관리-도구
편집 파일: lib_polynomial.pyi
import numpy as np import numpy.typing as npt AR_b: npt.NDArray[np.bool_] AR_u4: npt.NDArray[np.uint32] AR_i8: npt.NDArray[np.int64] AR_f8: npt.NDArray[np.float64] AR_c16: npt.NDArray[np.complex128] AR_O: npt.NDArray[np.object_] poly_obj: np.poly1d reveal_type(poly_obj.variable) # E: str reveal_type(poly_obj.order) # E: int reveal_type(poly_obj.o) # E: int reveal_type(poly_obj.roots) # E: ndarray[Any, dtype[Any]] reveal_type(poly_obj.r) # E: ndarray[Any, dtype[Any]] reveal_type(poly_obj.coeffs) # E: ndarray[Any, dtype[Any]] reveal_type(poly_obj.c) # E: ndarray[Any, dtype[Any]] reveal_type(poly_obj.coef) # E: ndarray[Any, dtype[Any]] reveal_type(poly_obj.coefficients) # E: ndarray[Any, dtype[Any]] reveal_type(poly_obj.__hash__) # E: None reveal_type(poly_obj(1)) # E: Any reveal_type(poly_obj([1])) # E: ndarray[Any, dtype[Any]] reveal_type(poly_obj(poly_obj)) # E: poly1d reveal_type(len(poly_obj)) # E: int reveal_type(-poly_obj) # E: poly1d reveal_type(+poly_obj) # E: poly1d reveal_type(poly_obj * 5) # E: poly1d reveal_type(5 * poly_obj) # E: poly1d reveal_type(poly_obj + 5) # E: poly1d reveal_type(5 + poly_obj) # E: poly1d reveal_type(poly_obj - 5) # E: poly1d reveal_type(5 - poly_obj) # E: poly1d reveal_type(poly_obj**1) # E: poly1d reveal_type(poly_obj**1.0) # E: poly1d reveal_type(poly_obj / 5) # E: poly1d reveal_type(5 / poly_obj) # E: poly1d reveal_type(poly_obj[0]) # E: Any poly_obj[0] = 5 reveal_type(iter(poly_obj)) # E: Iterator[Any] reveal_type(poly_obj.deriv()) # E: poly1d reveal_type(poly_obj.integ()) # E: poly1d reveal_type(np.poly(poly_obj)) # E: ndarray[Any, dtype[floating[Any]]] reveal_type(np.poly(AR_f8)) # E: ndarray[Any, dtype[floating[Any]]] reveal_type(np.poly(AR_c16)) # E: ndarray[Any, dtype[floating[Any]]] reveal_type(np.polyint(poly_obj)) # E: poly1d reveal_type(np.polyint(AR_f8)) # E: ndarray[Any, dtype[floating[Any]]] reveal_type(np.polyint(AR_f8, k=AR_c16)) # E: ndarray[Any, dtype[complexfloating[Any, Any]]] reveal_type(np.polyint(AR_O, m=2)) # E: ndarray[Any, dtype[object_]] reveal_type(np.polyder(poly_obj)) # E: poly1d reveal_type(np.polyder(AR_f8)) # E: ndarray[Any, dtype[floating[Any]]] reveal_type(np.polyder(AR_c16)) # E: ndarray[Any, dtype[complexfloating[Any, Any]]] reveal_type(np.polyder(AR_O, m=2)) # E: ndarray[Any, dtype[object_]] reveal_type(np.polyfit(AR_f8, AR_f8, 2)) # E: ndarray[Any, dtype[{float64}]] reveal_type(np.polyfit(AR_f8, AR_i8, 1, full=True)) # E: Tuple[ndarray[Any, dtype[{float64}]], ndarray[Any, dtype[{float64}]], ndarray[Any, dtype[signedinteger[typing._32Bit]]], ndarray[Any, dtype[{float64}]], ndarray[Any, dtype[{float64}]]] reveal_type(np.polyfit(AR_u4, AR_f8, 1.0, cov="unscaled")) # E: Tuple[ndarray[Any, dtype[{float64}]], ndarray[Any, dtype[{float64}]]] reveal_type(np.polyfit(AR_c16, AR_f8, 2)) # E: ndarray[Any, dtype[{complex128}]] reveal_type(np.polyfit(AR_f8, AR_c16, 1, full=True)) # E: Tuple[ndarray[Any, dtype[{complex128}]], ndarray[Any, dtype[{float64}]], ndarray[Any, dtype[signedinteger[typing._32Bit]]], ndarray[Any, dtype[{float64}]], ndarray[Any, dtype[{float64}]]] reveal_type(np.polyfit(AR_u4, AR_c16, 