doxygen/xlink_master_2019_08_08_20.19.03/src_2kernel_candidate_8cc_source.html

 // -*- lsst-c++ -*-
 #include "boost/timer.hpp"

 #include "lsst/afw/math.h"
 #include "lsst/afw/image.h"
 #include "lsst/log/Log.h"
 #include "lsst/pex/exceptions/Runtime.h"

 #include "lsst/ip/diffim/KernelCandidate.h"
 #include "lsst/ip/diffim/ImageSubtract.h"
 #include "lsst/ip/diffim/ImageStatistics.h"
 #include "lsst/ip/diffim/KernelSolution.h"

 namespace afwMath = lsst::afw::math;
 namespace afwImage = lsst::afw::image;
 namespace pexExcept = lsst::pex::exceptions;

 namespace lsst {
 namespace ip {
 namespace diffim {

 template <typename PixelT>
 KernelCandidate<PixelT>::KernelCandidate(float const xCenter, float const yCenter,
                                          MaskedImagePtr const& templateMaskedImage,
                                          MaskedImagePtr const& scienceMaskedImage,
                                          lsst::pex::policy::Policy const& policy)
         : lsst::afw::math::SpatialCellImageCandidate(xCenter, yCenter),
           _templateMaskedImage(templateMaskedImage),
           _scienceMaskedImage(scienceMaskedImage),
           _varianceEstimate(),
           _policy(policy),
           _source(),
           _coreFlux(),
           _isInitialized(false),
           _useRegularization(false),
           _fitForBackground(_policy.getBool("fitForBackground")),
           _kernelSolutionOrig(),
           _kernelSolutionPca() {
     /* Rank by mean core S/N in science image */
     ImageStatistics<PixelT> imstats(_policy);
     int candidateCoreRadius = _policy.getInt("candidateCoreRadius");
     try {
         imstats.apply(*_scienceMaskedImage, candidateCoreRadius);
     } catch (pexExcept::Exception& e) {
         LOGL_DEBUG("TRACE2.ip.diffim.KernelCandidate",
                    "Unable to calculate core imstats for ranking Candidate %d", this->getId());
         this->setStatus(afwMath::SpatialCellCandidate::BAD);
         return;
     }

     _coreFlux = imstats.getMean();
     LOGL_DEBUG("TRACE4.ip.diffim.KernelCandidate", "Candidate %d at %.2f %.2f with ranking %.2f",
                this->getId(), this->getXCenter(), this->getYCenter(), _coreFlux);
 }

 template <typename PixelT>
 KernelCandidate<PixelT>::KernelCandidate(SourcePtr const& source, MaskedImagePtr const& templateMaskedImage,
                                          MaskedImagePtr const& scienceMaskedImage,
                                          lsst::pex::policy::Policy const& policy)
         : lsst::afw::math::SpatialCellImageCandidate(source->getX(), source->getY()),
           _templateMaskedImage(templateMaskedImage),
           _scienceMaskedImage(scienceMaskedImage),
           _varianceEstimate(),
           _policy(policy),
           _source(source),
           _coreFlux(source->getPsfInstFlux()),
           _isInitialized(false),
           _useRegularization(false),
           _fitForBackground(_policy.getBool("fitForBackground")),
           _kernelSolutionOrig(),
           _kernelSolutionPca() {
     LOGL_DEBUG("TRACE4.ip.diffim.KernelCandidate", "Candidate %d at %.2f %.2f with ranking %.2f",
                this->getId(), this->getXCenter(), this->getYCenter(), _coreFlux);
 }

 template <typename PixelT>
 void KernelCandidate<PixelT>::build(lsst::afw::math::KernelList const& basisList) {
     build(basisList, Eigen::MatrixXd());
 }

 template <typename PixelT>
 void KernelCandidate<PixelT>::build(lsst::afw::math::KernelList const& basisList,
                                     Eigen::MatrixXd const& hMat) {
     /* Examine the policy for control over the variance estimate */
     afwImage::Image<afwImage::VariancePixel> var =
             afwImage::Image<afwImage::VariancePixel>(*(_scienceMaskedImage->getVariance()), true);
     /* Variance estimate comes from sum of image variances */
     var += (*(_templateMaskedImage->getVariance()));

     if (_policy.getBool("constantVarianceWeighting")) {
         /* Constant variance weighting */
         afwMath::Statistics varStats = afwMath::makeStatistics(var, afwMath::MEDIAN);
         float varValue;
         if (varStats.getValue(afwMath::MEDIAN) <= 0.0)
             varValue = 1.0;
         else
             varValue = varStats.getValue(afwMath::MEDIAN);
         LOGL_DEBUG("TRACE4.ip.diffim.KernelCandidate", "Candidate %d using constant variance of %.2f",
                    this->getId(), varValue);
         var = varValue;
     }

