wait,会使调用的线程进入等待状态,会释放所持有的对象锁(调用的时候也必须先获取到锁,否则会抛出异常 IllegalMonitorStateException)
notifyAll、notify,会去唤醒应当前对象而等待的线程,(调用的时候也必须先获取到锁,否则会抛出异常 IllegalMonitorStateException)
顺便也记录一下join方法,调用join方法,会使当前线程进入等待,如果没有设置等待时间,就会等待另一个线程执行完成才返回(ps:调用join方法并不一定立刻执行另一个线程,只是当前线程进入等待,然后切换下一个线程)
import java.util.concurrent.atomic.AtomicInteger;
/**
* @author lhd
*/
public class BlockQueue {
/**
* 生产者锁对象
*/
private final Object addLock = new Object();
/**
* 消费者锁对象
*/
private final Object deleteLock = new Object();
/**
* 队列总大小
*/
private final Integer size = 30;
/**
* 数据存放
*/
private Object[] queue = new Object[size];
/**
* 存放的数量,使用AtomicInteger是因为普通的int递增递减操作会存在非原子性的问题,会使数量异常
*/
private AtomicInteger count = new AtomicInteger(0);
/**
* 生产
* @param o 对象
*/
public void add(Object o) {
//获取生产锁,wait方法必须获取到对象锁后才可以调用,否则抛出异常
synchronized (addLock){
//判断是否超过队列大小,超过则进入等待
while (count.get() >= size){
try {
addLock.wait();
}
catch (InterruptedException e) {
e.printStackTrace();
}
}
//存放一个
queue[count.get()] = o;
//递增
int i = count.incrementAndGet();
//打印一下日志
String name = Thread.currentThread().getName();
System.out.println(name + "生产了一个,现有数量" + i);
}
//如果队列有数据,则调用notifyAll唤醒消费者
if (count.get() >= 1){
//notifyAll、notify都需要先获取对象锁,否则会抛出异常
synchronized (deleteLock){
deleteLock.notifyAll();
}
}
}
/**
* 消费
* @return
*/
public Object poll(){
Object o;
//先获取对象锁,和生产者类似
synchronized (deleteLock){
//队列里没有数据则等待
while (count.get() <= 0){
try {
deleteLock.wait();
}
catch (InterruptedException e) {
e.printStackTrace();
}
}
//获取数据
o = queue[count.get()];
//递减
int i = count.decrementAndGet();
String name = Thread.currentThread().getName();
System.out.println(name + "消费了一个,现有数量" + i);
}
//如果队列没有满,则可以唤醒生产者
if (count.get() < size){
//需要先获取到锁
synchronized (addLock){
addLock.notifyAll();
}
}
return o;
}
/**
* 简单的测试
* @param args
*/
public static void main(String[] args) {
BlockQueue blockQueue = new BlockQueue();
Thread t1 = new Thread(()-> {
while (true){
blockQueue.add(new Object());
}
}
);
Thread t2 = new Thread(()-> {
while (true){
blockQueue.add(new Object());
}
}
);
Thread t3 = new Thread(()-> {
while (true){
blockQueue.add(new Object());
}
}
);
Thread t4 = new Thread(()-> {
while (true){
blockQueue.poll();
}
}
);
Thread t5 = new Thread(()-> {
while (true){
blockQueue.poll();
}
}
);
Thread t6 = new Thread(()-> {
while (true){
blockQueue.poll();
}
}
);
t1.start();
t2.start();
t3.start();
t4.start();
t5.start();
t6.start();
}
}
效果:其实这个递增递减操作和打印操作也不是原子操作
依次打印线程1,2,3
/**
* @author lhd
*/
public class JoinTest {
public static void main(String[] args) throws InterruptedException {
Thread t1 = new Thread(() -> System.out.println(1));
Thread t2 = new Thread(()-> System.out.println(2));
Thread t3 = new Thread(()-> System.out.println(3));
t1.start();
t1.join();
t2.start();
t2.join();
t3.start();
t3.join();
}
}
