void Evaluate(Double_t t, Double_t r[3], //radius vector
Double_t g[3], //first defivatives
Double_t gg[3]); //second derivatives
- void GetMomentum(Double_t phase, Double_t p[4], Double_t conversion=0.); // return momentum
+ void GetMomentum(Double_t phase, Double_t p[4], Double_t conversion=0., Double_t *xr=0); // return momentum
void GetAngle(Double_t t1, AliHelix &h, Double_t t2, Double_t angle[3]);
inline Double_t GetHelixR(Double_t phase=0);
inline Double_t GetHelixZ(Double_t phase=0);
Int_t GetPhase(Double_t r0, Double_t t[2]); //return phase for the nearest point
Int_t GetRPHIintersections(AliHelix &h, Double_t phase[2][2], Double_t ri[2], Double_t cut=3.);
Int_t GetClosestPhases(AliHelix &h, Double_t phase[2][2]);
+ Double_t GetPointAngle(AliHelix &h, Double_t phase[2],const Float_t *vertex);
Int_t LinearDCA(AliHelix &h, Double_t &t1, Double_t &t2,
Double_t &R, Double_t &dist);
//