def setUp(self):
self.scheduler = TScheduler()
self.source = TObservable()
self.subject = CacheServeFirstObservableSubject(
scheduler=self.scheduler)
self.source.observe(init_observer_info(self.subject))
self.exc = Exception()
def setUp(self) -> None:
self.scheduler = TScheduler()
self.sources = [TObservable(), TObservable()]
self.obs = ConcatObservable(
sources=self.sources,
scheduler=self.scheduler,
subscribe_scheduler=self.scheduler,
)
self.exception = Exception('dummy')
def setUp(self) -> None:
self.left = TObservable()
self.right = TObservable()
self.scheduler = TScheduler()
self.obs = MergeSelectorObservable(
left=self.left,
right=self.right,
# scheduler=self.scheduler,
)
self.exception = Exception()
def setUp(self) -> None:
self.scheduler = TScheduler()
self.source = TObservable()
self.source1 = TObservable()
self.source2 = TObservable()
self.source3 = TObservable()
self.composite_disposable = CompositeDisposable()
def test_should_block_onnext_until_connected(self):
s: TScheduler = self.scheduler
strategy = DropOld(4)
evicting_obs = EvictingBufferedObserver(self.sink,
scheduler=s,
strategy=strategy,
subscribe_scheduler=s)
s1 = TObservable(observer=evicting_obs)
s1.on_next_single(1)
s1.on_next_single(2)
ack = s1.on_next_single(3)
self.assertIsInstance(ack, ContinueAck)
ack = s1.on_next_single(4)
self.assertIsInstance(ack, ContinueAck)
ack = s1.on_next_single(5)
self.assertIsInstance(ack, ContinueAck)
self.assertEqual(len(self.sink.received), 0)
self.scheduler.advance_by(1)
self.assertEqual([2], self.sink.received)
self.sink.ack.on_next(continue_ack)
self.scheduler.advance_by(1)
self.assertEqual(self.sink.received, [2, 3])
def __init__(
self,
base: FlowableBase = None,
selectors: Dict[FlowableBase, Observable] = None,
subscriber: Subscriber = None,
observable: Observable = None,
):
super().__init__()
self.base = base
self.selectors = selectors
self.subscriber = subscriber
self.observable = observable or TObservable()
def setUp(self):
self.source = TObservable()
self.inner_source_1 = TObservable()
self.inner_source_2 = TObservable()
self.sink = TObserver()
self.scheduler = TScheduler()
self.composite_disposable = CompositeDisposable()
self.exc = Exception()
self.lock = threading.RLock()
def test_unsubscribe_after_on_complete(self):
subject = PublishObservableSubject(self.scheduler)
s1 = TObservable(observer=subject)
o1 = TObserver()
d = subject.observe(init_observer_info(o1))
s1.on_next_iter([1])
s1.on_completed()
self.scheduler.advance_by(1)
d.dispose()
self.assertListEqual(o1.received, [1])
def test_should_emit_from_the_point_of_subscription_forward(self):
subject = PublishObservableSubject(scheduler=self.scheduler)
s1 = TObservable(observer=subject)
self.assertIsInstance(s1.on_next_iter([1]), ContinueAck)
self.assertIsInstance(s1.on_next_iter([2]), ContinueAck)
self.assertIsInstance(s1.on_next_iter([3]), ContinueAck)
o1 = TObserver()
o1.immediate_continue = 5
subject.observe(init_observer_info(o1))
self.assertIsInstance(s1.on_next_iter([4]), ContinueAck)
self.assertIsInstance(s1.on_next_iter([5]), ContinueAck)
self.assertIsInstance(s1.on_next_iter([6]), ContinueAck)
s1.on_completed()
self.assertEqual(sum(o1.received), 15)
self.assertTrue(o1.is_completed)
def test_should_work_synchronously_for_synchronous_subscribers(self):
subject = PublishObservableSubject(self.scheduler)
s1 = TObservable(observer=subject)
def gen_observers():
for i in range(10):
o1 = TObserver()
o1.immediate_continue = 5
subject.observe(init_observer_info(o1))
yield o1
obs_list = list(gen_observers())
self.assertIsInstance(s1.on_next_iter([1]), ContinueAck)
self.assertIsInstance(s1.on_next_iter([2]), ContinueAck)
self.assertIsInstance(s1.on_next_iter([3]), ContinueAck)
s1.on_completed()
self.assertEqual(sum(sum(o.received) for o in obs_list), 60)
self.assertTrue(all(o.is_completed for o in obs_list))
def test_on_error_should_terminate_current_and_future_subscribers(self):
subject = PublishObservableSubject(self.scheduler)
s1 = TObservable(observer=subject)
def gen_observers():
for _ in range(10):
observer = TObserver()
subject.observe(init_observer_info(observer=observer, ))
yield observer
observer_list = list(gen_observers())
s1.on_next_iter([1])
s1.on_error(self.exception)
o1 = TObserver()
subject.observe(init_observer_info(o1))
for observer in observer_list:
self.assertListEqual(observer.received, [1])
self.assertEqual(observer.exception, self.exception)
self.assertEqual(o1.exception, self.exception)
class TestMergeSelectorObservable(unittest.TestCase):
def setUp(self) -> None:
self.left = TObservable()
self.right = TObservable()
self.scheduler = TScheduler()
self.obs = MergeSelectorObservable(
left=self.left,
right=self.right,
# scheduler=self.scheduler,
)
self.exception = Exception()
def measure_state(self, obs: MergeSelectorObservable):
return obs.state.get_measured_state(obs.termination_state)
def measure_termination_state(self, obs: MergeSelectorObservable):
return obs.termination_state.get_measured_state()
def test_initialize(self):
obs = MergeSelectorObservable(
left=self.left,
right=self.right,
# scheduler=self.scheduler,
)
self.assertIsInstance(self.measure_termination_state(obs),
TerminationStates.InitState)
self.assertIsInstance(self.measure_state(obs),
ControlledZipStates.WaitOnLeftRight)
def test_state_waitonleftright_to_waitonleftright_with_leftonnext(self):
"""
left.on_next
WaitOnLeftRight -----------------> WaitOnLeftRight
InitState InitState
"""
sink = TObserver()
obs = MergeSelectorObservable(
left=self.left,
right=self.right,
# scheduler=self.scheduler,
)
obs.observe(init_observer_info(sink))
ack = self.left.on_next_list([select_completed])
self.assertIsInstance(ack, ContinueAck)
self.assertIsInstance(self.measure_termination_state(obs),
TerminationStates.InitState)
self.assertIsInstance(self.measure_state(obs),
ControlledZipStates.WaitOnLeftRight)
self.assertEqual([select_completed], sink.received)
def test_multiple_left_select_complete_should_not_wait_on_right(self):
"""
left.on_next
WaitOnLeftRight -----------------> WaitOnLeftRight
InitState InitState
"""
sink = TObserver()
obs = MergeSelectorObservable(
left=self.left,
right=self.right,
# scheduler=self.scheduler,
)
obs.observe(init_observer_info(sink))
ack = self.left.on_next_list(
[select_completed, select_completed, select_completed])
self.assertIsInstance(self.measure_termination_state(obs),
TerminationStates.InitState)
self.assertIsInstance(self.measure_state(obs),
ControlledZipStates.WaitOnLeftRight)
self.assertEqual(
[select_completed, select_completed, select_completed],
sink.received)
self.assertIsInstance(ack, ContinueAck)
def test_wait_on_left_right_to_wait_on_right(self):
"""
left.on_next
WaitOnLeftRight -----------------> WaitOnRight
InitState InitState
"""
sink = TObserver()
obs = MergeSelectorObservable(
left=self.left,
right=self.right,
# scheduler=self.scheduler,
)
obs.observe(init_observer_info(sink))
ack = self.left.on_next_list([select_next, select_completed])
self.assertIsInstance(self.measure_termination_state(obs),
TerminationStates.InitState)
self.assertIsInstance(self.measure_state(obs),
ControlledZipStates.WaitOnRight)
self.assertEqual([], sink.received)
self.assertFalse(ack.is_sync)
def test_wait_on_right_to_wait_on_left_right(self):
"""
right.on_next
WaitOnRight -----------------> WaitOnLeftRight
InitState InitState
"""
sink = TObserver()
obs = MergeSelectorObservable(
left=self.left,
right=self.right,
# scheduler=self.scheduler,
)
obs.observe(init_observer_info(sink))
ack_left = self.left.on_next_list([select_next, select_completed])
ack_right = self.right.on_next_list([select_completed])
self.assertIsInstance(self.measure_termination_state(obs),
TerminationStates.InitState)
self.assertIsInstance(self.measure_state(obs),
ControlledZipStates.WaitOnLeftRight)
self.assertEqual([select_completed], sink.received)
self.assertIsInstance(ack_left.value, ContinueAck)
self.assertIsInstance(ack_right, ContinueAck)
def test_select_same_element_multiple_times(self):
"""
right.on_next
WaitOnRight -----------------> WaitOnLeftRight
InitState InitState
"""
sink = TObserver()
obs = MergeSelectorObservable(
left=self.left,
right=self.right,
# scheduler=self.scheduler,
)
obs.observe(init_observer_info(sink))
ack_left = self.left.on_next_list([select_next, select_completed])
ack_right = self.right.on_next_list(
[select_next, select_next, select_completed])
self.assertIsInstance(self.measure_termination_state(obs),
TerminationStates.InitState)
self.assertIsInstance(self.measure_state(obs),
ControlledZipStates.WaitOnLeftRight)
self.assertEqual([select_next, select_next, select_completed],
sink.received)
self.assertIsInstance(ack_left.value, ContinueAck)
self.assertIsInstance(ack_right, ContinueAck)
