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413 lines
13 KiB
413 lines
13 KiB
/*
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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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// ASSERT that __cplusplus >= 201103L
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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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// use inheritance to avoid compilation errors when using
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// methods / non-member functions that are not modeled
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// WARNING: if sizeof(shared_ptr) becomes different than 16, it may
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// lead to compilation errors
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template <class T>
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class shared_ptr : public std__shared_ptr<T> {
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// translate shared_ptr as type T*
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friend class infer_traits::TranslateAsType<T*>;
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// shared_ptr<T> in infer is translated as T*.
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// Some facts:
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// 1. shared_ptr<T>* translated as T**
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// 2. typeof(this) translated as T**
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// 3. typeof(this) in clang's AST is shared_ptr<T>*
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// When writing models for shared_ptr, we need to use infer's representation
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// In order to achieve that and not break compilation, there is some ugly
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// casting going around. We are using void* and void** to make compilation
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// happy - infer doesn't care about those types that much since they are
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// pointers anyway.
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// Example of model_X function declaration:
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// static void model_X(infer_shared_ptr_t self, ... params)
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// model_X are really C functions, but to simplify linking process, they are
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// defined inside shared_ptr class as static methods.
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// When using model_X functions, call them like so:
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// model_X(__cast_to_infer_ptr(this), args)
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/// type of 'this' in shared_ptr<T> as seen by infer
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typedef const void** infer_shared_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_shared_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_shared_ptr_t self, nullptr_t value) {
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*self = value;
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}
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static void model_set(infer_shared_ptr_t self, const void* value) {
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*self = value;
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}
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static void model_set(infer_shared_ptr_t self, volatile void* value) {
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*self = const_cast<const void*>(value);
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}
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static void model_set(infer_shared_ptr_t self, void* value) {
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*self = const_cast<const void*>(value);
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}
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static void model_copy(infer_shared_ptr_t self, infer_shared_ptr_t other) {
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/* TODO - increase refcount*/
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*self = *other;
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}
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static void model_move(infer_shared_ptr_t self, infer_shared_ptr_t other) {
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model_copy(self, other);
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model_set(other, nullptr);
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}
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static T* model_get(infer_shared_ptr_t self) { return (T*)(*self); }
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static void model_swap(infer_shared_ptr_t infer_self,
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infer_shared_ptr_t infer_other) {
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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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public:
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// Conversion constructors to allow implicit conversions.
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// it's here purely to avoid compilation errors
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template <class Y,
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typename = typename enable_if<is_convertible<Y*, T*>::value>::type>
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shared_ptr(const std__shared_ptr<Y>& r) {}
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template <class Y>
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shared_ptr(const std__shared_ptr<Y>& r, T* p) noexcept {}
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// constructors:
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constexpr shared_ptr() noexcept {
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model_set(__cast_to_infer_ptr(this), nullptr);
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}
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shared_ptr(nullptr_t) : shared_ptr() {}
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// Extra template argument is used to create constructors/assignment overloads
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// for Y types where it's possible to convert Y* to T*.
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// typename = typename enable_if<is_convertible<Y*, T*>::value>::type
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// thanks to that, clang will not create some functions that would cause
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// compilation errors. More info:
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// http://en.cppreference.com/w/cpp/language/sfinae
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template <class Y,
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typename = typename enable_if<is_convertible<Y*, T*>::value>::type>
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explicit shared_ptr(Y* p) {
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model_set(__cast_to_infer_ptr(this), p);
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}
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template <class Y,
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class D,
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typename = typename enable_if<is_convertible<Y*, T*>::value>::type>
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shared_ptr(Y* p, D d) : shared_ptr<T>(p) {}
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template <class Y,
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class D,
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class A,
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typename = typename enable_if<is_convertible<Y*, T*>::value>::type>
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shared_ptr(Y* p, D d, A a) : shared_ptr<T>(p) {}
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template <class D>
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shared_ptr(nullptr_t p, D d) : shared_ptr<T>(p) {}
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template <class D, class A>
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shared_ptr(nullptr_t p, D d, A a) : shared_ptr<T>(p) {}
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template <class Y>
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shared_ptr(const shared_ptr<Y>& r, T* p) noexcept {
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model_set(__cast_to_infer_ptr(this), nullptr); /* TODO */
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}
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shared_ptr(const shared_ptr& r) noexcept {
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model_copy(__cast_to_infer_ptr(this), __cast_to_infer_ptr(&r));
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}
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template <class Y,
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typename = typename enable_if<is_convertible<Y*, T*>::value>::type>
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shared_ptr(const shared_ptr<Y>& r) noexcept {
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model_copy(__cast_to_infer_ptr(this), __cast_to_infer_ptr(&r));
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}
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shared_ptr(shared_ptr&& r) noexcept {
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model_move(__cast_to_infer_ptr(this), __cast_to_infer_ptr(&r));
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}
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template <class Y,
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typename = typename enable_if<is_convertible<Y*, T*>::value>::type>
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shared_ptr(shared_ptr<Y>&& r) noexcept {
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model_move(__cast_to_infer_ptr(this), __cast_to_infer_ptr(&r));
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}
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template <class Y,
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typename = typename enable_if<is_convertible<Y*, T*>::value>::type>
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explicit shared_ptr(const weak_ptr<Y>& r) {}
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/* Because of implementation differences between libc++ and stdlibc++, don't
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* define this constructor (it will be defined elsewhere in case of
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* stdlibc++). Because it may be defined elsewhere, don't check whether Y*
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* converts to T* - otherwise there might be compilation error (out-of-line
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* definition).
