[u/mrichter/AliRoot.git] / TRD / AliTRDCalibraFillHisto.h

#ifndef ALITRDCALIBRAFILLHISTO_H
#define ALITRDCALIBRAFILLHISTO_H
/* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
 * See cxx source for full Copyright notice                               */

/* $Id$ */

///////////////////////////////////////////////////////////////////////////////
//                                                                           //
//  TRD calibration class for the HLT parameters                             //
//                                                                           //
///////////////////////////////////////////////////////////////////////////////

#ifndef ROOT_TObject
#  include <TObject.h>
#endif
#ifndef ROOT_TProfile2D
#  include <TProfile2D.h> 
#endif


class TProfile2D;
class TObjArray;
class TH1F;
class TH2I;
class TH2F;
class TH2;
class TLinearFitter;
class TTreeSRedirector;

class AliLog;
class AliRawReader;

class AliTRDCalibraMode;
class AliTRDCalibraVector;
class AliTRDCalibraVdriftLinearFit;
class AliTRDrawStreamBase;
class AliTRDcluster;
class AliTRDtrackV1;
class AliTRDtrack;
class AliTRDseedV1;
class AliTRDgeometry;
class AliTRDCalDet;
class AliTRDCalROC;
class AliTRDcalibDB;

class AliTRDdigitsManager;
class AliTRDSignalIndex;

struct eventHeaderStruct;

class AliTRDCalibraFillHisto : public TObject {

 public: 

  // Instance
  static AliTRDCalibraFillHisto *Instance();
  static void Terminate();
  static void Destroy();
  void DestroyDebugStreamer();


  AliTRDCalibraFillHisto(const AliTRDCalibraFillHisto &c);
  AliTRDCalibraFillHisto &operator=(const AliTRDCalibraFillHisto &) { return *this; }

  // Functions for initialising and filling with AliTRDtrackV1
          Bool_t  Init2Dhistos(Int_t nboftimebin = -1);
	  Bool_t  InitCalDet();
	  Bool_t  UpdateHistograms(const AliTRDtrack *t);
	  Bool_t  UpdateHistogramsV1(const AliTRDtrackV1 *t);
 
  // Process events DAQ
	  Int_t   ProcessEventDAQ(AliTRDrawStreamBase *rawStream, Bool_t nocheck = kFALSE);
	  Int_t   ProcessEventDAQ(AliRawReader *rawReader, Bool_t nocheck = kFALSE);
	  Int_t   ProcessEventDAQ(const eventHeaderStruct *event, Bool_t nocheck = kFALSE);
	  Int_t   ProcessEventDAQ2(AliRawReader *rawReader);

  // Is Pad on
          Bool_t   IsPadOn(Int_t detector, Int_t row, Int_t col) const;

  // Functions for write
	  void     Write2d(const Char_t *filename = "TRD.calibration.root", Bool_t append = kFALSE);

  //For the statistics
	  Double_t *StatH(TH2 *ch, Int_t i);
	  Double_t *GetMeanMedianRMSNumberCH();
	  Double_t *GetMeanMedianRMSNumberLinearFitter() const;
 // LinearFitter
	  void     AnalyseLinearFitter();
       
     	 
  //
  // Set of Get the variables
  //

	  void     SetIsHLT(Bool_t isHLT = kTRUE)                            { fIsHLT = isHLT;                       }  
	  Bool_t   IsHLT() const                                             { return fIsHLT;                        }  

  // Choice to fill or not the 2D
	  void     SetPH2dOn(Bool_t ph2don = kTRUE)                          { fPH2dOn          = ph2don;            }
          void     SetCH2dOn(Bool_t ch2don = kTRUE)                          { fCH2dOn          = ch2don;            }
          void     SetPRF2dOn(Bool_t prf2don = kTRUE)                        { fPRF2dOn         = prf2don;           }
          void     SetHisto2d(Bool_t histo2d = kTRUE)                        { fHisto2d         = histo2d;           }
          void     SetVector2d(Bool_t vector2d = kTRUE)                      { fVector2d        = vector2d;          }
	  void     SetLinearFitterOn(Bool_t linearfitteron = kTRUE)          { fLinearFitterOn      = linearfitteron;}
	  void     SetLinearFitterDebugOn(Bool_t debug = kTRUE)              { fLinearFitterDebugOn = debug;         }
	  void     SetVersionGainUsed(Int_t versionGainUsed)                 { fVersionGainUsed = versionGainUsed;   }
	  void     SetSubVersionGainUsed(Int_t subVersionGainUsed)           { fSubVersionGainUsed = subVersionGainUsed;   }
	  void     SetVersionGainLocalUsed(Int_t versionGainLocalUsed)       { fVersionGainLocalUsed = versionGainLocalUsed;   }
	  void     SetSubVersionGainLocalUsed(Int_t subVersionGainLocalUsed) { fSubVersionGainLocalUsed = subVersionGainLocalUsed;   }
	  void     SetVersionVdriftUsed(Int_t versionVdriftUsed)             { fVersionVdriftUsed = versionVdriftUsed;   }
	  void     SetSubVersionVdriftUsed(Int_t subVersionVdriftUsed)       { fSubVersionVdriftUsed = subVersionVdriftUsed;   }
	
