# NB: __builtin__.pyi and builtins.pyi must remain consistent! # Stubs for builtins (Python 2.7) # True and False are deliberately omitted because they are keywords in # Python 3, and stub files conform to Python 3 syntax. from typing import ( TypeVar, Iterator, Iterable, NoReturn, overload, Sequence, Mapping, Tuple, List, Any, Dict, Callable, Generic, Set, AbstractSet, FrozenSet, Sized, Reversible, SupportsInt, SupportsFloat, SupportsAbs, SupportsComplex, SupportsRound, IO, BinaryIO, Union, AnyStr, MutableSequence, MutableMapping, MutableSet, ItemsView, KeysView, ValuesView, Optional, Container, Type ) from abc import abstractmethod, ABCMeta _T = TypeVar('_T') _T_co = TypeVar('_T_co', covariant=True) _KT = TypeVar('_KT') _VT = TypeVar('_VT') _S = TypeVar('_S') _T1 = TypeVar('_T1') _T2 = TypeVar('_T2') _T3 = TypeVar('_T3') _T4 = TypeVar('_T4') _T5 = TypeVar('_T5') _TT = TypeVar('_TT', bound='type') class object: __doc__ = ... # type: Optional[str] __class__ = ... # type: type __dict__ = ... # type: Dict[str, Any] __slots__ = ... # type: Union[str, unicode, Iterable[Union[str, unicode]]] __module__ = ... # type: str def __init__(self) -> None: ... def __new__(cls) -> Any: ... def __setattr__(self, name: str, value: Any) -> None: ... def __eq__(self, o: object) -> bool: ... def __ne__(self, o: object) -> bool: ... def __str__(self) -> str: ... def __repr__(self) -> str: ... def __hash__(self) -> int: ... def __format__(self, format_spec: str) -> str: ... def __getattribute__(self, name: str) -> Any: ... def __delattr__(self, name: str) -> None: ... def __sizeof__(self) -> int: ... def __reduce__(self) -> tuple: ... def __reduce_ex__(self, protocol: int) -> tuple: ... class staticmethod(object): # Special, only valid as a decorator. __func__ = ... # type: function def __init__(self, f: function) -> None: ... def __new__(cls: Type[_T], *args: Any, **kwargs: Any) -> _T: ... def __get__(self, obj: _T, type: Optional[Type[_T]]=...) -> function: ... class classmethod(object): # Special, only valid as a decorator. __func__ = ... # type: function def __init__(self, f: function) -> None: ... def __new__(cls: Type[_T], *args: Any, **kwargs: Any) -> _T: ... def __get__(self, obj: _T, type: Optional[Type[_T]]=...) -> function: ... class type(object): __bases__ = ... # type: Tuple[type, ...] __name__ = ... # type: str __module__ = ... # type: str @overload def __init__(self, o: object) -> None: ... @overload def __init__(self, name: str, bases: Tuple[type, ...], dict: Dict[str, Any]) -> None: ... # TODO: __new__ may have to be special and not a static method. @overload def __new__(cls, o: object) -> type: ... @overload def __new__(cls, name: str, bases: Tuple[type, ...], namespace: Dict[str, Any]) -> type: ... def __call__(self, *args: Any, **kwds: Any) -> Any: ... # Only new-style classes __mro__ = ... # type: Tuple[type, ...] # Note: the documentation doesnt specify what the return type is, the standard # implementation seems to be returning a list. def mro(self) -> List[type]: ... def __subclasses__(self: _TT) -> List[_TT]: ... def __instancecheck__(self, instance: Any) -> bool: ... def __subclasscheck__(self, subclass: type) -> bool: ... class int: @overload def __init__(self, x: SupportsInt = ...) -> None: ... @overload def __init__(self, x: Union[str, unicode, bytearray], base: int = ...) -> None: ... def bit_length(self) -> int: ... def __add__(self, x: int) -> int: ... def __sub__(self, x: int) -> int: ... def __mul__(self, x: int) -> int: ... def __floordiv__(self, x: int) -> int: ... def __div__(self, x: int) -> int: ... def __truediv__(self, x: int) -> float: ... def __mod__(self, x: int) -> int: ... def __divmod__(self, x: int) -> Tuple[int, int]: ... def __radd__(self, x: int) -> int: ... def __rsub__(self, x: int) -> int: ... def __rmul__(self, x: int) -> int: ... def __rfloordiv__(self, x: int) -> int: ... def __rdiv__(self, x: int) -> int: ... def __rtruediv__(self, x: int) -> float: ... def __rmod__(self, x: int) -> int: ... def __rdivmod__(self, x: int) -> Tuple[int, int]: ... def __pow__(self, x: int) -> Any: ... # Return type can be int or float, depending on x. def __rpow__(self, x: int) -> Any: ... def __and__(self, n: int) -> int: ... def __or__(self, n: int) -> int: ... def __xor__(self, n: int) -> int: ... def __lshift__(self, n: int) -> int: ... def __rshift__(self, n: int) -> int: ... def __rand__(self, n: int) -> int: ... def __ror__(self, n: int) -> int: ... def __rxor__(self, n: int) -> int: ... def __rlshift__(self, n: int) -> int: ... def __rrshift__(self, n: int) -> int: ... def __neg__(self) -> int: ... def __pos__(self) -> int: ... def __invert__(self) -> int: ... def __eq__(self, x: object) -> bool: ... def __ne__(self, x: object) -> bool: ... def __lt__(self, x: int) -> bool: ... def __le__(self, x: int) -> bool: ... def __gt__(self, x: int) -> bool: ... def __ge__(self, x: int) -> bool: ... def __str__(self) -> str: ... def __float__(self) -> float: ... def __int__(self) -> int: ... def __abs__(self) -> int: ... def __hash__(self) -> int: ... def __nonzero__(self) -> bool: ... class float: def __init__(self, x: Union[SupportsFloat, str, unicode, bytearray] = ...) -> None: ... def