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When dealing with class member function pointers, we can call a function on an object instance with the following syntax:

struct X {
    void foo();

X x;                // Instance
auto f = &X::foo;   // Member function pointer

(x.*f)();           // Call function f on x

When having a raw pointer of an instance, the syntax is this:

X *xptr = new X();


This nicely follows the analogy of a static function call:;

However, when I have a smart pointer of the class, this doesn't work:

unique_ptr<X> xsptr(new X());

(xsptr->*f)();    // g++: error: no match for 'operator->*' in 'xsptr ->* f'

I work around this issue by first applying the dereferencing operator, then calling with the . syntax:


How ugly is this?

Is the compiler supposed to reject the arrow-syntax from above? Because normally (when statically calling a function), it calls operator ->. Shouldn't ->* also just call operator ->?

The compiler error partly answers this question: The error reads as we can overload operator ->* to call a member function pointer on a dereferenced object, which unique_ptr doesn't. But this introduces more questions. Why don't smart pointers do this, if the language requires this? Is it intended not to do so because it introduces other issues? And why do we have to write this operator at all instead of implicitly call the member function pointer on the object returned by ->? (As this is the behavior when writing xsptr->foo())

share|improve this question
Why should ->* for a non-pointer value do anything? The compiler doesn't know that unique_ptr is trying to imitate a raw pointer. operator->* is overloadable, though, but it is annoying to implement it cleanly. – Xeo Mar 25 '13 at 12:30
@Xeo I mean, the standard could well-define a default behavior for ->*, namely "call the member pointer on the object returned by operator->", as something like the following: operator ->*(memptr) { return ((*this)->).*memptr(); }. But since it does not do this, why do the pointer types in C++11 not have this operator defined? Is there a reason? – leemes Mar 25 '13 at 12:31
Ah, and I guess this also applies for C++03. – leemes Mar 25 '13 at 12:33
And now tell me how you pass arguments to the called member function with your "example implementation". :) This should also tell you why in C++03 it sucks even more - no perfect forwarding. – Xeo Mar 25 '13 at 12:34
Encapsulate it and don't think about it again: call(xsptr, f, args); – Peter Wood Mar 25 '13 at 12:35
up vote 3 down vote accepted

Is the compiler supposed to reject the arrow-syntax from above? Because normally (when statically calling a function), it calls operator ->. Shouldn't ->* also just call operator ->?

The compiler is right in rejecting the syntax. No operator->* should not call operator-> (according to the standard). Note that while the syntax might look similar, ->* is an operator on itself, not the composition of -> with some other * thing.

share|improve this answer
Yeah so far so good. I just learned this, thanks! :) But: How to consistently solve this issue? Suppose I have a template argument T which can either be a raw pointer or a smart pointer, t being an instance of that, and f the pointer to call on t. I currently write ((*t).*f)() which is ugly but seems to work. – leemes Mar 25 '13 at 12:42
@leemes: auto& obj = *p; (obj.*f)(stuff...) – Xeo Mar 25 '13 at 12:43
@Xeo Which is the same, isn't it? (Let's say I need the dereferenced object only for this single expression.) – leemes Mar 25 '13 at 12:44
@leemes: If it's just for that single expression, what do you care? Also, std::bind(f, p, stuff...)(), will become ((*t).*f)(stuff...) for this example. – Xeo Mar 25 '13 at 12:44
@leemes: I stand corrected you can implement it as being operator->* for data members. I am not sure it could be done for non-data members (i.e. function members) as I cannot figure out what the type returned from the overloaded operator->* should be (for a pointer U* and a pointer to member T U::*, the return is defined as T&, but that does not quite cut it in the case of member functions). – David Rodríguez - dribeas Mar 25 '13 at 13:00

You can overload the operator->* for smart pointers. See this article by Scott Meyers. The basic idea is to return a function object which will be called after returning from operator.

The article is a bit outdated in terms that you can now use just one variadic template for variable function argument number.

share|improve this answer
I cannot overload the operator for existing smart pointer implementations... – leemes Dec 11 '15 at 8:55
Of course you can! You just have to define it outside the class. E.g., for unique_ptr the code would be something like this: template <typename T, typename ReturnType> const PMFC<T, ReturnType, ReturnType (T::*)()> operator->*(const std::unique_ptr<T> &pObj, ReturnType (T::*pmf)()) { return std::make_pair(pObj.get(), pmf); } – Artyom Chirkov Dec 14 '15 at 16:39

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