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/*
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* Copyright (c) 2016 - present Facebook, Inc.
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* All rights reserved.
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*
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* This source code is licensed under the BSD style license found in the
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* LICENSE file in the root directory of this source tree. An additional grant
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* of patent rights can be found in the PATENTS file in the same directory.
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*/
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#pragma once
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#include <infer_model/common.h>
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#include <infer_model/infer_traits.h>
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INFER_NAMESPACE_STD_BEGIN
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// IMPORTANT
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// There is specialization of unique_ptr below and it's mosly copy paste.
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// When changing model, remember to change it for specialization as well!
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template <class _Tp, class _Dp = default_delete<_Tp>>
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struct unique_ptr {
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// use SFINAE to determine whether _Del::pointer exists
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class _Pointer {
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template <typename _Up>
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static typename _Up::pointer __test(typename _Up::pointer*);
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template <typename _Up>
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static _Tp* __test(...);
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typedef typename remove_reference<_Dp>::type _Del;
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public:
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typedef decltype(__test<_Del>(0)) type;
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};
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public:
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typedef typename _Pointer::type pointer;
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typedef _Tp element_type;
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typedef _Dp deleter_type;
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private:
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/* std::unique_ptr<T> in infer is translated as T*
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Look at model of std::shared_ptr for more details */
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// translate shared_ptr as type 'pointer'
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friend class infer_traits::TranslateAsType<pointer>;
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/// type of 'this' in unique_ptr<T> as seen by infer
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typedef const void** infer_unique_ptr_t;
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// use it to avoid compilation errors and make infer analyzer happy
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#define __cast_to_infer_ptr(self) ((infer_unique_ptr_t)self)
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// provide overload for volatile void* to accomodate for situation when
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// T is volatile ('volatile int' for example). 'void*' and 'nullptr_t'
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// overloads are to avoid 'call to model_set is ambiguous' compilation errors
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static void model_set(infer_unique_ptr_t self, nullptr_t value) noexcept {
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*self = value;
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}
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static void model_set(infer_unique_ptr_t self, const void* value) noexcept {
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*self = value;
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}
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static void model_set(infer_unique_ptr_t self,
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volatile void* value) noexcept {
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*self = const_cast<const void*>(value);
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}
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static void model_set(infer_unique_ptr_t self, void* value) noexcept {
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*self = const_cast<const void*>(value);
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}
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// in case 'pointer' type is not type pointer, enable catch all overload of
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// `model_set` to prevent compliation issues
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static void model_set(...) noexcept { /* no model for this overload */
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}
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static void model_move(infer_unique_ptr_t self,
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infer_unique_ptr_t other) noexcept {
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*self = *other;
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model_set(other, nullptr);
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}
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static pointer model_get(infer_unique_ptr_t self) noexcept {
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return (pointer)(*self);
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}
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static void model_swap(infer_unique_ptr_t infer_self,
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infer_unique_ptr_t infer_other) noexcept {
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const void* t = *infer_self;
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*infer_self = *infer_other;
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*infer_other = t;
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}
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pointer __ignore__; // used to keep sizeof(unique_ptr) same as in standard
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public:
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template <class Y>
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unique_ptr(const std__unique_ptr<Y>& u) {}
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constexpr unique_ptr() noexcept {
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model_set(__cast_to_infer_ptr(this), nullptr);
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}
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constexpr unique_ptr(nullptr_t) noexcept : unique_ptr<_Tp, _Dp>() {}
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explicit unique_ptr(pointer ptr) noexcept {
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model_set(__cast_to_infer_ptr(this), ptr);
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}
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unique_ptr(pointer ptr,
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typename conditional<
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is_reference<deleter_type>::value,
