b1e7c6fce1
By moving std::make_obj_using_allocator and the related "utility functions for uses-allocator construction" to a new header, we can avoid including the whole of <memory> in <scoped_allocator> and <memory_resource>. In order to simplify the implementation of those utility functions they now use concepts unconditionally. They are no longer defined if __cpp_concepts is not defined. To simplify the code that uses those functions I've introduced a __cpp_lib_make_obj_using_allocator feature test macro (not specified in the standard, which might be an oversight). That allows the code in <memory_resource> and <scoped_allocator> to check the feature test macro to decide whether to use the new utilities, or fall back to the C++17 code. At the same time, this reshuffles some of the headers included by <memory> so that they are (mostly?) self-contained. It should no longer be necessary to include other headers before <bits/shared_ptr.h> when other parts of the library want to use std::shared_ptr without including the whole of <memory>. libstdc++-v3/ChangeLog: * include/Makefile.am: Add new header. * include/Makefile.in: Regenerate. * include/bits/shared_ptr.h: Include <iosfwd>. * include/bits/shared_ptr_base.h: Include required headers here directly, instead of in <memory>. * include/bits/uses_allocator_args.h: New file. Move utility functions for uses-allocator construction from <memory> to here. Only define the utility functions when concepts are available. (__cpp_lib_make_obj_using_allocator): Define non-standard feature test macro. * include/std/condition_variable: Remove unused headers. * include/std/future: Likewise. * include/std/memory: Remove headers that are not needed directly, and are now inclkuded where they're needed. Include new <bits/uses_allocator_args.h> header. * include/std/memory_resource: Include only the necessary headers. Use new feature test macro to detect support for the utility functions. * include/std/scoped_allocator: Likewise. * include/std/version (__cpp_lib_make_obj_using_allocator): Define.
523 lines
17 KiB
C++
523 lines
17 KiB
C++
// <scoped_allocator> -*- C++ -*-
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// Copyright (C) 2011-2020 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 include/scoped_allocator
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* This is a Standard C++ Library header.
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* @ingroup allocators
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*/
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#ifndef _SCOPED_ALLOCATOR
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#define _SCOPED_ALLOCATOR 1
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#pragma GCC system_header
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#if __cplusplus < 201103L
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# include <bits/c++0x_warning.h>
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#else
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#include <tuple>
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#include <bits/alloc_traits.h>
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#include <bits/stl_pair.h>
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#include <bits/uses_allocator.h>
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#if __cplusplus > 201703L
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# include <bits/uses_allocator_args.h>
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#endif
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namespace std _GLIBCXX_VISIBILITY(default)
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{
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_GLIBCXX_BEGIN_NAMESPACE_VERSION
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/**
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* @addtogroup allocators
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* @{
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*/
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/// @cond undocumented
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template<typename _Alloc>
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using __outer_allocator_t
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= decltype(std::declval<_Alloc>().outer_allocator());
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template<typename _Alloc, typename = void>
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struct __outermost_type
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{
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using type = _Alloc;
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static type& _S_outermost(_Alloc& __a) { return __a; }
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};
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template<typename _Alloc>
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struct __outermost_type<_Alloc, __void_t<__outer_allocator_t<_Alloc>>>
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: __outermost_type<
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typename remove_reference<__outer_allocator_t<_Alloc>>::type
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>
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{
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using __base = __outermost_type<
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typename remove_reference<__outer_allocator_t<_Alloc>>::type
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>;
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static typename __base::type&
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_S_outermost(_Alloc& __a)
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{ return __base::_S_outermost(__a.outer_allocator()); }
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};
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/// Implementation of the OUTERMOST pseudofunction
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template<typename _Alloc>
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inline typename __outermost_type<_Alloc>::type&
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__outermost(_Alloc& __a)
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{ return __outermost_type<_Alloc>::_S_outermost(__a); }
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template<typename _OuterAlloc, typename... _InnerAllocs>
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class scoped_allocator_adaptor;
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template<typename...>
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struct __inner_type_impl;
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template<typename _Outer>
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struct __inner_type_impl<_Outer>
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{
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typedef scoped_allocator_adaptor<_Outer> __type;
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__inner_type_impl() = default;
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__inner_type_impl(const __inner_type_impl&) = default;
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__inner_type_impl(__inner_type_impl&&) = default;
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__inner_type_impl& operator=(const __inner_type_impl&) = default;
