I am writing a program that works with graphs. I am dealing with two types of graphs : "abstract graphs", which consist in abstract vertices with edges, and "planar graphs", in which the vertices have coordinates x,y in the plane (actually I am working with a complex affix z but it does not matter).

I have elected to write an (abstract) Vertex class and a derived class Planar_Vertex as follows in my Vertex.h file - this is not precisely my code, I made it slightly simpler and "translated" it from French ;)

```
class Vertex
{
public:
Vertex();
int get_label();
void set_label(int label);
void add_neighbor(int label);
bool is_neighbor(int label);
// etc
protected:
int _label;
std::vector<int> _list_neighbors;
};
class Planar_Vertex : public Vertex
{
complex<double> _affix;
public:
Planar_Vertex();
Planar_Vertex(Vertex& V, complex<double> affix);
complex<double> get_affix();
void set_affix(complex<double> affix);
};
```

Here's my main question. I would like my Planar_Vertex(Vertex& V, complex affix) constructor to have the following effects : 1. Output a Planar_Vertex whose label and list of neighbors are the same as V, and whose affix is given. So far, easy. 2. I would like V to be precisely the abstract Vertex underlying this new object. In other words, if in my main.cpp file I wrote, say,

```
Vertex V1;
...
Planar_Vertex V2(V1,z)
```

then I would like that a use of set_label() on V2 will also affect V1 (for example). The way I see it is, in this constructor, I would like to say something like: make the address of V (in memory) the same as that of the Planar_Vertex constructed (and free the memory previously allocated to V). Apparently it is not possible to change the location of a variable in memory though, so I don't know what to do. I am relatively new to C++ and I'm getting lost reading about placement new, std::move, rvalues etc. Does anybody see how to do what I want?

**[Edit : To summarize, I want to be able to build an object of the derived class on top of an object of the base class that has already been built.]**

Okay, now since I told you guys that much about my implementation of graphs, I thought I'd tell you the rest so you can give me your opinion about it, I hope you don't mind. Obviously you don't have to read the following, if you know the answer to my first question that'd be cool already. So as I told you we're dealing with "abstract graphs", which will consist in abstract vertices, and planar graphs, which consist in planar vertices.

Here's what my Graph.h file looks like:

```
class Graph
{
public:
Graph();
virtual ~Graph();
virtual std::vector<Vertex*> get_list_vertices();
void add_edge(int label1, int label2);
virtual void add_vertex(Vertex&);
// etc
};
class Abstract_Graph : public Graph
{
std::vector<Vertex*> _list_vertices;
public:
Abstract_Graph();
~Abstract_Graph();
std::vector<Vertex*> get_list_vertices();
void add_vertex(Vertex& V);
// etc
};
class Planar_Graph : public Graph
{
std::vector<Planar_Vertex*> _list_planar_vertices;
public:
Planar_Graph();
~Planar_Graph();
std::vector<Vertex*> get_list_vertices();
std::vector<Planar_Vertex*> get_list_planar_vertices();
void add_vertex(Planar_Vertex& V);
// etc
};
```

My idea is that the base class Graph will never be instanciated, but I will be able to implement "abstract graph operations" as functions of this base class and they will work on both Abstract_Graph and Planar_Graph objects. This is made possible thanks to the purely virtual function get_list_vertices. Is this a reasonable way to do things? What would you have done?

Thank you very much for for answers in advance.