DataTree/interface/BasicCluster.h

//--------------------------------------------------------------------------------------------------
// $Id: BasicCluster.h,v 1.16 2010/06/24 13:08:45 peveraer Exp $
//
// BasicCluster
//
// This class holds information of basic reconstructed clusters.
//
// Authors: S.Xie
//--------------------------------------------------------------------------------------------------

#ifndef MITANA_DATATREE_BASICCLUSTER_H
#define MITANA_DATATREE_BASICCLUSTER_H
 
#include <TMath.h>
#include "MitCommon/DataFormats/interface/Vect3C.h"
#include "MitAna/DataTree/interface/DataObject.h"

namespace mithep 
{
  class BasicCluster : public DataObject
  {
    public:
      BasicCluster() : fEnergy(0), fNHits(0),
                       fE1x3(0),
                       fE3x1(0),
                       fE1x5(0),
                       fE2x2(0),
                       fE3x2(0),
                       fE3x3(0),
                       fE4x4(0),
                       fE5x5(0),
                       fSwissCross(0),
                       fE2x5Right(0),
                       fE2x5Left(0),
                       fE2x5Top(0),
                       fE2x5Bottom(0),
                       fE2x5Max(0),
                       fELeft(0),
                       fERight(0),
                       fETop(0),
                       fEBottom(0),
                       fEMax(0),
                       fE2nd(0),
                       fEtaLat(0),
                       fPhiLat(0),
                       fLat(0),
                       fCovEtaEta(0),
                       fCovEtaPhi(0),
                       fCovPhiPhi(0),
                       fCoviEtaiEta(0),
                       fCoviEtaiPhi(0),
                       fCoviPhiiPhi(0),
                       fZernike20(0),
                       fZernike42(0) {}
      BasicCluster(Double_t e, const ThreeVector &p) : 
        fEnergy(e), fPoint(p), fNHits(0),
                       fE1x3(0),
                       fE3x1(0),
                       fE1x5(0),
                       fE2x2(0),
                       fE3x2(0),
                       fE3x3(0),
                       fE4x4(0),
                       fE5x5(0),
                       fSwissCross(0),
                       fE2x5Right(0),
                       fE2x5Left(0),
                       fE2x5Top(0),
                       fE2x5Bottom(0),
                       fE2x5Max(0),
                       fELeft(0),
                       fERight(0),
                       fETop(0),
                       fEBottom(0),
                       fEMax(0),
                       fE2nd(0),
                       fEtaLat(0),
                       fPhiLat(0),
                       fLat(0),
                       fCovEtaEta(0),
                       fCovEtaPhi(0),
                       fCovPhiPhi(0),
                       fCoviEtaiEta(0),
                       fCoviEtaiPhi(0),
                       fCoviPhiiPhi(0),
                       fZernike20(0),
                       fZernike42(0) {}
     
