forward_list.h source code [include/c++/9/bits/forward_list.h]

1	// <forward_list.h> -- C++ --
2
3	// Copyright (C) 2008-2019 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 bits/forward_list.h*
26	* This is an internal header file, included by other library headers.
27	* Do not attempt to use it directly. @headername{forward_list}
28	*/
29
30	#ifndef _FORWARD_LIST_H
31	#define _FORWARD_LIST_H 1
32
33	#pragma GCC system_header
34
35	#include <initializer_list>
36	#include <bits/stl_iterator_base_types.h>
37	#include <bits/stl_iterator.h>
38	#include <bits/stl_algobase.h>
39	#include <bits/stl_function.h>
40	#include <bits/allocator.h>
41	#include <ext/alloc_traits.h>
42	#include <ext/aligned_buffer.h>
43
44	namespace std _GLIBCXX_VISIBILITY(default)
45	{
46	_GLIBCXX_BEGIN_NAMESPACE_VERSION
47	_GLIBCXX_BEGIN_NAMESPACE_CONTAINER
48
49	/**
50	* @brief A helper basic node class for %forward_list.
51	* This is just a linked list with nothing inside it.
52	* There are purely list shuffling utility methods here.
53	*/
54	struct _Fwd_list_node_base
55	{
56	_Fwd_list_node_base() = default;
57	_Fwd_list_node_base(_Fwd_list_node_base&& __x) noexcept
58	: _M_next(__x._M_next)
59	{ __x._M_next = nullptr; }
60
61	_Fwd_list_node_base(const _Fwd_list_node_base&) = delete;
62	_Fwd_list_node_base& operator=(const _Fwd_list_node_base&) = delete;
63
64	_Fwd_list_node_base&
65	operator=(_Fwd_list_node_base&& __x) noexcept
66	{
67	_M_next = __x._M_next;
68	__x._M_next = nullptr;
69	return *this;
70	}
71
72	_Fwd_list_node_base* _M_next = nullptr;
73
74	_Fwd_list_node_base*
75	_M_transfer_after(_Fwd_list_node_base* __begin,
76	_Fwd_list_node_base* __end) noexcept
77	{
78	_Fwd_list_node_base* __keep = __begin->_M_next;
79	if (__end)
80	{
81	__begin->_M_next = __end->_M_next;
82	__end->_M_next = _M_next;
83	}
84	else
85	__begin->_M_next = nullptr;
86	_M_next = __keep;
87	return __end;
88	}
89
90	void
91	_M_reverse_after() noexcept
92	{
93	_Fwd_list_node_base* __tail = _M_next;
94	if (!__tail)
95	return;
96	while (_Fwd_list_node_base* __temp = __tail->_M_next)
97	{
98	_Fwd_list_node_base* __keep = _M_next;
99	_M_next = __temp;
100	__tail->_M_next = __temp->_M_next;
101	_M_next->_M_next = __keep;
102	}
103	}
104	};
105
106	/**
107	* @brief A helper node class for %forward_list.
108	* This is just a linked list with uninitialized storage for a
109	* data value in each node.
110	* There is a sorting utility method.
111	*/
112	template<typename _Tp>
113	struct _Fwd_list_node
114	: public _Fwd_list_node_base
115	{
116	_Fwd_list_node() = default;
117
118	__gnu_cxx::__aligned_buffer<_Tp> _M_storage;
119
120	_Tp*
121	_M_valptr() noexcept
122	{ return _M_storage._M_ptr(); }
123
124	const _Tp*
125	_M_valptr() const noexcept
126	{ return _M_storage._M_ptr(); }
127	};
128
129	/**
130	* @brief A forward_list::iterator.
131	*
132	* All the functions are op overloads.
133	*/
134	template<typename _Tp>
135	struct _Fwd_list_iterator
136	{
137	typedef _Fwd_list_iterator<_Tp> _Self;
138	typedef _Fwd_list_node<_Tp> _Node;
139
140	typedef _Tp value_type;
141	typedef _Tp* pointer;
142	typedef _Tp& reference;
143	typedef ptrdiff_t difference_type;
144	typedef std::forward_iterator_tag iterator_category;
145
146	_Fwd_list_iterator() noexcept
147	: _M_node() { }
148
149	explicit
150	_Fwd_list_iterator(_Fwd_list_node_base* __n) noexcept
151	: _M_node(__n) { }
152
153	reference
154	operator() const* noexcept
155	{ return *static_cast<_Node>(this*->_M_node)->_M_valptr(); }
156
157	pointer
158	operator->() const noexcept
159	{ return static_cast<_Node>(this*->_M_node)->_M_valptr(); }
160
161	_Self&
162	operator++() noexcept
163	{
164	_M_node = _M_node->_M_next;
165	return *this;
166	}
167
168	_Self
169	operator++(int) noexcept
170	{
171	_Self __tmp(*this);
172	_M_node = _M_node->_M_next;
173	return __tmp;
174	}
175
176	/**
177	* @brief Forward list iterator equality comparison.
178	*/
179	friend bool
180	operator==(const _Self& __x, const _Self& __y) noexcept
181	{ return __x._M_node == __y._M_node; }
182
183
184	/**
185	* @brief Forward list iterator inequality comparison.
186	*/
187	friend bool
188	operator!=(const _Self& __x, const _Self& __y) noexcept
189	{ return __x._M_node != __y._M_node; }
190
191	_Self
192	_M_next() const noexcept
193	{
194	if (_M_node)
195	return _Fwd_list_iterator(_M_node->_M_next);
196	else
197	return _Fwd_list_iterator(nullptr);
198	}
199
200	_Fwd_list_node_base* _M_node;
201	};
202
203	/**
204	* @brief A forward_list::const_iterator.
205	*
206	* All the functions are op overloads.