     _varianceEstimate = VariancePtr(new afwImage::Image<afwImage::VariancePixel>(var));

     try {
         _buildKernelSolution(basisList, hMat);
     } catch (pexExcept::Exception& e) {
         throw e;
     }

     if (_policy.getBool("iterateSingleKernel") && (!(_policy.getBool("constantVarianceWeighting")))) {
         afwImage::MaskedImage<PixelT> diffim = getDifferenceImage(KernelCandidate::RECENT);
         _varianceEstimate = diffim.getVariance();

         try {
             _buildKernelSolution(basisList, hMat);
         } catch (pexExcept::Exception& e) {
             throw e;
         }
     }

     _isInitialized = true;
 }

 template <typename PixelT>
 void KernelCandidate<PixelT>::_buildKernelSolution(lsst::afw::math::KernelList const& basisList,
                                                    Eigen::MatrixXd const& hMat) {
     bool checkConditionNumber = _policy.getBool("checkConditionNumber");
     double maxConditionNumber = _policy.getDouble("maxConditionNumber");
     std::string conditionNumberType = _policy.getString("conditionNumberType");
     KernelSolution::ConditionNumberType ctype;
     if (conditionNumberType == "SVD") {
         ctype = KernelSolution::SVD;
     } else if (conditionNumberType == "EIGENVALUE") {
         ctype = KernelSolution::EIGENVALUE;
     } else {
         throw LSST_EXCEPT(pexExcept::Exception, "conditionNumberType not recognized");
     }

     /* Do we have a regularization matrix?  If so use it */
     if (hMat.size() > 0) {
         _useRegularization = true;
         LOGL_DEBUG("TRACE4.ip.diffim.KernelCandidate.build", "Using kernel regularization");

         if (_isInitialized) {
             _kernelSolutionPca = std::shared_ptr<StaticKernelSolution<PixelT> >(
                     new RegularizedKernelSolution<PixelT>(basisList, _fitForBackground, hMat, _policy));
             _kernelSolutionPca->build(*(_templateMaskedImage->getImage()), *(_scienceMaskedImage->getImage()),
                                       *_varianceEstimate);
             if (checkConditionNumber) {
                 if (_kernelSolutionPca->getConditionNumber(ctype) > maxConditionNumber) {
                     LOGL_DEBUG("TRACE4.ip.diffim.KernelCandidate",
                                "Candidate %d solution has bad condition number", this->getId());
                     this->setStatus(afwMath::SpatialCellCandidate::BAD);
                     return;
                 }
             }
             _kernelSolutionPca->solve();
         } else {
             _kernelSolutionOrig = std::shared_ptr<StaticKernelSolution<PixelT> >(
                     new RegularizedKernelSolution<PixelT>(basisList, _fitForBackground, hMat, _policy));
             _kernelSolutionOrig->build(*(_templateMaskedImage->getImage()),
                                        *(_scienceMaskedImage->getImage()), *_varianceEstimate);
             if (checkConditionNumber) {
                 if (_kernelSolutionOrig->getConditionNumber(ctype) > maxConditionNumber) {
                     LOGL_DEBUG("TRACE4.ip.diffim.KernelCandidate",
                                "Candidate %d solution has bad condition number", this->getId());
                     this->setStatus(afwMath::SpatialCellCandidate::BAD);
                     return;
                 }
             }
             _kernelSolutionOrig->solve();
         }
     } else {
         _useRegularization = false;
         LOGL_DEBUG("TRACE4.ip.diffim.KernelCandidate.build", "Not using kernel regularization");
         if (_isInitialized) {
             _kernelSolutionPca = std::shared_ptr<StaticKernelSolution<PixelT> >(
                     new StaticKernelSolution<PixelT>(basisList, _fitForBackground));
             _kernelSolutionPca->build(*(_templateMaskedImage->getImage()), *(_scienceMaskedImage->getImage()),
                                       *_varianceEstimate);
             if (checkConditionNumber) {
                 if (_kernelSolutionPca->getConditionNumber(ctype) > maxConditionNumber) {
                     LOGL_DEBUG("TRACE4.ip.diffim.KernelCandidate",
                                "Candidate %d solution has bad condition number", this->getId());
                     this->setStatus(afwMath::SpatialCellCandidate::BAD);
                     return;
                 }
             }
             _kernelSolutionPca->solve();
         } else {
             _kernelSolutionOrig = std::shared_ptr<StaticKernelSolution<PixelT> >(
                     new StaticKernelSolution<PixelT>(basisList, _fitForBackground));
             _kernelSolutionOrig->build(*(_templateMaskedImage->getImage()),
                                        *(_scienceMaskedImage->getImage()), *_varianceEstimate);
             if (checkConditionNumber) {
                 if (_kernelSolutionOrig->getConditionNumber(ctype) > maxConditionNumber) {
                     LOGL_DEBUG("TRACE4.ip.diffim.KernelCandidate",
                                "Candidate %d solution has bad condition number", this->getId());
                     this->setStatus(afwMath::SpatialCellCandidate::BAD);
                     return;
                 }
             }
             _kernelSolutionOrig->solve();
         }
     }
 }