def test_state_waitonleft_to_waitonleftright(self):
"""
left.on_next
WaitOnLeft -----------------> WaitOnLeftRight
InitState InitState
"""
sink = TObserver()
obs = MergeSelectorObservable(
left=self.left,
right=self.right,
# scheduler=self.scheduler,
)
obs.observe(init_observer_info(sink))
ack_right = self.right.on_next_list([select_next, select_completed])
ack_left = self.left.on_next_list(
[select_next, select_completed, select_completed])
self.assertIsInstance(self.measure_termination_state(obs),
TerminationStates.InitState)
self.assertIsInstance(self.measure_state(obs),
ControlledZipStates.WaitOnLeftRight)
self.assertEqual([select_next, select_completed, select_completed],
sink.received)
self.assertIsInstance(ack_left, ContinueAck)
self.assertIsInstance(ack_right.value, ContinueAck)
def test_state_waitonleft_to_waitonleft(self):
"""
left.on_next
WaitOnLeft ---------------------> WaitOnLeft
InitState InitState
"""
sink = TObserver()
obs = MergeSelectorObservable(
left=self.left,
right=self.right,
# scheduler=self.scheduler,
)
obs.observe(init_observer_info(sink))
ack_right = self.right.on_next_list([select_next, select_completed])
ack_left = self.left.on_next_list([select_completed, select_completed])
self.assertIsInstance(self.measure_termination_state(obs),
TerminationStates.InitState)
self.assertIsInstance(self.measure_state(obs),
ControlledZipStates.WaitOnLeft)
self.assertEqual([select_completed, select_completed], sink.received)
self.assertIsInstance(ack_left, ContinueAck)
self.assertFalse(ack_right.has_value)
def test_drain_left_select_completed(self):
"""
right.on_next
WaitOnRight -----------------> WaitOnLeftRight
InitState InitState
"""
sink = TObserver()
obs = MergeSelectorObservable(
left=self.left,
right=self.right,
# scheduler=self.scheduler,
)
obs.observe(init_observer_info(sink))
ack_left = self.left.on_next_list(
[select_next, select_completed, select_completed])
ack_right = self.right.on_next_list([select_completed])
self.assertIsInstance(self.measure_termination_state(obs),
TerminationStates.InitState)
self.assertIsInstance(self.measure_state(obs),
ControlledZipStates.WaitOnLeftRight)
self.assertEqual([select_completed, select_completed], sink.received)
self.assertIsInstance(ack_left.value, ContinueAck)
self.assertIsInstance(ack_right, ContinueAck)
def test_right_on_completed(self):
"""
right.on_completed left.on_next
WaitOnLeft --------------------> WaitOnLeft ------------------> Stopped
"""
sink = TObserver(immediate_continue=0)
self.obs.observe(init_observer_info(sink))
self.right.on_next_list([select_completed])
self.right.on_completed()
self.assertIsInstance(self.measure_state(self.obs),
ControlledZipStates.WaitOnLeft)
self.left.on_next_list([select_next])
self.assertIsInstance(self.measure_state(self.obs),
ControlledZipStates.Stopped)
self.assertEqual([],
sink.received) # the last SelectCompleted is optional
def test_exception(self):
"""
right.on_error
WaitOnRight -------------> Stopped
"""
sink = TObserver(immediate_continue=0)
self.obs.observe(init_observer_info(sink))
ack1 = self.left.on_next_list([select_completed])
self.right.on_error(self.exception)
self.assertIsInstance(self.measure_state(self.obs),
ControlledZipStates.Stopped)
self.assertEqual(self.exception, sink.exception)
class TestScanObserver(unittest.TestCase):
def setUp(self) -> None:
self.source = TObservable()
def test_initialize(self):
sink = TObserver()
ScanObserver(
observer=sink,
func=lambda acc, v: acc + v,
initial=0,
)
def test_on_error(self):
sink = TObserver()
obs = ScanObserver(
observer=sink,
func=lambda acc, v: acc + v,
initial=0,
)
self.source.observe(init_observer_info(observer=obs))
exc = Exception()
self.source.on_error(exc)
self.assertEqual(exc, sink.exception)
def test_exception_during_on_next(self):
sink = TObserver()
obs = ScanObserver(
observer=sink,
func=lambda acc, v: acc + v,
initial=0,
)
self.source.observe(init_observer_info(observer=obs))
exc = Exception()
def gen_iter():
yield 1
raise exc
self.source.on_next_iter(gen_iter())
self.assertEqual(exc, sink.exception)
def test_on_completed(self):
sink = TObserver()
obs = ScanObserver(
observer=sink,
func=lambda acc, v: acc + v,
initial=0,
)
self.source.observe(init_observer_info(observer=obs))
self.source.on_completed()
self.assertTrue(sink.is_completed)
def test_single_value(self):
sink = TObserver()
obs = ScanObserver(
observer=sink,
func=lambda acc, v: acc + v,
initial=0,
)
self.source.observe(init_observer_info(observer=obs))
self.source.on_next_single(1)
self.assertEqual([1], sink.received)
def test_single_batch(self):
sink = TObserver()
obs = ScanObserver(
observer=sink,
func=lambda acc, v: acc + v,
initial=0,
)
self.source.observe(init_observer_info(observer=obs))
self.source.on_next_list([1, 2, 3])
self.assertEqual([1, 3, 6], sink.received)
def test_two_values(self):
sink = TObserver()
obs = ScanObserver(
observer=sink,
func=lambda acc, v: acc + v,
initial=0,
)
self.source.observe(init_observer_info(observer=obs))
self.source.on_next_single(1)
self.source.on_next_single(2)
self.assertEqual([1, 3], sink.received)
def test_two_batches(self):
sink = TObserver()
obs = ScanObserver(
observer=sink,
func=lambda acc, v: acc + v,
initial=0,
)
self.source.observe(init_observer_info(observer=obs))
self.source.on_next_list([1, 2])
self.source.on_next_list([3, 4])
self.assertEqual([1, 3, 6, 10], sink.received)
class TestMergeObservable(unittest.TestCase):
def setUp(self):
self.scheduler = TScheduler()
self.s1 = TObservable()
self.s2 = TObservable()
self.exception = Exception('test')
def measure_state(self, obs: MergeObservable):
return obs.state.get_measured_state(obs.termination_state)
def measure_termination_state(self, obs: MergeObservable):
return obs.termination_state.get_measured_state()
def test_init_state(self):
sink = TObserver()
obs = MergeObservable(self.s1, self.s2)
obs.observe(init_observer_info(sink))
self.assertIsInstance(self.measure_termination_state(obs),
TerminationStates.InitState)
self.assertIsInstance(self.measure_state(obs),
MergeStates.NoneReceived)
def test_emit_left_with_synchronous_ack(self):
"""
s1.on_next
NoneReceived ------------> NoneReceived
InitState InitState
"""
sink = TObserver()
obs = MergeObservable(self.s1, self.s2)
obs.observe(init_observer_info(sink))
self.s1.on_next_single(1)
self.assertIsInstance(self.measure_termination_state(obs),
TerminationStates.InitState)
self.assertIsInstance(self.measure_state(obs),
MergeStates.NoneReceived)
self.assertEqual(sink.received, [1])
def test_emit_right_with_synchronous_ack(self):
"""
s2.on_next
NoneReceived ------------> NoneReceived
InitState InitState
"""
sink = TObserver()
obs = MergeObservable(self.s1, self.s2)
obs.observe(init_observer_info(sink))
self.s2.on_next_single(2)
self.assertIsInstance(self.measure_termination_state(obs),
TerminationStates.InitState)
self.assertIsInstance(self.measure_state(obs),
MergeStates.NoneReceived)
self.assertEqual(sink.received, [2])
def test_left_complete_and_emit_right_with_synchronous_ack(self):
"""
s2.on_next
NoneReceived ------------> NoneReceived
LeftCompletedState LeftCompletedState
"""
sink = TObserver()
obs = MergeObservable(self.s1, self.s2)
obs.observe(init_observer_info(sink))
self.s1.on_completed()
self.s2.on_next_single(2)
self.assertIsInstance(self.measure_termination_state(obs),
TerminationStates.LeftCompletedState)
self.assertIsInstance(self.measure_state(obs),
MergeStates.NoneReceived)
self.assertEqual(sink.received, [2])
def test_emit_left_with_asynchronous_ack(self):
"""
s1.on_next
NoneReceived ------------> NoneReceivedWaitAck
"""
sink = TObserver(immediate_continue=0)
obs = MergeObservable(self.s1, self.s2)
obs.observe(init_observer_info(sink))
left_ack = self.s1.on_next_single(1)
self.assertIsInstance(self.measure_state(obs),
MergeStates.NoneReceivedWaitAck)
self.assertEqual(sink.received, [1])
self.assertIsInstance(left_ack, ContinueAck)
def test_emit_right_with_asynchronous_ack(self):
"""
s2.on_next
NoneReceived ------------> NoneReceivedWaitAck
"""
sink = TObserver(immediate_continue=0)
obs = MergeObservable(self.s1, self.s2)
obs.observe(init_observer_info(sink))
right_ack = self.s2.on_next_single(2)
self.assertIsInstance(self.measure_state(obs),
MergeStates.NoneReceivedWaitAck)
self.assertEqual(sink.received, [2])
self.assertIsInstance(right_ack, ContinueAck)
def test_none_received_to_left_received_with_asynchronous_ack(self):
"""
s1.on_next
NoneReceivedWaitAck ------------> LeftReceived
"""
sink = TObserver(immediate_continue=0)
obs = MergeObservable(self.s1, self.s2)
obs.observe(init_observer_info(sink))
self.s1.on_next_single(1)
left_ack = self.s1.on_next_single(1)
self.assertIsInstance(self.measure_state(obs),
MergeStates.LeftReceived)
