Add R_8 GPU memory buffers format.
[chromium-blink-merge.git] / base / memory / singleton_unittest.cc
blobdbff007ada7ecc27045acdff7082fb448024dab1
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 #include "base/at_exit.h"
6 #include "base/memory/singleton.h"
7 #include "testing/gtest/include/gtest/gtest.h"
9 namespace {
11 COMPILE_ASSERT(DefaultSingletonTraits<int>::kRegisterAtExit == true, a);
13 typedef void (*CallbackFunc)();
15 class IntSingleton {
16 public:
17 static IntSingleton* GetInstance() {
18 return Singleton<IntSingleton>::get();
21 int value_;
24 class Init5Singleton {
25 public:
26 struct Trait;
28 static Init5Singleton* GetInstance() {
29 return Singleton<Init5Singleton, Trait>::get();
32 int value_;
35 struct Init5Singleton::Trait : public DefaultSingletonTraits<Init5Singleton> {
36 static Init5Singleton* New() {
37 Init5Singleton* instance = new Init5Singleton();
38 instance->value_ = 5;
39 return instance;
43 int* SingletonInt() {
44 return &IntSingleton::GetInstance()->value_;
47 int* SingletonInt5() {
48 return &Init5Singleton::GetInstance()->value_;
51 template <typename Type>
52 struct CallbackTrait : public DefaultSingletonTraits<Type> {
53 static void Delete(Type* instance) {
54 if (instance->callback_)
55 (instance->callback_)();
56 DefaultSingletonTraits<Type>::Delete(instance);
60 class CallbackSingleton {
61 public:
62 CallbackSingleton() : callback_(NULL) { }
63 CallbackFunc callback_;
66 class CallbackSingletonWithNoLeakTrait : public CallbackSingleton {
67 public:
68 struct Trait : public CallbackTrait<CallbackSingletonWithNoLeakTrait> { };
70 CallbackSingletonWithNoLeakTrait() : CallbackSingleton() { }
72 static CallbackSingletonWithNoLeakTrait* GetInstance() {
73 return Singleton<CallbackSingletonWithNoLeakTrait, Trait>::get();
77 class CallbackSingletonWithLeakTrait : public CallbackSingleton {
78 public:
79 struct Trait : public CallbackTrait<CallbackSingletonWithLeakTrait> {
80 static const bool kRegisterAtExit = false;
83 CallbackSingletonWithLeakTrait() : CallbackSingleton() { }
85 static CallbackSingletonWithLeakTrait* GetInstance() {
86 return Singleton<CallbackSingletonWithLeakTrait, Trait>::get();
90 class CallbackSingletonWithStaticTrait : public CallbackSingleton {
91 public:
92 struct Trait;
94 CallbackSingletonWithStaticTrait() : CallbackSingleton() { }
96 static CallbackSingletonWithStaticTrait* GetInstance() {
97 return Singleton<CallbackSingletonWithStaticTrait, Trait>::get();
101 struct CallbackSingletonWithStaticTrait::Trait
102 : public StaticMemorySingletonTraits<CallbackSingletonWithStaticTrait> {
103 static void Delete(CallbackSingletonWithStaticTrait* instance) {
104 if (instance->callback_)
105 (instance->callback_)();
106 StaticMemorySingletonTraits<CallbackSingletonWithStaticTrait>::Delete(
107 instance);
111 template <class Type>
112 class AlignedTestSingleton {
113 public:
114 AlignedTestSingleton() {}
115 ~AlignedTestSingleton() {}
116 static AlignedTestSingleton* GetInstance() {
117 return Singleton<AlignedTestSingleton,
118 StaticMemorySingletonTraits<AlignedTestSingleton> >::get();
121 Type type_;
125 void SingletonNoLeak(CallbackFunc CallOnQuit) {
126 CallbackSingletonWithNoLeakTrait::GetInstance()->callback_ = CallOnQuit;
129 void SingletonLeak(CallbackFunc CallOnQuit) {
130 CallbackSingletonWithLeakTrait::GetInstance()->callback_ = CallOnQuit;
133 CallbackFunc* GetLeakySingleton() {
134 return &CallbackSingletonWithLeakTrait::GetInstance()->callback_;
137 void DeleteLeakySingleton() {
138 DefaultSingletonTraits<CallbackSingletonWithLeakTrait>::Delete(
139 CallbackSingletonWithLeakTrait::GetInstance());
142 void SingletonStatic(CallbackFunc CallOnQuit) {
143 CallbackSingletonWithStaticTrait::GetInstance()->callback_ = CallOnQuit;
