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Comparing UserCode/MitAna/DataTree/interface/Muon.h (file contents):
Revision 1.13 by sixie, Fri Aug 8 11:17:13 2008 UTC vs.
Revision 1.36 by bendavid, Fri May 21 18:50:07 2010 UTC

#	Line 3 | Line 3
3		//
4		// Muon
5		//
6	<	// Details to be worked out...
6	>	// Classified into 3 Types
7	>	//  Standalone  : Muon fit from hits in the muon chambers
8	>	//  Tracker     : Tracker matched track to muon chambers with segments
9	>	//  Global      : Combined track and muon chambers fit
10		//
11	<	// Authors: C.Loizides, J.Bendavid, C.Paus
11	>	//  In the muon class all three muon classes exist and can be determined by checking
12	>	//  whether a fit track exists for such a Muon (eg HasTrackerTrk() == kTRUE). When
13	>	//  BestTrk function is called the global fit is returned, if that does not
14	>	//  exist the tracker fit is returned upon that failure the standalone muon
15	>	//  is subsequently returned. To consult more see:
16	>	//  http://cmsdoc.cern.ch/cms/Physics/muon/MPOG/Notes/MuonReco.pdf
17	>	//
18	>	// Quality Varaibles for Selection
19	>	//  Isolation : decomposed to IsoRNNXXXXX
20	>	//    NN = 03,05 to denote R =0.3,0.5 in Isolation Cone
21	>	//    XXXXX = SumPt - Sum of Pt of Tracks in Cone (using all Pt Tracks)
22	>	//    XXXXX = EmEt  - Sum of Et of Em component of Calo Towers  (Veto=0.08)
23	>	//    XXXXX = HadEt - Sum of Et of Had component of Calo Towers (Veto=0.1)
24	>	//    XXXXX = HoEt  - Sum of Pt of Ho component of Calo Towers  (Veto=0.1)
25	>	//    XXXXX = NTrk  - Number of Tracks within Cone (using all Pt Tracks)
26	>	//    XXXXX = NJet  - Sum of Jets inside Cone
27	>	//
28	>	// Muon Quality Variables
29	>	//  Extracted from the Muon Tracking Associator
30	>	//   For more se https://twiki.cern.ch/twiki/bin/view/CMS/TrackAssociator
31	>	//  Energy Variables : Energy within (5x5 Ecal Crystal/Hcal/Ho) along Track
32	>	//   using calo towers
33	>	//  S9 Energy Variables : Energy using reconstructed hits calo towers default
34	>	//  Segment Variables :
35	>	//   Segment variables are stored in array of 8:
36	>	//     0-3: Correspond to segments in 4 DT chambers  in->outward(3 has no Y res)
37	>	//     4-7: Correspond to segments in 4 CSC chambers in->out
38	>	//    If value undetermined 999999 is returned.
39	>	//   Variables:
40	>	//    DX,DY,PullX,PullY: Uncertainties/Pulls of propagated track
41	>	//     with respect to local muon segment
42	>	//   TrackDist,TrackDistErr: Summed Dist/Err (in X,Y) of segment with respect
43	>	//    to propagated track
44	>	//   NSegments : Number of segments in muon using Segment+Track Arbitration
45	>	//   NChambers : Number of muon chambers traversed in propagated track
46	>	//   LastHit   : Returns farest (from center) station with a recorded segment
47	>	//   LastStation  : Returns farest station using Segment+Track Arbitration
48	>	//
49	>	//  Muon Id Methods: Please see Muon Id Note(as of now unpublished):
50	>	//      https://www.cmsaf.mit.edu/twiki/pub/CmsHep/HepWAnalysis/MuonID-ingo.pdf
51	>	//   TMOneStation : Returns bool whether muon passes "Tracker Muon One StationId"
52	>	//    -Matching criteria for one of all segments matched to muon
53	>	//   TMLastStation : Returns bool whether muon passes "LastStation Id" criteria
54	>	//    -Matching criteria for last most segment
55	>	//
56	>	// Authors: J.Bendavid, C.Loizides, C.Paus, P.Harris
57		//--------------------------------------------------------------------------------------------------
58
59	<	#ifndef DATATREE_MUON_H
60	<	#define DATATREE_MUON_H
59	>	#ifndef MITANA_DATATREE_MUON_H
60	>	#define MITANA_DATATREE_MUON_H
61
14	–	#include <TRef.h>
15	–	#include "MitAna/DataTree/interface/ChargedParticle.h"
62		#include "MitAna/DataTree/interface/Track.h"
63	+	#include "MitAna/DataTree/interface/ChargedParticle.h"
64	+	#include "MitAna/DataTree/interface/MuonQuality.h"
65
66	<	namespace mithep
67	<	{
20	<	class Muon : public ChargedParticle
21	<	{
66	>	namespace mithep {
67	>	class Muon : public ChargedParticle {
68		public:
69	<	Muon() {}
70	<	~Muon() {}
71	<
72	<	const Track   *BestTrk()            const;
73	<	const Track   *GlobalTrk()          const;
74	<	const Track   *StandaloneTrk()      const;
75	<	const Track   *TrackerTrk()         const;
76	<	const Track   *Trk()                const  { return BestTrk();          }
77	<	Double_t       IsoR03SumPt()         const { return fIsoR03SumPt;       }
32	<	Double_t       IsoR03EmEt()          const { return fIsoR03EmEt;        }
33	<	Double_t       IsoR03HadEt()         const { return fIsoR03HadEt;       }
34	<	Double_t       IsoR03HoEt()          const { return fIsoR03HoEt;        }
35	<	Int_t          IsoR03NTracks()       const { return fIsoR03NTracks;     }
