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I've come across an unexpected problem while creating a trivial RAII wrapper.

Let alone the logical incompleteness of the code below (copy-constructor and assignment operator not deleted etc., this is meant to be an SSCCE), what strikes me is that copy-initialization of my wrapper with a temporary lambda results in a compilation error, while direct-initialization does not.

This behavior can be observed both on GCC 4.7.2 and on Clang 3.2, while ICC 13.0.1 and VC10 compile both versions without problems.

#include <iostream>
#include <functional>

using namespace std;

struct A
    template<typename F>
    A(F&& f) : _f(forward<F>(f)) { }

    ~A() { _f(); }


    std::function<void()> _f;

int main()
    // A a = [] () { cout << "Hello" << endl; }; // ERROR!
    A a([] () { cout << "Hello" << endl; }); // OK

Who is right, and what is the problem with those who are wrong? Is it an issue with the implementation of the C++ Standard Library, or rather a compiler issue?

References to the C++11 Standard are particularly welcome.


Here is the error produced by Clang 3.2:

Compilation finished with errors:

In file included from source.cpp:2:
/usr/lib/gcc/x86_64-linux-gnu/4.7/../../../../include/c++/4.7/functional:1925:2: error: type 'A' does not provide a call operator
/usr/lib/gcc/x86_64-linux-gnu/4.7/../../../../include/c++/4.7/functional:2297:33: note: in instantiation of member function 'std::_Function_handler<void (), A>::_M_invoke' requested here
    _M_invoker = &_My_handler::_M_invoke;
source.cpp:9:16: note: in instantiation of function template specialization 'std::function<void ()>::function<A>' requested here
    A(F&& f) : _f(forward<F>(f)) { }
source.cpp:20:7: note: in instantiation of function template specialization 'A::A<A>' requested here
    A a = [] () { cout << "Hello" << endl; }; // ERROR!

1 error generated.

share|improve this question
You should post the error messages in the compilers as those can help in understanding what the compiler is not liking. I don't see any reason upfront for the copy initialization not to work... – David Rodríguez - dribeas Feb 7 '13 at 17:03
@DavidRodríguez-dribeas: Right. Let me do that. – Andy Prowl Feb 7 '13 at 17:04
Hah. The code will compile, if we implement operator(). – soon Feb 7 '13 at 17:20
perhaps this recentish blog posting by Scott Meyers is of any use? BTW, he calls the template<typename F> A(F&&) a universal copy constructor, not a move constructor. – TemplateRex Feb 7 '13 at 20:51
@rhalbersma: Thank you for the link, it seems relevant. I remember reading this post, but I kind of forgotten about it and I will definitely have to read it through once more. – Andy Prowl Feb 7 '13 at 21:03
up vote 3 down vote accepted

The error message (gcc 4.7.2) is reasonably informative:

c++/4.7/functional: In instantiation of 'static void std::_Function_handler<void(_ArgTypes ...), _Functor>::_M_invoke(const std::_Any_data&, _ArgTypes ...) [with _Functor = A; _ArgTypes = {}]':
c++/4.7/functional:2298:6:   required from 'std::function<_Res(_ArgTypes ...)>::function(_Functor, typename std::enable_if<(! std::is_integral<_Functor>::value), std::function<_Res(_ArgTypes ...)>::_Useless>::type) [with _Functor = A; _Res = void; _ArgTypes = {}; typename std::enable_if<(! std::is_integral<_Functor>::value), std::function<_Res(_ArgTypes ...)>::_Useless>::type = std::function<void()>::_Useless]'
source.cpp:9:32:   required from 'A::A(F&&) [with F = A]'
source.cpp:22:44:   required from here
c++/4.7/functional:1926:2: error: no match for call to '(A) ()'

The problem is that your class does not have an implicit move constructor available for use in copy-initialization. The implicitly defined move constructor is deleted, since A has a user-defined destructor (12.8p9b4).


A(A &&) = default;

Note that since the defaulted move constructor is selected, the destructor should check that _f is non-empty; since the move constructor of std::function does not guarantee that the target is left empty, you should also perform that change yourself:

A(A &&a): _f() { std::swap(_f, a._f); }
~A() { if (_f) _f(); }

Recall that (per 8.5p17) a copy-initialization involves the creation of a prvalue temporary, which is then used to direct-initialize the target object. The choice is between the template constructor and the implicitly defined copy constructor; the template constructor with type template argument A is preferred, since A && binds to prvalue A better than const A & does.

An alternative (possibly better) is to disable the template constructor for A arguments:

template<typename F, typename = typename std::enable_if<!std::is_same<F, A>::value>::type>
A(F&& f) : _f(forward<F>(f)) { }

In this case the implicitly defined copy constructor will be selected, so the destructor doesn't need to check the state of _f; however if the compiler does not perform copy elision then it (and _f) will be called twice.

Copy-elision is allowed (12.8p31); the non-elided form must be accessible (12.8p32) but as far as I can tell (and by omission) the compiler is not required to check that it is compilable. So it is permissible for a compiler to either compile or refuse to compile the program; if it does compile, though, it must have performed copy elision.

share|improve this answer
So is there a bug in VC10 and ICC 13.0.1? – Andy Prowl Feb 7 '13 at 17:07
I don't see why that constructor should suppress either the copy- or move-constructor. – GManNickG Feb 7 '13 at 17:11
And btw, why should the move constructor be picked instead of my constructor template? – Andy Prowl Feb 7 '13 at 17:20
@GManNickG: It's the user-defined destructor that suppresses it. But I still don't understand why the move constructor is chosen rather than the constructor template. – Andy Prowl Feb 7 '13 at 17:21
@ecatmur: No problem, but why is the move constructor required anyway? I think your claim that std::function is non-copyable is incorrect. And there is the same old copy-constructor available implicitly available in every class, I don't follow where the non-const signature comes from. – GManNickG Feb 7 '13 at 17:37

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