This started as a comment, but then I realized it probably works better as an actual answer.
The short answer to the question as stated is, as others have already pointed out, no, you cannot map from a memory location to a variable name corresponding to that location.
Think about what would happen if it actually was possible to do something like what you want. Here is a thought experiment for you. I'm assuming C, but it should apply equally well in any language that supports pointers to arbitrary memory locations (including memory locations occupied by other variables).
Suppose that you start out with two pointers to an identical memory location:
char p = DUMMY;
char *q = &p;
Now, if you were to somehow de-dereference
&q, you'd get
p. Okay, that kinda-sorta works, in the theoretical sense. Now, add this:
char *r = &q;
Now, you have double indirection. If you try to figure out what names point to the same memory location as the name
p, what is the result? If I recall the pointer syntax correct, you get
*(*r). How is the compiler going to tell you that, particularly at runtime?
p is sufficiently large. For an arbitrary number
n, replace the
*q assignment by:
char *q = &p + n;
What is now the result of similarly de-dereferencing
q? What would be the result in case
q now points outside the bounds of
p? (Okay, that latter could conceivably be just
q, but then what's the point?)
Or, a practice which was quite common before the wide advent of GUIs. Try this (never mind the actual address).
short *videomemory = 0xB8000;
/* and then, at some later point... */
videomemory += 4;
Then, try to find the address corresponding to the value of
videomemory (0xB8004, given the above). What is the result? In principle, the "array"
videomemory extends indefinitely, even wrapping around (let's ignore memory protection for the moment), and thus anything will map into the memory "occupied" by
videomemory, only given a large enough array index.