doxygen/v2r2p1/LauDPDepCruijffPdf_8hh_source.html

 // Copyright University of Warwick 2009 - 2013.

 // Distributed under the Boost Software License, Version 1.0.

 // (See accompanying file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)


 // Authors:

 // Thomas Latham

 // John Back

 // Paul Harrison


 #ifndef LAU_DPDEP_CRUIJFF_PDF

 #define LAU_DPDEP_CRUIJFF_PDF


 #include <vector>


 #include "TString.h"


 #include "LauAbsPdf.hh"


 class LauDaughters;

 class LauKinematics;

 class LauParameter;


 class LauDPDepCruijffPdf : public LauAbsPdf {


         public:

                 enum DPAxis {

                         M12,

                         M13,

                         M23,

                         CentreDist,

                         MMIN,

                         MMAX

                 };


                 LauDPDepCruijffPdf(const TString& theVarName, const std::vector<LauAbsRValue*>& params,

                                 Double_t minAbscissa, Double_t maxAbscissa,

                                 const LauDaughters* daughters,

                                 const std::vector<Double_t>& meanCoeffs,

                                 const std::vector<Double_t>& sigmaLCoeffs,

                                 const std::vector<Double_t>& sigmaRCoeffs,

                                 const std::vector<Double_t>& alphaLCoeffs,

                                 const std::vector<Double_t>& alphaRCoeffs,

                                 DPAxis dpAxis);


                 virtual ~LauDPDepCruijffPdf();


                 LauDPDepCruijffPdf(const LauDPDepCruijffPdf& other);


                 virtual Bool_t isDPDependent() const {return kTRUE;}


                 virtual void calcLikelihoodInfo(const LauAbscissas& abscissas);


                 using LauAbsPdf::calcLikelihoodInfo;


                 virtual void calcNorm();


                 virtual void calcPDFHeight( const LauKinematics* kinematics );


         protected:


                 void scalePars( Double_t dpPos );


                 Double_t currentPDFValue(Double_t abscissa) const;


                 virtual Double_t integrGaussLegendre();


                 virtual Double_t integTrapezoid();


         private:

                 const LauKinematics* kinematics_;


                 LauAbsRValue* mean_;

                 LauAbsRValue* sigmaL_;

                 LauAbsRValue* sigmaR_;

                 LauAbsRValue* alphaL_;

                 LauAbsRValue* alphaR_;


                 Double_t meanVal_;

                 Double_t sigmaLVal_;

                 Double_t sigmaRVal_;

                 Double_t alphaLVal_;

                 Double_t alphaRVal_;


                 const std::vector<Double_t> meanCoeffs_;

                 const std::vector<Double_t> sigmaLCoeffs_;

                 const std::vector<Double_t> sigmaRCoeffs_;

                 const std::vector<Double_t> alphaLCoeffs_;

                 const std::vector<Double_t> alphaRCoeffs_;


                 DPAxis dpAxis_;


                 ClassDef(LauDPDepCruijffPdf,0) // Define the Cruijff PDF

 };


 #endif

LauDPDepCruijffPdf::M12
Definition: LauDPDepCruijffPdf.hh:40

LauDPDepCruijffPdf::integTrapezoid
virtual Double_t integTrapezoid()
Integrate the PDF using the simple trapezoid method.
Definition: LauDPDepCruijffPdf.cc:216

LauDPDepCruijffPdf::M23
Definition: LauDPDepCruijffPdf.hh:42

LauDPDepCruijffPdf::sigmaL_
LauAbsRValue * sigmaL_
Sigma of left Gaussian.
Definition: LauDPDepCruijffPdf.hh:133

LauDPDepCruijffPdf::MMIN
Definition: LauDPDepCruijffPdf.hh:44

LauDPDepCruijffPdf::alphaLCoeffs_
const std::vector< Double_t > alphaLCoeffs_
Coefficients of alpha for the left Gaussian.
Definition: LauDPDepCruijffPdf.hh:159

LauDPDepCruijffPdf
Class for defining a Cruijff PDF (with DP dependence).
Definition: LauDPDepCruijffPdf.hh:35

LauDaughters
Class that defines the particular 3-body decay under study.
Definition: LauDaughters.hh:33

LauDPDepCruijffPdf::alphaL_
LauAbsRValue * alphaL_
Alpha of left Gaussian.
Definition: LauDPDepCruijffPdf.hh:137

LauDPDepCruijffPdf::currentPDFValue
Double_t currentPDFValue(Double_t abscissa) const
Current PDF value.
Definition: LauDPDepCruijffPdf.cc:180

LauDPDepCruijffPdf::kinematics_
const LauKinematics * kinematics_
The current DP kinematics.
Definition: LauDPDepCruijffPdf.hh:128

LauDPDepCruijffPdf::scalePars
void scalePars(Double_t dpPos)
Scale parameters by their dependence on the DP position.
Definition: LauDPDepCruijffPdf.cc:253

LauDPDepCruijffPdf::sigmaRVal_
Double_t sigmaRVal_
Sigma of right Gaussian.
Definition: LauDPDepCruijffPdf.hh:146

LauDPDepCruijffPdf::isDPDependent
virtual Bool_t isDPDependent() const
Specifies whether or not the PDF is DP dependent.
Definition: LauDPDepCruijffPdf.hh:82

