LauDPDepBifurGaussPdf.cc
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37 LauDPDepBifurGaussPdf::LauDPDepBifurGaussPdf(const TString& theVarName, const vector<LauParameter*>& params,
60 cerr<<"ERROR in LauDPDepBifurGaussPdf::LauDPDepBifurGaussPdf : Have not been provided with a valid DP kinematics object."<<endl;
91 LauDPDepBifurGaussPdf::LauDPDepBifurGaussPdf(const LauDPDepBifurGaussPdf& other) : LauAbsPdf(other.varName(), other.getParameters(), other.getMinAbscissa(), other.getMaxAbscissa()),
180 integral = sigmaLVal_ * ( TMath::Erf((this->getMaxAbscissa() - meanVal_)/xscaleL) - TMath::Erf((this->getMinAbscissa() - meanVal_)/xscaleL));
182 integral = sigmaRVal_ * (TMath::Erf((this->getMaxAbscissa() - meanVal_)/xscaleR) - TMath::Erf((this->getMinAbscissa() - meanVal_)/xscaleR));
184 integral = sigmaRVal_*TMath::Erf((this->getMaxAbscissa() -meanVal_)/xscaleR) - sigmaLVal_*TMath::Erf((this->getMinAbscissa() - meanVal_)/xscaleL);
197 for (vector<Double_t>::const_iterator iter = meanCoeffs_.begin(); iter != meanCoeffs_.end(); ++iter) {
204 for (vector<Double_t>::const_iterator iter = sigmaLCoeffs_.begin(); iter != sigmaLCoeffs_.end(); ++iter) {
211 for (vector<Double_t>::const_iterator iter = sigmaRCoeffs_.begin(); iter != sigmaRCoeffs_.end(); ++iter) {
221 for (vector<Double_t>::const_iterator iter = meanCoeffs_.begin(); iter != meanCoeffs_.end(); ++iter) {
228 for (vector<Double_t>::const_iterator iter = sigmaLCoeffs_.begin(); iter != sigmaLCoeffs_.end(); ++iter) {
235 for (vector<Double_t>::const_iterator iter = sigmaRCoeffs_.begin(); iter != sigmaRCoeffs_.end(); ++iter) {
Double_t calcThirdMassSq(Double_t firstMassSq, Double_t secondMassSq) const Calculate the third invariant mass square from the two provided (e.g. mjkSq from mijSq and mikSq) ... Definition: LauKinematics.cc:435 virtual void setUnNormPDFVal(Double_t unNormPDFVal) Set the unnormalised likelihood. Definition: LauAbsPdf.hh:454 File containing declaration of LauFitDataTree class. virtual Double_t getMinAbscissa() const Retrieve the minimum value of the (primary) abscissa. Definition: LauAbsPdf.hh:158 Class that defines the particular 3-body decay under study. Definition: LauDaughters.hh:33 const std::vector< Double_t > meanCoeffs_ Coefficients of Gaussian mean. Definition: LauDPDepBifurGaussPdf.hh:146 virtual Double_t getUnNormLikelihood() const Retrieve the unnormalised likelihood value. Definition: LauAbsPdf.hh:278 File containing declaration of LauDaughters class. virtual void calcPDFHeight(const LauKinematics *kinematics) Calculate the PDF height. Definition: LauDPDepBifurGaussPdf.cc:247 virtual void calcLikelihoodInfo(const LauAbscissas &abscissas) Calculate the likelihood (and intermediate info) for a given abscissa. Definition: LauDPDepBifurGaussPdf.cc:106 void scalePars_poly(Double_t perEventDist) Scale the Gaussian parameters with polynomial method. Definition: LauDPDepBifurGaussPdf.cc:194 virtual Bool_t checkRange(const LauAbscissas &abscissas) const Check that all abscissas are within their allowed ranges. Definition: LauAbsPdf.cc:213 const LauKinematics * kinematics_ The current DP kinematics. Definition: LauDPDepBifurGaussPdf.hh:129 void scalePars_polyNegPower(Double_t perEventDist) Scale the Gaussian parameters with negative power polynomial method. Definition: LauDPDepBifurGaussPdf.cc:218 Double_t distanceFromDPCentre() const Calculate the distance from the currently set (m13Sq, m23Sq) point to the centre of the Dalitz plot (... Definition: LauKinematics.cc:441 File containing declaration of LauKinematics class. virtual TRandom * getRandomFun() const Retrieve the random function used for MC generation. Definition: LauAbsPdf.hh:472 virtual Double_t getMaxAbscissa() const Retrieve the maximum value of the (primary) abscissa. Definition: LauAbsPdf.hh:164 File containing declaration of LauComplex class. File containing declaration of LauDPDepBifurGaussPdf class. ScaleMethod scaleMethod() const Retrieve scaling method information. Definition: LauDPDepBifurGaussPdf.hh:106 const std::vector< Double_t > sigmaLCoeffs_ Coefficients of left Gaussian sigma. Definition: LauDPDepBifurGaussPdf.hh:148 LauDPDepBifurGaussPdf(const TString &theVarName, const std::vector< LauParameter * > ¶ms, 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, DPAxis dpAxis) Constructor. File containing LauConstants namespace. const std::vector< Double_t > sigmaRCoeffs_ Coefficients of right Gaussian sigma. Definition: LauDPDepBifurGaussPdf.hh:150 virtual void setRandomFun(TRandom *randomFun) Set the random function used for toy MC generation. Definition: LauAbsPdf.hh:315 std::vector< Double_t > LauAbscissas The type used for containing multiple abscissa values. Definition: LauAbsPdf.hh:44 Class for defining a Bifurcated Gaussian PDF (DP dependent). Definition: LauDPDepBifurGaussPdf.hh:31 File containing declaration of Lau1DHistPdf class. Generated by 1.8.5 |