from datetime import timedelta from typing import ( ClassVar, Literal, TypeVar, overload, ) import numpy as np from pandas._libs.tslibs import ( NaTType, Tick, ) from pandas._typing import npt # This should be kept consistent with the keys in the dict timedelta_abbrevs # in pandas/_libs/tslibs/timedeltas.pyx UnitChoices = Literal[ "Y", "y", "M", "W", "w", "D", "d", "days", "day", "hours", "hour", "hr", "h", "m", "minute", "min", "minutes", "t", "s", "seconds", "sec", "second", "ms", "milliseconds", "millisecond", "milli", "millis", "l", "us", "microseconds", "microsecond", "µs", "micro", "micros", "u", "ns", "nanoseconds", "nano", "nanos", "nanosecond", "n", ] _S = TypeVar("_S", bound=timedelta) def ints_to_pytimedelta( arr: npt.NDArray[np.timedelta64], box: bool = ..., ) -> npt.NDArray[np.object_]: ... def array_to_timedelta64( values: npt.NDArray[np.object_], unit: str | None = ..., errors: str = ..., ) -> np.ndarray: ... # np.ndarray[m8ns] def parse_timedelta_unit(unit: str | None) -> UnitChoices: ... def delta_to_nanoseconds( delta: np.timedelta64 | timedelta | Tick, reso: int = ..., # NPY_DATETIMEUNIT round_ok: bool = ..., ) -> int: ... def floordiv_object_array( left: np.ndarray, right: npt.NDArray[np.object_] ) -> np.ndarray: ... def truediv_object_array( left: np.ndarray, right: npt.NDArray[np.object_] ) -> np.ndarray: ... class Timedelta(timedelta): _creso: int min: ClassVar[Timedelta] max: ClassVar[Timedelta] resolution: ClassVar[Timedelta] value: int # np.int64 _value: int # np.int64 # error: "__new__" must return a class instance (got "Union[Timestamp, NaTType]") def __new__( # type: ignore[misc] cls: type[_S], value=..., unit: str | None = ..., **kwargs: float | np.integer | np.floating, ) -> _S | NaTType: ... @classmethod def _from_value_and_reso(cls, value: np.int64, reso: int) -> Timedelta: ... @property def days(self) -> int: ... @property def seconds(self) -> int: ... @property def microseconds(self) -> int: ... def total_seconds(self) -> float: ... def to_pytimedelta(self) -> timedelta: ... def to_timedelta64(self) -> np.timedelta64: ... @property def asm8(self) -> np.timedelta64: ... # TODO: round/floor/ceil could return NaT? def round(self: _S, freq: str) -> _S: ... def floor(self: _S, freq: str) -> _S: ... def ceil(self: _S, freq: str) -> _S: ... @property def resolution_string(self) -> str: ... def __add__(self, other: timedelta) -> Timedelta: ... def __radd__(self, other: timedelta) -> Timedelta: ... def __sub__(self, other: timedelta) -> Timedelta: ... def __rsub__(self, other: timedelta) -> Timedelta: ... def __neg__(self) -> Timedelta: ... def __pos__(self) -> Timedelta: ... def __abs__(self) -> Timedelta: ... def __mul__(self, other: float) -> Timedelta: ... def __rmul__(self, other: float) -> Timedelta: ... # error: Signature of "__floordiv__" incompatible with supertype "timedelta" @overload # type: ignore[override] def __floordiv__(self, other: timedelta) -> int: ... @overload def __floordiv__(self, other: float) -> Timedelta: ... @overload def __floordiv__( self, other: npt.NDArray[np.timedelta64] ) -> npt.NDArray[np.intp]: ... @overload def __floordiv__( self, other: npt.NDArray[np.number] ) -> npt.NDArray[np.timedelta64] | Timedelta: ... @overload def __rfloordiv__(self, other: timedelta | str) -> int: ... @overload def __rfloordiv__(self, other: None | NaTType) -> NaTType: ... @overload def __rfloordiv__(self, other: np.ndarray) -> npt.NDArray[np.timedelta64]: ... @overload def __truediv__(self, other: timedelta) -> float: ... @overload def __truediv__(self, other: float) -> Timedelta: ... def __mod__(self, other: timedelta) -> Timedelta: ... def __divmod__(self, other: timedelta) -> tuple[int, Timedelta]: ... def __le__(self, other: timedelta) -> bool: ... def __lt__(self, other: timedelta) -> bool: ... def __ge__(self, other: timedelta) -> bool: ... def __gt__(self, other: timedelta) -> bool: ... def __hash__(self) -> int: ... def isoformat(self) -> str: ... def to_numpy(self) -> np.timedelta64: ... def view(self, dtype: npt.DTypeLike = ...) -> object: ... @property def unit(self) -> str: ... def as_unit(self, unit: str, round_ok: bool = ...) -> Timedelta: ...