dc4871cba2
2006-11-25 Paolo Carlini <pcarlini@suse.de> PR libstdc++/29385 (partial) * include/bits/stl_tree.h (_Rb_tree<>::destroy_node): Uglify. (_M_erase, erase(iterator), erase(const_iterator)): Adjust 2006-11-25 Paolo Carlini <pcarlini@suse.de> PR libstdc++/29385 (partial) * include/bits/stl_tree.h (_Rb_tree<>::_M_lower_bound(_Const_Link_type, _Const_Link_type, const _Key&), _M_upper_bound(_Const_Link_type, _Const_Link_type, const _Key&)): Add. (lower_bound(const key_type&), upper_bound(const key_type&), find(const key_type&)): Call the latter. 2006-11-25 Gawain Bolton <gp.bolton@computer.org> PR libstdc++/29385 (partial) * include/bits/stl_tree.h (_Rb_tree_rotate_left, _Rb_tree_rotate_right): Do not declare. (_Rb_tree<>::_M_insert(_Base_ptr, _Base_ptr, const value_type&), _M_insert(_Const_Base_ptr, _Const_Base_ptr, const value_type&), _M_insert_unique(iterator, const value_type&), _M_insert_unique(const_iterator, const value_type&), _M_insert_equal(iterator, const value_type&), _M_insert_equal(const_iterator, const value_type&)): Remove. (_Rb_tree<>::_M_insert_(_Const_Base_ptr, _Const_Base_ptr, const value_type&), _M_insert_unique_(const_iterator, const value_type&), _M_insert_equal_(const_iterator, const value_type&)): Add, adjust all callers. * include/bits/stl_map.h (map<>::insert(iterator, const value_type&)): Adjust. * include/bits/stl_set.h (set<>::insert(iterator, const value_type&)): Likewise. * include/bits/stl_multimap.h (multimap<>::insert(iterator, const value_type&)): Likewise. * include/bits/stl_multiset.h (multiset<>::insert(iterator, const value_type&)): Likewise. From-SVN: r119190
566 lines
20 KiB
C++
566 lines
20 KiB
C++
// Multiset implementation -*- C++ -*-
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// Copyright (C) 2001, 2002, 2004, 2005, 2006 Free Software Foundation, Inc.
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//
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// This file is part of the GNU ISO C++ Library. This library is free
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// software; you can redistribute it and/or modify it under the
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// terms of the GNU General Public License as published by the
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// Free Software Foundation; either version 2, or (at your option)
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// any later version.
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// This library is distributed in the hope that it will be useful,
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// but WITHOUT ANY WARRANTY; without even the implied warranty of
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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// GNU General Public License for more details.
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// You should have received a copy of the GNU General Public License along
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// with this library; see the file COPYING. If not, write to the Free
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// Software Foundation, 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301,
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// USA.
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// As a special exception, you may use this file as part of a free software
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// library without restriction. Specifically, if other files instantiate
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// templates or use macros or inline functions from this file, or you compile
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// this file and link it with other files to produce an executable, this
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// file does not by itself cause the resulting executable to be covered by
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// the GNU General Public License. This exception does not however
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// invalidate any other reasons why the executable file might be covered by
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// the GNU General Public License.
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/*
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*
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* Copyright (c) 1994
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* Hewlett-Packard Company
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*
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* Permission to use, copy, modify, distribute and sell this software
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* and its documentation for any purpose is hereby granted without fee,
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* provided that the above copyright notice appear in all copies and
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* that both that copyright notice and this permission notice appear
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* in supporting documentation. Hewlett-Packard Company makes no
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* representations about the suitability of this software for any
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* purpose. It is provided "as is" without express or implied warranty.
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*
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*
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* Copyright (c) 1996
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* Silicon Graphics Computer Systems, Inc.
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*
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* Permission to use, copy, modify, distribute and sell this software
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* and its documentation for any purpose is hereby granted without fee,
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* provided that the above copyright notice appear in all copies and
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* that both that copyright notice and this permission notice appear
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* in supporting documentation. Silicon Graphics makes no
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* representations about the suitability of this software for any
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* purpose. It is provided "as is" without express or implied warranty.
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*/
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/** @file stl_multiset.h
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* This is an internal header file, included by other library headers.
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* You should not attempt to use it directly.
