// 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());
}
// remove task-ending chunk, past task deadline, s.b. Timeout error.
public void testRemoveChunkTaskEndTimeout() {
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("testRemoveChunkTaskEndTimeout callback");
}
if (event == Schedule.EventType.FINISH) {
finished.add(task);
}
}
});
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();
TimeBase.setSimulated(201);
tr.removeChunk(chunk);
assertFalse(tr.getCurrentSchedule().getEvents().contains(chunk));
assertSame(t1, finished.get(0));
assertNotNull(t1.e);
assertTrue(t1.e.toString(), t1.e instanceof SchedService.Timeout);
assertEmpty(tr.getAcceptedTasks());
}