stl_tree.h source code [include/c++/8/bits/stl_tree.h]

1	// RB tree implementation -- 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	*
27	* Copyright (c) 1996,1997
28	* Silicon Graphics Computer Systems, Inc.
29	*
30	* Permission to use, copy, modify, distribute and sell this software
31	* and its documentation for any purpose is hereby granted without fee,
32	* provided that the above copyright notice appear in all copies and
33	* that both that copyright notice and this permission notice appear
34	* in supporting documentation. Silicon Graphics makes no
35	* representations about the suitability of this software for any
36	* purpose. It is provided "as is" without express or implied warranty.
37	*
38	*
39	* Copyright (c) 1994
40	* Hewlett-Packard Company
41	*
42	* Permission to use, copy, modify, distribute and sell this software
43	* and its documentation for any purpose is hereby granted without fee,
44	* provided that the above copyright notice appear in all copies and
45	* that both that copyright notice and this permission notice appear
46	* in supporting documentation. Hewlett-Packard Company makes no
47	* representations about the suitability of this software for any
48	* purpose. It is provided "as is" without express or implied warranty.
49	*
50	*
51	*/
52
53	/* @file bits/stl_tree.h*
54	* This is an internal header file, included by other library headers.
55	* Do not attempt to use it directly. @headername{map,set}
56	*/
57
58	#ifndef _STL_TREE_H
59	#define _STL_TREE_H 1
60
61	#pragma GCC system_header
62
63	#include <bits/stl_algobase.h>
64	#include <bits/allocator.h>
65	#include <bits/stl_function.h>
66	#include <bits/cpp_type_traits.h>
67	#include <ext/alloc_traits.h>
68	#if __cplusplus >= 201103L
69	# include <ext/aligned_buffer.h>
70	#endif
71	#if __cplusplus > 201402L
72	# include <bits/node_handle.h>
73	#endif
74
75	namespace std _GLIBCXX_VISIBILITY(default)
76	{
77	_GLIBCXX_BEGIN_NAMESPACE_VERSION
78
79	#if __cplusplus > 201103L
80	# define __cpp_lib_generic_associative_lookup 201304
81	#endif
82
83	// Red-black tree class, designed for use in implementing STL
84	// associative containers (set, multiset, map, and multimap). The
85	// insertion and deletion algorithms are based on those in Cormen,
86	// Leiserson, and Rivest, Introduction to Algorithms (MIT Press,
87	// 1990), except that
88	//
89	// (1) the header cell is maintained with links not only to the root
90	// but also to the leftmost node of the tree, to enable constant
91	// time begin(), and to the rightmost node of the tree, to enable
92	// linear time performance when used with the generic set algorithms
93	// (set_union, etc.)
94	//
95	// (2) when a node being deleted has two children its successor node
96	// is relinked into its place, rather than copied, so that the only
97	// iterators invalidated are those referring to the deleted node.
98
99	enum _Rb_tree_color { _S_red = false, _S_black = true };
100
101	struct _Rb_tree_node_base
102	{
103	typedef _Rb_tree_node_base* _Base_ptr;
104	typedef const _Rb_tree_node_base* _Const_Base_ptr;
105
106	_Rb_tree_color _M_color;
107	_Base_ptr _M_parent;
108	_Base_ptr _M_left;
109	_Base_ptr _M_right;
110
111	static _Base_ptr
112	_S_minimum(_Base_ptr __x) _GLIBCXX_NOEXCEPT
113	{
114	while (__x->_M_left != `0`) __x = __x->_M_left;
115	return __x;
116	}
117
118	static _Const_Base_ptr
119	_S_minimum(_Const_Base_ptr __x) _GLIBCXX_NOEXCEPT
120	{
121	while (__x->_M_left != `0`) __x = __x->_M_left;
122	return __x;
123	}
124
125	static _Base_ptr
126	_S_maximum(_Base_ptr __x) _GLIBCXX_NOEXCEPT
127	{
128	while (__x->_M_right != `0`) __x = __x->_M_right;
129	return __x;
130	}
131
132	static _Const_Base_ptr
133	_S_maximum(_Const_Base_ptr __x) _GLIBCXX_NOEXCEPT
134	{
135	while (__x->_M_right != `0`) __x = __x->_M_right;
136	return __x;
137	}
138	};
139
140	// Helper type offering value initialization guarantee on the compare functor.
141	template<typename _Key_compare>
142	struct _Rb_tree_key_compare
143	{
144	_Key_compare _M_key_compare;
145
146	_Rb_tree_key_compare()
147	_GLIBCXX_NOEXCEPT_IF(
148	is_nothrow_default_constructible<_Key_compare>::value)
149	: _M_key_compare()
150	{ }
151
152	_Rb_tree_key_compare(const _Key_compare& __comp)
153	: _M_key_compare(__comp)
154	{ }
155
156	#if __cplusplus >= 201103L
157	// Copy constructor added for consistency with C++98 mode.
158	_Rb_tree_key_compare(const _Rb_tree_key_compare&) = default;
159
160	_Rb_tree_key_compare(_Rb_tree_key_compare&& __x)
161	noexcept(is_nothrow_copy_constructible<_Key_compare>::value)
162	: _M_key_compare(__x._M_key_compare)
163	{ }
164	#endif
165	};
166
167	// Helper type to manage default initialization of node count and header.
168	struct _Rb_tree_header
169	{
170	_Rb_tree_node_base _M_header;
171	size_t _M_node_count; // Keeps track of size of tree.
172
173	_Rb_tree_header() _GLIBCXX_NOEXCEPT
174	{
175	_M_header._M_color = _S_red;
176	_M_reset();
177	}
178
179	#if __cplusplus >= 201103L
180	_Rb_tree_header(_Rb_tree_header&& __x) noexcept
181	{
182	if (__x._M_header._M_parent != nullptr)
183	_M_move_data(__x);
184	else
185	{
186	_M_header._M_color = _S_red;
187	_M_reset();
188	}
189	}
190	#endif
191
192	void
193	_M_move_data(_Rb_tree_header& __from)
194	{
195	_M_header._M_color = __from._M_header._M_color;
196	_M_header._M_parent = __from._M_header._M_parent;
197	_M_header._M_left = __from._M_header._M_left;
198	_M_header._M_right = __from._M_header._M_right;
199	_M_header._M_parent->_M_parent = &_M_header;
200	_M_node_count = __from._M_node_count;
201
202	__from._M_reset();
203	}
204
205	void
206	_M_reset()
207	{
208	_M_header._M_parent = `0`;
209	_M_header._M_left = &_M_header;
210	_M_header._M_right = &_M_header;
211	_M_node_count = `0`;
212	}
213	};
214
215	template<typename _Val>
216	struct _Rb_tree_node : public _Rb_tree_node_base
217	{
218	typedef _Rb_tree_node<_Val>* _Link_type;
219
220	#if __cplusplus < 201103L
221	_Val _M_value_field;
222
223	_Val*
224	_M_valptr()
225	{ return std::__addressof(_M_value_field); }
226
227	const _Val*
228	_M_valptr() const
229	{ return std::__addressof(_M_value_field); }
230	#else
231	__gnu_cxx::__aligned_membuf<_Val> _M_storage;
232
233	_Val*
234	_M_valptr()
235	{ return _M_storage._M_ptr(); }
236
237	const _Val*
238	_M_valptr() const
239	{ return _M_storage._M_ptr(); }
240	#endif
241	};
242
243	_GLIBCXX_PURE _Rb_tree_node_base*
244	_Rb_tree_increment(_Rb_tree_node_base* __x) throw ();
245
246	_GLIBCXX_PURE const _Rb_tree_node_base*
247	_Rb_tree_increment(const _Rb_tree_node_base* __x) throw ();
248
249	_GLIBCXX_PURE _Rb_tree_node_base*
250	_Rb_tree_decrement(_Rb_tree_node_base* __x) throw ();
251
252	_GLIBCXX_PURE const _Rb_tree_node_base*
253	_Rb_tree_decrement(const _Rb_tree_node_base* __x) throw ();
254
255	template<typename _Tp>
256	struct _Rb_tree_iterator
257	{
258	typedef _Tp value_type;
259	typedef _Tp& reference;
260	typedef _Tp* pointer;
261
262	typedef bidirectional_iterator_tag iterator_category;
263	typedef ptrdiff_t difference_type;
264
265	typedef _Rb_tree_iterator<_Tp> _Self;
266	typedef _Rb_tree_node_base::_Base_ptr _Base_ptr;
267	typedef _Rb_tree_node<_Tp>* _Link_type;
268
269	_Rb_tree_iterator() _GLIBCXX_NOEXCEPT
270	: _M_node() { }
271
272	explicit
273	_Rb_tree_iterator(_Base_ptr __x) _GLIBCXX_NOEXCEPT
274	: _M_node(__x) { }
275
276	reference
277	operator() const* _GLIBCXX_NOEXCEPT
278	{ return *static_cast<_Link_type>(_M_node)->_M_valptr(); }
279
280	pointer
281	operator->() const _GLIBCXX_NOEXCEPT
282	{ return static_cast<_Link_type> (_M_node)->_M_valptr(); }
283
284	_Self&
285	operator++() _GLIBCXX_NOEXCEPT
286	{
287	_M_node = _Rb_tree_increment(_M_node);
288	return *this;
289	}
290
291	_Self
292	operator++(int) _GLIBCXX_NOEXCEPT
293	{
294	_Self __tmp = *this;
295	_M_node = _Rb_tree_increment(_M_node);
296	return __tmp;
297	}
298
299	_Self&
300	operator--() _GLIBCXX_NOEXCEPT
301	{
302	_M_node = _Rb_tree_decrement(_M_node);
303	return *this;
304	}
305
306	_Self
307	operator--(int) _GLIBCXX_NOEXCEPT
308	{
309	_Self __tmp = *this;
310	_M_node = _Rb_tree_decrement(_M_node);
311	return __tmp;
312	}
313
314	bool
315	operator==(const _Self& __x) const _GLIBCXX_NOEXCEPT
316	{ return _M_node == __x._M_node; }
317
318	bool
319	operator!=(const _Self& __x) const _GLIBCXX_NOEXCEPT
320	{ return _M_node != __x._M_node; }
321
322	_Base_ptr _M_node;
323	};
324
325	template<typename _Tp>
326	struct _Rb_tree_const_iterator
327	{
328	typedef _Tp value_type;
329	typedef const _Tp& reference;
330	typedef const _Tp* pointer;
331
332	typedef _Rb_tree_iterator<_Tp> iterator;
333
334	typedef bidirectional_iterator_tag iterator_category;
335	typedef ptrdiff_t difference_type;
336
337	typedef _Rb_tree_const_iterator<_Tp> _Self;
338	typedef _Rb_tree_node_base::_Const_Base_ptr _Base_ptr;
339	typedef const _Rb_tree_node<_Tp>* _Link_type;
340
341	_Rb_tree_const_iterator() _GLIBCXX_NOEXCEPT
342	: _M_node() { }
343
344	explicit
345	_Rb_tree_const_iterator(_Base_ptr __x) _GLIBCXX_NOEXCEPT
346	: _M_node(__x) { }
347
348	_Rb_tree_const_iterator(const iterator& __it) _GLIBCXX_NOEXCEPT
349	: _M_node(__it._M_node) { }
350
351	iterator
352	_M_const_cast() const _GLIBCXX_NOEXCEPT
353	{ return iterator(const_cast<typename iterator::_Base_ptr>(_M_node)); }
354
355	reference
356	operator() const* _GLIBCXX_NOEXCEPT
357	{ return *static_cast<_Link_type>(_M_node)->_M_valptr(); }
358
359	pointer
360	operator->() const _GLIBCXX_NOEXCEPT
361	{ return static_cast<_Link_type>(_M_node)->_M_valptr(); }
362
363	_Self&
364	operator++() _GLIBCXX_NOEXCEPT
365	{
366	_M_node = _Rb_tree_increment(_M_node);
367	return *this;
368	}
369
370	_Self
371	operator++(int) _GLIBCXX_NOEXCEPT
372	{
373	_Self __tmp = *this;
374	_M_node = _Rb_tree_increment(_M_node);
375	return __tmp;
376	}
377
378	_Self&
379	operator--() _GLIBCXX_NOEXCEPT
380	{
381	_M_node = _Rb_tree_decrement(_M_node);
382	return *this;
383	}
384
385	_Self
386	operator--(int) _GLIBCXX_NOEXCEPT
387	{
388	_Self __tmp = *this;
389	_M_node = _Rb_tree_decrement(_M_node);
390	return __tmp;
391	}
392
393	bool
394	operator==(const _Self& __x) const _GLIBCXX_NOEXCEPT
395	{ return _M_node == __x._M_node; }
396
397	bool
398	operator!=(const _Self& __x) const _GLIBCXX_NOEXCEPT
399	{ return _M_node != __x._M_node; }
400
401	_Base_ptr _M_node;
402	};
403
404	template<typename _Val>
405	inline bool
406	operator==(const _Rb_tree_iterator<_Val>& __x,
407	const _Rb_tree_const_iterator<_Val>& __y) _GLIBCXX_NOEXCEPT
408	{ return __x._M_node == __y._M_node; }
409
410	template<typename _Val>
411	inline bool
412	operator!=(const _Rb_tree_iterator<_Val>& __x,
413	const _Rb_tree_const_iterator<_Val>& __y) _GLIBCXX_NOEXCEPT
414	{ return __x._M_node != __y._M_node; }
415
416	void
417	_Rb_tree_insert_and_rebalance(const bool __insert_left,
418	_Rb_tree_node_base* __x,
419	_Rb_tree_node_base* __p,
420	_Rb_tree_node_base& __header) throw ();
421
422	_Rb_tree_node_base*
423	_Rb_tree_rebalance_for_erase(_Rb_tree_node_base* const __z,
424	_Rb_tree_node_base& __header) throw ();
425
426	#if __cplusplus > 201103L
427	template<typename _Cmp, typename _SfinaeType, typename = __void_t<>>
428	struct __has_is_transparent
429	{ };
430
431	template<typename _Cmp, typename _SfinaeType>
432	struct __has_is_transparent<_Cmp, _SfinaeType,
433	__void_t<typename _Cmp::is_transparent>>
434	{ typedef void type; };
435	#endif
436
437	#if __cplusplus > 201402L
438	template<typename _Tree1, typename _Cmp2>
439	struct _Rb_tree_merge_helper { };
440	#endif
441
442	template<typename _Key, typename _Val, typename _KeyOfValue,
443	typename _Compare, typename _Alloc = allocator<_Val> >
444	class _Rb_tree
445	{
446	typedef typename __gnu_cxx::__alloc_traits<_Alloc>::template
447	rebind<_Rb_tree_node<_Val> >::other _Node_allocator;
448
449	typedef __gnu_cxx::__alloc_traits<_Node_allocator> _Alloc_traits;
450
451	#if __cplusplus >= 201103L
452	static_assert(__is_invocable<_Compare&, const _Key&, const _Key&>{},
453	"comparison object must be invocable with two arguments of key type");
454	# if __cplusplus >= 201703L
455	// _GLIBCXX_RESOLVE_LIB_DEFECTS
456	// 2542. Missing const requirements for associative containers
457	static_assert(is_invocable_v<const _Compare&, const _Key&, const _Key&>,
458	"comparison object must be invocable as const");
459	# endif // C++17
460	#endif // C++11
461
462	protected:
463	typedef _Rb_tree_node_base* _Base_ptr;
464	typedef const _Rb_tree_node_base* _Const_Base_ptr;
465	typedef _Rb_tree_node<_Val>* _Link_type;
466	typedef const _Rb_tree_node<_Val>* _Const_Link_type;
467
468	private:
469	// Functor recycling a pool of nodes and using allocation once the pool
470	// is empty.
