bpo-32929: Dataclasses: Change the tri-state hash parameter to the boolean unsafe_hash. (#5891)
unsafe_hash=False is now the default. It is the same behavior as the old hash=None parameter. unsafe_hash=True will try to add __hash__. If it already exists, TypeError is raised.
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@ -20,11 +20,11 @@ __all__ = ['dataclass',
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# Conditions for adding methods. The boxes indicate what action the
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# dataclass decorator takes. For all of these tables, when I talk
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# about init=, repr=, eq=, order=, hash=, or frozen=, I'm referring
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# to the arguments to the @dataclass decorator. When checking if a
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# dunder method already exists, I mean check for an entry in the
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# class's __dict__. I never check to see if an attribute is defined
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# in a base class.
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# about init=, repr=, eq=, order=, unsafe_hash=, or frozen=, I'm
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# referring to the arguments to the @dataclass decorator. When
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# checking if a dunder method already exists, I mean check for an
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# entry in the class's __dict__. I never check to see if an
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# attribute is defined in a base class.
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# Key:
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# +=========+=========================================+
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@ -34,11 +34,6 @@ __all__ = ['dataclass',
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# +---------+-----------------------------------------+
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# | add | Generated method is added. |
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# +---------+-----------------------------------------+
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# | add* | Generated method is added only if the |
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# | | existing attribute is None and if the |
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# | | user supplied a __eq__ method in the |
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# | | class definition. |
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# +---------+-----------------------------------------+
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# | raise | TypeError is raised. |
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# +---------+-----------------------------------------+
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# | None | Attribute is set to None. |
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@ -115,43 +110,36 @@ __all__ = ['dataclass',
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# __hash__
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# +------------------- hash= parameter
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# | +----------- eq= parameter
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# | | +--- frozen= parameter
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# | | |
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# v v v | | |
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# | no | yes | <--- class has __hash__ in __dict__?
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# +=========+=======+=======+========+========+
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# | 1 None | False | False | | | No __eq__, use the base class __hash__
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# +---------+-------+-------+--------+--------+
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# | 2 None | False | True | | | No __eq__, use the base class __hash__
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# +---------+-------+-------+--------+--------+
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# | 3 None | True | False | None | | <-- the default, not hashable
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# +---------+-------+-------+--------+--------+
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# | 4 None | True | True | add | add* | Frozen, so hashable
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# +---------+-------+-------+--------+--------+
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# | 5 False | False | False | | |
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# +---------+-------+-------+--------+--------+
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# | 6 False | False | True | | |
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# +---------+-------+-------+--------+--------+
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# | 7 False | True | False | | |
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# +---------+-------+-------+--------+--------+
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# | 8 False | True | True | | |
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# +---------+-------+-------+--------+--------+
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# | 9 True | False | False | add | add* | Has no __eq__, but hashable
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# +---------+-------+-------+--------+--------+
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# |10 True | False | True | add | add* | Has no __eq__, but hashable
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# +---------+-------+-------+--------+--------+
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# |11 True | True | False | add | add* | Not frozen, but hashable
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# +---------+-------+-------+--------+--------+
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# |12 True | True | True | add | add* | Frozen, so hashable
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# +=========+=======+=======+========+========+
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# +------------------- unsafe_hash= parameter
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# | +----------- eq= parameter
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# | | +--- frozen= parameter
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# | | |
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# v v v | | |
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# | no | yes | <--- class has explicitly defined __hash__
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# +=======+=======+=======+========+========+
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# | False | False | False | | | No __eq__, use the base class __hash__
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# +-------+-------+-------+--------+--------+
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# | False | False | True | | | No __eq__, use the base class __hash__
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# +-------+-------+-------+--------+--------+
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# | False | True | False | None | | <-- the default, not hashable
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# +-------+-------+-------+--------+--------+
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# | False | True | True | add | | Frozen, so hashable, allows override
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# +-------+-------+-------+--------+--------+
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# | True | False | False | add | raise | Has no __eq__, but hashable
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# +-------+-------+-------+--------+--------+
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# | True | False | True | add | raise | Has no __eq__, but hashable
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# +-------+-------+-------+--------+--------+
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# | True | True | False | add | raise | Not frozen, but hashable
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# +-------+-------+-------+--------+--------+
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# | True | True | True | add | raise | Frozen, so hashable
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# +=======+=======+=======+========+========+
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# For boxes that are blank, __hash__ is untouched and therefore
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# inherited from the base class. If the base is object, then
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# id-based hashing is used.
