def baseconfig(
globaltag,
input_files,
maxevents,
nickname,
outputfilename,
channel='mm',
is_data=None,
kappa_verbosity=0,
):
"""
Create the CMSSW/cmsRun config for the z+jet skim
:param globaltag: CMS global tag for the data
:param globaltag: str
:param input_files: files to process
:type input_files: list[str]
:param maxevents: number of events to process; `-1` implies all events
:type maxevents: int
:param nickname: nickname of the skim
:type nickname: str
:param channel: decay channel of Z; either of `mm` , `em`, `ee`
:type channel: str
:param is_data: whether input is data or simulated; use `None` for autodetection
:type is_data: bool or None
"""
# Config parameters ##############################################
cmssw_version = os.environ["CMSSW_VERSION"].split('_')
cmssw_version = tuple([int(i) for i in cmssw_version[1:4]] + cmssw_version[4:])
autostr = ""
if globaltag.lower() == 'auto':
from Configuration.AlCa.autoCond import autoCond
globaltag = autoCond['startup']
autostr = " (from autoCond)"
if is_data is None:
data = ('Double' in input_files[0]) or ('Single' in input_files[0])
else:
data = is_data
miniaod = False
add_puppi = (channel == 'mm')
## print information
print "\n------- CONFIGURATION 1 ---------"
print "input: ", input_files[0], "... (%d files)" % len(input_files) if len(input_files) > 1 else ""
print "file type: ", "miniAOD" if miniaod else "AOD"
print "data: ", data
print "output: ", outputfilename
print "nickname: ", nickname
print "global tag: ", globaltag + autostr
print "max events: ", maxevents if maxevents >= 0 else "all"
print "cmssw version: ", '.'.join([str(i) for i in cmssw_version])
print "channel: ", channel
print "add_puppi: ", add_puppi
print "kappa verbosity:", kappa_verbosity
print "---------------------------------"
print
# Basic Process Setup ############################################
process = cms.Process("KAPPA")
process.path = cms.Path()
process.maxEvents = cms.untracked.PSet(
input=cms.untracked.int32(maxevents)
)
process.options = cms.untracked.PSet(
wantSummary=cms.untracked.bool(True)
)
process.source = cms.Source("PoolSource",
fileNames=cms.untracked.vstring(input_files)
)
# message logger
process.load("FWCore.MessageLogger.MessageLogger_cfi")
process.MessageLogger.cerr.FwkReport.reportEvery = 50
process.MessageLogger.default = cms.untracked.PSet(
ERROR=cms.untracked.PSet(limit=cms.untracked.int32(5))
)
## Geometry and Detector Conditions (needed for a few patTuple production steps)
if cmssw_version > (7, 4, 0, 'pre8'):
# https://twiki.cern.ch/twiki/bin/view/Sandbox/MyRootMakerFrom72XTo74X#DDVectorGetter_vectors_are_empty
print "Use condDBv2 and GeometryRecoDB:"
process.load("Configuration.Geometry.GeometryRecoDB_cff")
process.load('Configuration.StandardSequences.FrontierConditions_GlobalTag_condDBv2_cff')
else:
process.load("Configuration.Geometry.GeometryIdeal_cff")
process.load("Configuration.StandardSequences.FrontierConditions_GlobalTag_cff")
process.load("Configuration.StandardSequences.MagneticField_cff")
process.GlobalTag.globaltag = cms.string(globaltag)
# Kappa ##########################################################
process.load('Kappa.Producers.KTuple_cff')
process.kappaTuple = cms.EDAnalyzer('KTuple',
process.kappaTupleDefaultsBlock,
outputFile = cms.string(outputfilename),
)
process.kappaTuple.verbose = kappa_verbosity
process.kappaOut = cms.Sequence(process.kappaTuple)
process.kappaTuple.active = cms.vstring('VertexSummary', 'BeamSpot')
if data:
process.kappaTuple.active += cms.vstring('DataInfo')
else:
process.kappaTuple.active += cms.vstring('GenInfo', 'GenParticles')
if cmssw_version >= (7, 4, 0):
process.kappaTuple.Info.overrideHLTCheck = cms.untracked.bool(True)
# must be set explicitly for consume emchanic
if cmssw_version >= (7, 6, 0):
