operator==,<=>(std::counted_iterator)
| template< std::common_with<I> I2 > friend constexpr bool operator==( |
(1) | (since C++20) |
| template< std::common_with<I> I2 > friend constexpr strong_ordering operator<=>( |
(2) | (since C++20) |
Compares the underlying lengths (i.e. distances to the end).
<=>.The behavior is undefined if x and y do not point to elements of the same sequence. That is, there must exist some n such that std::next(x.base(), x.count() + n) and std::next(y.base(), y.count() + n) refer to the same element.
The <, <=, >, >=, and != operators are synthesized from operator<=> and operator== respectively.
This function template is not visible to ordinary unqualified or qualified lookup, and can only be found by argument-dependent lookup when std::counted_iterator<I> is an associated class of the arguments.
Parameters
| x, y | - | iterator adaptors |
Return value
Notes
Since the length counts down, not up, the order of the arguments of operator<=> in the underlying comparison expression is reversed, i.e. y is lhs, x is rhs.
Example
#include <initializer_list> #include <iterator> int main() { static constexpr auto v = {1, 2, 3, 4, 5, 6}; constexpr std::counted_iterator<std::initializer_list<int>::iterator> it1{v.begin(), 5}, it2{v.begin(), 5}, it3{v.begin() + 1, 4}, it4{v.begin(), 0}; static_assert(it1 == it2); static_assert(it2 != it3); static_assert(it2 < it3); static_assert(it1 <= it2); static_assert(it3 != std::default_sentinel); static_assert(it4 == std::default_sentinel); // it2 == std::counted_iterator{v.begin(), 4}; // UB: operands do not refer to // elements of the same sequence }
See also
checks if the distance to the end is equal to 0 (function template) | |
| (C++20) |
advances the iterator (function template) |
| (C++20) |
computes the distance between two iterator adaptors (function template) |