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1// <functional> -*- C++ -*-
2
3// Copyright (C) 2001-2018 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/*
26 * Copyright (c) 1997
27 * Silicon Graphics Computer Systems, Inc.
28 *
29 * Permission to use, copy, modify, distribute and sell this software
30 * and its documentation for any purpose is hereby granted without fee,
31 * provided that the above copyright notice appear in all copies and
32 * that both that copyright notice and this permission notice appear
33 * in supporting documentation. Silicon Graphics makes no
34 * representations about the suitability of this software for any
35 * purpose. It is provided "as is" without express or implied warranty.
36 *
37 */
38
39/** @file include/functional
40 * This is a Standard C++ Library header.
41 */
42
43#ifndef _GLIBCXX_FUNCTIONAL
44#define _GLIBCXX_FUNCTIONAL 1
45
46#pragma GCC system_header
47
48#include <bits/c++config.h>
49#include <bits/stl_function.h>
50
51#if __cplusplus >= 201103L
52
53#include <new>
54#include <tuple>
55#include <type_traits>
56#include <bits/functional_hash.h>
57#include <bits/invoke.h>
58#include <bits/refwrap.h> // std::reference_wrapper and _Mem_fn_traits
59#include <bits/std_function.h> // std::function
60#if __cplusplus > 201402L
61# include <unordered_map>
62# include <vector>
63# include <array>
64# include <utility>
65# include <bits/stl_algo.h>
66#endif
67
68namespace std _GLIBCXX_VISIBILITY(default)
69{
70_GLIBCXX_BEGIN_NAMESPACE_VERSION
71
72#if __cplusplus > 201402L
73# define __cpp_lib_invoke 201411
74
75 /// Invoke a callable object.
76 template<typename _Callable, typename... _Args>
77 inline invoke_result_t<_Callable, _Args...>
78 invoke(_Callable&& __fn, _Args&&... __args)
79 noexcept(is_nothrow_invocable_v<_Callable, _Args...>)
80 {
81 return std::__invoke(std::forward<_Callable>(__fn),
82 std::forward<_Args>(__args)...);
83 }
84#endif
85
86 template<typename _MemFunPtr,
87 bool __is_mem_fn = is_member_function_pointer<_MemFunPtr>::value>
88 class _Mem_fn_base
89 : public _Mem_fn_traits<_MemFunPtr>::__maybe_type
90 {
91 using _Traits = _Mem_fn_traits<_MemFunPtr>;
92
93 using _Arity = typename _Traits::__arity;
94 using _Varargs = typename _Traits::__vararg;
95
96 template<typename _Func, typename... _BoundArgs>
97 friend struct _Bind_check_arity;
98
99 _MemFunPtr _M_pmf;
100
101 public:
102
103 using result_type = typename _Traits::__result_type;
104
105 explicit constexpr
106 _Mem_fn_base(_MemFunPtr __pmf) noexcept : _M_pmf(__pmf) { }
107
108 template<typename... _Args>
109 auto
110 operator()(_Args&&... __args) const
111 noexcept(noexcept(
112 std::__invoke(_M_pmf, std::forward<_Args>(__args)...)))
113 -> decltype(std::__invoke(_M_pmf, std::forward<_Args>(__args)...))
114 { return std::__invoke(_M_pmf, std::forward<_Args>(__args)...); }
115 };
116
117 // Partial specialization for member object pointers.
118 template<typename _MemObjPtr>
119 class _Mem_fn_base<_MemObjPtr, false>
120 {
121 using _Arity = integral_constant<size_t, 0>;
122 using _Varargs = false_type;
123
124 template<typename _Func, typename... _BoundArgs>
125 friend struct _Bind_check_arity;
126
127 _MemObjPtr _M_pm;
128
129 public:
130 explicit constexpr
131 _Mem_fn_base(_MemObjPtr __pm) noexcept : _M_pm(__pm) { }
132
133 template<typename _Tp>
134 auto
135 operator()(_Tp&& __obj) const
136 noexcept(noexcept(std::__invoke(_M_pm, std::forward<_Tp>(__obj))))
137 -> decltype(std::__invoke(_M_pm, std::forward<_Tp>(__obj)))
138 { return std::__invoke(_M_pm, std::forward<_Tp>(__obj)); }
139 };
140
141 template<typename _MemberPointer>
142 struct _Mem_fn; // undefined
143
144 template<typename _Res, typename _Class>
145 struct _Mem_fn<_Res _Class::*>
146 : _Mem_fn_base<_Res _Class::*>
147 {
148 using _Mem_fn_base<_Res _Class::*>::_Mem_fn_base;
149 };
150
151 // _GLIBCXX_RESOLVE_LIB_DEFECTS
152 // 2048. Unnecessary mem_fn overloads
153 /**
154 * @brief Returns a function object that forwards to the member
155 * pointer @a pm.
156 * @ingroup functors
157 */
158 template<typename _Tp, typename _Class>
159 inline _Mem_fn<_Tp _Class::*>
160 mem_fn(_Tp _Class::* __pm) noexcept
161 {
162 return _Mem_fn<_Tp _Class::*>(__pm);
163 }
164
165 /**
166 * @brief Determines if the given type _Tp is a function object that
167 * should be treated as a subexpression when evaluating calls to
168 * function objects returned by bind().
169 *
170 * C++11 [func.bind.isbind].
171 * @ingroup binders
172 */
173 template<typename _Tp>
174 struct is_bind_expression
175 : public false_type { };
176
177 /**
178 * @brief Determines if the given type _Tp is a placeholder in a
179 * bind() expression and, if so, which placeholder it is.
180 *
181 * C++11 [func.bind.isplace].