207	*/
208	template<typename _Tp>
209	struct _Fwd_list_const_iterator
210	{
211	typedef _Fwd_list_const_iterator<_Tp> _Self;
212	typedef const _Fwd_list_node<_Tp> _Node;
213	typedef _Fwd_list_iterator<_Tp> iterator;
214
215	typedef _Tp value_type;
216	typedef const _Tp* pointer;
217	typedef const _Tp& reference;
218	typedef ptrdiff_t difference_type;
219	typedef std::forward_iterator_tag iterator_category;
220
221	_Fwd_list_const_iterator() noexcept
222	: _M_node() { }
223
224	explicit
225	_Fwd_list_const_iterator(const _Fwd_list_node_base* __n) noexcept
226	: _M_node(__n) { }
227
228	_Fwd_list_const_iterator(const iterator& __iter) noexcept
229	: _M_node(__iter._M_node) { }
230
231	reference
232	operator() const* noexcept
233	{ return *static_cast<_Node>(this*->_M_node)->_M_valptr(); }
234
235	pointer
236	operator->() const noexcept
237	{ return static_cast<_Node>(this*->_M_node)->_M_valptr(); }
238
239	_Self&
240	operator++() noexcept
241	{
242	_M_node = _M_node->_M_next;
243	return *this;
244	}
245
246	_Self
247	operator++(int) noexcept
248	{
249	_Self __tmp(*this);
250	_M_node = _M_node->_M_next;
251	return __tmp;
252	}
253
254	/**
255	* @brief Forward list const_iterator equality comparison.
256	*/
257	friend bool
258	operator==(const _Self& __x, const _Self& __y) noexcept
259	{ return __x._M_node == __y._M_node; }
260
261	/**
262	* @brief Forward list const_iterator inequality comparison.
263	*/
264	friend bool
265	operator!=(const _Self& __x, const _Self& __y) noexcept
266	{ return __x._M_node != __y._M_node; }
267
268	_Self
269	_M_next() const noexcept
270	{
271	if (this->_M_node)
272	return _Fwd_list_const_iterator(_M_node->_M_next);
273	else
274	return _Fwd_list_const_iterator(nullptr);
275	}
276
277	const _Fwd_list_node_base* _M_node;
278	};
279
280	/**
281	* @brief Base class for %forward_list.
282	*/
283	template<typename _Tp, typename _Alloc>
284	struct _Fwd_list_base
285	{
286	protected:
287	typedef __alloc_rebind<_Alloc, _Fwd_list_node<_Tp>> _Node_alloc_type;
288	typedef __gnu_cxx::__alloc_traits<_Node_alloc_type> _Node_alloc_traits;
289
290	struct _Fwd_list_impl
291	: public _Node_alloc_type
292	{
293	_Fwd_list_node_base _M_head;
294
295	_Fwd_list_impl()
296	noexcept(is_nothrow_default_constructible<_Node_alloc_type>::value)
297	: _Node_alloc_type(), _M_head ()
298	{ }
299
300	_Fwd_list_impl(_Fwd_list_impl&&) = default;
301
302	_Fwd_list_impl(_Fwd_list_impl&& __fl, _Node_alloc_type&& __a)
303	: _Node_alloc_type(std::move(__a)), _M_head(std::move(__fl._M_head))
304	{ }
305
306	_Fwd_list_impl(_Node_alloc_type&& __a)
307	: _Node_alloc_type(std::move(__a)), _M_head ()
308	{ }
309	};
310
311	_Fwd_list_impl _M_impl;
312
313	public:
314	typedef _Fwd_list_iterator<_Tp> iterator;
315	typedef _Fwd_list_const_iterator<_Tp> const_iterator;
316	typedef _Fwd_list_node<_Tp> _Node;
317
318	_Node_alloc_type&
319	_M_get_Node_allocator() noexcept
320	{ return this->_M_impl; }
321
322	const _Node_alloc_type&
323	_M_get_Node_allocator() const noexcept
324	{ return this->_M_impl; }
325
326	_Fwd_list_base() = default;
327
328	_Fwd_list_base(_Node_alloc_type&& __a)
329	: _M_impl(std::move(__a)) { }
330
331	// When allocators are always equal.
332	_Fwd_list_base(_Fwd_list_base&& __lst, _Node_alloc_type&& __a,
333	std::true_type)
334	: _M_impl(std::move(__lst._M_impl), std::move(__a))
335	{ }
336
337	// When allocators are not always equal.
338	_Fwd_list_base(_Fwd_list_base&& __lst, _Node_alloc_type&& __a);
339
340	_Fwd_list_base(_Fwd_list_base&&) = default;
341
342	~_Fwd_list_base()
343	{ _M_erase_after(&_M_impl._M_head, nullptr); }
344
345	protected:
346	_Node*
347	_M_get_node()
348	{
349	auto __ptr = _Node_alloc_traits::allocate(_M_get_Node_allocator(), `1`);
350	return std::__to_address(__ptr);
351	}
352
353	template<typename... _Args>
354	_Node*
355	_M_create_node(_Args&&... __args)
356	{
357	_Node* __node = this->_M_get_node();
358	__try
359	{
360	::new ((void*)__node) _Node;
361	_Node_alloc_traits::construct(_M_get_Node_allocator(),
362	__node->_M_valptr(),
363	std::forward<_Args>(__args)...);
364	}
365	__catch(...)
366	{
367	this->_M_put_node(__node);
368	__throw_exception_again;
369	}
370	return __node;
371	}
372
373	template<typename... _Args>
374	_Fwd_list_node_base*
375	_M_insert_after(const_iterator __pos, _Args&&... __args);
376
377	void
378	_M_put_node(_Node* __p)
379	{
380	typedef typename _Node_alloc_traits::pointer _Ptr;
381	auto __ptr = std::pointer_traits<_Ptr>::pointer_to(*__p);
382	_Node_alloc_traits::deallocate(_M_get_Node_allocator(), __ptr, `1`);
383	}
384
385	_Fwd_list_node_base*
386	_M_erase_after(_Fwd_list_node_base* __pos);
387
388	_Fwd_list_node_base*
389	_M_erase_after(_Fwd_list_node_base* __pos,
390	_Fwd_list_node_base* __last);
391	};
392
393	/**
394	* @brief A standard container with linear time access to elements,
395	* and fixed time insertion/deletion at any point in the sequence.
396	*
397	* @ingroup sequences
398	*
399	* @tparam _Tp Type of element.
400	* @tparam _Alloc Allocator type, defaults to allocator<_Tp>.
401	*
402	* Meets the requirements of a <a href="tables.html#65">container</a>, a
403	* <a href="tables.html#67">sequence</a>, including the
404	* <a href="tables.html#68">optional sequence requirements</a> with the
405	* %exception of @c at and @c operator[].
406	*
407	* This is a @e singly @e linked %list. Traversal up the
408	* %list requires linear time, but adding and removing elements (or
409	* @e nodes) is done in constant time, regardless of where the
410	* change takes place. Unlike std::vector and std::deque,
411	* random-access iterators are not provided, so subscripting ( @c
412	* [] ) access is not allowed. For algorithms which only need
413	* sequential access, this lack makes no difference.
