Classes | Functions | Variables
plotSysts Namespace Reference

Classes

class  Decomp
 

Functions

def exclude (name, list)
 
def addCan (can)
 
def newCan (title)
 
def canUp ()
 
def saveCans (prefix="", suffix=".pdf")
 
def posUp ()
 

Variables

 parser = argparse.ArgumentParser(description='Make some systs plots.')
 
 help
 
 type
 
 action
 
 args = parser.parse_args()
 
 fileName = args.inFile
 
 f = TFile(fileName, "READ")
 
list dirKeys = [k.GetName() for k in f.GetListOfKeys()]
 
 unshifted = OrderedDict()
 
 shifted = OrderedDict()
 
 colors = OrderedDict()
 
list redundant
 
list broken
 
list large
 
list small = []
 
 bits = key.split("_")
 
 sample = bits[0]
 
string syst = "_"
 
 shift = bits[len(bits)-1]
 
list histLists = []
 
list ratioLists = []
 
list cansToSave = []
 
int nSystsSoFar = 0
 
list cans = []
 
int canNum = 0
 
list canPositions = [[10, 10, 600, 450],[615, 10, 600, 450], [10, 480, 600, 450], [615, 480, 600, 450]]
 
list texts = []
 
 hists = OrderedDict()
 
 ratios = OrderedDict( )
 
 c = newCan("_".join([sample, component,syst]))
 
list legEntries = ["Nominal"]
 
list ratioHists = []
 
 ratio = TH1D(hists[component][shift])
 
 can
 
 titleOffY
 
 bottomFraction
 
 t = TText(0.2, 0.8, "Excluded -- Broken")
 
 outDir = os.path.join("SystPlots", args.inFile.replace(".root", ""))
 
 summedSystHistFile
 
 errorHists = OrderedDict()
 
float weight = 1.0
 

Function Documentation

def plotSysts.addCan (   can)

Definition at line 197 of file plotSysts.py.

197 def addCan(can):
198  global canNum
199  global cans
200  cans.append(can)
201  canNum +=1
202 
def addCan(can)
Definition: plotSysts.py:197
def plotSysts.canUp ( )

Definition at line 217 of file plotSysts.py.

References PandAna.Demos.demo1.range, and Update().

217 def canUp():
218  for i in range(0, len(cans)):
219  cans[i].RedrawAxis()
220  cans[i].Update()
221 
222 
c1 Update()
def canUp()
Definition: plotSysts.py:217
def plotSysts.exclude (   name,
  list 
)

Definition at line 160 of file plotSysts.py.

160 def exclude(name, list):
161  exclude = False
162  for item in list:
163  if item == name:
164  exclude = True
165  break
166  return exclude
167 
168 
169 
def exclude(name, list)
Definition: plotSysts.py:160
def plotSysts.newCan (   title)

Definition at line 203 of file plotSysts.py.

References posUp(), and runNovaSAM.str.

203 def newCan(title):
204  global canNum
205  global cans
206  global canPositions
207 
208  cans.append(TCanvas("can" + str(canNum), title))
209  cans[canNum].SetWindowPosition(canPositions[canNum % 4][0], canPositions[canNum % 4][1])
210  cans[canNum].SetWindowSize(canPositions[canNum % 4][2], canPositions[canNum % 4][3])
211  canNum += 1
212  if canNum % 4 == 0:
213  posUp()
214  return cans[canNum-1]
215 
216 
def posUp()
Definition: plotSysts.py:227
def newCan(title)
Definition: plotSysts.py:203
def plotSysts.posUp ( )

Definition at line 227 of file plotSysts.py.

References PandAna.Demos.demo1.range.

Referenced by newCan().

227 def posUp():
228  global canPositions
229  for i in range(0,len(canPositions)):
230  canPositions[i][0] += 30
231  canPositions[i][1] += 30
232 
233 
def posUp()
Definition: plotSysts.py:227
def plotSysts.saveCans (   prefix = "",
  suffix = ".pdf" 
)

Definition at line 223 of file plotSysts.py.

References PandAna.Demos.demo1.range, and SaveAs().

223 def saveCans(prefix = "", suffix=".pdf"):
224  for i in range(0, len(cans)):
225  cans[i].SaveAs(prefix + cans[i].GetTitle() + suffix)
226 
def saveCans(prefix="", suffix=".pdf")
Definition: plotSysts.py:223
cosmicTree SaveAs("cosmicTree.root")

Variable Documentation

plotSysts.action

Definition at line 12 of file plotSysts.py.

plotSysts.args = parser.parse_args()

Definition at line 14 of file plotSysts.py.

plotSysts.bits = key.split("_")

Definition at line 174 of file plotSysts.py.

Referenced by genie::BaryonResonanceDecayer.LoadConfig().

plotSysts.bottomFraction

Definition at line 280 of file plotSysts.py.

Referenced by drawTwoPad().

list plotSysts.broken
Initial value:
1 = ["ReweightMaCOHpi", \
2  "ReweightR0COHpi"]

Definition at line 112 of file plotSysts.py.

plotSysts.c = newCan("_".join([sample, component,syst]))

Definition at line 249 of file plotSysts.py.

plotSysts.can
int plotSysts.canNum = 0

Definition at line 194 of file plotSysts.py.

list plotSysts.canPositions = [[10, 10, 600, 450],[615, 10, 600, 450], [10, 480, 600, 450], [615, 480, 600, 450]]

Definition at line 195 of file plotSysts.py.

list plotSysts.cans = []

Definition at line 193 of file plotSysts.py.

list plotSysts.cansToSave = []

Definition at line 190 of file plotSysts.py.

plotSysts.colors = OrderedDict()

Definition at line 91 of file plotSysts.py.

list plotSysts.dirKeys = [k.GetName() for k in f.GetListOfKeys()]

Definition at line 84 of file plotSysts.py.

plotSysts.errorHists = OrderedDict()

Definition at line 319 of file plotSysts.py.

plotSysts.f = TFile(fileName, "READ")

Definition at line 81 of file plotSysts.py.

plotSysts.fileName = args.inFile

Definition at line 79 of file plotSysts.py.

