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447 lines
14 KiB
C++
447 lines
14 KiB
C++
//===----------------------------------------------------------------------===//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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#ifndef TEST_ALLOCATOR_H
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#define TEST_ALLOCATOR_H
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#include <type_traits>
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#include <new>
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#include <memory>
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#include <utility>
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#include <cstddef>
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#include <cstdlib>
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#include <climits>
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#include <cassert>
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#include "test_macros.h"
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template <class Alloc>
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inline typename std::allocator_traits<Alloc>::size_type
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alloc_max_size(Alloc const &a) {
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typedef std::allocator_traits<Alloc> AT;
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return AT::max_size(a);
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}
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class test_alloc_base
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{
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protected:
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static int time_to_throw;
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public:
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static int throw_after;
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static int count;
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static int alloc_count;
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static int copied;
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static int moved;
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static int converted;
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const static int destructed_value = -1;
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const static int default_value = 0;
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const static int moved_value = INT_MAX;
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static void clear() {
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assert(count == 0 && "clearing leaking allocator data?");
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count = 0;
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time_to_throw = 0;
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alloc_count = 0;
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throw_after = INT_MAX;
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clear_ctor_counters();
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}
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static void clear_ctor_counters() {
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copied = 0;
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moved = 0;
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converted = 0;
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}
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};
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int test_alloc_base::count = 0;
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int test_alloc_base::time_to_throw = 0;
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int test_alloc_base::alloc_count = 0;
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int test_alloc_base::throw_after = INT_MAX;
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int test_alloc_base::copied = 0;
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int test_alloc_base::moved = 0;
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int test_alloc_base::converted = 0;
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template <class T>
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class test_allocator
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: public test_alloc_base
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{
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int data_; // participates in equality
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int id_; // unique identifier, doesn't participate in equality
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template <class U> friend class test_allocator;
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public:
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typedef unsigned size_type;
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typedef int difference_type;
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typedef T value_type;
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typedef value_type* pointer;
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typedef const value_type* const_pointer;
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typedef typename std::add_lvalue_reference<value_type>::type reference;
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typedef typename std::add_lvalue_reference<const value_type>::type const_reference;
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template <class U> struct rebind {typedef test_allocator<U> other;};
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test_allocator() TEST_NOEXCEPT : data_(0), id_(0) {++count;}
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explicit test_allocator(int i, int id = 0) TEST_NOEXCEPT : data_(i), id_(id)
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{++count;}
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test_allocator(const test_allocator& a) TEST_NOEXCEPT : data_(a.data_),
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id_(a.id_) {
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++count;
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++copied;
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assert(a.data_ != destructed_value && a.id_ != destructed_value &&
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"copying from destroyed allocator");
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}
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#if TEST_STD_VER >= 11
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test_allocator(test_allocator&& a) TEST_NOEXCEPT : data_(a.data_),
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id_(a.id_) {
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++count;
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++moved;
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assert(a.data_ != destructed_value && a.id_ != destructed_value &&
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"moving from destroyed allocator");
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a.data_ = moved_value;
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a.id_ = moved_value;
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}
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#endif
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template <class U>
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test_allocator(const test_allocator<U>& a) TEST_NOEXCEPT : data_(a.data_),
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id_(a.id_) {
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++count;
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++converted;
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}
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~test_allocator() TEST_NOEXCEPT {
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assert(data_ >= 0); assert(id_ >= 0);
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--count;
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data_ = destructed_value;
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id_ = destructed_value;
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}
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pointer address(reference x) const {return &x;}
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const_pointer address(const_reference x) const {return &x;}
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pointer allocate(size_type n, const void* = 0)
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{
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assert(data_ >= 0);
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if (time_to_throw >= throw_after) {
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#ifndef TEST_HAS_NO_EXCEPTIONS
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throw std::bad_alloc();
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#else
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std::terminate();
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#endif
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}
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++time_to_throw;
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++alloc_count;
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return (pointer)::operator new(n * sizeof(T));
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}
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void deallocate(pointer p, size_type)
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{assert(data_ >= 0); --alloc_count; ::operator delete((void*)p);}
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size_type max_size() const TEST_NOEXCEPT
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{return UINT_MAX / sizeof(T);}
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#if TEST_STD_VER < 11
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void construct(pointer p, const T& val)
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{::new(static_cast<void*>(p)) T(val);}
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#else
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template <class U> void construct(pointer p, U&& val)
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{::new(static_cast<void*>(p)) T(std::forward<U>(val));}
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#endif
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void destroy(pointer p)
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{p->~T();}
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friend bool operator==(const test_allocator& x, const test_allocator& y)
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{return x.data_ == y.data_;}
