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      """Views of remote engines"""

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

      #  Copyright (C) 2010  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 IPython.external.decorator import decorator

      from IPython.zmq.parallel.remotefunction import ParallelFunction, parallel

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

      # Decorators

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

      @decorator

      def myblock(f, self, *args, **kwargs):

          """override client.block with self.block during a call"""

          block = self.client.block

          self.client.block = self.block

          try:

              ret = f(self, *args, **kwargs)

          finally:

              self.client.block = block

          return ret

      @decorator

      def save_ids(f, self, *args, **kwargs):

          """Keep our history and outstanding attributes up to date after a method call."""

          n_previous = len(self.client.history)

          ret = f(self, *args, **kwargs)

          nmsgs = len(self.client.history) - n_previous

          msg_ids = self.client.history[-nmsgs:]

          self.history.extend(msg_ids)

          map(self.outstanding.add, msg_ids)

          return ret

      @decorator

      def sync_results(f, self, *args, **kwargs):

          """sync relevant results from self.client to our results attribute."""

          ret = f(self, *args, **kwargs)

          delta = self.outstanding.difference(self.client.outstanding)

          completed = self.outstanding.intersection(delta)

          self.outstanding = self.outstanding.difference(completed)

          for msg_id in completed:

              self.results[msg_id] = self.client.results[msg_id]

          return ret

      @decorator

      def spin_after(f, self, *args, **kwargs):

          """call spin after the method."""

          ret = f(self, *args, **kwargs)

          self.spin()

          return ret

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

      # Classes

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

      class View(object):

          """Base View class for more convenint apply(f,*args,**kwargs) syntax via attributes.

          Don't use this class, use subclasses.

          """

          _targets = None

          block=None

          bound=None

          history=None

          def __init__(self, client, targets=None):

              self.client = client

              self._targets = targets

              self._ntargets = 1 if isinstance(targets, (int,type(None))) else len(targets)

              self.block = client.block

              self.bound=False

              self.history = []

              self.outstanding = set()

              self.results = {}

          def __repr__(self):

              strtargets = str(self._targets)

              if len(strtargets) > 16:

                  strtargets = strtargets[:12]+'...]'

              return "<%s %s>"%(self.__class__.__name__, strtargets)

          @property

          def targets(self):

              return self._targets

          @targets.setter

          def targets(self, value):

              self._targets = value

              # raise AttributeError("Cannot set my targets argument after construction!")

          @sync_results

          def spin(self):

              """spin the client, and sync"""

              self.client.spin()

          @sync_results

          @save_ids

          def apply(self, f, *args, **kwargs):

              """calls f(*args, **kwargs) on remote engines, returning the result.

              This method does not involve the engine's namespace.

              if self.block is False:

                  returns msg_id

              else:

                  returns actual result of f(*args, **kwargs)

              """

              return self.client.apply(f, args, kwargs, block=self.block, targets=self.targets, bound=self.bound)

          @save_ids

          def apply_async(self, f, *args, **kwargs):

              """calls f(*args, **kwargs) on remote engines in a nonblocking manner.

              This method does not involve the engine's namespace.

              returns msg_id

              """

              return self.client.apply(f,args,kwargs, block=False, targets=self.targets, bound=False)

          @spin_after

          @save_ids

          def apply_sync(self, f, *args, **kwargs):

              """calls f(*args, **kwargs) on remote engines in a blocking manner,

               returning the result.

