f2ced752a0
- this differs slightly from the one that lives in buildtools/gcc as it has been "ported" to the newer libio that haiku uses as part of its own libroot git-svn-id: file:///srv/svn/repos/haiku/trunk/current@9906 a95241bf-73f2-0310-859d-f6bbb57e9c96
527 lines
17 KiB
C++
527 lines
17 KiB
C++
/*
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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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/* NOTE: This is an internal header file, included by other STL headers.
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* You should not attempt to use it directly.
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*/
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#ifndef __SGI_STL_INTERNAL_ALGOBASE_H
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#define __SGI_STL_INTERNAL_ALGOBASE_H
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#ifndef __STL_CONFIG_H
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#include <stl_config.h>
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#endif
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#ifndef __SGI_STL_INTERNAL_RELOPS
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#include <stl_relops.h>
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#endif
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#ifndef __SGI_STL_INTERNAL_PAIR_H
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#include <stl_pair.h>
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#endif
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#ifndef __TYPE_TRAITS_H_
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#include <type_traits.h>
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#endif
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#include <string.h>
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#include <limits.h>
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#include <stdlib.h>
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#include <stddef.h>
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#include <new.h>
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#include <iostream.h>
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#ifndef __SGI_STL_INTERNAL_ITERATOR_H
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#include <stl_iterator.h>
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#endif
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__STL_BEGIN_NAMESPACE
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// swap and iter_swap
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template <class _ForwardIter1, class _ForwardIter2, class _Tp>
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inline void __iter_swap(_ForwardIter1 __a, _ForwardIter2 __b, _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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template <class _ForwardIter1, class _ForwardIter2>
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inline void iter_swap(_ForwardIter1 __a, _ForwardIter2 __b) {
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__iter_swap(__a, __b, __VALUE_TYPE(__a));
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}
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template <class _Tp>
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inline void swap(_Tp& __a, _Tp& __b) {
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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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//--------------------------------------------------
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// min and max
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#ifndef __BORLANDC__
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#undef min
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#undef max
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template <class _Tp>
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inline const _Tp& min(const _Tp& __a, const _Tp& __b) {
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return __b < __a ? __b : __a;
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}
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template <class _Tp>
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inline const _Tp& max(const _Tp& __a, const _Tp& __b) {
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return __a < __b ? __b : __a;
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}
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#endif /* __BORLANDC__ */
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template <class _Tp, class _Compare>
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inline const _Tp& min(const _Tp& __a, const _Tp& __b, _Compare __comp) {
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return __comp(__b, __a) ? __b : __a;
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}
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template <class _Tp, class _Compare>
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inline const _Tp& max(const _Tp& __a, const _Tp& __b, _Compare __comp) {
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return __comp(__a, __b) ? __b : __a;
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}
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//--------------------------------------------------
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// copy
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// All of these auxiliary functions 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. The auxiliary class __copy_dispatch
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// is a workaround for compilers that don't support partial ordering of
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// function templates.
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template <class _InputIter, class _OutputIter, class _Distance>
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inline _OutputIter __copy(_InputIter __first, _InputIter __last,
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_OutputIter __result,
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input_iterator_tag, _Distance*)
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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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template <class _RandomAccessIter, class _OutputIter, class _Distance>
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inline _OutputIter
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__copy(_RandomAccessIter __first, _RandomAccessIter __last,
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_OutputIter __result, random_access_iterator_tag, _Distance*)
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{
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for (_Distance __n = __last - __first; __n > 0; --__n) {
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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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template <class _Tp>
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inline _Tp*
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__copy_trivial(const _Tp* __first, const _Tp* __last, _Tp* __result) {
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memmove(__result, __first, sizeof(_Tp) * (__last - __first));
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return __result + (__last - __first);
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}
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#ifdef __STL_CLASS_PARTIAL_SPECIALIZATION
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template <class _InputIter, class _OutputIter, class _BoolType>
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struct __copy_dispatch {
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static _OutputIter copy(_InputIter __first, _InputIter __last,
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_OutputIter __result) {
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typedef typename iterator_traits<_InputIter>::iterator_category _Category;
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typedef typename iterator_traits<_InputIter>::difference_type _Distance;
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return __copy(__first, __last, __result, _Category(), (_Distance*) 0);
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}
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};
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template <class _Tp>
