参考importnew
CountDownLatch用法
CountDownLatch类位于java.util.concurrent包下,利用它可以实现类似计数器的功能。比如有一个任务A,它要等待其他4个任务执行完毕之后才能执行,此时就可以利用CountDownLatch来实现这种功能了。
CountDownLatch类只提供了一个构造器:
public CountDownLatch(int count) { }; //参数count为计数值
然后下面这3个方法是CountDownLatch类中最重要的方法:
public void await() throws InterruptedException { }; //调用await()方法的线程会被挂起,它会等待直到count值为0才继续执行
public boolean await(long timeout, TimeUnit unit) throws InterruptedException { }; //和await()类似,只不过等待一定的时间后count值还没变为0的话就会继续执行
public void countDown() { }; //将count值减1
Demo:
1 package com.zxd.concurrent.learning;
2
3 import java.util.concurrent.CountDownLatch;
4
5 /**
6 * @Project ConcurrentLearning
7 * @Package com.zxd.concurrent.learning
8 * @Author:zouxiaodong
9 * @Description:
10 * @Date:Created in 10:57 2018/3/21.
11 */
12 public class CountDownLatchTest {
13
14 public static void main(String[] args) throws InterruptedException {
15 System.out.println("主线程"+Thread.currentThread().getName()+"正在执行.......");
16 CountDownLatch latch = new CountDownLatch(2);
17 ThreadTest test_1 = new ThreadTest(latch,3000);
18 ThreadTest test_2 = new ThreadTest(latch,5000);
19 test_1.start();
20 test_2.start();
21 System.out.println("等待2个子线程执行完毕........");
22 latch.await();
23 System.out.println("2个子线程已经执行完毕..................");
24 System.out.println("继续执行主线程..................");
25 System.out.println("主线程其他逻辑执行..................");
26 }
27 }
28
29 class ThreadTest extends Thread{
30 private CountDownLatch countDownLatch = null;
31 private long sleep = 0L;
32
33 public ThreadTest(CountDownLatch countDownLatch,long sleep) {
34 this.countDownLatch = countDownLatch;
35 this.sleep = sleep;
36 }
37
38 @Override
39 public void run() {
40 try {
41 System.out.println("子线程"+Thread.currentThread().getName()+"正在执行.......");
42 Thread.sleep(sleep);
43 System.out.println("子线程"+Thread.currentThread().getName()+"执行完毕.......");
44 System.out.println("--------------countDownLatch.getCount()前="+countDownLatch.getCount());
45 countDownLatch.countDown();
46 System.out.println("--------------countDownLatch.getCount()后="+countDownLatch.getCount());
47 } catch (InterruptedException e) {
48 e.printStackTrace();
49 }
50 }
51 }
运行结果:
CyclicBarrier用法
字面意思回环栅栏,通过它可以实现让一组线程等待至某个状态之后再全部同时执行。叫做回环是因为当所有等待线程都被释放以后,CyclicBarrier可以被重用。我们暂且把这个状态就叫做barrier,当调用await()方法之后,线程就处于barrier了。
CyclicBarrier类位于java.util.concurrent包下,CyclicBarrier提供2个构造器:
public CyclicBarrier(int parties, Runnable barrierAction) {
}
public CyclicBarrier(int parties) {
}
参数parties指让多少个线程或者任务等待至barrier状态;参数barrierAction为当这些线程都达到barrier状态时会执行的内容。
然后CyclicBarrier中最重要的方法就是await方法,它有2个重载版本:
//用来挂起当前线程,直至所有线程都到达barrier状态再同时执行后续任务
public int await() throws InterruptedException, BrokenBarrierException {
};
//让这些线程等待至一定的时间,如果还有线程没有到达barrier状态就直接让到达barrier的线程执行后续任务
public int await(long timeout, TimeUnit unit)throws InterruptedException,BrokenBarrierException,TimeoutException {
};
Demo:
package com.zxd.concurrent.learning;
import java.util.concurrent.CyclicBarrier;
/**
* @Project ConcurrentLearning
* @Package com.zxd.concurrent.learning
* @Author:zouxiaodong
* @Description:
* @Date:Created in 17:41 2018/3/21.
