Positive or negative is not a meaningful facet of pointer type. They pertain to signed integer including signed char, short, int etc.
People talk about negative pointer mostly in a situation that treats pointer's machine representation as an integer type. e.g. reinterpret_cast<intptr_t>(ptr)
. In this case, they are actually talking about the cast integer, not the pointer itself.
In some scenario I think pointer is inherently unsigned, we talk about address in terms below or above. 0xFFFF.FFFF
is above 0x0AAAA.0000
, which is intuitively for human beings. Although 0xFFFF.FFFF
is actually a "negative" while 0x0AAA.0000
is positive.
But in other scenarios such as pointer subtraction (ptr1 - ptr2)
that results in a signed value whose type is ptrdiff_t
, it's inconsistent when you compare with integer's subtraction, signed_int_a - signed_int_b
results in a signed int type, unsigned_int_a - unsigned_int_b
produces an unsigned type. But for pointer subtraction, it produces a signed type, because the semantic is the distance between two pointers, the unit is number of elements.
In summary I suggest treating pointer type as standalone type, every type has it's set of operation on it. For pointers (excluding function pointer, member function pointer, and void *
):
- List item
+
, +=
ptr + any_integer_type
-
, -=
ptr - any_integer_type
ptr1 - ptr2
++
both prefix and postfix
--
both prefix and postfix
Note there are no / * %
operations for pointer. That's also supported that pointer should be treated as a standalone type, instead of "A type similar to int" or "A type whose underlying type is int so it should looks like int".
int* foo(){ return -1;}
gives a warning on G++warning: return makes pointer from integer without a cast
. I'm not sure whether that proves or disproves your point, but I'm still irked when you say "C compilers don't care what you feed 'em and they'll try to compile anything." (In g++, that's an errorerror: invalid conversion from ‘int’ to ‘int*’
, BTW.)