94df301fa0
PR c++/24163 PR c++/29131 gcc/cp/ * pt.c (tsubst_copy_and_build) [CALL_EXPR]: Avoid repeating unqualified lookup. * semantics.c (perform_koenig_lookup): Add complain parm. * cp-tree.h: Adjust. * parser.c (cp_parser_postfix_expression): Adjust. (cp_parser_perform_range_for_lookup): Adjust. libstdc++-v3/ * include/ext/pb_ds/assoc_container.hpp: Explicitly qualify calls to functions from dependent bases. * include/ext/pb_ds/detail/rb_tree_map_/erase_fn_imps.hpp: Likewise. * include/ext/pb_ds/detail/rb_tree_map_/ split_join_fn_imps.hpp: Likewise. * include/ext/pb_ds/detail/splay_tree_/erase_fn_imps.hpp: Likewise. * include/ext/pb_ds/detail/splay_tree_/insert_fn_imps.hpp: Likewise. * include/ext/pb_ds/detail/splay_tree_/splay_fn_imps.hpp: Likewise. * include/ext/pb_ds/detail/splay_tree_/ split_join_fn_imps.hpp: Likewise. * include/ext/pb_ds/detail/tree_policy/ order_statistics_imp.hpp: Likewise. * include/ext/pb_ds/detail/trie_policy/ prefix_search_node_update_imp.hpp: Likewise. * include/ext/rc_string_base.h: Likewise. * include/ext/rope: Likewise. * include/ext/ropeimpl.h: Likewise. * testsuite/util/exception/safety.h: Likewise. * testsuite/util/native_type/native_priority_queue.hpp: Likewise. * testsuite/util/testsuite_io.h: Likewise. * include/std/functional: Declare mem_fn earlier. * include/tr1/functional: Likewise. * include/tr1/exp_integral.tcc: Declare __expint_E1 earlier. From-SVN: r173965
734 lines
23 KiB
C++
734 lines
23 KiB
C++
// Reference-counted versatile string base -*- C++ -*-
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// Copyright (C) 2005, 2006, 2007, 2008, 2009, 2010
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// 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 3, 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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// Under Section 7 of GPL version 3, you are granted additional
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// permissions described in the GCC Runtime Library Exception, version
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// 3.1, as published by the Free Software Foundation.
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// You should have received a copy of the GNU General Public License and
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// a copy of the GCC Runtime Library Exception along with this program;
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// see the files COPYING3 and COPYING.RUNTIME respectively. If not, see
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// <http://www.gnu.org/licenses/>.
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/** @file ext/rc_string_base.h
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* This is an internal header file, included by other library headers.
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* Do not attempt to use it directly. @headername{ext/vstring.h}
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*/
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#ifndef _RC_STRING_BASE_H
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#define _RC_STRING_BASE_H 1
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#include <ext/atomicity.h>
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#include <bits/stl_iterator_base_funcs.h>
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namespace __gnu_cxx _GLIBCXX_VISIBILITY(default)
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{
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_GLIBCXX_BEGIN_NAMESPACE_VERSION
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/**
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* Documentation? What's that?
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* Nathan Myers <ncm@cantrip.org>.
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*
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* A string looks like this:
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*
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* @code
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* [_Rep]
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* _M_length
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* [__rc_string_base<char_type>] _M_capacity
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* _M_dataplus _M_refcount
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* _M_p ----------------> unnamed array of char_type
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* @endcode
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*
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* Where the _M_p points to the first character in the string, and
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* you cast it to a pointer-to-_Rep and subtract 1 to get a
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* pointer to the header.
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*
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* This approach has the enormous advantage that a string object
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* requires only one allocation. All the ugliness is confined
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* within a single pair of inline functions, which each compile to
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* a single @a add instruction: _Rep::_M_refdata(), and
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* __rc_string_base::_M_rep(); and the allocation function which gets a
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* block of raw bytes and with room enough and constructs a _Rep
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* object at the front.
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*
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* The reason you want _M_data pointing to the character array and
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* not the _Rep is so that the debugger can see the string
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* contents. (Probably we should add a non-inline member to get
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* the _Rep for the debugger to use, so users can check the actual
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* string length.)
