libstdc++
type_traits
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1// C++11 <type_traits> -*- C++ -*-
2
3// Copyright (C) 2007-2022 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,
12// but WITHOUT ANY WARRANTY; without even the implied warranty of
13// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
14// GNU General Public License for more details.
15
16// Under Section 7 of GPL version 3, you are granted additional
17// permissions described in the GCC Runtime Library Exception, version
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
21// a copy of the GCC Runtime Library Exception along with this program;
22// see the files COPYING3 and COPYING.RUNTIME respectively. If not, see
23// <http://www.gnu.org/licenses/>.
24
25/** @file include/type_traits
26 * This is a Standard C++ Library header.
27 */
28
29#ifndef _GLIBCXX_TYPE_TRAITS
30#define _GLIBCXX_TYPE_TRAITS 1
31
32#pragma GCC system_header
33
34#if __cplusplus < 201103L
35# include <bits/c++0x_warning.h>
36#else
37
38#include <bits/c++config.h>
39
40namespace std _GLIBCXX_VISIBILITY(default)
41{
42_GLIBCXX_BEGIN_NAMESPACE_VERSION
43
44 template<typename _Tp>
45 class reference_wrapper;
46
47 /**
48 * @defgroup metaprogramming Metaprogramming
49 * @ingroup utilities
50 *
51 * Template utilities for compile-time introspection and modification,
52 * including type classification traits, type property inspection traits
53 * and type transformation traits.
54 *
55 * @since C++11
56 *
57 * @{
58 */
59
60 /// integral_constant
61 template<typename _Tp, _Tp __v>
62 struct integral_constant
63 {
64 static constexpr _Tp value = __v;
65 typedef _Tp value_type;
66 typedef integral_constant<_Tp, __v> type;
67 constexpr operator value_type() const noexcept { return value; }
68#if __cplusplus > 201103L
69
70#define __cpp_lib_integral_constant_callable 201304L
71
72 constexpr value_type operator()() const noexcept { return value; }
73#endif
74 };
75
76#if ! __cpp_inline_variables
77 template<typename _Tp, _Tp __v>
78 constexpr _Tp integral_constant<_Tp, __v>::value;
79#endif
80
81 /// The type used as a compile-time boolean with true value.
82 using true_type = integral_constant<bool, true>;
83
84 /// The type used as a compile-time boolean with false value.
85 using false_type = integral_constant<bool, false>;
86
87 /// @cond undocumented
88 /// bool_constant for C++11
89 template<bool __v>
90 using __bool_constant = integral_constant<bool, __v>;
91 /// @endcond
92
93#if __cplusplus >= 201703L
94# define __cpp_lib_bool_constant 201505L
95 /// Alias template for compile-time boolean constant types.
96 /// @since C++17
97 template<bool __v>
98 using bool_constant = integral_constant<bool, __v>;
99#endif
100
101 // Metaprogramming helper types.
102
103 template<bool>
104 struct __conditional
105 {
106 template<typename _Tp, typename>
107 using type = _Tp;
108 };
109
110 template<>
111 struct __conditional<false>
112 {
113 template<typename, typename _Up>
114 using type = _Up;
115 };
116
117 // More efficient version of std::conditional_t for internal use (and C++11)
118 template<bool _Cond, typename _If, typename _Else>
119 using __conditional_t
120 = typename __conditional<_Cond>::template type<_If, _Else>;
121
122 /// @cond undocumented
123 template <typename _Type>
124 struct __type_identity
125 { using type = _Type; };
126
127 template<typename _Tp>
128 using __type_identity_t = typename __type_identity<_Tp>::type;
129
130 template<typename...>
131 struct __or_;
132
133 template<>
134 struct __or_<>
135 : public false_type
136 { };
137
138 template<typename _B1>
139 struct __or_<_B1>
140 : public _B1
141 { };
142
143 template<typename _B1, typename _B2>
144 struct __or_<_B1, _B2>
145 : public __conditional_t<_B1::value, _B1, _B2>
146 { };
147
148 template<typename _B1, typename _B2, typename _B3, typename... _Bn>
149 struct __or_<_B1, _B2, _B3, _Bn...>
150 : public __conditional_t<_B1::value, _B1, __or_<_B2, _B3, _Bn...>>
151 { };
152
153 template<typename...>
154 struct __and_;
155
156 template<>
157 struct __and_<>
158 : public true_type
159 { };
160
161 template<typename _B1>
162 struct __and_<_B1>
163 : public _B1
164 { };
165
166 template<typename _B1, typename _B2>
167 struct __and_<_B1, _B2>
168 : public __conditional_t<_B1::value, _B2, _B1>
169 { };
170
171 template<typename _B1, typename _B2, typename _B3, typename... _Bn>
172 struct __and_<_B1, _B2, _B3, _Bn...>
173 : public __conditional_t<_B1::value, __and_<_B2, _B3, _Bn...>, _B1>
174 { };
175
176 template<typename _Pp>
177 struct __not_
178 : public __bool_constant<!bool(_Pp::value)>
179 { };
180 /// @endcond
181
182#if __cplusplus >= 201703L
183
184 /// @cond undocumented
185 template<typename... _Bn>
186 inline constexpr bool __or_v = __or_<_Bn...>::value;
187 template<typename... _Bn>
188 inline constexpr bool __and_v = __and_<_Bn...>::value;
189 /// @endcond
190
191#define __cpp_lib_logical_traits 201510L
192
193 template<typename... _Bn>
194 struct conjunction
195 : __and_<_Bn...>
196 { };
197
198 template<typename... _Bn>
199 struct disjunction
200 : __or_<_Bn...>
201 { };
202
203 template<typename _Pp>
204 struct negation
205 : __not_<_Pp>
206 { };
207
208 /** @ingroup variable_templates
209 * @{
210 */
211 template<typename... _Bn>
212 inline constexpr bool conjunction_v = conjunction<_Bn...>::value;
213
214 template<typename... _Bn>
215 inline constexpr bool disjunction_v = disjunction<_Bn...>::value;
216
217 template<typename _Pp>
218 inline constexpr bool negation_v = negation<_Pp>::value;
219 /// @}
220
221#endif // C++17
222
223 // Forward declarations
224 template<typename>
225 struct is_reference;
226 template<typename>
227 struct is_function;
228 template<typename>
229 struct is_void;
230 template<typename>
231 struct remove_cv;
232 template<typename>
233 struct is_const;
234
235 /// @cond undocumented
236 template<typename>
237 struct __is_array_unknown_bounds;
238
239 // Helper functions that return false_type for incomplete classes,
240 // incomplete unions and arrays of known bound from those.
241
242 template <typename _Tp, size_t = sizeof(_Tp)>
243 constexpr true_type __is_complete_or_unbounded(__type_identity<_Tp>)
244 { return {}; }
245
246 template <typename _TypeIdentity,
247 typename _NestedType = typename _TypeIdentity::type>
248 constexpr typename __or_<
249 is_reference<_NestedType>,
250 is_function<_NestedType>,
251 is_void<_NestedType>,
252 __is_array_unknown_bounds<_NestedType>
253 >::type __is_complete_or_unbounded(_TypeIdentity)
254 { return {}; }
255
256 // For several sfinae-friendly trait implementations we transport both the
257 // result information (as the member type) and the failure information (no
258 // member type). This is very similar to std::enable_if, but we cannot use
259 // them, because we need to derive from them as an implementation detail.
260
261 template<typename _Tp>
262 struct __success_type
263 { typedef _Tp type; };
264
265 struct __failure_type
266 { };
267
268 // __remove_cv_t (std::remove_cv_t for C++11).
269 template<typename _Tp>
270 using __remove_cv_t = typename remove_cv<_Tp>::type;
271
272 // Primary type categories.
273
274 template<typename>
275 struct __is_void_helper
276 : public false_type { };
277
278 template<>
279 struct __is_void_helper<void>
280 : public true_type { };
281 /// @endcond
282
283 /// is_void
284 template<typename _Tp>
285 struct is_void
286 : public __is_void_helper<__remove_cv_t<_Tp>>::type
287 { };
288
289 /// @cond undocumented
290 template<typename>
291 struct __is_integral_helper
292 : public false_type { };
293
294 template<>
295 struct __is_integral_helper<bool>
296 : public true_type { };
297
298 template<>
299 struct __is_integral_helper<char>
300 : public true_type { };
301
302 template<>
303 struct __is_integral_helper<signed char>
304 : public true_type { };
305
306 template<>
307 struct __is_integral_helper<unsigned char>
308 : public true_type { };
309
310 // We want is_integral<wchar_t> to be true (and make_signed/unsigned to work)
311 // even when libc doesn't provide working <wchar.h> and related functions,
312 // so don't check _GLIBCXX_USE_WCHAR_T here.
313 template<>
314 struct __is_integral_helper<wchar_t>
315 : public true_type { };
316
317#ifdef _GLIBCXX_USE_CHAR8_T
318 template<>
319 struct __is_integral_helper<char8_t>
320 : public true_type { };
321#endif
322
323 template<>
324 struct __is_integral_helper<char16_t>
325 : public true_type { };
326
327 template<>
328 struct __is_integral_helper<char32_t>
329 : public true_type { };
330
331 template<>
332 struct __is_integral_helper<short>
333 : public true_type { };
334
335 template<>
336 struct __is_integral_helper<unsigned short>
337 : public true_type { };
338
339 template<>
340 struct __is_integral_helper<int>
341 : public true_type { };
342
343 template<>
344 struct __is_integral_helper<unsigned int>
345 : public true_type { };
346
347 template<>
348 struct __is_integral_helper<long>
349 : public true_type { };
350
351 template<>
352 struct __is_integral_helper<unsigned long>
353 : public true_type { };
354
355 template<>
356 struct __is_integral_helper<long long>
357 : public true_type { };
358
359 template<>
360 struct __is_integral_helper<unsigned long long>
361 : public true_type { };
362
363 // Conditionalizing on __STRICT_ANSI__ here will break any port that
364 // uses one of these types for size_t.
365#if defined(__GLIBCXX_TYPE_INT_N_0)
366 __extension__
367 template<>
368 struct __is_integral_helper<__GLIBCXX_TYPE_INT_N_0>
369 : public true_type { };
370
371 __extension__
372 template<>
373 struct __is_integral_helper<unsigned __GLIBCXX_TYPE_INT_N_0>
374 : public true_type { };
375#endif
376#if defined(__GLIBCXX_TYPE_INT_N_1)
377 __extension__
378 template<>
379 struct __is_integral_helper<__GLIBCXX_TYPE_INT_N_1>
380 : public true_type { };
381
382 __extension__
383 template<>
384 struct __is_integral_helper<unsigned __GLIBCXX_TYPE_INT_N_1>
385 : public true_type { };
386#endif
387#if defined(__GLIBCXX_TYPE_INT_N_2)
388 __extension__
389 template<>
390 struct __is_integral_helper<__GLIBCXX_TYPE_INT_N_2>
391 : public true_type { };
392
393 __extension__
394 template<>
395 struct __is_integral_helper<unsigned __GLIBCXX_TYPE_INT_N_2>
396 : public true_type { };
397#endif
398#if defined(__GLIBCXX_TYPE_INT_N_3)
399 __extension__
400 template<>
401 struct __is_integral_helper<__GLIBCXX_TYPE_INT_N_3>
402 : public true_type { };
403
404 __extension__
405 template<>
406 struct __is_integral_helper<unsigned __GLIBCXX_TYPE_INT_N_3>
407 : public true_type { };
408#endif
409 /// @endcond
410
411 /// is_integral
412 template<typename _Tp>
413 struct is_integral
414 : public __is_integral_helper<__remove_cv_t<_Tp>>::type
415 { };
416
417 /// @cond undocumented
418 template<typename>
419 struct __is_floating_point_helper
420 : public false_type { };
421
422 template<>
423 struct __is_floating_point_helper<float>
424 : public true_type { };
425
426 template<>
427 struct __is_floating_point_helper<double>
428 : public true_type { };
429
430 template<>
431 struct __is_floating_point_helper<long double>
432 : public true_type { };
433
434#if !defined(__STRICT_ANSI__) && defined(_GLIBCXX_USE_FLOAT128)
435 template<>
436 struct __is_floating_point_helper<__float128>
437 : public true_type { };
438#endif
439 /// @endcond
440
441 /// is_floating_point
442 template<typename _Tp>
443 struct is_floating_point
444 : public __is_floating_point_helper<__remove_cv_t<_Tp>>::type
445 { };
446
447 /// is_array
448 template<typename>
449 struct is_array
450 : public false_type { };
451
452 template<typename _Tp, std::size_t _Size>
453 struct is_array<_Tp[_Size]>
454 : public true_type { };
455
456 template<typename _Tp>
457 struct is_array<_Tp[]>
458 : public true_type { };
459
460 template<typename>
461 struct __is_pointer_helper
462 : public false_type { };
463
464 template<typename _Tp>
465 struct __is_pointer_helper<_Tp*>
466 : public true_type { };
467
468 /// is_pointer
469 template<typename _Tp>
470 struct is_pointer
471 : public __is_pointer_helper<__remove_cv_t<_Tp>>::type
472 { };
473
474 /// is_lvalue_reference
475 template<typename>
476 struct is_lvalue_reference
477 : public false_type { };
478
479 template<typename _Tp>
480 struct is_lvalue_reference<_Tp&>
481 : public true_type { };
482
483 /// is_rvalue_reference
484 template<typename>
485 struct is_rvalue_reference
486 : public false_type { };
487
488 template<typename _Tp>
489 struct is_rvalue_reference<_Tp&&>
490 : public true_type { };
491
492 template<typename>
493 struct __is_member_object_pointer_helper
494 : public false_type { };
495
496 template<typename _Tp, typename _Cp>
497 struct __is_member_object_pointer_helper<_Tp _Cp::*>
498 : public __not_<is_function<_Tp>>::type { };
499
500 /// is_member_object_pointer
501 template<typename _Tp>
502 struct is_member_object_pointer
503 : public __is_member_object_pointer_helper<__remove_cv_t<_Tp>>::type
504 { };
505
506 template<typename>
507 struct __is_member_function_pointer_helper
508 : public false_type { };
509
510 template<typename _Tp, typename _Cp>
511 struct __is_member_function_pointer_helper<_Tp _Cp::*>
512 : public is_function<_Tp>::type { };
513
514 /// is_member_function_pointer
515 template<typename _Tp>
516 struct is_member_function_pointer
517 : public __is_member_function_pointer_helper<__remove_cv_t<_Tp>>::type
518 { };
519
520 /// is_enum
521 template<typename _Tp>
522 struct is_enum
523 : public integral_constant<bool, __is_enum(_Tp)>
524 { };
525
526 /// is_union
527 template<typename _Tp>
528 struct is_union
529 : public integral_constant<bool, __is_union(_Tp)>
530 { };
531
532 /// is_class
533 template<typename _Tp>
534 struct is_class
535 : public integral_constant<bool, __is_class(_Tp)>
536 { };
537
538 /// is_function
539 template<typename _Tp>
540 struct is_function
541 : public __bool_constant<!is_const<const _Tp>::value> { };
542
543 template<typename _Tp>
544 struct is_function<_Tp&>
545 : public false_type { };
546
547 template<typename _Tp>
548 struct is_function<_Tp&&>
549 : public false_type { };
550
551#define __cpp_lib_is_null_pointer 201309L
552
553 template<typename>
554 struct __is_null_pointer_helper
555 : public false_type { };
556
557 template<>
558 struct __is_null_pointer_helper<std::nullptr_t>
559 : public true_type { };
560
561 /// is_null_pointer (LWG 2247).
562 template<typename _Tp>
563 struct is_null_pointer
564 : public __is_null_pointer_helper<__remove_cv_t<_Tp>>::type
565 { };
566
567 /// __is_nullptr_t (deprecated extension).
568 /// @deprecated Non-standard. Use `is_null_pointer` instead.
569 template<typename _Tp>
570 struct __is_nullptr_t
571 : public is_null_pointer<_Tp>
572 { } _GLIBCXX_DEPRECATED_SUGGEST("std::is_null_pointer");
573
574 // Composite type categories.