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*/
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#ifndef _MULTISET_H
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#define _MULTISET_H 1
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#include <bits/concept_check.h>
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_GLIBCXX_BEGIN_NESTED_NAMESPACE(std, _GLIBCXX_STD)
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/**
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* @brief A standard container made up of elements, which can be retrieved
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* in logarithmic time.
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*
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* @ingroup Containers
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* @ingroup Assoc_containers
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*
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* Meets the requirements of a <a href="tables.html#65">container</a>, a
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* <a href="tables.html#66">reversible container</a>, and an
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* <a href="tables.html#69">associative container</a> (using equivalent
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* keys). For a @c multiset<Key> the key_type and value_type are Key.
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*
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* Multisets support bidirectional iterators.
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*
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* @if maint
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* The private tree data is declared exactly the same way for set and
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* multiset; the distinction is made entirely in how the tree functions are
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* called (*_unique versus *_equal, same as the standard).
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* @endif
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*/
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template <class _Key, class _Compare = std::less<_Key>,
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class _Alloc = std::allocator<_Key> >
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class multiset
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{
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// concept requirements
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typedef typename _Alloc::value_type _Alloc_value_type;
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__glibcxx_class_requires(_Key, _SGIAssignableConcept)
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__glibcxx_class_requires4(_Compare, bool, _Key, _Key,
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_BinaryFunctionConcept)
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__glibcxx_class_requires2(_Key, _Alloc_value_type, _SameTypeConcept)
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public:
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// typedefs:
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typedef _Key key_type;
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typedef _Key value_type;
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typedef _Compare key_compare;
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typedef _Compare value_compare;
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typedef _Alloc allocator_type;
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private:
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/// @if maint This turns a red-black tree into a [multi]set. @endif
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typedef typename _Alloc::template rebind<_Key>::other _Key_alloc_type;
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typedef _Rb_tree<key_type, value_type, _Identity<value_type>,
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key_compare, _Key_alloc_type> _Rep_type;
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/// @if maint The actual tree structure. @endif
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_Rep_type _M_t;
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public:
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typedef typename _Key_alloc_type::pointer pointer;
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typedef typename _Key_alloc_type::const_pointer const_pointer;
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typedef typename _Key_alloc_type::reference reference;
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typedef typename _Key_alloc_type::const_reference const_reference;
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// _GLIBCXX_RESOLVE_LIB_DEFECTS
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// DR 103. set::iterator is required to be modifiable,
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// but this allows modification of keys.
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typedef typename _Rep_type::const_iterator iterator;
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typedef typename _Rep_type::const_iterator const_iterator;
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typedef typename _Rep_type::const_reverse_iterator reverse_iterator;
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typedef typename _Rep_type::const_reverse_iterator const_reverse_iterator;
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typedef typename _Rep_type::size_type size_type;
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typedef typename _Rep_type::difference_type difference_type;
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// allocation/deallocation
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/**
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* @brief Default constructor creates no elements.
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*/
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multiset()
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: _M_t(_Compare(), allocator_type()) { }
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explicit
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multiset(const _Compare& __comp,
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const allocator_type& __a = allocator_type())
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: _M_t(__comp, __a) { }
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/**
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* @brief Builds a %multiset from a range.
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* @param first An input iterator.
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* @param last An input iterator.
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*
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* Create a %multiset consisting of copies of the elements from
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* [first,last). This is linear in N if the range is already sorted,
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* and NlogN otherwise (where N is distance(first,last)).
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*/
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template <class _InputIterator>
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multiset(_InputIterator __first, _InputIterator __last)
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: _M_t(_Compare(), allocator_type())
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{ _M_t._M_insert_equal(__first, __last); }
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/**
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* @brief Builds a %multiset from a range.
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* @param first An input iterator.
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* @param last An input iterator.
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* @param comp A comparison functor.
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* @param a An allocator object.
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*
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* Create a %multiset consisting of copies of the elements from
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* [first,last). This is linear in N if the range is already sorted,
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* and NlogN otherwise (where N is distance(first,last)).
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*/
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template <class _InputIterator>
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multiset(_InputIterator __first, _InputIterator __last,
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const _Compare& __comp,
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const allocator_type& __a = allocator_type())
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: _M_t(__comp, __a)
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{ _M_t._M_insert_equal(__first, __last); }
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/**
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* @brief %Multiset copy constructor.
