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TrackCollections2monitor_cff.py
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TrackCollections2monitor_cff.py
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import FWCore.ParameterSet.Config as cms
allTrackProducer = {}
mainfolderName = {}
vertexfolderName = {}
sequenceName = {}
trackPtN = {}
trackPtMin = {}
trackPtMax = {}
doPlotsPCA = {}
numCutString = {}
denCutString = {}
doGoodTracksPlots = {}
doTrackerSpecific = {}
doHitPropertiesPlots = {}
doGeneralPropertiesPlots = {}
doBeamSpotPlots = {}
doSeedParameterHistos = {}
doRecHitVsPhiVsEtaPerTrack = {}
doRecHitVsPtVsEtaPerTrack = {}
doGoodTrackRecHitVsPhiVsEtaPerTrack = {}
doLayersVsPhiVsEtaPerTrack = {}
doGoodTrackLayersVsPhiVsEtaPerTrack = {}
doPUmonitoring = {}
doPlotsVsBXlumi = {}
doPlotsVsGoodPVtx = {}
doEffFromHitPatternVsPU = {}
doEffFromHitPatternVsBX = {}
doEffFromHitPatternVsLumi = {}
doStopSource = {}
selectedTracks = []
allTrackProducer['generalTracks'] = 'generalTracks'
mainfolderName ['generalTracks'] = 'Tracking/TrackParameters/generalTracks'
vertexfolderName['generalTracks'] = 'Tracking/PrimaryVertices/generalTracks'
trackPtN ['generalTracks'] = cms.int32(100)
trackPtMin ['generalTracks'] = cms.double(0.)
trackPtMax ['generalTracks'] = cms.double(100.)
doPlotsPCA ['generalTracks'] = cms.bool(False)
numCutString ['generalTracks'] = cms.string("quality('highPurity')") # num := den + quality('highPurity')
denCutString ['generalTracks'] = cms.string("") # den := kinematics cuts
doGoodTracksPlots ['generalTracks'] = cms.bool(True)
doTrackerSpecific ['generalTracks'] = cms.bool(True)
doHitPropertiesPlots ['generalTracks'] = cms.bool(True)
doGeneralPropertiesPlots ['generalTracks'] = cms.bool(True)
doBeamSpotPlots ['generalTracks'] = cms.bool(True)
doSeedParameterHistos ['generalTracks'] = cms.bool(False)
doRecHitVsPhiVsEtaPerTrack ['generalTracks'] = cms.bool(True)
doRecHitVsPtVsEtaPerTrack ['generalTracks'] = cms.bool(True)
doGoodTrackRecHitVsPhiVsEtaPerTrack ['generalTracks'] = cms.bool(True)
doLayersVsPhiVsEtaPerTrack ['generalTracks'] = cms.bool(True)
doGoodTrackLayersVsPhiVsEtaPerTrack ['generalTracks'] = cms.bool(True)
doPUmonitoring ['generalTracks'] = cms.bool(False)
doPlotsVsBXlumi ['generalTracks'] = cms.bool(False)
doPlotsVsGoodPVtx ['generalTracks'] = cms.bool(True)
doEffFromHitPatternVsPU ['generalTracks'] = cms.bool(True)
doEffFromHitPatternVsBX ['generalTracks'] = cms.bool(False)
doEffFromHitPatternVsLumi ['generalTracks'] = cms.bool(False)
doStopSource ['generalTracks'] = cms.bool(True)
trackSelector = cms.EDFilter('TrackSelector',
src = cms.InputTag('generalTracks'),
cut = cms.string("")
)
### highpurity definition: https://cmssdt.cern.ch/SDT/lxr/source/RecoTracker/FinalTrackSelectors/python/selectHighPurity_cfi.py
highPurityPtRange0to1 = trackSelector.clone()
highPurityPtRange0to1.cut = cms.string("quality('highPurity') & pt >= 0 & pt < 1 ")
sequenceName ['highPurityPtRange0to1'] = highPurityPtRange0to1
allTrackProducer['highPurityPtRange0to1'] = 'generalTracks'
mainfolderName ['highPurityPtRange0to1'] = 'Tracking/TrackParameters/highPurityTracks/pt_0to1'
vertexfolderName['highPurityPtRange0to1'] = 'Tracking/PrimaryVertices/highPurityTracks/pt_0to1'
trackPtN ['highPurityPtRange0to1'] = cms.int32(10)
trackPtMin ['highPurityPtRange0to1'] = cms.double(0.)
