std::experimental::ranges::value_type (3) - Linux Manuals

std::experimental::ranges::value_type: std::experimental::ranges::value_type

NAME

std::experimental::ranges::value_type - std::experimental::ranges::value_type

Synopsis

Defined in header <experimental/ranges/iterator>
template< class I > (1)
struct value_type { };
template< class T > (2)
struct value_type<T*>;
template< class I >
requires std::is_array<I>::value (3)
struct value_type<I> : value_type<std::decay_t<I>> { };
template< class T > (4)
struct value_type<const T> : value_type<std::decay_t<T>> { };
template <class T>
requires requires { typename T::value_type; } (5)
struct value_type<T>;
template <class T>
requires requires { typename T::element_type; } (6)
struct value_type<T>;

Computes the associated value type of the type I, if any. Users may specialize value_type for a program-defined type.
1) Primary template is an empty struct.
2) Specialization for pointers. If T is an object type, provides a member type type equal to std::remove_cv_t<T>. Otherwise, there is no member type.
3) Specialization for array types.
4) Specialization for const-qualified types.
5) Specialization for types that define a public and accessible member type value_type. If T::value_type is an object type, provides a member type type equal to T::value_type. Otherwise, there is no member type.
6) Specialization for types that define a public and accessible member type element_type (e.g., std::shared_ptr). If T::element_type is an object type, provides a member type type equal to std::remove_cv_t<typename T::element_type>. Otherwise, there is no member type.

Helper alias template

template< class T > (ranges TS)
using value_type_t = typename ranges::value_type<T>::type;

Notes

If a type contains both a value_type member and a element_type member, then the specializations (5) and (6) are ambiguous.
value_type is intended for use with Readable types such as iterators. It is not intended for use with ranges.

Example

 This section is incomplete
 Reason: no example