#include "AliTRDcluster.h"
#endif
+#include "AliTRDReconstructor.h"
+
class TTreeSRedirector;
class AliRieman;
class AliTRDtrackingChamber;
class AliTRDtrackV1;
-class AliTRDReconstructor;
class AliTRDpadPlane;
class AliTRDseedV1 : public AliTRDtrackletBase
{
enum ETRDtrackletStatus {
kOwner = BIT(14) // owner of its clusters
,kRowCross = BIT(15) // pad row cross tracklet
- ,kCalib = BIT(16) // calibrated tracklet
- ,kKink = BIT(17) // kink prolongation tracklet
- ,kStandAlone = BIT(18)
+ ,kPID = BIT(16) // PID contributor
+ ,kCalib = BIT(17) // calibrated tracklet
+ ,kKink = BIT(18) // kink prolongation tracklet
+ ,kStandAlone = BIT(19) // tracklet build during stand alone track finding
};
AliTRDseedV1(Int_t det = -1);
AliTRDseedV1(const AliTRDseedV1 &ref);
AliTRDseedV1& operator=(const AliTRDseedV1 &ref);
-/* Bool_t AttachClustersIter(
- AliTRDtrackingChamber *chamber, Float_t quality,
- Bool_t kZcorr = kFALSE, AliTRDcluster *c=0x0);*/
- Bool_t AttachClusters(
- AliTRDtrackingChamber *chamber, Bool_t tilt = kFALSE);
+ Bool_t AttachClusters(AliTRDtrackingChamber *chamber, Bool_t tilt = kFALSE);
void Bootstrap(const AliTRDReconstructor *rec);
void Calibrate();
void CookdEdx(Int_t nslices);
void CookLabels();
Bool_t CookPID();
- Bool_t Fit(Bool_t tilt=kTRUE, Int_t errors = 2);
-// void FitMI();
+ Bool_t Fit(Bool_t tilt=kFALSE, Bool_t zcorr=kFALSE);
Bool_t Init(AliTRDtrackV1 *track);
inline void Init(const AliRieman *fit);
Bool_t IsEqual(const TObject *inTracklet) const;
Bool_t IsCalibrated() const { return TestBit(kCalib);}
Bool_t IsOwner() const { return TestBit(kOwner);}
Bool_t IsKink() const { return TestBit(kKink);}
+ Bool_t HasPID() const { return TestBit(kPID);}
Bool_t IsOK() const { return GetN() > 4 && GetNUsed() < 4;}
Bool_t IsRowCross() const { return TestBit(kRowCross);}
Bool_t IsUsable(Int_t i) const { return fClusters[i] && !fClusters[i]->IsUsed();}
inline Float_t GetChi2Phi() const;
void GetCovAt(Double_t x, Double_t *cov) const;
void GetCovXY(Double_t *cov) const { memcpy(cov, &fCov[0], 3*sizeof(Double_t));}
- void GetCovRef(Double_t *cov) const { memcpy(cov, &fRefCov, 3*sizeof(Double_t));}
+ void GetCovRef(Double_t *cov) const { memcpy(cov, &fRefCov, 7*sizeof(Double_t));}
static Double_t GetCovSqrt(Double_t *c, Double_t *d);
static Double_t GetCovInv(Double_t *c, Double_t *d);
Float_t GetdX() const { return fdX;}
Float_t* GetdEdx() { return &fdEdx[0];}
- Float_t GetdQdl(Int_t ic) const;
+ Float_t GetdQdl(Int_t ic, Float_t *dx=0x0) const;
Float_t GetdYdX() const { return fYfit[1]; }
Float_t GetdZdX() const { return fZref[1]; }
Int_t GetdY() const { return Int_t(GetY()/0.014);}
AliTRDcluster* GetClusters(Int_t i) const { return i<0 || i>=kNclusters ? 0x0 : fClusters[i];}
Int_t GetIndexes(Int_t i) const{ return i<0 || i>=kNclusters ? -1 : fIndexes[i];}
Int_t GetLabels(Int_t i) const { return fLabels[i];}
- Float_t GetMomentum() const { return fPt*TMath::Sqrt(1.+fZref[1]*fZref[1]);}
+ Float_t GetMomentum(Float_t *err = 0x0) const;
Int_t GetN() const { return (Int_t)fN&0x1f;}
Int_t GetN2() const { return GetN();}
Int_t GetNUsed() const { return Int_t((fN>>5)&0x1f);}
Float_t GetS2Z() const { return fS2Z;}
Float_t GetSigmaY() const { return fS2Y > 0. ? TMath::Sqrt(fS2Y) : 0.2;}
Float_t GetSnp() const { return fYref[1]/TMath::Sqrt(1+fYref[1]*fYref[1]);}
- Float_t GetTgl() const { return fZref[1];}
+ Float_t GetTgl() const { return fZref[1]/TMath::Sqrt(1+fYref[1]*fYref[1]);}
Float_t GetTilt() const { return fPad[2];}
UInt_t GetTrackletWord() const { return 0;}
+ UShort_t GetVolumeId() const;
Float_t GetX0() const { return fX0;}
Float_t GetX() const { return fX0 - fX;}
Float_t GetY() const { return fYfit[0] - fYfit[1] * fX;}
Double_t GetYat(Double_t x) const { return fYfit[0] - fYfit[1] * (fX0-x);}
- Float_t GetYfit(Int_t id) const { return fYfit[id];}
- Float_t GetYref(Int_t id) const { return fYref[id];}
- Float_t GetZ() const { return fZfit[0] - fZfit[1] * fX;}
+ Float_t GetYfit(Int_t id) const { return fYfit[id];}
+ Float_t GetYref(Int_t id) const { return fYref[id];}
+ Float_t GetZ() const { return fZfit[0] - fZfit[1] * fX;}
