std::ranges::iter_swap

From cppreference.com
< cpp‎ | iterator
 
 
Iterator library
Iterator concepts
Iterator primitives
Algorithm concepts and utilities
Indirect callable concepts
Common algorithm requirements
Utilities
(C++20)
Iterator adaptors
Stream iterators
Iterator customization points
ranges::iter_swap
(C++20)
Iterator operations
(C++11)
(C++11)
Range access
(C++11)(C++14)
(C++11)(C++14)
(C++17)(C++20)
(C++14)(C++14)
(C++14)(C++14)
(C++17)
(C++17)
 
Defined in header <iterator>
namespace ranges {

    inline namespace /*unspecified*/ {
        inline constexpr /*unspecified*/ iter_swap = /*unspecified*/;
    }

}
(since C++20)
(customization point object)
Call signature
template< class I1, class I2 >
constexpr void iter_swap( I1&& i1, I2&& i2 ) noexcept(/* see below */);
(since C++20)

Swaps values denoted by two iterators.

ranges::iter_swap(i1, i2 is expression-equivalent to:

  1. (void)iter_swap(i1, i2), if std::remove_cvref_t<I1> or std::remove_cvref_t<I2> is a class or enumeration type and the expression is well-formed, where the overload resolution is performed within namespace std::ranges with the additional candidate:
    • void iter_swap(auto, auto) = delete;
    If the selected overload does not exchange the value denoted by i1 and i2, the program is ill-formed, no diagnostic required.
  2. Otherwise, ranges::swap(*i1, *i2) if both I1 and I2 model indirectly_readable and if std::iter_reference_t<I1> and std::iter_reference_t<I2> model swappable_with.
  3. Otherwise, (void)(*i1 = /*iter_exchange_move*/(i2, i1)), if std::indirectly_movable_storable<I1, I2> and std::indirectly_movable_storable<I2, I1>, where iter_exchange_move is an exposition-only function template described below (and i1 is only evaluated once).
  4. Otherwise, ranges::iter_swap(i1, i2) is ill-formed, which can result in substitution failure when ranges::iter_swap(e1, e2) appears in the immediate context of a template instantiation.

The exposition-only function template iter_exchange_move is defined the equivalent of:

template<class X, class Y>
constexpr std::iter_value_t<X> /*iter_exchange_move*/(X&& x, Y&& y)
    noexcept(noexcept(std::iter_value_t<X>(std::ranges::iter_move(x)) &&
             noexcept(*x = std::ranges::iter_move(y))))
{
    std::iter_value_t<X> old(std::ranges::iter_move(x));
    *x = std::ranges::iter_move(y);
    return old;
}

Expression-equivalent

Expression e is expression-equivalent to expression f, if

  • e and f have the same effects, and
  • either both are constant subexpressions or else neither is a constant subexpression, and
  • either both are potentially-throwing or else neither is potentially-throwing (i.e. noexcept(e) == noexcept(f)).

Customization point objects

The name ranges::iter_swap denotes a customization point object, which is a const function object of a literal semiregular class type. For exposition purposes, the cv-unqualified version of its type is denoted as __iter_swap_fn.

All instances of __iter_swap_fn are equal. The effects of invoking different instances of type __iter_swap_fn on the same arguments are equivalent, regardless of whether the expression denoting the instance is an lvalue or rvalue, and is const-qualified or not (however, a volatile-qualified instance is not required to be invocable). Thus, ranges::iter_swap can be copied freely and its copies can be used interchangeably.

Given a set of types Args..., if std::declval<Args>()... meet the requirements for arguments to ranges::iter_swap above, __iter_swap_fn models

Otherwise, no function call operator of __iter_swap_fn participates in overload resolution.

See also

(C++20)
swaps the objects pointed to by two adjusted underlying iterators
(function template)
(C++20)
swaps the objects pointed to by two underlying iterators
(function template)
swaps the elements pointed to by two iterators
(function template)