a809005264
2005-05-20 Paolo Carlini <pcarlini@suse.de> * include/bits/stl_algo.h (__rotate<_RandomAccessIterator>): Don't qualify __tmp as const, _ValueType is not necessarily Assignable. * include/bits/stl_algobase.h (swap, __iter_swap<false>): Likewise, as an harmless extension. From-SVN: r100011
913 lines
30 KiB
C++
913 lines
30 KiB
C++
// Bits and pieces used in algorithms -*- C++ -*-
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// Copyright (C) 2001, 2002, 2003, 2004, 2005 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) 1996-1998
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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_algobase.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 _ALGOBASE_H
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#define _ALGOBASE_H 1
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#include <bits/c++config.h>
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#include <cstring>
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#include <climits>
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#include <cstdlib>
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#include <cstddef>
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#include <iosfwd>
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#include <bits/stl_pair.h>
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#include <bits/cpp_type_traits.h>
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#include <bits/stl_iterator_base_types.h>
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#include <bits/stl_iterator_base_funcs.h>
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#include <bits/stl_iterator.h>
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#include <bits/concept_check.h>
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#include <debug/debug.h>
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namespace std
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{
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/**
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* @brief Swaps two values.
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* @param a A thing of arbitrary type.
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* @param b Another thing of arbitrary type.
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* @return Nothing.
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*
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* This is the simple classic generic implementation. It will work on
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* any type which has a copy constructor and an assignment operator.
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*/
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template<typename _Tp>
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inline void
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swap(_Tp& __a, _Tp& __b)
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{
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// concept requirements
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__glibcxx_function_requires(_SGIAssignableConcept<_Tp>)
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_Tp __tmp = __a;
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__a = __b;
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__b = __tmp;
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}
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// See http://gcc.gnu.org/ml/libstdc++/2004-08/msg00167.html: in a
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// nutshell, we are partially implementing the resolution of DR 187,
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// when it's safe, i.e., the value_types are equal.
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template<bool _BoolType>
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struct __iter_swap
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{
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template<typename _ForwardIterator1, typename _ForwardIterator2>
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static void
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iter_swap(_ForwardIterator1 __a, _ForwardIterator2 __b)
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{
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typedef typename iterator_traits<_ForwardIterator1>::value_type
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_ValueType1;
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_ValueType1 __tmp = *__a;
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*__a = *__b;
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*__b = __tmp;
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}
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};
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template<>
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struct __iter_swap<true>
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{
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template<typename _ForwardIterator1, typename _ForwardIterator2>
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static void
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iter_swap(_ForwardIterator1 __a, _ForwardIterator2 __b)
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{
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swap(*__a, *__b);
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}
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};
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/**
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* @brief Swaps the contents of two iterators.
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* @param a An iterator.
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* @param b Another iterator.
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* @return Nothing.
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*
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* This function swaps the values pointed to by two iterators, not the
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* iterators themselves.
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*/
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template<typename _ForwardIterator1, typename _ForwardIterator2>
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inline void
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iter_swap(_ForwardIterator1 __a, _ForwardIterator2 __b)
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{
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typedef typename iterator_traits<_ForwardIterator1>::value_type
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_ValueType1;
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typedef typename iterator_traits<_ForwardIterator2>::value_type
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_ValueType2;
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// concept requirements
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__glibcxx_function_requires(_Mutable_ForwardIteratorConcept<
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_ForwardIterator1>)
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__glibcxx_function_requires(_Mutable_ForwardIteratorConcept<
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_ForwardIterator2>)
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__glibcxx_function_requires(_ConvertibleConcept<_ValueType1,
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_ValueType2>)
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__glibcxx_function_requires(_ConvertibleConcept<_ValueType2,
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_ValueType1>)
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typedef typename iterator_traits<_ForwardIterator1>::reference
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_ReferenceType1;
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typedef typename iterator_traits<_ForwardIterator2>::reference
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_ReferenceType2;
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std::__iter_swap<__are_same<_ValueType1, _ValueType2>::__value &&
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__are_same<_ValueType1 &, _ReferenceType1>::__value &&
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__are_same<_ValueType2 &, _ReferenceType2>::__value>::
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iter_swap(__a, __b);
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}
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#undef min
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#undef max
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/**
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* @brief This does what you think it does.