self.assertEqual(sink.received, [1])
self.assertFalse(left_ack.has_value)
def test_none_received_to_right_received_with_asynchronous_ack(self):
"""
s2.on_next
NoneReceivedWaitAck ------------> RightReceived
"""
sink = TObserver(immediate_continue=0)
obs = MergeObservable(self.s1, self.s2)
obs.observe(init_observer_info(sink))
self.s1.on_next_single(2)
left_ack = self.s1.on_next_single(2)
self.assertIsInstance(self.measure_state(obs),
MergeStates.LeftReceived)
self.assertEqual(sink.received, [2])
self.assertFalse(left_ack.has_value)
def test_left_received_to_both_received_with_asynchronous_ack(self):
"""
s2.on_next
LeftReceived ------------> BothReceivedContinueLeft
"""
sink = TObserver(immediate_continue=0)
obs = MergeObservable(self.s1, self.s2)
obs.observe(init_observer_info(sink))
self.s1.on_next_single(1)
self.s1.on_next_single(1)
right_ack = self.s2.on_next_single(2)
self.assertIsInstance(self.measure_state(obs),
MergeStates.BothReceivedContinueLeft)
self.assertEqual(sink.received, [1])
self.assertFalse(right_ack.has_value)
def test_right_received_to_both_received_with_asynchronous_ack(self):
"""
s1.on_next
RightReceived ------------> BothReceivedContinueRight
"""
sink = TObserver(immediate_continue=0)
obs = MergeObservable(self.s1, self.s2)
obs.observe(init_observer_info(sink))
self.s2.on_next_single(2)
self.s2.on_next_single(2)
left_ack = self.s1.on_next_single(1)
self.assertIsInstance(self.measure_state(obs),
MergeStates.BothReceivedContinueRight)
self.assertEqual(sink.received, [2])
self.assertFalse(left_ack.has_value)
def test_acknowledge_non_received(self):
"""
ack.on_next
NoneReceivedWaitAck ------------> NoneReceived
"""
sink = TObserver(immediate_continue=0)
obs = MergeObservable(self.s1, self.s2)
obs.observe(init_observer_info(sink))
self.s1.on_next_single(1)
sink.ack.on_next(continue_ack)
self.assertIsInstance(self.measure_state(obs),
MergeStates.NoneReceived)
self.assertEqual(sink.received, [1])
def test_acknowledge_left_received(self):
"""
ack.on_next
LeftReceived ------------> NoneReceivedWaitAck
"""
sink = TObserver(immediate_continue=0)
obs = MergeObservable(self.s1, self.s2)
obs.observe(init_observer_info(sink))
self.s1.on_next_single(1)
left_ack = self.s1.on_next_single(1)
sink.ack.on_next(continue_ack)
self.assertIsInstance(self.measure_state(obs),
MergeStates.NoneReceivedWaitAck)
self.assertEqual(sink.received, [1, 1])
self.assertIsInstance(left_ack.value, ContinueAck)
def test_acknowledge_both_received(self):
"""
ack.on_next
BothReceivedContinueLeft ------------> RightReceived
"""
sink = TObserver(immediate_continue=0)
obs = MergeObservable(self.s1, self.s2)
obs.observe(init_observer_info(sink))
self.s1.on_next_single(1)
left_ack = self.s1.on_next_single(1)
right_ack = self.s2.on_next_single(2)
sink.ack.on_next(continue_ack)
self.assertIsInstance(self.measure_state(obs),
MergeStates.RightReceived)
self.assertEqual(sink.received, [1, 1])
self.assertIsInstance(left_ack.value, ContinueAck)
self.assertFalse(right_ack.has_value)
def test_wait_ack_and_continue_with_asynchronous_ack(self):
"""
ack.on_next
Stopped -------------> Stopped
"""
sink = TObserver(immediate_continue=0)
obs = MergeObservable(self.s1, self.s2)
obs.observe(init_observer_info(sink))
self.s1.on_next_single(1)
self.s1.on_completed()
self.s2.on_completed()
sink.ack.on_next(continue_ack)
self.assertIsInstance(self.measure_state(obs), MergeStates.Stopped)
self.assertEqual(sink.received, [1])
def test_left_complete(self):
"""
s1.on_completed
NoneReceived -----------------> NoneReceived
InitState LeftCompletedState
"""
sink = TObserver()
obs = MergeObservable(self.s1, self.s2)
obs.observe(init_observer_info(sink))
self.s1.on_completed()
self.assertFalse(sink.is_completed)
self.assertIsInstance(self.measure_state(obs),
MergeStates.NoneReceived)
self.assertIsInstance(self.measure_termination_state(obs),
TerminationStates.LeftCompletedState)
def test_left_complete_to_both_complete(self):
"""
s1.on_completed
NoneReceived -----------------> Stopped
LeftCompletedState BothCompletedState
"""
sink = TObserver()
obs = MergeObservable(self.s1, self.s2)
obs.observe(init_observer_info(sink))
self.s1.on_completed()
self.s2.on_completed()
self.assertIsInstance(self.measure_termination_state(obs),
TerminationStates.BothCompletedState)
self.assertIsInstance(self.measure_state(obs), MergeStates.Stopped)
self.assertTrue(sink.is_completed)
def test_left_complete_to_error_asynchronous_ack(self):
sink = TObserver(immediate_continue=0)
obs = MergeObservable(self.s1, self.s2)
obs.observe(init_observer_info(sink))
self.s1.on_completed()
self.s2.on_error(self.exception)
self.assertIsInstance(self.measure_termination_state(obs),
TerminationStates.ErrorState)
self.assertIsInstance(self.measure_state(obs), MergeStates.Stopped)
self.assertEqual(self.exception, sink.exception)
def test_left_complete_on_next_right(self):
"""
s1.on_completed
NoneReceived -----------------> NoneReceived
InitState LeftCompletedState
"""
sink = TObserver()
obs = MergeObservable(self.s1, self.s2)
obs.observe(init_observer_info(sink))
self.s1.on_completed()
self.s2.on_next_single(1)
self.assertEqual([1], sink.received)
self.assertIsInstance(self.measure_state(obs),
MergeStates.NoneReceived)
self.assertIsInstance(self.measure_termination_state(obs),
TerminationStates.LeftCompletedState)
def test_left_complete_on_complete_right(self):
"""
s1.on_completed
NoneReceived -----------------> NoneReceived
InitState LeftCompletedState
"""
sink = TObserver()
obs = MergeObservable(self.s1, self.s2)
obs.observe(init_observer_info(sink))
self.s1.on_completed()
self.s2.on_next_single(1)
self.s2.on_completed()
self.assertTrue(sink.is_completed)
self.assertIsInstance(self.measure_state(obs), MergeStates.Stopped)
self.assertIsInstance(self.measure_termination_state(obs),
TerminationStates.BothCompletedState)
def test_right_complete_on_async_ack(self):
"""
"""
sink = TObserver(immediate_continue=0)
obs = MergeObservable(self.s1, self.s2)
obs.observe(init_observer_info(sink))
self.s1.on_completed()
self.s2.on_next_single(1)
ack = self.s2.on_next_single(2)
self.s2.on_completed()
sink.ack.on_next(continue_ack)
self.assertEqual([1, 2], sink.received)
self.assertTrue(sink.is_completed)
def test_left_complete_on_async_ack2(self):
"""
"""
sink = TObserver(immediate_continue=0)
obs = MergeObservable(self.s1, self.s2)
obs.observe(init_observer_info(sink))
self.s1.on_next_single(1)
self.s1.on_next_single(2)
ack = self.s2.on_next_single(11)
self.s1.on_completed()
sink.ack.on_next(continue_ack)
sink.ack.on_next(continue_ack)
self.assertEqual([1, 2, 11], sink.received)
self.assertIsInstance(ack.value, ContinueAck)
class TestDefaultIfEmptyObserver(unittest.TestCase):
def setUp(self):
self.scheduler = TScheduler()
self.source = TObservable()
self.exc = Exception()
def test_initialize(self):
sink = TObserver()
DefaultIfEmptyObserver(
next_observer=sink,
lazy_val=lambda: 0,
)
def test_on_complete(self):
sink = TObserver()
observer = DefaultIfEmptyObserver(
next_observer=sink,
lazy_val=lambda: 0,
)
self.source.observe(init_observer_info(observer))
self.source.on_completed()
self.assertEqual([0], sink.received)
self.assertTrue(sink.is_completed)
def test_on_error(self):
sink = TObserver()
observer = DefaultIfEmptyObserver(
next_observer=sink,
lazy_val=lambda: 0,
)
self.source.observe(init_observer_info(observer))
self.source.on_error(self.exc)
self.assertEqual(self.exc, sink.exception)
def test_single_element(self):
sink = TObserver()
observer = DefaultIfEmptyObserver(
next_observer=sink,
lazy_val=lambda: 0,
)
self.source.observe(init_observer_info(observer))
ack = self.source.on_next_single(1)
self.assertEqual([1], sink.received)
self.assertFalse(sink.is_completed)
self.source.on_completed()
self.assertTrue(sink.is_completed)
def test_single_batch(self):
sink = TObserver()
observer = DefaultIfEmptyObserver(
next_observer=sink,
lazy_val=lambda: 0,
)
self.source.observe(init_observer_info(observer))
ack = self.source.on_next_list([1, 2, 3])
self.assertEqual([1, 2, 3], sink.received)
class TestZip2Observable(TestCaseBase):
"""
Zip2Observable is a stateful object, therefore we test methods of Zip2Observable as a function of its states
called "zip_state" of type Zip2Observable.ZipState and "termination_state" of type Zip2Observable.TerminationState.
The termination state has four data types, which possibly have their own states. The join_flowables state has five data
types, which possibly have their own states as well.
Zip2Observable is symmetric to left and right source Observable. Therefore, the test specific to the left source
Observable can be mirrored to get the test for the right source Observable.
For non-concurrent testing, the state ZipElements can be ignored.