process.kappaTuple.Info.hltSource = cms.InputTag("TriggerResults", "", "HLT")
if channel == 'mm':
process.kappaTuple.Info.hltWhitelist = cms.vstring(
# HLT regex selection can be tested at https://regex101.com (with gm options)
# single muon triggers, e.g. HLT_Mu50_v1
"^HLT_(Iso)?(Tk)?Mu[0-9]+(_eta2p1|_TrkIsoVVL)?_v[0-9]+$",
# double muon triggers, e.g. HLT_Mu17_TrkIsoVVL_Mu8_TrkIsoVVL_DZ_v1
"^HLT_Mu[0-9]+(_TrkIsoVVL)?_(Tk)?Mu[0-9]+(_TrkIsoVVL)?(_DZ)?_v[0-9]+$",
)
elif channel == 'ee':
process.kappaTuple.Info.hltWhitelist = cms.vstring(
"^HLT_Ele[0-9]+_Ele[0-9]+(_CaloIdL)?(_TrackIdL)?(_IsoVL)?(_DZ)?_v[0-9]+$",
)
# Primary Input Collections ###################################################
## miniAOD has NOT been tested, I'm just guessing names - MF@20150907
if miniaod:
input_PFCandidates = 'packedPFCandidates'
input_PFCandidatePtrs = 'packedPFCandidatesPtrs'
input_PrimaryVertices = 'offlineSlimmedPrimaryVertices'
else:
input_PFCandidates = 'particleFlow'
input_PFCandidatePtrs = 'particleFlowPtrs'
input_PrimaryVertices = 'goodOfflinePrimaryVertices'
# PFCandidates ###################################################
## Good offline PV selection:
from PhysicsTools.SelectorUtils.pvSelector_cfi import pvSelector
process.goodOfflinePrimaryVertices = cms.EDFilter('PrimaryVertexObjectFilter',
filterParams = pvSelector.clone(maxZ = 24.0), # ndof >= 4, rho <= 2
)
## ------------------------------------------------------------------------
## TopProjections from CommonTools/ParticleFlow:
process.load("CommonTools.ParticleFlow.pfNoPileUpIso_cff")
process.load("CommonTools.ParticleFlow.pfNoPileUpIso_cff")
process.load("CommonTools.ParticleFlow.pfParticleSelection_cff")
## pf candidate configuration for everything but CHS jets
process.pfPileUpIso.PFCandidates = cms.InputTag(input_PFCandidates)
process.pfPileUpIso.Vertices = cms.InputTag(input_PrimaryVertices)
process.pfPileUpIso.checkClosestZVertex = True
process.pfNoPileUpIso.bottomCollection = cms.InputTag(input_PFCandidates)
## pf candidate configuration for deltaBeta corrections for muons and electrons
process.pfNoPileUpChargedHadrons = process.pfAllChargedHadrons.clone()
process.pfNoPileUpNeutralHadrons = process.pfAllNeutralHadrons.clone()
process.pfNoPileUpPhotons = process.pfAllPhotons.clone()
process.pfPileUpChargedHadrons = process.pfAllChargedHadrons.clone(src = 'pfPileUpIso')
## pf candidate configuration for CHS jets
process.pfPileUp.Vertices = cms.InputTag(input_PrimaryVertices)
process.pfPileUp.checkClosestZVertex = False
# Modifications for new particleFlow Pointers
process.pfPileUp.PFCandidates = cms.InputTag(input_PFCandidatePtrs)
process.pfPileUpIso.PFCandidates = cms.InputTag(input_PFCandidatePtrs)
process.pfNoPileUp.bottomCollection = cms.InputTag(input_PFCandidatePtrs)
process.pfNoPileUpIso.bottomCollection = cms.InputTag(input_PFCandidatePtrs)
process.path *= (
process.goodOfflinePrimaryVertices
* process.pfParticleSelectionSequence
)
if add_puppi:
## PUPPI - https://twiki.cern.ch/twiki/bin/viewauth/CMS/PUPPI
# creates filtered PFCandidates collection 'puppi'
process.load('CommonTools.PileupAlgos.Puppi_cff')
process.puppi.candName = cms.InputTag(input_PFCandidates)
process.puppi.vertexName = cms.InputTag(input_PrimaryVertices)
# PFCandidates w/o muons for PUPPI - avoid misidentification from high-PT muons
process.PFCandidatesNoMu = cms.EDFilter("CandPtrSelector",
src = cms.InputTag(input_PFCandidates),
cut = cms.string("abs(pdgId)!=13" )
)
process.PFCandidatesOnlyMu = cms.EDFilter("CandPtrSelector",
src = cms.InputTag(input_PFCandidates),
cut = cms.string("abs(pdgId)==13" )
)
# veto without any muons
process.puppinomutmp = process.puppi.clone(
candName = cms.InputTag('PFCandidatesNoMu')
)
