When thinking about pointers, you need to be clear on a few abstractions.
An object in memory. This can be of any type (and size). An integer object, for example, will occupy 4 bytes in memory (on 32 bit machines). A pointer object will occupy 4 bytes in memory (on 32 bit machines). As should be obvious, the integer object holds integer values; a pointer object holds addresses of other objects.
The C programming language lets symbols (variables) represent these objects in memory. When you declare,
the symbol (variable) i represents some integer object in memory. More specifically, it represents the value of this object. You can manipulate this value by using i in the program.
&i will give you the address of this object in memory.
A pointer object can hold the address of another object. You declare a pointer object by using the syntax,
Just like other variables, the pointer variable represents the value of an object, a pointer object. This value just happens to be an address of some other object. You set the value of a pointer object like so,
ptr = &i;
Now, when you say ptr in the program, you are referring to its value, which is the address of i. But if you say *ptr, you are referring to not the value of ptr, but rather the value of the object whose address is in ptr i.e. i.
The problem with your swap function is that you are swapping values of pointers, not the values of objects that these pointers hold addresses for. To get to the values of objects, you would have to use *ptr.