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This can be used to define a function that should never be called, or a function that never returns:: from typing import Never def never_call_me(arg: Never) -> None: pass def int_or_str(arg: int | str) -> None: never_call_me(arg) # type checker error match arg: case int(): print("It's an int") case str(): print("It's a str") case _: never_call_me(arg) # OK, arg is of type Never r�r<rws r|r`r`}s��,�t�f�1�2� 3�3r~c��[US35e)aKUsed to spell the type of "self" in classes. Example:: from typing import Self class Foo: def return_self(self) -> Self: ... return self This is especially useful for: - classmethods that are used as alternative constructors - annotating an `__enter__` method which returns self r�r<rws r|rlrl�s��"�t�f�1�2� 3�3r~c��[US35e)a�Represents an arbitrary literal string. Example:: from typing import LiteralString def run_query(sql: LiteralString) -> None: ... def caller(arbitrary_string: str, literal_string: LiteralString) -> None: run_query("SELECT * FROM students") # OK run_query(literal_string) # OK run_query("SELECT * FROM " + literal_string) # OK run_query(arbitrary_string) # type checker error run_query( # type checker error f"SELECT * FROM students WHERE name = {arbitrary_string}" ) Only string literals and other LiteralStrings are compatible with LiteralString. This provides a tool to help prevent security issues such as SQL injection. r�r<rws r|r_r_�s��0�t�f�1�2� 3�3r~c�4�[XS3SS9n[X45$)aSpecial type construct to mark class variables. An annotation wrapped in ClassVar indicates that a given attribute is intended to be used as a class variable and should not be set on instances of that class. Usage:: class Starship: stats: ClassVar[dict[str, int]] = {} # class variable damage: int = 10 # instance variable ClassVar accepts only types and cannot be further subscribed. Note that ClassVar is not a class itself, and should not be used with isinstance() or issubclass(). � accepts only single type.Trs�r�r��rr�rLs r|rr��&��&�z�V�+E�#F�\`�a�D��w�'�'r~c�4�[XS3SS9n[X45$)a�Special typing construct to indicate final names to type checkers. A final name cannot be re-assigned or overridden in a subclass. For example:: MAX_SIZE: Final = 9000 MAX_SIZE += 1 # Error reported by type checker class Connection: TIMEOUT: Final[int] = 10 class FastConnector(Connection): TIMEOUT = 1 # Error reported by type checker There is no runtime checking of these properties. r�Trsr�r�s r|rr�r�r~c�(^�US:Xa[S5e[U[5(dU4nSm[U4SjU55n[U5n[ U5S:XaUS$[ U5S:Xa[S5U;a [ XS S 9$[ X5$)a�Union type; Union[X, Y] means either X or Y. On Python 3.10 and higher, the | operator can also be used to denote unions; X | Y means the same thing to the type checker as Union[X, Y]. To define a union, use e.g. Union[int, str]. Details: - The arguments must be types and there must be at least one. - None as an argument is a special case and is replaced by type(None). - Unions of unions are flattened, e.g.:: assert Union[Union[int, str], float] == Union[int, str, float] - Unions of a single argument vanish, e.g.:: assert Union[int] == int # The constructor actually returns int - Redundant arguments are skipped, e.g.:: assert Union[int, str, int] == Union[int, str] - When comparing unions, the argument order is ignored, e.g.:: assert Union[int, str] == Union[str, int] - You cannot subclass or instantiate a union. - You can use Optional[X] as a shorthand for Union[X, None]. r�z Cannot take a Union of no types.z)Union[arg, ...]: each arg must be a type.c3�<># �UHn[UT5v� M g7fr��r��r�r�r�s �r|r��Union.<locals>.<genexpr>s��?�J�q�{�1�c�*�*�J��rr�Nr��name)r�ryr�r�r�rxr��rr�r�s @r|rr�s��>�R��:�;�;��j�%�(�(� �]� � 5�C��?�J�?�?�J�%�j�1�J� �:��!��!�}�� :��!��T� �j� 8�!�$��D�D��d�/�/r~c��[X4$)z�Used from the C implementation of TypeVar. TypeVar.