Referenced by AnalyzeNus18Systs(), fnex::BeamSyst.BeamSyst(), fnex::EventListManipulator.Cosmics2017(), cmf::EventListManipulator.Deserialize(), fnex::EventListManipulator.Deserialize(), DrawExtrapSurface(), EHadVisMECpairs(), fnex::EventListManipulator.FarDetCosmicBackgroundHistAndScale(), fnex::CAFToEventList.FillVariables(), cmf::CAFToEventList.FillVariables(), fnex::EventListManipulator.FixNearDetMCExposures(), FormatFile.FormatFile(), genie_syst_pca(), getData(), Plotter.GetMCPlots(), getPredictions(), fnex::ShifterAndWeighter.HornCurrentWeight(), remid::RecoMuon.Init(), slid::DedxDistribution.Initialize(), cmf::ShifterAndWeighter.LoadBeamSystHists2017(), fnex::ShifterAndWeighter.LoadBeamSystHists2017(), fnex::ShifterAndWeighter.LoadSABeamSystHists(), make_prediction(), make_prediction_rhc(), make_tmva_NCPi0s_2selection(), cmf::ShifterAndWeighter.NueAcceptSignalKin2018Weight(), fnex::ShifterAndWeighter.NueAcceptSignalKin2018Weight(), fnex::ShifterAndWeighter.NueExtrapSig2017Weight(), numue::NumuEAlg.NumuEAlg(), Nus18SystsBeamTranspAna(), Nus18SystsCalibAbsAna(), Nus18SystsCalibRelAna(), Nus18SystsGENIEAna(), Nus18SystsKaonAna(), Nus18SystsLightLevelAna(), Nus18SystsLLMethodAna(), Nus18SystsNeutronAna(), Nus18SystsPPFXAna(), Nus18SystsTauAna(), Nus18SystsXSecOnOffAna(), PlotNus18Sideband(), ppfx_syst_pca_fn(), fnex::ReadCAFMakeEventList.ReadCAFTree(), meta::Metadata.respondToOpenInputFile(), skim::DataProductSkimmer.respondToOpenInputFile(), saveFDMCHists(), fnex::BeamSyst.setFileAndHistNames(), cmf::BeamSyst.setFileAndHistNames(), and art::TFileService.TFileService().

plotSysts.help

Definition at line 8 of file plotSysts.py.

list plotSysts.histLists = []

Definition at line 188 of file plotSysts.py.

plotSysts.hists = OrderedDict()

Definition at line 241 of file plotSysts.py.

list plotSysts.large
Initial value:
1 = ["ReweightMaCCQE", \
2  "ReweightMaCCRES", \
3  "ReweightMvCCRES", \
4  "ReweightMaNCRES", \
5  "ReweightMaNCEL"]

Definition at line 116 of file plotSysts.py.

Referenced by stan::math.trigamma_impl(), and warp_gsimple().

list plotSysts.legEntries = ["Nominal"]

Definition at line 254 of file plotSysts.py.

int plotSysts.nSystsSoFar = 0

Definition at line 191 of file plotSysts.py.

plotSysts.outDir = os.path.join("SystPlots", args.inFile.replace(".root", ""))

Definition at line 311 of file plotSysts.py.

plotSysts.parser = argparse.ArgumentParser(description='Make some systs plots.')

Definition at line 7 of file plotSysts.py.

plotSysts.ratio = TH1D(hists[component][shift])

Definition at line 264 of file plotSysts.py.

Referenced by calib::ThresholdAna.analyze(), ncs::Xeff.analyze(), ncs::NCAna.analyze(), caf::Proxy< caf::SRVeto >.CheckEquals(), CompareHistos_Here(), ana.ComparisonTable(), data_over_mc_profile(), datamc(), ana.DataMCRatio(), ana::PredictionInterp.DebugPlot(), ana::PredictionInterp.DebugPlotColz(), genie::alvarezruso::AlvarezRusoCOHPiPDXSec.DeltaSelfEnergyIm(), vf::DOCAInfo.DoCalculation(), DrawHistograms(), DrawRatio(), dprf::TrackPlots.endJob(), slicer::SlicerAna.endJob(), extract_gibuu_corrs(), flat::FlatVeto.Fill(), trk::CosmicTrackAna.FillEventMCTruthHistograms(), comi::NumiFiltering.filter(), fit_thresh_corrs(), fit_thresh_corrs_fb(), flat::FlatVeto.FlatVeto(), fnex_vs_fnex_data_mc(), cosrej::CosRejFxs.getCVVars(), om::HitCounts.GetRawEventSummary(), ana::Spectrum.Integral(), main(), make_extrap_figure(), make_muonid_opt(), fnex::CovarianceFitHelper.MakeDataMCFitCanvs(), ana.MakeNueSystematicsFile(), MakeRatio(), mec_tuning_fitter_2020(), ND_pred_MC_nue_signal(), nue_fnex_vs_caf(), nue_fnex_vs_caf_noextrapolation(), nue_fnex_vs_caf_one_to_one(), nue_signal_extrapolation(), caf::Proxy< caf::SRVeto >.operator=(), ana::RecoReweight.OptimalBinningHelper(), plot_xsecs(), PlotGenRatios(), PlotNDDataTotalMCComparison(), ana.PlotNDDataTotalMCComparison(), PrintErrorSurface(), presel::CosmicVeto.produce(), murem::MergeDigits.produce(), cosrej::CosRejObj.SetCosHitRatio(), systematics_table(), systematics_table_from_preds(), and tmva_new_train().

list plotSysts.ratioHists = []

Definition at line 255 of file plotSysts.py.

list plotSysts.ratioLists = []

Definition at line 189 of file plotSysts.py.

plotSysts.ratios = OrderedDict( )
list plotSysts.redundant
Initial value:
1 = ["ReweightMaCCQEshape", \
2  "ReweightMaCCRESshape", \
3  "ReweightMvCCRESshape", \
4  "ReweightMaNCRESshape", \
5  "ReweightMvNCRESshape", \
6  "ReweightAhtBYshape", \
7  "ReweightBhtBYshape", \
8  "ReweightCV1uBYshape", \
9  "ReweightCV2uBYshape", \
10  "ReweightNormCCQE", \
11  "ReweightNormCCQEenu", \
12  "ReweightNormCCRES", \
13  "ReweightNormNCRES", \
14  "ReweightNC"]

Definition at line 97 of file plotSysts.py.

plotSysts.sample = bits[0]

Definition at line 175 of file plotSysts.py.

