Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free.

I'd like to keep my code compilable both on legacy C++ (C++ code using "NULL") and new C++11 standard (C++ code using "nullptr")

I'm using GCC, but planning to recompile the whole codebase also for VS when I'll finish most important things.

Should I expect both GCC and VS will do something like

#define NULL nullptr

Or Is better I'll do that myself (using of course a different name, where MY_LIB will be replaced by my library suffix)?

#ifndef nullptr
    #define MY_LIB_NULL NULL
    #define MY_LIB_NULL nullptr

What I want to achieve is code that compiles regardless of wich C++11 features have been implemented or not (and since i'm not using templates, there are very few of them).

For example the keywords "override" and "final" are already done.

MY_LIB_OVERRIDE //macro, defines to "override" if c++11 is present.
MY_LIB_FINAL    //macro, defines to "final" if c++11 is present.

I'm asking the question because I know the "nullptr" question is a bit strange, so maybe just doing the same I already did for override and final, is wrong. Needs opinions about that. Any help is wellcome.

share|improve this question
seems that some compiler implementors are already defining NULL as "nullptr", so the safest way is to use directly NULL, if nullptr is present it will be used, if nullptr is not present, then NULL is still safe.. so why using "nullptr" if we already have NULL? Or is there the chance that implementors will drop "NULL" (I think highly unprobable) –  DarioOO Dec 2 '12 at 23:44
#define NULL nullptr should not be legal, currently, and probably never will be. NULL must expand to a integral constant expression with the value zero. –  GManNickG Dec 3 '12 at 0:16
Wow, I'm surprised such a change is allowed; that has the potential to break a ton of code (that code would arguably be "bad" code, but the committee doesn't like to break code regardless). I stand corrected, though. And no, I don't think NULL will ever be dropped for the same reason: breaking code, like it or not, is not generally okay to do. –  GManNickG Dec 3 '12 at 0:21
@DarioOO You can't detect nullptr specifically, but you can detect C++11: #if __cplusplus >= 201103. –  hvd Dec 3 '12 at 9:00
I don't have GCC 4.7 installed on this system, but its value will depend on whether you're compiling with -std=c++11/-std=gnu++11. Browsing the GCC source code online, this is already implemented (although not necessarily for 4.7). –  hvd Dec 3 '12 at 9:21

3 Answers 3

up vote 1 down vote accepted

You could probably create a "false" my_nullptr of type my_nullptr_t the following way:

const class my_nullptr_t

        /* Return 0 for any class pointer */
        template<typename T>
        operator T*() const
            return 0;

        /* Return 0 for any member pointer */
        template<typename T, typename U>
        operator T U::*() const
            return 0;

        /* Safe boolean conversion */
        operator void*() const
            return 0;


        /* Not allowed to get the address */
        void operator&() const;

} my_nullptr = {};

This works with C++03 and C++11 and should always be safe, whichever C++11 features are implemented. That solution was actually already discussed in this topic that proposed a version of nullptr_t based on the Official proposal.

share|improve this answer
I think it should technically have operator==, operator!=, and operator bool(), although code won't use those often. –  aschepler Dec 3 '12 at 23:28
The explicit operator bool() would be great but can't be used unless you already use C++11. t seems that operator== and operator!= are not needed though: comparison with any pointer works just fine. –  Morwenn Dec 3 '12 at 23:37
Right, you would only need to overload operator== and operator!= for when both sides are my_nullptr_t. Which is silly, but some template instantiation might do it. –  aschepler Dec 3 '12 at 23:41
I carefully looked at the paper with the proposal for nullptr, (n2431.pdf) and already looked the related topic on stackoverflow, so this answer is a duplicate.. The drawbacks of implementing "my_nullptr_t" are worst than just using NULL (end of page 3 of the paper), so I'll use NULL when C++11 is not available, and "nullptr" (the keyword), only when #if __cplusplus >= 201103 (as already suggested by hvd). I'd liked to mark his comment as best answer. but he posted a comment, not an answer. –  DarioOO Dec 9 '12 at 10:45
Soory for the duplicate answer then. I discovered the aforementioned topic after having posted this answer. And by the way, I just added an overload of operator void*() const for a safe boolean conversion, just for the sake of completeness. –  Morwenn Dec 9 '12 at 10:50

NULL is a macro that expands to a null pointer constant. It still works just like it used to. Code that has to work with non-C++11 compilers should use NULL.

share|improve this answer

I think following will works:

#include <cstddef>

#ifndef MY_LIB_NULL
    #ifndef NULL //check for NULL
        #define MY_LIB_NULL nullptr
        #define MY_LIB_NULL NULL ///use NULL if present

basically I check for "NULL". wich is a macro and can be checked, until the compiler is shipped with that macro (likely to be), than it's valid using the macro, when compiler will only provides "nullptr" and no longer have NULL then nullptr is used (maybe in a far future, but seems we can happily continue to use NULL!)

I think that's safer than redefining "nullptr" (like most people trying to do)

share|improve this answer
<cstddef> is required to define the macro NULL, so testing for NULL will only fail on an egregiously non-conforming implementation. –  Pete Becker Dec 3 '12 at 14:20
isn't NULL defined in every implementation wich have the cstddef header? –  DarioOO Dec 3 '12 at 14:26
Yes, NULL is required to be defined in <cstddef>, and <cstddef> is required to be present for every conforming implementation. –  Pete Becker Dec 3 '12 at 14:29
so it will be defined for conforming implementation. Non - conforming implementation will just don't compile because NULL was not defined and stuff like ptr = NULL; becomes ptr = nullptr;(and if old c++ code is present nullptr is not a know token by compiler) wich is wanted behaviour (at least in my case, if something is not conforming with at least old C++ code I don't expect to be conforming with C++11) –  DarioOO Dec 3 '12 at 14:33
Yes, although I doubt that there's an implementation anywhere that doesn't define NULL, although the safest bet is stddef.h. This is ancient C stuff. –  Pete Becker Dec 3 '12 at 15:00

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.