public void signalSchedulingChange(long candidateNewNextFireTime) { schedThread.signalSchedulingChange(candidateNewNextFireTime); }
public void signalSchedulingChange(long candidateNewNextFireTime) { schedThread.signalSchedulingChange(candidateNewNextFireTime); }
/** * <p> * Signals the main processing loop to pause at the next possible point. * </p> */ void togglePause(boolean pause) { synchronized (sigLock) { paused = pause; if (paused) { signalSchedulingChange(0); } else { sigLock.notifyAll(); } } }
/** * <p> * Signals the main processing loop to pause at the next possible point. * </p> */ void togglePause(boolean pause) { synchronized (sigLock) { paused = pause; if (paused) { signalSchedulingChange(0); } else { sigLock.notifyAll(); } } }
sigLock.notifyAll(); } else { signalSchedulingChange(0);
sigLock.notifyAll(); } else { signalSchedulingChange(0);
@Override public void signalSchedulingChange(long candidateNewNextFireTime) { quartzSchedulerThread.signalSchedulingChange(candidateNewNextFireTime); }
@Override public void signalSchedulingChange(long candidateNewNextFireTime) { quartzSchedulerThread.signalSchedulingChange(candidateNewNextFireTime); }
public void signalSchedulingChange(long candidateNewNextFireTime) { schedThread.signalSchedulingChange(candidateNewNextFireTime); }
@Override public void signalSchedulingChange(long candidateNewNextFireTime) { quartzSchedulerThread.signalSchedulingChange(candidateNewNextFireTime); }
public void signalSchedulingChange(long candidateNewNextFireTime) { schedThread.signalSchedulingChange(candidateNewNextFireTime); }
/** Signals the main processing loop to pause at the next possible point. */ public void togglePause(boolean pause) { synchronized (sigLock) { paused = pause; if (paused) { signalSchedulingChange(0); } else { sigLock.notifyAll(); } } }
/** * <p> * Signals the main processing loop to pause at the next possible point. * </p> */ public void togglePause(boolean pause) { synchronized (sigLock) { paused = pause; if (paused) { signalSchedulingChange(0); } else { sigLock.notifyAll(); } } }
/** * <p> * Signals the main processing loop to pause at the next possible point. * </p> */ void togglePause(boolean pause) { synchronized (sigLock) { paused = pause; if (paused) { signalSchedulingChange(0); } else { sigLock.notifyAll(); } } }
/** * <p> * Signals the main processing loop to pause at the next possible point. * </p> */ void togglePause(boolean pause) { synchronized (sigLock) { paused = pause; if (paused) { signalSchedulingChange(0); } else { sigLock.notifyAll(); } } }
/** * <p> * Signals the main processing loop to pause at the next possible point. * </p> */ void halt() { synchronized (sigLock) { halted = true; if (paused) { sigLock.notifyAll(); } else { signalSchedulingChange(0); } } }
/** * <p> * Signals the main processing loop to pause at the next possible point. * </p> */ public void togglePause(boolean pause) { synchronized (sigLock) { paused = pause; if (paused) { signalSchedulingChange(0); } else { sigLock.notifyAll(); } } }
/** Signals the main processing loop to pause at the next possible point. */ public void halt() { synchronized (sigLock) { halted.set(true); if (paused) { sigLock.notifyAll(); } else { signalSchedulingChange(0); } } }
/** * <p> * Signals the main processing loop to pause at the next possible point. * </p> */ public void halt() { synchronized (sigLock) { halted.set(true); if (paused) { sigLock.notifyAll(); } else { signalSchedulingChange(0); } } }
/** * <p> * Signals the main processing loop to pause at the next possible point. * </p> */ public void halt() { synchronized (sigLock) { halted.set(true); if (paused) { sigLock.notifyAll(); } else { signalSchedulingChange(0); } } }