As everyone else has mentioned, in implementation references and pointers are largely the same. There are some minor caveats:
You can't assign NULL to a reference
(shoosh mentioned this): that's
significant since there is no
"undefined" or "invalid" reference
You can pass a temporary
variable as a const reference,
but it's not legal to pass a pointer
to a temporary.
For example, this is okay:
class Thingy; // assume a constructor Thingy(int,int)
void foo(const Thingy &a)
void bar( )
foo( Thingy(1,2) );
but most compilers will complain about
void foo2( Thingy * a);
foo( &Thingy(1,2) );
- Taking the address of a variable to get a pointer forces the compiler to save it to memory. Assigning a reference to a local variable just creates a synonym; in some cases this may allow the compiler to keep the data on the register and avoid a load-hit-store. However, this only applies to local variables -- once something is passed as a parameter by reference, there's no avoiding saving it to stack.
int a = 5;
// this may be slightly more efficient
int &b = a;
printf( "%d", ++b );
// than this
int *c = &a;
printf( "%d", ++(*c) );
Similarly, the __restrict keyword cannot be applied to references, only pointers.
You can't do pointer arithmetic with references, so whereas if you have a pointer into an array then the next element in the array can be had through p+1, a reference only ever points at one thing in its entire life.