471	struct _Reuse_or_alloc_node
472	{
473	_Reuse_or_alloc_node(_Rb_tree& __t)
474	: _M_root(__t._M_root()), _M_nodes(__t._M_rightmost()), _M_t(__t)
475	{
476	if (_M_root)
477	{
478	_M_root->_M_parent = `0`;
479
480	if (_M_nodes->_M_left)
481	_M_nodes = _M_nodes->_M_left;
482	}
483	else
484	_M_nodes = `0`;
485	}
486
487	#if __cplusplus >= 201103L
488	_Reuse_or_alloc_node(const _Reuse_or_alloc_node&) = delete;
489	#endif
490
491	~_Reuse_or_alloc_node()
492	{ _M_t._M_erase(static_cast<_Link_type>(_M_root)); }
493
494	template<typename _Arg>
495	_Link_type
496	#if __cplusplus < 201103L
497	operator()(const _Arg& __arg)
498	#else
499	operator()(_Arg&& __arg)
500	#endif
501	{
502	_Link_type __node = static_cast<_Link_type>(_M_extract());
503	if (__node)
504	{
505	_M_t._M_destroy_node(__node);
506	_M_t._M_construct_node(__node, _GLIBCXX_FORWARD(_Arg, __arg));
507	return __node;
508	}
509
510	return _M_t._M_create_node(_GLIBCXX_FORWARD(_Arg, __arg));
511	}
512
513	private:
514	_Base_ptr
515	_M_extract()
516	{
517	if (!_M_nodes)
518	return _M_nodes;
519
520	_Base_ptr __node = _M_nodes;
521	_M_nodes = _M_nodes->_M_parent;
522	if (_M_nodes)
523	{
524	if (_M_nodes->_M_right == __node)
525	{
526	_M_nodes->_M_right = `0`;
527
528	if (_M_nodes->_M_left)
529	{
530	_M_nodes = _M_nodes->_M_left;
531
532	while (_M_nodes->_M_right)
533	_M_nodes = _M_nodes->_M_right;
534
535	if (_M_nodes->_M_left)
536	_M_nodes = _M_nodes->_M_left;
537	}
538	}
539	else // __node is on the left.
540	_M_nodes->_M_left = `0`;
541	}
542	else
543	_M_root = `0`;
544
545	return __node;
546	}
547
548	_Base_ptr _M_root;
549	_Base_ptr _M_nodes;
550	_Rb_tree& _M_t;
551	};
552
553	// Functor similar to the previous one but without any pool of nodes to
554	// recycle.
555	struct _Alloc_node
556	{
557	_Alloc_node(_Rb_tree& __t)
558	: _M_t(__t) { }
559
560	template<typename _Arg>
561	_Link_type
562	#if __cplusplus < 201103L
563	operator()(const _Arg& __arg) const
564	#else
565	operator()(_Arg&& __arg) const
566	#endif
567	{ return _M_t._M_create_node(_GLIBCXX_FORWARD(_Arg, __arg)); }
568
569	private:
570	_Rb_tree& _M_t;
571	};
572
573	public:
574	typedef _Key key_type;
575	typedef _Val value_type;
576	typedef value_type* pointer;
577	typedef const value_type* const_pointer;
578	typedef value_type& reference;
579	typedef const value_type& const_reference;
580	typedef size_t size_type;
581	typedef ptrdiff_t difference_type;
582	typedef _Alloc allocator_type;
583
584	_Node_allocator&
585	_M_get_Node_allocator() _GLIBCXX_NOEXCEPT
586	{ return this->_M_impl; }
587
588	const _Node_allocator&
589	_M_get_Node_allocator() const _GLIBCXX_NOEXCEPT
590	{ return this->_M_impl; }
591
592	allocator_type
593	get_allocator() const _GLIBCXX_NOEXCEPT
594	{ return allocator_type(_M_get_Node_allocator()); }
595
596	protected:
597	_Link_type
598	_M_get_node()
599	{ return _Alloc_traits::allocate(_M_get_Node_allocator(), `1`); }
600
601	void
602	_M_put_node(_Link_type __p) _GLIBCXX_NOEXCEPT
603	{ _Alloc_traits::deallocate(_M_get_Node_allocator(), __p, `1`); }
604
605	#if __cplusplus < 201103L
606	void
607	_M_construct_node(_Link_type __node, const value_type& __x)
608	{
609	__try
610	{ get_allocator().construct(__node->_M_valptr(), __x); }
611	__catch(...)
612	{
613	_M_put_node(__node);
614	__throw_exception_again;
615	}
616	}
617
618	_Link_type
619	_M_create_node(const value_type& __x)
620	{
621	_Link_type __tmp = _M_get_node();
622	_M_construct_node(__tmp, __x);
623	return __tmp;
624	}
625
626	void
627	_M_destroy_node(_Link_type __p)
628	{ get_allocator().destroy(__p->_M_valptr()); }
629	#else
630	template<typename... _Args>
631	void
632	_M_construct_node(_Link_type __node, _Args&&... __args)
633	{
634	__try
635	{
636	::new(__node) _Rb_tree_node<_Val>;
637	_Alloc_traits::construct(_M_get_Node_allocator(),
638	__node->_M_valptr(),
639	std::forward<_Args>(__args)...);
640	}
641	__catch(...)
642	{
643	__node->~_Rb_tree_node<_Val>();
644	_M_put_node(__node);
645	__throw_exception_again;
646	}
647	}
648
649	template<typename... _Args>
650	_Link_type
651	_M_create_node(_Args&&... __args)
652	{
653	_Link_type __tmp = _M_get_node();
654	_M_construct_node(__tmp, std::forward<_Args>(__args)...);
655	return __tmp;
656	}
657
658	void
659	_M_destroy_node(_Link_type __p) noexcept
660	{
661	_Alloc_traits::destroy(_M_get_Node_allocator(), __p->_M_valptr());
662	__p->~_Rb_tree_node<_Val>();
663	}
664	#endif
665
666	void
667	_M_drop_node(_Link_type __p) _GLIBCXX_NOEXCEPT
668	{
669	_M_destroy_node(__p);
670	_M_put_node(__p);
671	}
672
673	template<typename _NodeGen>
674	_Link_type
675	_M_clone_node(_Const_Link_type __x, _NodeGen& __node_gen)
676	{
677	_Link_type __tmp = __node_gen(*__x->_M_valptr());
678	__tmp->_M_color = __x->_M_color;
679	__tmp->_M_left = `0`;
680	__tmp->_M_right = `0`;
681	return __tmp;
682	}
683
684	protected:
685	#if _GLIBCXX_INLINE_VERSION
686	template<typename _Key_compare>
687	#else
688	// Unused _Is_pod_comparator is kept as it is part of mangled name.