575
576 /// is_reference
577 template<typename _Tp>
578 struct is_reference
579 : public __or_<is_lvalue_reference<_Tp>,
580 is_rvalue_reference<_Tp>>::type
581 { };
582
583 /// is_arithmetic
584 template<typename _Tp>
585 struct is_arithmetic
586 : public __or_<is_integral<_Tp>, is_floating_point<_Tp>>::type
587 { };
588
589 /// is_fundamental
590 template<typename _Tp>
591 struct is_fundamental
592 : public __or_<is_arithmetic<_Tp>, is_void<_Tp>,
593 is_null_pointer<_Tp>>::type
594 { };
595
596 /// is_object
597 template<typename _Tp>
598 struct is_object
599 : public __not_<__or_<is_function<_Tp>, is_reference<_Tp>,
600 is_void<_Tp>>>::type
601 { };
602
603 template<typename>
604 struct is_member_pointer;
605
606 /// is_scalar
607 template<typename _Tp>
608 struct is_scalar
609 : public __or_<is_arithmetic<_Tp>, is_enum<_Tp>, is_pointer<_Tp>,
610 is_member_pointer<_Tp>, is_null_pointer<_Tp>>::type
611 { };
612
613 /// is_compound
614 template<typename _Tp>
615 struct is_compound
616 : public __not_<is_fundamental<_Tp>>::type { };
617
618 /// @cond undocumented
619 template<typename _Tp>
620 struct __is_member_pointer_helper
621 : public false_type { };
622
623 template<typename _Tp, typename _Cp>
624 struct __is_member_pointer_helper<_Tp _Cp::*>
625 : public true_type { };
626 /// @endcond
627
628 /// is_member_pointer
629 template<typename _Tp>
630 struct is_member_pointer
631 : public __is_member_pointer_helper<__remove_cv_t<_Tp>>::type
632 { };
633
634 template<typename, typename>
635 struct is_same;
636
637 /// @cond undocumented
638 template<typename _Tp, typename... _Types>
639 using __is_one_of = __or_<is_same<_Tp, _Types>...>;
640
641 // Check if a type is one of the signed integer types.
642 __extension__
643 template<typename _Tp>
644 using __is_signed_integer = __is_one_of<__remove_cv_t<_Tp>,
645 signed char, signed short, signed int, signed long,
646 signed long long
647#if defined(__GLIBCXX_TYPE_INT_N_0)
648 , signed __GLIBCXX_TYPE_INT_N_0
649#endif
650#if defined(__GLIBCXX_TYPE_INT_N_1)
651 , signed __GLIBCXX_TYPE_INT_N_1
652#endif
653#if defined(__GLIBCXX_TYPE_INT_N_2)
654 , signed __GLIBCXX_TYPE_INT_N_2
655#endif
656#if defined(__GLIBCXX_TYPE_INT_N_3)
657 , signed __GLIBCXX_TYPE_INT_N_3
658#endif
659 >;
660
661 // Check if a type is one of the unsigned integer types.
662 __extension__
663 template<typename _Tp>
664 using __is_unsigned_integer = __is_one_of<__remove_cv_t<_Tp>,
665 unsigned char, unsigned short, unsigned int, unsigned long,
666 unsigned long long
667#if defined(__GLIBCXX_TYPE_INT_N_0)
668 , unsigned __GLIBCXX_TYPE_INT_N_0
669#endif
670#if defined(__GLIBCXX_TYPE_INT_N_1)
671 , unsigned __GLIBCXX_TYPE_INT_N_1
672#endif
673#if defined(__GLIBCXX_TYPE_INT_N_2)
674 , unsigned __GLIBCXX_TYPE_INT_N_2
675#endif
676#if defined(__GLIBCXX_TYPE_INT_N_3)
677 , unsigned __GLIBCXX_TYPE_INT_N_3
678#endif
679 >;
680
681 // Check if a type is one of the signed or unsigned integer types.
682 template<typename _Tp>
683 using __is_standard_integer
684 = __or_<__is_signed_integer<_Tp>, __is_unsigned_integer<_Tp>>;
685
686 // __void_t (std::void_t for C++11)
687 template<typename...> using __void_t = void;
688
689 // Utility to detect referenceable types ([defns.referenceable]).
690
691 template<typename _Tp, typename = void>
692 struct __is_referenceable
693 : public false_type
694 { };
695
696 template<typename _Tp>
697 struct __is_referenceable<_Tp, __void_t<_Tp&>>
698 : public true_type
699 { };
700 /// @endcond
701
702 // Type properties.
703
704 /// is_const
705 template<typename>
706 struct is_const
707 : public false_type { };
708
709 template<typename _Tp>
710 struct is_const<_Tp const>
711 : public true_type { };
712
713 /// is_volatile
714 template<typename>
715 struct is_volatile
716 : public false_type { };
717
718 template<typename _Tp>
719 struct is_volatile<_Tp volatile>
720 : public true_type { };
721
722 /// is_trivial
723 template<typename _Tp>
724 struct is_trivial
725 : public integral_constant<bool, __is_trivial(_Tp)>
726 {
727 static_assert(std::__is_complete_or_unbounded(__type_identity<_Tp>{}),
728 "template argument must be a complete class or an unbounded array");
729 };
730
731 /// is_trivially_copyable
732 template<typename _Tp>
733 struct is_trivially_copyable
734 : public integral_constant<bool, __is_trivially_copyable(_Tp)>
735 {
736 static_assert(std::__is_complete_or_unbounded(__type_identity<_Tp>{}),
737 "template argument must be a complete class or an unbounded array");
738 };
739
740 /// is_standard_layout
741 template<typename _Tp>
742 struct is_standard_layout
743 : public integral_constant<bool, __is_standard_layout(_Tp)>
744 {
745 static_assert(std::__is_complete_or_unbounded(__type_identity<_Tp>{}),
746 "template argument must be a complete class or an unbounded array");
747 };
748
749 /** is_pod
750 * @deprecated Deprecated in C++20.
751 * Use `is_standard_layout && is_trivial` instead.
752 */
753 // Could use is_standard_layout && is_trivial instead of the builtin.
754 template<typename _Tp>
755 struct
756 _GLIBCXX20_DEPRECATED("use is_standard_layout && is_trivial instead")
757 is_pod
758 : public integral_constant<bool, __is_pod(_Tp)>
759 {
760 static_assert(std::__is_complete_or_unbounded(__type_identity<_Tp>{}),
761 "template argument must be a complete class or an unbounded array");
762 };
763
764 /** is_literal_type
765 * @deprecated Deprecated in C++17, removed in C++20.
766 * The idea of a literal type isn't useful.
767 */
768 template<typename _Tp>
769 struct
770 _GLIBCXX17_DEPRECATED
771 is_literal_type
772 : public integral_constant<bool, __is_literal_type(_Tp)>
773 {
774 static_assert(std::__is_complete_or_unbounded(__type_identity<_Tp>{}),
775 "template argument must be a complete class or an unbounded array");
776 };
777
778 /// is_empty
779 template<typename _Tp>
780 struct is_empty
781 : public integral_constant<bool, __is_empty(_Tp)>
782 { };
783
784 /// is_polymorphic
785 template<typename _Tp>
786 struct is_polymorphic
787 : public integral_constant<bool, __is_polymorphic(_Tp)>
788 { };
789
790#if __cplusplus >= 201402L
791#define __cpp_lib_is_final 201402L
792 /// is_final
793 /// @since C++14
794 template<typename _Tp>
795 struct is_final
796 : public integral_constant<bool, __is_final(_Tp)>
797 { };
798#endif
799
800 /// is_abstract
801 template<typename _Tp>
802 struct is_abstract
803 : public integral_constant<bool, __is_abstract(_Tp)>
804 { };
805
806 /// @cond undocumented
807 template<typename _Tp,
808 bool = is_arithmetic<_Tp>::value>
809 struct __is_signed_helper
810 : public false_type { };
811
812 template<typename _Tp>
813 struct __is_signed_helper<_Tp, true>
814 : public integral_constant<bool, _Tp(-1) < _Tp(0)>
815 { };
816 /// @endcond
817
818 /// is_signed
819 template<typename _Tp>
820 struct is_signed
821 : public __is_signed_helper<_Tp>::type
822 { };
823
824 /// is_unsigned
825 template<typename _Tp>
826 struct is_unsigned
827 : public __and_<is_arithmetic<_Tp>, __not_<is_signed<_Tp>>>
828 { };
829
830 /// @cond undocumented
831 template<typename _Tp, typename _Up = _Tp&&>
832 _Up
833 __declval(int);
834
835 template<typename _Tp>
836 _Tp
837 __declval(long);
838 /// @endcond
839
840 template<typename _Tp>
841 auto declval() noexcept -> decltype(__declval<_Tp>(0));
842
843 template<typename, unsigned = 0>
844 struct extent;
845
846 template<typename>
847 struct remove_all_extents;
848
849 /// @cond undocumented
850 template<typename _Tp>
851 struct __is_array_known_bounds
852 : public integral_constant<bool, (extent<_Tp>::value > 0)>
853 { };
854
855 template<typename _Tp>
856 struct __is_array_unknown_bounds
857 : public __and_<is_array<_Tp>, __not_<extent<_Tp>>>
858 { };
859
860 // Destructible and constructible type properties.
861
862 // In N3290 is_destructible does not say anything about function
863 // types and abstract types, see LWG 2049. This implementation
864 // describes function types as non-destructible and all complete
865 // object types as destructible, iff the explicit destructor
866 // call expression is wellformed.
867 struct __do_is_destructible_impl
868 {
869 template<typename _Tp, typename = decltype(declval<_Tp&>().~_Tp())>
870 static true_type __test(int);
871
872 template<typename>
873 static false_type __test(...);
874 };
875
876 template<typename _Tp>
877 struct __is_destructible_impl
878 : public __do_is_destructible_impl
879 {
880 typedef decltype(__test<_Tp>(0)) type;
881 };
882
883 template<typename _Tp,
884 bool = __or_<is_void<_Tp>,
885 __is_array_unknown_bounds<_Tp>,
886 is_function<_Tp>>::value,
887 bool = __or_<is_reference<_Tp>, is_scalar<_Tp>>::value>
888 struct __is_destructible_safe;
889
890 template<typename _Tp>
891 struct __is_destructible_safe<_Tp, false, false>
892 : public __is_destructible_impl<typename
893 remove_all_extents<_Tp>::type>::type
894 { };
895
896 template<typename _Tp>
897 struct __is_destructible_safe<_Tp, true, false>
898 : public false_type { };
899
900 template<typename _Tp>
901 struct __is_destructible_safe<_Tp, false, true>
902 : public true_type { };
903 /// @endcond
904
905 /// is_destructible
906 template<typename _Tp>
907 struct is_destructible
908 : public __is_destructible_safe<_Tp>::type
909 {
910 static_assert(std::__is_complete_or_unbounded(__type_identity<_Tp>{}),
911 "template argument must be a complete class or an unbounded array");
912 };
913
914 /// @cond undocumented
915
916 // is_nothrow_destructible requires that is_destructible is
917 // satisfied as well. We realize that by mimicing the
918 // implementation of is_destructible but refer to noexcept(expr)
919 // instead of decltype(expr).
920 struct __do_is_nt_destructible_impl
921 {
922 template<typename _Tp>
923 static __bool_constant<noexcept(declval<_Tp&>().~_Tp())>
924 __test(int);
925
926 template<typename>
927 static false_type __test(...);
928 };
929
930 template<typename _Tp>
931 struct __is_nt_destructible_impl
932 : public __do_is_nt_destructible_impl
933 {
934 typedef decltype(__test<_Tp>(0)) type;
935 };
936
937 template<typename _Tp,
938 bool = __or_<is_void<_Tp>,
939 __is_array_unknown_bounds<_Tp>,
940 is_function<_Tp>>::value,
941 bool = __or_<is_reference<_Tp>, is_scalar<_Tp>>::value>
942 struct __is_nt_destructible_safe;
943
944 template<typename _Tp>
945 struct __is_nt_destructible_safe<_Tp, false, false>
946 : public __is_nt_destructible_impl<typename
947 remove_all_extents<_Tp>::type>::type
948 { };
949
950 template<typename _Tp>
951 struct __is_nt_destructible_safe<_Tp, true, false>
952 : public false_type { };
953
954 template<typename _Tp>
955 struct __is_nt_destructible_safe<_Tp, false, true>
956 : public true_type { };
957 /// @endcond
958
959 /// is_nothrow_destructible
960 template<typename _Tp>
961 struct is_nothrow_destructible
962 : public __is_nt_destructible_safe<_Tp>::type
963 {
964 static_assert(std::__is_complete_or_unbounded(__type_identity<_Tp>{}),
965 "template argument must be a complete class or an unbounded array");
966 };
967
968 /// @cond undocumented
969 template<typename _Tp, typename... _Args>
970 struct __is_constructible_impl
971 : public __bool_constant<__is_constructible(_Tp, _Args...)>
972 { };
973 /// @endcond
974
975 /// is_constructible
976 template<typename _Tp, typename... _Args>
977 struct is_constructible
978 : public __is_constructible_impl<_Tp, _Args...>
979 {
980 static_assert(std::__is_complete_or_unbounded(__type_identity<_Tp>{}),
981 "template argument must be a complete class or an unbounded array");
982 };
983
984 /// is_default_constructible
985 template<typename _Tp>
986 struct is_default_constructible
987 : public __is_constructible_impl<_Tp>::type
988 {
989 static_assert(std::__is_complete_or_unbounded(__type_identity<_Tp>{}),
990 "template argument must be a complete class or an unbounded array");
991 };
992
993 /// @cond undocumented
994 template<typename _Tp, bool = __is_referenceable<_Tp>::value>
995 struct __is_copy_constructible_impl;
996
997 template<typename _Tp>
998 struct __is_copy_constructible_impl<_Tp, false>
999 : public false_type { };
1000
1001 template<typename _Tp>
1002 struct __is_copy_constructible_impl<_Tp, true>
1003 : public __is_constructible_impl<_Tp, const _Tp&>
1004 { };
1005 /// @endcond
1006
1007 /// is_copy_constructible
1008 template<typename _Tp>
1009 struct is_copy_constructible
1010 : public __is_copy_constructible_impl<_Tp>
1011 {
1012 static_assert(std::__is_complete_or_unbounded(__type_identity<_Tp>{}),
1013 "template argument must be a complete class or an unbounded array");
1014 };
1015
1016 /// @cond undocumented
1017 template<typename _Tp, bool = __is_referenceable<_Tp>::value>
1018 struct __is_move_constructible_impl;
1019
1020 template<typename _Tp>
1021 struct __is_move_constructible_impl<_Tp, false>
1022 : public false_type { };
1023
1024 template<typename _Tp>
1025 struct __is_move_constructible_impl<_Tp, true>
1026 : public __is_constructible_impl<_Tp, _Tp&&>
1027 { };
1028 /// @endcond
1029
1030 /// is_move_constructible
1031 template<typename _Tp>
1032 struct is_move_constructible
1033 : public __is_move_constructible_impl<_Tp>
1034 {
1035 static_assert(std::__is_complete_or_unbounded(__type_identity<_Tp>{}),
1036 "template argument must be a complete class or an unbounded array");
1037 };
1038
1039 /// @cond undocumented
1040 template<typename _Tp, typename... _Args>
1041 using __is_nothrow_constructible_impl
1042 = __bool_constant<__is_nothrow_constructible(_Tp, _Args...)>;
1043 /// @endcond
1044
1045 /// is_nothrow_constructible
1046 template<typename _Tp, typename... _Args>
1047 struct is_nothrow_constructible
1048 : public __is_nothrow_constructible_impl<_Tp, _Args...>::type
1049 {
1050 static_assert(std::__is_complete_or_unbounded(__type_identity<_Tp>{}),
1051 "template argument must be a complete class or an unbounded array");
1052 };
1053
1054 /// is_nothrow_default_constructible
1055 template<typename _Tp>
1056 struct is_nothrow_default_constructible
1057 : public __bool_constant<__is_nothrow_constructible(_Tp)>
1058 {
1059 static_assert(std::__is_complete_or_unbounded(__type_identity<_Tp>{}),
1060 "template argument must be a complete class or an unbounded array");
1061 };
1062
1063 /// @cond undocumented
1064 template<typename _Tp, bool = __is_referenceable<_Tp>::value>
1065 struct __is_nothrow_copy_constructible_impl;
1066
1067 template<typename _Tp>
1068 struct __is_nothrow_copy_constructible_impl<_Tp, false>
1069 : public false_type { };
1070
1071 template<typename _Tp>
1072 struct __is_nothrow_copy_constructible_impl<_Tp, true>
1073 : public __is_nothrow_constructible_impl<_Tp, const _Tp&>
1074 { };
1075 /// @endcond
1076
1077 /// is_nothrow_copy_constructible
1078 template<typename _Tp>
1079 struct is_nothrow_copy_constructible
1080 : public __is_nothrow_copy_constructible_impl<_Tp>::type
1081 {
