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[chromium-blink-merge.git] / base / lazy_instance.h
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1 // Copyright (c) 2012 The Chromium Authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file.
5 // The LazyInstance<Type, Traits> class manages a single instance of Type,
6 // which will be lazily created on the first time it's accessed. This class is
7 // useful for places you would normally use a function-level static, but you
8 // need to have guaranteed thread-safety. The Type constructor will only ever
9 // be called once, even if two threads are racing to create the object. Get()
10 // and Pointer() will always return the same, completely initialized instance.
11 // When the instance is constructed it is registered with AtExitManager. The
12 // destructor will be called on program exit.
14 // LazyInstance is completely thread safe, assuming that you create it safely.
15 // The class was designed to be POD initialized, so it shouldn't require a
16 // static constructor. It really only makes sense to declare a LazyInstance as
17 // a global variable using the LAZY_INSTANCE_INITIALIZER initializer.
19 // LazyInstance is similar to Singleton, except it does not have the singleton
20 // property. You can have multiple LazyInstance's of the same type, and each
21 // will manage a unique instance. It also preallocates the space for Type, as
22 // to avoid allocating the Type instance on the heap. This may help with the
23 // performance of creating the instance, and reducing heap fragmentation. This
24 // requires that Type be a complete type so we can determine the size.
26 // Example usage:
27 // static LazyInstance<MyClass> my_instance = LAZY_INSTANCE_INITIALIZER;
28 // void SomeMethod() {
29 // my_instance.Get().SomeMethod(); // MyClass::SomeMethod()
31 // MyClass* ptr = my_instance.Pointer();
32 // ptr->DoDoDo(); // MyClass::DoDoDo
33 // }
35 #ifndef BASE_LAZY_INSTANCE_H_
36 #define BASE_LAZY_INSTANCE_H_
38 #include <new> // For placement new.
40 #include "base/atomicops.h"
41 #include "base/base_export.h"
42 #include "base/basictypes.h"
43 #include "base/debug/leak_annotations.h"
44 #include "base/logging.h"
45 #include "base/memory/aligned_memory.h"
46 #include "base/threading/thread_restrictions.h"
48 // LazyInstance uses its own struct initializer-list style static
49 // initialization, as base's LINKER_INITIALIZED requires a constructor and on
50 // some compilers (notably gcc 4.4) this still ends up needing runtime
51 // initialization.
52 #define LAZY_INSTANCE_INITIALIZER {0}
54 namespace base {
56 template <typename Type>
57 struct DefaultLazyInstanceTraits {
58 static const bool kRegisterOnExit = true;
59 #ifndef NDEBUG
60 static const bool kAllowedToAccessOnNonjoinableThread = false;
61 #endif
63 static Type* New(void* instance) {
64 DCHECK_EQ(reinterpret_cast<uintptr_t>(instance) & (ALIGNOF(Type) - 1), 0u)
65 << ": Bad boy, the buffer passed to placement new is not aligned!\n"
66 "This may break some stuff like SSE-based optimizations assuming the "
67 "<Type> objects are word aligned.";
68 // Use placement new to initialize our instance in our preallocated space.
69 // The parenthesis is very important here to force POD type initialization.
70 return new (instance) Type();
72 static void Delete(Type* instance) {
73 // Explicitly call the destructor.
74 instance->~Type();
78 // We pull out some of the functionality into non-templated functions, so we
79 // can implement the more complicated pieces out of line in the .cc file.
80 namespace internal {
82 // Use LazyInstance<T>::Leaky for a less-verbose call-site typedef; e.g.:
83 // base::LazyInstance<T>::Leaky my_leaky_lazy_instance;
84 // instead of:
85 // base::LazyInstance<T, base::internal::LeakyLazyInstanceTraits<T> >
86 // my_leaky_lazy_instance;
87 // (especially when T is MyLongTypeNameImplClientHolderFactory).
88 // Only use this internal::-qualified verbose form to extend this traits class
89 // (depending on its implementation details).
90 template <typename Type>
91 struct LeakyLazyInstanceTraits {
92 static const bool kRegisterOnExit = false;
93 #ifndef NDEBUG
94 static const bool kAllowedToAccessOnNonjoinableThread = true;
95 #endif
97 static Type* New(void* instance) {
98 ANNOTATE_SCOPED_MEMORY_LEAK;
99 return DefaultLazyInstanceTraits<Type>::New(instance);
101 static void Delete(Type* instance) {
105 // Our AtomicWord doubles as a spinlock, where a value of
106 // kBeingCreatedMarker means the spinlock is being held for creation.
