FreeBSD Manual Pages
std::ranges::prev(3) C++ Standard Libary std::ranges::prev(3) NAME std::ranges::prev - std::ranges::prev Synopsis Defined in header <iterator> Call signature template< std::bidirectional_iterator I > (1) (since C++20) constexpr I prev( I i ); template< std::bidirectional_iterator I > (2) (since C++20) constexpr I prev( I i, std::iter_difference_t<I> n ); template< std::bidirectional_iterator I > (3) (since C++20) constexpr I prev( I i, std::iter_difference_t<I> n, I bound ); Return the nth predecessor of iterator i The function-like entities described on this page are niebloids, that is: * Explicit template argument lists may not be specified when call- ing any of them. * None of them is visible to argument-dependent lookup. * When one of them is found by normal unqualified lookup for the name to the left of the function-call operator, it inhibits argument-dependent lookup. In practice, they may be implemented as function objects, or with special compiler extensions. Parameters i - an iterator n - number of elements i should be descended bound - iterator denoting the beginning of the range i points to Return value 1) The predecessor of i 2) The nth predecessor of iterator i 3) The nth predecessor of iterator i, or the first iterator that compares equal to bound, whichever is first. Complexity 1) Constant 2,3) Constant if I models std::random_access_iterator<I>; otherwise linear. Possible implementation struct prev_fn { template<std::bidirectional_iterator I> constexpr I operator()(I i) const { --i; return i; } template< std::bidirectional_iterator I > constexpr I operator()(I i, std::iter_difference_t<I> n) const { ranges::advance(i, -n); return i; } template<std::bidirectional_iterator I> constexpr I operator()(I i, std::iter_difference_t<I> n, I bound) const { ranges::advance(i, -n, bound); return i; } }; inline constexpr auto prev = prev_fn(); Notes Although the expression --r.end() often compiles for containers, it is not guaranteed to do so: r.end() is an rvalue expression, and there is no iterator requirement that specifies that decrement of an rvalue is guaranteed to work. In particular, when iterators are implemented as pointers or its opera- tor-- is lvalue-ref-qualified, --r.end() does not compile, while ranges::prev(r.end()) does. This is further exacerbated by ranges that do not model ranges::com- mon_range. For example, for some underlying ranges, ranges::transform_view::end doesn't have the same return type as ranges::transform_view::begin, and so --r.end() won't compile. This isn't something that ranges::prev can aid with, but there are workarounds. Example // Run this code #include <iostream> #include <iterator> #include <vector> int main() { std::vector<int> v{ 3, 1, 4 }; auto pv = std::ranges::prev(v.end(), 2); std::cout << *pv << '\n'; pv = std::ranges::prev(pv, 42, v.begin()); std::cout << *pv << '\n'; } Output: 1 3 See also ranges::next increment an iterator by a given distance or to a bound (C++20) (niebloid) ranges::advance advances an iterator by given distance or to a given bound (C++20) (niebloid) prev decrement an iterator (C++11) (function template) http://cppreference.com 2022.07.31 std::ranges::prev(3)
NAME | Synopsis | Parameters | Return value | Complexity | Possible implementation | Notes | Example | Output: | See also
Want to link to this manual page? Use this URL:
<https://man.freebsd.org/cgi/man.cgi?query=std::ranges::prev&sektion=3&manpath=FreeBSD+Ports+15.0>