1082 static_assert(std::__is_complete_or_unbounded(__type_identity<_Tp>{}),
1083 "template argument must be a complete class or an unbounded array");
1084 };
1085
1086 /// @cond undocumented
1087 template<typename _Tp, bool = __is_referenceable<_Tp>::value>
1088 struct __is_nothrow_move_constructible_impl;
1089
1090 template<typename _Tp>
1091 struct __is_nothrow_move_constructible_impl<_Tp, false>
1092 : public false_type { };
1093
1094 template<typename _Tp>
1095 struct __is_nothrow_move_constructible_impl<_Tp, true>
1096 : public __is_nothrow_constructible_impl<_Tp, _Tp&&>
1097 { };
1098 /// @endcond
1099
1100 /// is_nothrow_move_constructible
1101 template<typename _Tp>
1102 struct is_nothrow_move_constructible
1103 : public __is_nothrow_move_constructible_impl<_Tp>::type
1104 {
1105 static_assert(std::__is_complete_or_unbounded(__type_identity<_Tp>{}),
1106 "template argument must be a complete class or an unbounded array");
1107 };
1108
1109 /// is_assignable
1110 template<typename _Tp, typename _Up>
1111 struct is_assignable
1112 : public __bool_constant<__is_assignable(_Tp, _Up)>
1113 {
1114 static_assert(std::__is_complete_or_unbounded(__type_identity<_Tp>{}),
1115 "template argument must be a complete class or an unbounded array");
1116 };
1117
1118 template<typename _Tp, bool = __is_referenceable<_Tp>::value>
1119 struct __is_copy_assignable_impl;
1120
1121 template<typename _Tp>
1122 struct __is_copy_assignable_impl<_Tp, false>
1123 : public false_type { };
1124
1125 template<typename _Tp>
1126 struct __is_copy_assignable_impl<_Tp, true>
1127 : public __bool_constant<__is_assignable(_Tp&, const _Tp&)>
1128 { };
1129
1130 /// is_copy_assignable
1131 template<typename _Tp>
1132 struct is_copy_assignable
1133 : public __is_copy_assignable_impl<_Tp>::type
1134 {
1135 static_assert(std::__is_complete_or_unbounded(__type_identity<_Tp>{}),
1136 "template argument must be a complete class or an unbounded array");
1137 };
1138
1139 template<typename _Tp, bool = __is_referenceable<_Tp>::value>
1140 struct __is_move_assignable_impl;
1141
1142 template<typename _Tp>
1143 struct __is_move_assignable_impl<_Tp, false>
1144 : public false_type { };
1145
1146 template<typename _Tp>
1147 struct __is_move_assignable_impl<_Tp, true>
1148 : public __bool_constant<__is_assignable(_Tp&, _Tp&&)>
1149 { };
1150
1151 /// is_move_assignable
1152 template<typename _Tp>
1153 struct is_move_assignable
1154 : public __is_move_assignable_impl<_Tp>::type
1155 {
1156 static_assert(std::__is_complete_or_unbounded(__type_identity<_Tp>{}),
1157 "template argument must be a complete class or an unbounded array");
1158 };
1159
1160 template<typename _Tp, typename _Up>
1161 using __is_nothrow_assignable_impl
1162 = __bool_constant<__is_nothrow_assignable(_Tp, _Up)>;
1163
1164 /// is_nothrow_assignable
1165 template<typename _Tp, typename _Up>
1166 struct is_nothrow_assignable
1167 : public __is_nothrow_assignable_impl<_Tp, _Up>
1168 {
1169 static_assert(std::__is_complete_or_unbounded(__type_identity<_Tp>{}),
1170 "template argument must be a complete class or an unbounded array");
1171 };
1172
1173 template<typename _Tp, bool = __is_referenceable<_Tp>::value>
1174 struct __is_nt_copy_assignable_impl;
1175
1176 template<typename _Tp>
1177 struct __is_nt_copy_assignable_impl<_Tp, false>
1178 : public false_type { };
1179
1180 template<typename _Tp>
1181 struct __is_nt_copy_assignable_impl<_Tp, true>
1182 : public __is_nothrow_assignable_impl<_Tp&, const _Tp&>
1183 { };
1184
1185 /// is_nothrow_copy_assignable
1186 template<typename _Tp>
1187 struct is_nothrow_copy_assignable
1188 : public __is_nt_copy_assignable_impl<_Tp>
1189 {
1190 static_assert(std::__is_complete_or_unbounded(__type_identity<_Tp>{}),
1191 "template argument must be a complete class or an unbounded array");
1192 };
1193
1194 template<typename _Tp, bool = __is_referenceable<_Tp>::value>
1195 struct __is_nt_move_assignable_impl;
1196
1197 template<typename _Tp>
1198 struct __is_nt_move_assignable_impl<_Tp, false>
1199 : public false_type { };
1200
1201 template<typename _Tp>
1202 struct __is_nt_move_assignable_impl<_Tp, true>
1203 : public __is_nothrow_assignable_impl<_Tp&, _Tp&&>
1204 { };
1205
1206 /// is_nothrow_move_assignable
1207 template<typename _Tp>
1208 struct is_nothrow_move_assignable
1209 : public __is_nt_move_assignable_impl<_Tp>
1210 {
1211 static_assert(std::__is_complete_or_unbounded(__type_identity<_Tp>{}),
1212 "template argument must be a complete class or an unbounded array");
1213 };
1214
1215 /// is_trivially_constructible
1216 template<typename _Tp, typename... _Args>
1217 struct is_trivially_constructible
1218 : public __bool_constant<__is_trivially_constructible(_Tp, _Args...)>
1219 {
1220 static_assert(std::__is_complete_or_unbounded(__type_identity<_Tp>{}),
1221 "template argument must be a complete class or an unbounded array");
1222 };
1223
1224 /// is_trivially_default_constructible
1225 template<typename _Tp>
1226 struct is_trivially_default_constructible
1227 : public __bool_constant<__is_trivially_constructible(_Tp)>
1228 {
1229 static_assert(std::__is_complete_or_unbounded(__type_identity<_Tp>{}),
1230 "template argument must be a complete class or an unbounded array");
1231 };
1232
1233 struct __do_is_implicitly_default_constructible_impl
1234 {
1235 template <typename _Tp>
1236 static void __helper(const _Tp&);
1237
1238 template <typename _Tp>
1239 static true_type __test(const _Tp&,
1240 decltype(__helper<const _Tp&>({}))* = 0);
1241
1242 static false_type __test(...);
1243 };
1244
1245 template<typename _Tp>
1246 struct __is_implicitly_default_constructible_impl
1247 : public __do_is_implicitly_default_constructible_impl
1248 {
1249 typedef decltype(__test(declval<_Tp>())) type;
1250 };
1251
1252 template<typename _Tp>
1253 struct __is_implicitly_default_constructible_safe
1254 : public __is_implicitly_default_constructible_impl<_Tp>::type
1255 { };
1256
1257 template <typename _Tp>
1258 struct __is_implicitly_default_constructible
1259 : public __and_<__is_constructible_impl<_Tp>,
1260 __is_implicitly_default_constructible_safe<_Tp>>
1261 { };
1262
1263 template<typename _Tp, bool = __is_referenceable<_Tp>::value>
1264 struct __is_trivially_copy_constructible_impl;
1265
1266 template<typename _Tp>
1267 struct __is_trivially_copy_constructible_impl<_Tp, false>
1268 : public false_type { };
1269
1270 template<typename _Tp>
1271 struct __is_trivially_copy_constructible_impl<_Tp, true>
1272 : public __and_<__is_copy_constructible_impl<_Tp>,
1273 integral_constant<bool,
1274 __is_trivially_constructible(_Tp, const _Tp&)>>
1275 { };
1276
1277 /// is_trivially_copy_constructible
1278 template<typename _Tp>
1279 struct is_trivially_copy_constructible
1280 : public __is_trivially_copy_constructible_impl<_Tp>
1281 {
1282 static_assert(std::__is_complete_or_unbounded(__type_identity<_Tp>{}),
1283 "template argument must be a complete class or an unbounded array");
1284 };
1285
1286 template<typename _Tp, bool = __is_referenceable<_Tp>::value>
1287 struct __is_trivially_move_constructible_impl;
1288
1289 template<typename _Tp>
1290 struct __is_trivially_move_constructible_impl<_Tp, false>
1291 : public false_type { };
1292
1293 template<typename _Tp>
1294 struct __is_trivially_move_constructible_impl<_Tp, true>
1295 : public __and_<__is_move_constructible_impl<_Tp>,
1296 integral_constant<bool,
1297 __is_trivially_constructible(_Tp, _Tp&&)>>
1298 { };
1299
1300 /// is_trivially_move_constructible
1301 template<typename _Tp>
1302 struct is_trivially_move_constructible
1303 : public __is_trivially_move_constructible_impl<_Tp>
1304 {
1305 static_assert(std::__is_complete_or_unbounded(__type_identity<_Tp>{}),
1306 "template argument must be a complete class or an unbounded array");
1307 };
1308
1309 /// is_trivially_assignable
1310 template<typename _Tp, typename _Up>
1311 struct is_trivially_assignable
1312 : public __bool_constant<__is_trivially_assignable(_Tp, _Up)>
1313 {
1314 static_assert(std::__is_complete_or_unbounded(__type_identity<_Tp>{}),
1315 "template argument must be a complete class or an unbounded array");
1316 };
1317
1318 template<typename _Tp, bool = __is_referenceable<_Tp>::value>
1319 struct __is_trivially_copy_assignable_impl;
1320
1321 template<typename _Tp>
1322 struct __is_trivially_copy_assignable_impl<_Tp, false>
1323 : public false_type { };
1324
1325 template<typename _Tp>
1326 struct __is_trivially_copy_assignable_impl<_Tp, true>
1327 : public __bool_constant<__is_trivially_assignable(_Tp&, const _Tp&)>
1328 { };
1329
1330 /// is_trivially_copy_assignable
1331 template<typename _Tp>
1332 struct is_trivially_copy_assignable
1333 : public __is_trivially_copy_assignable_impl<_Tp>
1334 {
1335 static_assert(std::__is_complete_or_unbounded(__type_identity<_Tp>{}),
1336 "template argument must be a complete class or an unbounded array");
1337 };
1338
1339 template<typename _Tp, bool = __is_referenceable<_Tp>::value>
1340 struct __is_trivially_move_assignable_impl;
1341
1342 template<typename _Tp>
1343 struct __is_trivially_move_assignable_impl<_Tp, false>
1344 : public false_type { };
1345
1346 template<typename _Tp>
1347 struct __is_trivially_move_assignable_impl<_Tp, true>
1348 : public __bool_constant<__is_trivially_assignable(_Tp&, _Tp&&)>
1349 { };
1350
1351 /// is_trivially_move_assignable
1352 template<typename _Tp>
1353 struct is_trivially_move_assignable
1354 : public __is_trivially_move_assignable_impl<_Tp>
1355 {
1356 static_assert(std::__is_complete_or_unbounded(__type_identity<_Tp>{}),
1357 "template argument must be a complete class or an unbounded array");
1358 };
1359
1360 /// is_trivially_destructible
1361 template<typename _Tp>
1362 struct is_trivially_destructible
1363 : public __and_<__is_destructible_safe<_Tp>,
1364 __bool_constant<__has_trivial_destructor(_Tp)>>
1365 {
1366 static_assert(std::__is_complete_or_unbounded(__type_identity<_Tp>{}),
1367 "template argument must be a complete class or an unbounded array");
1368 };
1369
1370
1371 /// has_virtual_destructor
1372 template<typename _Tp>
1373 struct has_virtual_destructor
1374 : public integral_constant<bool, __has_virtual_destructor(_Tp)>
1375 {
1376 static_assert(std::__is_complete_or_unbounded(__type_identity<_Tp>{}),
1377 "template argument must be a complete class or an unbounded array");
1378 };
1379
1380
1381 // type property queries.
1382
1383 /// alignment_of
1384 template<typename _Tp>
1385 struct alignment_of
1386 : public integral_constant<std::size_t, alignof(_Tp)>
1387 {
1388 static_assert(std::__is_complete_or_unbounded(__type_identity<_Tp>{}),
1389 "template argument must be a complete class or an unbounded array");
1390 };
1391
1392 /// rank
1393 template<typename>
1394 struct rank
1395 : public integral_constant<std::size_t, 0> { };
1396
1397 template<typename _Tp, std::size_t _Size>
1398 struct rank<_Tp[_Size]>
1399 : public integral_constant<std::size_t, 1 + rank<_Tp>::value> { };
1400
1401 template<typename _Tp>
1402 struct rank<_Tp[]>
1403 : public integral_constant<std::size_t, 1 + rank<_Tp>::value> { };
1404
1405 /// extent
1406 template<typename, unsigned _Uint>
1407 struct extent
1408 : public integral_constant<std::size_t, 0> { };
1409
1410 template<typename _Tp, unsigned _Uint, std::size_t _Size>
1411 struct extent<_Tp[_Size], _Uint>
1412 : public integral_constant<std::size_t,
1413 _Uint == 0 ? _Size : extent<_Tp,
1414 _Uint - 1>::value>
1415 { };
1416
1417 template<typename _Tp, unsigned _Uint>
1418 struct extent<_Tp[], _Uint>
1419 : public integral_constant<std::size_t,
1420 _Uint == 0 ? 0 : extent<_Tp,
1421 _Uint - 1>::value>
1422 { };
1423
1424
1425 // Type relations.
1426
1427 /// is_same
1428 template<typename _Tp, typename _Up>
1429 struct is_same
1430#ifdef _GLIBCXX_HAVE_BUILTIN_IS_SAME
1431 : public integral_constant<bool, __is_same(_Tp, _Up)>
1432#else
1433 : public false_type
1434#endif
1435 { };
1436
1437#ifndef _GLIBCXX_HAVE_BUILTIN_IS_SAME
1438 template<typename _Tp>
1439 struct is_same<_Tp, _Tp>
1440 : public true_type
1441 { };
1442#endif
1443
1444 /// is_base_of
1445 template<typename _Base, typename _Derived>
1446 struct is_base_of
1447 : public integral_constant<bool, __is_base_of(_Base, _Derived)>
1448 { };
1449
1450 template<typename _From, typename _To,
1451 bool = __or_<is_void<_From>, is_function<_To>,
1452 is_array<_To>>::value>
1453 struct __is_convertible_helper
1454 {
1455 typedef typename is_void<_To>::type type;
1456 };
1457
1458#pragma GCC diagnostic push
1459#pragma GCC diagnostic ignored "-Wctor-dtor-privacy"
1460 template<typename _From, typename _To>
1461 class __is_convertible_helper<_From, _To, false>
1462 {
1463 template<typename _To1>
1464 static void __test_aux(_To1) noexcept;
1465
1466 template<typename _From1, typename _To1,
1467 typename = decltype(__test_aux<_To1>(std::declval<_From1>()))>
1468 static true_type
1469 __test(int);
1470
1471 template<typename, typename>
1472 static false_type
1473 __test(...);
1474
1475 public:
1476 typedef decltype(__test<_From, _To>(0)) type;
1477 };
1478#pragma GCC diagnostic pop
1479
1480 /// is_convertible
1481 template<typename _From, typename _To>
1482 struct is_convertible
1483 : public __is_convertible_helper<_From, _To>::type
1484 { };
1485
1486 // helper trait for unique_ptr<T[]>, shared_ptr<T[]>, and span<T, N>
1487 template<typename _ToElementType, typename _FromElementType>
1488 using __is_array_convertible
1489 = is_convertible<_FromElementType(*)[], _ToElementType(*)[]>;
1490
1491 template<typename _From, typename _To,
1492 bool = __or_<is_void<_From>, is_function<_To>,
1493 is_array<_To>>::value>
1494 struct __is_nt_convertible_helper
1495 : is_void<_To>
1496 { };
1497
1498#pragma GCC diagnostic push
1499#pragma GCC diagnostic ignored "-Wctor-dtor-privacy"
1500 template<typename _From, typename _To>
1501 class __is_nt_convertible_helper<_From, _To, false>
1502 {
1503 template<typename _To1>
1504 static void __test_aux(_To1) noexcept;
1505
1506 template<typename _From1, typename _To1>
1507 static
1508 __bool_constant<noexcept(__test_aux<_To1>(std::declval<_From1>()))>
1509 __test(int);
1510
1511 template<typename, typename>
1512 static false_type
1513 __test(...);
1514
1515 public:
1516 using type = decltype(__test<_From, _To>(0));
1517 };
1518#pragma GCC diagnostic pop
1519
1520#if __cplusplus > 201703L
1521#define __cpp_lib_is_nothrow_convertible 201806L
1522 /// is_nothrow_convertible
1523 template<typename _From, typename _To>
1524 struct is_nothrow_convertible
1525 : public __is_nt_convertible_helper<_From, _To>::type
1526 { };
1527
1528 /// is_nothrow_convertible_v
1529 template<typename _From, typename _To>
1530 inline constexpr bool is_nothrow_convertible_v
1531 = is_nothrow_convertible<_From, _To>::value;
1532#endif // C++2a
1533
1534 // Const-volatile modifications.
