def addHLTFilter(process, hltProcess='HLT', mode='mc'):
"Add HLT filter used to keep datasets orthogonal."
if mode == 'mc' or mode == 'allmueg':
## Give hltFilter a dummy producer (so it always passes).
## This will be removed anyway in configureFilters.
process.hltFilter = cms.EDProducer("EventCountProducer")
return
from HLTrigger.HLTfilters.hltHighLevel_cfi import hltHighLevel
hltHighLevel.andOr = True # True means 'OR'; False means 'AND'
hltHighLevel.throw = False # Don't die on unknown path names
hltHighLevel.TriggerResultsTag = cms.InputTag("TriggerResults", "", hltProcess)
process.doubleMuonFilter = hltHighLevel.clone()
process.doubleMuonFilter.HLTPaths = doubleMuonPaths
process.singleMuonFilter = hltHighLevel.clone()
process.singleMuonFilter.HLTPaths = singleMuonPaths
process.doubleElectronFilter = hltHighLevel.clone()
process.doubleElectronFilter.HLTPaths = doubleElectronPaths
process.singleElectronFilter = hltHighLevel.clone()
process.singleElectronFilter.HLTPaths = singleElectronPaths
if mode == 'doublemu':
process.hltFilter = cms.Sequence(process.doubleMuonFilter)
if mode == 'doubleelectron':
process.hltFilter = cms.Sequence(process.doubleElectronFilter *
~process.doubleMuonFilter)
if mode == 'singlemu':
process.hltFilter = cms.Sequence(process.singleMuonFilter *
~process.doubleMuonFilter *
~process.doubleElectronFilter)
if mode == 'singleelectron':
process.hltFilter = cms.Sequence(process.singleElectronFilter *
~process.doubleMuonFilter *
~process.doubleElectronFilter *
~process.singleMuonFilter)
def addHLTFilter(process, hltProcess='HLT', mode='mc'):
"Add HLT filter used to keep datasets orthogonal."
if mode == 'mc' or mode == 'allmueg':
## Give hltFilter a dummy producer (so it always passes).
## This will be removed anyway in configureFilters.
process.hltFilter = cms.EDProducer("EventCountProducer")
return
from HLTrigger.HLTfilters.hltHighLevel_cfi import hltHighLevel
hltHighLevel.andOr = True # True means 'OR'; False means 'AND'
hltHighLevel.throw = False # Don't die on unknown path names
hltHighLevel.TriggerResultsTag = cms.InputTag("TriggerResults", "",
hltProcess)
process.doubleMuonFilter = hltHighLevel.clone()
process.doubleMuonFilter.HLTPaths = doubleMuonPaths
process.singleMuonFilter = hltHighLevel.clone()
process.singleMuonFilter.HLTPaths = singleMuonPaths
process.doubleElectronFilter = hltHighLevel.clone()
process.doubleElectronFilter.HLTPaths = doubleElectronPaths
process.singleElectronFilter = hltHighLevel.clone()
process.singleElectronFilter.HLTPaths = singleElectronPaths
if mode == 'doublemu':
process.hltFilter = cms.Sequence(process.doubleMuonFilter)
if mode == 'doubleelectron':
process.hltFilter = cms.Sequence(process.doubleElectronFilter *
~process.doubleMuonFilter)
if mode == 'singlemu':
process.hltFilter = cms.Sequence(process.singleMuonFilter *
~process.doubleMuonFilter *
~process.doubleElectronFilter)
if mode == 'singleelectron':
process.hltFilter = cms.Sequence(
process.singleElectronFilter * ~process.doubleMuonFilter *
~process.doubleElectronFilter * ~process.singleMuonFilter)
def setup_trigger_filter_soup(process, path_name="pevtsel", filt_name="triggerFilter"):
from HLTrigger.HLTfilters.hltHighLevel_cfi import hltHighLevel
triggerFilter = hltHighLevel.clone()
setattr(process, filt_name, triggerFilter)
triggerFilter.HLTPaths = [
"HLT_PFHT650_v*",
"HLT_PFHT800_v*",
"HLT_PFHT900_v*",
"HLT_PFHT550_4Jet_v*",
"HLT_PFHT450_SixJet40_PFBTagCSV_v*",
"HLT_PFHT400_SixJet30_BTagCSV0p5_2PFBTagCSV_v*",
"HLT_PFHT450_SixJet40_v*",
"HLT_PFHT400_SixJet30_v*",
"HLT_QuadJet45_TripleCSV0p5_v*",
"HLT_QuadJet45_DoubleCSV0p5_v*",
"HLT_DoubleJet90_Double30_TripleCSV0p5_v*",
"HLT_DoubleJet90_Double30_DoubleCSV0p5_v*",
"HLT_HT650_DisplacedDijet80_Inclusive_v*",
"HLT_HT750_DisplacedDijet80_Inclusive_v*",
"HLT_HT500_DisplacedDijet40_Inclusive_v*",
"HLT_HT550_DisplacedDijet40_Inclusive_v*",
"HLT_HT350_DisplacedDijet40_DisplacedTrack_v*",
"HLT_HT350_DisplacedDijet80_DisplacedTrack_v*",
"HLT_HT350_DisplacedDijet80_Tight_DisplacedTrack_v*",
]
triggerFilter.andOr = True # = OR
triggerFilter.throw = False # = HT800 not in MC
setattr(process, path_name, cms.Path(triggerFilter))
if hasattr(process, "out"):
process.out.SelectEvents = cms.untracked.PSet(SelectEvents=cms.vstring(path_name))
def setupTreeMaker(process, options) :
from HLTrigger.HLTfilters.hltHighLevel_cfi import hltHighLevel
process.hltFilter = hltHighLevel.clone()
process.hltFilter.throw = cms.bool(True)
process.hltFilter.HLTPaths = options['TnPPATHS']
process.hltFilter.TriggerResultsTag = cms.InputTag("TriggerResults","",options['HLTProcessName'])
setTagsProbes( process, options )
setSequences( process, options )
def setModules(process, options):
process.sampleInfo = cms.EDProducer("tnp::SampleInfoTree",
genInfo = cms.InputTag("generator")
)
from HLTrigger.HLTfilters.hltHighLevel_cfi import hltHighLevel
process.hltFilter = hltHighLevel.clone()
process.hltFilter.throw = cms.bool(True)
process.hltFilter.HLTPaths = options['TnPPATHS']
from PhysicsTools.TagAndProbe.pileupConfiguration_cfi import pileupProducer
process.pileupReweightingProducer = pileupProducer.clone()
###################################################################
## ELECTRON MODULES
###################################################################
process.goodPhotons = cms.EDFilter("PATPhotonRefSelector",
src = cms.InputTag(options['PHOTON_COLL']),
cut = cms.string(options['PHOTON_CUTS'])
)
###################################################################
## PHOTON ISOLATION
###################################################################
process.load("RecoEgamma/PhotonIdentification/PhotonIDValueMapProducer_cfi")
###################################################################
## HLT MATCHING
###################################################################
process.goodPhotonsTagHLT = cms.EDProducer("PatPhotonTriggerCandProducer",
filterNames = options['TnPHLTTagFilters'],
inputs = cms.InputTag("goodPhotonsTAGCutBasedTight"),
bits = cms.InputTag('TriggerResults::HLT'),
objects = cms.InputTag('selectedPatTrigger'),
dR = cms.double(0.3),
isAND = cms.bool(True)
)
process.goodPhotonsProbeHLT = cms.EDProducer("PatPhotonTriggerCandProducer",
filterNames = options['TnPHLTProbeFilters'],
inputs = cms.InputTag("goodPhotons"),
bits = cms.InputTag('TriggerResults::HLT'),
objects = cms.InputTag('selectedPatTrigger'),
dR = cms.double(0.3),
isAND = cms.bool(True)
)
process.tagTightRECO = cms.EDProducer("CandViewShallowCloneCombiner",
decay = cms.string("goodPhotonsTagHLT@+ goodPhotonsProbeHLT@-"),
checkCharge = cms.bool(False),
cut = cms.string("60<mass<120"),
)
def customise(process):
# process.dtDataIntegrityUnpacker.inputLabel = cms.untracked.InputTag('rawDataCollector')
# process.DQMOfflineCosmics.remove(process.hcalOfflineDQMSource)
# process.load("FWCore.Modules.printContent_cfi")
# process.myPath1 = cms.Path( process.printContent )
process.options = cms.untracked.PSet(
wantSummary = cms.untracked.bool(True)
)
#using the DQMROOT means that the reco output will be empty
process.DQMoutput.outputCommands.append('drop *')
process.DQMoutput.outputCommands.append('keep *_MEtoEDMConverter_*_*')
# process.SimpleMemoryCheck = cms.Service("SimpleMemoryCheck",
# ignoreTotal=cms.untracked.int32(1),
# oncePerEventMode=cms.untracked.bool(False)
# )
# Do not activate by default the logging of where each histogram is booked.
process.DQMStore.verbose = cms.untracked.int32(2)
process.load("DQMServices.Components.DQMStoreStats_cfi")
process.stats = cms.Path(process.dqmStoreStats)
process.schedule.insert(-1,process.stats)
#Run only on fat events
from HLTrigger.HLTfilters.hltHighLevel_cfi import hltHighLevel
process.hltFatEventFilters = hltHighLevel.clone()
process.hltFatEventFilters.throw = cms.bool(False)
process.hltFatEventFilters.HLTPaths = cms.vstring('HLT_L1FatEvents_v*')
#Run L1TReemulation
from L1Trigger.Configuration.customiseReEmul import L1TReEmulFromRAW
process = L1TReEmulFromRAW(process)
#Put all together into one path, so that reco does not run on non-fat events
process.p=cms.Path( #process.hltFatEventFilters*
process.RawToDigi*
process.reconstruction*
process.DQMOffline*
process.L1TReEmul
)
process.e=cms.EndPath( process.DQMoutput )
process.schedule=cms.Schedule(process.p,process.e)
return(process)
def hlt_filter(process, hlt_path):
from HLTrigger.HLTfilters.hltHighLevel_cfi import hltHighLevel
process.triggerFilter = hltHighLevel.clone()
process.triggerFilter.HLTPaths = [hlt_path]
process.triggerFilter.andOr = True # = OR
process_out = None
try:
process_out = process.output
except AttributeError:
process_out = process.out
if hasattr(process_out, 'SelectEvents'):
raise ValueError('process_out already has SelectEvents: %r' % process_out.SelectEvents)
process_out.SelectEvents = cms.untracked.PSet(SelectEvents = cms.vstring('ptriggerFilter'))
for name, path in process.paths.items():
path.insert(0, process.triggerFilter)
process.ptriggerFilter = cms.Path(process.triggerFilter)
if hasattr(process, 'schedule'):
process.schedule.insert(0, process.ptriggerFilter)
def addTriggerSequence(process,
egmuTriggerFilter='',
egtriglist=['HLT_Ele10_LW_L1R'],
mutriggerlist=['HLT_Mu9'],
trigMenu='HLT'
) :
# single lepton inclusive triggers
from HLTrigger.HLTfilters.hltHighLevel_cfi import hltHighLevel as trigbit_selector
trigbit_selector.throw = cms.bool(False)
process.eg_selector = trigbit_selector.clone()
process.eg_selector.TriggerResultsTag = cms.InputTag('TriggerResults', '', trigMenu)
process.eg_selector.andOr=cms.bool(True)
process.eg_selector.HLTPaths = cms.vstring(egtriglist)
process.mu_selector = process.eg_selector.clone()
process.mu_selector.andOr=cms.bool(True)
process.mu_selector.HLTPaths = cms.vstring(mutriggerlist)
process.egmu_selector = process.eg_selector.clone()
process.egmu_selector.HLTPaths.extend( process.mu_selector.HLTPaths)
process.egmu_selector.andOr=cms.bool(True)
process.triggerselection = cms.Sequence()
#trigger sequences
if(egmuTriggerFilter=="inclusive_eg") :
process.inclusive_eg = cms.Sequence( process.eg_selector )
process.triggerselection = cms.Sequence( process.inclusive_eg*process.triggerselection )
elif(egmuTriggerFilter=="exclusive_eg") :
process.exclusive_eg = cms.Sequence( ~process.mu_selector*process.eg_selector )
process.triggerselection= cms.Sequence( process.exclusive_eg*process.triggerselection )
elif(egmuTriggerFilter=="inclusive_mu") :
process.inclusive_mu = cms.Sequence( process.mu_selector )
process.triggerselection = cms.Sequence( process.inclusive_mu*process.triggerselection )
elif(egmuTriggerFilter=="exclusive_mu") :
process.exclusive_mu = cms.Sequence( ~process.eg_selector*process.mu_selector )
process.triggerselection = cms.Sequence( process.exclusive_mu*process.triggerselection )
elif(egmuTriggerFilter=="inclusive_egmu") :
process.inclusive_egmu = cms.Sequence( process.egmu_selector )
process.triggerselection = cms.Sequence( process.inclusive_egmu*process.triggerselection )
if(len(egmuTriggerFilter)>0) :
print ' EG/Mu trigger filter defined as: ' + egmuTriggerFilter
print " Trigger sequence is: " + str(process.triggerselection)
print " Note: process.triggerselection has to be added to your main sequence"
def hlt_filter(process, hlt_path):
from HLTrigger.HLTfilters.hltHighLevel_cfi import hltHighLevel
process.triggerFilter = hltHighLevel.clone()
process.triggerFilter.HLTPaths = [hlt_path]
process.triggerFilter.andOr = True # = OR
process_out = None
try:
process_out = process.output
except AttributeError:
process_out = process.out
if hasattr(process_out, 'SelectEvents'):
raise ValueError('process_out already has SelectEvents: %r' %
process_out.SelectEvents)
process_out.SelectEvents = cms.untracked.PSet(
SelectEvents=cms.vstring('ptriggerFilter'))
for name, path in process.paths.items():
path.insert(0, process.triggerFilter)
process.ptriggerFilter = cms.Path(process.triggerFilter)
if hasattr(process, 'schedule'):
process.schedule.insert(0, process.ptriggerFilter)
def customise(process):
# process.dtDataIntegrityUnpacker.inputLabel = cms.untracked.InputTag('rawDataCollector')
# process.DQMOfflineCosmics.remove(process.hcalOfflineDQMSource)
# process.load("FWCore.Modules.printContent_cfi")
# process.myPath1 = cms.Path( process.printContent )
process.options = cms.untracked.PSet(wantSummary=cms.untracked.bool(True))
#using the DQMROOT means that the reco output will be empty
process.DQMoutput.outputCommands.append('drop *')
process.DQMoutput.outputCommands.append('keep *_MEtoEDMConverter_*_*')