36	<	Int_t          IsoR03NJets()         const { return fIsoR03NJets;       }
37	<	Double_t       IsoR05SumPt()         const { return fIsoR05SumPt;       }
38	<	Double_t       IsoR05EmEt()          const { return fIsoR05EmEt;        }
39	<	Double_t       IsoR05HadEt()         const { return fIsoR05HadEt;       }
40	<	Double_t       IsoR05HoEt()          const { return fIsoR05HoEt;        }
41	<	Int_t          IsoR05NTracks()       const { return fIsoR05NTracks;     }
42	<	Int_t          IsoR05NJets()         const { return fIsoR05NJets;       }
43	<	Double_t       EmEnergy()            const { return fEmEnergy;          }
44	<	Double_t       HadEnergy()           const { return fHadEnergy;         }
45	<	Double_t       HoEnergy()            const { return fHoEnergy;          }
46	<	Double_t       EmS9Energy()          const { return fEmS9Energy;        }
47	<	Double_t       HadS9Energy()         const { return fHadS9Energy;       }
48	<	Double_t       HoS9Energy()          const { return fHoS9Energy;        }
49	<	Double_t       Mass()                const { return 105.658369e-3;      }
69	>	Muon();
70	>
71	>	enum EClassType {
72	>	kNone,              //no track assigned
73	>	kGlobal,            //"Global"
74	>	kTracker,           //"Tracker"
75	>	kSta,               //"Standalone"
76	>	kAny                //any "best" of the above
77	>	};
78
79	<	void           SetGlobalTrk(Track* t)                { fGlobalTrackRef = t;            }
80	<	void           SetStandaloneTrk(Track* t)            { fStandaloneTrackRef = t;        }
81	<	void           SetTrackerTrk(Track* t)               { fTrackerTrackRef = t;           }
82	<	void           SetIsoR03SumPt(Double_t isoR03SumPt)  { fIsoR03SumPt = isoR03SumPt;     }
83	<	void           SetIsoR03EmEt(Double_t isoR03EmEt)    { fIsoR03EmEt = isoR03EmEt;       }
84	<	void           SetIsoR03HadEt(Double_t isoR03HadEt)  { fIsoR03HadEt = isoR03HadEt;     }
85	<	void           SetIsoR03HoEt(Double_t isoR03HoEt)    { fIsoR03HoEt = isoR03HoEt;       }
86	<	void           SetIsoR03NTracks(Int_t isoR03NTracks) { fIsoR03NTracks = isoR03NTracks; }
87	<	void           SetIsoR03NJets(Int_t isoR03NJets)     { fIsoR03NJets = isoR03NJets;     }
88	<	void           SetIsoR05SumPt(Double_t isoR05SumPt)  { fIsoR05SumPt = isoR05SumPt;     }
89	<	void           SetIsoR05EmEt(Double_t isoR05EmEt)    { fIsoR05EmEt = isoR05EmEt;       }
90	<	void           SetIsoR05HadEt(Double_t isoR05HadEt)  { fIsoR05HadEt = isoR05HadEt;     }
91	<	void           SetIsoR05HoEt(Double_t isoR05HoEt)    { fIsoR05HoEt = isoR05HoEt;       }
92	<	void           SetIsoR05NTracks(Int_t isoR05NTracks) { fIsoR05NTracks = isoR05NTracks; }
93	<	void           SetIsoR05NJets(Int_t isoR05NJets)     { fIsoR05NJets = isoR05NJets;     }
94	<	void           SetEmEnergy(Double_t EmEnergy)        { fEmEnergy = EmEnergy;           }
95	<	void           SetHadEnergy(Double_t HadEnergy)      { fHadEnergy = HadEnergy;         }
96	<	void           SetHoEnergy(Double_t HoEnergy)        { fHoEnergy = HoEnergy;           }
97	<	void           SetEmS9Energy(Double_t EmS9Energy)    { fEmS9Energy = EmS9Energy;       }
98	<	void           SetHadS9Energy(Double_t HadS9Energy)  { fHadS9Energy = HadS9Energy;     }
99	<	void           SetHoS9Energy(Double_t HoS9Energy)    { fHoS9Energy = HoS9Energy;       }
79	>	const Track   *BestTrk()                       const;
80	>	const Track   *GlobalTrk()                     const { return fGlobalTrkRef.Obj();       }
81	>	const Track   *StandaloneTrk()                 const { return fStaTrkRef.Obj();          }
82	>	const Track   *TrackerTrk()                    const { return fTrkTrkRef.Obj();          }
83	>	const Track   *Trk()                           const { return BestTrk();                 }
84	>	Double_t       D0PV()                          const { return fD0PV;                     }
85	>	Double_t       D0PVErr()                       const { return fD0PVErr;                  }
86	>	Double_t       D0PVSignificance()              const { return fD0PV/fD0PVErr;            }
87	>	Double_t       Ip3dPV()                        const { return fIp3dPV;                   }
88	>	Double_t       Ip3dPVErr()                     const { return fIp3dPVErr;                }
89	>	Double_t       Ip3dPVSignificance()            const { return fIp3dPV/fIp3dPVErr;        }
90	>	Double_t       D0PVBS()                        const { return fD0PVBS;                   }
91	>	Double_t       D0PVBSErr()                     const { return fD0PVBSErr;                }
92	>	Double_t       D0PVBSSignificance()            const { return fD0PVBS/fD0PVBSErr;        }
93	>	Double_t       Ip3dPVBS()                      const { return fIp3dPVBS;                 }