Double_t GetZat(Double_t x) const { return fZfit[0] - fZfit[1] * (fX0-x);}
- Float_t GetZfit(Int_t id) const { return fZfit[id];}
- Float_t GetZref(Int_t id) const { return fZref[id];}
- Int_t GetYbin() const { return Int_t(GetY()/0.016);}
- Int_t GetZbin() const { return Int_t(GetZ()/fPad[0]);}
+ Float_t GetZfit(Int_t id) const { return fZfit[id];}
+ Float_t GetZref(Int_t id) const { return fZref[id];}
+ Int_t GetYbin() const { return Int_t(GetY()/0.016);}
+ Int_t GetZbin() const { return Int_t(GetZ()/fPad[0]);}
inline AliTRDcluster* NextCluster();
inline AliTRDcluster* PrevCluster();
inline void ResetClusterIter(Bool_t forward = kTRUE);
void Reset();
- void SetC(Float_t c) { fC = c;}
- void SetChi2(Float_t chi2) { fChi2 = chi2;}
- void SetCovRef(const Double_t *cov) { memcpy(&fRefCov[0], cov, 3*sizeof(Double_t));}
+ void SetC(Float_t c) { fC = c;}
+ void SetChi2(Float_t chi2) { fChi2 = chi2;}
+ inline void SetCovRef(const Double_t *cov);
void SetIndexes(Int_t i, Int_t idx) { fIndexes[i] = idx; }
void SetLabels(Int_t *lbls) { memcpy(fLabels, lbls, 3*sizeof(Int_t)); }
- void SetKink(Bool_t k) { SetBit(kKink, k);}
+ void SetKink(Bool_t k = kTRUE){ SetBit(kKink, k);}
+ void SetPID(Bool_t k = kTRUE) { SetBit(kPID, k);}
void SetStandAlone(Bool_t st) { SetBit(kStandAlone, st); }
void SetPt(Double_t pt) { fPt = pt;}
void SetOwner();
void SetYref(Int_t i, Float_t y) { fYref[i] = y;}
void SetZref(Int_t i, Float_t z) { fZref[i] = z;}
// void SetUsabilityMap(Long_t um) { fUsable = um; }
- void UpDate(const AliTRDtrackV1* trk);
+ void Update(const AliTRDtrackV1* trk);
void UpdateUsed();
void UseClusters();
Short_t fDet; // TRD detector
AliTRDcluster *fClusters[kNclusters]; // Clusters
Float_t fPad[3]; // local pad definition : length/width/tilt
- Float_t fYref[2]; // Reference y
- Float_t fZref[2]; // Reference z
- Float_t fYfit[2]; // Y fit position +derivation
- Float_t fZfit[2]; // Z fit position
- Float_t fPt; // Momentum estimate @ tracklet [GeV/c]
+ Float_t fYref[2]; // Reference y, dydx
+ Float_t fZref[2]; // Reference z, dz/dx
+ Float_t fYfit[2]; // Fit y, dy/dx
+ Float_t fZfit[2]; // Fit z
+ Float_t fPt; // Pt estimate @ tracklet [GeV/c]
Float_t fdX; // length of time bin
Float_t fX0; // anode wire position
Float_t fX; // radial position of the tracklet
Float_t fC; // Curvature
Float_t fChi2; // Global chi2
Float_t fdEdx[kNslices]; // dE/dx measurements for tracklet
- Float_t fProb[AliPID::kSPECIES]; // PID probabilities
+ Float_t fProb[AliPID::kSPECIES]; // PID probabilities
Int_t fLabels[3]; // most frequent MC labels and total number of different labels
- Double_t fRefCov[3]; // covariance matrix of the track in the yz plane
+ Double_t fRefCov[7]; // covariance matrix of the track in the yz plane + the rest of the diagonal elements
Double_t fCov[3]; // covariance matrix of the tracklet in the xy plane
- ClassDef(AliTRDseedV1, 6) // The offline TRD tracklet
+ ClassDef(AliTRDseedV1, 7) // The offline TRD tracklet
};
//____________________________________________________________
return s2 > 0. ? dphi/s2 : 0.;
}
+
+
//____________________________________________________________
inline Double_t AliTRDseedV1::GetPID(Int_t is) const
{
fZref[1] = rieman->GetDZat(fX0);
fYref[0] = rieman->GetYat(fX0);
fYref[1] = rieman->GetDYat(fX0);
+ if(fReconstructor && fReconstructor->IsHLT()){
+ fRefCov[0] = 1;
+ fRefCov[2] = 10;
+ }else{
+ fRefCov[0] = rieman->GetErrY(fX0);
+ fRefCov[2] = rieman->GetErrZ(fX0);
+ }
fC = rieman->GetC();
fChi2 = rieman->GetChi2();
}
}
}
+//____________________________________________________________
+inline void AliTRDseedV1::SetCovRef(const Double_t *cov)
+{
+// Copy some "important" covariance matrix elements
+// var(y)
+// cov(y,z) var(z)
+// var(snp)
+// var(tgl)
+// cov(tgl, 1/pt) var(1/pt)
+
+ memcpy(&fRefCov[0], cov, 3*sizeof(Double_t)); // yz full covariance
+ fRefCov[3] = cov[ 5]; // snp variance
+ fRefCov[4] = cov[ 9]; // tgl variance
+ fRefCov[5] = cov[13]; // cov(tgl, 1/pt)
+ fRefCov[6] = cov[14]; // 1/pt variance
+}
+
+
//____________________________________________________________
inline void AliTRDseedV1::SetN(Int_t n)
{
git://git.uio.no / u / mrichter / AliRoot.git / blobdiff