1.5.1
CCC
 
ACovAnisoList Class Reference

This class describes the Covariance as a list of elementary covariances (see CovAniso.hpp for more details) where the calculation rule is simple: the returned value is the sum of each elementary (active) covariance function. More...

#include <ACovAnisoList.hpp>

Inheritance diagram for ACovAnisoList:
ACov ICloneable ASpaceObject AStringable CovLMCAnamorphosis CovLMCConvolution CovLMCTapering CovLMGradient

Detailed Description

This class describes the Covariance as a list of elementary covariances (see CovAniso.hpp for more details) where the calculation rule is simple: the returned value is the sum of each elementary (active) covariance function.

This class also carry two other important informations:

  • a vector giving the status of each elementary covariance item: it may be active or filtered
  • a complex structure allowing each parameter (range, sill, anisotropy angle, ...) of each of the elementary covariances to be non-stationary (to have a value which depends on the location). For more details, see ANoStat.hpp.

Public Member Functions

 ACovAnisoList (const ASpace *space=nullptr)
 
 ACovAnisoList (const ACovAnisoList &r)
 
ACovAnisoListoperator= (const ACovAnisoList &r)
 
virtual ~ACovAnisoList ()
 
virtual bool isConsistent (const ASpace *space) const override
 ICloneable interface. More...
 
virtual int getNVariables () const override
 Interface for ACov. More...
 
virtual bool isIndexable () const override
 
virtual double eval0 (int ivar=0, int jvar=0, const CovCalcMode *mode=nullptr) const override
 Calculate the covariance between two variables for 0-distance (stationary case) More...
 
virtual double eval (const SpacePoint &p1, const SpacePoint &p2, int ivar=0, int jvar=0, const CovCalcMode *mode=nullptr) const override
 Calculate the covariance between two variables and two points (general case) More...
 
virtual void addEval0CovMatBiPointInPlace (MatrixSquareGeneral &mat, const CovCalcMode *mode=nullptr) const override
 
virtual void _addEvalCovMatBiPointInPlace (MatrixSquareGeneral &mat, const SpacePoint &p1, const SpacePoint &p2, const CovCalcMode *mode=nullptr) const override
 
virtual void updateCovByPoints (int icas1, int iech1, int icas2, int iech2) override
 
virtual String toString (const AStringFormat *strfmt=nullptr) const override
 Interface for AStringable Interface. More...
 
virtual void addCov (const CovAniso *cov)
 ACovAnisoList Interface. More...
 
virtual bool hasAnam () const
 
virtual const AAnamgetAnam () const
 
virtual void setActiveFactor (int)
 
virtual int getActiveFactor () const
 
virtual int getAnamNClass () const
 
void addCovList (const ACovAnisoList *covs)
 
void delCov (int icov)
 
void delAllCov ()
 
void setFiltered (int icov, bool filtered)
 
int getCovaNumber (bool skipNugget=false) const
 
bool isFiltered (int icov) const
 
bool hasRange () const
 
bool isStationary () const
 
double getMaximumDistance () const
 
double getTotalSill (int ivar, int jvar) const
 
MatrixSquareSymmetric getTotalSill () const
 
void normalize (double sill=1., int ivar=0, int jvar=0)
 
VectorInt getActiveCovList () const
 
VectorInt getAllActiveCovList () const
 
bool isAllActiveCovList () const
 
bool isNoStat () const override
 
const CovAnisogetCova (int icov) const
 TODO : to be removed (encapsulation) More...
 
CovAnisogetCova (int icov)
 
void setCova (int icov, CovAniso *covs)
 
const ECov & getType (int icov) const
 
String getCovName (int icov) const
 
void setRangeIsotropic (int icov, double range)
 
void setType (int icov, const ECov &type)
 
void setParam (int icov, double value)
 
void setSill (int icov, int ivar, int jvar, double value)
 
void setMarkovCoeffs (int icov, VectorDouble coeffs)
 
double getParam (int icov) const
 
double getRange (int icov) const
 
VectorDouble getRanges (int icov) const
 
const MatrixSquareSymmetricgetSill (int icov) const
 
double getSill (int icov, int ivar, int jvar) const
 
int getGradParamNumber (int icov) const
 
CovAniso extractCova (int icov) const
 
int getCovaMinIRFOrder () const
 
void _optimizationPreProcess (const std::vector< SpacePoint > &p) const override
 
void _optimizationPostProcess () const override
 
void _optimizationSetTarget (const SpacePoint &pt) const override
 
void optimizationSetTargetByIndex (int iech) const override
 
MatrixRectangular evalCovMatrixOptim (const Db *db1, const Db *db2, int ivar0=-1, int jvar0=-1, const VectorInt &nbgh1=VectorInt(), const VectorInt &nbgh2=VectorInt(), const CovCalcMode *mode=nullptr) const
 
