/************************************************************************** * Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. * * * * Author: The ALICE Off-line Project. * * Contributors are mentioned in the code where appropriate. * * * * Permission to use, copy, modify and distribute this software and its * * documentation strictly for non-commercial purposes is hereby granted * * without fee, provided that the above copyright notice appears in all * * copies and that both the copyright notice and this permission notice * * appear in the supporting documentation. The authors make no claims * * about the suitability of this software for any purpose. It is * * provided "as is" without express or implied warranty. * **************************************************************************/ // // TRD PID Cut Class // Does PID either on a x% electron efficiency basis or on dE/dx // For more information please check the implementation file // #ifndef ALIDIELECTRONTRDPIDCUT_H #define ALIDIELECTRONTRDPIDCUT_H #include class AliESDtrack; class AliVParticle; class AliDielectronTRDpidCut : public AliAnalysisCuts{ public: typedef enum{ kLQ = 0, kNN = 1 } PIDMethodTRD_t; enum{ kThreshParams = 24 }; enum{ kHistTRDlikeBefore = 0, kHistTRDlikeAfter = 1, kHistTRDthresholds = 2, kHistTRDSigV1 = 3, kHistTRDSigV2 = 4, kHistOverallSpecies = 5 }; enum PIDbitType {kIgnore=0, kRequire, kIfAvailable}; AliDielectronTRDpidCut(); AliDielectronTRDpidCut(const Char_t *name); AliDielectronTRDpidCut(const AliDielectronTRDpidCut &ref); AliDielectronTRDpidCut& operator=(const AliDielectronTRDpidCut &ref); virtual ~AliDielectronTRDpidCut(); virtual Bool_t InitializePID(); Double_t GetTRDSignalV1(const AliESDtrack *track, Float_t truncation = 0.7) const; Double_t GetTRDSignalV2(const AliESDtrack *track, Float_t trucation = 0.7) const; Bool_t IsCalculateTRDSignals() const { return TestBit(kTRDsignals); } Bool_t IsRenormalizeElPi() const { return TestBit(kTRDrenormalize); } void SetPIDBitType(UInt_t pidBitType=AliDielectronTRDpidCut::kRequire) { fRequirePIDbit = pidBitType; }; void SetPIDMethod(PIDMethodTRD_t method) { fPIDMethod = method; }; void SetRenormalizeElPi(Bool_t doRenorm = kTRUE) { if(doRenorm) SetBit(kTRDrenormalize, kTRUE); else SetBit(kTRDrenormalize, kFALSE);} void SetElectronEfficiency(Double_t electronEfficiency) { fElectronEfficiency = electronEfficiency; } void SetThresholdParameters(Double_t electronEff, Double_t *params); void SetMinP(Double_t p) { fMinP = p; } void CalculateTRDSignals(Bool_t docalc) { SetBit(kTRDsignals, docalc); } Double_t GetElectronLikelihood(const AliVParticle *track) const; void GetTRDmomenta(const AliVParticle *track, Double_t *mom) const; Double_t GetP(const AliVParticle *track) const; Double_t GetTRDthresholds(Double_t electronEff, Double_t p) const; Double_t GetChargeLayer(const AliVParticle *track, UInt_t layer) const; // //Analysis cuts interface // virtual Bool_t IsSelected(TObject* track); virtual Bool_t IsSelected(TList* /* list */ ) {return kFALSE;} protected: enum{ kTRDsignals = BIT(16), kTRDdefaultThresholds = BIT(17), kTRDrenormalize = BIT(18) }; void Copy(TObject &ref) const; void InitParameters(); void InitParameters1DLQ(); void GetParameters(Double_t electronEff, Double_t *parameters) const; void SetUseDefaultParameters(Bool_t useDefault = kTRUE) { SetBit(kTRDdefaultThresholds, useDefault); } Bool_t UseDefaultParameters() const { return TestBit(kTRDdefaultThresholds); } void RenormalizeElPi(const Double_t *likein, Double_t *likeout) const; private: static const Double_t fgkVerySmall; // Check for 0 Double_t fMinP; // Minimum momentum above which TRD PID is applied Double_t fElectronEfficiency; // Cut on electron efficiency PIDMethodTRD_t fPIDMethod; // PID Method: 2D Likelihood or Neural Network UChar_t fRequirePIDbit; //How to make use of the pid bit (see) Double_t fThreshParams[kThreshParams]; // Threshold parametrisation ClassDef(AliDielectronTRDpidCut, 1) // TRD electron ID class }; #endif