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For some code I'm writing I could use a nice general implementation of debounce in Java.

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

When call() is called multiple times in interval milliseconds with the same argument the callback function should be called exactly once.

A visualization:

Debouncer#call  xxx   x xxxxxxx        xxxxxxxxxxxxxxx
Callback#call      x           x                      x  (interval is 2)
  • Does (something like) this exist already in some Java standard library?
  • How would you implement that?
share|improve this question
looks like java.util.concurrency provides the building blocks –  levinalex Jan 20 '11 at 0:38
I know this is an old question, but I posted a similar question a few months ago here: stackoverflow.com/questions/18723112/… and provided a reusable implementation on GitHub that might be of interest –  ARRG Jan 7 at 7:41

3 Answers 3

up vote 5 down vote accepted

Please consider the following thread safe solution. Note that the lock granularity is on the key level, so that only calls on the same key block each other. It also handles the case of an expiration on key K which occurs while call(K) is called.

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() {

  // 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;

    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 {
          } finally {
share|improve this answer
thank you. this is better. –  levinalex Jan 8 at 8:39
@levinalex: just fixed a bug in call(..). The loop was added to make sure that we never have a scheduled task that's not in the map. –  Eyal Schneider Jan 8 at 22:27

I don't know if it exists but it should be simple to implement.

class Debouncer implements Callback {

  private CallBack c;
  private volatile long lastCalled;
  private int interval;

  public Debouncer(Callback c, int interval) {
     //init fields

  public void call(Object arg) { 
      if( lastCalled + interval < System.currentTimeMillis() ) {
        lastCalled = System.currentTimeMillis();
        c.call( arg );

Of course this example oversimplifies it a bit, but this is more or less all you need. If you want to keep separate timeouts for different arguments, you'll need a Map<Object,long> instead of just a long to keep track of the last execution time.

share|improve this answer
What I need is the opposite. the callback should be called at the end of every bunch of calls. (I want to use it to implement this) Which seems to require Threads/Timeouts –  levinalex Jan 20 '11 at 0:30
@levinalex I still think you could make it work this way but if you don't, don't use threads, use Timer or ScheduledExecutorService instead, it's much cleaner and safer that way. –  biziclop Jan 20 '11 at 0:35
Thanks for these. I'm trying to make that work right now. (I've never done Java concurrency before) –  levinalex Jan 20 '11 at 0:42
Timers seem to be exactly what I need. –  levinalex Jan 20 '11 at 0:44

This looks like it could work:

class Debouncer implements Callback {
    private Callback callback;
    private Map<Integer, Timer> scheduled = new HashMap<Integer, Timer>();
    private int delay;

    public Debouncer(Callback c, int delay) {
        this.callback = c;
        this.delay = delay;

    public void call(final Object arg) {
        final int h = arg.hashCode();
        Timer task = scheduled.remove(h);
        if (task != null) { task.cancel(); }

        task = new Timer();
        scheduled.put(h, task);

        task.schedule(new TimerTask() {
            public void run() {
        }, this.delay);
share|improve this answer
Do you ever add the object to the hash map? And also, you should never use hashCode as the key, because it will easily create collisions. Not to mention that objects of different type will easily have equal hash codes, even if their own hash functions are perfect. –  Groo Sep 11 '13 at 10:13
fixed the answer to actually schedule things. What would I use instead of hashCode? –  levinalex Jan 7 at 8:50
Simply use the actual object as the key (I.e. Map<Object, Timer>). HashMap then uses the object's hash code internally to quickly jump to the bucket containing your item (and potentially other items with the same hash code), but after that the hash code is ignored and it compares the actual Object with ones in that bucket to find the matching one. Tldr; whenever you call hashCode() in your code, you are most likely doing something wrong. –  Groo Jan 7 at 13:06
-1 This solution is not thread safe, and even for one thread it fails to meet the requirements. As Groo claims, different args with the same hashcode will cancel each others tasks. In addition, the creation of multiple timers is not efficient and unnecessary. –  Eyal Schneider Jan 7 at 13:43
@groo thanks. makes sense. –  levinalex Jan 7 at 14:12

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