# nomu veto, muons merged back again for proper MET etc.
process.puppinomu = cms.EDProducer("CandViewMerger",
src = cms.VInputTag( "puppinomutmp", "PFCandidatesOnlyMu")
)
process.path *= (process.puppi * (process.PFCandidatesNoMu * process.PFCandidatesOnlyMu * process.puppinomutmp * process.puppinomu))
# Muons ##########################################################
if channel == 'mm':
process.load('Kappa.Skimming.KMuons_run2_cff')
process.muPreselection1 = cms.EDFilter('CandViewSelector',
src = cms.InputTag('muons'),
cut = cms.string("pt>8.0"),
)
process.muPreselection2 = cms.EDFilter('CandViewCountFilter',
src = cms.InputTag('muPreselection1'),
minNumber = cms.uint32(2),
)
process.kappaTuple.Muons.minPt = 8.0
process.kappaTuple.Muons.doPfIsolation = cms.bool(False)
process.kappaTuple.active += cms.vstring('Muons')
process.path *= (process.muPreselection1 * process.muPreselection2 * process.makeKappaMuons)
# Electrons ########################################################
elif channel == 'ee':
process.load('Kappa.Skimming.KElectrons_run2_cff')
process.ePreselection1 = cms.EDFilter('CandViewSelector',
src = cms.InputTag('patElectrons'),
cut = cms.string("pt>8.0"),
)
process.ePreselection2 = cms.EDFilter('CandViewCountFilter',
src = cms.InputTag('ePreselection1'),
minNumber = cms.uint32(2),
)
process.kappaTuple.Electrons.minPt = 8.0
from Kappa.Skimming.KElectrons_run2_cff import setupElectrons
process.kappaTuple.Electrons.ids = cms.VInputTag("cutBasedElectronID_Spring15_25ns_V1_standalone_loose",
"cutBasedElectronID_Spring15_25ns_V1_standalone_medium",
"cutBasedElectronID_Spring15_25ns_V1_standalone_tight",
"cutBasedElectronID_Spring15_25ns_V1_standalone_veto",
"ElectronMVAEstimatorRun2Spring15NonTrig25nsV1Values")
setupElectrons(process)
process.kappaTuple.active += cms.vstring('Electrons')
process.path *= (process.makeKappaElectrons * process.ePreselection1 * process.ePreselection2)
# Jets ###########################################################
# Kappa jet processing
process.kappaTuple.Jets.minPt = 5.0
process.kappaTuple.Jets.taggers = cms.vstring()
# containers for objects to process
jet_resources = []
cmssw_jets = {} # algoname: cmssw module
kappa_jets = {} # algoname: kappa jet config
# GenJets
if not data:
process.load('RecoJets.Configuration.GenJetParticles_cff')
process.load('RecoJets.JetProducers.ak5GenJets_cfi')
jet_resources.append(process.genParticlesForJetsNoNu)
process.kappaTuple.active += cms.vstring('LV')
process.kappaTuple.LV.whitelist = cms.vstring('ak5GenJetsNoNu') #default?
genbase_jet = process.ak5GenJets.clone(src=cms.InputTag("genParticlesForJetsNoNu"), doAreaFastjet=True)
## PFBRECO?
process.load("RecoJets.JetProducers.ak5PFJets_cfi")
pfbase_jet = process.ak5PFJets.clone(srcPVs = 'goodOfflinePrimaryVertices', doAreaFastjet=True)
# create Jet variants
for param in (4, 5, 8):
# PFJets
algos_and_tags = [("", input_PFCandidates), ("CHS", 'pfNoPileUp')]
if add_puppi:
algos_and_tags += [("Puppi", 'puppi'),("PuppiNoMu", 'puppinomu')]
for algo, input_tag in algos_and_tags:
variant_name = "ak%dPFJets%s" % (param, algo)
variant_mod = pfbase_jet.clone(src=cms.InputTag(input_tag), rParam=param/10.0)
cmssw_jets[variant_name] = variant_mod
# Full Kappa jet definition
kappa_jets["ak%dPFJets%s"%(param, algo)] = cms.PSet(
src = cms.InputTag(variant_name),
PUJetID = cms.InputTag("ak%dPF%sPuJetMva" % (param, algo)),
PUJetID_full = cms.InputTag("full"),
QGtagger = cms.InputTag("AK%dPFJets%sQGTagger" % (param, algo)),
Btagger = cms.InputTag("ak%dPF%s" % (param, algo)),
)
# GenJets
if not data:
for collection in ("NoNu",): # TODO: add "NoMuNoNu", "" ?
variant_name = "ak%sGenJets%s" % (param, collection)
variant_mod = genbase_jet.clone(rParam=param/10.0)
cmssw_jets[variant_name] = variant_mod
# GenJets are just KLVs
process.kappaTuple.LV.whitelist += cms.vstring(variant_name)
# mount generated jets for processing
for name, jet_module in cmssw_jets.iteritems():
setattr(process, name, jet_module)
for name, pset in kappa_jets.iteritems():
setattr(process.kappaTuple.Jets, name, pset)
process.path *= reduce(lambda a, b: a * b, jet_resources + sorted(cmssw_jets.values()))
