#include <HcalDigitizer.h>

Public Member Functions
void	accumulate (edm::Event const &e, edm::EventSetup const &c, CLHEP::HepRandomEngine *)

void	accumulate (PileUpEventPrincipal const &e, edm::EventSetup const &c, CLHEP::HepRandomEngine *)

void	beginRun (const edm::EventSetup &es)

void	endRun ()

void	finalizeEvent (edm::Event &e, edm::EventSetup const &c, CLHEP::HepRandomEngine *)

	HcalDigitizer (const edm::ParameterSet &ps, edm::ConsumesCollector &iC)

void	initializeEvent (edm::Event const &e, edm::EventSetup const &c)

void	setHBHENoiseSignalGenerator (HcalBaseSignalGenerator *noiseGenerator)

void	setHFNoiseSignalGenerator (HcalBaseSignalGenerator *noiseGenerator)

void	setHONoiseSignalGenerator (HcalBaseSignalGenerator *noiseGenerator)

void	setQIE10NoiseSignalGenerator (HcalBaseSignalGenerator *noiseGenerator)

void	setQIE11NoiseSignalGenerator (HcalBaseSignalGenerator *noiseGenerator)

void	setZDCNoiseSignalGenerator (HcalBaseSignalGenerator *noiseGenerator)

virtual	~HcalDigitizer ()

Private Types
typedef CaloTDigitizer< HBHEDigitizerTraits, CaloTDigitizerQIE8Run >	HBHEDigitizer

typedef CaloTDigitizer< HFDigitizerTraits, CaloTDigitizerQIE8Run >	HFDigitizer

typedef CaloTDigitizer< HODigitizerTraits, CaloTDigitizerQIE8Run >	HODigitizer

typedef CaloTDigitizer< HcalQIE10DigitizerTraits, CaloTDigitizerQIE1011Run >	QIE10Digitizer

typedef CaloTDigitizer< HcalQIE11DigitizerTraits, CaloTDigitizerQIE1011Run >	QIE11Digitizer

typedef CaloTDigitizer< ZDCDigitizerTraits, CaloTDigitizerQIE8Run >	ZDCDigitizer

Private Member Functions
void	accumulateCaloHits (edm::Handle< std::vector< PCaloHit > > const &hcalHits, edm::Handle< std::vector< PCaloHit > > const &zdcHits, int bunchCrossing, CLHEP::HepRandomEngine , const HcalTopology h)

void	buildHBHEQIECells (const std::vector< DetId > &allCells, const edm::EventSetup &eventSetup)

void	buildHFQIECells (const std::vector< DetId > &allCells, const edm::EventSetup &eventSetup)

void	buildHOSiPMCells (const std::vector< DetId > &allCells, const edm::EventSetup &eventSetup)

void	checkGeometry (const edm::EventSetup &eventSetup)

void	darkening (std::vector< PCaloHit > &hcalHits)

void	fillFakeHits ()
	some hits in each subdetector, just for testing purposes More...

void	updateGeometry (const edm::EventSetup &eventSetup)

Private Attributes
bool	agingFlagHB

bool	agingFlagHE

bool	debugCS_

double	deliveredLumi

bool	doHFWindow_

std::vector< DetId >	hbheCells

bool	hbhegeo

bool	hfgeo

std::string	hitsProducer_

bool	hogeo

bool	ignoreTime_

std::vector< PCaloHit >	injectedHits_

std::vector< int >	injectedHitsCells_

std::vector< double >	injectedHitsEnergy_

std::vector< double >	injectedHitsTime_

bool	injectTestHits_

bool	isHCAL

bool	isZDC

bool	killHE_

const HBHEDarkening *	m_HBDarkening

const HBHEDarkening *	m_HEDarkening

std::unique_ptr< HFRecalibration >	m_HFRecalibration

bool	testNumbering_

HcalCoderFactory *	theCoderFactory

const CaloGeometry *	theGeometry

HcalAmplifier *	theHBHEAmplifier

HBHEDigitizer *	theHBHEDigitizer

HcalElectronicsSim *	theHBHEElectronicsSim

HBHEHitFilter	theHBHEHitFilter

HcalAmplifier *	theHBHEQIE11Amplifier

std::vector< DetId >	theHBHEQIE11DetIds

QIE11Digitizer *	theHBHEQIE11Digitizer

HcalElectronicsSim *	theHBHEQIE11ElectronicsSim

HBHEHitFilter	theHBHEQIE11HitFilter

std::vector< DetId >	theHBHEQIE8DetIds

CaloHitResponse *	theHBHEResponse

CaloHitResponse *	theHBHESiPMResponse

HcalAmplifier *	theHFAmplifier

HFDigitizer *	theHFDigitizer

HcalElectronicsSim *	theHFElectronicsSim

HFHitFilter	theHFHitFilter

HcalAmplifier *	theHFQIE10Amplifier

std::vector< DetId >	theHFQIE10DetIds

QIE10Digitizer *	theHFQIE10Digitizer

HcalElectronicsSim *	theHFQIE10ElectronicsSim

HFHitFilter	theHFQIE10HitFilter

CaloHitResponse *	theHFQIE10Response

std::vector< DetId >	theHFQIE8DetIds

CaloHitResponse *	theHFResponse

HcalAmplifier *	theHOAmplifier

HODigitizer *	theHODigitizer

HcalElectronicsSim *	theHOElectronicsSim

HOHitFilter	theHOHitFilter

std::vector< DetId >	theHOHPDDetIds

CaloHitResponse *	theHOResponse

int	theHOSiPMCode

std::vector< DetId >	theHOSiPMDetIds

HODigitizer *	theHOSiPMDigitizer

HOHitFilter	theHOSiPMHitFilter

CaloHitResponse *	theHOSiPMResponse

HPDIonFeedbackSim *	theIonFeedback

HcalSimParameterMap *	theParameterMap

const HcalDDDRecConstants *	theRecNumber

HcalHitRelabeller *	theRelabeller

HcalShapes *	theShapes

HcalTimeSlewSim *	theTimeSlewSim

HcalAmplifier *	theZDCAmplifier

ZDCDigitizer *	theZDCDigitizer

HcalElectronicsSim *	theZDCElectronicsSim

ZDCHitFilter	theZDCHitFilter

CaloHitResponse *	theZDCResponse

bool	zdcgeo

Detailed Description

Definition at line 40 of file HcalDigitizer.h.

Member Typedef Documentation

typedef CaloTDigitizer<HBHEDigitizerTraits,CaloTDigitizerQIE8Run> HcalDigitizer::HBHEDigitizer

private

Reconstruction algorithm

Definition at line 82 of file HcalDigitizer.h.

typedef CaloTDigitizer<HFDigitizerTraits,CaloTDigitizerQIE8Run> HcalDigitizer::HFDigitizer

private

Definition at line 84 of file HcalDigitizer.h.

typedef CaloTDigitizer<HODigitizerTraits,CaloTDigitizerQIE8Run> HcalDigitizer::HODigitizer

private

Definition at line 83 of file HcalDigitizer.h.

typedef CaloTDigitizer<HcalQIE10DigitizerTraits,CaloTDigitizerQIE1011Run> HcalDigitizer::QIE10Digitizer

private

Definition at line 86 of file HcalDigitizer.h.

typedef CaloTDigitizer<HcalQIE11DigitizerTraits,CaloTDigitizerQIE1011Run> HcalDigitizer::QIE11Digitizer

private

Definition at line 87 of file HcalDigitizer.h.

typedef CaloTDigitizer<ZDCDigitizerTraits,CaloTDigitizerQIE8Run> HcalDigitizer::ZDCDigitizer

private

Definition at line 85 of file HcalDigitizer.h.

Constructor & Destructor Documentation

HcalDigitizer::HcalDigitizer	(	const edm::ParameterSet &	ps,
		edm::ConsumesCollector &	iC
	)

explicit

Definition at line 39 of file HcalDigitizer.cc.

