DataTree/interface/SuperCluster.h

//--------------------------------------------------------------------------------------------------
// $Id: SuperCluster.h,v 1.25 2012/03/28 12:15:34 paus 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/DataTree/interface/CaloTower.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),
                     fEtaC(-99.), fEtaS(-99.), fEtaM(-99.),
                     fPhiC(-99.), fPhiS(-99.), fPhiM(-99.),
                     fXC(-99.), fXS(-99.), fXM(-99.), fXZ(-99.),
                     fYC(-99.), fYS(-99.), fYM(-99.), fYZ(-99.) {}

    void                   AddCluster(const BasicCluster *c)          { fClusters.Add(c);        }
    void                   AddTower(const CaloTower *t)               { fCaloTowers.Add(t);      }
    const BasicCluster    *Cluster(UInt_t i)       const { return fClusters.At(i);               }
    UInt_t                 ClusterSize()           const { return fClusters.Entries();           }
    UInt_t                 NClusters()             const { return fClusters.Entries();           }
    UInt_t                 NHits()                 const;
    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               AbsEta()                const { return TMath::Abs(Eta());             }
    Double_t               EtaWidth()              const { return fEtaWidth;                     }
    Bool_t                 HasSeed()               const { return fSeedRef.IsValid();            }
    Bool_t                 HasTower(const CaloTower *t) const { return fCaloTowers.HasObject(t); }
    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;                 }
    UInt_t                 NTowers()               const { return fCaloTowers.Entries();         }
    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();                  }
    Double_t               R9()                    const { return fSeedRef.Obj()->E3x3()/fRawEnergy; }
    const BasicCluster    *Seed()                  const { return fSeedRef.Obj();                }
    const CaloTower       *Tower(UInt_t i)         const { return fCaloTowers.At(i);             }
    Double_t               EtaC()                  const { return fEtaC;                         }
    Double_t               EtaS()                  const { return fEtaS;                         }
    Double_t               EtaM()                  const { return fEtaM;                         }
    Double_t               PhiC()                  const { return fPhiC;                         }
    Double_t               PhiS()                  const { return fPhiS;                         }
    Double_t               PhiM()                  const { return fPhiM;                         }
    Double_t               XC()                    const { return fXC;                           }
    Double_t               XS()                    const { return fXS;                           }
    Double_t               XM()                    const { return fXM;                           }
    Double_t               XZ()                    const { return fXZ;                           }
    Double_t               YC()                    const { return fYC;                           }
    Double_t               YS()                    const { return fYS;                           }
    Double_t               YM()                    const { return fYM;                           }
    Double_t               YZ()                    const { return fYZ;                           }
    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);    }
    void                   SetEtaC(Double_t x)                        { fEtaC = x;               }
    void                   SetEtaS(Double_t x)                        { fEtaS = x;               }
    void                   SetEtaM(Double_t x)                        { fEtaM = x;               }
    void                   SetPhiC(Double_t x)                        { fPhiC = x;               }
    void                   SetPhiS(Double_t x)                        { fPhiS = x;               }
    void                   SetPhiM(Double_t x)                        { fPhiM = x;               }
    void                   SetXC(Double_t x)                          { fXC = x;                 }
    void                   SetXS(Double_t x)                          { fXS = x;                 }
    void                   SetXM(Double_t x)                          { fXM = x;                 }
    void                   SetXZ(Double_t x)                          { fXZ = x;                 }
    void                   SetYC(Double_t x)                          { fYC = x;                 }
    void                   SetYS(Double_t x)                          { fYS = x;                 }
    void                   SetYM(Double_t x)                          { fYM = x;                 }
    void                   SetYZ(Double_t x)                          { fYZ = x;                 }

    // Some structural tools
    void                   Mark(UInt_t i=1)  const;

