CastorSD Class Reference

#include <SimG4CMS/Forward/interface/CastorSD.h>

Inheritance diagram for CastorSD:

Public Member Functions
	CastorSD (const std::string &, const edm::EventSetup &, const SensitiveDetectorCatalog &clg, edm::ParameterSet const &, const SimTrackManager *)
uint32_t	setDetUnitId (const G4Step *step) override
void	setNumberingScheme (CastorNumberingScheme *scheme)
	~CastorSD () override
Public Member Functions inherited from CaloSD
	CaloSD (const std::string &aSDname, const edm::EventSetup &es, const SensitiveDetectorCatalog &clg, edm::ParameterSet const &p, const SimTrackManager *, float timeSlice=1., bool ignoreTkID=false)
void	clear () override
void	clearHits () override
void	DrawAll () override
void	EndOfEvent (G4HCofThisEvent *eventHC) override
void	fillHits (edm::PCaloHitContainer &, const std::string &) override
void	Initialize (G4HCofThisEvent *HCE) override
bool	isItFineCalo (const G4VTouchable *touch)
void	PrintAll () override
bool	ProcessHits (G4GFlashSpot *aSpot, G4TouchableHistory *) override
G4bool	ProcessHits (G4Step *step, G4TouchableHistory *) override
void	reset () override
	~CaloSD () override
Public Member Functions inherited from SensitiveCaloDetector
	SensitiveCaloDetector (const std::string &iname, const edm::EventSetup &es, const SensitiveDetectorCatalog &clg, edm::ParameterSet const &p)
Public Member Functions inherited from SensitiveDetector
void	EndOfEvent (G4HCofThisEvent *eventHC) override
const std::vector< std::string > &	getNames () const
void	Initialize (G4HCofThisEvent *eventHC) override
bool	isCaloSD () const
	SensitiveDetector (const std::string &iname, const edm::EventSetup &es, const SensitiveDetectorCatalog &, edm::ParameterSet const &p, bool calo)
	~SensitiveDetector () override
Public Member Functions inherited from Observer< const BeginOfRun * >
	Observer ()
void	slotForUpdate (const BeginOfRun * iT)
virtual	~Observer ()
Public Member Functions inherited from Observer< const BeginOfEvent * >
	Observer ()
void	slotForUpdate (const BeginOfEvent * iT)
virtual	~Observer ()
Public Member Functions inherited from Observer< const BeginOfTrack * >
	Observer ()
void	slotForUpdate (const BeginOfTrack * iT)
virtual	~Observer ()
Public Member Functions inherited from Observer< const EndOfTrack * >
	Observer ()
void	slotForUpdate (const EndOfTrack * iT)
virtual	~Observer ()
Public Member Functions inherited from Observer< const EndOfEvent * >
	Observer ()
void	slotForUpdate (const EndOfEvent * iT)
virtual	~Observer ()