__or__ calls this instead of returning types.UnionType because we want to allow unions between TypeVars and strings (forward references). rc)�left�rights r|�_make_unionr�s��r~c�F�[XS35n[U[S54$)z,Optional[X] is equivalent to Union[X, None].z requires a single type.N)r�rrx)rr�r{s r|rr&s)��j�F�*B�"C� D�C��d�4�j��!�!r~c ��[U5n[S[[[ U55555n[ X5$![ a Nf=f)a�Special typing form to define literal types (a.k.a. value types). This form can be used to indicate to type checkers that the corresponding variable or function parameter has a value equivalent to the provided literal (or one of several literals):: def validate_simple(data: Any) -> Literal[True]: # always returns True ... MODE = Literal['r', 'rb', 'w', 'wb'] def open_helper(file: str, mode: MODE) -> str: ... open_helper('/some/path', 'r') # Passes type check open_helper('/other/path', 'typo') # Error in type checker Literal[...] cannot be subclassed. At runtime, an arbitrary value is allowed as type argument to Literal[...], but type checkers may impose restrictions. c3�*# �UH upUv� M g7fr�r�)r�r��_s r|r��Literal.<locals>.<genexpr>Hs��^�)]��1�)]�s�)r�r�r�r��_value_and_type_iterr�r�rws r|rr,sU��2)��4�J� ��^��d�;O�PZ�;[�6\�)]�^�^� � ��1�1�� s�-A� A�Ac��[US35e)aSpecial form for marking type aliases. Use TypeAlias to indicate that an assignment should be recognized as a proper type alias definition by type checkers. For example:: Predicate: TypeAlias = Callable[..., bool] It's invalid when used anywhere except as in the example above. r�r<rws r|roroOs��t�f�1�2� 3�3r~c��^�US:Xa[S5e[U[5(dU4nUSSLd#[US[5(d[S5eSm/U4SjUSS5QUSP7n[ X5$) aGSpecial form for annotating higher-order functions. ``Concatenate`` can be used in conjunction with ``ParamSpec`` and ``Callable`` to represent a higher-order function which adds, removes or transforms the parameters of a callable. For example:: Callable[Concatenate[int, P], int] See PEP 612 for detailed information. r�z&Cannot take a Concatenate of no types.r�.zMThe last parameter to Concatenate should be a ParamSpec variable or ellipsis.z/Concatenate[arg, ...]: each arg must be a type.c3�<># �UHn[UT5v� M g7fr�r�r�s �r|r��Concatenate.<locals>.<genexpr>vs��A��A�K��3�'�'��r�N)r�ryr�rr�r�s @r|rr`s��R��@�A�A��j�%�(�(� �]� ��r�N�c�!�Z� �2�� %J�%J��:�;� ;� ;�C�R�A��C�R��A�R�:�b�>�R�J�#�D�5�5r~c�6�[XS35n[X45$)a Special typing construct for marking user-defined type predicate functions. ``TypeGuard`` can be used to annotate the return type of a user-defined type predicate function. ``TypeGuard`` only accepts a single type argument. At runtime, functions marked this way should return a boolean. ``TypeGuard`` aims to benefit *type narrowing* -- a technique used by static type checkers to determine a more precise type of an expression within a program's code flow. Usually type narrowing is done by analyzing conditional code flow and applying the narrowing to a block of code. The conditional expression here is sometimes referred to as a "type predicate". Sometimes it would be convenient to use a user-defined boolean function as a type predicate. Such a function should use ``TypeGuard[...]`` or ``TypeIs[...]`` as its return type to alert static type checkers to this intention. ``TypeGuard`` should be used over ``TypeIs`` when narrowing from an incompatible type (e.g., ``list[object]`` to ``list[int]``) or when the function does not return ``True`` for all instances of the narrowed type. Using ``-> TypeGuard[NarrowedType]`` tells the static type checker that for a given function: 1. The return value is a boolean. 