NULL is defined as
(void *)0 whereas in C++ it is
0. Why is it so?
In C I can understand that if
NULL is not typecast to
(void *) then compilers may/may not generate warning. Other than this, is there any reason?
Back in C++03, a null pointer was defined by the ISO specification (§4.10/1) as
A null pointer constant is an integral constant expression (5.19) rvalue of integer type that evaluates to zero.
This is why in C++ you can write
int* ptr = 0;
In C, this rule is similar, but is a bit different (§22.214.171.124/3):
An integer constant expression with the value 0, or such an expression cast to type
void *, is called a null pointer constant.55) If a null pointer constant is converted to a pointer type, the resulting pointer, called a null pointer, is guaranteed to compare unequal to a pointer to any object or function.
int* ptr = 0;
int* ptr = (void *)0
are legal. However, my guess is that the
void* cast is here so that statements like
int x = NULL;
produce a compiler warning on most systems. In C++, this wouldn't be legal because you can't implicitly convert a
void* to another pointer type implicitly without a cast. For example, this is illegal:
int* ptr = (void*)0; // Legal C, illegal C++
However, this leads to issues because the code
int x = NULL;
is legal C++. Because of this and the ensuing confusion (and another case, shown later), since C++11, there is a keyword
nullptr representing a null pointer:
int* ptr = nullptr;
This doesn't have any of the above problems.
The other advantage of
nullptr over 0 is that it plays better with the C++ type system. For example, suppose I have these two functions:
void DoSomething(int x); void DoSomething(char* x);
If I call
It's equivalent to
DoSomething(int) instead of the expected
DoSomething(char*). However, with
nullptr, I could write
And it will call the
DoSomething(char*) function as expected.
Similarly, suppose that I have a
vector<Object*> and want to set each element to be a null pointer. Using the
std::fill algorithm, I might try writing
std::fill(v.begin(), v.end(), NULL);
However, this doesn't compile, because the template system treats
NULL as an
int and not a pointer. To fix this, I would have to write
std::fill(v.begin(), v.end(), (Object*)NULL);
This is ugly and somewhat defeats the purpose of the template system. To fix this, I can use
std::fill(v.begin(), v.end(), nullptr);
nullptr is known to have a type corresponding to a null pointer (specifically,
std::nullptr_t), this will compile correctly.
Hope this helps!
NULL expands to an implementation-defined "null pointer constant". A null pointer constant is either an integer constant expression with the value 0, or such an expression cast to
void*. So a C implementation may define
NULL either as
0 or as
In C++, the rules for null pointer constants are different. In particular,
((void*)0) is not a C++ null pointer constant, so a C++ implementation can't define
NULL that way.
The C language was created to make it easier to program microprocessors. A C pointer is used to store the address of data in memory. A way was needed to represent that a pointer had no valid value. The address zero was chosen since all microprocessors used that address for booting up. Since it couldn't be used for anything else zero was a good choice to represent a pointer with no valid value. C++ is backward compatible with C so it's inherited that convention.
The requirement of casting zero when used as a pointer is only a recent add on. Later generations of C wanted to have more rigor (and hopefully fewer errors) so they started being more pedantic about syntax.