void SetTrkCutAlphaMin(Double_t value) {fTrkCutAlphaMin = value;}
void SetTrkCutAlphaMax(Double_t value) {fTrkCutAlphaMax = value;}
void SetTrkCutAngle(Double_t value) {fTrkCutAngle = value;}
+ void SetTrkCutNITS(Double_t value) {fTrkCutNITS = value;}
+ void SetTrkCutNTPC(Double_t value) {fTrkCutNTPC = value;}
/* track matching cut getters */
Double_t GetTrkCutX() const {return fTrkCutX;}
Double_t GetTrkCutY() const {return fTrkCutY;}
Double_t GetTrkCutAlphaMin() const {return fTrkCutAlphaMin;}
Double_t GetTrkCutAlphaMax() const {return fTrkCutAlphaMax;}
Double_t GetTrkCutAngle() const {return fTrkCutAngle;}
+ Double_t GetTrkCutNITS() const {return fTrkCutNITS;}
+ Double_t GetTrkCutNTPC() const {return fTrkCutNTPC;}
//Raw signal fitting (Jenn)
/* raw signal setters */
virtual void Print(Option_t * option="") const ;
static AliEMCALRecParam* GetDefaultParameters();
+ static AliEMCALRecParam* GetLowFluxParam();
+ static AliEMCALRecParam* GetHighFluxParam();
+
static const TObjArray* GetMappings();
private:
Double_t fTrkCutAlphaMin; // cut on 'alpha' parameter for track matching (min)
Double_t fTrkCutAlphaMax; // cut on 'alpha' parameter for track matching (min)
Double_t fTrkCutAngle; // cut on relative angle between different track points for track matching
-
+ Double_t fTrkCutNITS; // Number of ITS hits for track matching
+ Double_t fTrkCutNTPC; // Number of TPC hits for track matching
+
//Raw signal fitting parameters (Jenn)
Double_t fHighLowGainFactor; //gain factor to convert between high and low gain
Int_t fOrderParameter; //order parameter for raw signal fit