as_integer_ratio(self) -> Tuple[int, int]: ... def hex(self) -> str: ... def is_integer(self) -> bool: ... @classmethod def fromhex(cls, s: str) -> float: ... def __add__(self, x: float) -> float: ... def __sub__(self, x: float) -> float: ... def __mul__(self, x: float) -> float: ... def __floordiv__(self, x: float) -> float: ... def __div__(self, x: float) -> float: ... def __truediv__(self, x: float) -> float: ... def __mod__(self, x: float) -> float: ... def __divmod__(self, x: float) -> Tuple[float, float]: ... def __pow__(self, x: float) -> float: ... def __radd__(self, x: float) -> float: ... def __rsub__(self, x: float) -> float: ... def __rmul__(self, x: float) -> float: ... def __rfloordiv__(self, x: float) -> float: ... def __rdiv__(self, x: float) -> float: ... def __rtruediv__(self, x: float) -> float: ... def __rmod__(self, x: float) -> float: ... def __rdivmod__(self, x: float) -> Tuple[float, float]: ... def __rpow__(self, x: float) -> float: ... def __eq__(self, x: object) -> bool: ... def __ne__(self, x: object) -> bool: ... def __lt__(self, x: float) -> bool: ... def __le__(self, x: float) -> bool: ... def __gt__(self, x: float) -> bool: ... def __ge__(self, x: float) -> bool: ... def __neg__(self) -> float: ... def __pos__(self) -> float: ... def __str__(self) -> str: ... def __int__(self) -> int: ... def __float__(self) -> float: ... def __abs__(self) -> float: ... def __hash__(self) -> int: ... def __nonzero__(self) -> bool: ... class complex: @overload def __init__(self, re: float = ..., im: float = ...) -> None: ... @overload def __init__(self, s: str) -> None: ... @overload def __init__(self, s: SupportsComplex) -> None: ... @property def real(self) -> float: ... @property def imag(self) -> float: ... def conjugate(self) -> complex: ... def __add__(self, x: complex) -> complex: ... def __sub__(self, x: complex) -> complex: ... def __mul__(self, x: complex) -> complex: ... def __pow__(self, x: complex) -> complex: ... def __div__(self, x: complex) -> complex: ... def __truediv__(self, x: complex) -> complex: ... def __radd__(self, x: complex) -> complex: ... def __rsub__(self, x: complex) -> complex: ... def __rmul__(self, x: complex) -> complex: ... def __rpow__(self, x: complex) -> complex: ... def __rdiv__(self, x: complex) -> complex: ... def __rtruediv__(self, x: complex) -> complex: ... def __eq__(self, x: object) -> bool: ... def __ne__(self, x: object) -> bool: ... def __neg__(self) -> complex: ... def __pos__(self) -> complex: ... def __complex__(self) -> complex: ... def __str__(self) -> str: ... def __abs__(self) -> float: ... def __hash__(self) -> int: ... def __nonzero__(self) -> bool: ... class super(object): @overload def __init__(self, t: Any, obj: Any) -> None: ... @overload def __init__(self, t: Any) -> None: ... class basestring(metaclass=ABCMeta): ... class unicode(basestring, Sequence[unicode]): @overload def __init__(self) -> None: ... @overload def __init__(self, o: object) -> None: ... @overload def __init__(self, o: str, encoding: unicode = ..., errors: unicode = ...) -> None: ... def capitalize(self) -> unicode: ... def center(self, width: int, fillchar: unicode = ...) -> unicode: ... def count(self, x: unicode) -> int: ... def decode(self, encoding: unicode = ..., errors: unicode = ...) -> unicode: ... def encode(self, encoding: unicode = ..., errors: unicode = ...) -> str: ... def endswith(self, suffix: Union[unicode, Tuple[unicode, ...]], start: int = ..., end: int = ...) -> bool: ... def expandtabs(self, tabsize: int = ...) -> unicode: ... def find(self, sub: unicode, start: int = ..., end: int = ...) -> int: ... def format(self, *args: Any, **kwargs: Any) -> unicode: ... def format_map(self, map: Mapping[unicode, Any]) -> unicode: ... def index(self, sub: unicode, start: int = ..., end: int = ...) -> int: ... def isalnum(self) -> bool: ... def isalpha(self) -> bool: ... def isdecimal(self) -> bool: ... def isdigit(self) -> bool: ... def isidentifier(self) -> bool: ... def islower(self) -> bool: ... def isnumeric(self) -> bool: ... def isprintable(self) -> bool: ... def isspace(self) -> bool: ... def istitle(self) -> bool: ... def isupper(self) -> bool: ... def join(self, iterable: Iterable[unicode]) -> unicode: ... def ljust(self, width: int, fillchar: unicode = ...) -> unicode: ... def lower(self) -> unicode: ... def lstrip(self, chars: unicode = ...) -> unicode: ... def partition(self, sep: unicode) -> Tuple[unicode, unicode, unicode]: ... def replace(self, old: unicode, new: unicode, count: int = ...) -> unicode: ... def rfind(self, sub: unicode, start: int = ..., end: int = ...) -> int: ... def rindex(self, sub: unicode, start: int = ..., end: int = ...) -> int: ... def rjust(self, width: int, fillchar: unicode = ...) -> unicode: ... def rpartition(self, sep: unicode) -> Tuple[unicode, unicode, unicode]: ... def rsplit(self, sep: Optional[unicode] = ..., maxsplit: int = ...) -> List[unicode]: ... def rstrip(self, chars: unicode = ...) -> unicode: ... def split(self, sep: Optional[unicode] = ..., maxsplit: int = ...) -> List[unicode]: ... def splitlines(self, keepends: bool = ...) -> List[unicode]: ... def startswith(self, prefix: Union[unicode, Tuple[unicode, ...]], start: int = ..., end: int = ...) -> bool: ... def strip(self, chars: unicode = ...) -> unicode: ... def swapcase(self) -> unicode: ... def title(self) -> unicode: ... def translate(self, table: Union[Dict[int, Any], unicode]) -> unicode: ... def upper(self) -> unicode: ... def zfill(self, width: int) -> unicode: ... @overload def __getitem__(self, i: int) -> unicode: ... @overload def __getitem__(self, s: slice) -> unicode: ... def __getslice__(self, start: int, stop: int) -> unicode: ... def __add__(self, s: unicode) -> unicode: ... def __mul__(self, n: int) -> unicode: ... def __rmul__(self, n: int) -> unicode: ... def __mod__(self, x: Any) -> unicode: ... def __eq__(self, x: object) -> bool: ... def __ne__(self, x: object) -> bool: ... def __lt__(self, x: unicode) -> bool: ... def __le__(self, x: unicode) -> bool: ... def __gt__(self, x: unicode) -> bool: ... def __ge__(self, x: unicode) -> bool: ... def __len__(self) -> int: ... def __contains__(self, s: object) -> bool: ... def __iter__(self) -> Iterator[unicode]: ... def __str__(self) -> str: ... def __repr__(self) -> str: ... def __int__(self) -> int: ... def __float__(self) -> float: ... def __hash__(self) -> int: ... class str(basestring, Sequence[str]): def __init__(self, object: object = ...) -> None: ... def capitalize(self) -> str: ... def center(self, width: int, fillchar: str = ...) -> str: ... def count(self, x: unicode, __start: Optional[int] = ..., __end: Optional[int] = ...) -> int: ... def decode(self, encoding: unicode = ..., errors: unicode = ...) -> unicode: ... def encode(self, encoding: unicode = ..., errors: unicode = ...) -> str: ... def endswith(self, suffix: Union[unicode, Tuple[unicode, ...]]) -> bool: ... def expandtabs(self, tabsize: int = ...) -> str: ... def find(self, sub: unicode, __start: Optional[int] = ..., __end: Optional[int] = ...) -> int: ... def format(self, *args: Any, **kwargs: Any) -> str: ... def index(self, sub: unicode, __start: Optional[int] = ..., __end: Optional[int] = ...) -> int: ... def isalnum(self) -> bool: ... def isalpha(self) -> bool: ... def isdigit(self) -> bool: ... def islower(self) -> bool: ... def isspace(self) -> bool: ... def istitle(self) -> bool: ... def isupper(self) -> bool: ... def join(self, iterable: Iterable[AnyStr]) -> AnyStr: ... def ljust(self, width: int, fillchar: str = ...) -> str: ... def lower(self) -> str: ... @overload def lstrip(self, chars: str = ...) -> str: ... @overload def lstrip(self, chars: unicode) -> unicode: ... @overload def partition(self, sep: bytearray) -> Tuple[str, bytearray, str]: ... @overload def partition(self, sep: str) -> Tuple[str, str, str]: ... @overload def partition(self, sep: unicode) -> Tuple[unicode, unicode, unicode]: ... def replace(self, old: AnyStr, new: AnyStr, count: int = ...) -> AnyStr: ... def rfind(self, sub: unicode, __start: Optional[int] = ..., __end: Optional[int] = ...) -> int: ... def rindex(self, sub: unicode, __start: Optional[int] = ..., __end: Optional[int] = ...) -> int: ... def rjust(self, width: int, fillchar: str = ...) -> str: ... @overload def rpartition(self, sep: bytearray) -> Tuple[str, bytearray, str]: ... @overload def rpartition(self, sep: str) -> Tuple[str, str, str]: ... @overload def rpartition(self, sep: unicode) -> Tuple[unicode, unicode, unicode]: ... @overload def rsplit(self, sep: Optional[str] = ..., maxsplit: int = ...) -> List[str]: ... @overload def rsplit(self, sep: unicode, maxsplit: int = ...) -> List[unicode]: ... @overload def rstrip(self, chars: str = ...) -> str: ... @overload def rstrip(self, chars: unicode) -> unicode: ... @overload def split(self, sep: Optional[str] = ..., maxsplit: int = ...) -> List[str]: ... @overload def split(self, sep: unicode, maxsplit: int = ...) -> List[unicode]: ... def splitlines(self, keepends: bool = ...) -> List[str]: ... def startswith(self, prefix: Union[unicode, Tuple[unicode, ...]]) -> bool: ... @overload def strip(self, chars: str = ...) -> str: ... @overload def strip(self, chars: unicode) -> unicode: ... def swapcase(self) -> str: ... def title(self) -> str: ... def translate(self, table: Optional[AnyStr], deletechars: AnyStr = ...) -> AnyStr: ... def upper(self) -> str: ... def zfill(self, width: int) -> str: ... def __len__(self) -> int: ... def __iter__(self) -> Iterator[str]: ... def __str__(self) -> str: ... def __repr__(self) -> str: ... def __int__(self) -> int: ... def __float__(self) -> float: ... def __hash__(self) -> int: ... @overload def __getitem__(self, i: int) -> str: ... @overload def __getitem__(self, s: slice) -> str: ... def __getslice__(self, start: int, stop: int) -> str: ... def __add__(self, s: AnyStr) -> AnyStr: ... def __mul__(self, n: int) -> str: ... def __rmul__(self, n: int) -> str: ... def __contains__(self, o: object) -> bool: ... def __eq__(self, x: object) -> bool: ... def __ne__(self, x: object) -> bool: ... def __lt__(self, x: unicode) -> bool: ... def __le__(self, x: unicode) -> bool: ... def __gt__(self, x: unicode) -> bool: ... def __ge__(self, x: unicode) -> bool: ... def __mod__(self, x: Any) -> str: ... class bytearray(MutableSequence[int]): @overload def __init__(self) -> None: ... @overload def __init__(self, x: Union[Iterable[int], str]) -> None: ... @overload def __init__(self, x: unicode, encoding: unicode, errors: unicode = ...) -> None: ... @overload def __init__(self, length: int) -> None: ... def capitalize(self) -> bytearray: ... def center(self, width: int, fillchar: str = ...) -> bytearray: ... def count(self, x: str) -> int: ... def decode(self, encoding: unicode = ..., errors: unicode = ...) -> str: ... def endswith(self, suffix: Union[str, Tuple[str, ...]]) -> bool: ... def expandtabs(self, tabsize: int = ...) -> bytearray: ... def find(self, sub: str, start: int = ..., end: int = ...) -> int: ... def index(self, sub: str, start: int = ..., end: int = ...) -> int: ... def insert(self, index: int, object: int) -> None: ... def isalnum(self) -> bool: ... def isalpha(self) -> bool: ... def isdigit(self) -> bool: ... def islower(self) -> bool: ... def isspace(self) -> bool: ... def istitle(self) -> bool: ... def isupper(self) -> bool: ... def join(self, iterable: Iterable[str]) -> bytearray: ... def ljust(self, width: int, fillchar: str = ...) -> bytearray: ... def lower(self) -> bytearray: ... def lstrip(self, chars: str = ...) -> bytearray: ... def partition(self, sep: str) -> Tuple[bytearray, bytearray, bytearray]: ... def replace(self, old: str, new: str, count: int = ...) -> bytearray: ... def rfind(self, sub: str, start: int = ..., end: int = ...) -> int: ... def rindex(self, sub: str, start: int = ..., end: int = ...) -> int: ... def rjust(self, width: int, fillchar: str = ...) -> bytearray: ... def rpartition(self, sep: str) -> Tuple[bytearray, bytearray, bytearray]: ... def rsplit(self, sep: Optional[str] = ..., maxsplit: int = ...) -> List[bytearray]: ... def rstrip(self, chars: str = ...) -> bytearray: ... def split(self, sep: Optional[str] = ..., maxsplit: int = ...) -> List[bytearray]: ... def splitlines(self, keepends: bool = ...) -> List[bytearray]: ... def startswith(self, prefix: Union[str, Tuple[str, ...]]) -> bool: ... def strip(self, chars: str = ...) -> bytearray: ... def swapcase(self) -> bytearray: ... def title(self) -> bytearray: ... def translate(self, table: str) -> bytearray: ... def upper(self) -> bytearray: ... def zfill(self, width: int) -> bytearray: ... @staticmethod def fromhex(x: str) -> bytearray: ... def __len__(self) -> int: ... def __iter__(self) -> Iterator[int]: ... def __str__(self) -> str: ... def __repr__(self) -> str: ... def __int__(self) -> int: ... def __float__(self) -> float: ... def __hash__(self) -> int: ... @overload def __getitem__(self, i: int) -> int: ... @overload def __getitem__(self, s: slice) -> bytearray: ... def __getslice__(self, start: int, stop: int) -> bytearray: ... @overload def __setitem__(self, i: int, x: int) -> None: ... @overload def __setitem__(self, s: slice, x: Union[Iterable[int], str]) -> None: ... def __setslice__(self, start: int, stop: int, x: Union[Sequence[int], str]) -> None: ... def __delitem__(self, i: Union[int, slice]) -> None: ... def __delslice__(self, start: int, stop: int) -> None: ... def __add__(self, s: str) -> bytearray: ... def __mul__(self, n: int) -> bytearray: ... def __contains__(self, o: object) -> bool: ... def __eq__(self, x: object) -> bool: ... def __ne__(self, x: object) -> bool: ... def __lt__(self, x: str) -> bool: ... def __le__(self, x: str) -> bool: ... def __gt__(self, x: str) -> bool: ... def __ge__(self, x: str) -> bool: ... class bool(int): def __init__(self, o: object = ...) -> None: ... @overload # type: ignore def __and__(self, x: bool) -> bool: ... @overload # type: ignore def __and__(self, x: int) -> int: ... @overload # type: ignore def __or__(self, x: bool) -> bool: ... @overload # type: ignore def __or__(self, x: int) -> int: ... @overload # type: ignore def __xor__(self, x: bool) -> bool: ... @overload # type: ignore def __xor__(self, x: int) -> int: ... @overload # type: ignore def __rand__(self, x: bool) -> bool: ... @overload # type: ignore def __rand__(self, x: int) -> int: ... @overload # type: ignore def __ror__(self, x: bool) -> bool: ... @overload # type: ignore def __ror__(self, x: int) -> int: ... @overload # type: ignore def __rxor__(self, x: bool) -> bool: ... @overload # type: ignore def __rxor__(self, x: int) -> int: ... class slice(object): start = ... # type: Optional[int] step = ... # type: Optional[int] stop = ... # type: Optional[int] @overload def __init__(self, stop: Optional[int]) -> None: ... @overload def __init__(self, start: Optional[int], stop: Optional[int], step: Optional[int] = ...) -> None: ... def indices(self, len: int) -> Tuple[int, int, int]: ... class tuple(Sequence[_T_co], Generic[_T_co]): def __init__(self, iterable: Iterable[_T_co] = ...) -> None: ... def __len__(self) -> int: ... def __contains__(self, x: object) -> bool: ... @overload def __getitem__(self, x: int) -> _T_co: ... @overload def __getitem__(self, x: slice) -> Tuple[_T_co, ...]: ... def __iter__(self) -> Iterator[_T_co]: ... def __lt__(self, x: Tuple[_T_co, ...]) -> bool: ... def __le__(self, x: Tuple[_T_co, ...]) -> bool: ... def __gt__(self, x: Tuple[_T_co, ...]) -> bool: ... def __ge__(self, x: Tuple[_T_co, ...]) -> bool: ... def __add__(self, x: Tuple[_T_co, ...]) -> Tuple[_T_co, ...]: ... def __mul__(self, n: int) -> Tuple[_T_co, ...]: ... def __rmul__(self, n: int) -> Tuple[_T_co, ...]: ... def count(self, x: Any) -> int: ... def index(self, x: Any) -> int: ... class function: # TODO name of the class (corresponds to Python 'function' class) __name__ = ... # type: str __module__ = ... # type: str class list(MutableSequence[_T], Generic[_T]): @overload def __init__(self) -> None: ... @overload def __init__(self, iterable: Iterable[_T]) -> None: ... def append(self, object: _T) -> None: ... def extend(self, iterable: Iterable[_T]) -> None: ... def pop(self, index: int = ...) -> _T: ... def index(self, object: _T, start: int = ..., stop: int = ...) -> int: ... def count(self, object: _T) -> int: ... def insert(self, index: int, object: _T) -> None: ... def remove(self, object: _T) -> None: ... def reverse(self) -> None: ... def sort(self, cmp: Callable[[_T, _T], Any] = ..., key: Callable[[_T], Any] = ..., reverse: bool = ...) -> None: ... def __len__(self) -> int: ... def __iter__(self) -> Iterator[_T]: ... def __str__(self) -> str: ... def __hash__(self) -> int: ... @overload def __getitem__(self, i: int) -> _T: ... @overload def __getitem__(self, s: slice) -> List[_T]: ... def __getslice__(self, start: int, stop: int) -> List[_T]: ... @overload def __setitem__(self, i: int, o: _T) -> None: ... @overload def __setitem__(self, s: slice, o: Iterable[_T]) -> None: ... def __setslice__(self, start: int, stop: int, o: Sequence[_T]) -> None: ... def __delitem__(self, i: Union[int, slice]) -> None: ... def __delslice__(self, start: int, stop: int) -> None: ... def __add__(self, x: List[_T]) -> List[_T]: ... def __iadd__(self, x: Iterable[_T]) -> List[_T]: ... def __mul__(self, n: int) -> List[_T]: ... def __rmul__(self, n: int) -> List[_T]: ... def __contains__(self, o: object) -> bool: ... def __reversed__(self) -> Iterator[_T]: ... def __gt__(self, x: List[_T]) -> bool: ... def __ge__(self, x: List[_T]) -> bool: ... def __lt__(self, x: List[_T]) -> bool: ... def __le__(self, x: List[_T]) -> bool: ... class dict(MutableMapping[_KT, _VT], Generic[_KT, _VT]): # NOTE: Keyword arguments are special. If they are used, _KT must include # str, but we have no way of enforcing it here. @overload def __init__(self, **kwargs: _VT) -> None: ... @overload def __init__(self, map: Mapping[_KT, _VT], **kwargs: _VT) -> None: ... @overload def __init__(self, iterable: Iterable[Tuple[_KT, _VT]], **kwargs: _VT) -> None: ... def __new__(cls: Type[_T1], *args: Any, **kwargs: Any) -> _T1: ... def has_key(self, k: _KT) -> bool: ... def clear(self) -> None: ... def copy(self) -> Dict[_KT, _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: ... @overload def update(self, **kwargs: _VT) -> None: ... def iterkeys(self) -> Iterator[_KT]: ... def itervalues(self) -> Iterator[_VT]: ... def iteritems(self) -> Iterator[Tuple[_KT, _VT]]: ... def viewkeys(self) -> KeysView[_KT]: ... def viewvalues(self) -> ValuesView[_VT]: ... def viewitems(self) -> ItemsView[_KT, _VT]: ... @staticmethod @overload def fromkeys(seq: Sequence[_T]) -> Dict[_T, Any]: ... # TODO: Actually a class method (mypy/issues#328) @staticmethod @overload def fromkeys(seq: Sequence[_T], value: _S) -> Dict[_T, _S]: ... def __len__(self) -> int: ... def __getitem__(self, k: _KT) -> _VT: ... def __setitem__(self, k: _KT, v: _VT) -> None: ... def __delitem__(self, v: _KT) -> None: ... def __iter__(self) -> Iterator[_KT]: ... def __str__(self) -> str: ... class set(MutableSet[_T], Generic[_T]): def __init__(self, iterable: Iterable[_T] = ...) -> None: ... def add(self, element: _T) -> None: ... def clear(self) -> None: ... def copy(self) -> Set[_T]: ... def difference(self, *s: Iterable[Any]) -> Set[_T]: ... def difference_update(self, *s: Iterable[Any]) -> None: ... def discard(self, element: _T) -> None: ... def intersection(self, *s: Iterable[Any]) -> Set[_T]: ... def intersection_update(self, *s: Iterable[Any]) -> None: ... def isdisjoint(self, s: Iterable[object]) -> bool: ... def issubset(self, s: Iterable[object]) -> bool: ... def issuperset(self, s: Iterable[object]) -> bool: ... def pop(self) -> _T: ... def remove(self, element: _T) -> None: ... def symmetric_difference(self, s: Iterable[_T]) -> Set[_T]: ... def symmetric_difference_update(self, s: Iterable[_T]) -> None: ... def union(self, *s: Iterable[_T]) -> Set[_T]: ... def update(self, *s: Iterable[_T]) -> None: ... def __len__(self) -> int: ... def __contains__(self, o: object) -> bool: ... def __iter__(self) -> Iterator[_T]: ... def __str__(self) -> str: ... def __and__(self, s: AbstractSet[object]) -> Set[_T]: ... def __iand__(self, s: AbstractSet[object]) -> Set[_T]: ... def __or__(self, s: AbstractSet[_S]) -> Set[Union[_T, _S]]: ... def __ior__(self, s: AbstractSet[_S]) -> Set[Union[_T, _S]]: ... def __sub__(self, s: AbstractSet[object]) -> Set[_T]: ... def __isub__(self, s: AbstractSet[object]) -> Set[_T]: ... def __xor__(self, s: AbstractSet[_S]) -> Set[Union[_T, _S]]: ... def __ixor__(self, s: AbstractSet[_S]) -> Set[Union[_T, _S]]: ... def __le__(self, s: AbstractSet[object]) -> bool: ... def __lt__(self, s: AbstractSet[object]) -> bool: ... def __ge__(self, s: AbstractSet[object]) -> bool: ... def __gt__(self, s: AbstractSet[object]) -> bool: ... class frozenset(AbstractSet[_T], Generic[_T]): @overload def __init__(self) -> None: ... @overload def __init__(self, iterable: Iterable[_T]) -> None: ... def copy(self) -> FrozenSet[_T]: ... def difference(self, *s: Iterable[object]) -> FrozenSet[_T]: ... def intersection(self, *s: Iterable[object]) -> FrozenSet[_T]: ... def isdisjoint(self, s: Iterable[_T]) -> bool: ... def issubset(self, s: Iterable[object]) -> bool: ... def issuperset(self, s: Iterable[object]) -> bool: ... def symmetric_difference(self, s: Iterable[_T]) -> FrozenSet[_T]: ... def union(self, *s: Iterable[_T]) -> FrozenSet[_T]: ... def __len__(self) -> int: ... def __contains__(self, o: object) -> bool: ... def __iter__(self) -> Iterator[_T]: ... def __str__(self) -> str: ... def __and__(self, s: AbstractSet[_T]) -> FrozenSet[_T]: ... def __or__(self, s: AbstractSet[_S]) -> FrozenSet[Union[_T, _S]]: ... def __sub__(self, s: AbstractSet[_T]) -> FrozenSet[_T]: ... def __xor__(self, s: AbstractSet[_S]) -> FrozenSet[Union[_T, _S]]: ... def __le__(self, s: AbstractSet[object]) -> bool: ... def __lt__(self, s: AbstractSet[object]) -> bool: ... def __ge__(self, s: AbstractSet[object]) -> bool: ... def __gt__(self, s: AbstractSet[object]) -> bool: ... class enumerate(Iterator[Tuple[int, _T]], Generic[_T]): def __init__(self, iterable: Iterable[_T], start: int = ...) -> None: ... def __iter__(self) -> Iterator[Tuple[int, _T]]: ... def next(self) -> Tuple[int, _T]: ... # TODO __getattribute__ class xrange(Sized, Iterable[int], Reversible[int]): @overload def __init__(self, stop: int) -> None: ... @overload def __init__(self, start: int, stop: int, step: int = ...) -> None: ... def __len__(self) -> int: ... def __iter__(self) -> Iterator[int]: ... def __getitem__(self, i: int) -> int: ... def __reversed__(self) -> Iterator[int]: ... class property(object): def __init__(self, fget: Optional[Callable[[Any], Any]] = ..., fset: Optional[Callable[[Any, Any], None]] = ..., fdel: Optional[Callable[[Any], None]] = ..., doc: Optional[str] = ...) -> None: ... def getter(self, fget: Callable[[Any], Any]) -> property: ... def setter(self, fset: Callable[[Any, Any], None]) -> property: ... def deleter(self, fdel: Callable[[Any], None]) -> property: ... def __get__(self, obj: Any, type: Optional[type] = ...) -> Any: ... def __set__(self, obj: Any, value: Any) -> None: ... def __delete__(self, obj: Any) -> None: ... def fget(self) -> Any: ... def fset(self, value: Any) -> None: ... def fdel(self) -> None: ... long = int bytes = str NotImplemented = ... # type: Any def abs(n: SupportsAbs[_T]) -> _T: ... def all(i: Iterable[object]) -> bool: ... def any(i: Iterable[object]) -> bool: ... def bin(number: int) -> str: ... def callable(o: object) -> bool: ... def chr(code: int) -> str: ... def compile(source: Any, filename: unicode, mode: str, flags: int = ..., dont_inherit: int = ...) -> Any: ... def delattr(o: Any, name: unicode) -> None: ... def dir(o: object = ...) -> List[str]: ... @overload def divmod(a: int, b: int) -> Tuple[int, int]: ... @overload def divmod(a: float, b: float) -> Tuple[float, float]: ... def exit(code: Any = ...) -> NoReturn: ... @overload def filter(function: None, iterable: Iterable[Optional[_T]]) -> List[_T]: ... @overload def filter(function: Callable[[_T], Any], iterable: Iterable[_T]) -> List[_T]: ... def format(o: object, format_spec: str = ...) -> str: ... # TODO unicode def getattr(o: Any, name: unicode, default: Optional[Any] = ...) -> Any: ... def hasattr(o: Any, name: unicode) -> bool: ... def hash(o: object) -> int: ... def hex(i: int) -> str: ... # TODO __index__ def id(o: object) -> int: ... def input(prompt: Any = ...) -> Any: ... def intern(string: str) -> str: ... @overload def iter(iterable: Iterable[_T]) -> Iterator[_T]: ... @overload def iter(function: Callable[[], _T], sentinel: _T) -> Iterator[_T]: ... def isinstance(o: object, t: Union[type, Tuple[Union[type, Tuple], ...]]) -> bool: ... def issubclass(cls: type, classinfo: Union[type, Tuple[Union[type, Tuple], ...]]) -> bool: ... def len(o: Sized) -> int: ... @overload def map(func: None, iter1: Iterable[_T1]) -> List[_T1]: ... @overload def map(func: None, iter1: Iterable[_T1], iter2: Iterable[_T2]) -> List[Tuple[_T1, _T2]]: ... @overload def map(func: None, iter1: Iterable[_T1], iter2: Iterable[_T2], iter3: Iterable[_T3]) -> List[Tuple[_T1, _T2, _T3]]: ... @overload def map(func: None, iter1: Iterable[_T1], iter2: Iterable[_T2], iter3: Iterable[_T3], iter4: Iterable[_T4]) -> List[Tuple[_T1, _T2, _T3, _T4]]: ... @overload def map(func: None, iter1: Iterable[_T1], iter2: Iterable[_T2], iter3: Iterable[_T3], iter4: Iterable[_T4], iter5: Iterable[_T5]) -> List[Tuple[_T1, _T2, _T3, _T4, _T5]]: ... @overload def map(func: None, iter1: Iterable[Any], iter2: Iterable[Any], iter3: Iterable[Any], iter4: Iterable[Any], iter5: Iterable[Any], iter6: Iterable[Any], *iterables: Iterable[Any]) -> List[Tuple[Any, ...]]: ... @overload def map(func: Callable[[_T1], _S], iter1: Iterable[_T1]) -> List[_S]: ... @overload def map(func: Callable[[_T1, _T2], _S], iter1: Iterable[_T1], iter2: Iterable[_T2]) -> List[_S]: ... @overload def map(func: Callable[[_T1, _T2, _T3], _S], iter1: Iterable[_T1], iter2: Iterable[_T2], iter3: Iterable[_T3]) -> List[_S]: ... @overload def map(func: Callable[[_T1, _T2, _T3, _T4], _S], iter1: Iterable[_T1], iter2: Iterable[_T2], iter3: Iterable[_T3], iter4: Iterable[_T4]) -> List[_S]: ... @overload def map(func: Callable[[_T1, _T2, _T3, _T4, _T5], _S], iter1: Iterable[_T1], iter2: Iterable[_T2], iter3: Iterable[_T3], iter4: Iterable[_T4], iter5: Iterable[_T5]) -> List[_S]: ... @overload def map(func: Callable[..., _S], iter1: Iterable[Any], iter2: Iterable[Any], iter3: Iterable[Any], iter4: Iterable[Any], iter5: Iterable[Any], iter6: Iterable[Any], *iterables: Iterable[Any]) -> List[_S]: ... @overload def max(arg1: _T, arg2: _T, *args: _T, key: Callable[[_T], Any] = ...) -> _T: ... @overload def max(iterable: Iterable[_T], key: Callable[[_T], Any] = ...) -> _T: ... @overload def min(arg1: _T, arg2: _T, *args: _T, key: Callable[[_T], Any] = ...) -> _T: ... @overload def min(iterable: Iterable[_T], key: Callable[[_T], Any] = ...) -> _T: ... @overload def next(i: Iterator[_T]) -> _T: ... @overload def next(i: Iterator[_T], default: _VT) -> Union[_T, _VT]: ... def oct(i: int) -> str: ... # TODO __index__ @overload def open(file: str, mode: unicode = ..., buffering: int = ...) -> BinaryIO: ... @overload def open(file: unicode, mode: unicode = ..., buffering: int = ...) -> BinaryIO: ... @overload def open(file: int, mode: unicode = ..., buffering: int = ...) -> BinaryIO: ... def ord(c: unicode) -> int: ... # This is only available after from __future__ import print_function. def print(*values: Any, sep: unicode = ..., end: unicode = ..., file: IO[Any] = ...) -> None: ... @overload def pow(x: int, y: int) -> Any: ... # The return type can be int or float, depending on y. @overload def pow(x: int, y: int, z: int) -> Any: ... @overload def pow(x: float, y: float) -> float: ... @overload def pow(x: float, y: float, z: float) -> float: ... def quit(code: int = ...) -> None: ... def range(x: int, y: int = ..., step: int = ...) -> List[int]: ... def raw_input(prompt: Any = ...) -> str: ... @overload def reduce(function: Callable[[_T, _S], _T], iterable: Iterable[_S], initializer: _T) -> _T: ... @overload def reduce(function: Callable[[_T, _T], _T], iterable: Iterable[_T]) -> _T: ... def reload(module: Any) -> Any: ... @overload def reversed(object: Sequence[_T]) -> Iterator[_T]: ... @overload def reversed(object: Reversible[_T]) -> Iterator[_T]: ... def repr(o: object) -> str: ... @overload def round(number: float) -> float: ... @overload def round(number: float, ndigits: int) -> float: ... # Always return a float if given ndigits. @overload def round(number: SupportsRound[_T]) -> _T: ... @overload def round(number: SupportsRound[_T], ndigits: int) -> _T: ... def setattr(object: Any, name: unicode, value: Any) -> None: ... def sorted(iterable: Iterable[_T], *, cmp: Callable[[_T, _T], int] = ..., key: Callable[[_T], Any] = ..., reverse: bool = ...) -> List[_T]: ... @overload def sum(iterable: Iterable[_T]) -> Union[_T, int]: ... @overload def sum(iterable: Iterable[_T], start: _S) -> Union[_T, _S]: ... def unichr(i: int) -> unicode: ... def vars(object: Any = ...) -> Dict[str, Any]: ... @overload def zip(iter1: Iterable[_T1]) -> List[Tuple[_T1]]: ... @overload def zip(iter1: Iterable[_T1], iter2: Iterable[_T2]) -> List[Tuple[_T1, _T2]]: ... @overload def zip(iter1: Iterable[_T1], iter2: Iterable[_T2], iter3: Iterable[_T3]) -> List[Tuple[_T1, _T2, _T3]]: ... @overload def zip(iter1: Iterable[_T1], iter2: Iterable[_T2], iter3: Iterable[_T3], iter4: Iterable[_T4]) -> List[Tuple[_T1, _T2, _T3, _T4]]: ... @overload def zip(iter1: Iterable[_T1], iter2: Iterable[_T2], iter3: Iterable[_T3], iter4: Iterable[_T4], iter5: Iterable[_T5]) -> List[Tuple[_T1, _T2, _T3, _T4, _T5]]: ... @overload def zip(iter1: Iterable[Any], iter2: Iterable[Any], iter3: Iterable[Any], iter4: Iterable[Any], iter5: Iterable[Any], iter6: Iterable[Any], *iterables: Iterable[Any]) -> List[Tuple[Any, ...]]: ... def __import__(name: unicode, globals: Dict[str, Any] = ..., locals: Dict[str, Any] = ..., fromlist: List[str] = ..., level: int = ...) -> Any: ... def globals() -> Dict[str, Any]: ... def locals() -> Dict[str, Any]: ... # Actually the type of Ellipsis is , but since it's # not exposed anywhere under that name, we make it private here. class ellipsis: ... Ellipsis = ... # type: ellipsis # TODO: buffer support is incomplete; e.g. some_string.startswith(some_buffer) doesn't type check. _AnyBuffer = TypeVar('_AnyBuffer', str, unicode, bytearray, buffer) class buffer(Sized): def __init__(self, object: _AnyBuffer, offset: int = ..., size: int = ...) -> None: ... def __add__(self, other: _AnyBuffer) -> str: ... def __cmp__(self, other: _AnyBuffer) -> bool: ... def __getitem__(self, key: Union[int, slice]) -> str: ... def __getslice__(self, i: int, j: int) -> str: ... def __len__(self) -> int: ... def __mul__(self, x: int) -> str: ... class memoryview(Sized, Container[bytes]): format = ... # type: str itemsize = ... # type: int shape = ... # type: Optional[Tuple[int, ...]] strides = ... # type: Optional[Tuple[int, ...]] suboffsets = ... # type: Optional[Tuple[int, ...]] readonly = ... # type: bool ndim = ... # type: int def __init__(self, obj: Union[str, bytearray, buffer, memoryview]) -> None: ... @overload def __getitem__(self, i: int) -> bytes: ... @overload def __getitem__(self, s: slice) -> memoryview: ... def __contains__(self, x: object) -> bool: ... def __iter__(self) -> Iterator[bytes]: ... def __len__(self) -> int: ... @overload def __setitem__(self, i: int, o: bytes) -> None: ... @overload def __setitem__(self, s: slice, o: Sequence[bytes]) -> None: ... @overload def __setitem__(self, s: slice, o: memoryview) -> None: ... def tobytes(self) -> bytes: ... def tolist(self) -> List[int]: ... class BaseException(object): args = ... # type: Tuple[Any, ...] message = ... # type: Any def __init__(self, *args: object, **kwargs: object) -> None: ... def __getitem__(self, i: int) -> Any: ... def __getslice__(self, start: int, stop: int) -> Tuple[Any, ...]: ... class GeneratorExit(BaseException): ... class KeyboardInterrupt(BaseException): ... class SystemExit(BaseException): code = 0 class Exception(BaseException): ... class StopIteration(Exception): ... class StandardError(Exception): ... class ArithmeticError(StandardError): ... class BufferError(StandardError): ... class EnvironmentError(StandardError): errno = 0 strerror = ... # type: str # TODO can this be unicode? filename = ... # type: str class LookupError(StandardError): ... class RuntimeError(StandardError): ... class ValueError(StandardError): ... class AssertionError(StandardError): ... class AttributeError(StandardError): ... class EOFError(StandardError): ... class FloatingPointError(ArithmeticError): ... class IOError(EnvironmentError): ... class ImportError(StandardError): ... class IndexError(LookupError): ... class KeyError(LookupError): ... class MemoryError(StandardError): ... class NameError(StandardError): ... class NotImplementedError(RuntimeError): ... class OSError(EnvironmentError): ... class WindowsError(OSError): winerror = ... # type: int class OverflowError(ArithmeticError): ... class ReferenceError(StandardError): ... class SyntaxError(StandardError): msg = ... # type: str lineno = ... # type: int offset = ... # type: int text = ... # type: str filename = ... # type: str class IndentationError(SyntaxError): ... class TabError(IndentationError): ... class SystemError(StandardError): ... class TypeError(StandardError): ... class UnboundLocalError(NameError): ... class UnicodeError(ValueError): ... class UnicodeDecodeError(UnicodeError): encoding: bytes object: bytes start: int end: int reason: bytes def __init__(self, __encoding: bytes, __object: bytes, __start: int, __end: int, __reason: bytes) -> None: ... class UnicodeEncodeError(UnicodeError): encoding: bytes object: unicode start: int end: int reason: bytes def __init__(self, __encoding: bytes, __object: unicode, __start: int, __end: int, __reason: bytes) -> None: ... class UnicodeTranslateError(UnicodeError): ... class ZeroDivisionError(ArithmeticError): ... class Warning(Exception): ... class UserWarning(Warning): ... class DeprecationWarning(Warning): ... class SyntaxWarning(Warning): ... class RuntimeWarning(Warning): ... class FutureWarning(Warning): ... class PendingDeprecationWarning(Warning): ... class ImportWarning(Warning): ... class UnicodeWarning(Warning): ... class BytesWarning(Warning): ... def eval(s: Union[str, unicode], globals: Dict[str, Any] = ..., locals: Dict[str, Any] = ...) -> Any: ... def exec(object: str, globals: Optional[Dict[str, Any]] = ..., locals: Optional[Dict[str, Any]] = ...) -> Any: ... # TODO code object as source def cmp(x: Any, y: Any) -> int: ... def execfile(filename: str, globals: Optional[Dict[str, Any]] = ..., locals: Optional[Dict[str, Any]] = ...) -> None: ... class file(BinaryIO): @overload def __init__(self, file: str, mode: str = ..., buffering: int = ...) -> None: ... @overload def __init__(self, file: unicode, mode: str = ..., buffering: int = ...) -> None: ... @overload def __init__(self, file: int, mode: str = ..., buffering: int = ...) -> None: ... def __iter__(self) -> Iterator[str]: ... def next(self) -> str: ... def read(self, n: int = ...) -> str: ... def __enter__(self) -> BinaryIO: ... def __exit__(self, t: Optional[type] = ..., exc: Optional[BaseException] = ..., tb: Optional[Any] = ...) -> bool: ... def flush(self) -> None: ... def fileno(self) -> int: ... def isatty(self) -> bool: ... def close(self) -> None: ... def readable(self) -> bool: ... def writable(self) -> bool: ... def seekable(self) -> bool: ... def seek(self, offset: int, whence: int = ...) -> int: ... def tell(self) -> int: ... def readline(self, limit: int = ...) -> str: ... def readlines(self, hint: int = ...) -> List[str]: ... def write(self, data: str) -> int: ... def writelines(self, data: Iterable[str]) -> None: ... def truncate(self, pos: Optional[int] = ...) -> int: ... # Very old builtins def apply(func: Callable[..., _T], args: Optional[Sequence[Any]] = ..., kwds: Optional[Mapping[str, Any]] = ...) -> _T: ... _N = TypeVar('_N', bool, int, float, complex) def coerce(x: _N, y: _N) -> Tuple[_N, _N]: ...