414	*
415	* Also unlike the other standard containers, std::forward_list provides
416	* specialized algorithms %unique to linked lists, such as
417	* splicing, sorting, and in-place reversal.
418	*/
419	template<typename _Tp, typename _Alloc = allocator<_Tp>>
420	class forward_list : private _Fwd_list_base<_Tp, _Alloc>
421	{
422	static_assert(is_same<typename remove_cv<_Tp>::type, _Tp>::value,
423	"std::forward_list must have a non-const, non-volatile value_type");
424	#ifdef __STRICT_ANSI__
425	static_assert(is_same<typename _Alloc::value_type, _Tp>::value,
426	"std::forward_list must have the same value_type as its allocator");
427	#endif
428
429	private:
430	typedef _Fwd_list_base<_Tp, _Alloc> _Base;
431	typedef _Fwd_list_node_base _Node_base;
432	typedef typename _Base::_Node _Node;
433	typedef typename _Base::_Node_alloc_type _Node_alloc_type;
434	typedef typename _Base::_Node_alloc_traits _Node_alloc_traits;
435	typedef allocator_traits<__alloc_rebind<_Alloc, _Tp>> _Alloc_traits;
436
437	public:
438	// types:
439	typedef _Tp value_type;
440	typedef typename _Alloc_traits::pointer pointer;
441	typedef typename _Alloc_traits::const_pointer const_pointer;
442	typedef value_type& reference;
443	typedef const value_type& const_reference;
444
445	typedef typename _Base::iterator iterator;
446	typedef typename _Base::const_iterator const_iterator;
447	typedef std::size_t size_type;
448	typedef std::ptrdiff_t difference_type;
449	typedef _Alloc allocator_type;
450
451	// 23.3.4.2 construct/copy/destroy:
452
453	/**
454	* @brief Creates a %forward_list with no elements.
455	*/
456	forward_list() = default;
457
458	/**
459	* @brief Creates a %forward_list with no elements.
460	* @param __al An allocator object.
461	*/
462	explicit
463	forward_list(const _Alloc& __al) noexcept
464	: _Base(_Node_alloc_type(__al))
465	{ }
466
467	/**
468	* @brief Copy constructor with allocator argument.
469	* @param __list Input list to copy.
470	* @param __al An allocator object.
471	*/
472	forward_list(const forward_list& __list, const _Alloc& __al)
473	: _Base(_Node_alloc_type(__al))
474	{ _M_range_initialize(__list.begin(), __list.end()); }
475
476	private:
477	forward_list(forward_list&& __list, _Node_alloc_type&& __al,
478	false_type)
479	: _Base(std::move(__list), std::move(__al))
480	{
481	// If __list is not empty it means its allocator is not equal to __a,
482	// so we need to move from each element individually.
483	insert_after(cbefore_begin(),
484	std::__make_move_if_noexcept_iterator(__list.begin()),
485	std::__make_move_if_noexcept_iterator(__list.end()));
486	}
487
488	forward_list(forward_list&& __list, _Node_alloc_type&& __al,
489	true_type)
490	noexcept
491	: _Base(std::move(__list), _Node_alloc_type(__al), true_type{})
492	{ }
493
494	public:
495	/**
496	* @brief Move constructor with allocator argument.
497	* @param __list Input list to move.
498	* @param __al An allocator object.
499	*/
500	forward_list(forward_list&& __list, const _Alloc& __al)
501	noexcept(_Node_alloc_traits::_S_always_equal())
502	: forward_list(std::move(__list), _Node_alloc_type(__al),
503	typename _Node_alloc_traits::is_always_equal{})
504	{ }
505
506	/**
507	* @brief Creates a %forward_list with default constructed elements.
508	* @param __n The number of elements to initially create.
509	* @param __al An allocator object.
510	*
511	* This constructor creates the %forward_list with @a __n default
512	* constructed elements.
513	*/
514	explicit
515	forward_list(size_type __n, const _Alloc& __al = _Alloc())
516	: _Base(_Node_alloc_type(__al))
517	{ _M_default_initialize(__n); }
518
519	/**
520	* @brief Creates a %forward_list with copies of an exemplar element.
521	* @param __n The number of elements to initially create.
522	* @param __value An element to copy.
523	* @param __al An allocator object.
524	*
525	* This constructor fills the %forward_list with @a __n copies of
526	* @a __value.
527	*/
528	forward_list(size_type __n, const _Tp& __value,
529	const _Alloc& __al = _Alloc())
530	: _Base(_Node_alloc_type(__al))
531	{ _M_fill_initialize(__n, __value); }
532
533	/**
534	* @brief Builds a %forward_list from a range.
535	* @param __first An input iterator.
536	* @param __last An input iterator.
537	* @param __al An allocator object.
538	*
539	* Create a %forward_list consisting of copies of the elements from
540	* [@a __first,@a __last). This is linear in N (where N is
541	* distance(@a __first,@a __last)).
542	*/
543	template<typename _InputIterator,
544	typename = std::_RequireInputIter<_InputIterator>>
545	forward_list(_InputIterator __first, _InputIterator __last,
546	const _Alloc& __al = _Alloc())
547	: _Base(_Node_alloc_type(__al))
548	{ _M_range_initialize(__first, __last); }
549
550	/**
551	* @brief The %forward_list copy constructor.
552	* @param __list A %forward_list of identical element and allocator
553	* types.
554	*/
555	forward_list(const forward_list& __list)
556	: _Base(_Node_alloc_traits::_S_select_on_copy(
557	__list._M_get_Node_allocator()))
558	{ _M_range_initialize(__list.begin(), __list.end()); }
559
560	/**
561	* @brief The %forward_list move constructor.
562	* @param __list A %forward_list of identical element and allocator
563	* types.
564	*
565	* The newly-created %forward_list contains the exact contents of the
566	* moved instance. The contents of the moved instance are a valid, but
567	* unspecified %forward_list.
568	*/
569	forward_list(forward_list&&) = default;
570
571	/**
572	* @brief Builds a %forward_list from an initializer_list
573	* @param __il An initializer_list of value_type.
574	* @param __al An allocator object.
575	*
576	* Create a %forward_list consisting of copies of the elements
577	* in the initializer_list @a __il. This is linear in __il.size().
