mirror of https://github.com/python/cpython
[3.11] gh-91162: Support splitting of unpacked arbitrary-length tuple over TypeVar and TypeVarTuple parameters (alt) (GH-93412) (GH-93746)
For example:
A[T, *Ts][*tuple[int, ...]] -> A[int, *tuple[int, ...]]
A[*Ts, T][*tuple[int, ...]] -> A[*tuple[int, ...], int]
(cherry picked from commit 3473817106
)
Co-authored-by: Serhiy Storchaka <storchaka@gmail.com>
This commit is contained in:
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commit
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File diff suppressed because it is too large
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@ -202,6 +202,7 @@ struct _Py_global_strings {
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STRUCT_FOR_ID(__truediv__)
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STRUCT_FOR_ID(__trunc__)
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STRUCT_FOR_ID(__typing_is_unpacked_typevartuple__)
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STRUCT_FOR_ID(__typing_prepare_subst__)
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STRUCT_FOR_ID(__typing_subst__)
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STRUCT_FOR_ID(__typing_unpacked_tuple_args__)
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STRUCT_FOR_ID(__warningregistry__)
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@ -825,6 +825,7 @@ extern "C" {
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INIT_ID(__truediv__), \
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INIT_ID(__trunc__), \
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INIT_ID(__typing_is_unpacked_typevartuple__), \
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INIT_ID(__typing_prepare_subst__), \
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INIT_ID(__typing_subst__), \
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INIT_ID(__typing_unpacked_tuple_args__), \
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INIT_ID(__warningregistry__), \
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@ -753,14 +753,11 @@ class GenericAliasSubstitutionTests(BaseTestCase):
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('generic[*Ts]', '[*tuple_type[int]]', 'generic[int]'),
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('generic[*Ts]', '[*tuple_type[*Ts]]', 'generic[*Ts]'),
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('generic[*Ts]', '[*tuple_type[int, str]]', 'generic[int, str]'),
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('generic[*Ts]', '[str, *tuple_type[int, ...], bool]', 'generic[str, *tuple_type[int, ...], bool]'),
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('generic[*Ts]', '[tuple_type[int, ...]]', 'generic[tuple_type[int, ...]]'),
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('generic[*Ts]', '[tuple_type[int, ...], tuple_type[str, ...]]', 'generic[tuple_type[int, ...], tuple_type[str, ...]]'),
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('generic[*Ts]', '[*tuple_type[int, ...]]', 'generic[*tuple_type[int, ...]]'),
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# Technically, multiple unpackings are forbidden by PEP 646, but we
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# choose to be less restrictive at runtime, to allow folks room
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# to experiment. So all three of these should be valid.
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('generic[*Ts]', '[*tuple_type[int, ...], *tuple_type[str, ...]]', 'generic[*tuple_type[int, ...], *tuple_type[str, ...]]'),
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('generic[*Ts]', '[*tuple_type[int, ...], *tuple_type[str, ...]]', 'TypeError'),
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('generic[*Ts]', '[*Ts]', 'generic[*Ts]'),
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('generic[*Ts]', '[T, *Ts]', 'generic[T, *Ts]'),
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@ -772,8 +769,6 @@ class GenericAliasSubstitutionTests(BaseTestCase):
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('generic[list[T], *Ts]', '[int, str]', 'generic[list[int], str]'),
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('generic[list[T], *Ts]', '[int, str, bool]', 'generic[list[int], str, bool]'),
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('generic[T, *Ts]', '[*tuple[int, ...]]', 'TypeError'), # Should be generic[int, *tuple[int, ...]]
