mirror of https://github.com/morpheus65535/bazarr
557 lines
24 KiB
Python
557 lines
24 KiB
Python
# Copyright 2009-2024 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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# * Code review nav *
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# (see comments in __init__.py)
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# ============================================================================
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# ← Prev: _abc.py Current: _base.py Next: _frozen.py →
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# ============================================================================
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"""Provide :class:`BidictBase`."""
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from __future__ import annotations
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import typing as t
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import weakref
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from itertools import starmap
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from operator import eq
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from types import MappingProxyType
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from ._abc import BidirectionalMapping
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from ._dup import DROP_NEW
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from ._dup import DROP_OLD
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from ._dup import ON_DUP_DEFAULT
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from ._dup import RAISE
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from ._dup import OnDup
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from ._exc import DuplicationError
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from ._exc import KeyAndValueDuplicationError
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from ._exc import KeyDuplicationError
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from ._exc import ValueDuplicationError
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from ._iter import inverted
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from ._iter import iteritems
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from ._typing import KT
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from ._typing import MISSING
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from ._typing import OKT
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from ._typing import OVT
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from ._typing import VT
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from ._typing import Maplike
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from ._typing import MapOrItems
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OldKV = t.Tuple[OKT[KT], OVT[VT]]
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DedupResult = t.Optional[OldKV[KT, VT]]
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Unwrites = t.List[t.Tuple[t.Any, ...]]
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BT = t.TypeVar('BT', bound='BidictBase[t.Any, t.Any]')
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class BidictKeysView(t.KeysView[KT], t.ValuesView[KT]):
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"""Since the keys of a bidict are the values of its inverse (and vice versa),
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the :class:`~collections.abc.ValuesView` result of calling *bi.values()*
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is also a :class:`~collections.abc.KeysView` of *bi.inverse*.
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"""
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class BidictBase(BidirectionalMapping[KT, VT]):
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"""Base class implementing :class:`BidirectionalMapping`."""
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#: The default :class:`~bidict.OnDup`
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#: that governs behavior when a provided item
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#: duplicates the key or value of other item(s).
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#:
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#: *See also*
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#: :ref:`basic-usage:Values Must Be Unique` (https://bidict.rtfd.io/basic-usage.html#values-must-be-unique),
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#: :doc:`extending` (https://bidict.rtfd.io/extending.html)
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on_dup = ON_DUP_DEFAULT
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_fwdm: t.MutableMapping[KT, VT] #: the backing forward mapping (*key* → *val*)
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_invm: t.MutableMapping[VT, KT] #: the backing inverse mapping (*val* → *key*)
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# Use Any rather than KT/VT in the following to avoid "ClassVar cannot contain type variables" errors:
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_fwdm_cls: t.ClassVar[type[t.MutableMapping[t.Any, t.Any]]] = dict #: class of the backing forward mapping
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_invm_cls: t.ClassVar[type[t.MutableMapping[t.Any, t.Any]]] = dict #: class of the backing inverse mapping
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#: The class of the inverse bidict instance.
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_inv_cls: t.ClassVar[type[BidictBase[t.Any, t.Any]]]
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def __init_subclass__(cls) -> None:
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super().__init_subclass__()
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cls._init_class()
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@classmethod
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def _init_class(cls) -> None:
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cls._ensure_inv_cls()
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cls._set_reversed()
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__reversed__: t.ClassVar[t.Any]
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@classmethod
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def _set_reversed(cls) -> None:
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"""Set __reversed__ for subclasses that do not set it explicitly
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according to whether backing mappings are reversible.
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"""
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if cls is not BidictBase:
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resolved = cls.__reversed__
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overridden = resolved is not BidictBase.__reversed__
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if overridden: # E.g. OrderedBidictBase, OrderedBidict
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return
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backing_reversible = all(issubclass(i, t.Reversible) for i in (cls._fwdm_cls, cls._invm_cls))
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cls.__reversed__ = _fwdm_reversed if backing_reversible else None
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@classmethod
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def _ensure_inv_cls(cls) -> None:
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"""Ensure :attr:`_inv_cls` is set, computing it dynamically if necessary.
