13

Is there a way to test std::is_base_of<A, B> when A is a template class?

template <typename X, typename Y> class A {};

template <typename X> class B : public A<X, char> {};

I want to statically test something like, std::is_base_of<A, B<int>> meaning, B is derived from any specialization of A. (To make it more general, let's say we don't know the way B specializes A, i.e. B<X> derives from A<X, char>)

One way to solve would be to derived A from a (non-template) class say C, and then check std::is_base_of<C, B<int>>. But is there another way to do this?

  • 1
    'A' is not a type. You cant do that, but you can do 'std::is_base_of<A<int, int>, B<int>>' – Arunmu Jan 8 '16 at 8:26
  • Kind of similar question I answered some time back. stackoverflow.com/questions/34670375/… – Arunmu Jan 8 '16 at 8:27
  • Would my_is_base_of<A, B<int>, char> be a reasonable usage for you? – TartanLlama Jan 8 '16 at 8:29
  • @TartanLlama thanks. It would be very specific to the way B specializes A though. I am looking for a more general solution, if possible. – Saswat Padhi Jan 8 '16 at 8:31
  • @Arunmu thanks. I see, that could work in my setting. – Saswat Padhi Jan 8 '16 at 8:34
16

You may do the following:

template <template <typename...> class C, typename...Ts>
std::true_type is_base_of_template_impl(const C<Ts...>*);

template <template <typename...> class C>
std::false_type is_base_of_template_impl(...);

template <typename T, template <typename...> class C>
using is_base_of_template = decltype(is_base_of_template_impl<C>(std::declval<T*>()));

Live Demo

but will fail with multiple inheritance or private inheritance from A.

With Visual Studio 2017 this will fail when the base class template has more than one template parameter, and it is unable to deduce Ts...

Demo

VS Bug Report

Refactoring solves the problem for VS.

template < template <typename...> class base,typename derived>
struct is_base_of_template_impl
{
    template<typename... Ts>
    static constexpr std::true_type  test(const base<Ts...> *);
    static constexpr std::false_type test(...);
    using type = decltype(test(std::declval<derived*>()));
};

template < template <typename...> class base,typename derived>
using is_base_of_template = typename is_base_of_template_impl<base,derived>::type;

Live Demo

  • 1
    Huh, I had no idea that Ts... could be deduced in that context. Nice! – TartanLlama Jan 8 '16 at 8:47
  • 2
    I arrived at the same solution, but this solution also fails (rather than returns false) with single non-public inheritance from A :( – mpark Jan 8 '16 at 8:59
  • 2
    @Jarod42: Thanks! That's pretty clever. – Saswat Padhi Jan 8 '16 at 9:22
  • 2
    It seems you don't need the typename T in is_base_of_template_impl? – davidhigh Jan 8 '16 at 9:45
  • @davidhigh: Indeed, simplified. – Jarod42 Jan 8 '16 at 10:36
1

The following solution works with protected inheritance.

template <template <typename...> class BaseTemplate, typename Derived, typename TCheck = void>
struct test_base_template;

template <template <typename...> class BaseTemplate, typename Derived>
using is_base_template_of = typename test_base_template<BaseTemplate, Derived>::is_base;

//Derive - is a class. Let inherit from Derive, so it can cast to its protected parents
template <template <typename...> class BaseTemplate, typename Derived>
struct test_base_template<BaseTemplate, Derived, std::enable_if_t<std::is_class_v<Derived>>> : Derived
{
    template<typename...T>
    static constexpr std::true_type test(BaseTemplate<T...> *);
    static constexpr std::false_type test(...);
    using is_base = decltype(test((test_base_template *) nullptr));
};

//Derive - is not a class, so it is always false_type
template <template <typename...> class BaseTemplate, typename Derived>
struct test_base_template<BaseTemplate, Derived, std::enable_if_t<!std::is_class_v<Derived>>>
{
    using is_base = std::false_type;
};

Surprisingly, on VS2017, it works with multiple inheritance from the same template, like C< int > and C< float > both. (have no idea how!)

Check the Link to test code

  • Your solution is quite good but it has a minor bug try to test static_assert(is_base_template_of<std::variant, std::variant<std::string>>::value); – Anton Dyachenko May 7 '18 at 9:47
0

Based on Evgeny Mamontov answer I believe the proper solution is

template <template <typename...> class BaseTemplate, typename Derived>
struct test_base_template<BaseTemplate, Derived, std::enable_if_t<std::is_class_v<Derived>>> : Derived
{
    template<typename...T>
    static constexpr std::true_type test(BaseTemplate<T...> *);
    static constexpr std::false_type test(...);
    using is_base = decltype(test((Derived *) nullptr));
};

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