1.0, cov=True)) # E: Tuple[ndarray[Any, dtype[{complex128}]], ndarray[Any, dtype[{complex128}]]] reveal_type(np.polyval(AR_b, AR_b)) # E: ndarray[Any, dtype[{int64}]] reveal_type(np.polyval(AR_u4, AR_b)) # E: ndarray[Any, dtype[unsignedinteger[Any]]] reveal_type(np.polyval(AR_i8, AR_i8)) # E: ndarray[Any, dtype[signedinteger[Any]]] reveal_type(np.polyval(AR_f8, AR_i8)) # E: ndarray[Any, dtype[floating[Any]]] reveal_type(np.polyval(AR_i8, AR_c16)) # E: ndarray[Any, dtype[complexfloating[Any, Any]]] reveal_type(np.polyval(AR_O, AR_O)) # E: ndarray[Any, dtype[object_]] reveal_type(np.polyadd(poly_obj, AR_i8)) # E: poly1d reveal_type(np.polyadd(AR_f8, poly_obj)) # E: poly1d reveal_type(np.polyadd(AR_b, AR_b)) # E: ndarray[Any, dtype[bool_]] reveal_type(np.polyadd(AR_u4, AR_b)) # E: ndarray[Any, dtype[unsignedinteger[Any]]] reveal_type(np.polyadd(AR_i8, AR_i8)) # E: ndarray[Any, dtype[signedinteger[Any]]] reveal_type(np.polyadd(AR_f8, AR_i8)) # E: ndarray[Any, dtype[floating[Any]]] reveal_type(np.polyadd(AR_i8, AR_c16)) # E: ndarray[Any, dtype[complexfloating[Any, Any]]] reveal_type(np.polyadd(AR_O, AR_O)) # E: ndarray[Any, dtype[object_]] reveal_type(np.polysub(poly_obj, AR_i8)) # E: poly1d reveal_type(np.polysub(AR_f8, poly_obj)) # E: poly1d reveal_type(np.polysub(AR_b, AR_b)) # E: <nothing> reveal_type(np.polysub(AR_u4, AR_b)) # E: ndarray[Any, dtype[unsignedinteger[Any]]] reveal_type(np.polysub(AR_i8, AR_i8)) # E: ndarray[Any, dtype[signedinteger[Any]]] reveal_type(np.polysub(AR_f8, AR_i8)) # E: ndarray[Any, dtype[floating[Any]]] reveal_type(np.polysub(AR_i8, AR_c16)) # E: ndarray[Any, dtype[complexfloating[Any, Any]]] reveal_type(np.polysub(AR_O, AR_O)) # E: ndarray[Any, dtype[object_]] reveal_type(np.polymul(poly_obj, AR_i8)) # E: poly1d reveal_type(np.polymul(AR_f8, poly_obj)) # E: poly1d reveal_type(np.polymul(AR_b, AR_b)) # E: ndarray[Any, dtype[bool_]] reveal_type(np.polymul(AR_u4, AR_b)) # E: ndarray[Any, dtype[unsignedinteger[Any]]] reveal_type(np.polymul(AR_i8, AR_i8)) # E: ndarray[Any, dtype[signedinteger[Any]]] reveal_type(np.polymul(AR_f8, AR_i8)) # E: ndarray[Any, dtype[floating[Any]]] reveal_type(np.polymul(AR_i8, AR_c16)) # E: ndarray[Any, dtype[complexfloating[Any, Any]]] reveal_type(np.polymul(AR_O, AR_O)) # E: ndarray[Any, dtype[object_]] reveal_type(np.polydiv(poly_obj, AR_i8)) # E: poly1d reveal_type(np.polydiv(AR_f8, poly_obj)) # E: poly1d reveal_type(np.polydiv(AR_b, AR_b)) # E: Tuple[ndarray[Any, dtype[floating[Any]]], ndarray[Any, dtype[floating[Any]]]] reveal_type(np.polydiv(AR_u4, AR_b)) # E: Tuple[ndarray[Any, dtype[floating[Any]]], ndarray[Any, dtype[floating[Any]]]] reveal_type(np.polydiv(AR_i8, AR_i8)) # E: Tuple[ndarray[Any, dtype[floating[Any]]], ndarray[Any, dtype[floating[Any]]]] reveal_type(np.polydiv(AR_f8, AR_i8)) # E: Tuple[ndarray[Any, dtype[floating[Any]]], ndarray[Any, dtype[floating[Any]]]] reveal_type(np.polydiv(AR_i8, AR_c16)) # E: Tuple[ndarray[Any, dtype[complexfloating[Any, Any]]], ndarray[Any, dtype[complexfloating[Any, Any]]]] reveal_type(np.polydiv(AR_O, AR_O)) # E: Tuple[ndarray[Any, dtype[Any]], ndarray[Any, dtype[Any]]]