              This method does not involve the engine's namespace.

              returns: actual result of f(*args, **kwargs)

              """

              return self.client.apply(f,args,kwargs, block=True, targets=self.targets, bound=False)

          @sync_results

          @save_ids

          def apply_bound(self, f, *args, **kwargs):

              """calls f(*args, **kwargs) bound to engine namespace(s).

              if self.block is False:

                  returns msg_id

              else:

                  returns actual result of f(*args, **kwargs)

              This method has access to the targets' globals

              """

              return self.client.apply(f, args, kwargs, block=self.block, targets=self.targets, bound=True)

          @sync_results

          @save_ids

          def apply_async_bound(self, f, *args, **kwargs):

              """calls f(*args, **kwargs) bound to engine namespace(s) 

              in a nonblocking manner.

              returns: msg_id

              This method has access to the targets' globals

              """

              return self.client.apply(f, args, kwargs, block=False, targets=self.targets, bound=True)

          @spin_after

          @save_ids

          def apply_sync_bound(self, f, *args, **kwargs):

              """calls f(*args, **kwargs) bound to engine namespace(s), waiting for the result.

              returns: actual result of f(*args, **kwargs)

              This method has access to the targets' globals

              """

              return self.client.apply(f, args, kwargs, block=True, targets=self.targets, bound=True)

          @spin_after

          @save_ids

          def map(self, f, *sequences):

              """Parallel version of builtin `map`, using this view's engines."""

              if isinstance(self.targets, int):

                  targets = [self.targets]

              else:

                  targets = self.targets

              pf = ParallelFunction(self.client, f, block=self.block,

                              bound=True, targets=targets)

              return pf.map(*sequences)

          def parallel(self, bound=True, block=True):

              """Decorator for making a ParallelFunction"""

              return parallel(self.client, bound=bound, targets=self.targets, block=block)

          def abort(self, msg_ids=None, block=None):

              """Abort jobs on my engines.

              Parameters

              ----------

              msg_ids : None, str, list of strs, optional

                  if None: abort all jobs.

                  else: abort specific msg_id(s).

              """

              block = block if block is not None else self.block

              return self.client.abort(msg_ids=msg_ids, targets=self.targets, block=block)

          def queue_status(self, verbose=False):

              """Fetch the Queue status of my engines"""

              return self.client.queue_status(targets=self.targets, verbose=verbose)

          def purge_results(self, msg_ids=[], targets=[]):

              """Instruct the controller to forget specific results."""

              if targets is None or targets == 'all':

                  targets = self.targets

              return self.client.purge_results(msg_ids=msg_ids, targets=targets)

      class DirectView(View):

          """Direct Multiplexer View of one or more engines.

          These are created via indexed access to a client:

          >>> dv_1 = client[1]

          >>> dv_all = client[:]

          >>> dv_even = client[::2]

          >>> dv_some = client[1:3]

          This object provides dictionary access

          """

          @sync_results

          @save_ids

          def execute(self, code, block=True):

              """execute some code on my targets."""

              return self.client.execute(code, block=self.block, targets=self.targets)

          def update(self, ns):

              """update remote namespace with dict `ns`"""

              return self.client.push(ns, targets=self.targets, block=self.block)

          push = update

          def get(self, key_s):

              """get object(s) by `key_s` from remote namespace

              will return one object if it is a key.

              It also takes a list of keys, and will return a list of objects."""

              # block = block if block is not None else self.block

              return self.client.pull(key_s, block=True, targets=self.targets)

          @sync_results

          @save_ids

          def pull(self, key_s, block=True):

              """get object(s) by `key_s` from remote namespace

              will return one object if it is a key.

              It also takes a list of keys, and will return a list of objects."""

              block = block if block is not None else self.block

              return self.client.pull(key_s, block=block, targets=self.targets)

          def scatter(self, key, seq, dist='b', flatten=False, targets=None, block=None):

              """

              Partition a Python sequence and send the partitions to a set of engines.

              """

              block = block if block is not None else self.block

              targets = targets if targets is not None else self.targets

              return self.client.scatter(key, seq, dist=dist, flatten=flatten,

                          targets=targets, block=block)

          @sync_results

          @save_ids

          def gather(self, key, dist='b', targets=None, block=None):

              """

              Gather a partitioned sequence on a set of engines as a single local seq.

