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Say I have a queue full of tasks which I need to submit to an executor service. I want them processed one at a time. The simplest way I can think of is to:

  1. Take a task from the queue
  2. Submit it to the executor
  3. Call .get on the returned Future and block until a result is available
  4. Take another task from the queue...

However, I am trying to avoid blocking completely. If I have 10,000 such queues, which need their tasks processed one at a time, I'll run out of stack space because most of them will be holding on to blocked threads.

What I would like is to submit a task and provide a call-back which is called when the task is complete. I'll use that call-back notification as a flag to send the next task. (functionaljava and jetlang apparently use such non-blocking algorithms, but I can't understand their code)

How can I do that using JDK's java.util.concurrent, short of writing my own executor service?

(the queue which feeds me these tasks may itself block, but that is an issue to be tackled later)

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12 Answers 12

up vote 83 down vote accepted

Define a callback interface to receive whatever parameters you want to pass along in the completion notification. Then invoke it at the end of the task. You could even write a general wrapper for Runnable tasks, and submit these to ExecutorService.

class CallbackTask implements Runnable {

  private final Runnable task;

  private final Callback callback;

  CallbackTask(Runnable task, Callback callback) {
    this.task = task;
    this.callback = callback;

  public void run() {

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Three answers in the blink of an eye! I like the CallbackTask, such a simple and straight forward solution. It looks obvious in retrospect. Thanks. Regarding others comments about SingleThreadedExecutor: I may have thousands of queues which may have thousands of tasks. Each of them need process their tasks one at a time, but different queues can operate in parallel. That's why I am using a single global threadpool. I'm new to executors so please tell me if I am mistaken. – Shahbaz May 5 '09 at 18:47
Good pattern, I would however use Guava's listenable future API that provide a very good implementation of it. – Pache Nov 13 '12 at 20:30
doesn't this beat the purpose of using Future? – takecare May 7 '15 at 11:19
@takecare It's a non-blocking alternative to waiting on get(), if that's what you mean. – erickson May 7 '15 at 13:50
@Zelphir It was a Callback interface that you declare; not from a library. Nowadays I'd probably just use Runnable, Consumer, or BiConsumer, depending on what I need to pass back from the task to the listener. – erickson Jan 29 at 15:52

Use Guava's listenable future API and add a callback. Cf. from the website :

ListeningExecutorService service = MoreExecutors.listeningDecorator(Executors.newFixedThreadPool(10));
ListenableFuture<Explosion> explosion = service.submit(new Callable<Explosion>() {
  public Explosion call() {
    return pushBigRedButton();
Futures.addCallback(explosion, new FutureCallback<Explosion>() {
  // we want this handler to run immediately after we push the big red button!
  public void onSuccess(Explosion explosion) {
  public void onFailure(Throwable thrown) {
    battleArchNemesis(); // escaped the explosion!
share|improve this answer
hi, but if i want to stop after onSuccess this Thread how can i do? – Antonio Balduzzi Mar 24 '15 at 16:47
That's exactly what I was looking for! Thanks so much – Michel Feldheim Oct 25 '15 at 22:13

You could extend FutureTask class, and override the done() method, then add the FutureTask object to the ExecutorService, so the done() method will invoke when the FutureTask completed immediately.

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Great! this should be the preferred way of doing callbacks. – asgs Apr 21 '15 at 10:04

In Java 8 you can use CompletableFuture. Here's an example I had in my code where I'm using it to fetch users from my user service, map them to my view objects and then update my view or show an error dialog (this is a GUI application):

            throwable -> { showErrorDialogFor(throwable); return null; }

It executes asynchronously. I'm using two private methods: mapUsersToUserViews and updateView.

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ThreadPoolExecutor also has beforeExecute and afterExecute hook methods that you can override and make use of. Here is the description from ThreadPoolExecutor's javadocs.

Hook methods

This class provides protected overridable beforeExecute(java.lang.Thread, java.lang.Runnable) and afterExecute(java.lang.Runnable, java.lang.Throwable) methods that are called before and after execution of each task. These can be used to manipulate the execution environment; for example, reinitializing ThreadLocals, gathering statistics, or adding log entries. Additionally, method terminated() can be overridden to perform any special processing that needs to be done once the Executor has fully terminated. If hook or callback methods throw exceptions, internal worker threads may in turn fail and abruptly terminate.

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Don't you love SO's tag-stripping code? I never have figured out a good way to link to any method that takes more than one parameter. – Michael Myers May 5 '09 at 20:03
I'm just giving up... It's becoming more mess as I try to work around. – Cem Catikkas May 5 '09 at 20:05
Sometimes I just link to the class docs and say "Somewhere on this page...." :) – Michael Myers May 5 '09 at 20:06
<a href="...">method</a> with percent encoded (, ) and space worked fine ;-) – Peter Štibraný May 5 '09 at 20:18
@Peter: Well, at least it looks fine. But the anchor links don't work for me in IE7. – Michael Myers May 5 '09 at 20:19

Use a CountDownLatch.

It's from java.util.concurrent and it's exactly the way to wait for several threads to complete execution before continuing.

In order to achieve the callback effect you're looking after, that does require a little additional extra work. Namely, handling this by yourself in a separate thread which uses the CountDownLatch and does wait on it, then goes on about notifying whatever it is you need to notify. There is no native support for callback, or anything similar to that effect.

