JAVA多线程之Synchronized、wait、notify实例讲解
一、Synchronized
synchronized中文解释是同步,那么什么是同步呢,解释就是程序中用于控制不同线程间操作发生相对顺序的机制,通俗来讲就是2点,第一要有多线程,第二当多个线程同时竞争某个资源的时候会有先后顺序。在java中有三种写synchronized的方式:
第一种:写在普通方法的前面,这种表示对实例对象加锁第二种:写在静态方法前面,这种表示对类对象加锁第三种:写在代码块中,锁是Synchonized括号里配置的对象(可能是实例对象,也可能是类对象)
总体说来就2种,一种就是锁实例对象,一种锁类对象。
锁实例对象就是当多个线程同时操作这个实例对象(针对的是特定的实例对象)的时候必须先获取锁,如果无法获取锁,则必须处于等待状态,而和锁类对象区别是,当多个线程同时操作的时候,任何以这个类对象实例化的对象都要获取锁才能操作。
看下面的例子:
public class Synchronized_Test { public static void main(String[] args){
Thread t1=new Thread(new MyRunnable());
Thread t2=new Thread(new MyRunnable());
t1.start();
t2.start();
}
}
class MyRunnable implements Runnable{
private synchronized void synchMethodTest(){
for(int i=0;i<10;i++)
System.out.println(Thread.currentThread().getName()+"synchMethodTest: "+i);
}
public void run() {
synchMethodTest();
}
}
其输出结果为:
Thread-0synchMethodTest: 0Thread-1synchMethodTest: 0
Thread-0synchMethodTest: 1
Thread-1synchMethodTest: 1
Thread-0synchMethodTest: 2
Thread-1synchMethodTest: 2
Thread-0synchMethodTest: 3
Thread-1synchMethodTest: 3
Thread-0synchMethodTest: 4
Thread-1synchMethodTest: 4
Thread-0synchMethodTest: 5
Thread-1synchMethodTest: 5
Thread-0synchMethodTest: 6
Thread-1synchMethodTest: 6
Thread-0synchMethodTest: 7
Thread-1synchMethodTest: 7
Thread-0synchMethodTest: 8
Thread-1synchMethodTest: 8
Thread-0synchMethodTest: 9
Thread-1synchMethodTest: 9
因为synchronized是写在普通方法前,是对特定的实例对象加锁,t1,t2为两个不同的实例,
所以他们在执行synchronized方法时并不会互相阻塞对方。
如果将synchronized方法改成static方法,那么就是针对类对象加锁,任何以这个类对象实例化的对象都要获取锁才能操作,
t1,t2虽然是两个不同的实例,但都是同一个类对象的实例,所以当t1取得锁开始执行synchronized方法后,就会阻塞t2,
t2需要取得锁之后才能执行,如下:
public class Synchronized_Test { public static void main(String[] args){
Thread t1=new Thread(new MyRunnable());
Thread t2=new Thread(new MyRunnable());
t1.start();
t2.start();
}
}
class MyRunnable implements Runnable{
private synchronized static void synchMethodTest(){
for(int i=0;i<10;i++)
System.out.println(Thread.currentThread().getName()+"synchMethodTest: "+i);
}
public void run() {
synchMethodTest();
}
}
输出结果为:
Thread-0synchMethodTest: 0Thread-0synchMethodTest: 1
Thread-0synchMethodTest: 2
Thread-0synchMethodTest: 3
Thread-0synchMethodTest: 4
Thread-0synchMethodTest: 5
Thread-0synchMethodTest: 6
Thread-0synchMethodTest: 7
Thread-0synchMethodTest: 8
Thread-0synchMethodTest: 9
Thread-1synchMethodTest: 0
Thread-1synchMethodTest: 1
Thread-1synchMethodTest: 2
Thread-1synchMethodTest: 3
Thread-1synchMethodTest: 4
Thread-1synchMethodTest: 5
Thread-1synchMethodTest: 6
Thread-1synchMethodTest: 7
Thread-1synchMethodTest: 8
Thread-1synchMethodTest: 9
t1执行完成,释放synchronized锁后,t2才能执行。如果在代码块中对类对象也是一样:
class MyRunnable implements Runnable{ private void synchMethodTest(){
synchronized (MyRunnable.class){
for(int i=0;i<10;i++)
System.out.println(Thread.currentThread().getName()+"synchMethodTest: "+i);
}
}
public void run() {
synchMethodTest();
}
}
注意:
类方法中,synchronized锁住的是对象this,只有调用同一个对象的方法才需要获取锁。同时,
同一个对象中所有加了synchronize的方法只能一次调用一个;
静态方法中,synchronized锁的是整个类对象,类似于(X.class),该类中所有加了synchronized的静态方法,一次只能调用一个。
比较下面两个例子:
public class Synchronized_Test { public static void main(String[] args){
Method method=new Method();
Thread t1=new Thread(new MyRunnable1(method));
Thread t2=new Thread(new MyRunnable2(method));
t1.start();
t2.start();
}
}
class Method{
public synchronized void Method1(){
for(int i=0;i<10;i++)
System.out.println(Thread.currentThread().getName()+" Method1: "+i);
}
public synchronized void Method2(){
for(int i=0;i<10;i++)
System.out.println(Thread.currentThread().getName()+" Method2 "+i);
}
}
class MyRunnable1 implements Runnable{
Method method;
MyRunnable1(Method method){
this.method=method;
}
public void run() {
method.Method1();
}
}
class MyRunnable2 implements Runnable{
Method method;
MyRunnable2(Method method){