94	>	Double_t       Ip3dPVBSErr()                   const { return fIp3dPVBSErr;              }
95	>	Double_t       Ip3dPVBSSignificance()          const { return fIp3dPVBS/fIp3dPVBSErr;    }
96	>	Double_t       PVCompatibility()               const { return fPVCompatibility;          }
97	>	Double_t       PVBSCompatibility()             const { return fPVBSCompatibility;        }
98	>	Double_t       EmEnergy()                      const { return fEmEnergy;                 }
99	>	Double_t       EmS9Energy()                    const { return fEmS9Energy;               }
100	>	Double_t       GetDX(Int_t iStation)           const;
101	>	Double_t       GetDY(Int_t iStation)           const;
102	>	Double_t       GetPullX(Int_t iStation)        const;
103	>	Double_t       GetPullY(Int_t iStation)        const;
104	>	Double_t       GetTrackDist(Int_t iStation)    const;
105	>	Double_t       GetTrackDistErr(Int_t iStation) const;
106	>	Int_t          GetNSegments(Int_t iStation)    const;
107	>	Bool_t         Has(EClassType type)            const;
108	>	Bool_t         HasTrk()                        const;
109	>	Bool_t         HasGlobalTrk()                  const { return fGlobalTrkRef.IsValid();   }
110	>	Bool_t         HasStandaloneTrk()              const { return fStaTrkRef.IsValid();      }
111	>	Bool_t         HasTrackerTrk()                 const { return fTrkTrkRef.IsValid();      }
112	>	Double_t       HadEnergy()                     const { return fHadEnergy;                }
113	>	Double_t       HadS9Energy()                   const { return fHadS9Energy;              }
114	>	Double_t       HoEnergy()                      const { return fHoEnergy;                 }
115	>	Double_t       HoS9Energy()                    const { return fHoS9Energy;               }
116	>	EClassType     Is()                            const;
117	>	Bool_t         IsGlobalMuon()                  const { return fIsGlobalMuon;             }
118	>	Bool_t         IsTrackerMuon()                 const { return fIsTrackerMuon;            }
119	>	Bool_t         IsStandaloneMuon()              const { return fIsStandaloneMuon;         }
120	>	Bool_t         IsCaloMuon()                    const { return fIsCaloMuon;               }
121	>	Double_t       IsoR03SumPt()                   const { return fIsoR03SumPt;              }
122	>	Double_t       IsoR03EmEt()                    const { return fIsoR03EmEt;               }
123	>	Double_t       IsoR03HadEt()                   const { return fIsoR03HadEt;              }
124	>	Double_t       IsoR03HoEt()                    const { return fIsoR03HoEt;               }
125	>	UShort_t       IsoR03NTracks()                 const { return fIsoR03NTracks;            }
126	>	UShort_t       IsoR03NJets()                   const { return fIsoR03NJets;              }
127	>	Double_t       IsoR05SumPt()                   const { return fIsoR05SumPt;              }
128	>	Double_t       IsoR05EmEt()                    const { return fIsoR05EmEt;               }
129	>	Double_t       IsoR05HadEt()                   const { return fIsoR05HadEt;              }
130	>	Double_t       IsoR05HoEt()                    const { return fIsoR05HoEt;               }
131	>	UShort_t       IsoR05NTracks()                 const { return fIsoR05NTracks;            }
132	>	UShort_t       IsoR05NJets()                   const { return fIsoR05NJets;              }
133	>	UInt_t         NChambers()                     const { return fNTraversedChambers;       }
134	>	UInt_t         NSegments()                     const { return fStationMask.NBitsSet();   }
135	>	Int_t          LastHit()                       const;
136	>	Int_t          LastStation(Double_t iMaxD, Double_t iMaxP)               const;
137	>	Int_t          LastStation(Int_t iMax=8)       const;
138	>	Int_t          ObjId()                         const { return ObjType()*1000+Is();       }
139	>	EObjType       ObjType()                       const { return kMuon;                     }
140	>	void           Print(Option_t *opt="")         const;
141	>	Bool_t         PromptTight(EClassType type)    const;
142	>	const MuonQuality  &Quality()                  const { return fQuality;                  }
143	>	MuonQuality        &Quality()                        { return fQuality;                  }
144	>	Bool_t         StationBit(Int_t bit)           const { return fStationMask.TestBit(bit); }
145	>	Bool_t         TMLastStation(Double_t iDYMin = 3, Double_t iPYMin = 3,
146	>	Double_t iDXMin = 3, Double_t iPXMin = 3,UInt_t iN = 2) const;
147	>	Bool_t         TMOneStation(Double_t iDYMin = 3, Double_t iPYMin = 3,
148	>	Double_t iDXMin = 3, Double_t iPXMin = 3,UInt_t iN = 1)  const;
149	>	void           SetCharge(Char_t x)                   { fCharge = x; ClearCharge();       }