# process.SimpleMemoryCheck = cms.Service("SimpleMemoryCheck",
# ignoreTotal=cms.untracked.int32(1),
# oncePerEventMode=cms.untracked.bool(False)
# )
# Do not activate by default the logging of where each histogram is booked.
process.DQMStore.verbose = cms.untracked.int32(2)
process.load("DQMServices.Components.DQMStoreStats_cfi")
process.stats = cms.Path(process.dqmStoreStats)
process.schedule.insert(-1, process.stats)
#Run only on fat events
from HLTrigger.HLTfilters.hltHighLevel_cfi import hltHighLevel
process.hltFatEventFilters = hltHighLevel.clone()
process.hltFatEventFilters.throw = cms.bool(False)
process.hltFatEventFilters.HLTPaths = cms.vstring('HLT_L1FatEvents_v*')
#Run L1TReemulation
from L1Trigger.Configuration.customiseReEmul import L1TReEmulFromRAW
process = L1TReEmulFromRAW(process)
#Put all together into one path, so that reco does not run on non-fat events
process.p = cms.Path(process.hltFatEventFilters * process.RawToDigi *
process.reconstruction * process.DQMOffline *
process.L1TReEmul)
process.e = cms.EndPath(process.DQMoutput)
process.schedule = cms.Schedule(process.p, process.e)
return (process)
def setModules(process, options):
process.sampleInfo = cms.EDAnalyzer(
"tnp::SampleInfoTree",
vertexCollection=cms.InputTag("offlineSlimmedPrimaryVertices"),
genInfo=cms.InputTag("generator"))
from HLTrigger.HLTfilters.hltHighLevel_cfi import hltHighLevel
process.hltFilter = hltHighLevel.clone()
process.hltFilter.throw = cms.bool(True)
process.hltFilter.HLTPaths = options['TnPPATHS']
process.pileupReweightingProducer = cms.EDProducer(
"PileupWeightProducer",
hardcodedWeights=cms.untracked.bool(True),
pileupInfoTag=cms.InputTag("addPileupInfo"))
process.GsfDRToNearestTauProbe = cms.EDProducer(
"DeltaRNearestGenPComputer",
probes=cms.InputTag(options['PHOTON_COLL']),
objects=cms.InputTag('prunedGenParticles'),
objectSelection=cms.string("abs(pdgId)==15"),
)
process.GsfDRToNearestTauSC = cms.EDProducer(
"DeltaRNearestGenPComputer",
probes=cms.InputTag("superClusterCands"),
objects=cms.InputTag('prunedGenParticles'),
objectSelection=cms.string("abs(pdgId)==15"),
)
process.GsfDRToNearestTauTag = cms.EDProducer(
"DeltaRNearestGenPComputer",
probes=cms.InputTag(options['PHOTON_COLL']),
objects=cms.InputTag('prunedGenParticles'),
objectSelection=cms.string("abs(pdgId)==15"),
)
###################################################################
## ELECTRON MODULES
###################################################################
process.goodPhotons = cms.EDFilter("PATPhotonRefSelector",
src=cms.InputTag(
options['PHOTON_COLL']),
cut=cms.string(options['PHOTON_CUTS']))
###################################################################
## PHOTON ISOLATION
###################################################################
process.load(
"RecoEgamma/PhotonIdentification/PhotonIDValueMapProducer_cfi")
###################################################################
## HLT MATCHING
###################################################################
process.goodPhotonsTagHLT = cms.EDProducer(
"PatPhotonTriggerCandProducer",
filterNames=options['TnPHLTTagFilters'],
inputs=cms.InputTag("goodPhotonsTAGCutBasedTight"),
bits=cms.InputTag('TriggerResults::HLT'),
objects=cms.InputTag('selectedPatTrigger'),
dR=cms.double(0.3),
isAND=cms.bool(True))
process.goodPhotonsProbeHLT = cms.EDProducer(
"PatPhotonTriggerCandProducer",
filterNames=options['TnPHLTProbeFilters'],
inputs=cms.InputTag("goodPhotons"),
bits=cms.InputTag('TriggerResults::HLT'),
objects=cms.InputTag('selectedPatTrigger'),
dR=cms.double(0.3),
isAND=cms.bool(True))
process.tagTightRECO = cms.EDProducer(
"CandViewShallowCloneCombiner",
decay=cms.string("goodPhotonsTagHLT@+ goodPhotonsProbeHLT@-"),
checkCharge=cms.bool(False),
cut=cms.string("40<mass<1000"),
)
###################################################################
## MC MATCHING
###################################################################
process.McMatchTag = cms.EDProducer(
"MCTruthDeltaRMatcherNew",
matchPDGId=cms.vint32(11),
src=cms.InputTag("goodPhotonsTAGCutBasedTight"),
distMin=cms.double(0.2),
matched=cms.InputTag("prunedGenParticles"),
checkCharge=cms.bool(False))
process.McMatchRECO = cms.EDProducer(
"MCTruthDeltaRMatcherNew",
matchPDGId=cms.vint32(11),
src=cms.InputTag("goodPhotons"),
distMin=cms.double(0.2),
matched=cms.InputTag("prunedGenParticles"),
checkCharge=cms.bool(False))
#"file:///home/ltsai/Data/mcStep3_LbTJPsipK_13TeV_withoutPileUp_180524/BPH-RunIISpring16DR80-00058_17.root",
#"file:///home/ltsai/Data/mcStep3_LbTJPsipK_13TeV_withoutPileUp_180524/BPH-RunIISpring16DR80-00058_18.root",
#"file:///home/ltsai/Data/mcStep3_LbTJPsipK_13TeV_withoutPileUp_180524/BPH-RunIISpring16DR80-00058_19.root",
),
duplicateCheckMode=cms.untracked.string('noDuplicateCheck'))
from Configuration.AlCa.GlobalTag_condDBv2 import GlobalTag
#process.GlobalTag = GlobalTag(process.GlobalTag, 'auto:run2_mc', '')
process.GlobalTag = GlobalTag(process.GlobalTag,
'80X_dataRun2_2016LegacyRepro_v3', '')
#process.GlobalTag = GlobalTag(process.GlobalTag, '94X_dataRun2_ReReco_EOY17_v1', '')
from HLTrigger.HLTfilters.hltHighLevel_cfi import hltHighLevel
process.hltHighLevel = hltHighLevel.clone(HLTPaths=cms.vstring(
'HLT_DoubleMu4_JpsiTrk_Displaced_v*',
'HLT_DoubleMu4_3_Jpsi_Displaced_v*',
'HLT_Dimuon20_Jpsi_v*',
'HLT_Dimuon16_Jpsi_v*',
))
# preselect pat muon and pat tracks choose for CMSSW version
process.load("BPHAnalysis.PreselectFilter.FilterConf9_cfi")
#process.load("BPHAnalysis.PreselectFilter.FilterConf8_cfi")
# remove MC dependence
from PhysicsTools.PatAlgos.tools.coreTools import *
removeMCMatching(process, names=['All'], outputModules=[])
from BPHAnalysis.SpecificDecay.LbrecoSelectForWrite_cfi import recoSelect
process.lbWriteSpecificDecay = cms.EDProducer(
import FWCore.ParameterSet.Config as cms
from HLTrigger.HLTfilters.hltHighLevel_cfi import hltHighLevel as hlt_selector
hlt_selector.throw = cms.bool(False)
TauSkimMuTauMETHLT = hlt_selector.clone()
TauSkimMuTauMETHLT.TriggerResultsTag = cms.InputTag('TriggerResults', '', 'HLT')
TauSkimMuTauMETHLT.andOr=cms.bool(True)
TauSkimMuTauMETHLT.HLTPaths = cms.vstring("HLT_IsoMu15_eta2p1_L1ETM20_v*", "HLT_IsoMu15Rho_eta2p1_L1ETM20_v*")
TauSkimPFTausSelected = cms.EDFilter("PFTauSelector",
src = cms.InputTag("hpsPFTauProducer"),
discriminators = cms.VPSet(
cms.PSet( discriminator=cms.InputTag("hpsPFTauDiscriminationByDecayModeFinding"),
selectionCut=cms.double(0.5)
),
cms.PSet( discriminator=cms.InputTag("hpsPFTauDiscriminationByLooseCombinedIsolationDBSumPtCorr"),
selectionCut=cms.double(0.5)
),
),
cut = cms.string('pt > 22. && abs(eta) < 2.3')
)
TauSkimPFTauSkimmedBy1 = cms.EDFilter("CandViewCountFilter",
src = cms.InputTag('TauSkimPFTausSelected'),
minNumber = cms.uint32(1)
)
TauSkimPFTauSkimmedBy2 = cms.EDFilter("CandViewCountFilter",
src = cms.InputTag('TauSkimPFTausSelected'),
minNumber = cms.uint32(2)
)
process.filterConfig.name.value()))
mc_mode = False
# Check if we need to modify triggers for MC running
if 'GR' not in conditions:
print "Using MC mode"
mc_mode = True
process.filterConfig.hltPaths = cms.vstring(
process.filterConfig.hltPaths[0])
# Get the files specified for this filter
readFiles.extend(process.filterConfig.testFiles)
# The basic HLT requirement
from HLTrigger.HLTfilters.hltHighLevel_cfi import hltHighLevel
process.trigger = hltHighLevel.clone()
process.trigger.HLTPaths = process.filterConfig.hltPaths # <-- defined in filterType.py
process.trigger.throw = False
print process.trigger.HLTPaths
#################################################################
# Select good data events - based on TauCommissinon sequence
# https://twiki.cern.ch/twiki/bin/view/CMS/Collisions2010Recipes
#################################################################
# Require "Physics declared"
process.load('HLTrigger.special.hltPhysicsDeclared_cfi')
process.hltPhysicsDeclared.L1GtReadoutRecordTag = 'gtDigis'
# Filter beam scraping events
process.noscraping = cms.EDFilter("FilterOutScraping",
#my_id_modules = ['RecoEgamma.PhotonIdentification.Identification.mvaPhotonID_Fall17_94X_V1_cff']
for idmod in my_id_modules:
setupAllVIDIdsInModule(process, idmod, setupVIDPhotonSelection)
#process.flashggPhotons.effAreasConfigFile = cms.FileInPath("RecoEgamma/PhotonIdentification/data/Fall17/effAreaPhotons_cone03_pfPhotons_90percentBased_TrueVtx.txt")
#process.flashggPhotons.egmMvaValuesMap = cms.InputTag("photonMVAValueMapProducer:PhotonMVAEstimatorRunIIFall17v1Values")
process.RandomNumberGeneratorService = cms.Service(
"RandomNumberGeneratorService")
process.RandomNumberGeneratorService.flashggRandomizedPhotons = cms.PSet(
initialSeed=cms.untracked.uint32(16253245))
process.stdPhotonJetSeq *= process.egmPhotonIDSequence
from HLTrigger.HLTfilters.hltHighLevel_cfi import hltHighLevel
process.hltHighLevel = hltHighLevel.clone(
HLTPaths=cms.vstring("HLT_Photon50_v*"))
if options.isData:
process.stdPhotonJetSeq *= process.hltHighLevel
process.commissioning = cms.EDAnalyzer(
'PhotonJetValidationTreeMaker',
PhotonJetTag=cms.InputTag('flashggPhotonJet'),
vertexTag=cms.InputTag('offlineSlimmedPrimaryVertices'),
GenEventInfo=cms.InputTag('generator'),
BeamSpotTag=cms.InputTag('offlineBeamSpot'),
PileUpTag=cms.InputTag('slimmedAddPileupInfo'),
TriggerTag=cms.InputTag('TriggerResults::HLT'),
pathName=cms.string("HLT_Photon50"),
evWeight=cms.double(1.00000) #Data
# evWeight = cms.double(1.00000) #GJets_HT-40To100
import FWCore.ParameterSet.Config as cms
# ================ Physics Declared Bit ================
physDeclFilter = cms.EDFilter("PhysDecl",
applyfilter = cms.untracked.bool(False),
HLTriggerResults = cms.InputTag("TriggerResults","","HLT")
)
# ================ HLT Filters =========================
from HLTrigger.HLTfilters.hltHighLevel_cfi import hltHighLevel
hltMinBias = hltHighLevel.clone(
HLTPaths = cms.vstring('HLT_HIMinBiasHfOrBSC'),
andOr = cms.bool(True)
)
hltJets = hltHighLevel.clone(
HLTPaths = cms.vstring('HLT_L1Jet6U','HLT_Jet15U','HLT_Jet30U'),
andOr = cms.bool(True)
)
minBiasBscFilter = cms.Sequence(hltMinBias)
# ================ Spike Cleaning =========================
#ECAL cleaning
from CmsHi.PhotonAnalysis.hiEcalRecHitSpikeFilter_cfi import *
hiEcalRecHitSpikeFilter.minEt = 20.0
#HCAL cleaning
#from JetMETAnalysis.HcalReflagging.hbherechitreflaggerJETMET_cfi import *
process.load("RecoHI.HiJetAlgos.HiBadParticleFilter_cfi")
process.pfBadCandAnalyzer = process.pfcandAnalyzer.clone(
pfCandidateLabel=cms.InputTag("filteredParticleFlow", "cleaned"))
process.pfFilter = cms.Path(process.filteredParticleFlow +
process.pfBadCandAnalyzer)
### FILTERS ###
# Trigger Filter
from HLTrigger.HLTfilters.hltHighLevel_cfi import hltHighLevel
process.hltFilter = hltHighLevel.clone(HLTPaths=[
'HLT_HIUPC_DoubleEG2_NotMBHF2AND_v1',
'HLT_HIUPC_DoubleEG2_NotMBHF2AND_SinglePixelTrack_v1',
'HLT_HIUPC_DoubleEG2_NotMBHF2AND_SinglePixelTrack_MaxPixelTrack_v1',
'HLT_HIUPC_DoubleEG5_NotMBHF2AND_v1',
'HLT_HIUPC_DoubleEG5_NotMBHF2AND_SinglePixelTrack_v1',
'HLT_HIUPC_DoubleEG5_NotMBHF2AND_SinglePixelTrack_MaxPixelTrack_v1'
],
TriggerResultsTag=cms.InputTag(
"TriggerResults", "", "HLT"),
throw=False,
andOr=True,
eventSetupPathsKey=cms.string(''))
process.triggerSelection = cms.Sequence(process.hltFilter)
#########################
# Main analysis list
#########################
#import HLTrigger.HLTfilters.hltHighLevel_cfi
#process.hltfilter = HLTrigger.HLTfilters.hltHighLevel_cfi.hltHighLevel.clone()
#process.hltfilter.HLTPaths = ["HLT_HIUPCL1DoubleEG*","HLT_HIUPCL1SingleEG*"]
# Require standard diphoton trigger
# debugging
# print'customize = ',customize
# print'customize.datasetName() = ',customize.datasetName()
#
from HLTrigger.HLTfilters.hltHighLevel_cfi import hltHighLevel
hlt_paths = []
for dset in customize.metaConditions["TriggerPaths"]:
if dset in customize.datasetName():
hlt_paths.extend(customize.metaConditions["TriggerPaths"][dset])
process.hltHighLevel = hltHighLevel.clone(HLTPaths=cms.vstring(hlt_paths))
process.options = cms.untracked.PSet(wantSummary=cms.untracked.bool(True))
process.dataRequirements = cms.Sequence()
if customize.processId == "Data":
process.dataRequirements += process.hltHighLevel
# Split WH and ZH
process.genFilter = cms.Sequence()
if ((customize.processId.count("wh") or customize.processId.count("zh"))
and not (customize.processId.count("powheg"))
) and not customize.processId.count("wzh"):
print "enabling vh filter!!!!!"
