[u/mrichter/AliRoot.git] / MUON / AliMUONTrackLight.h

#ifndef ALIMUONTRACKLIGHT_H
#define ALIMUONTRACKLIGHT_H
/* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
 * See cxx source for full Copyright notice                               */

/* $Id$ */
// Revision of includes 06/09/2006

/// \ingroup analysis
/// \class AliMUONTrackLight
/// \brief Compact information for the muon generated tracks
/// 
/// Compact information for the muon generated tracks in the MUON arm 
/// useful at the last stage of the analysis chain
/// provides a link between the reconstructed track and the generated particle 
/// stores kinematical information at gen. and rec. level and 
/// the decay history of the muon, allowing the identification of the 
/// mother process 
/// 
/// To be used together with AliMUONPairLight
///
/// \author This class was prepared by INFN Cagliari, July 2006
/// (authors: H.Woehri, A.de Falco)

// ROOT classes
#include "TLorentzVector.h"

class AliMUONTrack;
class AliESDMuonTrack;
class AliRunLoader;

class TParticle;

class AliMUONTrackLight : public TObject { 
 public: 
  AliMUONTrackLight(); 
  AliMUONTrackLight(AliESDMuonTrack* muonTrack); 
  AliMUONTrackLight(const AliMUONTrackLight &muonCopy);
  virtual ~AliMUONTrackLight(){;} 
  
  void SetPGen(TLorentzVector pgen) {fPgen = pgen;}
  TLorentzVector GetPGen() const {return fPgen;}
  void SetPRec(TLorentzVector prec) {fPrec = prec;}
  TLorentzVector GetPRec() const {return fPrec;}
  void SetVertex(Double_t *xyz) {for (Int_t i=0; i<3; i++) fXYZ[i]=xyz[i];}
  Double_t* GetVertex() { return fXYZ; } 
  void SetCharge(Int_t charge) {fCharge = charge;}
  Int_t GetCharge() const {return fCharge;}
  Int_t GetParentPDGCode(Int_t index = 0) const { return fParentPDGCode[index]; } 
  Int_t GetParentPythiaLine(Int_t index = 0) const { return fParentPythiaLine[index]; } 
  Int_t GetQuarkPDGCode(Int_t index = 0) const { return fQuarkPDGCode[index]; } 
  Int_t GetQuarkPythiaLine(Int_t index = 0) const { return fQuarkPythiaLine[index]; } 
  Int_t GetTrackPythiaLine() const {return fTrackPythiaLine;}
  Int_t GetTrackPDGCode() const {return fTrackPDGCode;}
  void SetTrackPythiaLine(Int_t trackLine) {fTrackPythiaLine = trackLine;}
  void SetTrackPDGCode(Int_t trackPdg) {fTrackPDGCode = trackPdg;}
  void ComputePRecAndChargeFromESD(AliESDMuonTrack* muonTrack);
  Bool_t IsAMuon() const { return (TMath::Abs(fTrackPDGCode)==13); }
  void SetPxPyPz(Double_t px, Double_t py, Double_t pz); 
  void SetTriggered(Bool_t isTriggered) { fIsTriggered = isTriggered; } 
  Bool_t IsTriggered() const { return fIsTriggered; } 
  TParticle* FindRefTrack(AliMUONTrack* trackReco, TClonesArray* trackRefArray, AliRunLoader *runLoader); 
  Int_t TrackCheck(Bool_t *compTrack);
  Int_t GetNParents() const {return fNParents;}
  void FillMuonHistory(AliRunLoader *runLoader, TParticle *part);
  Bool_t IsB0(Int_t intTest) const;//checks if the provided PDG code corresponds to a neutral B meson
  Bool_t IsMotherAResonance(Int_t index=0) const;
  Bool_t GetOscillation() const {return fOscillation;}
  virtual void PrintInfo(Option_t* opt); //"H" muon's decay history
  //"K" muon kinematics
  //"A" all variables
  Int_t GetParentFlavour(Int_t idParent=0) const;
protected:
  static const Int_t fgkNParentsMax = 5;   /// maximum number of parents
  TLorentzVector fPrec; /// reconstructed 4-momentum
  Double_t fXYZ[3];     /// primary vertex position from the ITS 
  Bool_t fIsTriggered;  /// flag for trigger 
  Int_t fCharge;        /// muon charge 
  Float_t fCentr;       /// centrality 
  TLorentzVector fPgen;   /// 4-momentum of the generated particle
  Int_t fTrackPythiaLine; ///line of kin. stack where rec. track (in general, the muon) is stored
  Int_t fTrackPDGCode; ///pdg code of the rec. track (in general will be a muon)
  Int_t fParentPDGCode[fgkNParentsMax]; /// hadronised parents and grandparents 
  Int_t fParentPythiaLine[fgkNParentsMax];///line of Pythia output for hadronised parents & grandparents
  Int_t fQuarkPDGCode[4]; /// pdg of the string [0], quarks/gluons [1,2], sometimes proton [3] 
  Int_t fQuarkPythiaLine[4]; ///line of Pythia output for string [0] and quarks [1,2], sometimes proton [3]
  Bool_t fOscillation; /// flag for oscillation
  Int_t fNParents; ///acually filled no. of *fragmented* parents
  void SetOscillation(Bool_t oscillation) { fOscillation = oscillation; }
  void SetParentPDGCode(Int_t index, Int_t pdg) { fParentPDGCode[index] = pdg; } 
  void SetParentPythiaLine(Int_t index, Int_t line) { fParentPythiaLine[index] = line; } 
  void SetQuarkPDGCode(Int_t index, Int_t pdg){ fQuarkPDGCode[index] = pdg; }
  void SetQuarkPythiaLine(Int_t index, Int_t line){ fQuarkPythiaLine[index] = line; }
  void ResetQuarkInfo();

