What are the differences between size_t and std::size_t in terms of where they are declared, when they should be used and any other differentiating features?

  • I'd be interested to know if the C++ spec links std::size_t to the C size_t type. – Doug T. Apr 28 '11 at 4:43
  • See similar question: link – Mankarse Apr 28 '11 at 5:35

C's size_t and C++'s std::size_t are both same.

In C, it's defined in <stddef.h> and in C++, its defined in <cstddef> whose contents are the same as C header (see the quotation below). Its defined as unsigned integer type of the result of the sizeof operator.

C Standard says in §17.7/2,

size_t which is the unsigned integer type of the result of the sizeof operator

And C++ Standard says (about cstddef header) in §18.1/3,

The contents are the same as the Standard C library header , with the following changes.

So yeah, both are same; the only difference is that C++ defines size_t in std namespace.

Please also notice that the above line also says "with the following changes" which isn't referring to size_t. Its rather referring to the new additions (mostly) made by C++ into the language (not present in C) which are also defined in the same header.

Wikipedia has very good info about range and storage size of size_t:

Range and storage size of size_t

The actual type of size_t is platform-dependent; a common mistake is to assume size_t is the same as unsigned int, which can lead to programming errors,[3][4] when moving from 32 to 64-bit architecture, for example.

According to the 1999 ISO C standard (C99), size_t is an unsigned integer type of at least 16 bits.

And the rest you can read from this page at wikipedia.

  • Thats brings to another Q, If STL already imports size_t through C (cstddef) the why it has its own another version again? – Alok Save Apr 28 '11 at 4:51
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    @Als: Strictly speaking, it is an error to say size_t without using namespace std; or using std::size_t;. However, most compilers allow it, and the Standard specifically allows them to allow it (§D.5/3). – Potatoswatter Apr 28 '11 at 5:03
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    @Potatoswatter: Surely it can't be both an error and specifically allowed in the standard? If it's in the standard, it's not an error! – Ben Hymers Jul 30 '13 at 13:20
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    @BenHymers The standard specifies what the standard headers declare, and they are not allowed to declare any other non-reserved names. The header <cstddef> may or may not declare ::size_t, so you cannot rely on it being there or being absent, unless specifically including <stddef.h> or another header from the C library which is guaranteed to declare it. – Potatoswatter Jul 30 '13 at 23:48
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    @Potatoswatter: Ah, I see what you mean now! I must have gotten confused by too many "allow"s in one sentence. I still think your first comment is too strong though; as you just said, ::size_t is present e.g in <stddef.h>, so you don't always need to qualify it with std::. – Ben Hymers Jul 31 '13 at 8:28

From C++03 " Types":

For each type T from the Standard C library (footnote 169), the types ::T and std::T are reserved to the implementation and, when defined, ::T shall be identical to std::T.

And footnote 169:

These types are clock_t, div_t, FILE, fpos_t, lconv, ldiv_t, mbstate_t, ptrdiff_t, sig_atomic_t, size_t, time_t, tm, va_list, wctrans_t, wctype_t, and wint_t.

  • So portable code shouldn't rely on the std::T variants being defined? – Mankarse Apr 28 '11 at 5:24
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    @Mankarse: You shouldn't rely on them being defined if you only include the C version of the corresponding header. If you #include <stddef.h> then std::size_t might or might not be available. If you #include <cstddef> then std::size_t is available, but size_t might not be. – Dennis Zickefoose Apr 28 '11 at 5:46
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    @Mankarse: The oposite. The C++ versions of the headers must define them in std:: and the paragraph says that it may also define them in top-level namespace and if it does, it must define them identically in std:: and top-level. Most compilers just include the C header and import the names to std::, so the symbols do end up defined in both. – Jan Hudec Apr 28 '11 at 6:32
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    Personally, I never bother with the <cxxxxx> headers or the std:: variants of identifiers that come from the C shore. I stick with <xxxxx.h> for the standard C headers - it's never been a problem. So, I'd use <stddef.h> and size_t and never give a second thought to std::size_t; in fact, it never crosses my mind that there is (or might be) a std::size_t. – Michael Burr Apr 28 '11 at 6:32

std::size_t is in fact stddef.h's size_t.

cstddef gives the following:

#include <stddef.h>
namespace std 
  using ::ptrdiff_t;
  using ::size_t;

...effectively bringing the previous definition into the std namespace.

  • As Nawaz points out, it's actually the other way around. You can't include <cstddef> and expect to get ::size_t, but if you include <stddef.h> you will get std::size_t. – MSalters Apr 28 '11 at 8:40
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    @MSalters, I don't follow. Including <stddef.h> will only get you ::size_t. – hifier May 1 '11 at 16:23
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    That is a bug in your implementation, then. – MSalters May 2 '11 at 10:47
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    @MSalters, I don't quite follow. Shouldn't it be the other way round? <cstddef> comes from C++, thus should define the stuff in std::*? On the other hand, in a C header, like stddef.h, I would only expect the C type, i.e. ::size_t. – Ela782 Nov 18 '14 at 0:58
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    @MSalters, since C++11 that's not accurate. If you include <cstddef> you are guaranteed to get std::size_t and you might also get ::size_t (but it's not guaranteed). If you include <stddef.h> you're guaranteed to get ::size_t and you might also get std::size_t (but it's not guaranteed). It was different in C++03 but that was effectively unimplementable and fixed as a defect. – Jonathan Wakely Nov 12 '16 at 23:22

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