29

I have the following code:

MyType x = NULL;

NetBeans gave me a suggestion to change it to this:

MyType x = __null;

I looked it up and found that __null is called a "compiler keyword", which I assumed to mean it's used internally for the compiler. I don't understand why NetBeans suggested to change it to a compiler keyword.

What's the difference between NULL and __null in c++?

  • 42
    In C++11 and after you should use the keyword nullptr. – Anon Mail Dec 28 '18 at 19:51
  • 6
    Don't use __null. If it's an implementation detail, it's not portable to use it. If it's defined by the project, it's using a name reserved for use by the implementation, it's not legal to use that identifier and it should be removed from the project. – François Andrieux Dec 28 '18 at 19:52
  • 3
    If you want NULL use nullptr. If that doesn't compile then you don't have a pointer and you are doing the wrong thing. – NathanOliver Dec 28 '18 at 19:53
  • You want nullptr - always. – Jesper Juhl Dec 28 '18 at 19:57
  • 1
    Strange suggestion from NetBeans there. Possibly worth raising this with its devs, though we can't tell for sure with the slim pickings of information provided. – Lightness Races in Orbit Dec 29 '18 at 18:39
49

__null is a g++ internal thing that serves roughly the same purpose as the standard nullptr added in C++11 (acting consistently as a pointer, never an integer).

NULL is defined as 0, which can be implicitly used as integer, boolean, floating point value or pointer, which is a problem when it comes to overload resolution, when you want to call the function that takes a pointer specifically.

In any event, you shouldn't use __null because it's a g++ implementation detail, so using it guarantees non-portable code. If you can rely on C++11 (surely you can by now?), use nullptr. If not, NULL is your only portable option.

  • 13
    Note that NULL does not have to be defined as 0. It's whatever the implementation chooses as a null-pointer constant. – Pete Becker Dec 28 '18 at 20:18
  • 1
    @PeteBecker: True. It's just that pre-C++11, I don't know of any systems that didn't use 0. In the C++11 era, they're allowed to make it evaluate to nullptr, but I'm not sure which compilers, if any, have pulled that particular trigger (since it could conceivably break existing code). – ShadowRanger Dec 29 '18 at 1:09
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    @PeteBecker I think there's some confusion here between 0 as the address of the pointer, and the literal 0 in source code. The latter is defined as yielding a null pointer when it is assigned to a pointer, even though the resulting address is implementation defined. – David Conrad Dec 29 '18 at 2:28
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    @ShadowRanger NULL is sometimes defined as 0, sometimes as (void *) 0, depending on the compiler. – David Conrad Dec 29 '18 at 2:30
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    @DavidConrad — (void*)0 is a valid null pointer constant in C but not in C++. – Pete Becker Dec 29 '18 at 3:10
8

NULL is the old C symbol for a null pointer. C++ traditionally have used 0 for null pointers, and since the C++11 standard nullptr.

Considering that x doesn't seem to be a pointer then you can't initialize x to be a null pointer, and the __null symbol is perhaps some compiler-internal symbol for a null value (which is a concept that doesn't really exist in standard C++).

If you want x to initialized to some default state, then you have to rely on the MyClass default constructor to initialize the objects and its member variables to some suitable default values.

8

NULL has been overtaken from C into C++ and - prior to C++11 - adopted its C meaning:

until C++11: The macro NULL is an implementation-defined null pointer constant, which may be an integral constant expression rvalue of integer type that evaluates to zero.

C++11 then introduced a dedicated null pointer literal nullptr of type std::nullptr_t. But - probably for backward compatibility - the macro NULL was not removed; its definition was just a bit relaxed in that compilers may now define it either as integral or as pointer type:

C++11 onwards: an integer literal with value zero, or a prvalue of type std::nullptr_t

If you use NULL, then you get implementation-defined behaviour in overload resolution. Consider, for example, the following code with a compiler that uses the integral-version of NULL-macro. Then a call using NULL as parameter passed to a function may lead to ambiguities:

struct SomeOverload {

    SomeOverload(int x) {
        cout << "taking int param: " << x << endl;
    }
    SomeOverload(void* x) {
        cout << "taking void* param: " << x << endl;
    }
};

int main() {

    int someVal = 10;

    SomeOverload a(0);
    SomeOverload b(&someVal);

    // SomeOverload c(NULL);  // Call to constructor is ambiuous
    SomeOverload d(nullptr);
}

So it is recommended to use nullptr where ever you want to express pointer type.

And don't use __null, as this is a compiler-specific, non-portable constant; nullptr, in contrast, is perfectly portable.

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