mirror of
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659 lines
18 KiB
C++
659 lines
18 KiB
C++
// -*- C++ -*-
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// Testing allocator for the C++ library testsuite.
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//
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// Copyright (C) 2002-2015 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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//
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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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//
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// You should have received a copy of the GNU General Public License along
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// with this library; see the file COPYING3. If not see
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// <http://www.gnu.org/licenses/>.
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//
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// This file provides an test instrumentation allocator that can be
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// used to verify allocation functionality of standard library
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// containers. 2002.11.25 smw
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#ifndef _GLIBCXX_TESTSUITE_ALLOCATOR_H
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#define _GLIBCXX_TESTSUITE_ALLOCATOR_H
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#include <tr1/unordered_map>
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#include <bits/move.h>
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#include <ext/pointer.h>
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#include <ext/alloc_traits.h>
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#include <testsuite_hooks.h>
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namespace __gnu_test
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{
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class tracker_allocator_counter
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{
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public:
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typedef std::size_t size_type;
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static void
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allocate(size_type blocksize)
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{ allocationCount_ += blocksize; }
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static void
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construct() { ++constructCount_; }
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static void
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destroy() { ++destructCount_; }
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static void
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deallocate(size_type blocksize)
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{ deallocationCount_ += blocksize; }
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static size_type
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get_allocation_count() { return allocationCount_; }
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static size_type
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get_deallocation_count() { return deallocationCount_; }
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static int
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get_construct_count() { return constructCount_; }
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static int
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get_destruct_count() { return destructCount_; }
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static void
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reset()
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{
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allocationCount_ = 0;
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deallocationCount_ = 0;
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constructCount_ = 0;
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destructCount_ = 0;
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}
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private:
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static size_type allocationCount_;
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static size_type deallocationCount_;
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static int constructCount_;
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static int destructCount_;
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};
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// Helper to detect inconsistency between type used to instantiate an
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// allocator and the underlying allocator value_type.
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template<typename T, typename Alloc,
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typename = typename Alloc::value_type>
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struct check_consistent_alloc_value_type;
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template<typename T, typename Alloc>
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struct check_consistent_alloc_value_type<T, Alloc, T>
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{ typedef T value_type; };
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// An allocator facade that intercepts allocate/deallocate/construct/destroy
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// calls and track them through the tracker_allocator_counter class. This
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// class is templated on the target object type, but tracker isn't.
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template<typename T, typename Alloc = std::allocator<T> >
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class tracker_allocator : public Alloc
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{
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private:
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typedef tracker_allocator_counter counter_type;
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typedef __gnu_cxx::__alloc_traits<Alloc> AllocTraits;
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public:
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typedef typename
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check_consistent_alloc_value_type<T, Alloc>::value_type value_type;
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typedef typename AllocTraits::pointer pointer;
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typedef typename AllocTraits::size_type size_type;
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template<class U>
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struct rebind
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{
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typedef tracker_allocator<U,
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typename AllocTraits::template rebind<U>::other> other;
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};
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#if __cplusplus >= 201103L
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tracker_allocator() = default;
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tracker_allocator(const tracker_allocator&) = default;
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tracker_allocator(tracker_allocator&&) = default;
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// Perfect forwarding constructor.
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template<typename... _Args>
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tracker_allocator(_Args&&... __args)
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: Alloc(std::forward<_Args>(__args)...)
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{ }
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#else
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tracker_allocator()
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{ }
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tracker_allocator(const tracker_allocator&)
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{ }
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~tracker_allocator()
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{ }
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#endif
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template<class U>
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tracker_allocator(const tracker_allocator<U,
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typename AllocTraits::template rebind<U>::other>& alloc)
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_GLIBCXX_USE_NOEXCEPT
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: Alloc(alloc)
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{ }
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pointer
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allocate(size_type n, const void* = 0)
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{
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pointer p = AllocTraits::allocate(*this, n);
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counter_type::allocate(n * sizeof(T));
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return p;
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}
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#if __cplusplus >= 201103L
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template<typename U, typename... Args>
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void
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construct(U* p, Args&&... args)
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{
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AllocTraits::construct(*this, p, std::forward<Args>(args)...);
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counter_type::construct();
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}
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template<typename U>
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void
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destroy(U* p)
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{
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AllocTraits::destroy(*this, p);
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counter_type::destroy();
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}
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#else
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void
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construct(pointer p, const T& value)
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{
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AllocTraits::construct(*this, p, value);
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counter_type::construct();
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}
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void
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destroy(pointer p)
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{
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AllocTraits::destroy(*this, p);
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counter_type::destroy();
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}
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#endif
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void
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deallocate(pointer p, size_type num)
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{
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counter_type::deallocate(num * sizeof(T));
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AllocTraits::deallocate(*this, p, num);
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}
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// Implement swap for underlying allocators that might need it.