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All subclasses provided in :mod:`bidict` are their own inverse classes,
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i.e., their backing forward and inverse mappings are both the same type,
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but users may define subclasses where this is not the case.
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This method ensures that the inverse class is computed correctly regardless.
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See: :ref:`extending:Dynamic Inverse Class Generation`
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(https://bidict.rtfd.io/extending.html#dynamic-inverse-class-generation)
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"""
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# This _ensure_inv_cls() method is (indirectly) corecursive with _make_inv_cls() below
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# in the case that we need to dynamically generate the inverse class:
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# 1. _ensure_inv_cls() calls cls._make_inv_cls()
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# 2. cls._make_inv_cls() calls type(..., (cls, ...), ...) to dynamically generate inv_cls
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# 3. Our __init_subclass__ hook (see above) is automatically called on inv_cls
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# 4. inv_cls.__init_subclass__() calls inv_cls._ensure_inv_cls()
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# 5. inv_cls._ensure_inv_cls() resolves to this implementation
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# (inv_cls deliberately does not override this), so we're back where we started.
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# But since the _make_inv_cls() call will have set inv_cls.__dict__._inv_cls,
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# just check if it's already set before calling _make_inv_cls() to prevent infinite recursion.
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if getattr(cls, '__dict__', {}).get('_inv_cls'): # Don't assume cls.__dict__ (e.g. mypyc native class)
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return
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cls._inv_cls = cls._make_inv_cls()
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@classmethod
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def _make_inv_cls(cls: type[BT]) -> type[BT]:
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diff = cls._inv_cls_dict_diff()
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cls_is_own_inv = all(getattr(cls, k, MISSING) == v for (k, v) in diff.items())
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if cls_is_own_inv:
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return cls
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# Suppress auto-calculation of _inv_cls's _inv_cls since we know it already.
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# Works with the guard in BidictBase._ensure_inv_cls() to prevent infinite recursion.
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diff['_inv_cls'] = cls
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inv_cls = type(f'{cls.__name__}Inv', (cls, GeneratedBidictInverse), diff)
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inv_cls.__module__ = cls.__module__
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return t.cast(t.Type[BT], inv_cls)
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@classmethod
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def _inv_cls_dict_diff(cls) -> dict[str, t.Any]:
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return {
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'_fwdm_cls': cls._invm_cls,
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'_invm_cls': cls._fwdm_cls,
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}
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def __init__(self, arg: MapOrItems[KT, VT] = (), /, **kw: VT) -> None:
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"""Make a new bidirectional mapping.
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The signature behaves like that of :class:`dict`.
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ktems passed via positional arg are processed first,
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followed by any items passed via keyword argument.
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Any duplication encountered along the way
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is handled as per :attr:`on_dup`.
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"""
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self._fwdm = self._fwdm_cls()
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self._invm = self._invm_cls()
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self._update(arg, kw, rollback=False)
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# If Python ever adds support for higher-kinded types, `inverse` could use them, e.g.
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# def inverse(self: BT[KT, VT]) -> BT[VT, KT]:
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# Ref: https://github.com/python/typing/issues/548#issuecomment-621571821
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@property
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def inverse(self) -> BidictBase[VT, KT]:
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"""The inverse of this bidirectional mapping instance."""
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# When `bi.inverse` is called for the first time, this method
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# computes the inverse instance, stores it for subsequent use, and then
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# returns it. It also stores a reference on `bi.inverse` back to `bi`,
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# but uses a weakref to avoid creating a reference cycle. Strong references
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# to inverse instances are stored in ._inv, and weak references are stored
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# in ._invweak.
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# First check if a strong reference is already stored.
