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Fix some this vs. that errors, as well as returning some promises to wait for fulfillment
Fix some this vs. that errors, as well as returning some promises to wait for fulfillment

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test_lbview.py
221 lines | 6.9 KiB | text/x-python | PythonLexer
# -*- coding: utf-8 -*-
"""test LoadBalancedView objects
Authors:
* Min RK
"""
#-------------------------------------------------------------------------------
# Copyright (C) 2011 The IPython Development Team
#
# Distributed under the terms of the BSD License. The full license is in
# the file COPYING, distributed as part of this software.
#-------------------------------------------------------------------------------
#-------------------------------------------------------------------------------
# Imports
#-------------------------------------------------------------------------------
import sys
import time
import zmq
from nose import SkipTest
from nose.plugins.attrib import attr
from IPython import parallel as pmod
from IPython.parallel import error
from IPython.parallel.tests import add_engines
from .clienttest import ClusterTestCase, crash, wait, skip_without
def setup():
add_engines(3, total=True)
class TestLoadBalancedView(ClusterTestCase):
def setUp(self):
ClusterTestCase.setUp(self)
self.view = self.client.load_balanced_view()
@attr('crash')
def test_z_crash_task(self):
"""test graceful handling of engine death (balanced)"""
# self.add_engines(1)
ar = self.view.apply_async(crash)
self.assertRaisesRemote(error.EngineError, ar.get, 10)
eid = ar.engine_id
tic = time.time()
while eid in self.client.ids and time.time()-tic < 5:
time.sleep(.01)
self.client.spin()
self.assertFalse(eid in self.client.ids, "Engine should have died")
def test_map(self):
def f(x):
return x**2
data = list(range(16))
r = self.view.map_sync(f, data)
self.assertEqual(r, list(map(f, data)))
def test_map_generator(self):
def f(x):
return x**2
data = list(range(16))
r = self.view.map_sync(f, iter(data))
self.assertEqual(r, list(map(f, iter(data))))
def test_map_short_first(self):
def f(x,y):
if y is None:
return y
if x is None:
return x
return x*y
data = list(range(10))
data2 = list(range(4))
r = self.view.map_sync(f, data, data2)
self.assertEqual(r, list(map(f, data, data2)))
def test_map_short_last(self):
def f(x,y):
if y is None:
return y
if x is None:
return x
return x*y
data = list(range(4))
data2 = list(range(10))
r = self.view.map_sync(f, data, data2)
self.assertEqual(r, list(map(f, data, data2)))
def test_map_unordered(self):
def f(x):
return x**2
def slow_f(x):
import time
time.sleep(0.05*x)
return x**2
data = list(range(16,0,-1))
reference = list(map(f, data))
amr = self.view.map_async(slow_f, data, ordered=False)
self.assertTrue(isinstance(amr, pmod.AsyncMapResult))
# check individual elements, retrieved as they come
# list comprehension uses __iter__
astheycame = [ r for r in amr ]
# Ensure that at least one result came out of order:
self.assertNotEqual(astheycame, reference, "should not have preserved order")
self.assertEqual(sorted(astheycame, reverse=True), reference, "result corrupted")
def test_map_ordered(self):
def f(x):
return x**2
def slow_f(x):
import time
time.sleep(0.05*x)
return x**2
data = list(range(16,0,-1))
reference = list(map(f, data))
amr = self.view.map_async(slow_f, data)
self.assertTrue(isinstance(amr, pmod.AsyncMapResult))
# check individual elements, retrieved as they come
# list(amr) uses __iter__
astheycame = list(amr)
# Ensure that results came in order
self.assertEqual(astheycame, reference)
self.assertEqual(amr.result, reference)
def test_map_iterable(self):
"""test map on iterables (balanced)"""
view = self.view
# 101 is prime, so it won't be evenly distributed
arr = range(101)
# so that it will be an iterator, even in Python 3
it = iter(arr)
r = view.map_sync(lambda x:x, arr)
self.assertEqual(r, list(arr))
def test_abort(self):
view = self.view
ar = self.client[:].apply_async(time.sleep, .5)
ar = self.client[:].apply_async(time.sleep, .5)
time.sleep(0.2)
ar2 = view.apply_async(lambda : 2)
ar3 = view.apply_async(lambda : 3)
view.abort(ar2)
view.abort(ar3.msg_ids)
self.assertRaises(error.TaskAborted, ar2.get)
self.assertRaises(error.TaskAborted, ar3.get)
def test_retries(self):
self.minimum_engines(3)
view = self.view
def fail():
assert False
for r in range(len(self.client)-1):
with view.temp_flags(retries=r):
self.assertRaisesRemote(AssertionError, view.apply_sync, fail)
with view.temp_flags(retries=len(self.client), timeout=0.1):
self.assertRaisesRemote(error.TaskTimeout, view.apply_sync, fail)
def test_short_timeout(self):
self.minimum_engines(2)
view = self.view
def fail():
import time
time.sleep(0.25)
assert False
with view.temp_flags(retries=1, timeout=0.01):
self.assertRaisesRemote(AssertionError, view.apply_sync, fail)
def test_invalid_dependency(self):
view = self.view
with view.temp_flags(after='12345'):
self.assertRaisesRemote(error.InvalidDependency, view.apply_sync, lambda : 1)
def test_impossible_dependency(self):
self.minimum_engines(2)
view = self.client.load_balanced_view()
ar1 = view.apply_async(lambda : 1)
ar1.get()
e1 = ar1.engine_id
e2 = e1
while e2 == e1:
ar2 = view.apply_async(lambda : 1)
ar2.get()
e2 = ar2.engine_id
with view.temp_flags(follow=[ar1, ar2]):
self.assertRaisesRemote(error.ImpossibleDependency, view.apply_sync, lambda : 1)
def test_follow(self):
ar = self.view.apply_async(lambda : 1)
ar.get()
ars = []
first_id = ar.engine_id
self.view.follow = ar
for i in range(5):
ars.append(self.view.apply_async(lambda : 1))
self.view.wait(ars)
for ar in ars:
self.assertEqual(ar.engine_id, first_id)
def test_after(self):
view = self.view
ar = view.apply_async(time.sleep, 0.5)
with view.temp_flags(after=ar):
ar2 = view.apply_async(lambda : 1)
ar.wait()
ar2.wait()
self.assertTrue(ar2.started >= ar.completed, "%s not >= %s"%(ar.started, ar.completed))