一尘不染

在Java中实现反跳

algorithm

对于我正在编写的某些代码,我可以使用debounceJava中的一个不错的通用实现。

public interface Callback {
  public void call(Object arg);
}

class Debouncer implements Callback {
    public Debouncer(Callback c, int interval) { ... }

    public void call(Object arg) { 
        // should forward calls with the same arguments to the callback c
        // but batch multiple calls inside `interval` to a single one
    }
}

call()被称为多次interval毫秒具有相同参数的回调函数应调用一次。

可视化:

Debouncer#call  xxx   x xxxxxxx        xxxxxxxxxxxxxxx
Callback#call      x           x                      x  (interval is 2)
  • Java标准库中已经存在(类似的东西)吗?
  • 您将如何实施?

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2020-07-28

共1个答案

一尘不染

请考虑以下线程安全解决方案。请注意,锁定粒度是在密钥级别上的,因此仅同一密钥上的调用会相互阻塞。它还处理在调用call(K)时发生的密钥K过期的情况。

public class Debouncer <T> {
  private final ScheduledExecutorService sched = Executors.newScheduledThreadPool(1);
  private final ConcurrentHashMap<T, TimerTask> delayedMap = new ConcurrentHashMap<T, TimerTask>();
  private final Callback<T> callback;
  private final int interval;

  public Debouncer(Callback<T> c, int interval) { 
    this.callback = c;
    this.interval = interval;
  }

  public void call(T key) {
    TimerTask task = new TimerTask(key);

    TimerTask prev;
    do {
      prev = delayedMap.putIfAbsent(key, task);
      if (prev == null)
        sched.schedule(task, interval, TimeUnit.MILLISECONDS);
    } while (prev != null && !prev.extend()); // Exit only if new task was added to map, or existing task was extended successfully
  }

  public void terminate() {
    sched.shutdownNow();
  }

  // The task that wakes up when the wait time elapses
  private class TimerTask implements Runnable {
    private final T key;
    private long dueTime;    
    private final Object lock = new Object();

    public TimerTask(T key) {        
      this.key = key;
      extend();
    }

    public boolean extend() {
      synchronized (lock) {
        if (dueTime < 0) // Task has been shutdown
          return false;
        dueTime = System.currentTimeMillis() + interval;
        return true;
      }
    }

    public void run() {
      synchronized (lock) {
        long remaining = dueTime - System.currentTimeMillis();
        if (remaining > 0) { // Re-schedule task
          sched.schedule(this, remaining, TimeUnit.MILLISECONDS);
        } else { // Mark as terminated and invoke callback
          dueTime = -1;
          try {
            callback.call(key);
          } finally {
            delayedMap.remove(key);
          }
        }
      }
    }  
  }
2020-07-28