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In the following code I'm trying to call a functor with whatever it takes as its parameters, "whatever" being a limited set of options (the two here are not the only ones in my code).

#include <memory>
#include <iostream>

template<class T>
struct call_with_pointer {
    // last resort: T*
    template<class Callable>
    static auto call(Callable &callable, const std::shared_ptr<T> &param) -> decltype(callable(param.get())) {
        return callable(param.get());
    }
};

template<class T>
struct call_with_shared : public call_with_pointer<T> {

    // best: call with shared_ptr<T>.
    // SFINA
    // error: Candidate template ignored: substitution failure [with Callable = Test]: no matching function for call to object of type 'Test'
    template<class Callable>
    static auto call(Callable &callable, const std::shared_ptr<T> &param) -> decltype(callable(param)) {
        return callable(param);
    }

    using call_with_pointer<T>::call;
};


class Test {
public:
    bool operator () (int * x) {
        return *x == 42;
    }
};

int main ()
{
    Test t;

    auto i = std::make_shared<int>(4);

    auto x = call_with_shared<int>::call(t, i); // No matching function for call to 'call'

    return 0;
}

This code works just fine in VS and GCC. Unfortunately it does not in clang. The error message is:

No matching function for call to 'call'

Candidate template ignored: substitution failure [with Callable = Test]: no matching function for call to object of type 'Test'

So it ignores the candidate that uses the smart pointer. Good. But it does not seem to continue with considering the inherited call that would work just fine.

Question: How can I work around this? How can I make llvm do the right thing here?

8
  • "How can I make llvm" nitpick: LLVM is not involved here, it's just clang. Jun 13, 2012 at 17:09
  • What makes you think clang is wrong here? You are apparently matching on return type, which isn't valid. Jun 13, 2012 at 17:26
  • Why does call_with_pointer::call still take a shared_ptr<> for the second argument..?
    – ildjarn
    Jun 13, 2012 at 17:27
  • @David No, I'm not matching on anything, I'm counting on SFINAE to eliminate call_with_shared::call and use call_with_pointer::call.
    – Fozi
    Jun 13, 2012 at 17:40
  • @ildjarn Because that's what the caller of call_with_shared passes it. It's called call_with_pointer not called_with_pointer ;)
    – Fozi
    Jun 13, 2012 at 17:43

2 Answers 2

2

Try the following:

template<class T>
struct call_with_pointer {
    // last resort: T*
    template<class Callable>
    static auto call(Callable &callable, const std::shared_ptr<T> &param) -> decltype(callable(param.get())) {
        return callable(param.get());
    }
};

template<class T>
struct call_with_pointer_2 {
    // last resort: T*
    template<class Callable>
    static auto call(Callable &callable, const std::shared_ptr<T> &param) -> decltype(callable(param)) {
        return callable(param);
    }
};

template<class T>
struct call_with_shared : public call_with_pointer<T>, public call_with_pointer_2<T>{
    using call_with_pointer<T>::call;
    using call_with_pointer_2<T>::call;
};
3
  • While a workaround is what was asked for, I'd be curious to know if Clang is in the wrong by not compiling the original code...
    – ildjarn
    Jun 13, 2012 at 17:49
  • @ildjarn I think it is... I'll file a bug as soon as I have some time to do it.
    – Fozi
    Jun 13, 2012 at 17:53
  • Make sure the bug hasn't already been filed and fixed. Are you working with the most recent release? Jun 13, 2012 at 17:55
1

Strictly speaking, clang is right because of 7.3.3p15 of C++11(the using declaration of the inherited function template is ignored because it has the same name and parameters as a member function template of the derived class). Although it is pretty clear that that paragraph is defective in not considering these nonconflicting declarations.

You can work it around by using something like typename YieldFirstType<std::shared_ptr<T>, Callable>::type as the second parameter type in one of your templates.

9
  • Sorry, I don't agree. 7.3.3.p15 only states that the member functions override the inherited functions referenced by using but it does not state anything about templated member functions that are eliminated later. Eliminated functions should not be considered and thus should not override anything from the base class. The note could be more explicit, however it does not state in any way that it could not work the way GCC an VS is handling it now. Thus, IMHO, GCC and VS are conformant to that point, and, unless you consider eliminated methods part of a class's declaration, clang is not.
    – Fozi
    Jun 13, 2012 at 18:35
  • @fozi i do not understand your interpretation of the wording. the spec says "override and/or hide". in this case the base function template is hidden by the derived class function template. name lookup stops as soon as it finda a declaration. anything that could have been found otherwise in outer scopes is said to be "hidden" by the hiding declaration(s). if the overload resolution or template argument deduction fails afterwards, game is over. Jun 13, 2012 at 18:38
  • Ok, in this case it would be hidden. Then SFINAE eliminates the derived class function template, and the base class template is in business again. SFINAE is not removing all function templates from all base classes with the same signature, it only removes the one considered at that point.
    – Fozi
    Jun 13, 2012 at 18:43
  • @Fozi: Sorry, but no. Once a name is hidden, it's hidden forever. First a set of possible functions is found. Then overload resolution picks from those functions. If overload resolution fails at that point, compilation fails in general -- the compiler does not do any further searching to find something at an outer scope than can/will work better. Jun 13, 2012 at 18:55
  • @Jerry So what you are saying is that SFINAE does remove all function templates with the same signature from all base classes? Does not sound right to me.
    – Fozi
    Jun 13, 2012 at 19:40

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