boost_1_45_0/libs/graph/doc/write_graphml.rst - nest-learning-thermostat/5.0/boost - Git at Google

 ============================
 |(logo)|__ ``write_graphml``
 ============================

 .. Copyright (C) 2006  Tiago de Paula Peixoto <tiago@forked.de>

    Distributed under the Boost Software License, Version 1.0. (See
    accompanying file LICENSE_1_0.txt or copy at
    http://www.boost.org/LICENSE_1_0.txt)

    Authors: Tiago de Paula Peixoto

 .. |(logo)| image:: ../../../boost.png
    :align: middle
    :alt: Boost

 __ ../../../index.htm

 ::

   template<typename Graph>
   void
   write_graphml(std::ostream& out, const Graph& g, const dynamic_properties& dp,
 	        bool ordered_vertices=false);

   template<typename Graph, typename VertexIndexMap>
   void
   write_graphml(std::ostream& out, const Graph& g, VertexIndexMap vertex_index,
                 const dynamic_properties& dp, bool ordered_vertices=false);

 This is to write a BGL graph object into an output stream in the
 GraphML_ format.  Both overloads of ``write_graphml`` will emit all of
 the properties stored in the dynamic_properties_ object, thereby
 retaining the properties that have been read in through the dual
 function read_graphml_. The second overload must be used when the
 graph doesn't have an internal vertex index map, which must then be
 supplied with the appropriate parameter.

 .. contents::

 Where Defined
 -------------
 ``<boost/graph/graphml.hpp>``

 Parameters
 ----------

 OUT: ``std::ostream& out``
   A standard ``std::ostream`` object.

 IN: ``VertexListGraph& g``
   A directed or undirected graph.  The
   graph's type must be a model of VertexListGraph_. If the graph
   doesn't have an internal ``vertex_index`` property map, one
   must be supplied with the vertex_index parameter.

 IN: ``VertexIndexMap vertex_index``
   A vertex property map containing the indexes in the range
   [0,num_vertices(g)].


 IN: ``dynamic_properties& dp``
   Contains all of the vertex, edge, and graph properties that should be
   emitted by the GraphML writer.

 IN: ``bool ordered_vertices``
   This tells whether or not the order of the vertices from vertices(g)
   matches the order of the indexes. If ``true``, the ``parse.nodeids``
   graph attribute will be set to ``canonical``. Otherwise it will be
   set to ``free``.


 Example
 -------

 This example demonstrates using BGL-GraphML interface to write
 a BGL graph into a GraphML format file.

 ::

   enum files_e { dax_h, yow_h, boz_h, zow_h, foo_cpp,
                  foo_o, bar_cpp, bar_o, libfoobar_a,
                  zig_cpp, zig_o, zag_cpp, zag_o,
                  libzigzag_a, killerapp, N };
   const char* name[] = { "dax.h", "yow.h", "boz.h", "zow.h", "foo.cpp",
                          "foo.o", "bar.cpp", "bar.o", "libfoobar.a",
                          "zig.cpp", "zig.o", "zag.cpp", "zag.o",
                          "libzigzag.a", "killerapp" };

   int main(int,char*[])
   {
       typedef pair<int,int> Edge;
       Edge used_by[] = {
           Edge(dax_h, foo_cpp), Edge(dax_h, bar_cpp), Edge(dax_h, yow_h),
           Edge(yow_h, bar_cpp), Edge(yow_h, zag_cpp),
           Edge(boz_h, bar_cpp), Edge(boz_h, zig_cpp), Edge(boz_h, zag_cpp),
           Edge(zow_h, foo_cpp),
           Edge(foo_cpp, foo_o),
           Edge(foo_o, libfoobar_a),
           Edge(bar_cpp, bar_o),
           Edge(bar_o, libfoobar_a),
           Edge(libfoobar_a, libzigzag_a),
           Edge(zig_cpp, zig_o),
           Edge(zig_o, libzigzag_a),
           Edge(zag_cpp, zag_o),
           Edge(zag_o, libzigzag_a),
           Edge(libzigzag_a, killerapp)
        };

       const int nedges = sizeof(used_by)/sizeof(Edge);

       typedef adjacency_list< vecS, vecS, directedS,
           property< vertex_color_t, string >,
           property< edge_weight_t, int >
           > Graph;
       Graph g(used_by, used_by + nedges, N);

       graph_traits<Graph>::vertex_iterator v, v_end;
       for (tie(v,v_end) = vertices(g); v != v_end; ++v)
           put(vertex_color_t(), g, *v, name[*v]);

       graph_traits<Graph>::edge_iterator e, e_end;
       for (tie(e,e_end) = edges(g); e != e_end; ++e)
           put(edge_weight_t(), g, *e, 3);

       dynamic_properties dp;
       dp.property("name", get(vertex_color_t(), g));
       dp.property("weight", get(edge_weight_t(), g));

       write_graphml(std::cout, g, dp, true);
    }


 The output will be:

 ::

   <?xml version="1.0" encoding="UTF-8"?>
   <graphml xmlns="http://graphml.graphdrawing.org/xmlns/graphml"  xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" xsi:schemaLocation="http://graphml.graphdrawing.org/xmlns/graphml http://graphml.graphdrawing.org/xmlns/graphml/graphml-attributes-1.0rc.xsd">
     <key id="key0" for="node" attr.name="name" attr.type="string" />
     <key id="key1" for="edge" attr.name="weight" attr.type="int" />
     <graph id="G" edgedefault="directed" parse.nodeids="canonical" parse.edgeids="canonical" parse.order="nodesfirst">
       <node id="n0">
         <data key="key0">dax.h</data>
       </node>
       <node id="n1">
         <data key="key0">yow.h</data>
       </node>
       <node id="n2">
         <data key="key0">boz.h</data>
       </node>
       <node id="n3">
         <data key="key0">zow.h</data>
       </node>
       <node id="n4">
         <data key="key0">foo.cpp</data>
       </node>
       <node id="n5">
         <data key="key0">foo.o</data>
       </node>
       <node id="n6">
         <data key="key0">bar.cpp</data>
       </node>
       <node id="n7">
         <data key="key0">bar.o</data>
       </node>
       <node id="n8">
         <data key="key0">libfoobar.a</data>
       </node>
       <node id="n9">
         <data key="key0">zig.cpp</data>
       </node>
       <node id="n10">
         <data key="key0">zig.o</data>
       </node>
       <node id="n11">
         <data key="key0">zag.cpp</data>
       </node>
       <node id="n12">
         <data key="key0">zag.o</data>
       </node>
       <node id="n13">
         <data key="key0">libzigzag.a</data>
       </node>
       <node id="n14">
         <data key="key0">killerapp</data>
       </node>
       <edge id="e0" source="n0" target="n4">
         <data key="key1">3</data>
       </edge>
       <edge id="e1" source="n0" target="n6">
         <data key="key1">3</data>
       </edge>
       <edge id="e2" source="n0" target="n1">
         <data key="key1">3</data>
       </edge>
       <edge id="e3" source="n1" target="n6">
         <data key="key1">3</data>
       </edge>
       <edge id="e4" source="n1" target="n11">
         <data key="key1">3</data>
       </edge>
       <edge id="e5" source="n2" target="n6">
         <data key="key1">3</data>
       </edge>
       <edge id="e6" source="n2" target="n9">
 	 <data key="key1">3</data>
       </edge>
       <edge id="e7" source="n2" target="n11">
 	<data key="key1">3</data>
       </edge>
       <edge id="e8" source="n3" target="n4">
 	<data key="key1">3</data>
       </edge>
       <edge id="e9" source="n4" target="n5">
 	<data key="key1">3</data>
       </edge>
       <edge id="e10" source="n5" target="n8">
 	<data key="key1">3</data>
       </edge>
       <edge id="e11" source="n6" target="n7">
 	<data key="key1">3</data>
       </edge>
       <edge id="e12" source="n7" target="n8">
 	<data key="key1">3</data>
       </edge>
       <edge id="e13" source="n8" target="n13">
 	<data key="key1">3</data>
       </edge>
       <edge id="e14" source="n9" target="n10">
 	<data key="key1">3</data>
       </edge>
       <edge id="e15" source="n10" target="n13">
 	<data key="key1">3</data>
       </edge>
       <edge id="e16" source="n11" target="n12">
 	<data key="key1">3</data>
       </edge>
       <edge id="e17" source="n12" target="n13">
 	<data key="key1">3</data>
       </edge>
       <edge id="e18" source="n13" target="n14">
 	<data key="key1">3</data>
       </edge>
     </graph>
   </graphml>

 See Also
 --------

 _read_graphml

 Notes
 -----

  - Note that you can use GraphML file write facilities without linking
    against the ``boost_graph`` library.

