fMultMax(+999),
fZvtxMin(-999),
fZvtxMax(+999),
+ fPsiMin(-999),
+ fPsiMax(+999),
fWasUpdated(0),
fMultBinIndex(0),
fZvtxBinIndex(0),
+ fPsiBinIndex(0),
fDebug(0),
fTargetTrackDepth(0),
fFirstFilled(0),
- fNTimes(0) {;}
+ fNTimes(0),
+ fTargetFraction(1),
+ fTargetEvents(0) {;}
+
AliEventPool(Int_t d, Double_t multMin, Double_t multMax,
- Double_t zvtxMin, Double_t zvtxMax)
+ Double_t zvtxMin, Double_t zvtxMax,
+ Double_t psiMin=-999., Double_t psiMax=999.)
: fEvents(0),
fNTracksInEvent(0),
fEventIndex(0),
fMultMax(multMax),
fZvtxMin(zvtxMin),
fZvtxMax(zvtxMax),
+ fPsiMin(psiMin),
+ fPsiMax(psiMax),
fWasUpdated(0),
fMultBinIndex(0),
fZvtxBinIndex(0),
+ fPsiBinIndex(0),
fDebug(0),
fTargetTrackDepth(0),
fFirstFilled(0),
- fNTimes(0) {;}
+ fNTimes(0),
+ fTargetFraction(1),
+ fTargetEvents(0) {;}
+
~AliEventPool() {;}
- Bool_t EventMatchesBin(Int_t mult, Double_t zvtx) const;
- Bool_t EventMatchesBin(Double_t mult, Double_t zvtx) const;
- Bool_t IsReady() const { return NTracksInPool() >= fTargetTrackDepth; }
+ Bool_t EventMatchesBin(Int_t mult, Double_t zvtx, Double_t psi=0.) const;
+ Bool_t EventMatchesBin(Double_t mult, Double_t zvtx, Double_t psi=0.) const;
+ Bool_t IsReady() const { return IsReady(NTracksInPool(), GetCurrentNEvents()); }
Bool_t IsFirstReady() const { return fFirstFilled; }
Int_t GetNTimes() const { return fNTimes; }
Int_t GetCurrentNEvents() const { return fEvents.size(); }
Int_t NTracksInEvent(Int_t iEvent) const;
Int_t NTracksInCurrentEvent() const { return fNTracksInEvent.back(); }
void PrintInfo() const;
+ Int_t PsiBinIndex() const { return fPsiBinIndex; }
Int_t NTracksInPool() const;
Bool_t WasUpdated() const { return fWasUpdated; }
Int_t ZvtxBinIndex() const { return fZvtxBinIndex; }
void SetDebug(Bool_t b) { fDebug = b; }
- void SetTargetTrackDepth(Int_t d) { fTargetTrackDepth = d; }
+ void SetTargetTrackDepth(Int_t d, Float_t fraction = 1.0) { fTargetTrackDepth = d; fTargetFraction = fraction; }
+ void SetTargetEvents(Int_t ev) { fTargetEvents = ev; }
Int_t SetEventMultRange(Int_t multMin, Int_t multMax);
Int_t SetEventMultRange(Double_t multMin, Double_t multMax);
Int_t SetEventZvtxRange(Double_t zvtxMin, Double_t zvtxMax);
+ Int_t SetEventPsiRange(Double_t psiMin, Double_t psiMax);
void SetMultBinIndex(Int_t iM) { fMultBinIndex = iM; }
void SetZvtxBinIndex(Int_t iZ) { fZvtxBinIndex = iZ; }
+ void SetPsiBinIndex(Int_t iP) { fPsiBinIndex = iP; }
Int_t UpdatePool(TObjArray *trk);
protected:
+ Bool_t IsReady(Int_t tracks, Int_t events) const { return (tracks >= fTargetFraction * fTargetTrackDepth) || ((fTargetEvents > 0) && (events >= fTargetEvents)); }
+
deque<TObjArray*> fEvents; //Holds TObjArrays of MyTracklets
deque<int> fNTracksInEvent; //Tracks in event
deque<int> fEventIndex; //Original event index
Int_t fMixDepth; //Number of evts. to mix with
Double_t fMultMin, fMultMax; //Track multiplicity bin range
Double_t fZvtxMin, fZvtxMax; //Event z-vertex bin range
+ Double_t fPsiMin, fPsiMax; //Event plane angle (Psi) bin range
Bool_t fWasUpdated; //Evt. succesfully passed selection?
