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 // -*- lsst-c++ -*-


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 #include "lsst/afw/geom/ellipses/Transformer.h"


 #include "Eigen/LU"


 namespace lsst {

 namespace afw {

 namespace geom {

 namespace ellipses {


 std::shared_ptr<BaseCore> BaseCore::Transformer::copy() const {

     std::shared_ptr<BaseCore> r(input.clone());

     apply(*r);

     return r;

 }


 void BaseCore::Transformer::inPlace() { apply(input); }


 void BaseCore::Transformer::apply(BaseCore& result) const {

     Eigen::Matrix2d m;

     input._assignToQuadrupole(m(0, 0), m(1, 1), m(0, 1));

     m(1, 0) = m(0, 1);

     m = transform.getMatrix() * m * transform.getMatrix().transpose();

     result._assignFromQuadrupole(m(0, 0), m(1, 1), m(0, 1));

 }


 BaseCore::Transformer::DerivativeMatrix BaseCore::Transformer::d() const {

     std::shared_ptr<BaseCore> output(input.clone());

     Eigen::Matrix2d m;

     Jacobian rhs = input._dAssignToQuadrupole(m(0, 0), m(1, 1), m(0, 1));

     m(1, 0) = m(0, 1);

     m = transform.getMatrix() * m * transform.getMatrix().transpose();

     Jacobian lhs = output->_dAssignFromQuadrupole(m(0, 0), m(1, 1), m(0, 1));

     Jacobian mid = Jacobian::Zero();

     mid(0, 0) = transform[lsst::geom::LinearTransform::XX] * transform[lsst::geom::LinearTransform::XX];

     mid(0, 1) = transform[lsst::geom::LinearTransform::XY] * transform[lsst::geom::LinearTransform::XY];

     mid(0, 2) = 2 * transform[lsst::geom::LinearTransform::XY] * transform[lsst::geom::LinearTransform::XX];

     mid(1, 0) = transform[lsst::geom::LinearTransform::YX] * transform[lsst::geom::LinearTransform::YX];

     mid(1, 1) = transform[lsst::geom::LinearTransform::YY] * transform[lsst::geom::LinearTransform::YY];

     mid(1, 2) = 2 * transform[lsst::geom::LinearTransform::YY] * transform[lsst::geom::LinearTransform::YX];

     mid(2, 0) = transform[lsst::geom::LinearTransform::YX] * transform[lsst::geom::LinearTransform::XX];

     mid(2, 1) = transform[lsst::geom::LinearTransform::YY] * transform[lsst::geom::LinearTransform::XY];

     mid(2, 2) = transform[lsst::geom::LinearTransform::XX] * transform[lsst::geom::LinearTransform::YY] +

                 transform[lsst::geom::LinearTransform::XY] * transform[lsst::geom::LinearTransform::YX];

     return lhs * mid * rhs;

 }


 BaseCore::Transformer::TransformDerivativeMatrix BaseCore::Transformer::dTransform() const {

     std::shared_ptr<BaseCore> output(input.clone());

     Eigen::Matrix2d m;

     input._assignToQuadrupole(m(0, 0), m(1, 1), m(0, 1));

     Eigen::Matrix<double, 3, 4> mid = Eigen::Matrix<double, 3, 4>::Zero();

     m(1, 0) = m(0, 1);

     mid(0, lsst::geom::LinearTransform::XX) = 2.0 * (transform[lsst::geom::LinearTransform::XX] * m(0, 0) +

                                                      transform[lsst::geom::LinearTransform::XY] * m(0, 1));

     mid(0, lsst::geom::LinearTransform::XY) = 2.0 * (transform[lsst::geom::LinearTransform::XX] * m(0, 1) +

                                                      transform[lsst::geom::LinearTransform::XY] * m(1, 1));

     mid(1, lsst::geom::LinearTransform::YX) = 2.0 * (transform[lsst::geom::LinearTransform::YX] * m(0, 0) +

                                                      transform[lsst::geom::LinearTransform::YY] * m(0, 1));

     mid(1, lsst::geom::LinearTransform::YY) = 2.0 * (transform[lsst::geom::LinearTransform::YX] * m(0, 1) +

                                                      transform[lsst::geom::LinearTransform::YY] * m(1, 1));

     mid(2, lsst::geom::LinearTransform::XX) = transform[lsst::geom::LinearTransform::YX] * m(0, 0) +

                                               transform[lsst::geom::LinearTransform::YY] * m(0, 1);

     mid(2, lsst::geom::LinearTransform::XY) = transform[lsst::geom::LinearTransform::YX] * m(0, 1) +

                                               transform[lsst::geom::LinearTransform::YY] * m(1, 1);

     mid(2, lsst::geom::LinearTransform::YX) = transform[lsst::geom::LinearTransform::XX] * m(0, 0) +

                                               transform[lsst::geom::LinearTransform::XY] * m(0, 1);

     mid(2, lsst::geom::LinearTransform::YY) = transform[lsst::geom::LinearTransform::XX] * m(0, 1) +

                                               transform[lsst::geom::LinearTransform::XY] * m(1, 1);

     m = transform.getMatrix() * m * transform.getMatrix().transpose();

     Jacobian lhs = output->_dAssignFromQuadrupole(m(0, 0), m(1, 1), m(0, 1));

     return lhs * mid;

 }


 std::shared_ptr<Ellipse> Ellipse::Transformer::copy() const {

     std::shared_ptr<Ellipse> r = std::make_shared<Ellipse>(

             input.getCore().transform(transform.getLinear()).copy(), transform(input.getCenter()));

     return r;