*/
public class CyclicBarrierTest {
public static void main(String[] args) throws InterruptedException {
int i = 4;
// CyclicBarrier cyclicBarrier = new CyclicBarrier(i);
CyclicBarrier cyclicBarrier = new CyclicBarrier(i, new Runnable() {
@Override
public void run() {
System.out.println("当前线程号为:"+Thread.currentThread().getName()+",所有线程已到达barrier.................");
}
});
for(int m=0;m<i;m++){
new Writer(cyclicBarrier).start();
}
Thread.sleep(10000);
System.out.println("CyclicBarrier重用....................");
for(int m=0;m<i;m++){
new Writer(cyclicBarrier).start();
}
}
static class Writer extends Thread{
private CyclicBarrier cyclicBarrier;
public Writer(CyclicBarrier cyclicBarrier){
this.cyclicBarrier = cyclicBarrier;
}
@Override
public void run(){
try {
System.out.println("子线程"+Thread.currentThread().getName()+"正在执行写入.......");
Thread.sleep(2000);
System.out.println("子线程"+Thread.currentThread().getName()+"写入完成.......");
cyclicBarrier.await();
} catch (Exception e) {
e.printStackTrace();
}
System.out.println("所有线程写入完成,继续处理线程"+Thread.currentThread().getName()+"其他任务..............");
}
}
}
运行结果:
Semaphore用法
Semaphore翻译成字面意思为信号量,Semaphore可以控同时访问的线程个数,通过 acquire() 获取一个许可,如果没有就等待,而 release() 释放一个许可。
Semaphore类位于java.util.concurrent包下,它提供了2个构造器:
public Semaphore(int permits) { //参数permits表示许可数目,即同时可以允许多少线程进行访问
sync = new NonfairSync(permits);
}
public Semaphore(int permits, boolean fair) { //这个多了一个参数fair表示是否是公平的,即等待时间越久的越先获取许可
sync = (fair)? new FairSync(permits) : new NonfairSync(permits);
}
下面说一下Semaphore类中比较重要的几个方法,首先是acquire()、release()方法:
public void acquire() throws InterruptedException { } //获取一个许可
public void acquire(int permits) throws InterruptedException { } //获取permits个许可
public void release() { } //释放一个许可
public void release(int permits) { } //释放permits个许可
acquire()用来获取一个许可,若无许可能够获得,则会一直等待,直到获得许可。
release()用来释放许可。注意,在释放许可之前,必须先获获得许可。
这4个方法都会被阻塞,如果想立即得到执行结果,可以使用下面几个方法:
public boolean tryAcquire() { }; //尝试获取一个许可,若获取成功,则立即返回true,若获取失败,则立即返回false
public boolean tryAcquire(long timeout, TimeUnit unit) throws InterruptedException { }; //尝试获取一个许可,若在指定的时间内获取成功,则立即返回true,否则则立即返回false
public boolean tryAcquire(int permits) { }; //尝试获取permits个许可,若获取成功,则立即返回true,若获取失败,则立即返回false
public boolean tryAcquire(int permits, long timeout, TimeUnit unit) throws InterruptedException { }; //尝试获取permits个许可,若在指定的时间内获取成功,则立即返回true,否则则立即返回false
可以通过availablePermits()方法得到可用的许可数目.
Demo:
package com.zxd.concurrent.learning;
import java.util.concurrent.Semaphore;
/**
* @Project ConcurrentLearning
* @Package com.zxd.concurrent.learning
* @Author:zouxiaodong
* @Description:
* @Date:Created in 18:13 2018/3/21.
*/
public class SemaphoreTest {
public static void main(String[] args){
int person = 8;
Semaphore semaphore = new Semaphore(5);
for(int i = 0;i < person;i++){
new Thread(new Person(person,semaphore)).start();
}
}
static class Person implements Runnable{
private int num;
private Semaphore semaphore;
public Person(int num, Semaphore semaphore) {
this.num = num;
this.semaphore = semaphore;
}
@Override
public void run() {
try {
System.out.println("1.线程:"+Thread.currentThread().getName()+"准备获取许可,可用semaphore数:"+semaphore.availablePermits());
semaphore.acquire();
System.out.println("2.线程:"+Thread.currentThread().getName()+"占用一个许可,可用semaphore数:"+semaphore.availablePermits());
Thread.sleep(2000);
semaphore.release();
System.out.println("3.线程:"+Thread.currentThread().getName()+"释放一个许可,可用semaphore数:"+semaphore.availablePermits());
} catch (InterruptedException e) {
e.printStackTrace();
}
}
}
}
运行结果:
