llvm-project/libcxx/include/algorithm

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2010-05-12 03:42:16 +08:00
// -*- C++ -*-
//===----------------------------------------------------------------------===//
2010-05-12 03:42:16 +08:00
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
2010-05-12 03:42:16 +08:00
//
//===----------------------------------------------------------------------===//
#ifndef _LIBCPP_ALGORITHM
#define _LIBCPP_ALGORITHM
/*
algorithm synopsis
#include <initializer_list>
namespace std
{
namespace ranges {
// [algorithms.results], algorithm result types
template <class I, class F>
struct in_fun_result; // since C++20
template <class I1, class I2>
struct in_in_result; // since C++20
template <class I, class O>
struct in_out_result; // since C++20
template <class I1, class I2, class O>
struct in_in_out_result; // since C++20
template <class I, class O1, class O2>
struct in_out_out_result; // since C++20
template <class I1, class I2>
struct min_max_result; // since C++20
template <class I>
struct in_found_result; // since C++20
template<forward_iterator I, sentinel_for<I> S, class Proj = identity,
indirect_strict_weak_order<projected<I, Proj>> Comp = ranges::less> // since C++20
constexpr I min_element(I first, S last, Comp comp = {}, Proj proj = {});
template<forward_range R, class Proj = identity,
indirect_strict_weak_order<projected<iterator_t<R>, Proj>> Comp = ranges::less> // since C++20
constexpr borrowed_iterator_t<R> min_element(R&& r, Comp comp = {}, Proj proj = {});
template<forward_iterator I, sentinel_for<I> S, class Proj = identity,
indirect_strict_weak_order<projected<I, Proj>> Comp = ranges::less>
constexpr I ranges::max_element(I first, S last, Comp comp = {}, Proj proj = {}); // since C++20
template<forward_range R, class Proj = identity,
indirect_strict_weak_order<projected<iterator_t<R>, Proj>> Comp = ranges::less>
constexpr borrowed_iterator_t<R> ranges::max_element(R&& r, Comp comp = {}, Proj proj = {}); // since C++20
template<class I1, class I2>
using mismatch_result = in_in_result<I1, I2>;
template <input_iterator I1, sentinel_for<_I1> S1, input_iterator I2, sentinel_for<_I2> S2,
class Pred = ranges::equal_to, class Proj1 = identity, class Proj2 = identity>
requires indirectly_comparable<I1, I2, Pred, Proj1, Proj2>
constexpr mismatch_result<_I1, _I2>
mismatch()(I1 first1, S1 last1, I2 first2, S2 last2, Pred pred = {}, Proj1 proj1 = {}, Proj2 proj2 = {}) // since C++20
template <input_range R1, input_range R2,
class Pred = ranges::equal_to, class Proj1 = identity, class Proj2 = identity>
requires indirectly_comparable<iterator_t<R1>, iterator_t<R2>, Pred, Proj1, Proj2>
constexpr mismatch_result<borrowed_iterator_t<R1>, borrowed_iterator_t<R2>>
mismatch(R1&& r1, R2&& r2, Pred pred = {}, Proj1 proj1 = {}, Proj2 proj2 = {}) // since C++20
requires indirect_binary_predicate<ranges::equal_to, projected<I, Proj>, const T*>
constexpr I find(I first, S last, const T& value, Proj proj = {}); // since C++20
template<input_range R, class T, class Proj = identity>
requires indirect_binary_predicate<ranges::equal_to, projected<iterator_t<R>, Proj>, const T*>
constexpr borrowed_iterator_t<R>
find(R&& r, const T& value, Proj proj = {}); // since C++20
template<input_iterator I, sentinel_for<I> S, class Proj = identity,
indirect_unary_predicate<projected<I, Proj>> Pred>
constexpr I find_if(I first, S last, Pred pred, Proj proj = {}); // since C++20
template<input_range R, class Proj = identity,
indirect_unary_predicate<projected<iterator_t<R>, Proj>> Pred>
constexpr borrowed_iterator_t<R>
find_if(R&& r, Pred pred, Proj proj = {}); // since C++20
template<input_iterator I, sentinel_for<I> S, class Proj = identity,
indirect_unary_predicate<projected<I, Proj>> Pred>
constexpr I find_if_not(I first, S last, Pred pred, Proj proj = {}); // since C++20
template<input_range R, class Proj = identity,
indirect_unary_predicate<projected<iterator_t<R>, Proj>> Pred>
constexpr borrowed_iterator_t<R>
find_if_not(R&& r, Pred pred, Proj proj = {}); // since C++20
template<class T, class Proj = identity,
indirect_strict_weak_order<projected<const T*, Proj>> Comp = ranges::less>
constexpr const T& min(const T& a, const T& b, Comp comp = {}, Proj proj = {}); // since C++20
template<copyable T, class Proj = identity,
indirect_strict_weak_order<projected<const T*, Proj>> Comp = ranges::less>
constexpr T min(initializer_list<T> r, Comp comp = {}, Proj proj = {}); // since C++20
template<input_range R, class Proj = identity,
indirect_strict_weak_order<projected<iterator_t<R>, Proj>> Comp = ranges::less>
requires indirectly_copyable_storable<iterator_t<R>, range_value_t<R>*>
constexpr range_value_t<R>
min(R&& r, Comp comp = {}, Proj proj = {}); // since C++20
template<class T, class Proj = identity,
indirect_strict_weak_order<projected<const T*, Proj>> Comp = ranges::less>
constexpr const T& max(const T& a, const T& b, Comp comp = {}, Proj proj = {}); // since C++20
template<copyable T, class Proj = identity,
indirect_strict_weak_order<projected<const T*, Proj>> Comp = ranges::less>
constexpr T max(initializer_list<T> r, Comp comp = {}, Proj proj = {}); // since C++20
template<input_range R, class Proj = identity,
indirect_strict_weak_order<projected<iterator_t<R>, Proj>> Comp = ranges::less>
requires indirectly_copyable_storable<iterator_t<R>, range_value_t<R>*>
constexpr range_value_t<R>
max(R&& r, Comp comp = {}, Proj proj = {}); // since C++20
template<class I, class O>
using unary_transform_result = in_out_result<I, O>; // since C++20
template<class I1, class I2, class O>
using binary_transform_result = in_in_out_result<I1, I2, O>; // since C++20
template<input_iterator I, sentinel_for<I> S, weakly_incrementable O,
copy_constructible F, class Proj = identity>
requires indirectly_writable<O, indirect_result_t<F&, projected<I, Proj>>>
constexpr ranges::unary_transform_result<I, O>
transform(I first1, S last1, O result, F op, Proj proj = {}); // since C++20
template<input_range R, weakly_incrementable O, copy_constructible F,
class Proj = identity>
requires indirectly_writable<O, indirect_result_t<F&, projected<iterator_t<R>, Proj>>>
constexpr ranges::unary_transform_result<borrowed_iterator_t<R>, O>
transform(R&& r, O result, F op, Proj proj = {}); // since C++20
template<input_iterator I1, sentinel_for<I1> S1, input_iterator I2, sentinel_for<I2> S2,
weakly_incrementable O, copy_constructible F, class Proj1 = identity,
class Proj2 = identity>
requires indirectly_writable<O, indirect_result_t<F&, projected<I1, Proj1>,
projected<I2, Proj2>>>
constexpr ranges::binary_transform_result<I1, I2, O>
transform(I1 first1, S1 last1, I2 first2, S2 last2, O result,
F binary_op, Proj1 proj1 = {}, Proj2 proj2 = {}); // since C++20
template<input_range R1, input_range R2, weakly_incrementable O,
copy_constructible F, class Proj1 = identity, class Proj2 = identity>
requires indirectly_writable<O, indirect_result_t<F&, projected<iterator_t<R1>, Proj1>,
projected<iterator_t<R2>, Proj2>>>
constexpr ranges::binary_transform_result<borrowed_iterator_t<R1>, borrowed_iterator_t<R2>, O>
transform(R1&& r1, R2&& r2, O result,
F binary_op, Proj1 proj1 = {}, Proj2 proj2 = {}); // since C++20
template<input_iterator I, sentinel_for<I> S, class T, class Proj = identity>
requires indirect_binary_predicate<ranges::equal_to, projected<I, Proj>, const T*>
constexpr iter_difference_t<I>
count(I first, S last, const T& value, Proj proj = {}); // since C++20
template<input_range R, class T, class Proj = identity>
requires indirect_binary_predicate<ranges::equal_to, projected<iterator_t<R>, Proj>, const T*>
constexpr range_difference_t<R>
count(R&& r, const T& value, Proj proj = {}); // since C++20
template<input_iterator I, sentinel_for<I> S, class Proj = identity,
indirect_unary_predicate<projected<I, Proj>> Pred>
constexpr iter_difference_t<I>
count_if(I first, S last, Pred pred, Proj proj = {}); // since C++20
template<input_range R, class Proj = identity,
indirect_unary_predicate<projected<iterator_t<R>, Proj>> Pred>
constexpr range_difference_t<R>
count_if(R&& r, Pred pred, Proj proj = {}); // since C++20
template<class T>
using minmax_result = min_max_result<T>;
template<class T, class Proj = identity,
indirect_strict_weak_order<projected<const T*, Proj>> Comp = ranges::less>
constexpr ranges::minmax_result<const T&>
minmax(const T& a, const T& b, Comp comp = {}, Proj proj = {}); // since C++20
template<copyable T, class Proj = identity,
indirect_strict_weak_order<projected<const T*, Proj>> Comp = ranges::less>
constexpr ranges::minmax_result<T>
minmax(initializer_list<T> r, Comp comp = {}, Proj proj = {}); // since C++20
template<input_range R, class Proj = identity,
indirect_strict_weak_order<projected<iterator_t<R>, Proj>> Comp = ranges::less>
requires indirectly_copyable_storable<iterator_t<R>, range_value_t<R>*>
constexpr ranges::minmax_result<range_value_t<R>>
minmax(R&& r, Comp comp = {}, Proj proj = {}); // since C++20
template<class I>
using minmax_element_result = min_max_result<I>;
template<forward_iterator I, sentinel_for<I> S, class Proj = identity,
indirect_strict_weak_order<projected<I, Proj>> Comp = ranges::less>
constexpr ranges::minmax_element_result<I>
minmax_element(I first, S last, Comp comp = {}, Proj proj = {}); // since C++20
template<forward_range R, class Proj = identity,
indirect_strict_weak_order<projected<iterator_t<R>, Proj>> Comp = ranges::less>
constexpr ranges::minmax_element_result<borrowed_iterator_t<R>>
minmax_element(R&& r, Comp comp = {}, Proj proj = {}); // since C++20
template<class I, class O>
using copy_result = in_out_result<I, O>; // since C++20
template<class I, class O>
