DataTree/interface/SuperCluster.h

//--------------------------------------------------------------------------------------------------
// $Id: SuperCluster.h,v 1.16 2010/03/24 15:35:31 sixie Exp $
//
// SuperCluster
//
// This class holds the super cluster information.
//
// Authors: S.Xie
//--------------------------------------------------------------------------------------------------

#ifndef MITANA_DATATREE_SUPERCLUSTER_H
#define MITANA_DATATREE_SUPERCLUSTER_H
 
#include <TMath.h>
#include "MitCommon/DataFormats/interface/Vect3C.h"
#include "MitAna/DataTree/interface/DataObject.h"
#include "MitAna/DataTree/interface/BasicCluster.h"
#include "MitAna/DataCont/interface/RefArray.h"
#include "MitAna/DataCont/interface/Ref.h"

namespace mithep 
{
  class SuperCluster : public DataObject
  {
    public:
      SuperCluster() : fEnergy(0), fEtaWidth(0), fPreshowerEnergy(0), 
                       fPhiWidth(0), fRawEnergy(0) {}     
 
      void                   AddCluster(const BasicCluster *c)          { fClusters.Add(c);        }
      const BasicCluster    *Cluster(UInt_t i)       const { return fClusters.At(i);               }
      UInt_t                 ClusterSize()           const { return fClusters.Entries();           }
      Int_t                  Compare(const TObject *o) const;   
      Double_t               Energy()                const { return fEnergy;                       }
      Double_t               Et()                    const;
      Double_t               Eta()                   const { return fPoint.Eta();                  }
      Double_t               EtaWidth()              const { return fEtaWidth;                     }
      Double_t               HcalDepth1Energy()      const { return fHcalDepth1Energy;             }
      Double_t               HcalDepth2Energy()      const { return fHcalDepth2Energy;             }
      Double_t               HadDepth1OverEm()       const { return fHcalDepth1Energy/fEnergy;     }
      Double_t               HadDepth2OverEm()       const { return fHcalDepth2Energy/fEnergy;     }
      Double_t               HadOverEm()             const { return (fHcalDepth1Energy+
                                                                     fHcalDepth2Energy)/fEnergy;   }
      Bool_t                 IsSortable()            const { return kTRUE;                         }
      EObjType               ObjType()               const { return kSuperCluster;                 }
      Double_t               Phi()                   const { return fPoint.Phi();                  }
      Double_t               PhiWidth()              const { return fPhiWidth;                     }
      ThreeVectorC           Point()                 const { return fPoint.V();                    }
      void                   Print(Option_t *opt="") const;
      Double_t               PreshowerEnergy()       const { return fPreshowerEnergy;              }
      Double_t               RawEnergy()             const { return fRawEnergy;                    }
      Double_t               Rho()                   const { return fPoint.Rho();                  }
      const BasicCluster    *Seed()                  const { return fSeedRef.Obj();                }
      void                   SetEnergy(Double_t energy)                 { fEnergy = energy;        }
      void                   SetEtaWidth(Double_t etaWidth)             { fEtaWidth = etaWidth;    }
      void                   SetPhiWidth(Double_t phiWidth)             { fPhiWidth = phiWidth;    }
      void                   SetPreshowerEnergy(Double_t e)             { fPreshowerEnergy = e;    }
      void                   SetRawEnergy(Double_t rawEnergy)           { fRawEnergy = rawEnergy;  }
      void                   SetHcalDepth1Energy(Double_t x)            { fHcalDepth1Energy = x;   }
      void                   SetHcalDepth2Energy(Double_t x)            { fHcalDepth2Energy = x;   }
      void                   SetSeed(const BasicCluster *s)             { fSeedRef = s;            }
      void                   SetXYZ(Double_t x, Double_t y, Double_t z) { fPoint.SetXYZ(x,y,z);    }
      
