"Hlt1SingleMuonHighPTDecision", "Hlt1TrackAllL0Decision",
"Hlt1TrackMuonDecision", "Hlt1TrackPhotonDecision", "Hlt1L0AnyDecision",
"Hlt2Topo2BodySimpleDecision", "Hlt2Topo3BodySimpleDecision",
"Hlt2Topo4BodySimpleDecision", "Hlt2Topo2BodyBBDTDecision",
"Hlt2Topo3BodyBBDTDecision", "Hlt2Topo4BodyBBDTDecision",
"Hlt2TopoMu2BodyBBDTDecision", "Hlt2TopoMu3BodyBBDTDecision",
"Hlt2TopoMu4BodyBBDTDecision", "Hlt2TopoE2BodyBBDTDecision",
"Hlt2TopoE3BodyBBDTDecision", "Hlt2TopoE4BodyBBDTDecision",
"Hlt2MuonFromHLT1Decision", "Hlt2DiMuonDecision",
"Hlt2DiMuonDetachedDecision", "Hlt2DiMuonDetachedJPsiDecision",
"Hlt2DiMuonDetachedHeavyDecision", "Hlt2DiMuonLowMassDecision",
"Hlt2DiMuonJPsiDecision", "Hlt2DiMuonJPsiHighPTDecision",
"Hlt2DiMuonPsi2SDecision", "Hlt2DiMuonBDecision"
]
TISTOSTool = TupleToolTISTOS('TISTOSTool')
TISTOSTool.VerboseL0 = True
TISTOSTool.VerboseHlt1 = True
TISTOSTool.VerboseHlt2 = True
TISTOSTool.TriggerList = triglist[:]
TISTOSTool.addTool(TriggerTisTos, name="TriggerTisTos")
LoKi_B = LoKi__Hybrid__TupleTool("LoKi_B")
LoKi_B.Variables = {
"ETA": "ETA",
"PHI": "PHI",
"FDCHI2": "BPVVDCHI2",
"FDS": "BPVDLS",
"DIRA": "BPVDIRA",
"pi0veto": "CHILDFUN ( PINFO( 25030 , -1 ) , 'gamma' == ABSID ) ",
}
,"Hlt2TopoMu4BodyBBDTDecision"
,"Hlt2TopoE2BodyBBDTDecision"
,"Hlt2TopoE3BodyBBDTDecision"
,"Hlt2TopoE4BodyBBDTDecision"
,"Hlt2MuonFromHLT1Decision"
,"Hlt2DiMuonDecision"
,"Hlt2DiMuonDetachedDecision"
,"Hlt2DiMuonDetachedHeavyDecision"
,"Hlt2DiMuonLowMassDecision"
,"Hlt2DiMuonJPsiDecision"
,"Hlt2DiMuonJPsiHighPTDecision"
,"Hlt2DiMuonPsi2SDecision"
,"Hlt2DiMuonBDecision"
]
TISTOSTool = TupleToolTISTOS('TISTOSTool')
TISTOSTool.VerboseL0 = True
TISTOSTool.VerboseHlt1 = True
TISTOSTool.VerboseHlt2 = True
TISTOSTool.TriggerList = triglist[:]
TISTOSTool.addTool( TriggerTisTos, name="TriggerTisTos")
LoKi_B = LoKi__Hybrid__TupleTool("LoKi_B")
LoKi_B.Variables = {
"Best_PV_CORRM" : "BPVCORRM",
"Best_PV_Eta" : "BPVETA",
"ETA" : "ETA",
"PHI" : "PHI",
"LOKI_FDCHI2" : "BPVVDCHI2",
"LOKI_FDS" : "BPVDLS",
"LOKI_DIRA" : "BPVDIRA",
"LOKI_DTF_CTAU" : "DTF_CTAU( 0, True )",
tuple = DecayTreeTuple('Lb2JpsiLTree')
tuple.Inputs = [ 'Phys/Bs2Jpsif0' ]
tuple.TupleName = "mytree"
tuple.ToolList = [
"TupleToolGeometry",
"TupleToolKinematic",
"TupleToolEventInfo",
# "TupleToolTISTOS",
"TupleToolPid",
"TupleToolTrackInfo",
# "TupleToolTagging"
]
tistos = TupleToolTISTOS("tistos")
tistos.VerboseL0 = 1
tistos.VerboseHlt1 = 1
tistos.VerboseHlt2 = 1
tistos.TriggerList = [
'L0DiMuonDecision',
'L0HCALDecision',
'L0MuonDecision',
'L0MuonHighDecision',
'Hlt1SingleMuonNoIPL0Decision',
'Hlt1DiMuonHighMassDecision',
'Hlt1DiMuonLowMassDecision',
'Hlt1SingleMuonHighPTDecision',
'Hlt1SingleMuonNoIPDecision',
'Hlt1TrackAllL0Decision',
'Hlt1TrackMuonDecision',
'Hlt1SingleMuonNoIPL0Decision',
def parseConfiguration(
tupleConfig, # TupleConfig object describing sample
tesFormat, # Input TES with "<line>" placeholder
mdstOutputFile, # MicroDST output extension
mdstOutputPrefix, # MicroDST prefix for production
varsByType, # requested variables by type
varsByName, # requested variables by name
eventVariables, # event variables
writeNullWeightCandidates=True,
writeMuonPIDPlus=True,
mdstInput=False,
tupleOutput=True):
cfg = tupleConfig
reviveSequences = [] # mark sequences to unpack std particles
swSequences = [] # mark sequences to apply sWeights
filterSequences = [] # mark sequences to be written in tuples
matchSequences = [] # mark sequences to be written in tuples
tupleSequences = [] # mark tuple sequences
dstSequences = [] # sequences writing (Micro)DST files
triggerList = [
