doxygen/xlink_main_2022_11_24_08.00.57/__masked_image_8cc_source.html

/*

 * This file is part of afw.

 *

 * Developed for the LSST Data Management System.

 * This product includes software developed by the LSST Project

 * (https://www.lsst.org).

 * See the COPYRIGHT file at the top-level directory of this distribution

 * for details of code ownership.

 *

 * 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 GNU General Public License

 * along with this program.  If not, see <https://www.gnu.org/licenses/>.

 */


#include "pybind11/pybind11.h"

#include "pybind11/stl.h"

#include "lsst/utils/python.h"


#include "lsst/afw/fits.h"

#include "lsst/afw/image/MaskedImage.h"


namespace py = pybind11;

using namespace pybind11::literals;


namespace lsst {

namespace afw {

namespace image {


namespace {


template <typename ImagePixelT>  // only the image type varies; mask and variance are fixed

using PyMaskedImage = py::class_<MaskedImage<ImagePixelT>, std::shared_ptr<MaskedImage<ImagePixelT>>>;


template <typename FromPixelT, typename ToPixelT>

void declareCastConstructor(PyMaskedImage<ToPixelT> &cls) {

    cls.def(py::init<MaskedImage<FromPixelT> const &, bool const>(), "src"_a, "deep"_a);

}


template <typename ImagePixelT>

PyMaskedImage<ImagePixelT> declareMaskedImage(lsst::utils::python::WrapperCollection &wrappers,

                                              const std::string &suffix) {

    using MI = MaskedImage<ImagePixelT>;


    return wrappers.wrapType(

            PyMaskedImage<ImagePixelT>(wrappers.module, ("MaskedImage" + suffix).c_str()),

            [](auto &mod, auto &cls) {

                mod.def("makeMaskedImage", &makeMaskedImage<ImagePixelT, MaskPixel, VariancePixel>, "image"_a,

                        "mask"_a = nullptr, "variance"_a = nullptr);


                /* Member types and enums */


                /* Constructors */

                cls.def(py::init<unsigned int, unsigned int, typename MI::MaskPlaneDict const &>(), "width"_a,

                        "height"_a, "planeDict"_a = typename MI::MaskPlaneDict());

                cls.def(py::init<lsst::geom::Extent2I, typename MI::MaskPlaneDict const &>(), "dimensions"_a,

                        "planeDict"_a = typename MI::MaskPlaneDict());

                cls.def(py::init<typename MI::ImagePtr, typename MI::MaskPtr, typename MI::VariancePtr>(),

                        "image"_a, "mask"_a = nullptr, "variance"_a = nullptr);

                cls.def(py::init<lsst::geom::Box2I const &, typename MI::MaskPlaneDict const &>(), "bbox"_a,

                        "planeDict"_a = typename MI::MaskPlaneDict());

                cls.def(py::init<std::string const &, std::shared_ptr<daf::base::PropertySet>,

                                 lsst::geom::Box2I const &, ImageOrigin, bool, bool,

                                 std::shared_ptr<daf::base::PropertySet>,

                                 std::shared_ptr<daf::base::PropertySet>,

                                 std::shared_ptr<daf::base::PropertySet>, bool>(),

                        "fileName"_a, "metadata"_a = nullptr, "bbox"_a = lsst::geom::Box2I(),

                        "origin"_a = PARENT, "conformMasks"_a = false, "needAllHdus"_a = false,

                        "imageMetadata"_a = nullptr, "maskMetadata"_a = nullptr,

                        "varianceMetadata"_a = nullptr, "allowUnsafe"_a = false);

                cls.def(py::init<fits::MemFileManager &, std::shared_ptr<daf::base::PropertySet>,

                                 lsst::geom::Box2I const &, ImageOrigin, bool, bool,

                                 std::shared_ptr<daf::base::PropertySet>,

                                 std::shared_ptr<daf::base::PropertySet>,

                                 std::shared_ptr<daf::base::PropertySet>, bool>(),

                        "manager"_a, "metadata"_a = nullptr, "bbox"_a = lsst::geom::Box2I(),

                        "origin"_a = PARENT, "conformMasks"_a = false, "needAllHdus"_a = false,

                        "imageMetadata"_a = nullptr, "maskMetadata"_a = nullptr,

                        "varianceMetadata"_a = nullptr, "allowUnsafe"_a = false);

                cls.def(py::init<MI const &, bool>(), "rhs"_a, "deep"_a = false);

                cls.def(py::init<MI const &, lsst::geom::Box2I const &, ImageOrigin, bool>(), "rhs"_a,

                        "bbox"_a, "origin"_a = PARENT, "deep"_a = false);


                /* Operators */

                cls.def("swap", &MI::swap);

                cls.def("assign", &MI::assign, "rhs"_a, "bbox"_a = lsst::geom::Box2I(), "origin"_a = PARENT,

                        py::is_operator()  // py::is_operator is a workaround for code in slicing.py

                                           // that expects NotImplemented to be returned on failure.

