Functions | Variables
make_syst_table_plots Namespace Reference

Functions

def ReplaceSystName (syst_name)
 
def GetSystTable (fname, systs, addLepAng=False)
 

Variables

tuple systs_xsec
 
tuple systs_other
 
tuple systs_options = ( "summary", "xsec", "other" )
 Parse Options. More...
 
 parser = OptionParser()
 
 dest
 
 type
 
 default
 
 None
 
 help
 
 action
 
 False
 
 opts
 
 args
 
 systs = opts.systs
 
string isSummary = "summary"
 
string isXSec = "xsec"
 
string isOther = "other"
 
string table_type = "full"
 
tuple box_colors = ( kRed+1, kOrange+1, kGreen+1, kBlue )
 
list systs_tables = []
 
string out_tag = ""
 
string plots_dir = "./syst_plots"
 
 ntables = len( systs_tables )
 
 nsysts = len( systs_tables[0] )
 
 c = TCanvas()
 
int canvas_width = 1000
 
int canvas_height = 800
 
tuple osc_vars = ( "s23", "dCP", "m32" )
 
int var_index = osc_vars.index( var )+1
 
string xtitle = ""
 
float xmax = 1.0
 
int ndiv = 502
 
 h = TH2F( var, "", 10, -xmax, +xmax, nsysts, 0, nsysts )
 
list boxes = []
 
 ibin = nsysts-syst_idx
 
 syst_name = systs_tables[0][syst_idx][0]
 
 errors = systs_tables[table_idx][syst_idx][var_index].split( "/" )
 
 xlo = float( errors[1] )
 
 xhi = float( errors[0] )
 
float space = 0.25
 
tuple dy = ( 1.0 - space )/ntables
 
 yhi = ibin-( space / 2 )-table_idx*dy
 
 ylo = yhi-dy
 
 line = TLine()
 

Function Documentation

def make_syst_table_plots.GetSystTable (   fname,
  systs,
  addLepAng = False 
)

Definition at line 107 of file make_syst_table_plots.py.

References open().

107 def GetSystTable( fname, systs, addLepAng = False ) :
108 
109  table = []
110  for line in open( fname ) :
111 
112  if "Source of Uncertainty" in line : continue
113  if "hline" in line : continue
114 
115  line = line.strip()
116  if not "Statistical" in line : line = line[ 0 : line.find( "\\" ) ]
117  line = line.split( " & " )
118  syst_name = line[0]
119 
120  if systs == "xsec" and syst_name not in systs_xsec : continue
121  elif systs == "other" and syst_name not in systs_other : continue
122 
123  table.append( line )
124 
125  # Ugly hack to add zero-filled lepton angle uncertainty for no-pT extrap
126  if addLepAng and "Detector Response" in syst_name :
127  table.append( ( "Lepton Angle", "+0 / -0", "+0 / -0", "+0 / -0" ) )
128  if addLepAng and "Uncorr FD Mu Energy Scale 2020" in syst_name :
129  table.append( ( "Lepton Angle Syst ND XZ", "+0 / -0", "+0 / -0", "+0 / -0" ) )
130  table.append( ( "Lepton Angle Syst ND YZ", "+0 / -0", "+0 / -0", "+0 / -0" ) )
131  table.append( ( "Lepton Angle Syst FD XZ", "+0 / -0", "+0 / -0", "+0 / -0" ) )
132  table.append( ( "Lepton Angle Syst FD YZ", "+0 / -0", "+0 / -0", "+0 / -0" ) )
133 
134  return table
135 
136 
def GetSystTable(fname, systs, addLepAng=False)
procfile open("FD_BRL_v0.txt")
def make_syst_table_plots.ReplaceSystName (   syst_name)

Definition at line 74 of file make_syst_table_plots.py.

74 def ReplaceSystName( syst_name ) :
75 
76  syst_name = syst_name.replace( "antineutrinos", "#bar{#nu}" )
77  syst_name = syst_name.replace( "neutrinos", "#nu" )
78  syst_name = syst_name.replace( "CCQE z-exp EV shift", "CCQE Z-Exp EV" )
79  syst_name = syst_name.replace( "ZNormCCQE", "CCQE Z-Exp Norm." )
80  syst_name = syst_name.replace( "RPA shape: higher-Q^{2} enhancement (2020)", "CCQE RPA High-Q^{2} Enh." )
81  syst_name = syst_name.replace( "RPA shape: low-Q^{2} suppression (2020)", "CCQE RPA Low-Q^{2} Supp." )
82  syst_name = syst_name.replace( "RES low-Q^2 suppression", "RES Low-Q^{2} Supp." )
83  syst_name = syst_name.replace( "hN FSI mean free path", "hN FSI MFP" )
84  syst_name = syst_name.replace( "hN FSI fate fraction eigenvector #1", "hN FSI Fate Frac. EV #1" )
85  syst_name = syst_name.replace( "MEC E_{#nu} shape", "MEC E_{#nu} Shape" )
86  syst_name = syst_name.replace( "MEC 2020 (q_{0}, |#vec{q}|) response", "MEC (q_{0},#left|#vec{q}#right|)" )
87  syst_name = syst_name.replace( "Radiative corrections for", "Rad. Corr." )
88  syst_name = syst_name.replace( "MEC initial state np fraction", "MEC np Frac." )
89  syst_name = syst_name.replace( "AbsCalib", "Abs. Calib." )
90  syst_name = syst_name.replace( "RelCalib", "Rel. Calib." )
91  syst_name = syst_name.replace( "CalibShape", "Calib. Shape" )
92  syst_name = syst_name.replace( "CalibDrift", "Calib. Drift" )
93  syst_name = syst_name.replace( "Lightlevel ", "Light Level" )
94  syst_name = syst_name.replace( "Neutron visible energy systematic 2018", "Neutron Vis. E" )
95  syst_name = syst_name.replace( "Uncorr ND Mu Energy Scale 2020", "E_{#mu} Scale ND" )
96  syst_name = syst_name.replace( "Uncorr FD Mu Energy Scale 2020", "E_{#mu} Scale FD" )
97  syst_name = syst_name.replace( "Corr Mu Energy Scale 2020", "E_{#mu} Scale Corr" )
98  syst_name = syst_name.replace( "Uncorr MuCat Mu Energy 2020", "E_{#mu} #mu Catcher" )
99  syst_name = syst_name.replace( "Neutron Pile-up 2020", "E_{#mu} Neutron Pile-up ND" )
100  syst_name = syst_name.replace( "Acceptance ND to FD Kinematics Signal FHC 2020", "Nue Signal Accept. FHC" )
101  syst_name = syst_name.replace( "Acceptance ND to FD Kinematics Signal RHC 2020", "Nue Signal Accept. RHC" )
102  syst_name = syst_name.replace( "Michel Electrons Tagging Uncertainty", "Michel Tagging" )
103  syst_name = syst_name.replace( "Flux Component 0", "Flux PC " )
104 
105  return syst_name
106 

Variable Documentation

make_syst_table_plots.action

Definition at line 147 of file make_syst_table_plots.py.

make_syst_table_plots.args

Definition at line 152 of file make_syst_table_plots.py.

tuple make_syst_table_plots.box_colors = ( kRed+1, kOrange+1, kGreen+1, kBlue )

Definition at line 166 of file make_syst_table_plots.py.

list make_syst_table_plots.boxes = []

Definition at line 242 of file make_syst_table_plots.py.