"L0MuonDecision",
"L0HadronDecision",
"L0ElectronDecision",
"Hlt1TrackMVADecision",
"Hlt1TrackMuonDecision",
]
for basicPart in ["Muons", "Pions", "Kaons", "Protons", "Electrons"]:
location = "Phys/StdAllNoPIDs{s}/Particles".format(s=basicPart)
reviveSequences += [
SelectionSequence("fs_std" + basicPart,
TopSelection=DataOnDemand(location))
]
for basicPart in [
"DownPions", "DownKaons", "DownProtons", "DownElectrons"
]:
location = "Phys/StdNoPIDs{s}/Particles".format(s=basicPart)
reviveSequences += [
SelectionSequence("fs_std" + basicPart,
TopSelection=DataOnDemand(location))
]
location = "Phys/StdLooseDownMuons/Particles"
reviveSequences += [
SelectionSequence("fs_std" + "DownMuons",
TopSelection=DataOnDemand(location))
]
for sample in cfg:
################################################################################
## Configure sWeighting ##
################################################################################
for line in cfg[sample].InputLines:
location = tesFormat.replace('<line>', line)
protoLocation = location.replace('/Particles', '/Protos')
# swSequences+=[ProbNNcalib ("TurboProbNN" + line, protoLocation).sequence()]
if cfg[sample].Calibration:
swSequences += [
ApplySWeights(
"ApplySW" + sample,
InputTes=location,
sTableDir=cfg[sample].Calibration,
sTableName="sTableSignal",
)
]
################################################################################
## Creates filter sequences to fill nTuples ##
################################################################################
selectionName = sample
_cut = "DECTREE ('{}')".format(cfg[sample].Decay.replace("^", ""))
if writeNullWeightCandidates == False:
_cut += " & ( WEIGHT != 0 ) "
if cfg[sample].Filter:
_cut += " & ({}) ".format(cfg[sample].Filter.cut)
inputSelection = MergedSelection(
"input" + selectionName,
RequiredSelections=[
DataOnDemand(tesFormat.replace('<line>', line))
for line in cfg[sample].InputLines
],
)
selection = Selection(
selectionName,
RequiredSelections=[inputSelection],
Algorithm=FilterDesktop("alg_" + selectionName, Code=_cut),
)
filterSequence = SelectionSequence("Seq" + selectionName,
TopSelection=selection)
filterSequences += [filterSequence]
################################################################################
## Creates matching selections (used to create the proper locations in mdst) ##
################################################################################
matchingSel = Selection("Match" + selectionName,
Algorithm=CopyAndMatchCombination(
"MatchAlg" + selectionName,
Downstream=cfg[sample].Downstream,
),
RequiredSelections=[selection])
matchingSeq = SelectionSequence("SeqMatch" + selectionName,
TopSelection=matchingSel)
matchSequences += [matchingSeq]
partsInBranches = []
for branchName in cfg[sample].Branches:
partName = branchName
if len(cfg[sample].Branches[branchName].isAlso) > 0:
partName = cfg[sample].Branches[branchName].isAlso[0]
partsInBranches += [partName]
#print("partsInBranches = ", partsInBranches)
################################################################################
## Parses the configuration dictionaries and configure the tuples ##
################################################################################
tuple = DecayTreeTuple(sample + "Tuple")
tuple.Inputs = [filterSequence.outputLocation()]
tuple.Decay = cfg[sample].Decay
tuple.ToolList = ["TupleToolANNPID"]
if mdstInput:
tuple.RootInTES = "/Event/Turbo"
if "e" in partsInBranches:
ttBrem = tuple.addTupleTool("TupleToolBremInfo")
ttBrem.Particle = ["pi+", "p", "K+", "mu+", "e+"]
ttBrem.Verbose = True
ttBrem.RootInTES = "" #### !!!!
