Bool_t GetRequireClusterInInnerLayerPlaneEff() const {return fRequireClusterInInnerLayerPlaneEff;}
void SetOnlyConstraintPlaneEff(Bool_t con=kFALSE) { fOnlyConstraintPlaneEff=con; }
Bool_t GetOnlyConstraintPlaneEff() const { return fOnlyConstraintPlaneEff; }
- void SetNSigXFromBoundaryPlaneEff(Double_t nsigx=1.) {fNSigXFromBoundaryPlaneEff=nsigx;}
+ void SetNSigXFromBoundaryPlaneEff(Double_t nsigx=0.) {if(nsigx<0.)fNSigXFromBoundaryPlaneEff=TMath::Abs(nsigx);else fNSigXFromBoundaryPlaneEff=nsigx;}
Double_t GetNSigXFromBoundaryPlaneEff() const {return fNSigXFromBoundaryPlaneEff;}
- void SetNSigZFromBoundaryPlaneEff(Double_t nsigz=1.) {fNSigZFromBoundaryPlaneEff=nsigz;}
+ void SetNSigZFromBoundaryPlaneEff(Double_t nsigz=0.) {if(nsigz<0.)fNSigZFromBoundaryPlaneEff=TMath::Abs(nsigz);else fNSigZFromBoundaryPlaneEff=nsigz;}
Double_t GetNSigZFromBoundaryPlaneEff() const {return fNSigZFromBoundaryPlaneEff;}
+ void SetDistXFromBoundaryPlaneEff(Double_t distx=0.) {if(distx<0.)fDistXFromBoundaryPlaneEff=TMath::Abs(distx);else fDistXFromBoundaryPlaneEff=distx;}
+ Double_t GetDistXFromBoundaryPlaneEff() const {return fDistXFromBoundaryPlaneEff;}
+ void SetDistZFromBoundaryPlaneEff(Double_t distz=0.) {if(distz<0.)fDistZFromBoundaryPlaneEff=TMath::Abs(distz);else fDistZFromBoundaryPlaneEff=distz;}
+ Double_t GetDistZFromBoundaryPlaneEff() const {return fDistZFromBoundaryPlaneEff;}
+ void SetSwitchOnMaxDistNSigFrmBndPlaneEff(Bool_t flagbnd=kFALSE) {fSwitchOnMaxDistNSigFrmBndPlaneEff=flagbnd;}
+ Bool_t GetSwitchOnMaxDistNSigFrmBndPlaneEff() const {return fSwitchOnMaxDistNSigFrmBndPlaneEff;}
+ void SetSwitchOffStdSearchClusPlaneEff(Bool_t flagstdclus=kFALSE) {fSwitchOffStdSearchClusPlaneEff=flagstdclus;}
+ Bool_t GetSwitchOffStdSearchClusPlaneEff() const {return fSwitchOffStdSearchClusPlaneEff;}
+ void SetNSigXSearchClusterPlaneEff(Double_t nsigclx=0.) {if(nsigclx<0.)fNSigXSearchClusterPlaneEff=TMath::Abs(nsigclx);else fNSigXSearchClusterPlaneEff=nsigclx;}
+ Double_t GetNSigXSearchClusterPlaneEff() const {return fNSigXSearchClusterPlaneEff;}
+ void SetNSigZSearchClusterPlaneEff(Double_t nsigclz=0.) {if(nsigclz<0.)fNSigZSearchClusterPlaneEff=TMath::Abs(nsigclz);else fNSigZSearchClusterPlaneEff=nsigclz;}
+ Double_t GetNSigZSearchClusterPlaneEff() const {return fNSigZSearchClusterPlaneEff;}
+ void SetDistXSearchClusterPlaneEff(Double_t distclx=0.) {if(distclx<0.)fDistXSearchClusterPlaneEff=TMath::Abs(distclx);else fDistXSearchClusterPlaneEff=distclx;}
+ Double_t GetDistXSearchClusterPlaneEff() const {return fDistXSearchClusterPlaneEff;}
+ void SetDistZSearchClusterPlaneEff(Double_t distclz=0.) {if(distclz<0.)fDistZSearchClusterPlaneEff=TMath::Abs(distclz);else fDistZSearchClusterPlaneEff=distclz;}
+ Double_t GetDistZSearchClusterPlaneEff() const {return fDistZSearchClusterPlaneEff;}
+ void SetSwitchOnMaxDistNSigSrhClusPlaneEff(Bool_t flagbndcl=kFALSE) {fSwitchOnMaxDistNSigSrhClusPlaneEff=flagbndcl;}
+ Bool_t GetSwitchOnMaxDistNSigSrhClusPlaneEff() const {return fSwitchOnMaxDistNSigSrhClusPlaneEff;}
+ void SetDCACutPlaneEff(Double_t dcacpe=999.) {fDCACutPlaneEff=dcacpe;}
+ Double_t GetDCACutPlaneEff() const {return fDCACutPlaneEff;}