2. If the return value is ``True``, the type of its argument is ``NarrowedType``. For example:: def is_str_list(val: list[object]) -> TypeGuard[list[str]]: '''Determines whether all objects in the list are strings''' return all(isinstance(x, str) for x in val) def func1(val: list[object]): if is_str_list(val): # Type of ``val`` is narrowed to ``list[str]``. print(" ".join(val)) else: # Type of ``val`` remains as ``list[object]``. print("Not a list of strings!") Strict type narrowing is not enforced -- ``TypeB`` need not be a narrower form of ``TypeA`` (it can even be a wider form) and this may lead to type-unsafe results. The main reason is to allow for things like narrowing ``list[object]`` to ``list[str]`` even though the latter is not a subtype of the former, since ``list`` is invariant. The responsibility of writing type-safe type predicates is left to the user. ``TypeGuard`` also works with type variables. For more information, see PEP 647 (User-Defined Type Guards). r�r�r�s r|rprpzs$��h�z�V�+E�#F�G�D��w�'�'r~c�6�[XS35n[X45$)aV Special typing construct for marking user-defined type predicate functions. ``TypeIs`` can be used to annotate the return type of a user-defined type predicate function. ``TypeIs`` only accepts a single type argument. At runtime, functions marked this way should return a boolean and accept at least one argument. ``TypeIs`` aims to benefit *type narrowing* -- a technique used by static type checkers to determine a more precise type of an expression within a program's code flow. Usually type narrowing is done by analyzing conditional code flow and applying the narrowing to a block of code. The conditional expression here is sometimes referred to as a "type predicate". Sometimes it would be convenient to use a user-defined boolean function as a type predicate. Such a function should use ``TypeIs[...]`` or ``TypeGuard[...]`` as its return type to alert static type checkers to this intention. ``TypeIs`` usually has more intuitive behavior than ``TypeGuard``, but it cannot be used when the input and output types are incompatible (e.g., ``list[object]`` to ``list[int]``) or when the function does not return ``True`` for all instances of the narrowed type. Using ``-> TypeIs[NarrowedType]`` tells the static type checker that for a given function: 1. The return value is a boolean. 2. If the return value is ``True``, the type of its argument is the intersection of the argument's original type and ``NarrowedType``. 3. If the return value is ``False``, the type of its argument is narrowed to exclude ``NarrowedType``. For example:: from typing import assert_type, final, TypeIs class Parent: pass class Child(Parent): pass @final class Unrelated: pass def is_parent(val: object) -> TypeIs[Parent]: return isinstance(val, Parent) def run(arg: Child | Unrelated): if is_parent(arg): # Type of ``arg`` is narrowed to the intersection # of ``Parent`` and ``Child``, which is equivalent to # ``Child``. assert_type(arg, Child) else: # Type of ``arg`` is narrowed to exclude ``Parent``, # so only ``Unrelated`` is left. assert_type(arg, Unrelated) The type inside ``TypeIs`` must be consistent with the type of the function's argument; if it is not, static type checkers will raise an error. An incorrectly written ``TypeIs`` function can lead to unsound behavior in the type system; it is the user's responsibility to write such functions in a type-safe manner. ``TypeIs`` also works with type variables. For more information, see PEP 742 (Narrowing types with ``TypeIs``). r�r�r�s r|rqrq�s$��B�z�V�+E�#F�G�D��w�'�'r~c�X�\rSrSrSrSrSSS.Sjjr\4SjrS r S r SrSrS r Srg)ri�z-Internal wrapper to hold a forward reference.)�__forward_arg__�__forward_code__�__forward_evaluated__�__forward_value__�__forward_is_argument__�__forward_is_class__�__forward_module__NF)rwc�8�[U[5(d[SU<35eURS5(aSUS3nOUn[ USS5nXlX`lSUlSUl X l X@lX0lg![ a [SU<35ef=f) Nz*Forward reference must be a string -- got �*�(z,)[0]z<string>�evalz/Forward reference must be an expression -- got F) ryrzr�� startswith�compile�SyntaxErrorr�r�r�r�r�r�r�)rr{r�rvrw�arg_to_compile�codes r|rH�ForwardRef.__init__�s��#�s�#�#��H��P�Q�Q� �>�>�#�� U�^�N� �N� Y��>�:�v�>�D� #�� $��%*��"�!%��'2�$�$,�!�"(�� Y�� O�PS�w�W�X�X� Y�s� A?�?Bc��U[La [S5 SnURU;aU$UR(aX!LGaUcUc0=pOUcUnOUcUnURb5[[RRURS5SU5nU(aX[U5[U5p!UH=nURnUR(aXa;dM'XQU'URUS5 M? 