ttPPD = tuple.addTupleTool("TupleToolProtoPData")
ttPPD.DataList = [
"VeloCharge", "CaloEoverP", "CaloEcalChi2", "CaloPrsE",
"CaloHcalE", "EcalPIDe", "PrsPIDe", "HcalPIDe", "CaloEcalE"
]
if writeMuonPIDPlus and ("mu" in partsInBranches):
muidPlus = tuple.addTupleTool("TupleToolMuonPidPlus")
muidPlus.MuonIDPlusToolName = "MuonIDPlusTool"
muidPlus.OutputLevel = 5
muidPlus.RootInTES = "" #### !!!!!
muidPlus.addTool(MuonIDPlusTool)
muidPlus.MuonIDPlusTool.OutputLevel = 5
muidPlus.MuonIDPlusTool.RootInTES = "" #### !!!!!
muidPlus.MuonIDPlusTool.ReleaseObjectOwnership = False
muidPlus.MuonIDPlusTool.MatchToolName = "MuonChi2MatchTool"
muidPlus.Verbose = True
eventTool = tuple.addTupleTool("LoKi::Hybrid::EvtTupleTool/LoKiEvent")
if 'VOID' in eventVariables.keys():
eventTool.VOID_Variables = eventVariables['VOID']
if not mdstInput:
if 'ODIN' in eventVariables.keys():
eventTool.ODIN_Variables = eventVariables['ODIN']
if 'HLT' in eventVariables.keys():
eventTool.HLT_Variables = eventVariables['HLT']
if 'L0DU' in eventVariables.keys():
eventTool.L0DU_Variables = eventVariables['L0DU']
eventTool.Preambulo = [
"from LoKiTracks.decorators import *",
"from LoKiCore.functions import *"
]
tuple.addTool(eventTool)
if mdstInput:
matchingLocation = {
"mu+": "/Event/PIDCALIB/Phys/Match" + sample + "/Particles",
"pi+": "/Event/PIDCALIB/Phys/Match" + sample + "/Particles",
"K+": "/Event/PIDCALIB/Phys/Match" + sample + "/Particles",
"p+": "/Event/PIDCALIB/Phys/Match" + sample + "/Particles",
"e+": "/Event/PIDCALIB/Phys/Match" + sample + "/Particles",
}
else:
if cfg[sample].Downstream:
matchingLocation = {
"mu+": "Phys/StdLooseDownMuons/Particles",
"pi+": "Phys/StdNoPIDsDownPions/Particles",
"K+": "Phys/StdNoPIDsDownKaons/Particles",
"p+": "Phys/StdNoPIDsDownProtons/Particles",
"e+": "Phys/StdNoPIDsDownElectrons/Particles",
}
else:
matchingLocation = {
"mu+": "Phys/StdAllNoPIDsMuons/Particles",
"pi+": "Phys/StdAllNoPIDsPions/Particles",
"K+": "Phys/StdAllNoPIDsKaons/Particles",
"p+": "Phys/StdAllNoPIDsProtons/Particles",
"e+": "Phys/StdAllNoPIDsElectrons/Particles",
}
tupleSequences += [tuple]
for branchName in cfg[sample].Branches:
partName = branchName
if len(cfg[sample].Branches[branchName].isAlso) > 0:
partName = cfg[sample].Branches[branchName].isAlso[0]
#print ("PartName = ", partName)
b = tuple.addBranches(
{branchName: cfg[sample].Branches[branchName].Particle})
b = b[branchName]
matcher = b.addTupleTool("TupleToolTwoParticleMatching/Matcher_" +
branchName)
matcher.ToolList = []
matcher.Prefix = ""
matcher.Suffix = "_Brunel"
matcher.MatchLocations = matchingLocation
lokitool = b.addTupleTool("LoKi::Hybrid::TupleTool/LoKi_" +
branchName)
vardict = copy(varsByType[cfg[sample].Branches[branchName].Type])
pidcalibtool = b.addTupleTool("TupleToolPIDCalib/PIDCalibTool_" +
branchName)
pidcalibtool_matched = TTpid("PIDCalibTool_match_" + branchName)
for partName in [branchName
] + cfg[sample].Branches[branchName].isAlso:
if partName in varsByName:
vardict.update(varsByName[partName])
# if partName == 'e':
# pidcalibtool.FillBremInfo = True
# pidcalibtool_matched.FillBremInfo = True
lokimatchedtool = LokiTool("LoKi_match_" + branchName)
matcher.addTool(pidcalibtool_matched)
matcher.ToolList += [
"LoKi::Hybrid::TupleTool/LoKi_match_" + branchName,
"TupleToolPIDCalib/PIDCalibTool_match_" + branchName
]
from Configurables import TupleToolTISTOS
tistostool = TupleToolTISTOS("TISTOSForTheOffline" + branchName)
tistostool.FillL0 = True
