libstdc++
iterator_concepts.h
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1 // Concepts and traits for use with iterators -*- C++ -*-
2 
3 // Copyright (C) 2019-2021 Free Software Foundation, Inc.
4 //
5 // This file is part of the GNU ISO C++ Library. This library is free
6 // software; you can redistribute it and/or modify it under the
7 // terms of the GNU General Public License as published by the
8 // Free Software Foundation; either version 3, or (at your option)
9 // any later version.
10 
11 // This library is distributed in the hope that it will be useful,
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14 // GNU General Public License for more details.
15 
16 // Under Section 7 of GPL version 3, you are granted additional
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18 // 3.1, as published by the Free Software Foundation.
19 
20 // You should have received a copy of the GNU General Public License and
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22 // see the files COPYING3 and COPYING.RUNTIME respectively. If not, see
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24 
25 /** @file bits/iterator_concepts.h
26  * This is an internal header file, included by other library headers.
27  * Do not attempt to use it directly. @headername{iterator}
28  */
29 
30 #ifndef _ITERATOR_CONCEPTS_H
31 #define _ITERATOR_CONCEPTS_H 1
32 
33 #pragma GCC system_header
34 
35 #include <concepts>
36 #include <bits/ptr_traits.h> // to_address
37 #include <bits/ranges_cmp.h> // identity, ranges::less
38 
39 #if __cpp_lib_concepts
40 namespace std _GLIBCXX_VISIBILITY(default)
41 {
42 _GLIBCXX_BEGIN_NAMESPACE_VERSION
43 
44  struct input_iterator_tag;
45  struct output_iterator_tag;
46  struct forward_iterator_tag;
47  struct bidirectional_iterator_tag;
48  struct random_access_iterator_tag;
49  struct contiguous_iterator_tag;
50 
51  template<typename _Iterator>
52  struct iterator_traits;
53 
54  template<typename _Tp> requires is_object_v<_Tp>
55  struct iterator_traits<_Tp*>;
56 
57  template<typename _Iterator, typename>
58  struct __iterator_traits;
59 
60  namespace __detail
61  {
62  template<typename _Tp>
63  using __with_ref = _Tp&;
64 
65  template<typename _Tp>
66  concept __can_reference = requires { typename __with_ref<_Tp>; };
67 
68  template<typename _Tp>
69  concept __dereferenceable = requires(_Tp& __t)
70  {
71  { *__t } -> __can_reference;
72  };
73  } // namespace __detail
74 
75  template<__detail::__dereferenceable _Tp>
76  using iter_reference_t = decltype(*std::declval<_Tp&>());
77 
78  namespace ranges
79  {
80  namespace __cust_imove
81  {
82  void iter_move();
83 
84  template<typename _Tp>
85  concept __adl_imove
86  = (std::__detail::__class_or_enum<remove_reference_t<_Tp>>)
87  && requires(_Tp&& __t) { iter_move(static_cast<_Tp&&>(__t)); };
88 
89  struct _IMove
90  {
91  private:
92  template<typename _Tp>
93  struct __result
94  { using type = iter_reference_t<_Tp>; };
95 
96  template<typename _Tp>
97  requires __adl_imove<_Tp>
98  struct __result<_Tp>
99  { using type = decltype(iter_move(std::declval<_Tp>())); };
100 
101  template<typename _Tp>
102  requires (!__adl_imove<_Tp>)
103  && is_lvalue_reference_v<iter_reference_t<_Tp>>
104  struct __result<_Tp>
105  { using type = remove_reference_t<iter_reference_t<_Tp>>&&; };
106 
107  template<typename _Tp>
108  static constexpr bool
109  _S_noexcept()
110  {
111  if constexpr (__adl_imove<_Tp>)
112  return noexcept(iter_move(std::declval<_Tp>()));
113  else
114  return noexcept(*std::declval<_Tp>());
115  }
116 
117  public:
118  // The result type of iter_move(std::declval<_Tp>())
119  template<std::__detail::__dereferenceable _Tp>
120  using __type = typename __result<_Tp>::type;
121 
122  template<std::__detail::__dereferenceable _Tp>
123  constexpr __type<_Tp>
124  operator()(_Tp&& __e) const
125  noexcept(_S_noexcept<_Tp>())
126  {
127  if constexpr (__adl_imove<_Tp>)
128  return iter_move(static_cast<_Tp&&>(__e));
129  else if constexpr (is_lvalue_reference_v<iter_reference_t<_Tp>>)
130  return static_cast<__type<_Tp>>(*__e);
131  else
132  return *__e;
133  }
134  };
135  } // namespace __cust_imove
136 
137  inline namespace __cust
138  {
139  inline constexpr __cust_imove::_IMove iter_move{};
140  } // inline namespace __cust
141  } // namespace ranges
142 
143  template<__detail::__dereferenceable _Tp>
144  requires __detail::
145  __can_reference<ranges::__cust_imove::_IMove::__type<_Tp&>>
146  using iter_rvalue_reference_t
147  = ranges::__cust_imove::_IMove::__type<_Tp&>;
148 
149  template<typename> struct incrementable_traits { };
150 
151  template<typename _Tp> requires is_object_v<_Tp>
152  struct incrementable_traits<_Tp*>
153  { using difference_type = ptrdiff_t; };
154 
155  template<typename _Iter>
156  struct incrementable_traits<const _Iter>
157  : incrementable_traits<_Iter> { };
158 
159  template<typename _Tp> requires requires { typename _Tp::difference_type; }
160  struct incrementable_traits<_Tp>
161  { using difference_type = typename _Tp::difference_type; };
162 
163  template<typename _Tp>
164  requires (!requires { typename _Tp::difference_type; }
165  && requires(const _Tp& __a, const _Tp& __b)
166  { { __a - __b } -> integral; })
167  struct incrementable_traits<_Tp>
168  {
169  using difference_type
170  = make_signed_t<decltype(std::declval<_Tp>() - std::declval<_Tp>())>;
171  };
172 
173 #if defined __STRICT_ANSI__ && defined __SIZEOF_INT128__
174  // __int128 is incrementable even if !integral<__int128>
175  template<>
176  struct incrementable_traits<__int128>
177  { using difference_type = __int128; };
178 
179  template<>
180  struct incrementable_traits<unsigned __int128>
181  { using difference_type = __int128; };
182 #endif
183 
184  namespace __detail
185  {
186  // An iterator such that iterator_traits<_Iter> names a specialization
187  // generated from the primary template.