689	template<typename _Key_compare,
690	bool / _Is_pod_comparator / = __is_pod(_Key_compare)>
691	#endif
692	struct _Rb_tree_impl
693	: public _Node_allocator
694	, public _Rb_tree_key_compare<_Key_compare>
695	, public _Rb_tree_header
696	{
697	typedef _Rb_tree_key_compare<_Key_compare> _Base_key_compare;
698
699	_Rb_tree_impl()
700	_GLIBCXX_NOEXCEPT_IF(
701	is_nothrow_default_constructible<_Node_allocator>::value
702	&& is_nothrow_default_constructible<_Base_key_compare>::value )
703	: _Node_allocator()
704	{ }
705
706	_Rb_tree_impl(const _Rb_tree_impl& __x)
707	: _Node_allocator(_Alloc_traits::_S_select_on_copy(__x))
708	, _Base_key_compare(__x._M_key_compare)
709	{ }
710
711	#if __cplusplus < 201103L
712	_Rb_tree_impl(const _Key_compare& __comp, const _Node_allocator& __a)
713	: _Node_allocator(__a), _Base_key_compare(__comp)
714	{ }
715	#else
716	_Rb_tree_impl(_Rb_tree_impl&&) = default;
717
718	_Rb_tree_impl(const _Key_compare& __comp, _Node_allocator&& __a)
719	: _Node_allocator(std::move(__a)), _Base_key_compare(__comp)
720	{ }
721	#endif
722	};
723
724	_Rb_tree_impl<_Compare> _M_impl;
725
726	protected:
727	_Base_ptr&
728	_M_root() _GLIBCXX_NOEXCEPT
729	{ return this->_M_impl._M_header._M_parent; }
730
731	_Const_Base_ptr
732	_M_root() const _GLIBCXX_NOEXCEPT
733	{ return this->_M_impl._M_header._M_parent; }
734
735	_Base_ptr&
736	_M_leftmost() _GLIBCXX_NOEXCEPT
737	{ return this->_M_impl._M_header._M_left; }
738
739	_Const_Base_ptr
740	_M_leftmost() const _GLIBCXX_NOEXCEPT
741	{ return this->_M_impl._M_header._M_left; }
742
743	_Base_ptr&
744	_M_rightmost() _GLIBCXX_NOEXCEPT
745	{ return this->_M_impl._M_header._M_right; }
746
747	_Const_Base_ptr
748	_M_rightmost() const _GLIBCXX_NOEXCEPT
749	{ return this->_M_impl._M_header._M_right; }
750
751	_Link_type
752	_M_begin() _GLIBCXX_NOEXCEPT
753	{ return static_cast<_Link_type>(this->_M_impl._M_header._M_parent); }
754
755	_Const_Link_type
756	_M_begin() const _GLIBCXX_NOEXCEPT
757	{
758	return static_cast<_Const_Link_type>
759	(this->_M_impl._M_header._M_parent);
760	}
761
762	_Base_ptr
763	_M_end() _GLIBCXX_NOEXCEPT
764	{ return &this->_M_impl._M_header; }
765
766	_Const_Base_ptr
767	_M_end() const _GLIBCXX_NOEXCEPT
768	{ return &this->_M_impl._M_header; }
769
770	static const_reference
771	_S_value(_Const_Link_type __x)
772	{ return *__x->_M_valptr(); }
773
774	static const _Key&
775	_S_key(_Const_Link_type __x)
776	{ return _KeyOfValue()(_S_value(__x)); }
777
778	static _Link_type
779	_S_left(_Base_ptr __x) _GLIBCXX_NOEXCEPT
780	{ return static_cast<_Link_type>(__x->_M_left); }
781
782	static _Const_Link_type
783	_S_left(_Const_Base_ptr __x) _GLIBCXX_NOEXCEPT
784	{ return static_cast<_Const_Link_type>(__x->_M_left); }
785
786	static _Link_type
787	_S_right(_Base_ptr __x) _GLIBCXX_NOEXCEPT
788	{ return static_cast<_Link_type>(__x->_M_right); }
789
790	static _Const_Link_type
791	_S_right(_Const_Base_ptr __x) _GLIBCXX_NOEXCEPT
792	{ return static_cast<_Const_Link_type>(__x->_M_right); }
793
794	static const_reference
795	_S_value(_Const_Base_ptr __x)
796	{ return *static_cast<_Const_Link_type>(__x)->_M_valptr(); }
797
798	static const _Key&
799	_S_key(_Const_Base_ptr __x)
800	{ return _KeyOfValue()(_S_value(__x)); }
801
802	static _Base_ptr
803	_S_minimum(_Base_ptr __x) _GLIBCXX_NOEXCEPT
804	{ return _Rb_tree_node_base::_S_minimum(__x); }
805
806	static _Const_Base_ptr
807	_S_minimum(_Const_Base_ptr __x) _GLIBCXX_NOEXCEPT
808	{ return _Rb_tree_node_base::_S_minimum(__x); }
809
810	static _Base_ptr
811	_S_maximum(_Base_ptr __x) _GLIBCXX_NOEXCEPT
812	{ return _Rb_tree_node_base::_S_maximum(__x); }
813
814	static _Const_Base_ptr
815	_S_maximum(_Const_Base_ptr __x) _GLIBCXX_NOEXCEPT
816	{ return _Rb_tree_node_base::_S_maximum(__x); }
817
818	public:
819	typedef _Rb_tree_iterator<value_type> iterator;
820	typedef _Rb_tree_const_iterator<value_type> const_iterator;
821
822	typedef std::reverse_iterator<iterator> reverse_iterator;
823	typedef std::reverse_iterator<const_iterator> const_reverse_iterator;
824
825	#if __cplusplus > 201402L
826	using node_type = _Node_handle<_Key, _Val, _Node_allocator>;
827	using insert_return_type = _Node_insert_return<
828	conditional_t<is_same_v<_Key, _Val>, const_iterator, iterator>,
829	node_type>;
830	#endif
831
832	pair<_Base_ptr, _Base_ptr>
833	_M_get_insert_unique_pos(const key_type& __k);
834
835	pair<_Base_ptr, _Base_ptr>
836	_M_get_insert_equal_pos(const key_type& __k);
837
838	pair<_Base_ptr, _Base_ptr>
839	_M_get_insert_hint_unique_pos(const_iterator __pos,
840	const key_type& __k);
841
842	pair<_Base_ptr, _Base_ptr>
843	_M_get_insert_hint_equal_pos(const_iterator __pos,
844	const key_type& __k);
845
846	private:
847	#if __cplusplus >= 201103L
848	template<typename _Arg, typename _NodeGen>
849	iterator
850	_M_insert_(_Base_ptr __x, _Base_ptr __y, _Arg&& __v, _NodeGen&);
851
852	iterator
853	_M_insert_node(_Base_ptr __x, _Base_ptr __y, _Link_type __z);
854
855	template<typename _Arg>
856	iterator
857	_M_insert_lower(_Base_ptr __y, _Arg&& __v);
858
859	template<typename _Arg>
860	iterator
861	_M_insert_equal_lower(_Arg&& __x);
862
863	iterator
864	_M_insert_lower_node(_Base_ptr __p, _Link_type __z);
865
866	iterator
867	_M_insert_equal_lower_node(_Link_type __z);
868	#else
869	template<typename _NodeGen>
870	iterator
871	_M_insert_(_Base_ptr __x, _Base_ptr __y,
872	const value_type& __v, _NodeGen&);
873
874	// _GLIBCXX_RESOLVE_LIB_DEFECTS
875	// 233. Insertion hints in associative containers.
876	iterator
877	_M_insert_lower(_Base_ptr __y, const value_type& __v);
878
879	iterator
880	_M_insert_equal_lower(const value_type& __x);
881	#endif
882
883	template<typename _NodeGen>
884	_Link_type
885	_M_copy(_Const_Link_type __x, _Base_ptr __p, _NodeGen&);
886
887	template<typename _NodeGen>
888	_Link_type
889	_M_copy(const _Rb_tree& __x, _NodeGen& __gen)
890	{
891	_Link_type __root = _M_copy(__x._M_begin(), _M_end(), __gen);
892	_M_leftmost() = _S_minimum(__root);
893	_M_rightmost() = _S_maximum(__root);
894	_M_impl._M_node_count = __x._M_impl._M_node_count;
895	return __root;
896	}
897
898	_Link_type
899	_M_copy(const _Rb_tree& __x)
900	{
901	_Alloc_node __an(*this);
902	return _M_copy(__x, __an);
903	}
904
905	void
906	_M_erase(_Link_type __x);
907
908	iterator
909	_M_lower_bound(_Link_type __x, _Base_ptr __y,
910	const _Key& __k);
911
912	const_iterator
913	_M_lower_bound(_Const_Link_type __x, _Const_Base_ptr __y,
914	const _Key& __k) const;
915
916	iterator
917	_M_upper_bound(_Link_type __x, _Base_ptr __y,
918	const _Key& __k);
919
920	const_iterator
921	_M_upper_bound(_Const_Link_type __x, _Const_Base_ptr __y,
922	const _Key& __k) const;
923
924	public:
925	// allocation/deallocation
926	#if __cplusplus < 201103L
927	_Rb_tree() { }
928	#else
929	_Rb_tree() = default;
930	#endif
931
932	_Rb_tree(const _Compare& __comp,
933	const allocator_type& __a = allocator_type())
934	: _M_impl(__comp, _Node_allocator(__a)) { }
935
936	_Rb_tree(const _Rb_tree& __x)
937	: _M_impl(__x._M_impl)
938	{
939	if (__x._M_root() != `0`)
940	_M_root() = _M_copy(__x);
941	}
942
943	#if __cplusplus >= 201103L
944	_Rb_tree(const allocator_type& __a)
945	: _M_impl(_Compare(), _Node_allocator(__a))
946	{ }
947
948	_Rb_tree(const _Rb_tree& __x, const allocator_type& __a)
949	: _M_impl(__x._M_impl._M_key_compare, _Node_allocator(__a))
950	{
951	if (__x._M_root() != nullptr)
952	_M_root() = _M_copy(__x);
953	}
954
955	_Rb_tree(_Rb_tree&&) = default;
956
957	_Rb_tree(_Rb_tree&& __x, const allocator_type& __a)
958	: _Rb_tree(std::move(__x), _Node_allocator(__a))
959	{ }
960
961	_Rb_tree(_Rb_tree&& __x, _Node_allocator&& __a);
962	#endif
963
964	~_Rb_tree() _GLIBCXX_NOEXCEPT
965	{ _M_erase(_M_begin()); }
966
967	_Rb_tree&
968	operator=(const _Rb_tree& __x);
969
970	// Accessors.
971	_Compare
972	key_comp() const
973	{ return _M_impl._M_key_compare; }
974
975	iterator
976	begin() _GLIBCXX_NOEXCEPT
977	{ return iterator(this->_M_impl._M_header._M_left); }
978
979	const_iterator
980	begin() const _GLIBCXX_NOEXCEPT
981	{ return const_iterator(this->_M_impl._M_header._M_left); }
982
983	iterator
984	end() _GLIBCXX_NOEXCEPT
985	{ return iterator(&this->_M_impl._M_header); }
986
987	const_iterator
988	end() const _GLIBCXX_NOEXCEPT
989	{ return const_iterator(&this->_M_impl._M_header); }
990
991	reverse_iterator
992	rbegin() _GLIBCXX_NOEXCEPT
993	{ return reverse_iterator(end()); }
994
995	const_reverse_iterator
996	rbegin() const _GLIBCXX_NOEXCEPT
997	{ return const_reverse_iterator(end()); }
998
999	reverse_iterator
1000	rend() _GLIBCXX_NOEXCEPT
1001	{ return reverse_iterator(begin()); }
1002
1003	const_reverse_iterator
1004	rend() const _GLIBCXX_NOEXCEPT
1005	{ return const_reverse_iterator(begin()); }
1006
1007	bool
1008	empty() const _GLIBCXX_NOEXCEPT
1009	{ return _M_impl._M_node_count == `0`; }
1010
1011	size_type
1012	size() const _GLIBCXX_NOEXCEPT
1013	{ return _M_impl._M_node_count; }
1014
1015	size_type
1016	max_size() const _GLIBCXX_NOEXCEPT
1017	{ return _Alloc_traits::max_size(_M_get_Node_allocator()); }
1018
1019	void
1020	swap(_Rb_tree& __t)
1021	_GLIBCXX_NOEXCEPT_IF(__is_nothrow_swappable<_Compare>::value);
1022
1023	// Insert/erase.
1024	#if __cplusplus >= 201103L
1025	template<typename _Arg>
1026	pair<iterator, bool>
1027	_M_insert_unique(_Arg&& __x);
1028
1029	template<typename _Arg>
1030	iterator
1031	_M_insert_equal(_Arg&& __x);
1032
1033	template<typename _Arg, typename _NodeGen>
1034	iterator
1035	_M_insert_unique_(const_iterator __pos, _Arg&& __x, _NodeGen&);
1036
1037	template<typename _Arg>
1038	iterator
1039	_M_insert_unique_(const_iterator __pos, _Arg&& __x)
1040	{
1041	_Alloc_node __an(*this);
1042	return _M_insert_unique_(__pos, std::forward<_Arg>(__x), __an);
1043	}
1044
1045	template<typename _Arg, typename _NodeGen>
1046	iterator
1047	_M_insert_equal_(const_iterator __pos, _Arg&& __x, _NodeGen&);
1048
1049	template<typename _Arg>
1050	iterator
1051	_M_insert_equal_(const_iterator __pos, _Arg&& __x)
1052	{
1053	_Alloc_node __an(*this);
1054	return _M_insert_equal_(__pos, std::forward<_Arg>(__x), __an);
1055	}
1056
1057	template<typename... _Args>
1058	pair<iterator, bool>
1059	_M_emplace_unique(_Args&&... __args);
1060
1061	template<typename... _Args>
1062	iterator
1063	_M_emplace_equal(_Args&&... __args);
1064
1065	template<typename... _Args>
1066	iterator
1067	_M_emplace_hint_unique(const_iterator __pos, _Args&&... __args);
1068
1069	template<typename... _Args>
1070	iterator
1071	_M_emplace_hint_equal(const_iterator __pos, _Args&&... __args);
1072	#else
1073	pair<iterator, bool>
1074	_M_insert_unique(const value_type& __x);
1075
1076	iterator
1077	_M_insert_equal(const value_type& __x);
1078
1079	template<typename _NodeGen>
1080	iterator
1081	_M_insert_unique_(const_iterator __pos, const value_type& __x,
1082	_NodeGen&);
1083
1084	iterator
1085	_M_insert_unique_(const_iterator __pos, const value_type& __x)
1086	{
1087	_Alloc_node __an(*this);
1088	return _M_insert_unique_(__pos, __x, __an);
1089	}
1090
1091	template<typename _NodeGen>
1092	iterator
1093	_M_insert_equal_(const_iterator __pos, const value_type& __x,
1094	_NodeGen&);
1095	iterator
1096	_M_insert_equal_(const_iterator __pos, const value_type& __x)
1097	{
1098	_Alloc_node __an(*this);
1099	return _M_insert_equal_(__pos, __x, __an);
1100	}
1101	#endif
1102
1103	template<typename _InputIterator>
1104	void
1105	_M_insert_unique(_InputIterator __first, _InputIterator __last);
1106
1107	template<typename _InputIterator>
1108	void
1109	_M_insert_equal(_InputIterator __first, _InputIterator __last);
1110
1111	private:
1112	void
1113	_M_erase_aux(const_iterator __position);
1114
1115	void
1116	_M_erase_aux(const_iterator __first, const_iterator __last);
1117
1118	public:
1119	#if __cplusplus >= 201103L
1120	// _GLIBCXX_RESOLVE_LIB_DEFECTS
1121	// DR 130. Associative erase should return an iterator.
