As title: is size_t always unsigned, i.e. for
size_t x, is
>= 0 ?
Yes. It's usually defined as something like the following (on 32-bit systems):
C++ Standard Section 18.1 defines
According to the 1999 ISO C standard (C99),
The standard also recommends that
The 1989 ANSI C standard (ANSI C) doesn't mention a minimal size or recommended conversion rank.
The 1998 ISO C++ standard (C++98) (as well as the current draft for C++0x) refers to the C standard. Section 18.1 reads:
According to section 1.2, this means the library as defined by the 1990 ISO C standard (C90), including its first amendment from 1995 (C95):
The parts regarding
Please also consider the following quote from section 1.2 of C++98:
According to the standard it is unsigned, however I recall that some older implementations used a signed type for the typedef.
From an older GCC doc:
I'm not sure how important it would be to guard against that. My code assumes it's unsigned.
The size_t should follow the same definition as the C standard, and in several places in the C++ standard it implies it's unsigned natura (particularly in the allocator template argument definitions).
On the C++ Standard, section 18.1 (ISO/IEC 14882 - First edition 1998-01-01):
Table 15 lists as defined types: ptrdiff_t and size_t
3 The contents are the same as the Standard C library header , with the following changes: 4 The macro NULL is an implementation-defined C++ null pointer constant in this International Standard (4.10).
The macro offsetof accepts a restricted set of type arguments in this International Standard. type shall be a POD structure or a POD union (clause 9). The result of applying the offsetof macro to a field that is a static data member or a function member is undefined. SEE ALSO: subclause 5.3.3, Sizeof, subclause 5.7, Additive operators, subclause 12.5, Free store, and ISO C subclause 7.1.6.
On mature (?) reflection - quotes from the C99 Standard are probably sufficient. Despite some of the weirdo things C99 does, I don't believe they would change the type of size_t. So apologies to anyone who I may have forced to pore through ancient C standards documents!