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friend inline void
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swap(tracker_allocator& a, tracker_allocator& b)
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{
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using std::swap;
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Alloc& aa = a;
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Alloc& ab = b;
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swap(aa, ab);
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}
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};
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template<class T1, class Alloc1, class T2, class Alloc2>
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bool
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operator==(const tracker_allocator<T1, Alloc1>& lhs,
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const tracker_allocator<T2, Alloc2>& rhs) throw()
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{
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const Alloc1& alloc1 = lhs;
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const Alloc2& alloc2 = rhs;
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return alloc1 == alloc2;
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}
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template<class T1, class Alloc1, class T2, class Alloc2>
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bool
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operator!=(const tracker_allocator<T1, Alloc1>& lhs,
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const tracker_allocator<T2, Alloc2>& rhs) throw()
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{ return !(lhs == rhs); }
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bool
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check_construct_destroy(const char* tag, int expected_c, int expected_d);
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template<typename Alloc>
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bool
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check_deallocate_null()
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{
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// Let's not core here...
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Alloc a;
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a.deallocate(0, 1);
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a.deallocate(0, 10);
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return true;
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}
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template<typename Alloc>
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bool
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check_allocate_max_size()
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{
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Alloc a;
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try
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{
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a.allocate(a.max_size() + 1);
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}
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catch(std::bad_alloc&)
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{
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return true;
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}
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catch(...)
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{
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throw;
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}
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throw;
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}
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// A simple allocator which can be constructed endowed of a given
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// "personality" (an integer), queried in operator== to simulate the
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// behavior of realworld "unequal" allocators (i.e., not exploiting
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// the provision in 20.1.5/4, first bullet). A global unordered_map,
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// filled at allocation time with (pointer, personality) pairs, is
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// then consulted to enforce the requirements in Table 32 about
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// deallocation vs allocator equality. Note that this allocator is
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// swappable, not copy assignable, consistently with Option 3 of DR 431
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// (see N1599).
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struct uneq_allocator_base
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{
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typedef std::tr1::unordered_map<void*, int> map_type;
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// Avoid static initialization troubles and/or bad interactions
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// with tests linking testsuite_allocator.o and playing globally
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// with operator new/delete.
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static map_type&
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get_map()
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{
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static map_type alloc_map;
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return alloc_map;
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}
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};
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template<typename Tp, typename Alloc = std::allocator<Tp> >
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class uneq_allocator
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: private uneq_allocator_base,
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public Alloc
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{
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typedef __gnu_cxx::__alloc_traits<Alloc> AllocTraits;
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Alloc& base() { return *this; }
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const Alloc& base() const { return *this; }
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void swap_base(Alloc& b) { swap(b, this->base()); }
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public:
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typedef typename check_consistent_alloc_value_type<Tp, Alloc>::value_type
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value_type;
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typedef typename AllocTraits::size_type size_type;
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typedef typename AllocTraits::pointer pointer;
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#if __cplusplus >= 201103L
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typedef std::true_type propagate_on_container_swap;
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#endif
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template<typename Tp1>
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struct rebind
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{
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typedef uneq_allocator<Tp1,
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typename AllocTraits::template rebind<Tp1>::other> other;
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};
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uneq_allocator() _GLIBCXX_USE_NOEXCEPT
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: personality(0) { }
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uneq_allocator(int person) _GLIBCXX_USE_NOEXCEPT
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: personality(person) { }
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#if __cplusplus >= 201103L
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uneq_allocator(const uneq_allocator&) = default;
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uneq_allocator(uneq_allocator&&) = default;
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#endif
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template<typename Tp1>
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uneq_allocator(const uneq_allocator<Tp1,
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typename AllocTraits::template rebind<Tp1>::other>& b)
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_GLIBCXX_USE_NOEXCEPT
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: personality(b.get_personality()) { }
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~uneq_allocator() _GLIBCXX_USE_NOEXCEPT
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{ }
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int get_personality() const { return personality; }
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pointer
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allocate(size_type n, const void* hint = 0)
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{
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pointer p = AllocTraits::allocate(*this, n);
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try
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{
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get_map().insert(map_type::value_type(reinterpret_cast<void*>(p),
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personality));
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}
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catch(...)
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{
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AllocTraits::deallocate(*this, p, n);
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__throw_exception_again;
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}
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return p;
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}
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void
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deallocate(pointer p, size_type n)
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{
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bool test __attribute__((unused)) = true;
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VERIFY( p );
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map_type::iterator it = get_map().find(reinterpret_cast<void*>(p));
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VERIFY( it != get_map().end() );
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// Enforce requirements in Table 32 about deallocation vs
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// allocator equality.
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VERIFY( it->second == personality );
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get_map().erase(it);
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AllocTraits::deallocate(*this, p, n);
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}
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#if __cplusplus >= 201103L
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// Not copy assignable...