182 * @ingroup binders
183 */
184 template<typename _Tp>
185 struct is_placeholder
186 : public integral_constant<int, 0>
187 { };
188
189#if __cplusplus > 201402L
190 template <typename _Tp> inline constexpr bool is_bind_expression_v
191 = is_bind_expression<_Tp>::value;
192 template <typename _Tp> inline constexpr int is_placeholder_v
193 = is_placeholder<_Tp>::value;
194#endif // C++17
195
196 /** @brief The type of placeholder objects defined by libstdc++.
197 * @ingroup binders
198 */
199 template<int _Num> struct _Placeholder { };
200
201 /** @namespace std::placeholders
202 * @brief ISO C++11 entities sub-namespace for functional.
203 * @ingroup binders
204 */
205 namespace placeholders
206 {
207 /* Define a large number of placeholders. There is no way to
208 * simplify this with variadic templates, because we're introducing
209 * unique names for each.
210 */
211 extern const _Placeholder<1> _1;
212 extern const _Placeholder<2> _2;
213 extern const _Placeholder<3> _3;
214 extern const _Placeholder<4> _4;
215 extern const _Placeholder<5> _5;
216 extern const _Placeholder<6> _6;
217 extern const _Placeholder<7> _7;
218 extern const _Placeholder<8> _8;
219 extern const _Placeholder<9> _9;
220 extern const _Placeholder<10> _10;
221 extern const _Placeholder<11> _11;
222 extern const _Placeholder<12> _12;
223 extern const _Placeholder<13> _13;
224 extern const _Placeholder<14> _14;
225 extern const _Placeholder<15> _15;
226 extern const _Placeholder<16> _16;
227 extern const _Placeholder<17> _17;
228 extern const _Placeholder<18> _18;
229 extern const _Placeholder<19> _19;
230 extern const _Placeholder<20> _20;
231 extern const _Placeholder<21> _21;
232 extern const _Placeholder<22> _22;
233 extern const _Placeholder<23> _23;
234 extern const _Placeholder<24> _24;
235 extern const _Placeholder<25> _25;
236 extern const _Placeholder<26> _26;
237 extern const _Placeholder<27> _27;
238 extern const _Placeholder<28> _28;
239 extern const _Placeholder<29> _29;
240 }
241
242 /**
243 * Partial specialization of is_placeholder that provides the placeholder
244 * number for the placeholder objects defined by libstdc++.
245 * @ingroup binders
246 */
247 template<int _Num>
248 struct is_placeholder<_Placeholder<_Num> >
249 : public integral_constant<int, _Num>
250 { };
251
252 template<int _Num>
253 struct is_placeholder<const _Placeholder<_Num> >
254 : public integral_constant<int, _Num>
255 { };
256
257
258 // Like tuple_element_t but SFINAE-friendly.
259 template<std::size_t __i, typename _Tuple>
260 using _Safe_tuple_element_t
261 = typename enable_if<(__i < tuple_size<_Tuple>::value),
262 tuple_element<__i, _Tuple>>::type::type;
263
264 /**
265 * Maps an argument to bind() into an actual argument to the bound
266 * function object [func.bind.bind]/10. Only the first parameter should
267 * be specified: the rest are used to determine among the various
268 * implementations. Note that, although this class is a function
269 * object, it isn't entirely normal because it takes only two
270 * parameters regardless of the number of parameters passed to the
271 * bind expression. The first parameter is the bound argument and
272 * the second parameter is a tuple containing references to the
273 * rest of the arguments.
274 */
275 template<typename _Arg,
276 bool _IsBindExp = is_bind_expression<_Arg>::value,
277 bool _IsPlaceholder = (is_placeholder<_Arg>::value > 0)>
278 class _Mu;
279
280 /**
281 * If the argument is reference_wrapper<_Tp>, returns the
282 * underlying reference.
283 * C++11 [func.bind.bind] p10 bullet 1.
284 */
285 template<typename _Tp>
286 class _Mu<reference_wrapper<_Tp>, false, false>
287 {
288 public:
289 /* Note: This won't actually work for const volatile
290 * reference_wrappers, because reference_wrapper::get() is const
291 * but not volatile-qualified. This might be a defect in the TR.
292 */
293 template<typename _CVRef, typename _Tuple>
294 _Tp&
295 operator()(_CVRef& __arg, _Tuple&) const volatile
296 { return __arg.get(); }
297 };
298
299 /**
300 * If the argument is a bind expression, we invoke the underlying
301 * function object with the same cv-qualifiers as we are given and
302 * pass along all of our arguments (unwrapped).
303 * C++11 [func.bind.bind] p10 bullet 2.
304 */
305 template<typename _Arg>
306 class _Mu<_Arg, true, false>
307 {
308 public:
309 template<typename _CVArg, typename... _Args>
310 auto
311 operator()(_CVArg& __arg,
312 tuple<_Args...>& __tuple) const volatile
313 -> decltype(__arg(declval<_Args>()...))
314 {
315 // Construct an index tuple and forward to __call
316 typedef typename _Build_index_tuple<sizeof...(_Args)>::__type
317 _Indexes;
318 return this->__call(__arg, __tuple, _Indexes());
319 }
320
321 private:
322 // Invokes the underlying function object __arg by unpacking all
323 // of the arguments in the tuple.
324 template<typename _CVArg, typename... _Args, std::size_t... _Indexes>
325 auto
326 __call(_CVArg& __arg, tuple<_Args...>& __tuple,
327 const _Index_tuple<_Indexes...>&) const volatile
328 -> decltype(__arg(declval<_Args>()...))
329 {
330 return __arg(std::get<_Indexes>(std::move(__tuple))...);
331 }
332 };
333
334 /**
335 * If the argument is a placeholder for the Nth argument, returns
336 * a reference to the Nth argument to the bind function object.
337 * C++11 [func.bind.bind] p10 bullet 3.
