MySQL 8.4.2
Source Code Documentation
allocator.h
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23
24/// @file allocator.h
25///
26/// @brief Allocator class that uses a polymorphic Memory_resource to
27/// allocate memory.
28
29#ifndef MYSQL_BINLOG_EVENT_RESOURCE_ALLOCATOR_H
30#define MYSQL_BINLOG_EVENT_RESOURCE_ALLOCATOR_H
31
32#include <cassert> // assert
33#include <limits> // std::numeric_limits
34
36
37/// @addtogroup GroupLibsMysqlBinlogEvent
38/// @{
39
41
42/// @brief Allocator using a Memory_resource to do the allocator.
43///
44/// A library that allocates memory should allow the user to pass a
45/// Memory_resource object which defaults to a default-constructed
46/// instance, Memory_resource(). Internally it should create the
47/// Allocator<T> classes it needs (possibly several, for different
48/// classes T), using the given Memory_resource object. Users of the
49/// library *outside* the server should just use the default
50/// Memory_resource. Users of the library *inside* the server should
51/// setup a PSI key and pass the result from @c memory_resource(Key)
52/// to the library.
53template <class T>
54class Allocator {
55 public:
56 using value_type = T;
57 using size_type = std::size_t;
58 using difference_type = std::ptrdiff_t;
59
60 /// Construct a new Allocator using the given Memory_resource.
61 ///
62 /// @param memory_resource The memory resource. By default, this
63 /// uses a default-constructed Memory_resource, so it uses
64 /// std::malloc and std::free for allocations.
65 explicit Allocator(Memory_resource memory_resource = Memory_resource())
66 : m_memory_resource(std::move(memory_resource)) {}
67
68 /// Implicit conversion from other instance.
69 ///
70 /// This is required by Windows implementation of
71 /// @c std::vector<Allocator>.
72 template <class U>
73 explicit Allocator(const Allocator<U> &other)
75
76 /// Use the Memory_resource to allocate the given number of elements
77 /// of type T.
78 ///
79 /// @param n The number of elements.
80 ///
81 /// @return The new pointer.
82 ///
83 /// @throws std::bad_alloc on out of memory conditions.
84 [[nodiscard]] constexpr T *allocate(size_type n) {
85 T *p = static_cast<T *>(m_memory_resource.allocate(n * sizeof(value_type)));
86 if (p == nullptr) throw std::bad_alloc();
87 return p;
88 }
89
90 /// Use the Memory_resource to deallocate the given pointer.
91 ///
92 /// @param p The pointer to deallocate.
93 ///
94 /// @param size Unused.
95 constexpr void deallocate(T *p, [[maybe_unused]] size_type size) {
97 }
98
99 /// Return a Deleter function for objects allocated by this class.
100 ///
101 /// Such a Deleter must be specified when constructing a smart
102 /// pointer to an object created by this Allocator, for example:
103 ///
104 /// @code
105 /// Allocator<T> allocator(some_memory_resource);
106 /// T *obj = allocator.allocate(1);
107 /// std::shared_ptr<T> ptr(obj, allocator.get_deleter());
108 /// @endcode
109 ///
110 /// @retval Deleter function that takes a `T*` as argument and
111 /// uses the Memory_resource to deallocate it.
112 std::function<void(T *)> get_deleter() {
113 auto deallocator = m_memory_resource.get_deallocator();
114 // Capture by value so we get a self-contained object that may
115 // outlive this Allocator and the Memory_resource if needed.
116 return [=](T *p) {
117 p->~T();
118 deallocator(p);
119 };
120 }
121
122 /// Return the underlying Memory_resource object.
124
125 private:
126 /// The underlying Memory_resource object.
128};
129
130/// Compare two Allocator objects for equality.
131template <class T>
132bool operator==([[maybe_unused]] const Allocator<T> &a1,
133 [[maybe_unused]] const Allocator<T> &a2) {
134 return true;
135}
136
137/// Compare two Allocator objects for inequality.
138template <class T>
139bool operator!=([[maybe_unused]] const Allocator<T> &a1,
140 [[maybe_unused]] const Allocator<T> &a2) {
141 return true;
142}
143
144} // namespace mysql::binlog::event::resource
145
146/// @}
147
148#endif // MYSQL_BINLOG_EVENT_RESOURCE_ALLOCATOR_H
Allocator using a Memory_resource to do the allocator.
Definition: allocator.h:54
std::size_t size_type
Definition: allocator.h:57
const Memory_resource m_memory_resource
The underlying Memory_resource object.
Definition: allocator.h:127
Memory_resource get_memory_resource() const
Return the underlying Memory_resource object.
Definition: allocator.h:123
T value_type
Definition: allocator.h:56
Allocator(Memory_resource memory_resource=Memory_resource())
Construct a new Allocator using the given Memory_resource.
Definition: allocator.h:65
std::ptrdiff_t difference_type
Definition: allocator.h:58
Allocator(const Allocator< U > &other)
Implicit conversion from other instance.
Definition: allocator.h:73
std::function< void(T *)> get_deleter()
Return a Deleter function for objects allocated by this class.
Definition: allocator.h:112
constexpr T * allocate(size_type n)
Use the Memory_resource to allocate the given number of elements of type T.
Definition: allocator.h:84
constexpr void deallocate(T *p, size_type size)
Use the Memory_resource to deallocate the given pointer.
Definition: allocator.h:95
Polymorphism-free memory resource class with custom allocator and deallocator functions.
Definition: memory_resource.h:88
void deallocate(Ptr_t p) const
Deallocate memory using the provided deallocator.
Definition: memory_resource.h:118
Deallocator_t get_deallocator() const
Return the deallocator.
Definition: memory_resource.h:121
void * allocate(Size_t n) const
Allocate memory using the provided allocator.
Definition: memory_resource.h:113
const char * p
Definition: ctype-mb.cc:1235
Class that wraps resources in a polymorphic manner.
Definition: allocator.h:40
bool operator==(const Allocator< T > &a1, const Allocator< T > &a2)
Compare two Allocator objects for equality.
Definition: allocator.h:132
bool operator!=(const Allocator< T > &a1, const Allocator< T > &a2)
Compare two Allocator objects for inequality.
Definition: allocator.h:139
size_t size(const char *const c)
Definition: base64.h:46
Definition: gcs_xcom_synode.h:64
int n
Definition: xcom_base.cc:509