You say you need a pointer to an iterator... but that's quite confusing and rarely needed.
Let's see your solutions, one at a time:
vector<type>::iterator *it = &vector<type>::_First;
Not valid because
_First is private, and also you have to use the
vector_object, not the class name.
vector<type>::iterator *it = &(vector<type>::begin());
Not valid because
begin() is not a static method, so you have to use the object name, not the class name:
vector<type>::iterator *it = &(vector_object.begin());
But even then, not valid because
begin returns an r-value, and you cannot get the address of such an expression. You have to use an auxiliary variable for that, which will be an l-value.
vector<type>::iterator *it = &&(vector<type>);
Same as above about the staticness of member functions. It should be:
vector<type>::iterator *it = &&(vector_object);
But even then, to be fair, this code is crazy.
&& is the logical AND operator. You cannot apply operator
& (address-of) twice in a row because it has to be applied to an l-values but it returns an r-value. Moreover
operator returns a value of
type not an iterator.
This compiles but renders undefined behavior because you are returning the address of a local variable that is destroyed once you return from the function. Returning the address of a local variable is always an error, and most compilers will issue a warning about it.
What you have to do is to keep the variable around as long as you need the pointer:
vector<type>::iterator it = vector_object.begin();
vector<type>::iterator *pit = ⁢
// use pit, but keep it around
That is, your pointer is valid only as long as
it variable exists. That's not something specific to iterators, but to pointers in general.
The big question here is: why on earth do you need a pointer to an iterator? I've been programming STL for a very long time and I have never needed a pointer to an iterator before (pointers-to-pointers yes, even pointers-to-pointers-to-pointers, but pointers-to-iterators... never).