107 static const subtle::AtomicWord kLazyInstanceStateCreating = 1;
109 // Check if instance needs to be created. If so return true otherwise
110 // if another thread has beat us, wait for instance to be created and
111 // return false.
112 BASE_EXPORT bool NeedsLazyInstance(subtle::AtomicWord* state);
114 // After creating an instance, call this to register the dtor to be called
115 // at program exit and to update the atomic state to hold the |new_instance|
116 BASE_EXPORT void CompleteLazyInstance(subtle::AtomicWord* state,
117 subtle::AtomicWord new_instance,
118 void* lazy_instance,
119 void (*dtor)(void*));
121 } // namespace internal
123 template <typename Type, typename Traits = DefaultLazyInstanceTraits<Type> >
124 class LazyInstance {
125 public:
126 // Do not define a destructor, as doing so makes LazyInstance a
127 // non-POD-struct. We don't want that because then a static initializer will
128 // be created to register the (empty) destructor with atexit() under MSVC, for
129 // example. We handle destruction of the contained Type class explicitly via
130 // the OnExit member function, where needed.
131 // ~LazyInstance() {}
133 // Convenience typedef to avoid having to repeat Type for leaky lazy
134 // instances.
135 typedef LazyInstance<Type, internal::LeakyLazyInstanceTraits<Type> > Leaky;
137 Type& Get() {
138 return *Pointer();
141 Type* Pointer() {
142 #ifndef NDEBUG
143 // Avoid making TLS lookup on release builds.
144 if (!Traits::kAllowedToAccessOnNonjoinableThread)
145 ThreadRestrictions::AssertSingletonAllowed();
146 #endif
147 // If any bit in the created mask is true, the instance has already been
148 // fully constructed.
149 static const subtle::AtomicWord kLazyInstanceCreatedMask =
150 ~internal::kLazyInstanceStateCreating;
152 // We will hopefully have fast access when the instance is already created.
153 // Since a thread sees private_instance_ == 0 or kLazyInstanceStateCreating
154 // at most once, the load is taken out of NeedsInstance() as a fast-path.
155 // The load has acquire memory ordering as a thread which sees
156 // private_instance_ > creating needs to acquire visibility over
157 // the associated data (private_buf_). Pairing Release_Store is in
158 // CompleteLazyInstance().
159 subtle::AtomicWord value = subtle::Acquire_Load(&private_instance_);
160 if (!(value & kLazyInstanceCreatedMask) &&
161 internal::NeedsLazyInstance(&private_instance_)) {
162 // Create the instance in the space provided by |private_buf_|.
163 value = reinterpret_cast<subtle::AtomicWord>(
164 Traits::New(private_buf_.void_data()));
165 internal::CompleteLazyInstance(&private_instance_, value, this,
166 Traits::kRegisterOnExit ? OnExit : NULL);
168 return instance();
171 bool operator==(Type* p) {
172 switch (subtle::NoBarrier_Load(&private_instance_)) {
173 case 0:
174 return p == NULL;
175 case internal::kLazyInstanceStateCreating:
176 return static_cast<void*>(p) == private_buf_.void_data();
177 default:
178 return p == instance();
182 // Effectively private: member data is only public to allow the linker to
183 // statically initialize it and to maintain a POD class. DO NOT USE FROM
184 // OUTSIDE THIS CLASS.
186 subtle::AtomicWord private_instance_;
187 // Preallocated space for the Type instance.
188 base::AlignedMemory<sizeof(Type), ALIGNOF(Type)> private_buf_;
190 private:
191 Type* instance() {
192 return reinterpret_cast<Type*>(subtle::NoBarrier_Load(&private_instance_));
195 // Adapter function for use with AtExit. This should be called single
196 // threaded, so don't synchronize across threads.
197 // Calling OnExit while the instance is in use by other threads is a mistake.
198 static void OnExit(void* lazy_instance) {
199 LazyInstance<Type, Traits>* me =
200 reinterpret_cast<LazyInstance<Type, Traits>*>(lazy_instance);
201 Traits::Delete(me->instance());
202 subtle::NoBarrier_Store(&me->private_instance_, 0);
206 } // namespace base
208 #endif // BASE_LAZY_INSTANCE_H_