1122	_GLIBCXX_ABI_TAG_CXX11
1123	iterator
1124	erase(const_iterator __position)
1125	{
1126	__glibcxx_assert(__position != end());
1127	const_iterator __result = __position;
1128	++__result;
1129	_M_erase_aux(__position);
1130	return __result._M_const_cast();
1131	}
1132
1133	// LWG 2059.
1134	_GLIBCXX_ABI_TAG_CXX11
1135	iterator
1136	erase(iterator __position)
1137	{
1138	__glibcxx_assert(__position != end());
1139	iterator __result = __position;
1140	++__result;
1141	_M_erase_aux(__position);
1142	return __result;
1143	}
1144	#else
1145	void
1146	erase(iterator __position)
1147	{
1148	__glibcxx_assert(__position != end());
1149	_M_erase_aux(__position);
1150	}
1151
1152	void
1153	erase(const_iterator __position)
1154	{
1155	__glibcxx_assert(__position != end());
1156	_M_erase_aux(__position);
1157	}
1158	#endif
1159	size_type
1160	erase(const key_type& __x);
1161
1162	#if __cplusplus >= 201103L
1163	// _GLIBCXX_RESOLVE_LIB_DEFECTS
1164	// DR 130. Associative erase should return an iterator.
1165	_GLIBCXX_ABI_TAG_CXX11
1166	iterator
1167	erase(const_iterator __first, const_iterator __last)
1168	{
1169	_M_erase_aux(__first, __last);
1170	return __last._M_const_cast();
1171	}
1172	#else
1173	void
1174	erase(iterator __first, iterator __last)
1175	{ _M_erase_aux(__first, __last); }
1176
1177	void
1178	erase(const_iterator __first, const_iterator __last)
1179	{ _M_erase_aux(__first, __last); }
1180	#endif
1181	void
1182	erase(const key_type* __first, const key_type* __last);
1183
1184	void
1185	clear() _GLIBCXX_NOEXCEPT
1186	{
1187	_M_erase(_M_begin());
1188	_M_impl._M_reset();
1189	}
1190
1191	// Set operations.
1192	iterator
1193	find(const key_type& __k);
1194
1195	const_iterator
1196	find(const key_type& __k) const;
1197
1198	size_type
1199	count(const key_type& __k) const;
1200
1201	iterator
1202	lower_bound(const key_type& __k)
1203	{ return _M_lower_bound(_M_begin(), _M_end(), __k); }
1204
1205	const_iterator
1206	lower_bound(const key_type& __k) const
1207	{ return _M_lower_bound(_M_begin(), _M_end(), __k); }
1208
1209	iterator
1210	upper_bound(const key_type& __k)
1211	{ return _M_upper_bound(_M_begin(), _M_end(), __k); }
1212
1213	const_iterator
1214	upper_bound(const key_type& __k) const
1215	{ return _M_upper_bound(_M_begin(), _M_end(), __k); }
1216
1217	pair<iterator, iterator>
1218	equal_range(const key_type& __k);
1219
1220	pair<const_iterator, const_iterator>
1221	equal_range(const key_type& __k) const;
1222
1223	#if __cplusplus > 201103L
1224	template<typename _Kt,
1225	typename _Req =
1226	typename __has_is_transparent<_Compare, _Kt>::type>
1227	iterator
1228	_M_find_tr(const _Kt& __k)
1229	{
1230	const _Rb_tree* __const_this = this;
1231	return __const_this->_M_find_tr(__k)._M_const_cast();
1232	}
1233
1234	template<typename _Kt,
1235	typename _Req =
1236	typename __has_is_transparent<_Compare, _Kt>::type>
1237	const_iterator
1238	_M_find_tr(const _Kt& __k) const
1239	{
1240	auto __j = _M_lower_bound_tr(__k);
1241	if (__j != end() && _M_impl._M_key_compare(__k, _S_key(__j._M_node)))
1242	__j = end();
1243	return __j;
1244	}
1245
1246	template<typename _Kt,
1247	typename _Req =
1248	typename __has_is_transparent<_Compare, _Kt>::type>
1249	size_type
1250	_M_count_tr(const _Kt& __k) const
1251	{
1252	auto __p = _M_equal_range_tr(__k);
1253	return std::distance(__p.first, __p.second);
1254	}
1255
1256	template<typename _Kt,
1257	typename _Req =
1258	typename __has_is_transparent<_Compare, _Kt>::type>
1259	iterator
1260	_M_lower_bound_tr(const _Kt& __k)
1261	{
1262	const _Rb_tree* __const_this = this;
1263	return __const_this->_M_lower_bound_tr(__k)._M_const_cast();
1264	}
1265
1266	template<typename _Kt,
1267	typename _Req =
1268	typename __has_is_transparent<_Compare, _Kt>::type>
1269	const_iterator
1270	_M_lower_bound_tr(const _Kt& __k) const
1271	{
1272	auto __x = _M_begin();
1273	auto __y = _M_end();
1274	while (__x != `0`)
1275	if (!_M_impl._M_key_compare(_S_key(__x), __k))
1276	{
1277	__y = __x;
1278	__x = _S_left(__x);
1279	}
1280	else
1281	__x = _S_right(__x);
1282	return const_iterator(__y);
1283	}
1284
1285	template<typename _Kt,
1286	typename _Req =
1287	typename __has_is_transparent<_Compare, _Kt>::type>
1288	iterator
1289	_M_upper_bound_tr(const _Kt& __k)
1290	{
1291	const _Rb_tree* __const_this = this;
1292	return __const_this->_M_upper_bound_tr(__k)._M_const_cast();
1293	}
1294
1295	template<typename _Kt,
1296	typename _Req =
1297	typename __has_is_transparent<_Compare, _Kt>::type>
1298	const_iterator
1299	_M_upper_bound_tr(const _Kt& __k) const
1300	{
1301	auto __x = _M_begin();
1302	auto __y = _M_end();
1303	while (__x != `0`)
1304	if (_M_impl._M_key_compare(__k, _S_key(__x)))
1305	{
1306	__y = __x;
1307	__x = _S_left(__x);
1308	}
1309	else
1310	__x = _S_right(__x);
1311	return const_iterator(__y);
1312	}
1313
1314	template<typename _Kt,
1315	typename _Req =
1316	typename __has_is_transparent<_Compare, _Kt>::type>
1317	pair<iterator, iterator>
1318	_M_equal_range_tr(const _Kt& __k)
1319	{
1320	const _Rb_tree* __const_this = this;
1321	auto __ret = __const_this->_M_equal_range_tr(__k);
1322	return { __ret.first._M_const_cast(), __ret.second._M_const_cast() };
1323	}
1324
1325	template<typename _Kt,
1326	typename _Req =
1327	typename __has_is_transparent<_Compare, _Kt>::type>
1328	pair<const_iterator, const_iterator>
1329	_M_equal_range_tr(const _Kt& __k) const
1330	{
1331	auto __low = _M_lower_bound_tr(__k);
1332	auto __high = __low;
1333	auto& __cmp = _M_impl._M_key_compare;
1334	while (__high != end() && !__cmp(__k, _S_key(__high._M_node)))
1335	++__high;
1336	return { __low, __high };
1337	}
1338	#endif
1339
1340	// Debugging.
1341	bool
1342	__rb_verify() const;
1343
1344	#if __cplusplus >= 201103L
1345	_Rb_tree&
1346	operator=(_Rb_tree&&)
1347	noexcept(_Alloc_traits::_S_nothrow_move()
1348	&& is_nothrow_move_assignable<_Compare>::value);
1349
1350	template<typename _Iterator>
1351	void
1352	_M_assign_unique(_Iterator, _Iterator);
1353
1354	template<typename _Iterator>
1355	void
1356	_M_assign_equal(_Iterator, _Iterator);
1357
1358	private:
1359	// Move elements from container with equal allocator.
1360	void
1361	_M_move_data(_Rb_tree& __x, std::true_type)
1362	{ _M_impl._M_move_data(__x._M_impl); }
1363
1364	// Move elements from container with possibly non-equal allocator,
1365	// which might result in a copy not a move.
1366	void
1367	_M_move_data(_Rb_tree&, std::false_type);
1368
1369	// Move assignment from container with equal allocator.
1370	void
1371	_M_move_assign(_Rb_tree&, std::true_type);
1372
1373	// Move assignment from container with possibly non-equal allocator,
1374	// which might result in a copy not a move.
1375	void
1376	_M_move_assign(_Rb_tree&, std::false_type);
1377	#endif
1378
1379	#if __cplusplus > 201402L
1380	public:
1381	/// Re-insert an extracted node.
1382	insert_return_type
1383	_M_reinsert_node_unique(node_type&& __nh)
1384	{
1385	insert_return_type __ret;
1386	if (__nh.empty())
1387	__ret.position = end();
1388	else
1389	{
1390	__glibcxx_assert(_M_get_Node_allocator() == *__nh._M_alloc);
1391
1392	auto __res = _M_get_insert_unique_pos(__nh._M_key());
1393	if (__res.second)
1394	{
1395	__ret.position
1396	= _M_insert_node(__res.first, __res.second, __nh._M_ptr);
1397	__nh._M_ptr = nullptr;
1398	__ret.inserted = true;
1399	}
1400	else
1401	{
1402	__ret.node = std::move(__nh);
1403	__ret.position = iterator(__res.first);
1404	__ret.inserted = false;
1405	}
1406	}
1407	return __ret;
1408	}
1409
1410	/// Re-insert an extracted node.
1411	iterator
1412	_M_reinsert_node_equal(node_type&& __nh)
1413	{
1414	iterator __ret;
1415	if (__nh.empty())
1416	__ret = end();
1417	else
1418	{
1419	__glibcxx_assert(_M_get_Node_allocator() == *__nh._M_alloc);
1420	auto __res = _M_get_insert_equal_pos(__nh._M_key());
1421	if (__res.second)
1422	__ret = _M_insert_node(__res.first, __res.second, __nh._M_ptr);
1423	else
1424	__ret = _M_insert_equal_lower_node(__nh._M_ptr);
1425	__nh._M_ptr = nullptr;
1426	}
1427	return __ret;
1428	}
1429
1430	/// Re-insert an extracted node.
1431	iterator
1432	_M_reinsert_node_hint_unique(const_iterator __hint, node_type&& __nh)
1433	{
1434	iterator __ret;
1435	if (__nh.empty())
1436	__ret = end();
1437	else
1438	{
1439	__glibcxx_assert(_M_get_Node_allocator() == *__nh._M_alloc);
1440	auto __res = _M_get_insert_hint_unique_pos(__hint, __nh._M_key());
1441	if (__res.second)
1442	{
1443	__ret = _M_insert_node(__res.first, __res.second, __nh._M_ptr);
1444	__nh._M_ptr = nullptr;
1445	}
1446	else
1447	__ret = iterator(__res.first);
1448	}
1449	return __ret;
1450	}
1451
1452	/// Re-insert an extracted node.
1453	iterator
1454	_M_reinsert_node_hint_equal(const_iterator __hint, node_type&& __nh)
1455	{
1456	iterator __ret;
1457	if (__nh.empty())
1458	__ret = end();
1459	else
1460	{
1461	__glibcxx_assert(_M_get_Node_allocator() == *__nh._M_alloc);
1462	auto __res = _M_get_insert_hint_equal_pos(__hint, __nh._M_key());
1463	if (__res.second)
1464	__ret = _M_insert_node(__res.first, __res.second, __nh._M_ptr);
1465	else
1466	__ret = _M_insert_equal_lower_node(__nh._M_ptr);
1467	__nh._M_ptr = nullptr;
1468	}
1469	return __ret;
1470	}
1471
1472	/// Extract a node.
1473	node_type
1474	extract(const_iterator __pos)
1475	{
1476	auto __ptr = _Rb_tree_rebalance_for_erase(
1477	__pos._M_const_cast()._M_node, _M_impl._M_header);
1478	--_M_impl._M_node_count;
1479	return { static_cast<_Link_type>(__ptr), _M_get_Node_allocator() };
1480	}
1481
1482	/// Extract a node.