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uneq_allocator&
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operator=(const uneq_allocator&) = delete;
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// ... but still moveable if base allocator is.
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uneq_allocator&
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operator=(uneq_allocator&&) = default;
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#else
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private:
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// Not assignable...
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uneq_allocator&
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operator=(const uneq_allocator&);
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#endif
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private:
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// ... yet swappable!
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friend inline void
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swap(uneq_allocator& a, uneq_allocator& b)
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{
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std::swap(a.personality, b.personality);
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a.swap_base(b);
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}
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template<typename Tp1>
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friend inline bool
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operator==(const uneq_allocator& a,
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const uneq_allocator<Tp1,
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typename AllocTraits::template rebind<Tp1>::other>& b)
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{ return a.personality == b.personality; }
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template<typename Tp1>
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friend inline bool
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operator!=(const uneq_allocator& a,
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const uneq_allocator<Tp1,
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typename AllocTraits::template rebind<Tp1>::other>& b)
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{ return !(a == b); }
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int personality;
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};
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#if __cplusplus >= 201103L
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// An uneq_allocator which can be used to test allocator propagation.
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template<typename Tp, bool Propagate, typename Alloc = std::allocator<Tp>>
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class propagating_allocator : public uneq_allocator<Tp, Alloc>
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{
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typedef __gnu_cxx::__alloc_traits<Alloc> AllocTraits;
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typedef uneq_allocator<Tp, Alloc> base_alloc;
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base_alloc& base() { return *this; }
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const base_alloc& base() const { return *this; }
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void swap_base(base_alloc& b) { swap(b, this->base()); }
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typedef std::integral_constant<bool, Propagate> trait_type;
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public:
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// default allocator_traits::rebind_alloc would select
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// uneq_allocator::rebind so we must define rebind here
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template<typename Up>
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struct rebind
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{
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typedef propagating_allocator<Up, Propagate,
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typename AllocTraits::template rebind<Up>::other> other;
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};
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propagating_allocator(int i) noexcept
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: base_alloc(i)
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{ }
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template<typename Up>
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propagating_allocator(const propagating_allocator<Up, Propagate,
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typename AllocTraits::template rebind<Up>::other>& a)
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noexcept
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: base_alloc(a)
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{ }
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propagating_allocator() noexcept = default;
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propagating_allocator(const propagating_allocator&) noexcept = default;
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propagating_allocator&
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operator=(const propagating_allocator& a) noexcept
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{
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static_assert(Propagate, "assigning propagating_allocator<T, true>");
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propagating_allocator(a).swap_base(*this);
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return *this;
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}
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template<bool P2>
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propagating_allocator&
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operator=(const propagating_allocator<Tp, P2, Alloc>& a) noexcept
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{
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static_assert(P2, "assigning propagating_allocator<T, true>");
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propagating_allocator(a).swap_base(*this);
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return *this;
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}
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// postcondition: a.get_personality() == 0
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propagating_allocator(propagating_allocator&& a) noexcept
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: base_alloc()
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{ swap_base(a); }
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// postcondition: a.get_personality() == 0
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propagating_allocator&
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operator=(propagating_allocator&& a) noexcept
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{
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propagating_allocator(std::move(a)).swap_base(*this);
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return *this;
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}
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typedef trait_type propagate_on_container_copy_assignment;
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typedef trait_type propagate_on_container_move_assignment;
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typedef trait_type propagate_on_container_swap;
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propagating_allocator select_on_container_copy_construction() const
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{ return Propagate ? *this : propagating_allocator(); }
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};
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// Class template supporting the minimal interface that satisfies the
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// Allocator requirements, from example in [allocator.requirements]
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template <class Tp>
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struct SimpleAllocator
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{