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struct __copy_dispatch<_Tp*, _Tp*, __true_type>
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{
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static _Tp* copy(const _Tp* __first, const _Tp* __last, _Tp* __result) {
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return __copy_trivial(__first, __last, __result);
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}
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};
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template <class _Tp>
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struct __copy_dispatch<const _Tp*, _Tp*, __true_type>
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{
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static _Tp* copy(const _Tp* __first, const _Tp* __last, _Tp* __result) {
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return __copy_trivial(__first, __last, __result);
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}
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};
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template <class _InputIter, class _OutputIter>
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inline _OutputIter copy(_InputIter __first, _InputIter __last,
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_OutputIter __result) {
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typedef typename iterator_traits<_InputIter>::value_type _Tp;
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typedef typename __type_traits<_Tp>::has_trivial_assignment_operator
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_Trivial;
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return __copy_dispatch<_InputIter, _OutputIter, _Trivial>
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::copy(__first, __last, __result);
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}
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#else /* __STL_CLASS_PARTIAL_SPECIALIZATION */
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template <class _InputIter, class _OutputIter>
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inline _OutputIter copy(_InputIter __first, _InputIter __last,
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_OutputIter __result)
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{
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return __copy(__first, __last, __result,
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__ITERATOR_CATEGORY(__first),
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__DISTANCE_TYPE(__first));
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}
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inline char* copy(const char* __first, const char* __last, char* __result) {
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memmove(__result, __first, __last - __first);
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return __result + (__last - __first);
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}
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inline wchar_t* copy(const wchar_t* __first, const wchar_t* __last,
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wchar_t* __result) {
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memmove(__result, __first, sizeof(wchar_t) * (__last - __first));
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return __result + (__last - __first);
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}
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#endif /* __STL_CLASS_PARTIAL_SPECIALIZATION */
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//--------------------------------------------------
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// copy_backward
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template <class _BidirectionalIter1, class _BidirectionalIter2,
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class _Distance>
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inline _BidirectionalIter2 __copy_backward(_BidirectionalIter1 __first,
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_BidirectionalIter1 __last,
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_BidirectionalIter2 __result,
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bidirectional_iterator_tag,
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_Distance*)
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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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template <class _RandomAccessIter, class _BidirectionalIter, class _Distance>
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inline _BidirectionalIter __copy_backward(_RandomAccessIter __first,
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_RandomAccessIter __last,
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_BidirectionalIter __result,
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random_access_iterator_tag,
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_Distance*)
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{
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for (_Distance __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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#ifdef __STL_CLASS_PARTIAL_SPECIALIZATION
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// This dispatch class is a workaround for compilers that do not
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// have partial ordering of function templates. All we're doing is
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// creating a specialization so that we can turn a call to copy_backward
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// into a memmove whenever possible.
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template <class _BidirectionalIter1, class _BidirectionalIter2,
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class _BoolType>
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struct __copy_backward_dispatch
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{
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typedef typename iterator_traits<_BidirectionalIter1>::iterator_category
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_Cat;
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typedef typename iterator_traits<_BidirectionalIter1>::difference_type
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_Distance;
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static _BidirectionalIter2 copy(_BidirectionalIter1 __first,
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_BidirectionalIter1 __last,
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_BidirectionalIter2 __result) {
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return __copy_backward(__first, __last, __result, _Cat(), (_Distance*) 0);
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}
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};
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template <class _Tp>
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struct __copy_backward_dispatch<_Tp*, _Tp*, __true_type>
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{
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static _Tp* copy(const _Tp* __first, const _Tp* __last, _Tp* __result) {
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const ptrdiff_t _Num = __last - __first;
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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 <class _Tp>
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struct __copy_backward_dispatch<const _Tp*, _Tp*, __true_type>
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{
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static _Tp* copy(const _Tp* __first, const _Tp* __last, _Tp* __result) {
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return __copy_backward_dispatch<_Tp*, _Tp*, __true_type>
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::copy(__first, __last, __result);
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}
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};
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template <class _BI1, class _BI2>
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inline _BI2 copy_backward(_BI1 __first, _BI1 __last, _BI2 __result) {
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typedef typename __type_traits<typename iterator_traits<_BI2>::value_type>
