[u/mrichter/AliRoot.git] / PWGLF / STRANGENESS / LambdaK0PbPb / MainStreamAnalysis / AliAnalysisTaskPerformanceStrange.h

#ifndef ALIANALYSISTASKPERFORMANCESTRANGE_H
#define ALIANALYSISTASKPERFORMANCESTRANGE_H

/*  See cxx source for full Copyright notice */

//-----------------------------------------------------------------
//	        AliAnalysisTaskPerformanceSrange class
//    This task is for a performance study of V0 identification.
//                It works with MC info and ESD tree.
//                 Author: H.Ricaud, H.Ricaud@gsi.de
//-----------------------------------------------------------------

class TString;
class TList;
class TH1F;
class TH2F;
class TH3F;
class AliAnalysisCentralitySelector;
class AliPIDResponse;
#include "AliAnalysisTaskSE.h"

class AliAnalysisTaskPerformanceStrange : public AliAnalysisTaskSE {
 public:
  AliAnalysisTaskPerformanceStrange();
  AliAnalysisTaskPerformanceStrange(const char *name);
  virtual ~AliAnalysisTaskPerformanceStrange(); // Destructor implemented by Kalinak  
  
  virtual void   UserCreateOutputObjects();
  virtual void   UserExec(Option_t *option);
  virtual void   Terminate(Option_t *);
 
  void   SetCollidingSystems(Bool_t collidingSystems = 0) {fCollidingSystems = collidingSystems;}
  void   SetAnalysisMC(Bool_t analysisMC) {fAnalysisMC = analysisMC;}
  void   SetAnalysisType(const char* analysisType) {fAnalysisType = analysisType;}
  void   SetUsePID(const char* usePID) {fUsePID = usePID;}
  void   SetAnalysisCut(const char* useCut) {fUseCut = useCut;}
  void   SetCentralityRange(Int_t down, Int_t up) {fDown=down; fUp = up;}
  void   SetTrackCuts(AliESDtrackCuts * myTracksCuts) { fTracksCuts = myTracksCuts;}
  void   SetCentralitySelector(AliAnalysisCentralitySelector * centr) { fCentrSelector = centr;}
  void   SetQASelector(Bool_t QA = 0) { fQASelector = QA;}
  Double_t MyRapidity(Double_t rE, Double_t rPz) const;
 
 private:
  Double_t fCuts[7];                            //! V0 finding cuts
  Bool_t       fAnalysisMC;                     //  0->No MC or 1->MC analysis
  TString      fAnalysisType;                   //  "ESD" or "AOD"
  Bool_t       fCollidingSystems;               //  Colliding systems 0/1 for pp/PbPb  
  TString      fUsePID;                         //  "withPID" or "noPID"
  TString      fUseCut;                         //  "yes" or "no"
  Int_t		fDown;				//centrality range 
  Int_t		fUp;                            //centrality range
  AliESDEvent *fESD;                            //! ESD object
  TList       *fListHist;		//! Output List


  AliAnalysisCentralitySelector * fCentrSelector; // Centrality selector, used to 
  AliESDtrackCuts * fTracksCuts;		// track cuts
  AliPIDResponse *fPIDResponse;                 // PID response
  Bool_t      fQASelector;                    // Quality Assurenc Histo switch

  // MC histograms
  TH1F        *fHistMCPrimaryVertexX;      //! Histo
  TH1F        *fHistMCPrimaryVertexY;      //! Histo
  TH1F        *fHistMCPrimaryVertexZ;      //! Histo
  TH1F        *fHistPtTracksITSRefit;      //! Histo
  TH1F        *fHistPtTracks;      //! Histo
  TH1F        *fHistPtTracksPITSRefit;      //! Histo
  TH1F        *fHistPtTracksP;      //! Histo

  TH1F        *fHistMCMultiplicityPrimary;       //! Histo
  TH1F        *fHistMCMultiplicityTracks;       //! Histo
  TH1F        *fHistTPCTracks;                  //! Histo
  
  TH2F        *fHistMCtracksProdRadiusK0s;       //! Histo
  TH2F        *fHistMCtracksProdRadiusLambda;       //! Histo
  TH2F        *fHistMCtracksProdRadiusAntiLambda;       //! Histo

  TH1F        *fHistMCtracksDecayRadiusK0s;       //! Histo
  TH1F        *fHistMCtracksDecayRadiusLambda;       //! Histo
  TH1F        *fHistMCtracksDecayRadiusAntiLambda;       //! Histo

  TH1F        *fHistMCPtAllK0s;       //! Histo
  TH1F        *fHistMCPtAllLambda;       //! Histo
  TH1F        *fHistMCPtAllAntiLambda;       //! Histo

  //Rap3
  TH1F        *fHistMCPtAllK0sRap3;       //! Histo
  TH1F        *fHistMCPtAllLambdaRap3;       //! Histo
  TH1F        *fHistMCPtAllAntiLambdaRap3;       //! Histo

  TH1F        *fHistMCProdRadiusK0s;       //! Histo
  TH1F        *fHistMCProdRadiusLambda;       //! Histo
  TH1F        *fHistMCProdRadiusAntiLambda;       //! Histo

  TH1F        *fHistMCRapK0s;                 //! Histo
  TH1F        *fHistMCRapInPtRangeK0s;        //! Histo
  TH1F        *fHistMCRapLambda;              //! Histo
  TH1F        *fHistMCRapInPtRangeLambda;     //! Histo
  TH1F        *fHistMCRapAntiLambda;          //! Histo
  TH1F        *fHistMCRapInPtRangeAntiLambda; //! Histo
  TH1F        *fHistMCRapXi;                  //! Histo
  TH1F        *fHistMCRapInPtRangeXi;         //! Histo
  TH1F        *fHistMCRapPhi;                 //! Histo
  TH1F        *fHistMCRapInPtRangePhi;        //! Histo
//////////////////////////////////////////////////////////

  TH1F        *fHistMCPtK0s;       //! Histo
  TH1F        *fHistMCPtLambda;       //! Histo
  TH1F        *fHistMCPtAntiLambda;       //! Histo

  //Rap3
  TH1F        *fHistMCPtK0sRap3;       //! Histo
  TH1F        *fHistMCPtLambdaRap3;       //! Histo
  TH1F        *fHistMCPtAntiLambdaRap3;       //! Histo

//////////////////////////////////////////////////////////


  TH1F        *fHistMCPtLambdaFromSigma;       //! Histo
  TH1F        *fHistMCPtAntiLambdaFromSigma;       //! Histo

  TH1F        *fHistNTimesRecK0s;       //! Histo
  TH1F        *fHistNTimesRecLambda;       //! Histo
  TH1F        *fHistNTimesRecAntiLambda;       //! Histo