Protected Member Functions
double	getEnergyDeposit (const G4Step *) override
bool	getFromLibrary (const G4Step *) override
Protected Member Functions inherited from CaloSD
bool	checkHit ()
CaloG4Hit *	createNewHit (const G4Step *, const G4Track *)
virtual void	endEvent ()
virtual double	EnergyCorrected (const G4Step &step, const G4Track *)
virtual bool	filterHit (CaloG4Hit *, double)
double	getAttenuation (const G4Step *aStep, double birk1, double birk2, double birk3) const
virtual uint16_t	getDepth (const G4Step *)
int	getNumberOfHits ()
double	getResponseWt (const G4Track *)
virtual int	getTrackID (const G4Track *)
bool	hitExists (const G4Step *)
void	ignoreRejection ()
virtual void	initEvent (const BeginOfEvent *)
virtual void	initRun ()
void	processHit (const G4Step *step)
void	resetForNewPrimary (const G4Step *)
void	setNumberCheckedHits (int val)
void	setParameterized (bool val)
G4ThreeVector	setToGlobal (const G4ThreeVector &, const G4VTouchable *) const
G4ThreeVector	setToLocal (const G4ThreeVector &, const G4VTouchable *) const
virtual int	setTrackID (const G4Step *)
void	setUseMap (bool val)
void	update (const ::EndOfEvent *) override
void	update (const BeginOfEvent *) override
	This routine will be called when the appropriate signal arrives. More...
void	update (const BeginOfRun *) override
	This routine will be called when the appropriate signal arrives. More...
void	update (const BeginOfTrack *trk) override
	This routine will be called when the appropriate signal arrives. More...
void	update (const EndOfTrack *trk) override
	This routine will be called when the appropriate signal arrives. More...
void	updateHit (CaloG4Hit *)
Protected Member Functions inherited from SensitiveDetector
TrackInformation *	cmsTrackInformation (const G4Track *aTrack)
Local3DPoint	ConvertToLocal3DPoint (const G4ThreeVector &point) const
Local3DPoint	FinalStepPosition (const G4Step *step, coordinates) const
Local3DPoint	InitialStepPosition (const G4Step *step, coordinates) const
Local3DPoint	LocalPostStepPosition (const G4Step *step) const
Local3DPoint	LocalPreStepPosition (const G4Step *step) const
void	NaNTrap (const G4Step *step) const
void	setNames (const std::vector< std::string > &)
Protected Member Functions inherited from Observer< const EndOfEvent * >
virtual void	update (const EndOfEvent *)=0
	This routine will be called when the appropriate signal arrives. More...

Private Member Functions
uint32_t	rotateUnitID (uint32_t, const G4Track *, const CastorShowerEvent &)

Private Attributes
double	energyThresholdSL
G4LogicalVolume *	lvC3EF
G4LogicalVolume *	lvC3HF
G4LogicalVolume *	lvC4EF
G4LogicalVolume *	lvC4HF
G4LogicalVolume *	lvCAST
double	non_compensation_factor
CastorNumberingScheme *	numberingScheme
CastorShowerLibrary *	showerLibrary
bool	useShowerLibrary

Additional Inherited Members
Protected Types inherited from SensitiveDetector
enum	coordinates { WorldCoordinates, LocalCoordinates }
Protected Attributes inherited from CaloSD
CaloG4Hit *	currentHit
CaloHitID	currentID
float	edepositEM
float	edepositHAD
double	eminHit
double	energyCut
G4ThreeVector	entranceLocal
G4ThreeVector	entrancePoint
bool	forceSave
float	incidentEnergy
double	kmaxIon
double	kmaxNeutron
double	kmaxProton
G4ThreeVector	posGlobal
CaloHitID	previousID
bool	suppressHeavy
double	tmaxHit

Detailed Description

Description: Stores hits of Castor in appropriate container

Usage: Used in sensitive detector builder

Definition at line 30 of file CastorSD.h.

Constructor & Destructor Documentation

CastorSD()

CastorSD::CastorSD	(	const std::string &	name,
		const edm::EventSetup &	es,
		const SensitiveDetectorCatalog &	clg,
		edm::ParameterSet const &	p,
		const SimTrackManager *	manager
	)

Definition at line 31 of file CastorSD.cc.

    : CaloSD(name, es, clg, p, manager),
      numberingScheme(nullptr),
      lvC3EF(nullptr),
      lvC3HF(nullptr),
      lvC4EF(nullptr),
      lvC4HF(nullptr),
      lvCAST(nullptr) {
  edm::ParameterSet m_CastorSD = p.getParameter<edm::ParameterSet>("CastorSD");
  useShowerLibrary = m_CastorSD.getParameter<bool>("useShowerLibrary");
  energyThresholdSL = m_CastorSD.getParameter<double>("minEnergyInGeVforUsingSLibrary");
  energyThresholdSL = energyThresholdSL * GeV;  //  Convert GeV => MeV
 
  non_compensation_factor = m_CastorSD.getParameter<double>("nonCompensationFactor");
 
  if (useShowerLibrary) {
    showerLibrary = new CastorShowerLibrary(name, p);
    setParameterized(true);
  }
  setNumberingScheme(new CastorNumberingScheme());
 