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deleter_type,
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typename add_lvalue_reference<const deleter_type>::type>::type
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__d) noexcept
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: unique_ptr<_Tp, _Dp>(ptr) {}
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unique_ptr(pointer ptr,
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typename remove_reference<deleter_type>::type&& __d) noexcept
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: unique_ptr<_Tp, _Dp>(ptr) {}
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unique_ptr(unique_ptr&& u) noexcept {
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model_move(__cast_to_infer_ptr(this), __cast_to_infer_ptr(&u));
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}
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template <class _Up,
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class _Ep,
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typename = typename enable_if<
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!is_array<_Up>::value &&
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is_convertible<typename unique_ptr<_Up, _Ep>::pointer,
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pointer>::value &&
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is_convertible<_Ep, deleter_type>::value &&
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(!is_reference<deleter_type>::value ||
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is_same<deleter_type, _Ep>::value)>::type>
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unique_ptr(unique_ptr<_Up, _Ep>&& u) noexcept {
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model_move(__cast_to_infer_ptr(this), __cast_to_infer_ptr(&u));
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}
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template <
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class _Up,
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typename = typename enable_if<is_convertible<_Up*, _Tp*>::value>::type>
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unique_ptr(auto_ptr<_Up>&& __p) noexcept;
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~unique_ptr() { reset(); }
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unique_ptr& operator=(unique_ptr&& __u) noexcept {
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model_move(__cast_to_infer_ptr(this), __cast_to_infer_ptr(&__u));
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return *this;
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}
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template <class _Up,
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class _Ep,
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typename = typename enable_if<
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!is_array<_Up>::value &&
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is_convertible<typename unique_ptr<_Up, _Ep>::pointer,
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pointer>::value &&
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is_assignable<deleter_type&, _Ep&&>::value>::type>
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unique_ptr& operator=(unique_ptr<_Up, _Ep>&& __u) noexcept {
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model_move(__cast_to_infer_ptr(this), __cast_to_infer_ptr(&__u));
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return *this;
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}
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unique_ptr& operator=(nullptr_t) noexcept {
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reset();
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return *this;
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}
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typename add_lvalue_reference<_Tp>::type operator*() const
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INFER_MODEL_AS_DEREF_FIRST_ARG;
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pointer operator->() const INFER_MODEL_AS_DEREF_FIRST_ARG;
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pointer get() const INFER_MODEL_AS_DEREF_FIRST_ARG;
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typedef typename remove_reference<deleter_type>::type& _Dp_reference;
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typedef const typename remove_reference<deleter_type>::type&
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_Dp_const_reference;
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_Dp_const_reference get_deleter() const {}
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_Dp_reference get_deleter() {}
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explicit operator bool() const {
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return !!(bool)(model_get(__cast_to_infer_ptr(this)));
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}
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pointer release() INFER_MODEL_AS_DEREF_FIRST_ARG;
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void reset(pointer p = nullptr) { model_set(__cast_to_infer_ptr(this), p); }
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void swap(unique_ptr& u) {
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model_swap(__cast_to_infer_ptr(this), __cast_to_infer_ptr(&u));
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}
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};
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template <class _Tp, class _Dp>
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struct unique_ptr<_Tp[], _Dp> {
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// use SFINAE to determine whether _Del::pointer exists
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class _Pointer {
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template <typename _Up>
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static typename _Up::pointer __test(typename _Up::pointer*);
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template <typename _Up>
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static _Tp* __test(...);
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typedef typename remove_reference<_Dp>::type _Del;
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public:
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typedef decltype(__test<_Del>(0)) type;
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};
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public:
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typedef typename _Pointer::type pointer;
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typedef _Tp element_type;
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typedef _Dp deleter_type;
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private:
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// translate shared_ptr as type pointer
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friend class infer_traits::TranslateAsType<pointer>;
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/// type of 'this' in unique_ptr<T> as seen by infer
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typedef const void** infer_unique_ptr_t;
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// use it to avoid compilation errors and make infer analyzer happy
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#define __cast_to_infer_ptr(self) ((infer_unique_ptr_t)self)
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static void model_set(infer_unique_ptr_t self, const void* value) noexcept {
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*self = value;