this.method=method;
}
public void run(){
method.Method2();
}
}
输出为:
Thread-0 Method1: 0Thread-0 Method1: 1
Thread-0 Method1: 2
Thread-0 Method1: 3
Thread-0 Method1: 4
Thread-0 Method1: 5
Thread-0 Method1: 6
Thread-0 Method1: 7
Thread-0 Method1: 8
Thread-0 Method1: 9
Thread-1 Method2 0
Thread-1 Method2 1
Thread-1 Method2 2
Thread-1 Method2 3
Thread-1 Method2 4
Thread-1 Method2 5
Thread-1 Method2 6
Thread-1 Method2 7
Thread-1 Method2 8
Thread-1 Method2 9
因为锁住的整个Method对象,在t1执行method1时,给method对象加锁,当t2要执行method2时,因为时synchronized方法,
所以首先要取得method对象的锁,才能执行。
public class Synchronized_Test { public static void main(String[] args){
Method method=new Method();
Thread t1=new Thread(new MyRunnable1(method));
Thread t2=new Thread(new MyRunnable2(method));
t1.start();
t2.start();
}
}
class Method{
public synchronized void Method1(){
for(int i=0;i<10;i++)
System.out.println(Thread.currentThread().getName()+" Method1: "+i);
}
public void Method2(){
for(int i=0;i<10;i++)
System.out.println(Thread.currentThread().getName()+" Method2 "+i);
}
}
class MyRunnable1 implements Runnable{
Method method;
MyRunnable1(Method method){
this.method=method;
}
public void run() {
method.Method1();
}
}
class MyRunnable2 implements Runnable{
Method method;
MyRunnable2(Method method){
this.method=method;
}
public void run(){
method.Method2();
}
}
输出为:
Thread-0 Method1: 0Thread-1 Method2 0
Thread-0 Method1: 1
Thread-1 Method2 1
Thread-0 Method1: 2
Thread-1 Method2 2
Thread-0 Method1: 3
Thread-1 Method2 3
Thread-0 Method1: 4
Thread-1 Method2 4
Thread-0 Method1: 5
Thread-1 Method2 5
Thread-0 Method1: 6
Thread-1 Method2 6
Thread-1 Method2 7
Thread-1 Method2 8
Thread-1 Method2 9
Thread-0 Method1: 7
Thread-0 Method1: 8
Thread-0 Method1: 9
从结果可以看到,t1并没有阻塞t2的运行,因为t2执行的method2方法不带synchronized,所以在执行时并不需要先获得method对象的锁,执行的过程中也就不存在阻塞的情况。
二、wait、notify和notifyAll
wait、notify、notifyAll是Object对象的属性,并不属于线程。我们先解释这三个的一个很重要的概念
wait:使持有该对象的线程把该对象的控制权交出去,然后处于等待状态(这句话很重要,也就是说当调用wait的时候会释放锁并处于等待的状态)notify:通知某个正在等待这个对象的控制权的线程可以继续运行(这个就是获取锁,使自己的程序开始执行,最后通过notify同样去释放锁,并唤醒正在等待的线程)notifyAll:会通知所有等待这个对象控制权的线程继续运行(和上面一样,只不过是唤醒所有等待的线程继续执行)Obj.wait()与Obj.notify()必须要与synchronized(Obj)一起使用,也就是wait与notify是针对已经获取了Obj锁的对象来进行操作
下面来看一个生产者消费者模型,他们有一个缓冲区,缓冲区有最大限制,当缓冲区满的时候,生产者是不能将产品放入到缓冲区里面的,当然,当缓冲区是空的时候,消费者也不能从中拿出来产品,这就涉及到了在多线程中的条件判断,java中提供了wait和notify方法,他们可以在线程不满足要求的时候让线程让出来资源等待,当有资源的时候再notify他们让他们继续工作。
import java.util.Date;import java.util.LinkedList;
import java.util.List;
class EventStorage {
private int maxSize;
private List<date> storage;
public EventStorage() {
maxSize = 10;
storage = new LinkedList<date>();
}
public synchronized void set() {
while(storage.size() == maxSize) {
try {
wait();
} catch (InterruptedException e) {
e.printStackTrace();
}
}
storage.add(new Date());
System.out.println("Set: "+storage.size());
notifyAll();
}
public synchronized void get() {
while(storage.size() == 0) {
try {
wait();
} catch (InterruptedException e) {
e.printStackTrace();
}
}
System.out.println("Get: "+storage.size()+" "+((LinkedList<date>)storage).poll());
notifyAll();
}
}
class Producer implements Runnable {
private EventStorage storge;
public Producer(EventStorage storage) {
this.storge = storage;
}
public void run() {
for(int i = 0; i < 100; i++) {
storge.set();
}
}
}
class Consumer implements Runnable {
private EventStorage storage;
public Consumer(EventStorage storage) {
this.storage = storage;
}
public void run() {
for (int i = 0; i < 100; i++) {
storage.get();
}
}
}
public class ProducerAndConsumer {
public static void main(String[] args){
EventStorage eventStorage=new EventStorage();
Thread t1=new Thread(new Producer(eventStorage));
Thread t2=new Thread(new Consumer(eventStorage));
t1.start();
t2.start();
}
}
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