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So this is something that I've always wondered but was never quite sure about. So it is strictly a matter of curiosity, not a real problem.

As far as I understand, what you do something like #include <cstdlib> everything (except macros of course) are declared in the std:: namespace. Every implementation that I've ever seen does this by doing something like the following:

#include <stdlib.h>
namespace std {
    using ::abort;
    // etc....
}

Which of course has the effect of things being in both the global namespace and std. Is this behavior guaranteed? Or is it possible that an implementation could put these things in std but not in the global namespace? The only way I can think of to do that would be to have your libstdc++ implement every c function itself placing them in std directly instead of just including the existing libc headers (because there is no mechanism to remove something from a namespace). Which is of course a lot of effort with little to no benefit.

The essence of my question is, is the following program strictly conforming and guaranteed to work?

#include <cstdio>
int main() {
    ::printf("hello world\n");
}

EDIT: The closest I've found is this (17.4.1.2p4):

Except as noted in clauses 18 through 27, the contents of each header cname shall be the same as that of the corresponding header name.h, as specified in ISO/IEC 9899:1990 Programming Languages C (Clause 7), or ISO/IEC:1990 Programming Languages—C AMENDMENT 1: C Integrity, (Clause 7), as appropriate, as if by inclusion. 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.

which to be honest I could interpret either way. "the contents of each header cname shall be the same as that of the corresponding header name.h, as specified in ISO/IEC 9899:1990 Programming Languages C" tells me that they may be required in the global namespace, but "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." says they are in std (but doesn't specify any other scoped they are in).

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The GNU headers that come with GCC #include the old headers within a namespace std declaration, as far as I can determine. –  greyfade Apr 6 '10 at 19:07
    
At least some versions of STLPort4 indeed only bring the functions into std and not the global namespace. –  Mark B Apr 6 '10 at 19:35
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3 Answers

up vote 8 down vote accepted

Here's a nice synopsis of the situation (with some relaity vs. what the standard says) from Stephan T. Lavavej of the MSVC team (http://blogs.msdn.com/vcblog/archive/2008/08/28/the-mallocator.aspx#8904359):

> also, <cstddef>, <cstdlib>, and std::size_t etc should be used!

I used to be very careful about that. C++98 had a splendid dream wherein <cfoo> would declare everything within namespace std, and <foo.h> would include <cfoo> and then drag everything into the global namespace with using-declarations. (This is D.5 [depr.c.headers].)

This was ignored by lots of implementers (some of which had very little control over the C Standard Library headers). So, C++0x has been changed to match reality. As of the N2723 Working Paper, http://open-std.org/jtc1/sc22/wg21/docs/papers/2008/n2723.pdf , now <cfoo> is guaranteed to declare everything within namespace std, and may or may not declare things within the global namespace. <foo.h> is the opposite: it is guaranteed to declare everything within the global namespace, and may or may not declare things within namespace std.

In reality and in C++0x, including <cfoo> is no safeguard against everything getting declared in the global namespace anyways. That's why I'm ceasing to bother with <cfoo>.

This was Library Issue 456, http://www.open-std.org/jtc1/sc22/wg21/docs/lwg-defects.html#456 .

(C++0x still deprecates the headers from the C Standard Library, which is hilarious.)

I've never been fond of the <cfoo> headers myself, and found that I've always use <foo.h>. Now I feel like I can stop being anxious about my lack of C++ 'purity' in that regard.

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2  
+1. Different strokes for different folks I guess. Personally I find the "c" much less annoying than the ".h" :) –  Billy ONeal Apr 6 '10 at 20:38
1  
Fascinating, thanks for pointing to this. I've long liked the look of <cfoo> but failed to see what writing std::size_t buys me over size_t, so written the latter and been vaguely nervous about one day in the far future being caught out by that no longer working. I feel a recalibration in my #include style coming on in the near future... –  John Marshall Apr 6 '10 at 21:54
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At the present time, no. In fact, even though the code will work with every compiler I now of, it's really not supposed to work at all -- #includeing one of the c* headers is only supposed to give you access to the names inside of namespace std.

Since implementation of this was such a pain (getting it right essentially required duplicating the entire C library as a C++ library in the right namespace), in C++ 0x they've changed the requirements a bit -- your code is now allowed to work, though (at least if memory serves) it's still not required to work.

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But library headers are allowed to include other library headers, which would seem to permit the names at global scope, no? –  Ben Voigt Aug 7 '11 at 17:52
1  
@Ben: I don't think so. The specific wording is (§17.4.4/1): "A C++ header may include other C++ headers." According to §D.5/1, however: "For compatibility with the Standard C library, the C++ Standard library provides the 18 C headers...". Since they're specifically referred to as "C headers" rather than "C++ headers", I don't think they fall within that permission (but I can see where it would be easy to disagree). –  Jerry Coffin Aug 7 '11 at 18:11
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I cannot speak for the standards, as I have not read them, but one could envision a C++ environment that is not built on top of a C environment, or where the C environment is a compatibility layer on top of underlying C++ APIs. In such a case, these guarantees may not be made. I would be surprised if such an implementation would be prohibited from being a compliant implementation.

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true enough, but it could require that the effect be the same (essentially requiring that such headers have proper using std::xxxx; declarations after the namespace block to put them manually in the global namespace). –  Evan Teran Apr 6 '10 at 18:59
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