GlobalHitsProdHist Class Reference

#include <GlobalHitsProdHist.h>

Inheritance diagram for GlobalHitsProdHist:

Public Member Functions
void	beginJob () override
void	endJob () override
void	endRunProduce (edm::Run &, const edm::EventSetup &) override
	GlobalHitsProdHist (const edm::ParameterSet &)
void	produce (edm::Event &, const edm::EventSetup &) override
	~GlobalHitsProdHist () override
Public Member Functions inherited from edm::one::EDProducer< edm::EndRunProducer >
	EDProducer ()=default
SerialTaskQueue *	globalLuminosityBlocksQueue () final
SerialTaskQueue *	globalRunsQueue () final
bool	hasAbilityToProduceInBeginLumis () const final
bool	hasAbilityToProduceInBeginProcessBlocks () const final
bool	hasAbilityToProduceInBeginRuns () const final
bool	hasAbilityToProduceInEndLumis () const final
bool	hasAbilityToProduceInEndProcessBlocks () const final
bool	hasAbilityToProduceInEndRuns () const final
bool	wantsGlobalLuminosityBlocks () const final
bool	wantsGlobalRuns () const final
bool	wantsInputProcessBlocks () const final
bool	wantsProcessBlocks () const final
Public Member Functions inherited from edm::one::EDProducerBase
	EDProducerBase ()
ModuleDescription const &	moduleDescription () const
bool	wantsStreamLuminosityBlocks () const
bool	wantsStreamRuns () const
	~EDProducerBase () override
Public Member Functions inherited from edm::ProducerBase
void	callWhenNewProductsRegistered (std::function< void(BranchDescription const &)> const &func)
std::vector< edm::ProductResolverIndex > const &	indiciesForPutProducts (BranchType iBranchType) const
	ProducerBase ()
std::vector< edm::ProductResolverIndex > const &	putTokenIndexToProductResolverIndex () const
std::vector< bool > const &	recordProvenanceList () const
void	registerProducts (ProducerBase *, ProductRegistry *, ModuleDescription const &)
std::function< void(BranchDescription const &)>	registrationCallback () const
	used by the fwk to register list of products More...
void	resolvePutIndicies (BranchType iBranchType, ModuleToResolverIndicies const &iIndicies, std::string const &moduleLabel)
TypeLabelList const &	typeLabelList () const
	used by the fwk to register the list of products of this module More...
	~ProducerBase () noexcept(false) override
Public Member Functions inherited from edm::EDConsumerBase
std::vector< ConsumesInfo >	consumesInfo () const
void	convertCurrentProcessAlias (std::string const &processName)
	Convert "@currentProcess" in InputTag process names to the actual current process name. More...
	EDConsumerBase ()
	EDConsumerBase (EDConsumerBase &&)=default
	EDConsumerBase (EDConsumerBase const &)=delete
ESProxyIndex const *	esGetTokenIndices (edm::Transition iTrans) const
std::vector< ESProxyIndex > const &	esGetTokenIndicesVector (edm::Transition iTrans) const
std::vector< ESRecordIndex > const &	esGetTokenRecordIndicesVector (edm::Transition iTrans) const
ProductResolverIndexAndSkipBit	indexFrom (EDGetToken, BranchType, TypeID const &) const
void	itemsMayGet (BranchType, std::vector< ProductResolverIndexAndSkipBit > &) const
void	itemsToGet (BranchType, std::vector< ProductResolverIndexAndSkipBit > &) const
std::vector< ProductResolverIndexAndSkipBit > const &	itemsToGetFrom (BranchType iType) const
void	labelsForToken (EDGetToken iToken, Labels &oLabels) const
void	modulesWhoseProductsAreConsumed (std::vector< ModuleDescription const * > &modules, ProductRegistry const &preg, std::map< std::string, ModuleDescription const * > const &labelsToDesc, std::string const &processName) const
EDConsumerBase &	operator= (EDConsumerBase &&)=default
EDConsumerBase const &	operator= (EDConsumerBase const &)=delete
bool	registeredToConsume (ProductResolverIndex, bool, BranchType) const
bool	registeredToConsumeMany (TypeID const &, BranchType) const
ProductResolverIndexAndSkipBit	uncheckedIndexFrom (EDGetToken) const
void	updateLookup (BranchType iBranchType, ProductResolverIndexHelper const &, bool iPrefetchMayGet)
void	updateLookup (eventsetup::ESRecordsToProxyIndices const &)
virtual	~EDConsumerBase () noexcept(false)

Private Member Functions
void	fillECal (edm::Event &, const edm::EventSetup &)
void	fillG4MC (edm::Event &)
void	fillHCal (edm::Event &, const edm::EventSetup &)
void	fillMuon (edm::Event &, const edm::EventSetup &)
void	fillTrk (edm::Event &, const edm::EventSetup &)

Private Attributes
unsigned int	count
edm::InputTag	ECalEBSrc_
edm::EDGetTokenT< edm::PCaloHitContainer >	ECalEBSrc_Token_
edm::InputTag	ECalEESrc_
edm::EDGetTokenT< edm::PCaloHitContainer >	ECalEESrc_Token_
edm::InputTag	ECalESSrc_
edm::EDGetTokenT< edm::PCaloHitContainer >	ECalESSrc_Token_
std::string	fName
int	frequency
edm::InputTag	G4TrkSrc_
edm::EDGetTokenT< edm::SimTrackContainer >	G4TrkSrc_Token_
edm::InputTag	G4VtxSrc_
edm::EDGetTokenT< edm::SimVertexContainer >	G4VtxSrc_Token_
bool	getAllProvenances
TH1F *	hCaloEcal [2]
TH1F *	hCaloEcalE [2]
TH1F *	hCaloEcalEta
TH1F *	hCaloEcalPhi
TH1F *	hCaloEcalToF [2]
TH1F *	hCaloHcal [2]
TH1F *	hCaloHcalE [2]
TH1F *	hCaloHcalEta
TH1F *	hCaloHcalPhi
TH1F *	hCaloHcalToF [2]
TH1F *	hCaloPreSh [2]
TH1F *	hCaloPreShE [2]
TH1F *	hCaloPreShEta
TH1F *	hCaloPreShPhi
TH1F *	hCaloPreShToF [2]
edm::InputTag	HCalSrc_
edm::EDGetTokenT< edm::PCaloHitContainer >	HCalSrc_Token_
TH1F *	hGeantTrkE
TH1F *	hGeantTrkPt
TH1F *	hGeantVtxX [2]
TH1F *	hGeantVtxY [2]
TH1F *	hGeantVtxZ [2]
std::map< std::string, TH1F * >	histMap_
std::vector< std::string >	histName_
TH1F *	hMCG4Trk [2]
TH1F *	hMCG4Vtx [2]
TH1F *	hMCRGP [2]
TH1F *	hMuon [2]
TH1F *	hMuonCscToF [2]
TH1F *	hMuonCscZ
TH1F *	hMuonDtR
TH1F *	hMuonDtToF [2]
TH1F *	hMuonEta
TH1F *	hMuonPhi
TH1F *	hMuonRpcBR
TH1F *	hMuonRpcBToF [2]
TH1F *	hMuonRpcFToF [2]
TH1F *	hMuonRpcFZ
TH1F *	hTrackerPx [2]
TH1F *	hTrackerPxBR
TH1F *	hTrackerPxBToF
TH1F *	hTrackerPxEta
TH1F *	hTrackerPxFToF
TH1F *	hTrackerPxFZ
TH1F *	hTrackerPxPhi
TH1F *	hTrackerSi [2]
TH1F *	hTrackerSiBR
TH1F *	hTrackerSiBToF
TH1F *	hTrackerSiEta
TH1F *	hTrackerSiFToF
TH1F *	hTrackerSiFZ
TH1F *	hTrackerSiPhi
edm::InputTag	MuonCscSrc_
edm::EDGetTokenT< edm::PSimHitContainer >	MuonCscSrc_Token_
edm::InputTag	MuonDtSrc_
edm::EDGetTokenT< edm::PSimHitContainer >	MuonDtSrc_Token_
edm::InputTag	MuonRpcSrc_
edm::EDGetTokenT< edm::PSimHitContainer >	MuonRpcSrc_Token_
int	nMuonHits
int	nPxlHits
int	nRawGenPart
int	nSiHits
bool	printProvenanceInfo
edm::InputTag	PxlBrlHighSrc_
edm::EDGetTokenT< edm::PSimHitContainer >	PxlBrlHighSrc_Token_
edm::InputTag	PxlBrlLowSrc_
edm::EDGetTokenT< edm::PSimHitContainer >	PxlBrlLowSrc_Token_
edm::InputTag	PxlFwdHighSrc_
edm::EDGetTokenT< edm::PSimHitContainer >	PxlFwdHighSrc_Token_
edm::InputTag	PxlFwdLowSrc_
edm::EDGetTokenT< edm::PSimHitContainer >	PxlFwdLowSrc_Token_
edm::InputTag	SiTECHighSrc_
edm::EDGetTokenT< edm::PSimHitContainer >	SiTECHighSrc_Token_
edm::InputTag	SiTECLowSrc_
edm::EDGetTokenT< edm::PSimHitContainer >	SiTECLowSrc_Token_
edm::InputTag	SiTIBHighSrc_
edm::EDGetTokenT< edm::PSimHitContainer >	SiTIBHighSrc_Token_
edm::InputTag	SiTIBLowSrc_
edm::EDGetTokenT< edm::PSimHitContainer >	SiTIBLowSrc_Token_
edm::InputTag	SiTIDHighSrc_
edm::EDGetTokenT< edm::PSimHitContainer >	SiTIDHighSrc_Token_
edm::InputTag	SiTIDLowSrc_
edm::EDGetTokenT< edm::PSimHitContainer >	SiTIDLowSrc_Token_
edm::InputTag	SiTOBHighSrc_
edm::EDGetTokenT< edm::PSimHitContainer >	SiTOBHighSrc_Token_
edm::InputTag	SiTOBLowSrc_
edm::EDGetTokenT< edm::PSimHitContainer >	SiTOBLowSrc_Token_
int	verbosity
int	vtxunit

Additional Inherited Members
Public Types inherited from edm::one::EDProducerBase
typedef EDProducerBase	ModuleType
Public Types inherited from edm::ProducerBase
using	ModuleToResolverIndicies = std::unordered_multimap< std::string, std::tuple< edm::TypeID const *, const char *, edm::ProductResolverIndex > >
typedef ProductRegistryHelper::TypeLabelList	TypeLabelList
Public Types inherited from edm::EDConsumerBase
typedef ProductLabels	Labels
Static Public Member Functions inherited from edm::one::EDProducerBase
static const std::string &	baseType ()
static void	fillDescriptions (ConfigurationDescriptions &descriptions)
static void	prevalidate (ConfigurationDescriptions &descriptions)
Protected Member Functions inherited from edm::ProducerBase
template<class ProductType >
BranchAliasSetterT< ProductType >	produces ()
	declare what type of product will make and with which optional label More...
template<typename ProductType , BranchType B>
BranchAliasSetterT< ProductType >	produces ()
template<typename ProductType , Transition B>
BranchAliasSetterT< ProductType >	produces ()
BranchAliasSetter	produces (const TypeID &id, std::string instanceName=std::string(), bool recordProvenance=true)
template<BranchType B>
BranchAliasSetter	produces (const TypeID &id, std::string instanceName=std::string(), bool recordProvenance=true)
template<Transition B>
BranchAliasSetter	produces (const TypeID &id, std::string instanceName=std::string(), bool recordProvenance=true)
template<typename ProductType , Transition B>
BranchAliasSetterT< ProductType >	produces (std::string instanceName)
template<class ProductType >
BranchAliasSetterT< ProductType >	produces (std::string instanceName)
template<typename ProductType , BranchType B>
BranchAliasSetterT< ProductType >	produces (std::string instanceName)
ProducesCollector	producesCollector ()
Protected Member Functions inherited from edm::EDConsumerBase
EDGetToken	consumes (const TypeToGet &id, edm::InputTag const &tag)
template<typename ProductType , BranchType B = InEvent>
EDGetTokenT< ProductType >	consumes (edm::InputTag const &tag)
template<BranchType B = InEvent>
EDConsumerBaseAdaptor< B >	consumes (edm::InputTag tag) noexcept
template<BranchType B>
EDGetToken	consumes (TypeToGet const &id, edm::InputTag const &tag)
ConsumesCollector	consumesCollector ()
	Use a ConsumesCollector to gather consumes information from helper functions. More...
template<typename ProductType , BranchType B = InEvent>
void	consumesMany ()
void	consumesMany (const TypeToGet &id)
template<BranchType B>
void	consumesMany (const TypeToGet &id)
template<typename ESProduct , typename ESRecord , Transition Tr = Transition::Event>
auto	esConsumes ()
template<Transition Tr = Transition::Event>
constexpr auto	esConsumes () noexcept
template<typename ESProduct , typename ESRecord , Transition Tr = Transition::Event>
auto	esConsumes (ESInputTag const &tag)
template<Transition Tr = Transition::Event>
auto	esConsumes (ESInputTag tag) noexcept
template<Transition Tr = Transition::Event>
ESGetTokenGeneric	esConsumes (eventsetup::EventSetupRecordKey const &iRecord, eventsetup::DataKey const &iKey)
	Used with EventSetupRecord::doGet. More...
EDGetToken	mayConsume (const TypeToGet &id, edm::InputTag const &tag)
template<BranchType B>
EDGetToken	mayConsume (const TypeToGet &id, edm::InputTag const &tag)
template<typename ProductType , BranchType B = InEvent>
EDGetTokenT< ProductType >	mayConsume (edm::InputTag const &tag)

Detailed Description

Class to fill dqm monitor elements from existing EDM file

Author

M. Strang SUNY-Buffalo

Definition at line 74 of file GlobalHitsProdHist.h.

Constructor & Destructor Documentation

GlobalHitsProdHist()

GlobalHitsProdHist::GlobalHitsProdHist ( const edm::ParameterSet &  iPSet )

explicit

Definition at line 12 of file GlobalHitsProdHist.cc.

