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Comparing UserCode/MitAna/DataTree/interface/Vertex.h (file contents):
Revision 1.9 by loizides, Wed Mar 18 15:44:32 2009 UTC vs.
Revision 1.17 by mhchan, Fri Oct 7 23:00:04 2011 UTC

# Line 3 | Line 3
3   //
4   // Vertex
5   //
6 < // Vertex class implemented as holding a 3d vector as a point in space with fit information.
6 > // Vertex class derived from BaseVertex holding additional fit information.
7   //
8   // Authors: J.Bendavid
9   //--------------------------------------------------------------------------------------------------
# Line 13 | Line 13
13  
14   #include <TMath.h>
15   #include "MitAna/DataTree/interface/BaseVertex.h"
16 + #include "MitAna/DataCont/interface/RefArray.h"
17 + #include "MitAna/DataTree/interface/Track.h"
18  
19   namespace mithep
20   {
21    class Vertex : public BaseVertex
22    {
23      public:
24 <      Vertex() : fChi2(0), fNdof(0), fNTracks(0) {}
24 >      Vertex() : fChi2(0), fIsValid(kFALSE), fNdof(0), fAdaptiveNdof(0), fNTracks(0) {}
25        Vertex(Double_t x, Double_t y, Double_t z) :
26 <        BaseVertex(x,y,z), fChi2(0), fNdof(0), fNTracks(0) {}
26 >        BaseVertex(x,y,z), fChi2(0), fIsValid(kFALSE), fNdof(0), fAdaptiveNdof(0), fNTracks(0) {}
27        Vertex(Double_t x, Double_t y, Double_t z, Double_t xErr, Double_t yErr, Double_t zErr) :
28 <        BaseVertex(x,y,z,xErr,yErr,zErr), fChi2(0), fNdof(0), fNTracks(0) {}
28 >        BaseVertex(x,y,z,xErr,yErr,zErr), fChi2(0), fIsValid(kFALSE), fNdof(0), fAdaptiveNdof(0), fNTracks(0) {}
29        Vertex(const ThreeVector &pos) :
30 <        BaseVertex(pos), fChi2(0), fNdof(0), fNTracks(0) {}
30 >        BaseVertex(pos), fChi2(0), fNdof(0), fAdaptiveNdof(0), fNTracks(0) {}
31        
32 +      void                AddTrack(const Track *t, Double32_t wgt = -1) { fTracks.Add(t); fTrkWeights.Add(wgt); }
33        Double_t            Chi2()      const { return fChi2;                    }
34 <      UShort_t            Ndof()      const { return fNdof;                    }
35 <      UInt_t              NTracks()   const { return fNTracks;                 }
34 >      Int_t               Compare(const TObject *o) const;
35 >      Bool_t              HasTrack(const Track *t)  const { return fTracks.HasObject(t); }
36 >      Bool_t              IsSortable() const { return kTRUE;                    }
37 >      Bool_t              IsValid()   const { return fIsValid;                 }
38 >      Double_t            Ndof()      const { return (fAdaptiveNdof>0.0 ? fAdaptiveNdof:fNdof); }
39 >      UInt_t              NTracksFit() const { return fNTracks;                }
40 >      UInt_t              NTracks()   const { return fTracks.Entries();        }
41        EObjType            ObjType()   const { return kVertex;                  }      
42        Double_t            Prob()      const { return TMath::Prob(fChi2,fNdof); }
43 <      void                SetChi2(Double_t chi2)     { fChi2 = chi2;     }
44 <      void                SetNdof(UShort_t nDof)     { fNdof = nDof;     }
45 <      void                SetNTracks(UShort_t ntrks) { fNTracks = ntrks; }
43 >      void                SetChi2(Double_t chi2)     { fChi2 = chi2;           }
44 >      void                SetIsValid(Bool_t b)       { fIsValid = b;           }
45 >      void                SetNdof(Double_t nDof)     { fAdaptiveNdof = nDof;   }
46 >      void                SetNTracksFit(UInt_t n)    { fNTracks = n;           }
47 >      const Track        *Trk(UInt_t i) const        { return fTracks.At(i);   }
48 >      Double32_t          TrackWeight(const Track *t) const;
49 >      const FArrDouble32 &GetTrkWeights() const { return fTrkWeights; }
50              
51      protected:
52        Double32_t          fChi2;     //[0,0,12]chi squared of conversion vertex fit
53 +      Bool_t              fIsValid;  //is vertex valid
54        UShort_t            fNdof;     //number of degrees of freedom of conversion vertex fit
55 +      Double32_t          fAdaptiveNdof; //number of degrees of freedom of vertex fit (can be non-integer for weighted components)
56        UShort_t            fNTracks;  //number of tracks used for the fit
57 +      FArrDouble32        fTrkWeights; //||array of track weights
58 +      RefArray<Track>     fTracks;   //tracks associated with the PV
59          
60 <    ClassDef(Vertex, 1) // Vertex class
60 >    ClassDef(Vertex, 4) // Vertex class
61    };
62   }
63 +
64 + //--------------------------------------------------------------------------------------------------
65 + inline Int_t mithep::Vertex::Compare(const TObject *o) const
66 + {
67 +  // Default compare function for sorting according to transverse momentum.
68 +  // Returns -1 if this object is smaller than given object, 0 if objects are
69 +  // equal and 1 if this is larger than given object.
70 +
71 +  const mithep::Vertex *v = dynamic_cast<const mithep::Vertex *>(o);
72 +  if (!v)
73 +    return 1;
74 +
75 +  Int_t myn = NTracks();
76 +  Int_t n   = v->NTracks();
77 +  if (myn>n)
78 +    return -1;
79 +  else if (n>myn)
80 +    return +1;
81 +
82 +  Double_t myd = Chi2();
83 +  Double_t d   = v->Chi2();
84 +  if (myd<d)
85 +    return -1;
86 +  else if (d<myd)
87 +    return +1;
88 +  
89 +  return 0;
90 + }
91 +
92 + //--------------------------------------------------------------------------------------------------
93 + inline Double_t mithep::Vertex::TrackWeight(const Track *t) const
94 + {
95 +  for(UInt_t i = 0; i < fTracks.Entries(); i++)
96 +  {
97 +    if(t == fTracks.At(i))
98 +      return fTrkWeights.At(i);
99 +  }
100 +
101 +  return -1;
102 + }
103   #endif

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