trackPtMax ['highPurityPtRange0to1'] = cms.double(1.)
numCutString ['highPurityPtRange0to1'] = cms.string(" pt >= 0 & pt < 1 & quality('highPurity')") # num := den + quality('highPurity') [it is the same as the main selection, but just to be sure ...]
denCutString ['highPurityPtRange0to1'] = cms.string(" pt >= 0 & pt < 1 ") # den := kinematics cut
doPlotsPCA ['highPurityPtRange0to1'] = cms.bool(False)
doGoodTracksPlots ['highPurityPtRange0to1'] = cms.bool(False)
doTrackerSpecific ['highPurityPtRange0to1'] = cms.bool(False)
doHitPropertiesPlots ['highPurityPtRange0to1'] = cms.bool(True)
doGeneralPropertiesPlots ['highPurityPtRange0to1'] = cms.bool(True)
doBeamSpotPlots ['highPurityPtRange0to1'] = cms.bool(True)
doSeedParameterHistos ['highPurityPtRange0to1'] = cms.bool(False)
doRecHitVsPhiVsEtaPerTrack ['highPurityPtRange0to1'] = cms.bool(True)
doRecHitVsPtVsEtaPerTrack ['highPurityPtRange0to1'] = cms.bool(True)
doGoodTrackRecHitVsPhiVsEtaPerTrack ['highPurityPtRange0to1'] = cms.bool(False)
doLayersVsPhiVsEtaPerTrack ['highPurityPtRange0to1'] = cms.bool(True)
doGoodTrackLayersVsPhiVsEtaPerTrack ['highPurityPtRange0to1'] = cms.bool(False)
doPUmonitoring ['highPurityPtRange0to1'] = cms.bool(True)
doPlotsVsBXlumi ['highPurityPtRange0to1'] = cms.bool(False)
doPlotsVsGoodPVtx ['highPurityPtRange0to1'] = cms.bool(True)
doEffFromHitPatternVsPU ['highPurityPtRange0to1'] = cms.bool(False)
doEffFromHitPatternVsBX ['highPurityPtRange0to1'] = cms.bool(False)
doEffFromHitPatternVsLumi ['highPurityPtRange0to1'] = cms.bool(False)
doStopSource ['highPurityPtRange0to1'] = cms.bool(True)
highPurityPtRange1to10 = trackSelector.clone()
highPurityPtRange1to10.cut = cms.string("quality('highPurity') & pt >= 1 & pt < 10 ")
sequenceName ['highPurityPtRange1to10'] = highPurityPtRange1to10
allTrackProducer['highPurityPtRange1to10'] = 'generalTracks'
mainfolderName ['highPurityPtRange1to10'] = 'Tracking/TrackParameters/highPurityTracks/pt_1to10'
vertexfolderName['highPurityPtRange1to10'] = 'Tracking/PrimaryVertices/highPurityTracks/pt_1to10'
trackPtN ['highPurityPtRange1to10'] = cms.int32(10)
trackPtMin ['highPurityPtRange1to10'] = cms.double(1.)
trackPtMax ['highPurityPtRange1to10'] = cms.double(10.)
numCutString ['highPurityPtRange1to10'] = cms.string(" pt >= 1 & pt < 10 & quality('highPurity')") # num := den + quality('highPurity') [it is the same as the main selection, but just to be sure ...]
