This class describes an elementary covariance. More...

#include <CovAniso.hpp>

Inheritance diagram for CovAniso:

Public Member Functions
	CovAniso (const ECov &type, const CovContext &ctxt)

	CovAniso (const String &symbol, const CovContext &ctxt)

	CovAniso (const ECov &type, double range, double param, double sill, const CovContext &ctxt, bool flagRange=true)

	CovAniso (const CovAniso &r)

CovAniso &	operator= (const CovAniso &r)

virtual	~CovAniso ()

virtual String	toString (const AStringFormat *strfmt=nullptr) const override
	ICloneable Interface. More...

virtual bool	isConsistent (const ASpace *space) const override
	ASpaceObject Interface. More...

virtual int	getNVariables () const override
	ACov Interface. More...

virtual double	eval0 (int ivar=0, int jvar=0, const CovCalcMode *mode=nullptr) const override
	ACov Interface. 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	eval0MatInPlace (MatrixSquareGeneral &mat, const CovCalcMode *mode=nullptr) const override

virtual void	evalMatInPlace (const SpacePoint &p1, const SpacePoint &p2, MatrixSquareGeneral &mat, const CovCalcMode *mode=nullptr) const override

virtual double	evalCovOnSphere (double alpha, int degree, bool normalize=true) const override

virtual double	evalSpectrum (const VectorDouble &freq, int ivar=0, int jvar=0) const override

virtual double	getIntegralRange (int ndisc, double hmax) const

virtual String	getFormula () const

virtual double	getBallRadius () const

void	optimizationPreProcess (const std::vector< SpacePoint > &vec) const

void	optimizationPostProcess () const

void	optimizationSetTarget (const SpacePoint &pt) const

void	evalOptimInPlace (VectorDouble &res, int ivar=0, int jvar=0, const CovCalcMode *mode=nullptr) const

void	evalMatOptimInPlace (int icas1, int iech1, int icas2, int iech2, MatrixSquareGeneral &mat, const CovCalcMode *mode=nullptr) const

void	setContext (const CovContext &ctxt)

void	setParam (double param)

void	copyCovContext (const CovContext &ctxt)

void	setNoStatFactor (double noStatFactor)

void	setSill (double sill)

void	setSill (const MatrixSquareSymmetric &sill)
	Only valid when there is only one variable (in the context) More...

void	setSill (const VectorDouble &sill)

void	setSill (int ivar, int jvar, double sill)

void	initSill (double value=0.)

void	setRangeIsotropic (double range)
	Practical range. More...

void	setRange (int idim, double range)

void	setRanges (const VectorDouble &ranges)

void	setScale (double scale)

void	setScale (int idim, double scale)
	Make the covariance isotropic. More...

void	setScales (const VectorDouble &scales)

void	setAnisoRotation (const Rotation &rot)

void	setAnisoRotation (const VectorDouble &rot)

void	setAnisoAngles (const VectorDouble &angles)

void	setAnisoAngle (int idim, double angle)

void	setRotationAnglesAndRadius (const VectorDouble &angles=VectorDouble(), const VectorDouble &ranges=VectorDouble(), const VectorDouble &scales=VectorDouble())

const MatrixSquareSymmetric &	getSill () const

double	getSill (int ivar, int jvar) const

double	getSlope (int ivar, int jvar) const

VectorDouble	getRanges () const

const Rotation &	getAnisoRotation () const

const VectorDouble &	getScales () const

void	setType (const ECov &type)

double	getRange () const

double	getScale () const

bool	getFlagAniso () const

bool	getFlagRotation () const

double	getRange (int idim) const

double	getScale (int idim) const

const VectorDouble	getAnisoAngles () const

const MatrixSquareGeneral &	getAnisoRotMat () const

const MatrixSquareGeneral &	getAnisoInvMat () const

const VectorDouble	getAnisoCoeffs () const

double	getAnisoAngles (int idim) const

double	getAnisoRotMat (int idim, int jdim) const

double	getAnisoCoeffs (int idim) const

const CovContext &	getContext () const

const ECov &	getType () const

double	getParam () const

double	getScadef () const

double	getParMax () const

int	getMaxNDim () const

int	getMinOrder () const

bool	hasInt1D () const

bool	hasInt2D () const

int	hasRange () const

int	hasParam () const

String	getCovName () const

bool	isIsotropic () const

bool	isAsymptotic () const

bool	hasRotation () const

const Tensor &	getAniso () const

void	setAniso (const Tensor &aniso)