+ void SetVertexChi2CutPlaneEff(Double_t vtxchipe=999999999.) {fVertexChi2CutPlaneEff=vtxchipe;}
+ Double_t GetVertexChi2CutPlaneEff() const {return fVertexChi2CutPlaneEff;}
+
//
void SetImproveWithVertex(Bool_t impr=kFALSE) { fImproveWithVertex=impr; return; }
Bool_t GetImproveWithVertex() const { return fImproveWithVertex; }
Float_t GetTrackleterZetaOverlapCut() const {return fTrackleterZetaOverlapCut;}
void SetTrackleterPhiRotationAngle(Float_t w=0.0) {fTrackleterPhiRotationAngle=w;}
Float_t GetTrackleterPhiRotationAngle() const {return fTrackleterPhiRotationAngle;}
+ Bool_t GetTrackleterStoreSPD2SingleCl() const {return fTrackleterStoreSPD2SingleCl;}
+ void SetTrackleterStoreSPD2SingleCl(Bool_t v=kTRUE) {fTrackleterStoreSPD2SingleCl = v;}
//
void SetTrackleterNStdDevCut(Float_t f=1.) {fTrackleterNStdDev = f<0.01 ? 0.01 : f;}
Float_t GetTrackleterNStdDevCut() const {return fTrackleterNStdDev;}
Bool_t fOnlyConstraintPlaneEff; // if kTRUE, use only constrained tracks at primary vertex for Plane Eff.
Double_t fNSigXFromBoundaryPlaneEff; // accept one track for PlaneEff if distance from border (in loc x or z)
Double_t fNSigZFromBoundaryPlaneEff; // is greater than fNSigXFromBoundaryPlaneEff * Track_precision
+ Double_t fDistXFromBoundaryPlaneEff; // accept one track for PlaneEff if distance from border (in loc x or z)
+ Double_t fDistZFromBoundaryPlaneEff; // is greater than fDistXFromBoundaryPlaneEff centimeters
+ Bool_t fSwitchOnMaxDistNSigFrmBndPlaneEff; //if kTRUE,use max(fDistXFromBoundaryPlaneEff,fNSigXFromBoundaryPlaneEff) to accept tracks
+ Bool_t fSwitchOffStdSearchClusPlaneEff; //if kTRUE,use fNSigXSearchClusterPlaneEff and fDistXSearchClusterPlaneEff
+ Double_t fNSigXSearchClusterPlaneEff; // cluster search in distance from track impact point (in loc x or z)
+ Double_t fNSigZSearchClusterPlaneEff; // less than fNSigXSearchClusterPlaneEff * Track_precision
+ Double_t fDistXSearchClusterPlaneEff; // cluster found in distance from track impact point (in loc x or z)
+ Double_t fDistZSearchClusterPlaneEff; // is greater than fDistXSearchClusterPlaneEff centimeters
+ Bool_t fSwitchOnMaxDistNSigSrhClusPlaneEff; //if kTRUE,use max(fDistXSearchClusterPlaneEff,fNSigXSearchClusterPlaneEff) to accept tracks
+ Double_t fDCACutPlaneEff; // this set the cut on DCA in rphi plane when evaluating PlaneEff(SPD0)
+ Double_t fVertexChi2CutPlaneEff; // and also with a cut on the chi2
Bool_t fImproveWithVertex; // use the method AliITStrackV2::Improve() to point to the vertex during prolongation
Bool_t fExtendedEtaAcceptance; // enable jumping from TPC to SPD at large eta (MI)
Float_t fTrackleterPhiRotationAngle; // Angle to rotate cluster in the SPD inner layer for combinatorial reco only
Float_t fTrackleterNStdDev; // cut on the number of standard deviations
Bool_t fScaleDTBySin2T; // scale Dtheta by 1/sin^2(theta)
+ Bool_t fTrackleterStoreSPD2SingleCl; // request storing of L2 singles
//
Bool_t fTrackleterBuildCl2TrkRefs; // build cluster to track references in AliMultiplicity
//
AliITSRecoParam(const AliITSRecoParam & param);
AliITSRecoParam & operator=(const AliITSRecoParam ¶m);
- ClassDef(AliITSRecoParam,50) // ITS reco parameters
+ ClassDef(AliITSRecoParam,53) // ITS reco parameters
};
#endif
+
+