upstream/ipython Files · IPython/parallel/tests/test_lbview.py

Backport PR : Fix interact animation page jump FF...

Backport PR : Fix interact animation page jump FF Firefox doesn't render images immediately as the data is available. When animating the way that we animate, this causes the output area to collapse quickly before returning to its original size. When the output area collapses, FireFox scrolls upwards in attempt to compensate for the lost vertical content (so it looks like you are on the same spot in the page, with respect to the contents below the image's prior location). The solution is to resize the image output after the `img onload` event has fired. This PR: - Releases the `clear_output` height lock after the image has been loaded (instead of immediately or using a timeout). - Removes a `setTimeout` call in the `append_output` method. - `clear_output` in zmqshell no longer sends `\r` to the stream outputs. closes

Thomas Kluyver - - Load All Authors

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      # -*- 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))

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				# -- 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))