DataTree/interface/CaloJet.h

//--------------------------------------------------------------------------------------------------
// $Id: CaloJet.h,v 1.1 2009/03/11 18:11:18 bendavid Exp $
//
// CaloJet
//
// This class holds information about reconstructed jet based on calorimeter towers
//
// Authors: S.Xie, C.Loizides, J.Bendavid
//--------------------------------------------------------------------------------------------------

#ifndef MITANA_DATATREE_CALOJET_H
#define MITANA_DATATREE_CALOJET_H
 
#include "MitAna/DataTree/interface/Jet.h"
#include "MitAna/DataCont/interface/RefArray.h"
#include "MitAna/DataTree/interface/CaloTower.h"

namespace mithep 
{
  class CaloJet : public Jet
  {
    public:
      CaloJet() : fMaxEInEmTowers(0), fMaxEInHadTowers(0), fEnergyFractionH(0),
                  fEnergyFractionEm(0), fHadEnergyInHB(0), fHadEnergyInHO(0), fHadEnergyInHE(0),
                  fHadEnergyInHF(0), fEmEnergyInEB(0), fEmEnergyInEE(0), fEmEnergyInHF(0),
                  fTowersArea(0) {}
      CaloJet(Double_t px, Double_t py, Double_t pz, Double_t e) : 
                  Jet(px,py,pz,e),
                  fMaxEInEmTowers(0), fMaxEInHadTowers(0), fEnergyFractionH(0),
                  fEnergyFractionEm(0), fHadEnergyInHB(0), fHadEnergyInHO(0), fHadEnergyInHE(0),
                  fHadEnergyInHF(0), fEmEnergyInEB(0), fEmEnergyInEE(0), fEmEnergyInHF(0),
                  fTowersArea(0) {}

      void              AddTower(const CaloTower *t)        { fTowers.Add(t);                    }
      Bool_t            HasTower(const CaloTower *t)  const { return fTowers.HasObject(t);       }
      UInt_t            NTowers()                     const { return fTowers.GetEntries();       }
      const CaloTower  *Tower(UInt_t i)               const { return fTowers.At(i);              }
      UInt_t            NConstituents()               const { return NTowers();                  }

      EObjType   ObjType()                            const { return kCaloJet;                   }  
      Double_t   EmEnergyInEB()                       const { return fEmEnergyInEB;              } 
      Double_t   EmEnergyInEE()                       const { return fEmEnergyInEE;              } 
      Double_t   EmEnergyInHF()                       const { return fEmEnergyInHF;              } 
      Double_t   EnergyFractionH()                    const { return fEnergyFractionH;           }
      Double_t   EnergyFractionEm()                   const { return fEnergyFractionEm;          }
      Double_t   HadEnergyInHO()                      const { return fHadEnergyInHO;             } 
      Double_t   HadEnergyInHB()                      const { return fHadEnergyInHB;             } 
      Double_t   HadEnergyInHF()                      const { return fHadEnergyInHF;             } 
      Double_t   HadEnergyInHE()                      const { return fHadEnergyInHE;             }
      Double_t   MaxEInEmTowers()                     const { return fMaxEInEmTowers;            }
      Double_t   MaxEInHadTowers()                    const { return fMaxEInHadTowers;           }
      void       SetEmEnergyInEB(Double_t val)              { fEmEnergyInEB     = val;           } 
      void       SetEmEnergyInEE(Double_t val)              { fEmEnergyInEE     = val;           } 
      void       SetEmEnergyInHF(Double_t val)              { fEmEnergyInHF     = val;           } 
      void       SetEnergyFractionH(Double_t val)           { fEnergyFractionH  = val;           }
      void       SetEnergyFractionEm(Double_t val)          { fEnergyFractionEm = val;           }
      void       SetHadEnergyInHO(Double_t val)             { fHadEnergyInHO    = val;           } 
      void       SetHadEnergyInHB(Double_t val)             { fHadEnergyInHB    = val;           } 
      void       SetHadEnergyInHF(Double_t val)             { fHadEnergyInHF    = val;           } 
      void       SetHadEnergyInHE(Double_t val)             { fHadEnergyInHE    = val;           } 
      void       SetMaxEInEmTowers(Double_t val)            { fMaxEInEmTowers   = val;           }
      void       SetMaxEInHadTowers(Double_t val)           { fMaxEInHadTowers  = val;           }
      void       SetTowersArea(Double_t val)                { fTowersArea       = val;           }
      Double_t   TowersArea()                         const { return fTowersArea;                }

    protected:

      Double32_t    fMaxEInEmTowers;      //maximum energy in EM towers
      Double32_t    fMaxEInHadTowers;     //maximum energy in HCAL towers
      Double32_t    fEnergyFractionH;     //hadronic energy fraction
      Double32_t    fEnergyFractionEm;    //electromagnetic energy fraction
      Double32_t    fHadEnergyInHB;       //hadronic energy in HB
      Double32_t    fHadEnergyInHO;       //hadronic energy in HO
      Double32_t    fHadEnergyInHE;       //hadronic energy in HE
      Double32_t    fHadEnergyInHF;       //hadronic energy in HF
      Double32_t    fEmEnergyInEB;        //electromagnetic energy in EB
      Double32_t    fEmEnergyInEE;        //electromagnetic energy in EE
      Double32_t    fEmEnergyInHF;        //electromagnetic energy extracted from HF
      Double32_t    fTowersArea;          //area of contributing towers
      RefArray<CaloTower> fTowers;        //calotowers in the jet

