upstream/ipython Files · IPython/kernel/tests/test_multikernelmanager.py

normalize unicode notebook filenames...

normalize unicode notebook filenames used in comparison check for notebook name change. Unless the filenames are normalized, unchanged names may result in false positives for a name change (e.g. OS X uses NFD on the filesystem, so u'\xfc' roundtripped to the filesystem will be u'u\u0308'), which can result in the first save of a notebook after open performing the following actions: 1. save the recently opened notebook 2. `old_name != new_name`, so name change detected 3. delete old_name (which is actually new_name), which ultimately deletes the just-saved notebook In master, this has a symptom of the first checkpoint failing because the first save actually deleted the file, and you can't checkpoint a notebook that doesn't exist. closes

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             test_multikernelmanager.py
        
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      """Tests for the notebook kernel and session manager."""

      from subprocess import PIPE

      import time

      from unittest import TestCase

      from IPython.testing import decorators as dec

      from IPython.config.loader import Config

      from IPython.utils.localinterfaces import LOCALHOST

      from IPython.kernel import KernelManager

      from IPython.kernel.multikernelmanager import MultiKernelManager

      class TestKernelManager(TestCase):

          def _get_tcp_km(self):

              c = Config()

              km = MultiKernelManager(config=c)

              return km

          def _get_ipc_km(self):

              c = Config()

              c.KernelManager.transport = 'ipc'

              c.KernelManager.ip = 'test'

              km = MultiKernelManager(config=c)

              return km

          def _run_lifecycle(self, km):

              kid = km.start_kernel(stdout=PIPE, stderr=PIPE)

              self.assertTrue(km.is_alive(kid))

              self.assertTrue(kid in km)

              self.assertTrue(kid in km.list_kernel_ids())

              self.assertEqual(len(km),1)

              km.restart_kernel(kid)

              self.assertTrue(km.is_alive(kid))

              self.assertTrue(kid in km.list_kernel_ids())

              # We need a delay here to give the restarting kernel a chance to

              # restart. Otherwise, the interrupt will kill it, causing the test

              # suite to hang. The reason it *hangs* is that the shutdown

              # message for the restart sometimes hasn't been sent to the kernel.

              # Because linger is oo on the shell channel, the context can't

              # close until the message is sent to the kernel, which is not dead.

              time.sleep(1.0)

              km.interrupt_kernel(kid)

              k = km.get_kernel(kid)

              self.assertTrue(isinstance(k, KernelManager))

              km.shutdown_kernel(kid)

              self.assertTrue(not kid in km)

          def _run_cinfo(self, km, transport, ip):

              kid = km.start_kernel(stdout=PIPE, stderr=PIPE)

              k = km.get_kernel(kid)

              cinfo = km.get_connection_info(kid)

              self.assertEqual(transport, cinfo['transport'])

              self.assertEqual(ip, cinfo['ip'])

              self.assertTrue('stdin_port' in cinfo)

              self.assertTrue('iopub_port' in cinfo)

              stream = km.connect_iopub(kid)

              stream.close()

              self.assertTrue('shell_port' in cinfo)

              stream = km.connect_shell(kid)

              stream.close()

              self.assertTrue('hb_port' in cinfo)

              stream = km.connect_hb(kid)

              stream.close()

              km.shutdown_kernel(kid)

          def test_tcp_lifecycle(self):

              km = self._get_tcp_km()

              self._run_lifecycle(km)

          def test_tcp_cinfo(self):

              km = self._get_tcp_km()

              self._run_cinfo(km, 'tcp', LOCALHOST)

          @dec.skip_win32

          def test_ipc_lifecycle(self):

              km = self._get_ipc_km()

              self._run_lifecycle(km)

          @dec.skip_win32

          def test_ipc_cinfo(self):

              km = self._get_ipc_km()

              self._run_cinfo(km, 'ipc', 'test')

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				"""Tests for the notebook kernel and session manager."""

				from subprocess import PIPE
				import time
				from unittest import TestCase

				from IPython.testing import decorators as dec

				from IPython.config.loader import Config
				from IPython.utils.localinterfaces import LOCALHOST
				from IPython.kernel import KernelManager
				from IPython.kernel.multikernelmanager import MultiKernelManager

				class TestKernelManager(TestCase):

				def _get_tcp_km(self):
				c = Config()
				km = MultiKernelManager(config=c)
				return km

				def _get_ipc_km(self):
				c = Config()
				c.KernelManager.transport = 'ipc'
				c.KernelManager.ip = 'test'
				km = MultiKernelManager(config=c)
				return km

				def _run_lifecycle(self, km):
				kid = km.start_kernel(stdout=PIPE, stderr=PIPE)
				self.assertTrue(km.is_alive(kid))
				self.assertTrue(kid in km)
				self.assertTrue(kid in km.list_kernel_ids())
				self.assertEqual(len(km),1)
				km.restart_kernel(kid)
				self.assertTrue(km.is_alive(kid))
				self.assertTrue(kid in km.list_kernel_ids())
				# We need a delay here to give the restarting kernel a chance to
				# restart. Otherwise, the interrupt will kill it, causing the test
				# suite to hang. The reason it hangs is that the shutdown
				# message for the restart sometimes hasn't been sent to the kernel.
				# Because linger is oo on the shell channel, the context can't
				# close until the message is sent to the kernel, which is not dead.
				time.sleep(1.0)
				km.interrupt_kernel(kid)
				k = km.get_kernel(kid)
				self.assertTrue(isinstance(k, KernelManager))
				km.shutdown_kernel(kid)
				self.assertTrue(not kid in km)

				def _run_cinfo(self, km, transport, ip):
				kid = km.start_kernel(stdout=PIPE, stderr=PIPE)
				k = km.get_kernel(kid)
				cinfo = km.get_connection_info(kid)
				self.assertEqual(transport, cinfo['transport'])
				self.assertEqual(ip, cinfo['ip'])
				self.assertTrue('stdin_port' in cinfo)
				self.assertTrue('iopub_port' in cinfo)
				stream = km.connect_iopub(kid)
				stream.close()
				self.assertTrue('shell_port' in cinfo)
				stream = km.connect_shell(kid)
				stream.close()
				self.assertTrue('hb_port' in cinfo)
				stream = km.connect_hb(kid)
				stream.close()
				km.shutdown_kernel(kid)

				def test_tcp_lifecycle(self):
				km = self._get_tcp_km()
				self._run_lifecycle(km)

				def test_tcp_cinfo(self):
				km = self._get_tcp_km()
				self._run_cinfo(km, 'tcp', LOCALHOST)

				@dec.skip_win32
				def test_ipc_lifecycle(self):
				km = self._get_ipc_km()
				self._run_lifecycle(km)

				@dec.skip_win32
				def test_ipc_cinfo(self):
				km = self._get_ipc_km()
				self._run_cinfo(km, 'ipc', 'test')