  ClassDef(AliMUONTrackLight,1)  /// Muon Track for analysis
}; 

#endif
Commit	Line	Data
55fd51b0	1	#ifndef ALIMUONTRACKLIGHT_H
	2	#define ALIMUONTRACKLIGHT_H
	3	/* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
	4	* See cxx source for full Copyright notice */
	5
	6	/* $Id$ */
	7	// Revision of includes 06/09/2006
	8
	9	/// \ingroup analysis
	10	/// \class AliMUONTrackLight
	11	/// \brief Compact information for the muon generated tracks
	12	///
	13	/// Compact information for the muon generated tracks in the MUON arm
	14	/// useful at the last stage of the analysis chain
	15	/// provides a link between the reconstructed track and the generated particle
	16	/// stores kinematical information at gen. and rec. level and
	17	/// the decay history of the muon, allowing the identification of the
	18	/// mother process
	19	///
	20	/// To be used together with AliMUONPairLight
	21	///
	22	/// \author This class was prepared by INFN Cagliari, July 2006
	23	/// (authors: H.Woehri, A.de Falco)
	24
	25	// ROOT classes
	26	#include "TLorentzVector.h"
	27
	28	class AliMUONTrack;
	29	class AliESDMuonTrack;
	30	class AliRunLoader;
	31
	32	class TParticle;
	33
	34	class AliMUONTrackLight : public TObject {
	35	public:
	36	AliMUONTrackLight();
	37	AliMUONTrackLight(AliESDMuonTrack* muonTrack);
	38	AliMUONTrackLight(const AliMUONTrackLight &muonCopy);
	39	virtual ~AliMUONTrackLight(){;}
	40
	41	void SetPGen(TLorentzVector pgen) {fPgen = pgen;}
	42	TLorentzVector GetPGen() const {return fPgen;}
	43	void SetPRec(TLorentzVector prec) {fPrec = prec;}
	44	TLorentzVector GetPRec() const {return fPrec;}
	45	void SetVertex(Double_t *xyz) {for (Int_t i=0; i<3; i++) fXYZ[i]=xyz[i];}
	46	Double_t* GetVertex() { return fXYZ; }
	47	void SetCharge(Int_t charge) {fCharge = charge;}
	48	Int_t GetCharge() const {return fCharge;}
	49	Int_t GetParentPDGCode(Int_t index = 0) const { return fParentPDGCode[index]; }
	50	Int_t GetParentPythiaLine(Int_t index = 0) const { return fParentPythiaLine[index]; }
	51	Int_t GetQuarkPDGCode(Int_t index = 0) const { return fQuarkPDGCode[index]; }
	52	Int_t GetQuarkPythiaLine(Int_t index = 0) const { return fQuarkPythiaLine[index]; }
	53	Int_t GetTrackPythiaLine() const {return fTrackPythiaLine;}
	54	Int_t GetTrackPDGCode() const {return fTrackPDGCode;}
	55	void SetTrackPythiaLine(Int_t trackLine) {fTrackPythiaLine = trackLine;}
	56	void SetTrackPDGCode(Int_t trackPdg) {fTrackPDGCode = trackPdg;}
	57	void ComputePRecAndChargeFromESD(AliESDMuonTrack* muonTrack);
