/* Copyright(c) 1998-2010, ALICE Experiment at CERN, All rights reserved. *
* See cxx source for full Copyright notice */
+/* $Id$ */
+
//***********************************************************
// Class AliRDHFCuts
// base class for cuts on AOD reconstructed heavy-flavour decays
class AliAODTrack;
class AliAODRecoDecayHF;
class AliESDVertex;
+class TF1;
+class TFormula;
class AliRDHFCuts : public AliAnalysisCuts
{
public:
- enum ECentrality {kCentOff,kCentV0M,kCentTRK,kCentTKL,kCentCL1,kCentInvalid};
+ enum ECentrality {kCentOff,kCentV0M,kCentTRK,kCentTKL,kCentCL1,kCentZNA,kCentZPA,kCentV0A,kCentInvalid};
enum ESelLevel {kAll,kTracks,kPID,kCandidate};
- enum EPileup {kNoPileupSelection,kRejectPileupEvent,kRejectTracksFromPileupVertex};
+ enum EPileup {kNoPileupSelection,kRejectPileupEvent,kRejectTracksFromPileupVertex,kRejectMVPileupEvent};
enum ESele {kD0toKpiCuts,kD0toKpiPID,kD0fromDstarCuts,kD0fromDstarPID,kDplusCuts,kDplusPID,kDsCuts,kDsPID,kLcCuts,kLcPID,kDstarCuts,kDstarPID};
- enum ERejBits {kNotSelTrigger,kNoVertex,kTooFewVtxContrib,kZVtxOutFid,kPileupSPD,kOutsideCentrality,kPhysicsSelection};
+ enum ERejBits {kNotSelTrigger,kNoVertex,kTooFewVtxContrib,kZVtxOutFid,kPileup,kOutsideCentrality,kPhysicsSelection,kBadSPDVertex,kZVtxSPDOutFid,kCentralityFlattening,kBadTrackV0Correl};
+ enum EV0sel {kAllV0s = 0, kOnlyOfflineV0s = 1, kOnlyOnTheFlyV0s = 2};
+
AliRDHFCuts(const Char_t* name="RDHFCuts", const Char_t* title="");
virtual ~AliRDHFCuts();
void SetMinCentrality(Float_t minCentrality=0.) {fMinCentrality=minCentrality;}
void SetMaxCentrality(Float_t maxCentrality=100.) {fMaxCentrality=maxCentrality;}
void SetMinVtxType(Int_t type=3) {fMinVtxType=type;}
+ void SetUseEventsWithOnlySPDVertex(Bool_t flag=kTRUE){
+ if(flag) fMinVtxType=1;
+ else fMinVtxType=3;
+ }
void SetMinVtxContr(Int_t contr=1) {fMinVtxContr=contr;}
void SetMaxVtxRdChi2(Float_t chi2=1e6) {fMaxVtxRedChi2=chi2;}
void SetMaxVtxZ(Float_t z=1e6) {fMaxVtxZ=z;}
void SetMinSPDMultiplicity(Int_t mult=0) {fMinSPDMultiplicity=mult;}
void SetTriggerMask(ULong64_t mask=0) {fTriggerMask=mask;}
- void SetUseAnyTrigger(){fTriggerMask=AliVEvent::kAny;}
+ void SetUseOnlyOneTrigger(Bool_t onlyOne) {fUseOnlyOneTrigger=onlyOne;}
+ ULong64_t GetTriggerMask() {return fTriggerMask;}
+ Bool_t GetUseOnlyOneTrigger() {return fUseOnlyOneTrigger;}
+
+ void SetUseAnyTrigger() {fTriggerMask=AliVEvent::kAny;}
void EnableMBTrigger(){
fTriggerMask|=AliVEvent::kMB;
fUseOnlyOneTrigger=kFALSE;
fTriggerMask=(AliVEvent::kEMCEJE|AliVEvent::kEMCEGA);
fUseOnlyOneTrigger=kTRUE;
}
+ //
+ // Setters (helpers) for pp 2012 data
+ void SetUseInt1TriggerPP2012(){
+ fTriggerMask=AliVEvent::kMB;
+ fTriggerClass[0]="CINT1";
+ fUseOnlyOneTrigger=kFALSE;
+ }
+ void SetUseInt7TriggerPP2012(){
+ fTriggerMask=AliVEvent::kINT7;
+ fTriggerClass[0]="CINT7";
+ fUseOnlyOneTrigger=kFALSE;
+ }
+ void SetUseInt8TriggerPP2012(){
+ fTriggerMask=AliVEvent::kINT8;
+ fTriggerClass[0]="CINT8";
+ fUseOnlyOneTrigger=kFALSE;
+ }
+ void SetUseEMCAL7TriggerPP2012(){
+ fTriggerMask=AliVEvent::kEMC7;
+ fTriggerClass[0]="CEMC7";
+ fUseOnlyOneTrigger=kFALSE;
+ }
+ void SetUseEMCAL8TriggerPP2012(){
+ fTriggerMask=AliVEvent::kEMC8;
+ fTriggerClass[0]="CEMC8";