              """

              block = block if block is not None else self.block

              targets = targets if targets is not None else self.targets

              return self.client.gather(key, dist=dist, targets=targets, block=block)

          def __getitem__(self, key):

              return self.get(key)

          def __setitem__(self,key, value):

              self.update({key:value})

          def clear(self, block=False):

              """Clear the remote namespaces on my engines."""

              block = block if block is not None else self.block

              return self.client.clear(targets=self.targets, block=block)

          def kill(self, block=True):

              """Kill my engines."""

              block = block if block is not None else self.block

              return self.client.kill(targets=self.targets, block=block)

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

          # activate for %px,%autopx magics

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

          def activate(self):

              """Make this `View` active for parallel magic commands.

              IPython has a magic command syntax to work with `MultiEngineClient` objects.

              In a given IPython session there is a single active one.  While

              there can be many `Views` created and used by the user, 

              there is only one active one.  The active `View` is used whenever 

              the magic commands %px and %autopx are used.

              The activate() method is called on a given `View` to make it 

              active.  Once this has been done, the magic commands can be used.

              """

              try:

                  # This is injected into __builtins__.

                  ip = get_ipython()

              except NameError:

                  print "The IPython parallel magics (%result, %px, %autopx) only work within IPython."

              else:

                  pmagic = ip.plugin_manager.get_plugin('parallelmagic')

                  if pmagic is not None:

                      pmagic.active_multiengine_client = self

                  else:

                      print "You must first load the parallelmagic extension " \

                            "by doing '%load_ext parallelmagic'"

      class LoadBalancedView(View):

          """An engine-agnostic View that only executes via the Task queue.

          Typically created via:

          >>> lbv = client[None]

          <LoadBalancedView tcp://127.0.0.1:12345>

          but can also be created with:

          >>> lbc = LoadBalancedView(client)

          TODO: allow subset of engines across which to balance.

          """

          def __repr__(self):

              return "<%s %s>"%(self.__class__.__name__, self.client._config['url'])

          @property

          def targets(self):

              return None

          @targets.setter

          def targets(self, value):

              raise AttributeError("Cannot set targets for LoadbalancedView!")

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				"""Views of remote engines"""
				#-----------------------------------------------------------------------------
				# Copyright (C) 2010 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 IPython.external.decorator import decorator
				from IPython.zmq.parallel.remotefunction import ParallelFunction, parallel

				#-----------------------------------------------------------------------------
				# Decorators
				#-----------------------------------------------------------------------------

				@decorator
				def myblock(f, self, args, *kwargs):
				"""override client.block with self.block during a call"""
				block = self.client.block
				self.client.block = self.block
				try:
				ret = f(self, args, *kwargs)
				finally:
				self.client.block = block
				return ret

				@decorator
				def save_ids(f, self, args, *kwargs):
				"""Keep our history and outstanding attributes up to date after a method call."""
				n_previous = len(self.client.history)
				ret = f(self, args, *kwargs)
				nmsgs = len(self.client.history) - n_previous
				msg_ids = self.client.history[-nmsgs:]
				self.history.extend(msg_ids)
				map(self.outstanding.add, msg_ids)
				return ret

				@decorator
				def sync_results(f, self, args, *kwargs):
				"""sync relevant results from self.client to our results attribute."""
				ret = f(self, args, *kwargs)
				delta = self.outstanding.difference(self.client.outstanding)
				completed = self.outstanding.intersection(delta)
				self.outstanding = self.outstanding.difference(completed)
				for msg_id in completed:
				self.results[msg_id] = self.client.results[msg_id]
				return ret

				@decorator
				def spin_after(f, self, args, *kwargs):
				"""call spin after the method."""
				ret = f(self, args, *kwargs)
				self.spin()
				return ret

				#-----------------------------------------------------------------------------
				# Classes
				#-----------------------------------------------------------------------------

				class View(object):
				"""Base View class for more convenint apply(f,args,*kwargs) syntax via attributes.