578	*/
579	forward_list(std::initializer_list<_Tp> __il,
580	const _Alloc& __al = _Alloc())
581	: _Base(_Node_alloc_type(__al))
582	{ _M_range_initialize(__il.begin(), __il.end()); }
583
584	/**
585	* @brief The forward_list dtor.
586	*/
587	~forward_list() noexcept
588	{ }
589
590	/**
591	* @brief The %forward_list assignment operator.
592	* @param __list A %forward_list of identical element and allocator
593	* types.
594	*
595	* All the elements of @a __list are copied.
596	*
597	* Whether the allocator is copied depends on the allocator traits.
598	*/
599	forward_list&
600	operator=(const forward_list& __list);
601
602	/**
603	* @brief The %forward_list move assignment operator.
604	* @param __list A %forward_list of identical element and allocator
605	* types.
606	*
607	* The contents of @a __list are moved into this %forward_list
608	* (without copying, if the allocators permit it).
609	*
610	* Afterwards @a __list is a valid, but unspecified %forward_list
611	*
612	* Whether the allocator is moved depends on the allocator traits.
613	*/
614	forward_list&
615	operator=(forward_list&& __list)
616	noexcept(_Node_alloc_traits::_S_nothrow_move())
617	{
618	constexpr bool __move_storage =
619	_Node_alloc_traits::_S_propagate_on_move_assign()
620	\|\| _Node_alloc_traits::_S_always_equal();
621	_M_move_assign(std::move(__list), __bool_constant<__move_storage>());
622	return *this;
623	}
624
625	/**
626	* @brief The %forward_list initializer list assignment operator.
627	* @param __il An initializer_list of value_type.
628	*
629	* Replace the contents of the %forward_list with copies of the
630	* elements in the initializer_list @a __il. This is linear in
631	* __il.size().
632	*/
633	forward_list&
634	operator=(std::initializer_list<_Tp> __il)
635	{
636	assign(__il);
637	return *this;
638	}
639
640	/**
641	* @brief Assigns a range to a %forward_list.
642	* @param __first An input iterator.
643	* @param __last An input iterator.
644	*
645	* This function fills a %forward_list with copies of the elements
646	* in the range [@a __first,@a __last).
647	*
648	* Note that the assignment completely changes the %forward_list and
649	* that the number of elements of the resulting %forward_list is the
650	* same as the number of elements assigned.
651	*/
652	template<typename _InputIterator,
653	typename = std::_RequireInputIter<_InputIterator>>
654	void
655	assign(_InputIterator __first, _InputIterator __last)
656	{
657	typedef is_assignable<_Tp, decltype(*__first)> __assignable;
658	_M_assign(__first, __last, __assignable());
659	}
660
661	/**
662	* @brief Assigns a given value to a %forward_list.
663	* @param __n Number of elements to be assigned.
664	* @param __val Value to be assigned.
665	*
666	* This function fills a %forward_list with @a __n copies of the
667	* given value. Note that the assignment completely changes the
668	* %forward_list, and that the resulting %forward_list has __n
669	* elements.
670	*/
671	void
672	assign(size_type __n, const _Tp& __val)
673	{ _M_assign_n(__n, __val, is_copy_assignable<_Tp>()); }
674
675	/**
676	* @brief Assigns an initializer_list to a %forward_list.
677	* @param __il An initializer_list of value_type.
678	*
679	* Replace the contents of the %forward_list with copies of the
680	* elements in the initializer_list @a __il. This is linear in
681	* il.size().
682	*/
683	void
684	assign(std::initializer_list<_Tp> __il)
685	{ assign(__il.begin(), __il.end()); }
686
687	/// Get a copy of the memory allocation object.
688	allocator_type
689	get_allocator() const noexcept
690	{ return allocator_type(this->_M_get_Node_allocator()); }
691
692	// 23.3.4.3 iterators:
693
694	/**
695	* Returns a read/write iterator that points before the first element
696	* in the %forward_list. Iteration is done in ordinary element order.
697	*/
698	iterator
699	before_begin() noexcept
700	{ return iterator(&this->_M_impl._M_head); }
701
702	/**
703	* Returns a read-only (constant) iterator that points before the
704	* first element in the %forward_list. Iteration is done in ordinary
705	* element order.
706	*/
707	const_iterator
708	before_begin() const noexcept
709	{ return const_iterator(&this->_M_impl._M_head); }
710
711	/**
712	* Returns a read/write iterator that points to the first element
713	* in the %forward_list. Iteration is done in ordinary element order.
714	*/
715	iterator
716	begin() noexcept
717	{ return iterator(this->_M_impl._M_head._M_next); }
718
719	/**
720	* Returns a read-only (constant) iterator that points to the first
721	* element in the %forward_list. Iteration is done in ordinary
722	* element order.
723	*/
724	const_iterator
725	begin() const noexcept
726	{ return const_iterator(this->_M_impl._M_head._M_next); }
727
728	/**
729	* Returns a read/write iterator that points one past the last
730	* element in the %forward_list. Iteration is done in ordinary
731	* element order.
732	*/
733	iterator
734	end() noexcept
735	{ return iterator(nullptr); }
736
737	/**
738	* Returns a read-only iterator that points one past the last
739	* element in the %forward_list. Iteration is done in ordinary
740	* element order.
741	*/
742	const_iterator
743	end() const noexcept
744	{ return const_iterator(nullptr); }
745
746	/**
747	* Returns a read-only (constant) iterator that points to the
748	* first element in the %forward_list. Iteration is done in ordinary
749	* element order.
750	*/
751	const_iterator
752	cbegin() const noexcept
753	{ return const_iterator(this->_M_impl._M_head._M_next); }
754
755	/**
756	* Returns a read-only (constant) iterator that points before the
757	* first element in the %forward_list. Iteration is done in ordinary
758	* element order.
759	*/
760	const_iterator
761	cbefore_begin() const noexcept
762	{ return const_iterator(&this->_M_impl._M_head); }
763
764	/**
765	* Returns a read-only (constant) iterator that points one past
766	* the last element in the %forward_list. Iteration is done in
767	* ordinary element order.
768	*/
769	const_iterator
770	cend() const noexcept
771	{ return const_iterator(nullptr); }
772
773	/**
774	* Returns true if the %forward_list is empty. (Thus begin() would
775	* equal end().)
776	*/
777	_GLIBCXX_NODISCARD bool
778	empty() const noexcept
779	{ return this->_M_impl._M_head._M_next == nullptr; }
780
781	/**
782	* Returns the largest possible number of elements of %forward_list.