  
	  Bool_t   GetPH2dOn() const                                         { return fPH2dOn;                 }
          Bool_t   GetCH2dOn() const                                         { return fCH2dOn;                 }
          Bool_t   GetPRF2dOn() const                                        { return fPRF2dOn;                }
          Bool_t   GetHisto2d() const                                        { return fHisto2d;                }
          Bool_t   GetVector2d() const                                       { return fVector2d;               }
          Bool_t   GetLinearFitterOn() const                                 { return fLinearFitterOn;         }
	  Bool_t   GetLinearFitterDebugOn() const                            { return fLinearFitterDebugOn;    }
	  Int_t    GetVersionGainUsed() const                                { return fVersionGainUsed;        }
	  Int_t    GetSubVersionGainUsed() const                             { return fSubVersionGainUsed;     }
	  Int_t    GetVersionVdriftUsed() const                              { return fVersionVdriftUsed;      }
	  Int_t    GetSubVersionVdriftUsed() const                           { return fSubVersionVdriftUsed;   }


  // Get stuff that are filled
  TH2I            *GetCH2d();
  TProfile2D      *GetPH2d(Int_t nbtimebin=24, Float_t samplefrequency= 10.0);
  TProfile2D      *GetPRF2d() const                                          { return fPRF2d;                  } 
  TObjArray        GetLinearFitterArray() const                              { return fLinearFitterArray;      }
  TLinearFitter   *GetLinearFitter(Int_t detector, Bool_t force=kFALSE);
  AliTRDCalibraVdriftLinearFit *GetVdriftLinearFit() const                   { return fLinearVdriftFit;        }
  
 
  // How to fill the 2D
          void     SetRelativeScale(Float_t relativeScale);                      
          void     SetThresholdClusterPRF2(Float_t thresholdClusterPRF2)     { fThresholdClusterPRF2 = thresholdClusterPRF2; }
	  void     SetLimitChargeIntegration(Bool_t limitChargeIntegration)  { fLimitChargeIntegration = limitChargeIntegration; }
	  void     SetFillWithZero(Bool_t fillWithZero)                      { fFillWithZero = fillWithZero;   }
	  void     SetNormalizeNbOfCluster(Bool_t normalizeNbOfCluster)      { fNormalizeNbOfCluster = normalizeNbOfCluster; }
	  void     SetMaxCluster(Float_t maxCluster)                         { fMaxCluster = maxCluster; }
	  void     SetNbMaxCluster(Short_t nbMaxCluster)                     { fNbMaxCluster = nbMaxCluster; }
	  void     SetNz(Int_t i, Short_t nz);
          void     SetNrphi(Int_t i, Short_t nrphi);
          void     SetAllTogether(Int_t i);
	  void     SetPerSuperModule(Int_t i);
	  void     SetProcent(Float_t procent)                               { fProcent              = procent;              }
          void     SetDifference(Short_t difference)                         { fDifference           = difference;           }
          void     SetNumberClusters(Short_t numberClusters)                 { if(numberClusters >= 0) fNumberClusters       = numberClusters;       }
	  void     SetNumberClustersf(Short_t numberClustersf)               { fNumberClustersf      = numberClustersf;      }
	  void     SetNumberClustersProcent(Float_t numberClustersProcent)   { fNumberClustersProcent = numberClustersProcent;                       }
	  void     SetThresholdClustersDAQ(Float_t thresholdClustersDAQ)     { fThresholdClustersDAQ = thresholdClustersDAQ;                         }
	  void     SetNumberRowDAQ(Short_t numberRowDAQ)                     { fNumberRowDAQ         = numberRowDAQ;         }
	  void     SetNumberColDAQ(Short_t numberColDAQ)                     { fNumberColDAQ         = numberColDAQ;         }
	  void     SetNumberBinCharge(Short_t numberBinCharge)               { fNumberBinCharge      = numberBinCharge;      }
          void     SetNumberBinPRF(Short_t numberBinPRF)                     { fNumberBinPRF         = numberBinPRF;         }
	  void     SetNumberGroupsPRF(Short_t numberGroupsPRF);
  
          Float_t  GetRelativeScale() const                                  { return fRelativeScale;          }
          Float_t  GetThresholdClusterPRF2() const                           { return fThresholdClusterPRF2;   }
	  Bool_t   GetLimitChargeIntegration() const                         { return fLimitChargeIntegration; }
	  Bool_t   GetFillWithZero() const                                   { return fFillWithZero;           }
	  Bool_t   GetNormalizeNbOfCluster() const                           { return fNormalizeNbOfCluster;   }
	  Float_t  GetMaxCluster() const                                     { return fMaxCluster;             }
	  Short_t  GetNbMaxCluster() const                                   { return fNbMaxCluster;           }
	  Float_t  GetProcent() const                                        { return fProcent;                }
          Short_t  GetDifference() const                                     { return fDifference;             }
          Short_t  GetNumberClusters() const                                 { return fNumberClusters;         }
	  Short_t  GetNumberClustersf() const                                { return fNumberClustersf;        }
          Short_t  GetNumberBinCharge() const                                { return fNumberBinCharge;        }
          Short_t  GetNumberBinPRF() const                                   { return fNumberBinPRF;           }
	  Short_t  GetNumberGroupsPRF() const                                { return fNgroupprf;              }
	  Int_t    *GetEntriesLinearFitter() const                           { return fEntriesLinearFitter;    }

