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Operator overloading

The member access operator -> can be overloaded to return a pointer to a data member, or some other variable.

Where is this feature used ? What coding problems does it solve or alternately, what does it make easier ?

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marked as duplicate by Mat, Mac, Nimit Dudani, finnw, CL. Nov 18 '12 at 21:49

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usually you want to override an operator, I still can't find one example about overloading an operator at all, are you sure about this ? –  user1802174 Nov 18 '12 at 13:25
@Mat I usually call this "overriding" not "overloading" –  user1802174 Nov 18 '12 at 13:29
@user1802174 Nope, the terminology is indeed overloading, not overriding. If you call it differently then you are doing it wrong (i.e. different from all other people). “Overriding” is reserved for virtual methods which are redefined in derived classes. This terminology is common to most OOP languages, including C++. –  Konrad Rudolph Nov 18 '12 at 13:30
@user1802174 overriding is the expression used for redefining a member function in a subclass. Overloading is specifically used for operators. –  user529758 Nov 18 '12 at 13:30
@user1802174 I’m not talking about the returned value – you’re right that it’s not part of the signature in C++. I’m talking about the type of this (which is part of the signature, even though it’s not written explicitly when declaring a function inside a class). –  Konrad Rudolph Nov 18 '12 at 13:54

3 Answers 3

up vote 3 down vote accepted

The member access operator is a somewhat odd creature: It is meant to return a pointer or a class with a member access operator overloaded. Once it reaches a pointer it just accesses the corresponding member. The primary use of overloading the member access operator are smart pointers, e.g., std::shared_ptr<T> and std::unique_ptr<T>. Without this operator you'd need to use something like




instead of

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Note that both terms "overriding" and "overloading" are greatly misleading. The canonical -> operator accesses the member of an object referenced through a pointer, that is X* x; x->foo; is accessing something pointed to by x which is of a pointer type (or to be more precise a raw pointer).

However, the operator-> that you can implement as a non-static member function in aggregate types (i.e. "classes") does something different. In X* x; x->foo;, -> would still be the canonical structure operator, which cannot be changed. However, in Y y; y->foo, -> would invoke the operator-> member function of Y. This seemingly small distinction is crucial as one operator can only be applied to raw pointer types and the other can only be applied to non-pointer types.

This is typically used to allow types to behave syntactically as-if they were raw pointers (with some semantic differences), like in shared_ptr et al. This could not be achieved without this language support as shared_ptr<X> and X* could not be used in the same fashion if there was no shared_ptr<X>::operator-> allowing to mimic the canonical -> operator that is applicable to X* (but not X).

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When you're modeling a pointer, and you want to maintain the usual syntax for convenience. Just take a look at std::unique_ptr and std::shared_ptr. :)

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