1483	node_type
1484	extract(const key_type& __k)
1485	{
1486	node_type __nh;
1487	auto __pos = find(__k);
1488	if (__pos != end())
1489	__nh = extract(const_iterator(__pos));
1490	return __nh;
1491	}
1492
1493	template<typename _Compare2>
1494	using _Compatible_tree
1495	= _Rb_tree<_Key, _Val, _KeyOfValue, _Compare2, _Alloc>;
1496
1497	template<typename, typename>
1498	friend class _Rb_tree_merge_helper;
1499
1500	/// Merge from a compatible container into one with unique keys.
1501	template<typename _Compare2>
1502	void
1503	_M_merge_unique(_Compatible_tree<_Compare2>& __src) noexcept
1504	{
1505	using _Merge_helper = _Rb_tree_merge_helper<_Rb_tree, _Compare2>;
1506	for (auto __i = __src.begin(), __end = __src.end(); __i != __end;)
1507	{
1508	auto __pos = __i++;
1509	auto __res = _M_get_insert_unique_pos(_KeyOfValue()(*__pos));
1510	if (__res.second)
1511	{
1512	auto& __src_impl = _Merge_helper::_S_get_impl(__src);
1513	auto __ptr = _Rb_tree_rebalance_for_erase(
1514	__pos._M_node, __src_impl._M_header);
1515	--__src_impl._M_node_count;
1516	_M_insert_node(__res.first, __res.second,
1517	static_cast<_Link_type>(__ptr));
1518	}
1519	}
1520	}
1521
1522	/// Merge from a compatible container into one with equivalent keys.
1523	template<typename _Compare2>
1524	void
1525	_M_merge_equal(_Compatible_tree<_Compare2>& __src) noexcept
1526	{
1527	using _Merge_helper = _Rb_tree_merge_helper<_Rb_tree, _Compare2>;
1528	for (auto __i = __src.begin(), __end = __src.end(); __i != __end;)
1529	{
1530	auto __pos = __i++;
1531	auto __res = _M_get_insert_equal_pos(_KeyOfValue()(*__pos));
1532	if (__res.second)
1533	{
1534	auto& __src_impl = _Merge_helper::_S_get_impl(__src);
1535	auto __ptr = _Rb_tree_rebalance_for_erase(
1536	__pos._M_node, __src_impl._M_header);
1537	--__src_impl._M_node_count;
1538	_M_insert_node(__res.first, __res.second,
1539	static_cast<_Link_type>(__ptr));
1540	}
1541	}
1542	}
1543	#endif // C++17
1544	};
1545
1546	template<typename _Key, typename _Val, typename _KeyOfValue,
1547	typename _Compare, typename _Alloc>
1548	inline bool
1549	operator==(const _Rb_tree<_Key, _Val, _KeyOfValue, _Compare, _Alloc>& __x,
1550	const _Rb_tree<_Key, _Val, _KeyOfValue, _Compare, _Alloc>& __y)
1551	{
1552	return __x.size() == __y.size()
1553	&& std::equal(__x.begin(), __x.end(), __y.begin());
1554	}
1555
1556	template<typename _Key, typename _Val, typename _KeyOfValue,
1557	typename _Compare, typename _Alloc>
1558	inline bool
1559	operator<(const _Rb_tree<_Key, _Val, _KeyOfValue, _Compare, _Alloc>& __x,
1560	const _Rb_tree<_Key, _Val, _KeyOfValue, _Compare, _Alloc>& __y)
1561	{
1562	return std::lexicographical_compare(__x.begin(), __x.end(),
1563	__y.begin(), __y.end());
1564	}
1565
1566	template<typename _Key, typename _Val, typename _KeyOfValue,
1567	typename _Compare, typename _Alloc>
1568	inline bool
1569	operator!=(const _Rb_tree<_Key, _Val, _KeyOfValue, _Compare, _Alloc>& __x,
1570	const _Rb_tree<_Key, _Val, _KeyOfValue, _Compare, _Alloc>& __y)
1571	{ return !(__x == __y); }
1572
1573	template<typename _Key, typename _Val, typename _KeyOfValue,
1574	typename _Compare, typename _Alloc>
1575	inline bool
1576	operator>(const _Rb_tree<_Key, _Val, _KeyOfValue, _Compare, _Alloc>& __x,
1577	const _Rb_tree<_Key, _Val, _KeyOfValue, _Compare, _Alloc>& __y)
1578	{ return __y < __x; }
1579
1580	template<typename _Key, typename _Val, typename _KeyOfValue,
1581	typename _Compare, typename _Alloc>
1582	inline bool
1583	operator<=(const _Rb_tree<_Key, _Val, _KeyOfValue, _Compare, _Alloc>& __x,
1584	const _Rb_tree<_Key, _Val, _KeyOfValue, _Compare, _Alloc>& __y)
1585	{ return !(__y < __x); }
1586
1587	template<typename _Key, typename _Val, typename _KeyOfValue,
1588	typename _Compare, typename _Alloc>
1589	inline bool
1590	operator>=(const _Rb_tree<_Key, _Val, _KeyOfValue, _Compare, _Alloc>& __x,
1591	const _Rb_tree<_Key, _Val, _KeyOfValue, _Compare, _Alloc>& __y)
1592	{ return !(__x < __y); }
1593
1594	template<typename _Key, typename _Val, typename _KeyOfValue,
1595	typename _Compare, typename _Alloc>
1596	inline void
1597	swap(_Rb_tree<_Key, _Val, _KeyOfValue, _Compare, _Alloc>& __x,
1598	_Rb_tree<_Key, _Val, _KeyOfValue, _Compare, _Alloc>& __y)
1599	{ __x.swap(__y); }
1600
1601	#if __cplusplus >= 201103L
1602	template<typename _Key, typename _Val, typename _KeyOfValue,
1603	typename _Compare, typename _Alloc>
1604	_Rb_tree<_Key, _Val, _KeyOfValue, _Compare, _Alloc>::
1605	_Rb_tree(_Rb_tree&& __x, _Node_allocator&& __a)
1606	: _M_impl(__x._M_impl._M_key_compare, std::move(__a))
1607	{
1608	using __eq = typename _Alloc_traits::is_always_equal;
1609	if (__x._M_root() != nullptr)
1610	_M_move_data(__x, __eq());
1611	}
1612
1613	template<typename _Key, typename _Val, typename _KeyOfValue,
1614	typename _Compare, typename _Alloc>
1615	void
1616	_Rb_tree<_Key, _Val, _KeyOfValue, _Compare, _Alloc>::
1617	_M_move_data(_Rb_tree& __x, std::false_type)
1618	{
1619	if (_M_get_Node_allocator() == __x._M_get_Node_allocator())
1620	_M_move_data(__x, std::true_type ());
1621	else
1622	{
1623	_Alloc_node __an(*this);
1624	auto __lbd =
1625	[&__an](const value_type& __cval)
1626	{
1627	auto& __val = const_cast<value_type&>(__cval);
1628	return __an(std::move_if_noexcept(__val));
1629	};
1630	_M_root() = _M_copy(__x, __lbd);
1631	}
1632	}
1633
1634	template<typename _Key, typename _Val, typename _KeyOfValue,
1635	typename _Compare, typename _Alloc>
1636	inline void
1637	_Rb_tree<_Key, _Val, _KeyOfValue, _Compare, _Alloc>::
1638	_M_move_assign(_Rb_tree& __x, true_type)
1639	{
1640	clear();
1641	if (__x._M_root() != nullptr)
1642	_M_move_data(__x, std::true_type ());
1643	std::__alloc_on_move(_M_get_Node_allocator(),
1644	__x._M_get_Node_allocator());
1645	}
1646
1647	template<typename _Key, typename _Val, typename _KeyOfValue,
1648	typename _Compare, typename _Alloc>
1649	void
1650	_Rb_tree<_Key, _Val, _KeyOfValue, _Compare, _Alloc>::
1651	_M_move_assign(_Rb_tree& __x, false_type)
1652	{
1653	if (_M_get_Node_allocator() == __x._M_get_Node_allocator())
1654	return _M_move_assign(__x, true_type{});
1655
1656	// Try to move each node reusing existing nodes and copying __x nodes
1657	// structure.
1658	_Reuse_or_alloc_node __roan(*this);
1659	_M_impl._M_reset();
1660	if (__x._M_root() != nullptr)
1661	{
1662	auto __lbd =
1663	[&__roan](const value_type& __cval)
1664	{
1665	auto& __val = const_cast<value_type&>(__cval);
1666	return __roan(std::move_if_noexcept(__val));
1667	};
1668	_M_root() = _M_copy(__x, __lbd);
1669	__x.clear();
1670	}
1671	}
1672
1673	template<typename _Key, typename _Val, typename _KeyOfValue,
1674	typename _Compare, typename _Alloc>
1675	inline _Rb_tree<_Key, _Val, _KeyOfValue, _Compare, _Alloc>&
1676	_Rb_tree<_Key, _Val, _KeyOfValue, _Compare, _Alloc>::
1677	operator=(_Rb_tree&& __x)
1678	noexcept(_Alloc_traits::_S_nothrow_move()
1679	&& is_nothrow_move_assignable<_Compare>::value)
1680	{
1681	_M_impl._M_key_compare = std::move(__x._M_impl._M_key_compare);
1682	_M_move_assign(__x, __bool_constant<_Alloc_traits::_S_nothrow_move()>());
1683	return *this;
1684	}
1685
1686	template<typename _Key, typename _Val, typename _KeyOfValue,
1687	typename _Compare, typename _Alloc>
1688	template<typename _Iterator>
1689	void
1690	_Rb_tree<_Key, _Val, _KeyOfValue, _Compare, _Alloc>::
1691	_M_assign_unique(_Iterator __first, _Iterator __last)
1692	{
1693	_Reuse_or_alloc_node __roan(*this);
1694	_M_impl._M_reset();
1695	for (; __first != __last; ++__first)
1696	_M_insert_unique_(end(), *__first, __roan);
1697	}
1698
1699	template<typename _Key, typename _Val, typename _KeyOfValue,
1700	typename _Compare, typename _Alloc>
1701	template<typename _Iterator>
1702	void
1703	_Rb_tree<_Key, _Val, _KeyOfValue, _Compare, _Alloc>::
1704	_M_assign_equal(_Iterator __first, _Iterator __last)
1705	{
1706	_Reuse_or_alloc_node __roan(*this);
1707	_M_impl._M_reset();
1708	for (; __first != __last; ++__first)
1709	_M_insert_equal_(end(), *__first, __roan);
1710	}
1711	#endif
1712
1713	template<typename _Key, typename _Val, typename _KeyOfValue,
1714	typename _Compare, typename _Alloc>
1715	_Rb_tree<_Key, _Val, _KeyOfValue, _Compare, _Alloc>&
1716	_Rb_tree<_Key, _Val, _KeyOfValue, _Compare, _Alloc>::
1717	operator=(const _Rb_tree& __x)
1718	{
1719	if (this != &__x)
1720	{
1721	// Note that _Key may be a constant type.
1722	#if __cplusplus >= 201103L
1723	if (_Alloc_traits::_S_propagate_on_copy_assign())
1724	{
1725	auto& __this_alloc = this->_M_get_Node_allocator();
1726	auto& __that_alloc = __x._M_get_Node_allocator();
1727	if (!_Alloc_traits::_S_always_equal()
1728	&& __this_alloc != __that_alloc)
1729	{
1730	// Replacement allocator cannot free existing storage, we need
1731	// to erase nodes first.