1535
1536 /// remove_const
1537 template<typename _Tp>
1538 struct remove_const
1539 { typedef _Tp type; };
1540
1541 template<typename _Tp>
1542 struct remove_const<_Tp const>
1543 { typedef _Tp type; };
1544
1545 /// remove_volatile
1546 template<typename _Tp>
1547 struct remove_volatile
1548 { typedef _Tp type; };
1549
1550 template<typename _Tp>
1551 struct remove_volatile<_Tp volatile>
1552 { typedef _Tp type; };
1553
1554 /// remove_cv
1555 template<typename _Tp>
1556 struct remove_cv
1557 { using type = _Tp; };
1558
1559 template<typename _Tp>
1560 struct remove_cv<const _Tp>
1561 { using type = _Tp; };
1562
1563 template<typename _Tp>
1564 struct remove_cv<volatile _Tp>
1565 { using type = _Tp; };
1566
1567 template<typename _Tp>
1568 struct remove_cv<const volatile _Tp>
1569 { using type = _Tp; };
1570
1571 /// add_const
1572 template<typename _Tp>
1573 struct add_const
1574 { typedef _Tp const type; };
1575
1576 /// add_volatile
1577 template<typename _Tp>
1578 struct add_volatile
1579 { typedef _Tp volatile type; };
1580
1581 /// add_cv
1582 template<typename _Tp>
1583 struct add_cv
1584 {
1585 typedef typename
1586 add_const<typename add_volatile<_Tp>::type>::type type;
1587 };
1588
1589#if __cplusplus > 201103L
1590
1591#define __cpp_lib_transformation_trait_aliases 201304L
1592
1593 /// Alias template for remove_const
1594 template<typename _Tp>
1595 using remove_const_t = typename remove_const<_Tp>::type;
1596
1597 /// Alias template for remove_volatile
1598 template<typename _Tp>
1599 using remove_volatile_t = typename remove_volatile<_Tp>::type;
1600
1601 /// Alias template for remove_cv
1602 template<typename _Tp>
1603 using remove_cv_t = typename remove_cv<_Tp>::type;
1604
1605 /// Alias template for add_const
1606 template<typename _Tp>
1607 using add_const_t = typename add_const<_Tp>::type;
1608
1609 /// Alias template for add_volatile
1610 template<typename _Tp>
1611 using add_volatile_t = typename add_volatile<_Tp>::type;
1612
1613 /// Alias template for add_cv
1614 template<typename _Tp>
1615 using add_cv_t = typename add_cv<_Tp>::type;
1616#endif
1617
1618 // Reference transformations.
1619
1620 /// remove_reference
1621 template<typename _Tp>
1622 struct remove_reference
1623 { typedef _Tp type; };
1624
1625 template<typename _Tp>
1626 struct remove_reference<_Tp&>
1627 { typedef _Tp type; };
1628
1629 template<typename _Tp>
1630 struct remove_reference<_Tp&&>
1631 { typedef _Tp type; };
1632
1633 template<typename _Tp, bool = __is_referenceable<_Tp>::value>
1634 struct __add_lvalue_reference_helper
1635 { typedef _Tp type; };
1636
1637 template<typename _Tp>
1638 struct __add_lvalue_reference_helper<_Tp, true>
1639 { typedef _Tp& type; };
1640
1641 /// add_lvalue_reference
1642 template<typename _Tp>
1643 struct add_lvalue_reference
1644 : public __add_lvalue_reference_helper<_Tp>
1645 { };
1646
1647 template<typename _Tp, bool = __is_referenceable<_Tp>::value>
1648 struct __add_rvalue_reference_helper
1649 { typedef _Tp type; };
1650
1651 template<typename _Tp>
1652 struct __add_rvalue_reference_helper<_Tp, true>
1653 { typedef _Tp&& type; };
1654
1655 /// add_rvalue_reference
1656 template<typename _Tp>
1657 struct add_rvalue_reference
1658 : public __add_rvalue_reference_helper<_Tp>
1659 { };
1660
1661#if __cplusplus > 201103L
1662 /// Alias template for remove_reference
1663 template<typename _Tp>
1664 using remove_reference_t = typename remove_reference<_Tp>::type;
1665
1666 /// Alias template for add_lvalue_reference
1667 template<typename _Tp>
1668 using add_lvalue_reference_t = typename add_lvalue_reference<_Tp>::type;
1669
1670 /// Alias template for add_rvalue_reference
1671 template<typename _Tp>
1672 using add_rvalue_reference_t = typename add_rvalue_reference<_Tp>::type;
1673#endif
1674
1675 // Sign modifications.
1676
1677 /// @cond undocumented
1678
1679 // Utility for constructing identically cv-qualified types.
1680 template<typename _Unqualified, bool _IsConst, bool _IsVol>
1681 struct __cv_selector;
1682
1683 template<typename _Unqualified>
1684 struct __cv_selector<_Unqualified, false, false>
1685 { typedef _Unqualified __type; };
1686
1687 template<typename _Unqualified>
1688 struct __cv_selector<_Unqualified, false, true>
1689 { typedef volatile _Unqualified __type; };
1690
1691 template<typename _Unqualified>
1692 struct __cv_selector<_Unqualified, true, false>
1693 { typedef const _Unqualified __type; };
1694
1695 template<typename _Unqualified>
1696 struct __cv_selector<_Unqualified, true, true>
1697 { typedef const volatile _Unqualified __type; };
1698
1699 template<typename _Qualified, typename _Unqualified,
1700 bool _IsConst = is_const<_Qualified>::value,
1701 bool _IsVol = is_volatile<_Qualified>::value>
1702 class __match_cv_qualifiers
1703 {
1704 typedef __cv_selector<_Unqualified, _IsConst, _IsVol> __match;
1705
1706 public:
1707 typedef typename __match::__type __type;
1708 };
1709
1710 // Utility for finding the unsigned versions of signed integral types.
1711 template<typename _Tp>
1712 struct __make_unsigned
1713 { typedef _Tp __type; };
1714
1715 template<>
1716 struct __make_unsigned<char>
1717 { typedef unsigned char __type; };
1718
1719 template<>
1720 struct __make_unsigned<signed char>
1721 { typedef unsigned char __type; };
1722
1723 template<>
1724 struct __make_unsigned<short>
1725 { typedef unsigned short __type; };
1726
1727 template<>
1728 struct __make_unsigned<int>
1729 { typedef unsigned int __type; };
1730
1731 template<>
1732 struct __make_unsigned<long>
1733 { typedef unsigned long __type; };
1734
1735 template<>
1736 struct __make_unsigned<long long>
1737 { typedef unsigned long long __type; };
1738
1739#if defined(__GLIBCXX_TYPE_INT_N_0)
1740 __extension__
1741 template<>
1742 struct __make_unsigned<__GLIBCXX_TYPE_INT_N_0>
1743 { typedef unsigned __GLIBCXX_TYPE_INT_N_0 __type; };
1744#endif
1745#if defined(__GLIBCXX_TYPE_INT_N_1)
1746 __extension__
1747 template<>
1748 struct __make_unsigned<__GLIBCXX_TYPE_INT_N_1>
1749 { typedef unsigned __GLIBCXX_TYPE_INT_N_1 __type; };
1750#endif
1751#if defined(__GLIBCXX_TYPE_INT_N_2)
1752 __extension__
1753 template<>
1754 struct __make_unsigned<__GLIBCXX_TYPE_INT_N_2>
1755 { typedef unsigned __GLIBCXX_TYPE_INT_N_2 __type; };
1756#endif
1757#if defined(__GLIBCXX_TYPE_INT_N_3)
1758 __extension__
1759 template<>
1760 struct __make_unsigned<__GLIBCXX_TYPE_INT_N_3>
1761 { typedef unsigned __GLIBCXX_TYPE_INT_N_3 __type; };
1762#endif
1763
1764 // Select between integral and enum: not possible to be both.
1765 template<typename _Tp,
1766 bool _IsInt = is_integral<_Tp>::value,
1767 bool _IsEnum = is_enum<_Tp>::value>
1768 class __make_unsigned_selector;
1769
1770 template<typename _Tp>
1771 class __make_unsigned_selector<_Tp, true, false>
1772 {
1773 using __unsigned_type
1774 = typename __make_unsigned<__remove_cv_t<_Tp>>::__type;
1775
1776 public:
1777 using __type
1778 = typename __match_cv_qualifiers<_Tp, __unsigned_type>::__type;
1779 };
1780
1781 class __make_unsigned_selector_base
1782 {
1783 protected:
1784 template<typename...> struct _List { };
1785
1786 template<typename _Tp, typename... _Up>
1787 struct _List<_Tp, _Up...> : _List<_Up...>
1788 { static constexpr size_t __size = sizeof(_Tp); };
1789
1790 template<size_t _Sz, typename _Tp, bool = (_Sz <= _Tp::__size)>
1791 struct __select;
1792
1793 template<size_t _Sz, typename _Uint, typename... _UInts>
1794 struct __select<_Sz, _List<_Uint, _UInts...>, true>
1795 { using __type = _Uint; };
1796
1797 template<size_t _Sz, typename _Uint, typename... _UInts>
1798 struct __select<_Sz, _List<_Uint, _UInts...>, false>
1799 : __select<_Sz, _List<_UInts...>>
1800 { };
1801 };
1802
1803 // Choose unsigned integer type with the smallest rank and same size as _Tp
1804 template<typename _Tp>
1805 class __make_unsigned_selector<_Tp, false, true>
1806 : __make_unsigned_selector_base
1807 {
1808 // With -fshort-enums, an enum may be as small as a char.
1809 using _UInts = _List<unsigned char, unsigned short, unsigned int,
1810 unsigned long, unsigned long long>;
1811
1812 using __unsigned_type = typename __select<sizeof(_Tp), _UInts>::__type;
1813
1814 public:
1815 using __type
1816 = typename __match_cv_qualifiers<_Tp, __unsigned_type>::__type;
1817 };
1818
1819 // wchar_t, char8_t, char16_t and char32_t are integral types but are
1820 // neither signed integer types nor unsigned integer types, so must be
1821 // transformed to the unsigned integer type with the smallest rank.
1822 // Use the partial specialization for enumeration types to do that.
1823 template<>
1824 struct __make_unsigned<wchar_t>
1825 {
1826 using __type
1827 = typename __make_unsigned_selector<wchar_t, false, true>::__type;
1828 };
1829
1830#ifdef _GLIBCXX_USE_CHAR8_T
1831 template<>
1832 struct __make_unsigned<char8_t>
1833 {
1834 using __type
1835 = typename __make_unsigned_selector<char8_t, false, true>::__type;
1836 };
1837#endif
1838
1839 template<>
1840 struct __make_unsigned<char16_t>
1841 {
1842 using __type
1843 = typename __make_unsigned_selector<char16_t, false, true>::__type;
1844 };
1845
1846 template<>
1847 struct __make_unsigned<char32_t>
1848 {
1849 using __type
1850 = typename __make_unsigned_selector<char32_t, false, true>::__type;
1851 };
1852 /// @endcond
1853
1854 // Given an integral/enum type, return the corresponding unsigned
1855 // integer type.
1856 // Primary template.
1857 /// make_unsigned
1858 template<typename _Tp>
1859 struct make_unsigned
1860 { typedef typename __make_unsigned_selector<_Tp>::__type type; };
1861
1862 // Integral, but don't define.
1863 template<>
1864 struct make_unsigned<bool>;
1865
1866 /// @cond undocumented
1867
1868 // Utility for finding the signed versions of unsigned integral types.
1869 template<typename _Tp>
1870 struct __make_signed
1871 { typedef _Tp __type; };
1872
1873 template<>
1874 struct __make_signed<char>
1875 { typedef signed char __type; };
1876
1877 template<>
1878 struct __make_signed<unsigned char>
1879 { typedef signed char __type; };
1880
1881 template<>
1882 struct __make_signed<unsigned short>
1883 { typedef signed short __type; };
1884
1885 template<>
1886 struct __make_signed<unsigned int>
1887 { typedef signed int __type; };
1888
1889 template<>
1890 struct __make_signed<unsigned long>
1891 { typedef signed long __type; };
1892
1893 template<>
1894 struct __make_signed<unsigned long long>
1895 { typedef signed long long __type; };
1896
1897#if defined(__GLIBCXX_TYPE_INT_N_0)
1898 __extension__
1899 template<>
1900 struct __make_signed<unsigned __GLIBCXX_TYPE_INT_N_0>
1901 { typedef __GLIBCXX_TYPE_INT_N_0 __type; };
1902#endif
1903#if defined(__GLIBCXX_TYPE_INT_N_1)
1904 __extension__
1905 template<>
1906 struct __make_signed<unsigned __GLIBCXX_TYPE_INT_N_1>
1907 { typedef __GLIBCXX_TYPE_INT_N_1 __type; };
1908#endif
1909#if defined(__GLIBCXX_TYPE_INT_N_2)
1910 __extension__
1911 template<>
1912 struct __make_signed<unsigned __GLIBCXX_TYPE_INT_N_2>
1913 { typedef __GLIBCXX_TYPE_INT_N_2 __type; };
1914#endif
1915#if defined(__GLIBCXX_TYPE_INT_N_3)
1916 __extension__
1917 template<>
1918 struct __make_signed<unsigned __GLIBCXX_TYPE_INT_N_3>
1919 { typedef __GLIBCXX_TYPE_INT_N_3 __type; };
1920#endif
1921
1922 // Select between integral and enum: not possible to be both.
1923 template<typename _Tp,
1924 bool _IsInt = is_integral<_Tp>::value,
1925 bool _IsEnum = is_enum<_Tp>::value>
1926 class __make_signed_selector;
1927
1928 template<typename _Tp>
1929 class __make_signed_selector<_Tp, true, false>
1930 {
1931 using __signed_type
1932 = typename __make_signed<__remove_cv_t<_Tp>>::__type;
1933
1934 public:
1935 using __type
1936 = typename __match_cv_qualifiers<_Tp, __signed_type>::__type;
1937 };
1938
1939 // Choose signed integer type with the smallest rank and same size as _Tp
1940 template<typename _Tp>
1941 class __make_signed_selector<_Tp, false, true>
1942 {
1943 typedef typename __make_unsigned_selector<_Tp>::__type __unsigned_type;
1944
1945 public:
1946 typedef typename __make_signed_selector<__unsigned_type>::__type __type;
1947 };
1948
1949 // wchar_t, char16_t and char32_t are integral types but are neither
1950 // signed integer types nor unsigned integer types, so must be
1951 // transformed to the signed integer type with the smallest rank.
1952 // Use the partial specialization for enumeration types to do that.
1953 template<>
1954 struct __make_signed<wchar_t>
1955 {
1956 using __type
1957 = typename __make_signed_selector<wchar_t, false, true>::__type;
1958 };
1959
1960#if defined(_GLIBCXX_USE_CHAR8_T)
1961 template<>
1962 struct __make_signed<char8_t>
1963 {
1964 using __type
1965 = typename __make_signed_selector<char8_t, false, true>::__type;
1966 };
1967#endif
1968
1969 template<>
1970 struct __make_signed<char16_t>
1971 {
1972 using __type
1973 = typename __make_signed_selector<char16_t, false, true>::__type;
1974 };
1975
1976 template<>
1977 struct __make_signed<char32_t>
1978 {
1979 using __type
1980 = typename __make_signed_selector<char32_t, false, true>::__type;
1981 };
1982 /// @endcond
1983
1984 // Given an integral/enum type, return the corresponding signed
1985 // integer type.
1986 // Primary template.
1987 /// make_signed
1988 template<typename _Tp>
1989 struct make_signed
1990 { typedef typename __make_signed_selector<_Tp>::__type type; };
1991
1992 // Integral, but don't define.
1993 template<>
1994 struct make_signed<bool>;
1995
1996#if __cplusplus > 201103L
1997 /// Alias template for make_signed
1998 template<typename _Tp>
1999 using make_signed_t = typename make_signed<_Tp>::type;
2000
2001 /// Alias template for make_unsigned
2002 template<typename _Tp>
2003 using make_unsigned_t = typename make_unsigned<_Tp>::type;
2004#endif
2005
2006 // Array modifications.
2007
2008 /// remove_extent
2009 template<typename _Tp>
2010 struct remove_extent
2011 { typedef _Tp type; };
2012
2013 template<typename _Tp, std::size_t _Size>
2014 struct remove_extent<_Tp[_Size]>
2015 { typedef _Tp type; };
2016
2017 template<typename _Tp>
2018 struct remove_extent<_Tp[]>
2019 { typedef _Tp type; };
2020
2021 /// remove_all_extents
2022 template<typename _Tp>
2023 struct remove_all_extents
2024 { typedef _Tp type; };
2025
2026 template<typename _Tp, std::size_t _Size>
2027 struct remove_all_extents<_Tp[_Size]>
2028 { typedef typename remove_all_extents<_Tp>::type type; };
2029
2030 template<typename _Tp>
2031 struct remove_all_extents<_Tp[]>
2032 { typedef typename remove_all_extents<_Tp>::type type; };
2033
2034#if __cplusplus > 201103L
2035 /// Alias template for remove_extent
2036 template<typename _Tp>
2037 using remove_extent_t = typename remove_extent<_Tp>::type;
2038
2039 /// Alias template for remove_all_extents
2040 template<typename _Tp>
2041 using remove_all_extents_t = typename remove_all_extents<_Tp>::type;
2042#endif
2043
2044 // Pointer modifications.