References edm::ConsumesCollector::consumes(), HcalCoderFactory::DB, debugCS_, deliveredLumi, hcalUnsuppressedDigis_cfi::doEmpty, hcalUnsuppressedDigis_cfi::doNoise, hcalUnsuppressedDigis_cfi::doTimeSlew, Exception, edm::ParameterSet::getParameter(), hitsProducer_, ignoreTime_, m_HFRecalibration, hcalUnsuppressedDigis_cfi::minFCToDelay, CaloTDigitizer< Traits, runHelper >::setDebugCaloSamples(), CaloHitResponse::setHitFilter(), CaloHitResponse::setIgnoreGeantTime(), HcalAmplifier::setIonFeedbackSim(), CaloHitResponse::setPECorrection(), HcalAmplifier::setTimeSlewSim(), testNumbering_, theCoderFactory, theHBHEAmplifier, theHBHEDigitizer, theHBHEElectronicsSim, theHBHEHitFilter, theHBHEQIE11Amplifier, theHBHEQIE11Digitizer, theHBHEQIE11ElectronicsSim, theHBHEQIE11HitFilter, theHBHEResponse, theHBHESiPMResponse, theHFAmplifier, theHFDigitizer, theHFElectronicsSim, theHFHitFilter, theHFQIE10Amplifier, theHFQIE10Digitizer, theHFQIE10ElectronicsSim, theHFQIE10HitFilter, theHFQIE10Response, theHFResponse, theHOAmplifier, theHODigitizer, theHOElectronicsSim, theHOHitFilter, theHOResponse, theHOSiPMCode, theHOSiPMDigitizer, theHOSiPMHitFilter, theHOSiPMResponse, theIonFeedback, theParameterMap, theRelabeller, theShapes, theTimeSlewSim, theZDCAmplifier, theZDCDigitizer, theZDCElectronicsSim, theZDCHitFilter, and theZDCResponse.

                                                                                 :
   theGeometry(0),
   theRecNumber(0),
   theParameterMap(new HcalSimParameterMap(ps)),
   theShapes(new HcalShapes()),
   theHBHEResponse(new CaloHitResponse(theParameterMap, theShapes)),
   theHBHESiPMResponse(new HcalSiPMHitResponse(theParameterMap, theShapes, ps.getParameter<bool>("HcalPreMixStage1"), true)),
   theHOResponse(new CaloHitResponse(theParameterMap, theShapes)),   
   theHOSiPMResponse(new HcalSiPMHitResponse(theParameterMap, theShapes, ps.getParameter<bool>("HcalPreMixStage1"), false)),
   theHFResponse(new CaloHitResponse(theParameterMap, theShapes)),
   theHFQIE10Response(new CaloHitResponse(theParameterMap, theShapes)),
   theZDCResponse(new CaloHitResponse(theParameterMap, theShapes)),
   theHBHEAmplifier(0),
   theHFAmplifier(0),
   theHOAmplifier(0),
   theZDCAmplifier(0),
   theHFQIE10Amplifier(0),
   theHBHEQIE11Amplifier(0),
   theIonFeedback(0),
   theCoderFactory(0),
   theHBHEElectronicsSim(0),
   theHFElectronicsSim(0),
   theHOElectronicsSim(0),
   theZDCElectronicsSim(0),
   theHFQIE10ElectronicsSim(0),
   theHBHEQIE11ElectronicsSim(0),
   theHBHEHitFilter(),
   theHBHEQIE11HitFilter(),
   theHFHitFilter(),
   theHFQIE10HitFilter(),
   theHOHitFilter(),
   theHOSiPMHitFilter(),
   theZDCHitFilter(),
   theHBHEDigitizer(0),
   theHODigitizer(0),
   theHOSiPMDigitizer(0),
   theHFDigitizer(0),
   theZDCDigitizer(0),
   theHFQIE10Digitizer(0),
   theHBHEQIE11Digitizer(0),
   theRelabeller(0),
   isZDC(true),
   isHCAL(true),
   zdcgeo(true),
   hbhegeo(true),
   hogeo(true),
   hfgeo(true),
   doHFWindow_(ps.getParameter<bool>("doHFWindow")),
   killHE_(ps.getParameter<bool>("killHE")),
   debugCS_(ps.getParameter<bool>("debugCaloSamples")),
   ignoreTime_(ps.getParameter<bool>("ignoreGeantTime")),
   injectTestHits_(ps.getParameter<bool>("injectTestHits")),
   hitsProducer_(ps.getParameter<std::string>("hitsProducer")),
   theHOSiPMCode(ps.getParameter<edm::ParameterSet>("ho").getParameter<int>("siPMCode")),
   deliveredLumi(0.),
   agingFlagHB(ps.getParameter<bool>("HBDarkening")),
   agingFlagHE(ps.getParameter<bool>("HEDarkening")),
   m_HBDarkening(nullptr),
   m_HEDarkening(nullptr),
   m_HFRecalibration(nullptr),
   injectedHitsEnergy_(ps.getParameter<std::vector<double>>("injectTestHitsEnergy")),
   injectedHitsTime_(ps.getParameter<std::vector<double>>("injectTestHitsTime")),
   injectedHitsCells_(ps.getParameter<std::vector<int>>("injectTestHitsCells"))
 {
   iC.consumes<std::vector<PCaloHit> >(edm::InputTag(hitsProducer_, "ZDCHITS"));
   iC.consumes<std::vector<PCaloHit> >(edm::InputTag(hitsProducer_, "HcalHits"));
 
   bool doNoise = ps.getParameter<bool>("doNoise");
  
   bool PreMix1 = ps.getParameter<bool>("HcalPreMixStage1");  // special threshold/pedestal treatment
   bool PreMix2 = ps.getParameter<bool>("HcalPreMixStage2");  // special threshold/pedestal treatment
   bool doEmpty = ps.getParameter<bool>("doEmpty");
   deliveredLumi     = ps.getParameter<double>("DelivLuminosity");
   bool agingFlagHF = ps.getParameter<bool>("HFDarkening");
   double minFCToDelay= ps.getParameter<double>("minFCToDelay");
 
   if(PreMix1 && PreMix2) {
      throw cms::Exception("Configuration")
       << "HcalDigitizer cannot operate in PreMixing digitization and PreMixing\n"
          "digi combination modes at the same time.  Please set one mode to False\n"
          "in the configuration file.";
   }
 
   // need to make copies, because they might get different noise generators
   theHBHEAmplifier = new HcalAmplifier(theParameterMap, doNoise, PreMix1, PreMix2);
   theHFAmplifier = new HcalAmplifier(theParameterMap, doNoise, PreMix1, PreMix2);
   theHOAmplifier = new HcalAmplifier(theParameterMap, doNoise, PreMix1, PreMix2);
   theZDCAmplifier = new HcalAmplifier(theParameterMap, doNoise, PreMix1, PreMix2);
   theHFQIE10Amplifier = new HcalAmplifier(theParameterMap, doNoise, PreMix1, PreMix2);
   theHBHEQIE11Amplifier = new HcalAmplifier(theParameterMap, doNoise, PreMix1, PreMix2);
 
   theCoderFactory = new HcalCoderFactory(HcalCoderFactory::DB);
 
   theHBHEElectronicsSim = new HcalElectronicsSim(theHBHEAmplifier, theCoderFactory, PreMix1);
   theHFElectronicsSim = new HcalElectronicsSim(theHFAmplifier, theCoderFactory, PreMix1);
   theHOElectronicsSim = new HcalElectronicsSim(theHOAmplifier, theCoderFactory, PreMix1);
   theZDCElectronicsSim = new HcalElectronicsSim(theZDCAmplifier, theCoderFactory, PreMix1);
   theHFQIE10ElectronicsSim = new HcalElectronicsSim(theHFQIE10Amplifier, theCoderFactory, PreMix1); //should this use a different coder factory?
   theHBHEQIE11ElectronicsSim = new HcalElectronicsSim(theHBHEQIE11Amplifier, theCoderFactory, PreMix1); //should this use a different coder factory?
 