 // Debug
          void     SetDebugLevel(Short_t level)                              { fDebugLevel = level;           }

  // Vector method
AliTRDCalibraVector *GetCalibraVector() const                                { return fCalibraVector;          }   
  
 protected:

  // Geometry
  AliTRDgeometry  *fGeo;                    //! The TRD geometry
  // calibration DB
  AliTRDcalibDB   *fCalibDB;                //! The pointer to the TRDcalibDB instance

  // Is HLT
          Bool_t   fIsHLT;                  // Now if HLT, the per detector

  // Choice to fill or not the 2D
	  Bool_t   fCH2dOn;                 // Chose to fill the 2D histos or vectors for the relative gain calibration 
          Bool_t   fPH2dOn;                 // Chose to fill the 2D histos or vectors for the drift velocity and T0
          Bool_t   fPRF2dOn;                // Chose to fill the 2D histos or vectors for the pad response function calibration
          Bool_t   fHisto2d;                // Chose to fill the 2D histos
          Bool_t   fVector2d;               // Chose to fill vectors
	  Bool_t   fLinearFitterOn;         // Method with linear fit for drift velocity
	  Bool_t   fLinearFitterDebugOn;    // Method with linear fit for drift velocity

  // How to fill the 2D
          Float_t  fRelativeScale;          // Scale of the deposited charge
          Float_t  fThresholdClusterPRF2;   // Threshold on cluster pad signals
          Bool_t   fLimitChargeIntegration; // Integration range for the gain calibration
	  Bool_t   fFillWithZero;           // Fill with zero or not the average pulse height
	  Bool_t   fNormalizeNbOfCluster;   // Normalize with the number of cluster for the gain
	  Float_t  fMaxCluster;             // Max amplitude of one cluster
	  Short_t  fNbMaxCluster;           // Number of tb at the end
  // Back correction
	  Int_t    fVersionGainUsed;        // VersionGainUsed 
	  Int_t    fSubVersionGainUsed;     // SubVersionGainUsed
	  Int_t    fVersionGainLocalUsed;   // VersionGainUsed 
	  Int_t    fSubVersionGainLocalUsed;// SubVersionGainUsed
	  Int_t    fVersionVdriftUsed;      // VersionVdriftUsed 
	  Int_t    fSubVersionVdriftUsed;   // SubVersionVdriftUsed
  // Calibration mode
	  AliTRDCalibraMode *fCalibraMode;  // Calibration mode

  //For debugging
	  TTreeSRedirector          *fDebugStreamer;                 //!Debug streamer
          Short_t     fDebugLevel;                                   // Flag for debugging
  //
  // Internal variables
  //

  // Fill the 2D histos in the offline tracking
	  Int_t    fDetectorPreviousTrack;  // Change of detector
	  Int_t    fMCMPrevious;            // Change of MCM
	  Int_t    fROBPrevious;            // Change of ROB
	  Short_t  fNumberClusters;         // Minimum number of clusters in the tracklets
	  Short_t  fNumberClustersf;        // Maximum number of clusters in the tracklets
	  Float_t  fNumberClustersProcent;  // Procent of number of time bins for fNumberClusters
	  Float_t  fThresholdClustersDAQ;   // Threshold clusters for DAQ algorithm
	  Short_t  fNumberRowDAQ;           // Size of the spot for DAQ algorithm
	  Short_t  fNumberColDAQ;           // Size of the spot for DAQ algorithm
          Float_t  fProcent;                // Limit to take the info of the most important calibration group if the track goes through 2 groups (CH)
          Short_t  fDifference;             // Limit to take the info of the most important calibration group if the track goes through 2 groups (CH)
          Int_t    fNumberTrack;            // How many tracks could be used (Debug for the moment)
          Int_t    fNumberUsedCh[2];        // How many tracks have been really used for the gain (0, strict; 1 with fProcent)
          Int_t    fNumberUsedPh[2];        // How many tracks have been really used for the drift velocity (0, strict; 1 with fDifference)
	  Int_t    fTimeMax;                // Number of time bins
          Float_t  fSf;                     // Sampling frequence
	  Short_t  fNumberBinCharge;        // Number of bins for the gain factor
	  Short_t  fNumberBinPRF;           // Number of bin for the PRF
	  Short_t  fNgroupprf;              // Number of groups in tnp bins for PRF /2.0

  // Variables per tracklet
	  Float_t       *fAmpTotal;                  // Energy deposited in the calibration group by the track
          Short_t       *fPHPlace;                   // Calibration group of PH
          Float_t       *fPHValue;                   // PH
	  Bool_t         fGoodTracklet;              // Good tracklet
	  TLinearFitter *fLinearFitterTracklet;      // linear fitter tracklet  
  //Statistics
	  Int_t         *fEntriesCH;                 // Number of entries CH
	  Int_t         *fEntriesLinearFitter;       // Number of entries LinearFitter