150	>	void           SetGlobalTrk(const Track *t)
151	>	{ fGlobalTrkRef = t; ClearMom(); ClearCharge(); }
152	>	void           SetStandaloneTrk(const Track *t)
153	>	{ fStaTrkRef = t;    ClearMom(); ClearCharge(); }
154	>	void           SetTrackerTrk(const Track *t)
155	>	{ fTrkTrkRef = t;    ClearMom(); ClearCharge(); }
156	>	void           SetDX(Int_t iStation, Double_t iDX);
157	>	void           SetDY(Int_t iStation, Double_t iDY);
158	>	void           SetD0PV(Double_t x)                   { fD0PV = x;                        }
159	>	void           SetD0PVErr(Double_t x)                { fD0PVErr = x;                     }
160	>	void           SetIp3dPV(Double_t x)                 { fIp3dPV = x;                      }
161	>	void           SetIp3dPVErr(Double_t x)              { fIp3dPVErr = x;                   }
162	>	void           SetD0PVBS(Double_t x)                 { fD0PVBS = x;                      }
163	>	void           SetD0PVBSErr(Double_t x)              { fD0PVBSErr = x;                   }
164	>	void           SetIp3dPVBS(Double_t x)               { fIp3dPVBS = x;                    }
165	>	void           SetIp3dPVBSErr(Double_t x)            { fIp3dPVBSErr = x;                 }
166	>	void           SetPVCompatibility(Double_t x)        { fPVCompatibility = x;             }
167	>	void           SetPVBSCompatibility(Double_t x)      { fPVBSCompatibility = x;           }
168	>	void           SetEmEnergy(Double_t EmEnergy)        { fEmEnergy = EmEnergy;             }
169	>	void           SetEmS9Energy(Double_t EmS9Energy)    { fEmS9Energy = EmS9Energy;         }
170	>	void           SetHadEnergy(Double_t HadEnergy)      { fHadEnergy = HadEnergy;           }
171	>	void           SetHadS9Energy(Double_t HadS9Energy)  { fHadS9Energy = HadS9Energy;       }
172	>	void           SetHoEnergy(Double_t HoEnergy)        { fHoEnergy = HoEnergy;             }
173	>	void           SetHoS9Energy(Double_t HoS9Energy)    { fHoS9Energy = HoS9Energy;         }
174	>	void           SetIsGlobalMuon(Bool_t b)             { fIsGlobalMuon = b;                }
175	>	void           SetIsTrackerMuon(Bool_t b)            { fIsTrackerMuon = b;               }
176	>	void           SetIsStandaloneMuon(Bool_t b)         { fIsStandaloneMuon = b;            }
177	>	void           SetIsCaloMuon(Bool_t b)               { fIsCaloMuon = b;                  }
178	>	void           SetIsoR03SumPt(Double_t isoR03SumPt)  { fIsoR03SumPt = isoR03SumPt;       }
179	>	void           SetIsoR03EmEt(Double_t isoR03EmEt)    { fIsoR03EmEt = isoR03EmEt;         }
180	>	void           SetIsoR03HadEt(Double_t isoR03HadEt)  { fIsoR03HadEt = isoR03HadEt;       }
181	>	void           SetIsoR03HoEt(Double_t isoR03HoEt)    { fIsoR03HoEt = isoR03HoEt;         }
182	>	void           SetIsoR03NTracks(UShort_t isoR03NTrk) { fIsoR03NTracks = isoR03NTrk;      }
183	>	void           SetIsoR03NJets(UShort_t isoR03NJets)  { fIsoR03NJets = isoR03NJets;       }
184	>	void           SetIsoR05SumPt(Double_t isoR05SumPt)  { fIsoR05SumPt = isoR05SumPt;       }
185	>	void           SetIsoR05EmEt(Double_t isoR05EmEt)    { fIsoR05EmEt = isoR05EmEt;         }
186	>	void           SetIsoR05HadEt(Double_t isoR05HadEt)  { fIsoR05HadEt = isoR05HadEt;       }
187	>	void           SetIsoR05HoEt(Double_t isoR05HoEt)    { fIsoR05HoEt = isoR05HoEt;         }
188	>	void           SetIsoR05NTracks(UShort_t isoR05NTrk) { fIsoR05NTracks = isoR05NTrk;      }
189	>	void           SetIsoR05NJets(UShort_t isoR05NJets)  { fIsoR05NJets = isoR05NJets;       }
190	>	void           SetNChambers(UShort_t iNTraCh)        { fNTraversedChambers = iNTraCh;    }
191	>	void           SetNSegments(Int_t iStation, Int_t NSegments);
192	>	void           SetPtEtaPhi(Double_t pt, Double_t eta, Double_t phi);
193	>	void           SetPullX(Int_t iStation, Double_t iPullX);
194	>	void           SetPullY(Int_t iStation, Double_t iPullY);
195	>	void           SetStationMask(UInt_t iStMask)        { fStationMask.SetBits(iStMask);    }
196	>	void           SetTrackDist(Int_t iStation, Double_t iDist);
197	>	void           SetTrackDistErr(Int_t iStation, Double_t iDistErr);
198
199		protected:
200	<	TRef           fGlobalTrackRef;      //global combined track reference
201	<	TRef           fStandaloneTrackRef;  //standalone muon track reference
202	<	TRef           fTrackerTrackRef;     //tracker track reference
203	<	Double_t       fIsoR03SumPt;
204	<	Double_t       fIsoR03EmEt;
205	<	Double_t       fIsoR03HadEt;
206	<	Double_t       fIsoR03HoEt;
207	<	Int_t          fIsoR03NTracks;
208	<	Int_t          fIsoR03NJets;
209	<	Double_t       fIsoR05SumPt;
210	<	Double_t       fIsoR05EmEt;
211	<	Double_t       fIsoR05HadEt;
212	<	Double_t       fIsoR05HoEt;
