Clarifications to the preceding posts:
References are NOT a guarantee of getting a non-null pointer. (Though we often treat them as such.)
While horrifically bad code, as in take you out behind the woodshed bad code, the following will compile & run: (At least under my compiler.)
bool test( int & a)
return (&a) == (int *) NULL;
int * i = (int *)NULL;
cout << ( test(*i) ) << endl;
The real issue I have with references lies with other programmers, henceforth termed IDIOTS, who allocate in the constructor, deallocate in the destructor, and fail to supply a copy constructor or operator=().
Suddenly there's a world of difference between foo(BAR bar) and foo(BAR & bar). (Automatic bitwise copy operation gets invoked. Deallocation in destructor gets invoked twice.)
Thankfully modern compilers will pick up this double-deallocation of the same pointer. 15 years ago, they didn't. (Under gcc/g++, use *setenv MALLOC_CHECK_ 0* to revisit the old ways.) Resulting, under DEC UNIX, in the same memory being allocated to two different objects. Lots of debugging fun there...
- References hide that you are changing data stored someplace else.
- It's easy to confuse a Reference with a Copied object.
- Pointers make it obvious!