2045
2046 template<typename _Tp, typename>
2047 struct __remove_pointer_helper
2048 { typedef _Tp type; };
2049
2050 template<typename _Tp, typename _Up>
2051 struct __remove_pointer_helper<_Tp, _Up*>
2052 { typedef _Up type; };
2053
2054 /// remove_pointer
2055 template<typename _Tp>
2056 struct remove_pointer
2057 : public __remove_pointer_helper<_Tp, __remove_cv_t<_Tp>>
2058 { };
2059
2060 template<typename _Tp, bool = __or_<__is_referenceable<_Tp>,
2061 is_void<_Tp>>::value>
2062 struct __add_pointer_helper
2063 { typedef _Tp type; };
2064
2065 template<typename _Tp>
2066 struct __add_pointer_helper<_Tp, true>
2067 { typedef typename remove_reference<_Tp>::type* type; };
2068
2069 /// add_pointer
2070 template<typename _Tp>
2071 struct add_pointer
2072 : public __add_pointer_helper<_Tp>
2073 { };
2074
2075#if __cplusplus > 201103L
2076 /// Alias template for remove_pointer
2077 template<typename _Tp>
2078 using remove_pointer_t = typename remove_pointer<_Tp>::type;
2079
2080 /// Alias template for add_pointer
2081 template<typename _Tp>
2082 using add_pointer_t = typename add_pointer<_Tp>::type;
2083#endif
2084
2085 template<std::size_t _Len>
2086 struct __aligned_storage_msa
2087 {
2088 union __type
2089 {
2090 unsigned char __data[_Len];
2091 struct __attribute__((__aligned__)) { } __align;
2092 };
2093 };
2094
2095 /**
2096 * @brief Alignment type.
2097 *
2098 * The value of _Align is a default-alignment which shall be the
2099 * most stringent alignment requirement for any C++ object type
2100 * whose size is no greater than _Len (3.9). The member typedef
2101 * type shall be a POD type suitable for use as uninitialized
2102 * storage for any object whose size is at most _Len and whose
2103 * alignment is a divisor of _Align.
2104 */
2105 template<std::size_t _Len, std::size_t _Align =
2106 __alignof__(typename __aligned_storage_msa<_Len>::__type)>
2107 struct aligned_storage
2108 {
2109 union type
2110 {
2111 unsigned char __data[_Len];
2112 struct __attribute__((__aligned__((_Align)))) { } __align;
2113 };
2114 };
2115
2116 template <typename... _Types>
2117 struct __strictest_alignment
2118 {
2119 static const size_t _S_alignment = 0;
2120 static const size_t _S_size = 0;
2121 };
2122
2123 template <typename _Tp, typename... _Types>
2124 struct __strictest_alignment<_Tp, _Types...>
2125 {
2126 static const size_t _S_alignment =
2127 alignof(_Tp) > __strictest_alignment<_Types...>::_S_alignment
2128 ? alignof(_Tp) : __strictest_alignment<_Types...>::_S_alignment;
2129 static const size_t _S_size =
2130 sizeof(_Tp) > __strictest_alignment<_Types...>::_S_size
2131 ? sizeof(_Tp) : __strictest_alignment<_Types...>::_S_size;
2132 };
2133
2134 /**
2135 * @brief Provide aligned storage for types.
2136 *
2137 * [meta.trans.other]
2138 *
2139 * Provides aligned storage for any of the provided types of at
2140 * least size _Len.
2141 *
2142 * @see aligned_storage
2143 */
2144 template <size_t _Len, typename... _Types>
2145 struct aligned_union
2146 {
2147 private:
2148 static_assert(sizeof...(_Types) != 0, "At least one type is required");
2149
2150 using __strictest = __strictest_alignment<_Types...>;
2151 static const size_t _S_len = _Len > __strictest::_S_size
2152 ? _Len : __strictest::_S_size;
2153 public:
2154 /// The value of the strictest alignment of _Types.
2155 static const size_t alignment_value = __strictest::_S_alignment;
2156 /// The storage.
2157 typedef typename aligned_storage<_S_len, alignment_value>::type type;
2158 };
2159
2160 template <size_t _Len, typename... _Types>
2161 const size_t aligned_union<_Len, _Types...>::alignment_value;
2162
2163 /// @cond undocumented
2164
2165 // Decay trait for arrays and functions, used for perfect forwarding
2166 // in make_pair, make_tuple, etc.
2167 template<typename _Up,
2168 bool _IsArray = is_array<_Up>::value,
2169 bool _IsFunction = is_function<_Up>::value>
2170 struct __decay_selector;
2171
2172 // NB: DR 705.
2173 template<typename _Up>
2174 struct __decay_selector<_Up, false, false>
2175 { typedef __remove_cv_t<_Up> __type; };
2176
2177 template<typename _Up>
2178 struct __decay_selector<_Up, true, false>
2179 { typedef typename remove_extent<_Up>::type* __type; };
2180
2181 template<typename _Up>
2182 struct __decay_selector<_Up, false, true>
2183 { typedef typename add_pointer<_Up>::type __type; };
2184 /// @endcond
2185
2186 /// decay
2187 template<typename _Tp>
2188 class decay
2189 {
2190 typedef typename remove_reference<_Tp>::type __remove_type;
2191
2192 public:
2193 typedef typename __decay_selector<__remove_type>::__type type;
2194 };
2195
2196 /// @cond undocumented
2197
2198 // Helper which adds a reference to a type when given a reference_wrapper
2199 template<typename _Tp>
2200 struct __strip_reference_wrapper
2201 {
2202 typedef _Tp __type;
2203 };
2204
2205 template<typename _Tp>
2206 struct __strip_reference_wrapper<reference_wrapper<_Tp> >
2207 {
2208 typedef _Tp& __type;
2209 };
2210
2211 // __decay_t (std::decay_t for C++11).
2212 template<typename _Tp>
2213 using __decay_t = typename decay<_Tp>::type;
2214
2215 template<typename _Tp>
2216 using __decay_and_strip = __strip_reference_wrapper<__decay_t<_Tp>>;
2217 /// @endcond
2218
2219 // Primary template.
2220 /// Define a member typedef `type` only if a boolean constant is true.
2221 template<bool, typename _Tp = void>
2222 struct enable_if
2223 { };
2224
2225 // Partial specialization for true.
2226 template<typename _Tp>
2227 struct enable_if<true, _Tp>
2228 { typedef _Tp type; };
2229
2230 /// @cond undocumented
2231
2232 // __enable_if_t (std::enable_if_t for C++11)
2233 template<bool _Cond, typename _Tp = void>
2234 using __enable_if_t = typename enable_if<_Cond, _Tp>::type;
2235
2236 // Helper for SFINAE constraints
2237 template<typename... _Cond>
2238 using _Require = __enable_if_t<__and_<_Cond...>::value>;
2239
2240 // __remove_cvref_t (std::remove_cvref_t for C++11).
2241 template<typename _Tp>
2242 using __remove_cvref_t
2243 = typename remove_cv<typename remove_reference<_Tp>::type>::type;
2244 /// @endcond
2245
2246 // Primary template.
2247 /// Define a member typedef @c type to one of two argument types.
2248 template<bool _Cond, typename _Iftrue, typename _Iffalse>
2249 struct conditional
2250 { typedef _Iftrue type; };
2251
2252 // Partial specialization for false.
2253 template<typename _Iftrue, typename _Iffalse>
2254 struct conditional<false, _Iftrue, _Iffalse>
2255 { typedef _Iffalse type; };
2256
2257 /// common_type
2258 template<typename... _Tp>
2259 struct common_type;
2260
2261 // Sfinae-friendly common_type implementation:
2262
2263 /// @cond undocumented
2264 struct __do_common_type_impl
2265 {
2266 template<typename _Tp, typename _Up>
2267 using __cond_t
2268 = decltype(true ? std::declval<_Tp>() : std::declval<_Up>());
2269
2270 // if decay_t<decltype(false ? declval<D1>() : declval<D2>())>
2271 // denotes a valid type, let C denote that type.
2272 template<typename _Tp, typename _Up>
2273 static __success_type<__decay_t<__cond_t<_Tp, _Up>>>
2274 _S_test(int);
2275
2276#if __cplusplus > 201703L
2277 // Otherwise, if COND-RES(CREF(D1), CREF(D2)) denotes a type,
2278 // let C denote the type decay_t<COND-RES(CREF(D1), CREF(D2))>.
2279 template<typename _Tp, typename _Up>
2280 static __success_type<__remove_cvref_t<__cond_t<const _Tp&, const _Up&>>>
2281 _S_test_2(int);
2282#endif
2283
2284 template<typename, typename>
2285 static __failure_type
2286 _S_test_2(...);
2287
2288 template<typename _Tp, typename _Up>
2289 static decltype(_S_test_2<_Tp, _Up>(0))
2290 _S_test(...);
2291 };
2292
2293 // If sizeof...(T) is zero, there shall be no member type.
2294 template<>
2295 struct common_type<>
2296 { };
2297
2298 // If sizeof...(T) is one, the same type, if any, as common_type_t<T0, T0>.
2299 template<typename _Tp0>
2300 struct common_type<_Tp0>
2301 : public common_type<_Tp0, _Tp0>
2302 { };
2303
2304 // If sizeof...(T) is two, ...
2305 template<typename _Tp1, typename _Tp2,
2306 typename _Dp1 = __decay_t<_Tp1>, typename _Dp2 = __decay_t<_Tp2>>
2307 struct __common_type_impl
2308 {
2309 // If is_same_v<T1, D1> is false or is_same_v<T2, D2> is false,
2310 // let C denote the same type, if any, as common_type_t<D1, D2>.
2311 using type = common_type<_Dp1, _Dp2>;
2312 };
2313
2314 template<typename _Tp1, typename _Tp2>
2315 struct __common_type_impl<_Tp1, _Tp2, _Tp1, _Tp2>
2316 : private __do_common_type_impl
2317 {
2318 // Otherwise, if decay_t<decltype(false ? declval<D1>() : declval<D2>())>
2319 // denotes a valid type, let C denote that type.
2320 using type = decltype(_S_test<_Tp1, _Tp2>(0));
2321 };
2322
2323 // If sizeof...(T) is two, ...
2324 template<typename _Tp1, typename _Tp2>
2325 struct common_type<_Tp1, _Tp2>
2326 : public __common_type_impl<_Tp1, _Tp2>::type
2327 { };
2328
2329 template<typename...>
2330 struct __common_type_pack
2331 { };
2332
2333 template<typename, typename, typename = void>
2334 struct __common_type_fold;
2335
2336 // If sizeof...(T) is greater than two, ...
2337 template<typename _Tp1, typename _Tp2, typename... _Rp>
2338 struct common_type<_Tp1, _Tp2, _Rp...>
2339 : public __common_type_fold<common_type<_Tp1, _Tp2>,
2340 __common_type_pack<_Rp...>>
2341 { };
2342
2343 // Let C denote the same type, if any, as common_type_t<T1, T2>.
2344 // If there is such a type C, type shall denote the same type, if any,
2345 // as common_type_t<C, R...>.
2346 template<typename _CTp, typename... _Rp>
2347 struct __common_type_fold<_CTp, __common_type_pack<_Rp...>,
2348 __void_t<typename _CTp::type>>
2349 : public common_type<typename _CTp::type, _Rp...>
2350 { };
2351
2352 // Otherwise, there shall be no member type.
2353 template<typename _CTp, typename _Rp>
2354 struct __common_type_fold<_CTp, _Rp, void>
2355 { };
2356
2357 template<typename _Tp, bool = is_enum<_Tp>::value>
2358 struct __underlying_type_impl
2359 {
2360 using type = __underlying_type(_Tp);
2361 };
2362
2363 template<typename _Tp>
2364 struct __underlying_type_impl<_Tp, false>
2365 { };
2366 /// @endcond
2367
2368 /// The underlying type of an enum.
2369 template<typename _Tp>
2370 struct underlying_type
2371 : public __underlying_type_impl<_Tp>
2372 { };
2373
2374 /// @cond undocumented
2375 template<typename _Tp>
2376 struct __declval_protector
2377 {
2378 static const bool __stop = false;
2379 };
2380 /// @endcond
2381
2382 /** Utility to simplify expressions used in unevaluated operands
2383 * @since C++11
2384 * @ingroup utilities
2385 */
2386 template<typename _Tp>
2387 auto declval() noexcept -> decltype(__declval<_Tp>(0))
2388 {
2389 static_assert(__declval_protector<_Tp>::__stop,
2390 "declval() must not be used!");
2391 return __declval<_Tp>(0);
2392 }
2393
2394 /// result_of
2395 template<typename _Signature>
2396 struct result_of;
2397
2398 // Sfinae-friendly result_of implementation:
2399
2400#define __cpp_lib_result_of_sfinae 201210L
2401
2402 /// @cond undocumented
2403 struct __invoke_memfun_ref { };
2404 struct __invoke_memfun_deref { };
2405 struct __invoke_memobj_ref { };
2406 struct __invoke_memobj_deref { };
2407 struct __invoke_other { };
2408
2409 // Associate a tag type with a specialization of __success_type.
2410 template<typename _Tp, typename _Tag>
2411 struct __result_of_success : __success_type<_Tp>
2412 { using __invoke_type = _Tag; };
2413
2414 // [func.require] paragraph 1 bullet 1:
2415 struct __result_of_memfun_ref_impl
2416 {
2417 template<typename _Fp, typename _Tp1, typename... _Args>
2418 static __result_of_success<decltype(
2419 (std::declval<_Tp1>().*std::declval<_Fp>())(std::declval<_Args>()...)
2420 ), __invoke_memfun_ref> _S_test(int);
2421
2422 template<typename...>
2423 static __failure_type _S_test(...);
2424 };
2425
2426 template<typename _MemPtr, typename _Arg, typename... _Args>
2427 struct __result_of_memfun_ref
2428 : private __result_of_memfun_ref_impl
2429 {
2430 typedef decltype(_S_test<_MemPtr, _Arg, _Args...>(0)) type;
2431 };
2432
2433 // [func.require] paragraph 1 bullet 2:
2434 struct __result_of_memfun_deref_impl
2435 {
2436 template<typename _Fp, typename _Tp1, typename... _Args>
2437 static __result_of_success<decltype(
2438 ((*std::declval<_Tp1>()).*std::declval<_Fp>())(std::declval<_Args>()...)
2439 ), __invoke_memfun_deref> _S_test(int);
2440
2441 template<typename...>
2442 static __failure_type _S_test(...);
2443 };
2444
2445 template<typename _MemPtr, typename _Arg, typename... _Args>
2446 struct __result_of_memfun_deref
2447 : private __result_of_memfun_deref_impl
2448 {
2449 typedef decltype(_S_test<_MemPtr, _Arg, _Args...>(0)) type;
2450 };
2451
2452 // [func.require] paragraph 1 bullet 3:
2453 struct __result_of_memobj_ref_impl
2454 {
2455 template<typename _Fp, typename _Tp1>
2456 static __result_of_success<decltype(
2457 std::declval<_Tp1>().*std::declval<_Fp>()
2458 ), __invoke_memobj_ref> _S_test(int);
2459
2460 template<typename, typename>
2461 static __failure_type _S_test(...);
2462 };
2463
2464 template<typename _MemPtr, typename _Arg>
2465 struct __result_of_memobj_ref
2466 : private __result_of_memobj_ref_impl
2467 {
2468 typedef decltype(_S_test<_MemPtr, _Arg>(0)) type;
2469 };
2470
2471 // [func.require] paragraph 1 bullet 4:
2472 struct __result_of_memobj_deref_impl
2473 {
2474 template<typename _Fp, typename _Tp1>
2475 static __result_of_success<decltype(
2476 (*std::declval<_Tp1>()).*std::declval<_Fp>()
2477 ), __invoke_memobj_deref> _S_test(int);
2478
2479 template<typename, typename>
2480 static __failure_type _S_test(...);
2481 };
2482
2483 template<typename _MemPtr, typename _Arg>
2484 struct __result_of_memobj_deref
2485 : private __result_of_memobj_deref_impl
2486 {
2487 typedef decltype(_S_test<_MemPtr, _Arg>(0)) type;
2488 };
2489
2490 template<typename _MemPtr, typename _Arg>
2491 struct __result_of_memobj;
2492
2493 template<typename _Res, typename _Class, typename _Arg>
2494 struct __result_of_memobj<_Res _Class::*, _Arg>
2495 {
2496 typedef __remove_cvref_t<_Arg> _Argval;
2497 typedef _Res _Class::* _MemPtr;
2498 typedef typename __conditional_t<__or_<is_same<_Argval, _Class>,
2499 is_base_of<_Class, _Argval>>::value,
2500 __result_of_memobj_ref<_MemPtr, _Arg>,
2501 __result_of_memobj_deref<_MemPtr, _Arg>
2502 >::type type;
2503 };
2504
2505 template<typename _MemPtr, typename _Arg, typename... _Args>
2506 struct __result_of_memfun;
2507
2508 template<typename _Res, typename _Class, typename _Arg, typename... _Args>
2509 struct __result_of_memfun<_Res _Class::*, _Arg, _Args...>
2510 {
2511 typedef typename remove_reference<_Arg>::type _Argval;
2512 typedef _Res _Class::* _MemPtr;
2513 typedef typename __conditional_t<is_base_of<_Class, _Argval>::value,
2514 __result_of_memfun_ref<_MemPtr, _Arg, _Args...>,
2515 __result_of_memfun_deref<_MemPtr, _Arg, _Args...>
2516 >::type type;
2517 };
2518
2519 // _GLIBCXX_RESOLVE_LIB_DEFECTS
2520 // 2219. INVOKE-ing a pointer to member with a reference_wrapper
2521 // as the object expression
2522
2523 // Used by result_of, invoke etc. to unwrap a reference_wrapper.