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* @param x A %multiset of identical element and allocator types.
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*
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* The newly-created %multiset uses a copy of the allocation object used
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* by @a x.
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*/
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multiset(const multiset<_Key,_Compare,_Alloc>& __x)
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: _M_t(__x._M_t) { }
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/**
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* @brief %Multiset assignment operator.
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* @param x A %multiset of identical element and allocator types.
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*
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* All the elements of @a x are copied, but unlike the copy constructor,
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* the allocator object is not copied.
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*/
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multiset<_Key,_Compare,_Alloc>&
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operator=(const multiset<_Key,_Compare,_Alloc>& __x)
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{
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_M_t = __x._M_t;
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return *this;
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}
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// accessors:
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/// Returns the comparison object.
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key_compare
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key_comp() const
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{ return _M_t.key_comp(); }
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/// Returns the comparison object.
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value_compare
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value_comp() const
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{ return _M_t.key_comp(); }
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/// Returns the memory allocation object.
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allocator_type
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get_allocator() const
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{ return _M_t.get_allocator(); }
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/**
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* Returns a read/write iterator that points to the first element in the
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* %multiset. Iteration is done in ascending order according to the
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* keys.
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*/
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iterator
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begin() const
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{ return _M_t.begin(); }
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/**
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* Returns a read/write iterator that points one past the last element in
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* the %multiset. Iteration is done in ascending order according to the
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* keys.
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*/
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iterator
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end() const
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{ return _M_t.end(); }
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/**
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* Returns a read/write reverse iterator that points to the last element
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* in the %multiset. Iteration is done in descending order according to
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* the keys.
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*/
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reverse_iterator
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rbegin() const
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{ return _M_t.rbegin(); }
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/**
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* Returns a read/write reverse iterator that points to the last element
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* in the %multiset. Iteration is done in descending order according to
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* the keys.
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*/
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reverse_iterator
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rend() const
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{ return _M_t.rend(); }
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/// Returns true if the %set is empty.
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bool
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empty() const
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{ return _M_t.empty(); }
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/// Returns the size of the %set.
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size_type
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size() const
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{ return _M_t.size(); }
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/// Returns the maximum size of the %set.
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size_type
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max_size() const
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{ return _M_t.max_size(); }
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/**
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* @brief Swaps data with another %multiset.
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* @param x A %multiset of the same element and allocator types.
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*
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* This exchanges the elements between two multisets in constant time.
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* (It is only swapping a pointer, an integer, and an instance of the @c
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* Compare type (which itself is often stateless and empty), so it should
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* be quite fast.)
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* Note that the global std::swap() function is specialized such that
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* std::swap(s1,s2) will feed to this function.
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*/
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void
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swap(multiset<_Key, _Compare, _Alloc>& __x)
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{ _M_t.swap(__x._M_t); }
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// insert/erase
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/**
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* @brief Inserts an element into the %multiset.
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* @param x Element to be inserted.
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* @return An iterator that points to the inserted element.
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*
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* This function inserts an element into the %multiset. Contrary
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* to a std::set the %multiset does not rely on unique keys and thus
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* multiple copies of the same element can be inserted.
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*
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* Insertion requires logarithmic time.
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*/
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iterator
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insert(const value_type& __x)
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{ return _M_t._M_insert_equal(__x); }
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/**
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* @brief Inserts an element into the %multiset.
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* @param position An iterator that serves as a hint as to where the
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* element should be inserted.
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* @param x Element to be inserted.
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* @return An iterator that points to the inserted element.
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*
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* This function inserts an element into the %multiset. Contrary
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* to a std::set the %multiset does not rely on unique keys and thus
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* multiple copies of the same element can be inserted.
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*
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* Note that the first parameter is only a hint and can potentially
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* improve the performance of the insertion process. A bad hint would
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* cause no gains in efficiency.
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*
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* See http://gcc.gnu.org/onlinedocs/libstdc++/23_containers/howto.html#4
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* for more on "hinting".
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*
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* Insertion requires logarithmic time (if the hint is not taken).
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*/
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iterator
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insert(iterator __position, const value_type& __x)
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{ return _M_t._M_insert_equal_(__position, __x); }
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/**
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* @brief A template function that attemps to insert a range of elements.
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* @param first Iterator pointing to the start of the range to be
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* inserted.
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* @param last Iterator pointing to the end of the range.