    : fName(""),
      verbosity(0),
      frequency(0),
      vtxunit(0),
      getAllProvenances(false),
      printProvenanceInfo(false),
      G4VtxSrc_Token_(consumes<edm::SimVertexContainer>((iPSet.getParameter<edm::InputTag>("G4VtxSrc")))),
      G4TrkSrc_Token_(consumes<edm::SimTrackContainer>(iPSet.getParameter<edm::InputTag>("G4TrkSrc"))),
      count(0) {
  std::string MsgLoggerCat = "GlobalHitsProdHist_GlobalHitsProdHist";
 
  // get information from parameter set
  fName = iPSet.getUntrackedParameter<std::string>("Name");
  verbosity = iPSet.getUntrackedParameter<int>("Verbosity");
  frequency = iPSet.getUntrackedParameter<int>("Frequency");
  vtxunit = iPSet.getUntrackedParameter<int>("VtxUnit");
  edm::ParameterSet m_Prov = iPSet.getParameter<edm::ParameterSet>("ProvenanceLookup");
  getAllProvenances = m_Prov.getUntrackedParameter<bool>("GetAllProvenances");
  printProvenanceInfo = m_Prov.getUntrackedParameter<bool>("PrintProvenanceInfo");
 
  // get Labels to use to extract information
  PxlBrlLowSrc_ = iPSet.getParameter<edm::InputTag>("PxlBrlLowSrc");
  PxlBrlHighSrc_ = iPSet.getParameter<edm::InputTag>("PxlBrlHighSrc");
  PxlFwdLowSrc_ = iPSet.getParameter<edm::InputTag>("PxlFwdLowSrc");
  PxlFwdHighSrc_ = iPSet.getParameter<edm::InputTag>("PxlFwdHighSrc");
 
  SiTIBLowSrc_ = iPSet.getParameter<edm::InputTag>("SiTIBLowSrc");
  SiTIBHighSrc_ = iPSet.getParameter<edm::InputTag>("SiTIBHighSrc");
  SiTOBLowSrc_ = iPSet.getParameter<edm::InputTag>("SiTOBLowSrc");
  SiTOBHighSrc_ = iPSet.getParameter<edm::InputTag>("SiTOBHighSrc");
  SiTIDLowSrc_ = iPSet.getParameter<edm::InputTag>("SiTIDLowSrc");
  SiTIDHighSrc_ = iPSet.getParameter<edm::InputTag>("SiTIDHighSrc");
  SiTECLowSrc_ = iPSet.getParameter<edm::InputTag>("SiTECLowSrc");
  SiTECHighSrc_ = iPSet.getParameter<edm::InputTag>("SiTECHighSrc");
 
  MuonCscSrc_ = iPSet.getParameter<edm::InputTag>("MuonCscSrc");
  MuonDtSrc_ = iPSet.getParameter<edm::InputTag>("MuonDtSrc");
  MuonRpcSrc_ = iPSet.getParameter<edm::InputTag>("MuonRpcSrc");
 
  ECalEBSrc_ = iPSet.getParameter<edm::InputTag>("ECalEBSrc");
  ECalEESrc_ = iPSet.getParameter<edm::InputTag>("ECalEESrc");
  ECalESSrc_ = iPSet.getParameter<edm::InputTag>("ECalESSrc");
 
  HCalSrc_ = iPSet.getParameter<edm::InputTag>("HCalSrc");
 
  // use value of first digit to determine default output level (inclusive)
  // 0 is none, 1 is basic, 2 is fill output, 3 is gather output
  verbosity %= 10;
 
  // print out Parameter Set information being used
  if (verbosity >= 0) {
    edm::LogInfo(MsgLoggerCat)
        << "\n===============================\n"
        << "Initialized as EDProducer with parameter values:\n"
        << "    Name          = " << fName << "\n"
        << "    Verbosity     = " << verbosity << "\n"
        << "    Frequency     = " << frequency << "\n"
        << "    VtxUnit       = " << vtxunit << "\n"
        << "    GetProv       = " << getAllProvenances << "\n"
        << "    PrintProv     = " << printProvenanceInfo << "\n"
        << "    PxlBrlLowSrc  = " << PxlBrlLowSrc_.label() << ":" << PxlBrlLowSrc_.instance() << "\n"
        << "    PxlBrlHighSrc = " << PxlBrlHighSrc_.label() << ":" << PxlBrlHighSrc_.instance() << "\n"
        << "    PxlFwdLowSrc  = " << PxlFwdLowSrc_.label() << ":" << PxlBrlLowSrc_.instance() << "\n"
        << "    PxlFwdHighSrc = " << PxlFwdHighSrc_.label() << ":" << PxlBrlHighSrc_.instance() << "\n"
        << "    SiTIBLowSrc   = " << SiTIBLowSrc_.label() << ":" << SiTIBLowSrc_.instance() << "\n"
        << "    SiTIBHighSrc  = " << SiTIBHighSrc_.label() << ":" << SiTIBHighSrc_.instance() << "\n"
        << "    SiTOBLowSrc   = " << SiTOBLowSrc_.label() << ":" << SiTOBLowSrc_.instance() << "\n"
        << "    SiTOBHighSrc  = " << SiTOBHighSrc_.label() << ":" << SiTOBHighSrc_.instance() << "\n"
        << "    SiTIDLowSrc   = " << SiTIDLowSrc_.label() << ":" << SiTIDLowSrc_.instance() << "\n"
        << "    SiTIDHighSrc  = " << SiTIDHighSrc_.label() << ":" << SiTIDHighSrc_.instance() << "\n"
        << "    SiTECLowSrc   = " << SiTECLowSrc_.label() << ":" << SiTECLowSrc_.instance() << "\n"
        << "    SiTECHighSrc  = " << SiTECHighSrc_.label() << ":" << SiTECHighSrc_.instance() << "\n"
        << "    MuonCscSrc    = " << MuonCscSrc_.label() << ":" << MuonCscSrc_.instance() << "\n"
        << "    MuonDtSrc     = " << MuonDtSrc_.label() << ":" << MuonDtSrc_.instance() << "\n"
        << "    MuonRpcSrc    = " << MuonRpcSrc_.label() << ":" << MuonRpcSrc_.instance() << "\n"
        << "    ECalEBSrc     = " << ECalEBSrc_.label() << ":" << ECalEBSrc_.instance() << "\n"
        << "    ECalEESrc     = " << ECalEESrc_.label() << ":" << ECalEESrc_.instance() << "\n"
        << "    ECalESSrc     = " << ECalESSrc_.label() << ":" << ECalESSrc_.instance() << "\n"
        << "    HCalSrc       = " << HCalSrc_.label() << ":" << HCalSrc_.instance() << "\n"
        << "===============================\n";
  }
 
  // create histograms
  Char_t hname[200];
  Char_t htitle[200];
 
  // MCGeant
  sprintf(hname, "hMCRGP1");
  histName_.push_back(hname);
  sprintf(htitle, "RawGenParticles");
  hMCRGP[0] = new TH1F(hname, htitle, 100, 0., 5000.);
  sprintf(hname, "hMCRGP2");
  histName_.push_back(hname);
  hMCRGP[1] = new TH1F(hname, htitle, 100, 0., 500.);
  for (Int_t i = 0; i < 2; ++i) {
    hMCRGP[i]->GetXaxis()->SetTitle("Number of Raw Generated Particles");
    hMCRGP[i]->GetYaxis()->SetTitle("Count");
    histMap_[hMCRGP[i]->GetName()] = hMCRGP[i];
  }
 
  sprintf(hname, "hMCG4Vtx1");
  histName_.push_back(hname);
  sprintf(htitle, "G4 Vertices");
  hMCG4Vtx[0] = new TH1F(hname, htitle, 100, 0., 50000.);
  sprintf(hname, "hMCG4Vtx2");
  histName_.push_back(hname);
  hMCG4Vtx[1] = new TH1F(hname, htitle, 100, -0.5, 99.5);
  for (Int_t i = 0; i < 2; ++i) {
    hMCG4Vtx[i]->GetXaxis()->SetTitle("Number of Vertices");
    hMCG4Vtx[i]->GetYaxis()->SetTitle("Count");
    histMap_[hMCG4Vtx[i]->GetName()] = hMCG4Vtx[i];
  }
 
  sprintf(hname, "hMCG4Trk1");
  histName_.push_back(hname);
  sprintf(htitle, "G4 Tracks");
  hMCG4Trk[0] = new TH1F(hname, htitle, 150, 0., 15000.);
  sprintf(hname, "hMCG4Trk2");
  histName_.push_back(hname);
  hMCG4Trk[1] = new TH1F(hname, htitle, 150, -0.5, 99.5);
  for (Int_t i = 0; i < 2; ++i) {
    hMCG4Trk[i]->GetXaxis()->SetTitle("Number of Tracks");
    hMCG4Trk[i]->GetYaxis()->SetTitle("Count");
    histMap_[hMCG4Trk[i]->GetName()] = hMCG4Trk[i];
  }
 
  sprintf(hname, "hGeantVtxX1");
  histName_.push_back(hname);
  sprintf(htitle, "Geant vertex x/micrometer");
  hGeantVtxX[0] = new TH1F(hname, htitle, 100, -8000000., 8000000.);
  sprintf(hname, "hGeantVtxX2");
  histName_.push_back(hname);
  hGeantVtxX[1] = new TH1F(hname, htitle, 100, -50., 50.);
  for (Int_t i = 0; i < 2; ++i) {
    hGeantVtxX[i]->GetXaxis()->SetTitle("x of Vertex (um)");
    hGeantVtxX[i]->GetYaxis()->SetTitle("Count");
    histMap_[hGeantVtxX[i]->GetName()] = hGeantVtxX[i];
  }
 
  sprintf(hname, "hGeantVtxY1");
  histName_.push_back(hname);
  sprintf(htitle, "Geant vertex y/micrometer");
  hGeantVtxY[0] = new TH1F(hname, htitle, 100, -8000000, 8000000.);
  sprintf(hname, "hGeantVtxY2");
  histName_.push_back(hname);
  hGeantVtxY[1] = new TH1F(hname, htitle, 100, -50., 50.);
  for (Int_t i = 0; i < 2; ++i) {
    hGeantVtxY[i]->GetXaxis()->SetTitle("y of Vertex (um)");
    hGeantVtxY[i]->GetYaxis()->SetTitle("Count");
    histMap_[hGeantVtxY[i]->GetName()] = hGeantVtxY[i];
  }
 
  sprintf(hname, "hGeantVtxZ1");
  histName_.push_back(hname);
  sprintf(htitle, "Geant vertex z/millimeter");
  hGeantVtxZ[0] = new TH1F(hname, htitle, 100, -11000., 11000.);
  sprintf(hname, "hGeantVtxZ2");
  histName_.push_back(hname);
  hGeantVtxZ[1] = new TH1F(hname, htitle, 100, -250., 250.);
  for (Int_t i = 0; i < 2; ++i) {
    hGeantVtxZ[i]->GetXaxis()->SetTitle("z of Vertex (mm)");
    hGeantVtxZ[i]->GetYaxis()->SetTitle("Count");
    histMap_[hGeantVtxZ[i]->GetName()] = hGeantVtxZ[i];
  }
 
  sprintf(hname, "hGeantTrkPt");
  histName_.push_back(hname);
  sprintf(htitle, "Geant track pt/GeV");
  hGeantTrkPt = new TH1F(hname, htitle, 100, 0., 200.);
  hGeantTrkPt->GetXaxis()->SetTitle("pT of Track (GeV)");
  hGeantTrkPt->GetYaxis()->SetTitle("Count");
  histMap_[hGeantTrkPt->GetName()] = hGeantTrkPt;
 
  sprintf(hname, "hGeantTrkE");
  histName_.push_back(hname);
  sprintf(htitle, "Geant track E/GeV");
  hGeantTrkE = new TH1F(hname, htitle, 100, 0., 5000.);
  hGeantTrkE->GetXaxis()->SetTitle("E of Track (GeV)");
  hGeantTrkE->GetYaxis()->SetTitle("Count");
  histMap_[hGeantTrkE->GetName()] = hGeantTrkE;
 
  // ECal
  sprintf(hname, "hCaloEcal1");
  histName_.push_back(hname);
  sprintf(htitle, "Ecal hits");
  hCaloEcal[0] = new TH1F(hname, htitle, 100, 0., 10000.);
  sprintf(hname, "hCaloEcal2");
  histName_.push_back(hname);
  hCaloEcal[1] = new TH1F(hname, htitle, 100, -0.5, 99.5);
 
  sprintf(hname, "hCaloEcalE1");
  histName_.push_back(hname);
  sprintf(htitle, "Ecal hits, energy/GeV");
  hCaloEcalE[0] = new TH1F(hname, htitle, 100, 0., 10.);
  sprintf(hname, "hCaloEcalE2");
  histName_.push_back(hname);
  hCaloEcalE[1] = new TH1F(hname, htitle, 100, 0., 0.1);
 
  sprintf(hname, "hCaloEcalToF1");
  histName_.push_back(hname);
  sprintf(htitle, "Ecal hits, ToF/ns");
  hCaloEcalToF[0] = new TH1F(hname, htitle, 100, 0., 1000.);
  sprintf(hname, "hCaloEcalToF2");
  histName_.push_back(hname);
  hCaloEcalToF[1] = new TH1F(hname, htitle, 100, 0., 100.);
 
  for (Int_t i = 0; i < 2; ++i) {
    hCaloEcal[i]->GetXaxis()->SetTitle("Number of Hits");
    hCaloEcal[i]->GetYaxis()->SetTitle("Count");
    histMap_[hCaloEcal[i]->GetName()] = hCaloEcal[i];
    hCaloEcalE[i]->GetXaxis()->SetTitle("Energy of Hits (GeV)");
    hCaloEcalE[i]->GetYaxis()->SetTitle("Count");
    histMap_[hCaloEcalE[i]->GetName()] = hCaloEcalE[i];
    hCaloEcalToF[i]->GetXaxis()->SetTitle("Time of Flight of Hits (ns)");
    hCaloEcalToF[i]->GetYaxis()->SetTitle("Count");
    histMap_[hCaloEcalToF[i]->GetName()] = hCaloEcalToF[i];
  }
 
  sprintf(hname, "hCaloEcalPhi");
  histName_.push_back(hname);
  sprintf(htitle, "Ecal hits, phi/rad");
  hCaloEcalPhi = new TH1F(hname, htitle, 100, -3.2, 3.2);
  hCaloEcalPhi->GetXaxis()->SetTitle("Phi of Hits (rad)");
  hCaloEcalPhi->GetYaxis()->SetTitle("Count");
  histMap_[hCaloEcalPhi->GetName()] = hCaloEcalPhi;
 
  sprintf(hname, "hCaloEcalEta");
  histName_.push_back(hname);
  sprintf(htitle, "Ecal hits, eta");
  hCaloEcalEta = new TH1F(hname, htitle, 100, -5.5, 5.5);
  hCaloEcalEta->GetXaxis()->SetTitle("Eta of Hits");
  hCaloEcalEta->GetYaxis()->SetTitle("Count");
  histMap_[hCaloEcalEta->GetName()] = hCaloEcalEta;
 
  sprintf(hname, "hCaloPreSh1");
  histName_.push_back(hname);
  sprintf(htitle, "PreSh hits");
  hCaloPreSh[0] = new TH1F(hname, htitle, 100, 0., 10000.);
  sprintf(hname, "hCaloPreSh2");
  histName_.push_back(hname);
  hCaloPreSh[1] = new TH1F(hname, htitle, 100, -0.5, 99.5);
 
  sprintf(hname, "hCaloPreShE1");
  histName_.push_back(hname);
  sprintf(htitle, "PreSh hits, energy/GeV");
  hCaloPreShE[0] = new TH1F(hname, htitle, 100, 0., 10.);
  sprintf(hname, "hCaloPreShE2");
  histName_.push_back(hname);
  hCaloPreShE[1] = new TH1F(hname, htitle, 100, 0., 0.1);
 
  sprintf(hname, "hCaloPreShToF1");
  histName_.push_back(hname);
  sprintf(htitle, "PreSh hits, ToF/ns");
  hCaloPreShToF[0] = new TH1F(hname, htitle, 100, 0., 1000.);
  sprintf(hname, "hCaloPreShToF2");
  histName_.push_back(hname);
  hCaloPreShToF[1] = new TH1F(hname, htitle, 100, 0., 100.);
 
  for (Int_t i = 0; i < 2; ++i) {
    hCaloPreSh[i]->GetXaxis()->SetTitle("Number of Hits");
    hCaloPreSh[i]->GetYaxis()->SetTitle("Count");
    histMap_[hCaloPreSh[i]->GetName()] = hCaloPreSh[i];
    hCaloPreShE[i]->GetXaxis()->SetTitle("Energy of Hits (GeV)");
    hCaloPreShE[i]->GetYaxis()->SetTitle("Count");
    histMap_[hCaloPreShE[i]->GetName()] = hCaloPreShE[i];
    hCaloPreShToF[i]->GetXaxis()->SetTitle("Time of Flight of Hits (ns)");
    hCaloPreShToF[i]->GetYaxis()->SetTitle("Count");
    histMap_[hCaloPreShToF[i]->GetName()] = hCaloPreShToF[i];
  }
 
  sprintf(hname, "hCaloPreShPhi");
  histName_.push_back(hname);
  sprintf(htitle, "PreSh hits, phi/rad");
  hCaloPreShPhi = new TH1F(hname, htitle, 100, -3.2, 3.2);
  hCaloPreShPhi->GetXaxis()->SetTitle("Phi of Hits (rad)");
  hCaloPreShPhi->GetYaxis()->SetTitle("Count");
  histMap_[hCaloPreShPhi->GetName()] = hCaloPreShPhi;
 
  sprintf(hname, "hCaloPreShEta");
  histName_.push_back(hname);
  sprintf(htitle, "PreSh hits, eta");
  hCaloPreShEta = new TH1F(hname, htitle, 100, -5.5, 5.5);
  hCaloPreShEta->GetXaxis()->SetTitle("Eta of Hits");
  hCaloPreShEta->GetYaxis()->SetTitle("Count");
  histMap_[hCaloPreShEta->GetName()] = hCaloPreShEta;
 
