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According to what I found on the net, you should use references as much as you can, except when you must use a pointer. As far as I understood, the only reasons to use a pointer are:

  • when dealing with raw memory or
  • when you may have to return null or
  • when you are dealing with the returned newly allocated object from new().

The first cannot really be handled. It's intrinsic in the task. The second can be handled by a Null object pattern, and return a reference to that Null object. It requires that you define a Null object per each class instance you want to be able to refer to as Null. The third can be handled with a smart pointer.

What I am wondering is: is it possible to "go java in C++" and program completely using references disregarding pointers altogether ? Would it be possible to define, by language, a null object in C++ like in Java ?

Sorry if the question is badly stated or a FAQ, I am very rusty on C++ and I have to start a new project in it, so I need to re-learn a few new things and get used to think in a different way.

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Never say never. –  Steve Wellens Jan 10 '12 at 17:00
The second can be accomplished with boost::optional. –  Benjamin Lindley Jan 10 '12 at 17:01
The point is that java acts more like always using pointers, but using the dot-notation while C++ uses the "->" notation (since the dot notation is used when you have references). I mean, in java you have a null reference and == compares addresses, while in C++ == does the same as .equals() in Java. –  akappa Jan 10 '12 at 17:03
Actually javas references behave more like c++ pointers then c++ references, since the can be null, can be reassigned and comparing them compares the addresses instead the objects. So the only thing missing is pointer arithmetic. –  Grizzly Jan 10 '12 at 17:07
The purpose of references in C++ is to support call by reference, return by reference and capture by reference. You almost never want to use them for anything else. Many programmers new to C++ think of C++ references as Java references or C# references, but they are not. A T& in C++ is like a ref T in C#, not like a class reference in C#. If you want something akin to C# references, use a smart pointer like std::shared_ptr<T> or std::unique_ptr<T>, depending on the desired ownership semantics. –  fredoverflow Jan 10 '12 at 19:40

5 Answers 5

You cannot reseat a Reference but you can reseat a Pointer to point to new variables, this behavior cannot be simulated anyway in references(References always remain bound to the variable they are initialized to) and the convenience which pointers provide in achieving this would practically make C++ without pointers and only references virtually impossible .

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If you restrict yourself to data representations, yes. Nothing stops you from doing that with functions though. –  MSN Jan 10 '12 at 17:03
@MSN: Can you elaborate on your comment,I am afraid I do not understand it. –  Alok Save Jan 10 '12 at 17:05
If you don't persist references, i.e., bind them to data, you can "reseat" them by passing down a different reference to a function. I.e., reseating references is only an issue with long-lived data. –  MSN Jan 10 '12 at 17:06
@MSN, what you are telling about is like functional programming, where you always have immutable objects, am I right? –  Lol4t0 Jan 10 '12 at 17:33
@Lol4t0, It's similar, yes. The idea is that you derive the state you care about from your inputs rather than persist it. –  MSN Jan 10 '12 at 17:34

What would be needed? Rebindable references - aka pointers. References are, once bound, not able to change their referee.

struct Anchor{ /*some data*/ };

struct Sprite{
  void set_anchor(Anchor const& a){ _anchor = &a; }
  Anchor const* _anchor;

struct Entity{
  Anchror _anchor;

With something like this, you can just reposition a Sprite on the screen by changing its anchor. How would you do that with references?

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oh... wow. I forgot that. You can't reassign references. Once bound, they stick to that object. Is this possible in C++0x ? –  Stefano Borini Jan 10 '12 at 17:05
With std::ref perhaps? –  Kerrek SB Jan 10 '12 at 17:06
@Xeo: see Haskell for details ;-) –  Steve Jessop Jan 10 '12 at 17:09
@Kerrek: Well... take a guess how that's implemented. :) –  Xeo Jan 10 '12 at 17:14
@Xeo: Haskell is a pure functional language, it doesn't provide mutating operations such as this "assignment" and "rebinding" of which you speak. Or at least, "pure" code doesn't use any mutating tricks. –  Steve Jessop Jan 10 '12 at 17:48

You can't reseat a reference, and you can't have a null reference. What Java calls references are actually pointers. And I don't know why you would want to avoid them. References (in C++) have a specific role: they allow using the same syntax as pass/return by value, without the overhead; they can also be used for inout parameters and for exposing the internals of an object (e.g. an operator[] will often return a reference). Other than as function parameters or return values, they should be fairly rare.

