def test_pool_8(self):
try:
pool = Pool(size=0, name='test8')
except Exception as e:
pool = e
assert isinstance(pool, ValueError)
try:
pool = Pool(size=-10, name='test8')
except Exception as e:
pool = e
assert isinstance(pool, ValueError)
def test_pool_4(self):
pool = Pool(size=4, name='test4')
assert pool.size == 4
assert pool.name == 'test4'
try:
result = yield pool.on_ready(timeout=5)
except Exception as e:
result = e
assert result is pool
assert pool.get_number_of_workers() == pool.size
deferreds = []
for _ in range(100):
deferreds.append(pool.apply_async('os.listdir', ('....', )))
for d in deferreds:
try:
result = yield d
except Exception as e:
result = e
assert isinstance(result, FileNotFoundError)
try:
result = yield pool.close(timeout=5)
except Exception as e:
result = e
assert result is pool
assert pool.get_number_of_workers() == 0
def test_pool_9():
pool = Pool(name='test9', init_call='math.sqrt', init_args=(-1,))
assert pool.name == 'test9'
assert pool.size == cpu_count()
try:
result = yield pool.on_ready(timeout=5)
except Exception as e:
result = e
assert result is pool
assert pool.get_number_of_workers() == pool.size
# This will timeout as we haven't called "close".
try:
result = yield pool.on_closure(timeout=2)
except Exception as e:
result = e
assert isinstance(result, PoolTimeout)
# This will timeout. Since the init_call's failed, the pool will
# collapse (all of the processes will end due to an initialization
# error and will not be replaced), and will never fire "on_ready"
# again.
try:
result = yield pool.on_ready(timeout=2)
except Exception as e:
result = e
assert isinstance(result, PoolTimeout)
assert pool.get_number_of_workers() == 0
def test_pool_6(self):
pool = Pool(name='test6')
assert pool.name == 'test6'
assert pool.size == cpu_count()
try:
result = yield pool.on_ready(timeout=5)
except Exception as e:
result = e
assert result is pool
assert pool.get_number_of_workers() == pool.size
d = pool.apply_async('math.sqrt', (16, ), timeout=5)
d.cancel()
try:
result = yield d
except Exception as e:
result = e
assert isinstance(result, CancelledError)
try:
result = yield pool.close(timeout=5)
except Exception as e:
result = e
assert result is pool
assert pool.get_number_of_workers() == 0
def test_pool_3():
pool = Pool(size=10, name='test3a')
assert pool.size == 10
assert pool.name == 'test3a'
try:
result = yield pool.on_ready(timeout=5)
except Exception, e:
result = e
def test_pool_10():
with mock.patch('txpool.pool.cpu_count', side_effect=NotImplementedError):
pool = Pool(name='test10')
assert pool.size == txpool.pool.DEFAULT_POOL_SIZE
try:
result = yield pool.on_ready(timeout=5)
except Exception as e:
result = e
assert result is pool
assert pool.get_number_of_workers() == pool.size
def test_pool_1():
pool = Pool(name='test1')
assert pool.name == 'test1'
assert pool.size == cpu_count()
try:
result = yield pool.on_ready(timeout=5)
except Exception, e:
result = e
def test_pool_9():
pool = Pool(name='test9', init_call='math.sqrt', init_args=(-1, ))
assert pool.name == 'test9'
assert pool.size == cpu_count()
try:
result = yield pool.on_ready(timeout=5)
except Exception, e:
result = e
def test_pool_5():
pool = Pool(size=4, name='test5')
assert pool.size == 4
assert pool.name == 'test5'
try:
result = yield pool.on_ready(timeout=5)
except Exception, e:
result = e
def test_pool_3(self):
pool = Pool(size=10, name='test3a')
assert pool.size == 10
assert pool.name == 'test3a'
try:
result = yield pool.on_ready(timeout=5)
except Exception as e:
result = e
assert result is pool
assert pool.get_number_of_workers() == pool.size
try:
result = yield pool.terminate(timeout=5)
except Exception as e:
result = e
assert result is pool
assert pool.get_number_of_workers() == 0
pool = Pool(size=10, name='test3b')
assert pool.size == 10
assert pool.name == 'test3b'
try:
result = yield pool.on_ready(timeout=5)
except Exception as e:
result = e
assert result is pool
assert pool.get_number_of_workers() == pool.size
pool.terminate()