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inv: BidictBase[VT, KT] | None = getattr(self, '_inv', None)
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if inv is not None:
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return inv
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# Next check if a weak reference is already stored.
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invweak = getattr(self, '_invweak', None)
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if invweak is not None:
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inv = invweak() # Try to resolve a strong reference and return it.
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if inv is not None:
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return inv
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# No luck. Compute the inverse reference and store it for subsequent use.
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inv = self._make_inverse()
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self._inv: BidictBase[VT, KT] | None = inv
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self._invweak: weakref.ReferenceType[BidictBase[VT, KT]] | None = None
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# Also store a weak reference back to `instance` on its inverse instance, so that
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# the second `.inverse` access in `bi.inverse.inverse` hits the cached weakref.
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inv._inv = None
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inv._invweak = weakref.ref(self)
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# In e.g. `bidict().inverse.inverse`, this design ensures that a strong reference
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# back to the original instance is retained before its refcount drops to zero,
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# avoiding an unintended potential deallocation.
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return inv
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def _make_inverse(self) -> BidictBase[VT, KT]:
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inv: BidictBase[VT, KT] = self._inv_cls()
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inv._fwdm = self._invm
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inv._invm = self._fwdm
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return inv
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@property
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def inv(self) -> BidictBase[VT, KT]:
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"""Alias for :attr:`inverse`."""
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return self.inverse
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def __repr__(self) -> str:
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"""See :func:`repr`."""
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clsname = self.__class__.__name__
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items = dict(self.items()) if self else ''
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return f'{clsname}({items})'
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def values(self) -> BidictKeysView[VT]:
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"""A set-like object providing a view on the contained values.
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Since the values of a bidict are equivalent to the keys of its inverse,
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this method returns a set-like object for this bidict's values
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rather than just a collections.abc.ValuesView.
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This object supports set operations like union and difference,
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and constant- rather than linear-time containment checks,
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and is no more expensive to provide than the less capable
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collections.abc.ValuesView would be.
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See :meth:`keys` for more information.
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"""
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return t.cast(BidictKeysView[VT], self.inverse.keys())
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def keys(self) -> t.KeysView[KT]:
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"""A set-like object providing a view on the contained keys.
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When *b._fwdm* is a :class:`dict`, *b.keys()* returns a
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*dict_keys* object that behaves exactly the same as
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*collections.abc.KeysView(b)*, except for
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- offering better performance
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- being reversible on Python 3.8+
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- having a .mapping attribute in Python 3.10+
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that exposes a mappingproxy to *b._fwdm*.
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"""
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fwdm, fwdm_cls = self._fwdm, self._fwdm_cls
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return fwdm.keys() if fwdm_cls is dict else BidictKeysView(self)
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def items(self) -> t.ItemsView[KT, VT]:
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"""A set-like object providing a view on the contained items.
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When *b._fwdm* is a :class:`dict`, *b.items()* returns a
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*dict_items* object that behaves exactly the same as
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*collections.abc.ItemsView(b)*, except for:
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- offering better performance
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- being reversible on Python 3.8+
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- having a .mapping attribute in Python 3.10+
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that exposes a mappingproxy to *b._fwdm*.
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"""
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return self._fwdm.items() if self._fwdm_cls is dict else super().items()
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# The inherited collections.abc.Mapping.__contains__() method is implemented by doing a `try`
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# `except KeyError` around `self[key]`. The following implementation is much faster,
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# especially in the missing case.
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def __contains__(self, key: t.Any) -> bool:
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"""True if the mapping contains the specified key, else False."""
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return key in self._fwdm
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# The inherited collections.abc.Mapping.__eq__() method is implemented in terms of an inefficient
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# `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: object) -> bool:
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"""*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.BidictBase.__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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(https://bidict.rtfd.io/other-bidict-types.html#eq-is-order-insensitive).
