It seems you might be a bit confused about terms.
An object usually has an address. That is the location in memory where the object is located. Some temporary objects don't have addresses, because they don't need to be stored. Such an exception is the temporary "4" object in the expression
A pointer is an object that stores an address of another object. Hence, for every type, there is a matching pointer.
Now, you write about "addresses of pointers". They exist. After all, I wrote that a pointer is an object, and thus it has its own address. And you can store that address in another pointer. For instance, you can store the address of and
int* in an
int* *. But do you really intended that? Or did you mean the "address referenced by a pointer"?
Now, you give height and weight as examples. The standard way to swap them in C++ is simply
std::swap(width, height). Note the
std::, which is the prefix for C++ standard library functions.
std::swap will swap almost everything. ints, floats, wives. (j/k).
You have another swap function, apparently. It accepts two pointers to integers, which means it wants the addresses of two integers. Those are easy to provide, in this case.
width is an integer, and
&width is its address. That can be stored in the pointer argument
int* a. Similarly, you can store the address
&height in argument
int*b. Putting it together, you get the call
How does this work? The
swap(int*a, int*b) function has two pointers, holding the address of two integers in memory. So, what it can do is  set aside a copy of the first integer,  copy the second integer in the memory where the first integer was, and  copy the first integer back in the memory where the second integer was. In code:
void swap(int *a, int *b)
int temp = *a; // 1
*a = *b; // 2
*b = temp; // 3