      Double_t         Energy()                  const { return  fEnergy;       }       
      Double_t         Et()                      const;
      Double_t         Eta()                     const { return  fPoint.Eta();  }
      EObjType         ObjType()                 const { return  kBasicCluster; }       
      Double_t         Phi()                     const { return  fPoint.Phi();  }
      ThreeVectorC     Pos()                     const { return  fPoint.V();    }
      void             Print(Option_t *opt="")   const;
      Double_t         Rho()                     const { return  fPoint.Rho();  }
      Double_t         NHits()                   const { return  fNHits;        }
      Double_t         E1x3()                    const { return  fE1x3;         }
      Double_t         E3x1()                    const { return  fE3x1;         }
      Double_t         E1x5()                    const { return  fE1x5;         }
      Double_t         E2x2()                    const { return  fE2x2;         }
      Double_t         E3x2()                    const { return  fE3x2;         }
      Double_t         E3x3()                    const { return  fE3x3;         }
      Double_t         E4x4()                    const { return  fE4x4;         }
      Double_t         E5x5()                    const { return  fE5x5;         }
      Double_t         SwissCross()              const { return  fSwissCross;   }
      Double_t         E2x5Right()               const { return  fE2x5Right;    }
      Double_t         E2x5Left()                const { return  fE2x5Left;     }
      Double_t         E2x5Top()                 const { return  fE2x5Top;      }
      Double_t         E2x5Bottom()              const { return  fE2x5Bottom;   }
      Double_t         E2x5Max()                 const { return  fE2x5Max;      }
      Double_t         ELeft()                   const { return  fELeft;        }
      Double_t         ERight()                  const { return  fERight;       }
      Double_t         ETop()                    const { return  fETop;         }
      Double_t         EBottom()                 const { return  fEBottom;      }
      Double_t         EMax()                    const { return  fEMax;         }
      Double_t         E2nd()                    const { return  fE2nd;         }
      Double_t         EtaLat()                  const { return  fEtaLat;       }
      Double_t         PhiLat()                  const { return  fPhiLat;       }
      Double_t         Lat()                     const { return  fLat;          }
      Double_t         CovEtaEta()               const { return  fCovEtaEta;    }
      Double_t         CovEtaPhi()               const { return  fCovEtaPhi;    }
      Double_t         CovPhiPhi()               const { return  fCovPhiPhi;    }
      Double_t         CoviEtaiEta()             const { return  fCoviEtaiEta;  }
      Double_t         CoviEtaiPhi()             const { return  fCoviEtaiPhi;  }
      Double_t         CoviPhiiPhi()             const { return  fCoviPhiiPhi;  }
      Double_t         Zernike20()               const { return  fZernike20;    }
      Double_t         Zernike42()               const { return  fZernike42;    }


      void             SetEnergy(Double_t energy)                 {  fEnergy = energy;     }      
      void             SetXYZ(Double_t x, Double_t y, Double_t z) {  fPoint.SetXYZ(x,y,z); } 
      void             SetNHits(Int_t x)                          {  fNHits = x;            }
      void             SetE1x3(Double_t x)                        {  fE1x3 = x;            }
      void             SetE3x1(Double_t x)                        {  fE3x1 = x;            }
      void             SetE1x5(Double_t x)                        {  fE1x5 = x;            }
      void             SetE2x2(Double_t x)                        {  fE2x2 = x;            }
      void             SetE3x2(Double_t x)                        {  fE3x2 = x;            }
      void             SetE3x3(Double_t x)                        {  fE3x3 = x;            }
      void             SetE4x4(Double_t x)                        {  fE4x4 = x;            }
      void             SetE5x5(Double_t x)                        {  fE5x5 = x;            }
      void             SetSwissCross(Double_t x)                  {  fSwissCross = x;      }
      void             SetE2x5Right(Double_t x)                   {  fE2x5Right = x;       }
      void             SetE2x5Left(Double_t x)                    {  fE2x5Left = x;        }
      void             SetE2x5Top(Double_t x)                     {  fE2x5Top = x;         }
      void             SetE2x5Bottom(Double_t x)                  {  fE2x5Bottom = x;      }
      void             SetE2x5Max(Double_t x)                     {  fE2x5Max = x;         }
      void             SetELeft(Double_t x)                       {  fELeft = x;           }
      void             SetERight(Double_t x)                      {  fERight = x;          }
      void             SetETop(Double_t x)                        {  fETop = x;            }
      void             SetEBottom(Double_t x)                     {  fEBottom = x;         }
      void             SetEMax(Double_t x)                        {  fEMax = x;            }
      void             SetE2nd(Double_t x)                        {  fE2nd = x;            }
      void             SetEtaLat(Double_t x)                      {  fEtaLat = x;          }
      void             SetPhiLat(Double_t x)                      {  fPhiLat = x;          }
      void             SetLat(Double_t x)                         {  fLat = x;             }
      void             SetCovEtaEta(Double_t x)                   {  fCovEtaEta = x;       }
      void             SetCovEtaPhi(Double_t x)                   {  fCovEtaPhi = x;       }
      void             SetCovPhiPhi(Double_t x)                   {  fCovPhiPhi = x;       }
      void             SetCoviEtaiEta(Double_t x)                 {  fCoviEtaiEta = x;     }
      void             SetCoviEtaiPhi(Double_t x)                 {  fCoviEtaiPhi = x;     }
      void             SetCoviPhiiPhi(Double_t x)                 {  fCoviPhiiPhi = x;     }
      void             SetZernike20(Double_t x)                   {  fZernike20 = x;       }
      void             SetZernike42(Double_t x)                   {  fZernike42 = x;       }


    protected:
        
