METAnalyzer Class Reference

#include <METAnalyzer.h>

Inheritance diagram for METAnalyzer:

Public Member Functions
void	analyze (const edm::Event &, const edm::EventSetup &)
	Get the analysis. More...
void	bookHistograms (DQMStore::IBooker &, edm::Run const &, edm::EventSetup const &) override
	Inizialize parameters for histo binning. More...
void	dqmBeginRun (const edm::Run &, const edm::EventSetup &)
	Initialize run-based parameters. More...
void	endRun (const edm::Run &iRun, const edm::EventSetup &iSetup)
	Finish up a run. More...
void	fillMESet (const edm::Event &, std::string, const reco::MET &, const pat::MET &, const reco::PFMET &, const reco::CaloMET &, const reco::Candidate::PolarLorentzVector &, std::map< std::string, MonitorElement * > &, std::vector< bool >)
void	fillMonitorElement (const edm::Event &, std::string, std::string, const reco::MET &, const pat::MET &, const reco::PFMET &, const reco::CaloMET &, const reco::Candidate::PolarLorentzVector &, std::map< std::string, MonitorElement * > &, bool, bool, std::vector< bool >)
void	makeRatePlot (std::string, double)
	METAnalyzer (const edm::ParameterSet &)
	Constructor. More...
virtual	~METAnalyzer ()
	Destructor. More...
Public Member Functions inherited from DQMEDAnalyzer
virtual void	beginRun (edm::Run const &, edm::EventSetup const &) final
virtual void	beginStream (edm::StreamID id) final
	DQMEDAnalyzer (void)
virtual void	endLuminosityBlockSummary (edm::LuminosityBlock const &, edm::EventSetup const &, dqmDetails::NoCache *) const final
virtual void	endRunSummary (edm::Run const &, edm::EventSetup const &, dqmDetails::NoCache *) const final
uint32_t	streamId () const
Public Member Functions inherited from edm::stream::EDAnalyzer< edm::RunSummaryCache< dqmDetails::NoCache >, edm::LuminosityBlockSummaryCache< dqmDetails::NoCache > >
	EDAnalyzer ()=default
Public Member Functions inherited from edm::stream::EDAnalyzerBase
void	callWhenNewProductsRegistered (std::function< void(BranchDescription const &)> const &func)
	EDAnalyzerBase ()
ModuleDescription const &	moduleDescription () const
virtual	~EDAnalyzerBase ()
Public Member Functions inherited from edm::EDConsumerBase
std::vector< ConsumesInfo >	consumesInfo () const
	EDConsumerBase ()
ProductHolderIndexAndSkipBit	indexFrom (EDGetToken, BranchType, TypeID const &) const
void	itemsMayGet (BranchType, std::vector< ProductHolderIndexAndSkipBit > &) const
void	itemsToGet (BranchType, std::vector< ProductHolderIndexAndSkipBit > &) const
std::vector < ProductHolderIndexAndSkipBit > const &	itemsToGetFromEvent () const
void	labelsForToken (EDGetToken iToken, Labels &oLabels) const
void	modulesDependentUpon (const std::string &iProcessName, std::vector< const char * > &oModuleLabels) const
void	modulesWhoseProductsAreConsumed (std::vector< ModuleDescription const * > &modules, ProductRegistry const &preg, std::map< std::string, ModuleDescription const * > const &labelsToDesc, std::string const &processName) const
bool	registeredToConsume (ProductHolderIndex, bool, BranchType) const
bool	registeredToConsumeMany (TypeID const &, BranchType) const
void	updateLookup (BranchType iBranchType, ProductHolderIndexHelper const &)
virtual	~EDConsumerBase ()

Private Member Functions
void	bookMESet (std::string, DQMStore::IBooker &, std::map< std::string, MonitorElement * > &)
void	bookMonitorElement (std::string, DQMStore::IBooker &, std::map< std::string, MonitorElement * > &, bool, bool, bool)

Private Attributes
std::vector< int >	allTriggerDecisions_
std::vector< std::string >	allTriggerNames_
math::XYZPoint	beamSpot_
bool	bypassAllDCSChecks_
bool	bypassAllPVChecks_
edm::EDGetTokenT < reco::CaloJetCollection >	caloJetsToken_
edm::EDGetTokenT < reco::CaloMETCollection >	caloMetToken_
edm::ParameterSet	cleaningParameters_
std::vector< int >	countsPFCand_
JetMETDQMDCSFilter *	DCSFilter_
std::vector< edm::ParameterSet >	diagnosticsParameters_
std::vector< double >	etaMaxPFCand_
std::vector< double >	etaMinPFCand_
std::vector< int >	etaNBinsPFCand_
bool	fill_met_high_level_histo
bool	fillCandidateMap_histos
std::string	FolderName_
std::vector< std::string >	folderNames_
edm::InputTag	gtTag_
edm::EDGetTokenT < L1GlobalTriggerReadoutRecord >	gtToken_
edm::InputTag	hbheNoiseFilterResultTag_
edm::EDGetTokenT< bool >	hbheNoiseFilterResultToken_
double	hcalMin_
edm::InputTag	hcalNoiseRBXCollectionTag_
MonitorElement *	hCaloEmEtFraction
MonitorElement *	hCaloEmEtFraction020
MonitorElement *	hCaloEmEtInEB
MonitorElement *	hCaloEmEtInEE
MonitorElement *	hCaloEmEtInHF
MonitorElement *	hCaloEmMET
MonitorElement *	hCaloEmMETPhi
MonitorElement *	hCaloEmMEx
MonitorElement *	hCaloEmMEy
MonitorElement *	hCaloEtFractionHadronic
MonitorElement *	hCaloHadEtInHB
MonitorElement *	hCaloHadEtInHE
MonitorElement *	hCaloHadEtInHF
MonitorElement *	hCaloHadEtInHO
MonitorElement *	hCaloHaMET
MonitorElement *	hCaloHaMETPhi
MonitorElement *	hCaloHaMEx
MonitorElement *	hCaloHaMEy
MonitorElement *	hCaloMETPhi020
double	hfCalibFactor_
HLTConfigProvider	hltConfig_
std::string	hltPhysDec_
MonitorElement *	hMET
MonitorElement *	hMET_logx
MonitorElement *	hMETPhi
MonitorElement *	hMETRate
MonitorElement *	hMETSig
MonitorElement *	hMEx
MonitorElement *	hMExLS
MonitorElement *	hMEy
MonitorElement *	hMEyLS
MonitorElement *	hSumET
MonitorElement *	hSumET_logx
MonitorElement *	hTrigger
bool	hTriggerLabelsIsSet_
edm::InputTag	inputJetIDValueMap
bool	isCaloMet_
bool	isMiniAODMet_
bool	isPFMet_
edm::InputTag	jetCollectionLabel_
edm::EDGetTokenT < reco::JetCorrector >	jetCorrectorToken_
edm::EDGetTokenT < edm::ValueMap< reco::JetID > >	jetID_ValueMapToken_
JetIDSelectionFunctor	jetIDFunctorLoose
int	LSBegin_
int	LSEnd_
MonitorElement *	lumisecME
int	m_bitAlgTechTrig_
std::string	m_l1algoname_
std::map< std::string, MonitorElement * >	map_dijet_MEs
MonitorElement *	meChargedHadronEt
MonitorElement *	meChargedHadronEt_profile
MonitorElement *	meChargedHadronEtFraction
MonitorElement *	meChargedHadronEtFraction_BXm1Empty
MonitorElement *	meChargedHadronEtFraction_BXm1Filled
MonitorElement *	meChargedHadronEtFraction_BXm2BXm1Empty
MonitorElement *	meChargedHadronEtFraction_BXm2BXm1Filled
MonitorElement *	meChargedHadronEtFraction_profile
MonitorElement *	meCHF_Barrel
MonitorElement *	meCHF_Barrel_BXm1Empty
MonitorElement *	meCHF_Barrel_BXm1Filled
MonitorElement *	meCHF_Barrel_BXm2BXm1Empty
MonitorElement *	meCHF_Barrel_BXm2BXm1Filled
MonitorElement *	meCHF_EndcapMinus
MonitorElement *	meCHF_EndcapMinus_BXm1Empty
MonitorElement *	meCHF_EndcapMinus_BXm1Filled
MonitorElement *	meCHF_EndcapMinus_BXm2BXm1Empty
MonitorElement *	meCHF_EndcapMinus_BXm2BXm1Filled
MonitorElement *	meCHF_EndcapPlus
MonitorElement *	meCHF_EndcapPlus_BXm1Empty
MonitorElement *	meCHF_EndcapPlus_BXm1Filled
MonitorElement *	meCHF_EndcapPlus_BXm2BXm1Empty
MonitorElement *	meCHF_EndcapPlus_BXm2BXm1Filled
MonitorElement *	meElectronEt
MonitorElement *	meHFEMEt
MonitorElement *	meHFEMEt_profile
MonitorElement *	meHFEMEtFraction
MonitorElement *	meHFEMEtFraction_profile
MonitorElement *	meHFEMF_Minus
MonitorElement *	meHFEMF_Minus_BXm1Empty
MonitorElement *	meHFEMF_Minus_BXm1Filled
MonitorElement *	meHFEMF_Minus_BXm2BXm1Empty
MonitorElement *	meHFEMF_Minus_BXm2BXm1Filled
MonitorElement *	meHFEMF_Plus
MonitorElement *	meHFEMF_Plus_BXm1Empty
MonitorElement *	meHFEMF_Plus_BXm1Filled
MonitorElement *	meHFEMF_Plus_BXm2BXm1Empty
MonitorElement *	meHFEMF_Plus_BXm2BXm1Filled
MonitorElement *	meHFHadF_Minus
MonitorElement *	meHFHadF_Minus_BXm1Empty
MonitorElement *	meHFHadF_Minus_BXm1Filled
MonitorElement *	meHFHadF_Minus_BXm2BXm1Empty
MonitorElement *	meHFHadF_Minus_BXm2BXm1Filled
MonitorElement *	meHFHadF_Plus
MonitorElement *	meHFHadF_Plus_BXm1Empty
MonitorElement *	meHFHadF_Plus_BXm1Filled
MonitorElement *	meHFHadF_Plus_BXm2BXm1Empty
MonitorElement *	meHFHadF_Plus_BXm2BXm1Filled
MonitorElement *	meHFHadronEt
MonitorElement *	meHFHadronEt_profile
MonitorElement *	meHFHadronEtFraction
MonitorElement *	meHFHadronEtFraction_profile
MonitorElement *	meMET_BXm1Empty
MonitorElement *	meMET_BXm1Filled
MonitorElement *	meMET_BXm2BXm1Empty
MonitorElement *	meMET_BXm2BXm1Filled
MonitorElement *	meMET_profile
MonitorElement *	meMETPhiChargedHadronsBarrel
MonitorElement *	meMETPhiChargedHadronsBarrel_BXm1Empty
MonitorElement *	meMETPhiChargedHadronsBarrel_BXm1Filled
MonitorElement *	meMETPhiChargedHadronsBarrel_BXm2BXm1Empty
MonitorElement *	meMETPhiChargedHadronsBarrel_BXm2BXm1Filled
MonitorElement *	meMETPhiChargedHadronsEndcapMinus
MonitorElement *	meMETPhiChargedHadronsEndcapMinus_BXm1Empty
MonitorElement *	meMETPhiChargedHadronsEndcapMinus_BXm1Filled
MonitorElement *	meMETPhiChargedHadronsEndcapMinus_BXm2BXm1Empty
MonitorElement *	meMETPhiChargedHadronsEndcapMinus_BXm2BXm1Filled
MonitorElement *	meMETPhiChargedHadronsEndcapPlus
MonitorElement *	meMETPhiChargedHadronsEndcapPlus_BXm1Empty
MonitorElement *	meMETPhiChargedHadronsEndcapPlus_BXm1Filled
MonitorElement *	meMETPhiChargedHadronsEndcapPlus_BXm2BXm1Empty
MonitorElement *	meMETPhiChargedHadronsEndcapPlus_BXm2BXm1Filled
MonitorElement *	meMETPhiHFEGammasMinus
MonitorElement *	meMETPhiHFEGammasMinus_BXm1Empty
MonitorElement *	meMETPhiHFEGammasMinus_BXm1Filled
MonitorElement *	meMETPhiHFEGammasMinus_BXm2BXm1Empty
MonitorElement *	meMETPhiHFEGammasMinus_BXm2BXm1Filled
MonitorElement *	meMETPhiHFEGammasPlus
MonitorElement *	meMETPhiHFEGammasPlus_BXm1Empty
MonitorElement *	meMETPhiHFEGammasPlus_BXm1Filled
MonitorElement *	meMETPhiHFEGammasPlus_BXm2BXm1Empty
MonitorElement *	meMETPhiHFEGammasPlus_BXm2BXm1Filled
MonitorElement *	meMETPhiHFHadronsMinus
MonitorElement *	meMETPhiHFHadronsMinus_BXm1Empty
MonitorElement *	meMETPhiHFHadronsMinus_BXm1Filled
MonitorElement *	meMETPhiHFHadronsMinus_BXm2BXm1Empty
MonitorElement *	meMETPhiHFHadronsMinus_BXm2BXm1Filled
MonitorElement *	meMETPhiHFHadronsPlus
MonitorElement *	meMETPhiHFHadronsPlus_BXm1Empty
MonitorElement *	meMETPhiHFHadronsPlus_BXm1Filled
MonitorElement *	meMETPhiHFHadronsPlus_BXm2BXm1Empty
MonitorElement *	meMETPhiHFHadronsPlus_BXm2BXm1Filled
MonitorElement *	meMETPhiNeutralHadronsBarrel
MonitorElement *	meMETPhiNeutralHadronsBarrel_BXm1Empty
MonitorElement *	meMETPhiNeutralHadronsBarrel_BXm1Filled
MonitorElement *	meMETPhiNeutralHadronsBarrel_BXm2BXm1Empty
MonitorElement *	meMETPhiNeutralHadronsBarrel_BXm2BXm1Filled
MonitorElement *	meMETPhiNeutralHadronsEndcapMinus
MonitorElement *	meMETPhiNeutralHadronsEndcapMinus_BXm1Empty
MonitorElement *	meMETPhiNeutralHadronsEndcapMinus_BXm1Filled
MonitorElement *	meMETPhiNeutralHadronsEndcapMinus_BXm2BXm1Empty
MonitorElement *	meMETPhiNeutralHadronsEndcapMinus_BXm2BXm1Filled
MonitorElement *	meMETPhiNeutralHadronsEndcapPlus
MonitorElement *	meMETPhiNeutralHadronsEndcapPlus_BXm1Empty
MonitorElement *	meMETPhiNeutralHadronsEndcapPlus_BXm1Filled
MonitorElement *	meMETPhiNeutralHadronsEndcapPlus_BXm2BXm1Empty
MonitorElement *	meMETPhiNeutralHadronsEndcapPlus_BXm2BXm1Filled
MonitorElement *	meMETPhiPhotonsBarrel
MonitorElement *	meMETPhiPhotonsBarrel_BXm1Empty
MonitorElement *	meMETPhiPhotonsBarrel_BXm1Filled
MonitorElement *	meMETPhiPhotonsBarrel_BXm2BXm1Empty
MonitorElement *	meMETPhiPhotonsBarrel_BXm2BXm1Filled
MonitorElement *	meMETPhiPhotonsEndcapMinus
MonitorElement *	meMETPhiPhotonsEndcapMinus_BXm1Empty
MonitorElement *	meMETPhiPhotonsEndcapMinus_BXm1Filled
MonitorElement *	meMETPhiPhotonsEndcapMinus_BXm2BXm1Empty
MonitorElement *	meMETPhiPhotonsEndcapMinus_BXm2BXm1Filled
MonitorElement *	meMETPhiPhotonsEndcapPlus
MonitorElement *	meMETPhiPhotonsEndcapPlus_BXm1Empty
MonitorElement *	meMETPhiPhotonsEndcapPlus_BXm1Filled
MonitorElement *	meMETPhiPhotonsEndcapPlus_BXm2BXm1Empty
MonitorElement *	meMETPhiPhotonsEndcapPlus_BXm2BXm1Filled
MonitorElement *	meMEx_profile
MonitorElement *	meMEy_profile
MonitorElement *	meMuonEt
MonitorElement *	meNeutralHadronEt
MonitorElement *	meNeutralHadronEt_profile
MonitorElement *	meNeutralHadronEtFraction
MonitorElement *	meNeutralHadronEtFraction_BXm1Empty
MonitorElement *	meNeutralHadronEtFraction_BXm1Filled
MonitorElement *	meNeutralHadronEtFraction_BXm2BXm1Empty
MonitorElement *	meNeutralHadronEtFraction_BXm2BXm1Filled
MonitorElement *	meNeutralHadronEtFraction_profile
MonitorElement *	meNHF_Barrel
MonitorElement *	meNHF_Barrel_BXm1Empty
MonitorElement *	meNHF_Barrel_BXm1Filled
MonitorElement *	meNHF_Barrel_BXm2BXm1Empty
MonitorElement *	meNHF_Barrel_BXm2BXm1Filled
MonitorElement *	meNHF_EndcapMinus
MonitorElement *	meNHF_EndcapMinus_BXm1Empty
MonitorElement *	meNHF_EndcapMinus_BXm1Filled
MonitorElement *	meNHF_EndcapMinus_BXm2BXm1Empty
MonitorElement *	meNHF_EndcapMinus_BXm2BXm1Filled
MonitorElement *	meNHF_EndcapPlus
MonitorElement *	meNHF_EndcapPlus_BXm1Empty
MonitorElement *	meNHF_EndcapPlus_BXm1Filled
MonitorElement *	meNHF_EndcapPlus_BXm2BXm1Empty
MonitorElement *	meNHF_EndcapPlus_BXm2BXm1Filled
MonitorElement *	mePhF_Barrel
MonitorElement *	mePhF_Barrel_BXm1Empty
MonitorElement *	mePhF_Barrel_BXm1Filled
MonitorElement *	mePhF_Barrel_BXm2BXm1Empty
MonitorElement *	mePhF_Barrel_BXm2BXm1Filled
MonitorElement *	mePhF_EndcapMinus
MonitorElement *	mePhF_EndcapMinus_BXm1Empty
MonitorElement *	mePhF_EndcapMinus_BXm1Filled
MonitorElement *	mePhF_EndcapMinus_BXm2BXm1Empty
MonitorElement *	mePhF_EndcapMinus_BXm2BXm1Filled
MonitorElement *	mePhF_EndcapPlus
MonitorElement *	mePhF_EndcapPlus_BXm1Empty
MonitorElement *	mePhF_EndcapPlus_BXm1Filled
MonitorElement *	mePhF_EndcapPlus_BXm2BXm1Empty
MonitorElement *	mePhF_EndcapPlus_BXm2BXm1Filled
MonitorElement *	mePhotonEt
MonitorElement *	mePhotonEt_profile
MonitorElement *	mePhotonEtFraction
MonitorElement *	mePhotonEtFraction_BXm1Empty
MonitorElement *	mePhotonEtFraction_BXm1Filled
MonitorElement *	mePhotonEtFraction_BXm2BXm1Empty
MonitorElement *	mePhotonEtFraction_BXm2BXm1Filled
MonitorElement *	mePhotonEtFraction_profile
MonitorElement *	meSumET_BXm1Empty
MonitorElement *	meSumET_BXm1Filled
MonitorElement *	meSumET_BXm2BXm1Empty
MonitorElement *	meSumET_BXm2BXm1Filled
MonitorElement *	meSumET_profile
edm::InputTag	metCollectionLabel_
std::string	MetType_
std::vector< double >	MExPFCand_
std::vector< double >	MEyPFCand_
MonitorElement *	meZJets_u_par
MonitorElement *	meZJets_u_par_ZPt_0_15
MonitorElement *	meZJets_u_par_ZPt_150_290
MonitorElement *	meZJets_u_par_ZPt_15_30
MonitorElement *	meZJets_u_par_ZPt_290
MonitorElement *	meZJets_u_par_ZPt_30_55
MonitorElement *	meZJets_u_par_ZPt_55_75
MonitorElement *	meZJets_u_par_ZPt_75_150
MonitorElement *	meZJets_u_perp
MonitorElement *	meZJets_u_perp_ZPt_0_15
MonitorElement *	meZJets_u_perp_ZPt_150_290
MonitorElement *	meZJets_u_perp_ZPt_15_30
MonitorElement *	meZJets_u_perp_ZPt_290
MonitorElement *	meZJets_u_perp_ZPt_30_55
MonitorElement *	meZJets_u_perp_ZPt_55_75
MonitorElement *	meZJets_u_perp_ZPt_75_150
MonitorElement *	mProfileIsoPFChHad_EcalOccupancyCentral
MonitorElement *	mProfileIsoPFChHad_EcalOccupancyEndcap
MonitorElement *	mProfileIsoPFChHad_EMPtCentral
MonitorElement *	mProfileIsoPFChHad_EMPtEndcap
MonitorElement *	mProfileIsoPFChHad_HadPtCentral
MonitorElement *	mProfileIsoPFChHad_HadPtEndcap
MonitorElement *	mProfileIsoPFChHad_HcalOccupancyCentral
MonitorElement *	mProfileIsoPFChHad_HcalOccupancyEndcap
MonitorElement *	mProfileIsoPFChHad_TrackOccupancy
MonitorElement *	mProfileIsoPFChHad_TrackPt
std::vector< MonitorElement * >	multiplicityPFCand_
std::vector< std::string >	multiplicityPFCand_name_
edm::EDGetTokenT < reco::MuonCollection >	MuonsToken_
std::vector< int >	nbinsPFCand_
int	nbinsPV_
std::vector< unsigned int >	nCh
std::vector< unsigned int >	nEv
double	nPVMax_
double	nPVMin_
int	numPV_
std::vector< MonitorElement * >	occupancyPFCand_
std::vector< std::string >	occupancyPFCand_name_
bool	onlyCleaned_
edm::ParameterSet	parameters
edm::EDGetTokenT < pat::JetCollection >	patJetsToken_
edm::EDGetTokenT < pat::METCollection >	patMetToken_
PFJetIDSelectionFunctor	pfjetIDFunctorLoose
edm::EDGetTokenT < reco::PFJetCollection >	pfJetsToken_
edm::EDGetTokenT< std::vector < reco::PFCandidate > >	pflowToken_
edm::EDGetTokenT < reco::PFMETCollection >	pfMetToken_
std::vector< MonitorElement * >	profilePFCand_x_
std::vector< std::string >	profilePFCand_x_name_
std::vector< MonitorElement * >	profilePFCand_y_
std::vector< std::string >	profilePFCand_y_name_
double	ptMinCand_
std::vector< MonitorElement * >	ptPFCand_
std::vector< std::string >	ptPFCand_name_
double	ptThreshold_
bool	runcosmics_
std::vector< int >	triggerFolderDecisions_
std::vector < GenericTriggerEventFlag * >	triggerFolderEventFlag_
std::vector< std::vector < std::string > >	triggerFolderExpr_
std::vector< std::string >	triggerFolderLabels_
edm::InputTag	triggerResultsLabel_
edm::EDGetTokenT < edm::TriggerResults >	triggerResultsToken_
edm::VParameterSet	triggerSelectedSubFolders_
std::vector< int >	typePFCand_
int	verbose_
edm::InputTag	vertexTag_
edm::EDGetTokenT< std::vector < reco::Vertex > >	vertexToken_

Additional Inherited Members
Public Types inherited from edm::stream::EDAnalyzer< edm::RunSummaryCache< dqmDetails::NoCache >, edm::LuminosityBlockSummaryCache< dqmDetails::NoCache > >
typedef CacheContexts< T...>	CacheTypes
typedef CacheTypes::GlobalCache	GlobalCache
typedef AbilityChecker< T...>	HasAbility
typedef CacheTypes::LuminosityBlockCache	LuminosityBlockCache
typedef LuminosityBlockContextT < LuminosityBlockCache, RunCache, GlobalCache >	LuminosityBlockContext
typedef CacheTypes::LuminosityBlockSummaryCache	LuminosityBlockSummaryCache
typedef CacheTypes::RunCache	RunCache
typedef RunContextT< RunCache, GlobalCache >	RunContext
typedef CacheTypes::RunSummaryCache	RunSummaryCache
Public Types inherited from edm::stream::EDAnalyzerBase
typedef EDAnalyzerAdaptorBase	ModuleType
Public Types inherited from edm::EDConsumerBase
typedef ProductLabels	Labels
Static Public Member Functions inherited from DQMEDAnalyzer
static std::shared_ptr < dqmDetails::NoCache >	globalBeginLuminosityBlockSummary (edm::LuminosityBlock const &, edm::EventSetup const &, LuminosityBlockContext const *)
static std::shared_ptr < dqmDetails::NoCache >	globalBeginRunSummary (edm::Run const &, edm::EventSetup const &, RunContext const *)
static void	globalEndLuminosityBlockSummary (edm::LuminosityBlock const &, edm::EventSetup const &, LuminosityBlockContext const *, dqmDetails::NoCache *)
static void	globalEndRunSummary (edm::Run const &, edm::EventSetup const &, RunContext const *, dqmDetails::NoCache *)
Static Public Member Functions inherited from edm::stream::EDAnalyzerBase
static const std::string &	baseType ()
static void	fillDescriptions (ConfigurationDescriptions &descriptions)
static void	prevalidate (ConfigurationDescriptions &descriptions)
Protected Member Functions inherited from edm::EDConsumerBase
template<typename ProductType , BranchType B = InEvent>
EDGetTokenT< ProductType >	consumes (edm::InputTag const &tag)
EDGetToken	consumes (const TypeToGet &id, edm::InputTag const &tag)
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 ProductType , BranchType B = InEvent>
EDGetTokenT< ProductType >	mayConsume (edm::InputTag const &tag)
EDGetToken	mayConsume (const TypeToGet &id, edm::InputTag const &tag)
template<BranchType B>
EDGetToken	mayConsume (const TypeToGet &id, edm::InputTag const &tag)

Detailed Description

DQM MET analysis monitoring

Author

F. Chlebana - Fermilab K. Hatakeyama - Rockefeller University

Jan. '14: modified by

M. Artur Weber R. Schoefbeck V. Sordini

Definition at line 92 of file METAnalyzer.h.

Constructor & Destructor Documentation

METAnalyzer::METAnalyzer

(

const edm::ParameterSet &

pSet

)

Constructor.

Definition at line 42 of file METAnalyzer.cc.

References PFJetIDSelectionFunctor::FIRSTDATA, edm::ParameterSet::getParameter(), HLT_25ns14e33_v1_cff::InputTag, PFJetIDSelectionFunctor::LOOSE, JetIDSelectionFunctor::LOOSE, Parameters::parameters, JetIDSelectionFunctor::PURE09, AlCaHLTBitMon_QueryRunRegistry::string, and triggerResultsToken_().

                                                    {
  parameters = pSet;

  m_l1algoname_ = pSet.getParameter<std::string>("l1algoname");
  m_bitAlgTechTrig_=-1;

  LSBegin_     = pSet.getParameter<int>("LSBegin");
  LSEnd_       = pSet.getParameter<int>("LSEnd");
 // Smallest track pt
  ptMinCand_ = pSet.getParameter<double>("ptMinCand");

  // Smallest raw HCAL energy linked to the track
  hcalMin_ = pSet.getParameter<double>("hcalMin");

  MetType_ = parameters.getUntrackedParameter<std::string>("METType");

  triggerResultsLabel_        = parameters.getParameter<edm::InputTag>("TriggerResultsLabel");
  triggerResultsToken_= consumes<edm::TriggerResults>(edm::InputTag(triggerResultsLabel_));

  isCaloMet_ = (std::string("calo")==MetType_);
  //isTCMet_ = (std::string("tc") ==MetType_);
  isPFMet_ = (std::string("pf") ==MetType_);
  isMiniAODMet_ = (std::string("miniaod") ==MetType_);
  if(!isMiniAODMet_){
    jetCorrectorToken_ = consumes<reco::JetCorrector>(pSet.getParameter<edm::InputTag>("JetCorrections"));
  }

  // MET information
  metCollectionLabel_       = parameters.getParameter<edm::InputTag>("METCollectionLabel");

  if(/*isTCMet_ || */isCaloMet_){
    inputJetIDValueMap      = pSet.getParameter<edm::InputTag>("InputJetIDValueMap");
    jetID_ValueMapToken_= consumes< edm::ValueMap<reco::JetID> >(inputJetIDValueMap);
    jetIDFunctorLoose=JetIDSelectionFunctor(JetIDSelectionFunctor::PURE09, JetIDSelectionFunctor::LOOSE);
  }
  if(isPFMet_ || isMiniAODMet_){
    pflowToken_ = consumes<std::vector<reco::PFCandidate> >(pSet.getParameter<edm::InputTag>("srcPFlow"));
    pfjetIDFunctorLoose=PFJetIDSelectionFunctor(PFJetIDSelectionFunctor::FIRSTDATA, PFJetIDSelectionFunctor::LOOSE);
  }
  MuonsToken_ = consumes<reco::MuonCollection>(pSet.getParameter<edm::InputTag>       ("muonsrc"));

  ptThreshold_ = parameters.getParameter<double>("ptThreshold");


  if(isPFMet_){
    pfMetToken_= consumes<reco::PFMETCollection>(edm::InputTag(metCollectionLabel_));
  }
  if(isCaloMet_){
    caloMetToken_= consumes<reco::CaloMETCollection>(edm::InputTag(metCollectionLabel_));
  }
  if(isMiniAODMet_){
    patMetToken_= consumes<pat::METCollection>(edm::InputTag(metCollectionLabel_));
  }
  //if(isTCMet_){
  // tcMetToken_= consumes<reco::METCollection>(edm::InputTag(metCollectionLabel_));
  //}
  
  fill_met_high_level_histo = parameters.getParameter<bool>("fillMetHighLevel");
  fillCandidateMap_histos = parameters.getParameter<bool>("fillCandidateMaps");
  
  hTriggerLabelsIsSet_ = false;
  //jet cleanup parameters
  cleaningParameters_ = pSet.getParameter<ParameterSet>("CleaningParameters"); 

  diagnosticsParameters_ = pSet.getParameter<std::vector<edm::ParameterSet> >("METDiagonisticsParameters");

  edm::ConsumesCollector iC  = consumesCollector();
  //DCS
  DCSFilter_ = new JetMETDQMDCSFilter(parameters.getParameter<ParameterSet>("DCSFilter"), iC );

  //Vertex requirements
  bypassAllPVChecks_    = cleaningParameters_.getParameter<bool>("bypassAllPVChecks");
  bypassAllDCSChecks_    = cleaningParameters_.getParameter<bool>("bypassAllDCSChecks");
  runcosmics_ = parameters.getUntrackedParameter<bool>("runcosmics");
  onlyCleaned_ =  parameters.getUntrackedParameter<bool>("onlyCleaned");  
  vertexTag_    = cleaningParameters_.getParameter<edm::InputTag>("vertexCollection");
  vertexToken_  = consumes<std::vector<reco::Vertex> >(edm::InputTag(vertexTag_));

  //Trigger parameters
  gtTag_          = cleaningParameters_.getParameter<edm::InputTag>("gtLabel");
  gtToken_= consumes<L1GlobalTriggerReadoutRecord>(edm::InputTag(gtTag_));

  // Other data collections
  jetCollectionLabel_       = parameters.getParameter<edm::InputTag>("JetCollectionLabel");
  if (isCaloMet_) caloJetsToken_ = consumes<reco::CaloJetCollection>(jetCollectionLabel_);
  //if (isTCMet_)   jptJetsToken_ = consumes<reco::JPTJetCollection>(jetCollectionLabel_);
  if (isPFMet_)   pfJetsToken_ = consumes<reco::PFJetCollection>(jetCollectionLabel_);
  if (isMiniAODMet_)   patJetsToken_ = consumes<pat::JetCollection>(jetCollectionLabel_);

  hbheNoiseFilterResultTag_    = parameters.getParameter<edm::InputTag>("HBHENoiseFilterResultLabel");
  hbheNoiseFilterResultToken_=consumes<bool>(hbheNoiseFilterResultTag_);

  // 
  nbinsPV_ = parameters.getParameter<int>("pVBin");
  nPVMin_   = parameters.getParameter<double>("pVMin");
  nPVMax_  = parameters.getParameter<double>("pVMax");

  triggerSelectedSubFolders_ = parameters.getParameter<edm::VParameterSet>("triggerSelectedSubFolders");
  for (edm::VParameterSet::const_iterator it = triggerSelectedSubFolders_.begin(); it!= triggerSelectedSubFolders_.end(); it++) {
    triggerFolderEventFlag_.push_back(new GenericTriggerEventFlag( *it, consumesCollector(), *this ));
    triggerFolderExpr_.push_back(it->getParameter<std::vector<std::string> >("hltPaths"));
    triggerFolderLabels_.push_back(it->getParameter<std::string>("label"));
  }

 cleaningParameters_ = parameters.getParameter<ParameterSet>("CleaningParameters");

 verbose_      = parameters.getParameter<int>("verbose");

 FolderName_              = parameters.getUntrackedParameter<std::string>("FolderName");

 nCh = std::vector<unsigned int>(10,static_cast<unsigned int>(0));
 nEv = std::vector<unsigned int>(2,static_cast<unsigned int>(0));

}

METAnalyzer::~METAnalyzer ( )

virtual

Destructor.

Definition at line 158 of file METAnalyzer.cc.

                          {
  for (std::vector<GenericTriggerEventFlag *>::const_iterator it = triggerFolderEventFlag_.begin(); it!= triggerFolderEventFlag_.end(); it++) {
    delete *it;
  }
  delete DCSFilter_;
}

Member Function Documentation

void METAnalyzer::analyze ( const edm::Event &  iEvent, const edm::EventSetup &  iSetup  )

virtual

Get the analysis.

• if(isTCMet_){

Implements edm::stream::EDAnalyzerBase.

Definition at line 1047 of file METAnalyzer.cc.

References RecoTauCleanerPlugins::charge, gather_cfg::cout, cmsPerfPublish::DirName, eta, ztee::fd, edm::Event::getByToken(), i, susybsm::HSCParticleType::innerTrack, edm::HandleBase::isValid(), LogDebug, LogTrace, edm::EventBase::luminosityBlock(), bookConverter::max, objects.METAnalyzer::met, NULL, jetProducer_cfi::patJets, pfJets_cff::pfJets, phi(), position, edm::Handle< T >::product(), EnergyCorrector::pt, pileupReCalc_HLTpaths::scale, AlCaHLTBitMon_QueryRunRegistry::string, edm::triggerResults(), triggerResultsToken_(), and GoodVertex_cfg::vertexCollection.