 template <typename PixelT>
 std::shared_ptr<lsst::afw::math::Kernel> KernelCandidate<PixelT>::getKernel(CandidateSwitch cand) const {
     if (cand == KernelCandidate::ORIG) {
         if (_kernelSolutionOrig)
             return _kernelSolutionOrig->getKernel();
         else
             throw LSST_EXCEPT(pexExcept::Exception, "Original kernel does not exist");
     } else if (cand == KernelCandidate::PCA) {
         if (_kernelSolutionPca)
             return _kernelSolutionPca->getKernel();
         else
             throw LSST_EXCEPT(pexExcept::Exception, "Pca kernel does not exist");
     } else if (cand == KernelCandidate::RECENT) {
         if (_kernelSolutionPca)
             return _kernelSolutionPca->getKernel();
         else if (_kernelSolutionOrig)
             return _kernelSolutionOrig->getKernel();
         else
             throw LSST_EXCEPT(pexExcept::Exception, "No kernels exist");
     } else {
         throw LSST_EXCEPT(pexExcept::Exception, "Invalid CandidateSwitch, cannot get kernel");
     }
 }

 template <typename PixelT>
 double KernelCandidate<PixelT>::getBackground(CandidateSwitch cand) const {
     if (cand == KernelCandidate::ORIG) {
         if (_kernelSolutionOrig)
             return _kernelSolutionOrig->getBackground();
         else
             throw LSST_EXCEPT(pexExcept::Exception, "Original kernel does not exist");
     } else if (cand == KernelCandidate::PCA) {
         if (_kernelSolutionPca)
             return _kernelSolutionPca->getBackground();
         else
             throw LSST_EXCEPT(pexExcept::Exception, "Pca kernel does not exist");
     } else if (cand == KernelCandidate::RECENT) {
         if (_kernelSolutionPca)
             return _kernelSolutionPca->getBackground();
         else if (_kernelSolutionOrig)
             return _kernelSolutionOrig->getBackground();
         else
             throw LSST_EXCEPT(pexExcept::Exception, "No kernels exist");
     } else {
         throw LSST_EXCEPT(pexExcept::Exception, "Invalid CandidateSwitch, cannot get background");
     }
 }

 template <typename PixelT>
 double KernelCandidate<PixelT>::getKsum(CandidateSwitch cand) const {
     if (cand == KernelCandidate::ORIG) {
         if (_kernelSolutionOrig)
             return _kernelSolutionOrig->getKsum();
         else
             throw LSST_EXCEPT(pexExcept::Exception, "Original kernel does not exist");
     } else if (cand == KernelCandidate::PCA) {
         if (_kernelSolutionPca)
             return _kernelSolutionPca->getKsum();
         else
             throw LSST_EXCEPT(pexExcept::Exception, "Pca kernel does not exist");
     } else if (cand == KernelCandidate::RECENT) {
         if (_kernelSolutionPca)
             return _kernelSolutionPca->getKsum();
         else if (_kernelSolutionOrig)
             return _kernelSolutionOrig->getKsum();
         else
             throw LSST_EXCEPT(pexExcept::Exception, "No kernels exist");
     } else {
         throw LSST_EXCEPT(pexExcept::Exception, "Invalid CandidateSwitch, cannot get kSum");
     }
 }