# Gluon tagging? - https://twiki.cern.ch/twiki/bin/viewauth/CMS/GluonTag
# B-tagging (for ak5 jets)? - https://twiki.cern.ch/twiki/bin/view/CMSPublic/WorkBookBTagging#DifferentJets
# B-tagging for (ak5 CHS jets)? - https://twiki.cern.ch/twiki/bin/view/CMSPublic/WorkBookBTagging#DifferentJets
# PileupDensity ########################
from RecoJets.JetProducers.kt4PFJets_cfi import kt4PFJets
process.pileupDensitykt6PFJets = kt4PFJets.clone(rParam=0.6, doRhoFastjet=True, Rho_EtaMax=2.5)
process.kappaTuple.active += cms.vstring('Jets', 'PileupDensity')
process.kappaTuple.PileupDensity.rename = cms.vstring("fixedGridRhoFastjetAll => pileupDensity")
process.path *= (
process.pileupDensitykt6PFJets
)
# MET correction ----------------------------------------------------------
#TODO check type 0 corrections
from RecoMET.METProducers.PFMET_cfi import pfMet
process.pfMETCHS = pfMet.clone(src=cms.InputTag(input_PFCandidates))
process.kappaTuple.active += cms.vstring('MET')
# MET without forward region
process.PFCandidatesNoHF = cms.EDFilter("CandPtrSelector",
src = cms.InputTag(input_PFCandidates),
cut = cms.string("abs(eta) < 3" )
)
process.pfMETCHSNoHF = pfMet.clone(src=cms.InputTag('PFCandidatesNoHF'))
process.path *= (process.pfMETCHS * process.PFCandidatesNoHF * process.pfMETCHSNoHF)
if add_puppi:
process.pfMetPuppi = pfMet.clone(src=cms.InputTag('puppi'))
process.pfMetPuppiNoMu = pfMet.clone(src=cms.InputTag('puppinomu'))
process.path *= (
process.pfMetPuppi
* process.pfMetPuppiNoMu
)
process.PuppiNoHF = cms.EDFilter("CandPtrSelector",
src = cms.InputTag('puppi'),
cut = cms.string("abs(eta) < 3" )
)
process.PuppiNoMuNoHF = cms.EDFilter("CandPtrSelector",
src = cms.InputTag('puppinomu'),
cut = cms.string("abs(eta) < 3" )
)
process.pfMetPuppiNoHF = pfMet.clone(src=cms.InputTag('PuppiNoHF'))
process.pfMetPuppiNoMuNoHF = pfMet.clone(src=cms.InputTag('PuppiNoMuNoHF'))
process.path *= (
process.PuppiNoHF * process.pfMetPuppiNoHF
* process.PuppiNoMuNoHF * process.pfMetPuppiNoMuNoHF
)
process.kappaTuple.MET.whitelist += cms.vstring('pfMetPuppiNoHF', 'pfMetPuppiNoMuNoHF')
# Kappa Output ###########################################################
process.path *= (
process.kappaOut
)
# explicit declaration until white/blacklist works again - MF@160119
# note: extracted from running on CMSSW < 7_6
if cmssw_version >= (7, 6, 0):
process.kappaTuple.BeamSpot.offlineBeamSpot = cms.PSet(src=cms.InputTag("offlineBeamSpot"))
process.kappaTuple.VertexSummary.offlinePrimaryVerticesSummary = cms.PSet(src=cms.InputTag("offlinePrimaryVertices"))
process.kappaTuple.VertexSummary.goodOfflinePrimaryVerticesSummary = cms.PSet(src=cms.InputTag("goodOfflinePrimaryVertices"))
if not data:
process.kappaTuple.LV.ak4GenJetsNoNu = cms.PSet(src=cms.InputTag("ak4GenJetsNoNu"))
process.kappaTuple.LV.ak5GenJetsNoNu = cms.PSet(src=cms.InputTag("ak5GenJetsNoNu"))
process.kappaTuple.LV.ak8GenJetsNoNu = cms.PSet(src=cms.InputTag("ak8GenJetsNoNu"))
process.kappaTuple.PileupDensity.pileupDensity = cms.PSet(src=cms.InputTag("fixedGridRhoFastjetAll"))
process.kappaTuple.PileupDensity.pileupDensityCalo = cms.PSet(src=cms.InputTag("fixedGridRhoFastjetAllCalo"))
process.kappaTuple.MET.pfChMet = cms.PSet(src=cms.InputTag("pfChMet"))
process.kappaTuple.MET.metCHS = cms.PSet(src=cms.InputTag("pfMETCHS"))
process.kappaTuple.MET.metCHSNoHF = cms.PSet(src=cms.InputTag("pfMETCHSNoHF"))
process.kappaTuple.MET.met = cms.PSet(src=cms.InputTag("pfMet"))
process.kappaTuple.MET.metEI = cms.PSet(src=cms.InputTag("pfMetEI"))
if channel == 'mm':
process.kappaTuple.MET.metPuppi = cms.PSet(src=cms.InputTag("pfMetPuppi"))
process.kappaTuple.MET.metPuppiNoHF = cms.PSet(src=cms.InputTag("pfMetPuppiNoHF"))
# final information:
print "------- CONFIGURATION 2 ---------"
print "CMSSW producers:"
for p in str(process.path).split('+'):
print " %s" % p
print "Kappa producers:"
for p in sorted(process.kappaTuple.active):
print " %s" % p
print "---------------------------------"
return process
process.load('Kappa.Skimming.KMuons_run2_cff')
process.kappaTuple.Muons.minPt = 8.0
process.kappaTuple.Muons.doPfIsolation = cms.bool(False)
process.kappaTuple.active += cms.vstring('Muons')
process.path *= (process.makeKappaMuons)
# Electrons ########################################################
process.load('Kappa.Skimming.KElectrons_run2_cff')
