def __apply_configuration__(self) : from Configurables import ( GaudiSequencer, CombineParticles ) from PhysSelPython.Wrappers import Selection, SelectionSequence, DataOnDemand if not self.isPropertySet("Sequencer") : raise RuntimeError("ERROR : Sequence not set") seq = self.getProp("Sequencer") if self.getProp("RunSelection") : # STD particles from StandardParticles import StdLooseMuons # J/psi -> mu mu JPsiMuMuName = self.__sel_name__ JPsiMuMu = CombineParticles(JPsiMuMuName) JPsiMuMu.DecayDescriptor = "J/psi(1S) -> mu+ mu- " JPsiMuMu.CombinationCut = "(ADAMASS('J/psi(1S)') < 150*MeV)" JPsiMuMu.MotherCut = "(ADMASS('J/psi(1S)') < 130*MeV) & (VFASPF(VCHI2/VDOF)<6) & (PT > 2500*MeV)" JPsiMuMu.DaughtersCuts = {"mu+" : "(PT>1400*MeV)"\ "& (P>5*GeV)"\ "& (TRCHI2DOF<2.0)"\ "& (PPINFO(LHCb.ProtoParticle.MuonBkgLL,-10000)<-2.5)"\ "& (PPINFO(LHCb.ProtoParticle.MuonMuLL,-10000)>-10)"} self.setOptions(JPsiMuMu) JPsiMuMuSel = Selection( JPsiMuMuName+'Sel', Algorithm = JPsiMuMu, RequiredSelections = [StdLooseMuons] ) # Selection Sequence selSeq = SelectionSequence( self.__sel_name__+'Seq', TopSelection = JPsiMuMuSel ) # Run the selection sequence. seq.Members += [selSeq.sequence()] # Particle Monitoring plots if self.getProp("RunMonitors") : from Configurables import ( ParticleMonitor ) plotter = ParticleMonitor(self.__sel_name__+"Plots") if self.getProp("RunSelection") : plotter.Inputs = [ 'Phys/'+self.__sel_name__+'Sel' ] else: musel = "(PT>1400*MeV) & (P>5*GeV) & (TRCHI2DOF<2.0) & "\ "(PPINFO(LHCb.ProtoParticle.MuonBkgLL,-10000)<-2.5) & "\ "(PPINFO(LHCb.ProtoParticle.MuonMuLL,-10000)>-10)" _code = "( ( INTREE( ('mu+'==ID) & "+musel+" ) ) | ( INTREE( ('mu-'==ID) & "+musel+" ) ) )" from Configurables import FilterDesktop filter = FilterDesktop( name = self.__sel_name__+"RICHFiltered", Code = _code, Inputs = self.getProp("Candidates") ) plotter.Inputs = [ 'Phys/'+filter.name() ] seq.Members += [filter] plotter.PeakCut = "(ADMASS('J/psi(1S)')<20*MeV)" # Considering sigma = 13 plotter.SideBandCut = "(ADMASS('J/psi(1S)')>20*MeV)" # Considering sigma = 13 plotter.PlotTools = self.getProp("PlotTools") self.setOptions(plotter) seq.Members += [plotter] # Make a DST ? if self.getProp("MakeSelDST"): # Prescale from Configurables import DeterministicPrescaler scaler = DeterministicPrescaler( self.__sel_name__+'PreScale', AcceptFraction = self.getProp("DSTPreScaleFraction") ) seq.Members += [scaler] # Write the DST MyDSTWriter = SelDSTWriter( self.__sel_name__+"DST", SelectionSequences = [ selSeq ], OutputPrefix = self.__sel_name__ ) seq.Members += [MyDSTWriter.sequence()] # MC Performance checking ? if self.getProp("MCChecks") : from Configurables import ParticleEffPurMoni mcPerf = ParticleEffPurMoni(JPsiMuMuName+"MCPerf") mcPerf.Inputs = ['Phys/'+self.