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::has_trivial_assignment_operator
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_Trivial;
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return __copy_backward_dispatch<_BI1, _BI2, _Trivial>
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::copy(__first, __last, __result);
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}
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#else /* __STL_CLASS_PARTIAL_SPECIALIZATION */
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template <class _BI1, class _BI2>
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inline _BI2 copy_backward(_BI1 __first, _BI1 __last, _BI2 __result) {
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return __copy_backward(__first, __last, __result,
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__ITERATOR_CATEGORY(__first),
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__DISTANCE_TYPE(__first));
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}
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#endif /* __STL_CLASS_PARTIAL_SPECIALIZATION */
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//--------------------------------------------------
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// copy_n (not part of the C++ standard)
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template <class _InputIter, class _Size, class _OutputIter>
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pair<_InputIter, _OutputIter> __copy_n(_InputIter __first, _Size __count,
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_OutputIter __result,
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input_iterator_tag) {
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for ( ; __count > 0; --__count) {
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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 pair<_InputIter, _OutputIter>(__first, __result);
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}
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template <class _RAIter, class _Size, class _OutputIter>
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inline pair<_RAIter, _OutputIter>
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__copy_n(_RAIter __first, _Size __count,
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_OutputIter __result,
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random_access_iterator_tag) {
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_RAIter __last = __first + __count;
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return pair<_RAIter, _OutputIter>(__last, copy(__first, __last, __result));
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}
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template <class _InputIter, class _Size, class _OutputIter>
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inline pair<_InputIter, _OutputIter>
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__copy_n(_InputIter __first, _Size __count, _OutputIter __result) {
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return __copy_n(__first, __count, __result,
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__ITERATOR_CATEGORY(__first));
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}
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template <class _InputIter, class _Size, class _OutputIter>
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inline pair<_InputIter, _OutputIter>
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copy_n(_InputIter __first, _Size __count, _OutputIter __result) {
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return __copy_n(__first, __count, __result);
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}
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//--------------------------------------------------
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// fill and fill_n
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template <class _ForwardIter, class _Tp>
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void fill(_ForwardIter __first, _ForwardIter __last, const _Tp& __value) {
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for ( ; __first != __last; ++__first)
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*__first = __value;
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}
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template <class _OutputIter, class _Size, class _Tp>
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_OutputIter fill_n(_OutputIter __first, _Size __n, const _Tp& __value) {
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for ( ; __n > 0; --__n, ++__first)
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*__first = __value;
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return __first;
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}
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//--------------------------------------------------
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// equal and mismatch
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template <class _InputIter1, class _InputIter2>
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pair<_InputIter1, _InputIter2> mismatch(_InputIter1 __first1,
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_InputIter1 __last1,
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_InputIter2 __first2) {
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while (__first1 != __last1 && *__first1 == *__first2) {
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++__first1;
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++__first2;
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}
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return pair<_InputIter1, _InputIter2>(__first1, __first2);
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}
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template <class _InputIter1, class _InputIter2, class _BinaryPredicate>
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pair<_InputIter1, _InputIter2> mismatch(_InputIter1 __first1,
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_InputIter1 __last1,
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_InputIter2 __first2,
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_BinaryPredicate __binary_pred) {
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while (__first1 != __last1 && __binary_pred(*__first1, *__first2)) {
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++__first1;
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++__first2;
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}
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return pair<_InputIter1, _InputIter2>(__first1, __first2);
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}
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template <class _InputIter1, class _InputIter2>
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inline bool equal(_InputIter1 __first1, _InputIter1 __last1,
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_InputIter2 __first2) {
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for ( ; __first1 != __last1; ++__first1, ++__first2)
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if (*__first1 != *__first2)
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return false;
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return true;
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}
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template <class _InputIter1, class _InputIter2, class _BinaryPredicate>
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inline bool equal(_InputIter1 __first1, _InputIter1 __last1,
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_InputIter2 __first2, _BinaryPredicate __binary_pred) {
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for ( ; __first1 != __last1; ++__first1, ++__first2)
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if (!__binary_pred(*__first1, *__first2))
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return false;
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return true;
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}
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//--------------------------------------------------
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// lexicographical_compare and lexicographical_compare_3way.
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// (the latter is not part of the C++ standard.)