  edm::LogVerbatim("ForwardSim") << "********************************************************\n"
                                 << "* Constructing a CastorSD  with name " << GetName() << "\n"
                                 << "* Using Castor Shower Library: " << useShowerLibrary << "\n"
                                 << "********************************************************";
 
  const G4LogicalVolumeStore* lvs = G4LogicalVolumeStore::GetInstance();
  for (auto lv : *lvs) {
    if (strcmp((lv->GetName()).c_str(), "C3EF") == 0) {
      lvC3EF = lv;
    }
    if (strcmp((lv->GetName()).c_str(), "C3HF") == 0) {
      lvC3HF = lv;
    }
    if (strcmp((lv->GetName()).c_str(), "C4EF") == 0) {
      lvC4EF = lv;
    }
    if (strcmp((lv->GetName()).c_str(), "C4HF") == 0) {
      lvC4HF = lv;
    }
    if (strcmp((lv->GetName()).c_str(), "CAST") == 0) {
      lvCAST = lv;
    }
    if (lvC3EF != nullptr && lvC3HF != nullptr && lvC4EF != nullptr && lvC4HF != nullptr && lvCAST != nullptr) {
      break;
    }
  }
  LogDebug("ForwardSim") << "CastorSD:: LogicalVolume pointers\n"
                         << lvC3EF << " for C3EF; " << lvC3HF << " for C3HF; " << lvC4EF << " for C4EF; " << lvC4HF
                         << " for C4HF; " << lvCAST << " for CAST. ";
}

References g4SimHits_cfi::CastorShowerLibrary, energyThresholdSL, edm::ParameterSet::getParameter(), GeV, LogDebug, lvC3EF, lvC3HF, lvC4EF, lvC4HF, lvCAST, Skims_PA_cff::name, non_compensation_factor, AlCaHLTBitMon_ParallelJobs::p, setNumberingScheme(), CaloSD::setParameterized(), showerLibrary, and useShowerLibrary.

~CastorSD()

CastorSD::~CastorSD ( )

override

Definition at line 89 of file CastorSD.cc.

{ delete showerLibrary; }

References showerLibrary.

Member Function Documentation

getEnergyDeposit()

double CastorSD::getEnergyDeposit ( const G4Step *  aStep )

overrideprotectedvirtual

Reimplemented from CaloSD.

Definition at line 93 of file CastorSD.cc.

                                                     {
  double NCherPhot = 0.;
 
  // Get theTrack
  auto const theTrack = aStep->GetTrack();
 
  // preStepPoint information *********************************************
  auto const preStepPoint = aStep->GetPreStepPoint();
  auto const currentPV = preStepPoint->GetPhysicalVolume();
  auto const currentLV = currentPV->GetLogicalVolume();
 
#ifdef debugLog
  edm::LogVerbatim("ForwardSim") << "CastorSD::getEnergyDeposit:"
                                 << "\n CurrentStepNumber , TrackID , ParentID, Particle , VertexPosition ,"
                                 << " LogicalVolumeAtVertex , PV, Time"
                                 << "\n  TRACKINFO: " << theTrack->GetCurrentStepNumber() << " , "
                                 << theTrack->GetTrackID() << " , " << theTrack->GetParentID() << " , "
                                 << theTrack->GetDefinition()->GetParticleName() << " , "
                                 << theTrack->GetVertexPosition() << " , "
                                 << theTrack->GetLogicalVolumeAtVertex()->GetName() << " , " << currentPV->GetName()
                                 << " , " << theTrack->GetGlobalTime();
#endif
 
  // if particle moves from interaction point or "backwards (halo)
  const G4ThreeVector& hit_mom = preStepPoint->GetMomentumDirection();
  const G4ThreeVector& hitPoint = preStepPoint->GetPosition();
  double zint = hitPoint.z();
 
  // Check if theTrack is a muon (if so, DO NOT use Shower Library)
  G4int parCode = theTrack->GetDefinition()->GetPDGEncoding();
  bool isHad = G4TrackToParticleID::isStableHadronIon(theTrack);
 
  double meanNCherPhot = 0;
  G4double charge = preStepPoint->GetCharge();
  // VI: no Cerenkov light from neutrals
  if (0.0 == charge) {
    return meanNCherPhot;
  }
 
  G4double beta = preStepPoint->GetBeta();
  const double bThreshold = 0.67;
  // VI: no Cerenkov light from non-relativistic particles
  if (beta < bThreshold) {
    return meanNCherPhot;
  }
 
  // remember primary particle hitting the CASTOR detector
  TrackInformationExtractor TIextractor;
  TrackInformation& trkInfo = TIextractor(theTrack);
  if (!trkInfo.hasCastorHit()) {
    trkInfo.setCastorHitPID(parCode);
  }
  G4double stepl = aStep->GetStepLength() / cm;
 
  //int castorHitPID = trkInfo.hasCastorHit() ? std::abs(trkInfo.getCastorHitPID())
  //  : std::abs(parCode);
 
  // *************************************************
  // take into account light collection curve for plate
  //      double weight = curve_Castor(nameVolume, preStepPoint);
  //      double edep   = aStep->GetTotalEnergyDeposit() * weight;
  // *************************************************
 
  // *************************************************
  /*    comments for sensitive volumes:      
        C001 ...-... CP06,CBU1 ...-...CALM --- > fibres and bundle 
        for first release of CASTOR
        CASF  --- > quartz plate  for first and second releases of CASTOR  
        GF2Q, GFNQ, GR2Q, GRNQ 
        for tests with my own test geometry of HF (on ask of Gavrilov)
        C3TF, C4TF - for third release of CASTOR
  */
#ifdef debugLog
  edm::LogVerbatim("ForwardSim") << "CastorSD::getEnergyDeposit: for ID=" << theTrack->GetTrackID()
                                 << " LV: " << currentLV->GetName() << " isHad:" << isHad << " pdg=" << parCode
                                 << " castorPID=" << trkInfo.getCastorHitPID() << " sl= " << stepl
                                 << " Edep= " << aStep->GetTotalEnergyDeposit();
#endif
  if (currentLV == lvC3EF || currentLV == lvC4EF || currentLV == lvC3HF || currentLV == lvC4HF) {
    const double nMedium = 1.4925;
    //     double photEnSpectrDL = (1./400.nm-1./700.nm)*10000000.cm/nm; /* cm-1  */
    //     double photEnSpectrDL = 10714.285714;
 
    const double photEnSpectrDE = 1.24; /* see below   */
    /*     E = 2pi*(1./137.)*(eV*cm/370.)/lambda  =     */
    /*       = 12.389184*(eV*cm)/lambda                 */
    /*     Emax = 12.389184*(eV*cm)/400nm*10-7cm/nm  = 3.01 eV     */
    /*     Emin = 12.389184*(eV*cm)/700nm*10-7cm/nm  = 1.77 eV     */
    /*     delE = Emax - Emin = 1.24 eV  --> */
    /*   */
    /* default for Castor nameVolume  == "CASF" or (C3TF & C4TF)  */
 
    const double thFullRefl = 23.; /* 23.dergee */
    const double thFullReflRad = thFullRefl * pi / 180.;
 
    /* default for Castor nameVolume  == "CASF" or (C3TF & C4TF)  */
    const double thFibDir = 45.; /* .dergee */
    /* for test HF geometry volumes:   
       if(nameVolume == "GF2Q" || nameVolume == "GFNQ" ||
       nameVolume == "GR2Q" || nameVolume == "GRNQ")
       thFibDir = 0.0; // .dergee
    */
    const double thFibDirRad = thFibDir * pi / 180.;
 
    // theta of charged particle in LabRF(hit momentum direction):
    double costh =
        hit_mom.z() / sqrt(hit_mom.x() * hit_mom.x() + hit_mom.y() * hit_mom.y() + hit_mom.z() * hit_mom.z());
    if (zint < 0)
      costh = -costh;
    double th = acos(std::min(std::max(costh, double(-1.)), double(1.)));
 