	58	Bool_t IsAMuon() const { return (TMath::Abs(fTrackPDGCode)==13); }
	59	void SetPxPyPz(Double_t px, Double_t py, Double_t pz);
	60	void SetTriggered(Bool_t isTriggered) { fIsTriggered = isTriggered; }
	61	Bool_t IsTriggered() const { return fIsTriggered; }
	62	TParticle* FindRefTrack(AliMUONTrack* trackReco, TClonesArray* trackRefArray, AliRunLoader *runLoader);
	63	Int_t TrackCheck(Bool_t *compTrack);
	64	Int_t GetNParents() const {return fNParents;}
65	void FillMuonHistory(AliRunLoader runLoader, TParticle part);
66	Bool_t IsB0(Int_t intTest) const;//checks if the provided PDG code corresponds to a neutral B meson
67	Bool_t IsMotherAResonance(Int_t index=0) const;
68	Bool_t GetOscillation() const {return fOscillation;}
69	virtual void PrintInfo(Option_t* opt); //"H" muon's decay history
70	//"K" muon kinematics
71	//"A" all variables
72	Int_t GetParentFlavour(Int_t idParent=0) const;
73	protected:
74	static const Int_t fgkNParentsMax = 5; /// maximum number of parents
75	TLorentzVector fPrec; /// reconstructed 4-momentum
76	Double_t fXYZ[3]; /// primary vertex position from the ITS
77	Bool_t fIsTriggered; /// flag for trigger
78	Int_t fCharge; /// muon charge
79	Float_t fCentr; /// centrality
80	TLorentzVector fPgen; /// 4-momentum of the generated particle
81	Int_t fTrackPythiaLine; ///line of kin. stack where rec. track (in general, the muon) is stored
82	Int_t fTrackPDGCode; ///pdg code of the rec. track (in general will be a muon)
83	Int_t fParentPDGCode[fgkNParentsMax]; /// hadronised parents and grandparents
84	Int_t fParentPythiaLine[fgkNParentsMax];///line of Pythia output for hadronised parents & grandparents
85	Int_t fQuarkPDGCode[4]; /// pdg of the string [0], quarks/gluons [1,2], sometimes proton [3]
86	Int_t fQuarkPythiaLine[4]; ///line of Pythia output for string [0] and quarks [1,2], sometimes proton [3]
87	Bool_t fOscillation; /// flag for oscillation
88	Int_t fNParents; ///acually filled no. of fragmented parents
89	void SetOscillation(Bool_t oscillation) { fOscillation = oscillation; }
90	void SetParentPDGCode(Int_t index, Int_t pdg) { fParentPDGCode[index] = pdg; }
91	void SetParentPythiaLine(Int_t index, Int_t line) { fParentPythiaLine[index] = line; }
92	void SetQuarkPDGCode(Int_t index, Int_t pdg){ fQuarkPDGCode[index] = pdg; }
93	void SetQuarkPythiaLine(Int_t index, Int_t line){ fQuarkPythiaLine[index] = line; }
94	void ResetQuarkInfo();
95
96	ClassDef(AliMUONTrackLight,1) /// Muon Track for analysis
97	};
98
99	#endif