copy TRD performance train to PWG1

[u/mrichter/AliRoot.git] / PWG1 / AliComparisonDraw.h

#ifndef AliComparisonDraw_h
#define AliComparisonDraw_h


class TFile;
class AliMCInfo;
class AliESDRecInfo;
class AliESDEvent; 
class AliESD;
class AliESDfriend;
class TH1I;
class TH3F;
class TH3;
class TProfile;
class TProfile2D;
class TGraph2D;
class TGraph; 

#include "TNamed.h"

class AliComparisonDraw : public TNamed {
public :
  AliComparisonDraw(); 
  //
  AliComparisonDraw(const AliComparisonDraw& recinfo); 
  AliComparisonDraw& operator=(const AliComparisonDraw& info);

  ~AliComparisonDraw();
  virtual Bool_t    IsFolder() const {return kTRUE;}
  void      InitHisto();
  void      Process(AliMCInfo* infoMC, AliESDRecInfo *infoRC);
  
  //
  //
  void      ProcessEff(AliMCInfo* infoMC, AliESDRecInfo *infoRC);
  void      ProcessResolConstrained(AliMCInfo* infoMC, AliESDRecInfo *infoRC);
  void      ProcessTPCdedx(AliMCInfo* infoMC, AliESDRecInfo *infoRC);
  void      ProcessDCA(AliMCInfo* infoMC, AliESDRecInfo *infoRC);

  void MakePlots();


  //TH1F            GetPtResol(Float_t pt0, Float_t pt1);
  static TH1F*       MakeResol(TH2F * his, Int_t integ, Bool_t type); 
  static TGraph2D *  MakeStat2D(TH3 * his, Int_t delta0, Int_t delta1, Int_t type);
  static TGraph *  MakeStat1D(TH3 * his, Int_t delta1, Int_t type);


protected:
  //
  // efficiency 
  //
  static    Bool_t    fgBDraw;         //option draw temporary results
  TProfile* fEffTPCPt;      //->TPC efficiency as function of Pt (tan+-1)
  TProfile* fEffTPCPtMC;    //->MC -TPC efficiency as function of Pt (tan+-1)
  TProfile* fEffTPCPtF;     //->efficiency for findable tracks
  //
  TProfile* fEffTPCTan;   //->TPC efficiency as function of Tan (pt>0.15
  TProfile* fEffTPCTanMC; //->MC -TPC efficiency as function of Tan (pt>0.15)
  TProfile* fEffTPCTanF;  //->efficiency for findable tracks Tan (pt>0.15)
  //
  TProfile2D* fEffTPCPtTan;    //->TPC efficiency as function of Pt and tan
  TProfile2D* fEffTPCPtTanMC;  //->MC -TPC efficiency as function of Pt and tan
  TProfile2D* fEffTPCPtTanF;  //-> TPC efficiency as function of Pt and tan
  //
  // dEdx resolution
  //
  TH2F* fTPCSignalNormTan; //-> tpc signal normalized to the mean signal - MC
  TH2F* fTPCSignalNormSPhi;   //-> tpc signal normalized to the mean signal - MC
  TH2F* fTPCSignalNormTPhi;   //-> tpc signal normalized to the mean signal - MC
  //
  TH3F* fTPCSignalNormTanSPhi;   //-> tpc signal normalized to the mean signal - MC
  TH3F* fTPCSignalNormTanTPhi;   //-> tpc signal normalized to the mean signal - MC
  TH3F* fTPCSignalNormTanSPt;   //->tpc signal normalized to the mean signal - MC


  //
  //
  TH2F* fPtResolLPT;        //-> pt resolution - low pt
  TH2F* fPtResolHPT;        //-> pt resolution - high pt 
  TH2F* fPtPullLPT;         //-> pt resolution - low pt
  TH2F* fPtPullHPT;         //-> pt resolution - high pt 
  //
  // Resolution constrained param
  //
  TH2F   *fCPhiResolTan;   //-> angular resolution -  constrained
  TH2F   *fCTanResolTan;   //-> angular resolution -  constrained
  TH2F   *fCPtResolTan;    //-> pt resolution      -  constrained
  TH2F   *fCPhiPullTan;   //-> angular resolution -  constrained
  TH2F   *fCTanPullTan;   //-> angular resolution -  constrained
  TH2F   *fCPtPullTan;    //-> pt resolution      -  constrained
  //
  // DCA resolution
  //
  TH3F  *fD0TanSPtB1;   //-> distance to vertex y  
  TH3F  *fD1TanSPtB1;   //-> distance to vertex z  
  TH3F  *fD0TanSPtL1;   //-> distance to vertex y  
  TH3F  *fD1TanSPtL1;   //-> distance to vertex z  

protected:
   ClassDef(AliComparisonDraw,2);
};















#endif