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# Note that a class may have already __hash__=None if it specified an
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# __eq__ method in the class body (not one that was created by
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# @dataclass).
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# See _hash_action (below) for a coded version of this table.
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# Raised when an attempt is made to modify a frozen class.
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@ -557,7 +545,45 @@ def _set_new_attribute(cls, name, value):
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return False
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def _process_class(cls, repr, eq, order, hash, init, frozen):
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# Decide if/how we're going to create a hash function. Key is
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# (unsafe_hash, eq, frozen, does-hash-exist). Value is the action to
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# take.
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# Actions:
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# '': Do nothing.
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# 'none': Set __hash__ to None.
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# 'add': Always add a generated __hash__function.
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# 'exception': Raise an exception.
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#
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# +-------------------------------------- unsafe_hash?
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# | +------------------------------- eq?
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# | | +------------------------ frozen?
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# | | | +---------------- has-explicit-hash?
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# | | | |
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# | | | | +------- action
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# | | | | |
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# v v v v v
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_hash_action = {(False, False, False, False): (''),
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(False, False, False, True ): (''),
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(False, False, True, False): (''),
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(False, False, True, True ): (''),
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(False, True, False, False): ('none'),
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(False, True, False, True ): (''),
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(False, True, True, False): ('add'),
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(False, True, True, True ): (''),
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(True, False, False, False): ('add'),
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(True, False, False, True ): ('exception'),
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(True, False, True, False): ('add'),
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(True, False, True, True ): ('exception'),
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(True, True, False, False): ('add'),
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(True, True, False, True ): ('exception'),
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(True, True, True, False): ('add'),
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(True, True, True, True ): ('exception'),
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}
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# See https://bugs.python.org/issue32929#msg312829 for an if-statement
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# version of this table.
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def _process_class(cls, repr, eq, order, unsafe_hash, init, frozen):
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# Now that dicts retain insertion order, there's no reason to use
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# an ordered dict. I am leveraging that ordering here, because
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# derived class fields overwrite base class fields, but the order
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@ -605,8 +631,14 @@ def _process_class(cls, repr, eq, order, hash, init, frozen):
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# be inherited down.
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is_frozen = frozen or cls.__setattr__ is _frozen_setattr
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# Was this class defined with an __eq__? Used in __hash__ logic.
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auto_hash_test= '__eq__' in cls.__dict__ and getattr(cls.__dict__, '__hash__', MISSING) is None
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# Was this class defined with an explicit __hash__? Note that if
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# __eq__ is defined in this class, then python will automatically
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# set __hash__ to None. This is a heuristic, as it's possible
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# that such a __hash__ == None was not auto-generated, but it
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# close enough.
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class_hash = cls.__dict__.get('__hash__', MISSING)
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has_explicit_hash = not (class_hash is MISSING or
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(class_hash is None and '__eq__' in cls.__dict__))
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# If we're generating ordering methods, we must be generating
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# the eq methods.
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@ -661,7 +693,7 @@ def _process_class(cls, repr, eq, order, hash, init, frozen):
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if _set_new_attribute(cls, name,
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_cmp_fn(name, op, self_tuple, other_tuple)):
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raise TypeError(f'Cannot overwrite attribute {name} '
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f'in {cls.__name__}. Consider using '
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f'in class {cls.__name__}. Consider using '
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'functools.total_ordering')
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if is_frozen:
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@ -669,40 +701,30 @@ def _process_class(cls, repr, eq, order, hash, init, frozen):
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('__delattr__', _frozen_delattr)]:
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if _set_new_attribute(cls, name, fn):
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raise TypeError(f'Cannot overwrite attribute {name} '
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f'in {cls.__name__}')
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f'in class {cls.__name__}')
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# Decide if/how we're going to create a hash function.
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# TODO: Move this table to module scope, so it's not recreated
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# all the time.