188  template<typename _Iter>
189  concept __primary_traits_iter
190  = __is_base_of(__iterator_traits<_Iter, void>, iterator_traits<_Iter>);
191 
192  template<typename _Iter, typename _Tp>
193  struct __iter_traits_impl
194  { using type = iterator_traits<_Iter>; };
195 
196  template<typename _Iter, typename _Tp>
197  requires __primary_traits_iter<_Iter>
198  struct __iter_traits_impl<_Iter, _Tp>
199  { using type = _Tp; };
200 
201  // ITER_TRAITS
202  template<typename _Iter, typename _Tp = _Iter>
203  using __iter_traits = typename __iter_traits_impl<_Iter, _Tp>::type;
204 
205  template<typename _Tp>
206  using __iter_diff_t = typename
207  __iter_traits<_Tp, incrementable_traits<_Tp>>::difference_type;
208  } // namespace __detail
209 
210  template<typename _Tp>
211  using iter_difference_t = __detail::__iter_diff_t<remove_cvref_t<_Tp>>;
212 
213  namespace __detail
214  {
215  template<typename> struct __cond_value_type { };
216 
217  template<typename _Tp> requires is_object_v<_Tp>
218  struct __cond_value_type<_Tp>
219  { using value_type = remove_cv_t<_Tp>; };
220 
221  template<typename _Tp>
222  concept __has_member_value_type
223  = requires { typename _Tp::value_type; };
224 
225  template<typename _Tp>
226  concept __has_member_element_type
227  = requires { typename _Tp::element_type; };
228 
229  } // namespace __detail
230 
231  template<typename> struct indirectly_readable_traits { };
232 
233  template<typename _Tp>
234  struct indirectly_readable_traits<_Tp*>
235  : __detail::__cond_value_type<_Tp>
236  { };
237 
238  template<typename _Iter> requires is_array_v<_Iter>
239  struct indirectly_readable_traits<_Iter>
240  { using value_type = remove_cv_t<remove_extent_t<_Iter>>; };
241 
242  template<typename _Iter>
243  struct indirectly_readable_traits<const _Iter>
244  : indirectly_readable_traits<_Iter>
245  { };
246 
247  template<__detail::__has_member_value_type _Tp>
248  struct indirectly_readable_traits<_Tp>
249  : __detail::__cond_value_type<typename _Tp::value_type>
250  { };
251 
252  template<__detail::__has_member_element_type _Tp>
253  struct indirectly_readable_traits<_Tp>
254  : __detail::__cond_value_type<typename _Tp::element_type>
255  { };
256 
257  // _GLIBCXX_RESOLVE_LIB_DEFECTS
258  // 3446. indirectly_readable_traits ambiguity for types with both [...]
