Take the following standard passage:
[C++11: 5.3.3/6]:
The result ofsizeof
andsizeof...
is a constant of typestd::size_t
. [ Note:std::size_t
is defined in the standard header<cstddef>
(18.2). —end note ]
Now:
[C++11: 18.2/6]:
The typesize_t
is an implementation-defined unsigned integer type that is large enough to contain the size in bytes of any object.
Granted, the passage doesn't require that size_t
is a type alias defined with typedef
, but since it's explicitly stated to be made available by the standard header <cstddef>
, I think we can take as read that failing to include <cstddef>
should remove any guarantee that size_t
shall be available to a program.
However, according to that first quote, we can regardless obtain an expression of type std::size_t
.
We can actually demonstrate both of these facts:
int main()
{
typedef decltype(sizeof(0)) my_size_t;
my_size_t x = 0; // OK
std::size_t y = 1; // error: 'size_t' is not a member of 'std'
}
std::size_t
is not visible to the program, but sizeof(0)
still gives us one? Really?
Is it therefore not correct to say that 5.3.3/6
is flawed, and that it actually has "the same type as whatever std::size_t
resolves to", but not std::size_t
itself?
Sure, the two are one and the same if std::size_t
is a type alias but, again, nowhere is this actually required.
std::size_t
, regardless of howsize_t
is defined or whether it's an alias for anything. That said, I'm not enough of a C++ language lawyer to answer this question.cstddef
to use thesize_t
name, but not thesize_t
type.int
andlong
are distinct types, despite having the same properties on my platform.operator new
,operator delete
and variations thereof are also available without the inclusion of any header files, but somewhere in the standard (I suppose 3.7.4 but not sure), I read that using them "does not make the operatorstd::operator new(std::size_t)
visible", or something like that.