1

Writing at alias template that will deduce the return type of some type T's operator->, so far I have this

template <typename T>
using arrow = decltype(std::declval<T&>().operator->());

which works for all class types, but doesn't work for pointers. A similar problem exists trying to actually call the ->

template <typename T>
struct D {
    T t;
    arrow<T> f() { 
        // not valid to call .operator->() on pointers
        return t.operator->();
    }
};

How can I make this function get the correct return type declared, and delegate correctly for both class types and pointers?

1 Answer 1

5

For a pointer, the type of its operator->() its own type, and the resulting object has its same value. With another level of indirection, a helper struct can be specialized for pointer types

template <typename T>
struct ArrowHelper {
    using type = decltype(std::declval<T&>().operator->());
    type operator()(T& t) const {
        return t.operator->();
    }
};

template <typename T>
struct ArrowHelper<T*> {
    using type = T*;
    constexpr type operator()(T* t) const noexcept {
        return t;
    }
};

To simplify usage, an alias template and a function can be defined easily

template <typename T>
using arrow = typename ArrowHelper<T>::type;

template <typename T>
arrow<T> apply_arrow(T& t) {
    return ArrowHelper<T>{}(t);
}

the delegating member function then becomes

template <typename T>
struct D {
    T t;
    arrow<T> f() { return apply_arrow(t); }    
};
1
  • static type apply_arrow(T* t) I would constexpr type operator()(T*t)const instead. Stateless callable pattern. May 30, 2015 at 18:56

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