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__inner_type_impl& operator=(__inner_type_impl&&) = default;
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template<typename _Alloc>
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__inner_type_impl(const __inner_type_impl<_Alloc>& __other)
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{ }
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template<typename _Alloc>
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__inner_type_impl(__inner_type_impl<_Alloc>&& __other)
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{ }
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__type&
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_M_get(__type* __p) noexcept { return *__p; }
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const __type&
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_M_get(const __type* __p) const noexcept { return *__p; }
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tuple<>
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_M_tie() const noexcept { return tuple<>(); }
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bool
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operator==(const __inner_type_impl&) const noexcept
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{ return true; }
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};
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template<typename _Outer, typename _InnerHead, typename... _InnerTail>
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struct __inner_type_impl<_Outer, _InnerHead, _InnerTail...>
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{
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typedef scoped_allocator_adaptor<_InnerHead, _InnerTail...> __type;
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__inner_type_impl() = default;
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__inner_type_impl(const __inner_type_impl&) = default;
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__inner_type_impl(__inner_type_impl&&) = default;
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__inner_type_impl& operator=(const __inner_type_impl&) = default;
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__inner_type_impl& operator=(__inner_type_impl&&) = default;
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template<typename... _Allocs>
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__inner_type_impl(const __inner_type_impl<_Allocs...>& __other)
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: _M_inner(__other._M_inner) { }
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template<typename... _Allocs>
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__inner_type_impl(__inner_type_impl<_Allocs...>&& __other)
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: _M_inner(std::move(__other._M_inner)) { }
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template<typename... _Args>
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explicit
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__inner_type_impl(_Args&&... __args)
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: _M_inner(std::forward<_Args>(__args)...) { }
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__type&
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_M_get(void*) noexcept { return _M_inner; }
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const __type&
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_M_get(const void*) const noexcept { return _M_inner; }
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tuple<const _InnerHead&, const _InnerTail&...>
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_M_tie() const noexcept
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{ return _M_inner._M_tie(); }
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bool
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operator==(const __inner_type_impl& __other) const noexcept
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{ return _M_inner == __other._M_inner; }
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private:
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template<typename...> friend class __inner_type_impl;
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template<typename, typename...> friend class scoped_allocator_adaptor;
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__type _M_inner;
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};
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/// @endcond
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/// An adaptor to recursively pass an allocator to the objects it constructs
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template<typename _OuterAlloc, typename... _InnerAllocs>
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class scoped_allocator_adaptor
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: public _OuterAlloc
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{
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typedef allocator_traits<_OuterAlloc> __traits;
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typedef __inner_type_impl<_OuterAlloc, _InnerAllocs...> __inner_type;
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__inner_type _M_inner;
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template<typename _Outer, typename... _Inner>
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friend class scoped_allocator_adaptor;
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template<typename...>
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friend class __inner_type_impl;
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tuple<const _OuterAlloc&, const _InnerAllocs&...>
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_M_tie() const noexcept
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{ return std::tuple_cat(std::tie(outer_allocator()), _M_inner._M_tie()); }
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template<typename _Alloc>
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using __outermost_alloc_traits
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= allocator_traits<typename __outermost_type<_Alloc>::type>;
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#if ! __cpp_lib_make_obj_using_allocator
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template<typename _Tp, typename... _Args>
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void
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_M_construct(__uses_alloc0, _Tp* __p, _Args&&... __args)
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{
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typedef __outermost_alloc_traits<scoped_allocator_adaptor> _O_traits;
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_O_traits::construct(__outermost(*this), __p,
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std::forward<_Args>(__args)...);
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}
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typedef __uses_alloc1<typename __inner_type::__type> __uses_alloc1_;
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typedef __uses_alloc2<typename __inner_type::__type> __uses_alloc2_;
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template<typename _Tp, typename... _Args>
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void
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_M_construct(__uses_alloc1_, _Tp* __p, _Args&&... __args)
