base/singleton_unittest.cc - chromium/src - Git at Google

 // Copyright (c) 2006-2008 The Chromium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "base/at_exit.h"
 #include "base/file_util.h"
 #include "base/path_service.h"
 #include "base/singleton.h"
 #include "testing/gtest/include/gtest/gtest.h"

 namespace {

 COMPILE_ASSERT(DefaultSingletonTraits<int>::kRegisterAtExit == true, a);

 typedef void (*CallbackFunc)();

 class IntSingleton {
  public:
   static IntSingleton* GetInstance() {
     return Singleton<IntSingleton>::get();
   }

   int value_;
 };

 class Init5Singleton {
  public:
   struct Trait;

   static Init5Singleton* GetInstance() {
     return Singleton<Init5Singleton, Trait>::get();
   }

   int value_;
 };

 struct Init5Singleton::Trait : public DefaultSingletonTraits<Init5Singleton> {
   static Init5Singleton* New() {
     Init5Singleton* instance = new Init5Singleton();
     instance->value_ = 5;
     return instance;
   }
 };

 int* SingletonInt() {
   return &IntSingleton::GetInstance()->value_;
 }

 int* SingletonInt5() {
   return &Init5Singleton::GetInstance()->value_;
 }

 template <typename Type>
 struct CallbackTrait : public DefaultSingletonTraits<Type> {
   static void Delete(Type* instance) {
     if (instance->callback_)
       (instance->callback_)();
     DefaultSingletonTraits<Type>::Delete(instance);
   }
 };

 class CallbackSingleton {
  public:
   CallbackSingleton() : callback_(NULL) { }
   CallbackFunc callback_;
 };

 class CallbackSingletonWithNoLeakTrait : public CallbackSingleton {
  public:
   struct Trait : public CallbackTrait<CallbackSingletonWithNoLeakTrait> { };

   CallbackSingletonWithNoLeakTrait() : CallbackSingleton() { }

   static CallbackSingletonWithNoLeakTrait* GetInstance() {
     return Singleton<CallbackSingletonWithNoLeakTrait, Trait>::get();
   }
 };

 class CallbackSingletonWithLeakTrait : public CallbackSingleton {
  public:
   struct Trait : public CallbackTrait<CallbackSingletonWithLeakTrait> {
     static const bool kRegisterAtExit = false;
   };

   CallbackSingletonWithLeakTrait() : CallbackSingleton() { }

   static CallbackSingletonWithLeakTrait* GetInstance() {
     return Singleton<CallbackSingletonWithLeakTrait, Trait>::get();
   }
 };

 class CallbackSingletonWithStaticTrait : public CallbackSingleton {
  public:
   struct Trait;

   CallbackSingletonWithStaticTrait() : CallbackSingleton() { }

   static CallbackSingletonWithStaticTrait* GetInstance() {
     return Singleton<CallbackSingletonWithStaticTrait, Trait>::get();
   }
 };

 struct CallbackSingletonWithStaticTrait::Trait
     : public StaticMemorySingletonTraits<CallbackSingletonWithStaticTrait> {
   static void Delete(CallbackSingletonWithStaticTrait* instance) {
     if (instance->callback_)
       (instance->callback_)();
     StaticMemorySingletonTraits<CallbackSingletonWithStaticTrait>::Delete(
         instance);
   }
 };


 void SingletonNoLeak(CallbackFunc CallOnQuit) {
   CallbackSingletonWithNoLeakTrait::GetInstance()->callback_ = CallOnQuit;
 }

 void SingletonLeak(CallbackFunc CallOnQuit) {
   CallbackSingletonWithLeakTrait::GetInstance()->callback_ = CallOnQuit;
 }

 CallbackFunc* GetLeakySingleton() {
   return &CallbackSingletonWithLeakTrait::GetInstance()->callback_;
 }

 void DeleteLeakySingleton() {
   DefaultSingletonTraits<CallbackSingletonWithLeakTrait>::Delete(
       CallbackSingletonWithLeakTrait::GetInstance());
 }

 void SingletonStatic(CallbackFunc CallOnQuit) {
   CallbackSingletonWithStaticTrait::GetInstance()->callback_ = CallOnQuit;
 }

 CallbackFunc* GetStaticSingleton() {
   return &CallbackSingletonWithStaticTrait::GetInstance()->callback_;
 }

 void ResurrectStaticSingleton() {
 }

 }  // namespace

 class SingletonTest : public testing::Test {
  public:
   SingletonTest() { }

   virtual void SetUp() {
     non_leak_called_ = false;
     leaky_called_ = false;
     static_called_ = false;
   }

  protected:
   void VerifiesCallbacks() {
     EXPECT_TRUE(non_leak_called_);
     EXPECT_FALSE(leaky_called_);
     EXPECT_TRUE(static_called_);
     non_leak_called_ = false;
     leaky_called_ = false;
     static_called_ = false;
   }

   void VerifiesCallbacksNotCalled() {
     EXPECT_FALSE(non_leak_called_);
     EXPECT_FALSE(leaky_called_);
     EXPECT_FALSE(static_called_);
     non_leak_called_ = false;
     leaky_called_ = false;
     static_called_ = false;
   }

   static void CallbackNoLeak() {
     non_leak_called_ = true;
   }

   static void CallbackLeak() {
     leaky_called_ = true;
   }

   static void CallbackStatic() {
     static_called_ = true;
   }

  private:
   static bool non_leak_called_;
   static bool leaky_called_;
   static bool static_called_;
 };

 bool SingletonTest::non_leak_called_ = false;
 bool SingletonTest::leaky_called_ = false;
 bool SingletonTest::static_called_ = false;