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* @param a A thing of arbitrary type.
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* @param b Another thing of arbitrary type.
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* @return The lesser of the parameters.
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*
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* This is the simple classic generic implementation. It will work on
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* temporary expressions, since they are only evaluated once, unlike a
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* preprocessor macro.
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*/
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template<typename _Tp>
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inline const _Tp&
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min(const _Tp& __a, const _Tp& __b)
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{
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// concept requirements
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__glibcxx_function_requires(_LessThanComparableConcept<_Tp>)
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//return __b < __a ? __b : __a;
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if (__b < __a)
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return __b;
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return __a;
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}
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/**
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* @brief This does what you think it does.
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* @param a A thing of arbitrary type.
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* @param b Another thing of arbitrary type.
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* @return The greater of the parameters.
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*
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* This is the simple classic generic implementation. It will work on
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* temporary expressions, since they are only evaluated once, unlike a
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* preprocessor macro.
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*/
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template<typename _Tp>
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inline const _Tp&
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max(const _Tp& __a, const _Tp& __b)
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{
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// concept requirements
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__glibcxx_function_requires(_LessThanComparableConcept<_Tp>)
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//return __a < __b ? __b : __a;
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if (__a < __b)
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return __b;
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return __a;
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}
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/**
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* @brief This does what you think it does.
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* @param a A thing of arbitrary type.
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* @param b Another thing of arbitrary type.
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* @param comp A @link s20_3_3_comparisons comparison functor@endlink.
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* @return The lesser of the parameters.
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*
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* This will work on temporary expressions, since they are only evaluated
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* once, unlike a preprocessor macro.
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*/
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template<typename _Tp, typename _Compare>
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inline const _Tp&
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min(const _Tp& __a, const _Tp& __b, _Compare __comp)
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{
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//return __comp(__b, __a) ? __b : __a;
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if (__comp(__b, __a))
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return __b;
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return __a;
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}
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/**
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* @brief This does what you think it does.
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* @param a A thing of arbitrary type.
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* @param b Another thing of arbitrary type.
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* @param comp A @link s20_3_3_comparisons comparison functor@endlink.
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* @return The greater of the parameters.
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*
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* This will work on temporary expressions, since they are only evaluated
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* once, unlike a preprocessor macro.
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*/
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template<typename _Tp, typename _Compare>
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inline const _Tp&
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max(const _Tp& __a, const _Tp& __b, _Compare __comp)
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{
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//return __comp(__a, __b) ? __b : __a;
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if (__comp(__a, __b))
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return __b;
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return __a;
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}
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// All of these auxiliary structs serve two purposes. (1) Replace
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// calls to copy with memmove whenever possible. (Memmove, not memcpy,
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// because the input and output ranges are permitted to overlap.)
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// (2) If we're using random access iterators, then write the loop as
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// a for loop with an explicit count.
