Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

When I want to use size_t in C++, should I include <stddef.h> or <cstddef>? I have heard several people saying that <cstddef> was a bad idea, and it should be deprecated. Why is that?

share|improve this question
up vote 14 down vote accepted

I prefer #include <stddef.h>.

Some of the names in the C headers are allowed to be macros, but the set differs from the C rules. In C, EXIT_FAILURE, isdigit(), getc() a.o. are macros. Do you know which ones are macros in C++?

Secondly, only a couple standard C headers are required to have the <cfoo> header, Posix headers are not. Do you know which headers are standard and which ones are provided by your compiler only?

Thirdly, when using headers from a third-party C library, you will end up with #include <stddef.h>, and I prefer not to mix <stddef.h> and <cstddef>.

Fourthly, the current draft for the new C++ standard says that <cstdlib> is allowed to dump the symbols into the global namespace (because apparently many compilers already do so nowadays), so using #include <cstdlib> is not a guarantee that the global namespace will be unpolluted in the future. So I would advice that when writing portable code, you should assume the global namespace will be affected (even though it is not allowed now). As only a few experts seem to know this (see the discussion in the comments here), it is better to use <stddef.h> as even a beginning C++ programmer will understand that it pollutes the global namespace.

share|improve this answer
<cstdlib> is not "allowed to dump the symbols into the blobal namespace. (§ "In the C++ Standard Library, however, the declarations and definitions (except for names which are defined as macros in C) are within namespace scope (3.3.5) of the namespace std." – Jerry Coffin Feb 22 '11 at 16:15
@Jerry See the latest version of the (future) C++0x at Quote: "[Example: The header <cstdlib> assuredly provides its declarations and definitions within the namespace std. It may also provide these names within the global namespace. [..]" – Sjoerd Feb 22 '11 at 16:29
@Sjoerd: yes, that may (probably will) eventually happen -- but it's not currently allowed. – Jerry Coffin Feb 22 '11 at 16:37
It is not something that will eventually happen, it is what almost all compilers already do. That's why the standard was changed, to allow existing practice! Most C++ compilers will have to use the .h headers from the system C compiler, whether they like it or not. – Bo Persson Feb 22 '11 at 17:37
Most of the reasons you list sound like arguments for preferring <cstddef>. – Adrian McCarthy Nov 9 '12 at 21:08

stddef.h is the C header. The name size_t is in global namespace in it. <cstddef>, on the other hand, is a C++ header which wraps the C names into std namespace, which is naturally the C++ approach, so if you include <cstddef> and the compiler is compliant you'll have to use std::size_t . Clearly, in C++, C++ approach is more appropriate. HTH

Edit: Technically, the C header too may contain the names in the std namespace. But the C-headers (those that end with .h) introduce the names also to the global namespace (thus polluting it) via using-declarations.

share|improve this answer
Good call. While stddef.h (and 17 other C headers) are _specifically part of C++03, they infect the global namespace and you should be, as you say, using C++ rather than the compatibility functions - C++ also provides malloc but no sane C++ programmer would use it :-) – paxdiablo Feb 22 '11 at 14:36
<stddef.h> must define size_t in std:: and adds an using std::size_t; – Sjoerd Feb 22 '11 at 14:39
@Sjoerd: §D.7/2 says: “It is unspecified whether these names are first declared or defined within namespace scope (3.3.6) of the namespace std and are then injected into the global namespace scope by explicit using-declarations (7.3.3).” – Philipp Feb 22 '11 at 14:46
The current standard states in D5/2: "Every C header, each of which has a name of the form name.h, behaves as if each name placed in the Standard library namespace by the corresponding cname header is also placed within the namespace scope of the namespace std and is followed by an explicit using-declaration". This may be changing in C++0x (I don't know) but I think this answer is correct based on that. – paxdiablo Feb 22 '11 at 14:56
@Philipp: That's true (unfortunately). For the current standard, it's probably more accurate to look at: That's the final draft of the 1998 standard, but the changes in '03 were relatively minor. – Jerry Coffin Feb 22 '11 at 17:40

<stddef.h> is officially a deprecated part of C++ (along with the rest of Annex D of the C++ standard). All of these are (non-deprecated) parts of Standard C, so even though they're deprecated in C++, they're virtually certain to remain available almost indefinitely.

