39

I am trying to figure out how to use boost::graph to store some information. However, there is information I want tied to each vertex. Staring at the documentation for the library reveals either(a)badly written documentation, or (b), I'm obviously not as good at C++ as I thought. Pick two.

I am looking for a simple example use.

1
  • 9
    After staring at boost docs in '17, I have the same two revelations.
    – dev_nut
    Apr 1, 2017 at 2:55

5 Answers 5

79

Bundled properties are straightforward to use:

using namespace boost;

struct vertex_info { 
    std::string whatever; 
    int othervalue; 
    std::vector<int> some_values; 
};

typedef adjacency_list<vecS, vecS, undirectedS, vertex_info> graph_t;

graph_t g(n);

g[0].whatever = "Vertex 0";

[...]

and so on.

Please also refer to the docs.

The other type of vertex property that are very useful are external properties. You can declare std::vectors of the appropriate size and use them as properties.

4
  • 17
    This needs to be the accepted answer. Especially because a competing answer, currently top voted, is a reimplementation of this feature you've shown is already in the library! Your example code is also the most straightforward example I've found on the web of how to set up a simple boost graph library usage. Thanks.
    – Dennis
    Jun 5, 2010 at 21:13
  • +1; sorry I'm late to the party :) Just a side note re: "You can declare std::vectors" -- that is only true if you use vecS, and then only for vertices (not edges) IIRC.
    – phooji
    Apr 20, 2011 at 19:03
  • 1
    You can also use multiple property through the magic of TMP : here ->informit.com/articles/article.aspx?p=25756&seqNum=7 Jul 19, 2011 at 23:51
  • Just for reference, here is the relevant page of the boost documentation. Nov 17, 2012 at 21:51
16

I don't like the nested-template property approach of boost::graph, so I wrote a small wrapper around everything, that basically allows to put any struct/class as a vertex/edge property. One can access properties accessing the struct members.

To keep it flexible these structs are defined as template parameter.

Here the Code:

/* definition of basic boost::graph properties */
enum vertex_properties_t { vertex_properties };
enum edge_properties_t { edge_properties };
namespace boost {
    BOOST_INSTALL_PROPERTY(vertex, properties);
    BOOST_INSTALL_PROPERTY(edge, properties);
}


/* the graph base class template */
template < typename VERTEXPROPERTIES, typename EDGEPROPERTIES >
class Graph
{
public:

    /* an adjacency_list like we need it */
    typedef adjacency_list<
        setS, // disallow parallel edges
        listS, // vertex container
        bidirectionalS, // directed graph
        property<vertex_properties_t, VERTEXPROPERTIES>,
        property<edge_properties_t, EDGEPROPERTIES>
    > GraphContainer;


    /* a bunch of graph-specific typedefs */
    typedef typename graph_traits<GraphContainer>::vertex_descriptor Vertex;
    typedef typename graph_traits<GraphContainer>::edge_descriptor Edge;
    typedef std::pair<Edge, Edge> EdgePair;

    typedef typename graph_traits<GraphContainer>::vertex_iterator vertex_iter;
    typedef typename graph_traits<GraphContainer>::edge_iterator edge_iter;
    typedef typename graph_traits<GraphContainer>::adjacency_iterator adjacency_iter;
    typedef typename graph_traits<GraphContainer>::out_edge_iterator out_edge_iter;

    typedef typename graph_traits<GraphContainer>::degree_size_type degree_t;

    typedef std::pair<adjacency_iter, adjacency_iter> adjacency_vertex_range_t;
    typedef std::pair<out_edge_iter, out_edge_iter> out_edge_range_t;
    typedef std::pair<vertex_iter, vertex_iter> vertex_range_t;
    typedef std::pair<edge_iter, edge_iter> edge_range_t;


    /* constructors etc. */
    Graph()
    {}

    Graph(const Graph& g) :
        graph(g.graph)
    {}

    virtual ~Graph()
    {}


    /* structure modification methods */
    void Clear()
    {
        graph.clear();
    }

    Vertex AddVertex(const VERTEXPROPERTIES& prop)
    {
        Vertex v = add_vertex(graph);
        properties(v) = prop;
        return v;
    }

    void RemoveVertex(const Vertex& v)
    {
        clear_vertex(v, graph);
        remove_vertex(v, graph);
    }

    EdgePair AddEdge(const Vertex& v1, const Vertex& v2, const EDGEPROPERTIES& prop_12, const EDGEPROPERTIES& prop_21)
    {
        /* TODO: maybe one wants to check if this edge could be inserted */
        Edge addedEdge1 = add_edge(v1, v2, graph).first;
        Edge addedEdge2 = add_edge(v2, v1, graph).first;

        properties(addedEdge1) = prop_12;
        properties(addedEdge2) = prop_21;

        return EdgePair(addedEdge1, addedEdge2);
    }


    /* property access */
    VERTEXPROPERTIES& properties(const Vertex& v)
    {
        typename property_map<GraphContainer, vertex_properties_t>::type param = get(vertex_properties, graph);
        return param[v];
    }

    const VERTEXPROPERTIES& properties(const Vertex& v) const
    {
        typename property_map<GraphContainer, vertex_properties_t>::const_type param = get(vertex_properties, graph);
        return param[v];
    }

    EDGEPROPERTIES& properties(const Edge& v)
    {
        typename property_map<GraphContainer, edge_properties_t>::type param = get(edge_properties, graph);
        return param[v];
    }

    const EDGEPROPERTIES& properties(const Edge& v) const
    {
        typename property_map<GraphContainer, edge_properties_t>::const_type param = get(edge_properties, graph);
        return param[v];
    }