259  template<__detail::__has_member_value_type _Tp>
260  requires __detail::__has_member_element_type<_Tp>
261  && same_as<remove_cv_t<typename _Tp::element_type>,
262  remove_cv_t<typename _Tp::value_type>>
263  struct indirectly_readable_traits<_Tp>
264  : __detail::__cond_value_type<typename _Tp::value_type>
265  { };
266 
267  // _GLIBCXX_RESOLVE_LIB_DEFECTS
268  // 3541. indirectly_readable_traits should be SFINAE-friendly for all types
269  template<__detail::__has_member_value_type _Tp>
270  requires __detail::__has_member_element_type<_Tp>
271  struct indirectly_readable_traits<_Tp>
272  { };
273 
274  namespace __detail
275  {
276  template<typename _Tp>
277  using __iter_value_t = typename
278  __iter_traits<_Tp, indirectly_readable_traits<_Tp>>::value_type;
279  } // namespace __detail
280 
281  template<typename _Tp>
282  using iter_value_t = __detail::__iter_value_t<remove_cvref_t<_Tp>>;
283 
284  namespace __detail
285  {
286  // _GLIBCXX_RESOLVE_LIB_DEFECTS
287  // 3420. cpp17-iterator should check [type] looks like an iterator first
288  template<typename _Iter>
289  concept __cpp17_iterator = requires(_Iter __it)
290  {
291  { *__it } -> __can_reference;
292  { ++__it } -> same_as<_Iter&>;
293  { *__it++ } -> __can_reference;
294  } && copyable<_Iter>;
295 
296  template<typename _Iter>
297  concept __cpp17_input_iterator = __cpp17_iterator<_Iter>
298  && equality_comparable<_Iter>
299  && requires(_Iter __it)
300  {
301  typename incrementable_traits<_Iter>::difference_type;
302  typename indirectly_readable_traits<_Iter>::value_type;
303  typename common_reference_t<iter_reference_t<_Iter>&&,
304  typename indirectly_readable_traits<_Iter>::value_type&>;
305  typename common_reference_t<decltype(*__it++)&&,
306  typename indirectly_readable_traits<_Iter>::value_type&>;
307  requires signed_integral<
308  typename incrementable_traits<_Iter>::difference_type>;
309  };
310 
311  template<typename _Iter>
312  concept __cpp17_fwd_iterator = __cpp17_input_iterator<_Iter>
313  && constructible_from<_Iter>
314  && is_lvalue_reference_v<iter_reference_t<_Iter>>
315  && same_as<remove_cvref_t<iter_reference_t<_Iter>>,
316  typename indirectly_readable_traits<_Iter>::value_type>
317  && requires(_Iter __it)
318  {
319  { __it++ } -> convertible_to<const _Iter&>;
320  { *__it++ } -> same_as<iter_reference_t<_Iter>>;
321  };
322 
323  template<typename _Iter>
324  concept __cpp17_bidi_iterator = __cpp17_fwd_iterator<_Iter>
325  && requires(_Iter __it)
326  {
327  { --__it } -> same_as<_Iter&>;
328  { __it-- } -> convertible_to<const _Iter&>;
329  { *__it-- } -> same_as<iter_reference_t<_Iter>>;
330  };
331 
332  template<typename _Iter>
333  concept __cpp17_randacc_iterator = __cpp17_bidi_iterator<_Iter>
334  && totally_ordered<_Iter>
335  && requires(_Iter __it,
336  typename incrementable_traits<_Iter>::difference_type __n)
337  {
338  { __it += __n } -> same_as<_Iter&>;
339  { __it -= __n } -> same_as<_Iter&>;
340  { __it + __n } -> same_as<_Iter>;
341  { __n + __it } -> same_as<_Iter>;
342  { __it - __n } -> same_as<_Iter>;
343  { __it - __it } -> same_as<decltype(__n)>;
344  { __it[__n] } -> convertible_to<iter_reference_t<_Iter>>;
345  };
346 
347  template<typename _Iter>
348  concept __iter_with_nested_types = requires {
349  typename _Iter::iterator_category;
350  typename _Iter::value_type;
351  typename _Iter::difference_type;
352  typename _Iter::reference;
353  };
354 
355  template<typename _Iter>
356  concept __iter_without_nested_types = !__iter_with_nested_types<_Iter>;
357 
358  template<typename _Iter>
359  concept __iter_without_category
360  = !requires { typename _Iter::iterator_category; };
361 
362  } // namespace __detail
363 
364  template<typename _Iterator>
365  requires __detail::__iter_with_nested_types<_Iterator>
366  struct __iterator_traits<_Iterator, void>
367  {
368  private:
369  template<typename _Iter>
370  struct __ptr
371  { using type = void; };
372 
373  template<typename _Iter> requires requires { typename _Iter::pointer; }
374  struct __ptr<_Iter>
375  { using type = typename _Iter::pointer; };
376 
377  public:
378  using iterator_category = typename _Iterator::iterator_category;
379  using value_type = typename _Iterator::value_type;
380  using difference_type = typename _Iterator::difference_type;
381  using pointer = typename __ptr<_Iterator>::type;
382  using reference = typename _Iterator::reference;
383  };
384 
385  template<typename _Iterator>
386  requires __detail::__iter_without_nested_types<_Iterator>
387  && __detail::__cpp17_input_iterator<_Iterator>
388  struct __iterator_traits<_Iterator, void>
389  {
390  private:
391  template<typename _Iter>
392  struct __cat
393  { using type = input_iterator_tag; };
394 
395  template<typename _Iter>
396  requires requires { typename _Iter::iterator_category; }
397  struct __cat<_Iter>
398  { using type = typename _Iter::iterator_category; };
399 
400  template<typename _Iter>