  //
  // Vector method
  //
  	  
	  AliTRDCalibraVector *fCalibraVector; // The vector object
 
 
  // Histograms to store the info from the digits, from the tracklets or from the tracks
	  TProfile2D      *fPH2d;                         // 2D average pulse height
	  TProfile2D      *fPRF2d;                        // 2D PRF
	  TH2I            *fCH2d;                         // 2D deposited charge
	  TObjArray       fLinearFitterArray;             // TObjArray of Linear Fitters for the detectors 
	  AliTRDCalibraVdriftLinearFit *fLinearVdriftFit; // Info Linear Fit
	  
 // Current calib object: to correct for the database used
	  AliTRDCalDet *fCalDetGain;                      // Current calib object gain
	  AliTRDCalROC *fCalROCGain;                      // Current calib object gain
	   
  //
  // A lot of internal functions......
  // Init
	  Bool_t   InitCalPad(Int_t detector);
  //
  // Create the 2D histo to be filled Online
          void     CreateCH2d(Int_t nn);
          void     CreatePH2d(Int_t nn);
          void     CreatePRF2d(Int_t nn);
  
  // Calibration with AliTRDtrackV1
          void     FillTheInfoOfTheTrackPH();
          void     FillTheInfoOfTheTrackCH(Int_t nbclusters);
	  Bool_t   FindP1TrackPHtracklet(const AliTRDtrack *t, Int_t index0, Int_t index1);
	  Bool_t   FindP1TrackPHtrackletV1(const AliTRDseedV1 *tracklet, Int_t nbclusters);
	  Bool_t   HandlePRFtracklet(const AliTRDtrack *t, Int_t index0, Int_t index1);
	  Bool_t   HandlePRFtrackletV1(const AliTRDseedV1 *tracklet, Int_t nbclusters);
	  void     ResetfVariablestracklet();
	  void     StoreInfoCHPHtrack(const AliTRDcluster *cl,const Double_t dqdl,const Int_t *group,const Int_t row,const Int_t col,const AliTRDcluster *cls=0x0);
	  void     FillCH2d(Int_t x, Float_t y);

  // Calibration on DAQ

	  Int_t    FillDAQ(Double_t phvalue[16][144][36]);
	  Bool_t   UpdateDAQ(Int_t det, Int_t /*row*/, Int_t /*col*/, Int_t timebin, Float_t signal, Int_t nbtimebins);
	  
 // row col calibration groups stuff
          Bool_t   LocalisationDetectorXbins(Int_t detector);
	  Int_t    CalculateTotalNumberOfBins(Int_t i);
	  void     CheckGoodTrackletV0(const Int_t detector,const Int_t row,const Int_t col);
	  void     CheckGoodTrackletV1(const AliTRDcluster *cl);
	  Int_t    CalculateCalibrationGroup(Int_t i, Int_t row, Int_t col) const;
	  
  // Clear
          void     ClearHistos();
      
  // Some basic geometry function
  virtual Int_t    GetLayer(Int_t d) const;
  virtual Int_t    GetStack(Int_t d) const;
  virtual Int_t    GetSector(Int_t d) const;
	  
          
  // Instance of this class and so on
  static  AliTRDCalibraFillHisto *fgInstance;                // Instance
  static  Bool_t   fgTerminated;                             // If terminated

 private:
  
  // This is a singleton, contructor is private!
  AliTRDCalibraFillHisto();
  virtual ~AliTRDCalibraFillHisto(); 
    
  ClassDef(AliTRDCalibraFillHisto,4)                         // TRD Calibration class

};
  