338 */
339 template<typename _Arg>
340 class _Mu<_Arg, false, true>
341 {
342 public:
343 template<typename _Tuple>
344 _Safe_tuple_element_t<(is_placeholder<_Arg>::value - 1), _Tuple>&&
345 operator()(const volatile _Arg&, _Tuple& __tuple) const volatile
346 {
347 return
348 ::std::get<(is_placeholder<_Arg>::value - 1)>(std::move(__tuple));
349 }
350 };
351
352 /**
353 * If the argument is just a value, returns a reference to that
354 * value. The cv-qualifiers on the reference are determined by the caller.
355 * C++11 [func.bind.bind] p10 bullet 4.
356 */
357 template<typename _Arg>
358 class _Mu<_Arg, false, false>
359 {
360 public:
361 template<typename _CVArg, typename _Tuple>
362 _CVArg&&
363 operator()(_CVArg&& __arg, _Tuple&) const volatile
364 { return std::forward<_CVArg>(__arg); }
365 };
366
367 // std::get<I> for volatile-qualified tuples
368 template<std::size_t _Ind, typename... _Tp>
369 inline auto
370 __volget(volatile tuple<_Tp...>& __tuple)
371 -> __tuple_element_t<_Ind, tuple<_Tp...>> volatile&
372 { return std::get<_Ind>(const_cast<tuple<_Tp...>&>(__tuple)); }
373
374 // std::get<I> for const-volatile-qualified tuples
375 template<std::size_t _Ind, typename... _Tp>
376 inline auto
377 __volget(const volatile tuple<_Tp...>& __tuple)
378 -> __tuple_element_t<_Ind, tuple<_Tp...>> const volatile&
379 { return std::get<_Ind>(const_cast<const tuple<_Tp...>&>(__tuple)); }
380
381 /// Type of the function object returned from bind().
382 template<typename _Signature>
383 struct _Bind;
384
385 template<typename _Functor, typename... _Bound_args>
386 class _Bind<_Functor(_Bound_args...)>
387 : public _Weak_result_type<_Functor>
388 {
389 typedef typename _Build_index_tuple<sizeof...(_Bound_args)>::__type
390 _Bound_indexes;
391
392 _Functor _M_f;
393 tuple<_Bound_args...> _M_bound_args;
394
395 // Call unqualified
396 template<typename _Result, typename... _Args, std::size_t... _Indexes>
397 _Result
398 __call(tuple<_Args...>&& __args, _Index_tuple<_Indexes...>)
399 {
400 return std::__invoke(_M_f,
401 _Mu<_Bound_args>()(std::get<_Indexes>(_M_bound_args), __args)...
402 );
403 }
404
405 // Call as const
406 template<typename _Result, typename... _Args, std::size_t... _Indexes>
407 _Result
408 __call_c(tuple<_Args...>&& __args, _Index_tuple<_Indexes...>) const
409 {
410 return std::__invoke(_M_f,
411 _Mu<_Bound_args>()(std::get<_Indexes>(_M_bound_args), __args)...
412 );
413 }
414
415 // Call as volatile
416 template<typename _Result, typename... _Args, std::size_t... _Indexes>
417 _Result
418 __call_v(tuple<_Args...>&& __args,
419 _Index_tuple<_Indexes...>) volatile
420 {
421 return std::__invoke(_M_f,
422 _Mu<_Bound_args>()(__volget<_Indexes>(_M_bound_args), __args)...
423 );
424 }
425
426 // Call as const volatile
427 template<typename _Result, typename... _Args, std::size_t... _Indexes>
428 _Result
429 __call_c_v(tuple<_Args...>&& __args,
430 _Index_tuple<_Indexes...>) const volatile
431 {
432 return std::__invoke(_M_f,
433 _Mu<_Bound_args>()(__volget<_Indexes>(_M_bound_args), __args)...
434 );
435 }
436
437 template<typename _BoundArg, typename _CallArgs>
438 using _Mu_type = decltype(
439 _Mu<typename remove_cv<_BoundArg>::type>()(
440 std::declval<_BoundArg&>(), std::declval<_CallArgs&>()) );
441
442 template<typename _Fn, typename _CallArgs, typename... _BArgs>
443 using _Res_type_impl
444 = typename result_of< _Fn&(_Mu_type<_BArgs, _CallArgs>&&...) >::type;
445
446 template<typename _CallArgs>
447 using _Res_type = _Res_type_impl<_Functor, _CallArgs, _Bound_args...>;
448
449 template<typename _CallArgs>
450 using __dependent = typename
451 enable_if<bool(tuple_size<_CallArgs>::value+1), _Functor>::type;
452
453 template<typename _CallArgs, template<class> class __cv_quals>
454 using _Res_type_cv = _Res_type_impl<
455 typename __cv_quals<__dependent<_CallArgs>>::type,
456 _CallArgs,
457 typename __cv_quals<_Bound_args>::type...>;
458
459 public:
460 template<typename... _Args>
461 explicit _Bind(const _Functor& __f, _Args&&... __args)
462 : _M_f(__f), _M_bound_args(std::forward<_Args>(__args)...)
463 { }
464
465 template<typename... _Args>
466 explicit _Bind(_Functor&& __f, _Args&&... __args)
467 : _M_f(std::move(__f)), _M_bound_args(std::forward<_Args>(__args)...)