    protected:
      Vect3C                  fPoint;               //centroid Position
      Double32_t              fEnergy;              //[0,0,14]super cluster energy     
      Double32_t              fEtaWidth;            //[0,0,14]width in Phi
      Double32_t              fPreshowerEnergy;     //[0,0,14]energy in the preshower
      Double32_t              fPhiWidth;            //[0,0,14]width in Phi
      Double32_t              fRawEnergy;           //[0,0,14]super cluster raw energy
      Double32_t              fHcalDepth1Energy;    //[0,0,14] hcal depth1 over ECAL energy
      Double32_t              fHcalDepth2Energy;    //[0,0,14] hcal depth2 over ECAL energy
      RefArray<BasicCluster>  fClusters;            //assigned basic clusters
      Ref<BasicCluster>       fSeedRef;             //seed cluster

    ClassDef(SuperCluster, 2) // Super cluster class
  };
}

//--------------------------------------------------------------------------------------------------
inline Double_t mithep::SuperCluster::Et() const
{
  // Return transverse energy.

  return fEnergy*fPoint.Rho()/fPoint.V().R();
}

//--------------------------------------------------------------------------------------------------
inline Int_t mithep::SuperCluster::Compare(const TObject *o) const
{
  // Default compare function for sorting according to transverse momentum. 
  // Returns -1 if this object is smaller than given object, 0 if objects are 
  // equal and 1 if this is larger than given object.

  const mithep::SuperCluster *s = dynamic_cast<const mithep::SuperCluster *>(o);
  if (!s)
    return 1;

