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I caught that I use references not understanding how they really work (that's why I use them not so often).

Pointer seem to be implemented simply somehow like: a simple WORD variable with address of some other variable. We copy it when we pass it as a parameter to function.

And what happens when we pass reference as a parameter? The same old way?

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Your question seems to confuse language and implementation. The language does not specify how references have to be implemented. –  Kerrek SB Oct 12 '11 at 10:52
Right you are. There's only of standard of "what should such kind of code do", right? So, you mean that every compiler implement it in different way? –  MInner Oct 12 '11 at 10:57
that's right. Some references may not manifest at all if they can be resolved directly, others (e.g. those passed toe external functions) will probably be implemented as pointers by most compilers, but there's nothing in the language requiring that. –  Kerrek SB Oct 12 '11 at 11:07
It is just a language construct. At runtime it is a plain old pointer. –  Hans Passant Oct 12 '11 at 11:12

3 Answers 3

up vote 2 down vote accepted

The two don't have as much in common as you'd think, really.

A reference exists at a higher level of abstraction in the compiler. It doesn't need to generate any code at all. It is essentially an alias for an object, so whenever it is used, the compiler treats it as a use of the referenced object. Of course, sometimes, the compiler will choose to represent code which uses a reference by generating a pointer value which can be passed around as needed, but a reference is really not tied to a specific representation.

A pointer is much more close to the metal. It is a variable which stores an address.

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+1 The different levels of abstraction are what makes the whole difference –  David Rodríguez - dribeas Oct 12 '11 at 11:28

On the particulars of how they are implemented, it depends on the context in which they are used. If the reference is valid only within a scope, the compiler can remove the reference (alias) and use the referred object whenever needed.

If the reference cannot be proven not to escape the current scope (as in a member of a class that could be dynamically allocated), most compilers implement it with a pointer that is automatically dereferenced on use (and providing the rest of the guarantees that are available for references and not for plain pointers).

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Reference is just a pointer, but:

  • cannot be uninitialized
  • cannot be reassigned it
  • cannot be null (well, as far as they are not assigned with dereferenced pointer's value, which can be null)
  • you can use object syntax (ref.member) of member accessing, without dereferencing it ((*pointer).member or pointer->member)
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From the standard pov it is debatable whether they can be 0 or not, since dereferencing a 0 pointer (which is the way how they come to existence) is UB. However in reality, this can happen very well, and often does, without any hacks. Just an innocent T& t = *pt will do it. A more important point is that references always have to be initialized, which is implied by not being able to assign them, but nevertheless a valid point on its own. While you can have a pointer that is uninitialized pointing to garbage, you can not do that with references. Unless you deref a pointer pointing to garbage. –  PlasmaHH Oct 12 '11 at 11:00
@PlasmaHH, right, fixed. –  Griwes Oct 12 '11 at 11:02
@PlasmaHH: From the standard point of view there is no debate at all. You cannot have a NULL reference, nor can you check a reference for nullness. If in your program you do type & r = *(type*)0;, that is UB, your program is not correct and there is nothing that you can do to make this work. That is, that specific line can actually crash the program before initializing the reference. –  David Rodríguez - dribeas Oct 12 '11 at 11:03
From a compiler implementation point of view, a reference isn't "just" a pointer. And as @DavidRodríguez-dribeas says, a null reference does not exist in the C++ language –  jalf Oct 12 '11 at 11:36
Re Reference is just a pointer: Not necessarily. Suppose you have int foo; int & fooref = foo;. The compiler may well implement fooref as just another name for foo. There might well be nothing in the compiled code that represents fooref. The reference is just an alias for the original variable. –  David Hammen Oct 12 '11 at 11:43

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