advance.h source code [llvm_runtimes/build/include/c++/v1/__iterator/advance.h]

1	// -- C++ --
2	//===----------------------------------------------------------------------===//
3	//
4	// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
5	// See https://llvm.org/LICENSE.txt for license information.
6	// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
7	//
8	//===----------------------------------------------------------------------===//
9
10	#ifndef _LIBCPP___ITERATOR_ADVANCE_H
11	#define _LIBCPP___ITERATOR_ADVANCE_H
12
13	#include <__assert>
14	#include <__concepts/assignable.h>
15	#include <__concepts/same_as.h>
16	#include <__config>
17	#include <__iterator/concepts.h>
18	#include <__iterator/incrementable_traits.h>
19	#include <__iterator/iterator_traits.h>
20	#include <__type_traits/enable_if.h>
21	#include <__type_traits/is_integral.h>
22	#include <__utility/convert_to_integral.h>
23	#include <__utility/declval.h>
24	#include <__utility/move.h>
25	#include <__utility/unreachable.h>
26	#include <limits>
27
28	#if !defined(_LIBCPP_HAS_NO_PRAGMA_SYSTEM_HEADER)
29	# pragma GCC system_header
30	#endif
31
32	_LIBCPP_PUSH_MACROS
33	#include <__undef_macros>
34
35	_LIBCPP_BEGIN_NAMESPACE_STD
36
37	template <class _InputIter>
38	_LIBCPP_HIDE_FROM_ABI _LIBCPP_CONSTEXPR_SINCE_CXX17 void
39	__advance(_InputIter& __i, typename iterator_traits<_InputIter>::difference_type __n, input_iterator_tag) {
40	for (; __n > `0`; --__n)
41	++__i;
42	}
43
44	template <class _BiDirIter>
45	_LIBCPP_HIDE_FROM_ABI _LIBCPP_CONSTEXPR_SINCE_CXX17 void
46	__advance(_BiDirIter& __i, typename iterator_traits<_BiDirIter>::difference_type __n, bidirectional_iterator_tag) {
47	if (__n >= `0`)
48	for (; __n > `0`; --__n)
49	++__i;
50	else
51	for (; __n < `0`; ++__n)
52	--__i;
53	}
54
55	template <class _RandIter>
56	_LIBCPP_HIDE_FROM_ABI _LIBCPP_CONSTEXPR_SINCE_CXX17 void
57	__advance(_RandIter& __i, typename iterator_traits<_RandIter>::difference_type __n, random_access_iterator_tag) {
58	__i += __n;
59	}
60
61	template < class _InputIter,
62	class _Distance,
63	class _IntegralDistance = decltype(std::__convert_to_integral(std::declval<_Distance>())),
64	__enable_if_t<is_integral<_IntegralDistance>::value, int> = `0`>
65	_LIBCPP_HIDE_FROM_ABI _LIBCPP_CONSTEXPR_SINCE_CXX17 void advance(_InputIter& __i, _Distance __orig_n) {
66	typedef typename iterator_traits<_InputIter>::difference_type _Difference;
67	_Difference __n = static_cast<_Difference>(std::__convert_to_integral(__orig_n));
68	// Calling `advance` with a negative value on a non-bidirectional iterator is a no-op in the current implementation.
69	_LIBCPP_ASSERT_PEDANTIC(__n >= `0` \|\| __has_bidirectional_iterator_category<_InputIter>::value,
70	"Attempt to advance(it, n) with negative n on a non-bidirectional iterator");
71	std::__advance(__i, __n, typename iterator_traits<_InputIter>::iterator_category());
72	}
73
74	#if _LIBCPP_STD_VER >= 20
75
76	// [range.iter.op.advance]
77
78	namespace ranges {
79	namespace __advance {
80
81	struct __fn {
82	private:
83	template <class _Ip>
84	_LIBCPP_HIDE_FROM_ABI static constexpr void __advance_forward(_Ip& __i, iter_difference_t<_Ip> __n) {
85	while (__n > `0`) {
86	--__n;
87	++__i;
88	}
89	}
90
91	template <class _Ip>
92	_LIBCPP_HIDE_FROM_ABI static constexpr void __advance_backward(_Ip& __i, iter_difference_t<_Ip> __n) {
93	while (__n < `0`) {
94	++__n;
95	--__i;
96	}
97	}
98
99	public:
100	// Preconditions: If `I` does not model `bidirectional_iterator`, `n` is not negative.
101	template <input_or_output_iterator _Ip>
102	_LIBCPP_HIDE_FROM_ABI constexpr void operator()(_Ip& __i, iter_difference_t<_Ip> __n) const {
103	// Calling `advance` with a negative value on a non-bidirectional iterator is a no-op in the current implementation.
104	_LIBCPP_ASSERT_PEDANTIC(
105	__n >= `0` \|\| bidirectional_iterator<_Ip>, "If `n < 0`, then `bidirectional_iterator<I>` must be true.");
106
107	// If `I` models `random_access_iterator`, equivalent to `i += n`.
