"""Manage shelves of pickled objects.

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A "shelf" is a persistent, dictionary-like object. The difference

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with dbm databases is that the values (not the keys!) in a shelf can

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be essentially arbitrary Python objects -- anything that the "pickle"

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module can handle. This includes most class instances, recursive data

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types, and objects containing lots of shared sub-objects. The keys

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are ordinary strings.

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To summarize the interface (key is a string, data is an arbitrary

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object):

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import shelve

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d = shelve.open(filename) # open, with (g)dbm filename -- no suffix

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d[key] = data # store data at key (overwrites old data if

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# using an existing key)

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data = d[key] # retrieve a COPY of the data at key (raise

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# KeyError if no such key) -- NOTE that this

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# access returns a *copy* of the entry!

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del d[key] # delete data stored at key (raises KeyError

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# if no such key)

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flag = key in d # true if the key exists

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list = d.keys() # a list of all existing keys (slow!)

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d.close() # close it

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Dependent on the implementation, closing a persistent dictionary may

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or may not be necessary to flush changes to disk.

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Normally, d[key] returns a COPY of the entry. This needs care when

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mutable entries are mutated: for example, if d[key] is a list,

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d[key].append(anitem)

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does NOT modify the entry d[key] itself, as stored in the persistent

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mapping -- it only modifies the copy, which is then immediately

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discarded, so that the append has NO effect whatsoever. To append an

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item to d[key] in a way that will affect the persistent mapping, use:

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data = d[key]

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data.append(anitem)

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d[key] = data

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To avoid the problem with mutable entries, you may pass the keyword

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argument writeback=True in the call to shelve.open. When you use:

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d = shelve.open(filename, writeback=True)

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then d keeps a cache of all entries you access, and writes them all back

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to the persistent mapping when you call d.close(). This ensures that

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such usage as d[key].append(anitem) works as intended.

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However, using keyword argument writeback=True may consume vast amount

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of memory for the cache, and it may make d.close() very slow, if you

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access many of d's entries after opening it in this way: d has no way to

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check which of the entries you access are mutable and/or which ones you

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actually mutate, so it must cache, and write back at close, all of the

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entries that you access. You can call d.sync() to write back all the

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entries in the cache, and empty the cache (d.sync() also synchronizes

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the persistent dictionary on disk, if feasible).

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"""

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from pickle import Pickler, Unpickler

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from io import BytesIO

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import collections

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__all__ = ["Shelf", "BsdDbShelf", "DbfilenameShelf", "open"]

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class _ClosedDict(collections.MutableMapping):

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'Marker for a closed dict. Access attempts raise a ValueError.'

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def closed(self, *args):

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raise ValueError('invalid operation on closed shelf')

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__iter__ = __len__ = __getitem__ = __setitem__ = __delitem__ = keys = closed

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def __repr__(self):

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return '<Closed Dictionary>'

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class Shelf(collections.MutableMapping):

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"""Base class for shelf implementations.

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This is initialized with a dictionary-like object.

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See the module's __doc__ string for an overview of the interface.

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"""

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def __init__(self, dict, protocol=None, writeback=False,

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keyencoding="utf-8"):

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self.dict = dict

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if protocol is None:

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protocol = 3

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self._protocol = protocol

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self.writeback = writeback

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self.cache = {}

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self.keyencoding = keyencoding

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def __iter__(self):

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for k in self.dict.keys():

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yield k.decode(self.keyencoding)

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def __len__(self):

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return len(self.dict)

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def __contains__(self, key):

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return key.encode(self.keyencoding) in self.dict

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def get(self, key, default=None):

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if key.encode(self.keyencoding) in self.dict:

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return self[key]

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return default

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def __getitem__(self, key):

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try:

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value = self.cache[key]

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except KeyError:

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f = BytesIO(self.dict[key.encode(self.keyencoding)])

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value = Unpickler(f).load()

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if self.writeback:

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self.cache[key] = value

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return value

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def __setitem__(self, key, value):

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if self.writeback:

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self.cache[key] = value

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f = BytesIO()

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p = Pickler(f, self._protocol)

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p.dump(value)

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self.dict[key.encode(self.keyencoding)] = f.getvalue()

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def __delitem__(self, key):

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del self.dict[key.encode(self.keyencoding)]

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try:

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del self.cache[key]

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except KeyError:

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pass

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def __enter__(self):

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return self

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def __exit__(self, type, value, traceback):

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self.close()

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def close(self):

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if self.dict is None:

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return

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try:

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self.sync()

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try:

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self.dict.close()

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except AttributeError:

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pass

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finally:

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# Catch errors that may happen when close is called from __del__

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# because CPython is in interpreter shutdown.

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try:

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self.dict = _ClosedDict()

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except:

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self.dict = None

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def __del__(self):

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if not hasattr(self, 'writeback'):

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# __init__ didn't succeed, so don't bother closing

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# see http://bugs.python.org/issue1339007 for details

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return

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self.close()

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def sync(self):

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if self.writeback and self.cache:

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self.writeback = False

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for key, entry in self.cache.items():

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self[key] = entry

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self.writeback = True

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self.cache = {}

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if hasattr(self.dict, 'sync'):

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self.dict.sync()

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class BsdDbShelf(Shelf):

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"""Shelf implementation using the "BSD" db interface.

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This adds methods first(), next(), previous(), last() and

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set_location() that have no counterpart in [g]dbm databases.

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The actual database must be opened using one of the "bsddb"

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modules "open" routines (i.e. bsddb.hashopen, bsddb.btopen or

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bsddb.rnopen) and passed to the constructor.

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See the module's __doc__ string for an overview of the interface.

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"""

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def __init__(self, dict, protocol=None, writeback=False,

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keyencoding="utf-8"):

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Shelf.__init__(self, dict, protocol, writeback, keyencoding)

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def set_location(self, key):

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(key, value) = self.dict.set_location(key)

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f = BytesIO(value)

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return (key.decode(self.keyencoding), Unpickler(f).load())

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def next(self):

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(key, value) = next(self.dict)

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f = BytesIO(value)

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return (key.decode(self.keyencoding), Unpickler(f).load())

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def previous(self):

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(key, value) = self.dict.previous()

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f = BytesIO(value)

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return (key.decode(self.keyencoding), Unpickler(f).load())

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def first(self):

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(key, value) = self.dict.first()

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f = BytesIO(value)

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return (key.decode(self.keyencoding), Unpickler(f).load())

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def last(self):

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(key, value) = self.dict.last()

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f = BytesIO(value)

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return (key.decode(self.keyencoding), Unpickler(f).load())

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class DbfilenameShelf(Shelf):

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"""Shelf implementation using the "dbm" generic dbm interface.

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This is initialized with the filename for the dbm database.

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See the module's __doc__ string for an overview of the interface.

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"""

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def __init__(self, filename, flag='c', protocol=None, writeback=False):

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import dbm

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Shelf.__init__(self, dbm.open(filename, flag), protocol, writeback)

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def open(filename, flag='c', protocol=None, writeback=False):

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"""Open a persistent dictionary for reading and writing.

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The filename parameter is the base filename for the underlying

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database. As a side-effect, an extension may be added to the

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filename and more than one file may be created. The optional flag

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parameter has the same interpretation as the flag parameter of

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dbm.open(). The optional protocol parameter specifies the

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version of the pickle protocol.

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See the module's __doc__ string for an overview of the interface.

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"""

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return DbfilenameShelf(filename, flag, protocol, writeback)

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