      Double32_t       fEnergy;  //[0,0,14]assigned energy      
      Vect3C           fPoint;   //centroid Position
      

      Int_t      fNHits;
      Double32_t fE1x3;
      Double32_t fE3x1;
      Double32_t fE1x5;
      Double32_t fE2x2;
      Double32_t fE3x2;
      Double32_t fE3x3;
      Double32_t fE4x4;
      Double32_t fE5x5;
      Double32_t fSwissCross;
      Double32_t fE2x5Right;
      Double32_t fE2x5Left;
      Double32_t fE2x5Top;
      Double32_t fE2x5Bottom;
      Double32_t fE2x5Max;
      Double32_t fELeft;
      Double32_t fERight;
      Double32_t fETop;
      Double32_t fEBottom;
      Double32_t fEMax;
      Double32_t fE2nd;
      Double32_t fEtaLat;
      Double32_t fPhiLat;
      Double32_t fLat;
      Double32_t fCovEtaEta;
      Double32_t fCovEtaPhi;
      Double32_t fCovPhiPhi;
      Double32_t fCoviEtaiEta;
      Double32_t fCoviEtaiPhi;
      Double32_t fCoviPhiiPhi;
      Double32_t fZernike20;
      Double32_t fZernike42;


      ClassDef(BasicCluster, 3)  // Basic cluster class
  };
}

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

  return fEnergy*fPoint.Rho()/fPoint.V().R();
}
#endif
Revision:	1.17
Committed:	Fri Jun 25 15:10:35 2010 UTC (14 years, 10 months ago) by bendavid
Content type:	text/plain
Branch:	MAIN
CVS Tags:	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
Changes since 1.16:	+65 -3 lines
Log Message:	Fix uninitialized variables
#	Content
1	//--------------------------------------------------------------------------------------------------
2	// $Id: BasicCluster.h,v 1.16 2010/06/24 13:08:45 peveraer Exp $
3	//
4	// BasicCluster
5	//
6	// This class holds information of basic reconstructed clusters.
7	//
8	// Authors: S.Xie
9	//--------------------------------------------------------------------------------------------------
10
11	#ifndef MITANA_DATATREE_BASICCLUSTER_H
12	#define MITANA_DATATREE_BASICCLUSTER_H
13
14	#include <TMath.h>
15	#include "MitCommon/DataFormats/interface/Vect3C.h"
16	#include "MitAna/DataTree/interface/DataObject.h"
17
18	namespace mithep
19	{
20	class BasicCluster : public DataObject
21	{
22	public:
23	BasicCluster() : fEnergy(0), fNHits(0),
24	fE1x3(0),
25	fE3x1(0),
26	fE1x5(0),
27	fE2x2(0),
28	fE3x2(0),
29	fE3x3(0),
30	fE4x4(0),
31	fE5x5(0),
32	fSwissCross(0),
33	fE2x5Right(0),
34	fE2x5Left(0),
35	fE2x5Top(0),
36	fE2x5Bottom(0),
37	fE2x5Max(0),
38	fELeft(0),
39	fERight(0),
40	fETop(0),
41	fEBottom(0),
42	fEMax(0),
43	fE2nd(0),
44	fEtaLat(0),
45	fPhiLat(0),
46	fLat(0),
47	fCovEtaEta(0),
48	fCovEtaPhi(0),
49	fCovPhiPhi(0),
50	fCoviEtaiEta(0),
51	fCoviEtaiPhi(0),
52	fCoviPhiiPhi(0),
53	fZernike20(0),
54	fZernike42(0) {}
55	BasicCluster(Double_t e, const ThreeVector &p) :
