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std::forward_iterator

Defined in header <iterator>
template<class I>
  concept forward_iterator =
    std::input_iterator<I> &&
    std::derived_from</*ITER_CONCEPT*/<I>, std::forward_iterator_tag> &&
    std::incrementable<I> &&
    std::sentinel_for<I, I>;
(since C++20)

This concept refines std::input_iterator by requiring that I also model std::incrementable (thereby making it suitable for multi-pass algorithms), and guaranteeing that two iterators to the same range can be compared against each other.

Iterator concept determination

Definition of this concept is specified via an exposition-only alias template /*ITER_CONCEPT*/.

In order to determine /*ITER_CONCEPT*/<I>, let ITER_TRAITS<I> denote I if the specialization std::iterator_traits<I> is generated from the primary template, or std::iterator_traits<I> otherwise:

  • If ITER_TRAITS<I>::iterator_concept is valid and names a type, /*ITER_CONCEPT*/<I> denotes the type.
  • Otherwise, if ITER_TRAITS<I>::iterator_category is valid and names a type, /*ITER_CONCEPT*/<I> denotes the type.
  • Otherwise, if std::iterator_traits<I> is generated from the primary template, /*ITER_CONCEPT*/<I> denotes std::random_access_iterator_tag.
  • Otherwise, /*ITER_CONCEPT*/<I> does not denote a type and results in a substitution failure.

Semantic requirements

I models std::forward_iterator if, and only if I models all the concepts it subsumes, and given objects i and j of type I:

  • Comparison between iterators i and j has a defined result if
    • i and j are iterators to the same underlying sequence, or
    • both i and j are value-initialized, in which case they compare equal.
  • Pointers and references obtained from a forward iterator into a range remain valid while the range exists.
  • If i and j are dereferenceable, they offer the multi-pass guarantee, that is:
    • i == j implies ++i == ++j, and
    • ((void)[](auto x){ ++x; }(i), *i) is equivalent to *i.

Notes

Unlike the LegacyForwardIterator requirements, the forward_iterator concept does not require dereference to return an lvalue.

See also

(C++20)
specifies that a type is an input iterator, that is, its referenced values can be read and it can be both pre- and post-incremented
(concept)

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