468 { }
469
470 _Bind(const _Bind&) = default;
471
472 _Bind(_Bind&& __b)
473 : _M_f(std::move(__b._M_f)), _M_bound_args(std::move(__b._M_bound_args))
474 { }
475
476 // Call unqualified
477 template<typename... _Args,
478 typename _Result = _Res_type<tuple<_Args...>>>
479 _Result
480 operator()(_Args&&... __args)
481 {
482 return this->__call<_Result>(
483 std::forward_as_tuple(std::forward<_Args>(__args)...),
484 _Bound_indexes());
485 }
486
487 // Call as const
488 template<typename... _Args,
489 typename _Result = _Res_type_cv<tuple<_Args...>, add_const>>
490 _Result
491 operator()(_Args&&... __args) const
492 {
493 return this->__call_c<_Result>(
494 std::forward_as_tuple(std::forward<_Args>(__args)...),
495 _Bound_indexes());
496 }
497
498#if __cplusplus > 201402L
499# define _GLIBCXX_DEPR_BIND \
500 [[deprecated("std::bind does not support volatile in C++17")]]
501#else
502# define _GLIBCXX_DEPR_BIND
503#endif
504 // Call as volatile
505 template<typename... _Args,
506 typename _Result = _Res_type_cv<tuple<_Args...>, add_volatile>>
507 _GLIBCXX_DEPR_BIND
508 _Result
509 operator()(_Args&&... __args) volatile
510 {
511 return this->__call_v<_Result>(
512 std::forward_as_tuple(std::forward<_Args>(__args)...),
513 _Bound_indexes());
514 }
515
516 // Call as const volatile
517 template<typename... _Args,
518 typename _Result = _Res_type_cv<tuple<_Args...>, add_cv>>
519 _GLIBCXX_DEPR_BIND
520 _Result
521 operator()(_Args&&... __args) const volatile
522 {
523 return this->__call_c_v<_Result>(
524 std::forward_as_tuple(std::forward<_Args>(__args)...),
525 _Bound_indexes());
526 }
527 };
528
529 /// Type of the function object returned from bind<R>().
530 template<typename _Result, typename _Signature>
531 struct _Bind_result;
532
533 template<typename _Result, typename _Functor, typename... _Bound_args>
534 class _Bind_result<_Result, _Functor(_Bound_args...)>
535 {
536 typedef typename _Build_index_tuple<sizeof...(_Bound_args)>::__type
537 _Bound_indexes;
538
539 _Functor _M_f;
540 tuple<_Bound_args...> _M_bound_args;
541
542 // sfinae types
543 template<typename _Res>
544 using __enable_if_void
545 = typename enable_if<is_void<_Res>{}>::type;
546
547 template<typename _Res>
548 using __disable_if_void
549 = typename enable_if<!is_void<_Res>{}, _Result>::type;
550
551 // Call unqualified
552 template<typename _Res, typename... _Args, std::size_t... _Indexes>
553 __disable_if_void<_Res>
554 __call(tuple<_Args...>&& __args, _Index_tuple<_Indexes...>)
555 {
556 return std::__invoke(_M_f, _Mu<_Bound_args>()
557 (std::get<_Indexes>(_M_bound_args), __args)...);
558 }
559
560 // Call unqualified, return void
561 template<typename _Res, typename... _Args, std::size_t... _Indexes>
562 __enable_if_void<_Res>
563 __call(tuple<_Args...>&& __args, _Index_tuple<_Indexes...>)
564 {
565 std::__invoke(_M_f, _Mu<_Bound_args>()
566 (std::get<_Indexes>(_M_bound_args), __args)...);
567 }
568
569 // Call as const
570 template<typename _Res, typename... _Args, std::size_t... _Indexes>
571 __disable_if_void<_Res>
572 __call(tuple<_Args...>&& __args, _Index_tuple<_Indexes...>) const
573 {
574 return std::__invoke(_M_f, _Mu<_Bound_args>()
575 (std::get<_Indexes>(_M_bound_args), __args)...);
576 }
577
578 // Call as const, return void
579 template<typename _Res, typename... _Args, std::size_t... _Indexes>
580 __enable_if_void<_Res>
581 __call(tuple<_Args...>&& __args, _Index_tuple<_Indexes...>) const
582 {
583 std::__invoke(_M_f, _Mu<_Bound_args>()
584 (std::get<_Indexes>(_M_bound_args), __args)...);
585 }
586
587 // Call as volatile
588 template<typename _Res, typename... _Args, std::size_t... _Indexes>
589 __disable_if_void<_Res>
590 __call(tuple<_Args...>&& __args, _Index_tuple<_Indexes...>) volatile
591 {
592 return std::__invoke(_M_f, _Mu<_Bound_args>()
593 (__volget<_Indexes>(_M_bound_args), __args)...);
594 }
595
596 // Call as volatile, return void
597 template<typename _Res, typename... _Args, std::size_t... _Indexes>
598 __enable_if_void<_Res>
599 __call(tuple<_Args...>&& __args, _Index_tuple<_Indexes...>) volatile
600 {
601 std::__invoke(_M_f, _Mu<_Bound_args>()
602 (__volget<_Indexes>(_M_bound_args), __args)...);
603 }
604
605 // Call as const volatile
606 template<typename _Res, typename... _Args, std::size_t... _Indexes>
607 __disable_if_void<_Res>
608 __call(tuple<_Args...>&& __args,
609 _Index_tuple<_Indexes...>) const volatile
610 {
611 return std::__invoke(_M_f, _Mu<_Bound_args>()
612 (__volget<_Indexes>(_M_bound_args), __args)...);
613 }
614
615 // Call as const volatile, return void
616 template<typename _Res, typename... _Args, std::size_t... _Indexes>
617 __enable_if_void<_Res>
618 __call(tuple<_Args...>&& __args,
619 _Index_tuple<_Indexes...>) const volatile
620 {
621 std::__invoke(_M_f, _Mu<_Bound_args>()
622 (__volget<_Indexes>(_M_bound_args), __args)...);
623 }
624
625 public:
626 typedef _Result result_type;
627
628 template<typename... _Args>
629 explicit _Bind_result(const _Functor& __f, _Args&&... __args)
630 : _M_f(__f), _M_bound_args(std::forward<_Args>(__args)...)