Referenced by evd::GeometryDrawer.DrawBadBoxesPretty().

make_syst_table_plots.c = TCanvas()

Definition at line 188 of file make_syst_table_plots.py.

Referenced by noe.__attribute__(), PandAna.core.core.Cut.__call__(), nova::database::Tolerance_t._clone(), nova::dbi::dBColumn_t._clone(), nova::dbi::dBCheck_t._clone(), nova::database::dBColumn_t._clone(), nova::dbi::dBRow_t._clone(), nova::database::dBCheck_t._clone(), nova::database::dBRow_t._clone(), nova::dbi::dBTable._clone(), nova::database::dBTable._clone(), stan::math.add(), nova::database::Table.AddDistinctColumn(), nova::dbi::Table.AddDistinctColumn(), nutools::dbi::Table.AddDistinctColumn(), nova::database::Table.AddOrderColumn(), nova::dbi::Table.AddOrderColumn(), nutools::dbi::Table.AddOrderColumn(), TexBuilder.AddTable(), rb::Cluster.AllCells(), caldp::TCTrack.AllPCHits(), Ana01PaperPlot(), Ana01PaperPlotME(), Analyse_GetEfficiency(), Analyse_GetEfficiency_UseNEntries(), calib::ADCShapeFitAna.analyze(), comi::ChanOcc.analyze(), supernova::sliceAna.analyze(), beamlinereco::ToFSingleCounterAnalysis.analyze(), align::Alignment.analyze(), murem::MuonRemoveAna.analyze(), beamlinereco::ToFRecoAnalysis.analyze(), zcl::FmmTriggerAna.analyze(), remid::ReMIdDedxRock.analyze(), mono::Monopole.analyze(), remid::ReMIdDedxFD.analyze(), remid::ReMIdDedxStudies.analyze(), air::AirKalmanAna.analyze(), calib::CalibAna.analyze(), upmuana::UpMuRecoAna.analyze(), comi::Leana.AnaNHit(), caldp::AttenProfilesMap.AttenProfilesMap(), om::PlotOptions.AutoScale(), lem::MakePID.AvgAndFit(), photrans::ImprovedTransport.beginRun(), evdb::ScanWindow.BuildButtonBar(), geo::GeometryBase.BuildMaps(), bwnorm(), caf_numu_sensitivity(), caf_numu_sensitivity_no_tau(), CalcCluster(), genie::QPMDISStrucFuncBase.Calculate(), cana_tave_vs_run(), stan::math.categorical_logit_rng(), stan::math.categorical_rng(), evd::RecoBaseDrawer.CellHit2D(), evd::RecoBaseDrawer.CellHit3D(), geo::GeometryBase.CellInfo(), geo::GeometryBase.CellTpos(), cet::registry_via_id< K, V >.cend(), dt::Chain.Chain(), cheat::RecoCheckAna.CheckRecoClusters(), trk::KalmanTrackAna.CheckRecoTracks(), novaddt::SliceSelector.checkSlice(), vdt::Segment.Chi2Line(), murem::TrackCleanUpAlg.CleanUpTrack(), genie::utils::kinematics.CohQ2Lim(), nutools::dbi::Column.Column(), nova::dbi::Column.Column(), CompareRootfile(), CompareSlices(), CompareSpectra(), ana::ModularExtrapComponent.ComparisonPlot(), genie::RSHelicityAmplModelCC.Compute(), genie::RSHelicityAmplModelNCn.Compute(), genie::RSHelicityAmplModelNCp.Compute(), genie::alvarezruso::AREikonalSolution.Con(), ana.Constant(), containment_optimization_plots(), om::PlotViewer.ContentProjectionTH1F(), om::PlotViewer.ContentProjectionTH2F(), ContourComparisonPlot(), genie::geometry::PlaneParam.ConvertMaster2Top(), geo::GeometryBase.CountCellsOnLine(), art::detail::CPCSentry.CPCSentry(), nova::database::Table.CreateFromDB(), nova::database::Table.CreateFromXML(), nova::dbi::Table.CreateFromXML(), CreatePlots(), data_over_mc_profile(), datamc(), nova::dbi.dBTable_(), nova::database.dBTable_(), ana::PredictionInterp.DebugPlot(), genie::utils::nuclear.Density(), evd::GeometryDrawer.DetOutline2D(), evd::GeometryDrawer.DetOutline3D(), evd::RecoBaseDrawer.DimFiltered(), lem::DistanceMap.DistanceMap(), stan::math.divide(), novaddt::HoughTrackMaker.do_like_zukai(), lem::Potential.Downsampled(), lem::MatchableEvent.Downsampled(), art::Worker.doWork(), evd::TQPad.Draw(), CalibAnaPlot.Draw(), evd::HitTower.Draw(), draw_fn_coverage(), draw_track(), ana::FCSurface.DrawBins(), evd::RecoBaseDrawer.DrawCluster2D(), DrawCovMx(), evd::RecoBaseDrawer.DrawHoughResults2D(), drawLongTerm(), drawPlot(), DrawPlots(), drawSensitivity(), DrawSurface(), ana::CovMxSurface.DrawSurfacePoint(), DrawSurfacePoint(), drawSystsShiftingNDdata(), drawSystsShiftingNDdata_updatedAna(), TexBuilder.DrawTable(), drawTimePlots(), demo.DrawUpDownRatioCanvas(), drawVsPOT(), MEUPerCell.DriftTex(), earmsnt(), EHadVisMECpairs(), electron_energy_bias(), chaninfo::CosmicEff.endJob(), novatb::TriggerRateAna.endJob(), novatb::TOFTriggerAna.endJob(), novatb::BeamTuning.endJob(), energyResolution(), fnex::MetaDataLite.EpochString(), fnex::MetaData.EpochString(), om::HitMaps.EvalFEBShutOff(), nnbar::RecoAnalysis.evd(), util.EventBox(), dt::ViewMerger.Extremes(), fd_plot(), fiducial_optimization_plots(), fiducial_optimization_plots_2d(), calib::StopperThreshold.FillHist(), bpfit::BreakPoint.FillHitList(), hv::HoughVertexAlg.FillMaps(), trk::KalmanGeoHelper.fillprivategeo(), trk::CosmicTrackAna.FillRecoInfo(), trk::CosmicTrackAna.FillTrackHistograms(), calib::StopperThreshold.FillTree(), mono::EventSelector.filter(), novaddt::MichelETrigger.filter(), trk::KalmanTrackAna.FindVisibleProngs(), cheat::RecoCheckAna.FindVisibleProngs(), fuzz::FuzzyKValidate.FindVisibleProngs3D(), fuzz::FuzzyKVertex.FindVisibleProngs3D(), fit_thresh_corrs(), ana::PredictionInterp.FitRatios(), trk::WindowTrackingAlg.FitWindow(), art::FloatingPointControl.FloatingPointControl(), evd::SimulationDrawer.FLSHit2D(), evd::SimulationDrawer.FLSHit3D(), FOMPlot(), evd::Style.FromPDG(), genie::GMCJDriver.GenerateVertexPosition(), genie_syst_shifts(), genie_syst_universe(), stan::json::parser< Handler, Validate_UTF_8 >.get_char(), stan::json::parser< Handler, Validate_UTF_8 >.get_chars(), stan::json::parser< Handler, Validate_UTF_8 >.get_escaped_unicode(), stan::json::parser< Handler, Validate_UTF_8 >.get_int_as_hex_chars(), stan::json::parser< Handler, Validate_UTF_8 >.get_non_ws_char(), genie::Spline.GetAsTSpline(), evd::GeometryDrawer.GetBox(), ana::CovMxSurface.GetContours(), GetEfficiencySystematicUncertainty(), caldp::AttenHistsMap.GetHists(), genie::alvarezruso::AlvarezRusoCOHPiPDXSec.GetLeptonMass(), evd::SliceNavigator.GetProducts(), getSensitivity(), GetShiftNames2017(), ana.GetShiftNames2018(), calib.GetXYZD(), om::CaptionBox.GUIModelDataIssue(), CAFTreeMaker.HandleRecord(), ana.Hash(), evd::HeaderDrawer.Header(), bpfit.HighestPIDTrack(), fnex::NuMuAnalysisSetup.HighestPIDTrack(), remid.HighestPIDTrack(), rb::HitList.HitList(), genie::utils::kinematics.InelYLim_X(), genie::utils::kinematics::electromagnetic.InelYLim_X(), integrand(), stan::math.inv_Phi(), util.ipow(), trk::CosmicTrackSelection.IsCalibTrack(), calib::PCHitsList.IsGoodTrack(), genie::geometry::PlaneParam.IsValid(), genie::utils::math.KahanSummation(), genie::KNOHadronization.KNO(), genie::SmithMonizUtils.LambdaFUNCTION(), trk::CosmicTrackUtilities.LengthCorrection(), fnex::CalibSyst.Load2018CalibSystHists(), nerd::NERDEval.load_anchors(), keras::LayerConv2D.load_weights(), ana::CovMxSurface.LoadFrom(), nova::database::Table.LoadFromCSV(), nova::database::Table.LoadFromSSV(), LogClone(), numue::NumuEAlg.LongestTrack(), trk::WindowTrackingAlg.LookForBremsstrahlungHits(), LOverEFlux(), LOverEPlot(), calib::AttenFit.lowessFit(), calib::AttenuationFit.lowessFit(), lsqr_fprime(), lu_backsubst(), lu_factorize(), lu_forwsubst(), LZ4_isLittleEndian(), main(), make1DsAndRatio(), ana.Make2DFrom1D(), make_2hitq(), make_extrap_figure(), make_pdf(), make_selectgoodclust(), make_selectgoodclust2(), makeCanvas(), om::HistogramBrowser.MakeCategory(), MakeComparisonPlots(), cmf::CovarianceFitHelper.MakeCovarianceMatrixHistogram(), makeHadEFrac2DPlot(), MakeHBar(), lem::DistanceMap.MakeHist(), MakeLongCanvas(), MakeMePlot(), ana::InteractionSpectra.MakePlot(), ana::ResolutionScan.MakePlot(), makeProfiles(), MakeSystRatios(), makeSystTable(), ValidCalibPDF.MakeTex(), trk::CosmicTrackAlg.MakeTrack(), trk::WindowTrackingAlg.MakeTrack(), airshower::AirSlicer.MakeTrackSlices(), stan::math.matrix_exp_2x2(), MatrixValidation(), ana::GenericVar< caf::SRProxy >.MaxID(), ana::GenericCut< caf::SRProxy >.MaxID(), MCCompPredictionTable(), evd::SimulationDrawer.MCTruthTrajectoriesAnyD(), evd::SimulationDrawer.MCTruthVectors3D(), min(), modularextrap_demo_nue(), modularextrap_demo_numu(), mre_blessed(), mre_comp_split(), stan::math.multiply(), numue::NumuEAlg.MuonEnergies(), muonid_optimization_plots(), MyPlotWithSystErrorBand(), NCPaperPlot(), NCPaperPlotME(), NewNearlinePlots(), genie::geometry::PlaneParam.Normalize(), zcl::FmmTriggerEvd.NumberOfCellsPerLength(), Nus17vsAn01_NuFACT_2D(), evd::RecoBaseDrawer.OfflineChans2D(), evdb::ScanWindow.OpenOutputFile(), ana.operator!=(), fhicl::detail::it_value_get< std::complex< U >, typename tt::disable_if< std::is_reference< std::complex< U > >::value|| std::is_pointer< std::complex< U > >::value >::type >.operator()(), ana.operator<(), ana.operator<=(), ana.operator>(), ana.operator>=(), stan::math.ordered_logistic_log(), stan::math.ordered_logistic_lpmf(), stan::math.ordered_logistic_rng(), stan::math.ordered_probit_log(), stan::math.ordered_probit_lpmf(), stan::math.ordered_probit_rng(), ana::Spectrum.OverrideLivetime(), genie::BardinIMDRadCorPXSec.P(), stan::json::parser< Handler, Validate_UTF_8 >.parse_array_values_end_array(), stan::json::parser< Handler, Validate_UTF_8 >.parse_number(), stan::json::parser< Handler, Validate_UTF_8 >.parse_object_members_end_object(), stan::json::parser< Handler, Validate_UTF_8 >.parse_string_chars_quotation_mark(), stan::json::parser< Handler, Validate_UTF_8 >.parse_text(), stan::json::parser< Handler, Validate_UTF_8 >.parse_value(), FindNearlineConfig.ParseArguments(), calib::PCHitTransposer.PCHitTransposer(), pi0_xcheck(), rb::Track.PlaneDirMap(), genie::geometry::PlaneParam.PlaneParam(), Plot(), Plot1D(), Plot1DSlice(), Plot2D(), Plot2DSlice(), Plot2DSlices(), plot_2d(), plot_2d_vars(), plot_CellPos(), plot_DataMCComp_numu(), plot_nd_data_mc(), plot_ND_DataMC(), plot_ND_DataMC_energybinning(), plot_nd_spectra_2018(), plot_pi0_xcheck(), plot_pid(), plot_predictions(), plot_recoE_numu(), plot_resid(), plot_residV(), plot_residZ(), ana.PlotAll(), ana.PlotAllSelectionDecomposition(), ana::CutOptimization.PlotDebug(), PlotEvents(), ana.PlotMultiSyst(), PlotMultiverse(), PlotNZ(), PlotProjection(), PlotPurEff(), ana.PlotPurEff(), PlotResolution(), ana.PlotSpectra(), PlotStack(), ana.PlotStack(), PlotSyst(), ana.PlotSyst(), ana.PlotSystBand(), PlotSysts(), Plotting_CompareMultipleContours(), Plotting_Data2DataComp(), Plotting_Data2DataComp_SingleCanvas(), Plotting_DataAndPrediction(), Plotting_DataSpectra_MakeTGraph(), Plotting_MakeBlessedSlices(), Plotting_OverlayStudies(), PlotXY(), genie::GHepParticle.PolzAzimuthAngle(), ana::GenericCut< caf::SRProxy >.POT(), pots(), chaninfo::BadChanList.preBeginEvent(), genie::geometry::PlaneParam.Print(), print_plot(), PrintCanvasAll(), PrintErrorSurface(), PrintMeanRMSScanPlot(), PrintPlot(), PrintPlots(), PrintResolutionPlot(), prob_biprob_pedagogical(), noe::noe.produce(), cheat::ProngCheater.produce(), cheat::ShowerCheater.produce(), slicer::Slicer4D.produce(), cheat::TrackCheater.produce(), trk::KalmanTrack.produce(), trk::KalmanTrackMerge.produce(), calib::PCHitTransposer.produce(), numue::NumuEnergy.produce(), earms::ElasticArmsHS.produce(), comi::Cana.produce(), photrans::PhotonTransport.produce(), zcl::SMMCluster.produce(), zcl::FmmTriggerEvd.produce(), lem::MakePID.produce(), remid::RecoMuon.produce(), tdslicer::TDSlicer.produce(), util.pythag(), Plotter.q0q3Panel(), genie::SmithMonizUtils.Q2QES_SM_lim(), genie::SmithMonizUtils.QEL_EnuMin_SM(), RatioPlot(), ana.RatioPlot(), evd::RawDataDrawer.RawDigit2D(), evd::RawDataDrawer.RawDigit3D(), evd::RawDataDrawer.RawDigitHardware(), stan::io.read_line(), om::HistoTable.ReadFile(), bsim.readWeightLocations(), reco_minus_true_panels(), ana.RefineSeeds(), HepGeom::Reflect3D.Reflect3D(), ana::DepMan< T >.RegisterConstruction(), ana::DepMan< T >.RegisterDestruction(), nova::database::Table.RemoveDistinctColumn(), nova::dbi::Table.RemoveDistinctColumn(), nutools::dbi::Table.RemoveDistinctColumn(), nova::database::Table.RemoveOrderColumn(), nova::dbi::Table.RemoveOrderColumn(), nutools::dbi::Table.RemoveOrderColumn(), ResolutionPanels(), resolutionplotter(), resolutionplotterbias(), calib::CDPStorage.RetrieveDriftCalFromFile(), hough::MultiHough2P.ReweightHits(), RMSPlot(), stan::model.rvalue(), saveContours_addExpt(), saveContours_complete(), saveContours_oscpar(), saveContours_simple(), saveContours_systs(), lem::EventSummary.SaveImage(), ana::NoReweight.SavePlots(), SaveToPsFile(), stan::io::dump_reader.scan_char(), stan::io::dump_reader.scan_chars(), stan::io::dump_reader.scan_dim(), stan::io::dump_reader.scan_int(), stan::io::dump_reader.scan_name_unquoted(), stan::io::dump_reader.scan_number(), stan::io::dump_reader.scan_single_char(), evdb::ScanFrame.ScanFrame(), ScanRootfile(), MEUPerFEB.ScheduleAllDataPlots(), MEUPerFEB.SchedulePlots(), MEUPerCell.SchedulePlots(), screen_to_activecell(), screen_to_cell(), selection_story_plots(), sensitivity_plot(), stan::math::matrix_exp_action_handler.set_approximation_parameter(), evdb::ColorScale.SetBounds(), rb::CellHit.SetID(), ana::SpectrumHandler.SetLoader(), evdb::ColorScale.SetOverFlowColor(), evdb::ColorScale.SetUnderFlowColor(), setup(), evdb::ParameterSetEditRow.SetupTextEntry(), nova::database::Table.SetValidityRange(), nutools::dbi::Table.SetValidityRange(), nova::dbi::Table.SetValidityRange(), sg_coeff(), show_potential(), evd::GeometryDrawer.ShowCellAndPlaneNumbers(), signal_count(), SignalCountPlot(), rb::HoughResult.SlopeIcept(), solve(), rb.SortByCell(), rb.SortByPlane(), rb.SortByPlaneAndCell(), rb.SortByTime(), cet.split(), cet.split_if(), SplitPlot(), starPlot(), zcl::FmmTriggerEvd.StdevCellsPerPlane(), StripSpecialChar(), stan::math.subtract(), syst_table_fit(), syst_table_fit_new(), systematics_summary_from_pred_interp(), nova::dbi::Table.Table(), TEST(), ana.test_best_spline(), test_nueloaders(), test_stanfit_dummy(), test_stanfit_systpulls(), test_stanfit_withsysts(), geo::GeometryTest.testCellIdFromPos(), calib::StopperThreshold.testPath(), evdb::ParameterSetEditRow.TextEntryReturnPressed(), theta23vsdeltamsq32(), timing_peak(), trk::CosmicTrackUtilities.TrackResiduals(), calib::AttenFit.TruncatedMeanProfile(), calib::AttenuationFit.TruncatedMeanProfile(), Plotter.TruthPlots(), rawp::CheckDAQChannelMap.Update(), uptime(), ana.Var3D(), genie::NievesQELCCPXSec.vcr(), genie::geometry::PlaneParam.Vd(), regcvntf::RegCVNTF.vector_to_tensor(), genie::geometry::PlaneParam.Vn(), Plotter.WeightPlots(), while(), wrong_sign_uncertainty(), calib::Calibrator.~Calibrator(), and geo::PlaneGeo.~PlaneGeo().

