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             utils.py
        
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             / IPython / kernel / tests / utils.py
          
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      """utilities for testing IPython kernels"""

      # Copyright (c) IPython Development Team.

      # Distributed under the terms of the Modified BSD License.

      import atexit

      from contextlib import contextmanager

      from subprocess import PIPE, STDOUT

      try:

          from queue import Empty  # Py 3

      except ImportError:

          from Queue import Empty  # Py 2

      import nose

      import nose.tools as nt

      from IPython.kernel import KernelManager

      #-------------------------------------------------------------------------------

      # Globals

      #-------------------------------------------------------------------------------

      STARTUP_TIMEOUT = 60

      TIMEOUT = 15

      KM = None

      KC = None

      #-------------------------------------------------------------------------------

      # code

      #-------------------------------------------------------------------------------

      def start_new_kernel(argv=None):

          """start a new kernel, and return its Manager and Client"""

          km = KernelManager()

          kwargs = dict(stdout=nose.iptest_stdstreams_fileno(), stderr=STDOUT)

          if argv:

              kwargs['extra_arguments'] = argv

          km.start_kernel(**kwargs)

          kc = km.client()

          kc.start_channels()

          msg_id = kc.kernel_info()

          kc.get_shell_msg(block=True, timeout=STARTUP_TIMEOUT)

          flush_channels(kc)

          return km, kc

      def flush_channels(kc=None):

          """flush any messages waiting on the queue"""

          from .test_message_spec import validate_message

          if kc is None:

              kc = KC

          for channel in (kc.shell_channel, kc.iopub_channel):

              while True:

                  try:

                      msg = channel.get_msg(block=True, timeout=0.1)

                  except Empty:

                      break

                  else:

                      validate_message(msg)

      def execute(code='', kc=None, **kwargs):

          """wrapper for doing common steps for validating an execution request"""

          from .test_message_spec import validate_message

          if kc is None:

              kc = KC

          msg_id = kc.execute(code=code, **kwargs)

          reply = kc.get_shell_msg(timeout=TIMEOUT)

          validate_message(reply, 'execute_reply', msg_id)

          busy = kc.get_iopub_msg(timeout=TIMEOUT)

          validate_message(busy, 'status', msg_id)

          nt.assert_equal(busy['content']['execution_state'], 'busy')

          if not kwargs.get('silent'):

              execute_input = kc.get_iopub_msg(timeout=TIMEOUT)

              validate_message(execute_input, 'execute_input', msg_id)

              nt.assert_equal(execute_input['content']['code'], code)

          return msg_id, reply['content']

      def start_global_kernel():

          """start the global kernel (if it isn't running) and return its client"""

          global KM, KC

          if KM is None:

              KM, KC = start_new_kernel()

              atexit.register(stop_global_kernel)

          return KC

      @contextmanager

      def kernel():

          """Context manager for the global kernel instance

          Should be used for most kernel tests

          Returns

          -------

          kernel_client: connected KernelClient instance

          """

          yield start_global_kernel()

      def uses_kernel(test_f):

          """Decorator for tests that use the global kernel"""

          def wrapped_test():

              with kernel() as kc:

                  test_f(kc)

          wrapped_test.__doc__ = test_f.__doc__

          wrapped_test.__name__ = test_f.__name__

          return wrapped_test

      def stop_global_kernel():

          """Stop the global shared kernel instance, if it exists"""

          global KM, KC

          KC.stop_channels()

          KC = None

          if KM is None:

              return

          KM.shutdown_kernel(now=True)

          KM = None

      @contextmanager

      def new_kernel(argv=None):

          """Context manager for a new kernel in a subprocess

          Should only be used for tests where the kernel must not be re-used.

          Returns

          -------

          kernel_client: connected KernelClient instance

          """

          km, kc = start_new_kernel(argv)

          try:

              yield kc

          finally:

              kc.stop_channels()

              km.shutdown_kernel(now=True)

      def assemble_output(iopub):

          """assemble stdout/err from an execution"""

          stdout = ''

          stderr = ''

          while True:

              msg = iopub.get_msg(block=True, timeout=1)

              msg_type = msg['msg_type']

              content = msg['content']

              if msg_type == 'status' and content['execution_state'] == 'idle':

                  # idle message signals end of output

                  break

              elif msg['msg_type'] == 'stream':

                  if content['name'] == 'stdout':

                      stdout += content['data']

                  elif content['name'] == 'stderr':

                      stderr += content['data']

                  else:

                      raise KeyError("bad stream: %r" % content['name'])

              else:

                  # other output, ignored

                  pass

          return stdout, stderr

      def wait_for_idle(kc):

          while True:

              msg = kc.iopub_channel.get_msg(block=True, timeout=1)

              msg_type = msg['msg_type']

              content = msg['content']

              if msg_type == 'status' and content['execution_state'] == 'idle':

                  break

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				"""utilities for testing IPython kernels"""