tistostool.FillHlt1 = True
tistostool.FillHlt2 = False
tistostool.Verbose = True # 16/01/2020 for L0Calo
tistostool.VerboseL0 = True
tistostool.VerboseHlt1 = True
tistostool.VerboseHlt2 = False
tistostool.TriggerList = triggerList
matcher.addTool(tistostool)
matcher.ToolList += [
"TupleToolTISTOS/TISTOSForTheOffline" + branchName
]
# 16/01/2020 for L0Calo variables
from Configurables import TupleToolL0Calo
l0calotool = TupleToolL0Calo("L0CaloForTheOffline" + branchName)
l0calotool.WhichCalo = "HCAL"
l0calotool.TriggerClusterLocation = "Trig/L0/FullCalo" # Added 29/01/2020 for "trigger" variables
matcher.addTool(l0calotool)
matcher.ToolList += [
"TupleToolL0Calo/L0CaloForTheOffline" + branchName
]
from Configurables import TupleToolBremInfo, TupleToolProtoPData, TupleToolANNPID, TupleToolMuonPidPlus
if partName == "e":
ttbi = TupleToolBremInfo("BremInfoForTheOffline" + branchName)
ttbi.Particle = ["pi+", "p", "K+", "mu+", "e+"]
ttbi.RootInTES = ""
matcher.addTool(ttbi)
matcher.ToolList += [
"TupleToolBremInfo/BremInfoForTheOffline" + branchName
]
ttppd = TupleToolProtoPData("ProtoPDataForTheOffline" + branchName)
ttppd.DataList = [
"VeloCharge", "CaloEoverP", "CaloEcalChi2", "CaloPrsE",
"CaloHcalE", "EcalPIDe", "PrsPIDe", "HcalPIDe", "CaloEcalE"
]
matcher.addTool(ttppd)
matcher.ToolList += [
"TupleToolProtoPData/ProtoPDataForTheOffline" + branchName
]
ttann = TupleToolANNPID("ANNPIDForTheOffline" + branchName)
ttann.PIDTypes = [
"Electron", "Muon", "Pion", "Kaon", "Proton", "Ghost",
"Deuteron"
]
# ttann.PIDTypes = [ "Electron","Muon","Pion","Kaon","Proton","Ghost" ]
ttann.ANNPIDTunes = [
"MC12TuneV2", "MC12TuneV3", "MC12TuneV4", "MC15TuneV1",
"MC15TuneDNNV1", "MC15TuneCatBoostV1", "MC15TuneFLAT4dV1"
]
matcher.addTool(ttann)
matcher.ToolList += [
"TupleToolANNPID/ANNPIDForTheOffline" + branchName
]
if writeMuonPIDPlus and partName == "mu":
ttmuidPlus = TupleToolMuonPidPlus(
"TupleToolMuonPidPlusForTheOffline" + branchName)
ttmuidPlus.MuonIDPlusToolName = "MuonIDPlusTool"
ttmuidPlus.OutputLevel = 5
ttmuidPlus.RootInTES = "" #### !!!!!
ttmuidPlus.addTool(MuonIDPlusTool)
ttmuidPlus.MuonIDPlusTool.OutputLevel = 5
ttmuidPlus.MuonIDPlusTool.RootInTES = "" #### !!!!!
ttmuidPlus.MuonIDPlusTool.ReleaseObjectOwnership = False
ttmuidPlus.MuonIDPlusTool.MatchToolName = "MuonChi2MatchTool"
ttmuidPlus.Verbose = True
matcher.addTool(ttmuidPlus)
matcher.ToolList += [
"TupleToolMuonPidPlus/TupleToolMuonPidPlusForTheOffline" +
branchName
]
vardict.update(cfg[sample].Branches[branchName].LokiVariables)
lokimatchedtool.Variables = vardict
lokitool.Variables = vardict
matcher.addTool(lokimatchedtool)
# Additional variables for Greg/Phoebe's uBDT
from Configurables import TupleToolANNPIDTrainingLight
if hasattr(tuple, 'probe'):
tuple.probe.addTool(TupleToolANNPIDTrainingLight,
name='TupleToolANNPIDTrainingLight')
tuple.probe.ToolList += [
'TupleToolANNPIDTrainingLight/TupleToolANNPIDTrainingLight'
]
print "Input TES: "
print "\n".join([f.outputLocation() for f in filterSequences])
if mdstOutputFile:
dstSequences += configureMicroDSTwriter(
mdstOutputFile, mdstOutputPrefix, filterSequences + matchSequences)
if mdstInput:
return (reviveSequences + swSequences + filterSequences +
matchSequences + tupleSequences)
else:
if tupleOutput:
return (reviveSequences + swSequences + filterSequences +
matchSequences + dstSequences + tupleSequences)
else:
return (reviveSequences + filterSequences + matchSequences +
dstSequences)