using copy_n_result = in_out_result<I, O>; // since C++20
template<class I, class O>
using copy_if_result = in_out_result<I, O>; // since C++20
template<class I1, class I2>
using copy_backward_result = in_out_result<I1, I2>; // since C++20
template<input_iterator I, sentinel_for<I> S, weakly_incrementable O>
requires indirectly_copyable<I, O>
constexpr ranges::copy_result<I, O> ranges::copy(I first, S last, O result); // since C++20
template<input_range R, weakly_incrementable O>
requires indirectly_copyable<iterator_t<R>, O>
constexpr ranges::copy_result<borrowed_iterator_t<R>, O> ranges::copy(R&& r, O result); // since C++20
template<input_iterator I, weakly_incrementable O>
requires indirectly_copyable<I, O>
constexpr ranges::copy_n_result<I, O>
ranges::copy_n(I first, iter_difference_t<I> n, O result); // since C++20
template<input_iterator I, sentinel_for<I> S, weakly_incrementable O, class Proj = identity,
indirect_unary_predicate<projected<I, Proj>> Pred>
requires indirectly_copyable<I, O>
constexpr ranges::copy_if_result<I, O>
ranges::copy_if(I first, S last, O result, Pred pred, Proj proj = {}); // since C++20
template<input_range R, weakly_incrementable O, class Proj = identity,
indirect_unary_predicate<projected<iterator_t<R>, Proj>> Pred>
requires indirectly_copyable<iterator_t<R>, O>
constexpr ranges::copy_if_result<borrowed_iterator_t<R>, O>
ranges::copy_if(R&& r, O result, Pred pred, Proj proj = {}); // since C++20
template<bidirectional_iterator I1, sentinel_for<I1> S1, bidirectional_iterator I2>
requires indirectly_copyable<I1, I2>
constexpr ranges::copy_backward_result<I1, I2>
ranges::copy_backward(I1 first, S1 last, I2 result); // since C++20
template<bidirectional_range R, bidirectional_iterator I>
requires indirectly_copyable<iterator_t<R>, I>
constexpr ranges::copy_backward_result<borrowed_iterator_t<R>, I>
ranges::copy_backward(R&& r, I result); // since C++20
template<class I, class F>
using for_each_result = in_fun_result<I, F>; // since C++20
template<input_iterator I, sentinel_for<I> S, class Proj = identity,
indirectly_unary_invocable<projected<I, Proj>> Fun>
constexpr ranges::for_each_result<I, Fun>
ranges::for_each(I first, S last, Fun f, Proj proj = {}); // since C++20
template<input_range R, class Proj = identity,
indirectly_unary_invocable<projected<iterator_t<R>, Proj>> Fun>
constexpr ranges::for_each_result<borrowed_iterator_t<R>, Fun>
ranges::for_each(R&& r, Fun f, Proj proj = {}); // since C++20
template<input_iterator I, class Proj = identity,
indirectly_unary_invocable<projected<I, Proj>> Fun>
constexpr ranges::for_each_n_result<I, Fun>
ranges::for_each_n(I first, iter_difference_t<I> n, Fun f, Proj proj = {}); // since C++20
template<input_iterator I, sentinel_for<I> S, class Proj = identity,
indirect_unary_predicate<projected<I, Proj>> Pred>
constexpr bool ranges::is_partitioned(I first, S last, Pred pred, Proj proj = {}); // since C++20
template<input_range R, class Proj = identity,
indirect_unary_predicate<projected<iterator_t<R>, Proj>> Pred>
constexpr bool ranges::is_partitioned(R&& r, Pred pred, Proj proj = {}); // since C++20
template<random_access_iterator I, sentinel_for<I> S, class Comp = ranges::less,
class Proj = identity>
requires sortable<I, Comp, Proj>
constexpr I
ranges::push_heap(I first, S last, Comp comp = {}, Proj proj = {}); // since C++20
template<random_access_range R, class Comp = ranges::less, class Proj = identity>
requires sortable<iterator_t<R>, Comp, Proj>
constexpr borrowed_iterator_t<R>
ranges::push_heap(R&& r, Comp comp = {}, Proj proj = {}); // since C++20
template<random_access_iterator I, sentinel_for<I> S, class Comp = ranges::less,
class Proj = identity>
requires sortable<I, Comp, Proj>
constexpr I
ranges::pop_heap(I first, S last, Comp comp = {}, Proj proj = {}); // since C++20
template<random_access_range R, class Comp = ranges::less, class Proj = identity>
requires sortable<iterator_t<R>, Comp, Proj>
constexpr borrowed_iterator_t<R>
ranges::pop_heap(R&& r, Comp comp = {}, Proj proj = {}); // since C++20
template<random_access_iterator I, sentinel_for<I> S, class Comp = ranges::less,
class Proj = identity>
requires sortable<I, Comp, Proj>
constexpr I
ranges::make_heap(I first, S last, Comp comp = {}, Proj proj = {}); // since C++20
template<random_access_range R, class Comp = ranges::less, class Proj = identity>
requires sortable<iterator_t<R>, Comp, Proj>
constexpr borrowed_iterator_t<R>
ranges::make_heap(R&& r, Comp comp = {}, Proj proj = {}); // since C++20
template<random_access_iterator I, sentinel_for<I> S, class Comp = ranges::less,
class Proj = identity>
requires sortable<I, Comp, Proj>
constexpr I
ranges::sort_heap(I first, S last, Comp comp = {}, Proj proj = {}); // since C++20
template<random_access_range R, class Comp = ranges::less, class Proj = identity>
requires sortable<iterator_t<R>, Comp, Proj>
constexpr borrowed_iterator_t<R>
ranges::sort_heap(R&& r, Comp comp = {}, Proj proj = {}); // since C++20
template<bidirectional_iterator I, sentinel_for<I> S>
requires permutable<I>
constexpr I ranges::reverse(I first, S last); // since C++20
template<bidirectional_range R>
requires permutable<iterator_t<R>>
constexpr borrowed_iterator_t<R> ranges::reverse(R&& r); // since C++20
template<random_access_iterator I, sentinel_for<I> S, class Comp = ranges::less,
class Proj = identity>
requires sortable<I, Comp, Proj>
constexpr I
ranges::sort(I first, S last, Comp comp = {}, Proj proj = {}); // since C++20
template<random_access_range R, class Comp = ranges::less, class Proj = identity>
requires sortable<iterator_t<R>, Comp, Proj>
constexpr borrowed_iterator_t<R>
ranges::sort(R&& r, Comp comp = {}, Proj proj = {}); // since C++20
template<random_access_iterator I, sentinel_for<I> S, class Comp = ranges::less,
class Proj = identity>
requires sortable<I, Comp, Proj>
I ranges::stable_sort(I first, S last, Comp comp = {}, Proj proj = {}); // since C++20
template<random_access_range R, class Comp = ranges::less, class Proj = identity>
requires sortable<iterator_t<R>, Comp, Proj>
borrowed_iterator_t<R>
ranges::stable_sort(R&& r, Comp comp = {}, Proj proj = {}); // since C++20
template<class T, output_iterator<const T&> O, sentinel_for<O> S>
constexpr O ranges::fill(O first, S last, const T& value); // since C++20
template<class T, output_range<const T&> R>
constexpr borrowed_iterator_t<R> ranges::fill(R&& r, const T& value); // since C++20
template<class T, output_iterator<const T&> O>
constexpr O ranges::fill_n(O first, iter_difference_t<O> n, const T& value); // since C++20
template<input_iterator I1, sentinel_for<I1> S1, input_iterator I2, sentinel_for<I2> S2,
class Pred = ranges::equal_to, class Proj1 = identity, class Proj2 = identity>
requires indirectly_comparable<I1, I2, Pred, Proj1, Proj2>
constexpr bool ranges::equal(I1 first1, S1 last1, I2 first2, S2 last2,
Pred pred = {},
Proj1 proj1 = {}, Proj2 proj2 = {}); // since C++20
template<input_range R1, input_range R2, class Pred = ranges::equal_to,
class Proj1 = identity, class Proj2 = identity>
requires indirectly_comparable<iterator_t<R1>, iterator_t<R2>, Pred, Proj1, Proj2>
constexpr bool ranges::equal(R1&& r1, R2&& r2, Pred pred = {},
Proj1 proj1 = {}, Proj2 proj2 = {}); // since C++20
template<input_iterator I, sentinel_for<I> S, class Proj = identity,
indirect_unary_predicate<projected<I, Proj>> Pred>
constexpr bool ranges::all_of(I first, S last, Pred pred, Proj proj = {}); // since C++20
template<input_range R, class Proj = identity,
indirect_unary_predicate<projected<iterator_t<R>, Proj>> Pred>
constexpr bool ranges::all_of(R&& r, Pred pred, Proj proj = {}); // since C++20
template<input_iterator I, sentinel_for<I> S, class Proj = identity,
indirect_unary_predicate<projected<I, Proj>> Pred>
constexpr bool ranges::any_of(I first, S last, Pred pred, Proj proj = {}); // since C++20
template<input_range R, class Proj = identity,
indirect_unary_predicate<projected<iterator_t<R>, Proj>> Pred>
constexpr bool ranges::any_of(R&& r, Pred pred, Proj proj = {}); // since C++20
template<input_iterator I, sentinel_for<I> S, class Proj = identity,
indirect_unary_predicate<projected<I, Proj>> Pred>
constexpr bool ranges::none_of(I first, S last, Pred pred, Proj proj = {}); // since C++20
template<input_range R, class Proj = identity,
indirect_unary_predicate<projected<iterator_t<R>, Proj>> Pred>
constexpr bool ranges::none_of(R&& r, Pred pred, Proj proj = {}); // since C++20
template<forward_iterator I, sentinel_for<I> S, class Proj = identity,
indirect_strict_weak_order<projected<I, Proj>> Comp = ranges::less>
constexpr bool ranges::is_sorted(I first, S last, Comp comp = {}, Proj proj = {}); // since C++20
template<forward_range R, class Proj = identity,
indirect_strict_weak_order<projected<iterator_t<R>, Proj>> Comp = ranges::less>
constexpr bool ranges::is_sorted(R&& r, Comp comp = {}, Proj proj = {}); // since C++20
template<forward_iterator I, sentinel_for<I> S, class Proj = identity,
indirect_strict_weak_order<projected<I, Proj>> Comp = ranges::less>
constexpr I ranges::is_sorted_until(I first, S last, Comp comp = {}, Proj proj = {}); // since C++20
template<forward_range R, class Proj = identity,
indirect_strict_weak_order<projected<iterator_t<R>, Proj>> Comp = ranges::less>
constexpr borrowed_iterator_t<R>
ranges::is_sorted_until(R&& r, Comp comp = {}, Proj proj = {}); // since C++20
template<random_access_iterator I, sentinel_for<I> S, class Comp = ranges::less,
class Proj = identity>
requires sortable<I, Comp, Proj>
constexpr I
ranges::nth_element(I first, I nth, S last, Comp comp = {}, Proj proj = {}); // since C++20