                                                                             {


  // *** Fill lumisection ME
  int myLuminosityBlock;
  myLuminosityBlock = iEvent.luminosityBlock();
  if(fill_met_high_level_histo){
    lumisecME=map_dijet_MEs["JetMET/lumisec"]; if(lumisecME && lumisecME->getRootObject()) lumisecME->Fill(myLuminosityBlock);
  }

  if (myLuminosityBlock<LSBegin_) return;
  if (myLuminosityBlock>LSEnd_ && LSEnd_>0) return;

  if (verbose_) std::cout << "METAnalyzer analyze" << std::endl;

  std::string DirName = FolderName_+metCollectionLabel_.label();
  



  // ==========================================================
  // Trigger information
  //
//  trigJetMB_=0;
//  trigHighPtJet_=0;
//  trigLowPtJet_=0;
//  trigMinBias_=0;
//  trigHighMET_=0;
//  //  _trig_LowMET=0;
//  trigEle_=0;
//  trigMuon_=0;
//  trigPhysDec_=0;
  std::vector<int> triggerFolderDecisions;
  triggerFolderDecisions_ = std::vector<int> (triggerFolderEventFlag_.size(), 0);
  // **** Get the TriggerResults container
  edm::Handle<edm::TriggerResults> triggerResults;
  iEvent.getByToken(triggerResultsToken_, triggerResults);

  if( triggerResults.isValid()) {
    // Check how many HLT triggers are in triggerResults
    int ntrigs = (*triggerResults).size();
    if (verbose_) std::cout << "ntrigs=" << ntrigs << std::endl;
    // If index=ntrigs, this HLT trigger doesn't exist in the HLT table for this data.
    for (std::vector<GenericTriggerEventFlag *>::const_iterator it =  triggerFolderEventFlag_.begin(); it!=triggerFolderEventFlag_.end();it++) {
      unsigned int pos = it - triggerFolderEventFlag_.begin();
      bool fd = (*it)->accept(iEvent, iSetup);
      triggerFolderDecisions_[pos] = fd;
    }
    allTriggerDecisions_.clear();
    for (unsigned int i=0;i<allTriggerNames_.size();++i)  {
      allTriggerDecisions_.push_back((*triggerResults).accept(i)); 
      //std::cout<<"TR "<<(*triggerResults).size()<<" "<<(*triggerResults).accept(i)<<" "<<allTriggerNames_[i]<<std::endl;
    }
  }

  // ==========================================================
  // MET information

  // **** Get the MET container
  edm::Handle<reco::METCollection> tcmetcoll;
  edm::Handle<reco::CaloMETCollection> calometcoll;
  edm::Handle<reco::PFMETCollection> pfmetcoll;
  edm::Handle<pat::METCollection> patmetcoll;

  //if(isTCMet_){
  //iEvent.getByToken(tcMetToken_, tcmetcoll);
  //if(!tcmetcoll.isValid()) return;
  //}
  if(isCaloMet_){
    iEvent.getByToken(caloMetToken_, calometcoll);
    if(!calometcoll.isValid()) return;
  }
  if(isPFMet_){
    iEvent.getByToken(pfMetToken_, pfmetcoll);
    if(!pfmetcoll.isValid()) return;
  }
  if(isMiniAODMet_){
    iEvent.getByToken(patMetToken_, patmetcoll);
    if(!patmetcoll.isValid()) return;
  }

  const MET *met=NULL;
  const pat::MET *patmet=NULL;
  const PFMET *pfmet=NULL;
  const CaloMET *calomet=NULL;
  //if(isTCMet_){
  //met=&(tcmetcoll->front());
  //}
  if(isPFMet_){
    met=&(pfmetcoll->front());
    pfmet=&(pfmetcoll->front());
  }
  if(isCaloMet_){
    met=&(calometcoll->front());
    calomet=&(calometcoll->front());
  }
  if(isMiniAODMet_){
    met=&(patmetcoll->front());
    patmet=&(patmetcoll->front());
  }
  
  LogTrace("METAnalyzer")<<"[METAnalyzer] Call to the MET analyzer";

  // ==========================================================
  // TCMET

  //if (/*isTCMet_ || */(isCaloMet_ && metCollectionLabel_.label() == "corMetGlobalMuons")) {

    //iEvent.getByToken(MuonToken_, muonHandle_);
    //iEvent.getByToken(TrackToken_, trackHandle_);
    //iEvent.getByToken(ElectronToken_, electronHandle_);
    //iEvent.getByToken(BeamspotToken_, beamSpotHandle_);
    //iEvent.getByToken(tcMETValueMapToken_,tcMetValueMapHandle_);

    //if(!muonHandle_.isValid())     edm::LogInfo("OutputInfo") << "falied to retrieve muon data require by MET Task";
    //if(!trackHandle_.isValid())    edm::LogInfo("OutputInfo") << "falied to retrieve track data require by MET Task";
    //if(!electronHandle_.isValid()) edm::LogInfo("OutputInfo") << "falied to retrieve electron data require by MET Task";
    //if(!beamSpotHandle_.isValid()) edm::LogInfo("OutputInfo") << "falied to retrieve beam spot data require by MET Task";

    //beamSpot_ = ( beamSpotHandle_.isValid() ) ? beamSpotHandle_->position() : math::XYZPoint(0, 0, 0);
    //}

  // ==========================================================
  //

  edm::Handle<bool> HBHENoiseFilterResultHandle;
  bool HBHENoiseFilterResult=true;
  if(!isMiniAODMet_){//not checked for MiniAOD
    iEvent.getByToken(hbheNoiseFilterResultToken_, HBHENoiseFilterResultHandle);
    if (!HBHENoiseFilterResultHandle.isValid()) {
      LogDebug("") << "METAnalyzer: Could not find HBHENoiseFilterResult" << std::endl;
      if (verbose_) std::cout << "METAnalyzer: Could not find HBHENoiseFilterResult" << std::endl;
    }
    HBHENoiseFilterResult = *HBHENoiseFilterResultHandle;
  }
  // ==========================================================
  bool bJetID = false;
  bool bDiJetID = false;
  // Jet ID -------------------------------------------------------
  //

  edm::Handle<CaloJetCollection> caloJets;
  edm::Handle<JPTJetCollection> jptJets;
  edm::Handle<PFJetCollection> pfJets;
  edm::Handle<pat::JetCollection> patJets;

  int collsize=-1;

  if (isCaloMet_){
    iEvent.getByToken(caloJetsToken_, caloJets);
    if (!caloJets.isValid()) {
      LogDebug("") << "METAnalyzer: Could not find calojet product" << std::endl;
      if (verbose_) std::cout << "METAnalyzer: Could not find calojet product" << std::endl;
    }
    collsize=caloJets->size();
  }
  //if (isTCMet_){
  //iEvent.getByToken(jptJetsToken_, jptJets);
  //if (!jptJets.isValid()) {
  //  LogDebug("") << "METAnalyzer: Could not find jptjet product" << std::endl;
  //  if (verbose_) std::cout << "METAnalyzer: Could not find jptjet product" << std::endl;
  //}
  //collsize=jptJets->size();
  //}*/

  edm::Handle< edm::ValueMap<reco::JetID> >jetID_ValueMap_Handle;
  if(/*isTCMet_ || */isCaloMet_){
    if(!runcosmics_){
      iEvent.getByToken(jetID_ValueMapToken_,jetID_ValueMap_Handle);
    }
  }

  if (isMiniAODMet_){ iEvent.getByToken(patJetsToken_, patJets);
    if (!patJets.isValid()) {
      LogDebug("") << "METAnalyzer: Could not find patjet product" << std::endl;
      if (verbose_) std::cout << "METAnalyzer: Could not find patjet product" << std::endl;
    }
    collsize=patJets->size();
  }

  if (isPFMet_){ iEvent.getByToken(pfJetsToken_, pfJets);
    if (!pfJets.isValid()) {
      LogDebug("") << "METAnalyzer: Could not find pfjet product" << std::endl;
      if (verbose_) std::cout << "METAnalyzer: Could not find pfjet product" << std::endl;
    }
    collsize=pfJets->size();
  }

  unsigned int ind1=-1;
  double pt1=-1;
  bool pass_jetID1=false;
  unsigned int ind2=-1;
  double pt2=-1;
  bool pass_jetID2=false;

  edm::Handle<reco::JetCorrector> jetCorr;
  bool pass_correction_flag=false;
  if(!isMiniAODMet_){
    iEvent.getByToken(jetCorrectorToken_, jetCorr);
    if (jetCorr.isValid()){
      pass_correction_flag=true;
    }
  }else{
    pass_correction_flag=true;
  }
  //do loose jet ID-> check threshold on corrected jets
  for (int ijet=0; ijet<collsize; ijet++) {
    double pt_jet=-10;
    double scale=1.;
    bool iscleaned=false;
    if (pass_correction_flag) {
      if(isCaloMet_){
    scale = jetCorr->correction((*caloJets)[ijet]);
      }
      //if(isTCMet_){
      //scale = jetCorr->correction((*jptJets)[ijet]);
      //}
      if(isPFMet_){
    scale = jetCorr->correction((*pfJets)[ijet]);
      }
    }
    if(isCaloMet_){
      pt_jet=scale*(*caloJets)[ijet].pt();
      if(pt_jet> ptThreshold_){
    reco::CaloJetRef calojetref(caloJets, ijet);
    if(!runcosmics_){
      reco::JetID jetID = (*jetID_ValueMap_Handle)[calojetref];
      iscleaned = jetIDFunctorLoose((*caloJets)[ijet], jetID);
    }else{
      iscleaned=true;
    }
      }
    }
    //if(isTCMet_){
    //pt_jet=scale*(*jptJets)[ijet].pt();
    //if(pt_jet> ptThreshold_){
    //  const edm::RefToBase<reco::Jet>&  rawJet = (*jptJets)[ijet].getCaloJetRef();
    //  const reco::CaloJet *rawCaloJet = dynamic_cast<const reco::CaloJet*>(&*rawJet);
    //  reco::CaloJetRef const theCaloJetRef = (rawJet).castTo<reco::CaloJetRef>();
    //  if(!runcosmics_){
    //    reco::JetID jetID = (*jetID_ValueMap_Handle)[theCaloJetRef];
    //    iscleaned = jetIDFunctorLoose(*rawCaloJet, jetID);
    //  }else{
    //    iscleaned=true;
    //  }
    //}
    //}*/
    if(isPFMet_){
      pt_jet=scale*(*pfJets)[ijet].pt();
      if(pt_jet> ptThreshold_){
    iscleaned = pfjetIDFunctorLoose((*pfJets)[ijet]);
      }
    }
   if(isMiniAODMet_){
      pt_jet=(*patJets)[ijet].pt();
      if(pt_jet> ptThreshold_){
    pat::strbitset stringbitset=pfjetIDFunctorLoose.getBitTemplate();
    iscleaned = pfjetIDFunctorLoose((*patJets)[ijet],stringbitset);
      }
    }
    if(iscleaned){
      bJetID=true;
    }
    if(pt_jet>pt1){
      pt2=pt1;
      ind2=ind1;
      pass_jetID2=pass_jetID1;
      pt1=pt_jet;
      ind1=ijet;
      pass_jetID1=iscleaned;
    }else if (pt_jet>pt2){
      pt2=pt_jet;
      ind2=ijet;
      pass_jetID2=iscleaned;
    }
  }
  if(pass_jetID1 && pass_jetID2){
    double dphi=-1.0;
    if(isCaloMet_){
      dphi=fabs((*caloJets)[ind1].phi()-(*caloJets)[ind2].phi());
    }
    //dphi=fabs((*jptJets)[ind1].phi()-(*jptJets)[ind2].phi());
    //}*/
    if(isPFMet_){
      dphi=fabs((*pfJets)[ind1].phi()-(*pfJets)[ind2].phi());
    }
    if(isMiniAODMet_){
      dphi=fabs((*patJets)[0].phi()-(*patJets)[1].phi());
    }
    if(dphi>acos(-1.)){
      dphi=2*acos(-1.)-dphi;
    }
    if(dphi>2.7){
      bDiJetID=true;
    }
  }
  // ==========================================================
  // HCAL Noise filter

  bool bHBHENoiseFilter = HBHENoiseFilterResult;
  // ==========================================================
  //Vertex information
  Handle<VertexCollection> vertexHandle;
  iEvent.getByToken(vertexToken_, vertexHandle);

  if (!vertexHandle.isValid()) {
    LogDebug("") << "CaloMETAnalyzer: Could not find vertex collection" << std::endl;
    if (verbose_) std::cout << "CaloMETAnalyzer: Could not find vertex collection" << std::endl;
  }
  numPV_ = 0;
  if ( vertexHandle.isValid() ){
    VertexCollection vertexCollection = *(vertexHandle.product());
    numPV_  = vertexCollection.size();
  }
  bool bPrimaryVertex = (bypassAllPVChecks_ || (numPV_>0));

  bool bZJets = false;

  edm::Handle<MuonCollection> Muons;
  iEvent.getByToken(MuonsToken_, Muons);

  reco::Candidate::PolarLorentzVector zCand;

  double pt_muon0=-1;
  double pt_muon1=-1;
  int mu_index0=-1;
  int mu_index1=-1;
  //fill it only for cleaned jets
  if(Muons.isValid() && Muons->size()>1){
    for (unsigned int i=0;i<Muons->size();i++){
      bool pass_muon_id=false;
      bool pass_muon_iso=false;
      double dxy=fabs((*Muons)[i].muonBestTrack()->dxy());
      double dz=fabs((*Muons)[i].muonBestTrack()->dz());
      if (numPV_>0){
    dxy=fabs((*Muons)[i].muonBestTrack()->dxy((*vertexHandle)[0].position()));
    dz=fabs((*Muons)[i].muonBestTrack()->dz((*vertexHandle)[0].position()));
      }
      if((*Muons)[i].pt()>20 && fabs((*Muons)[i].eta())<2.3){
    if((*Muons)[i].isGlobalMuon() && (*Muons)[i].isPFMuon() && (*Muons)[i].globalTrack()->hitPattern().numberOfValidMuonHits() > 0  && (*Muons)[i].numberOfMatchedStations() > 1 &&  dxy < 0.2 && (*Muons)[i].numberOfMatchedStations() > 1 && dz<0.5 && (*Muons)[i].innerTrack()->hitPattern().numberOfValidPixelHits() > 0 && (*Muons)[i].innerTrack()->hitPattern().trackerLayersWithMeasurement() > 5){
      pass_muon_id=true;
    }
    // Muon pf isolation DB corrected
    float muonIsoPFdb  = ((*Muons)[i].pfIsolationR04().sumChargedHadronPt 
                  + std::max(0., (*Muons)[i].pfIsolationR04().sumNeutralHadronEt + (*Muons)[i].pfIsolationR04().sumPhotonEt - 0.5*(*Muons)[i].pfIsolationR04().sumPUPt))/(*Muons)[i].pt();    
    if(muonIsoPFdb<0.12){
      pass_muon_iso=true;
    }
    
    if(pass_muon_id && pass_muon_iso){
      if((*Muons)[i].pt()>pt_muon0){
        mu_index1=mu_index0;
        pt_muon1=pt_muon0;
        mu_index0=i;
        pt_muon0=(*Muons)[i].pt();
      }else if ((*Muons)[i].pt()>pt_muon1){
        mu_index1=i;
        pt_muon1=(*Muons)[i].pt();
      }
    }
      }
    }
    if(mu_index0>=0 && mu_index1>=0){
      if((*Muons)[mu_index0].charge()*(*Muons)[mu_index1].charge()<0){
    zCand=(*Muons)[mu_index0].polarP4()+(*Muons)[mu_index1].polarP4();
    if(fabs(zCand.M()-91.)<20){
       bZJets=true;
    }
      }
    }
  }

  // ==========================================================

  edm::Handle< L1GlobalTriggerReadoutRecord > gtReadoutRecord;
  iEvent.getByToken( gtToken_, gtReadoutRecord);

  bool techTriggerResultBxM2 = false;
  bool techTriggerResultBxM1 = false;
  bool techTriggerResultBx0 = false;

  if (!gtReadoutRecord.isValid()) {
    LogDebug("") << "METAnalyzer: Could not find GT readout record" << std::endl;
    if (verbose_) std::cout << "METAnalyzer: Could not find GT readout record product" << std::endl;
  }else{
    // trigger results before mask for BxInEvent -2 (E), -1 (F), 0 (L1A), 1, 2 
    const TechnicalTriggerWord&  technicalTriggerWordBeforeMaskBxM2 = gtReadoutRecord->technicalTriggerWord(-2);
    const TechnicalTriggerWord&  technicalTriggerWordBeforeMaskBxM1 = gtReadoutRecord->technicalTriggerWord(-1);
    const TechnicalTriggerWord&  technicalTriggerWordBeforeMaskBx0 = gtReadoutRecord->technicalTriggerWord();
    //const TechnicalTriggerWord&  technicalTriggerWordBeforeMaskBxG = gtReadoutRecord->technicalTriggerWord(1);
    //const TechnicalTriggerWord&  technicalTriggerWordBeforeMaskBxH = gtReadoutRecord->technicalTriggerWord(2);
    if (m_bitAlgTechTrig_ > -1 && technicalTriggerWordBeforeMaskBx0.size() > 0) {
      techTriggerResultBx0 = technicalTriggerWordBeforeMaskBx0.at(m_bitAlgTechTrig_);
      if(techTriggerResultBx0!=0){
    techTriggerResultBxM2 = technicalTriggerWordBeforeMaskBxM2.at(m_bitAlgTechTrig_);
    techTriggerResultBxM1 = technicalTriggerWordBeforeMaskBxM1.at(m_bitAlgTechTrig_);
      } 
    }
  }

  std::vector<bool>trigger_flag(4,false);
  if(techTriggerResultBx0 && techTriggerResultBxM2 && techTriggerResultBxM1){//current and previous two bunches filled
    trigger_flag[0]=true;
  }
  if(techTriggerResultBx0 && techTriggerResultBxM1){//current and previous bunch filled
    trigger_flag[1]=true;
  }
  if(techTriggerResultBx0 && !techTriggerResultBxM1){//current bunch filled, but  previous bunch emtpy
    trigger_flag[2]=true;
  }
  if(techTriggerResultBx0 && !techTriggerResultBxM2 && !techTriggerResultBxM1){//current bunch filled, but previous two bunches emtpy
    trigger_flag[3]=true;
  }

  // DCS Filter
  bool bDCSFilter = (bypassAllDCSChecks_ || DCSFilter_->filter(iEvent, iSetup));
  // ==========================================================
  // Reconstructed MET Information - fill MonitorElements
  std::string DirName_old=DirName;
  for (std::vector<std::string>::const_iterator ic = folderNames_.begin();
       ic != folderNames_.end(); ic++){
    bool pass_selection = false;
    if ((*ic=="Uncleaned")  &&(isCaloMet_ || bPrimaryVertex)){
      fillMESet(iEvent, DirName_old+"/"+*ic, *met,*patmet, *pfmet,*calomet,zCand, map_dijet_MEs,trigger_flag);
      pass_selection =true;
    }
    //take two lines out for first check
    if ((*ic=="Cleaned")    &&bDCSFilter&&bHBHENoiseFilter&&bPrimaryVertex&&bJetID){
      fillMESet(iEvent, DirName_old+"/"+*ic, *met,*patmet,*pfmet,*calomet,zCand,map_dijet_MEs,trigger_flag);
      pass_selection=true;
    }
    if ((*ic=="DiJet" )     &&bDCSFilter&&bHBHENoiseFilter&& bPrimaryVertex&& bDiJetID){
      fillMESet(iEvent, DirName_old+"/"+*ic, *met,*patmet,*pfmet,*calomet,zCand,map_dijet_MEs,trigger_flag);
      pass_selection=true;
    }
    if ((*ic=="ZJets" )     &&bDCSFilter&&bHBHENoiseFilter&& bPrimaryVertex&& bZJets){
      fillMESet(iEvent, DirName_old+"/"+*ic, *met,*patmet,*pfmet,*calomet,zCand,map_dijet_MEs,trigger_flag);
      pass_selection=true;
    }
    if(pass_selection && isPFMet_){
      DirName=DirName_old+"/"+*ic;
    }

  }
}

void METAnalyzer::bookHistograms ( DQMStore::IBooker &  ibooker, edm::Run const &  iRun, edm::EventSetup const &    )

overridevirtual

Inizialize parameters for histo binning.

Implements DQMEDAnalyzer.

Definition at line 166 of file METAnalyzer.cc.

References cmsPerfPublish::DirName, DQMStore::IBooker::setCurrentFolder(), and AlCaHLTBitMon_QueryRunRegistry::string.

                                        {
  std::string DirName = FolderName_+metCollectionLabel_.label();
  ibooker.setCurrentFolder(DirName);

  if(!folderNames_.empty()){
    folderNames_.clear();
  }
  if(runcosmics_){
    folderNames_.push_back("Uncleaned");
  }else{
    if(!onlyCleaned_){
      folderNames_.push_back("Uncleaned");
    }
    folderNames_.push_back("Cleaned");
    folderNames_.push_back("DiJet");
    folderNames_.push_back("ZJets");
  }
  for (std::vector<std::string>::const_iterator ic = folderNames_.begin();
       ic != folderNames_.end(); ic++){
    bookMESet(DirName+"/"+*ic, ibooker,map_dijet_MEs);
    }
}

void METAnalyzer::bookMESet ( std::string  DirName, DQMStore::IBooker &  ibooker, std::map< std::string, MonitorElement * > &  map_of_MEs  )

private

Definition at line 193 of file METAnalyzer.cc.

References i.

{
  bool bLumiSecPlot=fill_met_high_level_histo;
  //bool inTriggerPathPlots=false;
  bool fillPFCandidatePlots=false;
  bool fillZPlots=false;

  if (DirName.find("Cleaned")!=std::string::npos) {
    fillPFCandidatePlots=true;
    bookMonitorElement(DirName,ibooker,map_of_MEs,bLumiSecPlot,fillPFCandidatePlots,fillZPlots);
    for (unsigned int i = 0; i<triggerFolderEventFlag_.size(); i++) {
      fillPFCandidatePlots=false;
      if (triggerFolderEventFlag_[i]->on()) {
        bookMonitorElement(DirName+"/"+triggerFolderLabels_[i],ibooker,map_of_MEs,bLumiSecPlot,fillPFCandidatePlots,fillZPlots);
      }
    }
  }else if (DirName.find("ZJets")!=std::string::npos) {
    fillPFCandidatePlots=false;
    fillZPlots=true;
    bookMonitorElement(DirName,ibooker,map_of_MEs,bLumiSecPlot,fillPFCandidatePlots,fillZPlots);
  }else{
    bookMonitorElement(DirName,ibooker,map_of_MEs,bLumiSecPlot,fillPFCandidatePlots,fillZPlots);
  }
}

void METAnalyzer::bookMonitorElement ( std::string  DirName, DQMStore::IBooker &  ibooker, std::map< std::string, MonitorElement * > &  map_of_MEs, bool  bLumiSecPlot = false, bool  fillPFCandPlots = false, bool  fillZPlots = false  )

private

Definition at line 219 of file METAnalyzer.cc.

References DQMStore::IBooker::book1D(), DQMStore::IBooker::book2D(), DQMStore::IBooker::bookProfile(), gather_cfg::cout, i, M_PI, MonitorElement::setAxisTitle(), MonitorElement::setBinLabel(), DQMStore::IBooker::setCurrentFolder(), AlCaHLTBitMon_QueryRunRegistry::string, and findQualityFiles::v.

{
  if (verbose_) std::cout << "bookMonitorElement " << DirName << std::endl;

  ibooker.setCurrentFolder(DirName);
  if(fillZPlots){
  if(isCaloMet_){
    meZJets_u_par   = ibooker.book1D("u_parallel_Z_inc",        "u_parallel_Z_inc",        50, -1000., 75);
  }else{
    meZJets_u_par   = ibooker.book1D("u_parallel_Z_inc",        "u_parallel_Z_inc",        50, -800., 75);
  }
   meZJets_u_par_ZPt_0_15   = ibooker.book1D("u_parallel_ZPt_0_15",        "u_parallel_ZPt_0_15",        50, -100,  75);
   meZJets_u_par_ZPt_15_30   = ibooker.book1D("u_parallel_ZPt_15_30",        "u_parallel_ZPt_15_30",        50, -100,  50);
   meZJets_u_par_ZPt_30_55   = ibooker.book1D("u_parallel_ZPt_30_55",        "u_parallel_ZPt_30_55",        50, -175,  50);
   meZJets_u_par_ZPt_55_75   = ibooker.book1D("u_parallel_ZPt_55_75",        "u_parallel_ZPt_55_75",        50, -175,  0);
   meZJets_u_par_ZPt_75_150   = ibooker.book1D("u_parallel_ZPt_75_150",        "u_parallel_ZPt_75_150",        50, -300,  0);
   if(isCaloMet_){
     meZJets_u_par_ZPt_150_290   = ibooker.book1D("u_parallel_ZPt_150_290",        "u_parallel_ZPt_150_290",        50, -750,  -100);
   }else{
     meZJets_u_par_ZPt_150_290   = ibooker.book1D("u_parallel_ZPt_150_290",        "u_parallel_ZPt_150_290",        50, -450,  -50);
   }
  if(isCaloMet_){
    meZJets_u_par_ZPt_290   = ibooker.book1D("u_parallel_ZPt_290",        "u_parallel_ZPt_290",        50, -1000.,  -350.);
  }else{
    meZJets_u_par_ZPt_290   = ibooker.book1D("u_parallel_ZPt_290",        "u_parallel_ZPt_290",        50, -750.,  -150.);
  }
   meZJets_u_perp   = ibooker.book1D("u_perp_Z_inc",        "u_perp_Z_inc",        50, -85., 85.);
   meZJets_u_perp_ZPt_0_15   = ibooker.book1D("u_perp_ZPt_0_15",        "u_perp_ZPt_0_15",        50, -85., 85.);
   meZJets_u_perp_ZPt_15_30   = ibooker.book1D("u_perp_ZPt_15_30",        "u_perp_ZPt_15_30",        50, -85., 85.);
   meZJets_u_perp_ZPt_30_55   = ibooker.book1D("u_perp_ZPt_30_55",        "u_perp_ZPt_30_55",        50, -85., 85.);
   meZJets_u_perp_ZPt_55_75   = ibooker.book1D("u_perp_ZPt_55_75",        "u_perp_ZPt_55_75",        50, -85., 85.);
   meZJets_u_perp_ZPt_75_150   = ibooker.book1D("u_perp_ZPt_75_150",        "u_perp_ZPt_75_150",        50, -85., 85.);
   meZJets_u_perp_ZPt_150_290   = ibooker.book1D("u_perp_ZPt_150_290",        "u_perp_ZPt_150_290",        50, -85., 85.);
   meZJets_u_perp_ZPt_290   = ibooker.book1D("u_perp_ZPt_290",        "u_perp_ZPt_290",        50, -85., 85.);

   map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"u_parallel_Z_inc",meZJets_u_par));
   map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"u_parallel_ZPt_0_15",meZJets_u_par_ZPt_0_15));
   map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"u_parallel_ZPt_15_30",meZJets_u_par_ZPt_15_30));
   map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"u_parallel_ZPt_30_55",meZJets_u_par_ZPt_30_55));
   map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"u_parallel_ZPt_55_75",meZJets_u_par_ZPt_55_75));
   map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"u_parallel_ZPt_75_150",meZJets_u_par_ZPt_75_150));
   map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"u_parallel_ZPt_150_290",meZJets_u_par_ZPt_150_290));
   map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"u_parallel_ZPt_290",meZJets_u_par_ZPt_290));

   map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"u_perp_Z_inc",meZJets_u_perp));
   map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"u_perp_ZPt_0_15",meZJets_u_perp_ZPt_0_15));
   map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"u_perp_ZPt_15_30",meZJets_u_perp_ZPt_15_30));
   map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"u_perp_ZPt_30_55",meZJets_u_perp_ZPt_30_55));
   map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"u_perp_ZPt_55_75",meZJets_u_perp_ZPt_55_75));
   map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"u_perp_ZPt_75_150",meZJets_u_perp_ZPt_75_150));
   map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"u_perp_ZPt_150_290",meZJets_u_perp_ZPt_150_290));
   map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"u_perp_ZPt_290",meZJets_u_perp_ZPt_290));
  }

  if(!fillZPlots){
    hTrigger    = ibooker.book1D("triggerResults", "triggerResults", 500, 0, 500); 
    for (unsigned int i = 0; i<allTriggerNames_.size();i++){ 
      if(i<(unsigned int)hTrigger->getNbinsX()){
    if (!hTriggerLabelsIsSet_) {
      hTrigger->setBinLabel(i+1, allTriggerNames_[i]);
    }
      }
    }
    if (!hTriggerLabelsIsSet_) for (int i = allTriggerNames_.size(); i<hTrigger->getNbinsX();i++){ 
    hTrigger->setBinLabel(i+1, "");
      }
    hTriggerLabelsIsSet_ = true;
    
    hMEx        = ibooker.book1D("MEx",        "MEx",        200, -500,  500);
    hMEy        = ibooker.book1D("MEy",        "MEy",        200, -500,  500);
    hMET        = ibooker.book1D("MET",        "MET",        200,    0, 1000);
    hSumET      = ibooker.book1D("SumET",      "SumET",      400,    0, 4000);
    hMETSig     = ibooker.book1D("METSig",     "METSig",      51,    0,   51);
    hMETPhi     = ibooker.book1D("METPhi",     "METPhi",      60, -M_PI,  M_PI);
    hMET_logx   = ibooker.book1D("MET_logx",   "MET_logx",    40,   -1,    7);
    hSumET_logx = ibooker.book1D("SumET_logx", "SumET_logx",  40,   -1,    7);
    
    hMEx       ->setAxisTitle("MEx [GeV]",        1);
    hMEy       ->setAxisTitle("MEy [GeV]",        1);
    hMET       ->setAxisTitle("MET [GeV]",        1);
    hSumET     ->setAxisTitle("SumET [GeV]",      1);
    hMETSig    ->setAxisTitle("METSig",       1);
    hMETPhi    ->setAxisTitle("METPhi [rad]",     1);
    hMET_logx  ->setAxisTitle("log(MET) [GeV]",   1);
    hSumET_logx->setAxisTitle("log(SumET) [GeV]", 1);
    
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"triggerResults",hTrigger));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"MEx",hMEx));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"MEy",hMEy));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"MET",hMET));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"SumET",hSumET));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"METSig",hMETSig));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"METPhi",hMETPhi));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"MET_logx",hMET_logx));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"SumET_logx",hSumET_logx));
    
    // Book NPV profiles --> would some of these profiles be interesting for other MET types too
    //----------------------------------------------------------------------------
    meMEx_profile   = ibooker.bookProfile("MEx_profile",   "met.px()",    nbinsPV_, nPVMin_, nPVMax_, 200, -500,  500);
    meMEy_profile   = ibooker.bookProfile("MEy_profile",   "met.py()",    nbinsPV_, nPVMin_, nPVMax_, 200, -500,  500);
    meMET_profile   = ibooker.bookProfile("MET_profile",   "met.pt()",    nbinsPV_, nPVMin_, nPVMax_, 200,    0, 1000);
    meSumET_profile = ibooker.bookProfile("SumET_profile", "met.sumEt()", nbinsPV_, nPVMin_, nPVMax_, 400,    0, 4000);
    // Set NPV profiles x-axis title
    //----------------------------------------------------------------------------
    meMEx_profile  ->setAxisTitle("nvtx", 1);
    meMEy_profile  ->setAxisTitle("nvtx", 1);
    meMET_profile  ->setAxisTitle("nvtx", 1);
    meSumET_profile->setAxisTitle("nvtx", 1);
    
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"MEx_profile",meMEx_profile));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"MEy_profile",meMEy_profile));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"MET_profile",meMET_profile));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"SumET_profile",meSumET_profile));
    
    
    if(isCaloMet_){
      hCaloHadEtInHB          = ibooker.book1D("CaloHadEtInHB","CaloHadEtInHB",50,0,2000);
      hCaloHadEtInHB->setAxisTitle("Had Et [GeV]",1);
      hCaloHadEtInHO          = ibooker.book1D("CaloHadEtInHO","CaloHadEtInHO",25,0,500);
      hCaloHadEtInHO->setAxisTitle("Had Et [GeV]",1);
      hCaloHadEtInHE          = ibooker.book1D("CaloHadEtInHE","CaloHadEtInHE",50,0,2000);
      hCaloHadEtInHE->setAxisTitle("Had Et [GeV]",1);
      hCaloHadEtInHF          = ibooker.book1D("CaloHadEtInHF","CaloHadEtInHF",50,0,1000);
      hCaloHadEtInHF->setAxisTitle("Had Et [GeV]",1);
      hCaloEmEtInHF           = ibooker.book1D("CaloEmEtInHF" ,"CaloEmEtInHF" ,25,0,500);
      hCaloEmEtInHF->setAxisTitle("EM Et [GeV]",1);
      hCaloEmEtInEE           = ibooker.book1D("CaloEmEtInEE" ,"CaloEmEtInEE" ,50,0,1000);
      hCaloEmEtInEE->setAxisTitle("EM Et [GeV]",1);
      hCaloEmEtInEB           = ibooker.book1D("CaloEmEtInEB" ,"CaloEmEtInEB" ,50,0,2000);
      hCaloEmEtInEB->setAxisTitle("EM Et [GeV]",1);
      
      map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"CaloHadEtInHO",hCaloHadEtInHO));
      map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"CaloHadEtInHF",hCaloHadEtInHF));
      map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"CaloHadEtInHE",hCaloHadEtInHE));
      map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"CaloHadEtInHB",hCaloHadEtInHB));
      map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"CaloEmEtInHF",hCaloEmEtInHF));
      map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"CaloEmEtInEE",hCaloEmEtInEE));
      map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"CaloEmEtInEB",hCaloEmEtInEB));
      
      hCaloMETPhi020  = ibooker.book1D("CaloMETPhi020",  "CaloMETPhi020",   60, -M_PI,  M_PI);
      hCaloMETPhi020 ->setAxisTitle("METPhi [rad] (MET>20 GeV)", 1);
      
      hCaloEtFractionHadronic = ibooker.book1D("CaloEtFractionHadronic","CaloEtFractionHadronic",50,0,1);
      hCaloEtFractionHadronic->setAxisTitle("Hadronic Et Fraction",1);
      hCaloEmEtFraction       = ibooker.book1D("CaloEmEtFraction",      "CaloEmEtFraction"      ,50,0,1);
      hCaloEmEtFraction->setAxisTitle("EM Et Fraction",1);
      
      hCaloEmEtFraction020    = ibooker.book1D("CaloEmEtFraction020",   "CaloEmEtFraction020"      ,50,0,1);
      hCaloEmEtFraction020->setAxisTitle("EM Et Fraction (MET>20 GeV)",1);

      
      map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"CaloMETPhi020",hCaloMETPhi020));
      map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"CaloEtFractionHadronic",hCaloEtFractionHadronic));
      map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"CaloEmEtFraction", hCaloEmEtFraction));
      map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"CaloEmEtFraction020",hCaloEmEtFraction020));
      
    }
    
    if(isPFMet_){
      if(fillPFCandPlots && fillCandidateMap_histos){//first bool internal checks for subdirectory filling, second bool given in cfg file, checks that we fill maps only in one module in total
    //histos where two previous bunches were empty/filled
    mePhotonEtFraction_BXm2BXm1Empty          = ibooker.book1D("PfPhotonEtFraction_BXm2BXm1Empty",        "pfmet.photonEtFraction() prev empty 2 bunches",         50, 0,    1);
    mePhotonEtFraction_BXm2BXm1Filled        = ibooker.book1D("PfPhotonEtFraction_BXm2BXm1Filled",      "pfmet.photonEtFraction() prev filled 2 bunches",         50, 0,    1);
    meNeutralHadronEtFraction_BXm2BXm1Empty   = ibooker.book1D("PfNeutralHadronEtFraction_BXm2BXm1Empty",   "pfmet.neutralHadronEtFraction() prev empty 2 bunches",         50, 0,    1);
    meNeutralHadronEtFraction_BXm2BXm1Filled = ibooker.book1D("PfNeutralHadronEtFraction_BXm2BXm1Filled", "pfmet.neutralHadronEtFraction() prev filled 2 bunches",         50, 0,    1);
    meChargedHadronEtFraction_BXm2BXm1Empty   = ibooker.book1D("PfChargedHadronEtFraction_BXm2BXm1Empty",   "pfmet.chargedHadronEtFraction() prev empty 2 bunches",         50, 0,    1);
    meChargedHadronEtFraction_BXm2BXm1Filled = ibooker.book1D("PfChargedHadronEtFraction_BXm2BXm1Filled", "pfmet.chargedHadronEtFraction() prev filled 2 bunches",         50, 0,    1);
    meMET_BXm2BXm1Empty                       = ibooker.book1D("MET_BXm2BXm1Empty",   "MET prev empty 2 bunches",        200,    0, 1000);
    meMET_BXm2BXm1Filled                     = ibooker.book1D("MET_BXm2BXm1Filled", "MET prev filled 2 bunches",       200,    0, 1000);
    meSumET_BXm2BXm1Empty                     = ibooker.book1D("SumET_BXm2BXm1Empty",   "SumET prev empty 2 bunches",    400,    0, 4000);
    meSumET_BXm2BXm1Filled                   = ibooker.book1D("SumET_BXm2BXm1Filled", "SumET prev filled 2 bunches",   400,    0, 4000);
    