   bool doHOHPD = (theHOSiPMCode != 1);
   bool doHOSiPM = (theHOSiPMCode != 0);
   if(doHOHPD) {
     theHOResponse = new CaloHitResponse(theParameterMap, theShapes);
     theHOResponse->setHitFilter(&theHOHitFilter);
     theHODigitizer = new HODigitizer(theHOResponse, theHOElectronicsSim, doEmpty);
   }
   if(doHOSiPM) {
     theHOSiPMResponse->setHitFilter(&theHOSiPMHitFilter);
     theHOSiPMDigitizer = new HODigitizer(theHOSiPMResponse, theHOElectronicsSim, doEmpty);
   }
   
   theHBHEResponse->setHitFilter(&theHBHEHitFilter);
   theHBHESiPMResponse->setHitFilter(&theHBHEQIE11HitFilter);
   
   //QIE8 and QIE11 can coexist in HBHE
   theHBHEQIE11Digitizer = new QIE11Digitizer(theHBHESiPMResponse, theHBHEQIE11ElectronicsSim, doEmpty);
   theHBHEDigitizer = new HBHEDigitizer(theHBHEResponse, theHBHEElectronicsSim, doEmpty);
 
   bool doTimeSlew = ps.getParameter<bool>("doTimeSlew");
   //initialize: they won't be called later if flag is set
   theTimeSlewSim = 0;
   if(doTimeSlew) {
     // no time slewing for HF
     theTimeSlewSim = new HcalTimeSlewSim(theParameterMap,minFCToDelay);
     theHBHEAmplifier->setTimeSlewSim(theTimeSlewSim);
     theHBHEQIE11Amplifier->setTimeSlewSim(theTimeSlewSim);
     theHOAmplifier->setTimeSlewSim(theTimeSlewSim);
     theZDCAmplifier->setTimeSlewSim(theTimeSlewSim);
   }
 
   theHFResponse->setHitFilter(&theHFHitFilter);
   theHFQIE10Response->setHitFilter(&theHFQIE10HitFilter);
   theZDCResponse->setHitFilter(&theZDCHitFilter);
   
   //QIE8 and QIE10 can coexist in HF
   theHFQIE10Digitizer = new QIE10Digitizer(theHFQIE10Response, theHFQIE10ElectronicsSim, doEmpty);
   theHFDigitizer = new HFDigitizer(theHFResponse, theHFElectronicsSim, doEmpty);
 
   theZDCDigitizer = new ZDCDigitizer(theZDCResponse, theZDCElectronicsSim, doEmpty);
 
   testNumbering_ = ps.getParameter<bool>("TestNumbering");
 //  std::cout << "Flag to see if Hit Relabeller to be initiated " << testNumbering_ << std::endl;
   if (testNumbering_) theRelabeller=new HcalHitRelabeller(ps.getParameter<bool>("doNeutralDensityFilter"));
 
   if(ps.getParameter<bool>("doIonFeedback") && theHBHEResponse) {
     theIonFeedback = new HPDIonFeedbackSim(ps, theShapes);
     theHBHEResponse->setPECorrection(theIonFeedback);
     if(ps.getParameter<bool>("doThermalNoise")) {
       theHBHEAmplifier->setIonFeedbackSim(theIonFeedback);
     }
   }
 
   //option to save CaloSamples as event product for debugging
   if(debugCS_){
     if(theHBHEDigitizer)      theHBHEDigitizer->setDebugCaloSamples(true);
     if(theHBHEQIE11Digitizer) theHBHEQIE11Digitizer->setDebugCaloSamples(true);
     if(theHODigitizer)        theHODigitizer->setDebugCaloSamples(true);
     if(theHOSiPMDigitizer)    theHOSiPMDigitizer->setDebugCaloSamples(true);
     if(theHFDigitizer)        theHFDigitizer->setDebugCaloSamples(true);
     if(theHFQIE10Digitizer)   theHFQIE10Digitizer->setDebugCaloSamples(true);
     theZDCDigitizer->setDebugCaloSamples(true);
   }
 
   //option to ignore Geant time distribution in SimHits, for debugging
   if(ignoreTime_){
     theHBHEResponse->setIgnoreGeantTime(ignoreTime_);
     theHBHESiPMResponse->setIgnoreGeantTime(ignoreTime_);
     theHOResponse->setIgnoreGeantTime(ignoreTime_);
     theHOSiPMResponse->setIgnoreGeantTime(ignoreTime_);
     theHFResponse->setIgnoreGeantTime(ignoreTime_);
     theHFQIE10Response->setIgnoreGeantTime(ignoreTime_);
     theZDCResponse->setIgnoreGeantTime(ignoreTime_);
   }
 
   if(agingFlagHF) m_HFRecalibration.reset(new HFRecalibration(ps.getParameter<edm::ParameterSet>("HFRecalParameterBlock")));
 }

HcalDigitizer::~HcalDigitizer ( )

virtual

Definition at line 218 of file HcalDigitizer.cc.

References theCoderFactory, theHBHEAmplifier, theHBHEDigitizer, theHBHEElectronicsSim, theHBHEQIE11Amplifier, theHBHEQIE11Digitizer, theHBHEQIE11ElectronicsSim, theHBHEResponse, theHBHESiPMResponse, theHFAmplifier, theHFDigitizer, theHFElectronicsSim, theHFQIE10Amplifier, theHFQIE10Digitizer, theHFQIE10ElectronicsSim, theHFQIE10Response, theHFResponse, theHOAmplifier, theHODigitizer, theHOElectronicsSim, theHOResponse, theHOSiPMDigitizer, theHOSiPMResponse, theIonFeedback, theParameterMap, theRelabeller, theTimeSlewSim, theZDCAmplifier, theZDCDigitizer, theZDCElectronicsSim, and theZDCResponse.

                               {
   if(theHBHEDigitizer)         delete theHBHEDigitizer;
   if(theHBHEQIE11Digitizer)    delete theHBHEQIE11Digitizer;
   if(theHODigitizer)           delete theHODigitizer;
   if(theHOSiPMDigitizer)       delete theHOSiPMDigitizer;
   if(theHFDigitizer)           delete theHFDigitizer;
   if(theHFQIE10Digitizer)      delete theHFQIE10Digitizer;
   delete theZDCDigitizer;
   delete theParameterMap;
   delete theHBHEResponse;
   delete theHBHESiPMResponse;
   delete theHOResponse;
   delete theHOSiPMResponse;
   delete theHFResponse;
   delete theHFQIE10Response;
   delete theZDCResponse;
   delete theHBHEElectronicsSim;
   delete theHFElectronicsSim;
   delete theHOElectronicsSim;
   delete theZDCElectronicsSim;
   delete theHFQIE10ElectronicsSim;
   delete theHBHEQIE11ElectronicsSim;
   delete theHBHEAmplifier;
   delete theHFAmplifier;
   delete theHOAmplifier;
   delete theZDCAmplifier;
   delete theHFQIE10Amplifier;
   delete theHBHEQIE11Amplifier;
   delete theCoderFactory;
   if (theRelabeller)           delete theRelabeller;
   if(theTimeSlewSim) delete theTimeSlewSim;
   if(theIonFeedback) delete theIonFeedback;
 }

Member Function Documentation

void HcalDigitizer::accumulate	(	edm::Event const &	e,
		edm::EventSetup const &	c,
		CLHEP::HepRandomEngine *	engine
	)

Definition at line 400 of file HcalDigitizer.cc.

References accumulateCaloHits(), edm::EventSetup::get(), edm::Event::getByLabel(), hitsProducer_, injectTestHits_, isHCAL, edm::HandleBase::isValid(), isZDC, or, and edm::ESHandle< T >::product().

Referenced by HcalDigiProducer::accumulate().

