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      std::is_virtual_base_of

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      Defined in header <type_traits>
      template<class Base, class Derived >
      struct is_virtual_base_of;
      		(since C++26)

      std::is_virtual_base_of is a BinaryTypeTrait.

      If Base is a virtual base class of Derived (ignoring cv-qualification), provides the member constant value equal to true. Otherwise value is false.

      If both Base and Derived are non-union class types (ignoring cv-qualification), Derived should be a complete type; otherwise the behavior is undefined.

      If the program adds specializations for std::is_virtual_base_of or std::is_virtual_base_of_v, the behavior is undefined.

      Contents

      [edit]Helper variable template

      template<class Base, class Derived >
      constexprbool is_virtual_base_of_v = is_virtual_base_of<Base, Derived>::value;
      		(since C++26)
      [edit]

      Inherited from std::integral_constant

      Member constants

      value
      [static]
      		true if Derived is derived from virtual base class Base (ignoring cv-qualification), false otherwise
      (public static member constant)

      Member functions

      operator bool
      		 converts the object to bool, returns value
      (public member function)
      operator()
      (C++14)
      		 returns value
      (public member function)

      Member types

      Type Definition
      value_typebool
      typestd::integral_constant<bool, value>

      [edit]Notes

      std::is_virtual_base_of_v<A, B> is true even if A is a private, protected, or ambiguous base class of B.

      If std::is_virtual_base_of_v<A, B> is true, then std::is_base_of_v<A, B> is also true. However, the converse is not always true because the check for virtual inheritance is more specific. In that case, std::is_virtual_base_of_v<T, T> is false even if T is a non-union class type.

      [edit]Example

      Run this code
      #include <type_traits>   class A {};class B : A {};class C : B {};class D :virtual A {};class E : D {};   union F {};using I =int;   static_assert ( std::is_virtual_base_of_v<A, A>!=true&& std::is_virtual_base_of_v<A, B>!=true&& std::is_virtual_base_of_v<A, D>==true&& std::is_virtual_base_of_v<D, E>!=true&& std::is_virtual_base_of_v<F, F>!=true&& std::is_virtual_base_of_v<I, I>!=true);   int main(){}

      [edit]See also

      (C++11)
      		 checks if a type is a base of the other type
      (class template)[edit]
      (C++11)(C++20)
      		 checks if a type can be converted to the other type
      (class template)[edit]
      (C++20)
      		 specifies that a type is derived from another type
      (concept)[edit]
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