1804   /// output.
  1805   ///
  1806   /// \relates SectionWriter
  1807   /// \sa sectionWriter(const std::string& fn)
  1808   /// \sa sectionWriter(const char *fn)
  1809   inline SectionWriter sectionWriter(std::ostream& os) {
  1810     SectionWriter tmp(os);
  1811     return tmp;
  1812   }
  1813 
  1814   /// \brief Return a \ref SectionWriter class
  1815   ///
  1816   /// This function just returns a \ref SectionWriter class.
  1817   /// \relates SectionWriter
  1818   /// \sa sectionWriter(std::ostream& os)
  1819   inline SectionWriter sectionWriter(const std::string& fn) {
  1820     SectionWriter tmp(fn);
  1821     return tmp;
  1822   }
  1823 
  1824   /// \brief Return a \ref SectionWriter class
  1825   ///
  1826   /// This function just returns a \ref SectionWriter class.
  1827   /// \relates SectionWriter
  1828   /// \sa sectionWriter(std::ostream& os)
  1829   inline SectionWriter sectionWriter(const char* fn) {
  1830     SectionWriter tmp(fn);
  1831     return tmp;
  1832   }
  1833 }
  1834 
  1835 #endif