#include <HCalSD.h>

Inheritance diagram for HCalSD:

Public Member Functions
virtual double	getEnergyDeposit (G4Step *)

	HCalSD (G4String, const DDCompactView &, const SensitiveDetectorCatalog &, edm::ParameterSet const &, const SimTrackManager *)

virtual bool	ProcessHits (G4Step , G4TouchableHistory )

virtual uint32_t	setDetUnitId (G4Step *step)

void	setNumberingScheme (HcalNumberingScheme *)

virtual	~HCalSD ()

Public Member Functions inherited from CaloSD
	CaloSD (G4String aSDname, const DDCompactView &cpv, const SensitiveDetectorCatalog &clg, edm::ParameterSet const &p, const SimTrackManager *, int tSlice=1, bool ignoreTkID=false)

virtual void	clear ()

virtual void	DrawAll ()

virtual void	EndOfEvent (G4HCofThisEvent *eventHC)

void	fillHits (edm::PCaloHitContainer &, std::string n)

virtual void	Initialize (G4HCofThisEvent *HCE)

virtual void	PrintAll ()

virtual bool	ProcessHits (G4GFlashSpot aSpot, G4TouchableHistory )

virtual	~CaloSD ()

Public Member Functions inherited from SensitiveCaloDetector
	SensitiveCaloDetector (std::string &iname, const DDCompactView &cpv, const SensitiveDetectorCatalog &clg, edm::ParameterSet const &p)

Public Member Functions inherited from SensitiveDetector
virtual void	AssignSD (const std::string &vname)

Local3DPoint	ConvertToLocal3DPoint (const G4ThreeVector &point)

Local3DPoint	FinalStepPosition (G4Step *s, coordinates)

virtual std::vector< std::string >	getNames ()

Local3DPoint	InitialStepPosition (G4Step *s, coordinates)

std::string	nameOfSD ()

void	NaNTrap (G4Step *step)

void	Register ()

	SensitiveDetector (std::string &iname, const DDCompactView &cpv, const SensitiveDetectorCatalog &, edm::ParameterSet const &p)

virtual	~SensitiveDetector ()

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
virtual bool	filterHit (CaloG4Hit *, double)

virtual void	initRun ()

Protected Member Functions inherited from CaloSD
G4bool	checkHit ()

virtual void	clearHits ()

CaloG4Hit *	createNewHit ()

double	getAttenuation (G4Step *aStep, double birk1, double birk2, double birk3)

virtual uint16_t	getDepth (G4Step *)

int	getNumberOfHits ()

double	getResponseWt (G4Track *)

virtual G4bool	getStepInfo (G4Step *aStep)

virtual int	getTrackID (G4Track *)

G4bool	hitExists ()

void	resetForNewPrimary (const G4ThreeVector &, double)

G4ThreeVector	setToGlobal (const G4ThreeVector &, const G4VTouchable *)

G4ThreeVector	setToLocal (const G4ThreeVector &, const G4VTouchable *)

virtual void	update (const BeginOfRun *)
	This routine will be called when the appropriate signal arrives. More...

virtual void	update (const BeginOfEvent *)
	This routine will be called when the appropriate signal arrives. More...

virtual void	update (const BeginOfTrack *trk)
	This routine will be called when the appropriate signal arrives. More...

virtual void	update (const EndOfTrack *trk)
	This routine will be called when the appropriate signal arrives. More...

virtual void	update (const ::EndOfEvent *)

void	updateHit (CaloG4Hit *)

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
std::vector< double >	getDDDArray (const std::string &, const DDsvalues_type &)

void	getFromLibrary (G4Step *step, double weight)

void	getFromParam (G4Step *step, double weight)

void	getHitFibreBundle (G4Step *step, bool type)

void	getHitPMT (G4Step *step)

std::vector< G4String >	getNames (DDFilteredView &)

void	hitForFibre (G4Step *step, double weight)

bool	isItConicalBundle (G4LogicalVolume *)

bool	isItFibre (G4LogicalVolume *)

bool	isItFibre (G4String)

bool	isItHF (G4Step *)

bool	isItHF (G4String)

bool	isItinFidVolume (G4ThreeVector &)

bool	isItPMT (G4LogicalVolume *)

bool	isItScintillator (G4Material *)

bool	isItStraightBundle (G4LogicalVolume *)

double	layerWeight (int, const G4ThreeVector &, int, int)

void	plotHF (G4ThreeVector &pos, bool emType)

void	plotProfile (G4Step *step, const G4ThreeVector &pos, double edep, double time, int id)

void	readWeightFromFile (std::string)

uint32_t	setDetUnitId (int, const G4ThreeVector &, int, int)

int	setTrackID (G4Step *step)

Private Attributes
bool	applyFidCut

double	betaThr

double	birk1

double	birk2

double	birk3

double	deliveredLumi

TH1F *	dist_ [9]

double	eminHitHB

double	eminHitHE

double	eminHitHF

double	eminHitHO

std::vector< G4LogicalVolume * >	fibre1LV

std::vector< G4LogicalVolume * >	fibre2LV

std::vector< G4LogicalVolume * >	fibreLV

std::vector< G4String >	fibreNames

std::vector< double >	gpar

std::vector< int >	hfLevels

std::vector< G4LogicalVolume * >	hfLV

std::vector< G4String >	hfNames

HFShower *	hfshower

TH1F *	hit_ [9]

TH1F *	hzvem

TH1F *	hzvhad

std::vector< double >	layer0wt

std::map< uint32_t, double >	layerWeights

HEDarkening *	m_HEDarkening

HFDarkening *	m_HFDarkening

std::vector< G4Material * >	materials

std::vector< G4String >	matNames

G4int	mumPDG

G4int	mupPDG

HcalNumberingFromDDD *	numberingFromDDD

HcalNumberingScheme *	numberingScheme

std::vector< G4LogicalVolume * >	pmtLV

HFShowerFibreBundle *	showerBundle

HFShowerLibrary *	showerLibrary

HFShowerParam *	showerParam

HFShowerPMT *	showerPMT

bool	testNumber

TH1F *	time_ [9]

bool	useBirk

bool	useFibreBundle

bool	useHF

bool	useLayerWt

bool	useParam

bool	usePMTHit

bool	useShowerLibrary

Additional Inherited Members
Public Types inherited from SensitiveDetector
enum	coordinates { WorldCoordinates, LocalCoordinates }

Protected Attributes inherited from CaloSD
int	checkHits

double	correctT

bool	corrTOFBeam

CaloG4Hit *	currentHit

CaloHitID	currentID

float	edepositEM

float	edepositHAD

double	eminHit

double	eminHitD

G4int	emPDG

double	energyCut

G4ThreeVector	entranceLocal

G4ThreeVector	entrancePoint

G4int	epPDG

bool	forceSave

G4int	gammaPDG

float	incidentEnergy

double	kmaxIon

double	kmaxNeutron

double	kmaxProton

const SimTrackManager *	m_trackManager

G4ThreeVector	posGlobal

G4StepPoint *	preStepPoint

CaloHitID	previousID

int	primIDSaved

bool	runInit

bool	suppressHeavy

G4Track *	theTrack

double	tmaxHit

bool	useMap

Detailed Description

Definition at line 33 of file HCalSD.h.

Constructor & Destructor Documentation

HCalSD::HCalSD	(	G4String	name,
		const DDCompactView &	cpv,
		const SensitiveDetectorCatalog &	clg,
		edm::ParameterSet const &	p,
		const SimTrackManager *	manager
	)

Definition at line 38 of file HCalSD.cc.

References DDFilteredView::addFilter(), applyFidCut, betaThr, birk1, birk2, birk3, deliveredLumi, dist_, eminHitHB, eminHitHE, eminHitHF, eminHitHO, DDSpecificsFilter::equals, fibre1LV, fibre2LV, fibreLV, fibreNames, mergeVDriftHistosByStation::file, DDFilteredView::firstChild(), g, getDDDArray(), SensitiveDetector::getNames(), edm::ParameterSet::getParameter(), edm::ParameterSet::getUntrackedParameter(), gpar, hfLevels, hfLV, hfNames, hfshower, hit_, hzvem, hzvhad, i, edm::Service< T >::isAvailable(), isItFibre(), isItHF(), CaloSD::kmaxIon, CaloSD::kmaxNeutron, CaloSD::kmaxProton, HLT_25ns14e33_v1_cff::labels, layer0wt, testEve_cfg::level, cmsBatch::log, LogDebug, DDFilteredView::logicalPart(), m_HEDarkening, m_HFDarkening, TFileDirectory::make(), DDLogicalPart::material(), materials, matNames, DDFilteredView::mergedSpecifics(), MeV, TFileService::mkdir(), mumPDG, mupPDG, DDName::name(), SensitiveDetector::name, DDBase< N, C >::name(), DDFilteredView::next(), numberingFromDDD, pmtLV, readWeightFromFile(), DDSpecificsFilter::setCriteria(), setNumberingScheme(), showerBundle, showerLibrary, showerParam, showerPMT, AlCaHLTBitMon_QueryRunRegistry::string, CaloSD::suppressHeavy, groupFilesInBlocks::temp, testNumber, time_, indexGen::title, useBirk, useFibreBundle, useHF, useLayerWt, useParam, usePMTHit, useShowerLibrary, and relativeConstraints::value.