1732	clear();
1733	std::__alloc_on_copy(__this_alloc, __that_alloc);
1734	}
1735	}
1736	#endif
1737
1738	_Reuse_or_alloc_node __roan(*this);
1739	_M_impl._M_reset();
1740	_M_impl._M_key_compare = __x._M_impl._M_key_compare;
1741	if (__x._M_root() != `0`)
1742	_M_root() = _M_copy(__x, __roan);
1743	}
1744
1745	return *this;
1746	}
1747
1748	template<typename _Key, typename _Val, typename _KeyOfValue,
1749	typename _Compare, typename _Alloc>
1750	#if __cplusplus >= 201103L
1751	template<typename _Arg, typename _NodeGen>
1752	#else
1753	template<typename _NodeGen>
1754	#endif
1755	typename _Rb_tree<_Key, _Val, _KeyOfValue, _Compare, _Alloc>::iterator
1756	_Rb_tree<_Key, _Val, _KeyOfValue, _Compare, _Alloc>::
1757	_M_insert_(_Base_ptr __x, _Base_ptr __p,
1758	#if __cplusplus >= 201103L
1759	_Arg&& __v,
1760	#else
1761	const _Val& __v,
1762	#endif
1763	_NodeGen& __node_gen)
1764	{
1765	bool __insert_left = (__x != `0` \|\| __p == _M_end()
1766	\|\| _M_impl._M_key_compare(_KeyOfValue()(__v),
1767	_S_key(__p)));
1768
1769	_Link_type __z = __node_gen(_GLIBCXX_FORWARD(_Arg, __v));
1770
1771	_Rb_tree_insert_and_rebalance(__insert_left, __z, __p,
1772	this->_M_impl._M_header);
1773	++_M_impl._M_node_count;
1774	return iterator(__z);
1775	}
1776
1777	template<typename _Key, typename _Val, typename _KeyOfValue,
1778	typename _Compare, typename _Alloc>
1779	#if __cplusplus >= 201103L
1780	template<typename _Arg>
1781	#endif
1782	typename _Rb_tree<_Key, _Val, _KeyOfValue, _Compare, _Alloc>::iterator
1783	_Rb_tree<_Key, _Val, _KeyOfValue, _Compare, _Alloc>::
1784	#if __cplusplus >= 201103L
1785	_M_insert_lower(_Base_ptr __p, _Arg&& __v)
1786	#else
1787	_M_insert_lower(_Base_ptr __p, const _Val& __v)
1788	#endif
1789	{
1790	bool __insert_left = (__p == _M_end()
1791	\|\| !_M_impl._M_key_compare(_S_key(__p),
1792	_KeyOfValue()(__v)));
1793
1794	_Link_type __z = _M_create_node(_GLIBCXX_FORWARD(_Arg, __v));
1795
1796	_Rb_tree_insert_and_rebalance(__insert_left, __z, __p,
1797	this->_M_impl._M_header);
1798	++_M_impl._M_node_count;
1799	return iterator(__z);
1800	}
1801
1802	template<typename _Key, typename _Val, typename _KeyOfValue,
1803	typename _Compare, typename _Alloc>
1804	#if __cplusplus >= 201103L
1805	template<typename _Arg>
1806	#endif
1807	typename _Rb_tree<_Key, _Val, _KeyOfValue, _Compare, _Alloc>::iterator
1808	_Rb_tree<_Key, _Val, _KeyOfValue, _Compare, _Alloc>::
1809	#if __cplusplus >= 201103L
1810	_M_insert_equal_lower(_Arg&& __v)
1811	#else
1812	_M_insert_equal_lower(const _Val& __v)
1813	#endif
1814	{
1815	_Link_type __x = _M_begin();
1816	_Base_ptr __y = _M_end();
1817	while (__x != `0`)
1818	{
1819	__y = __x;
1820	__x = !_M_impl._M_key_compare(_S_key(__x), _KeyOfValue()(__v)) ?
1821	_S_left(__x) : _S_right(__x);
1822	}
1823	return _M_insert_lower(__y, _GLIBCXX_FORWARD(_Arg, __v));
1824	}
1825
1826	template<typename _Key, typename _Val, typename _KoV,
1827	typename _Compare, typename _Alloc>
1828	template<typename _NodeGen>
1829	typename _Rb_tree<_Key, _Val, _KoV, _Compare, _Alloc>::_Link_type
1830	_Rb_tree<_Key, _Val, _KoV, _Compare, _Alloc>::
1831	_M_copy(_Const_Link_type __x, _Base_ptr __p, _NodeGen& __node_gen)
1832	{
1833	// Structural copy. __x and __p must be non-null.
1834	_Link_type __top = _M_clone_node(__x, __node_gen);
1835	__top->_M_parent = __p;
1836
1837	__try
1838	{
1839	if (__x->_M_right)
1840	__top->_M_right = _M_copy(_S_right(__x), __top, __node_gen);
1841	__p = __top;
1842	__x = _S_left(__x);
1843
1844	while (__x != `0`)
1845	{
1846	_Link_type __y = _M_clone_node(__x, __node_gen);
1847	__p->_M_left = __y;
1848	__y->_M_parent = __p;
1849	if (__x->_M_right)
1850	__y->_M_right = _M_copy(_S_right(__x), __y, __node_gen);
1851	__p = __y;
1852	__x = _S_left(__x);
1853	}
1854	}
1855	__catch(...)
1856	{
1857	_M_erase(__top);
1858	__throw_exception_again;
1859	}
1860	return __top;
1861	}
1862
1863	template<typename _Key, typename _Val, typename _KeyOfValue,
1864	typename _Compare, typename _Alloc>
1865	void
1866	_Rb_tree<_Key, _Val, _KeyOfValue, _Compare, _Alloc>::
1867	_M_erase(_Link_type __x)
1868	{
1869	// Erase without rebalancing.
1870	while (__x != `0`)
1871	{
1872	_M_erase(_S_right(__x));
1873	_Link_type __y = _S_left(__x);
1874	_M_drop_node(__x);
1875	__x = __y;
1876	}
1877	}
1878
1879	template<typename _Key, typename _Val, typename _KeyOfValue,
1880	typename _Compare, typename _Alloc>
1881	typename _Rb_tree<_Key, _Val, _KeyOfValue,
1882	_Compare, _Alloc>::iterator
1883	_Rb_tree<_Key, _Val, _KeyOfValue, _Compare, _Alloc>::
1884	_M_lower_bound(_Link_type __x, _Base_ptr __y,
1885	const _Key& __k)
1886	{
1887	while (__x != `0`)
1888	if (!_M_impl._M_key_compare(_S_key(__x), __k))
1889	__y = __x, __x = _S_left(__x);
1890	else
1891	__x = _S_right(__x);
1892	return iterator(__y);
1893	}
1894
1895	template<typename _Key, typename _Val, typename _KeyOfValue,
1896	typename _Compare, typename _Alloc>
1897	typename _Rb_tree<_Key, _Val, _KeyOfValue,
1898	_Compare, _Alloc>::const_iterator
1899	_Rb_tree<_Key, _Val, _KeyOfValue, _Compare, _Alloc>::
1900	_M_lower_bound(_Const_Link_type __x, _Const_Base_ptr __y,
1901	const _Key& __k) const
1902	{
1903	while (__x != `0`)
1904	if (!_M_impl._M_key_compare(_S_key(__x), __k))
1905	__y = __x, __x = _S_left(__x);
1906	else
1907	__x = _S_right(__x);
1908	return const_iterator(__y);
1909	}
1910
1911	template<typename _Key, typename _Val, typename _KeyOfValue,
1912	typename _Compare, typename _Alloc>
1913	typename _Rb_tree<_Key, _Val, _KeyOfValue,
1914	_Compare, _Alloc>::iterator
1915	_Rb_tree<_Key, _Val, _KeyOfValue, _Compare, _Alloc>::
1916	_M_upper_bound(_Link_type __x, _Base_ptr __y,
1917	const _Key& __k)
1918	{
1919	while (__x != `0`)
1920	if (_M_impl._M_key_compare(__k, _S_key(__x)))
1921	__y = __x, __x = _S_left(__x);
1922	else
1923	__x = _S_right(__x);
1924	return iterator(__y);
1925	}
1926
1927	template<typename _Key, typename _Val, typename _KeyOfValue,
1928	typename _Compare, typename _Alloc>
1929	typename _Rb_tree<_Key, _Val, _KeyOfValue,
1930	_Compare, _Alloc>::const_iterator
1931	_Rb_tree<_Key, _Val, _KeyOfValue, _Compare, _Alloc>::
1932	_M_upper_bound(_Const_Link_type __x, _Const_Base_ptr __y,
1933	const _Key& __k) const
1934	{
1935	while (__x != `0`)
1936	if (_M_impl._M_key_compare(__k, _S_key(__x)))
1937	__y = __x, __x = _S_left(__x);
1938	else
1939	__x = _S_right(__x);
1940	return const_iterator(__y);
1941	}
1942
1943	template<typename _Key, typename _Val, typename _KeyOfValue,
1944	typename _Compare, typename _Alloc>
1945	pair<typename _Rb_tree<_Key, _Val, _KeyOfValue,
1946	_Compare, _Alloc>::iterator,
1947	typename _Rb_tree<_Key, _Val, _KeyOfValue,
1948	_Compare, _Alloc>::iterator>
1949	_Rb_tree<_Key, _Val, _KeyOfValue, _Compare, _Alloc>::
1950	equal_range(const _Key& __k)
1951	{
1952	_Link_type __x = _M_begin();
1953	_Base_ptr __y = _M_end();
1954	while (__x != `0`)
1955	{
1956	if (_M_impl._M_key_compare(_S_key(__x), __k))
1957	__x = _S_right(__x);
1958	else if (_M_impl._M_key_compare(__k, _S_key(__x)))
1959	__y = __x, __x = _S_left(__x);
1960	else
1961	{
1962	_Link_type __xu(__x);
1963	_Base_ptr __yu(__y);
1964	__y = __x, __x = _S_left(__x);
1965	__xu = _S_right(__xu);
1966	return pair<iterator,
1967	iterator>(_M_lower_bound(__x, __y, __k),
1968	_M_upper_bound(__xu, __yu, __k));
1969	}
1970	}
1971	return pair<iterator, iterator>(iterator(__y),
1972	iterator(__y));
1973	}
1974
1975	template<typename _Key, typename _Val, typename _KeyOfValue,
1976	typename _Compare, typename _Alloc>
1977	pair<typename _Rb_tree<_Key, _Val, _KeyOfValue,
1978	_Compare, _Alloc>::const_iterator,
1979	typename _Rb_tree<_Key, _Val, _KeyOfValue,
1980	_Compare, _Alloc>::const_iterator>
1981	_Rb_tree<_Key, _Val, _KeyOfValue, _Compare, _Alloc>::
1982	equal_range(const _Key& __k) const
1983	{
1984	_Const_Link_type __x = _M_begin();
1985	_Const_Base_ptr __y = _M_end();
1986	while (__x != `0`)
1987	{
1988	if (_M_impl._M_key_compare(_S_key(__x), __k))
1989	__x = _S_right(__x);
1990	else if (_M_impl._M_key_compare(__k, _S_key(__x)))
1991	__y = __x, __x = _S_left(__x);
1992	else
1993	{
1994	_Const_Link_type __xu(__x);
1995	_Const_Base_ptr __yu(__y);
1996	__y = __x, __x = _S_left(__x);
1997	__xu = _S_right(__xu);
1998	return pair<const_iterator,
1999	const_iterator>(_M_lower_bound(__x, __y, __k),
2000	_M_upper_bound(__xu, __yu, __k));
2001	}
2002	}
2003	return pair<const_iterator, const_iterator>(const_iterator(__y),
2004	const_iterator(__y));
2005	}
2006
2007	template<typename _Key, typename _Val, typename _KeyOfValue,
2008	typename _Compare, typename _Alloc>
2009	void
2010	_Rb_tree<_Key, _Val, _KeyOfValue, _Compare, _Alloc>::
2011	swap(_Rb_tree& __t)
2012	_GLIBCXX_NOEXCEPT_IF(__is_nothrow_swappable<_Compare>::value)
2013	{
2014	if (_M_root() == `0`)
2015	{
2016	if (__t._M_root() != `0`)
2017	_M_impl._M_move_data(__t._M_impl);
2018	}
2019	else if (__t._M_root() == `0`)
2020	__t._M_impl._M_move_data(_M_impl);
2021	else
2022	{
2023	std::swap(_M_root(),__t._M_root());
2024	std::swap(_M_leftmost(),__t._M_leftmost());
2025	std::swap(_M_rightmost(),__t._M_rightmost());
2026
2027	_M_root()->_M_parent = _M_end();
2028	__t._M_root()->_M_parent = __t._M_end();
2029	std::swap(this->_M_impl._M_node_count, __t._M_impl._M_node_count);
2030	}
2031	// No need to swap header's color as it does not change.