#endif
Commit	Line	Data
55a288e5	1	#ifndef ALITRDCALIBRAFILLHISTO_H
6bbdc11a	2	#define ALITRDCALIBRAFILLHISTO_H
55a288e5	3	/* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
	4	* See cxx source for full Copyright notice */
	5
	6	/* $Id$ */
	7
	8	///////////////////////////////////////////////////////////////////////////////
	9	// //
	10	// TRD calibration class for the HLT parameters //
	11	// //
	12	///////////////////////////////////////////////////////////////////////////////
	13
	14	#ifndef ROOT_TObject
	15	# include <TObject.h>
	16	#endif
170c35f1	17	#ifndef ROOT_TProfile2D
	18	# include <TProfile2D.h>
	19	#endif
6bbdc11a	20
55a288e5	21
55a288e5	22	class TProfile2D;
55a288e5	23	class TObjArray;
	24	class TH1F;
	25	class TH2I;
170c35f1	26	class TH2F;
55a288e5	27	class TH2;
170c35f1	28	class TLinearFitter;
3a0f6479	29	class TTreeSRedirector;
55a288e5	30
55a288e5	31	class AliLog;
f162af62	32	class AliRawReader;
f162af62	33
55a288e5	34	class AliTRDCalibraMode;
55a288e5	35	class AliTRDCalibraVector;
3a0f6479	36	class AliTRDCalibraVdriftLinearFit;
b70c68da	37	class AliTRDrawStreamBase;
55a288e5	38	class AliTRDcluster;
bcb6fb78	39	class AliTRDtrackV1;
55a288e5	40	class AliTRDtrack;
bcb6fb78	41	class AliTRDseedV1;
f162af62	42	class AliTRDgeometry;
d0569428	43	class AliTRDCalDet;
d0569428	44	class AliTRDCalROC;
01239968	45	class AliTRDcalibDB;
d0569428	46
1785640c	47	class AliTRDdigitsManager;
1785640c	48	class AliTRDSignalIndex;
170c35f1	49
170c35f1	50	struct eventHeaderStruct;
55a288e5	51
	52	class AliTRDCalibraFillHisto : public TObject {
	53
	54	public:
	55
	56	// Instance
	57	static AliTRDCalibraFillHisto *Instance();
	58	static void Terminate();
	59	static void Destroy();
bcb6fb78	60	void DestroyDebugStreamer();
bcb6fb78	61
55a288e5	62
	63	AliTRDCalibraFillHisto(const AliTRDCalibraFillHisto &c);
	64	AliTRDCalibraFillHisto &operator=(const AliTRDCalibraFillHisto &) { return *this; }
	65
bcb6fb78	66	// Functions for initialising and filling with AliTRDtrackV1
9ff7be6d	67	Bool_t Init2Dhistos(Int_t nboftimebin = -1);
a2a4ec8e	68	Bool_t InitCalDet();
6bbdc11a	69	Bool_t UpdateHistograms(const AliTRDtrack *t);
6bbdc11a	70	Bool_t UpdateHistogramsV1(const AliTRDtrackV1 *t);
55a288e5	71
3a0f6479	72	// Process events DAQ
b70c68da	73	Int_t ProcessEventDAQ(AliTRDrawStreamBase *rawStream, Bool_t nocheck = kFALSE);
3a0f6479	74	Int_t ProcessEventDAQ(AliRawReader *rawReader, Bool_t nocheck = kFALSE);
6bbdc11a	75	Int_t ProcessEventDAQ(const eventHeaderStruct *event, Bool_t nocheck = kFALSE);
1785640c	76	Int_t ProcessEventDAQ2(AliRawReader *rawReader);
170c35f1	77
55a288e5	78	// Is Pad on
bcb6fb78	79	Bool_t IsPadOn(Int_t detector, Int_t row, Int_t col) const;
55a288e5	80
170c35f1	81	// Functions for write
	82	void Write2d(const Char_t *filename = "TRD.calibration.root", Bool_t append = kFALSE);
	83
55a288e5	84	//For the statistics
55a288e5	85	Double_t StatH(TH2 ch, Int_t i);
170c35f1	86	Double_t *GetMeanMedianRMSNumberCH();
170c35f1	87	Double_t *GetMeanMedianRMSNumberLinearFitter() const;
64942b85	88	// LinearFitter
64942b85	89	void AnalyseLinearFitter();
170c35f1	90
55a288e5	91
	92	//
	93	// Set of Get the variables
	94	//
	95
64942b85	96	void SetIsHLT(Bool_t isHLT = kTRUE) { fIsHLT = isHLT; }
	97	Bool_t IsHLT() const { return fIsHLT; }
	98
55a288e5	99	// Choice to fill or not the 2D
e526983e	100	void SetPH2dOn(Bool_t ph2don = kTRUE) { fPH2dOn = ph2don; }
3a0f6479	101	void SetCH2dOn(Bool_t ch2don = kTRUE) { fCH2dOn = ch2don; }
	102	void SetPRF2dOn(Bool_t prf2don = kTRUE) { fPRF2dOn = prf2don; }
	103	void SetHisto2d(Bool_t histo2d = kTRUE) { fHisto2d = histo2d; }
	104	void SetVector2d(Bool_t vector2d = kTRUE) { fVector2d = vector2d; }
	105	void SetLinearFitterOn(Bool_t linearfitteron = kTRUE) { fLinearFitterOn = linearfitteron;}
	106	void SetLinearFitterDebugOn(Bool_t debug = kTRUE) { fLinearFitterDebugOn = debug; }
4c865c34	107	void SetVersionGainUsed(Int_t versionGainUsed) { fVersionGainUsed = versionGainUsed; }
4c865c34	108	void SetSubVersionGainUsed(Int_t subVersionGainUsed) { fSubVersionGainUsed = subVersionGainUsed; }
