| from typing import Any, Final, TypeVar | |
| from typing import Literal as L | |
| import numpy as np | |
| from ._polybase import ABCPolyBase | |
| from ._polytypes import ( | |
| _Array1, | |
| _Array2, | |
| _FuncBinOp, | |
| _FuncCompanion, | |
| _FuncDer, | |
| _FuncFit, | |
| _FuncFromRoots, | |
| _FuncGauss, | |
| _FuncInteg, | |
| _FuncLine, | |
| _FuncPoly2Ortho, | |
| _FuncPow, | |
| _FuncRoots, | |
| _FuncUnOp, | |
| _FuncVal, | |
| _FuncVal2D, | |
| _FuncVal3D, | |
| _FuncValFromRoots, | |
| _FuncVander, | |
| _FuncVander2D, | |
| _FuncVander3D, | |
| _FuncWeight, | |
| ) | |
| from .polyutils import trimcoef as hermetrim | |
| __all__ = [ | |
| "hermezero", | |
| "hermeone", | |
| "hermex", | |
| "hermedomain", | |
| "hermeline", | |
| "hermeadd", | |
| "hermesub", | |
| "hermemulx", | |
| "hermemul", | |
| "hermediv", | |
| "hermepow", | |
| "hermeval", | |
| "hermeder", | |
| "hermeint", | |
| "herme2poly", | |
| "poly2herme", | |
| "hermefromroots", | |
| "hermevander", | |
| "hermefit", | |
| "hermetrim", | |
| "hermeroots", | |
| "HermiteE", | |
| "hermeval2d", | |
| "hermeval3d", | |
| "hermegrid2d", | |
| "hermegrid3d", | |
| "hermevander2d", | |
| "hermevander3d", | |
| "hermecompanion", | |
| "hermegauss", | |
| "hermeweight", | |
| ] | |
| poly2herme: _FuncPoly2Ortho[L["poly2herme"]] | |
| herme2poly: _FuncUnOp[L["herme2poly"]] | |
| hermedomain: Final[_Array2[np.float64]] | |
| hermezero: Final[_Array1[np.int_]] | |
| hermeone: Final[_Array1[np.int_]] | |
| hermex: Final[_Array2[np.int_]] | |
| hermeline: _FuncLine[L["hermeline"]] | |
| hermefromroots: _FuncFromRoots[L["hermefromroots"]] | |
| hermeadd: _FuncBinOp[L["hermeadd"]] | |
| hermesub: _FuncBinOp[L["hermesub"]] | |
| hermemulx: _FuncUnOp[L["hermemulx"]] | |
| hermemul: _FuncBinOp[L["hermemul"]] | |
| hermediv: _FuncBinOp[L["hermediv"]] | |
| hermepow: _FuncPow[L["hermepow"]] | |
| hermeder: _FuncDer[L["hermeder"]] | |
| hermeint: _FuncInteg[L["hermeint"]] | |
| hermeval: _FuncVal[L["hermeval"]] | |
| hermeval2d: _FuncVal2D[L["hermeval2d"]] | |
| hermeval3d: _FuncVal3D[L["hermeval3d"]] | |
| hermevalfromroots: _FuncValFromRoots[L["hermevalfromroots"]] | |
| hermegrid2d: _FuncVal2D[L["hermegrid2d"]] | |
| hermegrid3d: _FuncVal3D[L["hermegrid3d"]] | |
| hermevander: _FuncVander[L["hermevander"]] | |
| hermevander2d: _FuncVander2D[L["hermevander2d"]] | |
| hermevander3d: _FuncVander3D[L["hermevander3d"]] | |
| hermefit: _FuncFit[L["hermefit"]] | |
| hermecompanion: _FuncCompanion[L["hermecompanion"]] | |
| hermeroots: _FuncRoots[L["hermeroots"]] | |
| _ND = TypeVar("_ND", bound=Any) | |
| def _normed_hermite_e_n( | |
| x: np.ndarray[_ND, np.dtype[np.float64]], | |
| n: int | np.intp, | |
| ) -> np.ndarray[_ND, np.dtype[np.float64]]: ... | |
| hermegauss: _FuncGauss[L["hermegauss"]] | |
| hermeweight: _FuncWeight[L["hermeweight"]] | |
| class HermiteE(ABCPolyBase[L["He"]]): ... | |