upstream/ipython Files · IPython/kernel/pendingdeferred.py

This is a manual merge of certain things in the ipython1-dev branch, revision 46, into the main ...

This is a manual merge of certain things in the ipython1-dev branch, revision 46, into the main ipython branch. This is not a true merge in the formal sense because all history is not coming over with the files. For a detailed history of the added files, please see the ipython1-dev branch or the svn repository on scipy.org that ipython1-dev came from. More specifically, here is what I have done in this commit: 1) Moved the following by hand ipython1.config -> IPython.config ipython1.kernel -> IPython.kernel ipython1.external -> IPython.external ipython1.core -> IPython.kernel.core ipython1.testutils -> IPython.testing ipython1.tools -> IPython.tools 2) Moved IPython.tools.guid -> IPython1.external.guid 3) Renamed: ipython1 -> IPython IPython.core -> IPython.kernel.core IPython.testutils -> IPython.testing 4) Then did a "bzr add" for all the new stuff. That is all folks!

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      # encoding: utf-8

      # -*- test-case-name: IPython.kernel.test.test_pendingdeferred -*-

      """Classes to manage pending Deferreds.

      A pending deferred is a deferred that may or may not have fired.  This module

      is useful for taking a class whose methods return deferreds and wrapping it to

      provide API that keeps track of those deferreds for later retrieval.  See the

      tests for examples of its usage.

      """

      __docformat__ = "restructuredtext en"

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

      #  Copyright (C) 2008  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

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

      from twisted.application import service

      from twisted.internet import defer, reactor

      from twisted.python import log, components, failure

      from zope.interface import Interface, implements, Attribute

      from IPython.kernel.twistedutil import gatherBoth

      from IPython.kernel import error

      from IPython.external import guid

      from IPython.tools import growl

      class PendingDeferredManager(object):

          """A class to track pending deferreds.

          To track a pending deferred, the user of this class must first

          get a deferredID by calling `get_next_deferred_id`.  Then the user

          calls `save_pending_deferred` passing that id and the deferred to

          be tracked.  To later retrieve it, the user calls

          `get_pending_deferred` passing the id.

          """

          def __init__(self):

              """Manage pending deferreds."""

              self.results = {} # Populated when results are ready

              self.deferred_ids = [] # List of deferred ids I am managing

              self.deferreds_to_callback = {} # dict of lists of deferreds to callback

          def get_deferred_id(self):

              return guid.generate()

          def quick_has_id(self, deferred_id):

              return deferred_id in self.deferred_ids

          def _save_result(self, result, deferred_id):

              if self.quick_has_id(deferred_id):

                  self.results[deferred_id] = result

                  self._trigger_callbacks(deferred_id)

          def _trigger_callbacks(self, deferred_id):

              # Go through and call the waiting callbacks

              result = self.results.get(deferred_id)

              if result is not None:  # Only trigger if there is a result

                  try:

                      d = self.deferreds_to_callback.pop(deferred_id)

                  except KeyError:

                      d = None

                  if d is not None:

                      if isinstance(result, failure.Failure):

                          d.errback(result)

                      else:

                          d.callback(result)

                      self.delete_pending_deferred(deferred_id)

          def save_pending_deferred(self, d, deferred_id=None):

              """Save the result of a deferred for later retrieval.

              This works even if the deferred has not fired.

              Only callbacks and errbacks applied to d before this method

              is called will be called no the final result.

              """

              if deferred_id is None:

                  deferred_id = self.get_deferred_id()

              self.deferred_ids.append(deferred_id)

              d.addBoth(self._save_result, deferred_id)

              return deferred_id

          def _protected_del(self, key, container):

              try:

                  del container[key]

              except Exception:

                  pass

          def delete_pending_deferred(self, deferred_id):

              """Remove a deferred I am tracking and add a null Errback.

              :Parameters:

                  deferredID : str

                      The id of a deferred that I am tracking.