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template<bool, typename>
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struct __copy
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{
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template<typename _II, typename _OI>
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static _OI
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copy(_II __first, _II __last, _OI __result)
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{
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for (; __first != __last; ++__result, ++__first)
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*__result = *__first;
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return __result;
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}
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};
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template<bool _BoolType>
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struct __copy<_BoolType, random_access_iterator_tag>
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{
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template<typename _II, typename _OI>
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static _OI
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copy(_II __first, _II __last, _OI __result)
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{
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typedef typename iterator_traits<_II>::difference_type _Distance;
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for(_Distance __n = __last - __first; __n > 0; --__n)
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{
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*__result = *__first;
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++__first;
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++__result;
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}
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return __result;
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}
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};
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template<>
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struct __copy<true, random_access_iterator_tag>
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{
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template<typename _Tp>
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static _Tp*
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copy(const _Tp* __first, const _Tp* __last, _Tp* __result)
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{
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std::memmove(__result, __first, sizeof(_Tp) * (__last - __first));
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return __result + (__last - __first);
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}
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};
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template<typename _II, typename _OI>
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inline _OI
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__copy_aux(_II __first, _II __last, _OI __result)
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{
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typedef typename iterator_traits<_II>::value_type _ValueTypeI;
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typedef typename iterator_traits<_OI>::value_type _ValueTypeO;
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typedef typename iterator_traits<_II>::iterator_category _Category;
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const bool __simple = (__is_scalar<_ValueTypeI>::__value
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&& __is_pointer<_II>::__value
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&& __is_pointer<_OI>::__value
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&& __are_same<_ValueTypeI, _ValueTypeO>::__value);
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return std::__copy<__simple, _Category>::copy(__first, __last, __result);
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}
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template<bool, bool>
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struct __copy_normal
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{
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template<typename _II, typename _OI>
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static _OI
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copy_n(_II __first, _II __last, _OI __result)
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{ return std::__copy_aux(__first, __last, __result); }
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};
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template<>
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struct __copy_normal<true, false>
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{
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template<typename _II, typename _OI>
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static _OI
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copy_n(_II __first, _II __last, _OI __result)
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{ return std::__copy_aux(__first.base(), __last.base(), __result); }
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};
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template<>
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struct __copy_normal<false, true>
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{
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template<typename _II, typename _OI>
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static _OI
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copy_n(_II __first, _II __last, _OI __result)
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{ return _OI(std::__copy_aux(__first, __last, __result.base())); }
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};
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template<>
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struct __copy_normal<true, true>
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{
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template<typename _II, typename _OI>
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static _OI
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copy_n(_II __first, _II __last, _OI __result)
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{ return _OI(std::__copy_aux(__first.base(), __last.base(),
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__result.base())); }
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};
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/**
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* @brief Copies the range [first,last) into result.
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* @param first An input iterator.
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* @param last An input iterator.
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* @param result An output iterator.
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* @return result + (first - last)
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*
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* This inline function will boil down to a call to @c memmove whenever
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* possible. Failing that, if random access iterators are passed, then the
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* loop count will be known (and therefore a candidate for compiler
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* optimizations such as unrolling). Result may not be contained within
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* [first,last); the copy_backward function should be used instead.
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*
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* Note that the end of the output range is permitted to be contained
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* within [first,last).
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*/
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template<typename _InputIterator, typename _OutputIterator>
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inline _OutputIterator
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copy(_InputIterator __first, _InputIterator __last,
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_OutputIterator __result)
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{
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// concept requirements
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__glibcxx_function_requires(_InputIteratorConcept<_InputIterator>)
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__glibcxx_function_requires(_OutputIteratorConcept<_OutputIterator,
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typename iterator_traits<_InputIterator>::value_type>)
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__glibcxx_requires_valid_range(__first, __last);
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const bool __in = __is_normal_iterator<_InputIterator>::__value;
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const bool __out = __is_normal_iterator<_OutputIterator>::__value;