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{
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typedef __outermost_alloc_traits<scoped_allocator_adaptor> _O_traits;
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_O_traits::construct(__outermost(*this), __p,
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allocator_arg, inner_allocator(),
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std::forward<_Args>(__args)...);
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}
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template<typename _Tp, typename... _Args>
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void
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_M_construct(__uses_alloc2_, _Tp* __p, _Args&&... __args)
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{
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typedef __outermost_alloc_traits<scoped_allocator_adaptor> _O_traits;
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_O_traits::construct(__outermost(*this), __p,
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std::forward<_Args>(__args)...,
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inner_allocator());
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}
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#endif // ! make_obj_using_allocator
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template<typename _Alloc>
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static _Alloc
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_S_select_on_copy(const _Alloc& __a)
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{
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typedef allocator_traits<_Alloc> __a_traits;
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return __a_traits::select_on_container_copy_construction(__a);
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}
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template<std::size_t... _Indices>
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scoped_allocator_adaptor(tuple<const _OuterAlloc&,
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const _InnerAllocs&...> __refs,
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_Index_tuple<_Indices...>)
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: _OuterAlloc(_S_select_on_copy(std::get<0>(__refs))),
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_M_inner(_S_select_on_copy(std::get<_Indices+1>(__refs))...)
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{ }
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// Used to constrain constructors to disallow invalid conversions.
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template<typename _Alloc>
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using _Constructible = typename enable_if<
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is_constructible<_OuterAlloc, _Alloc>::value
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>::type;
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// _GLIBCXX_RESOLVE_LIB_DEFECTS
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// 2975. Missing case for pair construction in scoped [...] allocators
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template<typename _Tp>
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struct __not_pair { using type = void; };
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template<typename _Tp, typename _Up>
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struct __not_pair<pair<_Tp, _Up>> { };
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public:
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typedef _OuterAlloc outer_allocator_type;
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typedef typename __inner_type::__type inner_allocator_type;
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typedef typename __traits::value_type value_type;
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typedef typename __traits::size_type size_type;
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typedef typename __traits::difference_type difference_type;
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typedef typename __traits::pointer pointer;
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typedef typename __traits::const_pointer const_pointer;
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typedef typename __traits::void_pointer void_pointer;
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typedef typename __traits::const_void_pointer const_void_pointer;
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typedef typename __or_<
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typename __traits::propagate_on_container_copy_assignment,
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typename allocator_traits<_InnerAllocs>::
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propagate_on_container_copy_assignment...>::type
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propagate_on_container_copy_assignment;
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typedef typename __or_<
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typename __traits::propagate_on_container_move_assignment,
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typename allocator_traits<_InnerAllocs>::
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propagate_on_container_move_assignment...>::type
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propagate_on_container_move_assignment;
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typedef typename __or_<
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typename __traits::propagate_on_container_swap,
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typename allocator_traits<_InnerAllocs>::
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propagate_on_container_swap...>::type
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propagate_on_container_swap;
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typedef typename __and_<
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typename __traits::is_always_equal,
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typename allocator_traits<_InnerAllocs>::is_always_equal...>::type
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is_always_equal;
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template <class _Tp>
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struct rebind
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{
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typedef scoped_allocator_adaptor<
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typename __traits::template rebind_alloc<_Tp>,
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_InnerAllocs...> other;
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};
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scoped_allocator_adaptor() : _OuterAlloc(), _M_inner() { }
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template<typename _Outer2, typename = _Constructible<_Outer2>>
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scoped_allocator_adaptor(_Outer2&& __outer,
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const _InnerAllocs&... __inner)
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: _OuterAlloc(std::forward<_Outer2>(__outer)),
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_M_inner(__inner...)