Referenced by ValidCalibPDF.AbsoluteCalibration(), stan::mcmc::chains< RNG >.add(), ncid::NCNNKerasVal.analyze(), stan::mcmc::chains< RNG >.autocorrelation(), stan::mcmc::chains< RNG >.autocovariance(), compareEvents(), compareSelectedSets(), ana::CovMxManager.CovMxManager(), CutFlow.CutFlow(), MEUPerCell.DoAna(), ExtendedAxesLoad(), extract_gibuu_corrs(), novaddt::NNFastMMTrigger.filter(), getOutputName(), getSample(), readFlux.Loop(), trk::CosmicTrackAna.Make1DRecoHistograms(), trk::CosmicTrackAna.Make1DTruthHistograms(), trk::CosmicTrackAna.Make2DRecoHistograms(), trk::CosmicTrackAna.Make2DTruthHistograms(), make_fc_nus_surfs_nersc_2019(), make_nueFDprediction_kinematics_FHC(), make_nueFDprediction_kinematics_FHC_pTExtrap(), make_nueFDprediction_kinematics_FHC_REW(), make_nueFDprediction_kinematics_FHC_REW_pTExtrap(), make_nueFDprediction_kinematics_RHC(), make_nueFDprediction_kinematics_RHC_pTExtrap(), make_nueFDprediction_kinematics_RHC_REW(), make_nueFDprediction_kinematics_RHC_REW_pTExtrap(), MakeCovarSim(), ana.MakeSummaryV(), MakeSurface(), ValidCalibPDF.MCSample(), Nus18SystMaker(), Nus18SystsBeamTranspAna(), Nus18SystsBeamTranspLoad(), Nus18SystsCalibAbsAna(), Nus18SystsCalibAbsLoad(), Nus18SystsCalibRelAna(), Nus18SystsCalibRelLoad(), Nus18SystsGENIEAna(), Nus18SystsGENIELoad(), Nus18SystsKaonAna(), Nus18SystsKaonLoad(), Nus18SystsLightLevelAna(), Nus18SystsLightLevelLoad(), Nus18SystsLLMethodAna(), Nus18SystsLLMethodLoad(), Nus18SystsNeutronAna(), Nus18SystsNeutronLoad(), Nus18SystsPPFXAna(), Nus18SystsPPFXLoad(), Nus18SystsTauAna(), Nus18SystsTauLoad(), Nus18SystsXSecOnOffAna(), Nus18SystsXSecOnOffLoad(), NusSystMaker(), ana::GetNCCosRejKeras.operator()(), plot_abstree(), ana.PlotSyst(), ncid::NCNNKeras.produce(), runCheatDecomp(), ValidCalibPDF.RunRange(), ana.SaveMaps(), ValidCalibPDF.SetShowRecoMeV(), CalibAnaPlot.SetTreeLoopStride(), SideBandLoad(), SystsAcceptanceAna17(), SystsAcceptanceLoad17(), SystsBeamAna(), SystsBeamLoad(), SystsBeamTranspAna(), SystsBeamTranspLoad17(), SystsBirksAna(), SystsBirksLoad(), SystsCalibAbsAna(), SystsCalibAbsAna17(), SystsCalibAbsLoad(), SystsCalibAbsLoad17(), SystsCalibAbsMethod17(), SystsCalibRelAna(), SystsCalibRelAna17(), SystsCalibRelLoad(), SystsCalibRelLoad17(), SystsDecompAna(), SystsDecompAna17(), SystsDecompLoad(), SystsDecompLoad17(), SystsFidContAna(), SystsFidContLoad(), SystsGENIEAna(), SystsGENIEAna17(), SystsGENIELoad(), SystsGENIELoad17(), SystsMCStatsAna(), SystsMCStatsLoad(), SystsNDRockAna(), SystsNDRockLoad(), SystsNoiseAna(), SystsNoiseLoad(), SystsPPFXAna17(), SystsPPFXLoad17(), TEST_F(), ana::BayesianMarginal.ToHistogram(), stan::mcmc::mock_hmc.transition(), 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(), stan::mcmc::base_nuts_classic< Model, diag_e_metric, expl_leapfrog, BaseRNG >.transition(), stan::mcmc::base_nuts< Model, diag_e_metric, expl_leapfrog, BaseRNG >.transition(), stan::mcmc::base_xhmc< Model, diag_e_metric, expl_leapfrog, BaseRNG >.transition(), ana::nueccinc::NueCCIncCrossSectionAnalysis.~NueCCIncCrossSectionAnalysis(), and rawdata::RawBeamlineDigit.~RawBeamlineDigit().

plotSysts.shift = bits[len(bits)-1]

Definition at line 177 of file plotSysts.py.

