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// |
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// MuonIDMod |
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// |
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// This Module applies electron ID criteria and exports a pointer to a collection |
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// of Good Electrons according to some specified ID scheme |
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// This module applies muon identification criteria and exports a pointer to a collection |
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// of "good muons" according to the specified ID scheme. |
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// |
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// See http://indico.cern.ch/contributionDisplay.py?contribId=1&confId=45945 |
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// See http://indico.cern.ch/getFile.py/access?contribId=1&resId=0&materialId=slides&confId=42229 |
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// |
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// Authors: S.Xie |
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//-------------------------------------------------------------------------------------------------- |
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#ifndef MITANA_TREEMOD_MUONIDMOD_H |
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#define MITANA_TREEMOD_MUONIDMOD_H |
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#ifndef MITPHYSICS_MODS_MUONIDMOD_H |
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#define MITPHYSICS_MODS_MUONIDMOD_H |
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#include "MitAna/TreeMod/interface/BaseMod.h" |
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#include "MitAna/DataTree/interface/Collections.h" |
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|
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class TH1D; |
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class TH2D; |
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#include "MitAna/DataTree/interface/MuonFwd.h" |
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#include "MitAna/DataTree/interface/VertexFwd.h" |
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#include "MitAna/DataTree/interface/TrackFwd.h" |
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#include "MitAna/DataTree/interface/PFCandidateFwd.h" |
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#include "MitPhysics/Utils/interface/MuonTools.h" |
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#include "MitPhysics/Utils/interface/IsolationTools.h" |
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#include "MitAna/DataTree/interface/PileupEnergyDensityCol.h" |
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namespace mithep |
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{ |
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{ |
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public: |
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MuonIDMod(const char *name="MuonIDMod", |
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const char *title="Example analysis module with all branches"); |
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~MuonIDMod() {} |
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void SetPrintDebug(bool b) { fPrintDebug = b; } |
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void SetMuonIDType(TString type) { fMuonIDType = type; } |
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void SetTrackIsolationCut(Double_t cut) { fTrackIsolationCut = cut; } |
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void SetCaloIsolationCut(Double_t cut) { fCaloIsolationCut = cut; } |
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void SetCleanMuonsName(TString s) { fCleanMuonsName = s; } |
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const char *title="Muon identification module"); |
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|
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Double_t GetCaloIsoCut() const { return fCaloIsolationCut; } |
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const char *GetClassType() const { return fMuonClassType; } |
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const char *GetCleanName() const { return GetCleanMuonsName(); } |
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const char *GetCleanMuonsName() const { return fCleanMuonsName; } |
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Double_t GetCombIsoCut() const { return fCombIsolationCut; } |
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const char *GetIDType() const { return fMuonIDType; } |
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const char *GetInputName() const { return fMuonBranchName; } |
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const char *GetIsoType() const { return fMuonIsoType; } |
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const char *GetOutputName() const { return GetCleanMuonsName(); } |
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Double_t GetPtMin() const { return fMuonPtMin; } |
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Double_t GetTrackIsoCut() const { return fTrackIsolationCut; } |
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void SetApplyD0Cut(Bool_t b) { fApplyD0Cut = b; } |
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void SetApplyDZCut(Bool_t b) { fApplyDZCut = b; } |
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void SetCaloIsoCut(Double_t cut) { fCaloIsolationCut = cut; } |
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void SetClassType(const char *type) { fMuonClassType = type; } |
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void SetCleanMuonsName(const char *name) { fCleanMuonsName = name; } |
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void SetOldMuonsName(const char *n) { fNonIsolatedMuonsName = n; } |
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void SetOldElectronsName(const char *n) { fNonIsolatedElectronsName = n; } |
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void SetCleanName(const char *name) { SetCleanMuonsName(name); } |
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void SetCombIsoCut(Double_t cut) { fCombIsolationCut = cut; } |
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void SetCombRelativeIsoCut(Double_t cut) { fCombRelativeIsolationCut = cut; } |
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void SetPFIsoCut(Double_t cut) { fPFIsolationCut = cut; } |
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void SetD0Cut(Double_t cut) { fD0Cut = cut; } |
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void SetDZCut(Double_t cut) { fDZCut = cut; } |
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void SetWhichVertex(Int_t d) { fWhichVertex = d; } |
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void SetEtaCut(Double_t cut) { fEtaCut = cut; } |
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void SetIDType(const char *type) { fMuonIDType = type; } |
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void SetInputName(const char *name) { fMuonBranchName = name; } |
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void SetIsoType(const char *type) { fMuonIsoType = type; } |
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void SetOutputName(const char *name) { SetCleanMuonsName(name); } |
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void SetPtMin(Double_t pt) { fMuonPtMin = pt; } |
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void SetTrackIsoCut(Double_t cut) { fTrackIsolationCut = cut; } |
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|
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enum EMuIdType { |
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kIdUndef = 0, //not defined |
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kWMuId, //"WMuId" |
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kZMuId, //"ZMuId" |
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kTight, //"Tight" |