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfPhotonEtFraction_BXm2BXm1Empty"       ,mePhotonEtFraction_BXm2BXm1Empty));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfPhotonEtFraction_BXm2BXm1Filled"     ,mePhotonEtFraction_BXm2BXm1Filled));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfNeutralHadronEtFraction_BXm2BXm1Empty"  ,meNeutralHadronEtFraction_BXm2BXm1Empty));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfNeutralHadronEtFraction_BXm2BXm1Filled"      ,meNeutralHadronEtFraction_BXm2BXm1Filled));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfChargedHadronEtFraction_BXm2BXm1Empty"  ,meChargedHadronEtFraction_BXm2BXm1Empty));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfChargedHadronEtFraction_BXm2BXm1Filled"      ,meChargedHadronEtFraction_BXm2BXm1Filled));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"MET_BXm2BXm1Empty"    ,meMET_BXm2BXm1Empty));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"MET_BXm2BXm1Filled"  ,meMET_BXm2BXm1Filled));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"SumET_BXm2BXm1Empty"  ,meSumET_BXm2BXm1Empty));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"SumET_BXm2BXm1Filled",meSumET_BXm2BXm1Filled));
    
    meCHF_Barrel                       = ibooker.book1D("PfChargedHadronEtFractionBarrel",                      "chargedHadronEtFractionBarrel",                               50, 0,    1);
    meCHF_EndcapPlus                   = ibooker.book1D("PfChargedHadronEtFractionEndcapPlus",                  "chargedHadronEtFractionEndcapPlus",                           50, 0,    1);
    meCHF_EndcapMinus                  = ibooker.book1D("PfChargedHadronEtFractionEndcapMinus",                 "chargedHadronEtFractionEndcapMinus",                          50, 0,    1);
    meCHF_Barrel_BXm1Empty             = ibooker.book1D("PfChargedHadronEtFractionBarrel_BXm1Empty",             "chargedHadronEtFractionBarrel prev empty bunch",             50, 0,    1);
    meCHF_EndcapPlus_BXm1Empty         = ibooker.book1D("PfChargedHadronEtFractionEndcapPlus_BXm1Empty",         "chargedHadronEtFractionEndcapPlus prev empty bunch",         50, 0,    1);
    meCHF_EndcapMinus_BXm1Empty        = ibooker.book1D("PfChargedHadronEtFractionEndcapMinus_BXm1Empty",        "chargedHadronEtFractionEndcapMinus prev empty bunch",        50, 0,    1);
    meCHF_Barrel_BXm2BXm1Empty         = ibooker.book1D("PfChargedHadronEtFractionBarrel_BXm2BXm1Empty",         "chargedHadronEtFractionBarrel prev empty 2 bunches",         50, 0,    1);
    meCHF_EndcapPlus_BXm2BXm1Empty     = ibooker.book1D("PfChargedHadronEtFractionEndcapPlus_BXm2BXm1Empty",     "chargedHadronEtFractionEndcapPlus prev empty 2 bunches",     50, 0,    1);
    meCHF_EndcapMinus_BXm2BXm1Empty    = ibooker.book1D("PfChargedHadronEtFractionEndcapMinus_BXm2BXm1Empty",    "chargedHadronEtFractionEndcapMinus prev empty 2 bunches",    50, 0,    1);
    meCHF_Barrel_BXm1Filled            = ibooker.book1D("PfChargedHadronEtFractionBarrel_BXm1Filled",            "chargedHadronEtFractionBarrel prev filled 2 bunches",        50, 0,    1);
    meCHF_EndcapPlus_BXm1Filled        = ibooker.book1D("PfChargedHadronEtFractionEndcapPlus_BXm1Filled",        "chargedHadronEtFractionEndcapPlus prev filled bunch",        50, 0,    1);
    meCHF_EndcapMinus_BXm1Filled       = ibooker.book1D("PfChargedHadronEtFractionEndcapMinus_BXm1Filled",       "chargedHadronEtFractionEndcapMinus prev filled bunch",       50, 0,    1);
    meCHF_Barrel_BXm2BXm1Filled        = ibooker.book1D("PfChargedHadronEtFractionBarrel_BXm2BXm1Filled",        "chargedHadronEtFractionBarrel prev filled 2 bunches",        50, 0,    1);
    meCHF_EndcapPlus_BXm2BXm1Filled    = ibooker.book1D("PfChargedHadronEtFractionEndcapPlus_BXm2BXm1Filled",    "chargedHadronEtFractionEndcapPlus prev filled 2 bunches",    50, 0,    1);
    meCHF_EndcapMinus_BXm2BXm1Filled   = ibooker.book1D("PfChargedHadronEtFractionEndcapMinus_BXm2BXm1Filled",   "chargedHadronEtFractionEndcapMinus prev filled 2 bunches",   50, 0,    1);
    
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfChargedHadronEtFractionBarrel",                       meCHF_Barrel));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfChargedHadronEtFractionEndcapPlus",                   meCHF_EndcapPlus));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfChargedHadronEtFractionEndcapMinus",                  meCHF_EndcapMinus));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfChargedHadronEtFractionBarrel_BXm1Empty",             meCHF_Barrel_BXm1Empty));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfChargedHadronEtFractionEndcapPlus_BXm1Empty",         meCHF_EndcapPlus_BXm1Empty));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfChargedHadronEtFractionEndcapMinus_BXm1Empty",        meCHF_EndcapMinus_BXm1Empty));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfChargedHadronEtFractionBarrel_BXm2BXm1Empty",         meCHF_Barrel_BXm2BXm1Empty));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfChargedHadronEtFractionEndcapPlus_BXm2BXm1Empty",     meCHF_EndcapPlus_BXm2BXm1Empty));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfChargedHadronEtFractionEndcapMinus_BXm2BXm1Empty",    meCHF_EndcapMinus_BXm2BXm1Empty));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfChargedHadronEtFractionBarrel_BXm1Filled",            meCHF_Barrel_BXm1Filled));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfChargedHadronEtFractionEndcapPlus_BXm1Filled",        meCHF_EndcapPlus_BXm1Filled));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfChargedHadronEtFractionEndcapMinus_BXm1Filled",       meCHF_EndcapMinus_BXm1Filled));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfChargedHadronEtFractionBarrel_BXm2BXm1Filled",        meCHF_Barrel_BXm2BXm1Filled));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfChargedHadronEtFractionEndcapPlus_BXm2BXm1Filled",    meCHF_EndcapPlus_BXm2BXm1Filled));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfChargedHadronEtFractionEndcapMinus_BXm2BXm1Filled",   meCHF_EndcapMinus_BXm2BXm1Filled));
    
    meNHF_Barrel                       = ibooker.book1D("PfNeutralHadronEtFractionBarrel",                       "neutralHadronEtFractionBarrel",                               50, 0,    1);
    meNHF_EndcapPlus                   = ibooker.book1D("PfNeutralHadronEtFractionEndcapPlus",                   "neutralHadronEtFractionEndcapPlus",                           50, 0,    1);
    meNHF_EndcapMinus                  = ibooker.book1D("PfNeutralHadronEtFractionEndcapMinus",                  "neutralHadronEtFractionEndcapMinus",                          50, 0,    1);
    meNHF_Barrel_BXm1Empty             = ibooker.book1D("PfNeutralHadronEtFractionBarrel_BXm1Empty",             "neutralHadronEtFractionBarrel prev empty bunch",             50, 0,    1);
    meNHF_EndcapPlus_BXm1Empty         = ibooker.book1D("PfNeutralHadronEtFractionEndcapPlus_BXm1Empty",         "neutralHadronEtFractionEndcapPlus prev empty bunch",         50, 0,    1);
    meNHF_EndcapMinus_BXm1Empty        = ibooker.book1D("PfNeutralHadronEtFractionEndcapMinus_BXm1Empty",        "neutralHadronEtFractionEndcapMinus prev empty bunch",        50, 0,    1);
    meNHF_Barrel_BXm2BXm1Empty         = ibooker.book1D("PfNeutralHadronEtFractionBarrel_BXm2BXm1Empty",         "neutralHadronEtFractionBarrel prev empty 2 bunches",         50, 0,    1);
    meNHF_EndcapPlus_BXm2BXm1Empty     = ibooker.book1D("PfNeutralHadronEtFractionEndcapPlus_BXm2BXm1Empty",     "neutralHadronEtFractionEndcapPlus prev empty 2 bunches",     50, 0,    1);
    meNHF_EndcapMinus_BXm2BXm1Empty    = ibooker.book1D("PfNeutralHadronEtFractionEndcapMinus_BXm2BXm1Empty",    "neutralHadronEtFractionEndcapMinus prev empty 2 bunches",    50, 0,    1);
    meNHF_Barrel_BXm1Filled            = ibooker.book1D("PfNeutralHadronEtFractionBarrel_BXm1Filled",            "neutralHadronEtFractionBarrel prev filled 2 bunches",        50, 0,    1);
    meNHF_EndcapPlus_BXm1Filled        = ibooker.book1D("PfNeutralHadronEtFractionEndcapPlus_BXm1Filled",        "neutralHadronEtFractionEndcapPlus prev filled bunch",        50, 0,    1);
    meNHF_EndcapMinus_BXm1Filled       = ibooker.book1D("PfNeutralHadronEtFractionEndcapMinus_BXm1Filled",       "neutralHadronEtFractionEndcapMinus prev filled bunch",       50, 0,    1);
    meNHF_Barrel_BXm2BXm1Filled        = ibooker.book1D("PfNeutralHadronEtFractionBarrel_BXm2BXm1Filled",        "neutralHadronEtFractionBarrel prev filled 2 bunches",        50, 0,    1);
    meNHF_EndcapPlus_BXm2BXm1Filled    = ibooker.book1D("PfNeutralHadronEtFractionEndcapPlus_BXm2BXm1Filled",    "neutralHadronEtFractionEndcapPlus prev filled 2 bunches",    50, 0,    1);
    meNHF_EndcapMinus_BXm2BXm1Filled   = ibooker.book1D("PfNeutralHadronEtFractionEndcapMinus_BXm2BXm1Filled",   "neutralHadronEtFractionEndcapMinus prev filled 2 bunches",   50, 0,    1);
    
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfNeutralHadronEtFractionBarrel",                       meNHF_Barrel));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfNeutralHadronEtFractionEndcapPlus",                   meNHF_EndcapPlus));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfNeutralHadronEtFractionEndcapMinus",                  meNHF_EndcapMinus));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfNeutralHadronEtFractionBarrel_BXm1Empty",             meNHF_Barrel_BXm1Empty));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfNeutralHadronEtFractionEndcapPlus_BXm1Empty",         meNHF_EndcapPlus_BXm1Empty));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfNeutralHadronEtFractionEndcapMinus_BXm1Empty",        meNHF_EndcapMinus_BXm1Empty));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfNeutralHadronEtFractionBarrel_BXm2BXm1Empty",         meNHF_Barrel_BXm2BXm1Empty));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfNeutralHadronEtFractionEndcapPlus_BXm2BXm1Empty",     meNHF_EndcapPlus_BXm2BXm1Empty));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfNeutralHadronEtFractionEndcapMinus_BXm2BXm1Empty",    meNHF_EndcapMinus_BXm2BXm1Empty));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfNeutralHadronEtFractionBarrel_BXm1Filled",            meNHF_Barrel_BXm1Filled));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfNeutralHadronEtFractionEndcapPlus_BXm1Filled",        meNHF_EndcapPlus_BXm1Filled));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfNeutralHadronEtFractionEndcapMinus_BXm1Filled",       meNHF_EndcapMinus_BXm1Filled));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfNeutralHadronEtFractionBarrel_BXm2BXm1Filled",        meNHF_Barrel_BXm2BXm1Filled));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfNeutralHadronEtFractionEndcapPlus_BXm2BXm1Filled",    meNHF_EndcapPlus_BXm2BXm1Filled));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfNeutralHadronEtFractionEndcapMinus_BXm2BXm1Filled",   meNHF_EndcapMinus_BXm2BXm1Filled));
    
    mePhF_Barrel                       = ibooker.book1D("PfPhotonEtFractionBarrel",                       "photonEtFractionBarrel",                              50, 0,    1);
    mePhF_EndcapPlus                   = ibooker.book1D("PfPhotonEtFractionEndcapPlus",                   "photonEtFractionEndcapPlus",                          50, 0,    1);
    mePhF_EndcapMinus                  = ibooker.book1D("PfPhotonEtFractionEndcapMinus",                  "photonEtFractionEndcapMinus",                         50, 0,    1);
    mePhF_Barrel_BXm1Empty             = ibooker.book1D("PfPhotonEtFractionBarrel_BXm1Empty",             "photonEtFractionBarrel prev empty bunch",             50, 0,    1);
    mePhF_EndcapPlus_BXm1Empty         = ibooker.book1D("PfPhotonEtFractionEndcapPlus_BXm1Empty",         "photonEtFractionEndcapPlus prev empty bunch",         50, 0,    1);
    mePhF_EndcapMinus_BXm1Empty        = ibooker.book1D("PfPhotonEtFractionEndcapMinus_BXm1Empty",        "photonEtFractionEndcapMinus prev empty bunch",        50, 0,    1);
    mePhF_Barrel_BXm2BXm1Empty         = ibooker.book1D("PfPhotonEtFractionBarrel_BXm2BXm1Empty",         "photonEtFractionBarrel prev empty 2 bunches",         50, 0,    1);
    mePhF_EndcapPlus_BXm2BXm1Empty     = ibooker.book1D("PfPhotonEtFractionEndcapPlus_BXm2BXm1Empty",     "photonEtFractionEndcapPlus prev empty 2 bunches",     50, 0,    1);
    mePhF_EndcapMinus_BXm2BXm1Empty    = ibooker.book1D("PfPhotonEtFractionEndcapMinus_BXm2BXm1Empty",    "photonEtFractionEndcapMinus prev empty 2 bunches",    50, 0,    1);
    mePhF_Barrel_BXm1Filled            = ibooker.book1D("PfPhotonEtFractionBarrel_BXm1Filled",            "photonEtFractionBarrel prev filled 2 bunches",        50, 0,    1);
    mePhF_EndcapPlus_BXm1Filled        = ibooker.book1D("PfPhotonEtFractionEndcapPlus_BXm1Filled",        "photonEtFractionEndcapPlus prev filled bunch",        50, 0,    1);
    mePhF_EndcapMinus_BXm1Filled       = ibooker.book1D("PfPhotonEtFractionEndcapMinus_BXm1Filled",       "photonEtFractionEndcapMinus prev filled bunch",       50, 0,    1);
    mePhF_Barrel_BXm2BXm1Filled        = ibooker.book1D("PfPhotonEtFractionBarrel_BXm2BXm1Filled",        "photonEtFractionBarrel prev filled 2 bunches",        50, 0,    1);
    mePhF_EndcapPlus_BXm2BXm1Filled    = ibooker.book1D("PfPhotonEtFractionEndcapPlus_BXm2BXm1Filled",    "photonEtFractionEndcapPlus prev filled 2 bunches",    50, 0,    1);
    mePhF_EndcapMinus_BXm2BXm1Filled   = ibooker.book1D("PfPhotonEtFractionEndcapMinus_BXm2BXm1Filled",   "photonEtFractionEndcapMinus prev filled 2 bunches",   50, 0,    1);
    
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfPhotonEtFractionBarrel",                       mePhF_Barrel));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfPhotonEtFractionEndcapPlus",                   mePhF_EndcapPlus));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfPhotonEtFractionEndcapMinus",                  mePhF_EndcapMinus));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfPhotonEtFractionBarrel_BXm1Empty",             mePhF_Barrel_BXm1Empty));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfPhotonEtFractionEndcapPlus_BXm1Empty",         mePhF_EndcapPlus_BXm1Empty));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfPhotonEtFractionEndcapMinus_BXm1Empty",        mePhF_EndcapMinus_BXm1Empty));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfPhotonEtFractionBarrel_BXm2BXm1Empty",         mePhF_Barrel_BXm2BXm1Empty));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfPhotonEtFractionEndcapPlus_BXm2BXm1Empty",     mePhF_EndcapPlus_BXm2BXm1Empty));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfPhotonEtFractionEndcapMinus_BXm2BXm1Empty",    mePhF_EndcapMinus_BXm2BXm1Empty));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfPhotonEtFractionBarrel_BXm1Filled",            mePhF_Barrel_BXm1Filled));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfPhotonEtFractionEndcapPlus_BXm1Filled",        mePhF_EndcapPlus_BXm1Filled));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfPhotonEtFractionEndcapMinus_BXm1Filled",       mePhF_EndcapMinus_BXm1Filled));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfPhotonEtFractionBarrel_BXm2BXm1Filled",        mePhF_Barrel_BXm2BXm1Filled));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfPhotonEtFractionEndcapPlus_BXm2BXm1Filled",    mePhF_EndcapPlus_BXm2BXm1Filled));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfPhotonEtFractionEndcapMinus_BXm2BXm1Filled",   mePhF_EndcapMinus_BXm2BXm1Filled));
    
    meHFHadF_Plus                   = ibooker.book1D("PfHFHadronEtFractionPlus",                   "HFHadronEtFractionPlus",                          50, 0,    1);
    meHFHadF_Minus                  = ibooker.book1D("PfHFHadronEtFractionMinus",                  "HFHadronEtFractionMinus",                         50, 0,    1);     
    meHFHadF_Plus_BXm1Empty         = ibooker.book1D("PfHFHadronEtFractionPlus_BXm1Empty",         "HFHadronEtFractionPlus prev empty bunch",         50, 0,    1);
    meHFHadF_Minus_BXm1Empty        = ibooker.book1D("PfHFHadronEtFractionMinus_BXm1Empty",        "HFHadronEtFractionMinus prev empty bunch",        50, 0,    1);
    meHFHadF_Plus_BXm2BXm1Empty     = ibooker.book1D("PfHFHadronEtFractionPlus_BXm2BXm1Empty",     "HFHadronEtFractionPlus prev empty 2 bunches",     50, 0,    1);
    meHFHadF_Minus_BXm2BXm1Empty    = ibooker.book1D("PfHFHadronEtFractionMinus_BXm2BXm1Empty",    "HFHadronEtFractionMinus prev empty 2 bunches",    50, 0,    1);
    meHFHadF_Plus_BXm1Filled        = ibooker.book1D("PfHFHadronEtFractionPlus_BXm1Filled",        "HFHadronEtFractionPlus prev filled bunch",        50, 0,    1);
    meHFHadF_Minus_BXm1Filled       = ibooker.book1D("PfHFHadronEtFractionMinus_BXm1Filled",       "HFHadronEtFractionMinus prev filled bunch",       50, 0,    1);
    meHFHadF_Plus_BXm2BXm1Filled    = ibooker.book1D("PfHFHadronEtFractionPlus_BXm2BXm1Filled",    "HFHadronEtFractionPlus prev filled 2 bunches",    50, 0,    1);
    meHFHadF_Minus_BXm2BXm1Filled   = ibooker.book1D("PfHFHadronEtFractionMinus_BXm2BXm1Filled",   "HFHadronEtFractionMinus prev filled 2 bunches",   50, 0,    1);
    
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfHFHadronEtFractionPlus",                   meHFHadF_Plus));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfHFHadronEtFractionMinus",                  meHFHadF_Minus));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfHFHadronEtFractionPlus_BXm1Empty",         meHFHadF_Plus_BXm1Empty));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfHFHadronEtFractionMinus_BXm1Empty",        meHFHadF_Minus_BXm1Empty));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfHFHadronEtFractionPlus_BXm2BXm1Empty",     meHFHadF_Plus_BXm2BXm1Empty));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfHFHadronEtFractionMinus_BXm2BXm1Empty",    meHFHadF_Minus_BXm2BXm1Empty));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfHFHadronEtFractionPlus_BXm1Filled",        meHFHadF_Plus_BXm1Filled));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfHFHadronEtFractionMinus_BXm1Filled",       meHFHadF_Minus_BXm1Filled));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfHFHadronEtFractionPlus_BXm2BXm1Filled",    meHFHadF_Plus_BXm2BXm1Filled));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfHFHadronEtFractionMinus_BXm2BXm1Filled",   meHFHadF_Minus_BXm2BXm1Filled));
    
    meHFEMF_Plus                   = ibooker.book1D("PfHFEMEtFractionPlus",                   "HFEMEtFractionPlus",                          50, 0,    1);
    meHFEMF_Minus                  = ibooker.book1D("PfHFEMEtFractionMinus",                  "HFEMEtFractionMinus",                         50, 0,    1);
    meHFEMF_Plus_BXm1Empty         = ibooker.book1D("PfHFEMEtFractionPlus_BXm1Empty",         "HFEMEtFractionPlus prev empty bunch",         50, 0,    1);
    meHFEMF_Minus_BXm1Empty        = ibooker.book1D("PfHFEMEtFractionMinus_BXm1Empty",        "HFEMEtFractionMinus prev empty bunch",        50, 0,    1);
    meHFEMF_Plus_BXm2BXm1Empty     = ibooker.book1D("PfHFEMEtFractionPlus_BXm2BXm1Empty",     "HFEMEtFractionPlus prev empty 2 bunches",     50, 0,    1);
    meHFEMF_Minus_BXm2BXm1Empty    = ibooker.book1D("PfHFEMEtFractionMinus_BXm2BXm1Empty",    "HFEMEtFractionMinus prev empty 2 bunches",    50, 0,    1);
    meHFEMF_Plus_BXm1Filled        = ibooker.book1D("PfHFEMEtFractionPlus_BXm1Filled",        "HFEMEtFractionPlus prev filled bunch",        50, 0,    1);
    meHFEMF_Minus_BXm1Filled       = ibooker.book1D("PfHFEMEtFractionMinus_BXm1Filled",       "HFEMEtFractionMinus prev filled bunch",       50, 0,    1);
    meHFEMF_Plus_BXm2BXm1Filled    = ibooker.book1D("PfHFEMEtFractionPlus_BXm2BXm1Filled",    "HFEMEtFractionPlus prev filled 2 bunches",    50, 0,    1);
    meHFEMF_Minus_BXm2BXm1Filled   = ibooker.book1D("PfHFEMEtFractionMinus_BXm2BXm1Filled",   "HFEMEtFractionMinus prev filled 2 bunches",   50, 0,    1);
    
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfHFEMEtFractionPlus",                   meHFEMF_Plus));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfHFEMEtFractionMinus",                  meHFEMF_Minus));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfHFEMEtFractionPlus_BXm1Empty",         meHFEMF_Plus_BXm1Empty));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfHFEMEtFractionMinus_BXm1Empty",        meHFEMF_Minus_BXm1Empty));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfHFEMEtFractionPlus_BXm2BXm1Empty",     meHFEMF_Plus_BXm2BXm1Empty));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfHFEMEtFractionMinus_BXm2BXm1Empty",    meHFEMF_Minus_BXm2BXm1Empty));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfHFEMEtFractionPlus_BXm1Filled",        meHFEMF_Plus_BXm1Filled));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfHFEMEtFractionMinus_BXm1Filled",       meHFEMF_Minus_BXm1Filled));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfHFEMEtFractionPlus_BXm2BXm1Filled",    meHFEMF_Plus_BXm2BXm1Filled));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfHFEMEtFractionMinus_BXm2BXm1Filled",   meHFEMF_Minus_BXm2BXm1Filled)); 
    
    meMETPhiChargedHadronsBarrel_BXm2BXm1Filled       = ibooker.book1D("METPhiChargedHadronsBarrel_BXm2BXm1Filled",     "METPhi_PFChargedHadronsBarrel prev two bunches filled",       50, -M_PI,M_PI);
    meMETPhiChargedHadronsEndcapPlus_BXm2BXm1Filled   = ibooker.book1D("METPhiChargedHadronsEndcapPlus_BXm2BXm1Filled", "METPhi_PFChargedHadronsEndcapPlus prev two bunches filled",   50, -M_PI,M_PI);
    meMETPhiChargedHadronsEndcapMinus_BXm2BXm1Filled  = ibooker.book1D("METPhiChargedHadronsEndcapMinus_BXm2BXm1Filled","METPhi_PFChargedHadronsEndcapMinus prev two bunches filled",  50, -M_PI,M_PI);
    meMETPhiNeutralHadronsBarrel_BXm2BXm1Filled       = ibooker.book1D("METPhiNeutralHadronsBarrel_BXm2BXm1Filled",     "METPhi_PFNeutralHadronsBarrel prev two bunches filled",       50, -M_PI,M_PI);
    meMETPhiNeutralHadronsEndcapPlus_BXm2BXm1Filled   = ibooker.book1D("METPhiNeutralHadronsEndcapPlus_BXm2BXm1Filled", "METPhi_PFNeutralHadronsEndcapPlus prev two bunches filled",   50, -M_PI,M_PI);
    meMETPhiNeutralHadronsEndcapMinus_BXm2BXm1Filled  = ibooker.book1D("METPhiNeutralHadronsEndcapMinus_BXm2BXm1Filled","METPhi_PFNeutralHadronsEndcapMinus prev two bunches filled",  50, -M_PI,M_PI);
    meMETPhiPhotonsBarrel_BXm2BXm1Filled              = ibooker.book1D("METPhiPhotonsBarrel_BXm2BXm1Filled",            "METPhi_PFPhotonsBarrel prev two bunches filled",              50, -M_PI,M_PI);
    meMETPhiPhotonsEndcapPlus_BXm2BXm1Filled          = ibooker.book1D("METPhiPhotonsEndcapPlus_BXm2BXm1Filled",        "METPhi_PFPhotonsEndcapPlus prev two bunches filled",          50, -M_PI,M_PI);
    meMETPhiPhotonsEndcapMinus_BXm2BXm1Filled         = ibooker.book1D("METPhiPhotonsEndcapMinus_BXm2BXm1Filled",       "METPhi_PFPhotonsEndcapMinus prev two bunches filled",         50, -M_PI,M_PI);
    meMETPhiHFHadronsPlus_BXm2BXm1Filled              = ibooker.book1D("METPhiHFHadronsPlus_BXm2BXm1Filled",            "METPhi_PFHFHadronsPlus prev two bunches filled",              50, -M_PI,M_PI);
    meMETPhiHFHadronsMinus_BXm2BXm1Filled             = ibooker.book1D("METPhiHFHadronsMinus_BXm2BXm1Filled",           "METPhi_PFHFHadronsMinus prev two bunches filled",             50, -M_PI,M_PI);
    meMETPhiHFEGammasPlus_BXm2BXm1Filled              = ibooker.book1D("METPhiHFEGammasPlus_BXm2BXm1Filled",            "METPhi_PFHFEGammasPlus prev two bunches filled",              50, -M_PI,M_PI);
    meMETPhiHFEGammasMinus_BXm2BXm1Filled             = ibooker.book1D("METPhiHFEGammasMinus_BXm2BXm1Filled",           "METPhi_PFHFEGammasMinus prev two bunches filled",             50, -M_PI,M_PI);
    
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"METPhiChargedHadronsBarrel_BXm2BXm1Filled"         ,meMETPhiChargedHadronsBarrel_BXm2BXm1Filled));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"METPhiChargedHadronsEndcapPlus_BXm2BXm1Filled"     ,meMETPhiChargedHadronsEndcapPlus_BXm2BXm1Filled));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"METPhiChargedHadronsEndcapMinus_BXm2BXm1Filled"    ,meMETPhiChargedHadronsEndcapMinus_BXm2BXm1Filled));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"METPhiNeutralHadronsBarrel_BXm2BXm1Filled"         ,meMETPhiNeutralHadronsBarrel_BXm2BXm1Filled));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"METPhiNeutralHadronsEndcapPlus_BXm2BXm1Filled"     ,meMETPhiNeutralHadronsEndcapPlus_BXm2BXm1Filled));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"METPhiNeutralHadronsEndcapMinus_BXm2BXm1Filled"    ,meMETPhiNeutralHadronsEndcapMinus_BXm2BXm1Filled));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"METPhiPhotonsBarrel_BXm2BXm1Filled"                ,meMETPhiPhotonsBarrel_BXm2BXm1Filled));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"METPhiPhotonsEndcapPlus_BXm2BXm1Filled"            ,meMETPhiPhotonsEndcapPlus_BXm2BXm1Filled));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"METPhiPhotonsEndcapMinus_BXm2BXm1Filled"           ,meMETPhiPhotonsEndcapMinus_BXm2BXm1Filled));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"METPhiHFHadronsPlus_BXm2BXm1Filled"                ,meMETPhiHFHadronsPlus_BXm2BXm1Filled));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"METPhiHFHadronsMinus_BXm2BXm1Filled"               ,meMETPhiHFHadronsMinus_BXm2BXm1Filled));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"METPhiHFEGammasPlus_BXm2BXm1Filled"                ,meMETPhiHFEGammasPlus_BXm2BXm1Filled));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"METPhiHFEGammasMinus_BXm2BXm1Filled"               ,meMETPhiHFEGammasMinus_BXm2BXm1Filled));
    
    meMETPhiChargedHadronsBarrel_BXm2BXm1Empty       = ibooker.book1D("METPhiChargedHadronsBarrel_BXm2BXm1Empty",     "METPhi_PFChargedHadronsBarrel prev two bunches empty",       50, -M_PI,M_PI);
    meMETPhiChargedHadronsEndcapPlus_BXm2BXm1Empty   = ibooker.book1D("METPhiChargedHadronsEndcapPlus_BXm2BXm1Empty", "METPhi_PFChargedHadronsEndcapPlus prev two bunches empty",   50, -M_PI,M_PI);
    meMETPhiChargedHadronsEndcapMinus_BXm2BXm1Empty  = ibooker.book1D("METPhiChargedHadronsEndcapMinus_BXm2BXm1Empty","METPhi_PFChargedHadronsEndcapMinus prev two bunches empty",  50, -M_PI,M_PI);
    meMETPhiNeutralHadronsBarrel_BXm2BXm1Empty       = ibooker.book1D("METPhiNeutralHadronsBarrel_BXm2BXm1Empty",     "METPhi_PFNeutralHadronsBarrel prev two bunches empty",       50, -M_PI,M_PI);
    meMETPhiNeutralHadronsEndcapPlus_BXm2BXm1Empty   = ibooker.book1D("METPhiNeutralHadronsEndcapPlus_BXm2BXm1Empty", "METPhi_PFNeutralHadronsEndcapPlus prev two bunches empty",   50, -M_PI,M_PI);
    meMETPhiNeutralHadronsEndcapMinus_BXm2BXm1Empty  = ibooker.book1D("METPhiNeutralHadronsEndcapMinus_BXm2BXm1Empty","METPhi_PFNeutralHadronsEndcapMinus prev two bunches empty",  50, -M_PI,M_PI);
    meMETPhiPhotonsBarrel_BXm2BXm1Empty              = ibooker.book1D("METPhiPhotonsBarrel_BXm2BXm1Empty",            "METPhi_PFPhotonsBarrel prev two bunches empty",              50, -M_PI,M_PI);
    meMETPhiPhotonsEndcapPlus_BXm2BXm1Empty          = ibooker.book1D("METPhiPhotonsEndcapPlus_BXm2BXm1Empty",        "METPhi_PFPhotonsEndcapPlus prev two bunches empty",          50, -M_PI,M_PI);
    meMETPhiPhotonsEndcapMinus_BXm2BXm1Empty         = ibooker.book1D("METPhiPhotonsEndcapMinus_BXm2BXm1Empty",       "METPhi_PFPhotonsEndcapMinus prev two bunches empty",         50, -M_PI,M_PI);
    meMETPhiHFHadronsPlus_BXm2BXm1Empty              = ibooker.book1D("METPhiHFHadronsPlus_BXm2BXm1Empty",            "METPhi_PFHFHadronsPlus prev two bunches empty",              50, -M_PI,M_PI);
    meMETPhiHFHadronsMinus_BXm2BXm1Empty             = ibooker.book1D("METPhiHFHadronsMinus_BXm2BXm1Empty",           "METPhi_PFHFHadronsMinus prev two bunches empty",             50, -M_PI,M_PI);
    meMETPhiHFEGammasPlus_BXm2BXm1Empty              = ibooker.book1D("METPhiHFEGammasPlus_BXm2BXm1Empty",            "METPhi_PFHFEGammasPlus prev two bunches empty",              50, -M_PI,M_PI);
    meMETPhiHFEGammasMinus_BXm2BXm1Empty             = ibooker.book1D("METPhiHFEGammasMinus_BXm2BXm1Empty",           "METPhi_PFHFEGammasMinus prev two bunches empty",             50, -M_PI,M_PI);
    
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"METPhiChargedHadronsBarrel_BXm2BXm1Empty"         ,meMETPhiChargedHadronsBarrel_BXm2BXm1Empty));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"METPhiChargedHadronsEndcapPlus_BXm2BXm1Empty"     ,meMETPhiChargedHadronsEndcapPlus_BXm2BXm1Empty));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"METPhiChargedHadronsEndcapMinus_BXm2BXm1Empty"    ,meMETPhiChargedHadronsEndcapMinus_BXm2BXm1Empty));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"METPhiNeutralHadronsBarrel_BXm2BXm1Empty"         ,meMETPhiNeutralHadronsBarrel_BXm2BXm1Empty));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"METPhiNeutralHadronsEndcapPlus_BXm2BXm1Empty"     ,meMETPhiNeutralHadronsEndcapPlus_BXm2BXm1Empty));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"METPhiNeutralHadronsEndcapMinus_BXm2BXm1Empty"    ,meMETPhiNeutralHadronsEndcapMinus_BXm2BXm1Empty));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"METPhiPhotonsBarrel_BXm2BXm1Empty"                ,meMETPhiPhotonsBarrel_BXm2BXm1Empty));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"METPhiPhotonsEndcapPlus_BXm2BXm1Empty"            ,meMETPhiPhotonsEndcapPlus_BXm2BXm1Empty));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"METPhiPhotonsEndcapMinus_BXm2BXm1Empty"           ,meMETPhiPhotonsEndcapMinus_BXm2BXm1Empty));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"METPhiHFHadronsPlus_BXm2BXm1Empty"                ,meMETPhiHFHadronsPlus_BXm2BXm1Empty));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"METPhiHFHadronsMinus_BXm2BXm1Empty"               ,meMETPhiHFHadronsMinus_BXm2BXm1Empty));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"METPhiHFEGammasPlus_BXm2BXm1Empty"                ,meMETPhiHFEGammasPlus_BXm2BXm1Empty));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"METPhiHFEGammasMinus_BXm2BXm1Empty"               ,meMETPhiHFEGammasMinus_BXm2BXm1Empty));
    
    //histos where one previous bunch was empty/filled
    mePhotonEtFraction_BXm1Empty          = ibooker.book1D("PfPhotonEtFraction_BXm1Empty",        "photonEtFraction() prev empty bunch",         50, 0,    1);
    mePhotonEtFraction_BXm1Filled        = ibooker.book1D("PfPhotonEtFraction_BXm1Filled",      "photonEtFraction() prev filled bunch",         50, 0,    1);
    meNeutralHadronEtFraction_BXm1Empty   = ibooker.book1D("PfNeutralHadronEtFraction_BXm1Empty",   "neutralHadronEtFraction() prev empty bunch",         50, 0,    1);
    meNeutralHadronEtFraction_BXm1Filled = ibooker.book1D("PfNeutralHadronEtFraction_BXm1Filled", "neutralHadronEtFraction() prev filled bunch",         50, 0,    1);
    meChargedHadronEtFraction_BXm1Empty   = ibooker.book1D("PfChargedHadronEtFraction_BXm1Empty",   "chargedHadronEtFraction() prev empty bunch",         50, 0,    1);
    meChargedHadronEtFraction_BXm1Filled = ibooker.book1D("PfChargedHadronEtFraction_BXm1Filled", "chargedHadronEtFraction() prev filled bunch",         50, 0,    1);
    meMET_BXm1Empty                       = ibooker.book1D("MET_BXm1Empty",   "MET prev empty bunch",        200,    0, 1000);
    meMET_BXm1Filled                     = ibooker.book1D("MET_BXm1Filled", "MET prev filled bunch",       200,    0, 1000);
    meSumET_BXm1Empty                     = ibooker.book1D("SumET_BXm1Empty",   "SumET prev empty bunch",    400,    0, 4000);
    meSumET_BXm1Filled                   = ibooker.book1D("SumET_BXm1Filled", "SumET prev filled bunch",   400,    0, 4000);
    
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfPhotonEtFraction_BXm1Empty"       ,mePhotonEtFraction_BXm1Empty));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfPhotonEtFraction_BXm1Filled"     ,mePhotonEtFraction_BXm1Filled));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfNeutralHadronEtFraction_BXm1Empty"  ,meNeutralHadronEtFraction_BXm1Empty));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfNeutralEtFraction_BXm1Filled"      ,meNeutralHadronEtFraction_BXm1Filled));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfChargedHadronEtFraction_BXm1Empty"  ,meChargedHadronEtFraction_BXm1Empty));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfChargedEtFraction_BXm1Filled"      ,meChargedHadronEtFraction_BXm1Filled));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"MET_BXm1Empty"    ,meMET_BXm1Empty));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"MET_BXm1Filled"  ,meMET_BXm1Filled));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"SumET_BXm1Empty"  ,meSumET_BXm1Empty));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"SumET_BXm1Filled",meSumET_BXm1Filled));
    
    meMETPhiChargedHadronsBarrel_BXm1Filled       = ibooker.book1D("METPhiChargedHadronsBarrel_BXm1Filled",     "METPhi_PFChargedHadronsBarrel prev bunch filled",       50, -M_PI,M_PI);
    meMETPhiChargedHadronsEndcapPlus_BXm1Filled   = ibooker.book1D("METPhiChargedHadronsEndcapPlus_BXm1Filled", "METPhi_PFChargedHadronsEndcapPlus prev bunch filled",   50, -M_PI,M_PI);
    meMETPhiChargedHadronsEndcapMinus_BXm1Filled  = ibooker.book1D("METPhiChargedHadronsEndcapMinus_BXm1Filled","METPhi_PFChargedHadronsEndcapMinus prev bunch filled",  50, -M_PI,M_PI);
    meMETPhiNeutralHadronsBarrel_BXm1Filled       = ibooker.book1D("METPhiNeutralHadronsBarrel_BXm1Filled",     "METPhi_PFNeutralHadronsBarrel prev bunch filled",       50, -M_PI,M_PI);
    meMETPhiNeutralHadronsEndcapPlus_BXm1Filled   = ibooker.book1D("METPhiNeutralHadronsEndcapPlus_BXm1Filled", "METPhi_PFNeutralHadronsEndcapPlus prev bunch filled",   50, -M_PI,M_PI);
    meMETPhiNeutralHadronsEndcapMinus_BXm1Filled  = ibooker.book1D("METPhiNeutralHadronsEndcapMinus_BXm1Filled","METPhi_PFNeutralHadronsEndcapMinus prev bunch filled",  50, -M_PI,M_PI);
    meMETPhiPhotonsBarrel_BXm1Filled              = ibooker.book1D("METPhiPhotonsBarrel_BXm1Filled",            "METPhi_PFPhotonsBarrel prev bunch filled",              50, -M_PI,M_PI);
    meMETPhiPhotonsEndcapPlus_BXm1Filled          = ibooker.book1D("METPhiPhotonsEndcapPlus_BXm1Filled",        "METPhi_PFPhotonsEndcapPlus prev bunch filled",          50, -M_PI,M_PI);
    meMETPhiPhotonsEndcapMinus_BXm1Filled         = ibooker.book1D("METPhiPhotonsEndcapMinus_BXm1Filled",       "METPhi_PFPhotonsEndcapMinus prev bunch filled",         50, -M_PI,M_PI);
    meMETPhiHFHadronsPlus_BXm1Filled              = ibooker.book1D("METPhiHFHadronsPlus_BXm1Filled",            "METPhi_PFHFHadronsPlus prev bunch filled",              50, -M_PI,M_PI);
    meMETPhiHFHadronsMinus_BXm1Filled             = ibooker.book1D("METPhiHFHadronsMinus_BXm1Filled",           "METPhi_PFHFHadronsMinus prev bunch filled",             50, -M_PI,M_PI);
    meMETPhiHFEGammasPlus_BXm1Filled              = ibooker.book1D("METPhiHFEGammasPlus_BXm1Filled",            "METPhi_PFHFEGammasPlus prev bunch filled",              50, -M_PI,M_PI);
    meMETPhiHFEGammasMinus_BXm1Filled             = ibooker.book1D("METPhiHFEGammasMinus_BXm1Filled",           "METPhi_PFHFEGammasMinus prev bunch filled",             50, -M_PI,M_PI);
    
