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bookConverter Namespace Reference

Classes

class  OptionParser
 

Functions

def ccopy
 
def cexists
 
def compute
 
def create_declaration
 
def create_xsd
 
def kpermutation
 
def priorities
 
def read_data
 

Variables

dictionary comb = {}
 
dictionary elements = {}
 
list histograms = []
 
dictionary keys = {}
 
int len_max = 0
 
int len_min = 1000000
 
 max = len_max
 
int min = 2
 
tuple optManager = OptionParser()
 
 opts = opts.__dict__
 
dictionary prior = {}
 
tuple resdoc = dom.Document()
 
dictionary results = {}
 
tuple srcdoc = dom.parse(opts['src'])
 

Function Documentation

def bookConverter.ccopy (   a)

Definition at line 89 of file bookConverter.py.

Referenced by compute().

89 
90 def ccopy(a):
91  r = []
92  for v in a:
93  r.append(v)
94  return r
def bookConverter.cexists (   s,
  c 
)

Definition at line 81 of file bookConverter.py.

Referenced by compute().

81 
82 def cexists(s, c):
83  d = len(c)
84  for v1 in s:
85  for v2 in c:
86  if v1 == v2:
87  d = d - 1
88  return (d == 0)
def bookConverter.compute (   min,
  max 
)

Definition at line 105 of file bookConverter.py.

References python.multivaluedict.append(), ccopy(), cexists(), and kpermutation().

Referenced by DTCalibValidation.analyze(), DTRecHitQuality.analyze(), ClosestApproachInRPhi.calculate(), TrackCountingTagPlotter.finalize(), TrackIPTagPlotter.finalize(), TrackProbabilityTagPlotter.finalize(), PhysicsTools::MVATrainer.getTrainCalibration(), PhysicsTools::MVATrainer.makeTrainCalibration(), magfieldparam::BCycl< float >.operator()(), DTRecHitBaseAlgo.reconstruct(), and GsfMaterialEffectsUpdator.updateState().

105 
106 def compute(min, max):
107  print "Computing permutations"
108  for v in kpermutation(0, len(keys), min, max):
109  ci = -1
110  for h in histograms:
111  if cexists(h, v):
112  if ci == -1:
113  ci = len(comb)
114  comb[ci] = ccopy(v)
115  results[ci] = [h]
116  else:
117  results[ci].append(h)
def bookConverter.create_declaration (   cid)

Definition at line 75 of file bookConverter.py.

75 
76 def create_declaration(cid):
77  co = comb[cid]
78  print "Declaration to apply:", co
79  for k in comb[cid]:
80  print keys[k]['name'], '=', keys[k]['value']
bookConverter.create_declaration
def create_declaration
Definition: bookConverter.py:75
def bookConverter.create_xsd ( )

Definition at line 57 of file bookConverter.py.

57 
58 def create_xsd():
59  for k in keys.keys():
60  name = keys[k]['name']
61 
62  root = resdoc.createElement("xs:complexType")
63  root.setAttribute("name", "HistogramType")
64  resdoc.appendChild(root)
65  seq = resdoc.createElement("xs:all")
66  root.appendChild(seq)
67  for e in sorted(elements.keys()):
68  el = resdoc.createElement("xs:element")
69  el.setAttribute("name", e)
70  el.setAttribute("type", elements[e]['type'])
71  if elements[e]['count'] < len(histograms):
72  el.setAttribute("minOccurs", '0')
73  el.setAttribute("maxOccurs", '1')
74  seq.appendChild(el)
def bookConverter.kpermutation (   vfrom,
  vto,
  min,
  max 
)

Definition at line 95 of file bookConverter.py.

Referenced by compute().

95 
96 def kpermutation(vfrom, vto, min, max):
97  vto = vto + 1
98  queue = []
99  for i in range(vfrom, vto):
100  for j in range(i, vto):
101  queue.append(j)
102  if len(queue) >= min and len(queue) <= max:
103  yield queue
104  queue = []
def bookConverter.priorities ( )

Definition at line 118 of file bookConverter.py.

