upstream/ipython Files · IPython/utils/pickleshare.py

refactor to improve cell switching in edit mode...

refactor to improve cell switching in edit mode This code was repeated in both CodeCell and TextCell, both of which are extensions of Cell, so this just unifies the logic in Cell. TextCell had logic here to check if the cell was rendered or not, but I don't believe it is possible to end up triggering such a code path. (Should that be required, I can always just add back these methods to TextCell, performing the .rendered==True check, and calling the Cell prior to this, code mirror at_top would only return true on if the cursor was at the first character of the top line. Now, pressing up arrow on any character on the top line will take you to the cell above. The same applies for the bottom line. Pressing down arrow would only go to the next cell if the cursor was at a location *after* the last character (something that is only possible to achieve in vim mode if the last line is empty, for example). Now, down arrow on any character of the last line will go to the next cell.

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      #!/usr/bin/env python

      """ PickleShare - a small 'shelve' like datastore with concurrency support

      Like shelve, a PickleShareDB object acts like a normal dictionary. Unlike

      shelve, many processes can access the database simultaneously. Changing a

      value in database is immediately visible to other processes accessing the

      same database.

      Concurrency is possible because the values are stored in separate files. Hence

      the "database" is a directory where *all* files are governed by PickleShare.

      Example usage::

          from pickleshare import *

          db = PickleShareDB('~/testpickleshare')

          db.clear()

          print "Should be empty:",db.items()

          db['hello'] = 15

          db['aku ankka'] = [1,2,313]

          db['paths/are/ok/key'] = [1,(5,46)]

          print db.keys()

          del db['aku ankka']

      This module is certainly not ZODB, but can be used for low-load

      (non-mission-critical) situations where tiny code size trumps the

      advanced features of a "real" object database.

      Installation guide: easy_install pickleshare

      Author: Ville Vainio <vivainio@gmail.com>

      License: MIT open source license.

      """

      from __future__ import print_function

      from IPython.external.path import path as Path

      import os,stat,time

      import collections

      try:

          import cPickle as pickle

      except ImportError:

          import pickle

      import glob

      def gethashfile(key):

          return ("%02x" % abs(hash(key) % 256))[-2:]

      _sentinel = object()

      class PickleShareDB(collections.MutableMapping):

          """ The main 'connection' object for PickleShare database """

          def __init__(self,root):

              """ Return a db object that will manage the specied directory"""

              self.root = Path(root).expanduser().abspath()

              if not self.root.isdir():

                  self.root.makedirs()

              # cache has { 'key' : (obj, orig_mod_time) }

              self.cache = {}

          def __getitem__(self,key):

              """ db['key'] reading """

              fil = self.root / key

              try:

                  mtime = (fil.stat()[stat.ST_MTIME])

              except OSError:

                  raise KeyError(key)

              if fil in self.cache and mtime == self.cache[fil][1]:

                  return self.cache[fil][0]

              try:

                  # The cached item has expired, need to read

                  with fil.open("rb") as f:

                      obj = pickle.loads(f.read())

              except:

                  raise KeyError(key)

              self.cache[fil] = (obj,mtime)

              return obj

          def __setitem__(self,key,value):

              """ db['key'] = 5 """

              fil = self.root / key

              parent = fil.parent

              if parent and not parent.isdir():

                  parent.makedirs()

              # We specify protocol 2, so that we can mostly go between Python 2

              # and Python 3. We can upgrade to protocol 3 when Python 2 is obsolete.

              with fil.open('wb') as f:

                  pickled = pickle.dump(value, f, protocol=2)

              try:

                  self.cache[fil] = (value,fil.mtime)

              except OSError as e:

                  if e.errno != 2:

                      raise

          def hset(self, hashroot, key, value):

              """ hashed set """

              hroot = self.root / hashroot

              if not hroot.isdir():

                  hroot.makedirs()

              hfile = hroot / gethashfile(key)

              d = self.get(hfile, {})

              d.update( {key : value})

              self[hfile] = d

          def hget(self, hashroot, key, default = _sentinel, fast_only = True):

              """ hashed get """

              hroot = self.root / hashroot

              hfile = hroot / gethashfile(key)

              d = self.get(hfile, _sentinel )

              #print "got dict",d,"from",hfile

              if d is _sentinel:

                  if fast_only:

                      if default is _sentinel:

                          raise KeyError(key)

                      return default

                  # slow mode ok, works even after hcompress()

                  d = self.hdict(hashroot)

              return d.get(key, default)

          def hdict(self, hashroot):