                );


                cls.def("subset", &MI::subset, "bbox"_a, "origin"_a = PARENT);


                cls.def("__iadd__", (MI & (MI::*)(ImagePixelT const)) & MI::operator+=);

                cls.def("__iadd__", (MI & (MI::*)(MI const &)) & MI::operator+=);

                cls.def("__iadd__", (MI & (MI::*)(Image<ImagePixelT> const &)) & MI::operator+=);

                cls.def("__iadd__", (MI & (MI::*)(math::Function2<double> const &)) & MI::operator+=);

                cls.def("scaledPlus", &MI::scaledPlus);

                cls.def("__isub__", (MI & (MI::*)(ImagePixelT const)) & MI::operator-=);

                cls.def("__isub__", (MI & (MI::*)(MI const &)) & MI::operator-=);

                cls.def("__isub__", (MI & (MI::*)(Image<ImagePixelT> const &)) & MI::operator-=);

                cls.def("__isub__", (MI & (MI::*)(math::Function2<double> const &)) & MI::operator-=);

                cls.def("scaledMinus", &MI::scaledMinus);

                cls.def("__imul__", (MI & (MI::*)(ImagePixelT const)) & MI::operator*=);

                cls.def("__imul__", (MI & (MI::*)(MI const &)) & MI::operator*=);

                cls.def("__imul__", (MI & (MI::*)(Image<ImagePixelT> const &)) & MI::operator*=);

                cls.def("scaledMultiplies", &MI::scaledMultiplies);

                cls.def("__itruediv__", (MI & (MI::*)(ImagePixelT const)) & MI::operator/=);

                cls.def("__itruediv__", (MI & (MI::*)(MI const &)) & MI::operator/=);

                cls.def("__itruediv__", (MI & (MI::*)(Image<ImagePixelT> const &)) & MI::operator/=);

                cls.def("scaledDivides", &MI::scaledDivides);


                /* Members */

                cls.def("writeFits",

                        (void (MI::*)(std::string const &, std::shared_ptr<daf::base::PropertySet const>,

                                      std::shared_ptr<daf::base::PropertySet const>,

                                      std::shared_ptr<daf::base::PropertySet const>,

                                      std::shared_ptr<daf::base::PropertySet const>) const) &

                                MI::writeFits,

                        "fileName"_a, "metadata"_a = std::shared_ptr<daf::base::PropertySet const>(),

                        "imageMetadata"_a = std::shared_ptr<daf::base::PropertySet const>(),

                        "maskMetadata"_a = std::shared_ptr<daf::base::PropertySet const>(),

                        "varianceMetadata"_a = std::shared_ptr<daf::base::PropertySet const>());

                cls.def("writeFits",

                        (void (MI::*)(fits::MemFileManager &, std::shared_ptr<daf::base::PropertySet const>,

                                      std::shared_ptr<daf::base::PropertySet const>,

                                      std::shared_ptr<daf::base::PropertySet const>,

                                      std::shared_ptr<daf::base::PropertySet const>) const) &

                                MI::writeFits,

                        "manager"_a, "metadata"_a = std::shared_ptr<daf::base::PropertySet const>(),

                        "imageMetadata"_a = std::shared_ptr<daf::base::PropertySet const>(),

                        "maskMetadata"_a = std::shared_ptr<daf::base::PropertySet const>(),

                        "varianceMetadata"_a = std::shared_ptr<daf::base::PropertySet const>());

                cls.def("writeFits",

                        (void (MI::*)(fits::Fits &, std::shared_ptr<daf::base::PropertySet const>,

                                      std::shared_ptr<daf::base::PropertySet const>,

                                      std::shared_ptr<daf::base::PropertySet const>,

                                      std::shared_ptr<daf::base::PropertySet const>) const) &

                                MI::writeFits,

                        "fitsfile"_a, "metadata"_a = std::shared_ptr<daf::base::PropertySet const>(),

                        "imageMetadata"_a = std::shared_ptr<daf::base::PropertySet const>(),

                        "maskMetadata"_a = std::shared_ptr<daf::base::PropertySet const>(),

                        "varianceMetadata"_a = std::shared_ptr<daf::base::PropertySet const>());


                cls.def(

                        "writeFits",

                        [](MI &self, std::string const &filename, fits::ImageWriteOptions const &imageOptions,