The following method calls are prohibited by the rxbackpressure conventions:
1. left.on_next and right.on_next in state=ZipElements
2. left.on_next in state=WaitForRight
3. right.on_next in state=WaitForLeft
The drawings in the comments for each test follow the following convention:
action
state1 ---------------> state2
state1: the state of ZipObservable before the action is applied
action: on_next, on_completed, ack.on_next function calls
state2: the state immediately after the action is applied
"""
def setUp(self):
self.scheduler = TScheduler()
self.left = TObservable()
self.right = TObservable()
self.exception = Exception('test')
def measure_state(self, obs: ZipObservable):
return obs.state.get_measured_state(obs.termination_state)
def measure_termination_state(self, obs: ZipObservable):
return obs.termination_state.get_measured_state()
def test_init_state(self):
sink = TObserver()
obs = ZipObservable(self.left, self.right)
obs.observe(init_observer_info(sink))
self.assertIsInstance(self.measure_termination_state(obs), TerminationStates.InitState)
self.assertIsInstance(self.measure_state(obs), ZipStates.WaitOnLeftRight)
def test_left_complete(self):
"""
s1.on_completed
WaitOnLeftRight -----------------> Stopped
InitState LeftCompletedState
"""
sink = TObserver()
obs = ZipObservable(self.left, self.right)
obs.observe(init_observer_info(sink))
self.left.on_completed()
self.assertIsInstance(self.measure_state(obs), ZipStates.Stopped)
self.assertIsInstance(self.measure_termination_state(obs), TerminationStates.LeftCompletedState)
self.assertTrue(sink.is_completed)
def test_right_complete(self):
"""
s2.on_completed
WaitOnLeftRight -----------------> Stopped
InitState RightCompletedState
"""
sink = TObserver()
obs = ZipObservable(self.left, self.right)
obs.observe(init_observer_info(sink))
self.right.on_completed()
self.assertIsInstance(self.measure_state(obs), ZipStates.Stopped)
self.assertIsInstance(self.measure_termination_state(obs), TerminationStates.RightCompletedState)
self.assertTrue(sink.is_completed)
def test_emit_left_with_synchronous_ack(self):
"""
s1.on_next
WaitOnLeftRight ------------> WaitOnRight
InitState InitState
"""
sink = TObserver()
obs = ZipObservable(self.left, self.right)
obs.observe(init_observer_info(sink))
ack1 = self.left.on_next_single(1)
self.assertIsInstance(self.measure_state(obs), ZipStates.WaitOnRight)
self.assertIsInstance(self.measure_termination_state(obs), TerminationStates.InitState)
self.assertFalse(ack1.has_value)
self.assertListEqual(sink.received, [])
def test_zip_single_element_with_synchronous_ack(self):
"""
s2.on_next
WaitOnRight ------------> WaitOnLeftRight
"""
sink = TObserver()
obs = ZipObservable(self.left, self.right)
obs.observe(init_observer_info(sink))
ack1 = self.left.on_next_single(1)
ack2 = self.right.on_next_single(1)
self.assertIsInstance(self.measure_state(obs), ZipStates.WaitOnLeftRight)
self.assertIsInstance(ack1.value, ContinueAck)
self.assertIsInstance(ack2, ContinueAck)
self.assertListEqual(sink.received, [(1, 1)])
def test_multiple_elements_with_synchronous_ack(self):
"""
s2.on_next
WaitOnRight ------------> WaitOnLeftRight
"""
sink = TObserver()
obs = ZipObservable(self.left, self.right)
obs.observe(init_observer_info(sink))
ack1 = self.left.on_next_list([1, 2, 3])
ack2 = self.right.on_next_list([1, 2, 3])
self.assertIsInstance(self.measure_state(obs), ZipStates.WaitOnLeftRight)
self.assertIsInstance(ack1.value, ContinueAck)
self.assertIsInstance(ack2, ContinueAck)
self.assertListEqual(sink.received, [(1, 1), (2, 2), (3, 3)])
def test_wait_on_right_to_wait_on_right_with_synchronous_ack(self):
"""
s2.on_next
WaitOnRight ------------> WaitOnRight
"""
sink = TObserver()
obs = ZipObservable(self.left, self.right)
obs.observe(init_observer_info(sink))
ack1 = self.left.on_next_list([1, 2])
ack2 = self.right.on_next_list([1])
self.assertIsInstance(self.measure_state(obs), ZipStates.WaitOnRight)
self.assertFalse(ack1.has_value)
self.assertIsInstance(ack2, ContinueAck)
self.assertListEqual(sink.received, [(1, 1)])
def test_wait_on_right_to_wait_on_left_with_synchronous_ack(self):
"""
s2.on_next
WaitOnRight ------------> WaitOnLeft
"""
sink = TObserver()
obs = ZipObservable(self.left, self.right)
obs.observe(init_observer_info(sink))
ack1 = self.left.on_next_list([1, 2])
ack2 = self.right.on_next_list([1, 2, 3])
self.assertIsInstance(self.measure_state(obs), ZipStates.WaitOnLeft)
self.assertIsInstance(ack1.value, ContinueAck)
self.assertFalse(ack2.has_value)
self.assertListEqual(sink.received, [(1, 1), (2, 2)])
def test_acknowledge_both(self):
"""
ack.on_next
WaitOnRightLeft ------------> WaitOnRightLeft
"""
sink = TObserver(immediate_continue=0)
obs = ZipObservable(self.left, self.right)
obs.observe(init_observer_info(sink))
ack1 = self.left.on_next_list([1])
ack2 = self.right.on_next_list([1])
sink.ack.on_next(continue_ack)
self.assertIsInstance(self.measure_state(obs), ZipStates.WaitOnLeftRight)
self.assertIsInstance(ack1.value, ContinueAck)
self.assertIsInstance(ack2.value, ContinueAck)
self.assertListEqual(sink.received, [(1, 1)])
def test_acknowledge_left(self):
"""
ack.on_next
WaitOnLeft ------------> WaitOnLeft
"""
sink = TObserver(immediate_continue=0)
obs = ZipObservable(self.left, self.right)
obs.observe(init_observer_info(sink))
ack1 = self.left.on_next_list([1])
ack2 = self.right.on_next_list([1, 2])
sink.ack.on_next(continue_ack)
self.assertIsInstance(self.measure_state(obs), ZipStates.WaitOnLeft)
self.assertIsInstance(ack1.value, ContinueAck)
self.assertFalse(ack2.has_value)
self.assertListEqual(sink.received, [(1, 1)])
def test_acknowledge_after_completed(self):
"""
ack.on_next
Stopped ------------> Stopped
"""
sink = TObserver(immediate_continue=0)
obs = ZipObservable(self.left, self.right)
obs.observe(init_observer_info(sink))
ack1 = self.left.on_next_list([1])
ack2 = self.right.on_next_list([1])
self.left.on_completed()
sink.ack.on_next(continue_ack)
self.assertIsInstance(self.measure_state(obs), ZipStates.Stopped)
self.assertListEqual(sink.received, [(1, 1)])
def test_exception(self):
"""
ack.on_next
WaitOnRight ------------> Stopped
"""
sink = TObserver(immediate_continue=0)
obs = ZipObservable(self.left, self.right)
obs.observe(init_observer_info(sink))
ack1 = self.left.on_next_list([1])
self.right.on_error(self.exception)
self.assertEqual(sink.exception, self.exception)
def test_left_complete_wait_on_right(self):
"""
s1.on_completed
WaitOnLeftRight ------------> WaitOnRight
InitState LeftCompletedState
"""
sink = TObserver(immediate_continue=0)
obs = ZipObservable(self.left, self.right)
obs.observe(init_observer_info(sink))
self.left.on_next_list([1])
self.left.on_completed()
self.assertIsInstance(self.measure_termination_state(obs), TerminationStates.LeftCompletedState)
self.assertIsInstance(self.measure_state(obs), ZipStates.WaitOnRight)
def test_left_complete_to_stopped(self):
"""
s2.on_next
WaitOnRight ------------> Stopped
LeftComplete BothCompletedState
"""
sink = TObserver(immediate_continue=0)
obs = ZipObservable(self.left, self.right)
obs.observe(init_observer_info(sink))
self.left.on_next_list([1])
self.left.on_completed()
self.right.on_next_list([1])
self.assertIsInstance(self.measure_termination_state(obs), TerminationStates.LeftCompletedState)
self.assertIsInstance(self.measure_state(obs), ZipStates.Stopped)
self.assertListEqual(sink.received, [(1, 1)])
def test_left_complete_to_wait_on_right(self):
"""
s2.on_next
WaitOnRight ------------> WaitOnRight
LeftComplete LeftComplete
"""
sink = TObserver(immediate_continue=0)
obs = ZipObservable(self.left, self.right)
obs.observe(init_observer_info(sink))
self.left.on_next_list([1, 1])
self.left.on_completed()
self.right.on_next_list([1])
self.assertIsInstance(self.measure_termination_state(obs), TerminationStates.LeftCompletedState)
self.assertIsInstance(self.measure_state(obs), ZipStates.WaitOnRight)
self.assertListEqual(sink.received, [(1, 1)])
def setUp(self):
self.scheduler = TScheduler()
self.left = TObservable()
self.right = TObservable()
self.exception = Exception('test')
def setUp(self):
self.scheduler = TScheduler()
self.source = TObservable()
self.exc = Exception()
class TestFilterObserver(unittest.TestCase):
def setUp(self):
self.scheduler = TScheduler()
self.source = TObservable()
self.exc = Exception()
def test_initialize(self):
sink = TObserver()
FilterObserver(
observer=sink,
predicate=lambda _: True,
)
def test_on_complete(self):
sink = TObserver()
observer = FilterObserver(
observer=sink,
predicate=lambda v: v > 0,
)
self.source.observe(init_observer_info(observer))
self.source.on_completed()
self.assertTrue(sink.is_completed)
def test_on_error(self):
sink = TObserver()
observer = FilterObserver(
observer=sink,
predicate=lambda v: v > 0,
)
self.source.observe(init_observer_info(observer))
self.source.on_error(self.exc)
self.assertEqual(self.exc, sink.exception)
def test_single_elem_not_fulfill_predicate(self):