  TH2F        *fHistNTimesRecK0sVsPt;       //! Histo
  TH2F        *fHistNTimesRecLambdaVsPt;       //! Histo
  TH2F        *fHistNTimesRecAntiLambdaVsPt;       //! Histo


  // ESD histograms
  TH1F        *fHistNumberEvents;        //! Histo
  TH1F        *fHistTrackPerEvent;       //! Histo

  TH1F        *fHistTPCMult;             //! Histo

  TH1F        *fHistTrackletPerEvent;   //! Histo
  TH1F        *fHistMCDaughterTrack;       //! Histo

  TH1F        *fHistSPDPrimaryVertexZ;       //! Histo

  TH1F        *fHistPrimaryVertexX;       //! Histo
  TH1F        *fHistPrimaryVertexY;       //! Histo
  TH1F        *fHistPrimaryVertexZ;       //! Histo

  TH1F        *fHistPrimaryVertexResX;       //! Histo
  TH1F        *fHistPrimaryVertexResY;       //! Histo
  TH1F        *fHistPrimaryVertexResZ;       //! Histo

  TH1F        *fHistPrimaryVertexPosXV0events;  //! Primary vertex position in X in events with V0 candidates
  TH1F        *fHistPrimaryVertexPosYV0events;  //! Primary vertex position in Y in events with V0 candidates
  TH1F        *fHistPrimaryVertexPosZV0events;  //! Primary vertex position in Z in events with V0 candidates

  TH2F        *fHistDaughterPt;               //! Histo

///////////////////////////K0s 2D histos: cut vs on fly status/////////////////

  TH2F        *fHistDcaPosToPrimVertexK0;       //! Histo
  TH2F        *fHistDcaNegToPrimVertexK0;       //! Histo
//  TH2F        *fHistDcaPosToPrimVertexZoomK0;       //! Histo
//  TH2F        *fHistDcaNegToPrimVertexZoomK0;       //! Histo
  TH2F        *fHistRadiusV0K0;       //! Histo
  TH2F        *fHistDecayLengthV0K0;       //! Histo
  TH2F        *fHistDcaV0DaughtersK0;       //! Histo
  TH2F        *fHistChi2K0;       //! Histo
  TH2F        *fHistCosPointAngleK0;       //! Histo
//  TH2F        *fHistCosPointAngleZoomK0;       //! Histo
//  TH2F        *fHistProdRadiusK0;       //! Histo

///////////////////////////K0s 2D histos: cut vs mass//////////////
  TH2F        *fHistDcaPosToPrimVertexK0vsMassK0;  //! Histo
  TH2F        *fHistDcaNegToPrimVertexK0vsMassK0;  //! Histo
  TH2F        *fHistRadiusV0K0vsMassK0;            //! Histo
  TH2F        *fHistDecayLengthV0K0vsMassK0;       //! Histo
  TH2F        *fHistDcaV0DaughtersK0vsMassK0;      //! Histo
  TH2F        *fHistCosPointAngleK0vsMassK0;       //! Histo
  
  // pt1
  TH2F        *fHistDcaPosToPrimVertexK0vsMassK0pt1;  //! Histo
  TH2F        *fHistDcaNegToPrimVertexK0vsMassK0pt1;  //! Histo
  TH2F        *fHistRadiusV0K0vsMassK0pt1;            //! Histo
  TH2F        *fHistDecayLengthV0K0vsMassK0pt1;       //! Histo
  TH2F        *fHistDcaV0DaughtersK0vsMassK0pt1;      //! Histo
  TH2F        *fHistCosPointAngleK0vsMassK0pt1;       //! Histo
  
  // pt2
  TH2F        *fHistDcaPosToPrimVertexK0vsMassK0pt2;  //! Histo
  TH2F        *fHistDcaNegToPrimVertexK0vsMassK0pt2;  //! Histo
  TH2F        *fHistRadiusV0K0vsMassK0pt2;             //! Histo
  TH2F        *fHistDecayLengthV0K0vsMassK0pt2;     //! Histo
  TH2F        *fHistDcaV0DaughtersK0vsMassK0pt2;    //! Histo
  TH2F        *fHistCosPointAngleK0vsMassK0pt2;     //! Histo

  // pt3
  TH2F        *fHistDcaPosToPrimVertexK0vsMassK0pt3;    //! Histo
  TH2F        *fHistDcaNegToPrimVertexK0vsMassK0pt3;    //! Histo
  TH2F        *fHistRadiusV0K0vsMassK0pt3;             //! Histo
  TH2F        *fHistDecayLengthV0K0vsMassK0pt3;       //! Histo
  TH2F        *fHistDcaV0DaughtersK0vsMassK0pt3;      //! Histo
  TH2F        *fHistCosPointAngleK0vsMassK0pt3;      //! Histo

//////////////////////////Lambda 2D histos: cut vs on fly status////////////////////

  TH2F        *fHistDcaPosToPrimVertexL;       //! Histo
  TH2F        *fHistDcaNegToPrimVertexL;       //! Histo
//  TH2F        *fHistDcaPosToPrimVertexZoomL;       //! Histo
//  TH2F        *fHistDcaNegToPrimVertexZoomL;       //! Histo
  TH2F        *fHistRadiusV0L;       //! Histo
  TH2F        *fHistDecayLengthV0L;       //! Histo
  TH2F        *fHistDcaV0DaughtersL;       //! Histo
  TH2F        *fHistChi2L;       //! Histo
  TH2F        *fHistCosPointAngleL;       //! Histo
  TH1F        *fHistcTauL;                 //! Histo
//  TH2F        *fHistCosPointAngleZoomL;       //! Histo
//  TH2F        *fHistProdRadiusL;       //! Histo    

//////////////////////////Lambda 2D histos: cut vs mass////////////////
  TH2F        *fHistDcaPosToPrimVertexLvsMassL;      //! Histo
  TH2F        *fHistDcaNegToPrimVertexLvsMassL;      //! Histo
  TH2F        *fHistRadiusV0LvsMassL;                 //! Histo
  TH2F        *fHistDecayLengthV0LvsMassL;            //! Histo
  TH2F        *fHistDcaV0DaughtersLvsMassL;         //! Histo
  TH2F        *fHistCosPointAngleLvsMassL;            //! Histo
  TH3F        *fHistCosPointAngleLvsMassVsPtsigL;    //! Histo
  TH3F        *fHistCosPointAngleLvsMassVsPtbackL;    //! Histo


  // pt1
  TH2F        *fHistDcaPosToPrimVertexLambdaVsMasspt1;  //! Histo
  TH2F        *fHistDcaNegToPrimVertexLambdaVsMasspt1;  //! Histo
  TH2F        *fHistRadiusV0LambdaVsMasspt1;            //! Histo
  TH2F        *fHistDecayLengthV0LambdaVsMasspt1;       //! Histo
  TH2F        *fHistDcaV0DaughtersLambdaVsMasspt1;      //! Histo
  TH2F        *fHistCosPointAngleLambdaVsMasspt1;       //! Histo
  
