@Test public void resetCollectedStatsTest() { SingleThreadSchedulerStatisticTracker scheduler = new SingleThreadSchedulerStatisticTracker(); try { // prestart so reuse percent is not zero scheduler.prestartExecutionThread(true); ThreadedStatisticPrioritySchedulerTests.resetCollectedStatsTest(scheduler); } finally { scheduler.shutdownNow(); } }
@Test public void getLongRunningTasksWrappedFutureTest() throws InterruptedException, TimeoutException { SingleThreadSchedulerStatisticTracker scheduler = new SingleThreadSchedulerStatisticTracker(); try { ThreadedStatisticPrioritySchedulerTests.getLongRunningTasksWrappedFutureTest(scheduler); } finally { scheduler.shutdownNow(); } }
@Override public AbstractPriorityScheduler makeAbstractPriorityScheduler(int poolSize, TaskPriority defaultPriority, long maxWaitForLowPriority) { return new SingleThreadSchedulerStatisticTracker(defaultPriority, maxWaitForLowPriority); }
@Override public SchedulerService makeSchedulerService(int poolSize, boolean prestartIfAvailable) { SingleThreadSchedulerStatisticTracker result = makeAbstractPriorityScheduler(poolSize); if (prestartIfAvailable) { result.prestartExecutionThread(true); } return result; }
@Test public void getAverageExecutionDelayNoInputTest() { SingleThreadSchedulerStatisticTracker scheduler = new SingleThreadSchedulerStatisticTracker(); try { ThreadedStatisticPrioritySchedulerTests.getAverageExecutionDurationNoInputTest(scheduler); } finally { scheduler.shutdownNow(); } }
@Override public SingleThreadSchedulerStatisticTracker makeAbstractPriorityScheduler(int poolSize) { return new SingleThreadSchedulerStatisticTracker(); }
@Test public void getExecutionDelayPercentilesTest() { SingleThreadSchedulerStatisticTracker scheduler = new SingleThreadSchedulerStatisticTracker(); try { ThreadedStatisticPrioritySchedulerTests.getExecutionDelayPercentilesTest(scheduler); } finally { scheduler.shutdownNow(); } }
@Test @SuppressWarnings("unused") public void constructorTest() { new SingleThreadSchedulerStatisticTracker(); new SingleThreadSchedulerStatisticTracker(false); new SingleThreadSchedulerStatisticTracker(TaskPriority.High, 100); new SingleThreadSchedulerStatisticTracker(TaskPriority.High, 100, false); new SingleThreadSchedulerStatisticTracker(TaskPriority.High, 100, new ConfigurableThreadFactory()); new SingleThreadSchedulerStatisticTracker(100); new SingleThreadSchedulerStatisticTracker(false, 100); new SingleThreadSchedulerStatisticTracker(TaskPriority.High, 100, 100); new SingleThreadSchedulerStatisticTracker(TaskPriority.High, 100, false, 100); new SingleThreadSchedulerStatisticTracker(TaskPriority.High, 100, new ConfigurableThreadFactory(), 100); new SingleThreadSchedulerStatisticTracker(100, true); new SingleThreadSchedulerStatisticTracker(false, 100, true); new SingleThreadSchedulerStatisticTracker(TaskPriority.High, 100, 100, true); new SingleThreadSchedulerStatisticTracker(TaskPriority.High, 100, false, 100, true); new SingleThreadSchedulerStatisticTracker(TaskPriority.High, 100, new ConfigurableThreadFactory(), 100, true); }
@Test public void getPriorityExecutionDelayPercentilesTest() { SingleThreadSchedulerStatisticTracker scheduler = new SingleThreadSchedulerStatisticTracker(); try { ThreadedStatisticPrioritySchedulerTests.getPriorityExecutionDelayPercentilesTest(scheduler, null); } finally { scheduler.shutdownNow(); } }
@Override @SuppressWarnings("unused") @Test (expected = IllegalArgumentException.class) public void constructorFail() { new SingleThreadSchedulerStatisticTracker(TaskPriority.High, -1, null); fail("Exception should have thrown"); }
@Test public void getAverageExecutionDurationTest() { SingleThreadSchedulerStatisticTracker scheduler = new SingleThreadSchedulerStatisticTracker(); try { ThreadedStatisticPrioritySchedulerTests.getAverageExecutionDurationTest(scheduler); } finally { scheduler.shutdownNow(); } }
@Test public void getHighPriorityAvgExecutionDelayNoInputTest() { SingleThreadSchedulerStatisticTracker scheduler = new SingleThreadSchedulerStatisticTracker(); try { ThreadedStatisticPrioritySchedulerTests.getPriorityAverageExecutionDelayNoInputTest(scheduler, TaskPriority.High); } finally { scheduler.shutdownNow(); } }
@Test public void getHighPriorityAvgExecutionDelayTest() { SingleThreadSchedulerStatisticTracker scheduler = new SingleThreadSchedulerStatisticTracker(); try { ThreadedStatisticPrioritySchedulerTests.getPriorityAverageExecutionDelayTest(scheduler, TaskPriority.High); } finally { scheduler.shutdownNow(); } }
@Test public void getWithPriorityExecutionDurationPercentilesTest() { SingleThreadSchedulerStatisticTracker scheduler = new SingleThreadSchedulerStatisticTracker(); try { ThreadedStatisticPrioritySchedulerTests.getWithPriorityExecutionDurationPercentilesTest(scheduler); } finally { scheduler.shutdownNow(); } }
@Test public void getLongRunningTasksQtyTest() { SingleThreadSchedulerStatisticTracker scheduler = new SingleThreadSchedulerStatisticTracker(); try { ThreadedStatisticPrioritySchedulerTests.getLongRunningTasksQtyTest(scheduler); } finally { scheduler.shutdownNow(); } }
@Test public void getLowPriorityAvgExecutionDelayNoInputTest() { SingleThreadSchedulerStatisticTracker scheduler = new SingleThreadSchedulerStatisticTracker(); try { ThreadedStatisticPrioritySchedulerTests.getPriorityAverageExecutionDelayNoInputTest(scheduler, TaskPriority.Low); } finally { scheduler.shutdownNow(); } }
@Test public void getLowPriorityAvgExecutionDelayTest() { SingleThreadSchedulerStatisticTracker scheduler = new SingleThreadSchedulerStatisticTracker(); try { ThreadedStatisticPrioritySchedulerTests.getPriorityAverageExecutionDelayTest(scheduler, TaskPriority.Low); } finally { scheduler.shutdownNow(); } }
@Test public void getAverageExecutionDurationNoInputTest() { SingleThreadSchedulerStatisticTracker scheduler = new SingleThreadSchedulerStatisticTracker(); try { ThreadedStatisticPrioritySchedulerTests.getAverageExecutionDurationNoInputTest(scheduler); } finally { scheduler.shutdownNow(); } }
@Test public void getAverageExecutionDurationSimpleTest() { SingleThreadSchedulerStatisticTracker scheduler = new SingleThreadSchedulerStatisticTracker(); try { ThreadedStatisticPrioritySchedulerTests.getAverageExecutionDurationSimpleTest(scheduler); } finally { scheduler.shutdownNow(); } }
@Test public void getWithPriorityAverageExecutionDurationNoInputTest() { SingleThreadSchedulerStatisticTracker scheduler = new SingleThreadSchedulerStatisticTracker(); try { ThreadedStatisticPrioritySchedulerTests.getWithPriorityAverageExecutionDurationNoInputTest(scheduler); } finally { scheduler.shutdownNow(); } }