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generate_hash = {(None, False, False): ('', ''),
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(None, False, True): ('', ''),
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(None, True, False): ('none', ''),
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(None, True, True): ('fn', 'fn-x'),
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(False, False, False): ('', ''),
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(False, False, True): ('', ''),
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(False, True, False): ('', ''),
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(False, True, True): ('', ''),
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(True, False, False): ('fn', 'fn-x'),
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(True, False, True): ('fn', 'fn-x'),
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(True, True, False): ('fn', 'fn-x'),
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(True, True, True): ('fn', 'fn-x'),
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}[None if hash is None else bool(hash), # Force bool() if not None.
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bool(eq),
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bool(frozen)]['__hash__' in cls.__dict__]
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hash_action = _hash_action[bool(unsafe_hash),
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bool(eq),
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bool(frozen),
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has_explicit_hash]
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# No need to call _set_new_attribute here, since we already know if
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# we're overwriting a __hash__ or not.
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if generate_hash == '':
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if hash_action == '':
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# Do nothing.
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pass
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elif generate_hash == 'none':
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elif hash_action == 'none':
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cls.__hash__ = None
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elif generate_hash in ('fn', 'fn-x'):
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if generate_hash == 'fn' or auto_hash_test:
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flds = [f for f in field_list
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if (f.compare if f.hash is None else f.hash)]
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cls.__hash__ = _hash_fn(flds)
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elif hash_action == 'add':
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flds = [f for f in field_list if (f.compare if f.hash is None else f.hash)]
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cls.__hash__ = _hash_fn(flds)
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elif hash_action == 'exception':
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# Raise an exception.
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raise TypeError(f'Cannot overwrite attribute __hash__ '
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f'in class {cls.__name__}')
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else:
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assert False, f"can't get here: {generate_hash}"
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assert False, f"can't get here: {hash_action}"
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if not getattr(cls, '__doc__'):
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# Create a class doc-string.
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@ -716,7 +738,7 @@ def _process_class(cls, repr, eq, order, hash, init, frozen):
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# underscore. The presence of _cls is used to detect if this
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# decorator is being called with parameters or not.
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def dataclass(_cls=None, *, init=True, repr=True, eq=True, order=False,
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hash=None, frozen=False):
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unsafe_hash=None, frozen=False):
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"""Returns the same class as was passed in, with dunder methods
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added based on the fields defined in the class.
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@ -724,13 +746,13 @@ def dataclass(_cls=None, *, init=True, repr=True, eq=True, order=False,
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If init is true, an __init__() method is added to the class. If
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repr is true, a __repr__() method is added. If order is true, rich
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comparison dunder methods are added. If hash is true, a __hash__()
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method function is added. If frozen is true, fields may not be
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assigned to after instance creation.
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comparison dunder methods are added. If unsafe_hash is true, a
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__hash__() method function is added. If frozen is true, fields may
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not be assigned to after instance creation.
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"""
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def wrap(cls):
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return _process_class(cls, repr, eq, order, hash, init, frozen)
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return _process_class(cls, repr, eq, order, unsafe_hash, init, frozen)
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# See if we're being called as @dataclass or @dataclass().
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if _cls is None:
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@ -793,6 +815,7 @@ def asdict(obj, *, dict_factory=dict):
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raise TypeError("asdict() should be called on dataclass instances")
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return _asdict_inner(obj, dict_factory)
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def _asdict_inner(obj, dict_factory):
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if _is_dataclass_instance(obj):
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result = []
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@ -832,6 +855,7 @@ def astuple(obj, *, tuple_factory=tuple):
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raise TypeError("astuple() should be called on dataclass instances")
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return _astuple_inner(obj, tuple_factory)
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def _astuple_inner(obj, tuple_factory):
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if _is_dataclass_instance(obj):
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result = []
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@ -849,7 +873,8 @@ def _astuple_inner(obj, tuple_factory):
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def make_dataclass(cls_name, fields, *, bases=(), namespace=None, init=True,
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repr=True, eq=True, order=False, hash=None, frozen=False):
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repr=True, eq=True, order=False, unsafe_hash=None,
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frozen=False):
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"""Return a new dynamically created dataclass.