631 { }
632
633 template<typename... _Args>
634 explicit _Bind_result(_Functor&& __f, _Args&&... __args)
635 : _M_f(std::move(__f)), _M_bound_args(std::forward<_Args>(__args)...)
636 { }
637
638 _Bind_result(const _Bind_result&) = default;
639
640 _Bind_result(_Bind_result&& __b)
641 : _M_f(std::move(__b._M_f)), _M_bound_args(std::move(__b._M_bound_args))
642 { }
643
644 // Call unqualified
645 template<typename... _Args>
646 result_type
647 operator()(_Args&&... __args)
648 {
649 return this->__call<_Result>(
650 std::forward_as_tuple(std::forward<_Args>(__args)...),
651 _Bound_indexes());
652 }
653
654 // Call as const
655 template<typename... _Args>
656 result_type
657 operator()(_Args&&... __args) const
658 {
659 return this->__call<_Result>(
660 std::forward_as_tuple(std::forward<_Args>(__args)...),
661 _Bound_indexes());
662 }
663
664 // Call as volatile
665 template<typename... _Args>
666 _GLIBCXX_DEPR_BIND
667 result_type
668 operator()(_Args&&... __args) volatile
669 {
670 return this->__call<_Result>(
671 std::forward_as_tuple(std::forward<_Args>(__args)...),
672 _Bound_indexes());
673 }
674
675 // Call as const volatile
676 template<typename... _Args>
677 _GLIBCXX_DEPR_BIND
678 result_type
679 operator()(_Args&&... __args) const volatile
680 {
681 return this->__call<_Result>(
682 std::forward_as_tuple(std::forward<_Args>(__args)...),
683 _Bound_indexes());
684 }
685 };
686#undef _GLIBCXX_DEPR_BIND
687
688 /**
689 * @brief Class template _Bind is always a bind expression.
690 * @ingroup binders
691 */
692 template<typename _Signature>
693 struct is_bind_expression<_Bind<_Signature> >
694 : public true_type { };
695
696 /**
697 * @brief Class template _Bind is always a bind expression.
698 * @ingroup binders
699 */
700 template<typename _Signature>
701 struct is_bind_expression<const _Bind<_Signature> >
702 : public true_type { };
703
704 /**
705 * @brief Class template _Bind is always a bind expression.
706 * @ingroup binders
707 */
708 template<typename _Signature>
709 struct is_bind_expression<volatile _Bind<_Signature> >
710 : public true_type { };
711
712 /**
713 * @brief Class template _Bind is always a bind expression.
714 * @ingroup binders
715 */
716 template<typename _Signature>
717 struct is_bind_expression<const volatile _Bind<_Signature>>
718 : public true_type { };
719
720 /**
721 * @brief Class template _Bind_result is always a bind expression.
722 * @ingroup binders
723 */
724 template<typename _Result, typename _Signature>
725 struct is_bind_expression<_Bind_result<_Result, _Signature>>
726 : public true_type { };
727
728 /**
729 * @brief Class template _Bind_result is always a bind expression.
730 * @ingroup binders
731 */
732 template<typename _Result, typename _Signature>
733 struct is_bind_expression<const _Bind_result<_Result, _Signature>>
734 : public true_type { };
735
736 /**
737 * @brief Class template _Bind_result is always a bind expression.
738 * @ingroup binders
739 */
740 template<typename _Result, typename _Signature>
741 struct is_bind_expression<volatile _Bind_result<_Result, _Signature>>
742 : public true_type { };
743
744 /**
745 * @brief Class template _Bind_result is always a bind expression.
746 * @ingroup binders
747 */
748 template<typename _Result, typename _Signature>
749 struct is_bind_expression<const volatile _Bind_result<_Result, _Signature>>
750 : public true_type { };
751
752 template<typename _Func, typename... _BoundArgs>
753 struct _Bind_check_arity { };
754
755 template<typename _Ret, typename... _Args, typename... _BoundArgs>
756 struct _Bind_check_arity<_Ret (*)(_Args...), _BoundArgs...>
757 {
758 static_assert(sizeof...(_BoundArgs) == sizeof...(_Args),
759 "Wrong number of arguments for function");
760 };
761
762 template<typename _Ret, typename... _Args, typename... _BoundArgs>
763 struct _Bind_check_arity<_Ret (*)(_Args......), _BoundArgs...>
764 {
765 static_assert(sizeof...(_BoundArgs) >= sizeof...(_Args),
766 "Wrong number of arguments for function");
767 };
768
769 template<typename _Tp, typename _Class, typename... _BoundArgs>
770 struct _Bind_check_arity<_Tp _Class::*, _BoundArgs...>
771 {
772 using _Arity = typename _Mem_fn<_Tp _Class::*>::_Arity;
773 using _Varargs = typename _Mem_fn<_Tp _Class::*>::_Varargs;
774 static_assert(_Varargs::value
775 ? sizeof...(_BoundArgs) >= _Arity::value + 1
776 : sizeof...(_BoundArgs) == _Arity::value + 1,
777 "Wrong number of arguments for pointer-to-member");
778 };
779
780 // Trait type used to remove std::bind() from overload set via SFINAE
781 // when first argument has integer type, so that std::bind() will
782 // not be a better match than ::bind() from the BSD Sockets API.
783 template<typename _Tp, typename _Tp2 = typename decay<_Tp>::type>
784 using __is_socketlike = __or_<is_integral<_Tp2>, is_enum<_Tp2>>;
785
786 template<bool _SocketLike, typename _Func, typename... _BoundArgs>
787 struct _Bind_helper
788 : _Bind_check_arity<typename decay<_Func>::type, _BoundArgs...>
789 {
790 typedef typename decay<_Func>::type __func_type;
791 typedef _Bind<__func_type(typename decay<_BoundArgs>::type...)> type;
792 };
793
794 // Partial specialization for is_socketlike == true, does not define
795 // nested type so std::bind() will not participate in overload resolution
796 // when the first argument might be a socket file descriptor.
