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
& 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).