  // pt2
  TH2F        *fHistDcaPosToPrimVertexLambdaVsMasspt2;  //! Histo
  TH2F        *fHistDcaNegToPrimVertexLambdaVsMasspt2;  //! Histo
  TH2F        *fHistRadiusV0LambdaVsMasspt2;             //! Histo
  TH2F        *fHistDecayLengthV0LambdaVsMasspt2;     //! Histo
  TH2F        *fHistDcaV0DaughtersLambdaVsMasspt2;    //! Histo
  TH2F        *fHistCosPointAngleLambdaVsMasspt2;     //! Histo

  // pt3
  TH2F        *fHistDcaPosToPrimVertexLambdaVsMasspt3;    //! Histo
  TH2F        *fHistDcaNegToPrimVertexLambdaVsMasspt3;    //! Histo
  TH2F        *fHistRadiusV0LambdaVsMasspt3;             //! Histo
  TH2F        *fHistDecayLengthV0LambdaVsMasspt3;       //! Histo
  TH2F        *fHistDcaV0DaughtersLambdaVsMasspt3;      //! Histo
  TH2F        *fHistCosPointAngleLambdaVsMasspt3;      //! Histo


//////////////////////////Lambda 2D histos: cut vs on fly status////////////////////

  TH2F        *fHistDcaPosToPrimVertexAntiL;       //! Histo
  TH2F        *fHistDcaNegToPrimVertexAntiL;       //! Histo
//  TH2F        *fHistDcaPosToPrimVertexZoomL;       //! Histo
//  TH2F        *fHistDcaNegToPrimVertexZoomL;       //! Histo
  TH2F        *fHistRadiusV0AntiL;       //! Histo
  TH2F        *fHistDecayLengthV0AntiL;       //! Histo
  TH2F        *fHistDcaV0DaughtersAntiL;       //! Histo
  TH2F        *fHistChi2AntiL;       //! Histo
  TH2F        *fHistCosPointAngleAntiL;       //! Histo
//  TH2F        *fHistCosPointAngleZoomL;       //! Histo
//  TH2F        *fHistProdRadiusL;       //! Histo    

//////////////////////////Lambda 2D histos: cut vs mass////////////////
  TH2F        *fHistDcaPosToPrimVertexAntiLvsMass;      //! Histo
  TH2F        *fHistDcaNegToPrimVertexAntiLvsMass;      //! Histo
  TH2F        *fHistRadiusV0AntiLvsMass;                 //! Histo
  TH2F        *fHistDecayLengthV0AntiLvsMass;            //! Histo
  TH2F        *fHistDcaV0DaughtersAntiLvsMass;         //! Histo
  TH2F        *fHistCosPointAngleAntiLvsMass;            //! Histo


  // pt1
  TH2F        *fHistDcaPosToPrimVertexAntiLVsMasspt1;  //! Histo
  TH2F        *fHistDcaNegToPrimVertexAntiLVsMasspt1;  //! Histo
  TH2F        *fHistRadiusV0AntiLVsMasspt1;            //! Histo
  TH2F        *fHistDecayLengthV0AntiLVsMasspt1;       //! Histo
  TH2F        *fHistDcaV0DaughtersAntiLVsMasspt1;      //! Histo
  TH2F        *fHistCosPointAngleAntiLVsMasspt1;       //! Histo
  
  // pt2
  TH2F        *fHistDcaPosToPrimVertexAntiLVsMasspt2;  //! Histo
  TH2F        *fHistDcaNegToPrimVertexAntiLVsMasspt2;  //! Histo
  TH2F        *fHistRadiusV0AntiLVsMasspt2;             //! Histo
  TH2F        *fHistDecayLengthV0AntiLVsMasspt2;     //! Histo
  TH2F        *fHistDcaV0DaughtersAntiLVsMasspt2;    //! Histo
  TH2F        *fHistCosPointAngleAntiLVsMasspt2;     //! Histo

  // pt3
  TH2F        *fHistDcaPosToPrimVertexAntiLVsMasspt3;    //! Histo
  TH2F        *fHistDcaNegToPrimVertexAntiLVsMasspt3;    //! Histo
  TH2F        *fHistRadiusV0AntiLVsMasspt3;             //! Histo
  TH2F        *fHistDecayLengthV0AntiLVsMasspt3;       //! Histo
  TH2F        *fHistDcaV0DaughtersAntiLVsMasspt3;      //! Histo
  TH2F        *fHistCosPointAngleAntiLVsMasspt3;      //! Histo


//////////////////////////////////////////////////////////////////////


  TH1F        *fHistV0Multiplicity;  //! Histo
  TH1F        *fHistMassK0;       //! Histo
  TH1F        *fHistMassLambda;       //! Histo
  TH1F        *fHistMassAntiLambda;       //! Histo
  TH2F        *fHistMassVsRadiusK0;       //! Histo
  TH2F        *fHistMassVsRadiusLambda;       //! Histo
  TH2F        *fHistMassVsRadiusAntiLambda;       //! Histo

////////////////////////////////////////////////////////////////////////////

  TH2F        *fHistPtVsMassK0;       //! Histo
  TH2F        *fHistPtVsMassLambda;       //! Histo
  TH2F        *fHistPtVsMassAntiLambda;       //! Histo


  //Rap3
  TH2F        *fHistPtVsMassK0Rap3;       //! Histo
  TH2F        *fHistPtVsMassLambdaRap3;       //! Histo
  TH2F        *fHistPtVsMassAntiLambdaRap3;       //! Histo


/////////////////////////////////////////////

  TH2F        *fHistArmenterosPodolanski;       //! Histo
  TH2F        *fHistK0sMassVsLambdaMass;       //! Histo

  //PID check
  TH2F *fHistTPCsigPLambda;               //! Histo
  TH2F *fHistTPCsigPAntiLambda;               //! Histo
  TH1F *fHistNSigmaProton;               //! Histo

  //PID
  TH1F        *fHistNsigmaPosPionAntiLambda;    //! Histo
  TH1F        *fHistNsigmaNegProtonAntiLambda;   //! Histo
  TH1F        *fHistNsigmaPosProtonLambda;        //! Histo
  TH1F        *fHistNsigmaNegPionLambda;           //! Histo
  TH1F        *fHistNsigmaPosProtonAntiLambda;        //! Histo
  TH1F        *fHistNsigmaNegPionAntiLambda;           //! Histo
  TH1F        *fHistNsigmaPosPionK0;                //! Histo
  TH1F        *fHistNsigmaNegPionK0;                 //! Histo

  // Associated particles histograms
  TH1F        *fHistAsMcRapK0;       //! Histo
  TH1F        *fHistAsMcRapLambda;       //! Histo
  TH1F        *fHistAsMcRapAntiLambda;       //! Histo