try:
result = yield pool.on_closure(timeout=5)
except Exception as e:
result = e
assert result is pool
assert pool.get_number_of_workers() == 0
def test_pool_5(self):
pool = Pool(size=4, name='test5')
assert pool.size == 4
assert pool.name == 'test5'
try:
result = yield pool.on_ready(timeout=5)
except Exception as e:
result = e
assert result is pool
assert pool.get_number_of_workers() == pool.size
deferreds = []
cancelleds = set()
args = list(range(1000)) + list(range(-200, 0))
random.shuffle(args)
for i, arg in enumerate(args):
d = pool.apply_async(math.factorial, (arg, ), timeout=60)
deferreds.append((arg, d))
if i in (100, 200, 300, 400, 500):
d.cancel()
cancelleds.add(arg)
for arg, d in deferreds:
try:
result = yield d
except Exception as e:
result = e
if arg in cancelleds:
assert isinstance(result, CancelledError)
elif arg >= 0:
assert result == math.factorial(arg)
else:
assert isinstance(result, ValueError)
try:
result = yield pool.apply_async('time.sleep', (3, ), timeout=1)
except Exception as e:
result = e
assert isinstance(result, PoolTimeout)
pool.close()
try:
result = yield pool.on_closure(timeout=5)
except Exception as e:
result = e
assert result is pool
assert pool.get_number_of_workers() == 0
def test_pool_2(tmpdir):
filename = str(tmpdir.join('test2.log'))
log = logging.getLogger('test2')
log.addHandler(logging.FileHandler(filename, 'w'))
log.setLevel(logging.DEBUG)
pool = Pool(size=3, init_call='math.sqrt', init_args=(81,), log=log,
name='test2')
assert pool.size == 3
assert pool.name == 'test2'
try:
result = yield pool.on_ready(timeout=5)
except Exception as e:
result = e
assert result is pool
assert pool.get_number_of_workers() == pool.size
result = yield pool.apply_async('math.factorial', (9,), timeout=5)
assert result == 362880
try:
result = yield pool.close(timeout=5)
except Exception as e:
result = e
assert result is pool
assert pool.get_number_of_workers() == 0
with open(filename, 'r') as f:
log_text = f.read()
pat1 = r'Pool "test2": process \d+ started\.'
pat2 = r'Pool "test2": process \d+ initialized\.'
pat3 = (r'Pool "test2" \[\d+\]: <Initializer object '
'at 0x[0-9a-f]+: math\.sqrt\(81\)>: 9\.0')
pat4 = (r'Pool "test2" \[\d+\]: <Job object '
'at 0x[0-9a-f]+: math\.factorial\(9\)>: 362880')
pat5 = r'Pool "test2": closing process \d+\.'
pat6 = r'Pool "test2" \[\d+\]: Stopping'
pat7 = (r'Pool "test2": process \d+ ended '
'\(exit-code=0, signal=None\) while idle\.')
assert len(re.findall(pat1, log_text)) == 3
assert len(re.findall(pat2, log_text)) == 3
assert len(re.findall(pat3, log_text)) == 3
assert len(re.findall(pat4, log_text)) == 1
assert len(re.findall(pat5, log_text)) == 3
assert len(re.findall(pat6, log_text)) == 3
assert len(re.findall(pat7, log_text)) == 3
def test_run_once(self):
pool = Pool(name='test1', run_once=True)
try:
result = yield pool.on_ready(timeout=5)
except Exception as e:
result = e
self.assertEqual(result, pool)
self.assertEqual(pool.get_number_of_workers(), 16)
workers1 = pool._manager.workers.copy()
# Verify that running a job successfully would create a new worker
try:
result = yield pool.apply_async('math.sqrt', (1, ), timeout=5)
except Exception as e:
result = e
self.assertEqual(result, 1.0)
self.assertEqual(pool.get_number_of_workers(), 15)
self.assertEqual(len(pool._manager.workers_waiting), 1)
# Take a short break to let old worker process terminate
yield task.deferLater(reactor, 1.0, lambda: None)
self.assertEqual(pool.get_number_of_workers(), 16)
self.assertEqual(len(pool._manager.workers_waiting), 0)
workers2 = pool._manager.workers.copy()
self.assertEqual(len(workers1.difference(workers2)), 1)
# Running into error should create a new worker too
try:
result = yield pool.apply_async('math.sqrt', (-1, ), timeout=5)
except Exception as e:
result = e
self.assertIsInstance(result, ValueError)
self.assertEqual(pool.get_number_of_workers(), 15)
self.assertEqual(len(pool._manager.workers_waiting), 1)
# Take a short break to let old worker process terminate
yield task.deferLater(reactor, 1.0, lambda: None)
