def test_multithreaded_runner_with_multiapp_system(self):
system = System(Orders | Reservations | Orders,
Orders | Payments | Orders,
setup_tables=True,
infrastructure_class=self.infrastructure_class)
self.set_db_uri()
with MultiThreadedRunner(system):
started = time()
orders = system.processes['orders']
# Create new orders.
num_orders = 10
order_ids = []
for i in range(num_orders):
order_id = create_new_order()
order_ids.append(order_id)
retries = num_orders
for order_id in order_ids:
# while not orders.repository[order_id].is_reserved:
# sleep(0.1)
# retries -= 1
# assert retries, "Failed set order.is_reserved"
while retries and not orders.repository[order_id].is_paid:
sleep(0.1)
retries -= 1
assert retries, "Failed set order.is_paid"
print(f"Duration: { time() - started :.4f}s")
def test_multiprocessing_multiapp_system(self):
system = System(Orders | Reservations | Orders,
Orders | Payments | Orders,
setup_tables=True,
infrastructure_class=self.infrastructure_class)
self.set_db_uri()
with system.construct_app(Orders) as app:
# Create a new order.
order_id = create_new_order()
# Check new order exists in the repository.
assert order_id in app.repository
self.close_connections_before_forking()
with MultiprocessRunner(system):
with system.construct_app(Orders) as app:
retries = 50
while not app.repository[order_id].is_reserved:
sleep(0.1)
retries -= 1
assert retries, "Failed set order.is_reserved"
while retries and not app.repository[order_id].is_paid:
sleep(0.1)
retries -= 1
assert retries, "Failed set order.is_paid"
def test_clocked_multithreaded_runner_with_multiapp_system(self):
system = System(Orders | Reservations | Orders,
Orders | Payments | Orders,
setup_tables=True,
infrastructure_class=self.infrastructure_class)
self.set_db_uri()
clock_speed = 10
tick_interval = 1 / clock_speed
with MultiThreadedRunner(system, clock_speed=clock_speed):
started = time()
orders = system.processes['orders']
# Create a new order.
num_orders = 10
order_ids = []
for i in range(num_orders):
order_id = create_new_order()
order_ids.append(order_id)
# sleep(tick_interval / 3)
# sleep(tick_interval * 10)
retries = 30 * num_orders
num_completed = 0
for order_id in order_ids:
while retries and not orders.repository[order_id].is_paid:
sleep(0.1)
retries -= 1
assert retries, "Failed set order.is_paid (after %s completed)" % num_completed
num_completed += 1
print(f"Duration: { time() - started :.4f}s")
def test_multiprocessing_multiapp_system(self):
set_db_uri()
with Orders(setup_table=True) as app:
# Create a new order.
order_id = create_new_order()
# Check new order exists in the repository.
assert order_id in app.repository
system = System(
Orders | Reservations | Orders,
Orders | Payments | Orders,
)
multiprocess = Multiprocess(system)
# Start multiprocessing system.
with multiprocess:
with Orders() as app:
retries = 50
while not app.repository[order_id].is_reserved:
time.sleep(0.1)
retries -= 1
assert retries, "Failed set order.is_reserved"
while retries and not app.repository[order_id].is_paid:
time.sleep(0.1)
retries -= 1
assert retries, "Failed set order.is_paid"
def check_actors(self, num_pipelines=2, num_orders_per_pipeline=5):
pipeline_ids = list(range(num_pipelines))
actors = Actors(self.system,
pipeline_ids=pipeline_ids,
shutdown_on_close=True)
