[concept.common] (original) (raw)
18 Concepts library [concepts]
18.4 Language-related concepts [concepts.lang]
18.4.6 Concept common_with [concept.common]
If T and U can both be explicitly converted to some third type,C, then T and U share a common type,C.
[Note 1:
C could be the same as T, or U, or it could be a different type.
C might not be unique.
— _end note_]
template<class T, class U> concept [common_with](#concept:common%5Fwith "18.4.6 Concept common_with [concept.common]") = [same_as](concept.same#concept:same%5Fas "18.4.2 Concept same_as [concept.same]")<common_type_t<T, U>, common_type_t<U, T>> && requires { static_cast<common_type_t<T, U>>(declval<T>());static_cast<common_type_t<T, U>>(declval<U>());} && common_reference_with< add_lvalue_reference_t<const T>, add_lvalue_reference_t<const U>> && common_reference_with< add_lvalue_reference_t<common_type_t<T, U>>, common_reference_t< add_lvalue_reference_t<const T>, add_lvalue_reference_t<const U>>>;
Let C be common_type_t<T, U>.
Let t1 and t2 be equality-preserving expressions ([concepts.equality]) such thatdecltype((t1)) and decltype((t2)) are each T, and let u1 and u2 be equality-preserving expressions such thatdecltype((u1)) and decltype((u2)) are each U.
T and U model common_with<T, U>only if:
- C(t1) equals C(t2) if and only ift1 equals t2, and
- C(u1) equals C(u2) if and only ifu1 equals u2.
[Note 2:
Users can customize the behavior of common_with by specializing thecommon_type class template ([meta.trans.other]).
— _end note_]