A lot of features that aren't deprecated will almost certain disappear first -- export is already gone from the current draft of C++0x, and if I had to guess, I'd say exception specifications were a lot more likely to go than Annex D. When/if these headers do become truly obsolete, it'll probably be from a mature version of David Vandervoorde's modules proposal, which could easily render all headers obsolete.

At the same time, a fair number of compilers (especially older ones) don't implement the <c*> headers exactly the way the standard prescribes. If you want/need to write code that works with them, you gain quite a bit by using the <*.h> headers instead of the <c*> headers.

Ultimately, I think the <c*> headers were a solution in search of a problem. The C standard requires that these headers only define the names that are required -- no others at all except names that are reserved, such as with a leading underscore followed by another underscore or a capital letter. The reserved names (and a few more) are reserved in C++ as well, so they can't collide with anything in portable code in any case. As such, all the <c*> headers buy you is the ability to define a name in the global namespace that collides with an existing name in the C standard library. That is such a spectacularly awful idea that it's not even worth considering doing, so from a practical viewpoint you've gained nothing.

Edit: Even that useless capability worked with few enough real compilers that the current drafts of the up-combing C++0x give permission for the <c*> headers to pollute the global namespace anyway, so even the theoretical advantage is gone.

share|improve this answer
It's even worse than you descibe: The <c*> headers are allowed to put the names into the global namespace, thus the <c*> headers don't even buy you the ability to define a name in the global namespace that collides with an existing name in the C standard library. – Sjoerd Feb 22 '11 at 16:16
@Sjoerd: See my comment to your (incorrect) reply saying the same. It's true that many implementations do that, but it's not allowed by the current standard. – Jerry Coffin Feb 22 '11 at 16:18
The proposed wording of C++0x allows it, see . – Sjoerd Feb 22 '11 at 16:30

Both are in the standard and, AFAIK, there to stay.

The form cXXX always introduces the names in the std namespaces, the form XXX.h always introduces the names in the global namespace. Both may also put the names in the other namespace (at least in C++0X, it wasn't the case previously. As respecting that constraint make it impossible to build a C++ library from a C library you don't control, the constraint was removed. g++ suffers of that problem at least on the non glibc targets).

For traditional Unix headers, in all implementation I've tested the form XXX.h includes the additional Unix identifier if you have the needed feature macros defined before. The behavior for the form cXXX was inconsistent between implementations. So in practice I use the XXX.h as I often need those declarations.

share|improve this answer
+1 for mentioning the inconsistency of <cXXX> implementations, which historically was for me the most compelling reason. – Sjoerd Feb 22 '11 at 14:53
I severely doubt that stddef.h will ever be banned, but technically, it's permitted because the standard says: "These are […] not guaranteed to be part of the Standard in future revisions". – Philipp Feb 22 '11 at 14:56
@Philipp, there are things which were not mentioned in such a clause which were removed, and things which are which is staying along... – AProgrammer Feb 22 '11 at 15:02
@Philipp: Which is exactly the definition of the term "deprecated" :) – Armen Tsirunyan Feb 22 '11 at 15:06
@Armen: Exactly what I've quoted, see §D/2: "… where deprecated is defined as: Normative for the current edition of the Standard, but not guaranteed to be part of the Standard in future revisions." – Philipp Feb 22 '11 at 15:13

<cstddef> is Standard, and <stddef.h> is not. That's pretty much the end of that. It's not going to be deprecated any time soon because there's a bunch of programs that depend on it.

share|improve this answer
Which paragraph exactly in the c++ standard tells that? – BЈовић Feb 22 '11 at 14:25
@VJo: I have no idea, and don't quote paragraph about anything that's Standard. But I know that it is. Someone else is the Standard bible. I'll ask them. – Puppy Feb 22 '11 at 14:27
stddef.h is explicitly mentioned in C++03, the current standard. See Armen's answer for the reason why you shouldn't use them but they're definitely part of ISO C++. – paxdiablo Feb 22 '11 at 14:37
§D.7/1: “For compatibility with the C standard library and the C Unicode TR, the C++ standard library provides the 25 C headers, […]”; that means <stddef.h> is part of the C++ standard, but deprecated. – Philipp Feb 22 '11 at 14:41

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.