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Got )ryr�r�r�r��rr{s r|�_paramspec_substr��s[��#��e�}�%�%��D��D�D��J��C� � ��:�:=��@�A� A��Jr~c��URnURU5nU[U5:Xa&UR5(a/UQURP7nU[U5:�a[SU35e[U5S:Xa[ US5(dU4nU$[X$[5(a/USUQ[X$5PX$S-SQ7nU$)Nr�r�r) r�r�r�r�r�r�r�ryr�r�)rr�r�r��is r|�_paramspec_prepare_substr�s�� !� !�F��T��A��C��I�~�$�*�*�,�,�(��(�t�'�'�(��C��I�~��0��8�9�9� �6�{�a��t�A�w� 7� 7��w��K� �D�G�T� "� "�7��b�q��7�5��>�7�D�1��J�7��Kr~c��[U[5(dU4n[SU55nU[[4;nU(a�U(d[ SUR S35e[ SU55(d[ SURS35e[[U55[U5:wa[ SURS35eO�URnUHn[USS 5nUcMU"X5nM [X5 /n[!X15H>upi[U["5(aUR%U 5 M-UR'U 5 M@ [U5n[)X5$![aIn[USS 5nUS [R1;a URS UR <S35 eS nAff=f) ajParameterizes a generic class. At least, parameterizing a generic class is the *main* thing this method does. For example, for some generic class `Foo`, this is called when we do `Foo[int]` - there, with `cls=Foo` and `args=int`. However, note that this method is also called when defining generic classes in the first place with `class Foo(Generic[T]): ...`. c3�8# �UHn[U5v� M g7fr��r}r�s r|r��)_generic_class_getitem.<locals>.<genexpr>�s��0�4�a��q�!�!�4�r�zParameter list to z[...] cannot be emptyc3�8# �UHn[U5v� M g7fr�)r�r�s r|r�r�s��5��1�#�A�&�&��r�zParameters to zF[...] must all be type variables or parameter specification variables.z[...] must all be uniquer=Nz-Note: this exception may have been caused by z^ (or the '__init_subclass__' method on a superclass) not calling 'super().__init_subclass__()'�__typing_prepare_subst__)ryr�rrr�r��allr�r��setr�rKr�r=�add_noter��zipr r�r�r�) r�r��is_generic_or_protocolr��e� init_subclassr��prepare�new_args�new_args r|�_generic_class_getitemr�s��d�E�"�"��w��0�4�0�0�D� �W�h�$7�7��$�S�%5�%5�$6�6K�L�� 5��5�5�5�� /8�9�:� :��s�4�y�>�S��Y�&�� .F�G�I� I�'� ��+�+�J� �E��e�%?��F�G��"��s�)�� &�c�0��!�*�3�N�E��%��.�.��(��(� 4� �X��#�#��1� �#�C�)<�d�C�M��T�7�+D�+D�$E�E�� C�$�1�1�4�5<�=�� s� E,�, F?�6AF:�:F?c�^ �[[U] "U0UD6 /nSUR;a[UR;nOB[UR ;=(a( URS:g=(a [U5[:gnU(a[S5eSUR;a�[UR5nSnURHIn[U[5(dMUR[LdM/Ub[S5eURnMK Ubc[U5n[U5m UT ::dESR!U 4SjU55nSR!SU55n [SUS U S 35eUn[#U5Ulg)N�__orig_bases__rz!Cannot inherit from plain Genericz0Cannot inherit from Generic[...] multiple times.r�c3�H># �UHoT;dM [U5v� M g7fr��rz)r�r��gvarsets �r|r��)_generic_init_subclass.<locals>.<genexpr>s��"M�5�a�W�<L�6�3�q�6�6�5�s� "�"c3�8# �UHn[U5v� M g7fr�r)r��gs r|r�rs��"9�5�a�3�q�6�6�5�r�zSome type variables (z) are not listed in Generic[r�)r�rr=r�r� __bases__r�rx�_TypedDictMetar�r�ryr�r�r�r r�r�)r�r�r��tvars�error�gvars�base�tvarset�s_vars�s_argsrs @r|�_generic_init_subclassr%�so�� '�3�)�4�:�6�:��E��3�<�<�'��3�-�-�-��C�M�M�)�0��L�L�J�.�0��I��/� � ��;�<�<��3�<�<�'�(��);�);�<��&�&�D��4��/�/��O�O�w�.��$�#�J�L�L��+�+�� '��%�j�G��%�j�G��g�%��"M�5�"M�M��"9�5�"9�9��"7��x�@:�:@��!D�E�E��E��u��C�r~c�T�URS5=(a URS5$)N�__)r��endswith)�attrs r|� _is_dunderr*s��?�?�4� �8�T�]�]�4�%8�8r~c�f^�\rSrSrSrSSS.SjrSrSrS rU4S jr Sr SrU4S jrSr U=r$)�_BaseGenericAliasia�The central part of the internal API. This represents a generic version of type 'origin' with type arguments 'params'. There are two kind of these aliases: user defined and special. The special ones are wrappers around builtin collections and ABCs in collections.abc. These must have 'name' always set. If 'inst' is False, then the alias can't be instantiated; this is used by e.g. typing.List and typing.Dict. 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Details: - It's an error to call `Annotated` with less than two arguments. - Access the metadata via the ``__metadata__`` attribute:: assert Annotated[int, '$'].