MatrixSquareSymmetric evalCovMatrixSymmetricOptim (const Db *db1, int ivar0=-1, const VectorInt &nbgh1=VectorInt(), const CovCalcMode *mode=nullptr) const
 
void copyCovContext (const CovContext &ctxt)
 
bool hasNugget () const
 
int getRankNugget () const
 
const ACovAnisoListcreateReduce (const VectorInt &validVars) const
 
- Public Member Functions inherited from ACov
 ACov (const ASpace *space=nullptr)
 
 ACov (const ACov &r)
 
ACovoperator= (const ACov &r)
 
virtual ~ACov ()
 
virtual void eval0CovMatBiPointInPlace (MatrixSquareGeneral &mat, const CovCalcMode *mode=nullptr) const
 Calculate the matrix of covariances for 0-distance (stationary case) More...
 
virtual void evalCovMatBiPointInPlace (MatrixSquareGeneral &mat, const SpacePoint &p1, const SpacePoint &p2, const CovCalcMode *mode=nullptr) const
 Calculate the matrix of covariances between two points (general case) More...
 
virtual void addEvalCovMatBiPointInPlace (MatrixSquareGeneral &mat, const SpacePoint &pwork1, const SpacePoint &pwork2, const CovCalcMode *mode) const
 
void evalCovKriging (MatrixSquareGeneral &mat, SpacePoint &pwork1, SpacePoint &pout, const CovCalcMode *mode=nullptr) const
 
virtual double evalCovOnSphere (double alpha, int degree=50, bool flagScaleDistance=false, const CovCalcMode *mode=nullptr) const
 
virtual VectorDouble evalSpectrumOnSphere (int n, bool flagNormDistance=false, bool flagCumul=false) const
 
virtual double evalSpectrum (const VectorDouble &freq, int ivar, int jvar) const
 
void optimizationSetTarget (const SpacePoint &pt) const
 
void optimizationPreProcess (const Db *db) const
 
void optimizationPreProcess (const std::vector< SpacePoint > &p) const
 
void optimizationPostProcess () const
 
virtual bool isOptimEnabled () const
 
VectorDouble eval (const std::vector< SpacePoint > &vec_p1, const std::vector< SpacePoint > &vec_p2, int ivar=0, int jvar=0, const CovCalcMode *mode=nullptr) const
 
MatrixSquareGeneral eval0Mat (const CovCalcMode *mode=nullptr) const
 
MatrixSquareGeneral evalMat (const SpacePoint &p1, const SpacePoint &p2, const CovCalcMode *mode=nullptr) const
 
double evalIvarIpas (double step, const VectorDouble &dir=VectorDouble(), int ivar=0, int jvar=0, const CovCalcMode *mode=nullptr) const
 
double evalIvarIpasIncr (const VectorDouble &dincr, int ivar=0, int jvar=0, const CovCalcMode *mode=nullptr) const
 
VectorDouble evalIvarNpas (const VectorDouble &vec_step, const VectorDouble &dir=VectorDouble(), int ivar=0, int jvar=0, const CovCalcMode *mode=nullptr) const
 
MatrixSquareGeneral evalNvarIpas (double step, const VectorDouble &dir=VectorDouble(), const CovCalcMode *mode=nullptr) const
 
MatrixSquareGeneral evalNvarIpasIncr (const VectorDouble &dincr, const CovCalcMode *mode=nullptr) const
 
double evalIsoIvarIpas (double step, int ivar=0, int jvar=0, const CovCalcMode *mode=nullptr) const
 
VectorDouble evalIsoIvarNpas (const VectorDouble &vec_step, int ivar=0, int jvar=0, const CovCalcMode *mode=nullptr) const
 
