-#ifndef ALITPCCLUSTERERKR_H
-#define ALITPCCLUSTERERKR_H
-/* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
- * See cxx source for full Copyright notice */
-
-/* $Id: AliTPCclusterKr.h,v 1.8 2008/02/07 16:07:15 matyja Exp $ */
-
-//-------------------------------------------------------
-// TPC Kr Cluster Class
-//
-// Origin: Adam Matyja, INP PAN, adam.matyja@ifj.edu.pl
-//-------------------------------------------------------
-
-#include "AliTPCclusterKr.h"
-#include <vector>
-#include "TObject.h"
-#include "AliPadMax.h"
-#include "AliSimDigits.h"
-#include "AliTPCv4.h"
-#include "AliTPCParam.h"
-#include "AliTPCDigitsArray.h"
-#include "AliTPCvtpr.h"
-#include "AliTPCClustersRow.h"
-#include "TTree.h"
-
-//used in raw data finder
-#include "AliTPCROC.h"
-#include "AliTPCCalPad.h"
-#include "AliTPCAltroMapping.h"
-#include "AliTPCcalibDB.h"
-#include "AliTPCRawStream.h"
-#include "AliTPCRecoParam.h"
-#include "AliTPCReconstructor.h"
-#include "AliRawReader.h"
-#include "AliTPCCalROC.h"
-
-//_____________________________________________________________________________
-class AliTPCclustererKr: public TObject{
-public:
- AliTPCclustererKr();
- AliTPCclustererKr(const AliTPCclustererKr ¶m);//copy constructor
- AliTPCclustererKr &operator = (const AliTPCclustererKr & param);
- ~AliTPCclustererKr();
-
- //finders
- 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
-
- void SetParam(AliTPCParam *param){fParam=param;}//set TPC parameters
- void SetDigArr(AliTPCDigitsArray *digarr){fDigarr=digarr;}//set current array of digits
- void SetRecoParam(AliTPCRecoParam *recoParam=0);//set reconstruction parameters
- virtual void SetOldRCUFormat(Bool_t rcuFormat = kFALSE)
- { fIsOldRCUFormat = rcuFormat; };
-
- 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
- AliTPCParam * fParam;//!TPC parameters
- AliTPCDigitsArray *fDigarr;//! pointer to current array if digits
-
- //only for raw data :)
- const AliTPCRecoParam * fRecoParam; //! reconstruction parameters
- Bool_t fIsOldRCUFormat; // assume old RCU raw data format
-
- //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
-};
-
-
-#endif
-
-
+#ifndef ALITPCCLUSTERERKR_H\r
+#define ALITPCCLUSTERERKR_H\r
+/* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *\r
+ * See cxx source for full Copyright notice */\r
+\r
+/* $Id: AliTPCclustererKr.h,v 1.8 2008/02/07 16:07:15 matyja Exp $ */\r
+\r
+//-------------------------------------------------------\r
+// TPC Kr Clusterer Class\r
+//\r
+// Origin: Adam Matyja, INP PAN, adam.matyja@ifj.edu.pl\r
+//-------------------------------------------------------\r
+\r
+#include "TObject.h"\r
+\r
+class AliTPCclusterKr;\r
+class AliPadMax;\r
+class AliSimDigits;\r
+class AliTPCv4;\r
+class AliTPCParam;\r
+class AliTPCDigitsArray;\r
+class AliTPCvtpr;\r
+class AliTPCClustersRow;\r
+class TTree;\r
+class TH1F;\r
+class TH2F;\r
+\r
+class AliTPCTransform;\r
+\r
+//used in raw data finder\r
+class AliTPCROC;\r
+class AliTPCCalPad;\r
+class AliTPCAltroMapping;\r
+class AliTPCcalibDB;\r
+class AliTPCRawStream;\r
+class AliTPCRecoParam;\r
+class AliTPCReconstructor;\r
+class AliRawReader;\r
+class AliTPCCalROC;\r
+class TTreeSRedirector;\r
+class AliRawEventHeaderBase;\r
