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

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

/* $Id$ */

//-------------------------------------------------------------------------
//     AOD jet class
//     Author: Andreas Morsch, CERN
//-------------------------------------------------------------------------

#include <TLorentzVector.h>
#include "AliVParticle.h"
#include <TArrayI.h>
#include "AliAODVertex.h"


class AliAODJet : public AliVParticle {

 public:
    AliAODJet();
    AliAODJet(Double_t px, Double_t py, Double_t pz, Double_t e);
    AliAODJet(TLorentzVector & p);  
    virtual ~AliAODJet();
    AliAODJet(const AliAODJet& jet); 
    AliAODJet& operator=(const AliAODJet& jet);
// AliVParticle methods
    virtual Double_t Px()         const { return fMomentum->Px();      }
    virtual Double_t Py()         const { return fMomentum->Py();      }
    virtual Double_t Pz()         const { return fMomentum->Pz();      }
    virtual Double_t Pt()         const { return fMomentum->Pt();      }
    virtual Double_t P()          const { return fMomentum->P();       }
    virtual Double_t OneOverPt()  const { return 1. / fMomentum->Pt(); }
    virtual Bool_t   PxPyPz(Double_t p[3]) const { p[0] = Px(); p[1] = Py(); p[2] = Pz(); return kTRUE; }
    virtual Double_t Phi()        const;
    virtual Double_t Theta()      const { return fMomentum->Theta();   }
    virtual Double_t E()          const { return fMomentum->E();       }
    virtual Double_t M()          const { return fMomentum->M();       }
    virtual Double_t Eta()        const { return fMomentum->Eta();     }
    virtual Double_t Y()          const { return fMomentum->Rapidity();}
    virtual Double_t Xv()         const {return -999.;} // put reasonable values here
    virtual Double_t Yv()         const {return -999.;} //
    virtual Double_t Zv()         const {return -999.;} //
    virtual Bool_t   XvYvZv(Double_t x[3]) const { x[0] = Xv(); x[1] = Yv(); x[2] = Zv(); return kTRUE; }  
    virtual Bool_t   IsTriggeredEMCAL(){return (fTrigger&kEMCALTriggered)==kEMCALTriggered;}
    virtual Bool_t   IsTriggeredTRD(){return (fTrigger&kTRDTriggered)==kTRDTriggered;}
    virtual UChar_t  Trigger(){return fTrigger;}

    virtual void     AddTrack(TObject *tr);
    
    TObject* GetTrack(Int_t i) {return fRefTracks->At(i);}
    virtual void     SetBgEnergy(Double_t bgEnCh, Double_t bgEnNe)
	{fBackgEnergy[0] = bgEnCh; fBackgEnergy[1] = bgEnNe;}
    virtual void     SetEffArea(Double_t effACh, Double_t effANe, Double_t effAErrCh = 0, Double_t effAErrNe = 0)
	{
	  fEffectiveArea[0] = effACh; fEffectiveArea[1] = effANe;
	  fEffectiveAreaError[0] = effAErrCh;
	  fEffectiveAreaError[1] = effAErrNe;
	}
    virtual void     SetPxPyPzE(Double_t px, Double_t py, Double_t pz, Double_t e);
    virtual void     SetTrigger(UChar_t f){fTrigger |= f;}
    virtual void     ResetTrigger(UChar_t f){fTrigger &= ~f;}

    virtual TRefArray* GetRefTracks()           const { return  fRefTracks;}
    virtual Double_t   ChargedBgEnergy()        const { return  fBackgEnergy[0];}
    virtual Double_t   NeutralBgEnergy()        const { return  fBackgEnergy[1];}
    virtual Double_t   TotalBgEnergy()          const { return (fBackgEnergy[0] + fBackgEnergy[1]);}

    virtual Double_t   EffectiveAreaCharged()   const { return  fEffectiveArea[0];}
    virtual Double_t   EffectiveAreaNeutral()   const { return  fEffectiveArea[1];}
    virtual void SetVectorAreaCharged(TLorentzVector *effVACh){
      if(!fVectorAreaCharged)fVectorAreaCharged= new TLorentzVector(*effVACh);
      else *fVectorAreaCharged = *effVACh;
    }
    virtual TLorentzVector*  VectorAreaCharged()   const {return fVectorAreaCharged;}


    virtual Double_t   ErrorEffectiveAreaCharged()   const { return  fEffectiveAreaError[0];}
    virtual Double_t   ErrorEffectiveAreaNeutral()   const { return  fEffectiveAreaError[1];}
    virtual Double_t   DeltaR(const AliVParticle* part);

    
    TLorentzVector*    MomentumVector()         const {return fMomentum;}
    virtual void       Print(Option_t* /*option*/) const;
    