# Todo: Use wakeupAfter() to poll for new notifications (see Timer Messages).
# Todo: Fix multiple pipelines with multiproc bases.
order_ids = []
with Orders(setup_table=True) as app, actors:
# Create some new orders.
for _ in range(num_orders_per_pipeline):
for pipeline_id in pipeline_ids:
app.change_pipeline(pipeline_id)
order_id = create_new_order()
order_ids.append(order_id)
# Wait for orders to be reserved and paid.
retries = 100 + 100 * num_orders_per_pipeline * len(pipeline_ids)
for i, order_id in enumerate(order_ids):
while not app.repository[order_id].is_reserved:
time.sleep(0.1)
retries -= 1
assert retries, "Failed set order.is_reserved {} ({})".format(
order_id, i)
while retries and not app.repository[order_id].is_paid:
time.sleep(0.1)
retries -= 1
assert retries, "Failed set order.is_paid ({})".format(i)
# Calculate timings from event timestamps.
orders = [app.repository[oid] for oid in order_ids]
first_timestamp = min([o.__created_on__ for o in orders])
last_timestamp = max([o.__last_modified__ for o in orders])
duration = last_timestamp - first_timestamp
rate = len(order_ids) / float(duration)
period = 1 / rate
print(
"Orders system processed {} orders in {:.3f}s at rate of {:.1f} "
"orders/s, {:.3f}s each".format(len(order_ids), duration, rate,
period))
# Print min, average, max duration.
durations = [
o.__last_modified__ - o.__created_on__ for o in orders
]
print("Min order processing time: {:.3f}s".format(min(durations)))
print("Mean order processing time: {:.3f}s".format(
sum(durations) / len(durations)))
print("Max order processing time: {:.3f}s".format(max(durations)))
def test_singlethreaded_multiapp_system(self):
system = System(Orders | Reservations | Orders,
Orders | Payments | Orders,
setup_tables=True)
with system:
# Create new Order aggregate.
order_id = create_new_order()
# Check the order is reserved and paid.
repository = system.orders.repository
assert repository[order_id].is_reserved
assert repository[order_id].is_paid
def test_singlethreaded_runner_with_multiapp_system(self):
system = System(Orders | Reservations | Orders,
Orders | Payments | Orders,
setup_tables=True,
infrastructure_class=self.infrastructure_class)
with system:
# Create new Order aggregate.
order_id = create_new_order()
# Check the order is reserved and paid.
repository = system.processes['orders'].repository
assert repository[order_id].is_reserved
assert repository[order_id].is_paid
def test_multipipeline_multiprocessing_multiapp(self):
self.set_db_uri()
system = System((Orders, Reservations, Orders, Payments, Orders),
setup_tables=True,
infrastructure_class=self.infrastructure_class)
num_pipelines = 2
pipeline_ids = range(num_pipelines)
multiprocess = MultiprocessRunner(system, pipeline_ids=pipeline_ids)
num_orders_per_pipeline = 5
order_ids = []
self.close_connections_before_forking()
# Start multiprocessing system.
with multiprocess, system.construct_app(Orders) as orders:
# Create some new orders.
for _ in range(num_orders_per_pipeline):
for pipeline_id in pipeline_ids:
orders.change_pipeline(pipeline_id)
order_id = create_new_order()
order_ids.append(order_id)
sleep(0.05)
# Wait for orders to be reserved and paid.
retries = 10 + 10 * num_orders_per_pipeline * len(pipeline_ids)
for i, order_id in enumerate(order_ids):
while not orders.repository[order_id].is_reserved:
sleep(0.1)
retries -= 1
assert retries, "Failed set order.is_reserved {} ({})".format(
order_id, i)
while retries and not orders.repository[order_id].is_paid:
sleep(0.1)
retries -= 1
assert retries, "Failed set order.is_paid ({})".format(i)
# Calculate timings from event timestamps.
order_aggregates = [orders.repository[oid] for oid in order_ids]
first_timestamp = min([o.__created_on__ for o in order_aggregates])
last_timestamp = max(
[o.__last_modified__ for o in order_aggregates])
duration = last_timestamp - first_timestamp
rate = len(order_ids) / float(duration)
period = 1 / rate
print(
"Orders system processed {} orders in {:.3f}s at rate of {:.1f} "
"orders/s, {:.3f}s each".format(len(order_ids), duration, rate,
period))
# Print min, average, max duration.
durations = [
o.__last_modified__ - o.__created_on__
for o in order_aggregates
]
print("Min order processing time: {:.3f}s".format(min(durations)))
print("Mean order processing time: {:.3f}s".format(
sum(durations) / len(durations)))
print("Max order processing time: {:.3f}s".format(max(durations)))
