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The usual clone idiom makes use of covariant return types:

struct Base {
    virtual Base* clone();
};

struct Derived : public Base {
    Derived* clone();
};

I've read things to the effect that covariant return types were a later addition to C++, and older compilers may not support them. In this case the Derived class must declare its clone member function to return a Base*. Since, presumably, I'm only accessing Derived objects through Base pointers and/or references when using this idiom, what is the real use/benefit to declaring the return type Derived*?

Also, a related question:

I would prefer to use smart pointers to express transfer-of-ownership semantics for the clone signature. This is not possible when using covariant return types, as auto_ptr<Derived> is not covariant with auto_ptr<Base>. (Please note that I'm not looking for a lecture on the use of smart pointers -- auto_ptr is just used as an example here). So in this case, is there any reason not to have Derived return auto_ptr<Base>? Is there a better way to express the transfer-of-ownership semantics?

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You should take a look here : stackoverflow.com/questions/196733/… –  icecrime Nov 16 '10 at 22:19
    
I wonder about the claim that "The usual clone idiom makes use of covariant return types." Personally I find it a hassle. –  John Dibling Nov 16 '10 at 22:24
    
@John -- what about it is a hassle? –  Tabber33 Nov 17 '10 at 6:55
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2 Answers

up vote 2 down vote accepted

It's useful when you have a pointer to Derived and want to get a clone of it:

Derived *ptr = ...;
Derived *clone = ptr->clone();

without covariant return types you must do an explicit cast:

Derived *clone2 = (Derived*)ptr->clone();

Note that Derived may be a base class for even more derived classes, in that case it makes even more sense.

Unfortunately auto_ptr<Derived> and auto_ptr<Base> are not covariant. So you must return the same type from all clone functions in that case.

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@ybungalobill: conclusion in last sentence incorrect, although it's true that the smart pointers are not covariant (per C++ rules). it's simple to emulate the covariance. e.g., see my blog posting on implementing reusable clone functionality in c++. cheers, –  Cheers and hth. - Alf Nov 16 '10 at 22:22
    
Summary of @Alf 's blog post - have a virtual function returning a pointer (overridden with covariant return type), and a public non-virtual function returning a smart pointer (overloaded in each derived class). That way, the caller always gets the smart pointer corresponding to the static type they called the function with. In Alf's example the virtual function is protected, although I don't immediately see why it isn't private. –  Steve Jessop Nov 16 '10 at 22:53
    
@Steve: I agree that private would probably be better, however I am unsure as to returning a smart pointer from clone at all, mainly because it doesn't follow the Clonable concept from Boost. –  Matthieu M. Nov 17 '10 at 7:35
    
@Alf: Yeah, I know. I use this technique myself. –  ybungalobill Nov 17 '10 at 8:09
    
@Matthieu: I think that's OK - if you want to implement Clonable, add a friend free function new_clone that calls the virtual function. Returning a smart pointer satisfies a style in which auto_ptr return values are used to "document" ownership of a new resource, and if the caller wants to use any other smart pointer type, they release() it. I prefer just to return the pointer and have the caller responsible for putting it into the smart pointer of their choice, and with C++0x that will always be unique_ptr rather than auto_ptr anyway, so the style in question should change. –  Steve Jessop Nov 17 '10 at 10:41
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Since, presumably, I'm only accessing Derived objects through Base pointers and/or references when using this idiom...

You presume wrong. Just because a Base class exists doesn't mean you'll always be using it. If I have a Shape class with sub classes Circle and Rectangle, and I also have a Window class. I'm not going to use a Shape* for a the window's position and size when I can just use Rectangle.

For the transfer-of-ownership, you shouldn't be using smart pointers anyway. I know you don't want a lecture, but I'm not saying that smart pointers are bad, you just shouldn't be using them in clone(). You can't transfer ownership of something that has no ownership in the first place. If someone wants an auto_ptr then they should construct it with the cloned raw pointer. Same goes for other smart pointer types.

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"when I can just use Rectangle" - so it's your fault all my windows have to be rectangular? Use Shape*! –  Steve Jessop Nov 16 '10 at 22:50
    
Well in that case, I submit that you're already swimming in a sea of toxic design. Also, not sure your argument about "shouldn't be using [smart pointers] in clone" really holds water. It's as valid as any transfer-of-ownership scenario, is it not? The clone function creates (and thusly owns) the new object until it is returned to the caller. –  Tabber33 Nov 17 '10 at 6:50
    
@Tabber: there is no ideal smart pointer for the task, only unique_ptr has the required semantics, but this necessitates a C++0x compliant compiler (move semantics). auto_ptr is best unused whenever possible and other types of smart pointers introduce undue overhead. –  Matthieu M. Nov 17 '10 at 7:40
    
@Tabber33: seriously? You think that a hierarchy of interfaces is "toxic design"? If so then why not complete that thought, and stop using dynamic polymorphism at all? –  Steve Jessop Nov 17 '10 at 10:29
    
@Steve: of course not -- only insofar as OO is toxic design. It sounded to me like, "I'll just use the derived class directly just because I happen to be able to, when I should really be using the proper interface class." But I understand that occassionally one needs to access a derived class directly, and this is where the covariant return type is useful (to save the downcast after cloning). –  Tabber33 Nov 17 '10 at 14:46
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