upstream/ipython Files · docs/examples/parallel/nwmerge.py

Merge pull request from dopplershift/pylab-switch...

Merge pull request from dopplershift/pylab-switch Enable switching %pylab mode between inline and a single gui mode in a single notebook. With this merge, `%pylab` can be called interactively to toggle inline/GUI (matplotlib floating windows) mode. After initializing `%pylab inline`, now one can call `%pylab` without arguments to activate the default GUI or ask for a specific one as usual. IPython will detect if a different GUI is requested if one was already activated and will refuse to do so (to prevent multiple event loops from running concurrently, which often leads to problems).

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      """Example showing how to merge multiple remote data streams.

      """

      # Slightly modified version of:

      # http://aspn.activestate.com/ASPN/Cookbook/Python/Recipe/511509

      from __future__ import print_function

      import heapq

      from IPython.parallel.error import RemoteError

      def mergesort(list_of_lists, key=None):

          """ Perform an N-way merge operation on sorted lists.

          @param list_of_lists: (really iterable of iterable) of sorted elements

          (either by naturally or by C{key})

          @param key: specify sort key function (like C{sort()}, C{sorted()})

          Yields tuples of the form C{(item, iterator)}, where the iterator is the

          built-in list iterator or something you pass in, if you pre-generate the

          iterators.

          This is a stable merge; complexity O(N lg N)

          Examples::

          >>> print list(mergesort([[1,2,3,4],

          ...                      [2,3.25,3.75,4.5,6,7],

          ...                      [2.625,3.625,6.625,9]]))

          [1, 2, 2, 2.625, 3, 3.25, 3.625, 3.75, 4, 4.5, 6, 6.625, 7, 9]

          # note stability

          >>> print list(mergesort([[1,2,3,4],

          ...                      [2,3.25,3.75,4.5,6,7],

          ...                      [2.625,3.625,6.625,9]],

          ...                      key=int))

          [1, 2, 2, 2.625, 3, 3.25, 3.75, 3.625, 4, 4.5, 6, 6.625, 7, 9]

          >>> print list(mergesort([[4, 3, 2, 1],

          ...                      [7, 6, 4.5, 3.75, 3.25, 2],

          ...                      [9, 6.625, 3.625, 2.625]],

          ...                      key=lambda x: -x))

          [9, 7, 6.625, 6, 4.5, 4, 3.75, 3.625, 3.25, 3, 2.625, 2, 2, 1]

          """

          heap = []

          for i, itr in enumerate(iter(pl) for pl in list_of_lists):

              try:

                  item = itr.next()

                  if key:

                      toadd = (key(item), i, item, itr)

                  else:

                      toadd = (item, i, itr)

                  heap.append(toadd)

              except StopIteration:

                  pass

          heapq.heapify(heap)

          if key:

              while heap:

                  _, idx, item, itr = heap[0]

                  yield item

                  try:

                      item = itr.next()

                      heapq.heapreplace(heap, (key(item), idx, item, itr) )

                  except StopIteration:

                      heapq.heappop(heap)

          else:

              while heap:

                  item, idx, itr = heap[0]

                  yield item

                  try:

                      heapq.heapreplace(heap, (itr.next(), idx, itr))

                  except StopIteration:

                      heapq.heappop(heap)

      def remote_iterator(view,name):

          """Return an iterator on an object living on a remote engine.

          """

          view.execute('it%s=iter(%s)'%(name,name), block=True)

          while True:

              try:

                  result = view.apply_sync(lambda x: x.next(), Reference('it'+name))

              # This causes the StopIteration exception to be raised.

              except RemoteError as e:

                  if e.ename == 'StopIteration':

                      raise StopIteration

                  else:

                      raise e

              else:

                  yield result

      # Main, interactive testing

      if __name__ == '__main__':

          from IPython.parallel import Client, Reference

          rc = Client()

          view = rc[:]

          print('Engine IDs:', rc.ids)

          # Make a set of 'sorted datasets'

          a0 = range(5,20)

          a1 = range(10)

          a2 = range(15,25)

          # Now, imagine these had been created in the remote engines by some long

          # computation.  In this simple example, we just send them over into the

          # remote engines.  They will all be called 'a' in each engine.

          rc[0]['a'] = a0

          rc[1]['a'] = a1

          rc[2]['a'] = a2

          # And we now make a local object which represents the remote iterator

          aa0 = remote_iterator(rc[0],'a')

          aa1 = remote_iterator(rc[1],'a')

          aa2 = remote_iterator(rc[2],'a')

