5

Having trouble with SFINAE. I need to be able to determine if a Type has a member function operator-> defined regardless of its return type. Example follows.

This class in the tester. It defines operator->() with a return type of X*. I thus will not know what 'X' is to hardcode it everywhere.

template <class X>
class PointerX
{
    ...

    X* operator->() const;
    ...
}

This class tries to determines if the passed in T has a method operator-> defined; regardless of what operator-> return type is.

template<typename T>
struct HasOperatorMemberAccessor
{
    template <typename R, typename C> static R GetReturnType( R ( C::*)()const);

    template<typename U, typename R, R(U::*)()const> struct SFINAE{};
    template<typename U> static char Test(SFINAE<U,     decltype( GetReturnType(&U::operator->)),   &U::operator-> >*);
    template<typename U> static uint Test(...);
    static const bool value = sizeof(Test<T>(0)) == sizeof(char);
};

This class is the exact same as above except that operator-> return type has to be 'Object'.

template<typename T>
struct HasOperatorMemberAccessorOBJECT
{
    template <typename R, typename C> static R GetReturnType( R ( C::*)()const);

    template<typename U, typename R, R(U::*)()const> struct SFINAE{};
    template<typename U> static char Test(SFINAE<U,     Object*,                &U::operator-> >*); // only change is we hardcoded Object as return type.
    template<typename U> static uint Test(...);
    static const bool value = sizeof(Test<T>(0)) == sizeof(char);
};

Results:

void main()
{
    HasOperatorMemberAccessor<PointerX<Object>>::Test<PointerX<Object>>(0);         // fails  ::value is false;  Test => Test(...)

    HasOperatorMemberAccessorOBJECT<PointerX<Object>>::Test<PointerX<Object>>(0);       // works! ::value is true;   Test => Test(SFINAE<>*)  
}

HasOperatorMemberAccessor was unable to find PointX's member function "Object operator->() const". So it uses Test's generic version Test(...).

However, HasOperatorMemberAccessorOBJECT was able to find PointX's "Object operator->() const". Thus it uses Test specialized version Test(SFINAE*).

Both should have been able to find the "Object operator->() const" method; and thus both should use Test's specialized version Test(SFINAE*); and thus HasOperatorMemberAccessor>::value should be true for both.

The only difference between HasOperatorMemberAccessor and HasOperatorMemberAccessorOBJECT is that HasOperatorMemberAccessorOBJECT has the typename R hardcoded to object,

So the issue is that "decltype( GetReturnType(&U::operator->))" is not returning Object correctly. I've tried a number of different permitations of discovering the return type. They go as follows:

    decltype( GetReturnType(&U::operator->) )
    typename decltype( GetReturnType(&U::operator->))
    decltype( ((U*)nullptr)->operator->() )
    typename decltype( ((U*)nullptr)->operator->() )

None work, why? I'm using MSVC++ 10.0.

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3
  • One thing that strikes the eye is that PointerX<bool>::operator-> returns bool*, not bool.
    – n. m. could be an AI
    Apr 26, 2012 at 20:13
  • The type of X in PointerX doesn't matter as far as HasOperatorMemberAccessor is concerned. I tried to generalize my issue by not adding to many extraneous objects to the example. If it's too confusing, I will change bool to string.
    – Michael G
    Apr 26, 2012 at 20:17
  • Let me try again.PointerX<Object>::operator-> returns Object*. decltype(...) would be Object*. HasOperatorMemberAccessorOBJECT seemingly succeeds, although it replaces decltype(...) with Object. It looks like something is wrong here. I am not talking about HasOperatorMemberAccessor at all.
    – n. m. could be an AI
    Apr 26, 2012 at 20:41

1 Answer 1

Reset to default
4

Are you asking how to implement such a trait, or why decltype isn't behaving as you expect? If the former, here's one approach:

#include <type_traits>

template<typename T, bool DisableB = std::is_fundamental<T>::value>
struct HasOperatorMemberAccessor
{ 
private:
    typedef char no;
    struct yes { no m[2]; };

    struct ambiguator { char* operator ->() { return nullptr; } };
    struct combined : T, ambiguator { };
    static combined* make();

    template<typename U, U> struct check_impl;
    template<typename U>
    static no check(
        U*,
        check_impl<char* (ambiguator::*)(), &U::operator ->>* = nullptr
    );
    static yes check(...);

public:
    static bool const value=std::is_same<decltype(check(make())), yes>::value;
};

// false for fundamental types, else the definition of combined will fail
template<typename T>
struct HasOperatorMemberAccessor<T, true> : std::false_type { };

// true for non-void pointers
template<typename T>
struct HasOperatorMemberAccessor<T*, false> :
    std::integral_constant<
        bool,
        !std::is_same<typename std::remove_cv<T>::type, void>::value
    >
{ };

template<typename X>
struct PointerX
{
    X* operator ->() const { return nullptr; }
};

struct X { };

int main()
{
    static_assert(
        HasOperatorMemberAccessor<PointerX<bool>>::value,
        "PointerX<> has operator->"
    );
    static_assert(
        !HasOperatorMemberAccessor<X>::value,
        "X has no operator->"
    );
    static_assert(
        HasOperatorMemberAccessor<int*>::value,
        "int* is dereferencable"
    );
    static_assert(
        !HasOperatorMemberAccessor<int>::value,
        "int is not dereferencable"
    );
    static_assert(
        !HasOperatorMemberAccessor<void*>::value,
        "void* is not dereferencable"
    );
}

VC++ 2010 lacks the necessary C++11 facilities (e.g. expression SFINAE) needed to make this much cleaner.

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7
  • Well, this pretty much worked for me except that it disallows T to be a pointer type. I changed base to: struct base : conditional<!is_pointer<T>::value,T,no>::type, base_mixin { }; That said, I would love to know why decltype didn't work.
    – Michael G
    Apr 26, 2012 at 21:09
  • @MichaelG : HasOperatorMemberAccessor<> can be trivially specialized for pointers: template<typename T> class HasOperatorMemberAccessor<T*> : public std::true_type { };. As for decltype not working as you expect, I didn't investigate your code much, but VC++2010's decltype implementation is pre-standard and buggy on top of it.
    – ildjarn
    Apr 26, 2012 at 21:14
  • @Michael : Edited with proper pointer-type detection (void* was a gotcha).
    – ildjarn
    Apr 26, 2012 at 21:27
  • decltype in VC++ 2010 won't work on void nor will it return the correct lvalue from a function when the expression is a dependent type.
    – Paul Fultz II
    Apr 27, 2012 at 4:52
  • 1
    @Paul : std::is_same + decltype can be trivially replaced with sizeof if there are compiler deficiencies that my test cases don't cover.
    – ildjarn
    Apr 27, 2012 at 5:20

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