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AFAIK both g++ and cl both support compiler specific TL storage... so Im wondering is C++11 TLS different from what they support now?

Thread Local Storage (TLS) is the method by which each thread in a given multithreaded process can allocate locations in which to store thread-specific data. Dynamically bound (run-time) thread-specific data is supported by way of the TLS API ([TlsAlloc], [TlsGetValue], [TlsSetValue], and [TlsFree]). Win32 and the Visual C++ compiler now support statically bound (load-time) per-thread data in addition to the existing API implementation.

Also for VS 11 support is listed as partial. For g++ it is not even in GCC4.7

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closed as off topic by K-ballo, Nicol Bolas, R. Martinho Fernandes, ChrisF, yoda Nov 13 '11 at 16:18

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Well, "partial" support in MS terms means, "we have a similar feature, just that it's not the C++11 feature, but uses totally different syntax and results in the same platform-dependent code you could already write years before C++11", and thus simply translates to "no". –  Christian Rau Oct 18 '12 at 11:06
    
Given that only GCC 4.8 supports this feature as of April 2013, it may not be very easy. In fact, only GCC 4.8 supports the construction and destruction semantics of thread_local. If you want define a C++ object (that has constructor or destructor) with __thread in GCC 4.7 (or earlier) or __declspec(thread) in MSVC, the compiler will complain. Clang compiles my object marked with __thread well, but it does not create the object for each new thread. –  Yongwei Wu Apr 19 '13 at 11:28

2 Answers 2

With g++, its pretty close, at least for ELF-based systems. Just compile with
-Dthread_local=__thread and you get most of it -- the only issue is contructors and destructors not being called, but as long as you use POD-types for your thread-local variables that's not an issue.

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tnx for the info, but const/dest thing makes it almost useless for nontrivial data. But still nice to know that. Tnx a lot! –  NoSenseEtAl Nov 5 '11 at 23:12
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You can get around the ctor/dtor issue by making the thread-local var a pointer and point it at a local var in the top-level thread main function. –  Chris Dodd Nov 6 '11 at 1:43
    
hmm, I dont quite get how that trick would work. If u have time please post the shortest possible code sample. I mean do you think doing the if thread_local ptr==nullptr do ptr = new Object. and for destructor call ptr->manualDestructor? –  NoSenseEtAl Nov 10 '11 at 14:18

The standard was published only a month ago. I am sure many design meetings etc are going on before they begin on such a huge task. By the way most c++ compilers dont completely support the C++98 version of the standard - so be patient.

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Most compilers never will support C++98, simply because of exported templates. It's not that they haven't got around to it, it's that it was a mistake to include in the standard because, and the only vendor to ever implement it (EDG) requested its removal in C++11. Because of this clang and g++ will probably have full C++11 support full before C++98 support. –  je4d Nov 6 '11 at 1:53

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