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Can anyone suggest a way to determine the differences in c++11 support when using libc++ versus libstdc++ that ship with the Apple LLVM compiler?

In particular, I am currently using LLVM 4.1 that ships with Xcode 4.5.2.

Presumably, the answer depends in part on the level of c++11 support offered by clang for this version, and in part on the version of libc++ and libstdc++ were shipped with 4.1.

My general sense is that c++11 support is "nearly complete" these days when using libc++, but that you lose something when switching to libstdc++, but i can't figure out what -- a few simple c++11 features seem to work fine on both.

I get the sense that the c++11 support for the libstdc++ that ships with gcc 4.8 is pretty good, but I have no idea if the libstdc++ that ships with llvm 4.1 is old or not.

Also, I get the sense that there is no difference in the level of c++11 support (using llvm 4.1 with libc++) when compiling for osx or ios 6.01, but I'm not positive.

Any suggestions on how to figure all this out?

[Context: due to upstream dependencies,I might need to link to libstdc++ instead of libc++, so I want to figure out what I might be losing]

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To the best of my knowledge, Apple does not use any GPLv3-licensed GCC releases, including the libstdc++ bits. If that's correct, and I'm not entirely sure it is, you're looking at GCC 4.2's libstdc++, and it would surprise me if that includes any C++11 support. Given that you say simple C++11 features work fine on both, I may very well have been informed wrong (I don't have a Mac myself), but could you nevertheless include some details on the tests you've run, just to make sure they're tests of the library features? Also, Apple has modified libstdc++, so it may support more than GCC's own. –  hvd Dec 11 '12 at 20:57
    
I did a ranged-based for loop over a std::vector, but now I'm guessing that doesn't actually use a library feature, but get's away with some sort of syntactic sugar magic. Unfortunately I'm revisiting c++ after 15 years and my kung fu is a little rusty, and I'm not entirely sure what's a simple one liner that tests library versus language features. In any case, your explanation, particularly the info about Apple's stance on GPL versions, makes perfect sense and gives me a rational framework from which to refine my understanding. Thanks! –  lilinjn Dec 11 '12 at 22:10

1 Answer 1

up vote 3 down vote accepted

The libstdc++ that ships with LLVM 4.1 is gcc-4.2. That version has no C++11 support. It does have some tr1 support though.

Additionally, the best way to check for C++11 language features is to use clang's has_feature macro test.

For C++11 library features, you'll need to go with libc++.

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Thanks for the info, it's great! Between your info and @hvd's comment above I think I've a got a reasonable handle on this. I'm going to mark this answered, by I'm still wondering if there is any difference in c++11 support (either language or library) when compiling for IOS/arm or OSX/intel -- it seems unlikely, but in prior releases there have been differences in Objective-C extensions support (e.g. developer.apple.com/library/mac/#documentation/DeveloperTools/…). Should I open a new question about this? –  lilinjn Dec 11 '12 at 22:27
    
No, there should be no significant difference. The same tool set is targeting both platforms in each release. –  Howard Hinnant Dec 12 '12 at 14:59

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