/* * %W% %E% * * Copyright 2004 Sun Microsystems, Inc. All rights reserved. * SUN PROPRIETARY/CONFIDENTIAL. Use is subject to license terms. */ package java.util; /** * A task that can be scheduled for one-time or repeated execution by a Timer. * * @author Josh Bloch * @version %I%, %G% * @see Timer * @since 1.3 */ public abstract class TimerTask implements Runnable { /** * This object is used to control access to the TimerTask internals. */ final Object lock = new Object(); /** * The state of this task, chosen from the constants below. */ int state = VIRGIN; /** * This task has not yet been scheduled. */ static final int VIRGIN = 0; /** * This task is scheduled for execution. If it is a non-repeating task, * it has not yet been executed. */ static final int SCHEDULED = 1; /** * This non-repeating task has already executed (or is currently * executing) and has not been cancelled. */ static final int EXECUTED = 2; /** * This task has been cancelled (with a call to TimerTask.cancel). */ static final int CANCELLED = 3; /** * Next execution time for this task in the format set by Timer * schedule methods (nanoseconds since the Timer class was initialized), * assuming this task is scheduled for execution. For repeating * tasks, this field is updated prior to each task execution. */ long nextExecutionTime; /** * Period in nanoseconds for repeating tasks. A positive value indicates * fixed-rate execution. A negative value indicates fixed-delay execution. * A value of 0 indicates a non-repeating task. */ long period = 0; /** * Creates a new timer task. */ protected TimerTask() { } /** * The action to be performed by this timer task. */ public abstract void run(); /** * Cancels this timer task. If the task has been scheduled for one-time * execution and has not yet run, or has not yet been scheduled, it will * never run. If the task has been scheduled for repeated execution, it * will never run again. (If the task is running when this call occurs, * the task will run to completion, but will never run again.) * *

Note that calling this method from within the run method of * a repeating timer task absolutely guarantees that the timer task will * not run again. * *

This method may be called repeatedly; the second and subsequent * calls have no effect. * * @return true if this task is scheduled for one-time execution and has * not yet run, or this task is scheduled for repeated execution. * Returns false if the task was scheduled for one-time execution * and has already run, or if the task was never scheduled, or if * the task was already cancelled. (Loosely speaking, this method * returns true if it prevents one or more scheduled * executions from taking place.) */ public boolean cancel() { synchronized(lock) { boolean result = (state == SCHEDULED); state = CANCELLED; return result; } } /** * Returns the scheduled execution time of the most recent * actual execution of this task. (If this method is invoked * while task execution is in progress, the return value is the scheduled * execution time of the ongoing task execution.) * *

This method is typically invoked from within a task's run method, to * determine whether the current execution of the task is sufficiently * timely to warrant performing the scheduled activity: * 

     *   public void run() {
     *       if (System.currentTimeMillis() - scheduledExecutionTime() >=
     *           MAX_TARDINESS)
     *               return;  // Too late; skip this execution.
     *       // Perform the task
     *   }
     *
* * This method is typically not used in conjunction with * fixed-delay execution repeating tasks, as their scheduled * execution times are allowed to drift over time, and so are not terribly * significant. * * @return the time at which the most recent execution of this task was * scheduled to occur, in the format returned by Date.getTime(). * The return value is undefined if the task has yet to commence * its first execution. * @see Date#getTime() */ public long scheduledExecutionTime() { synchronized(lock) { return Timer.executionTimeToMillis (period < 0 ? nextExecutionTime + period : nextExecutionTime - period); } } }