                                                                                                                {
   // Step A: Get Inputs
   edm::InputTag zdcTag(hitsProducer_, "ZDCHITS");
   edm::Handle<std::vector<PCaloHit> > zdcHandle;
   e.getByLabel(zdcTag, zdcHandle);
   isZDC = zdcHandle.isValid();
 
   edm::InputTag hcalTag(hitsProducer_, "HcalHits");
   edm::Handle<std::vector<PCaloHit> > hcalHandle;
   e.getByLabel(hcalTag, hcalHandle);
   isHCAL = hcalHandle.isValid() or injectTestHits_;
 
   edm::ESHandle<HcalTopology> htopo;
   eventSetup.get<HcalRecNumberingRecord>().get(htopo);
   const HcalTopology *htopoP=htopo.product();
 
   accumulateCaloHits(hcalHandle, zdcHandle, 0, engine, htopoP);
 }

void HcalDigitizer::accumulate	(	PileUpEventPrincipal const &	e,
		edm::EventSetup const &	c,
		CLHEP::HepRandomEngine *	engine
	)

Definition at line 419 of file HcalDigitizer.cc.

References accumulateCaloHits(), PileUpEventPrincipal::bunchCrossing(), edm::EventSetup::get(), PileUpEventPrincipal::getByLabel(), hitsProducer_, isHCAL, edm::HandleBase::isValid(), isZDC, and edm::ESHandle< T >::product().

                                                                                                                            {
   // Step A: Get Inputs
   edm::InputTag zdcTag(hitsProducer_, "ZDCHITS");
   edm::Handle<std::vector<PCaloHit> > zdcHandle;
   e.getByLabel(zdcTag, zdcHandle);
   isZDC = zdcHandle.isValid();
 
   edm::InputTag hcalTag(hitsProducer_, "HcalHits");
   edm::Handle<std::vector<PCaloHit> > hcalHandle;
   e.getByLabel(hcalTag, hcalHandle);
   isHCAL = hcalHandle.isValid();
 
   edm::ESHandle<HcalTopology> htopo;
   eventSetup.get<HcalRecNumberingRecord>().get(htopo);
   const HcalTopology *htopoP=htopo.product();
 
   accumulateCaloHits(hcalHandle, zdcHandle, e.bunchCrossing(), engine, htopoP);
 }

void HcalDigitizer::accumulateCaloHits	(	edm::Handle< std::vector< PCaloHit > > const &	hcalHits,
		edm::Handle< std::vector< PCaloHit > > const &	zdcHits,
		int	bunchCrossing,
		CLHEP::HepRandomEngine *	engine,
		const HcalTopology *	h
	)

private

Definition at line 325 of file HcalDigitizer.cc.

References CaloTDigitizer< Traits, runHelper >::add(), gather_cfg::cout, darkening(), TauDecayModes::dec, doHFWindow_, hbhegeo, HcalEndcap, HcalForward, hfgeo, hogeo, mps_fire::i, hcalTTPDigis_cfi::id, injectedHits_, injectTestHits_, isHCAL, isZDC, killHE_, m_HBDarkening, m_HEDarkening, m_HFRecalibration, HcalDetId::newForm(), HcalDetId::oldFormat(), HcalHitRelabeller::process(), DetId::rawId(), HcalDetId::subdet(), testNumbering_, theHBHEDigitizer, theHBHEQIE11Digitizer, theHFDigitizer, theHFQIE10Digitizer, theHODigitizer, theHOSiPMDigitizer, theRelabeller, theZDCDigitizer, HcalTopology::validHcal(), and zdcgeo.

Referenced by accumulate().

                                                                                                                                                                                                                        {
 
   // Step A: pass in inputs, and accumulate digis
   if(isHCAL) {
     std::vector<PCaloHit> hcalHitsOrig = *hcalHandle.product();
     if(injectTestHits_) hcalHitsOrig = injectedHits_;
     std::vector<PCaloHit> hcalHits;
     hcalHits.reserve(hcalHitsOrig.size());
 
     //evaluate darkening before relabeling
     if (testNumbering_) {
       if(m_HBDarkening || m_HEDarkening || m_HFRecalibration){
         darkening(hcalHitsOrig);
       }
       // Relabel PCaloHits if necessary
       edm::LogInfo("HcalDigitizer") << "Calling Relabeller";
       theRelabeller->process(hcalHitsOrig);
     }
     
     //eliminate bad hits
     for (unsigned int i=0; i< hcalHitsOrig.size(); i++) {
       DetId id(hcalHitsOrig[i].id());
       HcalDetId hid(id);
       if (!htopoP->validHcal(hid)) {
         edm::LogError("HcalDigitizer") << "bad hcal id found in digitizer. Skipping " << id.rawId() << " " << hid << std::endl;
         continue;
       }
       else if(hid.subdet()==HcalForward && !doHFWindow_ && hcalHitsOrig[i].depth()!=0){
         //skip HF window hits unless desired
         continue;
       }
       else if( killHE_ && hid.subdet()==HcalEndcap ) {
         // remove HE hits if asked for (phase 2)
         continue;
       }
       else {
 #ifdef DebugLog
         std::cout << "HcalDigitizer format " << hid.oldFormat() << " for " << hid << std::endl;
 #endif
         DetId newid = DetId(hid.newForm());
 #ifdef DebugLog
         std::cout << "Hit " << i << " out of " << hcalHits.size() << " " << std::hex << id.rawId() << " --> " << newid.rawId() << std::dec << " " << HcalDetId(newid.rawId()) << '\n';
 #endif
         hcalHitsOrig[i].setID(newid.rawId());
         hcalHits.push_back(hcalHitsOrig[i]);
       }
     }
 
     if(hbhegeo) {
       if(theHBHEDigitizer) theHBHEDigitizer->add(hcalHits, bunchCrossing, engine);
       if(theHBHEQIE11Digitizer) theHBHEQIE11Digitizer->add(hcalHits, bunchCrossing, engine);
     }
 
     if(hogeo) {
       if(theHODigitizer) theHODigitizer->add(hcalHits, bunchCrossing, engine);
       if(theHOSiPMDigitizer) theHOSiPMDigitizer->add(hcalHits, bunchCrossing, engine);
     }
 
     if(hfgeo) {
       if(theHFDigitizer) theHFDigitizer->add(hcalHits, bunchCrossing, engine);
       if(theHFQIE10Digitizer) theHFQIE10Digitizer->add(hcalHits, bunchCrossing, engine);
     } 
   } else {
     edm::LogInfo("HcalDigitizer") << "We don't have HCAL hit collection available ";
   }
 
   if(isZDC) {
     if(zdcgeo) {
       theZDCDigitizer->add(*zdcHandle.product(), bunchCrossing, engine);
     } 
   } else {
     edm::LogInfo("HcalDigitizer") << "We don't have ZDC hit collection available ";
   }
 }

void HcalDigitizer::beginRun ( const edm::EventSetup & es )

Definition at line 529 of file HcalDigitizer.cc.

References agingFlagHB, agingFlagHE, HcalShapes::beginRun(), checkGeometry(), edm::EventSetup::get(), m_HBDarkening, m_HEDarkening, and theShapes.

Referenced by HcalDigiProducer::beginRun().

                                                      {
   checkGeometry(es);
   theShapes->beginRun(es);
 
   if (agingFlagHB) {
     edm::ESHandle<HBHEDarkening> hdark;
     es.get<HBHEDarkeningRecord>().get("HB",hdark);
     m_HBDarkening = &*hdark;
   }
   if (agingFlagHE) {
     edm::ESHandle<HBHEDarkening> hdark;
     es.get<HBHEDarkeningRecord>().get("HE",hdark);
     m_HEDarkening = &*hdark;
   }
 }

void HcalDigitizer::buildHBHEQIECells	(	const std::vector< DetId > &	allCells,
		const edm::EventSetup &	eventSetup
	)

private

Definition at line 681 of file HcalDigitizer.cc.

References edm::EventSetup::get(), NULL, edm::ESHandle< T >::product(), lumiQueryAPI::q, QIE11, QIE8, HcalHitFilter< subdets >::setDetIds(), CaloTDigitizer< Traits, runHelper >::setDetIds(), HcalCondObjectContainerBase::setTopo(), theHBHEDigitizer, theHBHEHitFilter, theHBHEQIE11DetIds, theHBHEQIE11Digitizer, theHBHEQIE11HitFilter, and theHBHEQIE8DetIds.