401  requires __detail::__iter_without_category<_Iter>
402  && __detail::__cpp17_randacc_iterator<_Iter>
403  struct __cat<_Iter>
404  { using type = random_access_iterator_tag; };
405 
406  template<typename _Iter>
407  requires __detail::__iter_without_category<_Iter>
408  && __detail::__cpp17_bidi_iterator<_Iter>
409  struct __cat<_Iter>
410  { using type = bidirectional_iterator_tag; };
411 
412  template<typename _Iter>
413  requires __detail::__iter_without_category<_Iter>
414  && __detail::__cpp17_fwd_iterator<_Iter>
415  struct __cat<_Iter>
416  { using type = forward_iterator_tag; };
417 
418  template<typename _Iter>
419  struct __ptr
420  { using type = void; };
421 
422  template<typename _Iter> requires requires { typename _Iter::pointer; }
423  struct __ptr<_Iter>
424  { using type = typename _Iter::pointer; };
425 
426  template<typename _Iter>
427  requires (!requires { typename _Iter::pointer; }
428  && requires(_Iter& __it) { __it.operator->(); })
429  struct __ptr<_Iter>
430  { using type = decltype(std::declval<_Iter&>().operator->()); };
431 
432  template<typename _Iter>
433  struct __ref
434  { using type = iter_reference_t<_Iter>; };
435 
436  template<typename _Iter> requires requires { typename _Iter::reference; }
437  struct __ref<_Iter>
438  { using type = typename _Iter::reference; };
439 
440  public:
441  using iterator_category = typename __cat<_Iterator>::type;
442  using value_type
443  = typename indirectly_readable_traits<_Iterator>::value_type;
444  using difference_type
445  = typename incrementable_traits<_Iterator>::difference_type;
446  using pointer = typename __ptr<_Iterator>::type;
447  using reference = typename __ref<_Iterator>::type;
448  };
449 
450  template<typename _Iterator>
451  requires __detail::__iter_without_nested_types<_Iterator>
452  && __detail::__cpp17_iterator<_Iterator>
453  struct __iterator_traits<_Iterator, void>
454  {
455  private:
456  template<typename _Iter>
457  struct __diff
458  { using type = void; };
459 
460  template<typename _Iter>
461  requires requires
462  { typename incrementable_traits<_Iter>::difference_type; }
463  struct __diff<_Iter>
464  {
465  using type = typename incrementable_traits<_Iter>::difference_type;
466  };
467 
468  public:
469  using iterator_category = output_iterator_tag;
470  using value_type = void;
471  using difference_type = typename __diff<_Iterator>::type;
472  using pointer = void;
473  using reference = void;
474  };
475 
476  namespace __detail
477  {
478  template<typename _Iter>
479  struct __iter_concept_impl;
480 
481  // ITER_CONCEPT(I) is ITER_TRAITS(I)::iterator_concept if that is valid.
482  template<typename _Iter>
483  requires requires { typename __iter_traits<_Iter>::iterator_concept; }
484  struct __iter_concept_impl<_Iter>
485  { using type = typename __iter_traits<_Iter>::iterator_concept; };
486 
487  // Otherwise, ITER_TRAITS(I)::iterator_category if that is valid.
488  template<typename _Iter>
489  requires (!requires { typename __iter_traits<_Iter>::iterator_concept; }
490  && requires { typename __iter_traits<_Iter>::iterator_category; })
491  struct __iter_concept_impl<_Iter>
492  { using type = typename __iter_traits<_Iter>::iterator_category; };
493 
494  // Otherwise, random_access_tag if iterator_traits<I> is not specialized.
495  template<typename _Iter>
496  requires (!requires { typename __iter_traits<_Iter>::iterator_concept; }
497  && !requires { typename __iter_traits<_Iter>::iterator_category; }
498  && __primary_traits_iter<_Iter>)
499  struct __iter_concept_impl<_Iter>
500  { using type = random_access_iterator_tag; };
501 
502  // Otherwise, there is no ITER_CONCEPT(I) type.
503  template<typename _Iter>
504  struct __iter_concept_impl
505  { };
506 
507  // ITER_CONCEPT
508  template<typename _Iter>
509  using __iter_concept = typename __iter_concept_impl<_Iter>::type;
510 
511  template<typename _In>
512  concept __indirectly_readable_impl = requires
513  {
514  typename iter_value_t<_In>;
515  typename iter_reference_t<_In>;
516  typename iter_rvalue_reference_t<_In>;
517  requires same_as<iter_reference_t<const _In>,
518  iter_reference_t<_In>>;
519  requires same_as<iter_rvalue_reference_t<const _In>,
520  iter_rvalue_reference_t<_In>>;
521  }
522  && common_reference_with<iter_reference_t<_In>&&, iter_value_t<_In>&>
523  && common_reference_with<iter_reference_t<_In>&&,
524  iter_rvalue_reference_t<_In>&&>
525  && common_reference_with<iter_rvalue_reference_t<_In>&&,
526  const iter_value_t<_In>&>;
527 
528  } // namespace __detail
529 
530  /// Requirements for types that are readable by applying operator*.
531  template<typename _In>
532  concept indirectly_readable
533  = __detail::__indirectly_readable_impl<remove_cvref_t<_In>>;
534 
535  template<indirectly_readable _Tp>
536  using iter_common_reference_t
537  = common_reference_t<iter_reference_t<_Tp>, iter_value_t<_Tp>&>;
538 
539  /// Requirements for writing a value into an iterator's referenced object.
