[u/mrichter/AliRoot.git] / STEER / AliAODv0.h

#ifndef AliAODv0_H
#define AliAODv0_H
/* Copyright(c) 1998-2007, ALICE Experiment at CERN, All rights reserved. *
 * See cxx source for full Copyright notice                               */

//-------------------------------------------------------------------------
//     Analysis Oriented Data (AOD) V0 vertex class
//     Authors: B.Hippolyte, IPHC, hippolyt@in2p3.fr 
//              G.Van Buren, BNL,  gene@bnl.gov      (original STAR MuDsts)
//-------------------------------------------------------------------------

#include "AliAODRecoDecay.h"

//class AliESDEvent;
//class AliESDv0;

class AliAODv0 : public AliAODRecoDecay {

public:

  AliAODv0();
  //  AliAODv0(AliESDv0 *rV0Vertex, AliESDEvent *rEvent);
  AliAODv0(AliAODVertex *rAODVertex, Double_t rDcaV0Daughters, Double_t rDcaV0ToPrimVertex,
	   Double_t *rMomPos, Double_t *rMomNeg, Double_t *rDcaDaughterToPrimVertex);
  virtual ~AliAODv0();

  AliAODv0(const AliAODv0& rAliAODv0);
  AliAODv0& operator=(const AliAODv0& rAliAODv0);

  //  void     Fill(AliESDv0 *rV0Vertex, AliESDEvent *rEvent);
  void     Fill(AliAODVertex *rAODVertex, Double_t rDcaV0Daughters, Double_t rDcaV0ToPrimVertex,
		Double_t *rMomPos, Double_t *rMomNeg, Double_t *rDcaDaughterToPrimVertex);
  void     ResetV0();
  void     Print(Option_t* option = "") const;

  Double_t DecayVertexV0X() const;
  Double_t DecayVertexV0Y() const;
  Double_t DecayVertexV0Z() const;

  Double_t DecayLengthV0(double*) const;
                     
  Double_t DcaV0Daughters() const;
  Double_t DcaV0ToPrimVertex() const;
  Double_t DcaPosToPrimVertex() const; 
  Double_t DcaNegToPrimVertex() const; 
  Double_t RadiusV0()           const;
  Double_t OpenAngleV0()        const;

  Double_t MomPosX() const;
  Double_t MomPosY() const;
  Double_t MomPosZ() const;
  Double_t MomNegX() const;
  Double_t MomNegY() const;
  Double_t MomNegZ() const;

  //  Int_t    KeyPos()  const;
  //  Int_t    KeyNeg()  const;

  Double_t Chi2V0()  const;

  Double_t MomV0X()  const;
  Double_t MomV0Y()  const;
  Double_t MomV0Z()  const;

  Double_t Ptot2Pos() const;
  Double_t Ptot2Neg() const;
  Double_t Ptot2V0()  const;
  Double_t Pt2V0()    const;
  Double_t MomPosAlongV0() const;
  Double_t MomNegAlongV0() const;
  Double_t AlphaV0() const;
  Double_t PtArmV0() const;
  Double_t EPosProton() const;
  Double_t ENegProton() const;
  Double_t EPosPion() const;
  Double_t ENegPion() const;
  Double_t ELambda() const;
  Double_t EK0Short() const;
  Double_t MassLambda() const;
  Double_t MassAntiLambda() const;
  Double_t MassK0Short() const;
  Double_t RapK0Short() const;
  Double_t RapLambda() const;
  Double_t PseudoRapV0()    const;
  Double_t PseudoRapPos()   const;
  Double_t PseudoRapNeg()   const;


protected:
  Double32_t fDcaV0ToPrimVertex;    // dca of V0 to primary vertex 
  ClassDef(AliAODv0,1)
};

inline Double_t AliAODv0::DecayVertexV0X() const {return this->GetSecVtxX();}
inline Double_t AliAODv0::DecayVertexV0Y() const {return this->GetSecVtxY();}
inline Double_t AliAODv0::DecayVertexV0Z() const {return this->GetSecVtxZ();}

inline Double_t AliAODv0::DecayLengthV0(double *tParentVertexPosition) const {
  return ::sqrt(::pow(DecayVertexV0X() - tParentVertexPosition[0],2) +
		::pow(DecayVertexV0Y() - tParentVertexPosition[1],2) +
		::pow(DecayVertexV0Z() - tParentVertexPosition[2],2));
}

inline Double_t AliAODv0::DcaV0Daughters() const {return fDCA[0];}
inline Double_t AliAODv0::DcaV0ToPrimVertex() const {return fDcaV0ToPrimVertex;}
inline Double_t AliAODv0::DcaPosToPrimVertex() const {return fd0[0];}
inline Double_t AliAODv0::DcaNegToPrimVertex() const {return fd0[1];}

inline Double_t AliAODv0::RadiusV0() const {
  return RadiusSecVtx();
}

inline Double_t AliAODv0::OpenAngleV0() const {
  Double_t lPtot1xPtot2 = PxProng(0)*PxProng(1)+PyProng(0)*PyProng(1)+PzProng(0)*PzProng(1);
  Double_t lPtot1Ptot2_2 = Ptot2Pos()*Ptot2Neg();
  return ::acos(lPtot1xPtot2/::sqrt(lPtot1Ptot2_2) );
}

inline Double_t AliAODv0::MomPosX() const {return fPx[0];}
inline Double_t AliAODv0::MomPosY() const {return fPy[0];}
inline Double_t AliAODv0::MomPosZ() const {return fPz[0];}
inline Double_t AliAODv0::MomNegX() const {return fPx[1];}
inline Double_t AliAODv0::MomNegY() const {return fPy[1];}
inline Double_t AliAODv0::MomNegZ() const {return fPz[1];}

// inline Int_t AliAODv0::KeyPos() const {return fKeyPos;}
// inline Int_t AliAODv0::KeyNeg() const {return fKeyNeg;}

inline Double_t AliAODv0::Chi2V0() const {return GetSecondaryVtx()->GetChi2perNDF();}

// Compare eventually AliAODv0::MomV0X() and AliAODRecoDecay::Px()
inline Double_t AliAODv0::MomV0X() const {return MomPosX()+MomNegX();}
inline Double_t AliAODv0::MomV0Y() const {return MomPosY()+MomNegY();}
inline Double_t AliAODv0::MomV0Z() const {return MomPosZ()+MomNegZ();}

inline Double_t AliAODv0::Ptot2Pos() const {
  return (::pow(MomPosX(),2) + ::pow(MomPosY(),2) + ::pow(MomPosZ(),2) );
}
inline Double_t AliAODv0::Ptot2Neg() const {
  return (::pow(MomNegX(),2) + ::pow(MomNegY(),2) + ::pow(MomNegZ(),2) );
}
inline Double_t AliAODv0::Ptot2V0() const {return ( Pt2V0() + ::pow(MomV0Z(),2) );}
inline Double_t AliAODv0::Pt2V0() const {
  return (::pow(MomV0X(),2) + ::pow(MomV0Y(),2) );
}

inline Double_t AliAODv0::MomPosAlongV0() const {
  Double_t lPtot2V0 = Ptot2V0();
  if (lPtot2V0)
    return (MomPosX()*MomV0X() +
	    MomPosY()*MomV0Y() +
	    MomPosZ()*MomV0Z()) / ::sqrt(lPtot2V0);
  return 0.;
}

inline Double_t AliAODv0::MomNegAlongV0() const {
  Double_t lPtot2V0 = Ptot2V0();
  if (lPtot2V0)
    return (MomNegX()*MomV0X() +
	    MomNegY()*MomV0Y() +
	    MomNegZ()*MomV0Z()) / ::sqrt(lPtot2V0);
  return 0.;
}

inline Double_t AliAODv0::AlphaV0() const {
  return Alpha();
}
inline Double_t AliAODv0::PtArmV0() const {
  return QtProng(0);
}

inline Double_t AliAODv0::EPosProton() const {
  return EProng(0,2212);
}

inline Double_t AliAODv0::ENegProton() const {
  return EProng(1,2212);
}

inline Double_t AliAODv0::EPosPion() const {
  return EProng(0,211);
}

inline Double_t AliAODv0::ENegPion() const {
  return EProng(1,211);
}

inline Double_t AliAODv0::ELambda() const {
  return E(3122);
}

inline Double_t AliAODv0::EK0Short() const {
  return E(310);
}

inline Double_t AliAODv0::MassLambda() const {
  return InvMass2Prongs(0,1,2212,211);
}

inline Double_t AliAODv0::MassAntiLambda() const {
  return InvMass2Prongs(0,1,211,2212);
}

inline Double_t AliAODv0::MassK0Short() const {
  return InvMass2Prongs(0,1,211,211);
}

inline Double_t AliAODv0::RapK0Short() const {
  return Y(310);
}

inline Double_t AliAODv0::RapLambda() const {
  return Y(3122);
}

inline Double_t AliAODv0::PseudoRapV0() const {
  return Eta();
}

inline Double_t AliAODv0::PseudoRapPos()   const {
  return EtaProng(0);
}

inline Double_t AliAODv0::PseudoRapNeg()   const {
  return EtaProng(1);
}
//----------------------------------------------------------------------------

#endif
Commit	Line	Data
61690c9e	1	#ifndef AliAODv0_H
	2	#define AliAODv0_H
	3	/* Copyright(c) 1998-2007, ALICE Experiment at CERN, All rights reserved. *
	4	* See cxx source for full Copyright notice */
	5
	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	//-------------------------------------------------------------------------
	11
	12	#include "AliAODRecoDecay.h"
	13
	14	//class AliESDEvent;
	15	//class AliESDv0;
	16
	17	class AliAODv0 : public AliAODRecoDecay {
	18
	19	public:
	20
	21	AliAODv0();
	22	// AliAODv0(AliESDv0 rV0Vertex, AliESDEvent rEvent);
	23	AliAODv0(AliAODVertex *rAODVertex, Double_t rDcaV0Daughters, Double_t rDcaV0ToPrimVertex,
	24	Double_t rMomPos, Double_t rMomNeg, Double_t *rDcaDaughterToPrimVertex);
	25	virtual ~AliAODv0();
	26
	27	AliAODv0(const AliAODv0& rAliAODv0);
	28	AliAODv0& operator=(const AliAODv0& rAliAODv0);
	29
	30	// void Fill(AliESDv0 rV0Vertex, AliESDEvent rEvent);
	31	void Fill(AliAODVertex *rAODVertex, Double_t rDcaV0Daughters, Double_t rDcaV0ToPrimVertex,
	32	Double_t rMomPos, Double_t rMomNeg, Double_t *rDcaDaughterToPrimVertex);
	33	void ResetV0();
	34	void Print(Option_t* option = "") const;
	35
	36	Double_t DecayVertexV0X() const;
	37	Double_t DecayVertexV0Y() const;
	38	Double_t DecayVertexV0Z() const;
	39
	40	Double_t DecayLengthV0(double*) const;
	41
	42	Double_t DcaV0Daughters() const;
	43	Double_t DcaV0ToPrimVertex() const;
	44	Double_t DcaPosToPrimVertex() const;
	45	Double_t DcaNegToPrimVertex() const;
	46	Double_t RadiusV0() const;
	47	Double_t OpenAngleV0() const;
	48
	49	Double_t MomPosX() const;
	50	Double_t MomPosY() const;
	51	Double_t MomPosZ() const;
	52	Double_t MomNegX() const;
	53	Double_t MomNegY() const;
	54	Double_t MomNegZ() const;
	55
	56	// Int_t KeyPos() const;
	57	// Int_t KeyNeg() const;
	58
	59	Double_t Chi2V0() const;
	60
	61	Double_t MomV0X() const;
	62	Double_t MomV0Y() const;
	63	Double_t MomV0Z() const;
	64
65	Double_t Ptot2Pos() const;
66	Double_t Ptot2Neg() const;
67	Double_t Ptot2V0() const;
68	Double_t Pt2V0() const;
69	Double_t MomPosAlongV0() const;
70	Double_t MomNegAlongV0() const;
71	Double_t AlphaV0() const;
72	Double_t PtArmV0() const;
73	Double_t EPosProton() const;
74	Double_t ENegProton() const;
75	Double_t EPosPion() const;
76	Double_t ENegPion() const;
77	Double_t ELambda() const;
78	Double_t EK0Short() const;
79	Double_t MassLambda() const;
80	Double_t MassAntiLambda() const;
81	Double_t MassK0Short() const;
82	Double_t RapK0Short() const;
83	Double_t RapLambda() const;
84	Double_t PseudoRapV0() const;
85	Double_t PseudoRapPos() const;
86	Double_t PseudoRapNeg() const;
87
88
89	protected:
90	Double32_t fDcaV0ToPrimVertex; // dca of V0 to primary vertex
91	ClassDef(AliAODv0,1)
92	};
93
94	inline Double_t AliAODv0::DecayVertexV0X() const {return this->GetSecVtxX();}
95	inline Double_t AliAODv0::DecayVertexV0Y() const {return this->GetSecVtxY();}
96	inline Double_t AliAODv0::DecayVertexV0Z() const {return this->GetSecVtxZ();}
97
98	inline Double_t AliAODv0::DecayLengthV0(double *tParentVertexPosition) const {
99	return ::sqrt(::pow(DecayVertexV0X() - tParentVertexPosition[0],2) +
100	::pow(DecayVertexV0Y() - tParentVertexPosition[1],2) +
101	::pow(DecayVertexV0Z() - tParentVertexPosition[2],2));
102	}
103
104	inline Double_t AliAODv0::DcaV0Daughters() const {return fDCA[0];}
105	inline Double_t AliAODv0::DcaV0ToPrimVertex() const {return fDcaV0ToPrimVertex;}
106	inline Double_t AliAODv0::DcaPosToPrimVertex() const {return fd0[0];}
107	inline Double_t AliAODv0::DcaNegToPrimVertex() const {return fd0[1];}
108
109	inline Double_t AliAODv0::RadiusV0() const {
110	return RadiusSecVtx();
111	}
112
113	inline Double_t AliAODv0::OpenAngleV0() const {
114	Double_t lPtot1xPtot2 = PxProng(0)PxProng(1)+PyProng(0)PyProng(1)+PzProng(0)*PzProng(1);
115	Double_t lPtot1Ptot2_2 = Ptot2Pos()*Ptot2Neg();
116	return ::acos(lPtot1xPtot2/::sqrt(lPtot1Ptot2_2) );
117	}
118
119	inline Double_t AliAODv0::MomPosX() const {return fPx[0];}
120	inline Double_t AliAODv0::MomPosY() const {return fPy[0];}
121	inline Double_t AliAODv0::MomPosZ() const {return fPz[0];}
122	inline Double_t AliAODv0::MomNegX() const {return fPx[1];}
123	inline Double_t AliAODv0::MomNegY() const {return fPy[1];}
124	inline Double_t AliAODv0::MomNegZ() const {return fPz[1];}
125
126	// inline Int_t AliAODv0::KeyPos() const {return fKeyPos;}
127	// inline Int_t AliAODv0::KeyNeg() const {return fKeyNeg;}
128
5cc73331	129	inline Double_t AliAODv0::Chi2V0() const {return GetSecondaryVtx()->GetChi2perNDF();}
61690c9e	130
	131	// Compare eventually AliAODv0::MomV0X() and AliAODRecoDecay::Px()
	132	inline Double_t AliAODv0::MomV0X() const {return MomPosX()+MomNegX();}
	133	inline Double_t AliAODv0::MomV0Y() const {return MomPosY()+MomNegY();}
	134	inline Double_t AliAODv0::MomV0Z() const {return MomPosZ()+MomNegZ();}
	135
	136	inline Double_t AliAODv0::Ptot2Pos() const {
	137	return (::pow(MomPosX(),2) + ::pow(MomPosY(),2) + ::pow(MomPosZ(),2) );
	138	}
	139	inline Double_t AliAODv0::Ptot2Neg() const {
	140	return (::pow(MomNegX(),2) + ::pow(MomNegY(),2) + ::pow(MomNegZ(),2) );
	141	}
	142	inline Double_t AliAODv0::Ptot2V0() const {return ( Pt2V0() + ::pow(MomV0Z(),2) );}
	143	inline Double_t AliAODv0::Pt2V0() const {
	144	return (::pow(MomV0X(),2) + ::pow(MomV0Y(),2) );
	145	}
	146
	147	inline Double_t AliAODv0::MomPosAlongV0() const {
	148	Double_t lPtot2V0 = Ptot2V0();
	149	if (lPtot2V0)
	150	return (MomPosX()*MomV0X() +
	151	MomPosY()*MomV0Y() +
	152	MomPosZ()*MomV0Z()) / ::sqrt(lPtot2V0);
	153	return 0.;
	154	}
	155
	156	inline Double_t AliAODv0::MomNegAlongV0() const {
	157	Double_t lPtot2V0 = Ptot2V0();
	158	if (lPtot2V0)
	159	return (MomNegX()*MomV0X() +
	160	MomNegY()*MomV0Y() +
	161	MomNegZ()*MomV0Z()) / ::sqrt(lPtot2V0);
	162	return 0.;
	163	}
	164
	165	inline Double_t AliAODv0::AlphaV0() const {
	166	return Alpha();
	167	}
	168	inline Double_t AliAODv0::PtArmV0() const {
	169	return QtProng(0);
	170	}
	171
	172	inline Double_t AliAODv0::EPosProton() const {
	173	return EProng(0,2212);
	174	}
	175
	176	inline Double_t AliAODv0::ENegProton() const {
	177	return EProng(1,2212);
	178	}
	179
	180	inline Double_t AliAODv0::EPosPion() const {
	181	return EProng(0,211);
	182	}
	183
	184	inline Double_t AliAODv0::ENegPion() const {
	185	return EProng(1,211);
	186	}
	187
	188	inline Double_t AliAODv0::ELambda() const {
	189	return E(3122);
	190	}
	191
	192	inline Double_t AliAODv0::EK0Short() const {
	193	return E(310);
194	}
195
196	inline Double_t AliAODv0::MassLambda() const {
197	return InvMass2Prongs(0,1,2212,211);
198	}
199
200	inline Double_t AliAODv0::MassAntiLambda() const {
201	return InvMass2Prongs(0,1,211,2212);
202	}
203
204	inline Double_t AliAODv0::MassK0Short() const {
205	return InvMass2Prongs(0,1,211,211);
206	}
207
208	inline Double_t AliAODv0::RapK0Short() const {
209	return Y(310);
210	}
211
212	inline Double_t AliAODv0::RapLambda() const {
213	return Y(3122);
214	}
215
216	inline Double_t AliAODv0::PseudoRapV0() const {
217	return Eta();
218	}
219
220	inline Double_t AliAODv0::PseudoRapPos() const {
221	return EtaProng(0);
222	}
223
224	inline Double_t AliAODv0::PseudoRapNeg() const {
225	return EtaProng(1);
226	}
227	//----------------------------------------------------------------------------
228
229	#endif