template<random_access_range R, class Comp = ranges::less, class Proj = identity>
requires sortable<iterator_t<R>, Comp, Proj>
constexpr borrowed_iterator_t<R>
ranges::nth_element(R&& r, iterator_t<R> nth, Comp comp = {}, Proj proj = {}); // since C++20
template<forward_iterator I, sentinel_for<I> S, class T, class Proj = identity,
indirect_strict_weak_order<const T*, projected<I, Proj>> Comp = ranges::less>
constexpr I upper_bound(I first, S last, const T& value, Comp comp = {}, Proj proj = {}); // since C++20
template<forward_range R, class T, class Proj = identity,
indirect_strict_weak_order<const T*, projected<iterator_t<R>, Proj>> Comp =
ranges::less>
constexpr borrowed_iterator_t<R>
upper_bound(R&& r, const T& value, Comp comp = {}, Proj proj = {}); // since C++20
template<forward_iterator I, sentinel_for<I> S, class T, class Proj = identity,
indirect_strict_weak_order<const T*, projected<I, Proj>> Comp = ranges::less>
constexpr I lower_bound(I first, S last, const T& value, Comp comp = {},
Proj proj = {}); // since C++20
template<forward_range R, class T, class Proj = identity,
indirect_strict_weak_order<const T*, projected<iterator_t<R>, Proj>> Comp =
ranges::less>
constexpr borrowed_iterator_t<R>
lower_bound(R&& r, const T& value, Comp comp = {}, Proj proj = {}); // since C++20
template<forward_iterator I, sentinel_for<I> S, class T, class Proj = identity,
indirect_strict_weak_order<const T*, projected<I, Proj>> Comp = ranges::less>
constexpr bool binary_search(I first, S last, const T& value, Comp comp = {},
Proj proj = {}); // since C++20
template<forward_range R, class T, class Proj = identity,
indirect_strict_weak_order<const T*, projected<iterator_t<R>, Proj>> Comp =
ranges::less>
constexpr bool binary_search(R&& r, const T& value, Comp comp = {},
Proj proj = {}); // since C++20
template<input_iterator I1, sentinel_for<I1> S1, forward_iterator I2, sentinel_for<I2> S2,
class Pred = ranges::equal_to, class Proj1 = identity, class Proj2 = identity>
requires indirectly_comparable<I1, I2, Pred, Proj1, Proj2>
constexpr I1 ranges::find_first_of(I1 first1, S1 last1, I2 first2, S2 last2,
Pred pred = {},
Proj1 proj1 = {}, Proj2 proj2 = {}); // since C++20
template<input_range R1, forward_range R2,
class Pred = ranges::equal_to, class Proj1 = identity, class Proj2 = identity>
requires indirectly_comparable<iterator_t<R1>, iterator_t<R2>, Pred, Proj1, Proj2>
constexpr borrowed_iterator_t<R1>
ranges::find_first_of(R1&& r1, R2&& r2,
Pred pred = {},
Proj1 proj1 = {}, Proj2 proj2 = {}); // since C++20
template<forward_iterator I, sentinel_for<I> S, class Proj = identity,
indirect_binary_predicate<projected<I, Proj>,
projected<I, Proj>> Pred = ranges::equal_to>
constexpr I ranges::adjacent_find(I first, S last, Pred pred = {}, Proj proj = {}); // since C+20
template<forward_range R, class Proj = identity,
indirect_binary_predicate<projected<iterator_t<R>, Proj>,
projected<iterator_t<R>, Proj>> Pred = ranges::equal_to>
constexpr borrowed_iterator_t<R> ranges::adjacent_find(R&& r, Pred pred = {}, Proj proj = {}); // since C++20
template<input_iterator I, sentinel_for<I> S, class T1, class T2, class Proj = identity>
requires indirectly_writable<I, const T2&> &&
indirect_binary_predicate<ranges::equal_to, projected<I, Proj>, const T1*>
constexpr I
ranges::replace(I first, S last, const T1& old_value, const T2& new_value, Proj proj = {}); // since C++20
template<input_range R, class T1, class T2, class Proj = identity>
requires indirectly_writable<iterator_t<R>, const T2&> &&
indirect_binary_predicate<ranges::equal_to, projected<iterator_t<R>, Proj>, const T1*>
constexpr borrowed_iterator_t<R>
ranges::replace(R&& r, const T1& old_value, const T2& new_value, Proj proj = {}); // since C++20
template<input_iterator I, sentinel_for<I> S, class T, class Proj = identity,
indirect_unary_predicate<projected<I, Proj>> Pred>
requires indirectly_writable<I, const T&>
constexpr I ranges::replace_if(I first, S last, Pred pred, const T& new_value, Proj proj = {}); // since C++20
template<input_range R, class T, class Proj = identity,
indirect_unary_predicate<projected<iterator_t<R>, Proj>> Pred>
requires indirectly_writable<iterator_t<R>, const T&>
constexpr borrowed_iterator_t<R>
ranges::replace_if(R&& r, Pred pred, const T& new_value, Proj proj = {}); // since C++20
template<input_iterator I1, sentinel_for<I1> S1, input_iterator I2, sentinel_for<I2> S2,
class Proj1 = identity, class Proj2 = identity,
indirect_strict_weak_order<projected<I1, Proj1>,
projected<I2, Proj2>> Comp = ranges::less>
constexpr bool
ranges::lexicographical_compare(I1 first1, S1 last1, I2 first2, S2 last2,
Comp comp = {}, Proj1 proj1 = {}, Proj2 proj2 = {}); // since C++20
template<input_range R1, input_range R2, class Proj1 = identity,
class Proj2 = identity,
indirect_strict_weak_order<projected<iterator_t<R1>, Proj1>,
projected<iterator_t<R2>, Proj2>> Comp = ranges::less>
constexpr bool
ranges::lexicographical_compare(R1&& r1, R2&& r2, Comp comp = {},
Proj1 proj1 = {}, Proj2 proj2 = {}); // since C++20
template<bidirectional_iterator I1, sentinel_for<I1> S1, bidirectional_iterator I2>
requires indirectly_movable<I1, I2>
constexpr ranges::move_backward_result<I1, I2>
ranges::move_backward(I1 first, S1 last, I2 result); // since C++20
template<bidirectional_range R, bidirectional_iterator I>
requires indirectly_movable<iterator_t<R>, I>
constexpr ranges::move_backward_result<borrowed_iterator_t<R>, I>
ranges::move_backward(R&& r, I result); // since C++20
template<input_iterator I, sentinel_for<I> S, weakly_incrementable O>
requires indirectly_movable<I, O>
constexpr ranges::move_result<I, O>
ranges::move(I first, S last, O result); // since C++20
template<input_range R, weakly_incrementable O>
requires indirectly_movable<iterator_t<R>, O>
constexpr ranges::move_result<borrowed_iterator_t<R>, O>
ranges::move(R&& r, O result); // since C++20
template<class I1, class I2, class O>
using merge_result = in_in_out_result<I1, I2, O>; // since C++20
template<input_iterator I1, sentinel_for<I1> S1, input_iterator I2, sentinel_for<I2> S2,
weakly_incrementable O, class Comp = ranges::less, class Proj1 = identity,
class Proj2 = identity>
requires mergeable<I1, I2, O, Comp, Proj1, Proj2>
constexpr merge_result<I1, I2, O>
merge(I1 first1, S1 last1, I2 first2, S2 last2, O result,
Comp comp = {}, Proj1 proj1 = {}, Proj2 proj2 = {}); // since C++20
template<input_range R1, input_range R2, weakly_incrementable O, class Comp = ranges::less,
class Proj1 = identity, class Proj2 = identity>
requires mergeable<iterator_t<R1>, iterator_t<R2>, O, Comp, Proj1, Proj2>
constexpr merge_result<borrowed_iterator_t<R1>, borrowed_iterator_t<R2>, O>
merge(R1&& r1, R2&& r2, O result,
Comp comp = {}, Proj1 proj1 = {}, Proj2 proj2 = {}); // since C++20
template<permutable I, sentinel_for<I> S, class T, class Proj = identity>
requires indirect_binary_predicate<ranges::equal_to, projected<I, Proj>, const T*>
constexpr subrange<I> ranges::remove(I first, S last, const T& value, Proj proj = {}); // since C++20
template<forward_range R, class T, class Proj = identity>
requires permutable<iterator_t<R>> &&
indirect_binary_predicate<ranges::equal_to, projected<iterator_t<R>, Proj>, const T*>
constexpr borrowed_subrange_t<R>
ranges::remove(R&& r, const T& value, Proj proj = {}); // since C++20
template<permutable I, sentinel_for<I> S, class Proj = identity,
indirect_unary_predicate<projected<I, Proj>> Pred>
constexpr subrange<I> ranges::remove_if(I first, S last, Pred pred, Proj proj = {}); // since C++20
template<forward_range R, class Proj = identity,
indirect_unary_predicate<projected<iterator_t<R>, Proj>> Pred>
requires permutable<iterator_t<R>>
constexpr borrowed_subrange_t<R>
ranges::remove_if(R&& r, Pred pred, Proj proj = {}); // since C++20
template<class I, class O>
using set_difference_result = in_out_result<I, O>; // since C++20
template<input_iterator I1, sentinel_for<I1> S1, input_iterator I2, sentinel_for<I2> S2,
weakly_incrementable O, class Comp = ranges::less,
class Proj1 = identity, class Proj2 = identity>
requires mergeable<I1, I2, O, Comp, Proj1, Proj2>
constexpr set_difference_result<I1, O>
set_difference(I1 first1, S1 last1, I2 first2, S2 last2, O result,
Comp comp = {}, Proj1 proj1 = {}, Proj2 proj2 = {}); // since C++20
template<input_range R1, input_range R2, weakly_incrementable O,
class Comp = ranges::less, class Proj1 = identity, class Proj2 = identity>
requires mergeable<iterator_t<R1>, iterator_t<R2>, O, Comp, Proj1, Proj2>
constexpr set_difference_result<borrowed_iterator_t<R1>, O>
set_difference(R1&& r1, R2&& r2, O result,
Comp comp = {}, Proj1 proj1 = {}, Proj2 proj2 = {}); // since C++20
template<class I1, class I2, class O>
using set_intersection_result = in_in_out_result<I1, I2, O>; // since C++20
template<input_iterator I1, sentinel_for<I1> S1, input_iterator I2, sentinel_for<I2> S2,
weakly_incrementable O, class Comp = ranges::less,
class Proj1 = identity, class Proj2 = identity>
requires mergeable<I1, I2, O, Comp, Proj1, Proj2>
constexpr set_intersection_result<I1, I2, O>
set_intersection(I1 first1, S1 last1, I2 first2, S2 last2, O result,
Comp comp = {}, Proj1 proj1 = {}, Proj2 proj2 = {}); // since C++20
template<input_iterator I1, sentinel_for<I1> S1, input_iterator I2, sentinel_for<I2> S2,
weakly_incrementable O, class Comp = ranges::less,
class Proj1 = identity, class Proj2 = identity>
requires mergeable<I1, I2, O, Comp, Proj1, Proj2>
constexpr set_intersection_result<borrowed_iterator_t<R1>, borrowed_iterator_t<R2>, O>
set_intersection(R1&& r1, R2&& r2, O result,
Comp comp = {}, Proj1 proj1 = {}, Proj2 proj2 = {}); // since C++20
template <class _InIter, class _OutIter>