Referenced by ana::MultiExperiment.Add(), AddOneSideShift(), ana::SpectrumLoaderBase.AddReweightableSpectrum(), AddShift(), ana::NusSystMaker.AddShift(), ana::SpectrumLoaderBase.AddSpectrum(), NDPredictionHandler.AddVar(), rwgt::MakeGENIEReweightTable.beginJob(), check_predinterp(), check_predinterp_numu(), ana::OscCovMxExperiment.ChiSq(), demo_nueNumuSysts(), ana::MultiExperiment.Derivative(), ana::PredictionAddRock.Derivative(), ana::Dmsq32Constraint.Dmsq32Constraint(), drawLongTerm(), drawLongTerm_2019(), ana::NusSystMaker.DrawSyst(), EnergyCont_macro(), fake_future_data(), febrates(), febshutoff(), ana::IFitter.FitHelper(), ana::FluxMultiverseSyst.FluxMultiverseSyst(), ana::GaussianConstraint.GaussianConstraint(), ana::GenericSystematicDef< SRType >.GenericSystematicDef(), genie_contours(), ana::GenieMultiverseSpectra.GenieMultiverseSpectra(), getErrorBand(), getFractionalErrorBand(), GetHist(), ana::NusSystMaker.GetNominal(), ana::Multiverse.GetNSigmaShift(), evd::XZYZProjectionsView.GetRightAxesRange(), ana.GetShift(), ana::PredictionSyst3Flavor2020.GetShiftedPrediction(), ana::NusSystMaker.GetSigmas(), goodness_of_fit(), ana::SpectrumLoader.HandleRecord(), ana::DataMCPair.LoadFrom(), ana::NusSystMaker.LoadFrom(), ana::PredictionInterp.LoadFromBody(), make_nue_xsec_pred(), make_pc_univ_rms(), make_predictions_systs(), make_predictions_systs_fakedata(), MakeCovMx(), makeKeyUnique(), MakeMap(), makePrediction(), ana::NusSystMaker.MakePredictions(), fuzz::ViewMatchAlg.Matching(), nerd::ViewMatchAlg.Matching(), MatrixValidation(), MichelDecompTest(), mre_blessed(), ana::Multiverse.Multiverse(), neutronE_macro(), ana::TrivialCrossSectionAnalysis.operator=(), plot_datamcpred(), plot_nueFDprediction_systematics(), ana.PlotMultiSyst(), predEventCountWithSystError(), ana::PredictionNumuFAHadE.PredictComponentSyst(), ana::PredictionInterp.PredictComponentSyst(), ana::PredictionNumuFAHadE.PredictionNumuFAHadE(), print_nueFDprediction_table(), ana::NusSystMaker.PrintSyst(), ana::NusSystMaker.ProcessSyst(), QuadErrors(), ana::ReactorExperiment.ReactorExperiment(), ana::TrivialCrossSectionAnalysis.RelativeUncertainty(), ana::ReweightableSpectrum.ReweightableSpectrum(), runCheatDecomp(), ana::NusSystMaker.SaveTo(), SetCalcParam(), ana::T2KToyExperiment.SetPOTAnti(), ana::SystShifts.SetShift(), daqdataformats::VERSION_NAMESPACE::RawNanoSlice.setValue1(), ana::NumuSummedSmallGENIESyst.Shift(), ana::NDSummedSmallGENIESyst.Shift(), ana::PredictionInterp.ShiftedComponent(), ana::PredictionInterp.ShiftSpectrum(), ana::SingleSampleExperiment.SingleSampleExperiment(), ana::Spectrum.Spectrum(), ana::SpectrumLoaderNuTreeSpillCuts.SpectrumLoaderNuTreeSpillCuts(), ana::Ssth23Constraint.Ssth23Constraint(), SystematicShiftEffect(), test_systmultiverse(), ana::TrivialBkgdEstimator.TrivialBkgdEstimator(), ana::TrivialCrossSectionAnalysis.TrivialCrossSectionAnalysis(), ana::TrivialExtrap.TrivialExtrap(), ana::NusSystMaker.WriteTable(), xsec_extrap_plots(), ana::ICrossSectionAnalysis.~ICrossSectionAnalysis(), NDPredictionHandler.~NDPredictionHandler(), and ana::NusISyst.~NusISyst().

plotSysts.shifted = OrderedDict()

Definition at line 88 of file plotSysts.py.

Referenced by ana::SpectrumLoader.HandleRecord(), and ana.LoadMaps().

list plotSysts.small = []
plotSysts.summedSystHistFile
Initial value:
1 = TFile(
2  os.path.join(outDir,"summed_numu_genie_systs.root"), "RECREATE")

Definition at line 314 of file plotSysts.py.

string plotSysts.syst = "_"

Definition at line 176 of file plotSysts.py.