  Double_t mye = Energy();
  Double_t e   = s->Energy();
  if (mye>e)
    return -1;
  else if (e>mye)
    return +1;
  return 0;
}
#endif
Revision:	1.17
Committed:	Fri Mar 26 15:09:11 2010 UTC (15 years, 1 month ago) by sixie
Content type:	text/plain
Branch:	MAIN
CVS Tags:	Mit_014a, Mit_014, Mit_014pre3, Mit_014pre2, Mit_014pre1, Mit_013d, Mit_013c, Mit_013b, Mit_013a
Changes since 1.16:	+2 -2 lines
Log Message:	increment class id by 1 after addition of H/E variables
#	User	Rev	Content
1	sixie	1.1	//--------------------------------------------------------------------------------------------------
2	sixie	1.17	// $Id: SuperCluster.h,v 1.16 2010/03/24 15:35:31 sixie Exp $
3	sixie	1.1	//
4			// SuperCluster
5			//
6	loizides	1.7	// This class holds the super cluster information.
7	sixie	1.1	//
8			// Authors: S.Xie
9			//--------------------------------------------------------------------------------------------------
10
11	loizides	1.3	#ifndef MITANA_DATATREE_SUPERCLUSTER_H
12			#define MITANA_DATATREE_SUPERCLUSTER_H
13	sixie	1.1
14			#include <TMath.h>
15	loizides	1.11	#include "MitCommon/DataFormats/interface/Vect3C.h"
16	sixie	1.1	#include "MitAna/DataTree/interface/DataObject.h"
17			#include "MitAna/DataTree/interface/BasicCluster.h"
18			#include "MitAna/DataCont/interface/RefArray.h"
19	bendavid	1.8	#include "MitAna/DataCont/interface/Ref.h"
20	sixie	1.1
21			namespace mithep
22			{
23			class SuperCluster : public DataObject
24			{
25			public:
26	loizides	1.7	SuperCluster() : fEnergy(0), fEtaWidth(0), fPreshowerEnergy(0),
27			fPhiWidth(0), fRawEnergy(0) {}
28	sixie	1.1
29	sixie	1.16	void AddCluster(const BasicCluster *c) { fClusters.Add(c); }
30			const BasicCluster *Cluster(UInt_t i) const { return fClusters.At(i); }
31			UInt_t ClusterSize() const { return fClusters.Entries(); }
32			Int_t Compare(const TObject *o) const;
33			Double_t Energy() const { return fEnergy; }
34			Double_t Et() const;
35			Double_t Eta() const { return fPoint.Eta(); }
36			Double_t EtaWidth() const { return fEtaWidth; }
37			Double_t HcalDepth1Energy() const { return fHcalDepth1Energy; }
38			Double_t HcalDepth2Energy() const { return fHcalDepth2Energy; }
39			Double_t HadDepth1OverEm() const { return fHcalDepth1Energy/fEnergy; }
40			Double_t HadDepth2OverEm() const { return fHcalDepth2Energy/fEnergy; }
41			Double_t HadOverEm() const { return (fHcalDepth1Energy+
42			fHcalDepth2Energy)/fEnergy; }
43			Bool_t IsSortable() const { return kTRUE; }
44			EObjType ObjType() const { return kSuperCluster; }
45			Double_t Phi() const { return fPoint.Phi(); }
46			Double_t PhiWidth() const { return fPhiWidth; }
47			ThreeVectorC Point() const { return fPoint.V(); }
48			void Print(Option_t *opt="") const;
49			Double_t PreshowerEnergy() const { return fPreshowerEnergy; }
50			Double_t RawEnergy() const { return fRawEnergy; }
51			Double_t Rho() const { return fPoint.Rho(); }
52			const BasicCluster *Seed() const { return fSeedRef.Obj(); }
53			void SetEnergy(Double_t energy) { fEnergy = energy; }
54			void SetEtaWidth(Double_t etaWidth) { fEtaWidth = etaWidth; }
55			void SetPhiWidth(Double_t phiWidth) { fPhiWidth = phiWidth; }
56			void SetPreshowerEnergy(Double_t e) { fPreshowerEnergy = e; }
57			void SetRawEnergy(Double_t rawEnergy) { fRawEnergy = rawEnergy; }
58			void SetHcalDepth1Energy(Double_t x) { fHcalDepth1Energy = x; }
59			void SetHcalDepth2Energy(Double_t x) { fHcalDepth2Energy = x; }
60			void SetSeed(const BasicCluster *s) { fSeedRef = s; }
61			void SetXYZ(Double_t x, Double_t y, Double_t z) { fPoint.SetXYZ(x,y,z); }
62	sixie	1.1
63			protected:
64	sixie	1.16	Vect3C fPoint; //centroid Position
65			Double32_t fEnergy; //[0,0,14]super cluster energy
66			Double32_t fEtaWidth; //[0,0,14]width in Phi
67			Double32_t fPreshowerEnergy; //[0,0,14]energy in the preshower
68			Double32_t fPhiWidth; //[0,0,14]width in Phi
69			Double32_t fRawEnergy; //[0,0,14]super cluster raw energy
70			Double32_t fHcalDepth1Energy; //[0,0,14] hcal depth1 over ECAL energy
71			Double32_t fHcalDepth2Energy; //[0,0,14] hcal depth2 over ECAL energy
72			RefArray<BasicCluster> fClusters; //assigned basic clusters
73			Ref<BasicCluster> fSeedRef; //seed cluster
74	sixie	1.1
75	sixie	1.17	ClassDef(SuperCluster, 2) // Super cluster class
76	sixie	1.1	};
77			}
78	loizides	1.13
79			//--------------------------------------------------------------------------------------------------
80	sixie	1.14	inline Double_t mithep::SuperCluster::Et() const
81			{
82	loizides	1.15	// Return transverse energy.
83
84	sixie	1.14	return fEnergy*fPoint.Rho()/fPoint.V().R();
85			}
86
87			//--------------------------------------------------------------------------------------------------
88	loizides	1.13	inline Int_t mithep::SuperCluster::Compare(const TObject *o) const
89			{
90			// Default compare function for sorting according to transverse momentum.
91			// Returns -1 if this object is smaller than given object, 0 if objects are
92			// equal and 1 if this is larger than given object.
93
94			const mithep::SuperCluster s = dynamic_cast<const mithep::SuperCluster >(o);
95			if (!s)
96			return 1;
97
98			Double_t mye = Energy();
99			Double_t e = s->Energy();
100			if (mye>e)
101			return -1;
102			else if (e>mye)
103			return +1;
104			return 0;
105			}
106	sixie	1.1	#endif