146 CallbackFunc* GetStaticSingleton() {
147 return &CallbackSingletonWithStaticTrait::GetInstance()->callback_;
150 } // namespace
152 class SingletonTest : public testing::Test {
153 public:
154 SingletonTest() {}
156 void SetUp() override {
157 non_leak_called_ = false;
158 leaky_called_ = false;
159 static_called_ = false;
162 protected:
163 void VerifiesCallbacks() {
164 EXPECT_TRUE(non_leak_called_);
165 EXPECT_FALSE(leaky_called_);
166 EXPECT_TRUE(static_called_);
167 non_leak_called_ = false;
168 leaky_called_ = false;
169 static_called_ = false;
172 void VerifiesCallbacksNotCalled() {
173 EXPECT_FALSE(non_leak_called_);
174 EXPECT_FALSE(leaky_called_);
175 EXPECT_FALSE(static_called_);
176 non_leak_called_ = false;
177 leaky_called_ = false;
178 static_called_ = false;
181 static void CallbackNoLeak() {
182 non_leak_called_ = true;
185 static void CallbackLeak() {
186 leaky_called_ = true;
189 static void CallbackStatic() {
190 static_called_ = true;
193 private:
194 static bool non_leak_called_;
195 static bool leaky_called_;
196 static bool static_called_;
199 bool SingletonTest::non_leak_called_ = false;
200 bool SingletonTest::leaky_called_ = false;
201 bool SingletonTest::static_called_ = false;
203 TEST_F(SingletonTest, Basic) {
204 int* singleton_int;
205 int* singleton_int_5;
206 CallbackFunc* leaky_singleton;
207 CallbackFunc* static_singleton;
210 base::ShadowingAtExitManager sem;
212 singleton_int = SingletonInt();
214 // Ensure POD type initialization.
215 EXPECT_EQ(*singleton_int, 0);
216 *singleton_int = 1;
218 EXPECT_EQ(singleton_int, SingletonInt());
219 EXPECT_EQ(*singleton_int, 1);
222 singleton_int_5 = SingletonInt5();
224 // Is default initialized to 5.
225 EXPECT_EQ(*singleton_int_5, 5);
227 SingletonNoLeak(&CallbackNoLeak);
228 SingletonLeak(&CallbackLeak);
229 SingletonStatic(&CallbackStatic);
230 static_singleton = GetStaticSingleton();
231 leaky_singleton = GetLeakySingleton();
232 EXPECT_TRUE(leaky_singleton);
235 // Verify that only the expected callback has been called.
236 VerifiesCallbacks();
237 // Delete the leaky singleton.
238 DeleteLeakySingleton();
240 // The static singleton can't be acquired post-atexit.
241 EXPECT_EQ(NULL, GetStaticSingleton());
244 base::ShadowingAtExitManager sem;
245 // Verifiy that the variables were reset.
247 singleton_int = SingletonInt();
248 EXPECT_EQ(*singleton_int, 0);
251 singleton_int_5 = SingletonInt5();
252 EXPECT_EQ(*singleton_int_5, 5);
255 // Resurrect the static singleton, and assert that it
256 // still points to the same (static) memory.
257 CallbackSingletonWithStaticTrait::Trait::Resurrect();
258 EXPECT_EQ(GetStaticSingleton(), static_singleton);
261 // The leaky singleton shouldn't leak since SingletonLeak has not been called.
262 VerifiesCallbacksNotCalled();
265 #define EXPECT_ALIGNED(ptr, align) \
266 EXPECT_EQ(0u, reinterpret_cast<uintptr_t>(ptr) & (align - 1))
268 TEST_F(SingletonTest, Alignment) {
269 using base::AlignedMemory;
271 // Create some static singletons with increasing sizes and alignment
272 // requirements. By ordering this way, the linker will need to do some work to
273 // ensure proper alignment of the static data.
274 AlignedTestSingleton<int32>* align4 =
275 AlignedTestSingleton<int32>::GetInstance();
276 AlignedTestSingleton<AlignedMemory<32, 32> >* align32 =
277 AlignedTestSingleton<AlignedMemory<32, 32> >::GetInstance();
278 AlignedTestSingleton<AlignedMemory<128, 128> >* align128 =
279 AlignedTestSingleton<AlignedMemory<128, 128> >::GetInstance();
280 AlignedTestSingleton<AlignedMemory<4096, 4096> >* align4096 =
281 AlignedTestSingleton<AlignedMemory<4096, 4096> >::GetInstance();
283 EXPECT_ALIGNED(align4, 4);
284 EXPECT_ALIGNED(align32, 32);
285 EXPECT_ALIGNED(align128, 128);
286 EXPECT_ALIGNED(align4096, 4096);