__sel_name__+'Sel'] self.setOptions(mcPerf) seq.Members += [mcPerf] # Ntuple ? if self.getProp("MakeNTuple") : from Configurables import ( DecayTreeTuple, TupleToolDecay, LoKi__Hybrid__FilterCriterion, LoKi__Hybrid__TupleTool, TupleToolMCBackgroundInfo, BackgroundCategory, TupleToolTrigger, TupleToolMCTruth, MCTupleToolKinematic, MCTupleToolHierarchy, TupleToolVtxIsoln, TupleToolP2VV ) JPsiMuMuTree = DecayTreeTuple( JPsiMuMuName + 'Tuple') JPsiMuMuTree.Inputs = [ 'Phys/'+JPsiMuMuName] JPsiMuMuTree.Decay = 'J/psi(1S) -> ^mu+ ^mu- ' # set some names for ntuple branchs MyBranch_jpsi = "jpsi" MyBranch_mup = "mup" MyBranch_mum = "mum" # label the branches for the particle tools JPsiMuMuTree.Branches = { MyBranch_jpsi : "J/psi(1S) : J/psi(1S) -> mu+ mu- ", MyBranch_mup : "J/psi(1S) -> ^mu+ mu- ", MyBranch_mum : "J/psi(1S) -> mu+ ^mu- ", } JPsiMuMuTree.ToolList = [ "TupleToolEventInfo" , "TupleToolGeneration" , "TupleToolMCTruth" , "TupleToolMCBackgroundInfo" , "MCTupleToolKinematic" , "TupleToolPrimaries" , "TupleToolVtxIsoln" , "TupleToolTrackInfo" , "TupleToolPid" , "TupleToolGeometry" , "TupleToolKinematic" , "TupleToolPropertime" , "TupleToolPid" , "TupleToolPrimaries" , "TupleToolTrigger" ] JPsiMuMuTree.addTool(BackgroundCategory()) JPsiMuMuTree.BackgroundCategory.SoftPhotonCut = 2000 JPsiMuMuTree.OutputLevel = INFO JPsiMuMuTree.addTool(TupleToolTrigger()) JPsiMuMuTree.TupleToolTrigger.VerboseL0 = True JPsiMuMuTree.addTool(TupleToolMCTruth()) JPsiMuMuTree.TupleToolMCTruth.addTool(MCTupleToolKinematic()) JPsiMuMuTree.TupleToolMCTruth.addTool(MCTupleToolHierarchy()) JPsiMuMuTree.TupleToolMCTruth.ToolList = [ "MCTupleToolKinematic" , "MCTupleToolHierarchy" ] JPsiMuMuTree.TupleToolMCTruth.MCTupleToolKinematic.StoreKineticInfo = True JPsiMuMuTree.TupleToolMCTruth.MCTupleToolKinematic.StoreVertexInfo = True JPsiMuMuTree.TupleToolMCTruth.MCTupleToolKinematic.StorePropertimeInfo = False JPsiMuMuTree.addTool(TupleToolVtxIsoln( OutputLevel = 6 )) JPsiMuMuTree.TupleToolVtxIsoln.IP = 2.0 JPsiMuMuTree.TupleToolVtxIsoln.InputParticles = [ "Phys/StdLooseMuons"] seq.Members += [JPsiMuMuTree] JPsiMuMuTree.NTupleLUN = "JPSIMUMU" from Configurables import NTupleSvc NTupleSvc().Output = ["JPSIMUMU DATAFILE='JpsiMuMu_Presel.root' TYP='ROOT' OPT='NEW'"]
def __apply_configuration__(self): from Configurables import (GaudiSequencer, CombineParticles, OfflineVertexFitter) from PhysSelPython.Wrappers import Selection, SelectionSequence, DataOnDemand seq = self.getProp("Sequencer") if seq == None: raise RuntimeError("ERROR : Sequence not set") if self.getProp("RunSelection"): # STD particles from StandardParticles import StdNoPIDsPions, StdNoPIDsKaons # phi -> K+ K- Phi2KKName = self.__sel_name__ + "_Phi2KK" Phi2KK = CombineParticles(Phi2KKName) Phi2KK.DecayDescriptor = "phi(1020) -> K+ K-" Phi2KK.CombinationCut = "(ADAMASS('phi(1020)')<75*MeV)" Phi2KK.MotherCut = "(ADMASS('phi(1020)')<50*MeV) & (BPVVDCHI2>60) & (MIPDV(PRIMARY)<0.5) & (VFASPF(VCHI2) < 20)" Phi2KK.DaughtersCuts = { "K+": "(PT>300*MeV) & (P>2*GeV) & (MIPDV(PRIMARY) < 0.5) & (BPVIPCHI2() > 20)", "K-": "(PT>300*MeV) & (P>2*GeV) & (MIPDV(PRIMARY) < 0.5) & (BPVIPCHI2() > 20)" } self.setOptions(Phi2KK) Phi2KKSel = Selection(Phi2KKName + 'Sel', Algorithm=Phi2KK, RequiredSelections=[StdNoPIDsKaons]) # Bs -> J/psi phi Ds2piPhiName = self.