process.kappaTuple.Electrons.minPt = 8.0
process.kappaTuple.Electrons.ids = cms.vstring("cutBasedElectronID_Spring15_25ns_V1_standalone_loose",
"cutBasedElectronID_Spring15_25ns_V1_standalone_medium",
"cutBasedElectronID_Spring15_25ns_V1_standalone_tight",
"cutBasedElectronID_Spring15_25ns_V1_standalone_veto",
"ElectronMVAEstimatorRun2Spring15NonTrig25nsV1Values")
from Kappa.Skimming.KElectrons_run2_cff import setupElectrons
setupElectrons(process)
process.kappaTuple.active += cms.vstring('Electrons')
process.path *= process.makeKappaElectrons
# Jets ###########################################################
# Kappa jet processing
process.kappaTuple.Jets.minPt = 5.0
process.kappaTuple.Jets.taggers = cms.vstring()
# containers for objects to process
#jet_resources = []
#cmssw_jets = {} # algoname: cmssw module
kappa_jets = {} # algoname: kappa jet config
# GenJets
def baseconfig(
globaltag,
input_files,
maxevents,
nickname,
outputfilename,
channel='mm',
is_data=None,
kappa_verbosity=0,
):
"""
Create the CMSSW/cmsRun config for the z+jet skim
:param globaltag: CMS global tag for the data
:param globaltag: str
:param input_files: files to process
:type input_files: list[str]
:param maxevents: number of events to process; `-1` implies all events
:type maxevents: int
:param nickname: nickname of the skim
:type nickname: str
:param channel: decay channel of Z; either of `mm` , `em`, `ee`
:type channel: str
:param is_data: whether input is data or simulated; use `None` for autodetection
:type is_data: bool or None
"""
# Config parameters ##############################################
cmssw_version = os.environ["CMSSW_VERSION"].split('_')
cmssw_version = tuple([int(i) for i in cmssw_version[1:4]] + cmssw_version[4:])
autostr = ""
if globaltag.lower() == 'auto':
from Configuration.AlCa.autoCond import autoCond
globaltag = autoCond['startup']
autostr = " (from autoCond)"
if is_data is None:
data = ('Double' in input_files[0]) or ('Single' in input_files[0])
else:
data = is_data
miniaod = False
add_puppi = (channel == 'mm')
## print information
print "\n------- CONFIGURATION 1 ---------"
print "input: ", input_files[0], "... (%d files)" % len(input_files) if len(input_files) > 1 else ""
print "file type: ", "miniAOD" if miniaod else "AOD"
print "data: ", data
print "output: ", outputfilename
print "nickname: ", nickname
print "global tag: ", globaltag + autostr
print "max events: ", maxevents if maxevents >= 0 else "all"
print "cmssw version: ", '.'.join([str(i) for i in cmssw_version])
print "channel: ", channel
print "add_puppi: ", add_puppi
print "kappa verbosity:", kappa_verbosity
print "---------------------------------"
print
# Basic Process Setup ############################################
process = cms.Process("KAPPA")
process.path = cms.Path()
process.maxEvents = cms.untracked.PSet(
input=cms.untracked.int32(maxevents)
)
process.options = cms.untracked.PSet(
wantSummary=cms.untracked.bool(True)
)
process.source = cms.Source("PoolSource",
fileNames=cms.untracked.vstring(input_files)
)
# message logger
process.load("FWCore.MessageLogger.MessageLogger_cfi")
process.MessageLogger.cerr.FwkReport.reportEvery = 50
process.MessageLogger.default = cms.untracked.PSet(
ERROR=cms.untracked.PSet(limit=cms.untracked.int32(5))
)
## Geometry and Detector Conditions (needed for a few patTuple production steps)
if cmssw_version > (7, 4, 0, 'pre8'):
# https://twiki.cern.ch/twiki/bin/view/Sandbox/MyRootMakerFrom72XTo74X#DDVectorGetter_vectors_are_empty
print "Use condDBv2 and GeometryRecoDB:"
process.load("Configuration.Geometry.GeometryRecoDB_cff")
process.load('Configuration.StandardSequences.FrontierConditions_GlobalTag_condDBv2_cff')
else:
process.load("Configuration.Geometry.GeometryIdeal_cff")
process.load("Configuration.StandardSequences.FrontierConditions_GlobalTag_cff")
process.load("Configuration.StandardSequences.MagneticField_cff")
process.GlobalTag.globaltag = cms.string(globaltag)
# Kappa ##########################################################
process.load('Kappa.Producers.KTuple_cff')
process.kappaTuple = cms.EDAnalyzer('KTuple',
process.kappaTupleDefaultsBlock,
outputFile = cms.string(outputfilename),
)
process.kappaTuple.verbose = kappa_verbosity
process.kappaOut = cms.Sequence(process.kappaTuple)
process.kappaTuple.active = cms.vstring('VertexSummary', 'BeamSpot')
if data:
process.kappaTuple.active += cms.vstring('DataInfo')
else:
process.kappaTuple.active += cms.vstring('GenInfo', 'GenParticles')
if cmssw_version >= (7, 4, 0):
process.kappaTuple.Info.overrideHLTCheck = cms.untracked.bool(True)
# must be set explicitly for consume emchanic
if cmssw_version >= (7, 6, 0):
process.kappaTuple.Info.hltSource = cms.InputTag("TriggerResults", "", "HLT")
if channel == 'mm':
process.kappaTuple.Info.hltWhitelist = cms.vstring(
# HLT regex selection can be tested at https://regex101.com (with gm options)
# single muon triggers, e.g. HLT_Mu50_v1
"^HLT_(Iso)?(Tk)?Mu[0-9]+(_eta2p1|_TrkIsoVVL)?_v[0-9]+$",
# double muon triggers, e.g. HLT_Mu17_TrkIsoVVL_Mu8_TrkIsoVVL_DZ_v1
"^HLT_Mu[0-9]+(_TrkIsoVVL)?_(Tk)?Mu[0-9]+(_TrkIsoVVL)?(_DZ)?_v[0-9]+$",
)
elif channel == 'ee':
process.kappaTuple.Info.hltWhitelist = cms.vstring(
"^HLT_Ele[0-9]+_Ele[0-9]+(_CaloIdL)?(_TrackIdL)?(_IsoVL)?(_DZ)?_v[0-9]+$",
)
# Primary Input Collections ###################################################
## miniAOD has NOT been tested, I'm just guessing names - MF@20150907
if miniaod:
input_PFCandidates = 'packedPFCandidates'
input_PFCandidatePtrs = 'packedPFCandidatesPtrs'
input_PrimaryVertices = 'offlineSlimmedPrimaryVertices'
else:
input_PFCandidates = 'particleFlow'
input_PFCandidatePtrs = 'particleFlowPtrs'
input_PrimaryVertices = 'goodOfflinePrimaryVertices'
# PFCandidates ###################################################
## Good offline PV selection:
from PhysicsTools.SelectorUtils.pvSelector_cfi import pvSelector
process.goodOfflinePrimaryVertices = cms.EDFilter('PrimaryVertexObjectFilter',
filterParams = pvSelector.clone(maxZ = 24.0), # ndof >= 4, rho <= 2
)
## ------------------------------------------------------------------------
## TopProjections from CommonTools/ParticleFlow:
process.load("CommonTools.ParticleFlow.pfNoPileUpIso_cff")
process.load("CommonTools.ParticleFlow.pfNoPileUpIso_cff")
process.load("CommonTools.ParticleFlow.pfParticleSelection_cff")
## pf candidate configuration for everything but CHS jets
process.pfPileUpIso.PFCandidates = cms.InputTag(input_PFCandidates)
process.pfPileUpIso.Vertices = cms.InputTag(input_PrimaryVertices)
process.pfPileUpIso.checkClosestZVertex = True
process.pfNoPileUpIso.bottomCollection = cms.InputTag(input_PFCandidates)
## pf candidate configuration for deltaBeta corrections for muons and electrons
process.pfNoPileUpChargedHadrons = process.pfAllChargedHadrons.clone()
process.pfNoPileUpNeutralHadrons = process.pfAllNeutralHadrons.clone()
process.pfNoPileUpPhotons = process.pfAllPhotons.clone()
process.pfPileUpChargedHadrons = process.pfAllChargedHadrons.clone(src = 'pfPileUpIso')
## pf candidate configuration for CHS jets
process.pfPileUp.Vertices = cms.InputTag(input_PrimaryVertices)
process.pfPileUp.checkClosestZVertex = False
# Modifications for new particleFlow Pointers
process.pfPileUp.PFCandidates = cms.InputTag(input_PFCandidatePtrs)
process.pfPileUpIso.PFCandidates = cms.InputTag(input_PFCandidatePtrs)
process.pfNoPileUp.bottomCollection = cms.InputTag(input_PFCandidatePtrs)
process.pfNoPileUpIso.bottomCollection = cms.InputTag(input_PFCandidatePtrs)
process.path *= (
process.goodOfflinePrimaryVertices
* process.pfParticleSelectionSequence
)
if add_puppi:
## PUPPI - https://twiki.cern.ch/twiki/bin/viewauth/CMS/PUPPI
# creates filtered PFCandidates collection 'puppi'
process.load('CommonTools.PileupAlgos.Puppi_cff')
process.puppi.candName = cms.InputTag(input_PFCandidates)
process.puppi.vertexName = cms.InputTag(input_PrimaryVertices)
# PFCandidates w/o muons for PUPPI - avoid misidentification from high-PT muons
process.PFCandidatesNoMu = cms.EDFilter("CandPtrSelector",
src = cms.InputTag(input_PFCandidates),
cut = cms.string("abs(pdgId)!=13" )
)
process.PFCandidatesOnlyMu = cms.EDFilter("CandPtrSelector",
src = cms.InputTag(input_PFCandidates),
cut = cms.string("abs(pdgId)==13" )
)
# veto without any muons
process.puppinomutmp = process.puppi.clone(
candName = cms.InputTag('PFCandidatesNoMu')
)