				Don't use this class, use subclasses.
				"""
				_targets = None
				block=None
				bound=None
				history=None

				def __init__(self, client, targets=None):
				self.client = client
				self._targets = targets
				self._ntargets = 1 if isinstance(targets, (int,type(None))) else len(targets)
				self.block = client.block
				self.bound=False
				self.history = []
				self.outstanding = set()
				self.results = {}

				def __repr__(self):
				strtargets = str(self._targets)
				if len(strtargets) > 16:
				strtargets = strtargets[:12]+'...]'
				return "<%s %s>"%(self.__class__.__name__, strtargets)

				@property
				def targets(self):
				return self._targets

				@targets.setter
				def targets(self, value):
				self._targets = value
				# raise AttributeError("Cannot set my targets argument after construction!")

				@sync_results
				def spin(self):
				"""spin the client, and sync"""
				self.client.spin()

				@sync_results
				@save_ids
				def apply(self, f, args, *kwargs):
				"""calls f(args, *kwargs) on remote engines, returning the result.

				This method does not involve the engine's namespace.

				if self.block is False:
				returns msg_id
				else:
				returns actual result of f(args, *kwargs)
				"""
				return self.client.apply(f, args, kwargs, block=self.block, targets=self.targets, bound=self.bound)

				@save_ids
				def apply_async(self, f, args, *kwargs):
				"""calls f(args, *kwargs) on remote engines in a nonblocking manner.

				This method does not involve the engine's namespace.

				returns msg_id
				"""
				return self.client.apply(f,args,kwargs, block=False, targets=self.targets, bound=False)

				@spin_after
				@save_ids
				def apply_sync(self, f, args, *kwargs):
				"""calls f(args, *kwargs) on remote engines in a blocking manner,
				returning the result.

				This method does not involve the engine's namespace.

				returns: actual result of f(args, *kwargs)
				"""
				return self.client.apply(f,args,kwargs, block=True, targets=self.targets, bound=False)

				@sync_results
				@save_ids
				def apply_bound(self, f, args, *kwargs):
				"""calls f(args, *kwargs) bound to engine namespace(s).

				if self.block is False:
				returns msg_id
				else:
				returns actual result of f(args, *kwargs)

				This method has access to the targets' globals

				"""
				return self.client.apply(f, args, kwargs, block=self.block, targets=self.targets, bound=True)

				@sync_results
				@save_ids
				def apply_async_bound(self, f, args, *kwargs):
				"""calls f(args, *kwargs) bound to engine namespace(s)
				in a nonblocking manner.

				returns: msg_id

				This method has access to the targets' globals

				"""
				return self.client.apply(f, args, kwargs, block=False, targets=self.targets, bound=True)

				@spin_after
				@save_ids
				def apply_sync_bound(self, f, args, *kwargs):
				"""calls f(args, *kwargs) bound to engine namespace(s), waiting for the result.

				returns: actual result of f(args, *kwargs)

				This method has access to the targets' globals

				"""
				return self.client.apply(f, args, kwargs, block=True, targets=self.targets, bound=True)

				@spin_after
				@save_ids
				def map(self, f, *sequences):
				"""Parallel version of builtin `map`, using this view's engines."""
				if isinstance(self.targets, int):
				targets = [self.targets]
				else:
				targets = self.targets
				pf = ParallelFunction(self.client, f, block=self.block,
				bound=True, targets=targets)
				return pf.map(*sequences)

				def parallel(self, bound=True, block=True):
				"""Decorator for making a ParallelFunction"""
				return parallel(self.client, bound=bound, targets=self.targets, block=block)

				def abort(self, msg_ids=None, block=None):
				"""Abort jobs on my engines.

				Parameters
				----------

				msg_ids : None, str, list of strs, optional
				if None: abort all jobs.
				else: abort specific msg_id(s).
				"""
				block = block if block is not None else self.block
				return self.client.abort(msg_ids=msg_ids, targets=self.targets, block=block)

				def queue_status(self, verbose=False):
				"""Fetch the Queue status of my engines"""
				return self.client.queue_status(targets=self.targets, verbose=verbose)

				def purge_results(self, msg_ids=[], targets=[]):
				"""Instruct the controller to forget specific results."""
				if targets is None or targets == 'all':
				targets = self.targets
				return self.client.purge_results(msg_ids=msg_ids, targets=targets)



				class DirectView(View):
				"""Direct Multiplexer View of one or more engines.

