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Functions | Variables
checklumidiff Namespace Reference

Functions

def findlpcdir (lpcdir, fillmin)
 
def parseplotcache (filelist, fillmin, fillmax)
 

Variables

 dellumi
 
 delta
 
 fillmin
 
 l
 
 line
 
 lpcdelperrun
 
 lpcdir
 
 lpcfile
 
 lpcfill2012
 
 lpcresult
 
 lumi_lpc
 
 lumi_pplot
 
 nrun_lpc
 
 nruns_pplot
 
 ofile
 
 plotcachedir
 
 plotfiles
 
 plotfilldata
 
 rundataline
 
 runs
 
 tot_diff
 
 tot_lumilpc
 
 tot_lumipplot
 
 tot_nrunlpc
 
 tot_nrunpplot
 
 tot_rel
 

Function Documentation

def checklumidiff.findlpcdir (   lpcdir,
  fillmin 
)

Definition at line 25 of file checklumidiff.py.

References createfilelist.int.

25 def findlpcdir(lpcdir,fillmin):
26  result=[]
27  cachedir=lpcdir
28  lpcfilldir=[f for f in glob.glob(cachedir+'/????') if os.path.isdir(f) ]
29  lpcfills=[os.path.split(f)[1] for f in lpcfilldir]
30  #print lpcfills
31  result=[int(f) for f in lpcfills if int(f)>=fillmin]
32  return result
33 
def findlpcdir(lpcdir, fillmin)
def checklumidiff.parseplotcache (   filelist,
  fillmin,
  fillmax 
)

Definition at line 3 of file checklumidiff.py.

References objects.autophobj.float, createfilelist.int, list(), and split.

3 def parseplotcache(filelist,fillmin,fillmax):
4  result={}#{fill:{run:delivered}}
5  for f in filelist:
6  fileobj=open(f,'rb')
7  plotreader=csv.reader(fileobj,delimiter=',')
8  idx=0
9  for row in plotreader:
10  if idx!=0:
11  [run,fill]=row[0].split(':')
12  [lumils,cmsls]=row[1].split(':')
13  if int(fill) not in list(range(fillmin,fillmax+1)):
14  continue
15  delivered=float(row[5])
16  if int(fill) not in result:
17  result[int(fill)]={}
18  if int(run) in result[int(fill)]:
19  result[int(fill)][int(run)]+=delivered
20  else:
21  result[int(fill)][int(run)]=delivered
22  idx+=1
23  fileobj.close()
24  return result
def parseplotcache(filelist, fillmin, fillmax)
Definition: checklumidiff.py:3
double split
Definition: MVATrainer.cc:139
How EventSelector::AcceptEvent() decides whether to accept an event for output otherwise it is excluding the probing of A single or multiple positive and the trigger will pass if any such matching triggers are PASS or EXCEPTION[A criterion thatmatches no triggers at all is detected and causes a throw.] A single negative with an expectation of appropriate bit checking in the decision and the trigger will pass if any such matching triggers are FAIL or EXCEPTION A wildcarded negative criterion that matches more than one trigger in the trigger list("!*","!HLTx*"if it matches 2 triggers or more) will accept the event if all the matching triggers are FAIL.It will reject the event if any of the triggers are PASS or EXCEPTION(this matches the behavior of"!*"before the partial wildcard feature was incorporated).Triggers which are in the READY state are completely ignored.(READY should never be returned since the trigger paths have been run

Variable Documentation

checklumidiff.dellumi

Definition at line 60 of file checklumidiff.py.

checklumidiff.delta

Definition at line 61 of file checklumidiff.py.

checklumidiff.fillmin

Definition at line 39 of file checklumidiff.py.

checklumidiff.l

Definition at line 65 of file checklumidiff.py.