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return std::__copy_normal<__in, __out>::copy_n(__first, __last,
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__result);
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}
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template<bool, typename>
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struct __copy_backward
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{
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template<typename _BI1, typename _BI2>
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static _BI2
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copy_b(_BI1 __first, _BI1 __last, _BI2 __result)
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{
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while (__first != __last)
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*--__result = *--__last;
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return __result;
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}
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};
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template<bool _BoolType>
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struct __copy_backward<_BoolType, random_access_iterator_tag>
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{
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template<typename _BI1, typename _BI2>
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static _BI2
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copy_b(_BI1 __first, _BI1 __last, _BI2 __result)
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{
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typename iterator_traits<_BI1>::difference_type __n;
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for (__n = __last - __first; __n > 0; --__n)
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*--__result = *--__last;
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return __result;
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}
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};
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template<>
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struct __copy_backward<true, random_access_iterator_tag>
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{
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template<typename _Tp>
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static _Tp*
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copy_b(const _Tp* __first, const _Tp* __last, _Tp* __result)
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{
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const ptrdiff_t _Num = __last - __first;
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std::memmove(__result - _Num, __first, sizeof(_Tp) * _Num);
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return __result - _Num;
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}
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};
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template<typename _BI1, typename _BI2>
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inline _BI2
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__copy_backward_aux(_BI1 __first, _BI1 __last, _BI2 __result)
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{
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typedef typename iterator_traits<_BI1>::value_type _ValueType1;
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typedef typename iterator_traits<_BI2>::value_type _ValueType2;
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typedef typename iterator_traits<_BI1>::iterator_category _Category;
|
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const bool __simple = (__is_scalar<_ValueType1>::__value
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&& __is_pointer<_BI1>::__value
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&& __is_pointer<_BI2>::__value
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|
&& __are_same<_ValueType1, _ValueType2>::__value);
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return std::__copy_backward<__simple, _Category>::copy_b(__first, __last,
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__result);
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}
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template<bool, bool>
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struct __copy_backward_normal
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|
{
|
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template<typename _BI1, typename _BI2>
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static _BI2
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copy_b_n(_BI1 __first, _BI1 __last, _BI2 __result)
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{ return std::__copy_backward_aux(__first, __last, __result); }
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};
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|
template<>
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struct __copy_backward_normal<true, false>
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|
{
|
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template<typename _BI1, typename _BI2>
|
|
static _BI2
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copy_b_n(_BI1 __first, _BI1 __last, _BI2 __result)
|
|
{ return std::__copy_backward_aux(__first.base(), __last.base(),
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__result); }
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};
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template<>
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struct __copy_backward_normal<false, true>
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|
{
|
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template<typename _BI1, typename _BI2>
|
|
static _BI2
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copy_b_n(_BI1 __first, _BI1 __last, _BI2 __result)
|
|
{ return _BI2(std::__copy_backward_aux(__first, __last,
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|
__result.base())); }
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};
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|
template<>
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|
struct __copy_backward_normal<true, true>
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|
{
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template<typename _BI1, typename _BI2>
|
|
static _BI2
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copy_b_n(_BI1 __first, _BI1 __last, _BI2 __result)
|
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{ return _BI2(std::__copy_backward_aux(__first.base(), __last.base(),
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__result.base())); }
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};
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|
|
/**
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|
* @brief Copies the range [first,last) into result.
|
|
* @param first A bidirectional iterator.
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|
* @param last A bidirectional iterator.
|
|
* @param result A bidirectional iterator.
|
|
* @return result - (first - last)
|
|
*
|
|
* The function has the same effect as copy, but starts at the end of the
|
|
* range and works its way to the start, returning the start of the result.
|
|
* This inline function will boil down to a call to @c memmove whenever
|
|
* possible. Failing that, if random access iterators are passed, then the
|
|
* loop count will be known (and therefore a candidate for compiler
|
|
* optimizations such as unrolling).
|
|
*
|
|
* Result may not be in the range [first,last). Use copy instead. Note
|
|
* that the start of the output range may overlap [first,last).
|
|
*/
|
|
template <typename _BI1, typename _BI2>
|
|
inline _BI2
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|
copy_backward(_BI1 __first, _BI1 __last, _BI2 __result)
|
|
{
|
|
// concept requirements
|
|
__glibcxx_function_requires(_BidirectionalIteratorConcept<_BI1>)
|
|
__glibcxx_function_requires(_Mutable_BidirectionalIteratorConcept<_BI2>)
|
|
__glibcxx_function_requires(_ConvertibleConcept<
|
|
typename iterator_traits<_BI1>::value_type,
|
|
typename iterator_traits<_BI2>::value_type>)
|
|
__glibcxx_requires_valid_range(__first, __last);
|
|
|
|
const bool __bi1 = __is_normal_iterator<_BI1>::__value;
|
|
const bool __bi2 = __is_normal_iterator<_BI2>::__value;
|
|
return std::__copy_backward_normal<__bi1, __bi2>::copy_b_n(__first, __last,
|
|
__result);
|
|
}
|
|
|
|
template<bool>
|
|
struct __fill
|
|
{
|
|
template<typename _ForwardIterator, typename _Tp>
|
|
static void
|
|
fill(_ForwardIterator __first, _ForwardIterator __last,
|
|
const _Tp& __value)
|
|
{
|
|
for (; __first != __last; ++__first)
|
|
*__first = __value;
|
|
}
|
|
};
|
|
|
|
template<>
|
|
struct __fill<true>
|
|
{
|
|
template<typename _ForwardIterator, typename _Tp>
|
|
static void
|
|
fill(_ForwardIterator __first, _ForwardIterator __last,
|
|
const _Tp& __value)
|
|
{
|
|
const _Tp __tmp = __value;
|
|
for (; __first != __last; ++__first)
|
|
*__first = __tmp;
|
|
}
|
|
};
|
|
|
|
/**
|
|
* @brief Fills the range [first,last) with copies of value.