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template <class _InputIter1, class _InputIter2>
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bool lexicographical_compare(_InputIter1 __first1, _InputIter1 __last1,
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_InputIter2 __first2, _InputIter2 __last2) {
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for ( ; __first1 != __last1 && __first2 != __last2
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; ++__first1, ++__first2) {
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if (*__first1 < *__first2)
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return true;
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if (*__first2 < *__first1)
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return false;
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}
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return __first1 == __last1 && __first2 != __last2;
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}
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template <class _InputIter1, class _InputIter2, class _Compare>
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bool lexicographical_compare(_InputIter1 __first1, _InputIter1 __last1,
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_InputIter2 __first2, _InputIter2 __last2,
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_Compare __comp) {
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for ( ; __first1 != __last1 && __first2 != __last2
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; ++__first1, ++__first2) {
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if (__comp(*__first1, *__first2))
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return true;
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if (__comp(*__first2, *__first1))
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return false;
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}
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return __first1 == __last1 && __first2 != __last2;
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}
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inline bool
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lexicographical_compare(const unsigned char* __first1,
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const unsigned char* __last1,
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const unsigned char* __first2,
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const unsigned char* __last2)
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{
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const size_t __len1 = __last1 - __first1;
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const size_t __len2 = __last2 - __first2;
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const int __result = memcmp(__first1, __first2, min(__len1, __len2));
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return __result != 0 ? __result < 0 : __len1 < __len2;
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}
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inline bool lexicographical_compare(const char* __first1, const char* __last1,
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const char* __first2, const char* __last2)
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{
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#if CHAR_MAX == SCHAR_MAX
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return lexicographical_compare((const signed char*) __first1,
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(const signed char*) __last1,
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(const signed char*) __first2,
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(const signed char*) __last2);
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#else /* CHAR_MAX == SCHAR_MAX */
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return lexicographical_compare((const unsigned char*) __first1,
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(const unsigned char*) __last1,
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(const unsigned char*) __first2,
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(const unsigned char*) __last2);
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#endif /* CHAR_MAX == SCHAR_MAX */
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}
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template <class _InputIter1, class _InputIter2>
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int __lexicographical_compare_3way(_InputIter1 __first1, _InputIter1 __last1,
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_InputIter2 __first2, _InputIter2 __last2)
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{
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while (__first1 != __last1 && __first2 != __last2) {
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if (*__first1 < *__first2)
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return -1;
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if (*__first2 < *__first1)
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return 1;
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++__first1;
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++__first2;
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}
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if (__first2 == __last2) {
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return !(__first1 == __last1);
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}
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else {
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return -1;
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}
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}
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inline int
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__lexicographical_compare_3way(const unsigned char* __first1,
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const unsigned char* __last1,
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const unsigned char* __first2,
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const unsigned char* __last2)
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{
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const ptrdiff_t __len1 = __last1 - __first1;
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const ptrdiff_t __len2 = __last2 - __first2;
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const int __result = memcmp(__first1, __first2, min(__len1, __len2));
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return __result != 0 ? __result
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: (__len1 == __len2 ? 0 : (__len1 < __len2 ? -1 : 1));
|
|
}
|
|
|
|
inline int
|
|
__lexicographical_compare_3way(const char* __first1, const char* __last1,
|
|
const char* __first2, const char* __last2)
|
|
{
|
|
#if CHAR_MAX == SCHAR_MAX
|
|
return __lexicographical_compare_3way(
|
|
(const signed char*) __first1,
|
|
(const signed char*) __last1,
|
|
(const signed char*) __first2,
|
|
(const signed char*) __last2);
|
|
#else
|
|
return __lexicographical_compare_3way((const unsigned char*) __first1,
|
|
(const unsigned char*) __last1,
|
|
(const unsigned char*) __first2,
|
|
(const unsigned char*) __last2);
|
|
#endif
|
|
}
|
|
|
|
template <class _InputIter1, class _InputIter2>
|
|
int lexicographical_compare_3way(_InputIter1 __first1, _InputIter1 __last1,
|
|
_InputIter2 __first2, _InputIter2 __last2)
|
|
{
|
|
return __lexicographical_compare_3way(__first1, __last1, __first2, __last2);
|
|
}
|
|
|
|
__STL_END_NAMESPACE
|
|
|
|
#endif /* __SGI_STL_INTERNAL_ALGOBASE_H */
|
|
|
|
// Local Variables:
|
|
// mode:C++
|
|
// End:
|