Each vertex item, called a `stored_vertex`

, in the adjacency list has a container of out edges and if bidirectional, in edges. Here is how the various flavors of `stored_vertex`

are defined:

```
// stored_vertex and StoredVertexList
typedef typename container_gen<VertexListS, vertex_ptr>::type
SeqStoredVertexList;
struct seq_stored_vertex {
seq_stored_vertex() { }
seq_stored_vertex(const VertexProperty& p) : m_property(p) { }
OutEdgeList m_out_edges;
VertexProperty m_property;
typename SeqStoredVertexList::iterator m_position;
};
struct bidir_seq_stored_vertex {
bidir_seq_stored_vertex() { }
bidir_seq_stored_vertex(const VertexProperty& p) : m_property(p) { }
OutEdgeList m_out_edges;
InEdgeList m_in_edges;
VertexProperty m_property;
typename SeqStoredVertexList::iterator m_position;
};
struct rand_stored_vertex {
rand_stored_vertex() { }
rand_stored_vertex(const VertexProperty& p) : m_property(p) { }
OutEdgeList m_out_edges;
VertexProperty m_property;
};
struct bidir_rand_stored_vertex {
bidir_rand_stored_vertex() { }
bidir_rand_stored_vertex(const VertexProperty& p) : m_property(p) { }
OutEdgeList m_out_edges;
InEdgeList m_in_edges;
VertexProperty m_property;
};
//! This generates the actual stored_vertex type based on
//! the container type.
typedef typename mpl::if_<is_rand_access,
typename mpl::if_<BidirectionalT,
bidir_rand_stored_vertex, rand_stored_vertex>::type,
typename mpl::if_<BidirectionalT,
bidir_seq_stored_vertex, seq_stored_vertex>::type
>::type StoredVertex;
struct stored_vertex : public StoredVertex {
stored_vertex() { }
stored_vertex(const VertexProperty& p) : StoredVertex(p) { }
};
```

If the list type for vertices is random access, then the vertex_descriptor type is std::size_t and represents the index of the vertex in the vector of `stored_vertex`

instances. If the list type is a node based sequence (like list), then the vertex_descriptor is the memory address of the `stored_vertex`

(cast to void*). Either case offers `O(n)`

mapping from the vertex_descriptor to the underlying `stored_vertex`

and hence to the associated edge list(s).