    // just in case (can do bot use):
    if (th < 0.)
      th += twopi;
 
    // theta of cone with Cherenkov photons w.r.t.direction of charged part.:
    double costhcher = 1. / (nMedium * beta);
    double thcher = acos(std::min(std::max(costhcher, double(-1.)), double(1.)));
 
    // diff thetas of charged part. and quartz direction in LabRF:
    double DelFibPart = std::abs(th - thFibDirRad);
 
    // define real distances:
    double d = std::abs(tan(th) - tan(thFibDirRad));
 
    double a = tan(thFibDirRad) + tan(std::abs(thFibDirRad - thFullReflRad));
    double r = tan(th) + tan(std::abs(th - thcher));
 
    // define losses d_qz in cone of full reflection inside quartz direction
    double d_qz;
#ifdef debugLog
    int variant(0);
#endif
    if (DelFibPart > (thFullReflRad + thcher)) {
      d_qz = 0.;
    } else {
      if ((th + thcher) < (thFibDirRad + thFullReflRad) && (th - thcher) > (thFibDirRad - thFullReflRad)) {
        d_qz = 1.;
#ifdef debugLog
        variant = 1;
#endif
      } else {
        if ((thFibDirRad + thFullReflRad) < (th + thcher) && (thFibDirRad - thFullReflRad) > (th - thcher)) {
          d_qz = 0.;
#ifdef debugLog
          variant = 2;
#endif
        } else {
#ifdef debugLog
          variant = 3;
#endif
          // use crossed length of circles(cone projection)
          // dC1/dC2 :
          double arg_arcos = 0.;
          double tan_arcos = 2. * a * d;
          if (tan_arcos != 0.)
            arg_arcos = (r * r - a * a - d * d) / tan_arcos;
          arg_arcos = std::abs(arg_arcos);
          double th_arcos = acos(std::min(std::max(arg_arcos, -1.), 1.));
          d_qz = std::abs(th_arcos / CLHEP::twopi);
        }
      }
    }
 
    // !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
 
    meanNCherPhot = 370. * charge * charge * (1. - 1. / (nMedium * nMedium * beta * beta)) * photEnSpectrDE * stepl;
 
    double scale = isHad ? non_compensation_factor : 1.0;
 
    int poissNCherPhot = std::max(0, (int)G4Poisson(meanNCherPhot * scale));
 
    const double effPMTandTransport = 0.19;
    const double ReflPower = 0.1;
    double proba = d_qz + (1 - d_qz) * ReflPower;
    NCherPhot = poissNCherPhot * effPMTandTransport * proba * 0.307;
#ifdef debugLog
    edm::LogVerbatim("ForwardSim") << " Nph= " << NCherPhot << " Np= " << poissNCherPhot
                                   << " eff= " << effPMTandTransport << " pb= " << proba << " Nmean= " << meanNCherPhot
                                   << " q=" << charge << " beta=" << beta << " nMedium= " << nMedium << " sl= " << stepl
                                   << " Nde=" << photEnSpectrDE;
#endif
  }
  return NCherPhot;
}

References a, funct::abs(), zMuMuMuonUserData::beta, ALCARECOTkAlJpsiMuMu_cff::charge, ztail::d, TrackInformation::getCastorHitPID(), TrackInformation::hasCastorHit(), G4TrackToParticleID::isStableHadronIon(), lvC3EF, lvC3HF, lvC4EF, lvC4HF, SiStripPI::max, min(), non_compensation_factor, pi, alignCSCRings::r, L1EGammaCrystalsEmulatorProducer_cfi::scale, TrackInformation::setCastorHitPID(), mathSSE::sqrt(), and funct::tan().

getFromLibrary()

bool CastorSD::getFromLibrary ( const G4Step *  aStep )

overrideprotectedvirtual

Reimplemented from CaloSD.

Definition at line 359 of file CastorSD.cc.

