std::basic_const_iterator
| Defined in header <iterator>
|
||
| template< std::input_iterator Iter > class basic_const_iterator; |
(since C++23) | |
std::basic_const_iterator is an iterator adaptor which behaves exactly like the underlying iterator (which must be at least an LegacyInputIterator or model input_iterator), except that dereferencing converts the value returned by the underlying iterator as immutable. Specializations of std::basic_const_iterator are constant iterators, that is, the iterator can never be used as an output iterator because modifying elements is not allowed.
Member types
| Member type | Definition |
iterator_category(conditionally present) |
If
Otherwise, there is no member |
iterator_concept
|
|
value_type
|
std::iter_value_t<Iter> |
difference_type
|
std::iter_difference_t<Iter> |
reference (private)
|
std::iter_const_reference_t<Iter> (exposition-only member type*) |
Member objects
| Member name | Definition |
current (private)
|
the underlying iterator from which base() copies or moves(exposition-only member object*) |
Member functions
| constructs a new iterator adaptor (public member function) | |
| accesses the underlying iterator (public member function) | |
| accesses the pointed-to element (public member function) | |
| accesses an element by index (public member function) | |
| advances or decrements the iterator (public member function) | |
| converts into any constant iterator to which an underlying iterator can be convertible (public member function) | |
| compares the underlying iterators (public member function) |
Non-member functions
compares basic_const_iterator with non-basic_const_iterator (function template) | |
| (C++23) |
advances or decrements the iterator (function template) |
| (C++23) |
computes the distance between two iterator adaptors (function template) |
| (C++23) |
casts the result of dereferencing the underlying iterator to its associated rvalue reference type (function) |
Helper classes
determines the common type of an iterator and an adapted basic_const_iterator type (class template specialization) |
Helper alias templates
| template< std::input_iterator I > using const_iterator = /* see description */; |
(since C++23) | |
If I models constant-iterator (an exposition-only concept), then const_iterator<I> denotes a type I. Otherwise, basic_const_iterator<I>.
| template< std::semiregular S > using const_sentinel = /* see description */; |
(since C++23) | |
If S models input_iterator, then const_sentinel<S> denotes a type const_iterator<S>. Otherwise, S.
Helper function templates
| template< std::input_iterator T > constexpr const_iterator<T> make_const_iterator( I it ) { return it; } |
(since C++23) | |
| template< std::semiregular S > constexpr const_sentinel<S> make_const_sentinel( S s ) { return s; } |
(since C++23) | |
Notes
| Feature-test macro | Value | Std | Feature |
|---|---|---|---|
__cpp_lib_ranges_as_const |
202207L | (C++23) | std::basic_const_iterator
|
| 202311L | (C++23) (DR) |
std::basic_const_iterator should follow its underlying type's convertibility
|
Example
#include <cassert> #include <iterator> #include <vector> int main() { std::vector v{1, 2, 3}; std::vector<int>::iterator i = v.begin(); *i = 4; // OK, v[0] == 4 now i[1] = 4; // OK, the same as *(i + 1) = 4; auto ci = std::make_const_iterator(i); assert(*ci == 4); // OK, can read the underlying object assert(ci[0] == 4); // OK, ditto // *ci = 13; // Error: location is read-only // ci[0] = 13; // Error: ditto ci.base()[0] = 42; // OK, underlying iterator is writable assert(*ci == 42); // OK, underlying location v[0] was modified }
Defect reports
The following behavior-changing defect reports were applied retroactively to previously published C++ standards.
| DR | Applied to | Behavior as published | Correct behavior |
|---|---|---|---|
| P2836R1 | C++23 | basic_const_iterator doesn't follow its underlying type's convertibility
|
conversion operator provided |