__sel_name__ Ds2piPhi = CombineParticles(Ds2piPhiName) Ds2piPhi.DecayDescriptor = "[D_s+ -> pi+ phi(1020)]cc" Ds2piPhi.addTool(OfflineVertexFitter) Ds2piPhi.ParticleCombiners.update({"": "OfflineVertexFitter"}) Ds2piPhi.OfflineVertexFitter.useResonanceVertex = True Ds2piPhi.CombinationCut = "(ADAMASS('D_s+')<75*MeV)" Ds2piPhi.MotherCut = "(ADMASS('D_s+')<50*MeV) & (BPVDIRA>0.9999) & (BPVVDCHI2>85) & (MIPDV(PRIMARY)<0.1) & (VFASPF(VCHI2) < 10)" Ds2piPhi.DaughtersCuts = { "pi+": "(PT>300*MeV) & (P>2*GeV) & (MIPDV(PRIMARY) >0.1) & (BPVIPCHI2() > 20)" } self.setOptions(Ds2piPhi) Ds2piPhiSel = Selection( Ds2piPhiName + 'Sel', Algorithm=Ds2piPhi, RequiredSelections=[Phi2KKSel, StdNoPIDsPions]) # Selection Sequence selSeq = SelectionSequence(self.__sel_name__ + 'Seq', TopSelection=Ds2piPhiSel) # Run the selection sequence. seq.Members += [selSeq.sequence()] # Particle Monitoring plots if self.getProp("RunMonitors"): from Configurables import ParticleMonitor plotter = ParticleMonitor(self.__sel_name__ + "Plots") if self.getProp("RunSelection"): plotter.Inputs = ['Phys/' + self.__sel_name__ + 'Sel'] else: plotter.Inputs = self.getProp("Candidates") plotter.PeakCut = "(ADMASS('D_s+')<100*MeV)" plotter.SideBandCut = "(ADMASS('D_s+')>100*MeV)" plotter.PlotTools = self.getProp("PlotTools") self.setOptions(plotter) seq.Members += [plotter] # Make a DST ? if self.getProp("MakeSelDST"): # Prescale from Configurables import DeterministicPrescaler scaler = DeterministicPrescaler( self.__sel_name__ + 'PreScale', AcceptFraction=self.getProp("DSTPreScaleFraction")) seq.Members += [scaler] # Write the DST MyDSTWriter = SelDSTWriter(self.__sel_name__ + "DST", SelectionSequences=[selSeq], OutputPrefix=self.__sel_name__) seq.Members += [MyDSTWriter.sequence()] # MC Performance checking ? if self.getProp("MCChecks"): from Configurables import ParticleEffPurMoni mcPerf = ParticleEffPurMoni(Ds2piPhiName + "MCPerf") mcPerf.Inputs = ['Phys/' + self.__sel_name__ + 'Sel'] self.setOptions(mcPerf) seq.Members += [mcPerf] # Ntuple ? if self.getProp("MakeNTuple"): outputLevel = INFO from Configurables import ( DecayTreeTuple, TupleToolDecay, TupleToolMCTruth, TupleToolMCBackgroundInfo, TupleToolGeometry, TupleToolKinematic, TupleToolPrimaries, TupleToolEventInfo, MCTupleToolHierarchy, MCTupleToolKinematic, TupleToolPid, TupleToolTrackInfo, TupleToolVtxIsoln, LoKi__Hybrid__TupleTool) Tuple = DecayTreeTuple(Ds2piPhiName + "Tuple") Tuple.Inputs = ["Phys/" + Ds2piPhiName] Tuple.Decay = "[D_s+ -> ^pi+ (^phi(1020) => ^K+ ^K-)]cc" Tuple.Branches = { "pion": "[D_s+ -> ^pi+ (phi(1020) => K+ K-)]cc", "kaonplus": "[D_s+ -> pi+ (phi(1020) => ^K+ K-)]cc", "kaonminus": "[D_s+ -> pi+ (phi(1020) => K+ ^K-)]cc", "phi": "[D_s+ -> pi+ (^phi(1020) => K+ K-)]cc", "D_s": "[D_s+]cc :[D_s+ -> pi+ (phi(1020) => K+ K-)]cc" } Tuple.addTool(TupleToolDecay, name='pion') Tuple.addTool(TupleToolDecay, name='phi') Tuple.addTool(TupleToolDecay, name='kaonplus') Tuple.addTool(TupleToolDecay, name='kaonminus') Tuple.addTool(TupleToolDecay, name='D_s') # k+ specific kaonplusLoKiTool = LoKi__Hybrid__TupleTool('kaonplusLoKiTool') kaonplusLoKiTool.Variables = { "LOKI_PIDK": "PIDK", "LOKI_PIDe": "PIDe", "LOKI_PIDpi": "PIDpi", "LOKI_PIDp": "PIDp", "LOKI_PIDmu": "PIDmu", "LOKI_PIDK_PIDpi": "PIDK-PIDpi", "LOKI_PIDK_PIDe": "PIDK-PIDe", "LOKI_PIDK_PIDmu": "PIDK-PIDmu", "LOKI_PIDK_PIDp": "PIDK-PIDp" } Tuple.kaonplus.addTool(kaonplusLoKiTool, name='kaonplusLoKiTool') Tuple.kaonplus.ToolList = [ 'LoKi::Hybrid::TupleTool/kaonplusLoKiTool' ] # k- specific kaonminusLoKiTool = LoKi__Hybrid__TupleTool('kaonminusLoKiTool') kaonminusLoKiTool.Variables = { "LOKI_PIDK": "PIDK", "LOKI_PIDe": "PIDe", "LOKI_PIDpi": "PIDpi", "LOKI_PIDp": "PIDp", "LOKI_PIDmu": "PIDmu", "LOKI_PIDK_PIDpi": "PIDK-PIDpi", "LOKI_PIDK_PIDe": "PIDK-PIDe", "LOKI_PIDK_PIDmu": "PIDK-PIDmu", "LOKI_PIDK_PIDp": "PIDK-PIDp" } Tuple.kaonminus.addTool(kaonminusLoKiTool, name='kaonminusLoKiTool') Tuple.kaonminus.ToolList = [ 'LoKi::Hybrid::TupleTool/kaonminusLoKiTool' ] # pi+ specific pionLoKiTool = LoKi__Hybrid__TupleTool('pionLoKiTool') pionLoKiTool.Variables = { "LOKI_PIDK": "PIDK", "LOKI_PIDe": "PIDe", "LOKI_PIDpi": "PIDpi", "LOKI_PIDp": "PIDp", "LOKI_PIDmu": "PIDmu", "LOKI_PIDpi_PIDK": "PIDpi-PIDK", "LOKI_PIDpi_PIDe": "PIDpi-PIDe", "LOKI_PIDpi_PIDmu": "PIDpi-PIDmu", "LOKI_PIDpi_PIDp": "PIDpi-PIDp" } Tuple.pion.addTool(pionLoKiTool, name='pionLoKiTool') Tuple.pion.ToolList = ['LoKi::Hybrid::TupleTool/pionLoKiTool'] # phi specific phiLoKiTool = LoKi__Hybrid__TupleTool('phiLoKiTool') phiLoKiTool.Variables = {} Tuple.phi.addTool(phiLoKiTool, name='phiLoKiTool') Tuple.phi.ToolList = ['LoKi::Hybrid::TupleTool/phiLoKiTool'] # D_s specific DsLoKiTool = LoKi__Hybrid__TupleTool('DsLoKiTool') DsLoKiTool.Variables = {} Tuple.D_s.addTool(DsLoKiTool, name='DsLoKiTool') Tuple.D_s.ToolList = ["LoKi::Hybrid::TupleTool/DsLoKiTool"] # Common to all particles LoKiTool = LoKi__Hybrid__TupleTool('LoKiTool') LoKiTool.Variables = { "LOKI_ABSID": "ABSID", "LOKI_BPVIPCHI2": "BPVIPCHI2()", "LOKI_BPVDIRA": "BPVDIRA", "LOKI_BPVLTFITCHI2": "BPVLTFITCHI2('PropertimeFitter/properTime:PUBLIC')", "LOKI_BPVLTCHI2": "BPVLTCHI2('PropertimeFitter/properTime:PUBLIC')", "LOKI_BPVLTIME": "BPVLTIME('PropertimeFitter/properTime:PUBLIC')", "LOKI_BPVVDCHI2": "BPVVDCHI2", "LOKI_ID": "ID", "LOKI_MIPDV_PRIMARY": "MIPDV(PRIMARY)", "LOKI_MIPCHI2DV_PRIMARY": "MIPCHI2DV(PRIMARY)", "LOKI_MM": "MM", "LOKI_M": "M", "LOKI_P": "P", "LOKI_PT": "PT", "LOKI_TRCHI2": "TRCHI2", "LOKI_TRCHI2DOF": "TRCHI2DOF", "LOKI_VFASPF_VCHI2": "VFASPF(VCHI2)", "LOKI_VFASPF_VDOF": "VFASPF(VDOF)" } Tuple.addTool(LoKiTool, name='LoKiTool') Tuple.ToolList = [ "LoKi::Hybrid::TupleTool/LoKiTool", "TupleToolEventInfo", "TupleToolGeometry", "TupleToolKinematic", "TupleToolMCBackgroundInfo", "TupleToolPid", "TupleToolPrimaries", "TupleToolTrackInfo", "TupleToolVtxIsoln", "TupleToolMCTruth" ] Tuple.addTool(TupleToolEventInfo) Tuple.TupleToolEventInfo.OutputLevel = outputLevel