| | from collections.abc import Callable, Iterable |
| | from typing import ( |
| | Any, |
| | Concatenate, |
| | Final, |
| | Literal as L, |
| | TypeVar, |
| | overload, |
| | ) |
| |
|
| | import numpy as np |
| | import numpy.typing as npt |
| | from numpy._typing import _IntLike_co |
| |
|
| | from ._polybase import ABCPolyBase |
| | from ._polytypes import ( |
| | _SeriesLikeCoef_co, |
| | _Array1, |
| | _Series, |
| | _Array2, |
| | _CoefSeries, |
| | _FuncBinOp, |
| | _FuncCompanion, |
| | _FuncDer, |
| | _FuncFit, |
| | _FuncFromRoots, |
| | _FuncGauss, |
| | _FuncInteg, |
| | _FuncLine, |
| | _FuncPoly2Ortho, |
| | _FuncPow, |
| | _FuncPts, |
| | _FuncRoots, |
| | _FuncUnOp, |
| | _FuncVal, |
| | _FuncVal2D, |
| | _FuncVal3D, |
| | _FuncValFromRoots, |
| | _FuncVander, |
| | _FuncVander2D, |
| | _FuncVander3D, |
| | _FuncWeight, |
| | ) |
| | from .polyutils import trimcoef as chebtrim |
| |
|
| | __all__ = [ |
| | "chebzero", |
| | "chebone", |
| | "chebx", |
| | "chebdomain", |
| | "chebline", |
| | "chebadd", |
| | "chebsub", |
| | "chebmulx", |
| | "chebmul", |
| | "chebdiv", |
| | "chebpow", |
| | "chebval", |
| | "chebder", |
| | "chebint", |
| | "cheb2poly", |
| | "poly2cheb", |
| | "chebfromroots", |
| | "chebvander", |
| | "chebfit", |
| | "chebtrim", |
| | "chebroots", |
| | "chebpts1", |
| | "chebpts2", |
| | "Chebyshev", |
| | "chebval2d", |
| | "chebval3d", |
| | "chebgrid2d", |
| | "chebgrid3d", |
| | "chebvander2d", |
| | "chebvander3d", |
| | "chebcompanion", |
| | "chebgauss", |
| | "chebweight", |
| | "chebinterpolate", |
| | ] |
| |
|
| | _SCT = TypeVar("_SCT", bound=np.number[Any] | np.object_) |
| | def _cseries_to_zseries(c: npt.NDArray[_SCT]) -> _Series[_SCT]: ... |
| | def _zseries_to_cseries(zs: npt.NDArray[_SCT]) -> _Series[_SCT]: ... |
| | def _zseries_mul( |
| | z1: npt.NDArray[_SCT], |
| | z2: npt.NDArray[_SCT], |
| | ) -> _Series[_SCT]: ... |
| | def _zseries_div( |
| | z1: npt.NDArray[_SCT], |
| | z2: npt.NDArray[_SCT], |
| | ) -> _Series[_SCT]: ... |
| | def _zseries_der(zs: npt.NDArray[_SCT]) -> _Series[_SCT]: ... |
| | def _zseries_int(zs: npt.NDArray[_SCT]) -> _Series[_SCT]: ... |
| |
|
| | poly2cheb: _FuncPoly2Ortho[L["poly2cheb"]] |
| | cheb2poly: _FuncUnOp[L["cheb2poly"]] |
| |
|
| | chebdomain: Final[_Array2[np.float64]] |
| | chebzero: Final[_Array1[np.int_]] |
| | chebone: Final[_Array1[np.int_]] |
| | chebx: Final[_Array2[np.int_]] |
| |
|
| | chebline: _FuncLine[L["chebline"]] |
| | chebfromroots: _FuncFromRoots[L["chebfromroots"]] |
| | chebadd: _FuncBinOp[L["chebadd"]] |
| | chebsub: _FuncBinOp[L["chebsub"]] |