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*
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* Note that the _Rep object is a POD so that you can have a
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* static <em>empty string</em> _Rep object already @a constructed before
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* static constructors have run. The reference-count encoding is
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* chosen so that a 0 indicates one reference, so you never try to
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* destroy the empty-string _Rep object.
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*
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* All but the last paragraph is considered pretty conventional
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* for a C++ string implementation.
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*/
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template<typename _CharT, typename _Traits, typename _Alloc>
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class __rc_string_base
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: protected __vstring_utility<_CharT, _Traits, _Alloc>
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{
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public:
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typedef _Traits traits_type;
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typedef typename _Traits::char_type value_type;
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typedef _Alloc allocator_type;
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typedef __vstring_utility<_CharT, _Traits, _Alloc> _Util_Base;
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typedef typename _Util_Base::_CharT_alloc_type _CharT_alloc_type;
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typedef typename _CharT_alloc_type::size_type size_type;
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private:
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// _Rep: string representation
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// Invariants:
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// 1. String really contains _M_length + 1 characters: due to 21.3.4
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// must be kept null-terminated.
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// 2. _M_capacity >= _M_length
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// Allocated memory is always (_M_capacity + 1) * sizeof(_CharT).
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// 3. _M_refcount has three states:
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// -1: leaked, one reference, no ref-copies allowed, non-const.
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// 0: one reference, non-const.
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// n>0: n + 1 references, operations require a lock, const.
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// 4. All fields == 0 is an empty string, given the extra storage
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// beyond-the-end for a null terminator; thus, the shared
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// empty string representation needs no constructor.
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struct _Rep
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{
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union
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{
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struct
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{
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size_type _M_length;
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size_type _M_capacity;
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_Atomic_word _M_refcount;
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} _M_info;
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// Only for alignment purposes.
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_CharT _M_align;
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};
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typedef typename _Alloc::template rebind<_Rep>::other _Rep_alloc_type;
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_CharT*
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_M_refdata() throw()
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{ return reinterpret_cast<_CharT*>(this + 1); }
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_CharT*
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_M_refcopy() throw()
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{
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__atomic_add_dispatch(&_M_info._M_refcount, 1);
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return _M_refdata();
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} // XXX MT
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void
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_M_set_length(size_type __n)
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{
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_M_info._M_refcount = 0; // One reference.
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_M_info._M_length = __n;
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// grrr. (per 21.3.4)
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// You cannot leave those LWG people alone for a second.
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traits_type::assign(_M_refdata()[__n], _CharT());
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}
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// Create & Destroy
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static _Rep*
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_S_create(size_type, size_type, const _Alloc&);
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void
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_M_destroy(const _Alloc&) throw();
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_CharT*
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_M_clone(const _Alloc&, size_type __res = 0);
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};
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struct _Rep_empty
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: public _Rep
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{
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_CharT _M_terminal;
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};
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static _Rep_empty _S_empty_rep;
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// The maximum number of individual char_type elements of an
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// individual string is determined by _S_max_size. This is the
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// value that will be returned by max_size(). (Whereas npos
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// is the maximum number of bytes the allocator can allocate.)
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// If one was to divvy up the theoretical largest size string,
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// with a terminating character and m _CharT elements, it'd
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// look like this:
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// npos = sizeof(_Rep) + (m * sizeof(_CharT)) + sizeof(_CharT)
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// + sizeof(_Rep) - 1
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// (NB: last two terms for rounding reasons, see _M_create below)
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// Solving for m:
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// m = ((npos - 2 * sizeof(_Rep) + 1) / sizeof(_CharT)) - 1
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// In addition, this implementation halves this amount.
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enum { _S_max_size = (((static_cast<size_type>(-1) - 2 * sizeof(_Rep)
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+ 1) / sizeof(_CharT)) - 1) / 2 };
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// Data Member (private):
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mutable typename _Util_Base::template _Alloc_hider<_Alloc> _M_dataplus;
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void
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_M_data(_CharT* __p)
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{ _M_dataplus._M_p = __p; }
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_Rep*
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_M_rep() const
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{ return &((reinterpret_cast<_Rep*>(_M_data()))[-1]); }
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_CharT*
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_M_grab(const _Alloc& __alloc) const
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{
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return (!_M_is_leaked() && _M_get_allocator() == __alloc)
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? _M_rep()->_M_refcopy() : _M_rep()->_M_clone(__alloc);
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}
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void
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_M_dispose()
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{
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// Be race-detector-friendly. For more info see bits/c++config.