+ fUseOnlyOneTrigger=kFALSE;
+ }
+ void SetUseEMCALJET7TriggerPP2012(){
+ fTriggerMask=AliVEvent::kEMCEJE;
+ fTriggerClass[0]="CEMC7EJE";
+ fUseOnlyOneTrigger=kFALSE;
+ }
+ void SetUseEMCALJET8TriggerPP2012(){
+ fTriggerMask=AliVEvent::kEMCEJE;
+ fTriggerClass[0]="CEMC8EJE";
+ fUseOnlyOneTrigger=kFALSE;
+ }
+ void SetUseEMCALGA7TriggerPP2012(){
+ fTriggerMask=AliVEvent::kEMCEGA;
+ fTriggerClass[0]="CEMC7EGA";
+ fUseOnlyOneTrigger=kFALSE;
+ }
+ void SetUseEMCALGA8TriggerPP2012(){
+ fTriggerMask=AliVEvent::kEMCEGA;
+ fTriggerClass[0]="CEMC8EGA";
+ fUseOnlyOneTrigger=kFALSE;
+ }
+ void SetUseSPI7TriggerPP2012(){
+ fTriggerMask=AliVEvent::kSPI7;
+ fTriggerClass[0]="CSPI7";
+ fUseOnlyOneTrigger=kFALSE;
+ }
+ void SetUseSPI8TriggerPP2012(){
+ fTriggerMask=AliVEvent::kSPI;
+ fTriggerClass[0]="CSPI8";
+ fUseOnlyOneTrigger=kFALSE;
+ }
+ void SetUseHighMult7TriggerPP2012(){
+ fTriggerMask=AliVEvent::kHighMult;
+ fTriggerClass[0]="CSHM7";
+ fUseOnlyOneTrigger=kFALSE;
+ }
+ void SetUseHighMult8TriggerPP2012(){
+ fTriggerMask=AliVEvent::kHighMult;
+ fTriggerClass[0]="CSHM8";
+ fUseOnlyOneTrigger=kFALSE;
+ }
+
+ void SetMaxDifferenceTRKV0Centraltity(Double_t maxd=5.) {fMaxDiffTRKV0Centr=maxd;}
+ void SetNotUseCutOnTRKVsV0Centraltity() {fMaxDiffTRKV0Centr=-1.;}
void SetRemoveTrackletOutliers(Bool_t opt) {fRemoveTrackletOutliers=opt;}
+ void SetCutOnzVertexSPD(Int_t opt) {
+ if(opt>=0 && opt<=2) fCutOnzVertexSPD=opt;
+ else AliError("Wrong option for cut on zVertexSPD");
+ }
void SetTriggerClass(TString trclass0, TString trclass1="") {fTriggerClass[0]=trclass0; fTriggerClass[1]=trclass1;}
void ApplySPDDeadPbPb2011(){fApplySPDDeadPbPb2011=kTRUE;}
+ void ApplySPDMisalignedCutPP2012(){fApplySPDMisalignedPP2012=kTRUE;}
void SetVarsForOpt(Int_t nVars,Bool_t *forOpt);
void SetGlobalIndex(){fGlobalIndex=fnVars*fnPtBins;}
void SetGlobalIndex(Int_t nVars,Int_t nptBins){fnVars=nVars; fnPtBins=nptBins; SetGlobalIndex();}
void SetUsePID(Bool_t flag=kTRUE) {fUsePID=flag; return;}
void SetUseAOD049(Bool_t flag=kTRUE) {fUseAOD049=flag; return;}
void SetKinkRejection(Bool_t flag=kTRUE) {fKinkReject=flag; return;}
+ void SetUseTrackSelectionWithFilterBits(Bool_t flag=kTRUE){
+ fUseTrackSelectionWithFilterBits=flag; return;}
void SetUseCentrality(Int_t flag=1); // see enum below
void SetPidHF(AliAODPidHF* pidObj) {
if(fPidHF) delete fPidHF;
fPidHF=new AliAODPidHF(*pidObj);
}
void SetRemoveDaughtersFromPrim(Bool_t removeDaughtersPrim) {fRemoveDaughtersFromPrimary=removeDaughtersPrim;}
- void SetRecomputePrimaryVertex(Bool_t opt) {fRecomputePrimVertex=opt;}
void SetMinPtCandidate(Double_t ptCand=-1.) {fMinPtCand=ptCand; return;}
void SetMaxPtCandidate(Double_t ptCand=1000.) {fMaxPtCand=ptCand; return;}
+ void SetMaxRapidityCandidate(Double_t ycand) {fMaxRapidityCand=ycand; return;}
void SetOptPileup(Int_t opt=0){
// see enum below
fOptPileup=opt;
}
+ void SetHistoForCentralityFlattening(TH1F *h,Double_t minCentr,Double_t maxCentr,Double_t centrRef=0.,Int_t switchTRand=0);
void ConfigurePileupCuts(Int_t minContrib=3, Float_t minDz=0.6){
fMinContrPileup=minContrib;
fMinDzPileup=minDz;
}
-
+ void SetMinCrossedRowsTPCPtDep(const char *rows="");
