Java多线程之同步工具类Exchanger_Java教程

1 Exchanger 介绍

前面分别介绍了CyclicBarrier、CountDownLatch、Semaphore，现在介绍并发工具类中的最后一个Exchange。
Exchanger 是一个用于线程间协作的工具类，Exchanger用于进行线程间的数据交换，它提供一个同步点，在这个同步点，两个线程可以交换彼此的数据。这两个线程通过exchange 方法交换数据，如果第一个线程先执行exchange 方法，它会一直等待第二个线程也执行exchange 方法，当两个线程都到达同步点时，这两个线程就可以交换数据。

A synchronization point at which threads can pair and swap elements within pairs. Each thread presents some object on entry to the exchange method, matches with a partner thread, and receives its partner's object on return. An Exchanger may be viewed as a bidirectional form of a SynchronousQueue. Exchangers may be useful in applications such as genetic algorithms and pipeline designs.

在以上的描述中，有几个要点：

此类提供对外的操作是同步的；
用于成对出现的线程之间交换数据；
可以视作双向的同步队列；
可应用于基因算法、流水线设计等场景。
接着看api文档，这个类提供对外的接口非常简洁，一个无参构造函数，两个重载的范型exchange方法：

				?

									public V exchange(V x) throws InterruptedException

									public V exchange(V x, long timeout, TimeUnit unit) throws InterruptedException, TimeoutException

2 Exchanger 实例

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									public class ExchangerTest {

									    public static void main(String[] args) {

									        ExecutorService executor = Executors.newCachedThreadPool();

									        final Exchanger exchanger = new Exchanger();

									        executor.execute(new Runnable() {

									            String data = "data1";

									            @Override

									            public void run() {

									                doExchangeWork(data, exchanger);

									            }

									        });

									        executor.execute(new Runnable() {

									            String data = "data2";

									            @Override

									            public void run() {

									                doExchangeWork(data, exchanger);

									            }

									        });

									        executor.shutdown();

									    }

									    private static void doExchangeWork(String data, Exchanger exchanger) {

									        try {

									            System.out.println(Thread.currentThread().getName() + "正在把数据 " + data + " 交换出去");

									            Thread.sleep((long) (Math.random() * 1000));

									            String exchangeData = (String) exchanger.exchange(data);

									            System.out.println(Thread.currentThread().getName() + "交换得到数据  " + exchangeData);

									        } catch (InterruptedException e) {

									            e.printStackTrace();

									        }

									    }

									}

pool-1-thread-1正在把数据 data1 交换出去
pool-1-thread-2正在把数据 data2 交换出去
pool-1-thread-2交换得到数据 data1
pool-1-thread-1交换得到数据 data2

当线程A调用Exchange对象的exchange()方法后，他会陷入阻塞状态，直到线程B也调用了exchange()方法，然后以线程安全的方式交换数据，之后线程A和B继续运行。

exchange等待超时

				?

									public class ExchangerTest {

									    public static void main(String[] args) {

									        ExecutorService executor = Executors.newCachedThreadPool();

									        final Exchanger exchanger = new Exchanger();

									        executor.execute(new Runnable() {

									            String data = "data1";

									            @Override

									            public void run() {

									                doExchangeWork(data, exchanger);

									            }

									        });

									        executor.execute(new Runnable() {

									            String data = "data2";

									            @Override

									            public void run() {

									                try {

									                    Thread.sleep((long) (3000));

									                } catch (InterruptedException e) {

									                    e.printStackTrace();

									                }

									                doExchangeWork(data, exchanger);

									            }

									        });

									        executor.shutdown();

									    }

									    private static void doExchangeWork(String data, Exchanger exchanger) {

									        try {

									            System.out.println(Thread.currentThread().getName() + "正在把数据 " + data + " 交换出去");

									            //远小于3秒抛出异常

									            String exchangeData = (String) exchanger.exchange(data,1, TimeUnit.SECONDS);

									            System.out.println(Thread.currentThread().getName() + "交换得到数据  " + exchangeData);

									        } catch ( TimeoutException e) {

									            e.printStackTrace();

									        } catch (InterruptedException e) {

									            e.printStackTrace();

									        }

									    }

									}

pool-1-thread-1正在把数据 data1 交换出去
java.util.concurrent.TimeoutException
    at java.util.concurrent.Exchanger.exchange(Exchanger.java:626)
    at ExchangerTest.doExchangeWork(ExchangerTest.java:37)
    at ExchangerTest.access$000(ExchangerTest.java:3)
    at ExchangerTest$1.run(ExchangerTest.java:12)
    at java.util.concurrent.ThreadPoolExecutor.runWorker(ThreadPoolExecutor.java:1149)
    at java.util.concurrent.ThreadPoolExecutor$Worker.run(ThreadPoolExecutor.java:624)
    at java.lang.Thread.run(Thread.java:748)
pool-1-thread-2正在把数据 data2 交换出去
java.util.concurrent.TimeoutException
    at java.util.concurrent.Exchanger.exchange(Exchanger.java:626)
    at ExchangerTest.doExchangeWork(ExchangerTest.java:37)
    at ExchangerTest.access$000(ExchangerTest.java:3)
    at ExchangerTest$2.run(ExchangerTest.java:26)
    at java.util.concurrent.ThreadPoolExecutor.runWorker(ThreadPoolExecutor.java:1149)
    at java.util.concurrent.ThreadPoolExecutor$Worker.run(ThreadPoolExecutor.java:624)
    at java.lang.Thread.run(Thread.java:748)

实战场景：

设计一个定时任务，每日凌晨执行。在定时任务中启动两个线程，一个线程负责对业务明细表（xxx_info）进行查询统计，把统计的结果放置在内存缓冲区，另一个线程负责读取缓冲区中的统计结果并插入到业务统计表（xxx_statistics）中。
亲，这样的场景是不是听起来很有感觉？没错!两个线程在内存中批量交换数据，这个事情我们可以使用Exchanger去做！

3 实现原理

Exchanger（交换者）是一个用于线程间协作的工具类。Exchanger用于进行线程间的数据交换。它提供一个同步点，在这个同步点两个线程可以交换彼此的数据。这两个线程通过exchange方法交换数据，如果第一个线程先执行exchange方法，它会一直等待第二个线程也执行exchange，当两个线程都到达同步点时，这两个线程就可以交换数据，将本线程生产出来的数据传递给对方。因此使用Exchanger的重点是成对的线程使用exchange()方法，当有一对线程达到了同步点，就会进行交换数据。因此该工具类的线程对象是成对的。
Exchanger类提供了两个方法，String exchange(V x):用于交换，启动交换并等待另一个线程调用exchange；String exchange(V x,long timeout,TimeUnit unit)：用于交换，启动交换并等待另一个线程调用exchange，并且设置最大等待时间，当等待时间超过timeout便停止等待。