540  template<typename _Out, typename _Tp>
541  concept indirectly_writable = requires(_Out&& __o, _Tp&& __t)
542  {
543  *__o = std::forward<_Tp>(__t);
544  *std::forward<_Out>(__o) = std::forward<_Tp>(__t);
545  const_cast<const iter_reference_t<_Out>&&>(*__o)
546  = std::forward<_Tp>(__t);
547  const_cast<const iter_reference_t<_Out>&&>(*std::forward<_Out>(__o))
548  = std::forward<_Tp>(__t);
549  };
550 
551  namespace ranges::__detail
552  {
553  class __max_diff_type;
554  class __max_size_type;
555 
556  template<typename _Tp>
557  concept __is_signed_int128
558 #if __SIZEOF_INT128__
559  = same_as<_Tp, __int128>;
560 #else
561  = false;
562 #endif
563 
564  template<typename _Tp>
565  concept __is_unsigned_int128
566 #if __SIZEOF_INT128__
567  = same_as<_Tp, unsigned __int128>;
568 #else
569  = false;
570 #endif
571 
572  template<typename _Tp>
573  concept __cv_bool = same_as<const volatile _Tp, const volatile bool>;
574 
575  template<typename _Tp>
576  concept __integral_nonbool = integral<_Tp> && !__cv_bool<_Tp>;
577 
578  template<typename _Tp>
579  concept __is_int128 = __is_signed_int128<_Tp> || __is_unsigned_int128<_Tp>;
580 
581  template<typename _Tp>
582  concept __is_integer_like = __integral_nonbool<_Tp>
583  || __is_int128<_Tp>
584  || same_as<_Tp, __max_diff_type> || same_as<_Tp, __max_size_type>;
585 
586  template<typename _Tp>
587  concept __is_signed_integer_like = signed_integral<_Tp>
588  || __is_signed_int128<_Tp>
589  || same_as<_Tp, __max_diff_type>;
590 
591  } // namespace ranges::__detail
592 
593  namespace __detail { using ranges::__detail::__is_signed_integer_like; }
594 
595  /// Requirements on types that can be incremented with ++.
596  template<typename _Iter>
597  concept weakly_incrementable = default_initializable<_Iter>
598  && movable<_Iter>
599  && requires(_Iter __i)
600  {
601  typename iter_difference_t<_Iter>;
602  requires __detail::__is_signed_integer_like<iter_difference_t<_Iter>>;
603  { ++__i } -> same_as<_Iter&>;
604  __i++;
605  };
606 
607  template<typename _Iter>
608  concept incrementable = regular<_Iter> && weakly_incrementable<_Iter>
609  && requires(_Iter __i) { { __i++ } -> same_as<_Iter>; };
610 
611  template<typename _Iter>
612  concept input_or_output_iterator
613  = requires(_Iter __i) { { *__i } -> __detail::__can_reference; }
614  && weakly_incrementable<_Iter>;
615 
616  template<typename _Sent, typename _Iter>
617  concept sentinel_for = semiregular<_Sent>
618  && input_or_output_iterator<_Iter>
619  && __detail::__weakly_eq_cmp_with<_Sent, _Iter>;
620 
621  template<typename _Sent, typename _Iter>
622  inline constexpr bool disable_sized_sentinel_for = false;
623 
624  template<typename _Sent, typename _Iter>
625  concept sized_sentinel_for = sentinel_for<_Sent, _Iter>
626  && !disable_sized_sentinel_for<remove_cv_t<_Sent>, remove_cv_t<_Iter>>
627  && requires(const _Iter& __i, const _Sent& __s)
628  {
629  { __s - __i } -> same_as<iter_difference_t<_Iter>>;
630  { __i - __s } -> same_as<iter_difference_t<_Iter>>;
631  };
632 
633  template<typename _Iter>
634  concept input_iterator = input_or_output_iterator<_Iter>
635  && indirectly_readable<_Iter>
636  && requires { typename __detail::__iter_concept<_Iter>; }
637  && derived_from<__detail::__iter_concept<_Iter>, input_iterator_tag>;
638 
639  template<typename _Iter, typename _Tp>
640  concept output_iterator = input_or_output_iterator<_Iter>
641  && indirectly_writable<_Iter, _Tp>
642  && requires(_Iter __i, _Tp&& __t) { *__i++ = std::forward<_Tp>(__t); };
643 
644  template<typename _Iter>
645  concept forward_iterator = input_iterator<_Iter>
646  && derived_from<__detail::__iter_concept<_Iter>, forward_iterator_tag>
647  && incrementable<_Iter> && sentinel_for<_Iter, _Iter>;
648 
649  template<typename _Iter>
650  concept bidirectional_iterator = forward_iterator<_Iter>
651  && derived_from<__detail::__iter_concept<_Iter>,
652  bidirectional_iterator_tag>
653  && requires(_Iter __i)
654  {
655  { --__i } -> same_as<_Iter&>;
656  { __i-- } -> same_as<_Iter>;
657  };
658 
659  template<typename _Iter>
660  concept random_access_iterator = bidirectional_iterator<_Iter>