783	*/
784	size_type
785	max_size() const noexcept
786	{ return _Node_alloc_traits::max_size(this->_M_get_Node_allocator()); }
787
788	// 23.3.4.4 element access:
789
790	/**
791	* Returns a read/write reference to the data at the first
792	* element of the %forward_list.
793	*/
794	reference
795	front()
796	{
797	_Node* __front = static_cast<_Node>(this*->_M_impl._M_head._M_next);
798	return *__front->_M_valptr();
799	}
800
801	/**
802	* Returns a read-only (constant) reference to the data at the first
803	* element of the %forward_list.
804	*/
805	const_reference
806	front() const
807	{
808	_Node* __front = static_cast<_Node>(this*->_M_impl._M_head._M_next);
809	return *__front->_M_valptr();
810	}
811
812	// 23.3.4.5 modifiers:
813
814	/**
815	* @brief Constructs object in %forward_list at the front of the
816	* list.
817	* @param __args Arguments.
818	*
819	* This function will insert an object of type Tp constructed
820	* with Tp(std::forward<Args>(args)...) at the front of the list
821	* Due to the nature of a %forward_list this operation can
822	* be done in constant time, and does not invalidate iterators
823	* and references.
824	*/
825	template<typename... _Args>
826	#if __cplusplus > 201402L
827	reference
828	#else
829	void
830	#endif
831	emplace_front(_Args&&... __args)
832	{
833	this->_M_insert_after(cbefore_begin(),
834	std::forward<_Args>(__args)...);
835	#if __cplusplus > 201402L
836	return front();
837	#endif
838	}
839
840	/**
841	* @brief Add data to the front of the %forward_list.
842	* @param __val Data to be added.
843	*
844	* This is a typical stack operation. The function creates an
845	* element at the front of the %forward_list and assigns the given
846	* data to it. Due to the nature of a %forward_list this operation
847	* can be done in constant time, and does not invalidate iterators
848	* and references.
849	*/
850	void
851	push_front(const _Tp& __val)
852	{ this->_M_insert_after(cbefore_begin(), __val); }
853
854	/**
855	*
856	*/
857	void
858	push_front(_Tp&& __val)
859	{ this->_M_insert_after(cbefore_begin(), std::move(__val)); }
860
861	/**
862	* @brief Removes first element.
863	*
864	* This is a typical stack operation. It shrinks the %forward_list
865	* by one. Due to the nature of a %forward_list this operation can
866	* be done in constant time, and only invalidates iterators/references
867	* to the element being removed.
868	*
869	* Note that no data is returned, and if the first element's data
870	* is needed, it should be retrieved before pop_front() is
871	* called.
872	*/
873	void
874	pop_front()
875	{ this->_M_erase_after(&this->_M_impl._M_head); }
876
877	/**
878	* @brief Constructs object in %forward_list after the specified
879	* iterator.
880	* @param __pos A const_iterator into the %forward_list.
881	* @param __args Arguments.
882	* @return An iterator that points to the inserted data.
883	*
884	* This function will insert an object of type T constructed
885	* with T(std::forward<Args>(args)...) after the specified
886	* location. Due to the nature of a %forward_list this operation can
887	* be done in constant time, and does not invalidate iterators
888	* and references.
889	*/
890	template<typename... _Args>
891	iterator
892	emplace_after(const_iterator __pos, _Args&&... __args)
893	{ return iterator(this->_M_insert_after(__pos,
894	std::forward<_Args>(__args)...)); }
895
896	/**
897	* @brief Inserts given value into %forward_list after specified
898	* iterator.
899	* @param __pos An iterator into the %forward_list.
900	* @param __val Data to be inserted.
901	* @return An iterator that points to the inserted data.
902	*
903	* This function will insert a copy of the given value after
904	* the specified location. Due to the nature of a %forward_list this
905	* operation can be done in constant time, and does not
906	* invalidate iterators and references.
907	*/
908	iterator
909	insert_after(const_iterator __pos, const _Tp& __val)
910	{ return iterator(this->_M_insert_after(__pos, __val)); }
911
912	/**
913	*
914	*/
915	iterator
916	insert_after(const_iterator __pos, _Tp&& __val)
917	{ return iterator(this->_M_insert_after(__pos, std::move(__val))); }
918
919	/**
920	* @brief Inserts a number of copies of given data into the
921	* %forward_list.
922	* @param __pos An iterator into the %forward_list.
923	* @param __n Number of elements to be inserted.
924	* @param __val Data to be inserted.
925	* @return An iterator pointing to the last inserted copy of
926	* @a val or @a pos if @a n == 0.
927	*
928	* This function will insert a specified number of copies of the
929	* given data after the location specified by @a pos.
930	*
931	* This operation is linear in the number of elements inserted and
932	* does not invalidate iterators and references.
933	*/
934	iterator
935	insert_after(const_iterator __pos, size_type __n, const _Tp& __val);
936
937	/**
938	* @brief Inserts a range into the %forward_list.
939	* @param __pos An iterator into the %forward_list.
940	* @param __first An input iterator.
941	* @param __last An input iterator.
942	* @return An iterator pointing to the last inserted element or
943	* @a __pos if @a __first == @a __last.
944	*
945	* This function will insert copies of the data in the range
946	* [@a __first,@a __last) into the %forward_list after the
947	* location specified by @a __pos.
948	*
949	* This operation is linear in the number of elements inserted and
950	* does not invalidate iterators and references.
951	*/
952	template<typename _InputIterator,
953	typename = std::_RequireInputIter<_InputIterator>>
954	iterator
955	insert_after(const_iterator __pos,
956	_InputIterator __first, _InputIterator __last);
957
958	/**
959	* @brief Inserts the contents of an initializer_list into
960	* %forward_list after the specified iterator.
961	* @param __pos An iterator into the %forward_list.
962	* @param __il An initializer_list of value_type.
963	* @return An iterator pointing to the last inserted element
964	* or @a __pos if @a __il is empty.
965	*
966	* This function will insert copies of the data in the
967	* initializer_list @a __il into the %forward_list before the location
968	* specified by @a __pos.
969	*
970	* This operation is linear in the number of elements inserted and
971	* does not invalidate iterators and references.
972	*/
973	iterator
974	insert_after(const_iterator __pos, std::initializer_list<_Tp> __il)
975	{ return insert_after(__pos, __il.begin(), __il.end()); }
976
977	/**
978	* @brief Removes the element pointed to by the iterator following
979	* @c pos.
