def setUp(self):
self.workers = WorkersPool()
self.workers.start()
self.timers = TimersPool(self.workers)
self.timers.start()
class TestTasks(unittest.TestCase):
@classmethod
def setUpClass(cls):
pass
def setUp(self):
self.workers = WorkersPool()
self.workers.start()
self.timers = TimersPool(self.workers)
self.timers.start()
def test_workerspool_values(self):
# the only way to relate a task to its future is by keeping proper
# track of which execution request returned which future
tasks = [ Task('task%d'%i, f, i+1,i+2,i+3) for i in range( self.workers.num_workers ) ]
futures = [ self.workers.request(task) for task in tasks ]
print "waiting..."
[ fut.wait() for fut in futures ]
print "done!"
for i, fut in enumerate(futures):
self.assertTrue( fut.ready )
self.assertTrue( fut.successful )
result = fut.get()
self.assertEqual( i+1+i+2+i+3, result )
def test_workerspool_blocking_get(self):
tasks = [ Task('task%d'%i, f, i+1,i+2,i+3) for i in range( self.workers.num_workers ) ]
futures = [ self.workers.request(task) for task in tasks ]
print "waiting..."
for i, fut in enumerate(futures):
result = fut.get() # this ought to block
self.assertTrue( result )
self.assertEqual( i+1+i+2+i+3, result )
print "done!"
def test_workerspool_timeout_get(self):
task = Task('task', f, 1,2,3)
future = self.workers.request(task)
print "waiting..."
self.assertRaises(multiprocessing.TimeoutError, future.get, timeout=1)
print "done!"
def test_workerspool_callback(self):
class NS: pass
ns = NS() #hacky way to the able to modify enclosure vars
ns.cb_invoked = False
def cb(value):
ns.cb_invoked = True
self.assertEqual(value, 1+2+3)
task = Task('task', f, 1,2,3)
future = self.workers.request(task, cb)
print "waiting..."
future.wait()
print "done!"
self.assertTrue(ns.cb_invoked)
#############################
def test_timer_callbacks(self):
results = defaultdict(list)
def wrapper(src):
def cb(value):
logger.info("Result %f from '%s'", value, src)
results[src].append(value)
return cb
n_timers = 4
tasks = [ Task('task%d'%i, g) for i in range(n_timers) ]
cbs = [ wrapper(task.name) for task in tasks ]
for i,task in enumerate(tasks):
self.timers.schedule(task, period=i+1, callback=cbs[i])
# periods go from 1 to n_timers
sleep_for = 12 # lcm of 1,2,3,4
time.sleep(sleep_for+0.2)
self.timers.stop() # implicit join
for i,task in enumerate(tasks):
result_for_task = results[task.name]
self.assertEqual( len(result_for_task), sleep_for//(i+1) )
def test_timer_values(self):
results = []
def cb(value):
results.append(value)
task = Task('task', g)
period = random.randint(1,5)
reps = random.randint(1,5)
self.timers.schedule(task, period, cb)
time.sleep(reps*period + 0.2)
self.timers.stop() # implicit join
self.assertEqual(len(results), reps)
task0res = results[0]
for i in range(1,len(results)):
self.assertAlmostEqual(results[i] - task0res, i*period, delta=0.1)
def test_timer_invalid(self):
self.assertRaises(ValueError, self.timers.schedule, Task("invalid",g), 0)
def test_timer_removal(self):
n_timers = 4
self.assertRaises(ValueError, self.timers.schedule, Task("invalid",g), 0)
tasks = [ Task('task%d'%i, g) for i in range(n_timers) ]
for i,task in enumerate(tasks):
self.timers.schedule( task, i+1)
time.sleep(3)
for task in tasks:
self.timers.remove_task( task.name )
time.sleep(1)
self.assertEqual(self.timers.num_active_tasks, 0)
self.timers.stop()
def tearDown(self):
pass
@classmethod
def tearDownClass(cls):
pass