denCutString ['highPurityPtRange1to10'] = cms.string(" pt >= 1 & pt < 10 ") # den := kinematics cuts
doGoodTracksPlots ['highPurityPtRange1to10'] = cms.bool(True)
doTrackerSpecific ['highPurityPtRange1to10'] = cms.bool(True)
doHitPropertiesPlots ['highPurityPtRange1to10'] = cms.bool(True)
doGeneralPropertiesPlots ['highPurityPtRange1to10'] = cms.bool(True)
doBeamSpotPlots ['highPurityPtRange1to10'] = cms.bool(True)
doSeedParameterHistos ['highPurityPtRange1to10'] = cms.bool(False)
doRecHitVsPhiVsEtaPerTrack ['highPurityPtRange1to10'] = cms.bool(True)
doRecHitVsPtVsEtaPerTrack ['highPurityPtRange1to10'] = cms.bool(True)
doGoodTrackRecHitVsPhiVsEtaPerTrack ['highPurityPtRange1to10'] = cms.bool(True)
doLayersVsPhiVsEtaPerTrack ['highPurityPtRange1to10'] = cms.bool(True)
doGoodTrackLayersVsPhiVsEtaPerTrack ['highPurityPtRange1to10'] = cms.bool(True)
doPUmonitoring ['highPurityPtRange1to10'] = cms.bool(False)
doPlotsVsBXlumi ['highPurityPtRange1to10'] = cms.bool(False)
doPlotsVsGoodPVtx ['highPurityPtRange1to10'] = cms.bool(True)
doEffFromHitPatternVsPU ['highPurityPtRange1to10'] = cms.bool(False)
doEffFromHitPatternVsBX ['highPurityPtRange1to10'] = cms.bool(False)
doEffFromHitPatternVsLumi ['highPurityPtRange1to10'] = cms.bool(False)
doStopSource ['highPurityPtRange1to10'] = cms.bool(True)
highPurityPt10 = trackSelector.clone()
highPurityPt10.cut = cms.string("quality('highPurity') & pt >= 10")
sequenceName ['highPurityPt10'] = highPurityPt10
allTrackProducer['highPurityPt10'] = 'generalTracks'
mainfolderName ['highPurityPt10'] = 'Tracking/TrackParameters/highPurityTracks/pt_10'
vertexfolderName['highPurityPt10'] = 'Tracking/PrimaryVertices/highPurityTracks/pt_10'
trackPtN ['highPurityPt10'] = cms.int32(100)
trackPtMin ['highPurityPt10'] = cms.double(10.)
trackPtMax ['highPurityPt10'] = cms.double(110.)
numCutString ['highPurityPt10'] = cms.string(" pt >= 10 & quality('highPurity')") # num := den + quality('highPurity') [it is the same as the main selection, but just to be sure ...]
denCutString ['highPurityPt10'] = cms.string(" pt >= 10 ") # den := kinematics cuts
doGoodTracksPlots ['highPurityPt10'] = cms.bool(True)
doTrackerSpecific ['highPurityPt10'] = cms.bool(True)
doHitPropertiesPlots ['highPurityPt10'] = cms.bool(True)
doGeneralPropertiesPlots ['highPurityPt10'] = cms.bool(True)
doBeamSpotPlots ['highPurityPt10'] = cms.bool(True)
doSeedParameterHistos ['highPurityPt10'] = cms.bool(False)
doRecHitVsPhiVsEtaPerTrack ['highPurityPt10'] = cms.bool(True)
doRecHitVsPtVsEtaPerTrack ['highPurityPt10'] = cms.bool(True)
doGoodTrackRecHitVsPhiVsEtaPerTrack ['highPurityPt10'] = cms.bool(True)
doLayersVsPhiVsEtaPerTrack ['highPurityPt10'] = cms.bool(True)
doGoodTrackLayersVsPhiVsEtaPerTrack ['highPurityPt10'] = cms.bool(True)
doPUmonitoring ['highPurityPt10'] = cms.bool(False)
doPlotsVsBXlumi ['highPurityPt10'] = cms.bool(False)
doPlotsVsGoodPVtx ['highPurityPt10'] = cms.bool(True)
doEffFromHitPatternVsPU ['highPurityPt10'] = cms.bool(False)
doEffFromHitPatternVsBX ['highPurityPt10'] = cms.bool(False)
doEffFromHitPatternVsLumi ['highPurityPt10'] = cms.bool(False)
doStopSource ['highPurityPt10'] = cms.bool(True)
###### old monitored track collections
highPurityPt1 = trackSelector.clone()
highPurityPt1.cut = cms.string("quality('highPurity') & pt >= 1")
sequenceName ['highPurityPt1'] = highPurityPt1
allTrackProducer['highPurityPt1'] = 'generalTracks'
mainfolderName ['highPurityPt1'] = 'Tracking/TrackParameters/highPurityTracks/pt_1'
vertexfolderName['highPurityPt1'] = 'Tracking/PrimaryVertices/highPurityTracks/pt_1'
trackPtN ['highPurityPt1'] = cms.int32(100)
trackPtMin ['highPurityPt1'] = cms.double(0.)