  // Hcal
  sprintf(hname, "hCaloHcal1");
  histName_.push_back(hname);
  sprintf(htitle, "Hcal hits");
  hCaloHcal[0] = new TH1F(hname, htitle, 100, 0., 10000.);
  sprintf(hname, "hCaloHcal2");
  histName_.push_back(hname);
  hCaloHcal[1] = new TH1F(hname, htitle, 100, -0.5, 99.5);
 
  sprintf(hname, "hCaloHcalE1");
  histName_.push_back(hname);
  sprintf(htitle, "Hcal hits, energy/GeV");
  hCaloHcalE[0] = new TH1F(hname, htitle, 100, 0., 10.);
  sprintf(hname, "hCaloHcalE2");
  histName_.push_back(hname);
  hCaloHcalE[1] = new TH1F(hname, htitle, 100, 0., 0.1);
 
  sprintf(hname, "hCaloHcalToF1");
  histName_.push_back(hname);
  sprintf(htitle, "Hcal hits, ToF/ns");
  hCaloHcalToF[0] = new TH1F(hname, htitle, 100, 0., 1000.);
  sprintf(hname, "hCaloHcalToF2");
  histName_.push_back(hname);
  hCaloHcalToF[1] = new TH1F(hname, htitle, 100, 0., 100.);
 
  for (Int_t i = 0; i < 2; ++i) {
    hCaloHcal[i]->GetXaxis()->SetTitle("Number of Hits");
    hCaloHcal[i]->GetYaxis()->SetTitle("Count");
    histMap_[hCaloHcal[i]->GetName()] = hCaloHcal[i];
    hCaloHcalE[i]->GetXaxis()->SetTitle("Energy of Hits (GeV)");
    hCaloHcalE[i]->GetYaxis()->SetTitle("Count");
    histMap_[hCaloHcalE[i]->GetName()] = hCaloHcalE[i];
    hCaloHcalToF[i]->GetXaxis()->SetTitle("Time of Flight of Hits (ns)");
    hCaloHcalToF[i]->GetYaxis()->SetTitle("Count");
    histMap_[hCaloHcalToF[i]->GetName()] = hCaloHcalToF[i];
  }
 
  sprintf(hname, "hCaloHcalPhi");
  histName_.push_back(hname);
  sprintf(htitle, "Hcal hits, phi/rad");
  hCaloHcalPhi = new TH1F(hname, htitle, 100, -3.2, 3.2);
  hCaloHcalPhi->GetXaxis()->SetTitle("Phi of Hits (rad)");
  hCaloHcalPhi->GetYaxis()->SetTitle("Count");
  histMap_[hCaloHcalPhi->GetName()] = hCaloHcalPhi;
 
  sprintf(hname, "hCaloHcalEta");
  histName_.push_back(hname);
  sprintf(htitle, "Hcal hits, eta");
  hCaloHcalEta = new TH1F(hname, htitle, 100, -5.5, 5.5);
  hCaloHcalEta->GetXaxis()->SetTitle("Eta of Hits");
  hCaloHcalEta->GetYaxis()->SetTitle("Count");
  histMap_[hCaloHcalEta->GetName()] = hCaloHcalEta;
 
  // tracker
  sprintf(hname, "hTrackerPx1");
  histName_.push_back(hname);
  sprintf(htitle, "Pixel hits");
  hTrackerPx[0] = new TH1F(hname, htitle, 100, 0., 10000.);
  sprintf(hname, "hTrackerPx2");
  histName_.push_back(hname);
  hTrackerPx[1] = new TH1F(hname, htitle, 100, -0.5, 99.5);
  for (Int_t i = 0; i < 2; ++i) {
    hTrackerPx[i]->GetXaxis()->SetTitle("Number of Pixel Hits");
    hTrackerPx[i]->GetYaxis()->SetTitle("Count");
    histMap_[hTrackerPx[i]->GetName()] = hTrackerPx[i];
  }
 
  sprintf(hname, "hTrackerPxPhi");
  histName_.push_back(hname);
  sprintf(htitle, "Pixel hits phi/rad");
  hTrackerPxPhi = new TH1F(hname, htitle, 100, -3.2, 3.2);
  hTrackerPxPhi->GetXaxis()->SetTitle("Phi of Hits (rad)");
  hTrackerPxPhi->GetYaxis()->SetTitle("Count");
  histMap_[hTrackerPxPhi->GetName()] = hTrackerPxPhi;
 
  sprintf(hname, "hTrackerPxEta");
  histName_.push_back(hname);
  sprintf(htitle, "Pixel hits eta");
  hTrackerPxEta = new TH1F(hname, htitle, 100, -3.5, 3.5);
  hTrackerPxEta->GetXaxis()->SetTitle("Eta of Hits");
  hTrackerPxEta->GetYaxis()->SetTitle("Count");
  histMap_[hTrackerPxEta->GetName()] = hTrackerPxEta;
 
  sprintf(hname, "hTrackerPxBToF");
  histName_.push_back(hname);
  sprintf(htitle, "Pixel barrel hits, ToF/ns");
  hTrackerPxBToF = new TH1F(hname, htitle, 100, 0., 40.);
  hTrackerPxBToF->GetXaxis()->SetTitle("Time of Flight of Hits (ns)");
  hTrackerPxBToF->GetYaxis()->SetTitle("Count");
  histMap_[hTrackerPxBToF->GetName()] = hTrackerPxBToF;
 
  sprintf(hname, "hTrackerPxBR");
  histName_.push_back(hname);
  sprintf(htitle, "Pixel barrel hits, R/cm");
  hTrackerPxBR = new TH1F(hname, htitle, 100, 0., 50.);
  hTrackerPxBR->GetXaxis()->SetTitle("R of Hits (cm)");
  hTrackerPxBR->GetYaxis()->SetTitle("Count");
  histMap_[hTrackerPxBR->GetName()] = hTrackerPxBR;
 
  sprintf(hname, "hTrackerPxFToF");
  histName_.push_back(hname);
  sprintf(htitle, "Pixel forward hits, ToF/ns");
  hTrackerPxFToF = new TH1F(hname, htitle, 100, 0., 50.);
  hTrackerPxFToF->GetXaxis()->SetTitle("Time of Flight of Hits (ns)");
  hTrackerPxFToF->GetYaxis()->SetTitle("Count");
  histMap_[hTrackerPxFToF->GetName()] = hTrackerPxFToF;
 
  sprintf(hname, "hTrackerPxFZ");
  histName_.push_back(hname);
  sprintf(htitle, "Pixel forward hits, Z/cm");
  hTrackerPxFZ = new TH1F(hname, htitle, 200, -100., 100.);
  hTrackerPxFZ->GetXaxis()->SetTitle("Z of Hits (cm)");
  hTrackerPxFZ->GetYaxis()->SetTitle("Count");
  histMap_[hTrackerPxFZ->GetName()] = hTrackerPxFZ;
 
  sprintf(hname, "hTrackerSi1");
  histName_.push_back(hname);
  sprintf(htitle, "Silicon hits");
  hTrackerSi[0] = new TH1F(hname, htitle, 100, 0., 10000.);
  sprintf(hname, "hTrackerSi2");
  histName_.push_back(hname);
  hTrackerSi[1] = new TH1F(hname, htitle, 100, -0.5, 99.5);
  for (Int_t i = 0; i < 2; ++i) {
    hTrackerSi[i]->GetXaxis()->SetTitle("Number of Silicon Hits");
    hTrackerSi[i]->GetYaxis()->SetTitle("Count");
    histMap_[hTrackerSi[i]->GetName()] = hTrackerSi[i];
  }
 
  sprintf(hname, "hTrackerSiPhi");
  histName_.push_back(hname);
  sprintf(htitle, "Silicon hits phi/rad");
  hTrackerSiPhi = new TH1F(hname, htitle, 100, -3.2, 3.2);
  hTrackerSiPhi->GetXaxis()->SetTitle("Phi of Hits (rad)");
  hTrackerSiPhi->GetYaxis()->SetTitle("Count");
  histMap_[hTrackerSiPhi->GetName()] = hTrackerSiPhi;
 
  sprintf(hname, "hTrackerSiEta");
  histName_.push_back(hname);
  sprintf(htitle, "Silicon hits eta");
  hTrackerSiEta = new TH1F(hname, htitle, 100, -3.5, 3.5);
  hTrackerSiEta->GetXaxis()->SetTitle("Eta of Hits");
  hTrackerSiEta->GetYaxis()->SetTitle("Count");
  histMap_[hTrackerSiEta->GetName()] = hTrackerSiEta;
 
  sprintf(hname, "hTrackerSiBToF");
  histName_.push_back(hname);
  sprintf(htitle, "Silicon barrel hits, ToF/ns");
  hTrackerSiBToF = new TH1F(hname, htitle, 100, 0., 50.);
  hTrackerSiBToF->GetXaxis()->SetTitle("Time of Flight of Hits (ns)");
  hTrackerSiBToF->GetYaxis()->SetTitle("Count");
  histMap_[hTrackerSiBToF->GetName()] = hTrackerSiBToF;
 
  sprintf(hname, "hTrackerSiBR");
  histName_.push_back(hname);
  sprintf(htitle, "Silicon barrel hits, R/cm");
  hTrackerSiBR = new TH1F(hname, htitle, 100, 0., 200.);
  hTrackerSiBR->GetXaxis()->SetTitle("R of Hits (cm)");
  hTrackerSiBR->GetYaxis()->SetTitle("Count");
  histMap_[hTrackerSiBR->GetName()] = hTrackerSiBR;
 
  sprintf(hname, "hTrackerSiFToF");
  histName_.push_back(hname);
  sprintf(htitle, "Silicon forward hits, ToF/ns");
  hTrackerSiFToF = new TH1F(hname, htitle, 100, 0., 75.);
  hTrackerSiFToF->GetXaxis()->SetTitle("Time of Flight of Hits (ns)");
  hTrackerSiFToF->GetYaxis()->SetTitle("Count");
  histMap_[hTrackerSiFToF->GetName()] = hTrackerSiFToF;
 
  sprintf(hname, "hTrackerSiFZ");
  histName_.push_back(hname);
  sprintf(htitle, "Silicon forward hits, Z/cm");
  hTrackerSiFZ = new TH1F(hname, htitle, 200, -300., 300.);
  hTrackerSiFZ->GetXaxis()->SetTitle("Z of Hits (cm)");
  hTrackerSiFZ->GetYaxis()->SetTitle("Count");
  histMap_[hTrackerSiFZ->GetName()] = hTrackerSiFZ;
 
  // muon
  sprintf(hname, "hMuon1");
  histName_.push_back(hname);
  sprintf(htitle, "Muon hits");
  hMuon[0] = new TH1F(hname, htitle, 100, 0., 10000.);
  sprintf(hname, "hMuon2");
  histName_.push_back(hname);
  hMuon[1] = new TH1F(hname, htitle, 100, -0.5, 99.5);
  for (Int_t i = 0; i < 2; ++i) {
    hMuon[i]->GetXaxis()->SetTitle("Number of Muon Hits");
    hMuon[i]->GetYaxis()->SetTitle("Count");
    histMap_[hMuon[i]->GetName()] = hMuon[i];
  }
 
  sprintf(hname, "hMuonPhi");
  histName_.push_back(hname);
  sprintf(htitle, "Muon hits phi/rad");
  hMuonPhi = new TH1F(hname, htitle, 100, -3.2, 3.2);
  hMuonPhi->GetXaxis()->SetTitle("Phi of Hits (rad)");
  hMuonPhi->GetYaxis()->SetTitle("Count");
  histMap_[hMuonPhi->GetName()] = hMuonPhi;
 
  sprintf(hname, "hMuonEta");
  histName_.push_back(hname);
  sprintf(htitle, "Muon hits eta");
  hMuonEta = new TH1F(hname, htitle, 100, -3.5, 3.5);
  hMuonEta->GetXaxis()->SetTitle("Eta of Hits");
  hMuonEta->GetYaxis()->SetTitle("Count");
  histMap_[hMuonEta->GetName()] = hMuonEta;
 
  sprintf(hname, "hMuonCscToF1");
  histName_.push_back(hname);
  sprintf(htitle, "Muon CSC hits, ToF/ns");
  hMuonCscToF[0] = new TH1F(hname, htitle, 100, 0., 250.);
  sprintf(hname, "hMuonCscToF2");
  histName_.push_back(hname);
  hMuonCscToF[1] = new TH1F(hname, htitle, 100, 0., 50.);
  for (Int_t i = 0; i < 2; ++i) {
    hMuonCscToF[i]->GetXaxis()->SetTitle("Time of Flight of Hits (ns)");
    hMuonCscToF[i]->GetYaxis()->SetTitle("Count");
    histMap_[hMuonCscToF[i]->GetName()] = hMuonCscToF[i];
  }
 
  sprintf(hname, "hMuonCscZ");
  histName_.push_back(hname);
  sprintf(htitle, "Muon CSC hits, Z/cm");
  hMuonCscZ = new TH1F(hname, htitle, 200, -1500., 1500.);
  hMuonCscZ->GetXaxis()->SetTitle("Z of Hits (cm)");
  hMuonCscZ->GetYaxis()->SetTitle("Count");
  histMap_[hMuonCscZ->GetName()] = hMuonCscZ;
 
  sprintf(hname, "hMuonDtToF1");
  histName_.push_back(hname);
  sprintf(htitle, "Muon DT hits, ToF/ns");
  hMuonDtToF[0] = new TH1F(hname, htitle, 100, 0., 250.);
  sprintf(hname, "hMuonDtToF2");
  histName_.push_back(hname);
  hMuonDtToF[1] = new TH1F(hname, htitle, 100, 0., 50.);
  for (Int_t i = 0; i < 2; ++i) {
    hMuonDtToF[i]->GetXaxis()->SetTitle("Time of Flight of Hits (ns)");
    hMuonDtToF[i]->GetYaxis()->SetTitle("Count");
    histMap_[hMuonDtToF[i]->GetName()] = hMuonDtToF[i];
  }
 
  sprintf(hname, "hMuonDtR");
  histName_.push_back(hname);
  sprintf(htitle, "Muon DT hits, R/cm");
  hMuonDtR = new TH1F(hname, htitle, 100, 0., 1500.);
  hMuonDtR->GetXaxis()->SetTitle("R of Hits (cm)");
  hMuonDtR->GetYaxis()->SetTitle("Count");
  histMap_[hMuonDtR->GetName()] = hMuonDtR;
 
  sprintf(hname, "hMuonRpcFToF1");
  histName_.push_back(hname);
  sprintf(htitle, "Muon RPC forward hits, ToF/ns");
  hMuonRpcFToF[0] = new TH1F(hname, htitle, 100, 0., 250.);
  sprintf(hname, "hMuonRpcFToF2");
  histName_.push_back(hname);
  hMuonRpcFToF[1] = new TH1F(hname, htitle, 100, 0., 50.);
  for (Int_t i = 0; i < 2; ++i) {
    hMuonRpcFToF[i]->GetXaxis()->SetTitle("Time of Flight of Hits (ns)");
    hMuonRpcFToF[i]->GetYaxis()->SetTitle("Count");
    histMap_[hMuonRpcFToF[i]->GetName()] = hMuonRpcFToF[i];
  }
 
  sprintf(hname, "hMuonRpcFZ");
  histName_.push_back(hname);
  sprintf(htitle, "Muon RPC forward hits, Z/cm");
  hMuonRpcFZ = new TH1F(hname, htitle, 201, -1500., 1500.);
  hMuonRpcFZ->GetXaxis()->SetTitle("Z of Hits (cm)");
  hMuonRpcFZ->GetYaxis()->SetTitle("Count");
  histMap_[hMuonRpcFZ->GetName()] = hMuonRpcFZ;
 
  sprintf(hname, "hMuonRpcBToF1");
  histName_.push_back(hname);
  sprintf(htitle, "Muon RPC barrel hits, ToF/ns");
  hMuonRpcBToF[0] = new TH1F(hname, htitle, 100, 0., 250.);
  sprintf(hname, "hMuonRpcBToF2");
  histName_.push_back(hname);
  hMuonRpcBToF[1] = new TH1F(hname, htitle, 100, 0., 50.);
  for (Int_t i = 0; i < 2; ++i) {
    hMuonRpcBToF[i]->GetXaxis()->SetTitle("Time of Flight of Hits (ns)");
    hMuonRpcBToF[i]->GetYaxis()->SetTitle("Count");
    histMap_[hMuonRpcBToF[i]->GetName()] = hMuonRpcBToF[i];
  }
 
  sprintf(hname, "hMuonRpcBR");
  histName_.push_back(hname);
  sprintf(htitle, "Muon RPC barrel hits, R/cm");
  hMuonRpcBR = new TH1F(hname, htitle, 100, 0., 1500.);
  hMuonRpcBR->GetXaxis()->SetTitle("R of Hits (cm)");
  hMuonRpcBR->GetYaxis()->SetTitle("Count");
  histMap_[hMuonRpcBR->GetName()] = hMuonRpcBR;
 
