doc/read_write_bg.dox
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     1 namespace lemon {
       
     2 /*!
       
     3 \page read_write_bg Background of Reading and Writing
       
     4 
       
     5 To read a map (on the nodes or edges)
       
     6 the \ref lemon::GraphReader "GraphReader"
       
     7 should know how to read a Value from the given map.
       
     8 By the default implementation the input operator reads a value from
       
     9 the stream and the type of the read value is the value type of the given map.
       
    10 When the reader should skip a value in the stream, because you do not
       
    11 want to store it in a map, the reader skips a character sequence without 
       
    12 whitespaces. 
       
    13 
       
    14 If you want to change the functionality of the reader, you can use
       
    15 template parameters to specialize it. When you give a reading
       
    16 command for a map you can give a Reader type as template parameter.
       
    17 With this template parameter you can control how the Reader reads
       
    18 a value from the stream.
       
    19 
       
    20 The reader has the next structure: 
       
    21 \code
       
    22 struct TypeReader {
       
    23   typedef TypeName Value;
       
    24 
       
    25   void read(std::istream& is, Value& value);
       
    26 };
       
    27 \endcode
       
    28 
       
    29 For example, the \c "strings" nodemap contains strings and you do not need
       
    30 the value of the string just the length. Then you can implement an own Reader
       
    31 struct.
       
    32 
       
    33 \code
       
    34 struct LengthReader {
       
    35   typedef int Value;
       
    36 
       
    37   void read(std::istream& is, Value& value) {
       
    38     std::string tmp;
       
    39     is >> tmp;
       
    40     value = tmp.length();
       
    41   }
       
    42 };
       
    43 ...
       
    44 reader.readNodeMap<LengthReader>("strings", lengthMap);
       
    45 \endcode  
       
    46 
       
    47 The global functionality of the reader class can be changed by giving a
       
    48 special template parameter to the GraphReader class. By default, the
       
    49 template parameter is \c DefaultReaderTraits. A reader traits class 
       
    50 should provide a nested template class Reader for each type, and a 
       
    51 DefaultReader for skipping a value.
       
    52 
       
    53 The specialization of writing is very similar to that of reading.
       
    54 
       
    55 \section u Undirected graphs
       
    56 
       
    57 In a file describing an undirected graph (ugraph, for short) you find an
       
    58 \c uedgeset section instead of the \c edgeset section. The first line of
       
    59 the section describes the names of the maps on the undirected egdes and all
       
    60 next lines describe one undirected edge with the the incident nodes and the
       
    61 values of the map.
       
    62 
       
    63 The format handles directed edge maps as a syntactical sugar???, if there
       
    64 are two maps with names being the same with a \c '+' and a \c '-' prefix
       
    65 then this will be read as a directed map.
       
    66 
       
    67 \code
       
    68 @uedgeset
       
    69              label      capacity        +flow   -flow
       
    70 32   2       1          4.3             2.0     0.0
       
    71 21   21      5          2.6             0.0     2.6
       
    72 21   12      8          3.4             0.0     0.0
       
    73 \endcode
       
    74 
       
    75 The \c edges section is changed to \c uedges section. This section
       
    76 describes labeled edges and undirected edges. The directed edge label
       
    77 should start with a \c '+' or a \c '-' prefix to decide the direction
       
    78 of the edge. 
       
    79 
       
    80 \code
       
    81 @uedges
       
    82 uedge 1
       
    83 +edge 5
       
    84 -back 5
       
    85 \endcode
       
    86 
       
    87 There are similar classes to the \ref lemon::GraphReader "GraphReader" and
       
    88 \ref lemon::GraphWriter "GraphWriter" which
       
    89 handle the undirected graphs. These classes are
       
    90 the \ref lemon::UGraphReader "UGraphReader"
       
    91 and \ref lemon::UGraphWriter "UGraphWriter".
       
    92 
       
    93 The \ref lemon::UGraphReader::readUEdgeMap() "readUEdgeMap()"
       
    94 function reads an undirected map and the
       
    95 \ref lemon::UGraphReader::readUEdge() "readUEdge()"
       
    96 reads an undirected edge from the file, 
       
    97 
       
    98 \code
       
    99 reader.readUEdgeMap("capacity", capacityMap);
       
   100 reader.readEdgeMap("flow", flowMap);
       
   101 ...
       
   102 reader.readUEdge("u_edge", u_edge);
       
   103 reader.readEdge("edge", edge);
       
   104 \endcode
       
   105 
       
   106 \section advanced Advanced features
       
   107 
       
   108 The graph reader and writer classes give an easy way to read and write
       
   109 graphs. But sometimes we want more advanced features. In this case we can
       
   110 use the more general <tt>lemon reader and writer</tt> interface.
       