 TEST_F(SingletonTest, Basic) {
   int* singleton_int;
   int* singleton_int_5;
   CallbackFunc* leaky_singleton;
   CallbackFunc* static_singleton;

   {
     base::ShadowingAtExitManager sem;
     {
       singleton_int = SingletonInt();
     }
     // Ensure POD type initialization.
     EXPECT_EQ(*singleton_int, 0);
     *singleton_int = 1;

     EXPECT_EQ(singleton_int, SingletonInt());
     EXPECT_EQ(*singleton_int, 1);

     {
       singleton_int_5 = SingletonInt5();
     }
     // Is default initialized to 5.
     EXPECT_EQ(*singleton_int_5, 5);

     SingletonNoLeak(&CallbackNoLeak);
     SingletonLeak(&CallbackLeak);
     SingletonStatic(&CallbackStatic);
     static_singleton = GetStaticSingleton();
     leaky_singleton = GetLeakySingleton();
     EXPECT_TRUE(leaky_singleton);
   }

   // Verify that only the expected callback has been called.
   VerifiesCallbacks();
   // Delete the leaky singleton. It is interesting to note that Purify does
   // *not* detect the leak when this call is commented out. :(
   DeleteLeakySingleton();

   // The static singleton can't be acquired post-atexit.
   EXPECT_EQ(NULL, GetStaticSingleton());

   {
     base::ShadowingAtExitManager sem;
     // Verifiy that the variables were reset.
     {
       singleton_int = SingletonInt();
       EXPECT_EQ(*singleton_int, 0);
     }
     {
       singleton_int_5 = SingletonInt5();
       EXPECT_EQ(*singleton_int_5, 5);
     }
     {
       // Resurrect the static singleton, and assert that it
       // still points to the same (static) memory.
       CallbackSingletonWithStaticTrait::Trait::Resurrect();
       EXPECT_EQ(GetStaticSingleton(), static_singleton);
     }
   }
   // The leaky singleton shouldn't leak since SingletonLeak has not been called.
   VerifiesCallbacksNotCalled();
 }
	// Copyright (c) 2006-2008 The Chromium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include "base/at_exit.h"
	#include "base/file_util.h"
	#include "base/path_service.h"
	#include "base/singleton.h"
	#include "testing/gtest/include/gtest/gtest.h"

	namespace {

	COMPILE_ASSERT(DefaultSingletonTraits<int>::kRegisterAtExit == true, a);

	typedef void (*CallbackFunc)();

	class IntSingleton {
	public:
	static IntSingleton* GetInstance() {
	return Singleton<IntSingleton>::get();
	}

	int value_;
	};

	class Init5Singleton {
	public:
	struct Trait;

	static Init5Singleton* GetInstance() {
	return Singleton<Init5Singleton, Trait>::get();
	}

	int value_;
	};

	struct Init5Singleton::Trait : public DefaultSingletonTraits<Init5Singleton> {
	static Init5Singleton* New() {
	Init5Singleton* instance = new Init5Singleton();
	instance->value_ = 5;
	return instance;
	}
	};

	int* SingletonInt() {
	return &IntSingleton::GetInstance()->value_;
	}

	int* SingletonInt5() {
	return &Init5Singleton::GetInstance()->value_;
	}

	template <typename Type>
	struct CallbackTrait : public DefaultSingletonTraits<Type> {
	static void Delete(Type* instance) {
	if (instance->callback_)
	(instance->callback_)();
	DefaultSingletonTraits<Type>::Delete(instance);
	}
	};

	class CallbackSingleton {
	public:
	CallbackSingleton() : callback_(NULL) { }
	CallbackFunc callback_;
	};

	class CallbackSingletonWithNoLeakTrait : public CallbackSingleton {
	public:
	struct Trait : public CallbackTrait<CallbackSingletonWithNoLeakTrait> { };

	CallbackSingletonWithNoLeakTrait() : CallbackSingleton() { }

	static CallbackSingletonWithNoLeakTrait* GetInstance() {
	return Singleton<CallbackSingletonWithNoLeakTrait, Trait>::get();
	}
	};

	class CallbackSingletonWithLeakTrait : public CallbackSingleton {
	public:
	struct Trait : public CallbackTrait<CallbackSingletonWithLeakTrait> {
	static const bool kRegisterAtExit = false;
	};

	CallbackSingletonWithLeakTrait() : CallbackSingleton() { }

	static CallbackSingletonWithLeakTrait* GetInstance() {
	return Singleton<CallbackSingletonWithLeakTrait, Trait>::get();
	}
	};

	class CallbackSingletonWithStaticTrait : public CallbackSingleton {
	public:
	struct Trait;