Referenced by DTSuperLayer.add(), edm::service::ELlimitsTable.add(), DTGeometry.add(), PixelDigitizerAlgorithm.add_cross_talk(), Phase2TrackerDigitizerAlgorithm.add_cross_talk(), ReferenceTrajectory.addMaterialEffectsBp(), ReferenceTrajectory.addMaterialEffectsBrl(), ReferenceTrajectory.addMaterialEffectsCov(), SiStripHitEffFromCalibTree.algoAnalyze(), AllocNetwork(), DDTestSpecPars.analyze(), L1TMuonBarrelParamsViewer.analyze(), EgammaBasicClusters.analyze(), OuterTrackerMonitorTrackingParticles.analyze(), MonitorElementsDb.analyze(), MCEfficiencyAnalyzer.analyze(), DQMHcalIsoTrackAlCaReco.analyze(), ContainmentCorrectionAnalyzer.analyze(), EnergyScaleAnalyzer.analyze(), cms::Analyzer_minbias.analyze(), PhotonValidator.analyze(), HLTScalers.analyze(), EgammaObjects.analyzeElectrons(), EgammaObjects.analyzePhotons(), tauImpactParameter::LagrangeMultipliersFitter.applyLagrangianConstraints(), BeamHaloNavigationSchool.BeamHaloNavigationSchool(), cms::Analyzer_minbias.beginJob(), HGCalTBAnalyzer.beginRun(), AlignmentMonitorSurvey.book(), ElectronTagProbeAnalyzer.bookHistograms(), GEMDQMSourceDigi.bookHistograms(), GEMDQMSource.bookHistograms(), ElectronAnalyzer.bookHistograms(), PSMonitor.bookHistograms(), DQMHcalIsoTrackAlCaReco.bookHistograms(), L1TRPCTF.bookHistograms(), PrimaryVertexAnalyzer4PUSlimmed.bookHistograms(), KDTreeLinkerAlgo< DATA >.build(), FWTrackResidualDetailView.build(), DeDxTools.buildDiscrimMap(), cms::DTGeometryBuilder.buildGeometry(), CSCGeometry.centreTIOffsets(), tensorflow::NTSession.CheckFetch(), tensorflow::TBBSession.CheckNotClosed(), tensorflow::NTSession.CheckNotClosed(), IsoTrig.chgIsolation(), DTTFFEDReader.clear(), tensorflow::NTSession.Close(), tensorflow::TBBSession.Close(), CmsShowCommon.CmsShowCommon(), CompositeLogicalTrajectoryFilter.CompositeLogicalTrajectoryFilter(), BPHRecoBuilder.contained(), Conv.convolution(), dtCalibration::DTT0FEBPathCorrection.correction(), PSFitter::HybridMinimizer.Correlation(), PSFitter::HybridMinimizer.CovMatrix(), tensorflow::NTSession.Create(), tensorflow::TBBSession.Create(), tensorflow::NTSession.CreateGraphs(), tensorflow::TBBSession.CreateGraphs(), MuonSeedFromRecHits.createSeed(), MuonSeedCreator.createSeed(), tensorflow::TBBSession.DecorateAndPublishGraphForDebug(), tensorflow::NTSession.DecorateAndPublishGraphForDebug(), BTagLikeDeDxDiscriminator.dedx(), tensorflow::NTSessionFactory.Deregister(), tensorflow::TBBSessionFactory.Deregister(), HitDoublets.detLayer(), Phase2TrackerDigitizerAlgorithm.digitize(), cscdqm::StripClusterFinder.DoAction(), l1t::Stage1Layer2EtSumAlgorithmImpHW.doSumAndMET(), l1t::Stage1Layer2EtSumAlgorithmImpHI.doSumAndMET(), npstat::ArrayND< Numeric, StackLen, StackDim >.dotProductLoop(), JetMETHLTOfflineClient.dqmEndJob(), DrawEB(), DrawEE(), EcalDisplaysByEvent.drawEELines(), DrawES(), drawTable(), HcalObjRepresent.drawTable(), RPCDigiL1Link.empty(), TowerBlockFormatter.EndEvent(), cms::Analyzer_minbias.endJob(), LumiCalculator.endLuminosityBlock(), edm::OwnArray< T, MAX_SIZE, P >.erase(), ESPedestalTask.ESPedestalTask(), L1ExtraParticleMapProd.evaluateForwardRapidityGap(), FWGUIManager.exportAllViews(), tensorflow::NTSession.Extend(), tensorflow::TBBSession.Extend(), TFParams.f3deg(), LMFUnique.fetchAll(), LMFCorrCoefDat.fetchBetween(), LMFSeqDat.fetchByRunIOV(), LMFSeqDat.fetchByRunNumber(), LMFRunIOV.fetchBySequence(), HLTOfflineDQMTopDiLepton::MonitorDiLepton.fill(), CSCChamberIndexValues.fillChamberIndex(), CSCChamberMapValues.fillChamberMap(), CSCCrateMapValues.fillCrateMap(), CSCDDUMapValues.fillDDUMap(), ExpressLumiProducer.fillLSCache(), LumiProducer.fillLSCache(), cms::DDSpecParRegistry.filter(), emtf::Node.filterEventsToDaughters(), edm::BMixingModule.finalizeEvent(), SurveyAlignmentSensor.findAlignPars(), SurveyAlignmentPoints.findAlignPars(), MuonCkfTrajectoryBuilder.findCompatibleMeasurements(), CSCHitFromStripOnly.findMaxima(), HLTPerformanceInfo.findPath(), CSCChamberFitter.fit(), cond::persistency::IOVEditor.flush(), TSFit.fpol3dg(), cond::SmallWORMDict::IterHelp.frame(), CmsShowNavigator.frameTitle(), FullModelReactionDynamics.GenerateXandPt(), GeometricSearchTracker.GeometricSearchTracker(), SiPixelLayoutParser.getAllLayouts(), SiStripLayoutParser.getAllLayouts(), MEEEGeom.getBoundary(), cond::persistency.getConnectionParams(), npstat::BoxNDScanner< Numeric >.getCoords(), PSFitter::HybridMinimizer.GetCovMatrix(), ECFAdder.getECF(), EventShapeVariables.getEigenVectors(), EventShapeVariables.getFWmoment(), MEEEGeom.getGraphBoundary(), PSFitter::HybridMinimizer.GetHessianMatrix(), TotemRPUVPattern.getHits(), npstat::ArrayNDScanner.getIndex(), npstat::BoxNDScanner< Numeric >.getIndex(), npstat::GridAxis.getInterval(), LMFDat.getKeyList(), HcalDDDRecConstants.getLayerDepth(), HcalDDDSimConstants.getLayerFront(), hcaldqm::mapper::HashMapper.getLinearHashType(), LMFDat.getLogicIds(), ValidHitPairFilter.getMissingLayers(), HcalDDDRecConstants.getOneEtaBin(), tensorflow::NTSession.GetOrCreateExecutors(), tensorflow::TBBSession.GetOrCreateExecutors(), ConstantStepOdeSolver.getPeakTime(), TangentCircle.getPosition(), RPCReadOutMapping.getRAWSpecForCMSChamberSrip(), GBRTree.GetResponse(), hcaldqm::quantity::LumiSection.getValue(), hcaldqm::quantity::LumiSectionCoarse.getValue(), Python11ParameterSet.getVPSet(), cmspython3::Python11ParameterSet.getVPSet(), EcalTrivialConditionRetriever.getWeightsFromConfiguration(), GroupedCkfTrajectoryBuilder.groupedLimitedCandidates(), align::TrackerNameSpace::TPB.halfBarrelNumber(), align::TrackerNameSpace::TIB.halfShellNumber(), HBHELinearMap.HBHELinearMap(), HcalDDDSimConstants.HcalCellTypes(), CSCChamberFitter.hessian(), QualityCutsAnalyzer::histogram_element_t.histogram_element_t(), HitDoublets.hit(), DTSimHitMatcher.hitWiresInDTSuperLayerId(), HLTMuonPFIsoFilter.HLTMuonPFIsoFilter(), identity(), edm::ProductResolverIndexHelper.indiciesForModulesInProcess(), MSLayersAtAngle.init(), reco::GhostTrackPrediction.init(), cond::EmptyIOVSource.initialize(), SurveyAlignmentAlgorithm.initialize(), HcalDDDSimConstants.initialize(), HcalDDDRecConstants.initialize(), edm::StreamSchedule.initializeEarlyDelete(), SherpaHadronizer.initializeForInternalPartons(), PixelRecoLineRZ.initTIP2(), popcon::EcalDCSHandler.insertHVDataSetToOffline(), HcalInterpolatedTableFunctor.inverse(), HcalPiecewiseLinearFunctor.inverse(), edm.isFinite(), CSCSegAlgoRU.isHitNearSegment(), CSGContinuousAction.isRunning(), reco::TrackProbabilityTagInfo.jetProbability(), TemplatedJetProbabilityComputer< Container, Base >.jetProbability(), TemplatedJetBProbabilityComputer< Container, Base >.jetProbability(), L1GlobalTriggerRecordProducer.L1GlobalTriggerRecordProducer(), align::TrackerNameSpace::TPB.ladderNumber(), HDQMUtil.langaupro(), LayerTriplets.layers(), HGCalTriggerTools.layerWithOffset(), LevelBaseNumber.LevelBaseNumber(), cond::time.limitedIOVSyncValue(), npstat::GridAxis.linearInterval(), MTDNavigationSchool.linkEndcapLayers(), MuonNavigationSchool.linkEndcapLayers(), fit::Likelihood< Sample, PDF, Yield >.log(), fit::Likelihood< Sample, PDF, NoExtendedLikelihood >.log(), main(), TMultiDimFet.MakeCandidates(), npstat::ArrayND< Numeric, StackLen, StackDim >.makeCopulaSteps(), TMultiDimFet.MakeCorrelation(), fireworks_root_gui.makeLabel(), TMultiDimFet.MakeParameterization(), TkGluedMeasurementDet.measurements(), KDTreeLinkerAlgo< DATA >.medianSearch(), cms::DDFilteredView.mergedSpecifics(), npstat::ArrayND< Numeric, StackLen, StackDim >.multiMirror(), MultiTrackValidator.MultiTrackValidator(), MuonSimHitsValidAnalyzer.MuonSimHitsValidAnalyzer(), tensorflow::NTSessionFactory.NewSession(), tensorflow::TBBSessionFactory.NewSession(), SequentialCombinationGenerator< T >.next_combination(), OuterTrackerMonitorTrackingParticles::TpStruct.Nlayers(), pat.operator&(), TSCBLBuilderWithPropagator.operator()(), operator==(), pat.operator^(), pat.operator|(), logintpack.pack16log(), logintpack.pack16logCeil(), logintpack.pack16logClosed(), logintpack.pack8log(), logintpack.pack8logCeil(), logintpack.pack8logClosed(), HitDoublets.phi(), SiPixelDigitizerAlgorithm.PixelTempRewgt2D(), HIPplots.plotAlignableChiSquare(), FWPopupMenu.PoppedDown(), FWPopupMenu.PoppedUp(), PrimaryVertexAnalyzer4PUSlimmed.PrimaryVertexAnalyzer4PUSlimmed(), cscdqm::StripClusterFinder.printClusters(), MTDNavigationPrinter.printLayers(), MuonNavigationPrinter.printLayers(), hitfit::Defaults_Textrep.process_args(), ctpps::RawDataUnpacker.processOptoRxFrameSerial(), StEvtSolutionMaker.produce(), MultiHitFromChi2EDProducer.produce(), HLTMuonL2SelectorForL3IO.produce(), MuonNumberingESProducer.produce(), L1GlobalTriggerRecordProducer.produce(), SiPixelDigiToRaw.produce(), CastorClusterProducer.produce(), cms::CosmicTrackFinder.produce(), hitTripletEDProducerT::Impl< T_HitTripletGenerator, T_SeedingHitSets, T_IntermediateHitTriplets >.produce(), tensorflow::NTSession.PRun(), tensorflow::NTSession.PRunSetup(), SiPixelTemplate2D.pushfile(), SiPixelTemplate.pushfile(), hitfit::Defaults_Textrep.read_file(), ReadPatterns(), PixelToFEDAssociateFromAscii.readRange(), tensorflow::NTSessionFactory.Reset(), tensorflow::TBBSessionFactory.Reset(), dqmservices::DQMStreamerReader.reset_(), GEMCoPadDigi.roll(), PFPhotonAlgo.RunPFPhoton(), HitDoublets.rv(), TrackerMap.save(), TrackerMap.save_as_fectrackermap(), TrackerMap.save_as_fedtrackermap(), TrackerMap.save_as_HVtrackermap(), TrackerMap.save_as_psutrackermap(), emtf::Tree.saveToXMLRecursive(), BinomialInterval.set(), hitfit::Lepjets_Event.set_jet_types(), FWProxyBuilderBase.setInteractionList(), FWGenParticleLegoProxyBuilder.setItem(), FWTrackingParticleProxyBuilder.setItem(), FWVertexCandidateProxyBuilder.setItem(), FWVertexProxyBuilder.setItem(), gen::TauolappInterface.SetLHE(), FWBoxRecHit.setLine(), FWPFLegoRecHit.setLine(), reco::PFBlock.setLink(), reco::PFDisplacedVertexCandidate.setLink(), CachedTrajectory.setMaxDetectorLength(), CachedTrajectory.setMaxHOLength(), CachedTrajectory.setMinDetectorLength(), Plane.setPosPrec(), gen::TauolappInterface.setRandomEngine(), cond::EmptyIOVSource.setRunAndEventInfo(), FWJetProxyBuilder.setTextPos(), TotemRPLocalTrack.setValid(), MTDDetLayerGeometry.sortLayers(), MuonDetLayerGeometry.sortLayers(), StringBasedNTupler.StringBasedNTupler(), align::TrackerNameSpace::TIB.stringNumber(), pat::strbitset.strings(), cscdqm::StripClusterFinder.StripClusterFinder(), DTSuperLayer.subDetector(), HIPAlignmentAlgorithm.terminate(), LutXml.test_access(), cond::time.toIOVSyncValue(), funct.trapezoid_integral(), dqmservices::TriggerSelector::TreeElement.TreeElement(), logintpack.unpack16log(), logintpack.unpack16logClosed(), logintpack.unpack8log(), logintpack.unpack8logClosed(), CSCEventData.unpack_data(), gen::TauolappInterface.update_particles(), FWLegoEvePFCandidate.updateScale(), FWPFRhoPhiRecHit.updateScale(), FWLegoCandidate.updateScale(), TtFullLepKinSolver.useWeightFromMC(), VarSplitter.VarSplitter(), npstat::BoxND< unsigned >.version(), reco::TrackGhostTrackState.vertexStateOnGhostTrack(), reco::TrackGhostTrackState.vertexStateOnMeasurement(), VVIObj.VVIObj(), sistripvvi::VVIObj.VVIObj(), VVIObjF.VVIObjF(), tensorflow::TBBSession.WaitForNotification(), tensorflow::NTSession.WaitForNotification(), SimpleNavigableLayer.wellInside(), DCULVRVoltagesDat.writeArrayDB(), edm::SubProcess.writeLumiAsync(), HitDoublets.x(), cms::concurrency.xercesInitialize(), cms::concurrency.xercesTerminate(), RealisticHitToClusterAssociator.XYdistanceFromMaxHit(), HitDoublets.y(), HitDoublets.z(), CSCChamberFitter.~CSCChamberFitter(), cms::DDCMSDetElementCreator.~DDCMSDetElementCreator(), and GeometricSearchTracker.~GeometricSearchTracker().

