doxygen/xlink_master_2021_09_30_20.02.36/python_2lsst_2meas_2astrom_2polynomial_transform_8cc_source.html

 /*

  * LSST Data Management System

  *

  * This product includes software developed by the

  * LSST Project (http://www.lsst.org/).

  * See the COPYRIGHT file

  *

  * This program is free software: you can redistribute it and/or modify

  * it under the terms of the GNU General Public License as published by

  * the Free Software Foundation, either version 3 of the License, or

  * (at your option) any later version.

  *

  * This program is distributed in the hope that it will be useful,

  * but WITHOUT ANY WARRANTY; without even the implied warranty of

  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the

  * GNU General Public License for more details.

  *

  * You should have received a copy of the LSST License Statement and

  * the GNU General Public License along with this program.  If not,

  * see <https://www.lsstcorp.org/LegalNotices/>.

  */

 #include "pybind11/pybind11.h"

 #include "pybind11/stl.h"


 #include <memory>


 #include "ndarray/pybind11.h"


 #include "lsst/geom/AffineTransform.h"

 #include "lsst/meas/astrom/SipTransform.h"

 #include "lsst/meas/astrom/PolynomialTransform.h"


 namespace py = pybind11;

 using namespace pybind11::literals;


 namespace lsst {

 namespace meas {

 namespace astrom {


 namespace {


 static void declarePolynomialTransform(py::module &mod) {

     py::class_<PolynomialTransform, std::shared_ptr<PolynomialTransform>> cls(mod, "PolynomialTransform");


     cls.def(py::init<ndarray::Array<double const, 2, 0> const &,

                      ndarray::Array<double const, 2, 0> const &>(),

             "xCoeffs"_a, "yCoeffs"_a);

     cls.def(py::init<PolynomialTransform const &>(), "other"_a);


     cls.def_static("convert",

                    (PolynomialTransform(*)(ScaledPolynomialTransform const &)) & PolynomialTransform::convert,

                    "other"_a);

     cls.def_static("convert",

                    (PolynomialTransform(*)(SipForwardTransform const &)) & PolynomialTransform::convert,

                    "other"_a);

     cls.def_static("convert",

                    (PolynomialTransform(*)(SipReverseTransform const &)) & PolynomialTransform::convert,

                    "other"_a);


     cls.def("__call__", &PolynomialTransform::operator(), "in"_a);


     cls.def("getOrder", &PolynomialTransform::getOrder);

     cls.def("getXCoeffs", &PolynomialTransform::getXCoeffs);

     cls.def("getYCoeffs", &PolynomialTransform::getYCoeffs);

     cls.def("linearize", &PolynomialTransform::linearize);

 }


 static void declareScaledPolynomialTransform(py::module &mod) {

     py::class_<ScaledPolynomialTransform, std::shared_ptr<ScaledPolynomialTransform>> cls(

             mod, "ScaledPolynomialTransform");


     cls.def(py::init<PolynomialTransform const &, geom::AffineTransform const &,

                      geom::AffineTransform const &>(),

             "poly"_a, "inputScaling"_a, "outputScalingInverse"_a);

     cls.def(py::init<ScaledPolynomialTransform const &>(), "other"_a);


     cls.def_static(

             "convert",

             (ScaledPolynomialTransform(*)(PolynomialTransform const &)) & ScaledPolynomialTransform::convert,

             "other"_a);

     cls.def_static(

             "convert",

             (ScaledPolynomialTransform(*)(SipForwardTransform const &)) & ScaledPolynomialTransform::convert,

             "other"_a);

     cls.def_static(

             "convert",

             (ScaledPolynomialTransform(*)(SipReverseTransform const &)) & ScaledPolynomialTransform::convert,

             "other"_a);


     cls.def("__call__", &ScaledPolynomialTransform::operator(), "in"_a);


     cls.def("getPoly", &ScaledPolynomialTransform::getPoly, py::return_value_policy::reference_internal);

     cls.def("getInputScaling", &ScaledPolynomialTransform::getInputScaling,

             py::return_value_policy::reference_internal);

     cls.def("getOutputScalingInverse", &ScaledPolynomialTransform::getOutputScalingInverse,

             py::return_value_policy::reference_internal);

     cls.def("linearize", &ScaledPolynomialTransform::linearize);

 }


 }  // namespace


 PYBIND11_MODULE(polynomialTransform, mod) {

     declarePolynomialTransform(mod);

     declareScaledPolynomialTransform(mod);


     mod.def("compose",

             (PolynomialTransform(*)(geom::AffineTransform const &, PolynomialTransform const &)) & compose,

             "t1"_a, "t2"_a);

     mod.def("compose",

             (PolynomialTransform(*)(PolynomialTransform const &, geom::AffineTransform const &)) & compose,

             "t1"_a, "t2"_a);

 }


 }  // namespace astrom

 }  // namespace meas

 }  // namespace lsst

AffineTransform.h

PolynomialTransform.h

SipTransform.h

lsst::geom::AffineTransform
An affine coordinate transformation consisting of a linear transformation and an offset.
Definition: AffineTransform.h:75

lsst::meas::astrom::PolynomialTransform
A 2-d coordinate transform represented by a pair of standard polynomials (one for each coordinate).
Definition: PolynomialTransform.h:45

lsst::jointcal::compose
std::unique_ptr< AstrometryTransform > compose(AstrometryTransform const &left, AstrometryTransform const &right)
Returns a pointer to a composition of transforms, representing left(right()).
Definition: AstrometryTransform.cc:426

lsst::meas::astrom::PYBIND11_MODULE
PYBIND11_MODULE(polynomialTransform, mod)
Definition: polynomialTransform.cc:102

lsst::meas::modelfit.psf.psfContinued.module
module
Definition: psfContinued.py:42

lsst
A base class for image defects.
Definition: imageAlgorithm.dox:1

pybind11
Definition: relationship.h:30