const ACovFunc *	getCova () const

int	getGradParamNumber () const

bool	hasCovDerivative () const

bool	hasCovOnSphere () const

bool	hasMarkovCoeffs () const

bool	hasSpectrum () const

VectorDouble	evalCovOnSphere (const VectorDouble &alpha, int degree) const

Array	evalCovFFT (const VectorDouble &ext, int N=128, int ivar=0, int jvar=0) const

VectorDouble	getMarkovCoeffs () const

void	setMarkovCoeffs (VectorDouble coeffs)

void	setMarkovCoeffsBySquaredPolynomials (VectorDouble coeffs1, VectorDouble coeffs2, double eps=0)

void	computeMarkovCoeffs ()

double	getCorrec () const

double	getFullCorrec () const

int	getDimensionNumber () const

CovAniso *	createReduce (const VectorInt &validVars) const

Public Member Functions inherited from ACov
	ACov (const ASpace *space=nullptr)

	ACov (const ACov &r)

ACov &	operator= (const ACov &r)

virtual	~ACov ()

virtual bool	isIndexable () const

virtual bool	isNoStat () const

virtual const ANoStat *	getNoStat () const

virtual ANoStat *	getNoStatModify () const

virtual bool	isOptimEnabled () const
	Tell if the use of Optimization is enabled or not. More...

virtual void	updateCovByPoints (int, int, int, int)

virtual void	updateCovByMesh (int)

void	setOptimEnabled (bool isOptimEnabled)

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 (Db db1_arg, Db db2_arg=nullptr, int ivar0=0, int jvar0=0, const VectorInt &nbgh1=VectorInt(), const VectorInt &nbgh2=VectorInt(), const CovCalcMode *mode=nullptr)

MatrixSparse *	evalCovMatrixSparse (Db db1_arg, Db db2_arg=nullptr, int ivar0=0, int jvar0=0, 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

Public Member Functions inherited from ASpaceObject
	ASpaceObject (const ASpace *space=nullptr)

	ASpaceObject (const ASpace &space)

	ASpaceObject (const ASpaceObject &r)

ASpaceObject &	operator= (const ASpaceObject &r)

virtual	~ASpaceObject ()

const ASpace *	getSpace () 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 () const
	Shortcuts to ASpace methods. More...

const VectorDouble &	getOrigin () const
	Return the current space context origin coordinates. More...

double	getDistance (const SpacePoint &p1, const SpacePoint &p2) const
	Return the distance between two space points for the current space context. More...

double	getDistance1D (const SpacePoint &p1, const SpacePoint &p2, int idim) const
	Return the distance along one direction between two space points. More...

VectorDouble	getIncrement (const SpacePoint &p1, const SpacePoint &p2) 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)

AStringable &	operator= (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 ICloneable *	clone () const =0

Static Public Member Functions
static CovAniso *	createIsotropic (const CovContext &ctxt, const ECov &type, double range, double sill=1., double param=1., bool flagRange=true)

static CovAniso *	createAnisotropic (const CovContext &ctxt, const ECov &type, const VectorDouble &ranges, double sill=1., double param=1., const VectorDouble &angles=VectorDouble(), bool flagRange=true)

static CovAniso *	createIsotropicMulti (const CovContext &ctxt, const ECov &type, double range, const MatrixSquareSymmetric &sills, double param=1., bool flagRange=true)

static CovAniso *	createAnisotropicMulti (const CovContext &ctxt, const ECov &type, const VectorDouble &ranges, const MatrixSquareSymmetric &sills, double param=1., const VectorDouble &angles=VectorDouble(), bool flagRange=true)

static double	scale2range (const ECov &type, double scale, double param=1.)

static double	range2scale (const ECov &type, double range, double param=1.)

Detailed Description

This class describes an elementary covariance.

