xt from functools import wraps as wraps from io import BytesIO as BytesIO, StringIO as StringIO from typing import ( Any, AnyStr, Callable, Dict, ItemsView, Iterable, KeysView, Mapping, NoReturn, Optional, Pattern, Tuple, Type, TypeVar, Union, ValuesView, overload, ) from . import moves as moves _T = TypeVar("_T") _K = TypeVar("_K") _V = TypeVar("_V") __version__: str # TODO make constant, then move this stub to 2and3 # https://github.com/python/typeshed/issues/17 PY2 = False PY3 = True PY34: bool string_types = (str,) integer_types = (int,) class_types = (type,) text_type = str binary_type = bytes MAXSIZE: int def callable(obj: object) -> bool: ... def get_unbound_function(unbound: types.FunctionType) -> types.FunctionType: ... def create_bound_method(func: types.FunctionType, obj: object) -> types.MethodType: ... def create_unbound_method(func: types.FunctionType, cls: type) -> types.FunctionType: ... Iterator = object def get_method_function(meth: types.MethodType) -> types.FunctionType: ... def get_method_self(meth: types.MethodType) -> Optional[object]: ... def get_function_closure(fun: types.FunctionType) -> Optional[Tuple[types._Cell, ...]]: ... def get_function_code(fun: types.FunctionType) -> types.CodeType: ... def get_function_defaults(fun: types.FunctionType) -> Optional[Tuple[Any, ...]]: ... def get_function_globals(fun: types.FunctionType) -> Dict[str, Any]: ... def iterkeys(d: Mapping[_K, _V]) -> typing.Iterator[_K]: ... def itervalues(d: Mapping[_K, _V]) -> typing.Iterator[_V]: ... def iteritems(d: Mapping[_K, _V]) -> typing.Iterator[Tuple[_K, _V]]: ... # def iterlists def viewkeys(d: Mapping[_K, _V]) -> KeysView[_K]: ... def viewvalues(d: Mapping[_K, _V]) -> ValuesView[_V]: ... def viewitems(d: Mapping[_K, _V]) -> ItemsView[_K, _V]: ... def b(s: str) -> binary_type: ... def u(s: str) -> text_type: ... unichr = chr def int2byte(i: int) -> bytes: ... def byte2int(bs: binary_type) -> int: ... def indexbytes(buf: binary_type, i: int) -> int: ... def iterbytes(buf: binary_type) -> typing.Iterator[int]: ... def assertCountEqual(self: unittest.TestCase, first: Iterable[_T], second: Iterable[_T], msg: Optional[str] = ...) -> None: ... @overload def assertRaisesRegex(self: unittest.TestCase, msg: Optional[str] = ...) -> Any: ... @overload def assertRaisesRegex(self: unittest.TestCase, callable_obj: Callable[..., Any], *args: Any, **kwargs: Any) -> Any: ... def assertRegex( self: unittest.TestCase, text: AnyStr, expected_regex: Union[AnyStr, Pattern[AnyStr]], msg: Optional[str] = ... ) -> None: ... exec_ = exec def reraise( tp: Optional[Type[BaseException]], value: Optional[BaseException], tb: Optional[types.TracebackType] = ... ) -> NoReturn: ... def raise_from(value: Union[BaseException, Type[BaseException]], from_value: Optional[BaseException]) -> NoReturn: ... print_ = print def with_metaclass(meta: type, *bases: type) -> type: ... def add_metaclass(metaclass: type) -> Callable[[_T], _T]: ... def ensure_binary(s: Union[bytes, str], encoding: str = ..., errors: str = ...) -> bytes: ... def ensure_str(s: Union[bytes, str], encoding: str = ..., errors: str = ...) -> str: ... def ensure_text(s: Union[bytes, str], encoding: str = ..., errors: str = ...) -> str: ... def python_2_unicode_compatible(klass: _T) -> _T: ... class _LazyDescriptor: name: str def __init__(self, name: str) -> None: ... def __get__(self, obj: Optional[object], type: Optional[type] = ...) -> Any: ... class MovedModule(_LazyDescriptor): mod: str def __init__(self, name: str, old: str, new: Optional[str] = ...) -> None: ... def __getattr__(self, attr: str) -> Any: ... class MovedAttribute(_LazyDescriptor): mod: str attr: str def __init__( self, name: str, old_mod: str, new_mod: str, old_attr: Optional[str] = ..., new_attr: Optional[str] = ... ) -> None: ... def add_move(move: Union[MovedModule, MovedAttribute]) -> None: ... def remove_move(name: str) -> None: ... PK