+void AliTrack::SetParentTrack(AliTrack* t)
+{
+// Set pointer to the parent track.
+ fParent=t;
+}
+///////////////////////////////////////////////////////////////////////////
+AliTrack* AliTrack::GetParentTrack()
+{
+// Provide pointer to the parent track.
+ return fParent;
+}
+///////////////////////////////////////////////////////////////////////////
+void AliTrack::SetProb(Double_t prob)
+{
+// Set hypothesis probability for this track.
+ fProb=prob;
+}
+///////////////////////////////////////////////////////////////////////////
+Float_t AliTrack::GetProb() const
+{
+// Provide the hypothesis probability for this track.
+ return fProb;
+}
+///////////////////////////////////////////////////////////////////////////
+void AliTrack::SetFitDetails(TObject* obj)
+{
+// Enter the object containing the fit details.
+// In case an object to hold fit details was already present, this
+// will be deleted first before the new one is stored.
+// This means that SetFitDetails(0) can be used to just remove the
+// existing object with the fit details.
+// All objects derived from TObject can be entered in this way.
+// Obvious candidates for objects containing detailed fit information
+// are functions (e.g. TF1) and histograms (e.g. TH1F).
+// However, using an AliDevice object provides a very versatile facility
+// to store the parameters of various fit procedures.
+// In such a case the AliDevice can be used to provide the various fit
+// definitions and the corresponding fit parameters can be entered as
+// separate AliSignal objects which are stored as hits to the AliDevice.
+// In addition various functions and histograms can be linked to the
+// various AliSignal instances
+// The latter procedure is based on the original idea of Adam Bouchta.
+//
+// Note : The entered object is owned by this AliTrack instance.
+// As such, a private copy of obj will be stored using the Clone()
+// memberfunction.
+// In case the entered object contains pointers to other objects,
+// the user has to provide the appropriate Clone() memberfunction
+// for the class to which the entered object belongs.
+// An example can be seen from AliTrack::Clone().
+//
+ if (fFit)
+ {
+ delete fFit;
+ fFit=0;
+ }
+
+ if (obj) fFit=obj->Clone();
+}
+///////////////////////////////////////////////////////////////////////////
+TObject* AliTrack::GetFitDetails()
+{
+// Provide the pointer to the object containing the fit details.
+ return fFit;
+}
+///////////////////////////////////////////////////////////////////////////
+void AliTrack::SetTimestamp(AliTimestamp& t)
+{
+// Store the timestamp for this track.
+ if (fTstamp) delete fTstamp;
+ fTstamp=new AliTimestamp(t);
+}
+///////////////////////////////////////////////////////////////////////////
+AliTimestamp* AliTrack::GetTimestamp()
+{
+// Provide the timestamp of this track.
+ return fTstamp;
+}
+///////////////////////////////////////////////////////////////////////////
+void AliTrack::RemoveTimestamp()
+{
+// Remove the timestamp from this track.
+ if (fTstamp)
+ {
+ delete fTstamp;
+ fTstamp=0;
+ }
+}
+///////////////////////////////////////////////////////////////////////////
+Double_t AliTrack::GetDistance(AliPosition* p)
+{
+// Provide distance of the current track to the position p.
+// The error on the result can be obtained as usual by invoking
+// GetResultError() afterwards.
+//
+// The distance will be provided in the unit scale of the AliPosition p.
+// As such it is possible to obtain a correctly computed distance even in case
+// the track parameters have a different unit scale.
+// However, it is recommended to work always with one single unit scale.
+//
+// Note : In case of incomplete information, a distance value of -1 is
+// returned.
+
+ Double_t dist=-1.;
+ fDresult=0.;
+
+ if (!p) return dist;
+
+ // Obtain a defined position on this track
+ AliPosition* rx=fRef;
+ if (!rx) rx=fBegin;
+ if (!rx) rx=fEnd;
+
+ if (!rx) return dist;
+
+ Ali3Vector r0=(Ali3Vector)(*rx);
+
+ Float_t tscale=rx->GetUnitScale();
+ Float_t pscale=p->GetUnitScale();
+ if ((tscale/pscale > 1.1) || (pscale/tscale > 1.1)) r0=r0*(tscale/pscale);
+
+ // Obtain the direction unit vector of this track
+ Double_t vec[3];
+ Double_t err[3];
+ Ali3Vector p1=Get3Momentum();
+ p1.GetVector(vec,"sph");
+ p1.GetErrors(err,"sph");
+ vec[0]=1.;
+ err[0]=0.;
+ p1.SetVector(vec,"sph");
+ p1.SetErrors(err,"sph");
+
+ Ali3Vector q=(Ali3Vector)(*p);
+ Ali3Vector r=q-r0;
+ Ali3Vector d=r.Cross(p1);
+ dist=d.GetNorm();
+ fDresult=d.GetResultError();
+ return dist;
+}
+///////////////////////////////////////////////////////////////////////////
+TObject* AliTrack::Clone(const char* name) const
+{
+// Make a deep copy of the current object and provide the pointer to the copy.
+// This memberfunction enables automatic creation of new objects of the
+// correct type depending on the object type, a feature which may be very useful
+// for containers when adding objects in case the container owns the objects.
+// This feature allows e.g. AliJet to store either AliTrack objects or
+// objects derived from AliTrack via the AddTrack memberfunction, provided
+// these derived classes also have a proper Clone memberfunction.
+
+ AliTrack* trk=new AliTrack(*this);
+ if (name)
+ {
+ if (strlen(name)) trk->SetName(name);
+ }
+ return trk;
+}
+///////////////////////////////////////////////////////////////////////////