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('generic[*Ts, T]', '[int]', 'generic[int]'),
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('generic[*Ts, T]', '[int, str]', 'generic[int, str]'),
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('generic[*Ts, T]', '[int, str, bool]', 'generic[int, str, bool]'),
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@ -781,6 +776,14 @@ class GenericAliasSubstitutionTests(BaseTestCase):
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('generic[*Ts, list[T]]', '[int, str]', 'generic[int, list[str]]'),
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('generic[*Ts, list[T]]', '[int, str, bool]', 'generic[int, str, list[bool]]'),
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('generic[T, *Ts]', '[*tuple_type[int, ...]]', 'generic[int, *tuple_type[int, ...]]'),
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('generic[*Ts, T]', '[*tuple_type[int, ...]]', 'generic[*tuple_type[int, ...], int]'),
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('generic[T1, *Ts, T2]', '[*tuple_type[int, ...]]', 'generic[int, *tuple_type[int, ...], int]'),
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('generic[T, str, *Ts]', '[*tuple_type[int, ...]]', 'generic[int, str, *tuple_type[int, ...]]'),
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('generic[*Ts, str, T]', '[*tuple_type[int, ...]]', 'generic[*tuple_type[int, ...], str, int]'),
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('generic[list[T], *Ts]', '[*tuple_type[int, ...]]', 'generic[list[int], *tuple_type[int, ...]]'),
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('generic[*Ts, list[T]]', '[*tuple_type[int, ...]]', 'generic[*tuple_type[int, ...], list[int]]'),
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('generic[T, *tuple_type[int, ...]]', '[str]', 'generic[str, *tuple_type[int, ...]]'),
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('generic[T1, T2, *tuple_type[int, ...]]', '[str, bool]', 'generic[str, bool, *tuple_type[int, ...]]'),
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('generic[T1, *tuple_type[int, ...], T2]', '[str, bool]', 'generic[str, *tuple_type[int, ...], bool]'),
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104
Lib/typing.py
104
Lib/typing.py
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@ -1065,6 +1065,42 @@ class TypeVarTuple(_Final, _Immutable, _PickleUsingNameMixin, _root=True):
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def __typing_subst__(self, arg):
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raise TypeError("Substitution of bare TypeVarTuple is not supported")
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def __typing_prepare_subst__(self, alias, args):
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params = alias.__parameters__
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typevartuple_index = params.index(self)
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for param in enumerate(params[typevartuple_index + 1:]):
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if isinstance(param, TypeVarTuple):
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raise TypeError(f"More than one TypeVarTuple parameter in {alias}")
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alen = len(args)
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plen = len(params)
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left = typevartuple_index
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right = plen - typevartuple_index - 1
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var_tuple_index = None
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fillarg = None
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for k, arg in enumerate(args):
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if not (isinstance(arg, type) and not isinstance(arg, GenericAlias)):
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subargs = getattr(arg, '__typing_unpacked_tuple_args__', None)
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if subargs and len(subargs) == 2 and subargs[-1] is ...:
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if var_tuple_index is not None:
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raise TypeError("More than one unpacked arbitrary-length tuple argument")
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var_tuple_index = k
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fillarg = subargs[0]
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if var_tuple_index is not None:
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left = min(left, var_tuple_index)
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right = min(right, alen - var_tuple_index - 1)
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elif left + right > alen:
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raise TypeError(f"Too few arguments for {alias};"
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f" actual {alen}, expected at least {plen-1}")
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return (
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*args[:left],
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*([fillarg]*(typevartuple_index - left)),
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tuple(args[left: alen - right]),
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*([fillarg]*(plen - right - left - typevartuple_index - 1)),
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*args[alen - right:],
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)
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class ParamSpecArgs(_Final, _Immutable, _root=True):
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"""The args for a ParamSpec object.
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@ -1184,6 +1220,8 @@ class ParamSpec(_Final, _Immutable, _BoundVarianceMixin, _PickleUsingNameMixin,
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f"ParamSpec, or Concatenate. Got {arg}")
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return arg
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def __typing_prepare_subst__(self, alias, args):
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return _prepare_paramspec_params(alias, args)
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def _is_dunder(attr):
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return attr.startswith('__') and attr.endswith('__')
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@ -1255,44 +1293,6 @@ class _BaseGenericAlias(_Final, _root=True):
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+ [attr for attr in dir(self.__origin__) if not _is_dunder(attr)]))
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def _is_unpacked_tuple(x: Any) -> bool:
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# Is `x` something like `*tuple[int]` or `*tuple[int, ...]`?
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if not isinstance(x, _UnpackGenericAlias):
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return False
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# Alright, `x` is `Unpack[something]`.
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# `x` will always have `__args__`, because Unpack[] and Unpack[()]
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# aren't legal.