                           fits::ImageWriteOptions const &maskOptions,

                           fits::ImageWriteOptions const &varianceOptions,

                           std::shared_ptr<daf::base::PropertySet const> header) {

                            self.writeFits(filename, imageOptions, maskOptions, varianceOptions, header);

                        },

                        "filename"_a, "imageOptions"_a, "maskOptions"_a, "varianceOptions"_a,

                        "header"_a = std::shared_ptr<daf::base::PropertyList>());

                cls.def(

                        "writeFits",

                        [](MI &self, fits::MemFileManager &manager,

                           fits::ImageWriteOptions const &imageOptions,

                           fits::ImageWriteOptions const &maskOptions,

                           fits::ImageWriteOptions const &varianceOptions,

                           std::shared_ptr<daf::base::PropertySet const> header) {

                            self.writeFits(manager, imageOptions, maskOptions, varianceOptions, header);

                        },

                        "manager"_a, "imageOptions"_a, "maskOptions"_a, "varianceOptions"_a,

                        "header"_a = std::shared_ptr<daf::base::PropertyList>());

                cls.def(

                        "writeFits",

                        [](MI &self, fits::Fits &fits, fits::ImageWriteOptions const &imageOptions,

                           fits::ImageWriteOptions const &maskOptions,

                           fits::ImageWriteOptions const &varianceOptions,

                           std::shared_ptr<daf::base::PropertySet const> header) {

                            self.writeFits(fits, imageOptions, maskOptions, varianceOptions, header);

                        },

                        "fits"_a, "imageOptions"_a, "maskOptions"_a, "varianceOptions"_a,

                        "header"_a = std::shared_ptr<daf::base::PropertyList>());


                cls.def_static("readFits", (MI(*)(std::string const &))MI::readFits, "filename"_a);

                cls.def_static("readFits", (MI(*)(fits::MemFileManager &))MI::readFits, "manager"_a);

                cls.def("getImage", &MI::getImage);

                cls.def("setImage", &MI::setImage);

                cls.def_property("image", &MI::getImage, &MI::setImage);

                cls.def("getMask", &MI::getMask);

                cls.def("setMask", &MI::setMask);

                cls.def_property("mask", &MI::getMask, &MI::setMask);

                cls.def("getVariance", &MI::getVariance);

                cls.def("setVariance", &MI::setVariance);

                cls.def_property("variance", &MI::getVariance, &MI::setVariance);

                cls.def("getWidth", &MI::getWidth);

                cls.def("getHeight", &MI::getHeight);

                cls.def("getDimensions", &MI::getDimensions);

                cls.def("getBBox", &MI::getBBox, "origin"_a = PARENT);

                cls.def("getX0", &MI::getX0);

                cls.def("getY0", &MI::getY0);

                cls.def("getXY0", &MI::getXY0);

                cls.def("setXY0", (void (MI::*)(int const, int const)) & MI::setXY0, "x0"_a, "y0"_a);

                cls.def("setXY0", (void (MI::*)(lsst::geom::Point2I const)) & MI::setXY0, "origin"_a);

                cls.def("indexToPosition", &MI::indexToPosition);

                cls.def("positionToIndex", &MI::positionToIndex);

            });

}


template <typename ImagePixelT>  // addtional template types do not seem to be needed

void declareMakeMaskedImage(lsst::utils::python::WrapperCollection &wrappers) {

    wrappers.wrap([](auto &mod) {

        mod.def("makeMaskedImage", makeMaskedImage<ImagePixelT, MaskPixel, VariancePixel>, "image"_a,

                "mask"_a = nullptr, "variance"_a = nullptr);

    });

}


template <typename ImagePixelT1, typename ImagePixelT2>

void declareImagesOverlap(lsst::utils::python::WrapperCollection &wrappers) {

    // wrap both the Image and MaskedImage versions of imagesOverlap here, as wrapping

    // the Image version in the Image wrapper results in it being invisible in lsst.afw.image

    wrappers.wrap([](auto &mod) {

        mod.def("imagesOverlap",

                py::overload_cast<ImageBase<ImagePixelT1> const &, ImageBase<ImagePixelT2> const &>(