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_GLIBCXX_SYNCHRONIZATION_HAPPENS_BEFORE(&_M_rep()->_M_info.
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_M_refcount);
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if (__exchange_and_add_dispatch(&_M_rep()->_M_info._M_refcount,
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-1) <= 0)
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{
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_GLIBCXX_SYNCHRONIZATION_HAPPENS_AFTER(&_M_rep()->_M_info.
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_M_refcount);
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_M_rep()->_M_destroy(_M_get_allocator());
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}
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} // XXX MT
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bool
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_M_is_leaked() const
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{ return _M_rep()->_M_info._M_refcount < 0; }
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void
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_M_set_sharable()
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{ _M_rep()->_M_info._M_refcount = 0; }
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void
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_M_leak_hard();
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// _S_construct_aux is used to implement the 21.3.1 para 15 which
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// requires special behaviour if _InIterator is an integral type
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template<typename _InIterator>
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static _CharT*
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_S_construct_aux(_InIterator __beg, _InIterator __end,
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const _Alloc& __a, std::__false_type)
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{
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typedef typename iterator_traits<_InIterator>::iterator_category _Tag;
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return _S_construct(__beg, __end, __a, _Tag());
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}
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// _GLIBCXX_RESOLVE_LIB_DEFECTS
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// 438. Ambiguity in the "do the right thing" clause
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template<typename _Integer>
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static _CharT*
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_S_construct_aux(_Integer __beg, _Integer __end,
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const _Alloc& __a, std::__true_type)
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{ return _S_construct_aux_2(static_cast<size_type>(__beg),
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__end, __a); }
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static _CharT*
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_S_construct_aux_2(size_type __req, _CharT __c, const _Alloc& __a)
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{ return _S_construct(__req, __c, __a); }
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template<typename _InIterator>
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static _CharT*
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_S_construct(_InIterator __beg, _InIterator __end, const _Alloc& __a)
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{
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typedef typename std::__is_integer<_InIterator>::__type _Integral;
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return _S_construct_aux(__beg, __end, __a, _Integral());
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}
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// For Input Iterators, used in istreambuf_iterators, etc.
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template<typename _InIterator>
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static _CharT*
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_S_construct(_InIterator __beg, _InIterator __end, const _Alloc& __a,
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std::input_iterator_tag);
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// For forward_iterators up to random_access_iterators, used for
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// string::iterator, _CharT*, etc.
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template<typename _FwdIterator>
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static _CharT*
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_S_construct(_FwdIterator __beg, _FwdIterator __end, const _Alloc& __a,
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std::forward_iterator_tag);
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static _CharT*
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_S_construct(size_type __req, _CharT __c, const _Alloc& __a);
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public:
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size_type
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_M_max_size() const
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{ return size_type(_S_max_size); }
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_CharT*
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_M_data() const
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{ return _M_dataplus._M_p; }
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size_type
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_M_length() const
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{ return _M_rep()->_M_info._M_length; }
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size_type
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_M_capacity() const
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{ return _M_rep()->_M_info._M_capacity; }
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bool
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_M_is_shared() const
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{ return _M_rep()->_M_info._M_refcount > 0; }
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void
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_M_set_leaked()
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{ _M_rep()->_M_info._M_refcount = -1; }
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void
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_M_leak() // for use in begin() & non-const op[]
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{
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if (!_M_is_leaked())
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_M_leak_hard();
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}
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void
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_M_set_length(size_type __n)
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{ _M_rep()->_M_set_length(__n); }
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__rc_string_base()
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: _M_dataplus(_S_empty_rep._M_refcopy()) { }
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__rc_string_base(const _Alloc& __a);
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__rc_string_base(const __rc_string_base& __rcs);
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#ifdef __GXX_EXPERIMENTAL_CXX0X__
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__rc_string_base(__rc_string_base&& __rcs)
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: _M_dataplus(__rcs._M_dataplus)
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{ __rcs._M_data(_S_empty_rep._M_refcopy()); }
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#endif
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__rc_string_base(size_type __n, _CharT __c, const _Alloc& __a);
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template<typename _InputIterator>
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__rc_string_base(_InputIterator __beg, _InputIterator __end,
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const _Alloc& __a);
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~__rc_string_base()