				These are created via indexed access to a client:

				>>> dv_1 = client[1]
				>>> dv_all = client[:]
				>>> dv_even = client[::2]
				>>> dv_some = client[1:3]

				This object provides dictionary access

				"""

				@sync_results
				@save_ids
				def execute(self, code, block=True):
				"""execute some code on my targets."""
				return self.client.execute(code, block=self.block, targets=self.targets)

				def update(self, ns):
				"""update remote namespace with dict `ns`"""
				return self.client.push(ns, targets=self.targets, block=self.block)

				push = update

				def get(self, key_s):
				"""get object(s) by `key_s` from remote namespace
				will return one object if it is a key.
				It also takes a list of keys, and will return a list of objects."""
				# block = block if block is not None else self.block
				return self.client.pull(key_s, block=True, targets=self.targets)

				@sync_results
				@save_ids
				def pull(self, key_s, block=True):
				"""get object(s) by `key_s` from remote namespace
				will return one object if it is a key.
				It also takes a list of keys, and will return a list of objects."""
				block = block if block is not None else self.block
				return self.client.pull(key_s, block=block, targets=self.targets)

				def scatter(self, key, seq, dist='b', flatten=False, targets=None, block=None):
				"""
				Partition a Python sequence and send the partitions to a set of engines.
				"""
				block = block if block is not None else self.block
				targets = targets if targets is not None else self.targets

				return self.client.scatter(key, seq, dist=dist, flatten=flatten,
				targets=targets, block=block)

				@sync_results
				@save_ids
				def gather(self, key, dist='b', targets=None, block=None):
				"""
				Gather a partitioned sequence on a set of engines as a single local seq.
				"""
				block = block if block is not None else self.block
				targets = targets if targets is not None else self.targets

				return self.client.gather(key, dist=dist, targets=targets, block=block)

				def __getitem__(self, key):
				return self.get(key)

				def __setitem__(self,key, value):
				self.update({key:value})

				def clear(self, block=False):
				"""Clear the remote namespaces on my engines."""
				block = block if block is not None else self.block
				return self.client.clear(targets=self.targets, block=block)

				def kill(self, block=True):
				"""Kill my engines."""
				block = block if block is not None else self.block
				return self.client.kill(targets=self.targets, block=block)

				#----------------------------------------
				# activate for %px,%autopx magics
				#----------------------------------------
				def activate(self):
				"""Make this `View` active for parallel magic commands.

				IPython has a magic command syntax to work with `MultiEngineClient` objects.
				In a given IPython session there is a single active one. While
				there can be many `Views` created and used by the user,
				there is only one active one. The active `View` is used whenever
				the magic commands %px and %autopx are used.

				The activate() method is called on a given `View` to make it
				active. Once this has been done, the magic commands can be used.
				"""

				try:
				# This is injected into __builtins__.
				ip = get_ipython()
				except NameError:
				print "The IPython parallel magics (%result, %px, %autopx) only work within IPython."
				else:
				pmagic = ip.plugin_manager.get_plugin('parallelmagic')
				if pmagic is not None:
				pmagic.active_multiengine_client = self
				else:
				print "You must first load the parallelmagic extension " \
				"by doing '%load_ext parallelmagic'"


				class LoadBalancedView(View):
				"""An engine-agnostic View that only executes via the Task queue.

				Typically created via:

				>>> lbv = client[None]
				<LoadBalancedView tcp://127.0.0.1:12345>

				but can also be created with:

				>>> lbc = LoadBalancedView(client)

				TODO: allow subset of engines across which to balance.
				"""
				def __repr__(self):
				return "<%s %s>"%(self.__class__.__name__, self.client._config['url'])

				@property
				def targets(self):
				return None

				@targets.setter
				def targets(self, value):
				raise AttributeError("Cannot set targets for LoadbalancedView!")