doc/graph_io.dox
changeset 1389 58b298e50c20
parent 1118 62296604afb4
child 1394 f0c48d7fa73d
equal deleted inserted replaced
1:ac02b3fe98d4 2:952c23c73bef
     1 namespace lemon {
     1 namespace lemon {
     2 /*!
     2 /*!
     3 
       
     4 
     3 
     5 
     4 
     6 \page graph-io-page Graph Input-Output
     5 \page graph-io-page Graph Input-Output
     7 
     6 
     8 The standard graph IO makes possible to store graphs and additional maps
     7 The standard graph IO makes possible to store graphs and additional maps
    18 \li edges
    17 \li edges
    19 
    18 
    20 The nodeset section starts with the \c \@nodeset line.
    19 The nodeset section starts with the \c \@nodeset line.
    21 The next line contains the names of the maps separated by whitespaces.
    20 The next line contains the names of the maps separated by whitespaces.
    22 Each following line describes a node in the graph, it contains
    21 Each following line describes a node in the graph, it contains
    23 in the right order the values of the maps. The first map should contain
    22 in the right order the values of the maps. The map named "id" should contain
    24 unique values because it regarded as Id-map. 
    23 unique values because it regarded as ID-map. 
    25 
    24 
    26 \code
    25 \code
    27 @nodeset
    26 @nodeset
    28 id  x-coord  y-coord  color
    27 id  x-coord  y-coord  color
    29 3   1.0      4.0      blue
    28 3   1.0      4.0      blue
    33 
    32 
    34 The edgeset section is very similar to the nodeset section, it has
    33 The edgeset section is very similar to the nodeset section, it has
    35 same coloumn oriented structure. It starts with the line \c \@edgeset
    34 same coloumn oriented structure. It starts with the line \c \@edgeset
    36 The next line contains the whitespace separated list of names of the map.
    35 The next line contains the whitespace separated list of names of the map.
    37 Each of the next lines describes one edge. The first two elements in the line
    36 Each of the next lines describes one edge. The first two elements in the line
    38 are the ID of the source and target node as they occur in the first node map. 
    37 are the ID of the source and target node as they occur in the ID node map. 
    39 
    38 
    40 \code
    39 \code
    41 @edgeset
    40 @edgeset
    42              id    weight   label
    41              id    weight   label
    43 3   5        a     4.3      a-edge
    42 3   5        a     4.3      a-edge
    44 5   12       c     2.6      c-edge
    43 5   12       c     2.6      c-edge
    45 3   12       g     3.4      g-edge
    44 3   12       g     3.4      g-edge
    46 \endcode
    45 \endcode
    47 
    46 
    48 The next section contains <em>labeles nodes</em> (i.e. nodes having a special
    47 The next section contains <em>labeled nodes</em> (i.e. nodes having a special
    49 label on them). The section starts with
    48 label on them). The section starts with
    50 \c \@nodes. Each of the next lines contains a label for a node in the graph 
    49 \c \@nodes. Each of the next lines contains a label for a node in the graph 
    51 and then the ID described in the first column in the nodeset.
    50 and then the ID described in the nodeset.
    52 
    51 
    53 \code
    52 \code
    54 @nodes 
    53 @nodes 
    55 source 3
    54 source 3
    56 target 12
    55 target 12
    57 \endcode
    56 \endcode
    58 
    57 
    59 The last section describes the <em>labeles edges</em>
    58 The last section describes the <em>labeled edges</em>
    60 (i.e. edges having a special
    59 (i.e. edges having a special label on them). It starts with \c \@edges
    61 label on them). It starts with \c \@edges
       