Referenced by ana::PredictionInterp._PredictComponentSyst(), ana::MultiExperiment.Add(), ana::PredictionSystJoint2018.AddNormSyst(), ana::PredictionSystJointDemo.AddNormSyst(), ana::PredictionSyst3Flavor2020.AddNormSyst(), ana::NusSystSystShift.AddSigma(), ana::NusSystematicsMaker.AddSystematic(), AnalyzeNus18Systs(), ana::BayesianMarginal.BayesianMarginal(), ana::CovarianceMatrix.BuildFullCovMx(), caf_vs_fnex_data_mc(), CalcRWithSysts(), CalcRWithSystsNus17(), CalculateXSec(), check_predinterp(), check_predinterp_numu(), ana::MultiExperiment.ChiSq(), ana::OscCovMxExperiment.ChiSq(), ana::BigChi2SingleSampleExperiment.ChiSq(), ana::MCMCSamples.Clear(), compareEvents(), ana::PredictionInterp.ComponentDerivative(), ana::CountingExperiment.CountingExperiment(), covarianceCombination(), ana::CovMxExperiment.CovMxExperiment(), ana::CovMxManager.CovMxManager(), ana::CovMxSurface.CovMxSurface(), ana::GenieMultiverseSpectra.CreateUniverse(), ana::DataMCPair.DataMCPair(), DataMCPair.DataMCPair(), ana::CutOptimization.DefineMultiverseSystematic(), ana::CutOptimization.DefineSystematic(), demo_nueNumuSysts(), demoPlotSystBands(), ana::T2KToyExperiment.Derivative(), ana.DeriveFlux(), ana::NusSystematicsMaker.DrawSysts(), ana.ErrorBarChart(), fa_nd_mc_prediction_full_syst(), fa_nd_mc_prediction_genie_band(), FCContour(), fiducial_optimization_plots(), fiducial_optimization_plots_2d(), ana::StanFitter.FitHelperSeeded(), FitSystEffectsLoad(), fnex_vs_fnex_data_mc(), ana::StanFitter.get_param_names(), get_sa_syst_mags(), get_sa_systs_mags_v2(), ana::SystConcat.GetActiveSysts(), ana::CutOptimization.GetAllSystDefs(), ana.GetBFSystBands(), ana::CovMxManager.GetCovarianceMatrix(), ana::ICrossSectionAnalysis.GetCrossSection(), ana::ICrossSectionAnalysis.GetCrossSectionSpectra(), GetGENIEShiftLabels(), GetHist(), ana::SystConcat.GetPosition(), ana::SystShifts.GetShift(), ana::PredictionSystJoint2018.GetShiftedPrediction(), ana::PredictionSystJointDemo.GetShiftedPrediction(), ana::PredictionSyst3Flavor2020.GetShiftedPrediction(), GetShiftNames2017(), ana.GetShiftNames2018(), ana::SystConcat.GetShifts(), SystGroupHelper.GetShifts(), GetShifts2017(), ana.GetShifts2018(), ana.GetShifts2020(), GetSurf(), ana.GetSystBands(), GetSystConcat(), GetSystConcats(), ana::NusSystematicsMaker.GetSystematicsNames(), GetSystsFromFile(), ana::NusSystematicsMaker.Go(), isystrename(), joint_fit_2017_make_fc_slice(), joint_fit_2017_make_fc_surf(), joint_fit_future_bestfit_univ(), joint_fit_future_contour_univ(), Load3DXSec(), cmf::CalibSyst.LoadCalibSystRatios(), LoadExtrapPrediction(), ana::PredictionTemplateShift.LoadFrom(), ana::TrivialCrossSectionAnalysis.LoadFrom(), ana::NusSystematicsMaker.LoadFrom(), ana::PredictionInterp.LoadFromBody(), LoadNominal(), test::GaussQuadExperiment.LogLikelihood(), main(), make_cm_pullterm_pdf(), 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_nus_surfs_nersc_2019(), make_fc_oct_nersc_2018(), make_fc_oct_nersc_2019(), make_fc_points(), 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_mockdata_syst_contours(), make_nue_xsec_pred(), Make_NuMuCC_Inc_XS_v2(), MakeCovarSim(), MakeCovMx(), MakeFakeData(), MakeFileSystMatrix(), MakeGENIEMatrix(), MakeISysts(), MakeMaps(), MakeNus18CovarSim(), MakePlot(), MakeSurface(), MakeSystematicPlots(), makeSystTable_reduced(), ana::MCMCSamples.MarginalizeTo(), MatrixValidation(), mec_tuning(), mec_tuning_fitter_2020(), mec_tuning_preds_2020(), median_contours(), mre_blessed(), muonid_opt(), myBarChart(), myPlotWithSystErrorBand(), ana::NusSystematicsMaker.Name(), NDDataMCSystBandAna(), NDDataMCSystBandLoad(), Nus18SystsBeamTranspLoad(), Nus18SystsCalibAbsLoad(), Nus18SystsCalibRelLoad(), Nus18SystsGENIELoad(), Nus18SystsKaonLoad(), Nus18SystsLightLevelLoad(), Nus18SystsLLMethodLoad(), Nus18SystsNeutronLoad(), Nus18SystsTauLoad(), Nus18SystsXSecOnOffLoad(), ana::CutOptimization.OptimizedSigmaOverSigma(), plot_datapredictions(), plot_extrap_syst_fa(), plot_fa_results(), plot_nue_xsec_pred(), plot_prediction_systs(), plot_predictions(), plot_sa_results(), plot_sa_results_nodata(), plot_syst_contours(), plotDataPred(), plotDataPred_SplitCanvas(), PlotSysts(), Plotting_DataAndPrediction(), PlotUnfolding(), ana.PlotWithAreaSystErrorBand(), ana.PlotWithSystErrorBand(), ana.PlotWithSystErrorBand_Quant(), PlotXSec(), pred_err(), predEventCountWithSystError(), ana::SingleSampleExperiment.PredHistIncCosmics(), ana::PredictionAddRock.PredictComponentSyst(), ana::PredictionInterp.PredictionInterp(), ana::PredictionInterpTemplates.PredictionInterpTemplates(), ana::PredictionNumuFAHadE.PredictionNumuFAHadE(), ana::PredictionSyst3Flavor2020.PredictionSyst3Flavor2020(), ana::PredictionSystJoint2018.PredictionSystJoint2018(), ana::PredictionSystJointDemo.PredictionSystJointDemo(), ana::PredictionSystNue2017.PredictionSystNue2017(), ana::PredictionSystNueSecondAna.PredictionSystNueSecondAna(), ana::PredictionSystNumu2017.PredictionSystNumu2017(), ana::NusSystematicsMaker.PrintSysts(), ana::TrivialCrossSectionAnalysis.RelativeUncertainty(), ana::MCMCSamples.SampleValue(), ana::BayesianMarginal.SaveTo(), ana::MCMCSamples.SaveTo(), SetBestFitParams(), ana::BayesianMarginal.SetupKNN(), ana::MCMCSamples.SetupTree(), ana::SummedSyst.Shift(), ana::PredictionInterp.ShiftBins(), ana::ICrossSectionAnalysis.SignalEstimate(), ana::SingleSampleExperiment.SingleSampleExperiment(), SliceLegend(), specprod_systematics(), syst_table_fit(), syst_table_fit_new(), ana::SystConcat.SystConcat(), systematics_extrap_comp_from_pred_interp(), systematics_summary_from_pred_interp(), systematics_table_from_pred_interp(), SystsBeamLoad(), SystsBeamTranspLoad17(), SystsGENIELoad(), SystsGENIELoad17(), test_flux(), test_stanfit_systpulls(), test_stanfit_withsysts(), TestPred(), ana::BayesianMarginal.ToHistogram(), ana::TrivialCrossSectionAnalysis.TotalErrors(), ana::StanFitter.transform_inits(), UnfoldBeamSysts(), ana::ICrossSectionAnalysis.UnfoldedSignal(), UnfoldGenie(), UnfoldPPFX(), UnfoldStandardSysts(), ana::MCMCSamples.VarOffset(), XSec2D(), XSec2DUncert(), XSecENu(), XSecENuUncert(), XSecQ2(), XSecQ2Uncert(), ana::CovMxSurface.~CovMxSurface(), ana::IPrediction.~IPrediction(), NDPredictionHandler.~NDPredictionHandler(), and ana::PredictionScaleComp.~PredictionScaleComp().

plotSysts.t = TText(0.2, 0.8, "Excluded -- Broken")

Definition at line 283 of file plotSysts.py.

