AstrometryTransformLinearScale¶

class lsst.jointcal.AstrometryTransformLinearScale¶

Methods 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, inPos: lsst.jointcal.Point) -> lsst.jointcal.Point
apply(self: lsst.jointcal.AstrometryTransform, inputframe: lsst.jointcal.Frame, inscribed: bool) -> lsst.jointcal.Frame

computeDerivative(self: lsst.jointcal.AstrometryTransform, arg0: lsst.jointcal.Point, arg1: SupportsFloat) → lsst.jointcal.AstrometryTransformLinear¶

getCoefficient(self: lsst.jointcal.AstrometryTransformPolynomial, arg0: SupportsInt, arg1: SupportsInt, arg2: SupportsInt) → float¶

linearApproximation(self: lsst.jointcal.AstrometryTransform, arg0: lsst.jointcal.Point, arg1: SupportsFloat) → lsst.jointcal.AstrometryTransformLinear¶

offsetParams(self: lsst.jointcal.AstrometryTransform, arg0: Annotated[numpy.typing.ArrayLike, numpy.float64, '[m, 1]']) → None¶

read(self: lsst.jointcal.AstrometryTransformPolynomial, arg0: str) → None¶

setCoefficient(self: lsst.jointcal.AstrometryTransformPolynomial, arg0: SupportsInt, arg1: SupportsInt, arg2: SupportsInt, arg3: SupportsFloat) → None¶

toAstMap(self: lsst.jointcal.AstrometryTransformPolynomial, arg0: lsst.jointcal.Frame) → astshim.Mapping¶