sink = TObserver()
observer = FilterObserver(
observer=sink,
predicate=lambda v: v > 0,
)
self.source.observe(init_observer_info(observer))
self.source.on_next_single(0)
self.assertEqual([], sink.received)
def test_single_elem_fulfill_predicate(self):
sink = TObserver()
observer = FilterObserver(
observer=sink,
predicate=lambda v: v > 0,
)
self.source.observe(init_observer_info(observer))
self.source.on_next_single(1)
self.assertEqual([1], sink.received)
def test_single_batch(self):
sink = TObserver()
observer = FilterObserver(
observer=sink,
predicate=lambda v: v > 0,
)
self.source.observe(init_observer_info(observer))
self.source.on_next_list([0, 1, 0, 2])
self.assertEqual([1, 2], sink.received)
def test_multiple_batches(self):
sink = TObserver()
observer = FilterObserver(
observer=sink,
predicate=lambda v: v > 0,
)
self.source.observe(init_observer_info(observer))
self.source.on_next_list([1, 0])
self.source.on_next_list([0, 2])
self.assertEqual([1, 2], sink.received)
class TestBackpressureBufferedObserver(unittest.TestCase):
def setUp(self) -> None:
self.source = TObservable()
self.scheduler = TScheduler()
def test_initialize(self):
sink = TObserver()
BufferedObserver(underlying=sink,
scheduler=self.scheduler,
subscribe_scheduler=self.scheduler,
buffer_size=0)
def test_observe(self):
sink = TObserver()
observer = BufferedObserver(
underlying=sink,
scheduler=self.scheduler,
subscribe_scheduler=self.scheduler,
buffer_size=1,
)
self.source.observe(init_observer_info(observer))
def test_on_next_zero_buffer(self):
sink = TObserver()
observer = BufferedObserver(
underlying=sink,
scheduler=self.scheduler,
subscribe_scheduler=self.scheduler,
buffer_size=0,
)
self.source.observe(init_observer_info(observer))
ack = self.source.on_next_single(0)
self.scheduler.advance_by(1)
self.assertFalse(ack.is_sync)
self.assertEqual([0], sink.received)
def test_acknowledge_zero_buffer(self):
sink = TObserver(immediate_continue=0)
observer = BufferedObserver(
underlying=sink,
scheduler=self.scheduler,
subscribe_scheduler=self.scheduler,
buffer_size=0,
)
self.source.observe(init_observer_info(observer))
ack = self.source.on_next_single(0)
self.scheduler.advance_by(1)
sink.ack.on_next(continue_ack)
self.assertIsInstance(ack.value, ContinueAck)
def test_on_next(self):
sink = TObserver()
observer = BufferedObserver(
underlying=sink,
scheduler=self.scheduler,
subscribe_scheduler=self.scheduler,
buffer_size=1,
)
self.source.observe(init_observer_info(observer))
ack = self.source.on_next_single(0)
self.scheduler.advance_by(1)
self.assertIsInstance(ack, ContinueAck)
self.assertEqual([0], sink.received)
def test_fill_up_buffer(self):
sink = TObserver()
observer = BufferedObserver(
underlying=sink,
scheduler=self.scheduler,
subscribe_scheduler=self.scheduler,
buffer_size=1,
)
self.source.observe(init_observer_info(observer))
self.source.on_next_single(0)
ack = self.source.on_next_single(1)
self.scheduler.advance_by(1)
self.assertFalse(ack.is_sync)
self.assertEqual([0, 1], sink.received)
def setUp(self) -> None:
self.source = TObservable()
self.scheduler = TScheduler()
class TestFlatConcatNoBackpressureObserver(unittest.TestCase):
def setUp(self) -> None:
self.scheduler = TScheduler()
self.source = TObservable()
self.source1 = TObservable()
self.source2 = TObservable()
self.source3 = TObservable()
self.composite_disposable = CompositeDisposable()
def test_initialize(self):
sink = TObserver()
observer = FlatConcatNoBackpressureObserver(
next_observer=sink,
selector=lambda v: v,
scheduler=self.scheduler,
subscribe_scheduler=self.scheduler,
composite_disposable=self.composite_disposable,
)
self.source.observe(init_observer_info(observer=observer))
def test_on_next_does_not_backpressure(self):
sink = TObserver()
observer = FlatConcatNoBackpressureObserver(
next_observer=sink,
selector=lambda v: v,
scheduler=self.scheduler,
subscribe_scheduler=self.scheduler,
composite_disposable=self.composite_disposable,
)
self.source.observe(init_observer_info(observer=observer))
ack1 = self.source.on_next_single(self.source1)
ack2 = self.source.on_next_single(self.source2)
self.assertIsInstance(ack1, ContinueAck)
self.assertIsInstance(ack2, ContinueAck)
def test_inner_on_next(self):
sink = TObserver()
observer = FlatConcatNoBackpressureObserver(
next_observer=sink,
selector=lambda v: v,
scheduler=self.scheduler,
subscribe_scheduler=self.scheduler,
composite_disposable=self.composite_disposable,
)
self.source.observe(init_observer_info(observer=observer))
self.source.on_next_single(self.source1)
self.scheduler.advance_by(1)
self.source1.on_next_single(1)
self.assertEqual([1], sink.received)
def test_on_next_on_second_source(self):
sink = TObserver()
observer = FlatConcatNoBackpressureObserver(
next_observer=sink,
selector=lambda v: v,
scheduler=self.scheduler,
subscribe_scheduler=self.scheduler,
composite_disposable=self.composite_disposable,
)
self.source.observe(init_observer_info(observer=observer))
self.source.on_next_single(self.source1)
self.scheduler.advance_by(1)
self.source1.on_next_single(1)
self.source.on_next_single(self.source2)
self.scheduler.advance_by(1)
self.source2.on_next_single('a')
self.assertEqual([1], sink.received)
def test_complete_first_source(self):
sink = TObserver()
observer = FlatConcatNoBackpressureObserver(
next_observer=sink,
selector=lambda v: v,
scheduler=self.scheduler,
subscribe_scheduler=self.scheduler,
composite_disposable=self.composite_disposable,
)
self.source.observe(init_observer_info(observer=observer))
self.source.on_next_single(self.source1)
self.scheduler.advance_by(1)
self.source1.on_next_single(1)
self.source.on_next_single(self.source2)
self.scheduler.advance_by(1)
self.source.on_completed()
self.source2.on_next_single('a')
self.source1.on_completed()
self.assertEqual([1, 'a'], sink.received)
self.assertFalse(sink.is_completed)
def test_complete_first_source2(self):
sink = TObserver()
observer = FlatConcatNoBackpressureObserver(
next_observer=sink,
selector=lambda v: v,
scheduler=self.scheduler,
subscribe_scheduler=self.scheduler,
composite_disposable=self.composite_disposable,
)
self.source.observe(init_observer_info(observer=observer))
self.source.on_next_single(self.source1)
self.scheduler.advance_by(1)
self.source1.on_next_single(1)
self.source.on_next_single(self.source2)
self.scheduler.advance_by(1)
self.source.on_completed()
self.source2.on_next_single('a')
self.source1.on_next_single(2)
self.source1.on_completed()
self.source2.on_next_single('b')
self.source2.on_completed()
self.assertEqual([1, 2, 'a', 'b'], sink.received)
self.assertTrue(sink.is_completed)
def test_three_sources(self):
sink = TObserver()
observer = FlatConcatNoBackpressureObserver(
next_observer=sink,
selector=lambda v: v,
scheduler=self.scheduler,
subscribe_scheduler=self.scheduler,
composite_disposable=self.composite_disposable,
)
self.source.observe(init_observer_info(observer=observer))
self.source.on_next_single(self.source1)
self.source.on_next_single(self.source2)
self.source.on_next_single(self.source3)
self.scheduler.advance_by(1)
self.source1.on_next_single(1)
self.source2.on_next_single(2)
self.source3.on_next_single(3)
self.source1.on_completed()
self.source2.on_completed()
self.source3.on_completed()
self.assertEqual([1, 2, 3], sink.received)
class TestTakeWhileObserver(unittest.TestCase):
def setUp(self):
self.scheduler = TScheduler()
self.source = TObservable()
self.exception = Exception()
def test_initialize(self):
sink = TObserver()
TakeWhileObserver(
observer=sink,
predicate=lambda _: True,
)
def test_empty_sequence(self):
sink = TObserver()
observer = TakeWhileObserver(
observer=sink,
predicate=lambda v: v > 0,
)
self.source.observe(init_observer_info(observer))
self.source.on_completed()
self.assertTrue(sink.is_completed)
def test_on_error(self):
sink = TObserver()
observer = TakeWhileObserver(
observer=sink,
predicate=lambda v: v > 0,
)
self.source.observe(init_observer_info(observer))
self.source.on_error(self.exception)
self.assertEqual(self.exception, sink.exception)
def test_single_non_matching_element_synchronously(self):
sink = TObserver(immediate_continue=None)
observer = TakeWhileObserver(
observer=sink,
predicate=lambda v: v,
)
self.source.observe(init_observer_info(observer))
ack = self.source.on_next_list([0])
self.assertIsInstance(ack, StopAck)
self.assertTrue(sink.is_completed)
self.assertListEqual(sink.received, [])
def test_single_matching_elements_synchronously(self):
sink = TObserver(immediate_continue=None)
observer = TakeWhileObserver(
observer=sink,
predicate=lambda v: v,
)
self.source.observe(init_observer_info(observer))
ack = self.source.on_next_list([1])
self.assertIsInstance(ack, ContinueAck)
self.assertListEqual(sink.received, [1])
ack = self.source.on_next_list([1])
self.assertIsInstance(ack, ContinueAck)
self.assertListEqual(sink.received, [1, 1])
ack = self.source.on_next_list([0])
self.assertIsInstance(ack, StopAck)