Referenced by updateGeometry().

                                                                                                         {
     //if results are already cached, no need to look again
     if(theHBHEQIE8DetIds.size()>0 || theHBHEQIE11DetIds.size()>0) return;
     
     //get the QIETypes
     edm::ESHandle<HcalQIETypes> q;
     eventSetup.get<HcalQIETypesRcd>().get(q);
     edm::ESHandle<HcalTopology> htopo;
     eventSetup.get<HcalRecNumberingRecord>().get(htopo);
    
     HcalQIETypes qieTypes(*q.product());
     if (qieTypes.topo()==0) {
       qieTypes.setTopo(htopo.product());
     }
     
     for(std::vector<DetId>::const_iterator detItr = allCells.begin(); detItr != allCells.end(); ++detItr) {
       HcalQIENum qieType = HcalQIENum(qieTypes.getValues(*detItr)->getValue());
       if(qieType == QIE8) {
         theHBHEQIE8DetIds.push_back(*detItr);
       }
       else if(qieType == QIE11) {
         theHBHEQIE11DetIds.push_back(*detItr);
       }
       else { //default is QIE8
         theHBHEQIE8DetIds.push_back(*detItr);
       }
     }
     
     if(theHBHEQIE8DetIds.size()>0) theHBHEDigitizer->setDetIds(theHBHEQIE8DetIds);
     else {
         delete theHBHEDigitizer;
         theHBHEDigitizer = NULL;
     }
     
     if(theHBHEQIE11DetIds.size()>0) theHBHEQIE11Digitizer->setDetIds(theHBHEQIE11DetIds);
     else {
         delete theHBHEQIE11Digitizer;
         theHBHEQIE11Digitizer = NULL;
     }
     
     if(theHBHEQIE8DetIds.size()>0 && theHBHEQIE11DetIds.size()>0){
         theHBHEHitFilter.setDetIds(theHBHEQIE8DetIds);
         theHBHEQIE11HitFilter.setDetIds(theHBHEQIE11DetIds);
     }
 }

void HcalDigitizer::buildHFQIECells	(	const std::vector< DetId > &	allCells,
		const edm::EventSetup &	eventSetup
	)

private

Definition at line 642 of file HcalDigitizer.cc.

References edm::EventSetup::get(), NULL, edm::ESHandle< T >::product(), lumiQueryAPI::q, QIE10, QIE8, CaloTDigitizer< Traits, runHelper >::setDetIds(), HcalCondObjectContainerBase::setTopo(), theHFDigitizer, theHFQIE10DetIds, theHFQIE10Digitizer, and theHFQIE8DetIds.

Referenced by updateGeometry().

                                                                                                       {
     //if results are already cached, no need to look again
     if(theHFQIE8DetIds.size()>0 || theHFQIE10DetIds.size()>0) return;
     
     //get the QIETypes
     edm::ESHandle<HcalQIETypes> q;
     eventSetup.get<HcalQIETypesRcd>().get(q);
     edm::ESHandle<HcalTopology> htopo;
     eventSetup.get<HcalRecNumberingRecord>().get(htopo);
    
     HcalQIETypes qieTypes(*q.product());
     if (qieTypes.topo()==0) {
       qieTypes.setTopo(htopo.product());
     }
     
     for(std::vector<DetId>::const_iterator detItr = allCells.begin(); detItr != allCells.end(); ++detItr) {
       HcalQIENum qieType = HcalQIENum(qieTypes.getValues(*detItr)->getValue());
       if(qieType == QIE8) {
         theHFQIE8DetIds.push_back(*detItr);
       } else if(qieType == QIE10) {
         theHFQIE10DetIds.push_back(*detItr);
       } else { //default is QIE8
         theHFQIE8DetIds.push_back(*detItr);
       }
     }
     
     if(theHFQIE8DetIds.size()>0) theHFDigitizer->setDetIds(theHFQIE8DetIds);
     else {
         delete theHFDigitizer;
         theHFDigitizer = NULL;
     }
     
     if(theHFQIE10DetIds.size()>0) theHFQIE10Digitizer->setDetIds(theHFQIE10DetIds);
     else {
         delete theHFQIE10Digitizer;
         theHFQIE10Digitizer = NULL;
     }
 }

void HcalDigitizer::buildHOSiPMCells	(	const std::vector< DetId > &	allCells,
		const edm::EventSetup &	eventSetup
	)

private

Definition at line 727 of file HcalDigitizer.cc.

References edm::EventSetup::get(), HcalShapes::HAMAMATSU, NULL, AlCaHLTBitMon_ParallelJobs::p, edm::ESHandle< T >::product(), HcalHitFilter< subdets >::setDetIds(), CaloTDigitizer< Traits, runHelper >::setDetIds(), HcalSimParameterMap::setHOHamamatsuDetIds(), HcalSimParameterMap::setHOZecotekDetIds(), HcalCondObjectContainerBase::setTopo(), theHODigitizer, theHOHitFilter, theHOHPDDetIds, theHOSiPMCode, theHOSiPMDetIds, theHOSiPMDigitizer, theHOSiPMHitFilter, theParameterMap, and HcalShapes::ZECOTEK.

Referenced by updateGeometry().

                                                                                                        {
   // all HPD
 
   if(theHOSiPMCode == 0) {
     theHODigitizer->setDetIds(allCells);
   } else if(theHOSiPMCode == 1) {
     theHOSiPMDigitizer->setDetIds(allCells);
     // FIXME pick Zecotek or hamamatsu?
   } else if(theHOSiPMCode == 2) {
     std::vector<HcalDetId> zecotekDetIds, hamamatsuDetIds;
     edm::ESHandle<HcalMCParams> p;
     eventSetup.get<HcalMCParamsRcd>().get(p);
     edm::ESHandle<HcalTopology> htopo;
     eventSetup.get<HcalRecNumberingRecord>().get(htopo);
    
     HcalMCParams mcParams(*p.product());
     if (mcParams.topo()==0) {
       mcParams.setTopo(htopo.product());
     }
 
     for(std::vector<DetId>::const_iterator detItr = allCells.begin(); detItr != allCells.end(); ++detItr) {
       int shapeType = mcParams.getValues(*detItr)->signalShape();
       if(shapeType == HcalShapes::ZECOTEK) {
         zecotekDetIds.emplace_back(*detItr);
         theHOSiPMDetIds.push_back(*detItr);
       } else if(shapeType == HcalShapes::HAMAMATSU) {
         hamamatsuDetIds.emplace_back(*detItr);
         theHOSiPMDetIds.push_back(*detItr);
       } else {
         theHOHPDDetIds.push_back(*detItr);
       }
     }
 
     if(theHOHPDDetIds.size()>0) theHODigitizer->setDetIds(theHOHPDDetIds);
     else {
       delete theHODigitizer;
       theHODigitizer = NULL;
     }
     
     if(theHOSiPMDetIds.size()>0) theHOSiPMDigitizer->setDetIds(theHOSiPMDetIds);
     else {
       delete theHOSiPMDigitizer;
       theHOSiPMDigitizer = NULL;
     }
     
     if(theHOHPDDetIds.size()>0 && theHOSiPMDetIds.size()>0){
       theHOSiPMHitFilter.setDetIds(theHOSiPMDetIds);
       theHOHitFilter.setDetIds(theHOHPDDetIds);
     }
     
     theParameterMap->setHOZecotekDetIds(zecotekDetIds);
     theParameterMap->setHOHamamatsuDetIds(hamamatsuDetIds);
 
     // make sure we don't got through this exercise again
     theHOSiPMCode = -2;
   }
 }

void HcalDigitizer::checkGeometry ( const edm::EventSetup & eventSetup )

private

make sure the digitizer has the correct list of all cells that exist in the geometry

Definition at line 551 of file HcalDigitizer.cc.