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*See also* :meth:`equals_order_sensitive`
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"""
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if isinstance(other, t.Mapping):
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return self._fwdm.items() == other.items()
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# Ref: https://docs.python.org/3/library/constants.html#NotImplemented
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return NotImplemented
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def equals_order_sensitive(self, other: object) -> bool:
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"""Order-sensitive equality check.
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*See also* :ref:`eq-order-insensitive`
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(https://bidict.rtfd.io/other-bidict-types.html#eq-is-order-insensitive)
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"""
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if not isinstance(other, t.Mapping) or len(self) != len(other):
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return False
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return all(starmap(eq, zip(self.items(), other.items())))
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def _dedup(self, key: KT, val: VT, on_dup: OnDup) -> DedupResult[KT, VT]:
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"""Check *key* and *val* for any duplication in self.
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Handle any duplication as per the passed in *on_dup*.
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If (key, val) is already present, return None
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since writing (key, val) would be a no-op.
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If duplication is found and the corresponding :class:`~bidict.OnDupAction` is
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:attr:`~bidict.DROP_NEW`, return None.
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If duplication is found and the corresponding :class:`~bidict.OnDupAction` is
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:attr:`~bidict.RAISE`, raise the appropriate exception.
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If duplication is found and the corresponding :class:`~bidict.OnDupAction` is
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:attr:`~bidict.DROP_OLD`, or if no duplication is found,
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return *(oldkey, oldval)*.
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"""
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fwdm, invm = self._fwdm, self._invm
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oldval: OVT[VT] = fwdm.get(key, MISSING)
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oldkey: OKT[KT] = invm.get(val, MISSING)
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isdupkey, isdupval = oldval is not MISSING, oldkey is not MISSING
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if isdupkey and isdupval:
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if key == oldkey:
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assert val == oldval
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# (key, val) duplicates an existing item -> no-op.
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return None
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# key and val each duplicate a different existing item.
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if on_dup.val is RAISE:
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raise KeyAndValueDuplicationError(key, val)
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if on_dup.val is DROP_NEW:
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return None
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assert on_dup.val is DROP_OLD
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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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if on_dup.key is DROP_NEW:
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return None
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assert on_dup.key is DROP_OLD
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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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if on_dup.val is DROP_NEW:
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return None
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assert on_dup.val is DROP_OLD
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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 oldkey, oldval
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def _write(self, newkey: KT, newval: VT, oldkey: OKT[KT], oldval: OVT[VT], unwrites: Unwrites | None) -> None:
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"""Insert (newkey, newval), extending *unwrites* with associated inverse operations if provided.
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*oldkey* and *oldval* are as returned by :meth:`_dedup`.
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If *unwrites* is not None, it is extended with the inverse operations necessary to undo the write.
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This design allows :meth:`_update` to roll back a partially applied update that fails part-way through
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when necessary.
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This design also allows subclasses that require additional operations to easily extend this implementation.
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For example, :class:`bidict.OrderedBidictBase` calls this inherited implementation, and then extends *unwrites*
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with additional operations needed to keep its internal linked list nodes consistent with its items' order
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as changes are made.
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"""
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fwdm, invm = self._fwdm, self._invm
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fwdm_set, invm_set = fwdm.__setitem__, invm.__setitem__
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fwdm_del, invm_del = fwdm.__delitem__, invm.__delitem__
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# Always perform the following writes regardless of duplication.