int make_syst_table_plots.canvas_height = 800

Definition at line 190 of file make_syst_table_plots.py.

int make_syst_table_plots.canvas_width = 1000

Definition at line 189 of file make_syst_table_plots.py.

make_syst_table_plots.default

Definition at line 146 of file make_syst_table_plots.py.

make_syst_table_plots.dest
tuple make_syst_table_plots.dy = ( 1.0 - space )/ntables

Definition at line 260 of file make_syst_table_plots.py.

make_syst_table_plots.errors = systs_tables[table_idx][syst_idx][var_index].split( "/" )

Definition at line 255 of file make_syst_table_plots.py.

Referenced by estimate_cosmics(), and estimate_cosmics_triggeronly().

make_syst_table_plots.False

Definition at line 147 of file make_syst_table_plots.py.

make_syst_table_plots.h = TH2F( var, "", 10, -xmax, +xmax, nsysts, 0, nsysts )

Definition at line 240 of file make_syst_table_plots.py.

Referenced by om::WatchListManager.Add(), rb::FilterList< T >.Add(), novaddt::HitsAna.addHit(), ana::PredictionSystJoint2018.AddNormSyst(), ana::PredictionSystJointDemo.AddNormSyst(), ana::PredictionSyst3Flavor2020.AddNormSyst(), ana::PredictionSystNue2017.AddNormSysts(), ana::PredictionSystNumu2017.AddNormSysts(), genie::AlgConfigPool.AddRootObjParameter(), novaddt::GHLTest.analyze(), mcchk::CloseInTime.analyze(), zcl::SMMTriggerAna.analyze(), mcchk::MonopoleAna.analyze(), numue::NumuEAna.analyze(), zcl::MMCheater.analyze(), remid::ReMIdDedx.analyze(), comi::NumiFilteringAna.analyze(), zcl::FmmTriggerAna.analyze(), zcl::FmmTrackerValidation.analyze(), ddt::SlicerEva.analyze(), showere::ShowerEnergyAna.analyze(), slicer::SlicerAna.analyze(), remid::ReMIdDedxRock.analyze(), comi::NearlineAna.analyze(), remid::ReMIdDedxFD.analyze(), remid::ReMIdDedxStudies.analyze(), zcl::FastMMStudy.analyze(), bpfit::BPFTmvaTrainer.analyze(), bpf::BPFCVNAna.analyze(), calib::CosmicTrends.analyze(), LightLevels.analyze(), ncs::Xbeam.analyze(), ncs::Xeff.analyze(), calib::CalibAna.analyze(), ddt::SuperDDTEva.analyze(), ncs::NCAna.analyze(), upmuana::UpMuRecoAna.analyze(), ana.AutoPlaceLegend(), boost::python::detail::proxy_helper< Container, DerivedPolicies, ContainerElement, Index >.base_get_item_(), ana.best_spline_set_histo(), stan::mcmc::base_nuts_classic< Model, diag_e_metric, expl_leapfrog, BaseRNG >.build_tree(), stan::mcmc::base_xhmc< Model, diag_e_metric, expl_leapfrog, BaseRNG >.build_tree(), stan::mcmc::base_nuts< Model, diag_e_metric, expl_leapfrog, BaseRNG >.build_tree(), genie::masterclass::GNuMcMainFrame.BuildMCTruthTab(), fnex::ShifterAndWeighter.CalcInterpFitCoeffs(), calculate_avg_nslcs(), cana_tave_vs_run(), evd::RecoBaseDrawer.CellHit2D(), evd::RecoBaseDrawer.CellHit3D(), check_file_success_rate(), cheat::CheckBackTracking.CheckPurityAndEfficiency(), ana::OscCovMxExperiment.ChiSq(), murem::TrackCleanUpAlg.CleanUpTrack(), g4n::G4Alg.CollectFLSHitsAndParticles(), Compare(), ana::PredictionCombinePeriods.ComponentCC(), ContourComparisonPlot(), art.convert_handle(), ana::HistCache.Copy(), om::GUIModel.Data(), om::DataBlockErrors.DataBlockErrors(), datamc_ND_numu_kinematics_FHC_REW(), datamc_ND_numu_kinematics_FHC_REW_pTBins(), datamc_ND_numu_kinematics_REW(), datamc_ND_numu_kinematics_RHC_REW(), datamc_ND_numu_kinematics_RHC_REW_pTBins(), Plotter.DataMCComparisons(), ana.DataMCRatio(), nova::dbi.dBTable_(), nova::database.dBTable_(), ana::PredictionInterp.DebugPlot(), ana::PredictionInterp.DebugPlotColz(), om::PlotClickHandler.DecodeClick(), slid::DedxDistribution.DedxDistribution(), ana::HistCache.Delete(), demo3(), demoFitSlices(), ana::T2KToyExperiment.Derivative(), DiagonalErrors(), evdb::DisplayWindow.DisplayWindow(), ana::FCBin.Draw(), CutLevel.Draw(), evd::RawDataDrawer.Draw3DHitBoxes(), draw_fn_coverage(), draw_track_in_one_view(), evd::RecoBaseDrawer.DrawCluster2D(), ana::SpectrumComponents.DrawComponents(), ana::CovMxSurface.DrawContours(), CutLevel.DrawEfficiency(), ana::CovMxSurface.DrawSurfacePoint(), DrawSurfacePoint(), ana::TwoSampleDecomp.DrawTwoSamplesWithRatios(), dump_event(), efficiencycalc(), EHadVisMECpairs(), calib::CosmicCalib.endJob(), calib::MakeAttenuationProfiles.endJob(), om::WatchListManager.EndSubrunCleanUp(), lem::EventSummary.EventSummary(), ana.ExPIDPlot(), ExPIDPlot(), FCContour(), fd_plot(), om::FEBRatesByDiblock.FEBRatesByDiblock(), fill_col(), lem::EventSummary.FillHists(), bpfit::BreakPoint.FillHitList(), lem.FillPotential(), evd::RecoBaseDrawer.FillTQHisto(), comi::NumiFiltering.filter(), bsf::BremShowerFilter.filter(), showere::ShowerEnergyFilterMC.filter(), lem::EventSummary.Finalize(), mono::Cluster.find(), om::HistoSourceBase.FindAllMatches(), bsf::BremShowerFilter.findShowerByTruth(), bpfit::DimuonFitter.FindSlices(), bpfit::BreakPoint.FindSlices(), om::HistoSet.FindTH1(), trk::CosmicTrackUtilities.FindTriCells(), fit_thresh_corrs(), fit_thresh_corrs_fb(), trk::WindowTrackingAlg.FitView(), ana.Flat(), lem::MatchableEvent.Flipped(), lem::EventSummary.FromTree(), genie_syst(), genie_syst_shifts(), genie_syst_universe(), cosrej::CosRejFxs.getBBC(), DrawUtils.GetBestYRange(), GetBkgd(), art::DataViewImpl.getByLabel(), ana::CovMxSurface.GetContours(), GetHistsFD(), GetHistsND(), art::DataViewImpl.getMany(), om::MicroErrors.GetMicroSliceSummary(), om::NanoErrors.GetNanoSliceSummary(), om::TQPlots.GetNanoSliceSummary(), om::HitMaps.GetNanoSliceSummary(), om::FEBRatesByDiblock.GetNanoSliceSummary(), GetNueCosmics2017(), GetNueCosmics2018(), GetNueCosmics2019(), GetNueCosmicsFuture(), GetNumuCosmics2017(), GetNumuCosmics2018(), GetNumuCosmics2019(), GetNumuCosmicsFuture(), ana::Multiverse.GetNUniverses(), art::DataViewImpl.getPointerByLabel(), GetQuantilePredictionHist(), getResidualDiff(), GetSig(), genie::utils::xml.GetTH1D(), om::HistoSet.GetTH1F(), genie::utils::xml.GetTH1F(), genie::utils::xml.GetTH2D(), om::HistoSet.GetTH2F(), getTimePeakPlots(), ana::CovarianceMatrix.GetUniverse(), art::DataViewImpl.getValidHandle(), ana::DecompWeightFunc.GetWeight(), ana::BeamSystOrWeightBase.GetWeight(), ana::GeniePCASyst.GetWeight(), genie::supernova::GFluxGenerator.GFluxGenerator(), grabNuEHistograms(), slid::NuEEnergyAlg.HadronicDepEnergy(), ana.Hash(), cheat::BackTracker.HitCollectionEfficiency(), cheat::BackTracker.HitCollectionPurity(), om::HitCounts.HitCounts(), rb::HitList.HitList(), om::HitMaps.HitMaps(), cheat::BackTracker.HitsToParticle(), cheat::BackTracker.HitsToTrackIDE(), evdb::ColorScale.HSVtoRGB(), stan::mcmc::base_hmc< Model, diag_e_metric, expl_leapfrog, BaseRNG >.init_stepsize(), Integral(), ana::Spectrum.Integral(), rb.IsFiltered(), cheat::BackTracker.IsHitsNoise(), joint_fit_2017_make_fc_slice(), joint_fit_2017_make_fc_surf(), joint_fit_2017_slices(), joint_fit_2018_slices(), joint_fit_2019_slices(), Legend(), evdb::ListWindow.ListWindow(), photrans.load_hset(), load_libs_muonid(), fnex::BeamSyst.LoadBeamSystHists(), LoadFakeData(), ana::FrequentistSurface.LoadFrom(), ana::SystShifts.LoadFrom(), ana::Nus17SystFromHist.LoadHists(), ana::NusSystFromHist.LoadHists(), ana::Nus18SystFromHist.LoadHists(), fnex::ShifterAndWeighter.LoadNueSystHists(), LogClone(), ana.LogLikelihood(), LoopPixels(), lsqr_fprime(), LZ4_compress_destSize_generic(), LZ4_compress_generic(), LZ4_getPosition(), LZ4_getPositionOnHash(), LZ4_putPosition(), LZ4_putPositionOnHash(), LZ4HC_Insert(), nl::NearlinePlotter.Make1DHistogram(), make_fc_mass_and_oct_nersc_2018(), make_fc_mass_and_oct_nersc_2019(), make_fc_mh_nersc_2018(), make_fc_mh_nersc_2019(), make_fc_oct_nersc_2018(), make_fc_oct_nersc_2019(), make_fc_slices_nersc_2018(), make_fc_slices_nersc_2018_stats(), make_fc_slices_nersc_2019(), make_fc_surfaces_2020(), make_fc_surfaces_2020_validation(), make_fc_surfaces_nersc_2018(), make_fc_surfaces_nersc_2018_stats(), make_fc_surfaces_nersc_2019(), make_nueFDprediction_kinematics_FHC_REW(), make_nueFDprediction_kinematics_FHC_REW_pTExtrap(), make_nueFDprediction_kinematics_REW(), make_nueFDprediction_kinematics_RHC_REW(), make_nueFDprediction_kinematics_RHC_REW_pTExtrap(), ana.make_test_th2(), MakeCovMx(), MakeFracPlot(), evdb::ColorScale.MakeHSVScale(), DrawUtils.MakeRatio(), MakeRawPlot(), murem::FindParent.MatchToOrigSlice(), ana::Spectrum.Mean(), ana::PredictionExtendToPeripheral.MergePeripheral(), ana::MichelDecomp.MichelDecomp(), om::MicroErrors.MicroErrors(), MinervaFluxFromHist(), rb::Cluster.MinMaxMeanXYZ(), MippNA49FluxFromHist(), ana::Spectrum.MockData(), monoprob(), mrbrem_plots(), mre_blessed(), mre_comp_split(), om::NanoErrors.NanoErrors(), ND_predictionbyMC(), slicer::Slicer.NeighborSlice(), no_titles(), NominalFluxFromHist(), nova_official_data_release(), sn::HighEnergyRemover.NumRemoved(), ana::MultiVar2DFunc.operator()(), ana::FixGibuuWeight.operator()(), fnex::Hasher< T >.operator()(), ana::Multiverse.operator*=(), ana::Spectrum.operator*=(), ana::ReweightableSpectrum.operator+=(), ana::OscillatableSpectrum.operator+=(), ana::OscillatableSpectrum.operator-=(), ana::Multiverse.operator/=(), ana::Spectrum.operator/=(), lem::LiteHit.operator<(), art.operator<<(), ana::OscillatableSpectrum.Oscillated(), evdb::ParameterSetEdit.ParameterSetEdit(), evdb::ParamFrame.ParamFrame(), cheat::BackTracker.PassMuonCuts(), PeripheralCuts(), pi0_xcheck(), plane_label(), plot(), Plot1DSlice(), plot2d(), plot_2d(), plot_2d_vars(), plot_beam_peak(), plot_nd_data_mc(), plot_pi0_xcheck(), plot_pid(), plot_resid(), ana::CrossSectionAnalysis.PlotFluxEstimate(), ana::SingleNucAnalysis.PlotFluxEstimate2D(), ana::NumuCC2p2hAnalysis.PlotFluxEstimate2D(), ana::NumuCCIncAnalysis.PlotHelper(), plotmodulewise(), PlotNDDataTotalMCComparison(), ana.PlotNDDataTotalMCComparison(), PlotNueDecompFourBins(), PlotNuePredictionFourBins(), plotStabilitySpectra(), ana.PlotSyst(), PlotSysts(), PlotSystShifts(), ana.PlotSystShifts(), Plotting_CompareMultipleContours(), ana::Spectrum.PlusEqualsHelper(), om::HistogramBrowser.Populate(), ppfx_smooth_weights_make(), ppfx_syst_pca_fn(), ana::PredictionCombinePeriods.PredictComponentSyst(), evdb::PrintDialog.PrintDialog(), util::TruthExpand.produce(), cheat::ClusterCheater.produce(), hough::HoughT.produce(), cheat::ProngCheater.produce(), cheat::ShowerCheater.produce(), cheat::TrackCheater.produce(), nuesand::FillNueSandbox.produce(), novaddt::TrackFit.produce(), numusand::FillSandbox.produce(), hough::MultiHoughT.produce(), lem::AlignLibToVtx.produce(), novaddt::NoiseHitFinder.produce(), earms::ElasticArmsHS.produce(), zcl::SMMCluster.produce(), sn::SupernovaMCCluster.produce(), cheat::MCCheater.produce(), bpfit::BPFEnergyEstimator.produce(), bpfit::BPFEnergyEstimatorOnly.produce(), murem::FindParent.produce(), ana::NumuCCIncAnalysis.ProjectHist(), Plotter.q0q3Panel(), QuickUnivRatioPlot(), RatioLegend(), ana.RatioPlot(), RatioPlot(), om::RawEventErrors.RawEventErrors(), om::HistoTable.ReadFile(), reco_minus_true_panels(), refresh(), sn::HighEnergyRemover.remove(), om::IPC.RequestTH1F(), om::IPC.RequestTH2F(), resolutionplotter(), resolutionplotterbias(), ana::ReweightableSpectrum.ReweightableSpectrum(), lem::EventSummary.SaveImage(), saveS(), ana::SystShifts.SaveTo(), SaveToPsFile(), selection_story_plots(), sensitivity_plot(), evdb::ColorScale.SetBounds(), rb::HitList.SetHit(), bpfit::HitList3D.SetHit(), ana::CovarianceMatrix.SetNUniverses(), ana::SpectrumHandler.SetShifts(), CalibAnaPlot.SetTreeLoopStride(), evdb::ParameterSetEditRow.SetupListBox(), ana::PredictionInterp.ShiftSpectrum(), trk::WindowTrackingAlg.ShortTrackExtraPlane(), show_potential(), lem::MakeLibrary.SliceMeanPosEWeighted(), cheat::BackTracker.SlicesToMCTruthsTable(), mono::Cluster.split_by_view(), mono::SlowMonopoleTrigger.split_by_view(), novaddt::smt::Trigger.split_by_view(), SplitPlot(), evd::RawDataDrawer.StickFigure(), g4n::FLSHitListAction.supressFLSHitList(), art::ValidHandle< T >.swap(), syst_test(), ana.test_best_spline_find_mode(), ana.test_best_spline_mode_graph(), test_flux(), test_nue2018_surface(), test_stanfit_withsysts(), slid::DedxDistribution.TH1DToTH1F(), art::detail.throw_if_invalid(), caldp::LiteProfile.ToTH1F(), ana.ToTHStack(), om::TQPlots.TQPlots(), stan::mcmc::base_static_uniform< Model, diag_e_metric, expl_leapfrog, BaseRNG >.transition(), stan::mcmc::base_static_hmc< Model, diag_e_metric, expl_leapfrog, BaseRNG >.transition(), om::TriggerPlots.TriggerPlots(), Tutorial2019FitSlices(), om::IPC.UnpackTH1F(), om::IPC.UnpackTH2F(), ana::ReweightableSpectrum.UnWeighted(), om::PlotViewer.Update(), ana::ReweightableSpectrum.WeightedBy(), ana::ReweightableSpectrum.WeightingVariable(), slicer::MMSlicer.WindowSlice(), slicer::Slicer.WindowSlice(), novaddt::DDTEvd.WriteHitListInfo(), moonshadowana::MoonShadowAna.WriteHitListInfo(), moonshadowana::MoonShadowAnaHough.WriteHitListInfo(), slid::DedxDistribution.~DedxDistribution(), and om::HistoSourceBase.~HistoSourceBase().

