mirror of
https://github.com/morpheus65535/bazarr.git
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462 lines
18 KiB
Python
462 lines
18 KiB
Python
# -*- coding: utf-8 -*-
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# Copyright 2009-2019 Joshua Bronson. All Rights Reserved.
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#
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# This Source Code Form is subject to the terms of the Mozilla Public
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# License, v. 2.0. If a copy of the MPL was not distributed with this
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# file, You can obtain one at http://mozilla.org/MPL/2.0/.
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#==============================================================================
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# * Welcome to the bidict source code *
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#==============================================================================
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# Doing a code review? You'll find a "Code review nav" comment like the one
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# below at the top and bottom of the most important source files. This provides
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# a suggested initial path through the source when reviewing.
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#
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# Note: If you aren't reading this on https://github.com/jab/bidict, you may be
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# viewing an outdated version of the code. Please head to GitHub to review the
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# latest version, which contains important improvements over older versions.
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#
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# Thank you for reading and for any feedback you provide.
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# * Code review nav *
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#==============================================================================
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# ← Prev: _abc.py Current: _base.py Next: _delegating_mixins.py →
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#==============================================================================
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"""Provides :class:`BidictBase`."""
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from collections import namedtuple
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from weakref import ref
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from ._abc import BidirectionalMapping
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from ._dup import RAISE, OVERWRITE, IGNORE, _OnDup
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from ._exc import (
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DuplicationError, KeyDuplicationError, ValueDuplicationError, KeyAndValueDuplicationError)
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from ._miss import _MISS
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from ._noop import _NOOP
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from ._util import _iteritems_args_kw
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from .compat import PY2, KeysView, ItemsView, Mapping, iteritems
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_DedupResult = namedtuple('_DedupResult', 'isdupkey isdupval invbyval fwdbykey')
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_WriteResult = namedtuple('_WriteResult', 'key val oldkey oldval')
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_NODUP = _DedupResult(False, False, _MISS, _MISS)
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class BidictBase(BidirectionalMapping):
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"""Base class implementing :class:`BidirectionalMapping`."""
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__slots__ = ('_fwdm', '_invm', '_inv', '_invweak', '_hash') + (() if PY2 else ('__weakref__',))
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#: The default :class:`DuplicationPolicy`
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#: (in effect during e.g. :meth:`~bidict.bidict.__init__` calls)
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#: that governs behavior when a provided item
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#: duplicates only the key of another item.
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#:
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#: Defaults to :attr:`~bidict.OVERWRITE`
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#: to match :class:`dict`'s behavior.
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#:
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#: *See also* :ref:`basic-usage:Values Must Be Unique`, :doc:`extending`
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on_dup_key = OVERWRITE
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#: The default :class:`DuplicationPolicy`
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#: (in effect during e.g. :meth:`~bidict.bidict.__init__` calls)
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#: that governs behavior when a provided item
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#: duplicates only the value of another item.
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#:
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#: Defaults to :attr:`~bidict.RAISE`
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#: to prevent unintended overwrite of another item.
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#:
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#: *See also* :ref:`basic-usage:Values Must Be Unique`, :doc:`extending`
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on_dup_val = RAISE
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#: The default :class:`DuplicationPolicy`
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#: (in effect during e.g. :meth:`~bidict.bidict.__init__` calls)
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#: that governs behavior when a provided item
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#: duplicates the key of another item and the value of a third item.
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#:
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#: Defaults to ``None``, which causes the *on_dup_kv* policy to match
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#: whatever *on_dup_val* policy is in effect.
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#:
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#: *See also* :ref:`basic-usage:Values Must Be Unique`, :doc:`extending`
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on_dup_kv = None
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_fwdm_cls = dict
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_invm_cls = dict
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#: The object used by :meth:`__repr__` for printing the contained items.
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_repr_delegate = dict
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def __init__(self, *args, **kw): # pylint: disable=super-init-not-called
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"""Make a new bidirectional dictionary.
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The signature is the same as that of regular dictionaries.
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Items passed in are added in the order they are passed,
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respecting the current duplication policies in the process.
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*See also* :attr:`on_dup_key`, :attr:`on_dup_val`, :attr:`on_dup_kv`
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"""
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#: The backing :class:`~collections.abc.Mapping`
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#: storing the forward mapping data (*key* → *value*).
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self._fwdm = self._fwdm_cls()
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#: The backing :class:`~collections.abc.Mapping`
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#: storing the inverse mapping data (*value* → *key*).
