doxygen/x_masterDoxyDoc/python_2lsst_2ip_2diffim_2dipole_algorithms_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 <string>


 #include "lsst/ip/diffim/DipoleAlgorithms.h"

 #include "lsst/meas/base/Algorithm.h"

 #include "lsst/pex/config/python.h"  // for LSST_DECLARE_CONTROL_FIELD


 namespace py = pybind11;

 using namespace pybind11::literals;


 namespace lsst {

 namespace ip {

 namespace diffim {


 namespace {


 void declareDipoleCentroidControl(py::module &mod) {

     py::class_<DipoleCentroidControl, std::shared_ptr<DipoleCentroidControl>> cls(mod,

                                                                                   "DipoleCentroidControl");


     cls.def(py::init<>());

 }


 void declareDipoleFluxControl(py::module &mod) {

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


     cls.def(py::init<>());

 }


 void declareDipolePsfFluxControl(py::module &mod) {

     py::class_<PsfDipoleFluxControl, std::shared_ptr<PsfDipoleFluxControl>, DipoleFluxControl> cls(

             mod, "PsfDipoleFluxControl");


     cls.def(py::init<>());


     LSST_DECLARE_CONTROL_FIELD(cls, PsfDipoleFluxControl, stepSizeCoord);

     LSST_DECLARE_CONTROL_FIELD(cls, PsfDipoleFluxControl, stepSizeFlux);

     LSST_DECLARE_CONTROL_FIELD(cls, PsfDipoleFluxControl, errorDef);

     LSST_DECLARE_CONTROL_FIELD(cls, PsfDipoleFluxControl, maxFnCalls);

 }


 void declareDipoleCentroidAlgorithm(py::module &mod) {

     // Abstract class, so add a leading underscore to Python name and do not wrap constructor

     py::class_<DipoleCentroidAlgorithm, std::shared_ptr<DipoleCentroidAlgorithm>, meas::base::SimpleAlgorithm>

             cls(mod, "_DipoleCentroidAlgorithm");


     cls.attr("FAILURE") = py::cast(DipoleCentroidAlgorithm::FAILURE);

     cls.attr("POS_FLAG") = py::cast(DipoleCentroidAlgorithm::POS_FLAG);

     cls.attr("NEG_FLAG") = py::cast(DipoleCentroidAlgorithm::NEG_FLAG);

     cls.def_static("getFlagDefinitions", &DipoleCentroidAlgorithm::getFlagDefinitions,

                    py::return_value_policy::copy);


     cls.def("getPositiveKeys", &DipoleCentroidAlgorithm::getPositiveKeys);

     cls.def("getNegativeKeys", &DipoleCentroidAlgorithm::getNegativeKeys);

 }


 void declareDipoleFluxAlgorithm(py::module &mod) {

     // Abstract class, so add a leading underscore to Python name and do not wrap constructor

     py::class_<DipoleFluxAlgorithm, std::shared_ptr<DipoleFluxAlgorithm>, meas::base::SimpleAlgorithm> cls(

             mod, "_DipoleFluxAlgorithm");


     cls.attr("FAILURE") = py::cast(DipoleFluxAlgorithm::FAILURE);

     cls.attr("POS_FLAG") = py::cast(DipoleFluxAlgorithm::POS_FLAG);

     cls.attr("NEG_FLAG") = py::cast(DipoleFluxAlgorithm::NEG_FLAG);

     cls.def_static("getFlagDefinitions", &DipoleFluxAlgorithm::getFlagDefinitions,

                    py::return_value_policy::copy);


     cls.def("getPositiveKeys", &DipoleFluxAlgorithm::getPositiveKeys);

     cls.def("getNegativeKeys", &DipoleFluxAlgorithm::getNegativeKeys);

 }


 void declareNaiveDipoleFlux(py::module &mod) {

     py::module::import("lsst.meas.base");


     py::class_<NaiveDipoleFlux, std::shared_ptr<NaiveDipoleFlux>, DipoleFluxAlgorithm> cls(mod,