References python.multivaluedict.append().

118 
119 def priorities():
120  for ci in comb.keys():
121  l = len(results[ci])
122  if l == 1:
123  continue
124  if not prior.has_key(l):
125  prior[l] = [ci]
126  else:
127  prior[l].append(ci)
def bookConverter.read_data ( )

Definition at line 16 of file bookConverter.py.

16 
17 def read_data():
18  print "Reading histogram file"
19  n = 0
20  histos = srcdoc.getElementsByTagName("Histogram")
21  for histo in histos:
22  h = []
23  for key in histo.childNodes:
24  if key.nodeType == key.ELEMENT_NODE:
25  name = key.localName
26  value = key.childNodes[0].nodeValue
27  found = 0
28 
29  if not elements.has_key(name):
30  elements[name] = {'type': '', 'count': 0}
31  elements[name]['count'] = elements[name]['count'] + 1
32 
33  try:
34  i = int(value)
35  if elements[name]['type'] == '':
36  elements[name]['type'] = 'xs:integer'
37  except ValueError:
38  try:
39  i = float(value)
40  if elements[name]['type'] in ('', 'xs:integer'):
41  elements[name]['type'] = 'xs:double'
42  except ValueError:
43  elements[name]['type'] = 'xs:string'
44 
45  for k in keys.keys():
46  if keys[k]['name'] == name and keys[k]['value'] == value:
47  keys[k]['count'] = keys[k]['count'] + 1
48  h.append(k)
49  found = 1
50  break
51  if found == 0:
52  keys[n] = {'name': name, 'value': value, 'count': 1}
53  h.append(n)
54  n += 1
55  h.sort()
56  histograms.append(h)

Variable Documentation

dictionary bookConverter.comb = {}

Definition at line 144 of file bookConverter.py.

Referenced by L1GtAnalyzer.analyzeObjectMap(), JetPartonMatching.calculate(), CombinationGenerator< T >.combinations(), L1RCTORCAMap.combVec(), JetPartonMatching.getNumberOfUnmatchedPartons(), JetPartonMatching.getSumDeltaE(), JetPartonMatching.getSumDeltaPt(), JetPartonMatching.getSumDeltaR(), SequentialCombinationGenerator< T >.next_combination(), JetPartonMatching.print(), CombinationGenerator< T >.separateOneElement(), and CombinationGenerator< T >.splitInTwoCollections().

dictionary bookConverter.elements = {}

Definition at line 146 of file bookConverter.py.

list bookConverter.histograms = []

Definition at line 141 of file bookConverter.py.

Referenced by HistoAnalyzer< C >.HistoAnalyzer().

dictionary bookConverter.keys = {}

Definition at line 142 of file bookConverter.py.

int bookConverter.len_max = 0

Definition at line 148 of file bookConverter.py.

int bookConverter.len_min = 1000000

Definition at line 147 of file bookConverter.py.

bookConverter.max = len_max

Definition at line 166 of file bookConverter.py.

int bookConverter.min = 2

Definition at line 164 of file bookConverter.py.

