//-----------------------------------------------------------------
// Implementation of the ESD class
// This is the class to deal with during the phisical analysis of data
-//
+// This class is generated directly by the reconstruction methods
// Origin: Iouri Belikov, CERN, Jouri.Belikov@cern.ch
//-----------------------------------------------------------------
ClassImp(AliESD)
-//_______________________________________________________________________
+//______________________________________________________________________________
AliESD::AliESD():
fEventNumber(0),
fRunNumber(0),
fTrigger(0),
fRecoVersion(0),
+ fMagneticField(0),
+ fT0zVertex(0),
+ fPrimaryVertex(),
fTracks("AliESDtrack",15000),
- fCaloTracks("AliESDCaloTrack",500),
fMuonTracks("AliESDMuonTrack",30),
+ fPmdTracks("AliESDPmdTrack",3000),
fV0s("AliESDv0",200),
fCascades("AliESDcascade",20)
{
}
+//______________________________________________________________________________
+AliESD::~AliESD()
+{
+ //
+ // Standard destructor
+ //
+ fTracks.Delete();
+ fMuonTracks.Delete();
+ fPmdTracks.Delete();
+ fV0s.Delete();
+ fCascades.Delete();
+}
+
+//______________________________________________________________________________
+void AliESD::Print(Option_t *) const
+{
+ //
+ // Print header information of the event
+ //
+ Info("Print","ESD run information");
+ printf("Event # %d Run # %d Trigger %ld Magnetic field %f \n",
+ GetEventNumber(),
+ GetRunNumber(),
+ GetTrigger(),
+ GetMagneticField() );
+ printf("Vertex: (%.4f +- %.4f, %.4f +- %.4f, %.4f +- %.4f) cm\n",
+ fPrimaryVertex.GetXv(), fPrimaryVertex.GetXRes(),
+ fPrimaryVertex.GetYv(), fPrimaryVertex.GetYRes(),
+ fPrimaryVertex.GetZv(), fPrimaryVertex.GetZRes());
+ printf("Event from reconstruction version %d \n",fRecoVersion);
+ printf("Number of tracks: \n");
+ printf(" charged %d\n",GetNumberOfTracks());
+ printf(" muon %d\n", GetNumberOfMuonTracks());
+ printf(" pmd %d\n", GetNumberOfPmdTracks());
+ printf(" v0 %d\n", GetNumberOfV0s());
+ printf(" cascades %d\n)", GetNumberOfCascades());
+}