Tuple.addTool(TupleToolGeometry) Tuple.TupleToolGeometry.OutputLevel = outputLevel Tuple.addTool(TupleToolKinematic) Tuple.TupleToolKinematic.OutputLevel = outputLevel Tuple.addTool(TupleToolMCBackgroundInfo) Tuple.TupleToolMCBackgroundInfo.OutputLevel = outputLevel Tuple.addTool(MCTupleToolHierarchy) Tuple.MCTupleToolHierarchy.OutputLevel = outputLevel Tuple.addTool(TupleToolMCTruth) Tuple.TupleToolMCTruth.OutputLevel = outputLevel Tuple.TupleToolMCTruth.addTool(MCTupleToolKinematic()) Tuple.TupleToolMCTruth.addTool(MCTupleToolHierarchy()) Tuple.TupleToolMCTruth.ToolList = [ "MCTupleToolKinematic", "MCTupleToolHierarchy" ] Tuple.TupleToolMCTruth.MCTupleToolKinematic.StoreKineticInfo = True Tuple.TupleToolMCTruth.MCTupleToolKinematic.StoreVertexInfo = True Tuple.TupleToolMCTruth.MCTupleToolKinematic.StorePropertimeInfo = True Tuple.TupleToolMCTruth.MCTupleToolKinematic.OutputLevel = outputLevel Tuple.addTool(TupleToolPid) Tuple.TupleToolPid.OutputLevel = outputLevel Tuple.addTool(TupleToolPrimaries) Tuple.TupleToolPrimaries.OutputLevel = outputLevel Tuple.addTool(TupleToolTrackInfo) Tuple.TupleToolTrackInfo.OutputLevel = outputLevel Tuple.addTool(TupleToolVtxIsoln) Tuple.TupleToolVtxIsoln.OutputLevel = outputLevel seq.Members += [Tuple] Tuple.NTupleLUN = "DSPHIPI" from Configurables import NTupleSvc NTupleSvc().Output = [ "DSPHIPI DATAFILE='DsToPhiPi.root' TYP='ROOT' OPT='NEW'" ]
] Jpsi2MuPi.DecayDescriptor = "[J/psi(1S) -> mu+ pi-]cc" # a good muon and any pion Jpsi2MuPi.DaughtersCuts = { "pi+": "(P>1*GeV)", "mu+": "(P>10*GeV) & (PT>1*GeV)" } Jpsi2MuPi.CombinationCut = "(ADAMASS('J/psi(1S)')<100*MeV)" Jpsi2MuPi.MotherCut = "(ALL)" JpsiSeq.Members += [Jpsi2MuPi] ############################################################################## # # Plot quantities # from Configurables import ParticleMonitor plotter = ParticleMonitor("Jpsi2MuPiMoni") plotter.Inputs = ["Phys/Jpsi2MuPi/Particles"] plotter.PeakCut = "(ADMASS('J/psi(1S)')<5*MeV)" plotter.SideBandCut = "(ADMASS('J/psi(1S)')>20*MeV)" plotter.PlotTools = [ "MassPlotTool", "MomentumPlotTool", "CombinedPidPlotTool", "RichPlotTool", "CaloPlotTool", "MuonPlotTool" ] JpsiSeq.Members += [plotter] ############################################################################## # # # from Configurables import DaVinci DaVinci().MoniSequence += [JpsiSeq]
def __apply_configuration__(self): from Configurables import (GaudiSequencer, CombineParticles, FilterDesktop) from PhysSelPython.Wrappers import Selection, SelectionSequence, DataOnDemand if not self.isPropertySet("Sequencer"): raise RuntimeError("ERROR : Sequence not set") seq = self.getProp("Sequencer") if self.getProp("RunSelection"): # STD particles from StandardParticles import StdNoPIDsPions # Filter Pi Tracks pionFilterName = self.__sel_name__ + "_PiFilter" pionfilter = FilterDesktop(pionFilterName) pionfilter.Code = "(ISLONG) & (TRCHI2DOF < 5) & (P > 2*GeV) & (MIPCHI2DV(PRIMARY) > 30)" self.setOptions(pionfilter) pionfilterSel = Selection(pionFilterName + 'Sel', Algorithm=pionfilter, RequiredSelections=[StdNoPIDsPions]) # Make the KS0 ks02pipi = CombineParticles(self.