예제 #1
0
/**
 * The ... class ...
 *
 * <p>Created by scmijt Date: Nov 28, 2007 Time: 1:15:49 PM
 */
public class AgentJEventQueue {

  private static ConcurrentLinkedQueue<AgentJEventObject> events =
      new ConcurrentLinkedQueue<AgentJEventObject>();

  static Logger logger = Log.getLogger(Controller.class);

  private static final AgentJEventQueue instance = new AgentJEventQueue();

  private AgentJEventQueue() {} // One is enough - singleton

  public static AgentJEventQueue getInstance() {
    return instance;
  }

  /** Pushes a send instruction onto the FIFO queue (either TCP or UDP). */
  public static void pushEvent(AgentJEventObjectInterface source, Object payload) {
    events.add(new AgentJEventObject(source, payload));
  }

  /**
   * Pops all of the elements off the queue and executes each event in turn. This results in the
   * sending of the data
   *
   * @return number of events popped
   */
  public static int popEvents() {

    int eventsPopped = 0;

    AgentJEventObject jobject;

    while ((jobject = events.poll()) != null) {
      try {
        jobject.getSource().doSend(jobject.getPayload());
      } catch (IOException e) {
        e
            .printStackTrace(); // To change body of catch statement use File | Settings | File
                                // Templates.
      }
      ++eventsPopped;
    }

    return eventsPopped;
  }
}
예제 #2
0
파일: TimerTask.java 프로젝트: Nhuongld/nsj
/**
 * A task that can be scheduled for one-time or repeated execution by a Timer.
 *
 * @author Josh Bloch
 * @version 1.10, 02/19/04
 * @see Timer
 * @since 1.3
 */
public abstract class TimerTask implements Runnable, ProtolibTimerListener {
  private static Logger logger = Log.getLogger(TimerTask.class);
  private Timer timer = null;

  /** 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 returned by System.currentTimeMillis, assuming
   * this task is scheduled for execution. For repeating tasks, this field is updated prior to each
   * task execution.
   */
  long nextExecutionTime;

  /**
   * Period in milliseconds 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.)
   *
   * <p>Note that calling this method from within the <tt>run</tt> method of a repeating timer task
   * absolutely guarantees that the timer task will not run again.
   *
   * <p>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 <tt>true</tt> if it prevents one
   *     or more scheduled executions from taking place.)
   */
  public boolean cancel() {
    boolean result = (state == SCHEDULED);
    state = CANCELLED;
    return result;
  }

  /**
   * Returns the <i>scheduled</i> execution time of the most recent <i>actual</i> 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.)
   *
   * <p>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:
   *
   * <pre>
   *   public void run() {
   *       if (System.currentTimeMillis() - scheduledExecutionTime() >=
   *           MAX_TARDINESS)
   *               return;  // Too late; skip this execution.
   *       // Perform the task
   *   }
   * </pre>
   *
   * This method is typically <i>not</i> used in conjunction with <i>fixed-delay execution</i>
   * 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() {
    return (period < 0 ? nextExecutionTime + period : nextExecutionTime - period);
  }

  /** This is called by the ProtolibTimer */
  public void timeOut() {
    logger.trace("javm/util/TimerTask: timeOut entered");
    if (state == CANCELLED) {
      logger.trace("javm/util/TimerTask: I have been cancelled -- timeOut left");
      timer.removeTimerTask(this);
      return;
    }

    Controller controller = AgentJVirtualMachine.getCurrentNS2NodeController();
    run();
    logger.trace("TimerTask.java: run() left");

    if (period != 0) {
      logger.trace("javm/util/TimerTask: new Timer created");
      nextExecutionTime += Math.abs(period);
      ProtolibTimer protoTimer =
          new ProtolibTimer(controller, (double) Math.abs(period) / 1000.0, 0);
      protoTimer.startTimerAndNotifyOnTimeout(this);
      logger.trace("javm/util/TimerTask: new Timer created sucessfully");
    } else { // non-repeating task
      state = EXECUTED;
      timer.removeTimerTask(this);
    }
    logger.trace("javm/util/TimerTask: timeOut left");
  }

  public void setTimer(Timer timer) {
    this.timer = timer;
  }
}