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friend bool operator!=(const test_allocator& x, const test_allocator& y)
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{return !(x == y);}
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int get_data() const { return data_; }
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int get_id() const { return id_; }
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};
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template <class T>
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class non_default_test_allocator
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: public test_alloc_base
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{
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int data_;
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template <class U> friend class non_default_test_allocator;
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public:
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typedef unsigned size_type;
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typedef int difference_type;
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typedef T value_type;
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typedef value_type* pointer;
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typedef const value_type* const_pointer;
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typedef typename std::add_lvalue_reference<value_type>::type reference;
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typedef typename std::add_lvalue_reference<const value_type>::type const_reference;
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template <class U> struct rebind {typedef non_default_test_allocator<U> other;};
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// non_default_test_allocator() TEST_NOEXCEPT : data_(0) {++count;}
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explicit non_default_test_allocator(int i) TEST_NOEXCEPT : data_(i) {++count;}
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non_default_test_allocator(const non_default_test_allocator& a) TEST_NOEXCEPT
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: data_(a.data_) {++count;}
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template <class U> non_default_test_allocator(const non_default_test_allocator<U>& a) TEST_NOEXCEPT
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: data_(a.data_) {++count;}
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~non_default_test_allocator() TEST_NOEXCEPT {assert(data_ >= 0); --count; data_ = -1;}
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pointer address(reference x) const {return &x;}
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const_pointer address(const_reference x) const {return &x;}
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pointer allocate(size_type n, const void* = 0)
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{
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assert(data_ >= 0);
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if (time_to_throw >= throw_after) {
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#ifndef TEST_HAS_NO_EXCEPTIONS
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throw std::bad_alloc();
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#else
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std::terminate();
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#endif
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}
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++time_to_throw;
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++alloc_count;
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return (pointer)::operator new (n * sizeof(T));
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}
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void deallocate(pointer p, size_type)
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{assert(data_ >= 0); --alloc_count; ::operator delete((void*)p); }
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size_type max_size() const TEST_NOEXCEPT
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{return UINT_MAX / sizeof(T);}
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#if TEST_STD_VER < 11
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void construct(pointer p, const T& val)
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{::new(static_cast<void*>(p)) T(val);}
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#else
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template <class U> void construct(pointer p, U&& val)
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{::new(static_cast<void*>(p)) T(std::forward<U>(val));}
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#endif
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void destroy(pointer p) {p->~T();}
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friend bool operator==(const non_default_test_allocator& x, const non_default_test_allocator& y)
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{return x.data_ == y.data_;}
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friend bool operator!=(const non_default_test_allocator& x, const non_default_test_allocator& y)
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{return !(x == y);}
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};
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template <>
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class test_allocator<void>
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: public test_alloc_base
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{
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int data_;
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int id_;
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template <class U> friend class test_allocator;
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public:
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typedef unsigned size_type;
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typedef int difference_type;
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typedef void value_type;
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typedef value_type* pointer;
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typedef const value_type* const_pointer;
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template <class U> struct rebind {typedef test_allocator<U> other;};
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test_allocator() TEST_NOEXCEPT : data_(0), id_(0) {}
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explicit test_allocator(int i, int id = 0) TEST_NOEXCEPT : data_(i), id_(id) {}
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test_allocator(const test_allocator& a) TEST_NOEXCEPT
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: data_(a.data_), id_(a.id_) {}
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template <class U> test_allocator(const test_allocator<U>& a) TEST_NOEXCEPT
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: data_(a.data_), id_(a.id_) {}
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~test_allocator() TEST_NOEXCEPT {data_ = -1; id_ = -1; }
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int get_id() const { return id_; }
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int get_data() const { return data_; }
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friend bool operator==(const test_allocator& x, const test_allocator& y)
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{return x.data_ == y.data_;}
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friend bool operator!=(const test_allocator& x, const test_allocator& y)
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{return !(x == y);}
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};
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template <class T>
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class other_allocator
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{
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int data_;
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template <class U> friend class other_allocator;
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public:
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typedef T value_type;
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other_allocator() : data_(-1) {}
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explicit other_allocator(int i) : data_(i) {}
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template <class U> other_allocator(const other_allocator<U>& a)
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: data_(a.data_) {}
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T* allocate(std::size_t n)
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{return (T*)::operator new(n * sizeof(T));}
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void deallocate(T* p, std::size_t)
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{::operator delete((void*)p);}
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other_allocator select_on_container_copy_construction() const
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{return other_allocator(-2);}
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friend bool operator==(const other_allocator& x, const other_allocator& y)
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{return x.data_ == y.data_;}
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friend bool operator!=(const other_allocator& x, const other_allocator& y)
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{return !(x == y);}
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typedef std::true_type propagate_on_container_copy_assignment;
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typedef std::true_type propagate_on_container_move_assignment;
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typedef std::true_type propagate_on_container_swap;
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#if TEST_STD_VER < 11
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std::size_t max_size() const
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{return UINT_MAX / sizeof(T);}
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#endif
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};
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#if TEST_STD_VER >= 11
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struct Ctor_Tag {};
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template <typename T> class TaggingAllocator;
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struct Tag_X {
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// All constructors must be passed the Tag type.