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"METPhiChargedHadronsBarrel_BXm1Filled"         ,meMETPhiChargedHadronsBarrel_BXm1Filled));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"METPhiChargedHadronsEndcapPlus_BXm1Filled"     ,meMETPhiChargedHadronsEndcapPlus_BXm1Filled));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"METPhiChargedHadronsEndcapMinus_BXm1Filled"    ,meMETPhiChargedHadronsEndcapMinus_BXm1Filled));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"METPhiNeutralHadronsBarrel_BXm1Filled"         ,meMETPhiNeutralHadronsBarrel_BXm1Filled));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"METPhiNeutralHadronsEndcapPlus_BXm1Filled"     ,meMETPhiNeutralHadronsEndcapPlus_BXm1Filled));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"METPhiNeutralHadronsEndcapMinus_BXm1Filled"    ,meMETPhiNeutralHadronsEndcapMinus_BXm1Filled));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"METPhiPhotonsBarrel_BXm1Filled"                ,meMETPhiPhotonsBarrel_BXm1Filled));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"METPhiPhotonsEndcapPlus_BXm1Filled"            ,meMETPhiPhotonsEndcapPlus_BXm1Filled));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"METPhiPhotonsEndcapMinus_BXm1Filled"           ,meMETPhiPhotonsEndcapMinus_BXm1Filled));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"METPhiHFHadronsPlus_BXm1Filled"                ,meMETPhiHFHadronsPlus_BXm1Filled));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"METPhiHFHadronsMinus_BXm1Filled"               ,meMETPhiHFHadronsMinus_BXm1Filled));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"METPhiHFEGammasPlus_BXm1Filled"                ,meMETPhiHFEGammasPlus_BXm1Filled));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"METPhiHFEGammasMinus_BXm1Filled"               ,meMETPhiHFEGammasMinus_BXm1Filled));
    
    meMETPhiChargedHadronsBarrel_BXm1Empty       = ibooker.book1D("METPhiChargedHadronsBarrel_BXm1Empty",     "METPhi_PFChargedHadronsBarrel prev bunch empty",       50, -M_PI,M_PI);
    meMETPhiChargedHadronsEndcapPlus_BXm1Empty   = ibooker.book1D("METPhiChargedHadronsEndcapPlus_BXm1Empty", "METPhi_PFChargedHadronsEndcapPlus prev bunch empty",   50, -M_PI,M_PI);
    meMETPhiChargedHadronsEndcapMinus_BXm1Empty  = ibooker.book1D("METPhiChargedHadronsEndcapMinus_BXm1Empty","METPhi_PFChargedHadronsEndcapMinus prev bunch empty",  50, -M_PI,M_PI);
    meMETPhiNeutralHadronsBarrel_BXm1Empty       = ibooker.book1D("METPhiNeutralHadronsBarrel_BXm1Empty",     "METPhi_PFNeutralHadronsBarrel prev bunch empty",       50, -M_PI,M_PI);
    meMETPhiNeutralHadronsEndcapPlus_BXm1Empty   = ibooker.book1D("METPhiNeutralHadronsEndcapPlus_BXm1Empty", "METPhi_PFNeutralHadronsEndcapPlus prev bunch empty",   50, -M_PI,M_PI);
    meMETPhiNeutralHadronsEndcapMinus_BXm1Empty  = ibooker.book1D("METPhiNeutralHadronsEndcapMinus_BXm1Empty","METPhi_PFNeutralHadronsEndcapMinus prev bunch empty",  50, -M_PI,M_PI);
    meMETPhiPhotonsBarrel_BXm1Empty              = ibooker.book1D("METPhiPhotonsBarrel_BXm1Empty",            "METPhi_PFPhotonsBarrel prev bunch empty",              50, -M_PI,M_PI);
    meMETPhiPhotonsEndcapPlus_BXm1Empty          = ibooker.book1D("METPhiPhotonsEndcapPlus_BXm1Empty",        "METPhi_PFPhotonsEndcapPlus prev bunch empty",          50, -M_PI,M_PI);
    meMETPhiPhotonsEndcapMinus_BXm1Empty         = ibooker.book1D("METPhiPhotonsEndcapMinus_BXm1Empty",       "METPhi_PFPhotonsEndcapMinus prev bunch empty",         50, -M_PI,M_PI);
    meMETPhiHFHadronsPlus_BXm1Empty              = ibooker.book1D("METPhiHFHadronsPlus_BXm1Empty",            "METPhi_PFHFHadronsPlus prev bunch empty",              50, -M_PI,M_PI);
    meMETPhiHFHadronsMinus_BXm1Empty             = ibooker.book1D("METPhiHFHadronsMinus_BXm1Empty",           "METPhi_PFHFHadronsMinus prev bunch empty",             50, -M_PI,M_PI);
    meMETPhiHFEGammasPlus_BXm1Empty              = ibooker.book1D("METPhiHFEGammasPlus_BXm1Empty",            "METPhi_PFHFEGammasPlus prev bunch empty",              50, -M_PI,M_PI);
    meMETPhiHFEGammasMinus_BXm1Empty             = ibooker.book1D("METPhiHFEGammasMinus_BXm1Empty",           "METPhi_PFHFEGammasMinus prev bunch empty",             50, -M_PI,M_PI);
    
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"METPhiChargedHadronsBarrel_BXm1Empty"         ,meMETPhiChargedHadronsBarrel_BXm1Empty));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"METPhiChargedHadronsEndcapPlus_BXm1Empty"     ,meMETPhiChargedHadronsEndcapPlus_BXm1Empty));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"METPhiChargedHadronsEndcapMinus_BXm1Empty"    ,meMETPhiChargedHadronsEndcapMinus_BXm1Empty));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"METPhiNeutralHadronsBarrel_BXm1Empty"         ,meMETPhiNeutralHadronsBarrel_BXm1Empty));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"METPhiNeutralHadronsEndcapPlus_BXm1Empty"     ,meMETPhiNeutralHadronsEndcapPlus_BXm1Empty));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"METPhiNeutralHadronsEndcapMinus_BXm1Empty"    ,meMETPhiNeutralHadronsEndcapMinus_BXm1Empty));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"METPhiPhotonsBarrel_BXm1Empty"                ,meMETPhiPhotonsBarrel_BXm1Empty));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"METPhiPhotonsEndcapPlus_BXm1Empty"            ,meMETPhiPhotonsEndcapPlus_BXm1Empty));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"METPhiPhotonsEndcapMinus_BXm1Empty"           ,meMETPhiPhotonsEndcapMinus_BXm1Empty));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"METPhiHFHadronsPlus_BXm1Empty"                ,meMETPhiHFHadronsPlus_BXm1Empty));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"METPhiHFHadronsMinus_BXm1Empty"               ,meMETPhiHFHadronsMinus_BXm1Empty));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"METPhiHFEGammasPlus_BXm1Empty"                ,meMETPhiHFEGammasPlus_BXm1Empty));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"METPhiHFEGammasMinus_BXm1Empty"               ,meMETPhiHFEGammasMinus_BXm1Empty));
    
    meMETPhiChargedHadronsBarrel       = ibooker.book1D("METPhiChargedHadronsBarrel",     "METPhi_PFChargedHadronsBarrel",       50, -M_PI,M_PI);
    meMETPhiChargedHadronsEndcapPlus   = ibooker.book1D("METPhiChargedHadronsEndcapPlus", "METPhi_PFChargedHadronsEndcapPlus",   50, -M_PI,M_PI);
    meMETPhiChargedHadronsEndcapMinus  = ibooker.book1D("METPhiChargedHadronsEndcapMinus","METPhi_PFChargedHadronsEndcapMinus",  50, -M_PI,M_PI);
    meMETPhiNeutralHadronsBarrel       = ibooker.book1D("METPhiNeutralHadronsBarrel",     "METPhi_PFNeutralHadronsBarrel",       50, -M_PI,M_PI);
    meMETPhiNeutralHadronsEndcapPlus   = ibooker.book1D("METPhiNeutralHadronsEndcapPlus", "METPhi_PFNeutralHadronsEndcapPlus",   50, -M_PI,M_PI);
    meMETPhiNeutralHadronsEndcapMinus  = ibooker.book1D("METPhiNeutralHadronsEndcapMinus","METPhi_PFNeutralHadronsEndcapMinus",  50, -M_PI,M_PI);
    meMETPhiPhotonsBarrel              = ibooker.book1D("METPhiPhotonsBarrel",            "METPhi_PFPhotonsBarrel",              50, -M_PI,M_PI);
    meMETPhiPhotonsEndcapPlus          = ibooker.book1D("METPhiPhotonsEndcapPlus",        "METPhi_PFPhotonsEndcapPlus",          50, -M_PI,M_PI);
    meMETPhiPhotonsEndcapMinus         = ibooker.book1D("METPhiPhotonsEndcapMinus",       "METPhi_PFPhotonsEndcapMinus",         50, -M_PI,M_PI);
    meMETPhiHFHadronsPlus              = ibooker.book1D("METPhiHFHadronsPlus",            "METPhi_PFHFHadronsPlus",              50, -M_PI,M_PI);
    meMETPhiHFHadronsMinus             = ibooker.book1D("METPhiHFHadronsMinus",           "METPhi_PFHFHadronsMinus",             50, -M_PI,M_PI);
    meMETPhiHFEGammasPlus              = ibooker.book1D("METPhiHFEGammasPlus",            "METPhi_PFHFEGammasPlus",              50, -M_PI,M_PI);
    meMETPhiHFEGammasMinus             = ibooker.book1D("METPhiHFEGammasMinus",           "METPhi_PFHFEGammasMinus",             50, -M_PI,M_PI);
    
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"METPhiChargedHadronsBarrel"         ,meMETPhiChargedHadronsBarrel));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"METPhiChargedHadronsEndcapPlus"     ,meMETPhiChargedHadronsEndcapPlus));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"METPhiChargedHadronsEndcapMinus"    ,meMETPhiChargedHadronsEndcapMinus));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"METPhiNeutralHadronsBarrel"         ,meMETPhiNeutralHadronsBarrel));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"METPhiNeutralHadronsEndcapPlus"     ,meMETPhiNeutralHadronsEndcapPlus));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"METPhiNeutralHadronsEndcapMinus"    ,meMETPhiNeutralHadronsEndcapMinus));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"METPhiPhotonsBarrel"                ,meMETPhiPhotonsBarrel));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"METPhiPhotonsEndcapPlus"            ,meMETPhiPhotonsEndcapPlus));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"METPhiPhotonsEndcapMinus"           ,meMETPhiPhotonsEndcapMinus));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"METPhiHFHadronsPlus"                ,meMETPhiHFHadronsPlus));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"METPhiHFHadronsMinus"               ,meMETPhiHFHadronsMinus));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"METPhiHFEGammasPlus"                ,meMETPhiHFEGammasPlus));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"METPhiHFEGammasMinus"               ,meMETPhiHFEGammasMinus));
      }
      mePhotonEt                = ibooker.book1D("PfPhotonEt",                "photonEt()",                50, 0, 1000);
      meNeutralHadronEt         = ibooker.book1D("PfNeutralHadronEt",         "neutralHadronEt()",         50, 0, 1000);
      meElectronEt              = ibooker.book1D("PfElectronEt",              "electronEt()",              50, 0, 100);
      meChargedHadronEt         = ibooker.book1D("PfChargedHadronEt",         "chargedHadronEt()",         50, 0, 1000);
      meMuonEt                  = ibooker.book1D("PfMuonEt",                  "muonEt()",                  50, 0, 100);
      meHFHadronEt              = ibooker.book1D("PfHFHadronEt",              "HFHadronEt()",              50, 0, 1000);
      meHFEMEt                  = ibooker.book1D("PfHFEMEt",                  "HFEMEt()",                  50, 0, 1000);

      map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfPhotonEt"               ,mePhotonEt));
      map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfNeutralHadronEt"        ,meNeutralHadronEt));
      map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfElectronEt"             ,meElectronEt));
      map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfChargedHadronEt"        ,meChargedHadronEt));
      map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfMuonEt"                 ,meMuonEt));
      map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfHFHadronEt"             ,meHFHadronEt));
      map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfHFEMEt"                 ,meHFEMEt));
      
      mePhotonEt_profile                = ibooker.bookProfile("PfPhotonEt_profile",                "photonEt()",                nbinsPV_, nPVMin_, nPVMax_, 50, 0, 1000);
      meNeutralHadronEt_profile         = ibooker.bookProfile("PfNeutralHadronEt_profile",         "neutralHadronEt()",         nbinsPV_, nPVMin_, nPVMax_, 50, 0, 1000);
      meChargedHadronEt_profile         = ibooker.bookProfile("PfChargedHadronEt_profile",         "chargedHadronEt()",         nbinsPV_, nPVMin_, nPVMax_, 50, 0, 1000);
      meHFHadronEt_profile              = ibooker.bookProfile("PfHFHadronEt_profile",              "HFHadronEt()",              nbinsPV_, nPVMin_, nPVMax_, 50, 0, 1000);
      meHFEMEt_profile                  = ibooker.bookProfile("PfHFEMEt_profile",                  "HFEMEt()",                  nbinsPV_, nPVMin_, nPVMax_, 50, 0, 1000);
      
      mePhotonEt_profile               ->setAxisTitle("nvtx", 1);
      meNeutralHadronEt_profile        ->setAxisTitle("nvtx", 1);
      meChargedHadronEt_profile        ->setAxisTitle("nvtx", 1);
      meHFHadronEt_profile             ->setAxisTitle("nvtx", 1);
      meHFEMEt_profile                 ->setAxisTitle("nvtx", 1);
      
      map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfPhotonEt_profile"                ,mePhotonEt_profile));
      map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfNeutralHadronEt_profile"         ,meNeutralHadronEt_profile));
      map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfChargedHadronEt_profile"         ,meChargedHadronEt_profile));
      map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfHFHadronEt_profile"              ,meHFHadronEt_profile));
      map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfHFEMEt_profile"                  ,meHFEMEt_profile));
      
      if(fillPFCandPlots && fillCandidateMap_histos){
    if(!etaMinPFCand_.empty()){
      etaMinPFCand_.clear();
      etaMaxPFCand_.clear();
      typePFCand_.clear();
      nbinsPFCand_.clear();
      countsPFCand_.clear();
      MExPFCand_.clear();
      MEyPFCand_.clear();
      profilePFCand_x_.clear();
      profilePFCand_y_.clear();
      occupancyPFCand_.clear();
      ptPFCand_.clear();
      multiplicityPFCand_.clear();
      profilePFCand_x_name_.clear();
      profilePFCand_y_name_.clear();
      occupancyPFCand_name_.clear();
      ptPFCand_name_.clear();
      multiplicityPFCand_name_.clear();
    }
    for (std::vector<edm::ParameterSet>::const_iterator v = diagnosticsParameters_.begin(); v!=diagnosticsParameters_.end(); v++) {
      int etaNBinsPFCand = v->getParameter<int>("etaNBins");
      double etaMinPFCand = v->getParameter<double>("etaMin");
      double etaMaxPFCand = v->getParameter<double>("etaMax");
      int phiNBinsPFCand = v->getParameter<int>("phiNBins");
      double phiMinPFCand = v->getParameter<double>("phiMin");
      double phiMaxPFCand = v->getParameter<double>("phiMax");
      int nMinPFCand = v->getParameter<int>("nMin");
      int nMaxPFCand = v->getParameter<int>("nMax");
      int nbinsPFCand = v->getParameter<double>("nbins");
      
      // etaNBins_.push_back(etaNBins);
      etaMinPFCand_.push_back(etaMinPFCand);
      etaMaxPFCand_.push_back(etaMaxPFCand);
      nbinsPFCand_.push_back(nbinsPFCand);
      typePFCand_.push_back(v->getParameter<int>("type"));
      countsPFCand_.push_back(0);
      MExPFCand_.push_back(0.);
      MEyPFCand_.push_back(0.);
      
      profilePFCand_x_.push_back(ibooker.bookProfile(std::string(v->getParameter<std::string>("name")).append("_Px_").c_str(),     std::string(v->getParameter<std::string>("name"))+"Px",       nbinsPFCand, nMinPFCand, nMaxPFCand, -300,300));
      profilePFCand_x_name_.push_back(std::string(v->getParameter<std::string>("name")).append("_Px_").c_str());
      map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+profilePFCand_x_name_[profilePFCand_x_name_.size()-1], profilePFCand_x_[profilePFCand_x_.size()-1]));
      profilePFCand_y_.push_back(ibooker.bookProfile(std::string(v->getParameter<std::string>("name")).append("_Py_").c_str(),     std::string(v->getParameter<std::string>("name"))+"Py",       nbinsPFCand, nMinPFCand, nMaxPFCand, -300,300));
      profilePFCand_y_name_.push_back(std::string(v->getParameter<std::string>("name")).append("_Py_").c_str());
      map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+profilePFCand_y_name_[profilePFCand_y_name_.size()-1], profilePFCand_y_[profilePFCand_y_.size()-1]));
      multiplicityPFCand_.push_back(ibooker.book1D(std::string(v->getParameter<std::string>("name")).append("_multiplicity_").c_str(),std::string(v->getParameter<std::string>("name"))+"multiplicity", nbinsPFCand, nMinPFCand, nMaxPFCand));
      multiplicityPFCand_name_.push_back(std::string(v->getParameter<std::string>("name")).append("_multiplicity_").c_str());
      map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+ multiplicityPFCand_name_[multiplicityPFCand_name_.size()-1], multiplicityPFCand_[multiplicityPFCand_.size()-1]));
      
      //push back names first, we need to create histograms with the name and fill it for endcap plots later
      occupancyPFCand_name_.push_back(std::string(v->getParameter<std::string>("name")).append("_occupancy_").c_str());
      
      ptPFCand_name_.push_back(std::string(v->getParameter<std::string>("name")).append("_pt_").c_str());
      //special booking for endcap plots, merge plots for eminus and eplus into one plot, using variable binning
      //barrel plots have eta-boundaries on minus and plus side
      //parameters start on minus side
      if(etaMinPFCand*etaMaxPFCand<0){//barrel plots, plot only in barrel region
          occupancyPFCand_.push_back(ibooker.book2D(std::string(v->getParameter<std::string>("name")).append("_occupancy_").c_str(),std::string(v->getParameter<std::string>("name"))+"occupancy", etaNBinsPFCand, etaMinPFCand, etaMaxPFCand, phiNBinsPFCand, phiMinPFCand, phiMaxPFCand));
        ptPFCand_.push_back(ibooker.book2D(std::string(v->getParameter<std::string>("name")).append("_pt_").c_str(),std::string(v->getParameter<std::string>("name"))+"pt", etaNBinsPFCand, etaMinPFCand, etaMaxPFCand, phiNBinsPFCand, phiMinPFCand, phiMaxPFCand));
      }else{//endcap or forward plots, 
        const int nbins_eta_endcap=2*(etaNBinsPFCand+1);
        double eta_limits_endcap[nbins_eta_endcap];
        for(int i=0;i<nbins_eta_endcap;i++){
          if(i<(etaNBinsPFCand+1)){
        eta_limits_endcap[i]=etaMinPFCand+i*(etaMaxPFCand-etaMinPFCand)/(double)etaNBinsPFCand;
          }else{
        eta_limits_endcap[i]= -etaMaxPFCand +(i- (etaNBinsPFCand+1) )*(etaMaxPFCand-etaMinPFCand)/(double)etaNBinsPFCand;
          }
        }
        TH2F* hist_temp_occup = new TH2F((occupancyPFCand_name_[occupancyPFCand_name_.size()-1]).c_str(),"occupancy",nbins_eta_endcap-1, eta_limits_endcap, phiNBinsPFCand, phiMinPFCand, phiMaxPFCand);
        occupancyPFCand_.push_back(ibooker.book2D(occupancyPFCand_name_[occupancyPFCand_name_.size()-1],hist_temp_occup));
        TH2F* hist_temp_pt = new TH2F((ptPFCand_name_[ptPFCand_name_.size()-1]).c_str(),"pt",nbins_eta_endcap-1, eta_limits_endcap, phiNBinsPFCand, phiMinPFCand, phiMaxPFCand);
        ptPFCand_.push_back(ibooker.book2D(ptPFCand_name_[ptPFCand_name_.size()-1], hist_temp_pt));
      }
      
      map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+ occupancyPFCand_name_[occupancyPFCand_name_.size()-1], occupancyPFCand_[occupancyPFCand_.size()-1]));
      map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+ ptPFCand_name_[ptPFCand_name_.size()-1], ptPFCand_[ptPFCand_.size()-1]));
    }
 
    mProfileIsoPFChHad_TrackOccupancy=ibooker.book2D("IsoPfChHad_Track_profile","Isolated PFChHadron Tracker_occupancy", 108, -2.7, 2.7, 160, -M_PI,M_PI);
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"IsoPfChHad_Track_profile"        ,mProfileIsoPFChHad_TrackOccupancy));
    mProfileIsoPFChHad_TrackPt=ibooker.book2D("IsoPfChHad_TrackPt","Isolated PFChHadron TrackPt", 108, -2.7, 2.7, 160, -M_PI,M_PI);
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"IsoPfChHad_TrackPt"        ,mProfileIsoPFChHad_TrackPt));
    
    
    mProfileIsoPFChHad_EcalOccupancyCentral  = ibooker.book2D("IsoPfChHad_ECAL_profile_central","IsolatedPFChHa ECAL occupancy (Barrel)", 180, -1.479, 1.479, 125, -M_PI,M_PI);
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"IsoPfChHad_ECAL_profile_central"        ,mProfileIsoPFChHad_EcalOccupancyCentral));
    mProfileIsoPFChHad_EMPtCentral=ibooker.book2D("IsoPfChHad_EMPt_central","Isolated PFChHadron HadPt_central", 180, -1.479, 1.479, 360, -M_PI,M_PI);
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"IsoPfChHad_EMPt_central"        ,mProfileIsoPFChHad_EMPtCentral));
    
    mProfileIsoPFChHad_EcalOccupancyEndcap  = ibooker.book2D("IsoPfChHad_ECAL_profile_endcap","IsolatedPFChHa ECAL occupancy (Endcap)", 110, -2.75, 2.75, 125, -M_PI,M_PI);
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"IsoPfChHad_ECAL_profile_endcap"        ,mProfileIsoPFChHad_EcalOccupancyEndcap));
    mProfileIsoPFChHad_EMPtEndcap=ibooker.book2D("IsoPfChHad_EMPt_endcap","Isolated PFChHadron EMPt_endcap", 110, -2.75, 2.75, 125, -M_PI,M_PI);
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"IsoPfChHad_EMPt_endcap"        ,mProfileIsoPFChHad_EMPtEndcap));
    
    const int nbins_eta=16;
    
    double eta_limits[nbins_eta]={-2.650,-2.500,-2.322,-2.172,-2.043,-1.930,-1.830,-1.740,1.740,1.830,1.930,2.043,2.172,2.3122,2.500,2.650};
    
    TH2F* hist_temp_HCAL =new TH2F("IsoPfChHad_HCAL_profile_endcap","IsolatedPFChHa HCAL occupancy (outer endcap)",nbins_eta-1,eta_limits, 36, -M_PI,M_PI);
    TH2F* hist_tempPt_HCAL=(TH2F*)hist_temp_HCAL->Clone("Isolated PFCHHadron HadPt (outer endcap)");
    
    mProfileIsoPFChHad_HcalOccupancyCentral  = ibooker.book2D("IsoPfChHad_HCAL_profile_central","IsolatedPFChHa HCAL occupancy (Central Part)", 40, -1.740, 1.740, 72, -M_PI,M_PI);
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"IsoPfChHad_HCAL_profile_central"        ,mProfileIsoPFChHad_HcalOccupancyCentral));
    mProfileIsoPFChHad_HadPtCentral=ibooker.book2D("IsoPfChHad_HadPt_central","Isolated PFChHadron HadPt_central", 40, -1.740, 1.740, 72, -M_PI,M_PI);
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"IsoPfChHad_HadPt_central"        ,mProfileIsoPFChHad_HadPtCentral));
    
    mProfileIsoPFChHad_HcalOccupancyEndcap  = ibooker.book2D("IsoPfChHad_HCAL_profile_endcap",hist_temp_HCAL);
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"IsoPfChHad_HCAL_profile_endcap"        ,mProfileIsoPFChHad_HcalOccupancyEndcap));
    mProfileIsoPFChHad_HadPtEndcap=ibooker.book2D("IsoPfChHad_HadPt_endcap",hist_tempPt_HCAL);
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"IsoPfChHad_HadPt_endcap"        ,mProfileIsoPFChHad_HadPtEndcap));
      } 
    }
    
    if(isPFMet_ || isMiniAODMet_){
      mePhotonEtFraction        = ibooker.book1D("PfPhotonEtFraction",        "photonEtFraction()",         50, 0,    1);
      meNeutralHadronEtFraction = ibooker.book1D("PfNeutralHadronEtFraction", "neutralHadronEtFraction()",  50, 0,    1);
      meChargedHadronEtFraction = ibooker.book1D("PfChargedHadronEtFraction", "chargedHadronEtFraction()",  50, 0,    1);
      meHFHadronEtFraction      = ibooker.book1D("PfHFHadronEtFraction",      "HFHadronEtFraction()",       50, 0,    1);
      meHFEMEtFraction          = ibooker.book1D("PfHFEMEtFraction",          "HFEMEtFraction()",           50, 0,    1);
      
      map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfPhotonEtFraction"       ,mePhotonEtFraction));
      map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfNeutralHadronEtFraction",meNeutralHadronEtFraction));
      map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfChargedHadronEtFraction",meChargedHadronEtFraction));
      map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfHFHadronEtFraction"     ,meHFHadronEtFraction));
      map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfHFEMEtFraction"     ,meHFEMEtFraction));
      
      mePhotonEtFraction_profile        = ibooker.bookProfile("PfPhotonEtFraction_profile",        "photonEtFraction()",        nbinsPV_, nPVMin_, nPVMax_,  50, 0,    1);
      meNeutralHadronEtFraction_profile = ibooker.bookProfile("PfNeutralHadronEtFraction_profile", "neutralHadronEtFraction()", nbinsPV_, nPVMin_, nPVMax_,  50, 0,    1);
      meChargedHadronEtFraction_profile = ibooker.bookProfile("PfChargedHadronEtFraction_profile", "chargedHadronEtFraction()", nbinsPV_, nPVMin_, nPVMax_,  50, 0,    1);
      meHFHadronEtFraction_profile      = ibooker.bookProfile("PfHFHadronEtFraction_profile",      "HFHadronEtFraction()",      nbinsPV_, nPVMin_, nPVMax_,  50, 0,    1);
      meHFEMEtFraction_profile          = ibooker.bookProfile("PfHFEMEtFraction_profile",          "HFEMEtFraction()",          nbinsPV_, nPVMin_, nPVMax_,  50, 0,    1);
      mePhotonEtFraction_profile       ->setAxisTitle("nvtx", 1);
      meNeutralHadronEtFraction_profile->setAxisTitle("nvtx", 1);
      meChargedHadronEtFraction_profile->setAxisTitle("nvtx", 1);
      meHFHadronEtFraction_profile     ->setAxisTitle("nvtx", 1);
      meHFEMEtFraction_profile         ->setAxisTitle("nvtx", 1);
      
      map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfPhotonEtFraction_profile"        ,mePhotonEtFraction_profile));
      map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfNeutralHadronEtFraction_profile" ,meNeutralHadronEtFraction_profile));
      map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfChargedHadronEtFraction_profile" ,meChargedHadronEtFraction_profile));
      map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfHFHadronEtFraction_profile"      ,meHFHadronEtFraction_profile));
      map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"PfHFEMEtFraction_profile"          ,meHFEMEtFraction_profile));
    }
    
    if (isCaloMet_){
      if (fill_met_high_level_histo){//now configurable in python file
    hMExLS = ibooker.book2D("MExLS","MEx_LS",200,-200,200,250,0.,2500.);
    hMExLS->setAxisTitle("MEx [GeV]",1);
    hMExLS->setAxisTitle("Lumi Section",2);
    hMExLS->getTH2F()->SetOption("colz");
    hMEyLS = ibooker.book2D("MEyLS","MEy_LS",200,-200,200,250,0.,2500.);
    hMEyLS->setAxisTitle("MEy [GeV]",1);
    hMEyLS->setAxisTitle("Lumi Section",2);
    hMEyLS->getTH2F()->SetOption("colz");
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"MExLS",hMExLS));
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"MEyLS",hMEyLS));
      }
    }
    
    hMETRate      = ibooker.book1D("METRate",        "METRate",        200,    0, 1000);
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>(DirName+"/"+"METRate",hMETRate));
    
    
    ibooker.setCurrentFolder("JetMET");
    lumisecME = ibooker.book1D("lumisec", "lumisec", 2501, -1., 2500.);
    map_of_MEs.insert(std::pair<std::string,MonitorElement*>("JetMET/lumisec",lumisecME));
  }//all non Z plots (restrict Z Plots only for resolution study)
}

void METAnalyzer::dqmBeginRun ( const edm::Run &  iRun, const edm::EventSetup &  iSetup  )

virtual

Initialize run-based parameters.

Reimplemented from DQMEDAnalyzer.

Definition at line 911 of file METAnalyzer.cc.

References gather_cfg::cout, edm::EventSetup::get(), L1GtTriggerMenu::gtTechnicalTriggerMap(), i, relval_steps::menu, Parameters::parameters, edm::ESHandle< class >::product(), and AlCaHLTBitMon_QueryRunRegistry::string.

{
  edm::ESHandle<L1GtTriggerMenu> menuRcd;
  iSetup.get<L1GtTriggerMenuRcd>().get(menuRcd) ;
  const L1GtTriggerMenu* menu = menuRcd.product();
  for (CItAlgo techTrig = menu->gtTechnicalTriggerMap().begin(); techTrig != menu->gtTechnicalTriggerMap().end(); ++techTrig) {
    if ((techTrig->second).algoName() == m_l1algoname_) {
      m_bitAlgTechTrig_=(techTrig->second).algoBitNumber();
      break;
    }
  }

//  std::cout  << "Run " << iRun.run() << " hltconfig.init " 
//             << hltConfig_.init(iRun,iSetup,triggerResultsLabel_.process(),changed_) << " length: "<<hltConfig_.triggerNames().size()<<" changed "<<changed_<<std::endl; 
  bool changed(true);
  if (hltConfig_.init(iRun,iSetup,triggerResultsLabel_.process(),changed)) {
    if (changed) {
      //hltConfig_.dump("ProcessName");
      //hltConfig_.dump("GlobalTag");
      //hltConfig_.dump("TableName");
//      hltConfig_.dump("Streams");
//      hltConfig_.dump("Datasets");
//      hltConfig_.dump("PrescaleTable");
//      hltConfig_.dump("ProcessPSet");
    }
  } else {
    if (verbose_) std::cout << "HLTEventAnalyzerAOD::analyze:"
              << " config extraction failure with process name "
              << triggerResultsLabel_.process() << std::endl;
  }

  allTriggerNames_.clear();
  for (unsigned int i = 0; i<hltConfig_.size();i++) {
    allTriggerNames_.push_back(hltConfig_.triggerName(i));
  }
//  std::cout<<"Length: "<<allTriggerNames_.size()<<std::endl;

  triggerSelectedSubFolders_ = parameters.getParameter<edm::VParameterSet>("triggerSelectedSubFolders");
  for ( std::vector<GenericTriggerEventFlag *>::const_iterator it = triggerFolderEventFlag_.begin(); it!= triggerFolderEventFlag_.end(); it++) {
    int pos = it - triggerFolderEventFlag_.begin();
    if ((*it)->on()) {
      (*it)->initRun( iRun, iSetup );
      if (triggerSelectedSubFolders_[pos].exists(std::string("hltDBKey"))) {
        if ((*it)->expressionsFromDB((*it)->hltDBKey(), iSetup)[0] != "CONFIG_ERROR")
          triggerFolderExpr_[pos] = (*it)->expressionsFromDB((*it)->hltDBKey(), iSetup);
      }
    }
  }
}

void METAnalyzer::endRun ( const edm::Run &  iRun, const edm::EventSetup &  iSetup  )

virtual

Finish up a run.

Reimplemented from edm::stream::EDAnalyzerBase.

Definition at line 962 of file METAnalyzer.cc.

References cmsPerfPublish::DirName, TrackerOfflineValidation_Dqm_cff::dirName, MonitorElement::getRootObject(), MonitorElement::getTH1F(), i, and AlCaHLTBitMon_QueryRunRegistry::string.

{
  
  //
  //--- Check the time length of the Run from the lumi section plots
  

  TH1F* tlumisec;

  MonitorElement *meLumiSec = map_dijet_MEs["aaa"];
  meLumiSec = map_dijet_MEs["JetMET/lumisec"];

  int totlsec=0;
  int totlssecsum=0;
  double totltime=0.;
  if (meLumiSec &&  meLumiSec->getRootObject() ) {
    tlumisec = meLumiSec->getTH1F();
    //check overflow bin (if we have more than 2500 LS in a run)
    //lumisec is filled every time the analyze section is processed
    //we know an LS is present only once in a run: normalize how many events we had on average
    //if lumi fluctuates strongly might be unreliable for overflow bin though
    for (int i=0; i< (tlumisec->GetNbinsX()); i++){
      if (tlumisec->GetBinContent(i)!=0){ 
    totlsec+=1;
    totlssecsum+=tlumisec->GetBinContent(i);
      }
    }
    int num_per_ls=(double)totlssecsum/(double)totlsec;
    totlsec=totlsec+tlumisec->GetBinContent(tlumisec->GetNbinsX()+1)/(double)num_per_ls;
    totltime = double(totlsec*90); // one lumi sec ~ 90 (sec)
  }
  
 if (totltime==0.) totltime=1.;
 
  std::string dirName = FolderName_+metCollectionLabel_.label()+"/";
  //dbe_->setCurrentFolder(dirName);

 

  //below is the original METAnalyzer formulation
  
  for (std::vector<std::string>::const_iterator ic = folderNames_.begin(); ic != folderNames_.end(); ic++) {
    std::string DirName;
    DirName = dirName+*ic;
    makeRatePlot(DirName,totltime);
    for ( std::vector<GenericTriggerEventFlag *>::const_iterator it = triggerFolderEventFlag_.begin(); it!= triggerFolderEventFlag_.end(); it++) {
      int pos = it - triggerFolderEventFlag_.begin();
      if ((*it)->on()) {
    makeRatePlot(DirName+"/"+triggerFolderLabels_[pos],totltime);
      }
    }
  }
  
}

void METAnalyzer::fillMESet	(	const edm::Event &	,
		std::string	,
		const reco::MET &	,
		const pat::MET &	,
		const reco::PFMET &	,
		const reco::CaloMET &	,
		const reco::Candidate::PolarLorentzVector &	,
		std::map< std::string, MonitorElement * > &	,
		std::vector< bool >
	)

Definition at line 1499 of file METAnalyzer.cc.

References i, and AlCaHLTBitMon_QueryRunRegistry::string.