797 template<typename _Func, typename... _BoundArgs>
798 struct _Bind_helper<true, _Func, _BoundArgs...>
799 { };
800
801 /**
802 * @brief Function template for std::bind.
803 * @ingroup binders
804 */
805 template<typename _Func, typename... _BoundArgs>
806 inline typename
807 _Bind_helper<__is_socketlike<_Func>::value, _Func, _BoundArgs...>::type
808 bind(_Func&& __f, _BoundArgs&&... __args)
809 {
810 typedef _Bind_helper<false, _Func, _BoundArgs...> __helper_type;
811 return typename __helper_type::type(std::forward<_Func>(__f),
812 std::forward<_BoundArgs>(__args)...);
813 }
814
815 template<typename _Result, typename _Func, typename... _BoundArgs>
816 struct _Bindres_helper
817 : _Bind_check_arity<typename decay<_Func>::type, _BoundArgs...>
818 {
819 typedef typename decay<_Func>::type __functor_type;
820 typedef _Bind_result<_Result,
821 __functor_type(typename decay<_BoundArgs>::type...)>
822 type;
823 };
824
825 /**
826 * @brief Function template for std::bind<R>.
827 * @ingroup binders
828 */
829 template<typename _Result, typename _Func, typename... _BoundArgs>
830 inline
831 typename _Bindres_helper<_Result, _Func, _BoundArgs...>::type
832 bind(_Func&& __f, _BoundArgs&&... __args)
833 {
834 typedef _Bindres_helper<_Result, _Func, _BoundArgs...> __helper_type;
835 return typename __helper_type::type(std::forward<_Func>(__f),
836 std::forward<_BoundArgs>(__args)...);
837 }
838
839#if __cplusplus >= 201402L
840 /// Generalized negator.
841 template<typename _Fn>
842 class _Not_fn
843 {
844 template<typename _Fn2, typename... _Args>
845 using __inv_res_t = typename __invoke_result<_Fn2, _Args...>::type;
846
847 template<typename _Tp>
848 static decltype(!std::declval<_Tp>())
849 _S_not() noexcept(noexcept(!std::declval<_Tp>()));
850
851 public:
852 template<typename _Fn2>
853 _Not_fn(_Fn2&& __fn, int)
854 : _M_fn(std::forward<_Fn2>(__fn)) { }
855
856 _Not_fn(const _Not_fn& __fn) = default;
857 _Not_fn(_Not_fn&& __fn) = default;
858 ~_Not_fn() = default;
859
860 // Macro to define operator() with given cv-qualifiers ref-qualifiers,
861 // forwarding _M_fn and the function arguments with the same qualifiers,
862 // and deducing the return type and exception-specification.
863#define _GLIBCXX_NOT_FN_CALL_OP( _QUALS ) \
864 template<typename... _Args> \
865 decltype(_S_not<__inv_res_t<_Fn _QUALS, _Args...>>()) \
866 operator()(_Args&&... __args) _QUALS \
867 noexcept(noexcept(_S_not<__inv_res_t<_Fn _QUALS, _Args...>>())) \
868 { \
869 return !std::__invoke(std::forward< _Fn _QUALS >(_M_fn), \
870 std::forward<_Args>(__args)...); \
871 }
872 _GLIBCXX_NOT_FN_CALL_OP( & )
873 _GLIBCXX_NOT_FN_CALL_OP( const & )
874 _GLIBCXX_NOT_FN_CALL_OP( && )
875 _GLIBCXX_NOT_FN_CALL_OP( const && )
876#undef _GLIBCXX_NOT_FN_CALL
877
878 private:
879 _Fn _M_fn;
880 };
881
882 template<typename _Tp, typename _Pred>
883 struct __is_byte_like : false_type { };
884
885 template<typename _Tp>
886 struct __is_byte_like<_Tp, equal_to<_Tp>>
887 : __bool_constant<sizeof(_Tp) == 1 && is_integral<_Tp>::value> { };
888
889 template<typename _Tp>
890 struct __is_byte_like<_Tp, equal_to<void>>
891 : __bool_constant<sizeof(_Tp) == 1 && is_integral<_Tp>::value> { };
892
893#if __cplusplus >= 201703L
894 // Declare std::byte (full definition is in <cstddef>).