trackPtMax ['highPurityPt1'] = cms.double(100.)
doPlotsPCA ['highPurityPt1'] = cms.bool(True)
numCutString ['highPurityPt1'] = cms.string(" pt >= 1 & quality('highPurity')") # num := den + quality('highPurity') [it is the same as the main selection, but just to be sure ...]
denCutString ['highPurityPt1'] = cms.string(" pt >= 1 ") # den := kinematics cut
doGoodTracksPlots ['highPurityPt1'] = cms.bool(True)
doTrackerSpecific ['highPurityPt1'] = cms.bool(True)
doHitPropertiesPlots ['highPurityPt1'] = cms.bool(True)
doGeneralPropertiesPlots ['highPurityPt1'] = cms.bool(True)
doBeamSpotPlots ['highPurityPt1'] = cms.bool(True)
doSeedParameterHistos ['highPurityPt1'] = cms.bool(False)
doRecHitVsPhiVsEtaPerTrack ['highPurityPt1'] = cms.bool(True)
doRecHitVsPtVsEtaPerTrack ['highPurityPt1'] = cms.bool(True)
doGoodTrackRecHitVsPhiVsEtaPerTrack ['highPurityPt1'] = cms.bool(True)
doLayersVsPhiVsEtaPerTrack ['highPurityPt1'] = cms.bool(True)
doGoodTrackLayersVsPhiVsEtaPerTrack ['highPurityPt1'] = cms.bool(True)
doPUmonitoring ['highPurityPt1'] = cms.bool(False)
doPlotsVsBXlumi ['highPurityPt1'] = cms.bool(False)
doPlotsVsGoodPVtx ['highPurityPt1'] = cms.bool(True)
doEffFromHitPatternVsPU ['highPurityPt1'] = cms.bool(True)
doEffFromHitPatternVsBX ['highPurityPt1'] = cms.bool(True)
doEffFromHitPatternVsLumi ['highPurityPt1'] = cms.bool(True)
doStopSource ['highPurityPt1'] = cms.bool(True)
###### all tracks (no pt cut) associated to the PV
###### association is dz<1mm
from CommonTools.RecoAlgos.TrackWithVertexSelector_cfi import *
trackAssociated2pvSelector = trackWithVertexSelector.clone()
trackAssociated2pvSelector.trackWithVertexSelectorParams = cms.PSet(
# the track collection
src = cms.InputTag('generalTracks'),
# kinematic cuts (pT in GeV)
etaMin = cms.double(0.0),
etaMax = cms.double(5.0),
ptMin = cms.double(0.0),
ptMax = cms.double(100000.0),
# impact parameter cut (in cm)
d0Max = cms.double(999.),
dzMax = cms.double(999.),
# quality cuts (valid hits, normalized chi2)
normalizedChi2 = cms.double(999999.),
numberOfValidHits = cms.uint32(0),
numberOfLostHits = cms.uint32(999), ## at most 999 lost hits
numberOfValidPixelHits = cms.uint32(0), ## at least <n> hits in the pixels
ptErrorCut = cms.double(9999999.), ## [pTError/pT]*max(1,normChi2) <= ptErrorCut
quality = cms.string("highPurity"), # quality cut as defined in reco::TrackBase
# compatibility with a vertex ?
useVtx = cms.bool(True),
vertexTag = cms.InputTag('trackingDQMgoodOfflinePrimaryVertices'),
timesTag = cms.InputTag(''),
timeResosTag = cms.InputTag(''),
nVertices = cms.uint32(1), ## how many vertices to look at before dropping the track
vtxFallback = cms.bool(True), ## falback to beam spot if there are no vertices
# uses vtx=(0,0,0) with deltaZeta=15.9, deltaRho = 0.2
zetaVtx = cms.double(0.1),
# rhoVtx = cms.double(0.2), ## tags used by b-tagging folks
rhoVtx = cms.double(999.), ## tags used by b-tagging folks
nSigmaDtVertex = cms.double(0),
# should _not_ be used for the TrackWithVertexRefSelector
copyExtras = cms.untracked.bool(False), ## copies also extras and rechits on RECO
copyTrajectories = cms.untracked.bool(False), # don't set this to true on AOD!
