在这里先放一些知识点:
1.wait()、notify()和notifyAll()都是Object的方法,都会释放锁。
为什么这些操作线程的方法要定义在object类中呢?
简单说:因为synchronized中的这把锁可以是任意对象,所以任意对象都可以调用wait()和notify();所以wait和notify属于Object。
2.如果生产者和消费者都是用同一个锁对象,当某个消费线程消费完了,使用 notify 或者 notifyAll 唤醒其他线程。其实我们的本意唤醒生产线程就可以了,但是 notifyAll 会去唤醒所有线程,包括消费线程,这样的话将会导致很多的无用功,浪费系统资源。如果不用 notifyAll,而把上面的代码改成 notify 的话,那会使用生产/消费速度变得奇慢无比,因为notify是随机唤醒的
解决方案:
一般的做法是修改一个特定标识,然后notifyAll,被唤醒的线程查看该标识是否指定自己处理,是就运行下去,不是就继续wait
还有一种做法是针对每一个线程做一个wait object,要唤醒哪一个就notify哪一个object就行了,但是能不能这样做去取决于你的业务需求
生产者:
import java.util.Random;
import java.util.Vector;
import java.util.concurrent.atomic.AtomicInteger;
public class Producer implements Runnable {
// true--->生产者一直执行,false--->停掉生产者
private volatile boolean isRunning = true;
// 公共资源
private final Vector sharedQueue;
// 公共资源的最大数量
private final int SIZE;
// 生产数据
private static AtomicInteger count = new AtomicInteger();
public Producer(Vector sharedQueue, int SIZE) {
this.sharedQueue = sharedQueue;
this.SIZE = SIZE;
}
@Override
public void run() {
int data;
Random r = new Random();
System.out.println("start producer id = " + Thread.currentThread().getId());
try {
while (isRunning) {
// 模拟延迟
Thread.sleep(r.nextInt(1000));
// 当队列满时阻塞等待
while (sharedQueue.size() == SIZE) {
synchronized (sharedQueue) {
System.out.println("Queue is full, producer " + Thread.currentThread().getId()
+ " is waiting, size:" + sharedQueue.size());
sharedQueue.wait();
}
}
// 队列不满时持续创造新元素
synchronized (sharedQueue) {
// 生产数据
data = count.incrementAndGet();
sharedQueue.add(data);
System.out.println("producer create data:" + data + ", size:" + sharedQueue.size());
sharedQueue.notifyAll();
}
}
} catch (InterruptedException e) {
e.printStackTrace();
Thread.currentThread().interrupted();
}
}
public void stop() {
isRunning = false;
}
}
消费者:
import java.util.Random;
import java.util.Vector;
public class Consumer implements Runnable {
// 公共资源
private final Vector sharedQueue;
public Consumer(Vector sharedQueue) {
this.sharedQueue = sharedQueue;
}
@Override
public void run() {
Random r = new Random();
System.out.println("start consumer id = " + Thread.currentThread().getId());
try {
while (true) {
// 模拟延迟
Thread.sleep(r.nextInt(1000));
// 当队列空时阻塞等待
while (sharedQueue.isEmpty()) {
synchronized (sharedQueue) {
System.out.println("Queue is empty, consumer " + Thread.currentThread().getId()
+ " is waiting, size:" + sharedQueue.size());
sharedQueue.wait();
}
}
// 队列不空时持续消费元素
synchronized (sharedQueue) {
System.out.println("consumer consume data:" + sharedQueue.remove(0) + ", size:" + sharedQueue.size());
sharedQueue.notifyAll();
}
}
} catch (InterruptedException e) {
e.printStackTrace();
Thread.currentThread().interrupt();
}
}
}
主方法
import java.util.Vector;
import java.util.concurrent.ExecutorService;
import java.util.concurrent.Executors;
public class Test2 {
public static void main(String[] args) throws InterruptedException {
// 1.构建内存缓冲区
Vector sharedQueue = new Vector();
int size = 4;
// 2.建立线程池和线程
ExecutorService service = Executors.newCachedThreadPool();
Producer prodThread1 = new Producer(sharedQueue, size);
Producer prodThread2 = new Producer(sharedQueue, size);
Producer prodThread3 = new Producer(sharedQueue, size);
Consumer consThread1 = new Consumer(sharedQueue);
Consumer consThread2 = new Consumer(sharedQueue);
Consumer consThread3 = new Consumer(sharedQueue);
service.execute(prodThread1);
service.execute(prodThread2);
service.execute(prodThread3);
service.execute(consThread1);
service.execute(consThread2);
service.execute(consThread3);
// 3.睡一会儿然后尝试停止生产者(结束循环)
Thread.sleep(10 * 1000);
prodThread1.stop();
prodThread2.stop();
prodThread3.stop();
// 4.再睡一会儿关闭线程池
Thread.sleep(3000);
// 5.shutdown()等待任务执行完才中断线程(因为消费者一直在运行的,所以会发现程序无法结束)
service.shutdown();
}
}