 template <typename PixelT>
 std::shared_ptr<typename KernelCandidate<PixelT>::ImageT> KernelCandidate<PixelT>::getKernelImage(
         CandidateSwitch cand) const {
     if (cand == KernelCandidate::ORIG) {
         if (_kernelSolutionOrig)
             return _kernelSolutionOrig->makeKernelImage();
         else
             throw LSST_EXCEPT(pexExcept::Exception, "Original kernel does not exist");
     } else if (cand == KernelCandidate::PCA) {
         if (_kernelSolutionPca)
             return _kernelSolutionPca->makeKernelImage();
         else
             throw LSST_EXCEPT(pexExcept::Exception, "Pca kernel does not exist");
     } else if (cand == KernelCandidate::RECENT) {
         if (_kernelSolutionPca)
             return _kernelSolutionPca->makeKernelImage();
         else if (_kernelSolutionOrig)
             return _kernelSolutionOrig->makeKernelImage();
         else
             throw LSST_EXCEPT(pexExcept::Exception, "No kernels exist");
     } else {
         throw LSST_EXCEPT(pexExcept::Exception, "Invalid CandidateSwitch, cannot get kernel image");
     }
 }

 template <typename PixelT>
 std::shared_ptr<typename KernelCandidate<PixelT>::ImageT const> KernelCandidate<PixelT>::getImage() const {
     return getKernelImage(KernelCandidate::ORIG);
 }

 template <typename PixelT>
 std::shared_ptr<StaticKernelSolution<PixelT> > KernelCandidate<PixelT>::getKernelSolution(
         CandidateSwitch cand) const {
     if (cand == KernelCandidate::ORIG) {
         if (_kernelSolutionOrig)
             return _kernelSolutionOrig;
         else
             throw LSST_EXCEPT(pexExcept::Exception, "Original kernel does not exist");
     } else if (cand == KernelCandidate::PCA) {
         if (_kernelSolutionPca)
             return _kernelSolutionPca;
         else
             throw LSST_EXCEPT(pexExcept::Exception, "Pca kernel does not exist");
     } else if (cand == KernelCandidate::RECENT) {
         if (_kernelSolutionPca)
             return _kernelSolutionPca;
         else if (_kernelSolutionOrig)
             return _kernelSolutionOrig;
         else
             throw LSST_EXCEPT(pexExcept::Exception, "No kernels exist");
     } else {
         throw LSST_EXCEPT(pexExcept::Exception, "Invalid CandidateSwitch, cannot get solution");
     }
 }

 template <typename PixelT>
 lsst::afw::image::MaskedImage<PixelT> KernelCandidate<PixelT>::getDifferenceImage(CandidateSwitch cand) {
     if (cand == KernelCandidate::ORIG) {
         if (_kernelSolutionOrig)
             return getDifferenceImage(_kernelSolutionOrig->getKernel(), _kernelSolutionOrig->getBackground());
         else
             throw LSST_EXCEPT(pexExcept::Exception, "Original kernel does not exist");
     } else if (cand == KernelCandidate::PCA) {
         if (_kernelSolutionPca)
             return getDifferenceImage(_kernelSolutionPca->getKernel(), _kernelSolutionPca->getBackground());
         else
             throw LSST_EXCEPT(pexExcept::Exception, "Pca kernel does not exist");
     } else if (cand == KernelCandidate::RECENT) {
         if (_kernelSolutionPca)
             return getDifferenceImage(_kernelSolutionPca->getKernel(), _kernelSolutionPca->getBackground());
         else if (_kernelSolutionOrig)
             return getDifferenceImage(_kernelSolutionOrig->getKernel(), _kernelSolutionOrig->getBackground());
         else
             throw LSST_EXCEPT(pexExcept::Exception, "No kernels exist");
     } else {
         throw LSST_EXCEPT(pexExcept::Exception, "Invalid CandidateSwitch, cannot get diffim");
     }
 }

 template <typename PixelT>
 lsst::afw::image::MaskedImage<PixelT> KernelCandidate<PixelT>::getDifferenceImage(
         std::shared_ptr<lsst::afw::math::Kernel> kernel, double background) {
     /* Make diffim and set chi2 from result */
     afwImage::MaskedImage<PixelT> diffIm =
             convolveAndSubtract(*_templateMaskedImage, *_scienceMaskedImage, *kernel, background);
     return diffIm;
 }