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kLoose, //"Loose" |
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kWWMuIdV1, //"WWMuIdV1" |
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kWWMuIdV2, //"WWMuIdV2" |
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kNoId, //"NoId" |
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kCustomId //"Custom" |
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}; |
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enum EMuIsoType { |
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kIsoUndef = 0, //"not defined" |
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kTrackCalo, //"TrackCalo" |
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kTrackCaloCombined, //"TrackCaloCombined" |
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kTrackCaloSliding, //"TrackCaloSliding" |
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kTrackCaloSlidingNoCorrection, //"TrackCaloSlidingNoCorrection" |
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kCombinedRelativeConeAreaCorrected, //"CombinedRelativeConeAreaCorrected" |
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kCustomIso, //"Custom" |
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kPFIso, //"PFIso" |
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kPFIsoNoL, //"PFIsoNoL" |
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kNoIso //"NoIso" |
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}; |
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enum EMuClassType { |
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kClassUndef = 0, //not defined |
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kAll, //"All" |
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kGlobal, //"Global" |
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kGlobalTracker, //"GlobalTracker" |
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kSta, //"Standalone" |
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kTrackerMuon, //"TrackerMuon" |
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kCaloMuon, //"CaloMuon" |
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kTrackerBased //"TrackerMuon or CaloMuon" |
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}; |
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|
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protected: |
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bool fPrintDebug; //flag for printing debug output |
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TString fMuonName; //name of muon collection |
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TString fCleanMuonsName ; //name of good muons collection |
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TString fMuonIDType; //Type of electron ID we impose |
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TString fMuonIsoType; //Type of electron Isolation we impose |
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MuonCol *fMuons; //!Muon branch |
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|
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double fTrackIsolationCut; //Cut value for track isolation |
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double fCaloIsolationCut; //Cut value for calo isolation |
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int fNEventsProcessed; // Number of events processed |
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void Begin(); |
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void Process(); |
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void SlaveBegin(); |
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void SlaveTerminate(); |
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void Terminate(); |
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ClassDef(MuonIDMod,1) // TAM example analysis module |
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void Process(); |
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void SlaveBegin(); |
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TString fMuonBranchName; //name of muon collection (input) |
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TString fCleanMuonsName; //name of exported "good muon" collection |
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TString fNonIsolatedMuonsName; //name of imported "old muon" collection |
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TString fNonIsolatedElectronsName;//name of imported "old electron" collection |
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TString fVertexName; //name of vertex collection |
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TString fBeamSpotName; //name of beamspot collection |
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TString fTrackName; //name of track collection |
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TString fPFCandidatesName; //name of pfcandidates collection |
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TString fMuonIDType; //type of muon id scheme we impose |
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TString fMuonIsoType; //type of muon isolations scheme we impose |
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TString fMuonClassType; //type of muon class we impose |
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Double_t fTrackIsolationCut; //cut value for track isolation |
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Double_t fCaloIsolationCut; //cut value for calo isolation |
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Double_t fCombIsolationCut; //cut value for combined isolation |
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Double_t fCombRelativeIsolationCut; //cut value for combined relative isolation |
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Double_t fPFIsolationCut; //cut value for combined isolation |
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Double_t fMuonPtMin; //min muon pt |
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Bool_t fApplyD0Cut; //=true then apply d0 cut (def=1) |
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Bool_t fApplyDZCut; //=true then apply dz cut (def=1) |
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Double_t fD0Cut; //max d0 |
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Double_t fDZCut; //max dz |
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Int_t fWhichVertex; //vertex to use (-2: beamspot, -1: closest in Z) |
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Double_t fEtaCut; //max eta, absolute value |
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EMuIdType fMuIDType; //!muon id type (imposed) |
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EMuIsoType fMuIsoType; //!muon iso type (imposed) |
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EMuClassType fMuClassType; //!muon class type (imposed) |
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const MuonCol *fMuons; //!muon collection |
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const VertexCol *fVertices; //!vertices branch |
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const BeamSpotCol *fBeamSpot; //!beamspot branch |
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const TrackCol *fTracks; //!track branch |
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const PFCandidateCol *fPFCandidates; //!pfcandidate branch |
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MuonCol *fNonIsolatedMuons; //!pointer to old muon collection |
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ElectronCol *fNonIsolatedElectrons;//!pointer to old electron collection |
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TString fPileupEnergyDensityName; |
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const PileupEnergyDensityCol *fPileupEnergyDensity; |
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ClassDef(MuonIDMod, 1) // Muon identification module |
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}; |
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} |
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#endif |
