NULL
From cppreference.com
Defined in header <clocale>
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Defined in header <cstddef>
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Defined in header <cstdio>
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Defined in header <cstdlib>
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Defined in header <cstring>
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Defined in header <ctime>
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Defined in header <cwchar>
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#define NULL /* implementation-defined */ |
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The macro NULL
is an implementation-defined null pointer constant.
Possible implementation
#define NULL 0 //since C++11 #define NULL nullptr |
Notes
In C, the macro NULL
may have the type void*, but that is not allowed in C++ because null pointer constants cannot have that type.
Some implementations define NULL
as the compiler extension __null
with following properties:
-
__null
is equivalent to a zero-valued integer literal (and thus compatible with the C++ standard) and has the same size as void*, e.g. it is equivalent to 0/0L on ILP32/LP64 platforms respectively; - conversion from
__null
to an arithmetic type, including the type of__null
itself, may trigger a warning.
Example
Run this code
#include <cstddef> #include <iostream> #include <type_traits> #include <typeinfo> class S; int main() { int* p = NULL; int* p2 = static_cast<std::nullptr_t>(NULL); void(*f)(int) = NULL; int S::*mp = NULL; void(S::*mfp)(int) = NULL; auto nullvar = NULL; // may trigger a warning when compiling with gcc/clang std::cout << "The type of nullvar is " << typeid(nullvar).name() << '\n'; if constexpr(std::is_same_v<decltype(NULL), std::nullptr_t>) std::cout << "NULL implemented with type std::nullptr_t\n"; else std::cout << "NULL implemented using an integral type\n"; [](...){}(p, p2, f, mp, mfp); // < suppresses "unused variable" warnings }
Possible output:
The type of nullvar is long NULL implemented using an integral type
See also
nullptr (C++11) | the pointer literal which specifies a null pointer value |
(C++11) |
the type of the null pointer literal nullptr (typedef) |
C documentation for NULL
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