 /***********************************************************************************************************/
 //
 // Explicit instantiations
 //
 typedef float PixelT;

 template class KernelCandidate<PixelT>;

 }  // namespace diffim
 }  // namespace ip
 }  // namespace lsst
math.h

lsst::ip::diffim::StaticKernelSolution
Definition: KernelSolution.h:83

lsst::afw::image::MaskedImage::getVariance
VariancePtr getVariance() const
Return a (shared_ptr to) the MaskedImage&#39;s variance.
Definition: MaskedImage.h:1091

lsst::ip::diffim::KernelSolution::SVD
Definition: KernelSolution.h:47

Runtime.h

lsst::afw::math::SpatialCellCandidate::setStatus
void setStatus(Status status)
Set the candidate&#39;s status.
Definition: SpatialCell.cc:54

std::shared_ptr< afw::image::MaskedImage< PixelT > >

lsst::ip::diffim::KernelCandidate::ORIG
Definition: KernelCandidate.h:50

lsst::ip::diffim::ImageStatistics::apply
void apply(lsst::afw::image::MaskedImage< PixelT > const &image)
Definition: ImageStatistics.h:87

lsst::ip::diffim::KernelCandidate::getBackground
double getBackground(CandidateSwitch cand) const
Definition: KernelCandidate.cc:244

lsst::ip::diffim::KernelCandidate
Class stored in SpatialCells for spatial Kernel fitting.
Definition: KernelCandidate.h:39

lsst.pex::policy::Policy
a container for holding hierarchical configuration data in memory.
Definition: Policy.h:169

kernel

lsst::afw::math::SpatialCellCandidate::getXCenter
float getXCenter() const
Return the object&#39;s column-centre.
Definition: SpatialCell.h:90

lsst::ip::diffim::KernelCandidate::getDifferenceImage
afw::image::MaskedImage< PixelT > getDifferenceImage(CandidateSwitch cand)
Calculate associated difference image using internal solutions.
Definition: KernelCandidate.cc:347

ImageStatistics.h
Image Subtraction helper functions.

lsst::ip::diffim::KernelCandidate::getKernelSolution
std::shared_ptr< StaticKernelSolution< PixelT > > getKernelSolution(CandidateSwitch cand) const
Definition: KernelCandidate.cc:322

lsst::ip::diffim::KernelCandidate::getKernel
std::shared_ptr< afw::math::Kernel > getKernel(CandidateSwitch cand) const
Return results of kernel solution.
Definition: KernelCandidate.cc:220

lsst::ip::diffim::KernelCandidate::build
void build(afw::math::KernelList const &basisList)
Core functionality of KernelCandidate, to build and fill a KernelSolution.
Definition: KernelCandidate.cc:87

lsst.pex::exceptions::Exception
Provides consistent interface for LSST exceptions.
Definition: Exception.h:107

lsst::ip::diffim::KernelCandidate::getKernelImage
boost::shared_ptr< ImageT > getKernelImage(CandidateSwitch cand) const
Definition: KernelCandidate.cc:292

lsst::ip::diffim::convolveAndSubtract
lsst::afw::image::MaskedImage< PixelT > convolveAndSubtract(lsst::afw::image::MaskedImage< PixelT > const &templateImage, lsst::afw::image::MaskedImage< PixelT > const &scienceMaskedImage, lsst::afw::math::Kernel const &convolutionKernel, BackgroundT background, bool invert=true)
Execute fundamental task of convolving template and subtracting it from science image.
Definition: ImageSubtract.cc:118

lsst::afw
Definition: imageAlgorithm.dox:1

lsst::afw::math::SpatialCellCandidate::getId
int getId() const
Return the candidate&#39;s unique ID.
Definition: SpatialCell.h:104

lsst.pex::policy::Policy::getString
const std::string getString(const std::string &name) const
return a string value associated with the given name .
Definition: Policy.h:631

LOGL_DEBUG
#define LOGL_DEBUG(logger, message...)
Log a debug-level message using a varargs/printf style interface.
Definition: Log.h:489

lsst::afw::math::Statistics
A class to evaluate image statistics.
Definition: Statistics.h:215

KernelSolution.h
Declaration of classes to store the solution for convolution kernels.

std::string
STL class.