	CallbackSingletonWithStaticTrait() : CallbackSingleton() { }

	static CallbackSingletonWithStaticTrait* GetInstance() {
	return Singleton<CallbackSingletonWithStaticTrait, Trait>::get();
	}
	};

	struct CallbackSingletonWithStaticTrait::Trait
	: public StaticMemorySingletonTraits<CallbackSingletonWithStaticTrait> {
	static void Delete(CallbackSingletonWithStaticTrait* instance) {
	if (instance->callback_)
	(instance->callback_)();
	StaticMemorySingletonTraits<CallbackSingletonWithStaticTrait>::Delete(
	instance);
	}
	};


	void SingletonNoLeak(CallbackFunc CallOnQuit) {
	CallbackSingletonWithNoLeakTrait::GetInstance()->callback_ = CallOnQuit;
	}

	void SingletonLeak(CallbackFunc CallOnQuit) {
	CallbackSingletonWithLeakTrait::GetInstance()->callback_ = CallOnQuit;
	}

	CallbackFunc* GetLeakySingleton() {
	return &CallbackSingletonWithLeakTrait::GetInstance()->callback_;
	}

	void DeleteLeakySingleton() {
	DefaultSingletonTraits<CallbackSingletonWithLeakTrait>::Delete(
	CallbackSingletonWithLeakTrait::GetInstance());
	}

	void SingletonStatic(CallbackFunc CallOnQuit) {
	CallbackSingletonWithStaticTrait::GetInstance()->callback_ = CallOnQuit;
	}

	CallbackFunc* GetStaticSingleton() {
	return &CallbackSingletonWithStaticTrait::GetInstance()->callback_;
	}

	void ResurrectStaticSingleton() {
	}

	} // namespace

	class SingletonTest : public testing::Test {
	public:
	SingletonTest() { }

	virtual void SetUp() {
	non_leak_called_ = false;
	leaky_called_ = false;
	static_called_ = false;
	}

	protected:
	void VerifiesCallbacks() {
	EXPECT_TRUE(non_leak_called_);
	EXPECT_FALSE(leaky_called_);
	EXPECT_TRUE(static_called_);
	non_leak_called_ = false;
	leaky_called_ = false;
	static_called_ = false;
	}

	void VerifiesCallbacksNotCalled() {
	EXPECT_FALSE(non_leak_called_);
	EXPECT_FALSE(leaky_called_);
	EXPECT_FALSE(static_called_);
	non_leak_called_ = false;
	leaky_called_ = false;
	static_called_ = false;
	}

	static void CallbackNoLeak() {
	non_leak_called_ = true;
	}

	static void CallbackLeak() {
	leaky_called_ = true;
	}

	static void CallbackStatic() {
	static_called_ = true;
	}

	private:
	static bool non_leak_called_;
	static bool leaky_called_;
	static bool static_called_;
	};

	bool SingletonTest::non_leak_called_ = false;
	bool SingletonTest::leaky_called_ = false;
	bool SingletonTest::static_called_ = false;

	TEST_F(SingletonTest, Basic) {
	int* singleton_int;
	int* singleton_int_5;
	CallbackFunc* leaky_singleton;
	CallbackFunc* static_singleton;

	{
	base::ShadowingAtExitManager sem;
	{
	singleton_int = SingletonInt();
	}
	// Ensure POD type initialization.
	EXPECT_EQ(*singleton_int, 0);
	*singleton_int = 1;

	EXPECT_EQ(singleton_int, SingletonInt());
	EXPECT_EQ(*singleton_int, 1);

	{
	singleton_int_5 = SingletonInt5();
	}
	// Is default initialized to 5.
	EXPECT_EQ(*singleton_int_5, 5);

	SingletonNoLeak(&CallbackNoLeak);
	SingletonLeak(&CallbackLeak);
	SingletonStatic(&CallbackStatic);
	static_singleton = GetStaticSingleton();
	leaky_singleton = GetLeakySingleton();
	EXPECT_TRUE(leaky_singleton);
	}

	// Verify that only the expected callback has been called.
	VerifiesCallbacks();
	// Delete the leaky singleton. It is interesting to note that Purify does
	// not detect the leak when this call is commented out. :(
	DeleteLeakySingleton();

	// The static singleton can't be acquired post-atexit.
	EXPECT_EQ(NULL, GetStaticSingleton());

	{
	base::ShadowingAtExitManager sem;
	// Verifiy that the variables were reset.
	{
	singleton_int = SingletonInt();
	EXPECT_EQ(*singleton_int, 0);
	}
	{
	singleton_int_5 = SingletonInt5();
	EXPECT_EQ(*singleton_int_5, 5);
	}
	{
	// Resurrect the static singleton, and assert that it
	// still points to the same (static) memory.
	CallbackSingletonWithStaticTrait::Trait::Resurrect();
	EXPECT_EQ(GetStaticSingleton(), static_singleton);
	}
	}
	// The leaky singleton shouldn't leak since SingletonLeak has not been called.
	VerifiesCallbacksNotCalled();
	}