EDIT: now that I further understand your question, I think you are reaching too far, unnecessarily. If you take a regular SingleThreadExecutor, give it all the tasks, and it will do the queueing natively.

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or just use Executors.newSingleThreadExecutor() – basszero May 5 '09 at 18:32
I just edited my answer :) – Yuval Adam May 5 '09 at 18:33
Using SingleThreadExecutor what is the best way to know that all the threads have completed? I saw an examplethat uses a while !executor.isTerminated but this doesn't seem very elegant. I implemented a callback feature for each worker and increment a count which works. – Bear Jul 21 '14 at 14:02

If you want to make sure that no tasks will run at the same time then use a SingleThreadedExecutor. The tasks will be processed in the order the are submitted. You don't even need to hold the tasks, just submit them to the exec.

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Just to add to Matt's answer, which helped, here is a more fleshed-out example to show the use of a callback.

private static Primes primes = new Primes();

public static void main(String[] args) throws InterruptedException {
    getPrimeAsync((p) ->
        System.out.println("onPrimeListener; p=" + p));

    System.out.println("Adios mi amigito");
public interface OnPrimeListener {
    void onPrime(int prime);
public static void getPrimeAsync(OnPrimeListener listener) {
        .thenApply((prime) -> {
            System.out.println("getPrimeAsync(); prime=" + prime);
            if (listener != null) {
            return prime;

The output is:

    getPrimeAsync(); prime=241
    onPrimeListener; p=241
    Adios mi amigito
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Or just use a fixed threadpool executor...

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You may use a implementation of Callable such that

public class MyAsyncCallable<V> implements Callable<V> {

    CallbackInterface ci;

    public MyAsyncCallable(CallbackInterface ci) {
        this.ci = ci;

    public V call() throws Exception {

        System.out.println("Call of MyCallable invoked");
        System.out.println("Result = " + this.ci.doSomething(10, 20));
        return (V) "Good job";

where CallbackInterface is something very basic like

public interface CallbackInterface {
    public int doSomething(int a, int b);

and now the main class will look like this

ExecutorService ex = Executors.newFixedThreadPool(2);

MyAsyncCallable<String> mac = new MyAsyncCallable<String>((a, b) -> a + b);
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This is an extension to Pache's answer using Guava's ListenableFuture.

In particular, Futures.transform() returns ListenableFuture so can be used to chain async calls. Futures.addCallback() returns void, so cannot be used for chaining, but is good for handling success/failure on a async completion.

// ListenableFuture1: Open Database
ListenableFuture<Database> database = service.submit(new Callable<Database>() {
  public Database call() {
    // Let's assume this call is async, i.e. returns a ListenableFuture<Database>
    return openDatabase();

// ListenableFuture2: Query Database for Cursor rows
cursor = Futures.transform(database, new AsyncFunction<Database, Cursor>() {
  @Override public ListenableFuture<Cursor> apply(Database database) {
    // Let's assume this call is async, i.e. returns a ListenableFuture<Cursor>
    return database.query(table, columns, selection, args);

// ListenableFuture3: Convert Cursor rows to List<FooObject>
fooList = Futures.transform(cursor, new Function<Cursor, List<FooObject>>() {
  @Override public List<FooObject> apply(Cursor cursor) {
    // Let's assume this call is synchronous, i.e. directly returns List<FooObject>
    return cursorToFooList(cursor);

// Final Callback: Handle the success/errors when final future completes
Futures.addCallback(fooList, new FutureCallback<List<FooObject>>() {
  public void onSuccess(List<FooObject> fooObjects) {
  public void onFailure(Throwable thrown) {

NOTE: In addition to chaining async tasks, Futures.transform() also allows you to schedule each task on a separate executor (Not shown in this example).

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Simple code to implement Callback mechanism using ExecutorService

import java.util.concurrent.*;
import java.util.*;

public class CallBackDemo{
    public CallBackDemo(){
        System.out.println("creating service");
        ExecutorService service = Executors.newFixedThreadPool(5);

            for ( int i=0; i<5; i++){
                Callback callback = new Callback(i+1);
                MyCallable myCallable = new MyCallable((long)i+1,callback);
                Future<Long> future = service.submit(myCallable);
                //System.out.println("future status:"+future.get()+":"+future.isDone());
        }catch(Exception err){
    public static void main(String args[]){
        CallBackDemo demo = new CallBackDemo();
class MyCallable implements Callable<Long>{
    Long id = 0L;
    Callback callback;
    public MyCallable(Long val,Callback obj){
        this.id = val;
        this.callback = obj;
    public Long call(){
        //Add your business logic
        return id;
class Callback {
    private int i;
    public Callback(int i){
        this.i = i;
    public void callbackMethod(){
        System.out.println("Call back:"+i);
        // Add your business logic


creating service
Call back:1
Call back:2
Call back:5
Call back:3
Call back:4

Key notes:

  1. If you want process tasks in sequence in FIFO order, replace newFixedThreadPool(5) with newFixedThreadPool(1)
  2. If you want to process next task after analysing the result from callback of previous task,just un-comment below line

    //System.out.println("future status:"+future.get()+":"+future.isDone());
  3. You can replace newFixedThreadPool() with one of


    depending on your use case.

  4. If you want to handle callback method asynchronously

    a. Pass a shared ExecutorService or ThreadPoolExecutor to Callable task

    b. Convert your Callable method to Callable/Runnable task

    c. Push callback task to ExecutorService or ThreadPoolExecutor

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