LauDPDepCruijffPdf::CentreDist
Definition: LauDPDepCruijffPdf.hh:43

LauDPDepCruijffPdf::M13
Definition: LauDPDepCruijffPdf.hh:41

LauDPDepCruijffPdf::sigmaR_
LauAbsRValue * sigmaR_
Sigma of right Gaussian.
Definition: LauDPDepCruijffPdf.hh:135

LauDPDepCruijffPdf::sigmaLCoeffs_
const std::vector< Double_t > sigmaLCoeffs_
Coefficients of sigma for the left Gaussian.
Definition: LauDPDepCruijffPdf.hh:155

LauDPDepCruijffPdf::LauDPDepCruijffPdf
LauDPDepCruijffPdf(const TString &theVarName, const std::vector< LauAbsRValue * > &params, Double_t minAbscissa, Double_t maxAbscissa, const LauDaughters *daughters, const std::vector< Double_t > &meanCoeffs, const std::vector< Double_t > &sigmaLCoeffs, const std::vector< Double_t > &sigmaRCoeffs, const std::vector< Double_t > &alphaLCoeffs, const std::vector< Double_t > &alphaRCoeffs, DPAxis dpAxis)
Constructor.
Definition: LauDPDepCruijffPdf.cc:32

LauDPDepCruijffPdf::~LauDPDepCruijffPdf
virtual ~LauDPDepCruijffPdf()
Destructor.
Definition: LauDPDepCruijffPdf.cc:87

LauDPDepCruijffPdf::MMAX
Definition: LauDPDepCruijffPdf.hh:45

LauDPDepCruijffPdf::alphaRCoeffs_
const std::vector< Double_t > alphaRCoeffs_
Coefficients of alpha for the right Gaussian.
Definition: LauDPDepCruijffPdf.hh:161

LauDPDepCruijffPdf::dpAxis_
DPAxis dpAxis_
The DP axis we depend on.
Definition: LauDPDepCruijffPdf.hh:164

LauDPDepCruijffPdf::calcNorm
virtual void calcNorm()
Calculate the normalisation.
Definition: LauDPDepCruijffPdf.cc:121

LauDPDepCruijffPdf::meanVal_
Double_t meanVal_
Gaussian mean.
Definition: LauDPDepCruijffPdf.hh:142

LauDPDepCruijffPdf::meanCoeffs_
const std::vector< Double_t > meanCoeffs_
Coefficients of Gaussian mean.
Definition: LauDPDepCruijffPdf.hh:153

LauDPDepCruijffPdf::mean_
LauAbsRValue * mean_
Gaussian mean.
Definition: LauDPDepCruijffPdf.hh:131

LauDPDepCruijffPdf::alphaRVal_
Double_t alphaRVal_
Alpha of right Gaussian.
Definition: LauDPDepCruijffPdf.hh:150

LauParameter
Class for defining the fit parameter objects.
Definition: LauParameter.hh:33

LauDPDepCruijffPdf::alphaLVal_
Double_t alphaLVal_
Alpha of left Gaussian.
Definition: LauDPDepCruijffPdf.hh:148

LauAbsPdf.hh
File containing declaration of LauAbsPdf class.

LauAbsPdf::calcLikelihoodInfo
virtual void calcLikelihoodInfo(const LauAbscissas &abscissas)=0
Calculate the likelihood (and all associated information) given value(s) of the abscissa(s) ...

LauDPDepCruijffPdf::sigmaLVal_
Double_t sigmaLVal_
Sigma of left Gaussian.
Definition: LauDPDepCruijffPdf.hh:144

LauDPDepCruijffPdf::integrGaussLegendre
virtual Double_t integrGaussLegendre()
Integrate the PDF using the Gauss-Legendre method.
Definition: LauDPDepCruijffPdf.cc:196

LauDPDepCruijffPdf::DPAxis
DPAxis
Define possibilties for the DP axes.
Definition: LauDPDepCruijffPdf.hh:39

LauDPDepCruijffPdf::calcPDFHeight
virtual void calcPDFHeight(const LauKinematics *kinematics)
Calculate the PDF height.
Definition: LauDPDepCruijffPdf.cc:291

LauAbsPdf
Class for defining the abstract interface for PDF classes.
Definition: LauAbsPdf.hh:41

LauDPDepCruijffPdf::sigmaRCoeffs_
const std::vector< Double_t > sigmaRCoeffs_
Coefficients of sigma for the right Gaussian.
Definition: LauDPDepCruijffPdf.hh:157

LauKinematics
Class for calculating 3-body kinematic quantities.
Definition: LauKinematics.hh:31

LauDPDepCruijffPdf::calcLikelihoodInfo
virtual void calcLikelihoodInfo(const LauAbscissas &abscissas)
Calculate the likelihood (and intermediate info) for a given abscissa.
Definition: LauDPDepCruijffPdf.cc:126

LauAbsRValue
Pure abstract base class for defining a parameter containing an R value.
Definition: LauAbsRValue.hh:29

LauDPDepCruijffPdf::alphaR_
LauAbsRValue * alphaR_
Alpha of right Gaussian.
Definition: LauDPDepCruijffPdf.hh:139

LauAbsPdf::LauAbscissas
std::vector< Double_t > LauAbscissas
The type used for containing multiple abscissa values.
Definition: LauAbsPdf.hh:45