AliTPCCalPad.h

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

/* $Id$ */


#include "TNamed.h"
#include "TVectorDfwd.h"
#include "TMatrixDfwd.h"
#include "AliTPCCalROC.h"

class AliTPCCalDet;
class TObjArray;
class TGraph;
class TH2F;
class TH1F;
class TCanvas;
class TTree;
class TH2;
class TF1;

class AliTPCCalPad : public TNamed {
  public:
  enum { kNsec = 72, kNsecSplit = 108 };
  AliTPCCalPad();
  AliTPCCalPad(const Text_t* name, const Text_t* title);
  AliTPCCalPad(const AliTPCCalPad &c);   
  AliTPCCalPad(TObjArray *arrayROC);
  virtual ~AliTPCCalPad();
  AliTPCCalPad &operator=(const AliTPCCalPad &c);
  virtual void     Copy(TObject &c) const;
  virtual void Print(Option_t* option="") const;

  AliTPCCalROC *GetCalROC(Int_t sector) const {return fROC[sector]; };  
  void SetCalROC(AliTPCCalROC* roc, Int_t sector = -1);  
  virtual void  Draw(Option_t* option = "");
  // TTree functions
  static AliTPCCalPad *MakePadFromTree(TTree * tree, const char *query, const char*name=0, Bool_t doFast=kFALSE);  
  void AddFriend(TTree * tree, const char *friendName, const char *fname=0);
  //
  // convolution
  Bool_t MedianFilter(Int_t deltaRow, Int_t deltaPad, AliTPCCalPad*outlierPad=0, Bool_t doEdge=kTRUE);
  Bool_t LTMFilter(Int_t deltaRow, Int_t deltaPad, Float_t fraction, Int_t type, AliTPCCalPad*outlierPad=0, Bool_t doEdge=kTRUE);
  Bool_t Convolute(Double_t sigmaPad, Double_t sigmaRow,  AliTPCCalPad*outlierPad=0, TF1 *fpad=0, TF1 *frow=0 );
  //
  // algebra
  void Add(Float_t c1);   // add constant c1 to all channels of all ROCs
  void Multiply(Float_t c1);   // multiply each channel of all ROCs with c1
  void Add(const AliTPCCalPad * roc, Double_t c1 = 1);   // multiply AliTPCCalPad 'pad' by c1 and add each channel to the coresponing channel in all ROCs
  void Multiply(const AliTPCCalPad * pad);  // multiply each channel of all ROCs with the coresponding channel of 'pad'
  void Divide(const AliTPCCalPad * pad);    // divide each channel of all ROCs by the coresponding channel of 'pad'
  void Reset();
  //
  Double_t GetMeanRMS(Double_t &rms) const;   // Calculates mean and RMS of all ROCs
  Double_t GetStats     (AliTPCCalROC::EStatType statType, AliTPCCalPad *const outlierPad = 0, AliTPCCalROC::EPadType padType=AliTPCCalROC::kAll) const;//return mean of statType for padType
  Double_t GetMean      (AliTPCCalPad* outlierPad = 0, AliTPCCalROC::EPadType padType=AliTPCCalROC::kAll) const;
  Double_t GetRMS       (AliTPCCalPad* outlierPad = 0, AliTPCCalROC::EPadType padType=AliTPCCalROC::kAll) const;
  Double_t GetMedian    (AliTPCCalPad* outlierPad = 0, AliTPCCalROC::EPadType padType=AliTPCCalROC::kAll) const;
  Double_t GetMinElement(AliTPCCalPad* outlierPad = 0, AliTPCCalROC::EPadType padType=AliTPCCalROC::kAll) const;
  Double_t GetMaxElement(AliTPCCalPad* outlierPad = 0, AliTPCCalROC::EPadType padType=AliTPCCalROC::kAll) const;
  Double_t GetLTM(Double_t *sigma=0, Double_t fraction=0.9, AliTPCCalPad* outlierPad = 0, AliTPCCalROC::EPadType epadType=AliTPCCalROC::kAll) const;   // return mean of the LTM and sigma of all ROCs
  TGraph  *MakeGraph(Int_t type=0, Float_t ratio=0.7, AliTPCCalROC::EPadType padType=AliTPCCalROC::kAll);
  TH2F    *MakeHisto2D(Int_t side=0);
  TH1F    *MakeHisto1D(Float_t min=4, Float_t max=-4, Int_t type=0, Int_t side=0);  

  AliTPCCalPad* LocalFit(const char* padName, Int_t rowRadius, Int_t padRadius, AliTPCCalPad* Padoutliers = 0, Bool_t robust = kFALSE, Double_t chi2Threshold = 5, Double_t robustFraction = 0.7, Bool_t printCurrentSector = kFALSE) const;
  AliTPCCalPad* GlobalFit(const char* padName, AliTPCCalPad* Padoutliers = 0, Bool_t robust = kFALSE, Int_t fitType = 1, Double_t chi2Threshold = 5, Double_t robustFraction = 0.7, Double_t err=1, TObjArray *fitParArr=0x0, TObjArray *fitCovArr=0x0, AliTPCCalROC::EPadType padType=AliTPCCalROC::kAll);
  
  void GlobalSidesFit(const AliTPCCalPad* PadOutliers, const char* fitFormula, TVectorD &fitParamSideA, TVectorD &fitParamSideC, TMatrixD &covMatrixSideA, TMatrixD &covMatrixSideC, Float_t &chi2SideA, Float_t &chi2SideC, AliTPCCalPad *pointError=0, Bool_t robust = kFALSE, Double_t robustFraction = 0.7);
  
  static AliTPCCalPad* CreateCalPadFit(const char* fitFormula, const TVectorD &fitParamSideA, const TVectorD &fitParamSideC);
    
  static TObjArray *CreateFormulaArray(const char *fitFormula);
  static void EvalFormulaArray(const TObjArray &arrFitFormulas, TVectorD &results,
                               const Int_t sec, const Int_t row, const Int_t pad);
  //
  // default report
  //
  static TCanvas * MakeReportPadSector(TTree *chain, const char* varName, const char*varTitle, const char *axisTitle, Float_t min, Float_t max, const char * cutUser="");
  static TCanvas * MakeReportPadSector2D(TTree *chain, const char* varName, const char*varTitle, const char *axisTitle, Float_t min, Float_t max, const char *cutUser="");
  static AliTPCCalPad *MakeCalPadFromHistoRPHI(TH2 * hisA, TH2* hisC);

  //
  // unit test
  //
  void DumpUnitTestTrees(const TString fileName="");

 protected:
  AliTPCCalROC *fROC[kNsec];                    
  ClassDef(AliTPCCalPad,1)                      //  TPC calibration class for parameters which are saved per pad
};

#endif