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{ _M_dispose(); }
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allocator_type&
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_M_get_allocator()
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{ return _M_dataplus; }
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const allocator_type&
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_M_get_allocator() const
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{ return _M_dataplus; }
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void
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_M_swap(__rc_string_base& __rcs);
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void
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_M_assign(const __rc_string_base& __rcs);
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void
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_M_reserve(size_type __res);
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void
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_M_mutate(size_type __pos, size_type __len1, const _CharT* __s,
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size_type __len2);
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void
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_M_erase(size_type __pos, size_type __n);
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void
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_M_clear()
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{ _M_erase(size_type(0), _M_length()); }
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bool
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_M_compare(const __rc_string_base&) const
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{ return false; }
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};
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template<typename _CharT, typename _Traits, typename _Alloc>
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typename __rc_string_base<_CharT, _Traits, _Alloc>::_Rep_empty
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__rc_string_base<_CharT, _Traits, _Alloc>::_S_empty_rep;
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template<typename _CharT, typename _Traits, typename _Alloc>
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typename __rc_string_base<_CharT, _Traits, _Alloc>::_Rep*
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__rc_string_base<_CharT, _Traits, _Alloc>::_Rep::
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_S_create(size_type __capacity, size_type __old_capacity,
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const _Alloc& __alloc)
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{
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// _GLIBCXX_RESOLVE_LIB_DEFECTS
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// 83. String::npos vs. string::max_size()
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if (__capacity > size_type(_S_max_size))
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std::__throw_length_error(__N("__rc_string_base::_Rep::_S_create"));
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// The standard places no restriction on allocating more memory
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// than is strictly needed within this layer at the moment or as
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// requested by an explicit application call to reserve().
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// Many malloc implementations perform quite poorly when an
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// application attempts to allocate memory in a stepwise fashion
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// growing each allocation size by only 1 char. Additionally,
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// it makes little sense to allocate less linear memory than the
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// natural blocking size of the malloc implementation.
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// Unfortunately, we would need a somewhat low-level calculation
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// with tuned parameters to get this perfect for any particular
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// malloc implementation. Fortunately, generalizations about
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// common features seen among implementations seems to suffice.
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// __pagesize need not match the actual VM page size for good
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// results in practice, thus we pick a common value on the low
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// side. __malloc_header_size is an estimate of the amount of
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// overhead per memory allocation (in practice seen N * sizeof
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// (void*) where N is 0, 2 or 4). According to folklore,
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// picking this value on the high side is better than
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// low-balling it (especially when this algorithm is used with
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// malloc implementations that allocate memory blocks rounded up
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// to a size which is a power of 2).
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const size_type __pagesize = 4096;
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const size_type __malloc_header_size = 4 * sizeof(void*);
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// The below implements an exponential growth policy, necessary to
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// meet amortized linear time requirements of the library: see
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// http://gcc.gnu.org/ml/libstdc++/2001-07/msg00085.html.
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if (__capacity > __old_capacity && __capacity < 2 * __old_capacity)
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{
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__capacity = 2 * __old_capacity;
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// Never allocate a string bigger than _S_max_size.
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if (__capacity > size_type(_S_max_size))
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__capacity = size_type(_S_max_size);
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}
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// NB: Need an array of char_type[__capacity], plus a terminating
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// null char_type() element, plus enough for the _Rep data structure,
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// plus sizeof(_Rep) - 1 to upper round to a size multiple of
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// sizeof(_Rep).
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// Whew. Seemingly so needy, yet so elemental.
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size_type __size = ((__capacity + 1) * sizeof(_CharT)
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+ 2 * sizeof(_Rep) - 1);
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const size_type __adj_size = __size + __malloc_header_size;
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if (__adj_size > __pagesize && __capacity > __old_capacity)
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{
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const size_type __extra = __pagesize - __adj_size % __pagesize;
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__capacity += __extra / sizeof(_CharT);
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if (__capacity > size_type(_S_max_size))
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__capacity = size_type(_S_max_size);
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__size = (__capacity + 1) * sizeof(_CharT) + 2 * sizeof(_Rep) - 1;
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}
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// NB: Might throw, but no worries about a leak, mate: _Rep()
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// does not throw.