                                                                           : 
   CaloSD(name, cpv, clg, p, manager,
          p.getParameter<edm::ParameterSet>("HCalSD").getParameter<int>("TimeSliceUnit"),
          p.getParameter<edm::ParameterSet>("HCalSD").getParameter<bool>("IgnoreTrackID")), 
   numberingFromDDD(0), numberingScheme(0), showerLibrary(0), hfshower(0), 
   showerParam(0), showerPMT(0), showerBundle(0), m_HEDarkening(0),
   m_HFDarkening(0) {
 
   //static SimpleConfigurable<bool>   on1(false, "HCalSD:UseBirkLaw");
   //static SimpleConfigurable<double> bk1(0.013, "HCalSD:BirkC1");
   //static SimpleConfigurable<double> bk2(0.0568,"HCalSD:BirkC2");
   //static SimpleConfigurable<double> bk3(1.75,  "HCalSD:BirkC3");
   // Values from NIM 80 (1970) 239-244: as implemented in Geant3
   //static SimpleConfigurable<bool> on2(true,"HCalSD:UseShowerLibrary");
   edm::ParameterSet m_HC = p.getParameter<edm::ParameterSet>("HCalSD");
   useBirk          = m_HC.getParameter<bool>("UseBirkLaw");
   birk1            = m_HC.getParameter<double>("BirkC1")*(g/(MeV*cm2));
   birk2            = m_HC.getParameter<double>("BirkC2");
   birk3            = m_HC.getParameter<double>("BirkC3");
   useShowerLibrary = m_HC.getParameter<bool>("UseShowerLibrary");
   useParam         = m_HC.getParameter<bool>("UseParametrize");
   testNumber  = m_HC.getParameter<bool>("TestNumberingScheme");
   usePMTHit        = m_HC.getParameter<bool>("UsePMTHits");
   betaThr          = m_HC.getParameter<double>("BetaThreshold");
   eminHitHB        = m_HC.getParameter<double>("EminHitHB")*MeV;
   eminHitHE        = m_HC.getParameter<double>("EminHitHE")*MeV;
   eminHitHO        = m_HC.getParameter<double>("EminHitHO")*MeV;
   eminHitHF        = m_HC.getParameter<double>("EminHitHF")*MeV;
   useFibreBundle   = m_HC.getParameter<bool>("UseFibreBundleHits");
   deliveredLumi    = m_HC.getParameter<double>("DelivLuminosity");
   bool ageingFlagHE= m_HC.getParameter<bool>("HEDarkening");
   bool ageingFlagHF= m_HC.getParameter<bool>("HFDarkening");
   useHF            = m_HC.getUntrackedParameter<bool>("UseHF",true);
   bool forTBH2     = m_HC.getUntrackedParameter<bool>("ForTBH2",false);
   useLayerWt       = m_HC.getUntrackedParameter<bool>("UseLayerWt",false);
   std::string file = m_HC.getUntrackedParameter<std::string>("WtFile","None");
   edm::ParameterSet m_HF  = p.getParameter<edm::ParameterSet>("HFShower");
   applyFidCut             = m_HF.getParameter<bool>("ApplyFiducialCut");
 
 #ifdef DebugLog
   LogDebug("HcalSim") << "***************************************************" 
                       << "\n"
                       << "*                                                 *"
                       << "\n"
                       << "* Constructing a HCalSD  with name " << name << "\n"
                       << "*                                                 *"
                       << "\n"
                       << "***************************************************";
 #endif
   edm::LogInfo("HcalSim") << "HCalSD:: Use of HF code is set to " << useHF
                           << "\nUse of shower parametrization set to "
                           << useParam << "\nUse of shower library is set to " 
                           << useShowerLibrary << "\nUse PMT Hit is set to "
                           << usePMTHit << " with beta Threshold "<< betaThr
                           << "\nUSe of FibreBundle Hit set to "<<useFibreBundle
                           << "\n         Use of Birks law is set to      " 
                           << useBirk << "  with three constants kB = "
                           << birk1 << ", C1 = " << birk2 << ", C2 = " << birk3;
   edm::LogInfo("HcalSim") << "HCalSD:: Suppression Flag " << suppressHeavy
                           << " protons below " << kmaxProton << " MeV,"
                           << " neutrons below " << kmaxNeutron << " MeV and"
                           << " ions below " << kmaxIon << " MeV\n"
                           << "         Threshold for storing hits in HB: "
                           << eminHitHB << " HE: " << eminHitHE << " HO: "
                           << eminHitHO << " HF: " << eminHitHF << "\n"
               << "Delivered luminosity for Darkening " 
               << deliveredLumi << " Flag (HE) " << ageingFlagHE
               << " Flag (HF) " << ageingFlagHF << "\n"
               << "Application of Fiducial Cut " << applyFidCut;
 
   numberingFromDDD = new HcalNumberingFromDDD(name, cpv);
   HcalNumberingScheme* scheme;
   if (testNumber || forTBH2) 
     scheme = dynamic_cast<HcalNumberingScheme*>(new HcalTestNumberingScheme(forTBH2));
   else 
     scheme = new HcalNumberingScheme();
   setNumberingScheme(scheme);
 
   const G4LogicalVolumeStore * lvs = G4LogicalVolumeStore::GetInstance();
   std::vector<G4LogicalVolume *>::const_iterator lvcite;
   G4LogicalVolume* lv;
   std::string attribute, value;
   if (useHF) {
     if (useParam) {
       showerParam = new HFShowerParam(name, cpv, p);
     }  else {
       if (useShowerLibrary) showerLibrary = new HFShowerLibrary(name, cpv, p);
       hfshower  = new HFShower(name, cpv, p, 0);
     }
 
     // HF volume names
     attribute = "Volume";
     value     = "HF";
     DDSpecificsFilter filter0;
     DDValue           ddv0(attribute, value, 0);
     filter0.setCriteria(ddv0, DDSpecificsFilter::equals);
     DDFilteredView fv0(cpv);
     fv0.addFilter(filter0);
     hfNames = getNames(fv0);
     fv0.firstChild();
     DDsvalues_type sv0(fv0.mergedSpecifics());
     std::vector<double> temp =  getDDDArray("Levels",sv0);
     edm::LogInfo("HcalSim") << "HCalSD: Names to be tested for " << attribute 
                             << " = " << value << " has " << hfNames.size() 
                 << " elements";
     for (unsigned int i=0; i < hfNames.size(); ++i) {
       G4String namv = hfNames[i];
       lv            = 0;
       for(lvcite=lvs->begin(); lvcite!=lvs->end(); lvcite++) 
     if((*lvcite)->GetName()==namv) {
       lv = (*lvcite);
       break;
     }
       hfLV.push_back(lv);
       int level = static_cast<int>(temp[i]);
       hfLevels.push_back(level);
       edm::LogInfo("HcalSim") << "HCalSD:  HF[" << i << "] = " << hfNames[i]
                               << " LV " << hfLV[i] << " at level " 
                   << hfLevels[i];
     }
   
     // HF Fibre volume names
     value     = "HFFibre";
     DDSpecificsFilter filter1;
     DDValue           ddv1(attribute,value,0);
     filter1.setCriteria(ddv1, DDSpecificsFilter::equals);
     DDFilteredView fv1(cpv);
     fv1.addFilter(filter1);
     fibreNames = getNames(fv1);
     edm::LogInfo("HcalSim") << "HCalSD: Names to be tested for " << attribute 
                             << " = " << value << ":";
     for (unsigned int i=0; i<fibreNames.size(); ++i) {
       G4String namv = fibreNames[i];
       lv            = 0;
       for (lvcite = lvs->begin(); lvcite != lvs->end(); ++lvcite) {
         if ((*lvcite)->GetName() == namv) {
           lv = (*lvcite);
           break;
         }
       }
       fibreLV.push_back(lv);
       edm::LogInfo("HcalSim") << "HCalSD:  (" << i << ") " << fibreNames[i]
                               << " LV " << fibreLV[i];
     }
   
     // HF PMT volume names
     value     = "HFPMT";
     DDSpecificsFilter filter3;
     DDValue           ddv3(attribute,value,0);
     filter3.setCriteria(ddv3,DDSpecificsFilter::equals);
     DDFilteredView fv3(cpv);
     fv3.addFilter(filter3);
     std::vector<G4String> pmtNames = getNames(fv3);
     edm::LogInfo("HcalSim") << "HCalSD: Names to be tested for " << attribute 
                 << " = " << value << " have " << pmtNames.size() 
                 << " entries";
     for (unsigned int i=0; i<pmtNames.size(); ++i)  {
       G4String namv = pmtNames[i];
       lv            = 0;
       for (lvcite = lvs->begin(); lvcite != lvs->end(); ++lvcite) 
         if ((*lvcite)->GetName() == namv) {
       lv = (*lvcite);
       break;
     }
       pmtLV.push_back(lv);
       edm::LogInfo("HcalSim") << "HCalSD:  (" << i << ") " << pmtNames[i]
                               << " LV " << pmtLV[i];
     }
     if (pmtNames.size() > 0) showerPMT = new HFShowerPMT (name, cpv, p);
   
     // HF Fibre bundles
     value     = "HFFibreBundleStraight";
     DDSpecificsFilter filter4;
     DDValue           ddv4(attribute,value,0);
     filter4.setCriteria(ddv4,DDSpecificsFilter::equals);
     DDFilteredView fv4(cpv);
     fv4.addFilter(filter4);
     std::vector<G4String> fibreNames = getNames(fv4);
     edm::LogInfo("HcalSim") << "HCalSD: Names to be tested for " << attribute
                             << " = " << value << " have " << fibreNames.size()
                             << " entries";
     for (unsigned int i=0; i<fibreNames.size(); ++i) {
       G4String namv = fibreNames[i];
       lv            = 0;
       for (lvcite = lvs->begin(); lvcite != lvs->end(); lvcite++) 
         if ((*lvcite)->GetName() == namv) {
       lv = (*lvcite);
       break;
     }
       fibre1LV.push_back(lv);
       edm::LogInfo("HcalSim") << "HCalSD:  (" << i << ") " << fibreNames[i]
                               << " LV " << fibre1LV[i];
     }
 
     // Geometry parameters for HF
     value     = "HFFibreBundleConical";
     DDSpecificsFilter filter5;
     DDValue           ddv5(attribute,value,0);
     filter5.setCriteria(ddv5,DDSpecificsFilter::equals);
     DDFilteredView fv5(cpv);
     fv5.addFilter(filter5);
     fibreNames = getNames(fv5);
     edm::LogInfo("HcalSim") << "HCalSD: Names to be tested for " << attribute
                 << " = " << value << " have " << fibreNames.size() 
                 << " entries";
     for (unsigned int i=0; i<fibreNames.size(); ++i) {
       G4String namv = fibreNames[i];
       lv            = 0;
       for (lvcite = lvs->begin(); lvcite != lvs->end(); ++lvcite) 
     if ((*lvcite)->GetName() == namv) {
       lv = (*lvcite);
       break;
     }
       fibre2LV.push_back(lv);
       edm::LogInfo("HcalSim") << "HCalSD:  (" << i << ") " << fibreNames[i]
                               << " LV " << fibre2LV[i];
     }
     if (fibre1LV.size() > 0 || fibre2LV.size() > 0) 
       showerBundle = new HFShowerFibreBundle (name, cpv, p);
 
     attribute = "ReadOutName";
     value     = name;
     DDSpecificsFilter filter6;
     DDValue           ddv6(attribute,value,0);
     filter6.setCriteria(ddv6,DDSpecificsFilter::equals);
     DDFilteredView fv6(cpv);
     fv6.addFilter(filter6);
     if (fv6.firstChild()) {
       DDsvalues_type sv(fv6.mergedSpecifics());
       //Special Geometry parameters
       gpar      = getDDDArray("gparHF",sv);
       edm::LogInfo("HFShower") << "HFShowerParam: " << gpar.size() 
                    << " gpar (cm)";
       for (unsigned int ig=0; ig<gpar.size(); ig++)
     edm::LogInfo("HFShower") << "HFShowerParam: gpar[" << ig << "] = "
                  << gpar[ig]/cm << " cm";
     } else {
       edm::LogWarning("HFShower") << "HFShowerParam: cannot get filtered "
                   << " view for " << attribute << " matching " 
                   << name;
     }
   }
 
   //Material list for HB/HE/HO sensitive detectors
   attribute = "ReadOutName";
   DDSpecificsFilter filter2;
   DDValue           ddv2(attribute,name,0);
   filter2.setCriteria(ddv2,DDSpecificsFilter::equals);
   DDFilteredView fv2(cpv);
   fv2.addFilter(filter2);
   bool dodet = fv2.firstChild();
 
   DDsvalues_type sv(fv2.mergedSpecifics());
   //Layer0 Weight
   layer0wt = getDDDArray("Layer0Wt",sv);
   edm::LogInfo("HcalSim") << "HCalSD: " << layer0wt.size() << " Layer0Wt";
   for (unsigned int it=0; it<layer0wt.size(); ++it)
     edm::LogInfo("HcalSim") << "HCalSD: [" << it << "] " << layer0wt[it];
 
   const G4MaterialTable * matTab = G4Material::GetMaterialTable();
   std::vector<G4Material*>::const_iterator matite;
   while (dodet) {
     const DDLogicalPart & log = fv2.logicalPart();
     G4String namx = log.name().name();
     if (!isItHF(namx) && !isItFibre(namx)) {
       bool notIn = true;
       for (unsigned int i=0; i<matNames.size(); ++i) {
         if (!strcmp(matNames[i].c_str(),log.material().name().name().c_str())){
           notIn = false;
           break;
         }
       }
       if (notIn) {
         namx = log.material().name().name();
         matNames.push_back(namx);
         G4Material* mat = nullptr;
         for (matite = matTab->begin(); matite != matTab->end(); ++matite) {
           if ((*matite)->GetName() == namx) {
             mat = (*matite);
             break;
           }
         }
         materials.push_back(mat);
       }
     }
     dodet = fv2.next();
   }
 
   edm::LogInfo("HcalSim") << "HCalSD: Material names for " << attribute 
                           << " = " << name << ":";
   for (unsigned int i=0; i<matNames.size(); ++i)
     edm::LogInfo("HcalSim") << "HCalSD: (" << i << ") " << matNames[i]
                             << " pointer " << materials[i];
 
   mumPDG = mupPDG = 0;
   
   if (useLayerWt) readWeightFromFile(file);
 
   for (int i=0;  i<9; ++i) hit_[i] = time_[i]= dist_[i] = 0;
   hzvem = hzvhad = 0;
 
   if (ageingFlagHE) m_HEDarkening = new HEDarkening();
   if (ageingFlagHF) m_HFDarkening = new HFDarkening();
 #ifdef plotDebug
   edm::Service<TFileService> tfile;
 
   if ( tfile.isAvailable() ) {
     static const char * const labels[] = {"HB", "HE", "HO", "HF Absorber", "HF PMT",
                                           "HF Absorber Long", "HF Absorber Short",
                                           "HF PMT Long", "HF PMT Short"};
     TFileDirectory hcDir = tfile->mkdir("ProfileFromHCalSD");
     char name[20], title[60];
     for (int i=0; i<9; ++i) {
       sprintf (title, "Hit energy in %s", labels[i]);
       sprintf (name, "HCalSDHit%d", i);
       hit_[i] = hcDir.make<TH1F>(name, title, 2000, 0., 2000.);
       sprintf (title, "Energy (MeV)");
       hit_[i]->GetXaxis()->SetTitle(title);
       hit_[i]->GetYaxis()->SetTitle("Hits");
       sprintf (title, "Time of the hit in %s", labels[i]);
       sprintf (name, "HCalSDTime%d", i);
       time_[i] = hcDir.make<TH1F>(name, title, 2000, 0., 2000.);
       sprintf (title, "Time (ns)");
       time_[i]->GetXaxis()->SetTitle(title);
       time_[i]->GetYaxis()->SetTitle("Hits");
       sprintf (title, "Longitudinal profile in %s", labels[i]);
       sprintf (name, "HCalSDDist%d", i);
       dist_[i] = hcDir.make<TH1F>(name, title, 2000, 0., 2000.);
       sprintf (title, "Distance (mm)");
       dist_[i]->GetXaxis()->SetTitle(title);
       dist_[i]->GetYaxis()->SetTitle("Hits");
     }
     if (useHF && (!useParam)) {
       hzvem  = hcDir.make<TH1F>("hzvem", "Longitudinal Profile (EM Part)",330,0.0,1650.0);
       hzvem->GetXaxis()->SetTitle("Longitudinal Profile (EM Part)");
       hzvhad = hcDir.make<TH1F>("hzvhad","Longitudinal Profile (Had Part)",330,0.0,1650.0);
       hzvhad->GetXaxis()->SetTitle("Longitudinal Profile (Hadronic Part)");
     }
   }
 #endif
 }

HCalSD::~HCalSD ( )

virtual

Definition at line 382 of file HCalSD.cc.

References hfshower, m_HEDarkening, m_HFDarkening, numberingFromDDD, numberingScheme, showerBundle, showerLibrary, showerParam, and showerPMT.

                 { 
 
   if (numberingFromDDD) delete numberingFromDDD;
   if (numberingScheme)  delete numberingScheme;
   if (showerLibrary)    delete showerLibrary;
   if (hfshower)         delete hfshower;
   if (showerParam)      delete showerParam;
   if (showerPMT)        delete showerPMT;
   if (showerBundle)     delete showerBundle;
   if (m_HEDarkening)    delete m_HEDarkening;
   if (m_HFDarkening)    delete m_HFDarkening;
 }

Member Function Documentation

bool HCalSD::filterHit	(	CaloG4Hit *	aHit,
		double	time
	)

protectedvirtual

Reimplemented from CaloSD.

Definition at line 624 of file HCalSD.cc.

References eminHitHB, eminHitHE, eminHitHF, eminHitHO, CaloG4Hit::getEnergyDeposit(), CaloG4Hit::getUnitID(), HcalBarrel, HcalEndcap, HcalForward, HcalOuter, dtDQMClient_cfg::threshold, and CaloSD::tmaxHit.

                                                    {
   double threshold=0;
   DetId theId(aHit->getUnitID());
   switch (theId.subdetId()) {
   case HcalBarrel:
     threshold = eminHitHB; break;
   case HcalEndcap:
     threshold = eminHitHE; break;
   case HcalOuter:
     threshold = eminHitHO; break;
   case HcalForward:
     threshold = eminHitHF; break;
   default:
     break;
   }
   return ((time <= tmaxHit) && (aHit->getEnergyDeposit() > threshold));
 }

std::vector< double > HCalSD::getDDDArray	(	const std::string &	str,
		const DDsvalues_type &	sv
	)

private

Definition at line 654 of file HCalSD.cc.

References DDfetch(), DDValue::doubles(), edm::hlt::Exception, LogDebug, and relativeConstraints::value.

Referenced by HCalSD().

                                                                    {
 #ifdef DebugLog
   LogDebug("HcalSim") << "HCalSD:getDDDArray called for " << str;
 #endif
   DDValue value(str);
   if (DDfetch(&sv,value)) {
 #ifdef DebugLog
     LogDebug("HcalSim") << value;
 #endif
     const std::vector<double> & fvec = value.doubles();
     int nval = fvec.size();
     if (nval < 1) {
       edm::LogError("HcalSim") << "HCalSD : # of " << str << " bins " << nval
           << " < 2 ==> illegal";
       throw cms::Exception("Unknown", "HCalSD") << "nval < 2 for array " << str << "\n";
     }
     
     return fvec;
   } else {
     edm::LogError("HcalSim") << "HCalSD :  cannot get array " << str;
     throw cms::Exception("Unknown", "HCalSD") << "cannot get array " << str << "\n";
   }
 }

double HCalSD::getEnergyDeposit ( G4Step * aStep )

virtual

Reimplemented from CaloSD.

Definition at line 499 of file HCalSD.cc.

References birk1, birk2, birk3, HEDarkening::degradation(), deliveredLumi, HLT_25ns14e33_v1_cff::depth, cond::rpcobgas::detid, eta(), CaloSD::getAttenuation(), CaloSD::getResponseWt(), HcalDetId::ietaAbs(), isItScintillator(), TrackInformation::isPrimary(), ke, CaloSD::kmaxIon, CaloSD::kmaxNeutron, CaloSD::kmaxProton, layer0wt, layerWeight(), m_HEDarkening, MeV, phi, setDetUnitId(), CaloSD::suppressHeavy, testNumber, CaloSD::theTrack, HcalTestNumbering::unpackHcalIndex(), useBirk, useLayerWt, histoStyle::weight, and detailsBasic3DVector::z.

                                              {
   double destep = aStep->GetTotalEnergyDeposit();
   double weight = 1;
   G4Track* theTrack = aStep->GetTrack();
 
   const G4VTouchable* touch = aStep->GetPreStepPoint()->GetTouchable();
   int depth = (touch->GetReplicaNumber(0))%10;
   int det   = ((touch->GetReplicaNumber(1))/1000)-3;
   if (depth==0 && (det==0 || det==1)) weight = layer0wt[det];
   if (useLayerWt) {
     int lay   = (touch->GetReplicaNumber(0)/10)%100 + 1;
     G4ThreeVector hitPoint = aStep->GetPreStepPoint()->GetPosition();
     weight = layerWeight(det+3, hitPoint, depth, lay);
   }
 
   if (m_HEDarkening !=0 && det == 1) {
     int lay = (touch->GetReplicaNumber(0)/10)%100 + 1;
     int ieta;
     uint32_t detid = setDetUnitId(aStep);
     if(testNumber) {
       int det, z, depth, eta, phi, lay;
       HcalTestNumbering::unpackHcalIndex(detid,det,z,depth,eta,phi,lay);
       ieta = eta;
     }
     else ieta = HcalDetId(detid).ietaAbs();
 #ifdef DebugLog
     edm::LogInfo("HcalSimDark") << "HCalSD:HE_Darkening >>>  ieta: "<< ieta //<< " vs. ietaAbs(): " << HcalDetId(detid).ietaAbs()
             << "    lay: " << lay-2;
 #endif 
     float dweight = m_HEDarkening->degradation(deliveredLumi,ieta,lay-2);//NB:diff. layer count
     weight *= dweight;
 #ifdef DebugLog
     edm::LogInfo("HcalSimDark") << "HCalSD:         >>> Lumi: " << deliveredLumi
             << "    coefficient = " << dweight;
 #endif  
   }
 
   if (suppressHeavy) {
     TrackInformation * trkInfo = (TrackInformation *)(theTrack->GetUserInformation());
     if (trkInfo) {
       int pdg = theTrack->GetDefinition()->GetPDGEncoding();
       if (!(trkInfo->isPrimary())) {         // Only secondary particles
         double ke = theTrack->GetKineticEnergy()/MeV;
         if ( pdg/1000000000 == 1 && (pdg/10000)%100 > 0 &&
          (pdg/10)%100 > 0    && ke <kmaxIon   ) weight = 0;
         if ((pdg == 2212) && (ke < kmaxProton))     weight = 0;
         if ((pdg == 2112) && (ke < kmaxNeutron))    weight = 0;
 #ifdef DebugLog
         if (weight == 0) 
           edm::LogInfo("HcalSim") << "HCalSD:Ignore Track " 
                                   << theTrack->GetTrackID() << " Type " 
                                   << theTrack->GetDefinition()->GetParticleName()
                                   << " Kinetic Energy " << ke << " MeV";
 #endif
       }
     }
   }
 #ifdef DebugLog
   double weight0 = weight;
 #endif
   if (useBirk) {
     G4Material* mat = aStep->GetPreStepPoint()->GetMaterial();
     if (isItScintillator(mat)) weight *= getAttenuation(aStep, birk1, birk2, birk3);
   }
   double wt1 = getResponseWt(theTrack);
   double wt2 = theTrack->GetWeight();
   /*
   if(wt2 != 1.0) { 
     std::cout << "HCalSD: Detector " << det+3 << " Depth " << depth
           << " weight= " << weight << " wt1= " << wt1 
           << " wt2= " << wt2 << std::endl;
     std::cout << theTrack->GetDefinition()->GetParticleName()
           << " " << theTrack->GetKineticEnergy()
           << " Id=" << theTrack->GetTrackID()
           << " IdP=" << theTrack->GetParentID();
     const G4VProcess* pr = theTrack->GetCreatorProcess();
     if(pr) std::cout << " from  " << pr->GetProcessName();
     std::cout << std::endl;
   }
   */
 #ifdef DebugLog
   edm::LogInfo("HcalSim") << "HCalSD: Detector " << det+3 << " Depth " << depth
                           << " weight " << weight0 << " " << weight << " " << wt1 
               << " " << wt2; 
 #endif
   double edep = weight*wt1*destep;
   if(wt2 > 0.0) { edep *= wt2; }
   return edep;
 }

void HCalSD::getFromLibrary	(	G4Step *	step,
		double	weight
	)

private

Definition at line 770 of file HCalSD.cc.

References CaloSD::checkHit(), CaloSD::createNewHit(), CaloSD::currentHit, CaloSD::currentID, HLT_25ns14e33_v1_cff::depth, CaloSD::edepositEM, CaloSD::edepositHAD, CaloSD::emPDG, CaloSD::epPDG, CaloSD::gammaPDG, HFShowerLibrary::getHits(), GetVolume(), GeV, i, isItinFidVolume(), GetRecoTauVFromDQM_MC_cff::kk, convertSQLiteXML::ok, plotHF(), plotProfile(), CaloSD::posGlobal, CaloSD::preStepPoint, CaloSD::previousID, CaloSD::resetForNewPrimary(), setDetUnitId(), CaloHitID::setID(), setTrackID(), showerLibrary, CaloSD::theTrack, cond::rpcobgas::time, and CaloSD::updateHit().

Referenced by ProcessHits().

                                                          {
   preStepPoint  = aStep->GetPreStepPoint(); 
   theTrack      = aStep->GetTrack();   
   int det       = 5;
   bool ok;
 
   std::vector<HFShowerLibrary::Hit> hits = showerLibrary->getHits(aStep, ok, weight, false);
 
   double etrack    = preStepPoint->GetKineticEnergy();
   int    primaryID = setTrackID(aStep);
 
   // Reset entry point for new primary
   posGlobal = preStepPoint->GetPosition();
   resetForNewPrimary(posGlobal, etrack);
 
   G4int particleCode = theTrack->GetDefinition()->GetPDGEncoding();
   if (particleCode==emPDG || particleCode==epPDG || particleCode==gammaPDG) {
     edepositEM  = 1.*GeV;
     edepositHAD = 0.;
   } else {
     edepositEM  = 0.;
     edepositHAD = 1.*GeV;
   }
 #ifdef DebugLog
   edm::LogInfo("HcalSim") << "HCalSD::getFromLibrary " <<hits.size() 
                           << " hits for " << GetName() << " of " << primaryID 
                           << " with " << theTrack->GetDefinition()->GetParticleName() 
                           << " of " << preStepPoint->GetKineticEnergy()/GeV << " GeV";
 #endif
   for (unsigned int i=0; i<hits.size(); ++i) {
     G4ThreeVector hitPoint = hits[i].position;
     if (isItinFidVolume (hitPoint)) {
       int depth              = hits[i].depth;
       double time            = hits[i].time;
       unsigned int unitID    = setDetUnitId(det, hitPoint, depth);
       currentID.setID(unitID, time, primaryID, 0);
 #ifdef plotDebug
       plotProfile(aStep, hitPoint, 1.0*GeV, time, depth);
       bool emType = false;
       if (particleCode==emPDG || particleCode==epPDG || particleCode==gammaPDG)
     emType = true;
       plotHF(hitPoint,emType);
 #endif
    
       // check if it is in the same unit and timeslice as the previous one
       if (currentID == previousID) {
     updateHit(currentHit);
       } else {
     if (!checkHit()) currentHit = createNewHit();
       }
     }
   }
 
   //Now kill the current track
   if (ok) {
     theTrack->SetTrackStatus(fStopAndKill);
     G4TrackVector tv = *(aStep->GetSecondary());
     for (unsigned int kk=0; kk<tv.size(); ++kk)
       if (tv[kk]->GetVolume() == preStepPoint->GetPhysicalVolume())
         tv[kk]->SetTrackStatus(fStopAndKill);
   }
 }

void HCalSD::getFromParam	(	G4Step *	step,
		double	weight
	)

private

Definition at line 885 of file HCalSD.cc.

References CaloSD::checkHit(), CaloSD::createNewHit(), CaloSD::currentHit, CaloSD::currentID, HLT_25ns14e33_v1_cff::depth, CaloSD::edepositEM, CaloSD::edepositHAD, HFShowerParam::getHits(), GeV, i, plotProfile(), CaloSD::posGlobal, CaloSD::preStepPoint, CaloSD::previousID, setDetUnitId(), CaloHitID::setID(), setTrackID(), showerParam, cond::rpcobgas::time, and CaloSD::updateHit().

Referenced by ProcessHits().

                                                        {
   std::vector<HFShowerParam::Hit> hits = showerParam->getHits(aStep, weight);
   int nHit = static_cast<int>(hits.size());
 
   if (nHit > 0) {
     preStepPoint  = aStep->GetPreStepPoint();
     int primaryID = setTrackID(aStep);
    
     int det   = 5;
 #ifdef DebugLog
     edm::LogInfo("HcalSim") << "HCalSD::getFromParam " << nHit << " hits for " 
                             << GetName() << " of " << primaryID << " with " 
                             <<  aStep->GetTrack()->GetDefinition()->GetParticleName()
                             << " of " << preStepPoint->GetKineticEnergy()/GeV 
                             << " GeV in detector type " << det;
 #endif
     for (int i = 0; i<nHit; ++i) {
       G4ThreeVector hitPoint = hits[i].position;
       int depth              = hits[i].depth;
       double time            = hits[i].time;
       unsigned int unitID    = setDetUnitId(det, hitPoint, depth);
       currentID.setID(unitID, time, primaryID, 0);
       edepositEM             = hits[i].edep*GeV; 
       edepositHAD            = 0.;
 #ifdef plotDebug
       plotProfile(aStep, hitPoint, edepositEM, time, depth);
 #endif
 
       // check if it is in the same unit and timeslice as the previous one
       if (currentID == previousID) {
     updateHit(currentHit);
       } else {
         posGlobal = preStepPoint->GetPosition();
         if (!checkHit()) currentHit = createNewHit();
       }
     }
   }
 }

void HCalSD::getHitFibreBundle	(	G4Step *	step,
		bool	type
	)

private

Definition at line 991 of file HCalSD.cc.

References beta, CaloSD::checkHit(), CaloSD::createNewHit(), CaloSD::currentHit, CaloSD::currentID, TauDecayModes::dec, HLT_25ns14e33_v1_cff::depth, CaloSD::edepositEM, CaloSD::edepositHAD, CaloSD::energyCut, HFShowerFibreBundle::getHits(), HFShowerFibreBundle::getRadius(), HcalNumberingScheme::getUnitID(), GeV, HcalForward, LogDebug, numberingFromDDD, numberingScheme, phi, plotProfile(), CaloSD::posGlobal, CaloSD::preStepPoint, CaloSD::previousID, CaloSD::resetForNewPrimary(), findQualityFiles::rr, CaloHitID::setID(), showerBundle, CaloSD::theTrack, cond::rpcobgas::time, tmp, HcalNumberingFromDDD::unitID(), and CaloSD::updateHit().

Referenced by ProcessHits().

                                                         {
   preStepPoint = aStep->GetPreStepPoint();
   theTrack     = aStep->GetTrack();
   double edep  = showerBundle->getHits(aStep, type);
 
   if (edep >= 0) {
     double etrack    = preStepPoint->GetKineticEnergy();
     int    primaryID = 0;
     if (etrack >= energyCut) {
       primaryID    = theTrack->GetTrackID();
     } else {
       primaryID    = theTrack->GetParentID();
       if (primaryID == 0) primaryID = theTrack->GetTrackID();
     }
     // Reset entry point for new primary
     posGlobal = preStepPoint->GetPosition();
     resetForNewPrimary(posGlobal, etrack);
 
     //
     int    det      = static_cast<int>(HcalForward);
     G4ThreeVector hitPoint = preStepPoint->GetPosition();   
     double rr       = (hitPoint.x()*hitPoint.x() + hitPoint.y()*hitPoint.y());
     double phi      = (rr == 0. ? 0. :atan2(hitPoint.y(),hitPoint.x()));
     double etaR     = showerBundle->getRadius();
     int depth       = 1;
     if (etaR < 0) {
       depth         = 2;
       etaR          =-etaR;
     }
     if (hitPoint.z() < 0) etaR =-etaR;
 #ifdef DebugLog
     LogDebug("HcalSim") << "HCalSD::Hit for Detector " << det << " etaR "
             << etaR << " phi " << phi/deg << " depth " <<depth;
 #endif
     double time = (aStep->GetPostStepPoint()->GetGlobalTime());
     uint32_t unitID = 0;
     if (numberingFromDDD) {
       HcalNumberingFromDDD::HcalID tmp = numberingFromDDD->unitID(det,etaR,phi,depth,1);
       if (numberingScheme) unitID = numberingScheme->getUnitID(tmp);
     }
     if (type) currentID.setID(unitID, time, primaryID, 3);
     else      currentID.setID(unitID, time, primaryID, 2);
 
     edepositHAD = aStep->GetTotalEnergyDeposit();
     edepositEM  =-edepositHAD + (edep*GeV);
 #ifdef plotDebug
     plotProfile(aStep, hitPoint, edep*GeV, time, depth);
 #endif
 #ifdef DebugLog
     double beta = preStepPoint->GetBeta();
     LogDebug("HcalSim") << "HCalSD::getHitFibreBundle 1 hit for " << GetName() 
                         << " of " << primaryID << " with " 
                         << theTrack->GetDefinition()->GetParticleName()
                         << " of " << preStepPoint->GetKineticEnergy()/GeV 
                         << " GeV with velocity " << beta << " UnitID "
                         << std::hex << unitID << std::dec;
 #endif
     // check if it is in the same unit and timeslice as the previous one
     if (currentID == previousID) updateHit(currentHit);
     else if (!checkHit()) currentHit = createNewHit();
   } // non-zero energy deposit
 }

void HCalSD::getHitPMT ( G4Step * step )

private

Definition at line 924 of file HCalSD.cc.

References beta, CaloSD::checkHit(), CaloSD::createNewHit(), CaloSD::currentHit, CaloSD::currentID, TauDecayModes::dec, HLT_25ns14e33_v1_cff::depth, CaloSD::edepositEM, CaloSD::edepositHAD, CaloSD::energyCut, HFShowerPMT::getHits(), HFShowerPMT::getRadius(), HcalNumberingScheme::getUnitID(), GeV, HcalForward, LogDebug, numberingFromDDD, numberingScheme, phi, plotProfile(), CaloSD::posGlobal, CaloSD::preStepPoint, CaloSD::previousID, CaloSD::resetForNewPrimary(), findQualityFiles::rr, CaloHitID::setID(), showerPMT, CaloSD::theTrack, cond::rpcobgas::time, tmp, HcalNumberingFromDDD::unitID(), and CaloSD::updateHit().