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unpacked_type = x.__args__[0]
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return getattr(unpacked_type, '__origin__', None) is tuple
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def _is_unpacked_arbitrary_length_tuple(x: Any) -> bool:
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if not _is_unpacked_tuple(x):
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return False
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unpacked_tuple = x.__args__[0]
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if not hasattr(unpacked_tuple, '__args__'):
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# It's `Unpack[tuple]`. We can't make any assumptions about the length
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# of the tuple, so it's effectively an arbitrary-length tuple.
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return True
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tuple_args = unpacked_tuple.__args__
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if not tuple_args:
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# It's `Unpack[tuple[()]]`.
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return False
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last_arg = tuple_args[-1]
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if last_arg is Ellipsis:
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# It's `Unpack[tuple[something, ...]]`, which is arbitrary-length.
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return True
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# If the arguments didn't end with an ellipsis, then it's not an
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# arbitrary-length tuple.
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return False
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# Special typing constructs Union, Optional, Generic, Callable and Tuple
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# use three special attributes for internal bookkeeping of generic types:
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# * __parameters__ is a tuple of unique free type parameters of a generic
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@ -1385,10 +1385,6 @@ class _GenericAlias(_BaseGenericAlias, _root=True):
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args = (args,)
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args = tuple(_type_convert(p) for p in args)
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args = _unpack_args(args)
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if (self._paramspec_tvars
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and any(isinstance(t, ParamSpec) for t in self.__parameters__)):
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args = _prepare_paramspec_params(self, args)
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new_args = self._determine_new_args(args)
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r = self.copy_with(new_args)
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return r
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@ -1410,30 +1406,16 @@ class _GenericAlias(_BaseGenericAlias, _root=True):
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params = self.__parameters__
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# In the example above, this would be {T3: str}
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new_arg_by_param = {}
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typevartuple_index = None
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for i, param in enumerate(params):
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if isinstance(param, TypeVarTuple):
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if typevartuple_index is not None:
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raise TypeError(f"More than one TypeVarTuple parameter in {self}")
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typevartuple_index = i
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for param in params:
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prepare = getattr(param, '__typing_prepare_subst__', None)
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if prepare is not None:
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args = prepare(self, args)
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alen = len(args)
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plen = len(params)
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if typevartuple_index is not None:
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i = typevartuple_index
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j = alen - (plen - i - 1)
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if j < i:
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raise TypeError(f"Too few arguments for {self};"
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f" actual {alen}, expected at least {plen-1}")
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new_arg_by_param.update(zip(params[:i], args[:i]))
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new_arg_by_param[params[i]] = tuple(args[i: j])
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new_arg_by_param.update(zip(params[i + 1:], args[j:]))
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else:
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if alen != plen:
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raise TypeError(f"Too {'many' if alen > plen else 'few'} arguments for {self};"
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f" actual {alen}, expected {plen}")
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new_arg_by_param.update(zip(params, args))
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new_arg_by_param = dict(zip(params, args))
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new_args = []
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for old_arg in self.__args__:
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@ -0,0 +1,5 @@
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Support splitting of unpacked arbitrary-length tuple over ``TypeVar`` and
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``TypeVarTuple`` parameters. For example:
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* ``A[T, *Ts][*tuple[int, ...]]`` -> ``A[int, *tuple[int, ...]]``
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* ``A[*Ts, T][*tuple[int, ...]]`` -> ``A[*tuple[int, ...], int]``
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@ -269,7 +269,7 @@ _Py_make_parameters(PyObject *args)
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a non-empty tuple, return a new reference to obj. */
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static PyObject *
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subs_tvars(PyObject *obj, PyObject *params,
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PyObject **argitems, Py_ssize_t nargs, Py_ssize_t varparam)
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PyObject **argitems, Py_ssize_t nargs)
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{
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PyObject *subparams;
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if (_PyObject_LookupAttr(obj, &_Py_ID(__parameters__), &subparams) < 0) {
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@ -283,28 +283,28 @@ subs_tvars(PyObject *obj, PyObject *params,
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Py_DECREF(subparams);
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return NULL;
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}
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for (Py_ssize_t i = 0, j = 0; i < nsubargs; ++i) {
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Py_ssize_t j = 0;
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for (Py_ssize_t i = 0; i < nsubargs; ++i) {
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PyObject *arg = PyTuple_GET_ITEM(subparams, i);
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Py_ssize_t iparam = tuple_index(params, nparams, arg);
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if (iparam == varparam) {
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if (iparam >= 0) {
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PyObject *param = PyTuple_GET_ITEM(params, iparam);
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arg = argitems[iparam];
