std::weakly_incrementable
Defined in header <iterator>
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||
template< class I > concept weakly_incrementable = |
(since C++20) | |
where /*is-signed-integer-like*/<I> is true if and only if I
is a signed-integer-like type (see below).
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
I
models std::weakly_incrementable
only if, for an object i
of type I
:
- The expressions ++i and i++ have the same domain,
- If
i
is incrementable, then both ++i and i++ advancei
, and - If
i
is incrementable, then std::addressof(++i) == std::addressof(i).
Integer-like types
An integer-like type is an (possibly cv-qualified) integer type (except for cv bool) or an implementation-provided (not user-provided) class that behaves like an integer type, including all operators, implicit conversions, and std::numeric_limits specializations. If an integer-like type represents only non-negative values, it is unsigned-integer-like, otherwise it is signed-integer-like.
Defect reports
The following behavior-changing defect reports were applied retroactively to previously published C++ standards.
DR | Applied to | Behavior as published | Correct behavior |
---|---|---|---|
LWG 3467 | C++20 | bool was considered as an integer-like type | excluded |
P2325R3 | C++20 | default_initializable was required
|
not required |
See also
(C++20) |
specifies that the increment operation on a weakly_incrementable type is equality-preserving and that the type is equality_comparable (concept) |