  // create persistent objects
  for (std::size_t i = 0; i < histName_.size(); ++i) {
    produces<TH1F, edm::Transition::EndRun>(histName_[i]).setBranchAlias(histName_[i]);
  }
}

References ECalEBSrc_, ECalEESrc_, ECalESSrc_, fName, frequency, getAllProvenances, edm::ParameterSet::getParameter(), edm::ParameterSet::getUntrackedParameter(), hCaloEcal, hCaloEcalE, hCaloEcalEta, hCaloEcalPhi, hCaloEcalToF, hCaloHcal, hCaloHcalE, hCaloHcalEta, hCaloHcalPhi, hCaloHcalToF, hCaloPreSh, hCaloPreShE, hCaloPreShEta, hCaloPreShPhi, hCaloPreShToF, HCalSrc_, hGeantTrkE, hGeantTrkPt, hGeantVtxX, hGeantVtxY, hGeantVtxZ, histMap_, histName_, hMCG4Trk, hMCG4Vtx, hMCRGP, hMuon, hMuonCscToF, hMuonCscZ, hMuonDtR, hMuonDtToF, hMuonEta, hMuonPhi, hMuonRpcBR, hMuonRpcBToF, hMuonRpcFToF, hMuonRpcFZ, hTrackerPx, hTrackerPxBR, hTrackerPxBToF, hTrackerPxEta, hTrackerPxFToF, hTrackerPxFZ, hTrackerPxPhi, hTrackerSi, hTrackerSiBR, hTrackerSiBToF, hTrackerSiEta, hTrackerSiFToF, hTrackerSiFZ, hTrackerSiPhi, mps_fire::i, edm::InputTag::instance(), edm::InputTag::label(), MuonCscSrc_, MuonDtSrc_, MuonRpcSrc_, printProvenanceInfo, PxlBrlHighSrc_, PxlBrlLowSrc_, PxlFwdHighSrc_, PxlFwdLowSrc_, SiTECHighSrc_, SiTECLowSrc_, SiTIBHighSrc_, SiTIBLowSrc_, SiTIDHighSrc_, SiTIDLowSrc_, SiTOBHighSrc_, SiTOBLowSrc_, AlCaHLTBitMon_QueryRunRegistry::string, verbosity, and vtxunit.

~GlobalHitsProdHist()

GlobalHitsProdHist::~GlobalHitsProdHist ( )

override

Definition at line 595 of file GlobalHitsProdHist.cc.

{}

Member Function Documentation

beginJob()

void GlobalHitsProdHist::beginJob ( void  )

overridevirtual

Reimplemented from edm::one::EDProducerBase.

Definition at line 597 of file GlobalHitsProdHist.cc.

{ return; }

endJob()

void GlobalHitsProdHist::endJob ( void  )

overridevirtual

Reimplemented from edm::one::EDProducerBase.

Definition at line 599 of file GlobalHitsProdHist.cc.

                                {
  std::string MsgLoggerCat = "GlobalHitsProdHist_endJob";
  if (verbosity >= 0)
    edm::LogInfo(MsgLoggerCat) << "Terminating having processed " << count << " events.";
  return;
}

References count, AlCaHLTBitMon_QueryRunRegistry::string, and verbosity.

endRunProduce()

void GlobalHitsProdHist::endRunProduce ( edm::Run &  iRun, const edm::EventSetup &  iSetup  )

override

Definition at line 674 of file GlobalHitsProdHist.cc.

                                                                                {
  std::string MsgLoggerCat = "GlobalHitsProdHist_endRun";
 
  TString eventout;
  TString eventoutw;
  bool warning = false;
 
  if (verbosity > 0)
    edm::LogInfo(MsgLoggerCat) << "\nStoring histograms.";
 
  // store persistent objects
  std::map<std::string, TH1F *>::iterator iter;
  for (std::size_t i = 0; i < histName_.size(); ++i) {
    iter = histMap_.find(histName_[i]);
    if (iter != histMap_.end()) {
      std::unique_ptr<TH1F> hist1D(iter->second);
      eventout += "\n Storing histogram " + histName_[i];
      iRun.put(std::move(hist1D), histName_[i]);
    } else {
      warning = true;
      eventoutw += "\n Unable to find histogram with name " + histName_[i];
    }
  }
 
  if (verbosity > 0) {
    edm::LogInfo(MsgLoggerCat) << eventout << "\n";
    if (warning)
      edm::LogWarning(MsgLoggerCat) << eventoutw << "\n";
  }
  return;
}

References histMap_, histName_, mps_fire::i, eostools::move(), edm::Run::put(), AlCaHLTBitMon_QueryRunRegistry::string, verbosity, and MessageLogger_cfi::warning.

fillECal()

void GlobalHitsProdHist::fillECal ( edm::Event &  iEvent, const edm::EventSetup &  iSetup  )

private

Definition at line 1468 of file GlobalHitsProdHist.cc.

                                                                               {
  std::string MsgLoggerCat = "GlobalHitsProdHist_fillECal";
 
  TString eventout;
  if (verbosity > 0)
    eventout = "\nGathering info:";
 
  // access the calorimeter geometry
  edm::ESHandle<CaloGeometry> theCaloGeometry;
  iSetup.get<CaloGeometryRecord>().get(theCaloGeometry);
  if (!theCaloGeometry.isValid()) {
    edm::LogWarning(MsgLoggerCat) << "Unable to find CaloGeometryRecord in event!";
    return;
  }
  const CaloGeometry &theCalo(*theCaloGeometry);
 
  // iterator to access containers
  edm::PCaloHitContainer::const_iterator itHit;
 
  // get  ECal information
  edm::PCaloHitContainer theECalHits;
  // extract EB container
  edm::Handle<edm::PCaloHitContainer> EBContainer;
  iEvent.getByToken(ECalEBSrc_Token_, EBContainer);
  if (!EBContainer.isValid()) {
    edm::LogWarning(MsgLoggerCat) << "Unable to find EcalHitsEB in event!";
    return;
  }
  // extract EE container
  edm::Handle<edm::PCaloHitContainer> EEContainer;
  iEvent.getByToken(ECalEESrc_Token_, EEContainer);
  if (!EEContainer.isValid()) {
    edm::LogWarning(MsgLoggerCat) << "Unable to find EcalHitsEE in event!";
    return;
  }
  // place both containers into new container
  theECalHits.insert(theECalHits.end(), EBContainer->begin(), EBContainer->end());
  theECalHits.insert(theECalHits.end(), EEContainer->begin(), EEContainer->end());
 
  // cycle through new container
  int i = 0, j = 0;
  for (itHit = theECalHits.begin(); itHit != theECalHits.end(); ++itHit) {
    ++i;
 
    // create a DetId from the detUnitId
    DetId theDetUnitId(itHit->id());
    int detector = theDetUnitId.det();
    int subdetector = theDetUnitId.subdetId();
 
    // check that expected detector is returned
    if ((detector == dEcal) && ((subdetector == sdEcalBrl) || (subdetector == sdEcalFwd))) {
      // get the Cell geometry
      auto theDet = (theCalo.getSubdetectorGeometry(theDetUnitId))->getGeometry(theDetUnitId);
 
      if (!theDet) {
        edm::LogWarning(MsgLoggerCat) << "Unable to get CaloCellGeometry from ECalHits for Hit " << i;
        continue;
      }
 
      ++j;
 
      // get the global position of the cell
      const GlobalPoint &globalposition = theDet->getPosition();
 
      if (hCaloEcalE[0])
        hCaloEcalE[0]->Fill(itHit->energy());
      if (hCaloEcalE[1])
        hCaloEcalE[1]->Fill(itHit->energy());
      if (hCaloEcalToF[0])
        hCaloEcalToF[0]->Fill(itHit->time());
      if (hCaloEcalToF[1])
        hCaloEcalToF[1]->Fill(itHit->time());
      if (hCaloEcalPhi)
        hCaloEcalPhi->Fill(globalposition.phi());
      if (hCaloEcalEta)
        hCaloEcalEta->Fill(globalposition.eta());
 
    } else {
      edm::LogWarning(MsgLoggerCat) << "ECal PCaloHit " << i << " is expected to be (det,subdet) = (" << dEcal << ","
                                    << sdEcalBrl << " || " << sdEcalFwd << "); value returned is: (" << detector << ","
                                    << subdetector << ")";
      continue;
    }  // end detector type check
  }    // end loop through ECal Hits
 
  if (verbosity > 1) {
    eventout += "\n          Number of ECal Hits collected:............. ";
    eventout += j;
  }
 
  if (hCaloEcal[0])
    hCaloEcal[0]->Fill((float)j);
  if (hCaloEcal[1])
    hCaloEcal[1]->Fill((float)j);
 
  // Get Preshower information
  // extract PreShower container
  edm::Handle<edm::PCaloHitContainer> PreShContainer;
  iEvent.getByToken(ECalESSrc_Token_, PreShContainer);
  if (!PreShContainer.isValid()) {
    edm::LogWarning(MsgLoggerCat) << "Unable to find EcalHitsES in event!";
    return;
  }
 
  // cycle through container
  i = 0, j = 0;
  for (itHit = PreShContainer->begin(); itHit != PreShContainer->end(); ++itHit) {
    ++i;
 
    // create a DetId from the detUnitId
    DetId theDetUnitId(itHit->id());
    int detector = theDetUnitId.det();
    int subdetector = theDetUnitId.subdetId();
 
    // check that expected detector is returned
    if ((detector == dEcal) && (subdetector == sdEcalPS)) {
      // get the Cell geometry
      auto theDet = (theCalo.getSubdetectorGeometry(theDetUnitId))->getGeometry(theDetUnitId);
 
      if (!theDet) {
        edm::LogWarning(MsgLoggerCat) << "Unable to get CaloCellGeometry from PreShContainer for Hit " << i;
        continue;
      }
 
      ++j;
 
      // get the global position of the cell
      const GlobalPoint &globalposition = theDet->getPosition();
 
      if (hCaloPreShE[0])
        hCaloPreShE[0]->Fill(itHit->energy());
      if (hCaloPreShE[1])
        hCaloPreShE[1]->Fill(itHit->energy());
      if (hCaloPreShToF[0])
        hCaloPreShToF[0]->Fill(itHit->time());
      if (hCaloPreShToF[1])
        hCaloPreShToF[1]->Fill(itHit->time());
      if (hCaloPreShPhi)
        hCaloPreShPhi->Fill(globalposition.phi());
      if (hCaloPreShEta)
        hCaloPreShEta->Fill(globalposition.eta());
 
    } else {
      edm::LogWarning(MsgLoggerCat) << "PreSh PCaloHit " << i << " is expected to be (det,subdet) = (" << dEcal << ","
                                    << sdEcalPS << "); value returned is: (" << detector << "," << subdetector << ")";
      continue;
    }  // end detector type check
  }    // end loop through PreShower Hits
 
  if (verbosity > 1) {
    eventout += "\n          Number of PreSh Hits collected:............ ";
    eventout += j;
  }
 
  if (hCaloPreSh[0])
    hCaloPreSh[0]->Fill((float)j);
  if (hCaloPreSh[1])
    hCaloPreSh[1]->Fill((float)j);
 
  if (verbosity > 0)
    edm::LogInfo(MsgLoggerCat) << eventout << "\n";
 
  return;
}

References dEcal, hgcalTestNeighbor_cfi::detector, ECalEBSrc_Token_, ECalEESrc_Token_, ECalESSrc_Token_, PV3DBase< T, PVType, FrameType >::eta(), edm::EventSetup::get(), get, ecaldqm::getGeometry(), CaloGeometry::getSubdetectorGeometry(), hCaloEcal, hCaloEcalE, hCaloEcalEta, hCaloEcalPhi, hCaloEcalToF, hCaloPreSh, hCaloPreShE, hCaloPreShEta, hCaloPreShPhi, hCaloPreShToF, mps_fire::i, iEvent, edm::ESHandleBase::isValid(), edm::HandleBase::isValid(), dqmiolumiharvest::j, PV3DBase< T, PVType, FrameType >::phi(), sdEcalBrl, sdEcalFwd, sdEcalPS, AlCaHLTBitMon_QueryRunRegistry::string, subdetector, and verbosity.

Referenced by produce().

fillG4MC()

void GlobalHitsProdHist::fillG4MC ( edm::Event &  iEvent )

private

Definition at line 707 of file GlobalHitsProdHist.cc.