This covariance is described through the following list of parameters:

the covariance type: the list of these types is provided in ECov.hpp
the largest set of parameters for any covariance: range(s), anisotropy angle(s), third parameter. Some of these parameters do not make sense, depending on the covariance type: e.g. the range for nugget effect, the third parameter for a spherical structure, ... All these parameters are processed and stored as a tensor in order to avoid repetitive calculations.
the sill. This comes as a square symmetric matrix whose dimension is equal to the number of variables.

Constructor & Destructor Documentation

CovAniso::CovAniso	(	const ECov &	type,
		const CovContext &	ctxt
	)

CovAniso::CovAniso	(	const String &	symbol,
		const CovContext &	ctxt
	)

CovAniso::CovAniso	(	const ECov &	type,
		double	range,
		double	param,
		double	sill,
		const CovContext &	ctxt,
		bool	flagRange = `true`
	)

CovAniso::CovAniso ( const CovAniso & r )

CovAniso::~CovAniso ( )

virtual

Member Function Documentation

void CovAniso::computeMarkovCoeffs ( )

void CovAniso::copyCovContext ( const CovContext & ctxt )

CovAniso * CovAniso::createAnisotropic	(	const CovContext &	ctxt,
		const ECov &	type,
		const VectorDouble &	ranges,
		double	sill = `1.`,
		double	param = `1.`,
		const VectorDouble &	angles = `VectorDouble()`,
		bool	flagRange = `true`
	)

static

CovAniso * CovAniso::createAnisotropicMulti	(	const CovContext &	ctxt,
		const ECov &	type,
		const VectorDouble &	ranges,
		const MatrixSquareSymmetric &	sills,
		double	param = `1.`,
		const VectorDouble &	angles = `VectorDouble()`,
		bool	flagRange = `true`
	)

static

CovAniso * CovAniso::createIsotropic	(	const CovContext &	ctxt,
		const ECov &	type,
		double	range,
		double	sill = `1.`,
		double	param = `1.`,
		bool	flagRange = `true`
	)

static

CovAniso * CovAniso::createIsotropicMulti	(	const CovContext &	ctxt,
		const ECov &	type,
		double	range,
		const MatrixSquareSymmetric &	sills,
		double	param = `1.`,
		bool	flagRange = `true`
	)

static

CovAniso * CovAniso::createReduce ( const VectorInt & validVars ) const

double CovAniso::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 CovGradientNumerical.

double CovAniso::eval0	(	int	ivar = `0`,
		int	jvar = `0`,
		const CovCalcMode *	mode = `nullptr`
	)		const

overridevirtual

ACov Interface.

Implements ACov.

Reimplemented in CovGradientNumerical.

void CovAniso::eval0MatInPlace	(	MatrixSquareGeneral &	mat,
		const CovCalcMode *	mode = `nullptr`
	)		const

overridevirtual

Calculate the Matrix of covariance for zero distance

Parameters

mat	Covariance matrix (Dimension: nvar * nvar)
mode	Calculation Options

Remarks: : Matrix 'mat' should be dimensioned and initialized beforehand

Reimplemented from ACov.

Array CovAniso::evalCovFFT	(	const VectorDouble &	ext,
		int	N = `128`,
		int	ivar = `0`,
		int	jvar = `0`
	)		const

double CovAniso::evalCovOnSphere	(	double	alpha,
		int	degree,
		bool	normalize = `true`
	)		const

overridevirtual

Reimplemented from ACov.

VectorDouble CovAniso::evalCovOnSphere	(	const VectorDouble &	alpha,
		int	degree
	)		const

void CovAniso::evalMatInPlace	(	const SpacePoint &	p1,
		const SpacePoint &	p2,
		MatrixSquareGeneral &	mat,
		const CovCalcMode *	mode = `nullptr`
	)		const

overridevirtual

Calculate the Matrix of covariance between two space points

Parameters

p1	Reference of the first space point
p2	Reference of the second space point
mat	Covariance matrix (Dimension: nvar * nvar)
mode	Calculation Options

Remarks: : Matrix 'mat' should be dimensioned and initialized beforehand

Reimplemented from ACov.