{
  bool bLumiSecPlot=fill_met_high_level_histo;
  bool fillPFCandidatePlots=false;
  if (DirName.find("Cleaned")!=std::string::npos) {
    fillPFCandidatePlots=true;
    fillMonitorElement(iEvent, DirName, std::string(""), met, patmet, pfmet, calomet, zCand, map_of_MEs,bLumiSecPlot,fillPFCandidatePlots,techTriggerCase);
    for (unsigned int i = 0; i<triggerFolderLabels_.size(); i++) {
      fillPFCandidatePlots=false;
      if (triggerFolderDecisions_[i]){  
    fillMonitorElement(iEvent, DirName, triggerFolderLabels_[i], met, patmet, pfmet, calomet, zCand, map_of_MEs,bLumiSecPlot,fillPFCandidatePlots,techTriggerCase);
      }
    }
  }else if (DirName.find("DiJet")!=std::string::npos) {
    fillMonitorElement(iEvent, DirName, std::string(""), met, patmet, pfmet, calomet, zCand, map_of_MEs,bLumiSecPlot,fillPFCandidatePlots,techTriggerCase);
    for (unsigned int i = 0; i<triggerFolderLabels_.size(); i++) {
      if (triggerFolderDecisions_[i])  fillMonitorElement(iEvent, DirName, triggerFolderLabels_[i], met, patmet, pfmet, calomet, zCand, map_of_MEs,bLumiSecPlot,fillPFCandidatePlots,techTriggerCase);
    }
  }else if (DirName.find("ZJets")!=std::string::npos) {
    fillMonitorElement(iEvent, DirName, std::string(""), met, patmet, pfmet, calomet, zCand, map_of_MEs,bLumiSecPlot,fillPFCandidatePlots,techTriggerCase);
  }else{
    fillMonitorElement(iEvent, DirName, std::string(""), met, patmet, pfmet, calomet, zCand, map_of_MEs,bLumiSecPlot,fillPFCandidatePlots,techTriggerCase);
  }
  

}

void METAnalyzer::fillMonitorElement	(	const edm::Event &	,
		std::string	,
		std::string	,
		const reco::MET &	,
		const pat::MET &	,
		const reco::PFMET &	,
		const reco::CaloMET &	,
		const reco::Candidate::PolarLorentzVector &	,
		std::map< std::string, MonitorElement * > &	,
		bool	,
		bool	,
		std::vector< bool >
	)

Definition at line 1528 of file METAnalyzer.cc.

References EnergyCorrector::c, pat::MET::ChargedHadEtFraction(), reco::PFMET::chargedHadronEt(), reco::PFMET::chargedHadronEtFraction(), reco::PFBlockElementCluster::clusterRef(), ECAL, reco::PFMET::electronEt(), bookConverter::elements, reco::PFCandidate::elementsInBlocks(), reco::CaloMET::emEtFraction(), reco::CaloMET::emEtInEB(), reco::CaloMET::emEtInEE(), reco::CaloMET::emEtInHF(), reco::LeafCandidate::et(), reco::LeafCandidate::eta(), reco::CaloMET::etFractionHadronic(), HcalObjRepresent::Fill(), edm::Event::getByToken(), reco::CaloMET::hadEtInHB(), reco::CaloMET::hadEtInHE(), reco::CaloMET::hadEtInHF(), reco::CaloMET::hadEtInHO(), HCAL, reco::PFMET::HFEMEt(), reco::PFMET::HFEMEtFraction(), reco::PFMET::HFHadronEt(), reco::PFMET::HFHadronEtFraction(), i, cuy::ii, j, edm::EventBase::luminosityBlock(), reco::MET::mEtSig(), reco::PFMET::muonEt(), pat::MET::NeutralEMFraction(), pat::MET::NeutralHadEtFraction(), reco::PFMET::neutralHadronEt(), reco::PFMET::neutralHadronEtFraction(), pfLinker_cff::particleFlow, reco::PFCandidate::particleId(), reco::LeafCandidate::phi(), reco::PFMET::photonEt(), reco::PFMET::photonEtFraction(), reco::LeafCandidate::pt(), reco::LeafCandidate::px(), reco::LeafCandidate::py(), reco::PFCandidate::rawEcalEnergy(), reco::PFCandidate::rawHcalEnergy(), edm::OwnVector< T, P >::size(), mathSSE::sqrt(), reco::MET::sumEt(), reco::PFBlockElementTrack::trackRef(), pat::MET::Type6EtFraction(), and pat::MET::Type7EtFraction().

{
  bool do_only_Z_histograms=false;
  if(DirName.find("ZJets")!=std::string::npos) {//do Z plots only
    do_only_Z_histograms=true;
    //\vec{p}_{T}^{Z}+vec{u}_{T}+\vec{MET}=0

    double u_x=-met.px()-zCand.Px();
    double u_y=-met.py()-zCand.Py();

    //protection for VERY special case where Z-Pt==0
    double u_par=0;
    double u_perp=sqrt(u_x*u_x + u_y*u_y);
    double e_Z_x=0;
    double e_Z_y=0;
    if(zCand.Pt()!=0){
      e_Z_x = zCand.Px()/zCand.Pt();
      e_Z_y = zCand.Py()/zCand.Pt();
    }
    u_par=u_x*e_Z_x+u_y*e_Z_y;
    u_perp= -e_Z_y * u_x + e_Z_x*u_y;    
    
    meZJets_u_par = map_of_MEs[DirName+"/"+"u_parallel_Z_inc"];     if (  meZJets_u_par         && meZJets_u_par->getRootObject())   meZJets_u_par ->Fill(u_par);
    if(zCand.Pt()<15){
      meZJets_u_par_ZPt_0_15  = map_of_MEs[DirName+"/"+"u_parallel_ZPt_0_15"];     if (  meZJets_u_par_ZPt_0_15         && meZJets_u_par_ZPt_0_15->getRootObject())   meZJets_u_par_ZPt_0_15 ->Fill(u_par);
    }else if(zCand.Pt()<30){
      meZJets_u_par_ZPt_15_30  = map_of_MEs[DirName+"/"+"u_parallel_ZPt_15_30"];     if (  meZJets_u_par_ZPt_15_30         && meZJets_u_par_ZPt_15_30->getRootObject())   meZJets_u_par_ZPt_15_30 ->Fill(u_par);
    }else if(zCand.Pt()<55){
      meZJets_u_par_ZPt_30_55  = map_of_MEs[DirName+"/"+"u_parallel_ZPt_30_55"];     if (  meZJets_u_par_ZPt_30_55         && meZJets_u_par_ZPt_30_55->getRootObject())   meZJets_u_par_ZPt_30_55 ->Fill(u_par);
    }else if(zCand.Pt()<75){
      meZJets_u_par_ZPt_55_75  = map_of_MEs[DirName+"/"+"u_parallel_ZPt_55_75"];     if (  meZJets_u_par_ZPt_55_75         && meZJets_u_par_ZPt_55_75->getRootObject())   meZJets_u_par_ZPt_55_75 ->Fill(u_par);
    }else if(zCand.Pt()<150){
      meZJets_u_par_ZPt_75_150  = map_of_MEs[DirName+"/"+"u_parallel_ZPt_75_150"];     if (  meZJets_u_par_ZPt_75_150         && meZJets_u_par_ZPt_75_150->getRootObject())   meZJets_u_par_ZPt_75_150 ->Fill(u_par);
    }else if(zCand.Pt()<290){
      meZJets_u_par_ZPt_150_290  = map_of_MEs[DirName+"/"+"u_parallel_ZPt_150_290"];     if (  meZJets_u_par_ZPt_150_290         && meZJets_u_par_ZPt_150_290->getRootObject())   meZJets_u_par_ZPt_150_290 ->Fill(u_par);
    }else{
      meZJets_u_par_ZPt_290  = map_of_MEs[DirName+"/"+"u_parallel_ZPt_290"];     if (  meZJets_u_par_ZPt_290         && meZJets_u_par_ZPt_290->getRootObject())   meZJets_u_par_ZPt_290 ->Fill(u_par);
    }

   meZJets_u_perp = map_of_MEs[DirName+"/"+"u_perp_Z_inc"];     if (  meZJets_u_perp         && meZJets_u_perp->getRootObject())   meZJets_u_perp ->Fill(u_perp);
    if(zCand.Pt()<15){
      meZJets_u_perp_ZPt_0_15  = map_of_MEs[DirName+"/"+"u_perp_ZPt_0_15"];     if (  meZJets_u_perp_ZPt_0_15         && meZJets_u_perp_ZPt_0_15->getRootObject())   meZJets_u_perp_ZPt_0_15 ->Fill(u_perp);
    }else if(zCand.Pt()<30){
      meZJets_u_perp_ZPt_15_30  = map_of_MEs[DirName+"/"+"u_perp_ZPt_15_30"];     if (  meZJets_u_perp_ZPt_15_30         && meZJets_u_perp_ZPt_15_30->getRootObject())   meZJets_u_perp_ZPt_15_30 ->Fill(u_perp);
    }else if(zCand.Pt()<55){
      meZJets_u_perp_ZPt_30_55  = map_of_MEs[DirName+"/"+"u_perp_ZPt_30_55"];     if (  meZJets_u_perp_ZPt_30_55         && meZJets_u_perp_ZPt_30_55->getRootObject())   meZJets_u_perp_ZPt_30_55 ->Fill(u_perp);
    }else if(zCand.Pt()<75){
      meZJets_u_perp_ZPt_55_75  = map_of_MEs[DirName+"/"+"u_perp_ZPt_55_75"];     if (  meZJets_u_perp_ZPt_55_75         && meZJets_u_perp_ZPt_55_75->getRootObject())   meZJets_u_perp_ZPt_55_75 ->Fill(u_perp);
    }else if(zCand.Pt()<150){
      meZJets_u_perp_ZPt_75_150  = map_of_MEs[DirName+"/"+"u_perp_ZPt_75_150"];     if (  meZJets_u_perp_ZPt_75_150         && meZJets_u_perp_ZPt_75_150->getRootObject())   meZJets_u_perp_ZPt_75_150 ->Fill(u_perp);
    }else if(zCand.Pt()<290){
      meZJets_u_perp_ZPt_150_290  = map_of_MEs[DirName+"/"+"u_perp_ZPt_150_290"];     if (  meZJets_u_perp_ZPt_150_290         && meZJets_u_perp_ZPt_150_290->getRootObject())   meZJets_u_perp_ZPt_150_290 ->Fill(u_perp);
    }else{
      meZJets_u_perp_ZPt_290  = map_of_MEs[DirName+"/"+"u_perp_ZPt_290"];     if (  meZJets_u_perp_ZPt_290         && meZJets_u_perp_ZPt_290->getRootObject())   meZJets_u_perp_ZPt_290 ->Fill(u_perp);
    }
 

  }
  if(!do_only_Z_histograms){
    // Reconstructed MET Information
    double SumET  = met.sumEt();
    double METSig = met.mEtSig();
    //double Ez     = met.e_longitudinal();
    double MET    = met.pt();
    double MEx    = met.px();
    double MEy    = met.py();
    double METPhi = met.phi();
    //
    int myLuminosityBlock;
    myLuminosityBlock = iEvent.luminosityBlock();
    //
    
    if (subFolderName!=""){
      DirName = DirName +"/"+subFolderName;
    }
    
    hTrigger = map_of_MEs[DirName+"/triggerResults"];
    if (hTrigger       && hTrigger->getRootObject()) {
      for (unsigned int i = 0; i<allTriggerDecisions_.size();i++){ 
    if(i<(unsigned int)hTrigger->getNbinsX()){
      hTrigger->Fill(i + .5, allTriggerDecisions_[i]);
    }
      }
    }
    
    
    hMEx    = map_of_MEs[DirName+"/"+"MEx"];     if (hMEx           && hMEx->getRootObject())    hMEx          ->Fill(MEx);
    hMEy    = map_of_MEs[DirName+"/"+"MEy"];     if (hMEy           && hMEy->getRootObject())     hMEy          ->Fill(MEy);
    hMET    = map_of_MEs[DirName+"/"+"MET"];     if (hMET           && hMET->getRootObject())     hMET          ->Fill(MET);
    hMETPhi = map_of_MEs[DirName+"/"+"METPhi"];  if (hMETPhi        && hMETPhi->getRootObject())  hMETPhi       ->Fill(METPhi);
    hSumET  = map_of_MEs[DirName+"/"+"SumET"];   if (hSumET         && hSumET->getRootObject())   hSumET        ->Fill(SumET);
    hMETSig = map_of_MEs[DirName+"/"+"METSig"];  if (hMETSig        && hMETSig->getRootObject())  hMETSig       ->Fill(METSig);
    hMET_logx   = map_of_MEs[DirName+"/"+"MET_logx"];    if (hMET_logx      && hMET_logx->getRootObject())    hMET_logx->Fill(log10(MET));
    hSumET_logx = map_of_MEs[DirName+"/"+"SumET_logx"];  if (hSumET_logx    && hSumET_logx->getRootObject())  hSumET_logx->Fill(log10(SumET));
    
    // Fill NPV profiles
      //--------------------------------------------------------------------------
    meMEx_profile   = map_of_MEs[DirName + "/MEx_profile"];
    meMEy_profile   = map_of_MEs[DirName + "/MEy_profile"];
    meMET_profile   = map_of_MEs[DirName + "/MET_profile"];
    meSumET_profile = map_of_MEs[DirName + "/SumET_profile"];
    
    if (meMEx_profile   && meMEx_profile  ->getRootObject()) meMEx_profile  ->Fill(numPV_, MEx);
    if (meMEy_profile   && meMEy_profile  ->getRootObject()) meMEy_profile  ->Fill(numPV_, MEy);
    if (meMET_profile   && meMET_profile  ->getRootObject()) meMET_profile  ->Fill(numPV_, MET);
    if (meSumET_profile && meSumET_profile->getRootObject()) meSumET_profile->Fill(numPV_, SumET);

    if(isCaloMet_){
      //const reco::CaloMETCollection *calometcol = calometcoll.product();
      //const reco::CaloMET *calomet;
      //calomet = &(calometcol->front());
      
      double caloEtFractionHadronic = calomet.etFractionHadronic();
      double caloEmEtFraction       = calomet.emEtFraction();
      
      double caloHadEtInHB = calomet.hadEtInHB();
      double caloHadEtInHO = calomet.hadEtInHO();
      double caloHadEtInHE = calomet.hadEtInHE();
      double caloHadEtInHF = calomet.hadEtInHF();
      double caloEmEtInEB  = calomet.emEtInEB();
      double caloEmEtInEE  = calomet.emEtInEE();
      double caloEmEtInHF  = calomet.emEtInHF();
      
      hCaloHadEtInHB = map_of_MEs[DirName+"/"+"CaloHadEtInHB"];  if (hCaloHadEtInHB  &&  hCaloHadEtInHB->getRootObject())  hCaloHadEtInHB->Fill(caloHadEtInHB);
      hCaloHadEtInHO = map_of_MEs[DirName+"/"+"CaloHadEtInHO"];  if (hCaloHadEtInHO  &&  hCaloHadEtInHO->getRootObject())  hCaloHadEtInHO->Fill(caloHadEtInHO);
      hCaloHadEtInHE = map_of_MEs[DirName+"/"+"CaloHadEtInHE"];  if (hCaloHadEtInHE  &&  hCaloHadEtInHE->getRootObject())  hCaloHadEtInHE->Fill(caloHadEtInHE);
      hCaloHadEtInHF = map_of_MEs[DirName+"/"+"CaloHadEtInHF"];  if (hCaloHadEtInHF  &&  hCaloHadEtInHF->getRootObject())  hCaloHadEtInHF->Fill(caloHadEtInHF);
      hCaloEmEtInEB  = map_of_MEs[DirName+"/"+"CaloEmEtInEB"];   if (hCaloEmEtInEB   &&  hCaloEmEtInEB->getRootObject())   hCaloEmEtInEB->Fill(caloEmEtInEB);
      hCaloEmEtInEE  = map_of_MEs[DirName+"/"+"CaloEmEtInEE"];   if (hCaloEmEtInEE   &&  hCaloEmEtInEE->getRootObject())   hCaloEmEtInEE->Fill(caloEmEtInEE);
      hCaloEmEtInHF  = map_of_MEs[DirName+"/"+"CaloEmEtInHF"];   if (hCaloEmEtInHF   &&  hCaloEmEtInHF->getRootObject())   hCaloEmEtInHF->Fill(caloEmEtInHF);

      hCaloMETPhi020 = map_of_MEs[DirName+"/"+"CaloMETPhi020"];    if (MET> 20. && hCaloMETPhi020  &&  hCaloMETPhi020->getRootObject()) { hCaloMETPhi020->Fill(METPhi);}


      hCaloEtFractionHadronic = map_of_MEs[DirName+"/"+"CaloEtFractionHadronic"]; if (hCaloEtFractionHadronic && hCaloEtFractionHadronic->getRootObject())  hCaloEtFractionHadronic->Fill(caloEtFractionHadronic);
      hCaloEmEtFraction       = map_of_MEs[DirName+"/"+"CaloEmEtFraction"];       if (hCaloEmEtFraction       && hCaloEmEtFraction->getRootObject())        hCaloEmEtFraction->Fill(caloEmEtFraction);
      hCaloEmEtFraction020 = map_of_MEs[DirName+"/"+"CaloEmEtFraction020"];       if (MET> 20.  &&  hCaloEmEtFraction020    && hCaloEmEtFraction020->getRootObject()) hCaloEmEtFraction020->Fill(caloEmEtFraction);
      //if (metCollectionLabel_.label() == "corMetGlobalMuons" ) {
    
      //for( reco::MuonCollection::const_iterator muonit = muonHandle_->begin(); muonit != muonHandle_->end(); muonit++ ) {
      //  const reco::TrackRef siTrack = muonit->innerTrack();
      //  hCalomuPt    = map_of_MEs[DirName+"/"+"CalomuonPt"];  
      //  if (hCalomuPt    && hCalomuPt->getRootObject())   hCalomuPt->Fill( muonit->p4().pt() );
      //  hCalomuEta   = map_of_MEs[DirName+"/"+"CalomuonEta"];    if (hCalomuEta   && hCalomuEta->getRootObject())    hCalomuEta->Fill( muonit->p4().eta() );
      //  hCalomuNhits = map_of_MEs[DirName+"/"+"CalomuonNhits"];  if (hCalomuNhits && hCalomuNhits->getRootObject())  hCalomuNhits->Fill( siTrack.isNonnull() ? siTrack->numberOfValidHits() : -999 );
      //  hCalomuChi2  = map_of_MEs[DirName+"/"+"CalomuonNormalizedChi2"];   if (hCalomuChi2  && hCalomuChi2->getRootObject())   hCalomuChi2->Fill( siTrack.isNonnull() ? siTrack->chi2()/siTrack->ndof() : -999 );
      //  double d0 = siTrack.isNonnull() ? -1 * siTrack->dxy( beamSpot_) : -999;
      //  hCalomuD0    = map_of_MEs[DirName+"/"+"CalomuonD0"];     if (hCalomuD0    && hCalomuD0->getRootObject())  hCalomuD0->Fill( d0 );
      //}
    
      //const unsigned int nMuons = muonHandle_->size();
      //for( unsigned int mus = 0; mus < nMuons; mus++ ) {
      //  reco::MuonRef muref( muonHandle_, mus);
      //  reco::MuonMETCorrectionData muCorrData = (*tcMetValueMapHandle_)[muref];
      //  hCaloMExCorrection      = map_of_MEs[DirName+"/"+"CaloMExCorrection"];       if (hCaloMExCorrection      && hCaloMExCorrection->getRootObject())       hCaloMExCorrection-> Fill(muCorrData.corrY());
      //  hCaloMEyCorrection      = map_of_MEs[DirName+"/"+"CaloMEyCorrection"];       if (hCaloMEyCorrection      && hCaloMEyCorrection->getRootObject())       hCaloMEyCorrection-> Fill(muCorrData.corrX());
      //  hCaloMuonCorrectionFlag = map_of_MEs[DirName+"/"+"CaloMuonCorrectionFlag"];  if (hCaloMuonCorrectionFlag && hCaloMuonCorrectionFlag->getRootObject())  hCaloMuonCorrectionFlag-> Fill(muCorrData.type());
      //}
      //} 
    }

    if(isPFMet_){

      if(fillPFCandidatePlots && fillCandidateMap_histos){
    for (unsigned int i=0;i<countsPFCand_.size();i++) {
      countsPFCand_[i]=0;
      MExPFCand_[i]=0.;
      MEyPFCand_[i]=0.;
    }
    
    // typedef std::vector<reco::PFCandidate> pfCand;
    edm::Handle<std::vector<reco::PFCandidate> > particleFlow;
    iEvent.getByToken(pflowToken_, particleFlow);

    float pt_sum_CHF_Barrel=0;
    float pt_sum_CHF_Endcap_plus=0;
    float pt_sum_CHF_Endcap_minus=0;
    float pt_sum_NHF_Barrel=0;
    float pt_sum_NHF_Endcap_plus=0;
    float pt_sum_NHF_Endcap_minus=0;
    float pt_sum_PhF_Barrel=0;
    float pt_sum_PhF_Endcap_plus=0;
    float pt_sum_PhF_Endcap_minus=0;
    float pt_sum_HFH_plus=0;
    float pt_sum_HFH_minus=0;
    float pt_sum_HFE_plus=0;
    float pt_sum_HFE_minus=0;


    float px_chargedHadronsBarrel=0;
    float py_chargedHadronsBarrel=0;
    float px_chargedHadronsEndcapPlus=0;
    float py_chargedHadronsEndcapPlus=0;
    float px_chargedHadronsEndcapMinus=0;
    float py_chargedHadronsEndcapMinus=0;
    float px_neutralHadronsBarrel=0;
    float py_neutralHadronsBarrel=0;
    float px_neutralHadronsEndcapPlus=0;
    float py_neutralHadronsEndcapPlus=0;
    float px_neutralHadronsEndcapMinus=0;
    float py_neutralHadronsEndcapMinus=0;
    float px_PhotonsBarrel=0;
    float py_PhotonsBarrel=0;
    float px_PhotonsEndcapPlus=0;
    float py_PhotonsEndcapPlus=0;
    float px_PhotonsEndcapMinus=0;
    float py_PhotonsEndcapMinus=0;
    float px_HFHadronsPlus=0;
    float py_HFHadronsPlus=0;
    float px_HFHadronsMinus=0;
    float py_HFHadronsMinus=0;
    float px_HFEGammasPlus=0;
    float py_HFEGammasPlus=0;
    float px_HFEGammasMinus=0;
    float py_HFEGammasMinus=0;
    for (unsigned int i = 0; i < particleFlow->size(); i++) {
      const reco::PFCandidate& c = particleFlow->at(i);
      if(c.particleId()==1){//charged hadrons
        //endcap minus
        if(c.eta()>(-3.0)&& c.eta()<(-1.392)){
          px_chargedHadronsEndcapMinus-=c.px();
          py_chargedHadronsEndcapMinus-=c.py();
          pt_sum_CHF_Endcap_minus+=c.et();
        }else if(c.eta()>=(-1.392)&& c.eta()<=1.392){//barrel
          px_chargedHadronsBarrel-=c.px();
          py_chargedHadronsBarrel-=c.py();
          pt_sum_CHF_Barrel+=c.et();
        }else if(c.eta()>1.392 && c.eta()<3.0){//endcap plus
          px_chargedHadronsEndcapPlus-=c.px();
          py_chargedHadronsEndcapPlus-=c.py();
          pt_sum_CHF_Endcap_plus+=c.et();
        }
      }
      if(c.particleId()==5){//neutral hadrons
        //endcap minus
        if(c.eta()>(-3.0)&& c.eta()<(-1.392)){
          px_neutralHadronsEndcapMinus-=c.px();
          py_neutralHadronsEndcapMinus-=c.py();
          pt_sum_NHF_Endcap_minus+=c.et();
        }else if(c.eta()>=(-1.392)&& c.eta()<=1.392){
          px_neutralHadronsBarrel-=c.px();
          py_neutralHadronsBarrel-=c.py();
          pt_sum_NHF_Barrel+=c.et();
        }else if(c.eta()>1.392 && c.eta()<3.0){
          px_neutralHadronsEndcapPlus-=c.px();
          py_neutralHadronsEndcapPlus-=c.py();
          pt_sum_NHF_Endcap_plus+=c.et();
        }
      }
      if(c.particleId()==4){//photons
        //endcap minus
        if(c.eta()>(-3.0)&& c.eta()<(-1.479)){
          px_PhotonsEndcapMinus-=c.px();
          py_PhotonsEndcapMinus-=c.py();
          pt_sum_PhF_Endcap_minus+=c.et();
        }else if(c.eta()>=(-1.479)&& c.eta()<=1.479){
          px_PhotonsBarrel-=c.px();
          py_PhotonsBarrel-=c.py();
          pt_sum_PhF_Barrel+=c.et();
        }else if(c.eta()>1.479 && c.eta()<3.0){
          px_PhotonsEndcapPlus-=c.px();
          py_PhotonsEndcapPlus-=c.py();
          pt_sum_PhF_Endcap_plus+=c.et();
        }
      }
      if(c.particleId()==6){//HFHadrons
        //forward minus
        if(c.eta()>(-5.20)&& c.eta()<-2.901376){
          pt_sum_HFH_minus+=c.et();
          px_HFHadronsMinus-=c.px();
          py_HFHadronsMinus-=c.py();
        }else if(c.eta()>2.901376 && c.eta()<5.20){//forward plus
          px_HFHadronsPlus-=c.px();
          py_HFHadronsPlus-=c.py();
          pt_sum_HFH_plus+=c.et();
        }
      }
      if(c.particleId()==7){//HFEGammas
        //forward minus
        if(c.eta()>(-5.20)&& c.eta()<-2.901376){
          pt_sum_HFE_minus+=c.et();
          px_HFEGammasMinus-=c.px();
          py_HFEGammasMinus-=c.py();
        }else if(c.eta()>2.901376 && c.eta()<5.20){//forward plus
          px_HFEGammasPlus-=c.px();
          py_HFEGammasPlus-=c.py();
          pt_sum_HFE_plus+=c.et();
        }
      }
      for (unsigned int j=0; j<typePFCand_.size(); j++) {
        if (c.particleId()==typePFCand_[j]) {
          //second check for endcap, if inside barrel Max and Min symmetric around 0
          if ( ((c.eta()>etaMinPFCand_[j]) && (c.eta()<etaMaxPFCand_[j])) || ((c.eta()> (-etaMaxPFCand_[j])) && (c.eta()< (-etaMinPFCand_[j]))) ){
        countsPFCand_[j]+=1;
        MExPFCand_[j]-=c.px();
        MEyPFCand_[j]-=c.py();
        ptPFCand_[j]   = map_of_MEs[DirName + "/"+ptPFCand_name_[j]];
        if ( ptPFCand_[j]       && ptPFCand_[j]->getRootObject()) ptPFCand_[j]->Fill(c.eta(), c.phi(), c.pt());
        occupancyPFCand_[j]   = map_of_MEs[DirName + "/"+occupancyPFCand_name_[j]];
        if ( occupancyPFCand_[j]       && occupancyPFCand_[j]->getRootObject()) occupancyPFCand_[j]->Fill(c.eta(), c.phi());
          }
        }
      }
      //fill quantities for isolated charged hadron quantities
      //only for charged hadrons
      if ( c.particleId() == 1 &&  c.pt() > ptMinCand_ ){
        // At least 1 GeV in HCAL
        double ecalRaw = c.rawEcalEnergy();
        double hcalRaw = c.rawHcalEnergy();
        if ( (ecalRaw + hcalRaw) > hcalMin_ ){
          const PFCandidate::ElementsInBlocks& theElements = c.elementsInBlocks();
          if( theElements.empty() ) continue;
          unsigned int iTrack=-999;
          std::vector<unsigned int> iECAL;// =999;
          std::vector<unsigned int> iHCAL;// =999;
          const reco::PFBlockRef blockRef = theElements[0].first;
          const edm::OwnVector<reco::PFBlockElement>& elements = blockRef->elements();
          // Check that there is only one track in the block.
          unsigned int nTracks = 0;
          for(unsigned int iEle=0; iEle<elements.size(); iEle++) {           
        // Find the tracks in the block
        PFBlockElement::Type type = elements[iEle].type();
        switch( type ) {
        case PFBlockElement::TRACK:
          iTrack = iEle;
          nTracks++;
          break;
        case PFBlockElement::ECAL:
          iECAL.push_back( iEle );
          break;
        case PFBlockElement::HCAL:
          iHCAL.push_back( iEle );
          break;
        default:
          continue;
        } 
          }
          if ( nTracks == 1 ){
        // Characteristics of the track
        const reco::PFBlockElementTrack& et = dynamic_cast<const reco::PFBlockElementTrack &>( elements[iTrack] );
        mProfileIsoPFChHad_TrackOccupancy=map_of_MEs[DirName+"/"+"IsoPfChHad_Track_profile"];
        if (mProfileIsoPFChHad_TrackOccupancy  && mProfileIsoPFChHad_TrackOccupancy->getRootObject()) mProfileIsoPFChHad_TrackOccupancy->Fill(et.trackRef()->eta(),et.trackRef()->phi());
        mProfileIsoPFChHad_TrackPt=map_of_MEs[DirName+"/"+"IsoPfChHad_TrackPt"];
        if (mProfileIsoPFChHad_TrackPt  && mProfileIsoPFChHad_TrackPt->getRootObject()) mProfileIsoPFChHad_TrackPt->Fill(et.trackRef()->eta(),et.trackRef()->phi(),et.trackRef()->pt());
        //ECAL element
        for(unsigned int ii=0;ii<iECAL.size();ii++) {
          const reco::PFBlockElementCluster& eecal = dynamic_cast<const reco::PFBlockElementCluster &>( elements[ iECAL[ii] ] );
          if(fabs(eecal.clusterRef()->eta())<1.479){
            mProfileIsoPFChHad_EcalOccupancyCentral=map_of_MEs[DirName+"/"+"IsoPfChHad_ECAL_profile_central"];
            if (mProfileIsoPFChHad_EcalOccupancyCentral  && mProfileIsoPFChHad_EcalOccupancyCentral->getRootObject()) mProfileIsoPFChHad_EcalOccupancyCentral->Fill(eecal.clusterRef()->eta(),eecal.clusterRef()->phi());
            mProfileIsoPFChHad_EMPtCentral=map_of_MEs[DirName+"/"+"IsoPfChHad_EMPt_central"];
            if (mProfileIsoPFChHad_EMPtCentral  && mProfileIsoPFChHad_EMPtCentral->getRootObject()) mProfileIsoPFChHad_EMPtCentral->Fill(eecal.clusterRef()->eta(),eecal.clusterRef()->phi(),eecal.clusterRef()->pt());
          }else{
            mProfileIsoPFChHad_EcalOccupancyEndcap=map_of_MEs[DirName+"/"+"IsoPfChHad_ECAL_profile_endcap"];
            if (mProfileIsoPFChHad_EcalOccupancyEndcap  && mProfileIsoPFChHad_EcalOccupancyEndcap->getRootObject()) mProfileIsoPFChHad_EcalOccupancyEndcap->Fill(eecal.clusterRef()->eta(),eecal.clusterRef()->phi());
            mProfileIsoPFChHad_EMPtEndcap=map_of_MEs[DirName+"/"+"IsoPfChHad_EMPt_endcap"];
            if (mProfileIsoPFChHad_EMPtEndcap  && mProfileIsoPFChHad_EMPtEndcap->getRootObject()) mProfileIsoPFChHad_EMPtEndcap->Fill(eecal.clusterRef()->eta(),eecal.clusterRef()->phi(),eecal.clusterRef()->pt());
          }
        }
        
