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Comparing UserCode/MitPhysics/Utils/interface/MuonTools.h (file contents):
Revision 1.3 by loizides, Thu Nov 27 16:28:58 2008 UTC vs.
Revision 1.9 by loizides, Mon Jun 15 15:00:23 2009 UTC

# Line 3 | Line 3
3   //
4   // MuonTools
5   //
6 < // Isolation functions to compute various kinds of isolation.
7 < // http://cmslxr.fnal.gov/lxr/source/RecoMuon/MuonIdentification/
8 < // http://cmslxr.fnal.gov/lxr/source/DataFormats/MuonReco/
6 > // This class allows you to classify a given muon according to defined criteria. For this purpose
7 > // is loads histograms from two ROOT files, specified in the constructor. The main function then
8 > // is "IsGood(*muon, selection)" which returns true if the given muon fulfills the selection
9 > // criteria.
10 > //
11 > // Logically, the code has been put together by Phil who took most of the ideas from
12 > //  http://cmslxr.fnal.gov/lxr/source/RecoMuon/MuonIdentification/
13 > //  http://cmslxr.fnal.gov/lxr/source/DataFormats/MuonReco/
14 > //
15   // Authors: P.Harris, C.Loizides
16   //--------------------------------------------------------------------------------------------------
17  
18 < #ifndef MITPHYSICS_UTIL_MUONTOOLS_H
19 < #define MITPHYSICS_UTIL_MUONTOOLS_H
18 > #ifndef MITPHYSICS_UTILS_MUONTOOLS_H
19 > #define MITPHYSICS_UTILS_MUONTOOLS_H
20  
21   #include "MitAna/DataTree/interface/Muon.h"
22   #include "MitCommon/MathTools/interface/MathUtils.h"
# Line 24 | Line 30 | namespace mithep {
30        ~MuonTools();
31  
32        enum ESelType {
33 <        kAllArbitrated,
34 <        kPromptTight,
35 <        kTMLastStationLoose,
36 <        kTMLastStationTight,
37 <        kTMOneStationLoose,
38 <        kTMOneStationTight,
39 <        kTM2DCompatibilityLoose,
40 <        kTM2DCompatibilityTight
33 >        kAllArbitrated,          //All arbitration (DT/CSC/RPC Hits) put on at least one
34 >                                 //  segments given a global Muon
35 >        kPromptTight,            //Standard global muon identification
36 >        kTMLastStationLoose,     //Loose matching requirements on lastmost muon station of reco
37 >        kTMLastStationTight,     //Tight matching requirements on lastmost muon station of reco
38 >        kTMOneStationLoose,      //Loose matching requirements on at least one muon station of reco
39 >        kTMOneStationTight,      //Tight matching requirements on at least one muon station of reco
40 >        kTM2DCompatibilityLoose, //Loose requirement on sum of compatabiliity variables
41 >                                 //  ===> 1.2 Segment compatability + 0.8 calo compatability > 0.8
42 >        kTM2DCompatibilityTight  //Tight requirement on sum of compatabiliity variables
43 >                                 //  ===> 1.2 Segment compatability + 0.8 calo compatability > 1.2
44        };
45  
46        Bool_t      Init(const char *mutemp, const char *pitemp);
47        Bool_t      IsGood(const mithep::Muon *iMuon, ESelType iSel) const;
48 +      Double_t    GetCaloCompatability(const mithep::Muon *iMuon,
49 +                                       Bool_t iEMSpecial, Bool_t iCorrectedHCAL) const;
50 +      Double_t    GetSegmentCompatability(const mithep::Muon *iMuon)             const;
51  
52      protected:
53        void        DeleteHistos();
54 <      Double_t    GetCaloCompatability(const mithep::Muon *iMuon,
55 <                                       Bool_t iEMSpecial, Bool_t iCorrectedHCAL) const;
56 <      Double_t    GetSegmentCompatability(const mithep::Muon *iMuon)             const;
45 <      Bool_t      Overflow(const TH2D *iHist, Double_t lVal0, Double_t lVal1)    const;
46 <      Double_t    SigWeight(Double_t iVal0, Double_t iVal1)                      const;
47 <
54 >      Bool_t      Overflow(const TH2D *iHist, Double_t lVal0, Double_t lVal1)    const;
55 >      Double_t    SigWeight(Double_t iVal0, Double_t iVal1)                      const;
56 >  
57      private:
58 <      Bool_t      fIsInit;              //!
59 <      TH2D       *fmuon_em_etaEmi;      //!
60 <      TH2D       *fmuon_had_etaEmi;     //!
61 <      TH2D       *fmuon_had_etaTmi;     //!
62 <      TH2D       *fmuon_em_etaB;        //!
63 <      TH2D       *fmuon_had_etaB;       //!
64 <      TH2D       *fmuon_ho_etaB;        //!
65 <      TH2D       *fmuon_had_etaTpl;     //!
66 <      TH2D       *fmuon_em_etaEpl;      //!
67 <      TH2D       *fmuon_had_etaEpl;     //!
68 <      TH2D       *fpion_em_etaEmi;      //!
69 <      TH2D       *fpion_had_etaEmi;     //!
70 <      TH2D       *fpion_had_etaTmi;     //!
71 <      TH2D       *fpion_em_etaB;        //!
72 <      TH2D       *fpion_had_etaB;       //!
73 <      TH2D       *fpion_ho_etaB;        //!
74 <      TH2D       *fpion_had_etaTpl;     //!
75 <      TH2D       *fpion_em_etaEpl;      //!