////////////////////////////////////////////////////////////////////

  TH1F        *fHistAsMcPtK0;       //! Histo
  TH1F        *fHistAsMcPtLambda;       //! Histo
  TH1F        *fHistAsMcPtAntiLambda;       //! Histo

  //Rap3
  TH1F        *fHistAsMcPtK0Rap3;       //! Histo
  TH1F        *fHistAsMcPtLambdaRap3;       //! Histo
  TH1F        *fHistAsMcPtAntiLambdaRap3;       //! Histo


/////////////////////////////////////////////////////////////////////


  TH1F        *fHistAsMcPtZoomK0;       //! Histo
  TH1F        *fHistAsMcPtZoomLambda;       //! Histo
  TH1F        *fHistAsMcPtZoomAntiLambda;       //! Histo

  TH1F        *fHistAsMcProdRadiusK0;       //! Histo
  TH1F        *fHistAsMcProdRadiusLambda;       //! Histo
  TH1F        *fHistAsMcProdRadiusAntiLambda;       //! Histo

  TH2F        *fHistAsMcProdRadiusXvsYK0s;       //! Histo
  TH2F        *fHistAsMcProdRadiusXvsYLambda;       //! Histo
  TH2F        *fHistAsMcProdRadiusXvsYAntiLambda;       //! Histo

  TH1F        *fHistPidMcMassK0;       //! Histo
  TH1F        *fHistPidMcMassLambda;       //! Histo
  TH1F        *fHistPidMcMassAntiLambda;       //! Histo

    //Mass 

  TH1F        *fHistAsMcMassK0;       //! Histo
  TH1F        *fHistAsMcMassLambda;       //! Histo
  TH1F        *fHistAsMcMassAntiLambda;       //! Histo

  //Rap3
  TH1F        *fHistAsMcMassK0Rap3;       //! Histo
  TH1F        *fHistAsMcMassLambdaRap3;       //! Histo
  TH1F        *fHistAsMcMassAntiLambdaRap3;       //! Histo


  //PtVsMass

  TH2F        *fHistAsMcPtVsMassK0;       //! Histo
  TH2F        *fHistAsMcPtVsMassLambda;       //! Histo
  TH2F        *fHistAsMcPtVsMassAntiLambda;       //! Histo

  //Rap3
  TH2F        *fHistAsMcPtVsMassK0Rap3;       //! Histo
  TH2F        *fHistAsMcPtVsMassLambdaRap3;       //! Histo
  TH2F        *fHistAsMcPtVsMassAntiLambdaRap3;       //! Histo

  TH2F        *fHistAsMcMassVsRadiusK0;       //! Histo
  TH2F        *fHistAsMcMassVsRadiusLambda;       //! Histo
  TH2F        *fHistAsMcMassVsRadiusAntiLambda;       //! Histo

  TH1F        *fHistAsMcResxK0;       //! Histo
  TH1F        *fHistAsMcResyK0;       //! Histo
  TH1F        *fHistAsMcReszK0;       //! Histo

  TH2F        *fHistAsMcResrVsRadiusK0;       //! Histo
  TH2F        *fHistAsMcReszVsRadiusK0;       //! Histo


  TH1F        *fHistAsMcResxLambda;       //! Histo
  TH1F        *fHistAsMcResyLambda;       //! Histo
  TH1F        *fHistAsMcReszLambda;       //! Histo

  TH2F        *fHistAsMcResrVsRadiusLambda;       //! Histo
  TH2F        *fHistAsMcReszVsRadiusLambda;       //! Histo
    

  TH1F        *fHistAsMcResxAntiLambda;       //! Histo
  TH1F        *fHistAsMcResyAntiLambda;       //! Histo
  TH1F        *fHistAsMcReszAntiLambda;       //! Histo

  TH2F        *fHistAsMcResrVsRadiusAntiLambda;       //! Histo
  TH2F        *fHistAsMcReszVsRadiusAntiLambda;       //! Histo
    

  TH1F        *fHistAsMcResPtK0;       //! Histo
  TH1F        *fHistAsMcResPtLambda;       //! Histo
  TH1F        *fHistAsMcResPtAntiLambda;       //! Histo


  TH2F        *fHistAsMcResPtVsRapK0;       //! Histo
  TH2F        *fHistAsMcResPtVsRapLambda;       //! Histo
  TH2F        *fHistAsMcResPtVsRapAntiLambda;       //! Histo
  TH2F        *fHistAsMcResPtVsPtK0;       //! Histo
  TH2F        *fHistAsMcResPtVsPtLambda;       //! Histo
  TH2F        *fHistAsMcResPtVsPtAntiLambda;       //! Histo
  

  TH1F        *fHistAsMcMotherPdgCodeK0s;       //! Histo
  TH1F        *fHistAsMcMotherPdgCodeLambda;       //! Histo
  TH1F        *fHistAsMcMotherPdgCodeAntiLambda;       //! Histo
  TH1F        *fHistAsMcPtLambdaFromSigma;       //! Histo
  TH1F        *fHistAsMcPtAntiLambdaFromSigma;       //! Histo


  // Associated secondary particles:
  TH2F        *fHistAsMcSecondaryPtVsRapK0s;       //! Histo
  TH2F        *fHistAsMcSecondaryPtVsRapLambda;       //! Histo
  TH2F        *fHistAsMcSecondaryPtVsRapAntiLambda;       //! Histo

  TH1F        *fHistAsMcSecondaryProdRadiusK0s;       //! Histo
  TH1F        *fHistAsMcSecondaryProdRadiusLambda;       //! Histo
  TH1F        *fHistAsMcSecondaryProdRadiusAntiLambda;       //! Histo

  TH2F        *fHistAsMcSecondaryProdRadiusXvsYK0s;       //! Histo
  TH2F        *fHistAsMcSecondaryProdRadiusXvsYLambda;       //! Histo
  TH2F        *fHistAsMcSecondaryProdRadiusXvsYAntiLambda;       //! Histo

  TH1F        *fHistAsMcSecondaryMotherPdgCodeK0s;       //! Histo
  TH1F        *fHistAsMcSecondaryMotherPdgCodeLambda;       //! Histo
  TH1F        *fHistAsMcSecondaryMotherPdgCodeAntiLambda;       //! Histo

  TH1F        *fHistAsMcSecondaryPtLambdaFromSigma;       //! Histo
  TH1F        *fHistAsMcSecondaryPtAntiLambdaFromSigma;       //! Histo


  AliAnalysisTaskPerformanceStrange(const AliAnalysisTaskPerformanceStrange&); 
  AliAnalysisTaskPerformanceStrange& operator=(const AliAnalysisTaskPerformanceStrange&); 

  ClassDef(AliAnalysisTaskPerformanceStrange, 1); 
};