        //HCAL element
        for(unsigned int ii=0;ii<iHCAL.size();ii++) {
          const reco::PFBlockElementCluster& ehcal = dynamic_cast<const reco::PFBlockElementCluster &>( elements[ iHCAL[ii] ] );
          if(fabs(ehcal.clusterRef()->eta())<1.740){
            mProfileIsoPFChHad_HcalOccupancyCentral=map_of_MEs[DirName+"/"+"IsoPfChHad_HCAL_profile_central"];
            if (mProfileIsoPFChHad_HcalOccupancyCentral  && mProfileIsoPFChHad_HcalOccupancyCentral->getRootObject()) mProfileIsoPFChHad_HcalOccupancyCentral->Fill(ehcal.clusterRef()->eta(),ehcal.clusterRef()->phi());
            mProfileIsoPFChHad_HadPtCentral=map_of_MEs[DirName+"/"+"IsoPfChHad_HadPt_central"];
            if (mProfileIsoPFChHad_HadPtCentral  && mProfileIsoPFChHad_HadPtCentral->getRootObject()) mProfileIsoPFChHad_HadPtCentral->Fill(ehcal.clusterRef()->eta(),ehcal.clusterRef()->phi(),ehcal.clusterRef()->pt());
          }else{
            mProfileIsoPFChHad_HcalOccupancyEndcap=map_of_MEs[DirName+"/"+"IsoPfChHad_HCAL_profile_endcap"];
            if (mProfileIsoPFChHad_HcalOccupancyEndcap  && mProfileIsoPFChHad_HcalOccupancyEndcap->getRootObject()) mProfileIsoPFChHad_HcalOccupancyEndcap->Fill(ehcal.clusterRef()->eta(),ehcal.clusterRef()->phi());
            mProfileIsoPFChHad_HadPtEndcap=map_of_MEs[DirName+"/"+"IsoPfChHad_HadPt_endcap"];
            if (mProfileIsoPFChHad_HadPtEndcap  && mProfileIsoPFChHad_HadPtEndcap->getRootObject()) mProfileIsoPFChHad_HadPtEndcap->Fill(ehcal.clusterRef()->eta(),ehcal.clusterRef()->phi(),ehcal.clusterRef()->pt());
          } 
        }
          }
        }
      }
    }

    for (unsigned int j=0; j<countsPFCand_.size(); j++) {
      profilePFCand_x_[j]   = map_of_MEs[DirName + "/"+profilePFCand_x_name_[j]];
      if(profilePFCand_x_[j] && profilePFCand_x_[j]->getRootObject())   profilePFCand_x_[j]->Fill(countsPFCand_[j], MExPFCand_[j]);
      profilePFCand_y_[j]   = map_of_MEs[DirName + "/"+profilePFCand_y_name_[j]];
      if(profilePFCand_y_[j] && profilePFCand_y_[j]->getRootObject())   profilePFCand_y_[j]->Fill(countsPFCand_[j], MEyPFCand_[j]);
      multiplicityPFCand_[j]   = map_of_MEs[DirName + "/"+multiplicityPFCand_name_[j]];
      if(multiplicityPFCand_[j] && multiplicityPFCand_[j]->getRootObject()) multiplicityPFCand_[j]->Fill(countsPFCand_[j]);
    }
    meCHF_Barrel=map_of_MEs[DirName+"/"+"PfChargedHadronEtFractionBarrel"]; if(meCHF_Barrel && meCHF_Barrel->getRootObject()) meCHF_Barrel->Fill(pt_sum_CHF_Barrel/pfmet.sumEt()); 
    meCHF_EndcapPlus=map_of_MEs[DirName+"/"+"PfChargedHadronEtFractionEndcapPlus"]; if(meCHF_EndcapPlus && meCHF_EndcapPlus->getRootObject()) meCHF_EndcapPlus->Fill(pt_sum_CHF_Endcap_plus/pfmet.sumEt()); 
    meCHF_EndcapMinus=map_of_MEs[DirName+"/"+"PfChargedHadronEtFractionEndcapMinus"]; if(meCHF_EndcapMinus && meCHF_EndcapMinus->getRootObject()) meCHF_EndcapMinus->Fill(pt_sum_CHF_Endcap_minus/pfmet.sumEt()); 
    meNHF_Barrel=map_of_MEs[DirName+"/"+"PfNeutralHadronEtFractionBarrel"]; if(meNHF_Barrel && meNHF_Barrel->getRootObject()) meNHF_Barrel->Fill(pt_sum_NHF_Barrel/pfmet.sumEt()); 
    meNHF_EndcapPlus=map_of_MEs[DirName+"/"+"PfNeutralHadronEtFractionEndcapPlus"]; if(meNHF_EndcapPlus && meNHF_EndcapPlus->getRootObject()) meNHF_EndcapPlus->Fill(pt_sum_NHF_Endcap_plus/pfmet.sumEt()); 
    meNHF_EndcapMinus=map_of_MEs[DirName+"/"+"PfNeutralHadronEtFractionEndcapMinus"]; if(meNHF_EndcapMinus && meNHF_EndcapMinus->getRootObject()) meNHF_EndcapMinus->Fill(pt_sum_NHF_Endcap_minus/pfmet.sumEt()); 
    mePhF_Barrel=map_of_MEs[DirName+"/"+"PfPhotonEtFractionBarrel"]; if(mePhF_Barrel && mePhF_Barrel->getRootObject()) mePhF_Barrel->Fill(pt_sum_PhF_Barrel/pfmet.sumEt()); 
    mePhF_EndcapPlus=map_of_MEs[DirName+"/"+"PfPhotonEtFractionEndcapPlus"]; if(mePhF_EndcapPlus && mePhF_EndcapPlus->getRootObject()) mePhF_EndcapPlus->Fill(pt_sum_PhF_Endcap_plus/pfmet.sumEt()); 
    mePhF_EndcapMinus=map_of_MEs[DirName+"/"+"PfPhotonEtFractionEndcapMinus"]; if(mePhF_EndcapMinus && mePhF_EndcapMinus->getRootObject()) mePhF_EndcapMinus->Fill(pt_sum_PhF_Endcap_minus/pfmet.sumEt()); 
    meHFHadF_Plus=map_of_MEs[DirName+"/"+"PfHFHadronEtFractionPlus"]; if(meHFHadF_Plus && meHFHadF_Plus->getRootObject()) meHFHadF_Plus->Fill(pt_sum_HFH_plus/pfmet.sumEt()); 
    meHFHadF_Minus=map_of_MEs[DirName+"/"+"PfHFHadronEtFractionMinus"]; if(meHFHadF_Minus && meHFHadF_Minus->getRootObject()) meHFHadF_Minus->Fill(pt_sum_HFH_minus/pfmet.sumEt()); 
    meHFEMF_Plus=map_of_MEs[DirName+"/"+"PfHFEMEtFractionPlus"]; if(meHFEMF_Plus && meHFEMF_Plus->getRootObject()) meHFEMF_Plus->Fill(pt_sum_HFE_plus/pfmet.sumEt()); 
    meHFEMF_Minus=map_of_MEs[DirName+"/"+"PfHFEMEtFractionMinus"]; if(meHFEMF_Minus && meHFEMF_Minus->getRootObject()) meHFEMF_Minus->Fill(pt_sum_HFE_minus/pfmet.sumEt());
    //sanity check if we have any type of the respective species in the events
    //else don't fill phi, as else we have a results of a biased peak at 0
    //if pt_sum of species part is 0, obviously that would be the case
    if(pt_sum_CHF_Barrel){
      meMETPhiChargedHadronsBarrel     = map_of_MEs[DirName+"/"+"METPhiChargedHadronsBarrel"];if(meMETPhiChargedHadronsBarrel  && meMETPhiChargedHadronsBarrel ->getRootObject())meMETPhiChargedHadronsBarrel->Fill(atan2(py_chargedHadronsBarrel,px_chargedHadronsBarrel));
    }
    if(pt_sum_CHF_Endcap_plus){
      meMETPhiChargedHadronsEndcapPlus     = map_of_MEs[DirName+"/"+"METPhiChargedHadronsEndcapPlus"];if(meMETPhiChargedHadronsEndcapPlus  && meMETPhiChargedHadronsEndcapPlus ->getRootObject())meMETPhiChargedHadronsEndcapPlus->Fill(atan2(py_chargedHadronsEndcapPlus,px_chargedHadronsEndcapPlus));
    }
    if(pt_sum_CHF_Endcap_minus){
      meMETPhiChargedHadronsEndcapMinus     = map_of_MEs[DirName+"/"+"METPhiChargedHadronsEndcapMinus"];if(meMETPhiChargedHadronsEndcapMinus  && meMETPhiChargedHadronsEndcapMinus ->getRootObject())meMETPhiChargedHadronsEndcapMinus->Fill(atan2(py_chargedHadronsEndcapMinus,px_chargedHadronsEndcapMinus));
    }
    if(pt_sum_NHF_Barrel){
      meMETPhiNeutralHadronsBarrel     = map_of_MEs[DirName+"/"+"METPhiNeutralHadronsBarrel"];if(meMETPhiNeutralHadronsBarrel  && meMETPhiNeutralHadronsBarrel ->getRootObject())meMETPhiNeutralHadronsBarrel->Fill(atan2(py_neutralHadronsBarrel,px_neutralHadronsBarrel));
    }
    if(pt_sum_NHF_Endcap_plus){
      meMETPhiNeutralHadronsEndcapPlus     = map_of_MEs[DirName+"/"+"METPhiNeutralHadronsEndcapPlus"];if(meMETPhiNeutralHadronsEndcapPlus  && meMETPhiNeutralHadronsEndcapPlus ->getRootObject())meMETPhiNeutralHadronsEndcapPlus->Fill(atan2(py_neutralHadronsEndcapPlus,px_neutralHadronsEndcapPlus));
    }
    if(pt_sum_NHF_Endcap_minus){
      meMETPhiNeutralHadronsEndcapMinus     = map_of_MEs[DirName+"/"+"METPhiNeutralHadronsEndcapMinus"];if(meMETPhiNeutralHadronsEndcapMinus  && meMETPhiNeutralHadronsEndcapMinus ->getRootObject())meMETPhiNeutralHadronsEndcapMinus->Fill(atan2(py_neutralHadronsEndcapMinus,px_neutralHadronsEndcapMinus));
    }
    if(pt_sum_PhF_Barrel){
      meMETPhiPhotonsBarrel     = map_of_MEs[DirName+"/"+"METPhiPhotonsBarrel"];if(meMETPhiPhotonsBarrel  && meMETPhiPhotonsBarrel ->getRootObject())meMETPhiPhotonsBarrel->Fill(atan2(py_PhotonsBarrel,px_PhotonsBarrel));
    }
    if(pt_sum_PhF_Endcap_plus){
      meMETPhiPhotonsEndcapPlus     = map_of_MEs[DirName+"/"+"METPhiPhotonsEndcapPlus"];if(meMETPhiPhotonsEndcapPlus  && meMETPhiPhotonsEndcapPlus ->getRootObject())meMETPhiPhotonsEndcapPlus->Fill(atan2(py_PhotonsEndcapPlus,px_PhotonsEndcapPlus));
    }
    if(pt_sum_PhF_Endcap_minus){
      meMETPhiPhotonsEndcapMinus     = map_of_MEs[DirName+"/"+"METPhiPhotonsEndcapMinus"];if(meMETPhiPhotonsEndcapMinus  && meMETPhiPhotonsEndcapMinus ->getRootObject())meMETPhiPhotonsEndcapMinus->Fill(atan2(py_PhotonsEndcapMinus,px_PhotonsEndcapMinus));
    }
    if(pt_sum_HFH_plus){
      meMETPhiHFHadronsPlus     = map_of_MEs[DirName+"/"+"METPhiHFHadronsPlus"];if(meMETPhiHFHadronsPlus  && meMETPhiHFHadronsPlus ->getRootObject())meMETPhiHFHadronsPlus->Fill(atan2(py_HFHadronsPlus,px_HFHadronsPlus));
    }
    if(pt_sum_HFH_minus){
      meMETPhiHFHadronsMinus     = map_of_MEs[DirName+"/"+"METPhiHFHadronsMinus"];if(meMETPhiHFHadronsMinus  && meMETPhiHFHadronsMinus ->getRootObject())meMETPhiHFHadronsMinus->Fill(atan2(py_HFHadronsMinus,px_HFHadronsMinus));
    }
    if(pt_sum_HFE_plus){
      meMETPhiHFEGammasPlus     = map_of_MEs[DirName+"/"+"METPhiHFEGammasPlus"];if(meMETPhiHFEGammasPlus  && meMETPhiHFEGammasPlus ->getRootObject())meMETPhiHFEGammasPlus->Fill(atan2(py_HFEGammasPlus,px_HFEGammasPlus));
    }
    if(pt_sum_HFE_minus){
      meMETPhiHFEGammasMinus     = map_of_MEs[DirName+"/"+"METPhiHFEGammasMinus"];if(meMETPhiHFEGammasMinus  && meMETPhiHFEGammasMinus ->getRootObject())meMETPhiHFEGammasMinus->Fill(atan2(py_HFEGammasMinus,px_HFEGammasMinus));
    }
    //fill other diagnostic plots based on trigger decision
    if(techTriggerCase[0]){//techTriggerResultBx0 && techTriggerResultBxM2 && techTriggerResultBxM1 -> both previous bunches filled
      meCHF_Barrel_BXm2BXm1Filled=map_of_MEs[DirName+"/"+"PfChargedHadronEtFractionBarrel_BXm2BXm1Filled"]; if(meCHF_Barrel_BXm2BXm1Filled && meCHF_Barrel_BXm2BXm1Filled->getRootObject()) meCHF_Barrel_BXm2BXm1Filled->Fill(pt_sum_CHF_Barrel/pfmet.sumEt()); 
      meCHF_EndcapPlus_BXm2BXm1Filled=map_of_MEs[DirName+"/"+"PfChargedHadronEtFractionEndcapPlus_BXm2BXm1Filled"]; if(meCHF_EndcapPlus_BXm2BXm1Filled && meCHF_EndcapPlus_BXm2BXm1Filled->getRootObject()) meCHF_EndcapPlus_BXm2BXm1Filled->Fill(pt_sum_CHF_Endcap_plus/pfmet.sumEt()); 
      meCHF_EndcapMinus_BXm2BXm1Filled=map_of_MEs[DirName+"/"+"PfChargedHadronEtFractionEndcapMinus_BXm2BXm1Filled"]; if(meCHF_EndcapMinus_BXm2BXm1Filled && meCHF_EndcapMinus_BXm2BXm1Filled->getRootObject()) meCHF_EndcapMinus_BXm2BXm1Filled->Fill(pt_sum_CHF_Endcap_minus/pfmet.sumEt()); 
      meNHF_Barrel_BXm2BXm1Filled=map_of_MEs[DirName+"/"+"PfNeutralHadronEtFractionBarrel_BXm2BXm1Filled"]; if(meNHF_Barrel_BXm2BXm1Filled && meNHF_Barrel_BXm2BXm1Filled->getRootObject()) meNHF_Barrel_BXm2BXm1Filled->Fill(pt_sum_NHF_Barrel/pfmet.sumEt()); 
      meNHF_EndcapPlus_BXm2BXm1Filled=map_of_MEs[DirName+"/"+"PfNeutralHadronEtFractionEndcapPlus_BXm2BXm1Filled"]; if(meNHF_EndcapPlus_BXm2BXm1Filled && meNHF_EndcapPlus_BXm2BXm1Filled->getRootObject()) meNHF_EndcapPlus_BXm2BXm1Filled->Fill(pt_sum_NHF_Endcap_plus/pfmet.sumEt()); 
      meNHF_EndcapMinus_BXm2BXm1Filled=map_of_MEs[DirName+"/"+"PfNeutralHadronEtFractionEndcapMinus_BXm2BXm1Filled"]; if(meNHF_EndcapMinus_BXm2BXm1Filled && meNHF_EndcapMinus_BXm2BXm1Filled->getRootObject()) meNHF_EndcapMinus_BXm2BXm1Filled->Fill(pt_sum_NHF_Endcap_minus/pfmet.sumEt()); 
      mePhF_Barrel_BXm2BXm1Filled=map_of_MEs[DirName+"/"+"PfPhotonEtFractionBarrel_BXm2BXm1Filled"]; if(mePhF_Barrel_BXm2BXm1Filled && mePhF_Barrel_BXm2BXm1Filled->getRootObject()) mePhF_Barrel_BXm2BXm1Filled->Fill(pt_sum_PhF_Barrel/pfmet.sumEt()); 
      mePhF_EndcapPlus_BXm2BXm1Filled=map_of_MEs[DirName+"/"+"PfPhotonEtFractionEndcapPlus_BXm2BXm1Filled"]; if(mePhF_EndcapPlus_BXm2BXm1Filled && mePhF_EndcapPlus_BXm2BXm1Filled->getRootObject()) mePhF_EndcapPlus_BXm2BXm1Filled->Fill(pt_sum_PhF_Endcap_plus/pfmet.sumEt()); 
      mePhF_EndcapMinus_BXm2BXm1Filled=map_of_MEs[DirName+"/"+"PfPhotonEtFractionEndcapMinus_BXm2BXm1Filled"]; if(mePhF_EndcapMinus_BXm2BXm1Filled && mePhF_EndcapMinus_BXm2BXm1Filled->getRootObject()) mePhF_EndcapMinus_BXm2BXm1Filled->Fill(pt_sum_PhF_Endcap_minus/pfmet.sumEt()); 
          meHFHadF_Plus_BXm2BXm1Filled=map_of_MEs[DirName+"/"+"PfHFHadronEtFractionPlus_BXm2BXm1Filled"]; if(meHFHadF_Plus_BXm2BXm1Filled && meHFHadF_Plus_BXm2BXm1Filled->getRootObject()) meHFHadF_Plus_BXm2BXm1Filled->Fill(pt_sum_HFH_plus/pfmet.sumEt()); 
      meHFHadF_Minus_BXm2BXm1Filled=map_of_MEs[DirName+"/"+"PfHFHadronEtFractionMinus_BXm2BXm1Filled"]; if(meHFHadF_Minus_BXm2BXm1Filled && meHFHadF_Minus_BXm2BXm1Filled->getRootObject()) meHFHadF_Minus_BXm2BXm1Filled->Fill(pt_sum_HFH_minus/pfmet.sumEt()); 
      meHFEMF_Plus_BXm2BXm1Filled=map_of_MEs[DirName+"/"+"PfHFEMEtFractionPlus_BXm2BXm1Filled"]; if(meHFEMF_Plus_BXm2BXm1Filled && meHFEMF_Plus_BXm2BXm1Filled->getRootObject()) meHFEMF_Plus_BXm2BXm1Filled->Fill(pt_sum_HFE_plus/pfmet.sumEt()); 
      meHFEMF_Minus_BXm2BXm1Filled=map_of_MEs[DirName+"/"+"PfHFEMEtFractionMinus_BXm2BXm1Filled"]; if(meHFEMF_Minus_BXm2BXm1Filled && meHFEMF_Minus_BXm2BXm1Filled->getRootObject()) meHFEMF_Minus_BXm2BXm1Filled->Fill(pt_sum_HFE_minus/pfmet.sumEt());
      mePhotonEtFraction_BXm2BXm1Filled    = map_of_MEs[DirName+"/"+"PfPhotonEtFraction_BXm2BXm1Filled"];     if (  mePhotonEtFraction_BXm2BXm1Filled  && mePhotonEtFraction_BXm2BXm1Filled ->getRootObject())  mePhotonEtFraction_BXm2BXm1Filled  ->Fill(pfmet.photonEtFraction());
      meNeutralHadronEtFraction_BXm2BXm1Filled    = map_of_MEs[DirName+"/"+"PfNeutralHadronEtFraction_BXm2BXm1Filled"];     if (  meNeutralHadronEtFraction_BXm2BXm1Filled  && meNeutralHadronEtFraction_BXm2BXm1Filled ->getRootObject())  meNeutralHadronEtFraction_BXm2BXm1Filled  ->Fill(pfmet.neutralHadronEtFraction());
      meChargedHadronEtFraction_BXm2BXm1Filled    = map_of_MEs[DirName+"/"+"PfChargedHadronEtFraction_BXm2BXm1Filled"];     if (  meChargedHadronEtFraction_BXm2BXm1Filled  && meChargedHadronEtFraction_BXm2BXm1Filled ->getRootObject())  meChargedHadronEtFraction_BXm2BXm1Filled  ->Fill(pfmet.chargedHadronEtFraction());
      meMET_BXm2BXm1Filled    = map_of_MEs[DirName+"/"+"MET_BXm2BXm1Filled"];     if (  meMET_BXm2BXm1Filled  && meMET_BXm2BXm1Filled ->getRootObject())  meMET_BXm2BXm1Filled  ->Fill(pfmet.pt());
      meSumET_BXm2BXm1Filled    = map_of_MEs[DirName+"/"+"SumET_BXm2BXm1Filled"];     if (  meSumET_BXm2BXm1Filled  && meSumET_BXm2BXm1Filled ->getRootObject())  meSumET_BXm2BXm1Filled  ->Fill(pfmet.sumEt());
      if(pt_sum_CHF_Barrel){
        meMETPhiChargedHadronsBarrel_BXm2BXm1Filled     = map_of_MEs[DirName+"/"+"METPhiChargedHadronsBarrel_BXm2BXm1Filled"];if(meMETPhiChargedHadronsBarrel_BXm2BXm1Filled  && meMETPhiChargedHadronsBarrel_BXm2BXm1Filled ->getRootObject())meMETPhiChargedHadronsBarrel_BXm2BXm1Filled->Fill(atan2(py_chargedHadronsBarrel,px_chargedHadronsBarrel));
      }
      if(pt_sum_CHF_Endcap_plus){
        meMETPhiChargedHadronsEndcapPlus_BXm2BXm1Filled  = map_of_MEs[DirName+"/"+"METPhiChargedHadronsEndcapPlus_BXm2BXm1Filled"];if(meMETPhiChargedHadronsEndcapPlus_BXm2BXm1Filled  && meMETPhiChargedHadronsEndcapPlus_BXm2BXm1Filled ->getRootObject())meMETPhiChargedHadronsEndcapPlus_BXm2BXm1Filled->Fill(atan2(py_chargedHadronsEndcapPlus,px_chargedHadronsEndcapPlus));
      }
      if(pt_sum_CHF_Endcap_minus){
        meMETPhiChargedHadronsEndcapMinus_BXm2BXm1Filled     = map_of_MEs[DirName+"/"+"METPhiChargedHadronsEndcapMinus_BXm2BXm1Filled"];if(meMETPhiChargedHadronsEndcapMinus_BXm2BXm1Filled  && meMETPhiChargedHadronsEndcapMinus_BXm2BXm1Filled ->getRootObject())meMETPhiChargedHadronsEndcapMinus_BXm2BXm1Filled->Fill(atan2(py_chargedHadronsEndcapMinus,px_chargedHadronsEndcapMinus));
      }
      if(pt_sum_NHF_Barrel){
        meMETPhiNeutralHadronsBarrel_BXm2BXm1Filled     = map_of_MEs[DirName+"/"+"METPhiNeutralHadronsBarrel_BXm2BXm1Filled"];if(meMETPhiNeutralHadronsBarrel_BXm2BXm1Filled  && meMETPhiNeutralHadronsBarrel_BXm2BXm1Filled ->getRootObject())meMETPhiNeutralHadronsBarrel_BXm2BXm1Filled->Fill(atan2(py_neutralHadronsBarrel,px_neutralHadronsBarrel));
      }
      if(pt_sum_NHF_Endcap_plus){
        meMETPhiNeutralHadronsEndcapPlus_BXm2BXm1Filled     = map_of_MEs[DirName+"/"+"METPhiNeutralHadronsEndcapPlus_BXm2BXm1Filled"];if(meMETPhiNeutralHadronsEndcapPlus_BXm2BXm1Filled  && meMETPhiNeutralHadronsEndcapPlus_BXm2BXm1Filled ->getRootObject())meMETPhiNeutralHadronsEndcapPlus_BXm2BXm1Filled->Fill(atan2(py_neutralHadronsEndcapPlus,px_neutralHadronsEndcapPlus));
      }
      if(pt_sum_NHF_Endcap_minus){
        meMETPhiNeutralHadronsEndcapMinus_BXm2BXm1Filled     = map_of_MEs[DirName+"/"+"METPhiNeutralHadronsEndcapMinus_BXm2BXm1Filled"];if(meMETPhiNeutralHadronsEndcapMinus_BXm2BXm1Filled  && meMETPhiNeutralHadronsEndcapMinus_BXm2BXm1Filled ->getRootObject())meMETPhiNeutralHadronsEndcapMinus_BXm2BXm1Filled->Fill(atan2(py_neutralHadronsEndcapMinus,px_neutralHadronsEndcapMinus));
      }
      if(pt_sum_PhF_Barrel){
        meMETPhiPhotonsBarrel_BXm2BXm1Filled     = map_of_MEs[DirName+"/"+"METPhiPhotonsBarrel_BXm2BXm1Filled"];if(meMETPhiPhotonsBarrel_BXm2BXm1Filled  && meMETPhiPhotonsBarrel_BXm2BXm1Filled ->getRootObject())meMETPhiPhotonsBarrel_BXm2BXm1Filled->Fill(atan2(py_PhotonsBarrel,px_PhotonsBarrel));
      }
      if(pt_sum_PhF_Endcap_plus){
        meMETPhiPhotonsEndcapPlus_BXm2BXm1Filled     = map_of_MEs[DirName+"/"+"METPhiPhotonsEndcapPlus_BXm2BXm1Filled"];if(meMETPhiPhotonsEndcapPlus_BXm2BXm1Filled  && meMETPhiPhotonsEndcapPlus_BXm2BXm1Filled ->getRootObject())meMETPhiPhotonsEndcapPlus_BXm2BXm1Filled->Fill(atan2(py_PhotonsEndcapPlus,px_PhotonsEndcapPlus));
      }
      if(pt_sum_PhF_Endcap_minus){
        meMETPhiPhotonsEndcapMinus_BXm2BXm1Filled     = map_of_MEs[DirName+"/"+"METPhiPhotonsEndcapMinus_BXm2BXm1Filled"];if(meMETPhiPhotonsEndcapMinus_BXm2BXm1Filled  && meMETPhiPhotonsEndcapMinus_BXm2BXm1Filled ->getRootObject())meMETPhiPhotonsEndcapMinus_BXm2BXm1Filled->Fill(atan2(py_PhotonsEndcapMinus,px_PhotonsEndcapMinus));
      }
      if(pt_sum_HFH_plus){
        meMETPhiHFHadronsPlus_BXm2BXm1Filled     = map_of_MEs[DirName+"/"+"METPhiHFHadronsPlus_BXm2BXm1Filled"];if(meMETPhiHFHadronsPlus_BXm2BXm1Filled  && meMETPhiHFHadronsPlus_BXm2BXm1Filled ->getRootObject())meMETPhiHFHadronsPlus_BXm2BXm1Filled->Fill(atan2(py_HFHadronsPlus,px_HFHadronsPlus));
      }
      if(pt_sum_HFH_minus){
        meMETPhiHFHadronsMinus_BXm2BXm1Filled     = map_of_MEs[DirName+"/"+"METPhiHFHadronsMinus_BXm2BXm1Filled"];if(meMETPhiHFHadronsMinus_BXm2BXm1Filled  && meMETPhiHFHadronsMinus_BXm2BXm1Filled ->getRootObject())meMETPhiHFHadronsMinus_BXm2BXm1Filled->Fill(atan2(py_HFHadronsMinus,px_HFHadronsMinus));
      }
      if(pt_sum_HFE_plus){
        meMETPhiHFEGammasPlus_BXm2BXm1Filled     = map_of_MEs[DirName+"/"+"METPhiHFEGammasPlus_BXm2BXm1Filled"];if(meMETPhiHFEGammasPlus_BXm2BXm1Filled  && meMETPhiHFEGammasPlus_BXm2BXm1Filled ->getRootObject())meMETPhiHFEGammasPlus_BXm2BXm1Filled->Fill(atan2(py_HFEGammasPlus,px_HFEGammasPlus));
      }
      if(pt_sum_HFE_minus){
        meMETPhiHFEGammasMinus_BXm2BXm1Filled     = map_of_MEs[DirName+"/"+"METPhiHFEGammasMinus_BXm2BXm1Filled"];if(meMETPhiHFEGammasMinus_BXm2BXm1Filled  && meMETPhiHFEGammasMinus_BXm2BXm1Filled ->getRootObject())meMETPhiHFEGammasMinus_BXm2BXm1Filled->Fill(atan2(py_HFEGammasMinus,px_HFEGammasMinus));
      }
    }
    if(techTriggerCase[1]){//techTriggerResultBx0 && techTriggerResultBxM1 -> previous bunch filled
      meCHF_Barrel_BXm1Filled=map_of_MEs[DirName+"/"+"PfChargedHadronEtFractionBarrel_BXm1Filled"]; if(meCHF_Barrel_BXm1Filled && meCHF_Barrel_BXm1Filled->getRootObject()) meCHF_Barrel_BXm1Filled->Fill(pt_sum_CHF_Barrel/pfmet.sumEt()); 
      meCHF_EndcapPlus_BXm1Filled=map_of_MEs[DirName+"/"+"PfChargedHadronEtFractionEndcapPlus_BXm1Filled"]; if(meCHF_EndcapPlus_BXm1Filled && meCHF_EndcapPlus_BXm1Filled->getRootObject()) meCHF_EndcapPlus_BXm1Filled->Fill(pt_sum_CHF_Endcap_plus/pfmet.sumEt()); 
      meCHF_EndcapMinus_BXm1Filled=map_of_MEs[DirName+"/"+"PfChargedHadronEtFractionEndcapMinus_BXm1Filled"]; if(meCHF_EndcapMinus_BXm1Filled && meCHF_EndcapMinus_BXm1Filled->getRootObject()) meCHF_EndcapMinus_BXm1Filled->Fill(pt_sum_CHF_Endcap_minus/pfmet.sumEt()); 
      meNHF_Barrel_BXm1Filled=map_of_MEs[DirName+"/"+"PfNeutralHadronEtFractionBarrel_BXm1Filled"]; if(meNHF_Barrel_BXm1Filled && meNHF_Barrel_BXm1Filled->getRootObject()) meNHF_Barrel_BXm1Filled->Fill(pt_sum_NHF_Barrel/pfmet.sumEt()); 
      meNHF_EndcapPlus_BXm1Filled=map_of_MEs[DirName+"/"+"PfNeutralHadronEtFractionEndcapPlus_BXm1Filled"]; if(meNHF_EndcapPlus_BXm1Filled && meNHF_EndcapPlus_BXm1Filled->getRootObject()) meNHF_EndcapPlus_BXm1Filled->Fill(pt_sum_NHF_Endcap_plus/pfmet.sumEt()); 
      meNHF_EndcapMinus_BXm1Filled=map_of_MEs[DirName+"/"+"PfNeutralHadronEtFractionEndcapMinus_BXm1Filled"]; if(meNHF_EndcapMinus_BXm1Filled && meNHF_EndcapMinus_BXm1Filled->getRootObject()) meNHF_EndcapMinus_BXm1Filled->Fill(pt_sum_NHF_Endcap_minus/pfmet.sumEt()); 
      mePhF_Barrel_BXm1Filled=map_of_MEs[DirName+"/"+"PfPhotonEtFractionBarrel_BXm1Filled"]; if(mePhF_Barrel_BXm1Filled && mePhF_Barrel_BXm1Filled->getRootObject()) mePhF_Barrel_BXm1Filled->Fill(pt_sum_PhF_Barrel/pfmet.sumEt()); 
      mePhF_EndcapPlus_BXm1Filled=map_of_MEs[DirName+"/"+"PfPhotonEtFractionEndcapPlus_BXm1Filled"]; if(mePhF_EndcapPlus_BXm1Filled && mePhF_EndcapPlus_BXm1Filled->getRootObject()) mePhF_EndcapPlus_BXm1Filled->Fill(pt_sum_PhF_Endcap_plus/pfmet.sumEt()); 
      mePhF_EndcapMinus_BXm1Filled=map_of_MEs[DirName+"/"+"PfPhotonEtFractionEndcapMinus_BXm1Filled"]; if(mePhF_EndcapMinus_BXm1Filled && mePhF_EndcapMinus_BXm1Filled->getRootObject()) mePhF_EndcapMinus_BXm1Filled->Fill(pt_sum_PhF_Endcap_minus/pfmet.sumEt()); 
      meHFHadF_Plus_BXm1Filled=map_of_MEs[DirName+"/"+"PfHFHadronEtFractionPlus_BXm1Filled"]; if(meHFHadF_Plus_BXm1Filled && meHFHadF_Plus_BXm1Filled->getRootObject()) meHFHadF_Plus_BXm1Filled->Fill(pt_sum_HFH_plus/pfmet.sumEt()); 
      meHFHadF_Minus_BXm1Filled=map_of_MEs[DirName+"/"+"PfHFHadronEtFractionMinus_BXm1Filled"]; if(meHFHadF_Minus_BXm1Filled && meHFHadF_Minus_BXm1Filled->getRootObject()) meHFHadF_Minus_BXm1Filled->Fill(pt_sum_HFH_minus/pfmet.sumEt()); 
      meHFEMF_Plus_BXm1Filled=map_of_MEs[DirName+"/"+"PfHFEMEtFractionPlus_BXm1Filled"]; if(meHFEMF_Plus_BXm1Filled && meHFEMF_Plus_BXm1Filled->getRootObject()) meHFEMF_Plus_BXm1Filled->Fill(pt_sum_HFE_plus/pfmet.sumEt()); 
      meHFEMF_Minus_BXm1Filled=map_of_MEs[DirName+"/"+"PfHFEMEtFractionMinus_BXm1Filled"]; if(meHFEMF_Minus_BXm1Filled && meHFEMF_Minus_BXm1Filled->getRootObject()) meHFEMF_Minus_BXm1Filled->Fill(pt_sum_HFE_minus/pfmet.sumEt());
      mePhotonEtFraction_BXm1Filled    = map_of_MEs[DirName+"/"+"PfPhotonEtFraction_BXm1Filled"];     if (  mePhotonEtFraction_BXm1Filled  && mePhotonEtFraction_BXm1Filled ->getRootObject())  mePhotonEtFraction_BXm1Filled  ->Fill(pfmet.photonEtFraction());
      meNeutralHadronEtFraction_BXm1Filled    = map_of_MEs[DirName+"/"+"PfNeutralHadronEtFraction_BXm1Filled"];     if (  meNeutralHadronEtFraction_BXm1Filled  && meNeutralHadronEtFraction_BXm1Filled ->getRootObject())  meNeutralHadronEtFraction_BXm1Filled  ->Fill(pfmet.neutralHadronEtFraction());
      meChargedHadronEtFraction_BXm1Filled    = map_of_MEs[DirName+"/"+"PfChargedHadronEtFraction_BXm1Filled"];     if (  meChargedHadronEtFraction_BXm1Filled  && meChargedHadronEtFraction_BXm1Filled ->getRootObject())  meChargedHadronEtFraction_BXm1Filled  ->Fill(pfmet.chargedHadronEtFraction());
      meMET_BXm1Filled    = map_of_MEs[DirName+"/"+"MET_BXm1Filled"];     if (  meMET_BXm1Filled  && meMET_BXm1Filled ->getRootObject())  meMET_BXm1Filled  ->Fill(pfmet.pt());
      meSumET_BXm1Filled    = map_of_MEs[DirName+"/"+"SumET_BXm1Filled"];     if (  meSumET_BXm1Filled  && meSumET_BXm1Filled ->getRootObject())  meSumET_BXm1Filled  ->Fill(pfmet.sumEt());
      if(pt_sum_CHF_Barrel){
        meMETPhiChargedHadronsBarrel_BXm1Filled     = map_of_MEs[DirName+"/"+"METPhiChargedHadronsBarrel_BXm1Filled"];if(meMETPhiChargedHadronsBarrel_BXm1Filled  && meMETPhiChargedHadronsBarrel_BXm1Filled ->getRootObject())meMETPhiChargedHadronsBarrel_BXm1Filled->Fill(atan2(py_chargedHadronsBarrel,px_chargedHadronsBarrel));
      }
      if(pt_sum_CHF_Endcap_plus){
        meMETPhiChargedHadronsEndcapPlus_BXm1Filled  = map_of_MEs[DirName+"/"+"METPhiChargedHadronsEndcapPlus_BXm1Filled"];if(meMETPhiChargedHadronsEndcapPlus_BXm1Filled  && meMETPhiChargedHadronsEndcapPlus_BXm1Filled ->getRootObject())meMETPhiChargedHadronsEndcapPlus_BXm1Filled->Fill(atan2(py_chargedHadronsEndcapPlus,px_chargedHadronsEndcapPlus));
      }
      if(pt_sum_CHF_Endcap_minus){
        meMETPhiChargedHadronsEndcapMinus_BXm1Filled     = map_of_MEs[DirName+"/"+"METPhiChargedHadronsEndcapMinus_BXm1Filled"];if(meMETPhiChargedHadronsEndcapMinus_BXm1Filled  && meMETPhiChargedHadronsEndcapMinus_BXm1Filled ->getRootObject())meMETPhiChargedHadronsEndcapMinus_BXm1Filled->Fill(atan2(py_chargedHadronsEndcapMinus,px_chargedHadronsEndcapMinus));
      }
      if(pt_sum_NHF_Barrel){
        meMETPhiNeutralHadronsBarrel_BXm1Filled     = map_of_MEs[DirName+"/"+"METPhiNeutralHadronsBarrel_BXm1Filled"];if(meMETPhiNeutralHadronsBarrel_BXm1Filled  && meMETPhiNeutralHadronsBarrel_BXm1Filled ->getRootObject())meMETPhiNeutralHadronsBarrel_BXm1Filled->Fill(atan2(py_neutralHadronsBarrel,px_neutralHadronsBarrel));
      }
      if(pt_sum_NHF_Endcap_plus){
        meMETPhiNeutralHadronsEndcapPlus_BXm1Filled     = map_of_MEs[DirName+"/"+"METPhiNeutralHadronsEndcapPlus_BXm1Filled"];if(meMETPhiNeutralHadronsEndcapPlus_BXm1Filled  && meMETPhiNeutralHadronsEndcapPlus_BXm1Filled ->getRootObject())meMETPhiNeutralHadronsEndcapPlus_BXm1Filled->Fill(atan2(py_neutralHadronsEndcapPlus,px_neutralHadronsEndcapPlus));
      }
      if(pt_sum_NHF_Endcap_minus){
        meMETPhiNeutralHadronsEndcapMinus_BXm1Filled     = map_of_MEs[DirName+"/"+"METPhiNeutralHadronsEndcapMinus_BXm1Filled"];if(meMETPhiNeutralHadronsEndcapMinus_BXm1Filled  && meMETPhiNeutralHadronsEndcapMinus_BXm1Filled ->getRootObject())meMETPhiNeutralHadronsEndcapMinus_BXm1Filled->Fill(atan2(py_neutralHadronsEndcapMinus,px_neutralHadronsEndcapMinus));
      }
      if(pt_sum_PhF_Barrel){
        meMETPhiPhotonsBarrel_BXm1Filled     = map_of_MEs[DirName+"/"+"METPhiPhotonsBarrel_BXm1Filled"];if(meMETPhiPhotonsBarrel_BXm1Filled  && meMETPhiPhotonsBarrel_BXm1Filled ->getRootObject())meMETPhiPhotonsBarrel_BXm1Filled->Fill(atan2(py_PhotonsBarrel,px_PhotonsBarrel));
      }
      if(pt_sum_PhF_Endcap_plus){
        meMETPhiPhotonsEndcapPlus_BXm1Filled     = map_of_MEs[DirName+"/"+"METPhiPhotonsEndcapPlus_BXm1Filled"];if(meMETPhiPhotonsEndcapPlus_BXm1Filled  && meMETPhiPhotonsEndcapPlus_BXm1Filled ->getRootObject())meMETPhiPhotonsEndcapPlus_BXm1Filled->Fill(atan2(py_PhotonsEndcapPlus,px_PhotonsEndcapPlus));
      }
      if(pt_sum_PhF_Endcap_minus){
        meMETPhiPhotonsEndcapMinus_BXm1Filled     = map_of_MEs[DirName+"/"+"METPhiPhotonsEndcapMinus_BXm1Filled"];if(meMETPhiPhotonsEndcapMinus_BXm1Filled  && meMETPhiPhotonsEndcapMinus_BXm1Filled ->getRootObject())meMETPhiPhotonsEndcapMinus_BXm1Filled->Fill(atan2(py_PhotonsEndcapMinus,px_PhotonsEndcapMinus));
      }
      if(pt_sum_HFH_plus){
        meMETPhiHFHadronsPlus_BXm1Filled     = map_of_MEs[DirName+"/"+"METPhiHFHadronsPlus_BXm1Filled"];if(meMETPhiHFHadronsPlus_BXm1Filled  && meMETPhiHFHadronsPlus_BXm1Filled ->getRootObject())meMETPhiHFHadronsPlus_BXm1Filled->Fill(atan2(py_HFHadronsPlus,px_HFHadronsPlus));
      }
      if(pt_sum_HFH_minus){
        meMETPhiHFHadronsMinus_BXm1Filled     = map_of_MEs[DirName+"/"+"METPhiHFHadronsMinus_BXm1Filled"];if(meMETPhiHFHadronsMinus_BXm1Filled  && meMETPhiHFHadronsMinus_BXm1Filled ->getRootObject())meMETPhiHFHadronsMinus_BXm1Filled->Fill(atan2(py_HFHadronsMinus,px_HFHadronsMinus));
      }
      if(pt_sum_HFE_plus){
        meMETPhiHFEGammasPlus_BXm1Filled     = map_of_MEs[DirName+"/"+"METPhiHFEGammasPlus_BXm1Filled"];if(meMETPhiHFEGammasPlus_BXm1Filled  && meMETPhiHFEGammasPlus_BXm1Filled ->getRootObject())meMETPhiHFEGammasPlus_BXm1Filled->Fill(atan2(py_HFEGammasPlus,px_HFEGammasPlus));
      }
      if(pt_sum_HFE_minus){
        meMETPhiHFEGammasMinus_BXm1Filled     = map_of_MEs[DirName+"/"+"METPhiHFEGammasMinus_BXm1Filled"];if(meMETPhiHFEGammasMinus_BXm1Filled  && meMETPhiHFEGammasMinus_BXm1Filled ->getRootObject())meMETPhiHFEGammasMinus_BXm1Filled->Fill(atan2(py_HFEGammasMinus,px_HFEGammasMinus));
      }
    }
    if(techTriggerCase[3]){//techTriggerResultBx0 && !techTriggerResultBxM2 && !techTriggerResultBxM1 ->previous two bunches empty
      meCHF_Barrel_BXm2BXm1Empty=map_of_MEs[DirName+"/"+"PfChargedHadronEtFractionBarrel_BXm2BXm1Empty"]; if(meCHF_Barrel_BXm2BXm1Empty && meCHF_Barrel_BXm2BXm1Empty->getRootObject()) meCHF_Barrel_BXm2BXm1Empty->Fill(pt_sum_CHF_Barrel/pfmet.sumEt()); 
      meCHF_EndcapPlus_BXm2BXm1Empty=map_of_MEs[DirName+"/"+"PfChargedHadronEtFractionEndcapPlus_BXm2BXm1Empty"]; if(meCHF_EndcapPlus_BXm2BXm1Empty && meCHF_EndcapPlus_BXm2BXm1Empty->getRootObject()) meCHF_EndcapPlus_BXm2BXm1Empty->Fill(pt_sum_CHF_Endcap_plus/pfmet.sumEt()); 
      meCHF_EndcapMinus_BXm2BXm1Empty=map_of_MEs[DirName+"/"+"PfChargedHadronEtFractionEndcapMinus_BXm2BXm1Empty"]; if(meCHF_EndcapMinus_BXm2BXm1Empty && meCHF_EndcapMinus_BXm2BXm1Empty->getRootObject()) meCHF_EndcapMinus_BXm2BXm1Empty->Fill(pt_sum_CHF_Endcap_minus/pfmet.sumEt()); 
      meNHF_Barrel_BXm2BXm1Empty=map_of_MEs[DirName+"/"+"PfNeutralHadronEtFractionBarrel_BXm2BXm1Empty"]; if(meNHF_Barrel_BXm2BXm1Empty && meNHF_Barrel_BXm2BXm1Empty->getRootObject()) meNHF_Barrel_BXm2BXm1Empty->Fill(pt_sum_NHF_Barrel/pfmet.sumEt()); 
      meNHF_EndcapPlus_BXm2BXm1Empty=map_of_MEs[DirName+"/"+"PfNeutralHadronEtFractionEndcapPlus_BXm2BXm1Empty"]; if(meNHF_EndcapPlus_BXm2BXm1Empty && meNHF_EndcapPlus_BXm2BXm1Empty->getRootObject()) meNHF_EndcapPlus_BXm2BXm1Empty->Fill(pt_sum_NHF_Endcap_plus/pfmet.sumEt()); 
      meNHF_EndcapMinus_BXm2BXm1Empty=map_of_MEs[DirName+"/"+"PfNeutralHadronEtFractionEndcapMinus_BXm2BXm1Empty"]; if(meNHF_EndcapMinus_BXm2BXm1Empty && meNHF_EndcapMinus_BXm2BXm1Empty->getRootObject()) meNHF_EndcapMinus_BXm2BXm1Empty->Fill(pt_sum_NHF_Endcap_minus/pfmet.sumEt()); 
      mePhF_Barrel_BXm2BXm1Empty=map_of_MEs[DirName+"/"+"PfPhotonEtFractionBarrel_BXm2BXm1Empty"]; if(mePhF_Barrel_BXm2BXm1Empty && mePhF_Barrel_BXm2BXm1Empty->getRootObject()) mePhF_Barrel_BXm2BXm1Empty->Fill(pt_sum_PhF_Barrel/pfmet.sumEt()); 
      mePhF_EndcapPlus_BXm2BXm1Empty=map_of_MEs[DirName+"/"+"PfPhotonEtFractionEndcapPlus_BXm2BXm1Empty"]; if(mePhF_EndcapPlus_BXm2BXm1Empty && mePhF_EndcapPlus_BXm2BXm1Empty->getRootObject()) mePhF_EndcapPlus_BXm2BXm1Empty->Fill(pt_sum_PhF_Endcap_plus/pfmet.sumEt()); 
      mePhF_EndcapMinus_BXm2BXm1Empty=map_of_MEs[DirName+"/"+"PfPhotonEtFractionEndcapMinus_BXm2BXm1Empty"]; if(mePhF_EndcapMinus_BXm2BXm1Empty && mePhF_EndcapMinus_BXm2BXm1Empty->getRootObject()) mePhF_EndcapMinus_BXm2BXm1Empty->Fill(pt_sum_PhF_Endcap_minus/pfmet.sumEt()); 
      meHFHadF_Plus_BXm2BXm1Empty=map_of_MEs[DirName+"/"+"PfHFHadronEtFractionPlus_BXm2BXm1Empty"]; if(meHFHadF_Plus_BXm2BXm1Empty && meHFHadF_Plus_BXm2BXm1Empty->getRootObject()) meHFHadF_Plus_BXm2BXm1Empty->Fill(pt_sum_HFH_plus/pfmet.sumEt()); 
      meHFHadF_Minus_BXm2BXm1Empty=map_of_MEs[DirName+"/"+"PfHFHadronEtFractionMinus_BXm2BXm1Empty"]; if(meHFHadF_Minus_BXm2BXm1Empty && meHFHadF_Minus_BXm2BXm1Empty->getRootObject()) meHFHadF_Minus_BXm2BXm1Empty->Fill(pt_sum_HFH_minus/pfmet.sumEt()); 
      meHFEMF_Plus_BXm2BXm1Empty=map_of_MEs[DirName+"/"+"PfHFEMEtFractionPlus_BXm2BXm1Empty"]; if(meHFEMF_Plus_BXm2BXm1Empty && meHFEMF_Plus_BXm2BXm1Empty->getRootObject()) meHFEMF_Plus_BXm2BXm1Empty->Fill(pt_sum_HFE_plus/pfmet.sumEt()); 
      meHFEMF_Minus_BXm2BXm1Empty=map_of_MEs[DirName+"/"+"PfHFEMEtFractionMinus_BXm2BXm1Empty"]; if(meHFEMF_Minus_BXm2BXm1Empty && meHFEMF_Minus_BXm2BXm1Empty->getRootObject()) meHFEMF_Minus_BXm2BXm1Empty->Fill(pt_sum_HFE_minus/pfmet.sumEt());
      mePhotonEtFraction_BXm2BXm1Empty    = map_of_MEs[DirName+"/"+"PfPhotonEtFraction_BXm2BXm1Empty"];     if (  mePhotonEtFraction_BXm2BXm1Empty  && mePhotonEtFraction_BXm2BXm1Empty ->getRootObject())  mePhotonEtFraction_BXm2BXm1Empty  ->Fill(pfmet.photonEtFraction());
      meNeutralHadronEtFraction_BXm2BXm1Empty    = map_of_MEs[DirName+"/"+"PfNeutralHadronEtFraction_BXm2BXm1Empty"];     if (  meNeutralHadronEtFraction_BXm2BXm1Empty  && meNeutralHadronEtFraction_BXm2BXm1Empty ->getRootObject())  meNeutralHadronEtFraction_BXm2BXm1Empty  ->Fill(pfmet.neutralHadronEtFraction());
      meChargedHadronEtFraction_BXm2BXm1Empty    = map_of_MEs[DirName+"/"+"PfChargedHadronEtFraction_BXm2BXm1Empty"];     if (  meChargedHadronEtFraction_BXm2BXm1Empty  && meChargedHadronEtFraction_BXm2BXm1Empty ->getRootObject())  meChargedHadronEtFraction_BXm2BXm1Empty  ->Fill(pfmet.chargedHadronEtFraction());
      meMET_BXm2BXm1Empty    = map_of_MEs[DirName+"/"+"MET_BXm2BXm1Empty"];     if (  meMET_BXm2BXm1Empty  && meMET_BXm2BXm1Empty ->getRootObject())  meMET_BXm2BXm1Empty  ->Fill(pfmet.pt());
      meSumET_BXm2BXm1Empty    = map_of_MEs[DirName+"/"+"SumET_BXm2BXm1Empty"];     if (  meSumET_BXm2BXm1Empty  && meSumET_BXm2BXm1Empty ->getRootObject())  meSumET_BXm2BXm1Empty  ->Fill(pfmet.sumEt());
      if(pt_sum_CHF_Barrel){
        meMETPhiChargedHadronsBarrel_BXm2BXm1Empty     = map_of_MEs[DirName+"/"+"METPhiChargedHadronsBarrel_BXm2BXm1Empty"];if(meMETPhiChargedHadronsBarrel_BXm2BXm1Empty  && meMETPhiChargedHadronsBarrel_BXm2BXm1Empty ->getRootObject())meMETPhiChargedHadronsBarrel_BXm2BXm1Empty->Fill(atan2(py_chargedHadronsBarrel,px_chargedHadronsBarrel));
      }
      if(pt_sum_CHF_Endcap_plus){
        meMETPhiChargedHadronsEndcapPlus_BXm2BXm1Empty  = map_of_MEs[DirName+"/"+"METPhiChargedHadronsEndcapPlus_BXm2BXm1Empty"];if(meMETPhiChargedHadronsEndcapPlus_BXm2BXm1Empty  && meMETPhiChargedHadronsEndcapPlus_BXm2BXm1Empty ->getRootObject())meMETPhiChargedHadronsEndcapPlus_BXm2BXm1Empty->Fill(atan2(py_chargedHadronsEndcapPlus,px_chargedHadronsEndcapPlus));
      }
      if(pt_sum_CHF_Endcap_minus){
        meMETPhiChargedHadronsEndcapMinus_BXm2BXm1Empty     = map_of_MEs[DirName+"/"+"METPhiChargedHadronsEndcapMinus_BXm2BXm1Empty"];if(meMETPhiChargedHadronsEndcapMinus_BXm2BXm1Empty  && meMETPhiChargedHadronsEndcapMinus_BXm2BXm1Empty ->getRootObject())meMETPhiChargedHadronsEndcapMinus_BXm2BXm1Empty->Fill(atan2(py_chargedHadronsEndcapMinus,px_chargedHadronsEndcapMinus));
      }
      if(pt_sum_NHF_Barrel){
        meMETPhiNeutralHadronsBarrel_BXm2BXm1Empty     = map_of_MEs[DirName+"/"+"METPhiNeutralHadronsBarrel_BXm2BXm1Empty"];if(meMETPhiNeutralHadronsBarrel_BXm2BXm1Empty  && meMETPhiNeutralHadronsBarrel_BXm2BXm1Empty ->getRootObject())meMETPhiNeutralHadronsBarrel_BXm2BXm1Empty->Fill(atan2(py_neutralHadronsBarrel,px_neutralHadronsBarrel));
      }
      if(pt_sum_NHF_Endcap_plus){
        meMETPhiNeutralHadronsEndcapPlus_BXm2BXm1Empty     = map_of_MEs[DirName+"/"+"METPhiNeutralHadronsEndcapPlus_BXm2BXm1Empty"];if(meMETPhiNeutralHadronsEndcapPlus_BXm2BXm1Empty  && meMETPhiNeutralHadronsEndcapPlus_BXm2BXm1Empty ->getRootObject())meMETPhiNeutralHadronsEndcapPlus_BXm2BXm1Empty->Fill(atan2(py_neutralHadronsEndcapPlus,px_neutralHadronsEndcapPlus));
      }
      if(pt_sum_NHF_Endcap_minus){
        meMETPhiNeutralHadronsEndcapMinus_BXm2BXm1Empty     = map_of_MEs[DirName+"/"+"METPhiNeutralHadronsEndcapMinus_BXm2BXm1Empty"];if(meMETPhiNeutralHadronsEndcapMinus_BXm2BXm1Empty  && meMETPhiNeutralHadronsEndcapMinus_BXm2BXm1Empty ->getRootObject())meMETPhiNeutralHadronsEndcapMinus_BXm2BXm1Empty->Fill(atan2(py_neutralHadronsEndcapMinus,px_neutralHadronsEndcapMinus));
      }
      if(pt_sum_PhF_Barrel){
        meMETPhiPhotonsBarrel_BXm2BXm1Empty     = map_of_MEs[DirName+"/"+"METPhiPhotonsBarrel_BXm2BXm1Empty"];if(meMETPhiPhotonsBarrel_BXm2BXm1Empty  && meMETPhiPhotonsBarrel_BXm2BXm1Empty ->getRootObject())meMETPhiPhotonsBarrel_BXm2BXm1Empty->Fill(atan2(py_PhotonsBarrel,px_PhotonsBarrel));
      }
      if(pt_sum_PhF_Endcap_plus){
        meMETPhiPhotonsEndcapPlus_BXm2BXm1Empty     = map_of_MEs[DirName+"/"+"METPhiPhotonsEndcapPlus_BXm2BXm1Empty"];if(meMETPhiPhotonsEndcapPlus_BXm2BXm1Empty  && meMETPhiPhotonsEndcapPlus_BXm2BXm1Empty ->getRootObject())meMETPhiPhotonsEndcapPlus_BXm2BXm1Empty->Fill(atan2(py_PhotonsEndcapPlus,px_PhotonsEndcapPlus));
      }
      if(pt_sum_PhF_Endcap_minus){
        meMETPhiPhotonsEndcapMinus_BXm2BXm1Empty     = map_of_MEs[DirName+"/"+"METPhiPhotonsEndcapMinus_BXm2BXm1Empty"];if(meMETPhiPhotonsEndcapMinus_BXm2BXm1Empty  && meMETPhiPhotonsEndcapMinus_BXm2BXm1Empty ->getRootObject())meMETPhiPhotonsEndcapMinus_BXm2BXm1Empty->Fill(atan2(py_PhotonsEndcapMinus,px_PhotonsEndcapMinus));
      }
      if(pt_sum_HFH_plus){
        meMETPhiHFHadronsPlus_BXm2BXm1Empty     = map_of_MEs[DirName+"/"+"METPhiHFHadronsPlus_BXm2BXm1Empty"];if(meMETPhiHFHadronsPlus_BXm2BXm1Empty  && meMETPhiHFHadronsPlus_BXm2BXm1Empty ->getRootObject())meMETPhiHFHadronsPlus_BXm2BXm1Empty->Fill(atan2(py_HFHadronsPlus,px_HFHadronsPlus));
      }
      if(pt_sum_HFH_minus){
        meMETPhiHFHadronsMinus_BXm2BXm1Empty     = map_of_MEs[DirName+"/"+"METPhiHFHadronsMinus_BXm2BXm1Empty"];if(meMETPhiHFHadronsMinus_BXm2BXm1Empty  && meMETPhiHFHadronsMinus_BXm2BXm1Empty ->getRootObject())meMETPhiHFHadronsMinus_BXm2BXm1Empty->Fill(atan2(py_HFHadronsMinus,px_HFHadronsMinus));
      }
      if(pt_sum_HFE_plus){
        meMETPhiHFEGammasPlus_BXm2BXm1Empty     = map_of_MEs[DirName+"/"+"METPhiHFEGammasPlus_BXm2BXm1Empty"];if(meMETPhiHFEGammasPlus_BXm2BXm1Empty  && meMETPhiHFEGammasPlus_BXm2BXm1Empty ->getRootObject())meMETPhiHFEGammasPlus_BXm2BXm1Empty->Fill(atan2(py_HFEGammasPlus,px_HFEGammasPlus));
      }
      if(pt_sum_HFE_minus){
        meMETPhiHFEGammasMinus_BXm2BXm1Empty     = map_of_MEs[DirName+"/"+"METPhiHFEGammasMinus_BXm2BXm1Empty"];if(meMETPhiHFEGammasMinus_BXm2BXm1Empty  && meMETPhiHFEGammasMinus_BXm2BXm1Empty ->getRootObject())meMETPhiHFEGammasMinus_BXm2BXm1Empty->Fill(atan2(py_HFEGammasMinus,px_HFEGammasMinus));
      }
    }
    if(techTriggerCase[2]){//techTriggerResultBx0 && !techTriggerResultBxM1 --> previous bunch empty
      meCHF_Barrel_BXm1Empty=map_of_MEs[DirName+"/"+"PfChargedHadronEtFractionBarrel_BXm1Empty"]; if(meCHF_Barrel_BXm1Empty && meCHF_Barrel_BXm1Empty->getRootObject()) meCHF_Barrel_BXm1Empty->Fill(pt_sum_CHF_Barrel/pfmet.sumEt()); 
      meCHF_EndcapPlus_BXm1Empty=map_of_MEs[DirName+"/"+"PfChargedHadronEtFractionEndcapPlus_BXm1Empty"]; if(meCHF_EndcapPlus_BXm1Empty && meCHF_EndcapPlus_BXm1Empty->getRootObject()) meCHF_EndcapPlus_BXm1Empty->Fill(pt_sum_CHF_Endcap_plus/pfmet.sumEt()); 
      meCHF_EndcapMinus_BXm1Empty=map_of_MEs[DirName+"/"+"PfChargedHadronEtFractionEndcapMinus_BXm1Empty"]; if(meCHF_EndcapMinus_BXm1Empty && meCHF_EndcapMinus_BXm1Empty->getRootObject()) meCHF_EndcapMinus_BXm1Empty->Fill(pt_sum_CHF_Endcap_minus/pfmet.sumEt()); 
      meNHF_Barrel_BXm1Empty=map_of_MEs[DirName+"/"+"PfNeutralHadronEtFractionBarrel_BXm1Empty"]; if(meNHF_Barrel_BXm1Empty && meNHF_Barrel_BXm1Empty->getRootObject()) meNHF_Barrel_BXm1Empty->Fill(pt_sum_NHF_Barrel/pfmet.sumEt()); 
      meNHF_EndcapPlus_BXm1Empty=map_of_MEs[DirName+"/"+"PfNeutralHadronEtFractionEndcapPlus_BXm1Empty"]; if(meNHF_EndcapPlus_BXm1Empty && meNHF_EndcapPlus_BXm1Empty->getRootObject()) meNHF_EndcapPlus_BXm1Empty->Fill(pt_sum_NHF_Endcap_plus/pfmet.sumEt()); 
      meNHF_EndcapMinus_BXm1Empty=map_of_MEs[DirName+"/"+"PfNeutralHadronEtFractionEndcapMinus_BXm1Empty"]; if(meNHF_EndcapMinus_BXm1Empty && meNHF_EndcapMinus_BXm1Empty->getRootObject()) meNHF_EndcapMinus_BXm1Empty->Fill(pt_sum_NHF_Endcap_minus/pfmet.sumEt()); 
      mePhF_Barrel_BXm1Empty=map_of_MEs[DirName+"/"+"PfPhotonEtFractionBarrel_BXm1Empty"]; if(mePhF_Barrel_BXm1Empty && mePhF_Barrel_BXm1Empty->getRootObject()) mePhF_Barrel_BXm1Empty->Fill(pt_sum_PhF_Barrel/pfmet.sumEt()); 
      mePhF_EndcapPlus_BXm1Empty=map_of_MEs[DirName+"/"+"PfPhotonEtFractionEndcapPlus_BXm1Empty"]; if(mePhF_EndcapPlus_BXm1Empty && mePhF_EndcapPlus_BXm1Empty->getRootObject()) mePhF_EndcapPlus_BXm1Empty->Fill(pt_sum_PhF_Endcap_plus/pfmet.sumEt()); 
      mePhF_EndcapMinus_BXm1Empty=map_of_MEs[DirName+"/"+"PfPhotonEtFractionEndcapMinus_BXm1Empty"]; if(mePhF_EndcapMinus_BXm1Empty && mePhF_EndcapMinus_BXm1Empty->getRootObject()) mePhF_EndcapMinus_BXm1Empty->Fill(pt_sum_PhF_Endcap_minus/pfmet.sumEt()); 
      meHFHadF_Plus_BXm1Empty=map_of_MEs[DirName+"/"+"PfHFHadronEtFractionPlus_BXm1Empty"]; if(meHFHadF_Plus_BXm1Empty && meHFHadF_Plus_BXm1Empty->getRootObject()) meHFHadF_Plus_BXm1Empty->Fill(pt_sum_HFH_plus/pfmet.sumEt()); 
      meHFHadF_Minus_BXm1Empty=map_of_MEs[DirName+"/"+"PfHFHadronEtFractionMinus_BXm1Empty"]; if(meHFHadF_Minus_BXm1Empty && meHFHadF_Minus_BXm1Empty->getRootObject()) meHFHadF_Minus_BXm1Empty->Fill(pt_sum_HFH_minus/pfmet.sumEt()); 
      meHFEMF_Plus_BXm1Empty=map_of_MEs[DirName+"/"+"PfHFEMEtFractionPlus_BXm1Empty"]; if(meHFEMF_Plus_BXm1Empty && meHFEMF_Plus_BXm1Empty->getRootObject()) meHFEMF_Plus_BXm1Empty->Fill(pt_sum_HFE_plus/pfmet.sumEt()); 
      meHFEMF_Minus_BXm1Empty=map_of_MEs[DirName+"/"+"PfHFEMEtFractionMinus_BXm1Empty"]; if(meHFEMF_Minus_BXm1Empty && meHFEMF_Minus_BXm1Empty->getRootObject()) meHFEMF_Minus_BXm1Empty->Fill(pt_sum_HFE_minus/pfmet.sumEt());
      mePhotonEtFraction_BXm1Empty    = map_of_MEs[DirName+"/"+"PfPhotonEtFraction_BXm1Empty"];     if (  mePhotonEtFraction_BXm1Empty  && mePhotonEtFraction_BXm1Empty ->getRootObject())  mePhotonEtFraction_BXm1Empty  ->Fill(pfmet.photonEtFraction());
      meNeutralHadronEtFraction_BXm1Empty    = map_of_MEs[DirName+"/"+"PfNeutralHadronEtFraction_BXm1Empty"];     if (  meNeutralHadronEtFraction_BXm1Empty  && meNeutralHadronEtFraction_BXm1Empty ->getRootObject())  meNeutralHadronEtFraction_BXm1Empty  ->Fill(pfmet.neutralHadronEtFraction());
      meChargedHadronEtFraction_BXm1Empty    = map_of_MEs[DirName+"/"+"PfChargedHadronEtFraction_BXm1Empty"];     if (  meChargedHadronEtFraction_BXm1Empty  && meChargedHadronEtFraction_BXm1Empty ->getRootObject())  meChargedHadronEtFraction_BXm1Empty  ->Fill(pfmet.chargedHadronEtFraction());
      meMET_BXm1Empty    = map_of_MEs[DirName+"/"+"MET_BXm1Empty"];     if (  meMET_BXm1Empty  && meMET_BXm1Empty ->getRootObject())  meMET_BXm1Empty  ->Fill(pfmet.pt());
      meSumET_BXm1Empty    = map_of_MEs[DirName+"/"+"SumET_BXm1Empty"];     if (  meSumET_BXm1Empty  && meSumET_BXm1Empty ->getRootObject())  meSumET_BXm1Empty  ->Fill(pfmet.sumEt());
      if(pt_sum_CHF_Barrel){
        meMETPhiChargedHadronsBarrel_BXm1Empty     = map_of_MEs[DirName+"/"+"METPhiChargedHadronsBarrel_BXm1Empty"];if(meMETPhiChargedHadronsBarrel_BXm1Empty  && meMETPhiChargedHadronsBarrel_BXm1Empty ->getRootObject())meMETPhiChargedHadronsBarrel_BXm1Empty->Fill(atan2(py_chargedHadronsBarrel,px_chargedHadronsBarrel));
      }
      if(pt_sum_CHF_Endcap_plus){
        meMETPhiChargedHadronsEndcapPlus_BXm1Empty  = map_of_MEs[DirName+"/"+"METPhiChargedHadronsEndcapPlus_BXm1Empty"];if(meMETPhiChargedHadronsEndcapPlus_BXm1Empty  && meMETPhiChargedHadronsEndcapPlus_BXm1Empty ->getRootObject())meMETPhiChargedHadronsEndcapPlus_BXm1Empty->Fill(atan2(py_chargedHadronsEndcapPlus,px_chargedHadronsEndcapPlus));
      }
      if(pt_sum_CHF_Endcap_minus){
        meMETPhiChargedHadronsEndcapMinus_BXm1Empty     = map_of_MEs[DirName+"/"+"METPhiChargedHadronsEndcapMinus_BXm1Empty"];if(meMETPhiChargedHadronsEndcapMinus_BXm1Empty  && meMETPhiChargedHadronsEndcapMinus_BXm1Empty ->getRootObject())meMETPhiChargedHadronsEndcapMinus_BXm1Empty->Fill(atan2(py_chargedHadronsEndcapMinus,px_chargedHadronsEndcapMinus));
      }
      if(pt_sum_NHF_Barrel){
        meMETPhiNeutralHadronsBarrel_BXm1Empty     = map_of_MEs[DirName+"/"+"METPhiNeutralHadronsBarrel_BXm1Empty"];if(meMETPhiNeutralHadronsBarrel_BXm1Empty  && meMETPhiNeutralHadronsBarrel_BXm1Empty ->getRootObject())meMETPhiNeutralHadronsBarrel_BXm1Empty->Fill(atan2(py_neutralHadronsBarrel,px_neutralHadronsBarrel));
      }
      if(pt_sum_NHF_Endcap_plus){
        meMETPhiNeutralHadronsEndcapPlus_BXm1Empty     = map_of_MEs[DirName+"/"+"METPhiNeutralHadronsEndcapPlus_BXm1Empty"];if(meMETPhiNeutralHadronsEndcapPlus_BXm1Empty  && meMETPhiNeutralHadronsEndcapPlus_BXm1Empty ->getRootObject())meMETPhiNeutralHadronsEndcapPlus_BXm1Empty->Fill(atan2(py_neutralHadronsEndcapPlus,px_neutralHadronsEndcapPlus));
      }
      if(pt_sum_NHF_Endcap_minus){
        meMETPhiNeutralHadronsEndcapMinus_BXm1Empty     = map_of_MEs[DirName+"/"+"METPhiNeutralHadronsEndcapMinus_BXm1Empty"];if(meMETPhiNeutralHadronsEndcapMinus_BXm1Empty  && meMETPhiNeutralHadronsEndcapMinus_BXm1Empty ->getRootObject())meMETPhiNeutralHadronsEndcapMinus_BXm1Empty->Fill(atan2(py_neutralHadronsEndcapMinus,px_neutralHadronsEndcapMinus));
      }
      if(pt_sum_PhF_Barrel){
        meMETPhiPhotonsBarrel_BXm1Empty     = map_of_MEs[DirName+"/"+"METPhiPhotonsBarrel_BXm1Empty"];if(meMETPhiPhotonsBarrel_BXm1Empty  && meMETPhiPhotonsBarrel_BXm1Empty ->getRootObject())meMETPhiPhotonsBarrel_BXm1Empty->Fill(atan2(py_PhotonsBarrel,px_PhotonsBarrel));
      }
      if(pt_sum_PhF_Endcap_plus){
        meMETPhiPhotonsEndcapPlus_BXm1Empty     = map_of_MEs[DirName+"/"+"METPhiPhotonsEndcapPlus_BXm1Empty"];if(meMETPhiPhotonsEndcapPlus_BXm1Empty  && meMETPhiPhotonsEndcapPlus_BXm1Empty ->getRootObject())meMETPhiPhotonsEndcapPlus_BXm1Empty->Fill(atan2(py_PhotonsEndcapPlus,px_PhotonsEndcapPlus));
      }
      if(pt_sum_PhF_Endcap_minus){
        meMETPhiPhotonsEndcapMinus_BXm1Empty     = map_of_MEs[DirName+"/"+"METPhiPhotonsEndcapMinus_BXm1Empty"];if(meMETPhiPhotonsEndcapMinus_BXm1Empty  && meMETPhiPhotonsEndcapMinus_BXm1Empty ->getRootObject())meMETPhiPhotonsEndcapMinus_BXm1Empty->Fill(atan2(py_PhotonsEndcapMinus,px_PhotonsEndcapMinus));
      }
      if(pt_sum_HFH_plus){
        meMETPhiHFHadronsPlus_BXm1Empty     = map_of_MEs[DirName+"/"+"METPhiHFHadronsPlus_BXm1Empty"];if(meMETPhiHFHadronsPlus_BXm1Empty  && meMETPhiHFHadronsPlus_BXm1Empty ->getRootObject())meMETPhiHFHadronsPlus_BXm1Empty->Fill(atan2(py_HFHadronsPlus,px_HFHadronsPlus));
      }
      if(pt_sum_HFH_minus){
        meMETPhiHFHadronsMinus_BXm1Empty     = map_of_MEs[DirName+"/"+"METPhiHFHadronsMinus_BXm1Empty"];if(meMETPhiHFHadronsMinus_BXm1Empty  && meMETPhiHFHadronsMinus_BXm1Empty ->getRootObject())meMETPhiHFHadronsMinus_BXm1Empty->Fill(atan2(py_HFHadronsMinus,px_HFHadronsMinus));
      }
      if(pt_sum_HFE_plus){
        meMETPhiHFEGammasPlus_BXm1Empty     = map_of_MEs[DirName+"/"+"METPhiHFEGammasPlus_BXm1Empty"];if(meMETPhiHFEGammasPlus_BXm1Empty  && meMETPhiHFEGammasPlus_BXm1Empty ->getRootObject())meMETPhiHFEGammasPlus_BXm1Empty->Fill(atan2(py_HFEGammasPlus,px_HFEGammasPlus)); \
      }
      if(pt_sum_HFE_minus){
        meMETPhiHFEGammasMinus_BXm1Empty     = map_of_MEs[DirName+"/"+"METPhiHFEGammasMinus_BXm1Empty"];if(meMETPhiHFEGammasMinus_BXm1Empty  && meMETPhiHFEGammasMinus_BXm1Empty ->getRootObject())meMETPhiHFEGammasMinus_BXm1Empty->Fill(atan2(py_HFEGammasMinus,px_HFEGammasMinus));
      }
    }