76 <      TH2D       *fpion_had_etaEpl;     //!
58 >      Bool_t      fIsInit;              //!=true if histograms are loaded
59 >      TH2D       *fmuon_em_etaEmi;      //!Neg Endcap EM       Calo Deposit Template for Muons
60 >      TH2D       *fmuon_had_etaEmi;     //!Neg Endcap Hadronic Calo Deposit Template for Muons
61 >      TH2D       *fmuon_had_etaTmi;     //!Neg Transition Hadronic Calo Deposit Template for Muons
62 >      TH2D       *fmuon_em_etaB;        //!Barrel EM       Calo Deposit Template for Muons
63 >      TH2D       *fmuon_had_etaB;       //!Barrel Hadronic Calo Deposit Template for Muons
64 >      TH2D       *fmuon_ho_etaB;        //!Barrel HO       Calo Deposit Template for Muons
65 >      TH2D       *fmuon_had_etaTpl;     //!Plus Transition Hadronic Calo Deposit Template for Muons
66 >      TH2D       *fmuon_em_etaEpl;      //!Plus Endcap EM       Calo Deposit Template for Muons
67 >      TH2D       *fmuon_had_etaEpl;     //!Plus Endcap Hadronic Calo Deposit Template for Muons
68 >      TH2D       *fpion_em_etaEmi;      //!Neg  Endcap EM       Calo Deposit Template for Pions
69 >      TH2D       *fpion_had_etaEmi;     //!Neg  Endcap Hadronic Calo Deposit Template for Pions
70 >      TH2D       *fpion_had_etaTmi;     //!Neg Transition Hadronic Calo Deposit Template for Pions
71 >      TH2D       *fpion_em_etaB;        //!Barrel EM       Calo Deposit Template for Pions
72 >      TH2D       *fpion_had_etaB;       //!Barrel Hadronic Calo Deposit Template for Pions
73 >      TH2D       *fpion_ho_etaB;        //!Barrel HO       Calo Deposit Template for Pions
74 >      TH2D       *fpion_had_etaTpl;     //!Plus Transition Hadronic Calo Deposit Template for Pions
75 >      TH2D       *fpion_em_etaEpl;      //!Plus Endcap EM       Calo Deposit Template for Pions
76 >      TH2D       *fpion_had_etaEpl;     //!Plus Endcap Hadronic Calo Deposit Template for Pions
77  
78        TH2D       *LoadHisto(const char *fname, TFile *file)                      const;
79    };
# Line 73 | Line 82 | namespace mithep {
82   //--------------------------------------------------------------------------------------------------
83   inline Double_t mithep::MuonTools::SigWeight(Double_t iVal0, Double_t iVal1) const
84   {
85 <  //
85 >  // Returns weighted uncertainty given segment matching uncertainty (iVal0) and
86 >  // segment matching pull (iVal1).
87  
88 <  if (iVal1 < 1.)
88 >  if (iVal1 < 1.)  //if pull defined and within range
89      return 1.;
90 <  if (iVal0 < 3. && iVal1 > 3.) {
90 >  if (iVal0 < 3. && iVal1 > 3.) {       //if pull not well defined and uncertainty defined
91      Double_t lVal = TMath::Max(iVal0,1.);
92      return 1./TMath::Power(lVal,0.25);
93    }
94  
95 <  Double_t lVal = TMath::Max(iVal1,1.);
95 >  Double_t lVal = TMath::Max(iVal1,1.); //if pull > 1 and pull < 3 return 1/pull^4
96    return 1./TMath::Power(lVal,0.25);
97   }
88
98   //--------------------------------------------------------------------------------------------------
99   inline Bool_t mithep::MuonTools::Overflow(const TH2D *iHist, Double_t lVal0, Double_t lVal1) const
100   {
# Line 103 | Line 112 | inline Bool_t mithep::MuonTools::Overflo
112    return kFALSE;
113   }
114   #endif
106
107 #if 0
108    static inline MCParticle* etaPhiMatch(MCParticleCol* iMCParts,Muon *iMuon) {
109      mithep::MCParticle *lMC = 0; Double_t lDR = 1.; Double_t lPt = -1.;
110      for(unsigned Int_t i0 = 0; i0 < iMCParts->GetEntries(); i0++) {
111        mithep::MCParticle* pMC = iMCParts->At(i0);
112        if(pMC->Status() != 1) continue;
113        Double_t pDR = mithep::MathUtils::DeltaR(pMC->Mom(),iMuon->Mom());
114        if(pDR > lDR && pDR > 0.01) continue;
115        if(fabs(pMC->Pt()) < lPt)   continue;
116        lDR = pDR;
117        lMC = pMC;
118        lPt = pMC->Pt();
119      }
120      return lMC;
121    }
122    static inline Muon* match(MuonCol* iMuons,Track *iTrack) {
123      mithep::Muon *lMuon = 0; Double_t lDR = 1.; Double_t lPt = -1.;
124      for(unsigned Int_t i0 = 0; i0 < iMuons->GetEntries(); i0++) {
125        mithep::Muon* pMuon = iMuons->At(i0);
126        Double_t pDR = mithep::MathUtils::DeltaR(pMuon->Mom(),iTrack->Mom4(0.109));
127        if(pDR > lDR && pDR > 0.01) continue;
128        if(fabs(pMuon->Pt()) < lPt)   continue;
129        lDR   = pDR;
130        lMuon = pMuon;
131        lPt   = pMuon->Pt();
132      }
133      return lMuon;
134    }
135 #endif
136
137

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