Pointers can in principle be different sizes. The largest pointer, if there is any difference (disregarding member pointers, talking about real pointers), is char*
, since a char
by definition is a byte and can be anywhere, no alignment. void*
must be able to represent char*
.
On a system with int*
using fewer bits than char*
, reinterpret-casting in that direction might be a bit risky.
I think with these pointers (heh) you can find this in the standard. It's the requirement about void*
being large enough for any pointer, and the thing about alignment: the stricter/larger, the fewer bits needed for pointer to that type. But I have not ever heard of any extant system where there is such difference.
Standardese regarding void*
being able to represent char*
:
C++11 §3.9.2/4:
”
A pointer to cv-qualified (3.9.3) or cv-unqualified void
can be used
to point to objects of unknown type. Such a pointer shall be able to hold any object
pointer. An object of type cv void*
shall have the same
representation and alignment requirements as cv char*
The “any object pointer” implies vaguely that there are different sizes of pointer.
Standaredese regarding the alignment of referent:
C++11 §5.2.10/7:
”
An object pointer can be explicitly converted to an object pointer of a different type. When a prvalue v
of type “pointer to T1
” is converted to the type “pointer to cv T2
”, the result is static_cast<
cv T2*>(static_cast<
cv void*>(v))
if both T1
and T2
are standard-layout types (3.9) and the alignment
requirements of T2
are no stricter than those of T1
, or if either type is void
. Converting a prvalue of type
“pointer to T1
” to the type “pointer to T2
” (where T1
and T2
are object types and where the alignment
requirements of T2
are no stricter than those of T1
) and back to its original type yields the original pointer
value. The result of any other such pointer conversion is unspecified.
It’s worth noting that later on in the standard there is some support for C-style emulation of class derivation, that apparently contradicts the “any other” at the end above:
C++11 §9.2/20,
”
A pointer to a standard-layout struct object, suitably converted using a reinterpret_cast
, points to its
initial member (or if that member is a bit-field, then to the unit in which it resides) and vice versa.
In this case the two objects necessarily have the same alignment, while the previous cited paragraph talked only about alignment of types – but clearly the formal little contradiction is not a practical problem, as I see it.
float*
andint*
. So if standard wouldn't allow changing bit pattern, the cast would be impossible on that architecture.