~AliTPCclustererKr();
//finders
- Int_t finderIO();//for MC
- Int_t finderIO(AliRawReader* rawReader);//for data
- Int_t findClusterKrIO();//main routine for finding clusters
+ Int_t FinderIO();//for MC
+ Int_t FinderIO(AliRawReader* rawReader);//for data
+ Int_t FindClusterKrIO();//main routine for finding clusters
+
+ //other
+ void GetXY(Short_t sec,Short_t row,Short_t pad,Double_t& xGlob,Double_t& yGlob);//give XY coordinate of the pad
virtual void SetInput(TTree * tree); //set input tree with digits
virtual void SetOutput(TTree * tree); //set output tree with clusters
Bool_t fRawData; //flague =0 for MC =1 for real data
AliTPCClustersRow * fRowCl; //! current cluster row (used in rootuple fill)
+ //setters for cluster finder parameters
+ void SetZeroSup(Int_t v){fZeroSup=v;}//set zero suppresion parameter
+ void SetFirstBin(Short_t v){fFirstBin=v;}//set first considered timebin
+ void SetLastBin(Short_t v){fLastBin=v;}//set last considered timebin
+ void SetMaxNoiseAbs(Float_t v){fMaxNoiseAbs=v;}//set maximal noise value
+ void SetMaxNoiseSigma(Float_t v){fMaxNoiseSigma=v;}//set maximal noise sigma
+
+ void SetMinAdc(Short_t v){v<=0?fMinAdc=1:fMinAdc=v;}//set fMinAdc
+ void SetMinTimeBins(Short_t v){fMinTimeBins=v;}//set fMinTimeBins
+// void SetMaxPadRange(Short_t v){fMaxPadRange=v;}//set fMaxPadRange
+// void SetMaxRowRange(Short_t v){fMaxRowRange=v;}//set fMaxRowRange
+ void SetMaxTimeRange(Short_t v){fMaxTimeRange=v;}//set fMaxTimeRange
+ void SetValueToSize(Float_t v){fValueToSize=v;}//set fValueToSize
+
+ void SetMaxPadRangeCm(Double_t v){fMaxPadRangeCm=v;}//set fMaxPadRangeCm
+ void SetMaxRowRangeCm(Double_t v){fMaxRowRangeCm=v;}//set fMaxRowRangeCm
+
+ //getters for cluster finder parameters
+ Int_t GetZeroSup(){return fZeroSup;}//get zero suppresion parameter
+ Short_t GetFirstBin(){return fFirstBin;}//get first considered timebin
+ Short_t GetLastBin(){return fLastBin;}//get last considered timebin
+ Float_t GetMaxNoiseAbs(){return fMaxNoiseAbs;}//get maximal noise value
+ Float_t GetMaxNoiseSigma(){return fMaxNoiseSigma;}//get maximal noise sigma
+
+ Short_t GetMinAdc(){return fMinAdc;}//get fMinAdc
+ Short_t GetMinTimeBins(){return fMinTimeBins;}//get fMinTimeBins
+// Short_t GetMaxPadRange(){return fMaxPadRange;}//get fMaxPadRange
+// Short_t GetMaxRowRange(){return fMaxRowRange;}//get fMaxRowRange
+ Short_t GetMaxTimeRange(){return fMaxTimeRange;}//get fMaxTimeRange
+ Float_t GetValueToSize(){return fValueToSize;}//get fValueToSize
+
+ Double_t GetMaxPadRangeCm(){return fMaxPadRangeCm;}//get fMaxPadRangeCm
+ Double_t GetMaxRowRangeCm(){return fMaxRowRangeCm;}//get fMaxRowRangeCm
+
private:
TTree * fInput; //!input tree with digits - object not owner
TTree * fOutput; //!output tree with clusters - object not owner
//only for raw data :)
const AliTPCRecoParam * fRecoParam; //! reconstruction parameters
Bool_t fIsOldRCUFormat; // assume old RCU raw data format
-
- ClassDef(AliTPCclustererKr,1) // Time Projection Chamber Kr clusters
+ //cluster finder parameters
+ Int_t fZeroSup;//zero suppresion parameter = 2 def.
+ Short_t fFirstBin;//first considered time bin used by cluster finder = 60 def.
+ Short_t fLastBin;//last considered time bin used by cluster finder = 950 def.
+ Float_t fMaxNoiseAbs;// maximal noise value on pad used in cluster finder = 2 def.
+ Float_t fMaxNoiseSigma;// maximal noise sigma on pad used in cluster finder = 3 def.
+
+ Short_t fMinAdc;//minimal value of acd count in each timebin = 3 def.
+ Short_t fMinTimeBins;//minimal value of time bins one after each other = 2 def.
+// Short_t fMaxPadRange;//maximal pad range from maximum = 4 def.
+// Short_t fMaxRowRange;//maximal row range from maximum = 3 def.
+ Short_t fMaxTimeRange;//maximal time bin range from maximum = 7 def.
+ Float_t fValueToSize;//ratio cluster value to cluster size = 3.5 def.
+
+ Double_t fMaxPadRangeCm;//maximal pad range in cm from maximum = 2.5cm def.
+ Double_t fMaxRowRangeCm;//maximal row range in cm from maximum = 3.5cm def.
+
+ ClassDef(AliTPCclustererKr,2) // Time Projection Chamber Kr clusters
};