|
|
* @param first A forward iterator.
|
|
* @param last A forward iterator.
|
|
* @param value A reference-to-const of arbitrary type.
|
|
* @return Nothing.
|
|
*
|
|
* This function fills a range with copies of the same value. For one-byte
|
|
* types filling contiguous areas of memory, this becomes an inline call to
|
|
* @c memset.
|
|
*/
|
|
template<typename _ForwardIterator, typename _Tp>
|
|
void
|
|
fill(_ForwardIterator __first, _ForwardIterator __last, const _Tp& __value)
|
|
{
|
|
// concept requirements
|
|
__glibcxx_function_requires(_Mutable_ForwardIteratorConcept<
|
|
_ForwardIterator>)
|
|
__glibcxx_requires_valid_range(__first, __last);
|
|
|
|
const bool __scalar = __is_scalar<_Tp>::__value;
|
|
std::__fill<__scalar>::fill(__first, __last, __value);
|
|
}
|
|
|
|
// Specialization: for one-byte types we can use memset.
|
|
inline void
|
|
fill(unsigned char* __first, unsigned char* __last, const unsigned char& __c)
|
|
{
|
|
__glibcxx_requires_valid_range(__first, __last);
|
|
const unsigned char __tmp = __c;
|
|
std::memset(__first, __tmp, __last - __first);
|
|
}
|
|
|
|
inline void
|
|
fill(signed char* __first, signed char* __last, const signed char& __c)
|
|
{
|
|
__glibcxx_requires_valid_range(__first, __last);
|
|
const signed char __tmp = __c;
|
|
std::memset(__first, static_cast<unsigned char>(__tmp), __last - __first);
|
|
}
|
|
|
|
inline void
|
|
fill(char* __first, char* __last, const char& __c)
|
|
{
|
|
__glibcxx_requires_valid_range(__first, __last);
|
|
const char __tmp = __c;
|
|
std::memset(__first, static_cast<unsigned char>(__tmp), __last - __first);
|
|
}
|
|
|
|
template<bool>
|
|
struct __fill_n
|
|
{
|
|
template<typename _OutputIterator, typename _Size, typename _Tp>
|
|
static _OutputIterator
|
|
fill_n(_OutputIterator __first, _Size __n, const _Tp& __value)
|
|
{
|
|
for (; __n > 0; --__n, ++__first)
|
|
*__first = __value;
|
|
return __first;
|
|
}
|
|
};
|
|
|
|
template<>
|
|
struct __fill_n<true>
|
|
{
|
|
template<typename _OutputIterator, typename _Size, typename _Tp>
|
|
static _OutputIterator
|
|
fill_n(_OutputIterator __first, _Size __n, const _Tp& __value)
|
|
{
|
|
const _Tp __tmp = __value;
|
|
for (; __n > 0; --__n, ++__first)
|
|
*__first = __tmp;
|
|
return __first;
|
|
}
|
|
};
|
|
|
|
/**
|
|
* @brief Fills the range [first,first+n) with copies of value.
|
|
* @param first An output iterator.
|
|
* @param n The count of copies to perform.
|
|
* @param value A reference-to-const of arbitrary type.
|
|
* @return The iterator at first+n.
|
|
*
|
|
* This function fills a range with copies of the same value. For one-byte
|
|
* types filling contiguous areas of memory, this becomes an inline call to
|
|
* @c memset.