Referenced by ProcessHits().

                                       {
 
   preStepPoint = aStep->GetPreStepPoint();
   theTrack     = aStep->GetTrack();
   double edep  = showerPMT->getHits(aStep);
 
   if (edep >= 0) {
     double etrack    = preStepPoint->GetKineticEnergy();
     int    primaryID = 0;
     if (etrack >= energyCut) {
       primaryID    = theTrack->GetTrackID();
     } else {
       primaryID    = theTrack->GetParentID();
       if (primaryID == 0) primaryID = theTrack->GetTrackID();
     }
     // Reset entry point for new primary
     posGlobal = preStepPoint->GetPosition();
     resetForNewPrimary(posGlobal, etrack);
 
     //
     int    det      = static_cast<int>(HcalForward);
     G4ThreeVector hitPoint = preStepPoint->GetPosition();   
     double rr       = (hitPoint.x()*hitPoint.x() + hitPoint.y()*hitPoint.y());
     double phi      = (rr == 0. ? 0. :atan2(hitPoint.y(),hitPoint.x()));
     double etaR     = showerPMT->getRadius();
     int depth       = 1;
     if (etaR < 0) {
       depth         = 2;
       etaR          =-etaR;
     }
     if (hitPoint.z() < 0) etaR =-etaR;
 #ifdef DebugLog
     edm::LogInfo("HcalSim") << "HCalSD::Hit for Detector " << det << " etaR "
                             << etaR << " phi " << phi/deg << " depth " <<depth;
 #endif
     double time = (aStep->GetPostStepPoint()->GetGlobalTime());
     uint32_t unitID = 0;
     if (numberingFromDDD) {
       HcalNumberingFromDDD::HcalID tmp = numberingFromDDD->unitID(det,etaR,phi,
                                   depth,1);
       if (numberingScheme) unitID = numberingScheme->getUnitID(tmp);
     }
     currentID.setID(unitID, time, primaryID, 1);
 
     edepositHAD = aStep->GetTotalEnergyDeposit();
     edepositEM  =-edepositHAD + (edep*GeV);
 #ifdef plotDebug
     plotProfile(aStep, hitPoint, edep*GeV, time, depth);
 #endif
 #ifdef DebugLog
     double beta = preStepPoint->GetBeta();
     LogDebug("HcalSim") << "HCalSD::getHitPMT 1 hit for " << GetName() 
                         << " of " << primaryID << " with " 
                         << theTrack->GetDefinition()->GetParticleName()
                         << " of " << preStepPoint->GetKineticEnergy()/GeV 
                         << " GeV with velocity " << beta << " UnitID "
                         << std::hex << unitID << std::dec;
 #endif
     // check if it is in the same unit and timeslice as the previous one
     if      (currentID == previousID) {
       updateHit(currentHit);
     } else {
       if (!checkHit()) currentHit = createNewHit();
     }
   }
 }

std::vector< G4String > HCalSD::getNames ( DDFilteredView & fv )

private

Definition at line 679 of file HCalSD.cc.

References DDFilteredView::firstChild(), i, cmsBatch::log, DDFilteredView::logicalPart(), DDName::name(), DDBase< N, C >::name(), DDFilteredView::next(), convertSQLiteXML::ok, and tmp.

                                                        {
 
   std::vector<G4String> tmp;
   bool dodet = fv.firstChild();
   while (dodet) {
     const DDLogicalPart & log = fv.logicalPart();
     bool ok = true;
 
     for (unsigned int i=0; i<tmp.size(); ++i) {
       if (!strcmp(tmp[i].c_str(), log.name().name().c_str())) {
         ok = false;
         break;
       }
     }
     if (ok) tmp.push_back(log.name().name());
     dodet = fv.next();
   }
   return tmp;
 }

void HCalSD::hitForFibre	(	G4Step *	step,
		double	weight
	)

private

Definition at line 833 of file HCalSD.cc.

References CaloSD::checkHit(), CaloSD::createNewHit(), CaloSD::currentHit, CaloSD::currentID, HLT_25ns14e33_v1_cff::depth, CaloSD::edepositEM, CaloSD::edepositHAD, CaloSD::emPDG, CaloSD::epPDG, CaloSD::gammaPDG, HFShower::getHits(), GeV, hfshower, i, isItinFidVolume(), plotHF(), plotProfile(), CaloSD::posGlobal, CaloSD::preStepPoint, CaloSD::previousID, setDetUnitId(), CaloHitID::setID(), setTrackID(), CaloSD::theTrack, cond::rpcobgas::time, and CaloSD::updateHit().

Referenced by ProcessHits().

                                                       { // if not ParamShower
 
   preStepPoint  = aStep->GetPreStepPoint();
   theTrack      = aStep->GetTrack();
   int primaryID = setTrackID(aStep);
 
   int det   = 5;
   std::vector<HFShower::Hit> hits = hfshower->getHits(aStep, weight);
 
   G4int particleCode = theTrack->GetDefinition()->GetPDGEncoding();
   if (particleCode==emPDG || particleCode==epPDG || particleCode==gammaPDG) {
     edepositEM  = 1.*GeV;
     edepositHAD = 0.;
   } else {
     edepositEM  = 0.;
     edepositHAD = 1.*GeV;
   }
  
 #ifdef DebugLog
   edm::LogInfo("HcalSim") << "HCalSD::hitForFibre " << hits.size() 
      << " hits for " << GetName() << " of " << primaryID 
      << " with " << theTrack->GetDefinition()->GetParticleName() 
      << " of " << preStepPoint->GetKineticEnergy()/GeV 
      << " GeV in detector type " << det;
 #endif
   if (hits.size() > 0) {
     for (unsigned int i=0; i<hits.size(); ++i) {
       G4ThreeVector hitPoint = hits[i].position;
       if (isItinFidVolume (hitPoint)) {
     int depth              = hits[i].depth;
     double time            = hits[i].time;
     unsigned int unitID = setDetUnitId(det, hitPoint, depth);
     currentID.setID(unitID, time, primaryID, 0);
 #ifdef plotDebug
     plotProfile(aStep, hitPoint, edepositEM, time, depth);
     bool emType = false;
     if (particleCode==emPDG || particleCode==epPDG || particleCode==gammaPDG)
       emType = true;
     plotHF(hitPoint,emType);
 #endif
     // check if it is in the same unit and timeslice as the previous one
     if (currentID == previousID) {
       updateHit(currentHit);
     } else {
       posGlobal = preStepPoint->GetPosition();
       if (!checkHit()) currentHit = createNewHit();
     }
       }
     }
   }
 }

void HCalSD::initRun ( )

protectedvirtual

Reimplemented from CaloSD.

Definition at line 610 of file HCalSD.cc.

References hfshower, HFShower::initRun(), HFShowerParam::initRun(), HFShowerLibrary::initRun(), LogDebug, mumPDG, mupPDG, showerLibrary, and showerParam.

                      {
   G4ParticleTable * theParticleTable = G4ParticleTable::GetParticleTable();
   G4String          particleName;
   mumPDG = theParticleTable->FindParticle(particleName="mu-")->GetPDGEncoding();
   mupPDG = theParticleTable->FindParticle(particleName="mu+")->GetPDGEncoding();
 #ifdef DebugLog
   LogDebug("HcalSim") << "HCalSD: Particle code for mu- = " << mumPDG
                           << " for mu+ = " << mupPDG;
 #endif
   if (showerLibrary) showerLibrary->initRun(theParticleTable);
   if (showerParam)   showerParam->initRun(theParticleTable);
   if (hfshower)      hfshower->initRun(theParticleTable);
 }

bool HCalSD::isItConicalBundle ( G4LogicalVolume * lv )

private

Definition at line 741 of file HCalSD.cc.

References fibre2LV.

Referenced by ProcessHits().

                                                    {
   std::vector<G4LogicalVolume*>::const_iterator ite = fibre2LV.begin();
   for (; ite != fibre2LV.end(); ++ite) if (lv == *ite) return true;
   return false;
 }

bool HCalSD::isItFibre ( G4LogicalVolume * lv )

private

Definition at line 717 of file HCalSD.cc.

References fibreLV.

Referenced by HCalSD(), and ProcessHits().

                                            {
   std::vector<G4LogicalVolume*>::const_iterator ite = fibreLV.begin();
   for (; ite != fibreLV.end(); ++ite) if (lv == *ite) return true;
   return false;
 }

bool HCalSD::isItFibre ( G4String name )

private

Definition at line 723 of file HCalSD.cc.

References fibreNames.

                                      {
   std::vector<G4String>::const_iterator it = fibreNames.begin();
   for (; it != fibreNames.end(); ++it) if (name == *it) return true;
   return false;
 }

bool HCalSD::isItHF ( G4Step * aStep )

private

Definition at line 699 of file HCalSD.cc.

References hfLevels, hfLV, and hfNames.

Referenced by HCalSD(), and ProcessHits().