__metadata__ == ('$',) - Nested Annotated types are flattened:: assert Annotated[Annotated[T, Ann1, Ann2], Ann3] == Annotated[T, Ann1, Ann2, Ann3] - Instantiating an annotated type is equivalent to instantiating the underlying type:: assert Annotated[C, Ann1](5) == C(5) - Annotated can be used as a generic type alias:: type Optimized[T] = Annotated[T, runtime.Optimize()] # type checker will treat Optimized[int] # as equivalent to Annotated[int, runtime.Optimize()] type OptimizedList[T] = Annotated[list[T], runtime.Optimize()] # type checker will treat OptimizedList[int] # as equivalent to Annotated[list[int], runtime.Optimize()] - Annotated cannot be used with an unpacked TypeVarTuple:: type Variadic[*Ts] = Annotated[*Ts, Ann1] # NOT valid This would be equivalent to:: Annotated[T1, T2, T3, ..., Ann1] where T1, T2 etc. are TypeVars, which would be invalid, because only one type should be passed to Annotated. r�zUAnnotated[...] should be used with at least two arguments (a type and an annotation).rz?Annotated[...] should not be used with an unpacked TypeVarTuplez$Annotated[t, ...]: t must be a type.Trsr�N)r�r�r�r�r�r8)rr�r�r1r;s r|rr�sw��b�6�{�Q��'�(� (�!��+�+��0�1� 1� 0�C� ��C�T� B�F��V�A�B�Z� �H��6�,�,r~c�|�[U[5(a[USS5(d[SU-5eSUl[5UlURH=n[[XS55nU(dURRU5 M=M? 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For classes, annotations include also inherited members. TypeError is raised if the argument is not of a type that can contain annotations, and an empty dictionary is returned if no annotations are present. BEWARE -- the behavior of globalns and localns is counterintuitive (unless you are familiar with how eval() and exec() work). The search order is locals first, then globals. - If no dict arguments are passed, an attempt is made to use the globals from obj (or the respective module's globals for classes), and these are also used as the locals. If the object does not appear to have globals, an empty dictionary is used. 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Usage:: class Employee(NamedTuple): name: str id: int This is equivalent to:: Employee = collections.namedtuple('Employee', ['name', 'id']) The resulting class has an extra __annotations__ attribute, giving a dict that maps field names to types. (The field names are also in the _fields attribute, which is part of the namedtuple API.) An alternative equivalent functional syntax is also accepted:: Employee = NamedTuple('Employee', [('name', str), ('id', int)]) z3Creating NamedTuple classes using keyword argumentszq{name} is deprecated and will be disallowed in Python {remove}. Use the class-based or functional syntax instead.�2Failing to pass a value for the 'fields' parameter�`z = NamedTuple(z, [])`z�{name} is deprecated and will be disallowed in Python {remove}. 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This method is called when TypedDict is subclassed, or when TypedDict is instantiated. This way TypedDict supports all three syntax forms described in its docstring. Subclasses and instances of TypedDict return actual dictionaries. zHcannot inherit from both a TypedDict type and a non-TypedDict base classc3�B# �UHn[U[5v� M g7fr�)r:rr4s r|r��)_TypedDictMeta.__new__.<locals>.<genexpr>_s��5�u�!�z�!�W�%�%�u�r�r�rr�z?TypedDict('Name', {f0: t0, f1: t1, ...}); each t must be a typer��__required_keys__�__optional_keys__�__readonly_keys__�__mutable_keys__TFzCannot override mutable key z with read-only key)rxrrr�r=r�r�r�rr�r\r�r�r �updater�r�rirer��discardrhr�r�rrrr� __total__)r�r�rRr��totalr!�generic_base�tp_dictr��own_annotationsr�r�rq� required_keys� optional_keys� readonly_keys�mutable_keys� base_required� base_optional�annotation_keyr�� qualifiers�is_requireds r|r��_TypedDictMeta.__new__Rs��D��D�z��/�D��4G��!A�B�B�� 5�u�5�5�5�#�:�L��L��,�,�~�t�5J�|�5J�T�5J�B�O��w� 0�1�1�%*�"��&�&�!2�B�7��O��)�.�.�0� �0�� {�2�7�+=�+=�>�>�0� � �� u��D��t�}�}�0�0�1B�B�G�H� �M�M�-�-�.A�3�5�I�M��]�*�M��]�*�M� �M�M�-�-�.A�3�5�I�M��]�*�M��]�*�M�� !2�!2�3F��!K�L�� 1� 1�2D�b� I�J�� ?�+�/>�/D�/D�/F�+�N�O��6��G�H�J��:�%�"�� *�#��#��!�!�.�1��%�%�n�5��!�!�.�1��%�%�n�5��:�%�!�\�1�#�6�~�6H�-�.��!�!�.�1�� 0��%�%�n�5�30G�>#.��$-�m�$<��!�$-�m�$<��!�$-�m�$<��!�#,�\�#:�� !��{ s�8!L4c��[S5e)Nz4TypedDict does not support instance and class checksr<)r�res r|rt� _TypedDictMeta.