upstream/ipython Files · IPython/parallel/client/remotefunction.py

move pickleshare to external...

move pickleshare to external can remove and make a dependency when pickleshare installs on 3.4 (should be 0.5)

MinRK - - Load All Authors

File last commit:

r16511:dcb5fadf


                r20812:040c707a

Download file

             remotefunction.py
        
                    276 lines
            
             | 8.4 KiB
            
                | text/x-python
            
             |
                PythonLexer
            
             / IPython / parallel / client / remotefunction.py
          
                    History
                
                 |
                  Annotation
                 | Raw
                 |Copy content
                 |Copy permalink

      """Remote Functions and decorators for Views."""

      # Copyright (c) IPython Development Team.

      # Distributed under the terms of the Modified BSD License.

      from __future__ import division

      import sys

      import warnings

      from IPython.external.decorator import decorator

      from IPython.testing.skipdoctest import skip_doctest

      from . import map as Map

      from .asyncresult import AsyncMapResult

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

      # Functions and Decorators

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

      @skip_doctest

      def remote(view, block=None, **flags):

          """Turn a function into a remote function.

          This method can be used for map:

          In [1]: @remote(view,block=True)

             ...: def func(a):

             ...:    pass

          """

          def remote_function(f):

              return RemoteFunction(view, f, block=block, **flags)

          return remote_function

      @skip_doctest

      def parallel(view, dist='b', block=None, ordered=True, **flags):

          """Turn a function into a parallel remote function.

          This method can be used for map:

          In [1]: @parallel(view, block=True)

             ...: def func(a):

             ...:    pass

          """

          def parallel_function(f):

              return ParallelFunction(view, f, dist=dist, block=block, ordered=ordered, **flags)

          return parallel_function

      def getname(f):

          """Get the name of an object.

          For use in case of callables that are not functions, and

          thus may not have __name__ defined.

          Order: f.__name__ >  f.name > str(f)

          """

          try:

              return f.__name__

          except:

              pass

          try:

              return f.name

          except:

              pass

          return str(f)

      @decorator

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

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

          This is a clone of view.sync_results, but for remote functions

          """

          view = self.view

          if view._in_sync_results:

              return f(self, *args, **kwargs)

          view._in_sync_results = True

          try:

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

          finally:

              view._in_sync_results = False

              view._sync_results()

          return ret

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

      # Classes

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

      class RemoteFunction(object):

          """Turn an existing function into a remote function.

          Parameters

          ----------

          view : View instance

              The view to be used for execution

          f : callable

              The function to be wrapped into a remote function

          block : bool [default: None]

              Whether to wait for results or not.  The default behavior is

              to use the current `block` attribute of `view`

          **flags : remaining kwargs are passed to View.temp_flags

          """

          view = None # the remote connection

          func = None # the wrapped function

          block = None # whether to block

          flags = None # dict of extra kwargs for temp_flags

          def __init__(self, view, f, block=None, **flags):

              self.view = view

              self.func = f

              self.block=block

              self.flags=flags

          def __call__(self, *args, **kwargs):

              block = self.view.block if self.block is None else self.block

              with self.view.temp_flags(block=block, **self.flags):

                  return self.view.apply(self.func, *args, **kwargs)

      class ParallelFunction(RemoteFunction):

          """Class for mapping a function to sequences.

          This will distribute the sequences according the a mapper, and call

          the function on each sub-sequence.  If called via map, then the function

          will be called once on each element, rather that each sub-sequence.

          Parameters

          ----------

          view : View instance

              The view to be used for execution

          f : callable

              The function to be wrapped into a remote function

          dist : str [default: 'b']

              The key for which mapObject to use to distribute sequences

              options are:

              * 'b' : use contiguous chunks in order

              * 'r' : use round-robin striping

          block : bool [default: None]

              Whether to wait for results or not.  The default behavior is

              to use the current `block` attribute of `view`

          chunksize : int or None

              The size of chunk to use when breaking up sequences in a load-balanced manner

          ordered : bool [default: True]

              Whether the result should be kept in order. If False,

              results become available as they arrive, regardless of submission order.

          **flags

              remaining kwargs are passed to View.temp_flags

          """

          chunksize = None

          ordered = None

          mapObject = None

          _mapping = False

          def __init__(self, view, f, dist='b', block=None, chunksize=None, ordered=True, **flags):

              super(ParallelFunction, self).__init__(view, f, block=block, **flags)

              self.chunksize = chunksize

              self.ordered = ordered

              mapClass = Map.dists[dist]

              self.mapObject = mapClass()

          @sync_view_results

          def __call__(self, *sequences):

              client = self.view.client

              lens = []

              maxlen = minlen = -1

              for i, seq in enumerate(sequences):

                  try:

                      n = len(seq)

                  except Exception:

                      seq = list(seq)

                      if isinstance(sequences, tuple):

                          # can't alter a tuple

                          sequences = list(sequences)

                      sequences[i] = seq

                      n = len(seq)

                  if n > maxlen:

                      maxlen = n

                  if minlen == -1 or n < minlen:

                      minlen = n

                  lens.append(n)

              if maxlen == 0:

