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手把手带你理解java线程池之工作队列workQueue

时间:2021-12-25 16:35     来源/作者:渣男小四

线程池之工作队列

手把手带你理解java线程池之工作队列workQueue

 

ArrayBlockingQueue

采用数组来实现,并采用可重入锁ReentrantLock来做并发控制,无论是添加还是读取,都先要获得锁才能进行操作 可看出进行读写操作都使用了ReentrantLock,ArrayBlockingQueue需要为其指定容量

public boolean offer(E e) {
      checkNotNull(e);
      final ReentrantLock lock = this.lock;
      lock.lock();
      try {
          if (count == items.length)
              return false;
          else {
              enqueue(e);
              return true;
          }
      } finally {
          lock.unlock();
      }
  }
  
  public void put(E e) throws InterruptedException {
      checkNotNull(e);
      final ReentrantLock lock = this.lock;
      lock.lockInterruptibly();
      try {
          while (count == items.length)
              notFull.await();
          enqueue(e);
      } finally {
          lock.unlock();
      }
  }

 

SynchronousQueue

由于SynchronousQueue源码比较复杂,里面大量的Cas操作,SynchronousQueue没有容器,所以里面是装不了任务的,当一个生产者线程生产一个任务的 时候,如果没有对应的消费者消费,那么该生产者会一直阻塞,知道有消费者消费为止。
图示:

手把手带你理解java线程池之工作队列workQueue

如下代码,如果我们将消费者线程注释掉执行,那么生产者哪里将会一直阻塞

package thread.customthreadpool;

import java.util.concurrent.ExecutorService;
import java.util.concurrent.Executors;
import java.util.concurrent.SynchronousQueue;
import java.util.concurrent.ThreadPoolExecutor;

/**
* 测试SynchronousQueue
*/
public class SynchronousQueueTest {

  private static final SynchronousQueue<String> synchronousQueue = new SynchronousQueue<>();

  private static final ExecutorService service = Executors.newCachedThreadPool();

  public static void main(String[] args) {
      /**
       * Provider
       */
      service.submit(() -> {
          try {
              synchronousQueue.put("liu");
          }catch (Exception e){
              e.printStackTrace();
          }
          System.out.println("Consumer finished spending");
      });

      /**
       * Consumer
       */
      service.submit(() ->{
          try {
              synchronousQueue.take();
          }catch (Exception e){
              e.printStackTrace();
          }
          System.out.println("take over");
      });
  }
}

 

LinkedBlockingDeque

LinkedBlockingDeque是一个双向队列,底层使用单链表实现,任何一段都可进行元素的读写操作,在初始化LinkedBlockingDeque的时候, 我们可以指定容量,也可不指定,如果不指定,则容量为Integer.MAX_VALUE,

注:Deque是双端队列,而Queue是单端队列,双端意思是两端都可以进行读写操作,而单端则只能从一端进,一端出(FIFO)

public LinkedBlockingDeque() {
      this(Integer.MAX_VALUE);
}
package thread.customthreadpool;
import java.util.concurrent.LinkedBlockingDeque;
public class LinkedBlockingDequeTest {

  private static final LinkedBlockingDeque<Integer> deque = new LinkedBlockingDeque<>();

  public static void main(String[] args) throws InterruptedException {
      deque.put(1);
      deque.put(2);
      deque.put(3);
      deque.put(4);
      deque.put(5);
      System.out.println(deque);
      System.out.println("deque size  "+deque.size());
      deque.take();
      deque.take();
      deque.take();
      deque.take();
      deque.take();
      System.out.println(deque);
      System.out.println("deque size  "+deque.size());
  }
}

手把手带你理解java线程池之工作队列workQueue

 

LinkedBlockingQueue

底层基于单向连表实现,是一个单向队列,具有先进先出(FIFO)特点,使用了ReentrantLock来做并发控制,读写操作都上锁

private final ReentrantLock putLock = new ReentrantLock();
  public void put(E e) throws InterruptedException {
      if (e == null) throw new NullPointerException();
      int c = -1;
      Node<E> node = new Node<E>(e);
      final ReentrantLock putLock = this.putLock;
      final AtomicInteger count = this.count;
      putLock.lockInterruptibly();
      try {
          while (count.get() == capacity) {
              notFull.await();
          }
          enqueue(node);
          c = count.getAndIncrement();
          if (c + 1 < capacity)
              notFull.signal();
      } finally {
          putLock.unlock();
      }
      if (c == 0)
          signalNotEmpty();
  }
  public E take() throws InterruptedException {
      E x;
      int c = -1;
      final AtomicInteger count = this.count;
      final ReentrantLock takeLock = this.takeLock;
      takeLock.lockInterruptibly();
      try {
          while (count.get() == 0) {
              notEmpty.await();
          }
          x = dequeue();
          c = count.getAndDecrement();
          if (c > 1)
              notEmpty.signal();
      } finally {
          takeLock.unlock();
      }
      if (c == capacity)
          signalNotFull();
      return x;
  }