                                                  {
  std::string MsgLoggerCat = "GlobalHitsProdHist_fillG4MC";
 
  TString eventout;
  if (verbosity > 0)
    eventout = "\nGathering info:";
 
  // get MC information
  edm::Handle<edm::HepMCProduct> HepMCEvt;
  std::vector<edm::Handle<edm::HepMCProduct>> AllHepMCEvt;
  iEvent.getManyByType(AllHepMCEvt);
 
  // loop through products and extract VtxSmearing if available. Any of them
  // should have the information needed
  for (unsigned int i = 0; i < AllHepMCEvt.size(); ++i) {
    HepMCEvt = AllHepMCEvt[i];
    if ((HepMCEvt.provenance()->branchDescription()).moduleLabel() == "generatorSmeared")
      break;
  }
 
  if (!HepMCEvt.isValid()) {
    edm::LogWarning(MsgLoggerCat) << "Unable to find HepMCProduct in event!";
    return;
  } else {
    eventout += "\n          Using HepMCProduct: ";
    eventout += (HepMCEvt.provenance()->branchDescription()).moduleLabel();
  }
  const HepMC::GenEvent *MCEvt = HepMCEvt->GetEvent();
  nRawGenPart = MCEvt->particles_size();
 
  if (verbosity > 1) {
    eventout += "\n          Number of Raw Particles collected:......... ";
    eventout += nRawGenPart;
  }
 
  if (hMCRGP[0])
    hMCRGP[0]->Fill((float)nRawGenPart);
  if (hMCRGP[1])
    hMCRGP[1]->Fill((float)nRawGenPart);
 
  // get G4Vertex information
  // convert unit stored in SimVertex to mm
  float unit = 0.;
  if (vtxunit == 0)
    unit = 1.;  // already in mm
  if (vtxunit == 1)
    unit = 10.;  // stored in cm, convert to mm
 
  edm::Handle<edm::SimVertexContainer> G4VtxContainer;
  iEvent.getByToken(G4VtxSrc_Token_, G4VtxContainer);
  if (!G4VtxContainer.isValid()) {
    edm::LogWarning(MsgLoggerCat) << "Unable to find SimVertex in event!";
    return;
  }
  int i = 0;
  edm::SimVertexContainer::const_iterator itVtx;
  for (itVtx = G4VtxContainer->begin(); itVtx != G4VtxContainer->end(); ++itVtx) {
    ++i;
 
    const math::XYZTLorentzVector G4Vtx1(
        itVtx->position().x(), itVtx->position().y(), itVtx->position().z(), itVtx->position().e());
 
    double G4Vtx[4];
    G4Vtx1.GetCoordinates(G4Vtx);
 
    if (hGeantVtxX[0])
      hGeantVtxX[0]->Fill((G4Vtx[0] * unit) / micrometer);
    if (hGeantVtxX[1])
      hGeantVtxX[1]->Fill((G4Vtx[0] * unit) / micrometer);
 
    if (hGeantVtxY[0])
      hGeantVtxY[0]->Fill((G4Vtx[1] * unit) / micrometer);
    if (hGeantVtxY[1])
      hGeantVtxY[1]->Fill((G4Vtx[1] * unit) / micrometer);
 
    if (hGeantVtxZ[0])
      hGeantVtxZ[0]->Fill((G4Vtx[2] * unit) / millimeter);
    if (hGeantVtxZ[1])
      hGeantVtxZ[1]->Fill((G4Vtx[2] * unit) / millimeter);
  }
 
  if (verbosity > 1) {
    eventout += "\n          Number of G4Vertices collected:............ ";
    eventout += i;
  }
 
  if (hMCG4Vtx[0])
    hMCG4Vtx[0]->Fill((float)i);
  if (hMCG4Vtx[1])
    hMCG4Vtx[1]->Fill((float)i);
 
  // get G4Track information
  edm::Handle<edm::SimTrackContainer> G4TrkContainer;
  iEvent.getByToken(G4TrkSrc_Token_, G4TrkContainer);
  if (!G4TrkContainer.isValid()) {
    edm::LogWarning(MsgLoggerCat) << "Unable to find SimTrack in event!";
    return;
  }
  i = 0;
  edm::SimTrackContainer::const_iterator itTrk;
  for (itTrk = G4TrkContainer->begin(); itTrk != G4TrkContainer->end(); ++itTrk) {
    ++i;
 
    const math::XYZTLorentzVector G4Trk1(
        itTrk->momentum().x(), itTrk->momentum().y(), itTrk->momentum().z(), itTrk->momentum().e());
    double G4Trk[4];
    G4Trk1.GetCoordinates(G4Trk);
 
    if (hGeantTrkPt)
      hGeantTrkPt->Fill(sqrt(G4Trk[0] * G4Trk[0] + G4Trk[1] * G4Trk[1]));
    if (hGeantTrkE)
      hGeantTrkE->Fill(G4Trk[3]);
  }
 
  if (verbosity > 1) {
    eventout += "\n          Number of G4Tracks collected:.............. ";
    eventout += i;
  }
 
  if (hMCG4Trk[0])
    hMCG4Trk[0]->Fill((float)i);
  if (hMCG4Trk[1])
    hMCG4Trk[1]->Fill((float)i);
 
  if (verbosity > 0)
    edm::LogInfo(MsgLoggerCat) << eventout << "\n";
 
  return;
}

References edm::Provenance::branchDescription(), G4TrkSrc_Token_, G4VtxSrc_Token_, edm::HepMCProduct::GetEvent(), hGeantTrkE, hGeantTrkPt, hGeantVtxX, hGeantVtxY, hGeantVtxZ, hMCG4Trk, hMCG4Vtx, hMCRGP, mps_fire::i, iEvent, edm::HandleBase::isValid(), HerwigMaxPtPartonFilter_cfi::moduleLabel, nRawGenPart, edm::HandleBase::provenance(), mathSSE::sqrt(), AlCaHLTBitMon_QueryRunRegistry::string, unit(), verbosity, and vtxunit.

Referenced by produce().

fillHCal()

void GlobalHitsProdHist::fillHCal ( edm::Event &  iEvent, const edm::EventSetup &  iSetup  )

private

Definition at line 1637 of file GlobalHitsProdHist.cc.

                                                                               {
  std::string MsgLoggerCat = "GlobalHitsProdHist_fillHCal";
 
  TString eventout;
  if (verbosity > 0)
    eventout = "\nGathering info:";
 
  // access the calorimeter geometry
  edm::ESHandle<CaloGeometry> theCaloGeometry;
  iSetup.get<CaloGeometryRecord>().get(theCaloGeometry);
  if (!theCaloGeometry.isValid()) {
    edm::LogWarning(MsgLoggerCat) << "Unable to find CaloGeometryRecord in event!";
    return;
  }
  const CaloGeometry &theCalo(*theCaloGeometry);
 
  // iterator to access containers
  edm::PCaloHitContainer::const_iterator itHit;
 
  // get  HCal information
  // extract HCal container
  edm::Handle<edm::PCaloHitContainer> HCalContainer;
  iEvent.getByToken(HCalSrc_Token_, HCalContainer);
  if (!HCalContainer.isValid()) {
    edm::LogWarning(MsgLoggerCat) << "Unable to find HCalHits in event!";
    return;
  }
 
  // cycle through container
  int i = 0, j = 0;
  for (itHit = HCalContainer->begin(); itHit != HCalContainer->end(); ++itHit) {
    ++i;
 
    // create a DetId from the detUnitId
    DetId theDetUnitId(itHit->id());
    int detector = theDetUnitId.det();
    int subdetector = theDetUnitId.subdetId();
 
    // check that expected detector is returned
    if ((detector == dHcal) && ((subdetector == sdHcalBrl) || (subdetector == sdHcalEC) || (subdetector == sdHcalOut) ||
                                (subdetector == sdHcalFwd))) {
      // get the Cell geometry
      const HcalGeometry *theDet = dynamic_cast<const HcalGeometry *>(theCalo.getSubdetectorGeometry(theDetUnitId));
 
      if (!theDet) {
        edm::LogWarning(MsgLoggerCat) << "Unable to get HcalGeometry from HCalContainer for Hit " << i;
        continue;
      }
 
      ++j;
 
      // get the global position of the cell
      const GlobalPoint &globalposition = theDet->getPosition(theDetUnitId);
 
      if (hCaloHcalE[0])
        hCaloHcalE[0]->Fill(itHit->energy());
      if (hCaloHcalE[1])
        hCaloHcalE[1]->Fill(itHit->energy());
      if (hCaloHcalToF[0])
        hCaloHcalToF[0]->Fill(itHit->time());
      if (hCaloHcalToF[1])
        hCaloHcalToF[1]->Fill(itHit->time());
      if (hCaloHcalPhi)
        hCaloHcalPhi->Fill(globalposition.phi());
      if (hCaloHcalEta)
        hCaloHcalEta->Fill(globalposition.eta());
 
    } else {
      edm::LogWarning(MsgLoggerCat) << "HCal PCaloHit " << i << " is expected to be (det,subdet) = (" << dHcal << ","
                                    << sdHcalBrl << " || " << sdHcalEC << " || " << sdHcalOut << " || " << sdHcalFwd
                                    << "); value returned is: (" << detector << "," << subdetector << ")";
      continue;
    }  // end detector type check
  }    // end loop through HCal Hits
 
  if (verbosity > 1) {
    eventout += "\n          Number of HCal Hits collected:............. ";
    eventout += j;
  }
 
  if (hCaloHcal[0])
    hCaloHcal[0]->Fill((float)j);
  if (hCaloHcal[1])
    hCaloHcal[1]->Fill((float)j);
 
  if (verbosity > 0)
    edm::LogInfo(MsgLoggerCat) << eventout << "\n";
 
  return;
}

References hgcalTestNeighbor_cfi::detector, dHcal, PV3DBase< T, PVType, FrameType >::eta(), edm::EventSetup::get(), get, HcalGeometry::getPosition(), CaloGeometry::getSubdetectorGeometry(), hCaloHcal, hCaloHcalE, hCaloHcalEta, hCaloHcalPhi, hCaloHcalToF, HCalSrc_Token_, mps_fire::i, iEvent, edm::ESHandleBase::isValid(), edm::HandleBase::isValid(), dqmiolumiharvest::j, PV3DBase< T, PVType, FrameType >::phi(), sdHcalBrl, sdHcalEC, sdHcalFwd, sdHcalOut, AlCaHLTBitMon_QueryRunRegistry::string, subdetector, and verbosity.

Referenced by produce().

fillMuon()

void GlobalHitsProdHist::fillMuon ( edm::Event &  iEvent, const edm::EventSetup &  iSetup  )

private

Definition at line 1198 of file GlobalHitsProdHist.cc.

                                                                               {
  nMuonHits = 0;
  std::string MsgLoggerCat = "GlobalHitsProdHist_fillMuon";
 
  TString eventout;
  if (verbosity > 0)
    eventout = "\nGathering info:";
 
  // iterator to access containers
  edm::PSimHitContainer::const_iterator itHit;
 
  // access the CSC Muon
  // access the CSC Muon geometry
  edm::ESHandle<CSCGeometry> theCSCGeometry;
  iSetup.get<MuonGeometryRecord>().get(theCSCGeometry);
  if (!theCSCGeometry.isValid()) {
    edm::LogWarning(MsgLoggerCat) << "Unable to find MuonGeometryRecord for the CSCGeometry in event!";
    return;
  }
  const CSCGeometry &theCSCMuon(*theCSCGeometry);
 
  // get Muon CSC information
  edm::Handle<edm::PSimHitContainer> MuonCSCContainer;
  iEvent.getByToken(MuonCscSrc_Token_, MuonCSCContainer);
  if (!MuonCSCContainer.isValid()) {
    edm::LogWarning(MsgLoggerCat) << "Unable to find MuonCSCHits in event!";
    return;
  }
 
  // cycle through container
  int i = 0, j = 0;
  for (itHit = MuonCSCContainer->begin(); itHit != MuonCSCContainer->end(); ++itHit) {
    ++i;
 
    // create a DetId from the detUnitId
    DetId theDetUnitId(itHit->detUnitId());
    int detector = theDetUnitId.det();
    int subdetector = theDetUnitId.subdetId();
 
    // check that expected detector is returned
    if ((detector == dMuon) && (subdetector == sdMuonCSC)) {
      // get the GeomDetUnit from the geometry using theDetUnitID
      const GeomDetUnit *theDet = theCSCMuon.idToDetUnit(theDetUnitId);
 
      if (!theDet) {
        edm::LogWarning(MsgLoggerCat) << "Unable to get GeomDetUnit from theCSCMuon for hit " << i;
        continue;
      }
 
      ++j;
 
      // get the Surface of the hit (knows how to go from local <-> global)
      const BoundPlane &bSurface = theDet->surface();
 
      if (hMuonCscToF[0])
        hMuonCscToF[0]->Fill(itHit->tof());
      if (hMuonCscToF[1])
        hMuonCscToF[1]->Fill(itHit->tof());
      if (hMuonCscZ)
        hMuonCscZ->Fill(bSurface.toGlobal(itHit->localPosition()).z());
      if (hMuonPhi)
        hMuonPhi->Fill(bSurface.toGlobal(itHit->localPosition()).phi());
      if (hMuonEta)
        hMuonEta->Fill(bSurface.toGlobal(itHit->localPosition()).eta());
 
    } else {
      edm::LogWarning(MsgLoggerCat) << "MuonCsc PSimHit " << i << " is expected to be (det,subdet) = (" << dMuon << ","
                                    << sdMuonCSC << "); value returned is: (" << detector << "," << subdetector << ")";
      continue;
    }  // end detector type check
  }    // end loop through CSC Hits
 
  if (verbosity > 1) {
    eventout += "\n          Number of CSC muon Hits collected:......... ";
    eventout += j;
  }
 
  nMuonHits += j;
 
  // access the DT Muon
  // access the DT Muon geometry
  edm::ESHandle<DTGeometry> theDTGeometry;
  iSetup.get<MuonGeometryRecord>().get(theDTGeometry);
  if (!theDTGeometry.isValid()) {
    edm::LogWarning(MsgLoggerCat) << "Unable to find MuonGeometryRecord for the DTGeometry in event!";
    return;
  }
  const DTGeometry &theDTMuon(*theDTGeometry);
 
  // get Muon DT information
  edm::Handle<edm::PSimHitContainer> MuonDtContainer;
  iEvent.getByToken(MuonDtSrc_Token_, MuonDtContainer);
  if (!MuonDtContainer.isValid()) {
    edm::LogWarning(MsgLoggerCat) << "Unable to find MuonDTHits in event!";
    return;
  }
 
  // cycle through container
  i = 0, j = 0;
  for (itHit = MuonDtContainer->begin(); itHit != MuonDtContainer->end(); ++itHit) {
    ++i;
 
    // create a DetId from the detUnitId
    DetId theDetUnitId(itHit->detUnitId());
    int detector = theDetUnitId.det();
    int subdetector = theDetUnitId.subdetId();
 
    // check that expected detector is returned
    if ((detector == dMuon) && (subdetector == sdMuonDT)) {
      // CSC uses wires and layers rather than the full detID
      // get the wireId
      DTWireId wireId(itHit->detUnitId());
 
      // get the DTLayer from the geometry using the wireID
      const DTLayer *theDet = theDTMuon.layer(wireId.layerId());
 
      if (!theDet) {
        edm::LogWarning(MsgLoggerCat) << "Unable to get GeomDetUnit from theDtMuon for hit " << i;
        continue;
      }
 
      ++j;
 
      // get the Surface of the hit (knows how to go from local <-> global)
      const BoundPlane &bSurface = theDet->surface();
 
      if (hMuonDtToF[0])
        hMuonDtToF[0]->Fill(itHit->tof());
      if (hMuonDtToF[1])
        hMuonDtToF[1]->Fill(itHit->tof());
      if (hMuonDtR)
        hMuonDtR->Fill(bSurface.toGlobal(itHit->localPosition()).perp());
      if (hMuonPhi)
        hMuonPhi->Fill(bSurface.toGlobal(itHit->localPosition()).phi());
      if (hMuonEta)
        hMuonEta->Fill(bSurface.toGlobal(itHit->localPosition()).eta());
 
    } else {
      edm::LogWarning(MsgLoggerCat) << "MuonDt PSimHit " << i << " is expected to be (det,subdet) = (" << dMuon << ","
                                    << sdMuonDT << "); value returned is: (" << detector << "," << subdetector << ")";
      continue;
    }  // end detector type check
  }    // end loop through DT Hits
 
  if (verbosity > 1) {
    eventout += "\n          Number of DT muon Hits collected:.......... ";
    eventout += j;
  }
 
  nMuonHits += j;
 
  // int RPCBrl = 0, RPCFwd = 0;
  // access the RPC Muon
  // access the RPC Muon geometry
  edm::ESHandle<RPCGeometry> theRPCGeometry;
  iSetup.get<MuonGeometryRecord>().get(theRPCGeometry);
  if (!theRPCGeometry.isValid()) {
    edm::LogWarning(MsgLoggerCat) << "Unable to find MuonGeometryRecord for the RPCGeometry in event!";
    return;
  }
  const RPCGeometry &theRPCMuon(*theRPCGeometry);
 
  // get Muon RPC information
  edm::Handle<edm::PSimHitContainer> MuonRPCContainer;
  iEvent.getByToken(MuonRpcSrc_Token_, MuonRPCContainer);
  if (!MuonRPCContainer.isValid()) {
    edm::LogWarning(MsgLoggerCat) << "Unable to find MuonRPCHits in event!";
    return;
  }
 
  // cycle through container
  i = 0, j = 0;
  int RPCBrl = 0, RPCFwd = 0;
  for (itHit = MuonRPCContainer->begin(); itHit != MuonRPCContainer->end(); ++itHit) {
    ++i;
 
    // create a DetID from the detUnitId
    DetId theDetUnitId(itHit->detUnitId());
    int detector = theDetUnitId.det();
    int subdetector = theDetUnitId.subdetId();
 
