#ifndef ALICONVERSIONTRACKCUTS_H #define ALICONVERSIONTRACKCUTS_H // Class handling all kinds of selection cuts for Gamma Conversion analysis // Authors: (this code is mostly copied from AliRsnTrackQuality) adapted by Svein Lindal * class AliAODEvent; class TH2F; class TList; #include "AliAODTrack.h" #include "AliESDtrack.h" #include "AliAnalysisCuts.h" using namespace std; class AliConversionTrackCuts : public AliAnalysisCuts { public: Bool_t IsSelected(TObject * object, AliAODEvent * event) { return AcceptTrack(dynamic_cast(object), event); } Bool_t IsSelected(TList * list) { return kFALSE; } Bool_t AcceptTrack(AliAODTrack * track, AliAODEvent* event); AliConversionTrackCuts(); AliConversionTrackCuts(TString name, TString title); ~AliConversionTrackCuts(); void AddStatusFlag(ULong_t f, Bool_t on) {if (on) fFlagsOn = fFlagsOn | f; else fFlagsOff = fFlagsOff | f;} void SetStatusFlags(ULong_t f, Bool_t on) {if (on) fFlagsOn = f; else fFlagsOff = f;} void SetPtRange(Double_t a, Double_t b) {fPt[0] = TMath::Min(a, b); fPt[1] = TMath::Max(a, b);} void SetEtaRange(Double_t a, Double_t b) {fEta[0] = TMath::Min(a, b); fEta[1] = TMath::Max(a, b);} void SetDCARPtFormula(const char *formula) {fDCARptFormula = formula; fDCARfixed = kFALSE;} void SetDCARmax(Double_t value) {fDCARmax = value; fDCARptFormula = ""; fDCARfixed = kTRUE;} void SetDCAZPtFormula(const char *formula) {fDCAZptFormula = formula; fDCAZfixed = kFALSE;} void SetDCAZmax(Double_t value) {fDCAZmax = value; fDCAZptFormula = ""; fDCAZfixed = kTRUE;} void SetDCAXYmax(Double_t value) {fDCAXYmax = value*value;} void SetSPDminNClusters(Int_t value) {fSPDminNClusters = value;} void SetITSminNClusters(Int_t value) {fITSminNClusters = value;} void SetITSmaxChi2(Double_t value) {fITSmaxChi2 = value;} void SetTPCminNClusters(Int_t value) {fTPCminNClusters = value;} void SetTPCmaxChi2(Double_t value) {fTPCmaxChi2 = value;} void SetRejectKinkDaughters(Bool_t yn = kTRUE) {fRejectKinkDaughters = yn;} void SetAODTestFilterBit(Int_t value) {fAODTestFilterBit = value;} void SetDefaults2010(); TList * CreateHistograms(); void FillHistograms(Int_t cutIndex, AliVTrack * track); virtual void Print(const Option_t *option = "") const; protected : ULong_t fFlagsOn; // status flags which must be ON (used AliESDtrack ones, connected with '|') ULong_t fFlagsOff; // status flags which must be OFF (used AliESDtrack ones, connected with '|') Double_t fPt[2]; // pt range Double_t fEta[2]; // eta range Bool_t fRejectKinkDaughters; // switch to kTRUE if daughters of kinks must be rejected Bool_t fDCARfixed; // flag to switch between fixed and pt-dependent DCA cut TString fDCARptFormula; // expression to compute transverse DCA sigma w.r. to pt Double_t fDCARmax; // maximum value for transverse DCA Bool_t fDCAZfixed; // flag to switch between fixed and pt-dependent DCA cut TString fDCAZptFormula; // expression to compute longitudinal DCA sigma w.r. to pt Double_t fDCAZmax; // maximum value for longitudinal DCA Double_t fDCAXYmax; Int_t fSPDminNClusters; // minimum number of required clusters in SPD Int_t fITSminNClusters; // minimum number of required clusters in ITS Double_t fITSmaxChi2; // maximum chi2 / number of clusters in ITS Int_t fTPCminNClusters; // minimum number of required clusters in TPC Double_t fTPCmaxChi2; // maximum chi2 / number of clusters in TPC Int_t fAODTestFilterBit; // test filter bit for AOD tracks TH2F * fhPhi; TH2F * fhPhiPt; TList * fHistograms; AliConversionTrackCuts(const AliConversionTrackCuts&); // not implemented AliConversionTrackCuts& operator=(const AliConversionTrackCuts&); // not implemented ClassDef(AliConversionTrackCuts,1) }; //__________________________________________________________________________________________________ inline void AliConversionTrackCuts::SetDefaults2010() { // // Default settings for cuts used in 2010 // SetDCAZmax(3.0); SetDCAXYmax(2.5); SetTPCminNClusters(70); SetTPCmaxChi2(2.0); SetRejectKinkDaughters(); } #endif