                        &imagesOverlap<ImagePixelT1, ImagePixelT2>),

                "image1"_a, "image2"_a);


        mod.def("imagesOverlap",

                py::overload_cast<MaskedImage<ImagePixelT1> const &, MaskedImage<ImagePixelT2> const &>(

                        &imagesOverlap<ImagePixelT1, ImagePixelT2>),

                "image1"_a, "image2"_a);

    });

}


}  // namespace


PYBIND11_MODULE(_maskedImage, mod) {

    lsst::utils::python::WrapperCollection wrappers(mod, "lsst.afw.image.maskedImage");

    wrappers.addSignatureDependency("lsst.afw.image.image");

    wrappers.addInheritanceDependency("lsst.daf.base");


    auto clsMaskedImageF = declareMaskedImage<float>(wrappers, "F");

    auto clsMaskedImageD = declareMaskedImage<double>(wrappers, "D");

    auto clsMaskedImageI = declareMaskedImage<int>(wrappers, "I");

    auto clsMaskedImageU = declareMaskedImage<std::uint16_t>(wrappers, "U");

    auto clsMaskedImageL = declareMaskedImage<std::uint64_t>(wrappers, "L");


    // Declare constructors for casting all exposure types to to float and double

    // (the only two types of casts that Python supports)

    declareCastConstructor<int, float>(clsMaskedImageF);

    declareCastConstructor<int, double>(clsMaskedImageD);

    declareCastConstructor<float, double>(clsMaskedImageD);

    declareCastConstructor<double, float>(clsMaskedImageF);

    declareCastConstructor<std::uint16_t, float>(clsMaskedImageF);

    declareCastConstructor<std::uint16_t, double>(clsMaskedImageD);

    declareCastConstructor<std::uint64_t, float>(clsMaskedImageF);

    declareCastConstructor<std::uint64_t, double>(clsMaskedImageD);


    /* Module level */

    declareMakeMaskedImage<int>(wrappers);

    declareMakeMaskedImage<float>(wrappers);

    declareMakeMaskedImage<double>(wrappers);

    declareMakeMaskedImage<std::uint16_t>(wrappers);

    declareMakeMaskedImage<std::uint64_t>(wrappers);


    declareImagesOverlap<int, int>(wrappers);

    declareImagesOverlap<int, float>(wrappers);

    declareImagesOverlap<int, double>(wrappers);

    declareImagesOverlap<int, std::uint16_t>(wrappers);

    declareImagesOverlap<int, std::uint64_t>(wrappers);


    declareImagesOverlap<float, int>(wrappers);

    declareImagesOverlap<float, float>(wrappers);

    declareImagesOverlap<float, double>(wrappers);

    declareImagesOverlap<float, std::uint16_t>(wrappers);

    declareImagesOverlap<float, std::uint64_t>(wrappers);


    declareImagesOverlap<double, int>(wrappers);

    declareImagesOverlap<double, float>(wrappers);

    declareImagesOverlap<double, double>(wrappers);

    declareImagesOverlap<double, std::uint16_t>(wrappers);

    declareImagesOverlap<double, std::uint64_t>(wrappers);


    declareImagesOverlap<std::uint16_t, int>(wrappers);

    declareImagesOverlap<std::uint16_t, float>(wrappers);

    declareImagesOverlap<std::uint16_t, double>(wrappers);

    declareImagesOverlap<std::uint16_t, std::uint16_t>(wrappers);

    declareImagesOverlap<std::uint16_t, std::uint64_t>(wrappers);


    declareImagesOverlap<std::uint64_t, int>(wrappers);

    declareImagesOverlap<std::uint64_t, float>(wrappers);

    declareImagesOverlap<std::uint64_t, double>(wrappers);

    declareImagesOverlap<std::uint64_t, std::uint16_t>(wrappers);

    declareImagesOverlap<std::uint64_t, std::uint64_t>(wrappers);

    wrappers.finish();

}

}  // namespace image

}  // namespace afw

}  // namespace lsst

MaskedImage.h

std::string

lsst::geom::Point< int, 2 >

python.h

fits.h

lsst::afw::image
Definition: imageAlgorithm.dox:1

lsst::afw
Definition: imageAlgorithm.dox:1

lsst::daf::persistence.posixStorage.cls
cls
Definition: posixStorage.py:918

lsst
Definition: imageAlgorithm.dox:1

pybind11
Definition: relationship.h:30

std::shared_ptr