# nomu veto, muons merged back again for proper MET etc.
process.puppinomu = cms.EDProducer("CandViewMerger",
src = cms.VInputTag( "puppinomutmp", "PFCandidatesOnlyMu")
)
process.path *= (process.puppi * (process.PFCandidatesNoMu * process.PFCandidatesOnlyMu * process.puppinomutmp * process.puppinomu))
# Muons ##########################################################
if channel == 'mm':
process.load('Kappa.Skimming.KMuons_run2_cff')
process.muPreselection1 = cms.EDFilter('CandViewSelector',
src = cms.InputTag('muons'),
cut = cms.string("pt>8.0"),
)
process.muPreselection2 = cms.EDFilter('CandViewCountFilter',
src = cms.InputTag('muPreselection1'),
minNumber = cms.uint32(2),
)
process.kappaTuple.Muons.minPt = 8.0
process.kappaTuple.Muons.doPfIsolation = cms.bool(False)
process.kappaTuple.active += cms.vstring('Muons')
process.path *= (process.muPreselection1 * process.muPreselection2 * process.makeKappaMuons)
# Electrons ########################################################
elif channel == 'ee':
process.load('Kappa.Skimming.KElectrons_run2_cff')
process.ePreselection1 = cms.EDFilter('CandViewSelector',
src = cms.InputTag('patElectrons'),
cut = cms.string("pt>8.0"),
)
process.ePreselection2 = cms.EDFilter('CandViewCountFilter',
src = cms.InputTag('ePreselection1'),
minNumber = cms.uint32(2),
)
process.kappaTuple.Electrons.minPt = 8.0
from Kappa.Skimming.KElectrons_run2_cff import setupElectrons
process.kappaTuple.Electrons.ids = cms.vstring("cutBasedElectronID_Spring15_25ns_V1_standalone_loose",
"cutBasedElectronID_Spring15_25ns_V1_standalone_medium",
"cutBasedElectronID_Spring15_25ns_V1_standalone_tight",
"cutBasedElectronID_Spring15_25ns_V1_standalone_veto",
"ElectronMVAEstimatorRun2Spring15NonTrig25nsV1Values")
setupElectrons(process)
process.kappaTuple.active += cms.vstring('Electrons')
process.path *= (process.makeKappaElectrons * process.ePreselection1 * process.ePreselection2)
# Jets ###########################################################
# Kappa jet processing
process.kappaTuple.Jets.minPt = 5.0
process.kappaTuple.Jets.taggers = cms.vstring()
# containers for objects to process
jet_resources = []
cmssw_jets = {} # algoname: cmssw module
kappa_jets = {} # algoname: kappa jet config
# GenJets
if not data:
process.load('RecoJets.Configuration.GenJetParticles_cff')
process.load('RecoJets.JetProducers.ak5GenJets_cfi')
jet_resources.append(process.genParticlesForJetsNoNu)
process.kappaTuple.active += cms.vstring('LV')
process.kappaTuple.LV.whitelist = cms.vstring('ak5GenJetsNoNu') #default?
genbase_jet = process.ak5GenJets.clone(src=cms.InputTag("genParticlesForJetsNoNu"), doAreaFastjet=True)
## PFBRECO?
process.load("RecoJets.JetProducers.ak5PFJets_cfi")
pfbase_jet = process.ak5PFJets.clone(srcPVs = 'goodOfflinePrimaryVertices', doAreaFastjet=True)
# create Jet variants
for param in (4, 5, 8):
# PFJets
algos_and_tags = [("", input_PFCandidates), ("CHS", 'pfNoPileUp')]
if add_puppi:
algos_and_tags += [("Puppi", 'puppi'),("PuppiNoMu", 'puppinomu')]
for algo, input_tag in algos_and_tags:
variant_name = "ak%dPFJets%s" % (param, algo)
variant_mod = pfbase_jet.clone(src=cms.InputTag(input_tag), rParam=param/10.0)
cmssw_jets[variant_name] = variant_mod
# Full Kappa jet definition
kappa_jets["ak%dPFJets%s"%(param, algo)] = cms.PSet(
src = cms.InputTag(variant_name),
PUJetID = cms.InputTag("ak%dPF%sPuJetMva" % (param, algo)),
PUJetID_full = cms.InputTag("full"),
QGtagger = cms.InputTag("AK%dPFJets%sQGTagger" % (param, algo)),
Btagger = cms.InputTag("ak%dPF%s" % (param, algo)),
)
# GenJets
if not data:
for collection in ("NoNu",): # TODO: add "NoMuNoNu", "" ?