self.assertListEqual(sink.received, [1, 1])
def test_list_and_complete_synchronously(self):
sink = TObserver(immediate_continue=None)
observer = TakeWhileObserver(
observer=sink,
predicate=lambda v: v,
)
self.source.observe(init_observer_info(observer))
ack = self.source.on_next_list([1, 1, 1])
self.assertIsInstance(ack, ContinueAck)
self.assertEqual(1, sink.on_next_counter)
self.assertListEqual(sink.received, [1, 1, 1])
self.source.on_completed()
self.assertListEqual(sink.received, [1, 1, 1])
self.assertTrue(sink.is_completed)
def test_list_synchronously(self):
sink = TObserver(immediate_continue=None)
observer = TakeWhileObserver(
observer=sink,
predicate=lambda v: v,
)
self.source.observe(init_observer_info(observer))
ack = self.source.on_next_list([1, 1, 1])
self.assertIsInstance(ack, ContinueAck)
self.assertEqual(1, sink.on_next_counter)
self.assertListEqual(sink.received, [1, 1, 1])
ack = self.source.on_next_list([1, 0, 1])
self.assertIsInstance(ack, StopAck)
self.assertEqual(2, sink.on_next_counter)
self.assertListEqual(sink.received, [1, 1, 1, 1])
self.assertTrue(sink.is_completed)
def test_iterable_synchronously(self):
sink = TObserver(immediate_continue=None)
observer = TakeWhileObserver(
observer=sink,
predicate=lambda v: v,
)
self.source.observe(init_observer_info(observer))
ack = self.source.on_next_iter([1, 1, 1])
self.assertIsInstance(ack, ContinueAck)
self.assertEqual(1, sink.on_next_counter)
self.assertListEqual(sink.received, [1, 1, 1])
ack = self.source.on_next_iter([1, 0, 1])
self.assertIsInstance(ack, StopAck)
self.assertEqual(2, sink.on_next_counter)
self.assertListEqual(sink.received, [1, 1, 1, 1])
self.assertTrue(sink.is_completed)
def test_failure_synchronously(self):
sink = TObserver(immediate_continue=None)
observer = TakeWhileObserver(
observer=sink,
predicate=lambda v: v,
)
self.source.observe(init_observer_info(observer))
def gen_iterable():
for i in range(10):
if i == 3:
raise self.exception
yield 1
ack = self.source.on_next_iter(gen_iterable())
self.assertIsInstance(ack, StopAck)
self.assertEqual(0, sink.on_next_counter)
self.assertListEqual([], sink.received)
self.assertEqual(self.exception, sink.exception)
def test_failure_after_non_matching_element_synchronously(self):
sink = TObserver(immediate_continue=None)
observer = TakeWhileObserver(
observer=sink,
predicate=lambda v: v,
)
self.source.observe(init_observer_info(observer))
def gen_iterable():
for i in range(10):
if i == 2:
yield 0
elif i == 3:
raise self.exception
else:
yield 1
ack = self.source.on_next_iter(gen_iterable())
self.assertIsInstance(ack, StopAck)
self.assertEqual(1, sink.on_next_counter)
self.assertListEqual([1, 1], sink.received)
self.assertTrue(sink.is_completed)
self.assertIsNone(sink.exception)
def test_list_asynchronously(self):
sink = TObserver(immediate_continue=0)
observer = TakeWhileObserver(
observer=sink,
predicate=lambda v: v,
)
self.source.observe(init_observer_info(observer))
ack = self.source.on_next_list([1, 1, 1])
self.assertFalse(ack.is_sync)
self.assertEqual(1, sink.on_next_counter)
self.assertListEqual(sink.received, [1, 1, 1])
ack.on_next(continue_ack)
ack = self.source.on_next_list([1, 0, 1])
self.assertIsInstance(ack, StopAck)
self.assertEqual(2, sink.on_next_counter)
self.assertListEqual(sink.received, [1, 1, 1, 1])
def setUp(self):
self.scheduler = TScheduler()
self.s1 = TObservable()
self.s2 = TObservable()
self.exception = Exception('test')
class TestCachedServeFirstSubject(TestCaseBase):
def setUp(self):
self.scheduler = TScheduler()
self.source = TObservable()
self.subject = CacheServeFirstObservableSubject(
scheduler=self.scheduler)
self.source.observe(init_observer_info(self.subject))
self.exc = Exception()
def test_initialize(self):
CacheServeFirstObservableSubject(scheduler=self.scheduler)
def test_on_next_synchronously(self):
"""
on_next
inactive_subscriptions = [s1] -> inactive_subscriptions = [s1]
"""
# preparation
observer = TObserver()
self.subject.observe(init_observer_info(observer))
# state change (change to the same state)
ack = self.source.on_next_single(1)
# verification
self.assertIsInstance(ack, ContinueAck)
self.assertEqual([1], observer.received)
self.assertEqual(0, len(self.subject.shared_state.queue))
def test_on_completed(self):
"""
on_completed
NormalState -> CompletedState
"""
# preparation
o1 = TObserver()
self.subject.observe(init_observer_info(o1))
# state change
self.source.on_completed()
# verification
self.assertTrue(o1.is_completed)
self.assertIsInstance(self.subject.state,
CacheServeFirstObservableSubject.CompletedState)
def test_on_next_assynchronously(self):
"""
on_next
inactive_subscriptions = [s1] -> inactive_subscriptions = []
"""
# preparation
o1 = TObserver(immediate_continue=0)
self.subject.observe(init_observer_info(o1))
# state change
ack = self.source.on_next_single(1)
# verification
self.assertNotEqual(continue_ack, ack)
self.assertEqual([1], o1.received)
def test_on_next_assynchronously2(self):
"""
ack.on_next
inactive_subscriptions = [] -> inactive_subscriptions = [s1]
"""
# preparation
o1 = TObserver(immediate_continue=0)
self.subject.observe(init_observer_info(o1))
ack = self.source.on_next_single(1)
# state change
o1.ack.on_next(continue_ack)
self.scheduler.advance_by(1)
# verification
self.assertEqual(len(self.subject.shared_state.inactive_subscriptions),
1)
def test_on_next_multiple_elements_asynchronously(self):
"""
on_next
queue = [] -> queue = [OnNext(2)]
"""
# preparation
o1 = TObserver(immediate_continue=0)
self.subject.observe(init_observer_info(o1))
self.source.on_next_single(1)
# state change
self.source.on_next_single(2)
# verification
self.assertEqual([1], o1.received)
queue = self.subject.shared_state.queue
self.assertEqual(1, len(queue))
self.assertEqual([2], queue[0].value)
def test_on_next_assynchronously_enter_fast_loop(self):
"""
ack.on_next
queue = [OnNext(2)] -> queue = []
"""
#preparation
o1 = TObserver(immediate_continue=0)
self.subject.observe(init_observer_info(o1))
self.source.on_next_single(1)
self.source.on_next_single(2)
# enter fast loop
o1.ack.on_next(continue_ack)
self.scheduler.advance_by(1)
# verification
self.assertEqual([1, 2], o1.received)
def test_on_next_assynchronously_iterate_in_fast_loop(self):
"""
on_next
queue = [] -> queue = [OnNext(2)]
"""
# preparation
o1 = TObserver(immediate_continue=0)
self.subject.observe(init_observer_info(o1))
self.source.on_next_single(1)
self.source.on_next_single(2)
self.source.on_next_single(3)
# state change
o1.immediate_continue = 1 # needs immediate continue to loop
o1.ack.on_next(continue_ack)
self.scheduler.advance_by(1)
# validation
self.assertEqual([1, 2, 3], o1.received)
self.assertEqual(0, len(self.subject.shared_state.queue))
def test_on_next_assynchronously_reenter_fast_loop(self):
"""
ack.on_next
queue = [OnNext(3)] -> queue = []
"""
# preparations
o1 = TObserver(immediate_continue=0)
self.subject.observe(init_observer_info(o1))
self.source.on_next_single(1)
self.source.on_next_single(2)
self.source.on_next_single(3)
o1.ack.on_next(continue_ack)
self.scheduler.advance_by(1)
# state change
o1.ack.on_next(continue_ack)
self.scheduler.advance_by(1)
# validation
self.assertEqual([1, 2, 3], o1.received)
self.assertEqual(0, len(self.subject.shared_state.queue))
def test_on_next_two_subscribers_synchronously(self):
"""
on_next
inactive_subscriptions = [s1, s2] -> inactive_subscriptions = [s1, s2]
"""
# preparation
o1 = TObserver()
o2 = TObserver()
self.subject.observe(init_observer_info(o1))
self.subject.observe(init_observer_info(o2))
# state change
ack = self.source.on_next_single(1)
# verification
self.assertIsInstance(ack, ContinueAck)
self.assertEqual([1], o1.received)
self.assertEqual([1], o2.received)
self.assertEqual(0, len(self.subject.shared_state.queue))
def test_on_next_multiple_elements_two_subscribers_asynchronously(self):
"""
on_next
inactive_subscriptions = [s1, s2] -> inactive_subscriptions = [s1, s2]
queue = [] -> queue = [OnNext(2)]
"""
# preparation
o1 = TObserver(immediate_continue=0)
o2 = TObserver(immediate_continue=0)
self.subject.observe(init_observer_info(o1))
self.subject.observe(init_observer_info(o2))
self.source.on_next_single(1)
# state change
self.source.on_next_single(2)
# validation
self.assertEqual([1], o1.received)
self.assertEqual([1], o2.received)
self.assertEqual(1, len(self.subject.shared_state.queue))
def test_on_next_enter_fast_loop_two_subscribers_asynchronously(self):
o1 = TObserver(immediate_continue=0)
o2 = TObserver(immediate_continue=0)
self.subject.observe(init_observer_info(o1))
self.subject.observe(init_observer_info(o2))
self.source.on_next_single(1)
self.source.on_next_single(2)
o1.ack.on_next(continue_ack)
self.scheduler.advance_by(1)
self.assertEqual([1, 2], o1.received)
self.assertEqual([1], o2.received)
def test_on_next_enter_fast_loop_two_subscribers_asynchronously2(self):
o1 = TObserver()
o2 = TObserver(immediate_continue=0)
self.subject.observe(init_observer_info(o1))