          # Let's merge them, both locally and remotely:

          print('Merge the local datasets:')

          print(list(mergesort([a0,a1,a2])))

          print('Locally merge the remote sets:')

          print(list(mergesort([aa0,aa1,aa2])))

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				"""Example showing how to merge multiple remote data streams.
				"""
				# Slightly modified version of:
				# http://aspn.activestate.com/ASPN/Cookbook/Python/Recipe/511509
				from __future__ import print_function

				import heapq
				from IPython.parallel.error import RemoteError

				def mergesort(list_of_lists, key=None):
				""" Perform an N-way merge operation on sorted lists.

				@param list_of_lists: (really iterable of iterable) of sorted elements
				(either by naturally or by C{key})
				@param key: specify sort key function (like C{sort()}, C{sorted()})

				Yields tuples of the form C{(item, iterator)}, where the iterator is the
				built-in list iterator or something you pass in, if you pre-generate the
				iterators.

				This is a stable merge; complexity O(N lg N)

				Examples::

				>>> print list(mergesort([[1,2,3,4],
				... [2,3.25,3.75,4.5,6,7],
				... [2.625,3.625,6.625,9]]))
				[1, 2, 2, 2.625, 3, 3.25, 3.625, 3.75, 4, 4.5, 6, 6.625, 7, 9]

				# note stability
				>>> print list(mergesort([[1,2,3,4],
				... [2,3.25,3.75,4.5,6,7],
				... [2.625,3.625,6.625,9]],
				... key=int))
				[1, 2, 2, 2.625, 3, 3.25, 3.75, 3.625, 4, 4.5, 6, 6.625, 7, 9]


				>>> print list(mergesort([[4, 3, 2, 1],
				... [7, 6, 4.5, 3.75, 3.25, 2],
				... [9, 6.625, 3.625, 2.625]],
				... key=lambda x: -x))
				[9, 7, 6.625, 6, 4.5, 4, 3.75, 3.625, 3.25, 3, 2.625, 2, 2, 1]
				"""

				heap = []
				for i, itr in enumerate(iter(pl) for pl in list_of_lists):
				try:
				item = itr.next()
				if key:
				toadd = (key(item), i, item, itr)
				else:
				toadd = (item, i, itr)
				heap.append(toadd)
				except StopIteration:
				pass
				heapq.heapify(heap)

				if key:
				while heap:
				_, idx, item, itr = heap[0]
				yield item
				try:
				item = itr.next()
				heapq.heapreplace(heap, (key(item), idx, item, itr) )
				except StopIteration:
				heapq.heappop(heap)

				else:
				while heap:
				item, idx, itr = heap[0]
				yield item
				try:
				heapq.heapreplace(heap, (itr.next(), idx, itr))
				except StopIteration:
				heapq.heappop(heap)


				def remote_iterator(view,name):
				"""Return an iterator on an object living on a remote engine.
				"""
				view.execute('it%s=iter(%s)'%(name,name), block=True)
				while True:
				try:
				result = view.apply_sync(lambda x: x.next(), Reference('it'+name))
				# This causes the StopIteration exception to be raised.
				except RemoteError as e:
				if e.ename == 'StopIteration':
				raise StopIteration
				else:
				raise e
				else:
				yield result

				# Main, interactive testing
				if __name__ == '__main__':

				from IPython.parallel import Client, Reference
				rc = Client()
				view = rc[:]
				print('Engine IDs:', rc.ids)

				# Make a set of 'sorted datasets'
				a0 = range(5,20)
				a1 = range(10)
				a2 = range(15,25)

				# Now, imagine these had been created in the remote engines by some long
				# computation. In this simple example, we just send them over into the
				# remote engines. They will all be called 'a' in each engine.
				rc[0]['a'] = a0
				rc[1]['a'] = a1
				rc[2]['a'] = a2

				# And we now make a local object which represents the remote iterator
				aa0 = remote_iterator(rc[0],'a')
				aa1 = remote_iterator(rc[1],'a')
				aa2 = remote_iterator(rc[2],'a')

				# Let's merge them, both locally and remotely:
				print('Merge the local datasets:')
				print(list(mergesort([a0,a1,a2])))

				print('Locally merge the remote sets:')
				print(list(mergesort([aa0,aa1,aa2])))