Question

我试图弄清楚如何使用boost :: graph来存储一些信息。但是，我希望有关于每个顶点的信息。盯着库的文档揭示了（a）写得不好的文档，或者（b），我显然不像我想的那样擅长C ++。选择两个。

我正在寻找一个简单的示例用法。

Answer 1

使用捆绑属性怎么样？

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";

[...]

等等。

我经常使用BGL，使用捆绑属性非常简单（see the docs）。

我经常使用的另一种顶点属性是外部属性。您可以声明适当大小的std::vectors，并在大多数时间和大多数算法中将它们用作属性。

Answer 2

我不喜欢boost :: graph的嵌套模板属性方法，所以我在所有内容周围编写了一个小包装器，它基本上允许将任何struct / class作为顶点/边缘属性。可以访问访问struct成员的属性。

为了保持灵活性，这些结构被定义为模板参数。

这里的代码：

/* 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;
};

使用此功能，您可以访问以下属性：

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;

当然，您的图形结构可能还有其他需求，但上面代码的修改应该非常简单。

Answer 3

下面是我用来将一些属性附加到顶点，边和图形的代码。请注意，顶点名称和图形名称是预定义属性（有关完整列表，请参阅boost / properties.hpp），以便已定义vertex_name_t和graph_name_t。但是，vertex_location_t，edge_length_t和graph_notes_t是我自己的属性，因此需要定义。我从各种示例和文档中拼凑了这些代码，我不确定BOOST_INSTALL_PROPERTY究竟是什么，但代码似乎工作正常。

// 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;

Answer 4

我认为Boost.Graph有一个非常好的文档，但对于这个问题并不是真正的初学者。所以这里有一个例子，我希望这很简单！

//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;
}

Answer 5

我发现这些例子非常有用。在Windows上，它将位于\ Program Files \ boost \ boost_1_38 \ libs \ graph \ example目录中。

kevin_bacon2.cpp使用顶点属性存储actor的名称。

您的顶点和边缘属性可以存储在常规结构或类中。

修改Boost :: Graph中的顶点属性

5 个答案: