""" Actor model API testing """ import time from itertools import repeat import pytest import trio import tractor from conftest import tractor_test @pytest.mark.trio async def test_no_arbitter(): """An arbitter must be established before any nurseries can be created. (In other words ``tractor.run`` must be used instead of ``trio.run`` as is done by the ``pytest-trio`` plugin.) """ with pytest.raises(RuntimeError): with tractor.open_nursery(): pass def test_local_actor_async_func(arb_addr): """Verify a simple async function in-process. """ nums = [] async def print_loop(): # arbiter is started in-proc if dne assert tractor.current_actor().is_arbiter for i in range(10): nums.append(i) await trio.sleep(0.1) start = time.time() tractor.run(print_loop, arbiter_addr=arb_addr) # ensure the sleeps were actually awaited assert time.time() - start >= 1 assert nums == list(range(10)) statespace = {'doggy': 10, 'kitty': 4} # NOTE: this func must be defined at module level in order for the # interal pickling infra of the forkserver to work async def spawn(is_arbiter): namespaces = [__name__] await trio.sleep(0.1) actor = tractor.current_actor() assert actor.is_arbiter == is_arbiter assert actor.statespace == statespace if actor.is_arbiter: async with tractor.open_nursery() as nursery: # forks here portal = await nursery.run_in_actor( 'sub-actor', spawn, is_arbiter=False, statespace=statespace, rpc_module_paths=namespaces, ) assert len(nursery._children) == 1 assert portal.channel.uid in tractor.current_actor()._peers # be sure we can still get the result result = await portal.result() assert result == 10 return result else: return 10 def test_local_arbiter_subactor_global_state(arb_addr): result = tractor.run( spawn, True, name='arbiter', statespace=statespace, arbiter_addr=arb_addr, ) assert result == 10 async def stream_seq(sequence): for i in sequence: yield i await trio.sleep(0.1) async def stream_from_single_subactor(): """Verify we can spawn a daemon actor and retrieve streamed data. """ async with tractor.find_actor('brokerd') as portals: if not portals: # only one per host address, spawns an actor if None async with tractor.open_nursery() as nursery: # no brokerd actor found portal = await nursery.start_actor( 'streamerd', rpc_module_paths=[__name__], statespace={'global_dict': {}}, ) seq = range(10) agen = await portal.run( __name__, 'stream_seq', # the func above sequence=list(seq), # has to be msgpack serializable ) # it'd sure be nice to have an asyncitertools here... iseq = iter(seq) async for val in agen: assert val == next(iseq) # TODO: test breaking the loop (should it kill the # far end?) # break # terminate far-end async-gen # await gen.asend(None) # break # stop all spawned subactors await portal.cancel_actor() # await nursery.cancel() def test_stream_from_single_subactor(arb_addr): """Verify streaming from a spawned async generator. """ tractor.run(stream_from_single_subactor, arbiter_addr=arb_addr) async def assert_err(): assert 0 def test_remote_error(arb_addr): """Verify an error raises in a subactor is propagated to the parent. """ async def main(): async with tractor.open_nursery() as nursery: portal = await nursery.run_in_actor('errorer', assert_err) # get result(s) from main task try: return await portal.result() except tractor.RemoteActorError: print("Look Maa that actor failed hard, hehh") raise except Exception: pass assert 0, "Remote error was not raised?" with pytest.raises(tractor.RemoteActorError): # also raises tractor.run(main, arbiter_addr=arb_addr) async def stream_forever(): for i in repeat("I can see these little future bubble things"): # each yielded value is sent over the ``Channel`` to the # parent actor yield i await trio.sleep(0.01) @tractor_test async def test_cancel_infinite_streamer(): # stream for at most 1 seconds with trio.move_on_after(1) as cancel_scope: async with tractor.open_nursery() as n: portal = await n.start_actor( f'donny', rpc_module_paths=[__name__], ) # this async for loop streams values from the above # async generator running in a separate process async for letter in await portal.run(__name__, 'stream_forever'): print(letter) # we support trio's cancellation system assert cancel_scope.cancelled_caught assert n.cancelled @tractor_test async def test_one_cancels_all(): """Verify one failed actor causes all others in the nursery to be cancelled just like in trio. This is the first and only supervisory strategy at the moment. """ try: async with tractor.open_nursery() as n: real_actors = [] for i in range(3): real_actors.append(await n.start_actor( f'actor_{i}', rpc_module_paths=[__name__], )) # start one actor that will fail immediately await n.run_in_actor('extra', assert_err) # should error here with a ``RemoteActorError`` containing # an ``AssertionError` except tractor.RemoteActorError: assert n.cancelled is True assert not n._children else: pytest.fail("Should have gotten a remote assertion error?") def movie_theatre_question(): """A question asked in a dark theatre, in a tangent (errr, I mean different) process. """ return 'have you ever seen a portal?' @tractor_test async def test_movie_theatre_convo(): """The main ``tractor`` routine. """ async with tractor.open_nursery() as n: portal = await n.start_actor( 'frank', # enable the actor to run funcs from this current module rpc_module_paths=[__name__], ) print(await portal.run(__name__, 'movie_theatre_question')) # call the subactor a 2nd time print(await portal.run(__name__, 'movie_theatre_question')) # the async with will block here indefinitely waiting # for our actor "frank" to complete, we cancel 'frank' # to avoid blocking indefinitely await portal.cancel_actor() def cellar_door(): return "Dang that's beautiful" @tractor_test async def test_most_beautiful_word(): """The main ``tractor`` routine. """ async with tractor.open_nursery() as n: portal = await n.run_in_actor('some_linguist', cellar_door) # The ``async with`` will unblock here since the 'some_linguist' # actor has completed its main task ``cellar_door``. print(await portal.result()) def do_nothing(): pass def test_cancel_single_subactor(arb_addr): async def main(): async with tractor.open_nursery() as nursery: portal = await nursery.start_actor( 'nothin', rpc_module_paths=[__name__], ) assert (await portal.run(__name__, 'do_nothing')) is None # would hang otherwise await nursery.cancel() tractor.run(main, arbiter_addr=arb_addr) # this is the first 2 actors, streamer_1 and streamer_2 async def stream_data(seed): for i in range(seed): yield i await trio.sleep(0) # trigger scheduler # this is the third actor; the aggregator async def aggregate(seed): """Ensure that the two streams we receive match but only stream a single set of values to the parent. """ async with tractor.open_nursery() as nursery: portals = [] for i in range(1, 3): # fork point portal = await nursery.start_actor( name=f'streamer_{i}', rpc_module_paths=[__name__], ) portals.append(portal) q = trio.Queue(500) async def push_to_q(portal): async for value in await portal.run( __name__, 'stream_data', seed=seed ): # leverage trio's built-in backpressure await q.put(value) await q.put(None) print(f"FINISHED ITERATING {portal.channel.uid}") # spawn 2 trio tasks to collect streams and push to a local queue async with trio.open_nursery() as n: for portal in portals: n.start_soon(push_to_q, portal) unique_vals = set() async for value in q: if value not in unique_vals: unique_vals.add(value) # yield upwards to the spawning parent actor yield value if value is None: break assert value in unique_vals print("FINISHED ITERATING in aggregator") await nursery.cancel() print("WAITING on `ActorNursery` to finish") print("AGGREGATOR COMPLETE!") # this is the main actor and *arbiter* async def a_quadruple_example(): # a nursery which spawns "actors" async with tractor.open_nursery() as nursery: seed = int(1e3) pre_start = time.time() portal = await nursery.run_in_actor( 'aggregator', aggregate, seed=seed, ) start = time.time() # the portal call returns exactly what you'd expect # as if the remote "aggregate" function was called locally result_stream = [] async for value in await portal.result(): result_stream.append(value) print(f"STREAM TIME = {time.time() - start}") print(f"STREAM + SPAWN TIME = {time.time() - pre_start}") assert result_stream == list(range(seed)) + [None] return result_stream async def cancel_after(wait): with trio.move_on_after(wait): return await a_quadruple_example() @pytest.fixture(scope='module') def time_quad_ex(arb_addr): start = time.time() results = tractor.run(cancel_after, 3, arbiter_addr=arb_addr) diff = time.time() - start assert results return results, diff def test_a_quadruple_example(time_quad_ex): """This also serves as a kind of "we'd like to be this fast test".""" results, diff = time_quad_ex assert results assert diff < 2.5 @pytest.mark.parametrize( 'cancel_delay', list(map(lambda i: i/10, range(2, 8))) ) def test_not_fast_enough_quad(arb_addr, time_quad_ex, cancel_delay): """Verify we can cancel midway through the quad example and all actors cancel gracefully. """ results, diff = time_quad_ex delay = max(diff - cancel_delay, 0) results = tractor.run(cancel_after, delay, arbiter_addr=arb_addr) assert results is None