MatrixSquareGeneral evalIsoNvarIpas (double step, const CovCalcMode *mode=nullptr) const
 
double evalCvv (const VectorDouble &ext, const VectorInt &ndisc, const VectorDouble &angles=VectorDouble(), int ivar=0, int jvar=0, const CovCalcMode *mode=nullptr) const
 
double evalCvvShift (const VectorDouble &ext, const VectorInt &ndisc, const VectorDouble &shift, const VectorDouble &angles=VectorDouble(), int ivar=0, int jvar=0, const CovCalcMode *mode=nullptr) const
 
MatrixSquareGeneral evalCvvM (const VectorDouble &ext, const VectorInt &ndisc, const VectorDouble &angles=VectorDouble(), const CovCalcMode *mode=nullptr) const
 
double evalCxv (const SpacePoint &p1, const VectorDouble &ext, const VectorInt &ndisc, const VectorDouble &angles=VectorDouble(), const VectorDouble &x0=VectorDouble(), int ivar=0, int jvar=0, const CovCalcMode *mode=nullptr) const
 
double evalCxv (const Db *db, const VectorDouble &ext, const VectorInt &ndisc, const VectorDouble &angles=VectorDouble(), const VectorDouble &x0=VectorDouble(), int ivar=0, int jvar=0, const CovCalcMode *mode=nullptr) const
 
MatrixSquareGeneral evalCxvM (const SpacePoint &p1, const VectorDouble &ext, const VectorInt &ndisc, const VectorDouble &angles=VectorDouble(), const VectorDouble &x0=VectorDouble(), const CovCalcMode *mode=nullptr) const
 
VectorDouble evalPointToDb (const SpacePoint &p1, const Db *db2, int ivar=0, int jvar=0, bool useSel=true, const VectorInt &nbgh2=VectorInt(), const CovCalcMode *mode=nullptr) const
 
VectorDouble evalPointToDbAsSP (const std::vector< SpacePoint > &p1s, const SpacePoint &p2, int ivar=0, int jvar=0, const CovCalcMode *mode=nullptr) const
 
double evalAverageDbToDb (const Db *db1, const Db *db2, int ivar=0, int jvar=0, double eps=0., int seed=434132, const CovCalcMode *mode=nullptr) const
 
double evalAverageIncrToIncr (const VectorVectorDouble &d1, const VectorVectorDouble &d2, int ivar=0, int jvar=0, const CovCalcMode *mode=nullptr) const
 
double evalAveragePointToDb (const SpacePoint &p1, const Db *db2, int ivar=0, int jvar=0, const CovCalcMode *mode=nullptr) const
 
MatrixRectangular evalCovMatrix (const Db *db1_arg, const Db *db2_arg=nullptr, int ivar0=-1, int jvar0=-1, const VectorInt &nbgh1=VectorInt(), const VectorInt &nbgh2=VectorInt(), const CovCalcMode *mode=nullptr)
 
MatrixSquareSymmetric evalCovMatrixSymmetric (const Db *db1, int ivar0, const VectorInt &nbgh1, const CovCalcMode *mode)
 
MatrixSparseevalCovMatrixSparse (const Db *db1_arg, const Db *db2_arg=nullptr, int ivar0=-1, int jvar0=-1, const VectorInt &nbgh1=VectorInt(), const VectorInt &nbgh2=VectorInt(), const CovCalcMode *mode=nullptr, double eps=EPSILON3)
 
double extensionVariance (const Db *db, const VectorDouble &ext, const VectorInt &ndisc, const VectorDouble &angles=VectorDouble(), const VectorDouble &x0=VectorDouble(), int ivar=0, int jvar=0) const
 
double samplingDensityVariance (const Db *db, const VectorDouble &ext, const VectorInt &ndisc, const VectorDouble &angles=VectorDouble(), const VectorDouble &x0=VectorDouble(), int ivar=0, int jvar=0) const
 
double specificVolume (const Db *db, double mean, const VectorDouble &ext, const VectorInt &ndisc, const VectorDouble &angles=VectorDouble(), const VectorDouble &x0=VectorDouble(), int ivar=0, int jvar=0) const
 
double coefficientOfVariation (const Db *db, double volume, double mean, const VectorDouble &ext, const VectorInt &ndisc, const VectorDouble &angles=VectorDouble(), const VectorDouble &x0=VectorDouble(), int ivar=0, int jvar=0) const
 
double specificVolumeFromCoV (Db *db, double cov, double mean, const VectorDouble &ext, const VectorInt &ndisc, const VectorDouble &angles=VectorDouble(), const VectorDouble &x0=VectorDouble(), int ivar=0, int jvar=0) const
 
void manage (const Db *db1, const Db *db2) const
 
void load (const SpacePoint &p, bool case1) const
 
void loadAndAddEvalCovMatBiPointInPlace (MatrixSquareGeneral &mat, const SpacePoint &p1, const SpacePoint &p2, const CovCalcMode *mode=nullptr) const
 
double loadAndEval (const SpacePoint &p1, const SpacePoint &p2, int ivar, int jvar, const CovCalcMode *mode) const
 
