DataTree/interface/PFJet.h

//--------------------------------------------------------------------------------------------------
// $Id: PFJet.h,v 1.5 2009/09/09 03:38:26 bendavid Exp $
//
// PFJet
//
// This class holds information about reconstructed jet based on pf candidates.
//
// Authors: J.Bendavid
//--------------------------------------------------------------------------------------------------

#ifndef MITANA_DATATREE_PFJET_H
#define MITANA_DATATREE_PFJET_H
 
#include "MitAna/DataTree/interface/Jet.h"
#include "MitAna/DataCont/interface/RefArray.h"
#include "MitAna/DataTree/interface/PFCandidate.h"

namespace mithep 
{
  class PFJet : public Jet
  {
    public:
      PFJet() : fChargedHadronEnergy(0), fNeutralHadronEnergy(0), fChargedEmEnergy(0),
                fNeutralEmEnergy(0), fMuonEnergy(0), fChargedMultiplicity(0),
                fNeutralMultiplicity(0), fMuonMultiplicity(0) {}
      PFJet(Double_t px, Double_t py, Double_t pz, Double_t e) : 
                Jet(px,py,pz,e),
                fChargedHadronEnergy(0), fNeutralHadronEnergy(0), fChargedEmEnergy(0),
                fNeutralEmEnergy(0), fMuonEnergy(0), fChargedMultiplicity(0),
                fNeutralMultiplicity(0), fMuonMultiplicity(0) {}

      void                  AddPFCand(const PFCandidate *p)       { fPFCands.Add(p); ClearCharge();}
      Double_t              ChargedEmEnergy()               const { return fChargedEmEnergy;       }
      Double_t              ChargedHadronEnergy()           const { return fChargedHadronEnergy;   }
      Double_t              MuonEnergy()                    const { return fMuonEnergy;            }
      UInt_t                ChargedMultiplicity()           const { return fChargedMultiplicity;   }
      Bool_t                HasPFCand(const PFCandidate *p) const { return fPFCands.HasObject(p);  }
      Jet                  *MakeCopy()                      const { return new PFJet(*this);       }
      UInt_t                NConstituents()                 const { return NPFCands();             }
      Double_t              NeutralEmEnergy()               const { return fNeutralEmEnergy;       }
      Double_t              NeutralHadronEnergy()           const { return fNeutralHadronEnergy;   }
      UInt_t                NeutralMultiplicity()           const { return fNeutralMultiplicity;   }
      UInt_t                NPFCands()                      const { return fPFCands.Entries();     }
      UInt_t                MuonMultiplicity()              const { return fMuonMultiplicity;      }
      EObjType              ObjType()                       const { return kPFJet;                 } 
      const PFCandidate    *PFCand(UInt_t i)                const { return fPFCands.At(i);         }
      void                  SetChargedEmEnergy(Double_t e)        { fChargedEmEnergy     = e;      }
      void                  SetChargedHadronEnergy(Double_t e)    { fChargedHadronEnergy = e;      }
      void                  SetChargedMuEnergy(Double_t e)        { fMuonEnergy          = e;      }
      void                  SetChargedMultiplicity(UInt_t n)      { fChargedMultiplicity = n;      }
      void                  SetMuonMultiplicity(UInt_t n)         { fMuonMultiplicity    = n;      }
      void                  SetNeutralEmEnergy(Double_t e)        { fNeutralEmEnergy     = e;      }
      void                  SetNeutralHadronEnergy(Double_t e)    { fNeutralHadronEnergy = e;      }
      void                  SetNeutralMultiplicity(UInt_t n)      { fNeutralMultiplicity = n;      }

    protected:
      Double_t              GetCharge()                     const;

      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            fMuonEnergy;           //[0,0,14]muon energy
      UInt_t                fChargedMultiplicity;  //number of charged constituents
      UInt_t                fNeutralMultiplicity;  //number of neutral constituents
      UInt_t                fMuonMultiplicity;     //number of muon constituents
      RefArray<PFCandidate> fPFCands;              //pf candidates in the jet

    ClassDef(PFJet, 1) // PFJet class
  };
}

//--------------------------------------------------------------------------------------------------
inline Double_t mithep::PFJet::GetCharge() const 
{
  // Return sum of charge of constituent PFCandidates.

