doxygen/xlink_master_2020_01_08_09.10.02/convolve_8cc_source.html

 /*
  * LSST Data Management System
  * Copyright 2008-2016  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/operators.h>
 //#include <pybind11/stl.h>

 #include "lsst/afw/math/detail/Convolve.h"

 namespace py = pybind11;

 using namespace py::literals;

 namespace lsst {
 namespace afw {
 namespace math {
 namespace detail {

 namespace {
 template <typename OutImageT, typename InImageT>
 void declareByType(py::module &mod) {
     mod.def("basicConvolve",
             (void (*)(OutImageT &, InImageT const &, lsst::afw::math::Kernel const &,
                       lsst::afw::math::ConvolutionControl const &))basicConvolve<OutImageT, InImageT>);
     mod.def("basicConvolve",
             (void (*)(OutImageT &, InImageT const &, lsst::afw::math::DeltaFunctionKernel const &,
                       lsst::afw::math::ConvolutionControl const &))basicConvolve<OutImageT, InImageT>);
     mod.def("basicConvolve",
             (void (*)(OutImageT &, InImageT const &, lsst::afw::math::LinearCombinationKernel const &,
                       lsst::afw::math::ConvolutionControl const &))basicConvolve<OutImageT, InImageT>);
     mod.def("basicConvolve",
             (void (*)(OutImageT &, InImageT const &, lsst::afw::math::SeparableKernel const &,
                       lsst::afw::math::ConvolutionControl const &))basicConvolve<OutImageT, InImageT>);
     mod.def("convolveWithBruteForce",
             (void (*)(
                     OutImageT &, InImageT const &, lsst::afw::math::Kernel const &,
                     lsst::afw::math::ConvolutionControl const &))convolveWithBruteForce<OutImageT, InImageT>);
 }
 template <typename PixelType1, typename PixelType2>
 void declareAll(py::module &mod) {
     using M1 = image::MaskedImage<PixelType1, image::MaskPixel, image::VariancePixel>;
     using M2 = image::MaskedImage<PixelType2, image::MaskPixel, image::VariancePixel>;

     declareByType<image::Image<PixelType1>, image::Image<PixelType2>>(mod);
     declareByType<M1, M2>(mod);
 }
 }  // namespace

 PYBIND11_MODULE(convolve, mod) {
     declareAll<double, double>(mod);
     declareAll<double, float>(mod);
     declareAll<double, int>(mod);
     declareAll<double, std::uint16_t>(mod);
     declareAll<float, float>(mod);
     declareAll<float, int>(mod);
     declareAll<float, std::uint16_t>(mod);
     declareAll<int, int>(mod);
     declareAll<std::uint16_t, std::uint16_t>(mod);

     py::class_<KernelImagesForRegion, std::shared_ptr<KernelImagesForRegion>> clsKernelImagesForRegion(
             mod, "KernelImagesForRegion");

     py::enum_<KernelImagesForRegion::Location>(clsKernelImagesForRegion, "Location")
             .value("BOTTOM_LEFT", KernelImagesForRegion::Location::BOTTOM_LEFT)
             .value("BOTTOM_RIGHT", KernelImagesForRegion::Location::BOTTOM_RIGHT)
             .value("TOP_LEFT", KernelImagesForRegion::Location::TOP_LEFT)
             .value("TOP_RIGHT", KernelImagesForRegion::Location::TOP_RIGHT)
             .export_values();

     clsKernelImagesForRegion.def(
             py::init<KernelImagesForRegion::KernelConstPtr, lsst::geom::Box2I const &,
                      lsst::geom::Point2I const &, bool>(),
             "kernelPtr"_a, "bbox"_a, "xy0"_a, "doNormalize"_a);
     clsKernelImagesForRegion.def(
             py::init<KernelImagesForRegion::KernelConstPtr, lsst::geom::Box2I const &,
                      lsst::geom::Point2I const &, bool, KernelImagesForRegion::ImagePtr,
                      KernelImagesForRegion::ImagePtr, KernelImagesForRegion::ImagePtr,
                      KernelImagesForRegion::ImagePtr>(),
             "kernelPtr"_a, "bbox"_a, "xy0"_a, "doNormalize"_a, "bottomLeftImagePtr"_a,
             "bottomRightImagePtr"_a, "topLeftImagePtr"_a, "topRightImagePtr"_a);

