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Isn't it bothersome that the result of a native operator cannot be defined without including a header file?

According to this page, size_t is defined in headers cstddef, cstdio, cstring, ctime, and cstdlib. Thus, if neither of those headers is included then size_t should be undefined. However, the following program compiles without any warning (using MSVC 2015RC).

int main()
{
    auto d_Size = sizeof( int );
    return 0;
}

It seems that size_t is somewhat of a bastard between a native type and a typedef. What does the standard say?

10
  • Yeah, good question. Actually, if you replace auto with size_t it compiles fine in VC++, but gcc gives an error Commented May 13, 2015 at 5:13
  • It actually depends on compiler implementation. Some compiler allows to use size_t without including any header files while some compilers does not.
    – niyasc
    Commented May 13, 2015 at 5:24
  • @technorevolutionary But they shouldn't be! In current code everything is clear - sizeof returns type of std::size_t, but std::size_t is just a synonym for unsigned int, so it actually returns unsigned int and auto in this case is just unsigned int. Commented May 13, 2015 at 5:34
  • 3
    @DmitriSosnik cstddef has nothing to do with the compiler. The compiler is independent of the headers. When it was built, it was decided that on X platform, the result of sizeof will be e.g. unsigned long int. Then, the conforming standard library that came with it defined size_t as unsigned long int. The need for size_t appears whenever you want to make sure that your type is "large" enough to store basically any possible representable size. Otherwise some code will use unsigned int, others unsigned long, and porting them will be a mess.
    – vsoftco
    Commented May 13, 2015 at 5:50
  • 1
    @DmitriSosnik and yes, I agree, clients should not care about what is the underlying type of size_t, if that's what you meant. Just use it transparently.
    – vsoftco
    Commented May 13, 2015 at 5:53

2 Answers 2

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5.3.3 Sizeof [expr.sizeof]

1) The sizeof operator yields the number of bytes in the object representation of its operand. The operand is either an expression, which is an unevaluated operand (Clause 5), or a parenthesized type-id. The sizeof operator shall not be applied to an expression that has function or incomplete type, to the parenthesized name of such types, or to a glvalue that designates a bit-field. sizeof(char), sizeof(signed char) and sizeof(unsigned char) are 1. The result of sizeof applied to any other fundamental type (3.9.1) is implementation-defined. [ Note: in particular, sizeof(bool), sizeof(char16_t), sizeof(char32_t), and sizeof(wchar_t) are implementation-defined.75 — end note ] [ Note: See 1.7 for the definition of byte and 3.9 for the definition of object representation. — end note ]

6) The result of sizeof and sizeof... is a constant of type std::size_t. [ Note: std::size_t is defined in the standard header <cstddef> (18.2). — end note ]

However, std::size_t is just a type alias. The sizeof operator can return its result without any need of "accessing" the type alias; the result of sizeof is some fundamental type (implementation defined), which is then aliased as std::size_t in <cstddef>.

Note also that in C++ typedef or using do not define a new type (i.e. a strong type), but only an alias (i.e. their typeid are the same). Hence, in your case, auto just deduces the fundamental type returned by the sizeof operator, which is the same as the type alias std::size_t. No problem for the compiler.

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  • 3
    It's even more fun with nullptr; at least size_t is an alias for some unsigned integer type you can write in another manner. +1, BTW.
    – T.C.
    Commented May 13, 2015 at 5:57
  • @T.C. have to say that I still don't understand perfectly nullptr. I will once take the time to read the standard .
    – vsoftco
    Commented May 13, 2015 at 5:58
4

According to the C++ standard, std::size_t is defined in <cstddef>.

5.3.3 Sizeof

...

6 The result of sizeof and sizeof... is a constant of type std::size_t. [ Note: std::size_t is defined in the standard header <cstddef> (18.2). — end note ]

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