      }//fill candidate plots only then
      
      // PFMET getters
      //----------------------------------------------------------------------------
      double pfPhotonEtFraction        = pfmet.photonEtFraction();
      double pfPhotonEt                = pfmet.photonEt();
      double pfNeutralHadronEtFraction = pfmet.neutralHadronEtFraction();
      double pfNeutralHadronEt         = pfmet.neutralHadronEt();
      double pfElectronEt              = pfmet.electronEt();
      double pfChargedHadronEtFraction = pfmet.chargedHadronEtFraction();
      double pfChargedHadronEt         = pfmet.chargedHadronEt();
      double pfMuonEt                  = pfmet.muonEt();
      double pfHFHadronEtFraction      = pfmet.HFHadronEtFraction();
      double pfHFHadronEt              = pfmet.HFHadronEt();
      double pfHFEMEtFraction          = pfmet.HFEMEtFraction();
      double pfHFEMEt                  = pfmet.HFEMEt();
      mePhotonEtFraction        = map_of_MEs[DirName + "/PfPhotonEtFraction"];
      mePhotonEt                = map_of_MEs[DirName + "/PfPhotonEt"];
      meNeutralHadronEtFraction = map_of_MEs[DirName + "/PfNeutralHadronEtFraction"];
      meNeutralHadronEt         = map_of_MEs[DirName + "/PfNeutralHadronEt"];
      meElectronEt              = map_of_MEs[DirName + "/PfElectronEt"];
      meChargedHadronEtFraction = map_of_MEs[DirName + "/PfChargedHadronEtFraction"];
      meChargedHadronEt         = map_of_MEs[DirName + "/PfChargedHadronEt"];
      meMuonEt                  = map_of_MEs[DirName + "/PfMuonEt"];
      meHFHadronEtFraction      = map_of_MEs[DirName + "/PfHFHadronEtFraction"];
      meHFHadronEt              = map_of_MEs[DirName + "/PfHFHadronEt"];
      meHFEMEtFraction          = map_of_MEs[DirName + "/PfHFEMEtFraction"];
      meHFEMEt                  = map_of_MEs[DirName + "/PfHFEMEt"];
      
      if (mePhotonEtFraction        && mePhotonEtFraction       ->getRootObject()) mePhotonEtFraction       ->Fill(pfPhotonEtFraction);
      if (mePhotonEt                && mePhotonEt               ->getRootObject()) mePhotonEt               ->Fill(pfPhotonEt);
      if (meNeutralHadronEtFraction && meNeutralHadronEtFraction->getRootObject()) meNeutralHadronEtFraction->Fill(pfNeutralHadronEtFraction);
      if (meNeutralHadronEt         && meNeutralHadronEt        ->getRootObject()) meNeutralHadronEt        ->Fill(pfNeutralHadronEt);
      if (meElectronEt              && meElectronEt             ->getRootObject()) meElectronEt             ->Fill(pfElectronEt);
      if (meChargedHadronEtFraction && meChargedHadronEtFraction->getRootObject()) meChargedHadronEtFraction->Fill(pfChargedHadronEtFraction);
      if (meChargedHadronEt         && meChargedHadronEt        ->getRootObject()) meChargedHadronEt        ->Fill(pfChargedHadronEt);
      if (meMuonEt                  && meMuonEt                 ->getRootObject()) meMuonEt                 ->Fill(pfMuonEt);
      if (meHFHadronEtFraction      && meHFHadronEtFraction     ->getRootObject()) meHFHadronEtFraction     ->Fill(pfHFHadronEtFraction);
      if (meHFHadronEt              && meHFHadronEt             ->getRootObject()) meHFHadronEt             ->Fill(pfHFHadronEt);
      if (meHFEMEtFraction          && meHFEMEtFraction         ->getRootObject()) meHFEMEtFraction         ->Fill(pfHFEMEtFraction);
      if (meHFEMEt                  && meHFEMEt                 ->getRootObject()) meHFEMEt                 ->Fill(pfHFEMEt);

      //NPV profiles     
      
      mePhotonEtFraction_profile        = map_of_MEs[DirName + "/PfPhotonEtFraction_profile"];
      mePhotonEt_profile                = map_of_MEs[DirName + "/PfPhotonEt_profile"];
      meNeutralHadronEtFraction_profile = map_of_MEs[DirName + "/PfNeutralHadronEtFraction_profile"];
      meNeutralHadronEt_profile         = map_of_MEs[DirName + "/PfNeutralHadronEt_profile"];
      meChargedHadronEtFraction_profile = map_of_MEs[DirName + "/PfChargedHadronEtFraction_profile"];
      meChargedHadronEt_profile         = map_of_MEs[DirName + "/PfChargedHadronEt_profile"];
      meHFHadronEtFraction_profile      = map_of_MEs[DirName + "/PfHFHadronEtFraction_profile"];
      meHFHadronEt_profile              = map_of_MEs[DirName + "/PfHFHadronEt_profile"];
      meHFEMEtFraction_profile          = map_of_MEs[DirName + "/PfHFEMEtFraction_profile"];
      meHFEMEt_profile                  = map_of_MEs[DirName + "/PfHFEMEt_profile"];
      
      if (mePhotonEtFraction_profile        && mePhotonEtFraction_profile       ->getRootObject()) mePhotonEtFraction_profile       ->Fill(numPV_, pfPhotonEtFraction);
      if (mePhotonEt_profile                && mePhotonEt_profile               ->getRootObject()) mePhotonEt_profile               ->Fill(numPV_, pfPhotonEt);
      if (meNeutralHadronEtFraction_profile && meNeutralHadronEtFraction_profile->getRootObject()) meNeutralHadronEtFraction_profile->Fill(numPV_, pfNeutralHadronEtFraction);
      if (meNeutralHadronEt_profile         && meNeutralHadronEt_profile        ->getRootObject()) meNeutralHadronEt_profile        ->Fill(numPV_, pfNeutralHadronEt);
      if (meChargedHadronEtFraction_profile && meChargedHadronEtFraction_profile->getRootObject()) meChargedHadronEtFraction_profile->Fill(numPV_, pfChargedHadronEtFraction);
      if (meChargedHadronEt_profile         && meChargedHadronEt_profile        ->getRootObject()) meChargedHadronEt_profile        ->Fill(numPV_, pfChargedHadronEt);
      if (meHFHadronEtFraction_profile      && meHFHadronEtFraction_profile     ->getRootObject()) meHFHadronEtFraction_profile     ->Fill(numPV_, pfHFHadronEtFraction);
      if (meHFHadronEt_profile              && meHFHadronEt_profile             ->getRootObject()) meHFHadronEt_profile             ->Fill(numPV_, pfHFHadronEt);
      if (meHFEMEtFraction_profile          && meHFEMEtFraction_profile         ->getRootObject()) meHFEMEtFraction_profile         ->Fill(numPV_, pfHFEMEtFraction);
      if (meHFEMEt_profile                  && meHFEMEt_profile                 ->getRootObject()) meHFEMEt_profile                 ->Fill(numPV_, pfHFEMEt);
    }

    if(isMiniAODMet_){
      mePhotonEtFraction        = map_of_MEs[DirName + "/PfPhotonEtFraction"];
      meNeutralHadronEtFraction = map_of_MEs[DirName + "/PfNeutralHadronEtFraction"];
      meChargedHadronEtFraction = map_of_MEs[DirName + "/PfChargedHadronEtFraction"];
      meHFHadronEtFraction      = map_of_MEs[DirName + "/PfHFHadronEtFraction"];
      meHFEMEtFraction          = map_of_MEs[DirName + "/PfHFEMEtFraction"];
      
      if (mePhotonEtFraction        && mePhotonEtFraction       ->getRootObject()) mePhotonEtFraction       ->Fill(patmet.NeutralEMFraction());
      if (meNeutralHadronEtFraction && meNeutralHadronEtFraction->getRootObject()) meNeutralHadronEtFraction->Fill(patmet.NeutralHadEtFraction());
      if (meChargedHadronEtFraction && meChargedHadronEtFraction->getRootObject()) meChargedHadronEtFraction->Fill(patmet.ChargedHadEtFraction());
      if (meHFHadronEtFraction      && meHFHadronEtFraction     ->getRootObject()) meHFHadronEtFraction     ->Fill(patmet.Type6EtFraction());//HFHadrons
      if (meHFEMEtFraction          && meHFEMEtFraction         ->getRootObject()) meHFEMEtFraction         ->Fill(patmet.Type7EtFraction());

      //NPV profiles     
      mePhotonEtFraction_profile        = map_of_MEs[DirName + "/PfPhotonEtFraction_profile"];
      meNeutralHadronEtFraction_profile = map_of_MEs[DirName + "/PfNeutralHadronEtFraction_profile"];
      meChargedHadronEtFraction_profile = map_of_MEs[DirName + "/PfChargedHadronEtFraction_profile"];
      meHFHadronEtFraction_profile      = map_of_MEs[DirName + "/PfHFHadronEtFraction_profile"];
      meHFEMEtFraction_profile          = map_of_MEs[DirName + "/PfHFEMEtFraction_profile"];
      
      if (mePhotonEtFraction_profile        && mePhotonEtFraction_profile       ->getRootObject()) mePhotonEtFraction_profile       ->Fill(numPV_, patmet.NeutralEMFraction());
      if (meNeutralHadronEtFraction_profile && meNeutralHadronEtFraction_profile->getRootObject()) meNeutralHadronEtFraction_profile->Fill(numPV_, patmet.NeutralHadEtFraction());
      if (meChargedHadronEtFraction_profile && meChargedHadronEtFraction_profile->getRootObject()) meChargedHadronEtFraction_profile->Fill(numPV_, patmet.ChargedHadEtFraction());
      if (meHFHadronEtFraction_profile      && meHFHadronEtFraction_profile     ->getRootObject()) meHFHadronEtFraction_profile     ->Fill(numPV_, patmet.Type6EtFraction());
      if (meHFEMEtFraction_profile          && meHFEMEtFraction_profile         ->getRootObject()) meHFEMEtFraction_profile         ->Fill(numPV_, patmet.Type7EtFraction());
    }

    if (isCaloMet_){
      //if (bLumiSecPlot){//get from config level
      if (fill_met_high_level_histo){
    hMExLS = map_of_MEs[DirName+"/"+"MExLS"]; if (hMExLS  &&  hMExLS->getRootObject())   hMExLS->Fill(MEx,myLuminosityBlock);
    hMEyLS = map_of_MEs[DirName+"/"+"MEyLS"]; if (hMEyLS  &&  hMEyLS->getRootObject())   hMEyLS->Fill(MEy,myLuminosityBlock);
      }
    }
  }//check if we only wanna do Z plots
}

void METAnalyzer::makeRatePlot	(	std::string	DirName,
		double	totltime
	)

Definition at line 1019 of file METAnalyzer.cc.