              """

              if self.quick_has_id(deferred_id):

                  # First go through a errback any deferreds that are still waiting

                  d = self.deferreds_to_callback.get(deferred_id)

                  if d is not None:

                      d.errback(failure.Failure(error.AbortedPendingDeferredError("pending deferred has been deleted: %r"%deferred_id)))

                  # Now delete all references to this deferred_id

                  ind = self.deferred_ids.index(deferred_id)

                  self._protected_del(ind, self.deferred_ids)

                  self._protected_del(deferred_id, self.deferreds_to_callback)

                  self._protected_del(deferred_id, self.results)            

              else:

                  raise error.InvalidDeferredID('invalid deferred_id: %r' % deferred_id)

          def clear_pending_deferreds(self):

              """Remove all the deferreds I am tracking."""

              for did in self.deferred_ids:

                  self.delete_pending_deferred(did)

          def _delete_and_pass_through(self, r, deferred_id):

              self.delete_pending_deferred(deferred_id)

              return r

          def get_pending_deferred(self, deferred_id, block):

              if not self.quick_has_id(deferred_id) or self.deferreds_to_callback.get(deferred_id) is not None:

                  return defer.fail(failure.Failure(error.InvalidDeferredID('invalid deferred_id: %r' + deferred_id)))

              result = self.results.get(deferred_id)

              if result is not None:

                  self.delete_pending_deferred(deferred_id)

                  if isinstance(result, failure.Failure):

                      return defer.fail(result)

                  else:

                      return defer.succeed(result)

              else:  # Result is not ready

                  if block:

                      d = defer.Deferred()

                      self.deferreds_to_callback[deferred_id] = d

                      return d

                  else:

                      return defer.fail(failure.Failure(error.ResultNotCompleted("result not completed: %r" % deferred_id)))

      def two_phase(wrapped_method):

          """Wrap methods that return a deferred into a two phase process.

          This transforms::

              foo(arg1, arg2, ...) -> foo(arg1, arg2,...,block=True).

          The wrapped method will then return a deferred to a deferred id.  This will

          only work on method of classes that inherit from `PendingDeferredManager`,

          as that class provides an API for 

          block is a boolean to determine if we should use the two phase process or

          just simply call the wrapped method.  At this point block does not have a

          default and it probably won't.

          """

          def wrapper_two_phase(pdm, *args, **kwargs):

              try:

                  block = kwargs.pop('block')

              except KeyError:

                  block = True  # The default if not specified

              if block:

                  return wrapped_method(pdm, *args, **kwargs)

              else:

                  d = wrapped_method(pdm, *args, **kwargs)

                  deferred_id=pdm.save_pending_deferred(d)

                  return defer.succeed(deferred_id)

          return wrapper_two_phase

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				# encoding: utf-8
				# -- test-case-name: IPython.kernel.test.test_pendingdeferred --

				"""Classes to manage pending Deferreds.

				A pending deferred is a deferred that may or may not have fired. This module
				is useful for taking a class whose methods return deferreds and wrapping it to
				provide API that keeps track of those deferreds for later retrieval. See the
				tests for examples of its usage.
				"""

				__docformat__ = "restructuredtext en"

				#-------------------------------------------------------------------------------
				# Copyright (C) 2008 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
				#-------------------------------------------------------------------------------

				from twisted.application import service
				from twisted.internet import defer, reactor
				from twisted.python import log, components, failure
				from zope.interface import Interface, implements, Attribute

				from IPython.kernel.twistedutil import gatherBoth
				from IPython.kernel import error
				from IPython.external import guid
				from IPython.tools import growl

				class PendingDeferredManager(object):
				"""A class to track pending deferreds.

