Are there any predefined macros for C++ in order the code could identify the standard?

e.g. Currently most compilers puts "array" into "tr1" folder but for C++11 it would be part of STL. So currently

#include <tr1/array>

but c++11

#include <array>

What is the predefined macros for 03 standard and 11 standard in order I can use #ifdef to identify?

Also, I suppose there are macros for C90 and C99?


  • 1
    It has little to do with the standard, it completely depends on what your compiler supports. Any compiler predefines a macro that gives its version number. Consult your compiler documentation. – Hans Passant Aug 28 '11 at 21:18
  • possible duplicate of Determine C++0x availability – Ben Voigt Aug 28 '11 at 23:34
  • 3
    @Hans Passant: Fail. The name _ _ cplusplus is defined to the value 201103L when compiling a C++ translation unit. (16.8 Predefined macro names). – Sebastian Mach Sep 1 '11 at 11:30
  • @phresnel - check out Voo's comment. – Hans Passant Sep 1 '11 at 11:32
  • 1
    @phresnel - Yup. And that's why cross-platform libraries like Boost don't use the value of __cplusplus anywhere but are peppered with _MSC_VER, __GNUC__, __ICC, __MWERKS__. Relying on the standard way to check the standard compliance leads to, well, fail as you put it. – Hans Passant Sep 1 '11 at 12:16

From Stroustrup's C++11 FAQ

In C++11 the macro __cplusplus will be set to a value that differs from (is greater than) the current 199711L.

You can likely test it's value to determine if it's c++0x or not then.

  • 1
    Note that while this is probably the best you can do, it sadly won't work for VC++ (sigh). The current VC++ (for VS2010) defines __cplusplus as 199711L but there's still only array no tr1/array (but it is defined with a tr1 namespace) – Voo Aug 28 '11 at 22:03
  • Hmm not good. Although I guess they were in a difficult position. They couldn't claim to be 0x compliant because they only implemented part of it, and the standard was still a long way off anyway - but wanted to implement the parts they had done in compliance with the standard... – jcoder Aug 28 '11 at 22:43
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    Note also that GCC fixed it so __cplusplus reports something other than 1 (note: not even 199711L) just a couple weeks ago, so it also won't work for GCC either until 4.7.0 is out. Also, it's not entirely clear from the bug archive whether it'll support something greater than 199711L off the bat for C++0x builds (though I'm guessing it will). See gcc.gnu.org/bugzilla/show_bug.cgi?id=1773 - a 10+year bug. – Michael Burr Aug 29 '11 at 0:17
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    Just looked at the diff for the bugfix - it only adds 199711L support, so even in GCC you'll need to wait be able to to dectect anything about C++0x using the __cplusplus macro. – Michael Burr Aug 29 '11 at 0:26
  • 1
    in n3242 it is defined as The name _ _ cplusplus is defined to the value 201103L when compiling a C++ translation unit., with a footnote that states that future versions/revisions will increase this number. – Sebastian Mach Sep 1 '11 at 11:32


Your particular issue does not depend on your compiler, it depends on the Standard Library implementation.

Since you are free to pick a different Standard Library that the one provided by your compiler (for example, trying out libc++ or stlport), no amount of compiler specific information will help you here.

Your best bet is therefore to create a specific header file yourself, in which you will choose either one or the other (depending on a build option).

// array.hpp
#include <tr1/array>
#include <array>

You then document the compiler option:

Passing -DSTD_HAS_TR1_ARRAY_HEADER will mean that std::tr1::array is defined in <tr1/array> instead of the default <array>.

And you're done.


From the draft N3242:

16.8 Predefined macro names                          [cpp.predefined]
   The name _ _ cplusplus is defined to the value 201103L when
   compiling a C++ translation unit. 155)
155) It is intended that future versions of this standard will
     replace the value of this macro with a greater value.
     Non-conforming compilers should use a value with at most five 
     decimal digits.

Ultimately, you're going to have to use compiler-specific information. At least, until C++0x becomes more widespreadly implemented. You basically need to pick driver versions that implement something and test compiler-specific macros on them.

The Boost.Config library has a number of macros that can help you.

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