    ClassDef(CaloJet, 1) // CaloJet class
  };
}
#endif
Revision:	1.2
Committed:	Thu Mar 12 15:55:38 2009 UTC (16 years, 1 month ago) by bendavid
Content type:	text/plain
Branch:	MAIN
CVS Tags:	Mit_008pre2
Changes since 1.1:	+2 -1 lines
Log Message:	Added new objtypes for new jet and met classes
#	User	Rev	Content
1	bendavid	1.1	//--------------------------------------------------------------------------------------------------
2	bendavid	1.2	// $Id: CaloJet.h,v 1.1 2009/03/11 18:11:18 bendavid Exp $
3	bendavid	1.1	//
4			// CaloJet
5			//
6			// This class holds information about reconstructed jet based on calorimeter towers
7			//
8			// Authors: S.Xie, C.Loizides, J.Bendavid
9			//--------------------------------------------------------------------------------------------------
10
11			#ifndef MITANA_DATATREE_CALOJET_H
12			#define MITANA_DATATREE_CALOJET_H
13
14			#include "MitAna/DataTree/interface/Jet.h"
15			#include "MitAna/DataCont/interface/RefArray.h"
16			#include "MitAna/DataTree/interface/CaloTower.h"
17
18			namespace mithep
19			{
20			class CaloJet : public Jet
21			{
22			public:
23			CaloJet() : fMaxEInEmTowers(0), fMaxEInHadTowers(0), fEnergyFractionH(0),
24			fEnergyFractionEm(0), fHadEnergyInHB(0), fHadEnergyInHO(0), fHadEnergyInHE(0),
25			fHadEnergyInHF(0), fEmEnergyInEB(0), fEmEnergyInEE(0), fEmEnergyInHF(0),
26			fTowersArea(0) {}
27			CaloJet(Double_t px, Double_t py, Double_t pz, Double_t e) :
28			Jet(px,py,pz,e),
29			fMaxEInEmTowers(0), fMaxEInHadTowers(0), fEnergyFractionH(0),
30			fEnergyFractionEm(0), fHadEnergyInHB(0), fHadEnergyInHO(0), fHadEnergyInHE(0),
31			fHadEnergyInHF(0), fEmEnergyInEB(0), fEmEnergyInEE(0), fEmEnergyInHF(0),
32			fTowersArea(0) {}
33
34			void AddTower(const CaloTower *t) { fTowers.Add(t); }
35			Bool_t HasTower(const CaloTower *t) const { return fTowers.HasObject(t); }
36			UInt_t NTowers() const { return fTowers.GetEntries(); }
37			const CaloTower *Tower(UInt_t i) const { return fTowers.At(i); }
38			UInt_t NConstituents() const { return NTowers(); }
39
40	bendavid	1.2	EObjType ObjType() const { return kCaloJet; }
41	bendavid	1.1	Double_t EmEnergyInEB() const { return fEmEnergyInEB; }
42			Double_t EmEnergyInEE() const { return fEmEnergyInEE; }
43			Double_t EmEnergyInHF() const { return fEmEnergyInHF; }
44			Double_t EnergyFractionH() const { return fEnergyFractionH; }
45			Double_t EnergyFractionEm() const { return fEnergyFractionEm; }
46			Double_t HadEnergyInHO() const { return fHadEnergyInHO; }
47			Double_t HadEnergyInHB() const { return fHadEnergyInHB; }
48			Double_t HadEnergyInHF() const { return fHadEnergyInHF; }
49			Double_t HadEnergyInHE() const { return fHadEnergyInHE; }
50			Double_t MaxEInEmTowers() const { return fMaxEInEmTowers; }
51			Double_t MaxEInHadTowers() const { return fMaxEInHadTowers; }
52			void SetEmEnergyInEB(Double_t val) { fEmEnergyInEB = val; }
53			void SetEmEnergyInEE(Double_t val) { fEmEnergyInEE = val; }
54			void SetEmEnergyInHF(Double_t val) { fEmEnergyInHF = val; }
55			void SetEnergyFractionH(Double_t val) { fEnergyFractionH = val; }
56			void SetEnergyFractionEm(Double_t val) { fEnergyFractionEm = val; }
57			void SetHadEnergyInHO(Double_t val) { fHadEnergyInHO = val; }
58			void SetHadEnergyInHB(Double_t val) { fHadEnergyInHB = val; }
59			void SetHadEnergyInHF(Double_t val) { fHadEnergyInHF = val; }
60			void SetHadEnergyInHE(Double_t val) { fHadEnergyInHE = val; }
61			void SetMaxEInEmTowers(Double_t val) { fMaxEInEmTowers = val; }
62			void SetMaxEInHadTowers(Double_t val) { fMaxEInHadTowers = val; }
63			void SetTowersArea(Double_t val) { fTowersArea = val; }
64			Double_t TowersArea() const { return fTowersArea; }
65
66			protected:
67
68			Double32_t fMaxEInEmTowers; //maximum energy in EM towers
69			Double32_t fMaxEInHadTowers; //maximum energy in HCAL towers
70			Double32_t fEnergyFractionH; //hadronic energy fraction
71			Double32_t fEnergyFractionEm; //electromagnetic energy fraction
72			Double32_t fHadEnergyInHB; //hadronic energy in HB
73			Double32_t fHadEnergyInHO; //hadronic energy in HO
74			Double32_t fHadEnergyInHE; //hadronic energy in HE
75			Double32_t fHadEnergyInHF; //hadronic energy in HF
76			Double32_t fEmEnergyInEB; //electromagnetic energy in EB
77			Double32_t fEmEnergyInEE; //electromagnetic energy in EE
78			Double32_t fEmEnergyInHF; //electromagnetic energy extracted from HF
79			Double32_t fTowersArea; //area of contributing towers
80			RefArray<CaloTower> fTowers; //calotowers in the jet
81
82			ClassDef(CaloJet, 1) // CaloJet class
83			};
84			}
85			#endif