using reverse_copy_result = in_out_result<_InIter, _OutIter>; // since C++20
template<bidirectional_iterator I, sentinel_for<I> S, weakly_incrementable O>
requires indirectly_copyable<I, O>
constexpr ranges::reverse_copy_result<I, O>
ranges::reverse_copy(I first, S last, O result); // since C++20
template<bidirectional_range R, weakly_incrementable O>
requires indirectly_copyable<iterator_t<R>, O>
constexpr ranges::reverse_copy_result<borrowed_iterator_t<R>, O>
ranges::reverse_copy(R&& r, O result); // since C++20
template <class _InIter, class _OutIter>
using rotate_copy_result = in_out_result<_InIter, _OutIter>; // since C++20
template<forward_iterator I, sentinel_for<I> S, weakly_incrementable O>
requires indirectly_copyable<I, O>
constexpr ranges::rotate_copy_result<I, O>
ranges::rotate_copy(I first, I middle, S last, O result); // since C++20
template<forward_range R, weakly_incrementable O>
requires indirectly_copyable<iterator_t<R>, O>
constexpr ranges::rotate_copy_result<borrowed_iterator_t<R>, O>
ranges::rotate_copy(R&& r, iterator_t<R> middle, O result); // since C++20
template<forward_iterator I1, sentinel_for<I1> S1, forward_iterator I2,
sentinel_for<I2> S2, class Pred = ranges::equal_to,
class Proj1 = identity, class Proj2 = identity>
requires indirectly_comparable<I1, I2, Pred, Proj1, Proj2>
constexpr subrange<I1>
ranges::search(I1 first1, S1 last1, I2 first2, S2 last2, Pred pred = {},
Proj1 proj1 = {}, Proj2 proj2 = {}); // since C++20
template<forward_range R1, forward_range R2, class Pred = ranges::equal_to,
class Proj1 = identity, class Proj2 = identity>
requires indirectly_comparable<iterator_t<R1>, iterator_t<R2>, Pred, Proj1, Proj2>
constexpr borrowed_subrange_t<R1>
ranges::search(R1&& r1, R2&& r2, Pred pred = {},
Proj1 proj1 = {}, Proj2 proj2 = {}); // since C++20
template<forward_iterator I, sentinel_for<I> S, class T,
class Pred = ranges::equal_to, class Proj = identity>
requires indirectly_comparable<I, const T*, Pred, Proj>
constexpr subrange<I>
ranges::search_n(I first, S last, iter_difference_t<I> count,
const T& value, Pred pred = {}, Proj proj = {}); // since C++20
template<forward_range R, class T, class Pred = ranges::equal_to,
class Proj = identity>
requires indirectly_comparable<iterator_t<R>, const T*, Pred, Proj>
constexpr borrowed_subrange_t<R>
ranges::search_n(R&& r, range_difference_t<R> count,
const T& value, Pred pred = {}, Proj proj = {}); // since C++20
template<forward_iterator I1, sentinel_for<I1> S1, forward_iterator I2, sentinel_for<I2> S2,
class Pred = ranges::equal_to, class Proj1 = identity, class Proj2 = identity>
requires indirectly_comparable<I1, I2, Pred, Proj1, Proj2>
constexpr subrange<I1>
ranges::find_end(I1 first1, S1 last1, I2 first2, S2 last2, Pred pred = {},
Proj1 proj1 = {}, Proj2 proj2 = {}); // since C++20
template<forward_range R1, forward_range R2,
class Pred = ranges::equal_to, class Proj1 = identity, class Proj2 = identity>
requires indirectly_comparable<iterator_t<R1>, iterator_t<R2>, Pred, Proj1, Proj2>
constexpr borrowed_subrange_t<R1>
ranges::find_end(R1&& r1, R2&& r2, Pred pred = {},
Proj1 proj1 = {}, Proj2 proj2 = {}); // since C++20
template<class I1, class I2, class O>
using set_symmetric_difference_result = in_in_out_result<I1, I2, O>; // since C++20
template<input_iterator I1, sentinel_for<I1> S1, input_iterator I2, sentinel_for<I2> S2,
weakly_incrementable O, class Comp = ranges::less,
class Proj1 = identity, class Proj2 = identity>
requires mergeable<I1, I2, O, Comp, Proj1, Proj2>
constexpr set_symmetric_difference_result<I1, I2, O>
set_symmetric_difference(I1 first1, S1 last1, I2 first2, S2 last2, O result,
Comp comp = {}, Proj1 proj1 = {},
Proj2 proj2 = {}); // since C++20
template<input_range R1, input_range R2, weakly_incrementable O,
class Comp = ranges::less, class Proj1 = identity, class Proj2 = identity>
requires mergeable<iterator_t<R1>, iterator_t<R2>, O, Comp, Proj1, Proj2>
constexpr set_symmetric_difference_result<borrowed_iterator_t<R1>,
borrowed_iterator_t<R2>, O>
set_symmetric_difference(R1&& r1, R2&& r2, O result, Comp comp = {},
Proj1 proj1 = {}, Proj2 proj2 = {}); // since C++20
template<class I1, class I2, class O>
using set_union_result = in_in_out_result<I1, I2, O>; // since C++20
template<input_iterator I1, sentinel_for<I1> S1, input_iterator I2, sentinel_for<I2> S2,
weakly_incrementable O, class Comp = ranges::less,
class Proj1 = identity, class Proj2 = identity>
requires mergeable<I1, I2, O, Comp, Proj1, Proj2>
constexpr set_union_result<I1, I2, O>
set_union(I1 first1, S1 last1, I2 first2, S2 last2, O result, Comp comp = {},
Proj1 proj1 = {}, Proj2 proj2 = {}); // since C++20
template<input_range R1, input_range R2, weakly_incrementable O,
class Comp = ranges::less, class Proj1 = identity, class Proj2 = identity>
requires mergeable<iterator_t<R1>, iterator_t<R2>, O, Comp, Proj1, Proj2>
constexpr set_union_result<borrowed_iterator_t<R1>, borrowed_iterator_t<R2>, O>
set_union(R1&& r1, R2&& r2, O result, Comp comp = {},
Proj1 proj1 = {}, Proj2 proj2 = {}); // since C++20
}
constexpr bool // constexpr in C++20
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all_of(InputIterator first, InputIterator last, Predicate pred);
template <class InputIterator, class Predicate>
constexpr bool // constexpr in C++20
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any_of(InputIterator first, InputIterator last, Predicate pred);
template <class InputIterator, class Predicate>
constexpr bool // constexpr in C++20
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none_of(InputIterator first, InputIterator last, Predicate pred);
template <class InputIterator, class Function>
constexpr Function // constexpr in C++20
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for_each(InputIterator first, InputIterator last, Function f);
template<class InputIterator, class Size, class Function>
constexpr InputIterator // constexpr in C++20
for_each_n(InputIterator first, Size n, Function f); // C++17
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template <class InputIterator, class T>
constexpr InputIterator // constexpr in C++20
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find(InputIterator first, InputIterator last, const T& value);
template <class InputIterator, class Predicate>
constexpr InputIterator // constexpr in C++20
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find_if(InputIterator first, InputIterator last, Predicate pred);
template<class InputIterator, class Predicate>
constexpr InputIterator // constexpr in C++20
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find_if_not(InputIterator first, InputIterator last, Predicate pred);
template <class ForwardIterator1, class ForwardIterator2>
constexpr ForwardIterator1 // constexpr in C++20
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find_end(ForwardIterator1 first1, ForwardIterator1 last1,
ForwardIterator2 first2, ForwardIterator2 last2);
template <class ForwardIterator1, class ForwardIterator2, class BinaryPredicate>
constexpr ForwardIterator1 // constexpr in C++20
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find_end(ForwardIterator1 first1, ForwardIterator1 last1,
ForwardIterator2 first2, ForwardIterator2 last2, BinaryPredicate pred);
template <class ForwardIterator1, class ForwardIterator2>
constexpr ForwardIterator1 // constexpr in C++20
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find_first_of(ForwardIterator1 first1, ForwardIterator1 last1,
ForwardIterator2 first2, ForwardIterator2 last2);
template <class ForwardIterator1, class ForwardIterator2, class BinaryPredicate>
constexpr ForwardIterator1 // constexpr in C++20
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find_first_of(ForwardIterator1 first1, ForwardIterator1 last1,
ForwardIterator2 first2, ForwardIterator2 last2, BinaryPredicate pred);
template <class ForwardIterator>
constexpr ForwardIterator // constexpr in C++20
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adjacent_find(ForwardIterator first, ForwardIterator last);
template <class ForwardIterator, class BinaryPredicate>
constexpr ForwardIterator // constexpr in C++20
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adjacent_find(ForwardIterator first, ForwardIterator last, BinaryPredicate pred);
template <class InputIterator, class T>
constexpr typename iterator_traits<InputIterator>::difference_type // constexpr in C++20
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count(InputIterator first, InputIterator last, const T& value);
template <class InputIterator, class Predicate>
constexpr typename iterator_traits<InputIterator>::difference_type // constexpr in C++20
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count_if(InputIterator first, InputIterator last, Predicate pred);
template <class InputIterator1, class InputIterator2>
constexpr pair<InputIterator1, InputIterator2> // constexpr in C++20
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mismatch(InputIterator1 first1, InputIterator1 last1, InputIterator2 first2);
template <class InputIterator1, class InputIterator2>
constexpr pair<InputIterator1, InputIterator2> // constexpr in C++20
mismatch(InputIterator1 first1, InputIterator1 last1,
InputIterator2 first2, InputIterator2 last2); // **C++14**
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template <class InputIterator1, class InputIterator2, class BinaryPredicate>
constexpr pair<InputIterator1, InputIterator2> // constexpr in C++20
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mismatch(InputIterator1 first1, InputIterator1 last1,
InputIterator2 first2, BinaryPredicate pred);
template <class InputIterator1, class InputIterator2, class BinaryPredicate>
