The result of subtraction of two pointers in C does nave signed result, by definition. The result has
ptrdiff_t type, which is a signed integral type.
The important detail here is that you are not allowed to subtract just two arbitrary pointers. In order for the result to be defined, the pointers have to point to elements of the same array (or to the imaginary "one past the end" element).
The result of the subtraction is expressed in elements, not in bytes, i.e. it works consistently with the rest of pointer arithmetic in C. The result of
A - B can and will be be negative, if
A points to an element with greater index than
If you need the difference in bytes between the raw addresses the pointers are pointing to, the more-or-less formally valid way to do it would be the following
intptr_t difference = (intptr_t) left - (intptr_t) right;
That way you are not subtracting pointers (since it is not defined for arbitrary pointers), but rather subtracting their integer representations. The result of
(intptr_t) some_pointer conversion is implementation-defined, but typically it is the physical memory address stored in the pointer. This method, unfortunately, has some problems of its own: it might produce incorrect results for pointers that have
1 is the high-order bits. Such pointers will normally produce negative values when converted to