DataTree/interface/JPTJet.h

//--------------------------------------------------------------------------------------------------
// $Id: JPTJet.h,v 1.6 2010/02/21 23:42:00 bendavid Exp $
//
// JPTJet
//
// This class holds information about reconstructed jet based on jpt corrections.
//
// Authors: J.Bendavid
//--------------------------------------------------------------------------------------------------
 
#ifndef MITANA_DATATREE_JPTJET_H
#define MITANA_DATATREE_JPTJET_H
 
#include "MitAna/DataTree/interface/Jet.h"
#include "MitAna/DataCont/interface/Ref.h"

namespace mithep 
{
  class JPTJet : public Jet
  {
    public:
      JPTJet() : fZSPCor(0), fChargedHadronEnergy(0), fNeutralHadronEnergy(0),
                fChargedEmEnergy(0), fNeutralEmEnergy(0), fResponseOfChargedWithEff(0),
                fResponseOfChargedWithoutEff(0), fSumPtOfChargedWithEff(0),
                fSumPtOfChargedWithoutEff(0), fSumEnergyOfChargedWithEff(0),
                fSumEnergyOfChargedWithoutEff(0), fR2momtr(0), fEta2momtr(0),
                fPhi2momtr(0), fPout(0), fZch(0), fChargedMultiplicity(0), fMuonMultiplicity(0),
                fElectronMultiplicity(0) {}
      JPTJet(Double_t px, Double_t py, Double_t pz, Double_t e) : 
                Jet(px,py,pz,e),
                fZSPCor(0), fChargedHadronEnergy(0), fNeutralHadronEnergy(0),
                fChargedEmEnergy(0), fNeutralEmEnergy(0), fResponseOfChargedWithEff(0),
                fResponseOfChargedWithoutEff(0), fSumPtOfChargedWithEff(0),
                fSumPtOfChargedWithoutEff(0), fSumEnergyOfChargedWithEff(0),
                fSumEnergyOfChargedWithoutEff(0), fR2momtr(0), fEta2momtr(0),
                fPhi2momtr(0), fPout(0), fZch(0), fChargedMultiplicity(0), fMuonMultiplicity(0),
                fElectronMultiplicity(0) {}