// Dummy  
    virtual Short_t Charge()      const { return 0;}
    virtual const Double_t* PID() const { return NULL;}
    virtual Int_t   GetLabel()    const { return -1;}
  // Dummy
    virtual Int_t    PdgCode()    const {return 0;}

//

    // first only one bit for EMCAL and TRD, leave space for more
    // trigger types and/or other detectors
    enum {kEMCALTriggered = 1<<0,
	  kTRDTriggered = 4<<0};


 private:
    Double32_t      fBackgEnergy[2];         // Subtracted background energy
    Double32_t      fEffectiveArea[2];       // Effective jet area used for background subtraction
    Double32_t      fEffectiveAreaError[2];  //[0,1,10] relative error of jet areas, 10 bit precision
    Double32_t      fNeutralFraction;        //[0,1,12] Neutral fraction between 0 and 1 12 bit precision;
    UChar_t         fTrigger;                // Bit mask to flag jets triggered by a certain detector  
    TLorentzVector* fMomentum;               // Jet 4-momentum vector
    TLorentzVector* fVectorAreaCharged;      // jet area four momentum 
    TRefArray*      fRefTracks;              // array of references to the tracks belonging to the jet

    ClassDef(AliAODJet,7);

};

inline Double_t AliAODJet::Phi() const
{
    // Return phi
    Double_t phi = fMomentum->Phi();
    if (phi < 0.) phi += 2. * TMath::Pi();
    return phi;
}