constexpr pair<InputIterator1, InputIterator2> // constexpr in C++20
mismatch(InputIterator1 first1, InputIterator1 last1,
InputIterator2 first2, InputIterator2 last2,
BinaryPredicate pred); // **C++14**
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template <class InputIterator1, class InputIterator2>
constexpr bool // constexpr in C++20
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equal(InputIterator1 first1, InputIterator1 last1, InputIterator2 first2);
template <class InputIterator1, class InputIterator2>
constexpr bool // constexpr in C++20
equal(InputIterator1 first1, InputIterator1 last1,
InputIterator2 first2, InputIterator2 last2); // **C++14**
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template <class InputIterator1, class InputIterator2, class BinaryPredicate>
constexpr bool // constexpr in C++20
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equal(InputIterator1 first1, InputIterator1 last1,
InputIterator2 first2, BinaryPredicate pred);
template <class InputIterator1, class InputIterator2, class BinaryPredicate>
constexpr bool // constexpr in C++20
equal(InputIterator1 first1, InputIterator1 last1,
InputIterator2 first2, InputIterator2 last2,
BinaryPredicate pred); // **C++14**
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template<class ForwardIterator1, class ForwardIterator2>
constexpr bool // constexpr in C++20
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is_permutation(ForwardIterator1 first1, ForwardIterator1 last1,
ForwardIterator2 first2);
template<class ForwardIterator1, class ForwardIterator2>
constexpr bool // constexpr in C++20
is_permutation(ForwardIterator1 first1, ForwardIterator1 last1,
ForwardIterator2 first2, ForwardIterator2 last2); // **C++14**
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template<class ForwardIterator1, class ForwardIterator2, class BinaryPredicate>
constexpr bool // constexpr in C++20
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is_permutation(ForwardIterator1 first1, ForwardIterator1 last1,
ForwardIterator2 first2, BinaryPredicate pred);
template<class ForwardIterator1, class ForwardIterator2, class BinaryPredicate>
constexpr bool // constexpr in C++20
is_permutation(ForwardIterator1 first1, ForwardIterator1 last1,
ForwardIterator2 first2, ForwardIterator2 last2,
BinaryPredicate pred); // **C++14**
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template <class ForwardIterator1, class ForwardIterator2>
constexpr ForwardIterator1 // constexpr in C++20
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search(ForwardIterator1 first1, ForwardIterator1 last1,
ForwardIterator2 first2, ForwardIterator2 last2);
template <class ForwardIterator1, class ForwardIterator2, class BinaryPredicate>
constexpr ForwardIterator1 // constexpr in C++20
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search(ForwardIterator1 first1, ForwardIterator1 last1,
ForwardIterator2 first2, ForwardIterator2 last2, BinaryPredicate pred);
template <class ForwardIterator, class Size, class T>
constexpr ForwardIterator // constexpr in C++20
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search_n(ForwardIterator first, ForwardIterator last, Size count, const T& value);
template <class ForwardIterator, class Size, class T, class BinaryPredicate>
constexpr ForwardIterator // constexpr in C++20
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search_n(ForwardIterator first, ForwardIterator last,
Size count, const T& value, BinaryPredicate pred);
template <class InputIterator, class OutputIterator>
constexpr OutputIterator // constexpr in C++20
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copy(InputIterator first, InputIterator last, OutputIterator result);
template<class InputIterator, class OutputIterator, class Predicate>
constexpr OutputIterator // constexpr in C++20
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copy_if(InputIterator first, InputIterator last,
OutputIterator result, Predicate pred);
template<class InputIterator, class Size, class OutputIterator>
constexpr OutputIterator // constexpr in C++20
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copy_n(InputIterator first, Size n, OutputIterator result);
template <class BidirectionalIterator1, class BidirectionalIterator2>
constexpr BidirectionalIterator2 // constexpr in C++20
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copy_backward(BidirectionalIterator1 first, BidirectionalIterator1 last,
BidirectionalIterator2 result);
// [alg.move], move
template<class InputIterator, class OutputIterator>
constexpr OutputIterator move(InputIterator first, InputIterator last,
OutputIterator result);
template<class BidirectionalIterator1, class BidirectionalIterator2>
constexpr BidirectionalIterator2
move_backward(BidirectionalIterator1 first, BidirectionalIterator1 last,
BidirectionalIterator2 result);
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template <class ForwardIterator1, class ForwardIterator2>
constexpr ForwardIterator2 // constexpr in C++20
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swap_ranges(ForwardIterator1 first1, ForwardIterator1 last1, ForwardIterator2 first2);
namespace ranges {
template<class I1, class I2>
using swap_ranges_result = in_in_result<I1, I2>;
template<input_iterator I1, sentinel_for<I1> S1, input_iterator I2, sentinel_for<I2> S2>
requires indirectly_swappable<I1, I2>
constexpr ranges::swap_ranges_result<I1, I2>
swap_ranges(I1 first1, S1 last1, I2 first2, S2 last2);
template<input_range R1, input_range R2>
requires indirectly_swappable<iterator_t<R1>, iterator_t<R2>>
constexpr ranges::swap_ranges_result<borrowed_iterator_t<R1>, borrowed_iterator_t<R2>>
swap_ranges(R1&& r1, R2&& r2);
}
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template <class ForwardIterator1, class ForwardIterator2>
constexpr void // constexpr in C++20
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iter_swap(ForwardIterator1 a, ForwardIterator2 b);
template <class InputIterator, class OutputIterator, class UnaryOperation>
constexpr OutputIterator // constexpr in C++20
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transform(InputIterator first, InputIterator last, OutputIterator result, UnaryOperation op);
template <class InputIterator1, class InputIterator2, class OutputIterator, class BinaryOperation>
constexpr OutputIterator // constexpr in C++20
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transform(InputIterator1 first1, InputIterator1 last1, InputIterator2 first2,
OutputIterator result, BinaryOperation binary_op);
template <class ForwardIterator, class T>
constexpr void // constexpr in C++20
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replace(ForwardIterator first, ForwardIterator last, const T& old_value, const T& new_value);
template <class ForwardIterator, class Predicate, class T>
constexpr void // constexpr in C++20
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replace_if(ForwardIterator first, ForwardIterator last, Predicate pred, const T& new_value);
template <class InputIterator, class OutputIterator, class T>
constexpr OutputIterator // constexpr in C++20
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replace_copy(InputIterator first, InputIterator last, OutputIterator result,
const T& old_value, const T& new_value);
template <class InputIterator, class OutputIterator, class Predicate, class T>
constexpr OutputIterator // constexpr in C++20
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replace_copy_if(InputIterator first, InputIterator last, OutputIterator result, Predicate pred, const T& new_value);
template <class ForwardIterator, class T>
constexpr void // constexpr in C++20
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fill(ForwardIterator first, ForwardIterator last, const T& value);
template <class OutputIterator, class Size, class T>
constexpr OutputIterator // constexpr in C++20
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fill_n(OutputIterator first, Size n, const T& value);
template <class ForwardIterator, class Generator>
constexpr void // constexpr in C++20
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generate(ForwardIterator first, ForwardIterator last, Generator gen);
template <class OutputIterator, class Size, class Generator>
constexpr OutputIterator // constexpr in C++20
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generate_n(OutputIterator first, Size n, Generator gen);
template <class ForwardIterator, class T>
constexpr ForwardIterator // constexpr in C++20
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remove(ForwardIterator first, ForwardIterator last, const T& value);
template <class ForwardIterator, class Predicate>
constexpr ForwardIterator // constexpr in C++20
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remove_if(ForwardIterator first, ForwardIterator last, Predicate pred);
template <class InputIterator, class OutputIterator, class T>
constexpr OutputIterator // constexpr in C++20
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remove_copy(InputIterator first, InputIterator last, OutputIterator result, const T& value);
template <class InputIterator, class OutputIterator, class Predicate>
constexpr OutputIterator // constexpr in C++20
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remove_copy_if(InputIterator first, InputIterator last, OutputIterator result, Predicate pred);
template <class ForwardIterator>
constexpr ForwardIterator // constexpr in C++20
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unique(ForwardIterator first, ForwardIterator last);
template <class ForwardIterator, class BinaryPredicate>