process.load("flashgg/Systematics/VHFilter_cfi")
process.genFilter += process.VHFilter
def getHltFilter(self,process):
if not hasattr(process,"hltHighLevel"):
process.hltHighLevel = hltHighLevel.clone(throw=cms.bool(False))
process.hltHighLevel.throw=False
return process.hltHighLevel
'dr' : 0.3,
},
'taus' : {
'cut' : 'pt>20 && abs(eta)<2.3 && tauID("byMediumCombinedIsolationDeltaBetaCorr3Hits")>0.5 && tauID("decayModeFinding")>0.5',
'dr' : 0.3,
},
},
}
# filters
filters = []
# met filters
if options.runMetFilter:
from HLTrigger.HLTfilters.hltHighLevel_cfi import hltHighLevel
hltFilter = hltHighLevel.clone()
# PAT if miniaod by itself (MC) and RECO if at the same time as reco (data)
hltFilter.TriggerResultsTag = cms.InputTag('TriggerResults', '', 'PAT') if options.isMC else cms.InputTag('TriggerResults', '', 'RECO')
hltFilter.throw = cms.bool(True)
for flag in ["HBHENoiseFilter", "HBHENoiseIsoFilter", "CSCTightHalo2015Filter", "EcalDeadCellTriggerPrimitiveFilter", "goodVertices", "eeBadScFilter"]:
mod = hltFilter.clone(HLTPaths=cms.vstring('Flag_{0}'.format(flag)))
modName = 'filter{0}'.format(flag)
setattr(process,modName,mod)
filters += [getattr(process,modName)]
# now do any customization/cleaning
from DevTools.Ntuplizer.customizeElectrons import customizeElectrons
collections = customizeElectrons(
process,
collections,
isMC=bool(options.isMC),
customize.setDefault("maxEvents", 5000) # max-number of events
customize.setDefault("targetLumi", 1.00e+3) # define integrated lumi
customize(process)
from HLTrigger.HLTfilters.hltHighLevel_cfi import hltHighLevel
#process.hltHighLevel = hltHighLevel.clone(HLTPaths = cms.vstring("HLT_Diphoton30_18_R9Id_OR_IsoCaloId_AND_HE_R9Id_Mass95_v*") )
#process.hltHighLevel = hltHighLevel.clone(HLTPaths = cms.vstring("HLT_Ele17_Ele12_CaloIdL_TrackIdL_IsoVL_DZ_v*") )
#process.hltHighLevel = hltHighLevel.clone(HLTPaths = cms.vstring("HLT_Ele27_eta2p1_WPLoose_Gsf_v*") )
#process.hltHighLevel = hltHighLevel.clone(HLTPaths = cms.vstring("HLT_Ele27WPTight_v*") )
#process.options = cms.untracked.PSet( wantSummary = cms.untracked.bool(True) )
# Logic from Yacine's file
#from HLTrigger.HLTfilters.hltHighLevel_cfi import hltHighLevel
if customize.processId == "Data":
process.hltHighLevel = hltHighLevel.clone(HLTPaths=cms.vstring(
#"HLT_Ele27WPTight_v*"
"HLT_Ele27_WPTight_Gsf_v*"))
# ee bad supercluster filter on data
process.load('RecoMET.METFilters.eeBadScFilter_cfi')
process.eeBadScFilter.EERecHitSource = cms.InputTag(
"reducedEgamma",
"reducedEERecHits") # Saved MicroAOD Collection (data only)
process.dataRequirements = cms.Sequence()
if customize.processId == "Data":
process.dataRequirements += process.hltHighLevel
process.dataRequirements += process.eeBadScFilter
# Split WH and ZH
process.genFilter = cms.Sequence()
if (customize.processId.count("wh") or customize.processId.count("zh")
version = 'v8'
global_tag(process, '76X_mcRun2_asymptotic_v12' if is_mc else '76X_dataRun2_v15')
process.maxEvents.input = 1000
process.source.fileNames = ['/store/mc/RunIISpring15DR74/WJetsToLNu_TuneCUETP8M1_13TeV-amcatnloFXFX-pythia8/MINIAODSIM/Asympt25ns_MCRUN2_74_V9-v1/80000/CA0ABB76-43FC-E411-A207-1CC1DE1CEDB2.root' if is_mc else '/store/data/Run2015D/SingleMuon/MINIAOD/PromptReco-v3/000/256/630/00000/BCD78EF7-2B5F-E511-A3A3-02163E0170B5.root']
#process.source.fileNames = ['/store/user/tucker/WJetsToLNu_TuneCUETP8M1_13TeV-amcatnloFXFX-pythia8/trigeff_htskim_v7/151203_184423/0000/htskim_1.root']
#process.options.wantSummary = True
process.TFileService.fileName = 'eff.root'
if not is_mc:
from JMTucker.Tools.Sample import DataSample
from FWCore.PythonUtilities.LumiList import LumiList
process.source.lumisToProcess = LumiList(DataSample.JSON).getVLuminosityBlockRange()
from HLTrigger.HLTfilters.hltHighLevel_cfi import hltHighLevel
process.mutrig = hltHighLevel.clone()
process.mutrig.HLTPaths = ['HLT_IsoMu20_v*']
process.mutrig.andOr = True # = OR
process.load('JMTucker.MFVNeutralino.EmulateHT800_cfi')
from JMTucker.Tools.L1GtUtils_cff import l1GtUtilsTags
from JMTucker.Tools.PATTupleSelection_cfi import jtupleParams
process.num = cms.EDFilter('MFVTriggerEfficiency',
l1GtUtilsTags,
require_trigger = cms.bool(False), # just from EmulateHT800 filter, need to split out
require_muon = cms.bool(True),
muons_src = cms.InputTag('slimmedMuons'),
muon_cut = cms.string(jtupleParams.semilepMuonCut.value() + ' && pt > 24'),
jets_src = cms.InputTag('slimmedJets'),
jet_cut = jtupleParams.jetCut,
tagFlags = cms.PSet(LowPtTriggerFlagsPhysics,
LowPtTriggerFlagsEfficiencies,
),
isMC = cms.bool(False),
addRunLumiInfo = cms.bool(True),
)
#from HLTrigger.HLTfilters.hltHighLevelDev_cfi import hltHighLevelDev
#process.fastFilter = hltHighLevelDev.clone(HLTPaths = ['HLT_Mu3_Track0_Jpsi'], HLTPathsPrescales = [1])
from HLTrigger.HLTfilters.hltHighLevel_cfi import hltHighLevel
process.fastFilter = hltHighLevel.clone(HLTPaths = ['HLT_Mu*_L2Mu*', 'HLT_Mu*_Track*_Jpsi*'],
andOr = cms.bool(True), # True: OR - False: AND
throw = cms.bool(False), # Don't throw exception if trigger name is unkown
)
process.tnpSimpleSequence = cms.Sequence(
process.muonDxyPVdzmin +
process.nverticesModule +
process.tagProbeSeparation +
process.tpTree
)
process.tagAndProbe = cms.Path(
def setModules(process, options):
process.sampleInfo = cms.EDProducer("tnp::FlashggSampleInfoTree", )
from HLTrigger.HLTfilters.hltHighLevel_cfi import hltHighLevel
process.hltFilter = hltHighLevel.clone()
process.hltFilter.throw = cms.bool(False)
process.hltFilter.HLTPaths = options['TnPPATHS']
from PhysicsTools.TagAndProbe.pileupConfiguration_cfi import pileupProducer
process.pileupReweightingProducer = pileupProducer.clone()
###################################################################
## ELECTRON MODULES
###################################################################
#produces photons for tag+probe
process.photonFromDiPhotons = cms.EDProducer(
"FlashggPhotonFromDiPhotonProducer",
src=cms.InputTag(options['DIPHOTON_COLL']),
cut=cms.string(options['PHOTON_CUTS']),
leadingPreselection=cms.string(options['LEADING_PRESELECTION']),
subleadingPreselection=cms.string(options['SUBLEADING_PRESELECTION']),
vertexSelection=cms.int32(
-1
), # -1 means take the chosen vertex, otherwise use the index to select 2it
#diPhotonMVATag = cms.InputTag("flashggUpdatedIdMVADiPhotons"),
diPhotonMVATag=cms.InputTag("flashggDiPhotonMVA"),
diphotonMVAThreshold=cms.double(-0.6))
#produces tag collection from diphotons
process.goodPhotonTags = cms.EDFilter(
"FlashggPhotonRefSelector",
src=cms.InputTag("photonFromDiPhotons"),
cut=cms.string(options['PHOTON_TAG_CUTS']))
#produces probe collection from diphotons
process.goodPhotonProbes = cms.EDFilter(
"FlashggPhotonRefSelector",
src=cms.InputTag("photonFromDiPhotons"),
cut=cms.string(options['PHOTON_PROBE_CUTS']))
###################################################################
#IDMVA for probes
process.goodPhotonProbesIDMVA = cms.EDProducer(
"FlashggPhotonSelectorByDoubleValueMap",
input=cms.InputTag("goodPhotonProbes"),
cut=cms.string(options['PHOTON_PROBE_CUTS']),
selection=cms.InputTag("photonFromDiPhotons:idmva"),
id_cut=cms.double(-0.9))
process.goodPhotonsProbeTnPprobe = cms.EDProducer(
"FlashggPhotonTriggerCandProducer",
filterNames=options['TnPHLTProbeFilters'],
inputs=cms.InputTag("goodPhotonProbesIDMVA"),
bits=cms.InputTag(options['TRIGGER_RES']),
objects=cms.InputTag(options['PAT_TRIG']),
dR=cms.double(0.3),
isAND=cms.bool(False))
#numerator for Preselection
process.goodPhotonProbesPreselection = cms.EDProducer(
"FlashggPhotonSelectorByValueMap",
input=cms.InputTag("goodPhotonsProbeTnPprobe"),
cut=cms.string(options['PHOTON_PROBE_CUTS']),
selection=cms.InputTag("photonFromDiPhotons:preselection"),
id_cut=cms.bool(True))
#probes match to l1
#process.goodPhotonProbesL1 = cms.EDProducer("FlashggPhotonL1CandProducer",
process.goodPhotonProbesL1 = cms.EDProducer(
"FlashggPhotonL1Stage2CandProducer",
inputs=cms.InputTag("goodPhotonProbesPreselection"),
#isoObjects = cms.InputTag("l1extraParticles:Isolated"),
#nonIsoObjects = cms.InputTag("l1extraParticles:NonIsolated"),
#objects = cms.InputTag("hltCaloStage2Digis:EGamma"),
objects=cms.InputTag("caloStage2Digis:EGamma"),
#minET = cms.double(15), #lead eff only
minET=cms.double(10), #sublead eff only
dRmatch=cms.double(
0.2), #defined to match L1 online matching to hlt (0.261)
dRmatchEE=cms.double(
0.2
), #defined to match L1 online matching to hlt (should probably be tightened for stage2)
isolatedOnly=cms.bool(False))
#numerator passing HLT requiring preselection and L1
process.goodPhotonsProbeHLT = cms.EDProducer(
"FlashggPhotonTriggerCandProducer",
filterNames=options['HLTFILTERTOMEASURE'],
inputs=cms.InputTag("goodPhotonProbesPreselection"),
bits=cms.InputTag(options['TRIGGER_RES']),
objects=cms.InputTag(options['PAT_TRIG']),
dR=cms.double(0.3),
isAND=cms.bool(False))
###################################################################
#IDMVA for tags
process.goodPhotonTagsIDMVA = cms.EDProducer(
"FlashggPhotonSelectorByDoubleValueMap",
input=cms.InputTag("goodPhotonTags"),
cut=cms.string(options['PHOTON_TAG_CUTS']),
selection=cms.InputTag("photonFromDiPhotons:idmva"),
id_cut=cms.double(-0.5))
#preselection for tags
process.goodPhotonTagsPreselection = cms.EDProducer(
"FlashggPhotonSelectorByValueMap",
input=cms.InputTag("goodPhotonTagsIDMVA"),
cut=cms.string(options['PHOTON_TAG_CUTS']),
selection=cms.InputTag("photonFromDiPhotons:preselection"),
id_cut=cms.bool(True))
#good match to lead HggFilter tag photons for denominator PRESELECTED
process.goodPhotonsTagLeadMatch = cms.EDProducer(
"FlashggPhotonTriggerCandProducer",
filterNames=options['TagLeadMatchFilters'],
inputs=cms.InputTag("goodPhotonTagsPreselection"),
bits=cms.InputTag(options['TRIGGER_RES']),
objects=cms.InputTag(options['PAT_TRIG']),
dR=cms.double(0.3),
isAND=cms.bool(False))
#good preselected tag photons for denominator
process.goodPhotonsTagHLT = cms.EDProducer(
"FlashggPhotonTriggerCandProducer",
filterNames=options['TnPHLTTagFilters'],
inputs=cms.InputTag("goodPhotonsTagLeadMatch"),
bits=cms.InputTag(options['TRIGGER_RES']),
objects=cms.InputTag(options['PAT_TRIG']),
dR=cms.double(0.3),
isAND=cms.bool(False))
###################################################################
## PHOTON ISOLATION
###################################################################
process.load(
"RecoEgamma/PhotonIdentification/PhotonIDValueMapProducer_cfi")
process.noL1RECO = cms.EDProducer(
"CandViewShallowCloneCombiner",
decay=cms.string("goodPhotonsTagHLT goodPhotonProbesPreselection"),
#decay = cms.string("goodPhotonsTagHLT goodPhotonsProbeHLT"),
checkCharge=cms.bool(False),
cut=cms.string("40<mass<180"),
)
#efficiency for HLT with L1 requirement in denominator
process.L1RECO = cms.EDProducer(
"CandViewShallowCloneCombiner",
decay=cms.string("goodPhotonsTagHLT goodPhotonProbesL1"),
checkCharge=cms.bool(False),
cut=cms.string("40<mass<180"),
)
customize.setDefault("maxEvents" , 5000 ) # max-number of events
customize.setDefault("targetLumi", 1.00e+3 ) # define integrated lumi
customize(process)
from HLTrigger.HLTfilters.hltHighLevel_cfi import hltHighLevel
#process.hltHighLevel = hltHighLevel.clone(HLTPaths = cms.vstring("HLT_Diphoton30_18_R9Id_OR_IsoCaloId_AND_HE_R9Id_Mass95_v*") )
#process.hltHighLevel = hltHighLevel.clone(HLTPaths = cms.vstring("HLT_Ele17_Ele12_CaloIdL_TrackIdL_IsoVL_DZ_v*") )
#process.hltHighLevel = hltHighLevel.clone(HLTPaths = cms.vstring("HLT_Ele27_eta2p1_WPLoose_Gsf_v*") )
#process.hltHighLevel = hltHighLevel.clone(HLTPaths = cms.vstring("HLT_Ele27WPTight_v*") )
#process.options = cms.untracked.PSet( wantSummary = cms.untracked.bool(True) )
# Logic from Yacine's file
#from HLTrigger.HLTfilters.hltHighLevel_cfi import hltHighLevel
if customize.processId == "Data":
process.hltHighLevel = hltHighLevel.clone(HLTPaths = cms.vstring(
#"HLT_Ele27WPTight_v*"
"HLT_Ele27_WPTight_Gsf_v*"
) )
# ee bad supercluster filter on data
process.load('RecoMET.METFilters.eeBadScFilter_cfi')
process.eeBadScFilter.EERecHitSource = cms.InputTag("reducedEgamma","reducedEERecHits") # Saved MicroAOD Collection (data only)
process.dataRequirements = cms.Sequence()
if customize.processId == "Data":
process.dataRequirements += process.hltHighLevel
process.dataRequirements += process.eeBadScFilter
# Split WH and ZH
process.genFilter = cms.Sequence()
if (customize.processId.count("wh") or customize.processId.count("zh")) and not customize.processId.count("wzh"):
process.load("flashgg/Systematics/VHFilter_cfi")
process.genFilter += process.VHFilter
from Configuration.AlCa.GlobalTag_condDBv2 import GlobalTag
process.GlobalTag = GlobalTag(process.GlobalTag, options.GT, '')
##jet energy corrections
from ExoAnalysis.cmsWR.JEC_cff import *
JEC_correction(process, options.GT)
from ExoAnalysis.cmsWR.heepSelector_cfi import loadHEEPIDSelector
loadHEEPIDSelector(process)
process.load("ExoAnalysis.cmsWR.heepSelector_cfi")
#################################
#Filters