a2a4ec8e	109	void SetVersionGainLocalUsed(Int_t versionGainLocalUsed) { fVersionGainLocalUsed = versionGainLocalUsed; }
a2a4ec8e	110	void SetSubVersionGainLocalUsed(Int_t subVersionGainLocalUsed) { fSubVersionGainLocalUsed = subVersionGainLocalUsed; }
4c865c34	111	void SetVersionVdriftUsed(Int_t versionVdriftUsed) { fVersionVdriftUsed = versionVdriftUsed; }
	112	void SetSubVersionVdriftUsed(Int_t subVersionVdriftUsed) { fSubVersionVdriftUsed = subVersionVdriftUsed; }
	113
55a288e5	114
e526983e	115	Bool_t GetPH2dOn() const { return fPH2dOn; }
55a288e5	116	Bool_t GetCH2dOn() const { return fCH2dOn; }
	117	Bool_t GetPRF2dOn() const { return fPRF2dOn; }
	118	Bool_t GetHisto2d() const { return fHisto2d; }
	119	Bool_t GetVector2d() const { return fVector2d; }
3a0f6479	120	Bool_t GetLinearFitterOn() const { return fLinearFitterOn; }
4c865c34	121	Bool_t GetLinearFitterDebugOn() const { return fLinearFitterDebugOn; }
	122	Int_t GetVersionGainUsed() const { return fVersionGainUsed; }
	123	Int_t GetSubVersionGainUsed() const { return fSubVersionGainUsed; }
	124	Int_t GetVersionVdriftUsed() const { return fVersionVdriftUsed; }
	125	Int_t GetSubVersionVdriftUsed() const { return fSubVersionVdriftUsed; }
bcb6fb78	126
	127
	128	// Get stuff that are filled
	129	TH2I *GetCH2d();
3a0f6479	130	TProfile2D *GetPH2d(Int_t nbtimebin=24, Float_t samplefrequency= 10.0);
170c35f1	131	TProfile2D *GetPRF2d() const { return fPRF2d; }
	132	TObjArray GetLinearFitterArray() const { return fLinearFitterArray; }
	133	TLinearFitter *GetLinearFitter(Int_t detector, Bool_t force=kFALSE);
d0569428	134	AliTRDCalibraVdriftLinearFit *GetVdriftLinearFit() const { return fLinearVdriftFit; }
3a0f6479	135
170c35f1	136
55a288e5	137	// How to fill the 2D
55a288e5	138	void SetRelativeScale(Float_t relativeScale);
55a288e5	139	void SetThresholdClusterPRF2(Float_t thresholdClusterPRF2) { fThresholdClusterPRF2 = thresholdClusterPRF2; }
b70c68da	140	void SetLimitChargeIntegration(Bool_t limitChargeIntegration) { fLimitChargeIntegration = limitChargeIntegration; }
37b0cf5e	141	void SetFillWithZero(Bool_t fillWithZero) { fFillWithZero = fillWithZero; }
64942b85	142	void SetNormalizeNbOfCluster(Bool_t normalizeNbOfCluster) { fNormalizeNbOfCluster = normalizeNbOfCluster; }
	143	void SetMaxCluster(Float_t maxCluster) { fMaxCluster = maxCluster; }
	144	void SetNbMaxCluster(Short_t nbMaxCluster) { fNbMaxCluster = nbMaxCluster; }
170c35f1	145	void SetNz(Int_t i, Short_t nz);
55a288e5	146	void SetNrphi(Int_t i, Short_t nrphi);
64942b85	147	void SetAllTogether(Int_t i);
	148	void SetPerSuperModule(Int_t i);
	149	void SetProcent(Float_t procent) { fProcent = procent; }
55a288e5	150	void SetDifference(Short_t difference) { fDifference = difference; }
e526983e	151	void SetNumberClusters(Short_t numberClusters) { if(numberClusters >= 0) fNumberClusters = numberClusters; }
bcb6fb78	152	void SetNumberClustersf(Short_t numberClustersf) { fNumberClustersf = numberClustersf; }
6aafa7ea	153	void SetNumberClustersProcent(Float_t numberClustersProcent) { fNumberClustersProcent = numberClustersProcent; }
	154	void SetThresholdClustersDAQ(Float_t thresholdClustersDAQ) { fThresholdClustersDAQ = thresholdClustersDAQ; }
	155	void SetNumberRowDAQ(Short_t numberRowDAQ) { fNumberRowDAQ = numberRowDAQ; }
	156	void SetNumberColDAQ(Short_t numberColDAQ) { fNumberColDAQ = numberColDAQ; }
1785640c	157	void SetNumberBinCharge(Short_t numberBinCharge) { fNumberBinCharge = numberBinCharge; }
55a288e5	158	void SetNumberBinPRF(Short_t numberBinPRF) { fNumberBinPRF = numberBinPRF; }
170c35f1	159	void SetNumberGroupsPRF(Short_t numberGroupsPRF);
55a288e5	160
55a288e5	161	Float_t GetRelativeScale() const { return fRelativeScale; }
55a288e5	162	Float_t GetThresholdClusterPRF2() const { return fThresholdClusterPRF2; }
b70c68da	163	Bool_t GetLimitChargeIntegration() const { return fLimitChargeIntegration; }
37b0cf5e	164	Bool_t GetFillWithZero() const { return fFillWithZero; }
64942b85	165	Bool_t GetNormalizeNbOfCluster() const { return fNormalizeNbOfCluster; }
	166	Float_t GetMaxCluster() const { return fMaxCluster; }
	167	Short_t GetNbMaxCluster() const { return fNbMaxCluster; }