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*
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* Complexity similar to that of the range constructor.
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*/
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template <class _InputIterator>
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void
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insert(_InputIterator __first, _InputIterator __last)
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{ _M_t._M_insert_equal(__first, __last); }
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/**
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* @brief Erases an element from a %multiset.
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* @param position An iterator pointing to the element to be erased.
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*
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* This function erases an element, pointed to by the given iterator,
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* from a %multiset. Note that this function only erases the element,
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* and that if the element is itself a pointer, the pointed-to memory is
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* not touched in any way. Managing the pointer is the user's
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* responsibilty.
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*/
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void
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erase(iterator __position)
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{ _M_t.erase(__position); }
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/**
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* @brief Erases elements according to the provided key.
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* @param x Key of element to be erased.
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* @return The number of elements erased.
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*
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* This function erases all elements located by the given key from a
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* %multiset.
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* Note that this function only erases the element, and that if
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* the element is itself a pointer, the pointed-to memory is not touched
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* in any way. Managing the pointer is the user's responsibilty.
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*/
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size_type
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erase(const key_type& __x)
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{ return _M_t.erase(__x); }
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/**
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* @brief Erases a [first,last) range of elements from a %multiset.
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* @param first Iterator pointing to the start of the range to be
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* erased.
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* @param last Iterator pointing to the end of the range to be erased.
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*
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* This function erases a sequence of elements from a %multiset.
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* Note that this function only erases the elements, and that if
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* the elements themselves are pointers, the pointed-to memory is not
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* touched in any way. Managing the pointer is the user's responsibilty.
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*/
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void
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erase(iterator __first, iterator __last)
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{ _M_t.erase(__first, __last); }
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/**
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* Erases all elements in a %multiset. Note that this function only
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* erases the elements, and that if the elements themselves are pointers,
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* the pointed-to memory is not touched in any way. Managing the pointer
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* is the user's responsibilty.
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*/
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void
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clear()
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{ _M_t.clear(); }
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// multiset operations:
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/**
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* @brief Finds the number of elements with given key.
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* @param x Key of elements to be located.
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* @return Number of elements with specified key.
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*/
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size_type
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count(const key_type& __x) const
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{ return _M_t.count(__x); }
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// _GLIBCXX_RESOLVE_LIB_DEFECTS
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// 214. set::find() missing const overload
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//@{
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/**
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* @brief Tries to locate an element in a %set.
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* @param x Element to be located.
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* @return Iterator pointing to sought-after element, or end() if not
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* found.
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*
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* This function takes a key and tries to locate the element with which
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* the key matches. If successful the function returns an iterator
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* pointing to the sought after element. If unsuccessful it returns the
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* past-the-end ( @c end() ) iterator.
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*/
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iterator
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find(const key_type& __x)
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{ return _M_t.find(__x); }
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const_iterator
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find(const key_type& __x) const
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{ return _M_t.find(__x); }
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//@}
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//@{
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/**
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* @brief Finds the beginning of a subsequence matching given key.
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* @param x Key to be located.
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* @return Iterator pointing to first element equal to or greater
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* than key, or end().
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*
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* This function returns the first element of a subsequence of elements
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* that matches the given key. If unsuccessful it returns an iterator
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* pointing to the first element that has a greater value than given key
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* or end() if no such element exists.
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*/
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iterator
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lower_bound(const key_type& __x)
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{ return _M_t.lower_bound(__x); }
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|
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const_iterator
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|
lower_bound(const key_type& __x) const
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{ return _M_t.lower_bound(__x); }
|
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//@}
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|
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//@{
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/**
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|
* @brief Finds the end of a subsequence matching given key.
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* @param x Key to be located.
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* @return Iterator pointing to the first element
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* greater than key, or end().
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*/
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iterator
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upper_bound(const key_type& __x)
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{ return _M_t.upper_bound(__x); }
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|
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const_iterator
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|
upper_bound(const key_type& __x) const
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|
{ return _M_t.upper_bound(__x); }
|
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//@}
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|
|
|
//@{
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|
/**
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|
* @brief Finds a subsequence matching given key.
|
|
* @param x Key to be located.
|
|
* @return Pair of iterators that possibly points to the subsequence
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|
* matching given key.
|
|
*
|
|
* This function is equivalent to
|
|
* @code
|
|
* std::make_pair(c.lower_bound(val),
|
|
* c.upper_bound(val))
|
|
* @endcode
|
|
* (but is faster than making the calls separately).
|
|
*
|
|
* This function probably only makes sense for multisets.
|
|
*/
|
|
std::pair<iterator, iterator>
|
|
equal_range(const key_type& __x)
|
|
{ return _M_t.equal_range(__x); }
|
|
|
|
std::pair<const_iterator, const_iterator>
|
|
equal_range(const key_type& __x) const
|
|
{ return _M_t.equal_range(__x); }
|
|
|
|
template <class _K1, class _C1, class _A1>
|
|
friend bool
|
|
operator== (const multiset<_K1, _C1, _A1>&,
|
|
const multiset<_K1, _C1, _A1>&);
|
|
|
|
template <class _K1, class _C1, class _A1>
|
|
friend bool
|
|
operator< (const multiset<_K1, _C1, _A1>&,
|
|
const multiset<_K1, _C1, _A1>&);
|
|
};
|
|
|
|
/**
|
|
* @brief Multiset equality comparison.
|
|
* @param x A %multiset.
|
|
* @param y A %multiset of the same type as @a x.
|
|
* @return True iff the size and elements of the multisets are equal.
|
|
*
|
|
* This is an equivalence relation. It is linear in the size of the
|
|
* multisets.
|
|
* Multisets are considered equivalent if their sizes are equal, and if
|
|
* corresponding elements compare equal.
|
|
*/
|
|
template <class _Key, class _Compare, class _Alloc>
|
|
inline bool
|
|
operator==(const multiset<_Key, _Compare, _Alloc>& __x,
|
|
const multiset<_Key, _Compare, _Alloc>& __y)
|
|
{ return __x._M_t == __y._M_t; }
|
|
|
|
/**
|
|
* @brief Multiset ordering relation.
|
|
* @param x A %multiset.
|
|
* @param y A %multiset of the same type as @a x.
|
|
* @return True iff @a x is lexicographically less than @a y.
|
|
*
|
|
* This is a total ordering relation. It is linear in the size of the
|
|
* maps. The elements must be comparable with @c <.
|
|
*
|
|
* See std::lexicographical_compare() for how the determination is made.
|
|
*/
|
|
template <class _Key, class _Compare, class _Alloc>
|
|
inline bool
|
|
operator<(const multiset<_Key, _Compare, _Alloc>& __x,
|
|
const multiset<_Key, _Compare, _Alloc>& __y)
|
|
{ return __x._M_t < __y._M_t; }
|
|
|
|
/// Returns !(x == y).
|
|
template <class _Key, class _Compare, class _Alloc>
|
|
inline bool
|
|
operator!=(const multiset<_Key, _Compare, _Alloc>& __x,
|
|
const multiset<_Key, _Compare, _Alloc>& __y)
|
|
{ return !(__x == __y); }
|
|
|
|
/// Returns y < x.
|
|
template <class _Key, class _Compare, class _Alloc>
|
|
inline bool
|
|
operator>(const multiset<_Key,_Compare,_Alloc>& __x,
|
|
const multiset<_Key,_Compare,_Alloc>& __y)
|
|
{ return __y < __x; }
|
|
|
|
/// Returns !(y < x)
|
|
template <class _Key, class _Compare, class _Alloc>
|
|
inline bool
|
|
operator<=(const multiset<_Key, _Compare, _Alloc>& __x,
|
|
const multiset<_Key, _Compare, _Alloc>& __y)
|
|
{ return !(__y < __x); }
|
|
|
|
/// Returns !(x < y)
|
|
template <class _Key, class _Compare, class _Alloc>
|
|
inline bool
|
|
operator>=(const multiset<_Key, _Compare, _Alloc>& __x,
|
|
const multiset<_Key, _Compare, _Alloc>& __y)
|
|
{ return !(__x < __y); }
|
|
|
|
/// See std::multiset::swap().
|
|
template <class _Key, class _Compare, class _Alloc>
|
|
inline void
|
|
swap(multiset<_Key, _Compare, _Alloc>& __x,
|
|
multiset<_Key, _Compare, _Alloc>& __y)
|
|
{ __x.swap(__y); }
|
|
|
|
_GLIBCXX_END_NESTED_NAMESPACE
|
|
|
|
#endif /* _MULTISET_H */
|