References MonitorElement::getRootObject(), MonitorElement::getTH1F(), i, and MonitorElement::setBinContent().

{
  
  //dbe_->setCurrentFolder(DirName);
  MonitorElement *meMET = map_dijet_MEs[DirName+"/"+"MET"];
  MonitorElement *mMETRate = map_dijet_MEs[DirName+"/"+"METRate"];

  TH1F* tMET;
  TH1F* tMETRate;

  if ( meMET && mMETRate){
    if ( meMET->getRootObject() && mMETRate->getRootObject()) {
      tMET     = meMET->getTH1F();

      // Integral plot & convert number of events to rate (hz)
      tMETRate = (TH1F*) tMET->Clone("METRateHist");
      for (int i = tMETRate->GetNbinsX()-1; i>=0; i--){
    mMETRate->setBinContent(i+1,tMETRate->GetBinContent(i+2)+tMET->GetBinContent(i+1));
      }
      for (int i = 0; i<tMETRate->GetNbinsX(); i++){
    mMETRate->setBinContent(i+1,tMETRate->GetBinContent(i+1)/double(totltime));
      }
    }
  }
  
}

Member Data Documentation

std::vector< int > METAnalyzer::allTriggerDecisions_

private

Definition at line 182 of file METAnalyzer.h.

std::vector<std::string > METAnalyzer::allTriggerNames_

private

Definition at line 181 of file METAnalyzer.h.

math::XYZPoint METAnalyzer::beamSpot_

private

Definition at line 263 of file METAnalyzer.h.

bool METAnalyzer::bypassAllDCSChecks_

private

Definition at line 231 of file METAnalyzer.h.

bool METAnalyzer::bypassAllPVChecks_

private

Definition at line 230 of file METAnalyzer.h.

edm::EDGetTokenT<reco::CaloJetCollection> METAnalyzer::caloJetsToken_

private

Definition at line 152 of file METAnalyzer.h.

edm::EDGetTokenT<reco::CaloMETCollection> METAnalyzer::caloMetToken_

private

Definition at line 161 of file METAnalyzer.h.

edm::ParameterSet METAnalyzer::cleaningParameters_

private

Definition at line 217 of file METAnalyzer.h.

std::vector<int> METAnalyzer::countsPFCand_

private

Definition at line 509 of file METAnalyzer.h.

JetMETDQMDCSFilter* METAnalyzer::DCSFilter_

private

Definition at line 259 of file METAnalyzer.h.

std::vector<edm::ParameterSet> METAnalyzer::diagnosticsParameters_

private

Definition at line 218 of file METAnalyzer.h.

std::vector<double> METAnalyzer::etaMaxPFCand_

private

Definition at line 508 of file METAnalyzer.h.

std::vector<double> METAnalyzer::etaMinPFCand_

private

Definition at line 508 of file METAnalyzer.h.

std::vector<int> METAnalyzer::etaNBinsPFCand_

private

Definition at line 509 of file METAnalyzer.h.

bool METAnalyzer::fill_met_high_level_histo

private

Definition at line 571 of file METAnalyzer.h.

bool METAnalyzer::fillCandidateMap_histos

private

Definition at line 572 of file METAnalyzer.h.

std::string METAnalyzer::FolderName_

private

Definition at line 141 of file METAnalyzer.h.

std::vector<std::string> METAnalyzer::folderNames_

private

Definition at line 261 of file METAnalyzer.h.

edm::InputTag METAnalyzer::gtTag_

private

Definition at line 148 of file METAnalyzer.h.

edm::EDGetTokenT<L1GlobalTriggerReadoutRecord> METAnalyzer::gtToken_

private

Definition at line 151 of file METAnalyzer.h.

edm::InputTag METAnalyzer::hbheNoiseFilterResultTag_

private

Definition at line 146 of file METAnalyzer.h.

edm::EDGetTokenT<bool> METAnalyzer::hbheNoiseFilterResultToken_

private

Definition at line 157 of file METAnalyzer.h.

double METAnalyzer::hcalMin_

private

Definition at line 492 of file METAnalyzer.h.

edm::InputTag METAnalyzer::hcalNoiseRBXCollectionTag_

private

Definition at line 144 of file METAnalyzer.h.

MonitorElement* METAnalyzer::hCaloEmEtFraction

private

Definition at line 293 of file METAnalyzer.h.

MonitorElement* METAnalyzer::hCaloEmEtFraction020

private

Definition at line 297 of file METAnalyzer.h.

MonitorElement* METAnalyzer::hCaloEmEtInEB

private

Definition at line 305 of file METAnalyzer.h.

MonitorElement* METAnalyzer::hCaloEmEtInEE

private

Definition at line 304 of file METAnalyzer.h.

MonitorElement* METAnalyzer::hCaloEmEtInHF

private

Definition at line 303 of file METAnalyzer.h.

MonitorElement* METAnalyzer::hCaloEmMET

private

Definition at line 310 of file METAnalyzer.h.

MonitorElement* METAnalyzer::hCaloEmMETPhi

private

Definition at line 311 of file METAnalyzer.h.

MonitorElement* METAnalyzer::hCaloEmMEx

private

Definition at line 307 of file METAnalyzer.h.

MonitorElement* METAnalyzer::hCaloEmMEy

private

Definition at line 308 of file METAnalyzer.h.

MonitorElement* METAnalyzer::hCaloEtFractionHadronic

private

Definition at line 292 of file METAnalyzer.h.

MonitorElement* METAnalyzer::hCaloHadEtInHB

private

Definition at line 299 of file METAnalyzer.h.

MonitorElement* METAnalyzer::hCaloHadEtInHE

private

Definition at line 301 of file METAnalyzer.h.

MonitorElement* METAnalyzer::hCaloHadEtInHF

private

Definition at line 302 of file METAnalyzer.h.

MonitorElement* METAnalyzer::hCaloHadEtInHO

private

Definition at line 300 of file METAnalyzer.h.

MonitorElement* METAnalyzer::hCaloHaMET

private

Definition at line 317 of file METAnalyzer.h.

MonitorElement* METAnalyzer::hCaloHaMETPhi

private

Definition at line 318 of file METAnalyzer.h.

MonitorElement* METAnalyzer::hCaloHaMEx

private

Definition at line 314 of file METAnalyzer.h.

MonitorElement* METAnalyzer::hCaloHaMEy

private

Definition at line 315 of file METAnalyzer.h.

MonitorElement* METAnalyzer::hCaloMETPhi020

private

Definition at line 291 of file METAnalyzer.h.

double METAnalyzer::hfCalibFactor_

private

Definition at line 256 of file METAnalyzer.h.

HLTConfigProvider METAnalyzer::hltConfig_

private

Definition at line 175 of file METAnalyzer.h.

std::string METAnalyzer::hltPhysDec_

private

Definition at line 220 of file METAnalyzer.h.

MonitorElement* METAnalyzer::hMET

private

Definition at line 280 of file METAnalyzer.h.

MonitorElement* METAnalyzer::hMET_logx

private

Definition at line 287 of file METAnalyzer.h.

MonitorElement* METAnalyzer::hMETPhi

private

Definition at line 281 of file METAnalyzer.h.

MonitorElement* METAnalyzer::hMETRate

private

Definition at line 215 of file METAnalyzer.h.

MonitorElement* METAnalyzer::hMETSig

private

Definition at line 279 of file METAnalyzer.h.

MonitorElement* METAnalyzer::hMEx

private

Definition at line 276 of file METAnalyzer.h.

MonitorElement* METAnalyzer::hMExLS

private

Definition at line 284 of file METAnalyzer.h.

MonitorElement* METAnalyzer::hMEy

private

Definition at line 277 of file METAnalyzer.h.

MonitorElement* METAnalyzer::hMEyLS

private

Definition at line 285 of file METAnalyzer.h.

MonitorElement* METAnalyzer::hSumET

private

Definition at line 282 of file METAnalyzer.h.

MonitorElement* METAnalyzer::hSumET_logx

private

Definition at line 288 of file METAnalyzer.h.

MonitorElement* METAnalyzer::hTrigger

private

Definition at line 274 of file METAnalyzer.h.

bool METAnalyzer::hTriggerLabelsIsSet_

private

Definition at line 269 of file METAnalyzer.h.

edm::InputTag METAnalyzer::inputJetIDValueMap

private

Definition at line 163 of file METAnalyzer.h.

bool METAnalyzer::isCaloMet_

private

Definition at line 567 of file METAnalyzer.h.

bool METAnalyzer::isMiniAODMet_

private

Definition at line 569 of file METAnalyzer.h.

bool METAnalyzer::isPFMet_

private

Definition at line 568 of file METAnalyzer.h.

edm::InputTag METAnalyzer::jetCollectionLabel_

private

Definition at line 145 of file METAnalyzer.h.

edm::EDGetTokenT<reco::JetCorrector> METAnalyzer::jetCorrectorToken_

private

Definition at line 184 of file METAnalyzer.h.

edm::EDGetTokenT<edm::ValueMap <reco::JetID> > METAnalyzer::jetID_ValueMapToken_

private

Definition at line 164 of file METAnalyzer.h.

JetIDSelectionFunctor METAnalyzer::jetIDFunctorLoose

private

Definition at line 166 of file METAnalyzer.h.

int METAnalyzer::LSBegin_

private

Definition at line 227 of file METAnalyzer.h.

int METAnalyzer::LSEnd_

private

Definition at line 228 of file METAnalyzer.h.

MonitorElement* METAnalyzer::lumisecME

private

Definition at line 273 of file METAnalyzer.h.

int METAnalyzer::m_bitAlgTechTrig_

private

Definition at line 171 of file METAnalyzer.h.

std::string METAnalyzer::m_l1algoname_

private

Definition at line 170 of file METAnalyzer.h.

std::map< std::string,MonitorElement* > METAnalyzer::map_dijet_MEs

private

Definition at line 563 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meChargedHadronEt

private

Definition at line 329 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meChargedHadronEt_profile

private

Definition at line 539 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meChargedHadronEtFraction

private

Definition at line 328 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meChargedHadronEtFraction_BXm1Empty

private

Definition at line 359 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meChargedHadronEtFraction_BXm1Filled

private

Definition at line 380 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meChargedHadronEtFraction_BXm2BXm1Empty

private

Definition at line 338 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meChargedHadronEtFraction_BXm2BXm1Filled

private

Definition at line 399 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meChargedHadronEtFraction_profile

private

Definition at line 538 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meCHF_Barrel

private

Definition at line 405 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meCHF_Barrel_BXm1Empty

private

Definition at line 408 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meCHF_Barrel_BXm1Filled

private

Definition at line 414 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meCHF_Barrel_BXm2BXm1Empty

private

Definition at line 411 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meCHF_Barrel_BXm2BXm1Filled

private

Definition at line 417 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meCHF_EndcapMinus

private

Definition at line 407 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meCHF_EndcapMinus_BXm1Empty

private

Definition at line 410 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meCHF_EndcapMinus_BXm1Filled

private

Definition at line 416 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meCHF_EndcapMinus_BXm2BXm1Empty

private

Definition at line 413 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meCHF_EndcapMinus_BXm2BXm1Filled

private

Definition at line 419 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meCHF_EndcapPlus

private

Definition at line 406 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meCHF_EndcapPlus_BXm1Empty

private

Definition at line 409 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meCHF_EndcapPlus_BXm1Filled

private

Definition at line 415 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meCHF_EndcapPlus_BXm2BXm1Empty

private

Definition at line 412 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meCHF_EndcapPlus_BXm2BXm1Filled

private

Definition at line 418 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meElectronEt

private

Definition at line 327 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meHFEMEt

private

Definition at line 334 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meHFEMEt_profile

private

Definition at line 543 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meHFEMEtFraction

private

Definition at line 333 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meHFEMEtFraction_profile

private

Definition at line 542 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meHFEMF_Minus

private

Definition at line 465 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meHFEMF_Minus_BXm1Empty

private

Definition at line 467 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meHFEMF_Minus_BXm1Filled

private

Definition at line 471 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meHFEMF_Minus_BXm2BXm1Empty

private

Definition at line 469 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meHFEMF_Minus_BXm2BXm1Filled

private

Definition at line 473 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meHFEMF_Plus

private

Definition at line 464 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meHFEMF_Plus_BXm1Empty

private

Definition at line 466 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meHFEMF_Plus_BXm1Filled

private

Definition at line 470 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meHFEMF_Plus_BXm2BXm1Empty

private

Definition at line 468 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meHFEMF_Plus_BXm2BXm1Filled

private

Definition at line 472 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meHFHadF_Minus

private

Definition at line 454 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meHFHadF_Minus_BXm1Empty

private

Definition at line 456 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meHFHadF_Minus_BXm1Filled

private

Definition at line 460 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meHFHadF_Minus_BXm2BXm1Empty

private

Definition at line 458 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meHFHadF_Minus_BXm2BXm1Filled

private

Definition at line 462 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meHFHadF_Plus

private

Definition at line 453 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meHFHadF_Plus_BXm1Empty

private

Definition at line 455 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meHFHadF_Plus_BXm1Filled

private

Definition at line 459 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meHFHadF_Plus_BXm2BXm1Empty

private

Definition at line 457 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meHFHadF_Plus_BXm2BXm1Filled

private

Definition at line 461 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meHFHadronEt

private

Definition at line 332 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meHFHadronEt_profile

private

Definition at line 541 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meHFHadronEtFraction

private

Definition at line 331 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meHFHadronEtFraction_profile

private

Definition at line 540 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meMET_BXm1Empty

private

Definition at line 360 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meMET_BXm1Filled

private

Definition at line 381 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meMET_BXm2BXm1Empty

private

Definition at line 339 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meMET_BXm2BXm1Filled

private

Definition at line 402 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meMET_profile

private

Definition at line 531 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meMETPhiChargedHadronsBarrel

private

Definition at line 511 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meMETPhiChargedHadronsBarrel_BXm1Empty

private

Definition at line 363 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meMETPhiChargedHadronsBarrel_BXm1Filled

private

Definition at line 384 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meMETPhiChargedHadronsBarrel_BXm2BXm1Empty

private

Definition at line 342 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meMETPhiChargedHadronsBarrel_BXm2BXm1Filled

private

Definition at line 475 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meMETPhiChargedHadronsEndcapMinus

private

Definition at line 513 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meMETPhiChargedHadronsEndcapMinus_BXm1Empty

private

Definition at line 365 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meMETPhiChargedHadronsEndcapMinus_BXm1Filled

private

Definition at line 386 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meMETPhiChargedHadronsEndcapMinus_BXm2BXm1Empty

private

Definition at line 344 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meMETPhiChargedHadronsEndcapMinus_BXm2BXm1Filled

private

Definition at line 477 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meMETPhiChargedHadronsEndcapPlus

private

Definition at line 512 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meMETPhiChargedHadronsEndcapPlus_BXm1Empty

private

Definition at line 364 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meMETPhiChargedHadronsEndcapPlus_BXm1Filled

private

Definition at line 385 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meMETPhiChargedHadronsEndcapPlus_BXm2BXm1Empty

private

Definition at line 343 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meMETPhiChargedHadronsEndcapPlus_BXm2BXm1Filled

private

Definition at line 476 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meMETPhiHFEGammasMinus

private

Definition at line 523 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meMETPhiHFEGammasMinus_BXm1Empty

private

Definition at line 375 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meMETPhiHFEGammasMinus_BXm1Filled

private

Definition at line 396 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meMETPhiHFEGammasMinus_BXm2BXm1Empty

private

Definition at line 354 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meMETPhiHFEGammasMinus_BXm2BXm1Filled

private

Definition at line 487 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meMETPhiHFEGammasPlus

private

Definition at line 522 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meMETPhiHFEGammasPlus_BXm1Empty

private

Definition at line 374 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meMETPhiHFEGammasPlus_BXm1Filled

private

Definition at line 395 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meMETPhiHFEGammasPlus_BXm2BXm1Empty

private

Definition at line 353 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meMETPhiHFEGammasPlus_BXm2BXm1Filled

private

Definition at line 486 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meMETPhiHFHadronsMinus

private

Definition at line 521 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meMETPhiHFHadronsMinus_BXm1Empty

private

Definition at line 373 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meMETPhiHFHadronsMinus_BXm1Filled

private

Definition at line 394 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meMETPhiHFHadronsMinus_BXm2BXm1Empty

private

Definition at line 352 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meMETPhiHFHadronsMinus_BXm2BXm1Filled

private

Definition at line 485 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meMETPhiHFHadronsPlus

private

Definition at line 520 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meMETPhiHFHadronsPlus_BXm1Empty

private

Definition at line 372 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meMETPhiHFHadronsPlus_BXm1Filled

private

Definition at line 393 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meMETPhiHFHadronsPlus_BXm2BXm1Empty

private

Definition at line 351 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meMETPhiHFHadronsPlus_BXm2BXm1Filled

private

Definition at line 484 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meMETPhiNeutralHadronsBarrel

private

Definition at line 514 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meMETPhiNeutralHadronsBarrel_BXm1Empty

private

Definition at line 366 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meMETPhiNeutralHadronsBarrel_BXm1Filled

private

Definition at line 387 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meMETPhiNeutralHadronsBarrel_BXm2BXm1Empty

private

Definition at line 345 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meMETPhiNeutralHadronsBarrel_BXm2BXm1Filled

private

Definition at line 478 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meMETPhiNeutralHadronsEndcapMinus

private

Definition at line 516 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meMETPhiNeutralHadronsEndcapMinus_BXm1Empty

private

Definition at line 368 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meMETPhiNeutralHadronsEndcapMinus_BXm1Filled

private

Definition at line 389 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meMETPhiNeutralHadronsEndcapMinus_BXm2BXm1Empty

private

Definition at line 347 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meMETPhiNeutralHadronsEndcapMinus_BXm2BXm1Filled

private

Definition at line 480 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meMETPhiNeutralHadronsEndcapPlus

private

Definition at line 515 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meMETPhiNeutralHadronsEndcapPlus_BXm1Empty

private

Definition at line 367 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meMETPhiNeutralHadronsEndcapPlus_BXm1Filled

private

Definition at line 388 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meMETPhiNeutralHadronsEndcapPlus_BXm2BXm1Empty

private

Definition at line 346 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meMETPhiNeutralHadronsEndcapPlus_BXm2BXm1Filled

private

Definition at line 479 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meMETPhiPhotonsBarrel

private

Definition at line 517 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meMETPhiPhotonsBarrel_BXm1Empty

private

Definition at line 369 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meMETPhiPhotonsBarrel_BXm1Filled

private

Definition at line 390 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meMETPhiPhotonsBarrel_BXm2BXm1Empty

private

Definition at line 348 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meMETPhiPhotonsBarrel_BXm2BXm1Filled

private

Definition at line 481 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meMETPhiPhotonsEndcapMinus

private

Definition at line 519 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meMETPhiPhotonsEndcapMinus_BXm1Empty

private

Definition at line 371 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meMETPhiPhotonsEndcapMinus_BXm1Filled

private

Definition at line 392 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meMETPhiPhotonsEndcapMinus_BXm2BXm1Empty

private

Definition at line 350 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meMETPhiPhotonsEndcapMinus_BXm2BXm1Filled

private

Definition at line 483 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meMETPhiPhotonsEndcapPlus

private

Definition at line 518 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meMETPhiPhotonsEndcapPlus_BXm1Empty

private

Definition at line 370 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meMETPhiPhotonsEndcapPlus_BXm1Filled

private

Definition at line 391 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meMETPhiPhotonsEndcapPlus_BXm2BXm1Empty

private

Definition at line 349 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meMETPhiPhotonsEndcapPlus_BXm2BXm1Filled

private

Definition at line 482 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meMEx_profile

private

Definition at line 529 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meMEy_profile

private

Definition at line 530 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meMuonEt

private

Definition at line 330 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meNeutralHadronEt

private

Definition at line 326 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meNeutralHadronEt_profile

private

Definition at line 537 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meNeutralHadronEtFraction

private

Definition at line 325 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meNeutralHadronEtFraction_BXm1Empty

private

Definition at line 358 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meNeutralHadronEtFraction_BXm1Filled

private

Definition at line 379 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meNeutralHadronEtFraction_BXm2BXm1Empty

private

Definition at line 337 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meNeutralHadronEtFraction_BXm2BXm1Filled

private

Definition at line 401 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meNeutralHadronEtFraction_profile

private

Definition at line 536 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meNHF_Barrel

private

Definition at line 421 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meNHF_Barrel_BXm1Empty

private

Definition at line 424 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meNHF_Barrel_BXm1Filled

private

Definition at line 430 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meNHF_Barrel_BXm2BXm1Empty

private

Definition at line 427 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meNHF_Barrel_BXm2BXm1Filled

private

Definition at line 433 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meNHF_EndcapMinus

private

Definition at line 423 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meNHF_EndcapMinus_BXm1Empty

private

Definition at line 426 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meNHF_EndcapMinus_BXm1Filled

private

Definition at line 432 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meNHF_EndcapMinus_BXm2BXm1Empty

private

Definition at line 429 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meNHF_EndcapMinus_BXm2BXm1Filled

private

Definition at line 435 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meNHF_EndcapPlus

private

Definition at line 422 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meNHF_EndcapPlus_BXm1Empty

private

Definition at line 425 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meNHF_EndcapPlus_BXm1Filled

private

Definition at line 431 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meNHF_EndcapPlus_BXm2BXm1Empty

private

Definition at line 428 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meNHF_EndcapPlus_BXm2BXm1Filled

private

Definition at line 434 of file METAnalyzer.h.

MonitorElement* METAnalyzer::mePhF_Barrel

private

Definition at line 437 of file METAnalyzer.h.

MonitorElement* METAnalyzer::mePhF_Barrel_BXm1Empty

private

Definition at line 440 of file METAnalyzer.h.

MonitorElement* METAnalyzer::mePhF_Barrel_BXm1Filled

private

Definition at line 446 of file METAnalyzer.h.

MonitorElement* METAnalyzer::mePhF_Barrel_BXm2BXm1Empty

private

Definition at line 443 of file METAnalyzer.h.

MonitorElement* METAnalyzer::mePhF_Barrel_BXm2BXm1Filled

private

Definition at line 449 of file METAnalyzer.h.

MonitorElement* METAnalyzer::mePhF_EndcapMinus

private

Definition at line 439 of file METAnalyzer.h.

MonitorElement* METAnalyzer::mePhF_EndcapMinus_BXm1Empty

private

Definition at line 442 of file METAnalyzer.h.

MonitorElement* METAnalyzer::mePhF_EndcapMinus_BXm1Filled

private

Definition at line 448 of file METAnalyzer.h.

MonitorElement* METAnalyzer::mePhF_EndcapMinus_BXm2BXm1Empty

private

Definition at line 445 of file METAnalyzer.h.

MonitorElement* METAnalyzer::mePhF_EndcapMinus_BXm2BXm1Filled

private

Definition at line 451 of file METAnalyzer.h.

MonitorElement* METAnalyzer::mePhF_EndcapPlus

private

Definition at line 438 of file METAnalyzer.h.

MonitorElement* METAnalyzer::mePhF_EndcapPlus_BXm1Empty

private

Definition at line 441 of file METAnalyzer.h.

MonitorElement* METAnalyzer::mePhF_EndcapPlus_BXm1Filled

private

Definition at line 447 of file METAnalyzer.h.

MonitorElement* METAnalyzer::mePhF_EndcapPlus_BXm2BXm1Empty

private

Definition at line 444 of file METAnalyzer.h.

MonitorElement* METAnalyzer::mePhF_EndcapPlus_BXm2BXm1Filled

private

Definition at line 450 of file METAnalyzer.h.

MonitorElement* METAnalyzer::mePhotonEt

private

Definition at line 324 of file METAnalyzer.h.

MonitorElement* METAnalyzer::mePhotonEt_profile

private

Definition at line 535 of file METAnalyzer.h.

MonitorElement* METAnalyzer::mePhotonEtFraction

private

Definition at line 323 of file METAnalyzer.h.

MonitorElement* METAnalyzer::mePhotonEtFraction_BXm1Empty

private

Definition at line 357 of file METAnalyzer.h.

MonitorElement* METAnalyzer::mePhotonEtFraction_BXm1Filled

private

Definition at line 378 of file METAnalyzer.h.

MonitorElement* METAnalyzer::mePhotonEtFraction_BXm2BXm1Empty

private

Definition at line 336 of file METAnalyzer.h.

MonitorElement* METAnalyzer::mePhotonEtFraction_BXm2BXm1Filled

private

Definition at line 400 of file METAnalyzer.h.

MonitorElement* METAnalyzer::mePhotonEtFraction_profile

private

Definition at line 534 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meSumET_BXm1Empty

private

Definition at line 361 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meSumET_BXm1Filled

private

Definition at line 382 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meSumET_BXm2BXm1Empty

private

Definition at line 340 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meSumET_BXm2BXm1Filled

private

Definition at line 403 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meSumET_profile

private

Definition at line 532 of file METAnalyzer.h.

edm::InputTag METAnalyzer::metCollectionLabel_

private

Definition at line 143 of file METAnalyzer.h.

std::string METAnalyzer::MetType_

private

Definition at line 140 of file METAnalyzer.h.

std::vector<double> METAnalyzer::MExPFCand_

private

Definition at line 508 of file METAnalyzer.h.

std::vector<double> METAnalyzer::MEyPFCand_

private

Definition at line 508 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meZJets_u_par

private

Definition at line 545 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meZJets_u_par_ZPt_0_15

private

Definition at line 546 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meZJets_u_par_ZPt_150_290

private

Definition at line 551 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meZJets_u_par_ZPt_15_30

private

Definition at line 547 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meZJets_u_par_ZPt_290

private

Definition at line 552 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meZJets_u_par_ZPt_30_55

private

Definition at line 548 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meZJets_u_par_ZPt_55_75

private

Definition at line 549 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meZJets_u_par_ZPt_75_150

private

Definition at line 550 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meZJets_u_perp

private

Definition at line 554 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meZJets_u_perp_ZPt_0_15

private

Definition at line 555 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meZJets_u_perp_ZPt_150_290

private

Definition at line 560 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meZJets_u_perp_ZPt_15_30

private

Definition at line 556 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meZJets_u_perp_ZPt_290

private

Definition at line 561 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meZJets_u_perp_ZPt_30_55

private

Definition at line 557 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meZJets_u_perp_ZPt_55_75

private

Definition at line 558 of file METAnalyzer.h.

MonitorElement* METAnalyzer::meZJets_u_perp_ZPt_75_150

private

Definition at line 559 of file METAnalyzer.h.

MonitorElement* METAnalyzer::mProfileIsoPFChHad_EcalOccupancyCentral

private

Definition at line 501 of file METAnalyzer.h.

MonitorElement* METAnalyzer::mProfileIsoPFChHad_EcalOccupancyEndcap

private

Definition at line 502 of file METAnalyzer.h.

MonitorElement* METAnalyzer::mProfileIsoPFChHad_EMPtCentral

private

Definition at line 495 of file METAnalyzer.h.

MonitorElement* METAnalyzer::mProfileIsoPFChHad_EMPtEndcap

private

Definition at line 496 of file METAnalyzer.h.

MonitorElement* METAnalyzer::mProfileIsoPFChHad_HadPtCentral

private

Definition at line 493 of file METAnalyzer.h.

MonitorElement* METAnalyzer::mProfileIsoPFChHad_HadPtEndcap

private

Definition at line 494 of file METAnalyzer.h.

MonitorElement* METAnalyzer::mProfileIsoPFChHad_HcalOccupancyCentral

private

Definition at line 499 of file METAnalyzer.h.

MonitorElement* METAnalyzer::mProfileIsoPFChHad_HcalOccupancyEndcap

private

Definition at line 500 of file METAnalyzer.h.

MonitorElement* METAnalyzer::mProfileIsoPFChHad_TrackOccupancy

private

Definition at line 503 of file METAnalyzer.h.

MonitorElement* METAnalyzer::mProfileIsoPFChHad_TrackPt

private

Definition at line 497 of file METAnalyzer.h.

std::vector<MonitorElement* > METAnalyzer::multiplicityPFCand_

private

Definition at line 506 of file METAnalyzer.h.

std::vector<std::string> METAnalyzer::multiplicityPFCand_name_

private

Definition at line 507 of file METAnalyzer.h.

edm::EDGetTokenT<reco::MuonCollection> METAnalyzer::MuonsToken_

private

Definition at line 155 of file METAnalyzer.h.

std::vector<int> METAnalyzer::nbinsPFCand_

private

Definition at line 509 of file METAnalyzer.h.

int METAnalyzer::nbinsPV_

private

Definition at line 222 of file METAnalyzer.h.

std::vector<unsigned int> METAnalyzer::nCh

private

Definition at line 564 of file METAnalyzer.h.

std::vector<unsigned int> METAnalyzer::nEv

private

Definition at line 565 of file METAnalyzer.h.

double METAnalyzer::nPVMax_

private

Definition at line 224 of file METAnalyzer.h.

double METAnalyzer::nPVMin_

private

Definition at line 223 of file METAnalyzer.h.

int METAnalyzer::numPV_

private

Definition at line 250 of file METAnalyzer.h.

std::vector<MonitorElement* > METAnalyzer::occupancyPFCand_

private

Definition at line 506 of file METAnalyzer.h.

std::vector<std::string> METAnalyzer::occupancyPFCand_name_

private

Definition at line 507 of file METAnalyzer.h.

bool METAnalyzer::onlyCleaned_

private

Definition at line 233 of file METAnalyzer.h.

edm::ParameterSet METAnalyzer::parameters

private

Definition at line 136 of file METAnalyzer.h.

Referenced by Vispa.Plugins.ConfigEditor.ConfigDataAccessor.ConfigDataAccessor::inputTags(), Vispa.Plugins.ConfigEditor.ConfigDataAccessor.ConfigDataAccessor::properties(), and Vispa.Plugins.ConfigEditor.ConfigDataAccessor.ConfigDataAccessor::recursePSetProperties().

edm::EDGetTokenT<pat::JetCollection> METAnalyzer::patJetsToken_

private

Definition at line 154 of file METAnalyzer.h.

edm::EDGetTokenT<pat::METCollection> METAnalyzer::patMetToken_

private

Definition at line 159 of file METAnalyzer.h.

PFJetIDSelectionFunctor METAnalyzer::pfjetIDFunctorLoose

private

Definition at line 167 of file METAnalyzer.h.

edm::EDGetTokenT<reco::PFJetCollection> METAnalyzer::pfJetsToken_

private

Definition at line 153 of file METAnalyzer.h.

edm::EDGetTokenT<std::vector<reco::PFCandidate> > METAnalyzer::pflowToken_

private

Definition at line 525 of file METAnalyzer.h.

edm::EDGetTokenT<reco::PFMETCollection> METAnalyzer::pfMetToken_

private

Definition at line 160 of file METAnalyzer.h.

std::vector<MonitorElement* > METAnalyzer::profilePFCand_x_

private

Definition at line 506 of file METAnalyzer.h.

std::vector<std::string> METAnalyzer::profilePFCand_x_name_

private

Definition at line 507 of file METAnalyzer.h.

std::vector<MonitorElement* > METAnalyzer::profilePFCand_y_

private

Definition at line 506 of file METAnalyzer.h.

std::vector<std::string> METAnalyzer::profilePFCand_y_name_

private

Definition at line 507 of file METAnalyzer.h.

double METAnalyzer::ptMinCand_

private

Definition at line 489 of file METAnalyzer.h.

std::vector<MonitorElement* > METAnalyzer::ptPFCand_

private

Definition at line 506 of file METAnalyzer.h.

std::vector<std::string> METAnalyzer::ptPFCand_name_

private

Definition at line 507 of file METAnalyzer.h.

double METAnalyzer::ptThreshold_

private

Definition at line 173 of file METAnalyzer.h.

bool METAnalyzer::runcosmics_

private

Definition at line 232 of file METAnalyzer.h.

std::vector<int> METAnalyzer::triggerFolderDecisions_

private

Definition at line 190 of file METAnalyzer.h.

std::vector<GenericTriggerEventFlag *> METAnalyzer::triggerFolderEventFlag_

private

Definition at line 187 of file METAnalyzer.h.

std::vector<std::vector<std::string> > METAnalyzer::triggerFolderExpr_

private

Definition at line 188 of file METAnalyzer.h.

std::vector<std::string > METAnalyzer::triggerFolderLabels_

private

Definition at line 189 of file METAnalyzer.h.

edm::InputTag METAnalyzer::triggerResultsLabel_

private

Definition at line 176 of file METAnalyzer.h.

edm::EDGetTokenT<edm::TriggerResults> METAnalyzer::triggerResultsToken_

private

Definition at line 177 of file METAnalyzer.h.

edm::VParameterSet METAnalyzer::triggerSelectedSubFolders_

private

Definition at line 186 of file METAnalyzer.h.

std::vector<int> METAnalyzer::typePFCand_

private

Definition at line 509 of file METAnalyzer.h.

int METAnalyzer::verbose_

private

Definition at line 138 of file METAnalyzer.h.

edm::InputTag METAnalyzer::vertexTag_

private

Definition at line 147 of file METAnalyzer.h.

edm::EDGetTokenT<std::vector<reco::Vertex> > METAnalyzer::vertexToken_

private

Definition at line 150 of file METAnalyzer.h.