55a288e5	168	Float_t GetProcent() const { return fProcent; }
	169	Short_t GetDifference() const { return fDifference; }
	170	Short_t GetNumberClusters() const { return fNumberClusters; }
bcb6fb78	171	Short_t GetNumberClustersf() const { return fNumberClustersf; }
55a288e5	172	Short_t GetNumberBinCharge() const { return fNumberBinCharge; }
55a288e5	173	Short_t GetNumberBinPRF() const { return fNumberBinPRF; }
170c35f1	174	Short_t GetNumberGroupsPRF() const { return fNgroupprf; }
170c35f1	175	Int_t *GetEntriesLinearFitter() const { return fEntriesLinearFitter; }
55a288e5	176
170c35f1	177	// Debug
	178	void SetDebugLevel(Short_t level) { fDebugLevel = level; }
	179
	180	// Vector method
55a288e5	181	AliTRDCalibraVector *GetCalibraVector() const { return fCalibraVector; }
e4db522f	182
55a288e5	183	protected:
55a288e5	184
f162af62	185	// Geometry
f162af62	186	AliTRDgeometry *fGeo; //! The TRD geometry
01239968	187	// calibration DB
01239968	188	AliTRDcalibDB *fCalibDB; //! The pointer to the TRDcalibDB instance
f162af62	189
64942b85	190	// Is HLT
	191	Bool_t fIsHLT; // Now if HLT, the per detector
	192
55a288e5	193	// Choice to fill or not the 2D
e526983e	194	Bool_t fCH2dOn; // Chose to fill the 2D histos or vectors for the relative gain calibration
55a288e5	195	Bool_t fPH2dOn; // Chose to fill the 2D histos or vectors for the drift velocity and T0
	196	Bool_t fPRF2dOn; // Chose to fill the 2D histos or vectors for the pad response function calibration
	197	Bool_t fHisto2d; // Chose to fill the 2D histos
	198	Bool_t fVector2d; // Chose to fill vectors
170c35f1	199	Bool_t fLinearFitterOn; // Method with linear fit for drift velocity
170c35f1	200	Bool_t fLinearFitterDebugOn; // Method with linear fit for drift velocity
55a288e5	201
	202	// How to fill the 2D
	203	Float_t fRelativeScale; // Scale of the deposited charge
170c35f1	204	Float_t fThresholdClusterPRF2; // Threshold on cluster pad signals
b70c68da	205	Bool_t fLimitChargeIntegration; // Integration range for the gain calibration
37b0cf5e	206	Bool_t fFillWithZero; // Fill with zero or not the average pulse height
64942b85	207	Bool_t fNormalizeNbOfCluster; // Normalize with the number of cluster for the gain
	208	Float_t fMaxCluster; // Max amplitude of one cluster
	209	Short_t fNbMaxCluster; // Number of tb at the end
4c865c34	210	// Back correction
	211	Int_t fVersionGainUsed; // VersionGainUsed
	212	Int_t fSubVersionGainUsed; // SubVersionGainUsed
a2a4ec8e	213	Int_t fVersionGainLocalUsed; // VersionGainUsed
a2a4ec8e	214	Int_t fSubVersionGainLocalUsed;// SubVersionGainUsed
4c865c34	215	Int_t fVersionVdriftUsed; // VersionVdriftUsed
4c865c34	216	Int_t fSubVersionVdriftUsed; // SubVersionVdriftUsed
170c35f1	217	// Calibration mode
55a288e5	218	AliTRDCalibraMode *fCalibraMode; // Calibration mode
55a288e5	219
170c35f1	220	//For debugging
	221	TTreeSRedirector *fDebugStreamer; //!Debug streamer
	222	Short_t fDebugLevel; // Flag for debugging
55a288e5	223	//
	224	// Internal variables
	225	//
	226
	227	// Fill the 2D histos in the offline tracking
170c35f1	228	Int_t fDetectorPreviousTrack; // Change of detector
e4db522f	229	Int_t fMCMPrevious; // Change of MCM
e4db522f	230	Int_t fROBPrevious; // Change of ROB
170c35f1	231	Short_t fNumberClusters; // Minimum number of clusters in the tracklets
bcb6fb78	232	Short_t fNumberClustersf; // Maximum number of clusters in the tracklets
6aafa7ea	233	Float_t fNumberClustersProcent; // Procent of number of time bins for fNumberClusters
	234	Float_t fThresholdClustersDAQ; // Threshold clusters for DAQ algorithm
	235	Short_t fNumberRowDAQ; // Size of the spot for DAQ algorithm
	236	Short_t fNumberColDAQ; // Size of the spot for DAQ algorithm
55a288e5	237	Float_t fProcent; // Limit to take the info of the most important calibration group if the track goes through 2 groups (CH)
	238	Short_t fDifference; // Limit to take the info of the most important calibration group if the track goes through 2 groups (CH)
	239	Int_t fNumberTrack; // How many tracks could be used (Debug for the moment)
	240	Int_t fNumberUsedCh[2]; // How many tracks have been really used for the gain (0, strict; 1 with fProcent)