make_syst_table_plots.help

Definition at line 146 of file make_syst_table_plots.py.

make_syst_table_plots.ibin = nsysts-syst_idx

Definition at line 246 of file make_syst_table_plots.py.

Referenced by AddQuadrature(), align::Alignment.analyze(), fnex::FitEval_UBL.CalcIntegral(), Calculate1DChi2_simple(), Calculate2DChi2(), CalculateENuChi2(), CalculateQ2Chi2(), DedxComp(), DedxCompBirk(), DedxGamma(), rsim::ExcessNoiseMaker.DrawSmearedPE(), fnex::CorrectedSpectrum.DrawSpline(), fnex::CorrectedSpectrum.DrawStacks(), murem::MuonRemoveAna.endJob(), genie::flux::GFLUKAAtmoFlux.FillFluxHisto(), genie::flux::GBGLRSAtmoFlux.FillFluxHisto(), slidt.FillHists(), FillStatsHistos(), FindTruncate(), fnex::FitEval_UBL.FitValue(), fnex::FitEval_ChiSq.FitValue(), for(), GenerateEventsAtFixedInitState(), GetAbsolute(), ana.GetAsymmErrorBars(), GetBackgroundStatisticalUncertainty(), GetBackgroundSystematicUncertainty(), GetBinByEdge(), GetCommandLineArgs(), GetDenominator(), GetEfficiencyDenominator(), GetEfficiencySystematicUncertainty(), GetFluxError(), ana.GetFractionalError(), GetMaxUpDown(), GetSelectedStatisticalUncertainty(), LimitTMuBins(), readNtuple.Loop(), make_fc_file(), make_fc_nus_surfs_nersc_2018(), make_fc_nus_surfs_nersc_2019(), make_fc_slices_nersc_2018(), make_fc_slices_nersc_2018_stats(), make_fc_slices_nersc_2019(), make_fc_surfaces_2020(), make_fc_surfaces_2020_validation(), make_fc_surfaces_nersc_2018(), make_fc_surfaces_nersc_2018_stats(), make_fc_surfaces_nersc_2019(), make_muonid_opt(), make_nominal_xs(), make_xs(), makePlots(), MakePlots(), makeXSecPlots1D(), makeXSecPlots2D(), ModeRestrict(), fnex::FitEval_UBL.NDOF(), fnex::FitEval_ChiSq.NDOF(), ParseFluxHst(), PionDedxComp(), ana.PlotAllCrossSectionOverENu(), PlotCovariance(), ana::NumuCCIncAnalysis.PlotHelper(), ProtonDedxComp(), ProtonDedxCompBirk(), ana::SystShifts.SaveTo(), genie::flux::GAtmoFlux.SelectNeutrino(), SetErrorFromCovDiag(), xsec_tot_uncert_optimization(), and xsec_uncertainty_per_bin().

string make_syst_table_plots.isOther = "other"

Definition at line 161 of file make_syst_table_plots.py.

string make_syst_table_plots.isSummary = "summary"

Definition at line 159 of file make_syst_table_plots.py.

string make_syst_table_plots.isXSec = "xsec"

Definition at line 160 of file make_syst_table_plots.py.

make_syst_table_plots.line = TLine()

Definition at line 268 of file make_syst_table_plots.py.

