3 /* Copyright(c) 1998-2007, ALICE Experiment at CERN, All rights reserved. *
4 * See cxx source for full Copyright notice */
6 //-------------------------------------------------------------------------
7 // Analysis Oriented Data (AOD) V0 vertex class
8 // Authors: B.Hippolyte, IPHC, hippolyt@in2p3.fr
9 // G.Van Buren, BNL, gene@bnl.gov (original STAR MuDsts)
10 //-------------------------------------------------------------------------
12 #include "AliAODRecoDecay.h"
14 class AliAODv0 : public AliAODRecoDecay {
19 AliAODv0(AliAODVertex *rAODVertex, Double_t rDcaV0Daughters, Double_t rDcaV0ToPrimVertex,
20 const Double_t *rMomPos, const Double_t *rMomNeg, Double_t *rDcaDaughterToPrimVertex);
23 AliAODv0(const AliAODv0& rAliAODv0);
24 AliAODv0& operator=(const AliAODv0& rAliAODv0);
26 void Fill(AliAODVertex *rAODVertex, Double_t rDcaV0Daughters, Double_t rDcaV0ToPrimVertex,
27 const Double_t *rMomPos, const Double_t *rMomNeg, const Double_t *rDcaDaughterToPrimVertex);
29 void Print(Option_t* option = "") const;
31 void SetOnFlyStatus(Bool_t status){fOnFlyStatus=status;}
32 Bool_t GetOnFlyStatus() const {return fOnFlyStatus;}
34 Double_t DecayVertexV0X() const;
35 Double_t DecayVertexV0Y() const;
36 Double_t DecayVertexV0Z() const;
38 Double_t DecayLengthV0(const Double_t *) const;
40 Double_t DcaV0Daughters() const;
41 Double_t DcaV0ToPrimVertex() const;
42 Double_t DcaPosToPrimVertex() const;
43 Double_t DcaNegToPrimVertex() const;
44 Double_t RadiusV0() const;
45 Double_t OpenAngleV0() const;
47 Double_t MomPosX() const;
48 Double_t MomPosY() const;
49 Double_t MomPosZ() const;
50 Double_t MomNegX() const;
51 Double_t MomNegY() const;
52 Double_t MomNegZ() const;
54 Double_t Chi2V0() const;
56 Double_t MomV0X() const;
57 Double_t MomV0Y() const;
58 Double_t MomV0Z() const;
60 Double_t Ptot2Pos() const;
61 Double_t Ptot2Neg() const;
62 Double_t Ptot2V0() const;
63 Double_t Pt2V0() const;
64 Double_t MomPosAlongV0() const;
65 Double_t MomNegAlongV0() const;
66 Double_t AlphaV0() const;
67 Double_t PtArmV0() const;
68 Double_t EPosProton() const;
69 Double_t ENegProton() const;
70 Double_t EPosPion() const;
71 Double_t ENegPion() const;
72 Double_t ELambda() const;
73 Double_t EK0Short() const;
74 Double_t MassLambda() const;
75 Double_t MassAntiLambda() const;
76 Double_t MassK0Short() const;
77 Double_t RapK0Short() const;
78 Double_t RapLambda() const;
79 Double_t PseudoRapV0() const;
80 Double_t PseudoRapPos() const;
81 Double_t PseudoRapNeg() const;
83 Short_t GetPosID() const;
84 Short_t GetNegID() const;
85 Int_t GetLabel() const {return -1;} // Dummy
86 Int_t PdgCode() const {return 0;} // Dummy
88 virtual Bool_t GetPxPyPz(Double_t */*p*/) const { return kFALSE; }
89 virtual void SetID(Short_t /*id*/) {;}
93 Double32_t fDcaV0ToPrimVertex; // dca of V0 to primary vertex
94 Bool_t fOnFlyStatus; // if kTRUE, then this V0 is recontructed
95 // "on fly" during the tracking
99 inline Double_t AliAODv0::DecayVertexV0X() const {return this->GetSecVtxX();}
100 inline Double_t AliAODv0::DecayVertexV0Y() const {return this->GetSecVtxY();}
101 inline Double_t AliAODv0::DecayVertexV0Z() const {return this->GetSecVtxZ();}
103 inline Double_t AliAODv0::DecayLengthV0(const Double_t *tParentVertexPosition) const {
104 return ::sqrt(::pow(DecayVertexV0X() - tParentVertexPosition[0],2) +
105 ::pow(DecayVertexV0Y() - tParentVertexPosition[1],2) +