  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
    RefArray<CaloTower>     fCaloTowers;          //calo towers (matched by detid)
    Double32_t              fEtaC;                //local coordinates
    Double32_t              fEtaS;                //local coordinates
    Double32_t              fEtaM;                //local coordinates
    Double32_t              fPhiC;                //local coordinates
    Double32_t              fPhiS;                //local coordinates
    Double32_t              fPhiM;                //local coordinates
    Double32_t              fXC;                  //local coordinates
    Double32_t              fXS;                  //local coordinates
    Double32_t              fXM;                  //local coordinates
    Double32_t              fXZ;                  //local coordinates
    Double32_t              fYC;                  //local coordinates
    Double32_t              fYS;                  //local coordinates
    Double32_t              fYM;                  //local coordinates
    Double32_t              fYZ;                  //local coordinates

    ClassDef(SuperCluster, 4) // Super cluster class
  };
}

//--------------------------------------------------------------------------------------------------
inline void mithep::SuperCluster::Mark(UInt_t ib) const
{
  // mark myself
  mithep::DataObject::Mark(ib);
  // mark my dependencies if they are there
  if (fSeedRef.IsValid())
    fSeedRef.Obj()->Mark(ib);
  fClusters  .Mark(ib);
  fCaloTowers.Mark(ib);
}


//--------------------------------------------------------------------------------------------------
inline UInt_t mithep::SuperCluster::NHits() const
{
  // Return transverse energy.

  UInt_t nhits = 0;
  for (UInt_t i=0; i<fClusters.GetEntries(); ++i) {
    nhits += fClusters.At(i)->NHits();
  }
  return nhits;
}