__sel_name__) ks02pipi.DecayDescriptor = "KS0 -> pi+ pi-" ks02pipi.CombinationCut = "(ADAMASS('KS0') < 200*MeV) & (AMAXDOCA('') < 0.6*mm)" ks02pipi.MotherCut = "(ADMASS('KS0') < 100*MeV) & (VFASPF(VCHI2/VDOF) < 10) & (MIPDV(PRIMARY) < 0.75) & (BPVVDCHI2 > 150) & (MIPCHI2DV(PRIMARY) < 100) & ( ADWM( 'Lambda0' , WM( 'p+' , 'pi-') ) > 8*MeV ) & ( ADWM( 'Lambda0' , WM( 'pi+' , 'p~-') ) > 8*MeV )" self.setOptions(ks02pipi) ks02pipiSel = Selection(self.__sel_name__ + 'Sel', Algorithm=ks02pipi, RequiredSelections=[pionfilterSel]) # Selection Sequence selSeq = SelectionSequence(self.__sel_name__ + 'Seq', TopSelection=ks02pipiSel) # Run the selection sequence. seq.Members += [selSeq.sequence()] # Particle Monitoring plots if self.getProp("RunMonitors"): from Configurables import ParticleMonitor plotter = ParticleMonitor(self.__sel_name__ + "Plots") if self.getProp("RunSelection"): plotter.Inputs = ['Phys/' + self.__sel_name__ + 'Sel'] else: plotter.Inputs = self.getProp("Candidates") plotter.PeakCut = "(ADMASS('KS0')<7*MeV)" plotter.SideBandCut = "(ADMASS('KS0')>7*MeV)" plotter.PlotTools = self.getProp("PlotTools") self.setOptions(plotter) seq.Members += [plotter] # Make a DST ? if self.getProp("MakeSelDST"): # Prescale from Configurables import DeterministicPrescaler scaler = DeterministicPrescaler( self.__sel_name__ + 'PreScale', AcceptFraction=self.getProp("DSTPreScaleFraction")) seq.Members += [scaler] # Write the DST MyDSTWriter = SelDSTWriter(self.__sel_name__ + "DST", SelectionSequences=[selSeq], OutputPrefix=self.__sel_name__) seq.Members += [MyDSTWriter.sequence()] # MC Performance checking ? if self.getProp("MCChecks"): from Configurables import ParticleEffPurMoni #mcPerfPi = ParticleEffPurMoni("StdNoPIDsPionsMCPerf") #mcPerfPi.Inputs = ["Phys/StdNoPIDsPions"] #mcPerfPi.OutputLevel = DEBUG #seq.Members += [mcPerfPi] #mcPerfPiFilt = ParticleEffPurMoni(pionFilterName+"MCPerf") #mcPerfPiFilt.Inputs = ["Phys/"+pionFilterName] #seq.Members += [mcPerfPiFilt] mcPerfD = ParticleEffPurMoni(ks02pipiName + "MCPerf") mcPerfD.Inputs = ["Phys/" + ks02pipiName] self.setOptions(mcPerfD) seq.Members += [mcPerfD] # Ntuple ? if self.getProp("MakeNTuple"): pass
def __apply_configuration__(self) : from Configurables import ( GaudiSequencer, CombineParticles, FilterDesktop ) from PhysSelPython.Wrappers import Selection, SelectionSequence, DataOnDemand if not self.isPropertySet("Sequencer") : raise RuntimeError("ERROR : Sequence not set") seq = self.getProp("Sequencer") if self.getProp("RunSelection") : # STD particles from StandardParticles import StdNoPIDsPions, StdNoPIDsProtons # Filter Pi Tracks pionfilterName = self.__sel_name__+"_PiFilter" pionfilter = FilterDesktop(pionfilterName) pionfilter.Code = "(ISLONG) & (TRCHI2DOF < 3) & (PT > 0.1*GeV) & (MIPCHI2DV(PRIMARY) > 9)" self.setOptions(pionfilter) pionfilterSel = Selection( pionfilterName+'Sel', Algorithm = pionfilter, RequiredSelections = [StdNoPIDsPions] ) # Filter Proton Tracks protonfilterName = self.