      Double_t              ZSPCor()                        const { return fZSPCor;                       }
      Double_t              ChargedHadronEnergy()           const { return fChargedHadronEnergy;          }
      Double_t              NeutralHadronEnergy()           const { return fNeutralHadronEnergy;          }
      Double_t              ChargedEmEnergy()               const { return fChargedEmEnergy;              }
      Double_t              NeutralEmEnergy()               const { return fNeutralEmEnergy;              }
      Double_t              ResponseOfChargedWithEff()      const { return fResponseOfChargedWithEff;     }
      Double_t              ResponseOfChargedWithoutEff()   const { return fResponseOfChargedWithoutEff;  }
      Double_t              SumPtOfChargedWithEff()         const { return fSumPtOfChargedWithEff;        }
      Double_t              SumPtOfChargedWithoutEff()      const { return fSumPtOfChargedWithoutEff;     }
      Double_t              SumEnergyOfChargedWithEff()     const { return fSumEnergyOfChargedWithEff;    }
      Double_t              SumEnergyOfChargedWithoutEff()  const { return fSumEnergyOfChargedWithoutEff; }
      Double_t              R2momtr()                       const { return fR2momtr;                      }
      Double_t              Eta2momtr()                     const { return fEta2momtr;                    }
      Double_t              Phi2momtr()                     const { return fPhi2momtr;                    }
      Double_t              Pout()                          const { return fPout;                         }
      Double_t              Zch()                           const { return fZch;                          }
      UInt_t                ChargedMultiplicity()           const { return fChargedMultiplicity;   }
      UInt_t                MuonMultiplicity()              const { return fMuonMultiplicity;      }
      UInt_t                ElectronMultiplicity()          const { return fElectronMultiplicity;  }
      Jet                  *MakeCopy()                      const { return new JPTJet(*this);      }
      EObjType              ObjType()                       const { return kJPTJet;                } 
      const Jet            *OriginalJet()                   const { return fOriginalJet.Obj();  }
      void                  SetZSPCor(Double_t x)                        { fZSPCor = x;                       }
      void                  SetChargedHadronEnergy(Double_t x)           { fChargedHadronEnergy = x;          }
      void                  SetNeutralHadronEnergy(Double_t x)           { fNeutralHadronEnergy = x;          }
      void                  SetChargedEmEnergy(Double_t x)               { fChargedEmEnergy = x;              }
      void                  SetNeutralEmEnergy(Double_t x)               { fNeutralEmEnergy = x;              }
      void                  SetResponseOfChargedWithEff(Double_t x)      { fResponseOfChargedWithEff = x;     }
      void                  SetResponseOfChargedWithoutEff(Double_t x)   { fResponseOfChargedWithoutEff = x;  }
      void                  SetSumPtOfChargedWithEff(Double_t x)         { fSumPtOfChargedWithEff = x;        }
      void                  SetSumPtOfChargedWithoutEff(Double_t x)      { fSumPtOfChargedWithoutEff = x;     }
      void                  SetSumEnergyOfChargedWithEff(Double_t x)     { fSumEnergyOfChargedWithEff = x;    }
      void                  SetSumEnergyOfChargedWithoutEff(Double_t x)  { fSumEnergyOfChargedWithoutEff = x; }
      void                  SetR2momtr(Double_t x)                       { fR2momtr = x;                      }
      void                  SetEta2momtr(Double_t x)                     { fEta2momtr = x;                    }
      void                  SetPhi2momtr(Double_t x)                     { fPhi2momtr = x;                    }
      void                  SetPout(Double_t x)                          { fPout = x;                         }
      void                  SetZch(Double_t x)                           { fZch = x;                          }
      void                  SetChargedMultiplicity(UInt_t n)             { fChargedMultiplicity = n;          }
      void                  SetMuonMultiplicity(UInt_t n)                { fMuonMultiplicity    = n;          }
      void                  SetElectronMultiplicity(UInt_t n)            { fElectronMultiplicity = n;         }
      void                  SetOriginalJet(const Jet *j)                 { fOriginalJet = j;                  }

    protected:
      Double32_t            fZSPCor;               //[0,0,14]ZSP correction
      Double32_t            fChargedHadronEnergy;  //[0,0,14]charged hadron energy
      Double32_t            fNeutralHadronEnergy;  //[0,0,14]neutral hadron energy
      Double32_t            fChargedEmEnergy;      //[0,0,14]charged em energy
      Double32_t            fNeutralEmEnergy;      //[0,0,14]neutral em energy
      Double32_t            fResponseOfChargedWithEff; //[0,0,14]
      Double32_t            fResponseOfChargedWithoutEff; //[0,0,14]
      Double32_t            fSumPtOfChargedWithEff; //[0,0,14]
      Double32_t            fSumPtOfChargedWithoutEff; //[0,0,14]
      Double32_t            fSumEnergyOfChargedWithEff; //[0,0,14]
      Double32_t            fSumEnergyOfChargedWithoutEff; //[0,0,14]
      Double32_t            fR2momtr; //[0,0,14]
      Double32_t            fEta2momtr; //[0,0,14]
      Double32_t            fPhi2momtr; //[0,0,14]
      Double32_t            fPout; //[0,0,14]
      Double32_t            fZch; //[0,0,14]
      UInt_t                fChargedMultiplicity;  //number of charged constituents
      UInt_t                fMuonMultiplicity;     //number of muon constituents
      UInt_t                fElectronMultiplicity; //number of muon constituents
      Ref<Jet>              fOriginalJet;              //reference to original CaloJet