	241	Int_t fNumberUsedPh[2]; // How many tracks have been really used for the drift velocity (0, strict; 1 with fDifference)
	242	Int_t fTimeMax; // Number of time bins
	243	Float_t fSf; // Sampling frequence
	244	Short_t fNumberBinCharge; // Number of bins for the gain factor
	245	Short_t fNumberBinPRF; // Number of bin for the PRF
170c35f1	246	Short_t fNgroupprf; // Number of groups in tnp bins for PRF /2.0
	247
	248	// Variables per tracklet
170c35f1	249	Float_t *fAmpTotal; // Energy deposited in the calibration group by the track
	250	Short_t *fPHPlace; // Calibration group of PH
	251	Float_t *fPHValue; // PH
	252	Bool_t fGoodTracklet; // Good tracklet
1ca79a00	253	TLinearFitter *fLinearFitterTracklet; // linear fitter tracklet
bcb6fb78	254	//Statistics
170c35f1	255	Int_t *fEntriesCH; // Number of entries CH
	256	Int_t *fEntriesLinearFitter; // Number of entries LinearFitter
	257
55a288e5	258
	259	//
	260	// Vector method
	261	//
d0569428	262
d0569428	263	AliTRDCalibraVector *fCalibraVector; // The vector object
55a288e5	264
	265
	266	// Histograms to store the info from the digits, from the tracklets or from the tracks
d0569428	267	TProfile2D *fPH2d; // 2D average pulse height
	268	TProfile2D *fPRF2d; // 2D PRF
	269	TH2I *fCH2d; // 2D deposited charge
	270	TObjArray fLinearFitterArray; // TObjArray of Linear Fitters for the detectors
	271	AliTRDCalibraVdriftLinearFit *fLinearVdriftFit; // Info Linear Fit
	272
	273	// Current calib object: to correct for the database used
	274	AliTRDCalDet *fCalDetGain; // Current calib object gain
	275	AliTRDCalROC *fCalROCGain; // Current calib object gain
bcb6fb78	276
55a288e5	277	//
55a288e5	278	// A lot of internal functions......
a2a4ec8e	279	// Init
a2a4ec8e	280	Bool_t InitCalPad(Int_t detector);
55a288e5	281	//
55a288e5	282	// Create the 2D histo to be filled Online
	283	void CreateCH2d(Int_t nn);
	284	void CreatePH2d(Int_t nn);
3a0f6479	285	void CreatePRF2d(Int_t nn);
55a288e5	286
bcb6fb78	287	// Calibration with AliTRDtrackV1
55a288e5	288	void FillTheInfoOfTheTrackPH();
bcb6fb78	289	void FillTheInfoOfTheTrackCH(Int_t nbclusters);
6bbdc11a	290	Bool_t FindP1TrackPHtracklet(const AliTRDtrack *t, Int_t index0, Int_t index1);
bcb6fb78	291	Bool_t FindP1TrackPHtrackletV1(const AliTRDseedV1 *tracklet, Int_t nbclusters);
6bbdc11a	292	Bool_t HandlePRFtracklet(const AliTRDtrack *t, Int_t index0, Int_t index1);
bcb6fb78	293	Bool_t HandlePRFtrackletV1(const AliTRDseedV1 *tracklet, Int_t nbclusters);
bcb6fb78	294	void ResetfVariablestracklet();
1785640c	295	void StoreInfoCHPHtrack(const AliTRDcluster cl,const Double_t dqdl,const Int_t group,const Int_t row,const Int_t col,const AliTRDcluster *cls=0x0);
170c35f1	296	void FillCH2d(Int_t x, Float_t y);
bcb6fb78	297
	298	// Calibration on DAQ
	299
	300	Int_t FillDAQ(Double_t phvalue[16][144][36]);
bcb6fb78	301	Bool_t UpdateDAQ(Int_t det, Int_t /row/, Int_t /col/, Int_t timebin, Float_t signal, Int_t nbtimebins);
00a3834d	302
00a3834d	303	// row col calibration groups stuff
55a288e5	304	Bool_t LocalisationDetectorXbins(Int_t detector);
170c35f1	305	Int_t CalculateTotalNumberOfBins(Int_t i);
6bbdc11a	306	void CheckGoodTrackletV0(const Int_t detector,const Int_t row,const Int_t col);
6bbdc11a	307	void CheckGoodTrackletV1(const AliTRDcluster *cl);
bcb6fb78	308	Int_t CalculateCalibrationGroup(Int_t i, Int_t row, Int_t col) const;
170c35f1	309
55a288e5	310	// Clear
	311	void ClearHistos();
	312
	313	// Some basic geometry function
053767a4	314	virtual Int_t GetLayer(Int_t d) const;
053767a4	315	virtual Int_t GetStack(Int_t d) const;
55a288e5	316	virtual Int_t GetSector(Int_t d) const;
d0569428	317
bcb6fb78	318
55a288e5	319	// Instance of this class and so on
170c35f1	320	static AliTRDCalibraFillHisto *fgInstance; // Instance
170c35f1	321	static Bool_t fgTerminated; // If terminated
0c349049	322
0c349049	323	private:
	324
	325	// This is a singleton, contructor is private!
	326	AliTRDCalibraFillHisto();
e4db522f	327	virtual ~AliTRDCalibraFillHisto();
55a288e5	328
e4db522f	329	ClassDef(AliTRDCalibraFillHisto,4) // TRD Calibration class
55a288e5	330
	331	};
	332
	333	#endif
a2a4ec8e	334
068b874f	335