std::weakly_incrementable

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Iterator library
Iterator concepts
weakly_incrementable
(C++20)
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 I >

    concept weakly_incrementable =
        std::movable<I> &&
        requires(I i) {
            typename std::iter_difference_t<I>;
            requires /*is-signed-integer-like*/<std::iter_difference_t<I>>;
            { ++i } -> std::same_as<I&>; // not required to be equality-preserving
            i++;                         // not required to be equality-preserving

        };
(since C++20)

For the definition of /*is-signed-integer-like*/, see is-integer-like .

This concept specifies requirements on types that can be incremented with the pre- and post-increment operators, but those increment operations are not necessarily equality-preserving, and the type itself is not required to be std::equality_comparable.

For std::weakly_incrementable types, a == b does not imply that ++a == ++b. Algorithms on weakly incrementable types must be single-pass algorithms. These algorithms can be used with istreams as the source of the input data through std::istream_iterator.

Semantic requirements

For an object i of type I, I models std::weakly_incrementable only if all following conditions are satisfied:

  • The expressions ++i and i++ have the same domain.
  • If i is incrementable, then both ++i and i++ advance i.
  • If i is incrementable, then std::addressof(++i) == std::addressof(i).

Defect reports

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

DR Applied to Behavior as published Correct behavior
P2325R3 C++20 default_initializable was required not required

See also

specifies that the increment operation on a weakly_incrementable type is equality-preserving and that the type is equality_comparable
(concept)