Java Timer

1. Timer – The Basics

Timer and TimerTask are java util classes used to schedule tasks in a background thread. In a few words – TimerTask is the task to perform and Timer is the scheduler.

2. Schedule a Task Once

Let’s start by simply running a single task with the help of a Timer:

@Test
public void givenUsingTimer_whenSchedulingTaskOnce_thenCorrect() {
    TimerTask task = new TimerTask() {
        public void run() {
            System.out.println("Task performed on: " + new Date() + "n" +
              "Thread's name: " + Thread.currentThread().getName());
        }
    };
    Timer timer = new Timer("Timer");

    long delay = 1000L;
    timer.schedule(task, delay);
}

Note that if we are running this is a JUnit test, we should add a Thread.sleep(delay * 2) call to allow the Timer’s thread to run the task before the Junit test stops executing.

3. Schedule a Repeated Task at an Interval

Next – let’s schedule a task to run at a pre-defined interval.

We’ll make use of the scheduleAtFixedRate(repeatedTask, delay, period) API – which schedules the task for repeated fixed-rate execution, beginning after the specified delay. Subsequent executions take place at regular intervals, separated by the specified period:

@Test
public void givenUsingTimer_whenSchedulingRepeatedTask_thenCorrect(){
    TimerTask repeatedTask = new TimerTask() {
        public void run() {
            System.out.println("Task performed on " + new Date());
        }
    };
    Timer timer = new Timer("Timer");

    long delay  = 1000L;
    long period = 1000L;
    timer.scheduleAtFixedRate(repeatedTask, delay, period);
}

Note that – if an execution is delayed for any reason (such as garbage collection or other background activity), two or more executions will occur in rapid succession to “catch up”.

3.1. Schedule a Daily Task

Next – let’s run a task once a day:

@Test
public void givenUsingTimer_whenSchedulingDailyTask_thenCorrect() {
    TimerTask repeatedTask = new TimerTask() {
        public void run() {
            System.out.println("Task performed on " + new Date());
        }
    };
    Timer timer = new Timer("Timer");

    long delay = 1000L;
    long period = 1000L * 60L * 60L * 24L;
    timer.scheduleAtFixedRate(repeatedTask, delay, period);
}

4. Cancel Timer and TimerTask

An execution of a task can be canceled in a few ways:

4.1. Cancel the TimerTask Inside Run

By calling the TimerTask.cancel() method inside the run() method’s implementation of the TimerTask itself:

@Test
public void givenUsingTimer_whenCancelingTimerTask_thenCorrect()
  throws InterruptedException {
    TimerTask task = new TimerTask() {
        public void run() {
            System.out.println("Task performed on " + new Date());
            cancel();
        }
    };
    Timer timer = new Timer("Timer");

    timer.scheduleAtFixedRate(task, 1000L, 1000L);

    Thread.sleep(1000L * 2);
}

4.2. Cancel the Timer

By calling the Timer.cancel() method on a Timer object:

@Test
public void givenUsingTimer_whenCancelingTimer_thenCorrect()
  throws InterruptedException {
    TimerTask task = new TimerTask() {
        public void run() {
            System.out.println("Task performed on " + new Date());
        }
    };
    Timer timer = new Timer("Timer");

    timer.scheduleAtFixedRate(task, 1000L, 1000L);

    Thread.sleep(1000L * 2);
    timer.cancel();
}

4.3. Stop the Thread of the TimerTask Inside Run

You can also stop the thread inside the run method of the task, thus canceling the entire task:

@Test
public void givenUsingTimer_whenStoppingThread_thenTimerTaskIsCancelled()
  throws InterruptedException {
    TimerTask task = new TimerTask() {
        public void run() {
            System.out.println("Task performed on " + new Date());
            // TODO: stop the thread here
        }
    };
    Timer timer = new Timer("Timer");

    timer.scheduleAtFixedRate(task, 1000L, 1000L);

    Thread.sleep(1000L * 2);
}

Notice the TODO instruction in the run implementation – in order to run this simple example, we’ll need to actually stop the thread.

In a real-world custom thread implementation, stopping the thread should be supported, but in this case we can ignore the deprecation and use the simple stop API on the Thread class itself.

5. Timer VS ExecutorService

You can also make good use of an ExecutorService to schedule timer tasks, instead of using the timer.

Here’s a quick example of how to run a repeated task at a specified interval:

@Test
public void givenUsingExecutorService_whenSchedulingRepeatedTask_thenCorrect()
  throws InterruptedException {
    TimerTask repeatedTask = new TimerTask() {
        public void run() {
            System.out.println("Task performed on " + new Date());
        }
    };
    ScheduledExecutorService executor = Executors.newSingleThreadScheduledExecutor();
    long delay  = 1000L;
    long period = 1000L;
    executor.scheduleAtFixedRate(repeatedTask, delay, period, TimeUnit.MILLISECONDS);
    Thread.sleep(delay + period * 3);
    executor.shutdown();
}

So what are the main differences between the Timer and the ExecutorService solution:

  • Timer can be sensitive to changes in the system clock; ScheduledThreadPoolExecutor is not

  • Timer has only one execution thread; ScheduledThreadPoolExecutor can be configured with any number of threads

  • Runtime Exceptions thrown inside the TimerTask kill the thread, so following scheduled tasks won’t run further; with ScheduledThreadExecutor – the current task will be canceled, but the rest will continue to run

6. Conclusion

This tutorial illustrated the many ways you can make use of the simple yet flexible Timer and TimerTask infrastructure built into Java, for quickly scheduling tasks. There are of course much more complex and complete solutions in the Java world if you need them – such as the Quartz library – but this is a very good place to start.

The implementation of these examples can be found in the github project – this is an Eclipse based project, so it should be easy to import and run as it is.

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