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if (Py_TYPE(param)->tp_iter && PyTuple_Check(arg)) { // TypeVarTuple
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j = tuple_extend(&subargs, j,
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argitems + iparam, nargs - nparams + 1);
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&PyTuple_GET_ITEM(arg, 0),
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PyTuple_GET_SIZE(arg));
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if (j < 0) {
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return NULL;
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}
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continue;
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}
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else {
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if (iparam >= 0) {
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if (iparam > varparam) {
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iparam += nargs - nparams;
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}
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arg = argitems[iparam];
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}
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Py_INCREF(arg);
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PyTuple_SET_ITEM(subargs, j, arg);
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j++;
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}
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}
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assert(j == PyTuple_GET_SIZE(subargs));
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obj = PyObject_GetItem(obj, subargs);
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@ -409,31 +409,30 @@ _Py_subs_parameters(PyObject *self, PyObject *args, PyObject *parameters, PyObje
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self);
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}
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item = _unpack_args(item);
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for (Py_ssize_t i = 0; i < nparams; i++) {
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PyObject *param = PyTuple_GET_ITEM(parameters, i);
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PyObject *prepare, *tmp;
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if (_PyObject_LookupAttr(param, &_Py_ID(__typing_prepare_subst__), &prepare) < 0) {
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Py_DECREF(item);
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return NULL;
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}
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if (prepare && prepare != Py_None) {
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if (PyTuple_Check(item)) {
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tmp = PyObject_CallFunction(prepare, "OO", self, item);
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}
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else {
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tmp = PyObject_CallFunction(prepare, "O(O)", self, item);
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}
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Py_DECREF(prepare);
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Py_SETREF(item, tmp);
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if (item == NULL) {
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return NULL;
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}
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}
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}
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int is_tuple = PyTuple_Check(item);
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Py_ssize_t nitems = is_tuple ? PyTuple_GET_SIZE(item) : 1;
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PyObject **argitems = is_tuple ? &PyTuple_GET_ITEM(item, 0) : &item;
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Py_ssize_t varparam = nparams;
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for (Py_ssize_t i = 0; i < nparams; i++) {
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PyObject *param = PyTuple_GET_ITEM(parameters, i);
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if (Py_TYPE(param)->tp_iter) { // TypeVarTuple
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if (varparam < nparams) {
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Py_DECREF(item);
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return PyErr_Format(PyExc_TypeError,
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"More than one TypeVarTuple parameter in %S",
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self);
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}
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varparam = i;
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}
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}
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if (varparam < nparams) {
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if (nitems < nparams - 1) {
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Py_DECREF(item);
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return PyErr_Format(PyExc_TypeError,
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"Too few arguments for %R",
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self);
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}
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}
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else {
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if (nitems != nparams) {
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Py_DECREF(item);
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return PyErr_Format(PyExc_TypeError,
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@ -441,7 +440,6 @@ _Py_subs_parameters(PyObject *self, PyObject *args, PyObject *parameters, PyObje
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nitems > nparams ? "many" : "few",
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self, nitems, nparams);
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}
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}
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/* Replace all type variables (specified by parameters)
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with corresponding values specified by argitems.
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t = list[T]; t[int] -> newargs = [int]
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@ -471,22 +469,11 @@ _Py_subs_parameters(PyObject *self, PyObject *args, PyObject *parameters, PyObje
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if (subst) {
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Py_ssize_t iparam = tuple_index(parameters, nparams, arg);
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assert(iparam >= 0);
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if (iparam == varparam) {
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Py_DECREF(subst);
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Py_DECREF(newargs);
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Py_DECREF(item);
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PyErr_SetString(PyExc_TypeError,
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"Substitution of bare TypeVarTuple is not supported");
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return NULL;
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}
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if (iparam > varparam) {
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iparam += nitems - nparams;
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}
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arg = PyObject_CallOneArg(subst, argitems[iparam]);
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Py_DECREF(subst);
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}
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else {
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arg = subs_tvars(arg, parameters, argitems, nitems, varparam);
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arg = subs_tvars(arg, parameters, argitems, nitems);
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}
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if (arg == NULL) {
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Py_DECREF(newargs);
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