self.subject.observe(init_observer_info(o2))
self.source.on_next_single(1)
self.source.on_next_single(2)
o2.ack.on_next(continue_ack)
self.scheduler.advance_by(1)
o2.ack.on_next(continue_ack)
self.scheduler.advance_by(1)
self.source.on_next_single(3)
self.assertEqual([1, 2, 3], o1.received)
self.assertEqual([1, 2, 3], o2.received)
def test_on_error(self):
"""
on_completed
NormalState -> ErrorState
"""
# preparation
o1 = TObserver()
self.subject.observe(init_observer_info(o1))
# state change
self.source.on_error(self.exc)
# verification
self.assertEqual(self.exc, o1.exception)
self.assertIsInstance(self.subject.state,
CacheServeFirstObservableSubject.ExceptionState)
def test_on_next_on_error_asynchronously(self):
o1 = TObserver(immediate_continue=0)
o2 = TObserver(immediate_continue=0)
self.subject.observe(init_observer_info(o1))
self.subject.observe(init_observer_info(o2))
ack = self.source.on_next_single(1)
self.source.on_error(self.exc)
# o2.ack.on_next(continue_ack)
# self.scheduler.advance_by(1)
# verification
self.assertEqual(self.exc, o1.exception)
self.assertEqual(self.exc, o2.exception)
def test_on_error_two_subscribers_asynchronously(self):
o1 = TObserver()
o2 = TObserver(immediate_continue=0)
self.subject.observe(init_observer_info(o1))
self.subject.observe(init_observer_info(o2))
self.source.on_next_single(1)
self.source.on_error(self.exc)
self.assertEqual(self.exc, o1.exception)
self.assertEqual(self.exc, o2.exception)
def test_on_error_asynchronously(self):
o1 = TObserver(immediate_continue=0)
self.subject.observe(init_observer_info(o1))
self.source.on_next_single(1)
self.source.on_error(self.exc)
o1.ack.on_next(continue_ack)
self.scheduler.advance_by(1)
self.assertEqual(self.exc, o1.exception)
def test_on_disposed(self):
sink = TObserver(immediate_continue=0)
disposable = self.subject.observe(init_observer_info(sink))
disposable.dispose()
self.source.on_next_single(1)
self.assertEqual([], sink.received)
class TestFlatMapObserver(unittest.TestCase):
def setUp(self):
self.source = TObservable()
self.inner_source_1 = TObservable()
self.inner_source_2 = TObservable()
self.sink = TObserver()
self.scheduler = TScheduler()
self.composite_disposable = CompositeDisposable()
self.exc = Exception()
self.lock = threading.RLock()
def test_initialize(self):
observer = FlatMapObserver(
composite_disposable=self.composite_disposable,
func=lambda v: v,
scheduler=self.scheduler,
subscribe_scheduler=self.scheduler,
observer_info=init_observer_info(observer=self.sink),
)
def test_backpressure_on_outer_observer(self):
observer = FlatMapObserver(
composite_disposable=self.composite_disposable,
func=lambda v: v,
scheduler=self.scheduler,
subscribe_scheduler=self.scheduler,
observer_info=init_observer_info(observer=self.sink),
)
self.source.observe(init_observer_info(observer))
ack1 = self.source.on_next_single(self.inner_source_1)
self.scheduler.advance_by(1)
self.assertFalse(ack1.is_sync)
def test_send_element_on_inner_observer(self):
observer = FlatMapObserver(
composite_disposable=self.composite_disposable,
func=lambda v: v,
scheduler=self.scheduler,
subscribe_scheduler=self.scheduler,
observer_info=init_observer_info(observer=self.sink),
)
self.source.observe(init_observer_info(observer))
self.source.on_next_single(self.inner_source_1)
self.scheduler.advance_by(1)
ack2 = self.inner_source_1.on_next_iter([1, 2])
self.assertIsInstance(ack2, ContinueAck)
self.assertListEqual(self.sink.received, [1, 2])
def test_release_backpressure_on_completed(self):
observer = FlatMapObserver(
composite_disposable=self.composite_disposable,
func=lambda v: v,
scheduler=self.scheduler,
subscribe_scheduler=self.scheduler,
observer_info=init_observer_info(observer=self.sink),
)
self.source.observe(init_observer_info(observer))
ack1 = self.source.on_next_single(self.inner_source_1)
self.scheduler.advance_by(1)
self.inner_source_1.on_completed()
self.assertIsInstance(ack1.value, ContinueAck)
def test_multiple_inner_observers(self):
observer = FlatMapObserver(
composite_disposable=self.composite_disposable,
func=lambda v: v,
scheduler=self.scheduler,
subscribe_scheduler=self.scheduler,
observer_info=init_observer_info(observer=self.sink),
)
self.source.observe(init_observer_info(observer))
self.source.on_next_list([self.inner_source_1, self.inner_source_2])
self.scheduler.advance_by(1)
ack1 = self.inner_source_2.on_next_iter([1, 2])
self.inner_source_2.on_completed()
ack2 = self.inner_source_1.on_next_iter([3, 4])
self.assertFalse(ack1.is_sync)
self.assertIsInstance(ack2, ContinueAck)
self.assertFalse(self.sink.is_completed)
def test_multiple_inner_observers_complete(self):
observer = FlatMapObserver(
composite_disposable=self.composite_disposable,
func=lambda v: v,
scheduler=self.scheduler,
subscribe_scheduler=self.scheduler,
observer_info=init_observer_info(observer=self.sink),
)
self.source.observe(init_observer_info(observer))
self.source.on_next_list([self.inner_source_1, self.inner_source_2])
self.source.on_completed()
self.scheduler.advance_by(1)
ack1 = self.inner_source_2.on_next_iter([1, 2])
self.inner_source_2.on_completed()
ack2 = self.inner_source_1.on_next_iter([3, 4])
self.inner_source_1.on_completed()
self.assertListEqual(self.sink.received, [3, 4, 1, 2])
self.assertTrue(self.sink.is_completed)
class TestFirstObserver(unittest.TestCase):
def setUp(self):
self.scheduler = TScheduler()
self.source = TObservable()
self.exc = Exception()
def test_initialize(self):
sink = TObserver()
FirstObserver(
observer=sink,
stack=get_stack_lines(),
)
def test_on_complete(self):
sink = TObserver()
observer = FirstObserver(
observer=sink,
stack=get_stack_lines(),
)
self.source.observe(init_observer_info(observer))
self.source.on_completed()
self.assertFalse(sink.is_completed)
self.assertIsInstance(sink.exception, SequenceContainsNoElementsError)
def test_on_error(self):
sink = TObserver()
observer = FirstObserver(
observer=sink,
stack=get_stack_lines(),
)
self.source.observe(init_observer_info(observer))
self.source.on_error(self.exc)
self.assertEqual(self.exc, sink.exception)
def test_single_element(self):
sink = TObserver()
observer = FirstObserver(
observer=sink,
stack=get_stack_lines(),
)
self.source.observe(init_observer_info(observer))
ack = self.source.on_next_single(0)
self.assertEqual([0], sink.received)
self.assertIsInstance(ack, StopAck)
self.assertTrue(sink.is_completed)
self.source.on_completed()
self.assertEqual([0], sink.received)
self.assertTrue(sink.is_completed)
def test_single_batch(self):
sink = TObserver()
observer = FirstObserver(
observer=sink,
stack=get_stack_lines(),
)
self.source.observe(init_observer_info(observer))
ack = self.source.on_next_list([0, 1, 2, 3])
self.assertEqual([0], sink.received)
self.assertIsInstance(ack, StopAck)
self.assertTrue(sink.is_completed)
class TestControlledZipObservable(TestCaseBase):
"""
"""
class Command:
pass
class Go(Command):
pass
class Stop(Command):
pass
def setUp(self):
self.scheduler = TScheduler()
self.left = TObservable()
self.right = TObservable()
self.exception = Exception()
def measure_state(self, obs: ControlledZipObservable):
return obs.state.get_measured_state(obs.termination_state)
def measure_termination_state(self, obs: ControlledZipObservable):
return obs.termination_state.get_measured_state()
def test_init_state(self):
sink = TObserver()
obs = ControlledZipObservable(
left=self.left, right=self.right, scheduler=self.scheduler,
request_left=lambda left, right: left <= right,
request_right=lambda left, right: right <= left,
match_func=lambda left, right: left == right,
)
obs.observe(init_observer_info(sink))
self.assertIsInstance(self.measure_termination_state(obs), TerminationStates.InitState)
self.assertIsInstance(self.measure_state(obs), ControlledZipStates.WaitOnLeftRight)
def test_left_complete(self):
"""
s1.on_completed
WaitOnLeftRight -----------------> Stopped
InitState LeftCompletedState
"""
sink = TObserver()
obs = ControlledZipObservable(
left=self.left, right=self.right, scheduler=self.scheduler,
request_left=lambda left, right: left <= right,
request_right=lambda left, right: right <= left,
match_func=lambda left, right: left == right,
)
obs.observe(init_observer_info(sink))
self.left.on_completed()
self.assertIsInstance(self.measure_state(obs), ControlledZipStates.Stopped)
self.assertIsInstance(self.measure_termination_state(obs), TerminationStates.LeftCompletedState)
self.assertTrue(sink.is_completed)
def test_wait_on_left_right_to_wait_on_right_with_synchronous_ack(self):
"""
s1.on_next
WaitOnLeftRight ------------> WaitOnRight
InitState InitState
"""
sink = TObserver()
obs = ControlledZipObservable(
left=self.left, right=self.right, scheduler=self.scheduler,
request_left=lambda left, right: left <= right,
request_right=lambda left, right: right <= left,
match_func=lambda left, right: left == right,
)
obs.observe(init_observer_info(sink))
ack1 = self.left.on_next_single(1)
