LSSTApplications  19.0.0-14-gb0260a2+72efe9b372,20.0.0+7927753e06,20.0.0+8829bf0056,20.0.0+995114c5d2,20.0.0+b6f4b2abd1,20.0.0+bddc4f4cbe,20.0.0-1-g253301a+8829bf0056,20.0.0-1-g2b7511a+0d71a2d77f,20.0.0-1-g5b95a8c+7461dd0434,20.0.0-12-g321c96ea+23efe4bbff,20.0.0-16-gfab17e72e+fdf35455f6,20.0.0-2-g0070d88+ba3ffc8f0b,20.0.0-2-g4dae9ad+ee58a624b3,20.0.0-2-g61b8584+5d3db074ba,20.0.0-2-gb780d76+d529cf1a41,20.0.0-2-ged6426c+226a441f5f,20.0.0-2-gf072044+8829bf0056,20.0.0-2-gf1f7952+ee58a624b3,20.0.0-20-geae50cf+e37fec0aee,20.0.0-25-g3dcad98+544a109665,20.0.0-25-g5eafb0f+ee58a624b3,20.0.0-27-g64178ef+f1f297b00a,20.0.0-3-g4cc78c6+e0676b0dc8,20.0.0-3-g8f21e14+4fd2c12c9a,20.0.0-3-gbd60e8c+187b78b4b8,20.0.0-3-gbecbe05+48431fa087,20.0.0-38-ge4adf513+a12e1f8e37,20.0.0-4-g97dc21a+544a109665,20.0.0-4-gb4befbc+087873070b,20.0.0-4-gf910f65+5d3db074ba,20.0.0-5-gdfe0fee+199202a608,20.0.0-5-gfbfe500+d529cf1a41,20.0.0-6-g64f541c+d529cf1a41,20.0.0-6-g9a5b7a1+a1cd37312e,20.0.0-68-ga3f3dda+5fca18c6a4,20.0.0-9-g4aef684+e18322736b,w.2020.45
LSSTDataManagementBasePackage
polynomialTransform.cc
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2  * LSST Data Management System
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5  * LSST Project (http://www.lsst.org/).
6  * See the COPYRIGHT file
7  *
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22 #include "pybind11/pybind11.h"
23 #include "pybind11/stl.h"
24 
25 #include <memory>
26 
27 #include "ndarray/pybind11.h"
28 
32 
33 namespace py = pybind11;
34 using namespace pybind11::literals;
35 
36 namespace lsst {
37 namespace meas {
38 namespace astrom {
39 
40 namespace {
41 
42 static void declarePolynomialTransform(py::module &mod) {
43  py::class_<PolynomialTransform, std::shared_ptr<PolynomialTransform>> cls(mod, "PolynomialTransform");
44 
45  cls.def(py::init<ndarray::Array<double const, 2, 0> const &,
46  ndarray::Array<double const, 2, 0> const &>(),
47  "xCoeffs"_a, "yCoeffs"_a);
48  cls.def(py::init<PolynomialTransform const &>(), "other"_a);
49 
50  cls.def_static("convert",
51  (PolynomialTransform(*)(ScaledPolynomialTransform const &)) & PolynomialTransform::convert,
52  "other"_a);
53  cls.def_static("convert",
54  (PolynomialTransform(*)(SipForwardTransform const &)) & PolynomialTransform::convert,
55  "other"_a);
56  cls.def_static("convert",
57  (PolynomialTransform(*)(SipReverseTransform const &)) & PolynomialTransform::convert,
58  "other"_a);
59 
60  cls.def("__call__", &PolynomialTransform::operator(), "in"_a);
61 
62  cls.def("getOrder", &PolynomialTransform::getOrder);
63  cls.def("getXCoeffs", &PolynomialTransform::getXCoeffs);
64  cls.def("getYCoeffs", &PolynomialTransform::getYCoeffs);
65  cls.def("linearize", &PolynomialTransform::linearize);
66 }
67 
68 static void declareScaledPolynomialTransform(py::module &mod) {
69  py::class_<ScaledPolynomialTransform, std::shared_ptr<ScaledPolynomialTransform>> cls(
70  mod, "ScaledPolynomialTransform");
71 
72  cls.def(py::init<PolynomialTransform const &, geom::AffineTransform const &,
73  geom::AffineTransform const &>(),
74  "poly"_a, "inputScaling"_a, "outputScalingInverse"_a);
75  cls.def(py::init<ScaledPolynomialTransform const &>(), "other"_a);
76 
77  cls.def_static(
78  "convert",
79  (ScaledPolynomialTransform(*)(PolynomialTransform const &)) & ScaledPolynomialTransform::convert,
80  "other"_a);
81  cls.def_static(
82  "convert",
83  (ScaledPolynomialTransform(*)(SipForwardTransform const &)) & ScaledPolynomialTransform::convert,
84  "other"_a);
85  cls.def_static(
86  "convert",
87  (ScaledPolynomialTransform(*)(SipReverseTransform const &)) & ScaledPolynomialTransform::convert,
88  "other"_a);
89 
90  cls.def("__call__", &ScaledPolynomialTransform::operator(), "in"_a);
91 
92  cls.def("getPoly", &ScaledPolynomialTransform::getPoly, py::return_value_policy::reference_internal);
93  cls.def("getInputScaling", &ScaledPolynomialTransform::getInputScaling,
94  py::return_value_policy::reference_internal);
95  cls.def("getOutputScalingInverse", &ScaledPolynomialTransform::getOutputScalingInverse,
96  py::return_value_policy::reference_internal);
97  cls.def("linearize", &ScaledPolynomialTransform::linearize);
98 }
99 
100 } // namespace
101 
102 PYBIND11_MODULE(polynomialTransform, mod) {
103  declarePolynomialTransform(mod);
104  declareScaledPolynomialTransform(mod);
105 
106  mod.def("compose",
108  "t1"_a, "t2"_a);
109  mod.def("compose",
111  "t1"_a, "t2"_a);
112 }
113 
114 } // namespace astrom
115 } // namespace meas
116 } // namespace lsst
SipTransform.h
PolynomialTransform.h
AffineTransform.h
lsst::afw::geom.transform.transformContinued.cls
cls
Definition: transformContinued.py:33
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
cmd.commands.convert
def convert(*args, **kwargs)
Definition: commands.py:62
lsst
A base class for image defects.
Definition: imageAlgorithm.dox:1
lsst::meas::astrom::PYBIND11_MODULE
PYBIND11_MODULE(polynomialTransform, mod)
Definition: polynomialTransform.cc:102
pybind11
Definition: _GenericMap.cc:40
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::utils.tests.init
def init()
Definition: tests.py:59
lsst::meas::modelfit.psf.psfContinued.module
module
Definition: psfContinued.py:42