 .. _GraphML: http://graphml.graphdrawing.org/
 .. _dynamic_properties: ../../property_map/doc/dynamic_property_map.html
 .. _read_graphml: read_graphml.html
 .. _VertexListGraph: VertexListGraph.html
	============================
	\|(logo)\|__ ``write_graphml``
	============================

	.. Copyright (C) 2006 Tiago de Paula Peixoto <tiago@forked.de>

	Distributed under the Boost Software License, Version 1.0. (See
	accompanying file LICENSE_1_0.txt or copy at
	http://www.boost.org/LICENSE_1_0.txt)

	Authors: Tiago de Paula Peixoto

	.. \|(logo)\| image:: ../../../boost.png
	:align: middle
	:alt: Boost

	__ ../../../index.htm

	::

	template<typename Graph>
	void
	write_graphml(std::ostream& out, const Graph& g, const dynamic_properties& dp,
	bool ordered_vertices=false);

	template<typename Graph, typename VertexIndexMap>
	void
	write_graphml(std::ostream& out, const Graph& g, VertexIndexMap vertex_index,
	const dynamic_properties& dp, bool ordered_vertices=false);

	This is to write a BGL graph object into an output stream in the
	GraphML_ format. Both overloads of ``write_graphml`` will emit all of
	the properties stored in the dynamic_properties_ object, thereby
	retaining the properties that have been read in through the dual
	function read_graphml_. The second overload must be used when the
	graph doesn't have an internal vertex index map, which must then be
	supplied with the appropriate parameter.

	.. contents::

	Where Defined
	-------------
	``<boost/graph/graphml.hpp>``

	Parameters
	----------

	OUT: ``std::ostream& out``
	A standard ``std::ostream`` object.

	IN: ``VertexListGraph& g``
	A directed or undirected graph. The
	graph's type must be a model of VertexListGraph_. If the graph
	doesn't have an internal ``vertex_index`` property map, one
	must be supplied with the vertex_index parameter.

	IN: ``VertexIndexMap vertex_index``
	A vertex property map containing the indexes in the range
	[0,num_vertices(g)].


	IN: ``dynamic_properties& dp``
	Contains all of the vertex, edge, and graph properties that should be
	emitted by the GraphML writer.

	IN: ``bool ordered_vertices``
	This tells whether or not the order of the vertices from vertices(g)
	matches the order of the indexes. If ``true``, the ``parse.nodeids``
	graph attribute will be set to ``canonical``. Otherwise it will be
	set to ``free``.



	Example
	-------

	This example demonstrates using BGL-GraphML interface to write
	a BGL graph into a GraphML format file.

	::

	enum files_e { dax_h, yow_h, boz_h, zow_h, foo_cpp,
	foo_o, bar_cpp, bar_o, libfoobar_a,
	zig_cpp, zig_o, zag_cpp, zag_o,
	libzigzag_a, killerapp, N };
	const char* name[] = { "dax.h", "yow.h", "boz.h", "zow.h", "foo.cpp",
	"foo.o", "bar.cpp", "bar.o", "libfoobar.a",
	"zig.cpp", "zig.o", "zag.cpp", "zag.o",
	"libzigzag.a", "killerapp" };

	int main(int,char*[])
	{
	typedef pair<int,int> Edge;
	Edge used_by[] = {
	Edge(dax_h, foo_cpp), Edge(dax_h, bar_cpp), Edge(dax_h, yow_h),
	Edge(yow_h, bar_cpp), Edge(yow_h, zag_cpp),
	Edge(boz_h, bar_cpp), Edge(boz_h, zig_cpp), Edge(boz_h, zag_cpp),
	Edge(zow_h, foo_cpp),
	Edge(foo_cpp, foo_o),
	Edge(foo_o, libfoobar_a),
	Edge(bar_cpp, bar_o),
	Edge(bar_o, libfoobar_a),
	Edge(libfoobar_a, libzigzag_a),
	Edge(zig_cpp, zig_o),
	Edge(zig_o, libzigzag_a),
	Edge(zag_cpp, zag_o),
	Edge(zag_o, libzigzag_a),
	Edge(libzigzag_a, killerapp)
	};

	const int nedges = sizeof(used_by)/sizeof(Edge);

	typedef adjacency_list< vecS, vecS, directedS,
	property< vertex_color_t, string >,
	property< edge_weight_t, int >
	> Graph;
	Graph g(used_by, used_by + nedges, N);

	graph_traits<Graph>::vertex_iterator v, v_end;
	for (tie(v,v_end) = vertices(g); v != v_end; ++v)
	put(vertex_color_t(), g, v, name[v]);

	graph_traits<Graph>::edge_iterator e, e_end;
	for (tie(e,e_end) = edges(g); e != e_end; ++e)
	put(edge_weight_t(), g, *e, 3);

	dynamic_properties dp;
	dp.property("name", get(vertex_color_t(), g));
	dp.property("weight", get(edge_weight_t(), g));

	write_graphml(std::cout, g, dp, true);
	}


	The output will be:

	::

	<?xml version="1.0" encoding="UTF-8"?>
	<graphml xmlns="http://graphml.graphdrawing.org/xmlns/graphml" xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" xsi:schemaLocation="http://graphml.graphdrawing.org/xmlns/graphml http://graphml.graphdrawing.org/xmlns/graphml/graphml-attributes-1.0rc.xsd">
	<key id="key0" for="node" attr.name="name" attr.type="string" />
	<key id="key1" for="edge" attr.name="weight" attr.type="int" />
	<graph id="G" edgedefault="directed" parse.nodeids="canonical" parse.edgeids="canonical" parse.order="nodesfirst">
	<node id="n0">
	<data key="key0">dax.h</data>
	</node>
	<node id="n1">
	<data key="key0">yow.h</data>
	</node>
	<node id="n2">
	<data key="key0">boz.h</data>
	</node>
	<node id="n3">
	<data key="key0">zow.h</data>
	</node>
	<node id="n4">
	<data key="key0">foo.cpp</data>
	</node>
	<node id="n5">
	<data key="key0">foo.o</data>
	</node>
	<node id="n6">
	<data key="key0">bar.cpp</data>
	</node>
	<node id="n7">
	<data key="key0">bar.o</data>
	</node>
	<node id="n8">
	<data key="key0">libfoobar.a</data>
	</node>
	<node id="n9">
	<data key="key0">zig.cpp</data>
	</node>
	<node id="n10">
	<data key="key0">zig.o</data>
	</node>
	<node id="n11">
	<data key="key0">zag.cpp</data>
	</node>
	<node id="n12">
	<data key="key0">zag.o</data>
	</node>
	<node id="n13">
	<data key="key0">libzigzag.a</data>
	</node>
	<node id="n14">
	<data key="key0">killerapp</data>
	</node>
	<edge id="e0" source="n0" target="n4">
	<data key="key1">3</data>
	</edge>
	<edge id="e1" source="n0" target="n6">
	<data key="key1">3</data>
	</edge>
	<edge id="e2" source="n0" target="n1">
	<data key="key1">3</data>
	</edge>
	<edge id="e3" source="n1" target="n6">
	<data key="key1">3</data>
	</edge>
	<edge id="e4" source="n1" target="n11">
	<data key="key1">3</data>
	</edge>
	<edge id="e5" source="n2" target="n6">
	<data key="key1">3</data>
	</edge>
	<edge id="e6" source="n2" target="n9">
	<data key="key1">3</data>
	</edge>
	<edge id="e7" source="n2" target="n11">
	<data key="key1">3</data>
	</edge>
	<edge id="e8" source="n3" target="n4">
	<data key="key1">3</data>
	</edge>
	<edge id="e9" source="n4" target="n5">
	<data key="key1">3</data>
	</edge>
	<edge id="e10" source="n5" target="n8">
	<data key="key1">3</data>
	</edge>
	<edge id="e11" source="n6" target="n7">
	<data key="key1">3</data>
	</edge>
	<edge id="e12" source="n7" target="n8">
	<data key="key1">3</data>
	</edge>
	<edge id="e13" source="n8" target="n13">
	<data key="key1">3</data>
	</edge>
	<edge id="e14" source="n9" target="n10">
	<data key="key1">3</data>
	</edge>
	<edge id="e15" source="n10" target="n13">
	<data key="key1">3</data>
	</edge>
	<edge id="e16" source="n11" target="n12">
	<data key="key1">3</data>
	</edge>
	<edge id="e17" source="n12" target="n13">
	<data key="key1">3</data>
	</edge>
	<edge id="e18" source="n13" target="n14">
	<data key="key1">3</data>
	</edge>
	</graph>
	</graphml>

	See Also
	--------

	_read_graphml

	Notes
	-----

	- Note that you can use GraphML file write facilities without linking
	against the ``boost_graph`` library.

	.. _GraphML: http://graphml.graphdrawing.org/
	.. _dynamic_properties: ../../property_map/doc/dynamic_property_map.html
	.. _read_graphml: read_graphml.html
	.. _VertexListGraph: VertexListGraph.html