#endif
Commit	Line	Data
df9db588	1	#ifndef AliAODJet_H
	2	#define AliAODJet_H
	3	/* Copyright(c) 1998-2007, ALICE Experiment at CERN, All rights reserved. *
	4	* See cxx source for full Copyright notice */
	5
	6	/* $Id$ */
	7
	8	//-------------------------------------------------------------------------
87102d3c	9	// AOD jet class
87102d3c	10	// Author: Andreas Morsch, CERN
df9db588	11	//-------------------------------------------------------------------------
df9db588	12
23abe6aa	13	#include <TLorentzVector.h>
ff7c57dd	14	#include "AliVParticle.h"
2e7293a2	15	#include <TArrayI.h>
df9db588	16	#include "AliAODVertex.h"
df9db588	17
87102d3c	18
ff7c57dd	19	class AliAODJet : public AliVParticle {
df9db588	20
df9db588	21	public:
87102d3c	22	AliAODJet();
87102d3c	23	AliAODJet(Double_t px, Double_t py, Double_t pz, Double_t e);
a1708071	24	AliAODJet(TLorentzVector & p);
87102d3c	25	virtual ~AliAODJet();
	26	AliAODJet(const AliAODJet& jet);
	27	AliAODJet& operator=(const AliAODJet& jet);
ff7c57dd	28	// AliVParticle methods
87102d3c	29	virtual Double_t Px() const { return fMomentum->Px(); }
	30	virtual Double_t Py() const { return fMomentum->Py(); }
	31	virtual Double_t Pz() const { return fMomentum->Pz(); }
	32	virtual Double_t Pt() const { return fMomentum->Pt(); }
	33	virtual Double_t P() const { return fMomentum->P(); }
	34	virtual Double_t OneOverPt() const { return 1. / fMomentum->Pt(); }
c683ddc2	35	virtual Bool_t PxPyPz(Double_t p[3]) const { p[0] = Px(); p[1] = Py(); p[2] = Pz(); return kTRUE; }
4124c6c5	36	virtual Double_t Phi() const;
87102d3c	37	virtual Double_t Theta() const { return fMomentum->Theta(); }
	38	virtual Double_t E() const { return fMomentum->E(); }
	39	virtual Double_t M() const { return fMomentum->M(); }
	40	virtual Double_t Eta() const { return fMomentum->Eta(); }
	41	virtual Double_t Y() const { return fMomentum->Rapidity();}
c683ddc2	42	virtual Double_t Xv() const {return -999.;} // put reasonable values here
	43	virtual Double_t Yv() const {return -999.;} //
	44	virtual Double_t Zv() const {return -999.;} //
	45	virtual Bool_t XvYvZv(Double_t x[3]) const { x[0] = Xv(); x[1] = Yv(); x[2] = Zv(); return kTRUE; }
a5817b6b	46	virtual Bool_t IsTriggeredEMCAL(){return (fTrigger&kEMCALTriggered)==kEMCALTriggered;}
	47	virtual Bool_t IsTriggeredTRD(){return (fTrigger&kTRDTriggered)==kTRDTriggered;}
	48	virtual UChar_t Trigger(){return fTrigger;}
4124c6c5	49
086d6981	50	virtual void AddTrack(TObject *tr);
086d6981	51
2e7293a2	52	TObject* GetTrack(Int_t i) {return fRefTracks->At(i);}
87102d3c	53	virtual void SetBgEnergy(Double_t bgEnCh, Double_t bgEnNe)
87102d3c	54	{fBackgEnergy[0] = bgEnCh; fBackgEnergy[1] = bgEnNe;}
a5817b6b	55	virtual void SetEffArea(Double_t effACh, Double_t effANe, Double_t effAErrCh = 0, Double_t effAErrNe = 0)
	56	{
	57	fEffectiveArea[0] = effACh; fEffectiveArea[1] = effANe;
	58	fEffectiveAreaError[0] = effAErrCh;
	59	fEffectiveAreaError[1] = effAErrNe;
	60	}
944efc80	61	virtual void SetPxPyPzE(Double_t px, Double_t py, Double_t pz, Double_t e);
a5817b6b	62	virtual void SetTrigger(UChar_t f){fTrigger \|= f;}
a5817b6b	63	virtual void ResetTrigger(UChar_t f){fTrigger &= ~f;}
944efc80	64
2e7293a2	65	virtual TRefArray* GetRefTracks() const { return fRefTracks;}
	66	virtual Double_t ChargedBgEnergy() const { return fBackgEnergy[0];}
	67	virtual Double_t NeutralBgEnergy() const { return fBackgEnergy[1];}
	68	virtual Double_t TotalBgEnergy() const { return (fBackgEnergy[0] + fBackgEnergy[1]);}
87102d3c	69
2e7293a2	70	virtual Double_t EffectiveAreaCharged() const { return fEffectiveArea[0];}
2e7293a2	71	virtual Double_t EffectiveAreaNeutral() const { return fEffectiveArea[1];}
3e03e74b	72	virtual void SetVectorAreaCharged(TLorentzVector *effVACh){
	73	if(!fVectorAreaCharged)fVectorAreaCharged= new TLorentzVector(*effVACh);
	74	else fVectorAreaCharged = effVACh;
	75	}
	76	virtual TLorentzVector* VectorAreaCharged() const {return fVectorAreaCharged;}
	77
	78
	79
a5817b6b	80	virtual Double_t ErrorEffectiveAreaCharged() const { return fEffectiveAreaError[0];}
a5817b6b	81	virtual Double_t ErrorEffectiveAreaNeutral() const { return fEffectiveAreaError[1];}
a19f293d	82	virtual Double_t DeltaR(const AliVParticle* part);
87102d3c	83
a19f293d	84
66ac9c97	85	TLorentzVector* MomentumVector() const {return fMomentum;}
a19f293d	86	virtual void Print(Option_t* /option/) const;
87102d3c	87
	88	// Dummy
	89	virtual Short_t Charge() const { return 0;}
	90	virtual const Double_t* PID() const { return NULL;}
3c43fb2b	91	virtual Int_t GetLabel() const { return -1;}
6a8e543a	92	// Dummy
	93	virtual Int_t PdgCode() const {return 0;}
	94
87102d3c	95	//
3a4dcedf	96
a5817b6b	97	// first only one bit for EMCAL and TRD, leave space for more
	98	// trigger types and/or other detectors
	99	enum {kEMCALTriggered = 1<<0,
	100	kTRDTriggered = 4<<0};
	101
9333290e	102
a5817b6b	103	private:
086d6981	104	Double32_t fBackgEnergy[2]; // Subtracted background energy
086d6981	105	Double32_t fEffectiveArea[2]; // Effective jet area used for background subtraction
a5817b6b	106	Double32_t fEffectiveAreaError[2]; //[0,1,10] relative error of jet areas, 10 bit precision
086d6981	107	Double32_t fNeutralFraction; //[0,1,12] Neutral fraction between 0 and 1 12 bit precision;
	108	UChar_t fTrigger; // Bit mask to flag jets triggered by a certain detector
	109	TLorentzVector* fMomentum; // Jet 4-momentum vector
3e03e74b	110	TLorentzVector* fVectorAreaCharged; // jet area four momentum
086d6981	111	TRefArray* fRefTracks; // array of references to the tracks belonging to the jet
9333290e	112
3e03e74b	113	ClassDef(AliAODJet,7);
4124c6c5	114
df9db588	115	};
df9db588	116
4124c6c5	117	inline Double_t AliAODJet::Phi() const
	118	{
	119	// Return phi
	120	Double_t phi = fMomentum->Phi();
	121	if (phi < 0.) phi += 2. * TMath::Pi();
	122	return phi;
	123	}
	124
df9db588	125	#endif