1.懒汉模式
个人理解:从名字就可以知道,如果用实例的话,就是在第一次使用的时候才进行创建
1.1懒汉模式(不安全)
public class SingleTon{private static SingleTon instance = null; //声明实例public SingleTon(){ } //构造方法public static SingleTon getInstance{if(intance==null){instance = new SingleTon();}return instance;}
}
不安全分析,多线程访问的时候,如果同时对该对象进行判断,执行if语句,那么就会对instance进行创建两次
1.2对懒汉模式进行加锁(同步方法体)
public class SingleTon{private static SingleTon instance = null;public SingleTon(){}public static synchronized SingleTon getInstance (){if(intance==null)instance = new SingleTon();return instance;}}
安全分析,方法体上加synchronized,保证了同一时间只有个线程访问;
缺点:增加了性能开销
1.3 同步代码块的不安全加锁方式
public class SingleTon{private static SingleTon instance=null;public SingleTon(){}public static SingleTon getInstance(){if(instance==null){Synchronized(SingleTon.class){if(instance ==null){instance = new SingleTon();}}return instance;}}
}
不安全分析:
1. memory = allocate() 分配对象的内存空间2. ctorInstance() 初始化对象3. instance = memory 设置instance 指向刚分配的内存 *///jvm和cpu优化 发生了指令重排/*1. memory = allocate() 分配对象的内存空间3. instance = memory 设置instance 指向刚分配的内存2. ctorInstance() 初始化对象*/
1.4同步代码块安全的加锁方式
public calss SingleTon{private static volitale SingleTon instance = null; //添加了volitalepublic SingleTon(){}public SingleTon getInstance(){if(instance==null){synchronized(SingleTon.class){if(instance==null){instance = new SingleTon();}return instance;}
}
1.5枚举的方式
public class enumSingletonExample7 {private enumSingletonExample7(){}public static enumSingletonExample7 getInstance(){return Singleton.INSTANCE.getInstance();}private enum Singleton{INSTANCE;//instance;private enumSingletonExample7 singleton;//jvm保证这个方法绝对只调用一次Singleton(){singleton = new enumSingletonExample7();}public enumSingletonExample7 getInstance(){return singleton;}}?
2.饿汉模式
个人理解:在类加载的时候进行创建
public class SingletonExample1 {private SingletonExample1(){}private static SingletonExample1 instance = new SingletonExample1();public SingletonExample1 getInstance(){return instance;}
}