2032	std::swap(this->_M_impl._M_key_compare, __t._M_impl._M_key_compare);
2033
2034	_Alloc_traits::_S_on_swap(_M_get_Node_allocator(),
2035	__t._M_get_Node_allocator());
2036	}
2037
2038	template<typename _Key, typename _Val, typename _KeyOfValue,
2039	typename _Compare, typename _Alloc>
2040	pair<typename _Rb_tree<_Key, _Val, _KeyOfValue,
2041	_Compare, _Alloc>::_Base_ptr,
2042	typename _Rb_tree<_Key, _Val, _KeyOfValue,
2043	_Compare, _Alloc>::_Base_ptr>
2044	_Rb_tree<_Key, _Val, _KeyOfValue, _Compare, _Alloc>::
2045	_M_get_insert_unique_pos(const key_type& __k)
2046	{
2047	typedef pair<_Base_ptr, _Base_ptr> _Res;
2048	_Link_type __x = _M_begin();
2049	_Base_ptr __y = _M_end();
2050	bool __comp = true;
2051	while (__x != `0`)
2052	{
2053	__y = __x;
2054	__comp = _M_impl._M_key_compare(__k, _S_key(__x));
2055	__x = __comp ? _S_left(__x) : _S_right(__x);
2056	}
2057	iterator __j = iterator(__y);
2058	if (__comp)
2059	{
2060	if (__j == begin())
2061	return _Res(__x, __y);
2062	else
2063	--__j;
2064	}
2065	if (_M_impl._M_key_compare(_S_key(__j._M_node), __k))
2066	return _Res(__x, __y);
2067	return _Res(__j._M_node, `0`);
2068	}
2069
2070	template<typename _Key, typename _Val, typename _KeyOfValue,
2071	typename _Compare, typename _Alloc>
2072	pair<typename _Rb_tree<_Key, _Val, _KeyOfValue,
2073	_Compare, _Alloc>::_Base_ptr,
2074	typename _Rb_tree<_Key, _Val, _KeyOfValue,
2075	_Compare, _Alloc>::_Base_ptr>
2076	_Rb_tree<_Key, _Val, _KeyOfValue, _Compare, _Alloc>::
2077	_M_get_insert_equal_pos(const key_type& __k)
2078	{
2079	typedef pair<_Base_ptr, _Base_ptr> _Res;
2080	_Link_type __x = _M_begin();
2081	_Base_ptr __y = _M_end();
2082	while (__x != `0`)
2083	{
2084	__y = __x;
2085	__x = _M_impl._M_key_compare(__k, _S_key(__x)) ?
2086	_S_left(__x) : _S_right(__x);
2087	}
2088	return _Res(__x, __y);
2089	}
2090
2091	template<typename _Key, typename _Val, typename _KeyOfValue,
2092	typename _Compare, typename _Alloc>
2093	#if __cplusplus >= 201103L
2094	template<typename _Arg>
2095	#endif
2096	pair<typename _Rb_tree<_Key, _Val, _KeyOfValue,
2097	_Compare, _Alloc>::iterator, bool>
2098	_Rb_tree<_Key, _Val, _KeyOfValue, _Compare, _Alloc>::
2099	#if __cplusplus >= 201103L
2100	_M_insert_unique(_Arg&& __v)
2101	#else
2102	_M_insert_unique(const _Val& __v)
2103	#endif
2104	{
2105	typedef pair<iterator, bool> _Res;
2106	pair<_Base_ptr, _Base_ptr> __res
2107	= _M_get_insert_unique_pos(_KeyOfValue()(__v));
2108
2109	if (__res.second)
2110	{
2111	_Alloc_node __an(*this);
2112	return _Res(_M_insert_(__res.first, __res.second,
2113	_GLIBCXX_FORWARD(_Arg, __v), __an),
2114	true);
2115	}
2116
2117	return _Res(iterator(__res.first), false);
2118	}
2119
2120	template<typename _Key, typename _Val, typename _KeyOfValue,
2121	typename _Compare, typename _Alloc>
2122	#if __cplusplus >= 201103L
2123	template<typename _Arg>
2124	#endif
2125	typename _Rb_tree<_Key, _Val, _KeyOfValue, _Compare, _Alloc>::iterator
2126	_Rb_tree<_Key, _Val, _KeyOfValue, _Compare, _Alloc>::
2127	#if __cplusplus >= 201103L
2128	_M_insert_equal(_Arg&& __v)
2129	#else
2130	_M_insert_equal(const _Val& __v)
2131	#endif
2132	{
2133	pair<_Base_ptr, _Base_ptr> __res
2134	= _M_get_insert_equal_pos(_KeyOfValue()(__v));
2135	_Alloc_node __an(*this);
2136	return _M_insert_(__res.first, __res.second,
2137	_GLIBCXX_FORWARD(_Arg, __v), __an);
2138	}
2139
2140	template<typename _Key, typename _Val, typename _KeyOfValue,
2141	typename _Compare, typename _Alloc>
2142	pair<typename _Rb_tree<_Key, _Val, _KeyOfValue,
2143	_Compare, _Alloc>::_Base_ptr,
2144	typename _Rb_tree<_Key, _Val, _KeyOfValue,
2145	_Compare, _Alloc>::_Base_ptr>
2146	_Rb_tree<_Key, _Val, _KeyOfValue, _Compare, _Alloc>::
2147	_M_get_insert_hint_unique_pos(const_iterator __position,
2148	const key_type& __k)
2149	{
2150	iterator __pos = __position._M_const_cast();
2151	typedef pair<_Base_ptr, _Base_ptr> _Res;
2152
2153	// end()
2154	if (__pos._M_node == _M_end())
2155	{
2156	if (size() > `0`
2157	&& _M_impl._M_key_compare(_S_key(_M_rightmost()), __k))
2158	return _Res(`0`, _M_rightmost());
2159	else
2160	return _M_get_insert_unique_pos(__k);
2161	}
2162	else if (_M_impl._M_key_compare(__k, _S_key(__pos._M_node)))
2163	{
2164	// First, try before...
2165	iterator __before = __pos;
2166	if (__pos._M_node == _M_leftmost()) // begin()
2167	return _Res(_M_leftmost(), _M_leftmost());
2168	else if (_M_impl._M_key_compare(_S_key((--__before)._M_node), __k))
2169	{
2170	if (_S_right(__before._M_node) == `0`)
2171	return _Res(`0`, __before._M_node);
2172	else
2173	return _Res(__pos._M_node, __pos._M_node);
2174	}
2175	else
2176	return _M_get_insert_unique_pos(__k);
2177	}
2178	else if (_M_impl._M_key_compare(_S_key(__pos._M_node), __k))
2179	{
2180	// ... then try after.
2181	iterator __after = __pos;
2182	if (__pos._M_node == _M_rightmost())
2183	return _Res(`0`, _M_rightmost());
2184	else if (_M_impl._M_key_compare(__k, _S_key((++__after)._M_node)))
2185	{
2186	if (_S_right(__pos._M_node) == `0`)
2187	return _Res(`0`, __pos._M_node);
2188	else
2189	return _Res(__after._M_node, __after._M_node);
2190	}
2191	else
2192	return _M_get_insert_unique_pos(__k);
2193	}
2194	else
2195	// Equivalent keys.
2196	return _Res(__pos._M_node, `0`);
2197	}
2198
2199	template<typename _Key, typename _Val, typename _KeyOfValue,
2200	typename _Compare, typename _Alloc>
2201	#if __cplusplus >= 201103L
2202	template<typename _Arg, typename _NodeGen>
2203	#else
2204	template<typename _NodeGen>
2205	#endif
2206	typename _Rb_tree<_Key, _Val, _KeyOfValue, _Compare, _Alloc>::iterator
2207	_Rb_tree<_Key, _Val, _KeyOfValue, _Compare, _Alloc>::
2208	_M_insert_unique_(const_iterator __position,
2209	#if __cplusplus >= 201103L
2210	_Arg&& __v,
2211	#else
2212	const _Val& __v,
2213	#endif
2214	_NodeGen& __node_gen)
2215	{
2216	pair<_Base_ptr, _Base_ptr> __res
2217	= _M_get_insert_hint_unique_pos(__position, _KeyOfValue()(__v));
2218
2219	if (__res.second)
2220	return _M_insert_(__res.first, __res.second,
2221	_GLIBCXX_FORWARD(_Arg, __v),
2222	__node_gen);
2223	return iterator(__res.first);
2224	}
2225
2226	template<typename _Key, typename _Val, typename _KeyOfValue,
2227	typename _Compare, typename _Alloc>
2228	pair<typename _Rb_tree<_Key, _Val, _KeyOfValue,
2229	_Compare, _Alloc>::_Base_ptr,
2230	typename _Rb_tree<_Key, _Val, _KeyOfValue,
2231	_Compare, _Alloc>::_Base_ptr>
2232	_Rb_tree<_Key, _Val, _KeyOfValue, _Compare, _Alloc>::
2233	_M_get_insert_hint_equal_pos(const_iterator __position, const key_type& __k)
2234	{
2235	iterator __pos = __position._M_const_cast();
2236	typedef pair<_Base_ptr, _Base_ptr> _Res;
2237
2238	// end()
2239	if (__pos._M_node == _M_end())
2240	{
2241	if (size() > `0`
2242	&& !_M_impl._M_key_compare(__k, _S_key(_M_rightmost())))
2243	return _Res(`0`, _M_rightmost());
2244	else
2245	return _M_get_insert_equal_pos(__k);
2246	}
2247	else if (!_M_impl._M_key_compare(_S_key(__pos._M_node), __k))
2248	{
2249	// First, try before...
2250	iterator __before = __pos;
2251	if (__pos._M_node == _M_leftmost()) // begin()
2252	return _Res(_M_leftmost(), _M_leftmost());
2253	else if (!_M_impl._M_key_compare(__k, _S_key((--__before)._M_node)))
2254	{
2255	if (_S_right(__before._M_node) == `0`)
2256	return _Res(`0`, __before._M_node);
2257	else
2258	return _Res(__pos._M_node, __pos._M_node);
2259	}
2260	else
2261	return _M_get_insert_equal_pos(__k);
2262	}
2263	else
2264	{
2265	// ... then try after.
2266	iterator __after = __pos;
2267	if (__pos._M_node == _M_rightmost())
2268	return _Res(`0`, _M_rightmost());
2269	else if (!_M_impl._M_key_compare(_S_key((++__after)._M_node), __k))
2270	{
2271	if (_S_right(__pos._M_node) == `0`)
2272	return _Res(`0`, __pos._M_node);
2273	else
2274	return _Res(__after._M_node, __after._M_node);
2275	}
2276	else
2277	return _Res (`0`, `0`);
2278	}
2279	}
2280
2281	template<typename _Key, typename _Val, typename _KeyOfValue,
2282	typename _Compare, typename _Alloc>
2283	#if __cplusplus >= 201103L
2284	template<typename _Arg, typename _NodeGen>
2285	#else
2286	template<typename _NodeGen>
2287	#endif
2288	typename _Rb_tree<_Key, _Val, _KeyOfValue, _Compare, _Alloc>::iterator
2289	_Rb_tree<_Key, _Val, _KeyOfValue, _Compare, _Alloc>::
2290	_M_insert_equal_(const_iterator __position,
2291	#if __cplusplus >= 201103L
2292	_Arg&& __v,
2293	#else
2294	const _Val& __v,
2295	#endif
2296	_NodeGen& __node_gen)
2297	{
2298	pair<_Base_ptr, _Base_ptr> __res
2299	= _M_get_insert_hint_equal_pos(__position, _KeyOfValue()(__v));
2300
2301	if (__res.second)
2302	return _M_insert_(__res.first, __res.second,
2303	_GLIBCXX_FORWARD(_Arg, __v),
2304	__node_gen);
2305
2306	return _M_insert_equal_lower(_GLIBCXX_FORWARD(_Arg, __v));
2307	}
2308
2309	#if __cplusplus >= 201103L
2310	template<typename _Key, typename _Val, typename _KeyOfValue,
2311	typename _Compare, typename _Alloc>
2312	typename _Rb_tree<_Key, _Val, _KeyOfValue, _Compare, _Alloc>::iterator
2313	_Rb_tree<_Key, _Val, _KeyOfValue, _Compare, _Alloc>::
2314	_M_insert_node(_Base_ptr __x, _Base_ptr __p, _Link_type __z)
2315	{
2316	bool __insert_left = (__x != `0` \|\| __p == _M_end()
2317	\|\| _M_impl._M_key_compare(_S_key(__z),
2318	_S_key(__p)));
2319
2320	_Rb_tree_insert_and_rebalance(__insert_left, __z, __p,
2321	this->_M_impl._M_header);
2322	++_M_impl._M_node_count;
2323	return iterator(__z);
2324	}
2325
2326	template<typename _Key, typename _Val, typename _KeyOfValue,
2327	typename _Compare, typename _Alloc>
2328	typename _Rb_tree<_Key, _Val, _KeyOfValue, _Compare, _Alloc>::iterator
2329	_Rb_tree<_Key, _Val, _KeyOfValue, _Compare, _Alloc>::
2330	_M_insert_lower_node(_Base_ptr __p, _Link_type __z)
2331	{
2332	bool __insert_left = (__p == _M_end()
2333	\|\| !_M_impl._M_key_compare(_S_key(__p),
2334	_S_key(__z)));
2335
2336	_Rb_tree_insert_and_rebalance(__insert_left, __z, __p,
2337	this->_M_impl._M_header);
2338	++_M_impl._M_node_count;
2339	return iterator(__z);
2340	}
2341
2342	template<typename _Key, typename _Val, typename _KeyOfValue,
2343	typename _Compare, typename _Alloc>
2344	typename _Rb_tree<_Key, _Val, _KeyOfValue, _Compare, _Alloc>::iterator
2345	_Rb_tree<_Key, _Val, _KeyOfValue, _Compare, _Alloc>::
2346	_M_insert_equal_lower_node(_Link_type __z)
2347	{
2348	_Link_type __x = _M_begin();
2349	_Base_ptr __y = _M_end();
2350	while (__x != `0`)
2351	{
2352	__y = __x;
2353	__x = !_M_impl._M_key_compare(_S_key(__x), _S_key(__z)) ?
