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I have an issue where creating a function pointer to an overloaded function results in a compile error on g++ 4.7 and g++ 4.8 but not on g++ 4.4, g++ 4.6 or clang++ 3.2 (and possibly VS2010).

Having googled around a bit to find out whether the issue is with g++ or with my code, I still can't decide. Are the overload resolution rules that apply to function pointer conversion different than those that apply to function calls?

This is a somewhat minimized code that demonstrates the issue:

template < class T >
struct Dummy {
    typedef T value_type;
    value_type value;
};

template < class T >
typename T::value_type f (const T& x) {
    return x.value;
}

template < class T >
T f (Dummy< T > const& x) {
    return x.value + 1;
}

int main (int, char**) {
    Dummy< int > d = { 1 };
    // No ambiguity here
    d.value = f(d);
    // This is ambiguous for *some* compilers
    int (* const f_ptr)(Dummy< int > const&) = f;
    return f_ptr( d );
}

clang++ 3.2, g++ 4.4 and g++ 4.6 compile this with -Wall -pedantic --std=c++98 without warnings.

g++ 4.7 and g++ 4.8 however give the following error message:

test.cc: In function ‘int main(int, char**)’:
test.cc:15:45: error: converting overloaded function ‘f’ to type ‘int (* const)(const struct Dummy<int>&)’ is ambiguous
test.cc:6:18: error: candidates are: typename T::Type f(const T&) [with T = Dummy<int>; typename T::Type = int]
test.cc:9:3: error:                 T f(const Dummy<T>&) [with T = int]

Is this an issue with newer versions of g++ or is my code in fact wrong?

If it is, how would one go about resolving such an ambiguity?

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1  
Here is a thing to try: comment out one f(), compile the file. Comment out the other f(), compile the file. The kind of result you'll get should clarify this situation quite a bit. –  Arkadiy Nov 6 '13 at 17:27
    
@Arkadiy are you suggesting that this is an indication that the result should be an ambiguity? –  Johannes Schaub - litb Nov 6 '13 at 17:50
    
If the source compiles with either function commented out, then I'd say there is at leas a strong possibility they are ambiguous. If either function satisfies the requirement then we'd have to have a preference for one of them to avoid ambiguity, and no preference suggests itself, at least on first impression. –  Arkadiy Nov 6 '13 at 17:55

1 Answer 1

up vote 3 down vote accepted

Is this an issue with newer versions of g++ or is my code in fact wrong?

I guess this is legal code (but I'm not so sure). To add to the list: it does compile with clang 3.3 and icc 13.1.3.

how would one go about resolving such an ambiguity?

You can use

    int (* const f_ptr)(Dummy< int > const&) = f<int>;

to select the second overload or

    int (* const f_ptr)(Dummy< int > const&) = f<Dummy<int> >;

to select the first one.

If you don't want to manually disambiguate (like my suggestion above) I can suggest a workaround that uses SFINAE to disambiguate. I'm assuming you can use C++11 (default template arguments for function templates) but I believe with some extra work it can be extended to C++98.

Change the definitions of f to:

template < class T, class R = typename T::value_type>
R f (const T&) {
    return x.value;
}

template < class T, class R = T>
R f (Dummy< T > const&) {
    return x.value + 1;
}

With this, the original line (below) compiles fine in gcc (4.7.3 and 4.8.1):

int (* const f_ptr)(Dummy< int > const&) = f;
share|improve this answer
    
That did the trick. Thank you. –  user2961413 Nov 7 '13 at 8:33

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