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The dataclass name will be 'cls_name'. 'fields' is an iterable
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@ -869,7 +894,7 @@ def make_dataclass(cls_name, fields, *, bases=(), namespace=None, init=True,
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For the bases and namespace parameters, see the builtin type() function.
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The parameters init, repr, eq, order, hash, and frozen are passed to
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The parameters init, repr, eq, order, unsafe_hash, and frozen are passed to
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dataclass().
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"""
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@ -894,7 +919,8 @@ def make_dataclass(cls_name, fields, *, bases=(), namespace=None, init=True,
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namespace['__annotations__'] = anns
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cls = type(cls_name, bases, namespace)
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return dataclass(cls, init=init, repr=repr, eq=eq, order=order,
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hash=hash, frozen=frozen)
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unsafe_hash=unsafe_hash, frozen=frozen)
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def replace(obj, **changes):
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"""Return a new object replacing specified fields with new values.
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@ -83,32 +83,59 @@ class TestCase(unittest.TestCase):
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class C(B):
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x: int = 0
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def test_overwriting_hash(self):
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def test_overwrite_hash(self):
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# Test that declaring this class isn't an error. It should
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# use the user-provided __hash__.
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@dataclass(frozen=True)
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class C:
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x: int
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def __hash__(self):
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pass
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@dataclass(frozen=True,hash=False)
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class C:
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x: int
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def __hash__(self):
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return 600
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self.assertEqual(hash(C(0)), 600)
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return 301
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self.assertEqual(hash(C(100)), 301)
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# Test that declaring this class isn't an error. It should
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# use the generated __hash__.
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@dataclass(frozen=True)
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class C:
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x: int
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def __hash__(self):
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pass
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def __eq__(self, other):
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return False
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self.assertEqual(hash(C(100)), hash((100,)))
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@dataclass(frozen=True, hash=False)
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# But this one should generate an exception, because with
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# unsafe_hash=True, it's an error to have a __hash__ defined.
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with self.assertRaisesRegex(TypeError,
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'Cannot overwrite attribute __hash__'):
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@dataclass(unsafe_hash=True)
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class C:
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def __hash__(self):
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pass
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# Creating this class should not generate an exception,
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# because even though __hash__ exists before @dataclass is
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# called, (due to __eq__ being defined), since it's None
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# that's okay.
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@dataclass(unsafe_hash=True)
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class C:
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x: int
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def __hash__(self):
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return 600
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self.assertEqual(hash(C(0)), 600)
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def __eq__(self):
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pass
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# The generated hash function works as we'd expect.
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self.assertEqual(hash(C(10)), hash((10,)))
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# Creating this class should generate an exception, because
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# __hash__ exists and is not None, which it would be if it had
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# been auto-generated do due __eq__ being defined.
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with self.assertRaisesRegex(TypeError,
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'Cannot overwrite attribute __hash__'):
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@dataclass(unsafe_hash=True)
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class C:
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x: int
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def __eq__(self):
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pass
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def __hash__(self):
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pass
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def test_overwrite_fields_in_derived_class(self):
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# Note that x from C1 replaces x in Base, but the order remains
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@ -294,19 +321,6 @@ class TestCase(unittest.TestCase):
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"not supported between instances of 'B' and 'C'"):
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fn(B(0), C(0))
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def test_0_field_hash(self):
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@dataclass(hash=True)
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class C:
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pass
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self.assertEqual(hash(C()), hash(()))
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def test_1_field_hash(self):
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@dataclass(hash=True)
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class C:
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x: int
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self.assertEqual(hash(C(4)), hash((4,)))
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self.assertEqual(hash(C(42)), hash((42,)))
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def test_eq_order(self):
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# Test combining eq and order.