    // check that expected detector is returned
    if ((detector == dMuon) && (subdetector == sdMuonRPC)) {
      // get an RPCDetID from the detUnitID
      RPCDetId RPCId(itHit->detUnitId());
 
      // find the region of the RPC hit
      int region = RPCId.region();
 
      // get the GeomDetUnit from the geometry using the RPCDetId
      const GeomDetUnit *theDet = theRPCMuon.idToDetUnit(theDetUnitId);
 
      if (!theDet) {
        edm::LogWarning(MsgLoggerCat) << "Unable to get GeomDetUnit from theRPCMuon for hit " << i;
        continue;
      }
 
      ++j;
 
      // get the Surface of the hit (knows how to go from local <-> global)
      const BoundPlane &bSurface = theDet->surface();
 
      // gather necessary information
      if ((region == sdMuonRPCRgnFwdp) || (region == sdMuonRPCRgnFwdn)) {
        ++RPCFwd;
 
        if (hMuonRpcFToF[0])
          hMuonRpcFToF[0]->Fill(itHit->tof());
        if (hMuonRpcFToF[1])
          hMuonRpcFToF[1]->Fill(itHit->tof());
        if (hMuonRpcFZ)
          hMuonRpcFZ->Fill(bSurface.toGlobal(itHit->localPosition()).z());
        if (hMuonPhi)
          hMuonPhi->Fill(bSurface.toGlobal(itHit->localPosition()).phi());
        if (hMuonEta)
          hMuonEta->Fill(bSurface.toGlobal(itHit->localPosition()).eta());
 
      } else if (region == sdMuonRPCRgnBrl) {
        ++RPCBrl;
 
        if (hMuonRpcBToF[0])
          hMuonRpcBToF[0]->Fill(itHit->tof());
        if (hMuonRpcBToF[1])
          hMuonRpcBToF[1]->Fill(itHit->tof());
        if (hMuonRpcBR)
          hMuonRpcBR->Fill(bSurface.toGlobal(itHit->localPosition()).perp());
        if (hMuonPhi)
          hMuonPhi->Fill(bSurface.toGlobal(itHit->localPosition()).phi());
        if (hMuonEta)
          hMuonEta->Fill(bSurface.toGlobal(itHit->localPosition()).eta());
 
      } else {
        edm::LogWarning(MsgLoggerCat) << "Invalid region for RPC Muon hit" << i;
        continue;
      }  // end check of region
    } else {
      edm::LogWarning(MsgLoggerCat) << "MuonRpc PSimHit " << i << " is expected to be (det,subdet) = (" << dMuon << ","
                                    << sdMuonRPC << "); value returned is: (" << detector << "," << subdetector << ")";
      continue;
    }  // end detector type check
  }    // end loop through RPC Hits
 
  if (verbosity > 1) {
    eventout += "\n          Number of RPC muon Hits collected:......... ";
    eventout += j;
    eventout += "\n                    RPC Barrel muon Hits:............ ";
    eventout += RPCBrl;
    eventout += "\n                    RPC Forward muon Hits:........... ";
    eventout += RPCFwd;
  }
 
  nMuonHits += j;
 
  if (hMuon[0])
    hMuon[0]->Fill((float)nMuonHits);
  if (hMuon[1])
    hMuon[1]->Fill((float)nMuonHits);
 
  if (verbosity > 0)
    edm::LogInfo(MsgLoggerCat) << eventout << "\n";
 
  return;
}

References hgcalTestNeighbor_cfi::detector, dMuon, PVValHelper::eta, edm::EventSetup::get(), get, hMuon, hMuonCscToF, hMuonCscZ, hMuonDtR, hMuonDtToF, hMuonEta, hMuonPhi, hMuonRpcBR, hMuonRpcBToF, hMuonRpcFToF, hMuonRpcFZ, mps_fire::i, RPCGeometry::idToDetUnit(), CSCGeometry::idToDetUnit(), iEvent, edm::ESHandleBase::isValid(), edm::HandleBase::isValid(), dqmiolumiharvest::j, DTGeometry::layer(), MuonCscSrc_Token_, MuonDtSrc_Token_, MuonRpcSrc_Token_, nMuonHits, perp(), phi, HLT_FULL_cff::region, sdMuonCSC, sdMuonDT, sdMuonRPC, sdMuonRPCRgnBrl, sdMuonRPCRgnFwdn, sdMuonRPCRgnFwdp, AlCaHLTBitMon_QueryRunRegistry::string, subdetector, GeomDet::surface(), verbosity, and z.

Referenced by produce().

fillTrk()

void GlobalHitsProdHist::fillTrk ( edm::Event &  iEvent, const edm::EventSetup &  iSetup  )

private

Definition at line 843 of file GlobalHitsProdHist.cc.

                                                                              {
  nPxlHits = 0;
  std::string MsgLoggerCat = "GlobalHitsProdHist_fillTrk";
 
  TString eventout;
  if (verbosity > 0)
    eventout = "\nGathering info:";
 
  // access the tracker geometry
  edm::ESHandle<TrackerGeometry> theTrackerGeometry;
  iSetup.get<TrackerDigiGeometryRecord>().get(theTrackerGeometry);
  if (!theTrackerGeometry.isValid()) {
    edm::LogWarning(MsgLoggerCat) << "Unable to find TrackerDigiGeometryRecord in event!";
    return;
  }
  const TrackerGeometry &theTracker(*theTrackerGeometry);
 
  // iterator to access containers
  edm::PSimHitContainer::const_iterator itHit;
 
  // get Pixel Barrel information
  edm::PSimHitContainer thePxlBrlHits;
  // extract low container
  edm::Handle<edm::PSimHitContainer> PxlBrlLowContainer;
  iEvent.getByToken(PxlBrlLowSrc_Token_, PxlBrlLowContainer);
  if (!PxlBrlLowContainer.isValid()) {
    edm::LogWarning(MsgLoggerCat) << "Unable to find TrackerHitsPixelBarrelLowTof in event!";
    return;
  }
  // extract high container
  edm::Handle<edm::PSimHitContainer> PxlBrlHighContainer;
  iEvent.getByToken(PxlBrlHighSrc_Token_, PxlBrlHighContainer);
  if (!PxlBrlHighContainer.isValid()) {
    edm::LogWarning(MsgLoggerCat) << "Unable to find TrackerHitsPixelBarrelHighTof in event!";
    return;
  }
  // place both containers into new container
  thePxlBrlHits.insert(thePxlBrlHits.end(), PxlBrlLowContainer->begin(), PxlBrlLowContainer->end());
  thePxlBrlHits.insert(thePxlBrlHits.end(), PxlBrlHighContainer->begin(), PxlBrlHighContainer->end());
 
  // cycle through new container
  int i = 0, j = 0;
  for (itHit = thePxlBrlHits.begin(); itHit != thePxlBrlHits.end(); ++itHit) {
    ++i;
 
    // create a DetId from the detUnitId
    DetId theDetUnitId(itHit->detUnitId());
    int detector = theDetUnitId.det();
    int subdetector = theDetUnitId.subdetId();
 
    // check that expected detector is returned
    if ((detector == dTrk) && (subdetector == sdPxlBrl)) {
      // get the GeomDetUnit from the geometry using theDetUnitID
      const GeomDetUnit *theDet = theTracker.idToDetUnit(theDetUnitId);
 
      if (!theDet) {
        edm::LogWarning(MsgLoggerCat) << "Unable to get GeomDetUnit from PxlBrlHits for Hit " << i;
        continue;
      }
 
      ++j;
 
      // get the Surface of the hit (knows how to go from local <-> global)
      const BoundPlane &bSurface = theDet->surface();
 
      if (hTrackerPxBToF)
        hTrackerPxBToF->Fill(itHit->tof());
      if (hTrackerPxBR)
        hTrackerPxBR->Fill(bSurface.toGlobal(itHit->localPosition()).perp());
      if (hTrackerPxPhi)
        hTrackerPxPhi->Fill(bSurface.toGlobal(itHit->localPosition()).phi());
      if (hTrackerPxEta)
        hTrackerPxEta->Fill(bSurface.toGlobal(itHit->localPosition()).eta());
 
    } else {
      edm::LogWarning(MsgLoggerCat) << "PxlBrl PSimHit " << i << " is expected to be (det,subdet) = (" << dTrk << ","
                                    << sdPxlBrl << "); value returned is: (" << detector << "," << subdetector << ")";
      continue;
    }  // end detector type check
  }    // end loop through PxlBrl Hits
 
  if (verbosity > 1) {
    eventout += "\n          Number of Pixel Barrel Hits collected:..... ";
    eventout += j;
  }
 
  nPxlHits += j;
 
  // get Pixel Forward information
  edm::PSimHitContainer thePxlFwdHits;
  // extract low container
  edm::Handle<edm::PSimHitContainer> PxlFwdLowContainer;
  iEvent.getByToken(PxlFwdLowSrc_Token_, PxlFwdLowContainer);
  if (!PxlFwdLowContainer.isValid()) {
    edm::LogWarning(MsgLoggerCat) << "Unable to find TrackerHitsPixelEndcapLowTof in event!";
    return;
  }
  // extract high container
  edm::Handle<edm::PSimHitContainer> PxlFwdHighContainer;
  iEvent.getByToken(PxlFwdHighSrc_Token_, PxlFwdHighContainer);
  if (!PxlFwdHighContainer.isValid()) {
    edm::LogWarning("GlobalHitsProdHist_fillTrk") << "Unable to find TrackerHitsPixelEndcapHighTof in event!";
    return;
  }
  // place both containers into new container
  thePxlFwdHits.insert(thePxlFwdHits.end(), PxlFwdLowContainer->begin(), PxlFwdLowContainer->end());
  thePxlFwdHits.insert(thePxlFwdHits.end(), PxlFwdHighContainer->begin(), PxlFwdHighContainer->end());
 
  // cycle through new container
  i = 0;
  j = 0;
  for (itHit = thePxlFwdHits.begin(); itHit != thePxlFwdHits.end(); ++itHit) {
    ++i;
 
    // create a DetId from the detUnitId
    DetId theDetUnitId(itHit->detUnitId());
    int detector = theDetUnitId.det();
    int subdetector = theDetUnitId.subdetId();
 
    // check that expected detector is returned
    if ((detector == dTrk) && (subdetector == sdPxlFwd)) {
      // get the GeomDetUnit from the geometry using theDetUnitID
      const GeomDetUnit *theDet = theTracker.idToDetUnit(theDetUnitId);
 
      if (!theDet) {
        edm::LogWarning(MsgLoggerCat) << "Unable to get GeomDetUnit from PxlFwdHits for Hit " << i;
        ;
        continue;
      }
 
      ++j;
 
      // get the Surface of the hit (knows how to go from local <-> global)
      const BoundPlane &bSurface = theDet->surface();
 
      if (hTrackerPxFToF)
        hTrackerPxFToF->Fill(itHit->tof());
      if (hTrackerPxFZ)
        hTrackerPxFZ->Fill(bSurface.toGlobal(itHit->localPosition()).z());
      if (hTrackerPxPhi)
        hTrackerPxPhi->Fill(bSurface.toGlobal(itHit->localPosition()).phi());
      if (hTrackerPxEta)
        hTrackerPxEta->Fill(bSurface.toGlobal(itHit->localPosition()).eta());
 
    } else {
      edm::LogWarning(MsgLoggerCat) << "PxlFwd PSimHit " << i << " is expected to be (det,subdet) = (" << dTrk << ","
                                    << sdPxlFwd << "); value returned is: (" << detector << "," << subdetector << ")";
      continue;
    }  // end detector type check
  }    // end loop through PxlFwd Hits
 
  if (verbosity > 1) {
    eventout += "\n          Number of Pixel Forward Hits collected:.... ";
    eventout += j;
  }
 
  nPxlHits += j;
 
  if (hTrackerPx[0])
    hTrackerPx[0]->Fill((float)nPxlHits);
  if (hTrackerPx[1])
    hTrackerPx[1]->Fill((float)nPxlHits);
 
  // get Silicon Barrel information
  nSiHits = 0;
  edm::PSimHitContainer theSiBrlHits;
  // extract TIB low container
  edm::Handle<edm::PSimHitContainer> SiTIBLowContainer;
  iEvent.getByToken(SiTIBLowSrc_Token_, SiTIBLowContainer);
  if (!SiTIBLowContainer.isValid()) {
    edm::LogWarning(MsgLoggerCat) << "Unable to find TrackerHitsTIBLowTof in event!";
    return;
  }
  // extract TIB high container
  edm::Handle<edm::PSimHitContainer> SiTIBHighContainer;
  iEvent.getByToken(SiTIBHighSrc_Token_, SiTIBHighContainer);
  if (!SiTIBHighContainer.isValid()) {
    edm::LogWarning(MsgLoggerCat) << "Unable to find TrackerHitsTIBHighTof in event!";
    return;
  }
  // extract TOB low container
  edm::Handle<edm::PSimHitContainer> SiTOBLowContainer;
  iEvent.getByToken(SiTOBLowSrc_Token_, SiTOBLowContainer);
  if (!SiTOBLowContainer.isValid()) {
    edm::LogWarning(MsgLoggerCat) << "Unable to find TrackerHitsTOBLowTof in event!";
    return;
  }
  // extract TOB high container
  edm::Handle<edm::PSimHitContainer> SiTOBHighContainer;
  iEvent.getByToken(SiTOBHighSrc_Token_, SiTOBHighContainer);
  if (!SiTOBHighContainer.isValid()) {
    edm::LogWarning(MsgLoggerCat) << "Unable to find TrackerHitsTOBHighTof in event!";
    return;
  }
  // place all containers into new container
  theSiBrlHits.insert(theSiBrlHits.end(), SiTIBLowContainer->begin(), SiTIBLowContainer->end());
  theSiBrlHits.insert(theSiBrlHits.end(), SiTIBHighContainer->begin(), SiTIBHighContainer->end());
  theSiBrlHits.insert(theSiBrlHits.end(), SiTOBLowContainer->begin(), SiTOBLowContainer->end());
  theSiBrlHits.insert(theSiBrlHits.end(), SiTOBHighContainer->begin(), SiTOBHighContainer->end());
 
  // cycle through new container
  i = 0;
  j = 0;
  for (itHit = theSiBrlHits.begin(); itHit != theSiBrlHits.end(); ++itHit) {
    ++i;
 
    // create a DetId from the detUnitId
    DetId theDetUnitId(itHit->detUnitId());
    int detector = theDetUnitId.det();
    int subdetector = theDetUnitId.subdetId();
 
    // check that expected detector is returned
    if ((detector == dTrk) && ((subdetector == sdSiTIB) || (subdetector == sdSiTOB))) {
      // get the GeomDetUnit from the geometry using theDetUnitID
      const GeomDetUnit *theDet = theTracker.idToDetUnit(theDetUnitId);
 
      if (!theDet) {
        edm::LogWarning(MsgLoggerCat) << "Unable to get GeomDetUnit from SiBrlHits for Hit " << i;
        continue;
      }
 
      ++j;
 
      // get the Surface of the hit (knows how to go from local <-> global)
      const BoundPlane &bSurface = theDet->surface();
 
      if (hTrackerSiBToF)
        hTrackerSiBToF->Fill(itHit->tof());
      if (hTrackerSiBR)
        hTrackerSiBR->Fill(bSurface.toGlobal(itHit->localPosition()).perp());
      if (hTrackerSiPhi)
        hTrackerSiPhi->Fill(bSurface.toGlobal(itHit->localPosition()).phi());
      if (hTrackerSiEta)
        hTrackerSiEta->Fill(bSurface.toGlobal(itHit->localPosition()).eta());
 