+ void SetMinRatioClsOverCrossRowsTPC(Float_t ratio=0.) {fCutRatioClsOverCrossRowsTPC = ratio;}
+ void SetMinRatioSignalNOverCrossRowsTPC(Float_t ratio=0.) {fCutRatioSignalNOverCrossRowsTPC = ratio;}
AliAODPidHF* GetPidHF() const {return fPidHF;}
Float_t *GetPtBinLimits() const {return fPtBinLimits;}
Bool_t *GetIsUpperCut() const {return fIsUpperCut;}
AliESDtrackCuts *GetTrackCuts() const {return fTrackCuts;}
virtual AliESDtrackCuts *GetTrackCutsSoftPi() const {return 0;}
+ virtual AliESDtrackCuts *GetTrackCutsV0daughters() const {return 0;}
virtual void GetCutVarsForOpt(AliAODRecoDecayHF *d,Float_t *vars,Int_t nvars,Int_t *pdgdaughters) = 0;
virtual void GetCutVarsForOpt(AliAODRecoDecayHF *d,Float_t *vars,Int_t nvars,Int_t *pdgdaughters,AliAODEvent * /*aod*/)
{return GetCutVarsForOpt(d,vars,nvars,pdgdaughters);}
Bool_t GetIsUsePID() const {return fUsePID;}
Bool_t GetUseAOD049() const {return fUseAOD049;}
Bool_t GetUseKinkRejection() const {return fKinkReject;}
+ Bool_t GetUseEventsWithOnlySPDVertex() const{
+ if(fMinVtxType==1 || fMinVtxType==2) return kTRUE;
+ return kFALSE;
+ }
+ Bool_t GetUseTrackSelectionWithFilterBits() const{return fUseTrackSelectionWithFilterBits;}
Bool_t GetIsPrimaryWithoutDaughters() const {return fRemoveDaughtersFromPrimary;}
Bool_t GetOptPileUp() const {return fOptPileup;}
Int_t GetUseCentrality() const {return fUseCentrality;}
Float_t GetMaxCentrality() const {return fMaxCentrality;}
Double_t GetMinPtCandidate() const {return fMinPtCand;}
Double_t GetMaxPtCandidate() const {return fMaxPtCand;}
+ TH1F *GetHistoForCentralityFlattening(){return fHistCentrDistr;}
+ void SetUseCentralityFlatteningInMC(Bool_t opt){fUseCentrFlatteningInMC=opt;}
+ const char* GetMinCrossedRowsTPCPtDep() const {return fCutMinCrossedRowsTPCPtDep;}
+ Float_t GetMinRatioClsOverCrossRowsTPC() const {return fCutRatioClsOverCrossRowsTPC;}
+ Float_t GetMinRatioSignalNOverCrossRowsTPC() const {return fCutRatioSignalNOverCrossRowsTPC;}
Bool_t IsSelected(TObject *obj) {return IsSelected(obj,AliRDHFCuts::kAll);}
Bool_t IsSelected(TList *list) {if(!list) return kTRUE; return kFALSE;}
Int_t IsEventSelectedInCentrality(AliVEvent *event);
+ Bool_t IsEventSelectedForCentrFlattening(Float_t centvalue);
Bool_t IsEventSelected(AliVEvent *event);
Bool_t AreDaughtersSelected(AliAODRecoDecayHF *rd) const;
Bool_t IsDaughterSelected(AliAODTrack *track,const AliESDVertex *primary,AliESDtrackCuts *cuts) const;
virtual Int_t IsSelectedPID(AliAODRecoDecayHF * /*rd*/) {return 1;}
+ void SetupPID(AliVEvent *event);
virtual Int_t IsSelected(TObject* obj,Int_t selectionLevel) = 0;
virtual Int_t IsSelected(TObject* obj,Int_t selectionLevel,AliAODEvent* /*aod*/)
{return IsSelected(obj,selectionLevel);}
Int_t PtBin(Double_t pt) const;
- void PrintAll()const;
+ virtual void PrintAll()const;
void PrintTrigger() const;
virtual Bool_t IsInFiducialAcceptance(Double_t /*pt*/,Double_t /*y*/) const {return kTRUE;}
Bool_t IsEventRejectedDueToZVertexOutsideFiducialRegion() const {
return fEvRejectionBits&(1<<kZVtxOutFid);
}
- Bool_t IsEventRejectedDueToPileupSPD() const {
- return fEvRejectionBits&(1<<kPileupSPD);
+ Bool_t IsEventRejectedDueToPileup() const {
+ return fEvRejectionBits&(1<<kPileup);
}