from HLTrigger.HLTfilters.hltHighLevel_cfi import hltHighLevel
process.trigFilt = hltHighLevel.clone()
#process.trigFilt.HLTPaths = ['HLT_Mu30_Ele30_CaloIdL_GsfTrkIdVL_v*']
process.trigFilt.HLTPaths = ['HLT_Mu45_eta2p1_v*']
process.trigFilt.andOr = True #if True, then multiple HLT paths will be combined with OR logic
#################################
#Analyzers
## analyze the kinematic distributions of lepton and jet candidates using these modules
process.recoAnalyzerOne = cms.EDAnalyzer(
'unmatchedAnalyzerForMixedLeptonFlavor',
treeName=cms.string("recoObjectsAllCuts"),
doDileptonMassCut=cms.bool(True),
minDileptonMass=cms.double(200),
leptonsOneCollection=cms.InputTag(
"emuRecoFourObjMass", "leptonsOnePassingFourObjMassCut"), #electrons
def setModules(process, options):
process.sampleInfo = cms.EDAnalyzer("tnp::SampleInfoTree",
vertexCollection = cms.InputTag("offlineSlimmedPrimaryVertices"),
genInfo = cms.InputTag("generator")
)
from HLTrigger.HLTfilters.hltHighLevel_cfi import hltHighLevel
process.hltFilter = hltHighLevel.clone()
process.hltFilter.throw = cms.bool(True)
process.hltFilter.HLTPaths = options['TnPPATHS']
process.pileupReweightingProducer = cms.EDProducer("PileupWeightProducer",
hardcodedWeights = cms.untracked.bool(True)
)
process.GsfDRToNearestTauProbe = cms.EDProducer("DeltaRNearestGenPComputer",
probes = cms.InputTag("photonFromDiPhotons"),
objects = cms.InputTag('flashggPrunedGenParticles'),
objectSelection = cms.string("abs(pdgId)==15"),
)
process.GsfDRToNearestTauSC = cms.EDProducer("DeltaRNearestGenPComputer",
probes = cms.InputTag("superClusterCands"),
objects = cms.InputTag('flashggPrunedGenParticles'),
objectSelection = cms.string("abs(pdgId)==15"),
)
process.GsfDRToNearestTauTag = cms.EDProducer("DeltaRNearestGenPComputer",
probes = cms.InputTag("photonFromDiPhotons"),
objects = cms.InputTag('flashggPrunedGenParticles'),
objectSelection = cms.string("abs(pdgId)==15"),
)
###################################################################
## ELECTRON MODULES
###################################################################
process.photonFromDiPhotons = cms.EDProducer("FlashggPhotonFromDiPhotonProducer",
src = cms.InputTag(options['DIPHOTON_COLL']),
cut = cms.string(options['PHOTON_CUTS']),
leadingPreselection = cms.string(options['LEADING_PRESELECTION']),
subleadingPreselection = cms.string(options['SUBLEADING_PRESELECTION']),
vertexSelection = cms.int32(-1), # -1 means take the chosen vertex, otherwise use the index to select 2it
diPhotonMVATag = cms.InputTag("flashggDiPhotonMVA"),
diphotonMVAThreshold = cms.double(-0.6)
)
process.goodPhotonTagL1 = cms.EDProducer("FlashggPhotonL1CandProducer",
inputs = cms.InputTag("goodPhotonTags"),
isoObjects = cms.InputTag("goodPhotonTags"),
nonIsoObjects = cms.InputTag(""),
minET = cms.double(25),
dRmatch = cms.double(0.2),
isolatedOnly = cms.bool(False)
)
process.goodPhotonTags = cms.EDFilter("FlashggPhotonRefSelector",
src = cms.InputTag("photonFromDiPhotons"),
cut = cms.string(options['PHOTON_TAG_CUTS'])
)
process.goodPhotonProbes = cms.EDFilter("FlashggPhotonRefSelector",
src = cms.InputTag("photonFromDiPhotons"),
cut = cms.string(options['PHOTON_CUTS'])
)
###################################################################
process.goodPhotonProbesPreselection = cms.EDProducer("FlashggPhotonSelectorByValueMap",
input = cms.InputTag("goodPhotonProbes"),
cut = cms.string(options['PHOTON_CUTS']),
selection = cms.InputTag("photonFromDiPhotons:preselection"),
id_cut = cms.bool(True)
)
process.goodPhotonProbesIDMVA = cms.EDProducer("FlashggPhotonSelectorByDoubleValueMap",
input = cms.InputTag("goodPhotonProbes"),
cut = cms.string(options['PHOTON_CUTS']),
selection = cms.InputTag("photonFromDiPhotons:idmva"),
id_cut = cms.double(0.2)
)
process.goodPhotonTagsIDMVA = cms.EDProducer("FlashggPhotonSelectorByDoubleValueMap",
input = cms.InputTag("goodPhotonTags"),
cut = cms.string(options['PHOTON_CUTS']),
selection = cms.InputTag("photonFromDiPhotons:idmva"),
id_cut = cms.double(0.2)
)
###################################################################
process.goodPhotonsTagHLT = cms.EDProducer("FlashggPhotonTriggerCandProducer",
filterNames = options['TnPHLTTagFilters'],
inputs = cms.InputTag("goodPhotonTags"),
bits = cms.InputTag('TriggerResults::HLT'),
objects = cms.InputTag('selectedPatTrigger'),
dR = cms.double(0.3),
isAND = cms.bool(True)
)
process.goodPhotonsProbeHLT = cms.EDProducer("FlashggPhotonTriggerCandProducer",
filterNames = options['TnPHLTProbeFilters'],
inputs = cms.InputTag("goodPhotonProbes"),
bits = cms.InputTag('TriggerResults::HLT'),
objects = cms.InputTag('selectedPatTrigger'),
dR = cms.double(0.3),
isAND = cms.bool(True)
)
process.goodPhotonProbesL1 = cms.EDProducer("FlashggPhotonL1CandProducer",
inputs = cms.InputTag("goodPhotonProbes"),
isoObjects = cms.InputTag("l1extraParticles:Isolated"),
nonIsoObjects = cms.InputTag("l1extraParticles:NonIsolated"),
minET = cms.double(40),
dRmatch = cms.double(0.2),
isolatedOnly = cms.bool(False)
)
###################################################################
## PHOTON ISOLATION
###################################################################
process.load("RecoEgamma/PhotonIdentification/PhotonIDValueMapProducer_cfi")
process.tagTightRECO = cms.EDProducer("CandViewShallowCloneCombiner",
decay = cms.string("goodPhotonsTagHLT goodPhotonsProbeHLT"),
checkCharge = cms.bool(False),
cut = cms.string("40<mass<1000"),
)
###################################################################
## MC MATCHING
###################################################################
process.McMatchTag = cms.EDProducer("MCTruthDeltaRMatcherNew",
matchPDGId = cms.vint32(11),
src = cms.InputTag("goodPhotonTags"),
distMin = cms.double(0.2),
matched = cms.InputTag("flashggPrunedGenParticles"),
checkCharge = cms.bool(False)
)
process.McMatchRECO = cms.EDProducer("MCTruthDeltaRMatcherNew",
matchPDGId = cms.vint32(11),
src = cms.InputTag("goodPhotonProbes"),
distMin = cms.double(0.2),
matched = cms.InputTag("flashggPrunedGenParticles"),
checkCharge = cms.bool(False)
)
# mc
# "root://node12.datagrid.cea.fr//store/user/gnegro/cmsWR/cmsWR2016/dafne/WR-ToLNu-ToEEJJ_GEN_SIM_13TeV-2016/cmsWR2016-dafne-v0-gnegro-WR-3200_ToLNu-1600_ToEEJJ_miniAOD_13TeV-2016-b59cb78551aff289588aa5c69db4a3a1/161027_124028/0000/dafneMicroAOD_1.root"
# "root://node12.datagrid.cea.fr//store/user/gnegro/cmsWR/cmsWR2016/dafne/DYJetsToLL_M-50_TuneCUETP8M1_13TeV-amcatnloFXFX-pythia8/cmsWR2016-dafne-v0-RunIISpring16MiniAODv2-PUSpring16_80X_mcRun2_asymptotic_2016_miniAODv2_v0-v1/161027_121933/0000/dafneMicroAOD_107.root"
# "/store/user/gnegro/cmsWR/cmsWR2016-signal/dafne-v1/WRToEEJJ_MW-2400_MNu-1200_TuneCUETP8M1_13TeV-pythia8/cmsWR2016-signal-dafne-v1-v0-gnegro-RunIIWinter16_80X_mcRun2_asymptotic_2016_miniAODv2_v1_MINIAODSIM-9232bfa9d7b25477dcde67f5060ed55b/170106_094339/0000/dafneMicroAOD_1.root"
# "/store/user/gnegro/cmsWR/cmsWR2016-bkg/dafne-v1/DYJetsToLL_M-50_TuneCUETP8M1_13TeV-amcatnloFXFX-pythia8/cmsWR2016-bkg-dafne-v1-v0-RunIISpring16MiniAODv2-PUSpring16_80X_mcRun2_asymptotic_2016_miniAODv2_v0-v1/170106_095719/0000/dafneMicroAOD_1.root"
"file:/afs/cern.ch/work/g/gnegro/NuAnalysis-Moriond17/CMSSW_8_0_26_patch1/src/flashgg/myMicroAODOutputFile_MultiLeptonMultiJet.root"
))
## HLT filter
from HLTrigger.HLTfilters.hltHighLevel_cfi import hltHighLevel
process.hltHighLevel = hltHighLevel.clone(
HLTPaths=cms.vstring("HLT_DoubleEle33_CaloIdL_MW_v*",
"HLT_DoubleEle33_CaloIdL_GsfTrkIdVL_MW_v*",
"HLT_Mu50_v*", "HLT_TkMu50_v*",
"HLT_Mu33_Ele33_CaloIdL_GsfTrkIdVL_v*",
"HLT_Ele27_WPTight_Gsf_v*", "HLT_IsoMu24_v*",
"HLT_IsoMu27_v*"),
throw=False
# andOr = cms.bool(True) # True = or between triggers
)
# import flashgg customization to check if we have signal or background
from flashgg.MetaData.JobConfig import customize
customize.parse()
# # flashgg tag sequence (for dipho MVA) and jet collections
process.load("flashgg/Taggers/flashggTagSequence_cfi")
# process.load("dafne/Taggers/flashggDiLeptonDiJetTagSequence_cfi") #uso questa?
# process.flashggTagSequence.remove(process.flashggUpdatedIdMVADiPhotons) # Needs to be run before systematics
# massSearchReplaceAnyInputTag(process.flashggTagSequence,cms.InputTag("flashggUpdatedIdMVADiPhotons"),cms.InputTag("flashggDiPhotonSystematics"))
ApplyCentralValue=cms.bool(True),
Debug=cms.untracked.bool(False)),
cms.PSet(PhotonMethodName=cms.string("FlashggPhotonScale"),
MethodName=cms.string("FlashggDiPhotonFromPhoton"),
Label=cms.string("DataScale"),
NSigmas=cms.vint32(0, 0),
OverallRange=cms.string("1"),
BinList=scaleBinsRereco,
NoCentralShift=cms.bool(False),
ApplyCentralValue=cms.bool(True),
Debug=cms.untracked.bool(False))))
#process.flashggPreselectedDiPhotons.src = cms.InputTag("flashggDiPhotonSmeared")
from HLTrigger.HLTfilters.hltHighLevel_cfi import hltHighLevel
process.hltHighLevel = hltHighLevel.clone(HLTPaths=cms.vstring(
"HLT_Diphoton30_18_R9Id_OR_IsoCaloId_AND_HE_R9Id_Mass95_v*"))
from flashgg.Taggers.flashggTagOutputCommands_cff import tagDefaultOutputCommand
process.TFileService = cms.Service("TFileService",
fileName=cms.string("histo.root"),
closeFileFast=cms.untracked.bool(True))
process.flashggUntagged.Boundaries = cms.vdouble(-2)
# customization for job splitting, lumi weighting, etc.
from flashgg.MetaData.JobConfig import customize
customize.setDefault("maxEvents", -1)
#customize.setDefault("processIndex",5)
customize.setDefault("targetLumi", 1.e+3)
classname=tagName,
cutbased=cutstring,
subcats=tagCats,
variables=currentVariables,
histograms=minimalHistograms,
binnedOnly=isBinnedOnly,
dumpPdfWeights=dumpPdfWeights,
nPdfWeights=nPdfWeights,
nAlphaSWeights=nAlphaSWeights,
nScaleWeights=nScaleWeights
)
# Require standard diphoton trigger
from HLTrigger.HLTfilters.hltHighLevel_cfi import hltHighLevel
process.hltHighLevel= hltHighLevel.clone(HLTPaths = cms.vstring("HLT_Diphoton30_18_R9Id_OR_IsoCaloId_AND_HE_R9Id_Mass90_v*",
# "HLT_Diphoton30PV_18PV_R9Id_AND_IsoCaloId_AND_HE_R9Id_DoublePixelVeto_Mass55_v1",
# "HLT_Diphoton30EB_18EB_R9Id_OR_IsoCaloId_AND_HE_R9Id_DoublePixelVeto_Mass55_v1"
))
process.options = cms.untracked.PSet( wantSummary = cms.untracked.bool(True) )
# ee bad supercluster filter on data
process.load('RecoMET.METFilters.eeBadScFilter_cfi')
process.eeBadScFilter.EERecHitSource = cms.InputTag("reducedEgamma","reducedEERecHits") # Saved MicroAOD Collection (data only)
# Bad Muon filter
process.load('RecoMET.METFilters.badGlobalMuonTaggersMiniAOD_cff')
process.badGlobalMuonTagger.muons = cms.InputTag("flashggSelectedMuons")
process.cloneGlobalMuonTagger.muons = cms.InputTag("flashggSelectedMuons")
process.dataRequirements = cms.Sequence()
if customize.processId == "Data":
process.dataRequirements += process.hltHighLevel
process.dataRequirements += process.eeBadScFilter
import FWCore.ParameterSet.Config as cms
from HLTrigger.HLTfilters.hltHighLevel_cfi import hltHighLevel
hcalfilter = hltHighLevel.clone(
TriggerResultsTag=cms.InputTag('TriggerResults'),
HLTPaths=cms.vstring('user_step'))
hcalfilterSeq = cms.Sequence(hcalfilter)
histograms=minimalHistograms,
binnedOnly=isBinnedOnly,
dumpPdfWeights=dumpPdfWeights,
nPdfWeights=nPdfWeights,
nAlphaSWeights=nAlphaSWeights,
nScaleWeights=nScaleWeights
)
# Require standard diphoton trigger
from HLTrigger.HLTfilters.hltHighLevel_cfi import hltHighLevel
#process.hltHighLevel= hltHighLevel.clone(HLTPaths = cms.vstring("HLT_Diphoton30_18_R9Id_OR_IsoCaloId_AND_HE_R9Id_Mass90_v*",
# "HLT_Diphoton30PV_18PV_R9Id_AND_IsoCaloId_AND_HE_R9Id_DoublePixelVeto_Mass55_v1",
# "HLT_Diphoton30EB_18EB_R9Id_OR_IsoCaloId_AND_HE_R9Id_DoublePixelVeto_Mass55_v1"
# ))
#process.hltHighLevel = hltHighLevel.clone(HLTPaths=cms.vstring("HLT_Ele27_eta2p1_WPLoose_Gsf_v*"))
process.hltHighLevel = hltHighLevel.clone(HLTPaths=cms.vstring("HLT_Ele23_Ele12_CaloIdL_TrackIdL_IsoVL_DZ_v*"))
process.options = cms.untracked.PSet( wantSummary = cms.untracked.bool(True) )
# ee bad supercluster filter on data
process.load('RecoMET.METFilters.eeBadScFilter_cfi')
process.eeBadScFilter.EERecHitSource = cms.InputTag("reducedEgamma","reducedEERecHits") # Saved MicroAOD Collection (data only)
process.dataRequirements = cms.Sequence()
if customize.processId == "Data":
process.dataRequirements += process.hltHighLevel
process.dataRequirements += process.eeBadScFilter
# Split WH and ZH
process.genFilter = cms.Sequence()
if (customize.processId.count("wh") or customize.processId.count("zh")) and not customize.processId.count("wzh"):
process.load("flashgg/Systematics/VHFilter_cfi")
cfgTools.addCategories(process.ZPlusJetTagDumper,
cats,
variables = all_variables,
histograms = []
)
process.ZPlusJetTagDumper.nameTemplate = "$PROCESS_$SQRTS_$CLASSNAME_$SUBCAT_$LABEL"
customize.setDefault("maxEvents" , 5000 ) # max-number of events
customize.setDefault("targetLumi", 1.00e+3 ) # define integrated lumi
customize(process)
from HLTrigger.HLTfilters.hltHighLevel_cfi import hltHighLevel
#process.hltHighLevel = hltHighLevel.clone(HLTPaths = cms.vstring("HLT_Diphoton30_18_R9Id_OR_IsoCaloId_AND_HE_R9Id_Mass95_v*") )