#endif
Commit	Line	Data
9d9613cc	1	#ifndef ALIANALYSISTASKPERFORMANCESTRANGE_H
	2	#define ALIANALYSISTASKPERFORMANCESTRANGE_H
	3
	4	/* See cxx source for full Copyright notice */
	5
	6	//-----------------------------------------------------------------
	7	// AliAnalysisTaskPerformanceSrange class
	8	// This task is for a performance study of V0 identification.
	9	// It works with MC info and ESD tree.
	10	// Author: H.Ricaud, H.Ricaud@gsi.de
	11	//-----------------------------------------------------------------
	12
	13	class TString;
	14	class TList;
	15	class TH1F;
	16	class TH2F;
	17	class TH3F;
	18	class AliAnalysisCentralitySelector;
	19	class AliPIDResponse;
	20	#include "AliAnalysisTaskSE.h"
	21
	22	class AliAnalysisTaskPerformanceStrange : public AliAnalysisTaskSE {
	23	public:
	24	AliAnalysisTaskPerformanceStrange();
	25	AliAnalysisTaskPerformanceStrange(const char *name);
	26	virtual ~AliAnalysisTaskPerformanceStrange(); // Destructor implemented by Kalinak
	27
	28	virtual void UserCreateOutputObjects();
	29	virtual void UserExec(Option_t *option);
	30	virtual void Terminate(Option_t *);
	31
	32	void SetCollidingSystems(Bool_t collidingSystems = 0) {fCollidingSystems = collidingSystems;}
	33	void SetAnalysisMC(Bool_t analysisMC) {fAnalysisMC = analysisMC;}
	34	void SetAnalysisType(const char* analysisType) {fAnalysisType = analysisType;}
	35	void SetUsePID(const char* usePID) {fUsePID = usePID;}
	36	void SetAnalysisCut(const char* useCut) {fUseCut = useCut;}
	37	void SetCentralityRange(Int_t down, Int_t up) {fDown=down; fUp = up;}
	38	void SetTrackCuts(AliESDtrackCuts * myTracksCuts) { fTracksCuts = myTracksCuts;}
	39	void SetCentralitySelector(AliAnalysisCentralitySelector * centr) { fCentrSelector = centr;}
	40	void SetQASelector(Bool_t QA = 0) { fQASelector = QA;}
	41	Double_t MyRapidity(Double_t rE, Double_t rPz) const;
	42
	43	private:
	44	Double_t fCuts[7]; //! V0 finding cuts
	45	Bool_t fAnalysisMC; // 0->No MC or 1->MC analysis
	46	TString fAnalysisType; // "ESD" or "AOD"
	47	Bool_t fCollidingSystems; // Colliding systems 0/1 for pp/PbPb
	48	TString fUsePID; // "withPID" or "noPID"
	49	TString fUseCut; // "yes" or "no"
	50	Int_t fDown; //centrality range
	51	Int_t fUp; //centrality range
	52	AliESDEvent *fESD; //! ESD object
	53	TList *fListHist; //! Output List
	54
	55
	56	AliAnalysisCentralitySelector * fCentrSelector; // Centrality selector, used to
	57	AliESDtrackCuts * fTracksCuts; // track cuts
	58	AliPIDResponse *fPIDResponse; // PID response
	59	Bool_t fQASelector; // Quality Assurenc Histo switch
	60
	61	// MC histograms
	62	TH1F *fHistMCPrimaryVertexX; //! Histo
	63	TH1F *fHistMCPrimaryVertexY; //! Histo
	64	TH1F *fHistMCPrimaryVertexZ; //! Histo
65	TH1F *fHistPtTracksITSRefit; //! Histo
66	TH1F *fHistPtTracks; //! Histo
67	TH1F *fHistPtTracksPITSRefit; //! Histo
68	TH1F *fHistPtTracksP; //! Histo
69
70	TH1F *fHistMCMultiplicityPrimary; //! Histo
71	TH1F *fHistMCMultiplicityTracks; //! Histo
72	TH1F *fHistTPCTracks; //! Histo
73
74	TH2F *fHistMCtracksProdRadiusK0s; //! Histo
75	TH2F *fHistMCtracksProdRadiusLambda; //! Histo
76	TH2F *fHistMCtracksProdRadiusAntiLambda; //! Histo
77
78	TH1F *fHistMCtracksDecayRadiusK0s; //! Histo
79	TH1F *fHistMCtracksDecayRadiusLambda; //! Histo
80	TH1F *fHistMCtracksDecayRadiusAntiLambda; //! Histo
81
82	TH1F *fHistMCPtAllK0s; //! Histo
83	TH1F *fHistMCPtAllLambda; //! Histo
84	TH1F *fHistMCPtAllAntiLambda; //! Histo
85
86	//Rap3
87	TH1F *fHistMCPtAllK0sRap3; //! Histo
88	TH1F *fHistMCPtAllLambdaRap3; //! Histo
89	TH1F *fHistMCPtAllAntiLambdaRap3; //! Histo
90
91	TH1F *fHistMCProdRadiusK0s; //! Histo
92	TH1F *fHistMCProdRadiusLambda; //! Histo
93	TH1F *fHistMCProdRadiusAntiLambda; //! Histo
94
95	TH1F *fHistMCRapK0s; //! Histo
96	TH1F *fHistMCRapInPtRangeK0s; //! Histo
97	TH1F *fHistMCRapLambda; //! Histo
98	TH1F *fHistMCRapInPtRangeLambda; //! Histo
99	TH1F *fHistMCRapAntiLambda; //! Histo
100	TH1F *fHistMCRapInPtRangeAntiLambda; //! Histo
101	TH1F *fHistMCRapXi; //! Histo
102	TH1F *fHistMCRapInPtRangeXi; //! Histo
103	TH1F *fHistMCRapPhi; //! Histo
104	TH1F *fHistMCRapInPtRangePhi; //! Histo
105	//////////////////////////////////////////////////////////
106
107	TH1F *fHistMCPtK0s; //! Histo
108	TH1F *fHistMCPtLambda; //! Histo
109	TH1F *fHistMCPtAntiLambda; //! Histo
110
111	//Rap3
112	TH1F *fHistMCPtK0sRap3; //! Histo
113	TH1F *fHistMCPtLambdaRap3; //! Histo
114	TH1F *fHistMCPtAntiLambdaRap3; //! Histo
115