213	<	Int_t          fIsoR05NTracks;
214	<	Int_t          fIsoR05NJets;
215	<	Double_t       fEmEnergy;
216	<	Double_t       fHadEnergy;
217	<	Double_t       fHoEnergy;
218	<	Double_t       fEmS9Energy;
219	<	Double_t       fHadS9Energy;
220	<	Double_t       fHoS9Energy;
200	>	Double_t       GetCharge()                     const;
201	>	Double_t       GetMass()                       const { return 105.658369e-3;             }
202	>	void           GetMom()                        const;
203	>
204	>	Vect3C         fMom;                 //stored three-momentum
205	>	Char_t         fCharge;              //stored charge - filled with -99 when reading old files
206	>	Ref<Track>     fGlobalTrkRef;        //global combined track reference
207	>	Ref<Track>     fStaTrkRef;           //standalone muon track reference
208	>	Ref<Track>     fTrkTrkRef;           //tracker track reference
209	>	Double32_t     fIsoR03SumPt;         //[0,0,14]isolation size R=0.3 sum pt
210	>	Double32_t     fIsoR03EmEt;          //[0,0,14]isolation size R=0.3 em  trans energy
211	>	Double32_t     fIsoR03HadEt;         //[0,0,14]isolation size R=0.3 had trans energy
212	>	Double32_t     fIsoR03HoEt;          //[0,0,14]isolation size R=0.3 ho  trans energy
213	>	UShort_t       fIsoR03NTracks;       //isolation size R=0.3 number of tracks
214	>	UShort_t       fIsoR03NJets;         //isolation size R=0.3 number of jets
215	>	Double32_t     fIsoR05SumPt;         //[0,0,14]isolation size R=0.5 sum pt
216	>	Double32_t     fIsoR05EmEt;          //[0,0,14]isolation size R=0.5 em  trans energy
217	>	Double32_t     fIsoR05HadEt;         //[0,0,14]isolation size R=0.5 had trans energy
218	>	Double32_t     fIsoR05HoEt;          //[0,0,14]isolation size R=0.5 ho  trans energy
219	>	UShort_t       fIsoR05NTracks;       //isolation size R=0.5 number of tracks
220	>	UShort_t       fIsoR05NJets;         //isolation size R=0.5 number of jets
221	>	Double32_t     fEmEnergy;            //[0,0,14]energy deposit in ecal
222	>	Double32_t     fHadEnergy;           //[0,0,14]energy deposit in hcal
223	>	Double32_t     fHoEnergy;            //[0,0,14]energy deposit in outer hcal
224	>	Double32_t     fEmS9Energy;          //[0,0,14]energy deposit in 3x3 ecal
225	>	Double32_t     fHadS9Energy;         //[0,0,14]energy deposit in 3x3 hcal
226	>	Double32_t     fHoS9Energy;          //[0,0,14]energy deposit in 3x3 outer hcal
227	>	Double32_t     fD0PV;                //[0,0,14]transverse impact parameter to signal PV
228	>	Double32_t     fD0PVErr;             //[0,0,14]transverse impact parameter uncertainty to signal PV
229	>	Double32_t     fIp3dPV;              //[0,0,14]3d impact parameter to signal PV
230	>	Double32_t     fIp3dPVErr;           //[0,0,14]3d impact parameter uncertainty to signal PV
231	>	Double32_t     fD0PVBS;              //[0,0,14]transverse impact parameter to signal PV w/ bs constraint
232	>	Double32_t     fD0PVBSErr;           //[0,0,14]transverse impact parameter uncertainty to signal PV w/ bs constraint
233	>	Double32_t     fIp3dPVBS;            //[0,0,14]3d impact parameter to signal PV w/ bs constraint
234	>	Double32_t     fIp3dPVBSErr;         //[0,0,14]3d impact parameter uncertainty to signal PV w/ bs constraint
235	>	Double32_t     fPVCompatibility;     //[0,0,14]chi^2 compatibility with signal PV (ndof=2)
236	>	Double32_t     fPVBSCompatibility;   //[0,0,14]chi^2 compatibility with signal PV w/ bs constraint (ndof=2)
237	>	UShort_t       fNTraversedChambers;  //number of traversed chambers
238	>	MuonQuality    fQuality;             //muon quality
239	>	BitMask8       fStationMask;         //bitmap of station with tracks, 0-3 DT, 4-7 CSCs
240	>	Double32_t     fDX[8];               //[0,0,14]uncertainty in x in given muon chamber
241	>	Double32_t     fDY[8];               //[0,0,14]uncertainty in y in given muon chamber
242	>	Double32_t     fPullX[8];            //[0,0,14]pull in x in given muon chamber
243	>	Double32_t     fPullY[8];            //[0,0,14]pull in y in given muon chamber
244	>	Double32_t     fTrackDist[8];        //[0,0,14]dist. to track in trans. plane in muon chamber
245	>	Double32_t     fTrackDistErr[8];     //[0,0,14]error of dist. to track in trans. plane
246	>	Int_t          fNSegments[8];        //number of segments in given muon chamber
247	>	Bool_t         fIsGlobalMuon;        //GlobalMuon algo flag
248	>	Bool_t         fIsTrackerMuon;       //TrackerMuon algo flag
249	>	Bool_t         fIsStandaloneMuon;    //StandaloneMuon algo flag
250	>	Bool_t         fIsCaloMuon;          //CaloMuon algo flag
251
252	<	ClassDef(Muon, 1) // Muon class
252	>	ClassDef(Muon, 5) // Muon class
253		};
254		}
255
#	Line 102 | Line 258 | inline const mithep::Track *mithep::Muon
258		{
259		// Return "best" track.