 }


 void Ellipse::Transformer::inPlace() {

     input.setCenter(transform(input.getCenter()));

     input.getCore().transform(transform.getLinear()).inPlace();

 }


 Ellipse::Transformer::DerivativeMatrix Ellipse::Transformer::d() const {

     DerivativeMatrix r = DerivativeMatrix::Zero();

     r.block<2, 2>(3, 3) = transform.getLinear().getMatrix();

     r.block<3, 3>(0, 0) = input.getCore().transform(transform.getLinear()).d();

     return r;

 }


 Ellipse::Transformer::TransformDerivativeMatrix Ellipse::Transformer::dTransform() const {

     TransformDerivativeMatrix r = TransformDerivativeMatrix::Zero();

     r.block<2, 6>(3, 0) = transform.dTransform(input.getCenter());

     r.block<3, 4>(0, 0) = input.getCore().transform(transform.getLinear()).dTransform();

     return r;

 }

 }  // namespace ellipses

 }  // namespace geom

 }  // namespace afw

 }  // namespace lsst

result
py::object result
Definition: _schema.cc:429

m
int m
Definition: SpanSet.cc:48

Transformer.h

lsst::afw::geom::ellipses::BaseCore::Transformer::d
DerivativeMatrix d() const
Return the derivative of transformed core with respect to input core.
Definition: Transformer.cc:49

lsst::afw::geom::ellipses::BaseCore::Transformer::inPlace
void inPlace()
Transform the ellipse core in-place.
Definition: Transformer.cc:39

lsst::afw::geom::ellipses::BaseCore::Transformer::dTransform
TransformDerivativeMatrix dTransform() const
Return the derivative of transformed core with respect to transform parameters.
Definition: Transformer.cc:70

lsst::afw::geom::ellipses::BaseCore::Transformer::transform
lsst::geom::LinearTransform const  & transform
transform object
Definition: Transformer.h:76

lsst::afw::geom::ellipses::BaseCore::Transformer::copy
std::shared_ptr< BaseCore > copy() const
Return a new transformed ellipse core.
Definition: Transformer.cc:33

lsst::afw::geom::ellipses::BaseCore::Transformer::TransformDerivativeMatrix
Eigen::Matrix< double, 3, 4 > TransformDerivativeMatrix
Matrix type for derivative with respect to transform parameters.
Definition: Transformer.h:55

lsst::afw::geom::ellipses::BaseCore::Transformer::input
BaseCore & input
input core to be transformed
Definition: Transformer.h:75

lsst::afw::geom::ellipses::BaseCore::Transformer::DerivativeMatrix
Eigen::Matrix3d DerivativeMatrix
Matrix type for derivative with respect to input ellipse parameters.
Definition: Transformer.h:52

lsst::afw::geom::ellipses::BaseCore::Transformer::apply
void apply(BaseCore &result) const
Definition: Transformer.cc:41

lsst::afw::geom::ellipses::BaseCore
A base class for parametrizations of the "core" of an ellipse - the ellipticity and size.
Definition: BaseCore.h:55

lsst::afw::geom::ellipses::BaseCore::clone
std::shared_ptr< BaseCore > clone() const
Deep-copy the Core.
Definition: BaseCore.h:82

lsst::afw::geom::ellipses::BaseCore::transform
Transformer transform(lsst::geom::LinearTransform const &transform)
Return the transform that maps the ellipse to the unit circle.
Definition: Transformer.h:116

lsst::afw::geom::ellipses::BaseCore::Jacobian
Eigen::Matrix3d Jacobian
Parameter Jacobian matrix type.
Definition: BaseCore.h:64

lsst::afw::geom::ellipses::Ellipse::Transformer::inPlace
void inPlace()
Transform the ellipse in-place.
Definition: Transformer.cc:103

lsst::afw::geom::ellipses::Ellipse::Transformer::DerivativeMatrix
Eigen::Matrix< double, 5, 5 > DerivativeMatrix
Matrix type for derivative with respect to input ellipse parameters.
Definition: Transformer.h:89

lsst::afw::geom::ellipses::Ellipse::Transformer::dTransform
TransformDerivativeMatrix dTransform() const
Return the derivative of transform output ellipse with respect to transform parameters.
Definition: Transformer.cc:115

lsst::afw::geom::ellipses::Ellipse::Transformer::copy
std::shared_ptr< Ellipse > copy() const
Return a new transformed ellipse.
Definition: Transformer.cc:97

lsst::afw::geom::ellipses::Ellipse::Transformer::d
DerivativeMatrix d() const
Return the derivative of transform output ellipse with respect to input ellipse.
Definition: Transformer.cc:108

lsst::afw::geom::ellipses::Ellipse::Transformer::TransformDerivativeMatrix
Eigen::Matrix< double, 5, 6 > TransformDerivativeMatrix
Matrix type for derivative with respect to transform parameters.
Definition: Transformer.h:92

lsst::geom::LinearTransform::YX
@ YX
Definition: LinearTransform.h:71

lsst::geom::LinearTransform::YY
@ YY
Definition: LinearTransform.h:71

lsst::geom::LinearTransform::XX
@ XX
Definition: LinearTransform.h:71

lsst::geom::LinearTransform::XY
@ XY
Definition: LinearTransform.h:71

lsst::afw
Definition: imageAlgorithm.dox:1

lsst::geom
Definition: AffineTransform.h:36

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

std::shared_ptr