Referenced by accum_nue_numu_equivalent(), DataFile.analyzeTextFile(), build_knob_switch(), daqchannelmap::ChannelMapException.ChannelMapException(), om::HwDetLabel.Clear(), om::HwPCLabel.Clear(), om::HwDCMLabel.Clear(), om::UTCLabel.Clear(), DCMOffsetCalculator(), diffapdhv(), DifferenceOverlay(), om::HwDetLabel.Draw(), om::HwPCLabel.Draw(), om::HwDCMLabel.Draw(), om::UTCLabel.Draw(), Draw1DProfile(), Draw2DSurface(), draw_fn_coverage(), draw_vlines(), DrawArrow(), DrawLeftArrow(), ana.DrawLineArrow(), DrawRightArrow(), geo::GeometryBase.ExtractGDML(), FindLatestDB(), nutools::dbi::Table.Folder(), stan::test::performance.get_last_iteration_from_file(), ValidCalibPDF.GetCSVRow(), meta::Metadata.GetInputMetadata(), GoodDataSelEmptySpillFrac(), GoodDataSelGoodDB(), GoodDataSelLiveTime(), GoodDataSelMipRate(), GoodDataSelNumSlices(), GoodDataSelRuns(), GoodDataSelTrkFrac(), goodness_of_fit(), jointsensitivity(), load_libs_from_command(), calib::AttenCache.LoadFromDatabase(), dbutils::gui::DAQConfigEditorDisplay.loadThresholdsAndMasks(), makeCanvas(), MakeComparisonPlotsWithRatio(), makeHWwatchlist(), MakeOverlayCanvas(), MakeSplitCans(), MakeTestStandPlots_AllRuns(), MakeTestStandPlots_NewRuns(), ValidCalibPDF.MakeTex(), mlpPIDelecallEetot(), mlpPIDelecallEtot(), mre_blessed(), ndrockmacro(), NominalRat(), nuebar_signif(), OnMonAnaHistos(), OnMonAnaHistosFEB_IssueRates(), OnMonAnaHistosPIX(), stan::lang::program_error.operator()(), plot_ehade_quantbound(), plot_quantile_boundaries_2020(), plot_spectra_2dplots(), plotapdhv(), PlotPionPlots(), Helper.PlotSpecial(), plotTime(), tensorflow::TFFifoHandler.Predict(), PredRatioToNom(), genie::Interaction.Print(), nutools::dbi::Table.PrintPMUsed(), nova::dbi::Table.PrintPMUsed(), nutools::dbi::Table.PrintVMUsed(), nova::dbi::Table.PrintVMUsed(), FormatFile.process(), nl::timing::LogFile.ProcessLog(), comi::Cana.produce(), stan::io::program_reader.read(), stan::io::stan_csv_reader.read_adaptation(), read_file(), stan::io::stan_csv_reader.read_header(), stan::io::stan_csv_reader.read_metadata(), stan::io::stan_csv_reader.read_samples(), remakeresultsplots_nue(), gov::fnal::cd::rms::base::RmsRuntimeException.RmsRuntimeException(), genie::Spline.SaveAsText(), ana::FluxDecomp.SavePlotsKa(), ana::FluxDecomp.SavePlotsPi(), ana::BENDecomp.SavePlotsPi(), sensitivity_plot(), ValidCalibPDF.SetEpochList(), TEST_F(), stan::model.test_gradients(), timing_peak(), stan::io::program_reader.trace(), daq2raw::BeamlineUnpack.UnpackTrigger(), and nova::dbi::Table.UseQueryEngine().

int make_syst_table_plots.ndiv = 502

Definition at line 206 of file make_syst_table_plots.py.

make_syst_table_plots.None

Definition at line 146 of file make_syst_table_plots.py.

make_syst_table_plots.nsysts = len( systs_tables[0] )
make_syst_table_plots.ntables = len( systs_tables )

Definition at line 183 of file make_syst_table_plots.py.

make_syst_table_plots.opts
tuple make_syst_table_plots.osc_vars = ( "s23", "dCP", "m32" )

Definition at line 199 of file make_syst_table_plots.py.

string make_syst_table_plots.out_tag = ""

Definition at line 169 of file make_syst_table_plots.py.

make_syst_table_plots.parser = OptionParser()

Definition at line 145 of file make_syst_table_plots.py.

string make_syst_table_plots.plots_dir = "./syst_plots"

Definition at line 180 of file make_syst_table_plots.py.

float make_syst_table_plots.space = 0.25
make_syst_table_plots.syst_name = systs_tables[0][syst_idx][0]
make_syst_table_plots.systs = opts.systs

Definition at line 157 of file make_syst_table_plots.py.

tuple make_syst_table_plots.systs_options = ( "summary", "xsec", "other" )

Parse Options.

Definition at line 143 of file make_syst_table_plots.py.

tuple make_syst_table_plots.systs_other
Initial value:
1 = (
2 "Flux Component 00",
3 "Flux Component 01",
4 "Flux Component 02",
5 "Flux Component 03",
6 "Flux Component 04",
7 "AbsCalib",
8 "RelCalib",
9 "CalibShape",
10 "CalibDrift",
11 "Lightlevel",
12 "Cherenkov",
13 "Uncorr ND Mu Energy Scale 2020",
14 "Uncorr MuCat Mu Energy 2020",
15 "Neutron Pile-up 2020",
16 "Corr Mu Energy Scale 2020",
17 "Uncorr FD Mu Energy Scale 2020",
18 "Lepton Angle Syst ND XZ",
19 "Lepton Angle Syst ND YZ",
20 "Lepton Angle Syst FD XZ",
21 "Lepton Angle Syst FD YZ",
22 "Neutron visible energy systematic 2018",
23 "Acceptance ND to FD Kinematics Signal FHC 2020",
24 "Acceptance ND to FD Kinematics Signal RHC 2020",
25 "Michel Electrons Tagging Uncertainty",
26 )

Definition at line 46 of file make_syst_table_plots.py.

list make_syst_table_plots.systs_tables = []

Definition at line 168 of file make_syst_table_plots.py.

tuple make_syst_table_plots.systs_xsec

Definition at line 13 of file make_syst_table_plots.py.

make_syst_table_plots.table_type = "full"

Definition at line 163 of file make_syst_table_plots.py.

make_syst_table_plots.type

Definition at line 146 of file make_syst_table_plots.py.

int make_syst_table_plots.var_index = osc_vars.index( var )+1

Definition at line 202 of file make_syst_table_plots.py.

make_syst_table_plots.xhi = float( errors[0] )

Definition at line 258 of file make_syst_table_plots.py.

make_syst_table_plots.xlo = float( errors[1] )
float make_syst_table_plots.xmax = 1.0

Definition at line 205 of file make_syst_table_plots.py.

string make_syst_table_plots.xtitle = ""

Definition at line 204 of file make_syst_table_plots.py.

Referenced by make_muonid_opt(), and make_vertex_optimiz().

make_syst_table_plots.yhi = ibin-( space / 2 )-table_idx*dy

Definition at line 261 of file make_syst_table_plots.py.

make_syst_table_plots.ylo = yhi-dy

Definition at line 262 of file make_syst_table_plots.py.