# Stubs for typing (Python 2.7) from abc import abstractmethod, ABCMeta # Definitions of special type checking related constructs. Their definition # are not used, so their value does not matter. cast = object() overload = object() Any = object() TypeVar = object() Generic = object() Tuple = object() Callable = object() Type = object() builtinclass = object() _promote = object() NamedTuple = object() # Type aliases class TypeAlias: # Class for defining generic aliases for library types. def __init__(self, target_type: type) -> None: ... def __getitem__(self, typeargs: Any) -> Any: ... Union = TypeAlias(object) Optional = TypeAlias(object) List = TypeAlias(object) Dict = TypeAlias(object) DefaultDict = TypeAlias(object) Set = TypeAlias(object) # Predefined type variables. AnyStr = TypeVar('AnyStr', str, unicode) # Abstract base classes. # These type variables are used by the container types. _T = TypeVar('_T') _S = TypeVar('_S') _KT = TypeVar('_KT') # Key type. _VT = TypeVar('_VT') # Value type. _T_co = TypeVar('_T_co', covariant=True) # Any type covariant containers. _V_co = TypeVar('_V_co', covariant=True) # Any type covariant containers. _VT_co = TypeVar('_VT_co', covariant=True) # Value type covariant containers. _T_contra = TypeVar('_T_contra', contravariant=True) # Ditto contravariant. class SupportsInt(metaclass=ABCMeta): @abstractmethod def __int__(self) -> int: ... class SupportsFloat(metaclass=ABCMeta): @abstractmethod def __float__(self) -> float: ... class SupportsAbs(Generic[_T]): @abstractmethod def __abs__(self) -> _T: ... class SupportsRound(Generic[_T]): @abstractmethod def __round__(self, ndigits: int = ...) -> _T: ... class Reversible(Generic[_T_co]): @abstractmethod def __reversed__(self) -> Iterator[_T_co]: ... class Sized(metaclass=ABCMeta): @abstractmethod def __len__(self) -> int: ... class Iterable(Generic[_T_co]): @abstractmethod def __iter__(self) -> Iterator[_T_co]: ... class Iterator(Iterable[_T_co], Generic[_T_co]): @abstractmethod def next(self) -> _T_co: ... class Generator(Iterator[_T_co], Generic[_T_co, _T_contra, _V_co]): @abstractmethod def next(self) -> _T_co:... @abstractmethod def send(self, value: _T_contra) -> _T_co:... @abstractmethod def throw(self, typ: BaseException, val: Any = None, tb: Any = None) -> None:... @abstractmethod def close(self) -> None:... class Container(Generic[_T_co]): @abstractmethod def __contains__(self, x: object) -> bool: ... class Sequence(Iterable[_T_co], Container[_T_co], Sized, Reversible[_T_co], Generic[_T_co]): @overload @abstractmethod def __getitem__(self, i: int) -> _T_co: ... @overload @abstractmethod def __getitem__(self, s: slice) -> Sequence[_T_co]: ... # Mixin methods def index(self, x: Any) -> int: ... def count(self, x: Any) -> int: ... def __contains__(self, x: object) -> bool: ... def __iter__(self) -> Iterator[_T_co]: ... def __reversed__(self) -> Iterator[_T_co]: ... class MutableSequence(Sequence[_T], Generic[_T]): @abstractmethod def insert(self, index: int, object: _T) -> None: ... @overload @abstractmethod def __setitem__(self, i: int, o: _T) -> None: ... @overload @abstractmethod def __setitem__(self, s: slice, o: Sequence[_T]) -> None: ... @abstractmethod def __delitem__(self, i: Union[int, slice]) -> None: ... # Mixin methods def append(self, object: _T) -> None: ... def extend(self, iterable: Iterable[_T]) -> None: ... def reverse(self) -> None: ... def pop(self, index: int = ...) -> _T: ... def remove(self, object: _T) -> None: ... def __iadd__(self, x: Iterable[_T]) -> MutableSequence[_T]: ... class AbstractSet(Sized, Iterable[_T_co], Container[_T_co], Generic[_T_co]): @abstractmethod def __contains__(self, x: object) -> bool: ... # Mixin methods def __le__(self, s: AbstractSet[Any]) -> bool: ... def __lt__(self, s: AbstractSet[Any]) -> bool: ... def __gt__(self, s: AbstractSet[Any]) -> bool: ... def __ge__(self, s: AbstractSet[Any]) -> bool: ... def __and__(self, s: AbstractSet[Any]) -> AbstractSet[_T_co]: ... def __or__(self, s: AbstractSet[_T]) -> AbstractSet[Union[_T_co, _T]]: ... def __sub__(self, s: AbstractSet[Any]) -> AbstractSet[_T_co]: ... def __xor__(self, s: AbstractSet[_T]) -> AbstractSet[Union[_T_co, _T]]: ... # TODO: argument can be any container? def isdisjoint(self, s: AbstractSet[Any]) -> bool: ... class MutableSet(AbstractSet[_T], Generic[_T]): @abstractmethod def add(self, x: _T) -> None: ... @abstractmethod def discard(self, x: _T) -> None: ... # Mixin methods def clear(self) -> None: ... def pop(self) -> _T: ... def remove(self, element: _T) -> None: ... def __ior__(self, s: AbstractSet[_S]) -> MutableSet[Union[_T, _S]]: ... def __iand__(self, s: AbstractSet[Any]) -> MutableSet[_T]: ... def __ixor__(self, s: AbstractSet[_S]) -> MutableSet[Union[_T, _S]]: ... def __isub__(self, s: AbstractSet[Any]) -> MutableSet[_T]: ... class Mapping(Sized, Iterable[_KT], Container[_KT], Generic[_KT, _VT]): @abstractmethod def __getitem__(self, k: _KT) -> _VT: ... # Mixin methods def get(self, k: _KT, default: _VT = ...) -> _VT: ... def keys(self) -> list[_KT]: ... def values(self) -> list[_VT]: ... def items(self) -> list[Tuple[_KT, _VT]]: ... def iterkeys(self) -> Iterator[_KT]: ... def itervalues(self) -> Iterator[_VT]: ... def iteritems(self) -> Iterator[Tuple[_KT, _VT]]: ... def __contains__(self, o: object) -> bool: ... class MutableMapping(Mapping[_KT, _VT], Generic[_KT, _VT]): @abstractmethod def __setitem__(self, k: _KT, v: _VT) -> None: ... @abstractmethod def __delitem__(self, v: _KT) -> None: ... def clear(self) -> None: ... def pop(self, k: _KT, default: _VT = ...) -> _VT: ... def popitem(self) -> Tuple[_KT, _VT]: ... def setdefault(self, k: _KT, default: _VT = ...) -> _VT: ... @overload def update(self, m: Mapping[_KT, _VT], **kwargs: _VT) -> None: ... @overload def update(self, m: Iterable[Tuple[_KT, _VT]], **kwargs: _VT) -> None: ... Text = unicode TYPE_CHECKING = True class IO(Iterable[AnyStr], Generic[AnyStr]): # TODO detach # TODO use abstract properties @property def mode(self) -> str: ... @property def name(self) -> str: ... @abstractmethod def close(self) -> None: ... @property def closed(self) -> bool: ... @abstractmethod def fileno(self) -> int: ... @abstractmethod def flush(self) -> None: ... @abstractmethod def isatty(self) -> bool: ... # TODO what if n is None? @abstractmethod def read(self, n: int = ...) -> AnyStr: ... @abstractmethod def readable(self) -> bool: ... @abstractmethod def readline(self, limit: int = ...) -> AnyStr: ... @abstractmethod def readlines(self, hint: int = ...) -> list[AnyStr]: ... @abstractmethod def seek(self, offset: int, whence: int = ...) -> None: ... @abstractmethod def seekable(self) -> bool: ... @abstractmethod def tell(self) -> int: ... @abstractmethod def truncate(self, size: int = ...) -> Optional[int]: ... @abstractmethod def writable(self) -> bool: ... # TODO buffer objects @abstractmethod def write(self, s: AnyStr) -> None: ... @abstractmethod def writelines(self, lines: Iterable[AnyStr]) -> None: ... @abstractmethod def __iter__(self) -> Iterator[AnyStr]: ... @abstractmethod def __enter__(self) -> 'IO[AnyStr]': ... @abstractmethod def __exit__(self, t: type, value: Any, traceback: Any) -> bool: ... class BinaryIO(IO[str]): # TODO readinto # TODO read1? # TODO peek? @abstractmethod def __enter__(self) -> BinaryIO: ... class TextIO(IO[unicode]): # TODO use abstractproperty @property def buffer(self) -> BinaryIO: ... @property def encoding(self) -> str: ... @property def errors(self) -> str: ... @property def line_buffering(self) -> bool: ... @property def newlines(self) -> Any: ... # None, str or tuple @abstractmethod def __enter__(self) -> TextIO: ... class Match(Generic[AnyStr]): pos = 0 endpos = 0 lastindex = 0 lastgroup = ... # type: AnyStr string = ... # type: AnyStr # The regular expression object whose match() or search() method produced # this match instance. re = ... # type: 'Pattern[AnyStr]' def expand(self, template: AnyStr) -> AnyStr: ... @overload def group(self, group1: int = ...) -> AnyStr: ... @overload def group(self, group1: str) -> AnyStr: ... @overload def group(self, group1: int, group2: int, *groups: int) -> Sequence[AnyStr]: ... @overload def group(self, group1: str, group2: str, *groups: str) -> Sequence[AnyStr]: ... def groups(self, default: AnyStr = ...) -> Sequence[AnyStr]: ... def groupdict(self, default: AnyStr = ...) -> dict[str, AnyStr]: ... def start(self, group: Union[int, str] = ...) -> int: ... def end(self, group: Union[int, str] = ...) -> int: ... def span(self, group: Union[int, str] = ...) -> Tuple[int, int]: ... class Pattern(Generic[AnyStr]): flags = 0 groupindex = 0 groups = 0 pattern = ... # type: AnyStr def search(self, string: AnyStr, pos: int = ..., endpos: int = ...) -> Match[AnyStr]: ... def match(self, string: AnyStr, pos: int = ..., endpos: int = ...) -> Match[AnyStr]: ... def split(self, string: AnyStr, maxsplit: int = ...) -> list[AnyStr]: ... def findall(self, string: AnyStr, pos: int = ..., endpos: int = ...) -> list[Any]: ... def finditer(self, string: AnyStr, pos: int = ..., endpos: int = ...) -> Iterator[Match[AnyStr]]: ... @overload def sub(self, repl: AnyStr, string: AnyStr, count: int = ...) -> AnyStr: ... @overload def sub(self, repl: Callable[[Match[AnyStr]], AnyStr], string: AnyStr, count: int = ...) -> AnyStr: ... @overload def subn(self, repl: AnyStr, string: AnyStr, count: int = ...) -> Tuple[AnyStr, int]: ... @overload def subn(self, repl: Callable[[Match[AnyStr]], AnyStr], string: AnyStr, count: int = ...) -> Tuple[AnyStr, int]: ...