# Stubs for types # Note, all classes "defined" here require special handling. # TODO parts of this should be conditional on version import sys from typing import ( Any, Awaitable, Callable, Dict, Generic, Iterator, Mapping, Optional, Tuple, TypeVar, Union, overload, Type ) # ModuleType is exported from this module, but for circular import # reasons exists in its own stub file (with ModuleSpec and Loader). from _importlib_modulespec import ModuleType as ModuleType # Exported _T = TypeVar('_T') _T_co = TypeVar('_T_co', covariant=True) _T_contra = TypeVar('_T_contra', contravariant=True) _KT = TypeVar('_KT') _VT = TypeVar('_VT') class _Cell: cell_contents = ... # type: Any class FunctionType: __closure__ = ... # type: Optional[Tuple[_Cell, ...]] __code__ = ... # type: CodeType __defaults__ = ... # type: Optional[Tuple[Any, ...]] __dict__ = ... # type: Dict[str, Any] __globals__ = ... # type: Dict[str, Any] __name__ = ... # type: str __qualname__ = ... # type: str __annotations__ = ... # type: Dict[str, Any] __kwdefaults__ = ... # type: Dict[str, Any] def __call__(self, *args: Any, **kwargs: Any) -> Any: ... def __get__(self, obj: Optional[object], type: Optional[type]) -> 'MethodType': ... LambdaType = FunctionType class CodeType: """Create a code object. Not for the faint of heart.""" co_argcount = ... # type: int co_kwonlyargcount = ... # type: int co_nlocals = ... # type: int co_stacksize = ... # type: int co_flags = ... # type: int co_code = ... # type: bytes co_consts = ... # type: Tuple[Any, ...] co_names = ... # type: Tuple[str, ...] co_varnames = ... # type: Tuple[str, ...] co_filename = ... # type: Optional[str] co_name = ... # type: str co_firstlineno = ... # type: int co_lnotab = ... # type: bytes co_freevars = ... # type: Tuple[str, ...] co_cellvars = ... # type: Tuple[str, ...] def __init__( self, argcount: int, kwonlyargcount: int, nlocals: int, stacksize: int, flags: int, codestring: bytes, constants: Tuple[Any, ...], names: Tuple[str, ...], varnames: Tuple[str, ...], filename: str, name: str, firstlineno: int, lnotab: bytes, freevars: Tuple[str, ...] = ..., cellvars: Tuple[str, ...] = ..., ) -> None: ... class MappingProxyType(Mapping[_KT, _VT], Generic[_KT, _VT]): def __init__(self, mapping: Mapping[_KT, _VT]) -> None: ... def __getitem__(self, k: _KT) -> _VT: ... def __iter__(self) -> Iterator[_KT]: ... def __len__(self) -> int: ... class SimpleNamespace: def __init__(self, **kwargs: Any) -> None: ... def __getattribute__(self, name: str) -> Any: ... def __setattr__(self, name: str, value: Any) -> None: ... def __delattr__(self, name: str) -> None: ... class GeneratorType: gi_code = ... # type: CodeType gi_frame = ... # type: FrameType gi_running = ... # type: bool gi_yieldfrom = ... # type: Optional[GeneratorType] def __iter__(self) -> 'GeneratorType': ... def __next__(self) -> Any: ... def close(self) -> None: ... def send(self, arg: Any) -> Any: ... @overload def throw(self, val: BaseException) -> Any: ... @overload def throw(self, typ: type, val: BaseException = ..., tb: 'TracebackType' = ...) -> Any: ... if sys.version_info >= (3, 6): class AsyncGeneratorType(Generic[_T_co, _T_contra]): ag_await: Optional[Awaitable[Any]] ag_frame: FrameType ag_running: bool ag_code: CodeType def __aiter__(self) -> Awaitable[AsyncGeneratorType[_T_co, _T_contra]]: ... def __anext__(self) -> Awaitable[_T_co]: ... def asend(self, val: _T_contra) -> Awaitable[_T_co]: ... @overload def athrow(self, val: BaseException) -> Awaitable[_T_co]: ... @overload def athrow(self, typ: Type[BaseException], val: BaseException, tb: TracebackType = ...) -> Awaitable[_T_co]: ... def aclose(self) -> Awaitable[_T_co]: ... class CoroutineType: cr_await = ... # type: Optional[Any] cr_code = ... # type: CodeType cr_frame = ... # type: FrameType cr_running = ... # type: bool def close(self) -> None: ... def send(self, arg: Any) -> Any: ... @overload def throw(self, val: BaseException) -> Any: ... @overload def throw(self, typ: type, val: BaseException = ..., tb: 'TracebackType' = ...) -> Any: ... class _StaticFunctionType: """Fictional type to correct the type of MethodType.__func__. FunctionType is a descriptor, so mypy follows the descriptor protocol and converts MethodType.__func__ back to MethodType (the return type of FunctionType.__get__). But this is actually a special case; MethodType is implemented in C and its attribute access doesn't go through __getattribute__. By wrapping FunctionType in _StaticFunctionType, we get the right result; similar to wrapping a function in staticmethod() at runtime to prevent it being bound as a method. """ def __get__(self, obj: Optional[object], type: Optional[type]) -> 'FunctionType': ... class MethodType: __func__ = ... # type: _StaticFunctionType __self__ = ... # type: object __name__ = ... # type: str __qualname__ = ... # type: str def __init__(self, func: Callable, obj: object) -> None: ... def __call__(self, *args: Any, **kwargs: Any) -> Any: ... class BuiltinFunctionType: __self__ = ... # type: Union[object, ModuleType] __name__ = ... # type: str __qualname__ = ... # type: str def __call__(self, *args: Any, **kwargs: Any) -> Any: ... BuiltinMethodType = BuiltinFunctionType class TracebackType: if sys.version_info >= (3, 7): def __init__(self, tb_next: Optional[TracebackType], tb_frame: FrameType, tb_lasti: int, tb_lineno: int) -> None: ... tb_next: Optional[TracebackType] else: @property def tb_next(self) -> Optional[TracebackType]: ... # the rest are read-only even in 3.7 @property def tb_frame(self) -> FrameType: ... @property def tb_lasti(self) -> int: ... @property def tb_lineno(self) -> int: ... class FrameType: f_back = ... # type: FrameType f_builtins = ... # type: Dict[str, Any] f_code = ... # type: CodeType f_globals = ... # type: Dict[str, Any] f_lasti = ... # type: int f_lineno = ... # type: int f_locals = ... # type: Dict[str, Any] f_trace = ... # type: Callable[[], None] if sys.version_info >= (3, 7): f_frace_lines: bool f_trace_opcodes: bool def clear(self) -> None: ... class GetSetDescriptorType: __name__ = ... # type: str __objclass__ = ... # type: type def __get__(self, obj: Any, type: type = ...) -> Any: ... def __set__(self, obj: Any) -> None: ... def __delete__(self, obj: Any) -> None: ... class MemberDescriptorType: __name__ = ... # type: str __objclass__ = ... # type: type def __get__(self, obj: Any, type: type = ...) -> Any: ... def __set__(self, obj: Any) -> None: ... def __delete__(self, obj: Any) -> None: ... def new_class(name: str, bases: Tuple[type, ...] = ..., kwds: Dict[str, Any] = ..., exec_body: Callable[[Dict[str, Any]], None] = ...) -> type: ... def prepare_class(name: str, bases: Tuple[type, ...] = ..., kwds: Dict[str, Any] = ...) -> Tuple[type, Dict[str, Any], Dict[str, Any]]: ... # Actually a different type, but `property` is special and we want that too. DynamicClassAttribute = property def coroutine(f: Callable[..., Any]) -> CoroutineType: ...