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}
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// in case 'pointer' type is not type pointer, enable catch all overload of
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// `model_set` to prevent compliation issues
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static void model_set(...) noexcept { /* no model for this overload */
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}
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static void model_move(infer_unique_ptr_t self,
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infer_unique_ptr_t other) noexcept {
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*self = *other;
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model_set(other, nullptr);
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}
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static pointer model_get(infer_unique_ptr_t self) noexcept {
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return (pointer)(*self);
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}
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static void model_swap(infer_unique_ptr_t infer_self,
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infer_unique_ptr_t infer_other) noexcept {
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const void* t = *infer_self;
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*infer_self = *infer_other;
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*infer_other = t;
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}
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pointer __ignore__; // used to keep sizeof(unique_ptr) same as in standard
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public:
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constexpr unique_ptr() noexcept {
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model_set(__cast_to_infer_ptr(this), nullptr);
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}
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constexpr unique_ptr(nullptr_t) noexcept : unique_ptr() {}
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explicit unique_ptr(pointer ptr) noexcept {
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model_set(__cast_to_infer_ptr(this), ptr);
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}
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unique_ptr(
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pointer ptr,
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typename conditional<
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is_reference<deleter_type>::value,
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deleter_type,
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typename add_lvalue_reference<const deleter_type>::type>::type
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__d) noexcept
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: unique_ptr(ptr) {}
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unique_ptr(pointer ptr,
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typename remove_reference<deleter_type>::type&& __d) noexcept
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: unique_ptr(ptr) {}
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unique_ptr(unique_ptr&& u) noexcept {
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model_move(__cast_to_infer_ptr(this), __cast_to_infer_ptr(&u));
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}
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template <class _Up,
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class _Ep,
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typename = typename enable_if<
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is_array<_Up>::value &&
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is_convertible<typename unique_ptr<_Up, _Ep>::pointer,
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pointer>::value &&
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is_convertible<_Ep, deleter_type>::value &&
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(!is_reference<deleter_type>::value ||
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is_same<deleter_type, _Ep>::value)>::type>
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unique_ptr(unique_ptr<_Up, _Ep>&& u) noexcept {
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model_move(__cast_to_infer_ptr(this), __cast_to_infer_ptr(&u));
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}
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template <
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class _Up,
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typename = typename enable_if<is_convertible<_Up*, _Tp*>::value>::type>
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unique_ptr(auto_ptr<_Up>&& __p) noexcept;
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~unique_ptr() { reset(); }
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unique_ptr& operator=(unique_ptr&& __u) noexcept {
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model_move(__cast_to_infer_ptr(this), __cast_to_infer_ptr(&__u));
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return *this;
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}
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template <class _Up,
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class _Ep,
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typename = typename enable_if<
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is_array<_Up>::value &&
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is_convertible<typename unique_ptr<_Up, _Ep>::pointer,
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pointer>::value &&
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is_assignable<deleter_type&, _Ep&&>::value>::type>
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unique_ptr& operator=(unique_ptr<_Up, _Ep>&& __u) noexcept {
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model_move(__cast_to_infer_ptr(this), __cast_to_infer_ptr(&__u));
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return *this;
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}
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unique_ptr& operator=(nullptr_t) noexcept {
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reset();
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return *this;
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}
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typename add_lvalue_reference<_Tp>::type operator[](size_t i) const
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INFER_MODEL_AS_DEREF_FIRST_ARG;
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pointer get() const INFER_MODEL_AS_DEREF_FIRST_ARG;
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typedef typename remove_reference<deleter_type>::type& _Dp_reference;
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typedef const typename remove_reference<deleter_type>::type&
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_Dp_const_reference;
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_Dp_const_reference get_deleter() const {}
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_Dp_reference get_deleter() {}
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explicit operator bool() const {
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return !!(bool)(model_get(__cast_to_infer_ptr(this)));
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}
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pointer release() INFER_MODEL_AS_DEREF_FIRST_ARG;
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void reset(pointer p = nullptr) { model_set(__cast_to_infer_ptr(this), p); }
