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Trail: Essential Java Classes
Lesson: Threads: Doing Two or More Tasks At Once
Using the Timer and TimerTask Classes
This section discusses practical aspects of using timers to schedule tasks. TheTimer
class in thejava.util
package schedules instances of a class calledTimerTask
.is an example of using a timer to perform a task after a delay:
Reminder.java
import java.util.Timer; import java.util.TimerTask; /** * Simple demo that uses java.util.Timer to schedule a task * to execute once 5 seconds have passed. */ public class Reminder { Timer timer; public Reminder(int seconds) { timer = new Timer(); timer.schedule(new RemindTask(), seconds*1000); } class RemindTask extends TimerTask { public void run() { System.out.println("Time's up!"); timer.cancel(); //Terminate the timer thread } } public static void main(String args[]) { new Reminder(5); System.out.println("Task scheduled."); } }When you run the example, you first see this:
Task scheduled.Five seconds later, you see this:
Time's up!This simple program illustrates the basic parts of implementing and scheduling a task to be executed by a timer thread.
- Implement a custom subclass of
TimerTask
. Therun
method contains the code that performs the task. In this example, the subclass is namedRemindTask
.
- Create a thread by instantiating the
Timer
class.
- Instantiate the timer task object (
new RemindTask()
).
- Schedule the timer task for execution. This example uses the
schedule
method, with the timer task as the first argument and the delay in milliseconds (5000
) as the second argument. Another way of scheduling a task is to specify the time when the task should execute. For example, the following code schedules a task for execution at 11:01 p.m.://Get the Date corresponding to 11:01:00 pm today. Calendar calendar = Calendar.getInstance(); calendar.set(Calendar.HOUR_OF_DAY, 23); calendar.set(Calendar.MINUTE, 1); calendar.set(Calendar.SECOND, 0); Date time = calendar.getTime(); timer = new Timer(); timer.schedule(new RemindTask(), time);
Stopping Timer Threads
By default, a program keeps running as long as its timer threads are running. You can terminate a timer thread in four ways.The
- Invoke
cancel
on the timer. You can do this from anywhere in the program, such as from a timer task'srun
method.- Make the timer's thread a "daemon" by creating the timer like this:
new Timer(true)
. If the only threads left in the program are daemon threads, the program exits.- After all the timer's scheduled tasks have finished executing, remove all references to the
Timer
object. Eventually, the timer's thread will terminate.- Invoke the
System.exit
method, which makes the entire program (and all its threads) exit.Reminder
example uses the first scheme, invoking the cancel method from the timer task'srun
method. Making the timer thread a daemon wouldn't work, because the program needs to keep running until the timer's task executes.Sometimes, timer threads aren't the only threads that can prevent a program from exiting when expected. For example, if you use the AWT at all — even if only to make beeps — the AWT automatically creates a nondaemon thread that keeps the program alive. The following modification of
Reminder
adds beeping, which requires us to also add a call to theSystem.exit
method to make the program exit. Significant changes are in highlighted. You can find the source code in.
ReminderBeep.java
public class ReminderBeep { ... public ReminderBeep(int seconds) { toolkit = Toolkit.getDefaultToolkit(); timer = new Timer(); timer.schedule(new RemindTask(), seconds*1000); } class RemindTask extends TimerTask { public void run() { System.out.println("Time's up!"); toolkit.beep(); //timer.cancel(); // Not necessary because // we call System.exit System.exit(0); // Stops the AWT thread // (and everything else) } } ... }
Performing a Task Repeatedly
Here�s an example of using a timer to perform a task once per second.You can find the entire program inpublic class AnnoyingBeep { Toolkit toolkit; Timer timer; public AnnoyingBeep() { toolkit = Toolkit.getDefaultToolkit(); timer = new Timer(); timer.schedule(new RemindTask(), 0, //initial delay 1*1000); //subsequent rate } class RemindTask extends TimerTask { int numWarningBeeps = 3; public void run() { if (numWarningBeeps > 0) { toolkit.beep(); System.out.println("Beep!"); numWarningBeeps--; } else { toolkit.beep(); System.out.println("Time's up!"); //timer.cancel(); // Not necessary because // we call System.exit System.exit(0); // Stops the AWT thread // (and everything else) } } } ... }. When you execute it, you see the following output (our comments about timing are shown in italics):
AnnoyingBeep.java
TheTask scheduled. Beep! Beep! //one second after the first beep Beep! //one second after the second beep Time's up! //one second after the third beepAnnoyingBeep
program uses a three-argument version of theschedule
method to specify that its task should execute once a second, beginning immediately. Here are all theTimer
methods you can use to schedule repeated executions of tasks:
schedule(TimerTask task, long delay, long period)
schedule(TimerTask task, Date time, long period)
scheduleAtFixedRate(TimerTask task, long delay, long period)
scheduleAtFixedRate(TimerTask task, Date firstTime, long period)
When scheduling a task for repeated execution, you should use one of the
schedule
methods when smoothness is important and ascheduleAtFixedRate
method when time synchronization is more important. For example, theAnnoyingBeep
program uses theschedule
method, which means that the annoying beeps will all be at least 1 second apart. If one beep is late for any reason, all subsequent beeps will be delayed. If we decide that theAnnoyingBeep
program should exit exactly 3 seconds after the first beep — even if it means that two beeps might occur close together if a beep is delayed for any reason — we should use thescheduleAtFixedRate
method instead.More Information about Timers
The timer tasks we've shown have been very simple. They do almost nothing and refer only to data that either can be safely accessed from multiple threads or is private to the timer task. As long as your timer task uses only API designed to be thread-safe — such as the methods in the
Timer
class — implementing timers is relatively straightforward. However, if your timer implementation depends on shared resources, such as data used by other places in your program, you need to be careful. You can find out more later in this chapter in the section Synchronizing Threads.
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