 

DelayDeque

DelayDeque是一个无界队列,添加进DelayDeque的元素会经过compareTo方法计算,然后按照时间 进行排序,排在队头的元素是最早到期的,越往后到期时间越长,DelayDeque只能接受Delayed接口类型 如图所示,队列里的元素并不是按照先进先出的规则,而是按照过期时间

手把手带你理解java线程池之工作队列workQueue

示例

package thread.customthreadpool.delayDeque;

import java.util.concurrent.Delayed;
import java.util.concurrent.TimeUnit;

public class MyDelayed implements Delayed {

  private final String taskName ;
  private final long nowTime = System.currentTimeMillis();
  private final long expireTime ;

  public MyDelayed(String taskName,long expireTime) {
      this.taskName = taskName;
      this.expireTime = expireTime;
  }

  @Override
  public long getDelay(TimeUnit unit) {
      return unit.convert((nowTime+expireTime) - System.currentTimeMillis(),TimeUnit.MILLISECONDS);
  }

  @Override
  public int compareTo(Delayed o) {
      MyDelayed myDelayed = (MyDelayed) o;
      return (int) (this.getDelay(TimeUnit.MILLISECONDS) - o.getDelay(TimeUnit.MILLISECONDS));
  }

  @Override
  public String toString() {
      return "MyDelayed{" +
              "taskName='" + taskName + '\'' +
              ", nowTime=" + nowTime +
              ", expireTime=" + expireTime +
              '}';
  }
}
package thread.customthreadpool.delayDeque;

import java.util.concurrent.*;

public class MyDelayQueue {

  private static final DelayQueue<MyDelayed> delayQueue = new DelayQueue<>();

  private static final ExecutorService service = Executors.newCachedThreadPool();

  public static void main(String[] args) throws InterruptedException {
      service.submit(() -> {
          delayQueue.put(new MyDelayed("A-Task",5000));
          delayQueue.put(new MyDelayed("B-Task",4000));
          delayQueue.put(new MyDelayed("C-Task",3000));
          delayQueue.put(new MyDelayed("D-Task",2000));
          delayQueue.put(new MyDelayed("E-Task",1000));
      });
      while (true){
          System.out.println(delayQueue.take());
      }
  }
}

result

手把手带你理解java线程池之工作队列workQueue

应用场景

1.美团外卖订单:当我们下单后没付款 ,30分钟后将自动取消订单
2.缓存,对于某些任务,需要在特定的时间清理;

and so on

 

LinkedTransferQueue

当消费线程从队列中取元素时,如果队列为空,那么生成一个为null的节点,消费者线程就一直等待,此时如果生产者线程发现队列中有一个null节点, 它就不入队了,而是将元素填充到这个null节点并唤醒消费者线程,然后消费者线程取走元素。
LinkedTransferQueue是 SynchronousQueue 和 LinkedBlockingQueue 的整合,性能比较高,因为没有锁操作, SynchronousQueue不能存储元素,而LinkedTransferQueue能存储元素,

 

PriorityBlockingQueue

PriorityBlockingQueue是一个无界的阻塞队列,同时是一个支持优先级的队列,读写操作都是基于ReentrantLock, 内部使用堆算法保证每次出队都是优先级最高的元素

public E take() throws InterruptedException {
      final ReentrantLock lock = this.lock;
      lock.lockInterruptibly();
      E result;
      try {
          while ( (result = dequeue()) == null)
              notEmpty.await();
      } finally {
          lock.unlock();
      }
      return result;
}

到此这篇关于手把手带你理解java线程池之工作队列workQueue的文章就介绍到这了,更多相关java线程池内容请搜索服务器之家以前的文章或继续浏览下面的相关文章希望大家以后多多支持服务器之家!

原文链接:https://www.cnblogs.com/steakliu/p/15245736.html

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