void CovAniso::evalMatOptimInPlace	(	int	icas1,
		int	iech1,
		int	icas2,
		int	iech2,
		MatrixSquareGeneral &	mat,
		const CovCalcMode *	mode = `nullptr`
	)		const

virtual

Calculate the Matrix of covariance between two elements of two Dbs (defined beforehand)

Parameters

icas1	Origin of the Db containing the first point
iech1	Rank of the first point
icas2	Origin of the Db containing the second point
iech2	Rank of the second point
mat	Covariance matrix (Dimension: nvar * nvar)
mode	Calculation Options

Remarks: : Matrix 'mat' should be dimensioned and initialized beforehand

Implements ACov.

void CovAniso::evalOptimInPlace	(	VectorDouble &	res,
		int	ivar = `0`,
		int	jvar = `0`,
		const CovCalcMode *	mode = `nullptr`
	)		const

Fill the vector of covariances between each valid SpacePoint (recorded in _p1As) and the target (recorded in _p2A)

Parameters

res	Vector of covariances
ivar	Rank of the first variable
jvar	Rank of the second variable
mode	CovCalcMode structure

Remarks: : The optimized version is not compatible with Franck's non-stationarity. Then no correction must be applied to cov(h)

double CovAniso::evalSpectrum	(	const VectorDouble &	freq,
		int	ivar = `0`,
		int	jvar = `0`
	)		const

overridevirtual

Reimplemented from ACov.

const Tensor& CovAniso::getAniso ( ) const

inline

const VectorDouble CovAniso::getAnisoAngles ( ) const

inline

double CovAniso::getAnisoAngles ( int idim ) const

inline

const VectorDouble CovAniso::getAnisoCoeffs ( ) const

double CovAniso::getAnisoCoeffs ( int idim ) const

inline

const MatrixSquareGeneral& CovAniso::getAnisoInvMat ( ) const

inline

const Rotation& CovAniso::getAnisoRotation ( ) const

inline

const MatrixSquareGeneral& CovAniso::getAnisoRotMat ( ) const

inline

double CovAniso::getAnisoRotMat	(	int	idim,
		int	jdim
	)		const

inline

virtual double CovAniso::getBallRadius ( ) const

inlinevirtual

Reimplemented in CovGradientNumerical.

const CovContext& CovAniso::getContext ( ) const

inline

double CovAniso::getCorrec ( ) const

const ACovFunc* CovAniso::getCova ( ) const

inline

String CovAniso::getCovName ( ) const

inline

int CovAniso::getDimensionNumber ( ) const

inline

bool CovAniso::getFlagAniso ( ) const

inline

bool CovAniso::getFlagRotation ( ) const

inline

virtual String CovAniso::getFormula ( ) const

inlinevirtual

double CovAniso::getFullCorrec ( ) const

int CovAniso::getGradParamNumber ( ) const

double CovAniso::getIntegralRange	(	int	ndisc,
		double	hmax
	)		const

virtual

Calculate the Integral Range in various Space Dimension (1, 2 or 3)

Returns

VectorDouble CovAniso::getMarkovCoeffs ( ) const

int CovAniso::getMaxNDim ( ) const

inline

int CovAniso::getMinOrder ( ) const

inline

virtual int CovAniso::getNVariables ( ) const

inlineoverridevirtual

ACov Interface.

Implements ACov.

double CovAniso::getParam ( ) const

For compatibility, this function returns 0 if the Covariance has no Third Parameter

Returns: Third parameter

double CovAniso::getParMax ( ) const

inline

double CovAniso::getRange ( ) const

This function returns the range in the isotropic case In the anisotropic case, it returns the largest range over all directions

Returns

double CovAniso::getRange ( int idim ) const

inline

VectorDouble CovAniso::getRanges ( ) const

double CovAniso::getScadef ( ) const

inline

double CovAniso::getScale ( ) const

double CovAniso::getScale ( int idim ) const

inline

const VectorDouble& CovAniso::getScales ( ) const

inline

const MatrixSquareSymmetric& CovAniso::getSill ( ) const

inline

double CovAniso::getSill	(	int	ivar,
		int	jvar
	)		const

double CovAniso::getSlope	(	int	ivar,
		int	jvar
	)		const

Return the Slope calculated as the sill / range(idim=0)

