operator==(ranges::adjacent_view::iterator, ranges::adjacent_view::sentinel)
From cppreference.com
< cpp | ranges | adjacent view | sentinel
C++
Feature test macros (C++20)
Concepts library (C++20)
Metaprogramming library (C++11)
Ranges library (C++20)
Filesystem library (C++17)
Concurrency support library (C++11)
Execution control library (C++26)
Ranges library
(C++23)(C++23)
(C++26)(C++26)
(C++23)(C++23)
(C++26)(C++26)
(C++26)(C++26)
(C++23)(C++23)
(C++23)(C++23)
(C++23)(C++23)
(C++23)(C++23)
(C++23)(C++23)
(C++23)
(C++23)(C++23)
(C++23)
(C++23)(C++23)
(C++23)(C++23)
(C++23)(C++23)
(C++23)(C++23)
(C++23)(C++23)
std::ranges::adjacent_view
(C++26)
Member functions
Non-member functions
operator==(adjacent_view::iterator,adjacent_view::sentinel)
template< bool OtherConst >
(since C++23)
requires std::sentinel_for <ranges::sentinel_t <Base>,
ranges::iterator_t </*maybe-const*/<OtherConst, V>>>
friend constexpr bool operator==( const /*iterator*/<OtherConst>& x,
Compares the underlying iterator of x with the underlying sentinel of y.
Equivalent to: return x.current_.back() == y.end_, where current_ is underlying array of iterators in x, and end_ is the underlying sentinel in y.
This function is not visible to ordinary unqualified or qualified lookup, and can only be found by argument-dependent lookup when adjacent_view::sentinel<Const> is an associated class of the arguments.
The != operator is synthesized from operator==.
[edit] Parameters
x
-
iterator to compare
y
-
sentinel to compare
[edit] Return value
true if the underlying iterator stored in x is the end iterator.
[edit] Example
This section is incomplete
Reason: no example
Reason: no example