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for (eq, order, result ) in [
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@ -407,25 +421,25 @@ class TestCase(unittest.TestCase):
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# Test all 6 cases of:
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# hash=True/False/None
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# compare=True/False
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for (hash_val, compare, result ) in [
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for (hash_, compare, result ) in [
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(True, False, 'field' ),
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(True, True, 'field' ),
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(False, False, 'absent'),
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(False, True, 'absent'),
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(None, False, 'absent'),
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(None, True, 'field' ),
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]:
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with self.subTest(hash_val=hash_val, compare=compare):
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@dataclass(hash=True)
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]:
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with self.subTest(hash=hash_, compare=compare):
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@dataclass(unsafe_hash=True)
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class C:
|
||||
x: int = field(compare=compare, hash=hash_val, default=5)
|
||||
x: int = field(compare=compare, hash=hash_, default=5)
|
||||
|
||||
if result == 'field':
|
||||
# __hash__ contains the field.
|
||||
self.assertEqual(C(5).__hash__(), hash((5,)))
|
||||
self.assertEqual(hash(C(5)), hash((5,)))
|
||||
elif result == 'absent':
|
||||
# The field is not present in the hash.
|
||||
self.assertEqual(C(5).__hash__(), hash(()))
|
||||
self.assertEqual(hash(C(5)), hash(()))
|
||||
else:
|
||||
assert False, f'unknown result {result!r}'
|
||||
|
||||
|
@ -737,7 +751,7 @@ class TestCase(unittest.TestCase):
|
|||
validate_class(C)
|
||||
|
||||
# Now repeat with __hash__.
|
||||
@dataclass(frozen=True, hash=True)
|
||||
@dataclass(frozen=True, unsafe_hash=True)
|
||||
class C:
|
||||
i: int
|
||||
j: str
|
||||
|
@ -1107,7 +1121,7 @@ class TestCase(unittest.TestCase):
|
|||
self.assertEqual(C().x, [])
|
||||
|
||||
# hash
|
||||
@dataclass(hash=True)
|
||||
@dataclass(unsafe_hash=True)
|
||||
class C:
|
||||
x: list = field(default_factory=list, hash=False)
|
||||
self.assertEqual(astuple(C()), ([],))
|
||||
|
@ -2242,28 +2256,13 @@ class TestOrdering(unittest.TestCase):
|
|||
pass
|
||||
|
||||
class TestHash(unittest.TestCase):
|
||||
def test_hash(self):
|
||||
@dataclass(hash=True)
|
||||
def test_unsafe_hash(self):
|
||||
@dataclass(unsafe_hash=True)
|
||||
class C:
|
||||
x: int
|
||||
y: str
|
||||
self.assertEqual(hash(C(1, 'foo')), hash((1, 'foo')))
|
||||
|
||||
def test_hash_false(self):
|
||||
@dataclass(hash=False)
|
||||
class C:
|
||||
x: int
|
||||
y: str
|
||||
self.assertNotEqual(hash(C(1, 'foo')), hash((1, 'foo')))
|
||||
|
||||
def test_hash_none(self):
|
||||
@dataclass(hash=None)
|
||||
class C:
|
||||
x: int
|
||||
with self.assertRaisesRegex(TypeError,
|
||||
"unhashable type: 'C'"):
|
||||
hash(C(1))
|
||||
|
||||
def test_hash_rules(self):
|
||||
def non_bool(value):
|
||||
# Map to something else that's True, but not a bool.
|
||||
|
@ -2273,89 +2272,73 @@ class TestHash(unittest.TestCase):
|
|||
return (3,)
|
||||
return 0
|
||||
|
||||
def test(case, hash, eq, frozen, with_hash, result):
|
||||
with self.subTest(case=case, hash=hash, eq=eq, frozen=frozen):
|
||||
if with_hash:
|
||||
@dataclass(hash=hash, eq=eq, frozen=frozen)
|
||||
class C:
|
||||
def __hash__(self):
|
||||
return 0
|
||||
else:
|
||||
@dataclass(hash=hash, eq=eq, frozen=frozen)
|
||||
class C:
|
||||
pass
|
||||
def test(case, unsafe_hash, eq, frozen, with_hash, result):
|
||||
with self.subTest(case=case, unsafe_hash=unsafe_hash, eq=eq,
|
||||
frozen=frozen):
|
||||
if result != 'exception':
|
||||
if with_hash:
|
||||
@dataclass(unsafe_hash=unsafe_hash, eq=eq, frozen=frozen)
|
||||
class C:
|
||||
def __hash__(self):
|
||||
return 0
|
||||
else:
|
||||
@dataclass(unsafe_hash=unsafe_hash, eq=eq, frozen=frozen)
|
||||
class C:
|
||||
pass
|
||||
|
||||
# See if the result matches what's expected.
|
||||
if result in ('fn', 'fn-x'):
|
||||
if result == 'fn':
|
||||
# __hash__ contains the function we generated.
|
||||
self.assertIn('__hash__', C.__dict__)
|
||||
self.assertIsNotNone(C.__dict__['__hash__'])
|
||||
|
||||
if result == 'fn-x':
|
||||
# This is the "auto-hash test" case. We
|
||||
# should overwrite __hash__ iff there's an
|
||||
# __eq__ and if __hash__=None.
|
||||
|
||||
# There are two ways of getting __hash__=None:
|
||||
# explicitely, and by defining __eq__. If
|
||||
# __eq__ is defined, python will add __hash__
|
||||
# when the class is created.
|
||||
@dataclass(hash=hash, eq=eq, frozen=frozen)
|
||||
class C:
|
||||
def __eq__(self, other): pass
|
||||
__hash__ = None
|
||||
|
||||
# Hash should be overwritten (non-None).
|
||||
self.assertIsNotNone(C.__dict__['__hash__'])
|
||||
|
||||
# Same test as above, but we don't provide
|
||||
# __hash__, it will implicitely set to None.
|
||||
@dataclass(hash=hash, eq=eq, frozen=frozen)
|
||||
class C:
|
||||
def __eq__(self, other): pass
|
||||
|
||||
# Hash should be overwritten (non-None).
|
||||
self.assertIsNotNone(C.__dict__['__hash__'])
|
||||
|
||||
elif result == '':
|
||||
# __hash__ is not present in our class.
|
||||
if not with_hash:
|
||||
self.assertNotIn('__hash__', C.__dict__)
|
||||
|
||||
elif result == 'none':
|
||||
# __hash__ is set to None.
|
||||
self.assertIn('__hash__', C.__dict__)
|
||||
self.assertIsNone(C.__dict__['__hash__'])
|
||||
|
||||
elif result == 'exception':
|
||||
# Creating the class should cause an exception.
|
||||
# This only happens with with_hash==True.
|
||||
assert(with_hash)
|
||||
with self.assertRaisesRegex(TypeError, 'Cannot overwrite attribute __hash__'):
|
||||
@dataclass(unsafe_hash=unsafe_hash, eq=eq, frozen=frozen)
|
||||
class C:
|
||||
def __hash__(self):
|
||||
return 0
|
||||
|
||||
else:
|
||||
assert False, f'unknown result {result!r}'
|
||||
|
||||
# There are 12 cases of:
|
||||
# hash=True/False/None
|
||||
# There are 8 cases of:
|
||||
# unsafe_hash=True/False
|
||||
# eq=True/False
|
||||
# frozen=True/False
|
||||
# And for each of these, a different result if
|
||||
# __hash__ is defined or not.
|
||||
for case, (hash, eq, frozen, result_no, result_yes) in enumerate([
|
||||
(None, False, False, '', ''),
|
||||
(None, False, True, '', ''),
|
||||
(None, True, False, 'none', ''),
|
||||
(None, True, True, 'fn', 'fn-x'),
|
||||
(False, False, False, '', ''),
|
||||
(False, False, True, '', ''),
|
||||
(False, True, False, '', ''),
|
||||
(False, True, True, '', ''),
|
||||
(True, False, False, 'fn', 'fn-x'),
|
||||
(True, False, True, 'fn', 'fn-x'),
|
||||
(True, True, False, 'fn', 'fn-x'),
|
||||
(True, True, True, 'fn', 'fn-x'),
|
||||
], 1):
|
||||
test(case, hash, eq, frozen, False, result_no)
|
||||
test(case, hash, eq, frozen, True, result_yes)
|
||||
for case, (unsafe_hash, eq, frozen, res_no_defined_hash, res_defined_hash) in enumerate([
|
||||
(False, False, False, '', ''),
|
||||
(False, False, True, '', ''),
|
||||
(False, True, False, 'none', ''),
|
||||
(False, True, True, 'fn', ''),
|
||||
(True, False, False, 'fn', 'exception'),
|
||||
(True, False, True, 'fn', 'exception'),
|
||||
(True, True, False, 'fn', 'exception'),
|
||||
(True, True, True, 'fn', 'exception'),
|
||||
], 1):
|
||||
test(case, unsafe_hash, eq, frozen, False, res_no_defined_hash)
|
||||
test(case, unsafe_hash, eq, frozen, True, res_defined_hash)