References geometry, edm::EventSetup::get(), theGeometry, theRecNumber, and updateGeometry().

Referenced by beginRun().

                                                                   {
   // TODO find a way to avoid doing this every event
   edm::ESHandle<CaloGeometry> geometry;
   eventSetup.get<CaloGeometryRecord>().get(geometry);
   edm::ESHandle<HcalDDDRecConstants> pHRNDC;
   eventSetup.get<HcalRecNumberingRecord>().get(pHRNDC);
 
   // See if it's been updated
   if (&*geometry != theGeometry) {
     theGeometry = &*geometry;
     theRecNumber= &*pHRNDC;
     updateGeometry(eventSetup);
   }
 }

void HcalDigitizer::darkening ( std::vector< PCaloHit > & hcalHits )

private

Definition at line 785 of file HcalDigitizer.cc.

References HBHEDarkening::degradation(), deliveredLumi, particleFlowClusterECALTimeSelected_cfi::depth, HcalBarrel, HcalEndcap, HcalForward, cuy::ii, m_HBDarkening, m_HEDarkening, m_HFRecalibration, phi, HcalTestNumbering::unpackHcalIndex(), and z.

Referenced by accumulateCaloHits().

                                                            {
 
   for (unsigned int ii=0; ii<hcalHits.size(); ++ii) {
     uint32_t tmpId = hcalHits[ii].id();
     int det, z, depth, ieta, phi, lay;
     HcalTestNumbering::unpackHcalIndex(tmpId,det,z,depth,ieta,phi,lay);
     
     bool darkened = false;
     float dweight = 1.;
     
     if(det==int(HcalBarrel) && m_HBDarkening){
       //HB darkening
       dweight = m_HBDarkening->degradation(deliveredLumi,ieta,lay);
       darkened = true;
     }
     else if(det==int(HcalEndcap) && m_HEDarkening){
       //HE darkening
       dweight = m_HEDarkening->degradation(deliveredLumi,ieta,lay);
       darkened = true;
     }
     else if(det==int(HcalForward) && m_HFRecalibration){
       //HF darkening - approximate: invert recalibration factor
       dweight = 1.0/m_HFRecalibration->getCorr(ieta,depth,deliveredLumi);
       darkened = true;
     }
     
     //reset hit energy
     if(darkened) hcalHits[ii].setEnergy(hcalHits[ii].energy()*dweight); 
   }
   
 }

void HcalDigitizer::endRun ( )

Definition at line 546 of file HcalDigitizer.cc.

References HcalShapes::endRun(), and theShapes.

Referenced by HcalDigiProducer::endRun().

                            {
   theShapes->endRun();
 }

void HcalDigitizer::fillFakeHits ( )

private

some hits in each subdetector, just for testing purposes

void HcalDigitizer::finalizeEvent	(	edm::Event &	e,
		edm::EventSetup const &	c,
		CLHEP::HepRandomEngine *
	)

Definition at line 438 of file HcalDigitizer.cc.

References gather_cfg::cout, debugCS_, CaloTDigitizer< Traits, runHelper >::getCaloSamples(), hbhegeo, hfgeo, hogeo, injectedHits_, injectTestHits_, isHCAL, isZDC, HcalDataFrameContainer< QIE11DataFrame >::MAXSAMPLES, HcalDataFrameContainer< QIE10DataFrame >::MAXSAMPLES, eostools::move(), edm::Event::put(), CaloSimParameters::readoutFrameSize(), CaloTDigitizer< Traits, runHelper >::run(), HcalSimParameterMap::simParameters(), theHBHEDigitizer, theHBHEQIE11DetIds, theHBHEQIE11Digitizer, theHBHESiPMResponse, theHFDigitizer, theHFQIE10DetIds, theHFQIE10Digitizer, theHODigitizer, theHOSiPMDigitizer, theParameterMap, theZDCDigitizer, and zdcgeo.

Referenced by HcalDigiProducer::finalizeEvent().

                                                                                                             {
 
   // Step B: Create empty output
   std::unique_ptr<HBHEDigiCollection> hbheResult(new HBHEDigiCollection());
   std::unique_ptr<HODigiCollection> hoResult(new HODigiCollection());
   std::unique_ptr<HFDigiCollection> hfResult(new HFDigiCollection());
   std::unique_ptr<ZDCDigiCollection> zdcResult(new ZDCDigiCollection());
   std::unique_ptr<QIE10DigiCollection> hfQIE10Result(
     new QIE10DigiCollection(
       theHFQIE10DetIds.size()>0 ? 
       theParameterMap->simParameters(theHFQIE10DetIds[0]).readoutFrameSize() : 
       QIE10DigiCollection::MAXSAMPLES
     )
   );
   std::unique_ptr<QIE11DigiCollection> hbheQIE11Result(
     new QIE11DigiCollection(
       theHBHEQIE11DetIds.size()>0 ? 
       ((HcalSiPMHitResponse *)theHBHESiPMResponse)->getReadoutFrameSize(theHBHEQIE11DetIds[0]) :
 //      theParameterMap->simParameters(theHBHEQIE11DetIds[0]).readoutFrameSize() : 
       QIE11DigiCollection::MAXSAMPLES
     )
   );
 
   // Step C: Invoke the algorithm, getting back outputs.
   if(isHCAL&&hbhegeo){
     if(theHBHEDigitizer)        theHBHEDigitizer->run(*hbheResult, engine);
     if(theHBHEQIE11Digitizer)    theHBHEQIE11Digitizer->run(*hbheQIE11Result, engine);
   }
   if(isHCAL&&hogeo) {
     if(theHODigitizer) theHODigitizer->run(*hoResult, engine);
     if(theHOSiPMDigitizer) theHOSiPMDigitizer->run(*hoResult, engine);
   }
   if(isHCAL&&hfgeo) {
     if(theHFDigitizer) theHFDigitizer->run(*hfResult, engine);
     if(theHFQIE10Digitizer) theHFQIE10Digitizer->run(*hfQIE10Result, engine);
   }
   if(isZDC&&zdcgeo) {
     theZDCDigitizer->run(*zdcResult, engine);
   }
   
   edm::LogInfo("HcalDigitizer") << "HCAL HBHE digis : " << hbheResult->size();
   edm::LogInfo("HcalDigitizer") << "HCAL HO digis   : " << hoResult->size();
   edm::LogInfo("HcalDigitizer") << "HCAL HF digis   : " << hfResult->size();
   edm::LogInfo("HcalDigitizer") << "HCAL ZDC digis  : " << zdcResult->size();
   edm::LogInfo("HcalDigitizer") << "HCAL HF QIE10 digis : " << hfQIE10Result->size();
   edm::LogInfo("HcalDigitizer") << "HCAL HBHE QIE11 digis : " << hbheQIE11Result->size();
 
 #ifdef DebugLog
   std::cout << std::endl;
   std::cout << "HCAL HBHE digis : " << hbheResult->size() << std::endl;
   std::cout << "HCAL HO   digis : " << hoResult->size() << std::endl;
   std::cout << "HCAL HF   digis : " << hfResult->size() << std::endl;
   std::cout << "HCAL ZDC  digis : " << zdcResult->size() << std::endl;
   std::cout << "HCAL HF QIE10 digis : " << hfQIE10Result->size() << std::endl;
   std::cout << "HCAL HBHE QIE11 digis : " << hbheQIE11Result->size() << std::endl;
 #endif
 
