时间:2021-05-13 08:13:03 | 栏目:C代码 | 点击:次
C++实现一个线程安全的单例工厂实现代码
我们见到经常有人用 static 局部对象的方式实现了类似单例模式,最近发现一篇文章明确写明 编译器在处理 static局部变量的时候 并不是线程安全的 !!!
http://blogs.msdn.com/b/oldnewthing/archive/2004/03/08/85901.aspx
于是实现了一个单例工厂 并且是线程安全的
#ifndef SINGLETONFACTORY_H #define SINGLETONFACTORY_H #include "windows.h" #include <memory> namespace Tools { template<class T>class SingletonFactory { public: virtual ~SingletonFactory() { ::DeleteCriticalSection(&__criticalSection); } std::auto_ptr<T>& GetInstance(); static SingletonFactory<T>* CreateSingletonFactory(); private: SingletonFactory() { ::InitializeCriticalSection(&__criticalSection); } std::auto_ptr<T> __singletonObj; CRITICAL_SECTION __criticalSection; }; //初始化创建 后续在多线程中使用 //还有另一种写法是单独的函数直接返回内部单例包装静态成员在 多线程情况下不安全 //SingletonFactory::CreateSingletonFactory().GetInstance(); template<class T> SingletonFactory<T>* SingletonFactory<T>::CreateSingletonFactory(){ static SingletonFactory<T> temObj; return &temObj; } //工厂实例 template<class T> std::auto_ptr<T>& SingletonFactory<T>::GetInstance() { if(__singletonObj.get()==0) { ::EnterCriticalSection(&__criticalSection); if(__singletonObj.get()==0) __singletonObj=std::auto_ptr<T>(new T); ::LeaveCriticalSection(&__criticalSection); } return __singletonObj; } } #endif // SINGLETONFACTORY_H
测试代码
SingletonFactory<Data1>*singleton1=SingletonFactory<Data1>::CreateSingletonFactory(); singleton1->GetInstance()->x=100; cout<<singleton1->GetInstance()->x<<endl; singleton1->GetInstance()->y=200; cout<<singleton1->GetInstance()->x<<endl; cout<<singleton1->GetInstance()->y<<endl; SingletonFactory<Data2>*singleton2=SingletonFactory<Data2>::CreateSingletonFactory(); singleton2->GetInstance()->x=100; cout<<singleton2->GetInstance()->x<<endl; singleton2->GetInstance()->y=200; cout<<singleton2->GetInstance()->x<<endl; cout<<singleton2->GetInstance()->y<<endl;
感谢阅读,希望能帮助到大家,谢谢大家对本站的支持!