__subclasscheck__�s��N�O�Or~r�N)T) r�r�r�rr�r�r`rtror!r�r~r|rrQs��W�r�H�P�*�r~r�rc��U[LdUc6SSKnU[LaSnOSnSUSU<S3nSU-S -nURXFS S9 0nS[U50n[ 5nUbX�S '[USXrS9n [4U lU $)a�A simple typed namespace. At runtime it is equivalent to a plain dict. TypedDict creates a dictionary type such that a type checker will expect all instances to have a certain set of keys, where each key is associated with a value of a consistent type. This expectation is not checked at runtime. Usage:: >>> class Point2D(TypedDict): ... x: int ... y: int ... label: str ... >>> a: Point2D = {'x': 1, 'y': 2, 'label': 'good'} # OK >>> b: Point2D = {'z': 3, 'label': 'bad'} # Fails type check >>> Point2D(x=1, y=2, label='first') == dict(x=1, y=2, label='first') True The type info can be accessed via the Point2D.__annotations__ dict, and the Point2D.__required_keys__ and Point2D.__optional_keys__ frozensets. TypedDict supports an additional equivalent form:: Point2D = TypedDict('Point2D', {'x': int, 'y': int, 'label': str}) By default, all keys must be present in a TypedDict. It is possible to override this by specifying totality:: class Point2D(TypedDict, total=False): x: int y: int This means that a Point2D TypedDict can have any of the keys omitted. A type checker is only expected to support a literal False or True as the value of the total argument. True is the default, and makes all items defined in the class body be required. The Required and NotRequired special forms can also be used to mark individual keys as being required or not required:: class Point2D(TypedDict): x: int # the "x" key must always be present (Required is the default) y: NotRequired[int] # the "y" key can be omitted See PEP 655 for more details on Required and NotRequired. The ReadOnly special form can be used to mark individual keys as immutable for type checkers:: class DatabaseUser(TypedDict): id: ReadOnly[int] # the "id" key must not be modified username: str # the "username" key can be changed Nrr�r�r�z = TypedDict(z, {{}})`z�{name} is deprecated and will be disallowed in Python {remove}. To create a TypedDict class with 0 fields using the functional syntax, pass an empty dictionary, e.g. r�r}r�r�r�r�r)r.rr�r�rrrJr) r�r�rrr�r�r�r�rv�tds r|rJrJ�s��n��f�n��Y��S��I��h�Z�}�X�L��E�� .� �� -�w��W�� T�&�\� *�B� �Y�F� ��!�<�� "�b� 6�B�"��B�� Ir~rJc��[4$r�)� _TypedDictr�s r|�<lambda>r s��:�-r~c�J�[XRS35n[X45$)a�Special typing construct to mark a TypedDict key as required. This is mainly useful for total=False TypedDicts. For example:: class Movie(TypedDict, total=False): title: Required[str] year: int m = Movie( title='The Matrix', # typechecker error if key is omitted year=1999, ) There is no runtime checking that a required key is actually provided when instantiating a related TypedDict. � accepts only a single type.�r�rDr�r�s r|riri s'��(�z�j�j�\�1M�#N�O�D��w�'�'r~c�J�[XRS35n[X45$)aSpecial typing construct to mark a TypedDict key as potentially missing. For example:: class Movie(TypedDict): title: str year: NotRequired[int] m = Movie( title='The Matrix', # typechecker error if key is omitted year=1999, ) r"r#r�s r|rere# s'��z�j�j�\�1M�#N�O�D��w�'�'r~c�J�[XRS35n[X45$)aXA special typing construct to mark an item of a TypedDict as read-only. For example:: class Movie(TypedDict): title: ReadOnly[str] year: int def mutate_movie(m: Movie) -> None: m["year"] = 1992 # allowed m["title"] = "The Matrix" # typechecker error There is no runtime checking for this property. r"r#r�s r|rhrh6 s'�� z�j�j�\�1M�#N�O�D��w�'�'r~c�@�\rSrSrSr\rSrSrSr Sr SrSrS r g )raiJ a�NewType creates simple unique types with almost zero runtime overhead. NewType(name, tp) is considered a subtype of tp by static type checkers. At runtime, NewType(name, tp) returns a dummy callable that simply returns its argument. Usage:: UserId = NewType('UserId', int) def name_by_id(user_id: UserId) -> str: ... 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NAME	SIZE	LAST TOUCH	USER	CAN-I?