checklumidiff.line

Definition at line 67 of file checklumidiff.py.

checklumidiff.lpcdelperrun

Definition at line 70 of file checklumidiff.py.

checklumidiff.lpcdir

Definition at line 36 of file checklumidiff.py.

checklumidiff.lpcfile

Definition at line 62 of file checklumidiff.py.

checklumidiff.lpcfill2012

Definition at line 40 of file checklumidiff.py.

checklumidiff.lpcresult

Definition at line 41 of file checklumidiff.py.

checklumidiff.lumi_lpc

Definition at line 59 of file checklumidiff.py.

checklumidiff.lumi_pplot

Definition at line 58 of file checklumidiff.py.

checklumidiff.nrun_lpc

Definition at line 57 of file checklumidiff.py.

checklumidiff.nruns_pplot

Definition at line 56 of file checklumidiff.py.

checklumidiff.ofile
checklumidiff.plotcachedir

Definition at line 37 of file checklumidiff.py.

checklumidiff.plotfiles

Definition at line 38 of file checklumidiff.py.

checklumidiff.plotfilldata

Definition at line 43 of file checklumidiff.py.

checklumidiff.rundataline

Definition at line 68 of file checklumidiff.py.

checklumidiff.runs

Definition at line 77 of file checklumidiff.py.

checklumidiff.tot_diff

Definition at line 93 of file checklumidiff.py.

Referenced by PrimitiveMatching.process_single_zone_station().

checklumidiff.tot_lumilpc

Definition at line 52 of file checklumidiff.py.

checklumidiff.tot_lumipplot

Definition at line 50 of file checklumidiff.py.

checklumidiff.tot_nrunlpc

Definition at line 53 of file checklumidiff.py.

checklumidiff.tot_nrunpplot

Definition at line 51 of file checklumidiff.py.

checklumidiff.tot_rel

Definition at line 94 of file checklumidiff.py.