2524 template<typename _Tp, typename _Up = __remove_cvref_t<_Tp>>
2525 struct __inv_unwrap
2526 {
2527 using type = _Tp;
2528 };
2529
2530 template<typename _Tp, typename _Up>
2531 struct __inv_unwrap<_Tp, reference_wrapper<_Up>>
2532 {
2533 using type = _Up&;
2534 };
2535
2536 template<bool, bool, typename _Functor, typename... _ArgTypes>
2537 struct __result_of_impl
2538 {
2539 typedef __failure_type type;
2540 };
2541
2542 template<typename _MemPtr, typename _Arg>
2543 struct __result_of_impl<true, false, _MemPtr, _Arg>
2544 : public __result_of_memobj<__decay_t<_MemPtr>,
2545 typename __inv_unwrap<_Arg>::type>
2546 { };
2547
2548 template<typename _MemPtr, typename _Arg, typename... _Args>
2549 struct __result_of_impl<false, true, _MemPtr, _Arg, _Args...>
2550 : public __result_of_memfun<__decay_t<_MemPtr>,
2551 typename __inv_unwrap<_Arg>::type, _Args...>
2552 { };
2553
2554 // [func.require] paragraph 1 bullet 5:
2555 struct __result_of_other_impl
2556 {
2557 template<typename _Fn, typename... _Args>
2558 static __result_of_success<decltype(
2559 std::declval<_Fn>()(std::declval<_Args>()...)
2560 ), __invoke_other> _S_test(int);
2561
2562 template<typename...>
2563 static __failure_type _S_test(...);
2564 };
2565
2566 template<typename _Functor, typename... _ArgTypes>
2567 struct __result_of_impl<false, false, _Functor, _ArgTypes...>
2568 : private __result_of_other_impl
2569 {
2570 typedef decltype(_S_test<_Functor, _ArgTypes...>(0)) type;
2571 };
2572
2573 // __invoke_result (std::invoke_result for C++11)
2574 template<typename _Functor, typename... _ArgTypes>
2575 struct __invoke_result
2576 : public __result_of_impl<
2577 is_member_object_pointer<
2578 typename remove_reference<_Functor>::type
2579 >::value,
2580 is_member_function_pointer<
2581 typename remove_reference<_Functor>::type
2582 >::value,
2583 _Functor, _ArgTypes...
2584 >::type
2585 { };
2586 /// @endcond
2587
2588 template<typename _Functor, typename... _ArgTypes>
2589 struct result_of<_Functor(_ArgTypes...)>
2590 : public __invoke_result<_Functor, _ArgTypes...>
2591 { } _GLIBCXX17_DEPRECATED_SUGGEST("std::invoke_result");
2592
2593#if __cplusplus >= 201402L
2594 /// Alias template for aligned_storage
2595 template<size_t _Len, size_t _Align =
2596 __alignof__(typename __aligned_storage_msa<_Len>::__type)>
2597 using aligned_storage_t = typename aligned_storage<_Len, _Align>::type;
2598
2599 template <size_t _Len, typename... _Types>
2600 using aligned_union_t = typename aligned_union<_Len, _Types...>::type;
2601
2602 /// Alias template for decay
2603 template<typename _Tp>
2604 using decay_t = typename decay<_Tp>::type;
2605
2606 /// Alias template for enable_if
2607 template<bool _Cond, typename _Tp = void>
2608 using enable_if_t = typename enable_if<_Cond, _Tp>::type;
2609
2610 /// Alias template for conditional
2611 template<bool _Cond, typename _Iftrue, typename _Iffalse>
2612 using conditional_t = typename conditional<_Cond, _Iftrue, _Iffalse>::type;
2613
2614 /// Alias template for common_type
2615 template<typename... _Tp>
2616 using common_type_t = typename common_type<_Tp...>::type;
2617
2618 /// Alias template for underlying_type
2619 template<typename _Tp>
2620 using underlying_type_t = typename underlying_type<_Tp>::type;
2621
2622 /// Alias template for result_of
2623 template<typename _Tp>
2624 using result_of_t = typename result_of<_Tp>::type;
2625#endif // C++14
2626
2627#if __cplusplus >= 201703L || !defined(__STRICT_ANSI__) // c++17 or gnu++11
2628#define __cpp_lib_void_t 201411L
2629 /// A metafunction that always yields void, used for detecting valid types.
2630 template<typename...> using void_t = void;
2631#endif
2632
2633 /// @cond undocumented
2634
2635 /// Implementation of the detection idiom (negative case).
2636 template<typename _Default, typename _AlwaysVoid,
2637 template<typename...> class _Op, typename... _Args>
2638 struct __detector
2639 {
2640 using value_t = false_type;
2641 using type = _Default;
2642 };
2643
2644 /// Implementation of the detection idiom (positive case).
2645 template<typename _Default, template<typename...> class _Op,
2646 typename... _Args>
2647 struct __detector<_Default, __void_t<_Op<_Args...>>, _Op, _Args...>
2648 {
2649 using value_t = true_type;
2650 using type = _Op<_Args...>;
2651 };
2652
2653 // Detect whether _Op<_Args...> is a valid type, use _Default if not.
2654 template<typename _Default, template<typename...> class _Op,
2655 typename... _Args>
2656 using __detected_or = __detector<_Default, void, _Op, _Args...>;
2657
2658 // _Op<_Args...> if that is a valid type, otherwise _Default.
2659 template<typename _Default, template<typename...> class _Op,
2660 typename... _Args>
2661 using __detected_or_t
2662 = typename __detected_or<_Default, _Op, _Args...>::type;
2663
2664 /**
2665 * Use SFINAE to determine if the type _Tp has a publicly-accessible
2666 * member type _NTYPE.
2667 */
2668#define _GLIBCXX_HAS_NESTED_TYPE(_NTYPE) \
2669 template<typename _Tp, typename = __void_t<>> \
2670 struct __has_##_NTYPE \
2671 : false_type \
2672 { }; \
2673 template<typename _Tp> \
2674 struct __has_##_NTYPE<_Tp, __void_t<typename _Tp::_NTYPE>> \
2675 : true_type \
2676 { };
2677
2678 template <typename _Tp>
2679 struct __is_swappable;
2680
2681 template <typename _Tp>
2682 struct __is_nothrow_swappable;
2683
2684 template<typename>
2685 struct __is_tuple_like_impl : false_type
2686 { };
2687
2688 // Internal type trait that allows us to sfinae-protect tuple_cat.
2689 template<typename _Tp>
2690 struct __is_tuple_like
2691 : public __is_tuple_like_impl<__remove_cvref_t<_Tp>>::type
2692 { };
2693 /// @endcond
2694
2695 template<typename _Tp>
2696 _GLIBCXX20_CONSTEXPR
2697 inline
2698 _Require<__not_<__is_tuple_like<_Tp>>,
2699 is_move_constructible<_Tp>,
2700 is_move_assignable<_Tp>>
2701 swap(_Tp&, _Tp&)
2702 noexcept(__and_<is_nothrow_move_constructible<_Tp>,
2703 is_nothrow_move_assignable<_Tp>>::value);
2704
2705 template<typename _Tp, size_t _Nm>
2706 _GLIBCXX20_CONSTEXPR
2707 inline
2708 __enable_if_t<__is_swappable<_Tp>::value>
2709 swap(_Tp (&__a)[_Nm], _Tp (&__b)[_Nm])
2710 noexcept(__is_nothrow_swappable<_Tp>::value);
2711
2712 /// @cond undocumented
2713 namespace __swappable_details {
2714 using std::swap;
2715
2716 struct __do_is_swappable_impl
2717 {
2718 template<typename _Tp, typename
2719 = decltype(swap(std::declval<_Tp&>(), std::declval<_Tp&>()))>
2720 static true_type __test(int);
2721
2722 template<typename>
2723 static false_type __test(...);
2724 };
2725
2726 struct __do_is_nothrow_swappable_impl
2727 {
2728 template<typename _Tp>
2729 static __bool_constant<
2730 noexcept(swap(std::declval<_Tp&>(), std::declval<_Tp&>()))
2731 > __test(int);
2732
2733 template<typename>
2734 static false_type __test(...);
2735 };
2736
2737 } // namespace __swappable_details
2738
2739 template<typename _Tp>
2740 struct __is_swappable_impl
2741 : public __swappable_details::__do_is_swappable_impl
2742 {
2743 typedef decltype(__test<_Tp>(0)) type;
2744 };
2745
2746 template<typename _Tp>
2747 struct __is_nothrow_swappable_impl
2748 : public __swappable_details::__do_is_nothrow_swappable_impl
2749 {
2750 typedef decltype(__test<_Tp>(0)) type;
2751 };
2752
2753 template<typename _Tp>
2754 struct __is_swappable
2755 : public __is_swappable_impl<_Tp>::type
2756 { };
2757
2758 template<typename _Tp>
2759 struct __is_nothrow_swappable
2760 : public __is_nothrow_swappable_impl<_Tp>::type
2761 { };
2762 /// @endcond
2763
2764#if __cplusplus > 201402L || !defined(__STRICT_ANSI__) // c++1z or gnu++11
2765#define __cpp_lib_is_swappable 201603L
2766 /// Metafunctions used for detecting swappable types: p0185r1
2767
2768 /// is_swappable
2769 template<typename _Tp>
2770 struct is_swappable
2771 : public __is_swappable_impl<_Tp>::type
2772 {
2773 static_assert(std::__is_complete_or_unbounded(__type_identity<_Tp>{}),
2774 "template argument must be a complete class or an unbounded array");
2775 };
2776
2777 /// is_nothrow_swappable
2778 template<typename _Tp>
2779 struct is_nothrow_swappable
2780 : public __is_nothrow_swappable_impl<_Tp>::type
2781 {
2782 static_assert(std::__is_complete_or_unbounded(__type_identity<_Tp>{}),
2783 "template argument must be a complete class or an unbounded array");
2784 };
2785
2786#if __cplusplus >= 201402L
2787 /// is_swappable_v
2788 template<typename _Tp>
2789 _GLIBCXX17_INLINE constexpr bool is_swappable_v =
2790 is_swappable<_Tp>::value;
2791
2792 /// is_nothrow_swappable_v
2793 template<typename _Tp>
2794 _GLIBCXX17_INLINE constexpr bool is_nothrow_swappable_v =
2795 is_nothrow_swappable<_Tp>::value;
2796#endif // __cplusplus >= 201402L
2797
2798 /// @cond undocumented
2799 namespace __swappable_with_details {
2800 using std::swap;
2801
2802 struct __do_is_swappable_with_impl
2803 {
2804 template<typename _Tp, typename _Up, typename
2805 = decltype(swap(std::declval<_Tp>(), std::declval<_Up>())),
2806 typename
2807 = decltype(swap(std::declval<_Up>(), std::declval<_Tp>()))>
2808 static true_type __test(int);
2809
2810 template<typename, typename>
2811 static false_type __test(...);
2812 };
2813
2814 struct __do_is_nothrow_swappable_with_impl
2815 {
2816 template<typename _Tp, typename _Up>
2817 static __bool_constant<
2818 noexcept(swap(std::declval<_Tp>(), std::declval<_Up>()))
2819 &&
2820 noexcept(swap(std::declval<_Up>(), std::declval<_Tp>()))
2821 > __test(int);
2822
2823 template<typename, typename>
2824 static false_type __test(...);
2825 };
2826
2827 } // namespace __swappable_with_details
2828
2829 template<typename _Tp, typename _Up>
2830 struct __is_swappable_with_impl
2831 : public __swappable_with_details::__do_is_swappable_with_impl
2832 {
2833 typedef decltype(__test<_Tp, _Up>(0)) type;
2834 };
2835
2836 // Optimization for the homogenous lvalue case, not required:
2837 template<typename _Tp>
2838 struct __is_swappable_with_impl<_Tp&, _Tp&>
2839 : public __swappable_details::__do_is_swappable_impl
2840 {
2841 typedef decltype(__test<_Tp&>(0)) type;
2842 };
2843
2844 template<typename _Tp, typename _Up>
2845 struct __is_nothrow_swappable_with_impl
2846 : public __swappable_with_details::__do_is_nothrow_swappable_with_impl
2847 {
2848 typedef decltype(__test<_Tp, _Up>(0)) type;
2849 };
2850
2851 // Optimization for the homogenous lvalue case, not required:
2852 template<typename _Tp>
2853 struct __is_nothrow_swappable_with_impl<_Tp&, _Tp&>
2854 : public __swappable_details::__do_is_nothrow_swappable_impl
2855 {
2856 typedef decltype(__test<_Tp&>(0)) type;
2857 };
2858 /// @endcond
2859
2860 /// is_swappable_with
2861 template<typename _Tp, typename _Up>
2862 struct is_swappable_with
2863 : public __is_swappable_with_impl<_Tp, _Up>::type
2864 {
2865 static_assert(std::__is_complete_or_unbounded(__type_identity<_Tp>{}),
2866 "first template argument must be a complete class or an unbounded array");
2867 static_assert(std::__is_complete_or_unbounded(__type_identity<_Up>{}),
2868 "second template argument must be a complete class or an unbounded array");
2869 };
2870
2871 /// is_nothrow_swappable_with
2872 template<typename _Tp, typename _Up>
2873 struct is_nothrow_swappable_with
2874 : public __is_nothrow_swappable_with_impl<_Tp, _Up>::type
2875 {
2876 static_assert(std::__is_complete_or_unbounded(__type_identity<_Tp>{}),
2877 "first template argument must be a complete class or an unbounded array");
2878 static_assert(std::__is_complete_or_unbounded(__type_identity<_Up>{}),
2879 "second template argument must be a complete class or an unbounded array");
2880 };
2881
2882#if __cplusplus >= 201402L
2883 /// is_swappable_with_v
2884 template<typename _Tp, typename _Up>
2885 _GLIBCXX17_INLINE constexpr bool is_swappable_with_v =
2886 is_swappable_with<_Tp, _Up>::value;
2887
2888 /// is_nothrow_swappable_with_v
2889 template<typename _Tp, typename _Up>
2890 _GLIBCXX17_INLINE constexpr bool is_nothrow_swappable_with_v =
2891 is_nothrow_swappable_with<_Tp, _Up>::value;
2892#endif // __cplusplus >= 201402L
2893
2894#endif// c++1z or gnu++11
2895
2896 /// @cond undocumented
2897
2898 // __is_invocable (std::is_invocable for C++11)
2899
2900 // The primary template is used for invalid INVOKE expressions.
2901 template<typename _Result, typename _Ret,
2902 bool = is_void<_Ret>::value, typename = void>
2903 struct __is_invocable_impl
2904 : false_type
2905 {
2906 using __nothrow_type = false_type; // For is_nothrow_invocable_r
2907 };
2908
2909 // Used for valid INVOKE and INVOKE<void> expressions.
2910 template<typename _Result, typename _Ret>
2911 struct __is_invocable_impl<_Result, _Ret,
2912 /* is_void<_Ret> = */ true,
2913 __void_t<typename _Result::type>>
2914 : true_type
2915 {
2916 using __nothrow_type = true_type; // For is_nothrow_invocable_r
2917 };
2918
2919#pragma GCC diagnostic push
2920#pragma GCC diagnostic ignored "-Wctor-dtor-privacy"
2921 // Used for INVOKE<R> expressions to check the implicit conversion to R.
2922 template<typename _Result, typename _Ret>
2923 struct __is_invocable_impl<_Result, _Ret,
2924 /* is_void<_Ret> = */ false,
2925 __void_t<typename _Result::type>>
2926 {
2927 private:
2928 // The type of the INVOKE expression.
2929 // Unlike declval, this doesn't add_rvalue_reference, so it respects
2930 // guaranteed copy elision.
2931 static typename _Result::type _S_get() noexcept;
2932
2933 template<typename _Tp>
2934 static void _S_conv(_Tp) noexcept;
2935
2936 // This overload is viable if INVOKE(f, args...) can convert to _Tp.