    /* selectors and properties */
    const GraphContainer& getGraph() const
    {
        return graph;
    }

    vertex_range_t getVertices() const
    {
        return vertices(graph);
    }

    adjacency_vertex_range_t getAdjacentVertices(const Vertex& v) const
    {
        return adjacent_vertices(v, graph);
    }

    int getVertexCount() const
    {
        return num_vertices(graph);
    }

    int getVertexDegree(const Vertex& v) const
    {
        return out_degree(v, graph);
    }


    /* operators */
    Graph& operator=(const Graph &rhs)
    {
        graph = rhs.graph;
        return *this;
    }

protected:
    GraphContainer graph;
};

Using this you can access properties like this:

struct VertexProperties {
    int i;
};

struct EdgeProperties {
};

typedef Graph<VertexProperties, EdgeProperties> MyGraph;

MyGraph g;

VertexProperties vp;
vp.i = 42;

MyGraph::Vertex v = g.AddVertex(vp);

g.properties(v).i = 23;

Of course you may have other needs for your graph's structure, but modification of the code above should be pretty easy.

6
  • Great! This code is what made Boost Graph usable for me. I also don't like working with nested templates.
    – conradlee
    Mar 16, 2010 at 12:16
  • 3
    Just for avoid problems to newbies like me. It's needed to add at the beginning of the code:#include <boost/config.hpp> #include <boost/version.hpp> #include <boost/graph/graph_utility.hpp> #include <boost/graph/adjacency_list.hpp> #include <boost/property_map/property_map.hpp> #include <boost/static_assert.hpp>using namespace boost; (I'm sorry for this horrible comment)
    – Manuel
    Feb 16, 2012 at 18:12
  • AMAZING solution! It saved my day =) I'm just stuck on the iterators... I can't find a way to access the root node of my graph, any idea?
    – Tex
    Feb 22, 2012 at 0:02
  • Sorry for the late reply. The code above just defines a graph structure (V,E) and does not store meta information like the presence of a root vertex. However, AddVertex() returns the created vertex, so you are able to take care for that yourself.
    – grefab
    Jul 5, 2012 at 12:15
  • What "nested template"? If you mean the graph property "protocol", they're largely unnecessary. BGL has Bundled Properties (which may or may not have existed in 2009). I think this wrapper class has more downsides than upsides in modern BGL/C++. I've demonstrated it side-by-side in this new post
    – sehe
    Nov 10, 2017 at 0:29
4

Below is code I used to attach some properties to vertices, edges, and graphs. Note that vertex name and graph name are predefined properties (see boost/properties.hpp for a complete list) so that vertex_name_t and graph_name_t are already defined. However, vertex_location_t, edge_length_t, and graph_notes_t are my own properties and hence need definition. I cobbled together this code from various examples and documentation, and I'm not sure exactly what BOOST_INSTALL_PROPERTY does, but the code seems to work fine.

// Define custom properties
enum vertex_location_t { vertex_location };
enum edge_length_t     { edge_length     };
enum graph_notes_t     { graph_notes     };

namespace boost
{
    BOOST_INSTALL_PROPERTY(vertex, location);
    BOOST_INSTALL_PROPERTY(edge,   length  );
    BOOST_INSTALL_PROPERTY(graph,  notes   );
}

// Define vertex properties:  vertex name and location
typedef property<vertex_name_t,     string,
        property<vertex_location_t, Point3> >
VertexProperties;

// Define edge properties:  length
typedef property<edge_length_t, double> EdgeProperties;

// Define graph properties:  graph name and notes
typedef property<graph_name_t,  string,
        property<graph_notes_t, string> >
GraphProperties;

// Define a graph type
typedef adjacency_list
<
    vecS,       // edge container type
    vecS,       // vertex container type
    undirectedS,
    VertexProperties,
    EdgeProperties,
    GraphProperties
> Graph;
1

I consider Boost.Graph to have a very good documentation, but not truly for beginners on the matter. So here goes an example that i hope is simple enough !

//includes

// Create a name for your information
struct VertexInformation
{
  typedef boost::vertex_property_type type;
};

// Graph type, customize it to your needs
// This is when you decide what information will be attached to vertices and/or edges
// of MyGraph objects
typedef boost::adjacency_list<boost::vecS, boost::vecS, boost::bidirectionalS,
  boost::property<VertexInformation, double> > MyGraph;

int main()
{
  MyGraph graph;

  // Create accessor for information
  typedef boost::property_map<MyGraph, VertexInformation>::type  InformationAccessor;
  InformationAccessor information( get( VertexInformation(), graph ) );

  // Create a vertex (for example purpose)
  typedef boost::graph_traits<MyGraph>::vertex_descriptor MyVertex;
  MyVertex vertex = add_vertex( graph );

  // Now you can access your information
  put( information, vertex, 1. );

  // returns 1 !
  get( information, vertex );
  return 0;
}
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  • 1
    So when you set the vertex properties template argument to boost::property<VertexInformation, double>, you are effectively "naming" a double vertex property "VertexInformation"? That is, why would you not put the double value; INSIDE the VertexInformation struct? Nov 9, 2016 at 17:46
1

I found the examples pretty useful. On windows it will be in your \Program Files\boost\boost_1_38\libs\graph\example directory.

kevin_bacon2.cpp uses vertex properties to store the names of actors.

Your vertex and edge properties can be stored in regular structs or classes.

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