I am a complete novice to C, and during my university work I've come across comments in code that often refer to de-referencing a NULL pointer. I do have a background in C#, I've been getting by that this might be similar to a "NullReferenceException" that you get in .Net, but now I am having serious doubts.

Can someone please explain to me in laymans terms exactly what this is and why it is bad?

  • Keep in mind doing so results in undefined behavior. You don't get exceptions or anything, in C or C++. – GManNickG Oct 24 '10 at 7:09
  • You might want to put down some example code. It seems that people (including me) don't get what you are trying to ask. – Hai Minh Nguyen Oct 24 '10 at 7:24
  • No need for code (there isn't any) - This is a conceptual problem I am having, trying to get my head around the terminology of "dereferencing" and why I should be caring about it. – Ash Oct 26 '10 at 4:22
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up vote 56 down vote accepted

A NULL pointer points to memory that doesn't exist. This may be address 0x00000000 or any other implementation-defined value (as long as it can never be a real address). Dereferencing it means trying to access whatever is pointed to by the pointer. The * operator is the dereferencing operator:

int a, b, c; // some integers
int *pi;     // a pointer to an integer

a = 5;
pi = &a; // pi points to a
b = *pi; // b is now 5
pi = NULL;
c = *pi; // this is a NULL pointer dereference

This is exactly the same thing as a NullReferenceException in C#, except that pointers in C can point to any data object, even elements inside an array.

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    @Ash: A pointer contains a memory address that references to something. To access that something referenced by that memory address, you have to de-reference the memory address. – In silico Oct 24 '10 at 5:14
  • @Ash, which In silico said, but when you de-reference you getting the value that is stored at the memory address. Give it a try. Do int p; printf("%p\n", &p); it should print out an address. When you don't create a pointer (*var), to get the address you use &var – Matt Oct 24 '10 at 16:21
  • @Greg How about when you do char *foo = NULL and then use &foo ? – Bionix1441 Feb 22 '17 at 9:45
  • @Bionix1441: In your example &foo refers to the address of the variable called foo, which is fine given its declaration. – Greg Hewgill Feb 22 '17 at 16:55

Dereferencing just means reading the memory value at a given address. So when you have a pointer to something, to dereference the pointer means to read or write the data that the pointer points to.

In C, the unary * operator is the dereferencing operator. If x is a pointer, then *x is what x points to. The unary & operator is the address-of operator. If x is anything, then &x is the address at which x is stored in memory. The * and & operators are inverses of each other: if x is any data, and y is any pointer, then these equations are always true:

*(&x) == x
&(*y) == y

A null pointer is a pointer that does not point to any valid data (but it is not the only such pointer). The C standard says that it is undefined behavior to dereference a null pointer. This means that absolutely anything could happen: the program could crash, it could continue working silently, or it could erase your hard drive (although that's rather unlikely).

In most implementations, you will get a "segmentation fault" or "access violation" if you try to do so, which will almost always result in your program being terminated by the operating system. Here's one way a null pointer could be dereferenced:

int *x = NULL;  // x is a null pointer
int y = *x;     // CRASH: dereference x, trying to read it
*x = 0;         // CRASH: dereference x, trying to write it

And yes, dereferencing a null pointer is pretty much exactly like a NullReferenceException in C# (or a NullPointerException in Java), except that the langauge standard is a little more helpful here. In C#, dereferencing a null reference has well-defined behavior: it always throws a NullReferenceException. There's no way that your program could continue working silently or erase your hard drive like in C (unless there's a bug in the language runtime, but again that's incredibly unlikely as well).

It means

myclass *p = NULL;
*p = ...;  // illegal: dereferencing NULL pointer
... = *p;  // illegal: dereferencing NULL pointer
p->meth(); // illegal: equivalent to (*p).meth(), which is dereferencing NULL pointer

myclass *p = /* some legal, non-NULL pointer */;
*p = ...;  // Ok
... = *p;  // Ok
p->meth(); // Ok, if myclass::meth() exists

basically, almost anything involving (*p) or implicitly involving (*p), e.g. p->... which is a shorthand for (*p). ...; except for pointer declaration.

  • He tagged his question as C not C++ – GWW Oct 24 '10 at 5:13
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    @GWW: and it has exactly the same semantic in C and in C++, except perhaps C does not have costum class. – Lie Ryan Oct 24 '10 at 5:16
  • Isn't p->meth() just a shorthand for (*p).meth(), with the latter being available in both C and C++? – Arun Oct 24 '10 at 7:12
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    This code is perfectly valid C. – jforberg Sep 6 '15 at 12:59

From wiki

A null pointer has a reserved value, often but not necessarily the value zero, indicating that it refers to no object
..

Since a null-valued pointer does not refer to a meaningful object, an attempt to dereference a null pointer usually causes a run-time error.

int val =1;
int *p = NULL;
*p = val; // Whooosh!!!! 
  • Thanks for your answer, I am ok with what a NULL pointer was, I just wasn't sure about how the "dereferencing" fits into the scheme of things. – Ash Oct 24 '10 at 5:15

Quoting from wikipedia:

A pointer references a location in memory, and obtaining the value at the location a pointer refers to is known as dereferencing the pointer.

Dereferencing is done by applying the unary * operator on the pointer.

int x = 5;
int * p;      // pointer declaration
p = &x;       // pointer assignment
*p = 7;       // pointer dereferencing, example 1
int y = *p;   // pointer dereferencing, example 2

"Dereferencing a NULL pointer" means performing *p when the p is NULL

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