2937 template<typename _Tp, bool _Check_Noex = false,
2938 typename = decltype(_S_conv<_Tp>(_S_get())),
2939 bool _Noex = noexcept(_S_conv<_Tp>(_S_get()))>
2940 static __bool_constant<_Check_Noex ? _Noex : true>
2941 _S_test(int);
2942
2943 template<typename _Tp, bool = false>
2944 static false_type
2945 _S_test(...);
2946
2947 public:
2948 // For is_invocable_r
2949 using type = decltype(_S_test<_Ret>(1));
2950
2951 // For is_nothrow_invocable_r
2952 using __nothrow_type = decltype(_S_test<_Ret, true>(1));
2953 };
2954#pragma GCC diagnostic pop
2955
2956 template<typename _Fn, typename... _ArgTypes>
2957 struct __is_invocable
2958 : __is_invocable_impl<__invoke_result<_Fn, _ArgTypes...>, void>::type
2959 { };
2960
2961 template<typename _Fn, typename _Tp, typename... _Args>
2962 constexpr bool __call_is_nt(__invoke_memfun_ref)
2963 {
2964 using _Up = typename __inv_unwrap<_Tp>::type;
2965 return noexcept((std::declval<_Up>().*std::declval<_Fn>())(
2966 std::declval<_Args>()...));
2967 }
2968
2969 template<typename _Fn, typename _Tp, typename... _Args>
2970 constexpr bool __call_is_nt(__invoke_memfun_deref)
2971 {
2972 return noexcept(((*std::declval<_Tp>()).*std::declval<_Fn>())(
2973 std::declval<_Args>()...));
2974 }
2975
2976 template<typename _Fn, typename _Tp>
2977 constexpr bool __call_is_nt(__invoke_memobj_ref)
2978 {
2979 using _Up = typename __inv_unwrap<_Tp>::type;
2980 return noexcept(std::declval<_Up>().*std::declval<_Fn>());
2981 }
2982
2983 template<typename _Fn, typename _Tp>
2984 constexpr bool __call_is_nt(__invoke_memobj_deref)
2985 {
2986 return noexcept((*std::declval<_Tp>()).*std::declval<_Fn>());
2987 }
2988
2989 template<typename _Fn, typename... _Args>
2990 constexpr bool __call_is_nt(__invoke_other)
2991 {
2992 return noexcept(std::declval<_Fn>()(std::declval<_Args>()...));
2993 }
2994
2995 template<typename _Result, typename _Fn, typename... _Args>
2996 struct __call_is_nothrow
2997 : __bool_constant<
2998 std::__call_is_nt<_Fn, _Args...>(typename _Result::__invoke_type{})
2999 >
3000 { };
3001
3002 template<typename _Fn, typename... _Args>
3003 using __call_is_nothrow_
3004 = __call_is_nothrow<__invoke_result<_Fn, _Args...>, _Fn, _Args...>;
3005
3006 // __is_nothrow_invocable (std::is_nothrow_invocable for C++11)
3007 template<typename _Fn, typename... _Args>
3008 struct __is_nothrow_invocable
3009 : __and_<__is_invocable<_Fn, _Args...>,
3010 __call_is_nothrow_<_Fn, _Args...>>::type
3011 { };
3012
3013#pragma GCC diagnostic push
3014#pragma GCC diagnostic ignored "-Wctor-dtor-privacy"
3015 struct __nonesuchbase {};
3016 struct __nonesuch : private __nonesuchbase {
3017 ~__nonesuch() = delete;
3018 __nonesuch(__nonesuch const&) = delete;
3019 void operator=(__nonesuch const&) = delete;
3020 };
3021#pragma GCC diagnostic pop
3022 /// @endcond
3023
3024#if __cplusplus >= 201703L
3025# define __cpp_lib_is_invocable 201703L
3026
3027 /// std::invoke_result
3028 template<typename _Functor, typename... _ArgTypes>
3029 struct invoke_result
3030 : public __invoke_result<_Functor, _ArgTypes...>
3031 {
3032 static_assert(std::__is_complete_or_unbounded(__type_identity<_Functor>{}),
3033 "_Functor must be a complete class or an unbounded array");
3034 static_assert((std::__is_complete_or_unbounded(
3035 __type_identity<_ArgTypes>{}) && ...),
3036 "each argument type must be a complete class or an unbounded array");
3037 };
3038
3039 /// std::invoke_result_t
3040 template<typename _Fn, typename... _Args>
3041 using invoke_result_t = typename invoke_result<_Fn, _Args...>::type;
3042
3043 /// std::is_invocable
3044 template<typename _Fn, typename... _ArgTypes>
3045 struct is_invocable
3046 : __is_invocable_impl<__invoke_result<_Fn, _ArgTypes...>, void>::type
3047 {
3048 static_assert(std::__is_complete_or_unbounded(__type_identity<_Fn>{}),
3049 "_Fn must be a complete class or an unbounded array");
3050 static_assert((std::__is_complete_or_unbounded(
3051 __type_identity<_ArgTypes>{}) && ...),
3052 "each argument type must be a complete class or an unbounded array");
3053 };
3054
3055 /// std::is_invocable_r
3056 template<typename _Ret, typename _Fn, typename... _ArgTypes>
3057 struct is_invocable_r
3058 : __is_invocable_impl<__invoke_result<_Fn, _ArgTypes...>, _Ret>::type
3059 {
3060 static_assert(std::__is_complete_or_unbounded(__type_identity<_Fn>{}),
3061 "_Fn must be a complete class or an unbounded array");
3062 static_assert((std::__is_complete_or_unbounded(
3063 __type_identity<_ArgTypes>{}) && ...),
3064 "each argument type must be a complete class or an unbounded array");
3065 static_assert(std::__is_complete_or_unbounded(__type_identity<_Ret>{}),
3066 "_Ret must be a complete class or an unbounded array");
3067 };
3068
3069 /// std::is_nothrow_invocable
3070 template<typename _Fn, typename... _ArgTypes>
3071 struct is_nothrow_invocable
3072 : __and_<__is_invocable_impl<__invoke_result<_Fn, _ArgTypes...>, void>,
3073 __call_is_nothrow_<_Fn, _ArgTypes...>>::type
3074 {
3075 static_assert(std::__is_complete_or_unbounded(__type_identity<_Fn>{}),
3076 "_Fn must be a complete class or an unbounded array");
3077 static_assert((std::__is_complete_or_unbounded(
3078 __type_identity<_ArgTypes>{}) && ...),
3079 "each argument type must be a complete class or an unbounded array");
3080 };
3081
3082 /// @cond undocumented
3083 template<typename _Result, typename _Ret>
3084 using __is_nt_invocable_impl
3085 = typename __is_invocable_impl<_Result, _Ret>::__nothrow_type;
3086 /// @endcond
3087
3088 /// std::is_nothrow_invocable_r
3089 template<typename _Ret, typename _Fn, typename... _ArgTypes>
3090 struct is_nothrow_invocable_r
3091 : __and_<__is_nt_invocable_impl<__invoke_result<_Fn, _ArgTypes...>, _Ret>,
3092 __call_is_nothrow_<_Fn, _ArgTypes...>>::type
3093 {
3094 static_assert(std::__is_complete_or_unbounded(__type_identity<_Fn>{}),
3095 "_Fn must be a complete class or an unbounded array");
3096 static_assert((std::__is_complete_or_unbounded(
3097 __type_identity<_ArgTypes>{}) && ...),
3098 "each argument type must be a complete class or an unbounded array");
3099 static_assert(std::__is_complete_or_unbounded(__type_identity<_Ret>{}),
3100 "_Ret must be a complete class or an unbounded array");
3101 };
3102#endif // C++17
3103
3104#if __cplusplus >= 201703L
3105# define __cpp_lib_type_trait_variable_templates 201510L
3106 /**
3107 * @defgroup variable_templates Variable templates for type traits
3108 * @ingroup metaprogramming
3109 *
3110 * Each variable `is_xxx_v<T>` is a boolean constant with the same value
3111 * as the `value` member of the corresponding type trait `is_xxx<T>`.
3112 *
3113 * @since C++17 unless noted otherwise.
3114 */
3115
3116 /**
3117 * @{
3118 * @ingroup variable_templates
3119 */
3120template <typename _Tp>
3121 inline constexpr bool is_void_v = is_void<_Tp>::value;
3122template <typename _Tp>
3123 inline constexpr bool is_null_pointer_v = is_null_pointer<_Tp>::value;
3124template <typename _Tp>
3125 inline constexpr bool is_integral_v = is_integral<_Tp>::value;
3126template <typename _Tp>
3127 inline constexpr bool is_floating_point_v = is_floating_point<_Tp>::value;
3128template <typename _Tp>
3129 inline constexpr bool is_array_v = is_array<_Tp>::value;
3130template <typename _Tp>
3131 inline constexpr bool is_pointer_v = is_pointer<_Tp>::value;
3132template <typename _Tp>
3133 inline constexpr bool is_lvalue_reference_v =
3134 is_lvalue_reference<_Tp>::value;
3135template <typename _Tp>
3136 inline constexpr bool is_rvalue_reference_v =
3137 is_rvalue_reference<_Tp>::value;
3138template <typename _Tp>
3139 inline constexpr bool is_member_object_pointer_v =
3140 is_member_object_pointer<_Tp>::value;
3141template <typename _Tp>
3142 inline constexpr bool is_member_function_pointer_v =
3143 is_member_function_pointer<_Tp>::value;
3144template <typename _Tp>
3145 inline constexpr bool is_enum_v = is_enum<_Tp>::value;
3146template <typename _Tp>
3147 inline constexpr bool is_union_v = is_union<_Tp>::value;
3148template <typename _Tp>
3149 inline constexpr bool is_class_v = is_class<_Tp>::value;
3150template <typename _Tp>
3151 inline constexpr bool is_function_v = is_function<_Tp>::value;
3152template <typename _Tp>
3153 inline constexpr bool is_reference_v = is_reference<_Tp>::value;
3154template <typename _Tp>
3155 inline constexpr bool is_arithmetic_v = is_arithmetic<_Tp>::value;
3156template <typename _Tp>
3157 inline constexpr bool is_fundamental_v = is_fundamental<_Tp>::value;
3158template <typename _Tp>
3159 inline constexpr bool is_object_v = is_object<_Tp>::value;
3160template <typename _Tp>
3161 inline constexpr bool is_scalar_v = is_scalar<_Tp>::value;
3162template <typename _Tp>
3163 inline constexpr bool is_compound_v = is_compound<_Tp>::value;
3164template <typename _Tp>
3165 inline constexpr bool is_member_pointer_v = is_member_pointer<_Tp>::value;
3166template <typename _Tp>
3167 inline constexpr bool is_const_v = is_const<_Tp>::value;
3168template <typename _Tp>
3169 inline constexpr bool is_volatile_v = is_volatile<_Tp>::value;
3170template <typename _Tp>
3171 inline constexpr bool is_trivial_v = is_trivial<_Tp>::value;
3172template <typename _Tp>
3173 inline constexpr bool is_trivially_copyable_v =
3174 is_trivially_copyable<_Tp>::value;
3175template <typename _Tp>
3176 inline constexpr bool is_standard_layout_v = is_standard_layout<_Tp>::value;
3177#pragma GCC diagnostic push
3178#pragma GCC diagnostic ignored "-Wdeprecated-declarations"
3179template <typename _Tp>
3180 _GLIBCXX20_DEPRECATED("use is_standard_layout_v && is_trivial_v instead")
3181 inline constexpr bool is_pod_v = is_pod<_Tp>::value;
3182template <typename _Tp>
3183 _GLIBCXX17_DEPRECATED
3184 inline constexpr bool is_literal_type_v = is_literal_type<_Tp>::value;
3185#pragma GCC diagnostic pop
3186 template <typename _Tp>
3187 inline constexpr bool is_empty_v = is_empty<_Tp>::value;
3188template <typename _Tp>
3189 inline constexpr bool is_polymorphic_v = is_polymorphic<_Tp>::value;
3190template <typename _Tp>
3191 inline constexpr bool is_abstract_v = is_abstract<_Tp>::value;
3192template <typename _Tp>
3193 inline constexpr bool is_final_v = is_final<_Tp>::value;
3194template <typename _Tp>
3195 inline constexpr bool is_signed_v = is_signed<_Tp>::value;
3196template <typename _Tp>
3197 inline constexpr bool is_unsigned_v = is_unsigned<_Tp>::value;
3198template <typename _Tp, typename... _Args>
3199 inline constexpr bool is_constructible_v =
3200 is_constructible<_Tp, _Args...>::value;
3201template <typename _Tp>
3202 inline constexpr bool is_default_constructible_v =
3203 is_default_constructible<_Tp>::value;
3204template <typename _Tp>
3205 inline constexpr bool is_copy_constructible_v =
3206 is_copy_constructible<_Tp>::value;
3207template <typename _Tp>
3208 inline constexpr bool is_move_constructible_v =
3209 is_move_constructible<_Tp>::value;
3210template <typename _Tp, typename _Up>
3211 inline constexpr bool is_assignable_v = is_assignable<_Tp, _Up>::value;
3212template <typename _Tp>
3213 inline constexpr bool is_copy_assignable_v = is_copy_assignable<_Tp>::value;
3214template <typename _Tp>
3215 inline constexpr bool is_move_assignable_v = is_move_assignable<_Tp>::value;
3216template <typename _Tp>
3217 inline constexpr bool is_destructible_v = is_destructible<_Tp>::value;
3218template <typename _Tp, typename... _Args>
3219 inline constexpr bool is_trivially_constructible_v =
3220 is_trivially_constructible<_Tp, _Args...>::value;
3221template <typename _Tp>
3222 inline constexpr bool is_trivially_default_constructible_v =
3223 is_trivially_default_constructible<_Tp>::value;
3224template <typename _Tp>
3225 inline constexpr bool is_trivially_copy_constructible_v =
3226 is_trivially_copy_constructible<_Tp>::value;
3227template <typename _Tp>
3228 inline constexpr bool is_trivially_move_constructible_v =
3229 is_trivially_move_constructible<_Tp>::value;
3230template <typename _Tp, typename _Up>
3231 inline constexpr bool is_trivially_assignable_v =
3232 is_trivially_assignable<_Tp, _Up>::value;
3233template <typename _Tp>
3234 inline constexpr bool is_trivially_copy_assignable_v =
3235 is_trivially_copy_assignable<_Tp>::value;
3236template <typename _Tp>
3237 inline constexpr bool is_trivially_move_assignable_v =
3238 is_trivially_move_assignable<_Tp>::value;
3239template <typename _Tp>
3240 inline constexpr bool is_trivially_destructible_v =
3241 is_trivially_destructible<_Tp>::value;
3242template <typename _Tp, typename... _Args>
3243 inline constexpr bool is_nothrow_constructible_v =
3244 is_nothrow_constructible<_Tp, _Args...>::value;
3245template <typename _Tp>
3246 inline constexpr bool is_nothrow_default_constructible_v =
3247 is_nothrow_default_constructible<_Tp>::value;
3248template <typename _Tp>
3249 inline constexpr bool is_nothrow_copy_constructible_v =
3250 is_nothrow_copy_constructible<_Tp>::value;
3251template <typename _Tp>
3252 inline constexpr bool is_nothrow_move_constructible_v =
3253 is_nothrow_move_constructible<_Tp>::value;
3254template <typename _Tp, typename _Up>
3255 inline constexpr bool is_nothrow_assignable_v =
3256 is_nothrow_assignable<_Tp, _Up>::value;
3257template <typename _Tp>
3258 inline constexpr bool is_nothrow_copy_assignable_v =
3259 is_nothrow_copy_assignable<_Tp>::value;
3260template <typename _Tp>
3261 inline constexpr bool is_nothrow_move_assignable_v =
3262 is_nothrow_move_assignable<_Tp>::value;
3263template <typename _Tp>
3264 inline constexpr bool is_nothrow_destructible_v =
3265 is_nothrow_destructible<_Tp>::value;
3266template <typename _Tp>
3267 inline constexpr bool has_virtual_destructor_v =
3268 has_virtual_destructor<_Tp>::value;
3269template <typename _Tp>
3270 inline constexpr size_t alignment_of_v = alignment_of<_Tp>::value;
3271template <typename _Tp>
3272 inline constexpr size_t rank_v = rank<_Tp>::value;
3273template <typename _Tp, unsigned _Idx = 0>
3274 inline constexpr size_t extent_v = extent<_Tp, _Idx>::value;
3275#ifdef _GLIBCXX_HAVE_BUILTIN_IS_SAME
3276template <typename _Tp, typename _Up>
3277 inline constexpr bool is_same_v = __is_same(_Tp, _Up);
3278#else
3279template <typename _Tp, typename _Up>
3280 inline constexpr bool is_same_v = std::is_same<_Tp, _Up>::value;
3281#endif
3282template <typename _Base, typename _Derived>
3283 inline constexpr bool is_base_of_v = is_base_of<_Base, _Derived>::value;
3284template <typename _From, typename _To>
3285 inline constexpr bool is_convertible_v = is_convertible<_From, _To>::value;
3286template<typename _Fn, typename... _Args>
3287 inline constexpr bool is_invocable_v = is_invocable<_Fn, _Args...>::value;
3288template<typename _Fn, typename... _Args>
3289 inline constexpr bool is_nothrow_invocable_v
3290 = is_nothrow_invocable<_Fn, _Args...>::value;
3291template<typename _Ret, typename _Fn, typename... _Args>
3292 inline constexpr bool is_invocable_r_v
3293 = is_invocable_r<_Ret, _Fn, _Args...>::value;
3294template<typename _Ret, typename _Fn, typename... _Args>
3295 inline constexpr bool is_nothrow_invocable_r_v
3296 = is_nothrow_invocable_r<_Ret, _Fn, _Args...>::value;
3297/// @}
3298
3299#ifdef _GLIBCXX_HAVE_BUILTIN_HAS_UNIQ_OBJ_REP
3300# define __cpp_lib_has_unique_object_representations 201606L
3301 /// has_unique_object_representations
3302 /// @since C++17
3303 template<typename _Tp>
3304 struct has_unique_object_representations
3305 : bool_constant<__has_unique_object_representations(
3306 remove_cv_t<remove_all_extents_t<_Tp>>
3307 )>
3308 {
3309 static_assert(std::__is_complete_or_unbounded(__type_identity<_Tp>{}),
3310 "template argument must be a complete class or an unbounded array");
3311 };
3312
3313 /// @ingroup variable_templates
3314 template<typename _Tp>
3315 inline constexpr bool has_unique_object_representations_v
3316 = has_unique_object_representations<_Tp>::value;
3317#endif
3318
3319#ifdef _GLIBCXX_HAVE_BUILTIN_IS_AGGREGATE
3320# define __cpp_lib_is_aggregate 201703L
3321 /// is_aggregate
3322 /// @since C++17
3323 template<typename _Tp>
3324 struct is_aggregate
3325 : bool_constant<__is_aggregate(remove_cv_t<_Tp>)>
3326 { };
3327
3328 /// @ingroup variable_templates
3329 template<typename _Tp>
3330 inline constexpr bool is_aggregate_v = is_aggregate<_Tp>::value;
3331#endif
3332#endif // C++17
3333
3334#if __cplusplus >= 202002L
3335
3336 /** * Remove references and cv-qualifiers.
