def test_contexts(self):
def test_with_kernel():
self.assertIsNotNone(kernels.get_kernel())
self.assertIsNone(kernels.get_kernel())
kernels.call_with_kernel(test_with_kernel)
self.assertIsNone(kernels.get_kernel())
async def monitor(
period,
executor_queue_threshold,
num_tasks_threshold,
executor_queue,
):
while True:
queue_length = len(executor_queue)
stats = kernels.get_kernel().get_stats()
if (
queue_length >= executor_queue_threshold
or stats.num_tasks >= num_tasks_threshold
):
LOG.info(
'executor_queue_length=%d kernel_stats=%r',
queue_length,
stats,
)
await timers.sleep(period)
def test_queue_without_kernel(self):
self.assertIsNone(kernels.get_kernel())
checks = [
(queues.Queue, [1, 2, 3], [1, 2, 3]),
(queues.PriorityQueue, [1, 3, 2], [1, 2, 3]),
(queues.LifoQueue, [1, 2, 3], [3, 2, 1]),
]
for cls, test_input, expect in checks:
with self.subTest(check=cls.__name__):
queue = cls()
self.assertFalse(queue)
for item in test_input:
queue.put_nonblocking(item)
self.assertTrue(queue)
self.assertEqual(len(queue), len(test_input))
self.assertFalse(queue.is_full())
self.assertFalse(queue.is_closed())
actual = []
while queue:
actual.append(queue.get_nonblocking())
self.assertEqual(actual, expect)
async def run(self, handle):
event = locks.Event()
kernel = ASSERT.not_none(kernels.get_kernel())
callback = _nng.nng_aio_callback(
lambda _: kernel.post_callback(event.set))
aio_p = _nng.nng_aio_p()
errors.check(_nng.F.nng_aio_alloc(ctypes.byref(aio_p), callback, None))
try:
# Strangely, the default is not ``NNG_DURATION_DEFAULT`` but
# ``NNG_DURATION_INFINITE``; let's make default the default.
_nng.F.nng_aio_set_timeout(aio_p, _nng.NNG_DURATION_DEFAULT)
self.transceive(handle, aio_p)
try:
await event.wait()
except BaseException:
_nng.F.nng_aio_cancel(aio_p)
raise
errors.check(_nng.F.nng_aio_result(aio_p))
return self.make_result(aio_p)
finally:
# Call ``nng_aio_wait`` to ensure that AIO is completed and
# we may safely read its result or free it (in case we are
# here due to an exception).
_nng.F.nng_aio_wait(aio_p)
self.cleanup(aio_p)
_nng.F.nng_aio_free(aio_p)
def test_with_kernel():
self.assertIsNotNone(kernels.get_kernel())
def inner(ks, steps):
k = kernels.get_kernel()
ks.append(k)
steps.append(2)
def outer(ks, steps):
k = kernels.get_kernel()
ks.append(k)
steps.append(1)
inner(ks, steps)
steps.append(3)
async def compute(x):
duration = random.uniform(0, 4)
print('spend %.3f seconds computing' % duration)
await timers.sleep(duration)
return x * x
async def accumulate(ts):
total = 0
for task in ts:
total += await task.get_result()
return total
@kernels.with_kernel
def main(_):
start = time.perf_counter()
ts = [tasks.spawn(compute(i + 1)) for i in range(10)]
total = kernels.run(accumulate(ts))
elapsed = time.perf_counter() - start
print('result: %d' % total)
print('total elapsed time: %.3f seconds' % elapsed)
return 0
if __name__ == '__main__':
print('before main: kernel=%s' % kernels.get_kernel())
status = main(sys.argv)
print('after main: kernel=%s' % kernels.get_kernel())
sys.exit(status)
async def compute(x):
duration = random.uniform(0, 4)
print('spend %.3f seconds computing' % duration)
await timers.sleep(duration)
return x * x
async def accumulate(ts):
total = 0
for task in ts:
total += await task.get_result()
return total
def main(_):
start = time.perf_counter()
ts = [tasks.spawn(compute(i + 1)) for i in range(10)]
total = kernels.run(accumulate(ts))
elapsed = time.perf_counter() - start
print('result: %d' % total)
print('total elapsed time: %.3f seconds' % elapsed)
return 0
if __name__ == '__main__':
print('before call_with_kernel: kernel=%s' % kernels.get_kernel())
status = kernels.call_with_kernel(main, sys.argv)
print('after call_with_kernel: kernel=%s' % kernels.get_kernel())
sys.exit(status)