Referenced by argparse.HelpFormatter._format_action(), python.rootplot.argparse.HelpFormatter._format_action(), BeautifulSoup.PageElement._invert(), argparse.ArgumentParser._parse_known_args(), python.rootplot.argparse.ArgumentParser._parse_known_args(), abcd(), SiStripAPVRestorer.AbnormalBaselineInspect(), SiPixelCluster.add(), TMom.addEntry(), fit::RootMinuit< Function >.addParameter(), SideBandSubtract.addSideBandRegion(), SideBandSubtract.addSignalRegion(), L1GlobalTriggerObjectMaps::AlgorithmResult.AlgorithmResult(), revisionDML.alldataTags(), FedTimingAlgorithm.analyse(), ApvTimingAlgorithm.analyse(), OptoScanAlgorithm.analyse(), HLTBJet.analyseCorrectedJets(), HLTBJet.analyseCorrectedJetsL1FastJet(), HLTBJet.analyseJets(), HLTBJet.analyseLifetime(), HLTBJet.analyseLifetimeL1FastJet(), HLTBJet.analyseLifetimePF(), HLTBJet.analyseLifetimeSingleTrack(), HLTBJet.analyseLifetimeSingleTrackL1FastJet(), HLTBJet.analysePerformance(), HLTBJet.analysePerformanceL1FastJet(), HLTBJet.analysePFJets(), MultiTrackValidator.analyze(), RECOVertex.analyze(), ZDCMonitorClient.analyze(), HLTMonBTagIPSource.analyze(), HLTMonBTagMuSource.analyze(), BasicGenParticleValidation.analyze(), ValidationMisalignedTracker.analyze(), L1TRPCTF.analyze(), DTLocalTriggerLutTask.analyze(), MuonTrackValidator.analyze(), SiStripTrackingRecHitsValid.analyze(), approx_erf(), approx_expf(), FWProxyBuilderConfiguration.assertParam(), Vispa.Gui.VispaWidget.VispaWidget.autosize(), Vispa.Gui.ZoomableScrollArea.ZoomableScrollArea.autosizeScrollWidget(), HLTMonBitSummary.beginJob(), HWWFunctions.bestHypothesis(), PeriodicBinFinderInPhi< float >.binIndex(), PeriodicBinFinderInZ< float >.binIndex(), GeneralBinFinderInR< T >.binIndex(), GeneralBinFinderInZforGeometricSearchDet< float >.binIndex(), GenericBinFinderInZ< float, GeomDet >.binIndex(), MagBinFinders::GeneralBinFinderInR< double >.binIndex(), RBorderFinder.binIndex(), MagBinFinders::GeneralBinFinderInZ< double >.binIndex(), GctFormatTranslateV38.blockToGctEmCandsAndEnergySums(), GctFormatTranslateV38.blockToGctJetCandsAndCounts(), MaterialBudgetForward.book(), HcalDigisClient.book1D(), HcalDigisValidation.book1D(), DTTriggerEfficiencyTask.bookChamberHistos(), DTLocalTriggerEfficiencyTest.bookChambHistos(), HLTExoticaPlotter.bookHist(), HLTHiggsPlotter.bookHist(), HLTHiggsSubAnalysis.bookHist(), HLTExoticaSubAnalysis.bookHist(), HLTMuonPlotter.bookHist(), PhotonOfflineClient.bookHisto(), PhotonAnalyzer.bookHisto(), HLTHiggsSubAnalysis.bookHistograms(), MuonTrackValidator.bookHistograms(), DTLocalTriggerSynchTask.bookHistos(), DTLocalTriggerTask.bookHistos(), Vispa.Views.LineDecayView.DecayLine.boundingRect(), FWLongParameterSetter.build(), FWDoubleParameterSetter.build(), MagGeoBuilderFromDDD::eLayer.buildMagELayer(), FWCaloTauProxyBuilder.buildViewType(), L1GlobalCaloTrigger.bxSetup(), LocalCacheFile.cache(), parserTimingReport.calc_MinMaxAvgRMS(), LRHelpFunctions.calcPtdrLRval(), SiPixelDigitizerAlgorithm.calcQ(), PFEGammaAlgo.calculate_ele_mva(), barrelUtil.calculatePhiWindow(), HcalDetDiagLaserClient.calculateProblems(), HcalDetDiagPedestalClient.calculateProblems(), HcalDetDiagTimingClient.calculateProblems(), HcalDetDiagNoiseMonitorClient.calculateProblems(), HcalHotCellClient.calculateProblems(), HcalNZSClient.calculateProblems(), HcalDeadCellClient.calculateProblems(), HcalRecHitClient.calculateProblems(), HcalRawDataClient.calculateProblems(), CSCXonStrip_MatchGatti.calculateXonStripError(), CSCXonStrip_MatchGatti.calculateXonStripPosition(), condbon.cdbon_write(), RectangularStripTopology.channel(), TrapezoidalStripTopology.channel(), CSCRadialStripTopology.channel(), TkRadialStripTopology.channel(), GsfElectronAlgo::ElectronData.checkCtfTrack(), SimpleCosmicBONSeeder.checkNoisyModules(), RectangularEtaPhiTrackingRegion.checkRZOld(), StraightLineCylinderCrossing.chooseSolution(), SpikeAndDoubleSpikeCleaner.clean(), TrajectoryCleanerBySharedHits.clean(), TrackCleaner.cleanTracks(), Grid1D.closestNode(), PixelCPEGeneric.collect_edge_charges(), CSCStripElectronicsSim.comparatorReading(), TrajectorySeedProducer.compatibleWithBeamAxis(), EgammaTowerIsolationNew< NC >.compute(), svgfig.Ticks.compute_logticks(), svgfig.Ticks.compute_miniticks(), EcalDccWeightBuilder.computeAllWeights(), ForwardDiskSectorBuilderFromWedges.computeBounds(), ForwardDiskSectorBuilderFromDet.computeBounds(), ForwardRingDiskBuilderFromDet.computeBounds(), TIDLayer.computeDisk(), PileupJetIdAlgo.computeIdVariables(), BarrelDetLayer.computeSurface(), ForwardDetLayer.computeSurface(), MuRingForwardDoubleLayer.computeSurface(), EcalTPGParamBuilder.computeWeights(), Vispa.Views.LineDecayView.DecayLine.containsPoint(), MuonHOAcceptance.convertRegions(), GsfBetheHeitlerUpdator.correctedFirstMean(), SamplingAlgorithm.correctProfile(), SiPixelActionExecutor.createMaps(), LaserSorter.createOutStream(), GaussianSumUtilities1D.d1LnPdf(), GaussianSumUtilities1D.d2LnPdf(), Qjets.d_ij(), revisionDML.dataTagInfo(), DateHandler.dateToTm(), LaserSorter.dcc2Lme(), BTagLikeDeDxDiscriminator.dedx(), Vispa.Gui.VispaWidget.VispaWidget.defineCircleBackgroundShape(), Vispa.Gui.VispaWidget.VispaWidget.defineRoundRectBackgroundShape(), AlphaTVarProducer.deltaHt(), python.rootplot.core.display_bin_text(), HWWFunctions.doCutFlow(), CSCSkim.doLongSATrack(), CSCStripElectronicsSim.doSaturation(), SideBandSubtract.doSubtraction(), PhysicsTools::TrainProcessor.doTrainData(), EmissionVetoHook1.doVetoFSREmission(), Comparator.Draw(), Vispa.Gui.PortConnection.PointToPointConnection.drawCorner(), Vispa.Gui.MenuWidget.MenuWidget.drawMenuEntries(), ClusterizingHistogram.dump(), VVIObjFDetails.dzero(), VVIObjDetails.dzero(), sistripvvi::VVIObjDetails.dzero(), EcalMonitorPrescaler.EcalMonitorPrescaler(), SiPixelCertification.endLuminosityBlock(), RPCRecHitValidClient.endRun(), AlcaBeamMonitorClient.endRun(), DTCertificationSummary.endRun(), SiPixelCertification.endRun(), PFEnergyCalibration.energyEmHad(), GSUtilities.errorMode(), RectangularEtaPhiTrackingRegion.estimator(), EtaMultiRangeCut.EtaMultiRangeCut(), GflashShowino.evaluateLengths(), HcalTopology.exclude(), cond::ExportIOVUtilities.execute(), cond::AlignSplitIOV.execute(), sistrip::SpyUtilities.extractFrameInfo(), AdHocNTupler.fill(), MTVHistoProducerAlgoForTracker.fill_generic_recoTrack_histos(), HcalDigiMonitor.fill_Nevents(), HcalTB06Analysis.fillBuffer(), HcalTB04Analysis.fillBuffer(), HLTMuonMatchAndPlot.fillEdges(), TriggerSummaryProducerAOD.fillFilterObjectMembers(), HcalDetDiagLaserMonitor.fillHistos(), HcalTB04Histo.fillLongProf(), HcalDeadCellMonitor.fillNevents_problemCells(), FastTimerServiceClient.fillPathSummaryPlots(), MTVHistoProducerAlgo.fillPlotNoFlow(), SiStripQualityChecker.fillSubDetStatus(), ExtractAppInfoFromXML.fillTable(), LRHelpFunctions.fillToSignalCorrelation(), HcalTB04Histo.fillTrnsProf(), ProbeTreeProducer.filter(), CSCDigiValidator.filter(), JetVertexChecker.filter(), RPCNoise.filter(), RPCRunIOV.filterIMON(), HEPTopTagger.Filtering(), LA_Filler_Fitter.find_rebin(), ThirdHitPrediction.findArcIntersection(), GaussianSumUtilities1D.findMode(), ThirdHitPrediction.findRectangle(), SymmetryFit.findUsableMinMax(), SequentialPartitionGenerator.first_part(), tauImpactParameter::Chi2VertexFitter.fit(), reco::PositiveSideGhostTrackFitter.fit(), LA_Filler_Fitter.fit_width_profile(), CaloRecHit.flagField(), SiStripAPVRestorer.FlatRegionsFinder(), EcalSelectiveReadoutValidation.frame2Energy(), FWExpressionValidator.FWExpressionValidator(), cmsPerfStripChart.get_yaxis_range(), RPCSimAverage.getClSize(), RPCSimAverageNoise.getClSize(), RPCSimAverageNoiseEff.getClSize(), RPCSimAsymmetricCls.getClSize(), RPCSimAverageNoiseEffCls.getClSize(), sistrip::SpyEventMatcher.getCollections(), GsfElectronCoreBaseProducer.getCtfTrackRef(), ZdcSD.getEnergyDeposit(), CastorSD.getEnergyDeposit(), EcalSelectiveReadoutValidation.getFIRWeights(), EcalSelectiveReadoutSuppressor.getFIRWeigths(), CastorShowerLibraryMaker.GetKinematics(), TMom.getMin(), popcon::EcalDAQHandler.getNewObjects(), popcon::EcalPedestalsHandler.getNewObjectsP5(), TMom.getPeak(), fireworks.getPhiRange(), ThirdHitPrediction.getRanges(), HcalTB02HcalNumberingScheme.getUnitID(), create_public_peakpu_plots.GetXLocator(), create_public_lumi_plots.GetXLocator(), EcalBarrelRecHitsMaker.geVtoGainAdc(), EcalEndcapRecHitsMaker.geVtoGainAdc(), HFGflash.gfParameterization(), CachingSeedCleanerBySharedInput.good(), GsfEleSCEtaMultiRangeCut.GsfEleSCEtaMultiRangeCut(), dataDML.guessDataIdForRange(), Pythia8Hadronizer.hadronize(), mpl_axes_hist_fix.hist(), ApvTimingHistograms.histoAnalysis(), FedTimingHistograms.histoAnalysis(), npstat::HistoND< Numeric, Axis >.HistoND(), PixelTripletLargeTipGenerator.hitTriplets(), PixelTripletHLTGenerator.hitTriplets(), HLTDiMuonGlbTrkFilter.hltFilter(), EGammaMvaEleEstimator.IDIsoCombinedMvaValue(), Vispa.Gui.VispaWidget.VispaWidget.imageRectF(), SiPixelCPEGenericDBErrorParametrization.index(), Grid1D.index(), SiTrivialInduceChargeOnStrips.induceOriginal(), SiTrivialInduceChargeOnStrips.induceVector(), reco::MustacheKernel.inDynamicDPhiWindow(), EcalBarrelRecHitsMaker.init(), TMom.init(), ThirdHitPredictionFromInvParabola.init(), EcalSelectiveReadoutSuppressor.initCellThresholds(), ExpressionHisto< T >.initialize(), reco::MustacheKernel.inMustache(), funct.integral_f(), EcalSelectiveReadoutSuppressor.internalThreshold(), dataDML.intglumiForRange(), cond::IOVRange.IOVRange(), DTHitPairForFit.isCompatible(), PFMuonAlgo.isGlobalLooseMuon(), PFMuonAlgo.isGlobalTightMuon(), L1MuGMTMatrix< T >.isMin(), TangentCircle.isTangent(), npstat::LinInterpolatedTableND< Numeric, Axis >.isWithinLimits(), reco::TrackProbabilityTagInfo.jetProbability(), JetProbabilityComputer.jetProbability(), JetBProbabilityComputer.jetProbability(), SimpleNavigationSchool.linkOuterGroup(), GaussianSumUtilities1D.lnPdf(), HcalNumberingFromDDD.loadGeometry(), CaloTPGTranscoderULUT.loadHCALCompress(), CSCRadialStripTopology.localPitch(), GflashHadronShowerProfile.locateHitPosition(), npstat::ArrayRange.lowerLimits(), main(), PixelThresholdClusterizer.make_cluster(), SiPixelDigitizerAlgorithm.make_digis(), generateEDF.makeEDFplot(), MuIsoValidation.MakeLogBinsForProfile(), EcalUncalibRecHitMaxSampleAlgo< C >.makeRecHit(), CSCHitFromStripOnly.makeStripData(), cmsTiming_parser.manipulate_log(), SiPixelActionExecutor.mapMin(), btag::Matching< Delta >.match(), lhef::Matching< Delta >.match(), AlignmentGlobalTrackSelector.matchTracks(), maxDiff(), GflashHadronShowerProfile.medianLateralArm(), MuonHOAcceptance::deadIdRegion.merge(), PixelTripletLargeTipGenerator.mergePhiRanges(), PixelTripletHLTGenerator.mergePhiRanges(), MultiHitGeneratorFromChi2.mergePhiRanges(), QuadrupletSeedMerger.mergeTriplets(), TrackerInteractionGeometry.minDim(), FlatEvtVtxGenerator.minX(), FlatEvtVtxGenerator.minY(), FlatEvtVtxGenerator.minZ(), Vispa.Gui.VispaWidgetOwner.VispaWidgetOwner.mouseMoveEvent(), FWEventItem.moveToFront(), FWEventItem.moveToLayer(), MuRingForwardLayer.MuRingForwardLayer(), AntiElectronIDMVA5.MVAValue(), HWWFunctions.nearestDeltaPhi(), CSCRadialStripTopology.nearestStrip(), TkRadialStripTopology.nearestStrip(), L1CaloHcalScaleConfigOnlineProd.newObject(), CosmicMuonGenerator.nextMultiEvent(), SiStripMonitorMuonHLT.Normalizer(), tauImpactParameter::MultiProngTauSolver.numericalESolver(), RK4PreciseStep.operator()(), reco::parser::min_f.operator()(), CylinderBuilderFromDet.operator()(), funct::GaussLegendreIntegrator.operator()(), npstat::LinInterpolatedTableND< Numeric, Axis >.operator()(), edm.operator<<(), CastorCORData.pack(), SiPixelCluster.pack_(), GflashEMShowerProfile.parameterization(), python.rootplot.core.parse_legend_root(), python.rootplot.core.parse_range(), HWWFunctions.passFirstCuts(), HWWFunctions.passMinMet(), HWWFunctions.passMinMet40(), python.rootplot.rootmath.pathdiff3(), HelixForwardPlaneCrossing.pathLength(), CmsTrackerDiskBuilder.PhiPosNegSplit_innerOuter(), DTTrigGeomUtils.phiRange(), InnerDeltaPhi.phiRange(), RectangularEtaPhiTrackingRegion.phiWindow(), PixelForwardLayerPhase1.PixelForwardLayerPhase1(), SiPixelTemplateSplit.PixelTempSplit(), PixelTrackErrorParam.PixelTrackErrorParam(), HDQMInspector.plot(), cond::PayLoadInspector< DataT >.plot(), plotMaker(), matplotRender.matplotRender.plotPeakPerday_Time(), matplotRender.matplotRender.plotPerdayX_Time(), PFTauRenderPlugin.preDraw(), CSCCrosstalkConditions.prefillCrosstalk(), CSCFakeDBCrosstalk.prefillDBCrosstalk(), CSCGainsConditions.prefillGains(), sipixelobjects::PixelFEDLink.printForMap(), PFMuonAlgo.printMuonProperties(), SiStripNoises.printSummary(), HcalDigiMonitor.process_Digi(), PFAlgo.processBlock(), HcalRecHitMonitor.processEvent_rechit(), MultiTrackSelector.processMVA(), CandOneToOneDeltaRMatcher.produce(), TrackListMerger.produce(), ConversionTrackMerger.produce(), SimpleTrackListMerger.produce(), FastL1CaloSim.produce(), DuplicateListMerger.produce(), AlCaHOCalibProducer.produce(), BaseParticlePropagator.propagate(), Qjets.Prune(), SamplingAlgorithm.pruneProfile(), CSCTFPtMethods.Pt2StnChiSq(), CSCTFPtMethods.Pt3StnChiSq(), EmissionVetoHook1.pTcalc(), ThePEGInterface.pthat(), edm::DataMixingEMDigiWorker.putEM(), TrackClassifier.qualityInformation(), cond::IOVProxyData.range(), rangeIntersection(), ThirdHitPredictionFromInvParabola.rangeRPhi(), RunInfoRead.readData(), HcalSimpleRecAlgoImpl.recoHFTime(), reco::tau::RecoTauPiZeroStripPlugin2.RecoTauPiZeroStripPlugin2(), RecoTauPlotDiscriminator.RecoTauPlotDiscriminator(), reco::GhostTrackVertexFinder.recursiveMerge(), SiStripQuality.ReduceGranularity(), MuonTrackingRegionBuilder.region(), HcalSimpleRecAlgoImpl.removePileup(), svgfig.rgb(), SubjetFilterAlgorithm.run(), HEPTopTagger.run_tagger(), ecaldqm::LaserTask.runOnDigis(), ecaldqm::LedTask.runOnDigis(), TrackerMap.save_as_HVtrackermap(), SiStripBaseCondObjDQM.saveTkMap(), KDTreeLinkerTrackEcal.searchLinks(), PixelForwardLayer.searchNeighbors(), PixelForwardLayerPhase1.searchNeighbors(), TIBRing.searchNeighbors(), MultiTrackSelector.select(), set_mean(), set_sigma(), GlobalHaloAlgo.SetEcalMatchingRadius(), CaloRecHit.setFlagField(), GlobalHaloAlgo.SetHcalMatchingRadius(), CondDBESSource.setIntervalFor(), CompareToMedian.setMin(), CompareLastFilledBin.setMin(), HistoDef.setMinimum(), FlavourHistograms< int >.SetMinimum(), FlavourHistograms2D< double, double >.SetMinimum(), CSCHaloAlgo.SetMinMaxInnerRadius(), CSCHaloAlgo.SetMinMaxOuterMomentumTheta(), CSCHaloAlgo.SetMinMaxOuterRadius(), SetMinMaxRange(), reco::PhiWedge.SetMinMaxTime(), CompareToMedian.setMinMedian(), TrackerMap.setRange(), Vispa.Main.SplitterTab.SplitterToolBar.setSectionSizes(), SiStripLorentzAngleGenerator.setUniform(), egHLT::BinData::Data1D.setup(), HcalZSAlgoRealistic.shouldKeep(), CSCStripHitSim.simulate(), SiPixelCluster.SiPixelCluster(), Vispa.Gui.VispaWidget.VispaWidget.sizeHint(), StripCPEgeometric::WrappedCluster.smallerEdgeStrip(), QGLikelihoodCalculator.smearingFunction(), TrackClusterSplitter.splitCluster(), CSCRadialStripTopology.strip(), TkRadialStripTopology.strip(), npstat::ArrayRange.stripOuterLayer(), SiStripTemplateSplit.StripTempSplit(), PixelRecoRange< float >.sum(), svgfig.XErrorBars.SVG(), svgfig.YErrorBars.SVG(), SiStripTemplate.sxtemp(), ConeIsolationAlgorithm.tag(), TestPythiaDecays.TestPythiaDecays(), TkStripMeasurementDet.testStrips(), LinkByRecHit.testTrackAndClusterByRecHit(), root.tf1(), DTTrigGeomUtils.thetaRange(), HcalNumberingFromDDD.tileHB(), HcalNumberingFromDDD.tileHE(), create_public_lumi_plots.LumiDataBlock.time_begin(), create_public_lumi_plots.LumiDataBlockCollection.time_begin(), RPCRunIOV.toUNIX(), cond.toUNIX(), MuonNavigableLayer.trackingRange(), TrajectoryAtInvalidHit.TrajectoryAtInvalidHit(), funct.trapezoid_integral(), cond::PayLoadInspector< DataT >.trend_plot(), TwoBowedSurfacesDeformation.TwoBowedSurfacesDeformation(), GflashHadronShowerProfile.twoGammaProfile(), HcalNumberingFromDDD.unitID(), HcalRawDataMonitor.unpack(), DCCTowerBlock.unpackXtalData(), DCCSCBlock.unpackXtalData(), HcaluLUTTPGCoder.update(), HcalTB02Analysis.update(), sistrip::RawToDigiUnpacker.update(), CastorTestAnalysis.update(), GaussianSumUtilities1D.update(), Vispa.Main.Application.Application.updateMenu(), RPCFw.UTtoT(), validateGlobalMuonPair(), npstat::HistoND< Numeric, Axis >.volume(), edm::Lumi3DReWeighting.weight3D(), reweight::LumiReWeighting.weight3D(), edm::Lumi3DReWeighting.weight3D_init(), reweight::LumiReWeighting.weight3D_init(), npstat::BoxND< Numeric >.write(), CSCXonStrip_MatchGatti.xfError_Noise(), CSCXonStrip_MatchGatti.xfError_XTasym(), and SiPixelTemplate2D.xytemp().

tuple bookConverter.optManager = OptionParser()

Definition at line 130 of file bookConverter.py.

bookConverter.opts = opts.__dict__

Definition at line 132 of file bookConverter.py.

dictionary bookConverter.prior = {}

Definition at line 145 of file bookConverter.py.

Referenced by fftjetcms.fftjet_BgFunctor_parser(), reco::SequentialGhostTrackFitter.fit(), reco::GhostTrackFitter.fit(), LikelihoodSpecies.LikelihoodSpecies(), and LikelihoodSpecies.setPrior().

tuple bookConverter.resdoc = dom.Document()

Definition at line 138 of file bookConverter.py.

dictionary bookConverter.results = {}

Definition at line 143 of file bookConverter.py.

tuple bookConverter.srcdoc = dom.parse(opts['src'])

Definition at line 139 of file bookConverter.py.

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