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fwdm_set(newkey, newval)
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invm_set(newval, newkey)
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if oldval is MISSING and oldkey is MISSING: # no key or value duplication
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# {0: 1, 2: 3} | {4: 5} => {0: 1, 2: 3, 4: 5}
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if unwrites is not None:
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unwrites.extend((
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(fwdm_del, newkey),
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(invm_del, newval),
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))
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elif oldval is not MISSING and oldkey is not MISSING: # key and value duplication across two different items
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# {0: 1, 2: 3} | {0: 3} => {0: 3}
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fwdm_del(oldkey)
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invm_del(oldval)
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if unwrites is not None:
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unwrites.extend((
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(fwdm_set, newkey, oldval),
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(invm_set, oldval, newkey),
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(fwdm_set, oldkey, newval),
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(invm_set, newval, oldkey),
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))
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elif oldval is not MISSING: # just key duplication
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# {0: 1, 2: 3} | {2: 4} => {0: 1, 2: 4}
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invm_del(oldval)
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if unwrites is not None:
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unwrites.extend((
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(fwdm_set, newkey, oldval),
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(invm_set, oldval, newkey),
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(invm_del, newval),
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))
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else:
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assert oldkey is not MISSING # just value duplication
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# {0: 1, 2: 3} | {4: 3} => {0: 1, 4: 3}
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fwdm_del(oldkey)
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if unwrites is not None:
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unwrites.extend((
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(fwdm_set, oldkey, newval),
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(invm_set, newval, oldkey),
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(fwdm_del, newkey),
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))
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def _update(
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self,
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arg: MapOrItems[KT, VT],
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kw: t.Mapping[str, VT] = MappingProxyType({}),
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*,
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rollback: bool | None = None,
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on_dup: OnDup | None = None,
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) -> None:
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"""Update with the items from *arg* and *kw*, maybe failing and rolling back as per *on_dup* and *rollback*."""
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# Note: We must process input in a single pass, since arg may be a generator.
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if not isinstance(arg, (t.Iterable, Maplike)):
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raise TypeError(f"'{arg.__class__.__name__}' object is not iterable")
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if not arg and not kw:
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return
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if on_dup is None:
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on_dup = self.on_dup
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if rollback is None:
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rollback = RAISE in on_dup
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# Fast path when we're empty and updating only from another bidict (i.e. no dup vals in new items).
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if not self and not kw and isinstance(arg, BidictBase):
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self._init_from(arg)
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return
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||
# Fast path when we're adding more items than we contain already and rollback is enabled:
|
||
# Update a copy of self with rollback disabled. Fail if that fails, otherwise become the copy.
|
||
if rollback and isinstance(arg, t.Sized) and len(arg) + len(kw) > len(self):
|
||
tmp = self.copy()
|
||
tmp._update(arg, kw, rollback=False, on_dup=on_dup)
|
||
self._init_from(tmp)
|
||
return
|
||
|
||
# In all other cases, benchmarking has indicated that the update is best implemented as follows:
|
||
# For each new item, perform a dup check (raising if necessary), and apply the associated writes we need to
|
||
# perform on our backing _fwdm and _invm mappings. If rollback is enabled, also compute the associated unwrites
|
||
# as we go. If the update results in a DuplicationError and rollback is enabled, apply the accumulated unwrites
|
||
# before raising, to ensure that we fail clean.
|
||
write = self._write
|
||
unwrites: Unwrites | None = [] if rollback else None
|
||
for key, val in iteritems(arg, **kw):
|
||
try:
|
||
dedup_result = self._dedup(key, val, on_dup)
|
||
except DuplicationError:
|
||
if unwrites is not None:
|
||
for fn, *args in reversed(unwrites):
|
||
fn(*args)
|
||
raise
|
||
if dedup_result is not None:
|
||
write(key, val, *dedup_result, unwrites=unwrites)
|
||
|
||
def __copy__(self: BT) -> BT:
|
||
"""Used for the copy protocol. See the :mod:`copy` module."""
|
||
return self.copy()
|
||
|
||
def copy(self: BT) -> BT:
|
||
"""Make a (shallow) copy of this bidict."""
|
||
# Could just `return self.__class__(self)` here, but the below is faster. The former
|
||
# would copy this bidict's items into a new instance one at a time (checking for duplication
|
||
# for each item), whereas the below copies from the backing mappings all at once, and foregoes
|
||
# item-by-item duplication checking since the backing mappings have been checked already.
|
||
return self._from_other(self.__class__, self)
|
||
|
||
@staticmethod
|
||
def _from_other(bt: type[BT], other: MapOrItems[KT, VT], inv: bool = False) -> BT:
|
||
"""Fast, private constructor based on :meth:`_init_from`.