    } else {
      edm::LogWarning(MsgLoggerCat) << "SiBrl PSimHit " << i << " is expected to be (det,subdet) = (" << dTrk << ","
                                    << sdSiTIB << " || " << sdSiTOB << "); value returned is: (" << detector << ","
                                    << subdetector << ")";
      continue;
    }  // end detector type check
  }    // end loop through SiBrl Hits
 
  if (verbosity > 1) {
    eventout += "\n          Number of Silicon Barrel Hits collected:... ";
    eventout += j;
  }
 
  nSiHits += j;
 
  // get Silicon Forward information
  edm::PSimHitContainer theSiFwdHits;
  // extract TID low container
  edm::Handle<edm::PSimHitContainer> SiTIDLowContainer;
  iEvent.getByToken(SiTIDLowSrc_Token_, SiTIDLowContainer);
  if (!SiTIDLowContainer.isValid()) {
    edm::LogWarning(MsgLoggerCat) << "Unable to find TrackerHitsTIDLowTof in event!";
    return;
  }
  // extract TID high container
  edm::Handle<edm::PSimHitContainer> SiTIDHighContainer;
  iEvent.getByToken(SiTIDHighSrc_Token_, SiTIDHighContainer);
  if (!SiTIDHighContainer.isValid()) {
    edm::LogWarning("GlobalHitsProdHist_fillTrk") << "Unable to find TrackerHitsTIDHighTof in event!";
    return;
  }
  // extract TEC low container
  edm::Handle<edm::PSimHitContainer> SiTECLowContainer;
  iEvent.getByToken(SiTECLowSrc_Token_, SiTECLowContainer);
  if (!SiTECLowContainer.isValid()) {
    edm::LogWarning(MsgLoggerCat) << "Unable to find TrackerHitsTECLowTof in event!";
    return;
  }
  // extract TEC high container
  edm::Handle<edm::PSimHitContainer> SiTECHighContainer;
  iEvent.getByToken(SiTECHighSrc_Token_, SiTECHighContainer);
  if (!SiTECHighContainer.isValid()) {
    edm::LogWarning(MsgLoggerCat) << "Unable to find TrackerHitsTECHighTof in event!";
    return;
  }
  // place all containers into new container
  theSiFwdHits.insert(theSiFwdHits.end(), SiTIDLowContainer->begin(), SiTIDLowContainer->end());
  theSiFwdHits.insert(theSiFwdHits.end(), SiTIDHighContainer->begin(), SiTIDHighContainer->end());
  theSiFwdHits.insert(theSiFwdHits.end(), SiTECLowContainer->begin(), SiTECLowContainer->end());
  theSiFwdHits.insert(theSiFwdHits.end(), SiTECHighContainer->begin(), SiTECHighContainer->end());
 
  // cycle through container
  i = 0;
  j = 0;
  for (itHit = theSiFwdHits.begin(); itHit != theSiFwdHits.end(); ++itHit) {
    ++i;
 
    // create a DetId from the detUnitId
    DetId theDetUnitId(itHit->detUnitId());
    int detector = theDetUnitId.det();
    int subdetector = theDetUnitId.subdetId();
 
    // check that expected detector is returned
    if ((detector == dTrk) && ((subdetector == sdSiTID) || (subdetector == sdSiTEC))) {
      // get the GeomDetUnit from the geometry using theDetUnitID
      const GeomDetUnit *theDet = theTracker.idToDetUnit(theDetUnitId);
 
      if (!theDet) {
        edm::LogWarning(MsgLoggerCat) << "Unable to get GeomDetUnit from SiFwdHits Hit " << i;
        return;
      }
 
      ++j;
 
      // get the Surface of the hit (knows how to go from local <-> global)
      const BoundPlane &bSurface = theDet->surface();
 
      if (hTrackerSiFToF)
        hTrackerSiFToF->Fill(itHit->tof());
      if (hTrackerSiFZ)
        hTrackerSiFZ->Fill(bSurface.toGlobal(itHit->localPosition()).z());
      if (hTrackerSiPhi)
        hTrackerSiPhi->Fill(bSurface.toGlobal(itHit->localPosition()).phi());
      if (hTrackerSiEta)
        hTrackerSiEta->Fill(bSurface.toGlobal(itHit->localPosition()).eta());
 
    } else {
      edm::LogWarning(MsgLoggerCat) << "SiFwd PSimHit " << i << " is expected to be (det,subdet) = (" << dTrk << ","
                                    << sdSiTOB << " || " << sdSiTEC << "); value returned is: (" << detector << ","
                                    << subdetector << ")";
      continue;
    }  // end check detector type
  }    // end loop through SiFwd Hits
 
  if (verbosity > 1) {
    eventout += "\n          Number of Silicon Forward Hits collected:.. ";
    eventout += j;
  }
 
  nSiHits += j;
 
  if (hTrackerSi[0])
    hTrackerSi[0]->Fill((float)nSiHits);
  if (hTrackerSi[1])
    hTrackerSi[1]->Fill((float)nSiHits);
 
  if (verbosity > 0)
    edm::LogInfo(MsgLoggerCat) << eventout << "\n";
 
  return;
}

References hgcalTestNeighbor_cfi::detector, dTrk, PVValHelper::eta, edm::EventSetup::get(), get, hTrackerPx, hTrackerPxBR, hTrackerPxBToF, hTrackerPxEta, hTrackerPxFToF, hTrackerPxFZ, hTrackerPxPhi, hTrackerSi, hTrackerSiBR, hTrackerSiBToF, hTrackerSiEta, hTrackerSiFToF, hTrackerSiFZ, hTrackerSiPhi, mps_fire::i, TrackerGeometry::idToDetUnit(), iEvent, edm::ESHandleBase::isValid(), edm::HandleBase::isValid(), dqmiolumiharvest::j, nPxlHits, nSiHits, perp(), phi, PxlBrlHighSrc_Token_, PxlBrlLowSrc_Token_, PxlFwdHighSrc_Token_, PxlFwdLowSrc_Token_, sdPxlBrl, sdPxlFwd, sdSiTEC, sdSiTIB, sdSiTID, sdSiTOB, SiTECHighSrc_Token_, SiTECLowSrc_Token_, SiTIBHighSrc_Token_, SiTIBLowSrc_Token_, SiTIDHighSrc_Token_, SiTIDLowSrc_Token_, SiTOBHighSrc_Token_, SiTOBLowSrc_Token_, AlCaHLTBitMon_QueryRunRegistry::string, subdetector, GeomDet::surface(), verbosity, and z.

Referenced by produce().

produce()

void GlobalHitsProdHist::produce ( edm::Event &  iEvent, const edm::EventSetup &  iSetup  )

overridevirtual

Implements edm::one::EDProducerBase.

Definition at line 606 of file GlobalHitsProdHist.cc.

                                                                              {
  std::string MsgLoggerCat = "GlobalHitsProdHist_produce";
 
  // keep track of number of events processed
  ++count;
 
  // get event id information
  edm::RunNumber_t nrun = iEvent.id().run();
  edm::EventNumber_t nevt = iEvent.id().event();
 
  if (verbosity > 0) {
    edm::LogInfo(MsgLoggerCat) << "Processing run " << nrun << ", event " << nevt << " (" << count << " events total)";
  } else if (verbosity == 0) {
    if (nevt % frequency == 0 || nevt == 1) {
      edm::LogInfo(MsgLoggerCat) << "Processing run " << nrun << ", event " << nevt << " (" << count
                                 << " events total)";
    }
  }
 
  // look at information available in the event
  if (getAllProvenances) {
    std::vector<const edm::StableProvenance *> AllProv;
    iEvent.getAllStableProvenance(AllProv);
 
    if (verbosity >= 0)
      edm::LogInfo(MsgLoggerCat) << "Number of Provenances = " << AllProv.size();
 
    if (printProvenanceInfo && (verbosity >= 0)) {
      TString eventout("\nProvenance info:\n");
 
      for (unsigned int i = 0; i < AllProv.size(); ++i) {
        eventout += "\n       ******************************";
        eventout += "\n       Module       : ";
        eventout += AllProv[i]->moduleLabel();
        eventout += "\n       ProductID    : ";
        eventout += AllProv[i]->productID().id();
        eventout += "\n       ClassName    : ";
        eventout += AllProv[i]->className();
        eventout += "\n       InstanceName : ";
        eventout += AllProv[i]->productInstanceName();
        eventout += "\n       BranchName   : ";
        eventout += AllProv[i]->branchName();
      }
      eventout += "\n       ******************************\n";
      edm::LogInfo(MsgLoggerCat) << eventout << "\n";
      printProvenanceInfo = false;
    }
    getAllProvenances = false;
  }
 
  // call fill functions
  // gather G4MC information from event
  fillG4MC(iEvent);
  // gather Tracker information from event
  fillTrk(iEvent, iSetup);
  // gather muon information from event
  fillMuon(iEvent, iSetup);
  // gather Ecal information from event
  fillECal(iEvent, iSetup);
  // gather Hcal information from event
  fillHCal(iEvent, iSetup);
 
  if (verbosity > 0)
    edm::LogInfo(MsgLoggerCat) << "Done gathering data from event.";
 
  return;
}

References count, fillECal(), fillG4MC(), fillHCal(), fillMuon(), fillTrk(), frequency, getAllProvenances, mps_fire::i, iEvent, nevt, printProvenanceInfo, AlCaHLTBitMon_QueryRunRegistry::string, and verbosity.

Member Data Documentation

count

unsigned int GlobalHitsProdHist::count

private

Definition at line 225 of file GlobalHitsProdHist.h.

Referenced by endJob(), and produce().

ECalEBSrc_

edm::InputTag GlobalHitsProdHist::ECalEBSrc_

private

Definition at line 131 of file GlobalHitsProdHist.h.

Referenced by GlobalHitsProdHist().

ECalEBSrc_Token_

edm::EDGetTokenT<edm::PCaloHitContainer> GlobalHitsProdHist::ECalEBSrc_Token_

private

Definition at line 133 of file GlobalHitsProdHist.h.

Referenced by fillECal().

ECalEESrc_

edm::InputTag GlobalHitsProdHist::ECalEESrc_

private

Definition at line 132 of file GlobalHitsProdHist.h.

Referenced by GlobalHitsProdHist().

ECalEESrc_Token_

edm::EDGetTokenT<edm::PCaloHitContainer> GlobalHitsProdHist::ECalEESrc_Token_

private

Definition at line 134 of file GlobalHitsProdHist.h.

Referenced by fillECal().

ECalESSrc_

edm::InputTag GlobalHitsProdHist::ECalESSrc_

private

Definition at line 142 of file GlobalHitsProdHist.h.

Referenced by GlobalHitsProdHist().

ECalESSrc_Token_

edm::EDGetTokenT<edm::PCaloHitContainer> GlobalHitsProdHist::ECalESSrc_Token_

private

Definition at line 143 of file GlobalHitsProdHist.h.

Referenced by fillECal().

fName

std::string GlobalHitsProdHist::fName

private

Definition at line 95 of file GlobalHitsProdHist.h.

Referenced by GlobalHitsProdHist().

frequency

int GlobalHitsProdHist::frequency

private

Definition at line 97 of file GlobalHitsProdHist.h.

Referenced by GlobalHitsProdHist(), and produce().

G4TrkSrc_

edm::InputTag GlobalHitsProdHist::G4TrkSrc_

private

Definition at line 120 of file GlobalHitsProdHist.h.

G4TrkSrc_Token_

edm::EDGetTokenT<edm::SimTrackContainer> GlobalHitsProdHist::G4TrkSrc_Token_

private

Definition at line 122 of file GlobalHitsProdHist.h.

Referenced by fillG4MC().

G4VtxSrc_

edm::InputTag GlobalHitsProdHist::G4VtxSrc_

private

Definition at line 119 of file GlobalHitsProdHist.h.

G4VtxSrc_Token_

edm::EDGetTokenT<edm::SimVertexContainer> GlobalHitsProdHist::G4VtxSrc_Token_

private

Definition at line 121 of file GlobalHitsProdHist.h.

Referenced by fillG4MC().

getAllProvenances

bool GlobalHitsProdHist::getAllProvenances

private

Definition at line 99 of file GlobalHitsProdHist.h.

Referenced by GlobalHitsProdHist(), and produce().

hCaloEcal

TH1F* GlobalHitsProdHist::hCaloEcal[2]

private

Definition at line 126 of file GlobalHitsProdHist.h.

Referenced by fillECal(), and GlobalHitsProdHist().

hCaloEcalE

TH1F* GlobalHitsProdHist::hCaloEcalE[2]

private

Definition at line 127 of file GlobalHitsProdHist.h.

Referenced by fillECal(), and GlobalHitsProdHist().

hCaloEcalEta

TH1F* GlobalHitsProdHist::hCaloEcalEta

private

Definition at line 130 of file GlobalHitsProdHist.h.

Referenced by fillECal(), and GlobalHitsProdHist().

hCaloEcalPhi

TH1F* GlobalHitsProdHist::hCaloEcalPhi

private

Definition at line 129 of file GlobalHitsProdHist.h.

Referenced by fillECal(), and GlobalHitsProdHist().

hCaloEcalToF

TH1F* GlobalHitsProdHist::hCaloEcalToF[2]

private

Definition at line 128 of file GlobalHitsProdHist.h.

Referenced by fillECal(), and GlobalHitsProdHist().

hCaloHcal

TH1F* GlobalHitsProdHist::hCaloHcal[2]

private

Definition at line 147 of file GlobalHitsProdHist.h.

Referenced by fillHCal(), and GlobalHitsProdHist().

hCaloHcalE

TH1F* GlobalHitsProdHist::hCaloHcalE[2]

private

Definition at line 148 of file GlobalHitsProdHist.h.

Referenced by fillHCal(), and GlobalHitsProdHist().

hCaloHcalEta

TH1F* GlobalHitsProdHist::hCaloHcalEta

private

Definition at line 151 of file GlobalHitsProdHist.h.

Referenced by fillHCal(), and GlobalHitsProdHist().

hCaloHcalPhi

TH1F* GlobalHitsProdHist::hCaloHcalPhi

private

Definition at line 150 of file GlobalHitsProdHist.h.

Referenced by fillHCal(), and GlobalHitsProdHist().

hCaloHcalToF

TH1F* GlobalHitsProdHist::hCaloHcalToF[2]

private

Definition at line 149 of file GlobalHitsProdHist.h.

Referenced by fillHCal(), and GlobalHitsProdHist().

hCaloPreSh

TH1F* GlobalHitsProdHist::hCaloPreSh[2]

private

Definition at line 137 of file GlobalHitsProdHist.h.

Referenced by fillECal(), and GlobalHitsProdHist().

hCaloPreShE

TH1F* GlobalHitsProdHist::hCaloPreShE[2]

private

Definition at line 138 of file GlobalHitsProdHist.h.

Referenced by fillECal(), and GlobalHitsProdHist().

hCaloPreShEta

TH1F* GlobalHitsProdHist::hCaloPreShEta

private

Definition at line 141 of file GlobalHitsProdHist.h.

Referenced by fillECal(), and GlobalHitsProdHist().

hCaloPreShPhi

TH1F* GlobalHitsProdHist::hCaloPreShPhi

private

Definition at line 140 of file GlobalHitsProdHist.h.

Referenced by fillECal(), and GlobalHitsProdHist().

hCaloPreShToF

TH1F* GlobalHitsProdHist::hCaloPreShToF[2]

private

Definition at line 139 of file GlobalHitsProdHist.h.

Referenced by fillECal(), and GlobalHitsProdHist().

HCalSrc_

edm::InputTag GlobalHitsProdHist::HCalSrc_

private

Definition at line 152 of file GlobalHitsProdHist.h.

Referenced by GlobalHitsProdHist().

HCalSrc_Token_

edm::EDGetTokenT<edm::PCaloHitContainer> GlobalHitsProdHist::HCalSrc_Token_

private

Definition at line 153 of file GlobalHitsProdHist.h.

Referenced by fillHCal().

hGeantTrkE

TH1F* GlobalHitsProdHist::hGeantTrkE

private

Definition at line 116 of file GlobalHitsProdHist.h.