   // Step D: Put outputs into event
   e.put(std::move(hbheResult));
   e.put(std::move(hoResult));
   e.put(std::move(hfResult));
   e.put(std::move(zdcResult));
   e.put(std::move(hfQIE10Result), "HFQIE10DigiCollection");
   e.put(std::move(hbheQIE11Result), "HBHEQIE11DigiCollection");
 
   if(debugCS_){
     std::unique_ptr<CaloSamplesCollection> csResult(new CaloSamplesCollection());
     //smush together all the results
     if(theHBHEDigitizer)      csResult->insert(csResult->end(),theHBHEDigitizer->getCaloSamples().begin(),theHBHEDigitizer->getCaloSamples().end());
     if(theHBHEQIE11Digitizer) csResult->insert(csResult->end(),theHBHEQIE11Digitizer->getCaloSamples().begin(),theHBHEQIE11Digitizer->getCaloSamples().end());
     if(theHODigitizer)        csResult->insert(csResult->end(),theHODigitizer->getCaloSamples().begin(),theHODigitizer->getCaloSamples().end());
     if(theHOSiPMDigitizer)    csResult->insert(csResult->end(),theHOSiPMDigitizer->getCaloSamples().begin(),theHOSiPMDigitizer->getCaloSamples().end());
     if(theHFDigitizer)        csResult->insert(csResult->end(),theHFDigitizer->getCaloSamples().begin(),theHFDigitizer->getCaloSamples().end());
     if(theHFQIE10Digitizer)   csResult->insert(csResult->end(),theHFQIE10Digitizer->getCaloSamples().begin(),theHFQIE10Digitizer->getCaloSamples().end());
     csResult->insert(csResult->end(),theZDCDigitizer->getCaloSamples().begin(),theZDCDigitizer->getCaloSamples().end());
     e.put(std::move(csResult),"HcalSamples");
   }
 
   if(injectTestHits_){
     std::unique_ptr<edm::PCaloHitContainer> pcResult(new edm::PCaloHitContainer());
     pcResult->insert(pcResult->end(),injectedHits_.begin(),injectedHits_.end());
     e.put(std::move(pcResult),"HcalHits");
   }
 
 #ifdef DebugLog
   std::cout << std::endl << "========>  HcalDigitizer e.put " << std::endl <<  std::endl;
 #endif
 
 }

void HcalDigitizer::initializeEvent	(	edm::Event const &	e,
		edm::EventSetup const &	c
	)

Produces the EDM products,

Definition at line 296 of file HcalDigitizer.cc.

References edm::EventSetup::get(), CaloTDigitizer< Traits, runHelper >::initializeHits(), edm::ESHandle< T >::product(), HcalCoderFactory::setDbService(), HcalAmplifier::setDbService(), HcalElectronicsSim::setDbService(), HcalSimParameterMap::setDbService(), theCoderFactory, theHBHEAmplifier, theHBHEDigitizer, theHBHEQIE11Amplifier, theHBHEQIE11Digitizer, theHBHEQIE11ElectronicsSim, theHFAmplifier, theHFDigitizer, theHFQIE10Amplifier, theHFQIE10Digitizer, theHFQIE10ElectronicsSim, theHOAmplifier, theHODigitizer, theHOSiPMDigitizer, theParameterMap, theZDCAmplifier, and theZDCDigitizer.

Referenced by HcalDigiProducer::initializeEvent().

                                                                                       {
   // get the appropriate gains, noises, & widths for this event
   edm::ESHandle<HcalDbService> conditions;
   eventSetup.get<HcalDbRecord>().get(conditions);
   
   theHBHEAmplifier->setDbService(conditions.product());
   theHFAmplifier->setDbService(conditions.product());
   theHOAmplifier->setDbService(conditions.product());
   theZDCAmplifier->setDbService(conditions.product());
   theHFQIE10Amplifier->setDbService(conditions.product());
   theHBHEQIE11Amplifier->setDbService(conditions.product());
   
   theHFQIE10ElectronicsSim->setDbService(conditions.product());
   theHBHEQIE11ElectronicsSim->setDbService(conditions.product());
 
   theCoderFactory->setDbService(conditions.product());
   theParameterMap->setDbService(conditions.product());
 
   //initialize hits
   if(theHBHEDigitizer) theHBHEDigitizer->initializeHits();
   if(theHBHEQIE11Digitizer) theHBHEQIE11Digitizer->initializeHits();
   if(theHODigitizer) theHODigitizer->initializeHits();
   if(theHOSiPMDigitizer) theHOSiPMDigitizer->initializeHits();
   if(theHFQIE10Digitizer) theHFQIE10Digitizer->initializeHits();
   if(theHFDigitizer) theHFDigitizer->initializeHits();
   theZDCDigitizer->initializeHits();
 
 }

void HcalDigitizer::setHBHENoiseSignalGenerator ( HcalBaseSignalGenerator * noiseGenerator )

Definition at line 253 of file HcalDigitizer.cc.

References HcalBaseSignalGenerator::setElectronicsSim(), HcalAmplifier::setNoiseSignalGenerator(), CaloTDigitizer< Traits, runHelper >::setNoiseSignalGenerator(), HcalBaseSignalGenerator::setParameterMap(), theHBHEAmplifier, theHBHEDigitizer, theHBHEElectronicsSim, and theParameterMap.

Referenced by HcalDigiProducer::setHBHENoiseSignalGenerator().

                                                                                         {
   noiseGenerator->setParameterMap(theParameterMap);
   noiseGenerator->setElectronicsSim(theHBHEElectronicsSim);
   if (theHBHEDigitizer) theHBHEDigitizer->setNoiseSignalGenerator(noiseGenerator);
   theHBHEAmplifier->setNoiseSignalGenerator(noiseGenerator);
 }

void HcalDigitizer::setHFNoiseSignalGenerator ( HcalBaseSignalGenerator * noiseGenerator )

Definition at line 267 of file HcalDigitizer.cc.

References HcalBaseSignalGenerator::setElectronicsSim(), HcalAmplifier::setNoiseSignalGenerator(), CaloTDigitizer< Traits, runHelper >::setNoiseSignalGenerator(), HcalBaseSignalGenerator::setParameterMap(), theHFAmplifier, theHFDigitizer, theHFElectronicsSim, and theParameterMap.

Referenced by HcalDigiProducer::setHFNoiseSignalGenerator().

                                                                                       {
   noiseGenerator->setParameterMap(theParameterMap);
   noiseGenerator->setElectronicsSim(theHFElectronicsSim);
   if(theHFDigitizer) theHFDigitizer->setNoiseSignalGenerator(noiseGenerator);
   theHFAmplifier->setNoiseSignalGenerator(noiseGenerator);
 }

void HcalDigitizer::setHONoiseSignalGenerator ( HcalBaseSignalGenerator * noiseGenerator )

Definition at line 281 of file HcalDigitizer.cc.

References HcalBaseSignalGenerator::setElectronicsSim(), HcalAmplifier::setNoiseSignalGenerator(), CaloTDigitizer< Traits, runHelper >::setNoiseSignalGenerator(), HcalBaseSignalGenerator::setParameterMap(), theHOAmplifier, theHODigitizer, theHOElectronicsSim, theHOSiPMDigitizer, and theParameterMap.

Referenced by HcalDigiProducer::setHONoiseSignalGenerator().

                                                                                       {
   noiseGenerator->setParameterMap(theParameterMap);
   noiseGenerator->setElectronicsSim(theHOElectronicsSim);
   if(theHODigitizer) theHODigitizer->setNoiseSignalGenerator(noiseGenerator);
   if(theHOSiPMDigitizer) theHOSiPMDigitizer->setNoiseSignalGenerator(noiseGenerator);
   theHOAmplifier->setNoiseSignalGenerator(noiseGenerator);
 }

void HcalDigitizer::setQIE10NoiseSignalGenerator ( HcalBaseSignalGenerator * noiseGenerator )

Definition at line 274 of file HcalDigitizer.cc.

References HcalBaseSignalGenerator::setElectronicsSim(), HcalAmplifier::setNoiseSignalGenerator(), CaloTDigitizer< Traits, runHelper >::setNoiseSignalGenerator(), HcalBaseSignalGenerator::setParameterMap(), theHFQIE10Amplifier, theHFQIE10Digitizer, theHFQIE10ElectronicsSim, and theParameterMap.

Referenced by HcalDigiProducer::setQIE10NoiseSignalGenerator().