                                   {
   const G4VTouchable* touch = aStep->GetPreStepPoint()->GetTouchable();
   int levels = (touch->GetHistoryDepth()) + 1;
   for (unsigned int it=0; it < hfNames.size(); ++it) {
     if (levels >= hfLevels[it]) {
       G4LogicalVolume* lv = touch->GetVolume(levels-hfLevels[it])->GetLogicalVolume();
       if (lv == hfLV[it]) return true;
     }
   }
   return false;
 }

bool HCalSD::isItHF ( G4String name )

private

Definition at line 711 of file HCalSD.cc.

References hfNames.

                                   {
   std::vector<G4String>::const_iterator it = hfNames.begin();
   for (; it != hfNames.end(); ++it) if (name == *it) return true;
   return false;
 }

bool HCalSD::isItinFidVolume ( G4ThreeVector & hitPoint )

private

Definition at line 753 of file HCalSD.cc.

References applyFidCut, archive::flag, and HFFibreFiducial::PMTNumber().

Referenced by getFromLibrary(), and hitForFibre().

                                                      {
   bool flag = true;
   if (applyFidCut) {
     int npmt = HFFibreFiducial:: PMTNumber(hitPoint);
 #ifdef DebugLog
     edm::LogInfo("HcalSim") << "HCalSD::isItinFidVolume:#PMT= " << npmt 
                 << " for hit point " << hitPoint;
 #endif
     if (npmt <= 0) flag = false;
   }
 #ifdef DebugLog
     edm::LogInfo("HcalSim") << "HCalSD::isItinFidVolume: point " << hitPoint
                 << " return flag " << flag;
 #endif
   return flag;
 }

bool HCalSD::isItPMT ( G4LogicalVolume * lv )

private

Definition at line 729 of file HCalSD.cc.

References pmtLV.

Referenced by ProcessHits().

                                          {
   std::vector<G4LogicalVolume*>::const_iterator ite = pmtLV.begin();
   for (; ite != pmtLV.end(); ++ite) if (lv == *ite) return true;
   return false;
 }

bool HCalSD::isItScintillator ( G4Material * mat )

private

Definition at line 747 of file HCalSD.cc.

References materials.

Referenced by getEnergyDeposit().

                                               {
   std::vector<G4Material*>::const_iterator ite = materials.begin();
   for (; ite != materials.end(); ++ite) if (mat == *ite) return true;
   return false;
 }

bool HCalSD::isItStraightBundle ( G4LogicalVolume * lv )

private

Definition at line 735 of file HCalSD.cc.

References fibre1LV.

Referenced by ProcessHits().

                                                     {
   std::vector<G4LogicalVolume*>::const_iterator ite = fibre1LV.begin();
   for (; ite != fibre1LV.end(); ++ite) if (lv == *ite) return true;
   return false;
 }

double HCalSD::layerWeight	(	int	det,
		const G4ThreeVector &	pos,
		int	depth,
		int	lay
	)

private

Definition at line 1100 of file HCalSD.cc.

References DebugLog, TauDecayModes::dec, HcalNumberingFromDDD::HcalID::etaR, HcalNumberingFromDDD::HcalID::lay, layerWeights, numberingFromDDD, HcalTestNumbering::packHcalIndex(), HcalNumberingFromDDD::HcalID::phis, HcalNumberingFromDDD::HcalID::subdet, tmp, HcalNumberingFromDDD::unitID(), and HcalNumberingFromDDD::HcalID::zside.

Referenced by getEnergyDeposit().

                                                                                 { 
 
   double wt = 1.;
   if (numberingFromDDD) {
     //get the ID's as eta, phi, depth, ... indices
     HcalNumberingFromDDD::HcalID tmp = numberingFromDDD->unitID(det, pos, 
                                 depth, lay);
     uint32_t id = HcalTestNumbering::packHcalIndex(tmp.subdet, tmp.zside, 1,
                                                    tmp.etaR, tmp.phis,tmp.lay);
     std::map<uint32_t,double>::const_iterator ite = layerWeights.find(id);
     if (ite != layerWeights.end()) wt = ite->second;
 #ifdef DebugLog
     edm::LogInfo("HcalSim") << "HCalSD::layerWeight: ID " << std::hex << id 
                             << std::dec << " (" << tmp.subdet << "/"  
                             << tmp.zside << "/1/" << tmp.etaR << "/" 
                             << tmp.phis << "/"  << tmp.lay << ") Weight " <<wt;
 #endif
   }
   return wt;
 }

void HCalSD::plotHF	(	G4ThreeVector &	pos,
		bool	emType
	)

private

Definition at line 1168 of file HCalSD.cc.

References funct::abs(), gpar, hzvem, and hzvhad.

Referenced by getFromLibrary(), and hitForFibre().

                                                         {
   double zv  = std::abs(hitPoint.z()) - gpar[4];
   if (emType) {
     if (hzvem  != 0) hzvem->Fill(zv);
   } else {
     if (hzvhad != 0) hzvhad->Fill(zv);
   }
 }

void HCalSD::plotProfile	(	G4Step *	step,
		const G4ThreeVector &	pos,
		double	edep,
		double	time,
		int	id
	)

private

Definition at line 1121 of file HCalSD.cc.

References funct::abs(), HLT_25ns14e33_v1_cff::depth, dist_, newFWLiteAna::found, hit_, customizeTrackingMonitorSeedNumber::idx, cuy::ii, LogDebug, gen::n, SensitiveDetector::name, cond::rpcobgas::time, and time_.

Referenced by getFromLibrary(), getFromParam(), getHitFibreBundle(), getHitPMT(), hitForFibre(), and ProcessHits().

                                               { 
 
   const G4VTouchable* touch = aStep->GetPreStepPoint()->GetTouchable();
   static G4String modName[8] = {"HEModule", "HVQF" , "HBModule", "MBAT",
                                 "MBBT"    , "MBBTC", "MBBT_R1P", "MBBT_R1M"};
   G4ThreeVector local;
   bool found=false;
   double depth=-2000;
   int idx = 4;
   for (int n=0; n<touch->GetHistoryDepth(); ++n) {
     G4String name = touch->GetVolume(n)->GetName();
 #ifdef DebugLog
     LogDebug("HcalSim") << "plotProfile Depth " << n << " Name " << name;
 #endif
     for (unsigned int ii=0; ii<8; ++ii) {
       if (name == modName[ii]) {
     found = true;
     int dn = touch->GetHistoryDepth() - n;
     local = touch->GetHistory()->GetTransform(dn).TransformPoint(global);
     if      (ii == 0) {depth = local.z() - 4006.5; idx = 1;}
     else if (ii == 1) {depth = local.z() + 825.0;  idx = 3;}
     else if (ii == 2) {depth = local.x() - 1775.;  idx = 0;}
     else              {depth = local.y() + 15.;    idx = 2;}
     break;
       }
     }
     if (found) break;
   }
   if (!found) depth = std::abs(global.z()) - 11500;
 #ifdef DebugLog
   LogDebug("HcalSim") << "plotProfile Found " << found << " Global " << global
                       << " Local " << local << " depth " << depth << " ID " 
               << id << " EDEP " << edep << " Time " << time;
 #endif
   if (hit_[idx]  != 0) hit_[idx]->Fill(edep);
   if (time_[idx] != 0) time_[idx]->Fill(time,edep);
   if (dist_[idx] != 0) dist_[idx]->Fill(depth,edep);
   int jd = 2*idx + id - 7;
   if (jd >= 0 && jd < 4) {
     jd += 5;
     if (hit_[jd]  != 0) hit_[jd]->Fill(edep);
     if (time_[jd] != 0) time_[jd]->Fill(time,edep);
     if (dist_[jd] != 0) dist_[jd]->Fill(depth,edep);
   }
 }

bool HCalSD::ProcessHits	(	G4Step *	aStep,
		G4TouchableHistory *
	)

virtual

Reimplemented from CaloSD.

Definition at line 395 of file HCalSD.cc.

References funct::abs(), CaloSD::createNewHit(), CaloSD::currentHit, HFDarkening::degradation(), deliveredLumi, HFDarkening::dose(), CaloSD::edepositEM, CaloSD::edepositHAD, getFromLibrary(), getFromParam(), getHitFibreBundle(), getHitPMT(), CaloSD::getNumberOfHits(), CaloSD::getStepInfo(), CaloSD::hitExists(), hitForFibre(), i, HFDarkening::int_lumi(), isItConicalBundle(), isItFibre(), isItHF(), isItPMT(), isItStraightBundle(), LogDebug, m_HFDarkening, mumPDG, mupPDG, SensitiveDetector::NaNTrap(), NULL, plotProfile(), alignCSCRings::r, showerBundle, showerPMT, useFibreBundle, useParam, usePMTHit, useShowerLibrary, histoStyle::weight, and detailsBasic3DVector::z.