#process.hltHighLevel = hltHighLevel.clone(HLTPaths = cms.vstring("HLT_Ele17_Ele12_CaloIdL_TrackIdL_IsoVL_DZ_v*") )
process.hltHighLevel = hltHighLevel.clone(HLTPaths = cms.vstring("HLT_Ele27_eta2p1_WPLoose_Gsf_v*") )
process.options = cms.untracked.PSet( wantSummary = cms.untracked.bool(True) )
# Logic from Yacine's file
#from HLTrigger.HLTfilters.hltHighLevel_cfi import hltHighLevel
#if customize.runOnZee:
# if customize.processId == "Data":
# process.hltHighLevel = hltHighLevel.clone(HLTPaths = cms.vstring("HLT_Ele27_eta2p1_WPLoose_Gsf_v*") )
# else:
# process.hltHighLevel = hltHighLevel.clone(HLTPaths = cms.vstring("HLT_Ele27_eta2p1_WP75_Gsf_v*") )
#else:
# process.hltHighLevel = hltHighLevel.clone(HLTPaths = cms.vstring("HLT_Diphoton30_18_R9Id_OR_IsoCaloId_AND_HE_R9Id_Mass95_v*"))
# ee bad supercluster filter on data
process.load('RecoMET.METFilters.eeBadScFilter_cfi')
def setModules(process, options):
process.sampleInfo = cms.EDProducer("tnp::FlashggSampleInfoTree",
)
from HLTrigger.HLTfilters.hltHighLevel_cfi import hltHighLevel
process.hltFilter = hltHighLevel.clone()
process.hltFilter.throw = cms.bool(False)
process.hltFilter.HLTPaths = options['TnPPATHS']
from PhysicsTools.TagAndProbe.pileupConfiguration_cfi import pileupProducer
process.pileupReweightingProducer = pileupProducer.clone()
###################################################################
## ELECTRON MODULES
###################################################################
process.photonFromDiPhotons = cms.EDProducer("FlashggPhotonFromDiPhotonProducer",
src = cms.InputTag(options['DIPHOTON_COLL']),
cut = cms.string(options['PHOTON_CUTS']),
leadingPreselection = cms.string(options['LEADING_PRESELECTION']),
subleadingPreselection = cms.string(options['SUBLEADING_PRESELECTION']),
vertexSelection = cms.int32(-1), # -1 means take the chosen vertex, otherwise use the index to select 2it
diPhotonMVATag = cms.InputTag("flashggDiPhotonMVA"),
diphotonMVAThreshold = cms.double(-0.6) #Previous value was -1.0
)
process.goodPhotonTagL1 = cms.EDProducer("FlashggPhotonL1CandProducer",
inputs = cms.InputTag("goodPhotonTags"),
isoObjects = cms.InputTag("goodPhotonTags"),
nonIsoObjects = cms.InputTag(""),
minET = cms.double(25),
dRmatch = cms.double(0.2),
isolatedOnly = cms.bool(False)
)
process.goodPhotonTags = cms.EDFilter("FlashggPhotonRefSelector",
src = cms.InputTag("photonFromDiPhotons"),
cut = cms.string(options['PHOTON_TAG_CUTS'])
)
process.goodPhotonProbes = cms.EDFilter("FlashggPhotonRefSelector",
src = cms.InputTag("photonFromDiPhotons"),
cut = cms.string(options['PHOTON_CUTS'])
)
###################################################################
process.goodPhotonProbesPreselection = cms.EDProducer("FlashggPhotonSelectorByValueMap",
input = cms.InputTag("goodPhotonProbes"),
cut = cms.string(options['PHOTON_CUTS']),
selection = cms.InputTag("photonFromDiPhotons:preselection"),
id_cut = cms.bool(True)
)
process.goodPhotonProbesIDMVA = cms.EDProducer("FlashggPhotonSelectorByDoubleValueMap",
input = cms.InputTag("goodPhotonProbes"),
cut = cms.string(options['PHOTON_CUTS']),
selection = cms.InputTag("photonFromDiPhotons:idmva"),
id_cut = cms.double(-0.9)
)
process.goodPhotonTagsIDMVA = cms.EDProducer("FlashggPhotonSelectorByDoubleValueMap",
input = cms.InputTag("goodPhotonTags"),
cut = cms.string(options['PHOTON_CUTS']),
selection = cms.InputTag("photonFromDiPhotons:idmva"),
id_cut = cms.double(-0.6)
)
###################################################################
process.goodPhotonsTagHLT = cms.EDProducer("FlashggPhotonTriggerCandProducer",
filterNames = options['TnPHLTTagFilters'],
inputs = cms.InputTag("goodPhotonTagsIDMVA"),
bits = cms.InputTag('TriggerResults::HLT'),
objects = cms.InputTag('selectedPatTrigger'),
dR = cms.double(0.3),
isAND = cms.bool(True)
)
process.goodPhotonsProbeHLT = cms.EDProducer("FlashggPhotonTriggerCandProducer",
filterNames = options['TnPHLTProbeFilters'],
inputs = cms.InputTag("goodPhotonProbes"),
bits = cms.InputTag('TriggerResults::HLT'),
objects = cms.InputTag('selectedPatTrigger'),
dR = cms.double(0.3),
isAND = cms.bool(True)
)
process.goodPhotonProbesL1 = cms.EDProducer("FlashggPhotonL1Stage2CandProducer",
inputs = cms.InputTag("goodPhotonProbes"),
objects = cms.InputTag("caloStage2Digis:EGamma"),
minET = cms.double(40),
dRmatch = cms.double(0.2),
dRmatchEE = cms.double(0.2),
isolatedOnly = cms.bool(False)
)
###################################################################
## PHOTON ISOLATION
###################################################################
process.load("RecoEgamma/PhotonIdentification/PhotonIDValueMapProducer_cfi")
process.tagTightRECO = cms.EDProducer("CandViewShallowCloneCombiner",
decay = cms.string("goodPhotonsTagHLT goodPhotonsProbeHLT"),
checkCharge = cms.bool(False),
cut = cms.string("40<mass<130"),
)
from RecoTauTag.TauAnalysisTools.TauNtupleProducer_cfi import * ''' Tag and probe tau ntuple production for Heavy Flavor QCD fake rate studies Author: Evan Friis, UC Davis ([email protected]) Strategy: Unbias trigger selection by requiring an HLT moun, matched to a global muon, with pt > 9 ''' from HLTrigger.HLTfilters.hltHighLevel_cfi import hltHighLevel muonTrigger = hltHighLevel.clone() muonTrigger.HLTPaths = cms.vstring('HLT_Mu9') tagMuons = cms.EDFilter("MuonRefSelector", src = cms.InputTag("muons"), cut = cms.string('isGlobalMuon > 0 && pt > 9.0 && abs(eta) < 2.1') ) # temp test #tagMuons = cms.EDFilter("CandViewRefSelector", # src = cms.InputTag("shrinkingConePFTauProducer"), # cut = cms.string('charge() == 1') #) atLeastOneTagMuon = cms.EDFilter("CandViewCountFilter", src = cms.InputTag('tagMuons'),
cats += [("ZPlusJet", "1", 0)]
cfgTools.addCategories(process.ZPlusJetTagDumper,
cats,
variables=all_variables,
histograms=[])
process.ZPlusJetTagDumper.nameTemplate = "$PROCESS_$SQRTS_$CLASSNAME_$SUBCAT_$LABEL"
customize.setDefault("maxEvents", 5000) # max-number of events
customize.setDefault("targetLumi", 1.00e+3) # define integrated lumi
customize(process)
from HLTrigger.HLTfilters.hltHighLevel_cfi import hltHighLevel
#process.hltHighLevel = hltHighLevel.clone(HLTPaths = cms.vstring("HLT_Diphoton30_18_R9Id_OR_IsoCaloId_AND_HE_R9Id_Mass95_v*") )
process.hltHighLevel = hltHighLevel.clone(
HLTPaths=cms.vstring("HLT_Ele17_Ele12_CaloIdL_TrackIdL_IsoVL_DZ_v*"))
process.options = cms.untracked.PSet(wantSummary=cms.untracked.bool(True))
# ee bad supercluster filter on data
process.load('RecoMET.METFilters.eeBadScFilter_cfi')
process.eeBadScFilter.EERecHitSource = cms.InputTag(
"reducedEgamma",
"reducedEERecHits") # Saved MicroAOD Collection (data only)
process.dataRequirements = cms.Sequence()
if customize.processId == "Data":
process.dataRequirements += process.hltHighLevel
process.dataRequirements += process.eeBadScFilter
# Split WH and ZH
process.genFilter = cms.Sequence()
if (customize.processId.count("wh") or customize.processId.count("zh")
),
isMC=cms.bool(True),
tagMatches=cms.InputTag("tagMuonsMCMatch"),
probeMatches=cms.InputTag("probeMuonsMCMatch"),
motherPdgId=cms.vint32(443),
makeMCUnbiasTree=cms.bool(True),
checkMotherInUnbiasEff=cms.bool(True),
allProbes=cms.InputTag("probeMuons"),
)
#from HLTrigger.HLTfilters.hltHighLevelDev_cfi import hltHighLevelDev
#process.fastFilter = hltHighLevelDev.clone(HLTPaths = ['HLT_Mu3_Track0_Jpsi'], HLTPathsPrescales = [1])
from HLTrigger.HLTfilters.hltHighLevel_cfi import hltHighLevel
process.fastFilter = hltHighLevel.clone(
HLTPaths=['HLT_Mu*_L2Mu0', 'HLT_Mu3_Track*_Jpsi*', 'HLT_Mu5_Track*_Jpsi*'],
andOr=cms.bool(True), # True: OR - False: AND
throw=cms.bool(False), # Don't throw exception if trigger name is unkown
)
process.tnpSimpleSequence = cms.Sequence(process.tagMuonsMCMatch +
process.probeMuonsMCMatch +
process.muonDxyPVdzmin +
process.nverticesModule +
process.tagProbeSeparation +
process.tpTree)
process.tagAndProbe = cms.Path(process.fastFilter + process.tnpSimpleSequence)
process.TFileService = cms.Service(
"TFileService", fileName=cms.string("tnpTree_FromOniaMuMuPAT_Test.root"))
def setModules(process, options):
process.sampleInfo = cms.EDProducer(
"tnp::SampleInfoTree",
#vertexCollection = cms.InputTag("offlinePrimaryVertices"),
genInfo=cms.InputTag("generator"))
#process.eleVarHelper = cms.EDProducer("GsfElectronVariableHelper",
# probes = cms.InputTag(options['ELECTRON_COLL']),
# vertexCollection = cms.InputTag("offlinePrimaryVertices")
# )
#process.eleVarHelper = cms.EDProducer("PatElectronVariableHelper",
# probes = cms.InputTag(options['ELECTRON_COLL']),
# vertexCollection = cms.InputTag("offlineSlimmedPrimaryVertices")
# )
#process.hltVarHelper = cms.EDProducer("GsfElectronHLTVariableHelper",
# probes = cms.InputTag(options['ELECTRON_COLL']),
# hltCandidateCollection = cms.InputTag("hltEgammaCandidates"),
# mapOutputNames = cms.vstring("hltsieie",
# "hltecaliso",
# "hlthcaliso",
# "hlthoe",
# "hlttkiso",
# "hltdeta",
# "hltdetaseed",
# "hltdphi",
# "hlteop",
# "hltmishits"),
# mapInputTags = cms.VInputTag("hltEgammaClusterShape:sigmaIEtaIEta5x5",
# "hltEgammaEcalPFClusterIso",
# "hltEgammaHcalPFClusterIso",
# "hltEgammaHoverE",
# "hltEgammaEleGsfTrackIso",
# "hltEgammaGsfTrackVars:Deta",
# "hltEgammaGsfTrackVars:DetaSeed",
# "hltEgammaGsfTrackVars:Dphi",
# "hltEgammaGsfTrackVars:OneOESuperMinusOneOP",
# "hltEgammaGsfTrackVars:MissingHits")
# )
process.hltVarHelper = cms.EDProducer(
"PATElectronHLTVariableHelper",
probes=cms.InputTag(options['ELECTRON_COLL']),
hltCandidateCollection=cms.InputTag("hltEgammaCandidates"),
mapOutputNames=cms.vstring("hltsieie", "hltecaliso", "hlthcaliso",
"hlthoe", "hlttkiso", "hltdeta",
"hltdetaseed", "hltdphi", "hlteop",
"hltmishits"),
mapInputTags=cms.VInputTag(
"hltEgammaClusterShape:sigmaIEtaIEta5x5",
"hltEgammaEcalPFClusterIso", "hltEgammaHcalPFClusterIso",
"hltEgammaHoverE", "hltEgammaEleGsfTrackIso",
"hltEgammaGsfTrackVars:Deta", "hltEgammaGsfTrackVars:DetaSeed",
"hltEgammaGsfTrackVars:Dphi",
"hltEgammaGsfTrackVars:OneOESuperMinusOneOP",
"hltEgammaGsfTrackVars:MissingHits"))
from HLTrigger.HLTfilters.hltHighLevel_cfi import hltHighLevel
process.hltFilter = hltHighLevel.clone()
process.hltFilter.throw = cms.bool(True)
process.hltFilter.HLTPaths = options['TnPPATHS']
#### MC PU DISTRIBUTIONS
from SimGeneral.MixingModule.mix_2015_25ns_Startup_PoissonOOTPU_cfi import mix as mix_2015_25ns
from SimGeneral.MixingModule.mix_2015_50ns_Startup_PoissonOOTPU_cfi import mix as mix_2015_50ns
pu_distribs = {
"74X_mcRun2_asymptotic_v2":
mix_2015_25ns.input.nbPileupEvents.probValue
}
#### DATA PU DISTRIBUTIONS
data_pu_distribs = {
"Jamboree_golden_JSON": [
5.12e+04, 3.66e+05, 5.04e+05, 4.99e+05, 7.5e+05, 1.1e+06, 2.53e+06,
9.84e+06, 4.4e+07, 1.14e+08, 1.94e+08, 2.63e+08, 2.96e+08,
2.74e+08, 2.06e+08, 1.26e+08, 6.38e+07, 2.73e+07, 1.1e+07, 5.2e+06,
3.12e+06, 1.87e+06, 9.35e+05, 3.64e+05, 1.1e+05, 2.64e+04,
5.76e+03, 1.53e+03, 594, 278, 131, 59.8, 26, 10.8, 4.29, 1.62,
0.587, 0.203, 0.0669, 0.0211, 0.00633, 0.00182, 0.000498, 0.00013,
3.26e-05, 7.77e-06, 1.77e-06, 3.85e-07, 7.99e-08, 1.58e-08, 3e-09,
5.43e-10
]
}
process.pileupReweightingProducer = cms.EDProducer(
"PileupWeightProducer",
#hardcodedWeights = cms.untracked.bool(True),
pileupInfoTag=cms.InputTag("slimmedAddPileupInfo"),
PileupMC=cms.vdouble(pu_distribs["74X_mcRun2_asymptotic_v2"]),
PileupData=cms.vdouble(data_pu_distribs["Jamboree_golden_JSON"]),
)
###################################################################
## ELECTRON MODULES
###################################################################
#process.goodElectrons = cms.EDFilter("GsfElectronRefSelector",
# src = cms.InputTag(options['ELECTRON_COLL']),
# cut = cms.string(options['ELECTRON_CUTS'])
# )
process.goodElectrons = cms.EDFilter(
"PATElectronRefSelector",
src=cms.InputTag(options['ELECTRON_COLL']),
cut=cms.string(options['ELECTRON_CUTS']))
###################################################################
## TRIGGER MATCHING
###################################################################
#process.goodElectronsTagHLT = cms.EDProducer("GsfElectronTriggerCandProducerOnTheFly",
# filterNames = cms.vstring(options['TnPHLTTagFilters']),
# inputs = cms.InputTag("goodElectronsTAGCutBasedTight"),
# #bits = cms.InputTag('TriggerResults::HLT'),
# #objects = cms.InputTag('hltTriggerSummaryAOD'),
# dR = cms.double(0.3),
# isAND = cms.bool(True)
# )
#process.goodElectronsProbeHLT = cms.EDProducer("GsfElectronTriggerCandProducerOnTheFly",
# filterNames = cms.vstring(options['TnPHLTProbeFilters']),
# inputs = cms.InputTag("goodElectrons"),
# #bits = cms.InputTag('TriggerResults::HLT'),
# #objects = cms.InputTag('hltTriggerSummaryAOD'),
# dR = cms.double(0.3),
# isAND = cms.bool(True)
# )
process.goodElectronsTagHLT = cms.EDProducer(
"PATElectronTriggerCandProducerOnTheFly",
filterNames=cms.vstring(options['TnPHLTTagFilters']),
inputs=cms.InputTag("goodElectronsTAGCutBasedTight"),
#bits = cms.InputTag('TriggerResults::HLT'),
#objects = cms.InputTag('hltTriggerSummaryAOD'),