116	//////////////////////////////////////////////////////////
117
118
119
120	TH1F *fHistMCPtLambdaFromSigma; //! Histo
121	TH1F *fHistMCPtAntiLambdaFromSigma; //! Histo
122
123	TH1F *fHistNTimesRecK0s; //! Histo
124	TH1F *fHistNTimesRecLambda; //! Histo
125	TH1F *fHistNTimesRecAntiLambda; //! Histo
126
127	TH2F *fHistNTimesRecK0sVsPt; //! Histo
128	TH2F *fHistNTimesRecLambdaVsPt; //! Histo
129	TH2F *fHistNTimesRecAntiLambdaVsPt; //! Histo
130
131
132	// ESD histograms
133	TH1F *fHistNumberEvents; //! Histo
134	TH1F *fHistTrackPerEvent; //! Histo
135
136	TH1F *fHistTPCMult; //! Histo
137
138	TH1F *fHistTrackletPerEvent; //! Histo
139	TH1F *fHistMCDaughterTrack; //! Histo
140
141	TH1F *fHistSPDPrimaryVertexZ; //! Histo
142
143	TH1F *fHistPrimaryVertexX; //! Histo
144	TH1F *fHistPrimaryVertexY; //! Histo
145	TH1F *fHistPrimaryVertexZ; //! Histo
146
147	TH1F *fHistPrimaryVertexResX; //! Histo
148	TH1F *fHistPrimaryVertexResY; //! Histo
149	TH1F *fHistPrimaryVertexResZ; //! Histo
150
151	TH1F *fHistPrimaryVertexPosXV0events; //! Primary vertex position in X in events with V0 candidates
152	TH1F *fHistPrimaryVertexPosYV0events; //! Primary vertex position in Y in events with V0 candidates
153	TH1F *fHistPrimaryVertexPosZV0events; //! Primary vertex position in Z in events with V0 candidates
154
155	TH2F *fHistDaughterPt; //! Histo
156
157	///////////////////////////K0s 2D histos: cut vs on fly status/////////////////
158
159	TH2F *fHistDcaPosToPrimVertexK0; //! Histo
160	TH2F *fHistDcaNegToPrimVertexK0; //! Histo
161	// TH2F *fHistDcaPosToPrimVertexZoomK0; //! Histo
162	// TH2F *fHistDcaNegToPrimVertexZoomK0; //! Histo
163	TH2F *fHistRadiusV0K0; //! Histo
164	TH2F *fHistDecayLengthV0K0; //! Histo
165	TH2F *fHistDcaV0DaughtersK0; //! Histo
166	TH2F *fHistChi2K0; //! Histo
167	TH2F *fHistCosPointAngleK0; //! Histo
168	// TH2F *fHistCosPointAngleZoomK0; //! Histo
169	// TH2F *fHistProdRadiusK0; //! Histo
170
171	///////////////////////////K0s 2D histos: cut vs mass//////////////
172	TH2F *fHistDcaPosToPrimVertexK0vsMassK0; //! Histo
173	TH2F *fHistDcaNegToPrimVertexK0vsMassK0; //! Histo
174	TH2F *fHistRadiusV0K0vsMassK0; //! Histo
175	TH2F *fHistDecayLengthV0K0vsMassK0; //! Histo
176	TH2F *fHistDcaV0DaughtersK0vsMassK0; //! Histo
177	TH2F *fHistCosPointAngleK0vsMassK0; //! Histo
178
179	// pt1
180	TH2F *fHistDcaPosToPrimVertexK0vsMassK0pt1; //! Histo
181	TH2F *fHistDcaNegToPrimVertexK0vsMassK0pt1; //! Histo
182	TH2F *fHistRadiusV0K0vsMassK0pt1; //! Histo
183	TH2F *fHistDecayLengthV0K0vsMassK0pt1; //! Histo
184	TH2F *fHistDcaV0DaughtersK0vsMassK0pt1; //! Histo
185	TH2F *fHistCosPointAngleK0vsMassK0pt1; //! Histo
186
187	// pt2
188	TH2F *fHistDcaPosToPrimVertexK0vsMassK0pt2; //! Histo
189	TH2F *fHistDcaNegToPrimVertexK0vsMassK0pt2; //! Histo
190	TH2F *fHistRadiusV0K0vsMassK0pt2; //! Histo
191	TH2F *fHistDecayLengthV0K0vsMassK0pt2; //! Histo
192	TH2F *fHistDcaV0DaughtersK0vsMassK0pt2; //! Histo
193	TH2F *fHistCosPointAngleK0vsMassK0pt2; //! Histo
194
195	// pt3
196	TH2F *fHistDcaPosToPrimVertexK0vsMassK0pt3; //! Histo
197	TH2F *fHistDcaNegToPrimVertexK0vsMassK0pt3; //! Histo
198	TH2F *fHistRadiusV0K0vsMassK0pt3; //! Histo
199	TH2F *fHistDecayLengthV0K0vsMassK0pt3; //! Histo
200	TH2F *fHistDcaV0DaughtersK0vsMassK0pt3; //! Histo
201	TH2F *fHistCosPointAngleK0vsMassK0pt3; //! Histo
202
203	//////////////////////////Lambda 2D histos: cut vs on fly status////////////////////
204
205	TH2F *fHistDcaPosToPrimVertexL; //! Histo
206	TH2F *fHistDcaNegToPrimVertexL; //! Histo
207	// TH2F *fHistDcaPosToPrimVertexZoomL; //! Histo
208	// TH2F *fHistDcaNegToPrimVertexZoomL; //! Histo
209	TH2F *fHistRadiusV0L; //! Histo
210	TH2F *fHistDecayLengthV0L; //! Histo
211	TH2F *fHistDcaV0DaughtersL; //! Histo
212	TH2F *fHistChi2L; //! Histo
213	TH2F *fHistCosPointAngleL; //! Histo
214	TH1F *fHistcTauL; //! Histo
215	// TH2F *fHistCosPointAngleZoomL; //! Histo
216	// TH2F *fHistProdRadiusL; //! Histo
217
218	//////////////////////////Lambda 2D histos: cut vs mass////////////////
219	TH2F *fHistDcaPosToPrimVertexLvsMassL; //! Histo
220	TH2F *fHistDcaNegToPrimVertexLvsMassL; //! Histo
221	TH2F *fHistRadiusV0LvsMassL; //! Histo
222	TH2F *fHistDecayLengthV0LvsMassL; //! Histo
223	TH2F *fHistDcaV0DaughtersLvsMassL; //! Histo
224	TH2F *fHistCosPointAngleLvsMassL; //! Histo
225	TH3F *fHistCosPointAngleLvsMassVsPtsigL; //! Histo
226	TH3F *fHistCosPointAngleLvsMassVsPtbackL; //! Histo
227
228
229
230	// pt1