    ClassDef(JPTJet, 1) // JPTJet class
  };
}
#endif
Revision:	1.1
Committed:	Tue May 4 11:56:05 2010 UTC (15 years ago) by bendavid
Content type:	text/plain
Branch:	MAIN
CVS Tags:	Mit_025c_branch2, Mit_025c_branch1, Mit_025c_branch0, Mit_025d, Mit_025c, Mit_025b, Mit_025a, Mit_025, Mit_025pre2, Mit_024b, Mit_025pre1, Mit_024a, Mit_024, Mit_023, Mit_022a, Mit_022, Mit_020d, TMit_020d, Mit_020c, Mit_021, Mit_021pre2, Mit_021pre1, Mit_020b, Mit_020a, Mit_020, Mit_020pre1, Mit_018, Mit_017, Mit_017pre3, Mit_017pre2, Mit_017pre1, Mit_016, Mit_015b, Mit_015a, Mit_015, Mit_014e, Mit_014d, Mit_014c, Mit_014b, Mit_014a, Mit_014, Mit_014pre3, Mit_014pre2, Mit_014pre1
Branch point for:	Mit_025c_branch
Log Message:	Add JPTJet class for jet plus tracks in 36x
#	Content
1	//--------------------------------------------------------------------------------------------------
2	// $Id: JPTJet.h,v 1.6 2010/02/21 23:42:00 bendavid Exp $
3	//
4	// JPTJet
5	//
6	// This class holds information about reconstructed jet based on jpt corrections.
7	//
8	// Authors: J.Bendavid
9	//--------------------------------------------------------------------------------------------------
10
11	#ifndef MITANA_DATATREE_JPTJET_H
12	#define MITANA_DATATREE_JPTJET_H
13
14	#include "MitAna/DataTree/interface/Jet.h"
15	#include "MitAna/DataCont/interface/Ref.h"
16
17	namespace mithep
18	{
19	class JPTJet : public Jet
20	{
21	public:
22	JPTJet() : fZSPCor(0), fChargedHadronEnergy(0), fNeutralHadronEnergy(0),
23	fChargedEmEnergy(0), fNeutralEmEnergy(0), fResponseOfChargedWithEff(0),
24	fResponseOfChargedWithoutEff(0), fSumPtOfChargedWithEff(0),
25	fSumPtOfChargedWithoutEff(0), fSumEnergyOfChargedWithEff(0),
26	fSumEnergyOfChargedWithoutEff(0), fR2momtr(0), fEta2momtr(0),
27	fPhi2momtr(0), fPout(0), fZch(0), fChargedMultiplicity(0), fMuonMultiplicity(0),
28	fElectronMultiplicity(0) {}
29	JPTJet(Double_t px, Double_t py, Double_t pz, Double_t e) :
30	Jet(px,py,pz,e),
31	fZSPCor(0), fChargedHadronEnergy(0), fNeutralHadronEnergy(0),
32	fChargedEmEnergy(0), fNeutralEmEnergy(0), fResponseOfChargedWithEff(0),
33	fResponseOfChargedWithoutEff(0), fSumPtOfChargedWithEff(0),
34	fSumPtOfChargedWithoutEff(0), fSumEnergyOfChargedWithEff(0),
35	fSumEnergyOfChargedWithoutEff(0), fR2momtr(0), fEta2momtr(0),
36	fPhi2momtr(0), fPout(0), fZch(0), fChargedMultiplicity(0), fMuonMultiplicity(0),
37	fElectronMultiplicity(0) {}
38
39	Double_t ZSPCor() const { return fZSPCor; }
40	Double_t ChargedHadronEnergy() const { return fChargedHadronEnergy; }
41	Double_t NeutralHadronEnergy() const { return fNeutralHadronEnergy; }
42	Double_t ChargedEmEnergy() const { return fChargedEmEnergy; }
43	Double_t NeutralEmEnergy() const { return fNeutralEmEnergy; }
44	Double_t ResponseOfChargedWithEff() const { return fResponseOfChargedWithEff; }
45	Double_t ResponseOfChargedWithoutEff() const { return fResponseOfChargedWithoutEff; }
46	Double_t SumPtOfChargedWithEff() const { return fSumPtOfChargedWithEff; }
47	Double_t SumPtOfChargedWithoutEff() const { return fSumPtOfChargedWithoutEff; }
48	Double_t SumEnergyOfChargedWithEff() const { return fSumEnergyOfChargedWithEff; }