   111 
       
   112 The LEMON file format is a section oriented file format. It contains one or
       
   113 more sections, each starting with a line identifying its type 
       
   114 (the word starting with the \c \@  character).
       
   115 The content of the section this way cannot contain line with \c \@ first
       
   116 character. The file may contains comment lines with \c # first character.
       
   117 
       
   118 The \ref lemon::LemonReader "LemonReader"
       
   119 and \ref lemon::LemonWriter "LemonWriter"
       
   120 gives a framework to read and
       
   121 write sections. There are various section reader and section writer
       
   122 classes which can be attached to a \ref lemon::LemonReader "LemonReader"
       
   123 or a \ref lemon::LemonWriter "LemonWriter".
       
   124 
       
   125 There are default section readers and writers for reading and writing
       
   126 item sets, and labeled items in the graph. These read and write
       
   127 the format described above. Other type of data can be handled with own
       
   128 section reader and writer classes which are inherited from the
       
   129 \c LemonReader::SectionReader or the
       
   130 \ref lemon::LemonWriter::SectionWriter "LemonWriter::SectionWriter"
       
   131 classes.
       
   132 
       
   133 The next example defines a special section reader which reads the
       
   134 \c \@description sections into a string:
       
   135 
       
   136 \code 
       
   137 class DescriptionReader : LemonReader::SectionReader {
       
   138 protected:
       
   139   virtual bool header(const std::string& line) {
       
   140     std::istringstream ls(line);
       
   141     std::string head;
       
   142     ls >> head;
       
   143     return head == "@description";
       
   144   }
       
   145 
       
   146   virtual void read(std::istream& is) {
       
   147     std::string line;
       
   148     while (getline(is, line)) {
       
   149       desc += line;
       
   150     }
       
   151   }
       
   152 public:
       
   153 
       
   154   typedef LemonReader::SectionReader Parent;
       
   155   
       
   156   DescriptionReader(LemonReader& reader) : Parent(reader) {}
       
   157 
       
   158   const std::string& description() const {
       
   159     return description;
       
   160   }
       
   161 
       
   162 private:
       
   163   std::string desc;
       
   164 };
       
   165 \endcode
       
   166 
       
   167 The other advanced stuff of the generalized file format is that 
       
   168 multiple edgesets can be stored to the same nodeset. It can be used 
       
   169 for example as a network traffic matrix.
       
   170 
       
   171 In our example there is a network with symmetric links and there are assymetric
       
   172 traffic request on the network. This construction can be stored in an
       
   173 undirected graph and in a directed \c ListEdgeSet class. The example
       
   174 shows the input with the \ref lemon::LemonReader "LemonReader" class:
       
   175 
       
   176 \code
       
   177 ListUGraph network;
       
   178 ListUGraph::UEdgeMap<double> capacity;
       
   179 ListEdgeSet<ListUGraph> traffic(network);
       
   180 ListEdgeSet<ListUGraph>::EdgeMap<double> request(network);
       
   181 
       
   182 LemonReader reader(std::cin);
       
   183 NodeSetReader<ListUGraph> nodesetReader(reader, network);
       
   184 UEdgeSetReader<ListUGraph> 
       
   185   uEdgesetReader(reader, network, nodesetReader);
       
   186 uEdgesetReader.readEdgeMap("capacity", capacity);
       
   187 EdgeSetReader<ListEdgeSet<ListUGraph> > 
       
   188   edgesetReader(reader, traffic, nodesetReader, "traffic");
       
   189 edgesetReader.readEdgeMap("request", request);
       
   190 
       
   191 reader.run();
       
   192 \endcode
       
   193 
       
   194 Because both the \ref lemon::GraphReader "GraphReader"
       
   195 and the \ref lemon::UGraphReader "UGraphReader" can be converted
       
   196 to \ref lemon::LemonReader "LemonReader"
       
   197 and it can resolve the label's of the items, the previous
       
   198 result can be achived with the \ref lemon::UGraphReader "UGraphReader"
       
   199 class, too.
       
   200 
       
   201 
       
   202 \code
       
   203 ListUGraph network;
       
   204 ListUGraph::UEdgeSet<double> capacity;
       
   205 ListEdgeSet<ListUGraph> traffic(network);
       
   206 ListEdgeSet<ListUGraph>::EdgeMap<double> request(network);
       
   207 
       
   208 UGraphReader<ListUGraph> reader(std::cin, network);
       
   209 reader.readEdgeMap("capacity", capacity);
       
   210 EdgeSetReader<ListEdgeSet<ListUGraph> > 
       
   211   edgesetReader(reader, traffic, reader, "traffic");
       
   212 edgesetReader.readEdgeMap("request", request);
       
   213 
       
   214 reader.run();
       
   215 \endcode
       
   216 
       
   217 \author Balazs Dezso
       
   218 */
       
   219 }