__sel_name__+"_PrFilter" protonfilter = FilterDesktop(protonfilterName) protonfilter.Code = "(ISLONG) & (TRCHI2DOF < 3) & (PT > 0.4*GeV) & (MIPCHI2DV(PRIMARY) > 9)" self.setOptions(protonfilter) protonfilterSel = Selection( protonfilterName+'Sel', Algorithm = protonfilter, RequiredSelections = [StdNoPIDsProtons] ) # Make the Lambda lambda2ppi = CombineParticles(self.__sel_name__) lambda2ppi.DecayDescriptor = "[ Lambda0 -> p+ pi- ]cc" lambda2ppi.CombinationCut = "(ADAMASS('Lambda0') < 100*MeV) & (AMAXDOCA('') < 0.2*mm)" lambda2ppi.MotherCut = "(ADMASS('Lambda0') < 50.0*MeV) & (PT > 0.5*GeV) & (VFASPF(VCHI2/VDOF) < 6.0) & (MIPDV(PRIMARY) < 0.5) & (BPVVDCHI2 > 750) & (MIPCHI2DV(PRIMARY) < 200) & ( ADWM( 'KS0' , WM( 'pi+' , 'pi-') ) > 15*MeV ) & (LV01 < 0.98) & (LV02 < 0.98) & (LV01 > -0.98) & (LV02 > -0.98)" self.setOptions(lambda2ppi) lambda2ppiSel = Selection( self.__sel_name__+'Sel', Algorithm = lambda2ppi, RequiredSelections = [pionfilterSel,protonfilterSel] ) # Selection Sequence selSeq = SelectionSequence( self.__sel_name__+'Seq', TopSelection = lambda2ppiSel ) # Run the selection sequence. seq.Members += [selSeq.sequence()] # Particle Monitoring plots if self.getProp("RunMonitors") : from Configurables import ParticleMonitor plotter = ParticleMonitor(self.__sel_name__+"Plots") if self.getProp("RunSelection") : plotter.Inputs = [ 'Phys/'+self.__sel_name__+'Sel' ] else: plotter.Inputs = self.getProp("Candidates") plotter.PeakCut = "(ADMASS('Lambda0')<2*MeV)" plotter.SideBandCut = "(ADMASS('Lambda0')>2*MeV)" plotter.PlotTools = self.getProp("PlotTools") self.setOptions(plotter) seq.Members += [ plotter ] # Make a DST ? if self.getProp("MakeSelDST"): # Prescale from Configurables import DeterministicPrescaler scaler = DeterministicPrescaler( self.__sel_name__+'PreScale', AcceptFraction = self.getProp("DSTPreScaleFraction") ) seq.Members += [scaler] # Write the DST MyDSTWriter = SelDSTWriter( self.__sel_name__+"DST", SelectionSequences = [ selSeq ], OutputPrefix = self.__sel_name__ ) seq.Members += [MyDSTWriter.sequence()] # MC Performance checking ? if self.getProp("MCChecks") : from Configurables import ParticleEffPurMoni mcPerf = ParticleEffPurMoni(lambda2ppiName+"MCPerf") mcPerf.Inputs = ["Phys/"+lambda2ppiName] self.setOptions(mcPerf) seq.Members += [mcPerf] # Ntuple ? if self.getProp("MakeNTuple") : pass
def __apply_configuration__(self): from Configurables import (GaudiSequencer, CombineParticles, FilterDesktop) from PhysSelPython.Wrappers import Selection, SelectionSequence, DataOnDemand if not self.isPropertySet("Sequencer"): raise RuntimeError("ERROR : Sequence not set") seq = self.getProp("Sequencer") if self.getProp("RunSelection"): # STD particles from StandardParticles import StdNoPIDsPions, StdNoPIDsKaons # Filter Pi/K Tracks trackfilterName = self.