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2002-02-07 Stephan Buys <sbproxy@icon.co.za> * include/bits/stl_map.h: Tweak doxygen markup. * include/bits/stl_multimap.h: Doxygenate and remove extra spaces. * include/bits/stl_vector.h: Likewise. From-SVN: r49602
504 lines
20 KiB
C++
504 lines
20 KiB
C++
// Map implementation -*- C++ -*-
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// Copyright (C) 2001, 2002 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, 59 Temple Place - Suite 330, Boston, MA 02111-1307,
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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) 1996,1997
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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_map.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 _CPP_BITS_STL_MAP_H
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#define _CPP_BITS_STL_MAP_H 1
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#include <bits/concept_check.h>
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namespace std
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{
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/**
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* @brief A standard container made up of pairs (see std::pair in <utility>)
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* which can be retrieved based on a key.
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*
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* This is an associative container. Values contained within it can be
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* quickly retrieved through a key element. Example: MyMap["First"] would
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* return the data associated with the key "First".
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*/
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template <class _Key, class _Tp, class _Compare = less<_Key>,
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class _Alloc = allocator<pair<const _Key, _Tp> > >
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class map
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{
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// concept requirements
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__glibcpp_class_requires(_Tp, _SGIAssignableConcept)
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__glibcpp_class_requires4(_Compare, bool, _Key, _Key, _BinaryFunctionConcept);
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public:
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// typedefs:
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typedef _Key key_type;
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typedef _Tp data_type;
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typedef _Tp mapped_type;
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typedef pair<const _Key, _Tp> value_type;
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typedef _Compare key_compare;
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class value_compare
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: public binary_function<value_type, value_type, bool> {
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friend class map<_Key,_Tp,_Compare,_Alloc>;
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protected :
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_Compare comp;
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value_compare(_Compare __c) : comp(__c) {}
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public:
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bool operator()(const value_type& __x, const value_type& __y) const {
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return comp(__x.first, __y.first);
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}
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};
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private:
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typedef _Rb_tree<key_type, value_type,
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_Select1st<value_type>, key_compare, _Alloc> _Rep_type;
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_Rep_type _M_t; // red-black tree representing map
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public:
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typedef typename _Rep_type::pointer pointer;
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typedef typename _Rep_type::const_pointer const_pointer;
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typedef typename _Rep_type::reference reference;
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typedef typename _Rep_type::const_reference const_reference;
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typedef typename _Rep_type::iterator iterator;
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typedef typename _Rep_type::const_iterator const_iterator;
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typedef typename _Rep_type::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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typedef typename _Rep_type::allocator_type allocator_type;
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// allocation/deallocation
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map() : _M_t(_Compare(), allocator_type()) {}
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explicit map(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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template <class _InputIterator>
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map(_InputIterator __first, _InputIterator __last)
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: _M_t(_Compare(), allocator_type())
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{ _M_t.insert_unique(__first, __last); }
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template <class _InputIterator>
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map(_InputIterator __first, _InputIterator __last, const _Compare& __comp,
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const allocator_type& __a = allocator_type())
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: _M_t(__comp, __a) { _M_t.insert_unique(__first, __last); }
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map(const map<_Key,_Tp,_Compare,_Alloc>& __x) : _M_t(__x._M_t) {}
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map<_Key,_Tp,_Compare,_Alloc>&
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operator=(const map<_Key, _Tp, _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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key_compare key_comp() const { return _M_t.key_comp(); }
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value_compare value_comp() const { return value_compare(_M_t.key_comp()); }
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allocator_type get_allocator() const { return _M_t.get_allocator(); }
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/**
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* Returns a read/write iterator that points to the first pair in the map.
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* Iteration is done in ascending order according to the keys.
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*/
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iterator begin() { return _M_t.begin(); }
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/**
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* Returns a read-only (constant) iterator that points to the first pair
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* in the map. Iteration is done in ascending order according to the keys.
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*/
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const_iterator begin() const { return _M_t.begin(); }
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/**
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* Returns a read/write iterator that points one past the last pair in the
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* map. Iteration is done in ascending order according to the keys.
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*/
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iterator end() { return _M_t.end(); }
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/**
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* Returns a read-only (constant) iterator that points one past the last
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* pair in the map. Iteration is done in ascending order according to the
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* keys.
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*/
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const_iterator end() const { return _M_t.end(); }
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/**
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* Returns a read/write reverse iterator that points to the last pair in
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* the map. Iteration is done in descending order according to the keys.
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*/
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reverse_iterator rbegin() { return _M_t.rbegin(); }
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/**
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* Returns a read-only (constant) reverse iterator that points to the last
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* pair in the map. Iteration is done in descending order according to
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* the keys.
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*/
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const_reverse_iterator rbegin() const { return _M_t.rbegin(); }
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/**
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* Returns a read/write reverse iterator that points to one before the
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* first pair in the map. Iteration is done in descending order according
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* to the keys.
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*/
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reverse_iterator rend() { return _M_t.rend(); }
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/**
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* Returns a read-only (constant) reverse iterator that points to one
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* before the first pair in the map. Iteration is done in descending order
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* according to the keys.