- Public Member Functions inherited from ASpaceObject
 ASpaceObject (const ASpace *space=nullptr)
 
 ASpaceObject (const ASpace &space)
 
 ASpaceObject (const ASpaceObject &r)
 
ASpaceObjectoperator= (const ASpaceObject &r)
 
virtual ~ASpaceObject ()
 
const ASpacegetSpace () const
 Accessor to the current object space context. More...
 
bool isConsistent () const
 Indicate if I am consistent with my current space context. More...
 
VectorDouble getUnitaryVector () const
 Return unitary vector for the current space context. More...
 
unsigned int getNDim (int ispace=-1) const
 Shortcuts to ASpace methods. More...
 
const VectorDoublegetOrigin (int ispace=-1) const
 Return the current space context origin coordinates. More...
 
double getDistance (const SpacePoint &p1, const SpacePoint &p2, int ispace=0) const
 Return the distance between two space points for the current space context. More...
 
VectorDouble getDistances (const SpacePoint &p1, const SpacePoint &p2) const
 Return all the distances (space composits) between two space points for the current space context. More...
 
VectorDouble getIncrement (const SpacePoint &p1, const SpacePoint &p2, int ispace=0) const
 Return the increment vector between two space points for the current space context. More...
 
- Public Member Functions inherited from AStringable
 AStringable ()
 
 AStringable (const AStringable &r)
 
AStringableoperator= (const AStringable &r)
 
virtual ~AStringable ()
 
virtual void display (const AStringFormat *strfmt=nullptr) const final
 
virtual void display (int level) const final
 
- Public Member Functions inherited from ICloneable
 ICloneable ()
 
virtual ~ICloneable ()
 
virtual ICloneableclone () const =0
 

Constructor & Destructor Documentation

◆ ACovAnisoList() [1/2]

ACovAnisoList::ACovAnisoList ( const ASpace space = nullptr)

◆ ACovAnisoList() [2/2]

ACovAnisoList::ACovAnisoList ( const ACovAnisoList r)

◆ ~ACovAnisoList()

ACovAnisoList::~ACovAnisoList ( )
virtual

Member Function Documentation

◆ _addEvalCovMatBiPointInPlace()

void ACovAnisoList::_addEvalCovMatBiPointInPlace ( MatrixSquareGeneral mat,
const SpacePoint p1,
const SpacePoint p2,
const CovCalcMode mode = nullptr 
) const
overridevirtual

Calculate the Matrix of covariance between two space points

Parameters
p1Reference of the first space point
p2Reference of the second space point
matCovariance matrix (Dimension: nvar * nvar)
modeCalculation Options
Remarks
: Matrix 'mat' should be dimensioned and initialized beforehand

Reimplemented from ACov.

◆ _optimizationPostProcess()

void ACovAnisoList::_optimizationPostProcess ( ) const
overridevirtual

Reimplemented from ACov.

◆ _optimizationPreProcess()

void ACovAnisoList::_optimizationPreProcess ( const std::vector< SpacePoint > &  p) const
overridevirtual

Reimplemented from ACov.

◆ _optimizationSetTarget()

void ACovAnisoList::_optimizationSetTarget ( const SpacePoint pt) const
overridevirtual

Reimplemented from ACov.

◆ addCov()

void ACovAnisoList::addCov ( const CovAniso cov)
virtual

ACovAnisoList Interface.

Reimplemented in CovLMGradient, and CovLMCAnamorphosis.

◆ addCovList()

void ACovAnisoList::addCovList ( const ACovAnisoList covs)

◆ addEval0CovMatBiPointInPlace()

void ACovAnisoList::addEval0CovMatBiPointInPlace ( MatrixSquareGeneral mat,
const CovCalcMode mode = nullptr 
) const
overridevirtual

Calculate the Matrix of covariance for zero distance

Parameters
matCovariance matrix (Dimension: nvar * nvar)
modeCalculation Options
Remarks
: Matrix 'mat' should be dimensioned and initialized beforehand

Reimplemented from ACov.