231	TH2F *fHistDcaPosToPrimVertexLambdaVsMasspt1; //! Histo
232	TH2F *fHistDcaNegToPrimVertexLambdaVsMasspt1; //! Histo
233	TH2F *fHistRadiusV0LambdaVsMasspt1; //! Histo
234	TH2F *fHistDecayLengthV0LambdaVsMasspt1; //! Histo
235	TH2F *fHistDcaV0DaughtersLambdaVsMasspt1; //! Histo
236	TH2F *fHistCosPointAngleLambdaVsMasspt1; //! Histo
237
238	// pt2
239	TH2F *fHistDcaPosToPrimVertexLambdaVsMasspt2; //! Histo
240	TH2F *fHistDcaNegToPrimVertexLambdaVsMasspt2; //! Histo
241	TH2F *fHistRadiusV0LambdaVsMasspt2; //! Histo
242	TH2F *fHistDecayLengthV0LambdaVsMasspt2; //! Histo
243	TH2F *fHistDcaV0DaughtersLambdaVsMasspt2; //! Histo
244	TH2F *fHistCosPointAngleLambdaVsMasspt2; //! Histo
245
246	// pt3
247	TH2F *fHistDcaPosToPrimVertexLambdaVsMasspt3; //! Histo
248	TH2F *fHistDcaNegToPrimVertexLambdaVsMasspt3; //! Histo
249	TH2F *fHistRadiusV0LambdaVsMasspt3; //! Histo
250	TH2F *fHistDecayLengthV0LambdaVsMasspt3; //! Histo
251	TH2F *fHistDcaV0DaughtersLambdaVsMasspt3; //! Histo
252	TH2F *fHistCosPointAngleLambdaVsMasspt3; //! Histo
253
254
255	//////////////////////////Lambda 2D histos: cut vs on fly status////////////////////
256
257	TH2F *fHistDcaPosToPrimVertexAntiL; //! Histo
258	TH2F *fHistDcaNegToPrimVertexAntiL; //! Histo
259	// TH2F *fHistDcaPosToPrimVertexZoomL; //! Histo
260	// TH2F *fHistDcaNegToPrimVertexZoomL; //! Histo
261	TH2F *fHistRadiusV0AntiL; //! Histo
262	TH2F *fHistDecayLengthV0AntiL; //! Histo
263	TH2F *fHistDcaV0DaughtersAntiL; //! Histo
264	TH2F *fHistChi2AntiL; //! Histo
265	TH2F *fHistCosPointAngleAntiL; //! Histo
266	// TH2F *fHistCosPointAngleZoomL; //! Histo
267	// TH2F *fHistProdRadiusL; //! Histo
268
269	//////////////////////////Lambda 2D histos: cut vs mass////////////////
270	TH2F *fHistDcaPosToPrimVertexAntiLvsMass; //! Histo
271	TH2F *fHistDcaNegToPrimVertexAntiLvsMass; //! Histo
272	TH2F *fHistRadiusV0AntiLvsMass; //! Histo
273	TH2F *fHistDecayLengthV0AntiLvsMass; //! Histo
274	TH2F *fHistDcaV0DaughtersAntiLvsMass; //! Histo
275	TH2F *fHistCosPointAngleAntiLvsMass; //! Histo
276
277
278
279	// pt1
280	TH2F *fHistDcaPosToPrimVertexAntiLVsMasspt1; //! Histo
281	TH2F *fHistDcaNegToPrimVertexAntiLVsMasspt1; //! Histo
282	TH2F *fHistRadiusV0AntiLVsMasspt1; //! Histo
283	TH2F *fHistDecayLengthV0AntiLVsMasspt1; //! Histo
284	TH2F *fHistDcaV0DaughtersAntiLVsMasspt1; //! Histo
285	TH2F *fHistCosPointAngleAntiLVsMasspt1; //! Histo
286
287	// pt2
288	TH2F *fHistDcaPosToPrimVertexAntiLVsMasspt2; //! Histo
289	TH2F *fHistDcaNegToPrimVertexAntiLVsMasspt2; //! Histo
290	TH2F *fHistRadiusV0AntiLVsMasspt2; //! Histo
291	TH2F *fHistDecayLengthV0AntiLVsMasspt2; //! Histo
292	TH2F *fHistDcaV0DaughtersAntiLVsMasspt2; //! Histo
293	TH2F *fHistCosPointAngleAntiLVsMasspt2; //! Histo
294
295	// pt3
296	TH2F *fHistDcaPosToPrimVertexAntiLVsMasspt3; //! Histo
297	TH2F *fHistDcaNegToPrimVertexAntiLVsMasspt3; //! Histo
298	TH2F *fHistRadiusV0AntiLVsMasspt3; //! Histo
299	TH2F *fHistDecayLengthV0AntiLVsMasspt3; //! Histo
300	TH2F *fHistDcaV0DaughtersAntiLVsMasspt3; //! Histo
301	TH2F *fHistCosPointAngleAntiLVsMasspt3; //! Histo
302
303
304
305	//////////////////////////////////////////////////////////////////////
306
307
308	TH1F *fHistV0Multiplicity; //! Histo
309	TH1F *fHistMassK0; //! Histo
310	TH1F *fHistMassLambda; //! Histo
311	TH1F *fHistMassAntiLambda; //! Histo
312	TH2F *fHistMassVsRadiusK0; //! Histo
313	TH2F *fHistMassVsRadiusLambda; //! Histo
314	TH2F *fHistMassVsRadiusAntiLambda; //! Histo
315
316	////////////////////////////////////////////////////////////////////////////
317
318	TH2F *fHistPtVsMassK0; //! Histo
319	TH2F *fHistPtVsMassLambda; //! Histo
320	TH2F *fHistPtVsMassAntiLambda; //! Histo
321
322
323	//Rap3
324	TH2F *fHistPtVsMassK0Rap3; //! Histo
325	TH2F *fHistPtVsMassLambdaRap3; //! Histo
326	TH2F *fHistPtVsMassAntiLambdaRap3; //! Histo
327
328
329	/////////////////////////////////////////////
330
331	TH2F *fHistArmenterosPodolanski; //! Histo
332	TH2F *fHistK0sMassVsLambdaMass; //! Histo
333
334	//PID check
335	TH2F *fHistTPCsigPLambda; //! Histo
336	TH2F *fHistTPCsigPAntiLambda; //! Histo
337	TH1F *fHistNSigmaProton; //! Histo
338
339	//PID
340	TH1F *fHistNsigmaPosPionAntiLambda; //! Histo
341	TH1F *fHistNsigmaNegProtonAntiLambda; //! Histo
342	TH1F *fHistNsigmaPosProtonLambda; //! Histo
343	TH1F *fHistNsigmaNegPionLambda; //! Histo
344	TH1F *fHistNsigmaPosProtonAntiLambda; //! Histo
345	TH1F *fHistNsigmaNegPionAntiLambda; //! Histo
346	TH1F *fHistNsigmaPosPionK0; //! Histo