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_Rep* __place = _Rep_alloc_type(__alloc).allocate(__size / sizeof(_Rep));
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_Rep* __p = new (__place) _Rep;
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__p->_M_info._M_capacity = __capacity;
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return __p;
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}
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template<typename _CharT, typename _Traits, typename _Alloc>
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void
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__rc_string_base<_CharT, _Traits, _Alloc>::_Rep::
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_M_destroy(const _Alloc& __a) throw ()
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{
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const size_type __size = ((_M_info._M_capacity + 1) * sizeof(_CharT)
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+ 2 * sizeof(_Rep) - 1);
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_Rep_alloc_type(__a).deallocate(this, __size / sizeof(_Rep));
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}
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template<typename _CharT, typename _Traits, typename _Alloc>
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_CharT*
|
|
__rc_string_base<_CharT, _Traits, _Alloc>::_Rep::
|
|
_M_clone(const _Alloc& __alloc, size_type __res)
|
|
{
|
|
// Requested capacity of the clone.
|
|
const size_type __requested_cap = _M_info._M_length + __res;
|
|
_Rep* __r = _Rep::_S_create(__requested_cap, _M_info._M_capacity,
|
|
__alloc);
|
|
|
|
if (_M_info._M_length)
|
|
__rc_string_base::_S_copy(__r->_M_refdata(), _M_refdata(), _M_info._M_length);
|
|
|
|
__r->_M_set_length(_M_info._M_length);
|
|
return __r->_M_refdata();
|
|
}
|
|
|
|
template<typename _CharT, typename _Traits, typename _Alloc>
|
|
__rc_string_base<_CharT, _Traits, _Alloc>::
|
|
__rc_string_base(const _Alloc& __a)
|
|
: _M_dataplus(__a, _S_construct(size_type(), _CharT(), __a)) { }
|
|
|
|
template<typename _CharT, typename _Traits, typename _Alloc>
|
|
__rc_string_base<_CharT, _Traits, _Alloc>::
|
|
__rc_string_base(const __rc_string_base& __rcs)
|
|
: _M_dataplus(__rcs._M_get_allocator(),
|
|
__rcs._M_grab(__rcs._M_get_allocator())) { }
|
|
|
|
template<typename _CharT, typename _Traits, typename _Alloc>
|
|
__rc_string_base<_CharT, _Traits, _Alloc>::
|
|
__rc_string_base(size_type __n, _CharT __c, const _Alloc& __a)
|
|
: _M_dataplus(__a, _S_construct(__n, __c, __a)) { }
|
|
|
|
template<typename _CharT, typename _Traits, typename _Alloc>
|
|
template<typename _InputIterator>
|
|
__rc_string_base<_CharT, _Traits, _Alloc>::
|
|
__rc_string_base(_InputIterator __beg, _InputIterator __end,
|
|
const _Alloc& __a)
|
|
: _M_dataplus(__a, _S_construct(__beg, __end, __a)) { }
|
|
|
|
template<typename _CharT, typename _Traits, typename _Alloc>
|
|
void
|
|
__rc_string_base<_CharT, _Traits, _Alloc>::
|
|
_M_leak_hard()
|
|
{
|
|
if (_M_is_shared())
|
|
_M_erase(0, 0);
|
|
_M_set_leaked();
|
|
}
|
|
|
|
// NB: This is the special case for Input Iterators, used in
|
|
// istreambuf_iterators, etc.
|
|
// Input Iterators have a cost structure very different from
|
|
// pointers, calling for a different coding style.
|
|
template<typename _CharT, typename _Traits, typename _Alloc>
|
|
template<typename _InIterator>
|
|
_CharT*
|
|
__rc_string_base<_CharT, _Traits, _Alloc>::
|
|
_S_construct(_InIterator __beg, _InIterator __end, const _Alloc& __a,
|
|
std::input_iterator_tag)
|
|
{
|
|
if (__beg == __end && __a == _Alloc())
|
|
return _S_empty_rep._M_refcopy();
|
|
|
|
// Avoid reallocation for common case.