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* No definition here might cause compilation problems if project is
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* using auto_ptrs with libc++ */
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template <class Y>
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shared_ptr(auto_ptr<Y>&& r); // {}
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template <class Y,
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class D,
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typename = typename enable_if<is_convertible<Y*, T*>::value>::type>
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shared_ptr(unique_ptr<Y, D>&& r) : shared_ptr<T>(r.release()) {}
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// destructor:
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~shared_ptr() { reset((T*)nullptr); }
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// assignment:
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shared_ptr& operator=(const shared_ptr& r) noexcept {
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// shared_ptr<T>(r).swap(*this);
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model_copy(__cast_to_infer_ptr(this), __cast_to_infer_ptr(&r));
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return *this;
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}
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template <class Y,
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typename = typename enable_if<is_convertible<Y*, T*>::value>::type>
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shared_ptr& operator=(const shared_ptr<Y>& r) noexcept {
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// shared_ptr<T>(r).swap(*this);
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model_copy(__cast_to_infer_ptr(this), __cast_to_infer_ptr(&r));
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return *this;
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}
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shared_ptr& operator=(shared_ptr&& r) noexcept {
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// shared_ptr<T>(std::move(r)).swap(*this);
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model_move(__cast_to_infer_ptr(this), __cast_to_infer_ptr(&r));
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return *this;
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}
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template <class Y,
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typename = typename enable_if<is_convertible<Y*, T*>::value>::type>
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shared_ptr& operator=(shared_ptr<Y>&& r) {
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// shared_ptr<T>(std::move(r)).swap(*this);
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model_move(__cast_to_infer_ptr(this), __cast_to_infer_ptr(&r));
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return *this;
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}
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template <class Y,
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typename = typename enable_if<is_convertible<Y*, T*>::value>::type>
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shared_ptr& operator=(auto_ptr<Y>&& r) { /* ?? */
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}
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template <class Y,
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class D,
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typename = typename enable_if<is_convertible<Y*, T*>::value>::type>
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shared_ptr& operator=(unique_ptr<Y, D>&& r) {
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// shared_ptr<T>(std::move(r)).swap(*this);
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return *this;
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}
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// modifiers:
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void swap(shared_ptr& r) noexcept {
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model_swap(__cast_to_infer_ptr(this), __cast_to_infer_ptr(&r));
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}
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void reset() noexcept { reset((T*)nullptr); }
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template <class Y,
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typename = typename enable_if<is_convertible<Y*, T*>::value>::type>
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void reset(Y* p) {
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/*
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if (unique()) {
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delete __data;
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}
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*/
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model_set(__cast_to_infer_ptr(this), p);
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// TODO adjust refcounts
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}
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template <class Y,
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class D,
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typename = typename enable_if<is_convertible<Y*, T*>::value>::type>
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void reset(Y* p, D d) {
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reset(p);
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}
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template <class Y,
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class D,
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class A,
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typename = typename enable_if<is_convertible<Y*, T*>::value>::type>
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void reset(Y* p, D d, A a) {
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reset(p);
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}
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// observers:
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T* get() const noexcept INFER_MODEL_AS_DEREF_FIRST_ARG;
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typename std::add_lvalue_reference<T>::type operator*() const
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noexcept INFER_MODEL_AS_DEREF_FIRST_ARG;
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T* operator->() const noexcept INFER_MODEL_AS_DEREF_FIRST_ARG;
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long use_count() const noexcept { return 2; /* FIXME */ }
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bool unique() const noexcept { return use_count() == 1; /* FIXME */ }
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explicit operator bool() const noexcept {
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// for some reason analyzer can't cast to bool correctly, trick with two
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// negations creates right specs for this function
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return !!(bool)(model_get(__cast_to_infer_ptr(this)));
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}
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template <class U>
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bool owner_before(shared_ptr<U> const& b) const {
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return true; /* FIXME - use non-det*/
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}
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template <class U>
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bool owner_before(weak_ptr<U> const& b) const {
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return true; /* FIXME - use non-det */
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}
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};
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template <class _Tp, class _Up>
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inline bool operator==(const shared_ptr<_Tp>& __x,
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const shared_ptr<_Up>& __y) noexcept {
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return __x.get() == __y.get();
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}
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template <class _Tp, class _Up>
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inline bool operator!=(const shared_ptr<_Tp>& __x,
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const shared_ptr<_Up>& __y) noexcept {
