std::bidirectional_iterator
Defined in header <iterator>
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template< class I > concept bidirectional_iterator = |
(since C++20) | |
The concept bidirectional_iterator
refines forward_iterator
by adding the ability to move an iterator backward.
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
A bidirectional iterator r
is said to be decrementable if and only if there exists some s
such that ++s == r.
std::bidirectional_iterator<I> is modeled only if all the concepts it subsumes are modeled, and given two objects a
and b
of type I
:
- If
a
is decrementable,a
is in the domain of the expressions --a and a--. - Pre-decrement yields an lvalue that refers to the operand: std::addressof(--a) == std::addressof(a).
- Post-decrement yields the previous value of the operand: if bool(a == b), then bool(a-- == b).
- Post-decrement and pre-decrement perform the same modification on its operand: If bool(a == b), then after evaluating both a-- and --b, bool(a == b) still holds.
- Increment and decrement are inverses of each other:
- If
a
is incrementable and bool(a == b), then bool(--(++a) == b). - If
a
is decrementable and bool(a == b), then bool(++(--a) == b).
- If
Equality preservation
Expressions declared in requires expressions of the standard library concepts are required to be equality-preserving (except where stated otherwise).
Notes
Unlike the LegacyBidirectionalIterator requirements, the bidirectional_iterator
concept does not require dereference to return an lvalue.
Example
A minimum bidirectional iterator.
#include <cstddef> #include <iterator> struct SimpleBidiIterator { using difference_type = std::ptrdiff_t; using value_type = int; int operator*() const; SimpleBidiIterator& operator++(); SimpleBidiIterator operator++(int) { auto tmp = *this; ++*this; return tmp; } SimpleBidiIterator& operator--(); SimpleBidiIterator operator--(int) { auto tmp = *this; --*this; return tmp; } bool operator==(const SimpleBidiIterator&) const; }; static_assert(std::bidirectional_iterator<SimpleBidiIterator>);
See also
(C++20) |
specifies that an input_iterator is a forward iterator, supporting equality comparison and multi-pass (concept) |
(C++20) |
specifies that a bidirectional_iterator is a random-access iterator, supporting advancement in constant time and subscripting (concept) |