Referenced by genie::HNIntranuke2018.AbsorbHN(), stan::math::matrix_exp_action_handler.action(), sim::ParticleNavigator.Add(), art.add_opt(), util::HoughCalc.AddPoint(), genie::AlgConfigPool.AddRootObjParameter(), comi::Leana.Ana1Hit(), calib::ADCShapeFitAna.analyze(), novaddt::TriCellTriggerAna.analyze(), cheat::CheckBackTracking.analyze(), novaddt::RateMonitor.analyze(), zcl::SMMTriggerAna.analyze(), murem::MuonRemoveAna.analyze(), beamlinereco::ToFRecoAnalysis.analyze(), tbem::TBRecoAna.analyze(), beamlinereco::EventWaveformDump.analyze(), calib::StopperThreshold.analyze(), slicer::SlicerAna.analyze(), beamlinereco::ToFAnalysisMini.analyze(), calib::CosmicTrends.analyze(), comi::Leana.AnaNHit(), AnaPlotMaker(), beamlinereco::CFDHitFinder< T >.BackwardFindingOfHitStart(), genie::BBA05ELFormFactorsModel.BBA05Fit(), EliminateBeamSpills.beginJob(), cvn::RegCVNImageUtils.BuildImageVectorF(), BuildMetricsTree(), CAFTreeMaker.CAFTreeMaker(), CalculateFormFactor(), genie::COHHadronicSystemGenerator.CalculateHadronicSystem_BergerSehgalFM(), genie::COHKinematicsGenerator.CalculateKin_AlvarezRuso(), genie::SKKinematicsGenerator.CalculateKin_AtharSingleKaon(), genie::COHKinematicsGenerator.CalculateKin_ReinSehgal(), beamlinereco::TimeOfFlightReco.calculateTime(), beamlinereco::ToFSingleCounterAnalysis.calculateTime(), evd::RecoBaseDrawer.CellHit2D(), evd::RecoBaseDrawer.CellHit3D(), lem::dec::Forest.Classify(), evdb::ScanFrame.ClearFields(), nova::dbi::RunHistory.Coincidence(), g4n::G4Alg.CollectFLSHitsAndParticles(), nutools::dbi::Column.Column(), nova::dbi::Column.Column(), stan::model.cons_list(), convert_mcnp_txt_to_root(), ConvertToGST(), skim::NumuCCpiSkimmer.CopyTrackAssn(), skim::NumuSkimmer.CopyTrackAssn(), nutools::dbi::DBIService.CreateTable(), om::IPC.CurrentWatchList(), ana.CVNVetoOverlapWindowCut(), genie::SmithMonizQELCCPXSec.d2sQES_dQ2dv_SM(), om::GUIModel.Data(), nutools::dbi::Table.DataTypeMask(), nova::dbi::Table.DataTypeMask(), nova::dbi.dBTable_(), nova::database.dBTable_(), om::UTCLabel.DCMLabels(), DCSPlotMaker(), art::MixHelper.declareMixOp(), trk::WindowTrackingAlg.DetermineInitialDirection(), nova::dbi::RunHistory.DetGainSetting(), diffapdhv(), genie::mueloss::gsl::BezrukovBugaevIntegrand.DoEval(), genie::utils::gsl::d2XSec_dQ2dydt_E.DoEval(), genie::utils::gsl::d3XSec_dxdydt_E.DoEval(), evdb::testCanvas1.Draw(), evd::RawDataDrawer.Draw3DHitBoxes(), TexBuilder.DrawTable(), evd::RecoBaseDrawer.DrawVertices2D(), zcl::SPCluster.dupCheck(), stan::mcmc::chains< RNG >.effective_sample_size(), genie::HNIntranuke2018.ElasHN(), novaddt::RateMonitor.endJob(), comi::CosmicMetrics.endJob(), comi::DataCheck.endJob(), novaddt::HitSubtract.endJob(), Expression.Eval(), Exposure(), genie::LwlynSmithFF.F1N(), genie::LwlynSmithFF.F1P(), genie::LwlynSmithFFNC.F1V(), genie::LwlynSmithFF.F1V(), genie::LwlynSmithFF.F2N(), genie::LwlynSmithFF.F2P(), om::UTCLabel.FEBLabels(), febrates(), trk::CosmicTrackAna.FilldEdxHistogram(), skim::SkimmingUtils.FillSliceVector(), evd::RawDataDrawer.FillTQHisto(), evd::RecoBaseDrawer.FillTQHisto(), util::RemoveBeamSpills.filter(), novaddt::TriCellTrigger.filter(), novaddt::MoonShadow.filter(), calib::StopperFilter.filter(), runh::BadDataFilter.filter(), earms::Minimizer.Fit(), bpfit::BreakPoint.FitTracks(), for(), genie::InteractionType.FromString(), genie::HNIntranuke2018.GammaInelasticHN(), genie::BBA03ELFormFactorsModel.Gen(), genie::BBA05ELFormFactorsModel.Gen(), generate_fd_fake_events(), genie::NucleonDecayPrimaryVtxGenerator.GenerateDecayedNucleonPosition(), genie::NNBarOscPrimaryVtxGenerator.GenerateOscillatingNeutronPosition(), genie::VertexGenerator.GenerateVertex(), genie::BBA05ELFormFactorsModel.Gep(), fhicl::OptionalDelegatedParameter.get_if_present(), noe.get_int_plane_and_cell(), dbutils::hw::FEB.GetAllInstalled(), dbutils::hw::APD.GetAllInstalled(), GetDBPartition(), novaddt.GetExpectations(), calib.GetExpectations(), nova::database::Util.GetFarFutureTimeAsString(), evd::SimulationDrawer.GetMCTruth(), rvp::RecVarPID.getMethodNameFromXML(), xnue::XnuePID.getMethodNameFromXML(), om::FEBRatesByDiblock.GetNanoSliceSummary(), HepPolyhedron.GetNoFacets(), evgen::CORSIKAGen.GetSample(), art::LinuxProcData.getValueInMB(), rvp::RecVarPID.getVarNamesFromXML(), xnue::XnuePID.getVarNamesFromXML(), genie::BBA05ELFormFactorsModel.Gmn(), genie::BBA05ELFormFactorsModel.Gmp(), GoodDataSelDate(), GoodDataSelDuration(), GoodDataSelEmptySpillFrac(), GoodDataSelGoodDB(), GoodDataSelLiveTime(), GoodDataSelMipRate(), GoodDataSelNumSlices(), GoodDataSelRuns(), GoodDataSelTimingPeakEnd(), GoodDataSelTimingPeakStart(), GoodDataSelTrkFrac(), GoodRuns(), trk::CosmicTrackSelection.GoodSteps(), calib::PCHitsList.GoodSteps(), om::HeaderBar.HandleTimer(), cheat::BackTracker.HitCollectionEfficiency(), cheat::BackTracker.HitCollectionPurity(), evd::RawDataDrawer.HitColor(), genie::Target.HitNucP4(), tf::TimingFitAlg.HoughFit(), evdb::ColorScale.HSVtoRGB(), genie::HAIntranuke.InelasticHA(), genie::HAIntranuke2018.InelasticHA(), genie::InitialState.Init(), skim::EvaluatorNumuCCpi.Initialize(), skim::EvaluatorNumu.Initialize(), geo.InitializePathTable(), dbutils::hw::FEB.Installed(), dbutils::hw::APD.Installed(), genie::utils::gsl.Integration1DimTypeFromString(), genie::utils::gsl.IntegrationNDimTypeFromString(), genie::geometry::FidCylinder.Intercept(), genie::geometry::FidPolyhedron.Intercept(), genie::geometry::FidCylinder.InterceptUncapped(), genie::KPhaseSpace.IsAllowed(), nova::dbi::RunHistory.IsBad(), stan::math::cvodes_ode_data< F, T_initial, T_param >.jacobian_states(), genie::utils::math.KahanSummation(), nova::dbi::RunHistory.LoadDataEpoch(), nova::dbi::RunHistory.LoadFEBMasks(), nova::dbi::RunHistory.LoadGoodDiBlockMask(), nova::dbi::RunHistory.LoadPedestals(), nova::dbi::RunHistory.LoadPixelMasks(), main(), make_cosmic_eff_table(), make_time_profile(), om::HwDetLabel.MakeDBLabels(), om::HwDetLabel.MakeDCMLabels(), om::HwDCMLabel.MakeFEBLabels(), om::HwDCMLabel.MakePixelKey(), MakeTestStandPlots_AllRuns(), MakeTestStandPlots_NewRuns(), trk::WindowTrackingAlg.MakeViewTrack(), art::detail.makeWatchFunc(), genie::StrumiaVissaniIBDPXSec.MAterm(), stan::math.matrix_exp_action(), MatrixValidation(), cet::sqlite::detail.maybe_quote(), genie::StrumiaVissaniIBDPXSec.MtxElm(), bpfit::Path.MuonParams(), DataCompression.nbitMask(), ND_predictionbyMC_usingbincontent(), util::HoughCalc.newNode(), evgen::NuMISpillTimeStructure.NewSpill(), genie::NtpMCDTime.Now(), genie::alvarezruso::AlvarezRusoCOHPiPDXSec.NuclearCurrent(), NuMu2020_TrimCAFs(), nova::dbi::RunHistory.Occupancy(), fhicl::YesInsert.operator()(), cet::ostream_handle.operator<<(), fhicl.operator<<(), mf::MaybeLogger_< SEV, VERBATIM >.operator<<(), ana2019::ColorStream.operator<<(), art.operator<<(), mf::ErrorObj.opltlt(), evdb::ParamFrame.ParamFrame(), Expression.Parse(), cheat::BackTracker.PassMuonCuts(), bpfit::Path.PionParams(), plot_abstree(), plot_timing_resolution(), plotapdhv(), PlotDB_Web(), PlotEfficiency(), plotTime(), evgen::CORSIKAGen.populateTOffset(), dbutils::hw::Util.PositionTable(), CLHEP.possibleKeywordInput(), art::TimeTracker.postEventProcessing(), art::TimeTracker.postEventReading(), pots(), genie::utils::intranuke.PreEquilibrium(), genie::utils::intranuke2018.PreEquilibrium(), prepare_mcnp_root_for_g4nova(), PrintTime(), genie::NuEKinematicsGenerator.ProcessEventRecord(), genie::QELKinematicsGenerator.ProcessEventRecord(), genie::COHElKinematicsGenerator.ProcessEventRecord(), genie::RESKinematicsGenerator.ProcessEventRecord(), genie::DMELKinematicsGenerator.ProcessEventRecord(), genie::IBDKinematicsGenerator.ProcessEventRecord(), genie::DISKinematicsGenerator.ProcessEventRecord(), genie::QELEventGenerator.ProcessEventRecord(), genie::DMDISKinematicsGenerator.ProcessEventRecord(), genie::QELEventGeneratorSM.ProcessEventRecord(), cheat::TrackCheater.produce(), MergeCollections::MergeCollections.produce(), MergeG4Collections::MergeG4Collections.produce(), g4n::TruthSlim.produce(), zcl::SPCluster.produce(), comi::Cana.produce(), bpfit::BreakPoint.produce(), stan::math::promote_elements< Eigen::Matrix< T, R, C >, Eigen::Matrix< S, R, C > >.promote(), stan::math::promote_elements< std::vector< T >, std::vector< S > >.promote(), bpfit::Path.ProtonParams(), trk::CosmicTrackUtilities.RangeMomentum(), novaddt::RateMonitor.RateMonitor(), evd::RawDataDrawer.RawDigit2D(), evd::RawDataDrawer.RawDigitHardware(), evdb::ScanFrame.Record(), art::TimeTracker.recordTime(), util::HoughCalc.RemovePoint(), ana::SpectrumLoader.ReportExposures(), cet::exempt_ptr< art::RunPrincipal >.reset(), cet::value_ptr< TFile >.reset(), cvn::RegCVNImageUtils.ReverseView(), locator::RndmLocatorTable.RndmLocatorTable(), stan::lang::function_signatures.rng_return_type(), run_evgen_test(), RunCalibration(), evgb::CRYHelper.Sample(), genie::flux::GDk2NuFlux.ScanForMaxWeight(), genie::flux::GNuMIFlux.ScanForMaxWeight(), genie::MECGenerator.SelectEmpiricalKinematics(), stan::math::matrix_exp_action_handler.set_approximation_parameter(), stan::mcmc::impl_leapfrog< stan::mcmc::unit_e_metric< command_model_namespace::command_model, rng_t > >.set_fixed_point_threshold(), stan::mcmc::base_static_hmc< Model, diag_e_metric, expl_leapfrog, BaseRNG >.set_nominal_stepsize_and_T(), stan::mcmc::base_static_uniform< Model, diag_e_metric, expl_leapfrog, BaseRNG >.set_nominal_stepsize_and_T(), stan::mcmc::base_static_hmc< Model, diag_e_metric, expl_leapfrog, BaseRNG >.set_T(), stan::mcmc::base_static_uniform< Model, diag_e_metric, expl_leapfrog, BaseRNG >.set_T(), stan::mcmc::stepsize_adaptation.set_t0(), nova::dbi::RunHistory.SetChanInfo(), om::GUIModel.SetHistogramInfoText(), rb::HitList.SetHit(), bpfit::HitList3D.SetHit(), HepGeom::Transform3D.setIdentity(), nova::dbi::RunHistory.SetIsBad(), nutools::dbi::Table.SetMaxTSVld(), nova::dbi::Table.SetMaxTSVld(), nutools::dbi::Table.SetMinTSVld(), nova::dbi::Table.SetMinTSVld(), nutools::dbi::Table.SetRecordTime(), nova::dbi::Table.SetRecordTime(), rb::Vertex.SetT(), earms::ElasticArms.SetT(), nova::database::Table.SetTableType(), nova::dbi::Table.SetTableType(), nutools::dbi::Table.SetTableType(), novaddt.SetTheta(), sim::PhotonSignal.SetTimeMean(), nutools::dbi::ColumnDef.SetTolerance(), nova::dbi::ColumnDef.SetTolerance(), nova::database::Column.SetTolerance(), nova::database::Column.SetToleranceType(), sim::PhotonSignal.SetTrackId(), nutools::dbi::ColumnDef.SetType(), nova::dbi::ColumnDef.SetType(), nova::database::Column.SetType(), nutools::dbi::Column.SetType(), nova::dbi::Column.SetType(), evdb::ParameterSetEditRow.SetupSlider(), cvn::PixelMap.SingleViewToLabTH2(), cheat::BackTracker.SlicesToMCTruthsTable(), rb.SortTracksByTime(), genie::QELKinematicsGenerator.SpectralFuncExperimentalCode(), genie::DMELKinematicsGenerator.SpectralFuncExperimentalCode(), spill_profile(), stan::math.student_t_cdf(), stan::math.student_t_lccdf(), stan::math.student_t_lcdf(), nova::database::Table.TableType(), genie::BBA05ELFormFactorsModel.tau(), TEST_F(), test_nueloaders(), htk::Track3D.time_fit(), mono::Track3D.time_fit(), nl::TimeSeriesData.TimeSeriesData(), locator::RndmLocatorTable.TNS(), bpfit::Path.TPBG(), zcl::FMMTracker.Tracking2D(), tree_maker_simple(), TrimCAFs(), dbutils::RunHistory.TStart(), nova::dbi::RunHistory.TStart(), dbutils::RunHistory.TStop(), nova::dbi::RunHistory.TStop(), fhicl::TupleAs< T(ARGS...)>.TupleAs(), art::SummedValue< T >.update_impl(), osc::OscCalculator.UpdateEDep(), uptime(), useBDTG(), cet::sqlite::IncompleteInsert.values(), zcl::FmmTrackerValidation.vfit(), zcl::FmmTrackerAna.vfit(), fhicl::detail::ParameterWalker< C >.walk_over(), ana.WindowCut_FD_MR(), genie::LwlynSmithFF.xiF2V(), genie::ReinDFRPXSec.XSec(), genie::BergerSehgalFMCOHPiPXSec2015.XSec(), zheevh3(), zheevq3(), genie::FermiMomentumTablePool.~FermiMomentumTablePool(), lem::dec::Forest.~Forest(), and genie::flux::GDk2NuFluxXMLHelper.~GDk2NuFluxXMLHelper().