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self._invm = self._invm_cls()
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self._init_inv() # lgtm [py/init-calls-subclass]
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if args or kw:
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self._update(True, None, *args, **kw)
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def _init_inv(self):
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# Compute the type for this bidict's inverse bidict (will be different from this
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# bidict's type if _fwdm_cls and _invm_cls are different).
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inv_cls = self._inv_cls()
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# Create the inverse bidict instance via __new__, bypassing its __init__ so that its
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# _fwdm and _invm can be assigned to this bidict's _invm and _fwdm. Store it in self._inv,
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# which holds a strong reference to a bidict's inverse, if one is available.
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self._inv = inv = inv_cls.__new__(inv_cls)
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inv._fwdm = self._invm # pylint: disable=protected-access
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inv._invm = self._fwdm # pylint: disable=protected-access
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# Only give the inverse a weak reference to this bidict to avoid creating a reference cycle,
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# stored in the _invweak attribute. See also the docs in
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# :ref:`addendum:Bidict Avoids Reference Cycles`
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inv._inv = None # pylint: disable=protected-access
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inv._invweak = ref(self) # pylint: disable=protected-access
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# Since this bidict has a strong reference to its inverse already, set its _invweak to None.
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self._invweak = None
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@classmethod
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def _inv_cls(cls):
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"""The inverse of this bidict type, i.e. one with *_fwdm_cls* and *_invm_cls* swapped."""
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if cls._fwdm_cls is cls._invm_cls:
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return cls
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if not getattr(cls, '_inv_cls_', None):
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class _Inv(cls):
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_fwdm_cls = cls._invm_cls
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_invm_cls = cls._fwdm_cls
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_inv_cls_ = cls
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_Inv.__name__ = cls.__name__ + 'Inv'
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cls._inv_cls_ = _Inv
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return cls._inv_cls_
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@property
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def _isinv(self):
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return self._inv is None
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@property
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def inverse(self):
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"""The inverse of this bidict.
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*See also* :attr:`inv`
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"""
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# Resolve and return a strong reference to the inverse bidict.
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# One may be stored in self._inv already.
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if self._inv is not None:
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return self._inv
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# Otherwise a weakref is stored in self._invweak. Try to get a strong ref from it.
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inv = self._invweak()
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if inv is not None:
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return inv
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# Refcount of referent must have dropped to zero, as in `bidict().inv.inv`. Init a new one.
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self._init_inv() # Now this bidict will retain a strong ref to its inverse.
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return self._inv
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@property
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def inv(self):
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"""Alias for :attr:`inverse`."""
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return self.inverse
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def __getstate__(self):
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"""Needed to enable pickling due to use of :attr:`__slots__` and weakrefs.
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*See also* :meth:`object.__getstate__`
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"""
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state = {}
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for cls in self.__class__.__mro__:
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slots = getattr(cls, '__slots__', ())
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for slot in slots:
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if hasattr(self, slot):
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state[slot] = getattr(self, slot)
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# weakrefs can't be pickled.
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state.pop('_invweak', None) # Added back in __setstate__ via _init_inv call.
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state.pop('__weakref__', None) # Not added back in __setstate__. Python manages this one.
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return state
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def __setstate__(self, state):
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"""Implemented because use of :attr:`__slots__` would prevent unpickling otherwise.
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*See also* :meth:`object.__setstate__`
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"""
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for slot, value in iteritems(state):
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setattr(self, slot, value)
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self._init_inv()
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def __repr__(self):
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"""See :func:`repr`."""
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clsname = self.__class__.__name__
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if not self:
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return '%s()' % clsname
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return '%s(%r)' % (clsname, self._repr_delegate(iteritems(self)))
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# The inherited Mapping.__eq__ implementation would work, but it's implemented in terms of an
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# inefficient ``dict(self.items()) == dict(other.items())`` comparison, so override it with a
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# more efficient implementation.
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def __eq__(self, other):
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u"""*x.__eq__(other) ⟺ x == other*
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Equivalent to *dict(x.items()) == dict(other.items())*
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but more efficient.
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Note that :meth:`bidict's __eq__() <bidict.bidict.__eq__>` implementation
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is inherited by subclasses,
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in particular by the ordered bidict subclasses,
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so even with ordered bidicts,
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:ref:`== comparison is order-insensitive <eq-order-insensitive>`.
