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| Original file line number | Diff line number | Diff line change |
|---|---|---|
| @@ -0,0 +1,263 @@ | ||
| import weakref | ||
| from weakref import ref | ||
| from _weakrefset import _IterationGuard # type: ignore[attr-defined] | ||
| from collections.abc import MutableMapping, Mapping | ||
| from typing import Dict | ||
| import collections.abc as _collections_abc | ||
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| __all__ = ['WeakIdRef', 'WeakIdKeyDictionary', 'WeakTensorKeyDictionary'] | ||
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| # This file defines a variant of WeakKeyDictionary that overrides the hashing | ||
| # behavior of the key to use object identity, rather than the builtin | ||
| # __eq__/__hash__ functions. This is useful for Tensor weak keys, as their | ||
| # __eq__ implementation return a Tensor (elementwise equality), which means | ||
| # you can't use them directly with the WeakKeyDictionary in standard library. | ||
| # | ||
| # Our implementation strategy is to create a wrapper weak key object, which we | ||
| # use as a key in a stock Python dictionary. This is similar to how weakref | ||
| # implements WeakKeyDictionary, but instead of using weakref.ref as the | ||
| # wrapper, we use a custom wrapper that has different __eq__ and __hash__ | ||
| # behavior. Note that we subsequently store this weak key directly in an | ||
| # ORDINARY dictionary, since the newly constructed WeakIdKey's only use would | ||
| # be a dictionary so it would have no strong references. Ensuring that | ||
| # only live WeakIdKeys are in the map is handled by putting finalizers on the | ||
| # original key object. | ||
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| # It is simpler to implement this with composition, but if we want to | ||
| # directly reuse the callback mechanism on weakref, we need the weakref | ||
| # and the key to be exactly the same object. Reusing the callback mechanism | ||
| # minimizes the divergence between our implementation and Lib/weakref.py | ||
| # | ||
| # NB: Prefer using this when working with weakrefs of Tensors; e.g., do | ||
| # WeakIdRef(tensor) rather than weakref.ref(tensor); it handles a number of | ||
| # easy to get wrong cases transparently for you. | ||
| class WeakIdRef(weakref.ref): | ||
| __slots__ = ['_id'] | ||
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| def __init__(self, key, callback=None): | ||
| # Unlike stock weakref, which preserves hash semantics of the | ||
| # original object but lazily defers hash calls until the first | ||
| # time the user attempts to hash the weakref, we can eagerly | ||
| # cache the id of the key as we know this is definitely the hash | ||
| # method | ||
| self._id = id(key) | ||
| super().__init__(key, callback) | ||
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| def __call__(self): | ||
| r = super().__call__() | ||
| # Special logic for Tensor PyObject resurrection | ||
| if hasattr(r, '_fix_weakref'): | ||
| r._fix_weakref() # type: ignore[union-attr] | ||
| return r | ||
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| def __hash__(self): | ||
| return self._id | ||
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| def __eq__(self, other): | ||
| # An attractive but wrong alternate implementation is to only test if | ||
| # the stored _ids match. This can lead to an ABA problem if you have: | ||
| # | ||
| # a1 = A() | ||
| # w1 = WeakIdRef(a) | ||
| # del a1 | ||
| # a2 = A() # suppose it gets the same ID as a1 | ||
| # w2 = WeakIdRef(a2) | ||
| # print(w1 == w2) | ||
| # | ||
| # This should be False, as a1 and a2 are unrelated (and a1 is | ||
| # dead anyway) | ||
| a = self() | ||
| b = other() | ||
| if a is not None and b is not None: | ||
| return a is b | ||
| return self is other | ||
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| # This is directly adapted from cpython/Lib/weakref.py | ||
| class WeakIdKeyDictionary(MutableMapping): | ||
| data: Dict[WeakIdRef, object] | ||
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| def __init__(self, dict=None): | ||
| self.data = {} | ||
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| def remove(k, selfref=ref(self)): | ||
| self = selfref() | ||
| if self is not None: | ||
| if self._iterating: | ||
| self._pending_removals.append(k) | ||
| else: | ||
| try: | ||
| del self.data[k] | ||
| except KeyError: | ||
| pass | ||
| self._remove = remove | ||
| # A list of dead weakrefs (keys to be removed) | ||
| self._pending_removals = [] | ||
| self._iterating = set() | ||
| self._dirty_len = False | ||
| if dict is not None: | ||
| self.update(dict) | ||
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| def _commit_removals(self): | ||
| # NOTE: We don't need to call this method before mutating the dict, | ||
| # because a dead weakref never compares equal to a live weakref, | ||
| # even if they happened to refer to equal objects. | ||
| # However, it means keys may already have been removed. | ||
| pop = self._pending_removals.pop | ||
| d = self.data | ||
| while True: | ||
| try: | ||
| key = pop() | ||
| except IndexError: | ||
| return | ||
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| try: | ||
| del d[key] | ||
| except KeyError: | ||
| pass | ||
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| def _scrub_removals(self): | ||