              """ Get all data contained in hashed category 'hashroot' as dict """

              hfiles = self.keys(hashroot + "/*")

              hfiles.sort()

              last = len(hfiles) and hfiles[-1] or ''

              if last.endswith('xx'):

                  # print "using xx"

                  hfiles = [last] + hfiles[:-1]

              all = {}

              for f in hfiles:

                  # print "using",f

                  try:

                      all.update(self[f])

                  except KeyError:

                      print("Corrupt",f,"deleted - hset is not threadsafe!")

                      del self[f]

                  self.uncache(f)

              return all

          def hcompress(self, hashroot):

              """ Compress category 'hashroot', so hset is fast again

              hget will fail if fast_only is True for compressed items (that were

              hset before hcompress).

              """

              hfiles = self.keys(hashroot + "/*")

              all = {}

              for f in hfiles:

                  # print "using",f

                  all.update(self[f])

                  self.uncache(f)

              self[hashroot + '/xx'] = all

              for f in hfiles:

                  p = self.root / f

                  if p.basename() == 'xx':

                      continue

                  p.remove()

          def __delitem__(self,key):

              """ del db["key"] """

              fil = self.root / key

              self.cache.pop(fil,None)

              try:

                  fil.remove()

              except OSError:

                  # notfound and permission denied are ok - we

                  # lost, the other process wins the conflict

                  pass

          def _normalized(self, p):

              """ Make a key suitable for user's eyes """

              return str(self.root.relpathto(p)).replace('\\','/')

          def keys(self, globpat = None):

              """ All keys in DB, or all keys matching a glob"""

              if globpat is None:

                  files = self.root.walkfiles()

              else:

                  files = [Path(p) for p in glob.glob(self.root/globpat)]

              return [self._normalized(p) for p in files if p.isfile()]

          def __iter__(self):

              return iter(self.keys())

          def __len__(self):

              return len(self.keys())

          def uncache(self,*items):

              """ Removes all, or specified items from cache

              Use this after reading a large amount of large objects

              to free up memory, when you won't be needing the objects

              for a while.

              """

              if not items:

                  self.cache = {}

              for it in items:

                  self.cache.pop(it,None)

          def waitget(self,key, maxwaittime = 60 ):

              """ Wait (poll) for a key to get a value

              Will wait for `maxwaittime` seconds before raising a KeyError.

              The call exits normally if the `key` field in db gets a value

              within the timeout period.

              Use this for synchronizing different processes or for ensuring

              that an unfortunately timed "db['key'] = newvalue" operation

              in another process (which causes all 'get' operation to cause a

              KeyError for the duration of pickling) won't screw up your program

              logic.

              """

              wtimes = [0.2] * 3 + [0.5] * 2 + [1]

              tries = 0

              waited = 0

              while 1:

                  try:

                      val = self[key]

                      return val

                  except KeyError:

                      pass

                  if waited > maxwaittime:

                      raise KeyError(key)

                  time.sleep(wtimes[tries])

                  waited+=wtimes[tries]

                  if tries < len(wtimes) -1:

                      tries+=1

          def getlink(self,folder):

              """ Get a convenient link for accessing items  """

              return PickleShareLink(self, folder)

          def __repr__(self):

              return "PickleShareDB('%s')" % self.root

      class PickleShareLink:

          """ A shortdand for accessing nested PickleShare data conveniently.

          Created through PickleShareDB.getlink(), example::

              lnk = db.getlink('myobjects/test')

              lnk.foo = 2

              lnk.bar = lnk.foo + 5

          """

          def __init__(self, db, keydir ):

              self.__dict__.update(locals())

          def __getattr__(self,key):

              return self.__dict__['db'][self.__dict__['keydir']+'/' + key]

          def __setattr__(self,key,val):

              self.db[self.keydir+'/' + key] = val

          def __repr__(self):

              db = self.__dict__['db']

              keys = db.keys( self.__dict__['keydir'] +"/*")

              return "<PickleShareLink '%s': %s>" % (

                  self.__dict__['keydir'],

                  ";".join([Path(k).basename() for k in keys]))

      def main():

          import textwrap

          usage = textwrap.dedent("""\

          pickleshare - manage PickleShare databases

          Usage:

              pickleshare dump /path/to/db > dump.txt

              pickleshare load /path/to/db < dump.txt

              pickleshare test /path/to/db

          """)

          DB = PickleShareDB

          import sys

          if len(sys.argv) < 2:

              print(usage)

              return

          cmd = sys.argv[1]

          args = sys.argv[2:]

          if cmd == 'dump':

              if not args: args= ['.']