| | chebmulx: _FuncUnOp[L["chebmulx"]] |
| | chebmul: _FuncBinOp[L["chebmul"]] |
| | chebdiv: _FuncBinOp[L["chebdiv"]] |
| | chebpow: _FuncPow[L["chebpow"]] |
| | chebder: _FuncDer[L["chebder"]] |
| | chebint: _FuncInteg[L["chebint"]] |
| | chebval: _FuncVal[L["chebval"]] |
| | chebval2d: _FuncVal2D[L["chebval2d"]] |
| | chebval3d: _FuncVal3D[L["chebval3d"]] |
| | chebvalfromroots: _FuncValFromRoots[L["chebvalfromroots"]] |
| | chebgrid2d: _FuncVal2D[L["chebgrid2d"]] |
| | chebgrid3d: _FuncVal3D[L["chebgrid3d"]] |
| | chebvander: _FuncVander[L["chebvander"]] |
| | chebvander2d: _FuncVander2D[L["chebvander2d"]] |
| | chebvander3d: _FuncVander3D[L["chebvander3d"]] |
| | chebfit: _FuncFit[L["chebfit"]] |
| | chebcompanion: _FuncCompanion[L["chebcompanion"]] |
| | chebroots: _FuncRoots[L["chebroots"]] |
| | chebgauss: _FuncGauss[L["chebgauss"]] |
| | chebweight: _FuncWeight[L["chebweight"]] |
| | chebpts1: _FuncPts[L["chebpts1"]] |
| | chebpts2: _FuncPts[L["chebpts2"]] |
| |
|
| | |
| | _RT = TypeVar("_RT", bound=np.number[Any] | np.bool | np.object_) |
| | @overload |
| | def chebinterpolate( |
| | func: np.ufunc, |
| | deg: _IntLike_co, |
| | args: tuple[()] = ..., |
| | ) -> npt.NDArray[np.float64 | np.complex128 | np.object_]: ... |
| | @overload |
| | def chebinterpolate( |
| | func: Callable[[npt.NDArray[np.float64]], _RT], |
| | deg: _IntLike_co, |
| | args: tuple[()] = ..., |
| | ) -> npt.NDArray[_RT]: ... |
| | @overload |
| | def chebinterpolate( |
| | func: Callable[Concatenate[npt.NDArray[np.float64], ...], _RT], |
| | deg: _IntLike_co, |
| | args: Iterable[Any], |
| | ) -> npt.NDArray[_RT]: ... |
| |
|
| | _Self = TypeVar("_Self", bound=object) |
| |
|
| | class Chebyshev(ABCPolyBase[L["T"]]): |
| | @overload |
| | @classmethod |
| | def interpolate( |
| | cls: type[_Self], |
| | /, |
| | func: Callable[[npt.NDArray[np.float64]], _CoefSeries], |
| | deg: _IntLike_co, |
| | domain: None | _SeriesLikeCoef_co = ..., |
| | args: tuple[()] = ..., |
| | ) -> _Self: ... |
| | @overload |
| | @classmethod |
| | def interpolate( |
| | cls: type[_Self], |
| | /, |
| | func: Callable[ |
| | Concatenate[npt.NDArray[np.float64], ...], |
| | _CoefSeries, |
| | ], |
| | deg: _IntLike_co, |
| | domain: None | _SeriesLikeCoef_co = ..., |
| | *, |
| | args: Iterable[Any], |
| | ) -> _Self: ... |
| | @overload |
| | @classmethod |
| | def interpolate( |
| | cls: type[_Self], |
| | func: Callable[ |
| | Concatenate[npt.NDArray[np.float64], ...], |
| | _CoefSeries, |
| | ], |
| | deg: _IntLike_co, |
| | domain: None | _SeriesLikeCoef_co, |
| | args: Iterable[Any], |
| | /, |
| | ) -> _Self: ... |
| |
|
