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root/cvsroot/UserCode/MitAna/DataTree/interface/Vertex.h

Comparing UserCode/MitAna/DataTree/interface/Vertex.h (file contents):
Revision 1.4 by bendavid, Tue Sep 30 12:51:37 2008 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		//--------------------------------------------------------------------------------------------------
10
11	<	#ifndef DATATREE_VERTEX_H
12	<	#define DATATREE_VERTEX_H
11	>	#ifndef MITANA_DATATREE_VERTEX_H
12	>	#define MITANA_DATATREE_VERTEX_H
13
14		#include <TMath.h>
15	<	#include "MitAna/DataTree/interface/DataObject.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 DataObject
21	>	class Vertex : public BaseVertex
22		{
23		public:
24	<	Vertex() :
25	<	fPosition(0,0,0),
26	<	fXErr(0.0),
25	<	fYErr(0.0),
26	<	fZErr(0.0),
27	<	fChi2(0.0),
28	<	fNdof(0),
29	<	fNTracks(0) {}
30	<	Vertex(Double_t x, Double_t y, Double_t z) :
31	<	fPosition(x,y,z),
32	<	fXErr(0.0),
33	<	fYErr(0.0),
34	<	fZErr(0.0),
35	<	fChi2(0.0),
36	<	fNdof(0),
37	<	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), 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	<	fPosition(x,y,z),
29	<	fXErr(xErr),
30	<	fYErr(yErr),
42	<	fZErr(zErr),
43	<	fChi2(0.0),
44	<	fNdof(0),
45	<	fNTracks(0) {}
46	<	Vertex(const ThreeVector &pos) :
47	<	fPosition(pos),
48	<	fXErr(0.0),
49	<	fYErr(0.0),
50	<	fZErr(0.0),
51	<	fChi2(0.0),
52	<	fNdof(0),
53	<	fNTracks(0) {}
54	<	~Vertex() {}
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), fAdaptiveNdof(0), fNTracks(0) {}
31
32	<	Double_t            Phi()       const { return fPosition.Phi(); }
33	<	Double_t            Rho()       const { return fPosition.Rho(); }
34	<	const ThreeVector  &Position()  const { return fPosition; }
35	<	void                SetPosition(const ThreeVector &pos) { fPosition = pos; }
36	<	void                SetPosition(Double_t x, Double_t y, Double_t z) { fPosition.SetXYZ(x,y,z); }
37	<	Double_t            X()         const { return fPosition.X();   }
38	<	Double_t            Y()         const { return fPosition.Y();   }
39	<	Double_t            Z()         const { return fPosition.Z();   }
40	<	Double_t            Chi2()      const { return fChi2; }
41	<	UInt_t              Ndof()      const { return fNdof; }
66	<	Double_t            XErr()      const { return fXErr; }
67	<	Double_t            YErr()      const { return fYErr; }
68	<	Double_t            ZErr()      const { return fZErr; }
32	>	void                AddTrack(const Track *t, Double32_t wgt = -1) { fTracks.Add(t); fTrkWeights.Add(wgt); }
33	>	Double_t            Chi2()      const { return fChi2;                    }
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                SetErrors(Double_t xErr, Double_t yErr, Double_t zErr);
45	<	void                SetNdof(UInt_t nDof)    { fNdof = nDof; }
46	<	UInt_t              NTracks()   const { return fNTracks; }
47	<	void                SetNTracks(UInt_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	<	ThreeVector         fPosition; //point in space
53	<	Double32_t          fXErr; //error in x
54	<	Double32_t          fYErr; //error in y
55	<	Double32_t          fZErr; //error in z
56	<	Double32_t          fChi2; //chi squared of conversion vertex fit
57	<	UInt_t              fNdof; //number of degrees of freedom of conversion vertex fit
58	<	UInt_t              fNTracks; //number of tracks used for the fit
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 void mithep::Vertex::SetErrors(Double_t xErr, Double_t yErr, Double_t zErr)
66	<	{
67	<	// set uncertainties on vertex position
68	<
69	<	fXErr = xErr;
70	<	fYErr = yErr;
71	<	fZErr = zErr;
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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