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{ }
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scoped_allocator_adaptor(const scoped_allocator_adaptor& __other)
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: _OuterAlloc(__other.outer_allocator()),
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_M_inner(__other._M_inner)
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{ }
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scoped_allocator_adaptor(scoped_allocator_adaptor&& __other)
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: _OuterAlloc(std::move(__other.outer_allocator())),
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_M_inner(std::move(__other._M_inner))
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{ }
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template<typename _Outer2, typename = _Constructible<const _Outer2&>>
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scoped_allocator_adaptor(
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const scoped_allocator_adaptor<_Outer2, _InnerAllocs...>& __other)
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: _OuterAlloc(__other.outer_allocator()),
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_M_inner(__other._M_inner)
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{ }
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template<typename _Outer2, typename = _Constructible<_Outer2>>
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scoped_allocator_adaptor(
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scoped_allocator_adaptor<_Outer2, _InnerAllocs...>&& __other)
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: _OuterAlloc(std::move(__other.outer_allocator())),
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_M_inner(std::move(__other._M_inner))
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{ }
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scoped_allocator_adaptor&
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operator=(const scoped_allocator_adaptor&) = default;
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scoped_allocator_adaptor&
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operator=(scoped_allocator_adaptor&&) = default;
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inner_allocator_type& inner_allocator() noexcept
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{ return _M_inner._M_get(this); }
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const inner_allocator_type& inner_allocator() const noexcept
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{ return _M_inner._M_get(this); }
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outer_allocator_type& outer_allocator() noexcept
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{ return static_cast<_OuterAlloc&>(*this); }
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const outer_allocator_type& outer_allocator() const noexcept
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{ return static_cast<const _OuterAlloc&>(*this); }
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_GLIBCXX_NODISCARD pointer allocate(size_type __n)
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{ return __traits::allocate(outer_allocator(), __n); }
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_GLIBCXX_NODISCARD pointer allocate(size_type __n, const_void_pointer __hint)
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{ return __traits::allocate(outer_allocator(), __n, __hint); }
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void deallocate(pointer __p, size_type __n)
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{ return __traits::deallocate(outer_allocator(), __p, __n); }
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size_type max_size() const
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{ return __traits::max_size(outer_allocator()); }
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#if ! __cpp_lib_make_obj_using_allocator
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template<typename _Tp, typename... _Args>
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typename __not_pair<_Tp>::type
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construct(_Tp* __p, _Args&&... __args)
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{
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auto& __inner = inner_allocator();
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auto __use_tag
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= std::__use_alloc<_Tp, inner_allocator_type, _Args...>(__inner);
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_M_construct(__use_tag, __p, std::forward<_Args>(__args)...);
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}
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template<typename _T1, typename _T2, typename... _Args1,
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typename... _Args2>
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void
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construct(pair<_T1, _T2>* __p, piecewise_construct_t,
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tuple<_Args1...> __x, tuple<_Args2...> __y)
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{
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// _GLIBCXX_RESOLVE_LIB_DEFECTS
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// 2203. wrong argument types for piecewise construction
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auto& __inner = inner_allocator();
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auto __x_use_tag
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= std::__use_alloc<_T1, inner_allocator_type, _Args1...>(__inner);
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auto __y_use_tag
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= std::__use_alloc<_T2, inner_allocator_type, _Args2...>(__inner);
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typename _Build_index_tuple<sizeof...(_Args1)>::__type __x_indices;
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typename _Build_index_tuple<sizeof...(_Args2)>::__type __y_indices;
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typedef __outermost_alloc_traits<scoped_allocator_adaptor> _O_traits;
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_O_traits::construct(__outermost(*this), __p, piecewise_construct,
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_M_construct_p(__x_use_tag, __x_indices, __x),
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_M_construct_p(__y_use_tag, __y_indices, __y));
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}
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template<typename _T1, typename _T2>
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void
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construct(pair<_T1, _T2>* __p)
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{ construct(__p, piecewise_construct, tuple<>(), tuple<>()); }
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template<typename _T1, typename _T2, typename _Up, typename _Vp>
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void
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construct(pair<_T1, _T2>* __p, _Up&& __u, _Vp&& __v)
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{
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construct(__p, piecewise_construct,
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std::forward_as_tuple(std::forward<_Up>(__u)),
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std::forward_as_tuple(std::forward<_Vp>(__v)));
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}
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template<typename _T1, typename _T2, typename _Up, typename _Vp>
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void
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construct(pair<_T1, _T2>* __p, const pair<_Up, _Vp>& __x)