◆ copyCovContext()

void ACovAnisoList::copyCovContext ( const CovContext ctxt)

◆ createReduce()

const ACovAnisoList * ACovAnisoList::createReduce ( const VectorInt validVars) const

◆ delAllCov()

void ACovAnisoList::delAllCov ( )

◆ delCov()

void ACovAnisoList::delCov ( int  icov)

◆ eval()

double ACovAnisoList::eval ( const SpacePoint p1,
const SpacePoint p2,
int  ivar = 0,
int  jvar = 0,
const CovCalcMode mode = nullptr 
) const
overridevirtual

Calculate the covariance between two variables and two points (general case)

Implements ACov.

Reimplemented in CovLMCConvolution, CovLMCAnamorphosis, and CovLMCTapering.

◆ eval0()

double ACovAnisoList::eval0 ( int  ivar = 0,
int  jvar = 0,
const CovCalcMode mode = nullptr 
) const
overridevirtual

Calculate the covariance between two variables for 0-distance (stationary case)

Reimplemented from ACov.

Reimplemented in CovLMCTapering, CovLMCConvolution, and CovLMCAnamorphosis.

◆ evalCovMatrixOptim()

MatrixRectangular ACovAnisoList::evalCovMatrixOptim ( const Db db1,
const Db db2,
int  ivar0 = -1,
int  jvar0 = -1,
const VectorInt nbgh1 = VectorInt(),
const VectorInt nbgh2 = VectorInt(),
const CovCalcMode mode = nullptr 
) const

Evaluate the covariance rectangular matrix between samples of input 'db1' and 'db2'

Parameters
db1Input Db
db2Output db
ivar0Rank of the first variable (-1 for all variables)
jvar0Rank of the second variable (-1 for all variables)
nbgh1Vector of indices of active samples in db1 (optional)
nbgh2Vector of indices of active samples in db2 (optional)
modeCovCalcMode structure
Returns

◆ evalCovMatrixSymmetricOptim()

MatrixSquareSymmetric ACovAnisoList::evalCovMatrixSymmetricOptim ( const Db db1,
int  ivar0 = -1,
const VectorInt nbgh1 = VectorInt(),
const CovCalcMode mode = nullptr 
) const

Evaluate the covariance matrix between samples of input 'db1'

Parameters
db1Input Db
ivar0Rank of the first variable (-1 for all variables)
nbgh1Vector of indices of active samples in db1 (optional)
modeCovCalcMode structure
Returns

◆ extractCova()

CovAniso ACovAnisoList::extractCova ( int  icov) const

◆ getActiveCovList()

VectorInt ACovAnisoList::getActiveCovList ( ) const

◆ getActiveFactor()

virtual int ACovAnisoList::getActiveFactor ( ) const
inlinevirtual

Reimplemented in CovLMCAnamorphosis.

◆ getAllActiveCovList()

VectorInt ACovAnisoList::getAllActiveCovList ( ) const

◆ getAnam()

virtual const AAnam* ACovAnisoList::getAnam ( ) const
inlinevirtual

Reimplemented in CovLMCAnamorphosis.

◆ getAnamNClass()

virtual int ACovAnisoList::getAnamNClass ( ) const
inlinevirtual

Reimplemented in CovLMCAnamorphosis.

◆ getCova() [1/2]

CovAniso * ACovAnisoList::getCova ( int  icov)

◆ getCova() [2/2]

const CovAniso * ACovAnisoList::getCova ( int  icov) const

TODO : to be removed (encapsulation)

◆ getCovaMinIRFOrder()

int ACovAnisoList::getCovaMinIRFOrder ( ) const
Returns
The Minimum IRF-order induced by the covariances

◆ getCovaNumber()

int ACovAnisoList::getCovaNumber ( bool  skipNugget = false) const

◆ getCovName()

String ACovAnisoList::getCovName ( int  icov) const

◆ getGradParamNumber()

int ACovAnisoList::getGradParamNumber ( int  icov) const

◆ getMaximumDistance()

double ACovAnisoList::getMaximumDistance ( ) const

Returns the largest range (in any direction in the heterotopic case)

Returns

◆ getNVariables()

int ACovAnisoList::getNVariables ( ) const
overridevirtual

Interface for ACov.