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typedef Tp value_type;
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SimpleAllocator() noexcept { }
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template <class T>
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SimpleAllocator(const SimpleAllocator<T>& other) { }
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Tp *allocate(std::size_t n)
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{ return std::allocator<Tp>().allocate(n); }
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void deallocate(Tp *p, std::size_t n)
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{ std::allocator<Tp>().deallocate(p, n); }
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};
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template <class T, class U>
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bool operator==(const SimpleAllocator<T>&, const SimpleAllocator<U>&)
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{ return true; }
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template <class T, class U>
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bool operator!=(const SimpleAllocator<T>&, const SimpleAllocator<U>&)
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{ return false; }
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#endif
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template<typename Tp>
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struct ExplicitConsAlloc : std::allocator<Tp>
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{
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ExplicitConsAlloc() { }
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template<typename Up>
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explicit
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ExplicitConsAlloc(const ExplicitConsAlloc<Up>&) { }
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template<typename Up>
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struct rebind
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{ typedef ExplicitConsAlloc<Up> other; };
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};
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#if __cplusplus >= 201103L
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template<typename Tp>
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class CustomPointerAlloc : public std::allocator<Tp>
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{
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template<typename Up, typename Sp = __gnu_cxx::_Std_pointer_impl<Up>>
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using Ptr = __gnu_cxx::_Pointer_adapter<Sp>;
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public:
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CustomPointerAlloc() = default;
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template<typename Up>
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CustomPointerAlloc(const CustomPointerAlloc<Up>&) { }
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template<typename Up>
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struct rebind
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{ typedef CustomPointerAlloc<Up> other; };
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typedef Ptr<Tp> pointer;
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typedef Ptr<const Tp> const_pointer;
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typedef Ptr<void> void_pointer;
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typedef Ptr<const void> const_void_pointer;
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pointer allocate(std::size_t n, pointer = {})
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{ return pointer(std::allocator<Tp>::allocate(n)); }
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void deallocate(pointer p, std::size_t n)
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{ std::allocator<Tp>::deallocate(std::addressof(*p), n); }
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};
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// Utility for use as CRTP base class of custom pointer types
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template<typename Derived, typename T>
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struct PointerBase
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{
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typedef T element_type;
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// typedefs for iterator_traits
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typedef T value_type;
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typedef std::ptrdiff_t difference_type;
|
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typedef std::random_access_iterator_tag iterator_category;
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typedef Derived pointer;
|
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typedef T& reference;
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|
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T* value;
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|
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explicit PointerBase(T* p = nullptr) : value(p) { }
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template<typename D, typename U,
|
|
typename = decltype(static_cast<T*>(std::declval<U*>()))>
|
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PointerBase(const PointerBase<D, U>& p) : value(p.value) { }
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|
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T& operator*() const { return *value; }
|
|
T* operator->() const { return value; }
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|
|
|
Derived& operator++() { ++value; return derived(); }
|
|
Derived operator++(int) { Derived tmp(derived()); ++value; return tmp; }
|
|
Derived& operator--() { --value; return derived(); }
|
|
Derived operator--(int) { Derived tmp(derived()); --value; return tmp; }
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|
|
|
Derived& operator+=(difference_type n) { value += n; return derived(); }
|
|
Derived& operator-=(difference_type n) { value -= n; return derived(); }
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|
|
|
explicit operator bool() const { return value != nullptr; }
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|
|
|
Derived
|
|
operator+(difference_type n) const
|
|
{
|
|
Derived p(derived());
|
|
return p += n;
|
|
}
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|
|
|
Derived
|
|
operator-(difference_type n) const
|
|
{
|
|
Derived p(derived());
|
|
return p -= n;
|
|
}
|
|
|
|
private:
|
|
Derived& derived() { return static_cast<Derived&>(*this); }
|
|
};
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|
|
|
template<typename D, typename T>
|
|
std::ptrdiff_t operator-(PointerBase<D, T> l, PointerBase<D, T> r)
|
|
{ return l.value - r.value; }
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|
|
|
template<typename D, typename T>
|
|
bool operator==(PointerBase<D, T> l, PointerBase<D, T> r)
|
|
{ return l.value == r.value; }
|
|
|
|
template<typename D, typename T>
|
|
bool operator!=(PointerBase<D, T> l, PointerBase<D, T> r)
|
|
{ return l.value != r.value; }
|
|
|
|
// implementation for void specializations
|
|
template<typename T>
|
|
struct PointerBase_void
|
|
{
|
|
typedef T element_type;
|
|
|
|
// typedefs for iterator_traits
|
|
typedef T value_type;
|
|
typedef std::ptrdiff_t difference_type;
|
|
typedef std::random_access_iterator_tag iterator_category;
|
|
|
|
T* value;
|
|
|
|
explicit PointerBase_void(T* p = nullptr) : value(p) { }
|
|
|
|
template<typename D, typename U,
|
|
typename = decltype(static_cast<T*>(std::declval<U*>()))>
|
|
PointerBase_void(const PointerBase<D, U>& p) : value(p.value) { }
|
|
|
|
explicit operator bool() const { return value != nullptr; }
|
|
};
|
|
|
|
template<typename Derived>
|
|
struct PointerBase<Derived, void> : PointerBase_void<void>
|
|
{
|
|
using PointerBase_void::PointerBase_void;
|
|
typedef Derived pointer;
|
|
};
|
|
|
|
template<typename Derived>
|
|
struct PointerBase<Derived, const void> : PointerBase_void<const void>
|
|
{
|
|
using PointerBase_void::PointerBase_void;
|
|
typedef Derived pointer;
|
|
};
|
|
#endif
|
|
|
|
} // namespace __gnu_test
|
|
|
|
#endif // _GLIBCXX_TESTSUITE_ALLOCATOR_H
|