__sel_name__ + "_TrackFilter" trackfilter = FilterDesktop(trackfilterName) trackfilter.Code = "(PT > 0.4*GeV) & (P > 2.0*GeV) & (TRCHI2DOF < 10) & (MIPCHI2DV(PRIMARY) > 6)" self.setOptions(trackfilter) trackfilterSel = Selection( trackfilterName + 'Sel', Algorithm=trackfilter, RequiredSelections=[StdNoPIDsPions, StdNoPIDsKaons]) # Filter Pi Tracks pionfilterName = self.__sel_name__ + "_PiFilter" pionfilter = FilterDesktop(pionfilterName) pionfilter.Code = "(PT > 110*MeV) & (MIPCHI2DV(PRIMARY) > 2)" self.setOptions(pionfilter) pionfilterSel = Selection(pionfilterName + 'Sel', Algorithm=pionfilter, RequiredSelections=[StdNoPIDsPions]) # Make the D0 d02kpiName = self.__sel_name__ + "_D0ToKPiSel" d02kpi = CombineParticles(d02kpiName) d02kpi.DecayDescriptor = "[ D0 -> K- pi+ ]cc" d02kpi.CombinationCut = "(ADAMASS('D0') < 100*MeV)" d02kpi.MotherCut = "(ADMASS('D0') < 50.0*MeV)"\ "& (PT > 1.00*GeV)"\ "& (VFASPF(VCHI2/VDOF)< 10.0)"\ "& (BPVDIRA > 0.9999)"\ "& (BPVVDCHI2 > 12)" self.setOptions(d02kpi) d02kpiSel = Selection(d02kpiName + 'Sel', Algorithm=d02kpi, RequiredSelections=[trackfilterSel]) # Make the D* dstar2d0piName = self.__sel_name__ dstar2d0pi = CombineParticles(dstar2d0piName) dstar2d0pi.DecayDescriptor = "[ D*(2010)+ -> D0 pi+ ]cc" dstar2d0pi.CombinationCut = "(ADAMASS('D*(2010)+') < 100*MeV)" dstar2d0pi.MotherCut = "(ADMASS('D*(2010)+') < 50.0*MeV)"\ "& (PT > 2.2*GeV)"\ "& (VFASPF(VCHI2/VDOF)< 15.0)"\ "& (M-MAXTREE('D0'==ABSID,M)<155.5)" self.setOptions(dstar2d0pi) dstar2d0piSel = Selection( dstar2d0piName + 'Sel', Algorithm=dstar2d0pi, RequiredSelections=[d02kpiSel, pionfilterSel]) # Selection Sequence selSeq = SelectionSequence(self.__sel_name__ + 'Seq', TopSelection=dstar2d0piSel) # Run the selection sequence. seq.Members += [selSeq.sequence()] # Particle Monitoring plots if self.getProp("RunMonitors"): from Configurables import ParticleMonitor plotter = ParticleMonitor(self.__sel_name__ + "Plots") if self.getProp("RunSelection"): plotter.Inputs = ['Phys/' + self.__sel_name__ + 'Sel'] else: plotter.Inputs = self.getProp("Candidates") plotter.PeakCut = "(M-MAXTREE('D0'==ABSID,M)<147.43) "\ "& (M-MAXTREE('D0'==ABSID,M)>143.43) "\ "& (INTREE((ABSID=='D0') & (ADMASS('D0') < 15*MeV) ))" plotter.SideBandCut = "(M-MAXTREE('D0'==ABSID,M)>147.43) "\ "& (M-MAXTREE('D0'==ABSID,M)<143.43) "\ "& (INTREE((ABSID=='D0') & (ADMASS('D0') > 15*MeV) ))" plotter.PlotTools = self.getProp("PlotTools") self.setOptions(plotter) seq.Members += [plotter] # Make a DST ? if self.getProp("MakeSelDST"): # Prescale from Configurables import DeterministicPrescaler scaler = DeterministicPrescaler( self.__sel_name__ + 'PreScale', AcceptFraction=self.getProp("DSTPreScaleFraction")) seq.Members += [scaler] # Write the DST MyDSTWriter = SelDSTWriter(self.__sel_name__ + "DST", SelectionSequences=[selSeq], OutputPrefix=self.__sel_name__) seq.Members += [MyDSTWriter.sequence()] # MC Performance checking ? if self.getProp("MCChecks"): from Configurables import ParticleEffPurMoni mcPerf = ParticleEffPurMoni(dstar2d0piName + "MCPerf") mcPerf.Inputs = ["Phys/" + dstar2d0piName] self.setOptions(mcPerf) seq.Members += [mcPerf] # Ntuple ? if self.getProp("MakeNTuple"): pass