self.assertIsInstance(self.measure_state(obs), ControlledZipStates.WaitOnRight)
self.assertIsInstance(self.measure_termination_state(obs), TerminationStates.InitState)
self.assertFalse(ack1.has_value)
self.assertListEqual(sink.received, [])
def test_wait_on_right_to_wait_on_left_right_with_synchronous_ack(self):
"""
s2.on_next
WaitOnRight ------------> WaitOnLeftRight
"""
sink = TObserver()
obs = ControlledZipObservable(
left=self.left, right=self.right, scheduler=self.scheduler,
request_left=lambda left, right: left <= right,
request_right=lambda left, right: right <= left,
match_func=lambda left, right: left == right,
)
obs.observe(init_observer_info(sink))
ack1 = self.left.on_next_single(1)
ack2 = self.right.on_next_single(1)
self.assertIsInstance(self.measure_state(obs), ControlledZipStates.WaitOnLeftRight)
self.assertIsInstance(ack1.value, ContinueAck)
self.assertIsInstance(ack2, ContinueAck)
self.assertListEqual(sink.received, [(1, 1)])
def test_wait_on_right_to_wait_on_right_with_synchronous_ack(self):
"""
s2.on_next
WaitOnRight ------------> WaitOnRight
"""
sink = TObserver()
obs = ControlledZipObservable(
left=self.left, right=self.right, scheduler=self.scheduler,
request_left=lambda left, right: left <= right,
request_right=lambda left, right: right <= left,
match_func=lambda left, right: left == right,
)
obs.observe(init_observer_info(sink))
ack1 = self.left.on_next_single(2)
ack2 = self.right.on_next_single(1)
self.assertIsInstance(self.measure_state(obs), ControlledZipStates.WaitOnRight)
self.assertFalse(ack1.has_value)
self.assertIsInstance(ack2, ContinueAck)
self.assertListEqual(sink.received, [])
def test_wait_on_right_to_wait_on_left_with_synchronous_ack(self):
"""
s2.on_next
WaitOnRight ------------> WaitOnLeftRight
"""
sink = TObserver()
obs = ControlledZipObservable(
left=self.left, right=self.right, scheduler=self.scheduler,
request_left=lambda left, right: left <= right,
request_right=lambda left, right: right <= left,
match_func=lambda left, right: left == right,
)
obs.observe(init_observer_info(sink))
ack1 = self.left.on_next_single(1)
ack2 = self.right.on_next_single(2)
self.assertIsInstance(self.measure_state(obs), ControlledZipStates.WaitOnLeft)
self.assertIsInstance(ack1.value, ContinueAck)
self.assertFalse(ack2.has_value)
self.assertListEqual(sink.received, [])
def test_wait_on_right_to_wait_on_left_right_multiple_elem_with_synchronous_ack(self):
"""
s2.on_next
WaitOnRight ------------> WaitOnLeftRight
"""
sink = TObserver()
obs = ControlledZipObservable(
left=self.left, right=self.right, scheduler=self.scheduler,
request_left=lambda left, right: left <= right,
request_right=lambda left, right: right <= left,
match_func=lambda left, right: left == right,
)
obs.observe(init_observer_info(sink))
ack1 = self.left.on_next_list([1, 1, 2])
ack2 = self.right.on_next_list([1, 2])
self.assertIsInstance(self.measure_state(obs), ControlledZipStates.WaitOnLeftRight)
self.assertIsInstance(ack1.value, ContinueAck)
self.assertIsInstance(ack2, ContinueAck)
self.assertListEqual(sink.received, [(1, 1), (2, 2)])
def test_acknowledge_both(self):
"""
ack.on_next
WaitOnRightLeft ------------> WaitOnRightLeft
"""
sink = TObserver(immediate_continue=0)
obs = ControlledZipObservable(
left=self.left, right=self.right, scheduler=self.scheduler,
request_left=lambda left, right: left <= right,
request_right=lambda left, right: right <= left,
match_func=lambda left, right: left == right,
)
obs.observe(init_observer_info(sink))
ack1 = self.left.on_next_list([1])
ack2 = self.right.on_next_list([1])
sink.ack.on_next(continue_ack)
self.assertIsInstance(self.measure_state(obs), ControlledZipStates.WaitOnLeftRight)
self.assertIsInstance(ack1.value, ContinueAck)
self.assertIsInstance(ack2.value, ContinueAck)
self.assertListEqual(sink.received, [(1, 1)])
def test_left_complete_to_stopped(self):
"""
s2.on_next
WaitOnRight ------------> Stopped
LeftComplete BothCompletedState
"""
sink = TObserver(immediate_continue=0)
obs = ControlledZipObservable(
left=self.left, right=self.right, scheduler=self.scheduler,
request_left=lambda left, right: left <= right,
request_right=lambda left, right: right <= left,
match_func=lambda left, right: left == right,
)
obs.observe(init_observer_info(sink))
self.left.on_next_list([1])
self.left.on_completed()
self.right.on_next_list([1])
self.assertIsInstance(self.measure_termination_state(obs), TerminationStates.LeftCompletedState)
self.assertIsInstance(self.measure_state(obs), ControlledZipStates.Stopped)
self.assertListEqual(sink.received, [(1, 1)])
def test_exception(self):
"""
ack.on_next
WaitOnRight ------------> Stopped
"""
sink = TObserver(immediate_continue=0)
obs = ControlledZipObservable(
left=self.left, right=self.right, scheduler=self.scheduler,
request_left=lambda left, right: left <= right,
request_right=lambda left, right: right <= left,
match_func=lambda left, right: left == right,
)
obs.observe(init_observer_info(sink))
ack1 = self.left.on_next_list([1])
self.right.on_error(self.exception)
self.assertIsInstance(self.measure_state(obs), ControlledZipStates.Stopped)
self.assertEqual(self.exception, sink.exception)
def test_asynchronous_ack_from_selectors(self):
"""
ack.on_next
WaitOnLeftRight ------------> WaitOnLeftRight
"""
sink = TObserver(immediate_continue=0)
left_sel_sink = TObserver(immediate_continue=0)
right_sel_sink = TObserver(immediate_continue=0)
obs = ControlledZipObservable(
left=self.left, right=self.right, scheduler=self.scheduler,
request_left=lambda left, right: left <= right,
request_right=lambda left, right: right <= left,
match_func=lambda left, right: left == right,
)
obs.observe(init_observer_info(sink))
obs.left_selector.observe(init_observer_info(left_sel_sink))
obs.right_selector.observe(init_observer_info(right_sel_sink))
ack1 = AckSubject()
ack2 = AckSubject()
self.left.on_next_single(1).subscribe(ack1)
self.right.on_next_single(1).subscribe(ack2)
sink.ack.on_next(continue_ack)
self.assertFalse(ack1.has_value)
left_sel_sink.ack.on_next(continue_ack)
self.assertTrue(ack1.has_value)
self.assertFalse(ack2.has_value)
right_sel_sink.ack.on_next(continue_ack)
self.assertTrue(ack1.has_value)
self.assertTrue(ack2.has_value)
def test_select_message_if_no_two_elements_match(self):
"""
ack.on_next
WaitOnLeftRight ------------> WaitOnLeft
"""
sink = TObserver(immediate_continue=0)
left_sel_sink = TObserver(immediate_continue=0)
right_sel_sink = TObserver(immediate_continue=0)
ack1 = AckSubject()
ack2 = AckSubject()
obs = ControlledZipObservable(
left=self.left, right=self.right, scheduler=self.scheduler,
request_left=lambda left, right: left <= right,
request_right=lambda left, right: right <= left,
match_func=lambda left, right: left == right,
)
obs.observe(init_observer_info(sink))
obs.left_selector.observe(init_observer_info(left_sel_sink))
obs.right_selector.observe(init_observer_info(right_sel_sink))
self.left.on_next_single(1).subscribe(ack1)
self.right.on_next_single(2).subscribe(ack2)
self.assertIsInstance(self.measure_state(obs), ControlledZipStates.WaitOnLeft)
self.assertIsInstance(left_sel_sink.received[0], SelectCompleted)
self.left.on_next_single(2).subscribe(ack1)
self.assertIsInstance(self.measure_state(obs), ControlledZipStates.WaitOnLeftRight)
for instance_obj, class_obj in zip(left_sel_sink.received, [SelectCompleted, SelectNext, SelectCompleted]):
self.assertIsInstance(instance_obj, class_obj)
def setUp(self) -> None:
self.source = TObservable()
class TestToListObserver(unittest.TestCase):
def setUp(self):
self.scheduler = TScheduler()
self.source = TObservable()
self.exc = Exception()
def test_initialize(self):
sink = TObserver()
ToListObserver(observer=sink, )
def test_on_complete(self):
sink = TObserver()
observer = ToListObserver(observer=sink, )
self.source.observe(init_observer_info(observer))
self.source.on_completed()
self.assertEqual([[]], sink.received)
self.assertTrue(sink.is_completed)
def test_on_error(self):
sink = TObserver()
observer = ToListObserver(observer=sink, )
self.source.observe(init_observer_info(observer))
self.source.on_error(self.exc)
self.assertEqual(self.exc, sink.exception)
def test_single_element(self):
sink = TObserver()
observer = ToListObserver(observer=sink, )
self.source.observe(init_observer_info(observer))
ack = self.source.on_next_single(0)
self.assertEqual([], sink.received)
self.assertIsInstance(ack, ContinueAck)
self.assertFalse(sink.is_completed)
self.source.on_completed()
self.assertEqual([[0]], sink.received)
self.assertTrue(sink.is_completed)
def test_single_batch(self):
sink = TObserver()
observer = ToListObserver(observer=sink, )
self.source.observe(init_observer_info(observer))
ack = self.source.on_next_list([0, 1, 2, 3])
self.assertEqual([], sink.received)
self.assertIsInstance(ack, ContinueAck)
self.assertFalse(sink.is_completed)
self.source.on_completed()
self.assertEqual([[0, 1, 2, 3]], sink.received)
self.assertTrue(sink.is_completed)