  Double_t charge = 0;
  for (UInt_t i=0; i<NPFCands(); ++i)
    charge += PFCand(i)->Charge();
  
  return charge;
}
#endif
Revision:	1.6
Committed:	Sun Feb 21 23:42:00 2010 UTC (15 years, 2 months 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, Mit_013d, Mit_013c, Mit_013b, Mit_013a, Mit_013, Mit_013pre1
Branch point for:	Mit_025c_branch
Changes since 1.5:	+15 -2 lines
Log Message:	Add TrackJet
#	Content
1	//--------------------------------------------------------------------------------------------------
2	// $Id: PFJet.h,v 1.5 2009/09/09 03:38:26 bendavid Exp $
3	//
4	// PFJet
5	//
6	// This class holds information about reconstructed jet based on pf candidates.
7	//
8	// Authors: J.Bendavid
9	//--------------------------------------------------------------------------------------------------
10
11	#ifndef MITANA_DATATREE_PFJET_H
12	#define MITANA_DATATREE_PFJET_H
13
14	#include "MitAna/DataTree/interface/Jet.h"
15	#include "MitAna/DataCont/interface/RefArray.h"
16	#include "MitAna/DataTree/interface/PFCandidate.h"
17
18	namespace mithep
19	{
20	class PFJet : public Jet
21	{
22	public:
23	PFJet() : fChargedHadronEnergy(0), fNeutralHadronEnergy(0), fChargedEmEnergy(0),
24	fNeutralEmEnergy(0), fMuonEnergy(0), fChargedMultiplicity(0),
25	fNeutralMultiplicity(0), fMuonMultiplicity(0) {}
26	PFJet(Double_t px, Double_t py, Double_t pz, Double_t e) :
27	Jet(px,py,pz,e),
28	fChargedHadronEnergy(0), fNeutralHadronEnergy(0), fChargedEmEnergy(0),
29	fNeutralEmEnergy(0), fMuonEnergy(0), fChargedMultiplicity(0),
30	fNeutralMultiplicity(0), fMuonMultiplicity(0) {}
31
32	void AddPFCand(const PFCandidate *p) { fPFCands.Add(p); ClearCharge();}
33	Double_t ChargedEmEnergy() const { return fChargedEmEnergy; }
34	Double_t ChargedHadronEnergy() const { return fChargedHadronEnergy; }
35	Double_t MuonEnergy() const { return fMuonEnergy; }
36	UInt_t ChargedMultiplicity() const { return fChargedMultiplicity; }
37	Bool_t HasPFCand(const PFCandidate *p) const { return fPFCands.HasObject(p); }
38	Jet MakeCopy() const { return new PFJet(this); }
39	UInt_t NConstituents() const { return NPFCands(); }
40	Double_t NeutralEmEnergy() const { return fNeutralEmEnergy; }
41	Double_t NeutralHadronEnergy() const { return fNeutralHadronEnergy; }
42	UInt_t NeutralMultiplicity() const { return fNeutralMultiplicity; }
43	UInt_t NPFCands() const { return fPFCands.Entries(); }
44	UInt_t MuonMultiplicity() const { return fMuonMultiplicity; }
45	EObjType ObjType() const { return kPFJet; }
46	const PFCandidate *PFCand(UInt_t i) const { return fPFCands.At(i); }
47	void SetChargedEmEnergy(Double_t e) { fChargedEmEnergy = e; }
48	void SetChargedHadronEnergy(Double_t e) { fChargedHadronEnergy = e; }
49	void SetChargedMuEnergy(Double_t e) { fMuonEnergy = e; }
50	void SetChargedMultiplicity(UInt_t n) { fChargedMultiplicity = n; }
51	void SetMuonMultiplicity(UInt_t n) { fMuonMultiplicity = n; }
52	void SetNeutralEmEnergy(Double_t e) { fNeutralEmEnergy = e; }
53	void SetNeutralHadronEnergy(Double_t e) { fNeutralHadronEnergy = e; }
54	void SetNeutralMultiplicity(UInt_t n) { fNeutralMultiplicity = n; }
55
56	protected:
57	Double_t GetCharge() const;
58
59	Double32_t fChargedHadronEnergy; //[0,0,14]charged hadron energy
60	Double32_t fNeutralHadronEnergy; //[0,0,14]neutral hadron energy
61	Double32_t fChargedEmEnergy; //[0,0,14]charged em energy
62	Double32_t fNeutralEmEnergy; //[0,0,14]neutral em energy
63	Double32_t fMuonEnergy; //[0,0,14]muon energy
64	UInt_t fChargedMultiplicity; //number of charged constituents
65	UInt_t fNeutralMultiplicity; //number of neutral constituents
66	UInt_t fMuonMultiplicity; //number of muon constituents
67	RefArray<PFCandidate> fPFCands; //pf candidates in the jet
68
69	ClassDef(PFJet, 1) // PFJet class
70	};
71	}
72
73	//--------------------------------------------------------------------------------------------------
74	inline Double_t mithep::PFJet::GetCharge() const
75	{
76	// Return sum of charge of constituent PFCandidates.
77
78	Double_t charge = 0;
79	for (UInt_t i=0; i<NPFCands(); ++i)
80	charge += PFCand(i)->Charge();
81
82	return charge;
83	}
84	#endif