				To track a pending deferred, the user of this class must first
				get a deferredID by calling `get_next_deferred_id`. Then the user
				calls `save_pending_deferred` passing that id and the deferred to
				be tracked. To later retrieve it, the user calls
				`get_pending_deferred` passing the id.
				"""

				def __init__(self):
				"""Manage pending deferreds."""

				self.results = {} # Populated when results are ready
				self.deferred_ids = [] # List of deferred ids I am managing
				self.deferreds_to_callback = {} # dict of lists of deferreds to callback

				def get_deferred_id(self):
				return guid.generate()

				def quick_has_id(self, deferred_id):
				return deferred_id in self.deferred_ids

				def _save_result(self, result, deferred_id):
				if self.quick_has_id(deferred_id):
				self.results[deferred_id] = result
				self._trigger_callbacks(deferred_id)

				def _trigger_callbacks(self, deferred_id):
				# Go through and call the waiting callbacks
				result = self.results.get(deferred_id)
				if result is not None: # Only trigger if there is a result
				try:
				d = self.deferreds_to_callback.pop(deferred_id)
				except KeyError:
				d = None
				if d is not None:
				if isinstance(result, failure.Failure):
				d.errback(result)
				else:
				d.callback(result)
				self.delete_pending_deferred(deferred_id)

				def save_pending_deferred(self, d, deferred_id=None):
				"""Save the result of a deferred for later retrieval.

				This works even if the deferred has not fired.

				Only callbacks and errbacks applied to d before this method
				is called will be called no the final result.
				"""
				if deferred_id is None:
				deferred_id = self.get_deferred_id()
				self.deferred_ids.append(deferred_id)
				d.addBoth(self._save_result, deferred_id)
				return deferred_id

				def _protected_del(self, key, container):
				try:
				del container[key]
				except Exception:
				pass

				def delete_pending_deferred(self, deferred_id):
				"""Remove a deferred I am tracking and add a null Errback.

				:Parameters:
				deferredID : str
				The id of a deferred that I am tracking.
				"""
				if self.quick_has_id(deferred_id):
				# First go through a errback any deferreds that are still waiting
				d = self.deferreds_to_callback.get(deferred_id)
				if d is not None:
				d.errback(failure.Failure(error.AbortedPendingDeferredError("pending deferred has been deleted: %r"%deferred_id)))
				# Now delete all references to this deferred_id
				ind = self.deferred_ids.index(deferred_id)
				self._protected_del(ind, self.deferred_ids)
				self._protected_del(deferred_id, self.deferreds_to_callback)
				self._protected_del(deferred_id, self.results)
				else:
				raise error.InvalidDeferredID('invalid deferred_id: %r' % deferred_id)

				def clear_pending_deferreds(self):
				"""Remove all the deferreds I am tracking."""
				for did in self.deferred_ids:
				self.delete_pending_deferred(did)

				def _delete_and_pass_through(self, r, deferred_id):
				self.delete_pending_deferred(deferred_id)
				return r

				def get_pending_deferred(self, deferred_id, block):
				if not self.quick_has_id(deferred_id) or self.deferreds_to_callback.get(deferred_id) is not None:
				return defer.fail(failure.Failure(error.InvalidDeferredID('invalid deferred_id: %r' + deferred_id)))
				result = self.results.get(deferred_id)
				if result is not None:
				self.delete_pending_deferred(deferred_id)
				if isinstance(result, failure.Failure):
				return defer.fail(result)
				else:
				return defer.succeed(result)
				else: # Result is not ready
				if block:
				d = defer.Deferred()
				self.deferreds_to_callback[deferred_id] = d
				return d
				else:
				return defer.fail(failure.Failure(error.ResultNotCompleted("result not completed: %r" % deferred_id)))

				def two_phase(wrapped_method):
				"""Wrap methods that return a deferred into a two phase process.

				This transforms::

				foo(arg1, arg2, ...) -> foo(arg1, arg2,...,block=True).

				The wrapped method will then return a deferred to a deferred id. This will
				only work on method of classes that inherit from `PendingDeferredManager`,
				as that class provides an API for

				block is a boolean to determine if we should use the two phase process or
				just simply call the wrapped method. At this point block does not have a
				default and it probably won't.
				"""

				def wrapper_two_phase(pdm, args, *kwargs):
				try:
				block = kwargs.pop('block')
				except KeyError:
				block = True # The default if not specified
				if block:
				return wrapped_method(pdm, args, *kwargs)
				else:
				d = wrapped_method(pdm, args, *kwargs)
				deferred_id=pdm.save_pending_deferred(d)
				return defer.succeed(deferred_id)

				return wrapper_two_phase