                  # nothing to iterate over

                  return []

              # check that the length of sequences match

              if not self._mapping and minlen != maxlen:

                  msg = 'all sequences must have equal length, but have %s' % lens

                  raise ValueError(msg)

              balanced = 'Balanced' in self.view.__class__.__name__

              if balanced:

                  if self.chunksize:

                      nparts = maxlen // self.chunksize + int(maxlen % self.chunksize > 0)

                  else:

                      nparts = maxlen

                  targets = [None]*nparts

              else:

                  if self.chunksize:

                      warnings.warn("`chunksize` is ignored unless load balancing", UserWarning)

                  # multiplexed:

                  targets = self.view.targets

                  # 'all' is lazily evaluated at execution time, which is now:

                  if targets == 'all':

                      targets = client._build_targets(targets)[1]

                  elif isinstance(targets, int):

                      # single-engine view, targets must be iterable

                      targets = [targets]

                  nparts = len(targets)

              msg_ids = []

              for index, t in enumerate(targets):

                  args = []

                  for seq in sequences:

                      part = self.mapObject.getPartition(seq, index, nparts, maxlen)

                      args.append(part)

                  if sum([len(arg) for arg in args]) == 0:

                      continue

                  if self._mapping:

                      if sys.version_info[0] >= 3:

                          f = lambda f, *sequences: list(map(f, *sequences))

                      else:

                          f = map

                      args = [self.func] + args

                  else:

                      f=self.func

                  view = self.view if balanced else client[t]

                  with view.temp_flags(block=False, **self.flags):

                      ar = view.apply(f, *args)

                  msg_ids.extend(ar.msg_ids)

              r = AsyncMapResult(self.view.client, msg_ids, self.mapObject,

                                  fname=getname(self.func),

                                  ordered=self.ordered

                              )

              if self.block:

                  try:

                      return r.get()

                  except KeyboardInterrupt:

                      return r

              else:

                  return r

          def map(self, *sequences):

              """call a function on each element of one or more sequence(s) remotely.

              This should behave very much like the builtin map, but return an AsyncMapResult

              if self.block is False.

              That means it can take generators (will be cast to lists locally),

              and mismatched sequence lengths will be padded with None.

              """

              # set _mapping as a flag for use inside self.__call__

              self._mapping = True

              try:

                  ret = self(*sequences)

              finally:

                  self._mapping = False

              return ret

      __all__ = ['remote', 'parallel', 'RemoteFunction', 'ParallelFunction']

	Site-wide shortcuts
/	Use quick search box
g h	Goto home page
g g	Goto my private gists page
g G	Goto my public gists page
g 0-9	Goto bookmarked items from 0-9
n r	New repository page
n g	New gist page

	Repositories
g s	Goto summary page
g c	Goto changelog page
g f	Goto files page
g F	Goto files page with file search activated
g p	Goto pull requests page
g o	Goto repository settings
g O	Goto repository access permissions settings
t s	Toggle sidebar on some pages

				"""Remote Functions and decorators for Views."""

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

				from __future__ import division

				import sys
				import warnings

				from IPython.external.decorator import decorator
				from IPython.testing.skipdoctest import skip_doctest

				from . import map as Map
				from .asyncresult import AsyncMapResult

				#-----------------------------------------------------------------------------
				# Functions and Decorators
				#-----------------------------------------------------------------------------

				@skip_doctest
				def remote(view, block=None, **flags):
				"""Turn a function into a remote function.

				This method can be used for map:

				In [1]: @remote(view,block=True)
				...: def func(a):
				...: pass
				"""

				def remote_function(f):
				return RemoteFunction(view, f, block=block, **flags)
				return remote_function

				@skip_doctest
				def parallel(view, dist='b', block=None, ordered=True, **flags):
				"""Turn a function into a parallel remote function.

				This method can be used for map:

				In [1]: @parallel(view, block=True)
				...: def func(a):
				...: pass
				"""

				def parallel_function(f):
				return ParallelFunction(view, f, dist=dist, block=block, ordered=ordered, **flags)
				return parallel_function

				def getname(f):
				"""Get the name of an object.

				For use in case of callables that are not functions, and
				thus may not have __name__ defined.

				Order: f.__name__ > f.name > str(f)
				"""
				try:
				return f.__name__
				except:
				pass
				try:
				return f.name
				except:
				pass

				return str(f)

				@decorator
				def sync_view_results(f, self, args, *kwargs):
				"""sync relevant results from self.client to our results attribute.

				This is a clone of view.sync_results, but for remote functions
				"""
				view = self.view
				if view._in_sync_results:
				return f(self, args, *kwargs)
				view._in_sync_results = True
				try:
				ret = f(self, args, *kwargs)
				finally:
				view._in_sync_results = False
				view._sync_results()
				return ret

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

				class RemoteFunction(object):
				"""Turn an existing function into a remote function.