|
|
_CharT __buf[128];
|
|
size_type __len = 0;
|
|
while (__beg != __end && __len < sizeof(__buf) / sizeof(_CharT))
|
|
{
|
|
__buf[__len++] = *__beg;
|
|
++__beg;
|
|
}
|
|
_Rep* __r = _Rep::_S_create(__len, size_type(0), __a);
|
|
_S_copy(__r->_M_refdata(), __buf, __len);
|
|
__try
|
|
{
|
|
while (__beg != __end)
|
|
{
|
|
if (__len == __r->_M_info._M_capacity)
|
|
{
|
|
// Allocate more space.
|
|
_Rep* __another = _Rep::_S_create(__len + 1, __len, __a);
|
|
_S_copy(__another->_M_refdata(), __r->_M_refdata(), __len);
|
|
__r->_M_destroy(__a);
|
|
__r = __another;
|
|
}
|
|
__r->_M_refdata()[__len++] = *__beg;
|
|
++__beg;
|
|
}
|
|
}
|
|
__catch(...)
|
|
{
|
|
__r->_M_destroy(__a);
|
|
__throw_exception_again;
|
|
}
|
|
__r->_M_set_length(__len);
|
|
return __r->_M_refdata();
|
|
}
|
|
|
|
template<typename _CharT, typename _Traits, typename _Alloc>
|
|
template<typename _InIterator>
|
|
_CharT*
|
|
__rc_string_base<_CharT, _Traits, _Alloc>::
|
|
_S_construct(_InIterator __beg, _InIterator __end, const _Alloc& __a,
|
|
std::forward_iterator_tag)
|
|
{
|
|
if (__beg == __end && __a == _Alloc())
|
|
return _S_empty_rep._M_refcopy();
|
|
|
|
// NB: Not required, but considered best practice.
|
|
if (__is_null_pointer(__beg) && __beg != __end)
|
|
std::__throw_logic_error(__N("__rc_string_base::"
|
|
"_S_construct null not valid"));
|
|
|
|
const size_type __dnew = static_cast<size_type>(std::distance(__beg,
|
|
__end));
|
|
// Check for out_of_range and length_error exceptions.
|
|
_Rep* __r = _Rep::_S_create(__dnew, size_type(0), __a);
|
|
__try
|
|
{ __rc_string_base::_S_copy_chars(__r->_M_refdata(), __beg, __end); }
|
|
__catch(...)
|
|
{
|
|
__r->_M_destroy(__a);
|
|
__throw_exception_again;
|
|
}
|
|
__r->_M_set_length(__dnew);
|
|
return __r->_M_refdata();
|
|
}
|
|
|
|
template<typename _CharT, typename _Traits, typename _Alloc>
|
|
_CharT*
|
|
__rc_string_base<_CharT, _Traits, _Alloc>::
|
|
_S_construct(size_type __n, _CharT __c, const _Alloc& __a)
|
|
{
|
|
if (__n == 0 && __a == _Alloc())
|
|
return _S_empty_rep._M_refcopy();
|
|
|
|
// Check for out_of_range and length_error exceptions.
|
|
_Rep* __r = _Rep::_S_create(__n, size_type(0), __a);
|
|
if (__n)
|
|
__rc_string_base::_S_assign(__r->_M_refdata(), __n, __c);
|
|
|
|
__r->_M_set_length(__n);
|
|
return __r->_M_refdata();
|
|
}
|
|
|
|
template<typename _CharT, typename _Traits, typename _Alloc>
|
|
void
|
|
__rc_string_base<_CharT, _Traits, _Alloc>::
|
|
_M_swap(__rc_string_base& __rcs)
|
|
{
|
|
if (_M_is_leaked())
|
|
_M_set_sharable();
|
|
if (__rcs._M_is_leaked())
|
|
__rcs._M_set_sharable();
|
|
|
|
_CharT* __tmp = _M_data();
|
|
_M_data(__rcs._M_data());
|
|
__rcs._M_data(__tmp);
|
|
|
|
// _GLIBCXX_RESOLVE_LIB_DEFECTS
|
|
// 431. Swapping containers with unequal allocators.