56	fEnergy(e), fPoint(p), fNHits(0),
57	fE1x3(0),
58	fE3x1(0),
59	fE1x5(0),
60	fE2x2(0),
61	fE3x2(0),
62	fE3x3(0),
63	fE4x4(0),
64	fE5x5(0),
65	fSwissCross(0),
66	fE2x5Right(0),
67	fE2x5Left(0),
68	fE2x5Top(0),
69	fE2x5Bottom(0),
70	fE2x5Max(0),
71	fELeft(0),
72	fERight(0),
73	fETop(0),
74	fEBottom(0),
75	fEMax(0),
76	fE2nd(0),
77	fEtaLat(0),
78	fPhiLat(0),
79	fLat(0),
80	fCovEtaEta(0),
81	fCovEtaPhi(0),
82	fCovPhiPhi(0),
83	fCoviEtaiEta(0),
84	fCoviEtaiPhi(0),
85	fCoviPhiiPhi(0),
86	fZernike20(0),
87	fZernike42(0) {}
88
89	Double_t Energy() const { return fEnergy; }
90	Double_t Et() const;
91	Double_t Eta() const { return fPoint.Eta(); }
92	EObjType ObjType() const { return kBasicCluster; }
93	Double_t Phi() const { return fPoint.Phi(); }
94	ThreeVectorC Pos() const { return fPoint.V(); }
95	void Print(Option_t *opt="") const;
96	Double_t Rho() const { return fPoint.Rho(); }
97	Double_t NHits() const { return fNHits; }
98	Double_t E1x3() const { return fE1x3; }
99	Double_t E3x1() const { return fE3x1; }
100	Double_t E1x5() const { return fE1x5; }
101	Double_t E2x2() const { return fE2x2; }
102	Double_t E3x2() const { return fE3x2; }
103	Double_t E3x3() const { return fE3x3; }
104	Double_t E4x4() const { return fE4x4; }
105	Double_t E5x5() const { return fE5x5; }
106	Double_t SwissCross() const { return fSwissCross; }
107	Double_t E2x5Right() const { return fE2x5Right; }
108	Double_t E2x5Left() const { return fE2x5Left; }
109	Double_t E2x5Top() const { return fE2x5Top; }
110	Double_t E2x5Bottom() const { return fE2x5Bottom; }
111	Double_t E2x5Max() const { return fE2x5Max; }
112	Double_t ELeft() const { return fELeft; }
113	Double_t ERight() const { return fERight; }
114	Double_t ETop() const { return fETop; }
115	Double_t EBottom() const { return fEBottom; }
116	Double_t EMax() const { return fEMax; }
117	Double_t E2nd() const { return fE2nd; }
118	Double_t EtaLat() const { return fEtaLat; }
119	Double_t PhiLat() const { return fPhiLat; }
120	Double_t Lat() const { return fLat; }
121	Double_t CovEtaEta() const { return fCovEtaEta; }
122	Double_t CovEtaPhi() const { return fCovEtaPhi; }
123	Double_t CovPhiPhi() const { return fCovPhiPhi; }
124	Double_t CoviEtaiEta() const { return fCoviEtaiEta; }
125	Double_t CoviEtaiPhi() const { return fCoviEtaiPhi; }
126	Double_t CoviPhiiPhi() const { return fCoviPhiiPhi; }
127	Double_t Zernike20() const { return fZernike20; }
128	Double_t Zernike42() const { return fZernike42; }
129
130
131	void SetEnergy(Double_t energy) { fEnergy = energy; }
132	void SetXYZ(Double_t x, Double_t y, Double_t z) { fPoint.SetXYZ(x,y,z); }
133	void SetNHits(Int_t x) { fNHits = x; }
134	void SetE1x3(Double_t x) { fE1x3 = x; }