| d = self.data | ||
| self._pending_removals = [k for k in self._pending_removals if k in d] | ||
| self._dirty_len = False | ||
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| def __delitem__(self, key): | ||
| self._dirty_len = True | ||
| del self.data[WeakIdRef(key)] # CHANGED | ||
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| def __getitem__(self, key): | ||
| return self.data[WeakIdRef(key)] # CHANGED | ||
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| def __len__(self): | ||
| if self._dirty_len and self._pending_removals: | ||
| # self._pending_removals may still contain keys which were | ||
| # explicitly removed, we have to scrub them (see issue #21173). | ||
| self._scrub_removals() | ||
| return len(self.data) - len(self._pending_removals) | ||
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| def __repr__(self): | ||
| return "<%s at %#x>" % (self.__class__.__name__, id(self)) | ||
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| def __setitem__(self, key, value): | ||
| self.data[WeakIdRef(key, self._remove)] = value # CHANGED | ||
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| def copy(self): | ||
| new = WeakIdKeyDictionary() | ||
| with _IterationGuard(self): | ||
| for key, value in self.data.items(): | ||
| o = key() | ||
| if o is not None: | ||
| new[o] = value | ||
| return new | ||
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| __copy__ = copy | ||
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| def __deepcopy__(self, memo): | ||
| from copy import deepcopy | ||
| new = self.__class__() | ||
| with _IterationGuard(self): | ||
| for key, value in self.data.items(): | ||
| o = key() | ||
| if o is not None: | ||
| new[o] = deepcopy(value, memo) | ||
| return new | ||
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| def get(self, key, default=None): | ||
| return self.data.get(WeakIdRef(key), default) # CHANGED | ||
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| def __contains__(self, key): | ||
| try: | ||
| wr = WeakIdRef(key) | ||
| except TypeError: | ||
| return False | ||
| return wr in self.data | ||
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| def items(self): | ||
| with _IterationGuard(self): | ||
| for wr, value in self.data.items(): | ||
| key = wr() | ||
| if key is not None: | ||
| yield key, value | ||
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| def keys(self): | ||
| with _IterationGuard(self): | ||
| for wr in self.data: | ||
| obj = wr() | ||
| if obj is not None: | ||
| yield obj | ||
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| __iter__ = keys | ||
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| def values(self): | ||
| with _IterationGuard(self): | ||
| for wr, value in self.data.items(): | ||
| if wr() is not None: | ||
| yield value | ||
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| def keyrefs(self): | ||
| """Return a list of weak references to the keys. | ||
| The references are not guaranteed to be 'live' at the time | ||
| they are used, so the result of calling the references needs | ||
| to be checked before being used. This can be used to avoid | ||
| creating references that will cause the garbage collector to | ||
| keep the keys around longer than needed. | ||
| """ | ||
| return list(self.data) | ||
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| def popitem(self): | ||
| self._dirty_len = True | ||
| while True: | ||
| key, value = self.data.popitem() | ||
| o = key() | ||
| if o is not None: | ||
| return o, value | ||
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| def pop(self, key, *args): | ||
| self._dirty_len = True | ||
| return self.data.pop(WeakIdRef(key), *args) # CHANGED | ||
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| def setdefault(self, key, default=None): | ||
| return self.data.setdefault(WeakIdRef(key, self._remove), default) # CHANGED | ||
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| def update(self, dict=None, **kwargs): | ||
| d = self.data | ||
| if dict is not None: | ||
| if not hasattr(dict, "items"): | ||
| dict = type({})(dict) | ||
| for key, value in dict.items(): | ||
| d[WeakIdRef(key, self._remove)] = value # CHANGED | ||
| if len(kwargs): | ||
| self.update(kwargs) | ||
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| def __ior__(self, other): | ||
| self.update(other) | ||
| return self | ||
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| def __or__(self, other): | ||
| if isinstance(other, _collections_abc.Mapping): | ||
| c = self.copy() | ||
| c.update(other) | ||
| return c | ||
| return NotImplemented | ||
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| def __ror__(self, other): | ||
| if isinstance(other, _collections_abc.Mapping): | ||
| c = self.__class__() | ||
| c.update(other) | ||
| c.update(self) | ||
| return c | ||
| return NotImplemented | ||
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| # Default Mapping equality will tests keys for equality, but | ||
| # we want to test ids for equality | ||
| def __eq__(self, other): | ||
| if not isinstance(other, Mapping): | ||
| return NotImplemented | ||
| return {id(k): v for k, v in self.items()} == {id(k): v for k, v in other.items()} | ||
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| # Convenience alias | ||
| WeakTensorKeyDictionary = WeakIdKeyDictionary |