constexpr ForwardIterator // constexpr in C++20
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unique(ForwardIterator first, ForwardIterator last, BinaryPredicate pred);
template <class InputIterator, class OutputIterator>
constexpr OutputIterator // constexpr in C++20
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unique_copy(InputIterator first, InputIterator last, OutputIterator result);
template <class InputIterator, class OutputIterator, class BinaryPredicate>
constexpr OutputIterator // constexpr in C++20
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unique_copy(InputIterator first, InputIterator last, OutputIterator result, BinaryPredicate pred);
template <class BidirectionalIterator>
constexpr void // constexpr in C++20
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reverse(BidirectionalIterator first, BidirectionalIterator last);
template <class BidirectionalIterator, class OutputIterator>
constexpr OutputIterator // constexpr in C++20
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reverse_copy(BidirectionalIterator first, BidirectionalIterator last, OutputIterator result);
template <class ForwardIterator>
constexpr ForwardIterator // constexpr in C++20
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rotate(ForwardIterator first, ForwardIterator middle, ForwardIterator last);
template <class ForwardIterator, class OutputIterator>
constexpr OutputIterator // constexpr in C++20
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rotate_copy(ForwardIterator first, ForwardIterator middle, ForwardIterator last, OutputIterator result);
template <class RandomAccessIterator>
void
random_shuffle(RandomAccessIterator first, RandomAccessIterator last); // deprecated in C++14, removed in C++17
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template <class RandomAccessIterator, class RandomNumberGenerator>
void
random_shuffle(RandomAccessIterator first, RandomAccessIterator last,
RandomNumberGenerator& rand); // deprecated in C++14, removed in C++17
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template<class PopulationIterator, class SampleIterator,
class Distance, class UniformRandomBitGenerator>
SampleIterator sample(PopulationIterator first, PopulationIterator last,
SampleIterator out, Distance n,
UniformRandomBitGenerator&& g); // C++17
template<class RandomAccessIterator, class UniformRandomNumberGenerator>
void shuffle(RandomAccessIterator first, RandomAccessIterator last,
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UniformRandomNumberGenerator&& g);
template<class ForwardIterator>
constexpr ForwardIterator
shift_left(ForwardIterator first, ForwardIterator last,
typename iterator_traits<ForwardIterator>::difference_type n); // C++20
template<class ForwardIterator>
constexpr ForwardIterator
shift_right(ForwardIterator first, ForwardIterator last,
typename iterator_traits<ForwardIterator>::difference_type n); // C++20
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template <class InputIterator, class Predicate>
constexpr bool // constexpr in C++20
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is_partitioned(InputIterator first, InputIterator last, Predicate pred);
template <class ForwardIterator, class Predicate>
constexpr ForwardIterator // constexpr in C++20
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partition(ForwardIterator first, ForwardIterator last, Predicate pred);
template <class InputIterator, class OutputIterator1,
class OutputIterator2, class Predicate>
constexpr pair<OutputIterator1, OutputIterator2> // constexpr in C++20
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partition_copy(InputIterator first, InputIterator last,
OutputIterator1 out_true, OutputIterator2 out_false,
Predicate pred);
template <class ForwardIterator, class Predicate>
ForwardIterator
stable_partition(ForwardIterator first, ForwardIterator last, Predicate pred);
template<class ForwardIterator, class Predicate>
constexpr ForwardIterator // constexpr in C++20
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partition_point(ForwardIterator first, ForwardIterator last, Predicate pred);
template <class ForwardIterator>
constexpr bool // constexpr in C++20
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is_sorted(ForwardIterator first, ForwardIterator last);
template <class ForwardIterator, class Compare>
constexpr bool // constexpr in C++20
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is_sorted(ForwardIterator first, ForwardIterator last, Compare comp);
template<class ForwardIterator>
constexpr ForwardIterator // constexpr in C++20
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is_sorted_until(ForwardIterator first, ForwardIterator last);
template <class ForwardIterator, class Compare>
constexpr ForwardIterator // constexpr in C++20
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is_sorted_until(ForwardIterator first, ForwardIterator last, Compare comp);
template <class RandomAccessIterator>
constexpr void // constexpr in C++20
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sort(RandomAccessIterator first, RandomAccessIterator last);
template <class RandomAccessIterator, class Compare>
constexpr void // constexpr in C++20
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sort(RandomAccessIterator first, RandomAccessIterator last, Compare comp);
template <class RandomAccessIterator>
void
stable_sort(RandomAccessIterator first, RandomAccessIterator last);
template <class RandomAccessIterator, class Compare>
void
stable_sort(RandomAccessIterator first, RandomAccessIterator last, Compare comp);
template <class RandomAccessIterator>
constexpr void // constexpr in C++20
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partial_sort(RandomAccessIterator first, RandomAccessIterator middle, RandomAccessIterator last);
template <class RandomAccessIterator, class Compare>
constexpr void // constexpr in C++20
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partial_sort(RandomAccessIterator first, RandomAccessIterator middle, RandomAccessIterator last, Compare comp);
template <class InputIterator, class RandomAccessIterator>
constexpr RandomAccessIterator // constexpr in C++20
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partial_sort_copy(InputIterator first, InputIterator last,
RandomAccessIterator result_first, RandomAccessIterator result_last);
template <class InputIterator, class RandomAccessIterator, class Compare>
constexpr RandomAccessIterator // constexpr in C++20
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partial_sort_copy(InputIterator first, InputIterator last,
RandomAccessIterator result_first, RandomAccessIterator result_last, Compare comp);
template <class RandomAccessIterator>
constexpr void // constexpr in C++20
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nth_element(RandomAccessIterator first, RandomAccessIterator nth, RandomAccessIterator last);
template <class RandomAccessIterator, class Compare>
constexpr void // constexpr in C++20
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nth_element(RandomAccessIterator first, RandomAccessIterator nth, RandomAccessIterator last, Compare comp);
template <class ForwardIterator, class T>
constexpr ForwardIterator // constexpr in C++20
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lower_bound(ForwardIterator first, ForwardIterator last, const T& value);
template <class ForwardIterator, class T, class Compare>
constexpr ForwardIterator // constexpr in C++20
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lower_bound(ForwardIterator first, ForwardIterator last, const T& value, Compare comp);
template <class ForwardIterator, class T>
constexpr ForwardIterator // constexpr in C++20
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upper_bound(ForwardIterator first, ForwardIterator last, const T& value);
template <class ForwardIterator, class T, class Compare>
constexpr ForwardIterator // constexpr in C++20
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upper_bound(ForwardIterator first, ForwardIterator last, const T& value, Compare comp);
template <class ForwardIterator, class T>
constexpr pair<ForwardIterator, ForwardIterator> // constexpr in C++20
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equal_range(ForwardIterator first, ForwardIterator last, const T& value);
template <class ForwardIterator, class T, class Compare>
constexpr pair<ForwardIterator, ForwardIterator> // constexpr in C++20
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equal_range(ForwardIterator first, ForwardIterator last, const T& value, Compare comp);
template <class ForwardIterator, class T>
constexpr bool // constexpr in C++20
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binary_search(ForwardIterator first, ForwardIterator last, const T& value);
template <class ForwardIterator, class T, class Compare>
constexpr bool // constexpr in C++20
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binary_search(ForwardIterator first, ForwardIterator last, const T& value, Compare comp);
template <class InputIterator1, class InputIterator2, class OutputIterator>
constexpr OutputIterator // constexpr in C++20
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merge(InputIterator1 first1, InputIterator1 last1,
InputIterator2 first2, InputIterator2 last2, OutputIterator result);
template <class InputIterator1, class InputIterator2, class OutputIterator, class Compare>
constexpr OutputIterator // constexpr in C++20
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merge(InputIterator1 first1, InputIterator1 last1,
InputIterator2 first2, InputIterator2 last2, OutputIterator result, Compare comp);