list plotSysts.texts = []

Definition at line 234 of file plotSysts.py.

plotSysts.titleOffY

Definition at line 280 of file plotSysts.py.

Referenced by drawTwoPad().

plotSysts.type

Definition at line 9 of file plotSysts.py.

plotSysts.unshifted = OrderedDict()

Definition at line 86 of file plotSysts.py.

float plotSysts.weight = 1.0

Definition at line 333 of file plotSysts.py.

Referenced by NDPredictionHandler.AddVar(), caldp::TCTrack.CalculateFiberVelocity(), caldp::TCTrack.CalculateMuonVelocity(), mcdatadaq::NanoSliceOrder.calculateOrderingWeight(), slid::NuEEnergyAlg.CellEnergy(), cheat::RecoCheckAna.CheckRecoClusters(), trk::KalmanTrackAna.CheckRecoTracks(), murem::TrackCleanUpAlg.CleanUpTrack(), fnex::ShifterAndWeighter.COHCCScale2018Weight(), fnex::ShifterAndWeighter.COHNCScale2018Weight(), cmf::ShifterAndWeighter.COHScale2018Weight(), jw::CompNormSyst.CompNormSyst(), genie::GMCJDriver.ComputeEventProbability(), genie::geometry::ROOTGeomAnalyzer.ComputePathLengthPDG(), convert(), ConvertToGST(), photrans::ImprovedTransport.CreatePhotoElectrons(), genie::PythiaDecayer.Decay(), genie::BaryonResonanceDecayer.Decay(), jmshower::EID.EID(), mono::SlowMonopoleAna.fill(), cmf::EventListManipulator.FillHistogram(), fnex::EventListManipulator.FillHistogram(), cmf::CalibSystHistMaker.FillHistograms(), cmf::CovarianceMatrixMaker.FillSpectrum(), fnex::CovarianceMatrixMaker.FillSpectrum(), fnex::CovarianceFitHelper.FillSpectrum(), cmf::CovarianceFitHelper.FillSpectrum(), bsf::BremShowerFilter.filter(), trk::KalmanTrack.FilterOnly(), lem.FindMatches(), for(), genie::flux::GAtmoFlux.GenerateNext_1try(), mcdatadaq::DAQSimulator.getNanoSliceOrder(), NdmcClient.getSendTimeInterval(), genie::geometry::ROOTGeomAnalyzer.GetWeight(), jw.GetWeightFromShifts(), sim::FLSHit.GetXYZAverage(), cheat::BackTracker.HitCollectionEfficiency(), cheat::BackTracker.HitCollectionPurity(), cheat::BackTracker.HitToXYZ(), rb::Cluster.IsNoise(), LoadWeightsTunedNumuMEC(), jw.LoadWeightsTunedNumuMEC(), readFlux.Loop(), rb::Cluster.MinMaxMeanXYZ(), genie::PythiaHadronization.MultiplicityProb(), fnex::ShifterAndWeighter.NueExtrapSig2017Weight(), jmshower::NueSel.OscWeight(), jmshower::NueSelLID.OscWeight(), PhotonSim(), cmf::RandomUniverses.PrepareRandomDraw(), calib::TimingCalibration.produce(), photrans::PhotonTransport.produce(), zcl::FMMTracker.recoT(), murem::TrackCleanUpAlg.ResetHitWeight(), run_evgen_test(), RunOneTrace(), jmshower::EID.SetBkgOscW(), jmshower::EID.SetSigOscW(), NdmcMetric< T >.setValue(), rb::Cluster.SetWeight(), fnex::ShifterAndWeighter.TauScaleSystWeight(), cmf::ShifterAndWeighter.TauScaleSystWeight(), testfom(), dt::Chain.ToTrack(), lem::dec::Forest.Train(), train_dectree_caf(), calib::AttenFit.TruncatedMeanProfile(), calib::AttenuationFit.TruncatedMeanProfile(), and slid::NuEEnergyAlg.VertexEnergy().