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In some sense, references are crucial to allow you to have objects. Imagine you want to say T a; T b = a;... –  Kerrek SB Jan 10 '12 at 19:21
@KerrekSB: I don't understand your comment. Could you elaborate? –  fredoverflow Jan 10 '12 at 19:31
@FredOverflow: You need to have a copy constructor for that construction to work naturally, and you can only define a copy constructor with references. –  Kerrek SB Jan 10 '12 at 19:32
@KerrekSB C with classes had copy constructors but no references, so they aren't essential ;) –  fredoverflow Jan 10 '12 at 19:47
@FredOverflow Given the definition in the current standard, it wouldn't be a copy constructor if it didn't take a reference:-). But there's no doubt that you don't need references to copy objects. The reason references were introduced was for the syntax: you don't want to have to write &a + &b, in order to pass pointers to the overloaded operator+. After that, giving them different semantics than pointers opened up additional uses for them. –  James Kanze Jan 11 '12 at 9:01

The Null Object Pattern is really bad, just so you know. It's not any sort of far-reaching solution.

Pointers are needed to be rebindable, and that's it. Also, Java's "references" are actually C++'s "pointers". C++'s "references" have no Java equivalent.

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proof of why/when Null Object Pattern is really bad. I mean, not just 'unnecessary' (which is simpleton - bad) but, "really bad"? –  sehe Jan 10 '12 at 19:45

I have reassigned C++ references in the past using code something like this:

struct EmptyType {};
const EmptyType Null;

template<typename DataT>
class DynamicReferenceT
        DataT & _ref;
        DataT * _ptr;

    DynamicReferenceT(DataT & r) : _ref(r) { }

    void operator=(DataT & r) { _ptr = &r; }
    void operator=(const EmptyType &) { _ptr = NULL; }
    DataT & operator()() { return _ref; }

class SomeClass
    int _value;

    SomeClass(int val) : _value(val) {}
    int value() { return _value; }

int _tmain(int argc, _TCHAR* argv[])
    SomeClass objA1(100), objA2(200), objA3(300);

    // initially define the dynamic ref
    DynamicReferenceT<SomeClass> refObj(objA1);
    cout << "refObj = " << refObj().value() << endl;

    // reassign the dynamic ref
    refObj = objA2;
    cout << "refObj = " << refObj().value() << endl;

    refObj = objA3;
    cout << "refObj = " << refObj().value() << endl;

    // assign "null" to reference
    refObj = Null;

    return 0;

// output

You can't overload the . operator in C++, so I overload the () operator to "dereference" the dynamic reference.

This is just a toy example -- you should further flesh out the implementation to handle deletion of objects and copying.

I concede to the C++ community here that this was a very poor C++ example on my part and really stands as a good example of how to abuse C++. I don't actually promote such constructs in practice save for the one case I mentioned where I had to redefine references in a very, very bad legacy C++ library I inherited some years ago (at a dot-com who shall remain nameless).

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my EYES!!!!!!!! –  Lee Louviere Jan 10 '12 at 18:10
I believe that storing a value in a union through one member and then retrieving through a different member results in undefined behavior. –  Ferruccio Jan 10 '12 at 19:05
@hypercode No, it's isn't bad, it's breaking a language barrier. Using this you can put anything into a reference to anything else, which breaks enforcing type checking. Sure you coated it in your own protective layer using a template, but you broke type system of the language to do so. Unions are mutually exclusive data space savers, not a clever way to cast around casting restrictions. What if the pointer is used to delete the object, and that data is later used to instantiate a structure. Now you have the first four bytes of the structure acting as a reference to a type DataT. –  Lee Louviere Jan 10 '12 at 19:11
If this compiles, it's time to change compilers. According to the standard (§9.5/2) "If a union contains a non-static data member of reference type the program is ill-formed." –  James Kanze Jan 10 '12 at 19:20
@josefx that doesn't matter at all. If it's undefined, then it may work on a compiler on one release, and then not at all on the next release. An update on a compiler to fix an issue, is free to remove support for the expected reflex. So a silent background update changes the meaning of your code. Hence, UB is a bad practice. –  Lee Louviere Jan 10 '12 at 19:21

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