Implements ACov.

◆ getParam()

double ACovAnisoList::getParam ( int  icov) const

◆ getRange()

double ACovAnisoList::getRange ( int  icov) const

◆ getRanges()

VectorDouble ACovAnisoList::getRanges ( int  icov) const

◆ getRankNugget()

int ACovAnisoList::getRankNugget ( ) const

◆ getSill() [1/2]

const MatrixSquareSymmetric & ACovAnisoList::getSill ( int  icov) const

◆ getSill() [2/2]

double ACovAnisoList::getSill ( int  icov,
int  ivar,
int  jvar 
) const

◆ getTotalSill() [1/2]

MatrixSquareSymmetric ACovAnisoList::getTotalSill ( ) const

◆ getTotalSill() [2/2]

double ACovAnisoList::getTotalSill ( int  ivar,
int  jvar 
) const

Calculate the total sill of the model for given pair of variables Returns TEST as soon as one structure has no sill

Parameters
ivarRank of the first variable
jvarRank of the second variable

◆ getType()

const ECov & ACovAnisoList::getType ( int  icov) const

◆ hasAnam()

virtual bool ACovAnisoList::hasAnam ( ) const
inlinevirtual

Reimplemented in CovLMCAnamorphosis.

◆ hasNugget()

bool ACovAnisoList::hasNugget ( ) const

◆ hasRange()

bool ACovAnisoList::hasRange ( ) const

◆ isAllActiveCovList()

bool ACovAnisoList::isAllActiveCovList ( ) const

◆ isConsistent()

bool ACovAnisoList::isConsistent ( const ASpace space) const
overridevirtual

ICloneable interface.

Interface for ASpaceObject

TODO : ACovAnisoList::isConsistent

Implements ASpaceObject.

◆ isFiltered()

bool ACovAnisoList::isFiltered ( int  icov) const

◆ isIndexable()

virtual bool ACovAnisoList::isIndexable ( ) const
inlineoverridevirtual

Reimplemented from ACov.

◆ isNoStat()

bool ACovAnisoList::isNoStat ( ) const
overridevirtual

Reimplemented from ACov.

◆ isStationary()

bool ACovAnisoList::isStationary ( ) const

◆ normalize()

void ACovAnisoList::normalize ( double  sill = 1.,
int  ivar = 0,
int  jvar = 0 
)

◆ operator=()

ACovAnisoList & ACovAnisoList::operator= ( const ACovAnisoList r)

◆ optimizationSetTargetByIndex()

void ACovAnisoList::optimizationSetTargetByIndex ( int  iech) const
overridevirtual

Reimplemented from ACov.

◆ setActiveFactor()

virtual void ACovAnisoList::setActiveFactor ( int  )
inlinevirtual

Reimplemented in CovLMCAnamorphosis.

◆ setCova()

void ACovAnisoList::setCova ( int  icov,
CovAniso covs 
)

◆ setFiltered()

void ACovAnisoList::setFiltered ( int  icov,
bool  filtered 
)

◆ setMarkovCoeffs()

void ACovAnisoList::setMarkovCoeffs ( int  icov,
VectorDouble  coeffs 
)

◆ setParam()

void ACovAnisoList::setParam ( int  icov,
double  value 
)

◆ setRangeIsotropic()

void ACovAnisoList::setRangeIsotropic ( int  icov,
double  range 
)

◆ setSill()

void ACovAnisoList::setSill ( int  icov,
int  ivar,
int  jvar,
double  value 
)

◆ setType()

void ACovAnisoList::setType ( int  icov,
const ECov &  type 
)

◆ toString()

String ACovAnisoList::toString ( const AStringFormat strfmt = nullptr) const
overridevirtual

Interface for AStringable Interface.

Reimplemented from ASpaceObject.

Reimplemented in CovLMCTapering, CovLMCConvolution, and CovLMCAnamorphosis.

◆ updateCovByPoints()

void ACovAnisoList::updateCovByPoints ( int  icas1,
int  iech1,
int  icas2,
int  iech2 
)
overridevirtual

Update the Model according to the Non-stationary parameters

Parameters
icas1Type of first Db: 1 for Input; 2 for Output
iech1Rank of the target within Db1 (or -1)
icas2Type of first Db: 1 for Input; 2 for Output
iech2Rank of the target within Dbout (or -2)

Reimplemented from ACov.


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