分为饿汉模式及懒汉模式
饿汉模式是初始化时创建。
懒汉模式是使用时创建。
饿汉模式:
public class Student1 {
// 2:成员变量初始化本身对象
private static Student1 student = new Student1();
// 1:构造私有
private Student1() {
}
// 3:对外提供公共方法获取对象
public static Student1 getSingletonInstance() {
return student;
}
}
懒汉模式
public class Student5 {
private Student5() {
}
/*
* 此处使用一个内部类来维护单例 JVM在类加载的时候,是互斥的,所以可以由此保证线程安全
问题
*/
private static class SingletonFactory {
private static Student5 student = new Student5();
}
/* 获取实例 */
public static Student5 getSingletonInstance() {
return SingletonFactory.student;
}
}
饿汉模式经典的三种实现
1、双重检查锁(DCL)
public class DoubleCheckLockSingleton {
private static volatile DoubleCheckLockSingleton instance;
private DoubleCheckLockSingleton() {}
public static DoubleCheckLockSingleton getInstance() {
if (instance == null) {
synchronized (DoubleCheckLockSingleton.class) {
if (instance == null) {
instance = new DoubleCheckLockSingleton();
}
}
}
return instance;
}
public void tellEveryone() {
System.out.println("This is a DoubleCheckLockSingleton " +
this.hashCode());
}
}
其中,synchronized防止CPU指令重排,导致极端情况下,没有初始化完成时,新的子线程就进入到synchronized后了
2、静态内部类
public class StaticInnerHolderSingleton {
private static class SingletonHolder {
private static final StaticInnerHolderSingleton INSTANCE = new
StaticInnerHolderSingleton();
}
private StaticInnerHolderSingleton() {}
public static StaticInnerHolderSingleton getInstance() {
return SingletonHolder.INSTANCE;
}
public void tellEveryone() {
System.out.println("This is a StaticInnerHolderSingleton" +
this.hashCode());
}
}
调用StaticInnerHolderSingleton.getInstance时,内部静态类才会创建,并且线程安全
3、枚举模式
public enum EnumSingleton {
INSTANCE;
public void tellEveryone() {
System.out.println("This is an EnumSingleton " + this.hashCode());
}
}
枚举模式防止被反射攻击和序列化攻击。 因为JVM中,枚举类型不允许进行反射及序列化