				# Copyright (c) IPython Development Team.
				# Distributed under the terms of the Modified BSD License.

				import atexit

				from contextlib import contextmanager
				from subprocess import PIPE, STDOUT
				try:
				from queue import Empty # Py 3
				except ImportError:
				from Queue import Empty # Py 2

				import nose
				import nose.tools as nt

				from IPython.kernel import KernelManager

				#-------------------------------------------------------------------------------
				# Globals
				#-------------------------------------------------------------------------------

				STARTUP_TIMEOUT = 60
				TIMEOUT = 15

				KM = None
				KC = None

				#-------------------------------------------------------------------------------
				# code
				#-------------------------------------------------------------------------------


				def start_new_kernel(argv=None):
				"""start a new kernel, and return its Manager and Client"""
				km = KernelManager()
				kwargs = dict(stdout=nose.iptest_stdstreams_fileno(), stderr=STDOUT)
				if argv:
				kwargs['extra_arguments'] = argv
				km.start_kernel(**kwargs)
				kc = km.client()
				kc.start_channels()

				msg_id = kc.kernel_info()
				kc.get_shell_msg(block=True, timeout=STARTUP_TIMEOUT)
				flush_channels(kc)
				return km, kc

				def flush_channels(kc=None):
				"""flush any messages waiting on the queue"""
				from .test_message_spec import validate_message

				if kc is None:
				kc = KC
				for channel in (kc.shell_channel, kc.iopub_channel):
				while True:
				try:
				msg = channel.get_msg(block=True, timeout=0.1)
				except Empty:
				break
				else:
				validate_message(msg)


				def execute(code='', kc=None, **kwargs):
				"""wrapper for doing common steps for validating an execution request"""
				from .test_message_spec import validate_message
				if kc is None:
				kc = KC
				msg_id = kc.execute(code=code, **kwargs)
				reply = kc.get_shell_msg(timeout=TIMEOUT)
				validate_message(reply, 'execute_reply', msg_id)
				busy = kc.get_iopub_msg(timeout=TIMEOUT)
				validate_message(busy, 'status', msg_id)
				nt.assert_equal(busy['content']['execution_state'], 'busy')

				if not kwargs.get('silent'):
				execute_input = kc.get_iopub_msg(timeout=TIMEOUT)
				validate_message(execute_input, 'execute_input', msg_id)
				nt.assert_equal(execute_input['content']['code'], code)

				return msg_id, reply['content']

				def start_global_kernel():
				"""start the global kernel (if it isn't running) and return its client"""
				global KM, KC
				if KM is None:
				KM, KC = start_new_kernel()
				atexit.register(stop_global_kernel)
				return KC

				@contextmanager
				def kernel():
				"""Context manager for the global kernel instance

				Should be used for most kernel tests

				Returns
				-------
				kernel_client: connected KernelClient instance
				"""
				yield start_global_kernel()

				def uses_kernel(test_f):
				"""Decorator for tests that use the global kernel"""
				def wrapped_test():
				with kernel() as kc:
				test_f(kc)
				wrapped_test.__doc__ = test_f.__doc__
				wrapped_test.__name__ = test_f.__name__
				return wrapped_test

				def stop_global_kernel():
				"""Stop the global shared kernel instance, if it exists"""
				global KM, KC
				KC.stop_channels()
				KC = None
				if KM is None:
				return
				KM.shutdown_kernel(now=True)
				KM = None

				@contextmanager
				def new_kernel(argv=None):
				"""Context manager for a new kernel in a subprocess

				Should only be used for tests where the kernel must not be re-used.

				Returns
				-------
				kernel_client: connected KernelClient instance
				"""
				km, kc = start_new_kernel(argv)
				try:
				yield kc
				finally:
				kc.stop_channels()
				km.shutdown_kernel(now=True)


				def assemble_output(iopub):
				"""assemble stdout/err from an execution"""
				stdout = ''
				stderr = ''
				while True:
				msg = iopub.get_msg(block=True, timeout=1)
				msg_type = msg['msg_type']
				content = msg['content']
				if msg_type == 'status' and content['execution_state'] == 'idle':
				# idle message signals end of output
				break
				elif msg['msg_type'] == 'stream':
				if content['name'] == 'stdout':
				stdout += content['data']
				elif content['name'] == 'stderr':
				stderr += content['data']
				else:
				raise KeyError("bad stream: %r" % content['name'])
				else:
				# other output, ignored
				pass
				return stdout, stderr

				def wait_for_idle(kc):
				while True:
				msg = kc.iopub_channel.get_msg(block=True, timeout=1)
				msg_type = msg['msg_type']
				content = msg['content']
				if msg_type == 'status' and content['execution_state'] == 'idle':
				break