260
261	<	if (GlobalTrk())
261	>	if (HasGlobalTrk())
262		return GlobalTrk();
263	<	else if (StandaloneTrk())
108	<	return StandaloneTrk();
109	<	else if (TrackerTrk())
263	>	else if (HasTrackerTrk())
264		return TrackerTrk();
265	+	else if (HasStandaloneTrk())
266	+	return StandaloneTrk();
267
268	+	Error("BestTrk", "No track reference found, returning NULL pointer.");
269		return 0;
270		}
271
272		//--------------------------------------------------------------------------------------------------
273	<	inline const mithep::Track *mithep::Muon::GlobalTrk() const
274	<	{
275	<	// Return global combined track.
273	>	inline Double_t mithep::Muon::GetCharge() const
274	>	{
275	>	// Return stored charge, unless it is set to invalid (-99),
276	>	// in that case get charge from track as before
277	>
278	>	if (fCharge==-99)
279	>	return mithep::ChargedParticle::GetCharge();
280	>	else
281	>	return fCharge;
282	>
283	>	}
284	>
285	>	//--------------------------------------------------------------------------------------------------
286	>	inline void mithep::Muon::GetMom() const
287	>	{
288	>	// Get momentum of the muon. We use an explicitly stored three vector, with the pdg mass,
289	>	// since the momentum vector may be computed non-trivially in cmssw (since the tracker
290	>	// information has better resolution apparently in some cases than the global fit.)
291	>	// If momentum is unfilled, fall back to old method of getting momentum from best track
292	>	// (for backwards compatibility.)
293	>
294	>	if (fMom.Rho()>0.0) {
295	>	fCachedMom.SetCoordinates(fMom.Rho(),fMom.Eta(),fMom.Phi(),GetMass());
296	>	}
297	>	else {
298	>	mithep::ChargedParticle::GetMom();
299	>	}
300	>
301	>	}
302	>
303	>	//--------------------------------------------------------------------------------------------------
304	>	inline Double_t mithep::Muon::GetDX(Int_t iStation) const
305	>	{
306	>	// Return uncertainty in x in given chamber.
307	>
308	>	assert(iStation >= 0 && iStation < 8);
309	>	return fDX[iStation];
310	>	}
311	>
312	>	//--------------------------------------------------------------------------------------------------
313	>	inline Double_t mithep::Muon::GetDY(Int_t iStation) const
314	>	{
315	>	// Return uncertainty in y in given chamber.
316	>
317	>	assert(iStation >= 0 && iStation < 8);
318	>	return fDY[iStation];
319	>	}
320	>
321	>	//--------------------------------------------------------------------------------------------------
322	>	inline Double_t mithep::Muon::GetPullX(Int_t iStation) const
323	>	{
324	>	// Return pull in x in given chamber.
325	>
326	>	assert(iStation >= 0 && iStation < 8);
327	>	return fPullX[iStation];
328	>	}
329	>
330	>	//--------------------------------------------------------------------------------------------------
331	>	inline Double_t mithep::Muon::GetPullY(Int_t iStation) const
332	>	{
333	>	// Return pull in y in given chamber.
334	>
335	>	assert(iStation >= 0 && iStation < 8);
336	>	return fPullY[iStation];
337	>	}
338	>
339	>	//--------------------------------------------------------------------------------------------------
340	>	inline Double_t mithep::Muon::GetTrackDist(Int_t iStation) const
341	>	{
342	>	// Return track distance in given chamber.
343	>
344	>	assert(iStation >= 0 && iStation < 8);
345	>	return fTrackDist[iStation];
346	>	}
347	>
348	>	//--------------------------------------------------------------------------------------------------
349	>	inline Double_t mithep::Muon::GetTrackDistErr(Int_t iStation) const
350	>	{
351	>	// Return error of track distance in given chamber.
352	>
353	>	assert(iStation >= 0 && iStation < 8);
354	>	return fTrackDistErr[iStation];
355	>	}
356	>
357	>	//--------------------------------------------------------------------------------------------------
358	>	inline Int_t mithep::Muon::GetNSegments(Int_t iStation) const
359	>	{
360	>	// Return number of segments in chamber.
361	>
362	>	assert(iStation >= 0 && iStation < 8);
363	>	return fNSegments[iStation];
364	>	}
365	>
366	>	//--------------------------------------------------------------------------------------------------
367	>	inline Bool_t mithep::Muon::Has(EClassType type) const
368	>	{
369	>	// Return true if the muon has a track of given class.