self.assertEqual(pool.get_number_of_workers(), 16)
self.assertEqual(len(pool._manager.workers_waiting), 0)
workers3 = pool._manager.workers.copy()
self.assertEqual(len(workers2.difference(workers3)), 1)
self.assertEqual(len(workers1.difference(workers3)), 2)
# Ok, close the pool
try:
result = yield pool.close(timeout=5)
except Exception as e:
result = e
self.assertEqual(result, pool)
self.assertEqual(pool.get_number_of_workers(), 0)
def test_pool_1(self):
pool = Pool(name='test1')
assert pool.name == 'test1'
assert pool.size == cpu_count()
try:
result = yield pool.on_ready(timeout=5)
except Exception as e:
result = e
assert result is pool
assert pool.get_number_of_workers() == pool.size
directory = (os.path.dirname(__file__), )
dirs = (directory, ) * 4
calls = ('os.path.exists', 'os.path.isdir', 'os.path.isfile',
'os.path.islink')
results = yield gatherResults(map(pool.apply_async, calls, dirs))
exists, isdir, isfile, islink = results
assert exists is True
assert isdir is True
assert isfile is False
assert islink is False
try:
result = yield pool.apply_async('math.sqrt', (-1, ), timeout=5)
except Exception as e:
result = e
assert isinstance(result, ValueError)
try:
result = yield pool.apply_async(os.path.isdir,
directory,
timeout=5)
except Exception as e:
result = e
assert result is True
try:
result = yield pool.close(timeout=5)
except Exception as e:
result = e
assert result is pool
assert pool.get_number_of_workers() == 0
def test_pool_7(self):
pool = Pool(name='test7')
assert pool.name == 'test7'
assert pool.size == cpu_count()
try:
result = yield pool.on_ready(timeout=5)
except Exception as e:
result = e
assert result is pool
assert pool.get_number_of_workers() == pool.size
# Try using keyword arguments.
result = yield pool.apply_async(int, ('1010', ), dict(base=2))
assert result == 10
pool.close()
# Try "apply_async" after closing.
try:
result = yield pool.apply_async(int, ('1011', ), dict(base=2))
except Exception as e:
result = e
assert isinstance(result, PoolError)
# Try "on_ready" after closing.
try:
result = yield pool.on_ready(timeout=5)
except Exception as e:
result = e
assert isinstance(result, PoolError)
try:
result = yield pool.on_closure(timeout=5)
except Exception as e:
result = e
assert result is pool
assert pool.get_number_of_workers() == 0
# Call again after pool has closed.
try:
result = yield pool.on_closure()
except Exception as e:
result = e
assert result is pool
def test_pool_2(tmpdir):
filename = str(tmpdir.join('test2.log'))
log = logging.getLogger('test2')
log.addHandler(logging.FileHandler(filename, 'w'))
log.setLevel(logging.DEBUG)
pool = Pool(size=3,
init_call='math.sqrt',
init_args=(81, ),
log=log,
name='test2')
assert pool.size == 3
assert pool.name == 'test2'
try:
result = yield pool.on_ready(timeout=5)
except Exception, e:
result = e
def test_error_raised(self):
pool = Pool(name='test1')
try:
result = yield pool.on_ready(timeout=5)
except Exception as e:
result = e
self.assertEqual(result, pool)
try:
result = yield pool.apply_async('math.sqrt', (-1, ), timeout=5)
except Exception as e:
result = e
assert isinstance(result, ValueError)
try:
result = yield pool.close(timeout=5)
except Exception as e:
result = e
assert result is pool
assert pool.get_number_of_workers() == 0
try:
result = yield pool.on_ready(timeout=5)
except Exception, e:
result = e
assert result is pool
assert pool.get_number_of_workers() == pool.size
try:
result = yield pool.terminate(timeout=5)
except Exception, e:
result = e
assert result is pool
assert pool.get_number_of_workers() == 0
pool = Pool(size=10, name='test3b')
assert pool.size == 10
assert pool.name == 'test3b'
try:
result = yield pool.on_ready(timeout=5)
except Exception, e:
result = e
assert result is pool
assert pool.get_number_of_workers() == pool.size
pool.terminate()
try:
result = yield pool.on_closure(timeout=5)
def test_pool_8():
try:
pool = Pool(size=0, name='test8')
except Exception, e:
pool = e