dR=cms.double(0.3),
isAND=cms.bool(True))
process.goodElectronsProbeHLT = cms.EDProducer(
"PATElectronTriggerCandProducerOnTheFly",
filterNames=cms.vstring(options['TnPHLTProbeFilters']),
inputs=cms.InputTag("goodElectrons"),
#bits = cms.InputTag('TriggerResults::HLT'),
#objects = cms.InputTag('hltTriggerSummaryAOD'),
dR=cms.double(0.3),
isAND=cms.bool(True))
###################################################################
## TnP PAIRS
###################################################################
process.tagTightRECO = cms.EDProducer(
"CandViewShallowCloneCombiner",
decay=cms.string("goodElectronsTagHLT@+ goodElectronsProbeHLT@-"),
checkCharge=cms.bool(True),
cut=cms.string("60<mass<120"),
)
def setModules(process, options):
#process.sampleInfo = cms.EDProducer("tnp::FlashggSampleInfoTree")
from HLTrigger.HLTfilters.hltHighLevel_cfi import hltHighLevel
process.hltFilter = hltHighLevel.clone()
process.hltFilter.throw = cms.bool(False)
process.hltFilter.HLTPaths = options['TnPPATHS']
from EgammaAnalysis.TnPTreeProducer.pileupConfiguration_cfi import pileupProducer
process.pileupReweightingProducer = pileupProducer.clone()
###################################################################
## ELECTRON MODULES
###################################################################
process.photonFromDiPhotons = cms.EDProducer("FlashggPhotonFromDiPhotonProducer",
src = cms.InputTag(options['DIPHOTON_COLL']),
cut = cms.string(options['PHOTON_CUTS']),
leadingPreselection = cms.string(options['LEADING_PRESELECTION']),
subleadingPreselection = cms.string(options['SUBLEADING_PRESELECTION']),
vertexSelection = cms.int32(-1), # -1 means take the chosen vertex, otherwise use the index to select 2it
diPhotonMVATag = cms.InputTag("flashggDiPhotonMVA"),
diphotonMVAThreshold = cms.double(-0.6) #Previous value was -1.0
)
process.goodPhotonTagL1 = cms.EDProducer("FlashggPhotonL1CandProducer",
inputs = cms.InputTag("goodPhotonTags"),
isoObjects = cms.InputTag("goodPhotonTags"),
nonIsoObjects = cms.InputTag(""),
minET = cms.double(25),
dRmatch = cms.double(0.2),
isolatedOnly = cms.bool(False)
)
process.goodPhotonTags = cms.EDFilter("FlashggPhotonRefSelector",
src = cms.InputTag("photonFromDiPhotons"),
cut = cms.string(options['PHOTON_TAG_CUTS'])
)
process.goodPhotonProbes = cms.EDFilter("FlashggPhotonRefSelector",
src = cms.InputTag("photonFromDiPhotons"),
cut = cms.string(options['PHOTON_CUTS'])
)
###################################################################
process.goodPhotonProbesPreselection = cms.EDProducer("FlashggPhotonSelectorByValueMap",
input = cms.InputTag("goodPhotonProbes"),
cut = cms.string(options['PHOTON_CUTS']),
selection = cms.InputTag("photonFromDiPhotons:preselection"),
id_cut = cms.bool(True)
)
process.goodPhotonProbesIDMVA = cms.EDProducer("FlashggPhotonSelectorByDoubleValueMap",
input = cms.InputTag("goodPhotonProbes"),
cut = cms.string(options['PHOTON_CUTS']),
selection = cms.InputTag("photonFromDiPhotons:idmva"),
id_cut = cms.double(-0.9)
)
process.goodPhotonTagsIDMVA = cms.EDProducer("FlashggPhotonSelectorByDoubleValueMap",
input = cms.InputTag("goodPhotonTags"),
cut = cms.string(options['PHOTON_CUTS']),
selection = cms.InputTag("photonFromDiPhotons:idmva"),
id_cut = cms.double(-0.6)
)
###################################################################
process.goodPhotonsTagHLT = cms.EDProducer("FlashggPhotonTriggerCandProducer",
filterNames = options['TnPHLTTagFilters'],
inputs = cms.InputTag("goodPhotonTagsIDMVA"),
bits = cms.InputTag('TriggerResults::HLT'),
objects = cms.InputTag('slimmedPatTrigger'),
dR = cms.double(0.3),
isAND = cms.bool(True)
)
process.goodPhotonsProbeHLT = cms.EDProducer("FlashggPhotonTriggerCandProducer",
filterNames = options['TnPHLTProbeFilters'],
inputs = cms.InputTag("goodPhotonProbes"),
bits = cms.InputTag('TriggerResults::HLT'),
objects = cms.InputTag('slimmedPatTrigger'),
dR = cms.double(0.3),
isAND = cms.bool(True)
)
process.goodPhotonProbesL1 = cms.EDProducer("FlashggPhotonL1Stage2CandProducer",
inputs = cms.InputTag("goodPhotonProbes"),
objects = cms.InputTag("caloStage2Digis:EGamma"),
minET = cms.double(40),
dRmatch = cms.double(0.2),
dRmatchEE = cms.double(0.2),
isolatedOnly = cms.bool(False)
)
###################################################################
## PHOTON ISOLATION
###################################################################
process.load("RecoEgamma/PhotonIdentification/PhotonIDValueMapProducer_cfi")
process.tagTightRECO = cms.EDProducer("CandViewShallowCloneCombiner",
decay = cms.string("goodPhotonsTagHLT goodPhotonsProbeHLT"),
checkCharge = cms.bool(False),
cut = cms.string("40<mass<130"),
)
bscNoHalo = hltLevel1GTSeed.clone(
L1TechTriggerSeeding = cms.bool(True),
L1SeedsLogicalExpression = cms.string('NOT (36 OR 37 OR 38 OR 39)')
)
bscOrBptxOr = l1Filter.clone(
algorithms = ["L1_BscMinBiasOR_BptxPlusORMinus"]
)
# ================ HLT Filters =====================
from HLTrigger.HLTfilters.hltHighLevel_cfi import hltHighLevel
hltMinBias = hltHighLevel.clone(
HLTPaths = cms.vstring('HLT_L1_BscMinBiasOR_BptxPlusORMinus'),
andOr = cms.bool(True)
)
hltJets = hltHighLevel.clone(
HLTPaths = cms.vstring('HLT_L1Jet6U','HLT_Jet15U','HLT_Jet30U'),
andOr = cms.bool(True)
)
# ================ Monster Event Rejection ==============
purityFractionFilter = cms.EDFilter("FilterOutScraping",
applyfilter = cms.untracked.bool(True),
debugOn = cms.untracked.bool(False),
numtrack = cms.untracked.uint32(10),
thresh = cms.untracked.double(0.25)
)
def setModules(process, options):
process.sampleInfo = cms.EDAnalyzer(
"tnp::SampleInfoTree",
vertexCollection=cms.InputTag("offlineSlimmedPrimaryVertices"),
genInfo=cms.InputTag("generator"),
)
from HLTrigger.HLTfilters.hltHighLevel_cfi import hltHighLevel
process.hltFilter = hltHighLevel.clone()
process.hltFilter.throw = cms.bool(True)
process.hltFilter.HLTPaths = options["TnPPATHS"]
process.pileupReweightingProducer = cms.EDProducer(
"PileupWeightProducer", hardcodedWeights=cms.untracked.bool(True)
)
process.GsfDRToNearestTauProbe = cms.EDProducer(
"DeltaRNearestGenPComputer",
probes=cms.InputTag("photonFromDiPhotons"),
objects=cms.InputTag("flashggPrunedGenParticles"),
objectSelection=cms.string("abs(pdgId)==15"),
)
process.GsfDRToNearestTauSC = cms.EDProducer(
"DeltaRNearestGenPComputer",
probes=cms.InputTag("superClusterCands"),
objects=cms.InputTag("flashggPrunedGenParticles"),
objectSelection=cms.string("abs(pdgId)==15"),
)
process.GsfDRToNearestTauTag = cms.EDProducer(
"DeltaRNearestGenPComputer",
probes=cms.InputTag("photonFromDiPhotons"),
objects=cms.InputTag("flashggPrunedGenParticles"),
objectSelection=cms.string("abs(pdgId)==15"),
)
###################################################################
## ELECTRON MODULES
###################################################################
process.photonFromDiPhotons = cms.EDProducer(
"FlashggPhotonFromDiPhotonProducer",
src=cms.InputTag(options["DIPHOTON_COLL"]),
cut=cms.string(options["PHOTON_CUTS"]),
leadingPreselection=cms.string(options["LEADING_PRESELECTION"]),
subleadingPreselection=cms.string(options["SUBLEADING_PRESELECTION"]),
vertexSelection=cms.int32(-1), # -1 means take the chosen vertex, otherwise use the index to select 2it
diPhotonMVATag=cms.InputTag("flashggDiPhotonMVA"),
diphotonMVAThreshold=cms.double(-0.6),
)
process.goodPhotonTagL1 = cms.EDProducer(
"FlashggPhotonL1CandProducer",
inputs=cms.InputTag("goodPhotonTags"),
isoObjects=cms.InputTag("goodPhotonTags"),
nonIsoObjects=cms.InputTag(""),
minET=cms.double(25),
dRmatch=cms.double(0.2),
isolatedOnly=cms.bool(False),
)
process.goodPhotonTags = cms.EDFilter(
"FlashggPhotonRefSelector", src=cms.InputTag("photonFromDiPhotons"), cut=cms.string(options["PHOTON_TAG_CUTS"])
)
process.goodPhotonProbes = cms.EDFilter(
"FlashggPhotonRefSelector", src=cms.InputTag("photonFromDiPhotons"), cut=cms.string(options["PHOTON_CUTS"])
)
###################################################################
process.goodPhotonProbesPreselection = cms.EDProducer(
"FlashggPhotonSelectorByValueMap",
input=cms.InputTag("goodPhotonProbes"),
cut=cms.string(options["PHOTON_CUTS"]),
selection=cms.InputTag("photonFromDiPhotons:preselection"),
id_cut=cms.bool(True),
)
process.goodPhotonProbesIDMVA = cms.EDProducer(
"FlashggPhotonSelectorByDoubleValueMap",
input=cms.InputTag("goodPhotonProbes"),
cut=cms.string(options["PHOTON_CUTS"]),
selection=cms.InputTag("photonFromDiPhotons:idmva"),
id_cut=cms.double(0.2),
)
process.goodPhotonTagsIDMVA = cms.EDProducer(
"FlashggPhotonSelectorByDoubleValueMap",
input=cms.InputTag("goodPhotonTags"),
cut=cms.string(options["PHOTON_CUTS"]),
selection=cms.InputTag("photonFromDiPhotons:idmva"),
id_cut=cms.double(0.2),
)
###################################################################
process.goodPhotonsTagHLT = cms.EDProducer(
"FlashggPhotonTriggerCandProducer",
filterNames=options["TnPHLTTagFilters"],
inputs=cms.InputTag("goodPhotonTags"),
bits=cms.InputTag("TriggerResults::HLT"),
objects=cms.InputTag("selectedPatTrigger"),
dR=cms.double(0.3),
isAND=cms.bool(True),
)
process.goodPhotonsProbeHLT = cms.EDProducer(
"FlashggPhotonTriggerCandProducer",
filterNames=options["TnPHLTProbeFilters"],
inputs=cms.InputTag("goodPhotonProbes"),
bits=cms.InputTag("TriggerResults::HLT"),
objects=cms.InputTag("selectedPatTrigger"),
dR=cms.double(0.3),
isAND=cms.bool(True),
)
process.goodPhotonProbesL1 = cms.EDProducer(
"FlashggPhotonL1CandProducer",
inputs=cms.InputTag("goodPhotonProbes"),
isoObjects=cms.InputTag("l1extraParticles:Isolated"),
nonIsoObjects=cms.InputTag("l1extraParticles:NonIsolated"),
minET=cms.double(40),
dRmatch=cms.double(0.2),
isolatedOnly=cms.bool(False),
)
###################################################################
## PHOTON ISOLATION
###################################################################
process.load("RecoEgamma/PhotonIdentification/PhotonIDValueMapProducer_cfi")
process.tagTightRECO = cms.EDProducer(
"CandViewShallowCloneCombiner",
decay=cms.string("goodPhotonsTagHLT goodPhotonsProbeHLT"),
checkCharge=cms.bool(False),
cut=cms.string("40<mass<1000"),
)
###################################################################
## MC MATCHING
###################################################################
process.McMatchTag = cms.EDProducer(
"MCTruthDeltaRMatcherNew",
matchPDGId=cms.vint32(11),
src=cms.InputTag("goodPhotonTags"),
distMin=cms.double(0.2),
matched=cms.InputTag("flashggPrunedGenParticles"),
checkCharge=cms.bool(False),
)
process.McMatchRECO = cms.EDProducer(
"MCTruthDeltaRMatcherNew",
matchPDGId=cms.vint32(11),
src=cms.InputTag("goodPhotonProbes"),
distMin=cms.double(0.2),
matched=cms.InputTag("flashggPrunedGenParticles"),
checkCharge=cms.bool(False),
)
def defineBasePreSelection(process,
useTechTriggerBits=False,
filterHBHEnoise=True,
egmuTriggerFilter='',
egtriglist=['HLT_Ele10_LW_L1R'],
mutriggerlist=['HLT_Mu9'],
jettriglist=['HLT_Jet15U'],
trigMenu='HLT') :
#
# pre-selection sequences
#
# cut on monster events (may low quality tracks) -------------------------------
process.load("HLTrigger.special.hltPhysicsDeclared_cfi")
process.hltPhysicsDeclared.L1GtReadoutRecordTag = 'gtDigis'
process.noScraping= cms.EDFilter("FilterOutScraping",
applyfilter = cms.untracked.bool(True),
debugOn = cms.untracked.bool(False), ## Or 'True' to get some per-event info
numtrack = cms.untracked.uint32(10),
thresh = cms.untracked.double(0.25)
)
# good vertex filter ---------------------------------------------------------
process.primaryVertexFilter = cms.EDFilter("GoodVertexFilter",
vertexCollection = cms.InputTag('offlinePrimaryVertices'),
minimumNDOF = cms.uint32(3),
maxAbsZ = cms.double(24),
maxd0 = cms.double(2) )
print "*** Base preselection will remove PKAM and filter primary vertices"
process.basePreSel = cms.Sequence(process.hltPhysicsDeclared*process.noScraping*process.primaryVertexFilter)
# BSC activity ---------------------------------------------------------------
if(useTechTriggerBits) :
process.load('L1TriggerConfig.L1GtConfigProducers.L1GtTriggerMaskTechTrigConfig_cff')
process.load('HLTrigger/HLTfilters/hltLevel1GTSeed_cfi')
process.hltLevel1GTSeed.L1TechTriggerSeeding = cms.bool(True)
# process.hltLevel1GTSeed.L1SeedsLogicalExpression = cms.string('(0 AND 9) AND (40 OR 41) AND NOT (36 OR 37 OR 38 OR 39)')
#process.hltLevel1GTSeed.L1SeedsLogicalExpression = cms.string('0 AND NOT (36 OR 37 OR 38 OR 39)')
process.hltLevel1GTSeed.L1SeedsLogicalExpression = cms.string('0')
print " Adding technical trigger bits: " + str(process.hltLevel1GTSeed.L1SeedsLogicalExpression)
process.basePreSel = cms.Sequence( process.basePreSel*process.hltLevel1GTSeed )
# HB/HE noise filter ----------------------------------------------------
if(filterHBHEnoise) :
process.load('CommonTools.RecoAlgos.HBHENoiseFilter_cfi')
process.HBHENoiseFilter.minIsolatedNoiseSumE = cms.double(999999.)
process.HBHENoiseFilter.minNumIsolatedNoiseChannels = cms.int32(999999)
process.HBHENoiseFilter.minIsolatedNoiseSumEt = cms.double(999999.)