              db = DB(args[0])

              import pprint

              pprint.pprint(db.items())

          elif cmd == 'load':

              cont = sys.stdin.read()

              db = DB(args[0])

              data = eval(cont)

              db.clear()

              for k,v in db.items():

                  db[k] = v

          elif cmd == 'testwait':

              db = DB(args[0])

              db.clear()

              print(db.waitget('250'))

          elif cmd == 'test':

              test()

              stress()

      if __name__== "__main__":

          main()

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				#!/usr/bin/env python

				""" PickleShare - a small 'shelve' like datastore with concurrency support

				Like shelve, a PickleShareDB object acts like a normal dictionary. Unlike
				shelve, many processes can access the database simultaneously. Changing a
				value in database is immediately visible to other processes accessing the
				same database.

				Concurrency is possible because the values are stored in separate files. Hence
				the "database" is a directory where all files are governed by PickleShare.

				Example usage::

				from pickleshare import *
				db = PickleShareDB('~/testpickleshare')
				db.clear()
				print "Should be empty:",db.items()
				db['hello'] = 15
				db['aku ankka'] = [1,2,313]
				db['paths/are/ok/key'] = [1,(5,46)]
				print db.keys()
				del db['aku ankka']

				This module is certainly not ZODB, but can be used for low-load
				(non-mission-critical) situations where tiny code size trumps the
				advanced features of a "real" object database.

				Installation guide: easy_install pickleshare

				Author: Ville Vainio <vivainio@gmail.com>
				License: MIT open source license.

				"""
				from __future__ import print_function

				from IPython.external.path import path as Path
				import os,stat,time
				import collections
				try:
				import cPickle as pickle
				except ImportError:
				import pickle
				import glob

				def gethashfile(key):
				return ("%02x" % abs(hash(key) % 256))[-2:]

				_sentinel = object()

				class PickleShareDB(collections.MutableMapping):
				""" The main 'connection' object for PickleShare database """
				def __init__(self,root):
				""" Return a db object that will manage the specied directory"""
				self.root = Path(root).expanduser().abspath()
				if not self.root.isdir():
				self.root.makedirs()
				# cache has { 'key' : (obj, orig_mod_time) }
				self.cache = {}


				def __getitem__(self,key):
				""" db['key'] reading """
				fil = self.root / key
				try:
				mtime = (fil.stat()[stat.ST_MTIME])
				except OSError:
				raise KeyError(key)

				if fil in self.cache and mtime == self.cache[fil][1]:
				return self.cache[fil][0]
				try:
				# The cached item has expired, need to read
				with fil.open("rb") as f:
				obj = pickle.loads(f.read())
				except:
				raise KeyError(key)

				self.cache[fil] = (obj,mtime)
				return obj

				def __setitem__(self,key,value):
				""" db['key'] = 5 """
				fil = self.root / key
				parent = fil.parent
				if parent and not parent.isdir():
				parent.makedirs()
				# We specify protocol 2, so that we can mostly go between Python 2
				# and Python 3. We can upgrade to protocol 3 when Python 2 is obsolete.
				with fil.open('wb') as f:
				pickled = pickle.dump(value, f, protocol=2)
				try:
				self.cache[fil] = (value,fil.mtime)
				except OSError as e:
				if e.errno != 2:
				raise

				def hset(self, hashroot, key, value):
				""" hashed set """
				hroot = self.root / hashroot
				if not hroot.isdir():
				hroot.makedirs()
				hfile = hroot / gethashfile(key)
				d = self.get(hfile, {})
				d.update( {key : value})
				self[hfile] = d



				def hget(self, hashroot, key, default = _sentinel, fast_only = True):
				""" hashed get """
				hroot = self.root / hashroot
				hfile = hroot / gethashfile(key)

				d = self.get(hfile, _sentinel )
				#print "got dict",d,"from",hfile
				if d is _sentinel:
				if fast_only:
				if default is _sentinel:
				raise KeyError(key)

				return default

				# slow mode ok, works even after hcompress()
				d = self.hdict(hashroot)

				return d.get(key, default)

				def hdict(self, hashroot):
				""" Get all data contained in hashed category 'hashroot' as dict """
				hfiles = self.keys(hashroot + "/*")
				hfiles.sort()
				last = len(hfiles) and hfiles[-1] or ''
				if last.endswith('xx'):
				# print "using xx"
				hfiles = [last] + hfiles[:-1]

				all = {}

				for f in hfiles:
				# print "using",f
				try:
				all.update(self[f])
				except KeyError:
				print("Corrupt",f,"deleted - hset is not threadsafe!")
				del self[f]

				self.uncache(f)

				return all

				def hcompress(self, hashroot):
				""" Compress category 'hashroot', so hset is fast again

				hget will fail if fast_only is True for compressed items (that were
				hset before hcompress).

