std::indirect_equivalence_relation - cppreference.com
Namespaces
Variants

    std::indirect_equivalence_relation

    From cppreference.com
     
    C++
     
    Iterator library
    Iterator concepts
    Iterator primitives
    Algorithm concepts and utilities
    Indirect callable concepts
    Common algorithm requirements
    (C++20)
    (C++20)
    (C++20)
    Utilities
    (C++20)
    Iterator adaptors
    Range access
    (C++11)(C++14)
    (C++14)(C++14)  
    (C++11)(C++14)
    (C++14)(C++14)  
    (C++17)(C++20)
    (C++17)
    (C++17)
     
    Defined in header <iterator> 
    template< class F, class I1, class I2 = I1 >
concept indirect_equivalence_relation =
    std::indirectly_readable<I1> &&
    std::indirectly_readable<I2> &&
    std::copy_constructible<F> &&
    std::equivalence_relation
        <F&, /*indirect-value-t*/<I1>, /*indirect-value-t*/<I2>> &&
    std::equivalence_relation
        <F&, /*indirect-value-t*/<I1>, std::iter_reference_t<I2>> &&
    std::equivalence_relation
        <F&, std::iter_reference_t<I1>, /*indirect-value-t*/<I2>> &&
    std::equivalence_relation
        <F&, std::iter_reference_t<I1>, std::iter_reference_t<I2>>;
    		(since C++20)

    The concept indirect_equivalence_relation specifies requirements for algorithms that call equivalence relations as their arguments. The key difference between this concept and std::equivalence_relation is that it is applied to the types that I1 and I2 references, rather than I1 and I2 themselves.

    Defect reports

    The following behavior-changing defect reports were applied retroactively to previously published C++ standards.