LSST Applications 27.0.0,g0265f82a02+469cd937ee,g02d81e74bb+21ad69e7e1,g1470d8bcf6+cbe83ee85a,g2079a07aa2+e67c6346a6,g212a7c68fe+04a9158687,g2305ad1205+94392ce272,g295015adf3+81dd352a9d,g2bbee38e9b+469cd937ee,g337abbeb29+469cd937ee,g3939d97d7f+72a9f7b576,g487adcacf7+71499e7cba,g50ff169b8f+5929b3527e,g52b1c1532d+a6fc98d2e7,g591dd9f2cf+df404f777f,g5a732f18d5+be83d3ecdb,g64a986408d+21ad69e7e1,g858d7b2824+21ad69e7e1,g8a8a8dda67+a6fc98d2e7,g99cad8db69+f62e5b0af5,g9ddcbc5298+d4bad12328,ga1e77700b3+9c366c4306,ga8c6da7877+71e4819109,gb0e22166c9+25ba2f69a1,gb6a65358fc+469cd937ee,gbb8dafda3b+69d3c0e320,gc07e1c2157+a98bf949bb,gc120e1dc64+615ec43309,gc28159a63d+469cd937ee,gcf0d15dbbd+72a9f7b576,gdaeeff99f8+a38ce5ea23,ge6526c86ff+3a7c1ac5f1,ge79ae78c31+469cd937ee,gee10cc3b42+a6fc98d2e7,gf1cff7945b+21ad69e7e1,gfbcc870c63+9a11dc8c8f
LSST Data Management Base Package
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Public Types | Public Member Functions | Public Attributes | List of all members
lsst::afw::math::LeastSquares::Impl Class Referenceabstract

Public Types

enum  StateFlags {
  LOWER_FISHER_MATRIX = 0x001 , FULL_FISHER_MATRIX = 0x002 , RHS_VECTOR = 0x004 , SOLUTION_ARRAY = 0x008 ,
  COVARIANCE_ARRAY = 0x010 , DIAGNOSTIC_ARRAY = 0x020 , DESIGN_AND_DATA = 0x040
}
 

Public Member Functions

template<typename D >
void setRank (Eigen::MatrixBase< D > const &values)
 
void ensure (int desired)
 
virtual void factor ()=0
 
virtual void updateRank ()=0
 
virtual void updateSolution ()=0
 
virtual void updateCovariance ()=0
 
virtual void updateDiagnostic ()=0
 
 Impl (int dimension_, Factorization factorization_, double threshold_=std::numeric_limits< double >::epsilon())
 
virtual ~Impl ()=default
 

Public Attributes

int state
 
int dimension
 
int rank
 
Factorization factorization
 
Factorization whichDiagnostic
 
double threshold
 
Eigen::MatrixXd design
 
Eigen::VectorXd data
 
Eigen::MatrixXd fisher
 
Eigen::VectorXd rhs
 
ndarray::Array< double, 1, 1 > solution
 
ndarray::Array< double, 2, 2 > covariance
 
ndarray::Array< double, 1, 1 > diagnostic
 

Detailed Description

Definition at line 43 of file LeastSquares.cc.

Member Enumeration Documentation

◆ StateFlags

enum lsst::afw::math::LeastSquares::Impl::StateFlags
Enumerator
LOWER_FISHER_MATRIX 
FULL_FISHER_MATRIX 
RHS_VECTOR 
SOLUTION_ARRAY 
COVARIANCE_ARRAY 
DIAGNOSTIC_ARRAY 
DESIGN_AND_DATA 

Definition at line 45 of file LeastSquares.cc.

45 {
46 LOWER_FISHER_MATRIX = 0x001,
47 FULL_FISHER_MATRIX = 0x002,
48 RHS_VECTOR = 0x004,
49 SOLUTION_ARRAY = 0x008,
50 COVARIANCE_ARRAY = 0x010,
51 DIAGNOSTIC_ARRAY = 0x020,
52 DESIGN_AND_DATA = 0x040
53 };

Constructor & Destructor Documentation

◆ Impl()

lsst::afw::math::LeastSquares::Impl::Impl ( int dimension_,
Factorization factorization_,
double threshold_ = std::numeric_limits<double>::epsilon() )
inlineexplicit

Definition at line 122 of file LeastSquares.cc.

126 :
127 state(0),
128 dimension(dimension_),
129 rank(dimension_),
130 factorization(factorization_),
131 whichDiagnostic(factorization_),
132 threshold(threshold_)
133 {}

◆ ~Impl()

virtual lsst::afw::math::LeastSquares::Impl::~Impl ( )
virtualdefault

Member Function Documentation

◆ ensure()

void lsst::afw::math::LeastSquares::Impl::ensure ( int desired)
inline

Definition at line 82 of file LeastSquares.cc.

