class AliTPCseed;
class AliTPCclusterMI;
class AliTPCTrackerPoint;
-class AliESD;
+class AliESD;
+class AliTPCCalPad;
class TClonesArray;
class AliTPCseed : public AliTPCtrack {
AliTPCseed(Double_t xr, Double_t alpha, const Double_t xx[5],
const Double_t cc[15], Int_t i);
AliTPCseed &operator = (const AliTPCseed & param);
+ static Int_t RefitTrack(AliTPCseed* seed, AliExternalTrackParam * in, AliExternalTrackParam * out);
+ Bool_t RefitTrack(AliTPCseed* seed, Bool_t out);
Int_t Compare(const TObject *o) const;
void Reset(Bool_t all = kTRUE);
Int_t GetProlongation(Double_t xr, Double_t &y, Double_t & z) const;
AliTPCTrackerPoint * GetTrackPoint(Int_t i);
AliTPCclusterMI * GetClusterFast(Int_t irow){ return fClusterPointer[irow];}
void SetClusterPointer(Int_t irow, AliTPCclusterMI* cl) {fClusterPointer[irow]=cl;}
- void RebuildSeed(); // rebuild seed to be ready for storing
Double_t GetDensityFirst(Int_t n);
Double_t GetSigma2C() const {
Double_t cnv=GetBz()*kB2C;
void SetErrorY2(Float_t sy2){fErrorY2=sy2;}
void SetErrorZ2(Float_t sz2){fErrorZ2=sz2;}
Float_t CookdEdx(Double_t low=0.05, Double_t up=0.70, Int_t i1=0, Int_t i2=159, Bool_t onlyused = kFALSE);
+ Float_t CookShape(Int_t type);
+ // Float_t CookShape2(Int_t type,Bool_t withQ);
void CookPID();
Double_t Bethe(Double_t bg); // return bethe-bloch
- // void CookdEdx2(Double_t low=0.05, Double_t up=0.70);
+ Double_t BetheMass(Double_t mass=0.1057); // return bethe-bloch
Bool_t IsActive() const { return !(fRemoval);}
void Desactivate(Int_t reason){ fRemoval = reason;}
AliTPCclusterMI* GetClusterPointer(Int_t i) const {return fClusterPointer[i];}
void SetSector(Int_t n) {fSector=n;}
void SetCurrentClusterIndex1(Int_t n) {fCurrentClusterIndex1=n;}
void SetInDead(Bool_t s) {fInDead=s;}
- void SetPoints(TClonesArray* p) {fPoints=p;}
- void SetEPoints(TClonesArray* p) {fEPoints=p;}
Double_t TPCrPID(Int_t i) const {return fTPCr[i];}
Double_t* TPCrPIDs() {return fTPCr;}
Bool_t GetInDead() const {return fInDead;}
Float_t GetErrorY2() const {return fErrorY2;}
Float_t GetErrorZ2() const {return fErrorZ2;}
+ Float_t GetCMeanSigmaY2p30() const {return fCMeanSigmaY2p30;}
+ Float_t GetCMeanSigmaZ2p30() const {return fCMeanSigmaZ2p30;}
+ Float_t GetCMeanSigmaY2p30R() const {return fCMeanSigmaY2p30R;}
+ Float_t GetCMeanSigmaZ2p30R() const {return fCMeanSigmaZ2p30R;}
//
//
void SetClusterMapBit(int ibit, Bool_t state);
const TBits& GetClusterMap() const { return fClusterMap; };
const TBits& GetSharedMap() const { return fSharedMap; };
+ Float_t CookdEdxNorm(Double_t low=0.05, Double_t up=0.70, Int_t type=0, Int_t i1=0, Int_t i2=159, Bool_t shapeNorm=kTRUE, Bool_t posNorm=kFALSE, Int_t padNorm=0,Int_t returnVal=0);
+ static void GetError(AliTPCclusterMI* cluster, AliExternalTrackParam * param,
+ Double_t& erry, Double_t &errz);
+ static void GetShape(AliTPCclusterMI* cluster, AliExternalTrackParam * param,
+ Double_t& rmsy, Double_t &rmsz);
+ static Double_t GetQCorrGeom(Float_t ty, Float_t tz);
+ static Double_t GetQCorrShape(Int_t ipad, Int_t type,Float_t z, Float_t ty, Float_t tz, Float_t q, Float_t thr);
+
private:
// AliTPCseed & operator = (const AliTPCseed &)
// {::Fatal("= operator","Not Implemented\n");return *this;}
AliESDtrack * fEsd; //!
AliTPCclusterMI* fClusterPointer[160]; // array of cluster pointers -
Bool_t fClusterOwner; // indicates the track is owner of cluster
- TClonesArray * fPoints; //!array with points along the track
- TClonesArray * fEPoints; //! array with exact points - calculated in special macro not used in tracking
//---CURRENT VALUES
- Int_t fRow; //!current row number
- Int_t fSector; //!current sector number
- Int_t fRelativeSector; //! index of current relative sector
+ Int_t fRow; // current row number
+ Int_t fSector; // current sector number
+ Int_t fRelativeSector; // index of current relative sector
Float_t fCurrentSigmaY2; //!expected current cluster sigma Y
Float_t fCurrentSigmaZ2; //!expected current cluster sigma Z
+ Float_t fCMeanSigmaY2p30; //! current mean sigma Y2 - mean30%
+ Float_t fCMeanSigmaZ2p30; //! current mean sigma Z2 - mean30%
+ Float_t fCMeanSigmaY2p30R; //! current relative mean sigma Y2 - mean30%
+ Float_t fCMeanSigmaZ2p30R; //! current relative mean sigma Z2 - mean30%
Float_t fErrorY2; //!sigma of current cluster
Float_t fErrorZ2; //!sigma of current cluster
AliTPCclusterMI * fCurrentCluster; //!pointer to the current cluster for prolongation
AliTPCTrackerPoint fTrackPoints[160]; //track points - array track points
TBits fClusterMap; // bit is 1 if track has a hit on padrow
TBits fSharedMap; // bit is 1 if track shares a hit on padrow
- ClassDef(AliTPCseed,1)
+ ClassDef(AliTPCseed,3)
};