661  && derived_from<__detail::__iter_concept<_Iter>,
662  random_access_iterator_tag>
663  && totally_ordered<_Iter> && sized_sentinel_for<_Iter, _Iter>
664  && requires(_Iter __i, const _Iter __j,
665  const iter_difference_t<_Iter> __n)
666  {
667  { __i += __n } -> same_as<_Iter&>;
668  { __j + __n } -> same_as<_Iter>;
669  { __n + __j } -> same_as<_Iter>;
670  { __i -= __n } -> same_as<_Iter&>;
671  { __j - __n } -> same_as<_Iter>;
672  { __j[__n] } -> same_as<iter_reference_t<_Iter>>;
673  };
674 
675  template<typename _Iter>
676  concept contiguous_iterator = random_access_iterator<_Iter>
677  && derived_from<__detail::__iter_concept<_Iter>, contiguous_iterator_tag>
678  && is_lvalue_reference_v<iter_reference_t<_Iter>>
679  && same_as<iter_value_t<_Iter>, remove_cvref_t<iter_reference_t<_Iter>>>
680  && requires(const _Iter& __i)
681  {
682  { std::to_address(__i) }
683  -> same_as<add_pointer_t<iter_reference_t<_Iter>>>;
684  };
685 
686  // [indirectcallable], indirect callable requirements
687 
688  // [indirectcallable.indirectinvocable], indirect callables
689 
690  template<typename _Fn, typename _Iter>
691  concept indirectly_unary_invocable = indirectly_readable<_Iter>
692  && copy_constructible<_Fn> && invocable<_Fn&, iter_value_t<_Iter>&>
693  && invocable<_Fn&, iter_reference_t<_Iter>>
694  && invocable<_Fn&, iter_common_reference_t<_Iter>>
695  && common_reference_with<invoke_result_t<_Fn&, iter_value_t<_Iter>&>,
696  invoke_result_t<_Fn&, iter_reference_t<_Iter>>>;
697 
698  template<typename _Fn, typename _Iter>
699  concept indirectly_regular_unary_invocable = indirectly_readable<_Iter>
700  && copy_constructible<_Fn>
701  && regular_invocable<_Fn&, iter_value_t<_Iter>&>
702  && regular_invocable<_Fn&, iter_reference_t<_Iter>>
703  && regular_invocable<_Fn&, iter_common_reference_t<_Iter>>
704  && common_reference_with<invoke_result_t<_Fn&, iter_value_t<_Iter>&>,
705  invoke_result_t<_Fn&, iter_reference_t<_Iter>>>;
706 
707  template<typename _Fn, typename _Iter>
708  concept indirect_unary_predicate = indirectly_readable<_Iter>
709  && copy_constructible<_Fn> && predicate<_Fn&, iter_value_t<_Iter>&>
710  && predicate<_Fn&, iter_reference_t<_Iter>>
711  && predicate<_Fn&, iter_common_reference_t<_Iter>>;
712 
713  template<typename _Fn, typename _I1, typename _I2>
714  concept indirect_binary_predicate
715  = indirectly_readable<_I1> && indirectly_readable<_I2>
716  && copy_constructible<_Fn>
717  && predicate<_Fn&, iter_value_t<_I1>&, iter_value_t<_I2>&>
718  && predicate<_Fn&, iter_value_t<_I1>&, iter_reference_t<_I2>>
719  && predicate<_Fn&, iter_reference_t<_I1>, iter_value_t<_I2>&>
720  && predicate<_Fn&, iter_reference_t<_I1>, iter_reference_t<_I2>>
721  && predicate<_Fn&, iter_common_reference_t<_I1>,
722  iter_common_reference_t<_I2>>;
723 
724  template<typename _Fn, typename _I1, typename _I2 = _I1>
725  concept indirect_equivalence_relation
726  = indirectly_readable<_I1> && indirectly_readable<_I2>
727  && copy_constructible<_Fn>
728  && equivalence_relation<_Fn&, iter_value_t<_I1>&, iter_value_t<_I2>&>
729  && equivalence_relation<_Fn&, iter_value_t<_I1>&, iter_reference_t<_I2>>
730  && equivalence_relation<_Fn&, iter_reference_t<_I1>, iter_value_t<_I2>&>
731  && equivalence_relation<_Fn&, iter_reference_t<_I1>,
732  iter_reference_t<_I2>>
733  && equivalence_relation<_Fn&, iter_common_reference_t<_I1>,
734  iter_common_reference_t<_I2>>;
735 
736  template<typename _Fn, typename _I1, typename _I2 = _I1>
737  concept indirect_strict_weak_order
738  = indirectly_readable<_I1> && indirectly_readable<_I2>
739  && copy_constructible<_Fn>
740  && strict_weak_order<_Fn&, iter_value_t<_I1>&, iter_value_t<_I2>&>
741  && strict_weak_order<_Fn&, iter_value_t<_I1>&, iter_reference_t<_I2>>
742  && strict_weak_order<_Fn&, iter_reference_t<_I1>, iter_value_t<_I2>&>
743  && strict_weak_order<_Fn&, iter_reference_t<_I1>, iter_reference_t<_I2>>
744  && strict_weak_order<_Fn&, iter_common_reference_t<_I1>,
745  iter_common_reference_t<_I2>>;
746 
747  template<typename _Fn, typename... _Is>
748  requires (indirectly_readable<_Is> && ...)