980	* @param __pos Iterator pointing before element to be erased.
981	* @return An iterator pointing to the element following the one
982	* that was erased, or end() if no such element exists.
983	*
984	* This function will erase the element at the given position and
985	* thus shorten the %forward_list by one.
986	*
987	* Due to the nature of a %forward_list this operation can be done
988	* in constant time, and only invalidates iterators/references to
989	* the element being removed. The user is also cautioned that
990	* this function only erases the element, and that if the element
991	* is itself a pointer, the pointed-to memory is not touched in
992	* any way. Managing the pointer is the user's responsibility.
993	*/
994	iterator
995	erase_after(const_iterator __pos)
996	{ return iterator(this->_M_erase_after(const_cast<_Node_base*>
997	(__pos._M_node))); }
998
999	/**
1000	* @brief Remove a range of elements.
1001	* @param __pos Iterator pointing before the first element to be
1002	* erased.
1003	* @param __last Iterator pointing to one past the last element to be
1004	* erased.
1005	* @return @ __last.
1006	*
1007	* This function will erase the elements in the range
1008	* @a (__pos,__last) and shorten the %forward_list accordingly.
1009	*
1010	* This operation is linear time in the size of the range and only
1011	* invalidates iterators/references to the element being removed.
1012	* The user is also cautioned that this function only erases the
1013	* elements, and that if the elements themselves are pointers, the
1014	* pointed-to memory is not touched in any way. Managing the pointer
1015	* is the user's responsibility.
1016	*/
1017	iterator
1018	erase_after(const_iterator __pos, const_iterator __last)
1019	{ return iterator(this->_M_erase_after(const_cast<_Node_base*>
1020	(__pos._M_node),
1021	const_cast<_Node_base*>
1022	(__last._M_node))); }
1023
1024	/**
1025	* @brief Swaps data with another %forward_list.
1026	* @param __list A %forward_list of the same element and allocator
1027	* types.
1028	*
1029	* This exchanges the elements between two lists in constant
1030	* time. Note that the global std::swap() function is
1031	* specialized such that std::swap(l1,l2) will feed to this
1032	* function.
1033	*
1034	* Whether the allocators are swapped depends on the allocator traits.
1035	*/
1036	void
1037	swap(forward_list& __list) noexcept
1038	{
1039	std::swap(this->_M_impl._M_head._M_next,
1040	__list._M_impl._M_head._M_next);
1041	_Node_alloc_traits::_S_on_swap(this->_M_get_Node_allocator(),
1042	__list._M_get_Node_allocator());
1043	}
1044
1045	/**
1046	* @brief Resizes the %forward_list to the specified number of
1047	* elements.
1048	* @param __sz Number of elements the %forward_list should contain.
1049	*
1050	* This function will %resize the %forward_list to the specified
1051	* number of elements. If the number is smaller than the
1052	* %forward_list's current number of elements the %forward_list
1053	* is truncated, otherwise the %forward_list is extended and the
1054	* new elements are default constructed.
1055	*/
1056	void
1057	resize(size_type __sz);
1058
1059	/**
1060	* @brief Resizes the %forward_list to the specified number of
1061	* elements.
1062	* @param __sz Number of elements the %forward_list should contain.
1063	* @param __val Data with which new elements should be populated.
1064	*
1065	* This function will %resize the %forward_list to the specified
1066	* number of elements. If the number is smaller than the
1067	* %forward_list's current number of elements the %forward_list
1068	* is truncated, otherwise the %forward_list is extended and new
1069	* elements are populated with given data.
1070	*/
1071	void
1072	resize(size_type __sz, const value_type& __val);
1073
1074	/**
1075	* @brief Erases all the elements.
1076	*
1077	* Note that this function only erases
1078	* the elements, and that if the elements themselves are
1079	* pointers, the pointed-to memory is not touched in any way.
1080	* Managing the pointer is the user's responsibility.
1081	*/
1082	void
1083	clear() noexcept
1084	{ this->_M_erase_after(&this->_M_impl._M_head, nullptr); }
1085
1086	// 23.3.4.6 forward_list operations:
1087
1088	/**
1089	* @brief Insert contents of another %forward_list.
1090	* @param __pos Iterator referencing the element to insert after.
1091	* @param __list Source list.
1092	*
1093	* The elements of @a list are inserted in constant time after
1094	* the element referenced by @a pos. @a list becomes an empty
1095	* list.
1096	*
1097	* Requires this != @a x.
1098	*/
1099	void
1100	splice_after(const_iterator __pos, forward_list&& __list) noexcept
1101	{
1102	if (!__list.empty())
1103	_M_splice_after(__pos, __list.before_begin(), __list.end());
1104	}
1105
1106	void
1107	splice_after(const_iterator __pos, forward_list& __list) noexcept
1108	{ splice_after(__pos, std::move(__list)); }
1109
1110	/**
1111	* @brief Insert element from another %forward_list.
1112	* @param __pos Iterator referencing the element to insert after.
1113	* @param __list Source list.
1114	* @param __i Iterator referencing the element before the element
1115	* to move.
1116	*
1117	* Removes the element in list @a list referenced by @a i and
1118	* inserts it into the current list after @a pos.
1119	*/
1120	void
1121	splice_after(const_iterator __pos, forward_list&& __list,
1122	const_iterator __i) noexcept;
1123
1124	void
1125	splice_after(const_iterator __pos, forward_list& __list,
1126	const_iterator __i) noexcept
1127	{ splice_after(__pos, std::move(__list), __i); }
1128
1129	/**
1130	* @brief Insert range from another %forward_list.
1131	* @param __pos Iterator referencing the element to insert after.
1132	* @param __list Source list.
1133	* @param __before Iterator referencing before the start of range
1134	* in list.
1135	* @param __last Iterator referencing the end of range in list.
1136	*
1137	* Removes elements in the range (__before,__last) and inserts them
1138	* after @a __pos in constant time.
1139	*
1140	* Undefined if @a __pos is in (__before,__last).
