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I know this is an often asked question, but as there are so many variants, I'd like to re-state it, and hopefully have an answer reflecting the current state. Something like

Logger& g_logger() {
    static Logger lg;
    return lg;

Is the constructor of variable lg guaranteed to run only once?

I know from previous answers that in C++03, this is not; in C++0x draft, this is enforced. But I'd like a clearer answer to

  1. In C++11 standard (not draft), is the thread-safe initialization behavior finalized?
  2. If the above is yes, in current latest releases of popular compilers, namely gcc 4.7, vc 2011 and clang 3.0, are they properly implemented?
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@Chris: Deterministic initialization and avoidance of the static initialization order fiasco. Local statics will first be initialized when the function is called the first time. –  Xeo Nov 12 '11 at 4:37
Thanks Xeo, that's the main reason. Some others include: 1. Normally in a logging system, client code use it as macro, like LOG << "your log" ..., and the macros have to have an deterministic access to the logger 2. The logger is not created if you don't use it. 3. You probably don't want your client to create multiple loggers (there are synchronization issue, etc...) so the Logger has a private constructor, which is only accessible by friend g_logger() –  Ralph Zhang Nov 12 '11 at 5:24
@balki, GCC has implemented it for nearly a decade. Clang supports it too. –  Jonathan Wakely Jan 15 '13 at 11:11
Visual Studio 2012 Update 3 does not support it - I tested it with a short test program and looked at the assembly code. –  Tobias Langner Jul 2 '13 at 6:38
Nor, does it appear, will Visual Studio 2013. See the row "Magic statics" at msdn.microsoft.com/en-us/library/vstudio/… –  rkjnsn Sep 15 '13 at 22:47

1 Answer 1

up vote 79 down vote accepted

The relevant section 6.7:

such a variable is initialized the first time control passes through its declaration; such a variable is considered initialized upon the completion of its initialization. [...] If control enters the declaration concurrently while the variable is being initialized, the concurrent execution shall wait for completion of the initialization.

Then there's a footnote:

The implementation must not introduce any deadlock around execution of the initializer.

So yes, you're safe.

(This says nothing of course about the subsequent access to the variable through the reference.)

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It is important to note that static Logger lg; is thread-safe only if the default constructor of Logger is thread-safe, i.e it doesn't accesses any modifiable shared resource internally, say through global variables or singletons. It should be noted that the Standard guarantees only this : if more one thread attempts to start executing the constructor concurrently, only one of them will actually execute it, the rest will wait for the completion of initialization. The Standard, however, doesn't give any guarantee of the thread-safety of the constructor itself. –  Nawaz Jul 24 '14 at 12:41
Also, it says nothing about readers of the variable, which means you can have TSAN issues if you have any readers not preceded by the static constructor. Of course, if you use the pattern above (foo& GetFooLog() { static foo bar; return bar; } then the TSAN issue doesn't arise. –  jesup Oct 2 '14 at 5:51
@KerrekSB: I've also explained what I meant by that : i.e it doesn't accesses any modifiable shared resource internally. Just because only one thread executes a constructor, doesn't necessarily mean that what it does is thread-safe. If it modifies unprotected shared resource, then it wouldn't be threadsafe. –  Nawaz Oct 2 '14 at 10:10
@Nawaz: Well, that's true, but that's also a complete generality: Concurrent access of shared data must be synchronized. I don't think that there's any suggestion that static initialization would somehow provide an exemption from that rule, so I didn't think it worth calling out specifically. –  Kerrek SB Oct 2 '14 at 10:44

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