PostProcessorHGCAL_cfi Namespace Reference

Variables
list	eff_layers = ["effic_eta_layer{:02d} 'LayerCluster Efficiency vs #eta Layer{:02d} in z-' Num_CaloParticle_Eta_perlayer{:02d} Denom_CaloParticle_Eta_perlayer{:02d}".format(i, i%maxlayerzm+1, i, i) if (i<maxlayerzm) else "effic_eta_layer{:02d} 'LayerCluster Efficiency vs #eta Layer{:02d} in z+' Num_CaloParticle_Eta_perlayer{:02d} Denom_CaloParticle_Eta_perlayer{:02d}".format(i, i%maxlayerzm+1, i, i) for i in range(maxlayerzp) ]
list	eff_simclusters = ["effic_eta_layer{:02d} 'LayerCluster Efficiency vs #eta Layer{:02d} in z-' Num_SimCluster_Eta_perlayer{:02d} Denom_SimCluster_Eta_perlayer{:02d}".format(i, i%maxlayerzm+1, i, i) if (i<maxlayerzm) else "effic_eta_layer{:02d} 'LayerCluster Efficiency vs #eta Layer{:02d} in z+' Num_SimCluster_Eta_perlayer{:02d} Denom_SimCluster_Eta_perlayer{:02d}".format(i, i%maxlayerzm+1, i, i) for i in range(maxlayerzp) ]
list	eff_tracksters = ["purity_eta 'Trackster Purity vs #eta' Num_CaloParticle_Eta Denom_CaloParticle_Eta"]
	lcToCP_linking = hgcalValidator.label_LCToCPLinking._InputTag__moduleLabel
int	maxlayerzm = 50
int	maxlayerzp = 100
tuple	postProcessorHGCALlayerclusters
tuple	postProcessorHGCALsimclusters
tuple	postProcessorHGCALTracksters
string	prefix = 'HGCAL/HGCalValidator/'
list	subdirsSim = [prefix + hgcalValidator.label_SimClusters._InputTag__moduleLabel + '/ticlTracksters'+iteration+'/' for iteration in ticlIterLabelsMerge]
list	subdirsTracksters = [prefix+'hgcalTracksters/'+tsToCP_linking, prefix+'ticlSimTracksters/'+tsToCP_linking]
	tsToCP_linking = hgcalValidator.label_TSToCPLinking._InputTag__moduleLabel

Variable Documentation

list PostProcessorHGCAL_cfi.eff_layers = ["effic_eta_layer{:02d} 'LayerCluster Efficiency vs #eta Layer{:02d} in z-' Num_CaloParticle_Eta_perlayer{:02d} Denom_CaloParticle_Eta_perlayer{:02d}".format(i, i%maxlayerzm+1, i, i) if (i<maxlayerzm) else "effic_eta_layer{:02d} 'LayerCluster Efficiency vs #eta Layer{:02d} in z+' Num_CaloParticle_Eta_perlayer{:02d} Denom_CaloParticle_Eta_perlayer{:02d}".format(i, i%maxlayerzm+1, i, i) for i in range(maxlayerzp) ]

Definition at line 11 of file PostProcessorHGCAL_cfi.py.

list PostProcessorHGCAL_cfi.eff_simclusters = ["effic_eta_layer{:02d} 'LayerCluster Efficiency vs #eta Layer{:02d} in z-' Num_SimCluster_Eta_perlayer{:02d} Denom_SimCluster_Eta_perlayer{:02d}".format(i, i%maxlayerzm+1, i, i) if (i<maxlayerzm) else "effic_eta_layer{:02d} 'LayerCluster Efficiency vs #eta Layer{:02d} in z+' Num_SimCluster_Eta_perlayer{:02d} Denom_SimCluster_Eta_perlayer{:02d}".format(i, i%maxlayerzm+1, i, i) for i in range(maxlayerzp) ]

Definition at line 31 of file PostProcessorHGCAL_cfi.py.

list PostProcessorHGCAL_cfi.eff_tracksters = ["purity_eta 'Trackster Purity vs #eta' Num_CaloParticle_Eta Denom_CaloParticle_Eta"]

Definition at line 51 of file PostProcessorHGCAL_cfi.py.

PostProcessorHGCAL_cfi.lcToCP_linking = hgcalValidator.label_LCToCPLinking._InputTag__moduleLabel

Definition at line 20 of file PostProcessorHGCAL_cfi.py.

int PostProcessorHGCAL_cfi.maxlayerzm = 50

Definition at line 7 of file PostProcessorHGCAL_cfi.py.

int PostProcessorHGCAL_cfi.maxlayerzp = 100

Definition at line 8 of file PostProcessorHGCAL_cfi.py.

tuple PostProcessorHGCAL_cfi.postProcessorHGCALlayerclusters

Initial value:

= DQMEDHarvester('DQMGenericClient',
    subDirs = cms.untracked.vstring(prefix + hgcalValidator.label_layerClusterPlots._InputTag__moduleLabel + '/' + lcToCP_linking),
    efficiency = cms.vstring(eff_layers),
    resolution = cms.vstring(),
    cumulativeDists = cms.untracked.vstring(),
    noFlowDists = cms.untracked.vstring(),
    outputFileName = cms.untracked.string(""),
    verbose = cms.untracked.uint32(4))