..	--	10 Feb 2026 9.35 AM	root / linksafe	0755

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abc.cpython-313.opt-1.pyc	7.743 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
abc.cpython-313.opt-2.pyc	4.846 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
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antigravity.cpython-313.opt-1.pyc	0.978 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
antigravity.cpython-313.opt-2.pyc	0.849 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
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argparse.cpython-313.opt-1.pyc	101.398 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
argparse.cpython-313.opt-2.pyc	92.613 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
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ast.cpython-313.opt-1.pyc	100.465 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
ast.cpython-313.opt-2.pyc	92.503 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
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base64.cpython-313.opt-1.pyc	25.221 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
base64.cpython-313.opt-2.pyc	20.691 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
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bdb.cpython-313.opt-1.pyc	40.061 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
bdb.cpython-313.opt-2.pyc	31.313 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
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bz2.cpython-313.opt-1.pyc	14.825 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
bz2.cpython-313.opt-2.pyc	10.442 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
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calendar.cpython-313.opt-2.pyc	35.041 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
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cmd.cpython-313.opt-2.pyc	13.554 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
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code.cpython-313.opt-1.pyc	15.43 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
code.cpython-313.opt-2.pyc	10.822 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
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codecs.cpython-313.opt-2.pyc	26.733 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
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codeop.cpython-313.opt-2.pyc	3.731 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
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colorsys.cpython-313.opt-2.pyc	3.819 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
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configparser.cpython-313.opt-1.pyc	67.351 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
configparser.cpython-313.opt-2.pyc	53.179 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
configparser.cpython-313.pyc	67.351 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
contextlib.cpython-313.opt-1.pyc	29.771 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
contextlib.cpython-313.opt-2.pyc	24.26 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
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copyreg.cpython-313.opt-2.pyc	6.593 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
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csv.cpython-313.opt-2.pyc	15.707 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
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dataclasses.cpython-313.opt-1.pyc	46.66 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
dataclasses.cpython-313.opt-2.pyc	43.126 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
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datetime.cpython-313.opt-2.pyc	0.417 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
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difflib.cpython-313.opt-2.pyc	41.267 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
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dis.cpython-313.opt-2.pyc	41.261 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
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doctest.cpython-313.opt-2.pyc	74.44 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
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enum.cpython-313.opt-1.pyc	83.854 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
enum.cpython-313.opt-2.pyc	75.938 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
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filecmp.cpython-313.opt-2.pyc	12.182 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
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fileinput.cpython-313.opt-2.pyc	14.938 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
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fractions.cpython-313.opt-2.pyc	29.796 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
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ftplib.cpython-313.opt-1.pyc	41.354 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
ftplib.cpython-313.opt-2.pyc	32.202 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
ftplib.cpython-313.pyc	41.354 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
functools.cpython-313.opt-1.pyc	41.24 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
functools.cpython-313.opt-2.pyc	35.02 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
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genericpath.cpython-313.opt-1.pyc	7.644 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
genericpath.cpython-313.opt-2.pyc	6.203 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
genericpath.cpython-313.pyc	7.644 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
getopt.cpython-313.opt-1.pyc	8.229 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
getopt.cpython-313.opt-2.pyc	5.85 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
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getpass.cpython-313.opt-2.pyc	5.898 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
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gettext.cpython-313.opt-2.pyc	21.379 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
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glob.cpython-313.opt-1.pyc	23.212 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
glob.cpython-313.opt-2.pyc	20.828 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
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graphlib.cpython-313.opt-1.pyc	9.904 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
graphlib.cpython-313.opt-2.pyc	6.883 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
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gzip.cpython-313.opt-2.pyc	27.407 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
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hashlib.cpython-313.opt-1.pyc	8.098 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
hashlib.cpython-313.opt-2.pyc	7.389 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
hashlib.cpython-313.pyc	8.098 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
heapq.cpython-313.opt-1.pyc	17.369 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
heapq.cpython-313.opt-2.pyc	14.358 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
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hmac.cpython-313.opt-1.pyc	10.426 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
hmac.cpython-313.opt-2.pyc	8.173 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
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imaplib.cpython-313.opt-1.pyc	57.241 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
imaplib.cpython-313.opt-2.pyc	46.585 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