347	TH1F *fHistNsigmaNegPionK0; //! Histo
348
349	// Associated particles histograms
350	TH1F *fHistAsMcRapK0; //! Histo
351	TH1F *fHistAsMcRapLambda; //! Histo
352	TH1F *fHistAsMcRapAntiLambda; //! Histo
353
354
355	////////////////////////////////////////////////////////////////////
356
357	TH1F *fHistAsMcPtK0; //! Histo
358	TH1F *fHistAsMcPtLambda; //! Histo
359	TH1F *fHistAsMcPtAntiLambda; //! Histo
360
361	//Rap3
362	TH1F *fHistAsMcPtK0Rap3; //! Histo
363	TH1F *fHistAsMcPtLambdaRap3; //! Histo
364	TH1F *fHistAsMcPtAntiLambdaRap3; //! Histo
365
366
367	/////////////////////////////////////////////////////////////////////
368
369
370	TH1F *fHistAsMcPtZoomK0; //! Histo
371	TH1F *fHistAsMcPtZoomLambda; //! Histo
372	TH1F *fHistAsMcPtZoomAntiLambda; //! Histo
373
374	TH1F *fHistAsMcProdRadiusK0; //! Histo
375	TH1F *fHistAsMcProdRadiusLambda; //! Histo
376	TH1F *fHistAsMcProdRadiusAntiLambda; //! Histo
377
378	TH2F *fHistAsMcProdRadiusXvsYK0s; //! Histo
379	TH2F *fHistAsMcProdRadiusXvsYLambda; //! Histo
380	TH2F *fHistAsMcProdRadiusXvsYAntiLambda; //! Histo
381
382	TH1F *fHistPidMcMassK0; //! Histo
383	TH1F *fHistPidMcMassLambda; //! Histo
384	TH1F *fHistPidMcMassAntiLambda; //! Histo
385
386	//Mass
387
388	TH1F *fHistAsMcMassK0; //! Histo
389	TH1F *fHistAsMcMassLambda; //! Histo
390	TH1F *fHistAsMcMassAntiLambda; //! Histo
391
392	//Rap3
393	TH1F *fHistAsMcMassK0Rap3; //! Histo
394	TH1F *fHistAsMcMassLambdaRap3; //! Histo
395	TH1F *fHistAsMcMassAntiLambdaRap3; //! Histo
396
397
398	//PtVsMass
399
400	TH2F *fHistAsMcPtVsMassK0; //! Histo
401	TH2F *fHistAsMcPtVsMassLambda; //! Histo
402	TH2F *fHistAsMcPtVsMassAntiLambda; //! Histo
403
404	//Rap3
405	TH2F *fHistAsMcPtVsMassK0Rap3; //! Histo
406	TH2F *fHistAsMcPtVsMassLambdaRap3; //! Histo
407	TH2F *fHistAsMcPtVsMassAntiLambdaRap3; //! Histo
408
409	TH2F *fHistAsMcMassVsRadiusK0; //! Histo
410	TH2F *fHistAsMcMassVsRadiusLambda; //! Histo
411	TH2F *fHistAsMcMassVsRadiusAntiLambda; //! Histo
412
413	TH1F *fHistAsMcResxK0; //! Histo
414	TH1F *fHistAsMcResyK0; //! Histo
415	TH1F *fHistAsMcReszK0; //! Histo
416
417	TH2F *fHistAsMcResrVsRadiusK0; //! Histo
418	TH2F *fHistAsMcReszVsRadiusK0; //! Histo
419
420
421	TH1F *fHistAsMcResxLambda; //! Histo
422	TH1F *fHistAsMcResyLambda; //! Histo
423	TH1F *fHistAsMcReszLambda; //! Histo
424
425	TH2F *fHistAsMcResrVsRadiusLambda; //! Histo
426	TH2F *fHistAsMcReszVsRadiusLambda; //! Histo
427
428
429	TH1F *fHistAsMcResxAntiLambda; //! Histo
430	TH1F *fHistAsMcResyAntiLambda; //! Histo
431	TH1F *fHistAsMcReszAntiLambda; //! Histo
432
433	TH2F *fHistAsMcResrVsRadiusAntiLambda; //! Histo
434	TH2F *fHistAsMcReszVsRadiusAntiLambda; //! Histo
435
436
437	TH1F *fHistAsMcResPtK0; //! Histo
438	TH1F *fHistAsMcResPtLambda; //! Histo
439	TH1F *fHistAsMcResPtAntiLambda; //! Histo
440
441
442	TH2F *fHistAsMcResPtVsRapK0; //! Histo
443	TH2F *fHistAsMcResPtVsRapLambda; //! Histo
444	TH2F *fHistAsMcResPtVsRapAntiLambda; //! Histo
445	TH2F *fHistAsMcResPtVsPtK0; //! Histo
446	TH2F *fHistAsMcResPtVsPtLambda; //! Histo
447	TH2F *fHistAsMcResPtVsPtAntiLambda; //! Histo
448
449
450	TH1F *fHistAsMcMotherPdgCodeK0s; //! Histo
451	TH1F *fHistAsMcMotherPdgCodeLambda; //! Histo
452	TH1F *fHistAsMcMotherPdgCodeAntiLambda; //! Histo
453	TH1F *fHistAsMcPtLambdaFromSigma; //! Histo
454	TH1F *fHistAsMcPtAntiLambdaFromSigma; //! Histo
455
456
457	// Associated secondary particles:
458	TH2F *fHistAsMcSecondaryPtVsRapK0s; //! Histo
459	TH2F *fHistAsMcSecondaryPtVsRapLambda; //! Histo
460	TH2F *fHistAsMcSecondaryPtVsRapAntiLambda; //! Histo
461
462	TH1F *fHistAsMcSecondaryProdRadiusK0s; //! Histo
463	TH1F *fHistAsMcSecondaryProdRadiusLambda; //! Histo
464	TH1F *fHistAsMcSecondaryProdRadiusAntiLambda; //! Histo
465
466	TH2F *fHistAsMcSecondaryProdRadiusXvsYK0s; //! Histo
467	TH2F *fHistAsMcSecondaryProdRadiusXvsYLambda; //! Histo
468	TH2F *fHistAsMcSecondaryProdRadiusXvsYAntiLambda; //! Histo
469
470	TH1F *fHistAsMcSecondaryMotherPdgCodeK0s; //! Histo
471	TH1F *fHistAsMcSecondaryMotherPdgCodeLambda; //! Histo
472	TH1F *fHistAsMcSecondaryMotherPdgCodeAntiLambda; //! Histo
473
474	TH1F *fHistAsMcSecondaryPtLambdaFromSigma; //! Histo
475	TH1F *fHistAsMcSecondaryPtAntiLambdaFromSigma; //! Histo
476
477
478	AliAnalysisTaskPerformanceStrange(const AliAnalysisTaskPerformanceStrange&);
479	AliAnalysisTaskPerformanceStrange& operator=(const AliAnalysisTaskPerformanceStrange&);
480
481	ClassDef(AliAnalysisTaskPerformanceStrange, 1);
482	};
483
484	#endif