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void swap(unique_ptr& u) {
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model_swap(__cast_to_infer_ptr(this), __cast_to_infer_ptr(&u));
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}
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};
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template <class _T1, class _D1, class _T2, class _D2>
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inline bool operator==(const unique_ptr<_T1, _D1>& __x,
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const unique_ptr<_T2, _D2>& __y) {
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return __x.get() == __y.get();
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}
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template <class _T1, class _D1, class _T2, class _D2>
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inline bool operator!=(const unique_ptr<_T1, _D1>& __x,
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const unique_ptr<_T2, _D2>& __y) {
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return !(__x == __y);
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}
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template <class _T1, class _D1, class _T2, class _D2>
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inline bool operator<(const unique_ptr<_T1, _D1>& __x,
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const unique_ptr<_T2, _D2>& __y) {
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/*typedef typename unique_ptr<_T1, _D1>::pointer _P1;
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typedef typename unique_ptr<_T2, _D2>::pointer _P2;
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typedef typename common_type<_P1, _P2>::type _Vp;
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return less<_Vp>()(__x.get(), __y.get());*/
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}
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template <class _T1, class _D1, class _T2, class _D2>
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inline bool operator>(const unique_ptr<_T1, _D1>& __x,
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const unique_ptr<_T2, _D2>& __y) {
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return __y < __x;
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}
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template <class _T1, class _D1, class _T2, class _D2>
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inline bool operator<=(const unique_ptr<_T1, _D1>& __x,
|
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const unique_ptr<_T2, _D2>& __y) {
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|
return !(__y < __x);
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|
}
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template <class _T1, class _D1, class _T2, class _D2>
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inline bool operator>=(const unique_ptr<_T1, _D1>& __x,
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const unique_ptr<_T2, _D2>& __y) {
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|
return !(__x < __y);
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|
}
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template <class _T1, class _D1>
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inline bool operator==(const unique_ptr<_T1, _D1>& __x, nullptr_t) {
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|
return !__x;
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|
}
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template <class _T1, class _D1>
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inline bool operator==(nullptr_t, const unique_ptr<_T1, _D1>& __x) {
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|
return !__x;
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|
}
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template <class _T1, class _D1>
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|
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inline bool operator!=(const unique_ptr<_T1, _D1>& __x, nullptr_t) {
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|
return static_cast<bool>(__x);
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|
|
|
}
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|
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template <class _T1, class _D1>
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|
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inline bool operator!=(nullptr_t, const unique_ptr<_T1, _D1>& __x) {
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|
|
|
return static_cast<bool>(__x);
|
|
|
|
}
|
|
|
|
|
|
|
|
template <class _T1, class _D1>
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|
|
|
inline bool operator<(const unique_ptr<_T1, _D1>& __x, nullptr_t) {
|
|
|
|
/*typedef typename unique_ptr<_T1, _D1>::pointer _P1;
|
|
|
|
return less<_P1>()(__x.get(), nullptr);*/
|
|
|
|
}
|
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|
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|
|
|
|
template <class _T1, class _D1>
|
|
|
|
inline bool operator<(nullptr_t, const unique_ptr<_T1, _D1>& __x) {
|
|
|
|
/*typedef typename unique_ptr<_T1, _D1>::pointer _P1;
|
|
|
|
return less<_P1>()(nullptr, __x.get());*/
|
|
|
|
}
|
|
|
|
|
|
|
|
template <class _T1, class _D1>
|
|
|
|
inline bool operator>(const unique_ptr<_T1, _D1>& __x, nullptr_t) {
|
|
|
|
return nullptr < __x;
|
|
|
|
}
|
|
|
|
|
|
|
|
template <class _T1, class _D1>
|
|
|
|
inline bool operator>(nullptr_t, const unique_ptr<_T1, _D1>& __x) {
|
|
|
|
return __x < nullptr;
|
|
|
|
}
|
|
|
|
|
|
|
|
template <class _T1, class _D1>
|
|
|
|
inline bool operator<=(const unique_ptr<_T1, _D1>& __x, nullptr_t) {
|
|
|
|
return !(nullptr < __x);
|
|
|
|
}
|
|
|
|
|
|
|
|
template <class _T1, class _D1>
|
|
|
|
inline bool operator<=(nullptr_t, const unique_ptr<_T1, _D1>& __x) {
|
|
|
|
return !(__x < nullptr);
|
|
|
|
}
|
|
|
|
|
|
|
|
template <class _T1, class _D1>
|
|
|
|
inline bool operator>=(const unique_ptr<_T1, _D1>& __x, nullptr_t) {
|
|
|
|
return !(__x < nullptr);
|
|
|
|
}
|
|
|
|
|
|
|
|
template <class _T1, class _D1>
|
|
|
|
inline bool operator>=(nullptr_t, const unique_ptr<_T1, _D1>& __x) {
|
|
|
|
return !(nullptr < __x);
|
|
|
|
}
|
|
|
|
|
|
|
|
template <class T, class D>
|
|
|
|
struct hash<unique_ptr<T, D>> : public hash<std__unique_ptr<T, D>> {
|
|
|
|
size_t operator()(const unique_ptr<T, D>& __u) const noexcept {}
|
|
|
|
};
|
|
|
|
|
|
|
|
template <typename _Tp>
|
|
|
|
struct _MakeUniq2 {
|
|
|
|
typedef unique_ptr<_Tp> __single_object;
|
|
|
|
};
|
|
|
|
|
|
|
|
template <typename _Tp>
|
|
|
|
struct _MakeUniq2<_Tp[]> {
|
|
|
|
typedef unique_ptr<_Tp[]> __array;
|
|
|
|
};
|
|
|
|
|
|
|
|
template <typename _Tp, size_t _Bound>
|
|
|
|
struct _MakeUniq2<_Tp[_Bound]> {
|
|
|
|
struct __invalid_type {};
|
|
|
|
};
|
|
|
|
|
|
|
|
/// std::make_unique for single objects
|
|
|
|
template <typename _Tp, typename... _Args>
|
|
|
|
inline typename _MakeUniq2<_Tp>::__single_object make_unique(
|
|
|
|
_Args&&... __args) {
|
|
|
|
return unique_ptr<_Tp>(::new _Tp(std::forward<_Args>(__args)...));
|
|
|
|
}
|
|
|
|
|
|
|
|
/// std::make_unique for arrays of unknown bound
|
|
|
|
template <typename _Tp>
|
|
|
|
inline typename _MakeUniq2<_Tp>::__array make_unique(size_t __num) {
|
|
|
|
return unique_ptr<_Tp>(::new typename remove_extent<_Tp>::type[__num]());
|
|
|
|
}
|
|
|
|
|
|
|
|
/// Disable std::make_unique for arrays of known bound
|
|
|
|
template <typename _Tp, typename... _Args>
|
|
|
|
inline typename _MakeUniq2<_Tp>::__invalid_type make_unique(_Args&&...) =
|
|
|
|
delete;
|
|
|
|
INFER_NAMESPACE_STD_END
|
|
|
|
|
|
|
|
#undef __cast_to_infer_ptr
|