Log.h
LSST DM logging module built on log4cxx.

lsst::ip::diffim::KernelCandidate::VariancePtr
std::shared_ptr< afw::image::Image< afw::image::VariancePixel > > VariancePtr
Definition: KernelCandidate.h:46

lsst::afw::math::MEDIAN
estimate sample median
Definition: Statistics.h:70

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

lsst::afw::math::SpatialCellImageCandidate::SpatialCellImageCandidate
SpatialCellImageCandidate(float const xCenter, float const yCenter)
ctor
Definition: SpatialCell.h:129

lsst::ip::diffim::KernelCandidate::PixelT
_PixelT PixelT
Definition: KernelCandidate.h:42

lsst::afw::math::makeStatistics
Statistics makeStatistics(lsst::afw::image::Image< Pixel > const &img, lsst::afw::image::Mask< image::MaskPixel > const &msk, int const flags, StatisticsControl const &sctrl=StatisticsControl())
Handle a watered-down front-end to the constructor (no variance)
Definition: Statistics.h:354

lsst::afw::image::MaskedImage
A class to manipulate images, masks, and variance as a single object.
Definition: MaskedImage.h:74

image.h

ast::detail::source
const char * source()
Source function that allows astChannel to source from a Stream.
Definition: Stream.h:224

lsst::afw::math
Definition: statistics.dox:6

KernelCandidate.h
Class used by SpatialModelCell for spatial Kernel fitting.

lsst::afw::math::Statistics::getValue
double getValue(Property const prop=NOTHING) const
Return the value of the desired property (if specified in the constructor)
Definition: Statistics.cc:1056

lsst.pex::policy::Policy::getBool
bool getBool(const std::string &name) const
return a boolean value associated with the given name.
Definition: Policy.h:589

lsst::ip::diffim::ImageStatistics
Class to calculate difference image statistics.
Definition: ImageStatistics.h:59

lsst.pex::policy::Policy::getDouble
double getDouble(const std::string &name) const
return a double value associated with the given name.
Definition: Policy.h:617

lsst.pex::exceptions
Definition: Exception.h:37

LSST_EXCEPT
#define LSST_EXCEPT(type,...)
Create an exception with a given type.
Definition: Exception.h:48

std::vector< std::shared_ptr< Kernel > >

lsst::ip::diffim::KernelCandidate::getImage
boost::shared_ptr< ImageT const  > getImage() const
Definition: KernelCandidate.cc:317

lsst::afw::math::SpatialCellCandidate::getYCenter
float getYCenter() const
Return the object&#39;s row-centre.
Definition: SpatialCell.h:93

lsst::ip::diffim::KernelSolution::ConditionNumberType
ConditionNumberType
Definition: KernelSolution.h:45

image
afw::table::Key< afw::table::Array< ImagePixelT > > image
Definition: HeavyFootprint.cc:216

lsst::ip::diffim::ImageStatistics::getMean
double getMean() const
Definition: ImageStatistics.h:130

lsst::ip::diffim::KernelCandidate::RECENT
Definition: KernelCandidate.h:52

lsst.pex::policy::Policy::getInt
int getInt(const std::string &name) const
return an integer value associated with the given name.
Definition: Policy.h:603

lsst::ip::diffim::KernelCandidate::CandidateSwitch
CandidateSwitch
Definition: KernelCandidate.h:49

lsst::ip::diffim::KernelSolution::EIGENVALUE
Definition: KernelSolution.h:46

lsst::ip::diffim::KernelCandidate::KernelCandidate
KernelCandidate(float const xCenter, float const yCenter, MaskedImagePtr const &templateMaskedImage, MaskedImagePtr const &scienceMaskedImage, pex::policy::Policy const &policy)
Constructor.
Definition: KernelCandidate.cc:33

lsst::afw::image
Backwards-compatibility support for depersisting the old Calib (FluxMag0/FluxMag0Err) objects...
Definition: imageAlgorithm.dox:1

lsst.pipe.drivers.visualizeVisit.background
background
Definition: visualizeVisit.py:39

lsst::afw::image::Image
A class to represent a 2-dimensional array of pixels.
Definition: Image.h:59

lsst::ip::diffim::RegularizedKernelSolution
Definition: KernelSolution.h:148

lsst::afw::math::SpatialCellCandidate::BAD
Definition: SpatialCell.h:72

ImageSubtract.h
Image Subtraction helper functions.

lsst::ip::diffim::KernelCandidate::getKsum
double getKsum(CandidateSwitch cand) const
Definition: KernelCandidate.cc:268

lsst::ip::diffim::KernelCandidate::PCA
Definition: KernelCandidate.h:51