135	void SetE3x1(Double_t x) { fE3x1 = x; }
136	void SetE1x5(Double_t x) { fE1x5 = x; }
137	void SetE2x2(Double_t x) { fE2x2 = x; }
138	void SetE3x2(Double_t x) { fE3x2 = x; }
139	void SetE3x3(Double_t x) { fE3x3 = x; }
140	void SetE4x4(Double_t x) { fE4x4 = x; }
141	void SetE5x5(Double_t x) { fE5x5 = x; }
142	void SetSwissCross(Double_t x) { fSwissCross = x; }
143	void SetE2x5Right(Double_t x) { fE2x5Right = x; }
144	void SetE2x5Left(Double_t x) { fE2x5Left = x; }
145	void SetE2x5Top(Double_t x) { fE2x5Top = x; }
146	void SetE2x5Bottom(Double_t x) { fE2x5Bottom = x; }
147	void SetE2x5Max(Double_t x) { fE2x5Max = x; }
148	void SetELeft(Double_t x) { fELeft = x; }
149	void SetERight(Double_t x) { fERight = x; }
150	void SetETop(Double_t x) { fETop = x; }
151	void SetEBottom(Double_t x) { fEBottom = x; }
152	void SetEMax(Double_t x) { fEMax = x; }
153	void SetE2nd(Double_t x) { fE2nd = x; }
154	void SetEtaLat(Double_t x) { fEtaLat = x; }
155	void SetPhiLat(Double_t x) { fPhiLat = x; }
156	void SetLat(Double_t x) { fLat = x; }
157	void SetCovEtaEta(Double_t x) { fCovEtaEta = x; }
158	void SetCovEtaPhi(Double_t x) { fCovEtaPhi = x; }
159	void SetCovPhiPhi(Double_t x) { fCovPhiPhi = x; }
160	void SetCoviEtaiEta(Double_t x) { fCoviEtaiEta = x; }
161	void SetCoviEtaiPhi(Double_t x) { fCoviEtaiPhi = x; }
162	void SetCoviPhiiPhi(Double_t x) { fCoviPhiiPhi = x; }
163	void SetZernike20(Double_t x) { fZernike20 = x; }
164	void SetZernike42(Double_t x) { fZernike42 = x; }
165
166
167	protected:
168
169	Double32_t fEnergy; //[0,0,14]assigned energy
170	Vect3C fPoint; //centroid Position
171
172
173	Int_t fNHits;
174	Double32_t fE1x3;
175	Double32_t fE3x1;
176	Double32_t fE1x5;
177	Double32_t fE2x2;
178	Double32_t fE3x2;
179	Double32_t fE3x3;
180	Double32_t fE4x4;
181	Double32_t fE5x5;
182	Double32_t fSwissCross;
183	Double32_t fE2x5Right;
184	Double32_t fE2x5Left;
185	Double32_t fE2x5Top;
186	Double32_t fE2x5Bottom;
187	Double32_t fE2x5Max;
188	Double32_t fELeft;
189	Double32_t fERight;
190	Double32_t fETop;
191	Double32_t fEBottom;
192	Double32_t fEMax;
193	Double32_t fE2nd;
194	Double32_t fEtaLat;
195	Double32_t fPhiLat;
196	Double32_t fLat;
197	Double32_t fCovEtaEta;
198	Double32_t fCovEtaPhi;
199	Double32_t fCovPhiPhi;
200	Double32_t fCoviEtaiEta;
201	Double32_t fCoviEtaiPhi;
202	Double32_t fCoviPhiiPhi;
203	Double32_t fZernike20;
204	Double32_t fZernike42;
205
206
207	ClassDef(BasicCluster, 3) // Basic cluster class
208	};
209	}
210
211	//--------------------------------------------------------------------------------------------------
212	inline Double_t mithep::BasicCluster::Et() const
213	{
214	// Return transverse energy.
215
216	return fEnergy*fPoint.Rho()/fPoint.V().R();
217	}
218	#endif