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I have recently explored in C11 and many new features makes me code in C more easily. I am wondering ALL these features are officially supported by C++11. My concern is not about implementation or compiler issues but new C++ standard.

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Some, but they're two separate languages. –  chris Sep 5 '13 at 23:46
    
Which features, specifically? Some new C features are also features in C++ (but no guarantees, as @chris says they're independent languages.) –  Greg Hewgill Sep 5 '13 at 23:46
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I'm familiar with C++11 but not with C11: it would help to know what you are specifically looking for. Also, there are some areas where the two languages pursue different approaches and features won't map from C to C++. –  Dietmar Kühl Sep 5 '13 at 23:48
    
what exactly do you mean by the "many" new features? –  lpapp Sep 5 '13 at 23:57
    
At least C99 variable length arrays are not supported by C++ right now. –  Yu Hao Sep 6 '13 at 1:29

3 Answers 3

No, C++11 does not support ALL the features of C11. It does not even support all the features of C99. Variable-length arrays, for example, were introduced in C99, but C++ does not yet support them. See this question for details.

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Variable-length arrays are slated for C++14 (just to give a timeframe to your statement). –  zneak Sep 11 '13 at 3:12
    
@zneak: No, "arrays of runtime bound" being considered for C++ are not the same as C's VLAs. –  Ben Voigt Sep 3 at 23:26
    
@BenVoigt, N3820 includes an example of the form int foo[n] with a non-constant n. Which differences should I be aware of? I see that it's no longer slated for C++14, though. –  zneak Sep 4 at 1:16
    
@zneak: "arrays of runtime bound" proposal in C++ are not allowed as arguments to sizeof or decltype. In C99, sizeof is a runtime operation when used on VLAs. I've heard there are other differences too, which I can't remember offhand. –  Ben Voigt Sep 4 at 4:42

Among the major additions, two are shared between C11 and C++11: threads and atomics. I think also the new memory sequencing model is shared between the two, but I don't know C++11 well enough to assert that with certainty.

One major addition to C11 will probably never been shared by C++: type generic expressions with _Generic. For many of the use cases of that, in particular function overloading, there are already C++ constructs that implement that. Other more elaborate use cases such as detection of compile time integer constant expressions are not covered by C++. C++1 has constexpr, but other than the name might suggest this is not a tool to determine if an expression is a constant expression, but to specify that an object or a function return is constant. Generating completely different code for the two cases (constant and non-constant) doesn't seem possible.

No only that _Generic is not needed for the main use cases in C++, it also relies heavily on macro programming in the preprocessing phase. Since macros are frowned upon by large parts of the C++ community adding that would certainly not find consensus.

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downvoted. C++11 can detect compile-time constant expressions with constexpr. –  TemplateRex Oct 2 '13 at 8:03
    
@TemplateRex, I will look into that, in how that compares to the C feature. Downvoting for such a thing without giving me the time for correction, seems a bit extreme. Are you by any chance the one who is chasing me down the last day and downvoting on several old answers that I gave years ago? –  Jens Gustedt Oct 2 '13 at 8:23
    
no, I try to always leave a comment, and I usually check back if there is an update on the answer, so that I can withdraw any downvotes. Regarding the other downvotes, I think you got a few people in the C++ chat Lounge upset last night with your tag editing in this question, where the two topvoted answers (including one of mine) were also downvoted at the same time (without comment). –  TemplateRex Oct 2 '13 at 8:26
    
@TemplateRex, ok, thanks for the notice. The fact is that I was a bit upset, too, that this question was taken by "force" by the C++ community. –  Jens Gustedt Oct 2 '13 at 8:33
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oh and BTW, there is no such thing as the C++ community. As Stroustrup says: "nobody knows what most C++ programmers are doing". In fact, there is even a Boost.Preprocessor library that is most often used by hardcore template-metaprogrammers to get the job done. It's not an ideological war, simply finding the right tools. –  TemplateRex Oct 2 '13 at 8:40

The C++11 standard references the C99 standard, particularly for the C standard library.

C++11 supports some, but not all, of the features that are in C99 but not in C90. (Some C99-specific features either are supported differently in C++, or were not deemed suitable.)

C11 added a number of features on top of C99; most of those new features were not also added to C++.

One notable exception to this is thread support (<threads.h> in C11, <thread> in C++11). I haven't looked at this closely enough to know how similar they are.

(C11 also made some of its new features, as well as some C99 features, optional; that's also not reflected in C++.)

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My understanding is that C11 added threading support, both in the form of language support and components use to deal with threads and synchronization primitives. I think all of these features are C++ although the specifications are not necessarily identical between C and C++. –  Dietmar Kühl Sep 6 '13 at 0:04
    
There were a bunch of other little things, too, like anonymous structures, no return functions, some type generic expressions, and the like. And, most importantly of all, it finally got rid of gets(). –  Paul Griffiths Sep 6 '13 at 0:12
    
C11 added C++11 thread support (and atomics) more than the opposite ;) –  J.N. Sep 6 '13 at 6:03

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