|
||||
|
||||
# Test non-bool truth values, too. This is just to
|
||||
# make sure the data-driven table in the decorator
|
||||
# handles non-bool values.
|
||||
test(case, non_bool(hash), non_bool(eq), non_bool(frozen), False, result_no)
|
||||
test(case, non_bool(hash), non_bool(eq), non_bool(frozen), True, result_yes)
|
||||
test(case, non_bool(unsafe_hash), non_bool(eq), non_bool(frozen), False, res_no_defined_hash)
|
||||
test(case, non_bool(unsafe_hash), non_bool(eq), non_bool(frozen), True, res_defined_hash)
|
||||
|
||||
|
||||
def test_eq_only(self):
|
||||
|
@ -2373,8 +2356,8 @@ class TestHash(unittest.TestCase):
|
|||
self.assertNotEqual(C(1), C(4))
|
||||
|
||||
# And make sure things work in this case if we specify
|
||||
# hash=True.
|
||||
@dataclass(hash=True)
|
||||
# unsafe_hash=True.
|
||||
@dataclass(unsafe_hash=True)
|
||||
class C:
|
||||
i: int
|
||||
def __eq__(self, other):
|
||||
|
@ -2384,7 +2367,7 @@ class TestHash(unittest.TestCase):
|
|||
|
||||
# And check that the classes __eq__ is being used, despite
|
||||
# specifying eq=True.
|
||||
@dataclass(hash=True, eq=True)
|
||||
@dataclass(unsafe_hash=True, eq=True)
|
||||
class C:
|
||||
i: int
|
||||
def __eq__(self, other):
|
||||
|
@ -2393,10 +2376,35 @@ class TestHash(unittest.TestCase):
|
|||
self.assertNotEqual(C(1), C(1))
|
||||
self.assertEqual(hash(C(1)), hash(C(1.0)))
|
||||
|
||||
def test_0_field_hash(self):
|
||||
@dataclass(frozen=True)
|
||||
class C:
|
||||
pass
|
||||
self.assertEqual(hash(C()), hash(()))
|
||||
|
||||
@dataclass(unsafe_hash=True)
|
||||
class C:
|
||||
pass
|
||||
self.assertEqual(hash(C()), hash(()))
|
||||
|
||||
def test_1_field_hash(self):
|
||||
@dataclass(frozen=True)
|
||||
class C:
|
||||
x: int
|
||||
self.assertEqual(hash(C(4)), hash((4,)))
|
||||
self.assertEqual(hash(C(42)), hash((42,)))
|
||||
|
||||
@dataclass(unsafe_hash=True)
|
||||
class C:
|
||||
x: int
|
||||
self.assertEqual(hash(C(4)), hash((4,)))
|
||||
self.assertEqual(hash(C(42)), hash((42,)))
|
||||
|
||||
def test_hash_no_args(self):
|
||||
# Test dataclasses with no hash= argument. This exists to
|
||||
# make sure that when hash is changed, the default hashability
|
||||
# keeps working.
|
||||
# make sure that if the @dataclass parameter name is changed
|
||||
# or the non-default hashing behavior changes, the default
|
||||
# hashability keeps working the same way.
|
||||
|
||||
class Base:
|
||||
def __hash__(self):
|
||||
|
|
|
@ -0,0 +1,6 @@
|
|||
Remove the tri-state parameter "hash", and add the boolean "unsafe_hash". If
|
||||
unsafe_hash is True, add a __hash__ function, but if a __hash__ exists,
|
||||
raise TypeError. If unsafe_hash is False, add a __hash__ based on the
|
||||
values of eq= and frozen=. The unsafe_hash=False behavior is the same as
|
||||
the old hash=None behavior. unsafe_hash=False is the default, just as
|
||||
hash=None used to be.
|
Loading…
Reference in New Issue