In a segmented architecture computer, a far pointer is a pointer to memory in a specific context, such as a segment selector making it possible to point to addresses outside of the default segment.
Comparison and arithmetic on far pointers is problematic: there can be several different segment-offset address pairs pointing to one physical address.
For example, in an Intel 8086, as well as in later processors running 16-bit code, a far pointer has two parts: a 16-bit segment value, and a 16-bit offset value. A linear address is obtained by shifting the binary segment value four times to the left, and then adding the offset value. Hence the effective address is 21 bits. There can be up to 4096 different segment-offset address pairs pointing to one physical address. To compare two far pointers, they must first be converted (normalized) to their linear representation.
On C compilers targeting the 8086 processor family, far pointers were declared using a non-standard qualifier; e.g., defined a far pointer to a char. The difficulty of normalizing far pointers could be avoided with the non-standard qualifier. On other compilers it was done using an equally non-standard qualifier.
Example of far pointer:
int main
Output of the following program: 81; Because both addresses point to same location.
Physical Address = (value of segment register) * 0x10 + (value of offset).
Location pointed to by pointer is : 0x5555 * 0x10 + 0x0005 = 0x55555
Location pointed to by pointer is : 0x5333 * 0x10 + 0x2225 = 0x55555
So, and both point to the same location 0x55555.