                                                 {
  //
  //   Method to get hits from the Shower Library
  //
  //   "updateHit" save the Hits to a CaloG4Hit container
  //
 
  auto const theTrack = aStep->GetTrack();
  auto parCode = theTrack->GetDefinition()->GetPDGEncoding();
 
  // remember primary particle hitting the CASTOR detector
  TrackInformationExtractor TIextractor;
  TrackInformation& trkInfo = TIextractor(theTrack);
  if (!trkInfo.hasCastorHit()) {
    trkInfo.setCastorHitPID(parCode);
  }
 
  if (!useShowerLibrary) {
    return false;
  }
 
  // preStepPoint information *********************************************
 
  auto const preStepPoint = aStep->GetPreStepPoint();
  auto const currentPV = preStepPoint->GetPhysicalVolume();
  auto const currentLV = currentPV->GetLogicalVolume();
 
#ifdef debugLog
  edm::LogVerbatim("ForwardSim") << "CastorSD::getFromLibrary: for ID=" << theTrack->GetTrackID()
                                 << " parentID= " << theTrack->GetParentID() << " "
                                 << theTrack->GetDefinition()->GetParticleName() << " LV: " << currentLV->GetName()
                                 << " PV: " << currentPV->GetName() << "\n eta= " << theTrack->GetPosition().eta()
                                 << " phi= " << theTrack->GetPosition().phi()
                                 << " z(cm)= " << theTrack->GetPosition().z() / cm
                                 << " time(ns)= " << theTrack->GetGlobalTime()
                                 << " E(GeV)= " << theTrack->GetTotalEnergy() / GeV;
 
#endif
 
  const G4ThreeVector& hitPoint = preStepPoint->GetPosition();
  const G4ThreeVector& hit_mom = preStepPoint->GetMomentumDirection();
  double zint = hitPoint.z();
  double pz = hit_mom.z();
 
  // Check if theTrack moves backward
  bool backward = (pz * zint < 0.) ? true : false;
 
  // Check that theTrack is above the energy threshold to use Shower Library
  bool aboveThreshold = (theTrack->GetKineticEnergy() > energyThresholdSL) ? true : false;
 
  // Check if theTrack is a muon (if so, DO NOT use Shower Library)
  bool isEM = G4TrackToParticleID::isGammaElectronPositron(parCode);
  bool isHad = G4TrackToParticleID::isStableHadronIon(theTrack);
 
  // angle condition
  double theta_max = M_PI - 3.1305;  // angle in radians corresponding to -5.2 eta
  double R_mom = sqrt(hit_mom.x() * hit_mom.x() + hit_mom.y() * hit_mom.y());
  double theta = atan2(R_mom, std::abs(pz));
  bool angleok = (theta < theta_max) ? true : false;
 
  // OkToUse
  double R = sqrt(hitPoint.x() * hitPoint.x() + hitPoint.y() * hitPoint.y());
  bool dot = (zint < -14450. && R < 45.) ? true : false;
  bool inRange = (zint < -14700. || R > 193.) ? false : true;
  //bool OkToUse = (inRange && !dot) ? true : false;
 
  bool particleWithinShowerLibrary =
      aboveThreshold && (isEM || isHad) && (!backward) && inRange && !dot && angleok && currentLV == lvCAST;
 
#ifdef debugLog
  edm::LogVerbatim("ForwardSim") << "CastorSD::getFromLibrary: ID= " << theTrack->GetTrackID() << " E>E0 "
                                 << aboveThreshold << " isEM " << isEM << " isHad " << isHad << " backword " << backward
                                 << " Ok " << (inRange && !dot) << " angle " << angleok
                                 << " LV: " << currentLV->GetName() << "  " << (currentLV == lvCAST) << " "
                                 << particleWithinShowerLibrary << " Edep= " << aStep->GetTotalEnergyDeposit();
#endif
 
  // Use Castor shower library if energy is above threshold, is not a muon
  // and is not moving backward
  if (!particleWithinShowerLibrary) {
    return false;
  }
 
  // ****    Call method to retrieve hits from the ShowerLibrary   ****
  // always kill primary
  bool isKilled(true);
  CastorShowerEvent hits = showerLibrary->getShowerHits(aStep, isKilled);
 
  int primaryID = setTrackID(aStep);
 