49	Double_t SumEnergyOfChargedWithoutEff() const { return fSumEnergyOfChargedWithoutEff; }
50	Double_t R2momtr() const { return fR2momtr; }
51	Double_t Eta2momtr() const { return fEta2momtr; }
52	Double_t Phi2momtr() const { return fPhi2momtr; }
53	Double_t Pout() const { return fPout; }
54	Double_t Zch() const { return fZch; }
55	UInt_t ChargedMultiplicity() const { return fChargedMultiplicity; }
56	UInt_t MuonMultiplicity() const { return fMuonMultiplicity; }
57	UInt_t ElectronMultiplicity() const { return fElectronMultiplicity; }
58	Jet MakeCopy() const { return new JPTJet(this); }
59	EObjType ObjType() const { return kJPTJet; }
60	const Jet *OriginalJet() const { return fOriginalJet.Obj(); }
61	void SetZSPCor(Double_t x) { fZSPCor = x; }
62	void SetChargedHadronEnergy(Double_t x) { fChargedHadronEnergy = x; }
63	void SetNeutralHadronEnergy(Double_t x) { fNeutralHadronEnergy = x; }
64	void SetChargedEmEnergy(Double_t x) { fChargedEmEnergy = x; }
65	void SetNeutralEmEnergy(Double_t x) { fNeutralEmEnergy = x; }
66	void SetResponseOfChargedWithEff(Double_t x) { fResponseOfChargedWithEff = x; }
67	void SetResponseOfChargedWithoutEff(Double_t x) { fResponseOfChargedWithoutEff = x; }
68	void SetSumPtOfChargedWithEff(Double_t x) { fSumPtOfChargedWithEff = x; }
69	void SetSumPtOfChargedWithoutEff(Double_t x) { fSumPtOfChargedWithoutEff = x; }
70	void SetSumEnergyOfChargedWithEff(Double_t x) { fSumEnergyOfChargedWithEff = x; }
71	void SetSumEnergyOfChargedWithoutEff(Double_t x) { fSumEnergyOfChargedWithoutEff = x; }
72	void SetR2momtr(Double_t x) { fR2momtr = x; }
73	void SetEta2momtr(Double_t x) { fEta2momtr = x; }
74	void SetPhi2momtr(Double_t x) { fPhi2momtr = x; }
75	void SetPout(Double_t x) { fPout = x; }
76	void SetZch(Double_t x) { fZch = x; }
77	void SetChargedMultiplicity(UInt_t n) { fChargedMultiplicity = n; }
78	void SetMuonMultiplicity(UInt_t n) { fMuonMultiplicity = n; }
79	void SetElectronMultiplicity(UInt_t n) { fElectronMultiplicity = n; }
80	void SetOriginalJet(const Jet *j) { fOriginalJet = j; }
81
82	protected:
83	Double32_t fZSPCor; //[0,0,14]ZSP correction
84	Double32_t fChargedHadronEnergy; //[0,0,14]charged hadron energy
85	Double32_t fNeutralHadronEnergy; //[0,0,14]neutral hadron energy
86	Double32_t fChargedEmEnergy; //[0,0,14]charged em energy
87	Double32_t fNeutralEmEnergy; //[0,0,14]neutral em energy
88	Double32_t fResponseOfChargedWithEff; //[0,0,14]
89	Double32_t fResponseOfChargedWithoutEff; //[0,0,14]
90	Double32_t fSumPtOfChargedWithEff; //[0,0,14]
91	Double32_t fSumPtOfChargedWithoutEff; //[0,0,14]
92	Double32_t fSumEnergyOfChargedWithEff; //[0,0,14]
93	Double32_t fSumEnergyOfChargedWithoutEff; //[0,0,14]
94	Double32_t fR2momtr; //[0,0,14]
95	Double32_t fEta2momtr; //[0,0,14]
96	Double32_t fPhi2momtr; //[0,0,14]
97	Double32_t fPout; //[0,0,14]
98	Double32_t fZch; //[0,0,14]
99	UInt_t fChargedMultiplicity; //number of charged constituents
100	UInt_t fMuonMultiplicity; //number of muon constituents
101	UInt_t fElectronMultiplicity; //number of muon constituents
102	Ref<Jet> fOriginalJet; //reference to original CaloJet
103
104	ClassDef(JPTJet, 1) // JPTJet class
105	};
106	}
107	#endif