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*/
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const_reverse_iterator rend() const { return _M_t.rend(); }
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/** Returns true if the map is empty. (Thus begin() would equal end().) */
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bool empty() const { return _M_t.empty(); }
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/** Returns the size of the map. */
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size_type size() const { return _M_t.size(); }
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/** Returns the maximum size of the map. */
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size_type max_size() const { return _M_t.max_size(); }
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/**
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* @brief Subscript ( [] ) access to map data.
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* @param k The key for which data should be retrieved.
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*
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* Allows for easy lookup with the subscript ( [] ) operator. Returns the
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* data associated with the key specified in subscript. If the key does
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* not exist a pair with that key is created with a default value, which
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* is then returned.
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*/
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_Tp& operator[](const key_type& __k) {
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iterator __i = lower_bound(__k);
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// __i->first is greater than or equivalent to __k.
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if (__i == end() || key_comp()(__k, (*__i).first))
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__i = insert(__i, value_type(__k, _Tp()));
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return (*__i).second;
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}
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void swap(map<_Key,_Tp,_Compare,_Alloc>& __x) { _M_t.swap(__x._M_t); }
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// insert/erase
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/**
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* @brief Attempts to insert a std::pair into the map.
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* @param x Pair to be inserted (see std::make_pair for easy creation of
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* pairs).
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* @return A pair of which the first element is an iterator that points
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* to the possibly inserted pair, a second element of type bool
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* to show if the pair was actually inserted.
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*
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* This function attempts to insert a (key, value) pair into the map. A
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* map relies on unique keys and thus a pair is only inserted if its first
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* element (the key) is not already present in the map.
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*/
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pair<iterator,bool> insert(const value_type& __x)
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{ return _M_t.insert_unique(__x); }
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/**
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* @brief Attempts to insert a std::pair into the map.
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* @param position An iterator that serves as a hint as to where the
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* pair should be inserted.
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* @param x Pair to be inserted (see std::make_pair for easy creation of
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* pairs).
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* @return An iterator that points to the inserted (key,value) pair.
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*
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* This function is not concerned about whether the insertion took place
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* or not and thus does not return a boolean like the single-argument
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* insert() does. Note that the first parameter is only a hint and can
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* potentially improve the performance of the insertion process. A bad
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* hint would cause no gains in efficiency.
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*/
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iterator insert(iterator position, const value_type& __x)
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{ return _M_t.insert_unique(position, __x); }
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/**
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* @brief A template function that attemps to insert elements from
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* another range (possibly another map).
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* @param first Iterator pointing to the start of the range to be inserted.
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* @param last Iterator pointing to the end of the range.
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*/
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template <class _InputIterator>
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void insert(_InputIterator __first, _InputIterator __last) {
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_M_t.insert_unique(__first, __last);
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}
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/**
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* @brief Erases an element from a map.
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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, from
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* a map. 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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void erase(iterator __position) { _M_t.erase(__position); }
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/**
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* @brief Erases an element according to the provided key.
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* @param x Key of element to be erased.
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* @return Doc me! (Number of elements that match key? Only makes sense
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* with multimap)
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*
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* This function erases an element, located by the given key, from a map.
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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 erase(const key_type& __x) { return _M_t.erase(__x); }
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/**
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* @brief Erases a [first,last) range of elements from a map.
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* @param first Iterator pointing to the start of the range to be 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 map.
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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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void erase(iterator __first, iterator __last)
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{ _M_t.erase(__first, __last); }
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/** Erases all elements in a map. Note that this function only erases
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* the elements, and that if the elements themselves are pointers, the
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* pointed-to memory is not touched in any way. Managing the pointer is
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* the user's responsibilty.
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*/
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void clear() { _M_t.clear(); }
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// map operations:
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/**
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* @brief Tries to locate an element in a map.
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* @param x Key of (key, value) pair 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 pair. If unsuccessful it returns the
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* one past the end ( end() ) iterator.
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*/
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iterator find(const key_type& __x) { return _M_t.find(__x); }
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/**
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* @brief Tries to locate an element in a map.
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* @param x Key of (key, value) pair to be located.
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* @return Read-only (constant) iterator pointing to sought-after
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* element, or end() if not 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 a constant iterator
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* pointing to the sought after pair. If unsuccessful it returns the
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* one past the end ( end() ) iterator.
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*/
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const_iterator find(const key_type& __x) const { return _M_t.find(__x); }
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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 (key, value) pairs to be located.
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* @return Number of elements with specified key.
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*
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* This function only makes sense for multimaps.
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*/
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size_type count(const key_type& __x) const {
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return _M_t.find(__x) == _M_t.end() ? 0 : 1;
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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 of (key, value) pair to be located.
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* @return Iterator pointing to first element matching given key, or
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* end() if not found.
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*
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* This function is useful only with std::multimap. It returns the first
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* element of a subsequence of elements that matches the given key. If
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* unsuccessful it returns an iterator pointing to the first element that
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* has a greater value than given key or end() if no such element exists.
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*/
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iterator lower_bound(const key_type& __x) {return _M_t.lower_bound(__x); }
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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 of (key, value) pair to be located.
