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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))