I have a base class that defines a constrained templated conversion operator

struct base {
    template <typename C, std::enable_if_t<some_constraints<C>, int> = 0>
    operator C() const;

I also have a derived class that implements another conversion operator with different constraints:

struct derived : base {
    template <typename P, std::enable_if_t<different_constraints<P>, int> = 0>
    operator P() const;

Unfortunately, the declaration in the derived class hides the operator in the base class. I would like to bring the base operator into the derived scope, but the "obvious" syntax

template <typename C>
using base::operator C;

doesn't work (the compiler seems to try to parse it as an alias template declaration).

Does anyone know of the correct syntax to achieve this?

  • you need to derive public or it will not be visible in the derived class: struct derived : public base {... – Aganju May 23 '18 at 16:55
  • @Aganju No you don't. struct has public access by default. – NathanOliver- Reinstate Monica May 23 '18 at 16:56

I would say it is not possible. and even if it was, your derived operator would hide base one as template argument is not part according to namespace.udecl#15.sentence-1:

When a using-declarator brings declarations from a base class into a derived class, member functions and member function templates in the derived class override and/or hide member functions and member function templates with the same name, parameter-type-list, cv-qualification, and ref-qualifier (if any) in a base class (rather than conflicting)

Unfortunately, template parameter doesn't count and both conversion operator has empty parameter-type-list, are const and no ref-qualifier.

  • That quote seems to settle it, I agree that it doesn't seem possible to unhide the base class operator (or hidden base-class member function templates in general, apparently). Thanks for your help. – Tristan Brindle May 26 '18 at 12:12

Following trick requires GNU g++, with C++14.

If some_constraints and different_constraints are mutually exclusive, you can add using base::operator auto; in derived class to make all the conversion operators of base available.


struct Base {
    // conversion to pointer types (protected).
    template<typename T, typename= typename std::enable_if<std::is_pointer<T>::value>::type>
    operator T() const;

struct Derived : public Base{
    // Make all Base conversion operators public.
    using Base::operator auto;

    // conversion to default constructible & non-pointer types.
    // added an extra typename=void to distinguish from Base template operator.
    template<typename T, typename= typename std::enable_if<!std::is_pointer<T>::value>::type,typename=void>
    operator T() const;

Live demo

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