+//_____________________________________________________________________________\r
+class AliTPCclustererKr: public TObject{\r
+public:\r
+ AliTPCclustererKr();\r
+ AliTPCclustererKr(const AliTPCclustererKr ¶m);//copy constructor\r
+ AliTPCclustererKr &operator = (const AliTPCclustererKr & param); \r
+ virtual ~AliTPCclustererKr();\r
+\r
+ //finders\r
+ virtual Int_t FinderIO();//for MC\r
+ virtual Int_t FinderIO(AliRawReader* rawReader);//for data\r
+ virtual Int_t FinderIOold(AliRawReader* rawReader);//for data\r
+ virtual Int_t FindClusterKrIO();//main routine for finding clusters\r
+ virtual void CleanSector(Int_t sector); // clean isolated digits\r
+\r
+ //other\r
+ void GetXY(Int_t sec,Int_t row,Int_t pad,Double_t& xGlob,Double_t& yGlob);//give XY coordinate of the pad\r
+\r
+ virtual void SetInput(TTree * tree); //set input tree with digits \r
+ virtual void SetOutput(TTree * tree); //set output tree with clusters\r
+ virtual void SetParam(AliTPCParam *param){fParam=param;}//set TPC parameters\r
+ virtual void SetDigArr(AliTPCDigitsArray *digarr){fDigarr=digarr;}//set current array of digits\r
+ virtual void SetRecoParam(AliTPCRecoParam *recoParam=0);//set reconstruction parameters\r
+\r
+ virtual void SetTimeStamp(UInt_t timestamp){ fTimeStamp = timestamp; }\r
+ virtual void SetRun(UInt_t run){ fRun = run; }\r
+\r
+ //setters for cluster finder parameters\r
+ virtual void SetZeroSup(Int_t v){fZeroSup=v;}//set zero suppresion parameter\r
+ virtual void SetFirstBin(Int_t v){fFirstBin=v;}//set first considered timebin\r
+ virtual void SetLastBin(Int_t v){fLastBin=v;}//set last considered timebin\r
+ virtual void SetMaxNoiseAbs(Float_t v){fMaxNoiseAbs=v;}//set maximal noise value\r
+ virtual void SetMaxNoiseSigma(Float_t v){fMaxNoiseSigma=v;}//set maximal noise sigma\r
+\r
+ virtual void SetMinAdc(Int_t v){v<=0?fMinAdc=1:fMinAdc=v;}//set fMinAdc\r
+ virtual void SetMinTimeBins(Int_t v){fMinTimeBins=v;}//set fMinTimeBins\r
+// virtual void SetMaxPadRange(Int_t v){fMaxPadRange=v;}//set fMaxPadRange\r
+// virtual void SetMaxRowRange(Int_t v){fMaxRowRange=v;}//set fMaxRowRange\r
+ virtual void SetMaxTimeRange(Int_t v){fMaxTimeRange=v;}//set fMaxTimeRange\r
+ virtual void SetValueToSize(Float_t v){fValueToSize=v;}//set fValueToSize\r
+\r
+ virtual void SetMaxPadRangeCm(Double_t v){fMaxPadRangeCm=v;}//set fMaxPadRangeCm\r
+ virtual void SetMaxRowRangeCm(Double_t v){fMaxRowRangeCm=v;}//set fMaxRowRangeCm\r
+\r
+ virtual void SetIsolCut(Short_t v){fIsolCut=v;}\r
+\r
+ virtual void SetDebugLevel(Int_t debug){fDebugLevel=debug;}\r
+ //debug = 0 to 71 -sector number to print\r
+ // = 72 - all sectors\r
+ // = 73 - inners\r
+ // = 74 - outers\r
+\r
+ virtual void SetHistoRow(TH1F *histo) {fHistoRow =histo;}\r
+ virtual void SetHistoPad(TH1F *histo) {fHistoPad =histo;}\r
+ virtual void SetHistoTime(TH1F *histo) {fHistoTime =histo;}\r
+ virtual void SetHistoRowPad(TH2F *histo){fHistoRowPad=histo;}\r
+\r
+ //getters for cluster finder parameters\r
+ Int_t GetZeroSup() const {return fZeroSup;}//get zero suppresion parameter\r
+ Int_t GetFirstBin() const {return fFirstBin;}//get first considered timebin\r
+ Int_t GetLastBin() const {return fLastBin;}//get last considered timebin\r