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{
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construct(__p, piecewise_construct,
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std::forward_as_tuple(__x.first),
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std::forward_as_tuple(__x.second));
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}
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template<typename _T1, typename _T2, typename _Up, typename _Vp>
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void
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construct(pair<_T1, _T2>* __p, pair<_Up, _Vp>&& __x)
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{
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construct(__p, piecewise_construct,
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std::forward_as_tuple(std::forward<_Up>(__x.first)),
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std::forward_as_tuple(std::forward<_Vp>(__x.second)));
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}
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#else // make_obj_using_allocator
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template<typename _Tp, typename... _Args>
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__attribute__((__nonnull__))
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void
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construct(_Tp* __p, _Args&&... __args)
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{
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typedef __outermost_alloc_traits<scoped_allocator_adaptor> _O_traits;
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std::apply([__p, this](auto&&... __newargs) {
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_O_traits::construct(__outermost(*this), __p,
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std::forward<decltype(__newargs)>(__newargs)...);
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},
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uses_allocator_construction_args<_Tp>(inner_allocator(),
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std::forward<_Args>(__args)...));
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}
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#endif
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template<typename _Tp>
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void destroy(_Tp* __p)
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{
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typedef __outermost_alloc_traits<scoped_allocator_adaptor> _O_traits;
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_O_traits::destroy(__outermost(*this), __p);
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}
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scoped_allocator_adaptor
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select_on_container_copy_construction() const
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{
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typedef typename _Build_index_tuple<sizeof...(_InnerAllocs)>::__type
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_Indices;
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return scoped_allocator_adaptor(_M_tie(), _Indices());
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}
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template <typename _OutA1, typename _OutA2, typename... _InA>
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friend bool
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operator==(const scoped_allocator_adaptor<_OutA1, _InA...>& __a,
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const scoped_allocator_adaptor<_OutA2, _InA...>& __b) noexcept;
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private:
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#if ! __cpp_lib_make_obj_using_allocator
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template<typename _Ind, typename... _Args>
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tuple<_Args&&...>
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_M_construct_p(__uses_alloc0, _Ind, tuple<_Args...>& __t)
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{ return std::move(__t); }
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template<size_t... _Ind, typename... _Args>
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tuple<allocator_arg_t, inner_allocator_type&, _Args&&...>
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_M_construct_p(__uses_alloc1_, _Index_tuple<_Ind...>,
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tuple<_Args...>& __t)
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{
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return { allocator_arg, inner_allocator(),
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std::get<_Ind>(std::move(__t))...
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};
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}
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template<size_t... _Ind, typename... _Args>
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tuple<_Args&&..., inner_allocator_type&>
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_M_construct_p(__uses_alloc2_, _Index_tuple<_Ind...>,
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tuple<_Args...>& __t)
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{
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return { std::get<_Ind>(std::move(__t))..., inner_allocator() };
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}
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#endif // ! make_obj_using_allocator
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};
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|
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/// @related std::scoped_allocator_adaptor
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template <typename _OutA1, typename _OutA2, typename... _InA>
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inline bool
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operator==(const scoped_allocator_adaptor<_OutA1, _InA...>& __a,
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const scoped_allocator_adaptor<_OutA2, _InA...>& __b) noexcept
|
|
{
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return __a.outer_allocator() == __b.outer_allocator()
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&& __a._M_inner == __b._M_inner;
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}
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|
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|
#if __cpp_impl_three_way_comparison < 201907L
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|
/// @related std::scoped_allocator_adaptor
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|
template <typename _OutA1, typename _OutA2, typename... _InA>
|
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inline bool
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operator!=(const scoped_allocator_adaptor<_OutA1, _InA...>& __a,
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const scoped_allocator_adaptor<_OutA2, _InA...>& __b) noexcept
|
|
{ return !(__a == __b); }
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|
#endif
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|
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/// @}
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_GLIBCXX_END_NAMESPACE_VERSION
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|
} // namespace
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|
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#endif // C++11
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#endif // _SCOPED_ALLOCATOR
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