MySQL 8.0.40
Source Code Documentation
ref_ptr.h
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23
24#ifndef MEMORY_REF_PTR_INCLUDED
25#define MEMORY_REF_PTR_INCLUDED
26
27#include <sys/stat.h>
28#include <sys/types.h>
29#include <algorithm>
30#include <iostream>
31#include <memory>
32#include <string>
33#include <tuple>
34
35namespace memory {
36/**
37 Class that holds the pointer to a variable in a static and
38 non-destructible way. The purpose is both to clearly state the ownership
39 of the memory being pointed to and to avoid unwanted pointer operations
40 (a `delete` on a pointer pointing to a stack memory block, for instance).
41
42 It's a convenience class for clearly stating the ownership of the underlying
43 pointer and is used for interface and code clarity.
44 */
45template <typename T>
46class Ref_ptr {
47 public:
48 /**
49 Default class constructor.
50 */
51 Ref_ptr() = default;
52 /**
53 Class constructor that receives the reference to be managed.
54
55 @param target The reference to be managed.
56 */
57 Ref_ptr(T &target);
58 /**
59 Copy constructor.
60
61 @param rhs The object to copy from.
62 */
63 Ref_ptr(Ref_ptr<T> const &rhs);
64 /**
65 Move constructor.
66
67 @param rhs The object to move from.
68 */
69 Ref_ptr(Ref_ptr<T> &&rhs);
70 /**
71 Default destructor.
72 */
73 virtual ~Ref_ptr() = default;
74
75 /**
76 Assignment operator to instantiate the reference to be managed.
77
78 @param rhs The reference to be managed.
79
80 @return A reference to `this` object.
81 */
82 Ref_ptr<T> &operator=(T &rhs);
83 /**
84 Copy operator.
85
86 @param rhs The object to copy from.
87
88 @return A reference to `this` object.
89 */
90 Ref_ptr<T> &operator=(Ref_ptr<T> const &rhs);
91 /**
92 Move operator.
93
94 @param rhs The object to move from.
95
96 @return A reference to `this` object.
97 */
99 /**
100 Negation operator.
101
102 @return `true` if there is no managed reference, `false` otherwise.
103 */
104 bool operator!() const;
105 /**
106 Arrow operator to access the underlying object of type `T`.
107
108 @return A pointer to the underlying object of type `T`.
109 */
110 T *operator->() const;
111 /**
112 Star operator to access the underlying object of type `T`.
113
114 @return A reference to the underlying object of type `T`.
115 */
116 T &operator*() const;
117 /**
118 Resets the managed reference and stops managing any pointer.
119
120 @return A reference to `this` object, for chaining purposes.
121 */
122 Ref_ptr<T> &reset();
123 /**
124 Equality to `nullptr` operator.
125
126 @param rhs nullptr value
127
128 @return `true` if the managed reference is not instantiated.
129 */
130 bool operator==(std::nullptr_t rhs) const;
131 /**
132 Inequality to `nullptr` operator.
133
134 @param rhs nullptr value
135
136 @return `false` if the managed reference is not instantiated.
137 */
138 bool operator!=(std::nullptr_t rhs) const;
139 /**
140 Equality operator.
141
142 @param rhs The object to compare to.
143
144 @return `true` if the managed reference is the same as one managed by the
145 `rhs` object.
146 */
147 template <typename R>
148 bool operator==(memory::Ref_ptr<R> const &rhs) const;
149 /**
150 Inequality operator.
151
152 @param rhs The object to compare to.
153
154 @return `true` if the managed reference is not the same as one managed by
155 the `rhs` object.
156 */
157 template <typename R>
158 bool operator!=(memory::Ref_ptr<R> const &rhs) const;
159
160 private:
161 /** The reference to be managed. */
162 T *m_underlying{nullptr};
163};
164} // namespace memory
165
166template <typename T>
167memory::Ref_ptr<T>::Ref_ptr(T &target) : m_underlying{&target} {}
168
169template <typename T>
171 : m_underlying{rhs.m_underlying} {}
172
173template <typename T>
175 : m_underlying{rhs.m_underlying} {
176 rhs.reset();
177}
178
179template <typename T>
181 this->m_underlying = &rhs;
182 return (*this);
183}
184
185template <typename T>
187 memory::Ref_ptr<T> const &rhs) {
188 this->m_underlying = rhs.m_underlying;
189 return (*this);
190}
191
192template <typename T>
194 this->m_underlying = rhs.m_underlying;
195 rhs.reset();
196 return (*this);
197}
198
199template <typename T>
201 return this->m_underlying == nullptr;
202}
203
204template <typename T>
206 return *this->m_underlying;
207}
208
209template <typename T>
211 return this->m_underlying;
212}
213
214template <typename T>
215bool memory::Ref_ptr<T>::operator==(std::nullptr_t) const {
216 return this->m_underlying == nullptr;
217}
218
219template <typename T>
220bool memory::Ref_ptr<T>::operator!=(std::nullptr_t) const {
221 return this->m_underlying != nullptr;
222}
223
224template <typename T>
225template <typename R>
227 return this->m_underlying == rhs.m_underlying;
228}
229
230template <typename T>
231template <typename R>
233 return this->m_underlying != rhs.m_underlying;
234}
235
236template <typename T>
238 this->m_underlying = nullptr;
239 return (*this);
240}
241
242#endif // MEMORY_REF_PTR_INCLUDED
Class that holds the pointer to a variable in a static and non-destructible way.
Definition: ref_ptr.h:46
bool operator==(std::nullptr_t rhs) const
Equality to nullptr operator.
Definition: ref_ptr.h:215
bool operator!=(std::nullptr_t rhs) const
Inequality to nullptr operator.
Definition: ref_ptr.h:220
Ref_ptr< T > & reset()
Resets the managed reference and stops managing any pointer.
Definition: ref_ptr.h:237
virtual ~Ref_ptr()=default
Default destructor.
T * m_underlying
The reference to be managed.
Definition: ref_ptr.h:162
T & operator*() const
Star operator to access the underlying object of type T.
Definition: ref_ptr.h:205
T * operator->() const
Arrow operator to access the underlying object of type T.
Definition: ref_ptr.h:210
Ref_ptr()=default
Default class constructor.
bool operator!() const
Negation operator.
Definition: ref_ptr.h:200
Ref_ptr< T > & operator=(T &rhs)
Assignment operator to instantiate the reference to be managed.
Definition: ref_ptr.h:180
Definition: aligned_atomic.h:44