template <class BidirectionalIterator>
void
inplace_merge(BidirectionalIterator first, BidirectionalIterator middle, BidirectionalIterator last);
template <class BidirectionalIterator, class Compare>
void
inplace_merge(BidirectionalIterator first, BidirectionalIterator middle, BidirectionalIterator last, Compare comp);
template <class InputIterator1, class InputIterator2>
constexpr bool // constexpr in C++20
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includes(InputIterator1 first1, InputIterator1 last1, InputIterator2 first2, InputIterator2 last2);
template <class InputIterator1, class InputIterator2, class Compare>
constexpr bool // constexpr in C++20
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includes(InputIterator1 first1, InputIterator1 last1, InputIterator2 first2, InputIterator2 last2, Compare comp);
template <class InputIterator1, class InputIterator2, class OutputIterator>
constexpr OutputIterator // constexpr in C++20
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set_union(InputIterator1 first1, InputIterator1 last1,
InputIterator2 first2, InputIterator2 last2, OutputIterator result);
template <class InputIterator1, class InputIterator2, class OutputIterator, class Compare>
constexpr OutputIterator // constexpr in C++20
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set_union(InputIterator1 first1, InputIterator1 last1,
InputIterator2 first2, InputIterator2 last2, OutputIterator result, Compare comp);
template <class InputIterator1, class InputIterator2, class OutputIterator>
constexpr OutputIterator // constexpr in C++20
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set_intersection(InputIterator1 first1, InputIterator1 last1,
InputIterator2 first2, InputIterator2 last2, OutputIterator result);
template <class InputIterator1, class InputIterator2, class OutputIterator, class Compare>
constexpr OutputIterator // constexpr in C++20
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set_intersection(InputIterator1 first1, InputIterator1 last1,
InputIterator2 first2, InputIterator2 last2, OutputIterator result, Compare comp);
template <class InputIterator1, class InputIterator2, class OutputIterator>
constexpr OutputIterator // constexpr in C++20
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set_difference(InputIterator1 first1, InputIterator1 last1,
InputIterator2 first2, InputIterator2 last2, OutputIterator result);
template <class InputIterator1, class InputIterator2, class OutputIterator, class Compare>
constexpr OutputIterator // constexpr in C++20
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set_difference(InputIterator1 first1, InputIterator1 last1,
InputIterator2 first2, InputIterator2 last2, OutputIterator result, Compare comp);
template <class InputIterator1, class InputIterator2, class OutputIterator>
constexpr OutputIterator // constexpr in C++20
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set_symmetric_difference(InputIterator1 first1, InputIterator1 last1,
InputIterator2 first2, InputIterator2 last2, OutputIterator result);
template <class InputIterator1, class InputIterator2, class OutputIterator, class Compare>
constexpr OutputIterator // constexpr in C++20
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set_symmetric_difference(InputIterator1 first1, InputIterator1 last1,
InputIterator2 first2, InputIterator2 last2, OutputIterator result, Compare comp);
template <class RandomAccessIterator>
constexpr void // constexpr in C++20
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push_heap(RandomAccessIterator first, RandomAccessIterator last);
template <class RandomAccessIterator, class Compare>
constexpr void // constexpr in C++20
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push_heap(RandomAccessIterator first, RandomAccessIterator last, Compare comp);
template <class RandomAccessIterator>
constexpr void // constexpr in C++20
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pop_heap(RandomAccessIterator first, RandomAccessIterator last);
template <class RandomAccessIterator, class Compare>
constexpr void // constexpr in C++20
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pop_heap(RandomAccessIterator first, RandomAccessIterator last, Compare comp);
template <class RandomAccessIterator>
constexpr void // constexpr in C++20
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make_heap(RandomAccessIterator first, RandomAccessIterator last);
template <class RandomAccessIterator, class Compare>
constexpr void // constexpr in C++20
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make_heap(RandomAccessIterator first, RandomAccessIterator last, Compare comp);
template <class RandomAccessIterator>
constexpr void // constexpr in C++20
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sort_heap(RandomAccessIterator first, RandomAccessIterator last);
template <class RandomAccessIterator, class Compare>
constexpr void // constexpr in C++20
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sort_heap(RandomAccessIterator first, RandomAccessIterator last, Compare comp);
template <class RandomAccessIterator>
constexpr bool // constexpr in C++20
is_heap(RandomAccessIterator first, RandomAccessiterator last);
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template <class RandomAccessIterator, class Compare>
constexpr bool // constexpr in C++20
is_heap(RandomAccessIterator first, RandomAccessiterator last, Compare comp);
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template <class RandomAccessIterator>
constexpr RandomAccessIterator // constexpr in C++20
is_heap_until(RandomAccessIterator first, RandomAccessiterator last);
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template <class RandomAccessIterator, class Compare>
constexpr RandomAccessIterator // constexpr in C++20
is_heap_until(RandomAccessIterator first, RandomAccessiterator last, Compare comp);
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template <class ForwardIterator>
constexpr ForwardIterator // constexpr in C++14
min_element(ForwardIterator first, ForwardIterator last);
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template <class ForwardIterator, class Compare>
constexpr ForwardIterator // constexpr in C++14
min_element(ForwardIterator first, ForwardIterator last, Compare comp);
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template <class T>
constexpr const T& // constexpr in C++14
min(const T& a, const T& b);
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template <class T, class Compare>
constexpr const T& // constexpr in C++14
min(const T& a, const T& b, Compare comp);
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template<class T>
constexpr T // constexpr in C++14
min(initializer_list<T> t);
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template<class T, class Compare>
constexpr T // constexpr in C++14
min(initializer_list<T> t, Compare comp);
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template<class T>
constexpr const T& clamp(const T& v, const T& lo, const T& hi); // C++17
template<class T, class Compare>
constexpr const T& clamp(const T& v, const T& lo, const T& hi, Compare comp); // C++17
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template <class ForwardIterator>
constexpr ForwardIterator // constexpr in C++14
max_element(ForwardIterator first, ForwardIterator last);
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template <class ForwardIterator, class Compare>
constexpr ForwardIterator // constexpr in C++14
max_element(ForwardIterator first, ForwardIterator last, Compare comp);
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template <class T>
constexpr const T& // constexpr in C++14
max(const T& a, const T& b);
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template <class T, class Compare>
constexpr const T& // constexpr in C++14
max(const T& a, const T& b, Compare comp);
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template<class T>
constexpr T // constexpr in C++14
max(initializer_list<T> t);
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template<class T, class Compare>
constexpr T // constexpr in C++14
max(initializer_list<T> t, Compare comp);
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template<class ForwardIterator>
constexpr pair<ForwardIterator, ForwardIterator> // constexpr in C++14
minmax_element(ForwardIterator first, ForwardIterator last);
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template<class ForwardIterator, class Compare>
constexpr pair<ForwardIterator, ForwardIterator> // constexpr in C++14
minmax_element(ForwardIterator first, ForwardIterator last, Compare comp);
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template<class T>
constexpr pair<const T&, const T&> // constexpr in C++14
minmax(const T& a, const T& b);
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template<class T, class Compare>
constexpr pair<const T&, const T&> // constexpr in C++14
minmax(const T& a, const T& b, Compare comp);
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template<class T>
constexpr pair<T, T> // constexpr in C++14
minmax(initializer_list<T> t);
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template<class T, class Compare>
constexpr pair<T, T> // constexpr in C++14
minmax(initializer_list<T> t, Compare comp);
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template <class InputIterator1, class InputIterator2>
constexpr bool // constexpr in C++20
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lexicographical_compare(InputIterator1 first1, InputIterator1 last1, InputIterator2 first2, InputIterator2 last2);
template <class InputIterator1, class InputIterator2, class Compare>