//--------------------------------------------------------------------------------------------------
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:	1.26
Committed:	Thu Mar 29 23:41:55 2012 UTC (13 years, 1 month ago) by paus
Content type:	text/plain
Branch:	MAIN
CVS Tags:	Mit_026, Mit_025e
Changes since 1.25:	+7 -9 lines
Log Message:	Version with working skimming and last 4.4 tag.
#	Content
1	//--------------------------------------------------------------------------------------------------
2	// $Id: SuperCluster.h,v 1.25 2012/03/28 12:15:34 paus Exp $
3	//
4	// SuperCluster
5	//
6	// This class holds the super cluster information.
7	//
8	// Authors: S.Xie
9	//--------------------------------------------------------------------------------------------------
10
11	#ifndef MITANA_DATATREE_SUPERCLUSTER_H
12	#define MITANA_DATATREE_SUPERCLUSTER_H
13
14	#include <TMath.h>
15	#include "MitCommon/DataFormats/interface/Vect3C.h"
16	#include "MitAna/DataTree/interface/DataObject.h"
17	#include "MitAna/DataTree/interface/BasicCluster.h"
18	#include "MitAna/DataTree/interface/CaloTower.h"
19	#include "MitAna/DataCont/interface/RefArray.h"
20	#include "MitAna/DataCont/interface/Ref.h"
21
22	namespace mithep
23	{
24	class SuperCluster : public DataObject
25	{
26	public:
27	SuperCluster() : fEnergy(0), fEtaWidth(0), fPreshowerEnergy(0),
28	fPhiWidth(0), fRawEnergy(0),
29	fEtaC(-99.), fEtaS(-99.), fEtaM(-99.),
30	fPhiC(-99.), fPhiS(-99.), fPhiM(-99.),
31	fXC(-99.), fXS(-99.), fXM(-99.), fXZ(-99.),
32	fYC(-99.), fYS(-99.), fYM(-99.), fYZ(-99.) {}
33
34	void AddCluster(const BasicCluster *c) { fClusters.Add(c); }
35	void AddTower(const CaloTower *t) { fCaloTowers.Add(t); }
36	const BasicCluster *Cluster(UInt_t i) const { return fClusters.At(i); }
37	UInt_t ClusterSize() const { return fClusters.Entries(); }
38	UInt_t NClusters() const { return fClusters.Entries(); }
39	UInt_t NHits() const;
40	Int_t Compare(const TObject *o) const;
41	Double_t Energy() const { return fEnergy; }
42	Double_t Et() const;
43	Double_t Eta() const { return fPoint.Eta(); }
44	Double_t AbsEta() const { return TMath::Abs(Eta()); }
45	Double_t EtaWidth() const { return fEtaWidth; }
46	Bool_t HasSeed() const { return fSeedRef.IsValid(); }
47	Bool_t HasTower(const CaloTower *t) const { return fCaloTowers.HasObject(t); }
48	Double_t HcalDepth1Energy() const { return fHcalDepth1Energy; }
49	Double_t HcalDepth2Energy() const { return fHcalDepth2Energy; }
50	Double_t HadDepth1OverEm() const { return fHcalDepth1Energy/fEnergy; }
51	Double_t HadDepth2OverEm() const { return fHcalDepth2Energy/fEnergy; }
52	Double_t HadOverEm() const { return (fHcalDepth1Energy+
53	fHcalDepth2Energy)/fEnergy; }
54	Bool_t IsSortable() const { return kTRUE; }
55	EObjType ObjType() const { return kSuperCluster; }
56	UInt_t NTowers() const { return fCaloTowers.Entries(); }
57	Double_t Phi() const { return fPoint.Phi(); }
58	Double_t PhiWidth() const { return fPhiWidth; }
59	ThreeVectorC Point() const { return fPoint.V(); }
60	void Print(Option_t *opt="") const;
61	Double_t PreshowerEnergy() const { return fPreshowerEnergy; }
62	Double_t RawEnergy() const { return fRawEnergy; }
63	Double_t Rho() const { return fPoint.Rho(); }
64	Double_t R9() const { return fSeedRef.Obj()->E3x3()/fRawEnergy; }
65	const BasicCluster *Seed() const { return fSeedRef.Obj(); }
66	const CaloTower *Tower(UInt_t i) const { return fCaloTowers.At(i); }
67	Double_t EtaC() const { return fEtaC; }
68	Double_t EtaS() const { return fEtaS; }
69	Double_t EtaM() const { return fEtaM; }
70	Double_t PhiC() const { return fPhiC; }
71	Double_t PhiS() const { return fPhiS; }
72	Double_t PhiM() const { return fPhiM; }
73	Double_t XC() const { return fXC; }
74	Double_t XS() const { return fXS; }
75	Double_t XM() const { return fXM; }
76	Double_t XZ() const { return fXZ; }
77	Double_t YC() const { return fYC; }
78	Double_t YS() const { return fYS; }
79	Double_t YM() const { return fYM; }
80	Double_t YZ() const { return fYZ; }
81	void SetEnergy(Double_t energy) { fEnergy = energy; }
82	void SetEtaWidth(Double_t etaWidth) { fEtaWidth = etaWidth; }