Definition at line 21 of file PostProcessorHGCAL_cfi.py.

tuple PostProcessorHGCAL_cfi.postProcessorHGCALsimclusters

Initial value:

= DQMEDHarvester('DQMGenericClient',
    subDirs = cms.untracked.vstring(subdirsSim),
    efficiency = cms.vstring(eff_simclusters),
    resolution = cms.vstring(),
    cumulativeDists = cms.untracked.vstring(),
    noFlowDists = cms.untracked.vstring(),
    outputFileName = cms.untracked.string(""),
    verbose = cms.untracked.uint32(4))

Definition at line 42 of file PostProcessorHGCAL_cfi.py.

tuple PostProcessorHGCAL_cfi.postProcessorHGCALTracksters

Initial value:

= DQMEDHarvester('DQMGenericClient',
  subDirs = cms.untracked.vstring(subdirsTracksters),
  efficiency = cms.vstring(eff_tracksters),
  resolution = cms.vstring(),
  cumulativeDists = cms.untracked.vstring(),
  noFlowDists = cms.untracked.vstring(),
  outputFileName = cms.untracked.string(""),
  verbose = cms.untracked.uint32(4)
)

Definition at line 66 of file PostProcessorHGCAL_cfi.py.

string PostProcessorHGCAL_cfi.prefix = 'HGCAL/HGCalValidator/'

Definition at line 6 of file PostProcessorHGCAL_cfi.py.

Referenced by PrimaryVertexAnalyzer4PUSlimmed.bookHistograms(), DQMGenericTnPClient.calculateEfficiency(), PixelRegions.calculateFPixID(), PrimaryVertexAnalyzer4PUSlimmed.calculatePurityAndFillHistograms(), ChamberLocationSpec.chamberLocationName(), SusyPostProcessor.dqmEndJob(), SiPixelActionExecutor.fillFEDErrorSummary(), PrimaryVertexAnalyzer4PUSlimmed.fillGenAssociatedRecoVertexHistograms(), SiPixelActionExecutor.fillGrandBarrelSummaryHistos(), SiPixelActionExecutor.fillGrandEndcapSummaryHistos(), FastTimerServiceClient.fillPathSummaryPlots(), PrimaryVertexAnalyzer4PUSlimmed.fillResolutionAndPullHistograms(), SiPixelActionExecutor.fillSummary(), trklet::TrackDerTable.fillTable(), CondDBESSource.fillTagCollectionFromDB(), edm::friendlyname.friendlyName(), HcalLaserEventFilter.GetCMSSWVersion(), PhysicsTools::Calibration::VarProcessor.getInstanceName(), FWTGeoRecoGeometryESProducer.GetTopHolder(), edm::friendlyname.handleTemplateArguments(), HcalRecHitsDQMClient.HcalRecHitsEndjob(), HGCalTriggerNtupleHGCTowers.initialize(), HGCalTriggerNtupleHGCMulticlusters.initialize(), HGCalTriggerNtupleHGCClusters.initialize(), HGCalTriggerNtupleHGCTriggerSums.initialize(), HGCalTriggerNtupleHGCConcentratorData.initialize(), HGCalTriggerNtupleHGCTriggerCells.initialize(), FillInfo.is25nsBunchSpacing(), LHCInfo.is25nsBunchSpacing(), cscdqm::Collection.load(), main(), TMultiDimFet.MakeRealCode(), dqm::DQMFileSaverOnline.makeSnapshot(), MTDTopologyMode.MTDStringToEnumParser(), RawFile.open(), FRDStreamSource.openFile(), dqm::impl::MonitorElement.packScalarData(), riemannFit.printIt(), HcalLedAnalysis.ProcessCalibEvent(), CmsShowSearchFiles.sendToWebBrowser(), ElectronDqmAnalyzerBase.setBookPrefix(), ElectronDqmHarvesterBase.setBookPrefix(), CommonAnalyzer.setPrefix(), CmsShowSearchFiles.showPrefixes(), TauTagValidation.stripDiscriminatorLabel(), edm::friendlyname.subFriendlyName(), deep_tau::TauWPThreshold.TauWPThreshold(), and tname().

list PostProcessorHGCAL_cfi.subdirsSim = [prefix + hgcalValidator.label_SimClusters._InputTag__moduleLabel + '/ticlTracksters'+iteration+'/' for iteration in ticlIterLabelsMerge]

Definition at line 40 of file PostProcessorHGCAL_cfi.py.

list PostProcessorHGCAL_cfi.subdirsTracksters = [prefix+'hgcalTracksters/'+tsToCP_linking, prefix+'ticlSimTracksters/'+tsToCP_linking]

Definition at line 63 of file PostProcessorHGCAL_cfi.py.

PostProcessorHGCAL_cfi.tsToCP_linking = hgcalValidator.label_TSToCPLinking._InputTag__moduleLabel

Definition at line 62 of file PostProcessorHGCAL_cfi.py.