  // Reset entry point for new primary
  resetForNewPrimary(aStep);
 
#ifdef debugLog
  edm::LogVerbatim("ForwardSim") << "CastorSD::getFromLibrary:  " << hits.getNhit() << " hits for " << GetName()
                                 << " from " << theTrack->GetDefinition()->GetParticleName() << " of "
                                 << preStepPoint->GetKineticEnergy() / GeV << " GeV and trackID "
                                 << theTrack->GetTrackID() << " isHad: " << isHad;
#endif
 
  // Scale to correct energy
  double E_track = preStepPoint->GetTotalEnergy();
  double E_SLhit = hits.getPrimE() * CLHEP::GeV;
  double scale = E_track / E_SLhit;
 
  //Non compensation
  if (isHad) {
    scale *= non_compensation_factor;  // if hadronic extend the scale with the non-compensation factor
  }
  //  Loop over hits retrieved from the library
  for (unsigned int i = 0; i < hits.getNhit(); ++i) {
    // Get nPhotoElectrons and set edepositEM / edepositHAD accordingly
    double nPhotoElectrons = hits.getNphotons(i) * scale;
 
    if (isEM) {
      edepositEM = nPhotoElectrons;
      edepositHAD = 0.;
    } else {
      edepositEM = 0.;
      edepositHAD = nPhotoElectrons;
    }
 
    // Get hit position and time
    double time = hits.getTime(i);
 
    // Get hit detID
    unsigned int unitID = hits.getDetID(i);
 
    // Make the detID "rotation" from one sector to another taking into account the
    // sectors of the impinging particle (theTrack) and of the particle that produced
    // the 'hits' retrieved from shower library
    unsigned int rotatedUnitID = rotateUnitID(unitID, theTrack, hits);
    currentID.setID(rotatedUnitID, time, primaryID, 0);
    processHit(aStep);
  }  //  End of loop over hits
  return isKilled;
}

References funct::abs(), CaloSD::currentID, dot(), CaloSD::edepositEM, CaloSD::edepositHAD, energyThresholdSL, funct::false, CastorShowerLibrary::getShowerHits(), GeV, TrackInformation::hasCastorHit(), hfClusterShapes_cfi::hits, mps_fire::i, G4TrackToParticleID::isGammaElectronPositron(), G4TrackToParticleID::isStableHadronIon(), lvCAST, M_PI, non_compensation_factor, CaloSD::processHit(), dttmaxenums::R, CaloSD::resetForNewPrimary(), rotateUnitID(), L1EGammaCrystalsEmulatorProducer_cfi::scale, TrackInformation::setCastorHitPID(), CaloHitID::setID(), CaloSD::setTrackID(), showerLibrary, mathSSE::sqrt(), theta(), ntuplemaker::time, funct::true, and useShowerLibrary.

rotateUnitID()

uint32_t CastorSD::rotateUnitID ( uint32_t  unitID, const G4Track *  track, const CastorShowerEvent &  shower  )

private

Definition at line 297 of file CastorSD.cc.

                                                                                                      {
  // ==============================================================
  //
  //   o   Exploit Castor phi symmetry to return newUnitID for
  //       shower hits based on track phi coordinate
  //
  // ==============================================================
 
  // Get 'track' phi:
  double trackPhi = track->GetPosition().phi();
  if (trackPhi < 0)
    trackPhi += 2 * M_PI;
  // Get phi from primary that gave rise to SL 'shower':
  double showerPhi = shower.getPrimPhi();
  if (showerPhi < 0)
    showerPhi += 2 * M_PI;
  // Delta phi:
 
  //  Find the OctSector for which 'track' and 'shower' belong
  int trackOctSector = (int)(trackPhi / (M_PI / 4));
  int showerOctSector = (int)(showerPhi / (M_PI / 4));
 
  uint32_t newUnitID;
  uint32_t sec = ((unitID >> 4) & 0xF);
  uint32_t complement = (unitID & 0xFFFFFF0F);
 
  // Get 'track' z:
  double trackZ = track->GetPosition().z();
 
  int aux;
  int dSec = 2 * (trackOctSector - showerOctSector);
  if (trackZ > 0)  // Good for revision 1.9 of CastorNumberingScheme
  {
    int sec1 = sec - dSec;
    //    sec -= dSec ;
    if (sec1 < 0)
      sec1 += 16;
    if (sec1 > 15)
      sec1 -= 16;
    sec = (uint32_t)(sec1);
  } else {
    if (dSec < 0)
      sec += 16;
    sec += dSec;
    aux = (int)(sec / 16);
    sec -= aux * 16;
  }
  sec = sec << 4;
  newUnitID = complement | sec;
 
#ifdef debugLog
  if (newUnitID != unitID) {
    LogDebug("ForwardSim") << "\n CastorSD::rotateUnitID:  "
                           << "\n     unitID = " << unitID << "\n  newUnitID = " << newUnitID;
  }
#endif
 
  return newUnitID;
}

References printConversionInfo::aux, CastorShowerEvent::getPrimPhi(), createfilelist::int, LogDebug, M_PI, fileinputsource_cfi::sec, HLT_FULL_cff::track, and reco::btau::trackPhi.

Referenced by getFromLibrary().

setDetUnitId()

uint32_t CastorSD::setDetUnitId ( const G4Step *  step )

overridevirtual

Implements CaloSD.

Definition at line 281 of file CastorSD.cc.

                                                   {
  return (numberingScheme == nullptr ? 0 : numberingScheme->getUnitID(aStep));
}

References CastorNumberingScheme::getUnitID(), and numberingScheme.

setNumberingScheme()

void CastorSD::setNumberingScheme

(

CastorNumberingScheme *

scheme

)

Definition at line 287 of file CastorSD.cc.

                                                               {
  if (scheme != nullptr) {
    edm::LogVerbatim("ForwardSim") << "CastorSD: updates numbering scheme for " << GetName();
    delete numberingScheme;
    numberingScheme = scheme;
  }
}

References numberingScheme, and generator_cfi::scheme.

Referenced by CastorSD().

Member Data Documentation

energyThresholdSL

double CastorSD::energyThresholdSL

private

Definition at line 53 of file CastorSD.h.

Referenced by CastorSD(), and getFromLibrary().

lvC3EF

G4LogicalVolume* CastorSD::lvC3EF

private

Definition at line 49 of file CastorSD.h.

Referenced by CastorSD(), and getEnergyDeposit().

lvC3HF

G4LogicalVolume * CastorSD::lvC3HF

private

Definition at line 49 of file CastorSD.h.

Referenced by CastorSD(), and getEnergyDeposit().

lvC4EF

G4LogicalVolume * CastorSD::lvC4EF

private

Definition at line 49 of file CastorSD.h.

Referenced by CastorSD(), and getEnergyDeposit().

lvC4HF

G4LogicalVolume * CastorSD::lvC4HF

private

Definition at line 49 of file CastorSD.h.

Referenced by CastorSD(), and getEnergyDeposit().

lvCAST

G4LogicalVolume* CastorSD::lvCAST

private

Definition at line 50 of file CastorSD.h.

Referenced by CastorSD(), and getFromLibrary().

non_compensation_factor

double CastorSD::non_compensation_factor

private

Definition at line 54 of file CastorSD.h.

Referenced by CastorSD(), getEnergyDeposit(), and getFromLibrary().

numberingScheme

CastorNumberingScheme* CastorSD::numberingScheme

private

Definition at line 47 of file CastorSD.h.

Referenced by setDetUnitId(), and setNumberingScheme().

showerLibrary

CastorShowerLibrary* CastorSD::showerLibrary

private

Definition at line 48 of file CastorSD.h.

Referenced by CastorSD(), getFromLibrary(), and ~CastorSD().

useShowerLibrary

bool CastorSD::useShowerLibrary

private

Definition at line 52 of file CastorSD.h.

Referenced by CastorSD(), and getFromLibrary().