As mentioned in the question, I have been using NULL and false(in C++) interchangeably with 0 or 0x0 and so on. I was curious to know if they held any special meaning other than being synonyms of 0.
for some platforms
NULL is not
NULL is guaranteed to be zero, perhaps casted to
C99, §126.96.36.199, ¶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.
And note 55 says:
55) The macro NULL is defined in
<stddef.h>(and other headers) as a null pointer constant.
Notice that, because of how the rules for null pointers are formulated, the value you use to assign/compare null pointers is guaranteed to be zero, but the bit pattern actually stored inside the pointer can be any other thing (but AFAIK only few very esoteric platforms exploited this fact, and this should not be a problem anyway since to "see" the underlying bit pattern you should go into UB-land anyway).
So, as far as the standard is concerned, the two forms are equivalent (
!ptr is equivalent to
ptr==0 due to §188.8.131.52 ¶5, and
ptr==0 is equivalent to
if(!ptr) is also quite idiomatic.
That being said, I usually write explicitly
if(ptr==NULL) instead of
if(!ptr) to make it extra clear that I'm checking a pointer for nullity instead of some boolean value.
- Notice that in C++ the
void *cast cannot be present due to the stricter implicit casting rules that would make the usage of such
NULLcumbersome (you would have to explicitly convert it to the compared pointer's type every time).
Well, NULL may not be zero, it just usually is. It's dependant on your platform - here are some nasty examples of non-zero NULL machines.
C++ you shouldn't use
NULL is a macro for
(void*)0, whereas in
C++ you should use
0 instead of
NULL. But you can't use
false instead of
0 for pointers! Apart from that, they are actually the same, sometimes causing confusion.
This is why in
nullptr was defined as use for pointers.
In C and historic C++,
NULL has to be a zero-valued integer constant, typically
0. I think that C can include an explicit cast to
void*, but C++ can't since that language doesn't allow implicit conversion from
void* to other pointer types.
In modern C++, it could be either
In either case, any zero-valued integer constant (including oddities such as
false) is convertible to a null pointer value.