Since a container is tied to one type of data it can contain, you could create a class
GeometryBase from which all
Geometry<T> are derived and then store
GeometryBase pointers in your container.
// Non-template methods might go here.
// Don't forget to declare the base class destructor virtual.
template <typename T> struct Geometry : public GeometryBase
// Template methods go here
At some point you will have to decide which type of vertex container you want to get (my approach) or what you want to do with a vertex (Vijay Mathew's approach) and then you'll have to dynamic_cast<> in order to get access to the derived class methods.
If the types are as different as your describe in your comments, it might actually be better to treat them as different types.
For example, you could create a separate container for each
Geometry<> template instance.
/* ... */
std::vector< Geometry<Vertex1> > m_vertex1Geometries;
std::vector< Geometry<Vertex2> > m_vertex2Geometries;
If you have functions that operate on one kind of geometry (using
Vertex1::GetPos(), to use your example) or the other (
Vertex2::GetUV()) then these functions are probably implemented quite differently and thus deserve to be separate functions expecting diferent types of parameters.