1 #ifndef ALIAODRECODECAY_H
2 #define ALIAODRECODECAY_H
3 /* Copyright(c) 1998-2006, ALICE Experiment at CERN, All rights reserved. *
4 * See cxx source for full Copyright notice */
6 //***********************************************************
7 // Class AliAODRecoDecay
8 // base class for AOD reconstructed decays
9 // Author: A.Dainese, andrea.dainese@lnl.infn.it
10 //***********************************************************
14 #include "AliAODVertex.h"
15 #include "AliVParticle.h"
17 class AliAODRecoDecay : public AliVParticle {
22 AliAODRecoDecay(AliAODVertex *vtx2,Int_t nprongs,Short_t charge,
23 Double_t *px,Double_t *py,Double_t *pz,
25 AliAODRecoDecay(AliAODVertex *vtx2,Int_t nprongs,Short_t charge,
27 virtual ~AliAODRecoDecay();
29 AliAODRecoDecay(const AliAODRecoDecay& source);
30 AliAODRecoDecay& operator=(const AliAODRecoDecay& source);
34 Double_t GetSecVtxX() const {return GetSecondaryVtx()->GetX();}
35 Double_t GetSecVtxY() const {return GetSecondaryVtx()->GetY();}
36 Double_t GetSecVtxZ() const {return GetSecondaryVtx()->GetZ();}
37 Double_t RadiusSecVtx() const;
38 void SetSecondaryVtx(AliAODVertex *vtx2) {fSecondaryVtx=vtx2;}
39 AliAODVertex* GetSecondaryVtx() const {return (AliAODVertex*)fSecondaryVtx.GetObject();}
40 void GetSecondaryVtx(Double_t vtx[3]) const;
41 Double_t GetReducedChi2() const {return GetSecondaryVtx()->GetChi2perNDF();}
42 Short_t Charge() const {return fCharge;}
43 Short_t GetCharge() const {return fCharge;}
44 void SetCharge(Short_t charge=0) {fCharge=charge;}
47 void SetPID(Int_t nprongs,Double_t *pid);
48 Double_t *GetPID() const { return fPID; }
49 void GetPIDProng(Int_t ip,Double_t *pid) const;
50 virtual const Double_t *PID() const { return fPID; }
52 // prong-to-prong DCAs
53 void SetDCAs(Int_t nDCA,Double_t *dca);
54 void SetDCA(Double_t dca); // 2 prong
55 Double_t GetDCA(Int_t i=0) const {return fDCA[i];}
57 //event and run number
58 void SetEventRunNumbers(Int_t en,Int_t rn)
59 { fEventNumber=en; fRunNumber=rn; return; }
60 Int_t GetEventNumber() const { return fEventNumber; }
61 Int_t GetRunNumber() const { return fRunNumber; }
63 // kinematics & topology
67 Double_t P() const {return TMath::Sqrt(Px()*Px()+Py()*Py()+Pz()*Pz());}
68 Double_t Pt() const {return TMath::Sqrt(Px()*Px()+Py()*Py());}
69 Double_t OneOverPt() const {return (Pt() ? 1./Pt() : 0.);}
70 Bool_t PxPyPz(Double_t p[3]) const { p[0] = Px(); p[1] = Py(); p[2] = Pz(); return kTRUE; }
71 Double_t Phi() const {return TMath::Pi()+TMath::ATan2(-Py(),-Px());}
72 Double_t Theta() const {return 0.5*TMath::Pi()-TMath::ATan(Pz()/(Pt()+1.e-13));}
73 Double_t Eta() const {return 0.5*TMath::Log((P()+Pz())/(P()-Pz()+1.e-13));}
74 Double_t Xv() const { return GetSecVtxX(); }
75 Double_t Yv() const { return GetSecVtxY(); }
76 Double_t Zv() const { return GetSecVtxZ(); }
77 virtual Bool_t XvYvZv(Double_t x[3]) const { x[0] = Xv(); x[1] = Yv(); x[2] = Zv(); return kTRUE; }
78 Double_t E(UInt_t pdg) const;
79 Double_t Y(UInt_t pdg) const {return 0.5*TMath::Log((E(pdg)+Pz())/(E(pdg)-Pz()+1.e-13));}
80 Double_t DecayLength(Double_t point[3]) const;
81 Double_t DecayLength(AliAODVertex *vtx1) const
82 {return GetSecondaryVtx()->DistanceToVertex(vtx1);}
83 Double_t DecayLengthError(AliAODVertex *vtx1) const
84 {return GetSecondaryVtx()->ErrorDistanceToVertex(vtx1);}
85 Double_t NormalizedDecayLength(AliAODVertex *vtx1) const
86 {return DecayLength(vtx1)/DecayLengthError(vtx1);}
87 Double_t DecayLengthXY(Double_t point[3]) const;
88 Double_t DecayLengthXY(AliAODVertex *vtx1) const
89 {return GetSecondaryVtx()->DistanceXYToVertex(vtx1);}
90 Double_t DecayLengthXYError(AliAODVertex *vtx1) const
91 {return GetSecondaryVtx()->ErrorDistanceXYToVertex(vtx1);}
92 Double_t NormalizedDecayLengthXY(AliAODVertex *vtx1) const
93 {return DecayLengthXY(vtx1)/DecayLengthXYError(vtx1);}
94 Double_t Ct(UInt_t pdg,Double_t point[3]) const;
95 Double_t Ct(UInt_t pdg,AliAODVertex *vtx1) const;
96 Double_t CosPointingAngle(Double_t point[3]) const;
97 Double_t CosPointingAngle(AliAODVertex *vtx1) const;
98 Double_t CosPointingAngleXY(Double_t point[3]) const;
99 Double_t CosPointingAngleXY(AliAODVertex *vtx1) const;
100 Double_t CosThetaStar(Int_t ip,UInt_t pdgvtx,UInt_t pdgprong0,UInt_t pdgprong1) const;
101 Double_t InvMass(Int_t npdg,UInt_t *pdg) const;
102 Double_t ImpParXY(Double_t point[3]) const;
103 Double_t ImpParXY(AliAODVertex *vtx1) const;
106 //Int_t GetNProngs() const {return GetSecondaryVtx()->GetNDaughters();}
107 Int_t GetNProngs() const {return fNProngs;}
109 Short_t ChargeProng(Int_t ip) const;
110 Double_t Getd0Prong(Int_t ip) const {return fd0[ip];}
111 Double_t Prodd0d0(Int_t ip1=0,Int_t ip2=0) const {return fd0[ip1]*fd0[ip2];}
112 Double_t PxProng(Int_t ip) const {return fPx[ip];}
113 Double_t PyProng(Int_t ip) const {return fPy[ip];}
114 Double_t PzProng(Int_t ip) const {return fPz[ip];}
115 Double_t PtProng(Int_t ip) const;
116 Double_t PProng(Int_t ip) const;
117 Double_t PhiProng(Int_t ip) const
118 {return TMath::ATan2(PyProng(ip),PxProng(ip));}
119 Double_t ThetaProng(Int_t ip) const
120 {return 0.5*TMath::Pi()-TMath::ATan(PzProng(ip)/(PtProng(ip)+1.e-13));}
121 Double_t EtaProng(Int_t ip) const
122 {return -TMath::Log(TMath::Tan(0.5*ThetaProng(ip)));}
123 Double_t EProng(Int_t ip,UInt_t pdg) const;
124 Double_t YProng(Int_t ip,UInt_t pdg) const
125 {return 0.5*TMath::Log((EProng(ip,pdg)+PzProng(ip))/(EProng(ip,pdg)-PzProng(ip)+1.e-13));}
126 Double_t Alpha() const; // for Armenteros-Podolanski plot (V0's)
127 Double_t QlProng(Int_t ip) const;
128 Double_t QtProng(Int_t ip=0) const; // for Armenteros-Podolanski plot (V0's)
129 Double_t QlProngFlightLine(Int_t ip,Double_t point[3]) const;
130 Double_t QlProngFlightLine(Int_t ip,AliAODVertex *vtx1) const;
131 Double_t QtProngFlightLine(Int_t ip,Double_t point[3]) const;
132 Double_t QtProngFlightLine(Int_t ip,AliAODVertex *vtx1) const;
133 Double_t InvMass2Prongs(Int_t ip1,Int_t ip2,UInt_t pdg1,UInt_t pdg2) const;
134 Double_t ProngsRelAngle(Int_t ip1=0,Int_t ip2=1) const;
136 // relate to other objects
137 //Double_t DistanceToVertex(AliAODVertex *vtx) // distance to a AliAODVertex
138 //Double_t DistanceToTrack(AliAODTrack *trk) // distance to a AliAODTrack
142 void Print(Option_t* option = "") const;
143 //void PrintIndices() const {GetSecondaryVtx()->PrintIndices();}
145 // dummy functions for inheritance from AliVParticle
147 {printf("Dummy function; use AliAODRecoDecay::E(UInt_t pdg) instead"); return (Double_t)-999.;}
149 {printf("Dummy function; use AliAODRecoDecay::Y(UInt_t pdg) instead"); return (Double_t)-999.;}
151 {printf("Dummy function"); return (Double_t)-999.;}
155 TRef fSecondaryVtx; // decay vertex
156 Short_t fCharge; // charge, use this convention for prongs charges:
157 // if(charge== 0) even-index prongs are +
158 // odd-index prongs are -
159 // if(charge==+1) even-index prongs are +
160 // odd-index prongs are -
161 // if(charge==-1) even-index prongs are -
162 // odd-index prongs are +
164 // TEMPORARY, to be removed when we do analysis on AliAODEvent
165 Int_t fNProngs; // number of prongs
166 Int_t fNDCA; // number of dca's
167 Int_t fNPID; // number of PID probabilities
168 Double32_t *fPx; //[fNProngs] px of tracks at the vertex [GeV/c]
169 Double32_t *fPy; //[fNProngs] py of tracks at the vertex [GeV/c]
170 Double32_t *fPz; //[fNProngs] pz of tracks at the vertex [GeV/c]
171 Double32_t *fd0; //[fNProngs] rphi impact params w.r.t. Primary Vtx [cm]
172 Double32_t *fDCA; //[fNDCA] prong-to-prong DCA [cm]
173 // convention:fDCA[0]=p0p1,fDCA[1]=p0p2,fDCA[2]=p1p2,...
174 Double32_t *fPID; //[fNPID] combined pid
175 // (combined detector response probabilities)
177 // TEMPORARY, to be removed when we do analysis on AliAODEvent
180 // TO BE PUT IN SPECIAL MC CLASS
181 //Bool_t fSignal; // TRUE if signal, FALSE if background (for simulation)
182 //Int_t fEvent; // number of the event this candidate comes from
183 //Int_t fTrkNum[2]; // numbers of the two decay tracks
184 //Int_t fPdg[2]; // PDG codes of the two tracks (for sim.)
185 //Int_t fMum[2]; // PDG codes of the mothers (for sim.)
189 ClassDef(AliAODRecoDecay,2) // base class for AOD reconstructed decays
193 inline Short_t AliAODRecoDecay::ChargeProng(Int_t ip) const
195 if(fCharge==0 || fCharge==+1) {
201 } else { // fCharge==-1
210 inline Double_t AliAODRecoDecay::RadiusSecVtx() const
212 return TMath::Sqrt(GetSecVtxX()*GetSecVtxX()+GetSecVtxY()*GetSecVtxY());
215 inline void AliAODRecoDecay::GetSecondaryVtx(Double_t vtx[3]) const
217 GetSecondaryVtx()->GetPosition(vtx);
221 inline Double_t AliAODRecoDecay::Px() const
224 for(Int_t i=0;i<GetNProngs();i++) px+=PxProng(i);
228 inline Double_t AliAODRecoDecay::Py() const
231 for(Int_t i=0;i<GetNProngs();i++) py+=PyProng(i);
235 inline Double_t AliAODRecoDecay::Pz() const
238 for(Int_t i=0;i<GetNProngs();i++) pz+=PzProng(i);
242 inline Double_t AliAODRecoDecay::Ct(UInt_t pdg,AliAODVertex *vtx1) const
245 vtx1->GetPosition(v);
249 inline Double_t AliAODRecoDecay::CosPointingAngle(AliAODVertex *vtx1) const
252 vtx1->GetPosition(v);
253 return CosPointingAngle(v);
256 inline Double_t AliAODRecoDecay::CosPointingAngleXY(AliAODVertex *vtx1) const
259 vtx1->GetPosition(v);
260 return CosPointingAngleXY(v);
263 inline Double_t AliAODRecoDecay::ImpParXY(AliAODVertex *vtx1) const
266 vtx1->GetPosition(v);
270 inline Double_t AliAODRecoDecay::PtProng(Int_t ip) const
272 return TMath::Sqrt(PxProng(ip)*PxProng(ip)+PyProng(ip)*PyProng(ip));
275 inline Double_t AliAODRecoDecay::PProng(Int_t ip) const
277 return TMath::Sqrt(PtProng(ip)*PtProng(ip)+PzProng(ip)*PzProng(ip));
280 inline Double_t AliAODRecoDecay::QlProngFlightLine(Int_t ip,AliAODVertex *vtx1) const
283 vtx1->GetPosition(v);
284 return QlProngFlightLine(ip,v);
287 inline Double_t AliAODRecoDecay::QtProngFlightLine(Int_t ip,AliAODVertex *vtx1) const
290 vtx1->GetPosition(v);
291 return QtProngFlightLine(ip,v);
294 inline void AliAODRecoDecay::SetDCAs(Int_t nDCA,Double_t *dca)
296 if(nDCA!=(GetNProngs()*(GetNProngs()-1)/2)) {
297 printf("Wrong number of DCAs, must be nProngs*(nProngs-1)/2");
300 if(fDCA) delete [] fDCA;
301 fDCA = new Double32_t[nDCA];
302 for(Int_t i=0;i<nDCA;i++)
307 inline void AliAODRecoDecay::SetDCA(Double_t dca)
309 Double_t ddca[1]; ddca[0]=dca;
314 inline void AliAODRecoDecay::SetPID(Int_t nprongs,Double_t *pid)
316 if(nprongs!=GetNProngs()) {
317 printf("Wrong number of prongs");
320 if(fPID) delete [] fPID;
321 fPID = new Double32_t[nprongs*5];
322 for(Int_t i=0;i<nprongs;i++)
323 for(Int_t j=0;j<5;j++)
324 fPID[i*5+j] = pid[i*5+j];
328 inline void AliAODRecoDecay::GetPIDProng(Int_t ip,Double_t *pid) const
330 for(Int_t j=0;j<5;j++)
331 pid[j] = fPID[ip*5+j];