imaplib.cpython-313.pyc	61.478 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
inspect.cpython-313.opt-1.pyc	133.035 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
inspect.cpython-313.opt-2.pyc	109.058 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
inspect.cpython-313.pyc	133.386 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
io.cpython-313.opt-1.pyc	4.19 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
io.cpython-313.opt-2.pyc	2.733 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
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ipaddress.cpython-313.opt-1.pyc	89.876 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
ipaddress.cpython-313.opt-2.pyc	67.979 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
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keyword.cpython-313.opt-1.pyc	1.032 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
keyword.cpython-313.opt-2.pyc	0.631 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
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linecache.cpython-313.opt-2.pyc	7.198 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
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locale.cpython-313.opt-1.pyc	57.632 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
locale.cpython-313.opt-2.pyc	53.828 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
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lzma.cpython-313.opt-1.pyc	15.365 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
lzma.cpython-313.opt-2.pyc	9.928 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
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mailbox.cpython-313.opt-1.pyc	115.856 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
mailbox.cpython-313.opt-2.pyc	109.034 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
mailbox.cpython-313.pyc	115.966 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
mimetypes.cpython-313.opt-1.pyc	24.33 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
mimetypes.cpython-313.opt-2.pyc	19.246 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
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modulefinder.cpython-313.opt-1.pyc	27.643 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
modulefinder.cpython-313.opt-2.pyc	26.842 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
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netrc.cpython-313.opt-2.pyc	8.889 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
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ntpath.cpython-313.opt-1.pyc	26.582 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
ntpath.cpython-313.opt-2.pyc	24.714 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
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numbers.cpython-313.opt-1.pyc	13.719 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
numbers.cpython-313.opt-2.pyc	9.94 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
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operator.cpython-313.opt-1.pyc	16.974 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
operator.cpython-313.opt-2.pyc	14.685 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
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optparse.cpython-313.opt-1.pyc	65.906 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
optparse.cpython-313.opt-2.pyc	55.027 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
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pickle.cpython-313.opt-1.pyc	76.242 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
pickle.cpython-313.opt-2.pyc	71.144 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
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pickletools.cpython-313.opt-1.pyc	76.512 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
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pkgutil.cpython-313.opt-1.pyc	19.507 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
pkgutil.cpython-313.opt-2.pyc	13.866 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
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platform.cpython-313.opt-2.pyc	36.459 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
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posixpath.cpython-313.pyc	17.711 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
pprint.cpython-313.opt-1.pyc	28.953 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
pprint.cpython-313.opt-2.pyc	26.909 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
pprint.cpython-313.pyc	29.018 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
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pstats.cpython-313.opt-2.pyc	34.286 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
pstats.cpython-313.pyc	36.985 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
pty.cpython-313.opt-1.pyc	7.247 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
pty.cpython-313.opt-2.pyc	6.489 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
pty.cpython-313.pyc	7.247 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
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py_compile.cpython-313.opt-2.pyc	6.811 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
py_compile.cpython-313.pyc	9.849 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
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pyclbr.cpython-313.opt-2.pyc	11.852 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
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pydoc.cpython-313.opt-2.pyc	127.233 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
pydoc.cpython-313.pyc	136.595 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
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queue.cpython-313.pyc	16.942 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
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quopri.cpython-313.opt-2.pyc	8.037 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
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reprlib.cpython-313.opt-2.pyc	10.678 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
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rlcompleter.cpython-313.opt-2.pyc	5.948 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
rlcompleter.cpython-313.pyc	8.387 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
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shlex.cpython-313.opt-2.pyc	13.977 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
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site.cpython-313.opt-2.pyc	25.426 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
site.cpython-313.pyc	30.909 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
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sre_compile.cpython-313.opt-2.pyc	0.628 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
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sre_constants.cpython-313.opt-2.pyc	0.631 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
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stat.cpython-313.pyc	5.409 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
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tty.cpython-313.opt-2.pyc	2.468 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
tty.cpython-313.pyc	2.617 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
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types.cpython-313.pyc	15.196 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
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zipapp.cpython-313.opt-2.pyc	9.088 KB	10 Jan 2026 10.44 AM	root / linksafe	0644
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