#include "CbmRutherford.h" #include "CbmRutherfordPoint.h" #include "CbmRutherfordGeo.h" #include "CbmRutherfordGeoPar.h" #include "FairVolume.h" #include "FairGeoVolume.h" #include "FairGeoNode.h" #include "FairRootManager.h" #include "FairGeoLoader.h" #include "FairGeoInterface.h" #include "FairRun.h" #include "FairRuntimeDb.h" #include "CbmDetectorList.h" #include "CbmStack.h" #include "TClonesArray.h" #include "TVirtualMC.h" #include using std::cout; using std::endl; CbmRutherford::CbmRutherford() : FairDetector("CbmRutherford", kTRUE, kCbmRutherford), fTrackID(-1), fVolumeID(-1), fPos(), fMom(), fTime(-1.), fLength(-1.), fELoss(-1), fCbmRutherfordPointCollection(new TClonesArray("CbmRutherfordPoint")) { } CbmRutherford::CbmRutherford(const char* name, Bool_t active) : FairDetector(name, active, kCbmRutherford), fTrackID(-1), fVolumeID(-1), fPos(), fMom(), fTime(-1.), fLength(-1.), fELoss(-1), fCbmRutherfordPointCollection(new TClonesArray("CbmRutherfordPoint")) { } CbmRutherford::~CbmRutherford() { if (fCbmRutherfordPointCollection) { fCbmRutherfordPointCollection->Delete(); delete fCbmRutherfordPointCollection; } } void CbmRutherford::Initialize() { FairDetector::Initialize(); FairRuntimeDb* rtdb= FairRun::Instance()->GetRuntimeDb(); CbmRutherfordGeoPar* par=(CbmRutherfordGeoPar*)(rtdb->getContainer("CbmRutherfordGeoPar")); } Bool_t CbmRutherford::ProcessHits(FairVolume* vol) { /** This method is called from the MC stepping */ //Set parameters at entrance of volume. Reset ELoss. if ( gMC->IsTrackEntering() ) { fELoss = 0.; fTime = gMC->TrackTime() * 1.0e09; fLength = gMC->TrackLength(); gMC->TrackPosition(fPos); gMC->TrackMomentum(fMom); } // Sum energy loss for all steps in the active volume fELoss += gMC->Edep(); // Create CbmRutherfordPoint at exit of active volume if ( gMC->IsTrackExiting() || gMC->IsTrackStop() || gMC->IsTrackDisappeared() ) { fTrackID = gMC->GetStack()->GetCurrentTrackNumber(); fVolumeID = vol->getMCid(); if (fELoss == 0. ) { return kFALSE; } AddHit(fTrackID, fVolumeID, TVector3(fPos.X(), fPos.Y(), fPos.Z()), TVector3(fMom.Px(), fMom.Py(), fMom.Pz()), fTime, fLength, fELoss); // Increment number of CbmRutherford det points in TParticle CbmStack* stack = (CbmStack*) gMC->GetStack(); stack->AddPoint(kCbmRutherford); } return kTRUE; } void CbmRutherford::EndOfEvent() { fCbmRutherfordPointCollection->Clear(); } void CbmRutherford::Register() { /** This will create a branch in the output tree called CbmRutherfordPoint, setting the last parameter to kFALSE means: this collection will not be written to the file, it will exist only during the simulation. */ FairRootManager::Instance()->Register("CbmRutherfordPoint", "CbmRutherford", fCbmRutherfordPointCollection, kTRUE); } TClonesArray* CbmRutherford::GetCollection(Int_t iColl) const { if (iColl == 0) { return fCbmRutherfordPointCollection; } else { return NULL; } } void CbmRutherford::Reset() { fCbmRutherfordPointCollection->Clear(); } void CbmRutherford::ConstructGeometry() { /** If you are using the standard ASCII input for the geometry just copy this and use it for your detector, otherwise you can implement here you own way of constructing the geometry. */ FairGeoLoader* geoLoad = FairGeoLoader::Instance(); FairGeoInterface* geoFace = geoLoad->getGeoInterface(); CbmRutherfordGeo* Geo = new CbmRutherfordGeo(); Geo->setGeomFile(GetGeometryFileName()); geoFace->addGeoModule(Geo); Bool_t rc = geoFace->readSet(Geo); if (rc) { Geo->create(geoLoad->getGeoBuilder()); } TList* volList = Geo->getListOfVolumes(); // store geo parameter FairRun* fRun = FairRun::Instance(); FairRuntimeDb* rtdb= FairRun::Instance()->GetRuntimeDb(); CbmRutherfordGeoPar* par=(CbmRutherfordGeoPar*)(rtdb->getContainer("CbmRutherfordGeoPar")); TObjArray* fSensNodes = par->GetGeoSensitiveNodes(); TObjArray* fPassNodes = par->GetGeoPassiveNodes(); TListIter iter(volList); FairGeoNode* node = NULL; FairGeoVolume* aVol=NULL; while( (node = (FairGeoNode*)iter.Next()) ) { aVol = dynamic_cast ( node ); if ( node->isSensitive() ) { fSensNodes->AddLast( aVol ); } else { fPassNodes->AddLast( aVol ); } } par->setChanged(); par->setInputVersion(fRun->GetRunId(),1); ProcessNodes ( volList ); } CbmRutherfordPoint* CbmRutherford::AddHit(Int_t trackID, Int_t detID, TVector3 pos, TVector3 mom, Double_t time, Double_t length, Double_t eLoss) { TClonesArray& clref = *fCbmRutherfordPointCollection; Int_t size = clref.GetEntriesFast(); return new(clref[size]) CbmRutherfordPoint(trackID, detID, pos, mom, time, length, eLoss); } ClassImp(CbmRutherford)