106 ::pow(DecayVertexV0Z() - tParentVertexPosition[2],2));
109 inline Double_t AliAODv0::DcaV0Daughters() const {return fDCA[0];}
110 inline Double_t AliAODv0::DcaV0ToPrimVertex() const {return fDcaV0ToPrimVertex;}
111 inline Double_t AliAODv0::DcaPosToPrimVertex() const {return fd0[0];}
112 inline Double_t AliAODv0::DcaNegToPrimVertex() const {return fd0[1];}
114 inline Double_t AliAODv0::RadiusV0() const {
115 return RadiusSecVtx();
118 inline Double_t AliAODv0::OpenAngleV0() const {
119 Double_t lScalPtot1Ptot2 = PxProng(0)*PxProng(1)+PyProng(0)*PyProng(1)+PzProng(0)*PzProng(1);
120 Double_t lPtot1xPtot2 = Ptot2Pos()*Ptot2Neg();
121 return ::acos(lScalPtot1Ptot2/::sqrt(lPtot1xPtot2) );
124 inline Double_t AliAODv0::MomPosX() const {return fPx[0];}
125 inline Double_t AliAODv0::MomPosY() const {return fPy[0];}
126 inline Double_t AliAODv0::MomPosZ() const {return fPz[0];}
127 inline Double_t AliAODv0::MomNegX() const {return fPx[1];}
128 inline Double_t AliAODv0::MomNegY() const {return fPy[1];}
129 inline Double_t AliAODv0::MomNegZ() const {return fPz[1];}
131 inline Double_t AliAODv0::Chi2V0() const {return GetSecondaryVtx()->GetChi2perNDF();}
133 // Compare eventually AliAODv0::MomV0X() and AliAODRecoDecay::Px()
134 inline Double_t AliAODv0::MomV0X() const {return MomPosX()+MomNegX();}
135 inline Double_t AliAODv0::MomV0Y() const {return MomPosY()+MomNegY();}
136 inline Double_t AliAODv0::MomV0Z() const {return MomPosZ()+MomNegZ();}
138 inline Double_t AliAODv0::Ptot2Pos() const {
139 return (::pow(MomPosX(),2) + ::pow(MomPosY(),2) + ::pow(MomPosZ(),2) );
141 inline Double_t AliAODv0::Ptot2Neg() const {
142 return (::pow(MomNegX(),2) + ::pow(MomNegY(),2) + ::pow(MomNegZ(),2) );
144 inline Double_t AliAODv0::Ptot2V0() const {return ( Pt2V0() + ::pow(MomV0Z(),2) );}
145 inline Double_t AliAODv0::Pt2V0() const {
146 return (::pow(MomV0X(),2) + ::pow(MomV0Y(),2) );
149 inline Double_t AliAODv0::MomPosAlongV0() const {
150 Double_t lPtot2V0 = Ptot2V0();
152 return (MomPosX()*MomV0X() +
154 MomPosZ()*MomV0Z()) / ::sqrt(lPtot2V0);
158 inline Double_t AliAODv0::MomNegAlongV0() const {
159 Double_t lPtot2V0 = Ptot2V0();
161 return (MomNegX()*MomV0X() +
163 MomNegZ()*MomV0Z()) / ::sqrt(lPtot2V0);
167 inline Double_t AliAODv0::AlphaV0() const {
170 inline Double_t AliAODv0::PtArmV0() const {
174 inline Double_t AliAODv0::EPosProton() const {
175 return EProng(0,2212);
178 inline Double_t AliAODv0::ENegProton() const {
179 return EProng(1,2212);
182 inline Double_t AliAODv0::EPosPion() const {
183 return EProng(0,211);
186 inline Double_t AliAODv0::ENegPion() const {
187 return EProng(1,211);
190 inline Double_t AliAODv0::ELambda() const {
194 inline Double_t AliAODv0::EK0Short() const {
198 inline Double_t AliAODv0::MassLambda() const {
199 return InvMass2Prongs(0,1,2212,211);
202 inline Double_t AliAODv0::MassAntiLambda() const {
203 return InvMass2Prongs(0,1,211,2212);
206 inline Double_t AliAODv0::MassK0Short() const {
207 return InvMass2Prongs(0,1,211,211);
210 inline Double_t AliAODv0::RapK0Short() const {
214 inline Double_t AliAODv0::RapLambda() const {
218 inline Double_t AliAODv0::PseudoRapV0() const {
222 inline Double_t AliAODv0::PseudoRapPos() const {
226 inline Double_t AliAODv0::PseudoRapNeg() const {
229 //----------------------------------------------------------------------------