				"""
				hfiles = self.keys(hashroot + "/*")
				all = {}
				for f in hfiles:
				# print "using",f
				all.update(self[f])
				self.uncache(f)

				self[hashroot + '/xx'] = all
				for f in hfiles:
				p = self.root / f
				if p.basename() == 'xx':
				continue
				p.remove()



				def __delitem__(self,key):
				""" del db["key"] """
				fil = self.root / key
				self.cache.pop(fil,None)
				try:
				fil.remove()
				except OSError:
				# notfound and permission denied are ok - we
				# lost, the other process wins the conflict
				pass

				def _normalized(self, p):
				""" Make a key suitable for user's eyes """
				return str(self.root.relpathto(p)).replace('\\','/')

				def keys(self, globpat = None):
				""" All keys in DB, or all keys matching a glob"""

				if globpat is None:
				files = self.root.walkfiles()
				else:
				files = [Path(p) for p in glob.glob(self.root/globpat)]
				return [self._normalized(p) for p in files if p.isfile()]

				def __iter__(self):
				return iter(self.keys())

				def __len__(self):
				return len(self.keys())

				def uncache(self,*items):
				""" Removes all, or specified items from cache

				Use this after reading a large amount of large objects
				to free up memory, when you won't be needing the objects
				for a while.

				"""
				if not items:
				self.cache = {}
				for it in items:
				self.cache.pop(it,None)

				def waitget(self,key, maxwaittime = 60 ):
				""" Wait (poll) for a key to get a value

				Will wait for `maxwaittime` seconds before raising a KeyError.
				The call exits normally if the `key` field in db gets a value
				within the timeout period.

				Use this for synchronizing different processes or for ensuring
				that an unfortunately timed "db['key'] = newvalue" operation
				in another process (which causes all 'get' operation to cause a
				KeyError for the duration of pickling) won't screw up your program
				logic.
				"""

				wtimes = [0.2] * 3 + [0.5] * 2 + [1]
				tries = 0
				waited = 0
				while 1:
				try:
				val = self[key]
				return val
				except KeyError:
				pass

				if waited > maxwaittime:
				raise KeyError(key)

				time.sleep(wtimes[tries])
				waited+=wtimes[tries]
				if tries < len(wtimes) -1:
				tries+=1

				def getlink(self,folder):
				""" Get a convenient link for accessing items """
				return PickleShareLink(self, folder)

				def __repr__(self):
				return "PickleShareDB('%s')" % self.root



				class PickleShareLink:
				""" A shortdand for accessing nested PickleShare data conveniently.

				Created through PickleShareDB.getlink(), example::

				lnk = db.getlink('myobjects/test')
				lnk.foo = 2
				lnk.bar = lnk.foo + 5

				"""
				def __init__(self, db, keydir ):
				self.__dict__.update(locals())

				def __getattr__(self,key):
				return self.__dict__['db'][self.__dict__['keydir']+'/' + key]
				def __setattr__(self,key,val):
				self.db[self.keydir+'/' + key] = val
				def __repr__(self):
				db = self.__dict__['db']
				keys = db.keys( self.__dict__['keydir'] +"/*")
				return "<PickleShareLink '%s': %s>" % (
				self.__dict__['keydir'],
				";".join([Path(k).basename() for k in keys]))

				def main():
				import textwrap
				usage = textwrap.dedent("""\
				pickleshare - manage PickleShare databases

				Usage:

				pickleshare dump /path/to/db > dump.txt
				pickleshare load /path/to/db < dump.txt
				pickleshare test /path/to/db
				""")
				DB = PickleShareDB
				import sys
				if len(sys.argv) < 2:
				print(usage)
				return

				cmd = sys.argv[1]
				args = sys.argv[2:]
				if cmd == 'dump':
				if not args: args= ['.']
				db = DB(args[0])
				import pprint
				pprint.pprint(db.items())
				elif cmd == 'load':
				cont = sys.stdin.read()
				db = DB(args[0])
				data = eval(cont)
				db.clear()
				for k,v in db.items():
				db[k] = v
				elif cmd == 'testwait':
				db = DB(args[0])
				db.clear()
				print(db.waitget('250'))
				elif cmd == 'test':
				test()
				stress()

				if __name__== "__main__":
				main()