//______________________________________________________________________________
void KVINDRAReconEvent::Print(Option_t * option) const
{
//Print out list of particles in the event.
//If option="ok" only particles with IsOK=kTRUE are included.
cout << GetTitle() << endl; //system
cout << GetName() << endl; //run
cout << "Event number: " << GetNumber() << endl << endl;
cout << "MULTIPLICITY = " << ((KVINDRAReconEvent *) this)->
GetMult(option) << endl << endl;
KVINDRAReconNuc *frag = 0;
while ((frag = ((KVINDRAReconEvent *) this)->GetNextParticle(option))) {
frag->Print();
}
}
void KVINDRAReconEvent::IdentifyEvent()
{
// Performs event identification (see KVReconstructedEvent::IdentifyEvent), and then
// particles stopping in first member of a telescope (GetStatus() == KVReconstructedNucleus::kStatusStopFirstStage) are
// labelled with VEDA ID code kIDCode5 (Zmin)
//
// When CsI identification gives a gamma, we unset the 'analysed' state of all detectors
// in front of the CsI and reanalyse the group in order to reconstruct and identify charged particles
// stopping in them.
//
// Unidentified particles receive the general ID code for non-identified particles (kIDCode14)
KVReconstructedEvent::IdentifyEvent();
KVINDRAReconNuc* d = 0;
int mult = GetMult();
KVUniqueNameList gammaGroups;//list of groups with gammas identified in CsI
ResetGetNextParticle();
while ((d = GetNextParticle())) {
if (d->IsIdentified() && d->GetStatus() == KVReconstructedNucleus::kStatusStopFirstStage) {
d->SetIDCode(kIDCode5); // Zmin
} else if (d->IsIdentified() && d->GetCodes().TestIDCode(kIDCode0)) {
// gamma identified in CsI
// reset analysed state of all detectors in front of CsI
if (d->GetCsI()) {
if (d->GetCsI()->GetAlignedDetectors()) {
TIter next(d->GetCsI()->GetAlignedDetectors());
KVDetector* det = (KVDetector*)next(); //first detector = CsI
while ((det = (KVDetector*)next())) det->SetAnalysed(kFALSE);
gammaGroups.Add(d->GetGroup());
} else {
Error("IdentifyEvent", "particule id gamma, no aligned detectors???");
d->Print();
}
} else {
Error("IdentifyEvent", "particule identified as gamma, has no CsI!!");
d->Print();
}
}
}
// perform secondary reconstruction in groups with detected gammas
int ngamG = gammaGroups.GetEntries();
if (ngamG) {
for (int i = 0; i < ngamG; i++) {
gIndra->AnalyseGroupAndReconstructEvent(this, (KVGroup*)gammaGroups.At(i));
}
}
if (GetMult() > mult) {
/*Info("IdentifyEvent", "Event#%d: Secondary reconstruction (gammas) -> %d new particles",
GetNumber(), GetMult()-mult);*/
// identify new particles generated in secondary reconstruction
KVReconstructedEvent::IdentifyEvent();
ResetGetNextParticle();
while ((d = GetNextParticle())) {
if (d->IsIdentified() && d->GetStatus() == KVReconstructedNucleus::kStatusStopFirstStage) {
d->SetIDCode(kIDCode5); // Zmin
} else if (!d->IsIdentified()) {
d->SetIDCode(kIDCode14);
}
}
/*
for(int i=mult+1; i<=GetMult(); i++){
d = GetParticle(i);
if(d->IsIdentified())
printf("\t%2d: Ring %2d Module %2d Z=%2d A=%3d code=%d\n",i,d->GetRingNumber(),
d->GetModuleNumber(),d->GetZ(),d->GetA(),d->GetCodes().GetVedaIDCode());
else
printf("\t%2d: Ring %2d Module %2d UNIDENTIFIED status=%d\n", i,d->GetRingNumber(),
d->GetModuleNumber(), d->GetStatus());
}
*/
}
}
