Exchanger:JDK描述:可以在对中对元素进行配对和交换的线程的同步点。每个线程将条目上的某个方法呈现给 exchange 方法,与伙伴线程进行匹配,并且在返回时接收其伙伴的对象。Exchanger 可能被视为 SynchronousQueue 的双向形式。Exchanger 可能在应用程序(比如遗传算法和管道设计)中很有用。
我的理解就是:交换器类似于一个交易地点,先到的人(线程),等待后到的人,都到达后进行交易,等待时阻塞线程,交易后两个线程各自往下执行。
主要方法:exchange()
中断当前线程。如果当前线程:
InterruptedException,并且清除当前线程的已中断状态。package com.houjun.current.newClassBank; import java.util.concurrent.Exchanger; import java.util.concurrent.TimeUnit; /** * @Author: HouJun * @Date: 2019/10/18 16:40 * @Description: 交换器测试 * @version: 1.0 */ public class TestExchanger { public static void main(String[] args) throws InterruptedException { Exchanger<Integer> exchanger = new Exchanger<>(); new Producer("", exchanger).start();//启动生产者线程 new Consumer("", exchanger).start();//启动消费者线程 TimeUnit.SECONDS.sleep(1); } static class Producer extends Thread { private Exchanger<Integer> exchanger;//交换器对象泛型为Integer private static int data = 0; Producer(String name, Exchanger<Integer> exchanger) { super("Producer-" + name);//调用父类构造方法 this.exchanger = exchanger;//传入交换器对象 } @Override public void run() { for (int i = 0; i < 5; i++) { try { TimeUnit.SECONDS.sleep(1); data = i; System.out.println(getName() + "交换前:" + data); data = exchanger.exchange(data);//方法返回交换后的值 System.out.println(getName() + "交换后:" + data); } catch (InterruptedException e) { e.printStackTrace(); } } } } static class Consumer extends Thread { private Exchanger<Integer> exchanger; private static int data = 0; Consumer(String name, Exchanger<Integer> exchanger) { super("Consumer-" + name); this.exchanger = exchanger; } @Override public void run() { while (true) { data = 0; System.out.println(getName() + "交换前:" + data); try { TimeUnit.SECONDS.sleep(1); data = exchanger.exchange(data);//方法返回交换后的值 System.out.println(getName() + "交换后:" + data); } catch (InterruptedException e) { e.printStackTrace(); } } } } }
原文:https://www.cnblogs.com/houj/p/11699482.html