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* @return Read-only (constant) iterator pointing to first element
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* matching given key, or end() if not found.
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*
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* This function is useful only with std::multimap. It returns the first
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* element of a subsequence of elements that matches the given key. If
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* unsuccessful the iterator will point to the next greatest element or,
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* if no such greater element exists, to end().
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*/
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const_iterator 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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* @brief Finds the end of a subsequence matching given key.
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* @param x Key of (key, value) pair to be located.
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* @return Iterator pointing to last element matching given key.
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*
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* This function only makes sense with multimaps.
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*/
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iterator upper_bound(const key_type& __x) {return _M_t.upper_bound(__x); }
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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 of (key, value) pair to be located.
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* @return Read-only (constant) iterator pointing to last element matching
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* given key.
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*
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* This function only makes sense with multimaps.
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*/
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const_iterator 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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* @brief Finds a subsequence matching given key.
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* @param x Key of (key, value) pairs to be located.
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* @return Pair of iterators that possibly points to the subsequence
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* matching given key.
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*
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* This function improves on lower_bound() and upper_bound() by giving a more
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* elegant and efficient solution. It returns a pair of which the first
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* element possibly points to the first element matching the given key
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* and the second element possibly points to the last element matching the
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* given key. If unsuccessful the first element of the returned pair will
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* contain an iterator pointing to the next greatest element or, if no such
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* greater element exists, to end().
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*
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* This function only makes sense for multimaps.
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*/
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pair<iterator,iterator> equal_range(const key_type& __x) {
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return _M_t.equal_range(__x);
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}
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/**
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* @brief Finds a subsequence matching given key.
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* @param x Key of (key, value) pairs to be located.
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* @return Pair of read-only (constant) iterators that possibly points to
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* the subsequence matching given key.
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*
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* This function improves on lower_bound() and upper_bound() by giving a more
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* elegant and efficient solution. It returns a pair of which the first
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* element possibly points to the first element matching the given key
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* and the second element possibly points to the last element matching the
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* given key. If unsuccessful the first element of the returned pair will
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* contain an iterator pointing to the next greatest element or, if no such
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* a greater element exists, to end().
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*
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* This function only makes sense for multimaps.
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*/
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pair<const_iterator,const_iterator> equal_range(const key_type& __x) const {
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return _M_t.equal_range(__x);
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}
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template <class _K1, class _T1, class _C1, class _A1>
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friend bool operator== (const map<_K1, _T1, _C1, _A1>&,
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const map<_K1, _T1, _C1, _A1>&);
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template <class _K1, class _T1, class _C1, class _A1>
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friend bool operator< (const map<_K1, _T1, _C1, _A1>&,
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const map<_K1, _T1, _C1, _A1>&);
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};
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template <class _Key, class _Tp, class _Compare, class _Alloc>
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inline bool operator==(const map<_Key,_Tp,_Compare,_Alloc>& __x,
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const map<_Key,_Tp,_Compare,_Alloc>& __y) {
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return __x._M_t == __y._M_t;
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}
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template <class _Key, class _Tp, class _Compare, class _Alloc>
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inline bool operator<(const map<_Key,_Tp,_Compare,_Alloc>& __x,
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const map<_Key,_Tp,_Compare,_Alloc>& __y) {
|
|
return __x._M_t < __y._M_t;
|
|
}
|
|
|
|
template <class _Key, class _Tp, class _Compare, class _Alloc>
|
|
inline bool operator!=(const map<_Key,_Tp,_Compare,_Alloc>& __x,
|
|
const map<_Key,_Tp,_Compare,_Alloc>& __y) {
|
|
return !(__x == __y);
|
|
}
|
|
|
|
template <class _Key, class _Tp, class _Compare, class _Alloc>
|
|
inline bool operator>(const map<_Key,_Tp,_Compare,_Alloc>& __x,
|
|
const map<_Key,_Tp,_Compare,_Alloc>& __y) {
|
|
return __y < __x;
|
|
}
|
|
|
|
template <class _Key, class _Tp, class _Compare, class _Alloc>
|
|
inline bool operator<=(const map<_Key,_Tp,_Compare,_Alloc>& __x,
|
|
const map<_Key,_Tp,_Compare,_Alloc>& __y) {
|
|
return !(__y < __x);
|
|
}
|
|
|
|
template <class _Key, class _Tp, class _Compare, class _Alloc>
|
|
inline bool operator>=(const map<_Key,_Tp,_Compare,_Alloc>& __x,
|
|
const map<_Key,_Tp,_Compare,_Alloc>& __y) {
|
|
return !(__x < __y);
|
|
}
|
|
|
|
template <class _Key, class _Tp, class _Compare, class _Alloc>
|
|
inline void swap(map<_Key,_Tp,_Compare,_Alloc>& __x,
|
|
map<_Key,_Tp,_Compare,_Alloc>& __y) {
|
|
__x.swap(__y);
|
|
}
|
|
|
|
} // namespace std
|
|
|
|
#endif /* _CPP_BITS_STL_MAP_H */
|
|
|
|
// Local Variables:
|
|
// mode:C++
|
|
// End:
|