Int_t fMultBinIndex; //Multiplicity bin
Int_t fZvtxBinIndex; //Zvertex bin
+ Int_t fPsiBinIndex; //Event plane angle (Psi) bin
Int_t fDebug; //If 1 then debug on
Int_t fTargetTrackDepth; //Number of tracks, once full
Bool_t fFirstFilled; //Init to false
Int_t fNTimes; //Number of times init. condition reached
+ Float_t fTargetFraction; //fraction of fTargetTrackDepth at which pool is ready (default: 1.0)
+ Int_t fTargetEvents; //if non-zero: number of filled events after which pool is ready regardless of fTargetTrackDepth (default: 0)
- ClassDef(AliEventPool,1) // Event pool class
+ ClassDef(AliEventPool,3) // Event pool class
};
class AliEventPoolManager : public TObject
: fDebug(0),
fNMultBins(0),
fNZvtxBins(0),
+ fNPsiBins(0),
fEvPool(0),
fTargetTrackDepth(0) {;}
AliEventPoolManager(Int_t maxEvts, Int_t minNTracks,
- Int_t nMultBins, Double_t *multbins,
- Int_t nZvtxBins, Double_t *zvtxbins);
-
+ Int_t nMultBins, Double_t *multbins,
+ Int_t nZvtxBins, Double_t *zvtxbins);
+
+ AliEventPoolManager(Int_t maxEvts, Int_t minNTracks,
+ Int_t nMultBins, Double_t *multbins,
+ Int_t nZvtxBins, Double_t *zvtxbins,
+ Int_t nPsiBins, Double_t *psibins);
+
~AliEventPoolManager() {;}
// First uses bin indices, second uses the variables themselves.
- AliEventPool *GetEventPool(Int_t iMult, Int_t iZvtx) const;
- AliEventPool *GetEventPool(Int_t centVal, Double_t zvtxVal) const;
- AliEventPool *GetEventPool(Double_t centVal, Double_t zvtxVal) const;
+ AliEventPool *GetEventPool(Int_t iMult, Int_t iZvtx, Int_t iPsi=0) const;
+ AliEventPool *GetEventPool(Int_t centVal, Double_t zvtxVal, Double_t psiVal=0.) const;
+ AliEventPool *GetEventPool(Double_t centVal, Double_t zvtxVal, Double_t psiVal=0.) const;
Int_t InitEventPools(Int_t depth,
Int_t nmultbins, Double_t *multbins,
- Int_t nzvtxbins, Double_t *zvtxbins);
+ Int_t nzvtxbins, Double_t *zvtxbins,
+ Int_t npsibins, Double_t *psibins);
+
void SetTargetTrackDepth(Int_t d) { fTargetTrackDepth = d;} // Same as for G.E.P. class
Int_t UpdatePools(TObjArray *trk);
void SetDebug(Bool_t b) { fDebug = b; }
-
-protected:
+ void SetTargetValues(Int_t trackDepth, Float_t fraction, Int_t events);
+
+ protected:
Int_t fDebug; // If 1 then debug on
Int_t fNMultBins; // number mult bins
Int_t fNZvtxBins; // number vertex bins
- std::vector<std::vector<AliEventPool*> > fEvPool; // pool in bins of [fMultBin][fZvtxBin]
+ Int_t fNPsiBins; // number Event plane angle (Psi) bins
+ std::vector<AliEventPool*> fEvPool; // pool in bins of [fNMultBin][fNZvtxBin][fNPsiBin]
Int_t fTargetTrackDepth; // Required track size, same for all pools.
-
- ClassDef(AliEventPoolManager,1)
+
+ ClassDef(AliEventPoolManager,2)
};
#endif