1141	* @{
1142	*/
1143	void
1144	splice_after(const_iterator __pos, forward_list&&,
1145	const_iterator __before, const_iterator __last) noexcept
1146	{ _M_splice_after(__pos, __before, __last); }
1147
1148	void
1149	splice_after(const_iterator __pos, forward_list&,
1150	const_iterator __before, const_iterator __last) noexcept
1151	{ _M_splice_after(__pos, __before, __last); }
1152	/// @}
1153
1154	private:
1155	#if __cplusplus > 201703L
1156	# define __cpp_lib_list_remove_return_type 201806L
1157	using __remove_return_type = size_type;
1158	# define _GLIBCXX_FWDLIST_REMOVE_RETURN_TYPE_TAG \
1159	__attribute__((__abi_tag__("__cxx20")))
1160	#else
1161	using __remove_return_type = void;
1162	# define _GLIBCXX_FWDLIST_REMOVE_RETURN_TYPE_TAG
1163	#endif
1164	public:
1165
1166	/**
1167	* @brief Remove all elements equal to value.
1168	* @param __val The value to remove.
1169	*
1170	* Removes every element in the list equal to @a __val.
1171	* Remaining elements stay in list order. Note that this
1172	* function only erases the elements, and that if the elements
1173	* themselves are pointers, the pointed-to memory is not
1174	* touched in any way. Managing the pointer is the user's
1175	* responsibility.
1176	*/
1177	_GLIBCXX_FWDLIST_REMOVE_RETURN_TYPE_TAG
1178	__remove_return_type
1179	remove(const _Tp& __val);
1180
1181	/**
1182	* @brief Remove all elements satisfying a predicate.
1183	* @param __pred Unary predicate function or object.
1184	*
1185	* Removes every element in the list for which the predicate
1186	* returns true. Remaining elements stay in list order. Note
1187	* that this function only erases the elements, and that if the
1188	* elements themselves are pointers, the pointed-to memory is
1189	* not touched in any way. Managing the pointer is the user's
1190	* responsibility.
1191	*/
1192	template<typename _Pred>
1193	__remove_return_type
1194	remove_if(_Pred __pred);
1195
1196	/**
1197	* @brief Remove consecutive duplicate elements.
1198	*
1199	* For each consecutive set of elements with the same value,
1200	* remove all but the first one. Remaining elements stay in
1201	* list order. Note that this function only erases the
1202	* elements, and that if the elements themselves are pointers,
1203	* the pointed-to memory is not touched in any way. Managing
1204	* the pointer is the user's responsibility.
1205	*/
1206	_GLIBCXX_FWDLIST_REMOVE_RETURN_TYPE_TAG
1207	__remove_return_type
1208	unique()
1209	{ return unique(std::equal_to<_Tp>()); }
1210
1211	#undef _GLIBCXX_FWDLIST_REMOVE_RETURN_TYPE_TAG
1212
1213	/**
1214	* @brief Remove consecutive elements satisfying a predicate.
1215	* @param __binary_pred Binary predicate function or object.
1216	*
1217	* For each consecutive set of elements [first,last) that
1218	* satisfy predicate(first,i) where i is an iterator in
1219	* [first,last), remove all but the first one. Remaining
1220	* elements stay in list order. Note that this function only
1221	* erases the elements, and that if the elements themselves are
1222	* pointers, the pointed-to memory is not touched in any way.
1223	* Managing the pointer is the user's responsibility.
1224	*/
1225	template<typename _BinPred>
1226	__remove_return_type
1227	unique(_BinPred __binary_pred);
1228
1229	/**
1230	* @brief Merge sorted lists.
1231	* @param __list Sorted list to merge.
1232	*
1233	* Assumes that both @a list and this list are sorted according to
1234	* operator<(). Merges elements of @a __list into this list in
1235	* sorted order, leaving @a __list empty when complete. Elements in
1236	* this list precede elements in @a __list that are equal.
1237	*/
1238	void
1239	merge(forward_list&& __list)
1240	{ merge(std::move(__list), std::less<_Tp>()); }
1241
1242	void
1243	merge(forward_list& __list)
1244	{ merge(std::move(__list)); }
1245
1246	/**
1247	* @brief Merge sorted lists according to comparison function.
1248	* @param __list Sorted list to merge.
1249	* @param __comp Comparison function defining sort order.
1250	*
1251	* Assumes that both @a __list and this list are sorted according to
1252	* comp. Merges elements of @a __list into this list
1253	* in sorted order, leaving @a __list empty when complete. Elements
1254	* in this list precede elements in @a __list that are equivalent
1255	* according to comp().
1256	*/
1257	template<typename _Comp>
1258	void
1259	merge(forward_list&& __list, _Comp __comp);
1260
1261	template<typename _Comp>
1262	void
1263	merge(forward_list& __list, _Comp __comp)
1264	{ merge(std::move(__list), __comp); }
1265
1266	/**
1267	* @brief Sort the elements of the list.
1268	*
1269	* Sorts the elements of this list in NlogN time. Equivalent
1270	* elements remain in list order.
1271	*/
1272	void
1273	sort()
1274	{ sort(std::less<_Tp>()); }
1275
1276	/**
1277	* @brief Sort the forward_list using a comparison function.
1278	*
1279	* Sorts the elements of this list in NlogN time. Equivalent
1280	* elements remain in list order.
1281	*/
1282	template<typename _Comp>
1283	void
1284	sort(_Comp __comp);
1285
1286	/**
1287	* @brief Reverse the elements in list.
1288	*
1289	* Reverse the order of elements in the list in linear time.
1290	*/
1291	void
1292	reverse() noexcept
1293	{ this->_M_impl._M_head._M_reverse_after(); }
1294
1295	private:
1296	// Called by the range constructor to implement [23.3.4.2]/9
1297	template<typename _InputIterator>
1298	void
1299	_M_range_initialize(_InputIterator __first, _InputIterator __last);
1300
1301	// Called by forward_list(n,v,a), and the range constructor when it
1302	// turns out to be the same thing.
1303	void
1304	_M_fill_initialize(size_type __n, const value_type& __value);
1305
1306	// Called by splice_after and insert_after.
1307	iterator
1308	_M_splice_after(const_iterator __pos, const_iterator __before,
1309	const_iterator __last);
1310
1311	// Called by forward_list(n).
1312	void
1313	_M_default_initialize(size_type __n);
1314
1315	// Called by resize(sz).
