class AliTRDcluster;
class AliTRDseed : public TObject {
-
- public:
- enum { knTimebins = 35 };
+public:
+ enum {
+ knTimebins = 70 // maximum number of clusters/tracklet
+ ,kNtb = 35 // maximum clusters/pad row
+ };
AliTRDseed();
AliTRDseed(const AliTRDseed &s);
- ~AliTRDseed() {};
+ virtual ~AliTRDseed() {};
AliTRDseed &operator=(const AliTRDseed &s) { *(new(this) AliTRDseed(s));
return *this; }
Float_t GetTilt() const { return fTilt; }
Float_t GetPadLength() const { return fPadLength; }
Float_t GetX0() const { return fX0; }
+ Float_t GetY0() const { return fYfit[0]; }
+ Float_t GetZ0() const { return fZfit[0]; }
Float_t GetX(Int_t i) const { return fX[i]; }
Float_t GetY(Int_t i) const { return fY[i]; }
Float_t GetZ(Int_t i) const { return fZ[i]; }
Float_t GetMeanz() const { return fMeanz; }
Float_t GetZProb() const { return fZProb; }
Int_t GetLabels(Int_t i) const { return fLabels[i]; }
+ Float_t GetMPads() const { return fMPads; }
+ Int_t GetNbClusters() const { return fN; }
Int_t GetN2() const { return fN2; }
+ Int_t GetNChange() const { return fNChange; }
Int_t GetNUsed() const { return fNUsed; }
Int_t GetFreq() const { return fFreq; }
Float_t GetC() const { return fC; }
Float_t GetCC() const { return fCC; }
Float_t GetChi2() const { return fChi2; }
Float_t GetChi2Z() const { return fChi2Z; }
- Int_t GetNTimeBins() const { return fgTimeBins; }
- Int_t GetNTimeBinsRange() const { return fTimeBinsRange; }
void SetTilt(Float_t tilt) { fTilt = tilt; }
void SetY(Int_t i, Float_t y) { fY[i] = y; }
void SetZ(Int_t i, Float_t z) { fZ[i] = z; }
void SetIndexes(Int_t i, Int_t idx) { fIndexes[i] = idx; }
- void SetClusters(Int_t i, AliTRDcluster *c) { fClusters[i] = c; }
+ void SetClusters(Int_t i, AliTRDcluster * const c) { fClusters[i] = c; }
void SetUsable(Int_t i, Bool_t usable) { fUsable[i] = usable; }
void SetYref(Int_t i, Float_t yref) { fYref[i] = yref; }
void SetZref(Int_t i, Float_t zref) { fZref[i] = zref; }
void SetMeanz(Float_t meanz) { fMeanz = meanz; }
void SetZProb(Float_t zprob) { fZProb = zprob; }
void SetLabels(Int_t i, Int_t label) { fLabels[i] = label; }
+ void SetMPads(Float_t mPads) { fMPads = mPads; }
+ void SetN(Int_t n) { fN = n; }
+ void SetNChange(Int_t n) { fNChange = n; }
void SetN2(Int_t n2) { fN2 = n2; }
void SetNUsed(Int_t nused) { fNUsed = nused; }
void SetFreq(Int_t freq) { fFreq = freq; }
void SetCC(Float_t cc) { fCC = cc; }
void SetChi2(Float_t chi2) { fChi2 = chi2; }
void SetChi2Z(Float_t chi2z) { fChi2Z = chi2z; }
- static void SetNTimeBins(Int_t nTB) { fgTimeBins = nTB; }
- void SetNTimeBinsRange(Int_t nTB) { fTimeBinsRange = nTB; }
protected:
void Copy(TObject &o) const;
- static Int_t fgTimeBins; // Local copy of the total number of TB
- Int_t fTimeBinsRange; // Number of time bins in the geometrical range of the detector
- Int_t fTimeBin0; // Time bin corresponding to t0
Float_t fTilt; // Tilting angle
Float_t fPadLength; // Pad length
Float_t fX0; // X0 position
Float_t fY[knTimebins]; //! Y position
Float_t fZ[knTimebins]; //! Z position
Int_t fIndexes[knTimebins]; //! Indexes
- AliTRDcluster *fClusters[knTimebins]; // Clusters
+ AliTRDcluster *fClusters[knTimebins]; // Clusters
Bool_t fUsable[knTimebins]; // Indication - usable cluster
Float_t fYref[2]; // Reference y
Float_t fZref[2]; // Reference z