apertureFlux.cc

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/*
 * LSST Data Management System
 * Copyright 2008-2017  AURA/LSST.
 *
 * This product includes software developed by the
 * LSST Project (http://www.lsst.org/).
 *
 * 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 "lsst/pex/config/python.h"
#include "lsst/meas/base/python.h"
 
#include "lsst/meas/base/ApertureFlux.h"
#include "lsst/meas/base/FluxUtilities.h"
 
namespace py = pybind11;
using namespace pybind11::literals;
 
namespace lsst {
namespace meas {
namespace base {
 
namespace {
 
using PyFluxAlgorithm =
        py::class_<ApertureFluxAlgorithm, std::shared_ptr<ApertureFluxAlgorithm>, SimpleAlgorithm>;
using PyFluxControl = py::class_<ApertureFluxControl>;
using PyFluxResult = py::class_<ApertureFluxResult, std::shared_ptr<ApertureFluxResult>, FluxResult>;
using PyFluxTransform =
        py::class_<ApertureFluxTransform, std::shared_ptr<ApertureFluxTransform>, BaseTransform>;
 
PyFluxControl declareFluxControl(py::module &mod) {
    PyFluxControl cls(mod, "ApertureFluxControl");
 
    LSST_DECLARE_CONTROL_FIELD(cls, ApertureFluxControl, radii);
    LSST_DECLARE_CONTROL_FIELD(cls, ApertureFluxControl, maxSincRadius);
    LSST_DECLARE_CONTROL_FIELD(cls, ApertureFluxControl, shiftKernel);
 
    cls.def(py::init<>());
 
    return cls;
}
 
template <typename Image, class PyClass>
void declareComputeFluxes(PyClass &cls) {
    using Control = ApertureFluxAlgorithm::Control;
    using Result = ApertureFluxAlgorithm::Result;
 
    cls.def_static("computeSincFlux",
                   (Result(*)(Image const &, afw::geom::ellipses::Ellipse const &, Control const &)) &
                           ApertureFluxAlgorithm::computeSincFlux,
                   "image"_a, "ellipse"_a, "ctrl"_a = Control());
    cls.def_static("computeNaiveFlux",
                   (Result(*)(Image const &, afw::geom::ellipses::Ellipse const &, Control const &)) &
                           ApertureFluxAlgorithm::computeNaiveFlux,
                   "image"_a, "ellipse"_a, "ctrl"_a = Control());
    cls.def_static("computeFlux",
                   (Result(*)(Image const &, afw::geom::ellipses::Ellipse const &, Control const &)) &
                           ApertureFluxAlgorithm::computeFlux,
                   "image"_a, "ellipse"_a, "ctrl"_a = Control());
}
 
PyFluxAlgorithm declareFluxAlgorithm(py::module &mod) {
    PyFluxAlgorithm cls(mod, "ApertureFluxAlgorithm");
 
    cls.attr("FAILURE") = py::cast(ApertureFluxAlgorithm::FAILURE);
    cls.attr("APERTURE_TRUNCATED") = py::cast(ApertureFluxAlgorithm::APERTURE_TRUNCATED);
    cls.attr("SINC_COEFFS_TRUNCATED") = py::cast(ApertureFluxAlgorithm::SINC_COEFFS_TRUNCATED);
 
    // constructor not wrapped because class is abstract
 
    declareComputeFluxes<afw::image::Image<double>>(cls);
    declareComputeFluxes<afw::image::MaskedImage<double>>(cls);
    declareComputeFluxes<afw::image::Image<float>>(cls);
    declareComputeFluxes<afw::image::MaskedImage<float>>(cls);
 
    cls.def("measure", &ApertureFluxAlgorithm::measure, "measRecord"_a, "exposure"_a);
    cls.def("fail", &ApertureFluxAlgorithm::fail, "measRecord"_a, "error"_a = nullptr);
    cls.def_static("makeFieldPrefix", &ApertureFluxAlgorithm::makeFieldPrefix, "name"_a, "radius"_a);
 
    return cls;
}
 
void declareFluxResult(py::module &mod) {
    PyFluxResult cls(mod, "ApertureFluxResult");
 
    cls.def("getFlag", (bool (ApertureFluxResult::*)(unsigned int) const) & ApertureFluxResult::getFlag,
            "bit"_a);
    cls.def("getFlag",
            (bool (ApertureFluxResult::*)(std::string const &name) const) & ApertureFluxResult::getFlag,
            "name"_a);
    cls.def("setFlag", &ApertureFluxResult::setFlag, "index"_a, "value"_a);
    cls.def("unsetFlag", &ApertureFluxResult::unsetFlag, "index"_a);
}
 
PyFluxTransform declareFluxTransform(py::module &mod) {
    PyFluxTransform cls(mod, "ApertureFluxTransform");
 
    cls.def(py::init<ApertureFluxTransform::Control const &, std::string const &,
                     afw::table::SchemaMapper &>(),
            "ctrl"_a, "name"_a, "mapper"_a);
 
    cls.def("__call__", &ApertureFluxTransform::operator(), "inputCatalog"_a, "outputCatalog"_a, "wcs"_a,
            "photoCalib"_a);
 
    return cls;
}
 
}  // namespace
 
PYBIND11_MODULE(apertureFlux, mod) {
    py::module::import("lsst.afw.geom");
    py::module::import("lsst.afw.image");
    py::module::import("lsst.afw.table");
    py::module::import("lsst.meas.base.algorithm");
    py::module::import("lsst.meas.base.flagHandler");
    py::module::import("lsst.meas.base.fluxUtilities");
    py::module::import("lsst.meas.base.transform");
 
    auto clsFluxControl = declareFluxControl(mod);
    auto clsFluxAlgorithm = declareFluxAlgorithm(mod);
    declareFluxResult(mod);
    auto clsFluxTransform = declareFluxTransform(mod);
 
    clsFluxAlgorithm.attr("Control") = clsFluxControl;
    // no need to make ApertureFluxControl::Result visible to Python
    clsFluxTransform.attr("Control") = clsFluxControl;
 
    python::declareAlgorithm<ApertureFluxAlgorithm, ApertureFluxControl, ApertureFluxTransform>(
            clsFluxAlgorithm, clsFluxControl, clsFluxTransform);
}
 
}  // namespace base
}  // namespace meas
}  // namespace lsst