)
highPurityPV0p1 = trackAssociated2pvSelector.clone()
highPurityPV0p1.trackWithVertexSelectorParams.zetaVtx = cms.double(0.1)
PV0p1 = highPurityPV0p1.clone()
PV0p1.quality = cms.string("") # quality cut as defined in reco::TrackBase
sequenceName ['highPurityPV0p1'] = highPurityPV0p1+PV0p1
allTrackProducer['highPurityPV0p1'] = 'PV0p1'
mainfolderName ['highPurityPV0p1'] = 'Tracking/TrackParameters/highPurityTracks/dzPV0p1'
vertexfolderName['highPurityPV0p1'] = 'Tracking/PrimaryVertices/highPurityTracks/dzPV0p1'
trackPtN ['highPurityPV0p1'] = cms.int32(100)
trackPtMin ['highPurityPV0p1'] = cms.double(0.)
trackPtMax ['highPurityPV0p1'] = cms.double(100.)
doPlotsPCA ['highPurityPV0p1'] = cms.bool(True)
numCutString ['highPurityPV0p1'] = cms.string("quality('highPurity')") # num := den + quality('highPurity')
denCutString ['highPurityPV0p1'] = cms.string("") # den := kinematic cuts
doGoodTracksPlots ['highPurityPV0p1'] = cms.bool(True)
doTrackerSpecific ['highPurityPV0p1'] = cms.bool(True)
doHitPropertiesPlots ['highPurityPV0p1'] = cms.bool(True)
doGeneralPropertiesPlots ['highPurityPV0p1'] = cms.bool(True)
doBeamSpotPlots ['highPurityPV0p1'] = cms.bool(True)
doSeedParameterHistos ['highPurityPV0p1'] = cms.bool(False)
doRecHitVsPhiVsEtaPerTrack ['highPurityPV0p1'] = cms.bool(True)
doRecHitVsPtVsEtaPerTrack ['highPurityPV0p1'] = cms.bool(True)
doGoodTrackRecHitVsPhiVsEtaPerTrack ['highPurityPV0p1'] = cms.bool(True)
doLayersVsPhiVsEtaPerTrack ['highPurityPV0p1'] = cms.bool(True)
doGoodTrackLayersVsPhiVsEtaPerTrack ['highPurityPV0p1'] = cms.bool(True)
doPUmonitoring ['highPurityPV0p1'] = cms.bool(False)
doPlotsVsBXlumi ['highPurityPV0p1'] = cms.bool(False)
doPlotsVsGoodPVtx ['highPurityPV0p1'] = cms.bool(True)
doEffFromHitPatternVsPU ['highPurityPV0p1'] = cms.bool(True)
doEffFromHitPatternVsBX ['highPurityPV0p1'] = cms.bool(False)
doEffFromHitPatternVsLumi ['highPurityPV0p1'] = cms.bool(True)
doStopSource ['highPurityPV0p1'] = cms.bool(True)
selectedTracks.extend( ['generalTracks'] )
#selectedTracks.extend( ['highPurityPtRange0to1'] )
#selectedTracks.extend( ['highPurityPtRange1to10'] )
#selectedTracks.extend( ['highPurityPt10'] )
selectedTracks.extend( ['highPurityPt1'] )
selectedTracks.extend( ['highPurityPtRange0to1'] )
selectedTracks.extend( ['highPurityPV0p1'] )
#selectedTracks2runSequence=cms.Sequence()
#for tracks in selectedTracks :
# if tracks != 'generalTracks':
# selectedTracks2runSequence+=sequenceName[tracks]