/** Test of dynamic rescheduling capability of class Scheduler. */ @Test public void dynamicReschedule() { System.out.println("dynamicReschedule"); final CountDownLatch barrier1 = new CountDownLatch(1); final CountDownLatch barrier2 = new CountDownLatch(2); SchedulerTask task = new SchedulerTask() { public void onSchedule(long timeStamp) { System.out.println("dynamicReschedule; executing periodic task"); barrier1.countDown(); barrier2.countDown(); } }; final ScheduledTask scheduled = Scheduler.sharedInstance().schedule(task, Quantum.seconds(7), false); stasks.add(scheduled); try { if (!barrier1.await(10, TimeUnit.SECONDS)) { fail(); } scheduled.setInterval(Quantum.seconds(2)); if (!barrier2.await(5, TimeUnit.SECONDS)) { fail(); } } catch (InterruptedException e) { fail(e.getMessage()); } }
@Test public void suspendSuspend() { System.out.println("suspend-suspend"); final CountDownLatch barrier1 = new CountDownLatch(1); final CountDownLatch barrier2 = new CountDownLatch(2); SchedulerTask task = new SchedulerTask() { public void onSchedule(long timeStamp) { barrier1.countDown(); barrier2.countDown(); } }; final ScheduledTask scheduled = Scheduler.sharedInstance().schedule(task, Quantum.seconds(2), false); stasks.add(scheduled); try { if (!barrier1.await(3, TimeUnit.SECONDS)) { fail(); } scheduled.suspend(); if (barrier2.await(3, TimeUnit.SECONDS)) { fail(); } scheduled.suspend(); if (barrier2.await(3, TimeUnit.SECONDS)) { fail(); } } catch (InterruptedException e) { fail(e.getMessage()); } }
/** * Test of schedule method, immediate execution, blocking in the scheduled task, of class * Scheduler. */ @Test public void scheduleImmediateBlocking() { System.out.println("schedule, immediate, blocking"); final CountDownLatch barrier = new CountDownLatch(1); SchedulerTask task = new SchedulerTask() { public void onSchedule(long timeStamp) { try { barrier.countDown(); Thread.sleep(10000000); } catch (InterruptedException e) { Thread.currentThread().interrupt(); } } }; Quantum interval = Quantum.seconds(2000); Scheduler instance = Scheduler.sharedInstance(); ScheduledTask scheduled = instance.schedule(task, interval, true); stasks.add(scheduled); try { boolean executed = barrier.await(1000, TimeUnit.SECONDS); assertTrue(executed); } catch (InterruptedException e) { fail(e.getMessage()); } }
/** Test of unschedule method, of class Scheduler. */ @Test public void unschedule() { System.out.println("unschedule"); final AtomicBoolean executed = new AtomicBoolean(false); SchedulerTask task = new SchedulerTask() { public void onSchedule(long timeStamp) { executed.set(true); } }; Scheduler instance = Scheduler.sharedInstance(); ScheduledTask scheduled = instance.schedule(task, Quantum.seconds(3), false); instance.unschedule(scheduled); try { Thread.sleep(5000); } catch (InterruptedException e) { fail(e.getMessage()); } assertFalse(executed.get()); }
/** Test of schedule method of class Scheduler. */ @Test public void schedule() { System.out.println("schedule"); final CountDownLatch barrier = new CountDownLatch(1); SchedulerTask task = new SchedulerTask() { public void onSchedule(long timeStamp) { barrier.countDown(); } }; Quantum interval = Quantum.seconds(5); Scheduler instance = Scheduler.sharedInstance(); ScheduledTask scheduled = instance.schedule(task, interval, false); stasks.add(scheduled); try { boolean executed = barrier.await(8, TimeUnit.SECONDS); assertTrue(executed); } catch (InterruptedException e) { fail(e.getMessage()); } }