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// DefaultInsertable into vector<X, TaggingAllocator<X>>,
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Tag_X(Ctor_Tag) {}
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// CopyInsertable into vector<X, TaggingAllocator<X>>,
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Tag_X(Ctor_Tag, const Tag_X&) {}
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// MoveInsertable into vector<X, TaggingAllocator<X>>, and
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Tag_X(Ctor_Tag, Tag_X&&) {}
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// EmplaceConstructible into vector<X, TaggingAllocator<X>> from args.
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template<typename... Args>
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Tag_X(Ctor_Tag, Args&&...) { }
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// not DefaultConstructible, CopyConstructible or MoveConstructible.
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Tag_X() = delete;
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Tag_X(const Tag_X&) = delete;
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Tag_X(Tag_X&&) = delete;
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// CopyAssignable.
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Tag_X& operator=(const Tag_X&) { return *this; }
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// MoveAssignable.
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Tag_X& operator=(Tag_X&&) { return *this; }
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private:
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// Not Destructible.
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~Tag_X() { }
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// Erasable from vector<X, TaggingAllocator<X>>.
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friend class TaggingAllocator<Tag_X>;
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};
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template<typename T>
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class TaggingAllocator {
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public:
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using value_type = T;
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TaggingAllocator() = default;
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template<typename U>
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TaggingAllocator(const TaggingAllocator<U>&) { }
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T* allocate(std::size_t n) { return std::allocator<T>{}.allocate(n); }
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void deallocate(T* p, std::size_t n) { std::allocator<T>{}.deallocate(p, n); }
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template<typename... Args>
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void construct(Tag_X* p, Args&&... args)
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{ ::new((void*)p) Tag_X(Ctor_Tag{}, std::forward<Args>(args)...); }
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template<typename U, typename... Args>
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void construct(U* p, Args&&... args)
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{ ::new((void*)p) U(std::forward<Args>(args)...); }
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template<typename U, typename... Args>
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void destroy(U* p)
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{ p->~U(); }
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};
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template<typename T, typename U>
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bool
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operator==(const TaggingAllocator<T>&, const TaggingAllocator<U>&)
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{ return true; }
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template<typename T, typename U>
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bool
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operator!=(const TaggingAllocator<T>&, const TaggingAllocator<U>&)
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{ return false; }
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#endif
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template <std::size_t MaxAllocs>
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struct limited_alloc_handle {
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std::size_t outstanding_;
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void* last_alloc_;
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limited_alloc_handle() : outstanding_(0), last_alloc_(nullptr) {}
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template <class T>
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T *allocate(std::size_t N) {
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if (N + outstanding_ > MaxAllocs)
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TEST_THROW(std::bad_alloc());
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last_alloc_ = ::operator new(N*sizeof(T));
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outstanding_ += N;
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return static_cast<T*>(last_alloc_);
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}
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void deallocate(void* ptr, std::size_t N) {
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if (ptr == last_alloc_) {
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last_alloc_ = nullptr;
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assert(outstanding_ >= N);
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outstanding_ -= N;
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}
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::operator delete(ptr);
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}
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};
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template <class T, std::size_t N>
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class limited_allocator
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{
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template <class U, std::size_t UN> friend class limited_allocator;
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typedef limited_alloc_handle<N> BuffT;
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std::shared_ptr<BuffT> handle_;
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public:
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typedef T value_type;
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typedef value_type* pointer;
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typedef const value_type* const_pointer;
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typedef value_type& reference;
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typedef const value_type& const_reference;
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typedef std::size_t size_type;
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typedef std::ptrdiff_t difference_type;
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template <class U> struct rebind { typedef limited_allocator<U, N> other; };
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limited_allocator() : handle_(new BuffT) {}
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limited_allocator(limited_allocator const& other) : handle_(other.handle_) {}
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template <class U>
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explicit limited_allocator(limited_allocator<U, N> const& other)
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: handle_(other.handle_) {}
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private:
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limited_allocator& operator=(const limited_allocator&);// = delete;
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public:
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pointer allocate(size_type n) { return handle_->template allocate<T>(n); }
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void deallocate(pointer p, size_type n) { handle_->deallocate(p, n); }
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size_type max_size() const {return N;}
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BuffT* getHandle() const { return handle_.get(); }
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};
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template <class T, class U, std::size_t N>
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inline bool operator==(limited_allocator<T, N> const& LHS,
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limited_allocator<U, N> const& RHS) {
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return LHS.getHandle() == RHS.getHandle();
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}
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template <class T, class U, std::size_t N>
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inline bool operator!=(limited_allocator<T, N> const& LHS,
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limited_allocator<U, N> const& RHS) {
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return !(LHS == RHS);
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}
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#endif // TEST_ALLOCATOR_H
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