* system rotated by angle alpha with respect to the global coord.system. *
* Origin: I.Belikov, CERN, Jouri.Belikov@cern.ch *
*****************************************************************************/
-#include "TObject.h"
+#include "TMath.h"
+
+#include "AliVParticle.h"
-const Double_t kB2C=0.299792458e-3;
const Double_t kAlmost1=0.999;
const Double_t kAlmost0=1e-33;
const Double_t kVeryBig=1./kAlmost0;
-class AliKalmanTrack;
-class AliStrLine;
+const Double_t kB2C=0.299792458e-3;
+const Double_t kAlmost0Field=1.e-13;
+const Double_t kMostProbablePt=0.35;
+
class AliESDVertex;
-class AliExternalTrackParam: public TObject {
+Double_t ApproximateBetheBloch(Double_t);
+
+class AliExternalTrackParam: public AliVParticle {
public:
AliExternalTrackParam();
+ AliExternalTrackParam(const AliExternalTrackParam &);
+ AliExternalTrackParam& operator=(const AliExternalTrackParam & trkPar);
AliExternalTrackParam(Double_t x, Double_t alpha,
const Double_t param[5], const Double_t covar[15]);
- AliExternalTrackParam(const AliKalmanTrack& track);
+ virtual ~AliExternalTrackParam(){}
+
+ void Set(Double_t x,Double_t alpha,
+ const Double_t param[5], const Double_t covar[15]);
+
+ static void SetMostProbablePt(Double_t pt) { fgMostProbablePt=pt; }
+ static Double_t GetMostProbablePt() { return fgMostProbablePt; }
void Reset();
- void Set(const AliKalmanTrack& track);
+ void ResetCovariance(Double_t s2);
const Double_t *GetParameter() const {return fP;}
const Double_t *GetCovariance() const {return fC;}
+
+ Double_t GetAlpha() const {return fAlpha;}
+ Double_t GetX() const {return fX;}
+ Double_t GetY() const {return fP[0];}
+ Double_t GetZ() const {return fP[1];}
+ Double_t GetSnp() const {return fP[2];}
+ Double_t GetTgl() const {return fP[3];}
+ Double_t GetSigned1Pt() const {return fP[4];}
+
Double_t GetSigmaY2() const {return fC[0];}
+ Double_t GetSigmaZY() const {return fC[1];}
Double_t GetSigmaZ2() const {return fC[2];}
- Double_t GetX() const {return fX;}
- Double_t GetAlpha() const {return fAlpha;}
+ Double_t GetSigmaSnpY() const {return fC[3];}
+ Double_t GetSigmaSnpZ() const {return fC[4];}
+ Double_t GetSigmaSnp2() const {return fC[5];}
+ Double_t GetSigmaTglY() const {return fC[6];}
+ Double_t GetSigmaTglZ() const {return fC[7];}
+ Double_t GetSigmaTglSnp() const {return fC[8];}
+ Double_t GetSigmaTgl2() const {return fC[9];}
+ Double_t GetSigma1PtY() const {return fC[10];}
+ Double_t GetSigma1PtZ() const {return fC[11];}
+ Double_t GetSigma1PtSnp() const {return fC[12];}
+ Double_t GetSigma1PtTgl() const {return fC[13];}
+ Double_t GetSigma1Pt2() const {return fC[14];}
+
+ // additional functions for AliVParticle
+ Double_t Px() const;
+ Double_t Py() const;
+ Double_t Pz() const;
+ Double_t Pt() const { return TMath::Abs(GetSignedPt()); }
+ Double_t P() const { return GetP(); }
+ Double_t OneOverPt() const { return 1./Pt(); }
+ Double_t Phi() const;
+ Double_t Theta() const;
+ virtual Double_t E() const;
+ virtual Double_t M() const;
+ Double_t Eta() const;
+ virtual Double_t Y() const;
+ Short_t Charge() const { return (Short_t)GetSign(); }
+ const Double_t *PID() const { return 0x0; }
+
Double_t GetSign() const {return (fP[4]>0) ? 1 : -1;}
Double_t GetP() const;
+ Double_t GetSignedPt() const {
+ return (TMath::Abs(fP[4])>kAlmost0) ? 1./fP[4]:TMath::Sign(kVeryBig,fP[4]);
+ }
+ Double_t Get1P() const;
+ Double_t GetC(Double_t b) const {return fP[4]*b*kB2C;}