108	if constexpr (random_access_iterator<_Ip>) {
109	__i += __n;
110	return;
111	} else if constexpr (bidirectional_iterator<_Ip>) {
112	// Otherwise, if `n` is non-negative, increments `i` by `n`.
113	__advance_forward(__i, __n);
114	// Otherwise, decrements `i` by `-n`.
115	__advance_backward(__i, __n);
116	return;
117	} else {
118	// Otherwise, if `n` is non-negative, increments `i` by `n`.
119	__advance_forward(__i, __n);
120	return;
121	}
122	}
123
124	// Preconditions: Either `assignable_from<I&, S> \|\| sized_sentinel_for<S, I>` is modeled, or [i, bound_sentinel)
125	// denotes a range.
126	template <input_or_output_iterator _Ip, sentinel_for<_Ip> _Sp>
127	_LIBCPP_HIDE_FROM_ABI constexpr void operator()(_Ip& __i, _Sp __bound_sentinel) const {
128	// If `I` and `S` model `assignable_from<I&, S>`, equivalent to `i = std::move(bound_sentinel)`.
129	if constexpr (assignable_from<_Ip&, _Sp>) {
130	__i = std::move(__bound_sentinel);
131	}
132	// Otherwise, if `S` and `I` model `sized_sentinel_for<S, I>`, equivalent to `ranges::advance(i, bound_sentinel -
133	// i)`.
134	else if constexpr (sized_sentinel_for<_Sp, _Ip>) {
135	(*this)(__i, __bound_sentinel - __i);
136	}
137	// Otherwise, while `bool(i != bound_sentinel)` is true, increments `i`.
138	else {
139	while (__i != __bound_sentinel) {
140	++__i;
141	}
142	}
143	}
144
145	// Preconditions:
146	// If `n > 0`, [i, bound_sentinel) denotes a range.*
147	// If `n == 0`, [i, bound_sentinel) or [bound_sentinel, i) denotes a range.*
148	// If `n < 0`, [bound_sentinel, i) denotes a range, `I` models `bidirectional_iterator`, and `I` and `S` model*
149	// `same_as<I, S>`.
150	// Returns: `n - M`, where `M` is the difference between the ending and starting position.
151	template <input_or_output_iterator _Ip, sentinel_for<_Ip> _Sp>
152	_LIBCPP_HIDE_FROM_ABI constexpr iter_difference_t<_Ip>
153	operator()(_Ip& __i, iter_difference_t<_Ip> __n, _Sp __bound_sentinel) const {
154	// Calling `advance` with a negative value on a non-bidirectional iterator is a no-op in the current implementation.
155	_LIBCPP_ASSERT_PEDANTIC((__n >= `0`) \|\| (bidirectional_iterator<_Ip> && same_as<_Ip, _Sp>),
156	"If `n < 0`, then `bidirectional_iterator<I> && same_as<I, S>` must be true.");
157	// If `S` and `I` model `sized_sentinel_for<S, I>`:
158	if constexpr (sized_sentinel_for<_Sp, _Ip>) {
159	// If \|n\| >= \|bound_sentinel - i\|, equivalent to `ranges::advance(i, bound_sentinel)`.
160	// __magnitude_geq(a, b) returns \|a\| >= \|b\|, assuming they have the same sign.
161	auto __magnitude_geq = [](auto __a, auto __b) { return __a == `0` ? __b == `0` : __a > `0` ? __a >= __b : __a <= __b; };
162	if (const auto __m = __bound_sentinel - __i; __magnitude_geq(__n, __m)) {
163	(*this)(__i, __bound_sentinel);
164	return __n - __m;
165	}
166
167	// Otherwise, equivalent to `ranges::advance(i, n)`.
168	(*this)(__i, __n);
169	return `0`;
170	} else {
171	// Otherwise, if `n` is non-negative, while `bool(i != bound_sentinel)` is true, increments `i` but at
172	// most `n` times.
173	while (__n > `0` && __i != __bound_sentinel) {
174	++__i;
175	--__n;
176	}
177
178	// Otherwise, while `bool(i != bound_sentinel)` is true, decrements `i` but at most `-n` times.
179	if constexpr (bidirectional_iterator<_Ip> && same_as<_Ip, _Sp>) {
180	while (__n < `0` && __i != __bound_sentinel) {
181	--__i;
182	++__n;
183	}
184	}
185	return __n;
186	}
187
188	__libcpp_unreachable();
189	}
190	};
191
192	} // namespace __advance
193
194	inline namespace __cpo {
195	inline constexpr auto advance = __advance::__fn{};
196	} // namespace __cpo
197	} // namespace ranges
198
199	#endif // _LIBCPP_STD_VER >= 20
200
201	_LIBCPP_END_NAMESPACE_STD
202
203	_LIBCPP_POP_MACROS
204
205	#endif // _LIBCPP___ITERATOR_ADVANCE_H
206

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