1316	void
1317	_M_default_insert_after(const_iterator __pos, size_type __n);
1318
1319	// Called by operator=(forward_list&&)
1320	void
1321	_M_move_assign(forward_list&& __list, true_type) noexcept
1322	{
1323	clear();
1324	this->_M_impl._M_head._M_next = __list._M_impl._M_head._M_next;
1325	__list._M_impl._M_head._M_next = nullptr;
1326	std::__alloc_on_move(this->_M_get_Node_allocator(),
1327	__list._M_get_Node_allocator());
1328	}
1329
1330	// Called by operator=(forward_list&&)
1331	void
1332	_M_move_assign(forward_list&& __list, false_type)
1333	{
1334	if (__list._M_get_Node_allocator() == this->_M_get_Node_allocator())
1335	_M_move_assign(std::move(__list), true_type ());
1336	else
1337	// The rvalue's allocator cannot be moved, or is not equal,
1338	// so we need to individually move each element.
1339	this->assign(std::__make_move_if_noexcept_iterator(__list.begin()),
1340	std::__make_move_if_noexcept_iterator(__list.end()));
1341	}
1342
1343	// Called by assign(_InputIterator, _InputIterator) if _Tp is
1344	// CopyAssignable.
1345	template<typename _InputIterator>
1346	void
1347	_M_assign(_InputIterator __first, _InputIterator __last, true_type)
1348	{
1349	auto __prev = before_begin();
1350	auto __curr = begin();
1351	auto __end = end();
1352	while (__curr != __end && __first != __last)
1353	{
1354	__curr = __first;
1355	++__prev;
1356	++__curr;
1357	++__first;
1358	}
1359	if (__first != __last)
1360	insert_after(__prev, __first, __last);
1361	else if (__curr != __end)
1362	erase_after(__prev, __end);
1363	}
1364
1365	// Called by assign(_InputIterator, _InputIterator) if _Tp is not
1366	// CopyAssignable.
1367	template<typename _InputIterator>
1368	void
1369	_M_assign(_InputIterator __first, _InputIterator __last, false_type)
1370	{
1371	clear();
1372	insert_after(cbefore_begin(), __first, __last);
1373	}
1374
1375	// Called by assign(size_type, const _Tp&) if Tp is CopyAssignable
1376	void
1377	_M_assign_n(size_type __n, const _Tp& __val, true_type)
1378	{
1379	auto __prev = before_begin();
1380	auto __curr = begin();
1381	auto __end = end();
1382	while (__curr != __end && __n > `0`)
1383	{
1384	*__curr = __val;
1385	++__prev;
1386	++__curr;
1387	--__n;
1388	}
1389	if (__n > `0`)
1390	insert_after(__prev, __n, __val);
1391	else if (__curr != __end)
1392	erase_after(__prev, __end);
1393	}
1394
1395	// Called by assign(size_type, const _Tp&) if Tp is non-CopyAssignable
1396	void
1397	_M_assign_n(size_type __n, const _Tp& __val, false_type)
1398	{
1399	clear();
1400	insert_after(cbefore_begin(), __n, __val);
1401	}
1402	};
1403
1404	#if __cpp_deduction_guides >= 201606
1405	template<typename _InputIterator, typename _ValT
1406	= typename iterator_traits<_InputIterator>::value_type,
1407	typename _Allocator = allocator<_ValT>,
1408	typename = _RequireInputIter<_InputIterator>,
1409	typename = _RequireAllocator<_Allocator>>
1410	forward_list(_InputIterator, _InputIterator, _Allocator = _Allocator())
1411	-> forward_list<_ValT, _Allocator>;
1412	#endif
1413
1414	/**
1415	* @brief Forward list equality comparison.
1416	* @param __lx A %forward_list
1417	* @param __ly A %forward_list of the same type as @a __lx.
1418	* @return True iff the elements of the forward lists are equal.
1419	*
1420	* This is an equivalence relation. It is linear in the number of
1421	* elements of the forward lists. Deques are considered equivalent
1422	* if corresponding elements compare equal.
1423	*/
1424	template<typename _Tp, typename _Alloc>
1425	bool
1426	operator==(const forward_list<_Tp, _Alloc>& __lx,
1427	const forward_list<_Tp, _Alloc>& __ly);
1428
1429	/**
1430	* @brief Forward list ordering relation.
1431	* @param __lx A %forward_list.
1432	* @param __ly A %forward_list of the same type as @a __lx.
1433	* @return True iff @a __lx is lexicographically less than @a __ly.
1434	*
1435	* This is a total ordering relation. It is linear in the number of
1436	* elements of the forward lists. The elements must be comparable
1437	* with @c <.
1438	*
1439	* See std::lexicographical_compare() for how the determination is made.
1440	*/
1441	template<typename _Tp, typename _Alloc>
1442	inline bool
1443	operator<(const forward_list<_Tp, _Alloc>& __lx,
1444	const forward_list<_Tp, _Alloc>& __ly)
1445	{ return std::lexicographical_compare(__lx.cbegin(), __lx.cend(),
1446	__ly.cbegin(), __ly.cend()); }
1447
1448	/// Based on operator==
1449	template<typename _Tp, typename _Alloc>
1450	inline bool
1451	operator!=(const forward_list<_Tp, _Alloc>& __lx,
1452	const forward_list<_Tp, _Alloc>& __ly)
1453	{ return !(__lx == __ly); }
1454
1455	/// Based on operator<
1456	template<typename _Tp, typename _Alloc>
1457	inline bool
1458	operator>(const forward_list<_Tp, _Alloc>& __lx,
1459	const forward_list<_Tp, _Alloc>& __ly)
1460	{ return (__ly < __lx); }
1461
1462	/// Based on operator<
1463	template<typename _Tp, typename _Alloc>
1464	inline bool
1465	operator>=(const forward_list<_Tp, _Alloc>& __lx,
1466	const forward_list<_Tp, _Alloc>& __ly)
1467	{ return !(__lx < __ly); }
1468
1469	/// Based on operator<
1470	template<typename _Tp, typename _Alloc>
1471	inline bool
1472	operator<=(const forward_list<_Tp, _Alloc>& __lx,
1473	const forward_list<_Tp, _Alloc>& __ly)
1474	{ return !(__ly < __lx); }
1475
1476	/// See std::forward_list::swap().
1477	template<typename _Tp, typename _Alloc>
1478	inline void
1479	swap(forward_list<_Tp, _Alloc>& __lx,
1480	forward_list<_Tp, _Alloc>& __ly)
1481	noexcept(noexcept(__lx.swap(__ly)))
1482	{ __lx.swap(__ly); }
1483
1484	_GLIBCXX_END_NAMESPACE_CONTAINER
1485	_GLIBCXX_END_NAMESPACE_VERSION
1486	} // namespace std
1487
1488	#endif // _FORWARD_LIST_H
1489

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