+ void GetDZ(Double_t x,Double_t y,Double_t z,Double_t b,Float_t dz[2]) const;
Double_t GetD(Double_t xv, Double_t yv, Double_t b) const;
Double_t GetLinearD(Double_t xv, Double_t yv) const;
- Bool_t CorrectForMaterial(Double_t d, Double_t x0, Double_t mass);
+ Bool_t CorrectForMeanMaterial(Double_t xOverX0, Double_t xTimesRho,
+ Double_t mass, Bool_t anglecorr=kFALSE,
+ Double_t (*f)(Double_t)=ApproximateBetheBloch);
Double_t GetPredictedChi2(Double_t p[2],Double_t cov[3]) const;
+
+ Double_t
+ GetPredictedChi2(Double_t p[3],Double_t covyz[3],Double_t covxyz[3]) const;
+ Bool_t
+ PropagateTo(Double_t p[3],Double_t covyz[3],Double_t covxyz[3],Double_t b);
+
Bool_t Update(Double_t p[2],Double_t cov[3]);
Bool_t Rotate(Double_t alpha);
Bool_t PropagateTo(Double_t x, Double_t b);
if (PropagateTo(x,b)) return kTRUE;
return kFALSE;
}
+ void Propagate(Double_t len,Double_t x[3],Double_t p[3],Double_t bz) const;
+ Bool_t Intersect(Double_t pnt[3], Double_t norm[3], Double_t bz) const;
void GetHelixParameters(Double_t h[6], Double_t b) const;
Double_t GetDCA(const AliExternalTrackParam *p, Double_t b,
Double_t PropagateToDCA(AliExternalTrackParam *p, Double_t b);
Bool_t PropagateToDCA(const AliESDVertex *vtx, Double_t b, Double_t maxd);
+ void GetDirection(Double_t d[3]) const;
Bool_t GetPxPyPz(Double_t *p) const;
Bool_t GetXYZ(Double_t *p) const;
Bool_t GetCovarianceXYZPxPyPz(Double_t cv[21]) const;
Bool_t GetPxPyPzAt(Double_t x, Double_t b, Double_t p[3]) const;
Bool_t GetXYZAt(Double_t x, Double_t b, Double_t r[3]) const;
- void ApproximateHelixWithLine(Double_t xk, Double_t b, AliStrLine *line);
+ Bool_t GetYAt(Double_t x, Double_t b, Double_t &y) const;
+ Bool_t GetZAt(Double_t x, Double_t b, Double_t &z) const;
void Print(Option_t* option = "") const;
- // MI
- virtual Bool_t CorrectForMaterial(Double_t d, Double_t x0, Double_t rho, Double_t mass);
- virtual Bool_t PropagateTo(Double_t x, Double_t mass, Double_t maxStep, Bool_t rotateTo=kTRUE);
+ Double_t GetSnpAt(Double_t x,Double_t b) const;
+
+ //Deprecated
+ Bool_t CorrectForMaterial(Double_t d, Double_t x0, Double_t mass,
+ Double_t (*f)(Double_t)=ApproximateBetheBloch);
+
+ Bool_t GetDistance(AliExternalTrackParam *param2, Double_t x, Double_t dist[3], Double_t b);
+ Int_t GetIndex(Int_t i, Int_t j) const {return i+(j+1)*j/2;}
+
+
+protected:
+ Double_t &Par(Int_t i) {return fP[i];}
+ Double_t &Cov(Int_t i) {return fC[i];}
private:
- Double_t fX; // X coordinate for the point of parametrisation
- Double_t fAlpha; // Local <-->global coor.system rotation angle
- Double_t fP[5]; // The track parameters
- Double_t fC[15]; // The track parameter covariance matrix
+ Double32_t fX; // X coordinate for the point of parametrisation
+ Double32_t fAlpha; // Local <-->global coor.system rotation angle
+ Double32_t fP[5]; // The track parameters
+ Double32_t fC[15]; // The track parameter covariance matrix
- ClassDef(AliExternalTrackParam, 4)
+ static Double32_t fgMostProbablePt; // "Most probable" pt
+ // (to be used if Bz=0)
+ ClassDef(AliExternalTrackParam, 7)
};
+inline void AliExternalTrackParam::ResetCovariance(Double_t s2) {
+ //
+ // Reset the covarince matrix to "something big"
+ //
+ fC[0]*= s2;
+ fC[1] = 0.; fC[2]*= s2;
+ fC[3] = 0.; fC[4] = 0.; fC[5]*= s2;
+ fC[6] = 0.; fC[7] = 0.; fC[8] = 0.; fC[9]*= s2;
+ fC[10]= 0.; fC[11]= 0.; fC[12]= 0.; fC[13]= 0.; fC[14]*=s2;
+}
+
+
+
+
#endif