constexpr bool // constexpr in C++20
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lexicographical_compare(InputIterator1 first1, InputIterator1 last1,
InputIterator2 first2, InputIterator2 last2, Compare comp);
template <class BidirectionalIterator>
constexpr bool // constexpr in C++20
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next_permutation(BidirectionalIterator first, BidirectionalIterator last);
template <class BidirectionalIterator, class Compare>
constexpr bool // constexpr in C++20
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next_permutation(BidirectionalIterator first, BidirectionalIterator last, Compare comp);
template <class BidirectionalIterator>
constexpr bool // constexpr in C++20
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prev_permutation(BidirectionalIterator first, BidirectionalIterator last);
template <class BidirectionalIterator, class Compare>
constexpr bool // constexpr in C++20
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prev_permutation(BidirectionalIterator first, BidirectionalIterator last, Compare comp);
} // std
*/
#include <__assert> // all public C++ headers provide the assertion handler
#include <__bits>
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#include <__config>
#include <__debug>
#include <cstddef>
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#include <cstring>
#include <memory>
#include <type_traits>
#include <version>
#include <__algorithm/adjacent_find.h>
#include <__algorithm/all_of.h>
#include <__algorithm/any_of.h>
#include <__algorithm/binary_search.h>
#include <__algorithm/clamp.h>
#include <__algorithm/comp.h>
#include <__algorithm/comp_ref_type.h>
#include <__algorithm/copy.h>
#include <__algorithm/copy_backward.h>
#include <__algorithm/copy_if.h>
#include <__algorithm/copy_n.h>
#include <__algorithm/count.h>
#include <__algorithm/count_if.h>
#include <__algorithm/equal.h>
#include <__algorithm/equal_range.h>
#include <__algorithm/fill.h>
#include <__algorithm/fill_n.h>
#include <__algorithm/find.h>
#include <__algorithm/find_end.h>
#include <__algorithm/find_first_of.h>
#include <__algorithm/find_if.h>
#include <__algorithm/find_if_not.h>
#include <__algorithm/for_each.h>
#include <__algorithm/for_each_n.h>
#include <__algorithm/generate.h>
#include <__algorithm/generate_n.h>
#include <__algorithm/half_positive.h>
#include <__algorithm/in_found_result.h>
#include <__algorithm/in_fun_result.h>
#include <__algorithm/in_in_out_result.h>
#include <__algorithm/in_in_result.h>
#include <__algorithm/in_out_out_result.h>
#include <__algorithm/in_out_result.h>
#include <__algorithm/includes.h>
#include <__algorithm/inplace_merge.h>
#include <__algorithm/is_heap.h>
#include <__algorithm/is_heap_until.h>
#include <__algorithm/is_partitioned.h>
#include <__algorithm/is_permutation.h>
#include <__algorithm/is_sorted.h>
#include <__algorithm/is_sorted_until.h>
#include <__algorithm/iter_swap.h>
#include <__algorithm/lexicographical_compare.h>
#include <__algorithm/lower_bound.h>
#include <__algorithm/make_heap.h>
#include <__algorithm/max.h>
#include <__algorithm/max_element.h>
#include <__algorithm/merge.h>
#include <__algorithm/min.h>
#include <__algorithm/min_element.h>
#include <__algorithm/min_max_result.h>
#include <__algorithm/minmax.h>
#include <__algorithm/minmax_element.h>
#include <__algorithm/mismatch.h>
#include <__algorithm/move.h>
#include <__algorithm/move_backward.h>
#include <__algorithm/next_permutation.h>
#include <__algorithm/none_of.h>
#include <__algorithm/nth_element.h>
#include <__algorithm/partial_sort.h>
#include <__algorithm/partial_sort_copy.h>
#include <__algorithm/partition.h>
#include <__algorithm/partition_copy.h>
#include <__algorithm/partition_point.h>
#include <__algorithm/pop_heap.h>
#include <__algorithm/prev_permutation.h>
#include <__algorithm/push_heap.h>
#include <__algorithm/ranges_adjacent_find.h>
#include <__algorithm/ranges_all_of.h>
#include <__algorithm/ranges_any_of.h>
#include <__algorithm/ranges_binary_search.h>
#include <__algorithm/ranges_copy.h>
#include <__algorithm/ranges_copy_backward.h>
#include <__algorithm/ranges_copy_if.h>
#include <__algorithm/ranges_copy_n.h>
#include <__algorithm/ranges_count.h>
#include <__algorithm/ranges_count_if.h>
#include <__algorithm/ranges_equal.h>
#include <__algorithm/ranges_fill.h>
#include <__algorithm/ranges_fill_n.h>
#include <__algorithm/ranges_find.h>
#include <__algorithm/ranges_find_end.h>
#include <__algorithm/ranges_find_first_of.h>
#include <__algorithm/ranges_find_if.h>
#include <__algorithm/ranges_find_if_not.h>
#include <__algorithm/ranges_for_each.h>
#include <__algorithm/ranges_for_each_n.h>
#include <__algorithm/ranges_is_partitioned.h>
#include <__algorithm/ranges_is_sorted.h>
#include <__algorithm/ranges_is_sorted_until.h>
#include <__algorithm/ranges_lexicographical_compare.h>
#include <__algorithm/ranges_lower_bound.h>
#include <__algorithm/ranges_make_heap.h>
#include <__algorithm/ranges_max.h>
#include <__algorithm/ranges_max_element.h>
#include <__algorithm/ranges_merge.h>
#include <__algorithm/ranges_min.h>
#include <__algorithm/ranges_min_element.h>
#include <__algorithm/ranges_minmax.h>
#include <__algorithm/ranges_minmax_element.h>
#include <__algorithm/ranges_mismatch.h>
#include <__algorithm/ranges_move.h>
#include <__algorithm/ranges_move_backward.h>
#include <__algorithm/ranges_none_of.h>
#include <__algorithm/ranges_nth_element.h>
#include <__algorithm/ranges_pop_heap.h>
#include <__algorithm/ranges_push_heap.h>
#include <__algorithm/ranges_remove.h>
#include <__algorithm/ranges_remove_if.h>
#include <__algorithm/ranges_replace.h>
#include <__algorithm/ranges_replace_if.h>
#include <__algorithm/ranges_reverse.h>
#include <__algorithm/ranges_reverse_copy.h>
#include <__algorithm/ranges_rotate_copy.h>
#include <__algorithm/ranges_search.h>
#include <__algorithm/ranges_search_n.h>
#include <__algorithm/ranges_set_difference.h>
#include <__algorithm/ranges_set_intersection.h>
#include <__algorithm/ranges_set_symmetric_difference.h>
#include <__algorithm/ranges_set_union.h>
#include <__algorithm/ranges_sort.h>
#include <__algorithm/ranges_sort_heap.h>
#include <__algorithm/ranges_stable_sort.h>
#include <__algorithm/ranges_swap_ranges.h>
#include <__algorithm/ranges_transform.h>
#include <__algorithm/ranges_upper_bound.h>
#include <__algorithm/remove.h>
#include <__algorithm/remove_copy.h>
#include <__algorithm/remove_copy_if.h>
#include <__algorithm/remove_if.h>
#include <__algorithm/replace.h>
#include <__algorithm/replace_copy.h>
#include <__algorithm/replace_copy_if.h>
#include <__algorithm/replace_if.h>
#include <__algorithm/reverse.h>
#include <__algorithm/reverse_copy.h>
#include <__algorithm/rotate.h>
#include <__algorithm/rotate_copy.h>
#include <__algorithm/sample.h>
#include <__algorithm/search.h>
#include <__algorithm/search_n.h>
#include <__algorithm/set_difference.h>
#include <__algorithm/set_intersection.h>
#include <__algorithm/set_symmetric_difference.h>
#include <__algorithm/set_union.h>
#include <__algorithm/shift_left.h>
#include <__algorithm/shift_right.h>
#include <__algorithm/shuffle.h>
#include <__algorithm/sift_down.h>
#include <__algorithm/sort.h>
#include <__algorithm/sort_heap.h>
#include <__algorithm/stable_partition.h>
#include <__algorithm/stable_sort.h>
#include <__algorithm/swap_ranges.h>
#include <__algorithm/transform.h>
#include <__algorithm/unique.h>
#include <__algorithm/unique_copy.h>
#include <__algorithm/unwrap_iter.h>
#include <__algorithm/upper_bound.h>
[libc++] Re-add transitive includes that had been removed since LLVM 14 This commit re-adds transitive includes that had been removed by 4cd04d1687f1, c36870c8e79c, a83f4b9cda57, 1458458b558d, 2e2f3158c604, and 489637e66dd3. This should cover almost all the includes that had been removed since LLVM 14 and that would contribute to breaking user code when releasing LLVM 15. It is possible to disable the inclusion of these headers by defining _LIBCPP_REMOVE_TRANSITIVE_INCLUDES. The intent is that vendors will enable that macro and start fixing downstream issues immediately. We can then remove the macro (and the transitive includes) by default in a future release. That way, we will break users only once by removing transitive includes in bulk instead of doing it bit by bit a every release, which is more disruptive for users. Note 1: The set of headers to re-add was found by re-generating the transitive include test on a checkout of release/14.x, which provided the list of all transitive includes we used to provide. Note 2: Several includes of <vector>, <optional>, <array> and <unordered_map> have been added in this commit. These transitive inclusions were added when we implemented boyer_moore_searcher in <functional>. Note 3: This is a best effort patch to try and resolve downstream breakage caused since branching LLVM 14. I wasn't able to perfectly mirror transitive includes in LLVM 14 for a few headers, so I added a release note explaining it. To summarize, adding boyer_moore_searcher created a bunch of circular dependencies, so we have to break backwards compatibility in a few cases. Differential Revision: https://reviews.llvm.org/D128661
2022-06-28 03:53:41 +08:00
#ifndef _LIBCPP_REMOVE_TRANSITIVE_INCLUDES
# include <chrono>
# include <iterator>
# include <utility>
#endif
// standard-mandated includes
#include <initializer_list>
#if !defined(_LIBCPP_HAS_NO_PRAGMA_SYSTEM_HEADER)
# pragma GCC system_header
#endif
2010-05-12 03:42:16 +08:00
#if defined(_LIBCPP_HAS_PARALLEL_ALGORITHMS) && _LIBCPP_STD_VER >= 17
# include <__pstl_algorithm>
#endif
#endif // _LIBCPP_ALGORITHM