|
||
|
||
If *inv* is true, return the inverse of the instance instead of the instance itself.
|
||
(Useful for pickling with dynamically-generated inverse classes -- see :meth:`__reduce__`.)
|
||
"""
|
||
inst = bt()
|
||
inst._init_from(other)
|
||
return t.cast(BT, inst.inverse) if inv else inst
|
||
|
||
def _init_from(self, other: MapOrItems[KT, VT]) -> None:
|
||
"""Fast init from *other*, bypassing item-by-item duplication checking."""
|
||
self._fwdm.clear()
|
||
self._invm.clear()
|
||
self._fwdm.update(other)
|
||
# If other is a bidict, use its existing backing inverse mapping, otherwise
|
||
# other could be a generator that's now exhausted, so invert self._fwdm on the fly.
|
||
inv = other.inverse if isinstance(other, BidictBase) else inverted(self._fwdm)
|
||
self._invm.update(inv)
|
||
|
||
# other's type is Mapping rather than Maplike since bidict() | SupportsKeysAndGetItem({})
|
||
# raises a TypeError, just like dict() | SupportsKeysAndGetItem({}) does.
|
||
def __or__(self: BT, other: t.Mapping[KT, VT]) -> BT:
|
||
"""Return self|other."""
|
||
if not isinstance(other, t.Mapping):
|
||
return NotImplemented
|
||
new = self.copy()
|
||
new._update(other, rollback=False)
|
||
return new
|
||
|
||
def __ror__(self: BT, other: t.Mapping[KT, VT]) -> BT:
|
||
"""Return other|self."""
|
||
if not isinstance(other, t.Mapping):
|
||
return NotImplemented
|
||
new = self.__class__(other)
|
||
new._update(self, rollback=False)
|
||
return new
|
||
|
||
def __len__(self) -> int:
|
||
"""The number of contained items."""
|
||
return len(self._fwdm)
|
||
|
||
def __iter__(self) -> t.Iterator[KT]:
|
||
"""Iterator over the contained keys."""
|
||
return iter(self._fwdm)
|
||
|
||
def __getitem__(self, key: KT) -> VT:
|
||
"""*x.__getitem__(key) ⟺ x[key]*"""
|
||
return self._fwdm[key]
|
||
|
||
def __reduce__(self) -> tuple[t.Any, ...]:
|
||
"""Return state information for pickling."""
|
||
cls = self.__class__
|
||
inst: t.Mapping[t.Any, t.Any] = self
|
||
# If this bidict's class is dynamically generated, pickle the inverse instead, whose (presumably not
|
||
# dynamically generated) class the caller is more likely to have a reference to somewhere in sys.modules
|
||
# that pickle can discover.
|
||
if should_invert := isinstance(self, GeneratedBidictInverse):
|
||
cls = self._inv_cls
|
||
inst = self.inverse
|
||
return self._from_other, (cls, dict(inst), should_invert)
|
||
|
||
|
||
# See BidictBase._set_reversed() above.
|
||
def _fwdm_reversed(self: BidictBase[KT, t.Any]) -> t.Iterator[KT]:
|
||
"""Iterator over the contained keys in reverse order."""
|
||
assert isinstance(self._fwdm, t.Reversible)
|
||
return reversed(self._fwdm)
|
||
|
||
|
||
BidictBase._init_class()
|
||
|
||
|
||
class GeneratedBidictInverse:
|
||
"""Base class for dynamically-generated inverse bidict classes."""
|
||
|
||
|
||
# * Code review nav *
|
||
# ============================================================================
|
||
# ← Prev: _abc.py Current: _base.py Next: _frozen.py →
|
||
# ============================================================================
|