				Parameters
				----------

				view : View instance
				The view to be used for execution
				f : callable
				The function to be wrapped into a remote function
				block : bool [default: None]
				Whether to wait for results or not. The default behavior is
				to use the current `block` attribute of `view`

				**flags : remaining kwargs are passed to View.temp_flags
				"""

				view = None # the remote connection
				func = None # the wrapped function
				block = None # whether to block
				flags = None # dict of extra kwargs for temp_flags

				def __init__(self, view, f, block=None, **flags):
				self.view = view
				self.func = f
				self.block=block
				self.flags=flags

				def __call__(self, args, *kwargs):
				block = self.view.block if self.block is None else self.block
				with self.view.temp_flags(block=block, **self.flags):
				return self.view.apply(self.func, args, *kwargs)


				class ParallelFunction(RemoteFunction):
				"""Class for mapping a function to sequences.

				This will distribute the sequences according the a mapper, and call
				the function on each sub-sequence. If called via map, then the function
				will be called once on each element, rather that each sub-sequence.

				Parameters
				----------

				view : View instance
				The view to be used for execution
				f : callable
				The function to be wrapped into a remote function
				dist : str [default: 'b']
				The key for which mapObject to use to distribute sequences
				options are:

				* 'b' : use contiguous chunks in order
				* 'r' : use round-robin striping

				block : bool [default: None]
				Whether to wait for results or not. The default behavior is
				to use the current `block` attribute of `view`
				chunksize : int or None
				The size of chunk to use when breaking up sequences in a load-balanced manner
				ordered : bool [default: True]
				Whether the result should be kept in order. If False,
				results become available as they arrive, regardless of submission order.
				**flags
				remaining kwargs are passed to View.temp_flags
				"""

				chunksize = None
				ordered = None
				mapObject = None
				_mapping = False

				def __init__(self, view, f, dist='b', block=None, chunksize=None, ordered=True, **flags):
				super(ParallelFunction, self).__init__(view, f, block=block, **flags)
				self.chunksize = chunksize
				self.ordered = ordered

				mapClass = Map.dists[dist]
				self.mapObject = mapClass()

				@sync_view_results
				def __call__(self, *sequences):
				client = self.view.client

				lens = []
				maxlen = minlen = -1
				for i, seq in enumerate(sequences):
				try:
				n = len(seq)
				except Exception:
				seq = list(seq)
				if isinstance(sequences, tuple):
				# can't alter a tuple
				sequences = list(sequences)
				sequences[i] = seq
				n = len(seq)
				if n > maxlen:
				maxlen = n
				if minlen == -1 or n < minlen:
				minlen = n
				lens.append(n)

				if maxlen == 0:
				# nothing to iterate over
				return []

				# check that the length of sequences match
				if not self._mapping and minlen != maxlen:
				msg = 'all sequences must have equal length, but have %s' % lens
				raise ValueError(msg)

				balanced = 'Balanced' in self.view.__class__.__name__
				if balanced:
				if self.chunksize:
				nparts = maxlen // self.chunksize + int(maxlen % self.chunksize > 0)
				else:
				nparts = maxlen
				targets = [None]*nparts
				else:
				if self.chunksize:
				warnings.warn("`chunksize` is ignored unless load balancing", UserWarning)
				# multiplexed:
				targets = self.view.targets
				# 'all' is lazily evaluated at execution time, which is now:
				if targets == 'all':
				targets = client._build_targets(targets)[1]
				elif isinstance(targets, int):
				# single-engine view, targets must be iterable
				targets = [targets]
				nparts = len(targets)

				msg_ids = []
				for index, t in enumerate(targets):
				args = []
				for seq in sequences:
				part = self.mapObject.getPartition(seq, index, nparts, maxlen)
				args.append(part)

				if sum([len(arg) for arg in args]) == 0:
				continue

				if self._mapping:
				if sys.version_info[0] >= 3:
				f = lambda f, sequences: list(map(f, sequences))
				else:
				f = map
				args = [self.func] + args
				else:
				f=self.func

				view = self.view if balanced else client[t]
				with view.temp_flags(block=False, **self.flags):
				ar = view.apply(f, *args)

				msg_ids.extend(ar.msg_ids)

				r = AsyncMapResult(self.view.client, msg_ids, self.mapObject,
				fname=getname(self.func),
				ordered=self.ordered
				)

				if self.block:
				try:
				return r.get()
				except KeyboardInterrupt:
				return r
				else:
				return r

				def map(self, *sequences):
				"""call a function on each element of one or more sequence(s) remotely.
				This should behave very much like the builtin map, but return an AsyncMapResult
				if self.block is False.

				That means it can take generators (will be cast to lists locally),
				and mismatched sequence lengths will be padded with None.
				"""
				# set _mapping as a flag for use inside self.__call__
				self._mapping = True
				try:
				ret = self(*sequences)
				finally:
				self._mapping = False
				return ret

				__all__ = ['remote', 'parallel', 'RemoteFunction', 'ParallelFunction']