JUC 之 BlockingQueue 接口以及 ArrayBlockingQueue 实现类详解

猿友 2020-08-11 16:23:23 浏览数 (3181)
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队列是一种 FIFO(先进先出)的数据结构,本文要讲的 BlockingQueue 也是一种队列,而且强调了线程安全的特性。

BlockingQueue全称:java.util.concurrent.BlockingQueue。它是是一个线程安全的队列接口,多个线程能够以并发的方式从队列中插入数据,取出数据的同时不会出现线程安全的问题。

生产者和消费者例子

BlockingQueue 通常用于消费者线程向队列存入数据,消费者线程从队列中取出数据,具体如下

消费者线程

  1. 生产者线程不停的向队列中插入数据,直到队列满了,生产者线程被阻塞
  2. 消费者线程不停的从队列中取出数据,直到队列为空,消费者线程被阻塞

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BlockingQueue 方法

BlockingQueue 提供 4 种不同类型的方法用于插入数,取出数据以及检查数据,具体如下

  1. 操作失败,抛出异常
  2. 无论成功/失败,立即返回 true/false
  3. 如果队列为空/满,阻塞当前线程
  4. 如果队列为空/满,阻塞当前线程并有超时机制插入add(o) offer(o) put(o) offer(o, timeout, timeunit)取出remove(o) poll() take() poll(timeout, timeunit)检查element() peek()

BlockingQueue 的具体实现类

BlockingQueue 只是一个接口,在实际开发中有如下的类实现了该接口。

  1. ArrayBlockingQueue
  2. DelayQueue
  3. LinkedBlockingQueue
  4. PriorityBlockingQueue
  5. SynchronousQueue

ArrayBlockingQueue 的使用

BlockingQueue 接口

这里以 BlockingQueue 接口的具体实现类 ArrayBlockingQueue 举例。通过 ArrayBlockingQueue实现一个消费者和生产者多线程模型。

核心内容如下:

  1. ArrayBlockingQueue 作为生产者和消费者的数据容器
  2. 通过 ExecutorService 启动 3 个线程,2 两个生产者,1 个消费者
  3. 指定数据总量

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生产者线程

ArrayBlockingQueueProducer

import org.slf4j.Logger;
import org.slf4j.LoggerFactory;


import java.util.concurrent.ArrayBlockingQueue;
import java.util.concurrent.atomic.AtomicInteger;


/**
 * 生产者线程向容器存入指定总量的 任务
 *
 */
public class ArrayBlockingQueueProducer implements Runnable {


    private static final Logger logger = LoggerFactory.getLogger(ArrayBlockingQueueProducer.class);


    // 容器
    private ArrayBlockingQueue<String> queue;
    // 生产指定的数量
    private AtomicInteger numberOfElementsToProduce;


    public ArrayBlockingQueueProducer(ArrayBlockingQueue<String> queue, AtomicInteger numberOfElementsToProduce) {
        this.queue = queue;
        this.numberOfElementsToProduce = numberOfElementsToProduce;
    }


    @Override
    public void run() {
        try {
            while (numberOfElementsToProduce.get() > 0) {
                try {
                    // 向队列中存入任务
                    String task = String.format("task_%s", numberOfElementsToProduce.getAndUpdate(x -> x-1));
                    queue.put(task);
                    logger.info("thread {}, produce task {}", Thread.currentThread().getName(), task);


                    // 任务为0,生产者线程退出
                    if (numberOfElementsToProduce.get() == 0) {
                        break;
                    }
                } catch (Exception e) {
                    e.printStackTrace();
                }
            }
        } catch (Exception e) {
            logger.error(this.getClass().getName().concat(". has error"), e);
        }


    }
}

消费者线程

ArrayBlockingQueueConsumer

import org.slf4j.Logger;
import org.slf4j.LoggerFactory;


import java.util.concurrent.ArrayBlockingQueue;
import java.util.concurrent.atomic.AtomicInteger;


/**
 * 消费者线程向容器 消费 指定总量的任务
 *
 */
public class ArrayBlockingQueueConsumer implements Runnable {


    private static final Logger logger = LoggerFactory.getLogger(ArrayBlockingQueueConsumer.class);


    private ArrayBlockingQueue<String> queue;
    private AtomicInteger numberOfElementsToProduce;


    public ArrayBlockingQueueConsumer(ArrayBlockingQueue<String> queue, AtomicInteger numberOfElementsToProduce) {
        this.queue = queue;
        this.numberOfElementsToProduce = numberOfElementsToProduce;
    }