     clsKernelImagesForRegion.def("getBBox", &KernelImagesForRegion::getBBox);
     clsKernelImagesForRegion.def("getXY0", &KernelImagesForRegion::getXY0);
     clsKernelImagesForRegion.def("getDoNormalize", &KernelImagesForRegion::getDoNormalize);
     clsKernelImagesForRegion.def("getImage", &KernelImagesForRegion::getImage);
     clsKernelImagesForRegion.def("getKernel", &KernelImagesForRegion::getKernel);
     clsKernelImagesForRegion.def("getPixelIndex", &KernelImagesForRegion::getPixelIndex);
     clsKernelImagesForRegion.def("computeNextRow", &KernelImagesForRegion::computeNextRow);
     clsKernelImagesForRegion.def_static("getMinInterpolationSize",
                                         KernelImagesForRegion::getMinInterpolationSize);

     py::class_<RowOfKernelImagesForRegion, std::shared_ptr<RowOfKernelImagesForRegion>>
             clsRowOfKernelImagesForRegion(mod, "RowOfKernelImagesForRegion");

     clsRowOfKernelImagesForRegion.def(py::init<int, int>(), "nx"_a, "ny"_a);

     clsRowOfKernelImagesForRegion.def("front", &RowOfKernelImagesForRegion::front);
     clsRowOfKernelImagesForRegion.def("back", &RowOfKernelImagesForRegion::back);
     clsRowOfKernelImagesForRegion.def("getNX", &RowOfKernelImagesForRegion::getNX);
     clsRowOfKernelImagesForRegion.def("getNY", &RowOfKernelImagesForRegion::getNY);
     clsRowOfKernelImagesForRegion.def("getYInd", &RowOfKernelImagesForRegion::getYInd);
     clsRowOfKernelImagesForRegion.def("getRegion", &RowOfKernelImagesForRegion::getRegion);
     clsRowOfKernelImagesForRegion.def("hasData", &RowOfKernelImagesForRegion::hasData);
     clsRowOfKernelImagesForRegion.def("isLastRow", &RowOfKernelImagesForRegion::isLastRow);
     clsRowOfKernelImagesForRegion.def("incrYInd", &RowOfKernelImagesForRegion::incrYInd);

     /* Module level */

     /* Member types and enums */

     /* Constructors */

     /* Operators */

     /* Members */
 }
 }
 }
 }
 }  // lsst::afw::math::detail
Convolve.h

std::shared_ptr< lsst::afw::math::Kernel const >

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

pybind11
Definition: _GenericMap.cc:40

lsst::utils.tests.init
def init()
Definition: tests.py:65

lsst::afw::math::ConvolutionControl
Parameters to control convolution.
Definition: ConvolveImage.h:50

convolve

lsst::afw::math::SeparableKernel
A kernel described by a pair of functions: func(x, y) = colFunc(x) * rowFunc(y)
Definition: Kernel.h:907

lsst::afw
Definition: imageAlgorithm.dox:1

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

lsst::afw::math::LinearCombinationKernel
A kernel that is a linear combination of fixed basis kernels.
Definition: Kernel.h:750

lsst::afw::image::MaskedImage
A class to manipulate images, masks, and variance as a single object.
Definition: MaskedImage.h:73

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

literals

lsst::afw::math::Kernel
Kernels are used for convolution with MaskedImages and (eventually) Images.
Definition: Kernel.h:111

lsst::afw::math::detail::PYBIND11_MODULE
PYBIND11_MODULE(convolve, mod)
Definition: convolve.cc:68

lsst::geom::Box2I
An integer coordinate rectangle.
Definition: Box.h:55

lsst::afw::image::Image
A class to represent a 2-dimensional array of pixels.
Definition: Image.h:58

lsst::afw::math::DeltaFunctionKernel
A kernel that has only one non-zero pixel (of value 1)
Definition: Kernel.h:690