Referenced by fillG4MC(), and GlobalHitsProdHist().

hGeantTrkPt

TH1F* GlobalHitsProdHist::hGeantTrkPt

private

Definition at line 115 of file GlobalHitsProdHist.h.

Referenced by fillG4MC(), and GlobalHitsProdHist().

hGeantVtxX

TH1F* GlobalHitsProdHist::hGeantVtxX[2]

private

Definition at line 111 of file GlobalHitsProdHist.h.

Referenced by fillG4MC(), and GlobalHitsProdHist().

hGeantVtxY

TH1F* GlobalHitsProdHist::hGeantVtxY[2]

private

Definition at line 112 of file GlobalHitsProdHist.h.

Referenced by fillG4MC(), and GlobalHitsProdHist().

hGeantVtxZ

TH1F* GlobalHitsProdHist::hGeantVtxZ[2]

private

Definition at line 113 of file GlobalHitsProdHist.h.

Referenced by fillG4MC(), and GlobalHitsProdHist().

histMap_

std::map<std::string, TH1F *> GlobalHitsProdHist::histMap_

private

Definition at line 106 of file GlobalHitsProdHist.h.

Referenced by endRunProduce(), and GlobalHitsProdHist().

histName_

std::vector<std::string> GlobalHitsProdHist::histName_

private

Definition at line 105 of file GlobalHitsProdHist.h.

Referenced by endRunProduce(), and GlobalHitsProdHist().

hMCG4Trk

TH1F* GlobalHitsProdHist::hMCG4Trk[2]

private

Definition at line 114 of file GlobalHitsProdHist.h.

Referenced by fillG4MC(), and GlobalHitsProdHist().

hMCG4Vtx

TH1F* GlobalHitsProdHist::hMCG4Vtx[2]

private

Definition at line 110 of file GlobalHitsProdHist.h.

Referenced by fillG4MC(), and GlobalHitsProdHist().

hMCRGP

TH1F* GlobalHitsProdHist::hMCRGP[2]

private

Definition at line 109 of file GlobalHitsProdHist.h.

Referenced by fillG4MC(), and GlobalHitsProdHist().

hMuon

TH1F* GlobalHitsProdHist::hMuon[2]

private

Definition at line 201 of file GlobalHitsProdHist.h.

Referenced by fillMuon(), and GlobalHitsProdHist().

hMuonCscToF

TH1F* GlobalHitsProdHist::hMuonCscToF[2]

private

Definition at line 212 of file GlobalHitsProdHist.h.

Referenced by fillMuon(), and GlobalHitsProdHist().

hMuonCscZ

TH1F* GlobalHitsProdHist::hMuonCscZ

private

Definition at line 213 of file GlobalHitsProdHist.h.

Referenced by fillMuon(), and GlobalHitsProdHist().

hMuonDtR

TH1F* GlobalHitsProdHist::hMuonDtR

private

Definition at line 208 of file GlobalHitsProdHist.h.

Referenced by fillMuon(), and GlobalHitsProdHist().

hMuonDtToF

TH1F* GlobalHitsProdHist::hMuonDtToF[2]

private

Definition at line 207 of file GlobalHitsProdHist.h.

Referenced by fillMuon(), and GlobalHitsProdHist().

hMuonEta

TH1F* GlobalHitsProdHist::hMuonEta

private

Definition at line 203 of file GlobalHitsProdHist.h.

Referenced by fillMuon(), and GlobalHitsProdHist().

hMuonPhi

TH1F* GlobalHitsProdHist::hMuonPhi

private

Definition at line 202 of file GlobalHitsProdHist.h.

Referenced by fillMuon(), and GlobalHitsProdHist().

hMuonRpcBR

TH1F* GlobalHitsProdHist::hMuonRpcBR

private

Definition at line 220 of file GlobalHitsProdHist.h.

Referenced by fillMuon(), and GlobalHitsProdHist().

hMuonRpcBToF

TH1F* GlobalHitsProdHist::hMuonRpcBToF[2]

private

Definition at line 219 of file GlobalHitsProdHist.h.

Referenced by fillMuon(), and GlobalHitsProdHist().

hMuonRpcFToF

TH1F* GlobalHitsProdHist::hMuonRpcFToF[2]

private

Definition at line 217 of file GlobalHitsProdHist.h.

Referenced by fillMuon(), and GlobalHitsProdHist().

hMuonRpcFZ

TH1F* GlobalHitsProdHist::hMuonRpcFZ

private

Definition at line 218 of file GlobalHitsProdHist.h.

Referenced by fillMuon(), and GlobalHitsProdHist().

hTrackerPx

TH1F* GlobalHitsProdHist::hTrackerPx[2]

private

Definition at line 158 of file GlobalHitsProdHist.h.

Referenced by fillTrk(), and GlobalHitsProdHist().

hTrackerPxBR

TH1F* GlobalHitsProdHist::hTrackerPxBR

private

Definition at line 162 of file GlobalHitsProdHist.h.

Referenced by fillTrk(), and GlobalHitsProdHist().

hTrackerPxBToF

TH1F* GlobalHitsProdHist::hTrackerPxBToF

private

Definition at line 161 of file GlobalHitsProdHist.h.

Referenced by fillTrk(), and GlobalHitsProdHist().

hTrackerPxEta

TH1F* GlobalHitsProdHist::hTrackerPxEta

private

Definition at line 160 of file GlobalHitsProdHist.h.

Referenced by fillTrk(), and GlobalHitsProdHist().

hTrackerPxFToF

TH1F* GlobalHitsProdHist::hTrackerPxFToF

private

Definition at line 163 of file GlobalHitsProdHist.h.

Referenced by fillTrk(), and GlobalHitsProdHist().

hTrackerPxFZ

TH1F* GlobalHitsProdHist::hTrackerPxFZ

private

Definition at line 164 of file GlobalHitsProdHist.h.

Referenced by fillTrk(), and GlobalHitsProdHist().

hTrackerPxPhi

TH1F* GlobalHitsProdHist::hTrackerPxPhi

private

Definition at line 159 of file GlobalHitsProdHist.h.

Referenced by fillTrk(), and GlobalHitsProdHist().

hTrackerSi

TH1F* GlobalHitsProdHist::hTrackerSi[2]

private

Definition at line 176 of file GlobalHitsProdHist.h.

Referenced by fillTrk(), and GlobalHitsProdHist().

hTrackerSiBR

TH1F* GlobalHitsProdHist::hTrackerSiBR

private

Definition at line 180 of file GlobalHitsProdHist.h.

Referenced by fillTrk(), and GlobalHitsProdHist().

hTrackerSiBToF

TH1F* GlobalHitsProdHist::hTrackerSiBToF

private

Definition at line 179 of file GlobalHitsProdHist.h.

Referenced by fillTrk(), and GlobalHitsProdHist().

hTrackerSiEta

TH1F* GlobalHitsProdHist::hTrackerSiEta

private

Definition at line 178 of file GlobalHitsProdHist.h.

Referenced by fillTrk(), and GlobalHitsProdHist().

hTrackerSiFToF

TH1F* GlobalHitsProdHist::hTrackerSiFToF

private

Definition at line 181 of file GlobalHitsProdHist.h.

Referenced by fillTrk(), and GlobalHitsProdHist().

hTrackerSiFZ

TH1F* GlobalHitsProdHist::hTrackerSiFZ

private

Definition at line 182 of file GlobalHitsProdHist.h.

Referenced by fillTrk(), and GlobalHitsProdHist().

hTrackerSiPhi

TH1F* GlobalHitsProdHist::hTrackerSiPhi

private

Definition at line 177 of file GlobalHitsProdHist.h.

Referenced by fillTrk(), and GlobalHitsProdHist().

MuonCscSrc_

edm::InputTag GlobalHitsProdHist::MuonCscSrc_

private

Definition at line 214 of file GlobalHitsProdHist.h.

Referenced by GlobalHitsProdHist().

MuonCscSrc_Token_

edm::EDGetTokenT<edm::PSimHitContainer> GlobalHitsProdHist::MuonCscSrc_Token_

private

Definition at line 215 of file GlobalHitsProdHist.h.

Referenced by fillMuon().

MuonDtSrc_

edm::InputTag GlobalHitsProdHist::MuonDtSrc_

private

Definition at line 209 of file GlobalHitsProdHist.h.

Referenced by GlobalHitsProdHist().

MuonDtSrc_Token_

edm::EDGetTokenT<edm::PSimHitContainer> GlobalHitsProdHist::MuonDtSrc_Token_

private

Definition at line 210 of file GlobalHitsProdHist.h.

Referenced by fillMuon().

MuonRpcSrc_

edm::InputTag GlobalHitsProdHist::MuonRpcSrc_

private

Definition at line 221 of file GlobalHitsProdHist.h.

Referenced by GlobalHitsProdHist().

MuonRpcSrc_Token_

edm::EDGetTokenT<edm::PSimHitContainer> GlobalHitsProdHist::MuonRpcSrc_Token_

private

Definition at line 222 of file GlobalHitsProdHist.h.

Referenced by fillMuon().

nMuonHits

int GlobalHitsProdHist::nMuonHits

private

Definition at line 204 of file GlobalHitsProdHist.h.

Referenced by fillMuon().

nPxlHits

int GlobalHitsProdHist::nPxlHits

private

Definition at line 157 of file GlobalHitsProdHist.h.

Referenced by fillTrk().

nRawGenPart

int GlobalHitsProdHist::nRawGenPart

private

Definition at line 117 of file GlobalHitsProdHist.h.

Referenced by fillG4MC().

nSiHits

int GlobalHitsProdHist::nSiHits

private

Definition at line 175 of file GlobalHitsProdHist.h.

Referenced by fillTrk().

printProvenanceInfo

bool GlobalHitsProdHist::printProvenanceInfo

private

Definition at line 100 of file GlobalHitsProdHist.h.

Referenced by GlobalHitsProdHist(), and produce().

PxlBrlHighSrc_

edm::InputTag GlobalHitsProdHist::PxlBrlHighSrc_

private

Definition at line 166 of file GlobalHitsProdHist.h.

Referenced by GlobalHitsProdHist().

PxlBrlHighSrc_Token_

edm::EDGetTokenT<edm::PSimHitContainer> GlobalHitsProdHist::PxlBrlHighSrc_Token_

private

Definition at line 170 of file GlobalHitsProdHist.h.

Referenced by fillTrk().

PxlBrlLowSrc_

edm::InputTag GlobalHitsProdHist::PxlBrlLowSrc_

private

Definition at line 165 of file GlobalHitsProdHist.h.

Referenced by GlobalHitsProdHist().

PxlBrlLowSrc_Token_

edm::EDGetTokenT<edm::PSimHitContainer> GlobalHitsProdHist::PxlBrlLowSrc_Token_

private

Definition at line 169 of file GlobalHitsProdHist.h.

Referenced by fillTrk().

PxlFwdHighSrc_

edm::InputTag GlobalHitsProdHist::PxlFwdHighSrc_

private

Definition at line 168 of file GlobalHitsProdHist.h.

Referenced by GlobalHitsProdHist().

PxlFwdHighSrc_Token_

edm::EDGetTokenT<edm::PSimHitContainer> GlobalHitsProdHist::PxlFwdHighSrc_Token_

private

Definition at line 172 of file GlobalHitsProdHist.h.

Referenced by fillTrk().

PxlFwdLowSrc_

edm::InputTag GlobalHitsProdHist::PxlFwdLowSrc_

private

Definition at line 167 of file GlobalHitsProdHist.h.

Referenced by GlobalHitsProdHist().

PxlFwdLowSrc_Token_

edm::EDGetTokenT<edm::PSimHitContainer> GlobalHitsProdHist::PxlFwdLowSrc_Token_

private

Definition at line 171 of file GlobalHitsProdHist.h.

Referenced by fillTrk().

SiTECHighSrc_

edm::InputTag GlobalHitsProdHist::SiTECHighSrc_

private

Definition at line 190 of file GlobalHitsProdHist.h.

Referenced by GlobalHitsProdHist().

SiTECHighSrc_Token_

edm::EDGetTokenT<edm::PSimHitContainer> GlobalHitsProdHist::SiTECHighSrc_Token_

private

Definition at line 198 of file GlobalHitsProdHist.h.

Referenced by fillTrk().

SiTECLowSrc_

edm::InputTag GlobalHitsProdHist::SiTECLowSrc_

private

Definition at line 189 of file GlobalHitsProdHist.h.

Referenced by GlobalHitsProdHist().

SiTECLowSrc_Token_

edm::EDGetTokenT<edm::PSimHitContainer> GlobalHitsProdHist::SiTECLowSrc_Token_

private

Definition at line 197 of file GlobalHitsProdHist.h.

Referenced by fillTrk().

SiTIBHighSrc_

edm::InputTag GlobalHitsProdHist::SiTIBHighSrc_

private

Definition at line 184 of file GlobalHitsProdHist.h.

Referenced by GlobalHitsProdHist().

SiTIBHighSrc_Token_

edm::EDGetTokenT<edm::PSimHitContainer> GlobalHitsProdHist::SiTIBHighSrc_Token_

private

Definition at line 192 of file GlobalHitsProdHist.h.

Referenced by fillTrk().

SiTIBLowSrc_

edm::InputTag GlobalHitsProdHist::SiTIBLowSrc_

private

Definition at line 183 of file GlobalHitsProdHist.h.

Referenced by GlobalHitsProdHist().

SiTIBLowSrc_Token_

edm::EDGetTokenT<edm::PSimHitContainer> GlobalHitsProdHist::SiTIBLowSrc_Token_

private

Definition at line 191 of file GlobalHitsProdHist.h.

Referenced by fillTrk().

SiTIDHighSrc_

edm::InputTag GlobalHitsProdHist::SiTIDHighSrc_

private

Definition at line 188 of file GlobalHitsProdHist.h.

Referenced by GlobalHitsProdHist().

SiTIDHighSrc_Token_

edm::EDGetTokenT<edm::PSimHitContainer> GlobalHitsProdHist::SiTIDHighSrc_Token_

private

Definition at line 196 of file GlobalHitsProdHist.h.

Referenced by fillTrk().

SiTIDLowSrc_

edm::InputTag GlobalHitsProdHist::SiTIDLowSrc_

private

Definition at line 187 of file GlobalHitsProdHist.h.

Referenced by GlobalHitsProdHist().

SiTIDLowSrc_Token_

edm::EDGetTokenT<edm::PSimHitContainer> GlobalHitsProdHist::SiTIDLowSrc_Token_

private

Definition at line 195 of file GlobalHitsProdHist.h.

Referenced by fillTrk().

SiTOBHighSrc_

edm::InputTag GlobalHitsProdHist::SiTOBHighSrc_

private

Definition at line 186 of file GlobalHitsProdHist.h.

Referenced by GlobalHitsProdHist().

SiTOBHighSrc_Token_

edm::EDGetTokenT<edm::PSimHitContainer> GlobalHitsProdHist::SiTOBHighSrc_Token_

private

Definition at line 194 of file GlobalHitsProdHist.h.

Referenced by fillTrk().

SiTOBLowSrc_

edm::InputTag GlobalHitsProdHist::SiTOBLowSrc_

private

Definition at line 185 of file GlobalHitsProdHist.h.

Referenced by GlobalHitsProdHist().

SiTOBLowSrc_Token_

edm::EDGetTokenT<edm::PSimHitContainer> GlobalHitsProdHist::SiTOBLowSrc_Token_

private

Definition at line 193 of file GlobalHitsProdHist.h.

Referenced by fillTrk().

verbosity

int GlobalHitsProdHist::verbosity

private

Definition at line 96 of file GlobalHitsProdHist.h.

Referenced by endJob(), endRunProduce(), fillECal(), fillG4MC(), fillHCal(), fillMuon(), fillTrk(), GlobalHitsProdHist(), and produce().

vtxunit

int GlobalHitsProdHist::vtxunit

private

Definition at line 98 of file GlobalHitsProdHist.h.

Referenced by fillG4MC(), and GlobalHitsProdHist().