|
|
*/
|
|
template<typename _OutputIterator, typename _Size, typename _Tp>
|
|
_OutputIterator
|
|
fill_n(_OutputIterator __first, _Size __n, const _Tp& __value)
|
|
{
|
|
// concept requirements
|
|
__glibcxx_function_requires(_OutputIteratorConcept<_OutputIterator, _Tp>)
|
|
|
|
const bool __scalar = __is_scalar<_Tp>::__value;
|
|
return std::__fill_n<__scalar>::fill_n(__first, __n, __value);
|
|
}
|
|
|
|
template<typename _Size>
|
|
inline unsigned char*
|
|
fill_n(unsigned char* __first, _Size __n, const unsigned char& __c)
|
|
{
|
|
std::fill(__first, __first + __n, __c);
|
|
return __first + __n;
|
|
}
|
|
|
|
template<typename _Size>
|
|
inline signed char*
|
|
fill_n(char* __first, _Size __n, const signed char& __c)
|
|
{
|
|
std::fill(__first, __first + __n, __c);
|
|
return __first + __n;
|
|
}
|
|
|
|
template<typename _Size>
|
|
inline char*
|
|
fill_n(char* __first, _Size __n, const char& __c)
|
|
{
|
|
std::fill(__first, __first + __n, __c);
|
|
return __first + __n;
|
|
}
|
|
|
|
/**
|
|
* @brief Finds the places in ranges which don't match.
|
|
* @param first1 An input iterator.
|
|
* @param last1 An input iterator.
|
|
* @param first2 An input iterator.
|
|
* @return A pair of iterators pointing to the first mismatch.
|
|
*
|
|
* This compares the elements of two ranges using @c == and returns a pair
|
|
* of iterators. The first iterator points into the first range, the
|
|
* second iterator points into the second range, and the elements pointed
|
|
* to by the iterators are not equal.
|
|
*/
|
|
template<typename _InputIterator1, typename _InputIterator2>
|
|
pair<_InputIterator1, _InputIterator2>
|
|
mismatch(_InputIterator1 __first1, _InputIterator1 __last1,
|
|
_InputIterator2 __first2)
|
|
{
|
|
// concept requirements
|
|
__glibcxx_function_requires(_InputIteratorConcept<_InputIterator1>)
|
|
__glibcxx_function_requires(_InputIteratorConcept<_InputIterator2>)
|
|
__glibcxx_function_requires(_EqualOpConcept<
|
|
typename iterator_traits<_InputIterator1>::value_type,
|
|
typename iterator_traits<_InputIterator2>::value_type>)
|
|
__glibcxx_requires_valid_range(__first1, __last1);
|
|
|
|
while (__first1 != __last1 && *__first1 == *__first2)
|
|
{
|
|
++__first1;
|
|
++__first2;
|
|
}
|
|
return pair<_InputIterator1, _InputIterator2>(__first1, __first2);
|
|
}
|
|
|
|
/**
|
|
* @brief Finds the places in ranges which don't match.
|
|
* @param first1 An input iterator.
|
|
* @param last1 An input iterator.
|
|
* @param first2 An input iterator.
|
|
* @param binary_pred A binary predicate @link s20_3_1_base functor@endlink.
|
|
* @return A pair of iterators pointing to the first mismatch.
|
|
*
|
|
* This compares the elements of two ranges using the binary_pred
|
|
* parameter, and returns a pair
|
|
* of iterators. The first iterator points into the first range, the
|
|
* second iterator points into the second range, and the elements pointed
|
|
* to by the iterators are not equal.
|
|
*/
|
|
template<typename _InputIterator1, typename _InputIterator2,
|
|
typename _BinaryPredicate>
|
|
pair<_InputIterator1, _InputIterator2>
|
|
mismatch(_InputIterator1 __first1, _InputIterator1 __last1,
|
|
_InputIterator2 __first2, _BinaryPredicate __binary_pred)
|
|
{
|
|
// concept requirements
|
|
__glibcxx_function_requires(_InputIteratorConcept<_InputIterator1>)
|
|
__glibcxx_function_requires(_InputIteratorConcept<_InputIterator2>)
|
|
__glibcxx_requires_valid_range(__first1, __last1);
|
|
|
|
while (__first1 != __last1 && __binary_pred(*__first1, *__first2))
|
|
{
|
|
++__first1;
|
|
++__first2;
|
|
}
|
|
return pair<_InputIterator1, _InputIterator2>(__first1, __first2);
|
|
}
|
|
|
|
/**
|
|
* @brief Tests a range for element-wise equality.