749  && invocable<_Fn, iter_reference_t<_Is>...>
750  using indirect_result_t = invoke_result_t<_Fn, iter_reference_t<_Is>...>;
751 
752  /// [projected], projected
753  template<indirectly_readable _Iter,
754  indirectly_regular_unary_invocable<_Iter> _Proj>
755  struct projected
756  {
757  using value_type = remove_cvref_t<indirect_result_t<_Proj&, _Iter>>;
758 
759  indirect_result_t<_Proj&, _Iter> operator*() const; // not defined
760  };
761 
762  template<weakly_incrementable _Iter, typename _Proj>
763  struct incrementable_traits<projected<_Iter, _Proj>>
764  { using difference_type = iter_difference_t<_Iter>; };
765 
766  // [alg.req], common algorithm requirements
767 
768  /// [alg.req.ind.move], concept `indirectly_movable`
769 
770  template<typename _In, typename _Out>
771  concept indirectly_movable = indirectly_readable<_In>
772  && indirectly_writable<_Out, iter_rvalue_reference_t<_In>>;
773 
774  template<typename _In, typename _Out>
775  concept indirectly_movable_storable = indirectly_movable<_In, _Out>
776  && indirectly_writable<_Out, iter_value_t<_In>>
777  && movable<iter_value_t<_In>>
778  && constructible_from<iter_value_t<_In>, iter_rvalue_reference_t<_In>>
779  && assignable_from<iter_value_t<_In>&, iter_rvalue_reference_t<_In>>;
780 
781  /// [alg.req.ind.copy], concept `indirectly_copyable`
782  template<typename _In, typename _Out>
783  concept indirectly_copyable = indirectly_readable<_In>
784  && indirectly_writable<_Out, iter_reference_t<_In>>;
785 
786  template<typename _In, typename _Out>
787  concept indirectly_copyable_storable = indirectly_copyable<_In, _Out>
788  && indirectly_writable<_Out, iter_value_t<_In>&>
789  && indirectly_writable<_Out, const iter_value_t<_In>&>
790  && indirectly_writable<_Out, iter_value_t<_In>&&>
791  && indirectly_writable<_Out, const iter_value_t<_In>&&>
792  && copyable<iter_value_t<_In>>
793  && constructible_from<iter_value_t<_In>, iter_reference_t<_In>>
794  && assignable_from<iter_value_t<_In>&, iter_reference_t<_In>>;
795 
796 namespace ranges
797 {
798  namespace __cust_iswap
799  {
800  template<typename _It1, typename _It2>
801  void iter_swap(_It1, _It2) = delete;
802 
803  template<typename _Tp, typename _Up>
804  concept __adl_iswap
805  = (std::__detail::__class_or_enum<remove_reference_t<_Tp>>
806  || std::__detail::__class_or_enum<remove_reference_t<_Up>>)
807  && requires(_Tp&& __t, _Up&& __u) {
808  iter_swap(static_cast<_Tp&&>(__t), static_cast<_Up&&>(__u));
809  };
810 
811  template<typename _Xp, typename _Yp>
812  constexpr iter_value_t<_Xp>
813  __iter_exchange_move(_Xp&& __x, _Yp&& __y)
814  noexcept(noexcept(iter_value_t<_Xp>(iter_move(__x)))
815  && noexcept(*__x = iter_move(__y)))
816  {
817  iter_value_t<_Xp> __old_value(iter_move(__x));
818  *__x = iter_move(__y);
819  return __old_value;
820  }
821 
822  struct _IterSwap
823  {
824  private:
825  template<typename _Tp, typename _Up>
826  static constexpr bool
827  _S_noexcept()
828  {
829  if constexpr (__adl_iswap<_Tp, _Up>)
830  return noexcept(iter_swap(std::declval<_Tp>(),
831  std::declval<_Up>()));
832  else if constexpr (indirectly_readable<_Tp>
833  && indirectly_readable<_Up>
834  && swappable_with<iter_reference_t<_Tp>, iter_reference_t<_Up>>)
835  return noexcept(ranges::swap(*std::declval<_Tp>(),
836  *std::declval<_Up>()));
837  else
838  return noexcept(*std::declval<_Tp>()
839  = __iter_exchange_move(std::declval<_Up>(),
840  std::declval<_Tp>()));
841  }
842 
843  public:
844  template<typename _Tp, typename _Up>
845  requires __adl_iswap<_Tp, _Up>
846  || (indirectly_readable<remove_reference_t<_Tp>>
847  && indirectly_readable<remove_reference_t<_Up>>
848  && swappable_with<iter_reference_t<_Tp>, iter_reference_t<_Up>>)
849  || (indirectly_movable_storable<_Tp, _Up>
850  && indirectly_movable_storable<_Up, _Tp>)
851  constexpr void
852  operator()(_Tp&& __e1, _Up&& __e2) const
853  noexcept(_S_noexcept<_Tp, _Up>())
854  {
855  if constexpr (__adl_iswap<_Tp, _Up>)
856  iter_swap(static_cast<_Tp&&>(__e1), static_cast<_Up&&>(__e2));
857  else if constexpr (indirectly_readable<_Tp>
858  && indirectly_readable<_Up>
859  && swappable_with<iter_reference_t<_Tp>, iter_reference_t<_Up>>)
860  ranges::swap(*__e1, *__e2);
861  else
862  *__e1 = __iter_exchange_move(__e2, __e1);
863  }
864  };
865  } // namespace __cust_iswap
866 
867  inline namespace __cust
868  {
869  inline constexpr __cust_iswap::_IterSwap iter_swap{};