                                                               {
 
   NaNTrap( aStep ) ;
   
   if (aStep == NULL) {
     return true;
   } else {
     G4LogicalVolume* lv =
       aStep->GetPreStepPoint()->GetPhysicalVolume()->GetLogicalVolume();
     G4String nameVolume = lv->GetName();
     if (isItHF(aStep)) {
       G4int parCode = aStep->GetTrack()->GetDefinition()->GetPDGEncoding();
       double weight(1.0);
       if (m_HFDarkening != 0) {
     G4ThreeVector hitPoint = aStep->GetPreStepPoint()->GetPosition();
     double r = hitPoint.perp()/CLHEP::cm;
     double z = std::abs(hitPoint.z())/CLHEP::cm;
     float dose_acquired = 0.;
     if (z>=1100 && z <= 1300) {
       int hfZLayer = (int)((z - 1100)/20);
       if (hfZLayer > 9) hfZLayer = 9;
       float normalized_lumi = m_HFDarkening->int_lumi(deliveredLumi);
       for (int i = hfZLayer; i <= 9; ++i) {
         dose_acquired = m_HFDarkening->dose(i,r);
         weight *= m_HFDarkening->degradation(normalized_lumi*dose_acquired);
       }
     }
 #ifdef DebugLog
     LogDebug("HcalSim") << "HCalSD: HFLumiDarkening at r = " << r 
                 << ", z = " << z << " Dose " << dose_acquired 
                 << " weight " << weight;
 #endif
       }
       if (useParam) {
 #ifdef DebugLog
         LogDebug("HcalSim") << "HCalSD: " << getNumberOfHits()
                 << " hits from parametrization in " << nameVolume 
                 << " for Track " << aStep->GetTrack()->GetTrackID()
                 <<" (" << aStep->GetTrack()->GetDefinition()->GetParticleName() 
                 <<")";
 #endif
         getFromParam(aStep, weight);
 #ifdef DebugLog
         LogDebug("HcalSim") << "HCalSD: " << getNumberOfHits() 
                 << " hits afterParamS*";
 #endif 
       } else {
         bool notaMuon = true;
         if (parCode == mupPDG || parCode == mumPDG ) notaMuon = false;
         if (useShowerLibrary && notaMuon) {
 #ifdef DebugLog
           LogDebug("HcalSim") << "HCalSD: Starts shower library from " 
                               << nameVolume << " for Track " 
                               << aStep->GetTrack()->GetTrackID() << " ("
                               << aStep->GetTrack()->GetDefinition()->GetParticleName() << ")";
 #endif
           getFromLibrary(aStep, weight);
         } else if (isItFibre(lv)) {
 #ifdef DebugLog
           LogDebug("HcalSim") << "HCalSD: Hit at Fibre in " << nameVolume 
                               << " for Track " 
                               << aStep->GetTrack()->GetTrackID() <<" ("
                               << aStep->GetTrack()->GetDefinition()->GetParticleName() << ")";
 #endif
           hitForFibre(aStep, weight);
         }
       }
     } else if (isItPMT(lv)) {
 #ifdef DebugLog
       LogDebug("HcalSim") << "HCalSD: Hit from PMT parametrization from " 
                           <<  nameVolume << " for Track " 
                           << aStep->GetTrack()->GetTrackID() << " ("
                           << aStep->GetTrack()->GetDefinition()->GetParticleName() << ")";
 #endif
       if (usePMTHit && showerPMT) getHitPMT(aStep);
     } else if (isItStraightBundle(lv) || isItConicalBundle(lv)) {
 #ifdef DebugLog
       LogDebug("HcalSim") << "HCalSD: Hit from FibreBundle from "
                           << nameVolume << " for Track " 
                           << aStep->GetTrack()->GetTrackID() << " ("
                           << aStep->GetTrack()->GetDefinition()->GetParticleName() << ")";
 #endif
       if (useFibreBundle && showerBundle) 
     getHitFibreBundle(aStep, isItConicalBundle(lv));
     } else {
 #ifdef DebugLog
       LogDebug("HcalSim") << "HCalSD: Hit from standard path from " 
                           <<  nameVolume << " for Track " 
                           << aStep->GetTrack()->GetTrackID() << " ("
                           << aStep->GetTrack()->GetDefinition()->GetParticleName() << ")";
 #endif
       if (getStepInfo(aStep)) {
 #ifdef plotDebug
         if (edepositEM+edepositHAD > 0)
           plotProfile(aStep, aStep->GetPreStepPoint()->GetPosition(),
                       edepositEM+edepositHAD,aStep->GetPostStepPoint()->GetGlobalTime(),0);
 #endif
         if (hitExists() == false && edepositEM+edepositHAD>0.) currentHit = createNewHit();
       }
     }
     return true;
   }
 } 

void HCalSD::readWeightFromFile ( std::string fName )

private

Definition at line 1074 of file HCalSD.cc.

References TauDecayModes::dec, MainPageGenerator::fName, recoMuon::in, getDQMSummary::infile, layerWeights, HcalTestNumbering::packHcalIndex(), phi, useLayerWt, and ecaldqm::zside().

Referenced by HCalSD().

                                                {
 
   std::ifstream infile;
   int entry=0;
   infile.open(fName.c_str(), std::ios::in);
   if (infile) {
     int    det, zside, etaR, phi, lay;
     double wt;
     while (infile >> det >> zside >> etaR >> phi >> lay >> wt) {
       uint32_t id = HcalTestNumbering::packHcalIndex(det,zside,1,etaR,phi,lay);
       layerWeights.insert(std::pair<uint32_t,double>(id,wt));
       ++entry;
 #ifdef DebugLog
       edm::LogInfo("HcalSim") << "HCalSD::readWeightFromFile:Entry " << entry
                               << " ID " << std::hex << id << std::dec << " ("
                               << det << "/" << zside << "/1/" << etaR << "/"
                               << phi << "/" << lay << ") Weight " << wt;
 #endif
     }
     infile.close();
   }
   edm::LogInfo("HcalSim") << "HCalSD::readWeightFromFile: reads " << entry
                           << " weights from " << fName;
   if (entry <= 0) useLayerWt = false;
 }

uint32_t HCalSD::setDetUnitId ( G4Step * step )

virtual

Implements CaloSD.

Definition at line 589 of file HCalSD.cc.

References HLT_25ns14e33_v1_cff::depth, and CaloSD::preStepPoint.

Referenced by getEnergyDeposit(), getFromLibrary(), getFromParam(), and hitForFibre().

                                             { 
 
   G4StepPoint* preStepPoint = aStep->GetPreStepPoint(); 
   const G4VTouchable* touch = preStepPoint->GetTouchable();
   G4ThreeVector hitPoint    = preStepPoint->GetPosition();
 
   int depth = (touch->GetReplicaNumber(0))%10 + 1;
   int lay   = (touch->GetReplicaNumber(0)/10)%100 + 1;
   int det   = (touch->GetReplicaNumber(1))/1000;
 
   return setDetUnitId (det, hitPoint, depth, lay);
 }

uint32_t HCalSD::setDetUnitId	(	int	det,
		const G4ThreeVector &	pos,
		int	depth,
		int	lay = `1`
	)

private

Definition at line 643 of file HCalSD.cc.

References HcalNumberingScheme::getUnitID(), numberingFromDDD, numberingScheme, tmp, and HcalNumberingFromDDD::unitID().

                                                                                       { 
   uint32_t id = 0;
   if (numberingFromDDD) {
     //get the ID's as eta, phi, depth, ... indices
     HcalNumberingFromDDD::HcalID tmp = numberingFromDDD->unitID(det, pos, depth, lay);
     //get the ID
     if (numberingScheme) id = numberingScheme->getUnitID(tmp);
   }
   return id;
 }

void HCalSD::setNumberingScheme ( HcalNumberingScheme * scheme )

Definition at line 602 of file HCalSD.cc.

References numberingScheme.

Referenced by HCalSD(), HcalTestAnalysis::update(), SimG4HcalValidation::update(), and HcalTB04Analysis::update().

                                                             {
   if (scheme != 0) {
     edm::LogInfo("HcalSim") << "HCalSD: updates numbering scheme for " << GetName();
     if (numberingScheme) delete numberingScheme;
     numberingScheme = scheme;
   }
 }

int HCalSD::setTrackID ( G4Step * step )

private

Definition at line 1054 of file HCalSD.cc.

References TrackInformation::getIDonCaloSurface(), CaloSD::preStepPoint, CaloSD::previousID, CaloSD::resetForNewPrimary(), CaloSD::theTrack, and CaloHitID::trackID().

Referenced by getFromLibrary(), getFromParam(), and hitForFibre().

                                      {
   theTrack     = aStep->GetTrack();
 
   double etrack = preStepPoint->GetKineticEnergy();
   TrackInformation * trkInfo = (TrackInformation *)(theTrack->GetUserInformation());
   int      primaryID = trkInfo->getIDonCaloSurface();
   if (primaryID == 0) {
 #ifdef DebugLog
     edm::LogInfo("HcalSim") << "HCalSD: Problem with primaryID **** set by "
        << "force to TkID **** " <<theTrack->GetTrackID();
 #endif
     primaryID = theTrack->GetTrackID();
   }
 
   if (primaryID != previousID.trackID())
     resetForNewPrimary(preStepPoint->GetPosition(), etrack);
 
   return primaryID;
 }