// remove overrunnable task-ending chunk, before deadline,
public void testRemoveChunkTaskEndOver() {
final List finished = new ArrayList();
StepTask t1 =
task(
100,
200,
100,
new TaskCallback() {
public void taskEvent(SchedulableTask task, Schedule.EventType event) {
if (log.isDebug2()) {
log.debug2("testRemoveChunkTaskEndOver callback");
}
if (event == Schedule.EventType.FINISH) {
finished.add(task);
}
}
});
t1.setOverrunAllowed(true);
Schedule s = sched(ListUtil.list(t1));
fact.setResult(s);
assertTrue(tr.addToSchedule(t1));
Schedule.Chunk chunk = (Schedule.Chunk) s.getEvents().get(0);
assertTrue(tr.getCurrentSchedule().getEvents().contains(chunk));
chunk.setTaskEnd();
tr.removeChunk(chunk);
assertFalse(tr.getCurrentSchedule().getEvents().contains(chunk));
assertEmpty(finished);
assertIsomorphic(ListUtil.list(t1), tr.getAcceptedTasks());
assertIsomorphic(SetUtil.set(t1), tr.getOverrunTasks());
}
// test resched with overrun task doesn't lose task.
public void testRunStepsWithOverrunAllowedPlusResched() {
StepTask t1 = task(100, 500, 30, null, new MyMockStepper(15, -10));
t1.setOverrunAllowed(true);
StepTask t2 = task(150, 250, 100, null, new MyMockStepper(10, -10));
newTr(
new MyMockTaskRunner(
new TaskRunner.SchedulerFactory() {
public Scheduler createScheduler() {
return new SortScheduler();
}
}));
assertTrue(tr.addToSchedule(t1));
assertEmpty(tr.getOverrunTasks());
TimeBase.setSimulated(101);
assertTrue(tr.findTaskToRun());
t1.timeUsed = 1000;
assertTrue(t1.hasOverrun());
assertEmpty(tr.getOverrunTasks());
assertTrue(tr.addToSchedule(t2));
assertEquals(SetUtil.set(t1), SetUtil.theSet(tr.getOverrunTasks()));
}
// one task to drop, succeeds after dropping it
public void testAddToScheduleOkAfterDrops() {
log.debug("testAddToScheduleOkAfterDrops()");
ConfigurationUtil.addFromArgs(
TaskRunner.PARAM_DROP_TASK_MAX, "10", TaskRunner.PARAM_MIN_CLEANUP_INTERVAL, "0");
StepTask t1 = task(100, 200, 50);
StepTask t2 = task(100, 200, 100);
Schedule sched1 = sched(ListUtil.list(t1));
Schedule sched2 = sched(ListUtil.list(t2));
fact.setResults(ListUtil.list(sched1, null, null, sched2, sched2));
TimeBase.step(101);
assertTrue(tr.addToSchedule(t1));
assertIsomorphic(ListUtil.list(t1), fact.scheduler.tasks);
assertEquals(SetUtil.set(t1), SetUtil.theSet(tr.getAcceptedTasks()));
assertForegroundStat(1, TaskRunner.STAT_ACCEPTED);
assertForegroundStat(0, TaskRunner.STAT_REFUSED);
assertForegroundStat(1, TaskRunner.STAT_WAITING);
assertForegroundStat(0, TaskRunner.STAT_DROPPED);
assertTrue(tr.addToSchedule(t2));
assertEquals(
ListUtil.list(
ListUtil.list(t1),
ListUtil.list(t1, t2),
ListUtil.list(t1),
Collections.EMPTY_SET,
ListUtil.list(t1, t2)),
fact.createArgs);
assertEquals(SetUtil.set(t1, t2), SetUtil.theSet(fact.scheduler.tasks));
assertTrue(t1.isDropped());
assertEquals(sched2, tr.getCurrentSchedule());
assertEquals(SetUtil.set(t1, t2), SetUtil.theSet(tr.getAcceptedTasks()));
assertEquals(SetUtil.set(t1), SetUtil.theSet(tr.getOverrunTasks()));
assertForegroundStat(2, TaskRunner.STAT_ACCEPTED);
assertForegroundStat(0, TaskRunner.STAT_REFUSED);
assertForegroundStat(1, TaskRunner.STAT_WAITING);
assertForegroundStat(1, TaskRunner.STAT_DROPPED);
t2.cancel();
assertForegroundStat(2, TaskRunner.STAT_ACCEPTED);
assertForegroundStat(0, TaskRunner.STAT_REFUSED);
assertForegroundStat(0, TaskRunner.STAT_WAITING);
assertForegroundStat(1, TaskRunner.STAT_DROPPED);
assertForegroundStat(1, TaskRunner.STAT_CANCELLED);
}
// one task not ready to start yet, so not droppable
public void testAddToScheduleFailNoDroppable() {
log.debug("testAddToScheduleOkAfterDrops()");
ConfigurationUtil.addFromArgs(
TaskRunner.PARAM_DROP_TASK_MAX, "10", TaskRunner.PARAM_MIN_CLEANUP_INTERVAL, "0");
StepTask t1 = task(100, 200, 50);
StepTask t2 = task(100, 200, 100);
Schedule sched1 = sched(ListUtil.list(t1));
Schedule sched2 = sched(ListUtil.list(t2));
fact.setResults(ListUtil.list(sched1, null, null, sched2, sched2));
assertTrue(tr.addToSchedule(t1));
assertIsomorphic(ListUtil.list(t1), fact.scheduler.tasks);
assertEquals(SetUtil.set(t1), SetUtil.theSet(tr.getAcceptedTasks()));
assertFalse(tr.addToSchedule(t2));
assertEquals(
ListUtil.list(ListUtil.list(t1), ListUtil.list(t1, t2), ListUtil.list(t1)),
fact.createArgs);
assertEquals(SetUtil.set(t1), SetUtil.theSet(fact.scheduler.tasks));
assertFalse(t1.isDropped());
assertEquals(sched1, tr.getCurrentSchedule());
assertEquals(SetUtil.set(t1), SetUtil.theSet(tr.getAcceptedTasks()));
assertEmpty(SetUtil.theSet(tr.getOverrunTasks()));
}
public void testFindTaskToRunRemovesExpiredOverrunners() {
assertFalse(tr.findTaskToRun());
StepTask t1 = task(100, 200, 100);
StepTask t2 = task(100, 300, 50);
StepTask texp1 = task(0, 0, 50);
StepTask texp2 = task(0, 0, 49);
Schedule s = sched(ListUtil.list(t1, t2));
fact.setResults(s, s);
assertTrue(tr.addToSchedule(t1));
assertTrue(tr.addToSchedule(t2));
tr.addOverrunner(texp1);
tr.addOverrunner(texp2);
// if this fails, it might be because the sorted list/set is treating
// sort-order equivalence as object equality, which we don't want
assertEquals(2, tr.getOverrunTasks().size());
assertFalse(tr.findTaskToRun());
assertEquals(0, removedChunks.size());
assertEquals(2, removedTasks.size());
assertEquals(
SetUtil.set(texp1, texp2),
SetUtil.set((StepTask) removedTasks.get(0), (StepTask) removedTasks.get(1)));
}