+ Float_t GetMaxNoiseAbs() const {return fMaxNoiseAbs;}//get maximal noise value\r
+ Float_t GetMaxNoiseSigma() const {return fMaxNoiseSigma;}//get maximal noise sigma\r
+\r
+ Int_t GetMinAdc() const {return fMinAdc;}//get fMinAdc\r
+ Int_t GetMinTimeBins() const {return fMinTimeBins;}//get fMinTimeBins\r
+// Int_t GetMaxPadRange() const {return fMaxPadRange;}//get fMaxPadRange\r
+// Int_t GetMaxRowRange() const {return fMaxRowRange;}//get fMaxRowRange\r
+ Int_t GetMaxTimeRange() const {return fMaxTimeRange;}//get fMaxTimeRange\r
+ Float_t GetValueToSize() const {return fValueToSize;}//get fValueToSize\r
+\r
+ Double_t GetMaxPadRangeCm() const {return fMaxPadRangeCm;}//get fMaxPadRangeCm\r
+ Double_t GetMaxRowRangeCm() const {return fMaxRowRangeCm;}//get fMaxRowRangeCm\r
+\r
+ Short_t GetIsolCut() const {return fIsolCut;}\r
+\r
+ Int_t GetDebugLevel() const {return fDebugLevel;}\r
+ TH1F * GetHistoRow(){return fHistoRow;} \r
+ TH1F * GetHistoPad(){return fHistoPad;}\r
+ TH1F * GetHistoTime(){return fHistoTime;}\r
+ TH2F * GetHistoRowPad(){return fHistoRowPad;}\r
+\r
+ UInt_t GetTimeStamp() const {return fTimeStamp;}\r
+ UInt_t GetRun() const {return fRun;}\r
+\r
+private:\r
+ void MakeClusters(TObjArray * maximaInSector, Int_t iSec, Int_t &clusterCounter);\r
+ Bool_t fRawData; //flag =0 for MC =1 for real data\r
+\r
+ TTree * fInput; //!input tree with digits - object not owner\r
+ TTreeSRedirector * fOutput; //!output tree with clusters - object not owner\r
+\r
+ AliTPCParam * fParam;//!TPC parameters\r
+ AliTPCDigitsArray *fDigarr;//! pointer to current array if digits\r
+\r
+ //only for raw data :)\r
+ const AliTPCRecoParam * fRecoParam; //! reconstruction parameters\r
+\r
+ //cluster finder parameters\r
+ Int_t fZeroSup;//zero suppresion parameter = 2 def.\r
+ Int_t fFirstBin;//first considered time bin used by cluster finder = 60 def.\r
+ Int_t fLastBin;//last considered time bin used by cluster finder = 950 def.\r
+ Float_t fMaxNoiseAbs;// maximal noise value on pad used in cluster finder = 2 def.\r
+ Float_t fMaxNoiseSigma;// maximal noise sigma on pad used in cluster finder = 3 def.\r
+\r
+ Int_t fMinAdc;//minimal value of acd count in each timebin = 3 def.\r
+ Int_t fMinTimeBins;//minimal value of time bins one after each other = 2 def.\r
+// Int_t fMaxPadRange;//maximal pad range from maximum = 4 def.\r
+// Int_t fMaxRowRange;//maximal row range from maximum = 3 def.\r
+ Int_t fMaxTimeRange;//maximal time bin range from maximum = 7 def.\r
+ Float_t fValueToSize;//ratio cluster value to cluster size = 3.5 def.\r
+\r
+ Double_t fMaxPadRangeCm;//maximal pad range in cm from maximum = 2.5cm def.\r
+ Double_t fMaxRowRangeCm;//maximal row range in cm from maximum = 3.5cm def.\r
+\r
+ Short_t fIsolCut;//isolation cut in 3D = 5 def.\r
+\r
+ Int_t fDebugLevel;//! debug level variable\r
+ TH1F *fHistoRow;//!debug histo for rows\r
+ TH1F *fHistoPad;//!debug histo for pads\r
+ TH1F *fHistoTime;//!debug histo for timebins\r
+ TH2F *fHistoRowPad;//!debug histo for rows and pads\r
+\r
+ UInt_t fTimeStamp; //!time stamp from event header\r
+ UInt_t fRun; //!run from event header\r
+ ClassDef(AliTPCclustererKr,8) // Time Projection Chamber Kr clusters\r
+};\r
+\r
+\r
+#endif\r