print " Adding HB/HE noise filter"
process.basePreSel = cms.Sequence( process.basePreSel*process.HBHENoiseFilter )
# single lepton inclusive triggers
from HLTrigger.HLTfilters.hltHighLevel_cfi import hltHighLevel as trigbit_selector
trigbit_selector.throw = cms.bool(False)
process.eg_selector = trigbit_selector.clone()
process.eg_selector.TriggerResultsTag = cms.InputTag('TriggerResults', '', trigMenu)
process.eg_selector.andOr=cms.bool(True)
process.eg_selector.HLTPaths = cms.vstring(egtriglist)
process.mu_selector = process.eg_selector.clone()
process.mu_selector.andOr=cms.bool(True)
process.mu_selector.HLTPaths = cms.vstring(mutriggerlist)
process.egmu_selector = process.eg_selector.clone()
process.egmu_selector.HLTPaths.extend( process.mu_selector.HLTPaths)
process.egmu_selector.andOr=cms.bool(True)
process.jet_selector = process.eg_selector.clone()
process.jet_selector.andOr=cms.bool(True)
process.jet_selector.HLTPaths = cms.vstring(jettriglist)
#trigger sequences
if(egmuTriggerFilter=="inclusive_eg") :
process.inclusive_eg = cms.Sequence( process.eg_selector )
process.basePreSel = cms.Sequence( process.inclusive_eg*process.basePreSel )
elif(egmuTriggerFilter=="exclusive_eg") :
process.exclusive_eg = cms.Sequence( ~process.mu_selector*process.eg_selector )
process.basePreSel = cms.Sequence( process.exclusive_eg*process.basePreSel )
elif(egmuTriggerFilter=="inclusive_mu") :
process.inclusive_mu = cms.Sequence( process.mu_selector )
process.basePreSel = cms.Sequence( process.inclusive_mu*process.basePreSel )
elif(egmuTriggerFilter=="exclusive_mu") :
process.exclusive_mu = cms.Sequence( ~process.eg_selector*process.mu_selector )
process.basePreSel = cms.Sequence( process.exclusive_mu*process.basePreSel )
elif(egmuTriggerFilter=="inclusive_egmu") :
process.inclusive_egmu = cms.Sequence( process.egmu_selector )
process.basePreSel = cms.Sequence( process.inclusive_egmu*process.basePreSel )
elif(egmuTriggerFilter=="inclusive_jet") :
process.inclusive_jet = cms.Sequence( process.jet_selector )
process.basePreSel = cms.Sequence(process.inclusive_jet*process.basePreSel )
if(len(egmuTriggerFilter)>0) :
print ' EG/Mu trigger filter defined as: ' + egmuTriggerFilter
print " Data preselection sequence is: " + str(process.basePreSel)
print " Note: process.basePreSel has to be added to your main sequence"
if dumpJetSysTrees:
for syst in jetsystlabels:
systcutstring = "hasSyst(\"%s\") " % syst
cats += [("VBFDiJet_%s" % syst, systcutstring, 0)]
cats += [("VBFDiJet", "1", 0)]
cfgTools.addCategories(process.vbfTagDumper,
cats,
variables=all_variables,
histograms=[])
process.vbfTagDumper.nameTemplate = "$PROCESS_$SQRTS_$CLASSNAME_$SUBCAT_$LABEL"
from HLTrigger.HLTfilters.hltHighLevel_cfi import hltHighLevel
if customize.runOnZee:
if customize.processId == "Data":
process.hltHighLevel = hltHighLevel.clone(
HLTPaths=cms.vstring("HLT_Ele27_eta2p1_WPLoose_Gsf_v*"))
#else:
#process.hltHighLevel = hltHighLevel.clone(HLTPaths = cms.vstring("HLT_Ele27_eta2p1_WP75_Gsf_v*") )
else:
process.hltHighLevel = hltHighLevel.clone(HLTPaths=cms.vstring(
"HLT_Diphoton30_18_R9Id_OR_IsoCaloId_AND_HE_R9Id_Mass90_v*"))
process.options = cms.untracked.PSet(wantSummary=cms.untracked.bool(True))
# ee bad supercluster filter on data
process.load('RecoMET.METFilters.eeBadScFilter_cfi')
process.eeBadScFilter.EERecHitSource = cms.InputTag("reducedEgamma",
"reducedEERecHits")
process.dataRequirements = cms.Sequence()
if customize.processId == "Data":
def getHltFilter(self,process):
if not hasattr(process,"hltHighLevel"):
process.hltHighLevel = hltHighLevel.clone()
return process.hltHighLevel
#
# if customize.outputFile:
# outputFile = customize.outputFile
#customize.parse()
# process.TFileService = cms.Service("TFileService",
# fileName = cms.string("output.root"),
# closeFileFast = cms.untracked.bool(True)
# )
# Require diphoton triggers
from HLTrigger.HLTfilters.hltHighLevel_cfi import hltHighLevel
process.hltHighLevel = hltHighLevel.clone(HLTPaths=cms.vstring(
"HLT_Diphoton30_22_R9Id_OR_IsoCaloId_AND_HE_R9Id_Mass90*" # 2017 Hgg HLT path
# "HLT_Diphoton30_18_R9Id_OR_IsoCaloId_AND_HE_R9Id_Mass90_v*" # 2016 Hgg HLT path
#"HLT_Diphoton30_18_R9Id_OR_IsoCaloId_AND_HE_R9Id_Mass90"
# "HLT_Diphoton30_18_PVrealAND_R9Id_AND_IsoCaloId_AND_HE_R9Id_PixelVeto_Mass55*",
# "HLT_Diphoton30_18_PVrealAND_R9Id_AND_IsoCaloId_AND_HE_R9Id_NoPixelVeto_Mass55*"
))
process.options = cms.untracked.PSet(wantSummary=cms.untracked.bool(True))
# #to check which triggers are present ---remove if not needed
# process.TriggerAnalyzer = cms.EDAnalyzer("MiniAODTriggerAnalyzer",
# bits = cms.InputTag("TriggerResults","","HLT")
# )
# process.TriggerAnalyzerPath = cms.Path(process.TriggerAnalyzer)
############# Geometry ###############
process.load("Geometry.CMSCommonData.cmsIdealGeometryXML_cfi")
process.load("Geometry.CaloEventSetup.CaloGeometry_cfi")
classname=tagName,
cutbased=cutstring,
subcats=tagCats,
variables=currentVariables,
histograms=minimalHistograms,
binnedOnly=isBinnedOnly,
dumpPdfWeights=dumpPdfWeights,
nPdfWeights=nPdfWeights,
nAlphaSWeights=nAlphaSWeights,
nScaleWeights=nScaleWeights)
# Require standard diphoton trigger
from HLTrigger.HLTfilters.hltHighLevel_cfi import hltHighLevel
process.hltHighLevel = hltHighLevel.clone(HLTPaths=cms.vstring(
"HLT_Diphoton30_18_R9Id_OR_IsoCaloId_AND_HE_R9Id_Mass90_v*",
# "HLT_Diphoton30PV_18PV_R9Id_AND_IsoCaloId_AND_HE_R9Id_DoublePixelVeto_Mass55_v1",
# "HLT_Diphoton30EB_18EB_R9Id_OR_IsoCaloId_AND_HE_R9Id_DoublePixelVeto_Mass55_v1"
))
process.options = cms.untracked.PSet(wantSummary=cms.untracked.bool(True))
# ee bad supercluster filter on data
process.load('RecoMET.METFilters.eeBadScFilter_cfi')
process.eeBadScFilter.EERecHitSource = cms.InputTag(
"reducedEgamma",
"reducedEERecHits") # Saved MicroAOD Collection (data only)
process.dataRequirements = cms.Sequence()
if customize.processId == "Data":
process.dataRequirements += process.hltHighLevel
process.dataRequirements += process.eeBadScFilter
fileNames = cms.untracked.vstring( *mylist),
eventsToProcess = cms.untracked.VEventRange(run_list)
)
# =============== Other Statements =====================
process.maxEvents = cms.untracked.PSet( input = cms.untracked.int32(-1) )
process.options = cms.untracked.PSet(wantSummary = cms.untracked.bool(True))
process.GlobalTag.globaltag = 'GR10_P_V12::All'
# =============== Trigger selection ====================
from HLTrigger.HLTfilters.hltHighLevel_cfi import hltHighLevel
process.whateverHLT = hltHighLevel.clone(
#HLTPaths = cms.vstring('HLT_HIJet90U'),
HLTPaths = cms.vstring('HLT_HIMinBiasHF'),
andOr = cms.bool(True)
)
from HLTrigger.HLTfilters.hltLevel1GTSeed_cfi import hltLevel1GTSeed
process.whateverL1 = hltLevel1GTSeed.clone(
L1TechTriggerSeeding = cms.bool(True),
L1SeedsLogicalExpression = cms.string('35')
)
#process.eventFilter_step = cms.Path(process.whateverHLT)
#process.eventFilter_step = cms.Path(process.whateverL1)
# =============== Trigger summary =======================
# L1
process.load('L1Trigger.GlobalTriggerAnalyzer.l1GtTrigReport_cfi')
def setModules(process, options):
#process.sampleInfo = cms.EDProducer("tnp::FlashggSampleInfoTree",
# )
from HLTrigger.HLTfilters.hltHighLevel_cfi import hltHighLevel
process.hltFilter = hltHighLevel.clone()
process.hltFilter.throw = cms.bool(False)
process.hltFilter.HLTPaths = options['TnPPATHS']
from EgammaAnalysis.TnPTreeProducer.pileupConfiguration_cfi import pileupProducer
process.pileupReweightingProducer = pileupProducer.clone()
###################################################################
## ELECTRON MODULES
###################################################################
#produces photons for tag+probe
process.photonFromDiPhotons = cms.EDProducer("FlashggPhotonFromDiPhotonProducer",
src = cms.InputTag(options['DIPHOTON_COLL']),
cut = cms.string(options['PHOTON_CUTS']),
leadingPreselection = cms.string(options['LEADING_PRESELECTION']),
subleadingPreselection = cms.string(options['SUBLEADING_PRESELECTION']),
vertexSelection = cms.int32(-1), # -1 means take the chosen vertex, otherwise use the index to select 2it
#diPhotonMVATag = cms.InputTag("flashggUpdatedIdMVADiPhotons"),
diPhotonMVATag = cms.InputTag("flashggDiPhotonMVA"),
diphotonMVAThreshold = cms.double(-0.6)
)
#produces tag collection from diphotons
process.goodPhotonTags = cms.EDFilter("FlashggPhotonRefSelector",
src = cms.InputTag("photonFromDiPhotons"),
cut = cms.string(options['PHOTON_TAG_CUTS'])
)
#produces probe collection from diphotons
process.goodPhotonProbes = cms.EDFilter("FlashggPhotonRefSelector",
src = cms.InputTag("photonFromDiPhotons"),
cut = cms.string(options['PHOTON_PROBE_CUTS'])
)
###################################################################
#IDMVA for probes
process.goodPhotonProbesIDMVA = cms.EDProducer("FlashggPhotonSelectorByDoubleValueMap",
input = cms.InputTag("goodPhotonProbes"),
cut = cms.string(options['PHOTON_PROBE_CUTS']),
selection = cms.InputTag("photonFromDiPhotons:idmva"),
id_cut = cms.double(-0.9)
)
process.goodPhotonsProbeTnPprobe = cms.EDProducer("FlashggPhotonTriggerCandProducer",
filterNames = options['TnPHLTProbeFilters'],
inputs = cms.InputTag("goodPhotonProbesIDMVA"),
bits = cms.InputTag(options['TRIGGER_RES']),
objects = cms.InputTag(options['PAT_TRIG']),
dR = cms.double(0.3),
isAND = cms.bool(False)
)
#numerator for Preselection
process.goodPhotonProbesPreselection = cms.EDProducer("FlashggPhotonSelectorByValueMap",
input = cms.InputTag("goodPhotonsProbeTnPprobe"),
cut = cms.string(options['PHOTON_PROBE_CUTS']),
selection = cms.InputTag("photonFromDiPhotons:preselection"),
id_cut = cms.bool(True)
)
#probes match to l1
process.goodPhotonProbesL1 = cms.EDProducer("FlashggPhotonL1CandProducer",
#process.goodPhotonProbesL1 = cms.EDProducer("FlashggPhotonL1Stage2CandProducer",
inputs = cms.InputTag("goodPhotonProbesPreselection"),
#isoObjects = cms.InputTag("l1extraParticles:Isolated"),
#nonIsoObjects = cms.InputTag("l1extraParticles:NonIsolated"),
#objects = cms.InputTag("hltCaloStage2Digis:EGamma"),
objects = cms.InputTag("caloStage2Digis:EGamma"),
#minET = cms.double(15), #lead eff only
minET = cms.double(10), #sublead eff only
dRmatch = cms.double(0.2), #defined to match L1 online matching to hlt (0.261)
#dRmatchEE = cms.double(0.2), #defined to match L1 online matching to hlt (should probably be tightened for stage2)
isolatedOnly = cms.bool(False)
)
#numerator passing HLT requiring preselection and L1
process.goodPhotonsProbeHLT = cms.EDProducer("FlashggPhotonTriggerCandProducer",
filterNames = options['HLTFILTERTOMEASURE'],
inputs = cms.InputTag("goodPhotonProbesPreselection"),
bits = cms.InputTag(options['TRIGGER_RES']),
objects = cms.InputTag(options['PAT_TRIG']),
dR = cms.double(0.3),
isAND = cms.bool(False)
)
###################################################################
#IDMVA for tags
process.goodPhotonTagsIDMVA = cms.EDProducer("FlashggPhotonSelectorByDoubleValueMap",
input = cms.InputTag("goodPhotonTags"),
cut = cms.string(options['PHOTON_TAG_CUTS']),
selection = cms.InputTag("photonFromDiPhotons:idmva"),
id_cut = cms.double(-0.5)
)
#preselection for tags
process.goodPhotonTagsPreselection = cms.EDProducer("FlashggPhotonSelectorByValueMap",
input = cms.InputTag("goodPhotonTagsIDMVA"),
cut = cms.string(options['PHOTON_TAG_CUTS']),
selection = cms.InputTag("photonFromDiPhotons:preselection"),
id_cut = cms.bool(True)
)
#good match to lead HggFilter tag photons for denominator PRESELECTED
process.goodPhotonsTagLeadMatch = cms.EDProducer("FlashggPhotonTriggerCandProducer",
filterNames = options['TagLeadMatchFilters'],
inputs = cms.InputTag("goodPhotonTagsPreselection"),
bits = cms.InputTag(options['TRIGGER_RES']),
objects = cms.InputTag(options['PAT_TRIG']),
dR = cms.double(0.3),
isAND = cms.bool(False)
)
#good preselected tag photons for denominator
process.goodPhotonsTagHLT = cms.EDProducer("FlashggPhotonTriggerCandProducer",
filterNames = options['TnPHLTTagFilters'],
inputs = cms.InputTag("goodPhotonsTagLeadMatch"),
bits = cms.InputTag(options['TRIGGER_RES']),
objects = cms.InputTag(options['PAT_TRIG']),
dR = cms.double(0.3),
isAND = cms.bool(False)
)
###################################################################
## PHOTON ISOLATION
###################################################################
process.load("RecoEgamma/PhotonIdentification/PhotonIDValueMapProducer_cfi")
process.noL1RECO = cms.EDProducer("CandViewShallowCloneCombiner",
decay = cms.string("goodPhotonsTagHLT goodPhotonProbesPreselection"),
#decay = cms.string("goodPhotonsTagHLT goodPhotonsProbeHLT"),
checkCharge = cms.bool(False),
cut = cms.string("40<mass<180"),
)
#efficiency for HLT with L1 requirement in denominator
process.L1RECO = cms.EDProducer("CandViewShallowCloneCombiner",
decay = cms.string("goodPhotonsTagHLT goodPhotonProbesL1"),
checkCharge = cms.bool(False),
cut = cms.string("40<mass<180"),
)
process.RawToDigi.remove(process.castorDigis)
process.RawToDigi.remove(process.scalersRawToDigi)
process.RawToDigi.remove(process.tcdsDigis)
process.RawToDigi.remove(process.totemTriggerRawToDigi)
process.RawToDigi.remove(process.totemRPRawToDigi)
process.RawToDigi.remove(process.ctppsDiamondRawToDigi)
process.RawToDigi.remove(process.ctppsPixelDigis)
process.rawToDigiPath = cms.Path(process.RawToDigi)
#--------------------------------------------------
# Stage2 Unpacker and DQM Path
# Filter fat events
from HLTrigger.HLTfilters.hltHighLevel_cfi import hltHighLevel
process.hltFatEventFilter = hltHighLevel.clone()
process.hltFatEventFilter.throw = cms.bool(False)
# HLT_Physics now has the event % 107 filter as well as L1FatEvents
process.hltFatEventFilter.HLTPaths = cms.vstring('HLT_L1FatEvents_v*',
'HLT_Physics_v*')
# This can be used if HLT filter not available in a run
process.selfFatEventFilter = cms.EDFilter(
"HLTL1NumberFilter",
invert=cms.bool(False),
period=cms.uint32(107),
rawInput=cms.InputTag("rawDataCollector"),
fedId=cms.int32(1024))
process.load("DQM.L1TMonitor.L1TStage2_cff")
def setModules(process, options):
process.sampleInfo = cms.EDProducer("tnp::SampleInfoTree",
#vertexCollection = cms.InputTag("offlineSlimmedPrimaryVertices"),
genInfo = cms.InputTag("generator")
)