2354	_S_left(__x) : _S_right(__x);
2355	}
2356	return _M_insert_lower_node(__y, __z);
2357	}
2358
2359	template<typename _Key, typename _Val, typename _KeyOfValue,
2360	typename _Compare, typename _Alloc>
2361	template<typename... _Args>
2362	pair<typename _Rb_tree<_Key, _Val, _KeyOfValue,
2363	_Compare, _Alloc>::iterator, bool>
2364	_Rb_tree<_Key, _Val, _KeyOfValue, _Compare, _Alloc>::
2365	_M_emplace_unique(_Args&&... __args)
2366	{
2367	_Link_type __z = _M_create_node(std::forward<_Args>(__args)...);
2368
2369	__try
2370	{
2371	typedef pair<iterator, bool> _Res;
2372	auto __res = _M_get_insert_unique_pos(_S_key(__z));
2373	if (__res.second)
2374	return _Res(_M_insert_node(__res.first, __res.second, __z), true);
2375
2376	_M_drop_node(__z);
2377	return _Res(iterator(__res.first), false);
2378	}
2379	__catch(...)
2380	{
2381	_M_drop_node(__z);
2382	__throw_exception_again;
2383	}
2384	}
2385
2386	template<typename _Key, typename _Val, typename _KeyOfValue,
2387	typename _Compare, typename _Alloc>
2388	template<typename... _Args>
2389	typename _Rb_tree<_Key, _Val, _KeyOfValue, _Compare, _Alloc>::iterator
2390	_Rb_tree<_Key, _Val, _KeyOfValue, _Compare, _Alloc>::
2391	_M_emplace_equal(_Args&&... __args)
2392	{
2393	_Link_type __z = _M_create_node(std::forward<_Args>(__args)...);
2394
2395	__try
2396	{
2397	auto __res = _M_get_insert_equal_pos(_S_key(__z));
2398	return _M_insert_node(__res.first, __res.second, __z);
2399	}
2400	__catch(...)
2401	{
2402	_M_drop_node(__z);
2403	__throw_exception_again;
2404	}
2405	}
2406
2407	template<typename _Key, typename _Val, typename _KeyOfValue,
2408	typename _Compare, typename _Alloc>
2409	template<typename... _Args>
2410	typename _Rb_tree<_Key, _Val, _KeyOfValue, _Compare, _Alloc>::iterator
2411	_Rb_tree<_Key, _Val, _KeyOfValue, _Compare, _Alloc>::
2412	_M_emplace_hint_unique(const_iterator __pos, _Args&&... __args)
2413	{
2414	_Link_type __z = _M_create_node(std::forward<_Args>(__args)...);
2415
2416	__try
2417	{
2418	auto __res = _M_get_insert_hint_unique_pos(__pos, _S_key(__z));
2419
2420	if (__res.second)
2421	return _M_insert_node(__res.first, __res.second, __z);
2422
2423	_M_drop_node(__z);
2424	return iterator(__res.first);
2425	}
2426	__catch(...)
2427	{
2428	_M_drop_node(__z);
2429	__throw_exception_again;
2430	}
2431	}
2432
2433	template<typename _Key, typename _Val, typename _KeyOfValue,
2434	typename _Compare, typename _Alloc>
2435	template<typename... _Args>
2436	typename _Rb_tree<_Key, _Val, _KeyOfValue, _Compare, _Alloc>::iterator
2437	_Rb_tree<_Key, _Val, _KeyOfValue, _Compare, _Alloc>::
2438	_M_emplace_hint_equal(const_iterator __pos, _Args&&... __args)
2439	{
2440	_Link_type __z = _M_create_node(std::forward<_Args>(__args)...);
2441
2442	__try
2443	{
2444	auto __res = _M_get_insert_hint_equal_pos(__pos, _S_key(__z));
2445
2446	if (__res.second)
2447	return _M_insert_node(__res.first, __res.second, __z);
2448
2449	return _M_insert_equal_lower_node(__z);
2450	}
2451	__catch(...)
2452	{
2453	_M_drop_node(__z);
2454	__throw_exception_again;
2455	}
2456	}
2457	#endif
2458
2459	template<typename _Key, typename _Val, typename _KoV,
2460	typename _Cmp, typename _Alloc>
2461	template<class _II>
2462	void
2463	_Rb_tree<_Key, _Val, _KoV, _Cmp, _Alloc>::
2464	_M_insert_unique(_II __first, _II __last)
2465	{
2466	_Alloc_node __an(*this);
2467	for (; __first != __last; ++__first)
2468	_M_insert_unique_(end(), *__first, __an);
2469	}
2470
2471	template<typename _Key, typename _Val, typename _KoV,
2472	typename _Cmp, typename _Alloc>
2473	template<class _II>
2474	void
2475	_Rb_tree<_Key, _Val, _KoV, _Cmp, _Alloc>::
2476	_M_insert_equal(_II __first, _II __last)
2477	{
2478	_Alloc_node __an(*this);
2479	for (; __first != __last; ++__first)
2480	_M_insert_equal_(end(), *__first, __an);
2481	}
2482
2483	template<typename _Key, typename _Val, typename _KeyOfValue,
2484	typename _Compare, typename _Alloc>
2485	void
2486	_Rb_tree<_Key, _Val, _KeyOfValue, _Compare, _Alloc>::
2487	_M_erase_aux(const_iterator __position)
2488	{
2489	_Link_type __y =
2490	static_cast<_Link_type>(_Rb_tree_rebalance_for_erase
2491	(const_cast<_Base_ptr>(__position._M_node),
2492	this->_M_impl._M_header));
2493	_M_drop_node(__y);
2494	--_M_impl._M_node_count;
2495	}
2496
2497	template<typename _Key, typename _Val, typename _KeyOfValue,
2498	typename _Compare, typename _Alloc>
2499	void
2500	_Rb_tree<_Key, _Val, _KeyOfValue, _Compare, _Alloc>::
2501	_M_erase_aux(const_iterator __first, const_iterator __last)
2502	{
2503	if (__first == begin() && __last == end())
2504	clear();
2505	else
2506	while (__first != __last)
2507	_M_erase_aux(__first++);
2508	}
2509
2510	template<typename _Key, typename _Val, typename _KeyOfValue,
2511	typename _Compare, typename _Alloc>
2512	typename _Rb_tree<_Key, _Val, _KeyOfValue, _Compare, _Alloc>::size_type
2513	_Rb_tree<_Key, _Val, _KeyOfValue, _Compare, _Alloc>::
2514	erase(const _Key& __x)
2515	{
2516	pair<iterator, iterator> __p = equal_range(__x);
2517	const size_type __old_size = size();
2518	_M_erase_aux(__p.first, __p.second);
2519	return __old_size - size();
2520	}
2521
2522	template<typename _Key, typename _Val, typename _KeyOfValue,
2523	typename _Compare, typename _Alloc>
2524	void
2525	_Rb_tree<_Key, _Val, _KeyOfValue, _Compare, _Alloc>::
2526	erase(const _Key* __first, const _Key* __last)
2527	{
2528	while (__first != __last)
2529	erase(*__first++);
2530	}
2531
2532	template<typename _Key, typename _Val, typename _KeyOfValue,
2533	typename _Compare, typename _Alloc>
2534	typename _Rb_tree<_Key, _Val, _KeyOfValue,
2535	_Compare, _Alloc>::iterator
2536	_Rb_tree<_Key, _Val, _KeyOfValue, _Compare, _Alloc>::
2537	find(const _Key& __k)
2538	{
2539	iterator __j = _M_lower_bound(_M_begin(), _M_end(), __k);
2540	return (__j == end()
2541	\|\| _M_impl._M_key_compare(__k,
2542	_S_key(__j._M_node))) ? end() : __j;
2543	}
2544
2545	template<typename _Key, typename _Val, typename _KeyOfValue,
2546	typename _Compare, typename _Alloc>
2547	typename _Rb_tree<_Key, _Val, _KeyOfValue,
2548	_Compare, _Alloc>::const_iterator
2549	_Rb_tree<_Key, _Val, _KeyOfValue, _Compare, _Alloc>::
2550	find(const _Key& __k) const
2551	{
2552	const_iterator __j = _M_lower_bound(_M_begin(), _M_end(), __k);
2553	return (__j == end()
2554	\|\| _M_impl._M_key_compare(__k,
2555	_S_key(__j._M_node))) ? end() : __j;
2556	}
2557
2558	template<typename _Key, typename _Val, typename _KeyOfValue,
2559	typename _Compare, typename _Alloc>
2560	typename _Rb_tree<_Key, _Val, _KeyOfValue, _Compare, _Alloc>::size_type
2561	_Rb_tree<_Key, _Val, _KeyOfValue, _Compare, _Alloc>::
2562	count(const _Key& __k) const
2563	{
2564	pair<const_iterator, const_iterator> __p = equal_range(__k);
2565	const size_type __n = std::distance(__p.first, __p.second);
2566	return __n;
2567	}
2568
2569	_GLIBCXX_PURE unsigned int
2570	_Rb_tree_black_count(const _Rb_tree_node_base* __node,
2571	const _Rb_tree_node_base* __root) throw ();
2572
2573	template<typename _Key, typename _Val, typename _KeyOfValue,
2574	typename _Compare, typename _Alloc>
2575	bool
2576	_Rb_tree<_Key,_Val,_KeyOfValue,_Compare,_Alloc>::__rb_verify() const
2577	{
2578	if (_M_impl._M_node_count == `0` \|\| begin() == end())
2579	return _M_impl._M_node_count == `0` && begin() == end()
2580	&& this->_M_impl._M_header._M_left == _M_end()
2581	&& this->_M_impl._M_header._M_right == _M_end();
2582
2583	unsigned int __len = _Rb_tree_black_count(_M_leftmost(), _M_root());
2584	for (const_iterator __it = begin(); __it != end(); ++__it)
2585	{
2586	_Const_Link_type __x = static_cast<_Const_Link_type>(__it._M_node);
2587	_Const_Link_type __L = _S_left(__x);
2588	_Const_Link_type __R = _S_right(__x);
2589
2590	if (__x->_M_color == _S_red)
2591	if ((__L && __L->_M_color == _S_red)
2592	\|\| (__R && __R->_M_color == _S_red))
2593	return false;
2594
2595	if (__L && _M_impl._M_key_compare(_S_key(__x), _S_key(__L)))
2596	return false;
2597	if (__R && _M_impl._M_key_compare(_S_key(__R), _S_key(__x)))
2598	return false;
2599
2600	if (!__L && !__R && _Rb_tree_black_count(__x, _M_root()) != __len)
2601	return false;
2602	}
2603
2604	if (_M_leftmost() != _Rb_tree_node_base::_S_minimum(_M_root()))
2605	return false;
2606	if (_M_rightmost() != _Rb_tree_node_base::_S_maximum(_M_root()))
2607	return false;
2608	return true;
2609	}
2610
2611	#if __cplusplus > 201402L
2612	// Allow access to internals of compatible _Rb_tree specializations.
2613	template<typename _Key, typename _Val, typename _Sel, typename _Cmp1,
2614	typename _Alloc, typename _Cmp2>
2615	struct _Rb_tree_merge_helper<_Rb_tree<_Key, _Val, _Sel, _Cmp1, _Alloc>,
2616	_Cmp2>
2617	{
2618	private:
2619	friend class _Rb_tree<_Key, _Val, _Sel, _Cmp1, _Alloc>;
2620
2621	static auto&
2622	_S_get_impl(_Rb_tree<_Key, _Val, _Sel, _Cmp2, _Alloc>& __tree)
2623	{ return __tree._M_impl; }
2624	};
2625	#endif // C++17
2626
2627	_GLIBCXX_END_NAMESPACE_VERSION
2628	} // namespace
2629
2630	#endif
2631

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