Parameters

ivar	Rank of the first variable
jvar	Rank of the second variable

Returns

const ECov& CovAniso::getType ( ) const

inline

bool CovAniso::hasCovDerivative ( ) const

inline

bool CovAniso::hasCovOnSphere ( ) const

inline

bool CovAniso::hasInt1D ( ) const

inline

bool CovAniso::hasInt2D ( ) const

inline

bool CovAniso::hasMarkovCoeffs ( ) const

inline

int CovAniso::hasParam ( ) const

inline

int CovAniso::hasRange ( ) const

inline

bool CovAniso::hasRotation ( ) const

inline

bool CovAniso::hasSpectrum ( ) const

inline

void CovAniso::initSill ( double value = 0. )

bool CovAniso::isAsymptotic ( ) const

inline

bool CovAniso::isConsistent ( const ASpace * space ) const

overridevirtual

ASpaceObject Interface.

TODO : check something in CovAniso::isConsistent?

Implements ASpaceObject.

bool CovAniso::isIsotropic ( ) const

inline

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

void CovAniso::optimizationPostProcess ( ) const

void CovAniso::optimizationPreProcess ( const std::vector< SpacePoint > & p1s ) const

Transform a set of Space Points using the anisotropy tensor The set of resulting Space Points are stored as private member of this.

Parameters

p1s	Set of input Space Points

void CovAniso::optimizationSetTarget ( const SpacePoint & pt ) const

double CovAniso::range2scale	(	const ECov &	type,
		double	range,
		double	param = `1.`
	)

static

double CovAniso::scale2range	(	const ECov &	type,
		double	scale,
		double	param = `1.`
	)

static

void CovAniso::setAniso ( const Tensor & aniso )

inline

void CovAniso::setAnisoAngle	(	int	idim,
		double	angle
	)

void CovAniso::setAnisoAngles ( const VectorDouble & angles )

void CovAniso::setAnisoRotation ( const Rotation & rot )

void CovAniso::setAnisoRotation ( const VectorDouble & rot )

void CovAniso::setContext ( const CovContext & ctxt )

void CovAniso::setMarkovCoeffs ( VectorDouble coeffs )

void CovAniso::setMarkovCoeffsBySquaredPolynomials	(	VectorDouble	coeffs1,
		VectorDouble	coeffs2,
		double	eps = `0`
	)

void CovAniso::setNoStatFactor ( double noStatFactor )

inline

void CovAniso::setParam ( double param )

void CovAniso::setRange	(	int	idim,
		double	range
	)

void CovAniso::setRangeIsotropic ( double range )

Practical range.

void CovAniso::setRanges ( const VectorDouble & ranges )

void CovAniso::setRotationAnglesAndRadius	(	const VectorDouble &	angles = `VectorDouble()`,
		const VectorDouble &	ranges = `VectorDouble()`,
		const VectorDouble &	scales = `VectorDouble()`
	)

void CovAniso::setScale ( double scale )

void CovAniso::setScale	(	int	idim,
		double	scale
	)

Make the covariance isotropic.

void CovAniso::setScales ( const VectorDouble & scales )

void CovAniso::setSill ( double sill )

void CovAniso::setSill ( const MatrixSquareSymmetric & sill )

Only valid when there is only one variable (in the context)

void CovAniso::setSill ( const VectorDouble & sill )

void CovAniso::setSill	(	int	ivar,
		int	jvar,
		double	sill
	)

TODO : Test if sill matrix is positive definite (if not, generate a warning)

void CovAniso::setType ( const ECov & type )

String CovAniso::toString ( const AStringFormat * strfmt = nullptr ) const

overridevirtual

ICloneable Interface.

AStringable Interface

Reimplemented from ASpaceObject.

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

include/Covariances/CovAniso.hpp
src/Covariances/CovAniso.cpp

Public Member Functions

Static Public Member Functions

Detailed Description

Constructor & Destructor Documentation

Member Function Documentation