82 {
83 if (state & FULL_FISHER_MATRIX) state |= LOWER_FISHER_MATRIX;
84 if (desired & FULL_FISHER_MATRIX) desired |= LOWER_FISHER_MATRIX;
85 int toAdd = ~state & desired;
86 if (toAdd & LOWER_FISHER_MATRIX) {
87 assert(state & DESIGN_AND_DATA);
88 fisher = Eigen::MatrixXd::Zero(design.cols(), design.cols());
89 fisher.selfadjointView<Eigen::Lower>().rankUpdate(design.adjoint());
90 }
91 if (toAdd & FULL_FISHER_MATRIX) {
92 fisher.triangularView<Eigen::StrictlyUpper>() = fisher.adjoint();
93 }
94 if (toAdd & RHS_VECTOR) {
95 assert(state & DESIGN_AND_DATA);
96 rhs = design.adjoint() * data;
97 }
98 if (toAdd & SOLUTION_ARRAY) {
99 if (solution.isEmpty()) solution = ndarray::allocate(dimension);
100 updateSolution();
101 }
102 if (toAdd & COVARIANCE_ARRAY) {
103 if (covariance.isEmpty()) covariance = ndarray::allocate(dimension, dimension);
104 updateCovariance();
105 }
106 if (toAdd & DIAGNOSTIC_ARRAY) {
107 if (diagnostic.isEmpty()) diagnostic = ndarray::allocate(dimension);
108 updateDiagnostic();
109 }
110 state |= toAdd;
111 }
lsst::afw::math::LeastSquares::Impl::solution
ndarray::Array< double, 1, 1 > solution
Definition LeastSquares.cc:67
lsst::afw::math::LeastSquares::Impl::covariance
ndarray::Array< double, 2, 2 > covariance
Definition LeastSquares.cc:68
lsst::afw::math::LeastSquares::Impl::diagnostic
ndarray::Array< double, 1, 1 > diagnostic
Definition LeastSquares.cc:69

◆ factor()

virtual void lsst::afw::math::LeastSquares::Impl::factor ( )
pure virtual

◆ setRank()

template<typename D >
void lsst::afw::math::LeastSquares::Impl::setRank ( Eigen::MatrixBase< D > const & values)
inline

Definition at line 72 of file LeastSquares.cc.

72 {
73 double cond = threshold * values[0];
74 if (cond <= 0.0) {
75 rank = 0;
76 } else {
77 for (rank = dimension; (rank > 1) && (values[rank - 1] < cond); --rank)
78 ;
79 }
80 }

◆ updateCovariance()

virtual void lsst::afw::math::LeastSquares::Impl::updateCovariance ( )
pure virtual

◆ updateDiagnostic()

virtual void lsst::afw::math::LeastSquares::Impl::updateDiagnostic ( )
pure virtual

◆ updateRank()

virtual void lsst::afw::math::LeastSquares::Impl::updateRank ( )
pure virtual

◆ updateSolution()

virtual void lsst::afw::math::LeastSquares::Impl::updateSolution ( )
pure virtual

Member Data Documentation

◆ covariance

ndarray::Array<double, 2, 2> lsst::afw::math::LeastSquares::Impl::covariance

Definition at line 68 of file LeastSquares.cc.

◆ data

Eigen::VectorXd lsst::afw::math::LeastSquares::Impl::data

Definition at line 63 of file LeastSquares.cc.

◆ design

Eigen::MatrixXd lsst::afw::math::LeastSquares::Impl::design

Definition at line 62 of file LeastSquares.cc.

◆ diagnostic

ndarray::Array<double, 1, 1> lsst::afw::math::LeastSquares::Impl::diagnostic

Definition at line 69 of file LeastSquares.cc.

◆ dimension

int lsst::afw::math::LeastSquares::Impl::dimension

Definition at line 56 of file LeastSquares.cc.

◆ factorization

Factorization lsst::afw::math::LeastSquares::Impl::factorization

Definition at line 58 of file LeastSquares.cc.

◆ fisher

Eigen::MatrixXd lsst::afw::math::LeastSquares::Impl::fisher

Definition at line 64 of file LeastSquares.cc.

◆ rank

int lsst::afw::math::LeastSquares::Impl::rank

Definition at line 57 of file LeastSquares.cc.

◆ rhs

Eigen::VectorXd lsst::afw::math::LeastSquares::Impl::rhs

Definition at line 65 of file LeastSquares.cc.

◆ solution

ndarray::Array<double, 1, 1> lsst::afw::math::LeastSquares::Impl::solution

Definition at line 67 of file LeastSquares.cc.

◆ state

int lsst::afw::math::LeastSquares::Impl::state

Definition at line 55 of file LeastSquares.cc.

◆ threshold

double lsst::afw::math::LeastSquares::Impl::threshold

Definition at line 60 of file LeastSquares.cc.

◆ whichDiagnostic

Factorization lsst::afw::math::LeastSquares::Impl::whichDiagnostic

Definition at line 59 of file LeastSquares.cc.

The documentation for this class was generated from the following file:
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