370	>
371	>	switch (type) {
372	>	case kAny:
373	>	if (HasTrk())
374	>	return kTRUE;
375	>	break;
376	>	case kGlobal:
377	>	if (HasGlobalTrk())
378	>	return kTRUE;
379	>	break;
380	>	case kTracker:
381	>	if (HasTrackerTrk())
382	>	return kTRUE;
383	>	break;
384	>	case kSta:
385	>	if (HasStandaloneTrk())
386	>	return kTRUE;
387	>	break;
388	>	case kNone:
389	>	if (!HasTrk())
390	>	return kTRUE;
391	>	break;
392	>	default:
393	>	break;
394	>	}
395	>
396	>	return kFALSE;
397	>	}
398	>
399	>	//--------------------------------------------------------------------------------------------------
400	>	inline Bool_t mithep::Muon::HasTrk() const
401	>	{
402	>	// Return true if the muon has assigned any kind of track.
403	>
404	>	return (HasGlobalTrk() || HasTrackerTrk() || HasStandaloneTrk());
405	>	}
406	>
407	>	//--------------------------------------------------------------------------------------------------
408	>	inline mithep::Muon::EClassType mithep::Muon::Is() const
409	>	{
410	>	// Return the "best" classification of the muon according to the assigned tracks.
411	>
412	>	if (HasGlobalTrk())
413	>	return kGlobal;
414	>	else if (HasTrackerTrk())
415	>	return kTracker;
416	>	else if (HasStandaloneTrk())
417	>	return kSta;
418	>
419	>	return kNone;
420	>	}
421	>
422	>	//--------------------------------------------------------------------------------------------------
423	>	inline Int_t mithep::Muon::LastHit() const
424	>	{
425	>	// Return the last hit, or -1 if no one found.
426	>
427	>	Int_t lId = -1;
428	>	for (Int_t i0 = 0; i0 < 8; ++i0) {
429	>	if (GetDX(i0) < 99999 || GetDY(i0) < 99999)
430	>	lId = i0;
431	>	}
432	>	return lId;
433	>	}
434	>
435	>	//--------------------------------------------------------------------------------------------------
436	>	inline Int_t mithep::Muon::LastStation(Int_t iMax) const
437	>	{
438	>	// Return the last station, or -1 of no one found.
439	>
440	>	Int_t lId = -1;
441	>	if(TMath::Abs(iMax) > 8)
442	>	iMax = 8;
443	>	for (Int_t i0 = 0; i0 < iMax; ++i0) {
444	>	if (StationBit(i0) && ((lId % 4) < (i0 % 4)))
445	>	lId = i0;
446	>	}
447	>	return lId;
448	>	}
449	>
450	>	//--------------------------------------------------------------------------------------------------
451	>	inline Int_t mithep::Muon::LastStation(Double_t iMaxD, Double_t iMaxP) const
452	>	{
453	>	// Return the last station for given deviation and relative error, or -1 if no one found.
454	>
455	>	Int_t lId = -1;
456	>	for (Int_t i0 = 0; i0 < 8; ++i0) {
457	>	if ((lId % 4) > (i0 % 4))
458	>	continue;
459	>	if (GetTrackDist(i0) < iMaxD &&
460	>	GetTrackDist(i0)/GetTrackDistErr(i0) < iMaxP)
461	>	lId = i0;
462	>	}
463	>	return lId;
464	>	}
465	>
466	>	//--------------------------------------------------------------------------------------------------
467	>	inline Bool_t mithep::Muon::PromptTight(EClassType type) const
468	>	{
469	>	// Return whether track for given class matches tight quality criteria.
470
471	<	return static_cast<const Track*>(fGlobalTrackRef.GetObject());
471	>	const mithep::Track *lTrack = 0;
472	>	switch (type) {
473	>	case kAny:
474	>	lTrack = BestTrk();
475	>	break;
476	>	case kGlobal:
477	>	lTrack = GlobalTrk();
478	>	break;
479	>	case kTracker:
480	>	lTrack = TrackerTrk();
481	>	break;
482	>	case kSta:
483	>	lTrack = StandaloneTrk();
484	>	break;
485	>	default:
486	>	break;
487	>	}
488	>
489	>	if (lTrack == 0)
490	>	return kFALSE;
491	>	if (lTrack->NHits() < 11)
492	>	return kFALSE;
493	>	if (lTrack->Chi2()/lTrack->Ndof() > 10.)
494	>	return kFALSE;
495	>	if (lTrack->D0() > 0.2)
496	>	return kFALSE;
497	>	if ((LastHit() % 4) == 0)
498	>	return kFALSE;
499	>	return kTRUE;
500		}
501
502		//--------------------------------------------------------------------------------------------------
503	<	inline const mithep::Track *mithep::Muon::StandaloneTrk() const
504	<	{
505	<	// Return standalone track.
503	>	inline Bool_t mithep::Muon::TMOneStation(Double_t iDYMin, Double_t iPYMin,
504	>	Double_t iDXMin, Double_t iPXMin, UInt_t iN) const
505	>	{
506	>	// Check if the muon is matched to at least one station (chamber).
507
508	<	return static_cast<const Track*>(fStandaloneTrackRef.GetObject());
508	>	if (NSegments() < iN)
509	>	return kFALSE; //second last one
510	>
511	>	Bool_t pGoodX  = kFALSE;
512	>	Bool_t pBadY   = kFALSE;
513	>	for (Int_t i0 = 0; i0 < 8; ++i0) {
514	>	if ((TMath::Abs(GetDX(i0))    < iDXMin  ||
515	>	TMath::Abs(GetPullX(i0)) < iPXMin))
516	>	pGoodX = kTRUE;
517	>	if (pGoodX &&
518	>	(TMath::Abs(GetDY(i0))    < iDYMin  ||
519	>	TMath::Abs(GetPullY(i0)) < iPYMin))
520	>	return kTRUE;
521	>	if (TMath::Abs(GetDY(i0)) < 999999)
522	>	pBadY = kTRUE;
523	>	if (i0 == 3 && pGoodX && !pBadY)
524	>	return kTRUE;
525	>	}
526	>	return kFALSE;
527		}
528
529		//--------------------------------------------------------------------------------------------------
530	<	inline const mithep::Track *mithep::Muon::TrackerTrk() const
531	<	{
532	<	// Return tracker track.
530	>	inline Bool_t mithep::Muon::TMLastStation(Double_t iDYMin, Double_t iPYMin,
531	>	Double_t iDXMin, Double_t iPXMin, UInt_t iN) const
532	>	{
533	>	// Check if the muon is matched to its last station (chamber).
534	>
535	>	if (NSegments() < iN)
536	>	return kFALSE; //second last one
537	>
538	>	Int_t lLast = LastStation(-3.,-3.); // last required station
539	>	if (lLast < 0)
540	>	return kFALSE;
541	>	if (GetDX(lLast) > 9999.)
542	>	return kFALSE;
543	>	lLast = LastStation(); //no requirements
544	>	if (lLast < 0)
545	>	return kFALSE;
546	>	if (!(TMath::Abs(GetDX(lLast))    < iDXMin  ||
547	>	TMath::Abs(GetPullX(lLast)) < iPXMin))
548	>	return kFALSE;
549	>	if (lLast == 3)
550	>	lLast = LastStation(3);
551	>	if (lLast < 0)
552	>	return kFALSE;
553	>	if (!(TMath::Abs(GetDY(lLast))    < iDYMin ||
554	>	TMath::Abs(GetPullY(lLast)) < iPYMin))
555	>	return kFALSE;
556	>	return kTRUE;
557	>	}
558
559	<	return static_cast<const Track*>(fTrackerTrackRef.GetObject());
559	>	//--------------------------------------------------------------------------------------------------
560	>	inline void mithep::Muon::SetDX(Int_t iStation, Double_t iDX)
561	>	{
562	>	// Return uncertainty in x in given chamber.
563	>
564	>	assert(iStation >= 0 && iStation < 8);
565	>	fDX[iStation] = iDX;
566	>	}
567	>
568	>	//--------------------------------------------------------------------------------------------------
569	>	inline void mithep::Muon::SetDY(Int_t iStation, Double_t iDY)
570	>	{
571	>	// Return uncertainty in y in given chamber.
572	>
573	>	assert(iStation >= 0 && iStation < 8);
574	>	fDY[iStation] = iDY;
575	>	}
576	>
577	>	//--------------------------------------------------------------------------------------------------
578	>	inline void mithep::Muon::SetPullX(Int_t iStation, Double_t iPullX)
579	>	{
580	>	// Set pull in x in given chamber.
581	>
582	>	assert(iStation >= 0 && iStation < 8);
583	>	fPullX[iStation] = iPullX;
584	>	}
585	>
586	>	//--------------------------------------------------------------------------------------------------
587	>	inline void mithep::Muon::SetPullY(Int_t iStation, Double_t iPullY)
588	>	{
589	>	// Set pull in y in given chamber.
590	>
591	>	assert(iStation >= 0 && iStation < 8);
592	>	fPullY[iStation] = iPullY;
593	>	}
594	>
595	>	//--------------------------------------------------------------------------------------------------
596	>	inline void mithep::Muon::SetTrackDist(Int_t iStation, Double_t iDist)
597	>
598	>	{
599	>	// Set track distance in given chamber.
600	>
601	>	assert(iStation >= 0 && iStation < 8);
602	>	fTrackDist[iStation] = iDist;
603	>	}
604	>
605	>	//--------------------------------------------------------------------------------------------------
606	>	inline void mithep::Muon::SetTrackDistErr(Int_t iStation, Double_t iDistErr)
607	>	{
608	>	// Set error of track distance in given chamber.
609	>
610	>	assert(iStation >= 0 && iStation < 8);
611	>	fTrackDistErr[iStation] = iDistErr;
612	>	}
613	>
614	>	//--------------------------------------------------------------------------------------------------
615	>	inline void mithep::Muon::SetNSegments(Int_t iStation, Int_t NSegments)
616	>	{
617	>	// Set number of segments in chamber.
618	>
619	>	assert(iStation >= 0 && iStation < 8);
620	>	fNSegments[iStation] = NSegments;
621	>	}
622	>
623	>	//-------------------------------------------------------------------------------------------------
624	>	inline void mithep::Muon::SetPtEtaPhi(Double_t pt, Double_t eta, Double_t phi)
625	>	{
626	>	// Set three-vector
627	>
628	>	fMom.Set(pt,eta,phi);
629	>	ClearMom();
630		}
631		#endif
632	+
633	+
634	+
635	+
636	+

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