83	void SetPhiWidth(Double_t phiWidth) { fPhiWidth = phiWidth; }
84	void SetPreshowerEnergy(Double_t e) { fPreshowerEnergy = e; }
85	void SetRawEnergy(Double_t rawEnergy) { fRawEnergy = rawEnergy; }
86	void SetHcalDepth1Energy(Double_t x) { fHcalDepth1Energy = x; }
87	void SetHcalDepth2Energy(Double_t x) { fHcalDepth2Energy = x; }
88	void SetSeed(const BasicCluster *s) { fSeedRef = s; }
89	void SetXYZ(Double_t x, Double_t y, Double_t z) { fPoint.SetXYZ(x,y,z); }
90	void SetEtaC(Double_t x) { fEtaC = x; }
91	void SetEtaS(Double_t x) { fEtaS = x; }
92	void SetEtaM(Double_t x) { fEtaM = x; }
93	void SetPhiC(Double_t x) { fPhiC = x; }
94	void SetPhiS(Double_t x) { fPhiS = x; }
95	void SetPhiM(Double_t x) { fPhiM = x; }
96	void SetXC(Double_t x) { fXC = x; }
97	void SetXS(Double_t x) { fXS = x; }
98	void SetXM(Double_t x) { fXM = x; }
99	void SetXZ(Double_t x) { fXZ = x; }
100	void SetYC(Double_t x) { fYC = x; }
101	void SetYS(Double_t x) { fYS = x; }
102	void SetYM(Double_t x) { fYM = x; }
103	void SetYZ(Double_t x) { fYZ = x; }
104
105	// Some structural tools
106	void Mark(UInt_t i=1) const;
107
108	protected:
109	Vect3C fPoint; //centroid Position
110	Double32_t fEnergy; //[0,0,14]super cluster energy
111	Double32_t fEtaWidth; //[0,0,14]width in Phi
112	Double32_t fPreshowerEnergy; //[0,0,14]energy in the preshower
113	Double32_t fPhiWidth; //[0,0,14]width in Phi
114	Double32_t fRawEnergy; //[0,0,14]super cluster raw energy
115	Double32_t fHcalDepth1Energy; //[0,0,14] hcal depth1 over ECAL energy
116	Double32_t fHcalDepth2Energy; //[0,0,14] hcal depth2 over ECAL energy
117	RefArray<BasicCluster> fClusters; //assigned basic clusters
118	Ref<BasicCluster> fSeedRef; //seed cluster
119	RefArray<CaloTower> fCaloTowers; //calo towers (matched by detid)
120	Double32_t fEtaC; //local coordinates
121	Double32_t fEtaS; //local coordinates
122	Double32_t fEtaM; //local coordinates
123	Double32_t fPhiC; //local coordinates
124	Double32_t fPhiS; //local coordinates
125	Double32_t fPhiM; //local coordinates
126	Double32_t fXC; //local coordinates
127	Double32_t fXS; //local coordinates
128	Double32_t fXM; //local coordinates
129	Double32_t fXZ; //local coordinates
130	Double32_t fYC; //local coordinates
131	Double32_t fYS; //local coordinates
132	Double32_t fYM; //local coordinates
133	Double32_t fYZ; //local coordinates
134
135	ClassDef(SuperCluster, 4) // Super cluster class
136	};
137	}
138
139	//--------------------------------------------------------------------------------------------------
140	inline void mithep::SuperCluster::Mark(UInt_t ib) const
141	{
142	// mark myself
143	mithep::DataObject::Mark(ib);
144	// mark my dependencies if they are there
145	if (fSeedRef.IsValid())
146	fSeedRef.Obj()->Mark(ib);
147	fClusters .Mark(ib);
148	fCaloTowers.Mark(ib);
149	}
150
151
152	//--------------------------------------------------------------------------------------------------
153	inline UInt_t mithep::SuperCluster::NHits() const
154	{
155	// Return transverse energy.
156
157	UInt_t nhits = 0;
158	for (UInt_t i=0; i<fClusters.GetEntries(); ++i) {
159	nhits += fClusters.At(i)->NHits();
160	}
161	return nhits;
162	}
163
164
165	//--------------------------------------------------------------------------------------------------
166	inline Double_t mithep::SuperCluster::Et() const
167	{
168	// Return transverse energy.
169
170	return fEnergy*fPoint.Rho()/fPoint.V().R();
171	}
172
173	//--------------------------------------------------------------------------------------------------
174	inline Int_t mithep::SuperCluster::Compare(const TObject *o) const
175	{
176	// Default compare function for sorting according to transverse momentum.
177	// Returns -1 if this object is smaller than given object, 0 if objects are
178	// equal and 1 if this is larger than given object.
179
180	const mithep::SuperCluster s = dynamic_cast<const mithep::SuperCluster >(o);
181	if (!s)
182	return 1;
183
184	Double_t mye = Energy();
185	Double_t e = s->Energy();
186	if (mye>e)
187	return -1;
188	else if (e>mye)
189	return +1;
190	return 0;
191	}
192	#endif