|
|
std::__alloc_swap<allocator_type>::_S_do_it(_M_get_allocator(),
|
|
__rcs._M_get_allocator());
|
|
}
|
|
|
|
template<typename _CharT, typename _Traits, typename _Alloc>
|
|
void
|
|
__rc_string_base<_CharT, _Traits, _Alloc>::
|
|
_M_assign(const __rc_string_base& __rcs)
|
|
{
|
|
if (_M_rep() != __rcs._M_rep())
|
|
{
|
|
_CharT* __tmp = __rcs._M_grab(_M_get_allocator());
|
|
_M_dispose();
|
|
_M_data(__tmp);
|
|
}
|
|
}
|
|
|
|
template<typename _CharT, typename _Traits, typename _Alloc>
|
|
void
|
|
__rc_string_base<_CharT, _Traits, _Alloc>::
|
|
_M_reserve(size_type __res)
|
|
{
|
|
// Make sure we don't shrink below the current size.
|
|
if (__res < _M_length())
|
|
__res = _M_length();
|
|
|
|
if (__res != _M_capacity() || _M_is_shared())
|
|
{
|
|
_CharT* __tmp = _M_rep()->_M_clone(_M_get_allocator(),
|
|
__res - _M_length());
|
|
_M_dispose();
|
|
_M_data(__tmp);
|
|
}
|
|
}
|
|
|
|
template<typename _CharT, typename _Traits, typename _Alloc>
|
|
void
|
|
__rc_string_base<_CharT, _Traits, _Alloc>::
|
|
_M_mutate(size_type __pos, size_type __len1, const _CharT* __s,
|
|
size_type __len2)
|
|
{
|
|
const size_type __how_much = _M_length() - __pos - __len1;
|
|
|
|
_Rep* __r = _Rep::_S_create(_M_length() + __len2 - __len1,
|
|
_M_capacity(), _M_get_allocator());
|
|
|
|
if (__pos)
|
|
this->_S_copy(__r->_M_refdata(), _M_data(), __pos);
|
|
if (__s && __len2)
|
|
this->_S_copy(__r->_M_refdata() + __pos, __s, __len2);
|
|
if (__how_much)
|
|
this->_S_copy(__r->_M_refdata() + __pos + __len2,
|
|
_M_data() + __pos + __len1, __how_much);
|
|
|
|
_M_dispose();
|
|
_M_data(__r->_M_refdata());
|
|
}
|
|
|
|
template<typename _CharT, typename _Traits, typename _Alloc>
|
|
void
|
|
__rc_string_base<_CharT, _Traits, _Alloc>::
|
|
_M_erase(size_type __pos, size_type __n)
|
|
{
|
|
const size_type __new_size = _M_length() - __n;
|
|
const size_type __how_much = _M_length() - __pos - __n;
|
|
|
|
if (_M_is_shared())
|
|
{
|
|
// Must reallocate.
|
|
_Rep* __r = _Rep::_S_create(__new_size, _M_capacity(),
|
|
_M_get_allocator());
|
|
|
|
if (__pos)
|
|
this->_S_copy(__r->_M_refdata(), _M_data(), __pos);
|
|
if (__how_much)
|
|
this->_S_copy(__r->_M_refdata() + __pos,
|
|
_M_data() + __pos + __n, __how_much);
|
|
|
|
_M_dispose();
|
|
_M_data(__r->_M_refdata());
|
|
}
|
|
else if (__how_much && __n)
|
|
{
|
|
// Work in-place.
|
|
this->_S_move(_M_data() + __pos,
|
|
_M_data() + __pos + __n, __how_much);
|
|
}
|
|
|
|
_M_rep()->_M_set_length(__new_size);
|
|
}
|
|
|
|
template<>
|
|
inline bool
|
|
__rc_string_base<char, std::char_traits<char>,
|
|
std::allocator<char> >::
|
|
_M_compare(const __rc_string_base& __rcs) const
|
|
{
|
|
if (_M_rep() == __rcs._M_rep())
|
|
return true;
|
|
return false;
|
|
}
|
|
|
|
#ifdef _GLIBCXX_USE_WCHAR_T
|
|
template<>
|
|
inline bool
|
|
__rc_string_base<wchar_t, std::char_traits<wchar_t>,
|
|
std::allocator<wchar_t> >::
|
|
_M_compare(const __rc_string_base& __rcs) const
|
|
{
|
|
if (_M_rep() == __rcs._M_rep())
|
|
return true;
|
|
return false;
|
|
}
|
|
#endif
|
|
|
|
_GLIBCXX_END_NAMESPACE_VERSION
|
|
} // namespace
|
|
|
|
#endif /* _RC_STRING_BASE_H */
|