process.eleVarHelper = cms.EDProducer("PatElectronVariableHelper",
probes = cms.InputTag(options['ELECTRON_COLL']),
vertexCollection = cms.InputTag("offlineSlimmedPrimaryVertices"),
mvaValuesMap = cms.InputTag("electronMVAValueMapProducer:ElectronMVAEstimatorRun2Spring15NonTrig25nsV1Values"),
photonSrc = cms.InputTag("packedPFCandidates"),
packedPFCandidates = cms.InputTag("packedPFCandidates")
)
from HLTrigger.HLTfilters.hltHighLevel_cfi import hltHighLevel
process.hltFilter = hltHighLevel.clone()
process.hltFilter.throw = cms.bool(True)
process.hltFilter.HLTPaths = options['TnPPATHS']
from PhysicsTools.TagAndProbe.pileupConfiguration_cfi import pileupProducer
process.pileupReweightingProducer = pileupProducer.clone()
###################################################################
## ELECTRON MODULES
###################################################################
process.goodElectrons = cms.EDFilter("PATElectronRefSelector",
src = cms.InputTag(options['ELECTRON_COLL']),
cut = cms.string(options['ELECTRON_CUTS'])
)
###################################################################
## SUPERCLUSTER MODULES
###################################################################
process.superClusterCands = cms.EDProducer("ConcreteEcalCandidateProducer",
src = cms.InputTag(options['SUPERCLUSTER_COLL']),
particleType = cms.int32(11),
)
process.goodSuperClusters = cms.EDFilter("RecoEcalCandidateRefSelector",
src = cms.InputTag("superClusterCands"),
cut = cms.string(options['SUPERCLUSTER_CUTS']),
filter = cms.bool(True)
)
process.GsfMatchedSuperClusterCands = cms.EDProducer("ElectronMatchedCandidateProducer",
src = cms.InputTag("superClusterCands"),
ReferenceElectronCollection = cms.untracked.InputTag("goodElectrons"),
cut = cms.string(options['SUPERCLUSTER_CUTS'])
)
###################################################################
## TRIGGER MATCHING
###################################################################
process.goodElectronsTagHLT = cms.EDProducer("PatElectronTriggerCandProducer",
filterNames = cms.vstring(options['TnPHLTTagFilters']),
inputs = cms.InputTag("goodElectronsTAGCutBasedTight"),
bits = cms.InputTag('TriggerResults::HLT'),
objects = cms.InputTag('selectedPatTrigger'),
dR = cms.double(0.3),
isAND = cms.bool(True)
)
process.goodElectronsProbeHLT = cms.EDProducer("PatElectronTriggerCandProducer",
filterNames = cms.vstring(options['TnPHLTProbeFilters']),
inputs = cms.InputTag("goodElectrons"),
bits = cms.InputTag('TriggerResults::HLT'),
objects = cms.InputTag('selectedPatTrigger'),
dR = cms.double(0.3),
isAND = cms.bool(True)
)
process.goodElectronsProbeMeasureHLT = cms.EDProducer("PatElectronTriggerCandProducer",
filterNames = cms.vstring(options['TnPHLTProbeFilters']),
inputs = cms.InputTag("goodElectrons"),
bits = cms.InputTag('TriggerResults::HLT'),
objects = cms.InputTag('selectedPatTrigger'),
dR = cms.double(0.3),
isAND = cms.bool(True)
)
process.goodElectronsMeasureHLT = cms.EDProducer("PatElectronTriggerCandProducer",
filterNames = cms.vstring(options['HLTFILTERTOMEASURE']),
inputs = cms.InputTag("goodElectronsProbeMeasureHLT"),
bits = cms.InputTag('TriggerResults::HLT'),
objects = cms.InputTag('selectedPatTrigger'),
dR = cms.double(0.3),
isAND = cms.bool(False)
)
process.goodSuperClustersHLT = cms.EDProducer("RecoEcalCandidateTriggerCandProducer",
filterNames = cms.vstring(options['TnPHLTProbeFilters']),
inputs = cms.InputTag("goodSuperClusters"),
bits = cms.InputTag('TriggerResults::HLT'),
objects = cms.InputTag('selectedPatTrigger'),
dR = cms.double(0.3),
isAND = cms.bool(True)
)
###################################################################
## MC MATCHES
###################################################################
process.McMatchHLT = cms.EDProducer("MCTruthDeltaRMatcherNew",
matchPDGId = cms.vint32(11),
src = cms.InputTag("goodElectrons"),
distMin = cms.double(0.3),
matched = cms.InputTag("prunedGenParticles"),
checkCharge = cms.bool(True)
)
process.McMatchSC = cms.EDProducer("MCTruthDeltaRMatcherNew",
matchPDGId = cms.vint32(11),
src = cms.InputTag("goodSuperClusters"),
distMin = cms.double(0.3),
matched = cms.InputTag("prunedGenParticles"),
checkCharge = cms.bool(False)
)
process.McMatchTag = cms.EDProducer("MCTruthDeltaRMatcherNew",
matchPDGId = cms.vint32(11),
src = cms.InputTag("goodElectronsTAGCutBasedTight"),
distMin = cms.double(0.2),
matched = cms.InputTag("prunedGenParticles"),
checkCharge = cms.bool(True)
)
process.McMatchRECO = cms.EDProducer("MCTruthDeltaRMatcherNew",
matchPDGId = cms.vint32(11),
src = cms.InputTag("goodElectrons"),
distMin = cms.double(0.2),
matched = cms.InputTag("prunedGenParticles"),
checkCharge = cms.bool(True)
)
###################################################################
## TnP PAIRS
###################################################################
process.tagTightHLT = cms.EDProducer("CandViewShallowCloneCombiner",
decay = cms.string("goodElectronsTagHLT@+ goodElectronsProbeMeasureHLT@-"),
checkCharge = cms.bool(True),
cut = cms.string("40<mass<1000"),
)
process.tagTightSC = cms.EDProducer("CandViewShallowCloneCombiner",
decay = cms.string("goodElectronsTagHLT goodSuperClustersHLT"),
checkCharge = cms.bool(False),
cut = cms.string("40<mass<1000"),
)
process.tagTightRECO = cms.EDProducer("CandViewShallowCloneCombiner",
decay = cms.string("goodElectronsTagHLT@+ goodElectronsProbeHLT@-"),
checkCharge = cms.bool(True),
cut = cms.string("40<mass<1000"),
)
import FWCore.ParameterSet.Config as cms
from HLTrigger.HLTfilters.hltHighLevel_cfi import hltHighLevel
hcalfilter = hltHighLevel.clone(
TriggerResultsTag = cms.InputTag('TriggerResults'),
HLTPaths = cms.vstring('user_step' )
)
hcalfilterSeq = cms.Sequence( hcalfilter )
process.dqmSaver
)
#--------------------------------------------------
# Standard Unpacking Path
process.load("Configuration.StandardSequences.RawToDigi_Data_cff")
process.rawToDigiPath = cms.Path(process.RawToDigi)
#--------------------------------------------------
# Stage2 DQM Paths
# Filter fat events
from HLTrigger.HLTfilters.hltHighLevel_cfi import hltHighLevel
process.hltFatEventFilter = hltHighLevel.clone()
process.hltFatEventFilter.throw = cms.bool(False)
process.hltFatEventFilter.HLTPaths = cms.vstring('HLT_L1FatEvents_v*')
# This can be used if HLT filter not available in a run
process.selfFatEventFilter = cms.EDFilter("HLTL1NumberFilter",
invert = cms.bool(False),
period = cms.uint32(107),
rawInput = cms.InputTag("rawDataCollector"),
fedId = cms.int32(1024)
)
process.load("DQM.L1TMonitor.L1TStage2Emulator_cff")
process.l1tEmulatorMonitorPath = cms.Path(
process.hltFatEventFilter +
from RecoTauTag.Configuration.RecoPFTauTag_cff import * ''' Tag and probe tau ntuple production for Heavy Flavor QCD fake rate studies Author: Evan Friis, UC Davis ([email protected]) Strategy: Unbias trigger selection by requiring an HLT moun, matched to a global muon, with pt > 15 ''' from HLTrigger.HLTfilters.hltHighLevel_cfi import hltHighLevel jetTrigger = hltHighLevel.clone() jetTrigger.HLTPaths = cms.vstring('HLT_L1Jet15') # Simple selection on the potential probe taus # No PFTauRef dictionary?? #probeTauJets = cms.EDProducer("PFTauRefSelector", # src = cms.InputTag('shrinkingConePFTauProducer'), # cut = cms.string('abs(eta) < 2.5 && pfTauTagInfoRef().pfjetRef().pt() > 5.0') #) # Kinematically select taus probeTauJets = cms.EDProducer("CandViewRefSelector", src = cms.InputTag('shrinkingConePFTauProducer'), cut = cms.string('abs(eta) < 2.5 && pt() > 5') )
process.RawToDigi.remove(process.scalersRawToDigi)
process.RawToDigi.remove(process.tcdsDigis)
process.RawToDigi.remove(process.totemTriggerRawToDigi)
process.RawToDigi.remove(process.totemRPRawToDigi)
process.RawToDigi.remove(process.ctppsDiamondRawToDigi)
process.RawToDigi.remove(process.ctppsPixelDigis)
process.rawToDigiPath = cms.Path(process.RawToDigi)
#--------------------------------------------------
# Stage2 Unpacker and DQM Path
# Filter fat events
from HLTrigger.HLTfilters.hltHighLevel_cfi import hltHighLevel
process.hltFatEventFilter = hltHighLevel.clone(
throw=False,
# HLT_Physics now has the event % 107 filter as well as L1FatEvents
HLTPaths=['HLT_L1FatEvents_v*', 'HLT_Physics_v*'])
# This can be used if HLT filter not available in a run
process.selfFatEventFilter = cms.EDFilter(
"HLTL1NumberFilter",
invert=cms.bool(False),
period=cms.uint32(107),
rawInput=cms.InputTag("rawDataCollector"),
fedId=cms.int32(1024))
process.load("DQM.L1TMonitor.L1TStage2_cff")
process.l1tMonitorPath = cms.Path(process.l1tStage2OnlineDQM +
process.hltFatEventFilter +
# process.selfFatEventFilter +
def getHltFilter(self, process):
if not hasattr(process, "hltHighLevel"):
process.hltHighLevel = hltHighLevel.clone()
return process.hltHighLevel
variables = all_variables,
histograms = []
)
print cats
#process.vbfTagDumper.nameTemplate ="$PROCESS_$SQRTS_$LABEL_$SUBCAT_$CLASSNAME"
process.vbfTagDumper.nameTemplate = "$PROCESS_$SQRTS_$CLASSNAME_$SUBCAT_$LABEL"
customize.setDefault("maxEvents" , -1 ) # max-number of events
customize.setDefault("targetLumi", 1.00e+3 ) # define integrated lumi
customize(process)
from HLTrigger.HLTfilters.hltHighLevel_cfi import hltHighLevel
process.hltHighLevel = hltHighLevel.clone(HLTPaths = cms.vstring("HLT_Diphoton30_18_R9Id_OR_IsoCaloId_AND_HE_R9Id_Mass95_v1") )
process.options = cms.untracked.PSet( wantSummary = cms.untracked.bool(True) )
process.hltRequirement = cms.Sequence()
if customize.processId == "Data" and requireTriggerOnData:
process.hltRequirement += process.hltHighLevel
if doSystematics:
process.p1 = cms.Path(
process.hltRequirement*
process.flashggDiPhotonSystematics*
(process.flashggUnpackedJets*process.jetSystematicsSequence)*
(process.flashggTagSequence+process.systematicsTagSequences)*
process.flashggVBFTagMerger*
process.vbfTagDumper
)
import os, sys
from JMTucker.Tools.BasicAnalyzer_cfg import cms, process, add_analyzer
#process.MessageLogger.cerr.FwkReport.reportEvery = 1
process.maxEvents.input = 100
process.source.fileNames = ['file:pat.root']
process.TFileService.fileName = 'resolutions_histos.root'
########################################################################
from HLTrigger.HLTfilters.hltHighLevel_cfi import hltHighLevel
process.goodDataFilter = hltHighLevel.clone()
process.goodDataFilter.TriggerResultsTag = cms.InputTag('TriggerResults', '', 'PAT')
process.goodDataFilter.HLTPaths = ['eventCleaningAll'] # can set to just 'goodOfflinePrimaryVertices', for example
process.goodDataFilter.andOr = False # = AND
process.triggerFilter = hltHighLevel.clone()
process.triggerFilter.HLTPaths = ['HLT_QuadJet50_v*']
process.triggerFilter.andOr = True # = OR
########################################################################
process.load('JMTucker.Tools.ResolutionsHistogrammer_cfi')
for x in ['WithTrigger']:
setattr(process, 'histos' + x, process.histos.clone())
########################################################################
process.p0 = cms.Path( process.histos)
process.p1 = cms.Path(process.triggerFilter * process.histosWithTrigger)
from JMTucker.Tools.BasicAnalyzer_cfg import cms, process
process.source.fileNames = '''/store/user/tucker/mfv_neutralino_tau1000um_M0400/mfv_neutralino_tau1000um_M0400/a6ab3419cb64660d6c68351b3cff9fb0/aodpat_1_1_X2h.root
/store/user/tucker/mfv_neutralino_tau1000um_M0400/mfv_neutralino_tau1000um_M0400/a6ab3419cb64660d6c68351b3cff9fb0/aodpat_2_2_vbl.root
/store/user/tucker/mfv_neutralino_tau1000um_M0400/mfv_neutralino_tau1000um_M0400/a6ab3419cb64660d6c68351b3cff9fb0/aodpat_3_2_yEE.root
/store/user/tucker/mfv_neutralino_tau1000um_M0400/mfv_neutralino_tau1000um_M0400/a6ab3419cb64660d6c68351b3cff9fb0/aodpat_4_1_vkj.root
/store/user/tucker/mfv_neutralino_tau1000um_M0400/mfv_neutralino_tau1000um_M0400/a6ab3419cb64660d6c68351b3cff9fb0/aodpat_5_3_Tce.root
/store/user/tucker/mfv_neutralino_tau1000um_M0400/mfv_neutralino_tau1000um_M0400/a6ab3419cb64660d6c68351b3cff9fb0/aodpat_6_1_a0t.root
/store/user/tucker/mfv_neutralino_tau1000um_M0400/mfv_neutralino_tau1000um_M0400/a6ab3419cb64660d6c68351b3cff9fb0/aodpat_7_2_Qv8.root
/store/user/tucker/mfv_neutralino_tau1000um_M0400/mfv_neutralino_tau1000um_M0400/a6ab3419cb64660d6c68351b3cff9fb0/aodpat_8_1_3WZ.root
/store/user/tucker/mfv_neutralino_tau1000um_M0400/mfv_neutralino_tau1000um_M0400/a6ab3419cb64660d6c68351b3cff9fb0/aodpat_9_1_ANl.root
/store/user/tucker/mfv_neutralino_tau1000um_M0400/mfv_neutralino_tau1000um_M0400/a6ab3419cb64660d6c68351b3cff9fb0/aodpat_10_1_VPN.root'''.split('\n')
process.TFileService.fileName = 'cosmic_muons.root'
from HLTrigger.HLTfilters.hltHighLevel_cfi import hltHighLevel
process.triggerFilter = hltHighLevel.clone()
process.triggerFilter.HLTPaths = ['HLT_QuadJet50_v*']
process.triggerFilter.andOr = True # = OR
process.CosmicMuons = cms.EDAnalyzer('CosmicMuons',
track_src = cms.InputTag('globalCosmicMuons'),
primary_vertex_src = cms.InputTag('goodOfflinePrimaryVertices'),
beamspot_src = cms.InputTag('offlineBeamSpot'),
general_track_src = cms.InputTag('generalTracks'),
gen_particle_src = cms.InputTag('genParticles'),
min_pt = cms.double(1),
max_eta = cms.double(2.4),
min_npxhits = cms.int32(1),
min_nsthits = cms.int32(6),
min_nmuhits = cms.int32(2),
min_dxy = cms.double(0.01),
process.GlobalTag.globaltag = 'START44_V7::All'
process.source = cms.Source(
"PoolSource",
fileNames=cms.untracked.vstring(
#'file:patTuple.root'
'file:tupleMC.root'))
process.maxEvents = cms.untracked.PSet(input=cms.untracked.int32(5000))
process.options = cms.untracked.PSet(wantSummary=cms.untracked.bool(True))
process.TFileService = cms.Service('TFileService',
fileName=cms.string('plots_simple.root'))
from HLTrigger.HLTfilters.hltHighLevel_cfi import hltHighLevel
reskim = hltHighLevel.clone(
TriggerResultsTag=cms.InputTag('TriggerResults', '', ''))
process.recoMu = reskim.clone(HLTPaths=['skim_RecoMu'], )
process.bscMinBias = hltHighLevel.clone(
HLTPaths=['HLT_L1_BscMinBiasOR_BptxPlusORMinus'], )
## Common plots
loose_cut = 'isGlobalMuon '
## trigger_match = '(' \
## ' triggerMatchesByPath("HLT_Mu9").at(0).pt() > 15) || ' \
## '!triggerObjectMatchesByPath("HLT_Mu15_v1").empty()' \
## ')'
trigger_match = ' '
my_cut = ' && isTrackerMuon ' \