    62 and then each line contains the name of the edge and the ID.
    60 and then each line contains the name of the edge and the ID.
    63 
    61 
    64 \code
    62 \code
    65 @nodes 
    63 @nodes 
    66 observed c
    64 observed c
    86 you should first give writing commands for the writer. You can declare
    84 you should first give writing commands for the writer. You can declare
    87 write command as \c NodeMap or \c EdgeMap writing and labeled Node and
    85 write command as \c NodeMap or \c EdgeMap writing and labeled Node and
    88 Edge writing.
    86 Edge writing.
    89 
    87 
    90 \code
    88 \code
    91 GraphWriter<ListGraph> writer(graph);
    89 GraphWriter<ListGraph> writer(std::cout, graph);
    92 \endcode
    90 \endcode
    93 
    91 
    94 The \c addNodeMap() function declares a \c NodeMap writing command in the
    92 The \c addNodeMap() function declares a \c NodeMap writing command in the
    95 \c GraphWriter. You should give as parameter the name of the map and the map
    93 \c GraphWriter. You should give as parameter the name of the map and the map
    96 object. The first NodeMap writing command should write a unique map because
    94 object. The NodeMap writing command with name "id" should write a 
    97 it is regarded as ID map.
    95 unique map because it is regarded as ID map.
    98 
    96 
    99 \see IdMap, DescriptorMap  
    97 \see IdMap, DescriptorMap  
   100 
    98 
   101 \code
    99 \code
   102 IdMap<ListGraph, Node> nodeIdMap;
   100 IdMap<ListGraph, Node> nodeIdMap;
   106 writer.addNodeMap("y-coord", yCoordMap);
   104 writer.addNodeMap("y-coord", yCoordMap);
   107 writer.addNodeMap("color", colorMap);
   105 writer.addNodeMap("color", colorMap);
   108 \endcode
   106 \endcode
   109 
   107 
   110 With the \c addEdgeMap() member function you can give an edge map
   108 With the \c addEdgeMap() member function you can give an edge map
   111 writing command similar to the NodeMaps. The first map writing command should
   109 writing command similar to the NodeMaps.
   112 write unique map.
       
   113 
   110 
   114 \see IdMap, DescriptorMap  
   111 \see IdMap, DescriptorMap  
   115 \code
   112 \code
   116 DescriptorMap<ListGraph, Edge, ListGraph::EdgeMap<int> > edgeDescMap(graph);
   113 DescriptorMap<ListGraph, Edge, ListGraph::EdgeMap<int> > edgeDescMap(graph);
   117 writer.addEdgeMap("descriptor", edgeDescMap);
   114 writer.addEdgeMap("descriptor", edgeDescMap);
   130 
   127 
   131 writer.addEdge("observed", edge);
   128 writer.addEdge("observed", edge);
   132 \endcode
   129 \endcode
   133 
   130 
   134 After you give all write commands you must call the \c run() member
   131 After you give all write commands you must call the \c run() member
   135 function, which execute all the write commands.
   132 function, which execute all the writer commands.
   136 
   133 
   137 \code
   134 \code
   138 writer.run();
   135 writer.run();
   139 \endcode
   136 \endcode
   140 
   137 
   149 The reader object suppose that each not readed value does not contain 
   146 The reader object suppose that each not readed value does not contain 
   150 whitespaces, therefore it has some extra possibilities to control how
   147 whitespaces, therefore it has some extra possibilities to control how
   151 it should skip the values when the string representation contains spaces.
   148 it should skip the values when the string representation contains spaces.
   152 
   149 
   153 \code
   150 \code
   154 GraphReader<ListGraph> reader(graph);
   151 GraphReader<ListGraph> reader(std::cin, graph);
   155 \endcode
   152 \endcode
   156 
   153 
   157 The \c addNodeMap() function reads a map from the \c \@nodeset section.
   154 The \c addNodeMap() function reads a map from the \c \@nodeset section.
   158 If there is a map that you do not want to read from the file and there is
   155 If there is a map that you do not want to read from the file and there is
   159 whitespace in the string represenation of the values then you should
   156 whitespace in the string represenation of the values then you should
   204 whitespace. 
   201 whitespace. 
   205 
   202 
   206 If you want to change the functionality of the reader, you can use
   203 If you want to change the functionality of the reader, you can use
   207 template parameters to specialize it. When you give a reading
   204 template parameters to specialize it. When you give a reading
   208 command for a map you can give a Reader type as template parameter.
   205 command for a map you can give a Reader type as template parameter.
   209 With this template parameter you can control how does read the Reader
   206 With this template parameter you can control how the Reader reads
   210 a value from the stream.
   207 a value from the stream.
   211 
   208 
   212 The reader has the next structure: 
   209 The reader has the next structure: 
   213 \code
   210 \code
   214 struct TypeReader {
   211 struct TypeReader {
   242 should provide an inner template class Reader for each type, and an 
   239 should provide an inner template class Reader for each type, and an 
   243 DefaultReader for skipping a value.
   240 DefaultReader for skipping a value.
   244 
   241 
   245 The specialization of the writing should be very similar to the reading.
   242 The specialization of the writing should be very similar to the reading.
   246 
   243 
   247 
   244 \author Balazs Dezso
   248 */
   245 */
   249 }
   246 }