|
|
* @param first1 An input iterator.
|
|
* @param last1 An input iterator.
|
|
* @param first2 An input iterator.
|
|
* @return A boolean true or false.
|
|
*
|
|
* This compares the elements of two ranges using @c == and returns true or
|
|
* false depending on whether all of the corresponding elements of the
|
|
* ranges are equal.
|
|
*/
|
|
template<typename _InputIterator1, typename _InputIterator2>
|
|
inline bool
|
|
equal(_InputIterator1 __first1, _InputIterator1 __last1,
|
|
_InputIterator2 __first2)
|
|
{
|
|
// concept requirements
|
|
__glibcxx_function_requires(_InputIteratorConcept<_InputIterator1>)
|
|
__glibcxx_function_requires(_InputIteratorConcept<_InputIterator2>)
|
|
__glibcxx_function_requires(_EqualOpConcept<
|
|
typename iterator_traits<_InputIterator1>::value_type,
|
|
typename iterator_traits<_InputIterator2>::value_type>)
|
|
__glibcxx_requires_valid_range(__first1, __last1);
|
|
|
|
for (; __first1 != __last1; ++__first1, ++__first2)
|
|
if (!(*__first1 == *__first2))
|
|
return false;
|
|
return true;
|
|
}
|
|
|
|
/**
|
|
* @brief Tests a range for element-wise equality.
|
|
* @param first1 An input iterator.
|
|
* @param last1 An input iterator.
|
|
* @param first2 An input iterator.
|
|
* @param binary_pred A binary predicate @link s20_3_1_base functor@endlink.
|
|
* @return A boolean true or false.
|
|
*
|
|
* This compares the elements of two ranges using the binary_pred
|
|
* parameter, and returns true or
|
|
* false depending on whether all of the corresponding elements of the
|
|
* ranges are equal.
|
|
*/
|
|
template<typename _InputIterator1, typename _InputIterator2,
|
|
typename _BinaryPredicate>
|
|
inline bool
|
|
equal(_InputIterator1 __first1, _InputIterator1 __last1,
|
|
_InputIterator2 __first2,
|
|
_BinaryPredicate __binary_pred)
|
|
{
|
|
// concept requirements
|
|
__glibcxx_function_requires(_InputIteratorConcept<_InputIterator1>)
|
|
__glibcxx_function_requires(_InputIteratorConcept<_InputIterator2>)
|
|
__glibcxx_requires_valid_range(__first1, __last1);
|
|
|
|
for (; __first1 != __last1; ++__first1, ++__first2)
|
|
if (!__binary_pred(*__first1, *__first2))
|
|
return false;
|
|
return true;
|
|
}
|
|
|
|
/**
|
|
* @brief Performs "dictionary" comparison on ranges.
|
|
* @param first1 An input iterator.
|
|
* @param last1 An input iterator.
|
|
* @param first2 An input iterator.
|
|
* @param last2 An input iterator.
|
|
* @return A boolean true or false.
|
|
*
|
|
* "Returns true if the sequence of elements defined by the range
|
|
* [first1,last1) is lexicographically less than the sequence of elements
|
|
* defined by the range [first2,last2). Returns false otherwise."
|
|
* (Quoted from [25.3.8]/1.) If the iterators are all character pointers,
|
|
* then this is an inline call to @c memcmp.