                                                                                            "NaiveDipoleFlux");


     cls.def(py::init<NaiveDipoleFlux::Control const &, std::string const &, afw::table::Schema &>(), "ctrl"_a,

             "name"_a, "schema"_a);


     cls.def("measure", &NaiveDipoleFlux::measure, "measRecord"_a, "exposure"_a);

     cls.def("fail", &NaiveDipoleFlux::fail, "measRecord"_a, "error"_a = NULL);

 }


 void declareNaiveDipoleCentroid(py::module &mod) {

     py::class_<NaiveDipoleCentroid, std::shared_ptr<NaiveDipoleCentroid>, DipoleCentroidAlgorithm> cls(

             mod, "NaiveDipoleCentroid");


     cls.def(py::init<NaiveDipoleCentroid::Control const &, std::string const &, afw::table::Schema &>(),

             "ctrl"_a, "name"_a, "schema"_a);


     cls.def("getCenterKeys", &NaiveDipoleCentroid::getCenterKeys);

     cls.def("getPositiveKeys", &NaiveDipoleCentroid::getPositiveKeys);

     cls.def("getNegativeKeys", &NaiveDipoleCentroid::getNegativeKeys);


     cls.def("measure", &NaiveDipoleCentroid::measure, "measRecord"_a, "exposure"_a);

     cls.def("mergeCentroids", &NaiveDipoleCentroid::mergeCentroids, "source"_a, "posValue"_a, "negValue"_a);

     cls.def("fail", &NaiveDipoleCentroid::fail, "measRecord"_a, "error"_a = NULL);

 }


 void declarePsfDipoleFlux(py::module &mod) {

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


     cls.def(py::init<PsfDipoleFlux::Control const &, std::string const &, afw::table::Schema &>(), "ctrl"_a,

             "name"_a, "schema"_a);


     cls.def("chi2", &PsfDipoleFlux::chi2, "source"_a, "exposure"_a, "negCenterX"_a, "negCenterY"_a,

             "negFlux"_a, "posCenterX"_a, "posCenterY"_a, "posFlux"_a);

     cls.def("measure", &PsfDipoleFlux::measure, "measRecord"_a, "exposure"_a);

     cls.def("fail", &PsfDipoleFlux::fail, "measRecord"_a, "error"_a = NULL);

 }


 }  // namespace lsst::ip::diffim::<anonymous>


 PYBIND11_MODULE(_dipoleAlgorithms, mod) {

     py::module::import("lsst.afw.table");

     py::module::import("lsst.meas.base");

     py::module::import("lsst.pex.config");


     declareDipoleCentroidControl(mod);

     declareDipoleFluxControl(mod);

     declareDipolePsfFluxControl(mod);

     declareDipoleCentroidAlgorithm(mod);

     declareDipoleFluxAlgorithm(mod);

     declareNaiveDipoleFlux(mod);

     declareNaiveDipoleCentroid(mod);

     declarePsfDipoleFlux(mod);

 }


 }  // diffim

 }  // ip

 }  // lsst

Algorithm.h

DipoleAlgorithms.h

lsst::ip::diffim::PYBIND11_MODULE
PYBIND11_MODULE(_dipoleAlgorithms, mod)
Definition: dipoleAlgorithms.cc:140

lsst::ip::diffim.PsfDipoleFluxControl
PsfDipoleFluxControl
Definition: __init__.py:50

lsst::ip::diffim.DipoleFluxControl
DipoleFluxControl
Definition: __init__.py:49

lsst::ip::isr.fringe.measure
def measure(mi, x, y, size, statistic, stats)
Definition: fringe.py:517

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

python.h

LSST_DECLARE_CONTROL_FIELD
#define LSST_DECLARE_CONTROL_FIELD(WRAPPER, CLASS, NAME)
Macro used to wrap fields declared by LSST_CONTROL_FIELD using Pybind11.
Definition: python.h:50