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*See also* :meth:`bidict.FrozenOrderedBidict.equals_order_sensitive`
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"""
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if not isinstance(other, Mapping) or len(self) != len(other):
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return False
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selfget = self.get
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return all(selfget(k, _MISS) == v for (k, v) in iteritems(other))
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# The following methods are mutating and so are not public. But they are implemented in this
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# non-mutable base class (rather than the mutable `bidict` subclass) because they are used here
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# during initialization (starting with the `_update` method). (Why is this? Because `__init__`
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# and `update` share a lot of the same behavior (inserting the provided items while respecting
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# the active duplication policies), so it makes sense for them to share implementation too.)
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def _pop(self, key):
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val = self._fwdm.pop(key)
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del self._invm[val]
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return val
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def _put(self, key, val, on_dup):
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dedup_result = self._dedup_item(key, val, on_dup)
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if dedup_result is not _NOOP:
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self._write_item(key, val, dedup_result)
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def _dedup_item(self, key, val, on_dup):
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"""
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Check *key* and *val* for any duplication in self.
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Handle any duplication as per the duplication policies given in *on_dup*.
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(key, val) already present is construed as a no-op, not a duplication.
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If duplication is found and the corresponding duplication policy is
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:attr:`~bidict.RAISE`, raise the appropriate error.
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If duplication is found and the corresponding duplication policy is
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:attr:`~bidict.IGNORE`, return *None*.
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If duplication is found and the corresponding duplication policy is
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:attr:`~bidict.OVERWRITE`,
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or if no duplication is found,
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return the _DedupResult *(isdupkey, isdupval, oldkey, oldval)*.
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"""
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fwdm = self._fwdm
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invm = self._invm
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oldval = fwdm.get(key, _MISS)
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oldkey = invm.get(val, _MISS)
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isdupkey = oldval is not _MISS
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isdupval = oldkey is not _MISS
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dedup_result = _DedupResult(isdupkey, isdupval, oldkey, oldval)
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if isdupkey and isdupval:
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if self._isdupitem(key, val, dedup_result):
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# (key, val) duplicates an existing item -> no-op.
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return _NOOP
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# key and val each duplicate a different existing item.
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if on_dup.kv is RAISE:
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raise KeyAndValueDuplicationError(key, val)
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elif on_dup.kv is IGNORE:
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return _NOOP
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assert on_dup.kv is OVERWRITE, 'invalid on_dup_kv: %r' % on_dup.kv
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# Fall through to the return statement on the last line.
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elif isdupkey:
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if on_dup.key is RAISE:
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raise KeyDuplicationError(key)
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elif on_dup.key is IGNORE:
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return _NOOP
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assert on_dup.key is OVERWRITE, 'invalid on_dup.key: %r' % on_dup.key
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# Fall through to the return statement on the last line.
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elif isdupval:
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if on_dup.val is RAISE:
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raise ValueDuplicationError(val)
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elif on_dup.val is IGNORE:
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return _NOOP
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assert on_dup.val is OVERWRITE, 'invalid on_dup.val: %r' % on_dup.val
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# Fall through to the return statement on the last line.
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# else neither isdupkey nor isdupval.
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return dedup_result
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@staticmethod
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def _isdupitem(key, val, dedup_result):
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isdupkey, isdupval, oldkey, oldval = dedup_result
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isdupitem = oldkey == key
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assert isdupitem == (oldval == val), '%r %r %r' % (key, val, dedup_result)
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if isdupitem:
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assert isdupkey
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assert isdupval
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return isdupitem
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@classmethod
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def _get_on_dup(cls, on_dup=None):
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if on_dup is None:
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on_dup = _OnDup(cls.on_dup_key, cls.on_dup_val, cls.on_dup_kv)
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elif not isinstance(on_dup, _OnDup):
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on_dup = _OnDup(*on_dup)
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if on_dup.kv is None:
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on_dup = on_dup._replace(kv=on_dup.val)
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return on_dup
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def _write_item(self, key, val, dedup_result):
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isdupkey, isdupval, oldkey, oldval = dedup_result
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fwdm = self._fwdm
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invm = self._invm
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fwdm[key] = val
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invm[val] = key
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if isdupkey:
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del invm[oldval]
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if isdupval:
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del fwdm[oldkey]
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return _WriteResult(key, val, oldkey, oldval)
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def _update(self, init, on_dup, *args, **kw):
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# args[0] may be a generator that yields many items, so process input in a single pass.