895 enum class byte : unsigned char;
896
897 template<>
898 struct __is_byte_like<byte, equal_to<byte>>
899 : true_type { };
900
901 template<>
902 struct __is_byte_like<byte, equal_to<void>>
903 : true_type { };
904
905#define __cpp_lib_not_fn 201603
906 /// [func.not_fn] Function template not_fn
907 template<typename _Fn>
908 inline auto
909 not_fn(_Fn&& __fn)
910 noexcept(std::is_nothrow_constructible<std::decay_t<_Fn>, _Fn&&>::value)
911 {
912 return _Not_fn<std::decay_t<_Fn>>{std::forward<_Fn>(__fn), 0};
913 }
914
915 // Searchers
916#define __cpp_lib_boyer_moore_searcher 201603
917
918 template<typename _ForwardIterator1, typename _BinaryPredicate = equal_to<>>
919 class default_searcher
920 {
921 public:
922 default_searcher(_ForwardIterator1 __pat_first,
923 _ForwardIterator1 __pat_last,
924 _BinaryPredicate __pred = _BinaryPredicate())
925 : _M_m(__pat_first, __pat_last, std::move(__pred))
926 { }
927
928 template<typename _ForwardIterator2>
929 pair<_ForwardIterator2, _ForwardIterator2>
930 operator()(_ForwardIterator2 __first, _ForwardIterator2 __last) const
931 {
932 _ForwardIterator2 __first_ret =
933 std::search(__first, __last, std::get<0>(_M_m), std::get<1>(_M_m),
934 std::get<2>(_M_m));
935 auto __ret = std::make_pair(__first_ret, __first_ret);
936 if (__ret.first != __last)
937 std::advance(__ret.second, std::distance(std::get<0>(_M_m),
938 std::get<1>(_M_m)));
939 return __ret;
940 }
941
942 private:
943 tuple<_ForwardIterator1, _ForwardIterator1, _BinaryPredicate> _M_m;
944 };
945
946 template<typename _Key, typename _Tp, typename _Hash, typename _Pred>
947 struct __boyer_moore_map_base
948 {
949 template<typename _RAIter>
950 __boyer_moore_map_base(_RAIter __pat, size_t __patlen,
951 _Hash&& __hf, _Pred&& __pred)
952 : _M_bad_char{ __patlen, std::move(__hf), std::move(__pred) }
953 {
954 if (__patlen > 0)
955 for (__diff_type __i = 0; __i < __patlen - 1; ++__i)
956 _M_bad_char[__pat[__i]] = __patlen - 1 - __i;
957 }
958
959 using __diff_type = _Tp;
960
961 __diff_type
962 _M_lookup(_Key __key, __diff_type __not_found) const
963 {
964 auto __iter = _M_bad_char.find(__key);
965 if (__iter == _M_bad_char.end())
966 return __not_found;
967 return __iter->second;
968 }
969
970 _Pred
971 _M_pred() const { return _M_bad_char.key_eq(); }
972
973 _GLIBCXX_STD_C::unordered_map<_Key, _Tp, _Hash, _Pred> _M_bad_char;
974 };
975
976 template<typename _Tp, size_t _Len, typename _Pred>
977 struct __boyer_moore_array_base
978 {
979 template<typename _RAIter, typename _Unused>
980 __boyer_moore_array_base(_RAIter __pat, size_t __patlen,
981 _Unused&&, _Pred&& __pred)
982 : _M_bad_char{ _GLIBCXX_STD_C::array<_Tp, _Len>{}, std::move(__pred) }
983 {
984 std::get<0>(_M_bad_char).fill(__patlen);
985 if (__patlen > 0)
986 for (__diff_type __i = 0; __i < __patlen - 1; ++__i)
987 {
988 auto __ch = __pat[__i];
989 using _UCh = make_unsigned_t<decltype(__ch)>;
990 auto __uch = static_cast<_UCh>(__ch);
991 std::get<0>(_M_bad_char)[__uch] = __patlen - 1 - __i;
992 }
993 }
994
995 using __diff_type = _Tp;
996
997 template<typename _Key>
998 __diff_type
999 _M_lookup(_Key __key, __diff_type __not_found) const
1000 {
1001 auto __ukey = static_cast<make_unsigned_t<_Key>>(__key);
1002 if (__ukey >= _Len)
1003 return __not_found;
1004 return std::get<0>(_M_bad_char)[__ukey];
1005 }
1006
1007 const _Pred&
1008 _M_pred() const { return std::get<1>(_M_bad_char); }
1009
1010 tuple<_GLIBCXX_STD_C::array<_Tp, _Len>, _Pred> _M_bad_char;
1011 };
1012
1013 // Use __boyer_moore_array_base when pattern consists of narrow characters
1014 // (or std::byte) and uses std::equal_to as the predicate.
1015 template<typename _RAIter, typename _Hash, typename _Pred,
1016 typename _Val = typename iterator_traits<_RAIter>::value_type,
1017 typename _Diff = typename iterator_traits<_RAIter>::difference_type>
1018 using __boyer_moore_base_t
1019 = conditional_t<__is_byte_like<_Val, _Pred>::value,
1020 __boyer_moore_array_base<_Diff, 256, _Pred>,
1021 __boyer_moore_map_base<_Val, _Diff, _Hash, _Pred>>;
1022
1023 template<typename _RAIter, typename _Hash
1024 = hash<typename iterator_traits<_RAIter>::value_type>,
1025 typename _BinaryPredicate = equal_to<>>
1026 class boyer_moore_searcher
1027 : __boyer_moore_base_t<_RAIter, _Hash, _BinaryPredicate>
1028 {
1029 using _Base = __boyer_moore_base_t<_RAIter, _Hash, _BinaryPredicate>;
1030 using typename _Base::__diff_type;
1031
1032 public:
1033 boyer_moore_searcher(_RAIter __pat_first, _RAIter __pat_last,
1034 _Hash __hf = _Hash(),
1035 _BinaryPredicate __pred = _BinaryPredicate());
1036
1037 template<typename _RandomAccessIterator2>
1038 pair<_RandomAccessIterator2, _RandomAccessIterator2>
1039 operator()(_RandomAccessIterator2 __first,
1040 _RandomAccessIterator2 __last) const;
1041
1042 private:
1043 bool
1044 _M_is_prefix(_RAIter __word, __diff_type __len,