Bool_t IsEventRejectedDueToCentrality() const {
return fEvRejectionBits&(1<<kOutsideCentrality);
}
+ Bool_t IsEventRejectedDueToCentralityFlattening() const {
+ return fEvRejectionBits&(1<<kCentralityFlattening);
+ }
+ Bool_t IsEventRejectedDueToTRKV0CentralityCorrel() const {
+ return fEvRejectionBits&(1<<kBadTrackV0Correl);
+ }
Bool_t IsEventRejectedDuePhysicsSelection() const {
return fEvRejectionBits&(1<<kPhysicsSelection);
}
Bool_t IsSelectCandTrackSPDFirst() const { return fIsCandTrackSPDFirst; }
Double_t IsMaxCandTrackSPDFirst() const { return fMaxPtCandTrackSPDFirst; }
+ Bool_t CheckPtDepCrossedRows(TString rows,Bool_t print=kFALSE) const;
+
+
protected:
Int_t fWhyRejection; // used to code the step at which candidate was rejected
UInt_t fEvRejectionBits; //bit map storing the full info about event rejection
Bool_t fRemoveDaughtersFromPrimary; // flag to switch on the removal of duaghters from the primary vertex computation
- Bool_t fRecomputePrimVertex; // flag to recompute primary vertex
Bool_t fUseMCVertex; // use MC primary vertex
Bool_t fUsePhysicsSelection; // use Physics selection criteria
Int_t fOptPileup; // option for pielup selection
Int_t fIsSelectedPID; // outcome of PID selection
Double_t fMinPtCand; // minimum pt of the candidate
Double_t fMaxPtCand; // minimum pt of the candidate
+ Double_t fMaxRapidityCand; // max rapidity of candidate (if !=-999 overrides IsInFiducialAcceptance)
Bool_t fKeepSignalMC; // IsSelected returns always kTRUE for MC signal
Bool_t fIsCandTrackSPDFirst; // flag to select the track kFirst criteria for pt < ptlimit
Double_t fMaxPtCandTrackSPDFirst; // maximum pt of the candidate for which to check if the daughters fulfill kFirst criteria
Bool_t fApplySPDDeadPbPb2011; // flag to apply SPD dead module map of PbPb2011
+ Bool_t fApplySPDMisalignedPP2012; // flag to apply cut on tracks crossing SPD misaligned modules for PP2012 data
+ Double_t fMaxDiffTRKV0Centr; // Max. difference between TRK and V0 centrality (remove TPC pileup for PbPb 2011)
Bool_t fRemoveTrackletOutliers; // flag to apply cut on tracklets vs. centrality for 2011 data
+ Int_t fCutOnzVertexSPD; // cut on zSPD vertex to remove outliers in centrality vs. tracklets (0=no cut, 1= cut at 12 cm, 2= cut on difference to z of vtx tracks
Bool_t fKinkReject; // flag to reject kink daughters
-
- ClassDef(AliRDHFCuts,24); // base class for cuts on AOD reconstructed heavy-flavour decays
+ Bool_t fUseTrackSelectionWithFilterBits; // flag to enable/disable the check on filter bits
+ Bool_t fUseCentrFlatteningInMC; // flag for enabling/diabling centrality flattening in MC
+ TH1F *fHistCentrDistr; // histogram with reference centrality distribution for centrality distribution flattening
+ Float_t fCutRatioClsOverCrossRowsTPC; // min. value ratio NTPCClusters/NTPCCrossedRows, cut if !=0
+ Float_t fCutRatioSignalNOverCrossRowsTPC; // min. value ratio TPCPointsUsedForPID/NTPCCrossedRows, cut if !=0
+ TString fCutMinCrossedRowsTPCPtDep; // pT-dep cut in TPC minimum n crossed rows
+ TFormula *f1CutMinNCrossedRowsTPCPtDep; // pT-dep cut in TPC minimum n crossed rows
+
+
+ ClassDef(AliRDHFCuts,36); // base class for cuts on AOD reconstructed heavy-flavour decays
};
#endif