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if not args and not kw:
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return
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can_skip_dup_check = not self and not kw and isinstance(args[0], BidirectionalMapping)
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if can_skip_dup_check:
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self._update_no_dup_check(args[0])
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return
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on_dup = self._get_on_dup(on_dup)
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can_skip_rollback = init or RAISE not in on_dup
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if can_skip_rollback:
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self._update_no_rollback(on_dup, *args, **kw)
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else:
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self._update_with_rollback(on_dup, *args, **kw)
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def _update_no_dup_check(self, other, _nodup=_NODUP):
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write_item = self._write_item
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for (key, val) in iteritems(other):
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write_item(key, val, _nodup)
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def _update_no_rollback(self, on_dup, *args, **kw):
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put = self._put
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for (key, val) in _iteritems_args_kw(*args, **kw):
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put(key, val, on_dup)
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def _update_with_rollback(self, on_dup, *args, **kw):
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"""Update, rolling back on failure."""
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writelog = []
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appendlog = writelog.append
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dedup_item = self._dedup_item
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write_item = self._write_item
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for (key, val) in _iteritems_args_kw(*args, **kw):
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try:
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dedup_result = dedup_item(key, val, on_dup)
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except DuplicationError:
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undo_write = self._undo_write
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for dedup_result, write_result in reversed(writelog):
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undo_write(dedup_result, write_result)
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raise
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if dedup_result is not _NOOP:
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write_result = write_item(key, val, dedup_result)
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appendlog((dedup_result, write_result))
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def _undo_write(self, dedup_result, write_result):
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isdupkey, isdupval, _, _ = dedup_result
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key, val, oldkey, oldval = write_result
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if not isdupkey and not isdupval:
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self._pop(key)
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return
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fwdm = self._fwdm
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invm = self._invm
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if isdupkey:
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fwdm[key] = oldval
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invm[oldval] = key
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if not isdupval:
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del invm[val]
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if isdupval:
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invm[val] = oldkey
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fwdm[oldkey] = val
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if not isdupkey:
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del fwdm[key]
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def copy(self):
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"""A shallow copy."""
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# Could just ``return self.__class__(self)`` here instead, but the below is faster. It uses
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# __new__ to create a copy instance while bypassing its __init__, which would result
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# in copying this bidict's items into the copy instance one at a time. Instead, make whole
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# copies of each of the backing mappings, and make them the backing mappings of the copy,
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# avoiding copying items one at a time.
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copy = self.__class__.__new__(self.__class__)
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copy._fwdm = self._fwdm.copy() # pylint: disable=protected-access
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copy._invm = self._invm.copy() # pylint: disable=protected-access
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copy._init_inv() # pylint: disable=protected-access
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return copy
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def __copy__(self):
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"""Used for the copy protocol.
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*See also* the :mod:`copy` module
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"""
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return self.copy()
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def __len__(self):
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"""The number of contained items."""
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return len(self._fwdm)
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def __iter__(self): # lgtm [py/inheritance/incorrect-overridden-signature]
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"""Iterator over the contained items."""
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# No default implementation for __iter__ inherited from Mapping ->
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# always delegate to _fwdm.
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return iter(self._fwdm)
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def __getitem__(self, key):
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u"""*x.__getitem__(key) ⟺ x[key]*"""
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return self._fwdm[key]
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def values(self):
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"""A set-like object providing a view on the contained values.
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Note that because the values of a :class:`~bidict.BidirectionalMapping`
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are the keys of its inverse,
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this returns a :class:`~collections.abc.KeysView`
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rather than a :class:`~collections.abc.ValuesView`,
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which has the advantages of constant-time containment checks
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and supporting set operations.
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"""
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return self.inverse.keys()
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if PY2:
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# For iterkeys and iteritems, inheriting from Mapping already provides
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# the best default implementations so no need to define here.
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def itervalues(self):
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"""An iterator over the contained values."""
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return self.inverse.iterkeys()
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def viewkeys(self): # noqa: D102; pylint: disable=missing-docstring
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return KeysView(self)
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def viewvalues(self): # noqa: D102; pylint: disable=missing-docstring
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return self.inverse.viewkeys()
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viewvalues.__doc__ = values.__doc__
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values.__doc__ = 'A list of the contained values.'
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def viewitems(self): # noqa: D102; pylint: disable=missing-docstring
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return ItemsView(self)
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# __ne__ added automatically in Python 3 when you implement __eq__, but not in Python 2.
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def __ne__(self, other): # noqa: N802
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u"""*x.__ne__(other) ⟺ x != other*"""
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return not self == other # Implement __ne__ in terms of __eq__.
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# * Code review nav *
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#==============================================================================
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# ← Prev: _abc.py Current: _base.py Next: _delegating_mixins.py →
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#==============================================================================
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