3337 * @since C++20
3338 * @{
3339 */
3340#define __cpp_lib_remove_cvref 201711L
3341
3342 template<typename _Tp>
3343 struct remove_cvref
3344 : remove_cv<_Tp>
3345 { };
3346
3347 template<typename _Tp>
3348 struct remove_cvref<_Tp&>
3349 : remove_cv<_Tp>
3350 { };
3351
3352 template<typename _Tp>
3353 struct remove_cvref<_Tp&&>
3354 : remove_cv<_Tp>
3355 { };
3356
3357 template<typename _Tp>
3358 using remove_cvref_t = typename remove_cvref<_Tp>::type;
3359 /// @}
3360
3361 /** * Identity metafunction.
3362 * @since C++20
3363 * @{
3364 */
3365#define __cpp_lib_type_identity 201806L
3366 template<typename _Tp>
3367 struct type_identity { using type = _Tp; };
3368
3369 template<typename _Tp>
3370 using type_identity_t = typename type_identity<_Tp>::type;
3371 /// @}
3372
3373#define __cpp_lib_unwrap_ref 201811L
3374
3375 /** Unwrap a reference_wrapper
3376 * @since C++20
3377 * @{
3378 */
3379 template<typename _Tp>
3380 struct unwrap_reference { using type = _Tp; };
3381
3382 template<typename _Tp>
3383 struct unwrap_reference<reference_wrapper<_Tp>> { using type = _Tp&; };
3384
3385 template<typename _Tp>
3386 using unwrap_reference_t = typename unwrap_reference<_Tp>::type;
3387 /// @}
3388
3389 /** Decay type and if it's a reference_wrapper, unwrap it
3390 * @since C++20
3391 * @{
3392 */
3393 template<typename _Tp>
3394 struct unwrap_ref_decay { using type = unwrap_reference_t<decay_t<_Tp>>; };
3395
3396 template<typename _Tp>
3397 using unwrap_ref_decay_t = typename unwrap_ref_decay<_Tp>::type;
3398 /// @}
3399
3400#define __cpp_lib_bounded_array_traits 201902L
3401
3402 /// True for a type that is an array of known bound.
3403 /// @since C++20
3404 template<typename _Tp>
3405 struct is_bounded_array
3406 : public __is_array_known_bounds<_Tp>
3407 { };
3408
3409 /// True for a type that is an array of unknown bound.
3410 /// @since C++20
3411 template<typename _Tp>
3412 struct is_unbounded_array
3413 : public __is_array_unknown_bounds<_Tp>
3414 { };
3415
3416 /// @ingroup variable_templates
3417 /// @since C++20
3418 template<typename _Tp>
3419 inline constexpr bool is_bounded_array_v
3420 = is_bounded_array<_Tp>::value;
3421
3422 /// @ingroup variable_templates
3423 /// @since C++20
3424 template<typename _Tp>
3425 inline constexpr bool is_unbounded_array_v
3426 = is_unbounded_array<_Tp>::value;
3427
3428#if __has_builtin(__is_layout_compatible)
3429
3430 /// @since C++20
3431 template<typename _Tp, typename _Up>
3432 struct is_layout_compatible
3433 : bool_constant<__is_layout_compatible(_Tp, _Up)>
3434 { };
3435
3436 /// @ingroup variable_templates
3437 /// @since C++20
3438 template<typename _Tp, typename _Up>
3439 constexpr bool is_layout_compatible_v
3440 = __is_layout_compatible(_Tp, _Up);
3441
3442#if __has_builtin(__builtin_is_corresponding_member)
3443#define __cpp_lib_is_layout_compatible 201907L
3444
3445 /// @since C++20
3446 template<typename _S1, typename _S2, typename _M1, typename _M2>
3447 constexpr bool
3448 is_corresponding_member(_M1 _S1::*__m1, _M2 _S2::*__m2) noexcept
3449 { return __builtin_is_corresponding_member(__m1, __m2); }
3450#endif
3451#endif
3452
3453#if __has_builtin(__is_pointer_interconvertible_base_of)
3454 /// True if `_Derived` is standard-layout and has a base class of type `_Base`
3455 /// @since C++20
3456 template<typename _Base, typename _Derived>
3457 struct is_pointer_interconvertible_base_of
3458 : bool_constant<__is_pointer_interconvertible_base_of(_Base, _Derived)>
3459 { };
3460
3461 /// @ingroup variable_templates
3462 /// @since C++20
3463 template<typename _Base, typename _Derived>
3464 constexpr bool is_pointer_interconvertible_base_of_v
3465 = __is_pointer_interconvertible_base_of(_Base, _Derived);
3466
3467#if __has_builtin(__builtin_is_pointer_interconvertible_with_class)
3468#define __cpp_lib_is_pointer_interconvertible 201907L
3469
3470 /// True if `__mp` points to the first member of a standard-layout type
3471 /// @returns true if `s.*__mp` is pointer-interconvertible with `s`
3472 /// @since C++20
3473 template<typename _Tp, typename _Mem>
3474 constexpr bool
3475 is_pointer_interconvertible_with_class(_Mem _Tp::*__mp) noexcept
3476 { return __builtin_is_pointer_interconvertible_with_class(__mp); }
3477#endif
3478#endif
3479
3480#if __cplusplus > 202002L
3481#define __cpp_lib_is_scoped_enum 202011L
3482
3483 /// True if the type is a scoped enumeration type.
3484 /// @since C++23
3485
3486 template<typename _Tp>
3487 struct is_scoped_enum
3488 : false_type
3489 { };
3490
3491 template<typename _Tp>
3492 requires __is_enum(_Tp)
3493 && requires(_Tp __t) { __t = __t; } // fails if incomplete
3494 struct is_scoped_enum<_Tp>
3495 : bool_constant<!requires(_Tp __t, void(*__f)(int)) { __f(__t); }>
3496 { };
3497
3498 // FIXME remove this partial specialization and use remove_cv_t<_Tp> above
3499 // when PR c++/99968 is fixed.
3500 template<typename _Tp>
3501 requires __is_enum(_Tp)
3502 && requires(_Tp __t) { __t = __t; } // fails if incomplete
3503 struct is_scoped_enum<const _Tp>
3504 : bool_constant<!requires(_Tp __t, void(*__f)(int)) { __f(__t); }>
3505 { };
3506
3507 /// @ingroup variable_templates
3508 /// @since C++23
3509 template<typename _Tp>
3510 inline constexpr bool is_scoped_enum_v = is_scoped_enum<_Tp>::value;
3511
3512#endif // C++23
3513
3514#if _GLIBCXX_HAVE_IS_CONSTANT_EVALUATED
3515#define __cpp_lib_is_constant_evaluated 201811L
3516
3517 /// Returns true only when called during constant evaluation.
3518 /// @since C++20
3519 constexpr inline bool
3520 is_constant_evaluated() noexcept
3521 {
3522#if __cpp_if_consteval >= 202106L
3523 if consteval { return true; } else { return false; }
3524#else
3525 return __builtin_is_constant_evaluated();
3526#endif
3527 }
3528#endif
3529
3530 /// @cond undocumented
3531 template<typename _From, typename _To>
3532 using __copy_cv = typename __match_cv_qualifiers<_From, _To>::__type;
3533
3534 template<typename _Xp, typename _Yp>
3535 using __cond_res
3536 = decltype(false ? declval<_Xp(&)()>()() : declval<_Yp(&)()>()());
3537
3538 template<typename _Ap, typename _Bp, typename = void>
3539 struct __common_ref_impl
3540 { };
3541
3542 // [meta.trans.other], COMMON-REF(A, B)
3543 template<typename _Ap, typename _Bp>
3544 using __common_ref = typename __common_ref_impl<_Ap, _Bp>::type;
3545
3546 // COND-RES(COPYCV(X, Y) &, COPYCV(Y, X) &)
3547 template<typename _Xp, typename _Yp>
3548 using __condres_cvref
3549 = __cond_res<__copy_cv<_Xp, _Yp>&, __copy_cv<_Yp, _Xp>&>;
3550
3551 // If A and B are both lvalue reference types, ...
3552 template<typename _Xp, typename _Yp>
3553 struct __common_ref_impl<_Xp&, _Yp&, __void_t<__condres_cvref<_Xp, _Yp>>>
3554 : enable_if<is_reference_v<__condres_cvref<_Xp, _Yp>>,
3555 __condres_cvref<_Xp, _Yp>>
3556 { };
3557
3558 // let C be remove_reference_t<COMMON-REF(X&, Y&)>&&
3559 template<typename _Xp, typename _Yp>
3560 using __common_ref_C = remove_reference_t<__common_ref<_Xp&, _Yp&>>&&;
3561
3562 // If A and B are both rvalue reference types, ...
3563 template<typename _Xp, typename _Yp>
3564 struct __common_ref_impl<_Xp&&, _Yp&&,
3565 _Require<is_convertible<_Xp&&, __common_ref_C<_Xp, _Yp>>,
3566 is_convertible<_Yp&&, __common_ref_C<_Xp, _Yp>>>>
3567 { using type = __common_ref_C<_Xp, _Yp>; };
3568
3569 // let D be COMMON-REF(const X&, Y&)
3570 template<typename _Xp, typename _Yp>
3571 using __common_ref_D = __common_ref<const _Xp&, _Yp&>;
3572
3573 // If A is an rvalue reference and B is an lvalue reference, ...
3574 template<typename _Xp, typename _Yp>
3575 struct __common_ref_impl<_Xp&&, _Yp&,
3576 _Require<is_convertible<_Xp&&, __common_ref_D<_Xp, _Yp>>>>
3577 { using type = __common_ref_D<_Xp, _Yp>; };
3578
3579 // If A is an lvalue reference and B is an rvalue reference, ...
3580 template<typename _Xp, typename _Yp>
3581 struct __common_ref_impl<_Xp&, _Yp&&>
3582 : __common_ref_impl<_Yp&&, _Xp&>
3583 { };
3584 /// @endcond
3585
3586 template<typename _Tp, typename _Up,
3587 template<typename> class _TQual, template<typename> class _UQual>
3588 struct basic_common_reference
3589 { };
3590
3591 /// @cond undocumented
3592 template<typename _Tp>
3593 struct __xref
3594 { template<typename _Up> using __type = __copy_cv<_Tp, _Up>; };
3595
3596 template<typename _Tp>
3597 struct __xref<_Tp&>
3598 { template<typename _Up> using __type = __copy_cv<_Tp, _Up>&; };
3599
3600 template<typename _Tp>
3601 struct __xref<_Tp&&>
3602 { template<typename _Up> using __type = __copy_cv<_Tp, _Up>&&; };
3603
3604 template<typename _Tp1, typename _Tp2>
3605 using __basic_common_ref
3606 = typename basic_common_reference<remove_cvref_t<_Tp1>,
3607 remove_cvref_t<_Tp2>,
3608 __xref<_Tp1>::template __type,
3609 __xref<_Tp2>::template __type>::type;
3610 /// @endcond
3611
3612 template<typename... _Tp>
3613 struct common_reference;
3614
3615 template<typename... _Tp>
3616 using common_reference_t = typename common_reference<_Tp...>::type;
3617
3618 // If sizeof...(T) is zero, there shall be no member type.
3619 template<>
3620 struct common_reference<>
3621 { };
3622
3623 // If sizeof...(T) is one ...
3624 template<typename _Tp0>
3625 struct common_reference<_Tp0>
3626 { using type = _Tp0; };
3627
3628 /// @cond undocumented
3629 template<typename _Tp1, typename _Tp2, int _Bullet = 1, typename = void>
3630 struct __common_reference_impl
3631 : __common_reference_impl<_Tp1, _Tp2, _Bullet + 1>
3632 { };
3633
3634 // If sizeof...(T) is two ...
3635 template<typename _Tp1, typename _Tp2>
3636 struct common_reference<_Tp1, _Tp2>
3637 : __common_reference_impl<_Tp1, _Tp2>
3638 { };
3639
3640 // If T1 and T2 are reference types and COMMON-REF(T1, T2) is well-formed, ...
3641 template<typename _Tp1, typename _Tp2>
3642 struct __common_reference_impl<_Tp1&, _Tp2&, 1,
3643 void_t<__common_ref<_Tp1&, _Tp2&>>>
3644 { using type = __common_ref<_Tp1&, _Tp2&>; };
3645
3646 template<typename _Tp1, typename _Tp2>
3647 struct __common_reference_impl<_Tp1&&, _Tp2&&, 1,
3648 void_t<__common_ref<_Tp1&&, _Tp2&&>>>
3649 { using type = __common_ref<_Tp1&&, _Tp2&&>; };
3650
3651 template<typename _Tp1, typename _Tp2>
3652 struct __common_reference_impl<_Tp1&, _Tp2&&, 1,
3653 void_t<__common_ref<_Tp1&, _Tp2&&>>>
3654 { using type = __common_ref<_Tp1&, _Tp2&&>; };
3655
3656 template<typename _Tp1, typename _Tp2>
3657 struct __common_reference_impl<_Tp1&&, _Tp2&, 1,
3658 void_t<__common_ref<_Tp1&&, _Tp2&>>>
3659 { using type = __common_ref<_Tp1&&, _Tp2&>; };
3660
3661 // Otherwise, if basic_common_reference<...>::type is well-formed, ...
3662 template<typename _Tp1, typename _Tp2>
3663 struct __common_reference_impl<_Tp1, _Tp2, 2,
3664 void_t<__basic_common_ref<_Tp1, _Tp2>>>
3665 { using type = __basic_common_ref<_Tp1, _Tp2>; };
3666
3667 // Otherwise, if COND-RES(T1, T2) is well-formed, ...
3668 template<typename _Tp1, typename _Tp2>
3669 struct __common_reference_impl<_Tp1, _Tp2, 3,
3670 void_t<__cond_res<_Tp1, _Tp2>>>
3671 { using type = __cond_res<_Tp1, _Tp2>; };
3672
3673 // Otherwise, if common_type_t<T1, T2> is well-formed, ...
3674 template<typename _Tp1, typename _Tp2>
3675 struct __common_reference_impl<_Tp1, _Tp2, 4,
3676 void_t<common_type_t<_Tp1, _Tp2>>>
3677 { using type = common_type_t<_Tp1, _Tp2>; };
3678
3679 // Otherwise, there shall be no member type.
3680 template<typename _Tp1, typename _Tp2>
3681 struct __common_reference_impl<_Tp1, _Tp2, 5, void>
3682 { };
3683
3684 // Otherwise, if sizeof...(T) is greater than two, ...
3685 template<typename _Tp1, typename _Tp2, typename... _Rest>
3686 struct common_reference<_Tp1, _Tp2, _Rest...>
3687 : __common_type_fold<common_reference<_Tp1, _Tp2>,
3688 __common_type_pack<_Rest...>>
3689 { };
3690
3691 // Reuse __common_type_fold for common_reference<T1, T2, Rest...>
3692 template<typename _Tp1, typename _Tp2, typename... _Rest>
3693 struct __common_type_fold<common_reference<_Tp1, _Tp2>,
3694 __common_type_pack<_Rest...>,
3695 void_t<common_reference_t<_Tp1, _Tp2>>>
3696 : public common_reference<common_reference_t<_Tp1, _Tp2>, _Rest...>
3697 { };
3698 /// @endcond
3699
3700#endif // C++2a
3701
3702 /// @} group metaprogramming
3703
3704_GLIBCXX_END_NAMESPACE_VERSION
3705} // namespace std
3706
3707#endif // C++11
3708
3709#endif // _GLIBCXX_TYPE_TRAITS