    @Override
    public void run() {
        try {
            while (!queue.isEmpty() || numberOfElementsToProduce.get() >= 0) {
                // 从队列中获取任务,并执行任务
                String task = queue.take();
                logger.info("thread {} consume task {}", Thread.currentThread().getName(),task);


                // 队列中数据为空,消费者线程退出
                if (queue.isEmpty()) {
                    break;
                }
            }
        } catch (Exception e) {
            logger.error(this.getClass().getName().concat(". has error"), e);
        }
    }
}

测试 TestBlockingQueue

import com.ckjava.synchronizeds.appCache.WaitUtils;


import java.util.concurrent.ArrayBlockingQueue;
import java.util.concurrent.ExecutorService;
import java.util.concurrent.Executors;
import java.util.concurrent.atomic.AtomicInteger;


/**
 * 1. 以 ArrayBlockingQueue 作为生产者和消费者的数据容器 <br>
 * 2. 通过 ExecutorService 启动 3 个线程,2 两个生产者,1 个消费者 <br>
 * 3. 指定数据总量
 */
public class TestBlockingQueue {
    public static void main(String[] args) {
        ArrayBlockingQueue<String> arrayBlockingQueue = new ArrayBlockingQueue<>(10);
        /*BlockingQueue delayQueue = new DelayQueue();
        BlockingQueue<String> linkedBlockingQueue = new LinkedBlockingQueue<>(10);
        BlockingQueue<String> priorityBlockingQueue = new PriorityBlockingQueue<>(10);
        BlockingQueue<String> synchronousQueue = new SynchronousQueue<>();*/


        ExecutorService executorService = Executors.newFixedThreadPool(3);
        // 最多生产 5 个数据
        AtomicInteger numberOfElementsToProduce = new AtomicInteger(5);


        // 2 个生产者线程
        executorService.submit(new ArrayBlockingQueueProducer(arrayBlockingQueue, numberOfElementsToProduce));
        executorService.submit(new ArrayBlockingQueueProducer(arrayBlockingQueue, numberOfElementsToProduce));
        // 1 个消费者线程
        executorService.submit(new ArrayBlockingQueueConsumer(arrayBlockingQueue, numberOfElementsToProduce));


        executorService.shutdown();
        WaitUtils.waitUntil(() -> executorService.isTerminated(), 1000L);
    }
}

输出如下:

13:54:17.884 [pool-1-thread-3] INFO  c.c.b.ArrayBlockingQueueConsumer - thread pool-1-thread-3 consume task task_5
13:54:17.884 [pool-1-thread-1] INFO  c.c.b.ArrayBlockingQueueProducer - thread pool-1-thread-1, produce task task_5
13:54:17.884 [pool-1-thread-2] INFO  c.c.b.ArrayBlockingQueueProducer - thread pool-1-thread-2, produce task task_4
13:54:17.887 [pool-1-thread-3] INFO  c.c.b.ArrayBlockingQueueConsumer - thread pool-1-thread-3 consume task task_4
13:54:17.887 [pool-1-thread-2] INFO  c.c.b.ArrayBlockingQueueProducer - thread pool-1-thread-2, produce task task_2
13:54:17.887 [pool-1-thread-1] INFO  c.c.b.ArrayBlockingQueueProducer - thread pool-1-thread-1, produce task task_3
13:54:17.887 [pool-1-thread-3] INFO  c.c.b.ArrayBlockingQueueConsumer - thread pool-1-thread-3 consume task task_3
13:54:17.887 [pool-1-thread-2] INFO  c.c.b.ArrayBlockingQueueProducer - thread pool-1-thread-2, produce task task_1
13:54:17.887 [pool-1-thread-3] INFO  c.c.b.ArrayBlockingQueueConsumer - thread pool-1-thread-3 consume task task_2
13:54:17.887 [pool-1-thread-3] INFO  c.c.b.ArrayBlockingQueueConsumer - thread pool-1-thread-3 consume task task_1

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