DataTree/interface/CaloTower.h

//--------------------------------------------------------------------------------------------------
// $Id: CaloTower.h,v 1.7 2009/01/22 14:21:32 loizides Exp $
//
// CaloTower
//
// This class holds calo tower information.
//
// Authors: S.Xie
//--------------------------------------------------------------------------------------------------

#ifndef MITANA_DATATREE_CALOTOWER_H
#define MITANA_DATATREE_CALOTOWER_H
 
#include "MitAna/DataTree/interface/DataObject.h"
#include <TMath.h>

namespace mithep 
{
  class CaloTower : public DataObject
  {
    public:
      CaloTower() : fEmEnergy(0), fHadEnergy(0), fOuterEnergy(0) {}

      Double_t            E()           const { return (fEmEnergy + fHadEnergy);                }
      Double_t            EmEt()        const { return fEmEnergy*TMath::Sin(Theta());           }
      Double_t            Eta()         const { return fPosition.Eta();                         }
      Double_t            Et()          const { return E()*TMath::Sin(Theta());                 }
      Double_t            EtWithHO()    const { return EWithHO()*TMath::Sin(Theta());           }
      Double_t            EWithHO()     const { return (fEmEnergy + fHadEnergy + fOuterEnergy); }
      Double_t            EmEnergy()    const { return fEmEnergy;                               }
      Double_t            HadEnergy()   const { return fHadEnergy;                              } 
      Double_t            HadEt()       const { return fHadEnergy*TMath::Sin(Theta());          }
      const FourVectorM   Mom()         const;
      Double_t            Phi()         const { return fPosition.Phi();                         }
      EObjType            ObjType()     const { return kCaloTower;                              }
      Double_t            OuterEnergy() const { return fOuterEnergy;                            }
      Double_t            OuterEt()     const { return fOuterEnergy*TMath::Sin(Theta());        }
      const ThreeVectorC  Position()    const { return fPosition;                               } 
      Double_t            Theta()       const { return fPosition.Theta();                       }
      void                SetEmEnergy(Double_t EmEnergy)       { fEmEnergy    = EmEnergy;       }
      void                SetHadEnergy(Double_t HadEnergy)     { fHadEnergy   = HadEnergy;      }
      void                SetOuterEnergy(Double_t OuterEnergy) { fOuterEnergy = OuterEnergy;    }
      void                SetPosition(Double_t x, Double_t y, Double_t z)
                                                               { fPosition.SetXYZ(x,y,z);       }

    protected:
      ThreeVectorC32      fPosition;     //position of tower
      Double32_t          fEmEnergy;     //tower energy in Ecal
      Double32_t          fHadEnergy;    //tower energy in Hcal
      Double32_t          fOuterEnergy;  //tower energy in outer Hcal

    ClassDef(CaloTower, 1) // Calo tower class
  };
}

//--------------------------------------------------------------------------------------------------
inline const mithep::FourVectorM mithep::CaloTower::Mom() const
{
  // Compute and return four momentum.

  if (E() > 0)
    return mithep::FourVectorM(Et(),Eta(),Phi(),0.0);
  else
    return mithep::FourVectorM();
}
#endif
Revision:	1.8
Committed:	Wed Feb 18 15:38:54 2009 UTC (16 years, 2 months ago) by loizides
Content type:	text/plain
Branch:	MAIN
Changes since 1.7:	+3 -6 lines
Log Message:	Reworked particle interface to cache FourVectorM
#	User	Rev	Content
1	sixie	1.1	//--------------------------------------------------------------------------------------------------
2	loizides	1.8	// $Id: CaloTower.h,v 1.7 2009/01/22 14:21:32 loizides Exp $
3	sixie	1.1	//
4	loizides	1.5	// CaloTower
5	sixie	1.1	//
6	loizides	1.6	// This class holds calo tower information.
7	sixie	1.1	//
8	loizides	1.6	// Authors: S.Xie
9	sixie	1.1	//--------------------------------------------------------------------------------------------------
10
11	loizides	1.7	#ifndef MITANA_DATATREE_CALOTOWER_H
12			#define MITANA_DATATREE_CALOTOWER_H
13	sixie	1.1
14	loizides	1.6	#include "MitAna/DataTree/interface/DataObject.h"
15	sixie	1.1	#include <TMath.h>
16
17			namespace mithep
18			{
19			class CaloTower : public DataObject
20			{
21			public:
22	loizides	1.8	CaloTower() : fEmEnergy(0), fHadEnergy(0), fOuterEnergy(0) {}
23	sixie	1.1
24	loizides	1.6	Double_t E() const { return (fEmEnergy + fHadEnergy); }
25			Double_t EmEt() const { return fEmEnergy*TMath::Sin(Theta()); }
26			Double_t Eta() const { return fPosition.Eta(); }
27			Double_t Et() const { return E()*TMath::Sin(Theta()); }
28			Double_t EtWithHO() const { return EWithHO()*TMath::Sin(Theta()); }
29			Double_t EWithHO() const { return (fEmEnergy + fHadEnergy + fOuterEnergy); }
30			Double_t EmEnergy() const { return fEmEnergy; }
31			Double_t HadEnergy() const { return fHadEnergy; }
32			Double_t HadEt() const { return fHadEnergy*TMath::Sin(Theta()); }
33	bendavid	1.4	const FourVectorM Mom() const;
34	loizides	1.6	Double_t Phi() const { return fPosition.Phi(); }
35			EObjType ObjType() const { return kCaloTower; }
36			Double_t OuterEnergy() const { return fOuterEnergy; }
37			Double_t OuterEt() const { return fOuterEnergy*TMath::Sin(Theta()); }
38			const ThreeVectorC Position() const { return fPosition; }
39			Double_t Theta() const { return fPosition.Theta(); }
40			void SetEmEnergy(Double_t EmEnergy) { fEmEnergy = EmEnergy; }
41			void SetHadEnergy(Double_t HadEnergy) { fHadEnergy = HadEnergy; }
42			void SetOuterEnergy(Double_t OuterEnergy) { fOuterEnergy = OuterEnergy; }
43			void SetPosition(Double_t x, Double_t y, Double_t z)
44			{ fPosition.SetXYZ(x,y,z); }
45	sixie	1.1
46			protected:
47	loizides	1.6	ThreeVectorC32 fPosition; //position of tower
48	bendavid	1.4	Double32_t fEmEnergy; //tower energy in Ecal
49			Double32_t fHadEnergy; //tower energy in Hcal
50	loizides	1.6	Double32_t fOuterEnergy; //tower energy in outer Hcal
51	sixie	1.1
52	loizides	1.6	ClassDef(CaloTower, 1) // Calo tower class
53	sixie	1.1	};
54			}
55	bendavid	1.4
56			//--------------------------------------------------------------------------------------------------
57			inline const mithep::FourVectorM mithep::CaloTower::Mom() const
58			{
59	loizides	1.6	// Compute and return four momentum.
60	bendavid	1.4
61	loizides	1.8	if (E() > 0)
62	bendavid	1.4	return mithep::FourVectorM(Et(),Eta(),Phi(),0.0);
63			else
64			return mithep::FourVectorM();
65			}
66	sixie	1.1	#endif