                                                                                          {
   noiseGenerator->setParameterMap(theParameterMap);
   noiseGenerator->setElectronicsSim(theHFQIE10ElectronicsSim);
   if(theHFQIE10Digitizer) theHFQIE10Digitizer->setNoiseSignalGenerator(noiseGenerator);
   theHFQIE10Amplifier->setNoiseSignalGenerator(noiseGenerator);
 }

void HcalDigitizer::setQIE11NoiseSignalGenerator ( HcalBaseSignalGenerator * noiseGenerator )

Definition at line 260 of file HcalDigitizer.cc.

References HcalBaseSignalGenerator::setElectronicsSim(), HcalAmplifier::setNoiseSignalGenerator(), CaloTDigitizer< Traits, runHelper >::setNoiseSignalGenerator(), HcalBaseSignalGenerator::setParameterMap(), theHBHEQIE11Amplifier, theHBHEQIE11Digitizer, theHBHEQIE11ElectronicsSim, and theParameterMap.

Referenced by HcalDigiProducer::setQIE11NoiseSignalGenerator().

                                                                                          {
   noiseGenerator->setParameterMap(theParameterMap);
   noiseGenerator->setElectronicsSim(theHBHEQIE11ElectronicsSim);
   if(theHBHEQIE11Digitizer) theHBHEQIE11Digitizer->setNoiseSignalGenerator(noiseGenerator);
   theHBHEQIE11Amplifier->setNoiseSignalGenerator(noiseGenerator);
 }

void HcalDigitizer::setZDCNoiseSignalGenerator ( HcalBaseSignalGenerator * noiseGenerator )

Definition at line 289 of file HcalDigitizer.cc.

References HcalBaseSignalGenerator::setElectronicsSim(), HcalAmplifier::setNoiseSignalGenerator(), CaloTDigitizer< Traits, runHelper >::setNoiseSignalGenerator(), HcalBaseSignalGenerator::setParameterMap(), theParameterMap, theZDCAmplifier, theZDCDigitizer, and theZDCElectronicsSim.

Referenced by HcalDigiProducer::setZDCNoiseSignalGenerator().

                                                                                        {
   noiseGenerator->setParameterMap(theParameterMap);
   noiseGenerator->setElectronicsSim(theZDCElectronicsSim);
   theZDCDigitizer->setNoiseSignalGenerator(noiseGenerator);
   theZDCAmplifier->setNoiseSignalGenerator(noiseGenerator);
 }

void HcalDigitizer::updateGeometry ( const edm::EventSetup & eventSetup )

private

Definition at line 567 of file HcalDigitizer.cc.

References buildHBHEQIECells(), buildHFQIECells(), buildHOSiPMCells(), DetId::Calo, Exception, CaloGeometry::getValidDetIds(), hbheCells, hbhegeo, DetId::Hcal, HcalBarrel, HcalEndcap, HcalForward, HcalOuter, hfgeo, hogeo, injectedHits_, injectedHitsCells_, injectedHitsEnergy_, injectedHitsTime_, injectTestHits_, killHE_, CaloTDigitizer< Traits, runHelper >::setDetIds(), HcalHitRelabeller::setGeometry(), CaloHitResponse::setGeometry(), HcalZDCDetId::SubdetectorId, theGeometry, theHBHEQIE11DetIds, theHBHEResponse, theHBHESiPMResponse, theHFQIE10Response, theHFResponse, theHOResponse, theHOSiPMDigitizer, theHOSiPMResponse, theRecNumber, theRelabeller, theZDCDigitizer, theZDCResponse, tmp, and zdcgeo.

Referenced by checkGeometry().

                                                                     {
   if(theHBHEResponse) theHBHEResponse->setGeometry(theGeometry);
   if(theHBHESiPMResponse) theHBHESiPMResponse->setGeometry(theGeometry);
   if(theHOResponse) theHOResponse->setGeometry(theGeometry);
   if(theHOSiPMResponse) theHOSiPMResponse->setGeometry(theGeometry);
   theHFResponse->setGeometry(theGeometry);
   theHFQIE10Response->setGeometry(theGeometry);
   theZDCResponse->setGeometry(theGeometry);
   if(theRelabeller) theRelabeller->setGeometry(theRecNumber);
 
   const std::vector<DetId>& hbCells = theGeometry->getValidDetIds(DetId::Hcal, HcalBarrel);
   const std::vector<DetId>& heCells = theGeometry->getValidDetIds(DetId::Hcal, HcalEndcap);
   const std::vector<DetId>& hoCells = theGeometry->getValidDetIds(DetId::Hcal, HcalOuter);
   const std::vector<DetId>& hfCells = theGeometry->getValidDetIds(DetId::Hcal, HcalForward);
   const std::vector<DetId>& zdcCells = theGeometry->getValidDetIds(DetId::Calo, HcalZDCDetId::SubdetectorId);
   //const std::vector<DetId>& hcalTrigCells = geometry->getValidDetIds(DetId::Hcal, HcalTriggerTower);
   //const std::vector<DetId>& hcalCalib = geometry->getValidDetIds(DetId::Calo, HcalCastorDetId::SubdetectorId);
 //  std::cout<<"HcalDigitizer::CheckGeometry number of cells: "<<zdcCells.size()<<std::endl;
   if(zdcCells.empty()) zdcgeo = false;
   if(hbCells.empty() && heCells.empty()) hbhegeo = false;
   if(hoCells.empty()) hogeo = false;
   if(hfCells.empty()) hfgeo = false;
   // combine HB & HE
 
   hbheCells = hbCells;
   if( !killHE_) {
     hbheCells.insert(hbheCells.end(), heCells.begin(), heCells.end());
   }
   //handle mixed QIE8/11 scenario in HBHE
   buildHBHEQIECells(hbheCells,eventSetup);
   if(theHBHESiPMResponse)
     ((HcalSiPMHitResponse *)theHBHESiPMResponse)->setDetIds(theHBHEQIE11DetIds);
   
   if(theHOSiPMDigitizer) {
     buildHOSiPMCells(hoCells, eventSetup);
     if(theHOSiPMResponse)
       ((HcalSiPMHitResponse *)theHOSiPMResponse)->setDetIds(hoCells);
   }
   
   //handle mixed QIE8/10 scenario in HF
   buildHFQIECells(hfCells,eventSetup);
   
   theZDCDigitizer->setDetIds(zdcCells);
 
   //fill test hits collection if desired and empty
   if(injectTestHits_ && injectedHits_.size()==0 && injectedHitsCells_.size()>0 && injectedHitsEnergy_.size()>0){
     //make list of specified cells if desired
     std::vector<DetId> testCells;
     if(injectedHitsCells_.size()>=4){
       testCells.reserve(injectedHitsCells_.size()/4);
       for(unsigned ic = 0; ic < injectedHitsCells_.size(); ic += 4){
         if(ic+4 > injectedHitsCells_.size()) break;
         testCells.push_back(HcalDetId((HcalSubdetector)injectedHitsCells_[ic],injectedHitsCells_[ic+1],
                             injectedHitsCells_[ic+2],injectedHitsCells_[ic+3]));
       }
     }
     else{
       int testSubdet = injectedHitsCells_[0];
       if(testSubdet==HcalBarrel) testCells = hbCells;
       else if(testSubdet==HcalEndcap) testCells = heCells;
       else if(testSubdet==HcalForward) testCells = hfCells;
       else if(testSubdet==HcalOuter) testCells = hoCells;
       else throw cms::Exception("Configuration") << "Unknown subdet " << testSubdet << " for HCAL test hit injection";
     }
     bool useHitTimes = (injectedHitsTime_.size()==injectedHitsEnergy_.size());
     injectedHits_.reserve(testCells.size()*injectedHitsEnergy_.size());
     for(unsigned ih = 0; ih < injectedHitsEnergy_.size(); ++ih){
       double tmp = useHitTimes ? injectedHitsTime_[ih] : 0.;
       for(auto& aCell: testCells){
         injectedHits_.emplace_back(aCell,injectedHitsEnergy_[ih],tmp);
       }
     }
   }
 }