|
|
*/
|
|
template<typename _InputIterator1, typename _InputIterator2>
|
|
bool
|
|
lexicographical_compare(_InputIterator1 __first1, _InputIterator1 __last1,
|
|
_InputIterator2 __first2, _InputIterator2 __last2)
|
|
{
|
|
// concept requirements
|
|
__glibcxx_function_requires(_InputIteratorConcept<_InputIterator1>)
|
|
__glibcxx_function_requires(_InputIteratorConcept<_InputIterator2>)
|
|
__glibcxx_function_requires(_LessThanOpConcept<
|
|
typename iterator_traits<_InputIterator1>::value_type,
|
|
typename iterator_traits<_InputIterator2>::value_type>)
|
|
__glibcxx_function_requires(_LessThanOpConcept<
|
|
typename iterator_traits<_InputIterator2>::value_type,
|
|
typename iterator_traits<_InputIterator1>::value_type>)
|
|
__glibcxx_requires_valid_range(__first1, __last1);
|
|
__glibcxx_requires_valid_range(__first2, __last2);
|
|
|
|
for (; __first1 != __last1 && __first2 != __last2;
|
|
++__first1, ++__first2)
|
|
{
|
|
if (*__first1 < *__first2)
|
|
return true;
|
|
if (*__first2 < *__first1)
|
|
return false;
|
|
}
|
|
return __first1 == __last1 && __first2 != __last2;
|
|
}
|
|
|
|
/**
|
|
* @brief Performs "dictionary" comparison on ranges.
|
|
* @param first1 An input iterator.
|
|
* @param last1 An input iterator.
|
|
* @param first2 An input iterator.
|
|
* @param last2 An input iterator.
|
|
* @param comp A @link s20_3_3_comparisons comparison functor@endlink.
|
|
* @return A boolean true or false.
|
|
*
|
|
* The same as the four-parameter @c lexigraphical_compare, but uses the
|
|
* comp parameter instead of @c <.
|
|
*/
|
|
template<typename _InputIterator1, typename _InputIterator2,
|
|
typename _Compare>
|
|
bool
|
|
lexicographical_compare(_InputIterator1 __first1, _InputIterator1 __last1,
|
|
_InputIterator2 __first2, _InputIterator2 __last2,
|
|
_Compare __comp)
|
|
{
|
|
// concept requirements
|
|
__glibcxx_function_requires(_InputIteratorConcept<_InputIterator1>)
|
|
__glibcxx_function_requires(_InputIteratorConcept<_InputIterator2>)
|
|
__glibcxx_requires_valid_range(__first1, __last1);
|
|
__glibcxx_requires_valid_range(__first2, __last2);
|
|
|
|
for (; __first1 != __last1 && __first2 != __last2;
|
|
++__first1, ++__first2)
|
|
{
|
|
if (__comp(*__first1, *__first2))
|
|
return true;
|
|
if (__comp(*__first2, *__first1))
|
|
return false;
|
|
}
|
|
return __first1 == __last1 && __first2 != __last2;
|
|
}
|
|
|
|
inline bool
|
|
lexicographical_compare(const unsigned char* __first1,
|
|
const unsigned char* __last1,
|
|
const unsigned char* __first2,
|
|
const unsigned char* __last2)
|
|
{
|
|
__glibcxx_requires_valid_range(__first1, __last1);
|
|
__glibcxx_requires_valid_range(__first2, __last2);
|
|
|
|
const size_t __len1 = __last1 - __first1;
|
|
const size_t __len2 = __last2 - __first2;
|
|
const int __result = std::memcmp(__first1, __first2,
|
|
std::min(__len1, __len2));
|
|
return __result != 0 ? __result < 0 : __len1 < __len2;
|
|
}
|
|
|
|
inline bool
|
|
lexicographical_compare(const char* __first1, const char* __last1,
|
|
const char* __first2, const char* __last2)
|
|
{
|
|
__glibcxx_requires_valid_range(__first1, __last1);
|
|
__glibcxx_requires_valid_range(__first2, __last2);
|
|
|
|
#if CHAR_MAX == SCHAR_MAX
|
|
return std::lexicographical_compare((const signed char*) __first1,
|
|
(const signed char*) __last1,
|
|
(const signed char*) __first2,
|
|
(const signed char*) __last2);
|
|
#else /* CHAR_MAX == SCHAR_MAX */
|
|
return std::lexicographical_compare((const unsigned char*) __first1,
|
|
(const unsigned char*) __last1,
|
|
(const unsigned char*) __first2,
|
|
(const unsigned char*) __last2);
|
|
#endif /* CHAR_MAX == SCHAR_MAX */
|
|
}
|
|
|
|
} // namespace std
|
|
|
|
#endif
|