1045 __diff_type __pos)
1046 {
1047 const auto& __pred = this->_M_pred();
1048 __diff_type __suffixlen = __len - __pos;
1049 for (__diff_type __i = 0; __i < __suffixlen; ++__i)
1050 if (!__pred(__word[__i], __word[__pos + __i]))
1051 return false;
1052 return true;
1053 }
1054
1055 __diff_type
1056 _M_suffix_length(_RAIter __word, __diff_type __len,
1057 __diff_type __pos)
1058 {
1059 const auto& __pred = this->_M_pred();
1060 __diff_type __i = 0;
1061 while (__pred(__word[__pos - __i], __word[__len - 1 - __i])
1062 && __i < __pos)
1063 {
1064 ++__i;
1065 }
1066 return __i;
1067 }
1068
1069 template<typename _Tp>
1070 __diff_type
1071 _M_bad_char_shift(_Tp __c) const
1072 { return this->_M_lookup(__c, _M_pat_end - _M_pat); }
1073
1074 _RAIter _M_pat;
1075 _RAIter _M_pat_end;
1076 _GLIBCXX_STD_C::vector<__diff_type> _M_good_suffix;
1077 };
1078
1079 template<typename _RAIter, typename _Hash
1080 = hash<typename iterator_traits<_RAIter>::value_type>,
1081 typename _BinaryPredicate = equal_to<>>
1082 class boyer_moore_horspool_searcher
1083 : __boyer_moore_base_t<_RAIter, _Hash, _BinaryPredicate>
1084 {
1085 using _Base = __boyer_moore_base_t<_RAIter, _Hash, _BinaryPredicate>;
1086 using typename _Base::__diff_type;
1087
1088 public:
1089 boyer_moore_horspool_searcher(_RAIter __pat,
1090 _RAIter __pat_end,
1091 _Hash __hf = _Hash(),
1092 _BinaryPredicate __pred
1093 = _BinaryPredicate())
1094 : _Base(__pat, __pat_end - __pat, std::move(__hf), std::move(__pred)),
1095 _M_pat(__pat), _M_pat_end(__pat_end)
1096 { }
1097
1098 template<typename _RandomAccessIterator2>
1099 pair<_RandomAccessIterator2, _RandomAccessIterator2>
1100 operator()(_RandomAccessIterator2 __first,
1101 _RandomAccessIterator2 __last) const
1102 {
1103 const auto& __pred = this->_M_pred();
1104 auto __patlen = _M_pat_end - _M_pat;
1105 if (__patlen == 0)
1106 return std::make_pair(__first, __first);
1107 auto __len = __last - __first;
1108 while (__len >= __patlen)
1109 {
1110 for (auto __scan = __patlen - 1;
1111 __pred(__first[__scan], _M_pat[__scan]); --__scan)
1112 if (__scan == 0)
1113 return std::make_pair(__first, __first + __patlen);
1114 auto __shift = _M_bad_char_shift(__first[__patlen - 1]);
1115 __len -= __shift;
1116 __first += __shift;
1117 }
1118 return std::make_pair(__last, __last);
1119 }
1120
1121 private:
1122 template<typename _Tp>
1123 __diff_type
1124 _M_bad_char_shift(_Tp __c) const
1125 { return this->_M_lookup(__c, _M_pat_end - _M_pat); }
1126
1127 _RAIter _M_pat;
1128 _RAIter _M_pat_end;
1129 };
1130
1131 template<typename _RAIter, typename _Hash, typename _BinaryPredicate>
1132 boyer_moore_searcher<_RAIter, _Hash, _BinaryPredicate>::
1133 boyer_moore_searcher(_RAIter __pat, _RAIter __pat_end,
1134 _Hash __hf, _BinaryPredicate __pred)
1135 : _Base(__pat, __pat_end - __pat, std::move(__hf), std::move(__pred)),
1136 _M_pat(__pat), _M_pat_end(__pat_end), _M_good_suffix(__pat_end - __pat)
1137 {
1138 auto __patlen = __pat_end - __pat;
1139 if (__patlen == 0)
1140 return;
1141 __diff_type __last_prefix = __patlen - 1;
1142 for (__diff_type __p = __patlen - 1; __p >= 0; --__p)
1143 {
1144 if (_M_is_prefix(__pat, __patlen, __p + 1))
1145 __last_prefix = __p + 1;
1146 _M_good_suffix[__p] = __last_prefix + (__patlen - 1 - __p);
1147 }
1148 for (__diff_type __p = 0; __p < __patlen - 1; ++__p)
1149 {
1150 auto __slen = _M_suffix_length(__pat, __patlen, __p);
1151 auto __pos = __patlen - 1 - __slen;
1152 if (!__pred(__pat[__p - __slen], __pat[__pos]))
1153 _M_good_suffix[__pos] = __patlen - 1 - __p + __slen;
1154 }
1155 }
1156
1157 template<typename _RAIter, typename _Hash, typename _BinaryPredicate>
1158 template<typename _RandomAccessIterator2>
1159 pair<_RandomAccessIterator2, _RandomAccessIterator2>
1160 boyer_moore_searcher<_RAIter, _Hash, _BinaryPredicate>::
1161 operator()(_RandomAccessIterator2 __first,
1162 _RandomAccessIterator2 __last) const
1163 {
1164 auto __patlen = _M_pat_end - _M_pat;
1165 if (__patlen == 0)
1166 return std::make_pair(__first, __first);
1167 const auto& __pred = this->_M_pred();
1168 __diff_type __i = __patlen - 1;
1169 auto __stringlen = __last - __first;
1170 while (__i < __stringlen)
1171 {
1172 __diff_type __j = __patlen - 1;
1173 while (__j >= 0 && __pred(__first[__i], _M_pat[__j]))
1174 {
1175 --__i;
1176 --__j;
1177 }
1178 if (__j < 0)
1179 {
1180 const auto __match = __first + __i + 1;
1181 return std::make_pair(__match, __match + __patlen);
1182 }
1183 __i += std::max(_M_bad_char_shift(__first[__i]),
1184 _M_good_suffix[__j]);
1185 }
1186 return std::make_pair(__last, __last);
1187 }
1188
1189#endif // C++17
1190#endif // C++14
1191
1192_GLIBCXX_END_NAMESPACE_VERSION
1193} // namespace std
1194
1195#endif // C++11
1196
1197#endif // _GLIBCXX_FUNCTIONAL
1198

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