AstrometryTransformLinearRot¶
- class lsst.jointcal.AstrometryTransformLinearRot¶
Bases:
AstrometryTransformLinearMethods Summary
apply(*args, **kwargs)Overloaded function.
computeDerivative(self, arg0, arg1)determinant(self)getCoefficient(self, arg0, arg1, arg2)getNpar(self)getOrder(self)linearApproximation(self, arg0, arg1)offsetParams(self, arg0)read(self, arg0)setCoefficient(self, arg0, arg1, arg2, arg3)toAstMap(self, arg0)write(self)Methods Documentation
- apply(*args, **kwargs)¶
Overloaded function.
apply(self: lsst.jointcal.astrometryTransform.AstrometryTransform, inPos: lsst.jointcal.star.Point) -> lsst.jointcal.star.Point
apply(self: lsst.jointcal.astrometryTransform.AstrometryTransform, inputframe: lsst.jointcal.frame.Frame, inscribed: bool) -> lsst.jointcal.frame.Frame
- computeDerivative(self: lsst.jointcal.astrometryTransform.AstrometryTransform, arg0: lsst.jointcal.star.Point, arg1: float) lsst::jointcal::AstrometryTransformLinear¶
- determinant(self: lsst.jointcal.astrometryTransform.AstrometryTransformPolynomial) float¶
- getCoefficient(self: lsst.jointcal.astrometryTransform.AstrometryTransformPolynomial, arg0: int, arg1: int, arg2: int) float¶
- getOrder(self: lsst.jointcal.astrometryTransform.AstrometryTransformPolynomial) int¶
- linearApproximation(self: lsst.jointcal.astrometryTransform.AstrometryTransform, arg0: lsst.jointcal.star.Point, arg1: float) lsst::jointcal::AstrometryTransformLinear¶
- offsetParams(self: lsst.jointcal.astrometryTransform.AstrometryTransform, arg0: numpy.ndarray[numpy.float64[m, 1]]) None¶
- read(self: lsst.jointcal.astrometryTransform.AstrometryTransformPolynomial, arg0: str) None¶
- setCoefficient(self: lsst.jointcal.astrometryTransform.AstrometryTransformPolynomial, arg0: int, arg1: int, arg2: int, arg3: float) None¶
- toAstMap(self: lsst.jointcal.astrometryTransform.AstrometryTransformPolynomial, arg0: lsst.jointcal.frame.Frame) astshim.Mapping¶