870  } // inline namespace __cust
871 
872 } // namespace ranges
873 
874  /// [alg.req.ind.swap], concept `indirectly_swappable`
875  template<typename _I1, typename _I2 = _I1>
876  concept indirectly_swappable
877  = indirectly_readable<_I1> && indirectly_readable<_I2>
878  && requires(const _I1 __i1, const _I2 __i2)
879  {
880  ranges::iter_swap(__i1, __i1);
881  ranges::iter_swap(__i2, __i2);
882  ranges::iter_swap(__i1, __i2);
883  ranges::iter_swap(__i2, __i1);
884  };
885 
886  /// [alg.req.ind.cmp], concept `indirectly_comparable`
887  template<typename _I1, typename _I2, typename _Rel, typename _P1 = identity,
888  typename _P2 = identity>
889  concept indirectly_comparable
890  = indirect_binary_predicate<_Rel, projected<_I1, _P1>,
891  projected<_I2, _P2>>;
892 
893  /// [alg.req.permutable], concept `permutable`
894  template<typename _Iter>
895  concept permutable = forward_iterator<_Iter>
896  && indirectly_movable_storable<_Iter, _Iter>
897  && indirectly_swappable<_Iter, _Iter>;
898 
899  /// [alg.req.mergeable], concept `mergeable`
900  template<typename _I1, typename _I2, typename _Out,
901  typename _Rel = ranges::less, typename _P1 = identity,
902  typename _P2 = identity>
903  concept mergeable = input_iterator<_I1> && input_iterator<_I2>
904  && weakly_incrementable<_Out> && indirectly_copyable<_I1, _Out>
905  && indirectly_copyable<_I2, _Out>
906  && indirect_strict_weak_order<_Rel, projected<_I1, _P1>,
907  projected<_I2, _P2>>;
908 
909  /// [alg.req.sortable], concept `sortable`
910  template<typename _Iter, typename _Rel = ranges::less,
911  typename _Proj = identity>
912  concept sortable = permutable<_Iter>
913  && indirect_strict_weak_order<_Rel, projected<_Iter, _Proj>>;
914 
915  struct unreachable_sentinel_t
916  {
917  template<weakly_incrementable _It>
918  friend constexpr bool
919  operator==(unreachable_sentinel_t, const _It&) noexcept
920  { return false; }
921  };
922 
923  inline constexpr unreachable_sentinel_t unreachable_sentinel{};
924 
925  struct default_sentinel_t { };
926  inline constexpr default_sentinel_t default_sentinel{};
927 
928  // This is the namespace for [range.access] CPOs.
929  namespace ranges::__cust_access
930  {
931  using std::__detail::__class_or_enum;
932 
933  struct _Decay_copy final
934  {
935  template<typename _Tp>
936  constexpr decay_t<_Tp>
937  operator()(_Tp&& __t) const
938  noexcept(is_nothrow_convertible_v<_Tp, decay_t<_Tp>>)
939  { return std::forward<_Tp>(__t); }
940  } inline constexpr __decay_copy{};
941 
942  template<typename _Tp>
943  concept __member_begin = requires(_Tp& __t)
944  {
945  { __decay_copy(__t.begin()) } -> input_or_output_iterator;
946  };
947 
948  // Poison pills so that unqualified lookup doesn't find std::begin.
949  void begin(auto&) = delete;
950  void begin(const auto&) = delete;
951 
952  template<typename _Tp>
953  concept __adl_begin = __class_or_enum<remove_reference_t<_Tp>>
954  && requires(_Tp& __t)
955  {
956  { __decay_copy(begin(__t)) } -> input_or_output_iterator;
957  };
958 
959  // Simplified version of std::ranges::begin that only supports lvalues,
960  // for use by __range_iter_t below.
961  template<typename _Tp>
962  requires is_array_v<_Tp> || __member_begin<_Tp&> || __adl_begin<_Tp&>
963  auto
964  __begin(_Tp& __t)
965  {
966  if constexpr (is_array_v<_Tp>)
967  return __t + 0;
968  else if constexpr (__member_begin<_Tp&>)
969  return __t.begin();
970  else
971  return begin(__t);
972  }
973  } // namespace ranges::__cust_access
974 
975  namespace __detail
976  {
977  // Implementation of std::ranges::iterator_t, without using ranges::begin.
978  template<typename _Tp>
979  using __range_iter_t
980  = decltype(ranges::__cust_access::__begin(std::declval<_Tp&>()));
981 
982  } // namespace __detail
983 
984 _GLIBCXX_END_NAMESPACE_VERSION
985 } // namespace std
986 #endif // C++20 library concepts
987 #endif // _ITERATOR_CONCEPTS_H
auto declval() noexcept -> decltype(__declval< _Tp >(0))
Definition: type_traits:2364
constexpr complex< _Tp > operator*(const complex< _Tp > &__x, const complex< _Tp > &__y)
Return new complex value x times y.
Definition: complex:392
Definition: simd.h:210
_Tp * begin(valarray< _Tp > &__va) noexcept
Return an iterator pointing to the first element of the valarray.
Definition: valarray:1215
typename remove_reference< _Tp >::type remove_reference_t
Alias template for remove_reference.
Definition: type_traits:1645
ISO C++ entities toplevel namespace is std.