variant_name = "ak%sGenJets%s" % (param, collection)
variant_mod = genbase_jet.clone(rParam=param/10.0)
cmssw_jets[variant_name] = variant_mod
# GenJets are just KLVs
process.kappaTuple.LV.whitelist += cms.vstring(variant_name)
# mount generated jets for processing
for name, jet_module in cmssw_jets.iteritems():
setattr(process, name, jet_module)
for name, pset in kappa_jets.iteritems():
setattr(process.kappaTuple.Jets, name, pset)
process.path *= reduce(lambda a, b: a * b, jet_resources + sorted(cmssw_jets.values()))
# Gluon tagging? - https://twiki.cern.ch/twiki/bin/viewauth/CMS/GluonTag
# B-tagging (for ak5 jets)? - https://twiki.cern.ch/twiki/bin/view/CMSPublic/WorkBookBTagging#DifferentJets
# B-tagging for (ak5 CHS jets)? - https://twiki.cern.ch/twiki/bin/view/CMSPublic/WorkBookBTagging#DifferentJets
# PileupDensity ########################
from RecoJets.JetProducers.kt4PFJets_cfi import kt4PFJets
process.pileupDensitykt6PFJets = kt4PFJets.clone(rParam=0.6, doRhoFastjet=True, Rho_EtaMax=2.5)
process.kappaTuple.active += cms.vstring('Jets', 'PileupDensity')
process.kappaTuple.PileupDensity.rename = cms.vstring("fixedGridRhoFastjetAll => pileupDensity")
process.path *= (
process.pileupDensitykt6PFJets
)
# MET correction ----------------------------------------------------------
#TODO check type 0 corrections
from RecoMET.METProducers.PFMET_cfi import pfMet
process.pfMETCHS = pfMet.clone(src=cms.InputTag(input_PFCandidates))
process.kappaTuple.active += cms.vstring('MET')
# MET without forward region
process.PFCandidatesNoHF = cms.EDFilter("CandPtrSelector",
src = cms.InputTag(input_PFCandidates),
cut = cms.string("abs(eta) < 3" )
)
process.pfMETCHSNoHF = pfMet.clone(src=cms.InputTag('PFCandidatesNoHF'))
process.path *= (process.pfMETCHS * process.PFCandidatesNoHF * process.pfMETCHSNoHF)
if add_puppi:
process.pfMetPuppi = pfMet.clone(src=cms.InputTag('puppi'))
process.pfMetPuppiNoMu = pfMet.clone(src=cms.InputTag('puppinomu'))
process.path *= (
process.pfMetPuppi
* process.pfMetPuppiNoMu
)
process.PuppiNoHF = cms.EDFilter("CandPtrSelector",
src = cms.InputTag('puppi'),
cut = cms.string("abs(eta) < 3" )
)
process.PuppiNoMuNoHF = cms.EDFilter("CandPtrSelector",
src = cms.InputTag('puppinomu'),
cut = cms.string("abs(eta) < 3" )
)
process.pfMetPuppiNoHF = pfMet.clone(src=cms.InputTag('PuppiNoHF'))
process.pfMetPuppiNoMuNoHF = pfMet.clone(src=cms.InputTag('PuppiNoMuNoHF'))
process.path *= (
process.PuppiNoHF * process.pfMetPuppiNoHF
* process.PuppiNoMuNoHF * process.pfMetPuppiNoMuNoHF
)
process.kappaTuple.MET.whitelist += cms.vstring('pfMetPuppiNoHF', 'pfMetPuppiNoMuNoHF')
# Kappa Output ###########################################################
process.path *= (
process.kappaOut
)
# explicit declaration until white/blacklist works again - MF@160119
# note: extracted from running on CMSSW < 7_6
if cmssw_version >= (7, 6, 0):
process.kappaTuple.BeamSpot.offlineBeamSpot = cms.PSet(src=cms.InputTag("offlineBeamSpot"))
process.kappaTuple.VertexSummary.offlinePrimaryVerticesSummary = cms.PSet(src=cms.InputTag("offlinePrimaryVertices"))
process.kappaTuple.VertexSummary.goodOfflinePrimaryVerticesSummary = cms.PSet(src=cms.InputTag("goodOfflinePrimaryVertices"))
if not data:
process.kappaTuple.LV.ak4GenJetsNoNu = cms.PSet(src=cms.InputTag("ak4GenJetsNoNu"))
process.kappaTuple.LV.ak5GenJetsNoNu = cms.PSet(src=cms.InputTag("ak5GenJetsNoNu"))
process.kappaTuple.LV.ak8GenJetsNoNu = cms.PSet(src=cms.InputTag("ak8GenJetsNoNu"))
process.kappaTuple.PileupDensity.pileupDensity = cms.PSet(src=cms.InputTag("fixedGridRhoFastjetAll"))
process.kappaTuple.PileupDensity.pileupDensityCalo = cms.PSet(src=cms.InputTag("fixedGridRhoFastjetAllCalo"))
process.kappaTuple.MET.pfChMet = cms.PSet(src=cms.InputTag("pfChMet"))
process.kappaTuple.MET.metCHS = cms.PSet(src=cms.InputTag("pfMETCHS"))
process.kappaTuple.MET.metCHSNoHF = cms.PSet(src=cms.InputTag("pfMETCHSNoHF"))
process.kappaTuple.MET.met = cms.PSet(src=cms.InputTag("pfMet"))
process.kappaTuple.MET.metEI = cms.PSet(src=cms.InputTag("pfMetEI"))
if channel == 'mm':
process.kappaTuple.MET.metPuppi = cms.PSet(src=cms.InputTag("pfMetPuppi"))
process.kappaTuple.MET.metPuppiNoHF = cms.PSet(src=cms.InputTag("pfMetPuppiNoHF"))
# final information:
print "------- CONFIGURATION 2 ---------"
print "CMSSW producers:"
for p in str(process.path).split('+'):
print " %s" % p
print "Kappa producers:"
for p in sorted(process.kappaTuple.active):
print " %s" % p
print "---------------------------------"
return process