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return !(__x == __y);
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}
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template <class _Tp, class _Up>
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inline bool operator<(const shared_ptr<_Tp>& __x,
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const shared_ptr<_Up>& __y) noexcept {
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typedef typename common_type<_Tp*, _Up*>::type _Vp;
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return less<_Vp>()(__x.get(), __y.get());
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}
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template <class _Tp, class _Up>
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inline bool operator>(const shared_ptr<_Tp>& __x,
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const shared_ptr<_Up>& __y) noexcept {
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return __y < __x;
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}
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template <class _Tp, class _Up>
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inline bool operator<=(const shared_ptr<_Tp>& __x,
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const shared_ptr<_Up>& __y) noexcept {
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return !(__y < __x);
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}
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template <class _Tp, class _Up>
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inline bool operator>=(const shared_ptr<_Tp>& __x,
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const shared_ptr<_Up>& __y) noexcept {
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return !(__x < __y);
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}
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template <class _Tp>
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inline bool operator==(const shared_ptr<_Tp>& __x, nullptr_t) noexcept {
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return !__x;
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}
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template <class _Tp>
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inline bool operator==(nullptr_t, const shared_ptr<_Tp>& __x) noexcept {
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return !__x;
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}
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template <class _Tp>
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inline bool operator!=(const shared_ptr<_Tp>& __x, nullptr_t) noexcept {
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return static_cast<bool>(__x);
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}
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template <class _Tp>
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inline bool operator!=(nullptr_t, const shared_ptr<_Tp>& __x) noexcept {
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return static_cast<bool>(__x);
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}
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template <class _Tp>
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inline bool operator<(const shared_ptr<_Tp>& __x, nullptr_t) noexcept {
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return less<_Tp*>()(__x.get(), nullptr);
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}
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template <class _Tp>
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inline bool operator<(nullptr_t, const shared_ptr<_Tp>& __x) noexcept {
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return less<_Tp*>()(nullptr, __x.get());
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}
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template <class _Tp>
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inline bool operator>(const shared_ptr<_Tp>& __x, nullptr_t) noexcept {
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return nullptr < __x;
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}
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template <class _Tp>
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inline bool operator>(nullptr_t, const shared_ptr<_Tp>& __x) noexcept {
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return __x < nullptr;
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}
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template <class _Tp>
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inline bool operator<=(const shared_ptr<_Tp>& __x, nullptr_t) noexcept {
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return !(nullptr < __x);
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}
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template <class _Tp>
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inline bool operator<=(nullptr_t, const shared_ptr<_Tp>& __x) noexcept {
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return !(__x < nullptr);
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}
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template <class _Tp>
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inline bool operator>=(const shared_ptr<_Tp>& __x, nullptr_t) noexcept {
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return !(__x < nullptr);
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}
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template <class _Tp>
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inline bool operator>=(nullptr_t, const shared_ptr<_Tp>& __x) noexcept {
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return !(nullptr < __x);
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}
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template <class T>
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struct hash<shared_ptr<T>> : public hash<std__shared_ptr<T>> {};
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// shared_ptr casts - call original functions but change return type to
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// std::shared_ptr
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template <class T, class U>
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shared_ptr<T> static_pointer_cast(shared_ptr<U> const& r) noexcept {
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return static_pointer_cast<T, U>((const std__shared_ptr<U>&)r);
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}
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template <class T, class U>
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shared_ptr<T> dynamic_pointer_cast(shared_ptr<U> const& r) noexcept {
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return dynamic_pointer_cast<T, U>((const std__shared_ptr<U>&)r);
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}
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template <class T, class U>
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shared_ptr<T> const_pointer_cast(shared_ptr<U> const& r) noexcept {
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return const_pointer_cast<T, U>((const std__shared_ptr<U>&)r);
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}
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template <class T>
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class enable_shared_from_this : public std__enable_shared_from_this<T> {
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public:
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shared_ptr<T> shared_from_this() {
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return std__enable_shared_from_this<T>::shared_from_this();
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}
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shared_ptr<T const> shared_from_this() const {
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return std__enable_shared_from_this<T>::shared_from_this();
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}
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};
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template <class T, class... Args>
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shared_ptr<T> make_shared(Args&&... args) {
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return shared_ptr<T>(new T(std::forward<Args>(args)...));
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}
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#undef __cast_to_infer_ptr
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INFER_NAMESPACE_STD_END
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