//-------------------------------------------------------------------------
// Class AliKalmanTrack
-//
-// Origin: Iouri Belikov, CERN, Jouri.Belikov@cern.ch
+// fixed the interface for the derived reconstructed track classes
+// Origin: Iouri Belikov, CERN, Jouri.Belikov@cern.ch
//-------------------------------------------------------------------------
#include <TObject.h>
+#include "AliPID.h"
class AliCluster;
virtual ~AliKalmanTrack(){};
void SetLabel(Int_t lab) {fLab=lab;}
+ void SetFakeRatio(Float_t ratio) {fFakeRatio=ratio;}
Bool_t IsSortable() const {return kTRUE;}
Int_t GetLabel() const {return fLab;}
+ Float_t GetFakeRatio() const {return fFakeRatio;}
Double_t GetChi2() const {return fChi2;}
Double_t GetMass() const {return fMass;}
Int_t GetNumberOfClusters() const {return fN;}
Warning("GetClusterIndex(Int_t)","Method must be overloaded !\n");
return 0;
}
+ virtual Double_t GetPIDsignal() const {
+ Warning("GetPIDsignal()","Method must be overloaded !\n");
+ return 0.;
+ }
+
+ virtual Double_t GetDCA(const AliKalmanTrack *p,Double_t &xthis,Double_t &xp) const;
+ virtual
+ Double_t PropagateToDCA(AliKalmanTrack *p, Double_t d=0., Double_t x0=0.);
+ virtual Double_t GetAlpha() const {
+ Warning("GetAlpha()","Method must be overloaded !\n");
+ return 0.;
+ }
+ virtual Double_t GetSigmaY2() const {
+ Warning("GetSigmaY2()","Method must be overloaded !\n");
+ return 0.;
+ }
+ virtual Double_t GetSigmaZ2() const {
+ Warning("GetSigmaZ2()","Method must be overloaded !\n");
+ return 0.;
+ }
virtual Int_t Compare(const TObject *) const {return 0;}
virtual void GetExternalCovariance(Double_t /*cov*/[15]) const {}
virtual Double_t GetPredictedChi2(const AliCluster *) const {return 0.;}
- virtual
- Int_t PropagateTo(Double_t /*xr*/, Double_t /*x0*/, Double_t /*rho*/) {return 0;}
- virtual Int_t Update(const AliCluster*, Double_t /*chi2*/, UInt_t) {return 0;}
+ virtual Int_t
+ PropagateTo(Double_t /*xr*/, Double_t /*x0*/, Double_t /*rho*/) {return 0;}
+ virtual Int_t PropagateToVertex(Double_t /*d*/=0., Double_t /*x0*/=0.)
+ {return 0;}
+ virtual Int_t
+ Update(const AliCluster*, Double_t /*chi2*/, UInt_t) {return 0;}
static void SetConvConst(Double_t cc) {fgConvConst=cc;}
- Double_t GetConvConst() const {return fgConvConst;}
+ static Double_t GetConvConst() {return fgConvConst;}
static void SetMagneticField(Double_t f) {// f - Magnetic field in T
fgConvConst=100/0.299792458/f;
}
Double_t GetMagneticField() const {return 100/0.299792458/fgConvConst;}
+ // Time integration (S.Radomski@gsi.de)
+ void StartTimeIntegral();
+ void SetIntegratedLength(Double_t l) {fIntegratedLength=l;}
+ void SetIntegratedTimes(const Double_t *times);
+
+ Bool_t IsStartedTimeIntegral() const {return fStartTimeIntegral;}
+ void AddTimeStep(Double_t length);
+ void GetIntegratedTimes(Double_t *times) const;
+ Double_t GetIntegratedTime(Int_t pdg) const;
+ Double_t GetIntegratedLength() const {return fIntegratedLength;}
+ void PrintTime() const;
+
protected:
void SetChi2(Double_t chi2) {fChi2=chi2;}
void SetMass(Double_t mass) {fMass=mass;}
void SetNumberOfClusters(Int_t n) {fN=n;}
-private:
Int_t fLab; // track label
+ Float_t fFakeRatio; // fake ratio
Double_t fChi2; // total chi2 value for this track
Double_t fMass; // mass hypothesis
Int_t fN; // number of associated clusters
-
+ private:
static Double_t fgConvConst; //conversion constant cm -> GeV/c
- ClassDef(AliKalmanTrack,1) // Reconstructed track
+ // variables for time integration (S.Radomski@gsi.de)
+ Bool_t fStartTimeIntegral; // indicator wether integrate time
+ Double_t fIntegratedTime[AliPID::kSPECIES]; // integrated time
+ Double_t fIntegratedLength; // integrated length
+
+ ClassDef(AliKalmanTrack,3) // Reconstructed track
};
#endif
git://git.uio.no / u / mrichter / AliRoot.git / blobdiff